diff --git a/.github/ISSUE_TEMPLATE/new_module.md b/.github/ISSUE_TEMPLATE/new_module.md new file mode 100644 index 00000000..5c7e61cc --- /dev/null +++ b/.github/ISSUE_TEMPLATE/new_module.md @@ -0,0 +1,26 @@ +--- +name: New module +about: Suggest a new module for nf-core/modules +title: "new module: TOOL/SUBTOOL" +label: new module +--- + + + +I think it would be good to have a module for [TOOL](https://bioconda.github.io/recipes/TOOL/README.html) + +- [ ] This module does not exist yet with the [`nf-core modules list`](https://github.com/nf-core/tools#list-modules) command +- [ ] There is no [open pull request](https://github.com/nf-core/modules/pulls) for this module +- [ ] There is no [open issue](https://github.com/nf-core/modules/issues) for this module +- [ ] If I'm planning to work on this module, I added myself to the `Assignees` to facilitate tracking who is working on the module diff --git a/.github/PULL_REQUEST_TEMPLATE.md b/.github/PULL_REQUEST_TEMPLATE.md index 4840a93d..059133d6 100644 --- a/.github/PULL_REQUEST_TEMPLATE.md +++ b/.github/PULL_REQUEST_TEMPLATE.md @@ -13,6 +13,8 @@ Learn more about contributing: [CONTRIBUTING.md](https://github.com/nf-core/modu ## PR checklist +Closes #XXX + - [ ] This comment contains a description of changes (with reason). - [ ] If you've fixed a bug or added code that should be tested, add tests! - [ ] If you've added a new tool - have you followed the module conventions in the [contribution docs](https://github.com/nf-core/modules/tree/master/.github/CONTRIBUTING.md) diff --git a/.github/workflows/pytest-workflow.yml b/.github/workflows/pytest-workflow.yml index ceec03b0..c7479963 100644 --- a/.github/workflows/pytest-workflow.yml +++ b/.github/workflows/pytest-workflow.yml @@ -23,7 +23,7 @@ jobs: strategy: fail-fast: false matrix: - nxf_version: ['20.11.0-edge'] + nxf_version: ['20.11.0-edge', '21.03.0-edge'] tags: ['${{ fromJson(needs.changes.outputs.modules) }}'] profile: ['docker', 'singularity', 'conda'] env: @@ -92,3 +92,4 @@ jobs: /home/runner/pytest_workflow_*/*/.nextflow.log /home/runner/pytest_workflow_*/*/log.out /home/runner/pytest_workflow_*/*/log.err + /home/runner/pytest_workflow_*/*/work diff --git a/README.md b/README.md index 121f38fe..c4313f21 100644 --- a/README.md +++ b/README.md @@ -11,7 +11,7 @@ [![Follow on Twitter](http://img.shields.io/badge/twitter-%40nf__core-1DA1F2?labelColor=000000&logo=twitter)](https://twitter.com/nf_core) [![Watch on YouTube](http://img.shields.io/badge/youtube-nf--core-FF0000?labelColor=000000&logo=youtube)](https://www.youtube.com/c/nf-core) -> THIS REPOSITORY IS UNDER ACTIVE DEVELOPMENT. SYNTAX, ORGANISATION AND LAYOUT MAY CHANGE WITHOUT NOTICE! +> THIS REPOSITORY IS UNDER ACTIVE DEVELOPMENT. SYNTAX, ORGANISATION AND LAYOUT MAY CHANGE WITHOUT NOTICE! > PLEASE BE KIND TO OUR CODE REVIEWERS AND SUBMIT ONE PULL REQUEST PER MODULE :) A repository for hosting [Nextflow DSL2](https://www.nextflow.io/docs/latest/dsl2.html) module files containing tool-specific process definitions and their associated documentation. @@ -20,12 +20,14 @@ A repository for hosting [Nextflow DSL2](https://www.nextflow.io/docs/latest/dsl - [Using existing modules](#using-existing-modules) - [Adding a new module file](#adding-a-new-module-file) - - [Module template](#module-template) - - [Guidelines](#guidelines) - - [Testing](#testing) - - [Documentation](#documentation) + - [Checklist](#checklist) + - [nf-core modules create](#nf-core-modules-create) + - [Test data](#test-data) + - [Running tests manually](#running-tests-manually) - [Uploading to `nf-core/modules`](#uploading-to-nf-coremodules) + - [Guidelines](#guidelines) - [Terminology](#terminology) +- [Nextflow edge releases](#nextflow-edge-releases) - [Help](#help) - [Citation](#citation) @@ -35,51 +37,47 @@ The module files hosted in this repository define a set of processes for softwar We have written a helper command in the `nf-core/tools` package that uses the GitHub API to obtain the relevant information for the module files present in the [`software/`](software/) directory of this repository. This includes using `git` commit hashes to track changes for reproducibility purposes, and to download and install all of the relevant module files. -1. [Install](https://github.com/nf-core/tools#installation) the latest version of `nf-core/tools` (`>=1.10.2`) +1. Install the latest version of [`nf-core/tools`](https://github.com/nf-core/tools#installation) (`>=1.13`) 2. List the available modules: ```console $ nf-core modules list - ,--./,-. - ___ __ __ __ ___ /,-._.--~\ - |\ | |__ __ / ` / \ |__) |__ } { - | \| | \__, \__/ | \ |___ \`-._,-`-, - `._,._,' + ,--./,-. + ___ __ __ __ ___ /,-._.--~\ + |\ | |__ __ / ` / \ |__) |__ } { + | \| | \__, \__/ | \ |___ \`-._,-`-, + `._,._,' - nf-core/tools version 1.10.2 + nf-core/tools version 1.13 + INFO Modules available from nf-core/modules (master): pipeline_modules.py:164 - - INFO Modules available from nf-core/modules (master): modules.py:51 - - bwa/index - bwa/mem - deeptools/computematrix - deeptools/plotfingerprint - deeptools/plotheatmap - deeptools/plotprofile - fastqc + ┏━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━┓ + ┃ Module Name ┃ + ┡━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━┩ + │ bandage/image │ + │ bcftools/consensus │ + │ bcftools/filter │ + │ bcftools/isec │ ..truncated.. ``` 3. Install the module in your pipeline directory: ```console - $ nf-core modules install . fastqc + $ nf-core modules install . --tool fastqc - ,--./,-. - ___ __ __ __ ___ /,-._.--~\ - |\ | |__ __ / ` / \ |__) |__ } { - | \| | \__, \__/ | \ |___ \`-._,-`-, - `._,._,' + ,--./,-. + ___ __ __ __ ___ /,-._.--~\ + |\ | |__ __ / ` / \ |__) |__ } { + | \| | \__, \__/ | \ |___ \`-._,-`-, + `._,._,' - nf-core/tools version 1.10.2 + nf-core/tools version 1.13 - - - INFO Installing fastqc modules.py:62 - INFO Downloaded 3 files to ./modules/nf-core/software/fastqc modules.py:97 + INFO Installing fastqc pipeline_modules.py:213 + INFO Downloaded 3 files to ./modules/nf-core/software/fastqc pipeline_modules.py:236 ``` 4. Import the module in your Nextflow script: @@ -92,25 +90,59 @@ We have written a helper command in the `nf-core/tools` package that uses the Gi include { FASTQC } from './modules/nf-core/software/fastqc/main' addParams( options: [:] ) ``` -5. We have plans to add other utility commands to help developers install and maintain modules downloaded from this repository so watch this space! +5. Remove the module from the pipeline repository if required: ```console - $ nf-core modules --help + $ nf-core modules remove . --tool fastqc - ...truncated... + ,--./,-. + ___ __ __ __ ___ /,-._.--~\ + |\ | |__ __ / ` / \ |__) |__ } { + | \| | \__, \__/ | \ |___ \`-._,-`-, + `._,._,' - Commands: - list List available software modules. - install Add a DSL2 software wrapper module to a pipeline. - update Update one or all software wrapper modules. (NOT YET IMPLEMENTED) - remove Remove a software wrapper from a pipeline. (NOT YET IMPLEMENTED) - check Check that imported module code has not been modified. (NOT YET IMPLEMENTED) + nf-core/tools version 1.13 + + INFO Removing fastqc pipeline_modules.py:271 + INFO Successfully removed fastqc pipeline_modules.py:285 ``` -## Adding a new module file +6. Check that a locally installed nf-core module is up-to-date compared to the one hosted in this repo: -> **NB:** The definition and standards for module files are still under discussion -but we are now gladly accepting submissions :) + ```console + $ nf-core modules lint . --tool fastqc + + ,--./,-. + ___ __ __ __ ___ /,-._.--~\ + |\ | |__ __ / ` / \ |__) |__ } { + | \| | \__, \__/ | \ |___ \`-._,-`-, + `._,._,' + + nf-core/tools version 1.13 + + INFO Linting pipeline: . lint.py:104 + INFO Linting module: fastqc lint.py:106 + + ╭─────────────────────────────────────────────────────────────────────────────────╮ + │ [!] 1 Test Warning │ + ╰─────────────────────────────────────────────────────────────────────────────────╯ + ╭──────────────┬───────────────────────────────┬──────────────────────────────────╮ + │ Module name │ Test message │ File path │ + ├──────────────┼───────────────────────────────┼──────────────────────────────────┤ + │ fastqc │ Local copy of module outdated │ modules/nf-core/software/fastqc/ │ + ╰──────────────┴────────────────────────────── ┴──────────────────────────────────╯ + ╭──────────────────────╮ + │ LINT RESULTS SUMMARY │ + ├──────────────────────┤ + │ [✔] 15 Tests Passed │ + │ [!] 1 Test Warning │ + │ [✗] 0 Test Failed │ + ╰──────────────────────╯ + ``` + +We have plans to add other utility commands to help developers install and maintain modules downloaded from this repository so watch this space e.g. `nf-core modules update` command to automatically check and update modules installed within the pipeline. + +## Adding a new module file If you decide to upload a module to `nf-core/modules` then this will ensure that it will become available to all nf-core pipelines, @@ -118,25 +150,204 @@ and to everyone within the Nextflow community! See [`software/`](software) for examples. -### Module template +### Checklist -We have added a directory called [`software/TOOL/SUBTOOL/`](software/TOOL/SUBTOOL/) that serves as a template with which to create your own module and [`tests/software/TOOL/SUBTOOL/`](tests/software/TOOL/SUBTOOL/) as an example of how to add the required CI tests. Where applicable, we have added extensive `TODO` statements for general information, to help guide you as to where to make the appropriate changes, and how to make them. If in doubt, have a look at how we have done things for other modules. +Please check that the module you wish to add isn't already on [`nf-core/modules`](https://github.com/nf-core/modules/tree/master/software): +- Use the [`nf-core modules list`](https://github.com/nf-core/tools#list-modules) command +- Check [open pull requests](https://github.com/nf-core/modules/pulls) +- Search [open issues](https://github.com/nf-core/modules/issues) -```console -. -├── software -│   └── TOOL -│      └── SUBTOOL -│      ├── functions.nf ## Utility functions imported in main module script -│      ├── main.nf ## Main module script -│      └── meta.yml ## Documentation for module, input, output, params, author -├── tests -│   └── software -│    └── TOOL -│       └── SUBTOOL -│   ├── main.nf ## Minimal workflow to test module -│   └── test.yml ## Pytest-workflow test file -``` +If the module doesn't exist on `nf-core/modules`: +- Please create a [new issue](https://github.com/nf-core/modules/issues/new?assignees=&labels=new%20module&template=new_nodule.md&title=new%20module:) before adding it +- Set an appropriate subject for the issue e.g. `new module: fastqc` +- Add yourself to the `Assignees` so we can track who is working on the module + +### nf-core modules create + +We have implemented a number of commands in the `nf-core/tools` package to make it incredibly easy for you to create and contribute your own modules to nf-core/modules. + +1. Install the latest version of [`nf-core/tools`](https://github.com/nf-core/tools#installation) (`>=1.13`) +2. Install [`nextflow`](https://nf-co.re/usage/installation) (`>=20.11.0-edge`; see [Nextflow edge releases](#nextflow-edge-releases)) +3. Install any of [`Docker`](https://docs.docker.com/engine/installation/), [`Singularity`](https://www.sylabs.io/guides/3.0/user-guide/) or [`Conda`](https://conda.io/miniconda.html) +4. [Fork and clone this repo locally](#uploading-to-nf-coremodules) +5. Create a module using the [nf-core DSL2 module template](https://github.com/nf-core/tools/blob/master/nf_core/module-template/software/main.nf): + + ```console + $ nf-core modules create . --tool fastqc --author @joebloggs --label process_low --meta + + ,--./,-. + ___ __ __ __ ___ /,-._.--~\ + |\ | |__ __ / ` / \ |__) |__ } { + | \| | \__, \__/ | \ |___ \`-._,-`-, + `._,._,' + + nf-core/tools version 1.13 + + INFO Using Bioconda package: 'bioconda::fastqc=0.11.9' create.py:130 + INFO Using Docker / Singularity container with tag: 'fastqc:0.11.9--0' create.py:140 + INFO Created / edited following files: create.py:218 + ./software/fastqc/functions.nf + ./software/fastqc/main.nf + ./software/fastqc/meta.yml + ./tests/software/fastqc/main.nf + ./tests/software/fastqc/test.yml + ./tests/config/pytest_software.yml + ``` + + All of the files required to add the module to `nf-core/modules` will be created/edited in the appropriate places. The 4 files you will need to change are: + + 1. [`./software/fastqc/main.nf`](https://github.com/nf-core/modules/blob/master/software/fastqc/main.nf) + + This is the main script containing the `process` definition for the module. You will see an extensive number of `TODO` statements to help guide you to fill in the appropriate sections and to ensure that you adhere to the guidelines we have set for module submissions. + + 2. [`./software/fastqc/meta.yml`](https://github.com/nf-core/modules/blob/master/software/fastqc/meta.yml) + + This file will be used to store general information about the module and author details - the majority of which will already be auto-filled. However, you will need to add a brief description of the files defined in the `input` and `output` section of the main script since these will be unique to each module. + + 3. [`./tests/software/fastqc/main.nf`](https://github.com/nf-core/modules/blob/master/tests/software/fastqc/main.nf) + + Every module MUST have a test workflow. This file will define one or more Nextflow `workflow` definitions that will be used to unit test the output files created by the module. By default, one `workflow` definition will be added but please feel free to add as many as possible so we can ensure that the module works on different data types / parameters e.g. separate `workflow` for single-end and paired-end data. + + Minimal test data required for your module may already exist within this repository, in which case you may just have to change a couple of paths in this file - see the [Test data](#test-data) section for more info and guidelines for adding new standardised data if required. + + 4. [`./tests/software/fastqc/test.yml`](https://github.com/nf-core/modules/blob/master/tests/software/fastqc/test.yml) + + This file will contain all of the details required to unit test the main script in the point above using [pytest-workflow](https://pytest-workflow.readthedocs.io/). If possible, any outputs produced by the test workflow(s) MUST be included and listed in this file along with an appropriate check e.g. md5sum. The different test options are listed in the [pytest-workflow docs](https://pytest-workflow.readthedocs.io/en/stable/#test-options). + + As highlighted in the next point, we have added a command to make it much easier to test the workflow(s) defined for the module and to automatically create the `test.yml` with the md5sum hashes for all of the outputs generated by the module. + + `md5sum` checks are the preferable choice of test to determine file changes, however, this may not be possible for all outputs generated by some tools e.g. if they include time stamps or command-related headers. Please do your best to avoid just checking for the file being present e.g. it may still be possible to check that the file contains the appropriate text snippets. + +6. Create a yaml file containing information required for module unit testing + + ```console + $ nf-core modules create-test-yml + + ,--./,-. + ___ __ __ __ ___ /,-._.--~\ + |\ | |__ __ / ` / \ |__) |__ } { + | \| | \__, \__/ | \ |___ \`-._,-`-, + `._,._,' + + nf-core/tools version 1.13 + + + INFO Press enter to use default values (shown in brackets) or type your own responses test_yml_builder.py:51 + ? Tool name: fastqc + Test YAML output path (- for stdout) (tests/software/fastqc/test.yml): + INFO Looking for test workflow entry points: 'tests/software/fastqc/main.nf' test_yml_builder.py:116 + INFO Building test meta for entry point 'test_fastqc_single_end' test_yml_builder.py:150 + Test name (fastqc test_fastqc_single_end): + Test command (nextflow run tests/software/fastqc -entry test_fastqc_single_end -c tests/config/nextflow.config): + Test tags (comma separated) (fastqc,fastqc_single_end): + Test output folder with results (leave blank to run test): + ? Choose software profile Singularity + INFO Setting env var '$PROFILE' to 'singularity' test_yml_builder.py:258 + INFO Running 'fastqc' test with command: test_yml_builder.py:263 + nextflow run tests/software/fastqc -entry test_fastqc_single_end -c tests/config/nextflow.config --outdir /tmp/tmpgbneftf5 + INFO Test workflow finished! test_yml_builder.py:276 + INFO Writing to 'tests/software/fastqc/test.yml' test_yml_builder.py:293 + ``` + + > NB: See docs for [running tests manually](#running-tests-manually) if you would like to run the tests manually. + +7. Lint the module locally to check that it adheres to nf-core guidelines before submission + + ```console + $ nf-core modules lint . --tool fastqc + + ,--./,-. + ___ __ __ __ ___ /,-._.--~\ + |\ | |__ __ / ` / \ |__) |__ } { + | \| | \__, \__/ | \ |___ \`-._,-`-, + `._,._,' + + nf-core/tools version 1.13 + + INFO Linting modules repo: . lint.py:102 + INFO Linting module: fastqc lint.py:106 + + ╭────────────────────────────────────────────────────────────────────────────────────────────────────────────────╮ + │ [!] 3 Test Warnings │ + ╰────────────────────────────────────────────────────────────────────────────────────────────────────────────────╯ + ╭──────────────┬──────────────────────────────────────────────────────────────┬──────────────────────────────────╮ + │ Module name │ Test message │ File path │ + ├──────────────┼──────────────────────────────────────────────────────────────┼──────────────────────────────────┤ + │ fastqc │ TODO string in meta.yml: #Add a description of the module... │ modules/nf-core/software/fastqc/ │ + │ fastqc │ TODO string in meta.yml: #Add a description and other det... │ modules/nf-core/software/fastqc/ │ + │ fastqc │ TODO string in meta.yml: #Add a description of all of the... │ modules/nf-core/software/fastqc/ │ + ╰──────────────┴──────────────────────────────────────────────────────────────┴──────────────────────────────────╯ + ╭────────────────────────────────────────────────────────────────────────────────────────────────────────────────╮ + │ [!] 1 Test Failed │ + ╰────────────────────────────────────────────────────────────────────────────────────────────────────────────────╯ + ╭──────────────┬──────────────────────────────────────────────────────────────┬──────────────────────────────────╮ + │ Module name │ Test message │ File path │ + ├──────────────┼──────────────────────────────────────────────────────────────┼──────────────────────────────────┤ + │ fastqc │ 'meta' map not emitted in output channel(s) │ modules/nf-core/software/fastqc/ │ + ╰──────────────┴──────────────────────────────────────────────────────────────┴──────────────────────────────────╯ + ╭──────────────────────╮ + │ LINT RESULTS SUMMARY │ + ├──────────────────────┤ + │ [✔] 38 Tests Passed │ + │ [!] 3 Test Warning │ + │ [✗] 1 Test Failed │ + ╰──────────────────────╯ + ``` + +### Test data + +In order to test that each module added to `nf-core/modules` is actually working and to be able to track any changes to results files between module updates we have set-up a number of Github Actions CI tests to run each module on a minimal test dataset using Docker, Singularity and Conda. + +- All test data for `nf-core/modules` MUST be added to [`tests/data/`](tests/data/) and organised by filename extension. + +- In order to keep the size of this repository as minimal as possible, pre-existing files from [`tests/data/`](tests/data/) MUST be reused if at all possible. + +- Test files MUST be kept as tiny as possible. + +### Running tests manually + +As outlined in the [nf-core modules create](#nf-core-modules-create) section we have made it quite trivial to create an initial yaml file (via the `nf-core modules create-test-yml` command) containing a listing of all of the module output files and their associated md5sums. However, md5sum checks may not be appropriate for all output files if for example they contain timestamps. This is why it is a good idea to re-run the tests locally with `pytest-workflow` before you create your pull request adding the module. If your files do indeed have timestamps or other issues that prevent you from using the md5sum check, then you can edit the `test.yml` file to instead check that the file contains some specific content or as a last resort, if it exists. The different test options are listed in the [pytest-workflow docs](https://pytest-workflow.readthedocs.io/en/stable/#test-options). + +Please follow the steps below to run the tests locally: + +1. Install [`nextflow`](https://nf-co.re/usage/installation) + +2. Install any of [`Docker`](https://docs.docker.com/engine/installation/), [`Singularity`](https://www.sylabs.io/guides/3.0/user-guide/) or [`Conda`](https://conda.io/miniconda.html) + +3. Install [`pytest-workflow`](https://pytest-workflow.readthedocs.io/en/stable/#installation) + +4. Start running your own tests using the appropriate [`tag`](https://github.com/nf-core/modules/blob/3d720a24fd3c766ba56edf3d4e108a1c45d353b2/tests/software/fastqc/test.yml#L3-L5) defined in the `test.yml`: + + - Typical command with Docker: + + ```console + cd /path/to/git/clone/of/nf-core/modules/ + PROFILE=docker pytest --tag fastqc_single_end --symlink --keep-workflow-wd + ``` + + - Typical command with Singularity: + + ```console + cd /path/to/git/clone/of/nf-core/modules/ + TMPDIR=~ PROFILE=singularity pytest --tag fastqc_single_end --symlink --keep-workflow-wd + ``` + + - Typical command with Conda: + + ```console + cd /path/to/git/clone/of/nf-core/modules/ + PROFILE=conda pytest --tag fastqc_single_end --symlink --keep-workflow-wd + ``` + + - See [docs on running pytest-workflow](https://pytest-workflow.readthedocs.io/en/stable/#running-pytest-workflow) for more info. + +### Uploading to `nf-core/modules` + +[Fork](https://help.github.com/articles/fork-a-repo/) the `nf-core/modules` repository to your own GitHub account. Within the local clone of your fork add the module file to the [`software/`](software) directory. Please try and keep PRs as atomic as possible to aid the reviewing process - ideally, one module addition/update per PR. + +Commit and push these changes to your local clone on GitHub, and then [create a pull request](https://help.github.com/articles/creating-a-pull-request-from-a-fork/) on the `nf-core/modules` GitHub repo with the appropriate information. + +We will be notified automatically when you have created your pull request, and providing that everything adheres to nf-core guidelines we will endeavour to approve your pull request as soon as possible. ### Guidelines @@ -194,7 +405,7 @@ using a combination of `bwa` and `samtools` to output a BAM file instead of a SA #### Resource requirements -- An appropriate resource `label` MUST be provided for the module as listed in the [nf-core pipeline template](https://github.com/nf-core/tools/blob/master/nf_core/pipeline-template/%7B%7Bcookiecutter.name_noslash%7D%7D/conf/base.config#L29) e.g. `process_low`, `process_medium` or `process_high`. +- An appropriate resource `label` MUST be provided for the module as listed in the [nf-core pipeline template](https://github.com/nf-core/tools/blob/master/nf_core/pipeline-template/conf/base.config#L29-L46) e.g. `process_low`, `process_medium` or `process_high`. - If the tool supports multi-threading then you MUST provide the appropriate parameter using the Nextflow `task` variable e.g. `--threads $task.cpus`. @@ -202,10 +413,10 @@ using a combination of `bwa` and `samtools` to output a BAM file instead of a SA [BioContainers](https://biocontainers.pro/#/) is a registry of Docker and Singularity containers automatically created from all of the software packages on [Bioconda](https://bioconda.github.io/). Where possible we will use BioContainers to fetch pre-built software containers and Bioconda to install software using Conda. -- Software requirements SHOULD be declared within the module file using the Nextflow `container` directive. For single-tool BioContainers, the simplest method to obtain the Docker container path is to replace `bwa` with your tool name in this [Quay.io link](https://quay.io/repository/biocontainers/bwa?tab=tags). You will see a list of tags sorted by the most recent. You can then use exactly the same name (e.g. `bwa`) version (e.g. `0.7.17`) and tag (e.g. `hed695b0_7`) to add all of the Conda, Docker and Singularity definitions in the module. +- Software requirements SHOULD be declared within the module file using the Nextflow `container` directive. For single-tool BioContainers, the `nf-core modules create` command will automatically fetch and fill-in the appropriate Conda / Docker / Singularity definitions by parsing the information provided in the first part of the module name: ```nextflow - conda (params.enable_conda ? "bioconda::bwa=0.7.17=hed695b0_7" : null) // Conda package + conda (params.enable_conda ? "bioconda::bwa=0.7.17" : null) // Conda package if (workflow.containerEngine == 'singularity' && !params.singularity_pull_docker_container) { container "https://depot.galaxyproject.org/singularity/bwa:0.7.17--hed695b0_7" // Singularity image } else { @@ -213,7 +424,7 @@ using a combination of `bwa` and `samtools` to output a BAM file instead of a SA } ``` -- If the software is available on Conda it MUST also be defined using the Nextflow `conda` directive. Using `bioconda::bwa=0.7.17=hed695b0_7` as an example, software MUST be pinned to the channel (i.e. `bioconda`), version (i.e. `0.7.17`) and build (i.e. `hed695b0_7`). This allows us to perform file output integrity CI tests on the same input test data with Docker, Singularity and Conda. +- If the software is available on Conda it MUST also be defined using the Nextflow `conda` directive. Using `bioconda::bwa=0.7.17` as an example, software MUST be pinned to the channel (i.e. `bioconda`) and version (i.e. `0.7.17`). Conda packages MUST not be pinned to a build because they can vary on different platforms. - If required, multi-tool containers may also be available on BioContainers e.g. [`bwa` and `samtools`](https://biocontainers.pro/#/tools/mulled-v2-fe8faa35dbf6dc65a0f7f5d4ea12e31a79f73e40). You can install and use the [`galaxy-tool-util`](https://anaconda.org/bioconda/galaxy-tool-util) package to search for both single- and multi-tool containers available in Conda, Docker and Singularity format. e.g. to search for Docker (hosted on Quay.io) and Singularity multi-tool containers with both `bowtie` and `samtools` installed you can use the following command: @@ -224,6 +435,32 @@ using a combination of `bwa` and `samtools` to output a BAM file instead of a SA > NB: Build information for all tools within a multi-tool container can be obtained in the `/usr/local/conda-meta/history` file within the container. - It is also possible for a new multi-tool container to be built and added to BioContainers by submitting a pull request on their [`multi-package-containers`](https://github.com/BioContainers/multi-package-containers) repository. + - Fork the [multi-package-containers repository](https://github.com/BioContainers/multi-package-containers) + - Make a change to the `hash.tsv` file in the `combinations` directory see [here](https://github.com/aunderwo/multi-package-containers/blob/master/combinations/hash.tsv#L124) for an example where `pysam=0.16.0.1,biopython=1.78` was added. + - Commit the code and then make a pull request to the original repo, for [example](https://github.com/BioContainers/multi-package-containers/pull/1661) + - Once the PR has been accepted a container will get built and you can find it using a search tool in the `galaxy-tool-util conda` package + + ```console + mulled-search --destination quay singularity conda --search pysam biopython | grep "mulled" + quay mulled-v2-3a59640f3fe1ed11819984087d31d68600200c3f 185a25ca79923df85b58f42deb48f5ac4481e91f-0 docker pull quay.io/biocontainers/mulled-v2-3a59640f3fe1ed11819984087d31d68600200c3f:185a25ca79923df85b58f42deb48f5ac4481e91f-0 + singularity mulled-v2-3a59640f3fe1ed11819984087d31d68600200c3f 185a25ca79923df85b58f42deb48f5ac4481e91f-0 wget https://depot.galaxyproject.org/singularity/mulled-v2-3a59640f3fe1ed11819984087d31d68600200c3f:185a25ca79923df85b58f42deb48f5ac4481e91f-0 + ``` + + - You can copy and paste the `mulled-*` path into the relevant Docker and Singularity lines in the Nextflow `process` definition of your module + - To confirm that this is correct. Spin up a temporary Docker container + + ```console + docker run --rm -it quay.io/biocontainers/mulled-v2-3a59640f3fe1ed11819984087d31d68600200c3f:185a25ca79923df85b58f42deb48f5ac4481e91f-0 /bin/sh + ``` + + And in the command prompt type + + ```console + $ grep specs /usr/local/conda-meta/history + # update specs: ['biopython=1.78', 'pysam=0.16.0.1'] + ``` + + The packages should reflect those added to the multi-package-containers repo `hash.tsv` file - If the software is not available on Bioconda a `Dockerfile` MUST be provided within the module directory. We will use GitHub Actions to auto-build the containers on the [GitHub Packages registry](https://github.com/features/packages). @@ -241,73 +478,6 @@ The `saveFiles` function can be found in the [`functions.nf`](software/fastqc/fu We also use a standardised parameter called `params.publish_dir_mode` that can be used to alter the file publishing method (default: `copy`). -### Testing - -In order to test that each module added to `nf-core/modules` is actually working and to be able to track any changes to results files between module updates we have set-up a number of Github Actions CI tests to run each module on a minimal test dataset using Docker, Singularity and Conda. - -#### Test data - -- All test data for `nf-core/modules` MUST be added to [`tests/data/`](tests/data/) and organised by filename extension. - -- In order to keep the size of this repository as minimal as possible, pre-existing files from [`tests/data/`](tests/data/) MUST be reused if at all possible. - -- Test files MUST be kept as tiny as possible. - -#### Pytest workflow - -- Every module MUST have a test workflow utilising test data added to the appropriate directory e.g. [`tests/software/fastqc/main.nf`](tests/software/fastqc/main.nf) - -- Any outputs produced by the test workflow MUST be included in the [pytest-workflow](https://pytest-workflow.readthedocs.io/en/stable) for that tool e.g. [`tests/software/fastqc/test.yml`](tests/software/fastqc/test.yml). `md5sum` checks are the preferable choice of test to determine file changes, however, this may not be possible for all outputs generated by some tools e.g. if they include time stamps or command-related headers. Please do your best to avoid just checking for the file being present e.g. it may still be possible to check that the file contains the appropriate text snippets. - -- A filter for the module must be created in [`.github/filters.yml`](.github/filters.yml). If the test workflow you have created invokes more than one tool please include any paths specific for those tool's too e.g. `bowtie build` is upstream of `bowtie align` and they have both been chained together to test the latter. - -#### Running Tests Locally - -1. Install [`nextflow`](https://nf-co.re/usage/installation) - -2. Install any of [`Docker`](https://docs.docker.com/engine/installation/), [`Singularity`](https://www.sylabs.io/guides/3.0/user-guide/) or [`Conda`](https://conda.io/miniconda.html) - -3. Install [`pytest-workflow`](https://pytest-workflow.readthedocs.io/en/stable/#installation) - -4. Start running your own tests! - - - Typical command with Docker: - - ```console - cd /path/to/git/clone/of/nf-core/modules/ - PROFILE=docker pytest --tag bowtie --symlink --keep-workflow-wd - ``` - - - Typical command with Singularity: - - ```console - cd /path/to/git/clone/of/nf-core/modules/ - TMPDIR=~ PROFILE=singularity pytest --tag bowtie --symlink --keep-workflow-wd - ``` - - - Typical command with Conda: - - ```console - cd /path/to/git/clone/of/nf-core/modules/ - PROFILE=conda pytest --tag bowtie --symlink --keep-workflow-wd - ``` - - - See [docs on running pytest-workflow](https://pytest-workflow.readthedocs.io/en/stable/#running-pytest-workflow) for more info. - -### Documentation - -- A module MUST be documented in the [`meta.yml`](software/TOOL/SUBTOOL/meta.yml) file. It MUST document `params`, `input` and `output`. `input` and `output` MUST be a nested list. - -We are aware that there is very little documentation, documenting the (`Documentation`)[#documentation] section. Writing more code and tests is so much cooooler! Please bear with us, we will get here eventually... - -### Uploading to `nf-core/modules` - -[Fork](https://help.github.com/articles/fork-a-repo/) the `nf-core/modules` repository to your own GitHub account. Within the local clone of your fork add the module file to the [`software/`](software) directory. Please try and keep PRs as atomic as possible to aid the reviewing process - ideally, one module addition/update per PR. - -Commit and push these changes to your local clone on GitHub, and then [create a pull request](https://help.github.com/articles/creating-a-pull-request-from-a-fork/) on the `nf-core/modules` GitHub repo with the appropriate information. - -We will be notified automatically when you have created your pull request, and providing that everything adheres to nf-core guidelines we will endeavour to approve your pull request as soon as possible. - ## Terminology The features offered by Nextflow DSL2 can be used in various ways depending on the granularity with which you would like to write pipelines. Please see the listing below for the hierarchy and associated terminology we have decided to use when referring to DSL2 components: @@ -318,6 +488,25 @@ The features offered by Nextflow DSL2 can be used in various ways depending on t - *Workflow*: What DSL1 users would consider an end-to-end pipeline. For example, from one or more inputs to a series of outputs. This can either be implemented using a large monolithic script as with DSL1, or by using a combination of DSL2 individual modules and sub-workflows. +## Nextflow edge releases + +Stable releases will be becoming more infrequent as Nextflow shifts its development model to becoming more dynamic via the usage of plugins. This will allow functionality to be added as an extension to the core codebase with a release cycle that could potentially be independent to that of Nextflow itself. As a result of the reduction in stable releases, some pipelines may be required to use Nextflow `edge` releases in order to be able to exploit cutting "edge" features e.g. version 3.0 of the nf-core/rnaseq pipeline requires Nextflow `>=20.11.0-edge` in order to be able to directly download Singularity containers over `http` (see [nf-core/rnaseq#496](https://github.com/nf-core/rnaseq/issues/496)). + +There are a number of ways you can install Nextflow `edge` releases, the main difference with stable releases being that you have to `export` the version you would like to install before issuing the appropriate installation/execution commands as highlighted below. + +- If you would like to download and install a Nextflow `edge` release from scratch with minimal fuss: + + ```bash + export NXF_VER="20.11.0-edge" + wget -qO- get.nextflow.io | bash + sudo mv nextflow /usr/local/bin/ + nextflow run nf-core/rnaseq -profile test,docker -r 3.0 + ``` + + > Note if you don't have `sudo` privileges required for the last command above then you can move the `nextflow` binary to somewhere else and export that directory to `$PATH` instead. One way of doing that on Linux would be to add `export PATH=$PATH:/path/to/nextflow/binary/` to your `~/.bashrc` file so that it is available every time you login to your system. + +- Manually download and install Nextflow from the available [assets](https://github.com/nextflow-io/nextflow/releases) on Github. See [Nextflow installation docs](https://www.nextflow.io/docs/latest/getstarted.html#installation). + ## Help For further information or help, don't hesitate to get in touch on [Slack `#modules` channel](https://nfcore.slack.com/channels/modules) (you can join with [this invite](https://nf-co.re/join/slack)). @@ -334,16 +523,6 @@ If you use the module files in this repository for your analysis please you can diff --git a/deprecated/shovill/main.nf b/deprecated/shovill/main.nf deleted file mode 100644 index b47975c1..00000000 --- a/deprecated/shovill/main.nf +++ /dev/null @@ -1,20 +0,0 @@ -process shovill { - - tag "$shovill" - - publishDir "${params.outdir}", pattern: '*.fasta', mode: 'copy' - - container "quay.io/biocontainers/shovill:1.0.9--0" - - input: - tuple val(sample_id), path(forward), path(reverse) - - output: - path "${sample_id}.fasta" - - script: - """ - shovill --R1 ${forward} --R2 ${reverse} --outdir shovill_out - mv shovill_out/contigs.fa ${sample_id}.fasta - """ -} diff --git a/deprecated/shovill/meta.yml b/deprecated/shovill/meta.yml deleted file mode 100644 index f955fa59..00000000 --- a/deprecated/shovill/meta.yml +++ /dev/null @@ -1,30 +0,0 @@ -name: Shovill -description: Create a bacterial assembly from paired fastq using shovill -keywords: - - Genome Assembly - - Bacterial Isolates -tools: - - fastqc: - description: | - Shovill assembles bacterial isolate genomes from Illumina - paired-end reads. Shovill uses the SPAdes genome assembler, - providing pre and post-processing to the SPAdes assembly. - It also supports SKESA, Velvet and Megahit. - homepage: https://github.com/tseemann/shovill - documentation: https://github.com/tseemann/shovill/blob/master/README.md -input: - - - - sample_id: - type: string - description: Sample identifier - - reads: - type: file - description: pair of fastq files -output: - - - - assembly: - type: file - description: fasta file - pattern: ${sample_id}.fasta -authors: - - "@annacprice" diff --git a/deprecated/shovill/test/main.nf b/deprecated/shovill/test/main.nf deleted file mode 100644 index 85ba6627..00000000 --- a/deprecated/shovill/test/main.nf +++ /dev/null @@ -1,17 +0,0 @@ -#!/usr/bin/env nextflow - -nextflow.preview.dsl = 2 - -// import shovill -include {shovill} from '../main.nf' params(params) - -// define input channel -readsPath = '../../../test-datasets/tools/shovill/input/SRR3609257_{1,2}.fastq.gz' -Channel - .fromFilePairs( "${readsPath}", flat: true ) - .set{ ch_reads } - -// main workflow -workflow { - shovill(ch_reads) -} diff --git a/deprecated/shovill/test/nextflow.config b/deprecated/shovill/test/nextflow.config deleted file mode 100644 index 44cfb78d..00000000 --- a/deprecated/shovill/test/nextflow.config +++ /dev/null @@ -1,5 +0,0 @@ -// docker -docker.enabled = true - -// output directory -params.outdir = './results' diff --git a/software/adapterremoval/functions.nf b/software/adapterremoval/functions.nf new file mode 100644 index 00000000..f177f0c8 --- /dev/null +++ b/software/adapterremoval/functions.nf @@ -0,0 +1,60 @@ +/* + * ----------------------------------------------------- + * Utility functions used in nf-core DSL2 module files + * ----------------------------------------------------- + */ + +/* + * Extract name of software tool from process name using $task.process + */ +def getSoftwareName(task_process) { + return task_process.tokenize(':')[-1].tokenize('_')[0].toLowerCase() +} + +/* + * Function to initialise default values and to generate a Groovy Map of available options for nf-core modules + */ +def initOptions(Map args) { + def Map options = [:] + options.args = args.args ?: '' + options.args2 = args.args2 ?: '' + options.args3 = args.args3 ?: '' + options.publish_by_id = args.publish_by_id ?: false + options.publish_dir = args.publish_dir ?: '' + options.publish_files = args.publish_files + options.suffix = args.suffix ?: '' + return options +} + +/* + * Tidy up and join elements of a list to return a path string + */ +def getPathFromList(path_list) { + def paths = path_list.findAll { item -> !item?.trim().isEmpty() } // Remove empty entries + paths = paths.collect { it.trim().replaceAll("^[/]+|[/]+\$", "") } // Trim whitespace and trailing slashes + return paths.join('/') +} + +/* + * Function to save/publish module results + */ +def saveFiles(Map args) { + if (!args.filename.endsWith('.version.txt')) { + def ioptions = initOptions(args.options) + def path_list = [ ioptions.publish_dir ?: args.publish_dir ] + if (ioptions.publish_by_id) { + path_list.add(args.publish_id) + } + if (ioptions.publish_files instanceof Map) { + for (ext in ioptions.publish_files) { + if (args.filename.endsWith(ext.key)) { + def ext_list = path_list.collect() + ext_list.add(ext.value) + return "${getPathFromList(ext_list)}/$args.filename" + } + } + } else if (ioptions.publish_files == null) { + return "${getPathFromList(path_list)}/$args.filename" + } + } +} diff --git a/software/adapterremoval/main.nf b/software/adapterremoval/main.nf new file mode 100644 index 00000000..7432cae0 --- /dev/null +++ b/software/adapterremoval/main.nf @@ -0,0 +1,80 @@ +include { initOptions; saveFiles; getSoftwareName } from './functions' + +params.options = [:] +options = initOptions(params.options) + +process ADAPTERREMOVAL { + tag "$meta.id" + label 'process_medium' + publishDir "${params.outdir}", + mode: params.publish_dir_mode, + saveAs: { filename -> saveFiles(filename:filename, options:params.options, publish_dir:getSoftwareName(task.process), publish_id:meta.id) } + + conda (params.enable_conda ? "bioconda::adapterremoval=2.3.2" : null) + if (workflow.containerEngine == 'singularity' && !params.singularity_pull_docker_container) { + container "https://depot.galaxyproject.org/singularity/adapterremoval:2.3.2--hb7ba0dd_0" + } else { + container "quay.io/biocontainers/adapterremoval:2.3.2--hb7ba0dd_0" + } + + input: + tuple val(meta), path(reads) + + output: + tuple val(meta), path('*.fastq.gz'), emit: reads + tuple val(meta), path('*.log') , emit: log + path "*.version.txt" , emit: version + + script: + def software = getSoftwareName(task.process) + def prefix = options.suffix ? "${meta.id}${options.suffix}" : "${meta.id}" + + if (meta.single_end) { + """ + AdapterRemoval \\ + --file1 $reads \\ + $options.args \\ + --basename $prefix \\ + --threads $task.cpus \\ + --settings ${prefix}.log \\ + --output1 ${prefix}.trimmed.fastq.gz \\ + --seed 42 \\ + --gzip \\ + + AdapterRemoval --version 2>&1 | sed -e "s/AdapterRemoval ver. //g" > ${software}.version.txt + """ + } else if (!meta.single_end && !meta.collapse) { + """ + AdapterRemoval \\ + --file1 ${reads[0]} \\ + --file2 ${reads[0]} \\ + $options.args \\ + --basename $prefix \\ + --threads $task.cpus \\ + --settings ${prefix}.log \\ + --output1 ${prefix}.pair1.trimmed.fastq.gz \\ + --output2 ${prefix}.pair2.trimmed.fastq.gz \\ + --seed 42 \\ + --gzip \\ + + AdapterRemoval --version 2>&1 | sed -e "s/AdapterRemoval ver. //g" > ${software}.version.txt + """ + } else { + """ + AdapterRemoval \\ + --file1 ${reads[0]} \\ + --file2 ${reads[0]} \\ + --collapse \\ + $options.args \\ + --basename $prefix \\ + --threads $task.cpus \\ + --settings ${prefix}.log \\ + --seed 42 \\ + --gzip \\ + + cat *.collapsed.gz *.collapsed.truncated.gz > ${prefix}.merged.fastq.gz + AdapterRemoval --version 2>&1 | sed -e "s/AdapterRemoval ver. //g" > ${software}.version.txt + """ + } + +} diff --git a/software/adapterremoval/meta.yml b/software/adapterremoval/meta.yml new file mode 100644 index 00000000..15e0a201 --- /dev/null +++ b/software/adapterremoval/meta.yml @@ -0,0 +1,50 @@ +name: adapterremoval +description: Trim sequencing adapters and collapse overlapping reads +keywords: + - trimming + - adapters + - merging + - fastq +tools: + - adapterremoval: + description: The AdapterRemoval v2 tool for merging and clipping reads. + homepage: https://github.com/MikkelSchubert/adapterremoval + documentation: https://adapterremoval.readthedocs.io + licence: ['GPL v3'] + +input: + - meta: + type: map + description: | + Groovy Map containing sample information + e.g. [ id:'test', single_end:false, collapse:false ] + - reads: + type: file + description: | + List of input FastQ files of size 1 and 2 for single-end and paired-end data, + respectively. + pattern: "*.{fq,fastq,fg.gz,fastq.gz}" + +output: + - meta: + type: map + description: | + Groovy Map containing sample information + e.g. [ id:'test', single_end:false ] + - reads: + type: file + description: | + List of input adapter trimmed FastQ files of size 1 or 2 for + single-end or collapsed data and paired-end data, respectively. + pattern: "*.{fastq.gz}" + - log: + type: file + description: AdapterRemoval log file + pattern: "*.log" + - version: + type: file + description: File containing software version + pattern: "*.{version.txt}" + +authors: + - "@maxibor" diff --git a/software/allelecounter/functions.nf b/software/allelecounter/functions.nf new file mode 100644 index 00000000..f177f0c8 --- /dev/null +++ b/software/allelecounter/functions.nf @@ -0,0 +1,60 @@ +/* + * ----------------------------------------------------- + * Utility functions used in nf-core DSL2 module files + * ----------------------------------------------------- + */ + +/* + * Extract name of software tool from process name using $task.process + */ +def getSoftwareName(task_process) { + return task_process.tokenize(':')[-1].tokenize('_')[0].toLowerCase() +} + +/* + * Function to initialise default values and to generate a Groovy Map of available options for nf-core modules + */ +def initOptions(Map args) { + def Map options = [:] + options.args = args.args ?: '' + options.args2 = args.args2 ?: '' + options.args3 = args.args3 ?: '' + options.publish_by_id = args.publish_by_id ?: false + options.publish_dir = args.publish_dir ?: '' + options.publish_files = args.publish_files + options.suffix = args.suffix ?: '' + return options +} + +/* + * Tidy up and join elements of a list to return a path string + */ +def getPathFromList(path_list) { + def paths = path_list.findAll { item -> !item?.trim().isEmpty() } // Remove empty entries + paths = paths.collect { it.trim().replaceAll("^[/]+|[/]+\$", "") } // Trim whitespace and trailing slashes + return paths.join('/') +} + +/* + * Function to save/publish module results + */ +def saveFiles(Map args) { + if (!args.filename.endsWith('.version.txt')) { + def ioptions = initOptions(args.options) + def path_list = [ ioptions.publish_dir ?: args.publish_dir ] + if (ioptions.publish_by_id) { + path_list.add(args.publish_id) + } + if (ioptions.publish_files instanceof Map) { + for (ext in ioptions.publish_files) { + if (args.filename.endsWith(ext.key)) { + def ext_list = path_list.collect() + ext_list.add(ext.value) + return "${getPathFromList(ext_list)}/$args.filename" + } + } + } else if (ioptions.publish_files == null) { + return "${getPathFromList(path_list)}/$args.filename" + } + } +} diff --git a/software/allelecounter/main.nf b/software/allelecounter/main.nf new file mode 100644 index 00000000..cb91b5ec --- /dev/null +++ b/software/allelecounter/main.nf @@ -0,0 +1,41 @@ +// Import generic module functions +include { initOptions; saveFiles; getSoftwareName } from './functions' + +params.options = [:] +options = initOptions(params.options) + +process ALLELECOUNTER { + tag "$meta.id" + label 'process_low' + publishDir "${params.outdir}", + mode: params.publish_dir_mode, + saveAs: { filename -> saveFiles(filename:filename, options:params.options, publish_dir:getSoftwareName(task.process), publish_id:meta.id) } + + conda (params.enable_conda ? "bioconda::cancerit-allelecount=4.2.1" : null) + if (workflow.containerEngine == 'singularity' && !params.singularity_pull_docker_container) { + container "https://depot.galaxyproject.org/singularity/cancerit-allelecount:4.2.1--h3ecb661_0" + } else { + container "quay.io/biocontainers/cancerit-allelecount:4.2.1--h3ecb661_0" + } + + input: + tuple val(meta), path(bam), path(bai) + path loci + + output: + tuple val(meta), path("*.alleleCount"), emit: allelecount + path "*.version.txt" , emit: version + + script: + def software = getSoftwareName(task.process) + def prefix = options.suffix ? "${meta.id}${options.suffix}" : "${meta.id}" + """ + alleleCounter \\ + $options.args \\ + -l $loci \\ + -b $bam \\ + -o ${prefix}.alleleCount + + alleleCounter --version > ${software}.version.txt + """ +} diff --git a/software/allelecounter/meta.yml b/software/allelecounter/meta.yml new file mode 100644 index 00000000..28f96836 --- /dev/null +++ b/software/allelecounter/meta.yml @@ -0,0 +1,52 @@ +name: allelecounter + +description: Generates a count of coverage of alleles +keywords: + - allele + - count +tools: + - allelecounter: + description: Takes a file of locations and a [cr|b]am file and generates a count of coverage of each allele at that location (given any filter settings) + homepage: https://github.com/cancerit/alleleCount + documentation: https://github.com/cancerit/alleleCount + tool_dev_url: https://github.com/cancerit/alleleCount + doi: "" + licence: A-GPL 3.0 + +input: + - meta: + type: map + description: | + Groovy Map containing sample information + e.g. [ id:'test', single_end:false ] + - bam: + type: file + description: BAM/CRAM/SAM file + pattern: "*.{bam,cram,sam}" + - bai: + type: file + description: BAM/CRAM/SAM index file + pattern: "*.{bai,crai,sai}" + - loci: + type: file + description: loci file + pattern: "*.{tsv}" + + +output: + - meta: + type: map + description: | + Groovy Map containing sample information + e.g. [ id:'test', single_end:false ] + - version: + type: file + description: File containing software version + pattern: "*.{version.txt}" + - alleleCount: + type: file + description: Allele count file + pattern: "*.{alleleCount}" + +authors: + - "@fullama" diff --git a/software/bandage/image/meta.yml b/software/bandage/image/meta.yml index 85de09a2..26c23a07 100644 --- a/software/bandage/image/meta.yml +++ b/software/bandage/image/meta.yml @@ -11,27 +11,6 @@ tools: Bandage - a Bioinformatics Application for Navigating De novo Assembly Graphs Easily homepage: https://github.com/rrwick/Bandage documentation: https://github.com/rrwick/Bandage -params: - - outdir: - type: string - description: | - The pipeline's output directory. By default, the module will - output files into `$params.outdir/` - - publish_dir_mode: - type: string - description: | - Value for the Nextflow `publishDir` mode parameter. - Available: symlink, rellink, link, copy, copyNoFollow, move. - - enable_conda: - type: boolean - description: | - Run the module with Conda using the software specified - via the `conda` directive - - singularity_pull_docker_container: - type: boolean - description: | - Instead of directly downloading Singularity images for use with Singularity, - force the workflow to pull and convert Docker containers instead. input: - meta: type: map diff --git a/software/bcftools/consensus/meta.yml b/software/bcftools/consensus/meta.yml index 6cb15f11..ef14479d 100644 --- a/software/bcftools/consensus/meta.yml +++ b/software/bcftools/consensus/meta.yml @@ -11,27 +11,6 @@ tools: homepage: http://samtools.github.io/bcftools/bcftools.html documentation: http://www.htslib.org/doc/bcftools.html doi: 10.1093/bioinformatics/btp352 -params: - - outdir: - type: string - description: | - The pipeline's output directory. By default, the module will - output files into `$params.outdir/` - - publish_dir_mode: - type: string - description: | - Value for the Nextflow `publishDir` mode parameter. - Available: symlink, rellink, link, copy, copyNoFollow, move. - - enable_conda: - type: boolean - description: | - Run the module with Conda using the software specified - via the `conda` directive - - singularity_pull_docker_container: - type: boolean - description: | - Instead of directly downloading Singularity images for use with Singularity, - force the workflow to pull and convert Docker containers instead. input: - meta: type: map diff --git a/software/bcftools/filter/meta.yml b/software/bcftools/filter/meta.yml index 68fe9d47..fe9a57e6 100644 --- a/software/bcftools/filter/meta.yml +++ b/software/bcftools/filter/meta.yml @@ -11,27 +11,6 @@ tools: homepage: http://samtools.github.io/bcftools/bcftools.html documentation: http://www.htslib.org/doc/bcftools.html doi: 10.1093/bioinformatics/btp352 -params: - - outdir: - type: string - description: | - The pipeline's output directory. By default, the module will - output files into `$params.outdir/` - - publish_dir_mode: - type: string - description: | - Value for the Nextflow `publishDir` mode parameter. - Available: symlink, rellink, link, copy, copyNoFollow, move. - - enable_conda: - type: boolean - description: | - Run the module with Conda using the software specified - via the `conda` directive - - singularity_pull_docker_container: - type: boolean - description: | - Instead of directly downloading Singularity images for use with Singularity, - force the workflow to pull and convert Docker containers instead. input: - meta: type: map diff --git a/software/bcftools/isec/meta.yml b/software/bcftools/isec/meta.yml index 415a3546..fb8f4b4e 100644 --- a/software/bcftools/isec/meta.yml +++ b/software/bcftools/isec/meta.yml @@ -13,27 +13,6 @@ tools: homepage: http://samtools.github.io/bcftools/bcftools.html documentation: http://www.htslib.org/doc/bcftools.html doi: 10.1093/bioinformatics/btp352 -params: - - outdir: - type: string - description: | - The pipeline's output directory. By default, the module will - output files into `$params.outdir/` - - publish_dir_mode: - type: string - description: | - Value for the Nextflow `publishDir` mode parameter. - Available: symlink, rellink, link, copy, copyNoFollow, move. - - enable_conda: - type: boolean - description: | - Run the module with Conda using the software specified - via the `conda` directive - - singularity_pull_docker_container: - type: boolean - description: | - Instead of directly downloading Singularity images for use with Singularity, - force the workflow to pull and convert Docker containers instead. input: - meta: type: map diff --git a/software/bcftools/merge/meta.yml b/software/bcftools/merge/meta.yml index b4a1f9cb..fad7966e 100644 --- a/software/bcftools/merge/meta.yml +++ b/software/bcftools/merge/meta.yml @@ -11,27 +11,6 @@ tools: homepage: http://samtools.github.io/bcftools/bcftools.html documentation: http://www.htslib.org/doc/bcftools.html doi: 10.1093/bioinformatics/btp352 -params: - - outdir: - type: string - description: | - The pipeline's output directory. By default, the module will - output files into `$params.outdir/` - - publish_dir_mode: - type: string - description: | - Value for the Nextflow `publishDir` mode parameter. - Available: symlink, rellink, link, copy, copyNoFollow, move. - - enable_conda: - type: boolean - description: | - Run the module with Conda using the software specified - via the `conda` directive - - singularity_pull_docker_container: - type: boolean - description: | - Instead of directly downloading Singularity images for use with Singularity, - force the workflow to pull and convert Docker containers instead. input: - meta: type: map diff --git a/software/bcftools/mpileup/meta.yml b/software/bcftools/mpileup/meta.yml index c87d0619..a15aea14 100644 --- a/software/bcftools/mpileup/meta.yml +++ b/software/bcftools/mpileup/meta.yml @@ -11,27 +11,6 @@ tools: homepage: http://samtools.github.io/bcftools/bcftools.html documentation: http://www.htslib.org/doc/bcftools.html doi: 10.1093/bioinformatics/btp352 -params: - - outdir: - type: string - description: | - The pipeline's output directory. By default, the module will - output files into `$params.outdir/` - - publish_dir_mode: - type: string - description: | - Value for the Nextflow `publishDir` mode parameter. - Available: symlink, rellink, link, copy, copyNoFollow, move. - - enable_conda: - type: boolean - description: | - Run the module with Conda using the software specified - via the `conda` directive - - singularity_pull_docker_container: - type: boolean - description: | - Instead of directly downloading Singularity images for use with Singularity, - force the workflow to pull and convert Docker containers instead. input: - meta: type: map diff --git a/software/bcftools/stats/meta.yml b/software/bcftools/stats/meta.yml index 75ed50f4..6b70f83a 100644 --- a/software/bcftools/stats/meta.yml +++ b/software/bcftools/stats/meta.yml @@ -12,27 +12,6 @@ tools: homepage: http://samtools.github.io/bcftools/bcftools.html documentation: http://www.htslib.org/doc/bcftools.html doi: 10.1093/bioinformatics/btp352 -params: - - outdir: - type: string - description: | - The pipeline's output directory. By default, the module will - output files into `$params.outdir/` - - publish_dir_mode: - type: string - description: | - Value for the Nextflow `publishDir` mode parameter. - Available: symlink, rellink, link, copy, copyNoFollow, move. - - enable_conda: - type: boolean - description: | - Run the module with Conda using the software specified - via the `conda` directive - - singularity_pull_docker_container: - type: boolean - description: | - Instead of directly downloading Singularity images for use with Singularity, - force the workflow to pull and convert Docker containers instead. input: - meta: type: map diff --git a/software/bedtools/complement/meta.yml b/software/bedtools/complement/meta.yml index 9e0a2dd8..60d97263 100644 --- a/software/bedtools/complement/meta.yml +++ b/software/bedtools/complement/meta.yml @@ -8,27 +8,6 @@ tools: description: | A set of tools for genomic analysis tasks, specifically enabling genome arithmetic (merge, count, complement) on various file types. documentation: https://bedtools.readthedocs.io/en/latest/content/tools/complement.html -params: - - outdir: - type: string - description: | - The pipeline's output directory. By default, the module will - output files into `$params.outdir/` - - publish_dir_mode: - type: string - description: | - Value for the Nextflow `publishDir` mode parameter. - Available: symlink, rellink, link, copy, copyNoFollow, move. - - enable_conda: - type: boolean - description: | - Run the module with Conda using the software specified - via the `conda` directive - - singularity_pull_docker_container: - type: boolean - description: | - Instead of directly downloading Singularity images for use with Singularity, - force the workflow to pull and convert Docker containers instead. input: - meta: type: map diff --git a/software/bedtools/genomecov/meta.yml b/software/bedtools/genomecov/meta.yml index b18958a7..a3254307 100644 --- a/software/bedtools/genomecov/meta.yml +++ b/software/bedtools/genomecov/meta.yml @@ -9,27 +9,6 @@ tools: description: | A set of tools for genomic analysis tasks, specifically enabling genome arithmetic (merge, count, complement) on various file types. documentation: https://bedtools.readthedocs.io/en/latest/content/tools/genomecov.html -params: - - outdir: - type: string - description: | - The pipeline's output directory. By default, the module will - output files into `$params.outdir/` - - publish_dir_mode: - type: string - description: | - Value for the Nextflow `publishDir` mode parameter. - Available: symlink, rellink, link, copy, copyNoFollow, move. - - enable_conda: - type: boolean - description: | - Run the module with Conda using the software specified - via the `conda` directive - - singularity_pull_docker_container: - type: boolean - description: | - Instead of directly downloading Singularity images for use with Singularity, - force the workflow to pull and convert Docker containers instead. input: - meta: type: map diff --git a/software/bedtools/getfasta/meta.yml b/software/bedtools/getfasta/meta.yml index 692b7028..1ca63bdc 100644 --- a/software/bedtools/getfasta/meta.yml +++ b/software/bedtools/getfasta/meta.yml @@ -9,27 +9,6 @@ tools: description: | A set of tools for genomic analysis tasks, specifically enabling genome arithmetic (merge, count, complement) on various file types. documentation: https://bedtools.readthedocs.io/en/latest/content/tools/intersect.html -params: - - outdir: - type: string - description: | - The pipeline's output directory. By default, the module will - output files into `$params.outdir/` - - publish_dir_mode: - type: string - description: | - Value for the Nextflow `publishDir` mode parameter. - Available: symlink, rellink, link, copy, copyNoFollow, move. - - enable_conda: - type: boolean - description: | - Run the module with Conda using the software specified - via the `conda` directive - - singularity_pull_docker_container: - type: boolean - description: | - Instead of directly downloading Singularity images for use with Singularity, - force the workflow to pull and convert Docker containers instead. input: - bed: type: file diff --git a/software/bedtools/intersect/meta.yml b/software/bedtools/intersect/meta.yml index 5a72df53..eaba54f6 100644 --- a/software/bedtools/intersect/meta.yml +++ b/software/bedtools/intersect/meta.yml @@ -8,27 +8,6 @@ tools: description: | A set of tools for genomic analysis tasks, specifically enabling genome arithmetic (merge, count, complement) on various file types. documentation: https://bedtools.readthedocs.io/en/latest/content/tools/intersect.html -params: - - outdir: - type: string - description: | - The pipeline's output directory. By default, the module will - output files into `$params.outdir/` - - publish_dir_mode: - type: string - description: | - Value for the Nextflow `publishDir` mode parameter. - Available: symlink, rellink, link, copy, copyNoFollow, move. - - enable_conda: - type: boolean - description: | - Run the module with Conda using the software specified - via the `conda` directive - - singularity_pull_docker_container: - type: boolean - description: | - Instead of directly downloading Singularity images for use with Singularity, - force the workflow to pull and convert Docker containers instead. input: - meta: type: map diff --git a/software/bedtools/maskfasta/meta.yml b/software/bedtools/maskfasta/meta.yml index ef4e4096..b6e494e6 100644 --- a/software/bedtools/maskfasta/meta.yml +++ b/software/bedtools/maskfasta/meta.yml @@ -9,27 +9,6 @@ tools: description: | A set of tools for genomic analysis tasks, specifically enabling genome arithmetic (merge, count, complement) on various file types. documentation: https://bedtools.readthedocs.io/en/latest/content/tools/intersect.html -params: - - outdir: - type: string - description: | - The pipeline's output directory. By default, the module will - output files into `$params.outdir/` - - publish_dir_mode: - type: string - description: | - Value for the Nextflow `publishDir` mode parameter. - Available: symlink, rellink, link, copy, copyNoFollow, move. - - enable_conda: - type: boolean - description: | - Run the module with Conda using the software specified - via the `conda` directive - - singularity_pull_docker_container: - type: boolean - description: | - Instead of directly downloading Singularity images for use with Singularity, - force the workflow to pull and convert Docker containers instead. input: - meta: type: map diff --git a/software/bedtools/merge/meta.yml b/software/bedtools/merge/meta.yml index 1aec9234..f75bea67 100644 --- a/software/bedtools/merge/meta.yml +++ b/software/bedtools/merge/meta.yml @@ -8,27 +8,6 @@ tools: description: | A set of tools for genomic analysis tasks, specifically enabling genome arithmetic (merge, count, complement) on various file types. documentation: https://bedtools.readthedocs.io/en/latest/content/tools/merge.html -params: - - outdir: - type: string - description: | - The pipeline's output directory. By default, the module will - output files into `$params.outdir/` - - publish_dir_mode: - type: string - description: | - Value for the Nextflow `publishDir` mode parameter. - Available: symlink, rellink, link, copy, copyNoFollow, move. - - enable_conda: - type: boolean - description: | - Run the module with Conda using the software specified - via the `conda` directive - - singularity_pull_docker_container: - type: boolean - description: | - Instead of directly downloading Singularity images for use with Singularity, - force the workflow to pull and convert Docker containers instead. input: - meta: type: map diff --git a/software/bedtools/slop/meta.yml b/software/bedtools/slop/meta.yml index 3f56b38e..3d4e2091 100644 --- a/software/bedtools/slop/meta.yml +++ b/software/bedtools/slop/meta.yml @@ -8,27 +8,6 @@ tools: description: | A set of tools for genomic analysis tasks, specifically enabling genome arithmetic (merge, count, complement) on various file types. documentation: https://bedtools.readthedocs.io/en/latest/content/tools/slop.html -params: - - outdir: - type: string - description: | - The pipeline's output directory. By default, the module will - output files into `$params.outdir/` - - publish_dir_mode: - type: string - description: | - Value for the Nextflow `publishDir` mode parameter. - Available: symlink, rellink, link, copy, copyNoFollow, move. - - enable_conda: - type: boolean - description: | - Run the module with Conda using the software specified - via the `conda` directive - - singularity_pull_docker_container: - type: boolean - description: | - Instead of directly downloading Singularity images for use with Singularity, - force the workflow to pull and convert Docker containers instead. input: - meta: type: map diff --git a/software/bedtools/sort/meta.yml b/software/bedtools/sort/meta.yml index dde823bd..9962a4f2 100644 --- a/software/bedtools/sort/meta.yml +++ b/software/bedtools/sort/meta.yml @@ -8,27 +8,6 @@ tools: description: | A set of tools for genomic analysis tasks, specifically enabling genome arithmetic (merge, count, complement) on various file types. documentation: https://bedtools.readthedocs.io/en/latest/content/tools/sort.html -params: - - outdir: - type: string - description: | - The pipeline's output directory. By default, the module will - output files into `$params.outdir/` - - publish_dir_mode: - type: string - description: | - Value for the Nextflow `publishDir` mode parameter. - Available: symlink, rellink, link, copy, copyNoFollow, move. - - enable_conda: - type: boolean - description: | - Run the module with Conda using the software specified - via the `conda` directive - - singularity_pull_docker_container: - type: boolean - description: | - Instead of directly downloading Singularity images for use with Singularity, - force the workflow to pull and convert Docker containers instead. input: - meta: type: map diff --git a/software/bismark/genome_preparation/functions.nf b/software/bismark/align/functions.nf similarity index 100% rename from software/bismark/genome_preparation/functions.nf rename to software/bismark/align/functions.nf diff --git a/software/bismark/align/main.nf b/software/bismark/align/main.nf new file mode 100644 index 00000000..7659cfa6 --- /dev/null +++ b/software/bismark/align/main.nf @@ -0,0 +1,44 @@ +// Import generic module functions +include { initOptions; saveFiles; getSoftwareName } from './functions' + +params.options = [:] +options = initOptions(params.options) + +process BISMARK_ALIGN { + tag "$meta.id" + label 'process_high' + publishDir "${params.outdir}", + mode: params.publish_dir_mode, + saveAs: { filename -> saveFiles(filename:filename, options:params.options, publish_dir:getSoftwareName(task.process), publish_id:meta.id) } + + conda (params.enable_conda ? "bioconda::bismark=0.23.0" : null) + if (workflow.containerEngine == 'singularity' && !params.singularity_pull_docker_container) { + container "https://depot.galaxyproject.org/singularity/bismark:0.23.0--0" + } else { + container "quay.io/biocontainers/bismark:0.23.0--0" + } + + input: + tuple val(meta), path(reads) + path index + + output: + tuple val(meta), path("*bam") , emit: bam + tuple val(meta), path("*report.txt"), emit: report + tuple val(meta), path("*fq.gz") , optional:true, emit: unmapped + path "*.version.txt" , emit: version + + script: + def software = getSoftwareName(task.process) + def prefix = options.suffix ? "${meta.id}${options.suffix}" : "${meta.id}" + def fastq = meta.single_end ? reads : "-1 ${reads[0]} -2 ${reads[1]}" + """ + bismark \\ + $fastq \\ + $options.args \\ + --genome $index \\ + --bam + + echo \$(bismark -v 2>&1) | sed 's/^.*Bismark Version: v//; s/Copyright.*\$//' > ${software}.version.txt + """ +} diff --git a/software/bismark/align/meta.yml b/software/bismark/align/meta.yml new file mode 100644 index 00000000..ed3b1999 --- /dev/null +++ b/software/bismark/align/meta.yml @@ -0,0 +1,58 @@ +name: bismark_align +description: Performs alignment of BS-Seq reads using bismark +keywords: + - bismark + - 3-letter genome + - map + - methylation + - 5mC + - methylseq + - bisulphite + - bam +tools: + - bismark: + description: | + Bismark is a tool to map bisulfite treated sequencing reads + and perform methylation calling in a quick and easy-to-use fashion. + homepage: https://github.com/FelixKrueger/Bismark + documentation: https://github.com/FelixKrueger/Bismark/tree/master/Docs + doi: 10.1093/bioinformatics/btr167 +input: + - meta: + type: map + description: | + Groovy Map containing sample information + e.g. [ id:'test', single_end:false ] + - reads: + type: file + description: | + List of input FastQ files of size 1 and 2 for single-end and paired-end data, + respectively. + - index: + type: dir + description: Bismark genome index directory + pattern: "BismarkIndex" +output: + - meta: + type: map + description: | + Groovy Map containing sample information + e.g. [ id:'test', single_end:false ] + - bam: + type: file + description: Output BAM file containing read alignments + pattern: "*.{bam}" + - unmapped: + type: file + description: Output FastQ file(s) containing unmapped reads + pattern: "*.{fq.gz}" + - report: + type: file + description: Bismark alignment reports + pattern: "*{report.txt}" + - version: + type: file + description: File containing software version + pattern: "*.{version.txt}" +authors: + - "@phue" diff --git a/software/bismark/deduplicate/main.nf b/software/bismark/deduplicate/main.nf index c75b868c..96f61c96 100644 --- a/software/bismark/deduplicate/main.nf +++ b/software/bismark/deduplicate/main.nf @@ -11,7 +11,7 @@ process BISMARK_DEDUPLICATE { mode: params.publish_dir_mode, saveAs: { filename -> saveFiles(filename:filename, options:params.options, publish_dir:getSoftwareName(task.process), publish_id:meta.id) } - conda (params.enable_conda ? "bioconda::bismark==0.23.0" : null) + conda (params.enable_conda ? "bioconda::bismark=0.23.0" : null) if (workflow.containerEngine == 'singularity' && !params.singularity_pull_docker_container) { container "https://depot.galaxyproject.org/singularity/bismark:0.23.0--0" } else { diff --git a/software/bismark/deduplicate/meta.yml b/software/bismark/deduplicate/meta.yml index 59a99a7f..117eed49 100644 --- a/software/bismark/deduplicate/meta.yml +++ b/software/bismark/deduplicate/meta.yml @@ -19,27 +19,6 @@ tools: homepage: https://github.com/FelixKrueger/Bismark documentation: https://github.com/FelixKrueger/Bismark/tree/master/Docs doi: 10.1093/bioinformatics/btr167 -params: - - outdir: - type: string - description: | - The pipeline's output directory. By default, the module will - output files into `$params.outdir/` - - publish_dir_mode: - type: string - description: | - Value for the Nextflow `publishDir` mode parameter. - Available: symlink, rellink, link, copy, copyNoFollow, move. - - enable_conda: - type: boolean - description: | - Run the module with Conda using the software specified - via the `conda` directive - - singularity_pull_docker_container: - type: boolean - description: | - Instead of directly downloading Singularity images for use with Singularity, - force the workflow to pull and convert Docker containers instead. input: - meta: type: map diff --git a/software/bismark/genomepreparation/functions.nf b/software/bismark/genomepreparation/functions.nf new file mode 100644 index 00000000..d25eea86 --- /dev/null +++ b/software/bismark/genomepreparation/functions.nf @@ -0,0 +1,59 @@ +/* + * ----------------------------------------------------- + * Utility functions used in nf-core DSL2 module files + * ----------------------------------------------------- + */ + +/* + * Extract name of software tool from process name using $task.process + */ +def getSoftwareName(task_process) { + return task_process.tokenize(':')[-1].tokenize('_')[0].toLowerCase() +} + +/* + * Function to initialise default values and to generate a Groovy Map of available options for nf-core modules + */ +def initOptions(Map args) { + def Map options = [:] + options.args = args.args ?: '' + options.args2 = args.args2 ?: '' + options.publish_by_id = args.publish_by_id ?: false + options.publish_dir = args.publish_dir ?: '' + options.publish_files = args.publish_files + options.suffix = args.suffix ?: '' + return options +} + +/* + * Tidy up and join elements of a list to return a path string + */ +def getPathFromList(path_list) { + def paths = path_list.findAll { item -> !item?.trim().isEmpty() } // Remove empty entries + paths = paths.collect { it.trim().replaceAll("^[/]+|[/]+\$", "") } // Trim whitespace and trailing slashes + return paths.join('/') +} + +/* + * Function to save/publish module results + */ +def saveFiles(Map args) { + if (!args.filename.endsWith('.version.txt')) { + def ioptions = initOptions(args.options) + def path_list = [ ioptions.publish_dir ?: args.publish_dir ] + if (ioptions.publish_by_id) { + path_list.add(args.publish_id) + } + if (ioptions.publish_files instanceof Map) { + for (ext in ioptions.publish_files) { + if (args.filename.endsWith(ext.key)) { + def ext_list = path_list.collect() + ext_list.add(ext.value) + return "${getPathFromList(ext_list)}/$args.filename" + } + } + } else if (ioptions.publish_files == null) { + return "${getPathFromList(path_list)}/$args.filename" + } + } +} diff --git a/software/bismark/genome_preparation/main.nf b/software/bismark/genomepreparation/main.nf similarity index 91% rename from software/bismark/genome_preparation/main.nf rename to software/bismark/genomepreparation/main.nf index 8c98de15..904d9922 100644 --- a/software/bismark/genome_preparation/main.nf +++ b/software/bismark/genomepreparation/main.nf @@ -4,14 +4,14 @@ include { initOptions; saveFiles; getSoftwareName } from './functions' params.options = [:] options = initOptions(params.options) -process BISMARK_GENOME_PREPARATION { +process BISMARK_GENOMEPREPARATION { tag "$fasta" label 'process_high' publishDir "${params.outdir}", mode: params.publish_dir_mode, saveAs: { filename -> saveFiles(filename:filename, options:params.options, publish_dir:getSoftwareName(task.process), publish_id:'') } - conda (params.enable_conda ? "bioconda::bismark==0.23.0" : null) + conda (params.enable_conda ? "bioconda::bismark=0.23.0" : null) if (workflow.containerEngine == 'singularity' && !params.singularity_pull_docker_container) { container "https://depot.galaxyproject.org/singularity/bismark:0.23.0--0" } else { diff --git a/software/bismark/genome_preparation/meta.yml b/software/bismark/genomepreparation/meta.yml similarity index 53% rename from software/bismark/genome_preparation/meta.yml rename to software/bismark/genomepreparation/meta.yml index 4bd10db7..a31add8a 100644 --- a/software/bismark/genome_preparation/meta.yml +++ b/software/bismark/genomepreparation/meta.yml @@ -1,4 +1,4 @@ -name: bismark_genome_preparation +name: bismark_genomepreparation description: | Converts a specified reference genome into two different bisulfite converted versions and indexes them for alignments. @@ -19,27 +19,6 @@ tools: homepage: https://github.com/FelixKrueger/Bismark documentation: https://github.com/FelixKrueger/Bismark/tree/master/Docs doi: 10.1093/bioinformatics/btr167 -params: - - outdir: - type: string - description: | - The pipeline's output directory. By default, the module will - output files into `$params.outdir/` - - publish_dir_mode: - type: string - description: | - Value for the Nextflow `publishDir` mode parameter. - Available: symlink, rellink, link, copy, copyNoFollow, move. - - enable_conda: - type: boolean - description: | - Run the module with Conda using the software specified - via the `conda` directive - - singularity_pull_docker_container: - type: boolean - description: | - Instead of directly downloading Singularity images for use with Singularity, - force the workflow to pull and convert Docker containers instead. input: - fasta: type: file diff --git a/software/bismark/methylationextractor/functions.nf b/software/bismark/methylationextractor/functions.nf new file mode 100644 index 00000000..d25eea86 --- /dev/null +++ b/software/bismark/methylationextractor/functions.nf @@ -0,0 +1,59 @@ +/* + * ----------------------------------------------------- + * Utility functions used in nf-core DSL2 module files + * ----------------------------------------------------- + */ + +/* + * Extract name of software tool from process name using $task.process + */ +def getSoftwareName(task_process) { + return task_process.tokenize(':')[-1].tokenize('_')[0].toLowerCase() +} + +/* + * Function to initialise default values and to generate a Groovy Map of available options for nf-core modules + */ +def initOptions(Map args) { + def Map options = [:] + options.args = args.args ?: '' + options.args2 = args.args2 ?: '' + options.publish_by_id = args.publish_by_id ?: false + options.publish_dir = args.publish_dir ?: '' + options.publish_files = args.publish_files + options.suffix = args.suffix ?: '' + return options +} + +/* + * Tidy up and join elements of a list to return a path string + */ +def getPathFromList(path_list) { + def paths = path_list.findAll { item -> !item?.trim().isEmpty() } // Remove empty entries + paths = paths.collect { it.trim().replaceAll("^[/]+|[/]+\$", "") } // Trim whitespace and trailing slashes + return paths.join('/') +} + +/* + * Function to save/publish module results + */ +def saveFiles(Map args) { + if (!args.filename.endsWith('.version.txt')) { + def ioptions = initOptions(args.options) + def path_list = [ ioptions.publish_dir ?: args.publish_dir ] + if (ioptions.publish_by_id) { + path_list.add(args.publish_id) + } + if (ioptions.publish_files instanceof Map) { + for (ext in ioptions.publish_files) { + if (args.filename.endsWith(ext.key)) { + def ext_list = path_list.collect() + ext_list.add(ext.value) + return "${getPathFromList(ext_list)}/$args.filename" + } + } + } else if (ioptions.publish_files == null) { + return "${getPathFromList(path_list)}/$args.filename" + } + } +} diff --git a/software/bismark/methylationextractor/main.nf b/software/bismark/methylationextractor/main.nf new file mode 100644 index 00000000..7ec52d14 --- /dev/null +++ b/software/bismark/methylationextractor/main.nf @@ -0,0 +1,48 @@ +// Import generic module functions +include { initOptions; saveFiles; getSoftwareName } from './functions' + +params.options = [:] +options = initOptions(params.options) + +process BISMARK_METHYLATIONEXTRACTOR { + tag "$meta.id" + label 'process_high' + publishDir "${params.outdir}", + mode: params.publish_dir_mode, + saveAs: { filename -> saveFiles(filename:filename, options:params.options, publish_dir:getSoftwareName(task.process), publish_id:meta.id) } + + conda (params.enable_conda ? "bioconda::bismark=0.23.0" : null) + if (workflow.containerEngine == 'singularity' && !params.singularity_pull_docker_container) { + container "https://depot.galaxyproject.org/singularity/bismark:0.23.0--0" + } else { + container "quay.io/biocontainers/bismark:0.23.0--0" + } + + input: + tuple val(meta), path(bam) + path index + + output: + tuple val(meta), path("*.bedGraph.gz") , emit: bedgraph + tuple val(meta), path("*.txt.gz") , emit: methylation_calls + tuple val(meta), path("*.cov.gz") , emit: coverage + tuple val(meta), path("*_splitting_report.txt"), emit: report + tuple val(meta), path("*.M-bias.txt") , emit: mbias + path "*.version.txt" , emit: version + + script: + def seqtype = meta.single_end ? '-s' : '-p' + def software = getSoftwareName(task.process) + """ + bismark_methylation_extractor \\ + --bedGraph \\ + --counts \\ + --gzip \\ + --report \\ + $seqtype \\ + $options.args \\ + $bam + + echo \$(bismark -v 2>&1) | sed 's/^.*Bismark Version: v//; s/Copyright.*\$//' > ${software}.version.txt + """ +} diff --git a/software/bismark/methylationextractor/meta.yml b/software/bismark/methylationextractor/meta.yml new file mode 100644 index 00000000..a201b586 --- /dev/null +++ b/software/bismark/methylationextractor/meta.yml @@ -0,0 +1,66 @@ +name: bismark_methylationextractor +description: Extracts methylation information for individual cytosines from alignments. +keywords: + - bismark + - consensus + - map + - methylation + - 5mC + - methylseq + - bisulphite + - bam + - bedGraph +tools: + - bismark: + description: | + Bismark is a tool to map bisulfite treated sequencing reads + and perform methylation calling in a quick and easy-to-use fashion. + homepage: https://github.com/FelixKrueger/Bismark + documentation: https://github.com/FelixKrueger/Bismark/tree/master/Docs + doi: 10.1093/bioinformatics/btr167 +input: + - meta: + type: map + description: | + Groovy Map containing sample information + e.g. [ id:'test', single_end:false ] + - bam: + type: file + description: BAM file containing read alignments + pattern: "*.{bam}" + - index: + type: dir + description: Bismark genome index directory + pattern: "BismarkIndex" +output: + - meta: + type: map + description: | + Groovy Map containing sample information + e.g. [ id:'test', single_end:false ] + - bedgraph: + type: file + description: Bismark output file containing coverage and methylation metrics + pattern: "*.{bedGraph.gz}" + - methylation_calls: + type: file + description: Bismark output file containing strand-specific methylation calls + pattern: "*.{txt.gz}" + - coverage: + type: file + description: Bismark output file containing coverage metrics + pattern: "*.{cov.gz}" + - report: + type: file + description: Bismark splitting reports + pattern: "*_{splitting_report.txt}" + - mbias: + type: file + description: Text file containing methylation bias information + pattern: "*.{M-bias.txt}" + - version: + type: file + description: File containing software version + pattern: "*.{version.txt}" +authors: + - "@phue" diff --git a/software/bismark/report/functions.nf b/software/bismark/report/functions.nf new file mode 100644 index 00000000..d25eea86 --- /dev/null +++ b/software/bismark/report/functions.nf @@ -0,0 +1,59 @@ +/* + * ----------------------------------------------------- + * Utility functions used in nf-core DSL2 module files + * ----------------------------------------------------- + */ + +/* + * Extract name of software tool from process name using $task.process + */ +def getSoftwareName(task_process) { + return task_process.tokenize(':')[-1].tokenize('_')[0].toLowerCase() +} + +/* + * Function to initialise default values and to generate a Groovy Map of available options for nf-core modules + */ +def initOptions(Map args) { + def Map options = [:] + options.args = args.args ?: '' + options.args2 = args.args2 ?: '' + options.publish_by_id = args.publish_by_id ?: false + options.publish_dir = args.publish_dir ?: '' + options.publish_files = args.publish_files + options.suffix = args.suffix ?: '' + return options +} + +/* + * Tidy up and join elements of a list to return a path string + */ +def getPathFromList(path_list) { + def paths = path_list.findAll { item -> !item?.trim().isEmpty() } // Remove empty entries + paths = paths.collect { it.trim().replaceAll("^[/]+|[/]+\$", "") } // Trim whitespace and trailing slashes + return paths.join('/') +} + +/* + * Function to save/publish module results + */ +def saveFiles(Map args) { + if (!args.filename.endsWith('.version.txt')) { + def ioptions = initOptions(args.options) + def path_list = [ ioptions.publish_dir ?: args.publish_dir ] + if (ioptions.publish_by_id) { + path_list.add(args.publish_id) + } + if (ioptions.publish_files instanceof Map) { + for (ext in ioptions.publish_files) { + if (args.filename.endsWith(ext.key)) { + def ext_list = path_list.collect() + ext_list.add(ext.value) + return "${getPathFromList(ext_list)}/$args.filename" + } + } + } else if (ioptions.publish_files == null) { + return "${getPathFromList(path_list)}/$args.filename" + } + } +} diff --git a/software/bismark/report/main.nf b/software/bismark/report/main.nf new file mode 100644 index 00000000..68db2e19 --- /dev/null +++ b/software/bismark/report/main.nf @@ -0,0 +1,39 @@ +// Import generic module functions +include { initOptions; saveFiles; getSoftwareName } from './functions' + +params.options = [:] +options = initOptions(params.options) + +process BISMARK_REPORT { + tag "$meta.id" + label 'process_low' + publishDir "${params.outdir}", + mode: params.publish_dir_mode, + saveAs: { filename -> saveFiles(filename:filename, options:params.options, publish_dir:getSoftwareName(task.process), publish_id:meta.id) } + + conda (params.enable_conda ? "bioconda::bismark=0.23.0" : null) + if (workflow.containerEngine == 'singularity' && !params.singularity_pull_docker_container) { + container "https://depot.galaxyproject.org/singularity/bismark:0.23.0--0" + } else { + container "quay.io/biocontainers/bismark:0.23.0--0" + } + + input: + tuple val(meta), path(align_report), path(dedup_report), path(splitting_report), path(mbias) + + output: + tuple val(meta), path("*{html,txt}"), emit: report + path "*.version.txt" , emit: version + + script: + def software = getSoftwareName(task.process) + """ + bismark2report \\ + --alignment_report $align_report \\ + --dedup_report $dedup_report \\ + --splitting_report $splitting_report \\ + --mbias_report $mbias + + echo \$(bismark -v 2>&1) | sed 's/^.*Bismark Version: v//; s/Copyright.*\$//' > ${software}.version.txt + """ +} diff --git a/software/bismark/report/meta.yml b/software/bismark/report/meta.yml new file mode 100644 index 00000000..3e8da1d0 --- /dev/null +++ b/software/bismark/report/meta.yml @@ -0,0 +1,59 @@ +name: bismark_report +description: Collects bismark alignment reports +keywords: + - bismark + - qc + - methylation + - 5mC + - methylseq + - bisulphite + - report +tools: + - bismark: + description: | + Bismark is a tool to map bisulfite treated sequencing reads + and perform methylation calling in a quick and easy-to-use fashion. + homepage: https://github.com/FelixKrueger/Bismark + documentation: https://github.com/FelixKrueger/Bismark/tree/master/Docs + doi: 10.1093/bioinformatics/btr167 +input: + - meta: + type: map + description: | + Groovy Map containing sample information + e.g. [ id:'test', single_end:false ] + - align_report: + type: file + description: Bismark alignment reports + pattern: "*{report.txt}" + - splitting_report: + type: file + description: Bismark splitting reports + pattern: "*{splitting_report.txt}" + - dedup_report: + type: file + description: Bismark deduplication reports + pattern: "*.{deduplication_report.txt}" + - mbias: + type: file + description: Text file containing methylation bias information + pattern: "*.{txt}" + - fasta: + type: file + description: Input genome fasta file +output: + - meta: + type: map + description: | + Groovy Map containing sample information + e.g. [ id:'test', single_end:false ] + - report: + type: file + description: Bismark reports + pattern: "*.{html,txt}" + - version: + type: file + description: File containing software version + pattern: "*.{version.txt}" +authors: + - "@phue" diff --git a/software/bismark/summary/functions.nf b/software/bismark/summary/functions.nf new file mode 100644 index 00000000..d25eea86 --- /dev/null +++ b/software/bismark/summary/functions.nf @@ -0,0 +1,59 @@ +/* + * ----------------------------------------------------- + * Utility functions used in nf-core DSL2 module files + * ----------------------------------------------------- + */ + +/* + * Extract name of software tool from process name using $task.process + */ +def getSoftwareName(task_process) { + return task_process.tokenize(':')[-1].tokenize('_')[0].toLowerCase() +} + +/* + * Function to initialise default values and to generate a Groovy Map of available options for nf-core modules + */ +def initOptions(Map args) { + def Map options = [:] + options.args = args.args ?: '' + options.args2 = args.args2 ?: '' + options.publish_by_id = args.publish_by_id ?: false + options.publish_dir = args.publish_dir ?: '' + options.publish_files = args.publish_files + options.suffix = args.suffix ?: '' + return options +} + +/* + * Tidy up and join elements of a list to return a path string + */ +def getPathFromList(path_list) { + def paths = path_list.findAll { item -> !item?.trim().isEmpty() } // Remove empty entries + paths = paths.collect { it.trim().replaceAll("^[/]+|[/]+\$", "") } // Trim whitespace and trailing slashes + return paths.join('/') +} + +/* + * Function to save/publish module results + */ +def saveFiles(Map args) { + if (!args.filename.endsWith('.version.txt')) { + def ioptions = initOptions(args.options) + def path_list = [ ioptions.publish_dir ?: args.publish_dir ] + if (ioptions.publish_by_id) { + path_list.add(args.publish_id) + } + if (ioptions.publish_files instanceof Map) { + for (ext in ioptions.publish_files) { + if (args.filename.endsWith(ext.key)) { + def ext_list = path_list.collect() + ext_list.add(ext.value) + return "${getPathFromList(ext_list)}/$args.filename" + } + } + } else if (ioptions.publish_files == null) { + return "${getPathFromList(path_list)}/$args.filename" + } + } +} diff --git a/software/bismark/summary/main.nf b/software/bismark/summary/main.nf new file mode 100644 index 00000000..d61ad2d7 --- /dev/null +++ b/software/bismark/summary/main.nf @@ -0,0 +1,38 @@ +// Import generic module functions +include { initOptions; saveFiles; getSoftwareName } from './functions' + +params.options = [:] +options = initOptions(params.options) + +process BISMARK_SUMMARY { + label 'process_low' + publishDir "${params.outdir}", + mode: params.publish_dir_mode, + saveAs: { filename -> saveFiles(filename:filename, options:params.options, publish_dir:getSoftwareName(task.process), publish_id:'') } + + conda (params.enable_conda ? "bioconda::bismark=0.23.0" : null) + if (workflow.containerEngine == 'singularity' && !params.singularity_pull_docker_container) { + container "https://depot.galaxyproject.org/singularity/bismark:0.23.0--0" + } else { + container "quay.io/biocontainers/bismark:0.23.0--0" + } + + input: + path(bam) + path(align_report) + path(dedup_report) + path(splitting_report) + path(mbias) + + output: + path("*{html,txt}") , emit: summary + path "*.version.txt", emit: version + + script: + def software = getSoftwareName(task.process) + """ + bismark2summary + + echo \$(bismark -v 2>&1) | sed 's/^.*Bismark Version: v//; s/Copyright.*\$//' > ${software}.version.txt + """ +} diff --git a/software/bismark/summary/meta.yml b/software/bismark/summary/meta.yml new file mode 100644 index 00000000..a88bf8f6 --- /dev/null +++ b/software/bismark/summary/meta.yml @@ -0,0 +1,53 @@ +name: bismark_summary +description: | + Uses Bismark report files of several samples in a run folder + to generate a graphical summary HTML report. +keywords: + - bismark + - qc + - methylation + - 5mC + - methylseq + - bisulphite + - report + - summary +tools: + - bismark: + description: | + Bismark is a tool to map bisulfite treated sequencing reads + and perform methylation calling in a quick and easy-to-use fashion. + homepage: https://github.com/FelixKrueger/Bismark + documentation: https://github.com/FelixKrueger/Bismark/tree/master/Docs + doi: 10.1093/bioinformatics/btr167 +input: + - bam: + type: file + description: Bismark alignment + pattern: "*.{bam}" + - align_report: + type: file + description: Bismark alignment reports + pattern: "*{report.txt}" + - dedup_report: + type: file + description: Bismark deduplication reports + pattern: "*.{deduplication_report.txt}" + - splitting_report: + type: file + description: Bismark splitting reports + pattern: "*{splitting_report.txt}" + - mbias: + type: file + description: Text file containing methylation bias information + pattern: "*.{txt}" +output: + - summary: + type: file + description: Bismark summary + pattern: "*.{html,txt}" + - version: + type: file + description: File containing software version + pattern: "*.{version.txt}" +authors: + - "@phue" diff --git a/software/blast/blastn/meta.yml b/software/blast/blastn/meta.yml index 41dd872d..d04889a8 100644 --- a/software/blast/blastn/meta.yml +++ b/software/blast/blastn/meta.yml @@ -12,27 +12,6 @@ tools: homepage: https://blast.ncbi.nlm.nih.gov/Blast.cgi documentation: https://blast.ncbi.nlm.nih.gov/Blast.cgi?CMD=Web&PAGE_TYPE=Blastdocs doi: 10.1016/S0022-2836(05)80360-2 -params: - - outdir: - type: string - description: | - The pipeline's output directory. By default, the module will - output files into `$params.outdir/` - - publish_dir_mode: - type: string - description: | - Value for the Nextflow `publishDir` mode parameter. - Available: symlink, rellink, link, copy, copyNoFollow, move. - - enable_conda: - type: boolean - description: | - Run the module with Conda using the software specified - via the `conda` directive - - singularity_pull_docker_container: - type: boolean - description: | - Instead of directly downloading Singularity images for use with Singularity, - force the workflow to pull and convert Docker containers instead. input: - meta: type: map diff --git a/software/blast/makeblastdb/meta.yml b/software/blast/makeblastdb/meta.yml index 0629a49a..0ea4903f 100644 --- a/software/blast/makeblastdb/meta.yml +++ b/software/blast/makeblastdb/meta.yml @@ -11,27 +11,6 @@ tools: homepage: https://blast.ncbi.nlm.nih.gov/Blast.cgi documentation: https://blast.ncbi.nlm.nih.gov/Blast.cgi?CMD=Web&PAGE_TYPE=Blastdocs doi: 10.1016/S0022-2836(05)80360-2 -params: - - outdir: - type: string - description: | - The pipeline's output directory. By default, the module will - output files into `$params.outdir/` - - publish_dir_mode: - type: string - description: | - Value for the Nextflow `publishDir` mode parameter. - Available: symlink, rellink, link, copy, copyNoFollow, move. - - enable_conda: - type: boolean - description: | - Run the module with Conda using the software specified - via the `conda` directive - - singularity_pull_docker_container: - type: boolean - description: | - Instead of directly downloading Singularity images for use with Singularity, - force the workflow to pull and convert Docker containers instead. input: - fasta: type: file diff --git a/software/bowtie/align/meta.yml b/software/bowtie/align/meta.yml index ebadcdca..bea8b4dd 100644 --- a/software/bowtie/align/meta.yml +++ b/software/bowtie/align/meta.yml @@ -13,30 +13,6 @@ tools: homepage: http://bowtie-bio.sourceforge.net/index.shtml documentation: http://bowtie-bio.sourceforge.net/manual.shtml arxiv: arXiv:1303.3997 -params: - - outdir: - type: string - description: | - The pipeline's output directory. By default, the module will - output files into `$params.outdir/` - - publish_dir_mode: - type: string - description: | - Value for the Nextflow `publishDir` mode parameter. - Available: symlink, rellink, link, copy, copyNoFollow, move. - - enable_conda: - type: boolean - description: | - Run the module with Conda using the software specified - via the `conda` directive - - singularity_pull_docker_container: - type: boolean - description: | - Instead of directly downloading Singularity images for use with Singularity, - force the workflow to pull and convert Docker containers instead. - - save_unaligned: - type: boolean - description: Save unaligned reads input: - meta: type: map diff --git a/software/bowtie/build/main.nf b/software/bowtie/build/main.nf index 4acb7e2c..5f4d695a 100644 --- a/software/bowtie/build/main.nf +++ b/software/bowtie/build/main.nf @@ -9,7 +9,7 @@ process BOWTIE_BUILD { label 'process_high' publishDir "${params.outdir}", mode: params.publish_dir_mode, - saveAs: { filename -> saveFiles(filename:filename, options:params.options, publish_dir:getSoftwareName(task.process), publish_id:'') } + saveAs: { filename -> saveFiles(filename:filename, options:params.options, publish_dir:'index', publish_id:'') } conda (params.enable_conda ? 'bioconda::bowtie=1.3.0' : null) if (workflow.containerEngine == 'singularity' && !params.singularity_pull_docker_container) { diff --git a/software/bowtie/build/meta.yml b/software/bowtie/build/meta.yml index f9a8f1c9..a2da42c6 100644 --- a/software/bowtie/build/meta.yml +++ b/software/bowtie/build/meta.yml @@ -13,27 +13,6 @@ tools: homepage: http://bowtie-bio.sourceforge.net/index.shtml documentation: http://bowtie-bio.sourceforge.net/manual.shtml arxiv: arXiv:1303.3997 -params: - - outdir: - type: string - description: | - The pipeline's output directory. By default, the module will - output files into `$params.outdir/` - - publish_dir_mode: - type: string - description: | - Value for the Nextflow `publishDir` mode parameter. - Available: symlink, rellink, link, copy, copyNoFollow, move. - - enable_conda: - type: boolean - description: | - Run the module with Conda using the software specified - via the `conda` directive - - singularity_pull_docker_container: - type: boolean - description: | - Instead of directly downloading Singularity images for use with Singularity, - force the workflow to pull and convert Docker containers instead. input: - fasta: type: file diff --git a/software/bowtie2/align/meta.yml b/software/bowtie2/align/meta.yml index eb78e9f9..9d9cd004 100644 --- a/software/bowtie2/align/meta.yml +++ b/software/bowtie2/align/meta.yml @@ -13,30 +13,6 @@ tools: homepage: http://bowtie-bio.sourceforge.net/bowtie2/index.shtml documentation: http://bowtie-bio.sourceforge.net/bowtie2/manual.shtml doi: 10.1038/nmeth.1923 -params: - - outdir: - type: string - description: | - The pipeline's output directory. By default, the module will - output files into `$params.outdir/` - - publish_dir_mode: - type: string - description: | - Value for the Nextflow `publishDir` mode parameter. - Available: symlink, rellink, link, copy, copyNoFollow, move. - - enable_conda: - type: boolean - description: | - Run the module with Conda using the software specified - via the `conda` directive - - singularity_pull_docker_container: - type: boolean - description: | - Instead of directly downloading Singularity images for use with Singularity, - force the workflow to pull and convert Docker containers instead. - - save_unaligned: - type: boolean - description: Save unaligned reads input: - meta: type: map diff --git a/software/bowtie2/build/main.nf b/software/bowtie2/build/main.nf index 56dca466..ca3527ee 100644 --- a/software/bowtie2/build/main.nf +++ b/software/bowtie2/build/main.nf @@ -9,7 +9,7 @@ process BOWTIE2_BUILD { label 'process_high' publishDir "${params.outdir}", mode: params.publish_dir_mode, - saveAs: { filename -> saveFiles(filename:filename, options:params.options, publish_dir:getSoftwareName(task.process), publish_id:'') } + saveAs: { filename -> saveFiles(filename:filename, options:params.options, publish_dir:'index', publish_id:'') } conda (params.enable_conda ? 'bioconda::bowtie2=2.4.2' : null) if (workflow.containerEngine == 'singularity' && !params.singularity_pull_docker_container) { diff --git a/software/bowtie2/build/meta.yml b/software/bowtie2/build/meta.yml index 959a9b09..0a4cd3de 100644 --- a/software/bowtie2/build/meta.yml +++ b/software/bowtie2/build/meta.yml @@ -14,27 +14,6 @@ tools: homepage: http://bowtie-bio.sourceforge.net/bowtie2/index.shtml documentation: http://bowtie-bio.sourceforge.net/bowtie2/manual.shtml doi: 10.1038/nmeth.1923 -params: - - outdir: - type: string - description: | - The pipeline's output directory. By default, the module will - output files into `$params.outdir/` - - publish_dir_mode: - type: string - description: | - Value for the Nextflow `publishDir` mode parameter. - Available: symlink, rellink, link, copy, copyNoFollow, move. - - enable_conda: - type: boolean - description: | - Run the module with Conda using the software specified - via the `conda` directive - - singularity_pull_docker_container: - type: boolean - description: | - Instead of directly downloading Singularity images for use with Singularity, - force the workflow to pull and convert Docker containers instead. input: - fasta: type: file diff --git a/software/bwa/index/main.nf b/software/bwa/index/main.nf index 69737dfb..0ae9f1ce 100644 --- a/software/bwa/index/main.nf +++ b/software/bwa/index/main.nf @@ -9,7 +9,7 @@ process BWA_INDEX { label 'process_high' publishDir "${params.outdir}", mode: params.publish_dir_mode, - saveAs: { filename -> saveFiles(filename:filename, options:params.options, publish_dir:getSoftwareName(task.process), publish_id:'') } + saveAs: { filename -> saveFiles(filename:filename, options:params.options, publish_dir:'index', publish_id:'') } conda (params.enable_conda ? "bioconda::bwa=0.7.17" : null) if (workflow.containerEngine == 'singularity' && !params.singularity_pull_docker_container) { diff --git a/software/bwa/index/meta.yml b/software/bwa/index/meta.yml index 0c3b8f5f..181204c3 100644 --- a/software/bwa/index/meta.yml +++ b/software/bwa/index/meta.yml @@ -13,27 +13,6 @@ tools: homepage: http://bio-bwa.sourceforge.net/ documentation: http://www.htslib.org/doc/samtools.html arxiv: arXiv:1303.3997 -params: - - outdir: - type: string - description: | - The pipeline's output directory. By default, the module will - output files into `$params.outdir/` - - publish_dir_mode: - type: string - description: | - Value for the Nextflow `publishDir` mode parameter. - Available: symlink, rellink, link, copy, copyNoFollow, move. - - enable_conda: - type: boolean - description: | - Run the module with Conda using the software specified - via the `conda` directive - - singularity_pull_docker_container: - type: boolean - description: | - Instead of directly downloading Singularity images for use with Singularity, - force the workflow to pull and convert Docker containers instead. input: - fasta: type: file diff --git a/software/bwa/mem/main.nf b/software/bwa/mem/main.nf index be6d8977..fb7d848d 100644 --- a/software/bwa/mem/main.nf +++ b/software/bwa/mem/main.nf @@ -11,11 +11,11 @@ process BWA_MEM { mode: params.publish_dir_mode, saveAs: { filename -> saveFiles(filename:filename, options:params.options, publish_dir:getSoftwareName(task.process), publish_id:meta.id) } - conda (params.enable_conda ? "bioconda::bwa=0.7.17 bioconda::samtools=1.10" : null) + conda (params.enable_conda ? "bioconda::bwa=0.7.17 bioconda::samtools=1.12" : null) if (workflow.containerEngine == 'singularity' && !params.singularity_pull_docker_container) { - container "https://depot.galaxyproject.org/singularity/mulled-v2-fe8faa35dbf6dc65a0f7f5d4ea12e31a79f73e40:eabfac3657eda5818bae4090db989e3d41b01542-0" + container "https://depot.galaxyproject.org/singularity/mulled-v2-fe8faa35dbf6dc65a0f7f5d4ea12e31a79f73e40:66ed1b38d280722529bb8a0167b0cf02f8a0b488-0" } else { - container "quay.io/biocontainers/mulled-v2-fe8faa35dbf6dc65a0f7f5d4ea12e31a79f73e40:eabfac3657eda5818bae4090db989e3d41b01542-0" + container "quay.io/biocontainers/mulled-v2-fe8faa35dbf6dc65a0f7f5d4ea12e31a79f73e40:66ed1b38d280722529bb8a0167b0cf02f8a0b488-0" } input: diff --git a/software/bwa/mem/meta.yml b/software/bwa/mem/meta.yml index 2e44951c..693c5450 100644 --- a/software/bwa/mem/meta.yml +++ b/software/bwa/mem/meta.yml @@ -16,27 +16,6 @@ tools: homepage: http://bio-bwa.sourceforge.net/ documentation: http://www.htslib.org/doc/samtools.html arxiv: arXiv:1303.3997 -params: - - outdir: - type: string - description: | - The pipeline's output directory. By default, the module will - output files into `$params.outdir/` - - publish_dir_mode: - type: string - description: | - Value for the Nextflow `publishDir` mode parameter. - Available: symlink, rellink, link, copy, copyNoFollow, move. - - enable_conda: - type: boolean - description: | - Run the module with Conda using the software specified - via the `conda` directive - - singularity_pull_docker_container: - type: boolean - description: | - Instead of directly downloading Singularity images for use with Singularity, - force the workflow to pull and convert Docker containers instead. input: - meta: type: map diff --git a/software/bwamem2/index/main.nf b/software/bwamem2/index/main.nf index 2de37358..7f9dbf19 100644 --- a/software/bwamem2/index/main.nf +++ b/software/bwamem2/index/main.nf @@ -9,13 +9,13 @@ process BWAMEM2_INDEX { label 'process_high' publishDir "${params.outdir}", mode: params.publish_dir_mode, - saveAs: { filename -> saveFiles(filename:filename, options:params.options, publish_dir:getSoftwareName(task.process), publish_id:'') } + saveAs: { filename -> saveFiles(filename:filename, options:params.options, publish_dir:'index', publish_id:'') } - conda (params.enable_conda ? "bioconda::bwa-mem2=2.1" : null) + conda (params.enable_conda ? "bioconda::bwa-mem2=2.2.1" : null) if (workflow.containerEngine == 'singularity' && !params.singularity_pull_docker_container) { - container "https://depot.galaxyproject.org/singularity/bwa-mem2:2.1--he513fc3_0" + container "https://depot.galaxyproject.org/singularity/bwa-mem2:2.2.1--he513fc3_0" } else { - container "quay.io/biocontainers/bwa-mem2:2.1--he513fc3_0" + container "quay.io/biocontainers/bwa-mem2:2.2.1--he513fc3_0" } input: diff --git a/software/bwamem2/index/meta.yml b/software/bwamem2/index/meta.yml index 70780902..9d717f73 100644 --- a/software/bwamem2/index/meta.yml +++ b/software/bwamem2/index/meta.yml @@ -12,27 +12,6 @@ tools: a large reference genome, such as the human genome. homepage: https://github.com/bwa-mem2/bwa-mem2 documentation: https://github.com/bwa-mem2/bwa-mem2#usage -params: - - outdir: - type: string - description: | - The pipeline's output directory. By default, the module will - output files into `$params.outdir/` - - publish_dir_mode: - type: string - description: | - Value for the Nextflow `publishDir` mode parameter. - Available: symlink, rellink, link, copy, copyNoFollow, move. - - enable_conda: - type: boolean - description: | - Run the module with Conda using the software specified - via the `conda` directive - - singularity_pull_docker_container: - type: boolean - description: | - Instead of directly downloading Singularity images for use with Singularity, - force the workflow to pull and convert Docker containers instead. input: - fasta: type: file diff --git a/software/bwamem2/mem/main.nf b/software/bwamem2/mem/main.nf index afe15e76..427caa3a 100644 --- a/software/bwamem2/mem/main.nf +++ b/software/bwamem2/mem/main.nf @@ -11,11 +11,11 @@ process BWAMEM2_MEM { mode: params.publish_dir_mode, saveAs: { filename -> saveFiles(filename:filename, options:params.options, publish_dir:getSoftwareName(task.process), publish_id:meta.id) } - conda (params.enable_conda ? "bioconda::bwa-mem2=2.1 bioconda::samtools=1.11" : null) + conda (params.enable_conda ? "bioconda::bwa-mem2=2.2.1 bioconda::samtools=1.12" : null) if (workflow.containerEngine == 'singularity' && !params.singularity_pull_docker_container) { - container "https://depot.galaxyproject.org/singularity/mulled-v2-e5d375990341c5aef3c9aff74f96f66f65375ef6:e6f0d20c9d78572ddbbf00d8767ee6ff865edd4e-0" + container "https://depot.galaxyproject.org/singularity/mulled-v2-e5d375990341c5aef3c9aff74f96f66f65375ef6:cf603b12db30ec91daa04ba45a8ee0f35bbcd1e2-0" } else { - container "quay.io/biocontainers/mulled-v2-e5d375990341c5aef3c9aff74f96f66f65375ef6:e6f0d20c9d78572ddbbf00d8767ee6ff865edd4e-0" + container "quay.io/biocontainers/mulled-v2-e5d375990341c5aef3c9aff74f96f66f65375ef6:cf603b12db30ec91daa04ba45a8ee0f35bbcd1e2-0" } input: diff --git a/software/bwamem2/mem/meta.yml b/software/bwamem2/mem/meta.yml index 7d59b9b4..2fc7713d 100644 --- a/software/bwamem2/mem/meta.yml +++ b/software/bwamem2/mem/meta.yml @@ -16,27 +16,6 @@ tools: homepage: http://bio-bwa.sourceforge.net/ documentation: http://www.htslib.org/doc/samtools.html arxiv: arXiv:1303.3997 -params: - - outdir: - type: string - description: | - The pipeline's output directory. By default, the module will - output files into `$params.outdir/` - - publish_dir_mode: - type: string - description: | - Value for the Nextflow `publishDir` mode parameter. - Available: symlink, rellink, link, copy, copyNoFollow, move. - - enable_conda: - type: boolean - description: | - Run the module with Conda using the software specified - via the `conda` directive - - singularity_pull_docker_container: - type: boolean - description: | - Instead of directly downloading Singularity images for use with Singularity, - force the workflow to pull and convert Docker containers instead. input: - meta: type: map diff --git a/software/bwameth/align/meta.yml b/software/bwameth/align/meta.yml index 9d46e4cc..ac578031 100644 --- a/software/bwameth/align/meta.yml +++ b/software/bwameth/align/meta.yml @@ -19,27 +19,6 @@ tools: homepage: https://github.com/brentp/bwa-meth documentation: https://github.com/brentp/bwa-meth arxiv: arXiv:1401.1129 -params: - - outdir: - type: string - description: | - The pipeline's output directory. By default, the module will - output files into `$params.outdir/` - - publish_dir_mode: - type: string - description: | - Value for the Nextflow `publishDir` mode parameter. - Available: symlink, rellink, link, copy, copyNoFollow, move. - - enable_conda: - type: boolean - description: | - Run the module with Conda using the software specified - via the `conda` directive - - singularity_pull_docker_container: - type: boolean - description: | - Instead of directly downloading Singularity images for use with Singularity, - force the workflow to pull and convert Docker containers instead. input: - meta: type: map diff --git a/software/bwameth/index/main.nf b/software/bwameth/index/main.nf index d51c579f..b2885aa4 100644 --- a/software/bwameth/index/main.nf +++ b/software/bwameth/index/main.nf @@ -9,7 +9,7 @@ process BWAMETH_INDEX { label 'process_high' publishDir "${params.outdir}", mode: params.publish_dir_mode, - saveAs: { filename -> saveFiles(filename:filename, options:params.options, publish_dir:getSoftwareName(task.process), publish_id:'') } + saveAs: { filename -> saveFiles(filename:filename, options:params.options, publish_dir:'index', publish_id:'') } conda (params.enable_conda ? "bioconda::bwameth=0.2.2" : null) if (workflow.containerEngine == 'singularity' && !params.singularity_pull_docker_container) { diff --git a/software/bwameth/index/meta.yml b/software/bwameth/index/meta.yml index 467a2758..79c54862 100644 --- a/software/bwameth/index/meta.yml +++ b/software/bwameth/index/meta.yml @@ -15,27 +15,6 @@ tools: homepage: https://github.com/brentp/bwa-meth documentation: https://github.com/brentp/bwa-meth arxiv: arXiv:1401.1129 -params: - - outdir: - type: string - description: | - The pipeline's output directory. By default, the module will - output files into `$params.outdir/` - - publish_dir_mode: - type: string - description: | - Value for the Nextflow `publishDir` mode parameter. - Available: symlink, rellink, link, copy, copyNoFollow, move. - - enable_conda: - type: boolean - description: | - Run the module with Conda using the software specified - via the `conda` directive - - singularity_pull_docker_container: - type: boolean - description: | - Instead of directly downloading Singularity images for use with Singularity, - force the workflow to pull and convert Docker containers instead. input: - fasta: type: file diff --git a/software/cat/fastq/main.nf b/software/cat/fastq/main.nf index b3f01af9..ed62e432 100644 --- a/software/cat/fastq/main.nf +++ b/software/cat/fastq/main.nf @@ -6,6 +6,7 @@ options = initOptions(params.options) process CAT_FASTQ { tag "$meta.id" + label 'process_low' publishDir "${params.outdir}", mode: params.publish_dir_mode, saveAs: { filename -> saveFiles(filename:filename, options:params.options, publish_dir:'merged_fastq', publish_id:meta.id) } diff --git a/software/cat/fastq/meta.yml b/software/cat/fastq/meta.yml index 5807bdde..e7b8eebe 100644 --- a/software/cat/fastq/meta.yml +++ b/software/cat/fastq/meta.yml @@ -8,27 +8,6 @@ tools: description: | The cat utility reads files sequentially, writing them to the standard output. documentation: https://www.gnu.org/software/coreutils/manual/html_node/cat-invocation.html -params: - - outdir: - type: string - description: | - The pipeline's output directory. By default, the module will - output files into `$params.outdir/` - - publish_dir_mode: - type: string - description: | - Value for the Nextflow `publishDir` mode parameter. - Available: symlink, rellink, link, copy, copyNoFollow, move. - - enable_conda: - type: boolean - description: | - Run the module with Conda using the software specified - via the `conda` directive - - singularity_pull_docker_container: - type: boolean - description: | - Instead of directly downloading Singularity images for use with Singularity, - force the workflow to pull and convert Docker containers instead. input: - meta: type: map diff --git a/software/cnvkit/functions.nf b/software/cnvkit/functions.nf new file mode 100755 index 00000000..d25eea86 --- /dev/null +++ b/software/cnvkit/functions.nf @@ -0,0 +1,59 @@ +/* + * ----------------------------------------------------- + * Utility functions used in nf-core DSL2 module files + * ----------------------------------------------------- + */ + +/* + * Extract name of software tool from process name using $task.process + */ +def getSoftwareName(task_process) { + return task_process.tokenize(':')[-1].tokenize('_')[0].toLowerCase() +} + +/* + * Function to initialise default values and to generate a Groovy Map of available options for nf-core modules + */ +def initOptions(Map args) { + def Map options = [:] + options.args = args.args ?: '' + options.args2 = args.args2 ?: '' + options.publish_by_id = args.publish_by_id ?: false + options.publish_dir = args.publish_dir ?: '' + options.publish_files = args.publish_files + options.suffix = args.suffix ?: '' + return options +} + +/* + * Tidy up and join elements of a list to return a path string + */ +def getPathFromList(path_list) { + def paths = path_list.findAll { item -> !item?.trim().isEmpty() } // Remove empty entries + paths = paths.collect { it.trim().replaceAll("^[/]+|[/]+\$", "") } // Trim whitespace and trailing slashes + return paths.join('/') +} + +/* + * Function to save/publish module results + */ +def saveFiles(Map args) { + if (!args.filename.endsWith('.version.txt')) { + def ioptions = initOptions(args.options) + def path_list = [ ioptions.publish_dir ?: args.publish_dir ] + if (ioptions.publish_by_id) { + path_list.add(args.publish_id) + } + if (ioptions.publish_files instanceof Map) { + for (ext in ioptions.publish_files) { + if (args.filename.endsWith(ext.key)) { + def ext_list = path_list.collect() + ext_list.add(ext.value) + return "${getPathFromList(ext_list)}/$args.filename" + } + } + } else if (ioptions.publish_files == null) { + return "${getPathFromList(path_list)}/$args.filename" + } + } +} diff --git a/software/cnvkit/main.nf b/software/cnvkit/main.nf new file mode 100755 index 00000000..ca6acbae --- /dev/null +++ b/software/cnvkit/main.nf @@ -0,0 +1,46 @@ +// Import generic module functions +include { initOptions; saveFiles; getSoftwareName } from './functions' + +params.options = [:] +def options = initOptions(params.options) + +process CNVKIT { + tag "$meta.id" + label 'process_low' + publishDir "${params.outdir}", + mode: params.publish_dir_mode, + saveAs: { filename -> saveFiles(filename:filename, options:params.options, publish_dir:getSoftwareName(task.process), publish_id:meta.id) } + + conda (params.enable_conda ? "bioconda::cnvkit=0.9.8" : null) + if (workflow.containerEngine == 'singularity' && !params.singularity_pull_docker_container) { + container "https://depot.galaxyproject.org/singularity/cnvkit:0.9.8--py_0" + } else { + container "quay.io/biocontainers/cnvkit:0.9.8--py_0" + } + + input: + tuple val(meta), path(tumourbam), path(normalbam) + path fasta + path targetfile + + output: + tuple val(meta), path("*.bed"), emit: bed + tuple val(meta), path("*.cnn"), emit: cnn + tuple val(meta), path("*.cnr"), emit: cnr + tuple val(meta), path("*.cns"), emit: cns + path "*.version.txt" , emit: version + + script: + def software = getSoftwareName(task.process) + def prefix = options.suffix ? "${meta.id}.${options.suffix}" : "${meta.id}" + """ + cnvkit.py batch \\ + $tumourbam \\ + --normal $normalbam\\ + --fasta $fasta \\ + --targets $targetfile \\ + $options.args + + cnvkit.py version | sed -e "s/cnvkit v//g" > ${software}.version.txt + """ +} diff --git a/software/cnvkit/meta.yml b/software/cnvkit/meta.yml new file mode 100755 index 00000000..d3d81ecc --- /dev/null +++ b/software/cnvkit/meta.yml @@ -0,0 +1,87 @@ +name: cnvkit +description: Copy number variant detection from high-throughput sequencing data +keywords: + - bam + - fasta + - copy number +tools: + - cnvkit: + description: | + CNVkit is a Python library and command-line software toolkit to infer and visualize copy number from high-throughput DNA sequencing data. It is designed for use with hybrid capture, including both whole-exome and custom target panels, and short-read sequencing platforms such as Illumina and Ion Torrent. + homepage: https://cnvkit.readthedocs.io/en/stable/index.html + documentation: https://cnvkit.readthedocs.io/en/stable/index.html +params: + - outdir: + type: string + description: | + The pipeline's output directory. By default, the module will + output files into `$params.outdir/` + - publish_dir_mode: + type: string + description: | + Value for the Nextflow `publishDir` mode parameter. + Available: symlink, rellink, link, copy, copyNoFollow, move. + - enable_conda: + type: boolean + description: | + Run the module with Conda using the software specified + via the `conda` directive + - singularity_pull_docker_container: + type: boolean + description: | + Instead of directly downloading Singularity images for use with Singularity, + force the workflow to pull and convert Docker containers instead. +input: + - meta: + type: map + description: | + Groovy Map containing sample information + e.g. [ id:'test', single_end:false ] + - tumourbam: + type: file + description: | + Input tumour sample bam file + - normalbam: + type: file + description: | + Input normal sample bam file + - fasta: + type: file + description: | + Input reference genome fasta file + - targetfile: + type: file + description: | + Input target bed file +output: + - meta: + type: map + description: | + Groovy Map containing sample information + e.g. [ id:'test', single_end:false ] + - bed: + type: file + description: File containing genomic regions + pattern: "*.{bed}" + - cnn: + type: file + description: File containing coverage information + pattern: "*.{cnn}" + - cnr: + type: file + description: File containing copy number ratio information + pattern: "*.{cnr}" + - cns: + type: file + description: File containing copy number segment information + pattern: "*.{cns}" + - version: + type: file + description: File containing software version + pattern: "*.{version.txt}" +authors: + - "@kaurravneet4123" + - "@KevinMenden" + - "@MaxUlysse" + - "@drpatelh" + diff --git a/software/cutadapt/meta.yml b/software/cutadapt/meta.yml index 3e50c750..14652343 100644 --- a/software/cutadapt/meta.yml +++ b/software/cutadapt/meta.yml @@ -11,27 +11,6 @@ tools: Cutadapt finds and removes adapter sequences, primers, poly-A tails and other types of unwanted sequence from your high-throughput sequencing reads. documentation: https://cutadapt.readthedocs.io/en/stable/index.html doi: DOI:10.14806/ej.17.1.200 -params: - - outdir: - type: string - description: | - The pipeline's output directory. By default, the module will - output files into `$params.outdir/` - - publish_dir_mode: - type: string - description: | - Value for the Nextflow `publishDir` mode parameter. - Available: symlink, rellink, link, copy, copyNoFollow, move. - - enable_conda: - type: boolean - description: | - Run the module with Conda using the software specified - via the `conda` directive - - singularity_pull_docker_container: - type: boolean - description: | - Instead of directly downloading Singularity images for use with Singularity, - force the workflow to pull and convert Docker containers instead. input: - meta: type: map diff --git a/software/dsh/filterbed/main.nf b/software/dsh/filterbed/main.nf index 056f673e..4bfda752 100644 --- a/software/dsh/filterbed/main.nf +++ b/software/dsh/filterbed/main.nf @@ -11,11 +11,11 @@ process DSH_FILTERBED { mode: params.publish_dir_mode, saveAs: { filename -> saveFiles(filename:filename, options:params.options, publish_dir:getSoftwareName(task.process), publish_id:meta.id) } - conda (params.enable_conda ? "bioconda::dsh-bio=2.0" : null) + conda (params.enable_conda ? "bioconda::dsh-bio=2.0.3" : null) if (workflow.containerEngine == 'singularity' && !params.singularity_pull_docker_container) { - container "https://depot.galaxyproject.org/singularity/dsh-bio:2.0--0" + container "https://depot.galaxyproject.org/singularity/dsh-bio:2.0.3--0" } else { - container "quay.io/biocontainers/dsh-bio:2.0--0" + container "quay.io/biocontainers/dsh-bio:2.0.3--0" } input: diff --git a/software/dsh/filterbed/meta.yml b/software/dsh/filterbed/meta.yml index 6790ce0e..4b3d5fb4 100644 --- a/software/dsh/filterbed/meta.yml +++ b/software/dsh/filterbed/meta.yml @@ -10,27 +10,6 @@ tools: or later. homepage: https://github.com/heuermh/dishevelled-bio documentation: https://github.com/heuermh/dishevelled-bio -params: - - outdir: - type: string - description: | - The pipeline's output directory. By default, the module will - output files into `$params.outdir/` - - publish_dir_mode: - type: string - description: | - Value for the Nextflow `publishDir` mode parameter. - Available: symlink, rellink, link, copy, copyNoFollow, move. - - enable_conda: - type: boolean - description: | - Run the module with Conda using the software specified - via the `conda` directive - - singularity_pull_docker_container: - type: boolean - description: | - Instead of directly downloading Singularity images for use with Singularity, - force the workflow to pull and convert Docker containers instead. input: - meta: type: map diff --git a/software/dsh/splitbed/main.nf b/software/dsh/splitbed/main.nf index a81299fb..d9e0ef2a 100644 --- a/software/dsh/splitbed/main.nf +++ b/software/dsh/splitbed/main.nf @@ -11,11 +11,11 @@ process DSH_SPLITBED { mode: params.publish_dir_mode, saveAs: { filename -> saveFiles(filename:filename, options:params.options, publish_dir:getSoftwareName(task.process), publish_id:meta.id) } - conda (params.enable_conda ? "bioconda::dsh-bio=2.0" : null) + conda (params.enable_conda ? "bioconda::dsh-bio=2.0.3" : null) if (workflow.containerEngine == 'singularity' && !params.singularity_pull_docker_container) { - container "https://depot.galaxyproject.org/singularity/dsh-bio:2.0--0" + container "https://depot.galaxyproject.org/singularity/dsh-bio:2.0.3--0" } else { - container "quay.io/biocontainers/dsh-bio:2.0--0" + container "quay.io/biocontainers/dsh-bio:2.0.3--0" } input: diff --git a/software/dsh/splitbed/meta.yml b/software/dsh/splitbed/meta.yml index b2950e01..9136efe7 100644 --- a/software/dsh/splitbed/meta.yml +++ b/software/dsh/splitbed/meta.yml @@ -10,27 +10,6 @@ tools: or later. homepage: https://github.com/heuermh/dishevelled-bio documentation: https://github.com/heuermh/dishevelled-bio -params: - - outdir: - type: string - description: | - The pipeline's output directory. By default, the module will - output files into `$params.outdir/` - - publish_dir_mode: - type: string - description: | - Value for the Nextflow `publishDir` mode parameter. - Available: symlink, rellink, link, copy, copyNoFollow, move. - - enable_conda: - type: boolean - description: | - Run the module with Conda using the software specified - via the `conda` directive - - singularity_pull_docker_container: - type: boolean - description: | - Instead of directly downloading Singularity images for use with Singularity, - force the workflow to pull and convert Docker containers instead. input: - meta: type: map diff --git a/software/fastp/meta.yml b/software/fastp/meta.yml index 2846d834..bbf2f1ca 100644 --- a/software/fastp/meta.yml +++ b/software/fastp/meta.yml @@ -10,28 +10,6 @@ tools: A tool designed to provide fast all-in-one preprocessing for FastQ files. This tool is developed in C++ with multithreading supported to afford high performance. documentation: https://github.com/OpenGene/fastp doi: https://doi.org/10.1093/bioinformatics/bty560 -params: - - outdir: - type: string - description: | - The pipeline's output directory. By default, the module will - output files into `$params.outdir/` - - publish_dir_mode: - type: string - description: | - Value for the Nextflow `publishDir` mode parameter. - Available: symlink, rellink, link, copy, copyNoFollow, move. - - enable_conda: - type: boolean - description: | - Run the module with Conda using the software specified - via the `conda` directive - - singularity_pull_docker_container: - type: boolean - description: | - Instead of directly downloading Singularity images for use with Singularity, - force the workflow to pull and convert Docker containers instead. - input: - meta: type: map diff --git a/software/fastqc/meta.yml b/software/fastqc/meta.yml index 413aad8d..8eb9953d 100644 --- a/software/fastqc/meta.yml +++ b/software/fastqc/meta.yml @@ -15,27 +15,6 @@ tools: overrepresented sequences. homepage: https://www.bioinformatics.babraham.ac.uk/projects/fastqc/ documentation: https://www.bioinformatics.babraham.ac.uk/projects/fastqc/Help/ -params: - - outdir: - type: string - description: | - The pipeline's output directory. By default, the module will - output files into `$params.outdir/` - - publish_dir_mode: - type: string - description: | - Value for the Nextflow `publishDir` mode parameter. - Available: symlink, rellink, link, copy, copyNoFollow, move. - - enable_conda: - type: boolean - description: | - Run the module with Conda using the software specified - via the `conda` directive - - singularity_pull_docker_container: - type: boolean - description: | - Instead of directly downloading Singularity images for use with Singularity, - force the workflow to pull and convert Docker containers instead. input: - meta: type: map diff --git a/software/fgbio/callmolecularconsensusreads/functions.nf b/software/fgbio/callmolecularconsensusreads/functions.nf new file mode 100644 index 00000000..6f3b4b29 --- /dev/null +++ b/software/fgbio/callmolecularconsensusreads/functions.nf @@ -0,0 +1,60 @@ + +/* + * ----------------------------------------------------- + * Utility functions used in nf-core DSL2 module files + * ----------------------------------------------------- + */ + +/* + * Extract name of software tool from process name using $task.process + */ +def getSoftwareName(task_process) { + return task_process.tokenize(':')[-1].tokenize('_')[0].toLowerCase() +} + +/* + * Function to initialise default values and to generate a Groovy Map of available options for nf-core modules + */ +def initOptions(Map args) { + def Map options = [:] + options.args = args.args ?: '' + options.args2 = args.args2 ?: '' + options.publish_by_id = args.publish_by_id ?: false + options.publish_dir = args.publish_dir ?: '' + options.publish_files = args.publish_files + options.suffix = args.suffix ?: '' + return options +} + +/* + * Tidy up and join elements of a list to return a path string + */ +def getPathFromList(path_list) { + def paths = path_list.findAll { item -> !item?.trim().isEmpty() } // Remove empty entries + paths = paths.collect { it.trim().replaceAll("^[/]+|[/]+\$", '') } // Trim whitespace and trailing slashes + return paths.join('/') +} + +/* + * Function to save/publish module results + */ +def saveFiles(Map args) { + if (!args.filename.endsWith('.version.txt')) { + def ioptions = initOptions(args.options) + def path_list = [ ioptions.publish_dir ?: args.publish_dir ] + if (ioptions.publish_by_id) { + path_list.add(args.publish_id) + } + if (ioptions.publish_files instanceof Map) { + for (ext in ioptions.publish_files) { + if (args.filename.endsWith(ext.key)) { + def ext_list = path_list.collect() + ext_list.add(ext.value) + return "${getPathFromList(ext_list)}/$args.filename" + } + } + } else if (ioptions.publish_files == null) { + return "${getPathFromList(path_list)}/$args.filename" + } + } +} diff --git a/software/fgbio/callmolecularconsensusreads/main.nf b/software/fgbio/callmolecularconsensusreads/main.nf new file mode 100644 index 00000000..5e5bc577 --- /dev/null +++ b/software/fgbio/callmolecularconsensusreads/main.nf @@ -0,0 +1,38 @@ +include { initOptions; saveFiles; getSoftwareName } from './functions' + +params.options = [:] +options = initOptions(params.options) + +process FGBIO_CALLMOLECULARCONSENSUSREADS { + tag "$meta.id" + label 'process_medium' + publishDir "${params.outdir}", + mode: params.publish_dir_mode, + saveAs: { filename -> saveFiles(filename:filename, options:params.options, publish_dir:getSoftwareName(task.process), publish_id:meta.id) } + + conda (params.enable_conda ? "bioconda::fgbio=1.3.0" : null) + if (workflow.containerEngine == 'singularity' && !params.singularity_pull_docker_container) { + container "https://depot.galaxyproject.org/singularity/fgbio:1.3.0--0" + } else { + container "quay.io/biocontainers/fgbio:1.3.0--0" + } + + input: + tuple val(meta), path(bam) + + output: + tuple val(meta), path("*.bam"), emit: bam + path "*.version.txt" , emit: version + + script: + def software = getSoftwareName(task.process) + def prefix = options.suffix ? "${meta.id}${options.suffix}" : "${meta.id}" + """ + fgbio \\ + CallMolecularConsensusReads \\ + -i $bam \\ + $options.args \\ + -o ${prefix}.bam + fgbio --version | sed -e "s/fgbio v//g" > ${software}.version.txt + """ +} diff --git a/software/fgbio/callmolecularconsensusreads/meta.yml b/software/fgbio/callmolecularconsensusreads/meta.yml new file mode 100644 index 00000000..5f80bce9 --- /dev/null +++ b/software/fgbio/callmolecularconsensusreads/meta.yml @@ -0,0 +1,45 @@ +name: fgbio_callmolecularconsensusreads +description: Calls consensus sequences from reads with the same unique molecular tag. + +keywords: + - UMIs + - consensus sequence + - bam + - sam +tools: + - fgbio: + description: Tools for working with genomic and high throughput sequencing data. + homepage: https://github.com/fulcrumgenomics/fgbio + documentation: http://fulcrumgenomics.github.io/fgbio/ + licence: ['MIT'] + +input: + - meta: + type: map + description: | + Groovy Map containing sample information + e.g. [ id:'test', single_end:false, collapse:false ] + - bam: + type: file + description: | + The input SAM or BAM file. + pattern: "*.{bam,sam}" + +output: + - meta: + type: map + description: | + Groovy Map containing sample information + e.g. [ id:'test', single_end:false ] + - bam: + type: file + description: | + Output SAM or BAM file to write consensus reads. + pattern: "*.{bam,sam}" + - version: + type: file + description: File containing software version + pattern: "*.{version.txt}" + +authors: + - "@sruthipsuresh" diff --git a/software/fgbio/sortbam/functions.nf b/software/fgbio/sortbam/functions.nf new file mode 100644 index 00000000..f177f0c8 --- /dev/null +++ b/software/fgbio/sortbam/functions.nf @@ -0,0 +1,60 @@ +/* + * ----------------------------------------------------- + * Utility functions used in nf-core DSL2 module files + * ----------------------------------------------------- + */ + +/* + * Extract name of software tool from process name using $task.process + */ +def getSoftwareName(task_process) { + return task_process.tokenize(':')[-1].tokenize('_')[0].toLowerCase() +} + +/* + * Function to initialise default values and to generate a Groovy Map of available options for nf-core modules + */ +def initOptions(Map args) { + def Map options = [:] + options.args = args.args ?: '' + options.args2 = args.args2 ?: '' + options.args3 = args.args3 ?: '' + options.publish_by_id = args.publish_by_id ?: false + options.publish_dir = args.publish_dir ?: '' + options.publish_files = args.publish_files + options.suffix = args.suffix ?: '' + return options +} + +/* + * Tidy up and join elements of a list to return a path string + */ +def getPathFromList(path_list) { + def paths = path_list.findAll { item -> !item?.trim().isEmpty() } // Remove empty entries + paths = paths.collect { it.trim().replaceAll("^[/]+|[/]+\$", "") } // Trim whitespace and trailing slashes + return paths.join('/') +} + +/* + * Function to save/publish module results + */ +def saveFiles(Map args) { + if (!args.filename.endsWith('.version.txt')) { + def ioptions = initOptions(args.options) + def path_list = [ ioptions.publish_dir ?: args.publish_dir ] + if (ioptions.publish_by_id) { + path_list.add(args.publish_id) + } + if (ioptions.publish_files instanceof Map) { + for (ext in ioptions.publish_files) { + if (args.filename.endsWith(ext.key)) { + def ext_list = path_list.collect() + ext_list.add(ext.value) + return "${getPathFromList(ext_list)}/$args.filename" + } + } + } else if (ioptions.publish_files == null) { + return "${getPathFromList(path_list)}/$args.filename" + } + } +} diff --git a/software/fgbio/sortbam/main.nf b/software/fgbio/sortbam/main.nf new file mode 100644 index 00000000..4beeaf5e --- /dev/null +++ b/software/fgbio/sortbam/main.nf @@ -0,0 +1,39 @@ +include { initOptions; saveFiles; getSoftwareName } from './functions' + +params.options = [:] +options = initOptions(params.options) + +process FGBIO_SORTBAM { + tag "$meta.id" + label 'process_medium' + publishDir "${params.outdir}", + mode: params.publish_dir_mode, + saveAs: { filename -> saveFiles(filename:filename, options:params.options, publish_dir:getSoftwareName(task.process), publish_id:meta.id) } + + conda (params.enable_conda ? "bioconda::fgbio=1.3.0" : null) + if (workflow.containerEngine == 'singularity' && !params.singularity_pull_docker_container) { + container "https://depot.galaxyproject.org/singularity/fgbio:1.3.0--0" + } else { + container "quay.io/biocontainers/fgbio:1.3.0--0" + } + + input: + tuple val(meta), path(bam) + + output: + tuple val(meta), path("*.bam"), emit: bam + path "*.version.txt" , emit: version + + script: + def software = getSoftwareName(task.process) + def prefix = options.suffix ? "${meta.id}${options.suffix}" : "${meta.id}" + """ + fgbio \\ + SortBam \\ + -i $bam \\ + $options.args \\ + -o ${prefix}.bam + fgbio --version | sed -e "s/fgbio v//g" > ${software}.version.txt + """ +} + diff --git a/software/fgbio/sortbam/meta.yml b/software/fgbio/sortbam/meta.yml new file mode 100644 index 00000000..9e68dac4 --- /dev/null +++ b/software/fgbio/sortbam/meta.yml @@ -0,0 +1,43 @@ +name: fgbio_sortbam +description: Sorts a SAM or BAM file. Several sort orders are available, including coordinate, queryname, random, and randomquery. +keywords: + - sort + - bam + - sam +tools: + - fgbio: + description: Tools for working with genomic and high throughput sequencing data. + homepage: https://github.com/fulcrumgenomics/fgbio + documentation: http://fulcrumgenomics.github.io/fgbio/ + licence: ['MIT'] + +input: + - meta: + type: map + description: | + Groovy Map containing sample information + e.g. [ id:'test', single_end:false, collapse:false ] + - bam: + type: file + description: | + The input SAM or BAM file to be sorted. + pattern: "*.{bam,sam}" + +output: + - meta: + type: map + description: | + Groovy Map containing sample information + e.g. [ id:'test', single_end:false ] + - bam: + type: file + description: | + Output SAM or BAM file. + pattern: "*.{bam,sam}" + - version: + type: file + description: File containing software version + pattern: "*.{version.txt}" + +authors: + - "@sruthipsuresh" diff --git a/software/flash/functions.nf b/software/flash/functions.nf new file mode 100644 index 00000000..779feec6 --- /dev/null +++ b/software/flash/functions.nf @@ -0,0 +1,61 @@ + +/* + * ----------------------------------------------------- + * Utility functions used in nf-core DSL2 module files + * ----------------------------------------------------- + */ + +/* + * Extract name of software tool from process name using $task.process + */ +def getSoftwareName(task_process) { + return task_process.tokenize(':')[-1].tokenize('_')[0].toLowerCase() +} + +/* + * Function to initialise default values and to generate a Groovy Map of available options for nf-core modules + */ +def initOptions(Map args) { + def Map options = [:] + options.args = args.args ?: '' + options.args2 = args.args2 ?: '' + options.args3 = args.args3 ?: '' + options.publish_by_id = args.publish_by_id ?: false + options.publish_dir = args.publish_dir ?: '' + options.publish_files = args.publish_files + options.suffix = args.suffix ?: '' + return options +} + +/* + * Tidy up and join elements of a list to return a path string + */ +def getPathFromList(path_list) { + def paths = path_list.findAll { item -> !item?.trim().isEmpty() } // Remove empty entries + paths = paths.collect { it.trim().replaceAll("^[/]+|[/]+\$", '') } // Trim whitespace and trailing slashes + return paths.join('/') +} + +/* + * Function to save/publish module results + */ +def saveFiles(Map args) { + if (!args.filename.endsWith('.version.txt')) { + def ioptions = initOptions(args.options) + def path_list = [ ioptions.publish_dir ?: args.publish_dir ] + if (ioptions.publish_by_id) { + path_list.add(args.publish_id) + } + if (ioptions.publish_files instanceof Map) { + for (ext in ioptions.publish_files) { + if (args.filename.endsWith(ext.key)) { + def ext_list = path_list.collect() + ext_list.add(ext.value) + return "${getPathFromList(ext_list)}/$args.filename" + } + } + } else if (ioptions.publish_files == null) { + return "${getPathFromList(path_list)}/$args.filename" + } + } +} diff --git a/software/flash/main.nf b/software/flash/main.nf new file mode 100644 index 00000000..399a2705 --- /dev/null +++ b/software/flash/main.nf @@ -0,0 +1,40 @@ +// Import generic module functions +include { initOptions; saveFiles; getSoftwareName } from './functions' + +params.options = [:] +options = initOptions(params.options) + +process FLASH { + tag "$meta.id" + label 'process_medium' + publishDir "${params.outdir}", + mode: params.publish_dir_mode, + saveAs: { filename -> saveFiles(filename:filename, options:params.options, publish_dir:getSoftwareName(task.process), publish_id:meta.id) } + conda (params.enable_conda ? "bioconda::flash=1.2.11" : null) + if (workflow.containerEngine == 'singularity' && !params.singularity_pull_docker_container) { + container "https://depot.galaxyproject.org/singularity/flash:1.2.11--hed695b0_5" + } else { + container "quay.io/biocontainers/flash:1.2.11--hed695b0_5" + } + + input: + tuple val(meta), path(reads) + + output: + tuple val(meta), path("*.merged.*.fastq.gz"), emit: reads + path "*.version.txt" , emit: version + + script: + def software = getSoftwareName(task.process) + def prefix = options.suffix ? "${meta.id}${options.suffix}" : "${meta.id}" + def merged = "-o ${prefix}.merged" + def input_reads = "${reads[0]} ${reads[1]}" + """ + flash \\ + $options.args \\ + $merged \\ + -z \\ + $input_reads + echo \$(flash --version) > ${software}.version.txt + """ +} diff --git a/software/flash/meta.yml b/software/flash/meta.yml new file mode 100644 index 00000000..ff747912 --- /dev/null +++ b/software/flash/meta.yml @@ -0,0 +1,44 @@ +name: flash +description: Perform merging of mate paired-end sequencing reads +keywords: + - sort + - reads merging + - merge mate pairs +tools: + - flash: + description: | + Merge mates from fragments that are shorter than twice the read length + homepage: https://ccb.jhu.edu/software/FLASH/ + documentation: {} + doi: 10.1093/bioinformatics/btr507 + licence: ['GPL v3+'] + +input: + - meta: + type: map + description: | + Groovy Map containing sample information + e.g. [ id:'test', single_end:false ] + - reads: + type: file + description: | + List of input FastQ files of size 2; i.e., paired-end data. + pattern: "*fastq.gz" + +output: + - meta: + type: map + description: | + Groovy Map containing sample information + e.g. [ id:'test', single_end:false ] + - reads: + type: file + description: The merged fastq reads + pattern: "*fastq.gz" + - version: + type: file + description: File containing software version + pattern: "*.{version.txt}" + +authors: + - "@Erkison" diff --git a/software/gatk4/applybqsr/functions.nf b/software/gatk4/applybqsr/functions.nf new file mode 100644 index 00000000..f177f0c8 --- /dev/null +++ b/software/gatk4/applybqsr/functions.nf @@ -0,0 +1,60 @@ +/* + * ----------------------------------------------------- + * Utility functions used in nf-core DSL2 module files + * ----------------------------------------------------- + */ + +/* + * Extract name of software tool from process name using $task.process + */ +def getSoftwareName(task_process) { + return task_process.tokenize(':')[-1].tokenize('_')[0].toLowerCase() +} + +/* + * Function to initialise default values and to generate a Groovy Map of available options for nf-core modules + */ +def initOptions(Map args) { + def Map options = [:] + options.args = args.args ?: '' + options.args2 = args.args2 ?: '' + options.args3 = args.args3 ?: '' + options.publish_by_id = args.publish_by_id ?: false + options.publish_dir = args.publish_dir ?: '' + options.publish_files = args.publish_files + options.suffix = args.suffix ?: '' + return options +} + +/* + * Tidy up and join elements of a list to return a path string + */ +def getPathFromList(path_list) { + def paths = path_list.findAll { item -> !item?.trim().isEmpty() } // Remove empty entries + paths = paths.collect { it.trim().replaceAll("^[/]+|[/]+\$", "") } // Trim whitespace and trailing slashes + return paths.join('/') +} + +/* + * Function to save/publish module results + */ +def saveFiles(Map args) { + if (!args.filename.endsWith('.version.txt')) { + def ioptions = initOptions(args.options) + def path_list = [ ioptions.publish_dir ?: args.publish_dir ] + if (ioptions.publish_by_id) { + path_list.add(args.publish_id) + } + if (ioptions.publish_files instanceof Map) { + for (ext in ioptions.publish_files) { + if (args.filename.endsWith(ext.key)) { + def ext_list = path_list.collect() + ext_list.add(ext.value) + return "${getPathFromList(ext_list)}/$args.filename" + } + } + } else if (ioptions.publish_files == null) { + return "${getPathFromList(path_list)}/$args.filename" + } + } +} diff --git a/software/gatk4/applybqsr/main.nf b/software/gatk4/applybqsr/main.nf new file mode 100644 index 00000000..9663166f --- /dev/null +++ b/software/gatk4/applybqsr/main.nf @@ -0,0 +1,48 @@ +// Import generic module functions +include { initOptions; saveFiles; getSoftwareName } from './functions' + +params.options = [:] +options = initOptions(params.options) + +process GATK4_APPLYBQSR { + tag "$meta.id" + label 'process_low' + publishDir "${params.outdir}", + mode: params.publish_dir_mode, + saveAs: { filename -> saveFiles(filename:filename, options:params.options, publish_dir:getSoftwareName(task.process), publish_id:meta.id) } + + conda (params.enable_conda ? "bioconda::gatk4=4.2.0.0" : null) + if (workflow.containerEngine == 'singularity' && !params.singularity_pull_docker_container) { + container "https://depot.galaxyproject.org/singularity/gatk4:4.2.0.0--0" + } else { + container "quay.io/biocontainers/gatk4:4.2.0.0--0" + } + + input: + tuple val(meta), path(bam), path(bqsr_table) + path fasta + path fastaidx + path dict + path intervalsBed + + output: + tuple val(meta), path("*.bam"), emit: bam + path "*.version.txt" , emit: version + + script: + def software = getSoftwareName(task.process) + def prefix = options.suffix ? "${meta.id}${options.suffix}" : "${meta.id}" + def intervalsCommand = intervalsBed ? "-L ${intervalsBed}" : "" + + """ + gatk ApplyBQSR \\ + -R $fasta \\ + -I $bam \\ + --bqsr-recal-file $bqsr_table \\ + $intervalsCommand \\ + -O ${prefix}.bam \\ + $options.args + + gatk --version | grep Picard | sed "s/Picard Version: //g" > ${software}.version.txt + """ +} diff --git a/software/gatk4/applybqsr/meta.yml b/software/gatk4/applybqsr/meta.yml new file mode 100644 index 00000000..9bf12f09 --- /dev/null +++ b/software/gatk4/applybqsr/meta.yml @@ -0,0 +1,58 @@ +name: gatk4_applybqsr +description: Apply base quality score recalibration (BQSR) to a bam file +keywords: + - bqsr + - bam +tools: + - gatk4: + description: | + Developed in the Data Sciences Platform at the Broad Institute, the toolkit offers a wide variety of tools + with a primary focus on variant discovery and genotyping. Its powerful processing engine + and high-performance computing features make it capable of taking on projects of any size. + homepage: https://gatk.broadinstitute.org/hc/en-us + documentation: https://gatk.broadinstitute.org/hc/en-us/categories/360002369672s + doi: 10.1158/1538-7445.AM2017-3590 + +input: + - meta: + type: map + description: | + Groovy Map containing sample information + e.g. [ id:'test', single_end:false ] + - bam: + type: file + description: BAM file from alignment + pattern: "*.{bam}" + - bqsr_table: + type: file + description: Recalibration table from gatk4_baserecalibrator + - fasta: + type: file + description: The reference fasta file + - fastaidx: + type: file + description: Index of reference fasta file + - dict: + type: file + description: GATK sequence dictionary + - intervalsBed: + type: file + description: Bed file with the genomic regions included in the library (optional) + +output: + - meta: + type: map + description: | + Groovy Map containing sample information + e.g. [ id:'test', single_end:false ] + - version: + type: file + description: File containing software version + pattern: "*.{version.txt}" + - bam: + type: file + description: Recalibrated BAM file + pattern: "*.{bam}" + +authors: + - "@yocra3" diff --git a/software/gatk4/baserecalibrator/functions.nf b/software/gatk4/baserecalibrator/functions.nf new file mode 100644 index 00000000..f177f0c8 --- /dev/null +++ b/software/gatk4/baserecalibrator/functions.nf @@ -0,0 +1,60 @@ +/* + * ----------------------------------------------------- + * Utility functions used in nf-core DSL2 module files + * ----------------------------------------------------- + */ + +/* + * Extract name of software tool from process name using $task.process + */ +def getSoftwareName(task_process) { + return task_process.tokenize(':')[-1].tokenize('_')[0].toLowerCase() +} + +/* + * Function to initialise default values and to generate a Groovy Map of available options for nf-core modules + */ +def initOptions(Map args) { + def Map options = [:] + options.args = args.args ?: '' + options.args2 = args.args2 ?: '' + options.args3 = args.args3 ?: '' + options.publish_by_id = args.publish_by_id ?: false + options.publish_dir = args.publish_dir ?: '' + options.publish_files = args.publish_files + options.suffix = args.suffix ?: '' + return options +} + +/* + * Tidy up and join elements of a list to return a path string + */ +def getPathFromList(path_list) { + def paths = path_list.findAll { item -> !item?.trim().isEmpty() } // Remove empty entries + paths = paths.collect { it.trim().replaceAll("^[/]+|[/]+\$", "") } // Trim whitespace and trailing slashes + return paths.join('/') +} + +/* + * Function to save/publish module results + */ +def saveFiles(Map args) { + if (!args.filename.endsWith('.version.txt')) { + def ioptions = initOptions(args.options) + def path_list = [ ioptions.publish_dir ?: args.publish_dir ] + if (ioptions.publish_by_id) { + path_list.add(args.publish_id) + } + if (ioptions.publish_files instanceof Map) { + for (ext in ioptions.publish_files) { + if (args.filename.endsWith(ext.key)) { + def ext_list = path_list.collect() + ext_list.add(ext.value) + return "${getPathFromList(ext_list)}/$args.filename" + } + } + } else if (ioptions.publish_files == null) { + return "${getPathFromList(path_list)}/$args.filename" + } + } +} diff --git a/software/gatk4/baserecalibrator/main.nf b/software/gatk4/baserecalibrator/main.nf new file mode 100644 index 00000000..09c2b5e8 --- /dev/null +++ b/software/gatk4/baserecalibrator/main.nf @@ -0,0 +1,50 @@ +// Import generic module functions +include { initOptions; saveFiles; getSoftwareName } from './functions' + +params.options = [:] +options = initOptions(params.options) + +process GATK4_BASERECALIBRATOR { + tag "$meta.id" + label 'process_low' + publishDir "${params.outdir}", + mode: params.publish_dir_mode, + saveAs: { filename -> saveFiles(filename:filename, options:params.options, publish_dir:getSoftwareName(task.process), publish_id:meta.id) } + + conda (params.enable_conda ? "bioconda::gatk4=4.2.0.0" : null) + if (workflow.containerEngine == 'singularity' && !params.singularity_pull_docker_container) { + container "https://depot.galaxyproject.org/singularity/gatk4:4.2.0.0--0" + } else { + container "quay.io/biocontainers/gatk4:4.2.0.0--0" + } + + input: + tuple val(meta), path(bam) + path fasta + path fastaidx + path dict + path intervalsBed + path knownSites + path knownSites_tbi + + output: + tuple val(meta), path("*.table"), emit: table + path "*.version.txt" , emit: version + + script: + def software = getSoftwareName(task.process) + def prefix = options.suffix ? "${meta.id}${options.suffix}" : "${meta.id}" + def intervalsCommand = intervalsBed ? "-L ${intervalsBed}" : "" + def sitesCommand = knownSites.collect{"--known-sites ${it}"}.join(' ') + """ + gatk BaseRecalibrator \ + -R $fasta \ + -I $bam \ + $sitesCommand \ + $intervalsCommand \ + $options.args \ + -O ${prefix}.table + + gatk --version | grep Picard | sed "s/Picard Version: //g" > ${software}.version.txt + """ +} diff --git a/software/gatk4/baserecalibrator/meta.yml b/software/gatk4/baserecalibrator/meta.yml new file mode 100644 index 00000000..0996dcbe --- /dev/null +++ b/software/gatk4/baserecalibrator/meta.yml @@ -0,0 +1,58 @@ +name: gatk4_baserecalibrator +description: Generate recalibration table for Base Quality Score Recalibration (BQSR) +keywords: + - sort +tools: + - gatk4: + description: | + Developed in the Data Sciences Platform at the Broad Institute, the toolkit offers a wide variety of tools + with a primary focus on variant discovery and genotyping. Its powerful processing engine + and high-performance computing features make it capable of taking on projects of any size. + homepage: https://gatk.broadinstitute.org/hc/en-us + documentation: https://gatk.broadinstitute.org/hc/en-us/categories/360002369672s + doi: 10.1158/1538-7445.AM2017-3590 + + +input: + - meta: + type: map + description: | + Groovy Map containing sample information + e.g. [ id:'test', single_end:false ] + - bam: + type: file + description: BAM file from alignment + pattern: "*.{bam}" + - fasta: + type: file + description: The reference fasta file + - fastaidx: + type: file + description: Index of reference fasta file + - dict: + type: file + description: GATK sequence dictionary + - intervalsBed: + type: file + description: Bed file with the genomic regions included in the library (optional) + - knownSites: + type: file + description: Bed file with the genomic regions included in the library (optional) + +output: + - meta: + type: map + description: | + Groovy Map containing sample information + e.g. [ id:'test', single_end:false ] + - version: + type: file + description: File containing software version + pattern: "*.{version.txt}" + - table: + type: file + description: Recalibration table from BaseRecalibrator + pattern: "*.{table}" + +authors: + - "@yocra3" diff --git a/software/gatk4/bedtointervallist/meta.yml b/software/gatk4/bedtointervallist/meta.yml index 4ed8629e..23e98447 100644 --- a/software/gatk4/bedtointervallist/meta.yml +++ b/software/gatk4/bedtointervallist/meta.yml @@ -12,27 +12,6 @@ tools: homepage: https://gatk.broadinstitute.org/hc/en-us documentation: https://gatk.broadinstitute.org/hc/en-us/categories/360002369672s doi: 10.1158/1538-7445.AM2017-3590 -params: - - outdir: - type: string - description: | - The pipeline's output directory. By default, the module will - output files into `$params.outdir/` - - publish_dir_mode: - type: string - description: | - Value for the Nextflow `publishDir` mode parameter. - Available: symlink, rellink, link, copy, copyNoFollow, move. - - enable_conda: - type: boolean - description: | - Run the module with Conda using the software specified - via the `conda` directive - - singularity_pull_docker_container: - type: boolean - description: | - Instead of directly downloading Singularity images for use with Singularity, - force the workflow to pull and convert Docker containers instead. input: - meta: type: map diff --git a/software/gatk4/createsequencedictionary/meta.yml b/software/gatk4/createsequencedictionary/meta.yml index b33af6ad..d0cc5980 100644 --- a/software/gatk4/createsequencedictionary/meta.yml +++ b/software/gatk4/createsequencedictionary/meta.yml @@ -12,27 +12,6 @@ tools: homepage: https://gatk.broadinstitute.org/hc/en-us documentation: https://gatk.broadinstitute.org/hc/en-us/categories/360002369672s doi: 10.1158/1538-7445.AM2017-3590 -params: - - outdir: - type: string - description: | - The pipeline's output directory. By default, the module will - output files into `$params.outdir/` - - publish_dir_mode: - type: string - description: | - Value for the Nextflow `publishDir` mode parameter. - Available: symlink, rellink, link, copy, copyNoFollow, move. - - enable_conda: - type: boolean - description: | - Run the module with Conda using the software specified - via the `conda` directive - - singularity_pull_docker_container: - type: boolean - description: | - Instead of directly downloading Singularity images for use with Singularity, - force the workflow to pull and convert Docker containers instead. input: - fasta: type: file diff --git a/software/gatk4/fastqtosam/functions.nf b/software/gatk4/fastqtosam/functions.nf new file mode 100644 index 00000000..d25eea86 --- /dev/null +++ b/software/gatk4/fastqtosam/functions.nf @@ -0,0 +1,59 @@ +/* + * ----------------------------------------------------- + * Utility functions used in nf-core DSL2 module files + * ----------------------------------------------------- + */ + +/* + * Extract name of software tool from process name using $task.process + */ +def getSoftwareName(task_process) { + return task_process.tokenize(':')[-1].tokenize('_')[0].toLowerCase() +} + +/* + * Function to initialise default values and to generate a Groovy Map of available options for nf-core modules + */ +def initOptions(Map args) { + def Map options = [:] + options.args = args.args ?: '' + options.args2 = args.args2 ?: '' + options.publish_by_id = args.publish_by_id ?: false + options.publish_dir = args.publish_dir ?: '' + options.publish_files = args.publish_files + options.suffix = args.suffix ?: '' + return options +} + +/* + * Tidy up and join elements of a list to return a path string + */ +def getPathFromList(path_list) { + def paths = path_list.findAll { item -> !item?.trim().isEmpty() } // Remove empty entries + paths = paths.collect { it.trim().replaceAll("^[/]+|[/]+\$", "") } // Trim whitespace and trailing slashes + return paths.join('/') +} + +/* + * Function to save/publish module results + */ +def saveFiles(Map args) { + if (!args.filename.endsWith('.version.txt')) { + def ioptions = initOptions(args.options) + def path_list = [ ioptions.publish_dir ?: args.publish_dir ] + if (ioptions.publish_by_id) { + path_list.add(args.publish_id) + } + if (ioptions.publish_files instanceof Map) { + for (ext in ioptions.publish_files) { + if (args.filename.endsWith(ext.key)) { + def ext_list = path_list.collect() + ext_list.add(ext.value) + return "${getPathFromList(ext_list)}/$args.filename" + } + } + } else if (ioptions.publish_files == null) { + return "${getPathFromList(path_list)}/$args.filename" + } + } +} diff --git a/software/gatk4/fastqtosam/main.nf b/software/gatk4/fastqtosam/main.nf new file mode 100644 index 00000000..4e37a4c5 --- /dev/null +++ b/software/gatk4/fastqtosam/main.nf @@ -0,0 +1,40 @@ +// Import generic module functions +include { initOptions; saveFiles; getSoftwareName } from './functions' + +params.options = [:] +options = initOptions(params.options) + +process GATK4_FASTQTOSAM { + tag "$meta.id" + label 'process_medium' + publishDir "${params.outdir}", + mode: params.publish_dir_mode, + saveAs: { filename -> saveFiles(filename:filename, options:params.options, publish_dir:getSoftwareName(task.process), publish_id:meta.id) } + + conda (params.enable_conda ? "bioconda::gatk4=4.2.0.0" : null) + if (workflow.containerEngine == 'singularity' && !params.singularity_pull_docker_container) { + container "https://depot.galaxyproject.org/singularity/gatk4:4.2.0.0--0" + } else { + container "quay.io/biocontainers/gatk4:4.2.0.0--0" + } + + input: + tuple val(meta), path(reads) + + output: + tuple val(meta), path("*.bam"), emit: bam + path "*.version.txt" , emit: version + + script: + def software = getSoftwareName(task.process) + def prefix = options.suffix ? "${meta.id}${options.suffix}" : "${meta.id}" + def read_files = meta.single_end ? "-F1 $reads" : "-F1 ${reads[0]} -F2 ${reads[1]}" + """ + gatk FastqToSam \\ + $read_files \\ + -O ${prefix}.bam \\ + -SM $prefix \\ + $options.args + gatk --version | grep Picard | sed "s/Picard Version: //g" > ${software}.version.txt + """ +} diff --git a/software/gatk4/fastqtosam/meta.yml b/software/gatk4/fastqtosam/meta.yml new file mode 100644 index 00000000..d574d67b --- /dev/null +++ b/software/gatk4/fastqtosam/meta.yml @@ -0,0 +1,47 @@ +name: gatk4_fastqtosam +description: Converts FastQ file to BAM format +keywords: + - bam + - fastq + - convert +tools: + - gatk4: + description: Genome Analysis Toolkit (GATK4) + Developed in the Data Sciences Platform at the Broad Institute, the toolkit offers a wide variety of tools + with a primary focus on variant discovery and genotyping. Its powerful processing engine + and high-performance computing features make it capable of taking on projects of any size. + homepage: https://gatk.broadinstitute.org/hc/en-us + documentation: https://gatk.broadinstitute.org/hc/en-us/categories/360002369672s + tool_dev_url: https://github.com/broadinstitute/gatk + doi: "10.1158/1538-7445.AM2017-3590" + licence: ['BSD-3-clause'] + +input: + - meta: + type: map + description: | + Groovy Map containing sample information + e.g. [ id:'test', single_end:false ] + - reads: + type: file + description: List of input FastQ files of size 1 and 2 for single-end and paired-end data, + respectively. + pattern: "*.fastq.gz" + +output: + - meta: + type: map + description: | + Groovy Map containing sample information + e.g. [ id:'test', single_end:false ] + - version: + type: file + description: File containing software version + pattern: "*.{version.txt}" + - bam: + type: file + description: Converted BAM file + pattern: "*.bam" + +authors: + - "@ntoda03" diff --git a/software/gatk4/haplotypecaller/functions.nf b/software/gatk4/haplotypecaller/functions.nf new file mode 100644 index 00000000..f177f0c8 --- /dev/null +++ b/software/gatk4/haplotypecaller/functions.nf @@ -0,0 +1,60 @@ +/* + * ----------------------------------------------------- + * Utility functions used in nf-core DSL2 module files + * ----------------------------------------------------- + */ + +/* + * Extract name of software tool from process name using $task.process + */ +def getSoftwareName(task_process) { + return task_process.tokenize(':')[-1].tokenize('_')[0].toLowerCase() +} + +/* + * Function to initialise default values and to generate a Groovy Map of available options for nf-core modules + */ +def initOptions(Map args) { + def Map options = [:] + options.args = args.args ?: '' + options.args2 = args.args2 ?: '' + options.args3 = args.args3 ?: '' + options.publish_by_id = args.publish_by_id ?: false + options.publish_dir = args.publish_dir ?: '' + options.publish_files = args.publish_files + options.suffix = args.suffix ?: '' + return options +} + +/* + * Tidy up and join elements of a list to return a path string + */ +def getPathFromList(path_list) { + def paths = path_list.findAll { item -> !item?.trim().isEmpty() } // Remove empty entries + paths = paths.collect { it.trim().replaceAll("^[/]+|[/]+\$", "") } // Trim whitespace and trailing slashes + return paths.join('/') +} + +/* + * Function to save/publish module results + */ +def saveFiles(Map args) { + if (!args.filename.endsWith('.version.txt')) { + def ioptions = initOptions(args.options) + def path_list = [ ioptions.publish_dir ?: args.publish_dir ] + if (ioptions.publish_by_id) { + path_list.add(args.publish_id) + } + if (ioptions.publish_files instanceof Map) { + for (ext in ioptions.publish_files) { + if (args.filename.endsWith(ext.key)) { + def ext_list = path_list.collect() + ext_list.add(ext.value) + return "${getPathFromList(ext_list)}/$args.filename" + } + } + } else if (ioptions.publish_files == null) { + return "${getPathFromList(path_list)}/$args.filename" + } + } +} diff --git a/software/gatk4/haplotypecaller/main.nf b/software/gatk4/haplotypecaller/main.nf new file mode 100644 index 00000000..d8938297 --- /dev/null +++ b/software/gatk4/haplotypecaller/main.nf @@ -0,0 +1,52 @@ +// Import generic module functions +include { initOptions; saveFiles; getSoftwareName } from './functions' + +params.options = [:] +options = initOptions(params.options) + +process GATK4_HAPLOTYPECALLER { + tag "$meta.id" + label 'process_medium' + publishDir "${params.outdir}", + mode: params.publish_dir_mode, + saveAs: { filename -> saveFiles(filename:filename, options:params.options, publish_dir:getSoftwareName(task.process), publish_id:meta.id) } + + conda (params.enable_conda ? "bioconda::gatk4=4.2.0.0" : null) + if (workflow.containerEngine == 'singularity' && !params.singularity_pull_docker_container) { + container "https://depot.galaxyproject.org/singularity/gatk4:4.2.0.0--0" + } else { + container "quay.io/biocontainers/gatk4:4.2.0.0--0" + } + + input: + tuple val(meta), path(bam), path(bai) + path fasta + path fai + path dict + + output: + tuple val(meta), path("*.vcf.gz"), emit: vcf + tuple val(meta), path("*.tbi") , emit: tbi + path "*.version.txt" , emit: version + + script: + def software = getSoftwareName(task.process) + def prefix = options.suffix ? "${meta.id}${options.suffix}" : "${meta.id}" + def avail_mem = 3 + if (!task.memory) { + log.info '[GATK HaplotypeCaller] Available memory not known - defaulting to 3GB. Specify process memory requirements to change this.' + } else { + avail_mem = task.memory.giga + } + """ + gatk \\ + --java-options "-Xmx${avail_mem}g" \\ + HaplotypeCaller \\ + -R $fasta \\ + -I $bam \\ + -O ${prefix}.vcf.gz \\ + $options.args + + gatk --version | grep Picard | sed "s/Picard Version: //g" > ${software}.version.txt + """ +} diff --git a/software/gatk4/haplotypecaller/meta.yml b/software/gatk4/haplotypecaller/meta.yml new file mode 100644 index 00000000..f0fc3910 --- /dev/null +++ b/software/gatk4/haplotypecaller/meta.yml @@ -0,0 +1,63 @@ +name: gatk4_haplotypecaller +description: Call germline SNPs and indels via local re-assembly of haplotypes +keywords: + - gatk4 + - haplotypecaller + - haplotype +tools: + - gatk4: + description: | + Developed in the Data Sciences Platform at the Broad Institute, the toolkit offers a wide variety of tools + with a primary focus on variant discovery and genotyping. Its powerful processing engine + and high-performance computing features make it capable of taking on projects of any size. + homepage: https://gatk.broadinstitute.org/hc/en-us + documentation: https://gatk.broadinstitute.org/hc/en-us/categories/360002369672s + doi: 10.1158/1538-7445.AM2017-3590 + +input: + - meta: + type: map + description: | + Groovy Map containing sample information + e.g. [ id:'test', single_end:false ] + - bam: + type: file + description: BAM file + pattern: "*.bam" + - bai: + type: file + description: Index of BAM file + pattern: "*.bam.bai" + - fasta: + type: file + description: The reference fasta file + pattern: "*.fasta" + - fai: + type: file + description: Index of reference fasta file + pattern: "fasta.fai" + - dict: + type: file + description: GATK sequence dictionary + pattern: "*.dict" +output: + - meta: + type: map + description: | + Groovy Map containing sample information + e.g. [ id:'test', single_end:false ] + - version: + type: file + description: File containing software version + pattern: "*.{version.txt}" + - vcf: + type: file + description: Compressed VCF file + pattern: "*.vcf.gz" + - tbi: + type: file + description: Index of VCF file + pattern: "*.vcf.gz.tbi" + +authors: + - "@suzannejin" diff --git a/software/gatk4/markduplicates/functions.nf b/software/gatk4/markduplicates/functions.nf new file mode 100644 index 00000000..f177f0c8 --- /dev/null +++ b/software/gatk4/markduplicates/functions.nf @@ -0,0 +1,60 @@ +/* + * ----------------------------------------------------- + * Utility functions used in nf-core DSL2 module files + * ----------------------------------------------------- + */ + +/* + * Extract name of software tool from process name using $task.process + */ +def getSoftwareName(task_process) { + return task_process.tokenize(':')[-1].tokenize('_')[0].toLowerCase() +} + +/* + * Function to initialise default values and to generate a Groovy Map of available options for nf-core modules + */ +def initOptions(Map args) { + def Map options = [:] + options.args = args.args ?: '' + options.args2 = args.args2 ?: '' + options.args3 = args.args3 ?: '' + options.publish_by_id = args.publish_by_id ?: false + options.publish_dir = args.publish_dir ?: '' + options.publish_files = args.publish_files + options.suffix = args.suffix ?: '' + return options +} + +/* + * Tidy up and join elements of a list to return a path string + */ +def getPathFromList(path_list) { + def paths = path_list.findAll { item -> !item?.trim().isEmpty() } // Remove empty entries + paths = paths.collect { it.trim().replaceAll("^[/]+|[/]+\$", "") } // Trim whitespace and trailing slashes + return paths.join('/') +} + +/* + * Function to save/publish module results + */ +def saveFiles(Map args) { + if (!args.filename.endsWith('.version.txt')) { + def ioptions = initOptions(args.options) + def path_list = [ ioptions.publish_dir ?: args.publish_dir ] + if (ioptions.publish_by_id) { + path_list.add(args.publish_id) + } + if (ioptions.publish_files instanceof Map) { + for (ext in ioptions.publish_files) { + if (args.filename.endsWith(ext.key)) { + def ext_list = path_list.collect() + ext_list.add(ext.value) + return "${getPathFromList(ext_list)}/$args.filename" + } + } + } else if (ioptions.publish_files == null) { + return "${getPathFromList(path_list)}/$args.filename" + } + } +} diff --git a/software/gatk4/markduplicates/main.nf b/software/gatk4/markduplicates/main.nf new file mode 100644 index 00000000..8d70c8ca --- /dev/null +++ b/software/gatk4/markduplicates/main.nf @@ -0,0 +1,44 @@ +// Import generic module functions +include { initOptions; saveFiles; getSoftwareName } from './functions' + +params.options = [:] +options = initOptions(params.options) + +process GATK4_MARKDUPLICATES { + tag "$meta.id" + label 'process_low' + publishDir "${params.outdir}", + mode: params.publish_dir_mode, + saveAs: { filename -> saveFiles(filename:filename, options:params.options, publish_dir:getSoftwareName(task.process), publish_id:meta.id) } + + conda (params.enable_conda ? "bioconda::gatk4=4.2.0.0" : null) + if (workflow.containerEngine == 'singularity' && !params.singularity_pull_docker_container) { + container "https://depot.galaxyproject.org/singularity/gatk4:4.2.0.0--0" + } else { + container "quay.io/biocontainers/gatk4:4.2.0.0--0" + } + + input: + tuple val(meta), path(bam) + + output: + tuple val(meta), path("*.bam") , emit: bam + tuple val(meta), path("*.metrics"), emit: metrics + path "*.version.txt" , emit: version + + script: + def software = getSoftwareName(task.process) + def prefix = options.suffix ? "${meta.id}${options.suffix}" : "${meta.id}" + """ + gatk MarkDuplicates \\ + --INPUT $bam \\ + --METRICS_FILE ${prefix}.metrics \\ + --TMP_DIR . \\ + --ASSUME_SORT_ORDER coordinate \\ + --CREATE_INDEX true \\ + --OUTPUT ${prefix}.bam \\ + $options.args + + gatk --version | grep Picard | sed "s/Picard Version: //g" > ${software}.version.txt + """ +} diff --git a/software/gatk4/markduplicates/meta.yml b/software/gatk4/markduplicates/meta.yml new file mode 100644 index 00000000..abe61e02 --- /dev/null +++ b/software/gatk4/markduplicates/meta.yml @@ -0,0 +1,49 @@ +name: gatk4_markduplicates +description: This tool locates and tags duplicate reads in a BAM or SAM file, where duplicate reads are defined as originating from a single fragment of DNA. +keywords: + - markduplicates + - bam + - sort +tools: + - gatk4: + description: Developed in the Data Sciences Platform at the Broad Institute, the toolkit offers a wide variety of tools + with a primary focus on variant discovery and genotyping. Its powerful processing engine + and high-performance computing features make it capable of taking on projects of any size. + homepage: https://gatk.broadinstitute.org/hc/en-us + documentation: https://gatk.broadinstitute.org/hc/en-us/articles/360037052812-MarkDuplicates-Picard- + tool_dev_url: https://github.com/broadinstitute/gatk + doi: 10.1158/1538-7445.AM2017-3590 + licence: ['BSD-3-clause'] + +input: + - meta: + type: map + description: | + Groovy Map containing sample information + e.g. [ id:'test', single_end:false ] + - bam: + type: file + description: Sorted BAM file + pattern: "*.{bam}" + +output: + - meta: + type: map + description: | + Groovy Map containing sample information + e.g. [ id:'test', single_end:false ] + - version: + type: file + description: File containing software version + pattern: "*.{version.txt}" + - bam: + type: file + description: Marked duplicates BAM file + pattern: "*.{bam}" + - metrics: + type: file + description: Duplicate metrics file generated by GATK + pattern: "*.{metrics.txt}" + +authors: + - "@ajodeh-juma" diff --git a/software/gatk4/mergebamalignment/functions.nf b/software/gatk4/mergebamalignment/functions.nf new file mode 100644 index 00000000..d25eea86 --- /dev/null +++ b/software/gatk4/mergebamalignment/functions.nf @@ -0,0 +1,59 @@ +/* + * ----------------------------------------------------- + * Utility functions used in nf-core DSL2 module files + * ----------------------------------------------------- + */ + +/* + * Extract name of software tool from process name using $task.process + */ +def getSoftwareName(task_process) { + return task_process.tokenize(':')[-1].tokenize('_')[0].toLowerCase() +} + +/* + * Function to initialise default values and to generate a Groovy Map of available options for nf-core modules + */ +def initOptions(Map args) { + def Map options = [:] + options.args = args.args ?: '' + options.args2 = args.args2 ?: '' + options.publish_by_id = args.publish_by_id ?: false + options.publish_dir = args.publish_dir ?: '' + options.publish_files = args.publish_files + options.suffix = args.suffix ?: '' + return options +} + +/* + * Tidy up and join elements of a list to return a path string + */ +def getPathFromList(path_list) { + def paths = path_list.findAll { item -> !item?.trim().isEmpty() } // Remove empty entries + paths = paths.collect { it.trim().replaceAll("^[/]+|[/]+\$", "") } // Trim whitespace and trailing slashes + return paths.join('/') +} + +/* + * Function to save/publish module results + */ +def saveFiles(Map args) { + if (!args.filename.endsWith('.version.txt')) { + def ioptions = initOptions(args.options) + def path_list = [ ioptions.publish_dir ?: args.publish_dir ] + if (ioptions.publish_by_id) { + path_list.add(args.publish_id) + } + if (ioptions.publish_files instanceof Map) { + for (ext in ioptions.publish_files) { + if (args.filename.endsWith(ext.key)) { + def ext_list = path_list.collect() + ext_list.add(ext.value) + return "${getPathFromList(ext_list)}/$args.filename" + } + } + } else if (ioptions.publish_files == null) { + return "${getPathFromList(path_list)}/$args.filename" + } + } +} diff --git a/software/gatk4/mergebamalignment/main.nf b/software/gatk4/mergebamalignment/main.nf new file mode 100644 index 00000000..bc8a62c4 --- /dev/null +++ b/software/gatk4/mergebamalignment/main.nf @@ -0,0 +1,44 @@ +// Import generic module functions +include { initOptions; saveFiles; getSoftwareName } from './functions' + +params.options = [:] +def options = initOptions(params.options) + +process GATK4_MERGEBAMALIGNMENT { + tag "$meta.id" + label 'process_low' + publishDir "${params.outdir}", + mode: params.publish_dir_mode, + saveAs: { filename -> saveFiles(filename:filename, options:params.options, publish_dir:getSoftwareName(task.process), publish_id:meta.id) } + + conda (params.enable_conda ? "bioconda::gatk4=4.2.0.0" : null) + if (workflow.containerEngine == 'singularity' && !params.singularity_pull_docker_container) { + container "https://depot.galaxyproject.org/singularity/gatk4:4.2.0.0--0" + } else { + container "quay.io/biocontainers/gatk4:4.2.0.0--0" + } + + input: + tuple val(meta), path(aligned) + path unmapped + path fasta + path dict + + output: + tuple val(meta), path('*.merged.bam'), emit: bam + path '*.version.txt' , emit: version + + script: + def software = getSoftwareName(task.process) + def prefix = options.suffix ? "${meta.id}.${options.suffix}" : "${meta.id}" + """ + gatk MergeBamAlignment \\ + ALIGNED=$aligned \\ + UNMAPPED=$unmapped \\ + R=$fasta \\ + O=${prefix}.merged.bam \\ + $options.args + + gatk --version | grep Picard | sed "s/Picard Version: //g" > ${software}.version.txt + """ +} diff --git a/software/gatk4/mergebamalignment/meta.yml b/software/gatk4/mergebamalignment/meta.yml new file mode 100644 index 00000000..155b6364 --- /dev/null +++ b/software/gatk4/mergebamalignment/meta.yml @@ -0,0 +1,45 @@ +name: gatk4_mergebamalignment +description: Merge unmapped with mapped BAM files +keywords: + - bam + - merge +tools: + - gatk4: + description: | + Developed in the Data Sciences Platform at the Broad Institute, the toolkit offers a wide variety of tools + with a primary focus on variant discovery and genotyping. Its powerful processing engine + and high-performance computing features make it capable of taking on projects of any size. + homepage: https://gatk.broadinstitute.org/hc/en-us + documentation: https://gatk.broadinstitute.org/hc/en-us/categories/360002369672s + doi: 10.1158/1538-7445.AM2017-3590 +input: + - meta: + type: map + description: | + Groovy Map containing sample information + e.g. [ id:'test'] + - aligned: + type: file + description: The aligned bam file + pattern: "*.{bam}" + - unaligned: + type: file + description: The unmaped bam file + pattern: "*.{bam}" + - fasta: + type: file + description: The reference fasta file + - dict: + type: file + description: GATK sequence dictionary +output: + - bam: + type: file + description: The merged bam file + pattern: "*.bam" + - version: + type: file + description: File containing software version + pattern: "*.version.txt" +authors: + - "@kevinmenden" diff --git a/software/gatk4/mergevcfs/meta.yml b/software/gatk4/mergevcfs/meta.yml index 5d6e053d..14b28fa0 100644 --- a/software/gatk4/mergevcfs/meta.yml +++ b/software/gatk4/mergevcfs/meta.yml @@ -12,27 +12,6 @@ tools: homepage: https://gatk.broadinstitute.org/hc/en-us documentation: https://gatk.broadinstitute.org/hc/en-us/categories/360002369672s doi: 10.1158/1538-7445.AM2017-3590 -params: - - outdir: - type: string - description: | - The pipeline's output directory. By default, the module will - output files into `$params.outdir/` - - publish_dir_mode: - type: string - description: | - Value for the Nextflow `publishDir` mode parameter. - Available: symlink, rellink, link, copy, copyNoFollow, move. - - enable_conda: - type: boolean - description: | - Run the module with Conda using the software specified - via the `conda` directive - - singularity_pull_docker_container: - type: boolean - description: | - Instead of directly downloading Singularity images for use with Singularity, - force the workflow to pull and convert Docker containers instead. input: - meta: type: map diff --git a/software/gatk4/revertsam/meta.yml b/software/gatk4/revertsam/meta.yml index e7d176c8..258bb253 100644 --- a/software/gatk4/revertsam/meta.yml +++ b/software/gatk4/revertsam/meta.yml @@ -12,27 +12,6 @@ tools: homepage: https://gatk.broadinstitute.org/hc/en-us documentation: https://gatk.broadinstitute.org/hc/en-us/categories/360002369672s doi: 10.1158/1538-7445.AM2017-3590 -params: - - outdir: - type: string - description: | - The pipeline's output directory. By default, the module will - output files into `$params.outdir/` - - publish_dir_mode: - type: string - description: | - Value for the Nextflow `publishDir` mode parameter. - Available: symlink, rellink, link, copy, copyNoFollow, move. - - enable_conda: - type: boolean - description: | - Run the module with Conda using the software specified - via the `conda` directive - - singularity_pull_docker_container: - type: boolean - description: | - Instead of directly downloading Singularity images for use with Singularity, - force the workflow to pull and convert Docker containers instead. input: - meta: type: map diff --git a/software/gatk4/samtofastq/meta.yml b/software/gatk4/samtofastq/meta.yml index 8d8d2336..0601f3a7 100644 --- a/software/gatk4/samtofastq/meta.yml +++ b/software/gatk4/samtofastq/meta.yml @@ -12,27 +12,6 @@ tools: homepage: https://gatk.broadinstitute.org/hc/en-us documentation: https://gatk.broadinstitute.org/hc/en-us/categories/360002369672s doi: 10.1158/1538-7445.AM2017-3590 -params: - - outdir: - type: string - description: | - The pipeline's output directory. By default, the module will - output files into `$params.outdir/` - - publish_dir_mode: - type: string - description: | - Value for the Nextflow `publishDir` mode parameter. - Available: symlink, rellink, link, copy, copyNoFollow, move. - - enable_conda: - type: boolean - description: | - Run the module with Conda using the software specified - via the `conda` directive - - singularity_pull_docker_container: - type: boolean - description: | - Instead of directly downloading Singularity images for use with Singularity, - force the workflow to pull and convert Docker containers instead. input: - meta: type: map diff --git a/software/gatk4/splitncigarreads/meta.yml b/software/gatk4/splitncigarreads/meta.yml index 33610180..e433cbf6 100644 --- a/software/gatk4/splitncigarreads/meta.yml +++ b/software/gatk4/splitncigarreads/meta.yml @@ -12,27 +12,6 @@ tools: homepage: https://gatk.broadinstitute.org/hc/en-us documentation: https://gatk.broadinstitute.org/hc/en-us/categories/360002369672s doi: 10.1158/1538-7445.AM2017-3590 -params: - - outdir: - type: string - description: | - The pipeline's output directory. By default, the module will - output files into `$params.outdir/` - - publish_dir_mode: - type: string - description: | - Value for the Nextflow `publishDir` mode parameter. - Available: symlink, rellink, link, copy, copyNoFollow, move. - - enable_conda: - type: boolean - description: | - Run the module with Conda using the software specified - via the `conda` directive - - singularity_pull_docker_container: - type: boolean - description: | - Instead of directly downloading Singularity images for use with Singularity, - force the workflow to pull and convert Docker containers instead. input: - meta: type: map diff --git a/software/gatk4/variantfiltration/functions.nf b/software/gatk4/variantfiltration/functions.nf new file mode 100644 index 00000000..d25eea86 --- /dev/null +++ b/software/gatk4/variantfiltration/functions.nf @@ -0,0 +1,59 @@ +/* + * ----------------------------------------------------- + * Utility functions used in nf-core DSL2 module files + * ----------------------------------------------------- + */ + +/* + * Extract name of software tool from process name using $task.process + */ +def getSoftwareName(task_process) { + return task_process.tokenize(':')[-1].tokenize('_')[0].toLowerCase() +} + +/* + * Function to initialise default values and to generate a Groovy Map of available options for nf-core modules + */ +def initOptions(Map args) { + def Map options = [:] + options.args = args.args ?: '' + options.args2 = args.args2 ?: '' + options.publish_by_id = args.publish_by_id ?: false + options.publish_dir = args.publish_dir ?: '' + options.publish_files = args.publish_files + options.suffix = args.suffix ?: '' + return options +} + +/* + * Tidy up and join elements of a list to return a path string + */ +def getPathFromList(path_list) { + def paths = path_list.findAll { item -> !item?.trim().isEmpty() } // Remove empty entries + paths = paths.collect { it.trim().replaceAll("^[/]+|[/]+\$", "") } // Trim whitespace and trailing slashes + return paths.join('/') +} + +/* + * Function to save/publish module results + */ +def saveFiles(Map args) { + if (!args.filename.endsWith('.version.txt')) { + def ioptions = initOptions(args.options) + def path_list = [ ioptions.publish_dir ?: args.publish_dir ] + if (ioptions.publish_by_id) { + path_list.add(args.publish_id) + } + if (ioptions.publish_files instanceof Map) { + for (ext in ioptions.publish_files) { + if (args.filename.endsWith(ext.key)) { + def ext_list = path_list.collect() + ext_list.add(ext.value) + return "${getPathFromList(ext_list)}/$args.filename" + } + } + } else if (ioptions.publish_files == null) { + return "${getPathFromList(path_list)}/$args.filename" + } + } +} diff --git a/software/gatk4/variantfiltration/main.nf b/software/gatk4/variantfiltration/main.nf new file mode 100644 index 00000000..698dfb4c --- /dev/null +++ b/software/gatk4/variantfiltration/main.nf @@ -0,0 +1,44 @@ +// Import generic module functions +include { initOptions; saveFiles; getSoftwareName } from './functions' + +params.options = [:] +def options = initOptions(params.options) + +process GATK4_VARIANTFILTRATION { + tag "$meta.id" + label 'process_medium' + publishDir "${params.outdir}", + mode: params.publish_dir_mode, + saveAs: { filename -> saveFiles(filename:filename, options:params.options, publish_dir:getSoftwareName(task.process), publish_id:meta.id) } + + conda (params.enable_conda ? "bioconda::gatk4=4.2.0.0" : null) + if (workflow.containerEngine == 'singularity' && !params.singularity_pull_docker_container) { + container "https://depot.galaxyproject.org/singularity/gatk4:4.2.0.0--0" + } else { + container "quay.io/biocontainers/gatk4:4.2.0.0--0" + } + + input: + tuple val(meta), path(vcf) + path fasta + path fai + path dict + + output: + tuple val(meta), path("*.vcf"), emit: vcf + path "*.version.txt" , emit: version + + + script: + def software = getSoftwareName(task.process) + def prefix = options.suffix ? "${meta.id}${options.suffix}" : "${meta.id}" + """ + gatk VariantFiltration \\ + -R $fasta \\ + -V $vcf \\ + -O ${prefix}.vcf \\ + $options.args + + gatk --version | grep Picard | sed "s/Picard Version: //g" > ${software}.version.txt + """ +} diff --git a/software/gatk4/variantfiltration/meta.yml b/software/gatk4/variantfiltration/meta.yml new file mode 100644 index 00000000..d7f72582 --- /dev/null +++ b/software/gatk4/variantfiltration/meta.yml @@ -0,0 +1,47 @@ +name: gatk4_variantfiltration +description: Filter variants +keywords: + - vcf + - filter +tools: + - gatk4: + description: | + Developed in the Data Sciences Platform at the Broad Institute, the toolkit offers a wide variety of tools + with a primary focus on variant discovery and genotyping. Its powerful processing engine + and high-performance computing features make it capable of taking on projects of any size. + homepage: https://gatk.broadinstitute.org/hc/en-us + documentation: https://gatk.broadinstitute.org/hc/en-us/categories/360002369672s + doi: 10.1158/1538-7445.AM2017-3590 +input: + - meta: + type: map + description: | + Groovy Map containing sample information + e.g. [ id:'test'] + - vcf: + type: list + description: Input VCF file + pattern: "*.{vcf}" + - fasta: + type: file + description: Fasta file of reference genome + pattern: "*.fasta" + - fai: + type: file + description: Index of fasta file + pattern: "*.fasta.fai" + - dict: + type: file + description: Sequence dictionary of fastea file + pattern: "*.dict" +output: + - vcf: + type: file + description: filtered VCF file + pattern: "*.filtered.{vcf}" + - version: + type: file + description: File containing software version + pattern: "*.version.txt" +authors: + - "@kevinmenden" diff --git a/software/gffread/main.nf b/software/gffread/main.nf index d0a4e02f..e9290888 100644 --- a/software/gffread/main.nf +++ b/software/gffread/main.nf @@ -6,6 +6,7 @@ options = initOptions(params.options) process GFFREAD { tag "$gff" + label 'process_low' publishDir "${params.outdir}", mode: params.publish_dir_mode, saveAs: { filename -> saveFiles(filename:filename, options:params.options, publish_dir:getSoftwareName(task.process), publish_id:'') } diff --git a/software/gunzip/main.nf b/software/gunzip/main.nf index d3159aa2..d6bbe045 100644 --- a/software/gunzip/main.nf +++ b/software/gunzip/main.nf @@ -6,6 +6,7 @@ options = initOptions(params.options) process GUNZIP { tag "$archive" + label 'process_low' publishDir "${params.outdir}", mode: params.publish_dir_mode, saveAs: { filename -> saveFiles(filename:filename, options:params.options, publish_dir:getSoftwareName(task.process), publish_id:'') } diff --git a/software/gunzip/meta.yml b/software/gunzip/meta.yml index 65ae4143..922e74e6 100644 --- a/software/gunzip/meta.yml +++ b/software/gunzip/meta.yml @@ -8,27 +8,6 @@ tools: description: | gzip is a file format and a software application used for file compression and decompression. documentation: https://www.gnu.org/software/gzip/manual/gzip.html -params: - - outdir: - type: string - description: | - The pipeline's output directory. By default, the module will - output files into `$params.outdir/` - - publish_dir_mode: - type: string - description: | - Value for the Nextflow `publishDir` mode parameter. - Available: symlink, rellink, link, copy, copyNoFollow, move. - - enable_conda: - type: boolean - description: | - Run the module with Conda using the software specified - via the `conda` directive - - singularity_pull_docker_container: - type: boolean - description: | - Instead of directly downloading Singularity images for use with Singularity, - force the workflow to pull and convert Docker containers instead. input: - archive: type: file diff --git a/software/hisat2/align/meta.yml b/software/hisat2/align/meta.yml new file mode 100644 index 00000000..bf5570fd --- /dev/null +++ b/software/hisat2/align/meta.yml @@ -0,0 +1,57 @@ +name: hisat2_align +description: Align RNA-Seq reads to a reference with HISAT2 +keywords: + - align + - fasta + - genome + - reference + +tools: + - hisat2: + description: HISAT2 is a fast and sensitive alignment program for mapping next-generation sequencing reads (both DNA and RNA) to a population of human genomes as well as to a single reference genome. + homepage: https://daehwankimlab.github.io/hisat2/ + documentation: https://daehwankimlab.github.io/hisat2/manual/ + doi: "10.1038/s41587-019-0201-4" + licence: ['MIT'] + +input: + - meta: + type: map + description: | + Groovy Map containing sample information + e.g. [ id:'test', single_end:false ] + - reads: + type: file + description: | + List of input FastQ files of size 1 and 2 for single-end and paired-end data, + respectively. + - index: + type: file + description: HISAT2 genome index file + pattern: "*.ht2" + - splicesites: + type: file + description: Splices sites in gtf file + pattern: "*.{txt}" + +output: + - meta: + type: map + description: | + Groovy Map containing sample information + e.g. [ id:'test', single_end:false ] + - bam: + type: file + description: Output BAM file containing read alignments + pattern: "*.{bam}" + - summary: + type: file + description: Aligment log + pattern: "*.log" + - version: + type: file + description: File containing software version + pattern: "*.{version.txt}" + +authors: + - "@ntoda03" diff --git a/software/hisat2/build/main.nf b/software/hisat2/build/main.nf index f1c83f99..6d088c91 100644 --- a/software/hisat2/build/main.nf +++ b/software/hisat2/build/main.nf @@ -8,9 +8,10 @@ def VERSION = '2.2.0' process HISAT2_BUILD { tag "$fasta" + label 'process_high' publishDir "${params.outdir}", mode: params.publish_dir_mode, - saveAs: { filename -> saveFiles(filename:filename, options:params.options, publish_dir:getSoftwareName(task.process), publish_id:'') } + saveAs: { filename -> saveFiles(filename:filename, options:params.options, publish_dir:'index', publish_id:'') } conda (params.enable_conda ? "bioconda::hisat2=2.2.0" : null) if (workflow.containerEngine == 'singularity' && !params.singularity_pull_docker_container) { diff --git a/software/hisat2/build/meta.yml b/software/hisat2/build/meta.yml new file mode 100644 index 00000000..2f34d9d8 --- /dev/null +++ b/software/hisat2/build/meta.yml @@ -0,0 +1,42 @@ +name: hisat2_build +description: Builds HISAT2 index for reference genome +keywords: + - build + - index + - fasta + - genome + - reference +tools: + - hisat2: + description: HISAT2 is a fast and sensitive alignment program for mapping next-generation sequencing reads (both DNA and RNA) to a population of human genomes as well as to a single reference genome. + homepage: https://daehwankimlab.github.io/hisat2/ + documentation: https://daehwankimlab.github.io/hisat2/manual/ + doi: "10.1038/s41587-019-0201-4" + licence: ['MIT'] + +input: + - fasta: + type: file + description: Reference fasta file + pattern: "*.{fa,fasta,fna}" + - gtf: + type: file + description: Reference gtf annotation file + pattern: "*.{gtf}" + - splicesites: + type: file + description: Splices sites in gtf file + pattern: "*.{txt}" + +output: + - version: + type: file + description: File containing software version + pattern: "*.{version.txt}" + - index: + type: file + description: HISAT2 genome index file + pattern: "*.ht2" + +authors: + - "@ntoda03" diff --git a/software/hisat2/extractsplicesites/main.nf b/software/hisat2/extractsplicesites/main.nf index a88c2e50..b40a97da 100644 --- a/software/hisat2/extractsplicesites/main.nf +++ b/software/hisat2/extractsplicesites/main.nf @@ -8,6 +8,7 @@ def VERSION = '2.2.0' process HISAT2_EXTRACTSPLICESITES { tag "$gtf" + label 'process_medium' publishDir "${params.outdir}", mode: params.publish_dir_mode, saveAs: { filename -> saveFiles(filename:filename, options:params.options, publish_dir:getSoftwareName(task.process), publish_id:'') } diff --git a/software/hisat2/extractsplicesites/meta.yml b/software/hisat2/extractsplicesites/meta.yml new file mode 100644 index 00000000..228138a8 --- /dev/null +++ b/software/hisat2/extractsplicesites/meta.yml @@ -0,0 +1,34 @@ +name: hisat2_extractsplicesites +description: Extracts splicing sites from a gtf files +keywords: + - splicing + - gtf + - genome + - reference + +tools: + - hisat2: + description: HISAT2 is a fast and sensitive alignment program for mapping next-generation sequencing reads (both DNA and RNA) to a population of human genomes as well as to a single reference genome. + homepage: https://daehwankimlab.github.io/hisat2/ + documentation: https://daehwankimlab.github.io/hisat2/manual/ + doi: "10.1038/s41587-019-0201-4" + licence: ['MIT'] + +input: + - gtf: + type: file + description: Reference gtf annotation file + pattern: "*.{gtf}" + +output: + - version: + type: file + description: File containing software version + pattern: "*.{version.txt}" + - splicesites: + type: file + description: Splices sites in gtf file + pattern: "*.{splice_sites.txt}" + +authors: + - "@ntoda03" diff --git a/software/homer/annotatepeaks/meta.yml b/software/homer/annotatepeaks/meta.yml new file mode 100644 index 00000000..d620e875 --- /dev/null +++ b/software/homer/annotatepeaks/meta.yml @@ -0,0 +1,47 @@ +name: homer_annotatepeaks +description: Annotate peaks with homer +keywords: + - annotations + - peaks + - bed +tools: + - cuatadapt: + description: | + HOMER (Hypergeometric Optimization of Motif EnRichment) is a suite of tools for Motif Discovery and next-gen sequencing analysis. + documentation: http://homer.ucsd.edu/homer/ + doi: 10.1016/j.molcel.2010.05.004. +input: + - meta: + type: map + description: | + Groovy Map containing sample information + e.g. [ id:'test', single_end:false ] + - peaks: + type: file + description: The peak files in bed format + pattern: "*.bed" + - fasta: + type: file + description: Fasta file of reference genome + pattern: "*.fasta" + - gtf: + type: file + description: GTF file of reference genome + pattern: "*.gtf" +output: + - meta: + type: map + description: | + Groovy Map containing sample information + e.g. [ id:'test', single_end:false ] + - annotated_peaks: + type: file + description: The annotated peaks + pattern: "*annotatePeaks.txt" + - version: + type: file + description: File containing software version + pattern: "*.{version.txt}" +authors: + - "@drpatelh" + - "@kevinmenden" diff --git a/software/ivar/consensus/meta.yml b/software/ivar/consensus/meta.yml index 0180c72c..913a7660 100644 --- a/software/ivar/consensus/meta.yml +++ b/software/ivar/consensus/meta.yml @@ -10,27 +10,6 @@ tools: iVar - a computational package that contains functions broadly useful for viral amplicon-based sequencing. homepage: https://github.com/andersen-lab/ivar documentation: https://andersen-lab.github.io/ivar/html/manualpage.html -params: - - outdir: - type: string - description: | - The pipeline's output directory. By default, the module will - output files into `$params.outdir/` - - publish_dir_mode: - type: string - description: | - Value for the Nextflow `publishDir` mode parameter. - Available: symlink, rellink, link, copy, copyNoFollow, move. - - enable_conda: - type: boolean - description: | - Run the module with Conda using the software specified - via the `conda` directive - - singularity_pull_docker_container: - type: boolean - description: | - Instead of directly downloading Singularity images for use with Singularity, - force the workflow to pull and convert Docker containers instead. input: - meta: type: map diff --git a/software/ivar/trim/meta.yml b/software/ivar/trim/meta.yml index 9d8d39df..5791db66 100644 --- a/software/ivar/trim/meta.yml +++ b/software/ivar/trim/meta.yml @@ -10,27 +10,6 @@ tools: iVar - a computational package that contains functions broadly useful for viral amplicon-based sequencing. homepage: https://github.com/andersen-lab/ivar documentation: https://andersen-lab.github.io/ivar/html/manualpage.html -params: - - outdir: - type: string - description: | - The pipeline's output directory. By default, the module will - output files into `$params.outdir/` - - publish_dir_mode: - type: string - description: | - Value for the Nextflow `publishDir` mode parameter. - Available: symlink, rellink, link, copy, copyNoFollow, move. - - enable_conda: - type: boolean - description: | - Run the module with Conda using the software specified - via the `conda` directive - - singularity_pull_docker_container: - type: boolean - description: | - Instead of directly downloading Singularity images for use with Singularity, - force the workflow to pull and convert Docker containers instead. input: - meta: type: map diff --git a/software/ivar/variants/meta.yml b/software/ivar/variants/meta.yml index 6f8e828a..7a5fbbc0 100644 --- a/software/ivar/variants/meta.yml +++ b/software/ivar/variants/meta.yml @@ -10,27 +10,6 @@ tools: iVar - a computational package that contains functions broadly useful for viral amplicon-based sequencing. homepage: https://github.com/andersen-lab/ivar documentation: https://andersen-lab.github.io/ivar/html/manualpage.html -params: - - outdir: - type: string - description: | - The pipeline's output directory. By default, the module will - output files into `$params.outdir/` - - publish_dir_mode: - type: string - description: | - Value for the Nextflow `publishDir` mode parameter. - Available: symlink, rellink, link, copy, copyNoFollow, move. - - enable_conda: - type: boolean - description: | - Run the module with Conda using the software specified - via the `conda` directive - - singularity_pull_docker_container: - type: boolean - description: | - Instead of directly downloading Singularity images for use with Singularity, - force the workflow to pull and convert Docker containers instead. input: - meta: type: map diff --git a/software/kallisto/index/functions.nf b/software/kallisto/index/functions.nf new file mode 100644 index 00000000..f177f0c8 --- /dev/null +++ b/software/kallisto/index/functions.nf @@ -0,0 +1,60 @@ +/* + * ----------------------------------------------------- + * Utility functions used in nf-core DSL2 module files + * ----------------------------------------------------- + */ + +/* + * Extract name of software tool from process name using $task.process + */ +def getSoftwareName(task_process) { + return task_process.tokenize(':')[-1].tokenize('_')[0].toLowerCase() +} + +/* + * Function to initialise default values and to generate a Groovy Map of available options for nf-core modules + */ +def initOptions(Map args) { + def Map options = [:] + options.args = args.args ?: '' + options.args2 = args.args2 ?: '' + options.args3 = args.args3 ?: '' + options.publish_by_id = args.publish_by_id ?: false + options.publish_dir = args.publish_dir ?: '' + options.publish_files = args.publish_files + options.suffix = args.suffix ?: '' + return options +} + +/* + * Tidy up and join elements of a list to return a path string + */ +def getPathFromList(path_list) { + def paths = path_list.findAll { item -> !item?.trim().isEmpty() } // Remove empty entries + paths = paths.collect { it.trim().replaceAll("^[/]+|[/]+\$", "") } // Trim whitespace and trailing slashes + return paths.join('/') +} + +/* + * Function to save/publish module results + */ +def saveFiles(Map args) { + if (!args.filename.endsWith('.version.txt')) { + def ioptions = initOptions(args.options) + def path_list = [ ioptions.publish_dir ?: args.publish_dir ] + if (ioptions.publish_by_id) { + path_list.add(args.publish_id) + } + if (ioptions.publish_files instanceof Map) { + for (ext in ioptions.publish_files) { + if (args.filename.endsWith(ext.key)) { + def ext_list = path_list.collect() + ext_list.add(ext.value) + return "${getPathFromList(ext_list)}/$args.filename" + } + } + } else if (ioptions.publish_files == null) { + return "${getPathFromList(path_list)}/$args.filename" + } + } +} diff --git a/software/kallisto/index/main.nf b/software/kallisto/index/main.nf new file mode 100644 index 00000000..bf3f2415 --- /dev/null +++ b/software/kallisto/index/main.nf @@ -0,0 +1,39 @@ +// Import generic module functions +include { initOptions; saveFiles; getSoftwareName } from './functions' + +params.options = [:] +options = initOptions(params.options) + +process KALLISTO_INDEX { + tag "$fasta" + label 'process_medium' + publishDir "${params.outdir}", + mode: params.publish_dir_mode, + saveAs: { filename -> saveFiles(filename:filename, options:params.options, publish_dir:getSoftwareName(task.process), publish_id:'') } + + conda (params.enable_conda ? "bioconda::kallisto=0.46.2" : null) + if (workflow.containerEngine == 'singularity' && !params.singularity_pull_docker_container) { + container "https://depot.galaxyproject.org/singularity/kallisto:0.46.2--h4f7b962_1" + } else { + container "quay.io/biocontainers/kallisto:0.46.2--h4f7b962_1" + } + + input: + path fasta + + output: + path "kallisto" , emit: idx + path "*.version.txt", emit: version + + script: + def software = getSoftwareName(task.process) + """ + kallisto \\ + index \\ + $options.args \\ + -i kallisto \\ + $fasta + + echo \$(kallisto 2>&1) | sed 's/^kallisto //; s/Usage.*\$//' > ${software}.version.txt + """ +} diff --git a/software/kallisto/index/meta.yml b/software/kallisto/index/meta.yml new file mode 100644 index 00000000..24b44b0b --- /dev/null +++ b/software/kallisto/index/meta.yml @@ -0,0 +1,31 @@ +name: kallisto_index +description: write your description here +keywords: + - sort +tools: + - kallisto: + description: Quantifying abundances of transcripts from bulk and single-cell RNA-Seq data, or more generally of target sequences using high-throughput sequencing reads. + homepage: https://pachterlab.github.io/kallisto/ + documentation: https://pachterlab.github.io/kallisto/manual + tool_dev_url: https://github.com/pachterlab/kallisto + doi: "" + licence: ['BSD_2_clause'] + +input: + - fasta: + type: file + description: genome fasta file + pattern: "*.{fasta}" + +output: + - version: + type: file + description: File containing software version + pattern: "*.{version.txt}" + - idx: + type: index + description: Kallisto genome index + pattern: "*.idx" + +authors: + - "@ggabernet" diff --git a/software/kraken2/run/functions.nf b/software/kraken2/run/functions.nf new file mode 100644 index 00000000..d25eea86 --- /dev/null +++ b/software/kraken2/run/functions.nf @@ -0,0 +1,59 @@ +/* + * ----------------------------------------------------- + * Utility functions used in nf-core DSL2 module files + * ----------------------------------------------------- + */ + +/* + * Extract name of software tool from process name using $task.process + */ +def getSoftwareName(task_process) { + return task_process.tokenize(':')[-1].tokenize('_')[0].toLowerCase() +} + +/* + * Function to initialise default values and to generate a Groovy Map of available options for nf-core modules + */ +def initOptions(Map args) { + def Map options = [:] + options.args = args.args ?: '' + options.args2 = args.args2 ?: '' + options.publish_by_id = args.publish_by_id ?: false + options.publish_dir = args.publish_dir ?: '' + options.publish_files = args.publish_files + options.suffix = args.suffix ?: '' + return options +} + +/* + * Tidy up and join elements of a list to return a path string + */ +def getPathFromList(path_list) { + def paths = path_list.findAll { item -> !item?.trim().isEmpty() } // Remove empty entries + paths = paths.collect { it.trim().replaceAll("^[/]+|[/]+\$", "") } // Trim whitespace and trailing slashes + return paths.join('/') +} + +/* + * Function to save/publish module results + */ +def saveFiles(Map args) { + if (!args.filename.endsWith('.version.txt')) { + def ioptions = initOptions(args.options) + def path_list = [ ioptions.publish_dir ?: args.publish_dir ] + if (ioptions.publish_by_id) { + path_list.add(args.publish_id) + } + if (ioptions.publish_files instanceof Map) { + for (ext in ioptions.publish_files) { + if (args.filename.endsWith(ext.key)) { + def ext_list = path_list.collect() + ext_list.add(ext.value) + return "${getPathFromList(ext_list)}/$args.filename" + } + } + } else if (ioptions.publish_files == null) { + return "${getPathFromList(path_list)}/$args.filename" + } + } +} diff --git a/software/kraken2/run/main.nf b/software/kraken2/run/main.nf new file mode 100644 index 00000000..4c2ca098 --- /dev/null +++ b/software/kraken2/run/main.nf @@ -0,0 +1,52 @@ +// Import generic module functions +include { initOptions; saveFiles; getSoftwareName } from './functions' + +params.options = [:] +def options = initOptions(params.options) + +process KRAKEN2_RUN { + tag "$meta.id" + label 'process_high' + publishDir "${params.outdir}", + mode: params.publish_dir_mode, + saveAs: { filename -> saveFiles(filename:filename, options:params.options, publish_dir:getSoftwareName(task.process), publish_id:meta.id) } + + conda (params.enable_conda ? 'bioconda::kraken2=2.1.1' : null) + if (workflow.containerEngine == 'singularity' && !params.singularity_pull_docker_container) { + container 'https://depot.galaxyproject.org/singularity/kraken2:2.1.1--pl526hc9558a2_0' + } else { + container 'quay.io/biocontainers/kraken2:2.1.1--pl526hc9558a2_0' + } + + input: + tuple val(meta), path(reads) + path db + + output: + tuple val(meta), path('*classified*') , emit: classified + tuple val(meta), path('*unclassified*'), emit: unclassified + tuple val(meta), path('*report.txt') , emit: txt + path '*.version.txt' , emit: version + + script: + def software = getSoftwareName(task.process) + def prefix = options.suffix ? "${meta.id}${options.suffix}" : "${meta.id}" + def paired = meta.single_end ? "" : "--paired" + def classified = meta.single_end ? "${prefix}.classified.fastq" : "${prefix}.classified#.fastq" + def unclassified = meta.single_end ? "${prefix}.unclassified.fastq" : "${prefix}.unclassified#.fastq" + """ + kraken2 \\ + --db $db \\ + --threads $task.cpus \\ + --unclassified-out $unclassified \\ + --classified-out $classified \\ + --report ${prefix}.kraken2.report.txt \\ + --gzip-compressed \\ + $paired \\ + $options.args \\ + $reads + + gzip *.fastq + echo \$(kraken2 --version 2>&1) | sed 's/^.*Kraken version //; s/ .*\$//' > ${software}.version.txt + """ +} diff --git a/software/kraken2/run/meta.yml b/software/kraken2/run/meta.yml new file mode 100644 index 00000000..453c05a9 --- /dev/null +++ b/software/kraken2/run/meta.yml @@ -0,0 +1,59 @@ +name: kraken2_run +description: Classifies metagenomic sequence data +keywords: + - classify + - metagenomics + - fastq + - db +tools: + - kraken2: + description: | + Kraken2 is a taxonomic sequence classifier that assigns taxonomic labels to sequence reads + homepage: https://ccb.jhu.edu/software/kraken2/ + documentation: https://github.com/DerrickWood/kraken2/wiki/Manual + doi: 10.1186/s13059-019-1891-0 +input: + - meta: + type: map + description: | + Groovy Map containing sample information + e.g. [ id:'test', single_end:false ] + - reads: + type: file + description: | + List of input FastQ files of size 1 and 2 for single-end and paired-end data, + respectively. + - db: + type: directory + description: Kraken2 database +output: + - meta: + type: map + description: | + Groovy Map containing sample information + e.g. [ id:'test', single_end:false ] + - classified: + type: file + description: | + Reads classified to belong to any of the taxa + on the Kraken2 database. + pattern: "*{fastq.gz}" + - unclassified: + type: file + description: | + Reads not classified to belong to any of the taxa + on the Kraken2 database. + pattern: "*{fastq.gz}" + - txt: + type: file + description: | + Kraken2 report containing stats about classified + and not classifed reads. + pattern: "*.{report.txt}" + - version: + type: file + description: File containing software version + pattern: "*.{version.txt}" +authors: + - "@joseespinosa" + - "@drpatelh" diff --git a/software/methyldackel/extract/main.nf b/software/methyldackel/extract/main.nf index a8ae868c..05b425ad 100644 --- a/software/methyldackel/extract/main.nf +++ b/software/methyldackel/extract/main.nf @@ -11,11 +11,11 @@ process METHYLDACKEL_EXTRACT { mode: params.publish_dir_mode, saveAs: { filename -> saveFiles(filename:filename, options:params.options, publish_dir:getSoftwareName(task.process), publish_id:meta.id) } - conda (params.enable_conda ? "bioconda::methyldackel=0.5.0" : null) + conda (params.enable_conda ? "bioconda::methyldackel=0.5.2" : null) if (workflow.containerEngine == 'singularity' && !params.singularity_pull_docker_container) { - container "https://depot.galaxyproject.org/singularity/methyldackel:0.5.0--hed50d52_0" + container "https://depot.galaxyproject.org/singularity/methyldackel:0.5.2--h7435645_0" } else { - container "quay.io/biocontainers/methyldackel:0.5.0--hed50d52_0" + container "quay.io/biocontainers/methyldackel:0.5.2--h7435645_0" } input: diff --git a/software/methyldackel/extract/meta.yml b/software/methyldackel/extract/meta.yml index 801a4696..525ddebe 100644 --- a/software/methyldackel/extract/meta.yml +++ b/software/methyldackel/extract/meta.yml @@ -17,27 +17,6 @@ tools: homepage: https://github.com/brentp/bwa-meth documentation: https://github.com/brentp/bwa-meth arxiv: arXiv:1401.1129 -params: - - outdir: - type: string - description: | - The pipeline's output directory. By default, the module will - output files into `$params.outdir/` - - publish_dir_mode: - type: string - description: | - Value for the Nextflow `publishDir` mode parameter. - Available: symlink, rellink, link, copy, copyNoFollow, move. - - enable_conda: - type: boolean - description: | - Run the module with Conda using the software specified - via the `conda` directive - - singularity_pull_docker_container: - type: boolean - description: | - Instead of directly downloading Singularity images for use with Singularity, - force the workflow to pull and convert Docker containers instead. input: - meta: type: map diff --git a/software/methyldackel/mbias/main.nf b/software/methyldackel/mbias/main.nf index 3e432719..19d420ea 100644 --- a/software/methyldackel/mbias/main.nf +++ b/software/methyldackel/mbias/main.nf @@ -11,11 +11,11 @@ process METHYLDACKEL_MBIAS { mode: params.publish_dir_mode, saveAs: { filename -> saveFiles(filename:filename, options:params.options, publish_dir:getSoftwareName(task.process), publish_id:meta.id) } - conda (params.enable_conda ? "bioconda::methyldackel=0.5.0" : null) + conda (params.enable_conda ? "bioconda::methyldackel=0.5.2" : null) if (workflow.containerEngine == 'singularity' && !params.singularity_pull_docker_container) { - container "https://depot.galaxyproject.org/singularity/methyldackel:0.5.0--hed50d52_0" + container "https://depot.galaxyproject.org/singularity/methyldackel:0.5.2--h7435645_0" } else { - container "quay.io/biocontainers/methyldackel:0.5.0--hed50d52_0" + container "quay.io/biocontainers/methyldackel:0.5.2--h7435645_0" } input: diff --git a/software/methyldackel/mbias/meta.yml b/software/methyldackel/mbias/meta.yml index f72a11be..e41d0208 100644 --- a/software/methyldackel/mbias/meta.yml +++ b/software/methyldackel/mbias/meta.yml @@ -18,27 +18,6 @@ tools: homepage: https://github.com/brentp/bwa-meth documentation: https://github.com/brentp/bwa-meth arxiv: arXiv:1401.1129 -params: - - outdir: - type: string - description: | - The pipeline's output directory. By default, the module will - output files into `$params.outdir/` - - publish_dir_mode: - type: string - description: | - Value for the Nextflow `publishDir` mode parameter. - Available: symlink, rellink, link, copy, copyNoFollow, move. - - enable_conda: - type: boolean - description: | - Run the module with Conda using the software specified - via the `conda` directive - - singularity_pull_docker_container: - type: boolean - description: | - Instead of directly downloading Singularity images for use with Singularity, - force the workflow to pull and convert Docker containers instead. input: - meta: type: map diff --git a/software/minia/functions.nf b/software/minia/functions.nf new file mode 100644 index 00000000..d25eea86 --- /dev/null +++ b/software/minia/functions.nf @@ -0,0 +1,59 @@ +/* + * ----------------------------------------------------- + * Utility functions used in nf-core DSL2 module files + * ----------------------------------------------------- + */ + +/* + * Extract name of software tool from process name using $task.process + */ +def getSoftwareName(task_process) { + return task_process.tokenize(':')[-1].tokenize('_')[0].toLowerCase() +} + +/* + * Function to initialise default values and to generate a Groovy Map of available options for nf-core modules + */ +def initOptions(Map args) { + def Map options = [:] + options.args = args.args ?: '' + options.args2 = args.args2 ?: '' + options.publish_by_id = args.publish_by_id ?: false + options.publish_dir = args.publish_dir ?: '' + options.publish_files = args.publish_files + options.suffix = args.suffix ?: '' + return options +} + +/* + * Tidy up and join elements of a list to return a path string + */ +def getPathFromList(path_list) { + def paths = path_list.findAll { item -> !item?.trim().isEmpty() } // Remove empty entries + paths = paths.collect { it.trim().replaceAll("^[/]+|[/]+\$", "") } // Trim whitespace and trailing slashes + return paths.join('/') +} + +/* + * Function to save/publish module results + */ +def saveFiles(Map args) { + if (!args.filename.endsWith('.version.txt')) { + def ioptions = initOptions(args.options) + def path_list = [ ioptions.publish_dir ?: args.publish_dir ] + if (ioptions.publish_by_id) { + path_list.add(args.publish_id) + } + if (ioptions.publish_files instanceof Map) { + for (ext in ioptions.publish_files) { + if (args.filename.endsWith(ext.key)) { + def ext_list = path_list.collect() + ext_list.add(ext.value) + return "${getPathFromList(ext_list)}/$args.filename" + } + } + } else if (ioptions.publish_files == null) { + return "${getPathFromList(path_list)}/$args.filename" + } + } +} diff --git a/software/minia/main.nf b/software/minia/main.nf new file mode 100644 index 00000000..b2b4df8f --- /dev/null +++ b/software/minia/main.nf @@ -0,0 +1,41 @@ +// Import generic module functions +include { initOptions; saveFiles; getSoftwareName } from './functions' + +params.options = [:] +def options = initOptions(params.options) +process MINIA { + tag "$meta.id" + label 'process_high' + publishDir "${params.outdir}", + mode: params.publish_dir_mode, + saveAs: { filename -> saveFiles(filename:filename, options:params.options, publish_dir:getSoftwareName(task.process), publish_id:meta.id) } + + conda (params.enable_conda ? "bioconda::minia=3.2.4" : null) + if (workflow.containerEngine == 'singularity' && !params.singularity_pull_docker_container) { + container "https://depot.galaxyproject.org/singularity/minia:3.2.4--he513fc3_0" + } else { + container "quay.io/biocontainers/minia:3.2.4--he513fc3_0" + } + + input: + tuple val(meta), path(reads) + + output: + tuple val(meta), path('*.contigs.fa'), emit: contigs + tuple val(meta), path('*.unitigs.fa'), emit: unitigs + tuple val(meta), path('*.h5') , emit: h5 + path '*.version.txt' , emit: version + + script: + def software = getSoftwareName(task.process) + def prefix = options.suffix ? "${meta.id}${options.suffix}" : "${meta.id}" + """ + echo "${reads.join("\n")}" > input_files.txt + minia \\ + $options.args \\ + -nb-cores $task.cpus \\ + -in input_files.txt \\ + -out $prefix + echo \$(minia --version 2>&1) | sed 's/^.*Minia version //; s/ .*\$//' > ${software}.version.txt + """ +} diff --git a/software/minia/meta.yml b/software/minia/meta.yml new file mode 100644 index 00000000..d3a76be8 --- /dev/null +++ b/software/minia/meta.yml @@ -0,0 +1,46 @@ +name: minia +description: Minia is a short-read assembler based on a de Bruijn graph +keywords: + - assembly +tools: + - minia: + description: | + Minia is a short-read assembler based on a de Bruijn graph, capable of assembling + a human genome on a desktop computer in a day. The output of Minia is a set of contigs. + homepage: https://github.com/GATB/minia + documentation: https://github.com/GATB/minia +input: + - meta: + type: map + description: | + Groovy Map containing sample information + e.g. [ id:'test', single_end:false ] + - reads: + type: file + description: Input reads in FastQ format + pattern: "*.{fastq.gz, fastq}" +output: + - meta: + type: map + description: | + Groovy Map containing sample information + e.g. [ id:'test', single_end:false ] + - contigs: + type: file + description: The assembled contigs + pattern: "*.contigs.fa" + - unitigs: + type: file + description: The assembled unitigs + pattern: "*.unitigs.fa" + - h5: + type: file + description: Minia output h5 file + pattern: "*{.h5}" + - version: + type: file + description: File containing software version + pattern: "*.{version.txt}" +authors: + - "@drpatelh" + - "@kevinmenden" diff --git a/software/minimap2/align/meta.yml b/software/minimap2/align/meta.yml index 64c9dc3a..3c741b16 100644 --- a/software/minimap2/align/meta.yml +++ b/software/minimap2/align/meta.yml @@ -13,27 +13,6 @@ tools: A versatile pairwise aligner for genomic and spliced nucleotide sequences. homepage: https://github.com/lh3/minimap2 documentation: https://github.com/lh3/minimap2#uguide -params: - - outdir: - type: string - description: | - The pipeline's output directory. By default, the module will - output files into `$params.outdir/` - - publish_dir_mode: - type: string - description: | - Value for the Nextflow `publishDir` mode parameter. - Available: symlink, rellink, link, copy, copyNoFollow, move. - - enable_conda: - type: boolean - description: | - Run the module with Conda using the software specified - via the `conda` directive - - singularity_pull_docker_container: - type: boolean - description: | - Instead of directly downloading Singularity images for use with Singularity, - force the workflow to pull and convert Docker containers instead. input: - meta: type: map diff --git a/software/mosdepth/meta.yml b/software/mosdepth/meta.yml index 7a822894..d96e474f 100644 --- a/software/mosdepth/meta.yml +++ b/software/mosdepth/meta.yml @@ -11,27 +11,6 @@ tools: Fast BAM/CRAM depth calculation for WGS, exome, or targeted sequencing. documentation: https://github.com/brentp/mosdepth doi: 10.1093/bioinformatics/btx699 -params: - - outdir: - type: string - description: | - The pipeline's output directory. By default, the module will - output files into `$params.outdir/` - - publish_dir_mode: - type: string - description: | - Value for the Nextflow `publishDir` mode parameter. - Available: symlink, rellink, link, copy, copyNoFollow, move. - - enable_conda: - type: boolean - description: | - Run the module with Conda using the software specified - via the `conda` directive - - singularity_pull_docker_container: - type: boolean - description: | - Instead of directly downloading Singularity images for use with Singularity, - force the workflow to pull and convert Docker containers instead. input: - meta: type: map diff --git a/software/msisensor/msi/functions.nf b/software/msisensor/msi/functions.nf new file mode 100644 index 00000000..f177f0c8 --- /dev/null +++ b/software/msisensor/msi/functions.nf @@ -0,0 +1,60 @@ +/* + * ----------------------------------------------------- + * Utility functions used in nf-core DSL2 module files + * ----------------------------------------------------- + */ + +/* + * Extract name of software tool from process name using $task.process + */ +def getSoftwareName(task_process) { + return task_process.tokenize(':')[-1].tokenize('_')[0].toLowerCase() +} + +/* + * Function to initialise default values and to generate a Groovy Map of available options for nf-core modules + */ +def initOptions(Map args) { + def Map options = [:] + options.args = args.args ?: '' + options.args2 = args.args2 ?: '' + options.args3 = args.args3 ?: '' + options.publish_by_id = args.publish_by_id ?: false + options.publish_dir = args.publish_dir ?: '' + options.publish_files = args.publish_files + options.suffix = args.suffix ?: '' + return options +} + +/* + * Tidy up and join elements of a list to return a path string + */ +def getPathFromList(path_list) { + def paths = path_list.findAll { item -> !item?.trim().isEmpty() } // Remove empty entries + paths = paths.collect { it.trim().replaceAll("^[/]+|[/]+\$", "") } // Trim whitespace and trailing slashes + return paths.join('/') +} + +/* + * Function to save/publish module results + */ +def saveFiles(Map args) { + if (!args.filename.endsWith('.version.txt')) { + def ioptions = initOptions(args.options) + def path_list = [ ioptions.publish_dir ?: args.publish_dir ] + if (ioptions.publish_by_id) { + path_list.add(args.publish_id) + } + if (ioptions.publish_files instanceof Map) { + for (ext in ioptions.publish_files) { + if (args.filename.endsWith(ext.key)) { + def ext_list = path_list.collect() + ext_list.add(ext.value) + return "${getPathFromList(ext_list)}/$args.filename" + } + } + } else if (ioptions.publish_files == null) { + return "${getPathFromList(path_list)}/$args.filename" + } + } +} diff --git a/software/msisensor/msi/main.nf b/software/msisensor/msi/main.nf new file mode 100644 index 00000000..d89624a7 --- /dev/null +++ b/software/msisensor/msi/main.nf @@ -0,0 +1,45 @@ +// Import generic module functions +include { initOptions; saveFiles; getSoftwareName } from './functions' + +params.options = [:] +options = initOptions(params.options) + +process MSISENSOR_MSI { + tag "$meta.id" + label 'process_low' + publishDir "${params.outdir}", + mode: params.publish_dir_mode, + saveAs: { filename -> saveFiles(filename:filename, options:params.options, publish_dir:getSoftwareName(task.process), publish_id:meta.id) } + + conda (params.enable_conda ? "bioconda::msisensor=0.5" : null) + if (workflow.containerEngine == 'singularity' && !params.singularity_pull_docker_container) { + container "https://depot.galaxyproject.org/singularity/msisensor:0.5--hb3646a4_2" + } else { + container "quay.io/biocontainers/msisensor:0.5--hb3646a4_2" + } + + input: + tuple val(meta), path(normal_bam), path(normal_bai), path(tumor_bam), path(tumor_bai), val(metascan), path(homopolymers) + + output: + tuple val(meta), path("${prefix}") , emit: output + tuple val(meta), path("${prefix}_dis") , emit: output_dis + tuple val(meta), path("${prefix}_germline"), emit: output_germline + tuple val(meta), path("${prefix}_somatic") , emit: output_somatic + path "*.version.txt" , emit: version + + script: + def software = getSoftwareName(task.process) + prefix = options.suffix ? "${meta.id}${options.suffix}" : "${meta.id}" + """ + msisensor \\ + msi \\ + -d $homopolymers \\ + -n $normal_bam \\ + -t $tumor_bam \\ + -o $prefix \\ + $options.args + + echo \$(msisensor 2>&1) | sed -nE 's/Version:\\sv([0-9]\\.[0-9])/\\1/ p' > ${software}.version.txt + """ +} diff --git a/software/msisensor/msi/meta.yml b/software/msisensor/msi/meta.yml new file mode 100644 index 00000000..214f90e6 --- /dev/null +++ b/software/msisensor/msi/meta.yml @@ -0,0 +1,69 @@ +name: msisensor_msi + +description: Evaluate microsattelite instability (MSI) using paired tumor-normal sequencing data +keywords: + - homoploymer,microsatellite +tools: + - msisensor: + description: MSIsensor is a C++ program to detect replication slippage variants at microsatellite regions, and differentiate them as somatic or germline. + homepage: https://github.com/ding-lab/msisensor + documentation: None + tool_dev_url: None + doi: "10.1093/bioinformatics/btt755" + licence: ['MIT'] + +input: + - meta: + type: map + description: | + Groovy Map containing sample information + e.g. [ id:'test', single_end:false ] + - normal_bam: + type: file + description: Coordinate sorted BAM/CRAM/SAM file from normal tissue + pattern: "*.{bam,cram,sam}" + - normal_bai: + type: file + description: Index for coordinate sorted BAM/CRAM/SAM file from normal tissue + pattern: "*.{bam,cram,sam}" + - tumor_bam: + type: file + description: Coordinate sorted BAM/CRAM/SAM file from tumor tissue + pattern: "*.{bam,cram,sam}" + - tumor_bai: + type: file + description: Index for coordinate sorted BAM/CRAM/SAM file from tumor tissue + pattern: "*.{bam,cram,sam}" + - homopolymers: + type: file + description: Output file from MSIsensor scan module + pattern: "*.msisensor_scan.tab" + +output: + - meta: + type: map + description: | + Groovy Map containing sample information + e.g. [ id:'test', single_end:false ] + - version: + type: file + description: File containing software version + pattern: "*.{version.txt}" + - txt: + type: file + description: MSIsensor MSI final report file + pattern: "*.output" + - txt: + type: file + description: MSIsensor MSI DIS report file + pattern: "*.output_dis" + - txt: + type: file + description: MSIsensor MSI germline report file + pattern: "*.output_germline" + - txt: + type: file + description: MSIsensor MSI somatic report file + pattern: "*.output_somatic" +authors: + - "@kevbrick" diff --git a/software/msisensor/scan/functions.nf b/software/msisensor/scan/functions.nf new file mode 100644 index 00000000..f177f0c8 --- /dev/null +++ b/software/msisensor/scan/functions.nf @@ -0,0 +1,60 @@ +/* + * ----------------------------------------------------- + * Utility functions used in nf-core DSL2 module files + * ----------------------------------------------------- + */ + +/* + * Extract name of software tool from process name using $task.process + */ +def getSoftwareName(task_process) { + return task_process.tokenize(':')[-1].tokenize('_')[0].toLowerCase() +} + +/* + * Function to initialise default values and to generate a Groovy Map of available options for nf-core modules + */ +def initOptions(Map args) { + def Map options = [:] + options.args = args.args ?: '' + options.args2 = args.args2 ?: '' + options.args3 = args.args3 ?: '' + options.publish_by_id = args.publish_by_id ?: false + options.publish_dir = args.publish_dir ?: '' + options.publish_files = args.publish_files + options.suffix = args.suffix ?: '' + return options +} + +/* + * Tidy up and join elements of a list to return a path string + */ +def getPathFromList(path_list) { + def paths = path_list.findAll { item -> !item?.trim().isEmpty() } // Remove empty entries + paths = paths.collect { it.trim().replaceAll("^[/]+|[/]+\$", "") } // Trim whitespace and trailing slashes + return paths.join('/') +} + +/* + * Function to save/publish module results + */ +def saveFiles(Map args) { + if (!args.filename.endsWith('.version.txt')) { + def ioptions = initOptions(args.options) + def path_list = [ ioptions.publish_dir ?: args.publish_dir ] + if (ioptions.publish_by_id) { + path_list.add(args.publish_id) + } + if (ioptions.publish_files instanceof Map) { + for (ext in ioptions.publish_files) { + if (args.filename.endsWith(ext.key)) { + def ext_list = path_list.collect() + ext_list.add(ext.value) + return "${getPathFromList(ext_list)}/$args.filename" + } + } + } else if (ioptions.publish_files == null) { + return "${getPathFromList(path_list)}/$args.filename" + } + } +} diff --git a/software/msisensor/scan/main.nf b/software/msisensor/scan/main.nf new file mode 100644 index 00000000..3030560b --- /dev/null +++ b/software/msisensor/scan/main.nf @@ -0,0 +1,40 @@ +// Import generic module functions +include { initOptions; saveFiles; getSoftwareName } from './functions' + +params.options = [:] +options = initOptions(params.options) + +process MSISENSOR_SCAN { + tag "$meta.id" + label 'process_low' + publishDir "${params.outdir}", + mode: params.publish_dir_mode, + saveAs: { filename -> saveFiles(filename:filename, options:params.options, publish_dir:getSoftwareName(task.process), publish_id:meta.id) } + + conda (params.enable_conda ? "bioconda::msisensor=0.5" : null) + if (workflow.containerEngine == 'singularity' && !params.singularity_pull_docker_container) { + container "https://depot.galaxyproject.org/singularity/msisensor:0.5--hb3646a4_2" + } else { + container "quay.io/biocontainers/msisensor:0.5--hb3646a4_2" + } + + input: + tuple val(meta), path(fasta) + + output: + tuple (val(meta), path("*.tab"), emit: txt) + path ("*.version.txt" , emit: version) + + script: + def software = getSoftwareName(task.process) + def prefix = options.suffix ? "${meta.id}${options.suffix}" : "${meta.id}" + """ + msisensor \\ + scan \\ + -d $fasta \\ + -o ${prefix}.msisensor_scan.tab \\ + $options.args + + echo \$(msisensor 2>&1) | sed -nE 's/Version:\\sv([0-9]\\.[0-9])/\\1/ p' > ${software}.version.txt + """ +} diff --git a/software/msisensor/scan/meta.yml b/software/msisensor/scan/meta.yml new file mode 100644 index 00000000..2e4f8f18 --- /dev/null +++ b/software/msisensor/scan/meta.yml @@ -0,0 +1,42 @@ +name: msisensor_scan + +description: Scan a reference genome to get microsatellite & homopolymer information +keywords: + - homoploymer,microsatellite +tools: + - msisensor: + description: MSIsensor is a C++ program to detect replication slippage variants at microsatellite regions, and differentiate them as somatic or germline. + homepage: https://github.com/ding-lab/msisensor + documentation: None + tool_dev_url: None + doi: "10.1093/bioinformatics/btt755" + licence: ['MIT'] + +input: + - meta: + type: map + description: | + Groovy Map containing sample information + e.g. [ id:'test', single_end:false ] + - fasta: + type: file + description: FASTA file + pattern: "*.{fa,fasta}" + +output: + - meta: + type: map + description: | + Groovy Map containing sample information + e.g. [ id:'test', single_end:false ] + - version: + type: file + description: File containing software version + pattern: "*.{version.txt}" + - txt: + type: file + description: MSIsensor scan output file of homopolymers & minisatellites + pattern: "*.msisensor_scan.txt" + +authors: + - "@kevbrick" diff --git a/software/multiqc/meta.yml b/software/multiqc/meta.yml index 02f4b415..532a8bb1 100644 --- a/software/multiqc/meta.yml +++ b/software/multiqc/meta.yml @@ -11,27 +11,6 @@ tools: It's a general use tool, perfect for summarising the output from numerous bioinformatics tools. homepage: https://multiqc.info/ documentation: https://multiqc.info/docs/ -params: - - outdir: - type: string - description: | - The pipeline's output directory. By default, the module will - output files into `$params.outdir/` - - publish_dir_mode: - type: string - description: | - Value for the Nextflow `publishDir` mode parameter. - Available: symlink, rellink, link, copy, copyNoFollow, move. - - enable_conda: - type: boolean - description: | - Run the module with Conda using the software specified - via the `conda` directive - - singularity_pull_docker_container: - type: boolean - description: | - Instead of directly downloading Singularity images for use with Singularity, - force the workflow to pull and convert Docker containers instead. input: - multiqc_files: type: file diff --git a/software/optitype/functions.nf b/software/optitype/functions.nf new file mode 100644 index 00000000..f177f0c8 --- /dev/null +++ b/software/optitype/functions.nf @@ -0,0 +1,60 @@ +/* + * ----------------------------------------------------- + * Utility functions used in nf-core DSL2 module files + * ----------------------------------------------------- + */ + +/* + * Extract name of software tool from process name using $task.process + */ +def getSoftwareName(task_process) { + return task_process.tokenize(':')[-1].tokenize('_')[0].toLowerCase() +} + +/* + * Function to initialise default values and to generate a Groovy Map of available options for nf-core modules + */ +def initOptions(Map args) { + def Map options = [:] + options.args = args.args ?: '' + options.args2 = args.args2 ?: '' + options.args3 = args.args3 ?: '' + options.publish_by_id = args.publish_by_id ?: false + options.publish_dir = args.publish_dir ?: '' + options.publish_files = args.publish_files + options.suffix = args.suffix ?: '' + return options +} + +/* + * Tidy up and join elements of a list to return a path string + */ +def getPathFromList(path_list) { + def paths = path_list.findAll { item -> !item?.trim().isEmpty() } // Remove empty entries + paths = paths.collect { it.trim().replaceAll("^[/]+|[/]+\$", "") } // Trim whitespace and trailing slashes + return paths.join('/') +} + +/* + * Function to save/publish module results + */ +def saveFiles(Map args) { + if (!args.filename.endsWith('.version.txt')) { + def ioptions = initOptions(args.options) + def path_list = [ ioptions.publish_dir ?: args.publish_dir ] + if (ioptions.publish_by_id) { + path_list.add(args.publish_id) + } + if (ioptions.publish_files instanceof Map) { + for (ext in ioptions.publish_files) { + if (args.filename.endsWith(ext.key)) { + def ext_list = path_list.collect() + ext_list.add(ext.value) + return "${getPathFromList(ext_list)}/$args.filename" + } + } + } else if (ioptions.publish_files == null) { + return "${getPathFromList(path_list)}/$args.filename" + } + } +} diff --git a/software/optitype/main.nf b/software/optitype/main.nf new file mode 100644 index 00000000..75cf54b5 --- /dev/null +++ b/software/optitype/main.nf @@ -0,0 +1,53 @@ +// Import generic module functions +include { initOptions; saveFiles; getSoftwareName } from './functions' + +params.options = [:] +options = initOptions(params.options) + +process OPTITYPE { + tag "$meta.id" + label 'process_medium' + publishDir "${params.outdir}", + mode: params.publish_dir_mode, + saveAs: { filename -> saveFiles(filename:filename, options:params.options, publish_dir:getSoftwareName(task.process), publish_id:meta.id) } + + conda (params.enable_conda ? "bioconda::optitype=1.3.5" : null) + if (workflow.containerEngine == 'singularity' && !params.singularity_pull_docker_container) { + container "https://depot.galaxyproject.org/singularity/optitype:1.3.5--0" + } else { + container "quay.io/biocontainers/optitype:1.3.5--0" + } + + input: + tuple val(meta), path(bam) + + output: + tuple val(meta), path("${prefix}"), emit: output + path "*.version.txt" , emit: version + + script: + def software = getSoftwareName(task.process) + prefix = options.suffix ? "${meta.id}${options.suffix}" : "${meta.id}" + + """ + # Create a config for OptiType on a per sample basis with options.args2 + + #Doing it old school now + echo "[mapping]" > config.ini + echo "razers3=razers3" >> config.ini + echo "threads=$task.cpus" >> config.ini + echo "[ilp]" >> config.ini + echo "$options.args2" >> config.ini + echo "threads=1" >> config.ini + echo "[behavior]" >> config.ini + echo "deletebam=true" >> config.ini + echo "unpaired_weight=0" >> config.ini + echo "use_discordant=false" >> config.ini + + # Run the actual OptiType typing with options.args + OptiTypePipeline.py -i ${bam} -c config.ini --${meta.seq_type} $options.args --prefix $prefix --outdir $prefix + + #Couldn't find a nicer way of doing this + cat \$(which OptiTypePipeline.py) | grep -e "Version:" | sed -e "s/Version: //g" > ${software}.version.txt + """ +} diff --git a/software/optitype/meta.yml b/software/optitype/meta.yml new file mode 100644 index 00000000..734c4f77 --- /dev/null +++ b/software/optitype/meta.yml @@ -0,0 +1,46 @@ +name: optitype +description: Perform HLA-I typing of sequencing data +keywords: + - hla-typing + - ILP + - HLA-I +tools: + - optitype: + description: Precision HLA typing from next-generation sequencing data + homepage: https://github.com/FRED-2/OptiType + documentation: https://github.com/FRED-2/OptiType + doi: "10.1093/bioinformatics/btu548" + licence: ['BSD'] + +input: + - meta: + type: map + description: | + Groovy Map containing sample information + e.g. [ id:'test', single_end:false ] + - bam: + type: file + description: BAM file + pattern: "*.{bam}" + +output: + - meta: + type: map + description: | + Groovy Map containing sample information + e.g. [ id:'test', seq_type:'DNA' ] + - version: + type: file + description: File containing software version + pattern: "*.{version.txt}" + - output: + type: file + description: OptiType Results Folder + pattern: "${prefix}" + - pdf: + type: file + description: OptiType PDF Plots + pattern: "*.pdf" + +authors: + - "@apeltzer" diff --git a/software/pangolin/meta.yml b/software/pangolin/meta.yml index 82e157d9..2b2eb952 100644 --- a/software/pangolin/meta.yml +++ b/software/pangolin/meta.yml @@ -10,27 +10,6 @@ tools: Phylogenetic Assignment of Named Global Outbreak LINeages homepage: https://github.com/cov-lineages/pangolin#pangolearn-description manual: https://github.com/cov-lineages/pangolin#pangolearn-description -params: - - outdir: - type: string - description: | - The pipeline's output directory. By default, the module will - output files into `$params.outdir/` - - publish_dir_mode: - type: string - description: | - Value for the Nextflow `publishDir` mode parameter. - Available: symlink, rellink, link, copy, copyNoFollow, move. - - enable_conda: - type: boolean - description: | - Run the module with Conda using the software specified - via the `conda` directive - - singularity_pull_docker_container: - type: boolean - description: | - Instead of directly downloading Singularity images for use with Singularity, - force the workflow to pull and convert Docker containers instead. input: - meta: type: map diff --git a/software/picard/collectmultiplemetrics/meta.yml b/software/picard/collectmultiplemetrics/meta.yml index acdbdfec..34006093 100644 --- a/software/picard/collectmultiplemetrics/meta.yml +++ b/software/picard/collectmultiplemetrics/meta.yml @@ -14,27 +14,6 @@ tools: data and formats such as SAM/BAM/CRAM and VCF. homepage: https://broadinstitute.github.io/picard/ documentation: https://broadinstitute.github.io/picard/ -params: - - outdir: - type: string - description: | - The pipeline's output directory. By default, the module will - output files into `$params.outdir/` - - publish_dir_mode: - type: string - description: | - Value for the Nextflow `publishDir` mode parameter. - Available: symlink, rellink, link, copy, copyNoFollow, move. - - enable_conda: - type: boolean - description: | - Run the module with Conda using the software specified - via the `conda` directive - - singularity_pull_docker_container: - type: boolean - description: | - Instead of directly downloading Singularity images for use with Singularity, - force the workflow to pull and convert Docker containers instead. input: - meta: type: map diff --git a/software/picard/collectwgsmetrics/functions.nf b/software/picard/collectwgsmetrics/functions.nf new file mode 100644 index 00000000..f177f0c8 --- /dev/null +++ b/software/picard/collectwgsmetrics/functions.nf @@ -0,0 +1,60 @@ +/* + * ----------------------------------------------------- + * Utility functions used in nf-core DSL2 module files + * ----------------------------------------------------- + */ + +/* + * Extract name of software tool from process name using $task.process + */ +def getSoftwareName(task_process) { + return task_process.tokenize(':')[-1].tokenize('_')[0].toLowerCase() +} + +/* + * Function to initialise default values and to generate a Groovy Map of available options for nf-core modules + */ +def initOptions(Map args) { + def Map options = [:] + options.args = args.args ?: '' + options.args2 = args.args2 ?: '' + options.args3 = args.args3 ?: '' + options.publish_by_id = args.publish_by_id ?: false + options.publish_dir = args.publish_dir ?: '' + options.publish_files = args.publish_files + options.suffix = args.suffix ?: '' + return options +} + +/* + * Tidy up and join elements of a list to return a path string + */ +def getPathFromList(path_list) { + def paths = path_list.findAll { item -> !item?.trim().isEmpty() } // Remove empty entries + paths = paths.collect { it.trim().replaceAll("^[/]+|[/]+\$", "") } // Trim whitespace and trailing slashes + return paths.join('/') +} + +/* + * Function to save/publish module results + */ +def saveFiles(Map args) { + if (!args.filename.endsWith('.version.txt')) { + def ioptions = initOptions(args.options) + def path_list = [ ioptions.publish_dir ?: args.publish_dir ] + if (ioptions.publish_by_id) { + path_list.add(args.publish_id) + } + if (ioptions.publish_files instanceof Map) { + for (ext in ioptions.publish_files) { + if (args.filename.endsWith(ext.key)) { + def ext_list = path_list.collect() + ext_list.add(ext.value) + return "${getPathFromList(ext_list)}/$args.filename" + } + } + } else if (ioptions.publish_files == null) { + return "${getPathFromList(path_list)}/$args.filename" + } + } +} diff --git a/software/picard/collectwgsmetrics/main.nf b/software/picard/collectwgsmetrics/main.nf new file mode 100644 index 00000000..9469d7e1 --- /dev/null +++ b/software/picard/collectwgsmetrics/main.nf @@ -0,0 +1,49 @@ +// Import generic module functions +include { initOptions; saveFiles; getSoftwareName } from './functions' + +params.options = [:] +options = initOptions(params.options) + +process PICARD_COLLECTWGSMETRICS { + tag "$meta.id" + label 'process_medium' + publishDir "${params.outdir}", + mode: params.publish_dir_mode, + saveAs: { filename -> saveFiles(filename:filename, options:params.options, publish_dir:getSoftwareName(task.process), publish_id:meta.id) } + + conda (params.enable_conda ? "bioconda::picard=2.25.0" : null) + if (workflow.containerEngine == 'singularity' && !params.singularity_pull_docker_container) { + container "https://depot.galaxyproject.org/singularity/picard:2.25.0--0" + } else { + container "quay.io/biocontainers/picard:2.25.0--0" + } + + input: + tuple val(meta), path(bam), path(bai) + path fasta + + output: + tuple val(meta), path("*_metrics"), emit: metrics + path "*.version.txt" , emit: version + + script: + def software = getSoftwareName(task.process) + def prefix = options.suffix ? "${meta.id}${options.suffix}" : "${meta.id}" + def avail_mem = 3 + if (!task.memory) { + log.info '[Picard CollectWgsMetrics] Available memory not known - defaulting to 3GB. Specify process memory requirements to change this.' + } else { + avail_mem = task.memory.giga + } + """ + picard \\ + -Xmx${avail_mem}g \\ + CollectWgsMetrics \\ + $options.args \\ + INPUT=$bam \\ + OUTPUT=${prefix}.CollectWgsMetrics.coverage_metrics \\ + REFERENCE_SEQUENCE=$fasta + + echo \$(picard CollectWgsMetrics --version 2>&1) | grep -o 'Version.*' | cut -f2- -d: > ${software}.version.txt + """ +} diff --git a/software/picard/collectwgsmetrics/meta.yml b/software/picard/collectwgsmetrics/meta.yml new file mode 100644 index 00000000..d8a2d9fb --- /dev/null +++ b/software/picard/collectwgsmetrics/meta.yml @@ -0,0 +1,46 @@ +name: picard_collectwgsmetrics +description: Collect metrics about coverage and performance of whole genome sequencing (WGS) experiments. +keywords: + - alignment + - metrics + - statistics + - quality + - bam +tools: + - picard: + description: | + A set of command line tools (in Java) for manipulating high-throughput sequencing (HTS) + data and formats such as SAM/BAM/CRAM and VCF. + homepage: https://broadinstitute.github.io/picard/ + documentation: https://broadinstitute.github.io/picard/ +input: + - meta: + type: map + description: | + Groovy Map containing sample information + e.g. [ id:'test', single_end:false ] + - bam: + type: file + description: BAM file + pattern: "*.{bam}" + - fasta: + type: file + description: Genome fasta file +output: + - meta: + type: map + description: | + Groovy Map containing sample information + e.g. [ id:'test', single_end:false ] + - metrics: + type: file + description: Alignment metrics files generated by picard + pattern: "*_{metrics}" + - version: + type: file + description: File containing software version + pattern: "*.{version.txt}" +authors: + - "@drpatelh" + - "@flowuenne" + - "@lassefolkersen" diff --git a/software/picard/markduplicates/meta.yml b/software/picard/markduplicates/meta.yml index d9d8619a..6420ce9a 100644 --- a/software/picard/markduplicates/meta.yml +++ b/software/picard/markduplicates/meta.yml @@ -14,27 +14,6 @@ tools: data and formats such as SAM/BAM/CRAM and VCF. homepage: https://broadinstitute.github.io/picard/ documentation: https://broadinstitute.github.io/picard/ -params: - - outdir: - type: string - description: | - The pipeline's output directory. By default, the module will - output files into `$params.outdir/` - - publish_dir_mode: - type: string - description: | - Value for the Nextflow `publishDir` mode parameter. - Available: symlink, rellink, link, copy, copyNoFollow, move. - - enable_conda: - type: boolean - description: | - Run the module with Conda using the software specified - via the `conda` directive - - singularity_pull_docker_container: - type: boolean - description: | - Instead of directly downloading Singularity images for use with Singularity, - force the workflow to pull and convert Docker containers instead. input: - meta: type: map diff --git a/software/picard/mergesamfiles/meta.yml b/software/picard/mergesamfiles/meta.yml index 090432b7..4ea9fd17 100644 --- a/software/picard/mergesamfiles/meta.yml +++ b/software/picard/mergesamfiles/meta.yml @@ -12,27 +12,6 @@ tools: data and formats such as SAM/BAM/CRAM and VCF. homepage: https://broadinstitute.github.io/picard/ documentation: https://broadinstitute.github.io/picard/ -params: - - outdir: - type: string - description: | - The pipeline's output directory. By default, the module will - output files into `$params.outdir/` - - publish_dir_mode: - type: string - description: | - Value for the Nextflow `publishDir` mode parameter. - Available: symlink, rellink, link, copy, copyNoFollow, move. - - enable_conda: - type: boolean - description: | - Run the module with Conda using the software specified - via the `conda` directive - - singularity_pull_docker_container: - type: boolean - description: | - Instead of directly downloading Singularity images for use with Singularity, - force the workflow to pull and convert Docker containers instead. input: - meta: type: map diff --git a/software/prodigal/functions.nf b/software/prodigal/functions.nf new file mode 100644 index 00000000..f177f0c8 --- /dev/null +++ b/software/prodigal/functions.nf @@ -0,0 +1,60 @@ +/* + * ----------------------------------------------------- + * Utility functions used in nf-core DSL2 module files + * ----------------------------------------------------- + */ + +/* + * Extract name of software tool from process name using $task.process + */ +def getSoftwareName(task_process) { + return task_process.tokenize(':')[-1].tokenize('_')[0].toLowerCase() +} + +/* + * Function to initialise default values and to generate a Groovy Map of available options for nf-core modules + */ +def initOptions(Map args) { + def Map options = [:] + options.args = args.args ?: '' + options.args2 = args.args2 ?: '' + options.args3 = args.args3 ?: '' + options.publish_by_id = args.publish_by_id ?: false + options.publish_dir = args.publish_dir ?: '' + options.publish_files = args.publish_files + options.suffix = args.suffix ?: '' + return options +} + +/* + * Tidy up and join elements of a list to return a path string + */ +def getPathFromList(path_list) { + def paths = path_list.findAll { item -> !item?.trim().isEmpty() } // Remove empty entries + paths = paths.collect { it.trim().replaceAll("^[/]+|[/]+\$", "") } // Trim whitespace and trailing slashes + return paths.join('/') +} + +/* + * Function to save/publish module results + */ +def saveFiles(Map args) { + if (!args.filename.endsWith('.version.txt')) { + def ioptions = initOptions(args.options) + def path_list = [ ioptions.publish_dir ?: args.publish_dir ] + if (ioptions.publish_by_id) { + path_list.add(args.publish_id) + } + if (ioptions.publish_files instanceof Map) { + for (ext in ioptions.publish_files) { + if (args.filename.endsWith(ext.key)) { + def ext_list = path_list.collect() + ext_list.add(ext.value) + return "${getPathFromList(ext_list)}/$args.filename" + } + } + } else if (ioptions.publish_files == null) { + return "${getPathFromList(path_list)}/$args.filename" + } + } +} diff --git a/software/prodigal/main.nf b/software/prodigal/main.nf new file mode 100644 index 00000000..207aecbe --- /dev/null +++ b/software/prodigal/main.nf @@ -0,0 +1,46 @@ +// Import generic module functions +include { initOptions; saveFiles; getSoftwareName } from './functions' + +params.options = [:] +options = initOptions(params.options) + +process PRODIGAL { + tag "$meta.id" + label 'process_low' + publishDir "${params.outdir}", + mode: params.publish_dir_mode, + saveAs: { filename -> saveFiles(filename:filename, options:params.options, publish_dir:getSoftwareName(task.process), publish_id:meta.id) } + + conda (params.enable_conda ? "bioconda::prodigal=2.6.3" : null) + if (workflow.containerEngine == 'singularity' && !params.singularity_pull_docker_container) { + container "https://depot.galaxyproject.org/singularity/prodigal:2.6.3--h516909a_2" + } else { + container "quay.io/biocontainers/prodigal:2.6.3--h516909a_2" + } + + input: + tuple val(meta), path(genome) + val(output_format) + + output: + tuple val(meta), path("${prefix}.${output_format}"), emit: gene_annotations + tuple val(meta), path("${prefix}.fna"), emit: nucleotide_fasta + tuple val(meta), path("${prefix}.faa"), emit: amino_acid_fasta + tuple val(meta), path("${prefix}_all.txt"), emit: all_gene_annotations + path "*.version.txt" , emit: version + + script: + def software = getSoftwareName(task.process) + prefix = options.suffix ? "${meta.id}${options.suffix}" : "${meta.id}" + """ + prodigal -i "${genome}" \\ + $options.args \\ + -f $output_format \\ + -d "${prefix}.fna" \\ + -o "${prefix}.${output_format}" \\ + -a "${prefix}.faa" \\ + -s "${prefix}_all.txt" + + echo \$(prodigal -v 2>&1) | sed -n 's/Prodigal V\\(.*\\):.*/\\1/p' > ${software}.version.txt + """ +} diff --git a/software/prodigal/meta.yml b/software/prodigal/meta.yml new file mode 100644 index 00000000..10e0a3eb --- /dev/null +++ b/software/prodigal/meta.yml @@ -0,0 +1,47 @@ +name: prodigal +## TODO nf-core: Add a description of the module and list keywords +description: write your description here +keywords: + - sort +tools: + - prodigal: + ## TODO nf-core: Add a description and other details for the software below + description: Prodigal (Prokaryotic Dynamic Programming Genefinding Algorithm) is a microbial (bacterial and archaeal) gene finding program + homepage: {} + documentation: {} + tool_dev_url: {} + doi: "" + licence: ['GPL v3'] + +## TODO nf-core: Add a description of all of the variables used as input +input: + - meta: + type: map + description: | + Groovy Map containing sample information + e.g. [ id:'test', single_end:false ] + ## TODO nf-core: Delete / customise this example input + - bam: + type: file + description: BAM/CRAM/SAM file + pattern: "*.{bam,cram,sam}" + +## TODO nf-core: Add a description of all of the variables used as output +output: + - meta: + type: map + description: | + Groovy Map containing sample information + e.g. [ id:'test', single_end:false ] + - version: + type: file + description: File containing software version + pattern: "*.{version.txt}" + ## TODO nf-core: Delete / customise this example output + - bam: + type: file + description: Sorted BAM/CRAM/SAM file + pattern: "*.{bam,cram,sam}" + +authors: + - "@grst" diff --git a/software/prokka/functions.nf b/software/prokka/functions.nf new file mode 100644 index 00000000..f177f0c8 --- /dev/null +++ b/software/prokka/functions.nf @@ -0,0 +1,60 @@ +/* + * ----------------------------------------------------- + * Utility functions used in nf-core DSL2 module files + * ----------------------------------------------------- + */ + +/* + * Extract name of software tool from process name using $task.process + */ +def getSoftwareName(task_process) { + return task_process.tokenize(':')[-1].tokenize('_')[0].toLowerCase() +} + +/* + * Function to initialise default values and to generate a Groovy Map of available options for nf-core modules + */ +def initOptions(Map args) { + def Map options = [:] + options.args = args.args ?: '' + options.args2 = args.args2 ?: '' + options.args3 = args.args3 ?: '' + options.publish_by_id = args.publish_by_id ?: false + options.publish_dir = args.publish_dir ?: '' + options.publish_files = args.publish_files + options.suffix = args.suffix ?: '' + return options +} + +/* + * Tidy up and join elements of a list to return a path string + */ +def getPathFromList(path_list) { + def paths = path_list.findAll { item -> !item?.trim().isEmpty() } // Remove empty entries + paths = paths.collect { it.trim().replaceAll("^[/]+|[/]+\$", "") } // Trim whitespace and trailing slashes + return paths.join('/') +} + +/* + * Function to save/publish module results + */ +def saveFiles(Map args) { + if (!args.filename.endsWith('.version.txt')) { + def ioptions = initOptions(args.options) + def path_list = [ ioptions.publish_dir ?: args.publish_dir ] + if (ioptions.publish_by_id) { + path_list.add(args.publish_id) + } + if (ioptions.publish_files instanceof Map) { + for (ext in ioptions.publish_files) { + if (args.filename.endsWith(ext.key)) { + def ext_list = path_list.collect() + ext_list.add(ext.value) + return "${getPathFromList(ext_list)}/$args.filename" + } + } + } else if (ioptions.publish_files == null) { + return "${getPathFromList(path_list)}/$args.filename" + } + } +} diff --git a/software/prokka/main.nf b/software/prokka/main.nf new file mode 100644 index 00000000..24efd32d --- /dev/null +++ b/software/prokka/main.nf @@ -0,0 +1,56 @@ +include { initOptions; saveFiles; getSoftwareName } from './functions' + +params.options = [:] +options = initOptions(params.options) + +process PROKKA { + tag "$meta.id" + label 'process_low' + publishDir "${params.outdir}", + mode: params.publish_dir_mode, + saveAs: { filename -> saveFiles(filename:filename, options:params.options, publish_dir:getSoftwareName(task.process), publish_id:meta.id) } + + conda (params.enable_conda ? "bioconda::prokka=1.14.6" : null) + if (workflow.containerEngine == 'singularity' && !params.singularity_pull_docker_container) { + container "https://depot.galaxyproject.org/singularity/prokka:1.14.6--pl526_0" + } else { + container "quay.io/biocontainers/prokka:1.14.6--pl526_0" + } + + input: + tuple val(meta), path(fasta) + path proteins + path prodigal_tf + + output: + tuple val(meta), path("${prefix}/*.gff"), emit: gff + tuple val(meta), path("${prefix}/*.gbk"), emit: gbk + tuple val(meta), path("${prefix}/*.fna"), emit: fna + tuple val(meta), path("${prefix}/*.faa"), emit: faa + tuple val(meta), path("${prefix}/*.ffn"), emit: ffn + tuple val(meta), path("${prefix}/*.sqn"), emit: sqn + tuple val(meta), path("${prefix}/*.fsa"), emit: fsa + tuple val(meta), path("${prefix}/*.tbl"), emit: tbl + tuple val(meta), path("${prefix}/*.err"), emit: err + tuple val(meta), path("${prefix}/*.log"), emit: log + tuple val(meta), path("${prefix}/*.txt"), emit: txt + tuple val(meta), path("${prefix}/*.tsv"), emit: tsv + path "*.version.txt", emit: version + + script: + def software = getSoftwareName(task.process) + prefix = options.suffix ? "${meta.id}${options.suffix}" : "${meta.id}" + def proteins_opt = proteins ? "--proteins ${proteins[0]}" : "" + def prodigal_opt = prodigal_tf ? "--prodigaltf ${prodigal_tf[0]}" : "" + """ + prokka \\ + $options.args \\ + --cpus $task.cpus \\ + --prefix $prefix \\ + $proteins_opt \\ + $prodigal_tf \\ + $fasta + + echo \$(prokka --version 2>&1) | sed 's/^.*prokka //' > ${software}.version.txt + """ +} diff --git a/software/prokka/meta.yml b/software/prokka/meta.yml new file mode 100644 index 00000000..4489b2fd --- /dev/null +++ b/software/prokka/meta.yml @@ -0,0 +1,91 @@ +name: prokka +description: Whole genome annotation of small genomes (bacterial, archeal, viral) +keywords: + - annotation + - fasta + - prokka +tools: + - prokka: + description: Rapid annotation of prokaryotic genomes + homepage: https://github.com/tseemann/prokka + doi: "10.1093/bioinformatics/btu153" + licence: ['GPL v2'] + +input: + - meta: + type: map + description: | + Groovy Map containing sample information + e.g. [ id:'test', single_end:false ] + - fasta: + type: file + description: | + FASTA file to be annotated. Has to contain at least a non-empty string dummy value. + - proteins: + type: file + description: FASTA file of trusted proteins to first annotate from (optional) + - prodigal_tf: + type: file + description: Training file to use for Prodigal (optional) + +output: + - meta: + type: map + description: | + Groovy Map containing sample information + e.g. [ id:'test', single_end:false ] + - version: + type: file + description: File containing software version + pattern: "*.{version.txt}" + - gff: + type: file + description: annotation in GFF3 format, containing both sequences and annotations + pattern: "*.{gff}" + - gbk: + type: file + description: annotation in GenBank format, containing both sequences and annotations + pattern: "*.{gbk}" + - fna: + type: file + description: nucleotide FASTA file of the input contig sequences + pattern: "*.{fna}" + - faa: + type: file + description: protein FASTA file of the translated CDS sequences + pattern: "*.{faa}" + - ffn: + type: file + description: nucleotide FASTA file of all the prediction transcripts (CDS, rRNA, tRNA, tmRNA, misc_RNA) + pattern: "*.{ffn}" + - sqn: + type: file + description: an ASN1 format "Sequin" file for submission to Genbank + pattern: "*.{sqn}" + - fsa: + type: file + description: nucleotide FASTA file of the input contig sequences, used by "tbl2asn" to create the .sqn file + pattern: "*.{fsa}" + - tbl: + type: file + description: feature Table file, used by "tbl2asn" to create the .sqn file + pattern: "*.{tbl}" + - err: + type: file + description: unacceptable annotations - the NCBI discrepancy report. + pattern: "*.{err}" + - log: + type: file + description: contains all the output that Prokka produced during its run + pattern: "*.{log}" + - txt: + type: file + description: statistics relating to the annotated features found + pattern: "*.{txt}" + - tsv: + type: file + description: tab-separated file of all features (locus_tag,ftype,len_bp,gene,EC_number,COG,product) + pattern: "*.{tsv}" + +authors: + - "@rpetit3" diff --git a/software/qualimap/bamqc/meta.yml b/software/qualimap/bamqc/meta.yml index 61f4bc8b..3c608f31 100644 --- a/software/qualimap/bamqc/meta.yml +++ b/software/qualimap/bamqc/meta.yml @@ -14,27 +14,6 @@ tools: homepage: http://qualimap.bioinfo.cipf.es/ documentation: http://qualimap.conesalab.org/doc_html/index.html doi: 10.1093/bioinformatics/bts503 -params: - - outdir: - type: string - description: | - The pipeline's output directory. By default, the module will - output files into `$params.outdir/` - - publish_dir_mode: - type: string - description: | - Value for the Nextflow `publishDir` mode parameter. - Available: symlink, rellink, link, copy, copyNoFollow, move. - - enable_conda: - type: boolean - description: | - Run the module with Conda using the software specified - via the `conda` directive - - singularity_pull_docker_container: - type: boolean - description: | - Instead of directly downloading Singularity images for use with Singularity, - force the workflow to pull and convert Docker containers instead. input: - meta: type: map diff --git a/software/quast/meta.yml b/software/quast/meta.yml index dde96c97..cc79486e 100644 --- a/software/quast/meta.yml +++ b/software/quast/meta.yml @@ -10,28 +10,6 @@ tools: QUAST calculates quality metrics for genome assemblies homepage: http://bioinf.spbau.ru/quast doi: -params: - - outdir: - type: string - description: | - The pipeline's output directory. By default, the module will - output files into `$params.outdir/` - - publish_dir_mode: - type: string - description: | - Value for the Nextflow `publishDir` mode parameter. - Available: symlink, rellink, link, copy, copyNoFollow, move. - - enable_conda: - type: boolean - description: | - Run the module with Conda using the software specified - via the `conda` directive - - singularity_pull_docker_container: - type: boolean - description: | - Instead of directly downloading Singularity images for use with Singularity, - force the workflow to pull and convert Docker containers instead. - input: - consensus: type: file diff --git a/software/rsem/preparereference/main.nf b/software/rsem/preparereference/main.nf index 4f963f4d..633b3d90 100644 --- a/software/rsem/preparereference/main.nf +++ b/software/rsem/preparereference/main.nf @@ -9,7 +9,7 @@ process RSEM_PREPAREREFERENCE { label 'process_high' publishDir "${params.outdir}", mode: params.publish_dir_mode, - saveAs: { filename -> saveFiles(filename:filename, options:params.options, publish_dir:getSoftwareName(task.process), publish_id:'') } + saveAs: { filename -> saveFiles(filename:filename, options:params.options, publish_dir:'index', publish_id:'') } conda (params.enable_conda ? "bioconda::rsem=1.3.3 bioconda::star=2.7.6a" : null) if (workflow.containerEngine == 'singularity' && !params.singularity_pull_docker_container) { diff --git a/software/salmon/index/main.nf b/software/salmon/index/main.nf index 763a4147..a0433c58 100644 --- a/software/salmon/index/main.nf +++ b/software/salmon/index/main.nf @@ -9,7 +9,7 @@ process SALMON_INDEX { label "process_medium" publishDir "${params.outdir}", mode: params.publish_dir_mode, - saveAs: { filename -> saveFiles(filename:filename, options:params.options, publish_dir:getSoftwareName(task.process), publish_id:'') } + saveAs: { filename -> saveFiles(filename:filename, options:params.options, publish_dir:'index', publish_id:'') } conda (params.enable_conda ? "bioconda::salmon=1.4.0" : null) if (workflow.containerEngine == 'singularity' && !params.singularity_pull_docker_container) { diff --git a/software/salmon/index/meta.yml b/software/salmon/index/meta.yml index 8d1d9292..652e2a77 100644 --- a/software/salmon/index/meta.yml +++ b/software/salmon/index/meta.yml @@ -12,28 +12,6 @@ tools: homepage: https://salmon.readthedocs.io/en/latest/salmon.html manual: https://salmon.readthedocs.io/en/latest/salmon.html doi: 10.1038/nmeth.4197 -params: - - outdir: - type: string - description: | - The pipeline's output directory. By default, the module will - output files into `$params.outdir/` - - publish_dir_mode: - type: string - description: | - Value for the Nextflow `publishDir` mode parameter. - Available: symlink, rellink, link, copy, copyNoFollow, move. - - enable_conda: - type: boolean - description: | - Run the module with Conda using the software specified - via the `conda` directive - - singularity_pull_docker_container: - type: boolean - description: | - Instead of directly downloading Singularity images for use with Singularity, - force the workflow to pull and convert Docker containers instead. - input: - genome_fasta: type: file diff --git a/software/salmon/quant/meta.yml b/software/salmon/quant/meta.yml index 88db9c74..fa39aaf9 100644 --- a/software/salmon/quant/meta.yml +++ b/software/salmon/quant/meta.yml @@ -12,28 +12,6 @@ tools: homepage: https://salmon.readthedocs.io/en/latest/salmon.html manual: https://salmon.readthedocs.io/en/latest/salmon.html doi: 10.1038/nmeth.4197 -params: - - outdir: - type: string - description: | - The pipeline's output directory. By default, the module will - output files into `$params.outdir/` - - publish_dir_mode: - type: string - description: | - Value for the Nextflow `publishDir` mode parameter. - Available: symlink, rellink, link, copy, copyNoFollow, move. - - enable_conda: - type: boolean - description: | - Run the module with Conda using the software specified - via the `conda` directive - - singularity_pull_docker_container: - type: boolean - description: | - Instead of directly downloading Singularity images for use with Singularity, - force the workflow to pull and convert Docker containers instead. - input: - meta: type: map diff --git a/software/samtools/faidx/meta.yml b/software/samtools/faidx/meta.yml index 2141e9b3..f92234d0 100644 --- a/software/samtools/faidx/meta.yml +++ b/software/samtools/faidx/meta.yml @@ -12,27 +12,6 @@ tools: homepage: http://www.htslib.org/ documentation: http://www.htslib.org/doc/samtools.html doi: 10.1093/bioinformatics/btp352 -params: - - outdir: - type: string - description: | - The pipeline's output directory. By default, the module will - output files into `$params.outdir/` - - publish_dir_mode: - type: string - description: | - Value for the Nextflow `publishDir` mode parameter. - Available: symlink, rellink, link, copy, copyNoFollow, move. - - enable_conda: - type: boolean - description: | - Run the module with Conda using the software specified - via the `conda` directive - - singularity_pull_docker_container: - type: boolean - description: | - Instead of directly downloading Singularity images for use with Singularity, - force the workflow to pull and convert Docker containers instead. input: - fasta: type: file diff --git a/software/samtools/fastq/functions.nf b/software/samtools/fastq/functions.nf new file mode 100644 index 00000000..f177f0c8 --- /dev/null +++ b/software/samtools/fastq/functions.nf @@ -0,0 +1,60 @@ +/* + * ----------------------------------------------------- + * Utility functions used in nf-core DSL2 module files + * ----------------------------------------------------- + */ + +/* + * Extract name of software tool from process name using $task.process + */ +def getSoftwareName(task_process) { + return task_process.tokenize(':')[-1].tokenize('_')[0].toLowerCase() +} + +/* + * Function to initialise default values and to generate a Groovy Map of available options for nf-core modules + */ +def initOptions(Map args) { + def Map options = [:] + options.args = args.args ?: '' + options.args2 = args.args2 ?: '' + options.args3 = args.args3 ?: '' + options.publish_by_id = args.publish_by_id ?: false + options.publish_dir = args.publish_dir ?: '' + options.publish_files = args.publish_files + options.suffix = args.suffix ?: '' + return options +} + +/* + * Tidy up and join elements of a list to return a path string + */ +def getPathFromList(path_list) { + def paths = path_list.findAll { item -> !item?.trim().isEmpty() } // Remove empty entries + paths = paths.collect { it.trim().replaceAll("^[/]+|[/]+\$", "") } // Trim whitespace and trailing slashes + return paths.join('/') +} + +/* + * Function to save/publish module results + */ +def saveFiles(Map args) { + if (!args.filename.endsWith('.version.txt')) { + def ioptions = initOptions(args.options) + def path_list = [ ioptions.publish_dir ?: args.publish_dir ] + if (ioptions.publish_by_id) { + path_list.add(args.publish_id) + } + if (ioptions.publish_files instanceof Map) { + for (ext in ioptions.publish_files) { + if (args.filename.endsWith(ext.key)) { + def ext_list = path_list.collect() + ext_list.add(ext.value) + return "${getPathFromList(ext_list)}/$args.filename" + } + } + } else if (ioptions.publish_files == null) { + return "${getPathFromList(path_list)}/$args.filename" + } + } +} diff --git a/software/samtools/fastq/main.nf b/software/samtools/fastq/main.nf new file mode 100644 index 00000000..e5aeddad --- /dev/null +++ b/software/samtools/fastq/main.nf @@ -0,0 +1,41 @@ +// Import generic module functions +include { initOptions; saveFiles; getSoftwareName } from './functions' + +params.options = [:] +options = initOptions(params.options) + +process SAMTOOLS_FASTQ { + tag "$meta.id" + label 'process_low' + publishDir "${params.outdir}", + mode: params.publish_dir_mode, + saveAs: { filename -> saveFiles(filename:filename, options:params.options, publish_dir:getSoftwareName(task.process), publish_id:meta.id) } + + conda (params.enable_conda ? "bioconda::samtools=1.12" : null) + if (workflow.containerEngine == 'singularity' && !params.singularity_pull_docker_container) { + container "https://depot.galaxyproject.org/singularity/samtools:1.12--hd5e65b6_0" + } else { + container "quay.io/biocontainers/samtools:1.12--hd5e65b6_0" + } + + input: + tuple val(meta), path(bam) + + output: + tuple val(meta), path("*.fastq.gz"), emit: fastq + path "*.version.txt" , emit: version + + script: + def software = getSoftwareName(task.process) + def prefix = options.suffix ? "${meta.id}${options.suffix}" : "${meta.id}" + def endedness = meta.single_end ? "-0 ${prefix}.fastq.gz" : "-1 ${prefix}_1.fastq.gz -2 ${prefix}_2.fastq.gz" + + """ + samtools fastq \\ + $options.args \\ + -@ $task.cpus \\ + $endedness \\ + $bam + echo \$(samtools --version 2>&1) | sed 's/^.*samtools //; s/Using.*\$//' > ${software}.version.txt + """ +} diff --git a/software/samtools/fastq/meta.yml b/software/samtools/fastq/meta.yml new file mode 100644 index 00000000..ce269552 --- /dev/null +++ b/software/samtools/fastq/meta.yml @@ -0,0 +1,42 @@ +name: samtools_fastq +description: Converts a SAM/BAM/CRAM file to FASTQ +keywords: + - bam + - sam + - cram + - fastq +tools: + - samtools: + description: | + SAMtools is a set of utilities for interacting with and post-processing + short DNA sequence read alignments in the SAM, BAM and CRAM formats, written by Heng Li. + These files are generated as output by short read aligners like BWA. + homepage: http://www.htslib.org/ + documentation: hhttp://www.htslib.org/doc/samtools.html + doi: 10.1093/bioinformatics/btp352 +input: + - meta: + type: map + description: | + Groovy Map containing sample information + e.g. [ id:'test', single_end:false ] + - bam: + type: file + description: BAM/CRAM/SAM file + pattern: "*.{bam,cram,sam}" +output: + - meta: + type: map + description: | + Groovy Map containing sample information + e.g. [ id:'test', single_end:false ] + - fasta: + type: file + description: compressed FASTQ file + pattern: "*.fastq.gz" + - version: + type: file + description: File containing software version + pattern: "*.{version.txt}" +authors: + - "@suzannejin" diff --git a/software/samtools/flagstat/main.nf b/software/samtools/flagstat/main.nf index 863be3d8..bb3663f6 100644 --- a/software/samtools/flagstat/main.nf +++ b/software/samtools/flagstat/main.nf @@ -6,6 +6,7 @@ options = initOptions(params.options) process SAMTOOLS_FLAGSTAT { tag "$meta.id" + label 'process_low' publishDir "${params.outdir}", mode: params.publish_dir_mode, saveAs: { filename -> saveFiles(filename:filename, options:params.options, publish_dir:getSoftwareName(task.process), publish_id:meta.id) } diff --git a/software/samtools/flagstat/meta.yml b/software/samtools/flagstat/meta.yml index a140c795..8414bf54 100644 --- a/software/samtools/flagstat/meta.yml +++ b/software/samtools/flagstat/meta.yml @@ -16,27 +16,6 @@ tools: homepage: http://www.htslib.org/ documentation: hhttp://www.htslib.org/doc/samtools.html doi: 10.1093/bioinformatics/btp352 -params: - - outdir: - type: string - description: | - The pipeline's output directory. By default, the module will - output files into `$params.outdir/` - - publish_dir_mode: - type: string - description: | - Value for the Nextflow `publishDir` mode parameter. - Available: symlink, rellink, link, copy, copyNoFollow, move. - - enable_conda: - type: boolean - description: | - Run the module with Conda using the software specified - via the `conda` directive - - singularity_pull_docker_container: - type: boolean - description: | - Instead of directly downloading Singularity images for use with Singularity, - force the workflow to pull and convert Docker containers instead. input: - meta: type: map diff --git a/software/samtools/idxstats/main.nf b/software/samtools/idxstats/main.nf index 99fa9853..80f97630 100644 --- a/software/samtools/idxstats/main.nf +++ b/software/samtools/idxstats/main.nf @@ -6,6 +6,7 @@ options = initOptions(params.options) process SAMTOOLS_IDXSTATS { tag "$meta.id" + label 'process_low' publishDir "${params.outdir}", mode: params.publish_dir_mode, saveAs: { filename -> saveFiles(filename:filename, options:params.options, publish_dir:getSoftwareName(task.process), publish_id:meta.id) } diff --git a/software/samtools/idxstats/meta.yml b/software/samtools/idxstats/meta.yml index 6ff30433..530d0772 100644 --- a/software/samtools/idxstats/meta.yml +++ b/software/samtools/idxstats/meta.yml @@ -17,27 +17,6 @@ tools: homepage: http://www.htslib.org/ documentation: hhttp://www.htslib.org/doc/samtools.html doi: 10.1093/bioinformatics/btp352 -params: - - outdir: - type: string - description: | - The pipeline's output directory. By default, the module will - output files into `$params.outdir/` - - publish_dir_mode: - type: string - description: | - Value for the Nextflow `publishDir` mode parameter. - Available: symlink, rellink, link, copy, copyNoFollow, move. - - enable_conda: - type: boolean - description: | - Run the module with Conda using the software specified - via the `conda` directive - - singularity_pull_docker_container: - type: boolean - description: | - Instead of directly downloading Singularity images for use with Singularity, - force the workflow to pull and convert Docker containers instead. input: - meta: type: map diff --git a/software/samtools/index/main.nf b/software/samtools/index/main.nf index b4fd1347..86114fc7 100644 --- a/software/samtools/index/main.nf +++ b/software/samtools/index/main.nf @@ -6,6 +6,7 @@ options = initOptions(params.options) process SAMTOOLS_INDEX { tag "$meta.id" + label 'process_low' publishDir "${params.outdir}", mode: params.publish_dir_mode, saveAs: { filename -> saveFiles(filename:filename, options:params.options, publish_dir:getSoftwareName(task.process), publish_id:meta.id) } diff --git a/software/samtools/index/meta.yml b/software/samtools/index/meta.yml index 089a83be..03936e59 100644 --- a/software/samtools/index/meta.yml +++ b/software/samtools/index/meta.yml @@ -14,27 +14,6 @@ tools: homepage: http://www.htslib.org/ documentation: hhttp://www.htslib.org/doc/samtools.html doi: 10.1093/bioinformatics/btp352 -params: - - outdir: - type: string - description: | - The pipeline's output directory. By default, the module will - output files into `$params.outdir/` - - publish_dir_mode: - type: string - description: | - Value for the Nextflow `publishDir` mode parameter. - Available: symlink, rellink, link, copy, copyNoFollow, move. - - enable_conda: - type: boolean - description: | - Run the module with Conda using the software specified - via the `conda` directive - - singularity_pull_docker_container: - type: boolean - description: | - Instead of directly downloading Singularity images for use with Singularity, - force the workflow to pull and convert Docker containers instead. input: - meta: type: map diff --git a/software/samtools/merge/functions.nf b/software/samtools/merge/functions.nf new file mode 100644 index 00000000..d25eea86 --- /dev/null +++ b/software/samtools/merge/functions.nf @@ -0,0 +1,59 @@ +/* + * ----------------------------------------------------- + * Utility functions used in nf-core DSL2 module files + * ----------------------------------------------------- + */ + +/* + * Extract name of software tool from process name using $task.process + */ +def getSoftwareName(task_process) { + return task_process.tokenize(':')[-1].tokenize('_')[0].toLowerCase() +} + +/* + * Function to initialise default values and to generate a Groovy Map of available options for nf-core modules + */ +def initOptions(Map args) { + def Map options = [:] + options.args = args.args ?: '' + options.args2 = args.args2 ?: '' + options.publish_by_id = args.publish_by_id ?: false + options.publish_dir = args.publish_dir ?: '' + options.publish_files = args.publish_files + options.suffix = args.suffix ?: '' + return options +} + +/* + * Tidy up and join elements of a list to return a path string + */ +def getPathFromList(path_list) { + def paths = path_list.findAll { item -> !item?.trim().isEmpty() } // Remove empty entries + paths = paths.collect { it.trim().replaceAll("^[/]+|[/]+\$", "") } // Trim whitespace and trailing slashes + return paths.join('/') +} + +/* + * Function to save/publish module results + */ +def saveFiles(Map args) { + if (!args.filename.endsWith('.version.txt')) { + def ioptions = initOptions(args.options) + def path_list = [ ioptions.publish_dir ?: args.publish_dir ] + if (ioptions.publish_by_id) { + path_list.add(args.publish_id) + } + if (ioptions.publish_files instanceof Map) { + for (ext in ioptions.publish_files) { + if (args.filename.endsWith(ext.key)) { + def ext_list = path_list.collect() + ext_list.add(ext.value) + return "${getPathFromList(ext_list)}/$args.filename" + } + } + } else if (ioptions.publish_files == null) { + return "${getPathFromList(path_list)}/$args.filename" + } + } +} diff --git a/software/samtools/merge/main.nf b/software/samtools/merge/main.nf new file mode 100644 index 00000000..68300024 --- /dev/null +++ b/software/samtools/merge/main.nf @@ -0,0 +1,35 @@ +// Import generic module functions +include { initOptions; saveFiles; getSoftwareName } from './functions' + +params.options = [:] +options = initOptions(params.options) + +process SAMTOOLS_MERGE { + tag "$meta.id" + label 'process_low' + publishDir "${params.outdir}", + mode: params.publish_dir_mode, + saveAs: { filename -> saveFiles(filename:filename, options:params.options, publish_dir:getSoftwareName(task.process), publish_id:meta.id) } + + conda (params.enable_conda ? "bioconda::samtools=1.10" : null) + if (workflow.containerEngine == 'singularity' && !params.singularity_pull_docker_container) { + container "https://depot.galaxyproject.org/singularity/samtools:1.10--h9402c20_2" + } else { + container "quay.io/biocontainers/samtools:1.10--h9402c20_2" + } + + input: + tuple val(meta),path(bams) + + output: + tuple val(meta), path("*merged.bam"), emit: merged_bam + path "*.version.txt" , emit: version + + script: + def software = getSoftwareName(task.process) + def prefix = options.suffix ? "${meta.id}${options.suffix}" : "${meta.id}" + """ + samtools merge ${prefix}_merged.bam $bams + echo \$(samtools --version 2>&1) | sed 's/^.*samtools //; s/Using.*\$//' > ${software}.version.txt + """ +} diff --git a/software/samtools/mpileup/meta.yml b/software/samtools/mpileup/meta.yml index 5494b13b..7e432a78 100644 --- a/software/samtools/mpileup/meta.yml +++ b/software/samtools/mpileup/meta.yml @@ -14,27 +14,6 @@ tools: homepage: http://www.htslib.org/ documentation: hhttp://www.htslib.org/doc/samtools.html doi: 10.1093/bioinformatics/btp352 -params: - - outdir: - type: string - description: | - The pipeline's output directory. By default, the module will - output files into `$params.outdir/` - - publish_dir_mode: - type: string - description: | - Value for the Nextflow `publishDir` mode parameter. - Available: symlink, rellink, link, copy, copyNoFollow, move. - - enable_conda: - type: boolean - description: | - Run the module with Conda using the software specified - via the `conda` directive - - singularity_pull_docker_container: - type: boolean - description: | - Instead of directly downloading Singularity images for use with Singularity, - force the workflow to pull and convert Docker containers instead. input: - meta: type: map diff --git a/software/samtools/sort/meta.yml b/software/samtools/sort/meta.yml index d87bf858..704e8c1f 100644 --- a/software/samtools/sort/meta.yml +++ b/software/samtools/sort/meta.yml @@ -14,27 +14,6 @@ tools: homepage: http://www.htslib.org/ documentation: hhttp://www.htslib.org/doc/samtools.html doi: 10.1093/bioinformatics/btp352 -params: - - outdir: - type: string - description: | - The pipeline's output directory. By default, the module will - output files into `$params.outdir/` - - publish_dir_mode: - type: string - description: | - Value for the Nextflow `publishDir` mode parameter. - Available: symlink, rellink, link, copy, copyNoFollow, move. - - enable_conda: - type: boolean - description: | - Run the module with Conda using the software specified - via the `conda` directive - - singularity_pull_docker_container: - type: boolean - description: | - Instead of directly downloading Singularity images for use with Singularity, - force the workflow to pull and convert Docker containers instead. input: - meta: type: map diff --git a/software/samtools/stats/main.nf b/software/samtools/stats/main.nf index c16fbe88..f5302d08 100644 --- a/software/samtools/stats/main.nf +++ b/software/samtools/stats/main.nf @@ -6,6 +6,7 @@ options = initOptions(params.options) process SAMTOOLS_STATS { tag "$meta.id" + label 'process_low' publishDir "${params.outdir}", mode: params.publish_dir_mode, saveAs: { filename -> saveFiles(filename:filename, options:params.options, publish_dir:getSoftwareName(task.process), publish_id:meta.id) } diff --git a/software/samtools/stats/meta.yml b/software/samtools/stats/meta.yml index b907df92..b549ff5c 100644 --- a/software/samtools/stats/meta.yml +++ b/software/samtools/stats/meta.yml @@ -15,27 +15,6 @@ tools: homepage: http://www.htslib.org/ documentation: hhttp://www.htslib.org/doc/samtools.html doi: 10.1093/bioinformatics/btp352 -params: - - outdir: - type: string - description: | - The pipeline's output directory. By default, the module will - output files into `$params.outdir/` - - publish_dir_mode: - type: string - description: | - Value for the Nextflow `publishDir` mode parameter. - Available: symlink, rellink, link, copy, copyNoFollow, move. - - enable_conda: - type: boolean - description: | - Run the module with Conda using the software specified - via the `conda` directive - - singularity_pull_docker_container: - type: boolean - description: | - Instead of directly downloading Singularity images for use with Singularity, - force the workflow to pull and convert Docker containers instead. input: - meta: type: map diff --git a/software/samtools/view/main.nf b/software/samtools/view/main.nf index befaf5a6..2ec29a42 100644 --- a/software/samtools/view/main.nf +++ b/software/samtools/view/main.nf @@ -6,6 +6,7 @@ options = initOptions(params.options) process SAMTOOLS_VIEW { tag "$meta.id" + label 'process_medium' publishDir "${params.outdir}", mode: params.publish_dir_mode, saveAs: { filename -> saveFiles(filename:filename, options:params.options, publish_dir:getSoftwareName(task.process), publish_id:meta.id) } diff --git a/software/samtools/view/meta.yml b/software/samtools/view/meta.yml index 773b40b1..c35a8b03 100644 --- a/software/samtools/view/meta.yml +++ b/software/samtools/view/meta.yml @@ -14,27 +14,6 @@ tools: homepage: http://www.htslib.org/ documentation: hhttp://www.htslib.org/doc/samtools.html doi: 10.1093/bioinformatics/btp352 -params: - - outdir: - type: string - description: | - The pipeline's output directory. By default, the module will - output files into `$params.outdir/` - - publish_dir_mode: - type: string - description: | - Value for the Nextflow `publishDir` mode parameter. - Available: symlink, rellink, link, copy, copyNoFollow, move. - - enable_conda: - type: boolean - description: | - Run the module with Conda using the software specified - via the `conda` directive - - singularity_pull_docker_container: - type: boolean - description: | - Instead of directly downloading Singularity images for use with Singularity, - force the workflow to pull and convert Docker containers instead. input: - meta: type: map diff --git a/software/seacr/callpeak/meta.yml b/software/seacr/callpeak/meta.yml index f95725c9..579961e2 100644 --- a/software/seacr/callpeak/meta.yml +++ b/software/seacr/callpeak/meta.yml @@ -16,27 +16,6 @@ tools: (i.e. regions with no read coverage). homepage: https://github.com/FredHutch/SEACR documentation: https://github.com/FredHutch/SEACR -params: - - outdir: - type: string - description: | - The pipeline's output directory. By default, the module will - output files into `$params.outdir/` - - publish_dir_mode: - type: string - description: | - Value for the Nextflow `publishDir` mode parameter. - Available: symlink, rellink, link, copy, copyNoFollow, move. - - enable_conda: - type: boolean - description: | - Run the module with Conda using the software specified - via the `conda` directive - - singularity_pull_docker_container: - type: boolean - description: | - Instead of directly downloading Singularity images for use with Singularity, - force the workflow to pull and convert Docker containers instead. input: - meta: type: map diff --git a/software/seqkit/split2/meta.yml b/software/seqkit/split2/meta.yml index f0868f93..44ae4ea7 100644 --- a/software/seqkit/split2/meta.yml +++ b/software/seqkit/split2/meta.yml @@ -10,27 +10,6 @@ tools: homepage: https://github.com/shenwei356/seqkit documentation: https://bioinf.shenwei.me/seqkit/ doi: 10.1371/journal.pone.0163962 -params: - - outdir: - type: string - description: | - The pipeline's output directory. By default, the module will - output files into `$params.outdir/` - - publish_dir_mode: - type: string - description: | - Value for the Nextflow `publishDir` mode parameter. - Available: symlink, rellink, link, copy, copyNoFollow, move. - - enable_conda: - type: boolean - description: | - Run the module with Conda using the software specified - via the `conda` directive - - singularity_pull_docker_container: - type: boolean - description: | - Instead of directly downloading Singularity images for use with Singularity, - force the workflow to pull and convert Docker containers instead. input: - meta: type: map diff --git a/software/sequenzautils/bam2seqz/functions.nf b/software/sequenzautils/bam2seqz/functions.nf new file mode 100755 index 00000000..f177f0c8 --- /dev/null +++ b/software/sequenzautils/bam2seqz/functions.nf @@ -0,0 +1,60 @@ +/* + * ----------------------------------------------------- + * Utility functions used in nf-core DSL2 module files + * ----------------------------------------------------- + */ + +/* + * Extract name of software tool from process name using $task.process + */ +def getSoftwareName(task_process) { + return task_process.tokenize(':')[-1].tokenize('_')[0].toLowerCase() +} + +/* + * Function to initialise default values and to generate a Groovy Map of available options for nf-core modules + */ +def initOptions(Map args) { + def Map options = [:] + options.args = args.args ?: '' + options.args2 = args.args2 ?: '' + options.args3 = args.args3 ?: '' + options.publish_by_id = args.publish_by_id ?: false + options.publish_dir = args.publish_dir ?: '' + options.publish_files = args.publish_files + options.suffix = args.suffix ?: '' + return options +} + +/* + * Tidy up and join elements of a list to return a path string + */ +def getPathFromList(path_list) { + def paths = path_list.findAll { item -> !item?.trim().isEmpty() } // Remove empty entries + paths = paths.collect { it.trim().replaceAll("^[/]+|[/]+\$", "") } // Trim whitespace and trailing slashes + return paths.join('/') +} + +/* + * Function to save/publish module results + */ +def saveFiles(Map args) { + if (!args.filename.endsWith('.version.txt')) { + def ioptions = initOptions(args.options) + def path_list = [ ioptions.publish_dir ?: args.publish_dir ] + if (ioptions.publish_by_id) { + path_list.add(args.publish_id) + } + if (ioptions.publish_files instanceof Map) { + for (ext in ioptions.publish_files) { + if (args.filename.endsWith(ext.key)) { + def ext_list = path_list.collect() + ext_list.add(ext.value) + return "${getPathFromList(ext_list)}/$args.filename" + } + } + } else if (ioptions.publish_files == null) { + return "${getPathFromList(path_list)}/$args.filename" + } + } +} diff --git a/software/sequenzautils/bam2seqz/main.nf b/software/sequenzautils/bam2seqz/main.nf new file mode 100644 index 00000000..8702fd3e --- /dev/null +++ b/software/sequenzautils/bam2seqz/main.nf @@ -0,0 +1,45 @@ +// Import generic module functions +include { initOptions; saveFiles; getSoftwareName } from './functions' + +params.options = [:] +options = initOptions(params.options) + +process SEQUENZAUTILS_BAM2SEQZ { + tag "$meta.id" + label 'process_medium' + publishDir "${params.outdir}", + mode: params.publish_dir_mode, + saveAs: { filename -> saveFiles(filename:filename, options:params.options, publish_dir:getSoftwareName(task.process), publish_id:meta.id) } + + conda (params.enable_conda ? "bioconda::sequenza-utils=3.0.0" : null) + if (workflow.containerEngine == 'singularity' && !params.singularity_pull_docker_container) { + container "https://depot.galaxyproject.org/singularity/sequenza-utils:3.0.0--py38h6ed170a_2" + } else { + container "quay.io/biocontainers/sequenza-utils:3.0.0--py38h6ed170a_2" + } + + input: + tuple val(meta), path(normalbam), path(tumourbam) + path fasta + path wigfile + + output: + tuple val(meta), path("*.seqz.gz"), emit: seqz + path "*.version.txt" , emit: version + + script: + def software = getSoftwareName(task.process) + def prefix = options.suffix ? "${meta.id}${options.suffix}" : "${meta.id}" + """ + sequenza-utils \\ + bam2seqz \\ + $options.args \\ + -n $normalbam \\ + -t $tumourbam \\ + --fasta $fasta \\ + -gc $wigfile \\ + -o ${prefix}.seqz.gz + + echo \$(sequenzautils --version 2>&1) | sed 's/^.*sequenzautils //; s/Using.*\$//' > ${software}.version.txt + """ +} diff --git a/software/sequenzautils/bam2seqz/meta.yml b/software/sequenzautils/bam2seqz/meta.yml new file mode 100755 index 00000000..171e155c --- /dev/null +++ b/software/sequenzautils/bam2seqz/meta.yml @@ -0,0 +1,50 @@ +name: sequenzautils_bam2seqz +description: Sequenza-utils bam2seqz process BAM and Wiggle files to produce a seqz file +keywords: + - bam2seqz +tools: + - sequenzautils: + description: Sequenza-utils provides 3 main command line programs to transform common NGS file format - such as FASTA, BAM - to input files for the Sequenza R package. The program - bam2seqz - process a paired set of BAM/pileup files (tumour and matching normal), and GC-content genome-wide information, to extract the common positions with A and B alleles frequencies. + homepage: https://sequenza-utils.readthedocs.io/en/latest/index.html + documentation: https://sequenza-utils.readthedocs.io/en/latest/index.html + doi: 10.1093/annonc/mdu479 + +input: + - meta: + type: map + description: | + Groovy Map containing sample information + e.g. [ id:'test', single_end:false ] + - normalbam: + type: file + description: BAM file from the reference/normal sample + pattern: "*.{bam}" + - tumourbam: + type: file + description: BAM file from the tumour sample + pattern: "*.{bam}" + - fasta: + type: file + description: Reference FASTA file + pattern: "*.{fasta}" + - wigfile: + type: file + description: GC content wiggle file + pattern: "*.{wig.gz}" +output: + - meta: + type: map + description: | + Groovy Map containing sample information + e.g. [ id:'test', single_end:false ] + - version: + type: file + description: File containing software version + pattern: "*.{version.txt}" + - seqz: + type: file + description: Seqz file + pattern: "*.{seqz.gz}" + +authors: + - "@kaurravneet4123" diff --git a/software/sequenzautils/gcwiggle/functions.nf b/software/sequenzautils/gcwiggle/functions.nf new file mode 100755 index 00000000..f177f0c8 --- /dev/null +++ b/software/sequenzautils/gcwiggle/functions.nf @@ -0,0 +1,60 @@ +/* + * ----------------------------------------------------- + * Utility functions used in nf-core DSL2 module files + * ----------------------------------------------------- + */ + +/* + * Extract name of software tool from process name using $task.process + */ +def getSoftwareName(task_process) { + return task_process.tokenize(':')[-1].tokenize('_')[0].toLowerCase() +} + +/* + * Function to initialise default values and to generate a Groovy Map of available options for nf-core modules + */ +def initOptions(Map args) { + def Map options = [:] + options.args = args.args ?: '' + options.args2 = args.args2 ?: '' + options.args3 = args.args3 ?: '' + options.publish_by_id = args.publish_by_id ?: false + options.publish_dir = args.publish_dir ?: '' + options.publish_files = args.publish_files + options.suffix = args.suffix ?: '' + return options +} + +/* + * Tidy up and join elements of a list to return a path string + */ +def getPathFromList(path_list) { + def paths = path_list.findAll { item -> !item?.trim().isEmpty() } // Remove empty entries + paths = paths.collect { it.trim().replaceAll("^[/]+|[/]+\$", "") } // Trim whitespace and trailing slashes + return paths.join('/') +} + +/* + * Function to save/publish module results + */ +def saveFiles(Map args) { + if (!args.filename.endsWith('.version.txt')) { + def ioptions = initOptions(args.options) + def path_list = [ ioptions.publish_dir ?: args.publish_dir ] + if (ioptions.publish_by_id) { + path_list.add(args.publish_id) + } + if (ioptions.publish_files instanceof Map) { + for (ext in ioptions.publish_files) { + if (args.filename.endsWith(ext.key)) { + def ext_list = path_list.collect() + ext_list.add(ext.value) + return "${getPathFromList(ext_list)}/$args.filename" + } + } + } else if (ioptions.publish_files == null) { + return "${getPathFromList(path_list)}/$args.filename" + } + } +} diff --git a/software/sequenzautils/gcwiggle/main.nf b/software/sequenzautils/gcwiggle/main.nf new file mode 100644 index 00000000..e9b67384 --- /dev/null +++ b/software/sequenzautils/gcwiggle/main.nf @@ -0,0 +1,40 @@ +// Import generic module functions +include { initOptions; saveFiles; getSoftwareName } from './functions' + +params.options = [:] +options = initOptions(params.options) + +process SEQUENZAUTILS_GCWIGGLE { + tag "$meta.id" + label 'process_medium' + publishDir "${params.outdir}", + mode: params.publish_dir_mode, + saveAs: { filename -> saveFiles(filename:filename, options:params.options, publish_dir:getSoftwareName(task.process), publish_id:meta.id) } + + conda (params.enable_conda ? "bioconda::sequenza-utils=3.0.0" : null) + if (workflow.containerEngine == 'singularity' && !params.singularity_pull_docker_container) { + container "https://depot.galaxyproject.org/singularity/sequenza-utils:3.0.0--py38h6ed170a_2" + } else { + container "quay.io/biocontainers/sequenza-utils:3.0.0--py38h6ed170a_2" + } + + input: + tuple val(meta), path(fasta) + + output: + tuple val(meta), path("*.wig.gz"), emit: wig + path "*.version.txt" , emit: version + + script: + def software = getSoftwareName(task.process) + def prefix = options.suffix ? "${meta.id}${options.suffix}" : "${meta.id}" + """ + sequenza-utils \\ + gc_wiggle \\ + $options.args \\ + --fasta $fasta \\ + -o ${prefix}.wig.gz + + echo \$(sequenzautils --version 2>&1) | sed 's/^.*sequenzautils //; s/Using.*\$//' > ${software}.version.txt + """ +} diff --git a/software/sequenzautils/gcwiggle/meta.yml b/software/sequenzautils/gcwiggle/meta.yml new file mode 100644 index 00000000..e1cb7b03 --- /dev/null +++ b/software/sequenzautils/gcwiggle/meta.yml @@ -0,0 +1,38 @@ +name: sequenzautils_gcwiggle +description: Sequenza-utils gc_wiggle computes the GC percentage across the sequences, and returns a file in the UCSC wiggle format, given a fasta file and a window size. +keywords: + - gc_wiggle +tools: + - sequenzautils: + description: Sequenza-utils provides 3 main command line programs to transform common NGS file format - such as FASTA, BAM - to input files for the Sequenza R package. The program -gc_wiggle- takes fasta file as an input, computes GC percentage across the sequences and returns a file in the UCSC wiggle format. + homepage: https://sequenza-utils.readthedocs.io/en/latest/index.html + documentation: https://sequenza-utils.readthedocs.io/en/latest/index.html + doi: 10.1093/annonc/mdu479 +input: + - meta: + type: map + description: | + Groovy Map containing sample information + e.g. [ id:'test', single_end:false ] + - fasta: + type: file + description: FASTA file + pattern: "*.{fasta}" + +output: + - meta: + type: map + description: | + Groovy Map containing sample information + e.g. [ id:'test', single_end:false ] + - version: + type: file + description: File containing software version + pattern: "*.{version.txt}" + - wig: + type: file + description: GC Wiggle track file + pattern: "*.{wig.gz}" + +authors: + - "@kaurravneet4123" diff --git a/software/seqwish/induce/meta.yml b/software/seqwish/induce/meta.yml index 47bb5ac6..0b6b4b5b 100644 --- a/software/seqwish/induce/meta.yml +++ b/software/seqwish/induce/meta.yml @@ -13,27 +13,6 @@ tools: sequences to a variation graph encoding the sequences and their alignments. homepage: https://github.com/ekg/seqwish documentation: https://github.com/ekg/seqwish -params: - - outdir: - type: string - description: | - The pipeline's output directory. By default, the module will - output files into `$params.outdir/` - - publish_dir_mode: - type: string - description: | - Value for the Nextflow `publishDir` mode parameter. - Available: symlink, rellink, link, copy, copyNoFollow, move. - - enable_conda: - type: boolean - description: | - Run the module with Conda using the software specified - via the `conda` directive - - singularity_pull_docker_container: - type: boolean - description: | - Instead of directly downloading Singularity images for use with Singularity, - force the workflow to pull and convert Docker containers instead. input: - meta: type: map diff --git a/software/shovill/functions.nf b/software/shovill/functions.nf new file mode 100644 index 00000000..f177f0c8 --- /dev/null +++ b/software/shovill/functions.nf @@ -0,0 +1,60 @@ +/* + * ----------------------------------------------------- + * Utility functions used in nf-core DSL2 module files + * ----------------------------------------------------- + */ + +/* + * Extract name of software tool from process name using $task.process + */ +def getSoftwareName(task_process) { + return task_process.tokenize(':')[-1].tokenize('_')[0].toLowerCase() +} + +/* + * Function to initialise default values and to generate a Groovy Map of available options for nf-core modules + */ +def initOptions(Map args) { + def Map options = [:] + options.args = args.args ?: '' + options.args2 = args.args2 ?: '' + options.args3 = args.args3 ?: '' + options.publish_by_id = args.publish_by_id ?: false + options.publish_dir = args.publish_dir ?: '' + options.publish_files = args.publish_files + options.suffix = args.suffix ?: '' + return options +} + +/* + * Tidy up and join elements of a list to return a path string + */ +def getPathFromList(path_list) { + def paths = path_list.findAll { item -> !item?.trim().isEmpty() } // Remove empty entries + paths = paths.collect { it.trim().replaceAll("^[/]+|[/]+\$", "") } // Trim whitespace and trailing slashes + return paths.join('/') +} + +/* + * Function to save/publish module results + */ +def saveFiles(Map args) { + if (!args.filename.endsWith('.version.txt')) { + def ioptions = initOptions(args.options) + def path_list = [ ioptions.publish_dir ?: args.publish_dir ] + if (ioptions.publish_by_id) { + path_list.add(args.publish_id) + } + if (ioptions.publish_files instanceof Map) { + for (ext in ioptions.publish_files) { + if (args.filename.endsWith(ext.key)) { + def ext_list = path_list.collect() + ext_list.add(ext.value) + return "${getPathFromList(ext_list)}/$args.filename" + } + } + } else if (ioptions.publish_files == null) { + return "${getPathFromList(path_list)}/$args.filename" + } + } +} diff --git a/software/shovill/main.nf b/software/shovill/main.nf new file mode 100644 index 00000000..fc472ea9 --- /dev/null +++ b/software/shovill/main.nf @@ -0,0 +1,47 @@ +// Import generic module functions +include { initOptions; saveFiles; getSoftwareName } from './functions' + +params.options = [:] +options = initOptions(params.options) + +process SHOVILL { + tag "$meta.id" + label 'process_medium' + publishDir "${params.outdir}", + mode: params.publish_dir_mode, + saveAs: { filename -> saveFiles(filename:filename, options:params.options, publish_dir:getSoftwareName(task.process), publish_id:meta.id) } + + conda (params.enable_conda ? "bioconda::shovill=1.1.0" : null) + if (workflow.containerEngine == 'singularity' && !params.singularity_pull_docker_container) { + container "https://depot.galaxyproject.org/singularity/shovill:1.1.0--0" + } else { + container "quay.io/biocontainers/shovill:1.1.0--0" + } + + input: + tuple val(meta), path(reads) + + output: + tuple val(meta), path("contigs.fa") , emit: contigs + tuple val(meta), path("shovill.corrections") , emit: corrections + tuple val(meta), path("shovill.log") , emit: log + tuple val(meta), path("{skesa,spades,megahit,velvet}.fasta"), emit: raw_contigs + tuple val(meta), path("contigs.{fastg,gfa,LastGraph}") , optional:true, emit: gfa + path "*.version.txt" , emit: version + + script: + def software = getSoftwareName(task.process) + def memory = task.memory.toGiga() + """ + shovill \\ + --R1 ${reads[0]} \\ + --R2 ${reads[1]} \\ + $options.args \\ + --cpus $task.cpus \\ + --ram $memory \\ + --outdir ./ \\ + --force + + echo \$(shovill --version 2>&1) | sed 's/^.*shovill //' > ${software}.version.txt + """ +} diff --git a/software/shovill/meta.yml b/software/shovill/meta.yml new file mode 100644 index 00000000..0a8661b1 --- /dev/null +++ b/software/shovill/meta.yml @@ -0,0 +1,59 @@ +name: shovill +## TODO nf-core: Add a description of the module and list keywords +description: Assemble bacterial isolate genomes from Illumina paired-end reads +keywords: + - bacterial + - assembly + - illumina + +tools: + - shovill: + ## TODO nf-core: Add a description and other details for the software below + description: Microbial assembly pipeline for Illumina paired-end reads + homepage: https://github.com/tseemann/shovill + documentation: https://github.com/tseemann/shovill/blob/master/README.md + licence: ['GPL v2'] + +input: + - meta: + type: map + description: | + Groovy Map containing sample information + e.g. [ id:'test', single_end:false ] + - reads: + type: file + description: List of input paired-end FastQ files + +output: + - meta: + type: map + description: | + Groovy Map containing sample information + e.g. [ id:'test', single_end:false ] + - version: + type: file + description: File containing software version + pattern: "*.{version.txt}" + - contigs: + type: file + description: The final assembly produced by Shovill + pattern: "contigs.fa" + - corrections: + type: file + description: List of post-assembly corrections made by Shovill + pattern: "shovill.corrections" + - log: + type: file + description: Full log file for bug reporting + pattern: "shovill.log" + - raw_contigs: + type: file + description: Raw assembly produced by the assembler (SKESA, SPAdes, MEGAHIT, or Velvet) + pattern: "{skesa,spades,megahit,velvet}.fasta" + - gfa: + type: file + description: Assembly graph produced by MEGAHIT, SPAdes, or Velvet + pattern: "contigs.{fastg,gfa,LastGraph}" + +authors: + - "@rpetit3" diff --git a/software/spades/functions.nf b/software/spades/functions.nf new file mode 100644 index 00000000..f177f0c8 --- /dev/null +++ b/software/spades/functions.nf @@ -0,0 +1,60 @@ +/* + * ----------------------------------------------------- + * Utility functions used in nf-core DSL2 module files + * ----------------------------------------------------- + */ + +/* + * Extract name of software tool from process name using $task.process + */ +def getSoftwareName(task_process) { + return task_process.tokenize(':')[-1].tokenize('_')[0].toLowerCase() +} + +/* + * Function to initialise default values and to generate a Groovy Map of available options for nf-core modules + */ +def initOptions(Map args) { + def Map options = [:] + options.args = args.args ?: '' + options.args2 = args.args2 ?: '' + options.args3 = args.args3 ?: '' + options.publish_by_id = args.publish_by_id ?: false + options.publish_dir = args.publish_dir ?: '' + options.publish_files = args.publish_files + options.suffix = args.suffix ?: '' + return options +} + +/* + * Tidy up and join elements of a list to return a path string + */ +def getPathFromList(path_list) { + def paths = path_list.findAll { item -> !item?.trim().isEmpty() } // Remove empty entries + paths = paths.collect { it.trim().replaceAll("^[/]+|[/]+\$", "") } // Trim whitespace and trailing slashes + return paths.join('/') +} + +/* + * Function to save/publish module results + */ +def saveFiles(Map args) { + if (!args.filename.endsWith('.version.txt')) { + def ioptions = initOptions(args.options) + def path_list = [ ioptions.publish_dir ?: args.publish_dir ] + if (ioptions.publish_by_id) { + path_list.add(args.publish_id) + } + if (ioptions.publish_files instanceof Map) { + for (ext in ioptions.publish_files) { + if (args.filename.endsWith(ext.key)) { + def ext_list = path_list.collect() + ext_list.add(ext.value) + return "${getPathFromList(ext_list)}/$args.filename" + } + } + } else if (ioptions.publish_files == null) { + return "${getPathFromList(path_list)}/$args.filename" + } + } +} diff --git a/software/spades/main.nf b/software/spades/main.nf new file mode 100644 index 00000000..badceb76 --- /dev/null +++ b/software/spades/main.nf @@ -0,0 +1,69 @@ +// Import generic module functions +include { initOptions; saveFiles; getSoftwareName } from './functions' + +params.options = [:] +options = initOptions(params.options) + +process SPADES { + tag "$meta.id" + label 'process_high' + publishDir "${params.outdir}", + mode: params.publish_dir_mode, + saveAs: { filename -> saveFiles(filename:filename, options:params.options, publish_dir:getSoftwareName(task.process), publish_id:meta.id) } + + conda (params.enable_conda ? "bioconda::spades=3.15.0" : null) + if (workflow.containerEngine == 'singularity' && !params.singularity_pull_docker_container) { + container "https://depot.galaxyproject.org/singularity/spades:3.15.0--h633aebb_0" + } else { + container "quay.io/biocontainers/spades:3.15.0--h633aebb_0" + } + + input: + tuple val(meta), path(reads) + path hmm + val coronaspades + + output: + tuple val(meta), path('*.scaffolds.fa') , optional:true, emit: scaffolds + tuple val(meta), path('*.contigs.fa') , optional:true, emit: contigs + tuple val(meta), path('*.transcripts.fa') , optional:true, emit: transcripts + tuple val(meta), path('*.gene_clusters.fa'), optional:true, emit: gene_clusters + tuple val(meta), path('*.assembly.gfa') , optional:true, emit: gfa + tuple val(meta), path('*.log') , emit: log + path '*.version.txt' , emit: version + + script: + def software = getSoftwareName(task.process) + def prefix = options.suffix ? "${meta.id}${options.suffix}" : "${meta.id}" + def input_reads = meta.single_end ? "-s $reads" : "-1 ${reads[0]} -2 ${reads[1]}" + def custom_hmms = params.spades_hmm ? "--custom-hmms $hmm" : "" + def command = coronaspades ? "coronaspades.py" : "spades.py" + """ + $command \\ + $options.args \\ + --threads $task.cpus \\ + $custom_hmms \\ + $input_reads \\ + -o ./ + mv spades.log ${prefix}.spades.log + + if [ -f scaffolds.fasta ]; then + mv scaffolds.fasta ${prefix}.scaffolds.fa + fi + if [ -f contigs.fasta ]; then + mv contigs.fasta ${prefix}.contigs.fa + fi + if [ -f transcripts.fasta ]; then + mv transcripts.fasta ${prefix}.transcripts.fa + fi + if [ -f assembly_graph_with_scaffolds.gfa ]; then + mv assembly_graph_with_scaffolds.gfa ${prefix}.assembly.gfa + fi + + if [ -f gene_clusters.fasta ]; then + mv gene_clusters.fasta ${prefix}.gene_clusters.fa + fi + + echo \$(spades.py --version 2>&1) | sed 's/^.*SPAdes genome assembler v//; s/ .*\$//' > ${software}.version.txt + """ +} diff --git a/software/spades/meta.yml b/software/spades/meta.yml new file mode 100644 index 00000000..d1ea7de3 --- /dev/null +++ b/software/spades/meta.yml @@ -0,0 +1,74 @@ +name: spades +description: Assembles a small genome (bacterial, fungal, viral) +keywords: + - genome + - assembly + - genome assembler + - small genome + - de novo assembler +tools: + - spades: + description: SPAdes (St. Petersburg genome assembler) is intended for both standard isolates and single-cell MDA bacteria assemblies. + homepage: http://cab.spbu.ru/files/release3.15.0/manual.html + documentation: http://cab.spbu.ru/files/release3.15.0/manual.html + tool_dev_url: https://github.com/ablab/spades + doi: 10.1089/cmb.2012.0021 + licence: ['GPL v2'] +input: + - meta: + type: map + description: | + Groovy Map containing sample information + e.g. [ id:'test', single_end:false ] + - reads: + type: file + description: | + List of input FastQ files of size 1 and 2 for single-end and paired-end data, + respectively. + - hmm: + type: file + description: + File or directory with amino acid HMMs for Spades HMM-guided mode. + - coronaspades: + type: boolean + description: | + Run coronaspades instead of default spades mode. coronaSPAdes is a special + mode of rnaviralSPAdes specifically aimed for SARS-CoV-2 de novo assembly. +output: + - meta: + type: map + description: | + Groovy Map containing sample information + e.g. [ id:'test', single_end:false ] + - scaffolds: + type: file + description: | + Fasta file containing scaffolds + - contigs: + type: file + description: | + Fasta file containing contigs + - transcripts: + type: file + description: | + Fasta file containing transcripts + - gene_clusters: + type: file + description: | + Fasta file containing gene_clusters + - gfa: + type: file + description: | + gfa file containing assembly + - log: + type: file + description: | + Spades log file + - version: + type: file + description: File containing software version + pattern: "*.{version.txt}" + +authors: + - "@JoseEspinosa" + - "@drpatelh" diff --git a/software/star/align/meta.yml b/software/star/align/meta.yml index 554fc55c..01bc2ecf 100644 --- a/software/star/align/meta.yml +++ b/software/star/align/meta.yml @@ -13,28 +13,6 @@ tools: homepage: https://github.com/alexdobin/STAR manual: https://github.com/alexdobin/STAR/blob/master/doc/STARmanual.pdf doi: 10.1093/bioinformatics/bts635 -params: - - outdir: - type: string - description: | - The pipeline's output directory. By default, the module will - output files into `$params.outdir/` - - publish_dir_mode: - type: string - description: | - Value for the Nextflow `publishDir` mode parameter. - Available: symlink, rellink, link, copy, copyNoFollow, move. - - enable_conda: - type: boolean - description: | - Run the module with Conda using the software specified - via the `conda` directive - - singularity_pull_docker_container: - type: boolean - description: | - Instead of directly downloading Singularity images for use with Singularity, - force the workflow to pull and convert Docker containers instead. - input: - meta: type: map diff --git a/software/star/genomegenerate/main.nf b/software/star/genomegenerate/main.nf index 7ca662d6..f1e3bba4 100644 --- a/software/star/genomegenerate/main.nf +++ b/software/star/genomegenerate/main.nf @@ -9,7 +9,7 @@ process STAR_GENOMEGENERATE { label 'process_high' publishDir "${params.outdir}", mode: params.publish_dir_mode, - saveAs: { filename -> saveFiles(filename:filename, options:params.options, publish_dir:getSoftwareName(task.process), publish_id:'') } + saveAs: { filename -> saveFiles(filename:filename, options:params.options, publish_dir:'index', publish_id:'') } // Note: 2.7X indices incompatible with AWS iGenomes. conda (params.enable_conda ? "bioconda::star=2.6.1d" : null) diff --git a/software/star/genomegenerate/meta.yml b/software/star/genomegenerate/meta.yml index 59bb0fdd..aae0219b 100644 --- a/software/star/genomegenerate/meta.yml +++ b/software/star/genomegenerate/meta.yml @@ -13,28 +13,6 @@ tools: homepage: https://github.com/alexdobin/STAR manual: https://github.com/alexdobin/STAR/blob/master/doc/STARmanual.pdf doi: 10.1093/bioinformatics/bts635 -params: - - outdir: - type: string - description: | - The pipeline's output directory. By default, the module will - output files into `$params.outdir/` - - publish_dir_mode: - type: string - description: | - Value for the Nextflow `publishDir` mode parameter. - Available: symlink, rellink, link, copy, copyNoFollow, move. - - enable_conda: - type: boolean - description: | - Run the module with Conda using the software specified - via the `conda` directive - - singularity_pull_docker_container: - type: boolean - description: | - Instead of directly downloading Singularity images for use with Singularity, - force the workflow to pull and convert Docker containers instead. - input: - fasta: type: file diff --git a/software/strelka/germline/functions.nf b/software/strelka/germline/functions.nf new file mode 100644 index 00000000..779feec6 --- /dev/null +++ b/software/strelka/germline/functions.nf @@ -0,0 +1,61 @@ + +/* + * ----------------------------------------------------- + * Utility functions used in nf-core DSL2 module files + * ----------------------------------------------------- + */ + +/* + * Extract name of software tool from process name using $task.process + */ +def getSoftwareName(task_process) { + return task_process.tokenize(':')[-1].tokenize('_')[0].toLowerCase() +} + +/* + * Function to initialise default values and to generate a Groovy Map of available options for nf-core modules + */ +def initOptions(Map args) { + def Map options = [:] + options.args = args.args ?: '' + options.args2 = args.args2 ?: '' + options.args3 = args.args3 ?: '' + options.publish_by_id = args.publish_by_id ?: false + options.publish_dir = args.publish_dir ?: '' + options.publish_files = args.publish_files + options.suffix = args.suffix ?: '' + return options +} + +/* + * Tidy up and join elements of a list to return a path string + */ +def getPathFromList(path_list) { + def paths = path_list.findAll { item -> !item?.trim().isEmpty() } // Remove empty entries + paths = paths.collect { it.trim().replaceAll("^[/]+|[/]+\$", '') } // Trim whitespace and trailing slashes + return paths.join('/') +} + +/* + * Function to save/publish module results + */ +def saveFiles(Map args) { + if (!args.filename.endsWith('.version.txt')) { + def ioptions = initOptions(args.options) + def path_list = [ ioptions.publish_dir ?: args.publish_dir ] + if (ioptions.publish_by_id) { + path_list.add(args.publish_id) + } + if (ioptions.publish_files instanceof Map) { + for (ext in ioptions.publish_files) { + if (args.filename.endsWith(ext.key)) { + def ext_list = path_list.collect() + ext_list.add(ext.value) + return "${getPathFromList(ext_list)}/$args.filename" + } + } + } else if (ioptions.publish_files == null) { + return "${getPathFromList(path_list)}/$args.filename" + } + } +} diff --git a/software/strelka/germline/main.nf b/software/strelka/germline/main.nf new file mode 100644 index 00000000..f326bc5a --- /dev/null +++ b/software/strelka/germline/main.nf @@ -0,0 +1,55 @@ +// Import generic module functions +include { initOptions; saveFiles; getSoftwareName } from './functions' + +params.options = [:] +options = initOptions(params.options) + +process STRELKA_GERMLINE { + tag "$meta.id" + label 'process_high' + publishDir "${params.outdir}", + mode: params.publish_dir_mode, + saveAs: { filename -> saveFiles(filename:filename, options:params.options, publish_dir:getSoftwareName(task.process), publish_id:meta.id) } + + conda (params.enable_conda ? "bioconda::strelka=2.9.10" : null) + if (workflow.containerEngine == 'singularity' && !params.singularity_pull_docker_container) { + container "https://depot.galaxyproject.org/singularity/strelka:2.9.10--0" + } else { + container "quay.io/biocontainers/strelka:2.9.10--0" + } + + input: + tuple val(meta), path(bam), path(bai) + path fasta + path fai + path target_bed + + output: + tuple val(meta), path("*_variants.vcf.gz") , emit: vcf + tuple val(meta), path("*_variants.vcf.gz.tbi"), emit: vcf_tbi + tuple val(meta), path("*_genome.vcf.gz") , emit: genome_vcf + tuple val(meta), path("*_genome.vcf.gz.tbi") , emit: genome_vcf_tbi + path "*.version.txt" , emit: version + + script: + def software = getSoftwareName(task.process) + def ioptions = initOptions(options) + def prefix = ioptions.suffix ? "strelka_${meta.id}${ioptions.suffix}" : "strelka_${meta.id}" + def options_strelka = params.target_bed ? "--exome --callRegions ${target_bed}" : "" + """ + configureStrelkaGermlineWorkflow.py \\ + --bam $bam \\ + --referenceFasta $fasta \\ + $options_strelka \\ + $options.args \\ + --runDir strelka + + python strelka/runWorkflow.py -m local -j $task.cpus + mv strelka/results/variants/genome.*.vcf.gz ${prefix}_genome.vcf.gz + mv strelka/results/variants/genome.*.vcf.gz.tbi ${prefix}_genome.vcf.gz.tbi + mv strelka/results/variants/variants.vcf.gz ${prefix}_variants.vcf.gz + mv strelka/results/variants/variants.vcf.gz.tbi ${prefix}_variants.vcf.gz.tbi + + echo configureStrelkaGermlineWorkflow.py --version &> ${software}.version.txt #2>&1 + """ +} diff --git a/software/strelka/germline/meta.yml b/software/strelka/germline/meta.yml new file mode 100644 index 00000000..ae0ecb47 --- /dev/null +++ b/software/strelka/germline/meta.yml @@ -0,0 +1,63 @@ +name: strelka_germline +description: Strelka2 is a fast and accurate small variant caller optimized for analysis of germline variation +keywords: + - variantcalling + - germline + - wgs + - vcf + - variants +tools: + - strelka: + description: Strelka calls somatic and germline small variants from mapped sequencing reads + homepage: https://github.com/Illumina/strelka + documentation: https://github.com/Illumina/strelka/blob/v2.9.x/docs/userGuide/README.md + tool_dev_url: https://github.com/Illumina/strelka + doi: 10.1038/s41592-018-0051-x + licence: ['GPL v3'] + +input: + - meta: + type: map + description: | + Groovy Map containing sample information + e.g. [ id:'test'] + - bam: + type: file + description: BAM file + pattern: "*.{bam}" + - bai: + type: file + description: BAM index file + pattern: "*.{bai}" + - target_bed: + type: file + description: An optional bed file + pattern: "*.{bed}" +output: + - meta: + type: map + description: | + Groovy Map containing sample information + e.g. [ id:'test'] + - vcf: + type: file + description: gzipped germline variant file + pattern: "*.{vcf.gz}" + - vcf_tbi: + type: file + description: index file for the vcf file + pattern: "*.vcf.gz.tbi" + - genome_vcf: + type: file + description: variant records and compressed non-variant blocks + pattern: "*_genome.vcf.gz" + - genome_vcf_tbi: + type: file + description: index file for the genome_vcf file + pattern: "*_genome.vcf.gz.tbi" + - version: + type: file + description: File containing software version + pattern: "*.{version.txt}" +authors: + - "@arontommi" diff --git a/software/tabix/bgzip/main.nf b/software/tabix/bgzip/main.nf index 5aefbc75..6960812f 100644 --- a/software/tabix/bgzip/main.nf +++ b/software/tabix/bgzip/main.nf @@ -6,6 +6,7 @@ options = initOptions(params.options) process TABIX_BGZIP { tag "$meta.id" + label 'process_low' publishDir "${params.outdir}", mode: params.publish_dir_mode, saveAs: { filename -> saveFiles(filename:filename, options:params.options, publish_dir:getSoftwareName(task.process), publish_id:meta.id) } diff --git a/software/tabix/bgzip/meta.yml b/software/tabix/bgzip/meta.yml index 2bdb2a0f..686d72e6 100644 --- a/software/tabix/bgzip/meta.yml +++ b/software/tabix/bgzip/meta.yml @@ -11,27 +11,6 @@ tools: homepage: https://www.htslib.org/doc/tabix.html documentation: http://www.htslib.org/doc/bgzip.html doi: 10.1093/bioinformatics/btp352 -params: - - outdir: - type: string - description: | - The pipeline's output directory. By default, the module will - output files into `$params.outdir/` - - publish_dir_mode: - type: string - description: | - Value for the Nextflow `publishDir` mode parameter. - Available: symlink, rellink, link, copy, copyNoFollow, move. - - enable_conda: - type: boolean - description: | - Run the module with Conda using the software specified - via the `conda` directive - - singularity_pull_docker_container: - type: boolean - description: | - Instead of directly downloading Singularity images for use with Singularity, - force the workflow to pull and convert Docker containers instead. input: - meta: type: map diff --git a/software/tabix/tabix/meta.yml b/software/tabix/tabix/meta.yml index 8075184a..f66270db 100644 --- a/software/tabix/tabix/meta.yml +++ b/software/tabix/tabix/meta.yml @@ -10,27 +10,6 @@ tools: homepage: https://www.htslib.org/doc/tabix.html documentation: https://www.htslib.org/doc/tabix.1.html doi: 10.1093/bioinformatics/btq671 -params: - - outdir: - type: string - description: | - The pipeline's output directory. By default, the module will - output files into `$params.outdir/` - - publish_dir_mode: - type: string - description: | - Value for the Nextflow `publishDir` mode parameter. - Available: symlink, rellink, link, copy, copyNoFollow, move. - - enable_conda: - type: boolean - description: | - Run the module with Conda using the software specified - via the `conda` directive - - singularity_pull_docker_container: - type: boolean - description: | - Instead of directly downloading Singularity images for use with Singularity, - force the workflow to pull and convert Docker containers instead. input: - meta: type: map diff --git a/software/tiddit/sv/meta.yml b/software/tiddit/sv/meta.yml index 0ecd809b..f1601f72 100644 --- a/software/tiddit/sv/meta.yml +++ b/software/tiddit/sv/meta.yml @@ -10,27 +10,6 @@ tools: homepage: https://github.com/SciLifeLab/TIDDIT documentation: https://github.com/SciLifeLab/TIDDIT/blob/master/README.md doi: 10.12688/f1000research.11168.1 -params: - - outdir: - type: string - description: | - The pipeline's output directory. By default, the module will - output files into `$params.outdir/` - - publish_dir_mode: - type: string - description: | - Value for the Nextflow `publishDir` mode parameter. - Available: symlink, rellink, link, copy, copyNoFollow, move. - - enable_conda: - type: boolean - description: | - Run the module with Conda using the software specified - via the `conda` directive - - singularity_pull_docker_container: - type: boolean - description: | - Instead of directly downloading Singularity images for use with Singularity, - force the workflow to pull and convert Docker containers instead. input: - meta: type: map diff --git a/software/trimgalore/meta.yml b/software/trimgalore/meta.yml index 86ba5cd4..73538707 100644 --- a/software/trimgalore/meta.yml +++ b/software/trimgalore/meta.yml @@ -13,47 +13,6 @@ tools: MspI-digested RRBS-type (Reduced Representation Bisufite-Seq) libraries. homepage: https://www.bioinformatics.babraham.ac.uk/projects/trim_galore/ documentation: https://github.com/FelixKrueger/TrimGalore/blob/master/Docs/Trim_Galore_User_Guide.md -params: - - outdir: - type: string - description: | - The pipeline's output directory. By default, the module will - output files into `$params.outdir/` - - publish_dir_mode: - type: string - description: | - Value for the Nextflow `publishDir` mode parameter. - Available: symlink, rellink, link, copy, copyNoFollow, move. - - enable_conda: - type: boolean - description: | - Run the module with Conda using the software specified - via the `conda` directive - - singularity_pull_docker_container: - type: boolean - description: | - Instead of directly downloading Singularity images for use with Singularity, - force the workflow to pull and convert Docker containers instead. - - clip_r1: - type: integer - description: | - Instructs Trim Galore to remove bp from the 5' end of read 1 - (or single-end reads) - - clip_r2: - type: integer - description: | - Instructs Trim Galore to remove bp from the 5' end of read 2 - (paired-end reads only) - - three_prime_clip_r1: - type: integer - description: | - Instructs Trim Galore to remove bp from the 3' end of read 1 - AFTER adapter/quality trimming has been performed - - three_prime_clip_r2: - type: integer - description: | - Instructs Trim Galore to re move bp from the 3' end of read 2 - AFTER adapter/quality trimming has been performed input: - meta: type: map diff --git a/software/ucsc/bed12tobigbed/functions.nf b/software/ucsc/bed12tobigbed/functions.nf new file mode 100644 index 00000000..d25eea86 --- /dev/null +++ b/software/ucsc/bed12tobigbed/functions.nf @@ -0,0 +1,59 @@ +/* + * ----------------------------------------------------- + * Utility functions used in nf-core DSL2 module files + * ----------------------------------------------------- + */ + +/* + * Extract name of software tool from process name using $task.process + */ +def getSoftwareName(task_process) { + return task_process.tokenize(':')[-1].tokenize('_')[0].toLowerCase() +} + +/* + * Function to initialise default values and to generate a Groovy Map of available options for nf-core modules + */ +def initOptions(Map args) { + def Map options = [:] + options.args = args.args ?: '' + options.args2 = args.args2 ?: '' + options.publish_by_id = args.publish_by_id ?: false + options.publish_dir = args.publish_dir ?: '' + options.publish_files = args.publish_files + options.suffix = args.suffix ?: '' + return options +} + +/* + * Tidy up and join elements of a list to return a path string + */ +def getPathFromList(path_list) { + def paths = path_list.findAll { item -> !item?.trim().isEmpty() } // Remove empty entries + paths = paths.collect { it.trim().replaceAll("^[/]+|[/]+\$", "") } // Trim whitespace and trailing slashes + return paths.join('/') +} + +/* + * Function to save/publish module results + */ +def saveFiles(Map args) { + if (!args.filename.endsWith('.version.txt')) { + def ioptions = initOptions(args.options) + def path_list = [ ioptions.publish_dir ?: args.publish_dir ] + if (ioptions.publish_by_id) { + path_list.add(args.publish_id) + } + if (ioptions.publish_files instanceof Map) { + for (ext in ioptions.publish_files) { + if (args.filename.endsWith(ext.key)) { + def ext_list = path_list.collect() + ext_list.add(ext.value) + return "${getPathFromList(ext_list)}/$args.filename" + } + } + } else if (ioptions.publish_files == null) { + return "${getPathFromList(path_list)}/$args.filename" + } + } +} diff --git a/software/ucsc/bed12tobigbed/main.nf b/software/ucsc/bed12tobigbed/main.nf new file mode 100644 index 00000000..3b7a35bb --- /dev/null +++ b/software/ucsc/bed12tobigbed/main.nf @@ -0,0 +1,41 @@ +// Import generic module functions +include { initOptions; saveFiles; getSoftwareName } from './functions' + +params.options = [:] +def options = initOptions(params.options) + +def VERSION = '377' + +process UCSC_BED12TOBIGBED { + tag "$meta.id" + label 'process_medium' + publishDir "${params.outdir}", + mode: params.publish_dir_mode, + saveAs: { filename -> saveFiles(filename:filename, options:params.options, publish_dir:getSoftwareName(task.process), publish_id:meta.id) } + + conda (params.enable_conda ? "bioconda::ucsc-bedtobigbed=377" : null) + if (workflow.containerEngine == 'singularity' && !params.singularity_pull_docker_container) { + container "https://depot.galaxyproject.org/singularity/ucsc-bedtobigbed:377--h446ed27_1" + } else { + container "quay.io/biocontainers/ucsc-bedtobigbed:377--h446ed27_1" + } + + input: + tuple val(meta), path(bed) + path sizes + + output: + tuple val(meta), path("*.bigBed"), emit: bigbed + path "*.version.txt" , emit: version + + script: + def software = getSoftwareName(task.process) + def prefix = options.suffix ? "${meta.id}${options.suffix}" : "${meta.id}" + """ + bedToBigBed \\ + $bed \\ + $sizes \\ + ${prefix}.bigBed + echo $VERSION > ${software}.version.txt + """ +} diff --git a/software/unicycler/functions.nf b/software/unicycler/functions.nf new file mode 100644 index 00000000..f177f0c8 --- /dev/null +++ b/software/unicycler/functions.nf @@ -0,0 +1,60 @@ +/* + * ----------------------------------------------------- + * Utility functions used in nf-core DSL2 module files + * ----------------------------------------------------- + */ + +/* + * Extract name of software tool from process name using $task.process + */ +def getSoftwareName(task_process) { + return task_process.tokenize(':')[-1].tokenize('_')[0].toLowerCase() +} + +/* + * Function to initialise default values and to generate a Groovy Map of available options for nf-core modules + */ +def initOptions(Map args) { + def Map options = [:] + options.args = args.args ?: '' + options.args2 = args.args2 ?: '' + options.args3 = args.args3 ?: '' + options.publish_by_id = args.publish_by_id ?: false + options.publish_dir = args.publish_dir ?: '' + options.publish_files = args.publish_files + options.suffix = args.suffix ?: '' + return options +} + +/* + * Tidy up and join elements of a list to return a path string + */ +def getPathFromList(path_list) { + def paths = path_list.findAll { item -> !item?.trim().isEmpty() } // Remove empty entries + paths = paths.collect { it.trim().replaceAll("^[/]+|[/]+\$", "") } // Trim whitespace and trailing slashes + return paths.join('/') +} + +/* + * Function to save/publish module results + */ +def saveFiles(Map args) { + if (!args.filename.endsWith('.version.txt')) { + def ioptions = initOptions(args.options) + def path_list = [ ioptions.publish_dir ?: args.publish_dir ] + if (ioptions.publish_by_id) { + path_list.add(args.publish_id) + } + if (ioptions.publish_files instanceof Map) { + for (ext in ioptions.publish_files) { + if (args.filename.endsWith(ext.key)) { + def ext_list = path_list.collect() + ext_list.add(ext.value) + return "${getPathFromList(ext_list)}/$args.filename" + } + } + } else if (ioptions.publish_files == null) { + return "${getPathFromList(path_list)}/$args.filename" + } + } +} diff --git a/software/unicycler/main.nf b/software/unicycler/main.nf new file mode 100644 index 00000000..4841074c --- /dev/null +++ b/software/unicycler/main.nf @@ -0,0 +1,47 @@ +// Import generic module functions +include { initOptions; saveFiles; getSoftwareName } from './functions' + +params.options = [:] +options = initOptions(params.options) + +process UNICYCLER { + tag "$meta.id" + label 'process_high' + publishDir "${params.outdir}", + mode: params.publish_dir_mode, + saveAs: { filename -> saveFiles(filename:filename, options:params.options, publish_dir:getSoftwareName(task.process), publish_id:meta.id) } + + conda (params.enable_conda ? 'bioconda::unicycler=0.4.8' : null) + if (workflow.containerEngine == 'singularity' && !params.singularity_pull_docker_container) { + container "https://depot.galaxyproject.org/singularity/unicycler:0.4.8--py38h8162308_3" + } else { + container "quay.io/biocontainers/unicycler:0.4.8--py38h8162308_3" + } + + input: + tuple val(meta), path(reads) + + output: + tuple val(meta), path('*.scaffolds.fa'), emit: scaffolds + tuple val(meta), path('*.assembly.gfa'), emit: gfa + tuple val(meta), path('*.log') , emit: log + path '*.version.txt' , emit: version + + script: + def software = getSoftwareName(task.process) + def prefix = options.suffix ? "${meta.id}${options.suffix}" : "${meta.id}" + def input_reads = meta.single_end ? "-s $reads" : "-1 ${reads[0]} -2 ${reads[1]}" + """ + unicycler \\ + --threads $task.cpus \\ + $options.args \\ + $input_reads \\ + --out ./ + + mv assembly.fasta ${prefix}.scaffolds.fa + mv assembly.gfa ${prefix}.assembly.gfa + mv unicycler.log ${prefix}.unicycler.log + + echo \$(unicycler --version 2>&1) | sed 's/^.*Unicycler v//; s/ .*\$//' > ${software}.version.txt + """ +} diff --git a/software/unicycler/meta.yml b/software/unicycler/meta.yml new file mode 100644 index 00000000..286b7f67 --- /dev/null +++ b/software/unicycler/meta.yml @@ -0,0 +1,55 @@ +name: unicycler +description: Assembles bacterial genomes +keywords: + - genome + - assembly + - genome assembler + - small genome +tools: + - unicycler: + description: Hybrid assembly pipeline for bacterial genomes + homepage: https://github.com/rrwick/Unicycler + documentation: https://github.com/rrwick/Unicycler + tool_dev_url: https://github.com/rrwick/Unicycler + doi: 10.1371/journal.pcbi.1005595 + licence: ['GPL v3'] +input: + - meta: + type: map + description: | + Groovy Map containing sample information + e.g. [ id:'test', single_end:false ] + - reads: + type: file + description: | + List of input FastQ files of size 1 and 2 for single-end and paired-end data, + respectively. +output: + - meta: + type: map + description: | + Groovy Map containing sample information + e.g. [ id:'test', single_end:false ] + - version: + type: file + description: File containing software version + pattern: "*.{version.txt}" + - scaffolds: + type: file + description: Fasta file containing scaffolds + pattern: "*.{scaffolds.fa}" + - gfa: + type: file + description: gfa file containing assembly + pattern: "*.{assembly.gfa}" + - log: + type: file + description: unicycler log file + pattern: "*.{log}" + - version: + type: file + description: File containing software version + pattern: "*.{version.txt}" +authors: + - "@JoseEspinosa" + - "@drpatelh" diff --git a/software/untar/main.nf b/software/untar/main.nf index e1594263..b0fc0cd9 100644 --- a/software/untar/main.nf +++ b/software/untar/main.nf @@ -6,6 +6,7 @@ options = initOptions(params.options) process UNTAR { tag "$archive" + label 'process_low' publishDir "${params.outdir}", mode: params.publish_dir_mode, saveAs: { filename -> saveFiles(filename:filename, options:params.options, publish_dir:getSoftwareName(task.process), publish_id:'') } diff --git a/software/untar/meta.yml b/software/untar/meta.yml index 32d03b94..af4674f0 100644 --- a/software/untar/meta.yml +++ b/software/untar/meta.yml @@ -8,27 +8,6 @@ tools: description: | Extract tar.gz files. documentation: https://www.gnu.org/software/tar/manual/ -params: - - outdir: - type: string - description: | - The pipeline's output directory. By default, the module will - output files into `$params.outdir/` - - publish_dir_mode: - type: string - description: | - Value for the Nextflow `publishDir` mode parameter. - Available: symlink, rellink, link, copy, copyNoFollow, move. - - enable_conda: - type: boolean - description: | - Run the module with Conda using the software specified - via the `conda` directive - - singularity_pull_docker_container: - type: boolean - description: | - Instead of directly downloading Singularity images for use with Singularity, - force the workflow to pull and convert Docker containers instead. input: - archive: type: file diff --git a/software/vcftools/functions.nf b/software/vcftools/functions.nf new file mode 100644 index 00000000..d0720191 --- /dev/null +++ b/software/vcftools/functions.nf @@ -0,0 +1,61 @@ + +/* + * ----------------------------------------------------- + * Utility functions used in nf-core DSL2 module files + * ----------------------------------------------------- + */ + +/* + * Extract name of software tool from process name using $task.process + */ +def getSoftwareName(task_process) { + return task_process.tokenize(':')[-1].tokenize('_')[0].toLowerCase() +} + +/* + * Function to initialise default values and to generate a Groovy Map of available options for nf-core modules + */ +def initOptions(Map args) { + def Map options = [:] + options.args = args.args ?: '' + options.args2 = args.args2 ?: '' + options.args3 = args.args3 ?: '' + options.publish_by_id = args.publish_by_id ?: false + options.publish_dir = args.publish_dir ?: '' + options.publish_files = args.publish_files + options.suffix = args.suffix ?: '' + return options +} + +/* + * Tidy up and join elements of a list to return a path string + */ +def getPathFromList(path_list) { + def paths = path_list.findAll { item -> !item?.trim().isEmpty() } // Remove empty entries + paths = paths.collect { it.trim().replaceAll("^[/]+|[/]+\$", "") } // Trim whitespace and trailing slashes + return paths.join('/') +} + +/* + * Function to save/publish module results + */ +def saveFiles(Map args) { + if (!args.filename.endsWith('.version.txt')) { + def ioptions = initOptions(args.options) + def path_list = [ ioptions.publish_dir ?: args.publish_dir ] + if (ioptions.publish_by_id) { + path_list.add(args.publish_id) + } + if (ioptions.publish_files instanceof Map) { + for (ext in ioptions.publish_files) { + if (args.filename.endsWith(ext.key)) { + def ext_list = path_list.collect() + ext_list.add(ext.value) + return "${getPathFromList(ext_list)}/$args.filename" + } + } + } else if (ioptions.publish_files == null) { + return "${getPathFromList(path_list)}/$args.filename" + } + } +} diff --git a/software/vcftools/main.nf b/software/vcftools/main.nf new file mode 100644 index 00000000..8b5b9969 --- /dev/null +++ b/software/vcftools/main.nf @@ -0,0 +1,129 @@ +// Import generic module functions +include { initOptions; saveFiles; getSoftwareName } from './functions' + +params.options = [:] +options = initOptions(params.options) + +process VCFTOOLS { + tag "$meta.id" + label 'process_medium' + publishDir "${params.outdir}", + mode: params.publish_dir_mode, + saveAs: { filename -> saveFiles(filename:filename, options:params.options, publish_dir:getSoftwareName(task.process), publish_id:meta.id) } + + conda (params.enable_conda ? "bioconda::vcftools=0.1.16" : null) + if (workflow.containerEngine == 'singularity' && !params.singularity_pull_docker_container) { + container "https://depot.galaxyproject.org/singularity/vcftools:0.1.16--he513fc3_4" + } else { + container "quay.io/biocontainers/vcftools:0.1.16--he513fc3_4" + } + + input: + // Owing to the nature of vcftools we here provide solutions to working with optional bed files and optional + // alternative variant files, for use with the 'diff' suite of tools. + // Other optional input files can be utilised in a similar way to below but we do not exhaustively itterate through all + // possible options. Instead we leave that to the user. + tuple val(meta), path(variant_file) + path(bed) + path(diff_variant_file) + + output: + path("*.version.txt"), emit: version + + tuple val(meta), path("*.vcf"), optional:true, emit: vcf + tuple val(meta), path("*.bcf"), optional:true, emit: bcf + tuple val(meta), path("*.frq"), optional:true, emit: frq + tuple val(meta), path("*.frq.count"), optional:true, emit: frq_count + tuple val(meta), path("*.idepth"), optional:true, emit: idepth + tuple val(meta), path("*.ldepth"), optional:true, emit: ldepth + tuple val(meta), path("*.ldepth.mean"), optional:true, emit: ldepth_mean + tuple val(meta), path("*.gdepth"), optional:true, emit: gdepth + tuple val(meta), path("*.hap.ld"), optional:true, emit: hap_ld + tuple val(meta), path("*.geno.ld"), optional:true, emit: geno_ld + tuple val(meta), path("*.geno.chisq"), optional:true, emit: geno_chisq + tuple val(meta), path("*.list.hap.ld"), optional:true, emit: list_hap_ld + tuple val(meta), path("*.list.geno.ld"), optional:true, emit: list_geno_ld + tuple val(meta), path("*.interchrom.hap.ld"), optional:true, emit: interchrom_hap_ld + tuple val(meta), path("*.interchrom.geno.ld"), optional:true, emit: interchrom_geno_ld + tuple val(meta), path("*.TsTv"), optional:true, emit: tstv + tuple val(meta), path("*.TsTv.summary"), optional:true, emit: tstv_summary + tuple val(meta), path("*.TsTv.count"), optional:true, emit: tstv_count + tuple val(meta), path("*.TsTv.qual"), optional:true, emit: tstv_qual + tuple val(meta), path("*.FILTER.summary"), optional:true, emit: filter_summary + tuple val(meta), path("*.sites.pi"), optional:true, emit: sites_pi + tuple val(meta), path("*.windowed.pi"), optional:true, emit: windowed_pi + tuple val(meta), path("*.weir.fst"), optional:true, emit: weir_fst + tuple val(meta), path("*.het"), optional:true, emit: heterozygosity + tuple val(meta), path("*.hwe"), optional:true, emit: hwe + tuple val(meta), path("*.Tajima.D"), optional:true, emit: tajima_d + tuple val(meta), path("*.ifreqburden"), optional:true, emit: freq_burden + tuple val(meta), path("*.LROH"), optional:true, emit: lroh + tuple val(meta), path("*.relatedness"), optional:true, emit: relatedness + tuple val(meta), path("*.relatedness2"), optional:true, emit: relatedness2 + tuple val(meta), path("*.lqual"), optional:true, emit: lqual + tuple val(meta), path("*.imiss"), optional:true, emit: missing_individual + tuple val(meta), path("*.lmiss"), optional:true, emit: missing_site + tuple val(meta), path("*.snpden"), optional:true, emit: snp_density + tuple val(meta), path("*.kept.sites"), optional:true, emit: kept_sites + tuple val(meta), path("*.removed.sites"), optional:true, emit: removed_sites + tuple val(meta), path("*.singletons"), optional:true, emit: singeltons + tuple val(meta), path("*.indel.hist"), optional:true, emit: indel_hist + tuple val(meta), path("*.hapcount"), optional:true, emit: hapcount + tuple val(meta), path("*.mendel"), optional:true, emit: mendel + tuple val(meta), path("*.FORMAT"), optional:true, emit: format + tuple val(meta), path("*.INFO"), optional:true, emit: info + tuple val(meta), path("*.012"), optional:true, emit: genotypes_matrix + tuple val(meta), path("*.012.indv"), optional:true, emit: genotypes_matrix_individual + tuple val(meta), path("*.012.pos"), optional:true, emit: genotypes_matrix_position + tuple val(meta), path("*.impute.hap"), optional:true, emit: impute_hap + tuple val(meta), path("*.impute.hap.legend"), optional:true, emit: impute_hap_legend + tuple val(meta), path("*.impute.hap.indv"), optional:true, emit: impute_hap_indv + tuple val(meta), path("*.ldhat.sites"), optional:true, emit: ldhat_sites + tuple val(meta), path("*.ldhat.locs"), optional:true, emit: ldhat_locs + tuple val(meta), path("*.BEAGLE.GL"), optional:true, emit: beagle_gl + tuple val(meta), path("*.BEAGLE.PL"), optional:true, emit: beagle_pl + tuple val(meta), path("*.ped"), optional:true, emit: ped + tuple val(meta), path("*.map"), optional:true, emit: map_ + tuple val(meta), path("*.tped"), optional:true, emit: tped + tuple val(meta), path("*.tfam"), optional:true, emit: tfam + tuple val(meta), path("*.diff.sites_in_files"), optional:true, emit: diff_sites_in_files + tuple val(meta), path("*.diff.indv_in_files"), optional:true, emit: diff_indv_in_files + tuple val(meta), path("*.diff.sites"), optional:true, emit: diff_sites + tuple val(meta), path("*.diff.indv"), optional:true, emit: diff_indv + tuple val(meta), path("*.diff.discordance.matrix"), optional:true, emit: diff_discd_matrix + tuple val(meta), path("*.diff.switch"), optional:true, emit: diff_switch_error + + script: + def software = getSoftwareName(task.process) + def prefix = options.suffix ? "${meta.id}${options.suffix}" : "${meta.id}" + def args = options.args.tokenize() + + def bed_arg = (options.args.contains('--bed')) ? "--bed ${bed}" : + (options.args.contains('--exclude-bed')) ? "--exclude-bed ${bed}" : + (options.args.contains('--hapcount')) ? "--hapcount ${bed}" : '' + args.removeIf { it.contains('--bed') } + args.removeIf { it.contains('--exclude-bed') } + args.removeIf { it.contains('--hapcount') } + + def diff_variant_arg = (options.args.contains('--diff')) ? "--diff ${diff_variant_file}" : + (options.args.contains('--gzdiff')) ? "--gzdiff ${diff_variant_file}" : + (options.args.contains('--diff-bcf')) ? "--diff-bcf ${diff_variant_file}" : '' + args.removeIf { it.contains('--diff') } + args.removeIf { it.contains('--gzdiff') } + args.removeIf { it.contains('--diff-bcf') } + + def input_file = ("$variant_file".endsWith(".vcf")) ? "--vcf ${variant_file}" : + ("$variant_file".endsWith(".vcf.gz")) ? "--gzvcf ${variant_file}" : + ("$variant_file".endsWith(".bcf")) ? "--bcf ${variant_file}" : '' + + """ + vcftools \\ + $input_file \\ + --out $prefix \\ + ${args.join(' ')} \\ + $bed_arg \\ + $diff_variant_arg \\ + + echo \$(vcftools --version 2>&1) | sed 's/^.*vcftools //; s/Using.*\$//' > ${software}.version.txt + """ +} diff --git a/software/vcftools/meta.yml b/software/vcftools/meta.yml new file mode 100644 index 00000000..4da9b6c2 --- /dev/null +++ b/software/vcftools/meta.yml @@ -0,0 +1,294 @@ +name: vcftools +description: A set of tools written in Perl and C++ for working with VCF files +keywords: VCF + - sort +tools: + - vcftools: + description: A set of tools written in Perl and C++ for working with VCF files. This package only contains the C++ libraries whereas the package perl-vcftools-vcf contains the perl libraries + homepage: http://vcftools.sourceforge.net/ + documentation: http://vcftools.sourceforge.net/man_latest.html + tool_dev_url: None + doi: + licence: ['LGPL'] + +input: + - meta: + type: map + description: | + Groovy Map containing sample information + e.g. [ id:'test', single_end:false ] + - variant_file: + type: file + description: variant input file which can be vcf, vcf.gz, or bcf format. + - bed: + type: file + description: bed file which can be used with different arguments in vcftools (optional) + - diff_variant_file: + type: file + description: secondary variant file which can be used with the 'diff' suite of tools (optional) + +output: + - meta: + type: map + description: | + Groovy Map containing sample information + e.g. [ id:'test', single_end:false ] + - version: + type: file + description: File containing software version + pattern: "*.{version.txt}" + - vcf: + type: file + description: vcf file (optional) + pattern: "*.vcf" + - bcf: + type: file + description: bcf file (optional) + pattern: "*.bcf" + - frq: + type: file + description: Allele frequency for each site (optional) + pattern: "*.frq" + - frq_count: + type: file + description: Allele counts for each site (optional) + pattern: "*.frq.count" + - idepth: + type: file + description: mean depth per individual (optional) + pattern: "*.idepth" + - ldepth: + type: file + description: depth per site summed across individuals (optional) + pattern: "*.ildepth" + - ldepth_mean: + type: file + description: mean depth per site calculated across individuals (optional) + pattern: "*.ldepth.mean" + - gdepth: + type: file + description: depth for each genotype in vcf file (optional) + pattern: "*.gdepth" + - hap_ld: + type: file + description: r2, D, and D’ statistics using phased haplotypes (optional) + pattern: "*.hap.ld" + - geno_ld: + type: file + description: squared correlation coefficient between genotypes encoded as 0, 1 and 2 to represent the number of non-reference alleles in each individual (optional) + pattern: "*.geno.ld" + - geno_chisq: + type: file + description: test for genotype independence via the chi-squared statistic (optional) + pattern: "*.geno.chisq" + - list_hap_ld: + type: file + description: r2 statistics of the sites contained in the provided input file verses all other sites (optional) + pattern: "*.list.hap.ld" + - list_geno_ld: + type: file + description: r2 statistics of the sites contained in the provided input file verses all other sites (optional) + pattern: "*.list.geno.ld" + - interchrom_hap_ld: + type: file + description: r2 statistics for sites (haplotypes) on different chromosomes (optional) + pattern: "*.interchrom.hap.ld" + - interchrom_geno_ld: + type: file + description: r2 statistics for sites (genotypes) on different chromosomes (optional) + pattern: "*.interchrom.geno.ld" + - tstv: + type: file + description: Transition / Transversion ratio in bins of size defined in options (optional) + pattern: "*.TsTv" + - tstv_summary: + type: file + description: Summary of all Transitions and Transversions (optional) + pattern: "*.TsTv.summary" + - tstv_count: + type: file + description: Transition / Transversion ratio as a function of alternative allele count (optional) + pattern: "*.TsTv.count" + - tstv_qual: + type: file + description: Transition / Transversion ratio as a function of SNP quality threshold (optional) + pattern: "*.TsTv.qual" + - filter_summary: + type: file + description: Summary of the number of SNPs and Ts/Tv ratio for each FILTER category (optional) + pattern: "*.FILTER.summary" + - sites_pi: + type: file + description: Nucleotide divergency on a per-site basis (optional) + pattern: "*.sites.pi" + - windowed_pi: + type: file + description: Nucleotide diversity in windows, with window size determined by options (optional) + pattern: "*windowed.pi" + - weir_fst: + type: file + description: Fst estimate from Weir and Cockerham’s 1984 paper (optional) + pattern: "*.weir.fst" + - heterozygosity: + type: file + description: Heterozygosity on a per-individual basis (optional) + pattern: "*.het" + - hwe: + type: file + description: Contains the Observed numbers of Homozygotes and Heterozygotes and the corresponding Expected numbers under HWE (optional) + pattern: "*.hwe" + - tajima_d: + type: file + description: Tajima’s D statistic in bins with size of the specified number in options (optional) + pattern: "*.Tajima.D" + - freq_burden: + type: file + description: Number of variants within each individual of a specific frequency in options (optional) + pattern: "*.ifreqburden" + - lroh: + type: file + description: Long Runs of Homozygosity (optional) + pattern: "*.LROH" + - relatedness: + type: file + description: Relatedness statistic based on the method of Yang et al, Nature Genetics 2010 (doi:10.1038/ng.608) (optional) + pattern: "*.relatedness" + - relatedness2: + type: file + description: Relatedness statistic based on the method of Manichaikul et al., BIOINFORMATICS 2010 (doi:10.1093/bioinformatics/btq559) (optional) + pattern: "*.relatedness2" + - lqual: + type: file + description: per-site SNP quality (optional) + pattern: "*.lqual" + - missing_individual: + type: file + description: Missingness on a per-individual basis (optional) + pattern: "*.imiss" + - missing_site: + type: file + description: Missingness on a per-site basis (optional) + pattern: "*.lmiss" + - snp_density: + type: file + description: Number and density of SNPs in bins of size defined by option (optional) + pattern: "*.snpden" + - kept_sites: + type: file + description: All sites that have been kept after filtering (optional) + pattern: "*.kept.sites" + - removed_sites: + type: file + description: All sites that have been removed after filtering (optional) + pattern: "*.removed.sites" + - singeltons: + type: file + description: Location of singletons, and the individual they occur in (optional) + pattern: "*.singeltons" + - indel_hist: + type: file + description: Histogram file of the length of all indels (including SNPs) (optional) + pattern: "*.indel_hist" + - hapcount: + type: file + description: Unique haplotypes within user specified bins (optional) + pattern: "*.hapcount" + - mendel: + type: file + description: Mendel errors identified in trios (optional) + pattern: "*.mendel" + - format: + type: file + description: Extracted information from the genotype fields in the VCF file relating to a specfied FORMAT identifier (optional) + pattern: "*.FORMAT" + - info: + type: file + description: Extracted information from the INFO field in the VCF file (optional) + pattern: "*.INFO" + - genotypes_matrix: + type: file + description: | + Genotypes output as large matrix. + Genotypes of each individual on a separate line. + Genotypes are represented as 0, 1 and 2, where the number represent that number of non-reference alleles. + Missing genotypes are represented by -1 (optional) + pattern: "*.012" + - genotypes_matrix_individual: + type: file + description: Details the individuals included in the main genotypes_matrix file (optional) + pattern: "*.012.indv" + - genotypes_matrix_position: + type: file + description: Details the site locations included in the main genotypes_matrix file (optional) + pattern: "*.012.pos" + - impute_hap: + type: file + description: Phased haplotypes in IMPUTE reference-panel format (optional) + pattern: "*.impute.hap" + - impute_hap_legend: + type: file + description: Impute haplotype legend file (optional) + pattern: "*.impute.hap.legend" + - impute_hap_indv: + type: file + description: Impute haplotype individuals file (optional) + pattern: "*.impute.hap.indv" + - ldhat_sites: + type: file + description: Output data in LDhat format, sites (optional) + pattern: "*.ldhat.sites" + - ldhat_locs: + type: file + description: output data in LDhat format, locations (optional) + pattern: "*.ldhat.locs" + - beagle_gl: + type: file + description: Genotype likelihoods for biallelic sites (optional) + pattern: "*.BEAGLE.GL" + - beagle_pl: + type: file + description: Genotype likelihoods for biallelic sites (optional) + pattern: "*.BEAGLE.PL" + - ped: + type: file + description: output the genotype data in PLINK PED format (optional) + pattern: "*.ped" + - map_: + type: file + description: output the genotype data in PLINK PED format (optional) + pattern: "*.map" + - tped: + type: file + description: output the genotype data in PLINK PED format (optional) + pattern: "*.tped" + - tfam: + type: file + description: output the genotype data in PLINK PED format (optional) + pattern: "*.tfam" + - diff_sites_in_files: + type: file + description: Sites that are common / unique to each file specified in optional inputs (optional) + pattern: "*.diff.sites.in.files" + - diff_indv_in_files: + type: file + description: Individuals that are common / unique to each file specified in optional inputs (optional) + pattern: "*.diff.indv.in.files" + - diff_sites: + type: file + description: Discordance on a site by site basis, specified in optional inputs (optional) + pattern: "*.diff.sites" + - diff_indv: + type: file + description: Discordance on a individual by individual basis, specified in optional inputs (optional) + pattern: "*.diff.indv" + - diff_discd_matrix: + type: file + description: Discordance matrix between files specified in optional inputs (optional) + pattern: "*.diff.discordance.matrix" + - diff_switch_error: + type: file + description: Switch errors found between sites (optional) + pattern: "*.diff.switch" + +authors: + - "@Mark-S-Hill" diff --git a/software/yara/index/functions.nf b/software/yara/index/functions.nf new file mode 100644 index 00000000..f177f0c8 --- /dev/null +++ b/software/yara/index/functions.nf @@ -0,0 +1,60 @@ +/* + * ----------------------------------------------------- + * Utility functions used in nf-core DSL2 module files + * ----------------------------------------------------- + */ + +/* + * Extract name of software tool from process name using $task.process + */ +def getSoftwareName(task_process) { + return task_process.tokenize(':')[-1].tokenize('_')[0].toLowerCase() +} + +/* + * Function to initialise default values and to generate a Groovy Map of available options for nf-core modules + */ +def initOptions(Map args) { + def Map options = [:] + options.args = args.args ?: '' + options.args2 = args.args2 ?: '' + options.args3 = args.args3 ?: '' + options.publish_by_id = args.publish_by_id ?: false + options.publish_dir = args.publish_dir ?: '' + options.publish_files = args.publish_files + options.suffix = args.suffix ?: '' + return options +} + +/* + * Tidy up and join elements of a list to return a path string + */ +def getPathFromList(path_list) { + def paths = path_list.findAll { item -> !item?.trim().isEmpty() } // Remove empty entries + paths = paths.collect { it.trim().replaceAll("^[/]+|[/]+\$", "") } // Trim whitespace and trailing slashes + return paths.join('/') +} + +/* + * Function to save/publish module results + */ +def saveFiles(Map args) { + if (!args.filename.endsWith('.version.txt')) { + def ioptions = initOptions(args.options) + def path_list = [ ioptions.publish_dir ?: args.publish_dir ] + if (ioptions.publish_by_id) { + path_list.add(args.publish_id) + } + if (ioptions.publish_files instanceof Map) { + for (ext in ioptions.publish_files) { + if (args.filename.endsWith(ext.key)) { + def ext_list = path_list.collect() + ext_list.add(ext.value) + return "${getPathFromList(ext_list)}/$args.filename" + } + } + } else if (ioptions.publish_files == null) { + return "${getPathFromList(path_list)}/$args.filename" + } + } +} diff --git a/software/yara/index/main.nf b/software/yara/index/main.nf new file mode 100644 index 00000000..05559eaf --- /dev/null +++ b/software/yara/index/main.nf @@ -0,0 +1,39 @@ +// Import generic module functions +include { initOptions; saveFiles; getSoftwareName } from './functions' + +params.options = [:] +options = initOptions(params.options) + +process YARA_INDEX { + tag "$fasta" + label 'process_medium' + publishDir "${params.outdir}", + mode: params.publish_dir_mode, + saveAs: { filename -> saveFiles(filename:filename, options:params.options, publish_dir:'index', publish_id:'') } + + conda (params.enable_conda ? "bioconda::yara=1.0.2" : null) + if (workflow.containerEngine == 'singularity' && !params.singularity_pull_docker_container) { + container "https://depot.galaxyproject.org/singularity/yara:1.0.2--2" + } else { + container "quay.io/biocontainers/yara:1.0.2--2" + } + + input: + path fasta + + output: + path "yara", emit: index + path "*.version.txt" , emit: version + + script: + def software = getSoftwareName(task.process) + + """ + mkdir yara + yara_indexer $fasta -o "yara" + mv *.{lf,rid,sa,txt}.* yara + cp $fasta yara/yara.fasta + + echo \$(yara_indexer --help 2>&1) | grep -e "yara_indexer version:" | sed 's/yara_indexer version: //g' > ${software}.version.txt + """ +} diff --git a/software/yara/index/meta.yml b/software/yara/index/meta.yml new file mode 100644 index 00000000..f1e2ab93 --- /dev/null +++ b/software/yara/index/meta.yml @@ -0,0 +1,34 @@ +name: yara_index +description: Builds a YARA index for a reference genome +keywords: + - build + - index + - fasta + - genome + - reference +tools: + - yara: + description: Yara is an exact tool for aligning DNA sequencing reads to reference genomes. + homepage: https://github.com/seqan/seqan + documentation: https://github.com/seqan/seqan + tool_dev_url: https://github.com/seqan/seqan + doi: "" + licence: ['https://raw.githubusercontent.com/seqan/seqan/develop/apps/yara/LICENSE'] + +input: + - fasta: + type: file + description: Input genome fasta file + +output: + - version: + type: file + description: File containing software version + pattern: "*.{version.txt}" + - index: + type: file + description: YARA genome index files + pattern: "yara.*" + +authors: + - "@apeltzer" diff --git a/software/yara/mapper/functions.nf b/software/yara/mapper/functions.nf new file mode 100644 index 00000000..f177f0c8 --- /dev/null +++ b/software/yara/mapper/functions.nf @@ -0,0 +1,60 @@ +/* + * ----------------------------------------------------- + * Utility functions used in nf-core DSL2 module files + * ----------------------------------------------------- + */ + +/* + * Extract name of software tool from process name using $task.process + */ +def getSoftwareName(task_process) { + return task_process.tokenize(':')[-1].tokenize('_')[0].toLowerCase() +} + +/* + * Function to initialise default values and to generate a Groovy Map of available options for nf-core modules + */ +def initOptions(Map args) { + def Map options = [:] + options.args = args.args ?: '' + options.args2 = args.args2 ?: '' + options.args3 = args.args3 ?: '' + options.publish_by_id = args.publish_by_id ?: false + options.publish_dir = args.publish_dir ?: '' + options.publish_files = args.publish_files + options.suffix = args.suffix ?: '' + return options +} + +/* + * Tidy up and join elements of a list to return a path string + */ +def getPathFromList(path_list) { + def paths = path_list.findAll { item -> !item?.trim().isEmpty() } // Remove empty entries + paths = paths.collect { it.trim().replaceAll("^[/]+|[/]+\$", "") } // Trim whitespace and trailing slashes + return paths.join('/') +} + +/* + * Function to save/publish module results + */ +def saveFiles(Map args) { + if (!args.filename.endsWith('.version.txt')) { + def ioptions = initOptions(args.options) + def path_list = [ ioptions.publish_dir ?: args.publish_dir ] + if (ioptions.publish_by_id) { + path_list.add(args.publish_id) + } + if (ioptions.publish_files instanceof Map) { + for (ext in ioptions.publish_files) { + if (args.filename.endsWith(ext.key)) { + def ext_list = path_list.collect() + ext_list.add(ext.value) + return "${getPathFromList(ext_list)}/$args.filename" + } + } + } else if (ioptions.publish_files == null) { + return "${getPathFromList(path_list)}/$args.filename" + } + } +} diff --git a/software/yara/mapper/main.nf b/software/yara/mapper/main.nf new file mode 100644 index 00000000..3938cadd --- /dev/null +++ b/software/yara/mapper/main.nf @@ -0,0 +1,48 @@ +// Import generic module functions +include { initOptions; saveFiles; getSoftwareName } from './functions' + +params.options = [:] +options = initOptions(params.options) + +process YARA_MAPPER { + tag "$meta.id" + label 'process_medium' + publishDir "${params.outdir}", + mode: params.publish_dir_mode, + saveAs: { filename -> saveFiles(filename:filename, options:params.options, publish_dir:getSoftwareName(task.process), publish_id:meta.id) } + + conda (params.enable_conda ? "bioconda::yara=1.0.2 bioconda::samtools=1.12" : null) + if (workflow.containerEngine == 'singularity' && !params.singularity_pull_docker_container) { + container "https://depot.galaxyproject.org/singularity/mulled-v2-f13549097a0d1ca36f9d4f017636fb3609f6c083:f794a548b8692f29264c8984ff116c2141b90d9e-0" + } else { + container "quay.io/biocontainers/mulled-v2-f13549097a0d1ca36f9d4f017636fb3609f6c083:f794a548b8692f29264c8984ff116c2141b90d9e-0" + } + + input: + tuple val(meta), path(reads) + path index + + output: + tuple val(meta), path("*.mapped.bam"), emit: bam + path "*.version.txt" , emit: version + + script: + def software = getSoftwareName(task.process) + def prefix = options.suffix ? "${meta.id}${options.suffix}" : "${meta.id}" + + if(meta.single_end) { + """ + yara_mapper $options.args -t ${task.cpus} -f bam ${index}/yara $reads | samtools view -@ ${task.cpus} -hb -F4 > ${prefix}.mapped.bam + + echo \$(yara_mapper --help 2>&1) > ${software}.version.txt + """ + } else { + """ + yara_mapper $options.args -t ${task.cpus} -f bam ${index}/yara ${reads[0]} ${reads[1]} > output.bam + samtools view -@ ${task.cpus} -hF 4 -f 0x40 -b output.bam > ${prefix}_1.mapped.bam + samtools view -@ ${task.cpus} -hF 4 -f 0x80 -b output.bam > ${prefix}_2.mapped.bam + echo \$(yara_mapper --version 2>&1) | grep -e "yara_mapper version:" | sed 's/yara_mapper version: //g' > ${software}.version.txt + """ + } + +} diff --git a/software/yara/mapper/meta.yml b/software/yara/mapper/meta.yml new file mode 100644 index 00000000..4a8e6494 --- /dev/null +++ b/software/yara/mapper/meta.yml @@ -0,0 +1,47 @@ +name: yara_mapper +description: Align reads to a reference genome using YARA +keywords: + - align + - genome + - reference +tools: + - yara: + description: Yara is an exact tool for aligning DNA sequencing reads to reference genomes. + homepage: https://github.com/seqan/seqan + documentation: https://github.com/seqan/seqan + tool_dev_url: https://github.com/seqan/seqan + doi: "" + licence: ['https://raw.githubusercontent.com/seqan/seqan/develop/apps/yara/LICENSE'] + +input: + - meta: + type: map + description: | + Groovy Map containing sample information + e.g. [ id:'test', single_end:false ] + - reads: + type: file + description: | + List of input FastQ files of size 1 and 2 for single-end and paired-end data, + respectively. + - index: + type: file + description: YARA genome index files + +output: + - meta: + type: map + description: | + Groovy Map containing sample information + e.g. [ id:'test', single_end:false ] + - version: + type: file + description: File containing software version + pattern: "*.{version.txt}" + - bam: + type: file + description: Sorted BAM file + pattern: "*.{bam}" + +authors: + - "@apeltzer" diff --git a/tests/config/nextflow.config b/tests/config/nextflow.config index 26e10357..83f9506e 100644 --- a/tests/config/nextflow.config +++ b/tests/config/nextflow.config @@ -7,7 +7,7 @@ params { process { cpus = 2 - memory = 6.GB + memory = 3.GB time = 48.h } @@ -20,3 +20,10 @@ if ("$PROFILE" == "singularity") { docker.enabled = true docker.runOptions = '-u \$(id -u):\$(id -g)' } + +// Load test_data.config containing paths to test data +includeConfig 'test_data.config' + +manifest { + nextflowVersion = '!>=20.11.0-edge' +} diff --git a/tests/config/pytest_software.yml b/tests/config/pytest_software.yml index 3e06b77a..a4c2b906 100644 --- a/tests/config/pytest_software.yml +++ b/tests/config/pytest_software.yml @@ -1,3 +1,11 @@ +adapterremoval: + - software/adapterremoval/** + - tests/software/adapterremoval/** + +allelecounter: + - software/allelecounter/** + - tests/software/allelecounter/** + bandage_image: - software/bandage/image/** - tests/software/bandage/image/** @@ -58,39 +66,65 @@ bedtools_sort: - software/bedtools/sort/** - tests/software/bedtools/sort/** +bismark_align: + - software/bismark/align/** + - software/bismark/genomepreparation/** + - tests/software/bismark/align/** + bismark_deduplicate: - software/bismark/deduplicate/** - tests/software/bismark/deduplicate/** -bismark_genome_preparation: - - software/bismark/genome_preparation/** - - tests/software/bismark/genome_preparation/** +bismark_genomepreparation: + - software/bismark/genomepreparation/** + - tests/software/bismark/genomepreparation/** -blast_makeblastdb: - - software/blast/makeblastdb/** - - tests/software/blast/makeblastdb/** +bismark_methylationextractor: + - software/bismark/methylationextractor/** + - software/bismark/genomepreparation/** + - tests/software/bismark/methylationextractor/** + +bismark_report: + - software/bismark/genomepreparation/** + - software/bismark/align/** + - software/bismark/deduplicate/** + - software/bismark/methylationextractor/** + - software/bismark/report/** + - tests/software/bismark/report/** + +bismark_summary: + - software/bismark/genomepreparation/** + - software/bismark/align/** + - software/bismark/deduplicate/** + - software/bismark/methylationextractor/** + - software/bismark/summary/** + - tests/software/bismark/summary/** blast_blastn: - software/blast/blastn/** - tests/software/blast/blastn/** -bowtie_build: - - software/bowtie/build/** - - tests/software/bowtie/build_test/** +blast_makeblastdb: + - software/blast/makeblastdb/** + - tests/software/blast/makeblastdb/** + +bowtie2_align: + - software/bowtie2/align/** + - software/bowtie2/build/** + - tests/software/bowtie2/align/** + +bowtie2_build: + - software/bowtie2/build/** + - tests/software/bowtie2/build_test/** bowtie_align: - software/bowtie/align/** - software/bowtie/build/** - tests/software/bowtie/align/** -bowtie2_build: - - software/bowtie2/build/** - - tests/software/bowtie2/build_test/** - -bowtie2_align: - - software/bowtie2/align/** - - software/bowtie2/build/** - - tests/software/bowtie2/align/** +bowtie_build: + - software/bowtie/build/** + - tests/software/bowtie/build_test/** bwa_index: - software/bwa/index/** @@ -120,6 +154,10 @@ cat_fastq: - software/cat/fastq/** - tests/software/cat/fastq/** +cnvkit: + - software/cnvkit/** + - tests/software/cnvkit/** + cutadapt: - software/cutadapt/** - tests/software/cutadapt/** @@ -140,6 +178,26 @@ fastqc: - software/fastqc/** - tests/software/fastqc/** +fgbio_callmolecularconsensusreads: + - software/fgbio/callmolecularconsensusreads/** + - tests/software/fgbio/callmolecularconsensusreads/** + +fgbio_sortbam: + - software/fgbio/sortbam/** + - tests/software/fgbio/sortbam/** + +flash: + - software/flash/** + - tests/software/flash/** + +gatk4_applybqsr: + - software/gatk4/applybqsr/** + - tests/software/gatk4/applybqsr/** + +gatk4_baserecalibrator: + - software/gatk4/baserecalibrator/** + - tests/software/gatk4/baserecalibrator/** + gatk4_bedtointervallist: - software/gatk4/bedtointervallist/** - tests/software/gatk4/bedtointervallist/** @@ -148,6 +206,22 @@ gatk4_createsequencedictionary: - software/gatk4/createsequencedictionary/** - tests/software/gatk4/createsequencedictionary/** +gatk4_fastqtosam: + - software/gatk4/fastqtosam/** + - tests/software/gatk4/fastqtosam/** + +gatk4_haplotypecaller: + - software/gatk4/haplotypecaller/** + - tests/software/gatk4/haplotypecaller/** + +gatk4_markduplicates: + - software/gatk4/markduplicates/** + - tests/software/gatk4/markduplicates/** + +gatk4_mergebamalignment: + - software/gatk4/mergebamalignment/** + - tests/software/gatk4/mergebamalignment/** + gatk4_mergevcfs: - software/gatk4/mergevcfs/** - tests/software/gatk4/mergevcfs/** @@ -164,6 +238,10 @@ gatk4_splitncigarreads: - software/gatk4/splitncigarreads/** - tests/software/gatk4/splitncigarreads/** +gatk4_variantfiltration: + - software/gatk4/variantfiltration/** + - tests/software/gatk4/variantfiltration/** + gffread: - software/gffread/** - tests/software/gffread/** @@ -172,6 +250,25 @@ gunzip: - software/gunzip/** - tests/software/gunzip/** +hisat2_align: + - software/hisat2/align/** + - software/hisat2/build/** + - software/hisat2/extractsplicesites/** + - tests/software/hisat2/align/** + +hisat2_build: + - software/hisat2/build/** + - software/hisat2/extractsplicesites/** + - tests/software/hisat2/build_test/** + +hisat2_extractsplicesites: + - software/hisat2/extractsplicesites/** + - tests/software/hisat2/extractsplicesites/** + +homer_annotatepeaks: + - software/homer/annotatepeaks/** + - tests/software/homer/annotatepeaks/** + ivar_consensus: - software/ivar/consensus/** - tests/software/ivar/consensus/** @@ -184,6 +281,14 @@ ivar_variants: - software/ivar/variants/** - tests/software/ivar/variants/** +kallisto_index: + - software/kallisto/index/** + - tests/software/kallisto/index/** + +kraken2_run: + - software/kraken2/run/** + - tests/software/kraken2/run/** + methyldackel_extract: - software/methyldackel/extract/** - tests/software/methyldackel/extract/** @@ -192,6 +297,10 @@ methyldackel_mbias: - software/methyldackel/mbias/** - tests/software/methyldackel/mbias/** +minia: + - software/minia/** + - tests/software/minia/** + minimap2_align: - software/minimap2/align/** - tests/software/minimap2/align/** @@ -200,11 +309,23 @@ mosdepth: - software/mosdepth/** - tests/software/mosdepth/** +msisensor_msi: + - software/msisensor/msi/** + - tests/software/msisensor/msi/** + +msisensor_scan: + - software/msisensor/scan/** + - tests/software/msisensor/scan/** + multiqc: - software/fastqc/** - software/multiqc/** - tests/software/multiqc/** +optitype: + - software/optitype/** + - tests/software/optitype/** + pangolin: - software/pangolin/** - tests/software/pangolin/** @@ -213,6 +334,10 @@ picard_collectmultiplemetrics: - software/picard/collectmultiplemetrics/** - tests/software/picard/collectmultiplemetrics/** +picard_collectwgsmetrics: + - software/picard/collectwgsmetrics/** + - tests/software/picard/collectwgsmetrics/** + picard_markduplicates: - software/picard/markduplicates/** - tests/software/picard/markduplicates/** @@ -225,6 +350,14 @@ preseq_lcextrap: - software/preseq/lcextrap/** - tests/software/preseq/lcextrap/** +prodigal: + - software/prodigal/** + - tests/software/prodigal/** + +prokka: + - software/prokka/** + - tests/software/prokka/** + qualimap_bamqc: - software/qualimap/bamqc/** - tests/software/qualimap/bamqc/** @@ -245,6 +378,10 @@ samtools_faidx: - software/samtools/faidx/** - tests/software/samtools/faidx/** +samtools_fastq: + - software/samtools/fastq/** + - tests/software/samtools/fastq/** + samtools_flagstat: - software/samtools/flagstat/** - tests/software/samtools/flagstat/** @@ -257,6 +394,10 @@ samtools_index: - software/samtools/index/** - tests/software/samtools/index/** +samtools_merge: + - software/samtools/merge/** + - tests/software/samtools/merge/** + samtools_mpileup: - software/samtools/mpileup/** - tests/software/samtools/mpileup/** @@ -281,10 +422,34 @@ seqkit_split2: - software/seqkit/split2/** - tests/software/seqkit/split2/** +sequenza_bam2seqz: + - software/sequenza/bam2seqz/** + - tests/software/sequenza/bam2seqz/** + +sequenza_wiggle: + - software/sequenza/wiggle/** + - tests/software/sequenza/wiggle/** + +sequenzautils_bam2seqz: + - software/sequenzautils/bam2seqz/** + - tests/software/sequenzautils/bam2seqz/** + +sequenzautils_gcwiggle: + - software/sequenzautils/gcwiggle/** + - tests/software/sequenzautils/gcwiggle/** + seqwish_induce: - software/seqwish/induce/** - tests/software/seqwish/induce/** +shovill: + - software/shovill/** + - tests/software/shovill/** + +spades: + - software/spades/** + - tests/software/spades/** + star_align: - software/star/align/** - tests/software/star/align/** @@ -293,6 +458,10 @@ star_genomegenerate: - software/star/genomegenerate/** - tests/software/star/genomegenerate/** +strelka_germline: + - software/strelka/germline/** + - tests/software/strelka/germline/** + stringtie: - software/stringtie/** - tests/software/stringtie/** @@ -313,10 +482,30 @@ trimgalore: - software/trimgalore/** - tests/software/trimgalore/** -untar: - - software/untar/** - - tests/software/untar/** +ucsc_bed12tobigbed: + - software/ucsc/bed12tobigbed/** + - tests/software/ucsc/bed12tobigbed/** ucsc_bedgraphtobigwig: - software/ucsc/bedgraphtobigwig/** - tests/software/ucsc/bedgraphtobigwig/** + +unicycler: + - software/unicycler/** + - tests/software/unicycler/** + +untar: + - software/untar/** + - tests/software/untar/** + +vcftools: + - software/vcftools/** + - tests/software/vcftools/** + +yara: + - software/yara/mapper/** + - tests/software/yara/mapper/** + +yara_index: + - software/yara/index/** + - tests/software/yara/index/** diff --git a/tests/config/test_data.config b/tests/config/test_data.config new file mode 100644 index 00000000..033a5978 --- /dev/null +++ b/tests/config/test_data.config @@ -0,0 +1,72 @@ +// Base directory for test data +def test_data_dir = "${launchDir}/tests/data/" + +params { + test_data { + 'sarscov2' { + 'genome' { + genome_fasta = "${test_data_dir}/genomics/sarscov2/genome/genome.fasta" + genome_fasta_fai = "${test_data_dir}/genomics/sarscov2/genome/genome.fasta.fai" + genome_dict = "${test_data_dir}/genomics/sarscov2/genome/genome.dict" + genome_gff3 = "${test_data_dir}/genomics/sarscov2/genome/genome.gff3" + genome_gtf = "${test_data_dir}/genomics/sarscov2/genome/genome.gtf" + genome_sizes = "${test_data_dir}/genomics/sarscov2/genome/genome.sizes" + transcriptome_fasta = "${test_data_dir}/genomics/sarscov2/genome/transcriptome.fasta" + transcriptome_paf = "${test_data_dir}/genomics/sarscov2/genome/transcriptome.paf" + + test_bed = "${test_data_dir}/genomics/sarscov2/genome/bed/test.bed" + test_bed_gz = "${test_data_dir}/genomics/sarscov2/genome/bed/test.bed.gz" + test2_bed = "${test_data_dir}/genomics/sarscov2/genome/bed/test2.bed" + test_bed12 = "${test_data_dir}/genomics/sarscov2/genome/bed/test.bed12" + baits_bed = "${test_data_dir}/genomics/sarscov2/genome/bed/baits.bed" + + kraken2 = "${test_data_dir}/genomics/sarscov2/genome/db/kraken2" + kraken2_tar_gz = "${test_data_dir}/genomics/sarscov2/genome/db/kraken2.tar.gz" + + test_wig_gz = "${test_data_dir}/genomics/sarscov2/genome/gcwiggle/test.wig.gz" + } + 'illumina' { + test_single_end_bam = "${test_data_dir}/genomics/sarscov2/illumina/bam/test_single_end.bam" + test_single_end_sorted_bam = "${test_data_dir}/genomics/sarscov2/illumina/bam/test_single_end.sorted.bam" + test_single_end_sorted_bam_bai = "${test_data_dir}/genomics/sarscov2/illumina/bam/test_single_end.sorted.bam.bai" + test_paired_end_bam = "${test_data_dir}/genomics/sarscov2/illumina/bam/test_paired_end.bam" + test_paired_end_sorted_bam = "${test_data_dir}/genomics/sarscov2/illumina/bam/test_paired_end.sorted.bam" + test_paired_end_sorted_bam_bai = "${test_data_dir}/genomics/sarscov2/illumina/bam/test_paired_end.sorted.bam.bai" + test_methylated_paired_end_bam = "${test_data_dir}/genomics/sarscov2/illumina/bam/test_methylated_paired_end.bam" + test_methylated_paired_end_sorted_bam = "${test_data_dir}/genomics/sarscov2/illumina/bam/test_methylated_paired_end.sorted.bam" + test_methylated_paired_end_sorted_bam_bai = "${test_data_dir}/genomics/sarscov2/illumina/bam/test_methylated_paired_end.sorted.bam.bai" + test_unaligned_bam = "${test_data_dir}/genomics/sarscov2/illumina/bam/test_unaligned.bam" + + test_1_fastq_gz = "${test_data_dir}/genomics/sarscov2/illumina/fastq/test_1.fastq.gz" + test_2_fastq_gz = "${test_data_dir}/genomics/sarscov2/illumina/fastq/test_2.fastq.gz" + test2_1_fastq_gz = "${test_data_dir}/genomics/sarscov2/illumina/fastq/test2_1.fastq.gz" + test2_2_fastq_gz = "${test_data_dir}/genomics/sarscov2/illumina/fastq/test2_2.fastq.gz" + test_methylated_1_fastq_gz = "${test_data_dir}/genomics/sarscov2/illumina/fastq/test_methylated_1.fastq.gz" + test_methylated_2_fastq_gz = "${test_data_dir}/genomics/sarscov2/illumina/fastq/test_methylated_2.fastq.gz" + + test_baserecalibrator_table = "${test_data_dir}/genomics/sarscov2/illumina/gatk/test.baserecalibrator.table" + + test_vcf = "${test_data_dir}/genomics/sarscov2/illumina/vcf/test.vcf" + test_vcf_gz = "${test_data_dir}/genomics/sarscov2/illumina/vcf/test.vcf.gz" + test_vcf_gz_tbi = "${test_data_dir}/genomics/sarscov2/illumina/vcf/test.vcf.gz.tbi" + test2_vcf = "${test_data_dir}/genomics/sarscov2/illumina/vcf/test2.vcf" + test2_vcf_gz = "${test_data_dir}/genomics/sarscov2/illumina/vcf/test2.vcf.gz" + test2_vcf_gz_tbi = "${test_data_dir}/genomics/sarscov2/illumina/vcf/test2.vcf.gz.tbi" + test3_vcf = "${test_data_dir}/genomics/sarscov2/illumina/vcf/test3.vcf" + test3_vcf_gz = "${test_data_dir}/genomics/sarscov2/illumina/vcf/test3.vcf.gz" + test3_vcf_gz_tbi = "${test_data_dir}/genomics/sarscov2/illumina/vcf/test3.vcf.gz.tbi" + } + 'nanopore' { + test_sorted_bam = "${test_data_dir}/genomics/sarscov2/nanopore/bam/test.sorted.bam" + test_sorted_bam_bai = "${test_data_dir}/genomics/sarscov2/nanopore/bam/test.sorted.bam.bai" + + test_fastq_gz = "${test_data_dir}/genomics/sarscov2/nanopore/fastq/test.fastq.gz" + } + } + 'homo_sapiens' { + 'illumina' { + test_paired_end_bam = "${test_data_dir}/genomics/homo_sapiens/illumina/bam/test_paired_end.bam" + } + } + } +} diff --git a/tests/data/README.md b/tests/data/README.md index 8d02d790..707505d6 100644 --- a/tests/data/README.md +++ b/tests/data/README.md @@ -14,6 +14,7 @@ When adding a new module, please check carefully whether the data necessary for * 'test_{,methylated}_paired_end.sorted.bam': sorted version of the above bam file * 'test_{,methylated}_paired_end.bam.sorted.bam.bai': bam index for the sorted bam file * 'test_single_end.bam': alignment (unsorted) of the 'test_1.fastq.gz' reads against test_genomic.fasta using minimap2 + * 'test_unaligned.bam': unmapped BAM file created from 'test_1.fastq.gz' using GATK4 SamToFastq * bed * 'test.bed': exemplary bed file for the MT192765.1 genome (fasta/test_genomic.fasta) * 'test.2.bed': slightly modified copy of the above file @@ -34,6 +35,8 @@ When adding a new module, please check carefully whether the data necessary for * 'test_genomic.gff3.gz': bgzipped-version * paf * 'test_cds_from_genomic.paf': PAF file for MT192765.1 genome + * table: + * 'test.table': Recalibration table generated with gatk4 BaseRecalibrator from 'test_paired_end.sorted.bam', using 'test.vcf.gz' as known sites. * vcf * 'test.vcf', 'test2.vcf': generated from 'test_paired_end.sorted.bam' using bcftools mpileup, call and filter * 'test3.vcf': generated from 'test_single_end.sorted.bam' using bcftools mpileup, call and filter @@ -49,6 +52,3 @@ When adding a new module, please check carefully whether the data necessary for * gtf: additional gtf file for STAR * vcf: several VCF files for tools using those, will be removed in the future * 'test.txt.gar.gz' exemplary tar file for the untar module - - - diff --git a/tests/data/generic/bedgraph/IgG_1_to_chr20.bedgraph b/tests/data/delete_me/bedgraph/IgG_1_to_chr20.bedgraph similarity index 100% rename from tests/data/generic/bedgraph/IgG_1_to_chr20.bedgraph rename to tests/data/delete_me/bedgraph/IgG_1_to_chr20.bedgraph diff --git a/tests/data/generic/bedgraph/K27me3_1_to_chr20.bedgraph b/tests/data/delete_me/bedgraph/K27me3_1_to_chr20.bedgraph similarity index 100% rename from tests/data/generic/bedgraph/K27me3_1_to_chr20.bedgraph rename to tests/data/delete_me/bedgraph/K27me3_1_to_chr20.bedgraph diff --git a/tests/data/generic/fastq/test_R1.fastq.gz b/tests/data/delete_me/fastq/test_R1.fastq.gz similarity index 100% rename from tests/data/generic/fastq/test_R1.fastq.gz rename to tests/data/delete_me/fastq/test_R1.fastq.gz diff --git a/tests/data/generic/fastq/test_R2.fastq.gz b/tests/data/delete_me/fastq/test_R2.fastq.gz similarity index 100% rename from tests/data/generic/fastq/test_R2.fastq.gz rename to tests/data/delete_me/fastq/test_R2.fastq.gz diff --git a/tests/data/generic/fastq/test_single_end.fastq.gz b/tests/data/delete_me/fastq/test_single_end.fastq.gz similarity index 100% rename from tests/data/generic/fastq/test_single_end.fastq.gz rename to tests/data/delete_me/fastq/test_single_end.fastq.gz diff --git a/tests/data/generic/gfa/B-3106.gfa b/tests/data/delete_me/gfa/B-3106.gfa similarity index 100% rename from tests/data/generic/gfa/B-3106.gfa rename to tests/data/delete_me/gfa/B-3106.gfa diff --git a/tests/data/generic/test.txt.tar.gz b/tests/data/delete_me/test.txt.tar.gz similarity index 100% rename from tests/data/generic/test.txt.tar.gz rename to tests/data/delete_me/test.txt.tar.gz diff --git a/tests/data/generic/fasta/GCF_000019425.1_ASM1942v1_genomic.fna b/tests/data/generic/fasta/GCF_000019425.1_ASM1942v1_genomic.fna deleted file mode 100644 index c5dcb8fc..00000000 --- a/tests/data/generic/fasta/GCF_000019425.1_ASM1942v1_genomic.fna +++ /dev/null @@ -1,58578 +0,0 @@ ->NC_010473.1 Escherichia coli str. K-12 substr. DH10B, complete sequence -AGCTTTTCATTCTGACTGCAACGGGCAATATGTCTCTGTGTGGATTAAAAAAAGAGTGTCTGATAGCAGCTTCTGAACTG -GTTACCTGCCGTGAGTAAATTAAAATTTTATTGACTTAGGTCACTAAATACTTTAACCAATATAGGCATAGCGCACAGAC -AGATAAAAATTACAGAGTACACAACATCCATGAAACGCATTAGCACCACCATTACCACCACCATCACCATTACCACAGGT -AACGGTGCGGGCTGACGCGTACAGGAAACACAGAAAAAAGCCCGCACCTGACAGTGCGGGCTTTTTTTTTCGACCAAAGG -TAACGAGGTAACAACCATGCGAGTGTTGAAGTTCGGCGGTACATCAGTGGCAAATGCAGAACGTTTTCTGCGTGTTGCCG -ATATTCTGGAAAGCAATGCCAGGCAGGGGCAGGTGGCCACCGTCCTCTCTGCCCCCGCCAAAATCACCAACCACCTGGTG -GCGATGATTGAAAAAACCATTAGCGGCCAGGATGCTTTACCCAATATCAGCGATGCCGAACGTATTTTTGCCGAACTTTT -GACGGGACTCGCCGCCGCCCAGCCGGGGTTCCCGCTGGCGCAATTGAAAACTTTCGTCGATCAGGAATTTGCCCAAATAA -AACATGTCCTGCATGGCATTAGTTTGTTGGGGCAGTGCCCGGATAGCATCAACGCTGCGCTGATTTGCCGTGGCGAGAAA -ATGTCGATCGCCATTATGGCCGGCGTATTAGAAGCGCGCGGTCACAACGTTACTGTTATCGATCCGGTCGAAAAACTGCT -GGCAGTGGGGCATTACCTCGAATCTACCGTCGATATTGCTGAGTCCACCCGCCGTATTGCGGCAAGCCGCATTCCGGCTG -ATCACATGGTGCTGATGGCAGGTTTCACCGCCGGTAATGAAAAAGGCGAACTGGTGGTGCTTGGACGCAACGGTTCCGAC -TACTCTGCTGCGGTGCTGGCTGCCTGTTTACGCGCCGATTGTTGCGAGATTTGGACGGACGTTGACGGGGTCTATACCTG -CGACCCGCGTCAGGTGCCCGATGCGAGGTTGTTGAAGTCGATGTCCTACCAGGAAGCGATGGAGCTTTCCTACTTCGGCG -CTAAAGTTCTTCACCCCCGCACCATTACCCCCATCGCCCAGTTCCAGATCCCTTGCCTGATTAAAAATACCGGAAATCCT -CAAGCACCAGGTACGCTCATTGGTGCCAGCCGTGATGAAGACGAATTACCGGTCAAGGGCATTTCCAATCTGAATAACAT -GGCAATGTTCAGCGTTTCTGGTCCGGGGATGAAAGGGATGGTCGGCATGGCGGCGCGCGTCTTTGCAGCGATGTCACGCG -CCCGTATTTCCGTGGTGCTGATTACGCAATCATCTTCCGAATACAGCATCAGTTTCTGCGTTCCACAAAGCGACTGTGTG -CGAGCTGAACGGGCAATGCAGGAAGAGTTCTACCTGGAACTGAAAGAAGGCTTACTGGAGCCGCTGGCAGTGACGGAACG -GCTGGCCATTATCTCGGTGGTAGGTGATGGTATGCGCACCTTGCGTGGGATCTCGGCGAAATTCTTTGCCGCACTGGCCC -GCGCCAATATCAACATTGTCGCCATTGCTCAGGGATCTTCTGAACGCTCAATCTCTGTCGTGGTAAATAACGATGATGCG -ACCACTGGCGTGCGCGTTACTCATCAGATGCTGTTCAATACCGATCAGGTTATCGAAGTGTTTGTGATTGGCGTCGGTGG -CGTTGGCGGTGCGCTGCTGGAGCAACTGAAGCGTCAGCAAAGCTGGCTGAAGAATAAACATATCGACTTACGTGTCTGCG -GTGTTGCCAACTCGAAGGCTCTGCTCACCAATGTACATGGCCTTAATCTGGAAAACTGGCAGGAAGAACTGGCGCAAGCC -AAAGAGCCGTTTAATCTCGGGCGCTTAATTCGCCTCGTGAAAGAATATCATCTGCTGAACCCGGTCATTGTTGACTGCAC -TTCCAGCCAGGCAGTGGCGGATCAATATGCCGACTTCCTGCGCGAAGGTTTCCACGTTGTCACGCCGAACAAAAAGGCCA -ACACCTCGTCGATGGATTACTACCATCAGTTGCGTTATGCGGCGGAAAAATCGCGGCGTAAATTCCTCTATGACACCAAC -GTTGGGGCTGGATTACCGGTTATTGAGAACCTGCAAAATCTGCTCAATGCAGGTGATGAATTGATGAAGTTCTCCGGCAT -TCTTTCTGGTTCGCTTTCTTATATCTTCGGCAAGTTAGACGAAGGCATGAGTTTCTCCGAGGCGACCACGCTGGCGCGGG -AAATGGGTTATACCGAACCGGACCCGCGAGATGATCTTTCTGGTATGGATGTGGCGCGTAAACTATTGATTCTCGCTCGT -GAAACGGGACGTGAACTGGAGCTGGCGGATATTGAAATTGAACCTGTGCTGCCCGCAGAGTTTAACGCCGAGGGTGATGT -TGCCGCTTTTATGGCGAATCTGTCACAACTCGACGATCTCTTTGCCGCGCGCGTGGCGAAGGCCCGTGATGAAGGAAAAG -TTTTGCGCTATGTTGGCAATATTGATGAAGATGGCGTCTGCCGCGTGAAGATTGCCGAAGTGGATGGTAATGATCCGCTG -TTCAAAGTGAAAAATGGCGAAAACGCCCTGGCCTTCTATAGCCACTATTATCAGCCGCTGCCGTTGGTACTGCGCGGATA -TGGTGCGGGCAATGACGTTACAGCTGCCGGTGTCTTTGCTGATCTGCTACGTACCCTCTCATGGAAGTTAGGAGTCTGAC -ATGGTTAAAGTTTATGCCCCGGCTTCCAGTGCCAATATGAGCGTCGGGTTTGATGTGCTCGGGGCGGCGGTGACACCTGT -TGATGGTGCATTGCTCGGAGATGTAGTCACGGTTGAGGCGGCAGAGACATTCAGTCTCAACAACCTCGGACGCTTTGCCG -ATAAGCTGCCGTCAGAACCACGGGAAAATATCGTTTATCAGTGCTGGGAGCGTTTTTGCCAGGAACTGGGTAAGCAAATT -CCAGTGGCGATGACCCTGGAAAAGAATATGCCGATCGGTTCGGGCTTAGGCTCCAGTGCCTGTTCGGTGGTCGCGGCGCT -GATGGCGATGAATGAACACTGCGGCAAGCCGCTTAATGACACTCGTTTGCTGGCTTTGATGGGCGAGCTGGAAGGCCGTA -TCTCCGGCAGCATTCATTACGACAACGTGGCACCGTGTTTTCTCGGTGGTATGCAGTTGATGATCGAAGAAAACGACATC -ATCAGCCAGCAAGTGCCAGGGTTTGATGAGTGGCTGTGGGTGCTGGCGTATCCGGGGATTAAAGTCTCGACGGCAGAAGC -CAGGGCTATTTTACCGGCGCAGTATCGCCGCCAGGATTGCATTGCGCACGGGCGACATCTGGCAGGCTTCATTCACGCCT -GCTATTCCCGTCAGCCTGAGCTTGCCGCGAAGCTGATGAAAGATGTTATCGCTGAACCCTACCGTGAACGGTTACTGCCA -GGCTTCCGGCAGGCGCGGCAGGCGGTCGCGGAAATCGGCGCGGTAGCGAGCGGTATCTCCGGCTCCGGCCCGACCTTGTT -CGCTCTGTGTGACAAGCCGGAAACCGCCCAGCGCGTTGCCGACTGGTTGGGTAAGAACTACCTGCAAAATCAGGAAGGTT -TTGTTCATATTTGCCGGCTGGATACGGCGGGCGCACGAGTACTGGAAAACTAAATGAAACTCTACAATCTGAAAGATCAC -AACGAGCAGGTCAGCTTTGCGCAAGCCGTAACCCAGGGGTTGGGCAAAAATCAGGGGCTGTTTTTTCCGCACGACCTGCC -GGAATTCAGCCTGACTGAAATTGATGAGATGCTGAAGCTGGATTTTGTCACCCGCAGTGCGAAGATCCTCTCGGCGTTTA -TTGGTGATGAAATCCCACAGGAAATCCTGGAAGAGCGCGTGCGCGCGGCGTTTGCCTTCCCGGCTCCGGTCGCCAATGTT -GAAAGCGATGTCGGTTGTCTGGAATTGTTCCACGGGCCAACGCTGGCATTTAAAGATTTCGGCGGTCGCTTTATGGCACA -AATGCTGACCCATATTGCGGGTGATAAGCCAGTGACCATTCTGACCGCGACCTCCGGTGATACCGGAGCGGCAGTGGCTC -ATGCTTTCTACGGTTTACCGAATGTGAAAGTGGTTATCCTCTATCCACGAGGCAAAATCAGTCCACTGCAAGAAAAACTG -TTCTGTACATTGGGCGGCAATATCGAAACTGTTGCCATCGACGGCGATTTCGATGCCTGTCAGGCGCTGGTGAAGCAGGC -GTTTGATGATGAAGAACTGAAAGTGGCGCTAGGGTTAAACTCGGCTAACTCGATTAACATCAGCCGTTTGCTGGCGCAGA -TTTGCTACTACTTTGAAGCTGTTGCGCAGCTGCCGCAGGAGACGCGCAACCAGCTGGTTGTCTCGGTGCCAAGCGGAAAC -TTCGGCGATTTGACGGCGGGTCTGCTGGCGAAGTCACTCGGTCTGCCGGTGAAACGTTTTATTGCTGCGACCAACGTGAA -CGATACCGTGCCACGTTTCCTGCACGACGGTCAGTGGTCACCCAAAGCGACTCAGGCGACGTTATCCAACGCGATGGACG -TGAGTCAGCCGAACAACTGGCCGCGTGTGGAAGAGTTGTTCCGCCGCAAAATCTGGCAACTGAAAGAGCTGGGTTATGCA -GCCGTGGATGATGAAACCACGCAACAGACAATGCGTGAGTTAAAAGAACTGGGCTACACTTCGGAGCCGCACGCTGCCGT -AGCTTATCGTGCGCTGCGTGATCAGTTGAATCCAGGCGAATATGGCTTGTTCCTCGGCACCGCGCATCCGGCGAAATTTA -AAGAGAGCGTGGAAGCGATTCTCGGTGAAACGTTGGATCTGCCAAAAGAGCTGGCAGAACGTGCTGATTTACCCTTGCTT -TCACATAATCTGCCCGCCGATTTTGCTGCGTTGCGTAAATTGATGATGAATCATCAGTAAAATCTATTCATTATCTCAAT -CAGGCCGGGTTTGCTTTTATGCAGCCCGGCTTTTTTATGAAGAAATTATGGAGAAAAATGACAGGGAAAAAGGAGAAATT -CTCAATAAATGCGGTAACTTAGAGATTAGGATTGCGGAGAATAACAACCGCCGTTCTCATCGAGTAATCTCCGGATATCG -ACCCATAACGGGCAATGATAAAAGGAGTAACCTGTGAAAAAGATGCAATCTATCGTACTCGCACTTTCCCTGGTTCTGGT -CGCTCCCATGGCAGCACAGGCTGCGGAAATTACGTTAGTCCCGTCAGTAAAATTACAGATAGGCGATCGTGATAATCGTG -GCTATTACTGGGATGGAGGTCACTGGCGCGACCACGGCTGGTGGAAACAACATTATGAATGGCGAGGCAATCGCTGGCAC -CTACACGGACCGCCGCCACCGCCGCGCCACCATAAGAAAGCTCCTCATGATCATCACGGCGGTCATGGTCCAGGCAAACA -TCACCGCTAAATGACAAATGCCGGGTAACAATCCGGCATTCAGCGCCTGATGCGACGCTGGCGCGTCTTATCAGGCCTAC -GTTAATTCTGCAATATATTGAATCTGCATGCTTTTGTAGGCAGGATAAGGCGTTCACGCCGCATCCGGCATTGACTGCAA -ACTTAACGCTGCTCGTAGCGTTTAAACACCAGTTCGCCATTGCTGGAGGAATCTTCATCAAAGAAGTAACCTTCGCTATT -AAAACCAGTCAGTTGCTCTGGTTTGGTCAGCCGATTTTCAATAATGAAACGACTCATCAGACCGCGTGCTTTCTTAGCGT -AGAAGCTGATGATCTTAAATTTGCCGTTCTTCTCATCGAGGAACACCGGCTTGATAATCTCGGCATTCAATTTCTTCGGC -TTCACCGATTTAAAATACTCATCTGACGCCAGATTAATCACCACATTATCGCCTTGTGCTGCGAGCGCCTCGTTCAGCTT -GTTGGTGATGATATCTCCCCAGAATTGATACAGATCTTTCCCTCGGGCATTCTCAAGACGGATCCCCATTTCCAGACGAT -AAGGCTGCATTAAATCGAGCGGGCGGAGTACGCCATACAAGCCGGAAAGCATTCGCAAATGCTGTTGGGCAAAATCGAAA -TCGTCTTCGCTGAAGGTTTCGGCCTGCAAGCCGGTGTAGACATCACCTTTAAACGCCAGAATCGCCTGGCGGGCATTCGC -CGGCGTGAAATCTGGCTGCCAGTCATGAAAGCGAGCGGCGTTGATACCCGCCAGTTTGTCGCTGATGCGCATCAGCGTGC -TAATCTGCGGAGGCGTCAGTTTCCGCGCCTCATGGATCAACTGCTGGGAATTGTCTAACAGCTCCGGCAGCGTATAGCGC -GTGGTGGTCAACGGGCTTTGGTAATCAAGCGTTTTCGCAGGTGAAATAAGAATCAGCATATCCAGTCCTTGCAGGAAATT -TATGCCGACTTTAGCAAAAAATGAGAATGAGTTGATCGATAGTTGTGATTACTCCTGCGAAACATCATCCCACGCGTCCG -GAGAAAGCTGGCGACCGATATCCGGATAACGCAATGGATCAAACACCGGGCGCACGCCGAGTTTACGCTGGCGTAGATAA -TCACTGGCAATGGTATGAACCACAGGCGAGAGCAGTAAAATGGCGGTCAAATTGGTAATAGCCATGCAGGCCATTATGAT -ATCTGCCAGTTGCCACATCAGCGGAAGGCTTAGCAAGGTGCCGCCGATGACCGTTGCGAAGGTGCAGATCCGCAAACACC -AGATCGCTTTAGGGTTGTTCAGGCGTAAAAAGAAGAGATTGTTTTCGGCATAAATGTAGTTGGCAACGATGGAGCTGAAG -GCAAACAGAATAACCACAAGGGTAACAAACTCAGCACCCCAGGAACCCATTAGCACCCGCATCGCCTTCTGGATAAGCTG -AATACCTTCCAGCGGCATGTAGGTTGTGCCGTTACCCGCCAGTAATATCAGCATGGCGCTTGCCGTACAGATGACCAGGG -TGTCGATAAAAATGCCAATCATCTGGACAATCCCTTGCGCTGCCGGATGCGGAGGCCAGGACGCCGCTGCCGCTGCCGCG -TTTGGCGTCGAACCCATTCCCGCCTCATTGGAAAACATACTGCGCTGAAAACCGTTAGTAATCGCCTGGCTTAAGGTATA -TCCCGCCGCGCCGCCTGCCGCTTCCTGCCAGCCAAAAGCACTCTCAAAAATAGACCAAATGACGTGGGGAAGTTGCCCGA -TATTCATTACGCAAATTACCAGGCTGGTCAGTACCCAGATTATCGCCATCAACGGGACAAAGCCCTGCATGAGCCGGGCG -ACGCCATGAAGACCGCGAGTGATTGCCAGCAGAGTAAAGACAGCGAGAATAATGCCTGTCACCAGCGGGGGAAAATCAAA -AGAAAAACTCAGGGCGCGGGCAACGGCGTTCGCTTGAACTCCGCTGAAAATTATGCCATAGGCGATGAGCAAAAAGACGG -CGAACAGAACGCCCATCCAGCGCATCCCCAGCCCGCGCGCCATATACCATGCCGGTCCGCCACGAAACTGCCCATTGACG -TCACGTTCTTTATAAAGTTGTGCCAGAGAACATTCGGCAAACGAGGTCGCCATGCCGATAAACGCGGCAACCCACATCCA -AAAGACGGCTCCAGGTCCACCGGCGGTAATAGCCAGCGCAACGCCGGCCAGGTTGCCGCTACCCACGCGCGCCGCAAGAC -TGGTACACAATGACTGAAATGAGGTTAAACCGCCTGGCTGTGGATGAATGCTATTTTTAAGACTTTTGCCAAACTGGCGG -ATGTAGCGAAACTGCACAAATCCGGTGCGAAAAGTGAACCAACAACCTGCGCCGAAGAGCAGGTAAATCATTACCGATCC -CCAAAGGACGCTGTTAATGAAGGAGAAAAAATCTGGCATGCATATCCCTCTTATTGCCGGTCGCGATGACTTTCCTGTGT -AAACGTTACCAATTGTTTAAGAAGTATATACGCTACGAGGTACTTGATAACTTCTGCGTAGCATACATGAGGTTTTGTAT -AAAAATGGCGGGCGATATCAACGCAGTGTCAGAAATCCGAAACAGTCTCGCCTGGCGATAACCGTCTTGTCGGCGGTTGC -GCTGACGTTGCGTCGTGATATCATCAGGGCAGACCGGTTACATCCCCCTAACAAGCTGTTTAAAGAGAAATACTATCATG -ACGGACAAATTGACCTCCCTTCGTCAGTACACCACCGTAGTGGCCGACACTGGGGACATCGCGGCAATGAAGCTGTATCA -ACCGCAGGATGCCACAACCAACCCTTCTCTCATTCTTAACGCAGCGCAGATTCCGGAATACCGTAAGTTGATTGATGATG -CTGTCGCCTGGGCGAAACAGCAGAGCAACGATCGCGCGCAGCAGATCGTGGACGCGACCGACAAACTGGCAGTAAATATT -GGTCTGGAAATCCTGAAACTGGTTCCGGGCCGTATCTCAACTGAAGTTGATGCGCGTCTTTCCTATGACACCGAAGCGTC -AATTGCGAAAGCAAAACGCCTGATCAAACTCTACAACGATGCTGGTATTAGCAACGATCGTATTCTGATCAAACTGGCTT -CTACCTGGCAGGGTATCCGTGCTGCAGAACAGCTGGAAAAAGAAGGCATCAACTGTAACCTGACCCTGCTGTTCTCCTTC -GCTCAGGCTCGTGCTTGTGCGGAAGCGGGCGTGTTCCTGATCTCGCCGTTTGTTGGCCGTATTCTTGACTGGTACAAAGC -GAATACCGATAAGAAAGAGTACGCTCCGGCAGAAGATCCGGGCGTGGTTTCTGTATCTGAAATCTACCAGTACTACAAAG -AGCACGGTTATGAAACCGTGGTTATGGGCGCAAGCTTCCGTAACATCGGCGAAATTCTGGAACTGGCAGGCTGCGACCGT -CTGACCATCGCACCGGCACTGCTGAAAGAGCTGGCGGAGAGCGAAGGGGCTATCGAACGTAAACTGTCTTACACCGGCGA -AGTGAAAGCGCGTCCGGCGCGTATCACTGAGTCCGAGTTCCTGTGGCAGCACAACCAGGATCCAATGGCAGTAGATAAAC -TGGCGGAAGGTATCCGTAAGTTTGCTATTGACCAGGAAAAACTGGAAAAAATGATCGGCGATCTGCTGTAATCATTCTTA -GCGTGACCGGGAAGTCGGTCACGCTACCTCTTCTGAAGCCTGTCTGTCACTCCCTTCGCAGTGTATCATTCTGTTTAACG -AGACTGTTTAAACGGAAAAATCTTGATGAATACTTTACGTATTGGCTTAGTTTCCATCTCTGATCGCGCATCCAGCGGCG -TTTATCAGGATAAAGGCATCCCTGCGCTGGAAGAATGGCTGACATCGGCGCTAACCACGCCGTTTGAACTGGAAACCCGC -TTAATCCCCGATGAGCAGGCGATCATCGAGCAAACGTTGTGTGAGCTGGTGGATGAAATGAGTTGCCATCTGGTGCTCAC -CACGGGCGGAACTGGCCCGGCGCGTCGTGACGTAACGCCCGATGCGACGCTGGCAGTAGCGGACCGCGAGATGCCTGGCT -TTGGTGAACAGATGCGCCAGATCAGCCTGCATTTTGTACCAACTGCGATCCTTTCGCGTCAGGTGGGCGTGATTCGCAAA -CAGGCGCTGATCCTTAACTTACCCGGTCAGCCGAAGTCTATTAAAGAGACGCTGGAAGGTGTGAAGGACGCTGAGGGTAA -CGTTGTGGTACACGGTATTTTTGCCAGCGTACCGTACTGCATTCAGTTGCTGGAAGGGCCATACGTTGAAACGGCACCGG -AAGTGGTTGCAGCATTCAGACCGAAGAGTGCAAGACGCGACGTTAGCGAATAAAAAAATCCCCCCGAGCGGGGGGATCTC -AAAACAATTAGTGGGATTCACCAATCGGCAGAACGGTGCGACCAAACTGCTCGTTCAGTACTTCACCCATCGCCAGATAG -ATTGCGCTGGCACCGCAGATCAGCCCAATCCAGCCGGCAAAGTGGATGATTGCGGCGTTACCGGCAATGTTACCGATCGC -CAGCAGGGCAAACAGCACGGTCAGGCTAAAGAAAACGAATTGCAGAACGCGTGCGCCTTTCAGCGTGCCGAAGAACATAA -ACAGCGTAAATACGCCCCACAGACCCAGGTAGACACCAAGGAACTGTGCATTTGGCGCATCGGTCAGACCCAGTTTCGGC -ATCAGCAGAATCGCAACCAGCGTCAGCCAGAAAGAACCGTAAGAGGTGAATGCGGTTAAACCGAAAGTGTTGCCTTTTTT -GTACTCCAGCAGACCAGCAAAAATTTGCGCGATGCCGCCGTAGAAAATGCCCATGGCAAGAATAATACCGTCCAGAGCGA -AATAACCCACGTTGTGCAGGTTAAGCAGAATGGTGGTCATGCCGAAGCCCATCAGGCCCAGCGGTGCCGGATTAGCCAAC -TTAGTGTTGCCCATAATTCCTCAAAAATCATCATCGAATGAATGGTGAAATAATTTCCCTGAATAACTGTAGTGTTTTCA -GGGCGCGGCATAATAATCAGCCAGTGGGGCAGTGTCTACGATCTTTTGAGGGGAAAATGAAAATTTTCCCCGGTTTCCGG -TATCAGACCTGAGTGGCGCTAACCATCCGGCGCAGGCAGGCGATTTGCAGTACGGCTGGAATCGTCACGCGATAGGCGCT -GCCGCTGACCGCTTTAACCCCATTTAGTGCCGCACCTACAGGGCCTCCCAGCCCCGCGCCGCGCAGCAAACCATGCCCAA -GTACGCTCATTGCTGCGTGGGTGCGTAAAATGCGGGTCAGTTGGCTGGAAAGCAAATGCGACACACCTTTTGCCAATAAT -TTGTCTTTCATCAGCAGCGGCAGCAGCTCTTCCAGCTCATTCACCCTGGCATCGACCGCGTGCAGAAACTCCTGCTTATG -TTCCTCGTCCATTTTCTTCCAGGTATTACGCAGAAATTGTTCCAGTAACTGTTGCTCAATTTCAAACGTAGACATCTCTT -TGTCGGCTTTCAGCTTCAATCGCTTTGAAACATCGAGCAAAATGGCCCGATACAATTTACCGTGTCCGCGCAGTTTGTTG -GCGATACTATCGCCACCAAAATGCTGTAATTCTCCGGCAATCAGCTGCCAGTTGCGGCGATGTTGCTCGGGATGCCCTTC -CATCGATTTAAACAGTTCGTTGCGCATCAGTACGCTGGAGAGGCGAGTTTTGCCTTTTTCATTATGGGTGAGCAATCGGG -CGAAATTTGCCAACTGTTCCTCACTACAATGCTGAAGAAAATCCAGATCTGAATCATTCAGGTAATTAACATTCATTTTT -TGTGGCTTCTATATTCTGGCGTTAGTCGTCGCCGATAATTTTCAGCGTGGCCATATCCGATGAGTTCACCGTATGACCCG -AAAAGGTGATTTTTGAGACGCAGCGTTTATTGTCGTTATCGCTGTTAATGTTGATCCAGTCAGTGGTTTGCCCTTCTTTT -ATTTCTGAAGGAATATTCAGGCTCTGACTGGCGCTACGGGCGGCTTTGAAATAAACCGATGCACCGCTTAACTGTAAATC -GCCATGGTCGGCAGAGAGTTGTATGCGTTTCACAATGCGACAAACAGGAAGTTTCAGCGCCAGATCGTTGGTTTCGTTAC -GCGGCATTGCAATGGCGCCGAGGAGTTTATGGTCGTTTGCCTGCGCCGTGCAGCACAGCATCAGGCTAATCGCCAGGCTG -GCGGAAATCGTAAAAACGGATTTCATAAGGATTCTCTTAGTGGGAAGAGGTAGGGGGATGAATACCCACTAGTTTACTGC -TGATAAAGAGAAGATTCAGGCACGTAATCTTTTCTTTTTATTACAATTTTTTGATGAATGCCTTGGCTGCGATTCATTCT -TTATATGAATAAAATTGCTGTCAATTTTACGTCTTGTCCTGCCATATCGCGAAATTTCTGCGCAAAAGCACAAAAAATTT -TTGCATCTCCCCCTTGATGACGTGGTTTACGACCCCATTTAGTAGTCAACCGCAGTGAGTGAGTCTGCAAAAAAATGAAA -TTGGGCAGTTGAAACCAGACGTTTCGCCCCTATTACAGACTCACAACCACATGATGACCGAATATATAGTGGAGACGTTT -AGATGGGTAAAATAATTGGTATCGACCTGGGTACTACCAACTCTTGTGTAGCGATTATGGATGGCACCACTCCTCGCGTG -CTGGAGAACGCCGAAGGCGATCGCACCACGCCTTCTATCATTGCCTATACCCAGGATGGTGAAACTCTAGTTGGTCAGCC -GGCTAAACGTCAGGCAGTGACGAACCCGCAAAACACTCTGTTTGCGATTAAACGCCTGATTGGTCGCCGCTTCCAGGACG -AAGAAGTACAGCGTGATGTTTCCATCATGCCGTTCAAAATTATTGCTGCTGATAACGGCGACGCATGGGTCGAAGTTAAA -GGCCAGAAAATGGCACCGCCGCAGATTTCTGCTGAAGTGCTGAAAAAAATGAAGAAAACCGCTGAAGATTACCTGGGTGA -ACCGGTAACTGAAGCTGTTATCACCGTACCGGCATACTTTAACGATGCTCAGCGTCAGGCAACCAAAGACGCAGGCCGTA -TCGCTGGTCTGGAAGTAAAACGTATCATCAACGAACCGACCGCAGCTGCGCTGGCTTACGGTCTGGACAAAGGCACTGGC -AACCGTACTATCGCGGTTTATGACCTGGGTGGTGGTACTTTCGATATTTCTATTATCGAAATCGACGAAGTTGACGGCGA -AAAAACCTTCGAAGTTCTGGCAACCAACGGTGATACCCACCTGGGGGGTGAAGACTTCGACAGCCGTCTGATCAACTATC -TGGTTGAAGAATTCAAGAAAGATCAGGGCATTGACCTGCGCAACGATCCGCTGGCAATGCAGCGCCTGAAAGAAGCGGCA -GAAAAAGCGAAAATCGAACTGTCTTCCGCTCAGCAGACCGACGTTAACCTGCCATACATCACTGCAGACGCGACCGGTCC -GAAACACATGAACATCAAAGTGACTCGTGCGAAACTGGAAAGCCTGGTTGAAGATCTGGTAAACCGTTCCATTGAGCCGC -TGAAAGTTGCACTGCAGGACGCTGGCCTGTCCGTATCTGATATCGACGACGTTATCCTCGTTGGTGGTCAGACTCGTATG -CCAATGGTTCAGAAGAAAGTTGCTGAGTTCTTTGGTAAAGAGCCGCGTAAAGACGTTAACCCGGACGAAGCTGTAGCAAT -CGGTGCTGCTGTTCAGGGTGGTGTTCTGACTGGTGACGTAAAAGACGTACTGCTGCTGGACGTTACCCCGCTGTCTCTGG -GTATCGAAACCATGGGCGGTGTGATGACGACGCTGATCGCGAAAAACACCACTATCCCGACCAAGCACAGCCAGGTGTTC -TCTACCGCTGAAGACAACCAGTCTGCGGTAACCATCCATGTGCTGCAGGGTGAACGTAAACGTGCGGCTGATAACAAATC -TCTGGGTCAGTTCAACCTAGATGGTATCAACCCGGCACCGCGCGGCATGCCGCAGATCGAAGTTACCTTCGATATCGATG -CTGACGGTATCCTGCACGTTTCCGCGAAAGATAAAAACAGCGGTAAAGAGCAGAAGATCACCATCAAGGCTTCTTCTGGT -CTGAACGAAGATGAAATCCAGAAAATGGTACGCGACGCAGAAGCTAACGCCGAAGCTGACCGTAAGTTTGAAGAGCTGGT -ACAGACTCGCAACCAGGGCGACCATCTGCTGCACAGCACCCGTAAGCAGGTTGAAGAAGCAGGCGACAAACTGCCGGCTG -ACGACAAAACTGCTATCGAGTCTGCGCTGACTGCACTGGAAACTGCTCTGAAAGGTGAAGACAAAGCCGCTATCGAAGCG -AAAATGCAGGAACTGGCACAGGTTTCCCAGAAACTGATGGAAATCGCCCAGCAGCAACATGCCCAGCAGCAGACTGCCGG -TGCTGATGCTTCTGCAAACAACGCGAAAGATGACGATGTTGTCGACGCTGAATTTGAAGAAGTCAAAGACAAAAAATAAT -CGCCCTATAAACGGGTAATTATACTGACACGGGCGAAGGGGAATTTCCTCTCCGCCCGTGCATTCATCTAGGGGCAATTT -AAAAAAGATGGCTAAGCAAGATTATTACGAGATTTTAGGCGTTTCCAAAACAGCGGAAGAGCGTGAAATCAGAAAGGCCT -ACAAACGCCTGGCCATGAAATACCACCCGGACCGTAACCAGGGTGACAAAGAGGCCGAGGCGAAATTTAAAGAGATCAAG -GAAGCTTATGAAGTTCTGACCGACTCGCAAAAACGTGCGGCATACGATCAGTATGGTCATGCTGCGTTTGAGCAAGGTGG -CATGGGCGGCGGCGGTTTTGGCGGCGGCGCAGACTTCAGCGATATTTTTGGTGACGTTTTCGGCGATATTTTTGGCGGCG -GACGTGGTCGTCAACGTGCGGCGCGCGGTGCTGATTTACGCTATAACATGGAGCTCACCCTCGAAGAAGCTGTACGTGGC -GTGACCAAAGAGATCCGCATTCCGACTCTGGAAGAGTGTGACGTTTGCCACGGTAGCGGTGCAAAACCAGGTACACAGCC -GCAGACTTGTCCGACCTGTCATGGTTCTGGTCAGGTGCAGATGCGCCAGGGATTCTTCGCTGTACAGCAGACCTGTCCAC -ACTGTCAGGGCCGCGGTACGCTGATCAAAGATCCGTGCAACAAATGTCATGGTCATGGTCGTGTTGAGCGCAGCAAAACG -CTGTCCGTTAAAATCCCGGCAGGGGTGGACACTGGAGACCGCATCCGTCTTGCGGGCGAAGGTGAAGCGGGCGAGCATGG -CGCACCGGCAGGCGATCTGTACGTTCAGGTTCAGGTTAAACAGCACCCGATTTTCGAGCGTGAAGGCAACAACCTGTATT -GCGAAGTCCCGATCAACTTCGCTATGGCGGCGCTGGGTGGCGAAATCGAAGTACCGACCCTTGATGGTCGCGTCAAACTG -AAAGTGCCTGGCGAAACCCAGACCGGTAAGCTATTCCGTATGCGCGGTAAAGGCGTCAAGTCTGTCCGCGGTGGCGCACA -GGGTGATTTGCTGTGCCGCGTTGTCGTCGAAACACCGGTAGGCCTGAACGAAAGGCAGAAACAGCTGCTGCAAGAGCTGC -AAGAAAGCTTCGGTGGCCCAACCGGCGAGCACAACAGCCCGCGCTCAAAGAGCTTCTTTGATGGTGTGAAGAAGTTTTTT -GACGACCTGACCCGCTAACCTCCCCAAAAGCCTGCCCGTGGGCAGGCCTGGGTAAAAATAGGGTGCGTTGAAGATATGCG -AGCACCTGTAAAGTGGCGGGGATCACTCCCATAAGCGCTAACTTAAGGGTTGTGGTATTACGCCTGATATGATTTAACGT -GCCGATGAATTACTCTCACGATAACTGGTCAGCAATTCTGGCCCATATTGGTAAGCCCGAAGAACTGGATACTTCGGCAC -GTAATGCCGGGGCTCTAACCCGCCGCCGCGAAATTCGTGATGCTGCAACTCTGCTACGTCTGGGGCTGGCTTACGGCCCC -GGGGGGATGTCATTACGTGAAGTCACTGCATGGGCTCAGCTCCATGACGTTGCAACATTATCTGACGTGGCTCTCCTGAA -GCGGCTGCGGAATGCCGCCGACTGGTTTGGCATACTTGCCGCACAAACACTTGCTGTACGCGCCGCAGTTACGGGTTGTA -CAAGCGGAAAGAGATTGCGTCTTGTCGATGGAACAGCAATCAGTGCGCCCGGGGGCGGCAGCGCTGAATGGCGACTACAT -ATGGGATATGATCCTCATACCTGTCAGTTCACTGATTTTGAGCTAACCGACAGCAGAGACGCTGAACGGCTGGACCGATT -TGCGCAAACGGCAGACGAGATACGCATTGCTGACCGGGGATTCGGTTCGCGTCCCGAATGTATCCGCTCACTTGCTTTTG -GAGAAGCTGATTATATCGTCCGGGTTCACTGGCGAGGATTGCGCTGGTTAACTGCAGAAGGAATGCGCTTTGACATGATG -GGTTTTCTGCGCGGGCTGGATTGCGGTAAGAACGGTGAAACCACTGTAATGATAGGCAATTCAGGTAATAAAAAAGCCGG -AGCTCCCTTTCCGGCACGTCTCATTGCCGTATCACTTCCTCCCGAAAAAGCATTAATCAGTAAAACCCGACTGCTCAGCG -AGAATCGTCGAAAAGGACGAGTAGTTCAGGCGGAAACGCTGGAAGCAGCGGGCCATGTGCTATTGCTAACATCATTACCG -GAAGATGAATATTCAGCAGAGCAAGTGGCTGATTGTTACCGTCTGCGATGGCAAATTGAACTGGCTTTTAAGCGGCTCAA -AAGTTTGCTGCACCTGGATGCTTTGCGTGCAAAGGAACCTGAACTCGCGAAAGCGTGGATATTTGCTAATCTACTCGCCG -CATTTTTAATTGACGACATAATCCAGCCATCGCTGGATTTCCCCCCCAGAAGTGCCGGATCCGAAAAGAAGAACTAACTC -GTTGTGGAGAATAACAAAAATGGTCATCTGGAGCTTACAGGTGGCCATTCGTGGGACAGTATCCCTGACAGCCTACAAAA -CGCAATTGAAGAACGCGAGGCATCGTCTTAACGAGGCACCGAGGCGTCGCATTCTTCAGATGGTTCAACCCTTAAGTTAG -CGCTTATGGGATCACTCCCCGCCGTTGCTCTTACTCGGATTCGTAAGCCGTGAAAACAGCAACCTCCGTCTGGCCAGTTC -GGATGTGAACCTCACAGAGGTCTTTTCTCGTTACCAGCGCCGCCACTACGGCGGTGATACAGATGACGATCAGGGCGACA -ATCATCGCCTTATGCTGCTTCATTGCTCTCTTCTCCTTGACCTTACGGTCAGTAAGAGGCACTCTACATGTGTTCAGCAT -ATAGGAGGCCTCGGGTTGATGGTAAAATATCACTCGGGGCTTTTCTCTATCTGCCGTTCAGCTAATGCCTGAGACAGACA -GCCTCAAGCACCCGCCGCTATTATATCGCTCTCTTTAACCCATTTTGTTTTATCGATTCTAATCCTGAAGACGCCTCGCA -TTTTTGTGGCGTAATTTTTTAATGATTTAATTATTTAACTTTAATTTATCTCTTCATCGCAATTATTGACGACAAGCTGG -ATTATTTTTGAAATATTGGCCTAACAAGCATCGCCGACTGACAACAAATTAATTATTACTTTTCCTAATTAATCCCTCAG -GAATCCTCACCTTAAGCTATGATTATCTAGGCTTAGGGTCACTCGTGAGCGCTTACAGCCGTCAAAAACGCATCTCACCG -CTGATGGCGCAAATTCTTCAATAGCTCGTAAAAAACGAATTATTCCTACACTATAATCTGATTTTAACGATGATTCGTGC -GGGGTAAAATAGTAAAAACGATCTATTCACCTGAAAGAGAAATAAAAAGTGAAACATCTGCATCGATTCTTTAGCAGTGA -TGCCTCGGGAGGCATTATTCTTATCATTGCCGCTATCCTGGCGATGATTATGGCCAACAGCGGCGCAACCAGTGGATGGT -ATCACGACTTTCTGGAGACGCCGGTTCAGCTCCGGGTTGGTTCACTCGAAATCAACAAAAACATGCTGTTATGGATAAAT -GACGCGCTGATGGCGGTATTTTTCCTGTTAGTCGGTCTGGAAGTTAAACGTGAACTGATGCAAGGATCGCTAGCCAGCTT -ACGCCAGGCCGCATTTCCAGTTATCGCCGCTATTGGTGGGATGATTGTGCCGGCATTACTCTATCTGGCTTTTAACTATG -CCGATCCGATTACCCGCGAAGGGTGGGCGATCCCGGCGGCTACTGACATTGCTTTTGCACTTGGTGTACTGGCGCTGTTG -GGAAGTCGTGTTCCGTTAGCGCTGAAGATCTTTTTGATGGCTCTGGCTATTATCGACGATCTTGGGGCCATCATTATCAT -CGCATTGTTCTACACTAATGACTTATCGATGGCCTCTCTTGGCGTCGCGGCTGTAGCAATTGCGGTACTCGCGGTATTGA -ATCTGTGTGGTGCACGCCGCACGGGCGTCTATATTCTTGTTGGCGTGGTGTTGTGGACTGCGGTGTTGAAATCGGGGGTT -CACGCAACTCTGGCGGGGGTAATTGTCGGCTTCTTTATTCCTTTGAAAGAGAAGCATGGGCGTTCTCCAGCGAAGCGACT -GGAGCATGTGTTGCACCCGTGGGTGGCGTATCTGATTTTGCCGCTGTTTGCATTTGCTAATGCTGGCGTTTCACTGCAAG -GCGTCACGCTGGATGGCTTGACCTCCATTCTGCCATTGGGGATCATCGCTGGCTTGCTGATTGGCAAACCGCTGGGGATT -AGTCTGTTCTGCTGGTTGGCGCTGCGTTTGAAACTGGCGCATCTGCCTGAGGGAACGACTTATCAGCAAATTATGGTGGT -GGGGATCCTGTGCGGTATCGGTTTTACTATGTCTATCTTTATTGCCAGCCTGGCCTTTGGTAGCGTAGATCCAGAACTGA -TTAACTGGGCGAAACTCGGTATCCTGGTCGGTTCTATCTCTTCGGCGGTAATTGGATACAGCTGGTTACGCGTTCGTTTG -CGTCCATCAGTTTGACAGGACGGTTTACCGGGGAGCCATAAACGGCTCCCTTTTCATTGTTATCAGGGAGAGAAATGAGC -ATGTCTCATATCAATTACAACCACTTGTATTACTTCTGGCATGTCTATAAAGAAGGTTCCGTGGTTGGCGCAGCGGAGGC -GCTTTATTTAACTCCACAAACCATTACCGGACAGATTCGAGCGCTGGAAGAGCGCCTGCAAGGCAAATTATTTAAACGCA -AGGGACGTGGTCTCGAACCCAGCGAGCTGGGAGAACTGGTCTATCGCTATGCCGATAAAATGTTCACCTTAAGCCAGGAA -ATGCTGGATATTGTGAACTATCGCAAAGAATCCAATTTATTGTTTGACGTTGGCGTGGCTGATGCACTTTCCAAACGCCT -GGTCAGTAGCGTACTTAACGCCGCAGTGGTAGAAGGCGAGCCCATTCATCTTCGCTGCTTCGAATCCACCCACGAAATGC -TGCTGGAGCAATTAAGTCAGCATAAACTGGATATGATCATTTCTGACTGTCCGATAGACTCTACGCAGCAGGAAGGCCTG -TTCTCCGTGAGAATTGGCGAATGTGGCGTGAGTTTCTGGTGTACAAATCCACCACCAGAAAAACCGTTCCCGGCTTGTCT -GGAAGAACGGCGACTTTTGATTCCTGGGCGACGTTCAATGTTAGGGCGCAAATTGCTTAACTGGTTTAACTCCCAGGGAT -TAAACGTAGAAATCCTCGGCGAGTTTGATGATGCCGCTTTGATGAAAGCTTTTGGTGCGATGCACAATGCAATCTTCGTT -GCCCCAACGCTTTATGCATATGACTTTTATGCCGATAAAACTGTCGTAGAAATTGGTCGCGTCGAGAATGTGATGGAAGA -GTACCATGCTATTTTTGCTGAGCGGATGATTCAGCACCCGGCGGTACAGCGAATCTGCAATACGGATTATTCTGCGCTTT -TTAGTCCAGCGGTGCGTTAATCGGCAGCTCCCCCAAAGTTAAGGTGGGGGAGATAGATTAGTTGTACATTACCACGATTT -TGACTCGGCTCATTATTTGCCCGCTTGAGACATTGTTTCCATATGTACGCGGGCGAATAAATAGAGGAATCTGATTACTT -CCTTCATGGGGATGCTGAAAAGAGTAGTAATTGCTGGTAATGACTCCAACTTATTGATAGTGTTTTATGTTCAGATAATG -CCCGATGACTTTGTCATGCAGCTCCACCGATTTTGAGAACGACAGCGACTTCCGTCCCAGCCGTGCCAGGTGCTGCCTCA -GATTCAGGTTATGCCGCTCAATTCGCTGCGTATATCGCTTGCTGATTACGTGCAGCTTTCCCTTCAGGCGGGATTCATAC -AGCGGCCAGCCATCCGTCATCCATATCACCACGTCAAAGGGTGACAGCAGGCTCATAAGACGCCCCAGCGTCGCCATAGT -GCGTTCACCGAATACGTGCGCAACAACCGTCTTCCGGAGACTGTCATACGCGTAAAACAGCCAGCGCTGGCGCGATTTAG -CCCCGACATAGCCCCACTGTTCGTCCATTTCCGCGCAGACGATGACGTCACTGCCCGGCTGTATGCGCGAGGTTACCGAC -TGCGGCCTGAGTTTTTTAAGTGACGTAAAATCGTGTTGAGGCCAACGCCCATAATGCGGGCTGTTGCCCGGCATCCAACG -CCATTCATGGCCATATCAATGATTTTCTGGTGCGTACCGGGTTGAGAAGCGGTGTAAGTGAACTGCAGTTGCCATGTTTT -ACGGCAGTGAGAGCAGAGATAGCGCTGATGTCCGGCGGTGCTTTTGCCGTTACGCACCACCCCGTCAGTAGCTGAACAGG -AGGGACAGCTGATAGAAACAGAAGCCACTGGAGCACCTCAAAAACACCATCATACACTAAATCAGTAAGTTGGCAGCATC -ACCTACCTCAATGTGTATCACAATATCCATATTCTTTGTGGGGGAGTCTGGAGATTGAGTAGATATTCTTGTTCAGAATG -TATCAGCCGATGGTTCTACGATTCTTAAGCCACGAAGAGTTCAGATAGTACAACGGCATGTCTCTTTTGACTATCTGGCA -ACCGGCAGTGTGTTCTCTCACGCATCACAAAAGCAGCAGGCATAAAAAAACCCGCTTGCGCGGGCTTTTTCACAAAGCTT -CAGCAAATTGGCGATTAAGCCAGTTTGTTGATCTGTGCAGTCAGGTTAGCCTTATGACGTGCAGCTTTGTTTTTGTGGAT -CAGACCTTTAGCAGCYTGACGGTCCACGATCGGTTGCATTTCGTTAAATGCTTTCTGTGCAGCAGCTTTGTCGCCAGCTT -CGATAGCTGCGTATACTTTCTTGATGAAAGTACGCATCATAGAGCGACGGCTTGCGTTGTGCTTACGAGCCTTTTCAGAC -TGAATGGCGCGCTTCTTAGCTGATTTGATATTAGCCAAGGTCCAACTCCCAAATGTGTTCTATATGGACAATTCAAAGGC -CGAGGAATATGCCCTTTTAGCCTTCTTTTGTCAATGGATTTGTGCAAATAAGCGCCGTTAATGTGCCGGCACTCGTTACG -TAGTGATGGCGCAGGATTCTACCAGCTTGCGGGGTGTGAATACAGCTTTTCCGCGATAAAAATTGCAGCAGGCGGTCAGT -TTCTTCCCGTGATTTGCGCCATGGCAATGAAAAGCCACTTCTTTCTGATTTCGGTACTCAATCGCCGGTTAACCTTGACC -GCTGTACAAGGTATACTCGGACGATTTTCACTGTTTTGAGCCAGACATGAAGCTGATACGCGGCATACATAATCTCAGCC -AGGCCCCGCAAGAAGGGTGTGTGCTGACTATTGGTAATTTCGACGGCGTGCATCGCGGTCATCGCGCGCTGTTACAGGGC -TTGCAGGAAGAAGGGCGCAAGCGCAACTTACCGGTGATGGTGATGCTTTTTGAACCTCAACCACTGGAACTGTTTGCTAC -CGATAAAGCCCCGGCAAGACTGACCCGGCTGCGGGAAAAACTGCGTTACCTTGCAGAGTGTGGCGTTGATTACGTGCTGT -GCGTGCGTTTCGACAGGCGTTTCGCGGCGTTAACCGCGCAAAATTTCATCAGCGATCTTCTGGTGAAGCATTTGCGCGTA -AAATTTCTTGCCGTAGGTGATGATTTCCGCTTTGGCGCTGGTCGTGAAGGCGATTTCTTGTTATTACAGAAAGCTGGCAT -GGAATACGGCTTCGATATCACCAGTACGCAAACTTTTTGCGAAGGTGGCGTGCGCATCAGCAGCACCGCCGTGCGTCAGG -CCCTTGCGGATGACAATCTGGCTCTGGCAGAGAGTTTACTGGGGCACCCGTTTGCCATCTCCGGGCGTGTAGTCCACGGT -GATGAATTAGGGCGCACTATAGGTTTCCCGACGGCGAATGTACCGCTGCGCCGTCAGGTTTCCCCGGTGAAAGGGGTTTA -TGCGGTAGAAGTGCTGGGCCTCGGTGAAAAGCCGTTACCCGGCGTGGCAAACATCGGAACACGCCCAACGGTTGCCGGTA -TTCGCCAGCAGCTGGAAGTGCATTTGTTAGATGTTGCAATGGACCTTTACGGTCGCCATATACAAGTAGTGCTGCGTAAA -AAAATACGCAATGAGCAGCGATTTGCGTCGCTGGACGAACTGAAAGCGCAGATTGCGCGTGATGAATTAACCGCCCGCGA -ATTTTTTGGGCTAACAAAACCGGCTTAAGCCTGTTATGTAATCAAACCGAAATACGGAACCGAGAATCTGATGAGTGACT -ATAAATCAACCCTGAATTTGCCGGAAACAGGGTTCCCGATGCGTGGCGATCTCGCCAAGCGCGAACCCGGAATGCTGGCG -CGTTGGACTGATGATGATCTGTACGGCATCATCCGTGCGGCTAAAAAAGGCAAAAAAACCTTCATTCTGCATGATGGCCC -TCCTTATGCGAATGGCAGCATTCATATTGGTCACTCGGTTAACAAGATTCTGAAAGACATTATCGTGAAGTCCAAAGGGC -TTTCCGGTTATGACTCGCCGTATGTGCCTGGCTGGGACTGCCACGGTCTGCCGATCGAGCTGAAAGTCGAGCAAGAATAC -GGTAAGCCGGGTGAGAAATTCACCGCCGCCGAGTTCCGCGCCAAGTGCCGCGAATACGCGGCGACCCAGGTTGACGGTCA -ACGCAAAGACTTTATCCGTCTGGGCGTGCTGGGCGACTGGTCGCACCCGTACCTGACCATGGACTTCAAAACTGAAGCCA -ACATCATCCGCGCGCTGGGCAAAATCATCGGCAACGGTCACCTGCACAAAGGCGCGAAGCCAGTTCACTGGTGCGTTGAC -TGCCGTTCTGCGCTGGCGGAAGCGGAAGTTGAGTATTACGACAAAACTTCTCCGTCCATCGACGTTGCTTTCCAGGCAGT -CGATCAGGATGCACTGAAAGCAAAATTTGCCGTAAGCAACGTTAACGGCCCAATCTCGCTGGTAATCTGGACCACCACGC -CGTGGACTCTGCCTGCCAACCGCGCAATCTCTATTGCACCAGATTTCGACTATGCGCTGGTGCAGATCGACGGTCAGGCC -GTGATTCTGGCGAAAGATCTGGTTGAAAGCGTAATGCAGCGTATCGGCGTGACCGATTACACCATTCTCGGCACGGTAAA -AGGTGCGGAGCTTGAGCTGCTGCGCTTTACCCATCCGTTTATGGGCTTCGACGTTCCGGCAATCCTCGGCGATCACGTTA -CCCTGGATGCCGGTACCGGTGCCGTTCACACCGCGCCTGGCCACGGCCCGGACGACTATGTGATCGGTCAGAAATACGGC -CTGGAAACCGCTAACCCGGTTGGCCCGGACGGCACTTATCTGCCGGGCACTTATCCGACGCTGGATGGCGTGAACGTCTT -CAAAGCGAACGACATCGTCGTTGCGCTGCTGCAGGAAAAAGGCGCGCTGCTGCACGTTGAGAAAATGCAGCACAGCTATC -CGTGCTGCTGGCGTCACAAAACGCCGATCATCTTCCGCGCGACGCCGCAGTGGTTCGTCAGCATGGATCAGAAAGGTCTG -CGTGCGCAGTCACTGAAAGAGATCAAAGGCGTGCAGTGGATCCCGGACTGGGGCCAGGCGCGTATCGAGTCGATGGTTGC -TAACCGTCCTGACTGGTGTATCTCCCGTCAGCGCACCTGGGGTGTACCGATGTCACTGTTCGTGCACAAAGACACGGAAG -AGCTGCATCCGCGTACCCTTGAACTGATGGAAGAAGTGGCAAAACGCGTTGAAGTCGATGGCATCCAGGCGTGGTGGGAT -CTCGATGCGAAAGAGATCCTCGGCGACGAAGCTGATCAGTACGTGAAAGTGCCGGACACATTGGATGTATGGTTTGACTC -CGGATCTACCCACTCTTCTGTTGTTGACGTGCGTCCGGAATTTGCCGGTCACGCAGCGGACATGTATCTGGAAGGTTCTG -ACCAACACCGCGGCTGGTTCATGTCTTCCCTAATGATCTCCACCGCGATGAAGGGTAAAGCGCCGTATCGTCAGGTACTG -ACCCACGGCTTTACCGTGGATGGTCAGGGCCGCAAGATGTCTAAATCCATCGGCAATACCGTTTCGCCGCAGGATGTGAT -GAACAAACTGGGCGCGGATATTCTGCGTCTGTGGGTGGCATCAACCGACTACACCGGTGAAATGGCCGTTTCTGACGAGA -TCCTGAAACGTGCTGCCGATAGCTATCGTCGTATCCGTAACACCGCGCGCTTCCTGCTGGCAAACCTGAACGGTTTTGAT -CCAGCAAAAGATATGGTGAAACCGGAAGAGATGGTGGTACTGGATCGCTGGGCCGTAGGTTGTGCGAAAGCGGCACAGGA -AGACATCCTCAAGGCGTACGAAGCATACGATTTCCACGAAGTGGTACAGCGTCTGATGCGCTTCTGCTCCGTTGAGATGG -GTTCCTTCTACCTCGACATCATCAAAGACCGTCAGTACACCGCCAAAGCGGACAGTGTGGCGCGTCGTAGCTGCCAGACT -GCGCTATATCACATCGCAGAAGCGCTGGTGCGCTGGATGGCACCAATCCTCTCCTTCACCGCTGATGAAGTGTGGGGCTA -CCTGCCGGGCGAACGTGAAAAATACGTCTTCACCGGTGAGTGGTACGAAGGCCTGTTTGGCCTGGCAGACAGTGAAGCGA -TGAACGATGCGTTCTGGGACGAGCTGTTGAAAGTGCGTGGCGAAGTGAACAAAGTCATTGAGCAAGCGCGTGCCGACAAG -AAAGTGGGTGGCTCGCTGGAAGCGGCAGTAACCTTGTATGCAGAACCGGAACTGTCGGCGAAACTGACCGCGCTGGGCGA -TGAATTACGATTTGTCCTGTTGACCTCCGGCGCTACCGTTGCAGACTATAACGACGCACCTGCTGATGCTCAGCAGAGCG -AAGTACTCAAAGGGCTGAAAGTCGCGTTGAGTAAAGCCGAAGGTGAGAAGTGCCCACGCTGCTGGCACTACACCCAGGAT -GTCGGCAAGGTGGCGGAACACGCAGAAATCTGCGGCCGCTGTGTCAGCAACGTCGCCGGTGACGGTGAAAAACGTAAGTT -TGCCTGATGAGTCAATCGATCTGTTCAACAGGGCTACGCTGGCTGTGGCTGGTGGTAGTCGTGCTGATTATCGATCTGGG -CAGCAAATACCTGATCCTCCAGAACTTTGCTCTGGGGGATACGGTCCCGCTGTTCCCGTCGCTTAATCTGCATTATGCGC -GTAACTATGGCGCGGCGTTTAGTTTCCTTGCCGATAGCGGCGGCTGGCAGCGTTGGTTCTTTGCCGGTATTGCGATTGGT -ATTAGCGTGATCCTGGCAGTGATGATGTATCGCTCGAAGGCCACGCAGAAGCTAAACAATATCGCTTACGCGCTGATTAT -TGGCGGCGCGCTGGGCAACCTGTTCGACCGCCTGTGGCACGGCTTCGTTGTCGATATGATCGACTTCTACGTCGGCGACT -GGCACTTCGCCACCTTCAACCTTGCCGATACTGCCATCTGTGTCGGTGCGGCACTGATTGTGCTGGAAGGTTTTTTGCCT -TCTAGAGCGAAAAAACAATAATAAACCCTGCCGGATGCGATGCTGACGCATCTTATCCGGCCTACAGATTGCTGCGAAAT -CGTAGGCCGGATAAGGCGTTTACGCCGCATCCGGCAAAAATCCTTAAATATAAGAGCAAACCTGCATGTCTGAATCTGTA -CAGAGCAATAGCGCCGTCCTGGTGCACTTCACGCTAAAACTCGACGATGGCACCACCGCCGAGTCTACCCGCAACAACGG -TAAACCGGCGCTGTTCCGCCTGGGTGATGCTTCTCTTTCTGAAGGGCTGGAGCAACACCTGTTGGGGCTGAAAGTGGGCG -ATAAAACCACCTTCTCGTTGGAGCCAGATGCGGCGTTTGGCGTGCCGTCACCGGACCTGATTCAGTACTTCTCCCGCCGT -GAATTTATGGATGCAGGCGAGCCAGAAATTGGCGCAATCATGCTTTTTACCGCAATGGATGGCAGTGAGATGCCTGGCGT -GATCCGCGAAATTAACGGCGACTCCATTACCGTTGATTTCAACCATCCGCTGGCCGGGCAGACCGTTCATTTTGATATTG -AAGTGCTGGAAATCGATCCGGCACTGGAGGCGTAACATGCAGATCCTGTTGGCCAACCCGCGTGGTTTTTGTGCCGGGGT -AGACCGCGCTATCAGCATTGTTGAAAACGCGCTGGCCATTTACGGCGCACCGATATATGTCCGTCACGAAGTGGTACATA -ACCGCTATGTGGTCGATAGCTTGCGTGAGCGTGGGGCTATCTTTATTGAGCAGATTAGCGAAGTACCGGACGGCGCGATC -CTGATTTTCTCCGCACACGGTGTTTCTCAGGCGGTACGTAACGAAGCAAAAAGTCGCGATTTGACGGTGTTTGATGCCAC -CTGTCCGCTGGTGACCAAAGTGCATATGGAAGTCGCCCGCGCCAGTCGCCGTGGCGAAGAATCTATTCTCATCGGTCACG -CCGGGCACCCGGAAGTGGAAGGGACAATGGGCCAGTACAGTAACCCGGAAGGGGGAATGTATCTGGTCGAATCGCCGGAC -GATGTGTGGAAACTGACGGTCAAAAACGAAGAGAAGCTCTCCTTTATGACCCAGACCACGCTGTCGGTGGATGACACGTC -TGATGTGATCGACGCGCTGCGTAAACGCTTCCCGAAAATTGTCGGTCCGCGCAAAGATGACATCTGCTACGCCACGACTA -ACCGTCAGGAAGCGGTACGCGCCCTGGCAGAACAGGCGGAAGTTGTGTTGGTGGTCGGTTCGAAAAACTCCTCCAACTCC -AACCGTCTGGCGGAGCTGGCCCAGCGTATGGGCAAACGCGCGTTTTTGATTGACGATGCGAAAGACATCCAGGAAGAGTG -GGTGAAAGAGGTTAAATGCGTCGGCGTGACTGCGGGCGCATCGGCTCCGGATATTCTGGTGCAGAATGTGGTGGCACGTT -TGCAGCAGCTGGGCGGTGGTGAAGCCATTCCGCTGGAAGGCCGTGAAGAAAACATTGTTTTCGAAGTGCCGAAAGAGCTG -CGTGTCGATATTCGTGAAGTCGATTAAGTCATTAGCAGCCTAAGTTATGCGAAAATGCCGGTCTTGTTACCGGCATTTTT -TATGGAGAAAACATGCGTTTACCTATCTTCCTCGATACTGACCCCGGCATTGACGATGCCGTCGCCATTGCCGCCGCGAT -TTTTGCACCCGAACTCGACCTGCAACTGATGACCACCGTCGCGGGTAATGTCTCGGTTGAGAAAACTACCCGCAATGCCC -TGCAACTGCTGCATTTCTGGAATGCGGAGATTCCGCTCGCCCAAGGGGCCGCTGTGCCACTGGTACGCGCACCGCGTGAT -GCGGCATCTGTGCACGGCGAATCGGGAATGGCTGGCTACGACTTTGTTGAGCACAACCGAAAGCCGCTCGGGATACCGGC -GTTTCTGGCGATTCGGGATGCCCTGATGCGTGCACCAGAGCCTGTTACCCTGGTGGCCATCGGCCCGTTAACCAATATTG -CGCTGTTACTTTCACAATGCCCGGAATGCAAGCCGTATATTCGCCGTCTGGTGATCATGGGTGGTTCTGCCGGACGCGGC -AACTGTACGCCAAACGCCGAGTTTAATATTGCTGCCGATCCAGAAGCTGCTGCCTGTGTCTTCCGCAGTGGTATTGAAAT -CGTCATGTGCGGTTTGGATGTCACCAATCAGGCAATATTAACTCCTGACTATCTCTCTACACTGCCGCAGTTAAACCGTA -CCGGGAAAATGCTTCACGCCCTGTTTAGCCACTACCGTAGCGGCAGTATGCAAAGCGGCTTGCGAATGCACGATCTCTGC -GCCATCGCCTGGCTGGTGCGCCCGGACCTGTTCACTCTCAAACCCTGTTTTGTGGCAGTGGAAACTCAGGGCGAATTTAC -CTCAGGCACGACGGTGGTTGATATCGACGGTTGCCTGGGCAAGCCAGCCAATGTACAGGTGGCATTGGATCTGGATGTGA -AAGGCTTCCAGCAGTGGGTGGCTGAGGTGCTGGCTCTGGCGTCGTAACCTGTCACATGTTATTGGCATGCAGTCATTCAT -CGACTCATGCCTTTCACTGATATCCCTCCCTGTTTATCATTAATTTCTAATTATCAGCGTTTTTGGCTGGCGGCGTAGCG -ATGCGCTGGTTACTCTGAAAACGGTCTATGCAAATTAACAAAAGAGAATAGCTATGCATGATGCAAACATCCGCGTTGCC -ATCGCGGGAGCCGGGGGGCGTATGGGCCGCCAGTTGATTCAGGCGGCGCTGGCATTAGAGGGCGTGCAGTTGGGCGCTGC -GCTGGAGCGTGAAGGATCTTCTTTACTGGGCAGCGACGCCGGTGAGCTGGCCGGAGCCGGGAAAACAGGCGTTACCGTGC -AAAGCAGCCTCGATGCGGTAAAAGATGATTTTGATGTGTTTATCGATTTTACCCGTCCGGAAGGTACGCTGAACCATCTC -GCTTTTTGTCGCCAGCATGGCAAAGGGATGGTGATCGGCACTACGGGGTTTGACGAAGCCGGTAAACAAGCAATTCGTGA -CGCCGCTGCCGATATTGCGATTGTCTTTGCTGCCAATTTTAGCGTTGGCGTTAACGTCATGCTTAAGCTGCTGGAGAAAG -CAGCCAAAGTGATGGGTGACTACACCGATATCGAAATTATTGAAGCACATCATAGACATAAAGTTGATGCGCCGTCAGGC -ACCGCACTGGCAATGGGAGAGGCGATCGCCCACGCCCTTGATAAAGATCTGAAAGATTGCGCGGTCTACAGTCGTGAAGG -CCACACCGGTGAACGTGTGCCTGGCACCATTGGTTTTGCCACCGTGCGTGCAGGTGACATCGTTGGTGAACATACCGCGA -TGTTTGCCGATATTGGCGAGCGTCTGGAGATCACCCATAAGGCGTCCAGCCGTATGACATTTGCTAACGGCGCGGTAAGA -TCGGCTTTGTGGTTGAGTGGTAAGGAAAGCGGTCTTTTTGATATGCGAGATGTACTTGATCTCAATAATTTGTAACCACA -AAATATTTGTTATGGTGCAAAAATAACACATTTAATTTATTGATTATAAAGGGCTTTAATTTTTGGCCCTTTTATTTTTG -GTGTTATGTTTTTAAATTGTCTATAAGTGCCAAAAATTACATGTTTTGTCTTCTGTTTTTGTTGTTTTAATGTAAATTTT -GACCATTTGGTCCACTTTTTTCTGCTCGTTTTTATTTCATGCAATCTTCTTGCTGCGCAAGCGTTTTCCAGAACAGGTTA -GATGATCTTTTTGTCGCTTAATGCCTGTAAAACATGCATGAGCCACAAAATAATATAAAAAATCCCGCCATTAAGTTGAC -TTTTAGCGCCCATATCTCCAGAATGCCGCCGTTTGCCAGAAATTCGTCGGTAAGCAGATTTGCATTGATTTACGTCATCA -TTGTGAATTAATATGCAAATAAAGTGAGTGAATATTCTCTGGAGGGTGTTTTGATTAAGTCAGCGCTATTGGTTCTGGAA -GACGGAACCCAGTTTCACGGTCGGGCCATAGGGGCAACAGGTTCGGCGGTTGGGGAAGTCGTTTTCAATACTTCAATGAC -CGGTTATCAAGAAATCCTCACTGATCCTTCCTATTCTCGTCAAATCGTTACTCTTACTTATCCCCATATTGGCAATGTCG -GCACCAATGACGCCGATGAAGAATCTTCTCAGGTACATGCACAAGGTCTGGTGATTCGCGACCTGCCGCTGATTGCCAGC -AACTTCCGTAATACCGAAGACCTCTCTTCTTACCTGAAACGCCATAACATCGTGGCGATTGCCGATATCGATACCCGTAA -GCTGACGCGTTTACTGCGCGAGAAAGGCGCACAGAATGGCTGCATTATCGCGGGCGATAACCCGGATGCGGCGCTGGCGT -TAGAAAAAGCCCGCGCGTTCCCAGGTCTGAATGGCATGGATCTGGCAAAAGAAGTGACCACCGCAGAAGCCTATAGCTGG -ACACAAGGGAGCTGGACGTTGACCGGTGGCCTGCCAGAAGCGAAAAAAGAAGACGAGCTGCCGTTCCACGTCGTGGCTTA -TGATTTTGGTGCCAAGCGCAACATCCTGCGGATGCTGGTGGATAGAGGCTGTCGCCTGACCATCGTTCCGGCGCAAACTT -CTGCGGAAGATGTGCTGAAAATGAATCCAGACGGCATCTTCCTCTCCAACGGTCCTGGCGACCCGGCCCCGTGCGATTAC -GCCATTACCGCCATCCAGAAATTCCTCGAAACCGATATTCCGGTATTCGGCATCTGTCTCGGTCATCAGCTGCTGGCGCT -GGCGAGCGGTGCGAAGACTGTCAAAATGAAATTTGGTCACCACGGCGGCAACCATCCGGTTAAAGATGTGGAGAAAAACG -TGGTAATGATCACCGCCCAGAACCACGGTTTTGCGGTGGACGAAGCAACATTACCTGCAAACCTGCGTGTCACGCATAAA -TCCCTGTTCGACGGTACGTTACAGGGCATTCATCGCACCGATAAACCGGCATTCAGCTTCCAGGGGCACCCTGAAGCCAG -CCCTGGTCCACACGACGCCGCGCCGTTGTTCGACCACTTTATCGAGTTAATTGAGCAGTACCGTAAAACCGCTAAGTAAT -CAGGAGTAAAAGAGCCATGCCAAAACGTACAGATATAAAAAGTATCCTGATTCTGGGTGCGGGCCCGATTGTTATCGGTC -AGGCGTGTGAGTTTGACTACTCTGGCGCGCAAGCGTGTAAAGCCCTGCGTGAAGAGGGTTACCGCGTCATTCTGGTGAAC -TCCAACCCGGCGACCATCATGACCGACCCGGAAATGGCTGATGCAACCTACATCGAGCCGATTCACTGGGAAGTTGTACG -CAAGATTATTGAAAAAGAGCGCCCGGACGCGGTGCTGCCAACGATGGGCGGTCAGACGGCGCTGAACTGCGCGCTGGAGC -TGGAACGTCAGGGCGTGTTGGAAGAGTTCGGTGTCACCATGATTGGTGCCACTGCCGATGCGATTGATAAAGCAGAAGAC -CGCCGTCGTTTCGACGTAGCGATGAAGAAAATTGGTCTGGAAACCGCGCGTTCCGGTATCGCACACACGATGGAAGAAGC -GCTGGCGGTTGCCGCTGACGTGGGCTTCCCGTGCATTATTCGCCCATCCTTTACCATGGGCGGTAGCGGCGGCGGTATCG -CTTATAACCGTGAAGAGTTTGAAGAAATTTGCGCCCGCGGTCTGGATCTCTCTCCGACCAAAGAGTTGCTGATTGATGAG -TCGCTGATCGGCTGGAAAGAGTACGAGATGGAAGTGGTGCGTGATAAAAACGACAACTGCATCATCGTCTGCTCTATCGA -AAACTTCGATGCGATGGGCATCCACACCGGTGACTCCATCACTGTCGCGCCAGCCCAAACGCTGACCGACAAAGAATATC -AAATCATGCGTAACGCCTCGATGGCGGTGCTGCGTGAAATCGGCGTTGAAACCGGTGGTTCCAACGTTCAGTTTGCGGTG -AACCCGAAAAACGGTCGTCTGATTGTTATCGAAATGAACCCACGCGTGTCCCGTTCTTCGGCGCTGGCGTCGAAAGCGAC -CGGTTTCCCGATTGCTAAAGTGGCGGCGAAACTGGCGGTGGGTTACACCCTCGACGAACTGATGAACGACATCACTGGCG -GACGTACTCCGGCCTCCTTCGAGCCGTCCATCGACTATGTGGTTACTAAAATTCCTCGCTTCAACTTCGAAAAATTCGCC -GGTGCTAACGACCGTCTGACCACTCAGATGAAATCGGTTGGCGAAGTGATGGCGATTGGTCGCACGCAGCAGGAATCCCT -GCAAAAAGCGCTGCGCGGCCTGGAAGTCGGTGCGACTGGATTCGACCCGAAAGTGAGCCTGGATGACCCGGAAGCGTTAA -CCAAAATCCGTCGCGAACTGAAAGACGCAGGCGCAGATCGTATCTGGTACATCGCCGATGCGTTCCGTGCGGGCCTGTCT -GTGGACGGCGTCTTCAACCTGACCAACATTGACCGCTGGTTCCTGGTACAGATTGAAGAGCTGGTGCGTCTGGAAGAGAA -AGTGGCGGAAGTGGGCATCACTGGCCTGAACGCTGACTTCCTGCGCCAGCTGAAACGCAAAGGCTTTGCCGATGCGCGCT -TGGCAAAACTGGCGGGCGTACGCGAAGCGGAAATCCGTAAGCTGCGTGACCAGTATGACCTGCACCCGGTTTATAAGCGC -GTGGATACCTGTGCGGCAGAGTTCGCCACCGACACCGCTTACATGTACTCCACTTATGAAGAAGAGTGCGAAGCGAATCC -GTCTACCGACCGTGAAAAAATCATGGTGCTTGGCGGCGGCCCGAACCGTATCGGTCAGGGTATCGAATTCGACTACTGTT -GCGTACACGCCTCGCTGGCGCTGCGCGAAGACGGTTACGAAACCATTATGGTTAACTGTAACCCGGAAACCGTCTCCACC -GACTACGACACTTCCGACCGCCTCTACTTCGAGCCGGTAACTCTGGAAGATGTGCTGGAAATCGTGCGTATCGAGAAGCC -GAAAGGCGTTATCGTCCAGTACGGCGGTCAGACCCCGCTGAAACTGGCGCGCGCGCTGGAAGCTGCTGGCGTACCGGTTA -TCGGCACCAGCCCGGATGCTATCGACCGTGCAGAAGACCGTGAACGCTTCCAGCATGCGGTTGAGCGTCTGAAACTGAAA -CAACCGGCGAACGCCACCGTTACCGCTATTGAAATGGCGGTAGAGAAGGCGAAAGAGATTGGCTACCCGCTGGTGGTACG -TCCGTCTTACGTTCTCGGCGGTCGGGCGATGGAAATCGTCTATGACGAAGCTGACCTGCGTCGCTACTTCCAGACGGCGG -TCAGCGTGTCTAACGATGCGCCAGTGTTGCTGGACCACTTCCTCGATGACGCGGTAGAAGTTGACGTGGATGCCATCTGC -GACGGCGAAATGGTGCTGATTGGCGGCATCATGGAGCATATTGAGCAGGCGGGCGTGCACTCCGGTGACTCCGCATGTTC -TCTGCCAGCCTACACCTTAAGTCAGGAAATTCAGGATGTGATGCGCCAGCAGGTGCAGAAACTGGCCTTCGAATTGCAGG -TGCGCGGCCTGATGAACGTGCAGTTTGCGGTGAAAAACAACGAAGTCTACCTGATTGAAGTTAACCCGCGTGCGGCGCGT -ACCGTTCCGTTCGTCTCCAAAGCCACCGGCGTACCGCTGGCAAAAGTGGCGGCGCGCGTGATGGCTGGCAAATCGCTGGC -TGAGCAGGGCGTAACCAAAGAAGTTATCCCGCCGTACTACTCGGTGAAAGAAGTGGTGCTGCCGTTCAATAAATTCCCGG -GCGTTGACCCGCTGTTAGGGCCAGAAATGCGCTCTACCGGGGAAGTCATGGGCGTGGGCCGCACCTTCGCTGAAGCGTTT -GCCAAAGCGCAGCTGGGCAGCAACTCCACCATGAAGAAACACGGTCGTGCGCTGCTTTCCGTGCGCGAAGGCGATAAAGA -ACGCGTGGTGGACCTGGCGGCAAAACTGCTGAAACAGGGCTTCGAGCTGGATGCGACCCACGGCACGGCGATTGTGCTGG -GCGAAGCAGGTATCAACCCGCGTCTGGTAAACAAGGTGCATGAAGGCCGTCCGCACATTCAGGACCGTATCAAGAATGGC -GAATATACCTACATCATCAACACCACCTCAGGCCGTCGTGCGATTGAAGACTCCCGCGTGATTCGTCGCAGTGCGCTGCA -ATATAAAGTGCATTACGACACCACCCTGAACGGCGGCTTTGCCACCGCGATGGCGCTGAATGCCGATGCGACTGAAAAAG -TAATTTCGGTGCAGGAAATGCACGCACAGATCAAATAATAGCGTGTCATGGCAGATATTTTTCATCCGCTAATTTGATCG -AATAACTAATACGGTTCTCTGATGAGGACCGTTTTTTTTTGCCCATTAAGTAAATCTTTTGGGGAATCGATATTTTTGAT -GACATAAGCAGGATTTAGCTCACACTTATCGACGGTGAAGTTGCATACTATCGATATATCCACAATTTTAATATGGCCTT -GTTTAATTGCTTCAAAACGAGTCATAGCCAGACTTTTAATTTGTGAAACTGGAGTTCGTATGTGTGAAGGATATGTTGAA -AAACCACTCTACTTGTTAATCGCCGAATGGATGATGGCTGAAAATCGGTGGGTGATAGCAAGAGAGATCTCTATTCATTT -CGATATTGAACACAGCAAGGCGGTTAATACCCTGACTTATATTCTGTCGGAAGTCACAGAAATAAGCTGCGAAGTTAAGA -TGATCCCTAATAAGCTGGAAGGGCGGGGATGCCAGTGTCAGCGACTGGTTAAAGTGGTCGATATCGATGAGCAAATTTAC -GCGCGCCTGCGCAATAACAGTCGGGAAAAATTAGTCGGTGTAAGAAAGACGCCGCGTATTCCTGCCGTTCCGCTCACGGA -ACTTAACCGCGAGCAGAAGTGGCAGATGATGTTGTCAAAGAGTATGCGTCGTTAATTTTATCTCGTTGATACCGGGCGTC -CTGCTTGCCAGATGCGATGTTGTAGCATCTTATCCAGCAACCAGGTCGCATCCGGCAAGATCACCGTTTAGGCGTCACAT -CCGTCGTCCCCTGCAAACGGGGGCGATTTTCCTCCATTTGCCTCAGTGGCTGCGTTTCATGTAACGATACATGACAGCGC -CCGACAAGATCCTGATACTCTTTGGTATTCAACCGTTTCCAGTGTAACTCGTCGTCACTAACATTGCGTACAGCGCGGGC -TGGCGTACCCATCAACAACTGGCGTTTCTCGCCGCGAAAGCCCGCTTTGACAAAGCTCATGGCGGCAACAATGCTCTCTT -CGCCAATGACCGCGCCATCCATAATCACGCTGTTCATCCCGACCAATGCATCGCGACCAATCAAACAACCATGCAGGATC -GCTCCGTGCCCGATATGGCCGTTTTCCCCAACGATAGTGTCAGTGTCGCAGTAGCCATGCATAATGCAGCCATCCTGAAT -ATTGGCTCCCGCTTGCACGATCAACCGCCCGTAGTCACCACGCAGTGAGGCGAGTGGGCCGATGTAGACACCGGCTCCCA -CAATCACATCGCCAATCAAGACGGCACTGGGATGGACAAACGCCGTCGGGTGAACCACCGGAATTAACCCCTCAAAGGCG -TAATAGCTCACGGTTGTTAACGTCCTTTCCACACCGGATCGCGCTTCTCGGCAAACGCCAGCGGCCCTTCAATGGCATCT -TCCGAATGCAGAACCGATGGATAGTGTTTCAACACGCCGCTGCGAATATAGCGATACGCTTCTTCTACCGGCATTTCGCT -GGTGGTGCGGTAGATCTCTTTCAGCGCCGCAATCGCCAGCGGGGCGCTGTTAACCAGCTGCTGAGCCAGTTCGCGGGCGT -TATCCATCAGTTCCGCCTGGCTAACCACGCGGTTGACTATCCCCCAACGCAGCGCCTCTTCTGCGCCCATTCGTCTGCCG -GTCATCACCATTTCATTGACGATGGCAGGCGGCAGGATCTTCGGCAGACGCAGCACACCGCCGCTGTCAGGAACGATGCC -CAGTTTGGCTTCCGGCAGGGCGAAGCTGGCGTTATCGGCACAAACAATAAAATCTGCCGCCAGCGCCAGTTCAAAGCCGC -CGCCAAAGGCATAGCCGTTCACAGCTGCGATAACCGGTTTGTCGAGATTGAAAATTTCGGTTAATCCCGCAAAACCACCC -GGACCAAAGTCAGCATCCGGTGCTTCGCCTTCTGCTGCCGCTTTTAAATCCCAGCCCGCGGAAAAGAACTTCTCTCCGGC -ACCGGTAATAATGGCGACACGTAATTGCGGATCGTCACGGAAATTTAGAAATACTTCGCCCATTTCAAAGCTGGTTTTTG -CATCAATAGCATTCGCTTTTGGACGATCAAGGGTAATTTCCAGAATTGATCCATTGCGGGTCAGATGTAATGATTCACTC -ATTCCTTTTCTCCATTTTTGCTTTTTCAGGGACGACAACATCCCTGCAAAAAATGCATATTGTTTTAGAGTGTGATTATT -AGCTGGCAGGGTAGTTCCCTGCTGTTTCATTTATTTCAGATTCTTTCTAATTATTTTCCCCGAGCAATTACGTGGCAGAT -CTTTTCTGATCTCCAGATAAGAGGGCACTTTAAATTTCGCCATATTTTGTTCGCAGAAGCGGAAAAATTCCTCTTCGCTC -AATGTTTCACCTTCATTCAGCACCACAAATGCTTTGATGGCTTCATCGCGAATCGAATCTTTAATACCCACAACCACGAT -GTCCTGAATTTTCGGGTGCGCGGCGATAATATTTTCCAGCTCCACGCAGGAGACATTCTCGCCGCCACGTTTAATCATAT -TGCAGCGGCGATCGACGAAATAAAAAAAGTCCTCTTCGTCGCGGTATCCGGTATCGCCGGTATGCAGCCAGCCATCGGCT -TCCAGCACTTTCGCAGTGGCTTGTGGGTTGAGAAAGTACTCTTTGAAGATGGTTTTCCCAGGTATGCCTTTAATGCAGAT -TTCACCGATCTCACCAGCCGGGAGCGGGCGATTGTGATCGTCGCGGATCTCCGCTTCGTAGCAAAACCCCACCCGACCAA -TCGACGGCCAGCGTCGTTTATCGCCAGGACGATCGCCGATAATGCCCACAATGGTTTCCGTCATCCCATAAGACGTCAGC -AAGCGAACGCCGAAGCGTTCACAAAACGCATCTTTTTCCTGCTCCGACAAGTTGAGATAAAACATCACTTCCCGCAGGCG -GTGTTGCTGATCGTTCGCTGAAGGCGGCTGTACCATCAACGTACGGATCATCATCGGAATACATTCGGTAACGGTGGCGC -GGTACTTCTGTACCTGTCCCCAGAAGGCGCGGGCGCTGTATTTCTCGACCAGCACAAAGGTGGCCCCGGCAGAAAACGCC -GCCATCGCCGCAGTACACTGGCAATCGATATGAAACGCAGGCATTACCGTCAGGTAGACGTCATCGTCACGCAGTGCACA -CTGCCAGGCGGAGTAATATCCAGCGAAGCGCAGGTTGTAATGGGTAATCACCACACCTTTCGGTCGGGAGGTGGTGCCGG -AGGTGAAGAGAATTTCCGCCGTATCGTCAGTCGATAGCGGCGGTGCATAGCACAAGGTGGCAGGTTGTTGATTTTTCAGT -TGAGTAAACGAACTCACGCCATCATCAGCGGGAAGTGCCACATCTGTCAGGCAAATGTGCCGCAATTGAGTGGCATCTTC -CTGCTGAATCTGTTGATACATAGGATAGAATTGCGCACTGGTCACCAGCAGGCACGCCTGGCTATTTTGCAGGATCCACG -CGCTTTCCTCGCACAACAGGCGGGCGTTAATCGGCACCATAATCGCGCCAATTTTTGCCAGCCCGAACCAGCAAAAGATA -AATTCCGGGCAGTTGTCGAGATGTAGTGCAACCTTGTCGCCTTTGCGAATCCCCAGCGTATAAAACAGGTTTGCCGTGCG -GTTAATCTCCTGATTTAACTCAAGATAACTATACCGGTTAACGACTCCGCCGCTGGATTCACAAATCAGCGCCGTTTTAT -GACCGTAAACGTCCGCAAGATCGTCCCACATTTGACGTAGATGTTGTCCGCCAATGATATCCATTGCACCTCTATCCATT -TTTGTTCGTTTGTTATTGGGCGGGCGCTAGTCAGGCAAGCCGACTGACGCCACGCGTTTAGTCCTCAACTTTGGCCAGAC -CTTTGCTGACCAACTCCTGAATGTCGTTTTCGCTGTAGCCGATATTTTTCAAAATGGCAGCCGTGTCCATGCCATGTGAG -GGCATTCCGCGCCAGATTTGTCCGGGGTTATTTTTGAATTTCGGCATGATGTTCGGCCCTTTGCAGGTGCGACCATCCAT -CGTTTGCCACTGAGTGATTGATTCGCGAGCCACATACTGTGGATTGCTTTCCAGTTCCGGTACGGTCAGCACTTTGGCGC -AGGCGATATTCAGTTCAGCAAAGCGTTCTTTTACTTCCGCGATGGTATGTGTCGCCAGCCAGGCATCGAGTTTCTCTTCA -ACCAGTGGGCCGTAAGGGCATTCGATACGGTGGATAAGCTGAGTGCCTTCCGGGATTTCTGGCGTGCCAAGCAGATGTGC -GAGGCCAATATCTTTAAAGCACTCTTCAATTTGGGTAATGCCCACCAGTTCCATCACGATGTAGCCGTCGGCACATTTAT -ACAGACCGCAACCGGCGTAGTAGGGATCTTTACCTTTGCTCATGCGCGGGCACATTTCGCCGCCGTTGAAGTAATCCATC -ATGAAGTACTGGCCCATACGCAGCATCACTTCATACATGGCGATGTCGATACTTTCGCCTTTACCGGTTTCACGCACTTT -ATGCAGTGCTGCCAGCGCCGCCGTGGTGGCGGTCAGGCCAGAAAAGTAATCGGCGGTATACGGGAAGGCAGGCATTGGCT -GGTCAACATCACCGTTCTGAATCAGGTAACCACTAAAGGCCTGGGCGATAGTGTTATAGGCCGGAAGATTGGTGTACTCC -TCGGTGCCGTACTGACCAAAACCGGACAGGTGAGCGATAACCAGTTTCGGGTTGTGCTGCCACAGTACTTCATCGGTAAT -GCCACGACGGGCAAAGGCCGGACCTTTACTGGCTTCGATGAAGATATCGGTGGTTTCCATTAATTTCAGAAACGCTTCGC -GGCCTTCATCTTTGAAAATATTTAACGACAGCGCGTGCAAATTGCGGCGGGAGAGTTGCGGGTAGTTCGGTTGAACGCGA -ATGGTGTCGGCCCAGGCGACGTTCTCGATCCAGATAACTTCCGCGCCCCATTCTGCGAACATTTGCCCGGCAAACGGTCC -GGCGATTTCGATACCGGAGAAGACAACGCGCAATCCGGCCAACGGCCCGAATTTCGGCATGGGTAGATGATCCATTATTT -GCTCCTGAAAAATTTATGTAGCGCATGACTGCCGGATGCGGCGTAAACGCTTTATCCGGCCTACATTCGTGCTCCCGTAG -GCCTGATAAGACGCATCAGCGTCGCATCAGGCAGCGCACGGACTTAGCGGTATTGCTTCAGCACCGCACGACCCAGCGTC -AGGATCTGCATTTCGTCAGATCCCCCGGAGACGCGGTCTACACGCAGATCACGCCAGAAGCGGCTGATGCGGTGGTTGCC -CGCAATCCCGACACCGCCCAGCACCTGCATTGCGCTATCCACAACTTCAAATGCCGCATTGGCGCAGAAGTATTTGCACA -TCGCTGCATCGCCAGAGGTGATGGTGCCGTTGTCTGCTTTCCACGCTGCTTCATACAGCATGTTTTTCATGGAGTTTAAT -TTGATCGCCATGTGGGCGAATTTTTCCTGAATCAACTGGAAACGACCAATAGCCTCGCCAAACTGCACGCGCTGATTGGC -GTAGCGCGCCGCATCTTCAAAGGCGCACATCGCCGTACCGTAGTTGGTGAGGGCTACCAGGAAACGTTCATGGTCGAACT -CTTCTTTGACGCGGTTAAAGCCGTTACCTTCCCGACCGAACATGTCTTTCTCGTCCAGTTCCACGTCGTCAAAGGTGATT -TCACAGCAGCTATCCATACGCAGACCGAGCTTTTCAAGTTTGGTCACTTTGATGCCCGGTTTGCTCATATCAACAAACCA -TTCGGTGTAGACAGGTTTGTCCGGAGAAGCCCCGTCGCGCGCCATCACCACGATGTACGGGGTGTAGGCGCTGCTGGTAA -TAAAACACTTACTACCATTAAGATAAATCTTACCATTTCTACGGGTATAAGTCGTTTTCAGGCTACCCACGTCGGAGCCC -GCGCCCGGTTCGGTAATCGCTGAGTTCCACATCTGCTTACCGGTGCCGCGGAAAGCCATAATTTTGTCGATCTGCTCTTG -TGTGCCTTCGCGCAGGAAGGTGTTGAACCCGCCCGGCAACTGGTACAGCACATAGGTTGGTGCCCCCAGACGTCCCAGCT -CCATCCACACGGCGGCGAGAGTAACAAACCCCGCGTCCAGACCACCGTGCTCTTCAGGGATCAGCAGACTGTCGATACCC -ATATCCGCCAGTGCTTTGACAAAACGTTCCGGGTAGACGCTGTCACGGTCGCACTCGGCAAAATAGGCCTCCCAGTTTTC -GCTGGCCATCAGTTCGCGGATACCGGCGACAAACAGTTCCTGCTCATCATTTAAATTAAAATCCATCTTTCAACCTCTTG -ATATTTTGGGGGTTAATTAATCTTTCCAGTTCTGTTTCGCGTCTTTAATAAAGGAGAGCGTCACCATAATGTTGACGAAG -AACAGCGGGCATCCTCCGGCGATAATGGCGGTTTGAATCGGTTTCAGGCCGCCGAGCGCCAGCAGAACAATACCGATAAT -GCCAACCAGAATTGACCAACCGATACGCACCAGCAGAGGTGGTTCTTCACCATCGCGTACTTCGCGGCAAGTGGACATCG -CCAGGGTATAAGAGCAGGCGTTAACCAGCGTAACGGTGGCAATAAAGCAGAGGATGAAGAAGCCCCACATGGTGGCGGTG -CTGAGTGGCAGAGCGGCCCAGGTTTCAATGATGGCGCGCGCCACACCGTACTGTTCGATCAGATTTGGAATGTTGATGAT -GTTTTTATCTATCAACAGCAGAGTGTTACTACCGAGTACAGTCCACAGGATCCAGGTTGACGCTGTCAGCCCCAGCACCA -TGCCGAAGCACAGTTCACGCACAGTACGACCACGGGAGATGCGGGCGAGGAAGATACTCATCTGGATAGCATAAATCACC -CACCATGCCCAGTAGAACACGGTCCAGCCCTGCGGGAAGCCGCCTTTAGCGATGGGATCGGTATAGAACAACATGCGCGG -CAGATACATCAGCAACATCCCCACCGAATCGGTGAAGTAGTTCATGATGAAGCTGGCACCGCTGACAATGAACACCCAAC -CCAGCATCAGGAAGCTCAGGTAACTACGCACGTCACTGGCGATACGTACCCCTTTTTGCAGACCGCAAGCGACGCAAATG -GCGTTGAGGATAATCCAGCAGGTAATGATGATAGCGTCCAGTTGCAGGGTATGCGGAATGCCAAACAACCATTGCATACA -CTCGGTCACCAGCGGCGTGGCAAGGCCCAGACTGGTACCCATCGCGAAGATCAAGGCGACGAGATAGAAGTTGTCGACGA -TAGTGCCGAACAACCCTTTGGCGTGTTTTTCACCTACCAGCGGCACCAGTGTCGAGCTGGGGCGAATCACTTCCATTTTG -CGGACAAAGAAGAAGTAAGCGAAGGCGACTGAAAGGAAGCTGTAAGTGGCCCACGGCAGAGGTCCCCAGTGGAACAAGCT -GTAAGCCAGCCCCAACTCTTTCGCCCCTGTCGAGTTCGGTTCTAAGCCAAACGGCGGGGTGGAGATGTAGTAGTAGATCT -CAATCGATCCCCAGAACAGTACGGCAGCAGACGTACAGGAGGCGAACATCATAAAGATCCAACTGGCGGTGCTAAATTCT -GGCGGTTCGTTACCTAAACGCTTTTTGGCATACGGGCCAAACACCAGCCAGAACCAACCGAAAAGCATCACCACCATATA -CCATTCAAATGCCCATCCCCATACATTGGTGACGTAACTGAATACAGCATTAATAACGACATTCGCTGCATCCAGATCTC -TGACTGTAAGCCAACAAAGTATGCCGACGATTATTAACGGCGGAAAGAAAACCTTCGGTTCTATTCCCGTTTTTCTCTTT -TCATTCTTCATGAGTTAATTCCACTGTGAAAACGAATATTTATTTTGCGTTCCCGTTTGTTTTATTTTTGTTAACATTTA -ATATAATTATTATTAACCTCGTGGACGCGTTAATGGCTAACTCATAATGGGTATTCAATAAGCTGTATTCTGTGATTGGT -ATCACATTTTTGTTTCGGGTGAATAGAGGGCGTTTTTTCGTTAATTTTGATTAATAATCAGTTTGTTATGCTCTGTTGTG -AGTAAAAAATAACATCTGACTTTCAATATTGGTGATCCATAAAACAATATTGAAAATTTCTTTTTGCTACGCCGTGTTTT -CAATATTGGTGAGGAACTTAACAATATTGAAAGTTGGATTTATCTGCGTGTGACATTTTCAATATTGGTGATTAAAGTTT -TATTTCAAAATTAAAGGGCGTGATATCTGTAATTAACACCACCGATATGAACGACGTTTCCTTCATGATTTCTGGAGATG -CAATGAAGATTATTACTTGCTATAAGTGCGTGCCTGATGAACAGGATATTGCGGTCAATAATGCTGATGGTTCATTAGAC -TTCAGCAAAGCCGATGCCAAAATAAGCCAATACGATCTCAACGCTATTGAAGCGGCTTGCCAGCTAAAGCAACAGGCAGC -AGAGGCGCAGGTGACAGCCTTAAGTGTGGGCGGTAAAGCCCTGACCAACGCCAAAGGGCGTAAAGATGTGCTATCGCGCG -GCCCGGATGAACTGATTGTGGTGATTGATGACCAGTTCGAGCAGGCACTGCCGCAACAAACGGCGAGCGCACTGGCTGCA -GCCGCCCAGAAAGCAGGCTTTGATCTGATCCTCTGTGGCGATGGTTCTTCCGACCTTTATGCCCAGCAGGTTGGTCTGCT -GGTGGGCGAAATCCTCAATATTCCGGCAGTTAACGGCGTCAGCAAAATTATCTCCCTGACGGCAGATACCCTCACCGTTG -AGCGCGAACTGGAAGATGAAACCGAAACCTTAAGCATTCCGCTGCCTGCGGTTGTTGCTGTTTCCACTGATATCAACTCC -CCACAAATTCCTTCGATGAAAGCCATTCTCGGCGCGGCGAAAAAGCCCGTCCAGGTATGGTCGGCGGCGGATATTGGTTT -TAACGCAGAGGCAGCCTGGTCAGAACAACAGGTTGCCGCGCCGAAACAGCGCGAACGTCAGCGCATCGTGATTGAAGGCG -ACGGCGAAGAACAGATCGCCGCATTTGCTGAAAATCTTCGCAAAGTCATTTAATTACAGGGGATGCTATGAACACGTTTT -CTCAAGTCTGGGTATTCAGCGATACCCCTTCTCGTCTGCCGGAACTGATGAACGGTGCGCAGGCTTTAGCTAATCAAATC -AACACCTTTGTCCTCAATGATGCCGACGGCGCACAGGCAATCCAGCTCGGCGCTAATCATGTCTGGAAATTAAACGGCAA -ACCGGACGATCGGATGATCGAAGATTACGCCGGTGTCATGGCTGACACTATTCGCCAGCACGGCGCAGACGGCCTGGTGC -TGCTGCCAAACACCCGTCGCGGCAAATTACTGGCGGCAAAACTGGGTTATCGCCTTAAAGCGGCGGTGTCTAACGATGCC -AGCACCGTCAGCGTACAGGACGGTAAAGCGACAGTGAAACACATGGTTTACGGTGGTCTGGCGATTGGCGAAGAACGCAT -TGCCACGCCGTATGCGGTACTGACCATCAGCAGCGGCACGTTCGATGCGGCTCAGCCAGACGCGTCACGCACTGGCGAAA -CGCACACCGTGGAGTGGCAGGCTCCGGCTGTGGCGATTACCCGCACGGCAACCCAGGCGCGCCAGAGCAACAGCGTCGAT -CTCGACAAAGCCCGTCTGGTGGTCAGCGTCGGTCGCGGTATTGGCAGCAAAGAGAACATTGCGCTGGCAGAACAGCTTTG -CAAGGCGATAGGTGCGGAGTTGGCCTGTTCTCGTCCGGTGGCGGAAAACGAAAAATGGATGGAGCACGAACGCTATGTCG -GTATCTCCAACCTGATGCTGAAACCTGAACTGTACCTGGCGGTGGGGATCTCCGGGCAGATCCAGCACATGGTTGGCGCT -AACGCGTCGCAAACCATTTTCGCCATCAATAAAGATAAAAATGCGCCGATCTTCCAGTACGCGGATTACGGCATTGTTGG -CGACGCCGTGAAGATCCTTCCGGCGCTGACCGCAGCTTTAGCGCGTTGATCCACTCTGGCAGGGCTGCATTTTGGCCCTG -CCGCTGACAGGGAGCTCTTATGTCCGAAGATATCTTTGACGCCATCATCGTCGGTGCAGGGCTTGCCGGTTCGGTTGCCG -CACTGGTGCTCGCCCGCGAAGGTGCGCAAGTGTTAGTTATCGAGCGTGGCAATTCCGCAGGTGCCAAGAACGTCACCGGC -GGGCGTCTCTATGCCCACAGTCTGGAACACATTATTCCTGGTTTCGCCGACTCCGCCCCCGTAGAACGCCTGATCACCCA -TGAAAAACTCGCGTTTATGACGGAAAAGTCAGCGATGACTATGGACTACTGCAATGGTGACGAAACCTCGCCATCCCAGC -GTTCTTACTCCGTTTTGCGCAGTAAATTTGATGCCTGGCTGATGGAGCAGGCCGAAGAAGCGGGCGCGCAGTTAATTACC -GGGATCCGCGTCGATAACCTCGTACAGCGCGATGGCAAAGTCGTCGGTGTAGAAGCCGATGGCGATGTGATTGAAGCGAA -AACGGTGATCCTTGCTGATGGGGTGAACTCCATCCTTGCCGAAAAATTGGGGATGGCAAAACGCGTCAAACCGACGGATG -TGGCGGTTGGCGTGAAGGAACTGATCGAGTTACCGAAGTCGGTTATTGAAGACCGTTTTCAGTTGCAGGGTAATCAGGGG -GCGGCTTGCCTGTTTGCGGGATCACCCACCGATGGCCTGATGGGCGGCGGCTTCCTTTATACCAATGAAAACACCCTGTC -GCTGGGGCTGGTTTGTGGTTTGCATCATCTGCATGACGCGAAAAAATCGGTGCCGCAAATGCTGGAAGATTTCAAACAGC -ATCCGGCCGTTGCACCGCTGATCGCGGGCGGCAAGCTGGTGGAATATTCCGCTCACGTAGTGCCGGAAGCAGGCATCAAC -ATGCTGCCGGAGTTGGTTGGTGACGGCGTATTGATTGCCGGTGATGCCGCCGGAATGTGTATGAACCTCGGTTTTACCAT -TCGCGGTATGGATCTGGCGATTGCCGCCGGGGAAGCCGCAGCAAAAACCGTGCTTTCAGCGATGAAAAGCGACGATTTCA -GTAAGCAAAAACTGGCGGAATATCGTCAGCATCTTGAGAGTGGTCCGCTGCGCGATATGCGTATGTACCAGAAACTACCG -GCGTTCCTTGATAACCCACGCATGTTTAGCGGCTACCCGGAGCTGGCGGTGGGTGTGGCGCGTGACCTGTTCACCATTGA -TGGCAGCGCGCCGGAACTGATGCGCAAGAAAATCCTCCGCCACGGCAAGAAAGTGGGCTTCATCAATCTAATCAAGGATG -GCATGAAAGGAGTGACCGTTTTATGACTTCTCCCGTCAATGTGGACGTCAAACTGGGCGTCAATAAATTCAATGTCGATG -AAGAGCATCCGCACATTGTTGTGAAGGCCGATGCTGATAAACAGGCGCTGGAGCTGCTGGTGAAAGCGTGCCCCGCAGGT -CTGTACAAGAAGCAGGATGACGGCAGTGTGCGCTTCGATTACGCCGGATGTCTGGAGTGCGGCACCTGTCGCATTCTGGG -GCTGGGGTCGGCGCTGGAACAGTGGGAATACCCGCGCGGCACCTTTGGTGTGGAGTTCCGTTACGGCTGATGTTGGTTTG -ATACGTAACGCCGCACTGACTCTCATTGCAAAAAACAGGAATAACCATGCAACCGTCCAGAAACTTTGACGATCTCAAAT -TCTCCTCTATTCACCGCCGCATTTTGCTGTGGGGAAGCGGTGGTCCGTTTCTGGATGGTTATGTACTGGTAATGATTGGC -GTGGCGCTGGAGCAACTGACGCCGGCGCTGAAACTGGACGCTGACTGGATTGGCTTGCTGGGCGCGGGAACGCTCGCCGG -GCTGTTCGTTGGCACATCGCTGTTTGGTTATATTTCCGATAAAGTCGGACGGCGCAAAATGTTCCTCATTGATATCATCG -CCATCGGCGTGATATCGGTGGCGACGATGTTTGTTTCATCCCCCGTCGAACTGTTGGTGATGCGGGTACTTATCGGCATT -GTCATCGGTGCAGATTATCCCATCGCCACCTCAATGATCACCGAGTTCTCCAGTACCCGTCAGCGGGCGTTTTCCATCAG -CTTTATTGCCGCGATGTGGTATGTCGGCGCGACCTGTGCCGATCTGGTCGGCTACTGGCTTTATGATGTGGAAGGCGGCT -GGCGCTGGATGCTGGGTAGCGCGGCGATCCCCTGTTTGTTGATTTTGATTGGTCGATTCGAACTGCCTGAATCTCCCCGC -TGGTTATTACGCAAAGGGCGAGTAAAAGAGTGCGAAGAGATGATGATCAAACTGTTTGGCGAACCGGTGGCTTTCGATGA -AGAGCAGCCGCAGCAAACCCGTTTTCGCGATCTGTTTAATCGCCGCCATTTTCCTTTTGTTCTGTTTGTTGCCGCCATCT -GGACCTGCCAGGTGATCCCAATGTTCGCCATTTACACCTTTGGCCCGCAAATCGTTGGTTTGTTGGGATTGGGGGTTGGC -AAAAACGCGGCACTAGGGAATGTGGTGATTAGCCTGTTCTTTATGCTCGGCTGTATTCCGCCGATGCTGTGGTTAAACAC -TGCCGGACGGCGTCCATTGTTGATTGGCAGCTTTGCCATGATGACGCTGGCGCTGGCGGTTTTGGGGCTAATCCCGGATA -TGGGGATCTGGCTGGTAGTGATGGCCTTTGCGGTGTATGCCTTTTTCTCTGGCGGGCCGGGTAATTTGCAGTGGCTCTAT -CCTAATGAACTCTTCCCGACAGATATCCGCGCCTCTGCCGTGGGCGTGATTATGTCCTTAAGTCGTATTGGCACCATTGT -TTCGACCTGGGCACTACCGATCTTTATCAATAATTACGGTATCAGTAACACGATGCTAATGGGGGCGGGTATCTCGCTGT -TTGGCTTGTTGATTTCCGTAGCGTTTGCCCCGGAGACTCGAGGGATGTCACTGGCGCAGACCAGCAATATGACGATCCGC -GGGCAGAGAATGGGGTAAATTGTTCAGATTTCTCTCTTTTCTGAATCAATATTATTGACTATAAGCCGCGTGAATATATG -ACTACACTTTGTGGGAAAACAAAGGCGTAATCACGCGGGCTACCTATGATTCTTATAATTTATGCGCATCCGTATCCGCA -TCATTCCCATGCGAATAAACGGATGCTTGAACAGGCAAGGACGCTGGAAGGCGTCGAAATTCGCTCTCTTTATCAACTCT -ATCCTGACTTCAATATCGATATTGCCGCCGAGCAGGAGGCGCTGTCTCGCGCCGATCTGATCGTCTGGCAGCATCCGATG -CAGTGGTACAGCATTCCTCCGCTCCTCAAACTTTGGATCGATAAAGTTTTCTCCCACGGCTGGGCTTACGGTCATGGCGG -CACGGCGCTGCATGGCAAACATTTGCTGTGGGCGGTGACGACCGGCGGCGGGGAAAGCCATTTTGAAATTGGTGCGCATC -CGGGCTTTGATGTGCTGTCGCAGCCGCTACAGGCGACGGCAATCTACTGCGGGCTGAACTGGCTGCCACCGTTTGCCATG -CACTGCACCTTTATTTGTGACGACGAAACCCTCGAAGGGCAGGCGCGTCACTATAAGCAACGTCTGCTGGAATGGCAGGA -GGCCCATCATGGATAGCCATACGCTGATTCAGGCGCTGATTTATCTCGGTTCGGCAGCGCTGATTGTACCCATTGCGGTA -CGTCTTGGTCTGGGATCGGTACTTGGCTACCTGATCGCCGGCTGCATTATTGGCCCGTGGGGGCTGCGACTGGTGACCGA -TGCCGAATCTATTCTGCACTTTGCCGAGATTGGGGTGGTGCTGATGCTGTTTATTATCGGCCTCGAACTCGATCCACAAA -GGCTGTGGAAGCTGCGTGCGGCAGTGTTCGGCTGTGGCGCATTGCAGATGGTGATTTGCGGCGGCCTGCTGGGGCTGTTC -TGCATGTTACTTGGGCTGCGCTGGCAGGTCGCGGAATTGATCGGCATGACGCTGGCGCTCTCCTCTACGGCGATTGCCAT -GCAGGCGATGAATGAACGCAATCTGATGGTGACGCAAATGGGTCGCAGTGCCTTTGCGGTGCTGCTGTTCCAGGATATCG -CGGCGATCCCGCTGGTGGCGATGATTCCGCTACTGGCAACGAGCAGTGCCTCGACGACGATGGGCGCATTTGCTCTCTCG -GCGTTAAAAGTGGCGGGTGCGCTGGTGCTGGTGGTATTGCTGGGGCGCTATGTCACGCGTCCGGCGCTGCGTTTTGTAGC -CCGCTCTGGCTTGCGGGAAGTGTTTAGTGCCGTGGCGTTATTCCTCGTGTTTGGCTTTGGTTTGCTGCTGGAAGAGGTCG -GCTTGTCGATGGCGATGGGCGCGTTTCTGGCGGGCGTACTGCTGGCAAGCTCGGAATACCGTCATGCGCTGGAGAGCGAT -ATCGAACCATTTAAAGGTTTGCTGTTGGGGCTGTTTTTCATCGGTGTTGGCATGTCGATAGACTTTGGCACGCTGCTTGA -AAACCCATTGCGCATTGTCATTTTGCTGCTCGGTTTCCTCATCATCAAAATCGCCATGCTGTGGCTGATTGCCCGACCGT -TGCAAGTGCCAAATAAACAGCGTCGTTGGTTTGCGGTGTTGTTAGGGCAGGGCAGTGAGTTTGCCTTTGTGGTATTTGGC -GCGGCGCAGATGGCGAATGTGCTGGAGCCGGAGTGGGCGAAATCGCTGACCCTGGCGGTGGCGCTGTCGATGGCAGCAAC -GCCGATTCTGCTGGTGATCCTCAATCGCCTTGAGCAATCTTCTACTGAGGAAGCGCGTGAAGCCGATGAGATCGACGAAG -AACAGCCGCGCGTGATTATCGCCGGATTCGGTCGTTTTGGGCAGATTACCGGACGTTTACTGCTCTCCAGCGGGGTGAAA -ATGGTGGTACTCGATCACGATCCGGACCATATCGAAACCTTGCGTAAATTTGGTATGAAAGTGTTTTATGGCGATGCCAC -GCGGATGGATTTACTGGAATCTGCCGGAGCGGCGAAAGCGGAAGTGCTGATTAACGCCATCGACGATCCGCAAACCAACC -TGCAACTGACAGAGATGGTGAAAGAACATTTCCCGCATTTGCAGATTATTGCCCGCGCCCGCGATGTCGACCACTACATT -CGTTTGCGTCAGGCAGGCGTTGAAAAGCCGGAGCGTGAAACCTTCGAAGGTGCGCTGAAAACCGGGCGTCTGGCACTGGA -AAGTTTAGGTCTGGGGCCGTATGAAGCGCGAGAACGTGCCGATGTGTTCCGCCGCTTTAATATTCAGATGGTGGAAGAGA -TGGCAATGGTTGAGAACGACACCAAAGCCCGCGCGGCGGTCTATAAACGCACCAGCGCGATGTTAAGTGAGATCATTACC -GAGGACCGCGAACATCTGTCATTAATTCAACGACATGGCTGGCAGGGAACCGAAGAAGGTAAACATACCGGCAACATGGC -GGATGAACCGGAAACGAAACCCTCATCCTAATAAAGAGTGACGTAAATCACACTTTACAGCTAACTGTTTGTTTTTGTTT -CATTGTAATGCGGCGAGTCCAGGGAGAGAGCGTGGACTCGCCAGCAGAATATAAAATTTTCCTCAACATCATCCTCGCAC -CAGTCGACGACGGTTTACGCTTTACGTATAGTGGCGACAATTTTTTTTATCGGGAAATCTCAATGATCAGTCTGATTGCG -GCGTTAGCGGTAGATCGCGTTATCGGCATGGAAAACGCCATGCCGTGGAACCTGCCTGCCGATCTCGCCTGGTTTAAACG -CAACACCTTAAATAAACCCGTGATTATGGGCCGCCATACCTGGGAATCAATCGGTCGTCCGTTGCCAGGACGCAAAAATA -TTATCCTCAGCAGTCAACCGGGTACGGACGATCGCGTAACGTGGGTGAAGTCGGTGGATGAAGCCATCGCGGCGTGTGGT -GACGTACCAGAAATCATGGTGATTGGCGGCGGTCGCGTTTATGAACAGTTCTTGCCAAAAGCGCAAAAACTGTATCTGAC -GCATATCGACGCAGAAGTGGAAGGCGACACCCATTTCCCGGATTACGAGCCGGATGACTGGGAATCGGTATTCAGCGAAT -TCCACGATGCTGATGCGCAGAACTCTCACAGCTATTGCTTTGAGATTCTGGAGCGGCGGTAATTTTGTATAGAATTTACG -GCTAGCGCCGGATGCGACGCCGGTCGCGTCTTATCCGGCCTTCCTATATCAGGCTGTGTTTAAGACGCCGCCGCTTCGCC -CAAATCCTTATGCCGGTTCGACGGCTGGACAAAATACTGTTTATCTTCCCAGCGCAGGCAGGTTAATGTACCACCCCAGC -AGCAGCCGGTATCCAGCGCGTATATACCTTCCGGCGTACCTTTGCCCTCCAGCGATGCCCAGTGACCAAAGGCGATGCTG -TATTCTTCAGCGACAGGGCCAGGAATCGCAAACCACGGTTTCAGTGGGGCAGGGGCCTCTTCCGGCGATTCTTTGCTGTA -CATATCCAGTTGACCGTTCGGGAAGCAAAAACGCATACGGGTAAAAGCGTTGGTGATAAAACGCAGTCTTCCCAGCCCCC -GCAATTCCGGTGACCAGTTATTTGGCATATCGCCGTACATGGCATCAAGAAAGAAGGGATAGGAGTCACTCGATAGCACC -GCTTCTACATCGCGTGCGCACTCTTTGGCGGTCTGCAGATCCCACTGCGGCGTGATCCCTGCGTGGGCCATCACCAGCTT -TTTCTCTTCGTCGATTTGCAGCAGAGGCTGGCGCCGCAGCCAGTTAAGCAGCTCGTCGGCATCCGGCGCTTCCAGCAGCG -GTGTCAGGCGATCTTTCGGTTTATTGCGGCTGATCCCGGCAAATACCGCCAGCAGATGCAGATCGTGATTGCCCAGCACC -AGACGTACGCTGTCGCCTAAGGATTTCACATAGCGCAGAACATCCAGCGAACCCGGCCCGCGCGCGACCAGATCGCCCGT -CAGCCAGAGGGTATCTTTCCCAGGGGTAAATTCTACTTTATGCAGCAATGCGATCAGTTCATCGTAACAACCATGAACGT -CGCCAATAAGGTATGTCGCCATATTCTTTTAATGAATGAGTGTGGGAACGGCGAGTCGGAATACGGGAATGTCGATGCTG -AAAGGGACGCCATTTTCATCGATCATTTCGTAGTGACCCTGCATGGTGCCCAGCGGGGTTTCAATGATTGCACCGCTGGT -GTACTGGTACTCTTCGCCAGGCGCGATAAGTGGCTGGACGCCAACCACTCCTTCGCCCTGGACTTCGGTTTCACGGCCAT -TGCCATTGGTGATCAGCCAGTAACGCCCCAACAACTGCACTGGCGCTCGCCCCAGATTGCGTATGGTTACGGTATAAGCA -AAAACGTAACGTTCATTATCAGGTGAAGATTGAGCCTCAATGTAGACGCTTTGAACCTGAATACACACTCGGGGCGAATT -GATCATCGTTAACTCTCCTGCAAAGGCGCGTTCTCCGCCAGATAGTTCGCCATCTGGCAATATTGCGCGACAGAGATATT -TTCCGCTCGCATCGCCGGGTCGATCCCCATTCCCGTTAACACCTCGACGCTAAACAGGTTGCCGAGGCTGTTACGAATGG -TTTTACGACGCTGGTTAAAGGCTTCGGTGGTGATGCGGCTCAACACACGAACATCTTTAACCGGGTGAGGCATCGTTGCA -TGAGGAACCAGGCGCACGACGGCGGAATCCACTTTGGGTGGTGGTGTAAAGGCTGACGGCGGTACTTCCAGTACCGGGAT -CACATTGCAATAGTATTGCGCCATGACGCTTAATCGACCATACGCTTTGCTGTTCGGTCCTGCAACCAGACGATTCACCA -CCTCTTTTTGCAACATAAAGTGCATGTCGGCAATGGCATCAGTATAGCTAAACAGATGGAACATCAACGGCGTGGAGATG -TTATAAGGCAGGTTGCCGAAAACACGCAGCGGCTGACCCATTTTCTCGGCCAGTTCACCAAAGTTAAAGGTCATCGCATC -CTGCTGATAAATCGTCAGTTTCGGGCCTAAGAATGGATGCGTTTGCAGACGTGCCGCCAGATCGCGGTCAAGTTCGATGA -CCGTCAGCTGGTCCAGACGTTCGCCGACCGGTTCGGTCAATGCCGCCAGACCGGGGCCGATTTCGACCATCGCCTGGCCC -TTTTGCGGGTTAATGGCAGACACAATACTGTCGATCACGAACTGATCGTTGAGAAAGTTTTGCCCGAAGCGTTTACGGGC -TAAGTGGCCCTGGTGGACTCGATTATTCATTGGGTGTTAACAATCATTTTGATGGCGAGATTAAGCGCCGTAATAAAACT -GCCGACATCGGCTTTGCCACGTCCCGCCAGTTCAAGCGCGGTGCCGTGGTCCACTGATGTGCGAATAAAGGGCAGGCCCA -GCGTAATGTTCACACCGCGCCCGAAGCCCTGGTATTTTAGCACGGGAAGACCCTGATCGTGGTACATCGCCAGCACGGCG -TCGGCGTTATCAAGATATTTCGGCTGAAACAGGGTATCGGCAGGCAGCGGCCCGTTGAGTTTCATCCCCTGCGCCCGCAG -CTCATTGAGCACCGGAATAATGGTGTCTATCTCTTCCGTACCCATATGACCGCCTTCGCCCGCGTGCGGATTCAGCCCGC -AGACCAGAATGCGCGGTTCGGCAATACCAAATTTGGTCCGCAAATCGTGATGCAAAATAGCAATCACTTCGTGCAAAAGT -GCAGGGGTGATAGCGTCTGCGATATCGCGCAGCGGTAAATGCGTCGTTGCCAGCGCCACGCGAAGTTCTTCGGTCGCCAG -CATCATCACCACCTTTTTCGCCTGCGAACGCTCTTCGAAAAACTCGGTATGACCGGTAAAAGGAATGCCAGCGTCGTTAA -TAACGCCTTTATGCACCGGACCTGTGATCAGCGCGGCAAATTCGCCGTTCAGACAACCATCGCACGCTCGCGCCAGCGTT -TCCACCACATAATGCCCATTTTCAACCGCTAACTGCCCCGCAGTGACAGGTGCACGTAGCGCGACAGGAAGTAGCGTTAA -TGTGCCCGCAGTTTGCGGTTGTGCAGGGGAGTTGGGGGAATAAGGGCGGAGGGTGAGCGGCAAACCGAGCATCGCTGCCC -GGTTGGTAAGGAGAGTGGCATCGGCACAAACAACCAGTTCGACCGGCCACTCACGCTGTGCAAGCTGGACAACTAAGTCC -GGGCCAATCCCGGCGGGCTCGCCGGGAGTGATCACAACACGTTGGGTTTTAACCATTAGTTGCTCAGGATTTTAACGTAG -GCGCTGGCACGTTGTTCCTGCATCCAGCTTGCTGCTTCTTCCGAGAACTTACGGTTCATCAGCATGCGGTATGCACGATC -TTTCTGCGCAGCGTCGGTTTTATCGACATTACGGGTATCCAGCAGTTCGATTAAATGCCAGCCGAATGAAGAGTGAACCG -GTGCACTCATTTGACCTTTGTTCAGGCGAGTCAGGGCGTCACGGAAGGCCGGATCGAAAATATCTGGTGTAGCCCAGCCG -AGATCGCCGCCCTGGTTAGCAGAGCCTGGATCCTGAGAGAACTCTTTCGCTGCGGCAGCAAAAGTCGTTTTACCACTCTT -GATATCAGCAGCAATCTGTTCCAGTTTCACACGGGCCTGTTCGTCAGTCATGATCGGCGACGGTTTCAGCAGAATATGGC -GAGCATGAACTTCGGTCACCGAGATATTTTTGCTTTCGCCGCGCAGGTCGTTAACTTTCAGAATATGGAAGCCAACGCCG -GAACGAATCGGGCCAACAATGTCGCCTTTCTTCGCGGTGCTTAATGCCTGGGCGAAGATCCCGGGCAACTCCTGAATACG -GCCCCAGCCCATCTGGCCGCCGTTCAGCGCCTGCTGGTCGGCAGAATGAGCAATCGCCAGCTTACCGAAATCAGCGCCGT -TACGCGCCTGATCGACAATGGCGCGCGCCTGGCTTTCCGCTTCGTTCACCTGATCAGAGGTCGGGTTTTCCGGCAGCGGG -ATCAGGATGTGGCTCAGGTTCAGCTCAGTGCTGGCGTCGTTTTGGTTACCCACCTGCTGCGCCAGGGATTCGACTTCCTG -CGGCAGGATGGTGATGCGACGACGCACCTCGTTGTTACGCACTTCAGAGATAATCATCTCTTTGCGGATCTGGTTACGAT -AGGTGTTGTAGTTCAGTCCATCGTAAGCCAGACGGCTGCGCATCTGATCCAGCGTCATGTTGTTCTGTTTCGCGATGTTA -GCAATCGCCTGATCCAGCTGCTCATCGGAGATTTTCACTCCCATTTTCTGCCCCATCTGCAGGATGATTTGATCCATGAT -CAAACGTTCCATGATTTGGTGGCGCAGCGTCGCGTCATCAGGAAGTTGCTGCCTTGCCTGAGCAGCGTTCAGTTTTACCG -ACTGCATTAATCCATCAACGTCGCTTTCCAGCACGACGCCGTTATTGACGACGGCTGCGACTTTATCGACTACCTGGGGG -GCAGCGAAACTGGTATTCGCGATCATGGCGATACCGAGAAGCAGCGTTTTCCAGTTCTTCATACTTTTTCCATTTCAATT -AACCGCACTGCGGATTACGTGGTAAATCAACAAATCACAAAGTGTTTTGATACGGCAGAATGTTCGAACGCAGCATCTCT -TGCGTACCCAGACCGTAGTTGGAGCTCAGGCCGCGAAGTTCGATGTTAAAGCCGATTGCGTTGTCATATACCGCATGTTG -TTTATCGTTATCCCAACCGTTCAGCTTCCGCTCGTAACCGACGCGAATTGCATAGCAGCAGGAGCTGTATTGCACACCTA -ACATAGAGTCGGCTTGCTTGTTAGCATTGGTGTCGTAGTAGTAGGCCCCAACAATGGACCAACGATCGGCAATTGGCCAG -CTGGCGACAGCACCTACCTGCGAAATACCATTCTTATATTGCTCAGCAGTGGAATAGTACTTAGGCAGCGTAGCCTGAAT -ATATTCCGGGCTGGCGTAACGGTAATTCAGCTGTACCAGACGGTCTTCATCCCGACGGTATTCAATGCTGGAGTTACTGG -TCGCTACGTTATCCAGACGTGTATCGTACTGAATCCCGCCACGCAATCCCCAACGCTCGGAGATACGCCAGTAAGTATCG -CCTGCCCACACCAGTGAACCCGTTTTGTCGTCATTCTCCCATGTTATGTTGTCATCGCCAGTGCGAGACTCCGTGAAATA -GTAGATTTGACCAACGGAAATATTAAAACGTTCAACGGCAGCATCATCATATATGCGAGATGTGACACCGGTCGTCACCT -GGTTAGCGGAGGCAATACGGTCAAGACCGCCGTAAGTCCGGTCCCGGAACAGGCCAGAGTAGTCAGATTGCAGCAGAGAC -GAGTCGTAGTTATAGATGTCGCTCTGATCGCGATACGGCACGTACAAATACTGCGCGCGCGGTTCCAGCGTTTGGGTATA -ACCCGGAGCCAGCATTTCCATATCGCGTTCAAAGACCATTTTGCCGTCAACTTTGAATTGCGGCATTACGCGGTTAACGG -ATTCGTCCAGCTTGGTCGTGTTTCTGGAGTTATACCAGTCAAGATTGGTTTGCTGATAATGGGTTGCCAGCAACTTCGCT -TCGGTATTGATGCTGCCCCAGTTATTAGAGAGCGGCAAATTGATGGTCGGTTCCAGGTGAACACGGGTTGCTTCAGGCAT -GTCGTCTCTGGTGTTAACAAAGTGCACTGCCTGGCCGTAAATACGCGTATCAAACGGACCAACATCATTCTGGTAGTAAT -TAACGTCTAACTGCGGCTCTGCCGAGTAGCTACTGGTGTTCTGTTCGCTGAAAACCTGGAACTGCTTGGTTGAAACGGTG -GCATTGAAGTTTTGCACCGCATAGCCAACGCTGAATTTTTGCGTTGCGTAGCCGTCAGTACTGGAACCGTACTTGTTATC -GAAATCATTGAAGTAGCTAGGATCGCTGACCTTGGTGTAGTCGACGTTGAAACGCCACACCTGATCCATGACCCCGGAGT -GGTTCCAGTAGAATAACCAACGACGTGAACTGTCATCGTTCGGGTGTTCATCTTCATAGACTTTATCTGAAGGCAGATAG -TCCAGTTCCATCAAGCCAGCGCCCGCCTGGGAGAGGTAGCGGAATTCGTTCTCCCACATGATGTTGCCACGACGATGCAT -ATAATGCGGCGTGATGGTGGCATCCATATTTGGCGCGATGTTCCAGTAATATGGCAGGTAGAACTCAAAGTAGTTGGTGG -TGGTGTACTTGGCGTTCGGGATCAAGAAACCAGAGCGACGTTTGTCACCCACCGGCAACTGCAAATAGGGGCTATAAAAG -ATCGGTACCGGACCCACCTTAAAGCGGGCGTTCCAGATCTCCGCAACTTGTTCTTCGCGGTCATGAATAATTTCGCTACC -TACCACGCTCCAGGTGTCAGAACCCGGCAGACAGGAGGTAAAGCTACCGTTATCCAGAATGGTATAGCGGTTTTCGCCAC -GTTGTTTCATCAGGTCCGCTTTACCGCGACCCTGGCGACCCACCATCTGGTAATCACCTTCCCAGACGTTGGTATCTTTG -GTGTTCAGATTCGCCCAGCCTTTCGGCCCTTTGAGGATCACCTGGTTATCGTCGTAATGGACATTACCGAGCGCATCAAC -GGTACGTACCGGCTCCGGTTGTCCTGGTGCCTCTTTTTGATGGAGCTGCACTTCGTCGGCCTGCAGACGGCTGTTACCCT -GCATGATATCCACGCTGCCAGTAAACACGGCGTCATCCGGGTAGTCCCCTTTCGCGTGGTCAGCATTGATAGTCACGGGT -AAGTCATTGGTATCGCCCTGTACCAGAGGACGGTCATAGCTTGGCACGCCCAACATGCACTGTGAGGCGAGGTCGGCTGC -CAGTCCCTGTTGACTATAAAGGGCGGTGGCAATCATGGTGGCCAGGAGAGTGGGGATACGTTTTTTCATACGTTGATTTT -ATTGTTCCATCATCGGTAACGTTGCGCGTGACAAACGGTCAGAGACTAACGTACTCGTCATCTCTACGCTAGTGTTAATC -CTGTCCGAATAGCGTCAGTGGTGTTAGGCACGGCATTGAATGACAGGTATGATAATGCAAATTATAGGCGATGTCCCACA -ATTGACCGCAGCCGGAAAACGGTAAAAGCACCTTTATATTGTGGGAGATAGCCCTGATATCCGTGTGTCGATTTGGGGAA -TATATGCAGTATTGGGGAAAAATCATTGGCGTGGCCGTGGCCTTACTGATGGGCGGCGGCTTTTGGGGCGTAGTGTTAGG -CCTGTTAATTGGCCATATGTTTGATAAAGCCCGTAGCCGTAAAATGGCGTGGTTCGCCAACCAGCGTGAGCGTCAGGCGC -TGTTTTTTGCCACCACTTTTGAAGTGATGGGGCATTTAACCAAATCCAAAGGTCGCGTCACGGAGGCTGATATTCATATC -GCCAGCCAGTTGATGGACCGAATGAATCTTCATGGCGCTTCCCGTACTGCGGCGCAAAATGCGTTCCGGGTGGGAAAATC -AGACAATTACCCGCTGCGCGAAAAGATGCGCCAGTTTCGCAGTGTCTGCTTTGGTCGTTTTGACTTAATTCGTATGTTTC -TGGAGATCCAGATTCAGGCGGCGTTTGCTGATGGTTCACTGCACCCGAATGAACGGGCGGTGCTGTATGTCATTGCAGAA -GAATTAGGGATCTCCCGCGCTCAGTTTGACCAGTTTTTGCGCATGATGCAGGGCGGTGCACAGTTTGGCGGCGGTTATCA -GCAGCAAACTGGCGGTGGTAACTGGCAGCAAGCGCAGCGTGGCCCAACGCTGGAAGATGCCTGTAATGTGCTGGGCGTGA -AGCCGACGGATGATGCGACCACCATCAAACGTGCCTACCGTAAGCTGATGAGTGAACACCATCCCGATAAGCTGGTGGCG -AAAGGTTTGCCGCCTGAGATGATGGAGATGGCGAAGCAGAAAGCGCAGGAAATTCAGCAGGCATATGAGCTGATAAAGCA -GCAGAAAGGGTTTAAATGACCCTGTAAATGATGCTGAGTAACTGCCCACGATTAAAGGTGGCCGCCCTGGCGGTCACTTC -TTTGAGAAAAGGCGTTTACTCAGAATGGTGGACAGGCTCAATGCACGGTTTACGGGAGGGGTTCTGTAGGTTTTATCGCG -TTGACCCTGCTTAAGGTTGAGAGCTTTACGACGAGCGGAATTATATTTTTACGTCTTAAAAATAAAAAACACATACCTGA -ATGAGCGATTTTTGAAAGTATATTTATTCAGAACGCGCATCATGAGTTTTTAACTCAATGCGAGGCTATTACCATGAAAG -TATCAGTTCCAGGCATGCCGGTTACACTTTTAAATATGAGCAAGAACGATATTTATAAGATGGTGAGCGGGGACAAGATG -GACGTGAAGATGAATATCTTTCAACGCTTGTGGGAGACGTTACGCCATCTGTTCTGGTCAGATAAACAGACTGAGGCTTA -TAAACTTCTGTTCAATTTCGTGAATAACCAGACTGGCAACATCAACGCCTCAGAATACTTTACTGGGGCTATCAACGAGA -ATGAGAGAGAAAAGTTTATCAATAGCCTGGAATTATTCAATAAACTTAAAACATGCGCAAAAAATCCGGATGAGTTGGTC -GCAAAGGGCAATATGCGCTGGGTCGCCCAGACCTTCGGGGATATCGAGTTAAGTGTCACTTTTTTCATTGAAAAGAATAA -GATATGTACTCAGACGTTGCAGCTGCATAAGGGCCAAGGTAACTTGGGCGTTGATCTTAGAAAGGCTTACCTTCCCGGCG -TTGACATGAGGGATTGTTACCTTGGTAAAAAAACAATGAAAGGTAGCAATGATATCCTTTATGAGAGACCTGGGTGGAAT -GCTAACCTGGGCGTGCTACCCCGGACGGTGCTACCCCGGACGGTGCTAACCCGGACGGTGCTAACCTGGACGGTGCTACC -GTGAACGGTGCTACCTCCTTATATGATGAGGTAATTATTATTAATAAAATCCCCCCCAAAAAAATTGATACTAAAGGAGT -TGCTACTGAAGAAGTTGCTACTAAAAAAGTACTGCTGAACAAATTACTGACAACGCAATTATTGAATGAGCCAGAATAAG -CTAAGGTTGAAGGGGCTGGAACGCCCCTTCAACCTTAGCAGTAGCGTGGGATGATTTCACAATTAGAAAGACCTGCATGA -TGAGCTAGAGAAGAGGCTAGTGACGCAAGGCGTCGTGCAGGACACGGATCACCGAGATGGGCATCGCCAACCAGACTGCT -AATTAGCCCATGAATAACAATCAGAAAGGACCATAACAGACCCGTTAAAATGAAATATAAGAGACGGTCAACGGGTGAAG -AAAAAGTTCAAAAATTCGCTGTGGAGCAGGAAGGGAATTACCGAATGGAAAGCGTAGCCACACGCAACAACTGAAAGCAG -TTTGGCAGAAACAAAAAATCCCCGGACTCGGGGATTTATGTACAAGAGGCAGCCCTTAGGATGAGGGTATAAACGTACAG -GAAAGGTTAAAAATCCGCTGGCGCTTTAAACGTCATACTATTGCCATACGCCGGATGGGTAATCGTCAACATCTCTGCAT -GTAGCAACAAACGTGGTGCCATCGCTCTCGCTTCTGGTGATGCATAAAAACGATCGCCGAGAATCGGATGACCCAGCGCC -AGCATATGCACACGCAATTGATGCGAACGCCCGGTAATCGGTTTTAACACCACTCTTGCCGTGTTATCCGCCGCATACTC -CACCACTTCATATTCCGTCTGCGCAGGTTTACCCGTTTCGTAACAGACTTTCTGTTTCGGGCGGTTTGGCCAGTCGCAAA -TCAGCGGCAGATCCACCAGACCTTCTGCGGGGGATGGATGCCCCCAGACGCGGGCCACATACTGCTTTTTCGGCTCGCGC -TCGCGGAACTGGCGTTTTAACTCCCGCTCCGCGGCTTTGGTCAGCGCCACTACAATCACGCCGCTGGTAGCCATATCCAG -ACGATGCACCGATTCTGCCTGCGGATAATCACGCTGAATGCGCGTCATCACGCTGTCTTTGTGCTCTTCCAGACGACCCG -GCACTGACAACAAACCGCTCGGCTTGTTGACCACCATAATATGGTCATCCTGATACAGGATAACCAACCAGGGTTCCTGC -GGTGGATTGTAGTTTTCCATCCCCATTTTCGGCTCCGTTACTGATGCGTTACAACGATCAAACGCAGGGCATCCAGACGC -CAACCTGCCTGATCCAGGCTTTCCATTACCTGCTGACGGTTGCTCTCAATGGCGGTCAGTTCGTCGTCACGAATGTTCGG -GTTCACTGCACGCAGAGCTTCCAGACGAGACAGCTCGGCAGACAGTTTTTCGTCGGCTTCGTTACGCGCTGCATCAATCA -ATGCACGGGCAGATTTCTCGATCTGCGCTTCACCCAGTTGAAGGATAGCGTGAACATCCTGCTGCACGGCGTTAACCAGT -TTGCTGCCGGTGTGACGGTTAACCGCGTTAAGCTGGCGGTTAAAGGTTTCAAACTCTACCTGCGCCGCCAGGTTGTTGCC -GTTTTTATCCAGCAGCATACGTACCGGCGTCGGTGGCAGGAAGCGGTTGAGCTGCAACTGCTTCGGAGCCTGGGCTTCAA -CCACATAAATCAGTTCCACCAACAGCGTACCTACCGGCAACGCTTTGTTTTTTAACAGTGAAATCGTGCTGCTACCGGTA -TCGCCAGAAAGGATCAGATCCAGACCGTTGCGGATCAGCGGATGCTCCCAGGTAATAAACTGTGCATCTTCACGCGCCAG -CGCCACTTCACGATCAAAGGTGATGGTGATGCCATCTTCCGACAGGCCAGGGAAGTCCGGCACCAGCATATGATCGGACG -GCGTCAGCACGATCATGTTGTCGCCGCGATCGTCCTGATTGATACCGATAATATCGAACAGGTTCATGGCGAAGGCGATC -AGGTTGGTATCGTCATCCTGCTCTTCAATGCTTTCTGCCAGTGCCTGGGCTTTTTCGCCACCGTTGGAGTGGATTTCCAG -CAGGCGGTCACGACCCTGTTCCAGCTGTGCTTTCAGCGCTTCATGTTGCTCGCGGCAGTTTTTGATCAGATCGTCAAAGC -CTTCGGTTTGATCCGGTGAAGCCAGATAGTTAATCAGATCGTTGTATACGCTATCGTAAATAGTGCGTCCGGTCGGGCAG -GTGTGCTCAAATGCATCCAGACCTTCGTGATACCAGCGCACCAGCACCGACTGAGCGGTTTTCTCCAGATAAGGCACATG -GATCTGAATATCGTGCGCCTGGCCGATACGATCCAGACGACCAATACGCTGCTCCAGTAGATCCGGGTTGAATGGCAGGT -CAAACATCACCATGTGGCTGGCGAACTGGAAGTTACGTCCTTCAGAACCGATTTCTGAGCACAGCAGTACCTGTGCGCCG -GTGTCTTCTTCGGCAAACCAGGCGGCAGCGCGGTCACGTTCGATAATCGACATACCTTCGTGGAACACCGCAGCGCGAAT -ACCTTCACGTTCGCGCAGTACCTGCTCCAGTTGCAGCGCAGTGGCAGCTTTGGCGCAGATCACCAGCACTTTCTGAGAGC -GATGGCTGGTCAGGTAGCCCATCAGCCACTCAACGCGCGGATCGAAGTTCCACCAGGTGGCGTTATCACCTTCAAATTCC -TGATAAATACGCTCCGGGTAGAGCATATCGCGAGCACGATCTTCCGCACTTTTACGTGCGCCCATAATGCCGGAGACTTT -AATAGCCGTCTGATACTGCGTCGGTAGCGGCAGCTTAATGGTGTGCAGCTCGCGTTTCGGGAATCCTTTCACACCGTTAC -GCGTGTTACGGAACAGCACGCGGCTGGTGCCGTGGCGATCCATCAGCATCGAAACCAGCTCCTGACGGGCGCTCTGGGCA -TCTTCGCTGTCGCTGTTTGCTGCCTGCAACAGCGGCTCGATATCCTGCTCGCCGATCATCTCGCCGAGCATGTTCAGTTC -GTCATTGCTCAGTTTGTTACCTGCCAGCAGCATGGCAACGGCGTCCGCAACCGGACGATAATTTTTCTGCTCTTCAACGA -ACTGCGCAAAATCGTGGAAACGGTTCGGGTCCAGCAGACGCAGACGGGCGAAGTGGCTTTCCATCCCCAGCTGTTCCGGG -GTCGCGGTCAGCAGCAGAACGCCCGGCACGTGCTCTGCCAGTTGTTCAATGGCCTGATTTGAACGCCAGGCGCGGCAACG -GGGTTATCAACTGCTGATTGCCTGCTCAGAAGATCAGCCAGACAACGAAATGCGGTGCATTGAGCACCTTTTACAGCGTC -AGGTTGATGCCATTATTGTTTCGACGTCGTTGCCTCCTGAGCATCCTTTTTATCAACGCTGGGCTAACGACCCGTTCCCG -ATTGTCGCGCTGGACCGCGCCCTCGATCGTGAACACTTCACCAGCGTGGTTGGTGCCGATCAGGATGATGCCGAAATGCT -GGCGGAAGAGTTACGTAAGTTTCCCGCCGAGACGGTGCTTTATCTTGGTGCGCTACCGGAGCTTTCTGTCAGCTTCCTGC -GTGAACAAGGTTTCCGTACTGCCTGGAAAGATGATCCGCGCGAAGTGCATTTCCTGTATGCCAACAGCTATGAGCGGGAG -GCGGCTGCCCAGTTATTCGAAAAATGGCTGGAAACGCATCCGATGCCGCAGGCGCTGTTCACAACGTCGTTTGCGTTGTT -GCAAGGAGTGATGGATGTCACGCTGCGTCGCGACGGCAAACTGCCTTCTGACCTGGCAATTGCCACCTTTGGCGATAACG -AACTGCTCGACTTCTTACAGTGTCCGGTGCTGGCAGTGGCTCAACGTCACCGCGATGTCGCAGAGCGTGTGCTGGAGATT -GTCCTGGCAAGCCTGGACGAACCGCGTAAGCCAAAACCTGGTTTAACGCGCATTAAACGTAATCTCTATCGCCGCGGCGT -GCTCAGCCGTAGCTAAGCCGCGAACAAAAATACGCGCCAGGTGAATTTCCCTCTGGCGCGTAGAGTACGGGAATGGACAT -CAATATCCTTAAAGTAAATAAGACTATTCCTGACTATTATTGATAAGTTCTTTTAAACCCGCCCGTTAATTAACTCACCA -GCTGAAATTCACAATAATTAAGTGATATCGACAGCGCGTTTTTGCATTATTTTGTTACATGCAGAGATGAATTGCCGATT -TAACAAGCACTTTTCTTTGCTTTTGCGCAAACCCGCTGGCATCAAGCGCCACACAGACGCAACAGGGACTGTTAACCGGG -GAAGATATGTCCTAAAATGCCGCTCGCGTCGCAAACTGACACTTTATATTTGCTGTGGAAAATAGTGAGTCATTTTAAAA -CGGTGATGACGATGAGGGATTTTTTCTTACAGCTATTCATAACGTTAATTTGCTGCGCACGTTGGACGTAAAATAAACAA -CGCTGATATTAGCCGTAAACATCGGGTTTTTTACCTCGGTATGCCTTGTGACTGGCTTGACAAGCTTTTCCTCCGCTCCG -TAAACTCCTTTCAGTGGGAAATTGTGGGGCAAAGTGGGAATAAGGGGTGAGGCTGGCATGTTCCGGGGAGCAACGTTAGT -CAATCTCGACAGCAAAGGGCGCTTATCAGTGCCTACCCGTTACCGGGAACAGCTGCTTGAGAACGCTGCCGGTCAAATGG -TTTGCACCATTGACATTCATCACCCGTGCCTGCTGCTTTACCCCCTGCCTGAATGGGAAATTATCGAGCAAAAATTATCG -CGTCTGTCGAGCATGAACCCGGTTGAGCGCCGTGTGCAGCGCCTACTGTTAGGTCATGCCAGCGAATGTCAGATGGATGG -CGCAGGTCGATTGTTAATCGCGCCAGTACTGCGGCAACATGCCGGGCTGACAAAAGAAGTGATGCTGGTTGGACAGTTCA -ACAAGTTTGAGCTGTGGGATGAAACAACCTGGCATCAACAGGTCAAGGAAGATATCGACGCAGAGCAGTTGGCTACCGGA -GACTTATCGGAGCGACTGCAGGACTTGTCTCTATAAAATGATGGAAAACTATAAACATACTACGGTGCTGCTGGATGAAG -CCGTTAATGGCCTCAATATCCGTCCTGATGGCATCTACATTGATGGGACTTTTGGTCGCGGTGGTCACTCACGTCTGATC -CTCTCGCAGCTTGGCGAAGAGGGGCGTTTGCTGGCGATCGATCGCGACCCGCAGGCTATCGCCGTTGCGAAGACTATTGA -TGATCCGCGCTTCTCCATCATCCACGGACCTTTCTCCGCGCTGGGCGAATACGTTGCCGAGCGCGATCTTATCGGCAAGA -TCGACGGCATTCTCCTCGATCTTGGCGTCTCTTCACCGCAACTTGATGATGCTGAGCGCGGCTTTTCCTTTATGCGCGAT -GGTCCGCTGGACATGCGTATGGACCCAACCCGTGGGCAGTCAGCCGCTGAATGGCTACAAACCGCAGAAGAAGCCGATAT -CGCCTGGGTATTGAAAACCTATGGTGAAGAGCGTTTTGCCAAACGCATTGCCCGCGCCATTGTCGAGCGTAACCGCGAAC -AGCCGATGACCCGCACCAAAGAACTGGCGGAAGTCGTGGCTGCTGCAACGCCGGTGAAAGATAAGTTTAAACATCCCGCG -ACCCGTACCTTCCAGGCGGTGCGCATTTGGGTAAACAGTGAACTGGAGGAGATAGAGCAGGCGCTAAAAAGCTCGCTCAA -CGTGCTGGCCCCGGGTGGGCGGCTTTCGATCATCAGCTTCCACTCGCTGGAAGACCGTATTGTGAAACGTTTTATGCGTG -AAAACAGCCGCGGTCCGCAAGTTCCGGCAGGGTTACCGATGACTGAAGAGCAGCTCAAAAAACTGGGTGGCCGTCAGCTG -CGAGCACTAGGCAAGTTAATGCCGGGCGAAGAAGAGGTGGCTGAGAACCCTCGTGCCCGTAGTTCAGTTCTGCGTATTGC -AGAGAGGACGAATGCATGATCAGCAGAGTGACAGAAGCTCTAAGCAAAGTTAAAGGATCGATGGGAAGCCACGAGCGCCA -TGCATTGCCTGGTGTTATCGGTGACGATCTTTTGCGATTTGGGAAGCTGCCACTCTGCCTGTTCATTTGCATTATTTTGA -CGGCGGTGACTGTGGTAACCACGGCGCACCATACCCGTTTACTGACCGCTCAGCGCGAACAACTGGTGCTGGAGCGAGAT -GCTTTAGACATTGAATGGCGCAACCTGATCCTTGAAGAGAATGCGCTCGGCGACCATAGCCGGGTGGAAAGGATCGCCAC -GGAAAAGCTGCAAATGCAGCATGTTGATCCGTCACAAGAAAATATCGTAGTGCAAAAATAAGGATAAACGCGACGCATGA -AAGCAGCGGCGAAAACGCAGAAACCAAAACGTCAGGAAGAACATGCCAACTTTATCAGTTGGCGTTTTGCGTTGTTATGC -GGCTGTATTCTCCTGGCGCTGGCTTTTCTGCTCGGACGCGTAGCGTGGTTACAAGTTATCTCCCCGGATATGCTGGTGAA -AGAGGGCGACATGCGTTCTCTTCGCGTTCAGCAAGTTTCCACCTCCCGCGGCATGATTACTGACCGTTCTGGTCGCCCGT -TAGCGGTGAGCGTGCCGGTAAAAGCGATTTGGGCTGACCCGAAAGAAGTGCATGACGCTGGCGGTATCAGCGTCGGTGAC -CGCTGGAAGGCGCTGGCTAACGCGCTCAATATTCCGCTGGATCAGCTTTCAGCCCGCATTAACGCCAACCCGAAAGGGCG -CTTTATTTATCTGGCGCGTCAGGTGAACCCTGACATGGCGGACTACATCAAAAAACTGAAACTGCCGGGGATTCATCTGC -GTGAAGAATCTCGCCGTTATTATCCATCCGGCGAAGTGACTGCTCACCTCATTGGCTTTACTAACGTCGATAGTCAAGGG -ATTGAGGGCGTTGAGAAGAGTTTCGATAAATGGCTTACCGGGCAGCCGGGTGAGCGCATTGTGCGTAAAGACCGCTATGG -TCGCGTAATTGAAGATATTTCTTCTACTGACAGCCAGGCTGCGCACAACCTGGCGCTGAGTATTGATGAACGCCTGCAGG -CGCTGGTTTATCGCGAACTGAACAATGCGGTGGCCTTTAACAAGGCTGAATCTGGTAGCGCCGTGCTGGTGGATGTCAAC -ACCGGTGAAGTGCTGGCGATGGCTAACAGCCCGTCATACAACCCTAACAATCTGAGCGGCACGCCGAAAGAGGCGATGCG -TAACCGTACCATCACCGACGTGTTTGAACCTGGCTCAACGGTTAAACCGATGGTGGTGATGACCGCGTTGCAACGTGGCG -TGGTGCGGGAAAACTCGGTACTCAATACCATTCCTTATCGAATTAACGGCCACGAAATCAAAGACGTGGCACGCTACAGC -GAATTAACCCTGACCGGGGTATTACAGAAGTCGAGTAACGTCGGTGTTTCCAAGCTGGCGTTAGCGATGCCGTCCTCAGC -GTTAGTAGATACTTACTCACGTTTTGGACTGGGAAAAGCGACCAATTTGGGGTTGGTCGGAGAACGCAGTGGCTTATATC -CTCAAAAACAACGGTGGTCTGACATAGAGAGGGCCACCTTCTCTTTCGGCTACGGGCTAATGGTAACACCGTTACAGTTA -GCGCGAGTCTACGCAACTATCGGCAGCTACGGCATTTATCGCCCACTGTCGATTACCAAAGTTGACCCCCCGGTTCCCGG -TGAACGTGTCTTCCCGGAATCCATTGTCCGCACCGTGGTGCATATGATGGAAAGCGTGGCGCTACCGGGCGGCGGCGGCG -TGAAGGCGGCGATTAAAGGCTATCGTATCGCCATTAAAACCGGTACCGCGAAAAAGGTCGGGCCGGACGGTCGCTACATC -AATAAATATATTGCTTATACCGCAGGCGTTGCGCCTGCGAGTCAGCCGCGCTTCGCGCTGGTTGTTGTTATCAACGATCC -GCAGGCGGGTAAATACTACGGCGGCGCCGTTTCCGCGCCGGTCTTTGGTGCCATCATGGGCGGCGTATTGCGTACCATGA -ACATCGAGCCGGATGCGCTGACAACGGGCGATAAAAATGAATTTGTGATTAATCAAGGCGAGGGGACAGGTGGCAGATCG -TAATTTGCGCGACCTTCTTGCTCCGTGGGTGCCAGACGCACCTTCGCGAGCACTGCGAGAGATGACACTCGACAGCCGTG -TGGCTGCGGCGGGCGATCTCTTTGTAGCTGTAGTAGGTCATCAGGCGGACGGGCGTCGATATATCCCGCAGGCGATAGCG -CAAGGTGTGGCTGCCATTATTGCAGAGGCGAAAGATGAGGCGACCGATGGTGAAATCCGTGAAATGCACGGCGTACCGGT -CATCTATCTCAGCCAGCTCAACGAGCGTTTATCTGCACTGGCGGGCCGCTTTTACCATGAACCCTCTGACAATTTACGTC -TCGTGGGCGTAACGGGCACCAACGGCAAAACCACGACTACCCAGCTGTTGGCGCAGTGGAGCCAACTGCTTGGCGAAATC -AGCGCGGTAATGGGCACCGTTGGTAACGGCCTGCTGGGGAAAGTGATCCCGACAGAAAATACAACCGGTTCGGCAGTCGA -TGTTCAGCATGAGCTGGCGGGGCTGGTGGATCAGGGCGCGACGTTTTGCGCAATGGAAGTTTCCTCCCACGGGCTGGTAC -AGCACCGTGTGGCGGCATTGAAATTTGCGGCGTCGGTCTTTACCAACTTAAGCCGCGATCACCTTGATTATCATGGTGAT -ATGGAACACTACGAAGCCGCGAAATGGCTGCTTTATTCTGAGCATCATTGCGGTCAGGCGATTATTAACGCCGACGATGA -AGTGGGCCGCCGCTGGCTGGCAAAACTGCCGGACGCGGTTGCGGTATCAATGGAAGATCATATTAATCCGAACTGTCACG -GACGCTGGTTGAAAGCGACCGAAGTGAACTATCACGACAGCGGTGCGACGATTCGCTTTAGCTCAAGTTGGGGCGATGGC -GAAATTGAAAGCCATCTGATGGGCGCTTTTAACGTCAGCAACCTGCTGCTCGCGCTGGCGACACTGTTGGCACTCGGCTA -TCCACTGGCTGATCTGCTGAAAACCGCCGCGCGTCTGCAACCGGTTTGCGGACGTATGGAAGTGTTCACTGCGCCAGGCA -AACCGACGGTGGTGGTGGATTACGCGCATACGCCGGATGCACTGGAAAAAGCCTTACAGGCAGCGCGTCTGCACTGTGCG -GGCAAGCTGTGGTGTGTCTTTGGCTGTGGTGGCGATCGCGATAAAGGTAAGCGTCCACTGATGGGCGCAATTGCCGAAGA -GTTTGCTGACGTGGCGGTGGTGACGGACGATAACCCGCGTACCGAAGAACCGCGTGCCATCATCAACGATATTCTGGCGG -GAATGTTAGATGCCGGACATGCCAAAGTGATGGAAGGCCGTGCTGAAGCGGTGACTTGCGCCGTTATGCAGGCTAAAGAG -AATGATGTGGTACTGGTCGCGGGCAAAGGCCATGAAGATTACCAGATTGTTGGCAATCAGCGTCTGGACTACTCCGATCG -CGTCACGGTGGCGCGTCTGCTGGGGGTGATTGCATGATTAGCGTAACCCTTAGCCAACTTACCGACATTCTCAACGGTGA -ACTGCAAGGTGCAGATATCACCCTTGATGCTGTAACCACTGATACCCGAAAACTGACGCCGGGCTGCCTGTTTGTTGCCC -TGAAAGGCGAACGTTTTGATGCCCACGATTTTGCCGACCAGGCGAAAGCTGGCGGCGCAGGCGCACTACTGGTTAGCCGT -CCGCTGGACATCGACCTGCCGCAGTTAATCGTCAAGGATACGCGTCTGGCGTTTGGTGAACTGGCTGCATGGGTTCGCCA -GCAAGTTCCGGCGCGCGTGGTTGCTCTGACGGGGTCCTCCGGCAAAACCTCCGTTAAAGAGATGACGGCGGCGATTTTAA -GCCAGTGCGGCAACACGCTTTATACGGCAGGCAATCTCAACAACGACATCGGTGTACCGATGACGCTGTTGCGCTTAACG -CCGGAATACGATTACGCAGTTATTGAACTTGGCGCGAACCATCAGGGCGAAATAGCCTGGACTGTGAGTCTGACTCGCCC -GGAAGCTGCGCTGGTCAACAACCTGGCAGCGGCGCATCTGGAAGGTTTTGGCTCGCTTGCGGGTGTCGCGAAAGCGAAAG -GTGAAATCTTTAGCGGCCTGCCGGAAAACGGTATCGCCATTATGAACGCCGACAACAACGACTGGCTGAACTGGCAGAGC -GTAATTGGCTCACGCAAAGTGTGGCGTTTCTCACCCAATGCCGCCAACAGCGATTTCACCGCCACCAATATCCATGTGAC -CTCGCACGGTACGGAATTTACCCTACAAACCCCAACCGGTAGCGTCGATGTTCTGCTGCCGTTGCCGGGGCGTCACAATA -TTGCGAATGCGCTGGCAGCCGCTGCGCTCTCCATGTCCGTGGGCGCAACGCTTGATGCTATCAAAGCGGGGCTGGCAAAT -CTGAAAGCTGTTCCAGGCCGTCTGTTCCCCATCCAACTGGCAGAAAACCAGTTGCTGCTCGACGACTCCTACAACGCCAA -TGTCGGTTCAATGACTGCAGCAGTCCAGGTACTGGCTGAAATGCCGGGCTACCGCGTGCTGGTGGTGGGCGATATGGCGG -AACTGGGCGCTGAAAGCGAAGCCTGCCATGTACAGGTGGGCGAGGCGGCAAAAGCTGCTGGTATTGACCGCGTGTTAAGC -GTGGGTAAACAAAGCCATGCTATCAGCACCGCCAGCGGCGTTGGCGAACATTTTGCTGATAAAACTGCGTTAATTACGCG -TCTTAAATTACTGATTGCTGAGCAACAGGTAATTACGATTTTAGTTAAGGGTTCACGTAGTGCCGCCATGGAAGAGGTAG -TACGCGCTTTACAGGAGAATGGGACATGTTAGTTTGGCTGGCCGAACATTTGGTCAAATATTATTCCGGCTTTAACGTCT -TTTCCTATCTGACGTTTCGCGCCATCGTCAGCCTGCTGACCGCGCTGTTCATCTCATTGTGGATGGGCCCGCGTATGATT -GCTCATTTGCAAAAACTTTCCTTTGGTCAGGTGGTGCGTAACGACGGTCCTGAATCACACTTCAGCAAGCGCGGTACGCC -GACCATGGGCGGGATTATGATCCTGACGGCGATTGTGATCTCCGTACTGCTGTGGGCTTACCCGTCCAATCCGTACGTCT -GGTGCGTGTTGGTGGTGCTGGTAGGTTACGGTGTTATTGGCTTTGTTGATGATTATCGCAAAGTGGTGCGTAAAGACACC -AAAGGGTTGATCGCTCGTTGGAAGTATTTCTGGATGTCGGTCATTGCGCTGGGTGTCGCCTTCGCCCTGTACCTTGCCGG -CAAAGACACGCCCGCAACGCAGCTGGTGGTCCCATTCTTTAAAGATGTGATGCCGCAGCTGGGGCTGTTCTACATTCTGC -TGGCTTACTTCGTCATTGTGGGTACTGGCAACGCGGTAAACCTGACCGATGGTCTCGACGGCCTGGCAATTATGCCGACC -GTATTTGTCGCCGGTGGTTTTGCGCTGGTGGCGTGGGCGACCGGCAATATGAACTTTGCCAGCTACTTGCATATACCGTA -TCTGCGACACGCCGGGGAACTGGTTATTGTCTGTACCGCGATAGTCGGGGCAGGACTGGGCTTCCTGTGGTTTAACACCT -ATCCGGCGCAGGTCTTTATGGGCGATGTAGGTTCGCTGGCGTTAGGTGGTGCGTTAGGCATTATCGCCGTACTGCTACGT -CAGGAATTCCTGCTGGTGATTATGGGGGGCGTGTTCGTGGTAGAAACGCTTTCTGTCATCCTGCAGGTCGGCTCCTTTAA -ACTGCGCGGACAACGTATTTTCCGCATGGCACCGATTCATCACCACTATGAACTGAAAGGCTGGCCGGAACCGCGCGTCA -TTGTGCGTTTCTGGATTATTTCGCTGATGCTGGTTCTGATTGGTCTGGCAACGCTGAAGGTACGTTAATCATGGCTGATT -ATCAGGGTAAAAATGTCGTCATTATCGGCCTGGGCCTCACCGGGCTTTCCTGCGTGGACTTTTTCCTCGCTCGCGGTGTG -ACGCCGCGCGTTATGGATACGCGTATGACACCGCCTGGCCTGGATAAATTACCCGAAGCCGTAGAACGCCACACGGGCAG -TCTGAATGATGAATGGCTGATGGCGGCAGATCTGATTGTCGCCAGTCCCGGTATTGCACTGGCGCATCCATCCTTAAGCG -CTGCCGCTGATGCCGGAATCGAAATCGTTGGCGATATCGAGCTGTTCTGTCGCGAAGCACAAGCACCGATTGTGGCGATT -ACCGGTTCTAACGGCAAAAGCACGGTCACCACGCTAGTGGGTGAAATGGCGAAAGCGGCGGGGGTTAACGTTGGTGTGGG -TGGCAATATTGGCCTGCCTGCGTTGATGCTACTGGATGATGAGTGTGAACTGTACGTGCTGGAACTGTCGAGCTTCCAGC -TGGAAACCACCTCCAGCTTACAGGCGGTAGCAGCGACCATTCTGAACGTGACTGAAGATCATATGGATCGCTATCCGTTT -GGTTTACAACAGTATCGTGCAGCAAAACTGCGCATTTACGAAAACGCGAAAGTTTGCGTGGTTAATGCTGATGATGCCTT -AACAATGCCGATTCGCGGTGCGGATGAACGCTGCGTCAGCTTTGGCGTCAACATGGGTGACTATCACCTGAATCATCAGC -AGGGCGAAACCTGGCTGCGGGTTAAAGGCGAGAAAGTGCTGAATGTGAAAGAGATGAAACTTTCCGGGCAGCATAACTAC -ACCAATGCGCTGGCGGCGCTGGCGCTGGCAGATGCTGCAGGGTTACCGCGTGCCAGCAGCCTGAAAGCGTTAACCACATT -CACTGGTCTGCCGCATCGCTTTGAAGTTGTGCTGGAGCATAACGGCGTACGTTGGATTAACGATTCGAAAGCGACCAACG -TCGGCAGTACGGAAGCGGCGCTGAATGGCCTGCACGTAGACGGCACACTGCATTTGTTGCTGGGTGGCGATGGTAAATCG -GCGGACTTTAGCCCACTGGCGCGTTACCTGAATGGCGATAACGTACGTCTGTATTGTTTCGGTCGTGACGGCGCGCAGCT -GGCGGCGCTACGCCCGGAAGTGGCAGAACAAACCGAAACTATGGAACAGGCGATGCGCTTGCTGGCTCCGCGTGTTCAGC -CGGGCGATATGGTTCTGCTCTCCCCAGCCTGTGCCAGCCTTGATCAGTTCAAGAACTTTGAACAACGAGGCAATGAGTTT -GCCCGTCTGGCGAAGGAGTTAGGTTGATGCGTTTATCTCTCCCTCGCCTGAAAATGCCGCGCCTGCCAGGATTCAGTATC -CTGGTCTGGATCTCCACGGCGCTAAAGGGCTGGGTGATGGGCTCGCGGGAAAAAGATACCGACAGCCTGATCATGTACGA -TCGCACCTTACTGTGGCTGACCTTCGGCCTCGCGGCGATTGGCTTTATCATGGTGACCTCGGCGTCAATGCCCATAGGGC -AACGCTTAACCAACGATCCGTTCTTCTTCGCGAAGCGTGATGGTGTCTATCTGATTTTGGCGTTTATTCTGGCGATCATT -ACGCTGCGTCTGCCGATGGAGTTCTGGCAACGCTACAGTGCCACGATGCTGCTCGGATCTATCATCCTGCTGATGATCGT -CCTGGTAGTGGGTAGCTCGGTTAAAGGGGCATCGCGTTGGATCGATCTCGGTTTGCTGCGTATCCAGCCTGCGGAGCTGA -CAAAACTGTCGCTGTTTTGCTATATCGCCAACTATCTGGTGCGTAAAGGCGACGAAGTACGTAATAACCTGCGCGGCTTC -CTGAAACCGATGGGCGTGATTCTGGTGTTGGCAGTGTTACTGCTGGCACAGCCAGACCTTGGTACGGTGGTGGTGTTGTT -TGTGACTACGCTGGCGATGTTGTTCCTGGCGGGAGCGAAATTGTGGCAGTTCATTGCCATTATCGGTATGGGCATTTCAG -CGGTTGTGTTGCTGATACTCGCCGAACCGTACCGTATCCGCCGTGTTACCGCATTCTGGAACCCGTGGGAAGATCCCTTT -GGCAGCGGCTATCAGTTAACGCAATCGCTGATGGCGTTTGGTCGCGGCGAACTTTGGGGGCAAGGTTTAGGTAACTCGGT -ACAAAAACTGGAGTATCTGCCGGAAGCGCACACTGACTTTATTTTCGCCATTATCGGCGAAGAACTGGGGTATGTCGGTG -TGGTGCTGGCACTTTTAATGGTATTCTTCGTCGCTTTTCGCGCGATGTCGATTGGCCGTAAAGCATTAGAAATTGACCAC -CGTTTTTCCGGTTTTCTCGCCTGTTCTATTGGCATCTGGTTTAGCTTCCAGGCGCTGGTTAACGTAGGCGCGGCGGCGGG -GATGTTACCGACCAAAGGTCTGACATTGCCGCTGATCAGTTACGGTGGTTCGAGCTTACTGATTATGTCGACAGCCATCA -TGATGCTGTTGCGTATTGATTATGAAACGCGTCTGGAGAAAGCGCAGGCGTTTGTACGAGGTTCACGATGAGTGGTCAAG -GAAAGCGATTAATGGTGATGGCAGGCGGAACCGGTGGACATGTATTCCCGGGACTGGCGGTTGCGCACCATCTAATGGCT -CAGGGTTGGCAAGTTCGCTGGCTGGGGACTGCCGACCGTATGGAAGCGGACTTAGTGCCAAAACATGGCATCGAAATTGA -TTTCATTCGTATCTCTGGTCTGCGTGGAAAAGGTATAAAAGCACTGATAGCTGCCCCGCTGCGTATCTTCAACGCCTGGC -GTCAGGCGCGGGCGATTATGAAAGCGTACAAACCTGACGTGGTGCTCGGTATGGGAGGCTACGTGTCAGGTCCAGGTGGT -CTGGCCGCGTGGTCGTTAGGCATTCCGGTTGTACTTCATGAACAAAACGGTATTGCGGGCTTAACCAATAAATGGCTGGC -GAAGATTGCCACCAAAGTGATGCAGGCGTTTCCAGGTGCTTTCCCTAATGCGGAAGTAGTGGGTAACCCGGTGCGTACCG -ATGTGTTGGCGCTGCCGTTGCCGCAGCAACGTTTGGCTGGACGTGAAGGTCCGGTTCGTGTGCTGGTAGTGGGTGGTTCT -CAGGGCGCACGCATTCTTAACCAGACAATGCCGCAGGTTGCTGCGAAACTGGGTGATTCAGTCACTATCTGGCATCAGAG -CGGCAAAGGTTCGCAACAATCCGTTGAACAGGCGTATGCCGAAGCGGGGCAACCGCAGCATAAAGTGACGGAATTTATTG -ATGATATGGCGGCGGCGTATGCGTGGGCGGATGTCGTCGTTTGCCGCTCCGGTGCGTTAACGGTGAGTGAAATCGCCGCG -GCAGGACTACCGGCGTTGTTTGTGCCGTTTCAACATAAAGACCGCCAGCAATACTGGAATGCGCTACCGCTGGAAAAAGC -GGGCGCAGCCAAAATTATCGAGCAGCCACAGCTTAGCGTGGATGCTGTCGCCAACACCCTGGCCGGGTGGTCGCGAGAAA -CCTTATTAACCATGGCAGAACGCGCCCGCGCTGCATCCATTCCGGATGCCACCGAGCGAGTGGCAAATGAAGTGAGCCGG -GTTGCCCGGGCGTAATTGTAGCGATGCCTTTTGCATCGTATGAATTTAAGAAGTTAATGGCGTAAAGAATGAATACACAA -CAATTGGCAAAACTGCGTTCCATCGTGCCCGAAATGCGTCGCGTTCGGCACATACATTTTGTCGGCATTGGTGGTGCCGG -TATGGGCGGTATTGCCGAAGTTCTGGCCAATGAAGGTTATCAGATCAGTGGTTCCGATTTAGCGCCAAATCCGGTCACGC -AGCAGTTAATGAATCTGGGTGCGACGATTTATTTCAACCATCGCCCGGAAAACGTACGTGATGCCAGCGTGGTCGTTGTT -TCCAGCGCGATTTCTGCCGATAACCCGGAAATTGTCGCCGCTCATGAAGCGCGTATTCCGGTGATCCGTCGTGCCGAAAT -GCTGGCTGAGTTAATGCGTTTTCGTCATGGCATCGCCATTGCCGGAACGCACGGCAAAACGACAACCACCGCGATGGTTT -CCAGCATCTACGCAGAAGCGGGGCTCGACCCAACCTTCGTTAACGGCGGGCTGGTAAAAGCGGCGGGGGTTCATGCGCGT -TTGGGGCATGGTCGGTACCTGATTGCCGAAGCAGATGAGAGTGATGCATCGTTCCTGCATCTGCAACCGATGGTGGCGAT -TGTCACCAATATCGAAGCCGACCACATGGATACCTACCAGGGCGACTTTGAGAATTTAAAACAGACTTTTATTAATTTTC -TGCACAACCTGCCGTTTTACGGTCGTGCGGTGATGTGTGTTGATGATCCGGTGATCCGCGAATTGTTACCGCGAGTGGGG -CGTCAGACCACGACTTACGGCTTCAGCGAAGATGCCGACGTGCGTGTAGAAGATTATCAGCAGATTGGCCCGCAGGGGCA -CTTTACGCTGCTGCGCCAGGACAAAGAGCCGATGCGCGTCACCCTGAATGCGCCAGGTCGTCATAACGCGCTGAACGCCG -CAGCTGCGGTTGCGGTTGCTACGGAAGAGGGCATTGACGACGAGGCTATTTTGCGGGCGCTTGAAAGCTTCCAGGGGACT -GGTCGCCGTTTTGATTTCCTCGGTGAATTCCCGCTGGAGCCAGTGAATGGTAAAAGCGGTACGGCAATGCTGGTCGATGA -CTACGGCCACCACCCGACGGAAGTGGACGCCACCATTAAAGCGGCGCGCGCAGGCTGGCCGGATAAAAACCTGGTAATGC -TGTTTCAGCCGCACCGTTTTACCCGTACGCGCGACCTGTATGATGATTTCGCCAATGTGCTGACGCAGGTTGATACCCTG -TTGATGCTGGAAGTGTATCCGGCTGGCGAAGCGCCAATTCCGGGAGCGGACAGCCGTTCGCTGTGTCGCACAATTCGTGG -ACGTGGGAAAATTGATCCCATTCTGGTGCCGGATCCGGCGCGGGTAGCCGAGATGCTGGCACCGGTATTAACCGGTAACG -ACCTGATTCTCGTTCAGGGGGCTGGTAATATTGGAAAAATTGCCCGTTCTTTAGCTGAAATCAAACTGAAGCCGCAAACT -CCGGAGGAAGAACAACATGACTGATAAAATCGCGGTCCTGTTGGGTGGGACCTCCGCTGAGCGGGAAGTTTCTCTGAATT -CTGGCGCAGCGGTGTTAGCCGGACTGCGTGAAGGCGGTATTGACGCGTATCCTGTCGACCCGAAAGAAGTCGACGTGACG -CAACTGAAGTCGATGGGCTTTCAGAAAGTGTTTATCGCGCTACACGGTCGCGGCGGTGAAGATGGTACGCTGCAGGGGAT -GCTCGAGCTGATGGGCTTGCCTTATACCGGAAGCGGAGTGATGGCATCTGCGCTTTCAATGGATAAACTACGCAGCAAAC -TTCTATGGCAAGGTGCCGGTTTACCGGTCGCGCCGTGGGTAGCGTTAACCCGCGCAGAGTTTGAAAAAGGCCTGAGCGAT -AAGCAGTTAGCAGAAATTTCTGCTCTGGGTTTGCCGGTTATCGTTAAGCCGAGCCGCGAAGGTTCCAGTGTGGGAATGTC -AAAAGTAGTAGCAGAAAATGCTCTACAAGATGCATTAAGATTGGCATTTCAGCACGATGAAGAAGTATTGATTGAAAAAT -GGCTAAGTGGGCCGGAGTTCACGGTTGCGATACTCGGTGAAGAAATTTTACCGTCAATACGTATTCAACCGTCCGGAACC -TTCTATGATTATGAGGCGAAGTATCTCTCTGATGAGACACAGTATTTCTGCCCCGCAGGTCTGGAAGCGTCACAAGAGGC -CAATTTGCAGGCATTAGTGCTGAAAGCATGGACGACGTTAGGTTGCAAAGGATGGGGACGTATTGACGTTATGCTGGACA -GCGATGGACAGTTTTATCTGCTGGAAGCCAATACCTCACCGGGTATGACCAGCCACAGCCTGGTGCCGATGGCGGCACGT -CAGGCAGGTATGAGCTTCTCGCAGTTGGTAGTACGAATTCTGGAACTGGCGGACTAATATGTCGCAGGCTGCTCTGAACA -CGCGAAACAGCGAAGAAGAGGTTTCTTCTCGCCGCAATAATGGAACGCGTCTGGCGGGGATCCTTTTCCTGCTGACCGTT -TTAACGACAGTGTTGGTGAGCGGCTGGGTCGTGTTGGGCTGGATGGAAGATGCGCAACGCCTGCCGCTCTCAAAGCTGGT -GTTGACCGGTGAACGCCATTACACACGTAATGACGATATCCGGCAGTCGATCCTGGCATTGGGTGAGCCGGGTACCTTTA -TGACCCAGGATGTCAACATCATCCAGACGCAAATAGAACAACGCCTGCCGTGGATTAAGCAGGTGAGCGTCAGAAAGCAG -TGGCCTGATGAATTGAAGATTCATCTGGTTGAATATGTGCCGATTGCGCGGTGGAATGATCAACATATGGTAGACGCGGA -AGGAAATACCTTCAGCGTGCCGCCAGAACGCACCAGCAAGCAGGTGCTTCCAATGCTGTATGGCCCGGAAGGCAGCGCCA -ATGAAGTGTTGCAGGGCTATCGCGAAATGGGGCAGATGCTGGCAAAGGACAGATTTACTCTGAAGGAAGCGGCGATGACC -GCGCGGCGTTCCTGGCAGTTGACGCTGAATAACGATATTAAGCTCAATCTTGGCCGGGGCGATACGATGAAACGTTTGGC -TCGCTTTGTAGAACTTTATCCGGTTTTACAGCAGCAGGCGCAAACCGATGGCAAACGGATTAGCTACGTTGATTTGCGTT -ATGACTCTGGAGCGGCAGTAGGCTGGGCGCCCTTGCCGCCAGAGGAATCTACTCAGCAACAAAATCAGGCACAGGCAGAA -CAACAATGATCAAGGCGACGGACAGAAAACTGGTAGTAGGACTGGAGATTGGTACCGCGAAGGTTGCCGCTTTAGTAGGG -GAAGTTCTGCCCGACGGTATGGTCAATATCATTGGCGTGGGCAGCTGCCCGTCGCGTGGTATGGATAAAGGCGGGGTGAA -CGACCTCGAATCCGTGGTCAAGTGCGTACAACGCGCCATTGACCAGGCAGAATTGATGGCAGATTGTCAGATCTCTTCGG -TATATCTGGCGCTTTCTGGTAAGCACATCAGCTGCCAGAATGAAATTGGTATGGTGCCTATTTCTGAAGAAGAAGTGACG -CAAGAAGATGTGGAAAACGTCGTCCATACCGCGAAATCGGTGCGTGTGCGCGATGAGCATCGTGTGCTGCATGTGATCCC -GCAAGAGTATGCGATTGACTATCAGGAAGGGATCAAGAATCCGGTAGGACTTTCGGGCGTGCGGATGCAGGCAAAAGTGC -ACCTGATCACATGTCACAACGATATGGCGAAAAACATCGTCAAAGCGGTTGAACGTTGTGGGCTGAAAGTTGACCAACTG -ATATTTGCCGGACTGGCATCAAGTTATTCGGTATTGACGGAAGATGAACGTGAACTGGGTGTCTGCGTCGTCGATATCGG -TGGTGGTACAATGGATATCGCCGTTTATACCGGTGGGGCATTGCGCCACACTAAGGTAATTCCTTATGCTGGCAATGTCG -TGACCAGTGATATCGCTTACGCCTTTGGCACGCCGCCAAGCGACGCCGAAGCGATTAAAGTTCGCCACGGTTGTGCGCTG -GGTTCCATCGTTGGAAAAGATGAGAGCGTGGAAGTGCCGAGCGTAGGTGGTCGTCCGCCACGGAGTCTGCAACGTCAGAC -ACTGGCAGAGGTGATCGAGCCGCGCTATACCGAGCTGCTCAACCTGGTCAACGAAGAGATATTGCAGTTGCAGGAAAAGC -TTCGCCAACAAGGGGTTAAACATCACCTGGCGGCAGGCATTGTATTAACCGGTGGCGCAGCGCAGATCGAAGGTCTTGCA -GCCTGTGCTCAGCGCGTGTTTCATACGCAAGTGCGTATCGGCGCGCCGCTGAACATTACCGGTTTAACGGATTATGCTCA -GGAGCCGTATTATTCGACGGCGGTGGGATTGCTTCACTATGGGAAAGAGTCACATCTTAACGGTGAAGCTGAAGTAGAAA -AACGTGTTACAGCATCAGTTGGCTCGTGGATCAAGCGACTCAATAGTTGGCTGCGAAAAGAGTTTTAATTTTTATGAGGC -CGACGATGATTACGGCCTCAGGCGACAGGCACAAATCGGAGAGAAACTATGTTTGAACCAATGGAACTTACCAATGACGC -GGTGATTAAAGTCATCGGCGTCGGCGGCGGCGGCGGTAATGCTGTTGAACACATGGTGCGCGAGCGCATTGAAGGTGTTG -AATTCTTCGCGGTAAATACCGATGCACAAGCGCTGCGTAAAACAGCGGTTGGACAGACGATTCAAATCGGTAGCGGTATC -ACCAAAGGACTGGGCGCTGGCGCTAATCCAGAAGTTGGCCGCAATGCGGCTGATGAGGATCGCGATGCATTGCGTGCGGC -GCTGGAAGGTGCAGACATGGTCTTTATTGCTGCGGGTATGGGTGGTGGTACCGGTACAGGTGCAGCACCAGTCGTCGCTG -AAGTGGCAAAAGATTTGGGTATCCTGACCGTTGCTGTCGTCACTAAGCCTTTCAACTTTGAAGGCAAGAAGCGTATGGCA -TTCGCGGAGCAGGGGATCACTGAACTGTCCAAGCATGTGGACTCTCTGATCACTATCCCGAACGACAAACTGCTGAAAGT -TCTGGGCCGCGGTATCTCCCTGCTGGATGCGTTTGGCGCAGCGAACGATGTACTGAAAGGCGCTGTGCAAGGTATCGCTG -AACTGATTACTCGTCCGGGTTTGATGAACGTGGACTTTGCAGACGTACGCACCGTAATGTCTGAGATGGGCTACGCAATG -ATGGGTTCTGGCGTGGCGAGCGGTGAAGACCGTGCGGAAGAAGCTGCTGAAATGGCTATCTCTTCTCCGCTGCTGGAAGA -TATCGACCTGTCTGGCGCGCGCGGCGTGCTGGTTAACATCACGGCGGGCTTCGACCTGCGTCTGGATGAGTTCGAAACGG -TAGGTAACACCATCCGTGCATTTGCTTCCGACAACGCGACTGTGGTTATCGGTACTTCTCTTGACCCGGATATGAATGAC -GAGCTGCGCGTAACCGTTGTTGCGACAGGTATCGGCATGGACAAACGTCCTGAAATCACTCTGGTGACCAATAAGCAGGT -TCAGCAGCCAGTGATGGATCGCTACCAGCAGCATGGGATGGCTCCGCTGACCCAGGAGCAGAAGCCGGTTGCTAAAGTCG -TGAATGACAATGCGCCGCAAACTGCGAAAGAGCCGGATTATCTGGATATCCCAGCATTCCTGCGTAAGCAAGCTGATTAA -GAATTGACTGGAATTTGGGTTTCGAGGCTCTTTGTGCTAAACTGGCCCGCCGAATGTATAGTACACTTCGGTTGGATAGG -TAATTTGGCGAGATAATACGATGATCAAACAAAGGACACTTAAACGTATCGTTCAGGCGACGGGTGTCGGTTTACATACC -GGCAAGAAAGTCACCCTGACGTTACGCCCTGCGCCGGCCAACACCGGGGTCATCTATCGTCGCACCGACTTGAATCCACC -GGTAGATTTCCCGGCCGATGCCAAATCTGTGCGTGATACCATGCTCTGTACGTGTCTGGTCAACGAGCATGATGTACGGA -TTTCAACCGTAGAGCACCTCAATGCTGCTCTCGCGGGCTTGGGCATCGATAACATTGTTATCGAAGTTAACGCGCCGGAA -ATCCCGATCATGGACGGCAGCGCCGCTCCGTTTGTATACCTGCTGCTTGACGCCGGTATCGACGAGTTGAACTGCGCCAA -AAAATTTGTTCGCATCAAAGAGACTGTTCGTGTCGAAGATGGCGATAAGTGGGCTGAATTTAAGCCGTACAATGGTTTTT -CGCTGGATTTCACCATCGATTTTAACCATCCGGCTATTGATTCCAGCAACCAGCGCTATGCGATGAACTTCTCCGCTGAT -GCGTTTATGCGCCAGATCAGCCGTGCGCGTACGTTCGGTTTCATGCGTGATATCGAATATCTGCAGTCCCGTGGTTTGTG -CCTGGGCGGCAGCTTCGATTGTGCCATCGTTGTTGACGATTATCGCGTACTGAACGAAGACGGCCTGCGTTTTGAAGACG -AATTTGTGCGTCACAAAATGCTCGATGCGATCGGTGACTTGTTCATGTGTGGTCACAATATTATTGGTGCATTTACCGCT -TATAAATCCGGTCATGCACTGAATAACAAACTGCTGCAGGCTGTCCTGGCGAAACAGGAAGCCTGGGAATATGTGACCTT -CCAGGACGACGCAGAACTGCCGTTGGCCTTCAAAGCGCCTTCAGCTGTACTGGCATAACGACATTTATACTGTCGTATAA -AATTCGACTGGCAAATCTGGCACTCTCTCCGGCCAGGTGAACCAGTCGTTTTTTTTTGAATTTTATAAGAGCTATAAAAA -ACGGTGCGAACGCTGTTTTCTTAAGCACTTTTCCGCACAACTTATCTTCATTCGTGCTGTGGACTGCAGGCTTTAATGAT -AAGATTTGTGCGCTAAATACGTTTGAATATGATCGGGATGGCAATAACGTGAGTGGAATACTGACGCGCTGGCGACAGTT -TGGTAAACGCTACTTCTGGCCGCATCTCTTATTAGGGATGGTTGCGGCGAGTTTAGGTTTGCCTGCGCTCAGCAACGCCG -CCGAACCAAACGCGCCCGCAAAAGCGACAACCCGCAACCACGAGCCTTCAGCCAAAGTTAACTTTGGTCAATTGGCCTTG -CTGGAAGCGAACACACGCCGCCCGAATTCGAACTATTCCGTTGATTACTGGCATCAACATGCCATTCGCACGGTAATCCG -TCATCTTTCTTTCGCAATGGCACCGCAAACACTGCCCGTTGCTGAAGAATCTTTGCCTCTTCAGGCGCAACATCTTGCAT -TACTGGATACGCTCAGCGCGCTGCTGACCCAGGAAGGCACGCCGTCTGAAAAGGGTTATCGCATTGATTATGCGCATTTT -ACCCCACAAGCAAAATTCAGCACGCCCGTCTGGATAAGCCAGGCGCAAGGCATCCGTGCTGGCCCTCAACGCCTCACCTA -ACAACAATAAACCTTTACTTCATTTTATTAACTCCGCAACGCGGGGCGTTTGAGATTTTATTATGCTAATCAAATTGTTA -ACTAAAGTTTTCGGTAGTCGTAACGATCGCACCCTGCGCCGGATGCGCAAAGTGGTCAACATCATCAATGCCATGGAACC -GGAGATGGAAAAACTCTCCGACGAAGAACTGAAAGGGAAAACCGCAGAGTTTCGTGCACGTCTGGAAAAAGGCGAAGTGC -TGGAAAATCTGATCCCGGAAGCTTTCGCCGTGGTACGTGAGGCAAGTAAGCGCGTCTTTGGTATGCGTCACTTCGACGTT -CAGTTACTCGGCGGTATGGTTCTTAACGAACGCTGCATCGCCGAAATGCGTACCGGTGAAGGAAAAACCCTGACCGCAAC -GCTGCCTGCTTACCTGAACGCACTAACCGGTAAAGGCGTGCACGTAGTTACCGTCAACGACTACCTGGCGCAACGTGACG -CCGAAAACAACCGTCCGCTGTTTGAATTCCTTGGCCTGACTGTCGGTATCAACCTGCCGGGCATGCCAGCACCGGCAAAG -CGCGAAGCTTACGCAGCTGACATCACTTACGGTACGAACAACGAATACGGCTTTGACTACCTGCGCGACAACATGGCGTT -CAGCCCTGAAGAACGTGTACAGCGTAAACTGCACTATGCGCTGGTGGACGAAGTGGACTCCATCCTGATCGATGAAGCGC -GTACACCGCTGATCATTTCCGGCCCGGCAGAAGACAGCTCGGAAATGTATAAACGCGTGAATAAAATTATTCCGCACCTG -ATCCGTCAGGAAAAAGAAGACTCCGAAACCTTCCAGGGCGAAGGCCACTTCTCGGTGGACGAAAAATCTCGCCAGGTGAA -CCTGACCGAACGTGGTCTGGTGCTGATTGAAGAACTGCTGGTGAAAGAGGGCATCATGGATGAAGGGGAGTCTCTGTACT -CTCCGGCCAACATCATGCTGATGCACCACGTAACGGCGGCGCTGCGCGCTCATGCGCTGTTTACCCGTGACGTCGACTAC -ATCGTTAAAGATGGTGAAGTTATCATCGTTGACGAACACACCGGTCGTACCATGCAGGGCCGTCGCTGGTCCGATGGTCT -GCACCAGGCTGTGGAAGCGAAAGAAGGTGTGCAGATCCAGAACGAAAACCAAACGCTGGCTTCGATCACCTTCCAGAACT -ACTTCCGTCTGTATGAAAAACTGGCGGGGATGACCGGTACTGCTGATACCGAAGCTTTCGAATTTAGCTCAATCTACAAG -CTGGATACCGTCGTTGTTCCGACCAACCGTCCAATGATTCGTAAAGATCTGCCGGACCTGGTCTACATGACTGAAGCGGA -AAAAATTCAGGCGATCATTGAAGATATCAAAGAACGTACTGCGAAAGGCCAGCCGGTGCTGGTGGGTACTATCTCCATCG -AAAAATCGGAGCTGGTGTCAAACGAACTGACCAAAGCCGGTATTAAGCACAACGTCCTGAACGCCAAATTCCACGCCAAC -GAAGCGGCGATTGTTGCTCAGGCAGGTTATCCGGCTGCGGTGACTATCGCGACCAATATGGCGGGTCGTGGTACAGATAT -TGTGCTCGGTGGTAGCTGGCAGGCAGAAGTTGCCGCGCTGGAAAATCCGACCGCAGAGCAAATTGAAAAAATTAAAGCCG -ACTGGCAGGTACGTCACGATGCGGTACTGGAAGCAGGTGGCCTGCATATCATCGGTACCGAGCGTCACGAATCCCGTCGT -ATCGATAACCAGTTGCGCGGTCGTTCTGGTCGTCAGGGGGATGCTGGTTCTTCCCGTTTCTACCTGTCGATGGAAGATGC -GCTGATGCGTATTTTTGCTTCCGACCGAGTATCCGGCATGATGCGTAAACTGGGTATGAAGCCAGGCGAAGCCATTGAAC -ACCCGTGGGTGACTAAAGCGATTGCCAACGCCCAGCGTAAAGTTGAAAGCCGTAACTTCGACATTCGTAAGCAACTGCTG -GAATATGATGACGTGGCTAACGATCAGCGTCGCGCCATTTACTCCCAGCGTAACGAACTGTTGGATGTCAGCGATGTGAG -CGAAACCATTAACAGCATTCGTGAAGATGTGTTCAAAGCGACCATTGATGCCTACATTCCACCACAGTCGCTGGAAGAAA -TGTGGGATATTCCGGGGCTGCAGGAACGTCTGAAGAACGATTTCGACCTCGATTTGCCAATTGCCGAGTGGCTGGATAAA -GAACCAGAACTGCATGAAGAGACGCTGCGTGAGCGCATTCTGGCGCAGTCCATCGAAGTGTATCAGCGTAAAGAAGAAGT -GGTTGGTGCTGAGATGATGCGTCACTTCGAGAAAGGCGTCATGCTGCAAACGCTTGACTCCCTGTGGAAAGAGCACCTGG -CAGCGATGGACTATCTGCGTCAGGGTATCCACCTGCGTGGCTACGCACAGAAAGATCCGAAGCAGGAATACAAACGTGAA -TCGTTCTCCATGTTTGCAGCGATGCTGGAGTCGTTGAAATATGAAGTTATCAGTACGCTGAGCAAAGTTCAGGTACGTAT -GCCTGAAGAGGTTGAGGAGCTGGAACAACAGCGTCGTATGGAAGCCGAGCGTTTAGCGCAAATGCAGCAGCTTAGCCATC -AGGATGACGACTCTGCAGCCGCAGCTGCACTGGCGGCGCAAACCGGAGAGCGCAAAGTAGGACGTAACGATCCTTGCCCG -TGCGGTTCTGGTAAAAAATACAAGCAGTGCCATGGCCGCCTGCAATAAAAGCTAACTGTTGAAGTAAAAGGCGCAGGATT -CTGCGCCTTTTTTATAGGTTTAAGACAATGAAAAAGCTGCAAATTGCGGTAGGTATTATTCGCAACGAGAACAATGAAAT -CTTTATAACGCGTCGCGCAGCAGATGCGCACATGGCGAATAAACTGGAGTTTCCCGGCGGTAAAATTGAAATGGGTGAAA -CGCCGGAACAGGCGGTGGTGCGTGAACTTCAGGAAGAAGTCGGGATTACCCCCCAACATTTTTCGCTATTTGAAAAACTG -GAATATGAATTCCCGGACAGGCATATAACACTGTGGTTTTGGCTGGTCGAACGCTGGGAAGGGGAGCCGTGGGGTAAAGA -AGGGCAACCCGGTGAGTGGATGTCGCTGGTCGGTCTTAATGCCGATGATTTTCCGCCAGCCAATGAACCGGTAATTGCGA -AGCTTAAACGTCTGTAGGTCAGATAAGGCGTTTTCGCCGCATCCGACATTCGCACACGATGCCTGATGCGACGCTGGCGC -GTCTTATCAGGCCTAAAGGGATTTCTAACTCATTGATAAATTTGTTTTTGTAGGTCGGATAAGGCGTTCACGCCGCATCC -GACATTTGCACAAGATGCCTGATGCGACGCTGTCCGCGTCTTATCAGGCCTACGTGCGGCATCAGACAAATGTCACTGCT -TTGGTTCTTCGCTCCAGTCATCGCTTTCGGAAAGATCGCCACTGCTGGGGATTCGTTTTTCTTCAGCAGCCCATTCTCCG -AGGTCGATCAGCTGACAACGTTTGGAGCAAAATGGCCGAAACGGGCTGATTTCACCCCACACCACCGTTTTCCCGCAGGT -TGGGCAATTCACCGTAATAGTTTCTGACATTTTTACTCCTTAGCAACAGGCCAGTTCGAAATCCAGACGTTCCGGTACCT -GTCCGTTTTCAGTGTCCAGCGGCATAAAACGAATGGCAAAACGGCTCTTATGTCCGGAAATTTGCGGATAAAGCTGTGAA -TCGAGCGACAGATTCAGGCGCAGCAAGTCGGCATCGCCACCGTTATCCTGATAAAAACCATTCAGGCTGGTTTGTTTACG -GAAGGGGGCCGACTGGCGAATTAAATCCAGCACCATGGTAAGTGCCTGGGTGAGCGGGTTCAGGCTGGCAATCCAGGTTT -CTACCTGGCTGTCGCGCTGCGCCTGGGGTAGATGCAGCCAAATGTGCAATGTAGGTAAATCAAAGCTGCAACAGCCGCCT -GGGATGCTCAGTCGCTGACGCACCAGAGCAATCAAACGATCTTCACGCAGAAATTGCCCGATACGCGGCGCGGAAATTAA -TACGCTCCCCGCCGCTTTTAACTGCTGAATTAATGCTTCAATACGGCTCTGGTCCACGCCAGGCACGCCAATCCAGGTCT -GGAGTTTACGTTGCTGCCGGTCAAGTTCTTTCAACAGCTCAGTGCGGACTTCGCCGCGCTCGAAAACATCCAGTAATTCA -CTGACATTACGGAAGAAATGCAGCGCGCCAGCGTGGTCAACGATGGGTAAATTAACGGTGAGTTGCTGAATCAAAAACTC -AATGCGCAGCCATGTACGCATTTTTTCATTTAGTGGATGTTCAAAAAGGACCTGGGTCTGCATTACGGTTTTTCCTGTGA -GACAAACTGCGACGCAAGCTGCAAATAGTGTGCGTGCAGGCGGGCAACATCCGATGCGATAGCATCCGGTGCGCCGTTAT -TATCAATGACGTCATCTGCCACGGCAAGGCGGGCTTCGCGCGTTGCCTGAGCAGCAAGGATTTGTTCGACATGCTCGCGA -GTTACATCATCGCGCTGCATGGTGCGCTTAAGTTGCGTTTCTGGGCTGACATCCACCACAAGCACTCGATTCGCTTTTTT -ATACAGTGAGTTTTCTACCAGCAATGGCACAACCCACAGTACATAGGGGGAAGTAGCTTGCTGGATCTGGTGTTGCGTCT -CTTGCTGAATCAGCGGATGCAGCAGGGCGTTAAGCCAGTTTTTCTCTTCCGGGTTGGCGAAGATCCGCTCGCGCAAGGCC -CGGCGCTGCAATGTTCCATCAGCAGCAATCATGTTAGCGCCAAAGTGATCAGCAATGGCATGTAGCGCAGGTGCACCTGG -TTCAACCACCTGACGCGCAATAATATCGGCATCAATGACGTTAATTCCGAGATCAGCAAACGCATTGGCAACGGTACTCT -TGCCACTGCCAATGCCTCCCGTTAAGGCAACTATATACCTCATAATTTATATTCCCGGGAATTCATCATGATTATCAAAA -CGTTAAAAATGAGTGCACGAAAGCGAAATTGATGAAACGTTCGCTCACTATTTACCAGGTAAATTTATGGGATTGTAGCG -TAAAAAAAGACAATTTCGCAGTCTTGCGCCGCATTGATTAGTGCGTATGATAGCGTCACTGGAGTTGCGCTCTTACCCTT -ATAGCCATTAACCCCAGGAATCCGCACATGCGTATTGAAGAAGATCTGAAGTTAGGTTTTAAAGACGTTCTCATCCGCCC -TAAACGCTCCACTCTTAAAAGCCGTTCCGATGTTGAACTGGAACGTCAATTCACCTTCAAACATTCAGGTCAGAGCTGGT -CCGGCGTGCCGATTATCGCCGCAAATATGGACACCGTAGGCACATTTTCTATGGCCTCTGCGCTGGCTTCTTTTGATATT -TTGACTGCTGTGCATAAACACTATTCTGTCGAAGAGTGGCAAGCGTTTATCAACAATTCTTCCGCTGATGTGCTGAAACA -TGTGATGGTTTCTACCGGTACGTCTGATGCGGATTTCGAAAAAACTAAACAGATTCTCGACCTGAACCCGGCATTAAACT -TCGTTTGTATTGACGTGGCGAATGGTTATTCCGAACACTTCGTGCAGTTCGTTGCGAAAGCGCGTGAAGCGTGGCCGACC -AAAACCATTTGTGCTGGTAACGTAGTGACTGGTGAAATGTGTGAGGAGCTTATCCTCTCAGGTGCCGATATCGTTAAAGT -TGGCATTGGCCCAGGTTCTGTTTGTACAACTCGCGTCAAAACAGGCGTCGGTTATCCGCAACTTTCTGCGGTAATCGAAT -GTGCCGATGCTGCGCACGGTCTGGGCGGAATGATCGTCAGCGATGGTGGCTGCACCACGCCGGGCGATGTGGCGAAAGCC -TTTGGCGGCGGTGCCGATTTCGTCATGCTTGGCGGCATGCTGGCGGGCCACGAAGAGAGCGGCGGTCGCATCGTTGAGGA -GAACGGCGAGAAATTTATGCTGTTCTACGGCATGAGCTCCGAGTCTGCGATGAAACGTCACGTTGGCGGCGTTGCGGAAT -ATCGCGCAGCAGAAGGTAAAACCGTTAAGCTGCCGCTGCGAGGCCCGGTTGAAAATACCGCGCGAGATATTTTGGGCGGC -CTGCGTTCAGCTTGTACATACGTTGGGGCTTCACGCCTGAAAGAGCTGACCAAGCGCACCACGTTTATTCGTGTGCAGGA -ACAAGAAAACCGCATCTTCAACAACCTGTAATCTCCCAACGCTGGCGTGGAGCAACACGCCAGCGTTATCCCATCCCACT -CATCGCATCGCCTAAATGGAAAATTGGCAGATACATTGCCACCACCAGCGTACCAATAATTCCTCCCGTTATGATCAGCA -ACGCCGGTTCCAGTAAGGCTGCGAGGTTATCCGCCAGCGCCATTGTGTTTTCCCGATGATGATGGGCGAGGTTGTCTAAC -ATGAGATCCAGAGAGCCGGATGCCTCTCCTGTTCTCACTAATTGCAAACAGAGCGGGCTAAACTCACCGGTATTTTTTAG -CGCCAGCCAGATGGGTTGACCGTTACTGATATCGTGCTGGATTTGTGTCAGAAGTTGCACCCAGTACGGGCAGCGCATTG -TTTCTCTGACGCTCTCTACGCCCTGTAAAAAAGTAATGCCTGCACTTTGTGTCAGCGCCAGAATCGTAAAGATCTGCGTG -AGTTTTTGTCCCCGCATCAGTGAACCCATAATCGGGATGCGTAACAGCAATTTCTGCCGCACTATAAGCCAGGTCGGTCG -GCGCATCAGCAACTTATTGGCTATCGCCAGCAGAAAGCCGAACAACACCAGCAGCCAGCTCCATTCGCCACTAAAGTCTG -CCAGCGTCATGATCCCCTGCGTTAGTGCCGGTAGTGGGGTGTTGAAGGTCTTATAGATAGCGGCAAACTCCGGCAGAACA -AAATGCAGCATTGCCACAACCACCATGATTGCCATCGCTAAAATGATGATGGGATAACGTAACGCTGATTTCACTTTGTC -GGTCAACTGACGCTGGGCTTTTTGCTGACGCGCCAGTTCAAAGCAGCATTCATCCAGCTTACCGGTCAGTTCACCCGTGC -GGATCATCGCCTGATAGAGCGGCGGAAATACCTCTGACCAGGGTAATAAGGCATTGGAAAAAGCAATGCCCTGTTCGAGA -TCGTGCGCCAGCGATTGCAGCAACGCTTGCCATTGCTTACTGGGATGCTGTTCCGCCAGCAGAGCCAGCCCTTCAGAAAG -CGTTAACCCTGCTTTGAGTAGCGTCGCCAGTTGATGAATGACTTCCGCGCTTTTATCTCCTCGCCACTGCGCAGAATTGA -TGGCGATTCGCTTCAGGCTTAGTGGGGTAACCATCTGTTGCTGTAGTGCCATAAGCAGTAAAGTACGGCTCTCTGCCCAT -AGCATCCCATCTTGCGCATTGCCGTCGCCGGTTATGCCATGCCAGCGCCAGAGTTGCTTACTCGCCATGCGGCATCCCCA -GTACGCGGATTAACTCTTCAAAGGTGGTTAAGCCTTGCTCTACGGCCAGGCAGCCGTTTTCAAAAAGCGTACGCATACCC -GCCTGTCGTGCGTGCGTTTCCAGCGATTCAACGTCGGTATTAGCGGAAATAAGCTGACGAATGACCGGCGTTATGGGCAG -AACTTCAAATAAGGCCGTACGACCATAAAAACCGTGGTAGCAATGTACACAACCGGGTGCCTGCCAGTGGGGCAGCGGCG -ATGGCCATACATTGTCTGGAATGTGGATGGGCTCCCCTTGCTGCCGGCGACAATGTGGGCAAAGTTTGCGTACCAGACGC -TGGGCTATTACCAGCGTAAGCGCCGATGATAGCATCCAGCGGGCGACCCCCATTTGCTGTAAACGTACCAGCGTTTCGCA -GGTGGAATTAGTGTGTAGGGTAGACAACACCAGGTGACCAGTTTGCGCCGCTTTAATAGCGATCTCTGCTGTTTCGCCAT -CGCGGATCTCTCCGATCATGATGACGTCAGGATCCTGGCGCAATAACGCACGCAAAACGCCCTGAAAGGTGAGTCCGGCA -CGCGGATGGATTTGCGTCTGGTTTAGTCCGGCTATGGGGATCTCAACTGGATCTTCGACGCTACAAATATTAATGTCAGC -GGTATTCAGCTTTTGCAGGGCACTATAAAGCGTGACCGTTTTGCCGCTGCCGGTAGGGCCAGTTACCAGCACCAGTCCCT -GTGGTTGTTGCAAGGCATGAGCAAAGTCCGCCAGTTGTAACGGCTGCATTCCAAGCGTGTTGACATCCAGTGCCTGACCC -ACCTGCTGTAACAACCTTAATACCACCTTTTCACCACCCCGACATGGTAAGGTCGCAATACGAAATGAGACGGCGTTTCC -TGCCAGTTCGACAGTGAATTGCCCGTCCTGCGGCAGGCGATGTTCCGCAATATCCAGGTTTCCCAGCACTTTTAATCTGG -CGGTTAATGCGACTCCGGCATCCGGTGAAACATCCGGTAAAGGATGCAATACGCCGTCGATACGCAAGCGGATGCGGTAG -GCATTGTCCGCTGGTTCGATATGAATATCAGACGCGCGTTGTTCCAGCGCAGATTGTAACGTTCGAGTTAGCAACTCTGC -TTTGGGCTGATGCTTCTCCTGAACAGCTACGGGCAATGTCTGTTGTGTGCGACTGGCGTGACCTTCCATTTGTTGGCGCG -TCCAGCAGGTGATCTCAATACGTTTGGTGGTAGCGAAATGCAATGCGTCCAGTAGCTCATGCGAAGGTGCATCGACTACC -GCAACATGAACCACCTCTTCGCTGGCATCCAGCAAGACTCCATGATAACGCAGACACAGGGCAGTGAGCTGTGGAATATT -CATTGCCGCTCCTTAGTTGGCGTCATCAAAGCGGAAGACATCTTCGCAGGCTTGCTGCAATGCGCTGTCACTTTGAATAT -TGCAGTTGCGCGTCCAGCCGGTGACGCCGTTTGCGTTATCCCAACCCGGTGTCATGACGACGCTTAGCCCATTGAGACTT -TCTTGCCCGGTCAGCGACACCACGCCCTTTGCCACACTCATGGCTGAAACATAGCGGGTGGTGGTAGGCGAGGGAATGCC -ATTGCTGCCACCGTCGCAGGTATCTAATCCACCATGTTCCAGCGCGCACAACTCTACGGCGGTACGGTAAGGCACAAAGG -TTTGTAGCATGTCGGTGAGTGCGGCTTTGCGCAGGTAGTTTTGATAAGCGGGAATACCAATGGCGCTTAAAATGGCAATG -ATGCCAATAACCACCATCAGTTCGATAAGTGTAAAACCGCGTTGCTTGTCCATCTGTTTCGCTCCTTGATTTGGTTGGCG -CTACTTTGGCAAACGCCATCAGCACAGGCGAGGGGCAAAAAACGAAACGGGAAAGCAGATTCCGAGGTTTTTTATTTCGT -TGCAGCGAAAGACAAGAAATTTGCGAGGCGTTACGAAGAAAGTTGGGGAAGGGGAGATTATCCGCCCGCGATGGAGCGGA -TAAATCTGTCAACTATTAGCGAAAACGCATTGAAAGGTCGAGTGCTTGTACGTGTTTAGTTAGCGCACCGACGGAGATAA -AGTCCACGCCCGTTTCGGCAAATTCACGCAGTGTTTTGTCAGTGACGTTGCCAGACACTTCCAGTAGCGCCTTGCCGTTG -GTGCGTTTGACGGCTTCGCGCATCTGTTCTGTTTCGAAGTTATCCAGCATGATGATATCGGCTCCTGCTTTCAGGGCTTC -ATCAAGTTCTTCCAGATTCTCTACTTCGACTTCTACTGGCGCATCCGGGTGCAGCCAGGACGCTTTTTCGACCGCCTGGC -GCACTGAGCCGGAGGCAATAATATGGTTTTCTTTGATCAGGAAGGCATCAGAAAGCCCCAGACGGTGATTCGCTCCGCCG -CCGCAAAGTACCGCGTATTTCAGAGCTGAACGCAGGCCGGGTAAGGTTTTGCGCGTATCCAACAACTGCGTGTTGGTGCC -TTCCAGCAATTCGACATAGTGGCGTACCTTACTGGCAACTCCTGAAAGGGTTTGCACAAAATTAAGCGCAGTGCGTTCGC -CCGTTAACAGCACGCGGGATGGGCCTTCAAGTTCGAACAAGGATTGATTGGCATTGATGACATCGCCGTCATCCACATGC -CAGATTATGGTGACATCGTCGCCTGCCAGTTGAATAAACACCTCTTCAACCCAGCGTTTGCCGCAAAAGACGCCATTCTC -GCGGGTGATCACCGTGGCATGAGAGCGAGAATTTTCCGGTAAAAGTTTTGCCGTAATATCATTGTTGGCATCGACTGTTC -CGCCTAAATCTTCCCGCAGCGCCTGGGCCACCGCGCCGGGGATATCGAGATTAATGCGTTCCAGCAGCTCGTCACGTCGG -GTGTCAGGGTTATAGCGGCGAGGCGGCATGTTAAAACTCCAGATAGCTAACGAATCATAAGGTAGAAACATGCTACTCTG -AACCGGGTATTAGCACCACATATAAGGAGATCCTGCATGTTGTTAGAACAGGGGTGGCTGGTTGGCGCGCGCCGCGTTCC -CTCACCACATTACGATTGCCGCCCGGATGACGAAACACCCACCCTGCTGGTGGTGCACAATATTAGCCTGCCGCCAGGCG -AGTTTGGCGGTCCGTGGATCGACGCATTATTCACTGGAACTATTGATCCGCAGGCACATCCTTTCTTTGCTGAGATCGCC -CATTTGCGCGTCTCCGCTCACTGTTTGATTCGCCGTGATGGTGAAATAGTCCAGTATGTTCCTTTCGATAAACGTGCATG -GCATGCGGGAGTCTCTCAGTATCAGGGGCGCGAACGCTGCAATGATTTTTCTATTGGGATTGAGCTTGAAGGCACCGATA -CGCTGGCGTATACCGATGCGCAGTATCAACAGCTTGCGGCGGTTACGCGGGCACTGATTGATTGCTATCCGGATATCGCT -AAAAACATGACGGGCCATTGTGATATTGCGCCGGATCGGAAAACCGATCCCGGTCCTGCATTTGATTGGGCACGGTTTCG -TGTGCTGGTCAGCAAGGAGACAACATGACGCTATTTACAACCTTACTGGTGTTAATTTTCGAGCGCCTGTTTAAGTTGGG -CGAGCACTGGCAGCTTGATCATCGTCTTGAAGCGTTCTTTCGGCGGGTGAAACATTTTTCTCTCGGGCGCACGTTAGGCA -TGACCATTATTGCGATGGGCGTGACTTTTTTACTGTTACGCGCATTGCAGGGAGTATTGTTCAACGTTCCCACGCTACTG -GTGTGGCTGCTGATTGGTTTGCTGTGTATTGGCGCAGGTAAAGTTCGTCTTCATTATCATGCTTATCTGACAGCTGCTTC -ACGTAATGATAGCCATGCCCGTGCCACGATGGCTGGCGAACTCACCATGATTCACGGCGTCCCGGCAGGCTGCGACGAAC -GTGAGTATTTGCGTGAGCTGCAAAATGCATTGCTGTGGATTAACTTTCGTTTTTATCTTGCACCGCTGTTCTGGCTGATT -GTGGGGGGAACCTGGGGACCCGTTACGCTGATGGGGTATGCGTTTTTGCGTGCATGGCAATACTGGCTGGCGCGATATCA -GACGCCGCATCATCGTTTACAGTCCGGCATTGATGCCGTGCTTCATGTACTGGATTGGGTGCCGGTTCGTCTTGCGGGTG -TGGTATATGCCTTGATCGGTCATGGTGAGAAAGCGTTACCGGCCTGGTTTGCTTCGCTGGGTGATTTCCATACTTCGCAG -TATCAGGTGTTAACGCGTCTGGCGCAGTTCTCTCTGGCGCGTGAACCGCATGTCGATAAGGTGGAGACGCCGAAGGCAGC -GGTTTCAATGGCGAAGAAAACCTCGTTCGTGGTCGTGGTGGTGATTGCACTACTGACGATTTACGGGGCGTTGGTGTAAA -GATTATTGCCCTCACCCTGTACGGGTGAGGGCGTAGAGAGATTAATGCGCTTTTACGGCTTTGGCGGTTTTCTCTTTAAA -CAGATAGCCGATACCTAACACGATCAGCCATACCGGGATCAGGTATACCGAAATCGCCATTCCTGGGGTCATCAGCATAA -TCACCAGTACCGCCGCCATAAACAGCAGGCAGATCCAGTTACCCAGCGGATAAAGCAGAGCAGGGAAGCGAGTTACCACG -CCTTGTTCCTGCTTGGCGCGACGGAATTTCATATGCGCCAGGCTAATCATCGCCCAGTTGATTACCAGTGCAGATACCAC -CAGCGCCATTAACAGTCCGAAAGCGGACTCTGGGGCAAGGTAGTTAATCAGTACGCACAACGCCGTTACCAGTGCAGACA -CCAGAATGGTATTTACTGGTACACCACGTTTATCGACAGACGCCAGCGCTTTTGGCGCATTACCCTGTTGTGCCAGACCA -AACAGCATACGGCTGTTGCAATATACGCAGCTGTTGTACACGGAGAGCGCCGCAGTCAGTACCACGATGTTCAGCGCATT -CGCCACAAAGGTATCGCCTAACTCGTGGAAGATCAGCACAAACGGACTGGTATCGGCGGTAACGCGGGTCCACGGCATCA -GTGAGAGCAGAACGGCTAACGAACCAATATAGAAAATCAGGATGCGGTAGATAACCTGGTTAGTTGCTTTCGGTATACTT -TGCTCCGGGTTATCAGCTTCTGCTGCGGTGATCCCCACCAGTTCCAGACCACCGAACGAGAACATGATAATCGCCATCAT -CATCACCAGCCCGGTGAAGCCGTGCGGCAGGAAACCACCCTGATCCCACAGGTTGCTAACGGTCGCCTGCGGGCCGCCGT -TGCCACTGAATAGCAGCCAGCCGCCGAAGATGATCATCGCTACCACCGCGATAACTTTGATAATGGCAAACCAGAACTCC -ATCTCGCCAAACACTTTAACGTTGGTCAGGTTGATGGCGTTAATCACCACAAAGAATACGGCGGCAGAAACCCAGGTGGG -GATTTCCGGATACCAGAACTGAATGTATTTACCCACGGCAGTCAGCTCAGCCATGGCAACTAAAACGTACAGTACCCAGT -AGTTCCAGCCAGAGGCGAAACCGGCAAAACTGCCCCAGTATTTATAAGCAAAGTGGCTAAAGGAGCCTGCGACAGGTTCT -TCGACCACCATTTCACCCAGCTGACGCATGATCAGAAAGGCGATAAAACCAGCAATGGCGTAACCCAGGATAATCCCTGG -CCCTGCGGACTGTATTACGGAGGCGCTACCCAGGAATAACCCGGTCCCTATCGCGCCACCCAGCGCGATAAGCTGAATAT -GGCGGTTTTTAAGGCCGCGCTTTAGCTGCTCGCCGTGCTGTTGACCTTCCATCATGAAACCTCGTGCGGTGGTTGTTTTT -TTGATCTACGCAGTGATGCGTGTGTAAGTTTGCAATTCCGTTTGTTGTATTAATTTGTTTACATCAAAGAAGTTTGAATT -GTTACAAAAAGACTTCCGTCAGATCAAGAATAATGGTATGCGGCAGCGAATGCACCCGCTTTATGCATGGTTGAAGATGA -GTTGCTTAAAAAGAAACCGTTTGTAAAGCTCAGCCTCAACCCCTCTCAATATGTAGAATGAATTTAAATTCGTTTTAATT -GAATTAAAAATCACAAAATTGGTAAGTGAATCGGTTCAATTCGGATTTTTATAGTTTAATAATCGTTAAAAAACTCCTTT -CCTACGTAAAGTCTACATTTGTGCATAGTTACAACTTTGAAACGTTATATATGTCAAGTTGTTAAAATGTGCACAGTTTC -ATGATTTCAATCAAAACCTGTATGGACATAAGGTGAATACTTTGTTACTTTAGCGTCACAGACATGAAATTGGTAAGACC -AATTGACTTCGGCAAGTGGCTTAAGACAGGAACTCATGGCCTACAGCAAAATCCGCCAACCAAAACTCTCCGATGTGATT -GAGCAGCAACTGGAGTTTTTGATCCTCGAAGGCACTCTCCGCCCGGGCGAAAAACTCCCACCGGAACGCGAACTGGCAAA -ACAGTTTGACGTCTCCCGTCCCTCCTTGCGTGAGGCGATTCAACGTCTCGAAGCGAAGGGCTTGTTGCTTCGTCGCCAGG -GTGGCGGCACTTTTGTCCAGAGCAGCCTATGGCAAAGCTTCAGCGATCCGCTGGTGGAGCTGCTCTCCGACCATCCTGAG -TCACAGTATGACTTGCTCGAAACACGACACGCCCTGGAAGGTATCGCCGCTTATTACGCCGCGCTGCGTAGTACCGATGA -AGACAAGGAACGCATCCGTGAACTCCACCACGCCATAGAGCTGGCGCAGCAGTCTGGCGATCTGGACGCGGAATCAAACG -CCGTACTCCAGTATCAGATTGCCGTCACCGAAGCGGCCCACAATGTGGTTCTGCTTCATCTGCTAAGGTGTATGGAGCCG -ATGTTGGCCCAGAATGTCCGCCAGAACTTCGAATTGCTCTATTCGCGTCGCGAGATGCTGCCGCTGGTGAGTAGTCACCG -CACCCGCATATTTGAAGCGATTATGGCCGGTAAGCCGGAAGAAGCGCGCGAAGCATCGCATCGCCATCTGGCCTTTATCG -AAGAAATTTTGCTCGACAGAAGTCGTGAAGAGAGCCGCCGTGAGCGTTCTCTGCGTCGTCTGGAGCAACGAAAGAATTAG -TGATTTTTCTGGTAAAAATTATCCAGAAGATGTTGTAAATCAAGCGCATATAAAAGCGCGGCAACTAAACGTAGAACCTG -TCTTATTGAGCTTTCCGGCGAGAGTTCAATGGGACAGGTTCCAGAAAACTCAACGTTATTAGATAGATAAGGAATAACCC -ATGTCAGAACGTTTCCCAAATGACGTGGATCCGATCGAAACTCGCGACTGGCTCCAGGCGATCGAATCGGTCATCCGTGA -AGAAGGTGTTGAGCGTGCTCAGTATCTGATCGACCAACTGCTTGCTGAAGCCCGCAAAGGCGGTGTAAACGTAGCCGCAG -GCACAGGTATCAGCAACTACATCAACACCATCCCCGTTGAAGAACAACCGGAGTATCCGGGTAATCTGGAACTGGAACGC -CGTATTCGTTCAGCTATCCGCTGGAACGCCATCATGACGGTGCTGCGTGCGTCGAAAAAAGACCTCGAACTGGGCGGCCA -TATGGCGTCCTTCCAGTCTTCCGCAACCATTTATGATGTGTGCTTTAACCACTTCTTCCGTGCACGCAACGAGCAGGATG -GCGGCGACCTGGTTTACTTCCAGGGCCACATCTCCCCGGGCGTGTACGCTCGTGCTTTCCTGGAAGGTCGTCTGACTCAG -GAGCAGCTGGATAACTTCCGTCAGGAAGTTCACGGCAATGGCCTCTCTTCCTATCCGCACCCGAAACTGATGCCGGAATT -CTGGCAGTTCCCGACCGTATCTATGGGTCTGGGTCCGATTGGTGCTATTTACCAGGCTAAATTCCTGAAATATCTGGAAC -ACCGTGGCCTGAAAGATACCTCTAAACAAACCGTTTACGCGTTCCTCGGTGACGGTGAAATGGACGAACCGGAATCCAAA -GGTGCGATCACCATCGCTACCCGTGAAAAACTGGATAACCTGGTCTTCGTTATCAACTGTAACCTGCAGCGTCTTGACGG -CCCGGTCACCGGTAACGGCAAGATCATCAACGAACTGGAAGGCATCTTCGAAGGTGCTGGCTGGAACGTGATCAAAGTGA -TGTGGGGTAGCCGTTGGGATGAACTGCTGCGTAAGGATACCAGCGGTAAACTGATCCAGCTGATGAACGAAACCGTTGAC -GGCGACTACCAGACCTTCAAATCGAAAGATGGTGCGTACGTTCGTGAACACTTCTTCGGTAAATATCCTGAAACCGCAGC -ACTGGTTGCAGACTGGACTGACGAGCAGATCTGGGCACTGAACCGTGGTGGTCACGATCCGAAGAAAATCTACGCTGCAT -TCAAGAAAGCGCAGGAAACCAAAGGCAAAGCGACAGTAATCCTTGCTCATACCATTAAAGGTTACGGCATGGGCGACGCG -GCTGAAGGTAAAAACATCGCGCACCAGGTTAAGAAAATGAACATGGACGGTGTGCGTCATATCCGCGACCGTTTCAATGT -GCCGGTGTCTGATGCAGATATCGAAAAACTGCCGTACATCACCTTCCCGGAAGGTTCTGAAGAGCATACCTATCTGCACG -CTCAGCGTCAGAAACTGCACGGTTATCTGCCAAGCCGTCAGCCGAACTTCACCGAGAAGCTTGAGCTGCCGAGCCTGCAA -GACTTCGGCGCGCTGTTGGAAGAGCAGAGCAAAGAGATCTCTACCACTATCGCTTTCGTTCGTGCTCTGAACGTGATGCT -GAAGAACAAGTCGATCAAAGATCGTCTGGTACCGATCATCGCCGACGAAGCGCGTACTTTCGGTATGGAAGGTCTGTTCC -GTCAGATTGGTATTTACAGCCCGAACGGTCAGCAGTACACCCCGCAGGACCGCGAGCAGGTTGCTTACTATAAAGAAGAC -GAGAAAGGTCAGATTCTGCAGGAAGGGATCAACGAGCTGGGCGCAGGTTGTTCCTGGCTGGCAGCGGCGACCTCTTACAG -CACCAACAATCTGCCGATGATCCCGTTCTACATCTATTACTCGATGTTCGGCTTCCAGCGTATTGGCGATCTGTGCTGGG -CGGCTGGCGACCAGCAAGCGCGTGGCTTCCTGATCGGCGGTACTTCCGGTCGTACCACCCTGAACGGCGAAGGTCTGCAG -CACGAAGATGGTCACAGCCACATTCAGTCGCTGACTATCCCGAACTGTATCTCTTACGACCCGGCTTACGCTTACGAAGT -TGCTGTCATCATGCATGACGGTCTGGAGCGTATGTACGGTGAAAAACAAGAGAACGTTTACTACTACATCACTACGCTGA -ACGAAAACTACCACATGCCGGCAATGCCGGAAGGTGCTGAGGAAGGTATCCGTAAAGGTATCTACAAACTCGAAACTATT -GAAGGTAGCAAAGGTAAAGTTCAGCTGCTCGGCTCCGGTTCTATCCTGCGTCACGTCCGTGAAGCAGCTGAGATCCTGGC -GAAAGATTACGGCGTAGGTTCTGACGTTTATAGCGTGACCTCCTTCACCGAGCTGGCGCGTGATGGTCAGGATTGTGAAC -GCTGGAACATGCTGCACCCGCTGGAAACTCCGCGCGTTCCGTATATCGCTCAGGTGATGAACGACGCTCCGGCAGTGGCA -TCTACCGACTATATGAAACTGTTCGCTGAGCAGGTCCGTACTTACGTACCGGCTGACGACTACCGCGTACTGGGTACTGA -TGGCTTCGGTCGTTCCGACAGCCGTGAGAACCTGCGTCACCACTTCGAAGTTGATGCTTCTTATGTCGTGGTTGCGGCGC -TGGGCGAACTGGCTAAACGTGGCGAAATCGATAAGAAAGTGGTTGCTGACGCAATCGCCAAATTCAACATCGATGCAGAT -AAAGTTAACCCGCGTCTGGCGTAAGAGGTAAAAGAATAATGGCTATCGAAATCAAAGTACCGGACATCGGGGCTGATGAA -GTTGAAATCACCGAGATCCTGGTCAAAGTGGGCGACAAAGTTGAAGCCGAACAGTCGCTGATCACCGTAGAAGGCGACAA -AGCCTCTATGGAAGTTCCGTCTCCGCAGGCGGGTATCGTTAAAGAGATCAAAGTCTCTGTTGGCGATAAAACCCAGACCG -GCGCACTGATTATGATTTTCGATTCCGCCGACGGTGCAGCAGACGCTGCACCTGCTCAGGCAGAAGAGAAGAAAGAAGCA -GCTCCGGCAGCAGCACCAGCGGCTGCGGCGGCAAAAGACGTTAACGTTCCGGATATCGGCAGCGACGAAGTTGAAGTGAC -CGAAATCCTGGTGAAAGTTGGCGATAAAGTTGAAGCTGAACAGTCGCTGATCACCGTAGAAGGCGACAAGGCTTCTATGG -AAGTTCCGGCTCCGTTTGCTGGCACCGTGAAAGAGATCAAAGTGAACGTGGGTGACAAAGTGTCTACCGGCTCGCTGATT -ATGGTCTTCGAAGTCGCGGGTGAAGCAGGCGCGGCAGCTCCGGCCGCTAAACAGGAAGCAGCTCCGGCAGCGGCCCCTGC -ACCAGCGGCTGGCGTGAAAGAAGTTAACGTTCCGGATATCGGCGGTGACGAAGTTGAAGTGACTGAAGTGATGGTGAAAG -TGGGCGACAAAGTTGCCGCTGAACAGTCACTGATCACCGTAGAAGGCGACAAAGCTTCTATGGAAGTTCCGGCGCCGTTT -GCAGGCGTCGTGAAGGAACTGAAAGTCAACGTTGGCGATAAAGTGAAAACTGGCTCGCTGATTATGATCTTCGAAGTTGA -AGGCGCAGCGCCTGCGGCAGCTCCTGCGAAACAGGAAGCGGCAGCGCCGGCACCGGCAGCAAAAGCTGAAGCCCCGGCAG -CAGCACCAGCTGCGAAAGCGGAAGGCAAATCTGAATTTGCTGAAAACGACGCTTATGTTCACGCGACTCCGCTGATCCGC -CGTCTGGCACGCGAGTTTGGTGTTAACCTTGCGAAAGTGAAGGGCACTGGCCGTAAAGGTCGTATCCTGCGCGAAGACGT -TCAGGCTTACGTGAAAGAAGCTATCAAACGTGCAGAAGCAGCTCCGGCAGCGACTGGCGGTGGTATCCCTGGCATGCTGC -CGTGGCCGAAGGTGGACTTCAGCAAGTTTGGTGAAATCGAAGAAGTGGAACTGGGCCGCATCCAGAAAATCTCTGGTGCG -AACCTGAGCCGTAACTGGGTAATGATCCCGCATGTTACTCACTTCGACAAAACCGATATCACCGAGTTGGAAGCGTTCCG -TAAACAGCAGAACGAAGAAGCGGCGAAACGTAAGCTGGATGTGAAGATCACCCCGGTTGTCTTCATCATGAAAGCCGTTG -CTGCAGCTCTTGAGCAGATGCCTCGCTTCAATAGTTCGCTGTCGGAAGACGGTCAGCGTCTGACCCTGAAGAAATACATC -AACATCGGTGTGGCGGTGGATACCCCGAACGGTCTGGTTGTTCCGGTATTCAAAGACGTCAACAAGAAAGGCATCATCGA -GCTGTCTCGCGAGCTGATGACTATTTCTAAGAAAGCGCGTGACGGTAAGCTGACTGCGGGCGAAATGCAGGGCGGTTGCT -TCACCATCTCCAGCATCGGCGGCCTGGGTACTACCCACTTCGCGCCGATTGTGAACGCGCCGGAAGTGGCTATCCTCGGC -GTTTCCAAGTCCGCGATGGAGCCGGTGTGGAATGGTAAAGAGTTCGTGCCGCGTCTGATGCTGCCGATTTCTCTCTCCTT -CGACCACCGCGTGATCGACGGTGCTGATGGTGCCCGTTTCATTACCATCATTAACAACACGCTGTCTGACATTCGCCGTC -TGGTGATGTAAGTAAAAGAGCCGGCCCAACGGCCGGCTTTTTTCTGGTAATCTCATGAATGTATTGAGGTTATTAGCGAA -TAGACAAATCGGTTGCCGTTTGTTGTTTAAAAATTGTTAACAATTTTGTAAAATACCGACGGATAGAACGACCCGGTGGT -GGTTAGGGTATTACTTCACATACCCTATGGATTTCTGGGTGCAGCAAGGTAGCAAGCGCCAGAATCCCCAGGAGCTTACA -TAAGTAAGTGACTGGGGTGAGGGCGTGAAGCTAACGCCGCTGCGGCCTGAAAGACGACGGGTATGACCGCCGGAGATAAA -TATATAGAGGTCATGATGAGTACTGAAATCAAAACTCAGGTCGTGGTACTTGGGGCAGGCCCCGCAGGTTACTCCGCTGC -CTTCCGTTGCGCTGATTTAGGTCTGGAAACCGTAATCGTAGAACGTTACAACACCCTTGGCGGTGTTTGCCTGAACGTCG -GCTGTATCCCTTCTAAAGCACTGCTGCACGTAGCAAAAGTTATCGAAGAAGCCAAAGCGCTGGCTGAACACGGTATCGTC -TTCGGCGAACCGAAAACCGATATCGACAAGATTCGTACCTGGAAAGAGAAAGTGATCAATCAGCTGACCGGTGGTCTGGC -TGGTATGGCGAAAGGCCGCAAAGTCAAAGTGGTCAACGGTCTGGGTAAATTCACCGGGGCTAACACCCTGGAAGTTGAAG -GTGAGAACGGCAAAACCGTGATCAACTTCGACAACGCGATCATTGCAGCGGGTTCTCGCCCGATCCAACTGCCGTTTATT -CCGCATGAAGATCCGCGTATCTGGGACTCCACTGACGCGCTGGAACTGAAAGAAGTACCAGAACGCCTGCTGGTAATGGG -TGGCGGTATCATCGGTCTGGAAATGGGCACCGTTTACCACGCGCTGGGTTCACAGATTGACGTGGTTGAAATGTTCGACC -AGGTTATCCCGGCAGCTGACAAAGACATCGTTAAAGTCTTCACCAAGCGTATCAGCAAGAAATTCAACCTGATGCTGGAA -ACCAAAGTTACCGCCGTTGAAGCGAAAGAAGACGGCATTTATGTGACGATGGAAGGCAAAAAAGCACCCGCTGAACCGCA -GCGTTACGACGCCGTGCTGGTAGCGATTGGTCGTGTGCCGAACGGTAAAAACCTCGACGCAGGCAAAGCAGGCGTGGAAG -TTGACGACCGTGGTTTCATCCGCGTTGACAAACAGCTGCGTACCAACGTACCGCACATCTTTGCTATCGGCGATATCGTC -GGTCAACCGATGCTGGCACACAAAGGTGTTCACGAAGGTCACGTTGCCGCTGAAGTTATCGCCGGTAAGAAACACTACTT -CGATCCGAAAGTTATCCCGTCCATCGCCTATACCGAACCAGAAGTTGCATGGGTGGGTCTGACTGAGAAAGAAGCGAAAG -AGAAAGGCATCAGCTATGAAACCGCCACCTTCCCGTGGGCTGCTTCTGGTCGTGCTATCGCTTCCGACTGCGCAGACGGT -ATGACCAAGCTGATTTTCGACAAAGAATCTCACCGTGTGATCGGTGGTGCGATTGTCGGTACTAACGGCGGCGAGCTGCT -GGGTGAAATCGGCCTGGCAATCGAAATGGGTTGTGATGCTGAAGACATCGCACTGACCATCCACGCGCACCCGACTCTGC -ACGAGTCTGTGGGCCTGGCGGCAGAAGTGTTCGAAGGTAGCATTACCGACCTGCCGAACCCGAAAGCGAAGAAGAAGTAA -TTTTTCGTTTGCCGGAACATCCGGCAATTAAAAAAGCGGCTAACCACGCCGCTTTTTTTACGTCTGCAATTTACCTTTCC -AGTCTTCTTGCTCCACGTTCAGAGAGACGTTCGCATACTGCTGACCGTTGCTCGTTATTCAGCCTGACAGTATGGTTACT -GTCGTTTAGACGTTGTGGGCGGCTCTCCTGAACTTTCTCCCGAAAAACCTGACGTTGTTCAGGTGATGCCGATTGAACAC -GCTGGCGGGCGTTATCACGTTGCTGTTGATTCAGTGGGCGCTGCTGTACTTTTTCCTTAAACACCTGGCGCTGCTCTGGT -GATGCGGACTGAATACGCTCACGCGCTGCGTCTCTTCGCTGCTGGTTCTGCGGGTTAGTCTGCATTTTCTCGCGAACCGC -CTGGCGCTGCTCAGGCGAGGCGGACTGAATGCGCTCACGCGCTGCCTCTCTTCGCTGCTGGATCTTCGGGTTAGTCTGCA -TTCTCTCGCGAACTGCCTGGCGCTGCTCAGGCGAGGCGGACTGATAACGCTGACGAGCGGCGTCCTTTTGTTGCTGGGTC -AGTGGTTGGCGACGGCTGAAGTCGTGGAAGTCGTCATAGCTCCCATAGTGTTCAGCTTCATTAAACCGCTGTGCCGCTGC -CTGACGTTGGGTATCTCGTGTAATGACTGGTGCGGCGTGTGTTCGTTGCTGAAACTGATTTGCTGCCGCCTGACGCTGGC -TGTCGCGCGTTGGGGCAGGTAATTGCGTGGCGCTCATTCCGCCGTTGACATCGGTTTGATGAAACCGCTTTGCCATATCC -TGATCATGATAGGGCACACCATTACGGTAGTTTGGATTGTGCCGCCATGCCATATTCTTATCAGTAAGATGCTCACCGGT -GATACGGTTGAAATTGTTGACGTCGATATTGATGTTGTCGCCGTTGTGTTGCCAGCCATTACCGTCACGATGACCGCCAT -CGTGGTGATGATAATCATCATTGTCATGATGATGATGGTCATGATCGTCGTCGTCCCAGTCGATGCTGCTGAATAGTGCG -TACGTGGTAGCAACGCCCATGCTATAGCCGAATCCGCGTACAAAGCTGTCAACAAACGGTTCTCCGGCTGGTGGTGGCAG -ATAAACCGGCGGATACGCAGTATTGGCCCAGTTCCCGTAAACCACGGTTGGGTTGTAGTTGGGAATATAGACCACATCAG -GATTGGCGGGCTCAATGGAAATGACGGTTGTTGCCGGCTCTGTAATGACGGGGTTGGCAGTTAAAACTGTATTGGATGGT -ATGACGGGTGCCGTGACTGTCTGTTTTACCGGTACAGCTTTCTTCGTTGTGGTAATAACTTTCTGTTCGGTTGATGACTT -CAGCGAGCCGGTTTGTTGCGCCAGTTGCCGCAATCGCTGTACCGAGTCCATCACGTCCTGCGGCTGGGCCAGAAAAGCAT -CGCCCAGGTTTTGCACCCATTGCGGGTTTTCGCCCATCAATGCCATCAATTGTGGAAAGGCCACCAGTGATTTAACGCTG -GCGTCCCACGGCTGGTCAGATACCGCCTGAATAGCAGCATCGCCTTGTTTAAGTGGATTATCGTGCGACCATTGCACTGC -TTGAGCAACGTTTGTCGGATAGGTTGATGCCATCAGCACCTGCGAAAGTAGGGCGTCGGGATACAGCGCGACGGGCGCGA -CCCATTGATCTATTTGTGCAGTGCTGAATGCGGATTTGACGACGGCGGGTGTTACGGGAGGTGCGGAAACCGTTGCAGGA -AACGTAACCGCGGCAGCGTCAGACACAGCCAGTTGTGTCGATTGCGGTTCCACAGGCGCTTCCACTGTGCGGCTTTTTAT -ATATAGCCCGGTAGAGGCGGCACAAAGCCCGGCACTGCAAATTAGCGCCAGCACATGGGGTTTAAACGGCAAAGTCATTT -TCATAATTCGGATCTCAAGGAAATCGCAATGGTCGGCGAACTGCCACCCGCAGGTGCTGTGAATCCGAGTATAAAGAGGC -GGTAGTTTAAATTTTGACTAATCTTGGGATTCGTTGAGAAAGGTGATTATCACCATGCGAATTAACGAAGTTTTTACGGA -GGGAAACAATCTCTAGACCATCCTTAACGATTCAGCCACTTTTTTATGTTGCTTTTTTGTAAACAGATTAACACCTCGTC -AAAATCCTGCTATTCTGCCCGTTGCGGTACTGGGCATTTACCCTACAAACTGCTGTCTCACAGGAGCGTGAAGAGAATCG -CCTGCCGCACTATGACAATGAGAGCGAGGAGAACCGTCGTGCTAGAAGAATACCGTAAGCACGTAGCTGAGCGTGCCGCT -GAGGGGATTGCGCCCAAACCCCTGGATGCAAACCAAATGGCCGCACTTGTAGAGCTGCTGAAAAACCCGCCCGCGGGCGA -AGAAGAATTCCTGTTAGATCTGTTAACCAACCGTGTTCCCCCAGGCGTCGATGAAGCCGCCTATGTCAAAGCAGGCTTCC -TGGCTGCTATCGCGAAAGGCGAAGCCAAATCCCCTCTGCTGACTCCGGAAAAAGCCATCGAACTGCTGGGCACCATGCAG -GGTGGTTACAACATTCATCCGCTGATCGACGCGCTGGATGATGCCAAACTGGCACCTATTGCTGCCAAAGCACTTTCTCA -CACGCTGCTGATGTTCGATAACTTCTATGACGTAGAAGAGAAAGCGAAAGCAGGCAACGAATATGCGAAGCAGGTTATGC -AGTCCTGGGCGGATGCCGAATGGTTCCTGAATCGCCCGGCGCTGGCTGAAAAACTGACCGTTACTGTCTTCAAAGTCACT -GGCGAAACTAACACCGATGACCTTTCTCCGGCACCGGATGCGTGGTCACGCCCGGATATCCCACTGCACGCGCTGGCGAT -GCTGAAAAACGCCCGTGAAGGTATTGAGCCAGACCAGCCTGGTGTTGTTGGTCCGATCAAGCAAATCGAAGCTCTGCAAC -AGAAAGGTTTCCCGCTGGCGTACGTCGGTGACGTTGTGGGTACGGGTTCTTCGCGTAAATCCGCCACTAACTCCGTTCTG -TGGTTTATGGGCGATGATATTCCACATGTGCCGAACAAACGCGGCGGTGGTTTGTGCCTCGGCGGTAAAATTGCACCCAT -CTTCTTTAACACGATGGAAGACGCGGGTGCACTGCCAATCGAAGTCGACGTCTCTAACCTGAACATGGGCGACGTGATTG -ACGTTTACCCGTACAAAGGTGAAGTGCGTAACCACGAAACCGGCGAACTGCTGGCGACCTTCGAACTGAAAACCGACGTG -CTGATTGATGAAGTGCGTGCTGGTGGCCGTATTCCGCTGATTATCGGGCGTGGCCTGACCACCAAAGCGCGTGAAGCACT -TGGTCTGCCGCACAGTGATGTGTTCCGTCAGGCGAAAGATGTCGCTGAGAGCGATCGCGGCTTCTCGCTGGCGCAAAAAA -TGGTAGGCCGTGCCTGTGGCGTGAAAGGCATTCGTCCGGGCGCGTACTGTGAACCGAAAATGACTTCTGTAGGTTCCCAG -GACACCACCGGCCCGATGACCCGTGATGAACTGAAAGACCTGGCGTGCCTGGGCTTCTCGGCTGACCTGGTGATGCAGTC -TTTCTGCCACACCGCGGCGTATCCGAAGCCAGTTGACGTGAACACGCACCACACGCTGCCGGACTTCATTATGAACCGTG -GCGGTGTGTCGCTGCGTCCGGGTGACGGCGTCATTCACTCCTGGCTGAACCGTATGCTGCTGCCGGATACCGTCGGTACC -GGTGGTGACTCCCATACCCGTTTCCCGATCGGTATCTCTTTCCCGGCGGGTTCTGGTCTGGTGGCGTTTGCTGCCGCAAC -TGGCGTAATGCCGCTTGATATGCCGGAATCCGTTCTGGTGCGCTTCAAAGGCAAAATGCAGCCGGGCATCACCCTGCGCG -ATCTGGTACACGCTATTCCGCTGTATGCGATCAAACAAGGTCTGCTGACCGTTGAGAAGAAAGGCAAGAAAAACATCTTC -TCTGGCCGCATCCTGGAAATTGAAGGTCTGCCGGATCTGAAAGTTGAGCAGGCCTTTGAGCTAACCGATGCGTCCGCCGA -GCGTTCTGCCGCTGGTTGTACCATCAAGCTGAACAAAGAACCGATCATCGAATACCTGAACTCTAACATCGTCCTGCTGA -AGTGGATGATCGCGGAAGGTTACGGCGATCGTCGTACCCTGGAACGTCGTATTCAGGGCATGGAAAAATGGCTGGCGAAT -CCTGAGCTGCTGGAAGCCGATGCAGATGCGGAATACGCGGCAGTGATCGACATCGATCTGGCGGATATTAAAGAGCCAAT -CCTGTGTGCTCCGAACGACCCGGATGACGCGCGTCCGCTGTCTGCGGTACAGGGTGAGAAGATCGACGAAGTGTTTATCG -GTTCCTGCATGACCAACATCGGTCACTTCCGTGCTGCGGGTAAACTGCTGGATGCGCATAAAGGTCAGTTGCCGACCCGC -CTGTGGGTGGCACCGCCAACCCGTATGGACGCCGCACAGTTGACCGAAGAAGGCTACTACAGCGTCTTCGGTAAGAGTGG -TGCGCGTATCGAGATCCCTGGCTGTTCCCTGTGTATGGGTAACCAGGCGCGTGTGGCGGACGGTGCAACGGTGGTTTCCA -CCTCTACCCGTAACTTCCCGAACCGTCTGGGTACTGGCGCGAATGTCTTCCTGGCTTCTGCGGAACTGGCGGCTGTTGCG -GCGCTGATTGGCAAACTGCCGACGCCGGAAGAGTACCAGACCTACGTGGCGCAGGTAGATAAAACAGCCGTTGATACTTA -CCGTTATCTGAACTTCAACCAGCTTTCTCAGTACACCGAGAAAGCCGATGGGGTGATTTTCCAGACTGCGGTTTAAAAAG -TCAGCGCACGCGCTGCGCATAAACGACACAATGCCCGGTTAATGAGATTCCCGGGCATTTTTTTATTTCTAAACCATCGC -CGTTCCGCTGTTTTTCTCCGGTAAGGCTGCGATAATTACATCAATGGCGCAATGCGATTTCGGTGCATTGCCGGGAGCAG -AGGAACACACTATGGATTACGAATTTCTGCGCGATATTACCGGAGTGGTAAAGGTGCGTATGTCCATGGGGCATGAAGTG -GTCGGGCACTGGTTTAATGAAGAGGTGAAAGAAAACCTGGCCTTGCTTGATGAAGTGGAACAAGCAGCGCACGCACTGAA -AGGTAGCGAACGGTCCTGGCAACGGGCAGGGCATGAATACACCCTGTGGATGGACGGTGAAGAGGTGATGGTTCGCGCCA -ATCAACTGGAATTCGCTGGCGATGAAATGGAAGAGGGGATGAACTACTACGACGAAGAAAGCCTGTCGCTATGCGGCGTT -GAGGATTTTCTGCAGGTCGTGGCGGCTTACCGCAATTTCGTGCAGCAGAAGTAAATAAATCTGGCGGAGCCTGGGAGCTC -CGCCAGAGCCGTTAAACAGCTGGCATATTGCGCCCGTAATAAATCTCGCGCATTTCTTTCCACAGCGCAGCGGTAATTTC -CTGGCGCTCGCTGTCGGTTAAGTCTTCCGGTTTGGTGTGGAACATGTAGTGCTTAAGGTCGAACTCTTTAAGCAACATCT -TGGTATGGAAGATATTTTCCTGATAGACGTTCACATCCACCATGTCATACAGCGCCTTCATATCGTCAGACATAAAGTTC -TGAATCGAATTAATCTCATGGTCGATAAAGTGCTTCATACCGTTAATGTCGCGGGTAAAACCGCGCACGCGATAATCAAT -GGTTACGATATCGGACTCAAGCTGGTGGATCAGGTAATTCAGCGCCTTCAGCGGAGAAATCACGCCGCAGGTAGAGACTT -CAATATCGGCGCGGAAGGTACATAAACCGCCTTCAGGATGACTTTCCGGGTAGGTATGTACGCAAATATGACTTTTATCA -AGATGGGCAACGACCGTTTCTGGCAGTGGGCCGGGGTGTTCTGTTTTGTCGATGAGTTTCGGGTCAACCGGTTCTTCACT -CACCAGAATAGTGACGCTGGCACCCTGTGGTTCGTAATCCTGGCGGGCGATGTTAAGAATATTAGCCCCGATAATGGAAC -AGGTTTCTGACAGGATTTCGGTCAGACGGTTGGCATTATAGAGTTCATCGATATAAGCAATATAACCGTCGCGCTCTTCG -GCAGTTTTGGCGTAGCAGATATCGTAAATACAAAAACTCAGACTTTTGGTCAGATTATTAAAGCCATGCAGTTTCAGTTT -TTTCAATTTCTTATCTTCTCCTTAGGACGGCTGTGAAGCCAGTGCGTCTTGCAGATACTGAGGTAAGGCAAAAGCTGCCG -TATGGATTGCCGGATTGTAATAACGGCATTTCAGGCCAGAGGCGAGAAAACGCGCCTGAATAATTTCGGTTGAGAGATGG -CGTAAGGCGTCGTTATCTGTCGCCCATGCAAAAGTCATGATACCGCCGTAATAGGTCGGGATCGCCGCCTGATAAAAGCC -AACGTCGCTGAAGTAATGGCTGAGTTTGCGATGGCTGTCGATGGCTTCTTCCTGCTGTAAAAAGCAGACGCCGTTTTGTG -CGACGAAGATACCGCCAGGATTCAGGCAACGTTTGCAGCCTTCATAAAATGCCGAAGTGAAAAGGCTTTCGCCGGGACCG -ATAGGATCGGTGCAGTCGGAGATAATGACATCAAAGGTCTGGCTGGTTTGATTAACGAAATTGACGCCATCGTCGATCAC -CAGCTTAAAGCGCGGATCGTCGTAGCTACCGGCGTTATGGTTGGGTAGATACTGACGGCAGAACGATACGACACCCGCAT -CGATTTCCACCATCGTGATTGACTCAACGTTTTTATGTCGGGTTACTTCACGCAGCATGGCACCGTCGCCGCCGCCGATA -ATCAGCACATGTTTCGCGTGACCATGGGCCAGTAGCGGAACATGGGTCATCATCTCATGATAGATAAACTCGTCGCGCTC -GGTGGTTTGTACTACGCCATCCAGCGCCATTACGCGACCAAATGCAGCGTTCTCAAAAATGATCAGATCCTGGTGATCGG -TCTTTTCATGATACAGAACGTTATCTACCGCAAAGTACTGCCCAAACTGGTCGTGTAGCGTTTCATGCCACTGTTTTTTT -TCGGCCATGGGTTGATACCTCCTTTGTTAACACCCGTAAAAAAAGGGCGCAACATAATAGCTAACATTGACCGCGGATGC -ACGGTCAATATTTCTACAAAAAGGTATCAGGGATTATTTGACGTAGGCAAGCAGGCTTAAGGAATCGCGGGCCAGGGCTT -TGCATTTTTTAGCGACGGGAATGCCAATGCCGCTGAGATCGCGGTAGCTGTCTTCACCGAGGGCTTTCATGTCGAAGGTG -TCGTAATTACTGAGGTCCCACTGGTTTTGCTGAGCGAAAAAGACCAGTGCGCGACGAATTTGCCCGTTAGGTAAGTTCTG -GTAACCACAATCGTTCTTCAGAAAGACAAAAACTGCCGTTAAATCGGCCATATCTTCGGCTTCAGACTCGCTGAGCGCGT -AACTGTTTGCGCAGACGGCCATCAGGCTGCCGAATAACACTGTTCTGAAAAACGTCTTCATTGCTTCTACCAGGGGCTTA -AAGAAGATAAACGTTAGCACACTGCGAGCGAGGCGACGACCATTATTGTCGATTAAATTGTGTCTGCGGCTTGACCTTCC -CGTAAGGGGAAGGACTATGCTCAACGTTTGATTTTGTTTCGCCTGCTTAAGAATAAGGAAATAACTATGCAACGTCGTGA -TTTCTTAAAATATTCCGTCGCGCTGGGTGTGGCTTCGGCTTTGCCGCTGTGGAGCCGCGCAGTATTTGCGGCAGAACGCC -CAACGTTACCGATCCCTGATTTGCTCACGACCGATGCCCGTAATCGCATTCAGTTAACTATTGGCGCAGGCCAGTCCACC -TTTGGCGGGAAAACTGCAACTACCTGGGGCTATAACGGCAATCTGCTGGGGCCGGCGGTGAAATTACAGCGCGGCAAAGC -GGTAACGGTTGATATCTACAACCAACTGACGGAAGAGACAACGTTGCACTGGCACGGGCTGGAAGTACCGGGTGAAGTCG -ACGGCGGCCCGCAGGGAATTATTCCGCCAGGTGGCAAGCGCTCGGTGACGTTGAACGTTGATCAACCTGCCGCTACCTGC -TGGTTCCATCCGCATCAGCACGGCAAAACCGGGCGACAGGTGGCGATGGGGCTGGCTGGGCTGGTGGTGATTGAAGATGA -CGAGATCCTGAAATTAATGCTGCCAAAACAGTGGGGTATCGATGATGTTCCGGTGATCGTTCAGGATAAGAAATTTAGCG -CCGACGGGCAGATTGATTATCAACTGGATGTGATGACCGCCGCCGTGGGCTGGTTTGGCGATACGTTGCTGACCAACGGT -GCAATCTACCCGCAACACGCTGCCCCGCGTGGTTGGCTGCGCCTGCGTTTGCTCAATGGCTGTAATGCCCGTTCGCTCAA -TTTCGCCACCAGCGACAATCGCCCGCTGTATGTGATTGCCAGCGACGGTGGTCTGCTACCTGAACCAGTGAAGGTGAGCG -AACTGCCGGTGCTGATGGGCGAGCGTTTTGAAGTGCTGGTGGAGGTTAACGATAACAAACCCTTTGACCTGGTGACGCTG -CCGGTCAGCCAGATGGGGATGGCGATTGCGCCGTTTGATAAGCCTCATCCGGTAATGCGGATTCAGCCGATTGCTATTAG -TGCCTCCGGTGCTTTGCCAGACACATTAAGTAGCCTGCCTGCGTTACCTTCGCTGGAAGGGCTGACGGTACGCAAGCTGC -AACTCTCTATGGACCCGATGCTCGATATGATGGGGATGCAGATGCTAATGGAGAAATATGGCGATCAGGCGATGGCCGGG -ATGGATCACAGCCAGATGATGGGCCATATGGGGCACGGCAATATGAATCATATGAACCACGGCGGGAAGTTCGATTTCCA -CCATGCCAACAAAATCAACGGTCAGGCGTTTGATATGAACAAGCCGATGTTTGCGGCGGCGAAAGGGCAATACGAACGTT -GGGTTATCTCTGGCGTGGGCGACATGATGCTGCATCCGTTCCATATCCACGGCACGCAGTTCCGTATCTTGTCAGAAAAT -GGCAAACCGCCAGCGGCTCATCGCGCGGGCTGGAAAGATACCGTTAAGGTAGAAGGTAATGTCAGCGAAGTGCTGGTGAA -GTTTAATCACGATGCACCGAAAGAACATGCTTATATGGCGCACTGCCATCTGCTGGAGCATGAAGATACGGGGATGATGT -TAGGGTTTACGGTATAAAAAGACCGTATTCGGAAATATGCCCGGATCTCTCCGGGCATTAAACTGATGACAAACGCAAAT -CTGCCTGATGCGCTACGCTTATCAGGCCTACGCTAGCTGTGCAATCCATTGATTTTGCACAATTTTGTAGGCTGGATAAG -GCGTTCACGCCGCATCCGGCATGAACAACGCGCACGTTGTCAGCAATCTGAGCAAGTCTTACTTCACATCATCCGGCAGC -GCATAAGCCACAATATAGTCGCCCATCTTCGTACCAAATGAACCGTGACCGCCTGCGGAGATCACCACATACTGCTTACC -ATTCACTTCATAGGTCATTGGCGTAGCCTGACCACCCGCTGGTAAACGACCCTGCCACAGTTTTTCACCGTTGCTCATGT -TGTAAGCGCGCAGGTAGTTATCTGCCGTAGCGGCGATAAACAGCACGTTACCCGCCGTGGAGATTGGCCCGCCCAGCATC -GGCATACCCATATTGAACGGCACCGGAACCGGCATCGGGAACGGCATACTGTCCTGCGGCGTACCAATACGTTTCTTCCA -CACCACTTCATTAGTTTTCAGATCCAGCGCCGAGATATAACCCCATGCTGGCTGTTTACATGGCAGACCAAATGGTGAGA -GGAACGGGTTGAGCGTGACACCATACGGTACACCGTACTGTGGCTGAATGCCGGATTCCGTACCCGTGCCTTTGGCATCT -TTCGGCTGCTCCATCGGGTTGCCAGGACCACGCGGGATCAGTTTCGAAACAAACGGCAGTGCCATTGGGTTGGCAATCGC -CACTTCACGATTTGGATCAACGGAAATCCCGCCCCATTCGAACATCCCCAGGTTACCCGGGAAGACCAGCGTACCCTGTT -CAGATGGCGGGGTGAAAATGCCTTCATAGCGCATCTGGTGGAACATCACGCGGCACACCAGTTGGTCAAACATGGTGGCT -CCCCACATATCCGCACCGCTCAAATCTTTCGTCGGACGGAAGCTCAGTTCAGAAAACGGTTGAGTTGGGGTTACGTAATC -GCCTTTCGCTGCACCTTGGGGAACCGGTTTTTCCGGTGCCGGAACCACCAGTTCGCCATTACGACGATCGAGCACAAAAA -TGTTGCCGGTTTTCGCCGGAGCGTAAATAACTGGCACTTTCTGACCATTAACGGTGATGTCCGCCAGCGTCGGCTGTGCC -GGAAGATCCATGTCCCACAGGTCGTGGTGAACGGTCTGGTAGCTCCACGCCAGTTTCCCGGTAGTGGCATTCAGCGCCAG -AATCGAGCTGGCATAACGTTCCTGTTCCGGTGTGCGGTTACCGCCCCAGATATCCGGCGTGGTCACGCCCATCGGCAGAT -AGACCAGATCCAGCTTCGCGTCATAGGCCGCTGGTGCCCAGGAGTTTGGCGAGTTAAAGGTAAAGGTGTGTTCGTCAGAC -GGGATTGCGTTCGGATCTTTCGCGCCGGGATCAAAAGCCCACAGCAGCTCCCCGGTGTTGACATCAAAACCACGGATCAC -GCCAGACGTTTCGCGGGTTGAGAAGTTATCGGTAACTGAACCGGCCATCACGATGGTTTTATCGGTGATAATCGGTGGCG -AAGTCGGTTCATACAGACCCGGTTTGGTGTCTGGCATATTGCTTTGCAGATTGAGCACGCCTTTATTGGCGAAGGTTTCG -CACAGTTTGCCGTTTTCAGCGTTAATCGCAATCAGTCGACCATCATTGACCGGAAGAATGATACGACGCGGGCAATCCGC -CATCACTTCCGGCGAAGCGGTTTCTGCTTTGGCTTCATGATAAGAGACACCACGGCAGGTTACGTGCTGGAAAGACTCGT -TGGTTTTCAGCTCAGGATCGTAATGCCATTTCTCTTTGCCGCTGGCGGCATCAAGCGCAAACAGGCGCTGGTGAGCGGTA -CACAGGTAAAGGGTGTCGCCCACTTTAATCGGCGTCACTTCATTGGTGATTTCACCCGGATCGTTCGGCTGCTTCACATC -GCCAGTACGGAACACCCAGGCTTCTTTCAGATTATGGACGTTATCGGCGTTAATTTGTTTCAGCGGCGAAAAGCGTTGAC -CTTCCTGATTACGACCATAGGCAGGCCAGTCCTGATCGGCTACGGGGGAGATAGCTTCAGCAGGTGTGGCATCGGCGCTT -AAGGTGCCGTTGATCTCCTGCGGATCGTTAAATCCGGCCCAGGTCAGGATACCACCGCTAATCAGCAGTGCGACCACCAG -TGCGGCAACTGCGCCGCTGGCAGGAATGACCAGGCGACGCCAGACAAACGGCAGGATCAGCCAGATGCCGAAGAAGACCA -GAATGTCGCTGCGCGGAGTCAGCGCCCAGAAGTCGAAACCAACTTCCCAGACGCCCCAAATCATGGTGCCGAGCAGCAGG -GCTGCGTATAGCCAAAGCGCGGCGCGTTTACTGCGCCACAGCATCCAGGCGACGCCGAGCATCACAAGGCCAGCGATAGG -GTAGTACCAGGAGCCGCCAATCGCGACCAGCCAGCCTCCGCCAATGAGTAGATACAGCCCGCAAAGCGCTGCAAAAAGGG -CTGTTAGCGTGACGAGTAATCGTCGCGAGCCTGTATTGTTAATTGCCATAAAGAGACACCATTTCAATTCATTAATATTT -TAGTAGCAATTAATTATAGGTTTTAACATGTGTGATCGTCATCACAATTCGAGCTTTATTAACAGATTCCGCGAATGAAT -AGTTTTACTGGTATACTGCGTGTCTTGCGCTTTGTTGCGGTGCCAAAACCTGCCCGTGCGAAGTGATTTGTTTTTAAATC -ATATGGTTAGAGATATGAAACATACTGTAGAAGTAATGATCCCCGAAGCGGAGATTAAAGCGCGTATCGCCGAACTGGGT -CGTCAGATTACTGAGCGTTACAAAGACAGCGGCAGCGATATGGTGCTGGTGGGTCTGCTGCGTGGCTCATTTATGTTTAT -GGCGGACCTGTGCCGTGAAGTTCAGGTATCTCATGAAGTCGACTTTATGACCGCCTCCAGCTACGGTAGCGGCATGTCCA -CCACCCGTGATGTGAAAATCCTCAAAGATCTGGATGAAGATATCCGTGGCAAGGACGTGCTGATTGTTGAAGATATCATC -GACTCGGGGAATACACTGTCGAAAGTGCGTGAGATCTTAAGCCTGCGCGAACCGAAGTCGCTGGCGATTTGTACGCTGCT -GGATAAACCGTCCCGTCGTGAAGTGAACGTCCCGGTAGAATTTATCGGTTTCTCGATCCCGGATGAGTTTGTGGTGGGTT -ACGGCATTGATTACGCACAGCGTTACCGTCATCTGCCGTATATCGGCAAAGTGATTCTGCTGGACGAGTAAGTGTGAAGT -TGCCGGATGTGTTGCATCCGGCATGGCATTTTTATTTGTGGTTGGCGTGTTTCAGCTTGAGGTTGGAAATCCCGTGACGG -TAACGTTGCTCAAGGGTTTCGCGGTTGGTGGCGGTAACATCCAGATCACGCAGCAAGCCGTCGTGAATGCCGTAGGCCCA -GCCGTGAATGGTAACTTTCTGCCCGCGTTTCCACGCTGATTGCATAATGGTGGAGTGGCCCAGGTTATACACCTGTTCCA -TGACGTTCAGTTCACACAAGGTATCCAGACGGCGCTCTTGCGGCATTTCGCCGAGCAATGAGCTATGTTTGAACCAGATA -TCGCGGATATGCAGCAGCCAGTTGTTGATAAGCCCCAGTTCCGGGTTTTCAACTGCGGCTTGTACGCCGCCGCAACCGTA -GTGGCCACAGATAATAATGTGTTCAACTTCGAGTACATCCACTGCATACTGAACCACGGAAAGGCAGTTCAGGTCAGTGT -GAATGACCAGGTTAGCAACATTACGGTGAACAAAGAGTTCGCCCGGCTCAAGACCGGTTAAACGTTCTGCAGGAACGCGA -CTGTCGGAACATCCAATCCATAGAAAGCGCGGTTTTTGCGCTTGTGCCAGTTTCTCAAAAAACCCGGGATCCTCTTCCAC -CAGCATTTTTGACCATAGTGCATTGTTGCTGATGAGTGTATCTATGTCTTTCATGGAGGTTAACGACCTGTAACCAAATA -ATTACGTTTGGCTAATATAGGGCAACTCCGGGACGATTTAAACCACAGATAAAGTGTAAGAACGTAAGGTAAGTAAAAAT -TTATGACCATTGCACTGGAACTTCAACAGCTTAAAAAAACCTATCCAGGCGGCGTTCAGGCGCTTCGTGGGATAGATTTG -CAGGTCGAAGCGGGTGATTTTTATGCGCTTCTCGGGCCGAACGGGGCCGGGAAATCGACCACTATCGGTATTATCAGCTC -TCTGGTAAATAAAACCTCCGGGCGGGTCAGCGTATTTGGTTACGATCTCGAGAAGGATGTCGTGAACGCTAAACGTCAGT -TGGGACTGGTGCCGCAGGAATTTAACTTCAACCCGTTTGAAACCGTGCAGCAAATTGTGGTGAATCAGGCAGGGTACTAC -GGCGTGGAGCGCAAAGAAGCGTACATCCGCAGCGAAAAGTATCTTAAACAACTCGATCTATGGGGAAAACGCAACGAACG -TGCGCGTATGTTATCTGGCGGGATGAAGCGCCGTTTAATGATTGCCCGTGCGTTAATGCATGAACCTAAACTACTGATTC -TCGACGAACCGACCGCAGGCGTGGATATTGAACTTCGCCGCTCAATGTGGGGCTTTTTGAAGGATTTAAACGACAAAGGC -ACCACCATCATTCTCACCACACACTACCTGGAAGAAGCAGAAATGCTGTGCCGCAATATCGGCATTATTCAACACGGTGA -GCTGGTGGAAAATACCTCGATGAAGGCGCTGCTGGCGAAGCTGAAATCGGAAACCTTTATTCTCGATCTCGCACCGAAAA -GCCCGTTACCGAAGCTCGATGGCTATCAGTATCGACTGGTCGATACCGCGACGCTGGAAGTTGAAGTGCTGCGTGAGCAG -GGGATCAACAGCGTATTTACGCAGTTAAGTGAGCAGGGCATTCAGGTATTAAGTATGCGTAACAAAGCTAACCGTCTGGA -AGAGCTGTTTGTTTCACTGGTTAATGAAAAACAAGGAGATCGCGCATGATGCATCTTTACTGGGTGGCGCTAAAAAGCAT -CTGGGCGAAAGAGATCCATCGCTTTATGCGTATCTGGGTGCAGACGCTGGTGCCGCCAGTCATCACCATGACCCTTTACT -TTATTATCTTCGGTAACCTGATTGGTTCGCGTATTGGCGATATGCATGGCTTCAGCTATATGCAGTTCATCGTACCGGGG -CTGATCATGATGTCGGTGATCACCAATGCCTACGCCAACGTTGCGTCATCATTTTTTGGTGCCAAGTTCCAGCGTAATAT -TGAAGAGCTGCTGGTAGCGCCGGTTCCGACTCACGTCATTATTGCCGGATATGTCGGCGGTGGCGTGGCGCGTGGTCTGT -TTGTTGGCATTCTGGTGACGGCAATTTCACTGTTTTTTGTGCCATTTCAGGTGCATTCGTGGGTATTCGTTGCCTTAACG -CTGGTGCTCACGGCGGTGTTGTTCTCCCTTGCGGGTTTGCTGAACGGTGTGTTTGCCAAAACGTTCGATGACATCAGCCT -GGTGCCAACCTTTGTGTTAACGCCACTCACGTATTTGGGCGGGGTCTTTTACTCACTGACTTTGTTGCCGCCGTTCTGGC -AAGGGCTGTCGCACCTGAACCCAATCGTTTATATGATCAGTGGTTTCCGCTACGGCTTCCTCGGTATCAATGATGTTCCG -CTGGTCACTACCTTTGGCGTACTGGTGGTCTTTATTGTGGCGTTTTATTTGATCTGTTGGTCGCTGATCCAACGTGGACG -TGGTTTGCGTAGCTAAGGCTATTTCCTCTCCTCTGGATTTGGGGGAGAGGAGTTTTGACGGCTATCACCCTTTATCAACA -ATGGTCAGGGTAGACTGATTTTCGGCTAAGGAGGAAGGCGATGTTAGGTTGGGTAATTACCTGTCACGATGACCGGGCGC -AAGAGATACTGGATGCGCTGGAGAAAAAACATGGGGCACTTCTTCAGTGCCGGGCCGTGAATTTCTGGCGCGGATTAAGC -TCTAATATGCTCAGCCGCATGATGTGCGATGCTCTGCATGAAGCGGACTCTGGTGAGGGTGTCATCTTCTTAACCGATAT -AGCCGGAGCGCCACCGTATCGCGTGGCTTCATTATTAAGCCACAAACACTCCCGTTGCGAAGTGATTTCTGGTGTCACGT -TACCGTTAATTGAACAGATGATGGCTTGCCGTGAAACCATGACCAGTTCAGAGTTTCGCGAGCGTATTGTCGAACTGGGT -GCGCCGGAGGTGAGTAGTCTTTGGCACCAACAACAAAAAAATCCGCCTTTCGTCCTCAAACATAATTTGTATGAGTATTA -ACCCGCGATTCTGATGGCGCTTTTGCTACAATAAAAGCGTTGTTTCACCCTCGGTTATTTTTTCATGTACAAACAAGCTG -TTATTCTCCTGCTGATGCTGTTTACCGCAAGTGTCAGTGCCGCGTTACCTGCCCGTTATATGCAAACCATCGAAAATGCT -GCGGTCTGGGCGCAAATTGGTGACAAGATGGTGACCGTGGGGAATATTCGGGCCGGACAAATCATTGCCGTGGAGCCCAC -TGCCGCAAGTTATTACGCATTTAATTTTGGCTTTGGCAAAGGTTTTATCGATAAAGGTCATCTCGAGCCGGTTCAGGGGC -GACAAAAAGTTGAAGACGGTTTGGGCGACCTCAACAAGCCGCTGAGTAATCAGAACTTAGTTACCTGGAAAGATACGCCG -GTCTATAACGCGCCGAGTGCGGGAAGTGCGCCATTTGGGGTACTGGCGGACAATTTGCGCTACCCGATTTTGCATAAACT -GAAAGACAGGTTAAATCAAACCTGGTATCAGATCCGTATTGGCGATCGACTGGCCTATATCAGCGCACTGGATGCCCAAC -CCGATAATGGCCTGTCGGTGCTAACCTATCACCATATTCTGCGCGACGAAGAAAACACCCGTTTTCGCCATACTTCGACG -ACCACATCGGTACGCGCTTTCAATAACCAGATGGCCTGGCTGCGTGACAGGGGATACGCGACACTGAGCATGGTGCAGCT -GGAAGGCTACGTGAAGAATAAGATCAATCTCCCTGCGCGAGCGGTGGTGATTACCTTTGATGATGGCCTCAAGTCGGTGA -GCCGCTATGCGTATCCTGTGTTGAAACAATATGGCATGAAGGCGACGGCGTTTATTGTTACCTCACGCATCAAACGTCAC -CCGCAGAAGTGGAACCCAAAATCGCTGCAATTTATGAGCGTTTCTGAGCTTAACGAAATTCGCGATGTATTTGATTTCCA -GTCACATACCCATTTTTTGCATCGGGTAGATGGTTATCGCCGACCCATATTACTGAGCCGTAGTGAGCACAATATTCTGT -TTGATTTTGCACGTTCACGCCGCGCTCTGGCGCAATTTAATCCGCATGTCTGGTATCTTTCGTATCCGTTTGGCGGATTT -AATGACAACGCCGTGAAGGCAGCAAACGATGCCGGATTTCACCTGGCGGTGACAACCATGAAAGGCAAAGTAAAACCGGG -GGATAATCCGTTGTTACTAAAACGACTTTATATCTTAAGAACGGATTCGCTGGAGACGATGTCGCGGCTGGTGAGTAACC -AGCCGCAGGGATAACAATCAAGCAACCTGTACCGGAATCGCTTTCGCGGTACGTTTCATTTCATTGTCGCCTTCAAAATA -GGCGACGTTGGGTCGCCAGGTGCGAGCTTCTTCATCTGGCATGGTAACGAAGCTGGCGATGATGACAATATCGCCGACAC -TGGCGCAGTGGGCCGCCGCACCGTTAACAGAAATAATTCTCGAACCGCGTTCTGCCGCGATGGCATAAGTGGAGAAACGC -TTGCCGTTGGTGACATTCCAGATATCAATGGCTTCGTTTTCGAGAATACCGGCTGCGTCAAGAAAATCCTGGTCAATGGC -GCAAGAACCTTCATAGTGCAGGTCCGCATGAGTCACTTTCACGCGGTGGAGTTTGCCCTGCAGCATCGTGCGAATCATAA -CTTCTACCTTTCTACCCTGTCGTTAACGAAGCAGGCGATGCCTGCTTTGAGGAAATTCTCACGCAGTATTGCCCGATTTT -TGTTTAGTGTCTACTCATCTGACGGCATTTGCGTCAGCAGTTTGCGTACCGCGCCGAAGCGTGCCATGTATCGCCTGTAA -CGAATTGATATTTCTCTGAACGCTGCTCGGTAAACAATAAAGAGGTGGCTGACGATAGCGCGCCTTGACTGGATACTGCC -TTCACGCAAAGCCACACGGAAGACAGGGAAGATGGATGCACCGAGTACCACACCGCATGACGCGGTATTTAAACAATTTT -TAATGCATGCGGAGACGGCTCGCGACTTTCTGGAGATACATTTGCCAGTGGAATTACGCGAACTTTGTGACCTCAACACG -CTTCATTTAGAGTCGGGGAGTTTCATTGAAGAGAGCCTGAAAGGACACAGCACGGACGTGCTCTATTCCGTGCAAATGCA -GGGCAATCCCGGTTATCTGCATGTTGTGATTGAACACCAAAGCAAGCCGGATAAGAAAATGGCCTTTCGCATGATGCGTT -ATTCTATAGCCGCCATGCACCGGCATCTGGAGGCTGACCACGATAAGCTGCCGCTGGTGGTGCCGATACTGTTTTATCAG -GGCGAGGCCACACCTTATCCGCTATCAATGTGCTGGTTTGATATGTTTTACTCGCCGGAGCTGGCGCGACGCGTCTATAA -CAGTCCTTTCCCGCTGGTGGATATCACCATCACACCGGATGACGAAATCATGCAACATCGGCGGATTGCGATTCTCGAAC -TACTGCAAAAACATATTCGCCAGCGCGACTTAATGTTATTGCTTGAGCAACTGGTCACGCTGATCGACGAAGGGTACACT -AGCGGAAGTCAGTTAGTTGCCATGCAAAACTATATGCTGCAACGCGGTCATACTGAACAAGCGGATTTGTTTTACGGTGT -GTTGAGAGACAGGGAAACGGGAGGGGAGTCTATGATGACGCTGGCGCAGTGGTTTGAAGAGAAAGGGATTGAGAAGGGGA -TTCAGCAGGGAAGACAGGAAGTAAGTCAGGAATTCGCCCAGCGTCTTCTGAGTAAAGGAATGTCTCGGGAAGACGTTGCA -GAGATGGCAAATTTACCTCTTGCTGAGATTGATAAGGTAATTAACCTTATTTAAGTTACCTGTGTTATGACAGATGACGT -GGGGTAAATTAATAACTGGCGCCATCAGCCGTAGCGCCAGTTAAGTATTACGCCAGCTCGACCATTTTGTTGTCGATCAG -GCGAGCATCGCCAAGCCAGGCGGCTACCAGAATTACTGCCCGTTTGCTGGTTTCAGAAACTTCCAGCAATGTGTCGGCAT -CGCGAATCTGAATATCATCGGCGCGGAAGCCTTTTTCATTCAGTTCTTGCCCCGCAATGGTAATAATTTCATCGAGATCC -CGTTCCCCAGCCTGCAATTTGTCAGCAATCGAACTTAAAACTTTGTACAGACCAGGCGCAATTTTGCGTTGTTCCGCCGT -CAGATAACCGTTACGGGAACTTAGCGCCAGACCGTCTTTGGCGCGCATAATTGGCACACCGACAATCTCAATATCGAAGC -CCATATCGGCAACCATTTTGCGGATCAGCGCCAGTTGCTGAAAATCTTTTTCACCGAAGCAGGCGATGTCCGGCTGGACC -AGGTTGAACAGCTTGCTGACAATAGTCGAAACGCCGCGAAAATGTCCCGGACGGCTGGCACCTTCCAGCATGGTCGAAAG -GCCAGGAACGTCAACGTAAGTGTGGGTTTCAGTACCGTTCGGGTAGATCTCTTTTACCGAAGGGGCGAAAACTAAATCCA -CTTTACGTTTGTTTAGCTTCTCGCAGTCCTCCTGCAAGGTCCGTGGATAACGAGCCAGATCTTCCGGGCGGTCGAACTGC -ATCGGGTTAACGAAAATACTGACGACGACCACATCGGCGCGGGCTTTGGCTTCGTCGACCAGCTTCATATGGCCATCGTG -CAGGTTACCCATGGTAGGCACCAGCGCCACGCGCTTGCCTTCCATACGCAGGCGGCGAATTTGCTGACGCAGCAGCGGCA -GGGTTTCGATAATTAACACAACGTGACTCCTTAATGGAAACTGTGTTCTTCGCCCGGATAAACGCCGGACTCCACTTCAG -CCATATACTGCCGCACAGCCGCGCGGATGTCGCCCGTTTCGGCGAGGAAATTTTTAGCGAATTTAGGAATGTGACCGCCG -GTAATACCAAAGGCGTCGTGCATCACGAGGATCTGCCCGTCAGTGACGTTGCCTGCGCCAATGCCAATAACCGGGATCGC -CAGTGCTTCGGTAATACGTTTTGCCAGTTCAACCGGCACGCATTCCAGCACCAGCAGCTGTGCCCCAGCAGCTTCTAAGG -CTAATGCATCGCTGAGCAGTTGATCGCCCGCTTCATCGCCGCGCCCCTGAACTTTGTAGCCACCGAAAATATTCACTGAC -TGTGGTGTTAAACCTAAGTGACCACATACAGGAACGGCACGTTCGGTCAGCATTTGTACGGTTTCTACCAGCCACTCACC -GCCTTCAATTTTGACCATGTTAGCACCGGCACGCATAACCGTTGCGGCGTTTTCGAAGGCTTGTTCCGGCGTGGCATACG -CCATAAACGGCAGGTCAGCCAGCAGCAGGCAGTTTGGTGCGCCGCGACGTACGGCGGCAGTGTGGTAGGCGATATCGGCA -ACGGTAACTGGCAGGGTGGAGTCGTGCCCCTGAACCGTCATGCCCAGCGAATCGCCCACCAGCATGACGTTAAGCCCTTC -ATCAGCAAAGAGTTTGGCGAAGCTATAGTCATAAGCGGTGATGGTCGCGAAACGTTTTTTTTCCTGTTTGTACTTCTGCA -GTAAGGAGATGGTGGTCGGTTTCATAACGTATCCTGATAAATTGATGTTGTGCTGTCTGGCATTTTATCAGTCACATTGG -TGGGGGCAATGATTTATCCGTAGCAGCACTGCCAGAAGGTGACAGTGCTGCTACGTTATCAGGGATAGGTTACCTGGAAA -GTACTGGTGGCTTTAAATTCGCCGGGTTCGATAGCAATATTCCCGTCTTGCTTTAATGTTGCCTGGAAATGAAGAGGCTG -TGATGTGCCGTTACCTTGATTAGGGTAAACCCCATCGGAGGTGTCATCTTCGGTTTCATAATCTATATAAACAGAATTCG -TATCATTAGGTTTTAATGTCATTAGCGGATTTTTACTGGTTGCTAAACCTTCAATGAGTACGCCAACGCCTTTGGCGGCA -GTGCTTCCAGTAAGCGTATTACCAAGCAGTTGTGTGTTTTGAGTACCTACTTTTCCAGTGACGAGTTTTGTTTCAATATT -ACGCACACGAATACAATTCTGAAGCGAGATATCAAAGGGAACAGGTGAAGCGCCATTTTTAATTGTCCCAGAGCTATATT -CTCCCATTCTAACCGTTGAACCATTGACTGATGGCCCGGTAAGTATGGAGGTAAAACATGTTGGTAAGGTTAATTTGACA -TTATTCAGTGTGAAATTGACATAAATGTGGTTGCTGTGATCTACAACTTTTGTACCAGGACTGTAGGCCTTAAACGAATA -AAGGTAATTTGATGAACTGGATAACTGGACTTGCTGATTAAGTGTAGGATCGAAATTAGTATCTGTATAAAATTCAACAG -TTATGTTGTGTACTATACCACCAATAGCCCAAAACTTATCGTAGTCGTCTGCTTTGTTGCAACCCTTAGTTTGTAGATCG -CTGTCTGTGACGGAAAAGAAAAATTCTTGGTTGGAAGGATCTCCGATATAGATTCCTGGCGATTGAATGTCAGTTATTGT -ATCGTATGCAGACCAGACCCTTGATATTAACATGGTGTAATACAGACCAGGAACAGATGTATTAAATAGTTTATGTCCGC -CATAATCTTTACCTGAATAGACCATGGCATTTTCAATAGTTATTGGACCAGGATTCGCTCTGCCAGATGTATTGCAGTAA -AGAATACCACCACCGGTACCTGTATCCAGGTATGACCAGTACATTTTTACCCCAGTCGGGCCGAGCTGCGTGGGTTTATA -AAAAACCAAGTTGCTTGCTGTTGATGTGTAATTAAAGGTCATCTGTGCGGCAGTGGAGGGGCCTCGATAGTTATCAACTC -CTGCATTATTTCCCACAATAAAACTTGTATATGCACTGACTGTATTACAACAAGAATACAGTGCTAAAAAAAGAATGTAC -CTGAAGATAGTCTTCATTTTTACTCCAATGTTTCTTTATTGTTATGGTTTGCGCTGTTTTTGTTTGTTATTCGTAGTAAA -TATCCACTAACACATGGCTCATAAGTTGACCAGATGTAACACTCAATGCAGGATCGATTTTTTGCATTCGGGTGCTAAAT -TTCCAGGATGAACCATTCATGTCATCCGACATTACTGGATAAACGGAACGAGATCCGCCTGAAGCATTAAGAACATTGAA -TGTATTCGCCGAATCCTGAGTAGAAAATATAACTACTCCTACATTACTTGCTCCTGACGAAATTTCATTAGCAAATATTT -GCCTAGAGCCAGCAGCCATGACACCGCTAAGGGCTCTAAAATCAATATGTAACTGATTTAGCACATCGCCAGTTCCCTGT -AATGCACAGTCGGATACAGTGATAGTGAACTCTTTTCCACCTGGTTGATAACTTTCAGGAGTAACATTACCTGAAAAATA -TCCCACCCCAACGACGCCAAGATCAATATTACCCTGGTTACTGATTCCGCTTTTGCAGGTGCTGTTTTTTACATTGGCAA -CAAGGTCAATATCCTGTCCAGCAATGGCTGGACAGGCGATGCAAAACAGTAATGACAGAAACAGAATTATTCTCTTCATC -AGCTTACGTTGAGTGGGATGCATATATAGTTCCTGAATCTGTAAGTCTGTTAGTTATAGGTTACTGTAAATGTGGCTGGT -GCAGAAAACTTACCCGCAGTGACATTGTTTACGGTTTTATTTTTTTCCACGACCAGGCGTGCACTCATCGGATAATAAAC -GACCGCATTGGCTGCAGTGGAGATTGTTACCTCTTGTGATGCTGGTGTTACACAGCTAAATTGTGTTGCACTCCCTGTTG -CCGGAGTTACAGTGCTCCAGACTTCAACGGCGACAGCACTTGCTTTATCTGCGGCTGTGGAACCATTTGCAAACCCCGCA -CCGTCATTAGCAGTTCCCTCGCATGTGGCTCGCTTGGTTAATTTTATTTGCGCTTTTTTATTGGGGATACCCGCACAGTC -TTTGAATTTGAGTTTGAATGTTTTTACTTTGGTCTTGGCATTGATTTCAGAAATATATACATCACCAAAATCAACAACAG -AAATGTCCTGATCAGAGTCATTTACTAATGTAGCGGTACAAGTACCCATTTCTACAGTAGTAATAACGGTCAGTCCAATA -CTGTCTGTTGCCGCATAAGAGAGTACGCTGAACAATGAGGCAGCCAAAACGACACTGCTGGATAATCCATAACGTAAATT -TTTAAATGTCATCATAATTATCCTTCTTATTGATAGATGAAATTAAACGTCGCCAGTGCACGAAAATTCCCCGGTACGCC -TTGCCCTGCATCTGTTTCACGTAGCGCAACGGTCATTTCAAGACCCTTATCGGGCTGCATCTCGTCTGTGCTCCAGCGTA -TCTTTTCCGCACTGTTAGGTTTAAGGAAAGTGGCATCATCAGTAGTCCGTTTTTTGAAACCCATACCGATATTACTTGTC -GTCGAAGATGAATCACCAGACTGCGGTATAATAAGCTTAGGTGAGCTTGATGATGCATTTCCGGTCAGAGTGGTATCAAT -CCAACTGATGCCACTGCTGCACCCACTGGCAACCAGTTTAAAATCAGCCTGAGATTCTGTCGTTTTATTCGCGATCTTAT -CCAGACCCATCTTAGGGATTCTCAATGTGTAGTTATTATTGCCATCATTCGTGACGTTATTACCAGTAAGTGTGATGTTA -CAGGTTGTCGCTTTGACAGTGGCTGTAAACTCTACATTAATATCCGTTGCAAATACTGAGGGTGATAATAATATTCCCAT -CAGTATCACTATTTTATGTGGCGTTGTTTTTATCATTTGACGTCCCTTGTAGTTACTGAATCTGACACCGAATTCCATTC -AGAATAATAGATTGTGCTATTTTTTCTGCTTCTGGGCTTTGTTGATAATGCGCAAGACAACTTACGGGTTTACTTTGTTC -GAGCCATTTAATGCTGATATTTCCCTGCTGCTCAATACCACGAACAAATGCTTGTCCACCCTGTCCAACATTACCAATGA -CATTGCCTTGCTCATCATAAATATCTGCAGCAAATGGAATATTTTTACCATCACTTCGTGTGATGTTCATAATGGCTGAT -TGCCCTTGCACGGTTTCAAAATCAGCAAAGACGACTGAACCCTGACGCGGTACAGCTACTGCACTGGTACTTTTTAATTC -AACATCGTTCTCAAGATCGTTGATATCCAGCGCGATACGGTTTTCATGATAAGGAGAAAGAGCGCTGGTGACACCATAAC -CCCATCGATCGATAGTACTGTTGCCATAATTTATTCGCGCTCCTTGAGCACCTGGAGCCTGAACTACCGCCAGTGTATCG -GAGTCGCTAAAACTATCATTACTGAAAGTCAGTCCACCGCTATGCAATACAAAACCACCGTCGGTGCTGAGAGAAACTTG -ACGGCTGTTATCGCTATTTGCAGAAATTGAACCTGCCAGCGTTCCCCATGGTGACTCATAGCTGGCATAACCCCCAACAT -AACTCAAATCTTTGCTGGCTTTATTCATCGTATAGCCAGTATTCACGCTATAACTGACGCGAGCGTTATCGCTATAGCCA -CTGCTGCTAACGTTGAGTTGGTTATTACCCTTAAAGTCACTGCTTATTTGAGTATCAATACTCTGGAAACCTGAAGTACG -TTGTTCAGTGCCAAGTAATTTTTCAATTGGAATGGTGAAACTAAGATAAACGCTATCGTCAGTGTCGCCGTCTTCATTCC -ATGAACGCTGGGCACTGACACTGTAGCTGCCCCAGGATGTACTGTTACTGTAGCCAATAGAGTAATTGCTACGATTTTGT -CCGGAAGCCCAGTAATCGGACCAACTTCCGGAAAGATAAAATGAACCGTAATCTTTTTTCTCAAATTTCAACGGTTGGTT -AATACTGACCGTAACCTGATTTTTCATGCGTGAGTAATTACGCATGGATTTCGGTTCAAGATCTTGTTCGGGATGTTTCA -CTTCATCAATTAGAGTTAGTGCATCATTAAGACCAAGGTAATTCTGTGTCGAATAGCGATAGGCCGCGATATTCAGTGAA -GTACTTGTTTCTTCGAATAACTTGTTCCAGGAAACACGATAACTTTGCCCCTGGTATGTTTTATCATCCGGGATACGAAC -ATTGGAATGAGTCACATCGAAAGAAAATGCACCAACTGAAGTATTCAGACCAAGACCTAACAAACCAGCGGTATAGTTAT -TATCGGTTATCTGAATACCGGTATAACCCGTCAGATAGTTATTCAGGCCGTAGTAGTAGCTTGCTTGAAATAAATTAGGC -TCATCCTGAATATCATCTTTTAAGACCTGACCGCCGCTAATATCCCAACGTCCAACGCCAGGGCGTAACATTTGAACAAC -GGATGAGAAAGGTTGCGAGAATGTCCGCTTTGAGCCATCGGATTCTTCGATGGTAACAATAAGATCGCTGCCGTACCCTG -ACGGACTCAGATCATCAATGACGAAAGCGCCTGGCGGCACCGTCGTTTCATAAATCTTATAGCCACCTTGCGTAATAGTG -ACTTTGGCGTTGGTATTGGCAACGCCATGAATGATAGGCGCAAAGCTGGCTAAAGTCGGAGGCAACATGCGGCTGTCACT -GTATAAACGAATGCCTCGGATACTGACGGAATCAAAGGTTTCGCCCGTCGTATAAGACTCACCAAGAATGAGTTGAGAAC -GCAGCGAGGCGATATCACGCTGAACATACCGATTCTTAAAATCATAATTACTGCCAGAATCGGTCATCCAGTTGTAGTTG -CCCGAGGCACGCAGTCGCCATGCACCTAAATTCATCCCACCGTTAAATGCAGCATAAATGCTTTCATTTTTTCGACCAGG -GGTTTCACTATGATATCCGTTGAGGTTGTATGACAACATGGCCGCATTAATGCCGTTTTCCCATAACGATGGATCAACAT -AGTTTTGGTAATTTTTCATTACCCAGGCTTGAGGAACGTCTATATCCAGACGTTGATCGTTAACGTCATAACGAACAGAA -GCCTGAGGGATAATTTCCGTCAAATTGAGGCAATTGCCGAGCGTTTCATCCCTGGCAAGCAGAACGGCTTTTTCGTTATT -TATATCGGGAGAATTAATATGAAACTGCAATAAATTCTTTAATGTGATACAAGCCTGGGCGTTCTTTTTTCCTTCAATTG -CGACAAATGTAATACTTTGGTTAATGATTGGTTGGTCGTTTACATAAACACTGACGTCGTAAACACCCGGTATAGCGGGG -TTACCTTCACTGTACCGGCTGAGATCAATATTAGATGCATTCTGCCCCATCAGGAAGGTATGGTCATATTCAACGAGTTC -AGCACTGAAAGCAGTATTGCAATACAGCAGCGCGCAAAACGTGGCGATACGGGTCAGATGATGATAATTTTTAGTATATT -CTATAGTCACGCTATGCTTCCTGCGGAATTATATCCTTGCCTGATTACAGCCTGGCATTACCTTCAATTGCGCCACCAAA -GTCATTAATGGCGTAAAAATGCACTTTTGCAGAATTCGCTTTGCCATTAAGGCCATTGACTTTCATGACCTCATCACTAA -ATGGTGCAATCATTTTCACATCAATCGGATAGCGTTTACCGCTAGCTTCTAAATCACCACTGCTAAAAGAGACGTAGTAA -GGGGTTGGATTGGTCACTCGTAATGACGCCTTACCTTCTGAACCTGACCAGAACCACTTCAGGGCTAACGGGGCTTCAGA -GGGATTTCCCTTCAATCCATCCGGGCGATAGAAAAGTTTTATACGTGTGCGAAATGCCAGTTGCAGCAGGCTTTGATTCG -CGACCTTTTCTGCATCTGGTTTTGGTGGAACTTCCAGTACGTTAAACCAGAACACGCTCTCTCTGTCTTTAGGCAGTGAG -GTGCTGGCTGTGTACATTAATTTGATTGTTTGCCCACGTTTGGCATCAATACGCGATACTGGCGGCGTAGCAGTAAAAGG -GACTGTAATACTGCCAGGCTCAGCGTTGTCATCGCCAGTATCTAACCAACTCTGGACAAGCAACGGGTTATTCCCTTTAT -TTTCCAGACGTACGTTGACACTTTTTTGATCGCTTTTATATATTACGCGAGTACCCGAAATGACAATGTCCGCAATAGAC -GATGAACTAAAAGCCATACAGGTTACGAAGCATAAAGCTGTTGTATGTTTGGTGTTAAAAAACATAAACCATCCCTGATA -GAGTTAATTAAAACAGGGAATAATATAAAATAGAAATTATTATTCCCTGTATATTCATTCAATCAATTTAACTGGTGAAT -ACTTACTGATAAGTAATGGTGTATGCAGTGTTAGTTTTTACATAACCAGCAGTTGCTGTTTGGTCTGCGACGGCACGAAC -GTAAGACGCTTTAAAATCATAAACAGCAGATTTTGTCGTTGCATCCAGGGCTTTAGTATACACATCGCCAGGGTTGTTAA -TTTGAACCTGTTTGATAGTGGAACCATCAATATTGTGTAGAGCGATATTAACGCCGTCAGATGGGTTGTTAATAGACATG -TCGTTGTTCAAAGTCCCTTTGCTGTTACCAAAGAAAACAGAACCGAAGGTCATTTTAGCCGTGCTACCTGGATTCGGATT -TGCTTTGCTGCAGTCAACGGTGATGCTGAAAGGTTTAGCTTTAGCGCCAACGGTGTCATTCAGTACGCCAGCATCGATTT -CACCAACGGTTGCGGTTTGCAGCAGGATCAGACCATCCTTGTTACCGCCGTCAACGCGGGTTTCACAGGTGTTATCAACA -ACCAGACCACTGATATTTAACTGACCGCCGTCCATATCAGCAGAAGCAGTACCTGCAACCATCGCCAGCATAAGACCAGA -CAGGGCAAAACCTAATTTTTTAGACATAAAAATCCTTTAATAAAATTCCATTAGTCAGACTACATGTTTGAAGAATGACT -ATTCATGACACAAATAGGAGAAACAAATGTTAGATATTAATGAGCAATGATATTTGTTACCCAAATTTACAACCATTGTT -CATTAGGTCGCCTATTGTGCACTTTAGAAGCTTTTGAACAAATTAAATTTACTTAATTCAAAATTAAGTAAAAATAAGTT -CACAAGTGCAATTGGTTAGGGTATGGAGATGGGATTGATATTTATTTATAGGAAGTTATATTATTTCCGCAAAGAGATGT -TTAAACTAAAATCGTAATTAAGGAAAGAGATGAGATATGATTTTCAGAAAATATTTATATTCGCAATATAAATAAATTAC -CATTTGTTTAATTTGTCAAATGCTCTTGTATGTAAGATTTGACGCAACATCTCCCCATCAGGAAACACCAACTCCGGCGC -GATTTCAAACAGCGGCCACAGCATAAATCCACGATTCTTCATATCGTAGTGCGGAACGGTCAGGCGTTCAGTATTTATCA -CTTCATTACCAAACAGCATGATGTCGAGATCCAGCGTGCGTGGTCCCCAGCGTTCAGCTTTGCGGACGCGACCTTGCTGC -AATTCAATACGCTGTGTGTGATTGAGTAGCTCTTCAGGTGCAAGAGAGGTTTCCAGCGCCACGGCTGCGTTTAAGTAATC -GGGTTGATCTTGCGGCCCCAGCGGTGGGGTGCGGTAAAACGAAGAAACGGTAAGAATGTGGCTTTCAGGGATATCGCCTA -ATGCTTTCAGGGCAGCATTGACCTGCTCCAGCGGAGAGGCCAGATTGCTGCCTATGGCAATATACGCCACTGTCATGCGG -TACCCTCACGACGTGGTGCGCGTTTGCGTGGACGACGAGTACGACGACGCGGTGACGGTTCTTCATCCAGCTCGTTGAGC -ATCCCTTTTTGGTCTGGTGGCGCGGAAACCTGGAACTCACCCCACCATTTCACCAGACGCTGCAGTTCAGCGTTACGCTC -AACTTCAGCTCGCAAGGCCAACAGGTCATAAGCCGCACGGAACTTAGGATGCTCCAGCAGTTTCCATGCGCGTTTACCCT -GACGACGGGACATACGCAACTGCAACTGCCAGATATCGCGGGTTAATGTCGTCAGACGTTTCGGGATTGCCAGTGAACGG -CAGGCTTCGTCCAGCACGTCGTTCATCGCCAGCGCGAAAGCGTCGTGATAGGTCAGGCCGCTTTCCTGGGCGATCTTCTG -TGCCGTCTCCAGCAGTGGGTACCAGAACATGGCGGCAAACAGGAACGCCGGGTTCACGCGCATATCGTTATGGATACGCG -TATCGGTATTCTTCAGCACCTGTTCAATGATCCGCTCCATCGGGCTGTCGCCATTTTCCGTGAAGTAGCGGGTAATGGTC -GGGAACAGCGGCTGGAACAGATGATATTCACACAACAGCTTATAGGTTTCGTAACCGTAGCCCGCTTGTAGCAGTTTAAG -CGATTCTTCAAACAGGCGTGCCGGTGGGATATCGTTCAGCAGGGTAGCGAGGCGAGGGATCGGTTCTGCGGTTTCCGGGC -TGATGCGCATACCCAATTTGGCGGCAAAACGTACCGCGCGCAGCATACGTACCGGATCTTCACGGTAGCGCGTTTCCGGG -TTACCAATCAGACGGATAACGCCGTCCTTCAGATCCTTCATGCCGCCAACGTAATCACGGACGGTAAAATCCGCTACGCT -GTAATACAGGCTGTTGATAGTGAAATCGCGGCGCTGGGCGTCTTCTTCGATGGAGCCGAAAATGTTGTCGCGCAGCAACA -TGCCGTTTTGCCCGCGTTGGGAGGTCGTGCGGTCGCTGACGTTACCTTCGTGGTGTCCACGGAAGGTCGCAACTTCGATA -ATCTCCGGGCCAAACATTACATGAGCCAGACGGAAACGGCGACCCACCAGGCGGCAGTTACGGAACAGTTTGCGCACCTG -CTCAGGCGTGGCGTTAGTGGTTACGTCAAAATCTTTCGGCTTTTTGCCAAGTAACAGGTCGCGCACGCCGCCGCCAACCA -GCCAGGCTTCGTATCCCGCTTTATTGAGCCTGTACATTACCTTCAGGGCATTTTCACTGATATCTTTGCGGGAAATAGCA -TGCTGCTCACGCGGGATCACCGTCACCTGTGGACGGGCGACTGCCTGTTCAGCCTCGCTTTCCTCGCGGCTTAGCACCTT -GCGGCAAAAATTAGCGACTCGGGTAAAAATAGTACACCTCGGTAGTGTCAAACATCATTCAGGACAAAAAAATAGCGGCT -AATCATAGCTCAGCATGACGCATTTGAGAATGTTGAATTTACAATTGCCGACTCGGGCACGGCGGTAAGCCGCCAGTTTT -TGACGGCTGACTGAAGGATTTGCTCGACGCTGAAATCCTGCCAGTGTGCTTCTGCCTGCTGCCCCAGAAATTGAAGTGCC -GCGATTAGTACCGGGCGTGGATCGCCTTTCGGCAACGCAGGCGCATGATTCTGCTTGGAAAGTTTAGCGCCTTGTGGATT -AAGCGCCAGCGGCAGATGAATGTAATCTGGCACTTTCCAGCCAAAAAGCTGGTACAGCGAGATTTGCCTTACTGTTGGTT -CAATCAGATCAGCCCCACGCACTATTTCTGTAACGCCCTGGAAATGATCATCAACCACAACAGCCAGGTTGTAGGCGAAC -AACCCATCACGGCGATGAATGATAAAATCTTCCCGTGCCAGTTTTTCGTCGGCGTGAATAATGCCGCGCAGCTGGTCAGT -AAATTGCGTGACCGGATGCTGCTGGCGGATACGCACTGCGGCGTTGTCTGGTCCATGATGCAACACCCGGCAATGACCGT -CGTAAATACCGCCAATGCTTTGAATACGCGCACGCGTACAGGTGCAGTAATAACTTAGTCCTTGTTCATGTAACCAGGCG -AGTGCTTCACGATAGGCGTCGTGACGTTGCGATTGCCAGAGAACATCGCCGTCCCAGTGCAGACCGTAATGTTCCAGCTG -GCGCAGGATAGTTTCTGCGGCACCGGGAACTTCACGAGGCGGGTCGATATCTTCTATGCGTACCAGCCAGCGACCTTGCC -GGGCGCGAGCCTGCAAATAGCTGCCGAGCGCGGCGATCAGAGAGCCAAAATGAAGCTCGCCGGAAGGAGAGGGGGCGAAG -CGGCCAATATACTGTGTGTCTGTCATCTCTTTGAACAAAAAATAAGGCGGGAGCATTTCCCGCCTGTGGTAAACGTGATG -GAACGGCTGTAATTAGCCAGCCATCTGTTTTTCGCGAATTTCAGCCAGCGTTTTGCAGTCGATGCACAGATCGGCTGTCG -GGCGCGCTTCCAGACGGCGAATACCAATTTCAACACCGCAGGATTCGCAGTAGCCGAAATCTTCGTCTTCCACTTTTTTC -AGCGTCTTCTCGATCTTTTTGATCAGCTTACGCTCGCGATCGCGGTTACGCAGTTCGAGGCTGAACTCTTCTTCCTGGGC -TGCACGGTCTACCGGGTCCGGGAAGTTGGCTGCTTCATCCTGCATATGTGTAACGGTGCGATCGACTTCATCCCTGAGTT -GATTACGCCATGCTTCCAGAATACGACGGAAGTGCGCCAGCTGGGCTTCATTCATATACTCTTCGCCCGGCTTCTCCTGA -TATGGTTCCACCCCAGCGATGGCGAGAATACTCAGGGACGATGTTTTACGGTTTTGCCCTTCTTGCATGTTGCTTCTCCT -TAACACGCACTATCGATCCCCATGTTCGGGGGAAAAATGAGGCCGCTATAAATAGCAGATGCTTTTCCGGATAGCAATTA -TCTAAACGTAACACTTGACAACTGTGTGAGGAAAAGCGTATTTGCGCACGCGACCAGAATGTAAATTAACCAGTTACTTA -CTTTACTACAATGTAACCGGCAGTGATTTTTTAAGAGCCATGCCTTCAGCAGAAATTTCCGCTTTGTAAGCCAGAATTTC -TACCCCCCTCTGTTGAGCTTCTGACAATAGTTGCGCGTATTTCTCATCGATGTGGCGCGCGGGTGAAAACCGTGTAATGG -CTGAATGCAGCACGGCGAAAAAGATAACCGCACGCTGGCCTTCAGCCGCTACGCTCATCAACTCCCGAAGGTGTTTCTGA -CCTCGTTCAGTGACCGCATCGGGAAAATATCCCTGTTCGTTCTCCGCTAACGTAACCGATTTCACTTCAATATAGCAGTC -TGGACGCGAATCCGCCTGCAACATAAAGTCAATACGGCTGCGTTCTGCGCCGTATTTTACTTCGCTTTTCAGCGAGCTAT -AGCCTGACAGTTCTGAAATTGATTCATTAAGGATAGCCTCTTTCGTCAACCTGTTAGCCCAAAGCGTGTTGACGCAAATA -AATGCGCCGCTCTGGCTTTGAGTTAATTCCCAGGTGTGTGGGTATTTCCGTTTGGTGTTGTCTGAAGTCGAATACCAGAC -GGTATCGCCAGGCGTTGCACAACCGGTCATCGCACCCGTATTCGGGCAGTGTAGCGTTAATTCGCGACCATCGGGTGTGA -TCACATCGGCTAAAAAACGTTTGTAACGCTGAATTAGCGTCGCGCGCTGTAGAGGGGGAGAAAATTCCATTGCGACAATC -CTTGTTATTGCGTTAGCGCCCAGCGTTTTAGCGGCGTGTAGCGTGTGCGTCCACGGGCAAACGAGGAGGCGTAAAGGGTG -AACTCCGTCACCGCATACGACCAGTTAAAACCTGGCGGCGGGATTGTCACCGCCTCGCTGGCGTCGCGCAATAAGGTAAT -ATGTGGATGAAACGGACGATTGCTTTGAAAACAACCGCTGCGGGCAGCCTGTGAACGGAGCATATTCGCCAGCTGGATTA -AGCCGCGTGGCGGCTGACGCATCCCTAACCACACCACACGCGAACGCAGCCATTGTCCGGCGTCATCAAGCGTGAGTGTG -AAACCAGGTTGACGAATCCGTCCGGCTAAAAGAGAAAGCGCCTTCTCTTTCTCGGCGCTCACTTCGCCTAAAAATGCCAG -AGTCAGATGCAAATTATCGGCGGCGACCGGACGTCCCGCCTCAGGTGGGAAGTGTGTGGCGCGCCAATGGATAATCTGTT -CGCGGATTTCTGCAGGTAAGTCGATAGCAAAGAACAGACGTTGCGGTTCAGACATGTGAGGCACTCGGTTATGAATTACC -GCGATGCTACAATGTGGCGCGAAGAATGTTAACCCTCTGGAGCGTTTTGTGTCGTCGTTGCCCGTTGCTGCCGTCTTACC -TGAATTACTTACCGCTCTCGATTGTGCGCCGCAGGTATTATTAAGTGCGCCGACCGGGGCCGGGAAATCAACCTGGCTGC -CGCTGCAACTGCTGGCGCATCCCGGCATTAACGGGAAAATTATCCTGCTGGAGCCGCGTCGTCTGGCGGCGCGTAACGTC -GCGCAACGGCTGGCGGAGCTGCTTAACGAAAAGCCAGGCGATACCGTTGGCTACCGGATGCGTGCGCAAAACTGCGTCGG -GCCGAATACCCGCCTGGAAGTGGTTACCGAAGGCGTGCTGACGCGCATGATCCAGCGTGACCCGGAACTGAGCGGTGTTG -GACTGGTGATCCTTGATGAATTTCATGAGCGCAGCTTGCAGGCGGATTTGGCGTTGGCGCTGTTACTCGATGTGCAACAA -GGTCTGCGTGATGACCTTAAACTGCTGATTATGTCGGCTACCCTGGACAACGACCGCTTGCAGCAAATGCTGCCAGAAGC -GCCTGTCGTCATCTCAGAAGGGCGCTCGTTTCCGGTTGAACGCCGTTATTTACCGCTGCCCGCGCATCAGCGTTTTGACG -ATGCCGTTGCGGTAGCCACCGCTGAAATGCTGCGTCAGGAAAGCGGATCATTACTGTTATTTTTACCTGGCGTCGGAGAA -ATTCAGCGTGTGCAGGAACAACTGGCTTCGCGCATCGGCAGTGATGTATTGCTCTGCCCGCTGTATGGCGCGTTGTCGCT -GAACGATCAGCGAAAAGCGATCCTCCCGGCACCGCAAGGGATGCGCAAAGTGGTGCTGGCGACCAATATTGCTGAAACCA -GTTTAACCATTGAAGGTATTCGTCTGGTGGTGGATTGTGCCCAGGAGCGTGTGGCGCGTTTTGATCCGCGCACGGGGCTT -ACGCGACTGATTACTCAACGCGTTAGCCAGGCATCCATGACGCAGCGTGCCGGGCGCGCCGGGCGTCTGGAGCCGGGTAT -CAGCCTGCATTTAATCGCCAAAGAACAAGCAGAACGCGCCGCGGCGCAAAGTGAACCGGAGATCTTACAAAGCGATCTTT -CCGGTTTGCTGATGGAATTACTGCAATGGGGATGCAGCGATCCGGCGCAGATGAGCTGGCTGGATCAACCGCCAGTAGTG -AATCTACTGGCCGCGAAACGTCTGTTACAAATGCTGGGGGCACTGGAGGGTGAACGGCTTAGTGCGCAAGGGCAAAAAAT -GGCAGCGCTGGGTAACGATCCGCGTTTAGCGGCAATGCTGGTTAGCGCGAAGAACGACGACGAAGCTGCTACCGCGGCAA -AAATTGCCGCCATTCTCGAAGAGCCGCCACGGATGGGCAATAGTGACCTGGGCGTGGCGTTTTCGCGCAATCAACCAGCC -TGGCAGCAACGTAGTCAGCAACTGTTAAAACGCTTAAACGTACGTGGCGGTGAGGCAGACAGTTCGCTTATCGCGCCGCT -ACTTGCCGGGGCGTTTGCCGATCGCATTGCTCGTCGCCGTGGGCAAGATGGACGCTATCAACTGGCAAACGGCATGGGAG -CGATGCTCGATGCCAACGACGCGCTAAGCCGCCACGAATGGTTGATCGCACCGTTATTATTGCAGGGCAGCGCCTCGCCG -GATGCGCGGATTTTACTGGCGCTGCTGGTCGATATTGATGAGTTAGTACAACGCTGCCCGCAGCTGGTACAGCAGTCTGA -CACTGTGGAGTGGGATGACGCGCAAGGTACGCTGAAAGCCTGGCGTCGGCTACAAATCGGTCAGTTGACGGTGAAAGTGC -AGCCGCTGGCGAAACCGTCAGAAGACGAGTTGCATCAGGCGATGCTTAATGGCATCCGTGATAAAGGTTTAAGCGTGCTC -AACTGGACGGCGGAAGCGGAACAGCTACGCTTGCGTTTGTTATGCGCCGCAAAGTGGTTGCCGGAATATGACTGGCCAGC -GGTTGATGATGAAAGTTTATTGGCAGCGCTGGAAACGTGGCTGCTGCCACATATGACTGGCGTACATTCACTACGCGGCC -TGAAATCACTCGACATTTATCAGGCACTACGCGGATTACTTGATTGGGGAATGCAGCAACGTCTGGATAGTGAATTGCCT -GCGCATTACACTGTGCCGACGGGAAGCCGGATCGCCATTCGTTATCATGAAGATAACCCGCCCGCGCTGGCGGTGAGAAT -GCAAGAGATGTTTGGCGAGGCCACCAATCCGACGATCGCCCAGGGGCGCGTGCCGCTGGTGCTGGAGTTGCTTTCACCTG -CCCAAAGGCCATTACAAATCACACGAGATTTGAGCGACTTCTGGAAAGGAGCGTACCGTGAGGTGCAAAAAGAGATGAAA -GGGCGTTATCCCAAACATGTCTGGCCGGACGACCCGGCAAATACTGCACCGACGCGACGGACGAAAAAGTATTCGTAAGG -TTGGTTTTCTCCCTCTCCCTGTGGGAGAGGGCCGGGGTGAGGGCATCAGCGCGCACGTTCACCCTCACCCTAACCCTCTC -CCTCAAGGGAGAGGGGACCGATCGAGCACAAATTTTGAGAGATATCTTCTTCTGTCTTGTAACAGAAGAACAGAAAATCG -GGCTTTTGCGCCTGAATATTGCGGAGAAAAAGCATGGCCGGGAATGACCGCGAGCCAATTGGACGCAAAGGGAAACCGAC -GCGTCCGGTCAAACAAAAGGTAAGCCGTCGTCGTTACGAAGATGACGATGATTACGACGATTATGATGACTATGAGGATG -AAGAACCGATGCCGCGCAAAGGTAAGGGCAAAGGCAAAGGGCGTAAGCCTCGTGGCAAACGCGGCTGGCTATGGCTACTG -CTAAAACTGGCTATCGTTTTTGCCGTGCTGATCGCCATTTACGGCGTTTATCTCGATCAAAAAATTCGTAGCCGTATTGA -TGGCAAGGTCTGGCAACTGCCTGCGGCAGTTTATGGCCGAATGGTCAATCTTGAGCCAGACATGACCATCAGCAAGAACG -AGATGGTGAAGCTGCTGGAGGCGACCCAGTATCGTCAGGTGTCGAAAATGACCCGTCCTGGCGAATTTACCGTGCAGGCC -AACAGCATTGAGATGATTCGCCGTCCGTTTGATTTCCCGGACAGTAAAGAAGGACAGGTGCGCGCGCGTCTGACCTTTGA -TGGCGATCATCTGGCGACGATCGTCAATATGGAGAACAACCGTCAGTTCGGTTTCTTCCGTCTTGATCCGCGTCTGATCA -CCATGATCTCTTCGCCAAACGGTGAGCAGCGTCTGTTTGTGCCGCGCAGTGGTTTCCCGGATTTGCTGGTGGATACTTTG -CTGGCGACAGAAGACCGTCATTTTTACGAGCATGATGGAATCAGTCTCTACTCAATCGGACGTGCGGTGCTGGCAAACCT -GACCGCCGGACGCACGGTACAGGGTGCGAGTACGCTGACGCAACAGCTGGTGAAAAACCTGTTCCTCTCCAGCGAGCGTT -CTTACTGGCGTAAAGCGAACGAAGCTTACATGGCGCTGATCATGGACGCGCGTTACAGCAAAGACCGTATTCTTGAGCTG -TATATGAACGAGGTGTATCTCGGTCAGAGCGGCGACAACGAAATCCGCGGCTTCCCGCTGGCAAGCTTGTATTACTTTGG -TCGCCCGGTAGAAGAGCTAAGCCTCGACCAGCAGGCGCTGTTAGTCGGTATGGTGAAAGGGGCGTCCATCTACAACCCGT -GGCGTAACCCAAAACTGGCGCTGGAGCGACGTAATCTGGTGCTGCGTCTGCTGCAACAGCAACAGATTATTGATCAAGAA -CTCTATGACATGTTGAGTGCCCGTCCGCTGGGGGTTCAGCCGCGCGGTGGGGTGATCTCTCCTCAGCCAGCCTTTATGCA -ACTGGTGCGTCAGGAGCTGCAGGCAAAACTGGGCGATAAGGTAAAAGATCTCTCCGGCGTGAAGATCTTCACTACCTTTG -ACTCGGTGGCCCAGGACGCGGCAGAAAAAGCCGCCGTGGAAGGCATTCCGGCACTGAAGAAACAGCGTAAGTTGAGCGAT -CTTGAAACTGCGATTGTGGTCGTCGACCGCTTTAGTGGTGAAGTTCGTGCGATGGTCGGAGGTTCTGAGCCGCAGTTTGC -GGGCTACAACCGTGCGATGCAGGCGCGTCGTTCGATTGGTTCCCTTGCAAAACCAGCGACTTATCTGACGGCCTTAAGCC -AGCCGAAAATCTATCGTCTGAATACGTGGATTGCGGATGCGCCAATTGCGCTGCGTCAGCCGAATGGCCAGGTCTGGTCA -CCGCAGAATGATGACCGTCGTTATAGCGAAAGCGGCAGAGTGATGCTGGTGGATGCGTTGACCCGTTCGATGAACGTGCC -GACGGTAAATCTGGGGATGGCGCTGGGGCTGCCTGCGGTTACGGAGACCTGGATTAAACTGGGCGTACCGAAAGATCAGT -TGCATCCGGTTCCGGCAATGCTGCTGGGGGCGTTGAACTTAACGCCAATCGAAGTGGCGCAGGCATTCCAGACCATCGCC -AGCGGTGGTAACCGTGCACCGCTTTCTGCGCTGCGTTCGGTAATCGCGGAAGATGGCAAAGTGCTGTATCAGAGCTTCCC -GCAGGCGGAACGCGCTGTTCCGGCGCAGGCGGCGTATCTGACACTATGGACCATGCAGCAGGTGGTACAACGCGGTACGG -GTCGTCAGCTTGGGGCGAAATACCCGAACCTGCATCTGGCAGGGAAAACAGGGACTACCAACAATAACGTAGATACCTGG -TTTGCGGGCATTGACGGCAGCACGGTGACCATCACCTGGGTCGGCCGTGATAACAACCAGCCGACCAAACTGTATGGTGC -CAGCGGGGCAATGTCGATTTATCAGCGTTATCTGGCTAACCAGACGCCAACGCCGCTGAATCTTGTTCCGCCAGAAGATA -TTGCAGATATGGGCGTGGACTACGACGGCAACTTTGTTTGCAGCGGTGGCATGCGTATCTTGCCGGTCTGGACCAGCGAT -CCGCAATCGCTGTGCCAGCAGAGCGAGATGCAGCAGCAGCCGTCAGGCAATCCGTTTGATCAGTCTTCTCAGCCGCAGCA -ACAGCCGCAACAGCAACCTGCTCAGCAAGAGCAGAAAGACAGCGACGGTGTAGCCGGTTGGATCAAGGATATGTTTGGTA -GTAATTAACATCTAAGCGTGAAATACCGGATGGCGAGTTGCCATCCGGTAAAATAACATCCCATCTAAGATATTAACCCT -TTCTTTTCATCTGGTTGTTTATTAACCCTTCAGGAACGCTCAGATTGCGTACCGCTTGCGAACCCGCCAGCGTTTCGAAT -ATTATCTTATCTTTATAATAATCATTCTCGTTTACGTTATCATTCACTTTACATCAGAGATATACCAATGGCGCGTTCCA -AAACTGCTCAGCCAAAACACTCACTGCGTAAAATCGCAGTTGTAGTAGCCACAGCGGTTAGCGGCATGTCTGTTTATGCA -CAGGCAGCGGTTGAACCGAAAGAAGACACTATCACCGTTACCGCTGCACCTGCGCCGCAAGAAAGCGCATGGGGGCCTGC -TGCAACTATTGCGGCGCGACAGTCTGCTACCGGCACTAAAACCGATACGCCGATTCAAAAAGTGCCACAGTCTATTTCTG -TTGTGACCGCCGAAGAGATGGCGCTGCATCAGCCGAAGTCGGTAAAAGAAGCGCTTAGCTACACGCCGGGTGTCTCTGTT -GGTACGCGTGGCGCATCCAACACCTATGACCACCTGATCATTCGCGGCTTTGCGGCAGAAGGCCAAAGCCAGAATAACTA -TCTGAATGGCCTGAAGTTGCAGGGCAACTTCTATAACGATGCGGTCATTGACCCGTATATGCTGGAACGCGCTGAAATTA -TGCGTGGCCCGGTTTCCGTGCTTTACGGTAAAAGCAGTCCTGGCGGCCTGTTGAATATGGTCAGCAAGCGTCCGACCACC -GAACCGCTGAAAGAAGTTCAGTTTAAAGCCGGTACTGACAGCCTGTTCCAGACTGGTTTTGACTTTAGCGATTCGTTGGA -TGATGACGGTGTTTACTCTTATCGCCTGACCGGTCTTGCGCGTTCTGCCAATGCCCAGCAGAAAGGGTCAGAAGAGCAGC -GTTATGCTATTGCACCGGCGTTCACCTRGCGTCCGGATGATAAAACCAATTTTACCTTCCTTTCTTACTTCCAGAACGAG -CCGGAAACCGGTTATTACGGCTGGTTGCCGAAAGAGGGAACCGTTGAGCCGCTGCCGAACGGTAAGCGTCTGCCGACAGA -CTTTAATGAAGGGGCGAAGAACAACACCTATTCTCGTAATGAGAAGATGGTCGGCTACAGCTTCGATCACGAATTTAACG -ACACCTTTACTGTGCGTCAGAACCTGCGCTTTGCTGAAAACAAAACCTCGCAAAACAGCGTTTATGGTTACGGCGTCTGC -TCCGATCCGGCGAATGCTTACAGCAAACAGTGTGCGGCATTAGCGCCAGCGGATAAAGGCCATTATCTGGCACGTAAATA -CGTCGTTGATGATGAGAAGCTGCAAAACTTCTCCGTTGATACCCAGTTGCAGAGCAAGTTTGCCACTGGCGATATCGACC -ACACCCTGCTGACCGGTGTCGACTTTATGCGTATGCGTAATGACATCAACGCCTGGTTTGGTTACGACGACTCTGTGCCA -CTGCTCAATCTGTACAATCCGGTGAATACCGATTTCGACTTCAATGCCAAAGATCCGGCAAACTCCGGCCCTTACCGCAT -TCTGAATAAACAGAAACAAACGGGCGTTTATGTTCAGGATCAGGCGCAGTGGGATAAAGTGCTGGTCACCCTAGGCGGTC -GTTATGACTGGGCAGATCAAGAATCTCTTAACCGCGTTGCCGGGACGACCGATAAACGTGATGACAAACAGTTTACCTGG -CGTGGTGGTGTTAACTACCTGTTTGATAATGGTGTAACACCTTACTTCAGCTATAGCGAATCGTTTGAACCTTCTTCGCA -AGTTGGGAAGGATGGTAATATTTTCGCACCGTCTAAAGGTAAGCAGTATGAAGTCGGCGTGAAATATGTACCGGAAGATC -GTCCGATTGTAGTTACTGGTGCCGTGTATAATCTCACTAAAACCAACAACCTGATGGCGGACCCTGAGGGTTCCTTCTTC -TCGGTTGAAGGTGGCGAGATCCGCGCACGTGGCGTAGAAATCGAAGCGAAAGCGGCGCTGTCGGCGAGTGTTAACGTAGT -CGGTTCTTATACTTACACCGATGCGGAATACACCACCGATACTACCTATAAAGGCAATACGCCTGCACAGGTGCCAAAAC -ACATGGCTTCGTTGTGGGCTGACTACACCTTCTTTGACGGTCCGCTTTCAGGTCTGACGCTGGGCACCGGTGGTCGTTAT -ACTGGCTCCAGTTATGGTGATCCGGCTAACTCCTTTAAAGTGGGAAGTTATACGGTCGTGGATGCGTTAGTACGTTATGA -TCTGGCGCGAGTCGGCATGGCTGGCTCCAACGTGGCGCTGCATGTTAACAACCTGTTCGATCGTGAATACGTCGCCAGCT -GCTTTAACACTTATGGCTGCTTCTGGGGCGCAGAACGTCAGGTCGTTGCAACCGCAACCTTCCGTTTCTAATTTCTCTTT -TGGGGCACGGATTTCCGTGCCCATTTCACAAGTTGGCTGTTATGCAGGAATACACGAATCATTCCGATACCACTTTTGCA -CTGCGTAATATCTCCTTTCGTGTGCCCGGGCGCACGCTTTTGCATCCGCTGTCGTTAACCTTTCCTGCCGGGAAAGTGAC -CGGTCTGATTGGTCACAACGGTTCTGGTAAATCCACTCTGCTCAAAATGCTTGGCCGTCATCAGCCGCCGTCGGAAGGGG -AGATTCTTCTTGATGCCCAACCGCTGGAAAGCTGGAGCAGCAAAGCGTTTGCCCGCAAAGTGGCTTATTTGCCGCAGCAG -CTTCCTCCGGCAGAAGGGATGACCGTGCGTGAACTGGTGGCGATTGGTCGTTACCCGTGGCATGGCGCGCTGGGGCGCTT -TGGGGCGGCAGATCGCGAAAAAGTCGAGGAAGCTATCTCGCTGGTTGGCTTAAAACCGCTGGCGCATCGGCTGGTCGATA -GTCTCTCTGGCGGCGAACGTCAGCGGGCGTGGATCGCCATGCTGGTGGCGCAGGATAGCCGTTGTCTGTTGCTCGACGAA -CCGACCTCGGCGCTGGATATCGCCCACCAGGTTGATGTGCTGTCGCTGGTGCACCGTTTAAGTCAGGAGCGTGGCCTGAC -GGTCATTGCCGTGTTGCACGATATCAATATGGCGGCACGCTACTGTGATTATCTGGTCGCCCTGCGCGGCGGTGAAATGA -TTGCTCAGGGAACGCCTGCGGAAATTATGCGCGGCGAAACCCTCGAAATGATTTATGGCATCCCGATGGGTATTTTGCCG -CATCCGGCGGGTGCTGCACCTGTGAGTTTTGTTTATTGATGAGCGGCTTACCTCTTATTTCGCGCCGTCGACTGTTAACG -GCGATGGCGCTTTCTCCGTTGTTATGGCAGATGAATACCGCCCACGCGGCGGCTATTGATCCCAATCGTATTGTGGCGCT -GGAGTGGTTGCCGGTGGAATTACTGCTGGCGCTCGGCATCGTGCCTTACGGCGTGGCGGATACCATCAACTATCGCCTGT -GGGTCAGCGAACCACCATTGCCGGACTCAGTGATCGACGTCGGTTTGCGCACAGAACCTAACCTTGAACTGCTGACCGAA -ATGAAACCATCGTTTATGGTCTGGTCGGCAGGATATGGCCCTTCACCAGAAATGCTGGCTCGTATTGCGCCGGGTCGCGG -ATTTAACTTCAGTGACGGCAAACAGCCGTTGGCGATGGCGCGTAAATCGCTGACGGAAATGGCAGATTTACTTAACCTGC -AAAGCGCAGCGGAAACGCATTTAGCGCAATATGAAGACTTTATCCGCAGCATGAAACCCCGCTTTGTGAAGCGTGGTGCG -CGTCCGTTATTGCTGACGACGCTTATCGATCCGCGCCATATGCTGGTCTTCGGTCCAAACAGCTTGTTCCAGGAAATTCT -TGATGAGTACGGCATCCCAAATGCCTGGCAAGGGGAAACCAACTTCTGGGGCAGTACCGCCGTCAGTATCGATCGTCTGG -CGGCGTATAAAGACGTTGATGTGCTCTGTTTTGATCACGACAACAGCAAAGACATGGATGCGCTAATGGCAACGCCGCTG -TGGCAGGCCATGCCGTTTGTCCGCGCCGGACGCTTTCAGCGCGTACCTGCAGTCTGGTTTTATGGTGCGACGCTCTCGGC -AATGCACTTTGTGCGCGTTCTGGATAACGCCATCGGAGGTAAAGCGTGAGTAAACGAATTGCGCTTTTCCCGGCGTTATT -GCTGGCGCTGTTAGTGATTGTCGCTACGGCGCTCACCTGGATGAACTTCTCGCAGGCGCTGCCGCGTAGCCAGTGGGCGC -AGGCTGCCTGGTCGCCGGATATTGACGTCATCGAGCAGATGATTTTTCACTACAGCTTGTTGCCGCGTCTGGCGATTTCG -CTGCTGGTGGGCGCGGGTCTGGGGCTGGTGGGCGTGCTGTTTCAGCAAGTGCTGCGTAACCCGCTGGCGGAGCCGACGAC -GCTTGGCGTTGCTACAGGCGCGCAACTGGGGATTACCGTCACTACGCTCTGGGCGATCCCTGGTGCGATGGCGAGCCAGT -TTGCTGCGCAGGCAGGGGCTTGTGTTGTTGGCTTAATTGTCTTTGGCGTCGCGTGGGGGAAACGGCTGTCGCCGGTAACG -CTGATTCTCGCGGGGTTGGTAGTGAGCCTTTATTGCGGCGCAATCAATCAGTTACTGGTTATCTTCCATCATGACCAACT -GCAAAGCATGTTTCTGTGGAGCACTGGAACGCTGACGCAAACCGACTGGGGCGGCGTTGAGCGTTTATGGCCGCAGCTGC -TGGGCGGTGTGATGCTGACGTTGCTGCTACTTCGTCCGTTAACCCTGATGGGGCTTGATGATGGCGTGGCGCGCAATCTC -GGGCTGGCCTTGTCGCTTGCGCGTCTGGCAGCGCTGTCGCTGGCGATTGTCATCAGTGCGCTGCTGGTGAACGCTGTGGG -GATTATCGGCTTTATCGGGTTGTTCGCGCCGCTGCTGGCAAAAATGCTGGGGGCGCGGCGTCTGCTGCCACGACTGATGC -TGGCGTCGTTGATTGGTGCGCTGATCCTCTGGCTTTCCGATCAAATCATCCTCTGGCTGACTCGCGTGTGGATGGAAGTG -TCCACCGGTTCGGTCACTGCGTTGATCGGTGCGCCGCTGCTACTGTGGCTGTTGCCGCGTTTACGCAGCATTAGCGCGCC -GGATATGAAGGTCAACGATCGTGTCGCGGCTGAACGCCAACATGTGCTGGCGTTTGCCCTCGCGGGCGGCGTGCTGCTGT -TGATGGCTGTGGTGGTGGCGCTGTCGTTTGGTCGTGATGCGCACGGCTGGACGTGGGCGAGCGGGGCGTTGCTCGAGGAT -TTAATGCCCTGGCGCTGGCCGCGAATTATGGCGGCGCTGTTTGCGGGCGTCATGCTGGCGGTGGCGGGCTGTATTATTCA -GCGACTGACCGGAAACCCGATGGCAAGCCCGGAAGTGCTGGGGATTAGCTCCGGCGCGGCGTTTGGCGTGGTGTTGATGC -TGTTTCTGGTGCCGGGTAATGCCTTTGGCTGGCTGTTACCTGCAGGCAGTCTCGGCGCGGCGGTGACGCTGTTGATCATT -ATGATCGCCGCCGGCCGCGGTGGATTTTCCCCACACCGTATGTTACTGGCGGGGATGGCGTTAAGCACCGCGTTCACCAT -GCTTTTGATGATGTTGCAGGCAAGTGGTGACCCGCGAATGGCGCAAGTGCTGACCTGGATTTCCGGTTCGACCTACAACG -CGACCGATGCGCAGGTCTGGCGCACCGGAATTGTGATGGTGATTTTGCTGGCGATTACCCCGCTGTGCCGCCGCTGGCTG -ACCATTTTACCGCTGGGTGGTGATACCGCCCGAGCCGTAGGAATGGCGCTGACGCCGACGCGAATTGCGCTGCTGCTGTT -AGCGGCTTGCCTGACGGCGACCGCGACGATGACTATTGGACCGTTGAGTTTTGTTGGTTTAATGGCACCGCATATTGCGC -GGATGATGGGCTTTCGACGGACGATGCCACACATCGTAATTTCGGCGCTGGTGGGTGGTTTACTGCTGGTGTTCGCTGAC -TGGTGTGGGCGGATGGTGCTGTTTCCATTCCAGATCCCGGCGGGGCTGCTGTCAACCTTTATCGGCGCGCCATATTTTAT -CTATTTGTTGAGAAAGCAGAGCCGTTAATTTTTCCATATAACGGCCCTGTACGCCTGGACGGATAAAGCGTTTACGCGAC -AACGGATGCCCGATGCGACGCTGGCGCGTCTTATCGGGCCTACAAACGGCCCCGAATCGTAGGTCGGATAAGGCGTTCAC -GCCGCATCCGACAAACCATGCTGGATCACAACTTCGCAAACACCCGACGTGCAGCATCGATGGTGTTATTGATATCTTCC -ATGCTGTGCGCCACGGACATAAAGCCCGCTTCAAACGCTGACGGTGCCAGGTAAACACCTTCGTCCAGCATCATATGGAA -GAAACGCTTAAAGCGTTCCACGTCACAGGCCATCACATCCTGATAGCACGTCACGGACTCGGCGTCGGTAAAGAAAATAC -CGAACATGCCGCCAACGTGGTTAACGACCAGCGGAATTCCGGCTTCTTCTGCCGCTTCCAGCAGACCTTCTGCCAGACGT -GTTGTCAGCTCATCCAGCGTTTCGTGAACGCCCGGCTGCGCGACTTCATTCAGACAGGCGAAACCCGCTGCCATCGCAAT -CGGGTTACCGGAAAGCGTACCCGCCTGATAGACCGGACCCGTCGGGGCCAGCGCATCCATTACATCACGACGACCACCGA -ATGCGCCTACCGGCATTCCACCGCCGATGATTTTGCCGAGGCAGGTTAAATCTGGCACTACGCCGTAATAATCCTGTGCG -CCAGCTAGCGCTACGCGGAAACCGGTCATCACTTCATCGATGATCAGCAACGCGCCAAATTCGTCGCACAGCGCGCGCAG -ACCTGGCAGGAACTCTGGCAGCGGCGGAACACAGTTCATATTGCCTGCCACCGGCTCGACGATAATACAGGCAATCTCTT -GCGGGTATTGCTCAAATGCGGCGCGTACAGAAGCCAGATCATTATAAGTACAGGTTAAGGTATATTTGGCGAAATCTGCC -GGAACGCCCGGCGAGTTTGGCTGGCCTAACGTGAGTGCGCCAGAACCGGCTTTCACCAGCAGGCAGTCAGCGTGACCATG -GTAACACCCTTCAAATTTAATAATTTTGTCGCGACCGGTAAAACCACGGGCCAGGCGGATGGCGCTCATGGTCGCTTCAG -TGCCGGAGTTCACCATGCGCACCATATCCATGGTCGGGACCAGTTCGGTCACCAGTTGCGCCATTTTCACTTCCATTTCG -GTTGGTGCACCAAAGCTTAAACCACGCTCGGCGGCTTCAATCACGGCATTGCGGATTGCCGGATGGTTATGGCCCAGCAC -CATCGGCCCCCAGGAACCGACATAATCGATATAGGCTTTGCCATCAACATCGTACAGATAAGCGCCGTCCGCTTTTTCGA -TAAACAGTGGAGTGCCGCCCACGCCAGTAAAGGCGCGAACAGGGGAGTTCACACCGCCAGGGATCAGCTCGCGCGCTGCG -CTGTAAAGATTTTCAGACTTACTCATGGAGGGTTCCTGATTCGTAGAAAAAGTGAATGGCTGCTATTCTATGTTATTCAT -AACAAGTTAAATACTCGTCAAACATCAGGCTGCTTGTACTGGTGCAATCCTGATTTCTTAGAGTATAAAAGTTTTGTGCA -TTTGAAACATTACGCTTTGCAAAGGATTTTCATGGAACGTGCGAGTAAAATGCCGTCATCTTATTTGTATGACCAATAAG -TGATCATTGGATGAAAACTGATACTCCCTCTTTAGAAACACCGCAGGCCGCGCGCCTGCGACGCAGACAACTGATTCGCC -AACTTCTTGAGCGCGATAAAACCCCGTTAGCCATTTTGTTTATGGCGGCAGTCGTCGGCACGCTTGTTGGGCTGGCAGCG -GTTGCTTTTGACAAAGGTGTCGCCTGGTTGCAGAACCAACGTATGGGGGCGCTGGTACATACTGCTGATAATTATCCGCT -TCTGTTAACCGTCGCTTTTCTCTGTTCGGCGGTGCTGGCGATGTTTGGCTACTTTTTGGTGCGCAAATACGCGCCGGAAG -CAGGTGGTTCGGGGATCCCGGAAATTGAAGGGGCGCTGGAAGATCAACGTCCCGTTCGCTGGTGGCGTGTATTGCCGGTG -AAGTTCTTTGGCGGGCTGGGGACACTCGGCGGAGGCATGGTGTTGGGGCGCGAAGGGCCAACCGTGCAGATCGGCGGTAA -CATTGGCCGTATGGTGCTTGATATTTTCCGCCTGAAAGGTGACGAAGCTCGCCATACGCTGCTGGCAACCGGTGCTGCTG -CGGGGCTGGCTGCGGCCTTTAACGCGCCGCTGGCGGGTATTTTGTTTATTATCGAAGAGATGCGTCCGCAGTTTCGCTAT -ACGTTAATTTCGATTAAAGCGGTATTTATTGGTGTCATTATGTCGACCATTATGTACCGGATTTTTAATCATGAAGTTGC -GTTGATTGACGTCGGTAAACTTTCTGATGCGCCGCTTAATACGCTGTGGCTTTATCTGATCCTCGGTATTATTTTTGGCA -TTTTCGGCCCTATTTTTAATAAATGGGTGCTGGGGATGCAGGATTTGCTGCACCGTGTGCACGGCGGCAATATTACCAAA -TGGGTGCTAATGGGCGGTGCGATTGGCGGTCTGTGTGGATTGCTGGGGTTTGTGGCACCAGCAACGTCGGGCGGCGGTTT -TAACCTGATTCCTATCGCTACCGCGGGGAATTTCAGCATGGGAATGCTGGTGTTTATCTTCGTCGCGCGGGTCATTACCA -CCTTACTCTGCTTCTCTTCCGGCGCGCCGGGCGGTATTTTTGCCCCGATGCTGGCGCTGGGTACTGTGCTGGGAACCGCT -TTCGGAATGGTTGCCGTTGAGCTGTTTCCGCAATATCACCTTGAGGCGGGGACGTTTGCTATTGCCGGAATGGGGGCATT -ACTGGCGGCATCTATTCGCGCGCCGTTAACGGGGATCATTCTGGTTCTGGAGATGACCGATAACTACCAGCTCATTTTGC -CAATGATTATTACCGGTCTTGGCGCAACACTATTAGCGCAATTTACCGGCGGGAAACCGCTATACTCGGCGATTCTTGCG -CGCACGCTGGCAAAACAGGAAGCTGAGCAACTGGCGCGAAGCAAGGCCGCATCAGCCAGCGAGAATACTTGAACGAAATA -CCAGGGTATTAGATAATGGCGATTATTATTGGGTTAGAATTTGCCCAATTGCCGATGTCGTTTGGAGCAAAATATGAGTG -ATGACGTAGCACTGCCGCTGGAGTTTACCGACGCAGCAGCCAACAAAGTTAAAAGCCTGATCGCTGACGAAGATAACCCG -AATCTGAAATTACGCGTGTATATCACCGGTGGCGGTTGCAGCGGCTTCCAGTATGGTTTCACCTTTGATGATCAGGTGAA -CGAAGGCGATATGACCATCGAAAAACAGGGCGTTGGCCTGGTGGTTGATCCGATGAGCCTGCAATATCTGGTCGGCGGTT -CCGTTGATTATACCGAAGGTCTGGAAGGTTCTCGTTTCATCGTGACCAACCCGAACGCGAAAAGCACCTGCGGTTGCGGT -TCTTCCTTTAGTATCTAATCTGTTGTTCATGTGCCGGATAAACTATCCGGCACATCTTCTCTCTTCAACGCCCATTCTCA -TCCAGCGCAAACGTCGGTAGCTTAAGATGCCAACGAATAGCCGCCAGCCGAATCAATAGCGTCACGACCATGCCCATCAT -ACTGGCTGTTTCCAGTGGTACGGAAAATGTGTAATAAGCCGTAGCGTGGACAATACCGCCGATAATACAGGCAGTTGCGT -AGATTTCTGTACGTAAAATCATGGGGATTTCGCGGGCCAGAACATCACGAATGATCCCGCCGCCAACGCCAGTAATGACG -CCCATACAAACCGCGATTAACGGACCGGCTTCCGCATTAAAGGCTTTATTCACGCCAATGCCGACAAACACCGCCAGACC -AACGGCGTCCAGCACCGGCAACATCCATTTTGGTAAGCGTCTTGGCTGGCGCACCAGCACGATGGTCAGCATGCTGGTGA -CCATTGCAACGACCAGATCGGTGGGATCTTTCACCCAAAATACCGGGCCGTGATCCAGCGCCATGTCGCGAATTGTCCCG -CCGCCTACTGCGGTTACCACGCCCAGTACCAGAACACCAAAAGGGTCCATACGCAATTTTCCGGCTAACAAAACGCCGGA -GATGGCAAATACCGCTGTGCCGACTATATCCAGCCAATAGACGAGCATTGTTCAATCCCCACTGAGCACCTGAAAAGGTC -AGGCGCTAATCTACCTGTGAAAGCGCATTACAGAGCTGTTGTGCAGCGAGGATAATACGTGGGCTTGCACGTTCAAACCA -GTCACTCGTGAGAGGAATAACGGGAATTTTGAGCTGTTCACCCCAGTATTGTTTGATTTTAGGAATTTGGTCCGGTCCGC -CTGTAATGACAATCGCCTGTGGCGAGCGTGCTAACACCTGTTCGCGGCTAACTTGCGGCCAGGGAACCCGGCTGTCTTTA -AAGATGTTTTCTCCGCCACAAACTTCGAGTACCTGGTTCTGAATCGACTCTTTTCCACTGGTAAATGGCGGATTAATGCC -GAATTGCAGAAAAACACGTTTTTTAGGTTTATCAGCATATTGCGCTTTCAATTGCGCGTACTGATCCAGCAGGGATTGCG -CGGCTTGTTCGGCCTTGTCTGGTTGCGGACTCCAGGGGGCCAGTTGACGTAACGCATTGGCAATTTGTTCAATGCTTGTC -GCATCGACCCACATCACTTTTATTCCCAGCGAAGCCAGCTGGTCAACCTGCCGCTCGGCATTACCTCCACGCCAGGCAAT -CACCAGATCGGGTTTCAGCGCGACAATGCGTTCCAGATTCATCCCCTGCCAGGTGGAAACCTGCTCAATCTTTTGCGCTT -GTGGAGGATAGTCGGAATAGCTGCTGACCCCAACCGGCGTGATCCCGGCGGCAAAGGCAAGTTCAGTGTTGGCGGGAGAA -AGCGTGATGACGCGCGGCGCGGCGTTGAGCCACAGTGGCGCAAGAAAAGACAGGGCGACCAGCGCCCTGAACAGTGACTT -AGCCATGTGCAAGTTTCTGCACCAGTGACTCAACCATCAGGCTGGACTGTTTAGCGGCAACAGCCAGGAACTCATCGAAG -CTAAGATGAGACTGTTGATCGGCCACGTCGGAGATGGCGCGTACGACAACAAACGGGACGTTGAAATTGTGGCAGACATG -GGCGATTGCCGTCGCTTCCATCTCTACAGCAATGGCCTGTGGGAAGTTGTGGCGGATTTTCGCCAGACCAACAGAACCGT -TGATGAAAGCGTCGCCGCTAACAATCAGGCCACGTACAGCGTTAAGATTCAGTTCGGCAATGCAGGCCTCAGCGGCAGCG -ATCAGTTTATCGTCAGCTTTAAAGCCTGCCGGACAGCCTGGTAACTGACCGTATTCATAACCAAATGCCGTGACATCCGC -GTCGTGATAACGTGCTTCGTCCGAGACAACGATATCGCCCACTTTCAACGTTGGTGCCAGGCCACCGGCAGAACCGGTGT -TAATAATCACATCTGGCTTGCAGTGTTCCAACAGCAAAGTGGCACCCAGCGCCGCAGCGACTTTACCGATGCCCGATTTC -AGAAGCGCAACCTCGGTTCCATTCAGTTGGCCGGTATAGATTTCGCAACCGCCGAGACTGATAGTTTGACGGTTTTCGAT -TTTGTCACGCAGCAGCGTAACTTCTTCTTCCATTGCACCAATGATGCCGATTTTCATAGATTTACTCGCGATAAGCCCGA -TTTGAAGGCATAGTTTACCATGCGCTTACGGGGAAGCGTATTTCTCACGCGGGAGAGGACATGGCACAGATTGATTTCCG -AAAAAAAATAAACTGGCATCGTCGTTACCGTTCACCGCAGGGCGTTAAAACCGAACATGAGATCCTGCGGATCTTCGAGA -GCGATCGCGGGCGTATCATCAACTCTCCGGCAATTCGTCGTCTGCAACAAAAGACCCAGGTTTTTCCACTGGAGCGCAAT -GCCGCCGTGCGCACGCGTCTTACCCACTCGATGGAAGTCCAGCAGGTGGGGCGCTACATCGCCAAAGAAATTTTAAGCCG -TCTGAAAGAGCTTAAATTACTGGAAGCATACGGCCTGGATGAACTGACCGGTCCCTTTGAAAGCATTGTTGAGATGTCAT -GCCTGATGCACGATATCGGCAATCCGCCGTTTGGTCATTTTGGCGAAGCGGCGATAAATGACTGGTTTCGCCAACGTTTG -CACCCGGAAGATGCCGAAAGCCAGCCTCTGACTGACGATCGCTGCAGCGTGGCGGCACTACGTTTACGGGACGGGGAAGA -ACCGCTTAACGAGCTGCGGCGCAAGATTCGTCAGGACTTATGTCATTTTGAGGGGAATGCACAAGGCATTCGCCTGGTGC -ATACATTGATGCGGATGAATCTCACCTGGGCACAGGTTGGCGGTATTTTAAAATATACCCGTCCGGCGTGGTGGCGTGGC -GAAACGCCTGAGACACATCACTATTTAATGAAAAAGCCGGGTTATTATCTTTCTGAAGAAGCCTATATTGCCCGGTTGCG -TAAAGAACTTAATTTGGCGCTTTACAGTCGTTTTCCATTAACGTGGATTATGGAAGCTGCCGACGACATCTCCTATTGTG -TGGCAGACCTTGAAGATGCGGTAGAGAAAAGAATATTTACCGTTGAGCAGCTTTATCATCATTTGCACGAAGCGTGGGGC -CAGCATGAGAAAGGTTCGCTCTTTTCGCTGGTGGTTGAAAATGCCTGGGAAAAATCACGCTCAAATAGTTTAAGCCGCAG -TACGGAAGATCAGTTTTTTATGTATTTACGGGTAAACACCCTAAATAAACTGGTACCCTACGCGGCACAACGATTTATTG -ATAATCTGCCTGCGATTTTCGCCGGAACGTTTAATCATGCATTATTGGAAGATGCCAGCGAATGCAGCGATCTTCTTAAG -CTATATAAAAATGTCGCTGTAAAACATGTGTTTAGCCATCCAGATGTCGAGCGGCTTGAATTGCAGGGCTATCGGGTCAT -TAGCGGATTATTAGAGATTTATCGTCCTTTATTAAGCCTGTCGTTATCAGACTTTACTGAACTGGTAGAAAAAGAACGGG -TGAAACGTTTCCCTATTGAATCGCGCTTATTCCACAAACTCTCGACGCGCCATCGGCTGGCCTATGTCGAGGCTGTCAGT -AAATTACCGTCAGATTCTCCTGAGTTTCCGCTATGGGAATATTATTACCGTTGCCGCCTGCTGCAGGATTATATCAGCGG -TATGACCGACCTCTATGCGTGGGATGAATACCGACGTCTGATGGCCGTAGAACAATAACCAGGCTTTTGTAAAGACGAAC -AATAAATTTTTACCTTTTGCAGAAACTTTAGTTCGGAACTTCAGGCTATAAAACGAATCTGAAGAACACAGCAATTTTGC -GTTATCTGTTAATCGAGACTGAAATACATGAAAAAAACCACATTAGCACTGAGTGCACTGGCTCTGAGTTTAGGTTTGGC -GTTATCTCCGCTCTCTGCAACGGCGGCTGAGACTTCTTCAGCAACGACAGCCCAGCAGATGCCAAGCCTTGCACCGATGC -TCGAAAAGGTGATGCCTTCAGTGGTCAGCATTAACGTAGAAGGTAGCACAACCGTTAATACGCCGCGTATGCCGCGTAAT -TTCCAGCAGTTCTTCGGTGATGATTCTCCGTTCTGCCAGGAAGGTTCTCCGTTCCAGAGCTCTCCGTTCTGCCAGGGTGG -CCAGGGCGGTAATGGTGGCGGCCAGCAACAGAAATTCATGGCGCTGGGTTCCGGCGTCATCATTGATGCCGATAAAGGCT -ATGTCGTCACCAACAACCACGTTGTTGATAACGCGACGGTCATTAAAGTTCAACTGAGCGATGGCCGTAAGTTCGACGCG -AAGATGGTTGGCAAAGATCCGCGCTCTGATATCGCGCTGATCCAAATCCAGAACCCGAAAAACCTGACCGCAATTAAGAT -GGCGGATTCTGATGCACTGCGCGTGGGTGATTACACCGTAGCGATTGGTAACCCGTTTGGTCTGGGCGAGACGGTAACTT -CCGGGATTGTCTCTGCGCTGGGGCGTAGCGGCCTGAATGCCGAAAACTACGAAAACTTCATCCAGACCGATGCAGCGATC -AACCGTGGTAACTCCGGTGGTGCGCTGGTTAACCTGAACGGCGAACTGATCGGTATCAACACCGCGATCCTCGCACCGGA -CGGCGGCAACATCGGTATCGGTTTTGCTATCCCGAGTAACATGGTGAAAAACCTGACCTCGCAGATGGTGGAATACGGCC -AGGTGAAACGCGGTGAGCTGGGTATTATGGGGACTGAGCTGAACTCCGAACTGGCGAAAGCGATGAAAGTTGACGCCCAG -CGCGGTGCTTTCGTAAGCCAGGTTCTGCCTAATTCCTCCGCTGCAAAAGCGGGCATTAAAGCGGGTGATGTGATCACCTC -ACTGAACGGTAAGCCGATCAGCAGCTTTGCCGCACTGCGTGCTCAGGTGGGTACTATGCCGGTAGGCAGCAAACTGACCC -TGGGCTTACTGCGCGACGGTAAGCAGGTTAACGTGAACCTGGAACTGCAGCAGAGCAGCCAGAATCAGGTTGATTCCAGC -TCCATCTTCAACGGCATTGAAGGCGCTGAGATGAGCAACAAAGGCAAAGATCAGGGCGTGGTAGTGAACAACGTGAAAAC -GGGCACTCCGGCTGCGCAGATCGGCCTGAAGAAAGGTGATGTGATTATTGGCGCGAACCAGCAGGCAGTGAAAAACATCG -CTGAACTGCGTAAAGTTCTCGACAGCAAACCGTCTGTGCTGGCACTCAACATTCAGCGCGGCGACAGCACCATCTACCTG -TTAATGCAGTAATCTCCCTCAACCCCTTCCTGAAAACGGGAAGGGGTTCTCCTTACAATCTGTGAACTTCACCACAACTC -CATACATCTTCATCATCCTTTAGGCATTTGCACAATGCCGTACGTTACGTACTTCCTTATGCTAAGCCGTGCATAACGGA -GGACTTATGGCTGGCTGGCATCTTGATACCAAAATGGCGCAGGATATCGTGGCACGTACCATGCGCATCATCGATACCAA -TATCAACGTAATGGATGCCCGTGGGCGAATTATCGGCAGCGGCGATCGTGAGCGTATTGGTGAATTGCACGAAGGTGCAT -TGCTGGTACTTTCACAGGGACGAGTCGTCGATATCGATGACGCGGTAGCACGTCATCTGCACGGTGTGCGGCAGGGGATT -AATCTACCGTTACGGCTGGAAGGTGAAATTGTCGGCGTAATTGGCCTGACAGGTGAACCAGAGAATCTGCGTAAATATGG -CGAACTGGTCTGCATGACGGCTGAAATGATGCTGGAACAGTCGCGGTTGATGCACTTGTTGGCGCAGGATAGCCGTTTGC -GGGAAGAACTGGTGATGAACCTGATTCAGGCAGAGGAGAATACTCCCGCACTTACTGAATGGGCGCAACGGCTGGGGATC -GATCTCAATCAACCGCGAGTGGTGGCTATTGTTGAGGTCGACAGCGGTCAGCTTGGCGTGGACAGCGCAATGGCGGAGTT -ACAACAACTGCAAAACGCGCTGACTACGCCCGAGCGTAATAATCTGGTGGCGATTGTCTCGCTAACCGAAATGGTGGTGT -TGAAACCGGCGTTGAACTCTTTTGGGCGCTGGGATGCAGAAGATCATCGTAAGCGAGTTGAACAACTGATTACCCGCATG -AAAGAGTACGGCCAGCTGCGTTTTCGCGTTTCACTGGGCAACTATTTTACCGGTCCTGGCAGTATTGCCCGATCCTATCG -TACGGCGAAAACGACGATGGTGGTGGGTAAACAGCGGATGCCAGAAAGTCGCTGCTATTTTTATCAGGATCTGATGTTAC -CTGTGTTACTCGACAGTTTGCGTGGCGACTGGCAGGCCAACGAACTGGCGCGACCGCTGGCGCGGCTGAAAACGATGGAC -AATAACGGCTTGCTGCGACGAACGCTGGCGGCGTGGTTTCGCCACAATGTGCAACCGCTGGCAACGTCAAAGGCGTTGTT -TATTCATCGTAATACCCTGGAGTATCGGCTTAATCGTATATCGGAACTGACCGGGCTTGATTTGGGCAATTTTGATGACA -GGTTGCTGCTGTATGTGGCGTTACAACTGGATGAAGAGCGGTAGGTTATGCGTTAAGGTTGAGGCGGCGCTGGCTCATTC -CCCTCAGCCCGAAGGGTAGAGGGGAATGCCCGAATTAACCGTCAGTTCGGGATTATTTACGCGTTAGTTTTTCCAGATCG -GCTTCAATCTCGCTGATCTTATTGGTTACGACTGACTCCAGGTGACGTAAGTCGTCGAGGATCTTACGCTTAAGATCAAC -TTCGCTGCGGTCACGCTGGCAGATTTGATCAAGCTCATCAATGATATACCGTAGATTCGGGCTGATTTCCTGGACTTCTT -TATAACCCTGACCCACACCATCAGCGACGACCGTTTTACGCTGACGCGGATATTTAAACTTAACGCTCTTGGCGAAAAAC -TCGCCTTTGTCTTTCTGGAAATAGATTTTCAGAATATCGTTGTTGGCTTCCTGCCGGAGGCTGTAACGATCAATTTCTTC -AGGATTGGTAATACCCAGACTTTTCAGATTGTCGTACATAGCGTTACCTCAAAATGAGTCAGTAAATTGTGCTTATTTTA -GCATTTGGCCTGGCCCGCCCGGCTCGACTGTGATCGCAGAAAGCCTTTTTCTTCCAGACTTCTATCATGGCGTAAAAATC -AAAAAATTACCTGCTTTATTCTGGTGATAAAATTCACGATCTACACCAGTTCCAGCATCGTTACTTCCGGGCGGCAGTTC -AGACGCAAACCATACAAACTGCCCACGCCACGGGTTGTGTAGATGTGTCTTTCGCCAAAGGCATTTAATCCGGCGACGTA -ACGTTTATCTTCGACAGGGGCAAAAGGTTCACCAACCAACGGTACGCGCAGTTGCCCGCCGTGAGTATGGCCGCACAGCA -TCAGATCCCAGGGTTCATCACGCATGACTTCTTTGCTGTCGGGATTATGCGCCAGCACCAGTCTTGGCAGATTGGCTTCG -CTGGCGGGAGGCGGTTTGCATTGTCCGGCCCATAAGTCACCAGTGCCTACCAGTTCGAATTGCCTGTTCGGCGTGGCGAT -CACCGTAGCCTGGTTAAACAACACCGTGATGCCCGCTGATTTCAACGTCTCGCCAATTAAGTGATTTTTTTCTGTACCAA -CAGGGCGATCGTGGTTGCCGAAGCAGGCAAACGTCGGCGCACATTCGGCAAGGGGGGAGAGTACGTCACTAAACGCCGAA -AAATTCAGCGACATATCAAATAATACGTAATCGCCGCCCAGTAATATCAAATCGGGCTTTTGTTCTATGCCAAGAGCAAT -CGCGTCAGAAATCAGGCTTAAAGGAACAAAACGAGAGTAATGGAGATCGGCCAGAAAAAGAATTTTGAATGGTGCTGCGT -TGTCTTTAAAAAAGGCGAGGCGGTGACGGATTAATTCAAACCAGCCTGGCTCACAGTAATGCATATAACCGAAACCTGAG -CTCGTGGCTATCGTCGCGGCAGTAGCCTGCAAAAATCGGCGGCGTGAAATCATCGCTCATCCCTGCAAAAAAATCGGGCA -GCGTCGTGCTGCCCGTGTGCATACTTTTAGTCGATGGTACGCAGCAGTTCGTTAATGCCGACTTTGCCGCGAGTTTTCGC -GTCAACTTTCTTAACGATAACCGCACAGTAGAGGCTGTATTTGCCATCTTTTGACGGCAGATTACCTGAAACAACCACAG -ACCCCGCCGGAACGCGACCGTAGTGGATTTCGCCGGTTTCACGGTCGTAAATACGGGTGCTCTGACCAATGTATACGCCC -ATGGAAATGACGGAACCTTCTTCGACAATCACCCCTTCAACCACTTCAGAGCGCGCGCCGATGAAGCAATTATCTTCAAT -GATGGTTGGGTTAGCCTGCAGCGGTTCCAGCACGCCGCCGATGCCCACGCCACCGGAAAGGTGGACGTTTTTACCAATCT -GCGCACAAGAACCGACGGTCGCCCAGGTATCAACCATGGTGCCTTCATCAACATATGCGCCGATGTTGACGTAAGACGGC -ATCAGCACGGTGTTACGGGCAATAAACGCACCCTGACGTACCGCCGCTGGTGGCACAACGCGGAAGCCTTCTTTCTGGAA -ACGTGCTTCGTCGTAGTCGGCGAATTTCATCGGCACTTTGTCGAAGTAGCGGCTTTCTGCCCCTTCGATCACCTGATTAT -CATTAATACGGAAAGAGAGCAGCACCGCTTTTTTCAACCACTGATGCGTCACCCACTGACCGTCAATTTTTTCCGCTACA -CGCAGTGCGCCGGAATCCAGCAGGGCGATCACCTGATTTACCGCTTCGCGGGTAACGGTGTCTGCATTGGCTGGCGTGAT -CTCGGCACGGCGTTCAAAAGCGGTTTCAATAATGTTCTGTAACTGCTGCATTGTTAAACTCTTTTCATATCAGTAAACAC -ATCACCCTTTATCGTTTGGATTGAGGGCCTCTGTCAACCGCTGATGCACTTCCTGCTGCAACTCGTTATTAAGCGCACGC -CGGTCAGCGGTGGCAATTATGAATAAATCTTCTACTCGCTCGCCAATGGTTGTAATTCGGGCACCATGAAGCGAAATTCC -CAGATCGGCAAAAATTTTCCCGACTCGCGCCAGCAGTCCAGGTTGGTCGAGGGCGATCAGTTCGAGGAACGATTTGCGGT -CGGTATGGGTCGGCAAAAACGTTACTTCGGTTTCAACAGTAAAATGGCGTAATTTGGCGGGTTGGCGACGGGGCTGCGGT -GGCTGCCAGCTACTTTGCGTCAGTACTTGCTCCAGACCAAACCGAATAACCTCATGACGATCTGCGGACAGCGGGTTGCC -ATCGGGTTCCAGCACGATAAAGGTATCCATCGCCATACCGTCGCGAGTGGTGAAAATTTGTGCGTCGTGAACACTTAAAT -TGCGGCGGTCTAATTCGGCACAGACGGCGGCAAACAGATAAGGGCGGTCCGGGCTCCAGATAAAAATCTCGGTGCCTCCA -CGCGTAGCCTGCGGGCTAAGCAATACCAGCGGTTTGCTTAAATCATGCTGTAATAAATGGCGGGCATGCCAGGCCAGTTG -ATTTGGGCTATGGCGGACAAAATAGTTAGCACGACAGCGTGACCAAATTTGGTGCAGCGCCTCTTCGTCGATGTTATCCA -TGCGCAGTAGTGCCAGTGCCTGGAGTTGGTGATGGCGAACCCGTTCGCGCATATCCGGCGTGTTTTGCATTCCGCGTCGT -AGCTGCTTTTCGGTGGCAAAGTAGAGCTCACGCAACAGACTTTGCTTCCAGCTATTCCACAGCGTTTCGTTGGTGGCGCA -AATGTCAGCCACAGTCAGGCATACCAGATAGCGCAGACGATTTTCCGTTTGCACTTCTTCGGCAAACTGCTTGATGACTT -CCGGGTCCTGAATATCGCGGCGTTGGGCGGTCACCGACATCAACAGGTGCTGGCGAACCAGCCAGGCGACCAGCTGTGTT -TCGCGTGAGTTCAGCCCGTGGAGTTCGGCAAAATGCACTACATCCTGAGCACCGAGAATGGAGTGGTCGCCGCCGCGTCC -TTTGGCGATATCGTGAAACAGCGCGGCGATGAAAATCAGCTCAGTTGACGGCAGGCGCGGCCAGACGTCCACACACAACG -GATGGCGCTGGCGCGTTTCTTCACTGGCAAAACTCTCCAGTTTCAGCATCACGCGGATAGTATGTTCATCCACCGTGTAG -GCGTGGAACAGATCAAACTGCATCTGCCCGACGATATGCGACCATTGCGGCATATACGCGCCGAGCACGCTATGGCGATG -CATTGGCAATAGCCCGCGCCGCACCGCTCCGGGGTGACGCAGAATGCTCAAAAACAGTTTTCGTGCTTCCGGAATATTAC -ACAGCGGTTGTTGCAGATGGCGACGGGCATGGCGTAACTGGCGCAGCGTGGTGGAGTAAATGCCGGTGATCGCACTGTTG -TGCACCATGGTGTAGAACATACGCAAGATGGCTTCCGGCTGGCGCATAAATAGTGTTTCATCACGCAGGTCGATTAGCGT -ACCGCGTAGCTGAAACTCATCGTCGATTGGACGTGGTTTTTCGTCGGCGGGAAGGGCGAGGATGGCTTCATCGAACAGTT -GCAGCAGCATCTGGTTGAGTTCACTGACGCGGCGTGTAACGCGGAAGTAATCCTTCATCATCCGCTCGACCGGTTCGTTA -CCTTCACCACTGTAATTCAGACGCTGGGCGACGCTAAGCTGGCGATCGAATAACAGGCGATTATCGTAACGGCTGACGAC -CAGATGCAGGGCAAAGCGAATACGCCACAATATATGCAGACATTCGTTTAATTCCGCCCGCTCCGCTGAGGTTAAGAAGC -CAAACCCGACCATTTCATCCAGCGATGTTGCGCCAAAATGACGGCGGGCCACCCATTGCAGAGTGTGGATATCGCGCAAG -CCGCCAGGGCTGCTTTTGATGTCTGGTTCAAGGTTGTAGCTGGTGCCATGGTAACGCTGATGGCGCTGGTTCTGTTCTTC -AACTTTCGCCGCGTAGAACTTGTCGGAAGGCCAGAATCCTTCGCTGAAAATATGTTTTTGCAGTTCGAGGAACAGCGCAA -CATCGCCAATTAATAAGCGGGATTCGATTAAATTGGTGGCGACGGTTAAATCCGATAACCCTTCCAGCATGCACTCTTCA -AGCGTGCGCACGCTATGACCGACTTCCAGCTTTACATCCCAGAGCAGCGTTAACAGCTCGCCCACTTTTTGCGCCTGATC -GTCCGGGAGCTTTTTACGGCTTAAAATCAGTAAATCGACGTCTGAAAGTGGATGCAGCTCGCCACGACCGTAGCCACCGA -CGGCGACCAATGCCAGGTCGGCAATCTGGCTGAATCCCGCTTCAATCCATAATCGTTGCAGGAGCTGGTCGATAAACTCG -GTGCGCGCCTCAATCAACTGTTCTGCAGAGATCCCATTGTCAAAGGCATCACCCAGCCAACGCTGGAAAGTATCGATATG -GGCTTTTATCCCACCGACGGTTAATTCATCACGGGGCCAGACGCATGGATTTTGCGGTTGACCGGGCAGGGTGGGGAGAG -CGGTGTTTGCGTACTGTTCTGGAAGGGTATTCATTGTGCGCCACCCATAAGATTAAATTATCGCATTAAAAAAGCCGGCA -TTCGCCGGCTTCATCTTATTCGTCGTGCGAGATTATCGCCGGGATGGTGTCATCCTTGCGTAGCGTCAGAATTTCGCAGC -CGTTATCAGTCACCACAATAGTATGCTCATATTGTGCAGACAAGCTGCGATCTTTGGTTTTTACCGTCCAGCCATCTTTC -ATGGTGCGGATCTCTTTTTTACCCGCGTTGACCATTGGCTCGATGGTGAACGTCATCCCAGGTTTCAGTACGACGTTGGT -TTCACGGGAGTCATAGTGCAGCACCTGCGGTTCTTCATGGAAGCCGCGACCAATACCGTGTCCGCAATATTCACGAACGA -CGGAGAAGCCTTCTGCTTCGACAAATTTCTGAATCGCCGCACCGATTTCGCGCAGATTAATGCCTGGTTTTACCATGCGT -AGCGCCAGGTACAGGCTTTCTTGCGTGATGCGGCACAGACGTTCGCCCATGATGGTCGGCTTACCGACGATAAACATTTT -CGAGGTATCGCCGTGGAAACCATCTTTGATTACGGTGACATCAATGTTAACGATATCGCCATCTTTCAGCAGCTTAGCAT -CGTCCGGGATACCGTGGCACACCACTTCATTAATAGAGATGCAAACGGATTTCGGATAGCCGTGATAGCCGAGGCAGGCA -GAAACCGCGTGTTGTTCATTAACAATGTAATCATTACAGATGCGATCCAGCTCGCCGGTGCTGACGCCCGGTTTAACATA -CGGTTCGATCATCTCCAGCACTTCGGCAGCCAGTCGGCCAGCGACGCGCATTTTTTCGATATCTTCTGGGGTCTTGATTG -AGATAGCCATTAATTCTGTCCATCAGCGTCGGTGATACCGACAATATATATGTAAGTGCCGTCAATGGTATCACACCCGG -GCAAATTGAGAATCATTCTGAATTTCGCCAAACGTGCCACTGAAGGTTTTCTATAATAGAAAATTCGACGTCTGATGCTG -TACACAGCGCCAACAATTATTGGTGTCCACGACGTATTTGTGGTATAAAGCGCGCCGGACTTCCGATCCATTTCGTATAC -ACAGACTGGACGGAAGCGACAATCTCACTTTGTGTAACAACACACACGTATCGGCACATATTCCGGGGTGCCCTTTGGGG -TCGGTAATATGGGATACGTGGAGGCATAACCCCAACTTTTATATAGAGGTTTTAATCATGGCAACTGTTTCCATGCGCGA -CATGCTCAAGGCTGGTGTTCACTTCGGTCACCAGACCCGTTACTGGAACCCGAAAATGAAGCCGTTCATCTTCGGTGCGC -GTAACAAAGTTCACATCATCAACCTTGAGAAAACTGTACCGATGTTCAACGAAGCTCTGGCTGAACTGAACAAGATTGCT -TCTCGCAAAGGTAAAATCCTTTTCGTTGGTACTAAACGCGCTGCAAGCGAAGCGGTGAAAGACGCTGCTCTGAGCTGCGA -CCAGTTCTTCGTGAACCATCGCTGGCTGGGCGGTATGCTGACTAACTGGAAAACCGTTCGTCAGTCCATCAAACGTCTGA -AAGACCTGGAAACTCAGTCTCAGGACGGTACTTTCGACAAGCTGACCAAGAAAGAAGCGCTGATGCGCACTCGTGAGCTG -GAGAAACTGGAAAACAGCCTGGGCGGTATCAAAGACATGGGCGGTCTGCCGGACGCTCTGTTTGTAATCGATGCTGACCA -CGAACACATTGCTATCAAAGAAGCAAACAACCTGGGTATTCCGGTATTTGCTATCGTTGATACCAACTCTGATCCGGACG -GTGTTGACTTCGTTATCCCGGGTAACGACGACGCAATCCGTGCTGTGACCCTGTACCTGGGCGCTGTTGCTGCAACCGTA -CGTGAAGGCCGTTCTCAGGATCTGGCTTCCCAGGCGGAAGAAAGCTTCGTAGAAGCTGAGTAATAAGGCTTGATAACTCC -CCCAAAATAGTTCGAGTTGCAGAAAGGCGGCAAGCTCGAGAATTCCCGGGAGCTTACATCAGTAAGTGACCGGGATGAGC -GAGCGAAGATAACGCATCTGCGGCGCGAAATATGAAGGGGGAGAGCCCTTATAGACCAGGTAGTACACGTTTGGTTAGGG -GGCCTGCATATGGCCCCCTTTTTCACTTTTATATCTGTGCGGTTTAATGCCGGGCAGATCACATCTCCGAGGATTTTAGA -ATGGCTGAAATTACCGCATCCCTGGTAAAAGAGCTGCGTGAGCGTACTGGCGCAGGCATGATGGATTGCAAAAAAGCACT -GACTGAAGCTAACGGCGACATCGAGCTGGCAATCGAAAACATGCGTAAGTCCGGTGCTATTAAAGCAGCGAAAAAAGCAG -GCAACGTTGCTGCTGACGGCGTGATCAAAACCAAAATCGACGGCAACTACGGCATCATTCTGGAAGTTAACTGCCAGACT -GACTTCGTTGCAAAAGACGCTGGTTTCCAGGCGTTCGCAGACAAAGTTCTGGACGCAGCTGTTGCTGGCAAAATCACTGA -CGTTGAAGTTCTGAAAGCACAGTTCGAAGAAGAACGTGTTGCGCTGGTAGCGAAAATTGGTGAAAACATCAACATTCGCC -GCGTTGCTGCGCTGGAAGGCGACGTTCTGGGTTCTTATCAGCACGGTGCGCGTATCGGCGTTCTGGTTGCTGCTAAAGGC -GCTGACGAAGAGCTGGTTAAACACATCGCTATGCACGTTGCTGCAAGCAAGCCAGAATTCATCAAACCGGAAGACGTATC -CGCTGAAGTGGTAGAAAAAGAATACCAGGTACAGCTGGATATCGCGATGCAGTCTGGTAAGCCGAAAGAAATCGCAGAGA -AAATGGTTGAAGGCCGCATGAAGAAATTCACCGGCGAAGTTTCTCTGACCGGTCAGCCGTTCGTTATGGAACCAAGCAAA -ACTGTTGGTCAGCTGCTGAAAGAGCATAACGCTGAAGTGACTGGCTTCATCCGCTTCGAAGTGGGTGAAGGCATCGAGAA -AGTTGAGACTGACTTTGCAGCAGAAGTTGCTGCGATGTCCAAGCAGTCTTAATTATCAAAAAGGAGCCGCCTGAGGGCGG -CTTCTTTTTGTGCCCATCTTGTAAATTCAGCTAACCCTTGTGGGGCTGCGCTGAAAAGCGACGTACAATGTCGCTAGTAT -TAATTCATTTCAATCGTTGACAGTCTCAGGAAAGAAACATGGCTACCAATGCAAAACCCGTCTATAAACGCATTCTGCTT -AAGTTGAGTGGCGAAGCTCTGCAGGGCACTGAAGGCTTCGGTATTGATGCAAGCATACTGGATCGTATGGCTCAGGAAAT -CAAAGAACTGGTTGAACTGGGTATTCAGGTTGGTGTGGTGATTGGTGGGGGTAACCTGTTCCGTGGCGCTGGTCTGGCGA -AAGCGGGTATGAACCGCGTTGTGGGCGACCACATGGGGATGCTGGCGACCGTAATGAACGGCCTGGCAATGCGTGATGCA -CTGCACCGCGCCTATGTGAACGCTCGTCTGATGTCCGCTATTCCATTGAATGGCGTGTGCGACAGCTACAGCTGGGCAGA -AGCTATCAGCCTGTTGCGCAACAACCGTGTGGTGATCCTCTCCGCCGGTACAGGTAACCCGTTCTTTACCACCGACTCAG -CAGCTTGCCTGCGTGGTATCGAAATTGAAGCCGATGTGGTGCTGAAAGCAACCAAAGTTGACGGCGTGTTTACCGCTGAT -CCGGCGAAAGATCCAACCGCAACCATGTACGAGCAACTGACTTACAGCGAAGTGCTGGAAAAAGAGCTGAAAGTCATGGA -CCTGGCGGCCTTCACGCTGGCTCGTGACCATAAATTACCGATTCGTGTTTTCAATATGAACAAACCGGGTGCGCTGCGCC -GTGTGGTAATGGGTGAAAAAGAAGGGACTTTAATCACGGAATAATTCCCGTGATGGATAAATAAGGGTAAGATTCCGCGT -AAGTATCGCGGGGGCGTAAGTCTGGTTATAAGGCGTTATTGTTGCAGGCAGTTTGGTCACGGCCAGCGCGCAGCAACCGG -AGCGTACAAAAGTACGTGAGGATGGCGAGCACTGCCCGGGGCCAAAATGGCAAATAAAATAGCCTAATAATCCAGACGAT -TACCCGTAATATGTTTAATCAGGGCTATACTTAGCACACTTCCACTGTGTGTGACTGTCTGGTCTGACTGAGACAAGTTT -TCAAGGATTCGTAACGTGATTAGCGATATCAGAAAAGATGCTGAAGTACGCATGGACAAATGCGTAGAAGCGTTCAAAAC -CCAAATCAGCAAAATACGCACGGGTCGTGCTTCTCCCAGCCTGCTGGATGGCATTGTCGTGGAATATTACGGCACGCCGA -CGCCGCTGCGTCAGCTGGCAAGCGTAACGGTAGAAGATTCCCGTACACTGAAAATCAACGTGTTTGATCGTTCAATGTCT -CCGGCCGTTGAAAAAGCGATTATGGCGTCCGATCTTGGCCTGAACCCGAACTCTGCGGGTAGCGACATCCGTGTTCCGCT -GCCGCCGCTGACGGAAGAACGTCGTAAAGATCTGACCAAAATCGTTCGTGGTGAAGCAGAACAAGCGCGTGTTGCAGTAC -GTAACGTGCGTCGTGACGCGAACGACAAAGTGAAAGCACTGTTGAAAGATAAAGAGATCAGCGAAGACGACGATCGCCGT -TCTCAGGACGATGTACAGAAACTGACTGATGCTGCAATCAAGAAAATTGAAGCGGCGCTGGCAGACAAAGAAGCAGAACT -GATGCAGTTCTGATTTCTTGAACGACAAAAACGCCGCTCAGTAGATCCTTGCGGATCGGCTGGCGGCGTTTTGCTTTTTA -TTCTGTCTCAACTCTGGATGTTTCATGAAGCAACTCACCATTCTGGGCTCGACCGGCTCGATTGGTTGCAGCACGCTGGA -CGTGGTGCGCCATAATCCCGAACACTTCCGCGTAGTTGCGCTGGTGGCAGGCAAAAATGTCACTCGCATGGTAGAACAGT -GCCTGGAATTCTCTCCCCGCTATGCCGTAATGGACGATGAAGCGAGTGCGAAACTTCTTAAAACGATGCTACAGCAACAG -GGTAGCCGCACCGAAGTCTTAAGTGGGCAACAAGCCGCTTGCGATATGGCAGCGCTTGAGGATGTTGATCAGGTGATGGC -AGCCATTGTTGGCGCTGCTGGGCTGTTACCTACGCTTGCTGCGATCCGCGCGGGTAAAACCATTTTGCTGGCCAATAAAG -AATCACTGGTTACCTGCGGACGTCTGTTTATGGACGCCGTAAAGCAGAGCAAAGCGCAATTGTTACCGGTCGATAGCGAA -CATAACGCCATTTTTCAGAGTTTACCGCAACCTATCCAGCATAATCTGGGATACGCTGACCTTGAGCAAAATGGCGTGGT -GTCCATTTTACTTACCGGGTCTGGTGGCCCTTTCCGTGAGACGCCATTGCGCGATTTGGCAACAATGACGCCGGATCAAG -CCTGCCGTCATCCGAACTGGTCGATGGGGCGTAAAATTTCTGTCGATTCGGCTACCATGATGAACAAAGGTCTGGAATAC -ATTGAAGCGCGTTGGCTGTTTAACGCCAGCGCCAGCCAGATGGAAGTGCTGATTCACCCGCAGTCAGTGATTCACTCAAT -GGTGCGCTATCAGGACGGCAGTGTTCTGGCGCAGCTGGGGGAACCGGATATGCGTACGCCAATTGCCCACACCATGGCAT -GGCCGAATCGCGTGAACTCTGGCGTGAAGCCGCTCGATTTTTGCAAACTAAGTGCGTTGACATTTGCCGCACCGGATTAT -GATCGTTATCCATGCCTGAAACTGGCGATGGAGGCGTTCGAACAAGGCCAGGCAGCGACGACAGCATTGAATGCCGCAAA -CGAAATCACCGTTGCTGCTTTTCTTGCGCAACAAATCCGCTTTACGGATATCGCTGCGTTGAATTTATCCGTACTGGAAA -AAATGGATATGCGCGAACCACAATGTGTGGACGATGTGTTATCTGTTGATGCGAACGCGCGTGAAGTCGCCAGAAAAGAG -GTGATGCGTCTCGCAAGCTGAGGATAATCCGGCTACAGAGAGTCGCGCTATTTGTTAGCGTAGGGCTTCAGTGATATAGT -CTGCGCCATCTGATCGTAAGTAGTTGGCTTTATAAGGTCAGATATGCCGTGGTTTTACACGGCTTTTTTTTGTATAGGCT -TCAGTATTCCTGAGTACCGTAAACCCTGTCAGGGAATAAAAAACGCGTGATGTTGTCTGCTACTCAACCACTTAGCGAAA -AATTGCCAGCGCATGGCTGCCGTCATGTTGCGATCATTATGGACGGCAATGGCCGCTGGGCAAAAAAGCAAGGGAAGATT -CGTGCCTTTGGGCATAAAGCCGGGGCAAAATCCGTCCGCCGGGCTGTCTCTTTTGCGGCCAACAACGGTATTGAGGCGTT -AACGCTGTATGCCTTTAGTAGTGAAAACTGGAACCGACCAGCGCAGGAAGTCAGTGCGTTAATGGAACTGTTTGTGTGGG -CGCTCGATAGCGAAGTAAAAAGTCTGCACCGACATAACGTGCGTCTGCGTATTATTGGCGATACCAGTCGCTTTAACTCG -CGTTTGCAAGAACGTATTCGTAAATCTGAAGCGCTAACAGCCGGGAATACCGGTCTGACGCTGAATATTGCGGCGAACTA -CGGTGGACGTTGGGATATAGTCCAGGGAGTCAGGCAACTGGCTGAAAAGGTGCAGCAAGGAAACCTGCAACCAGATCAGA -TAGATGAAGAGATGCTAAACCAGCATGTCTGTATGCATGAACTGGCCCCTGTAGATTTAGTAATTAGGACTGGGGGGGAG -CATCGCATTAGTAACTTTTTGCTTTGGCAAATTGCCTATGCCGAACTTTACTTTACAGATGTTCTCTGGCCCGATTTCGA -TGAACAAGACTTTGAAGGGGCGTTAAATGCCTTTGCTAATCGAGAGCGTCGTTTCGGCGGCACCGAGCCCGGTGATGAAA -CAGCCTGATGGGGGTCGCTTTTGCTGAAGTATCGCCTGATATCTGCTTTTGTGTTAATACCCGTCGTCATCGCGGCGTTG -TTTCTGTTGCCGCCGGTGGGGTTCGCCATTGTAACGCTGGTGGTCTGCATGCTGGCAGCGTGGGAATGGGGACAGCTTAG -CGGTTTTACCACTCGTTCGCAGCGAGTATGGTTGGCGGTGTTATGCGGGTTATTGTTGGCGCTGATGCTTTTTCTGTTGC -CGGAATATCACCGAAATATTCATCAACCGCTGGTTGAAATCTCACTTTGGGCTTCGCTGGGTTGGTGGATTGTCGCGCTA -TTGCTGGTGCTGTTTTACCCAGGTTCCGCAGCAATCTGGCGTAACTCTAAAACATTGCGCCTTATTTTTGGCGTGCTAAC -CATTGTTCCCTTCTTCTGGGGCATGCTGGCGTTACGGGCCTGGCACTATGACGAGAATCATTACAGTGGCGCAATATGGC -TGCTCTATGTCATGATCCTGGTATGGGGCGCTGACTCCGGCGCATATATGTTTGGCAAATTGTTTGGTAAACATAAGCTG -GCACCGAAGGTTTCTCCGGGTAAAACCTGGCAAGGCTTTATCGGTGGACTCGCTACTGCAGCGGTAATCTCATGGGGTTA -TGGCATGTGGGCGAATCTCGACGTCGCTCCCGTCACCTTACTCATTTGCTCTATTGTCGCAGCGTTAGCCTCAGTGCTCG -GCGATCTGACCGAGAGTATGTTTAAGCGTGAAGCAGGAATTAAGGACAGCGGTCATTTAATTCCAGGACACGGTGGTATT -TTAGATCGTATTGATAGCCTGACGGCTGCGGTACCGGTCTTTGCTTGCTTGTTGTTACTGGTATTCAGGACGCTTTAACG -GAAGGTAATATGCTGAGTTTTCTCTGGGATTTGGCTTCGTTCATCGTTGCACTGGGTGTACTTATCACCGTGCATGAATT -TGGTCATTTCTGGGTTGCCCGGCGTTGTGGTGTTCGCGTTGAGCGTTTCTCAATAGGGTTTGGTAAGGCGCTCTGGCGGC -GAACTGATAAGCTCGGCACCGAATATGTTATCGCCCTGATCCCGTTGGGCGGTTATGTCAAAATGCTGGATGAGCGCGCA -GAACCGGTCGTTCCGGAACTCCGCCACCATGCCTTCAATAATAAATCTGTCGGCCAACGAGCGGCGATTATTGCCGCAGG -TCCGGTTGCAAACTTCATTTTTGCTATCTTTGCCTACTGGCTGGTTTTTATTATTGGTGTGCCTGGCGTACGTCCGGTGG -TTGGCGAAATAGCAGCCAATTCGATAGCTGCGGAAGCACAAATTGCACCAGGTACGGAACTAAAAGCCGTAGATGGTATC -GAAACGCCTGATTGGGATGCCGTGCGTTTGCAGTTGGTCGATAAAATTGGCGATGAAAGCACCACCATTACAGTAGCGCC -ATTTGGCAGCGACCAACGGCGGGATGTAAAGCTCGATTTACGTCACTGGGCGTTTGAGCCTGATAAAGAAGATCCGGTAT -CTTCGCTGGGGATTCGTCCTCGTGGGCCGCAAATTGAACCTGTACTGGAAAATGTGCAGCCAAACTCGGCGGCAAGCAAG -GCAGGTTTGCAAGCAGGCGACAGGATCGTTAAAGTCGATGGTCAGCCCTTAACGCAGTGGGTGACCTTTGTGATGCTTGT -CCGGGATAACCCGGGTAAATCCTTAGCGTTAGAAATCGAAAGGCAGGGGAGTCCCTTGTCTTTGACATTAATCCCGGAGA -GTAAACCGGGTAATGGTAAAGCGATTGGTTTTGTCGGTATTGAGCCGAAAGTCATTCCTTTGCCAGATGAGTATAAAGTT -GTACGCCAGTATGGGCCGTTCAACGCCATCGTCGAAGCCACGGACAAAACGTGGCAGCTGATGAAGCTGACGGTCAGTAT -GCTGGGAAAATTGATCACCGGTGATGTGAAACTGAACAACCTCAGTGGGCCGATCTCTATCGCCAAGGGGGCTGGGATGA -CAGCGGAACTCGGGGTTGTTTATTACCTGCCGTTTCTTGCGCTTATTAGCGTGAACTTAGGGATAATTAACCTGTTTCCG -TTGCCCGTACTTGACGGGGGGCATCTGCTGTTCCTTGCGATCGAAAAGATCAAGGGCGGACCGGTATCCGAGCGGGTTCA -AGACTTTTGTTATCGCATTGGCTCGATTCTGCTGGTGCTGTTAATGGGGCTTGCACTTTTCAATGATTTCTCTCGGTTAT -GAGAGTTAGTTAGGAAGAACGCATAATAACGATGGCGATGAAAAAGTTGCTCATAGCGTCGCTGCTGTTTAGCAGCGCCA -CCGTATACGGTGCTGAAGGGTTCGTAGTGAAAGATATTCATTTCGAAGGCCTTCAGCGTGTCGCCGTTGGTGCGGCCCTC -CTCAGTATGCCGGTGCGCACAGGCGACACGGTTAATGATGAAGATATCAGTAATACCATTCGCGCTCTGTTTGCTACCGG -CAACTTTGAGGATGTTCGCGTCCTTCGTGATGGTGATACCCTTCTGGTTCAGGTAAAAGAACGTCCGACCATTGCCAGCA -TTACTTTCTCCGGTAACAAATCGGTGAAAGATGACATGCTGAAGCAAAACCTCGAGGCTTCTGGTGTGCGTGTGGGCGAA -TCCCTCGATCGCACCACCATTGCCGATATCGAGAAAGGTCTGGAAGACTTCTACTACAGCGTCGGTAAATATAGCGCCAG -CGTAAAAGCTGTCGTGACCCCGCTGCCGCGCAACCGTGTTGACCTAAAACTGGTGTTCCAGGAAGGTGTGTCAGCTGAAA -TCCAGCAAATTAACATTGTTGGTAACCATGCTTTCACCACCGACGAACTGATCTCTCATTTCCAACTGCGTGACGAAGTG -CCGTGGTGGAACGTGGTAGGCGATCGTAAATACCAGAAACAGAAACTGGCGGGCGACCTTGAAACCCTGCGCAGCTACTA -TCTGGATCGCGGTTATGCCCGTTTCAACATCGACTCTACCCAGGTCAGTCTGACGCCAGATAAAAAAGGTATTTACGTCA -CGGTGAACATCACCGAAGGCGATCAGTACAAGCTTTCTGGCGTTGAAGTGAGCGGCAACCTTGCCGGGCACTCCGCTGAA -ATTGAGCAGCTGACTAAGATCGAGCCGGGTGAGCTGTATAACGGCACCAAAGTGACCAAGATGGAAGATGACATCAAAAA -GCTTCTCGGTCGCTATGGTTATGCCTATCCGCGCGTACAGTCGATGCCCGAAATTAACGATGCCGACAAAACCGTTAAAT -TACGTGTGAACGTTGATGCGGGTAACCGTTTCTACGTGCGTAAGATCCGTTTTGAAGGTAACGATACCTCGAAAGATGCC -GTCCTGCGTCGCGAAATGCGTCAGATGGAAGGTGCATGGCTGGGGAGCGATCTGGTCGATCAGGGTAAGGAGCGTCTGAA -TCGTCTGGGCTTCTTTGAAACTGTCGATACCGATACCCAACGTGTTCCGGGTAGCCCGGACCAGGTTGATGTCGTCTACA -AGGTAAAAGAGCGCAACACCGGTAGCTTCAACTTTGGTATTGGTTACGGTACTGAAAGTGGCGTGAGCTTCCAGGCTGGT -GTGCAGCAGGATAACTGGTTAGGTACAGGTTATGCTGTTGGTATCAACGGGACCAAAAACGATTACCAGACCTATGCTGA -ACTGTCGGTAACCAACCCGTACTTCACCGTAGATGGCGTAAGCCTCGGTGGTCGTCTCTTCTATAATGACTTCCAGGCAG -ATGACGCCGACCTGTCCGACTATACCAACAAGAGTTATGGTACAGACGTGACGTTGGGCTTCCCGATTAACGAATATAAC -TCGCTGCGTGCAGGTCTGGGTTATGTACATAACTCCCTGTCCAACATGCAGCCTCAGGTTGCGATGTGGCGTTATCTGTA -CTCTATGGGTGAACATCCGAGCACCTCTGATCAGGATAACAGCTTCAAAACGGACGACTTCACGTTCAACTATGGTTGGA -CCTATAACAAGCTTGACCGTGGTTACTTCCCGACAGATGGTTCACGTGTCAACCTGACCGGTAAAGTGACCATTCCTGGA -TCGGATAACGAATACTACAAAGTGACGTTAGACACGGCGACTTATGTGCCGATCGATGACGATCACAAATGGGTTGTTCT -GGGGCGTACCCGCTGGGGTTATGGTGATGGTTTAGGCGGCAAAGAGATGCCGTTCTACGAGAACTTCTATGCCGGTGGTT -CCAGCACCGTGCGTGGCTTCCAGTCCAATACCATTGGTCCGAAAGCAGTTTACTTCCCGCATCAGGCCAGTAATTATGAT -CCGGACTATGATTACGAATGTGCGACTCAGGACGGCGCGAAAGACCTGTGTAAATCGGATGATGCTGTAGGCGGTAACGC -CATGGCGGTTGCCAGCCTCGAGTTCATCACCCCGACGCCGTTTATTAGCGATAAGTATGCTAACTCGGTTCGTACTTCCT -TCTTCTGGGATATGGGTACCGTTTGGGATACAAACTGGGATTCCAGCCAATATTCTGGATATCCGGACTATAGTGATCCA -AGCAATATCCGTATGTCTGCGGGTATCGCATTACAATGGATGTCCCCATTGGGGCCGTTGGTGTTCTCCTACGCCCAGCC -GTTCAAAAAGTACGATGGAGACAAGGCAGAACAGTTCCAGTTTAACATCGGTAAAACCTGGTAAGTGTTCTCCACAAAGG -AATGTAGTGGTAGTGTAGCGATGACTTTAGGCGATCAATATAAGATCGCCGGGCCACGCAAAGAACTGCACCCTCCGGTG -CAAATGGGATGGTAAGGAGTTTATTGTGAAAAAGTGGTTATTAGCTGCAGGTCTCGGTTTAGCACTGGCAACTTCTGCTC -AGGCGGCTGACAAAATTGCAATCGTCAACATGGGCAGCCTGTTCCAGCAGGTAGCGCAGAAAACCGGTGTTTCTAACACG -CTGGAAAATGAGTTCAAAGGCCGTGCCAGCGAACTGCAGCGTATGGAAACCGATCTGCAGGCTAAAATGAAAAAGCTGCA -GTCCATGAAAGCGGGCAGCGATCGCACTAAGCTGGAAAAAGACGTGATGGCTCAGCGCCAGACTTTTGCTCAGAAAGCGC -AGGCTTTTGAGCAGGATCGCGCACGTCGTTCCAACGAAGAACGCGGCAAACTGGTTACTCGTATCCAGACTGCTGTGAAA -TCCGTTGCCAACAGCCAGGATATCGATCTGGTTGTTGATGCAAACGCCGTTGCTTACAACAGCAGCGATGTAAAAGACAT -CACTGCCGACGTACTGAAACAGGTTAAATAAGTAATGCCTTCAATTCGACTGGCTGATTTAGCGCAGCAGTTGGATGCAG -AACTACACGGTGATGGCGATATCGTCATCACCGGCGTTGCGTCCATGCAATCTGCACAAACAGGTCACATTACGTTCATG -GTTAACCCAAAATACCGTGAGCATTTAGGCTTGTGCCAGGCGTCCGCGGTTGTCATGACCCAGGACGATCTTCCTTTCGC -GAAAAGTGCCGCACTGGTAGTGAAGAATCCCTACCTGACTTACGCGCGCATGGCGCAAATTTTAGATACCACGCCGCAGC -CCGCGCAGAACATTGCACCCAGTGCGGTGATCGACGCGACGGCGAAGCTGGGTAACAACGTATCGATTGGCGCTAACGCG -GTGATTGAGTCCGGCGTTGAACTGGGCGATAACGTGATTATCGGTGCCGGTTGCTTCGTAGGTAAAAACAGCAAAATCGG -TGCAGGTTCGCGTCTCTGGGCGAACGTAACCATTTACCATGAGATCCAGATCGGTCAGAATTGCCTGATCCAGTCCGGAA -CAGTGGTAGGCGCAGACGGCTTTGGTTATGCCAACGATCGTGGTAACTGGGTGAAGATCCCACAGATTGGTCGCGTAATT -ATTGGCGATCGCGTGGAGATCGGTGCCTGCACAACCATCGATCGCGGCGCGCTGGATGACACTATTATTGGCAATGGCGT -GATCATTGATAACCAGTGCCAGATTGCACATAACGTCGTGATTGGCGACAATACGGCGGTTGCCGGTGGCGTCATTATGG -CGGGCAGCCTGAAAATTGGTCGTTACTGCATGATCGGCGGAGCCAGCGTAATCAACGGGCATATGGAAATATGCGACAAA -GTGACGGTTACGGGCATGGGTATGGTGATGCGTCCCATCACTGAACCAGGCGTCTATTCCTCAGGCATTCCGCTGCAACC -CAACAAAGTCTGGCGCAAAACCGCTGCACTGGTGATGAACATTGATGACATGAGCAAGCGTCTGAAATCGCTTGAGCGCA -AGGTTAATCAACAAGACTAACGTTCCATCTTTTGTTCGCCAAACTTTACGGCCTGTCTCATTCTTACGATTGCGGCAGGC -CGTGTTATTATTGTCGTTTCTTATATTTTGACAGGAAGAGTATCTTGACTACTAACACTCATACTCTGCAGATTGAAGAG -ATTTTAGAACTTCTGCCGCACCGTTTCCCGTTCTTACTGGTGGATCGCGTGCTGGATTTTGAAGAAGGTCGTTTTCTGCG -CGCAGTAAAAAATGTCTCTGTCAATGAGCCATTCTTCCAGGGCCATTTCCCTGGAAAACCGATTTTCCCGGGTGTGCTGA -TTCTGGAAGCAATGGCACAGGCAACAGGTATTCTGGCGTTTAAAAGCGTAGGAAAACTGGAACCGGGTGAGCTGTACTAC -TTCGCTGGTATTGACGAAGCGCGCTTCAAGCGCCCGGTCGTGCCTGGCGATCAAATGATCATGGAAGTCACTTTCGAAAA -AACGCGCCGCGGCCTGACCCGTTTTAAAGGGGTTGCTCTGGTCGATGGTAAAGTAGTTTGCGAAGCAACGATGATGTGTG -CTCGTAGCCGGGAGGCCTGATACGTGATTGATAAATCCGCCTTTGTGCATCCAACCGCCATTGTGGAAGAGGGCGCGTCA -ATTGGCGCGAACGCACACATTGGTCCTTTTTGTATCGTTGGACCCCATGTCGAAATTGGTGAGGGTACCGTACTGAAATC -TCACGTTGTCGTGAATGGTCATACTAAAATTGGCCGCGATAATGAGATTTATCAGTTCGCCTCCATCGGCGAAGTTAACC -AGGATCTGAAATATGCTGGCGAACCGACCCGTGTGGAAATCGGCGATCGTAACCGCATTCGCGAAAGCGTCACCATTCAT -CGTGGCACAGTCCAGGGCGGTGGATTGACGAAGGTGGGCAGCGACAACTTACTGATGATCAACGCGCACATTGCGCACGA -TTGTACGGTAGGTAACCGCTGTATTCTCGCCAACAACGCAACGCTGGCGGGTCACGTATCGGTTGACGACTTCGCGATCA -TCGGCGGCATGACCGCAGTCCATCAGTTCTGCATCATTGGTGCGCACGTGATGGTTGGCGGCTGCTCCGGTGTGGCGCAG -GACGTCCCTCCTTATGTCATTGCGCAGGGTAACCACGCAACGCCGTTCGGTGTCAATATCGAAGGGCTGAAGCGCCGCGG -ATTCAGCCGTGAGGCGATTACCGCTATCCGCAATGCGTATAAGCTGATTTATCGTAGCGGTAAAACGCTCGATGAAGTGA -AACCGGAAATTGCTGAACTGGCGGAAACATATCCGGAAGTGAAAGCCTTTACCGATTTCTTTGCACGCTCAACGCGCGGT -CTGATTCGTTAATGACTGAACAGCGTCCATTAACGATTGCCCTGGTCGCCGGAGAAACCTCCGGCGATATCCTGGGGGCC -GGTTTAATCCGCGCTCTGAAAGAACATGTGCCCAACGCCCGCTTTGTTGGTGTTGCCGGGCCACGAATGCAGGCTGAAGG -CTGCGAAGCCTGGTACGAAATGGAAGAACTGGCGGTGATGGGCATTGTTGAAGTGCTCGGTCGTCTGCGTCGCTTACTGC -ATATTCGTGCCGATCTGACAAAGCGTTTTGGCGAACTGAAGCCAGATGTTTTTGTTGGTATTGATGCGCCTGACTTCAAT -ATTACTCTTGAAGGTAACCTCAAAAAGCAGGGTATCAAAACCATTCATTACGTCAGTCCGTCAGTCTGGGCGTGGCGACA -GAAACGTGTTTTCAAAATAGGCAGAGCCACCGATCTGGTGCTCGCATTTCTGCCTTTCGAAAAAGCGTTTTATGACAAAT -ACAACGTACCGTGCCGCTTTATCGGTCATACCATGGCTGATGCCATGCCATTAGATCCAGATAAAAATGCCGCCCGTGAT -GTGCTGGGGATCCCTCACGATGCCCACTGCCTGGCGTTGCTACCGGGGAGCCGTGGTGCAGAAGTTGAAATGCTTAGTGC -CGATTTCCTGAAAACGGCCCAGCTTTTGCGCCAGACATATCCGGATCTCGAAATCGTGGTGCCACTGGTGAATGCCAAAC -GCCGCGAGCAGTTTGAACGCATCAAAGCTGAAGTCGCGCCAGACCTTTCAGTTCATTTGCTGGATGGGATGGGCCGTGAG -GCGATGGTCGCCAGCGATGCGGCGCTACTGGCGTCGGGTACGGCAGCCCTGGAGTGTATGCTGGCGAAATGCCCGATGGT -GGTGGGATATCGCATGAAGCCTTTTACCTTCTGGTTGGCGAAGCGGCTGGTGAAAACTGATTATGTCTCGCTGCCAAATC -TGCTGGCGGGCAGAGAGTTAGTCAAAGAATTATTGCAGGAAGAGTGTGAGCCGCAAAAACTGGCTGCGGCGCTGTTACCG -CTGTTGGCGAACGGGAAAACCAGCCACGCGATGCACGATACCTTCCGTGAACTGCATCAGCAGATCCGCTGCAATGCCGA -TGAGCAGGCGGCACAAGCCGTTCTGGAGTTAGCACAATGATCGAATTTGTTTATCCGCACACGCAGCTGGTTGCGGGTGT -GGATGAAGTCGGACGCGGGCCGTTAGTTGGCGCGGTCGTCACCGCTGCGGTGATCCTTGACCCGGCGCGCCCGATTGCCG -GGCTGAATGATTCCAAAAAGCTGAGCGAAAAACGCCGTCTGGCGCTCTATGAAGAGATCAAAGAGAAAGCGTTGAGCTGG -AGTCTGGGCCGCGCGGAACCCCACGAAATCGACGAGCTGAACATTCTTCATGCGACCATGCTGGCGATGCAGCGTGCCGT -CGCTGGGCTGCATATTGCGCCGGAATATGTGTTGATTGATGGTAACCGCTGCCCGAAATTACCGATGCCTGCGATGGCTG -TGGTGAAAGGCGATAGCCGCGTACCGGAAATCAGTGCCGCGTCTATCCTGGCGAAAGTGACGCGTGACGCCGAAATGGCG -GCGCTGGATATTGTTTTCCCGCAATATGGTTTTGCCCAACACAAAGGGTACCCAACCGCTTTTCATCTGGAAAAACTGGC -TGAACACGGCGCGACCGAACACCATCGGCGCAGCTTTGGGCCTGTCAAACGCGCACTGGGACTTGCGTCCTGATTCTTGT -GTCGAGATTAAGTAAACCGGAATCTGAAGATGTCTGAACCACGTTTCGTACACCTGCGGGTGCACAGCGACTACTCGATG -ATCGATGGCCTGGCCAAAACCGCACCGTTGGTAAAAAAGGCGGCGGCGTTGGGTATGCCAGCACTGGCGATCACCGATTT -CACCAACCTTTGTGGTCTGGTGAAGTTCTACGGAGCGGGACATGGCGCAGGGATTAAGCCTATCGTCGGGGCAGATTTTA -ACGTCCAGTGCGACCTGCTGGGTGATGAGTTAACCCACCTGACGGTACTGGCGGCGAACAATACCGGCTATCAGAATCTG -ACGTTGCTGATCTCAAAAGCGTATCAGCGCGGGTACGGTGCCGCCGGGCCGATCATCGATCGCGACTGGCTTATCGAATT -AAACGAAGGGTTGATCCTTCTTTCCGGCGGACGCATGGGCGACGTCGGACGCAGTCTTTTGCGTGGTAACAGCGCGCTGG -TAGATGAGTGTGTCGCGTTTTATGAAGAACACTTCCCGGATCGCTATTTTCTCGAGCTGATCCGCACCGGCAGGCCGGAT -GAAGAAAGCTATCTGCACGCGGCGGTGGAACTGGCGGAAGCGCGCGGTTTGCCCGTCGTGGCGACCAACGACGTGCGCTT -TATCGACAGCAGCGACTTTGACGCACACGAAATCCGCGTCGCGATCCACGACGGCTTTACCCTCGACGATCCTAAACGCC -CGCGTAACTATTCGCCGCAGCAATATATGCGTAGCGAAGAGGAGATGTGTGAGCTGTTTGCCGACATCCCCGAAGCCCTT -GCCAACACCGTTGAGATCGCCAAACGCTGTAACGTAACCGTGCGTCTTGGTGAATACTTCCTGCCGCAGTTCCCGACCGG -GGACATGAGCACCGAAGATTATCTGGTCAAGCGTGCAAAAGAGGGCCTGGAAGAGCGTCTGGCCTTTTTATTCCCTGATG -AGGAAGAACGTCTTAAGCGCCGCCCGGAATATGACGAACGTCTGGAGACTGAACTTCAGGTTATCAACCAGATGGGCTTC -CCGGGCTACTTCCTCATCGTTATGGAATTTATCCAGTGGTCGAAAGATAACGGCGTACCGGTAGGGCCAGGCCGTGGCTC -CGGTGCGGGTTCACTGGTGGCCTACGCGCTGAAAATCACCGACCTCGATCCGCTGGAATTTGACCTGCTGTTCGAACGTT -TCCTTAACCCGGAACGTGTCTCCATGCCTGACTTCGACGTTGACTTCTGTATGGAGAAACGCGATCAGGTTATCGAGCAC -GTAGCGGACATGTACGGTCGTGATGCGGTATCGCAGATCATCACCTTCGGTACAATGGCGGCGAAAGCGGTGATCCGCGA -CGTAGGCCGCGTGCTGGGGCATCCGTACGGCTTTGTCGATCGTATCTCGAAACTGATCCCGCCCGATCCGGGGATGACGC -TGGCGAAAGCGTTTGAAGCCGAGCCGCAGCTGCCGGAAATCTACGAAGCGGATGAAGAAGTTAAGGCGCTGATCGACATG -GCGCGCAAACTGGAAGGGGTCACCCGTAACGCCGGTAAGCACGCCGGTGGGGTGGTTATCGCGCCGACCAAAATTACCGA -TTTTGCGCCGCTTTACTGCGATGAAGAGGGCAAACATCCGGTCACCCAGTTTGATAAAAGCGACGTTGAATACGCCGGAC -TGGTGAAGTTCGACTTCCTTGGTTTGCGTACGCTCACCATCATCAACTGGGCGCTGGAGATGATCAACAAGCGGCGGGCG -AAGAATGGCGAGCCGCCGCTGGATATCGCTGCGATCCCGCTGGATGATAAGAAAAGCTTCGACATGCTGCAACGCTCGGA -AACCACGGCGGTATTCCAGCTTGAATCGCGCGGCATGAAGGACCTGATCAAGCGTCTACAACCTGACTGCTTCGAAGATA -TGATCGCCCTAGTGGCACTGTTCCGCCCCGGTCCGTTGCAATCAGGGATGGTGGATAACTTTATCGACCGTAAACATGGT -CGTGAAGAGATCTCCTATCCGGACGTACAGTGGCAGCATGAAAGCCTGAAACCGGTACTGGAGCCAACCTACGGCATTAT -CCTGTATCAGGAACAGGTCATGCAGATTGCGCAGGTGCTTTCTGGTTATACCCTCGGTGGCGCGGATATGCTGCGTCGTG -CGATGGGTAAGAAAAAGCCGGAAGAGATGGCTAAGCAACGTTCTGTATTTGCTGAAGGTGCAGAAAAGAACGGAATCAAC -GCTGAACTGGCGATGAAAATCTTCGACCTGGTGGAGAAATTCGCTGGTTACGGATTTAACAAATCGCACTCTGCGGCCTA -TGCTTTGGTGTCATATCAAACGTTATGGCTGAAAGCGCACTATCCTGCGGAGTTTATGGCGGCGGTAATGACCGCCGATA -TGGACAACACCGAGAAGGTGGTGGGTCTGGTGGATGAGTGCTGGCGGATGGGGCTGAAAATCCTGCCACCAGATATAAAC -TCCGGTCTTTACCATTTCCACGTCAACGACGACGGCGAAATCGTGTATGGTATTGGCGCGATCAAAGGGGTCGGTGAAGG -TCCGATTGAGGCCATCATCGAAGCCCGTAATAAAGGCGGCTACTTCCGCGAACTGTTTGATCTCTGCGCCCGTACCGACA -CCAAAAAGTTGAACCGTCGCGTGCTGGAAAAACTGATCATGTCCGGGGCGTTTGACCGTCTTGGGCCACATCGCGCAGCG -CTGATGAACTCGCTGGGCGATGCGTTAAAAGCGGCAGATCAACACGCGAAAGCGGAAGCTATCGGTCAGGCCGATATGTT -CGGCGTGCTGGCCGAAGAGCCGGAACAAATTGAACAATCCTACGCCAGCTGCCAACCGTGGCCGGAGCAGGTGGTATTAG -ATGGGGAACGTGAAACGTTAGGCCTGTACCTGACCGGACACCCTATCAACCAGTATTTAAAAGAGATTGAGCGTTATGTC -GGAGGCGTAAGGCTGAAAGACATGCACCCGACAGAACGTGGTAAAGTCATCACGGCTGCGGGGCTCGTTGTTGCCGCGCG -GGTTATGGTCACCAAGCGCGGCAATCGTATCGGTATCTGCACGCTGGATGACCGTTCCGGGCGGCTGGAAGTGATGTTGT -TTACTGACGCCCTGGATAAATACCAGCAATTGCTGGAAAAAGACCGCATACTTATCGTCAGCGGACAGGTCAGCTTTGAT -GACTTCAGCGGTGGGCTTAAAATGACCGCTCGCGAAGTGATGGATATTGACGAAGCCCGGGAAAAATATGCTCGCGGGCT -TGCTATCTCGCTGACGGACAGGCAAATTGATGACCAGCTTTTAAACCGACTCCGTCAGTCTCTGGAACCCCACCGCTCTG -GGACAATTCCAGTACATCTCTACTATCAGAGGGCGGATGCACGCGCGCGGTTGCGTTTTGGCGCGACGTGGCGTGTCTCT -CCGAGCGATCGTTTATTAAACGATCTCCGTGGCCTCATTGGTTCGGAGCAGGTGGAACTGGAGTTTGACTAATACAGGAA -TACTATGAGTCTGAATTTCCTTGATTTTGAACAGCCGATTGCAGAGCTGGAAGCGAAAATCGATTCTCTGACTGCGGTTA -GCCGTCAGGATGAGAAACTGGATATTAACATCGATGAAGAAGTGCATCGTCTGCGTGAAAAAAGCGTAGAACTGACACGT -AAAATCTTCGCCGATCTCGGTGCATGGCAGATTGCGCAACTGGCACGCCATCCACAGCGTCCTTATACCCTGGATTACGT -TCGCCTGGCATTTGATGAATTTGACGAACTGGCTGGCGACCGCGCGTATGCAGACGATAAAGCTATCGTCGGTGGTATCG -CCCGTCTCGATGGTCGTCCGGTGATGATCATTGGTCATCAAAAAGGTCGTGAAACCAAAGAAAAAATTCGCCGTAACTTT -GGTATGCCAGCGCCAGAAGGTTACCGCAAAGCACTGCGTCTGATGCAAATGGCTGAACGCTTTAAGATGCCTATCATCAC -CTTTATCGACACCCCGGGGGCTTATCCTGGCGTGGGCGCAGAAGAGCGTGGTCAGTCTGAAGCCATTGCACGCAACCTGC -GTGAAATGTCTCGCCTCGGCGTACCGGTAGTTTGTACGGTTATCGGTGAAGGTGGTTCTGGCGGTGCGCTGGCGATTGGC -GTGGGCGATAAAGTGAATATGCTGCAATACAGCACCTATTCCGTTATCTCGCCGGAAGGTTGTGCGTCCATTCTGTGGAA -GAGCGCCGACAAAGCGCCGCTGGCGGCTGAAGCGATGGGTATCATTGCTCCGCGTCTGAAAGAACTGAAACTGATCGACT -CCATCATCCCGGAACCACTGGGTGGTGCTCACCGTAACCCGGAAGCGATGGCGGCATCGTTGAAAGCGCAACTGCTGGCG -GATCTGGCCGATCTCGACGTGTTAAGCACTGAAGATTTAAAAAATCGTCGTTATCAGCGCCTGATGAGCTACGGTTACGC -GTAATTCGCAAAAGTTCTGAAAAAGGGTCACTTCGGTGGCCCTTTTTTATCGCCACGGTTTGAGCAGGCTATGATTAAGG -AAGGATTTTCCAGGAGGAACACATGAACATCATTGCCATTATGGGACCGCATGGCGTCTTTTATAAAGATGAGCCCATCA -AAGAACTGGAGTCGGCGCTGGTGGCGCAAGGCTTTCAGATTATCTGGCCACAAAACAGCGTTGATTTGCTGAAATTTATC -GAGCATAACCCTCGAATTTGCGGCGTGATTTTTGACTGGGATGAGTACAGTCTCGATTTATGTAGCGATATCAATCAGCT -TAATGAATATCTCCCGCTTTATGCCTTCATCAACACCCACTCGACGATGGATGTCAGCGTGCAGGATATGCGGATGGCGC -TCTGGTTTTTTGAATATGCGCTGGGGCAGGCGGAAGATATCGCCATTCGTATGCGTCAGTACACCGACGAATATCTTGAT -AACATTACACCGCCGTTCACGAAAGCCTTGTTTACCTACGTCAAAGAGCGGAAGTACACCTTTTGTACGCCGGGGCATAT -GGGCGGCACCGCATATCAAAAAAGCCCGGTTGGCTGTCTGTTTTATGATTTTTTCGGCGGGAATACTCTTAAGGCTGATG -TCTCTATTTCGGTCACCGAGCTTGGTTCGTTGCTCGACCACACCGGGCCACACCTGGAAGCGGAAGAGTACATCGCGCGG -ACTTTTGGCGCGGAACAGAGTTATATCGTTACCAACGGAACATCGACGTCGAACAAAATTGTGGGTATGTACGCCGCGCC -ATCCGGCAGTACGCTGTTGATCGACCGCAATTGTCATAAATCGCTGGCGCATCTGTTGATGATGAACGATGTAGTGCCAG -TCTGGCTGAAACCGACGCGTAATGCGTTGGGGATTCTTGGTGGGATCCCGCGCCGTGAATTTACTCGCGACAGCATCGAA -GAGAAAGTCGCTGCTACCACGCAAGCACAATGGCCGGTTCATGCGGTGATCACCAACTCCACCTATGATGGCTTGCTCTA -CAACACCGACTGGATCAAACAGACGCTGGATGTCCCGTCGATTCACTTCGATTCTGCCTGGGTGCCGTACACCCATTTTC -ATCCGATCTACCAGGGTAAAAGTGGTATGAGCGGCGAGCGTGTTGCGGGAAAAGTGATCTTCGAAACGCAATCGACCCAC -AAAATGCTGGCGGCGTTATCGCAGGCTTCGCTGATCCACATTAAAGGCGAGTATGACGAAGAGGCCTTTAACGAAGCCTT -TATGATGCATACCACCACCTCGCCCAGTTATCCCATTGTTGCTTCGGTTGAGACGGCGGCGGCGATGCTGCGTGGTAATC -CGGGCAAACGGCTGATTAACCGTTCAGTAGAACGAGCTCTGCATTTTCGCAAAGAGGTCCAGCGGCTGCGGGAAGAGTCT -GACGGTTGGTTTTTCGATATCTGGCAACCGCCGCAGGTGGATGAAGCCGAATGCTGGCCCGTTGCGCCTGGCGAACAGTG -GCACGGCTTTAACGATGCGGATGCCGATCATATGTTTCTCGATCCGGTTAAAGTCACTATTTTGACACCGGGGATGGACG -AGCAGGGCAATATGAGCGAGGAGGGGATCCCGGCGGCGCTGGTAGCAAAATTCCTCGACGAACGTGGGATCGTAGTAGAG -AAAACCGGCCCTTATAACCTGCTGTTTCTCTTTAGTATTGGCATCGATAAAACCAAAGCAATGGGATTATTGCGTGGGTT -GACGGAATTCAAACGCTCTTACGATCTCAACCTGCGGATCAAAAATATGCTACCCGATCTCTATGCAGAAGATCCCGATT -TCTACCGCAATATGCGTATTCAGGATCTGGCACAAGGGATCCATAAGCTGATTCGTAAACACGATCTTCCCGGTTTGATG -TTGCGGGCATTCGATACTTTGCCGGAGATGATCATGACGCCACATCAGGCATGGCAACGACAAATTAAAGGCGAAGTAGA -AACCATTGCGCTGGAACAACTGGTCGGTAGAGTATCGGCAAATATGATCCTGCCTTATCCACCGGGCGTACCGCTGTTGA -TGCCTGGAGAAATGCTGACCAAAGAGAGCCGCACAGTACTCGATTTTCTACTGATGCTTTGTTCCGTCGGGCAACATTAC -CCCGGTTTTGAAACGGATATTCACGGCGCGAAACAGGACGAAGACGGCGTTTACCGCGTACGAGTCCTAAAAATGGCGGG -ATAACTTGCCAGAGCGGCTTCCGGGCGAGTAACGTGCTGTTAACAAATAAAGGAGACGTTATGCTGGGTTTAAAACAGGT -TCACCATATTGCGATTATTGCGACGGATTATGCGGTGAGCAAAGCTTTCTACTGCGATATTCTTGGTTTCACGCTGCAAA -GCGAAGTCTATCGCGAAGCGCGCGACTCATGGAAAGGGGATTTGGCGCTTAATGGGCAATATGTGATTGAGCTTTTCTCA -TTTCCGTTCCCGCCGGAACGACCCAGCCGACCGGAAGCTTGCGGTCTGCGTCATCTGGCTTTTAGCGTTGATGACATCGA -TGCGGCAGTGGCGCACCTTGAAAGCCATAACGTGAAGTGTGAAACCATCCGTGTCGATCCATACACGCAAAAACGCTTCA -CCTTCTTTAACGATCCGGACGGGCTGCCGTTGGAACTGTATGAGCAGTAAGGCTTGTCATCGCCGCATTTGCCCGGTAAC -GTGCCGGGCATTGCTACTGTAAAATCGCACCATCATGACACTCACGCTCAATAGACAACTTCTCACCTCACGCCAGATTC -TGGTGGCCTTTAGCGGCGGGCTTGACTCCACCGTTCTGCTGCATCAGTTGGTGCAGTGGCGGACGGAAAATCCGGGTGTC -GCTCTGCGCGCTATTCATGTGCATCACGGTTTAAGTGCCAATGCCGATGCCTGGGTTACGCATTGCGAAAACGTCTGCCA -ACAGTGGCAGGTGCCGCTGGTGGTCGAACGCGTACAACTTGCGCAAGAAGGACTGGGCATTGAGGCCCAGGCGCGGCAGG -CACGTTATCAGGCATTTGCCCGCACCTTGTTGCCCGGTGAAGTGCTGGTCACCGCGCAACATCTCGACGATCAATGTGAA -ACCTTTCTGCTGGCGCTAAAACGCGGCAGTGGCCCTGCCGGGCTTTCGGCTATGGCGGAAGTCTCGGAGTTTGCCGGAAC -GCGGCTTATTCGCCCGTTGCTCGCCCGCACGCGGGGGGAACTGGTGCAGTGGGCGCGTCAGTATGATTTACGCTGGATTG -AAGACGAAAGTAATCAGGACGACTCATACGATCGTAACTTTCTGCGCCTGCGCGTAGTGCCGTTATTGCAGCAGCGTTGG -CCGCATTTTGCCGAAGCAACGGCCCGCAGCGCCGCACTTTGTGCTGAACAAGAGAGCCTGCTGGATGAACTGCTGGCAGA -TGATTTAGCACACTGTCAATCGCCGCAGGGGACGCTGCAGATTGTGCCAATGCTGGCGATGAGTGATGCCCGCCGCGCGG -CGATTATCCGCCGCTGGCTGGCAGGGCAGAATGCACCGATGCCTTCCCGCGACGCGTTGGTGAGGATCTGGCAGGAAGTG -GCGCTGGCGCGGGAAGATGCCTCACCCTGTTTACGTTTGGGCGCGTTTGAAATCCGACGCTATCAGTCGCAACTGTGGTG -GATTAAATCCGTCACCGGGCAAAGCGAAAACATTGTGCCGTGGCAGACGTGGCTTCAACCGCTGGAATTACCGGCGGGGC -TGGGAAGTGTACAGCTTAATGCGGGAGGCGATATTCGCCCTCCGCGTGCAGACGAAGCGGTCAGCGTGCGTTTCAAAGCG -CCAGGATTGCTGCATATTGTCGGGCGTAACGGCGGACGTAAGCTAAAGAAAATCTGGCAAGAGCTGGGCGTGCCGCCGTG -GCTACGTGACACCACGCCACTGCTGTTTTATGGCGAAACGCTGATTGCGGCGGCAGGGGTATTTGTGACGCAAGAAGGTG -TGGCTGAAGGTGAGAATGGCGTAAGTTTTGTCTGGCAGAAAACGCTTAGTTAAGTGAAAGCCGGATAAGACGCATCAAAC -GTCGCATCCGGCGAAAGTCAATCAGGATTCGCTTACCACCACCGTACCGATTTCCGGGTGGCTAAAGCTGGTAATTTTAT -CCAGACGCAGCTCGCGGGTTTCGCCAGCGGCCTCGACGACCAGGTACTCCACATTTTTGCGGGAGACTAAATCACTGGCT -TTTGCCTGCAATTTTTCGCCATCTTTCAGCTCAAGTGTCAGCATTAAATGATGCTGGCAGGCGAGCTCAAGATTATCGTA -ATCATCACAATTGATTGGTTGATACGTATCATTCATTGACATAATCGCTCACCAGTAAGTTTGCCGCAGCGTATGCTGCT -TTTTCCCTGACAGCCTCAGAAAGGGCGTCGTCGGCAGCCATTTCATTCAGCACTTTCAAAACGCAGCCCAGCGCGTCCGG -AACGTATCCTAAGTCTCCGCTGGCGATTTCCGCGTACCGCTTGCGTATTAACTCACAATATTTTTCCACATGCCCTCCTG -TCAGCACTCTGACTTAACCGTGGATGCAAGTCTAAGCCTACGAAGATAAACTCTGTTTCGCAAGGTGACTATACCACACT -CATTTCTGCAATATCAGCGCCGCAACTGCACGTATTCCGTTACAATGGCCTCCTGATTCGAAAGGAGTTTTCTTATGGCG -CTTAAAGCGACAATTTATAAAGCGACGGTTAATGTGGCCGATCTCGACCGCAACCAGTTTCTCGATGCCTCTCTGACGCT -GGCGCGCCATCCTTCAGAAACCCAGGAGCGTATGATGCTGCGCTTGCTGGCGTGGCTGAAATATGCTGATGAACGTCTGC -AATTTACCCGTGGTTTGTGTGCCGATGATGAGCCGGAAGCGTGGCTGCGTAACGATCACCTGGGCATTGATTTGTGGATT -GAGCTGGGGCTGCCGGATGAGCGGCGGATTAAGAAAGCCTGCACCCAGGCCGCAGAAGTGGCGCTGTTTACCTATAATAG -TCGGGCGGCGCAAATCTGGTGGCAGCAAAATCAGAGCAAATGTGTGCAGTTTGCCAATCTTTCCGTCTGGTATCTGGACG -ATGAACAACTGGCGAAAGTAAGCGCCTTTGCCGATCGTACCATGACGCTGCAGGCAACGATTCAGGATGGCGTGATCTGG -TTATCGGATGATAAGAATAATCTGGAAGTGAACTTAACCGCCTGGCAACAACCTTCATGATTGTGATTTCCCGACATGTT -GCTATTCCCGATGGTGAGCTTGAGATCACCGCCATTCGTGCGCAGGGCGCGGGCGGGCAGCATGTTAATAAGACCTCAAC -GGCTATTCATCTGCGTTTTGACATTCGGGCGTCCAGCCTGCCAGAGTATTACAAAGAGCGTCTGCTCGCCGCCAGCCATC -ATTTGATCAGCAGTGATGGCGTGATTGTCATTAAGGCACAGGAATACCGCAGTCAGGAACTGAACCGCGAAGCAGCTCTG -GCCCGGCTGGTGGCTATGATTAAAGAATTAACAACAGAAAAAAAAGCCCGACGACCCACGCGGCCCACCCGTGCATCGAA -AGAGCGCAGGCTGGCATCGAAAGCACAAAAATCAAGCGTGAAGGCGATGCGCGGCAAAGTGCGCAGCGGTCGGGAATAAA -AAGAAGGAATGGATGGTGAAAAAAGCGATAGTGACAGCGATGGCTGTAATCAGCCTCTTTACTCTGATGGGATGTAATAA -TCGGGCCGAAGTCGATACGCTTTCTCCGGCGCAGGCTGCCGAACTGAAACCGATGCCGCAAAGTTGGCGCGGCGTGCTGC -CGTGTGCCGATTGCGAAGGAATCGAAACCTCTCTGTTCCTCGAAAAAGACGGAACATGGGTGATGAATGAGCGTTATCTC -GGTGCTCGTGAAGAACCTTCCTCCTTCGCTTCCTACGGTACATGGGCGCGAACCGCTGACAAGCTGGTATTAACCGACAG -CAAAGGTGAAAAGTCATATTATCGGGCGAAAGGCGATGCGCTGGAGATGCTCGATCGTGAAGGCAATCCGATTGAATCGC -AGTTCAACTATACGCTGGAAGCGGCACAATCCAGTTTACCTATGACGCCGATGACCCTGCGGGGCATGTATTTTTATATG -GCTGATGCGGCGACCTTCACTGATTGCGCGACCGGAAAACGTTTCATGGTAGCGAATAACGCAGAGCTGGAGCGTAGCTA -CCTGGCTGCGCGCGGTCACAGTGAAAAACCGGTGTTACTGTCAGTAGAAGGTCACTTTACGCTTGAGGGTAATCCGGATA -CCGGTGCGCCGACTAAAGTATTGGCACCCGATACGGCAGGGAAATTTTACCCCAACCAGGATTGCAGTAGTTTGGGGCAG -TAACCCGTCTTGAGACAGAAACAAACGCAAAACAGGCCAGAAGGATATATTTCAACATTTTGAATTTGCACGTTTTTTGT -AGGCCGGATAAGGCGTTTACGCCGCATCCGGCAATGGTGCTCAACGCCTGATGCGACGCTGGCGCGTCTTATCATGCCTA -CAACCCCCCTCATACCTTAAGGCGGATAAGGCATTTACTTTATCACCGGGTCAAACCAACAAAGCGACCCGCCTTGATAT -AAATCCCAGGCTTCAGGTGCCCAACATACTGTAACTGCGTTTCTGGCTTAAACGCAGAGACATCACCAATACGCATATGC -ATCAGATCGGCAGGGCTAATCCAGCCCGATTGCGCCAGTGTAAGTGGATGCCCGGCTTTGGCAAAGGCATCCGTGACAAA -TTCCGAACAAAACCACGACTTTTTGTCTCCTTCGCCCACACTGCTTAACTGCGCTTTCGCCAGGCCGCTGACGCACTGTT -GGCGAAAATCCTCGGAGAACGGATTCAGTGAGCACATCTGGCGAGTCACCATAAAGGGAATAAATTCGACAATGCCGCGA -TAGTTATAACCGCTATCTTTGATTTTATTGGCAAACGCGGTGATATCTGTGGCTTGTTGCGGGGTAAGATCCGGGACTCG -TAAGACGAAAAGCTTATCACTATGCTTCATCGCTTTTTTAAGGGAAACGATCTGGACGCCAGCGCCTGTCGCTTCTGCAA -CGTTATTATCACCCAGAAAGATTGCAACGTGACTCACAGAGGAAGTGCTGAAGACGCGGATTCCAAATGAGGTTACCCCA -AGGCTTGAGGAGAACAGCAAATCGCCGGGTTTGAGATCAGGTGCCGTTATTTCTTTTATTGATTGTTCGGTGAAAGAGCT -TTGATGCTGGAATTTGACAGCCCATGTTTTTGCCTCGGCATCTACTGCTGTGGCTGATGGGTCTGGCTGGCTGATATCAA -CGGTACAAGCCGAAAGTAAAAGAAAGCTGGGGAGAAACAGGCGGCAGTACGCCTTTGGTTTATCCATTTTATACAATCCA -TGTAAAAAAAGGGCCCTGAAATTCAGGACCCTTTCTGGCATCAGCCTTTAATCTGTTTCACCAGATATTCGACGATGTCA -CCAGTCTTAATTAACTGTTTCTCGCCGTTGCGACGATATTTATATTCGATATCGTCGTTGTCGAGGTTACGGTCGCCCAG -CACAATAGTGTGCGGAATACCGATCAGTTCCATATCAGCAAACATCACGCCCGGACGCTCTTTGCGGTCATCCAGCAGCA -CTTCGATACCTTGTGCACGCAGTTCGCTGTACAGTTTCTCAGCAAGCTCTTGTACGCGGAAGGATTTGTGCATGTTCATC -GGCAGAATCGCCACCTGGAACGGCGCGATAGCGTCAGGCCATACGATGCCTCGTTCGTCGTAGTTCTGCTCAATCGCCGC -AGCTACCACACGCGTTACCCCGATACCGTAGCAACCCATCGTCAGGATTTGGTTACGGCCATCTTCACCCTGTACGGAGG -CTTTCAGTGCTTCGGAGTACTTGGTACCCAGCTGGAAGATGTGACCAACTTCGATACCACGTTTGATCAGCAGCCTACCC -TGGCCATCCGGGCTTGGATCGCCAGCCACCACGTTACGGATATCTGCAACTTCCGGGGTAGCGACATCGCGATCCCAGTT -GATGCCGAAGTAGTGTTTACCATCGATGTTAGCACCAGCAGCGAAATCACTCATCGCCGCAACGGTACGGTCAATCACCA -CCGGAATCGGCATGTTTACCGGACCCAGTGAACCCGGACCGGCTTTAACCACGGCACGAATTTCTTCTTCGGTCGCGAAA -GTCAGCGGGCTTGCAACCTGCGGCAGTTTTTCTGCTTTAACTTCGTTCAGCTCGTGATCACCGCGCACCAGCAGCGCAAC -CTGCGGGAAGCTGCTGCCTTCAACCGCTTTAACCAGCAGAGTCTTAACCGTTTTCTCAATCGGCAGATTGAACTGTTCAA -CCAGTTCCGCGATGGTTTTCGCGTTCGGCGTATCAACCAGCGTCATTTCCTGGGTAGCAGCAGCGCGCGGTTCTTTCGGC -GCGATAGCTTCTGCCAGTTCAATGTTCGCTGCATAGTCAGAGGTGTCGGAGAAGACCACATCGTCTTCACCGCTCTGCGC -CAGCACCTGGAATTCGTGAGAGGCGCTGCCGCCGATAGAACCGGTGTCGGCTTGTACGGCGCGGAAATCCAGCCCCATGC -GGCTGAAGATTTTGCTGTAGGCCGCATACATTGCATCGTAGGTTTCCTGCAGGGATTCCTGAGAAGTATGGAAAGAGTAA -GCATCTTTCATCAGGAATTCGCGGGAACGCATGACGCCGAAACGCGGACGCACTTCGTCGCGGAACTTGGTCTGGATCTG -ATAGAAGTTCAGCGGCAGCTGTTTGTAAGAGCTAAGCTCGTTACGAATCAGGTCAGTGATAACTTCTTCATGAGTTGGGC -CGAGTACGAACGGACGCTCGCCACGGTCAACAAAACGCAGCAGTTCCGGACCGTACTGTTCCCAACGACCACTCTCTTGC -CACAAATCGGCTGGCTGAACCACCGGCATCGACACCTCGATCGCACCGGCGTTGTTCATCTCTTCACGCACGATGTTTTC -GACTTTTTTCAGAACGCGCACGCCGGTCGGCAGCCAGGTATATAACCCGGAGGCCAGCTTGCGGATCATCCCGGCGCGCA -GCATCAGCTGATGGCTGATCACCTCGGCGTCGGCAGGTGTCTCCTTGAGAGTGGAGAGCAGGTATTGGCTAGTACGCATG -TTGTTACGGTTCCAGTTGGAAGGTAGAACAGGCTCAAGGCGAGCCTGGGACAAAAAAAAGTGATTTAGTTTACCAGTGCA -AAAGAAATGTCAAAAGAGAAGGGCGTGAATTTAACGCGGTTCCAGCGCAAAGACTTCAAAACCTGCGTCGGTGACGCGCC -AGCGAACGTTAAAATCATGTAGCCAGACGGCATAGGTTTTGCCCGTTTCCTCACCTTTACGATAGGCCGGGCGCGGGTCC -TGCGCCAGTACTTCGCGGATAAACAGCGTTAACTGCGGATAACGCTTCTCCAGCGTCAAAAGCTGCTTTTCGACCTCTGC -GGTAAAACTCACCGCCATCTCTGCAGCTGGCGCACTTTGCGCATAGCTGGCACTGGCATCGGGAAGCGATTCGGCAAAGG -GGAGATACGGTTTGATATCCACTACCGGCGTACCATCGACCAGATCCAGACTGCCGAGCTTCAGAATCACGCTGTCTTTA -TGGCAAACAACCTCTTTCAGCTCTACCAGCGACATGCCAATTGGGTTAGGGCGGAAAGTAGAGCGTGTTGCGAAAACCCC -CATTCTGGCGTTACCGCCGAGGCGCGGTGGACGCACAGTCGGACGCCAGCCGCCTTCCATCGTTTGATGAAAGACGAAAA -GGATCCATAAATGGCTGAACGCTTCCAGGCCGCGAACGGCGTCGGCCTGGTTGTAGGGAGCAATGAGATGCAGTTCGCCG -TTGGCGCTTTTTACCAGACCTGGCTGGCGCGGAACGGCGAACTTTTCTTTATAGGGCGAGCGAATAACGCCTATTTGCTC -GAACTGGAAACTGCTCATTTCGCCGTAATGTTAAGCGCAGAACCGATACATACAGCCTGACGATAGCAGCCTGGCGTACC -GCTGGTGACTTCGCAGCTATGCAGTAATACAGCATTGGCTTTCATTTTAGAGGCGTTGATTTGCATCCGCTTACGTGCGG -TTGGAATGCTCGGCGGAGAGTCCTGATTAGAGGCCTGGCAAGAGTCGCCACTGACTTCACCGAGATCGCGGAACGGTTTG -CCGACTAATTCTTCTGCATTGGTATAAATTCGGACCGGCGTGGCGCGCGGCGCTTTCGGTTTTGCAGGCTCCGCTTTCGG -CTGGGGTGCAGTGCTTTGAACGGGTTCGACAGGGGATCTGCTTAACATGGAACAGCCGCTTAGCATGAGTGCTACTAAAC -AGATCGGTAAAGCACGCATAGTATTTCCTCAATGTATGATCAAAACGTCAATATTGAATCAGGAGCTTGTAAAAATGACA -AGACGGGCAAGCGCCCGTCCTGAATGATATTACAAATTGTGGAAACAGCCTAAAAATTACCAGCCTTTAACAGCTCCGCC -GTTAAACACTTTGTTTGCTGCTTCGTAAACTTCGTCAGACTGATAAGCCTGGACGAATTTCTTCACGTTCTCGGCGTCTT -TGTTATCTTCACGCGTCACGATCAGGTTTACGTACGGGGACTCTTTATCTTCAACAAAGATACCGTCTTTCGCCGGAGTC -AGGCCAATCTGGCTGGCATAGGTGGTATTGATAACTGCCAGAGCGATTTGCGCGTCGTCCAGAGAACGCGGCAGTTGCGG -TGCTTCCAGTTCAACAATTTTCAGATTTTTGGGGTTCTCAACAACATCAAGAACGGTCGGCAGCAGGCCAACGCCATCTT -TCAGTTTGATCAAGCCCACTTTTTGCAGCAGCAGCAGTGAACGACCAAGGTTAGTTGGGTCGTTTGGCACGGCAACCTGC -GAACCATCCTGCAGTTCATCCAGTGATTTGATTTTCTTGGAGTAACCAGCAATCGGATAAACAAAAGTGTTGCCTACTGC -GACCAGTTTGTAGCCACGATCTTTCAGTTGCTGATCAAGGTACGGTTTATGCTGGAAGGCGTTGGCGTCGATATCGCCTT -TGCTCAATGCTTCGTTTGGCAGAACATAGTCGTTGAAGGTTACCAGCTCAACGTCCAGGCCATATTTGTCTTTCGCAACT -TTCTGCGCGACTTCTGCAACCTGCTGTTCGGCACCAACAATCACGCCGACTTTAATGTGGTTTGGATCTTTTTCATCCTG -ACCGCAGCCTACCAGTGCCAGTGATCCGATCAGGGCTCCCACTGCCGCAAAGGTTTTGAATTTGAACGCCATACCTTATT -CCTTCTTCAATTATTTATGTTGTGTTGAACGTTACTTGCGAGTGACAGCCCGGACGATGCGGTCGCCTGCGAACTGAATT -AAATAAACCAGAATGACCAGCAATACCAGTACCGTATTCATCACCGTCGCGTTATAGCCGATGTAGCCATACTGATAGCC -AATCTGACCTAAACCACCGGCACCGACTGCACCACCCATCGCGGAATAACCGACCAGGGTAATCAGGGTGATAGTTGCCG -CATTCACCAGACCCGGCAGCGCTTCCGGTAACAGCACCTTACGGACGATCTGCATCGGCGTGGCACCCATTGCGCGGGAA -GCTTCAATTAACCCGGTTGGGATCTCCAGCAGAGCGTTCTCGACCATACGGGCAATAAACGGTGCTGCACCAACGGTTAA -CGGAACAATCGCTGCCTGCAAACCAATCGATGTACCGACAATAACGCGGGTAAACGGAATCATCCATACAAGCAAGATAA -TGAACGGGATGGAACGGAAAATGTTCACAATCGCAGAAACGGTACGATACAGCTTCGCGTTAGCAATAATTTGCCCCGGA -CGCGTGACATAAAGCAGAACGCCAACCGGCAGACCAATCACAAAGCCAAAAAAACCGGATACGAAGGTCATTGCCAGCGT -TTCCCATACGCCACGAACCAGCAGCCACATCATCGGCTCAGACATAACCCAGTACCTCTACTTTTACATGGTGTTCCTGC -AGCCAGGCAATGGCGGCTTGCGTATCTTGTTGTGTGCCGTGCATTTCAGTCAGCATGATGCCGAACTTAACGCCACCGGC -GTAATCCATCTGCGCGCTAATAATGTTGTTGTTGACGTTGAAACGACGCGCGGTTTCAGAAAGCAGTGGGGCATCGACCG -ATTGACCGGTAAACTCCAGACGCAGCATCGGCACGCAGTCAGTAAATGGCTCCGCTTGCAGACGTTCCTGGTAATCTTCC -GGGATATCCAGATGCAGGGTCGACTGAATAAACTTCTGCGCCAGCGGCGTTTTCGGATGCGAGAACACTTCACTTACCGT -GTCCTGCTCGATCAGTTCTCCATTGCTGATGACCGCCACGCAATCACAAATGCGCTTCACAACGTCCATTTCGTGGGTGA -TCAACAGAATCGTCAACCCCAGACGGCGGTTGATGTCTTTCAGCAGTTCGAGAATAGAACGTGTCGTTGCCGGGTCCAGC -GCGCTGGTGGCTTCATCACACAGCAATACTTTGGGATTGCTGGCTAACGCACGGGCAATTGCCACACGTTGTTTCTGCCC -ACCGGAAAGATTCGACGGGTAGCTATCATGCTTATCGCCAAGACCAACCAATGACAGCAATTCCGTCACGCGACGTTTGA -CCTCGTCTTTCGGTGTGTTGTCCAGCTCCAGCGGCAGAGCCACGTTGCCAAAAACAGTACGCGAAGAGAGCAGGTTAAAA -TGCTGGAAAATCATACCAATCTGGCGGCGAGCTTTGGTCAACTCGGATTCTGACAGCGTGGTCAGTTCCTGGCCATCGAC -CAGCACGCTACCCTCGGTTGGGCGCTCCAGCAGGTTTACACAACGTATAAGCGTACTCTTACCCGCGCCTGAGGCACCGA -TAACGCCATAAATTTGTCCAGCTGGCACATGCAGGCTGACGTTGTTCAACGCCTGGATGGTGCGGGTGCCCTGGTGGAAC -ACTTTGGTGATATTCGAAAGTTTTATCATTGATTATTTATTATCGTCATTAAGTTAGTCGTGGCATCTCGAATGCCTGAA -ACGGGCAACGCCGTCAATGAAATGGATGTTAAGGCATCCAGACGTCTAAATCAATCAGGTTTATGCGAAGAGCACTTTCT -TGCAGGTCGAAACATGCGATACTAGCGTCACATGCCTTATTAAGGAGCTATAAAAGGTGGCGAAGAGCGTACCCGCAATT -TTTCTTGACCGTGATGGCACCATTAATGTCGATCACGGCTATGTCCATGAGATCGACAACTTTGAATTTATCGACGGTGT -TATTGACGCCATGCGCGAGCTAAAAAAAATGGGCTTTGCGCTGGTGGTAGTAACCAACCAGTCTGGCATTGCTCGCGGTA -AATTTACCGAAGCACAGTTTGAAACGCTGACCGAGTGGATGGACTGGTCGCTGGCGGACCGAGATGTCGATCTGGATGGT -ATCTATTATTGCCCGCATCATCCGCAGGGTAGTGTTGAAGAGTTTCGCCAGGTCTGCGATTGCCGCAAACCACATCCGGG -GATGCTTTTGTCAGCACGCGATTATTTGCATATTGATATGGCCGCTTCTTATATGGTGGGCGATAAATTAGAAGATATGC -AGGCAGCGGTTGCGGCGAACGTGGGAACAAAAGTGCTGGTGCGTACGGGTAAACCTATTACGCCTGAAGCAGAAAACGCG -GCGGATTGGGTGTTAAATAGCCTGGCAGACCTGCCGCAAGCGATAAAAAAGCAGCAAAAACCGGCACAATGATTAAAAGA -TGAGCGGTTGAAATAAAAATGCATTTTTCCGCTTGTCTTCCTGAGCCGACTCCCTATAATGCGCCTCCATCGACACGGCG -GATGTGAATCACTTCACACAAACAGCCGGTTCGGTTGAAGAGAAAAATCCTGAAATTCAGGGTTGACTCTGAAAGAGGAA -AGCGTAATATACGCCACCTCGCGACAGTGAGCTGAAAGCCGCGTCGCAACTGCTCTTTAACAATTTATCAGACAATCTGT -GTGGGCACTCGAAGATACGGATTCTTAACGTCGCAAGACGAAAAATGAATACCAAGTCTCAAGAGTGAACACGTAATTCA -TTACAAAGTTTAATTCTTTGAGCATCAAACTTTTAAATTGAAGAGTTTGATCATGGCTCAGATTGAACGCTGGCGGCAGG -CCTAACACATGCAAGTCGAACGGTAACAGGAAGAAGCTTGCTTCTTTGCTGACGAGTGGCGGACGGGTGAGTAATGTCTG -GGAAACTGCCTGATGGAGGGGGATAACTACTGGAAACGGTAGCTAATACCGCATAACGTCGCAAGACCAAAGAGGGGGAC -CTTCGGGCCTCTTGCCATCGGATGTGCCCAGATGGGATTAGCTAGTAGGTGGGGTAACGGCTCACCTAGGCGACGATCCC -TAGCTGGTCTGAGAGGATGACCAGCCACACTGGAACTGAGACACGGTCCAGACTCCTACGGGAGGCAGCAGTGGGGAATA -TTGCACAATGGGCGCAAGCCTGATGCAGCCATGCCGCGTGTATGAAGAAGGCCTTCGGGTTGTAAAGTACTTTCAGCGGG -GAGGAAGGGAGTAAAGTTAATACCTTTGCTCATTGACGTTACCCGCAGAAGAAGCACCGGCTAACTCCGTGCCAGCAGCC -GCGGTAATACGGAGGGTGCAAGCGTTAATCGGAATTACTGGGCGTAAAGCGCACGCAGGCGGTTTGTTAAGTCAGATGTG -AAATCCCCGGGCTCAACCTGGGAACTGCATCTGATACTGGCAAGCTTGAGTCTCGTAGAGGGGGGTAGAATTCCAGGTGT -AGCGGTGAAATGCGTAGAGATCTGGAGGAATACCGGTGGCGAAGGCGGCCCCCTGGACGAAGACTGACGCTCAGGTGCGA -AAGCGTGGGGAGCAAACAGGATTAGATACCCTGGTAGTCCACGCCGTAAACGATGTCGACTTGGAGGTTGTGCCCTTGAG -GCGTGGCTTCCGGAGCTAACGCGTTAAGTCGACCGCCTGGGGAGTACGGCCGCAAGGTTAAAACTCAAATGAATTGACGG -GGGCCCGCACAAGCGGTGGAGCATGTGGTTTAATTCGATGCAACGCGAAGAACCTTACCTGGTCTTGACATCCACAGAAC -TTTCCAGAGATGGATTGGTGCCTTCGGGAACTGTGAGACAGGTGCTGCATGGCTGTCGTCAGCTCGTGTTGTGAAATGTT -GGGTTAAGTCCCGCAACGAGCGCAACCCTTATCTTTTGTTGCCAGCGGTCCGGCCGGGAACTCAAAGGAGACTGCCAGTG -ATAAACTGGAGGAAGGTGGGGATGACGTCAAGTCATCATGGCCCTTACGACCAGGGCTACACACGTGCTACAATGGCGCA -TACAAAGAGAAGCGACCTCGCGAGAGCAAGCGGACCTCATAAAGTGCGTCGTAGTCCGGATTGGAGTCTGCAACTCGACT -CCATGAAGTCGGAATCGCTAGTAATCGTGGATCAGAATGCCACGGTGAATACGTTCCCGGGCCTTGTACACACCGCCCGT -CACACCATGGGAGTGGGTTGCAAAAGAAGTAGGTAGCTTAACCTTCGGGAGGGCGCTTACCACTTTGTGATTCATGACTG -GGGTGAAGTCGTAACAAGGTAACCGTAGGGGAACCTGCGGTTGGATCACCTCCTTACCTTAAAGAAGCGTACTTTGCAGT -GCTCACACAGATTGTCTGATGAAAATGAGCAGTAAAACCTCTACAGGCTTGTAGCTCAGGTGGTTAGAGCGCACCCCTGA -TAAGGGTGAGGTCGGTGGTTCAAGTCCACTCAGGCCTACCAAATTTGCACGGCAAATTTGAAGAGGTTTTAACTACATGT -TATGGGGCTATAGCTCAGCTGGGAGAGCGCCTGCTTTGCACGCAGGAGGTCTGCGGTTCGATCCCGCATAGCTCCACCAT -CTCTGTAGTGGTTAAATAAAAAATACTTCAGAGTGTACCTGCAAAGGTTCACTGCGAAGTTTTGCTCTTTAAAAATCTGG -ATCAAGCTGAAAATTGAAACACTGAACAATGAAAGTTGTTCGTGAGTCTCTCAAATTTTCGCAACACGATGATGGATCGC -AAGAAACATCTTCGGGTTGTGAGGTTAAGCGACTAAGCGTACACGGTGGATGCCCTGGCAGTCAGAGGCGATGAAGGACG -TGCTAATCTGCGATAAGCGTCGGTAAGGTGATATGAACCGTTATAACCGGCGATTTCCGAATGGGGAAACCCAGTGTGTT -TCGACACACTATCATTAACTGAATCCATAGGTTAATGAGGCGAACCGGGGGAACTGAAACATCTAAGTACCCCGAGGAAA -AGAAATCAACCGAGATTCCCCCAGTAGCGGCGAGCGAACGGGGAGGAGCCCAGAGCCTGAATCAGTGTGTGTGTTAGTGG -AAGCGTCTGGAAAGGCGCGCGATACAGGGTGACAGCCCCGTACACAAAAATGCACATGCTGTGAGCTCGATGAGTAGGGC -GGGACACGTGGTATCCTGTCTGAATATGGGGGGACCATCCTCCAAGGCTAAATACTCCTGACTGACCGATAGTGAACCAG -TACCGTGAGGGAAAGGCGAAAAGAACCCCGGCGAGGGGAGTGAAAAAGAACCTGAAACCGTGTACGTACAAGCAGTGGGA -GCATGCTTAGGCGTGTGACTGCGTACCTTTTGTATAATGGGTCAGCGACTTATATTCTGTAGCAAGGTTAACCGAATAGG -GGAGCCGAAGGGAAACCGAGTCTTAACTGGGCGTTAAGTTGCAGGGTATAGACCCGAAACCCGGTGATCTAGCCATGGGC -AGGTTGAAGGTTGGGTAACACTAACTGGAGGACCGAACCGACTAATGTTGAAAAATTAGCGGATGACTTGTGGCTGGGGG -TGAAAGGCCAATCAAACCGGGAGATAGCTGGTTCTCCCCGAAAGCTATTTAGGTAGCGCCTCGTGAACTCATCTCCGGGG -GTAGAGCACTGTTTCGGCAAGGGGGTCATCCCGACTTACCAACCCGATGCAAACTGCGAATACCGGAGAATGTTATCACG -GGAGACACACGGCGGGTGCTAACGTCCGTCGTGAAGAGGGAAACAACCCAGACCGCCAGCTAAGGTCCCAAAGTCATGGT -TAAGTGGGAAACGATGTGGGAAGGCCCAGACAGCCAGGATGTTGGCTTAGAAGCAGCCATCATTTAAAGAAAGCGTAATA -GCTCACTGGTCGAGTCGGCCTGCGCGGAAGATGTAACGGGGCTAAACCATGCACCGAAGCTGCGGCAGCGACGCTTATGC -GTTGTTGGGTAGGGGAGCGTTCTGTAAGCCTGTGAAGGTGTACTGTGAGGTATGCTGGAGGTATCAGAAGTGCGAATGCT -GACATAAGTAACGATAAAGCGGGTGAAAAGCCCGCTCGCCGGAAGACCAAGGGTTCCTGTCCAACGTTAATCGGGGCAGG -GTGAGTCGACCCCTAAGGCGAGGCCGAAAGGCGTAGTCGATGGGAAACAGGTTAATATTCCTGTACTTGGTGTTACTGCG -AAGGGGGGACGGAGAAGGCTATGTTGGCCGGGCGACGGTTGTCCCGGTTTAAGCGTGTAGGCTGGTTTTCCAGGCAAATC -CGGAAAATCAAGGCTGAGGCGTGATGACGAGGCACTACGGTGCTGAAGCAACAAATGCCCTGCTTCCAGGAAAAGCCTCT -AAGCATCAGGTAACATCAAATCGTACCCCAAACCGACACAGGTGGTCAGGTAGAGAATACCAAGGCGCTTGAGAGAACTC -GGGTGAAGGAACTAGGCAAAATGGTGCCGTAACTTCGGGAGAAGGCACGCTGATATGTAGGTGAAGCGACTTGCTCGTGG -AGCTGAAATCAGTCGAAGATACCAGCTGGCTGCAACTGTTTATTAAAAACACAGCACTGTGCAAACACGAAAGTGGACGT -ATACGGTGTGACGCCTGCCCGGTGCCGGAAGGTTAATTGATGGGGTTAGCGCAAGCGAAGCTCTTGATCGAAGCCCCGGT -AAACGGCGGCCGTAACTATAACGGTCCTAAGGTAGCGAAATTCCTTGTCGGGTAAGTTCCGACCTGCACGAATGGCGTAA -TGATGGCCAGGCTGTCTCCACCCGAGACTCAGTGAAATTGAACTCGCTGTGAAGATGCAGTGTACCCGCGGCAAGACGGA -AAGACCCCGTGAACCTTTACTATAGCTTGACACTGAACATTGAGCCTTGATGTGTAGGATAGGTGGGAGGCTTTGAAGTG -TGGACGCCAGTCTGCATGGAGCCGACCTTGAAATACCACCCTTTAATGTTTGATGTTCTAACGTTGACCCGTAATCCGGG -TTGCGGACAGTGTCTGGTGGGTAGTTTGACTGGGGCGGTCTCCTCCTAAAGAGTAACGGAGGAGCACGAAGGTTGGCTAA -TCCTGGTCGGACATCAGGAGGTTAGTGCAATGGCATAAGCCAGCTTGACTGCGAGCGTGACGGCGCGAGCAGGTGCGAAA -GCAGGTCATAGTGATCCGGTGGTTCTGAATGGAAGGGCCATCGCTCAACGGATAAAAGGTACTCCGGGGATAACAGGCTG -ATACCGCCCAAGAGTTCATATCGACGGCGGTGTTTGGCACCTCGATGTCGGCTCATCACATCCTGGGGCTGAAGTAGGTC -CCAAGGGTATGGCTGTTCGCCATTTAAAGTGGTACGCGAGCTGGGTTTAGAACGTCGTGAGACAGTTCGGTCCCTATCTG -CCGTGGGCGCTGGAGAACTGAGGGGGGCTGCTCCTAGTACGAGAGGACCGGAGTGGACGCATCACTGGTGTTCGGGTTGT -CATGCCAATGGCACTGCCCGGTAGCTAAATGCGGAAGAGATAAGTGCTGAAAGCATCTAAGCACGAAACTTGCCCCGAGA -TGAGTTCTCCCTGACTCCTTGAGAGTCCTGAAGGAACGTTGAAGACGACGACGTTGATAGGCCGGGTGTGTAAGCGCAGC -GATGCGTTGAGCTAACCGGTACTAATGAACCGTGAGGCTTAACCTTACAACGCCGAAGCTGTTTTGGCGGATTGAGAGAA -GATTTTCAGCCTGATACAGATTAAATCAGAACGCAGAAGCGGTCTGATAAAACAGAATTTGCCTGGCGGCCGTAGCGCGG -TGGTCCCACCTGACCCCATGCCGAACTCAGAAGTGAAACGCCGTAGCGCCGATGGTAGTGTGGGGTCTCCCCATGCGAGA -GTAGGGAACTGCCAGGCATCAAATTAAGCAGTAAGCCGGTCATAAAACCGGTGGTTGTAAAAGAATTCGGTGGAGCGGTA -GTTCAGTCGGTTAGAATACCTGCCTGTCACGCAGGGGGTCGCGGGTTCGAGTCCCGTCCGTTCCGCCACTTATTAAGAAG -CCTCGAGTTAACGCTCGAGGTTTTTTTTCGTCTGTATATCTATTATTGCCAGAATCGCAAAAATCCTCTGCATTTTACGC -TCTTTTTCCTCAACAGTCTGAAGCCCATAATCACCTCAGTTAACGAAAATAGCATTAAAAGAGGCATATTATGGCTATCC -CTGCATTTGGTTTAGGTACTTTCCGTCTGAAAGACGACGTTGTTATTTCATCTGTGATAACGGCGCTTGAACTTGGTTAT -CGCGCAATTGATACCGCACAAATCTATGATAACGAAGCCGCAGTAGGTCAGGCGATTGCAGAAAGTGGCGTGCCACGTCA -TGAACTCTACATCACCACTAAAATCTGGATTGAAAATCTCAGCAAAGACAAATTGATCCCAAGTCTGAAAGAGAGCCTGC -AAAAATTGCGTACCGATTATGTTGATCTGACGCTAATCCACTGGCCGTCACCAAACGATGAAGTCTCTGTTGAAGAGTTT -ATGCAGGCGCTGCTGGAAGCCAAAAAACAAGGGCTGACGCGTGAGATCGGTATTTCCAACTTCACGATCCCGTTGATGGA -AAAAGCGATTGCTGCTGTTGGTGCTGAAAACATCGCTACTAACCAGATTGAACTCTCTCCTTATCTGCAAAACCGTAAAG -TGGTTGCCTGGGCTAAACAGCACGGCATCCATATTACTTCCTATATGACGCTGGCGTATGGTAAGGCCCTGAAAGATGAG -GTTATTGCTCGTATCGCAGCTAAACACAATGCGACTCCGGCACAAGTGATTCTGGCGTGGGCTATGGGGGAAGGTTACTC -AGTAATTCCTTCTTCTACTAAACGTAAAAACCTGGAAAGTAATCTTAAGGCACAAAATTTACAGCTTGATGCCGAAGATA -AAAAAGCGATCGCCGCACTGGATTGCAACGACCGCCTGGTTAGCCCGGAAGGTCTGGCTCCTGAATGGGATTAAGCCTCT -CTGACAGCTCCTCCGGGAGCTGTTTTTACATGCTCGCTAAGGAAATCGATAAAAGCCCGGATGCGCGTACTTACCGCACG -GTCGCTGTAATAGACGGCACTGAATGGCATTTCCACTGGCAACACTTTATCTGCCATTAACTCCACCAATTCTCCGCGAG -CGATTTCTTTGTCGATCATGTAGTCGGACAAACACGCAATCCCGTTGCCACTCAGGCAAAGCTGTTTCAGTGTTTCCCCA -CTATTGGATGACAAACCGTACTTCACCTCATGTAATTGTCCATCGCTACGGGCTATCGGCCAGGTATTGAGGGAAGCGGG -TTCAGTGAATCCCAGGCAAATATGTTGCTTTAAATCGTCGATCGTTTCTGGCTTCCCGTAGCGGGAAATATAATCGGGGG -AGGCGATAATTTTTCGATAACTGTTAAATAACGGCCTGGCACGTAAGCTGGAATCCGTTAACGTACCAGCGCGTATCGCG -ACATCCACTTTTCTTTCGATCAAATTAATAATCGTTTCGGAGGAGACTAGCGACAAAGTGACTTCCGGATAGCGTTCACG -GAAAGGCTTAATTAACGGCATCAGAAAGTGCAGCACCACTGGAGTTGCGGCATCGATCCGTAACAGTCCACGCGGTGTAT -TACGCGTCTCCATAATTTCTGATTCTGCCGCTGCCATCTCCTGCAAAATTGACTGTACGCGACGAAAATAACGCTCGCCT -TCTTCCGTCAGGCTAAGTTGTCGCGTGGTCCGATTAAGCAGGCTAACGCCAAGTTTCATCTCCAGCTTTTTCACCGCCCG -GCTTACCGCTGAGTTTGCTTGCCCTAATTGTTCCGCTGCCCGGCTAAAGCTGCCGCTTTCGACGACCGAAACAAAAATGG -CGAGTTCTTCCGACGTGGCTTTCATTTTTGCTCCTGTTGCAAAATAGAAGAGATATTTTGAATTTATTTGTCATTAAACC -ATCAGGATGCGTGATATGTCATGCGATTTAATGTTCTCCATAATGAGCAAAATTCTGACCGGTGTAAGCACTTGCTTACA -TAACAATATACAATTGCTCGTTGAAAGAGTGAGCTAAAATCCCTATAACAGTAGAACCCTCCCGAGTGCGGAAGGGTTGA -CGTAATAGAGGTTTCAAAGTCAAAAGTGCGAAAAAACACCTATGCCATGCGCTATGTTGCCGGACAACCTGCGGAAAGGA -TCTTACCGCCGGGGTCTTTTGCGAGCATCGGCCAGGCATTACCACCTGGGGAACCGTTAAGTACCGAAGAGCGTATTCGG -ATCCTGGTGTGGAACATATACAAACAGCAACGCGCTGAATGGTTGTCGGTATTAAAGAACTACGGCAAAGATGCACATCT -GGTGTTATTGCAGGAAGCGCAGACAACGCCAGAGTTAGTACAGTTTGCGACCGCTAACTATCTTGCCGCCGATCAGGTAC -CCGCTTTCGTGCTGCCACAACATCCTTCTGGCGTAATGACCCTTTCGGCGGCACATCCAGTGTATTGCTGCCCGTTACGT -GAACGAGAACCCATTTTGCGTCTGGCGAAGTCGGCACTGGTGACGGTCTATCCATTACCTGACACCCGCCTGTTGATGGT -GGTTAATATACACGCCGTCAACTTCAGTCTGGGCGTGGATGTCTATAGTAAGCAGTTACTTCCTATTGGCGATCAGATAG -CTCACCACAGCGGCCCGGTCATTATGGCGGGAGATTTCAATGCCTGGAGCCGTAGAAGGATGAACGCGTTATATCGCTTT -GCGCGGGAAATGTCGCTGCGCCAGGTGCGTTTTACCGATGATCAGCGCCGTCGGGCGTTTGGTCGCCCGCTCGATTTTGT -TTTCTACCGTGGTCTGAACGTCAGTGAAGCTTCTGTACTGGTTACGCGCGCTTCCGATCACAATCCGCTACTCGTTGAAT -TCAGTCCCGGCAAGCCTGATAAATAAGGTATGTCAGGTCTGCCACAGGGCAGACCAACGTTTGGCGCTGCGCAAAACGTG -AGCGCGGTGGTGGCGTATGACTTATCTGCCCACATGCTGGATGTCGTGGCACAAGCTGCCGAAGCCCGGCAACTGAAAAA -TATCACCACCCGCCAGGGATATGCCGAAAGTCTGCCATTTGCCGATAACGCATTTGATATTGTTATCAGCCGTTATTCTG -CCCATCACTGGCATGATGTTGGTGCAGCACTGCGAGAAGTGAATAGGATATTGAAACCTGGCGGTAGGCTGATTGTGATG -GACGTAATGTCTCCGGGTCACCCAGTGCGCGACATCTGGTTACAGACGGTAGAAGCATTACGCGATACCTCTCACGTACG -AAACTACGCCAGCGGTGAGTGGTTGACGTTAATCAATGAAGCCAATCTGATAGTTGATAATTTAATTACAGATAAGTTAC -CGCTGGAATTTTCTTCATGGGTCGCGAGAATGCGTACGCCAGAAGCGTTAGTAGACGCTATTCGCATTTACCAACAGAGC -GCATCGACAGAGGTGAGAACGTATTTTGCCTTGCAGAATGATGGCTTTTTCACCAGTGATATCATCATGGTAGATGCACA -TAAAGCGGCATAAATAAAAAAGGCACCGGGGGAATCGGTGCCTTTTTATTATCTGGTTTGTCAGGAATCTGGCATGTTGT -TGTTTTTCACAAACAACGTCAGCTTATCGCCTGGTTGCAGATTCGCAGTGTCGCTGTTCCAGCGCATCACATCTTTGATG -TTCACGCCGTGGCGTTTAGCAATGCTTGAAAGCGAATCGCCTTTGCGCACACGATACGTAATGCTATCGCTGTTGTTTGC -CAGTCGCTGTGCGCTACTGCCTGCACCAATCGTCAAACTTTGGCCTGGCTTCAGCTTAGATCCGCGCAGTTTGTTCCACT -GCTGCAAATCTTTGGTGCTTACGCCGAGACGTGAAGCGATACTTGAAAGCGTGTCGCCAGAGCGTACGGTGTAAACACGG -CTGTTAAGCGGCGTATTGTCGGCAACCAGCGTCGACTGTACAGCAGCAATTTCGCCTGAAGCCAGAGATTCACGCAGTTG -ATCTGCATGCTTCTTTGGCACCATCACGTACTGCGGGCCACTTGCGCCCAGCGTGGAGCCTTTTACGCCAGCGTTGAATG -TCTTCAGCTTGCTGACGGAAATCCCCGCCATATCTGCTACCTTCGCCATTTCAACCGGGCTGCTCAGGTGCACACGCGCC -AGAGCACGGCTTTCATCGGTCGTTGGCAGACGTACGCCATAACGCTTGCTGTTTTTGAGAATATCACTCAATGCCAGCAT -TTTAGGCACGTACTGCTTCGTTTCCTGCGGCAACGGTAACGACCAGAAGTCCGTGGATTTCCCACGCGCTTTGTTCGTTT -TAATTGCCTTCATGACCCGACCTTCGCCGCTGTTATAAGCCGCTACGGTCAGAAGCCAGTCGCCGTCAAACATTTTGTTC -AGACGCTGCATCATATTCAGCGCGGCAGTTGTTGAAGCAACAACATCGCGACGCGCGTCATAATTGCGGGTCTGTTTCAA -ACCATAATTGCGCCCCGTGCTCGGAATGATCTGCCAGATGCCTGCGGCATTGGCGCCAGACGTTGCGTGAGGATCAAAAG -CGCTCTCCACTATGGGTAGTAGTACCAGTTCCATAGGCATGTTACGTTTTTTAACTTGCCCTGCTATCCAGTACATATAC -GGCTCTGCCCGTAAAGTTACATCGTGGAGATAGCTCTTATTGCGTAAATATTTCTGTTTCTGTTCGCGAATCCGGTCATT -TTCCGGAATTCCCATCTTTAGCTCGTCGCCAATGAAAGCCCACAAGTCACCATCTGGCGCGATAGACGTCCCATCGTCCA -TCCATCGTGCCTGACTTGTAAACTTTGCTGCTTCCCCTTGACCAGCTGCAGAAAGGCTCTGTGCGTGCTGTTGAACGTTG -CCGGTACTCTGGCAACCCACGAGCAGGACAGAGGCGAGTAATATCGCTTTTGCCTTCATGTGTGTGTCAATAGTTGCTTA -AAAGACGACCGATCATAACGGCGAACGGAGCCGATGACAAGAAAGTTTTATCAGAACCTATCTTTCTTTGACCTTAACCA -TGCAAAACGCTCTTCAGGTTGTTGCAATAATGTTTCTTCATTAATTACATTAATTAAATCAATATCTTCCGTTCTTAAAA -AAACATTAATTTGCCGCTCATTTTTCAGAATTACGGGTAGTGTTATTTGATTTTTTGCCCGTAACTCCTTAACTTTACGA -TAATAATCATTTATGGACAAATCGTGCGGAAGAATACTCAAAGCAAACTTCATATTTGATAAGGTATATTCATGAGCACA -ACATACCAATGTATCGTCAGGTAACGCACTTAACTTTTTAAGTGATTGATACATTTGTGATGCTGTCCCTTCAAACAACC -GACCACACCCACCAGAAAACAGTGTGTCGCCGCAAAATAGATAAGGTTTACTGAAGTAACAGATATGTCCTAAAGTGTGA -CCCGGCGTAGCAATTACACTAAATTCATGCCCCAAAACGAAGGCAGTTTCGCCATCTTTGACTACCTGTGTTGTTCCCTT -ATCTTGTGTCTCTTGTGGACCATACACCACAATTTGTGGAAACTTTTCCACCAGTTCTTTTACGCCGCCAACGTGATCGT -GGTGATGGTGGGTGAGAAATATGGCCTCCGGTTGCCAGTTATTGGCGGCAATGGCGTTTAATACTGGCTCTGCGTCTCCG -GGATCGACAATCAGGCAGCGACCTGCTTCATCATTCAAAACCCAGATGTAATTGTCATCAAAGGCGGGAATACTGTTAAG -ATTCATAGATTACCTCTCAGTGTGAAACGGAAGGTTGTGATGAAACCGGCAAGAGTCCCTCAAACTGTCGTGGCTCCTGA -TTGCTGGGGCGATTTGCCCTGGGGAAAGCTTTATCGCAAGGCGCTGGAGCGCCAGCTCAACCCGTGGTTCACTAAAATGT -ATGGTTTTCATCTGCTTAAGATTGGCAATTTAAGCGCAGAAATCAATTGCGAAGCGTGCGCGGTTTCTCATCAAGTGAAT -GTTTCTGCGCAAGGAATGCCCGTCCAGGTACAGGCGGACCCACTTCATCTTCCTTTTGCCGATAAATCCGTTGATGTTTG -TCTACTGGCACATACATTGCCGTGGTGCACCGATCCGCATCGTTTATTGCGTGAAGCCGATCGGGTATTGATTGATGATG -GCTGGCTGGTCATTAGTGGCTTCAATCCCATCAGTTTTATGGGATTACGCAAACTTGTGCCGGTATTGCGCAAAACCTCG -CCCTATAACAGCCGGATGTTTACTCTGATGCGGCAGCTGGACTGGCTCTCTTTGTTGAATTTTGAAGTGCTACACGCCAG -CCGTTTCCACGTTCTCCCGTGGAACAAACACGGAGGAAAACTATTGAATGCGCATATTCCTGCGCTTGGTTGCTTACAAC -TTATTGTTGCCCGGAAACGGACTATTCCTTTAACGCTAAATCCGATGAAACAGAGTAAAAACAAGCCACGAATTCGCCAG -GCGGTTGGAGCCACCCGGCAATGTCGTAAACCACAGGCTTAAACTTCAACTTGGTAGCCTGTATCTTCCAGTGTGGGATT -CATCGCCGCGGCACGAGCCAGTTCATCACAGCGTTCGTTTTCCGGGTGTCCGGCATGGCCTTTAACCCATTCCCATTTGA -TTTGATGCTGCCCCAATGCAGCATCAAGACGTTGCCAGAGATCGACATTTTTTACTGGTTTTTTGTCTGCGGTTTTCCAG -CCACGTTTTTTCCAGTTATGGATCCACTGGGTGATACCCTGGCGGACATACTGGCTGTCGGTACTCAAAATGACTTCGCA -ATGTTCTTTTAACGCCTCCAGCGCGACAATAGCGGCCATCAACTCCATACGGTTGTTGGTGGTGCGGGTGTAGCCAGCGC -TAAAGGTTTTCTCGCGTCCGCGATAGCGTAAAATAGCGCCGTAACCCCCAGGTCCTGGATTGCCCAGACACGAACCATCG -GTGAAAATTTCTACCTGTTTAAGCATCTCTGGTAGACTTCCTGTAATTGAATCGAACTGTAAAACGACAAGTCTGACATA -AATGACCGCTATGAGCACTGCAATTACACGCCAGATCGTTCTCGATACCGAAACCACCGGTATGAACCAGATTGGTGCGC -ACTATGAAGGCCACAAGATCATTGAGATTGGTGCCGTTGAAGTGGTGAACCGTCGCCTGACGGGCAATAACTTCCATGTT -TATCTCAAACCCGATCGGCTGGTGGATCCGGAAGCCTTTGGCGTACATGGTATTGCCGATGAATTTTTGCTCGATAAGCC -CACGTTTGCCGAAGTAGCCGATGAGTTCATGGACTATATTCGCGGCGCGGAGTTGGTGATCCATAACGCAGCGTTCGATA -TCGGCTTTATGGACTACGAGTTTTCGTTGCTTAAGCGCGATATTCCGAAGACCAATACTTTCTGTAAGGTCACCGATAGC -CTTGCGGTGGCGAGGAAAATGTTTCCCGGTAAGCGCAACAGCCTCGATGCGTTATGTGCTCGCTACGAAATAGATAACAG -TAAACGAACGCTGCACGGGGCATTACTCGATGCCCAGATCCTTGCGGAAGTTTATCTGGCGATGACCGGTGGTCAAACGT -CGATGGCTTTTGCGATGGAAGGAGAGACACAACAGCAACAAGGTGAAGCAACAATTCAGCGCATTGTACGTCAGGCAAGT -AAGTTACGCGTTGTTTTTGCGACAGATGAAGAGATTGCAGCTCATGAAGCCCGTCTCGATCTGGTGCAGAAGAAAGGCGG -AAGTTGCCTCTGGCGAGCATAAATACCTGTGAAAGGCGCTAAAAATAGCGACTTGGGCGATTTTTGCAGCAAACGATTCA -AAAGATGAGAAAAACCGTTGACGAAGGTCGAGGCAATCCGTAATATTCGCCTCGTTCCCAACGGAACACAACGCGGAGCG -GTAGTTCAGTCGGTTAGAATACCTGCCTGTCACGCAGGGGGTCGCGGGTTCGAGTCCCGTCCGTTCCGCCACTATTCACT -CATGAAAATGAGTTCAGAGAGCCGCAAGATTTTTAATTTTGCGGTTTTTTTGTATTTGAATTCCACCATTTCTCTGTTCA -ATGATTTTACTCTGGCGTAGGTGCGTGATTCTCGCTTGTTGTCTCATTCATTAAAATTCAATAATGATATCGAACCATTC -AGCTTAAATATATTTCTAGAGAATAAATTTATATTGATTAAATGAATGTATATTTCAAATTGATTTTGTTTGTTATTATT -TAAGTGAGGTATATAATTAGAGTCCGTTATCAATGCTAAATATTCTAATCATTATGACAGGCGAGGGAGTGTCCAATTAT -GAATTCAAAAAAGCTTTGTTGCATATGTGTGTTATTCTCGCTGCTTGCAGGATGTGCCTCTGAATCTTCTATTGATGAAA -AGAAGAAAAAAGCTCAAGTCACACAAAGTAATATTAATAAAAACACTCCCCAGCAACTGACAGACAAAGATTTATTCGGT -AATGAAACCACTCTGGCCGTATCCGAAGAGGATATTCAAGCTGCGCTTGATGGAGATGAGTTCCGCGTTCCCCTTAATTC -TCCTGTAATACTTGTTCAATCCGGCAACCGCGCACCGGAAACCATTATGCAGGAGGAGATGCGAAAATATTATACTGTTT -CCACATTCTCTGGTATCCCGGACAGGCAAAAGCCTCTGACTTGTAACAAAAACAAAGATAAAAATGAGAACGAGGATGTT -GCCAGTGCTGAGAATATGAACTGGATGCAGGCACTGCGTTTTGTGGCTGCAAAAGGACATCAGAAAGCGATTATTGTTTA -CCAGGATATGTTGCAGACAGGAAAATATGACTCTGCGCTGAAATCAACAGTATGGTCCGACTATAAAAATGACAAACTCA -CTGACGCTATCTCCCTGCGCTACCTGGTACGTTTCACGCTGGTGGATGTGGCAACAGGTGAGTGGGCTACCTGGTCGCCG -GTGAATTATGAATATAAAGTGCTTCCACCATTGCCCGACAAGAATGAAGCCAGTACGACTGATATGACAGAGCAGCAAAT -CATGCAACTTAAGCAAAAGACCTATAAAGCGATGGTAAAAGATTTGGTTAACCGCTATCAATAATAAATTATATCTGCCG -CCAGGAATTTCTGGCGGCAATAATACAAAATTCTTTGCATAAGAAATTTTTCTTGACAAAGACAGTGCAAGAAAGGACAT -GGAATCCGGAGTTAAAAACTGTTTGTTTTAGAATATTTAATTATTTAACTGCTGAATCTTCCTTGCGAGAAATATATCCA -TTATTACATTTCATGCCATTTTTAATATAGATTGCTCCTGGGAAAATTCCCGTATTATTACCGCAGGGGTGATAATTAGT -ATTGACATATCCTGTGACAAAAGGAGCTATTAAAGGTGCTATTACGATAGCTATTAGTAAAAATATAAGAGTTAGCTGTA -TTGTTATGTCTGTGGCGAAATTGACTACCTTCGTTTTTTTGATTAAGAATGATTTTATTATCGTAAGTAAAATTACATGA -ATATTTAAAAAGGAAAACGACATGAAACCGAAGCACAGAATCAACATTCTCCAATCATAAAATATTTCCGTGGAGCATTT -TATTATTGAATATAGAGGTTTAACTCCGGTAAAAAACAAAGAAGCATTGAATGCAGGGAAAAATAATATGGCCATAAAAA -ACATCGAAAGAAACTCTTTTAATTTAACATGTAAACGCATGGTTAATCCTCATATCACGGGTGGAGTGTTAAGAACATAC -ATAAATGGAGTCATGTTTTCCCTTTTCCATTTATCAAGTTCCTGTTGCCGTTTTAGTCCATCTCTAATTGCATATTTTAA -TTTTTCTGATAAATGGCATTGAGCATCGATTTCATTTAAAACAACTGTACACACTATCCCTGTCAGTAAAATTGCTCCTC -CGACAAGAATTACTGGAAAGCCAAAGCTAACACAGGCAAAAGAAGCCAGACTTCCAATAGCGGTTGCAACACCACCGGCT -ATAACTGCTTTGGCCACATCCATTGAAAAATCGCCAAGAAAATTAACCAGATCTCGCTCTGAACTCATAATAAATTCTAT -GGTTCTGCTGATTTAACCGCAGAGAAGTTCGCCACAGCAATCCGAAACCACTGGCACGTGGAGAATAAGCTGCACAGGCG -TCTGGACGTGGTAATGAATGAAGACGACTACAAAATAAGAAGAGGAAACGCAGCAGAATTATTTTCAGGGATACGGCACA -TTGCTATTAATATTTTGACGAATGAGAAGGTATTCAAGGCAGGGTTAAGACGTAAGATGCGAAAAGCAGCCATGGACAGA -AACTACCTGGCGTCAGTCCTTGCGGGGAGCGGGCTTTCGTAGTAATACCCCGACTCTCCCCGTCCTTAAACACAACCCCC -ACTCACCACAACCTAAACTCATCCGCATCCTGCCATGCCGGAAACTTTTCTCTATATTCCCGCAATGCTGCCATCGACAG -CTCCGCATCAATGCGCGTTGCCTGATGCGCGTCGGCAGTAGCGATAATCTCTCCTTGCGGATTAATCACCCGGCTGTCAC -CGCGATAATGGCAGCCGTTGCCATCGCTGCCGACGCGATTGCATCCCGCCACATACGCCTGATTCTCAATCGCGCGGGCC -GTCAGCAATGCCTGCCAGTGCAGAGAGCGCGGAGCAGGCCAGTTGGCGACGTACAGGGCGAGGTCATAATCGTTGAGATT -GCGCGACCACACAGGAAAACGTAAGTCGTAGCACACCAGCGGCAAAATACGCCAGCCGCGCCATTCCACAATCACTCGCG -CATTGCCCGCTTTATAATGTAGATGCTCATCTGCCATGCGGAACAGATGACGCTTATCATAAAAATGTACCGTGCCGCCC -GGCTCAACCAGCAAAAAGCGGTTAACCGAACCAGACTCCGTTTGTAATGCAACACTGCCTGCAATCAGCGCATTGCACTG -CTGCGCCTTAGCTGTCATCCAGTTCACTACGTCATCTTGTGCTAGCGACGAAGCTGCCGCTTCCATGGCAAAGCCGCTGG -TAAACATCTCCGGTAGAACGATCACATCGCGCCCGGTAATACCTTCCAGTTGACGATCAAAATGACGCAGGTTGGCAGGA -CCATCCATCCACACCAGTGGTTGCTGCAAAAGCGTAATCTTCAAACCAGGCACGGTGTACAACTCCTTTATGCGAAGGGT -TTTATAACTTTAACACCTTATCAGGCAGTTGCCTTAGCGCAGAATAAATTGATAACAAATGCTGATATTGGAAATATCTG -ATTTGCAAATTATCGTGTTATCGCCAGGCTTTAGGAGGTTAATAACATGGGCAGGATAAGCTCGGGAGGAATGATGTTTA -AGGCAATAACGACAGTCGCCGCTCTGGTCATCGCCACCAGTGCAATGGCGCAGGATGATTTAACCATTAGCAGCCTTGCA -AAGGGCGAAACCACCAAAGCTGCATTTAATCAGATGGTACAAGGGCATAAGCTGCCTGCCTGGGTGATGAAAGGCGGTAC -TTATACTCCCGCACAAACCGTAACGTTGGGAGATGAGACGTATCAGGTGATGAGCGCGTGCAAACCGCATGACTGTGGCT -CGCAACGTATCGCTGTGATGTGGTCCGAGAAATCTAATCAGATGACGGGGCTGTTCTCGACTATTGATGAGAAAACGTCG -CAAGAGAAACTCACCTGGCTGAATGTGAACGATGCGCTTTCGATTGATGGTAAAACGGTGTTGTTCGCGGCGTTGACCGG -CAGCCTGGAAAACCATCCGGATGGCTTTAATTTTAAATAATTAGCGGATAAAGAAACGGAGCCTTTCGGCTCCGTTATTC -ATTTACGCGGCTTCAACTTTCCGCACTTTCTCCGGCAACTTTACCGGCTTCGTCGCCAGCTCTTCCGGATCAAAGTCATC -AACGTTAATACTGCGCAGACGGCTTTCTTCAGCTTTCACCAGAATAGCGGCTTCATCTTTATCAATCAGCCCCTTCACCA -GCGCGTTGTGCGCCAGTTCATCCAGACGGGTAAACGGCAGGTTTTTACCCAGCTCTTTACAGATCCGCTGATGAATTGGG -TCGGCGGCAATCACATCCACCAGCGCCTCTTCCAGCAAGCCAACCGGATTATGCTCGCTCGGCGTCAGGTACTGACCGCG -ACCAATGCGGGAACGGGTGGCGTTCGGCACTTGTAAAATCTTCGCCACTTTATGATCCAGCTTGTCAGAAGGTGCCAGAT -AATGACGTCCGGTCGGGAAGATCACCACATTCAGCAGCCCGGCAACCACGCGGTTCGGGAAGTTTTGCAGTAAATCATCC -ATCGCCTGTTCAGCCTGATACAGCGCATCTTGTACGCCCCAGTGCACCAGCGGCAGGTCGGCTTCATTACGGCCTTCGTC -GTCATAACGCTTCAGCACGGCAGAGGCGAGGTAGAGCTGGCTTAAAATATCCCCCAGACGGGCCGAGATGCGCTCGCGAC -GTTTCAGGCTGCCGCCCAGCACTGCCATCGAGACATCAGAAAGCAGGGCGAGGTTGGCGCTCAGGCGGTTCAGGTGCTGA -TAGTAGCGTTTAGTGGCATCGCCGGTTGGCGTGCTGCTGGTTAAACCGCGCGTCAGGCCCAGCCAGAAGCTGCGAACTTT -GTTGCTACCGACGTGACCGATATGTTTGAACAACAGTTTATCGAACGCGTTGACGTCATTGTTCTTCGCCGCTTCCATCT -CTTCCAGCACGTACGGATGGCAACGAATCGCTCCTTGTCCGAAGATCATCATGCTGCGGGTCAGAATGTTAGCCCCTTCA -ACGGTGATGGCAATCGGTGCGCCCTGGTAAGCACGCGCCAGGAAGTTGCTTTGCCCGAGCATAATGCCTTTACCGCCGGT -AATATCCATCGCATCAATAATCGACTGCTGCCCGCGGTGGGTACAGTGATACTTAACGATAGCCGACAGCACGGCAGGTT -TTTCGCCGAGCATAATGCCGTAGGTAATCAGCGATGCCGCAGCATCCATCACGTAGGCATTACCGGCAATACGCGCCAGC -GGCTCTTCAATCCCTTCCATCTTACCAATAGAGATTTTGAACTGACGGCGAATGTGAGCATACGCGCCGGTTGCCAGCGC -TACCGATTTCACGCCGCCGGTTGAGTTGGAAGGCAGGGTGATGCCGCGGCCTACCGAGAGGCACTCCACCAGCATCCGCC -AGCCTTGCCCGGCCATTTTCGGCCCGCCGATGATGTAATCGATCGGCACGAAGACATCTTTACCGCGCGTCGGTCCGTTC -TGGAACGGTACGTTCAGCGGGAAGTGGCGACGACCAATTTCCACGCCCGGCGTGGTGGTTGGGATCAGCGCACAGGTAAT -GCCTAAATCTTCTGCACCGCCGAGTAATTTTTCCGGGTCGGAGAGTTTAAACGCCAGCCCAAGCACGGTCGCAATCGGTG -CCAGCGTAATGTAGCGTTTGTTCCAGGTCAGACGCATCCCCAGCACCTGCTGGCCCTGCCATTCGCCCATGCAGACAATC -CCGGTGTCCGGAATCGCGCCCGCATCGGAACCCGCTTCCGGGCTGGTCAGTGCAAAGCAGGGGATCTCCTGACCACGCGC -CAGACGCGGCAGATAGTGATCTTTCTGCTCGTCAGTGCCGTAATGTTGCAACAGTTCGCCCGGGCCTAATGAGTTTGGCA -CGCCGACGGTAATCGCCAGGATCCCGCTCACGCCGGAGAGTTTTTGCAGCACGCGAGACTGGGCATAAGCCGAGAACTCC -AGCCCGCCGTACTCTTTTTTGATGATCATCGCGAAGAAACGATGCTCTTTAAGGTACGCCCACAACTCCGGCGGCAGATC -CGCCAGCTCATGGGTGATCTGGAAATCATTCGCCATCCGGCAGGCTTCTTCTACCGGGCCGTCGAGAAACGCTTGCTCTT -CGGCGGTCAGGCGCGGCTGCGGATAGTTATGCAGCTTTTTCCAGTCCGGCTTGCCCTGGAACAAGTCGCCCTCCCACCAG -GTGGTGCCCGCATCAATCGCTTCTTTCTCAGTGCGCGACATCGGCGGCATCACCTTACGGAAACCGCGAAATACCGGCGC -GGAAATCATCGACTTACGCATAGGCGCAAAGTTAAATGGCACGAGGATAATGGCCAGAGGCACCAGTACCCACGCCGACC -ACAGACCAGCAACGCCGAGGGCGGCTGTCCAGGCGAGCAAAATCAGACTGCTGATAAATAAGCTCACGCGGTGATAGAAC -AACGCGCCGAGCAGGACAACCGTAGCGAGAATACTCAAAATCATCATAACGAAAAGCCCCTTACTTGTAGGAGGTCTGAC -CACTTGTGATGATATGGTTGTAGTGGATGTAAAAACATTTAGCAATATGTTTACAATATAATTACAACAAAGCTCACATT -GTTGCTGTTTTTATCCGCACTTCAGGTCAAAAAGTCCTGGTCATAGCACCTGCCCGTACTTCTCGCTTTTGGCGGTATCC -GGTACACTGCATTTTGTCTATTACATTTATGCTGAAGGATATCCTCATGTACCAGGATCTTATTCGTAACGAACTGAACG -AAGCGGCGGAAACGCTGGCTAACTTTTTAAAAGATGACGCCAATATTCACGCCATTCAGCGCGCGGCGGTCCTGTTAGCA -GACAGCTTTAAAGCCGGTGGCAAAGTGCTTTCCTGCGGCAACGGCGGTTCCCATTGCGACGCTATGCACTTTGCCGAAGA -GTTGACCGGTCGCTACCGTGAAAACCGTCCGGGCTACCCGGCGATTGCTATTTCTGACGTTAGTCATATTTCCTGCGTCG -GTAATGATTTCGGTTTCAATGATATTTTCTCCCGCTACGTTGAAGCGGTAGGTCGCGAAGGCGATGTACTGCTGGGGATC -TCCACCTCCGGTAACTCTGCAAACGTGATCAAAGCGATCGCAGCGGCGCGTGAGAAGGGAATGAAAGTGATCACCCTGAC -CGGTAAAGACGGCGGCAAAATGGCTGGCACGGCGGATATCGAAATTCGCGTACCGCACTTTGGTTATGCCGACCGCATTC -AGGAGATTCACATTAAAGTGATCCATATCCTGATCCAGTTGATTGAAAAAGAGATGGTTAAGTAAGTCTGGCGTAGGCCG -GATAAGACGTTTACGCCGCATCCGGCATTTGTGCGCTGATGCCTGATGCGACGCTGACGCGTCTTATCATGCCTACAAAT -CTGTACGCGAACCGTAGGCCGAATAATGCGTTCACGCCGCATCCGACCTGAAAATTCTTAAATCAATCTTCGCCGGGGGC -CATGCGCTCCCGCTGTTGTGGAGGTTACCCATGTGCGAATTGCTCGGGATGAGCGCCAACGTCCCTACCGATATCTGCTT -TAGTTTCACCGGGCTTGTACAGCGTGGTGGTGGAACCGGGCCACATAAAGATGGCTGGGGCATTACCTTTTACGAAGGTA -AAGGCTGTCGCACATTTAAAGATCCACAACCCAGCTTTAATTCCCCCATCGCCAAACTTGTCCAGGACTACCCGATAAAA -TCCTGTTCGGTGGTGGCTCATATTCGCCTGGCTAATCGGGGCGAGGTGGCGCTGGAAAATACTCACCCATTTACCCGCGA -GTTATGGGGGCGTAACTGGACTTATGCCCATAACGGACAACTGACGGGCTACAAATCACTGGAAACCGGCAACTTCCGCC -CGGTAGGCGAAACCGACAGCGAAAAAGCCTTCTGCTGGCTCCTGCATAAATTAACGCAGCGTTACCCGCGCACACCGGGC -AACATGGCGGCGGTATTTAAATATATCGCCTCACTGGCGGATGAACTGCGGCAGAAGGGCGTTTTCAACATGCTGCTTTC -GGACGGGCGCTATGTAATGGCGTATTGCTCGACTAATTTACACTGGATCACCCGCCGCGCGCCGTTTGGCGTGGCAACGT -TGCTGGATCAGGATGTGGAAATCGACTTCAGCTCGCAGACCACACCGAATGATGTGGTCACGGTGATTGCAACACAGCCG -CTGACGGGCAATGAAACCTGGCAAAAGATTATGCCAGGCGAATGGCGCTTATTTTGCCTCGGGGAGCGTGTAGTTTGATG -CCAGTTGTGGCTGCACAACTTCGTGGCTTAACGGCTTGCTGACCACGTAACGACCATTGACCACAGAAACGGTTGGTGGC -TTACGGGTTTGCTCAAAGTAGTCGTAACCCGGCTTCAGTTGCTCCCAGAAGTCCTTAAAGTTGGAATATTTATGGCGCTT -CATATTGGCGTCGGTCATGCGGAACGGGTAAATACTCACTTGCACGCTCGGCTGACCAAACACCAGCGCACCAGTAACGA -ACTGGAATATCTCATCAATACCCTGATTGGTCATTGCGTAGCAGCCGATGGAAACACAATCGCCGTGGATCATCAGGTAT -TTCCCTTCATAACCATGCGCACGGTCATAGGCATTGGGGAAACCAATATTAATCGCTTTGTAGTAACGGCTGTCTGGTTT -TAACTGATTACGCTGGACGCTATAAAACCCTTCCGGGCTTTTGAAATCGCCCTGACGCTGTTTTGGCCCTAAGCCGCCGG -AATATTTACAGATTTTATAGCTGTCGAGCAGTTGATATTGCTCGCCCATTTTGACGTAGAGATCGAGCGTACGTTCTTCC -TTGAAGATCTGGATGTAGACAGGGGATCCCATCAACTGCTGCTTATACTCTTTGCTCACAGGCGTGGTAGAGCTACTGCT -GCCCAGCAAACCGGCAAATGAAACGCACGGGATCAACAACATCGCAAGAATTAATGCGATTTTACGCATACTGCTTATTC -CTTGATAAAACGGTTACACACGCCAGGACGGCAAAATGGATCCCAAATCGGAATAGTCTGGATTTGGAAGGCTCACATTA -TCACCAAAAGAGTTTTACGCAAGCCTGTCGGCGCAGGGTTTACAAATTTCATCGGAAGCGGGCTTTACCCAAAGAGCGCC -GCGTGAGTTCCAGTTCTCTCAAATCGTAAAAGTTTATCGGTAAGTTTGTAAATCAGGATCCAGTCCGGTTCGACATGAGC -ATCGCGATAACCTTTCCATGAACCTTGCAGCGGGTGGTCTTTATAAACAGCTGGAAGCGGTAAAGTATTATTGATAAGAA -GCGTCATAAGATATTTCAATTTATTCATATCCTTATGACGCTTTTGTGCAAGTTTTACATCCTTTGAATATTGTCCCGAG -TATTCAATATCCCTTTGAATCATATTTAAATTCCTAATTTATCAAATAAATCATCGGCGTCTTTGGCCTTATGAACATCA -ATGCCAGCTTCGCTGTTTTTGATTGATTGAATGGTTAATTGATTAGGCTCGCGTAAATCAAACGGCAATGCCTTTTCACG -CGCGACCTTTGTGAGGGTTATGCGAACCAGGTCAGAGATGGTCAGCCCCATCCCGGCCAGTACGTCCGCTGCCTGATTCT -TCAGATCTTCATCGATTCGGGCGCGAACAAACGCGTTAGCAGCCATTGGGGTATCTCCTGTGCTGTATATTTATTCAGCT -TGAATTGTAGCTCAAATGAGCAACAGCGACAATCCATGAGTAATTTAATAAACGGATGTTTTTACATAATTAACTGAAAT -ATATATGTTAATTTTATAATAATGGTTTATTAAGTTTGTTCAGAAACGATCCGGGATACACTGCAACATTAAAGCATGAC -CAGCCATTATTGAGTATGTCCTTGCCGTCGATTCCATCCTTTGTATTGTCTGGATTACTGTTGATTTGTTTGCCGTTTTC -TTCATTTGCCAGCGCCACCACATCACATATCTCTTTCAGCTACGCCGCCCGCCAGCGGATGCAAAACCGTGCGCGTTTAT -TAAAACAGTACCAAACTCATCTGAAAAAGCAGGCCAGCTATATTGTGGAAGGCAATGCCGAAAGCAAAAGGGCGCTACGC -CAGCACAACCGGGAGCAGATAAAACAGCATCCAGAATGGTTTCCTGCTCCGCTCAAGGCGAGTGACAGACGCTGGCAGGC -GCTGGCGGAAAACAACCACTTTTTAAGCAGCGACCATCTGCATAACATTACCGAAGTGGCGATTCACCGCCTGGAGCAGC -AGCTTGGCAAGCCTTACGTCTGGGGCGGTACGCGGCCTGATAAAGGCTTTGACTGTAGCGGGTTGGTTTTTTATGCCTAC -AACAAGATCCTTGAGGCTAAGCTCCCGCGCACGGCCAATGAGATGTACCACTATCGCCGGGCAACGATTGTGGCGAACAA -CGACCTGCGCCGGGGAGATTTGCTGTTTTTCCATATCCACAGCCGCGAGATAGCCGATCATATGGGCGTGTATTTGGGCG -ATGGGCAATTTATCGAGTCGCCACGTACCGGCGAAACCATTCGGATAAGCCGATTAGCCGAACCTTTCTGGCAGGACCAT -TTTTTGGGCGCGCGCAGGATTTTGACGGAAGAGACGATTTTGTAGGACGGATAAGGCGTTTACGCCGCATCCGGCAGTTG -TACGCAGGTGCCTGATGCGACGCTGGCGCGTCTTATCATGCCTACGAGCCCGCGAATATTTGCGAGCCGCTTTCCCGATA -TAAAACAACCTCATTGCCAACCTTTCCTTTTCTTCTTACCGTTGAGAAAAAGGAGTCGCCATGTCTGAATATCGTCGTTA -TTACATCAAGGGGGGAACATGGTTTTTCACGGTGAATTTACGAAATCGTCGAAGCCAACTTTTGACCACCCAGTACCAGA -TGCTCCGTCACGCCATTATTAAAGTTAAGCGAGACAGGCCTTTTGAAATCAACGCCTGGGTCGTTTTGCCAGAGCATATG -CACTGTATCTGGACATTACCTGAAGGCGATGATGATTTTTCCTCGCGCTGGCGGGAAATTAAAAAGCAATTTACCCATGC -TTGTGGATTGAAAAATATCTGGCAACCACGTTTTTGGGAGCACGCCATCCGCAATACCAAAGATTATAGGCATCATGTTG -ATTATATTTATATAAATCCAGTAAAGCATGGTTGGGTAAAGCAAGTGAGTGATTGGCCATTCTCAACGTTCCATCGCGAT -GTCGCGCGAGGGTTATATCCCATCGATTGGGCGGGGGACGTAACGGATTTTAGTGCCGGGGAGCGTATCATTTCATAATT -GTGCGCAGATGCCTGATGCGACGCTAGCGCGTCTTATCATGCCTACAAACTTGTGCCGGATCGGTAGGCCGGATAAGGCG -TTTATGCCGCATCCGGCAGTTATGCGCAGATGCCTGATGCGACGCTGGCGCGTCTTATCATGCCTACAAACTTGTGCCTG -AACGGTAGGACGGATAAGGCGTTCACGCCGCATCCGGCAGTTGTGCACCAATGCTGGATACTTACATCAACGCCCCCATA -ATCTTCAACTCCAGCTCATCCGGCACTTCGTTATACGACAGCACATGCAGCCCCGGCGCAAACAACCTTGCATAACGCGC -CAGCAAAGGGCGCAGCTGCGGTGGCACCAGCAGCACCGGGTCTTTCCCCGCCGCTTTCATCTGCTCTTTCACCTGTGGCA -TCGTACTCTGGAACTGGTTGAGCATATTCGGATCGACCGGCACGCTGTCGAGCATCACTTTCCCGCCCTGTTGCGCCTGA -TTCACCACGTTGGTCAGCAGATTTTCCAGCTCATTATTCAGCGTATACACCGTCAGCTCCTGCTTGCGAACGAACGGATG -GGTAATGCTGCGCCGCAATGCCAGGCGCACATCGGCCGCCAGCAGAATATGATCTTTCGTCACCGTGCTACTGGCGACCA -GCACGGTGGCGATGGTGACGATATCGCGCAGGGAAACGCCTTCGGTCAGCAGCGCCCGGTACACTTTCAGCAACTGGCTG -TAATTGAGCGCCGCGCTCAAATCTTCCGCCAGACGCGGTGCCGTCGACGATAAACGGTTATGCAACTGCGTAATATCATC -ATAGTTAAACAAATCAGGAATATAGCTGCGCACAATCTTATTTACATGGGTAGCGATCACGCTGGCGCTGTCGATCACCT -GATACCCCATATTCAGCGCCTTCGCTTTCTGCGCCGCCTGGATCCAGGTGACCGGCATCCCGTACGCCGGGTCGTTCCCC -TGCACGCCGTCAATCTCGCCGTAGGTTTCGCTGGAGGGCAGGGCCATCAGTTTATCCGCCGGAATATCCGCTTCATCAGC -CTTTATGCCGTTGATGAAAATGGCGTACTGACTGGGCTTAAGGCGGAAGTTTTCCCGAATGCGGATCTCCGGCAGCAGCA -CGCCGTTGCCGTCAGAAATCACCTGCCGCACGCCGCGAATCCGCTGGGTGAGCGGGTTACCCTGTGCTTTGTCCACCAGC -GCCACCAGTTTGTAACCGAGGCTTAAACTGATAGGCTCGATCAGCGGAATGGTTTCCCAACTGACCTGCTGCTCGCTGGT -TTCGGTGATGGTGCGGGTCAGCGTTTCGAGGCTTTTCTCTTCCGCCTCCGCCGCCAGCGGCTGTTTGCTCATCCGCCAGC -CGGTAAAACCAAGCAGGGCGCTGAACAGCAAAAACGGCAGGTGCGGCATTCCCGGTACCACCGCCAGCACGAACATAATC -CCGGTGGCGGTGTAGAGCACCGACGGGCTTGCCAGCAGCTGGTTACGCACGTCATGGGCGATATCGCCGTTGTCGCTGAC -GCGGGTGACGATAATCGCCGCCGCGGTGGAGAGCAGCAGGGAAGGGATCTGCGCCACCAGGCCGTCGCCGATGGTCATCA -GCACATACTGCTGGAAGGCAGCATCGGCGCTCAGGTTGTATTTGAAGATCCCGATACAGACGCCGCCGATCAGGTTGATC -GCCAGAATCATCATCCCGGCGATGGCGTCCCCGCGCACAAACTTCGATGCCCCGTCCATCGCGCCGTAGAAATCGGCCTC -GCTGGCAACATCTTTACGCCGGGTTTGCGCCTGCGCCTGGTTGATCAATCCGGCGTTAAGATCGGCGTCAATCGCCATCT -GTTTGCCGGGCATCGCGTCTAAGGTAAAGCGGGCAGAAACCTCGGAAATACGCTCGGCCCCTTTGGTGACGACAATAAAG -TTGATTGTCAACAGCGTCAGTAAATCCGAGCGTGAAAGCATTATCGCCGCGCTGCACGGGCAGTCGATTTTTAACGGTGG -TGGGCTGTCGCCGTTAAATAAAATCAGCCCGTCTCATCCGCCAAAACCTGCCACCGTGGCGGTGCCGGAAGAGACGGAGA -AAAAAGCGCGTGATGTGAATGAGAAAACGGCGCTGCTGAAGAAGAAATCCGCCACCGAGCTTGGTGAGCTGGCAACCAGT -ATCAACACCATTGCCCGTGATGCGCATATGGAAGCGAATCTGGAGATGGAGATTGTTCCCCAGGGATTACGCGTGCTGAT -TAAAGACGACCAGAACCGCAATATGTTTGAACGCGGCAGCGCGAAGATTATGCCGTTCTTTAAAACGCTGCTGGTGGAGC -TCGCGCCAGTGTTCGACTCGCTCGATAATAAAATTATTATTACCGGGCATACCGATGCGATGGCCTACAAAAACAATATC -TACAACAACTGGAACCTTTCGGGTGACCGCGCGCTTTCGGCTCGTCGGGTGCTGGAAGAGGCCGGAATGCCGGAAGATAA -AGTGATGCAGGTAAGCGCAATGGCGGACCAGATGCTGCTGGATTCCAAAAATCCGCAAAGCGCGGGCAACCGGCGCATTG -AGATTATGGTGCTGACCAAAAGTGCGTCCGATACGCTGTATCAATACTTTGGTCAGCATGGGGATAAAGTGGTGCAGCCG -CTGGTGCAAAAGCTGGATAAGCAGCAGGTGCTTTCGCAGCGAACGCGTTAAATGCTGAATCTTTACGCATTTCTCAAACC -CTGAAATCACTGTATACTTTACCAGTGTTGAGAGGTGAGCAATGCGTAAAATCATTCATGTGGATATGGACTGCTTTTTC -GCCGCAGTGGAGATGCGCGACAATCCCGCCCTGCGCGATATCCCTATTGCTATTGGCGGCAGCCGCGAACGTCGGGGGGT -GATCAGCACCGCCAATTATCCCGCGCGTAAATTTGGCGTACGTAGCGCTATGCCGACAGGGATGGCGCTCAAATTATGCC -CACATCTCACCTTGCTTCCGGGGCGCTTTGACGCCTACAAAGAAGCCTCAAATCATATCCGTGAAATCTTCTCGCGCTAC -ACCTCGCGCATTGAACCGTTGTCACTGGATGAGGCTTATCTCGATGTCACCGATAGCGTCCATTGCCACGGTTCTGCGAC -CCTCATCGCCCAGGAAATCCGCCAGACAATCTTCAACGAGCTGCAACTGACGGCGTCTGCGGGCGTGGCACCAGTAAAGT -TTCTCGCCAAAATCGCCTCCGACATGAATAAACCCAACGGCCAGTTTGTGATTACGCCGGCAGAAGTTCCGGCATTTTTA -CAAACCTTACCGCTGGCAAAAATCCCCGGCGTCGGCAAAGTCTCAGCGGCAAAACTGGAAGCGATGGGGCTGCGGACCTG -CGGTGATGTACAAAAGTGTGATCTGGTGATGCTGCTTAAACGCTTTGGCAAATTTGGCCGCATTTTGTGGGAGCGTAGTC -AGGGGATTGACGAACGCGATGTTAACAGCGAACGGTTGCGAAAATCCGTCGGCGTGGAACGCACGATGGCGGAAGATATT -CATCACTGGTCTGAATGTGAAGCGATTATCGAGCGGCTGTATCCGGAACTTGAACGCCGTCTGGCAAAGGTAAAACCTGA -TTTACTGATTGCTCGCCAGGGGGTGAAATTAAAGTTCGACGATTTTCAGCAAACCACCCAGGAGCACGTCTGGCCGCGGC -TGAATAAAGCTGATCTAATCGCCACCGCGCGTAAAACCTGGGATGAACGCCGCGGCGGGCGCGGTGTGCGTCTGGTGGGG -CTGCATGTGACGTTGCTTGACCCGCAAATGGAAAGACAACTGGTGCTGGGATTATGATGTATACTATTATGTATATTCTG -GTGTGCATTATTATGAGGGTATCACTGTATGCATCGAATTCTCGCTGAAAAATCGGTCAATATCACTGAGTTACGTAAAA -ACCCAGCTAAATACTTTATTGATCAACCGGTTGCGGTTCTTTCTAATAATCGCCCCGCAGGATATCTCTTAAGTGCCAGC -GCATTCGAAGCGTTAATGGACATGCTTGCTGAACAAGAGGAGAAAAAGCCCATAAAGGCGCGCTTCCGTCCAAGTGCTGC -AAGATTAGAGGAAATTACACGCCGCGCTGAACAATATCTTAATGATATGACGGATGATGATTTCAATGACTTTAAGGAAT -AAGGATGCGGGTATTCAAAACAAAACTTATTCGCCTGCAACTTACAGCAGAGGAACTTGATGCGTTAACGGCGGATTTTA -TTTCCTATAAGCGTGACGGTGTTTTGCCAGATATATTTGGTCGCGATGCACTCTACGACGACTCCTTTACCTGGCCATTA -ATCAAATTTGAGCGAGTTGCTCATATTCATCTGGCAAATGAGAATAATCCATTTCCGCCACAGTTGCGCCAATTCAGCAG -AACGAATGACGAAGCGCATTTGGTATATTGTCAGGGGGCGTTTGATGAGCAAGCATGGTTGCTCATTGCCATTCTGAAAC -CTGAACCTCATAAACTGGCTCGAGATAACAACCAAATGCATAAAATTGGGAAAATGGCAGAAGCGTTTCGCATGCGTTTT -TGAATTTATATTATGAATAACATACAAATAAGAAACTATCAGCCTGGCGATTTTCAGCAACTATGCGCTATTTTCATTAG -AGCGGTTACGATGACCGCCAGTCAGCATTATTCACCACAACAAATTTCCGCCTGGGCGCAGATTGACGAATCTCGCTGGA -AGGAGAAACTCGCGAAATCACAAGTGTGGGTTGCGATCATTAATGCACAACCGGTTGGTTTTATTTCCCGCATTGAACAT -TATATCGATATGTTATTTGTTGACCCTGAATACACCCGCCGTGGGGTTGCCAGCGCTTTGTTAAAACCTTTGATTAAGTC -TGAATCCGAACTTACGGTGGACGCAAGCATAACCGCAAAACCCTTTTTTGAACGTTATGGTTTTCAGACAGTTAAGCAGC -AGCGCGTTGAATGCCGGGGAGCGTGGTTTACTAATTTTTATATGCGATATAAACCGCAACATTAAATCCAGCTTGCAATG -AAAATAACGCCCGCCTGGTATGTGCGCGTTTTCTGATTCCACAAACTGCAAGGAGGTAAATCATGACAAATCCTTTATCA -ATGACTCTTTGCAGACCTTTCCAGGATTAATTCTTTTTTTCTTGCCCTGGATTCGTCTGCCATTTCCTGATTTTTATATT -TATATACTCTAAATAATTCGAGTTGCAGGAAGGCGACAAGCGAGTGAATCGCCAGGAGCTTACATAAGTAAGTGACTGGG -GTGAACGAACGCAGTCGCAGTACATGCAACTTGAAGTATGACGAGTATAAATGGAATGGTACATGGGCAAATATATTCGT -CCCTTATCCGATGCGGTATTTACCATCGCATCTGATGACCTGTGGATCGAGAGTTTAGCGATCCAACAATTACACACCAC -GGCAAATTTACCCAACATGCAGCGCGTAGTGGGGATGCCAGATTTACACCCCGGACGCGGCTACCCGATTGGCGCAGCGT -TCTTCTCTGTTGGTCGTTTTTACCCGGCAAGACGTCGCGGTAACGGTGCTGGAAACAGAAACGGGCCGCTACTCTGACAC -ACTGCGTTCGGCGCTGGTTTCTCTCGATGGCGATAACGCATGGGCATTAAGCGAAAGCTGGTGTGGCACTATTCAGTGGA -TTTGTCCGAGTCCGTATCGGCCTCATCATGGGCGCAAAAACTGGTTTCTGGGCATTGGGCGTTTTACCGCTGATGAGCAG -GAACAATCGGATGCAATCCGTTATGAGACGCTGCGTTCGTCGGGGCCGGGCGGTCAACATGTCAATAAAACCGACTCGGC -GGTACGCGCCACGCATTTGGCATCCGGTATTAGCGTGAAGGTTCAGTCAGAGCGTAGTCAGCATGCTAACAAGCGGCTGG -CACGATTGCTGATTGCCTGGAAGCTGGAGCAACAGCAACAGGAAAATAGCGCGGCGCTGAAATCGCAGCGGCGAATGTTC -CATCACCAGATTGAACGTGGCAACCCGCGACGGACATTTACAGGGATGGCTTTTATCGAAGGATAATGAAGGATGAAACT -GCCGGAAGGCGATTAAACGCCATCCGGCAGCAAATCAAATAATTACTTCGCCGGAATTTCTTTCAGCAGTTCAGTCAGCA -GTGTCCAGTAATGACCTACGCTTTCGATGTGAACTTGCTCATCCGGAGAGTGTGGACCGGTGATAGTTGGCCCGATAGAA -ACCATGTCCATTTCCGGATACGGTTTTTTGAACAGACCACATTCCAGGCCCGCGTGGATAATCTGGATGTTCGGCGTCTT -GTTGAACAGGCGCTGATAGGTTTCACGTACCAGATGCATCACCGGAGAATTAGCGTCCGGCTGCCAGCCAGGATATGCGC -CTTTCGCTTCGGTTTTCGCGCCAGCCAGTTTACCCAGCGAATCCAGCATGCTCACCACGTAGTCTTTACCGCTGTCGATC -AGTGAACGGATCAGGCAGTGAATTTCTACGTTATTGTCAGTCATGGTCACCACACCGACGTTCAGGGAGGTTTCAACCAC -ACCTTTGGCTACATCGGAGTTACGAATCACACCGTTCGGGGTGGCGTTCAGCAGACGAATAAAGGTATCGCGAGATTTCG -CAATCAGGGCAGCTTTATCGTTCGCTACAGAGTCCAGCAACAAGGCCAGATTTTTCTCTTTTTCTGCCAGCTCGTTTTTC -AGGATCTCCTGATAGGTATTCACCAGAGATTTCAGGACGTCGACTTTATCAGCTGCGACAGCAATGGTCGCAAAGGCTTC -ACGCGGGATGGCGTTACGCAGTGTGCCGCCGTTGAAATCGATAAGGCGCAGATCCAGTTCTTCCGCATGACCCGCCAGGA -AGCGCACCAGCAGTTTGTTGGCATTACCCAGCCCAACGTGGATTTCCCCGCCGGAGTGACCGCCTTTCAGACCTTTTAAG -GTTAACTTGAAGGTTTCAAAACCAGCTGGAACCGCTTCACGATCTAAATGCAGGTTGGAGGTGAAGTCGATACCCCCCGC -ACAACCCATGTAGATTTCACCTTCTTCTTCGGAGTCGGTGTTAATCAGAATATCAGCCTGCAACCAGTTGCCCTGTAAGC -CGAACGCACCGTCCATACCGGCTTCTTCGGTCATGGTCAGCAGCACTTCCAGCGGGCCGTGAACCACGTTTTCGTCAGCC -AGAACCGCCAGCGCAGAGGCCATACCAATGCCGTTATCCGCACCCAGCGTGGTGCCGCGCGCTTTAACCCATTCGCCATC -AATATAAGGCTGGATAGGATCTTTCGTGAAGTCATGCACGGTGTCGTTATTTTTCTGCGGCACCATATCGAGGTGGGCCT -GTAAGACGACCGGTTTACGATTTTCCATACCTGCGGTAGCAGGTTTACGAATCAGGATATTACCTACCTGATCGCGTTCG -ACATGGAAACCTTTCTCTTTTGCCCAACCAACAATGTATTCAGCGAGTTGCTCTTCATGATAGGACGGGTGAGGAATAGA -ACAGATTTTGGCAAAAATATCCCACAGCGGCTGTGGAGATAATTGAGACAGTTCAGACACGTTAAGTCTCCTTGTCGATC -ACCCGCAAAACAGTATTGCAGGTCACAGGGTTAGCAGAAAATGTTGTCAACACAAGACAGGCTTGCGAGATATGTTTGAG -AATACCACTTTATCCCGCGTCAGGGAGAGGCAGTGCGTAAAAAGACGCGGACTCATGTGAAATACTGGTTTTTAGTGCGC -CAGATCTCTATAATCTCGCGCAACCTATTTTCCCCTCGAACACTTTTTAAGCCGTAGATAAACAGGCTGGGACACTTCAC -ATGAGCGAAAAATACATCGTCACCTGGGACATGTTGCAGATCCATGCACGTAAACTCGCAAGCCGACTGATGCCTTCTGA -ACAATGGAAAGGCATTATTGCCGTAAGCCGTGGCGGTCTGGTACCGGGTGCGTTACTGGCGCGTGAACTGGGTATTCGTC -ATGTCGATACCGTTTGTATTTCCAGCTACGATCACGACAACCAGCGCGAGCTTAAAGTGCTGAAACGCGCAGAAGGCGAT -GGCGAAGGCTTCATCGTTATTGATGACCTGGTGGATACCGGTGGTACTGCGGTTGCGATTCGTGAAATGTATCCAAAAGC -GCACTTTGTCACCATCTTCGCAAAACCGGCTGGTCGTCCGCTGGTTGATGACTATGTTGTTGATATCCCGCAAGATACCT -GGATTGAACAGCCGTGGGATATGGGCGTCGTATTCGTCCCGCCAATCTCCGGTCGCTAATCTTTTCAACGCCTGGCACTG -CCGGGCGTTGTTCTTTTTAACTTCAGGCGGGTTACAATAGTTTCCAGTAAGTATTCTGGAGGCTGCATCCATGACACAGG -CAAACCTGAGCGAAACCCTGTTCAAACCCCGCTTTAAACATCCTGAAACCTCGACGCTAGTCCGCCGCTTTAATCACGGC -GCACAACCGCCTGTGCAGTCGGCCCTTGATGGTAAAACCATCCCTCACTGGTATCGCATGATTAACCGTCTGATGTGGAT -CTGGCGCGGCATTGACCCACGCGAAATCCTCGACGTCCAGGCACGTATTGTGATGAGCGATGCCGAACGTACCGACGATG -ATTTATACGATACGGTGATTGGCTACCGTGGCGGCAACTGGATTTATGAGTGGGCCACCCAGGCGATGGTGTGGCAACAA -AAAGCCTGTGCGGAAGACGATCCGCAACTCAGTGGTCGTCACTGGCTGCATGCGGCTACGTTGTACAACATTGCCGCCTA -TCCTCATCTGAAAGGAGATGACCTGGCCGAGCAAGCGCAGGCTTTGTCAAACCGCGCCTATGAAGAGGCCGCTCAGCGTC -TACCGGGCACGATGCGGCAGATGGAGTTTACCGTACCCGGCGGTGCGCCCATCACCGGCTTTTTGCATATGCCGAAAGGC -GATGGCCCGTTCCCGACGGTATTAATGTGTGGTGGTCTGGATGCGATGCAGACGGACTATTACAGCCTGTATGAACGTTA -TTTTGCGCCGCGCGGCATTGCGATGCTGACTATTGATATGCCGTCGGTGGGCTTTTCTTCAAAATGGAAGCTCACCCAGG -ACTCCAGCCTGTTGCATCAGCACGTCTTAAAGGCGCTGCCTAACGTACCGTGGGTGGATCACACTCGCGTCGCGGCCTTT -GGTTTCCGTTTCGGCGCTAACGTTGCCGTGCGTCTGGCATACCTTGAATCGCCGCGTCTGAAAGCGGTTGCCTGTCTTGG -TCCGGTAGTTCATACCCTGTTGAGTGATTTTAAGTGCCAGCAACAGGTGCCGGAAATGTATCTTGACGTTCTGGCCAGTC -GTTTGGGGATGCATGATGCTTCCGATGAAGCGTTGCGCGTGGAGCTGAATCGCTATTCATTAAAAGTGCAAGGATTGCTG -GGACGTCGCTGCCCAACGCCAATGTTATCAGGCTACTGGAAGAACGATCCGTTCAGCCCGGAAGAGGACTCACGCTTAAT -CACCTCATCATCTGCTGACGGTAAATTATTAGAGATCCCATTTAACCCGGTGTATCGGAATTTTGACAAAGGTCTTCAGG -AAATCACCGACTGGATCGAAAAACGCTTGTGTTAAAAATTTGCTAAATTTTGCCAATTTGGTAAAACAGTTGCATCACAA -CAGGAGATAGCAATGACGTTACCGAGTGGACACCCGAAGAGCAGATTGATCAAAAAATTTACCGCACTAGGCCCGTATAT -TCGTGAAGGTAAGTGCAAAGATAATCGATTCTTTTTCGATTGTCTGGCTGTATGCGTCAACGTGAAACCGGCACCGGAAG -TGCGTGAATTCTGGGGCTGGTGGATGGAGCTGGAAGCGCAGGAATCCCGTTTTACCTACAGTTACCAGTTTGGTCTGTTC -GATAAAGCAGGCGACTGGAAGAGTGTTCCGGTAAAAGACACTGAAGTGGTTGAACGACTGGAGCACACCCTGCGTGAGTT -TCACGAGAAGCTGCGTGAACTGCTGACGACGCTGAATCTGAAGCTGGAACCGGCGGATGATTTTCGTGACGAGCCGGTGA -AGTTAACGGCGTGAGTGAAATGTGCCGGATGCATCACATCCGGCAATATTCATTAAAACTGATACGTCATGCCAACCGCG -ACAATATCATCATTATTAATATTCAATTTGTTATCGCTATCCAGTTGGTTGATTTTATAATCAACAAACGCTGACATATT -TTTGTTGAAATAATACGTAGCACCGACGTCGATATAATTGACCAGATCTTCATCACCGATACCTTCAATATCTTTCCCTT -TCGATAAGACATAACCCAGCGATGGACGCAGACCAAAGTCAAACTGGTATTGAGCGACCGCTTCAAAGTTCTGTGTCTTA -TTGGCAAAGCCGCCAGTTATTGGCGTCATTTTGCGTGTTTCAGAATAGAAAGTTGCCAGATAAATATTATTGGCATCGTA -TTTCAGACCTGTTGCCCATGCTTCTGCACGCTTGCCTGTGCCACGGCTTTGCAGGTTCTGCTCGTTGGTGCGATCTGAGT -TGGTATAGGCCCCACTAATGGCGAAATCGCTGCCGCCAAAGTCATATGTCAATGACGTGCCGAAGCCATCGCCGTTTTGC -TTTTTAACGTCGCGGTTTTCGTTTTTCCCTTGATATTGCAGGGTTAAGTTCAGGCCATCGATAACGCCGAAGAAGTCGGT -GTTCCGATACGTCGCCAGACCGCTGGCGCGTTTGGTCATAAAGTTGTCGGTCTGCGCCGAGGAATCGCCACCAAATTCCG -GGAACATATCGGTCCAGGCTTCCACGTCATACAACGCCCCCAGGTTACGACCATAATCGAAAGAACCCAAATCTTTATAT -TTCAACCCGGCAAAAGCGAGACGCGTTTTTTGCTGTGCAGTATCACTCTCTGCTTTATTACCGGCAAACTCTGCTTCCCA -ACGACCATAACCAGTCAGTTGATCGTTAATTTGTGTTTCGCCTTTGAAACCAAAACGGATATAACTCTGGTCGCCATCTT -TACTGGCGTTATCACTCATATAATGCATGGCTTTAACTTTGCCATAGACATCCAGTTTATTACCGTCTTTATTATATATT -TCTGCAGCCTGTACAGATGCAGATGCCACAATGCCCATCACCACTAATGCCAGAGTGCTCTTTTTCATTTTCATTCCTGA -TTTTAATTAACGCGCGAATATTCAGCGGGAGAGTCCCGTTGAAAACAGGAAAGTTTTTAACCTGAGATTGTTAAAGATAT -ATTACAGATTAATAATATTCTTAAAATGTGGTAATTTATTAAATCTGTAATAAAAGCGTAAACAACTGCCGCTAGGCTTG -CTGATCCCGCGCAACAAAACGCCATGCTTTGCTCGCAGATGGTTGGCAACCGACGACAGTCCTGCTAAAACGTTCGTTTG -ATATCATTTTTCCTAAAATTGAATGGCAGAGAATCATGAGTGACAGCCAGACGCTGGTGGTAAAACTCGGCACCAGTGTG -CTAACAGGCGGATCGCGCCGTCTGAACCGTGCCCATATCGTTGAACTTGTTCGCCAGTGCGCGCAGTTACATGCCGCCGG -GCATCGGATTGTTATTGTGACGTCGGGCGCGATCGCCGCCGGACGTGAGCACCTGGGTTACCCGGAACTGCCAGCGACCA -TCGCCTCGAAACAACTGCTGGCGGCGGTAGGGCAGAGTCGACTGATTCAACTGTGGGAACAGCTGTTTTCGATTTATGGC -ATTCACGTCGGGCAAATGCTGCTGACCCGTGCTGATATGGAAGACCGTGAACGCTTCCTGAACGCCCGCGACACCCTGCG -AGCGTTGCTCGATAACAATATCGTTCCGGTAATCAATGAGAACGATGCTGTCGCTACGGCAGAGATTAAGGTCGGCGATA -ACGATAACCTTTCTGCGCTGGCGGCGATTCTTGCGGGTGCCGATAAACTGTTGCTGCTGACCGATCAAAAAGGTTTGTAT -ACCGCTGACCCGCGCAGCAATCCGCAGGCAGAACTGATTAAAGATGTTTACGGCATTGATGACGCACTGCGCGCGATTGC -CGGTGACAGCGTTTCAGGCCTCGGAACTGGCGGCATGAGTACCAAATTGCAGGCCGCTGACGTGGCTTGCCGTGCGGGTA -TCGACACCATTATTGCCGCGGGCAGCAAGCCGGGCGTTATTGGTGATGTGATGGAAGGCATTTCCGTCGGTACGCTGTTC -CATGCCCAGGCGACTCCGCTTGAAAACCGTAAACGCTGGATTTTCGGTGCGCCGCCGGCGGGTGAAATCACGGTAGATGA -AGGGGCAACTGCCGCCATTCTGGAACGCGGCAGCTCCCTGTTGCCGAAAGGCATTAAAAGCGTGACTGGCAATTTCTCGC -GTGGTGAAGTCATCCGCATTTGCAACCTCGAAGGCCGCGATATCGCCCACGGCGTCAGTCGTTACAACAGCGATGCATTA -CGCCGTATTGCCGGACACCACTCGCAAGAAATTGATGCAATACTGGGATATGAATACGGCCCGGTTGCCGTTCACCGTGA -TGACATGATTACCCGTTAAGGAGCAGGCTGATGCTGGAACAAATGGGCATTGCCGCGAAGCAAGCCTCGTATAAATTAGC -GCAACTCTCCAGCCGCGAAAAAAATCGCGTGCTGGAAAAAATCGCCGATGAACTGGAAGCACAAAGCGAAATCATCCTCA -ACGCTAACGCCCAGGATGTTGCTGACGCGCGAGCCAATGGCCTTAGCGAAGCGATGCTTGACCGTCTGGCACTGACGCCC -GCACGGCTGAAAGGCATTGCCGACGATGTACGTCAGGTGTGCAACCTCGCCGATCCGGTGGGGCAGGTAATCGATGGCGG -CGTACTGGACAGCGGCCTGCGTCTTGAGCGTCGTCGCGTACCGCTGGGGGTTATTGGCGTGATTTATGAAGCGCGCCCGA -ACGTGACGGTTGATGTCGCTTCGCTGTGCCTGAAAACCGGTAATGCGGTGATCCTGCGCGGTGGCAAAGAAACGTGTCGC -ACTAACGCTGCAACGGTGGCGGTGATTCAGGACGCCCTGAAATCCTGCGGCTTACCGGCGGGTGCCGTGCAGGCGATTGA -TAATCCTGACCGTGCGCTGGTCAGTGAAATGCTGCGTATGGATAAATACATCGACATGCTGATCCCGCGTGGTGGCGCTG -GTTTGCATAAACTGTGCCGTGAACAGTCGACAATCCCGGTGATCACAGGTGGTATAGGCGTATGCCATATTTACGTTGAT -GAAAGTGTAGAGATCGCTGAAGCATTAAAAGTGATCGTCAACGCGAAAACTCAGCGTCCGAGCACATGTAATACGGTTGA -AACGTTGCTGGTGAATAAAAACATCGCCGATAGCTTCCTGCCCGCATTAAGCAAACAAATGGCGGAAAGCGGCGTGACAT -TACACGCAGATGCAGCTGCACTGGCGCAGTTGCAGGCAGGCCCTGCGAAGGTGGTTGCTGTTAAAGCCGAAGAGTATGAC -GATGAGTTTCTGTCATTAGATTTGAACGTCAAAATCGTCAGCGATCTTGACGATGCCATCGCCCATATTCGTGAACACGG -CACACAACACTCCGATGCGATCCTGACCCGCGATATGCGCAACGCCCAGCGTTTTGTTAACGAAGTGGATTCGTCCGCTG -TTTACGTTAACGCCTCTACGCGTTTTACCGACGGCGGCCAGTTTGGTCTGGGTGCGGAAGTGGCGGTAAGCACACAAAAA -CTCCACGCGCGTGGCCCAATGGGGCTGGAAGCACTGACCACTTACAAGTGGATCGGCATTGGTGATTACACCATTCGTGC -GTAAATAAAACCGGGTGATGCAAAAGTAGCCATTTGATTCACAAGGCCATTGACGCATCGCCCGGTTAGTTTTAACCTTG -TCCACCGTGATTCACGTTCGTGAACATGTCCTTTCAGGGCCGATATAGCTCAGTTGGTAGAGCAGCGCATTCGTAATGCG -AAGGTCGTAGGTTCGACTCCTATTATCGGCACCATTAAAATCAAATTGTTACGTAAGATCTTATCATTCTCCCACCAAAA -AATTATCTTAATGTAACAGCTGGTGTAAGTAAATTCTATCAACGAAGATCAATCTTATCTACTGACCAAAAAGGCCTGAT -AGGGCTTCGCTCACTATACATCCTTGGCTGCAGGTTTAGTTGTACACCACTCCTAAATTTAATGTGTTGGCAATGTGTTC -AATAAAGCTCGAACAAATTAGCTCATTATGATCGGTTAATACTTCAACTTCTGGTTGCATGATTGTTTGTCCGTAAAAAG -ATAACGCGCCTGCCGGGTAGTAGCAGGCGCATTACGCAATAGGTAAACAAGGGAGGAAGTTCAGAAATGTAAATCGGGAA -GGTTGTACGCAATGTTCATCGTACTACGTTGTTACGGCTTTGCCGCAACAAGCCAGTTGCCTGCCGCGCTCGCAGAATGT -CTGCAGCCCGGAGATAAGGAGATTGTTCCTGCCAGCTAAATCCCTTCCTGTCGATACGAACCAGCTCGTATTTTTCTACC -AGAAAATTCACGGCATCGGCTAGGGTGATACCGGCATCGATGTGTTCCTTAATCACAGCCTCATTGCAGAATGGCGTGTC -GTTTATTGTCAGACCATAGTGCTGTTCCAGCAGACGTGTCAGTAACATTTGCCAGACAGCCACGGGTGACAGGCAGGGCT -TCACCGCCCGCTGAGTTATTGCAGGTAAAGTTTTCATGTTTGCTCTCGTGTAGGTAATTAACGCTGAGTGGGGTAAATGG -CGATGTATACGTAGCCGCAACTGCCAAGGGTGTCGGCTTCGCAGGTTAAATCGTTGTGGTACAGGGTAACGCAGTGGGCA -TGGTGGGGGCTGAGTTCACCGGTGGTCAGCATCGATTCCATCTGGAGGATAAAGTGCGGGAATGTTTCATCCAGCTTCCG -GCATTCGATGTCACTGAACTTGCCGGTGATGCTGGCCCGGTCAGCCAGATAATGCAGTCGGTTGCCTTCCTGCACCAGAC -GGGCTCCCAGGCGCAGTGTAATCTCCCGCTGCAGGCCCCTGGTAGGGTTGCTCATTACAGTTCTCCACTATTGTCAGTTC -AGGGTGATGCTCATCAGGCAGGTATAGGGCCCATTGCGGTCCTGGCGGCGTTCGGCGTATACCGCGAGGACTCCGGCGAT -ATCCGGAACGTCCCTGCCGGTGTAATGACAGACGCTACCGTGCCACTGGTATTTGCCGGTGCAGTAGCGAAAGATTCGGG -ACTCAGGATGCTGGCGGTATATCGTCATTGCCCTGCGTTTACTGATAATTTTCATGTAATACCTCAAAGCAGACCGTGTT -CTGCGAACGAATAGATTTGCCTGCCACCGACAATCAGATGGTCAGGGACACGGATATCCACCAGCTGAAGCACCTGAACC -AGTCGCTGCGTGAGGGTTTTGTCGGCCTGGCTAGGTGTCGTCTCGCCGGAAGGATGGTTATGCGCGAGTATCACCGCCGC -CGCGTTGAAGTGCAGAGCACGTTTGACCACCTCCCGGGGATGCACCTCGGTGCGGTTAATCGTGCCGGTGAAGAGCGTTT -CATGGGCAATCAACTGATTCTGGTTGTCCAGATACAACACCCGGAACTCTTCCCGCTCAAGCGCGGCCATATGCAGTCGC -AGCCATTCACGTACGGCGTGGGTAGAGGTGAAGGCTACGCCGGGCTCATGCAGGTGGCGGTCCAGAGCCCTGAGCGCCCG -CTGAATGAGACGCCGGTCCTGTGGCGTCATCTCGCCGGGTAAAAAGGAAAGCTGTTTCATCTGTTGCTCCTTCGGTCAGT -CGATAATACGCAGAATGGCGTGAGCCTCTGGATGTTGCATGGCATACTCCCGCAGGCGGTAATAGTGTGCGGTCATCGCG -TCACATTCTGTACGGCAGGCATGGTGGCTATACGCAATCAGGCAGACAGCAATACCTGCTGCTTCTGCACTCATTTGGGC -ATCGTTACCGTTCAGGCAGTTAAACAGACGCCATGTCTCATCGTTGTCAGGCTCGGGGGACATAAATGCGCCGCCATTGC -TGAGGGTGTAGAACGACCAGATACCACCGCTGTAGCCCTCACAGAAGCGGTCCATCCAGGCGAAGATATGCGGCTCCAGG -AGTAGCCACTGCGGGATAGCGCCAAAGTACTGTGGCCAGAAATCGATACGCTGTTCATCGGGGACCGGCGTGACGGTCAG -TTCAAATTCGGGTTGGTTAGCGGGTGCGAGGTCGTGCTGCGTCTGTGTTGTCATGGGTATGTCTCCGTCAATAAAAACGC -CAGCGGCGATGGCTGGCGTATGGGGATATAAAGTGTGTTCGGGGAGGTGAATGCGGGTAAATGCTTCGCGATCAGCGGGT -GGCCGTGTCTGTACGGATGCCTGAGGTGCGGATATAGCGGTTAAGACCTTCACCGGCATCCGGCTCAAAGTTCCATGCCC -GCCAGACCATCCGGCCTTCAGTATCACGAACCACCAGACGGAAGTGACTGCCCTGGTCGTCTTCGAGTGTGATATTGCTG -TACGTGGTAGTGACCGCTTGCGCTTGTCTCCGGGTGAAAGGCCCCGGTGGCAGCAACACGGATTGGGTCATTTTCGGGCT -CCTGATAAAAGAAAACCCCGGCAGCCTGCTAGCTGTCGGGGTGAATTTGCTGGGGAAGATACTACTATCAGTCGTTGCTG -CAGTCTCCGAGAGTGGACAGAACTTTCTCAGCGTTCTTCCGGTCCGCAGTGAAGGTCCCTGCTTTGTGGTCATTGACGTA -GACGTCGAACTGCCCGGCCTCAGAGATATTGCTGATGAAGTCAAACCAGGCGTTATCGCCGTTACGCCAGCCCAGGCTGG -ACGGAATAATGTACTGCTGGTGATCCATCACTACGGTGATAGTAGTGTCGTCATCGTGCGAACTGACCATCTTGTCATCG -GCAAGGGTAAGAAAGACTGAATGCTGATAGAAACCATTCTGGTCCGGGTTCCCTGTGCAGTTGATGGTAAACGTCTTTCC -GCTGGCTTCGGTCACGCTGTATTCCGTATTGCCCTGACCGTAACCCTGCTGCCAGAACCCCGGGATAGCAGAGGCATTAA -AGCTCGCGAGCAGTACACCCGCCAGCATAAACCGACTTAGTGAAAGTATTGTCATTCTTGTCTCCTTTGTCGTTGTTTTA -TTCCTGATTGTCAGGGTTCGAGGGTATCAGTAGCTGCCCCATCAGTTTGCCGTCATGGGCGTACTCAAAGTATTTTTCTT -TGGTATACGGGTCCGTCACCTCCTGGTATTCCAGTTTGATGTTATCGGCAATACACAGCGCATTCATCAGTGGCTGGACG -GTTTTTTCCTGCATATCCACGAGGTAGTAGTAACTGCCATCCTCGCAGCCATCGGGCGACTGGCGGGTACGTAAAACCTG -CAAGGTGGGACCGGATAAGTAGTCAACCTGTGACCATTCTTCGCTGACATCATCCTGGTGGCTGACCACATCACTGAAAC -GCGGTGGGGTGAGGTCCTTAAATTTACTGATGGCCTTCAGGTCATCACTTCTGTCATCGCATGCGATGAGAAACAGAGTG -GTGGCAACCAGCGCCAGCAGAGGCAGTGTTTTACGTTTCATTATTTTTTTCCTGAAATCAGACGAACCACTTTGGCAAAG -ACATAAATGCCCACGAAAATACCCACCGGCACGCCGACGAACGGTGTCAGCGCGACACTGGCAGCACCGGCTGCGCCACC -TCCCGTCAGCAGTGCGGCAACAGTGGCAAGGGTCAGGGCCGCGAGACTGTCGGACACCCCGGTTTTGTTCAGAATGATGA -CGATGACAACAATGGCGATAATGGCAATATCCGGACTGATACTCCAGGTCCAGATACATCAGCCGCTCACGAAAATCACG -CCGCAGCGTGCGCACCGACACACCAAACTCAGCGGCAAGCTTACGCACACTCAGCGTTTCCCCTGCCACCAGACGGCTGA -TTATCAGTGACAGCCTGACAGCCAGCCGGTCATGGCGGCGTTCTGCCTGTGTCATGAGACGTTCTCCGTGAAAGTTAACT -GACTGAAAATGATGTGATTACTTTAAAGAGGGGGTCGGACAGGGTATGGACACCACAGAAACTATTTTTCATTTCTGCAA -AAGCCAGAGGCAGCGGGGGTTACAGGCCTTCCCTCGGTGAGTGAGGACCGTCAGCACGGTGCGATGCGGACAGGTGGTGT -CCGATATTAACAAAGCAGCAACATTAAACGGTCACTGCAGTTGCGTGAGCAGGGCTTCCGCCATCACCCACAGTGCCCGG -TTAAGTTTCACGTCCCCGTCGATACCGCGAACGGCACGGGTATGTGACCGTCCTCCTTTGGCATTACGGCCACTGAGCCC -GCCCTTAATCAGGTTCTCCTGAATACGCTGGTACGTGGTCCACAGGTCATTGCTCTCATCCTGCCAGCGGCGAGGGGAGA -GGATCTGCGATTCAGTCACCGGCTGGTGGTCTTCACCAAAGCGGTATGTGAGGGCGGCTTTTGCCAGTGCCTGCTGTGCC -GGGGGTGGCAACAGCAACGACTGCATGGCATCCCGTTTCTCCTCCACCCGGTCAAAAATCCCCAGCACCTCATACGCGCC -TTCAATCACCTGACTCACCACGTCCCCCTTGTGTGGCACCCGCACCTCGCCAAACGACTCACCGCAGACGAGCCCGTTCT -GACAAACCGCACGAAATAGTCCCGGCAACATCTGATACGAACTGGTTCCATCGTGAGAGTTGAGTAGAATAATTTCCGGC -ACCTGTTTACCGGTGATCTGCCCTTCCCGCCGCAGACGCAGCATATGCTTTGTATGTTCACGACGACCCGGGTCACGCAC -GCGGGTCTGACAGGCAAAGAATGGCTGGAAGCCTTCTCGCTGTAGGCTGTCGAGCAGGGAGATGGTGGGTATATAGGTAT -AACGCTCACTACGGGACTCGTGTTTGTCCTCACTGAATACACTGGGCACTACGCGAAACAGCTCTTCACGGGTTAACGGA -CGGTCGCGACGGATAAGGTTTGCTGCGCCAAAGCGCGAAGCCAGACGGGTCATAAGCAGACTCCTCATAACGGGAAAACA -AATAAAAGGGATCCCCGTCGCATCGGCGACAGGGGCAGGGAAGTAACAGGGATGGGTTAAATACTCAGAAGAAGAAATCC -CAGACGGCGCGGGCCACTGACACCACCGTGGTGCGCACGGCCTGAATGACGGCCCGCACCGGGGCGGGTATCAGGGGAAA -GGCACTGATGCTATCGAGTACGGCCCCGACGGTTTCACCAAAATCGCTACGAGCCTGTTCCCGGACTACCGTCGTGCGAA -AGGAAGGATGGAGTTGCGACACCACCGGGCTGGTGGCCTCACGTGGCAGGCACTTAATCATCCGCTCGGCCATCACCTTA -AGCCCCCATTGTAGACGGACCGACACAGCACACACCGGATGGACGGGCTGGAACAGCTCATGCAGCAGGCAGATTTTGCG -GCTGATATTCTGCTTCTGCGCCGTGGACAACTGTCCCCCACCGCTGGTAGGTTCGGCCTTATCCGACTGGCTGATAACAA -ACAGCACCTTATGCCGGTATACCTCTCCAATCACCTGATGATAAAAATGTTCATCCACCGTCAGCGCCCGGTCATCGGCC -TTAATCAGCCACAGTACCAGGTCGAGGCGAGGAAGCTGTTCGCGGTACAGCGCAGCATACTCGGTATCGCGAGCGCCACT -TTCGCCCACGCCGGGCAGATCCATCAGCGTTATATAGCGGTCGCCGACTTGCAGGCGAAAGCGCAGTGGCTCACGTGTAC -AGGCCGCCACATCGCTGACCGGTGATATATCTCCGGCAAACAGGGCATTGCACAGACTGCTCTTCCCAACACCGGTTTTA -CCCATAATGCCGATCACTGGCTCGTAGTTAGTTAACTGGTTAATTTGCTGCAGAAGCCGCTCTGATACCCATTGCGGCAG -ATCAGCAAGCGATTGCTGAAACGACTTCAAACCTTCAGAATTATTCATCACTACTCCTCTGAAAAATAATAAAAAACGGT -AGAATCGTGAGATTCCGCCGTTAATTGCGTATGTTCAGAGTGATGATATATATCTGAAGATTTTTTCAATCCTCTGCGCT -TGAGGCAGCTGCGCGACTGCTGGCTCAGGCAATGAATGAGTTATAATAGCAGCATTTACTAACAGGGATTTATTGAGAGT -ATGAGCCGCCGTGATACACCTTAAAATCTCAACCCAGCAAAGTTTCGGAGCCGCGAGCAAAAGTGAGAGCCTTCACAAAA -TAATGCTTAGTAATAAAGTTACTTTGAATTCAGAGCCCCGATTAATGTGAACATGATCAACGAATTTTACCCAGATTGAG -TTCATTCAGTAGCCAGGTTTTGAACACATCAAGCGCAGAATGCATGTGTTGGTGCTGGGGGAAAACCAAATAATGACCGA -TGTAATGTATTTCGCTGGTACTGTTTACAAGTGGGCATACCAGTTTACCGCTAGCGATTTCACGTTCAGCCAGTAGTTTT -GATTCAAGCACAACTCCCAAGCCGTCAACTGCGGCAGCAATCGCCATAAAGCTACGGTCAAATCGAAGGCCATAATTATT -GGGTGGCGTCATCTTATTCGCCTCAAACCATCCTTTCCACTGGTACAACTGCACATCGCACTGAATCAATGTCAACGCAT -AGAGATCCTCTGGTTTCTTTAGCCGCTCAGCCAGTTGGGGAGAACACAGTGGCGTAAGTTCTTCAACAGCAAGCGGGATC -TTCTCATAGGGTGATGGGCGGGGTTCACCGTAGACTATATCGAGATCAAAATCATCCTGTTCAAAACGTGCATATTCTGT -GCTGGCTGAAAGTCGCAGATCGATGCTTGGGTTCTCACGTATGAACTTACCAAGACGTGGTAAAAGCCATTGATGGGCAA -AACTCGGTGCAGTATGAAGGCGCAAAGGCCTGGATTCATCAGCCGTCACTAATGCCAACCCCTGCTGTAATTCGTTAAAT -CCCCGCTGTATGTGCTCAAGCAGTATTTCACCTTCTTTCGTCAGCGTAATTTCTCGCGTACTGCGCTGAAAAAGGCGTAC -ATCAAGCAAGTTTTCCAGTTTGCGGATGGCATGGCTGATCGCACTGGGTGACAGTTCCAACTCAGAGGCGGCCAACGCAA -AAGCTCCGGTACGACCAGCCGCTTCAAAGGCGCGTAACAGATTTAGAGGTGCTTTTGCTAAGAGCTTCATTCATGAATCC -TTTTCACTAGGGATGAAGTGGTTTACTGAATTTGGCCACCTGAACAGAGGTGATATGCTCACCTCAGAACAACACAGGTG -TCATAATGAAAAAAAGAAATTTCAGCGCAGAGTTTAAACGCGAATCCGCTCAACTGGTCGTTGACCAGAACTACACCGTG -GCAGATGCAGCCAGCGCTATGGATGTCGGCCTTTCCACAATGACGCGATGGGTGAAACAATTACGTGATGAACGGCAGGG -CAAAACACCAAAAGCCTCCCCCATTACCCCGGAACAAATTGAAATCCGTGAGCTCAGGAAAAAGCTACAACGTATTGAAA -TGGAAAATGAAATATTAAAAAAGGCTACTGTAGATTCAATTGGTCAACGCAACAGTTATGTGAAAACATGGGGTTGCGGA -GGTTTTTTGAATGAGACGAACATTTACAGCAGAGGAAAAAGCCTCTGTTTTTGAACTATGGAAGAACGGAACAGGCTTCA -GTGAAATAGCGAATATCCTGGGTTCAAAACCCGGAACGATCTTCACTATGTTAAGGGATACTGGCGGCATAAAACCCCAT -GAGCGTAAGCGGGCTGTAGCTCACCTGACACTGTCTGAGCGCGAGGAGATACGAGCTGGTTTGTCAGCCAAAATGAGCAT -TCGTGCGATAGCTACTGCGCTGAATCGCAGTCCTTCGACGATCTCACGTGAAGTTCAGCGTAATCGGGGCAGACGCTATT -ACAAAGCTGTTGATGCTAATAACCGAGCCAACAGAATGGCGAAAAGGCCAAAACCGTGCTTACTGGATCAAAATTTACCA -TTGCGAAAGCTTGTTCTGGAAAAGCTGGAGATGAAATGGTCTCCAGAGCAAATATCAGGATGGTTAAGGCGAACAAAACC -ACGTCAAAAAACGCTGCGAATATCACCTGAGACAATTTATAAAACGCTGTACTTTCGTAGCCGTGAAGCGCTACACCACC -TGAATATACAGCATCTGCGACGGTCGCATAGCCTTCGCCATGGCAGGCGTCATACCCGCAAAGGCGAAAGAGGTACGATT -AACATAGTGAACGGAACACCAATTCACGAACGTTCCCGAAATATCGATAACAGACGCTCTCTGGGGCATTGGGAGGGCGA -TTTAGTCTCAGGTACAAAAAACTCTCATATAGCCACACTTGTAGACCGAAAATCACGTTATACGATCATCGTTAGACTCA -GGGGCAAAGATTCTGTCTCAGTAAATCAGGCTCTTACCGACAAATTCCTGAGTTTACCGTCAGAACTCAGAAAATCACTG -ACATGGGACAGAGGAATGGAACTGGCCAGACATCTAGAATTTACTGTCAGCACCGGCGTTAAAGTTTACTTCTGCGATCC -TCAGAGTCCTTGGCAGCGGGGAACAAATGAGAATACAAATGGGCTAATTCGGCAGTACTTTCCTAAAAAGACATGTCTTG -CCCAATATACTCAACATGAACTAGATCTGGTTGCTGCTCAGCTAAACAACAGACCGAGAAAGACACTGAAGTTCAAAACA -CCGAAAGAGATAATTGAAAGGGGTGTTGCATTGACAGATTGAATCTACAACCGCGCTCTTGATGTCAGACTCCCTGAACA -GTTCTCGATAATCGGGAAACTCAGGGCGCGTTATCCTGTGGCCACTCTCTGCCATGTGTTCGGGGTTCATCGCAGCAGCT -ACAAATACTGGAAAAACCGTCCTGAAAAGCCAGACGGCAGACGGGCTGTATTACGCAGTCAGGTACTTGAACTGCATGGC -ATCAGCCACGGCTCTGCCGGAGCAAGAAGCATCGCCACAATGGCAACCCAGAGAGGATACCAGATGGGGCGCTGGCTTGC -TGGCAGACTCATGAAAGAGCTGGGGCTGGTCAGTTGCCAGCAGCCGACTCACCGGTATAAGCGTGGCGGTCATGAGCACG -TTGCTATCCCGAATCATCTTGAGCGACAGTTCGCCGTAACGGAACCAAATCAGGTGTGGTGCGGTGATGTGACCTATAGT -GTGCCCGGAGTTCAGGGCGGGCATGGATGCTTAAATGAACCGCGAGTCTGTCTGGAATATTGAACCGGTAACTCACGATG -AGAAACCCAACAATCCCACCGGGTGTGACGGTGGAGAACCTGAGCGGCAGTGACCTGCGGCATGCCCGCAGGGTGATGTA -ACCCGCTGACAACGGGGATTGAGGCGAGATCACTAAGCCGAGATGATCCTCAAGGTTAAGTACTGAAAGGTTGAAGAACA -TGAACCCGTTAATCCGCCTCTGTGGGTTGAAAACGTCACCACGGCCTACGTGATCTGACAGGCCGTGCAGGAGGAACTGG -CAGTGATACGTAAGCACTGCCGGTCGAAGGTGTTTTGACATGTATGCGAAACACCGGGGCAGCAGCGTCTATCACGCTTG -CGTTGCTGACTTCTGCCAACTTGCGGCAAGCAAGGATAAAGAGTGCGACGGGCAGCCTCCTCAGTATGCCTGAGTCCAGG -CAGGTAAACCGGGGAAGGTCAGCGACGGATGTTAAGGGGGCATGGCTCCGATGACGCGCTGGCTGGCGGAGCTTCCGTAG -TAGTCCGCGATGGGGAAAGCCCATTACATGGCGAAGGGAAGCAGTTTGAATGTGTTTGCGACGTGAATTAACTGACCTAA -CGAGGTGAAGACCTTTGATAATCAGCGAAATGCAACGCAAGCTTGCCACATGGGCAGCCACCGATCCGTCCCTACGGATT -CAACGGCTGCTGCGTCTGATAACACAACCAGAATGGCTGGCTGAAGCGGCGCGGATCACGCTTTCATCAAAGGGGGCCCA -TACCCCCGGCGTTGATGGCGTGAACAAAACAATGCTACAGGCCAGACTGGCTGTTGAGCTGCAAATCCTCAGGGATGAAT -TACTCTCAGGCCACTACCAGCCCTTGCCCGCCAGACGGGTTTACATCCCTAAAAGCAACGGCAAACTGCGACCACTGGGT -ATCCCCGCGTTGCGGGATCGTATTGTTCAGCGGGCCATGCTGATGGCGATGGAGCCGATATGGGAGAGTGATTTTCATAC -GCTCTCATATGGCTTCCGGCCTGAGCGCAGTGTCCACCACGCGATCCGCACGGTGAAATTACAGCTCACAGACTGTGGTG -AAACCCGGGGACGCTGGGTGATTGAAGGCGACCTGTCCAGTTACTTCGACACCGTACATCATCGACTGCTGATGAAGGCT -GTACGCCGCAGGATCAGTGACGCACGTTTCATGACTCTGCTGTGGAAAACCATCAAGGCGGGACATATCGATGTCGGTCT -CTTTCGGGCGGCCAGTGAAGGTGTGCCACAGGGCGGTGTTATATCGCCGCTATTATCGAACATCATGCTGAATGAGTTCG -ATCAATACCTGCATGAGCGCTACCTGAGCGGGAAAGCCAGAAAAGATCGGTGGTACTGGAATAACAGTATCCAACGGGGC -CGAAGTACGGCGGTCAGAGAAAACTGGCAGTGGAAACCCGCGGTGGCGTACTGCCGCTATGCCGATGATTTTGTCCTCAT -CGTCAAAGGCACCAAAGCACAGGTGGAAGCCATCAGGGAGGAGTGTCGGGGTGTGCTCGAAGGCAGTCTGAAACTCAGGC -TGAACATGGATAAGACTAAAATCCCCCATGTTAATGACGGCTTTATCTTTCTGGGGCACAGGCTCATTCGCAAACGCAGT -CGTTATGGCGAGATGCGAGTGGTCTCAACGATCCCGCAGGAGAAAGCCAGAAACTTCGCCGCATCGCTGACAGCACTGTT -ATGGAAGGTGCGAATAAGCGGGGAAATTCTTCTCGGCTGACTCAGTCATTTCATTTCTTCATGTTTGAGCCGATTTTTTC -TCCCGTAAATGCCTTGAATCAGCCTATTTAGACCGTTTCTTCGCCATTTAAGGCGTTATCCCCAGTTTTTAGTGAGATCT -CTCCCACTGACGTATCATTTGGTCCGCCCGAAACAGGTTGGCCAGCGTGAATAACATCGCCAGTTGGTTATCGTTTTTCA -GCAACCCCTTGTATCTGGCTTTCACGAAGCCGAACTGTCGCTTGATGATGCGAAATGGGTGCTCCACCCTGGCCCGGATG -CTGGCTTTCATGTATTCGATGTTGATGGCCGTTTTGTTCTTGCGTGGATGCTGTTTCAAGGTTCTTACCTTGCCGGGGCG -CTCGGCGATCAGCCAGTCCACATCCACCTCGGCCAGCTCCTCGCGCTGTGGCGCCCCTTGGTAGCCGGCATCGGCTGAGA -CAAATTGCTCCTCTCCATGCAGCAGATTACCCAGCTGATTGAGGTCATGCTCGTTGGCCGCGGTGGTGACCAGGCTGTGG -GTCAGGCCACTCTTGGCATCGACACCAATGTGGGCCTTCATGCCAAAGTGCCACTGATTGCCTTTCTTGGTCTGATGCAT -CTCCGGATCGCGTTGCTGCTCTTTGTTCTTGGTCGAGCTGGGTGCCTCAATGATGGTGGCATCGACCAAGGTGCCTTGAG -TCATCATGACGCCTGCTTCGGCCAGCCAGCGATTGATGGTCTTGAACAATTGGCGGGCCAGTTGATGCTGCTCCAGCAGG -TGGCGGAAATTCATGATGGTGGTGCGGTCCGGCAAGGCGCTATCCAGGGATAACCGGGCAAACAGACGCATGGAGGCGAT -TTCGTACAGAGCATCTTCCATCGCGCCATCGCTCAGGTTGTACCAATGCTGCATGCAGTGAATGCGTAGCATGGTTTCCA -GCGGATAAGGTCGCCGGCCATTACCAGCCTTGGGGTAAAACGGCTCGATGACTTCCACCATGTTTTGCCATGGCAGAATC -TGCTCCATGCGGGACAAGAAAATCTCTTTTCTGGTCTGACGGCGCTTACTGCTGAATTCACTGTCGGCGAAGGTAAGTTG -ATGACTCATGATGAACCCTGTTCTATGGCTCCAGATGACAAACATGATCTCATATCAGGGACTTGTTCGCACCTTCCGGA -GGCGTTATGAGCTGGCGGCCCTTTTTGTATCTGATTATTAATCCCCACCCGCTATTAAGCGCCCGGCGCGGGCATCTGCG -TCTGGTGCAGGGTTGACTTTGCATTCTGTTAACAAACGCGGTATAACAAACCTTCTTTGGATGTTTAGATGTCCATACGT -TTAGAAGGTTATATGCAAACAACACAACAAAATGCGCCACTGAAGCGCACAATGAAAACGCGTCACCTGATTATGCTTTC -CTTGGGCGGCGTGATTGGCACAGGATTATTCTTCAATACCGGGTACATCATTTCCACCACTGGAGCGGCGGGAACGCTGC -TGGCCTATCTGATTGGTGCGCTGGTGGTCTGGCTGGTTATGCAGTGTCTGGGCGAGCTGTCGGTCGCGATGCCGGAGACC -GGAGCGTTTCACGTTTATGCCGCGCGCTATCTTGGTCCGGCTACCGGGTATACCGTGGCCTGGCTTTACTGGCTGACCTG -GACCGTGGCGCTGGGTTCGAGCTTTACCGCCGCTGGATTCTGTATGCAGTACTGGTTTCCACAGGTGCCGGTATGGGTCT -GGTGCGTGGTGTTCTGCGCGATTATTTTTGGTCTGAATGTTATCTCCACGCGCTTTTTTGCCGAAGGGGAGTTCTGGTTC -TCGCTGGTCAAAGTGGTCACTATCATCGCCTTTATCATCCTCGGTGGGGCGGCGATTTTCGGCTTTATTCCGATGCAGGA -TGGCTCGCCCGCGCCGGGGCTGAGTAATATCACGGCAGAAGGCTGGTTCCCGCACGGTGGCTTACCGATTTTGATGACTA -TGGTGGCAGTGAACTTTGCTTTTTCGGGTACCGAGCTTATCGGCATTGCCGCCGGTGAAACGGAAAACCCGCGCAAAGTT -ATCCCGGTAGCGATTCGTACTACCATCGCGCGACTGATTATTTTCTTTATCGGCACCGTGTTTGTGCTGGCAGCGCTGAT -CCCGATGCAGCAGGTGGGCGTGGAGAAAAGCCCGTTTGTGCTGGTATTTGAGAAAGTAGGGATCCCGTACGCCGCTGATA -TTTTTAACTTCGTGATCCTGACGGCTATTCTTTCTGCAGCGAACTCCGGGTTATATGCCTCCGGGCGCATGCTGTGGTCG -TTGTCGAATGAACGTACGCTACCGGCCTGTTTTGCGCGAGTAACGAAAAACGGCGTGCCACTGACGGCGCTGTCGGTCAG -TATGCTCGGTGGTGTGCTGGCGCTGTTTTCCAGCGTGGTGGCCCCGGACACGGTATTTGTTGCGCTGTCGGCAATCTCCG -GGTTTGCGGTGGTAGCGGTGTGGCTGAGTATCTGCGCCTCGCATTTTGTTTTTCGTCGCCGTCATCTGCAACAAGGTAAG -GCATTGAGTGAATTACATTATCGCGCGCCGTGGTATCCGCTGGTGCCAGTATTAGGTTTTGTGCTGTGCCTGGTGGCCTG -TGTTGGGCTGGCATTCGATCCAGCGCAGAGAATTGCGTTGTGGTGCGGGTTACCGTTTGTTGCGTTGTGCTATGGTGCTT -ATTTCCTTACTCAACCCCGAAACGCAAAACAGGAGCCAGAACATGTCGCAGAATAATCCGTTACGCGCTCTTCTTGATAA -ACAGGATATCCTGCTGCTGGATGGCGCGATGGCGACGGAGCTGGAAGCGCGAGGGTGTAACTTAGCCGACAGCCTGTGGT -CAGCCAAAGTGCTGGTAGAAAACCCGGAGCTTATCCGCGAAGTGCATCTTGATTACTACCGGGCGGGGGCGCAATGCGCG -ATCACTGCCAGCTATCAGGCGACGCCGGCGGGCTTCGCCGCGCGAGGTCTGGATGAAGCGCAGTCGAAAGCGCTGATTGG -CAAAAGCGTGGAGCTGGCGCGTAAAGCCCGTGAAGCGTATCTGGCAGAGAACCCGCAGGCGGGAACGCTTCTGGTGGCGG -GATCCGTCGGGCCTTACGGCGCGTATCTGGCGGATGGCTCTGAATACCGTGGCGATTATCATTGTAGCGTTGAGGCATTT -CAGGCGTTTCATCGCCCGCGCGTGGAAGCCTTGCTGGATGCCGGGGCCGATCTGCTGGCCTGCGAAACCCTGCCGAATTT -TTCCGAGATTGAGGCGTTGGCCGAGCTGTTGACCGCATATCCGCGTGCGCGGGCGTGGTTCTCATTTACCCTGCGCGACA -GCGAACACCTGAGCGACGGTACGCCGCTGCGTGACGTGGTTGCGTTGCTGGCGGGTTATCCGCAGGTGGTGGCGCTAGGC -ATTAACTGTATTGCGCTGGAAAACACCACCGCTGCGTTGCAGCATTTACACGGTTTAACGGTGCTGCCGCTGGTGGTGTA -TCCGAACTCGGGCGAGCATTACGATGCCGTGAGCAAAACCTGGCATCATCACGGTGAACATTGCGCGCAGCTGGCGGATT -ATCTGCCGCAGTGGCAGGCCGCTGGCGCACGGTTGATTGGCGGGTGCTGTCGCACCACGCCTGCGGATATCGCCGCGTTA -AAAGCGCGAAGCTGAGGGTTTATCGGGTCTACATCGTTCATTGTAGGCCTGATAAGCGCAGCGCATCAGGCATTGCCGGA -TGGCGGCACAAGCGCCTTATCCGGCCTACAAAACCACAAAACGTTATGCCGCATCCGCCAGAACAAACATGCCGTACGGA -TGGATTTCAAGATAATACTGCTCGCCGACGTCCGGTTGCAGACGCGTAGCGTTGACCTGCAATAATATCTCCTGCCCGTG -CCATTCCACCGTCACTTCATACTGCGGCCCCATATAGGCGACATGGCGGATCACGCAGCGCTGGCTCTCTTCGCCGCGAT -CGCTGAGCGTGATCGCTTCCGGGCGCACACCGACCATCCCTTCACCCTGTGTACCAAAGTGCAGCGGGCGCGGCAGATGA -TAGCCGTAGATATCAACGTATCCGTCGCTGAAGGTTGCCGGGAACAGGTTGGCATCGCCCATAAAGCTCGCCATAAAGCG -GGAGGCGGGCTGGCGGTAAAGATCCTGCGGTGAGCCGATCTGCATGATGTGTCCCTTGTTCATCACCAGCACAGTATCAG -AAACCGCAAAGGCTTCGCTCTGATCGTGGGTGACGTACAGCGAGGTGATATCAAACTGCTTTTGCAACTCGCGGATCTTG -TCGCGCATGCTGCGACGCAGGTTGGCGTCGAGGTTACTCAACGGCTCATCAAACAGCAGCACTTTCGGCTTGAGGATCAG -CGCGCGGGCCAGCGCCACGCGCTGCTGCTGCCCGCCGGAGATCTGATCGACAAAGCGGTCTTCGAATCCTTCCAGATCCA -CCATCGCCAACGCCTCTTTGACGCGGGCTTTCAGCTCTGCGCGCGGTACGCCGAGCATTTTCAGGCCATAACCGACATTC -TCTCCCAGCGACATATGCGGGAACAGGGCATAGGACTGAAACACCATACAGATATCGCGCTGCTGAATAGAGCGATGGGT -GACGTCTTCGCCATCAATGAAAATTTGCCCTTCGCTCGGTTTTTCCAGCCCGGCAACCAGGCGCAAAATAGTGGTTTTGC -CGCAGCCGGACGGGCCGAGCAGCGTCACCATTTGCCCCTGCGGGATGGTGAGGTTGATATTGTCGATTACCGTATTACTG -CCAAATCGTTTAGTGACGTTGCGCAGTTCAACGAAATTTTTCTGAGTCATAGTGCGCTCCATTACGCCTGGTTTTTGGCT -TTTGAACGGGAGGTACGTGATTCACCGATCAGCCAGTCAAAGATGAAAATAATCGCCAGCATCACCACGATCAGAATGGA -ACCGTAGGCAATCGCTACACCGTATTCGCCATCTTCCACGCGGTTGAGGATGTAAGCCGTCGCTACGCGGGTATCCGGCG -TGACGAGGAACACAATGGCGCTGACGGTGGTAATGGCGCGCACAAAGCTGTAAATCAGCGCCGAGAGGATCGCCGGGCGC -AGCAGCGGCAGCAGGATGTGCGTAATGGTACGCAGGGAACCGGCGCGCAGGCTGAGTGAGGCTTCATCGAGCGATTTATC -GATTTGGCCCGGTAATGACTCCAACTTATTGATAGTGTTTTATGTTCAGATAATGCCCGATGACTTTGTCATGCTGCTCC -ACCGATTTTGAGAACGACAGCGACTTCCGTCCCAGCCGTGCCAGGTGCTGCCTCAGATTCAGGTTATGCCGCTCAATTCG -CTGCGTATATCGCTTGCTGATTACGTGCAGCTTTCCCTTCAGGCGGGATTCATACAGCGGCCAGCCATCCGTCATCCATA -TCACCACGTCAAAGGGTGACAGCAGGCTCATAAGACGCCCCAGCGTCGCCATAGTGCGTTCACCGAATACGTGCGCAACA -ACCGTCTTCCGGAGCCTGTCATACGCGTAAAACAGCCAGCGCTGGCGCGATTTAGCCCCGACGTATCCCCACTGTTCGTC -CATTTCCGCGCAGACGATGACGTCACTGCCCGGCTGTATGCGCGAGGTTACCGACTGCGGCCTGAGTTTTTTAAATGGCG -GAAAATCGTGTTGAGGCCAACGCCCATAATGCGGGCGGTTGCCCGGCATCCAACGCCATTCATGGCCATATCAATGATTT -TCTGGTGCGTACCGGGTTGAGAAGCGGTGTAAGTGAACTGCAGTTGCCATGTTTTACGGCAGTGAGAGCAGAGATAGCGC -TGATGTCCGGCAGTGCTTTTGCCGTTACGCACCACCCCGTCAGTAGCTGAACAGGAGGGACAGCTGATAGAAACAGAAGC -CACTGGAGCACCTCAAAAACACCATCATACACTAAATCAGTAAGTTGGCAGCATCACCGAGAACACAAATGGGCTAATTC -GGCAGTACTTTCCTAAAAAGACATGTCTTGCCCAATATACTCAACATGAACTAGATCTGGTTGCTGCTCAGCTAAACAAC -AGACCGAGAAAGACACTGAAGTTCAAAACACCGAAAGAGATAATTGAAAGGGGTGTTGCATTGACAGATTGAATCTACAG -CAGCTTTTTTTAATATGTCCCGTTCGTCGGTAACCCGTTTCAGCTCTTTCTGGAGACGGCGGATCTCGGCCTGAGCATCT -GACTGTTCTTTATTAGTGGAAGAATCCGGACCGTACTTCTTTATCCAGGCATAAAGGCTGTGGGTGGTGATATCGAGACG -TGTTGCAACGCTGGCAACAGAATAACCGAGATCAACAACCTGTTTGACTGCTTCAGTTTTAAACTCTTCGGGATAACGCT -TACCGCTCATGGGCACCTCTCTTTAAGCCATTTTAAATGACTCGGAGGTGTCTGTTAAACCCGTGGCGATTCAAAATTGC -GATATATACATACCCATGACTGCCCAGCGTATCGGCTTCACCAGTCAGCCCGTTACGGTACAGTGTGACACAGTGCGCGT -ACCTGGGATTCAGCTCACAGGAGAGCAGCATCAGCTCCAGATGTGCGACAAAATGCGGGAAGGCTTCATCCAGTTGTAGA -GTCTGCACCTCACTGAATGAGCCGGTGAATCCAGCCCGGTCAGCCAGAAAATGCAGACGATGACCTTCCTGCACCAGTCG -TGCTCCGAAACACGGTGTGATATCTCGTTTAAGCCCCCAAGTTTGAGTAGAGTCTTTATTCATAATTTTATTCCTGTTAA -AGAAGACCATGTTCGGCGAATGAGAATATTTGCCTGCCGCCGACAATCAGGTGGTCGGGGACATGGTGAACACTTTTTAA -CATCCTTTACCCATGGTGATCGACTTTTTCTTCAGGTCGATCACCCCCACTTTCGTGCTGTACCACCACACCTCGTAGCT -GCCGTCTTCCTGCATCTCCTTCAGCCCGACCCGTTCTCCCCTGAACGCCTTGCCTGCGCTCAGACTTACCCCTTTCACGC -TCAGCTTTCCGCTGATATCCACTTTCCTGACCATCACCCCTTCATCGTATTCCGGGGGCGTTGTGTTGCCGCTGTACTGC -CGCGCTGACGGCTGATACCGCGAGCCCGGTACCGCCATATCCAGCGCCTCGTGCGGGCGTTCAAGGTTATAGACCGTCCG -CCAGTGGTCGAAGGCGCGCTGCAGTTCACCGCTGTCTGCGAACCATTTTCCCTGCAGCACTTCCGCCTTCAGGCTGCGGT -GAAAACGCTCCAGCTTCCCCTGCGTCTGCGGATGATAAGGCCGGGAGTGCCCCACCCGGATACCCAGGCGCATCAGCCAC -AGCTCCAGCGCCGTCCAGGTGCCGGTGGTGTCGCCCCACGGTGAGCCGTTATCCATGGTCATCCGGTCCGGCAGGCCGTA -ACGCTCAAACACGCTGACCAGCTGCTGCTGCACGGTCTCGCGCCGTTCATCGGTACAGTGCGCCAGGCACAGGGAAAAAC -GGGAGTGGTCGTCCAGCAGGGTGAGCGGATGGCAGCGTCCACCGCCAAAAGGAAAGTGGCCCTTAAAATCCATCTGCCAG -AGGCGGTTCGGCGCGTCGTGTTCGAACCGGCCCGTGGCGGGAATGCCCGGTGAAGCGCCCGGCAGCAGGCCATGGCGGGC -CATCAGGTTATGGACGGTGCTGAAGGCGGGCATGGTGTGCCCCTGGTCCTCGAGCCAGCGCTTAATCTTGCGGGCTCCCC -AGCGTTCATGACGGTCATGGGCCATACGCAGCAGGGCCGTGATGTCGTCAGATGAGCGGTTCGGGGAATGGTGCGGAATG -CGCGGGCGGTCCTGAAGACCGGCGGCACCTTCCTGAGCCCAGCGCTGGAGCCACTTGTAGCCGGTGGCAGGTGAAATGCC -GAAGCGACGGCAGAGGGAACGGATGTTCGCCCCGTCCTGCGAGGCGAACAAAACAAACTCAGTACGTAATGACATGGTAT -CTCTCGCATCCCAGGGCATAAGCGACTCCATAAACGGGTTCTTATGCCTTAGTTGTAAGTGTCTACCATGTCCCCGAACA -AGTGTTCACTATGTCCCCGGACCGTACACCCCAAAGGGGAGAGGGGACTGCACCGAGCCATCTTTTCCCCCTCGCCCCTT -TGGGGAGAGGGCCGGGGTGAGGGGCAATATGTGATCCAGCTTAAATTTCCCGCACTCCCTCTTCCCTTCCGATTTACCTC -TCCTTGTTCTGCGTCATAGTATGATCGTTAAATAAACGAACGCTGTTCTATAATGTAGAACAAAATGATTCAGCAAGGAG -ATCTCATGCCGCAGTCCGCGTTGTTCACGGGAATCATTCCCCCTGTCTCCACCATTTTTACCGCCGACGGCCAGCTCGAT -AAGCCGGGCACCGCCGCGCTGATCGACGATCTGATCAAAGCAGGCGTTGACGGCCTGTTCTTCCTGGGCAGCGGTGGCGA -GTTCTCCCAGCTCGGCGCCGAAGAGCGTAAAGCCATTGCCCGCTTTGCTATCGATCATGTCGATCGTCGCGTGCCGGTGC -TGATCGGCACCGGCGGCACCAACGCCCGGGAAACCATCGAACTCAGCCAGCACGCGCAGCAGGCGGGCGCGGACGGCATC -GTGGTGATCAACCCCTACTACTGGAAAGTGTCGGAAGCGAACCTGATCCGCTATTTCGAGCAGGTGGCCGACAGCGTCAC -GCTGCCGGTGATGCTCTATAACTTCCCGGCGCTGACCGGGCAGGATCTGACTCCGGCGCTGGTGAAAACCCTCGCCGACT -CGCGCAGCAATATTATCGGCATCAAAGACACCATCGACTCCGTCGCCCACCTGCGCAGCATGATCCATACCGTCAAAGGT -GCCCATCCGCACTTCACCGTGCTCTGCGGCTACGACGATCATCTGTTCAATACCCTGCTGCTCGGCGGCGACGGGGCGAT -ATCGGCGAGCGGCAACTTTGCCCCGCAGGTGTCGGTGAATCTTCTGAAAGCCTGGCGCGACGGGGACGTGGCGAAAGCGG -CCGGGTATCATCAGACCTTGCTGCAAATTCCGCAGATGTATCAGCTGGATACGCCGTTTGTGAACGTGATTAAAGAGGCG -ATCGTGCTCTGCGGTCGTCCTGTCTCCACGCACGTGCTGCCGCCCGCCTCGCCGCTGGACGAGCCGCGCAAGGCGCAGCT -GAAAACCCTGCTGCAACAGCTCAAGCTTTGCTGAGCCGGACGATAACGATGACCATTGAGAAAATTTTCACCCCGCAGGA -CGACGCGTTTTATGCGGTGATCACCCACGCGGCGGGGCCGCAGGGCGCTCTGCCGCTGACCCCGCAGATGCTGATGGAAT -CTCCCAGCGGCAACCTGTTCGGCATGACGCAGAACGCCGGGATGGGCTGGGACGCCAACAAGCTCACCGGCAAAGAGGTG -CTGATTATCGGCACTCAGGGCGGCATCCGCGCCGGAGACGGACGCCCAATCGCGCTGGGCTACCACACCGGGCATTGGGA -GATCGGCATGCAGATGCAGGCGGCGGCGAAGGAGATCACCCGCAATGGCGGGATCCCGTTCGCGGCCTTCGTCAGCGATC -CGTGCGACGGGCGCTCGCAGGGCACGCACGGTATGTTCGATTCCCTGCCGTACCGCAACGACGCGGCGATCGTGTTTCGC -CGCCTGATCCGCTCCCTGCCGACGCGGCGGGCGGTGATCGGCGTAGCGACCTGCGATAAAGGGCTGCCCGCCACCATGAT -TGCGCTGGCCGCGATGCACGACCTGCCGACTATTCTGGTGCCGGGCGGGGCGACGCTGCCGCCGACCGTCGGGGAAGACG -CGGGCAAGGTGCAGACCATCGGCGCGCGTTTCGCCAACCACGAACTCTCCCTGCAGGAGGCCGCCGAACTGGGCTGTCGC -GCCTGCGCCTCGCCGGGCGGCGGGTGTCAGTTCCTCGGCACGGCGGGCACCTCGCAGGTGGTCGCGGAGGCGCTGGGTCT -GGCGCTGCCGCACTCCGCGCTGGCGCCGTCCGGGCAGGCGGTGTGGCTGGAGATCGCCCGCCAGTCGGCGCGCGCGGTCA -GCGAGCTGGATAGCCGCGGCATCACCACGCGGGATATCCTCTCCGATAAAGCCATCGAAAACGCGATGGTGATCCACGCG -GCGTTCGGCGGCTCCACCAATTTACTGCTGCACATTCCGGCCATCGCCCACGCGGCGGGCTGCACGATCCCGGACGTTGA -GCACTGGACGCGCATCAACCGTAAAGTGCCGCGTCTGGTGAGCGTGCTGCCCAACGGCCCGGACTATCACCCGACCGTGC -GCGCCTTCCTCGCGGGCGGCGTGCCGGAGGTGATGCTCCACCTGCGCGACCTCGGCCTGCTGCATCTGGACGCCATGACC -GTGACCGGCCAGACGGTGGGCGAGAACCTTGAATGGTGGCAGGCGTCCGAGCGCCGGGCGCGCTTCCGCCAGTGCCTGCG -CGAGCAGGACGGCGTAGAGCCGGATGACGTGATCCTGCCGCCGGAGAAGGCAAAAGCGAAAGGGCTGACCTCGACGGTCT -GCTTCCCGACGGGCAACATCGCGCCGGAAGGTTCGGTGATCAAGGCCACGGCGATCGACCCGTCGGTGGTGGGCGAAGAT -GGCGTATACCACCACACCGGCCGGGTGCGGGTGTTTGTCTCGGAAGCGCAGGCGATCAAGGCGATCAAGCGGGAAGAGAT -TGTGCAGGGCGATATCATGGTGGTGATCGGCGGCGGGCCGTCCGGCACCGGCATGGAAGAGACCTACCAGCTCACCTCCG -CGCTAAAGCATATCTCGTGGGGCAAGACGGTGTCGCTCATCACCGATGCGCGCTTCTCGGGCGTGTCGACGGGCGCCTGC -TTCGGCCACGTGTCGCCGGAGGCGCTGGCGGGCGGGCCGATTGGCAAGCTGCGCGATAACGACATCATCGAGATTGCCGT -GGATCGTCTGACGTTAACTGGCAGCGTGAACTTCATCGGCACCGCGGACAACCCGCTGACGCCGGAAGAGGGCGCGCGCG -AGCTGGCGCGGCGGCAGACGCACCCGGACCTGCACGCCCACGACTTTTTGCCGGACGACACCCGGCTGTGGGCGGCACTG -CAGTCGGTGAGCGGCGGCACCTGGAAAGGCTGTATTTATGACACCGATAAAATTATCGAGGTAATTAACGCCGGTAAAAA -AGCGCTCGGAATTTAATTATTTTAAGAGATAAAACCGTCTGCGGAATATTTCCCGCAGACGGCTTTGTTGTTTTTGAAAT -TTATTAATTTAAACAATTAGTTGAGATATATCGTTGGCGTCACAAAAGCAAAATAACGTAATTCGGAAATAAGATATGAC -CATTGCTGGTTAATTGAATAGCTCATTACACTCCATTAACACGATGTTGTAATTCGGCACACTACATAAGGGTGTAATTC -TGATGACGCAATTAACCATGAAAGACAAAATTGGCTACGGGCTGGGAGACACCGCCTGCGGCTTCGTCTGGCAGGCCACG -ATGTTCCTGCTGGCCTATTTCTACACCGACGTCTTCGGCCTGTCGGCGGGGATTATGGGCACGCTGTTTTTGGTCTCCCG -CGTGCTCGACGCCGTCACCGACCCGCTGATGGGGCTGCTGGTAGACCGCACCCGCACGCGGCACGGCCAGTTCCGCCCGT -TCCTGCTGTGGGGGGCCATCCCGTTCGGCATCGTCTGCGTGCTGACCTTCTACACGCCGGACTTCTCCGCACAGGGCAAG -ATCATCTACGCCTGCGTGACCTACATTCTCCTGACCCTGGTCTACACCTTCGTTAACGTGCCGTACTGCGCCATGCCGGG -CGTCATCACCGCCGACCCGAAAGAGCGTCACGCCCTGCAGTCCTGGCGCTTCTTCCTGGCGGCGGCGGGCTCGCTCGCTA -TCAGCGGCATCGCGCTGCCGCTGGTGAGCATCATCGGCAAAGGGGACGAGCAGGTGGGCTACTTCGGCGCCATGTGCGTG -CTGGGGCTGAGCGGCGTGGTGCTGCTCTACGTCTGCTTCTTCACGACCAAAGAGCGCTACACCTTTGAGGTGCAGCCGGG -CTCGTCGGTGGCGAAAGACCTTAAGCTGCTGCTGGGCAACAGCCAGTGGCGCATCATGTGCGCGTTCAAGATGATGGCGA -CCTGCTCCAACGTGGTGCGCGGCGGGGCGACGCTCTACTTCGTGAAATACGTGATGGATCACCCGGAGTTGGCGACCCAG -TTTTTACTTTACGGCAGCCTCGCCACCATGTTCGGCTCGCTTTGCTCCTCACGCCTGCTGGGCCGCTTCGACCGCGTCAC -CGCCTTCAAGTGGATCATCGTCGCCTACTCGCTGATCAGCCTGCTGATTTTCGTCACCCCGGCGGAGCACATCGCGCTCA -TTTTTGCCCTCAACATCCTGTTCCTGTTCGTCTTTAATACCACCACGCCGCTGCAGTGGCTGATGGCTTCTGACGTGGTG -GACTACGAGGAGAGCCGCAGCGGTCGCCGCCTCGACGGGCTGGTGTTCTCCACCTACCTGTTCAGCCTGAAGATTGGCCT -GGCGATTGGCGGGGCGGTGGTGGGCTGGATCCTGGCGTACGTCAACTATTCCGCCAGCAGCAGCGTGCAGCCGGTTGAGG -TGCTCACCACCATCAAAATTCTGTTCTGCGTGGTGCCGGTGGTGCTCTACGCGGGCATGTTCATCATGCTGTCGCTCTAC -AAGCTCACCGATGCCCGCGTGGAGGCCATCAGCCGGCAGCTGATTAAGCACCGCGCGGCGCAGGGCGAGGCCGTTCCCGA -CGCCGCGACAGCCGCATCCCATTAACCGGAGGCAATATGGAAATCACTAACCCGATACTCACCGGCTTCAACCCGGACCC -GTCCCTGTGCCGCCAGGGCGAGGACTACTACATCGCCACCTCGACCTTCGAGTGGTTCCCGGGCGTGCGCATCTACCACT -CCCGTGACCTGAAAAACTGGTCGCTGGTCAGCACCCCGTTGGACCGCGTGTCGATGCTGGACATGAAGGGCAACCCGGAC -TCCGGCGGCATCTGGGCGCCGTGCCTGAGCTACGCCGACGGTAAATTCTGGCTGCTCTACACCGACGTGAAGATTGTCGA -CTCGCCGTGGAAAAACGGCCGCAACTTCCTCGTCACCGCGCCCTCCATCGAGGGGCCATGGAGCGAGCCAATCCCGATGG -GCAACGGCGGGTTTGACCCGTCCCTGTTCCACGACGACGATGGCCGCAAATACTATATCTACCGCCCGTGGGGGCCGCGC -CACCACAGCAACCCGCACAACACCATCGTGTTACAGGCGTTTGACCCGCAGACCGGCACGCTCTCGCCCGAGCGCAAAAC -GCTGTTTACCGGCACGCCGCTCTGCTACACCGAAGGCGCGCACCTGTATCGCCACGCGGGATGGTACTACCTGATGGCCG -CCGAGGGCGGCACCAGCTACGAGCACGCCGTCGTGGTGCTGCGTTCCAAAAATATCGACGGGCCGTACGAGCTGCACCCG -GACGTAACGATGATGACCAGCTGGCACCTGCCGGAGAACCCGCTGCAGAAGAGCGGCCACGGCTCGCTGCTGCAGACGCA -TACGGGTGAATGGTACATGGCCTACCTCACCAGCCGCCCGCTGCGCCTGCCCGGCGTGCCGCTGCTGGCCTCCGGCGGAC -GCGGCTACTGCCCGCTGGGGCGCGAGACCGGCATCGCCCGCATTGAATGGCGCGACGGCTGGCCGTACGTGGAAGGCGGC -AAGCACGCGCAGCTGACCGTGAAAGGCCCGCAAGTAGCCGAGCAGCCTGCAGCCGTTCCGGGCAACTGGCGGGACGATTT -CGACGCCAGTTCGCTTGACCCGGAGCTGCAGACCCTGCGCATTCCGTTCGACGACACCCTCGGCTCGCTCACCGCGCGCC -CGGGCTTCTTACGGCTCTATGGCAACGACTCGCTCAATTCGACCTTCACCCAATCGACCGTGGCGCGCCGCTGGCAGCAC -TTCGCCTTCCGGGCAGAAACGCGGATGGAGTTCTCGCCGGTGCACTTCCAGCAGAGCGCGGGGCTGACCTGCTACTACAA -CAGCAAAAACTGGAGCTACTGCTTTGTGGACTACGAGGAGGGACAGGGTAGAACCATCAAAGTTATCCAGCTCGACCACA -ACGTGCCGTCGTGGCCGCTGCACGAGCAGCCCATTCCGGTGCCGGAACATGCGGAGAGCGTCTGGCTGCGGGTGGACGTG -GATACGCTGGTCTACCGCTACAGCTACTCGTTTGATGGCGAGACGTGGCACACCGTGCCGGTGACGTATGAGGCGTGGAA -GCTGTCGGACGACTACATCGGCGGGCGCGGCTTCTTCACCGGCGCGTTTGTGGGCCTGCACTGCGAGGACATCAGCGGCG -ACGGCTGCTACGCGGACTTCGACTACTTCACCTACGAGCCGGTCTAACGGCTCAGGCCGGGTAGCCCAGCGCGCGCGAGA -GCGCGAGCCCGGCCTGCTGAAGCTGCTCGCGGAAATTAGCCAGCTCCGCGTCGTCCACGCGGGAGGTCAGCGTCGACAGG -CTCAGGGCGGCGATGACGCGGGACTCGTGGTTCCACACCGGCACCGCCACGCAGCGCACGCCCTGCTCGTTCTCTTCGCT -GTCCAGGGCGTAGCCTTGCTCGCGGGTCTGCGCCAGGGCGCTCATTAAGGCTTCGCGAGACGCGAGGGTGGCGGGCGTAA -AGGTAGTGTACTGATAGCCCTCCAGTGTACTGCACCCATTTTGTTGGACGATGAAATGGAATAGCCCCTAATATGTCAAA -GCCAAAATACCCTTTTGAAAAGCGCCTTGAAGTCGTGAATCACTACTTCACAACTGATGATGGTTACAGGATCATCTCGG -CACGTTTTGGTGTCCCCCGAACCCAGGTCAGGACATGGGTTGCCCTCTATGAAAAACATGGAGAAAAAGGTTTAATTCCC -AAACCTAAAGGCGTTAGTGCTGATCCAGAGTTGCGTATTAAGGTCGTGAAAGCTGTGATCGAGCAGCACATGTCCCTTAA -TCAGGCTGCTGCTCACTTTATGCTTGCTGGTAGTGGTTCTGTAGCCAGGTGGCTGAAGGTCTATGAAGAGCGCGGAGAAG -CTGGTTTACGCGCGCTCAAGATTGGCACCAAAAGAAACATTGCAATATCAGTTGATCCAGAAAAAGCGGCATCAGCATTG -GAGCTGTCAAAAGACCGACGCATTGAGGATCTTGAAAGGCAAGTTCGATTTCTTGAAACGCGGCTTATGTATCTAAAAAA -GCTGAAAGCCTTAGCTCATCCCACGAAAAAGTGAAAGTACTCAACGAGCTAAGGCAGTTTTATCCTCTTGATGAGCTTCT -CAGGGCTGCGGAGATACCGCGCAGTACGTTTTATTATCATCTAAAGGCTCTCAGCAAGCCTGACAAGTATGCGGACGTTA -AAAAGCGTATTAGTGAGATTTATCACGAGAATAGAGGCCGATACGGATACCGTAGGGTAACGCTGTCTCTTCATCGAGAA -GGGAAACAGATTAACCATAAAGCTGTTCAGCGCCTGATGGGAACCCTCTCACTTAAAGCAGCGATTAAGGTCAAGCGATA -CCGCTCTTACAGAGGAGAGGTAGGGCAAACCGCCCCTAATGTTCTCCAAAGAGATTTCAAGGCTACGCGGCCAAACGAGA -AGTGGGTTACCGATGTTACTGAATTTGCAGTCAATGGGCGCAAGCTGTATTTGTCTCCAGTAATAGATCTCTTCAACAAC -GAAGTTATTTCTTACAGCCTTTCGGAAAGACCAGTGATGAACATGGTTGAGAATATGCTCGATCAGGCATTCAAAAAGCT -TAATCCTCACGAGCATCCTGTTCTGCACTCTGACCAGGGATGGCAGTATCGTATGAGAAGATATCAAAATATCCTTAAAG -AACATGGTATTAAACAAAGCATGTCCAGAAAAGGCAATTGTCTGGATAATGCTGTGGTGGAGTGTTTCTTTGGAACCTTA -AAGTCGGAGTGTTTTTATCTTGATGAGTTCAGTAATATAAGCGAACTGAAGGATGCTGTTACGGAATATATTGAATACTA -CAACAGCAGAAGAATTAGCCTGAAATTAAAAGGTCTGACTCCAATTGAATATCGGAATCAGACCTATATGCCTCGTGTTT -AACTGTCCAACTTTTTGGGGTCAGTACACAGCAGGGCGTTCAGCTCGGCCTCGCCCAGCCAGGCAATCAACACCTTGCCG -ATGGCGGTGGCGTGCACCGGCAGGCGGCGGCCGATGCGTGAATAGGCGATGGCGGCCAGCTTGCCTTCAATCTTCTCGAT -ATAGACCCCTTCACGCCCGTCCAGGATCCCCAGATGGGTGGTCTGCCCGGTCCGCCGGGACAGCTCCGTCAGCCAGCCTT -TTGCCTTCTGCCGAATATCGATGGAGCCCACGACAAAATGGCCGCGCTCGACCAGCTTCATGCCGAGGCGATACTTGCCG -TTCTCCGGGTTCTGATCGATATAGCCGTGAAGCTGCAGGGTTTTTAGCAGCGAGTGGAGGGTACTCTTGCTCAGCCCCAT -CAGTTTGCTGATGTCGGTGATCTTAAGCTCGGTGGCCTGCTCGTTGAACAGGTCGAGGATCTGCAACGCACGTTCAACAG -ACTGAATAATCGGCATAATGCTGGCATGTCCACGCTGGAATTAAGGCGAAAACGTACCTTTTTCGGGATGAAAAATCAAT -GAAATGGAGCCGGTGTTCTCCCTCTCCCTGTGGGAGAGGGCCGGGGTGAGGGCACCAACGCGCAGCGGACCCAATCACTC -CCCAAGCGTTGCCATCATCACCGCCTTAATCGTATGCATCCGGTTTTCCGCCTGGTCGAACACGATGCTCGCCGCCGACT -CAAACACCTCGTCCGTCACCTCCATCCCGCCGTGCAGATCGAACTCCTTCGCCATCTGCTTGCCGAGCGTAGTCTGGTCG -TCATGGAACGCCGGCAGACAGTGCAGGAACTTCACGTTCGGGTTGTCGGTCAGCGCCATCATCTGCGCGTTCACCTGATA -CCCGCGCAGCAGCGCAATCCGCTCTGCCCACTTCTCTTTGGCCTCGCCCATCGACACCCACACGTCGGTATAGATAAAGT -CCGCGCCCTTAACGCCTGCCGCCACGTCTTCCGTCAGAGTAATTTTCCCGCCGTGCTTCTCCGCCAGCGCGCTGCACTCC -GCCACCAGGCTCTCTTCCGGCCAGCAGGCTTTCGGGGCCAACAGGCGCAGATCCAGCCCGGTCAGCGCCGCCGCTTCCAG -CATCGAGTTGCCCATGTTGTTGCGCGCATCGCCCGCGTAGACCAGCGTCATCTCGTTAAACGCCTTGCCCGGCAGGTGCT -CCTGCATGGTCATCAGGTCCGCCAGCAGCTGGGTCGGGTGGAACTCGTTGGTCAGCCCGTTCCACACCGGCACGCCCGCA -TACTGCGCCAGCGTTTCGACCACTTCCTGGCCGTGACCGCGATACTGAATGCCGTCATACATCCGCCCGAGAACCCGCGC -GGTGTCCTTAATTGACTCTTTATGCCCAATCTGGCTGCCGCTCGGCCCTAAATAGGTAACGCGCGCGCCCTGGTCAAATG -CGGCAACTTCGAAAGAGCAACGGGTACGAGTCGAGTCTTTTTCGAAGATGAGCGCGATGTTTTTACCGGTAAGCTTCTGT -ACTTCCTTGCCATTTTTTTTATCGGCTTTGAGCTGTGCGGCAAGGGTCAGCAGAGAAGTGAACTGTGCAGGGGTAAAGTC -GAGCAGTTTCAGAAAGTGTTTTTTGTATAAATCGGACATTTTATCCTCGCATGGCGAACGCCACTTATTGAATTAAAATT -CACTTTATATGTGTAATTATTCATTTGCAACCCCATTTCACAATTCTTTCTTACAAAGGTGGAGGCAAACCCGTCCGTGT -GTGAAAATAATCGTATCTGCCTCCGATTCTCTGCAGAAGCAGAAAGACATTGGATCGAATTCTACAACCAGGTCGAGTCA -GAAATGAGAATGATTGGCCTTCTTTATGATTTTAAGGATTATGCTTCTAAAATGGCGGAGAACATGGCGAGGCTTGCTGC -CTTACTTCATTACTTCAGCGGTGATGGAGGCGATATATCTGTTACCGGGTAATGACTCCAACTTATTGATAGTGTTTTAT -GTTCAGATAATGCCCGATGACTTTGTCATGCTGCTCCACCGATTTTGAGAACGACAGCGACTTCCGTCCCAGCCGTGCCA -GGTGCTGCCTCAGATTCAGGTTATGCCGCTCAATTCGCTGCGTATATCGCTTGCTGATTACGTGCAGCTTTCCCTTCAGG -CGGGATTCATACAGCGGCCAGCCATCCGTCATCCATATCACCACGTCAAAGGGTGACAGCAGGCTCATAAGACGCCCCAG -CGTCGCCATAGTGCGTTCACCGAATACGTGCGCAACAACCGTCTTCCGGAGCCTGTCATACGCGTAAAACAGCCAGCGCT -GGCGCGATTTAGCCCCGACGTATCCCCACTGTTCGTCCATTTCCGCGCAGACGATGACGTCACTGCCCGGCTGTATGCGC -GAGGTTACCGACTGCGGCCTGAGTTTTTTAAATGGCGGAAAATCGTGTTGAGGCCAACGCCCATAATGCGGGCGGTTGCC -CGGCATCCAACGCCATTCATGGCCATATCAATGATTTTCTGGTGCGTACCGGGTTGAGAAGCGGTGTAAGTGAACTGCAG -TTGCCATGTTTTACGGCAGTGAGAGCAGAGATAGCGCTGATGTCCGGCAGTGCTTTTGCCGTTACGCACCACCCCGTCAG -TAGCTGAACAGGAGGGACAGCTGATAGAAACAGAAGCCACTGGAGCACCTCAAAAACACCATCATACACTAAATCAGTAA -GTTGGCAGCATCACCGAATTTTCAGCCCGGATGTTTCACGTACCTATGTCGAATATCTGGCCGATAAGGTTGCGGATCGA -GAAGAGGATGCAGAGGAATATCTGGAAGCAATCATGGAGGCTCGTGTTACCGTTGCTGGCATGGGGCTGGTGATGGAGGT -GCAGGATTACTTCGATGGCGAGGCCGATAGACTGGCGAAGGCGTGGCTGGCCGAGTACACACCGCAAATCAAGTCGTTGA -AAGATGAGCGTAAAGAGGCCTATCGTCAAATCGTCGAAATGAGTACCGAACCGCAGGATGTGGATCTGGTCAGGCCGGCG -AACAAGTTTGAAATGACCAGGGTGCGTGAAGGTGAAAAGGAAGCTGACCTTCCAGTCTGGAAACACCATTTGTTGTGTGA -CGAAAGCGGGAACTATCCGGCTCTGTTGAACCATTGGGAAACCAAGGTTTTTGAGATCGAAACCAAACGTGAAGGATTTG -CTTTCTGGTATCGTAATCCACAGTACACAGGGCAGTCGTCACTGGGAATCGCTTATGTTGAAGCTGAACAGTACAAGATT -GTTCGTCCCGATTTCCTGTTCTTTGCCGAACAGGATGGCAAAATGGTTGTGGACCTGGTAGATCCACATAGCCTACATCT -GGCTGATGCTTTGCCCAAACTGGAAGGACTTGCGCTATATGCCGAACATCATTCTGATGCTTACAGGCGAATCGAATCTG -TCGCCGAAGTAAAGGGTAAATTACGAGTGTTAGATTTGAAACGGCAGGATGTGCAGGATGCTGTTGCTACCGCTGAAAAT -GCAGAAACGTTATTTAGTAGCGGACTTGCTGATGACTATCAGTAATCTATAGAAAATTGCGTAACGAAACTGCATTTTAG -TAATTTTTTGAAACAATACAAATAAGGCCTTCTCACTGAGAAGGCCATTACCGACTTACAGTTCGATTTGGCTACAGCCG -AAGTTACGGTCTCCTTCACCAAACACTTTGCTTTCAACTTTGGTCAGGTAGTCCAGTCGGGTTAACAGCGCCTGGTAGTT -CTGCTGGAAGTCAGTACTATTGGTGTCTAGCACATACTTACAGTTTTCAGGAAAATGGACCAGACCAGGGTGATCGTCTC -TCTCCAGTCTCAGGGCGCTGTACCAGGCTCCTGTGATCATCCCTCTAAGGTTATCGTCCTGATCGTAATCCCCGAGGTGG -TAGTAAGCGTCTTTGTTGAACAACAGGCAAATGTGATAGTGGCATTTACCTGATTCAGAATACTCTTTCGCCCATATAAT -AAATAAAGGGCAACGGTAAATGCGTTTATCCTCACGCACCTTACGGGTACGGTCAGCCTCCAGCTTAGCTCTGAGGGATT -CACGCATCCGGGATATCACCCCAGGTTCCAGGTTAGGGAAGCAACAGATATTGTCACCGTTATCAACTATTTTGGGATAG -TGGAGATCGACACGTACAGCAATTAACCTAGGATACCGGTTAGTCAAATAACATAATAATTTATTAATCTTACTCTGATA -TTCGAGGATATGTACTCCATGAGTACCTTGATATGTTTTCATAATATATACCTGTATTTGGTCCTACGGTCTATAGCAGA -CCGTACAGGGATGCCATACAGGCAGGGCTATTCCTGGTCACTGTTGTCGGTATATACTGGTATCAGATTTTAGTACGGAC -ATACTGATCTGATTACTACTCTTACTGGTGAATACAGGTAGTAAGAGTACACAATGCCATTATATAATACCTATCCAACA -TCTAAATTTGAGACGAAGGTAGCCCCAGCCTGTGATGGCTGTTAAAAAGTTACTCTGCAATTAGCTTCTGGAATTAACCG -ATGATTCCGTTATTCCAGTGCCGCTTCACAGTCGATAAACTGATACTCAATTTCTTTGCAATCTCAGCCTGAGTAAATCC -ACCTTTCTTAAGTATTGTGATATCACGTCGGTATTTGCTTCCCTCCTTTCGTCCTAATTTTTTCTTAACATGTCGATATC -GGCTTTTAGTTGATTTCAGATTGTGAATGTCAATCGTATCCTGACGAGCAATCAAAAAAGACAAGCAACTTTCAGCAGAA -GGCTCTATCCTTGAAGCTGGATGGTAGCTGTAGATAAACATTTCTTTTTGAAGGCAAAAAAATAAAATATTCTGTAAGTC -CTCCACAGTTCTGCCAAGACAGCTTAGATCTGGAATGACAAGCGTGTCCTGCCGGTTCATTTCATGATGAATCAATTGTC -TGAGTAAACGTTGCTCTGAAACAACCTCTTTAATATCTACCTGCTCGATCACAACATGTTCAGGTAGAATATTAAATTTT -TGGCATATCTCAGCAAGTGAGTGATGATCTGTAATGCTTTCTTGCTGTTCGCTACTGCATATGGTGTAAAAAAATGAACG -CATCTGATGCACTCCGGTGTCATAAATTATTTTTTGATACCTGAATAATGTCATTTTGCATAAAAAACAACCAAAAATAG -AGAGTGATTGCCAGCGATACTTTAACTGGTAAAGTAGTATTTTACCTCTCATAATTGTTTGTCCTTCTTTGTTACCTCTT -AGGTTCTGCTCTCTTGTGAGTATGGGTTTATAATGATGTCATCCGGTACATTAACACGGTTGGAAACATCTGTTTTGCGG -AGCACTGGCAGCATAACCACCATTTCATTGACATGGTAAATATCAATCCAACAAACAACCGGATAAGGCATAACAATCCC -CTTTCTTCTAAGAACTTCATTTATCCCGAATATAATCAATTGGGATGTTGACAAGAGTAGAGCCTGCCCGGCATCAAAGT -AATAACCCTCAAAGGTTGTTCTATGAATAAGAATAATGTTTGAATATCCTGAGACACTTTGATGCTTTACATCAAAATGT -CTTTGATTGTAAATGTAAATGGCTTTTTCCATATCGTAATTTTCCCTTAGCGAGGATAGCCTTTCACGTATAACTGTTTT -TTCATCTTTCCCCATGAATTCATCATTAGCGTTCAGTTGAAAGTAATCTGCAATGGGGATTTTTAATGGACTCATGATGT -TCGTTTTCCAGATTAACGAACAGTACTCTTCCAGAGTTACTTCTGTTTTACCTCGGCTTCGATTGATGCTTTCTTTTATA -GAGAACTTTAACAGGTCATTTTTTATTTCATTTATTGACCAGTTATGACGATTGCATTTTTCTAATATAGGGATAGCCAA -ATCCACAACTTCCGCTATTACGGAAGAGTGAGATTTATTTGTTAGTCTGGCATAATGATCAATTACTCCTAATGAAGATT -GATTTTTGAACGTGACTGAGTGTTTTTTTATGGGAGTAGTCTGTACTACCTGTGACTCATTGTTTTTGCCTTGACAAGGT -TTTTTTCCTGGTAGAACGCTGCTCATCTCAAAATTAGTAACACTATTAGACATTTTTAAGGAAACCTCTTTGTTATCTCA -ATATAAAACTACTATCTGAAATTTCTCAGTGTTGCCCCATTTTTCTCGGGGCAACATCGCTATAAATCAATAAAATTAAA -TCTGTAATTTATTACAGACTTTCTCGTACAGAAAATGTATCTATAAAATCGAGGACATCTTTACGTAACCAGTAATGGCG -GCCATTGATTTGTTTTGGGCGAGGTAGCCCCTCAGGCAATTTGTCCTGACAAAGCCATTTACGAATGGTTTGAGATTTGT -AGCTAATGATTTTAGCTAACTCAGCTGTTGAAATGAGCTGTGATTGAGATGTATCCGGGAGTTTGAATGCGCTCATTTTG -CCACCTCAGTGATTGAGATATTGGCAAAGAAAGCTTTAAGCATTATTGAATTAGTAGGGGTAGTAATGAAGGCAGAAGGA -AACGTTTCGGGCTCGGGGTCGGGGTCACTACCATCACCTGAATCTGATGATAAGGCACTTTTAGCTGATTTAGCCGTACT -GTGATGCGATCTGGATGCCTGATTTTTACATGACATCAGACGCGCGAGAAAGTTAGTAGCATTTTGCATTCTTTGTTTAA -GATGTAAAATTTTCAGTTTGGCGCATGCGACAGACTTGCGAAGAGCTGAGTATGTTCCTTTGAGATACTCGACAACCTCT -TCCATGGACGCAGGATCGTTAAAGGATTGAGTTGTTTTACTTGAATTAATACACCAGCGAGCTCTGATAGCTGCCAGAGT -GGGTTCTATGGATACAGTTGCTGGGGTTGCCATTGGCTTATCTCCTGTGTAGTTGCTGTATCATTGACTAAACTGTGTAT -TACGATACATGAAAATCTATCTTGATCAATAGTTGATGATATTTTGTAATATGTTGATTTTTAATGGAATCAACGCATAT -CAACGTTGTTTTTTATGGTAATACCTGCTTCATTTAAGATCCATGTCTCAATTTTCTCGTGCCATTTTCGTAACAGATCT -AACGGACGACGGCGATAGTGTTTTTCGGCAAGAGCGCTGGGTTTGTGTCCCATAATTTGAGCAACAATACCAGTGGGAAC -TTCAACCCACTCGGCCAAAGTACCAAAACTACGACGTAAACCGTGAAGGCTGATATGTGGTAACTCAGCCAGCACTAATG -CTCTGTTGTGCGCTGAACGCGGCTCAATAATTTTGCCACTTTTACTGTTACTTCTGAAAACCCAACCCTCCTTATTTACG -TCAGAATTTGGGGATTGCGCTAGTACATTTAACAATTCAGAAACATAAGGAGTGAGAGGGATGATACGTTCACCTTCGAT -CTTGTCTTTAATTCGCATGCTTGACCATTTGAAATCTACGTCTGACCAGCGAAGCGACGCAATTTCTTCACGCCGAGCAC -CAGTGAGCAAAAGTACTTGGAGATAGGCCGATGCAATAGGATTATTGAGGCTACGCACGGCACTAAACCAGCTTTTTAGT -TGTTCCTTTTGCAGGCAATCATCAGCTTTACTCGCTGACACGGGAACCATTTTTCTTACGTTGTAATCTTGTGCCAGATC -GCCAGGAATGATCCCTTGATATTTTTTCTGATAATTACTCCATTTGATGAAAGCACGTAGTAGGCGATAAGCGTGAGCAG -TGACGGTAGGTCTATTTTGCCTTTCTGTACTCAGCCACGCTGCTATGTAATCTGGGGTTAGCTCCGATAACGGCAGGTTG -AGCAAACTAGCCAATGGTCCAGCCGAAGTCGGGCCTTGGCCTCTTTTTTTACTTTCGCCTCCACGACTGGACAAGTTAAT -GTGATCGGCAATGTATCGAGTAGAATATGGGCGTTTAGTTTTTGCACTGATACCGGTTCTCAATTCTTGAAGATAGTCTT -CCCAGGCGACGGAGAAAGTCACTTTTGTTTTACGTGATTCTGCCTGCAGGGATTCTGCTTCTGCGATTTTTACAGCCTTA -GCAATTCGTGGATCTATCCCTGTATCGATCAATGTTTGTAACCGTCTTGCCTCGGCTCTCGCATCATCAATCTTCCAGTC -GTTAATGTTGCCAATAGTCATGCGAAGGGTTTTCCCCGCATATACGCTTTGGAATACAAAGGCTTTTGCTCCGCTAGTTG -CTCGGCATGCCAGGGTTGTTACATCTGCATCCCAAAGAAAAGTTTGTTTTTTCCCTTCCGGTAAGGTGAATCTGCGAAGT -CTTTCGAAGGTAAATTTTTGTCTTGAAAGCGCCATTTTTCGGCTCCAGTTGAGAATTGCTGTCTTACAATAATGTAACTG -CTGGTGTAAGTAAATGGAGGGAATAAACATCAACTTTTGTTAATTTCAATCAACGGGTTTATTGCTATAACTTGGTGTTT -TATAATATAAAGTATGTTGTTTTGATTGATTGCTCAAGTAGTTAAAAATGCATTAACATCGCATTCGTAATGCGAAGGTC -GTAGGTTCGACTCCTATTATCGGCACCATTAAAATCAAAGAGTTACCCCATATTTAAATACACCACGTTTCCTCCTGTGC -CGTATTTGTGCCATTGTAACCTTGGCAATTCATCAAAATACTGTTCTGACATCAGGCAGTGCAGGTGCAGACATTTAAGC -CAATTGCTGCCGCCATTCTTTGACGTAGTCAATCAGGGCGCGGAGCTTTGGTGCAATATTGCGACGCTGTGGGAAATACA -GATAGAAGCCCGGAAATTGTGGAAGAAAGTCATCAAGCAGCGATACAAGCTTACCGCTTTCAATATATGGCCTGAAAGTT -TCCTGAGTGGCAATTGTTATTCCTCCGCCGGCAAGAGCCAGCCTCAACATCAGACGCAGATCATTAGTCGTAATCTGCGG -TTCAATCGCAAGGTCGAAAGTTCTCCCGTTTTCTTCAAATGGCCAGCGATAAGGCGCAACCTCCGGGGACTGACGCCAGC -CGATACACTTATGGGTATTTCCCCCGGAGGCGAGAAAGCACTCTCCACGCCCGGCCGCAAGGATCAGGACGACGGGGGCA -GGCATGAATCCTCCTCCTGATGGAGACGTACAGAGGCGACTTCTGCCAGCACGGAGAGTGCCAGAGTATGCGCATCCCGG -GCTTTGGGGAATATCCCGACGGGTGCCCGGATTTGCGTTGTTTCCTCCCTGGACCATCCCAGCTCGTGGAGCTTTTGCAG -ACGTAACGTGTGGGTTCGATAGCTGCCCAATGCGCCGAGATAAAAGGGTTTTGCTTCTCGCGCGGCCTGCAACACTGGCA -GCTCCCGGTTGAGATCATGGCACAGCAAAATGACCGCCGTATCGGTATCGATCTGAGCGCTGGCTGAGGCCGGAAAAAGA -TCGAAGATATGGCTGTCATAGCCTGTGGCTGCTGCAAGACTCGCGGTTGCCTGCGCCTCAAGAGAACGTCCGTAAATCAT -CAGCCTGACGCATGGCCTGAACCCCACCTCAAAGCCATTGAGATTCCAGCCCGTCCGGGTTTGCGTGGGCAGGCACACCA -GCGATTGTGCTTGCGGATCGTAGCGCAGCCCCACCGGTTTTCTCTGTTCCAGGCGGTTCAGCACGGCGAGCAGAGGCTGT -GCCGAGCGTAGTTTATGGAGCGTCAGCGTGATCCCACCGCCGCAGGGCAGAACGATGTCAAACCACGGCGAACCTTCGCC -ATAGCGAATTTCGCGATCGCGGCCTGAGCCCATCATCTCCAGCGCTTCAAAAGCGGCAGCGGCCTCCACGCAGCCGCCAG -AGACAAAACCGCAGTAACGACCATCTTCGCGCACCACCATCTGCGCCCCGAGCGGGCGCGCCGCGCCGCCGCGTATCTCC -ACCAGCGTCACCAGCACCGCTCCTTTACCGGACATTAGCGCCTCTACGGCGAAGCGCAGAATGGTCCGGTGGTCATCGGT -GAGAAACGCCTGCTCTGGCTTATGCCAGTGTTCGTCTTTGTCAAAAAGCGGGTATGACATTGTTCCTCCTTAAACCACAT -CCGGCAGCTTATCGAGCAGCTTATCCAGAGTGATGGGATAATCCCGTACCCGAATACCGGTGGCGTTATACACCGCGTTG -GCGATAGCCGCGCTCACGCCGCACAGGCCCAGCTCACCGACACCTTTGGCCTTCATCGGGGAGGATATGGGGTCGGTATC -ATCCAGGAAAATCACCTCCTGTTTTGGGATATCCGCATGAACCGGCACCTCATACCCCGCCATATCGTGATTAACGAAGT -AGCCCAAACGGTCATCCACCGCCAGCTCCTCCATCAGTGCCGCGCCCATGCCCATAGTCATTGCGCCAATGACCTGGCTG -CGCGCAGTTTTCGGATTCAGGATGCGTCCTGCAGCACACACAGCGAGCATACGCCGGACCCGAACTTCTCCCGTCGCGCT -ATGCACGCCGACCTCCACAAAATGCCCGGCAAAGGTCGACTGCTGGTACTCTTTGCTCAGTGTTCCGAATTCAATGCTCT -CTTCCGCTGTCAGTCTGCCGCCTGCGGTGGCTTCATGTAGCGTGGCGCTTCGGGTACCGTTGGTAATCTTGCCGTCGGCA -AACTGCGACTGCTCAGGATCAAACCCGACTGCCGAGGCAATCATTTCGCGAAGCTTCATACAGGCGGCGTAAACGCCGGA -GGTGGAGGTATTCGCGCCCCATTGTCCACCAGAACCCGCAGAAACCGGGAAACTGGAATCGCCGAGGTGAACCGCAACCT -GCTCCAGCGGTACGCCAAGCATTTCCGCTGCCGTCTGGGCCAGAATGGTGTAGCTGCCGGTGCCAATGTCGGTCATGTCC -GTTTCTACGGTAACGGTGCCGTTTTGTTCGAGGTGAACCCGAGCACCCGATTTTTCCAGCAGATTATTGCGAAAGCCCGC -CGCAACACCGTGGCCGACTAGCCACTCCCCGTCGCGCACCTGTCCGGGTGTGGCGTTGCGCTGCTTCCAGCCAAATTTAT -CCGCTCCGGTGCGCAAGCACTCGATAAGCTGACGGCGAGAGAAGCAGCGCGTCGGGTCGGCGGGGTCAACCTGAGTGTCA -TTCAGGATGCGAAACTCGACGGGATCGATGCCCGCTTTTTCCGCCAGTTCGTCGATCGCGATTTCGAGCGCCATCAGACC -GGGGGCTTCGCCGGGCGCACGCATGGCGTTCCCTTCCGGCAAATCAAGCGTGGCGAGCCGCAGGCCGGTATGACGATTCG -CCCCGGCGTAGAGTAATTCGCTTTGCTGTACCGCCGTTTCCGGCGTGCCGCCGGGCAGGTTTCCAGACCAGCTTTCATGT -GAGATAGCGGTGATTTTCCCGCTCTGGTCGGCACCGATACGCAAGTGCTGAAGGGTGGCGGGGCGGTGCGTGGTGTTATT -GGGAATAGAGGGGCGGGGGAGCATCACTTTAACCGGACGTTTCACCGCTCGGGCGGCGAGGGCCGCCAGCAGCGCATCGC -TTCTCAGGAACAGCTTGCCGCCAAACCCTCCGCCGATATACGGGGAGATAATACGCACATTCTCCACGGGAACTTTCAGC -GTTTTTGCCAGATCGGTGCGGCACCAGTCAATCATCTGATTTGAGGTCCAGAGGGTAAGCTTATTTCCATCCCAGACGGC -CATCGAGGCATGCGGCTCCATCGCCATATGGCTCTGGTCCGGGGTCGTGTAGGTAGCATCAATCTTCACCGCAGCGGAGG -TGAAAGCCCCGTCAAAGTCACCGACGTTTTTGTCGGGCGTGTCTTCCGGCGGCTGATTGACGGCCTGTTTTTCGTCCGCC -AGGGAGTAAGCTCCTTTATTACGGCGATAGTGTGCCTGCACCAGCGAGGCCGCCGCTCGCGCCTGTTCGAAGGTCTCGGC -CACTACCAGCGCAATGGCCTGATGATAGTGCTCAATAGTGGGGCCGCCTAACAGCCTGGCGGTGTTTTTGTCGCCTTTGC -CGAGTGCCCCGGCGTTACTGGCGGTAATGACAGCCAGTACGCCCGGCGCTTTTTGCGCGGCGTCCGTATCAAGGGCGGTG -AGGCGTCCTTTGGCAATGGCGGAACCGACGATATAGCCATAGGCGGCGTTGGGGGCTTCTTCATGCCATTCGTAGGCGTA -GCGTGCCGTGCCGGTAGTTTTCAGCGGTCCGTCGATGCGGTCATGGGGACGACCGACAACCTTCAGCTGATCGATCGGGT -TTTCCCCTGCGGGTTTATCAAATTTCATGCCTGTGCCCTCGCTTCAGCCAGTACGGAGGCAAGCGTTCGCTTCGCCAACA -GGAGTTTAAAGGTGTTTTCAGCGGTGGGATGGGCGCTGGCGAACAGCGTGTCATATACGGCCTGCGCCCCCTGGGATAGC -TGAGCATCCGCAGCCTCAATGCGCCAGGGCTTATGTGCTACTCCGCCCAGCGCGACGCGCCCGCTGCCGTCAGGCTGAAT -AATCGCCGCGACCGATACCAGGGCAAAGGCGTAGGAGGCGCGATCGCGCACCTTACGGTAGATATGTTTTCCGCCGAGCG -GTGGAGGTAACGTCACCGCAACGATAAGCTCACCGGGAAGCAGGGCGGTTTCAATGTGCGGCGTTTTTCCCGGAGGGTGA -TAAAAATCAGCCAGTGTGATACTGCGAGTCTTTCCCTCCGGCGTGATGGTTTCCACCACCGCATCCAGCAACCGCATTGC -GACCGCCATATCGCTCGGATGGGTGGCAATGCAGGCTTCGCTTACGCCTACCACCGCGTGCTGACGGCTAAAGCCTTCAA -GCGCCGCGCAGCCGCTCCCGGGCAGGCGCTTATTGCAGGGCTGATTGGTGTCGTAAAAATAGGGGCAGCGCGTGCGCTGG -AGCAGATTACCTGCGGTGGTTGCCTGATTACGTAACTGACCAGACGCGCCAGCGAGCAGGGCGCGGGAGAGTACCGCGTA -ATCACGACGCACGCGCTCGTGAGCCGCCAGGTCGGTGTTCCGTACCAGTGCGCCGATGCGCAGCCCACCCGCGTCGGTCA -CTTCAATCTTATCGAGCCCGAGGCCGTTCACATCGATAAGGTGGGTGGGCGTTTCAATTTCCAGCTTCATCAGGTCCAGC -AGATTGGTCCCGCCCGCGATAAATTTTGCGCCGGGTACGCGCTGAGCGCTAAGTGCCGCCTCGGCTGGGGTATTCACTCG -TTCATAGGTAAACGCCTTCATGATTTTATCTCCCCCGCAGCATCTTCAATGGCGGCAAGGATGTTAGCGTATGCACCACA -GCGACAGATGTTGCCGCTCATACGTTCACGGATCTCATCGGCAGTTGTTTCTGGAGCGGAAACCAAATCGACCGTGACGT -GACTGGGAATGCCGTCCTGAATCTCTTTTAGCACCGCTACTGATGAGCAAATTTGCCCGGAGGTGCAGTAGCCGCACTGG -AAGCCATCATGCTTGATAAAGGCCGCCTGCATGGGGTGAAGATTATCTGGCGAACCCAGGCCTTCAATGGTGGTGATCTC -GGCCCCCTGATGCATGACTGCAAGCGTCAGGCAGGCATTAAGCCTGCGACCATTGACCAGCACGGTACAGGCTCCGCACT -GTCCGTGATCGCAACCTTTCTTGGTACCGATCAAATGCAGATTTTCACGCAAAGTGTCCAGTAGCGTGGTTCGGGTATCC -ACCTCAAGCTGCTCGGTTTTGCCGTTCACCTTCAGTGTCAGGGGCATTATCTCTGGCGCGGGTGTAGCTGCCGGAACGCT -TGCCGCCAGCGTAGAATGAGGATAAACCACGGCGGTCGCCGCTGTTGCGGCGCTCACTTTAATCAGATCGCGACGGGTCA -AACTTAAATCGTGCGGCTCGTGCTTCCCAACCCGATTATCTTCGGGGTATTCGCCTTGGTTGCTCATACCAGGCCTCCGG -TATTCTAAAGGGGAAAATAAGAGTGCGTTGCGAGAGTGCTGATGCTTTTTTAAACGTTAAGCATAGTCGGCGACAGCAGG -AGGATTATTCTTAAAACGCGAATGCAGCTATGAGCCCGGCTAATAAATTCATGTTCGCCGGGATGTTGATGATGATGGGA -GCTGGTTTATTGCTTTAGTTGTACGATGCAAAAACCAATAAGGAAACCTGTGATTTTCAGCTCTACATCACCCTGCAAAT -CTCTGTCACTTCTAATATAAAAATAGGGAGAAATGATGGAGCTTATATTCATTGGCGATTAGGAAACTATCTTGTTATAC -AAAACAATACAGTTCTTTACATTTGCCTTGTTTTATGAATACTCCTGAAGAGGTGTATAACATAATGGTACAAGCAGGGT -AGATATGAATATATTTGAACAAACTCCACCGAACCGCAGACGTTATGGTCTTGCTGCATTCATTGGGCTGATTGCTGGCG -TTGTTTCCGCATTCGTGAAGTGGGGGGCTGAAGTTCCATTGCCGCCACGTAGCCCGGTGGATATGTTTAATGCAGCGTGT -GGCCCGGAATCATTAATCAGGGCTGCAGGCCAAATTGATTGCTCGCGTAATTTTCTCAATCCACCGTATATTTTTCTTCG -AGACTGGTTGGGGCTGACAGATCCCAATGCGGCTGTTTATACCTTTGCCGGGCATGTCTTTAACTGGGTTGGTGTTACGC -ACATTATCTTTTCGATAGTGTTTGCTGTCGGTTATTGTGTGGTCGCTGAAGTATTTCCAAAAATTAAACTCTGGCAGGGC -TTACTGGCAGGTGCTTTAGCCCAACTTTTTGTTCATATGATTTCATTCCCTCTCATGGGACTGACGCCACCTCTGTTTGA -TCTCCCGTGGTATGAGAATGTTTCTGAAATTTTTGGACATTTAGTCTGGTTCTGGTCTATTGAAATTATTCGCAGAGATT -TACGAAACAGAATTACTCATGAGCCAGACCCTGAGATCCCTTTAGGCTCAAACAGATAATGCATTGAATGATAAAAATGG -CGCAAATACAGCGCCATTTTTATAGGTTAAAAACATTGCTTTTTATATTCTGATGCAGATAGTCAGTGAGTATATCGCGC -TACTTCAGGATGATGTAGATCCGAAGAACGCTACAGAAGAGAGGCATTGTTGCTGGCAAATAGAAGAAGTATCGGGTTTT -GTTACCCCTGAAAAACGAAGCCCCGCTATTATCGCTGGCGGGGCAGTGCAATTAATTATTGTATGTTTATAACGGTGTCA -GCCCGTATTTAGCCCTTGCACGATTGCAAGCCTCATTGACGACTCCGTTCTCACCAGACATGGCGAATTCTCTGCATGTG -GACGATCGATTTTTATATATCGTGCAGCAGGCATTTTTGCCCGGGGTTCCTGCAAGGGCAATACATCGGGGGTTTTTCTG -ATTGGTACCGCTCATGCATCGGTGAAAAGGGGATATTTGTTCAGTGAGCCTGGCGGGAATAGTACCGCCAGCATCGTCGG -CTTCGGCCCAGTAAAAAGAGACGCGGAAAAATGCACAACAGGCACCACACGTCATGCATGGATTCAGATTGCTCATAATT -CACCAGTACAGCTAAAAATCGTAAAGAGAACAGCGGTACATCGTATGTAAGAACGTACCGCGGTTGGCTGGGGAACTTTC -GATAGTGTGAGTATTGAATGATTTCCAGCCGTTACCGATTTTACGTACTAATTCGTGATTAAACCACTCGTTAGCAGGCT -GCCTGATACCTTTCCGTGTCTCCTGAACACTATGGTGTGCATATGAGAAAGCCCATCGTTACAGGTGATATTGACGATCG -CTTCCACATCATTTAAACGATTTTTGGGGCTCTGAGGTGGAATTCTTCCCTCGACCGATGGATAAGTCTTAGTCCGCCGA -AGGGGGCTTAGCCGGACAGGAATCGCTAATCTTAATGAATTTGTCGTTATAGACCAGATAGTGATTCCCCGGCTGACGTA -ACTCAGGCTGATGAACCACGTCTCCCGGACGTAGATACCAGGCATCGCCTTCCTCTTCGGTCGAATCACATCCTGGCTTA -ATCAGTAGCTTAAACCATGTGTTGCCAGTGTTACTTACCGTTCCTGTCACCTTGTCGAAGGACCATTTAAACTGAACCTG -ACGTGGTCGTACTACCAGAATGGTATCCATCACCACCACCGGCTCCGTGCTGACCACGCCGCCGGTTGGGCTGCGTCTTG -TATGGTTACGAGTGGGGACCTCGCGAAATGAGACCCGGTAGTAGCGCTCGCGGTTATCCCGTGGACCATGATAGTAAAAT -TTAAAATACTCGCTCTCACCAGCCTGCAACGCCAGCTGGCGGGGGGCGAAAAGCAGTTCACCATCCACCGGTCGGGTGCG -CAATTCACTGCTGCCCGGGCTATCAATAGCACTGATGGCAATACGGTATATCCGTGCGCTTTTGTTGTTATTCACTACAC -GTTTGCTGACAAAGTCAGTCTCGGACGGCAGCGAAAATGTCAGATTGCCGACCGAAATCGCCTGTGTCAAAGGTGCCGCC -AGCATACAGACCGCTGTCAGCAGGGCCTTAGTTAATGTTACGCCACGTCGCCTGAACATGAATCTCTCCTGAAGCGCTGA -CTTCGCCAAACCAGCCGTTATCATCTACCGTACGCAGCGAAATGGCGTTATCCATTGGAATCGAAAATTTGACTGTGGTC -TTATCCATCTGCCCCACTTCGCCAGAGATATCAGTCCACGGTGTGGTCAACCACAGCGCATCGGTCATATCCCGCCAGCT -ATCATCGCACCCGGCATCGTAGGTTTTTGTAGCTCCGTTGCGGGTAATAAAGGAAAGTGTCGCCGGGAACGGTACTTTCG -CCTTACCGTCATCGGAGCTGAAGACACAATAGGAGCGCCCGCCAATCACCTGCGCGGGTCCGGTCACCTTGATCAGCACT -TCGTCGGCAGCTGTTTTACCGCTGGTGGTTACGATATAGCCGAAATCGAGTGCCGACTCGCCGCTGCCAACATATCCCTC -CCGCGACGGTGTCTGAGTATATTCATCGGAGATAATACTGATGCTGAAATCACGGGGTTTGATAATCAGCGTGTTGGAGG -TAGAAAATTCATACCAGCCAGACTCCGGTGATGTGGTGTTCTGAAAGCGAAAGTTGAATAGATCTTTGGTGTTGATATCG -CTGATCCCGAGGTTCACCATCTGCTTAAAGAAGTTGCTCGAGAAGAAAACATAGATCGAGTCTGCGCTCTTCATCTCGTT -GAAGGTGTAGTAATAGGCGGTATTGCTCACCGGTTTCCATGAACTGCCATTCAGACTGAACTGCATATCGTACGCCCCGA -CGGCCGAGGCTAACGACGAGTTGGCGATCGCCGGGAATATATGGATTGAGGTGTTGCTGAGTCCGTTTGTTTGCAGGGTA -TAGTTAACCATCTTACAACTTAATCCTGAACGGCTGCCGATGGTTTGCGTCCGGCAGTCGGCGTTCCCTTCGCCCAGAGT -CGGTACTCCGTCGCTGTTGATAAATACTTCCGCCAGCGAGTGGGTATTTATCAACCGTAGATTTGCTGCTTTCGTATGGG -TGACGTTGCGAACATACCAGTTGCCGGAGGCCTGATCCTTACAGCGTGCGCCGCTGCTGGCGTCATAGTTCACAGAGGTC -TGGCAGGCATTGATGGTCATTGTAAAGCTGCTGCCGACGGGCATTTGTTGCATATACTGGTAAAACGCGTCTGACAACAT -GCCGTGCATCCACTTCGCGCCGCCGCTGGTCACCGTCGCGCCATAAAATCCACTGGCGTCGGTGGTTTGCGGCAGGATAA -GACTGGTGGTCATATTACACCCAGCGTACCAGTTGATGCAGCGCAAGCCAGTTAAAGGAGATGAAACTGGTGAATTTTCC -AGCCACATATCAAACTTCCAGTTGGTATAAAGGCCGGTGTTGTAACCGTTATCAATGTAGCCGAGGCTTTGCTGATAGAT -GGTTCCTGAACCAGTGTATTTTAAACCGGTCCAGCGGTTGGCACCGGTCAGGCGCGGATCCAGCGCCCCGCCAGGAGTGA -CGAAAAAGTTGTCGTCTGAGTTGTTTTCGACAAACACAAACTCGCGTGCCGGTGCATCCGCCCAGGTTGTTTTGCTCACT -GCCGCTCTGAGCGCAGTTACTGGCCAGATTAGCGCGAAAATTATCATCGTTATTAGTAGGTTAACTCTCATTCTCTTCTC -CTGTCTGCGTCACCGCCGCCCACGATGAGAGGCCGCTGCAGACCACATCACCGACCCAGACGGCACCGCGCGCCTGGTTG -AGTTCCAGAGCCACTTCGCAGGTTTTATTGCCACTGTAGCGAAAATCGATAGTGGGGTATTTCTTATCCACGTCCATGAC -AAACTCGCCGTTTTCATCGGTTCGGGTTCGGCCGATATGGTTGTTAATCCGTGCGTTAGCCAGCAGTGTGCCGTCTTCCG -CACGGATACGACCGGAGACGGTAACCATCTGCTTCACCTCTGGCTCAATGACAGCGACATTGCCTGGATAGAGAGTCAGA -CGACTTTTGCGGCCGCTGACGATATCGTAACTGTCGAGTGAGTTTTTGCTGTTCTGTAACTCCACCTCATATCTTCCATA -GGGAGAGAGCGGGAGATAGTTACGCTTGCCGTTAAGCGGGAAAATCCGCCCGTTGATTTTGGCGCTGATCTGACCGTCGT -CCTCCAGCCCGGTGTTGAATATCACCCCAGCGTTGCCATCAGTCCGCCCGCTGGCAGCAATGTTTTTACCCTGCCAGCCG -ACGCTGCCATTGGCGGTCAAGTTGGTATTGACGTAGCCGTCCGCCGCGCTATTGACGTTCAGCGTTCCGCTGGCGTAACG -AGCGTCGAATTGTGCATACGCCCCGCCGCTGAGGGTTTTGTCATCACCGGTATCGCCGGAGATGGCACGTGACAGATTGG -CACCAACAGTGCGAATGGTTCCTTCATCAAACTGTTTGCGTGCTGACAGGTTTGCCATGGTGTAGCCGTTTTGATGAGTC -ATCCCTGCGCTAAACCAGTTGCCCAGTGGTAGCGAGAGATCGAGAGCGATATATTTTCCTGTATTGGCGTTGCTGTCGCC -GTTGTTATAGCGCTGAATACCGGCCCGCAGGCCAAGCGAACCAAAGGTACCGCTGTAGACATTTTGATAGTAATCTGCCG -TGTAATAATGGCTGTTGTAACGGCGGTCATCATTGTAGCTGATGCTGAATGTGCCCAGCTTCGACCACAGTGAGTTCAGG -TTGAGTGTGCCGCCGATTGCACGGTTGTCGGCATCGCTACGTCGCAATTGATTGCCAATGCGGGTTTTTTCCTGATTAAC -CCACAGCGAACTAAAGCCTCCCGGTAGAGTGGCGCTGATGCTGCCGATGCTGCTCCATGAGCTGTCACTGGCCAGCATAT -TTTGCAGGTTAACGTTGATCGCCCCCCCAAGCGGCAGCGTCAGACGGGTTTCACCCACCGCCTGATTATCGTATCCATAT -CCCGTTGCCGCCCAGCTAAGCGTACTCAATGAGCCGGAGGTCGAGGCACCTGCTAGCCAACTCTCTTTAGCTGGTCGCGT -CTTTTTCCCGTTTTCCGACCAGCGATCCATATGAAAGCTACCGCCCCATACCTGCCACGCCAGTGGTGCACCGACGCCGC -GCCCCCGGCTAAACAGCTTATTGACCCGCTGGGTGCGTTTGCTGATCACGCGACCGTTAACGATCACCTCAACTTCCACA -TCGTAAATCCCGTACGGTAGACCCCGGGTATCCACTTCATGATTGCCCATAGTGAAGTTCTGAACGCTTAGTAGCCGCCC -ATCACGGGTGAGATGTACTTCGCCCGCCGCCGGTAAAAAGGCGATCACTGGCGTGGCTGACTGGCTGCTGTCGAAGATGG -TGGAGCTGGCCTGGTTTCCCCAGGAAAGGCCGTAAATCTTCCCTGCTGAAATGGCGGTCATCGGCCCTAAGGACTGCAAG -TTCCAGGTGTCGAGCATTCCACCGGCAAATCGGTGACCGGCAAAATCGCGTTCATACATCGCTTTATATAATTCACTGTC -CTGTTGACCGCTACCGATCCCGTACAGCGAGCCGTCGAGCACCACATGATGTTCGCGCAGTGCAGTAACGTTATTCAGCG -ACAGATAGCTGGATGTGTTGCTCCCGCCGTTACGCAACTGGTTGTTATAGACGCCCAAGTTATAGCTCAGATTACTGCTG -AGGGTGTTAACACTGGACTGCCCGATGTCTTCGCTACGTGAGCGTAGTACGGTGCCCAGCGCTTCGCGCTTGACCACTAG -CTGCAGCAGCAGTTGGCGCAAGCTGAGATCCAGCTGCGCGTTGTCAGTCAGGGGGATGGTAAGGGCCTCATTGAACGGGG -CGTTGGCCAGAGCCATCAGCTGCTGTCGAGTTTGTTCGCTGACACTGGCGTTATCTTCACTCTCTTCCAGCTGTATTTTC -CGGATGCGTAGCTGTCCATCGTCCAGCCAGATAAAAGCGCTGCCGATTCGCTGATCGTCCTGGCGACCCTGGCTACCGGC -GAGATGAATATAGAGCGGGACGCTCATGCCGTCCTGAAGCGCCTGACTGAAGGCCTGCGGAATAATCACCCCACCTATTT -GCTGCGCACTTATGTCAGCAGCGCTGGCATCGGGCTGAACGAACAAAAAGACCATGCCGAAGGCAAACTGGGCTTTCAGT -CCTGGGGAGAACCGTCGTAAAGGCATTGTCGTTATCCATCTGCACAGCTATCTATTTCACGGGAATGAACTTATCACCCT -GCCAAAGTGCAACCCGTCCTTTGTTATCCGCAGTGTCCACGCGGGTAAAACGACGCGACTTGCCCGGCATCAGGTAGTAA -TTCTCTTTACACTCCTTACCGTTGGCGGCTTTCAGGCAAGGTCCGTAGGCGAGGATCCGCAGCGTCGCATTTCCTGTATT -TGTCAGGGAGCCGTTGGCGTACTGAAAGTGGTAGTTCGCCTGACGAGGGGCGACGACCAGAATGGTGCCGATGCGGGCGG -AAGCAGTGGCCACAGCGCTGCGGTTGGCATTATCGCGCTGCGCATCACTGAGGGCCTGATCAAACCAGACAATGCGGTAG -TAGCGCTCTTTTTCATCTGCGGGTCCCTTATAGAAGAAGCGGATCACTTCGCTGGCTTGGGCGGGTAGCAGCAAGCTGGC -GGGAGTGAGTAGCAACTCATCCGGCTTGTCCATTGAGATAACCTGCCCGTCGTCAAGCGGTGAAGAGAGCCGTTCGAGAC -GGATATTGATAAGGCGACCACTGTCGGTACTGTTTTTGATCGTTTTGCTCAGCGTGCTGCTGTCACTGTTCATAAACGAT -GATATATCGCCGACATCCAGCGCCTGGGCCGGAGATATTCCGGAAAACAGCAGAGCGAGAGGCAGAAGGTGCTTTTTCAT -AACAATTCCGTCCAGGAATAAAGCAGGGGGGCTACCCCTGCTGGTACATCAGAGAGATTAACTGGTCCAGGTCGCGTCGA -ACTGTACGCTAACGTCGCCGCTCCAGATGCCTTCCGGTAGAGTGCTGTAATCTGTTACTGCGGTGGTACCATTGGTGGTA -CCGCTGATGATGGAGAAGGTGAAACCATCCTGTGCGGTGGTACGATTGCTGGCATTGTAACCGTTAGCCAGCGGGCTAAG -GTTGCCGCCCAGTACGCCGTTGGCGGTATCGATCATCACGGTATCGCCAGTTTTTTCGACTGCCGCGCCGTTATAATCCA -CGCCCACATTCAGTGTGGAACCTGAGGTATCCAACTGGGTTAATGTGTTGGTGATAAGACGTGAGGTCAGTTTAAAGGCG -GTAGCCGTTGAGTCACCCTCGATAGCCACGTCAAATAGACCTTTCTGTGAGTTAAAACCTTTAATGCCTTCGGCATACTG -GAACGCCAGGCTACCGAGTGGCGTCACAACCAGCTTACTGGTGGTGTCTTTTTTGGCTGTTGCCGACCAGGTCGCTACAG -CCTGAGCTGTTACGTCAGCAGCCTGCGCCACACCCATGCCGGTAAACACCGTTACCAGAGCTATTGCCAGAACCTTTTTT -TTCATTGCATTTCTTCCCGAGTTGAATTGAGGACGTGATGTCCCAGTGAGTCATTTTTTAAAACTAACTTGCCTGGAGTT -TACTGAACCAACTTATATATTTTTGAGTACAGCTTGGCCTCAGCATTACGCCGATGGGTATACACTGTCTTCACACTACA -ATTTTCAATTCTGGCAATCGATTTAGGTTGCATTCCCTGGGCCGTCATGCGGATAATTTCCATTTCCCGGTCCGTGATTT -TATCTTTCTTAATATCTTTTCTCAGGAACCTGCCATTAATCACATAGACCAGTTCTTTTCTAATATCACGACTCAGTCCA -GCGTATACCACGCCCCTAATATTGCTATTGTAATACCAATAATTTGCTAAGGCCTCTGACTTTCTGGCCGCAATCAATAC -GACCTGTTTCCCCTTTACCGCGGATAACCATTCATTATCACGGTTTATAAATTCAGATAAAGAATCCGTACTGAGATTGA -TAAACACGAAATCTTTTCTAATTTTCTCCAACGATAGATAAATTAATCTGTCGATATCCACAATCAGTTCAGATAGTCCT -TTATAGAAGTAGGCGTCATGGGGAGACCAGATGTATTTATCAGAACGGTTTTGACATTCCATATGGTTTTTAACCTCATA -GTCCCTACTGTAATCACTTTGCCATGTCACTACTTTCCAAACCTGTAATTTTTACAGGTGCATTCAGTTTCCTTAGTAAA -CCGGAAGTAAATAAGATACGTAGTACATATCAATAAAGGTTAAACGAGATTAAGTTTAATTATTTTCGATTGGGCTTAAA -TTTATGTTTTTTTTCCCGATGAGTGTCAATATGTGAACGGAAAAGGAATTCAATGGTTAAGTCAATATTTAGAAAAACTG -AAAATATTGCTTTTTTGATAAGAAGAAAAAGACATTTGGTTTCATAAGGTTATTGGCAATATAACGTTCAATTCTTACTT -GCATTTTATATTGGTCAGGAACTTTGCCCTGAAGTGTTAGGAATAGTCTTAATGCGCTGTGTGATGGACTAGTAAAAAAA -CAAGTTTTAAGGGTAAGGGATAGAATATAAAACTATGATGAGCTGTCATTGAAGATGATTTGCCAATCAGTAAGATATTT -TAATGGATTAACATGCCGCACAAAATGGTTACAGGTGTTCATTCCAATAAGTAATGGAAAATTGAACGGGCGTATGTACG -TCATCTGTTCGGTAAGCCCCCAAGAGCCAGATTAAGTGAAGTTAAACGAAGGCTGCCAGCTGTCACAGGAACGATGGCCT -TTTTGTCAGGGCACTGCATTCAGTTATCTGTGCGCGTTACTCTAACTGGCACTCGAACGTCGGCGACGGGGTTACCGGTG -GATCAGACTGTTCCTGTGGCGTAAACGTTTTTATGTTAGTACCAACAGATTTACCACATTTATCATCTTAACAGTTTGAG -TGAAAATGCAGGCTGCGCCGCAAAGGGAGGAGACTGAGTGGCGTGTTCAGTCTAAAAGAGGGTTGATGCCAGCATACAGG -GGCGAAGCTGGTCAACAAGTCAACATTAAGATAATGGAATATTCGGAGAGAAACGTCAGGCAGTTGGCCTCAAATGAACA -GGAAGAATATATCCCCAGGAAAATTAATGTTGGTGTTATAAACACACCAACATTAATCCGATCTGATTATTAATCAGACA -AATATCGTTAATCCGTCGAATTTTGAATCAACGTTTTTTCTTACGACCCTGAACGGCCTTAAAACGTGGATTAGATTTAC -AAATCACATATAGCCGTCCTTTTCGCTTCACAATCTGACAGTCTGGATGGCGTTCTTTTGCGGTACGCAGAGAGTTAAGA -ACTTTCATCACGCCCCCTTTTTCGTGCTAACAAAACGACCAAAACGTTGGGTGAATCGTGCAACATTTCCTTCTGATGCC -ACTGTTCTCAGCTTCCCTGTATAGAACGGGTGCGATTTAGAAGAGACATCAATTGTCACGTATGGATACGTTACGCCATC -CAGCTCAATCTCACGGTCTGTTTTGATAGTCGAGCCGATTTTAAAGTACTCATCAACACTGGTGTCGTGGAACACCACAG -TACGATACTCAGGATGGATATTGGGCTTCATCATTTTTACCTGTTATGTTATAACATAACCATAAAGATACATGCTCATC -CGGATCATTTCAACACTCAATCCCTGTGACTCTTTGTGGATGTGGAATTTTCGCAACGGGGAACTCTGGCATTGTTAGCA -GCCATTGGTGACGCTCCCATAAACGCCTGGATGAGTGATTGATGATGGTTTTGCTGAGAGTATGGATTTTTCGAGAATGG -AGGTTATCTCCACTTTACTGGCCGATAATTTATCGCAGTATGATTGATTACCTGACAGCGTGTATTCCTCTCCCACGGAT -ATAATAATTACTTACAAAAAAGGGAGAGGATGCATATTTTAAATATCACTGAAGTGAACAGTTTATTTCCGTTATTAATA -GAAATGGAGAAATAAATAGGCGTATTCTACAATTGCGACAAAAACAACGATATTAATCAGTTTATGACTGATTTGCTGTA -CTTTATTCTCTTTCATTGGTACTTCCTCGCTTTAAAAAAGAGTGCACTTCGTAAGTGCCCTTATATAAATAACGAGTTTG -GTCAACCAATTTTTTGACATGTATCACAAATTTGAATAGATGTATTACATCAACTATCTTTTATTGCACCAACGTCATTG -ATATATGTCGCCTGAAGTCAGTTCCGGGAATGAGTCTGATCTCAAGACTGGCCCAGTCCGGGCGTTGATTGGTGCTGAGG -AGCATATCGCATCTCATCATAATGTCGTATCTCCTGGGGTGTTATACAAGATATCGTTGTTGGTGACCTGGGAGAGAAAT -TGAGTTCTATTAAACCGTCAACTATGCCGGATACATACTGGATTACACTGCAGGCACGCCTTATGAGAGAACGTGCCGCA -GTGACGGGTTAATTATCTGAAAGAATTTGTGAGGCTGTATCGGTTACTCATTGATTTGATAGTTTTACTCTCGGGAGAAT -AATAGATATTTAATCCATTAACGGAAACCAGCCAGTTCCTTTCGATGCCTGAATTTGATCCCATAGTTTATCCGGAATGG -TTAATTCATGAACAAGTTGTGTTATCGTTCATGAGAAGCATAACGTAAAGGGAAAAGCTCGATTAGACGGCAGAATTTGT -CAGGGGTTATGAACGAAATTCATAAATCTGTTTGAGTGTTGCGATGGGTAGTGCAAGTTCGATATCTCCGCAATTTACAG -TCCGATGAAGGAAAATGAATATCCATAAAAAATATATTGGTTTATCCTGGCATATATACCTATTTCGACGTATTTCCAAT -AGTTTTAATTAAAGGCAGGTCATTGTTATTCACTCTGAATAGTGAATTATTCACTGTCCGCAGAGTAAGAAATATAACTT -AGGTATCTATTTAATGACTTGCACAAAAAGCTAAATTTTCCCCCATAAATAAAAATATAATCCCGCGCCCAACCACCTGA -TGAGTGGCTATAGGCACTGGATATATTAGGTGGCGGTGCACTTTCTTACATAAAGGTATTTCCTTTTCTGCGGAAAAGGA -AATCGGGAAATCCCCGGTTTTTCTGACAAGCAGACGCCATTATTTGTGTCTGCCTATGTTCGTTAATTCGTTCATCAGGA -AATTATCTCAATGTCACATTATAAAACAGGTCATAAACAACCACGATTTCGTTATTCAGTTCTGGCCCGCTGCGTGGCGT -GGGCAAATATCTCTGTTCAGGTTCTTTTTCCACTCGCTGTCACCTTTACCCCAGTAATGGCGGCACGTGCGCAGCATGCG -GTTCAGCCACGGTTGAGCATGGGAAATACTACGGTAACTGCTGATAATAACGTGGAGAAAAATGTCGCGTCGTTTGCCGC -AAATGCCGGGACATTTTTAAGCAGTCAGCCAGATAGCGATGCGACACGTAACTTTATTACCGGAATGGCCACAGCTAAAG -CTAACCAGGAAATACAGGAGTGGCTCGGGAAATATGGTACTGCGCGCGTCAAACTGAATGTCGATAAAGATTTCTCGCTG -AAGGATTCTTCGCTGGAAATGCTTTATCCGATTTATGATACGCCGACAAATATGTTGTTCACTCAGGGGGCAATACATCG -TACAGACGATCGTACTCAGTCAAATATTGGTTTTGGCTGGCGTCATTTTTCAGGAAATGACTGGATGGCGGGGGTGAATA -CTTTTATCGATCATGATTTATCCCGTAGTCATACCCGCATTGGTGTTGGTGCGGAATACTGGCGCGATTATCTGAAACTG -AGCGCCAATGGTTATATTCGGGCTTCTGGCTGGAAAAAATCGCCGGATATTGAGGATTATCAGGAACGCCCGGCGAATGG -CTGGGATATTCGTGCTGAGGGCTATTTACCCGCCTGGCCGCAGCTTGGCGCAAGCCTGATGTATGAACAGTATTATGGCG -ATGAAGTCGGGCTGTTTGGTAAAGATAAGCGCCAGAAAGACCCGCATGCTATTTCTGCCGAGGTGACCTATACGCCAGTG -CCTCTTACCCAGCAATAGTGGACACGCGGCTAAGTGAGTAAACTCTCAGTCAGAGGTGACTCACATGACAAAAACAGTAT -CAACCAGTAAAAAACCCCGTAAACAGCATTCGCCTGAATTTCGCAGTGAAGCCCTGAAGCTTGCTGAACGCATCGGTGTT -ACTGCCGCAGCCCGTGAACTCAGCCTGTATGAATCACAACTCTACAACTGGCGCAGTAAACAGCAAAATCAGCAGACGTC -TTCTGAACGTGAACTGGAGATGTCTACCGAGATTGCACGTCTCAAACGCCAGCTGGCAGAACGGGATGAAGAGCTGGCTA -TCCTCCAAAAGGCCGCGACATACTTCGCGAAGCGCCTGAAATGAAGTATGTCTTTATTGAAAAACATCAGGCTGAGTTCA -GCATCAAAGCAATGTGCCGCGTGCTCCGGGTGGCCCGCAGCGGCTGGTATACGTGGTGTCAGCGGCGGACAAGGATAAGC -ACGCGTCAGCAGTTCCGCCAACACTGCGACAGCGTTGTCCTCGCGGCTTTTACCCGGTCAAAACAGCGTTACGGTGCCCC -ACGCCTGACGGATGAACTGCGTGCTCAGGGTTACCCCTTTAACGTAAAAACCGTGGCGGCAAGCCTGCGCCGTCAGGGAC -TGAGGGCAAAGGCCTCCCGGAAGTTCAGCCCGGTCAGCTACCGCGCACACGGCCTGCCTGTGTCAGAAAATCTGTTGGAG -CAGGATTTTTACGCCAGTGGCCCGAACCAGAAGTGGGCAGGAGACATCACGTACTTACGTACAGATGAAGGCTGGCTGTA -TCTGGCAGTGGTCATTGACCTGTGGTCACGTGCCGTTATTGGCTGGTCAATGTCGCCACGCATGACGGCGCAACTGGCCT -GCGATGCCCTGCAGATGGCGCTGTGGCGGCGTAAGAGGCCCCGGAACGTTATCGTTCACACGGACCGTGGAGGCCAGTAC -TGTTCAGCAGATTATCAGGCGCAACTGAAGCGGCATAATCTGCGTGGAAGTATGAGCGCAAAAGGTTGCTGCTACGATAA -TGCCTGCGTGGAAAGCTTCTTTCATTCGCTGAAAGTGGAATGTATCCATGGAGAACACTTTATCAGCCGGGAAATAATGC -GGGCAACGGTGTTTAATTATATCGAATGTGATTACAATCGGTGGCGGCGGCACAGTTGGTGTGGCGGCCTCAGTCCGGAA -CAATTTGAAAACAAGAACCTCGCTTAGGCCTGTGTCCATATTACGTGGGTAGGATCATAAAGTCCTCGGGTCGTTGTCCA -CTCTTTTGGCATGTCAGCATATTCACATACCGTACCAGCAAAAGTTTCAACCGTGAGCAAATCGACCGATTTTGTTGACG -GTTCAAACGTGGAAACGAAATAGATATCCGTCTTAAAATTCTTCATACATCTGGCTAAATGATGACGTCGTAGTTTGACT -TCTTCATCCGGTGATTTATTCGACACTTCAATGTCATATTTAAATGAGTTGCCAAAAATAGGTGTCTCAGGAAAGTTGAT -TAATCTACACTCCGTCTTTTGCTGTTGACGTATTAAAAAAGAAGGGAAGATATTTGCGAGATCCCAATAATCACGGTGGC -GGTATTCACGGGGAGAGCAGCCGAATAACTTTTTAAATTCGCGGCTGAATGACTGCTGTGAATCAAAATGCAAAGAGAGT -GCAATATCAAGCATAGATTTCGCGGTGAGCCGGACAAGAATGGCGGCACGACAAAGCCTTCGTTTGCGAATGTATTCTCC -CAAAGGCACATGCATGAAATTTCGGAACAGAAGCTGGATGTTGCGTCTGCTGTAGCCAGATTTCTGTGCGATATCTTCGA -TTGAAATAGGGTGCTCAAGATTGCACTCAATCCACTCCAGGAGCTGCTGTAGAATCTTCTGCCTGATCATCTCATTCTCC -GTTAATTCTTTGTCATATCGCACATTTTCGTTATACCCTGGGCCCTAAGTGTATCAAAAATAGCAAGGGCGAAGGCAAAA -GCACTGGTAGCGTCTGCTTCGTTGTCCCCGAAAATAGAGAGGTTTCAGTCCTACATTATTAATGAATTTTTTGCATAAGT -GATATCAAAATCCACATACTACTTTGAGGTTACGTTTTAACGTAGACTCATTGTTCATGCCTAATGGAGGGACTGACAGT -GGAATTTTCCGTATAGTCTGCTTCAGAGTATTGCAGATGCCCATCAAAAATCGATTTCTCACTGACAGATAAAGAAATGG -CACAAATTAGTTCGCTTGATTTGGGTTATGTTGGGGAGTCGGTAAAACATTTTAATCCTGAATTTGTTCGTGGTTGTCTT -GCTGTAAAAATACATGATTGATATTAATCATGTATTTTACCTAAGACGACAAAAACCTTTTAACAGGGAGTGATATTGAT -CTTCACTCTGTCATATCTCCGGTAATATGGCGTCAGGCTTCATCATCAGAAAGGGGGCCTGACGCCTGAAAAAGTGAACA -ACAGACAGTGTTCGGATTATCAATATTCAGTTTTTAACGTTGAACTGGATTCATTACTGCGTTGTTTAAGAATTTCCCGC -GCCGAATCTGCCATTATCATGACTGCACCTGCCAGCATCAGAGTATCTTTCAATACCAGGCGACCAGCACCGGATAAATA -AGGGAAACCATGATGAGCGTCACCCAATGCGGGTACCCATGCCTCCGGGGTGGTGATTAAAAATGAGAGTGTTACCAGCG -GCGTGGTAAATGCCATCAGTCCTCCCAATAAACCTAACCAGCGATTGACAGGATTAGCCAAAACCAGCAGAGCAATAATC -ACCTCCACGACGCCAAGACCGTTGGAAAAACCATAGGTATTATTGGCCGTTTGCCATGCCCTTGCTTCTGGTTTGTATTC -GCCTTCGTGAGTCAGATACTGTTTATAGTCTTCCGGGTGTTCATAAAAGAACGACATTAGTGGACTGTTTGCGACGAATG -GTGTAATGCTGTCTGCCTCGTAAGGGACAAACTTTAATAACCCAATCCACATAAAAACAATTGCAATACTCAGACGAATC -AATGTCAGGCCAATTTTATCTCCCCGACTTAACAGGTGCAGGTATTTTTCCATTGTGAACATCCTTATTTATACAATACT -GCTGTTGCGGTTGAATTATTATCAATTCGCATCGATGTGACTTTCCAGGATGAAGCATTATATTTTCTGGCTATATCAGC -AATGGTATCCTCCAGAACTGTCGGTGATGCTGATACTGACGAGACGCTGATATGTTTCAGAATTATTTTATCATCTGCAT -TGGTGGAAAATGCCATAACGCCAGATAATAGTGTTGCAAATAAAACAGATTTTTTAAACATATAAAATACCATCAATGAA -GTGATTAAGAAGTTATAGAGTAACAGAGAATTAATAAGATTCTTTTCTCTGAGACGCCAGAATATTTGTTCTGGCGTCTG -ATTTTGAGTTTATTTGACTAATGAAAATAGATCATTGAGTGATTCGCTCATCGACGGATGAGTAAATATCTGATCGCGTA -ATATGCTATAAGGCAGCCCGGCATCCATCACCATTTTCACTATATTGATCATCTCGTGGGAGTCAACACACAGCAGTGAT -GCCCCTAACATACGTTGGGTTTTATTATCAACAATCGCTTTTAATACCCCACGAGTATCATTCATCACTCTGGCACGCGG -AATTGCAGCTACAGGCAATGTCACCACCTGAATATCAGCACCACTCTCTCTGGCTTGTTCTTCTGTCATACCAACCCTGG -ACAGGGGCGGTGTCATAAATACGGAATAAGGCACATTTTTCCGATCATCAGTACTACGTTTGCCTTCACCCAGTAACTCA -TCACGTACAATGCGGTAATCATCCAGTGATATGTAAGTAAATTGCAGCCCGCCGGTAACATCTCCCATCGCCCAAATATT -GTCTGCGGTGGTATGTAATCGCTTGTCAACGACAATTGCCCCGCGCTCGTTTACTGCGATACCGGCATTTTCTGGATGTA -ACGAAGCGGTAGCCGGTTGACGACCGGAAGCTATTAACAGTGCATCCACCGCCAGTTGGGCGTGCTCGCTATGCACTTGC -ACTTGATTTTCATGGTGACTGATTCGCTCCACATGGGCATTGAGGATAATATCGACGCCCTGATCGCGTAAAATCGTCGC -GATATTATCAGCAATATCCCGATCTTCCCGAGGCAAAAACAGCGAAGCTGCTTCTAAAATGGTTACCTTGCTGCCAAAAT -TAGCGAACATAGAGGCGAACTCAACGCCAATATATCCGCCGCCCAAAATACCTAAATGCCCAGGCAATTCTTTTAGATTA -AGTAATCCGGTGCTGTCATATACTCCTGGCGTGGTGGTAATTCCAGGAATTGGCGGAACCACGGTTTGTGCACCGGTATT -AATAAAAATTTTCTCGCCATGAATTTCCAGATTTCCCTCAGGCCGATGAACACGCAGGCTATGATTATTGATAAACTCCG -CCTGGCCGTCGATCACGTCGATATTGGGCATATCCGCAAGATTATGAAAATTCTTATTACGTAAAAAATTAACCACTTCA -TTTTTACGCTGTATGGCACGGACAAAATCTGTGTGCTGCTGTGCGTCATGAACCAATGTTTTGGTTGGGATGCAGCCGAT -ATTAATACAGGTCCCGCCATACATTGCATTTGATTGTTCGATGAGAGCCACTCGCCAACCTGCTTTTGCCAGCGTGACGG -CTAATGTTTTTCCAGCCTTGCCAAAACCAATAATCACTGCCTGATATTTATTCATGATGATTTCCTGTCGAAACGCGTTC -ATTTGACATCATGACTATAGACGCAAAAGAGCAAATAACATTTCTTCACAACGCTTGATATTTTGTCTTATCGTCTGATA -TTTTCTTTTTCTTAATCAGAATCACAAAACAAAAATCATGATTAACTATTTGATGGTATTAGATTAGTTATTTACTAAGA -TTGTTGGTGTTTGTAATCAAAAACCACTCAGGAGTCTGATATGGATGCCCTTAGCCGTTTGTTGATGCTTAACGCTCCAC -AAGGAACGATCGATAAGAATTGCGTGTTAGGAAGTGACTGGCAGCTTCCACATGGTGCCGGGGAATTATCGGTTATTCGT -TGGCATGCGTTAACGCAAGGAGCGGCGAAGCTGGAAATGCCGACGGGGGAGATTTTTACATTACGCCCGGGAAATGTGGT -CCTGCTACCACAAAATTCAGCTCATCGCCTGAGTCATGTCGATAATGAATCGACCTGTATTGTCTGCGGCACTCTTCGGT -TGCAACATTCGGCGCGTTATTTTTTAACGTCTTTGCCGGAAACGCTGTTTTTAGCACCGGTTAACCACAGCGTGGAATAT -AACTGGCTGAGGGAGGCGATCCCGTTTTTACAACAGGAATCCAGATCGGCAATGCCGGGAGTGGATGCACTGTGTAGCCA -GATCTGCGCTACATTCTTTACCCTCGCGGTGCGTGAGTGGATTGCACAGGTTAATACTGAGAAAAACATTCTCAGTTTGC -TTCTGCATCCACGTCTTGGTGCGGTAATACAGCAAATGCTGGAAATGCCAGGACACGCCTGGACCGTCGAATCGCTGGCC -AGCATCGCTCACATGTCCCGGGCAAGTTTTGCCCAGCTTTTCCGTGATGTTTCCGGAACCACGCCGCTGGCTGTATTAAC -AAAGTTGCGTCTACAAATAGCGGCCCAGATGTTTTCCCGGGAAACGCTCCCTGTTGTGGTGATCGCTGAGTCAGTAGGCT -ATGCCAGTGAATCATCTTTTCACAAGGCGTTTGTCCGCGAGTTTGGTTGTACCCCGGGAGAATATCGGGAAAGGGTCAGA -CAGCTTGCACCCTGAATAAAACCGCCAGAAATCAGGGCAAAGATAATCCGCATTCCGGGAGTTGTGAGCCTTTCAACTAT -TTCTATTTCCAACGGTGGTTTGGGCTTTATATATTTTTTCTGATGGACTCTAGCTCAGTTTTTAAATAAAAATGCAAACT -AAATTGCTTCAATTAAATAAAATCCCGACTATTACTTGATACGTGATTATTGTCGGTGATTTTTTTGTACACCATCAGTG -TATATCTCAATAACCCCTGAATAAGTAGCTCTGAATAGGTATAAGGGATGTAGCCATTTTTAAATGGATTTCTTATGCCA -AAAATGATCGTCGATTTCCCCATAAAATGTGAGCGATGCCGAAAGAAATAAAATTAGTTATTGCATTTGACGTTTGGATG -AAAGATTATCATTTGTCATACAAATGAGGGGTGGTATGTTGCTAGCCAATTAAAAAAGAACGCCATATTTATTGATGATT -GATCCCCCGGTGGGGGGGAAACATCGGGCATAAATGGGCATGAAGTAATGGAGTATTAGTTGTGAATGTCAATTTCTTTG -TCACCTGTATTGGTGACGCCCTGAAATCAAGAATGGCACGAGACTCCGTGCTGCTACTGGAAAAACTCGGCTGTCGCGTA -AATTTCCCGGAGAAACAGGGATGCTGCGGTCAGCCTGCGATCAATAGCGGTTATATCAAAGAAGCGATTCCAGGGATGAA -AAATCTGATCGCCGCACTGGAGGATAACGACGATCCCATTATTTCACCGGCTGGCTCTTGCACCTATGCCGTAAAAAGTT -ACCCGACGTATCTGGCGGATGAACCTGAATGGGCATCACGTGCCGCAAAGGTTGCCGCGCGTATGCAGGATCTCACCTCT -TTTATTGTTAATAAATTAGGGGTAGTCGATGTAGGTGCCAGTTTGCAAGGGAGAGCGGTGTATCACCCATCTTGTAGCCT -GGCCCGTAAGCTGGGAGTGAAGGACGAGCCACTTACGCTGCTGAAAAATGTGCGTGGACTGGAGCTGTTGACCTTTGCTG -AACAGGATACCTGCTGCGGATTTGGCGGCACGTTCTCGGTCAAAATGGCCGAAATATCCGGCGAGATGGTGAAAGAAAAG -GTTGCGCACCTGATGGAAGTCCGCCCTGAGTATTTAATTGGTGCTGACGTGAGTTGCCTGCTAAACATCAGTGGGCGATT -ACAACGGGAAGGGCAGAAAGTCAAAGTGATGCATATTGCTGAAGTGTTGATGAGCCGCTGAGGATATAAAGATGTCGATC -AAAACCAGTAATACAGATTTTAAGACACGCATCCGTCAGCAAATTGAAGATCCGATCATGCGCAAAGCGGTGGCAAACGC -GCAGCAGCGTATTGGGGCAAATCGGCAAAAAATGGTCGATGAATTGGGGCACTGGGAGGAGTGGCGCGATCGGGCCGCCC -AGATACGTGATCATGTTCTGAGTAATCTCGACGCTTATCTGTACCAGCTCTCAGAAAAAGTGACGCAAAACGGCGGTCAC -GTCTATTTTGCAAGAACCAAAGAAGACGCTACCCGCTACATTTTACAGGTTGCCCAACGCAAAAATGCCCGGAAGGTGGT -GAAATCTAAATCGATGGTGACCGAAGAGATTGGTGTCAATCATGTGTTGCAGGATGCTGGCATTCAGGTGATTGAAACCG -ATCTGGGTGAATATATTCTCCAGCTGGATCAAGATCCGCCATCTCATGTTGTGGTCCCGGCAATTCATAAAGATCGCCAT -CAGATCCGTCGAGTGCTACACGAACGTCTGGGCTATGAGGGGCCGGAAACGCCTGAAGCGATGACCTTATTCATCCGGCA -AAAAATCCGCGAAGATTTCCTCAGTGCTGAAATAGGTATTACCGGCTGTAATTTCGCGGTGGCAGAGACCGGTTCGGTAT -GCCTGGTGACCAATGAAGGTAATGCGCGAATGTGTACCACGCTGCCTAAAACGCATATTGCAGTGATGGGAATGGAGCGT -ATTGCCCCCACGTTTGCCGAGGTAGATGTATTGATCACCATGCTGGCGCGCAGTGCCGTTGGTGCACGTTTGACGGGATA -CAACACCTGGCTGACAGGACCGCGCGAAGCTGGGCACGTTGATGGTCCTGAAGAGTTTCATCTGGTTATTGTCGATAACG -GGCGTTCTGAGGTGCTGGCCTCTGAATTTCGGGATGTGCTGCGCTGTATTCGCTGCGGGGCTTGTATGAATACTTGTCCG -GCATATCGCCATATTGGCGGTCATGGATATGGCTCTATTTATCCAGGGCCAATTGGTGCGGTGATTTCTCCGCTACTTGG -CGGCTATAAAGATTTTAAAGATTTACCCTACGCCTGCTCTTTATGCACAGCTTGTGACAACGTGTGTCCGGTGCGTATTC -CGCTGTCAAAACTGATTTTGCGTCATCGTCGGGTGATGGCTGAAAAAGGGATCACCGCAAAAGCAGAGCAACGGGCGATA -AAAATGTTCGCTTATGCCAATAGTCATCCAGGATTGTGGAAAGTCGGGATGATGGCCGGTGCTCATGCGGCAAGCTGGTT -TATCAATGGCGGCAAAACACCACTCAAATTTGGCGCGATTAGCGACTGGATGGAAGCACGCGATCTTCCTGAAGCTGACG -GAGAGAGTTTCCGTAGTTGGTTTAAGAAACATCAGGCGCAGGAGAAAAAGAATGGATAATCGAGGCGAATTTTTGAATAA -CGTTGCTCAGGCACTGGGTCGCCCGCTGCGACTTGAACCGCAAGCAGAAGATGCGCCGCTTAACAACTATGCTAACGAGC -GGCTTACCCAACTTAACCAACAGCAGCGCTGTGACGCGTTTATTCAGTTTGCCAGCGATGTTATGTTGACGCGCTGTGAG -CTGACCAGCGAGGCGAAGGCGGCAGAAGCTGCAATACGTCTGTGTAAAGAGCTGGGAGATCAGTCGGTCGTGATTAGCGG -TGACACGAGGCTGGAGGAATTGGGGATTAGCGAACGTTTGCAGCAGGAATGCAATGCCGTTGTTTGGGATCCGGCGAAAG -GTGCCGAGAATATCTCGCAGGCAGAGCAGGCTAAAGTGGGTGTTGTGTATGCTGAATATGGTTTAACCGAATCGGGAGGC -GTGGTTCTTTTTTCCGCCGCCGAGCGCGGGCGTTCATTGAGCCTGCTCCCGGAATATTCTCTTTTTATCCTGCGTAAAAG -CACTATCCTGCCGCGTGTAGCGCAACTCGCAGAAAAATTGCATCAGAAAGCGCAGGCCGGTGAACGAATGCCTTCCTGCA -TTAACATCATTAGCGGCCCCAGTTCAACGGCGGATATTGAGCTTATCAAAGTCGTCGGAGTTCATGGCCCGGTGAAAGCG -GTGTATCTGATTATTGAGGATTGTTGAGAGAGATATGAAGTCTGGACATAAACCTGAAGAAGGCATACGAGGTTGAAAAT -AGCGTTTAGGACAACCTGACTTAACCCCGTTCCGTCATGGTTATGCTGCTCTTCTGTAAATATCCTGGTATTACCAATGC -CAGGATATTTACAGTGAAAAAGACAGGCATCCATTCCTGAAAACGGGTTCCCTTCCCGGTCATTGTCACTTCAGCTTTAT -ACAGGCACTCTCTATCAGAATGTTGTTTATTACTGCCCAGAGTTTTGTTGGTATTCATCTACCATTTTTTTGACAAGGCA -AAACATTACAGAAATTACAATGCTTAGAAAAAATCCCAGAGCCAGGCAAATGGCAGCAGGGTATTTATTTTTTATTTCTG -GTGAGCTTATAGTTACACAGCCATCACCGTTCGGATACAATGACCAGTTCCTGGTCAGGTATATCATTTTTGTATAAAGC -TCACTGTTAATTGCTGAAGGCGTTTGTATCTCATCGAGAACTTGCCTGCCATTATGATATTCTGACGCATACCATTTGAT -AATAGAGGCCTGCACGCGAGATATTTCCTCTTCAGCAGTTGGTAAAGCTCTCTTATCTCCTGACCATTCCAGCCTTATTT -CTCTGTTCTTGACATCTGGGCTGGTGTGAAAAAATGTAGTAATTCGCTGAATAACATCTTCAGTCATTGTAGTCTGACAG -GCAAAATTATTATTGCTATCACAGCTAACAAGTATACCTGGCGTTGTCTGGTTTATTTTTAGGCTGTAAATCACTTTTAT -ATTGTCTTTATTGATATACAGAAACAACAGCACCATAGCCATACATATAGCCATAATAAAAAGGATAACACGAATCTTTT -TCTTCAGATAAAATAAAATCTCAATCAGATCGATATCCTGTTTGATTTGTTCACGCATAATATATCCAGAGAATAAAATC -TGTCGCAGATAAGGTTGTATTAATAGTCTGTATCAGGAATGTTCGGGTTAAATATCAGCAAAAAGCCCGCATCATGAATA -CTGGATATGAAGCATGAGAGTTACCTCAGTGTTTATATAAGGATTCGGTCCCCCTCTCTGGAACGGTAACTCTCAATCTG -ATCGGTTCCTGCGTTAGTTCACATCACGACTCATTTTTTCGCTCTCACCGGCATCCCATTTGCCACAAAATATCCCGCCG -TGCTCCTCGGCAGCGCTTCCTGTCCACGAATCATATCCGCTATTTTCTCGCCAATCATAATTGTCGTGGCGTTCAAATTC -CCGGTGATAATCTGCGGCATAATCGACGCATCCACCACACGCAGGCCTTCTAACCCGTGTACGCGGCCTTCGCCGTCAAC -CACGGACATCTCGTCGTAACCCATTTTGCAGGTACCGCACGGATGGAAGGCGGTTTCGGCGTGGTTACGCACGAACTCAT -CGAGCTGTTCATCCGTCTGGCATTCGACACCGGGGCTGATTTCGCGGCCACGATACTGATCCAGCGCGGGTTGATGCATG -ATCTCGCGGGTGATGCGAATTGCGTCGCGGAACTCCTGCCAGTCCTGCTCGTGCGACATGTAGTTAAACAGAATCGCCGG -ATGCTGGTGCGGGTCGCGGGATTTAATCCGCACATGCCCACGGCTTGGCGAGCGCATTGAGCCGACGTGGCACTGGAAAC -CGTGCTCTTTCACTGCATTCGAGCCGTTATAGTTAATCGCTACTGGCAGGAAATGGTACTGAATATTCGGCCACGCAAAT -TCCTCACGGCTGCGAATAAATCCACCTGCTTCAAAGTGGTTGCTGGCACCAACGCCAGTGCCGCCAAACAGCCACTCCGC -ACCGATTTTCGGCTGGTTCCACCACTGCAGGGCAGGGTAGAGGGAAACCGGTTCTTTGCACTCATATTGCAGATACATCT -CCAGATGATCCTGAAGATTTTCGCCGACGCCGGGTAATTCATGCACCAGCGGAATATCAAACTCCGCCAGCAGTTCAGCG -TTGCCGACGCCGGAGCGTTGCAGGATCTGCGGTGAGGCAATCGCGCCTGCACATAACAGCACTTCTTTGTTGGCCGTTGC -GCGGGTTGGGATGGTGCTGTCGCCTTCCAGCCATTCGACGCCCACCGCGCGTTTGCCGTCAAAAATGATGTGATCGGTCA -TAGCGTGAGTACGAATGGTCAGGTTAGGACGCGATTTGGCCTGATCGAGATAGCCACGCGCGGTGCTGGCGCGACGGCCC -TGCGGCGTGACGGTGCGATCCATCGGACCAAAACCTTCCTGCTGATAACCGTTGAGATCGTCCGTGCGCGGGTAGCCCGC -CTGCACGCCCGCTTCAATCATCGCTTCAAACAGCGGATTGACGCCGGGTTTGGAGGTAGTGACGCTCACCGGGCCATCAC -CGCCGTGATAGTCGTTTTCACCCATATCGCGAGTCTCGGCCTTGCGGTAGTAGGGCAGGCAGTCGAGGTAGCTCCAGTTC -TCCAGACCGGGTTCTTGCGCCCAGTTATCGAGATCCAGCGCATTGCCACGGATGTAGCACATGCCGTTGATCAGCGACGA -TCCACCCAGACCTTTACCGCGTCCGCACTCCATGCGGCGGTTATTCATAAACGGTTCAGGTTCCGTTTCATAGGCCCAGT -TGTAGCGTTTACCCTGTAGCGGGAATGCCAGGGCAGCGGGCATCTGGGTGCGGAAGTCAAAGCGATAGTCCGGGCCGCCC -GCTTCAAGCAGCAGCACGGAGGTATTCGGATCTTCAGTCAGACGGGTAGCGAGAACGTTGCCGGCTGAGCCGGCACCAAT -AATGATGTAGTCAAATTGCAAATAAACCTCCTGGTTAGAATATGGACTGGAATTTAGCCATCTCAACCTGGATGGACTTC -ACCTGGGTGTAACTCTGGAGCGTCATCACGCCGTTCTCGCGACCAATGCCGGAGTGTTTGTAGCCGCCAACGGGCATCTC -TGCCGGGGATTCGCCCCAGGTGTTGATCCAGCAAATACCCGCTTCCAGCTGATGAATGACGCGATGCGCGCGGTTCAGGT -CCGCTGTCACGATGCCCGCCGCCAGGCCGTAGTCGGTATCGTTAGCGCGGCGAATGACTTCGTCTTCCGACTCGTAGGTC -AGAATGGACATCACTGGCCCGAAGATCTCTTCACGCACGATGGTCATATCGTCGCTGCAATCGGTGAACACTGTCGGTGC -AACCCATGCGCCGTTATCGAAGCCATCGCCTTTCAGTACATCGCCGCCGCACAGTACGCGCGCGCCTTCCTCTTTGCCTT -TGGCGATATAGCGCAGCACGTTATCGCGATGCGGGAAGCTGACCAGCGGGCCGAAGTTAGTTTGCGGATCGAAAACGTCG -CCCGCGCGAATGCGCTCAACGCGCGCCAGAATTTTCTGCTCAAATGCGGCTTTGCATTTCGCCGGAACGAAGACGCGGGT -GCCATTGGTACACACCTGACCGGAGCTGAAGAAGTTTGCCATCATGGCGATATCGGCGGCGAGATCGAGATCCGCATCAT -CGAAAACGATCAGCGGTGATTTACCGCCCAGTTCCATGGTCACTTCTTTCAGGGAAGAGGCCGCCGAGTTAGCCATCACT -TTTTTGCCGCTGGCGACACCGCCGGTAAATGACACTTTGGCAATGCCCGGATGCTCGGTCAGATATTGCCCGGTCTCCGC -GCCCACGCCCGGCAACACGTTAAATACGCCGTCCGGCAGGCCCGCTTCGCTGTAAATTTCAGCCAGCTTTAACGCGGTAA -GCGGGGTAACTTCGCTCGGTTTGAAAATCATTGCGTTGCCTGCCGCCAGCGCCGGGGCGGATTTCCACAGGGCAATCTGG -ATCGGGTAGTTCCATGCGCCAATCCCTGCCACTACGCCCAGCGGTTCGCGGCGGGTATACACAAAGGACGTTTCACGCAA -CGGGATCTGGCTGCCTTCCAGCGCCGGGATCAGCCCGGCGTAGTACTCCAGCACGTCCGCACCGGTAACGATATCGACGG -TTGAGGTTTCCGAATATGCTTTTCCGGTGTCGAGGGTTTCCAGTTTTGCGAGTTCGTCATTGCGTTCACGCAGAATATCA -ACGGCCCGACGCAGAATACGCGAGCGCTCCATGGCGGTCATCGACGCCCAGATTTTTTGCCCCTGCTGGGCGCTTTTCAC -GGCGCGATCGACATCCTCGCGCCCGGCGGCCTGCACGGTCGCCAGCACGTTACCGTTGGCCGGGTTAATGGTCTCGAAGG -TGCGACCGCTGGTGGCGGAGGTATAACCACCATGTATATAAAGCTGCTGTTCTGCCATTCGGGACATCACGTCTCCTCGG -TTAATCGGTGGGTAGATGCTGAGTGATAAAGTGGCGGGTCAGGGAATTAGCGCGGGTTTTATCCAGCGGTTTGCCGCTCA -GAGCCGCGCGCAGCCATAATCCATCAATCAGCGCGGCCAGGCCGTAGCCCGCTTCCTGTGCCTGTTCGCGCGGCAATTCG -CGACGAAACTCGCTCACCAGATTCGACAGCAAGCGGCGGCTGCTGACCTGCTGTAAACGATAGAGCATCGGCTGATGCAT -ACTGCTGGCCCAGAACGCCAGCCAGGCTTTCATCGCCGCACTGCTCACCTGCGTTTCATCGAAGTTTCCGCCAACAATCG -CCTGTAATCGCTGCTCTGCACTGCCCTGCGGAAGTGCATGTAATCGATTCAAAACCGCGTCACGCAGCTGACTGGTGATA -TCGCGCATGGTTGCTTCCAGCAGACCATTTTTGTCCCTGAAATAGTGGCTGATGATCCCCGTAGAAACGCCTGCACGGCG -GGCGATCTGCGCGATCGTTGCATCGTGCATGCCCACTTCATTTATTGCTTCCAGTGTGGCGTCGATCAGTTGTCTGCGCC -GGATCGACTGCATCCCCAATTTGGGCATTTTCGCCACTCCATTCATCAGCGGTGTTTATCTATTAAAGCGGTTATTGATT -GGACGTTCAATATAAAATGTGTCTTAATTGTTACGAATTTGATTTTAAATAGTAACAATAACAGTGGGGATACTGGATGA -CAGACCTTTCACACAGCAGGGAAAAGGACAAAATCAATCCGGTGGTGTTTTACACCTCCGCCGGACTGATTTTGTTGTTT -TCCCTGACAACGATCCTGTTTCGCGACTTCTCGGCCCTGTGGATTGGCCGCACGCTGGACTGGGTTTCTAAAACCTTCGG -TTGGTACTATCTGCTGGCGGCAACGCTCTATATTGTCTTTGTGGTCTGTATCGCTTGTTCGCGTTTTGGTTCGGTGAAGC -TCGGGCCAGAACAATCCAAACCGGAATTCAGCCTGCTGAGTTGGGCGGCGATGCTGTTTGCTGCCGGGATCGGTATCGAC -CTGATGTTCTTCTCCGTAGCCGAACCGGTAACGCAGTATATGCAGCCGCCGGAAGGCGCGGGACAGACGATTGAGGCCGC -GCGTCAGGCGATGGTCTGGACGCTGTTTCACTACGGCTTAACCGGCTGGTCGATGTATGCGCTGATGGGCATGGCGCTCG -GATACTTTAGCTATCGTTATAATTTGCCGCTCACCATCCGCTCGGCGCTGTACCCGATCTTCGGTAAACGGATTAACGGG -CCGATAGGTCACTCAGTGGATATTGCAGCGGTGATCGGCACTATCTTCGGTATTGCCACTACGCTCGGTATCGGTGTGGT -GCAGCTTAACTATGGCTTGAGCGTACTGTTTGATATTCCCGATTCGATGGCGGCGAAAGCGGCACTGATCGCCTTGTCGG -TGATAATCGCCACGATCTCTGTCACCTCCGGTGTCGATAAGGGCATTCGCGTGTTATCGGAGCTTAATGTCGCGCTGGCG -CTGGGATTGATCCTGTTCGTATTGTTTATGGGCGACACTTCGTTCCTGCTTAATGCACTGGTGCTGAATGTTGGCGACTA -TGTGAATCGCTTTATGGGCATGACGCTCAACAGTTTTGCCTTCGACCGTCCGGTTGAGTGGATGAATAACTGGACGCTCT -TCTTCTGGGCATGGTGGGTGGCATGGTCGCCGTTTGTCGGCTTGTTCCTGGCGCGTATCTCGCGTGGGCGTACCATTCGC -CAGTTCGTGCTGGGCACGTTGATTATTCCGTTTACCTTCACGCTGTTATGGCTCTCGGTGTTCGGCAATAGCGCGCTGTA -TGAAATCATCCACGGCGGCGCGGCATTTGCCGAGGAAGCGATGGTCCATCCGGAGCGCGGCTTCTACAGCCTGCTGGCGC -AGTATCCGGCGTTTACCTTTAGCGCCTCCGTCGCCACCATTACTGGCCTGCTGTTTTATGTGACCTCGGCGGACTCCGGG -GCGCTGGTGCTGGGGAATTTCACCTCGCAGCTTAAAGATATCAACAGCGACGCCCCCGGCTGGCTGCGCGTCTTCTGGTC -GGTGGCGATTGGCCTGCTGACGCTCGGCATGCTGATGACTAACGGGATATCCGCGCTGCAAAACACCACGGTGATTATGG -GGCTGCCGTTCAGCTTTGTGATCTTCTTCGTGATGGCGGGGTTGTATAAATCTCTGAAGGTAGAAGATTACCGCCGTGAA -AGTGCCAACCGCGATACCGCACCGCGACCGCTGGGGCTTCAGGATCGCCTGAGCTGGAAAAAACGTCTCTCGCGCCTGAT -GAATTATCCGGGCACGCGTTACACTAAACAGATGATGGAGACGGTCTGTTACCCGGCAATGGAAGAAGTGGCGCAGGAGT -TGCGGTTGCGCGGCGCGTACGTGGAGCTAAAAAGCCTGCCACCGGAAGAGGGACAGCAGTTGGGTCATCTGGATTTGTTG -GTGCATATGGGCGAAGAGCAAAACTTTGTCTATCAGATTTGGCCGCAGCAATATTCGGTGCCGGGCTTTACCTACCGCGC -ACGCAGCGGTAAATCGACCTACTACCGGCTGGAAACCTTCCTGTTAGAAGGCAGCCAGGGCAACGACCTGATGGACTACA -GCAAAGAGCAGGTGATCACCGATATTCTTGACCAGTACGAGCGGCACCTTAACTTTATTCATCTCCATCGTGAAGCGCCG -GGCCATAGCGTGATGTTCCCGGACGCGTGATTGTTATTGCATAAAACCGCGCCATGTCTGCATATGGCGCTGTTTCTCCT -ACCTCTTGATACGTTATATCTATACGGTTAAGCCCTTAGTATCTATTGATGATTACCAGACAACAGATAATAAAAAAGAA -AAGAACTATTGCAGCCCAAAACCTACATTTGGGCTGTTGCGAATGTTCAATAAGTTTAGTCTTATTTAATGTAAATATTG -CTGATCATTTGAAATGACGCATTATTCATGAGAAATGTGTATCGTAAATCAACTGAAATTAACGCAACCATTTGTTATTT -AAGGTTTAATTATCTGTGTGTGATATTTTATTGAATGTTTTAAATATTGTTTTTATTGGCATTGCTATAATATTGGTTAT -CATTTGCTGAATGGATTCAGTCTTAATGAGTGGGTTTTTAAGGGACAGGCATAGAGTAATGATACGTATGCATAACCAAC -ATCTTTACTCATTATGTCATTGAATGTTGACGCTATGTGTTTATGAGGGAGAGGTATTTTCAGTTGATCTGGATTGTTAA -ATTCATATAATGCGCCTTTGCTCATGAATGGATGCCAGTATGTAGTGGGAAATTATAAATATTGAAATAGTCCAACTACT -TCTTTATTACCAAAAATGAGTATCTGAATTTTAATATTGCATTCTTGCGTGATTATCTCCTGAGTTTGACTTGTGATTAC -CTTTTTAAGGTATTTAGCGTAACTGTTTTTGAGCGAGCATCAGAGGTAAAGATAATCTTCTTGATAGTGATGTGGGATGT -TATACGTATGGCATCGCTGATGTTTATGGTTACCCCTTATGTGTGCTCAGGAATCGACAGGTAATCACTCATACTGAACA -GCGATAAAAGATAAAGGTGTGTTCATGAATTCATGTGATTTTCGTGTTTTTCTGCAAGAGTTCGGTACAACGGTTCATTT -GTCATTGCCTGGTAGCGTATCCGAGAAAGAACGACTGCTACTCAAGCTGCTGATGCAGGGAATGTCTGTAACAGAAATAT -CACAGTACAGAAATCGCAGTGCAAAGACAATTTCACATCAAAAGAAACAGCTCTTTGAGAAACTGGGGATTCAGAGCGAT -ATTACTTTCTGGCGCGATATTTTCTTTCAGTACAATCCGGAGATCATATCCGCCACGGGGAGTAATAGTCACAGATATAT -TAATGATAATCACTATCACCATATCGTCACGCCTGAAGCCATCAGTCTGGCGTTGGAAAACCACGAATTCAAACCGTGGA -TCCAACCGGTTTTCTGCGCGCAGACTGGCGTACTGACGGGCTGTGAGGTGCTTGTCCGCTGGGAACATCCACAAACGGGA -ATTATCCCACCGGATCAGTTTATTCCTCTGGCGGAGTCATCCGGTCTTATTGTCATAATGACCCGCCAACTGATGAAACA -GACTGCGGATATTCTGATGCCGGTAAAACATTTGCTGCCGGACAATTTCCATATTGGCATCAACGTCTCGGCGGGTTGTT -TTTTGGCAGCGGGATTTGAAAAAGAGTGTCTGAACCTGGTTAATAAATTAGGTAACGATAAAATCAAGCTGGTTCTCGAG -CTAACGGAACGTAACCCTATTCCGGTAACGCCAGAAGCCAGAGCGATATTTGACAGCCTTCATCAGCACAACATTACCTT -TGCGCTGGATGACTTTGGTACGGGTTATGCGACCTATCGTTACTTGCAGGCGTTCCCGGTCGATTTTATTAAGATCGATA -AGTCATTTGTGCAAATGGCGAGTGTCGACGAAATCTCCGGTCATATTGTGGACAATATTGTCGAACTAGCGCGTAAGCCT -GGTCTGAGTATCGTGGCGGAAGGGGTAGAAACCCAGGAGCAGGCGGATTTAATGATCGGTAAAGGCGTTCACTTTTTGCA -GGGCTATTTGTACTCTCCGCCAGTACCGGGTAATAAATTTATCTCTGAATGGGTAATGAAAGCAGGTGGTTGATGTAAAC -CGCTATTCACAGCGCATCGGGAGGTTGGCAGCGATTAATTCTCCCGATGCAGTAAATCCTGATAGATCCCCGTTAATATG -CCATTTGGCGCAAATTGTTTTTTAATCCACTGCGTCACCTGACCCGTAGCAGAATGCTGAGTCGCCAGTAACATGCGCGA -ATCCTGGCGCGGATTATGGATTTGTCGGGTAACCAGCAGGGATTGCGTCATCGCCTCACGGACCATGTAATCCGGCAAAA -AACCAATTCCTTCACCTAAAATCTGGCACTGACATTTGGTGTTGAAATCTGGCACCAGAATTGACTCCTGCCCGTGCAGC -AACCAGCCCACTTTTTTATTAATCGTATGCGCGGTGTCCTCCACCATAATATTAGGGTAGAGACGCAGTTGGCTTTCGGC -GATGGGTTCCGGCACAAAGGCTAACGGGTGATCCGGGGCGATAGCAAAAGCCCAGCGAATCGCGCCAATTTCAGTGTAAT -CAATACCGCCGCCGTCCAGTAGTGTATCGGGTGCGCCGATGGCGATATTGGCCTGATTATTAATAATCGCATCCCAGACG -CCGTTATACACTTCGGTGGTGACGGTAATCTGGCAGGTAGGAAACTGCTTTTTCAGCACCTGTAACAAGCGTGCGGTGTG -TTTGGGCGTATAAAGCAGCTGATTAATACAAATGCGCACACGCGCTTCTATGCCCTGCGAAATAGTATCGATTCTGCGTT -TGATGGCATAAAAATCATTCAGCAGGTCGGTAGCTTTGCGGAAAAAATAACGCCCGGACTCCGTTAACTCAATGCTGCGG -GTACTGCGAGTGAACAGCACCACATCCAGCCCCGTCTCCATACGCTTAATGGTGTAGCTAATGGCGGAAGTGGTTAAACC -CAACTCTTCTGCGGCTTTACTGAAGCTGCCAAAACGCGCAGCGGTAGTAAATGCCAACAGATTCTCTTCGGTAAAAATTG -AGTTCATTAAACCATTCTCGCCATTATCTACTATGAATTTCTCCAGCTATGACTGTAGAGGTATCGGTTAAAGATAGATA -ATCATTTTTGAATAACTTTTAATACCCGTCGCGTTTAGTCGTCGCTTCGCTTAATTTTTGTCCACCATATTCTGAAATTA -CCCCCACGCAGTTACCCGCCAGAAAACCCAGTAACGTCACCGTCCAGTTCATCCCGCTGGCAAAAAACAGCGTCATGCCG -AGAAAGCCACCGGGAATAAAGGACAGTAACCAGAAACGCCCTTGCCAGACCACTACCGCCGAGAAGGGTACGGTAGTAAT -TACGCTCGCCCAGAACGCGGACAGTCCACTTACAGAGGCCAGCCAACCAGCAGTCAGCGCGGCGAAAAACGCCCACACCA -TCCCGGAATAATTAACCGCCAGACTTCTGATAAACCCCGATTTACCGCCGCCTGCGGCATAAAAACTGCAAAAGGCGACG -AAGCCAATGGTTCCTAATAATTCCCATCCTTGAGAGAGCCCGACATGTGAAGACACTAACTGCCAAAGCCCTGCACAAAT -ACCGACGGTGACACCCGTTGCCGTGAGTCCGTTCATCTTGTTCCCCTCTGGTTAGACATGGACGAAAGCTACTCTTACAT -GTGCAGACTATAGAGAAATAAAACCTGATTGAGTGAAAGGGTATCGGGTCAAAGAAACAAATATTGCACTACCGCACACT -GCGAAAAGATTGTTGAATATTATTCAACAAAAAGGCGAGATACGGCGAATTAAATTTAAGCGGGTTCTTTTATCAGATTA -TCGTTGCTATTCTCAATTCATCGAAAACAGCCACAAAAACCAGGGGAATGTGAATGAGTATAAAAAATCTACCTGCCGAC -TATTTATTGGCTGCACAACAGGGTGATATCGATAAAGTAAAAACCTGCCTTGCGCTGGGTGTCGATATTAATACCTGCGA -TCGTCAGGGGAAAACGGCAATTACGCTGGCAAGTTTATATCAGCAATATGCTTGCGTTCAGGCATTAATTGATGCCGGAG -CGGATATTAATAAGCAAGATCATACCTGTTTAAATCCTTTTTTAATTAGCTGTCTGAACGATGATTTAACGCTACTACGA -ATTATTTTACCGGCTAAACCCGATCTTAATTGCGTAACCCGTTTTGGCGGTGTCGGCCTGACGCCTGCCTGTGAAAAAGG -CCATTTAAGTATTGTAAAAGAGCTTTTGGCGCATACGGAGATTAACGTTAACCAGACCAACCATGTAGGCTGGACGCCGC -TACTGGAAGCGATTGTGCTTAATGATGGTGGTATTAAACAGCAGGCGATTGTGCAGTTATTGCTGGAACACGGTGCCAGC -CCGCATCTGACCGATAAATATGGCAAAACGCCACTGGAACTGGCGCGGGAACGGGGCTTTGAAGAGATTGCGCAGTTACT -GATTGCCGCAGGTGCATAAACCGGGAGGCTTGCTATCAACACACCAGAAAGACGGTGTGTGTGGGCGCTAACTGCGGATG -CGGATTTTCTGGCGCAGCGGGGGCAAGGACAGGTTGAACAGGTCTTTGCCAGAGCGGTAAATATCGCACTCCCGGCTCGC -CAGCAGTTGCTGACGCTGCTTTGTGAAGAGTACGACAATGCGCCAAACAGTTGTCGGTTGGCACTCACTCACTTTGATGA -TCTGTTCCGGCATGGTGATAAGGTTCAGTTTGACGATCAAGGTATTACGGTTGGTCAACATCTTCATATAGAGATGAGTC -GTTGTCGGCGTTGGCTGTCCCCAACCTTGCAAATGACCGCTGTGAATTTTCACCTTATCGCCTGGCTACAGTGGCACGAC -ATTATTCATCAGCACCTGGGGGAAAATGAAACCCTGTTTAATTATCGCGGCGATAATCCGTTTTATCAGGCGTTAAATAA -AGAATTACATATTAAACGACGGGCAGTTATTCAGGCCGTAAACGATAAACAAAATATCGCCTCAGCGGTCGCCAGTATGA -TGGGGTTAGGGATTGGCCTTACGCCATCAGCCGACGATTATTTAACAGGTCTGGCGCTTATTTTATTTATTCCCGGGCAT -CCGGCGGAAAAATACAAAGAGGAATTTTATCTCGGTCTGCAACGCGGCAAAAATAATACCACATTATTAAGTGCCATAAC -GCTGGAAGCCGCATTACAACAACGCTGCCGGGAAAATATTCATCGTTTTATTCACAACATTATTTATGACATCCCTGGGA -ACGCAACTCAGGCAATAGAAAAAATTAAACATATTGGCTCCAGTTCCGGCTGCGACATGCTGTATGGCATGGCCGATGGT -TGTGCGCTGAGCCAAACCTACGGAGGGAATTATGTCAGTTAAAATAGTCATTAAACCGAATACCTATTTTGATTCTGTCT -CGCTGATGTCTATCTCCACGCGTGCAAATAAACTCGACGGCGTCGAGCAGGCATTTGTGGCGATGGCGACCGAAATGAAT -AAAGGCGTGCTGAAGAATTTAGGACTGCTGACGCCGGAGCTGGAGCAGGCGAAAAACGGCGACCTGATGATTGTCATCAA -TGGTAAATCGGGTGCGGACAACGAGCAGTTACTGGTGGAGATTGAAGAACTGTTCAACACCAAAGCGCAAAGCGGCTCGC -ACGAGGCGCGTTACGCCACTATTGGCAGCGCCAAAAAGCATATCCCGGAAAGTAACCTGGCGGTGATTTCGGTCAACGGT -CTGTTTGCCGCTCGCGAAGCGCGTCAGGCGCTGCAAAACGATCTCAACGTGATGCTGTTTTCCGATAACGTCTCAGTTGA -AGATGAACTGGCGCTCAAGCAACTGGCCCACGAAAAAGGGCTGCTGATGATGGGGCCAGACTGTGGCACGGCGATTATCA -ACGGCGCGGCGCTCTGTTTTGGTAACGCCGTGCGTCGCGGCAACATCGGTATTGTTGGCGCATCCGGCACCGGCAGTCAG -GAGTTGAGCGTCCGCATTCATGAATTTGGCGGCGGCGTTTCGCAACTGATTGGCACCGGCGGGCGCGACCTGAGCGAGAA -AATCGGCGGCCTGATGATGCTCGACGCCATCGGGATGCTGGAAAACGATCCGCAAACTGAAATCATTGCGCTTATCTCCA -AACCGCCTGCGCCTGCGGTGGCCCGCAAAGTGCTGGAACGTGCGCGCGCCTGCCGCAAGCCGGTGGTCGTCTGCTTCCTC -GATCGTGGCGAAACGCCAGTGGATGAGCAGGGGCTACAGTTTGCCCGCGGCACCAAAGAGGCAGCGCTAAAAGCGGTGAT -GCTCTCCGGCGTGAAACAGGAAAATCTCGACCTGCATACGCTTAACCAGCCGTTGATTGCGGATGTGCGTGCGCGTCTGC -AACCGCAGCAGAAATACATTCGTGGCCTGTTCTGCGGCGGCACGCTGTGCGACGAAACCATGTTCGCGGTGATGGAAAAA -CATGGCGATGTCTACAGCAACATTCAGCCCGATCCGGAATTCCGCCTGAAAGATATCAACCGCAGCATCAAACACACCTT -CCTCGACTTTGGCGATGACGACTTCACCAATGGCAAGCCGCACCCGATGATTGACCCCACCAACCGCATCAGTCGCTTGA -TCGAAGAGGCGCGCGATCCAGAAGTGGCGGTGATCGTGATGGATTTTGTGCTCGGATTTGGATCGCATGAAGATCCGGTC -GGCTCCACCATCGAGACGATCAAAGAAGCGAAAGCGATCGCCGCTGCCGAAGGACGCGAGTTGATCATTCTCGCCTATGT -GCTGGGTACCGATCTTGATACGCCATCGTTAGAACAACAAAGCCAGATGCTGCTTGATGCCGGAGTGATTCTGGCGAGCA -GCAGCACCAATACCGGATTGCTGGCGCGTGAATTTATCTGCAAAGGGGAGGAAGCCTGATGAGCCAGTCACTGTTTAGCC -AACCATTGAACGTTATTAACGTCGGCATCGCCATGTTTAGCGATGACCTGAAAAAGCAGCATGTAGAAGTGACTCAACTC -GACTGGACGCCGCCGGGGCAGGGCAATATGCAGGTGGTGCAGGCGCTGGATAACATTGCCGATTCGCCGCTGGCGGACAA -AATCGCCGCCGCTAACCAGCAGGCGCTGGAGCGTATTATCCAGTCGCATCCGGTGCTGATTGGTTTTGATCAGGCGATTA -ACGTGGTGCCGGGCATGACGGCGAAAACCATTCTTCACGCCGGGCCGCCGATCACCTGGGAAAAAATGTGCGGCGCGATG -AAAGGCGCGGTCACCGGAGCGCTGGTGTTCGAAGGACTGGCGAAAGATCTCGACGAGGCGGCTGAACTGGCGGCTTCCGG -GGAGATCACCTTCTCGCCGTGTCACGAGCACGACTGCGTGGGATCGATGGCGGGTGTTACCTCGGCCTCGATGTTTATGC -ACATCGTAAAAAACAAAACCTACGGCAACATCGCTTATACCAACATGAGCGAGCAGATGGCGAAGATTTTGCGTATGGGC -GCTAACGACCAGAGCGTGATTGACCGCCTGAACTGGATGCGTGATGTGCAGGGACCAATACTGCGCGACGCGATGAAAAT -TATCGGCGAAATCGATCTGCGCTTAATGCTGGCGCAGGCGCTGCATATGGGCGATGAGTGCCATAACCGCAATAACGCCG -GGACGACACTGCTGATTCAGGCGCTGACGCCGGGGATTATTCAGGCGGGTTATTCCGTCGAGCAACAGCGCGAAGTGTTT -GAGTTTGTCGCCAGCAGCGACTACTTCTCCGGCCCGACGTGGATGGCGATGTATCAGTCGCGATTCACCTGCACTCGCAA -CGAGGTTCATCTTATGTCGACTCGTACCCCTTCATCATCTTCATCCCGCCTGATGCTGACCATCGGGCTTTGTTTTTTGG -TCGCTCTGATGGAAGGGCTGGATCTTCAGGCGGCTGGCATTGCGGCGGGTGGCATCGCCCAGGCTTTCGCACTCGATAAA -ATGCAAATGGGCTGGATATTTAGCGCCGGAATACTCGGTTTGCTACCCGGCGCGTTGGTTGGCGGAATGCTGGCGGACCG -TTATGGTCGCAAGCGCATTTTGATTGGCTCAGTTGCGCTGTTTGGTTTGTTCTCACTGGCAACGGCGATTGCCTGGGATT -TCCCCTCACTGGTCTTTGCGCGGCTGATGACCGGTGTCGGGCTGGGGGCGGCGTTGCCGAATCTTATCGCCCTGACGTCT -GAAGCCGCGGGTCCACGTTTTCGTGGGACGGCAGTGAGCCTGATGTATTGCGGTGTTCCCATTGGCGCGGCGCTGGCGGC -GACACTGGGTTTCGCGGGGGCAAACTTAGCATGGCAAACGGTGTTTTGGGTAGGTGGTGTGGTGCCGTTGATTCTGGTGC -CGCTATTAATGCGCTGGCTGCCGGAGTCGGCGGTTTTCGCTGGCGAAAAACAGTCTGCGCCACCACTGCGTGCCTTATTT -GCGCCAGAAACGGCAACCGCGACGCTGCTGCTGTGGTTGTGTTATTTCTTCACTCTGCTGGTGGTCTACATGTTGATCAA -CTGGCTACCGCTACTTTTGGTGGAGCAAGGATTCCAGCCATCGCAGGCGGCAGGGGTGATGTTTGCCCTGCAAATGGGGG -CGGCAAGCGGGACGTTAATGTTGGGCGCATTGATGGATAAGCTGCGTCCAGTAACCATGTCGCTACTGATTTATAGCGGC -ATGTTAGCTTCGCTGCTGGCGCTTGGAACGGTGTCGTCATTTAACGGTATGTTGCTGGCGGGATTTGTCGCGGGGTTGTT -TGCGACAGGTGGGCAAAGCGTTTTGTATGCCCTGGCACCGTTGTTTTACAGTTCGCAGATCCGCGCAACAGGTGTGGGAA -CAGCCGTGGCGGTAGGGCGTCTGGGGGCTATGAGCGGTCCGTTACTGGCCGGGAAAATGCTGGCATTAGGCACTGGCACG -GTCGGCGTAATGGCCGCTTCTGCACCGGGTATTCTTGTTGCTGGGTTGGCGGTGTTTATTTTGATGAGCCGGAGATCACG -AATACAGCCGTGCGCCGATGCCTGACGTGCCTTATTAGGCAGGGGCGAAAGGGACTTCACCCCAATACACCTACGGCGTT -TACAGGTATACTCGCTAAAAATTATTCAGCGGGTTTGGAAACAAAGATGGCAAAACTTACCTTACAAGAGCAGTTGCTCA -AAGCAGGATTAGTCACCAGCAAAAAAGCGGCGAAGGTGGAGAGAACGGCGAAAAAATCGCGCGTTCAGGCGCGTGAAGCT -CGGGCGGCGGTAGAAGAAAATAAAAAGGCACAGCTTGAGCGTGATAAACAGCTTAGCGAACAGCAAAAACAAGCGGCGTT -GGCGAAAGAATATAAAGCTCAGGTGAAGCAGCTTATTGAAATGAACCGAATCACCATTGCCAATGGCGATATTGGTTTTA -ACTTCACTGACGGCAATCTGATTAAGAAGATTTTTGTCGATAAGCTCACACAGGCGCAGTTGATTAATGGTCGTCTGGCG -ATTGCCCGCTTGTTGGTCGATAACAATAGCGAAGGTGAATACGCCATTATTCCCGCCAGCGTTGCCGATAAAATTGCTCA -GCGCGATGCCAGCAGTATAGTGTTGCACAGCGCGCTCAGCGCCGAAGAGCAGGATGAAGACGACCCGTATGCCGACTTCA -AAGTGCCTGATGATTTGATGTGGTAAACATAGATAAGTCGTGCGCAGATGCCTGATGCGACGCTATGCGCGTCTTATCAG -GCCTACGGTTTATGGGCGAAGTGTAGACCGGATAAGGCGTTCACGCCGCATCCGGCAGTCGTGCGCCATGCCTGATGCGA -CGCTTTGCGCGTCTTATCAGGCCTACGGCTTACGGGCGAAGTGTAGGCCGGATAAGGCGTTCACGCCGCATCCGGCAGTC -GTGCTATTATCAACGCATATTCAGTTTATTGGCGTGGTAGGCAATATGCTCGCCAATAAAACTGGAGACAAAATAATAGC -TGTGATCATAACCCTCGTGATAACGGATTAACGTCTTGATATTCATCTCCTGGCAGATCTTTTCAAGATTTGGAGTCCGC -AGCTGTTCTGCGTAAAAATCATCACTCAACCCCTGATCAACCATGATTTCCGCAACGCGTTGACCTTGTGAAATAAGACT -CACCGGGTCGTAATCCAACCAGGCATCTTTATTTTCAGCAAGATATGCAGCAAAGGCTTGCTGTCCCCACGGCACTTGCG -ATGGGGAGACAATGGGCGAAAACGCCGAGACGCTGACATATTCATCTGGGTTACGTAACGCCAGCACCAGCGCGCCCAGC -CCGCCCATAGAATGACCAGAGATAGACTTTTTGGCCGTTGCCGGAAAATGATGCATCACTAAATCCGGCAGCTCGTTGCG -GATATAGTCATACATTTTGTAATGTTCATTCCACGGCGCTTGCGTCGCGTTCAGGTAAAACCCGGCACCTTGCCCGAGAT -CGTAACGGTCAGCATCTGCGACATGACTGCCTCGCGGACTGGTGTCCGGCGCAACAACAATAATGTTGTGCTCAGCCGCG -TAACGCTGCATCCCCGATTTAGTAATGAAATTCTGCTCGTTGCAGGTCAGGCCTGAAAGCCAGTACAGCACCGGCAATTT -TTCATTCGCGGCTTTTGGTGGGAGATAGACGCCGACATTCATTTCACATTTCAGTGATTGGGAATAATGCCGATACATAT -TTTGCCAGCCGCCAAAGCTGACATGTTTTTCAATGAGTTCCATCAGTCATTATCTCAGGGTTAATCCCCCGGACGGCTGC -CCGGGGAGAGTATTAAGAACCCCCGCCTGAAGTGGACGGGGTAAACCTGCGGGAAATCAGTAACGAATTACGGTTCGAAT -GGATTTGCCTTCATGCATCAGGTCGAAGGCGTCATTAATTTCATCCAGGCTCATGGTATGCGTGACAAACGGTTCCAGAT -CGATATCACCTTTCATCGCATCTTCAACCATGCCCGGTAACTGGGAACGACCTTTCACGCCGCCAAACGCGGAACCTTTC -CATACGCGACCAGTGACCAACTGGAATGGACGGGTGGAGATTTCCTGACCGGCAACCGCGACCCCGATGATCACCGACTG -ACCCCAGCCGCGGTGCGCACTTTCCAGCGCCGCACGCATCACGTTGACGTTACCGATGCATTCAAAGGTATGGTCGATAC -CCCATTTGTTGATATCCAACAGGACATCTTTTATCGGTTTGTCGTAGTCATTCGGGTTAATGCAGTCGGTAGCACCGAAG -CGACGCGCCAGATCGAATTTCTTCGGGTTGGTATCGATAGCGATAATCCGACCCGCTTTCGCCTGACGCGCGCCCTGAAC -CACTGCCAGACCAATCGCGCCAAGACCAAACACGGCAACAGAATCACCTGGCTGGACTTTAGCTGTGTTGTGTACCGCGC -CAATACCGGTGGTCACGCCACAGCCCAGCAGGCAGACGTGTTCATGGTTTGCTTCTGGATTAATTTTTGCCAGAGACACT -TCCGCGACTACGGTGTATTCACTGAATGTAGAGCACCCCATGTAGTGATAAAGCGGCTGCCCGTTGTAAGAAAAACGGGT -GGTGCCGTCTGGCATCAGGCCTTTACCCTGGGTTTCGCGAACCGCAACACAGAGGTTAGTTTTGCCAGAACGACAGAACT -CACACTCGCCGCACTCCGCGGTGTAAAGCGGGATCACATGGTCGCCAGGTTTGACGCTGGTTACGCCTTCACCGACTTCA -ACCACAACGCCGGCCCCTTCGTGACCGAGAACCACCGGGAATACACCTTCCGGGTCATCGCCGGAGAGGGTAAATGCGTC -GGTATGGCAAACGCCGGTATGGGTGACTTTAATTAGCACTTCACCTTTTTTCGGTGGTGCAACGTCAATTTCAACGATTT -CCAGCGGTTTACCGGGAGCAAATGCAACGGCAGCACGTGATTTCATCTCTCGCTCTTCCTCAATATGGTAATAGATTCAG -CTATTTAAGATAGGCACGAACCAGTTCAATAGTGTCGTCAACGGATTGGCTGACTTCGCGGCTGTAGCAGTCATTTCGGT -CAAACGTTTCCCGGATATGGCTTTCAAGCACTTCTGCCATCAGCCCATTAGCCGCGCCCCGAACGGCAGCGATCTGTTGG -AGTATGGCACGGCATTCGGCATCACCCTCCAGCGACCGTTCCAGAGCATCAATCTGCCCCCGAATACGACGAACTCGAGT -AAGGACCTTTTTCTTCTCTTCCGGAGTACTGGGCATTTCGCACCTCATCATCTGCATGCAATATACTATAGGGGGGTATT -CTATATGTCAATGCATACCCCCCTATAGTATATAACACTGGAGAATAAAATTTATCCGGTGAATGTGGTCGGAAAACAAA -GAGGAAAGGGGGGGGGGCTAATCGGCAGGGAAGGCCGCCCCGGATAGCGGGCGGCAGAAGGAATCAGAATTTCCAGGTCA -GACGGGCTGCAAGTTGCAGACCGTTAAAATCATCGGTTGGGGTGTCGTACCACACTTTACCTGCCGTCAGCCCGAGATTA -AGTTGCTCAGTCAGCGGTTGAATACGTTGCAGACTGACGCTCTTCATGCTGCCGTAGCGTGTTTCTGGCGTCCAGTCATA -GGTGTAAGCACCTGTTCCGCGGCTTAGCCATAGTTGCGTATAACCAGTGCCGCGCGGGTCATTCAGACGCACGGAAATCA -TATTGCTATAACTACCACCTGCATCGCTGGAGTCATAATGGGTATAGCGGTAGCTGGTGATCACCGGGCCAGTATAGAGT -GATACGCCGCCTTGCCAGGCATCGACTTCGACATCATCGTAATATTTAGTGTAGCGATAACCGGTCGTGAAAAGCGTTTT -TGGTAACAGGGCCAGGTTAATATCCTGACGAAAATCCTGGCGGGCAAAGACCGGCGTATTATCCGCAAAGGCAATACCCG -TTCGGGTTGTCAGCCAGTTATTCCATTTATACCAGACCGCACCCTGACCGCGAGTGGCATTGAAATGTTCAGTTTCATAA -TCACGACGCCCCTGGGAAAGATTAAAAAGCAGCGTTGCGTTTTCAACTTTCGCCACCAGTTCAGCATACGCTAAATTACG -GTTGCCATGATCGCCAGAATAATCGGTAAAATCGTAGCCCGCGGTAATGGAAGTTAACCCGGCATAAGCGGGCAATGCGC -TAAAAATGGCCGCCGCTAATAACGTCCGTTTTATCATTTTAATCTCCTGTACGGATAAGTTCTTGTCGGAGTGAATAAGT -TCCGGTAGGTAAATTACGTTCTACAATCACGCGCGGGCCAAGTTGCGTGTTCGGGGAAATAATTCGCCCAGGCAAAATAA -TAACTTGTACGCCAAGGCGTGAACGCTGCCCGATATAACAACCTAATTTATCGCATCCGGTAGCGATAATTCCCTCTGGA -GTTCGAACAGACACGGGCTGTTCATCCAGACGATGATTACTGGTACGTACTTGTGCGCCTAAATATGCCTGGTTTGCAAC -TACCGAGTCGGCAATAAAACATTGCGGACCAATCGTTGCTTCCGCTTCAATAACCGCATTTTTAATCTCGGTGGCAAAAC -CAATTTTTACGCCATTGCTGATTATTGTGCCAGGACGAATAAACGCATAATTACTAGACTGGCCCCCTGAATCTCCAGAC -AACCAATATCACTTAAATAAGTGATAGTCTTAATACTAGTTTTTAGACTAGTCATTGGAGAACAGATGATTGATGTCTTA -GGGCCGGAGAAACGCAGACGGCGTACCACACAGGAAAAGATCGCAATTGTTCAGCAGAGCTTTGAACCGGGGATGACGGT -CTCCCTCGTTGCCCGGCAACATGGTGTAGCAGCCAGCCAGTTATTTCTCTGGCGTAAGCAATACCAGGAAGGAAGTCTTA -CTGCTGTCGCCGCCGGAGAACAGGTTGTTCCTGCCTCTGAACTTGCTGCCGCCATGAAGCAGATTAAAGAACTCCAGCGC -CTGCTCGGCAAGAAAACGATGGAAAATGAACTCCTCAAAGAAGCCGTTGAATATGGACGGGCAAAAAAGTGGATAGCGCA -CGCGCCCTTATTGCCCGGGGATGGGGAGTAAGCTTAGTCAGCCGTTGTCTCCGGGTGTCGCGTGCGCAGTTGCACGTCAT -TCTCAGACGAACCGATGACTGGATGGATGGCCGCCGCAGTCGTCACACTGATGATACGGATGTGCTTCTCCGTATACACC -ATGTTATCGGAGAGCTGCCAACGTATGGTTATCGTCGGGTATGGGCGCTGCTTCGCAGACAGGCAGAACTTGATGGTATG -CCTGCGATCAATGCCAAACGTGTTTACCGGATCATGCGCCAGAATGCGCTGTTGCTTGAGCGAAAACCTGCTGTACCGCC -ATCGAAACGGGCACATACAGGCAGAGTGGCCGTGAAAGAAAGCAATCAGCGATGGTGCTCTGACGGGTTCGAGTTCTGCT -GTGATAACGGAGAGAGACTGCGTGTCACGTTCGCGCTGGACTGCTGTGATCGTGAGGCACTGCACTGGGCGGTCACTACC -GGCGGCTTCAACAGTGAAACAGTACAGGACGTCATGCTGGGAGCGGTGGAACGCCGCTTCGGCAACGATCTTCCGTCGTC -TCCAGTGGAGTGGCTGACGGATAATGGTTCATGCTACCGGGCTAATGAAACACGCCAGTTCGCCCGGATGTTGGGACTTG -AACCGAAGAACACGGCGGTGCGGAGTCCGGAGAGTAACGGAATAGCAGAGAGCTTCGTGAAAACGATAAAGCGTGACTAC -ATCAGTATCATGCCCAAACCAGACGGGTTAACGGCAGCAAAGAACCTTGCAGAGGCGTTCGAGCATTATAACGAATGGCA -TCCGCATAGTGCGCTGGGTTATCGCTCGCCACGGGAATATCTGCGGCAGCGGGCTTGTAATGGGTTAAGTGATAACAGAT -GTCTGGAAATATAGGGGCAAATCCAATTACCTATCAGGCAGTTTGCGCCAATCACTACCGGACCCTGAATAACGGCACCA -TGACAAATACGGGTATTCGCGCCGATAACAACTTCACCTGCAGTTTCATCAATAATTACCTGGTCTGCAATCTGAATATT -TTTCTCTTTAACATTAAGCTTCAGATAGTTTTTCAGTTCCTGTGACAGAAGGTTGGGAATAAGCGGTTGACGCTTCCACC -AGTGCGGAATAGCGGGTGGGTTTGTCGCGCTGAGGTTCGCGTCCAGTAAAAAAGGCAATAAGTCCATAAATAATCCAGAT -GGCATAAGCTAATAATACATACACAACGGAAAGCGGCGCTAAAGGCACCAACAACCAGCAACGATGAAACCAGGCGCTAA -AAGCACCAATAACACAAACTACGCCGACCCAGATAAGCGGAAACATTGCCAACACCACTCCATGCGGCCCGGTGGTGATG -AATTCATTAAACCAGGTAGTGAGATAAATCCCAACGCCATAAAGCACAACCAACAGCATAGGAAATATACTGAAGATACC -GAAGCGGCTAAATAAAAGTCTTTTATGCAGGCGCATACAGACCGCGTATCCCACAATCCAACGCCGCCAGCGACGCCACT -CCTCACGCGGGCTGTTGCATTCCTGTGGGTATACGATGCAGCGATTCGCCTGCCGAATACGGTAGCCGTTTGCCACCAAT -GTCCAGGTGAGATCAAGGTCTTCGACTTTAGTACGATCCGAGAAACCGAACTTACGCAATACATCAGTACGGAACATCCC -GCAGGCACCGCTGATAATAAACGGTGCGCCACCCAGGAGCTGCTGTAGCGTGCGCTTCATAACAATCATCGGCAACTTTA -CGGTCGCGCGGATGTGCGGTAACAGACCCGCGCCTTTCAACGCAGTAGAGGGAATGCCGCCTACGGCATCGGCACCGCGC -TCAATTTCTGCCAGCATATAGCCCATTCCGTCTTGATCGGGCGGAACATAGGTGTCGGCATCACTTAAAAAAACCTGGTC -GCAGGTGGCGTAATTGAGGCCATTCATCAGCGCACCACCTTTACCGGTATTTTTTTGCGTGACGGCAACAAAGCGGTCGC -CCCATTTGCGTTTGACTTCCGCCATGACCGCTTCGGTATTGTCCGTGGAGCCGTCGTTAACGCAAATTACCCGGCAAAAA -TAAGGGTTACGCAGTAGATTATCCAGTGACTGCGCCAGACACGGGCCTTCGTTATACGCAGGTATAATGGCGTCAATACA -GCCTTTCTTTTGACTGGGTTTACGTCTTAGCGTACTTAAAAACCATAGCAACATTGCTATGGACATACAGATAAATATCC -AGGTTTTCATGCAATTTGCTCAAAGAATCATTTTATGAATTACAAAGCCTTCACCCAGATCGCTATTGACCTGTTGTCCG -CGAAATTGTGCAACTGCACGCAGGCGATCATGACGCATATAATCGCGTCGTTCCTAGCTTTTATGTTTTTTTAATGCAGC -AAGTTTGACTGTGAAATATTCTTCTTTAACGGATTCAAAAACCTGAGGCATAAATGAAAGCCAGGTACTTGGGGTTTCGT -AGCCGAGAATTTGCGGAATAGTTCGGCAGGCAACCATTGAAGCTTGATAAACAGCAAGATGATCCTGATGGCGGTCGGCA -TCATGCATGGTATATACCCGCATGATTTCAACATCAGAAGGAATTTGATTTTTAATGATGTCTTCCAGGGCGGAAATCAT -ATCATTGAGCTGTAAATGAGCGCGGGTGTCAGCAAAATTAAGATGAATAGTTTGGTGGCACCCTAATATCTTTAGGGCGT -TGCGCGATTCTTCATGGCGATCGATTATTCCATCTGTGCCAGAGTTGCCGGTAGTCATCACCACGGCTGCGATATAAATT -CCTTTTTGCGCAAGACGAGCAAGCGATGCGCCACAGCCTAATTCTATATCGTCAGGATGTGCGCCAATAGCAAGGATACC -CTTTCTTTTATTTGCCGAAGAAAGGAGGGCTGAATCTAAAACCTTATCCACTTAATGACACTCCATTTTATTTATTATAC -TACAAGCACAACGATGCACTCAGAGACGTAATCTCTGGCGCAGCCAGATGTTAATTTATAAATGTTAAATGTTGCTAATA -ACTGAAAAGCAAGGGCTTTCAGACCCGTGGGTTCGACTGGGTAATGTTTCTATGCAATTCATATGTTAAGTGTTTGTATG -TTTGGTATGTATAGTTATTTTGTTTTATACATTGTATTTAGATGTGATTTAGTTTGTCAATTAATTGCATTTAAAAAATA -TGTTCTGTGAACAAGCATTGTTTATATACATTATGTGAATGTAATATGCGAGTGATTGAGAATGATACAGTGATATATAC -AATGCGAATATAATAGTTTTATTATATGTATTGATATTGATAGAAATAATGAAGTAATAAATCTCGTAATGTGGTTGTTT -ATGCATCACTAAAATGAAGTGTAGTAATTTTCCCAATTGTTAGAACGGAGTAATTGCATATTTAATCTTTCCTTAGCCGT -TTTTTTGCTAAGAATAAAATCATCTGTGCGATAACGACTAATTCTTTTAATGAATGTTTTTATTCCTGAATACTGCTCCC -ATAACAAGACAGGGGAGCAGACAATCATGGCAATTTCATCGCGTAACACACTTCTTGCCGCACTGGCATTCATCGCTTTT -CAGGCACAGGCGGTGAACGTCACCGTGGCGTATCAAACCTCAGCCGAACCGGCGAAAGTGGCTCAGGCCGACAACACCTT -TGCTAAAGAAAGCGGAGCAACCGTGGACTGGCGTAAGTTTGACAGCGGAGCCAGCATCGTGCGGGCGCTGGCTTCAGGCG -ACGTGCAAATCGGCAACCTCGGTTCCAGCCCGTTAGCGGTTGCAGCCAGCCAACAGGTGCCGATTGAAGTCTTCTTGCTG -GCGTCAAAACTGGGTAACTCCGAAGCGCTGGTGGTAAAGAAAACTATCAGCAAACCGGAAGATCTGATTGGCAAACGCAT -CGCCGTACCGTTTATCTCCACCACCCACTACAGCCTGCTGGCGGCACTGAAACACTGGGGCATTAAACCCGGGCAAGTGG -AGATTGTGAACCTGCAGCCGCCCGCGATTATCGCTGCCTGGCAGCGGGGAGATATTGATGGTGCTTATGTCTGGGCACCG -GCGGTTAACGCCCTGGAAAAAGACGGCAAGGTGTTGACCGATTCTGAACAGGTCGGGCAGTGGGGCGCGCCAACGCTGGA -CGTCTGGGTGGTGCGCAAAGATTTTGCCGAGAAACATCCTGAGGTCGTGAAAGCGTTCGCTAAAAGCGCCATCGATGCTC -AGCAACCGTACATTGCTAACCCAGACGTGTGGCTGAAACAGCCGGAAAACATCAGCAAACTGGCGCGTTTAAGCGGCGTG -CCTGAAGGTGACGTTCCGGGGCTGGTGAAGGGGAATACCTATCTGACGCCGCAGCAACAAACGGCAGAACTGACCGGACC -GGTGAACAAAGCGATCATCGACACCGCGCAGTTTTTGAAAGAGCAGGGCAAGGTCCCGGCTGTAGCGAATGATTACAGCC -AGTACGTTACCTCGCGCTTCGTGCAATAAAAGGAGGCGCAGATGCTGCAAATCTCTCATCTTTACGCCGATTATGGCGGC -AAACCGGCACTGGAAGATATCAACCTGACGCTGGAAAGCGGCGAGCTACTGGTGGTGCTGGGGCCGTCCGGCTGCGGTAA -AACCACCCTGCTGAATCTGATTGCCGGTTTTGTGCCTTATCAGCATGGCAGCATTCAACTGGCGGGTAAGCGTATTGAGG -GACCGGGAGCAGAGCGTGGCGTAGTTTTTCAGAATGAAGGGCTACTACCGTGGCGCAATGTACAGGACAACGTGGCGTTC -GGCCTGCAATTGGCAGGTATAGAGAAAATGCAGCGACTGGAAATCGCGCACCAGATGCTGAAAAAAGTGGGGCTGGAAGG -CGCAGAAAAACGCTACATCTGGCAGCTTTCCGGTGGTCAACGTCAGCGGGTGGGGATTGCTCGTGCGCTGGCGGCGAATC -CCCAGCTGTTATTACTCGACGAACCGTTTGGTGCGCTGGACGCCTTCACCCGCGACCAGATGCAAACCCTGCTGCTGAAA -CTCTGGCAGGAGACGGGCAAGCAGGTGCTGTTGATTACCCACGATATAGAAGAAGCGGTGTTTATGGCGACTGAACTGGT -TCTGCTTTCATCCGGCCCTGGCCGTGTGCTGGAGCGGCTGCCGCTCAACTTTGCTCGCCGCTTTGTTGCGGGAGAGTCGA -GCCGCAGCATCAAGTCCGATCCACAATTCATCGCCATGCGCGAATATGTTTTAAGCCGCGTATTTGAGCAACGGGAGGCG -TTCTCATGAGTGTGCTCATTAATGAAAAACTGCATTCGCGGCGGCTGAAATGGCGCTGGCCGCTCTCGCGTCAGGTGACC -TTAAGCATTGGCACGTTAGCGGTTTTACTCACCGTATGGTGGACGGTGGCGACGCTGCAACTGATTAGCCCGCTATTTTT -GCCGCCGCCGCAACAGGTACTGGAAAAACTACTCACCATTGCCGGACCGCAAGGCTTTATGGACGCCACGCTGTGGCAGC -ATCTGGCAGCCAGTCTGACGCGCATTATGCTGGCGCTATTTGCAGCGGTGTTGTTCGGTATTCCGGTCGGGATCGCGATG -GGACTTAGCCCTACGGTACGCGGCATTCTGGATCCGATAATCGAGCTTTATCGTCCGGTGCCGCCGCTGGCTTATTTGCC -GCTGATGGTGATCTGGTTTGGTATTGGTGAAACCTCGAAGATCTTACTGATCTATTTAGCGATTTTTGCACCGGTGGCGA -TGTCGGCGCTGGCGGGGGTGAAAAGCGTGCAGCAGGTTCGCATTCGTGCCGCCCAGTCGCTGGGTGCCAGCCGTGCGCAG -GTGCTGTGGTTTGTCATTTTGCCCGGTGCGCTGCCGGAAATCCTCACCGGATTACGTATTGGTCTGGGGGTGGGCTGGTC -TACGCTGGTGGCGGCGGAGCTGATTGCCGCGACGCGCGGTTTAGGATTTATGGTTCAGTCAGCGGGTGAATTTCTCGCAA -CTGACGTGGTGCTGGCGGGGATCGCGGTGATTGCGATTATCGCCTTTCTTTTAGAACTGGGTCTGCGCGCGTTACAGCGC -CGCCTGACGCCCTGGCATGGAGAAGTACAATGAGTGAACGTCTGAGCATTACCCCGCTGGGGCCGTATATCGGCGCACAA -ATTTCGGGTGCCGACCTGACGCGCCCGTTAAGCGATAATCAGTTTGAACAGCTTTACCATGCGGTGCTGCGCCATCAGGT -GGTGTTTCTACGCGATCAAGCTATTACGCCGCAGCAGCAACGCGCGCTGGCCCAGCGTTTTGGCGAATTGCATATTCACC -CTGTTTACCCGCATGCCGAAGGGGTTGACGAGATCATCGTGCTGGATACCCATAACGATAATCCGCCAGATAACGACAAC -TGGCATACCGATGTGACATTTATTGAAACGCCACCCGCAGGGGCGATTCTGGCAGCTAAAGAGTTACCTTCGACCGGCGG -TGATACGCTCTGGACCAGCGGTATTGCGGCCTATGAGGCGCTCTCTGTTCCCTTCCGCCAGCTGCTGAGTGGGCTGCGTG -CGGAGCATGATTTCCGTAAATCGTTCCCGGAATACAAATACCGCAAAACCGAGGAGGAACATCAACGCTGGCGCGAGGCG -GTCGCGAAAAACCCGCCGTTGCTACATCCGGTGGTGCGAACGCATCCGGTGAGCGGTAAACAGGCGCTGTTTGTGAATGA -AGGCTTTACTACGCGAATTGTTGATGTGAGCGAGAAAGAGAGCGAAGCCTTGTTAAGTTTTTTGTTTGCCCATATCACCA -AACCGGAGTTTCAGGTGCGCTGGCGCTGGCAACCAAATGATATTGCGATTTGGGATAACCGCGTGACCCAGCACTATGCC -AATGCCGATTACCTGCCACAGCGACGGATAATGCATCGGGCGACGATCCTTGGGGATAAACCGTTTTATCGGGCGGGGTA -ATACGAGAGTGGACGGTCCCCTCGCCCCCTTGGGGAGAGGGTTAGGGTGAGGGGGCGTTCACCGTACTTTCAACAGGTTA -ACTCCCCCTTTCTGAGAGGAAACAAAATTAACGCAGAATCTTCTTCTCAGCCAAATCCAGCGCAAAGTAGCTGAAAATCA -GATCCGCACCCGCACGCTTAATCGAACCTAAGCTTTCGAGCACGACTTTCTCTTCATCTATAGCACCCGCCAGCGCGGCG -AACTTAATCATCGCATACTCACCGCTCACCTGATACGCGCCAATCGGCAATTCAGTACGTTCACGCAGCTCACGCACGAT -GTCGAGGTACGCTCCAGCAGGTTTAACCATCAGGCAGTCTGCGCCCTGGGCTTCATCCAGCAGTGATTCACGAATCGCCT -CACGACGGTTCATTGGGTTCATCTGATAGCTTTTGCGGTCGCCTTTTAATGCGCTTCCGGCAGCTTCACGGAACGGGCCA -TAAAAGGAGGAGGCGAACTTGGTCGAATACGACATAATCGCCGTATCTTTAAATCCCGCAGCGTCCAGCGCCTGACGAAT -CGCCTGTACCTGGCCGTCCATCGCGGCGGAAGGGGCGATGAAGTCTGCACCTGCAGCAGCTGCAACCACGGCTTGCTTGC -CTAAATTTTCCAGAGTCGCGTCGTTGTCGACGCCATGCTCGCACAGCACACCGCAGTGACCGTGAGAAGTGTATTCACAG -AAGCAGGTGTCTGACATAACGATCATTTCTGGCACGGTCTGCTTGCAGATGCGCGACATACGCGCCACCAGTCCATCTTC -CCGCCAGGCATCGCTGCCGGTTTCATCGGTATGGTGAGAGATGCCAAAAGTCATCACGGAACGAATACCGGCGTTGGCGA -TGCGTTCAATTTCGCGTGCCAGATGTTTCTCTGGAATGCGCATCACGCCTGGCATGGCTTCAACGGCTTTGTAGTCGTCA -ATTTCTTCTTCAACAAAGATCGGCAACACCAGGTCGTTAAGGCTAAGTGTTGTCTCTTCAAACATAGCGCGCAGCGCAGG -AGATTTGCGCAGGCGACGAGGGCGTTGGATTAAGTCTGTCATGGTCTGCCTGATGTTTGTGGAATCGAGGGGCATAGTAT -ACCTGAAGCAGGGTAGGGATGTTTTACGAAAGTTGTCGCGATGTTGACAAGAAGAGAATGGAAGAGAGGCCAGGACATCT -TTTTAATAGAAACAGCAATAATTTTATATTCACTGAAAATATTTTTAATCTTTATTTATAGCTGTTGGTTATTATTTTTT -GGAGTTTGGTTGCGCTGCTATAAATTGAATAATTAAAACTTTGTTGCATATTCATAGGATATTTATCTGGTTTGTGTTTG -TGATATTTATTATGCGTATGCTTCAAAAACAAAATTATCTGCAACATGTTGAAATACTGTGCTTTTATGAATTTGATGCG -TGTTTTTCTCCATAAATTATATATGTCCACATTCGGACTTAGGGGAAAGAATAATTGAACCATTCGTCTGTAACGCAGCA -TAATCGTTAGCGCGAAACATAATATGTTTTCTATGCATTGATAATTGATGGATCAACTTATTACGTCCCTGAGGAGGGAT -GACAAATGCACTCCTGGAAAAAGAAACTTGTAGTATCACAATTAGCATTGGCTTGCACTCTGGCTATCACCTCTCAGGCT -AATGCAGCAAACTATGATACCTGGACTTATATCGATAATCCCGTTACAGCACTTGATTGGGATCATATGGATAAGGCAGG -CACTGTAGATGGCAACTATGTAAACTATAGTGGTTTTGTCTATTACAACAACACCAATGGTGATTTCGATCAGTCCTTTA -ACGGCGATACCGTTAACGGCACGATCTCAACCTATTATTTGAACCATGATTATGCAGACAGTACTGCTAATCAGCTTGAT -ATCAGTAATTCAGTGATTCACGGTTCGATTACTTCTATGCTGCCTGGCGGTTATTATGATCGTTTTGATGCAGATGGTAA -TAATCTGGGTGGATATGATTTTTACACTGATGCGGTTGTTGATACACACTGGCGTGATGGTGATGTTTTCACTTTGAACA -TTGCTAACACTACTATTGATGATGATTATGAAGCTCTTTACTTCACTGATTCTTATAAAGATGGTGATGTAACCAAGCAC -ACAAATGAGACATTTGATACAAGTGAAGGCGTTGCTGTTAATCTTGATGTAGAAAGTAACATCAATATTTCCAATAACTC -CCGCGTTGCAGGTATTGCATTATCTCAAGGTAATACTTACAACGAAACCTACACTACCGAATCTCATACTTGGGATAACA -ATATCTCTGTAAAAGATTCCACAGTGACTTCGGGTTCAAATTATATCCTGGATAGCAATACTTATGGCAAAACTGGTCAC -TTTGGCAATTCTGATGAACCGAGTGATTATGCTGGCCCGGGTGATGTTGCAATGTCCTTTACTGCTTCAGGTTCCGACTA -TGCGATGAAGAACAATGTATTCCTCAGCAATTCAACGCTGATGGGTGATGTTGCCTTTACCAGCACCTGGAATAGTAATT -TTGATCCGAATGGTCATGATTCCAACGGTGACGGGGTGAAAGATACCAACGGGGGTTGGACTGATGATAGCCTCAACGTT -GATGAACTAAATCTCACTCTCGATAACGGAAGCAAGTGGGTTGGTCAGGCAATTTATAACGTTGCTGAAACGTCAGCAAT -GTATGATGTTGCTACAAACAGCCTTACTCCTGATGCAACATATGAAAACAATGACTGGAAACGTGTTGTTGATGACAAGG -TCTTCCAGAGCGGTGTATTTAACGTAGCGTTGAATAACGGTTCTGAATGGGATACTACAGGTCGTTCCATCGTTGATACC -TTGACAGTTAATAATGGTTCTCAGGTTAATGTTTCGGAATCTAAATTAACTTCAGATACTATCGATTTAACTAACGGTTC -TTCGCTGAACATTGGTGAAGATGGCTACGTTGATACCGATCATCTGACTATTAACTCCTACAGTACTGTTGCGTTGACCG -AATCTACTGGGTGGGGGGCTGATTGATCCTACCCACGTAATATGGACACAGGCCTAAGCGAGGTTCTTGTTTTCAAATTG -TTCCGGACTGAGGCCGCCACACCAACTGTGCCGCCGCCACCGATTGTAATCACATTCGATATAATTAAACACCGTTGCCC -GCATTATTTCCCGGCTGATAAAGTGTTCTCCATGGATACATTCCACTTTCAGCGAATGAAAGAAGCTTTCCACGCAGGCA -TTATCGTAGCAGCAACCTTTTGCGCTCATACTTCCACGCAGATTATGCCGCTTCAGTTGCGCCTGATAATCTGCTGAACA -GTACTGGCCTCCACGGTCCGTGTGAACGATAACGTTCCGGGGCCTCTTACGCCGCCACAGCGCCATCTGCAGGGCATCGC -AGGCCAGTTGCGCCGTCATGCGTGGCGACATTGACCAGCCAATAACGGCACGTGACCACAGGTCAATGACCACTGCCAGA -TACAGCCAGCCTTCATCTGTACGTAAGTACGTGATGTCTCCTGCCCACTTCTGGTTCGGGCCACTGGCGTAAAAATCCTG -CTCCAACAGATTTTCTGACACAGGCAGGCCGTGTGCGCGGTAGCTGACCGGGCTGAACTTCCGGGAGGCCTTTGCCCTCA -GTCCCTGACGGCGCAGGCTTGCCGCCACGGTTTTTACGTTAAAGGGGTAACCCTGAGCACGCAGTTCATCCGTCAGGCGT -GGGGCACCGTAACGCTGTTTTGACCGGGTAAAAGCCGCGAGGACAACGCTGTCGCAGTGTTGGCGGAACTGCTGACGCGT -GCTTATCCTTGTCCGCCGCTGACACCACGTATACCAGCCGCTGCGGGCCACCCGGAGCACGCGGCACATTGCTTTGATGC -TGAACTCAGCCTGATGTTTTTCAATAAAGACATACTTCATTTCAGGCGCTTCGCGAAGTATGTCGCGGCCTTTTGGAGGA -TAGCCAGCTCTTCATCCCGTTCTGCCAGCTGGCGTTTGAGACGTGCAATCTCGGTAGACATCTCCAGTTCACGTTCAGAA -GACGTCTGCTGATTTTGCTGTTTACTGCGCCAGTTGTAGAGTTGTGATTCATACAGGCTGAGTTCACGGGCTGCGGCAGT -AACACCGATGCGTTCAGCAAGCTTCAGGGCTTCACTGCGAAATTCAGGCGAATGCTGTTTACGGGGTTTTTTACTGGTTG -ATACTGTTTTTGTCATGTGAGTCACCTCTGACTGAGAGTTTACTCACTTAGCCGCGTGTCCACTATTGCTGGGTAAGATC -AGATTACAACCTGTACGCCAATACTATCACCGTAACTAACGGCGGTGTATTGGATGTGAACGTTGATCAGTTCGATACTG -AAGCTTTCCGTACTGACAAACTGGAACTGACCAGCGGCAACATCGCTGACCATAACGGTAACGTAGTATCTGGTGTGTTC -GATATCCATAGCAGCGATTACGTTCTGAACGCTGATCTGGTGAACGACCGTACCTGGGATACTTCCAAGTCTAACTACGG -TTACGGTATTGTTGCTATGAACTCTGATGGTCACCTGACTATCAACGGTAACGGCGACGTAGACAACGGTACTGAACTGG -ATAACAGCTCTGTAGACAATGTTGTTGCTGCAACCGGTAACTACAAAGTTCGTATCGACAACGCAACTGGCGCTGGCGCT -ATCGCTGATTACAAAGATAAAGAAATTATCTACGTAAACGACGTCAACAGCAACGCGACCTTCTCTGCTGCTAACAAAGC -TGACCTGGGTGCATACACCTATCAGGCTGAACAGCGCGGTAACACCGTTGTTCTGCAACAGATGGAGCTGACCGACTACG -CTAACATGGCGCTGAGCATCCCGTCTGCGAACACCAATATCTGGAACCTGGAACAAGACACCGTTGGTACTCGTCTGACC -AACTCTCGTCATGGCCTGGCTGATAACGGCGGCGCATGGGTAAGCTACTTCGGTGGTAACTTCAACGGCGACAACGGCAC -CATCAACTATGATCAGGATGTTAACGGCATCATGGTCGGTGTTGATACCAAAATTGACGGTAACAACGCTAAGTGGATCG -TCGGTGCGGCTGCAGGCTTCGCTAAAGGTGACATGAATGACCGTTCTGGTCAGGTGGATCAAGACAGCCAGACTGCCTAC -ATCTACTCTTCTGCTCACTTCGCGAACAACGTCTTTGTTGATGGTAGCTTGAGCTACTCTCACTTCAACAACGACCTGTC -TGCAACCATGAGCAACGGTACTTACGTTGACGGTAGCACCAACTCCGACGCTTGGGGCTTCGGTTTGAAAGCCGGTTACG -ACTTCAAACTGGGTGATGCTGGTTACGTGACTCCTTACGGCAGCGTTTCTGGTCTGTTCCAGTCTGGTGATGACTACCAG -CTGAGCAACGACATGAAAGTTGACGGTCAGTCTTACGACAGCATGCGTTATGAACTGGGTGTAGATGCAGGTTATACCTT -CACCTACAGCGAAGATCAGGCTCTGACTCCGTACTTCAAACTGGCTTACGTCTACGACGACTCTAACAACGATAACGATG -TGAACGGCGATTCCATCGATAACGGTACTGAAGGGTCTGCGGTACGTGTTGGTCTGGGTACTCAGTTTAGCTTCACCAAG -AACTTCAGCGCCTATACCGATGCTAACTACCTCGGTGGTGGTGACGTAGATCAAGACTGGTCCGCGAACGTGGGTGTTAA -ATATACCTGGTAATATTCTTCACTCCGAAGAAATACTGGTAATTTAATCTAAATAATGCCCGTCAAGGATTTGACGGGCA -TTACTGCAAAGGACGCGCAAATGTTATCTGTAGTTAAACCTCTTCAGGAATTTGGTAAGCTCGATAAATGTTTGTCCAGA -TACGGTACGCGCTTCGAGTTTAATAATGAAAAGCAAGTTATATTTTCCAGTGATGTCAATAACGAAGATACTTTCGTTAT -TTTAGAGGGAGTTATCTCTCTGCGTAGAGAAGAAAACGTACTTATCGGTATTACCCAGGCTCCTTATATTATGGGGCTGG -CTGATGGTTTAATGAAAAACGATATACCATACAAATTAATATCAGAAGGAAATTGTACGGGATATCATCTACCAGCCAAA -CAAACCATTACGCTTATTGAACAAAATCAACTCTGGCGAGACGCTTTTTACTGGTTAGCCTGGCAAAATAGAATTCTGGA -ATTACGCGACGTGCAGCTCATTGGGCATAATTCCTACGAACAAATCCGCGCAACATTATTATCAATGATTGACTGGAATG -AAGAATTGCGATCACGTATTGGTGTGATGAATTATATCCATCAACGTACACGCATATCGCGTTCTGTCGTCGCAGAAGTT -CTCGCTGCTTTGCGTAAAGGCGGCTATATCGAAATGAATAAAGGCAAACTGGTCGCTATCAACCGTTTGCCTTCAGAGTA -TTAATCAGGACGCGGGGATAACCAACGGTTTATTCCCGCTTAGCTCGGTCACCAGGTCATTGATGCCATCGCTCATATTT -TTAAAGCGCGTCAACGGCGAACGAGTGACCACCACAAACGCGCCAATATTCTTCTGCGGGATCATCGCCATATAGGTAAT -GAAACCGCCACCACCGCCTGTCTTCTGAATAATCCCCGGACGACCCTCTTTCGGGGCCATATATACCCAACCTAAACCAA -GCGCATCCGCTTTGCCGGGGACATCCATGCCAATCACTTTCGTAAACTGCGCGCGCTGATAAATCAACGTCTGCATGCGA -TCTGCCTGGTTACTGCGCTGATAAAAATCAGATGACAAATACTGCTGCATCCAGCGCATCATATCGCCAGGCGTGGAATA -GACGCCGCCGCTGCCAATTGCCGCCAGCGTGTTATTGCACGGACTGGCACCGCGCTCAGCAACCATTAAACGGCGGCACT -GATCCGGTGAGGGGGTGTAGGTGGTGTCTTTCATCCCCAATGGACGGGTAATCTGCTCTTCAAACAACTGGGTATAAGGC -TTGCCGGACGCATTCGCCAGTGCATCTGCCAGCAGGTCGAACGCAAGGTTAGAGTACGCCGCCTGACTGCCTGGCGCGGC -TTTCAGCTTCGCCGTAGAAAGGTATTTCCAGCGTTGCTCGCGCGTTGGCCAGACAAACACCGGACGATGTGCCGCGCCAC -CGGGCTGTTCACGGGGCAGGGCGCTGGTATGGGTTGCCAGATTGACCAGCGTAATGGGCGTCCCATTGTAGGTTGGCACG -CGTGCGCCTGGCGGAGCATATTTACTTAGCGGATCGTTTAACTTCACGGTCCCCTGGTCGAGCAATTTCACCAGCATCTC -ACTGGTCATTAGCTTGGTGAGGGAAGCAATACGCACGACCGAATCCAGCTGCGGGCGAACGTTATTACCAGGTCGCGTTT -CGCCATAACTGCGAAAGACGCGCTGGTTACCGTCGATAACAACCAGAGCCATCCCCGTGGCACCGCTGCCGTAAAAAATA -TGATCGGCATAACGATCGACAATATCAGAGGCAAACTCCGGTTCAGTGATCGGCTGCGCCGCATGGACGGAGGTCAATGA -CGCCGCACACAGCACGGCAGAAAAAAGCAGACTACGTTTCAACGGTGGTGTCCATAGATTGAATGAAGGTAACTGAGCGT -ATTTATACTACTCATTGATAGATTGCAAAGGGCGAATTAGTGCAATAATAGTGTTAAAAACGTAACGGCGCGTAAACACG -ATCTTTTTCCTGCTCACCAATGCCTGCATTTGTGATCCTGCGCGTGTTAATCCGCTTATGTAAACAATCTTTGGTTTGTG -AAATCCGTCGAAACAATTCTTATGGTCAGGCTGGCGAACTAAGCGCCTTGCTATGGGTCACAATGGGCGGTTTCATTTGG -CTGACGCTTTGTAGCGGTCATGCGGTTAATACACAGCAGTTGTTAAAACGATAAGAAGTTAGCAGGAGTGCATATGTTTA -AGTCTTTTTTCCCAAAGCCGGGAACGTTTTTTCTCTCGGCCTTCGTTTGGGCATTGATTGCCGTTATCTTCTGGCAAGCC -GGTGGGGGTGACTGGGTGGCGCGTATCACCGGCGCTTCCGGGCAGATCCCGATTAGCGCCGCGCGTTTCTGGTCGTTGGA -TTTCCTGATTTTTTACGCTTACTACATTGTTTGCGTAGGACTTTTTGCATTGTTCTGGTTTATCTACAGCCCGCATCGTT -GGCAATACTGGTCAATACTCGGTACTGCACTGATCATCTTCGTCACCTGGTTTTTGGTGGAAGTCGGGGTCGCCGTCAAC -GCCTGGTATGCGCCGTTCTATGATCTGATTCAAACCGCGCTAAGTTCGCCGCATAAAGTCACCATCGAACAATTTTACCG -CGAAGTGGGCGTCTTTCTGGGGATTGCGCTGATCGCTGTGGTGATCAGTGTGCTGAACAACTTCTTTGTCAGTCACTACG -TGTTCCGCTGGCGTACAGCGATGAACGAATATTACATGGCGAACTGGCAACAACTGCGTCATATCGAAGGGGCCGCACAG -CGTGTGCAGGAAGACACCATGCGTTTTGCTTCAACGCTGGAGAATATGGGCGTCAGTTTTATCAACGCCATCATGACGTT -GATCGCCTTCCTGCCGGTGCTGGTAACGCTCTCCGCGCATGTGCCGGAGCTGCCGATTATCGGGCACATTCCGTATGGTC -TGGTGATTGCCGCAATCGTCTGGTCGCTGATGGGGACCGGATTGCTGGCAGTGGTAGGGATCAAACTGCCGGGGCTGGAG -TTTAAAAACCAGCGTGTAGAGGCTGCCTACCGTAAAGAGCTGGTTTATGGTGAAGACGATGCCACGCGCGCGACGCCGCC -TACGGTACGCGAGCTGTTTAGCGCCGTACGGAAAAACTATTTCCGCCTCTATTTTCACTATATGTATTTCAACATCGCCC -GCATTCTCTATTTGCAGGTCGATAACGTTTTCGGTTTGTTCTTGCTGTTTCCGTCAATTGTTGCCGGTACGATTACGCTC -GGCCTGATGACGCAGATTACCAACGTTTTTGGTCAGGTTCGCGGTGCTTTCCAGTACCTGATTAACTCATGGACCACACT -GGTTGAGTTGATGTCTATCTACAAACGTCTGCGCAGCTTTGAACATGAGCTGGATGGTGACAAAATTCAGGAAGTAACCC -ATACCTTGAGCTAAAAAGGAGAAGTAATGTCGCGCGTCAATCCTCTATCTTCGCTGTCATTGTTGGCGGTTCTGGTTTTA -GCGGGGTGTAGTAGTCAGGCTCCGCAACCGTTGAAAAAGGGCGAAAAAGCGATAGATGTAGCGAGCGTCGTGCGGCAGAA -GATGCCTGCGAGCGTGAAAGACCGCGATGCCTGGGCGAAAGATCTCGCCACCACCTTTGAAAGTCAGGGGCTGGCACCGA -CGCTGGAAAACGTCTGCTCGGTGCTGGCGGTGGCGCAGCAGGAGTCAAATTATCAGGCAGATCCGGCCGTTCCGGGCTTA -AGCAAGATCGCCTGGCAAGAGATTGACCGTCGTGCTGAACGGATGCACATTCCTGCTTTTCTGGTTCATACCGCGCTAAA -AATCAAATCGCCAAACGGCAAAAGTTATAGCGAACGGTTAGATTCGGTGCGTACAGAAAAGCAATTGAGCGCGATTTTTG -ACGATCTGATCAACATGGTGCCAATGGGGCAGACGCTGTTTGGTTCGCTCAATCCGGTGCGCACCGGTGGGCCGATGCAG -GTCAGCATTGCTTTTGCCGAACAGCATACCAAAGGGTATCCGTGGAAAATGGACGGTACAGTCCGTCAGGAAGTCTTCAG -TCGCCGCGGCGGGTTGTGGTTTGGTACTTACCATTTACTGAATTATCCCGCCAGTTATAGCGCACCGATATACCGTTTTG -CTGATTTTAACGCTGGCTGGTACGCCAGCCGTAATGCCGCGTTTCAGAACGCGGTCAGTAAGGCCAGCGGCGTGAAGCTG -GCACTGGACGGTGATTTAATTCGTTACGACAGTAAAGAACCCGGGAAAACCGAACTGGCAACGCGCAAACTGGCTGCAAA -ACTGGGGATGAGCGACAGCGAAATTCGCCGTCAGTTAGAGAAAGGTGACAGCTTCTCTTTTGAGGAGACGGCGCTGTACA -AGAAAGTTTATCAACTTGCCGAAACGAAAACGGGTAAATCACTCCCCCGCGAAATGTTGCCTGGCATTCAACTGGAAAGC -CCGAAAATCACCCGCAACCTGACTACGGCCTGGTTTGCGAAGCGCGTAGACGAACGGCGGGCGCGTTGTATGAAACAGTG -ATCAAACAGGAATGTCAGGCCAGATAAGGCGTTTCAGGCCGCATCTGACAATGTAAAACTTACTGGCGGCGATGTCGCCA -GTGCAGCCATAGCGCCACCACTGCAAAAATGAGGCAGCCTACTAAAAACGGGATCAGCCCGAAAATGGTGCCGACACCTA -AACCAATTTCCACCCGTGGGCGACCTGTTTCCTGGACCTGCATTAAACGCTCATAGACGCCGGGCGCATGCACTAACAGG -TTCAGCAATTGCGCCCCAGCCCAAAAGCAAAACAGCACAAACAACGCATAGGCAATGTTGCCAGGCGTTGAAGAGGCATT -GCGATATTTTCCGCTAAACAGCGATTTTGACAGGGTGAAATCAGCCATAAAAACCTCCGGAAGTCATCTGCTTCTCTTCT -GGTGTGATACCAGCGGCTTATGGCAAGTCTGACAGGTCATTTAGATTGTCAATATCAGAATCATGGTAAATTGATGTTGG -GAATATTCCCGAAGCGTGAATCTTCGTTGTGAGTCACAAAATGGCAACCTTAAGTTAAATTTATTAACAATTACGAAAAT -GTTGTCTACACCACAGACGGTTGTTGCAGAATATGCAAGGATGTTGTTTTTCGTTAACGGAGCTGCCATGAATCTGCCTG -TAAAAATCCGCCGTGACTGGCACTACTATGCGTTCGCCATTGGCCTTATATTCATTCTTAATGGCGTGGTGGGGTTACTG -GGATTTGAAGCAAAAGGTTGGCAGACCTATGCCGTCGGTCTGGTGACGTGGGTGATTAGTTTCTGGCTGGCGGGGTTGAT -TATTCGTCGTCGCGATGAAGAAACTGAAAACGCCCAATAAGAATATTATCGGGCGTTAAAATATTACATTGTGGTTTTCA -ATGCGTTATCCGCAGCGTGACGCTCCAGCGCCAGTTCAATCAAACGTGTGATCAGATCGGTGTAACCCAGACCGCTGGCT -TGCCACAGCTTCGGATACATACTGATATTAGTGAAGCCAGGCAGGGTGTTGATCTCGTTGATCACCACTTCGTTCTCTGG -GGTTAAAAACACGTCTACACGCGCCATGCCTGCGCATCCCAACGTTTGATAAGCCTGAACGGCAATCGCCCGGATCTTAT -CGTTGATTTCTGGCGCAATGGCTGCCGGAACTACCACTTTCGCGCCATCTTCGTCAATGTACTTGGTGTCGTAGGCATAG -AAATCGCTGGTGAGTACGATCTCTCCACAGGTGCTGGCTTGCGGATTGTCGTTGCCCAGAACTGCGCATTCGATCTCACG -ACCTTTGATCCCTTGCTCAACGATCACTTTATGATCGAACTCGAACGCCAGATCGACGGCAATTGCGTACTGTTCTTCAC -TGGTTACTTTGCTGACACCAACAGAAGAGCCCTGATTAGCCGGTTTTACAAACAGTGGTAACCCCAGTTTAGACTCCACT -TCGGCAAAACTAATGTTGTGACGATTGGCGCGCGTCAGGGTAATAAATGGCGCAATGTTCAGCCCGGCATCGCGTAGCAG -ACGTTTGGTGACATCTTTGTCCATACAGGCTGCTGAAGCCAGAACATCAGAACCTACAAACGGTAAATTGGCGACCCGCA -GCATTCCCTGCAAGGAACCATCTTCGCCCAGCGTACCGTGGACAATCGGGAAAATGACATCCACCGTCGGCAACGGCTGA -CCGTTTTGCGCGTCGATAAGCTGATGCTCATGTTTACCTGGCACCTGCGCAAGGCTGGTCGCCGAAGGGCGCAACGCAAT -ATGGGCAGGATCGTCTGCATTTAGCAGATAATTGCTGGCATCGCTGACGTGCCATTGCCCTTGTTTATCAATGCCCAGCA -GCACAACGTCGAAGCGACTTTTATCAATGGCATCGACAATGTTTTTTGCCGATTGCAGAGACACTTCATGTTCCGCTGAT -TTACCACCAAAAACGATTCCTACCCGCAGTTTTTCCATCTTAAAAACCTATCCCGTCTAACACAAAGTGCATACATTACC -ACGACAAAACGGGGGATTCGCGGCCTTCTGAAAGATTGTTGCAATCTTCTGCTGACAAAGCGTGCAACGTACTGGTGAAG -AAAGTGCGTTATCTCAAAGATGTGCGCAAGATCACAAAAATGATGAACGGGAAGCTAATTTATTCCTGGCTTAAATGGCC -ATGCGGTGAGTTTTTTTCTCTTAATTATAAGTTAACGAAGAGAATATATTTCATAACTTTTATTTATAATAAAGGTTGAT -AATTAAAAGCCTATATTTTGTGTGGGTAATTATTTAAATAAGAGAAACGTTTCGCTGGTAATCAAACAAAAAATATTTGC -GCAAAGTATTTCCTTTGTCATAAAAATAATACTTCCAGACACTATGAAGTTGTGAAACATAATGTTAACTTCTCCATACT -TTGGATAAGGAAATACAGACATGAAAAATCTCATTGCTGAGTTGTTATTTAAGCTTGCCCAAAAAGAAGAAGAGTCGAAA -GAACTGTGTGCGCAGGTAGAAGCTTTGGAGATTATCGTCACTGCAATGCTTCGCAATATGGCGCAAAATGACCAACAGCG -GTTGATTGATCAGGTAGAGGGGGCGCTGTACGAGGTAAAGCCCGATGCCAGCATTCCTGACGACGATACGGAGCTGCTGC -GCGATTACGTAAAGAAGTTATTGAAGCATCCTCGTCAGTAAAAAGTTAATCTTTTCAACAGCTGTCATAAAGTTGTCACG -GCCGAGACTTATAGTCGCTTTGTTTTTATTTTTTAATGTATTTGTACATGGAGAAAATAAAGTGAAACAAAGCACTATTG -CACTGGCACTCTTACCGTTACTGTTTACCCCTGTGACAAAAGCCCGGACACCAGAAATGCCTGTTCTGGAAAACCGGGCT -GCTCAGGGCGATATTACTGCACCCGGCGGTGCTCGCCGTTTAACGGGTGATCAGACTGCCGCTCTGCGTGATTCTCTTAG -CGATAAACCTGCAAAAAATATTATTTTGCTGATTGGCGATGGGATGGGGGACTCGGAAATTACTGCCGCACGTAATTATG -CCGAAGGTGCGGGCGGCTTTTTTAAAGGTATAGATGCCTTACCGCTTACCGGGCAATACACTCACTATGCGCTGAATAAA -AAAACCGGCAAACCGGACTACGTCACCGACTCGGCTGCATCAGCAACCGCCTGGTCAACCGGTGTCAAAACCTATAACGG -CGCGCTGGGCGTCGATATTCACGAAAAAGATCACCCAACGATTCTGGAAATGGCAAAAGCCGCAGGTCTGGCGACCGGTA -ACGTTTCTACCGCAGAGTTGCAGGATGCCACGCCCGCTGCGCTGGTGGCACATGTGACCTCGCGCAAATGCTACGGTCCG -AGCGCGACCAGTGAAAAATGTCCGGGTAACGCTCTGGAAAAAGGCGGAAAAGGATCGATTACCGAACAGCTGCTTAACGC -TCGTGCCGACGTTACGCTTGGCGGCGGCGCAAAAACCTTTGCTGAAACGGCAACCGCTGGTGAATGGCAGGGAAAAACGC -TGCGTGAACAGGCACAGGCGCGTGGTTATCAGTTGGTGAGCGATGCTGCCTCACTGAATTCGGTGACGGAAGCGAATCAG -CAAAAACCCCTGCTTGGCCTGTTTGCTGACGGCAATATGCCAGTGCGCTGGCTAGGACCGAAAGCAACGTACCATGGCAA -TATCGATAAGCCCGCAGTCACCTGTACGCCAAATCCGCAACGTAATGACAGTGTACCAACCCTGGCGCAGATGACCGACA -AAGCCATTGAATTGTTGAGTAAAAATGAGAAAGGCTTTTTCCTGCAAGTTGAAGGTGCGTCAATCGATAAACAGGATCAT -GCTGCGAATCCTTGTGGGCAAATTGGCGAGACGGTCGATCTCGATGAAGCCGTACAACGGGCGCTGGAATTCGCTAAAAA -GGAGGGTAACACGCTGGTCATAGTCACCGCTGATCACGCCCACGCCAGCCAGATTGTTGCGCCGGATACCAAAGCTCCGG -GCCTCACCCAGGCGCTAAATACCAAAGATGGCGCAGTGATGGTGATGAGTTACGGGAACTCCGAAGAGGATTCACAAGAA -CATACCGGCAGTCAGTTGCGTATTGCGGCGTATGGCCCGCATGCCGCCAATGTTGTTGGACTGACCGACCAGACCGATCT -CTTCTACACCATGAAAGCCGCTCTGGGGCTGAAATAAAACCGCGCCCGGCAGTGAATTTTCGCTGCCGGGTGGTTTTTTT -GCTGTTAGCAACCAGACTTAATGGCAGATCACGGGCGCATACGCTCATGGTTAAAACATGAAGAGGGATGGTGCTATGAA -AATAACATTACTGGTTACCTTGCTTTTCGGTCTGGTTTTTTTAACCACCGTCGGCGCTGCCGAGAGAACTTTAACCCCAC -AACAACAGCGTATGACCTCCTGTAATCAGCAGGCGACGGCGCAGGCGTTGAAAGGGGATGCTCGTAAGACCTACATGAGT -GATTGCCTGAAGAACAGCAAGTCTGCGCCTGGCGAAAAAAGTTTGACGCCACAGCAGCAAAAGATGCGCGAATGCAATAA -TCAAGCAACACAACAATCTCTGAAAGGTGATGATCGTAATAAGTTTATGAGTGCCTGCCTCAAGAAAGCCGCCTGATACC -TGATAGTGCTAACGGGTGAGCTACGAAAATGGCTCACCCGAAATATCATACTTCTGCCTTTAGCTCCGTCTCTATAATTT -GGGAAAATTGTTTCTGAATGTTCCCAAAAATAATGAATGATGAAAACTTTTTCAAAAAAGCGGCGGCGCACGGGGAGGAA -CCTCCTTTAACTCCTCAAAACGAACATCAGCGGTCCGGGCTGCGCTTCGCCCGTCGCGTCAGACTACCCCGTGCGGTTGG -CCTGGCTGGCATGTTCTTACCGATTGCTTCAACGCTGGTTTCACACCCGCCGCCGGGCTGGTGGTGGCTGGTGTTGGTCG -GCTGGGCGTTCGTCTGGCCGCATTTAGCCTGGCAGATAGCGAGCAGGGCCGTCGATCCGCTTAGCCGGGAAATTTACAAC -TTAAAAACCGATGCAGTATTAGCGGGAATGTGGGTAGGCGTAATGGGCGTAAACGTGCTGCCTTCCACCGCGATGTTGAT -GATTATGTGTCTGAATTTGATGGGGGCAGGCGGCCCCCGTCTGTTTGTCGCGGGTCTGGTGTTGATGGTGGTTTCCTGCC -TTGTCACCCTCGAGCTGACGGGCATTACCGTGTCGTTCAATAGTGCGCCGCTGGAATGGTGGCTCTCCCTTCCCATTATT -GTCATTTATCCTCTGCTGTTTGGCTGGGTCAGCTACCAGACGGCAACCAAACTGGCGGAACATAAACGCAGGTTGCAGGT -CATGAGTACCCGCGACGGCATGACGGGCGTGTATAACCGACGTCATTGGGAAACTATGTTACGCAATGAATTTGATAACT -GTCGGCGGCATAATCGCGATGCAACGTTACTGATTATCGATATCGACCATTTCAAGAGCATCAACGATACCTGGGGCCAT -GATGTGGGCGATGAAGCGATTGTGGCGCTTACCCGACAGTTACAAATTACCCTGCGCGGTAGCGATGTGATTGGTCGGTT -TGGCGGCGATGAGTTTGCAGTAATCATGTCCGGTACGCCAGCTGAGAGCGCCATTACCGCCATGTTACGGGTGCATGAAG -GGCTAAATACATTACGTTTGCCGAATACGCCACAGGTAACTTTACGGATTAGTGTGGGGGTTGCGCCGCTGAACCCACAA -ATGAGTCACTATCGTGAGTGGTTGAAATCGGCAGATTTGGCGCTTTACAAAGCAAAGAAAGCCGGACGTAACCGCACCGA -AGTGGCGGCCTGACGTCCGGCGAAAGTCATCAGGATTTGCTGAGTTTTTCTGATTTTTCCATACACTTCGTCATCGCTTC -GATCACTGCAGCACGGAAGCCTTTCTCTTCCAGTACGCGTACCGCTTCAATGGTGGTGCCTCCCGGTGAGCAGACCATAT -CTTTCAGTGCCCCCGGATGTTCTCCCGTTTCCAGCACCATTTTTGCGGAACCCATTACCGCCTGAGCGGCAAATTTATAC -GCCTGGGCGCGTGGCATCCCGCCCAGCACGGCGGCGTCGGCCATCGCTTCGATAAACATAAATACGTAGGCTGGCGAAGA -ACCGCTCACACCGACCACCGGGTGGATCATCGGCTCAGCAATTACTTCCGCTTCGCCAAAGCAGCGGAAAATATTCAGCA -CATCAGCGGTATCTTCTGGGGTTACCAGCGCGTTTGGCGTTACGGAGGTCATCCCGGCATTAACCAGTGCGGGAGTGTTC -GGCATGGCGCGGATAATTTTCCGGTCATGGCCCAGCGCGCGGGCAAGCTGGTCGAGCGTGACACCTGCAGCAATAGAAAC -GACCAGAGAGTCTTTATTCAGGCTGGAGGTGATTTCGCTAAGCACTTTAATCATGATGCCAGGTTTAACGGCAGCAAAAA -TGATGTCGGCGATTTGCGCCACTTCTTGCGCCGATTCTGCGGCGTTGATGCCGAACTGGTCATGCAGGGCGGCGACTTTA -TCCGGGGAGGGGGTGTATACCCAGATTTGCCCTGGAAGCACCTGACCGCTGGCAATCAGACCGCCGAGAATGGCTTTTCC -CATATTGCCGCAGCCAATAAAACCGATTTTCTTTTCCATTGCCTCACTCCTGCCGTGAAATTCATTGTTTTGATAATCGC -TGGCAGAAGCATAAACAGAACTATGCCGGAAGGCAAAAGCGCGACACAATAGAGGATTACCCAACAAAGGATGACTTTAT -GACAATTTGGGTGGATGCCGACGCGTGTCCCAATGTAATTAAAGAGATTTTGTATCGCGCGGCGGAACGTATGCAGATGC -CGCTGGTACTGGTAGCAAACCAGAGTTTACGCGTGCCGCCATCGCGATTTATTCGTACGCTGCGCGTCGCGGCAGGTTTC -GACGTTGCCGATAACGAAATTGTCCGGCAGTGTGAAGCGGGCGATTTGGTGATCACCGCAGATATACCTTTGGCTGCTGA -AGCCATCGAGAAAGGCGCTGCGGCGCTTAATCCGCGCGGCGAACGTTACACGCCAGCGACCATTCGTGAGCGCCTGACGA -TGCGCGATTTTATGGATACCTTACGTGCCAGTGGGATCCAGACCGGCGGACCAGATAGCCTTTCACAACGTGACCGCCAG -GCCTTTGCCGCGGAGCTGGAGAAGTGGTGGCTGGAAGTGCAACGTAGTCGTGGCTAAATGTAATTTATTATTTACACTTC -ATTCTTGAATATTTATTGGTATAGTAAGGGGTGTATTGAGATTTTCACTTTAAGTGGAATTTTTTCTTTACAATCGAAAT -TGTACTAGTTTGATGGTATGATCGCTATTCTCATGACACCGGCTTTCGCCGCATTGCGACCTATTGGGGAAAACCCACGA -TGACACAACCTCTTTTTCTGATCGGGCCTCGGGGCTGTGGTAAAACAACGGTCGGAATGGCCCTTGCCGATTCGCTTAAC -CGTCGGTTTGTCGATACCGATCAGTGGTTGCAATCACAGCTCAATATGACGGTCGCGGAGATCGTCGAAAGGGAAGAGTG -GGCGGGATTTCGCGCCAGAGAAACGGCGGCGCTGGAAGCGGTAACTGCGCCATCCACCGTTATCGCTACAGGCGGCGGCA -TTATTCTGACGGAATTTAATCGTCACTTCATGCAAAATAACGGGATCGTGGTTTATTTGTGTGCGCCAGTATCAGTCCTG -GTTAACCGACTGCAAGCTGCACCGGAAGAAGATTTACGGCCAACCTTAACGGGAAAACCGCTGAGCGAAGAAGTTCAGGA -AGTGCTGGAAGAACGCGATGCGCTATATCGCGAAGTTGCGCATATTATCATCGACGCAACAAACGAACCCAGCCAGGTGA -TTTCTGAAATTCGCAGCGCCCTGGCACAGACGATCAATTGTTGATTTTCGAGCGCCTATACTTAACGTTCATCCCGTGAA -ATAAGGAAGAACGATGCCAACGAAACCGCCTTATCCTCGTGAAGCATATATAGTGACGATTGAAAAAGGAAAGCCAGGAC -AGACGGTAACCTGGTACCAACTCAGAGCCGATCATCCTAAACCAGACTCGTTGATCAGTGAACATCCGACCGCTCAGGAA -GCGATGGATGCGAAAAAACGCTATGAGGACCCTGACAAAGAGTGACCGCATCAGACTGCTCGGAAGGGATTCTGAGTGCC -ACTACAAGGGATCTGCGTCACATTTTTCATAATTCATGTTTTTCTAATAATTAGAATATTAAACAATAACAATCCATTAC -TGGAATCATTTGGAATCTTTACATTATGCCGTGCACGTCTGCTGCTACGCTTTTTGTCATTTGTAGCACAAGTAAGTGTC -AGCAGTGGTGCTTCACACTTGCCCGGTAATTAACGACGAAAGAAAAGTAAGGTGGATGAACAATGAGTGCGTCGTTGGCG -ATCCTGACCATCGGCATTGTACCTATGCAGGAAGTTTTGCCGCTCCTGACGGAATACATTGACGAAGATAATATTTCCCA -TCATAGCCTGCTGGGGAAGTTAAGTCGTGAAGAAGTGATGGCGGAGTACGCGCCAGAAGCAGGCGAAGACACCATTCTCA -CATTATTAAATGACAACCAGCTGGCCCATGTTTCGCGTCGCAAAGTGGAGCGTGACCTGCAAGGTGTGGTTGAAGTGCTC -GATAATCAGGGTTATGACGTCATTTTATTAATGAGTACAGCAAACATTAGTAGTATGACTGCGCGTAATACGATCTTTCT -TGAGCCGTCGCGAATATTGCCTCCACTGGTTTCCTCTATTGTTGAAGATCATCAGGTGGGGGTTATCGTTCCGGTTGAGG -AGATGCTGCCCGTTCAGGCGCAAAAATGGCAAATTTTGCAGAAATCGCCGGTATTTTCATTGGGTAACCCCATTCATGAT -TCAGAACAAAAAATCATTGATGCCGGGAAAGAATTACTGGCAAAAGGGGCTGATGTCATCATGCTGGATTGTTTAGGATT -TCACCAACGTCATCGCGATTTACTGCAAAAACAGCTCGATGTTCCTGTCTTGCTGTCTAACGTATTGATTGCACGGCTGG -CTGCGGAATTACTGGTGTAATTTTGCGTGACAGCCAGCGCCTCTGGCCCCTATAGTGAAGTAGATGTTCAACTACCAAAC -AGGGCCAGTTTATGCTTCAAAGTAATGAGTACTTTTCCGGCAAAGTGAAATCAATCGGCTTTTCCAGCAGCAGCACTGGT -CGCGCCAGCGTGGGTGTTATGGTTGAAGGCGAATACACCTTCAGCACCGCTGAGCCGGAAGAGATGACGGTAATCAGTGG -CGCGCTGAATGTGTTACTGCCTGACGCGACCGACTGGCAGGTGTATGAAGCCGGTTCGGTGTTTAATGTTCCCGGTCACA -GTGAGTTTCATCTGCAAGTTGCCGAACCCACCTCTTATCTGTGCCGCTATCTGTAATTCCTCGCCTTCCCCTTGAACGGG -AGGGCATTTTTCTGAAATATCCTTTCTTTAGCCCATAATAATATTTCCTTTGCTGCGATTTTTTCAATTTCCGATATATT -CATAATTTATCAAGGTTGATATAAATATCAGTGAAGATCTCCAGATATTGTTGCGGAACTGGCTACGATAAAAGATAAAT -CAGATGATGAATGGTGGCGTGCATTGCTGCAAAGTCGCAATGATCATTTACGCCAAACGGCATTGCGCAACGCACATACC -CCGGCGTTGTTGTTAACGACATTGACTGAGCCTCAGGATCGGTCGCTGGCTATTAATAATCCACAGCTGGCTGCCGATGT -GAAAACGGCGTGGTTAAAAGAGGATCCATCATTACTCTTATTTGTCGAACAACCCGATCTTTCGCTGTTACGTGATTTAG -TGAAAACCGGGGCAACGCGGAAAATTCGCAGTGAAGCGCGTCACCGGCTTGAGGAAAAACAATGACACAACGTCCATGGA -GCAAGTTACAGCGTAAAACGCATAATATTGCTGCGCTAAAAATTATTGCTCGCCGTAGCGAATAATTATATGCCTGGTGT -GGCTTCGTACGCCGGATAAGACGCGGCAGGCGTCGCATCCGGCATTAAAGGAAAATCAGCAATTAACGTTGTGCTTCGCC -ACCTAATCCTTCAATCAGGTTTTGAATTAACGCTGCCAGTTCACCAGTCATCAGGATGAAATCGGCATCAAAACGCTGGG -CGAAATCTTCACGGTCGATATCTTCGTTTTGATCGCGCAGCTCGTCGCAGAACTTCAGACGCTTGAGCGAACCATCGTCG -CACATCACAAACTGAATGCGCTGCTGCCAGTCGAGCGCCAGTTTAGTCACCACTTTTCCGGCTTCAATGTGATTGGTGAT -CTCTTCGCTGGTCAGATCTTGTTTCTTCGCGCGGATCACGCCGCCATCTTCCAGCAACGATTTCAGCTCGGCTTCATCAA -GCAGCTGGAAGCCCTGTGCCGCACTACCGGAGCGAACCCATTCGGTCAGCGTCAGTTCAATCGGGTTTTCCATGCTCAAT -GGTACAACCGGTAACGACCCCAGGCTTTTACGCAGTAATGCCAGCGTATCTTCCGCTTTTTTGGCACTGGCGCAGTCCAC -CATAATCAAACCGTTAACCGTGTCGATCCACATCATTGTCTGGCTAAAACGGCTGAAAGCACGCGGCAGCAGAGAGTGCA -GCACTTCGTCTTTCAGCGAATCTTTTTCGGTTTTCTTCAGCTTACGCGCCTGTTCCGCTTCCAGTTTGGCGATTTTCGCT -TCCAGCGCCTGTTTAATCACCGGAGACGGGAGGATTTTTTCTTCTTTGCGCGCGCAGATAACAATTTGACCATTGGCAAC -GTGCGTTAACGCATCGCTGTGCGATCCCATCGGAGGAACCCAGCCCATCTTCGCCATGTCCTGGCTGCCGCATGGGGTAA -ATGCCATCGAGGCTAGCTGTTTTTCCATCTCTTCTGCACGCAGCGAAATCTCGCGGCTAAGACGGTAAACCATTAAATTT -TTGAACCACAGCATGATAATTTCCACGGCCTTGTCGTTAAATTTAGCGGGCATGATAACGAATTGTCGGCGGCCTTGCAT -TGCCAATCCGGTTGTCCGTCTCTACGCTATTGATATTGAAAAAAATAAGGAGAGTACCGTGCGTATAGGTATCGATTTAG -GCGGCACCAAAACTGAAGTGATTGCACTGGGCGATGCAGGGGAGCAGTTGTACCGCCATCGTCTGCCCACGCCGCGTGAT -GATTACCGGCAGACTATTGAAACGATCGCCACGTTGGTTGATATGGCGGAGCAGGCGACGGGGCAGCGCGGAACGGTAGG -TATGGGCATTCCTGGCTCAATTTCGCCTTACACCGGTGTGGTGAAGAATGCCAATTCAACCTGGCTCAACGGTCAGCCAT -TCGATAAAGACTTAAGCGCGAGGTTGCAGCGGGAAGTGCGGCTGGCAAATGACGCTAACTGTCTGGCGGTTTCAGAAGCA -GTAGATGGCGCGGCAGCGGGAGCGCAGACGGTATTTGCCGTGATTATCGGCACGGGATGCGGCGCGGGCGTGGCATTCAA -TGGGCGGGCGCATATCGGCGGCAATGGCACGGCAGGTGAGTGGGGACACAATCCGCTACCGTGGATGGACGAAGACGAAC -TGCGTTATCGCGAGGAAGTCCCTTGTTATTGCGGTAAACAAGGTTGTATTGAAACCTTTATTTCGGGCACGGGATTCGCG -ATGGATTATCGTCGTTTGAGCGGACATGCGCTGAAAGGCAGTGAAATTATCCGCCTGGTTGAAGAAAGCGATCCGGTAGC -GGAACTGGCATTGCGTCGCTACGAGCTGCGGCTGGCAAAATCGCTGGCACATGTCGTGAATATTCTCGATCCGGATGTGA -TTGTCCTGGGGGGCGGGATGAGCAATGTAGACCGTTTATATCAAACGGTTGGGCAGTTGATTAAACAATTTGTCTTCGGC -GGCGAATGTGAAACGCCGGTGCGTAAGGCGAAGCACGGTGATTCCAGCGGCGTACGCGGCGCTGCGTGGTTATGGCCACA -AGAGTAAAAAACGTAGGCAATTGGCGCATCATGCCTGATGCGACGCTTGCCGCGTCTTATCAGGCCTACAAAAGGTGCCA -GAACCGTAGGCCGGATAAGGCGTTCACGCCGCATCCGGCAATAAGTGCTCCGATGCCTGATGCGACGCTTGCCGCGTCTT -ATCAGGCCTGCAAAATGTGCCAGAACCGCGTAGGGCGGATAAGGCGTTCACGCCGCATCCGGCAATAAGTAATGAGCACC -GAGACTATAACCTACCCCAGTGGTTTCGCCAGCACCGGAGTATCCGCCGCTTGCTGGCGCTTATAGCGACCATACAGCAG -CAACGACGACATCGCAGCAAACGAAAGCAGGGCGGCAGGCAGCGCCACGTAATTATATGCCAGCCCCAGCGTCAGCATCA -TACCTCCGCAATATGCGCCGACGGCGCTACCGAGGTTAAACGCTATTTGCCCACCTGCGGCACCTAATAACTCTCCGCCT -TTGGCGTTTTGTAGTAACAATATTTGTAGCGGTGCTGAAAGGGCAAATAATCCCGCGCAACAAATAAAAGCAAAAATAAG -CGACGTTGTTTTCATGCCGCCGCAGAAAAAGAGCATCAGCAGTGCCAGTACAATTATAAAGTCAGTCACTGCTGCAATGC -GCAGTGGTGAATAACGTCCTGAAATCCTGCCACTTAGCATATTTCCCAGCACCATCCCTAGCCCAACTAACATCATAATA -AAGGTCATCGCCGTTTCCGAAAAACCGGAAATAAACATCATGTATGGCTTTACGTAGCTGAACCAGGCAAACACACCTGC -GTTGCCAAACATCGTGGCGGCGAAAATTAACCACGGGGCCGGGCTGCGCAAAAAGTGAAATTGTTCGCGCAGATTTCCTT -TCGCCTCGTCGCGAATATCTGGCACCCAAAAATAGACCGATGCCATCACCGCAATATTAAAAACAGCGATCAATAAAAAG -GTGTAACGCCAGCTAAATTCCTGACTTAAATACGTTCCCAGCGGAATGCCCAGCAAATTGGCGACTGTCATCCCGGAAAC -CATCCCCGCCACGGCGGCGGTGACTTTTCCGGGTTTGATAATTTTTGATAACACGATCGCTCCGACGCCAAAAAATGCGC -CATGCGGAAAGCCGGATACCAGCCGACCAATGGCGAGCATCAGGTAAGACGAAGAGAGCGTGAACATGGCGTTGCCAATG -ACGCACAACGCCACCAGAAACAACAAGATATGTTTGAGTGAGTAGCGGCTGGAAAAGAGTGCGATGATTGGCGCACCGAC -CACCACCCCCAGTGCATAATACGAGATCATATGCCCGGCGGCAGGAATCGAAATTCCTACGTTATGCGCCAGCTCCGTGA -GCACGCCCATAATGCCAAATTCGGCCATCCCCAAACCAAACGTGCCCAGAGCCAAAGATAAAATGACTTTTTTCATACCA -CCATCACAACCACCAGAACGGCTACCAATCACCGTAGCCAATAAAGTGATAGCTTGCAGGATAACGACCAGCAAGGCCAA -GAGATAATTCGCCCCTCTGTATTCATTATCCTGCTGAATAGTTATTTCACTGCAAACGTACTTTCCAGTTTGCTGTAGCC -CAGGCCGTTGATCTTTTTCACTTTGATCTGCACCGGAATACGCTCTTTCATCGCTTCTACGTGGCTAATCACACCGATGG -TTTTGCCACTGGCGTTCAGGGCATCCAGCGCATCAAGGGCGGTATCCAGCGTTTCGCTATCCAGCGTGCCAAAACCTTCA -TCAAGGAACAGCGAGTCAATACGTGTTTTATGGCTGACCAGATCCGAAAGCGCCAGCGCCAGCGCCAGACTAACGAGGAA -ACTTTCGCCGCCGGAAAGGGTACGGGTATCGCGTACCGCATCTGCCTGCCAGGTATCAACAACCTCGACTTCCAGCGCCT -CGCTGGCTTTGCGCTGTAACAGATAGCGCCCGTGCAGCCGGGTAAGTTGCTGATTAGCGAGATGGACTAAATTATCCAGC -GTCAGCCCCTGGGCAAACTTGCGGAATTTATCGCCCTCTTTGGAACCTATTAGCGAATTCAGATATCCCCAGTCCTCAAC -CTGCTGCGTCATTTGAGCAATTTGCTGCATTAAGGTTTGTTGTTGCTGACGGTTATCTGCATCCTGCTTCAGCTGCTGGC -GAATCTCGCCTTGACTCGTGGTGTTTTCACGCAACTTTTGGTGAGTTTGCGCTAACTCTTGCTGAATCTGCTCCACCGTC -ACAGTGAGAGCCAACCCGTCGTCAGGTCGGTGTTGTTGATGCTGTGCCAGCGTTTCTGCTGTCTGAGTGACCAGAGTTTG -CGCCTGACGGCGCTGGTTTTCCAGATTCTGCTTGAGCTGTTCCAGCTGCGTTAGTGTTTGTTCATCCATTAGCGCCGCAA -GGAACGCCTGCTGATCGTCAAAGACGCTGGCCTGTAGCGCGGTGTCAAACTGCGCCTGGGCTTTTTGCAGACTTTGCGCC -GCCAGAACATCCTGTTGCTGTAACGTCTGCTGCTGGCTGTGTAATGCGAGACATTGTTCATGTACCTGCCGCCAGTTTTC -CAATACCACAGTTTCTTCGCAGTGCGGGAGTTCATCACTTTGCGGCAACGTTTCCAGAATCGGCGTCAGCTGCTGAATAC -GGTTTTGCAGCGCGGTTAATTCGTTCTGGCGTTGCTGCCAGCTCTGCGCTTCTTGCTGACGTGTCGCCAACCAGCTCTCT -TCTTCATCTTCCTGTGGCAATGTCAGTGCATAACCCGTCAATGTCGTTAAAAGTAGTTGCTGGCGTTGTTCAATTTGCTG -TTGATACTGGATAATTTGCTGATTATGCGCGGCAATCTGCCCTTGTAATTCATGCCGTTGGCTGAGTAACCGCAGCTGGC -GTTCGTGCTCATCTTGTGCATCCAGCCACGGTTGAATATCGTCCAGTGGCTGCAAGGTGATATTGAGGCTGGCCGTGACG -GCTTGCCATTGTTGAGTAAGTGCTTGCTCATCTTGTCGGAGGCTTTGCGCTTCGTTTTCATCACGCTGAAGCTGCTTTGT -TATGGCGTCCAGTTGCCCACGTAGCGTCGCACCTTCTTCACCGAGCTTTTTAACTTCGTTTTCCAGCGCCAGTAATCGAG -ACTGATTAACGCCAGGCTCCAGCGCCTGATACGCCTCGACCGCCGGGTGGCTGGTGGAACCACAAAGTGGGCAAGGCTGA -CCCGCCTGTAACTGTGCACGTTGAGCTTCCAGCGTTTTGATGCGCGCTTCCTGCTCGCAAATGGTTTTCACATCGGCAAG -TTGCTGCGTCTTTTCTTTATAACGCTGGCGCATTTCGTTAAGTGCGGCGTTACGTTGCGTCTGTTCTTGCGTGACATTCT -GGATAGCGACCTGTAACTGCGCCAGACGTTTTTGTTGGGGAACAATCTGTCCATGCAGCGCGACCAGGTGCTGACGCAGT -GGGCGTTGCTCAGCATGTTGCGCCAGGGCGGTAGCAACTTCATCGGCGGTTAACGTCAACGTGATCGCCGCAAGCGCATT -AAGTTTTTGCTCAGCATGGGTTAACTGTTGCTGCCATTGCCGCAGATGCTCGCGATCGCTGGTTTGTTGGGAGAACTGCG -CACGCCAACCCGCCGGTTCGTTGTTCCACTGACGGAAGCGGTCGTGTTCCTGTAACCAGGTATTCAGGCTTTGTTGCTGC -TGCTGTAATTCTGCTGACTGCTTCGCCGCGTGGTGGCGAATGCTCGCGCGAAGCGCCATTGTGCTCTGTAAGCGAGTATT -TACTTCTTCAATCTGCTGGCGAATATGCGCCAGCGCCGCGCTGTGTTCTGCGATGCGTTCCCAGTGTGGACGAAGATTTC -GTGCCGGTTGTGCCAGACTAAGCGCCGCCAGTTGAGGTTGCGCTTTTTCTTCTTCGGCTAACGCCTGTTGCAAGGCCTGC -TGACGGCGGCTGGCTTCTTGCTGCAATTCGTCCTGACGCGTTAACCAGTTTAGCGATTGTTGTTCTTGCTGCTGCGCGGT -AATTAACTGTTTTTCTTCGTCAGTAAGTACCTGCAAACTCGCTGTCAGCGATTGCACTTGTTCCGGCGTGAGCAACGTGA -CGCCGCTGGCCTGCGCTTGCAGCTTCTCCAGCTCTGTGCGGGCCGATTTGTGCTGCTCAAAAACCATCGCCGAGATTTGC -CCGTAGATTTCAGTGCCGGTTAACTCCTCGAGCAATTCCGCGCGTTCTTTGGGTTTGGCATTCAGGAAGGCAGCAAATTG -CCCCTGCGAAAGCAGCATCGAACGGGTGAAGCGCCCGTAATCCAGCCCGGTTAACGTCGCTGTCAGTTCCAGCTTATCTT -TCACTTTGTCGGCGAGAATTTTGCCGTCGGCGCAGCGCGCCAGCTCTACGCGTGGCACCTGCAAATTACCGTCGGGTTGG -TTACGCGCCCGATTCTGGCTCCAGAATGCACGGTACGCTTCACCTTTCACTTCAAACTCCACCTCCGCCAGACATTCGGC -GGTATCGCGGGTCATGAGATCATTTTGCGATTGTGAAACGTTAGAGAGACGCGGAGTTTCGTGATACAGCGCCAGACAAA -TGGCGTCCAGCAGGGTGGTTTTCCCCGCACCTGTTGGGCCGGTAATAGCAAACAGCCCGTTGCTGGCGAACGGCTCGCGG -GTGAAATCAATCTTCCATTCGCCTTTTAATGAGTTCAGGTTTTTCAGGCGCAGGCTGAGAATTTTCATGCTTCGTGTTCT -CCGGCGAGGGTATGCAACGTCGTGGTGAAAAGATGCTGCAGACGTTGCTGCTGCGATTCATCCAGTTCTTCCAGTGCCAG -ACGGCGATTGAACACCTCTTCGACGCTGAGTTCGCTGAGGGTTTCACGCTGTTGGCTGGCTAACACACGCTCGCGCTGTT -CACGACTCCGACGTACCAGCAATACTTCGACAGGCAATGATTCGGTTAATGCCTGGATTTTGCGCTGAATATCATGCAGA -TACTCATCAGTAGTGATTTCGATATCCAGCCAGACAGGTGGCTCCTGCGATACATCGCGCCACTGTTCCAGCTGTGCGGT -AATCGACGCCAGATCGCCTTTCAGCACTGCCATGGGTTGCGTTACCGGTACGTTCAGGTTTTCCACGCTCTCTAATTTGC -CGTTTGAAAATGTCACCAGATGGACATATTTACTCTTACCGCATTCATCAAAACTCAGTGGAATGGGGGAGCCGCAATAG -CGAACATGTTCCATGCCGCCAATAATCTGTGCGCGGTGAATATGCCCGAGCGCGATGTAGTCGGCTGGTGGAAAGTTTTG -TGCCGGAAACGCGTCCAGCGTGCCAATATAAATGTCACGCACGGCGTCACTTTTACTGGCCCCCACGGTCGTTAAATGTC -CCGTGGCGATGATGGGCAGAGGCTGATCGCCGCGCAGTTTGCAGGCATCGGCATAGTGTTGTTGGTAATAATCGGTAATC -GCTGCCAGTAAATGCTGCTGTTTTTCAATACCGTTAAGCCCCGCCTGGCTGGTAATAATGTCACGCGGACGTAAAAACGG -AATGGGGCACAGCACTGCGCCTGGCGTCCCGTCGCGACGAGGCAAGATTTGCGGCGCATGTCCGGCGCTGGCGACCACGG -TAGTATTGAGGAACGCCATGATATCGCGCGATTCATTCAGCGTGGCGACCGAGTCATGGTTTCCTGCCAGTACCACCAGA -TGACAGCCAGTTTGCTGTAAATTGACAACAAAACGGTTGTATAACGTGCGGGCGTAACTGGGCGGCGAGCCGGTATCGAA -AACATCACCGGCAACAATAATCGCATCCACCTGATGGGTTTGTGCTGTCTCCAGCAGCCAGTCAAGAAAAGCCTGATGTT -CAGCTTCGCGGCTTTTACTGTAGAAGTTCTGGCCGAGATGCCAGTCTGAGGTGTGAAGGATGCGCATAACGGTTCCCTGG -CGAAAAAGCATGGGCGCGATTATACCCAAACAGATGTGCCATTTGCTTTTTTCTGCGCCACGGAAATCAATAACCTGAAG -ATATGTGCGACGAGCTTTTCATAAATCTGTCATAAATCTGACGCATAATGACGTCGCATTAATGATCGCAACCTATTTAT -TACAACAGGGCAAATCATGGCGAGACGTATTCTGGTCGTAGAAGATGAAGCTCCAATTCGCGAAATGGTCTGCTTCGTGC -TCGAACAAAATGGCTTTCAGCCGGTCGAAGCGGAAGATTATGACAGTGCTGTGAATCAACTGAATGAACCCTGGCCGGAT -TTAATTCTCCTCGACTGGATGTTACCTGGCGGCTCCGGTATCCAGTTCATCAAACACCTCAAGCGCGAGTCGATGACCCG -GGATATTCCAGTGGTGATGTTGACCGCCAGAGGGGAAGAAGAAGATCGCGTGCGCGGCCTTGAAACCGGCGCGGATGACT -ATATCACCAAGCCGTTTTCGCCGAAGGAGCTGGTGGCGCGAATCAAAGCGGTAATGCGCCGTATTTCGCCAATGGCGGTG -GAAGAGGTGATTGAGATGCAGGGATTAAGTCTCGACCCGACATCTCACCGAGTGATGGCGGGCGAAGAGCCGCTGGAGAT -GGGGCCGACAGAATTTAAACTGCTGCACTTTTTTATGACGCATCCTGAGCGCGTGTACAGCCGCGAGCAGCTGTTAAACC -ACGTCTGGGGAACTAACGTGTATGTGGAAGACCGCACGGTCGATGTCCACATTCGTCGCCTGCGTAAAGCACTGGAGCCC -GGCGGGCATGACCGCATGGTGCAGACCGTGCGCGGTACAGGATATCGTTTTTCAACCCGCTTTTAACGCCTTGCTCATCG -GACGCAGAGCAGGGCTTATGATTTCTTAACTGGAGTATCTTACGTGCTGGAACGGCTGTCGTGGAAAAGGCTGGTGCTGG -AGCTGCTACTTTGCTGCCTCCCGGCTTTCATCCTGGGTGCATTTTTTGGTTACCTGCCCTGGTTTTTGCTGGCATCGGTA -ACAGGACTGCTTATCTGGCATTTCTGGAATTTATTGCGCCTTTCATGGTGGCTGTGGGTGGATCGCAGTATGACCCCGCC -ACCGGGGCGTGGTAGCTGGGAACCGCTACTATACGGCTTACACCAGATGCAGCTGCGAAATAAAAAACGCCGCCGTGAAC -TGGGCAATCTGATTAAACGCTTTCGTAGCGGCGCGGAGTCGCTGCCCGACGCGGTGGTGCTGACCACGGAAGAGGGCGGT -ATTTTCTGGTGTAACGGTCTGGCGCAACAAATTCTTGGTTTGCGCTGGCCGGAAGATAACGGGCAGAACATCCTTAACCT -ACTGCGTTACCCGGAGTTTACGCAATATCTGAAAACGCGTGATTTTTCTCGCCCGCTCAATCTGGTGCTCAACACCGGGC -GGCATCTGGAAATTCGCGTCATGCCTTATACCCACAAACAGTTGCTGATGGTGGCGCGTGATGTCACGCAAATGCATCAA -CTGGAAGGGGCGCGGCGTAACTTTTTTGCCAACGTGAGCCATGAGTTACGTACGCCATTGACCGTGTTACAGGGTTACCT -GGAGATGATGAATGAGCAGCCGCTGGAAGGCGCGGTACGCGAAAAAGCGTTGCACACCATGCGCGAGCAGACCCAGCGGA -TGGAAGGACTGGTGAAGCAATTGCTGACGCTGTCGAAAATAGAAGCCGCACCGACGCATTTGCTCAATGAAAAGGTTGAT -GTGCCGATGATGCTGCGCGTTGTTGAGCGCGAGGCTCAGACTCTGAGTCAGAAAAAACAGACATTTACCTTTGAGATAGA -TAACGGCCTCAAGGTGTCTGGCAACGAAGATCAGCTACGCAGTGCGATTTCGAACCTGGTCTATAACGCCGTGAATCATA -CGCCGGAAGGCACGCATATCACCGTACGCTGGCAGCGAGTGCCGCACGGTGCCGAATTTAGCGTTGAAGATAACGGACCG -GGCATTGCACCGGAGCATATTCCGCGCCTGACCGAGCGTTTTTATCGCGTTGATAAAGCGCGTTCCCGGCAAACCGGCGG -TAGCGGATTAGGGTTAGCGATCGTGAAACATGCTGTGAATCATCACGAAAGTCGCCTGAATATTGAGAGTACAGTAGGAA -AAGGAACACGTTTCAGTTTTGTTATCCCGGAACGTTTAATTGCCAAAAACAGCGATTAATCCGCCTTTGTCATCTTTTAT -TGCCATAAGCCAGTCGATGCTGGCTTATTTTCTTTGCAGTCAAAATACGGGCGTTAGATTTTACAACGATTGGTGATTTT -TTGTTCGCGTGATTAGCCATGTCTTTTTCACGGAAATAGTGTTTTATACTGGTTGGTGATTTCTTATCGCTATATACCTC -TGGTTTTTAGATCCCTCCTTGCTTTAAAACGTTATAAGCGTTTAAATTGCGCTTCAGGTGCTGTCATACTGACTGCATTA -ACGCGGTAAATCGAAAAACTATTCTTCGCCGCGCCTGGTTGGGAGTATTTCCCGCTAAAATTGTTTAAATATACCGCTGT -ATCATCCCCAGGGATTGGCACAAAAATTTAACGTTACAACACCACATCCACAGGCAGTATGATTTATGACCCATCAATTA -AGATCGCGCGATATCATCGCTCTGGGCTTTATGACATTTGCGTTGTTCGTCGGCGCAGGTAACATTATTTTCCCTCCAAT -GGTCGGCTTACAGGCAGGCGAACACGTCTGGACTGCGGCATTCGGCTTCCTCATTACTGCCGTTGGCCTGCCGGTATTAA -CGGTAGTGGCGCTGGCAAAAGTTGGCGGCGGTGTTGACAGCCTCAGCACGCCAATCGGTAAAGTCGCTGGCGTACTGCTG -GCAACGGTTTGTTACCTGGCGGTGGGGCCGCTTTTCGCTACGCCGCGTACAGCTACCGTTTCCTTTGAAGTGGGGATTGC -GCCGCTGACGGGTGATTCCGCGCTGCCGCTGTTTATCTACAGCCTGGTCTATTTCGCTATCGTTATTCTGGTTTCGCTCT -ATCCGGGCAAGCTGCTGGATACCGTGGGCAACTTCCTTGCGCCGCTGAAAATTATCGCGCTGGTCATCCTGTCTGTTGCC -GCTATTGTCTGGCCGGCGGGTTCTATCAGCACGGCGACTGAGGCTTATCAAAACGCTGCGTTTTCTAACGGCTTCGTTAA -CGGCTATCTGACCATGGATACGCTGGGCGCAATGGTGTTTGGTATCGTTATTGTTAACGCGGCGCGTTCTCGTGGCGTTA -CCGAAGCGCGTCTGCTGACCCGTTATACCGTCTGGGCTGGCCTGATGGCGGGTGTTGGTCTGACTCTGCTGTACCTGGCG -CTGTTCCGTCTGGGGTCAGACAGCGCGTCGCTGGTCGATCAGTCTGCAAACGGCGCTGCTATTCTGCATGCTTACGTTCA -GCACACCTTTGGCGGCGGCGGTAGCTTCCTGCTGGCGGCGTTAATCTTCATCGCCTGCCTGGTAACGGCAGTTGGCCTGA -CCTGTGCTTGTGCAGAATTCTTTGCCCAGTACGTACCGCTCTCTTATCGTACGCTGGTGTTTATCCTCGGCGGCTTCTCG -ATGGTGGTTTCTAACCTCGGCTTAAGCCAGCTGATCCAGATCTCCGTACCGGTGCTGACCGCTATTTATCCGCCGTGTAT -CGCACTGGTTGTATTAAGTTTTACACGCTCATGGTGGCATAATTCGTCCCGCGTGATTGCTCCGCCGATGTTTATCAGCC -TGCTTTTTGGTATTCTCGACGGGATCAAAGCATCTGCATTCAGCGATATCTTACCGTCCTGGGCGCAGCGTTTACCGCTG -GCCGAACAAGGTCTGGCGTGGTTAATGCCAACAGTGGTGATGGTGGTTCTGGCCATTATCTGGGATCGCGCGGCAGGTCG -TCAGGTGACCTCCAGCGCTCACTAAATCACTGAACATTTGTTTTAACCACGGGGCTGCGATGCCCCGTGGTTTTTTATTG -TGTTGATGGGTTAGGAATTGATGGAAAGTAAGAACAAGCTAAAGCGTGGGCTAAGTACCCGCCACATACGCTTTATGGCA -CTGGGTTCAGCAATTGGCACCGGGCTGTTTTACGGTTCGGCAGACGCCATCAAAATGGCCGGTCCGAGCGTGTTGTTGGC -CTATATTATCGGTGGTATCGCGGCGTATATCATTATGCGTGCGCTGGGGGAAATGTCGGTACATAACCCGGCCGCCAGCT -CTTTCTCGCGTTATGCGCAGGAAAACCTCGGCCCGCTGGCAGGTTACATTACCGGCTGGACCTACTGCTTTGAAATCCTT -ATTGTCGCCATCGCCGATGTGACCGCTTTTGGTATCTATATGGGTGTCTGGTTCCCGACGGTGCCGCACTGGATTTGGGT -ACTGAGCGTGGTGCTGATCATTTGCGCCGTAAACCTGATGAGCGTGAAGGTATTCGGTGAGCTGGAATTCTGGTTCTCGT -TCTTTAAAGTCGCCACCATCATCATCATGATTGTCGCCGGTTTCGGCATCATCATCTGGGGGATTGGCAACGGCGGGCAA -CCGACCGGTATTCATAACCTGTGGAGCAACGGCGGCTTCTTCAGTAACGGCTGGCTTGGCATGGTAATGTCGTTGCAAAT -GGTGATGTTTGCTTACGGTGGGATCGAAATTATCGGGATTACCGCCGGTGAAGCGAAAGATCCTGAGAAATCGATACCGC -GTGCGATTAACTCCGTGCCGATGCGTATTCTGGTGTTCTACGTCGGTACGCTGTTCGTCATTATGTCTATCTACCCGTGG -AATCAGGTTGGCACTGCCGGTAGCCCGTTCGTGCTGACGTTCCAGCATATGGGCATTACCTTTGCCGCCAGCATTCTTAA -CTTTGTTGTGCTGACTGCTTCGCTGTCGGCAATTAACAGTGATGTATTTGGCGTAGGCCGTATGCTCCACGGTATGGCAG -AGCAGGGCAGCGCGCCGAAAATTTTCAGCAAAACGTCGCGTCGCGGTATTCCGTGGGTTACGGTGCTGGTGATGACTACC -GCGCTGCTGTTTGCGGTGTATCTGAACTACATCATGCCGGAAAACGTCTTCCTGGTGATCGCTTCGCTGGCAACCTTCGC -CACGGTGTGGGTGTGGATTATGATCCTGCTGTCGCAAATTGCCTTCCGTCGCCGTTTGCCGCCAGAAGAAGTTAAGGCGC -TGAAATTTAAAGTGCCGGGTGGGGTAGCAACGACCATCGGCGGGCTGATTTTCCTGCTCTTTATTATCGGGTTGATTGGT -TATCACCCGGATACGCGTATCTCGCTGTATGTCGGTTTCGCGTGGATTGTTGTGCTGTTGATTGGCTGGATGTTTAAACG -CCGCCACGATCGTCAGCTGGCTGAAAACCAGTAATCCTTGCGTTCTGTAAGCCGGTTCAGGAGGAAATCCTGATCCGGCT -ATTCCGAAAGTTATCCGCCCCCGTCCTCCTCCCCCAAATATCCTTCAGATGATGAGTGATCCTGCATTAGGCTATGGCAA -GGTGATCAGATTTTCATCACAGGGGAATTATGATGTTAAATGCATGGCACCTGCCGGTGCCCCCATTTGTTAAACAAAGC -AAAGATCAACTGCTCATTACACTGTGGCTGACGGGCGAAGACCCACCGCAGCGCATTATGCTGCGTACAGAACACGATAA -CGAAGAAATGTCAGTACCGATGCATAAGCAGCGCAGTCAGCCGCAGCCTGGCGTCACCGCATGGCGTGCGGCGATTGATC -TCTCCAGCGGACAACCCCGGCGGCGTTACAGTTTCAAACTGCTGTGGCACGATCGCCAGCGTTGGTTTACACCGCAGGGC -TTCAGCCGAATGCCGCCGGCACGACTGGAGCAGTTTGCCGTCGATGTACCGGATATCGGCCCACAATGGGCTGCGGATCA -GATTTTTTATCAGATCTTCCCTGATCGTTTTGCGCGTAGTCTTCCTCGTGAAGCTGAACAGGATCATGTCTATTACCATC -ATGCAGCCGGACAAGAGATCATCTTGCGTGACTGGGATGAACCGGTCACGGCGCAGGCGGGCGGATCAACGTTCTATGGC -GGCGATCTGGACGGGATAAGCGAAAAACTGCCGTATCTGAAAAAGCTTGGCGTGACAGCGCTGTATCTCAATCCGGTGTT -TAAAGCTCCCAGCGTACATAAATACGATACCGAGGATTATCGCCATGTCGATCCGCAGTTTGGCGGTGATGGGGCGTTGC -TGCGTTTGCGACACAATACGCAGCAGCTGGGAATGCGGCTGGTGCTGGACGGCGTGTTTAACCACAGTGGCGATTCCCAT -GCCTGGTTTGACAGGCATAATCGTGGCACGGGTGGTGCTTGTCACAACCCCGAATCGCCCTGGCGCGACTGGTACTCGTT -TAGTGATGATGGCACGGCGCTCGACTGGCTTGGCTATGCCAGCTTGCCGAAGCTGGATTATCAGTCGGAAAGTCTGGTGA -ATGAAATTTATCGCGGGGAAGACAGTATTGTCCGCCACTGGCTGAAAGCGCCGTGGAATATGGACGGCTGGCGGCTGGAT -GTGGTGCATATGCTGGGGGAGGCGGGTGGGGCGCGCAATAATATGCAGCACGTTGCCGGGATCACCGAAGCGGCGAAAGA -AACCCAGCCGGAAGCGTATATTGTCGGCGAACATTTTGGCGATGCACGGCAATGGTTACAGGCCGATGTGGAAGATGCCG -CCATGAACTATCGTGGCTTCACATTCCCGTTGTGGGGATTTCTTGCCAATACCGATATCTCTTACGATCCGCAGCAAATT -GATGCCCAAACCTGTATGGCCTGGATGGATAATTACCGCGCAGGGCTTTCTCATCAACAACAATTACGTATGTTTAATCA -GCTCGACAGCCACGATACTGCGCGATTTAAAACGCTGCTCGGTCGGGATATTGCGCGCCTGCCGCTGGCGGTGGTCTGGC -TGTTCACCTGGCCTGGTGTACCGTGCATTTATTACGGTGATGAAGTAGGACTGGATGGCAAAAACGATCCGTTTTGCCGT -AAACCGTTCCCCTGGCAGGTGGAAAAGCAGGATACGGCGTTATTCGCGCTGTACCAGCGAATGATTGCGCTGCGTAAGAA -AAGTCAGGCGCTACGTCATGGCGGCTGTCAGGTGCTGTATGCGGAAGATAACGTGGTGGTATTTGTCCGCGTGCTGAATC -AGCAACGTGTACTGGTGGCAATCAACCGTGGCGAGGCCTGTGAAGTGGTGCTACCCGCGTCACCGTTTCTCAATGCCGTG -CAATGGCAATGCAAAGAAGGGCATGGGCAACTGACTGACGGGATTCTGGCTTTGCCTGCCATTTCGGCTACGGTATGGAT -GAACTAACGTTTTATAACGCCTTGCGTGACGCCTGCGCCATCATCCGCGGATAAAACTGCCAGAAGCGGGTTTCGAGGGC -GTCATAATGAGCGTCTAAATCGTACCAGGAGTCACGCAGGGCATCCAGACGTGGGCGGCGGCTTGCCATGCCGTTTAACA -CGTTCTGGATGAAATCCATATCGCGATAGCGCACCAGCCACTGCTCTGACCACAAGTAATTGTTCAGATTGATAAAACGT -GGCGGTGAGTCCGGCAAAATCGTCATCACTTGCTCGCGGGCATAACAGACAAATTCCTGTAGCGGAAAGTCCGGCGACAG -CTGCGACCAGTGGCGGGAAAGAAAGTGATCCCACATGACATCCAGCGTAATAGGCGCAACGCGGCGCGTTTCACTACGAA -ACCACTCCCGTGCTTCGCGGACTTCCGGCAGATTGTCAGTCAATACGTCGATACGTCGATGCATATGAATGCCAGCCACG -ACGTCGGGCGGAAAACTTTCTTCAGGATTTCCGCGTACGAAATCAGCCAGTAAATTGCCGGAAAGCGAGCTTTCCGCGAG -ATGGGCTAAATGCAGGTGAGCTAAAAAATTCATCGATTATATTCTATCCAAAAGGGGGTAAAGGTTGCAGGGAGAGCGCC -CCGGCACTAGACTACCCGCCTCTTATTTTAGTCTGAGTCAGTGTCATGCGCGTTACCGATTTCTCCTTTGAATTGCCCGA -ATCCCTGATTGCCCACTATCCCATGCCTGAACGCAGTAGCTGTCGTTTACTGTCGCTGGACGGGCCGACGGGCGCGCTGA -CGCACGGTACTTTCACCGATTTACTTGATAAGCTCAACCCCGGCGATCTTCTGGTTTTTAATAATACCCGCGTGATCCCG -GCGCGCCTGTTTGGGCGTAAAGCCAGCGGCGGCAAGATTGAAGTGCTGGTTGAACGGATGCTCGACGACAAACGCATTCT -TGCGCATATTCGCGCCTCGAAAGCGCCAAAACCTGGCGCAGAACTGCTGCTGGGCGATGACGAAAGTATTAACGCAACAA -TGACCGCGCGCCACGGCGCACTGTTTGAAGTCGAATTTAATGATGAACGCTCGGTGCTGGATATTCTCAACAGCATCGGC -CATATGCCGCTGCCGCCGTATATCGACCGTCCGGACGAAGACGCTGACCGCGAACTTTATCAAACCGTTTATAGCGAAAA -ACCGGGCGCGGTTGCAGCCCCGACCGCAGGTCTGCATTTTGACGAGCCTTTGCTGGAAAAATTGCGCGCCAAAGGCGTGG -AGATGGCGTTTGTGACGTTGCACGTTGGTGCGGGCACCTTCCAGCCGGTGCGCGTCGACACCATTGAAGATCACATCATG -CACTCGGAATACGCTGAAGTACCGCAGGATGTGGTAGACGCGGTACTGGCGGCGAAAGCGCGCGGTAACCGGGTGATTGC -GGTTGGCACCACTTCAGTACGTTCGCTGGAAAGCGCGGCTCAGGCAGCGAAAAACGATCTCATTGAACCGTTCTTCGACG -ATACCCAAATCTTTATCTATCCGGGCTTCCAGTACAAAGTGGTCGATGCGCTGGTGACGAACTTCCACTTGCCAGAGTCG -ACGCTGATTATGCTGGTTTCGGCCTTTGCCGGTTATCAACACACCATGAACGCCTATAAAGCAGCGGTAGAAGAGAAATA -TCGCTTTTTTAGTTACGGTGATGCGATGTTTATCACGTACAATCCGCAGGCAATTAATGAGCGCGTCGGGGAGTAATTCC -GCGGCGCTGGTTTAAAACGTTGGACTGTTTTTCTGACGTAGTGGAGAAAAAATGAAATTTGAACTGGACACCACCGACGG -TCGCGCACGCCGTGGCCGCCTGGTCTTTGATCGTGGCGTAGTGGAAACGCCTTGTTTTATGCCTGTTGGCACCTACGGCA -CCGTAAAAGGGATGACGCCGGAAGAAGTTGAAGCCACTGGCGCGCAAATTATCCTCGGCAACACCTTCCACCTGTGGCTG -CGCCCGGGCCAGGAAATCATGAAACTGCACGGCGATCTGCACGATTTTATGCAGTGGAAGGGGCCGATCCTCACCGACTC -CGGCGGCTTCCAGGTCTTCAGCCTTGGCGATATTCGTAAAATCACCGAACAGGGCGTGCACTTCCGTAACCCGATCAACG -GCGATCCGATTTTCCTCGATCCTGAAAAATCAATGGAGATTCAGTACGATCTTGGTTCGGATATCGTCATGATCTTTGAT -GAGTGTACGCCGTATCCTGCTGACTGGGATTACGCAAAACGCTCCATGGAGATGTCTCTGCGTTGGGCGAAGCGTAGCCG -TGAGCGTTTTGACAGTCTCGGAAACAAAAATGCGCTGTTTGGTATCATCCAGGGCAGCGTTTACGAAGATTTACGTGATA -TTTCTGTTAAAGGTCTGGTAGATATCGGTTTTGATGGCTACGCTGTCGGCGGTCTGGCTGTGGGTGAGCCGAAAGCAGAT -ATGCACCGCATTCTGGAGCATGTATGCCCGCAAATTCCGGCAGACAAACCGCGTTACCTGATGGGCGTTGGTAAACCAGA -AGACCTGGTTGAAGGCGTACGTCGTGGTATCGATATGTTTGACTGCGTAATGCCAACCCGCAACGCCCGAAATGGTCATT -TGTTCGTGACCGATGGCGTGGTGAAAATCCGCAATGCGAAGTATAAGAGCGATACTGGCCCACTCGATCCTGAGTGTGAT -TGCTACACCTGTCGCAATTATTCACGCGCTTACTTGCATCATCTTGACCGTTGCAACGAAATATTAGGCGCGCGACTCAA -CACCATTCATAACCTTCGTTACTACCAGCGTTTGATGGCGGGTTTACGCAAGGCTATTGAAGAGGGTAAATTAGAGAGCT -TCGTAACTGATTTTTACCAGCGTCAGGGGCGAGAAGTACCACCTTTGAACGTTGATTAATATTAATAATGAGGGAAATTT -AATGAGCTTTTTTATTTCTGATGCGGTAGCGGCAACGGGTGCACCGGCGCAAGGTAGCCCGATGTCTTTGATTTTGATGC -TGGTGGTATTCGGTCTGATTTTCTATTTCATGATCCTGCGTCCACAGCAGAAGCGCACCAAAGAACACAAAAAGCTGATG -GACTCCATTGCCAAAGGTGATGAAGTTCTGACGAACGGTGGCCTGGTTGGTCGCGTAACCAAAGTAGCGGAAAACGGCTA -CATTGCTATCGCGCTGAATGACACCACTGAAGTAGTTATTAAACGTGACTTCGTAGCTGCCGTCCTGCCGAAAGGCACCA -TGAAGGCGCTGTAATTAAAATTTTTCCCTAAGGGAATTGCCGTGTTAAACCGTTATCCTTTGTGGAAGTACGTCATGCTG -ATCGTGGTGATTGTCATCGGTCTGCTGTATGCGCTTCCCAACCTGTTTGGTGAGGATCCGGCTGTTCAGATCACTGGTGC -GCGCGGAGTCGCCGCCAGTGAGCAAACGCTGATCCAGGTCCAGAAAACGTTACAAGAAGAAAAAATAACTGCTAAGTCTG -TGGCACTGGAAGAGGGCGCTATTCTTGCGCGCTTCGACTCCACTGACACCCAGTTGCGCGCTCGTGAAGCATTAATGGGC -GTTATGGGTGACAAATACGTCGTGGCGCTTAACCTTGCCCCGGCAACGCCGCGCTGGCTGGCAGCTATTCACGCTGAGCC -GATGAAGCTCGGCCTTGACCTGCGTGGCGGCGTTCACTTCCTGATGGAAGTGGATATGGACACCGCGCTTGGCAAACTCC -AGGAACAAAATATCGATAGCCTACGCAGTGACCTGCGCGAAAAGGGCATCCCGTATACCACTGTTCGTAAAGAAAACAAC -TACGGCCTGAGCATCACTTTCCGCGATGCTAAAGCTCGTGATGAAGCCATTGCGTATCTGAGCAAGCGCCATCCGGACCT -GGTGATTAGCAGCCAGGGCAGCAACCAGCTGCGTGCGGTAATGAGCGATGCTCGTCTGAGTGAAGCGCGTGAATATGCGG -TGCAGCAGAACATTAATATCCTGCGTAACCGTGTAAACCAACTTGGCGTGGCGGAGCCGGTGGTTCAGCGTCAGGGTGCT -GACCGTATCGTTGTTGAACTGCCAGGTATTCAGGACACTGCGCGTGCGAAAGAGATTCTGGGTGCGACGGCAACGCTGGA -ATTCCGTCTGGTAAACACCAACGTTGACCAGGCCGCTGCGGCATCCGGTCGCGTACCGGGCGACTCTGAAGTGAAACAGA -CCCGCGAAGGTCAGCCAGTTGTGCTGTACAAACGCGTAATTCTGACCGGTGACCATATCACCGACTCCACTTCCAGCCAG -GACGAATACAACCAACCGCAGGTTAACATCTCGCTCGATAGCGCTGGTGGTAACATCATGTCTAACTTCACTAAGGACAA -CATCGGCAAACCGATGGCAACCCTGTTTGTGGAGTACAAAGACAGCGGTAAGAAAGATGCAAATGGTCGTGCGGTTCTGG -TGAAACAGGAAGAGGTGATTAACATCGCCAACATCCAGTCTCGTCTGGGTAACAGCTTCCGTATCACCGGCATCAACAAC -CCGAACGAAGCCCGTCAGCTGTCACTGCTGCTGCGTGCCGGTGCGTTGATCGCGCCGATTCAGATTGTTGAAGAACGTAC -CATTGGCCCAACCCTGGGTATGCAGAACATTGAACAGGGGCTGGAGGCTTGCCTTGCCGGTCTGCTGGTTTCTATTCTGT -TCATGATCATCTTCTATAAGAAGTTTGGTCTGATTGCGACCAGTGCTCTGATTGCCAACTTGATCTTAATCGTCGGCATT -ATGTCGCTGTTGCCAGGCGCAACGCTGAGTATGCCAGGTATCGCGGGTATCGTCTTAACCCTTGCGGTGGCGGTCGATGC -GAACGTACTGATCAACGAACGTATTAAAGAAGAGTTGAGCAACGGACGTACTGTTCAACAGGCAATTGATGAAGGTTATC -GTGGCGCATTCAGTTCTATCTTCGATGCGAACATCACCACGCTGATTAAAGTCATCATCCTGTACGCAGTGGGTACCGGG -GCAATTAAAGGGTTCGCGATTACTACCGGTATCGGTGTGGCGACGTCGATGTTTACCGCGATTGTCGGTACGCGTGCCAT -CGTAAACCTGCTATATGGCGGCAAGCGCGTCAAGAAGCTGTCAATCTGAGGAGTGCGATGTGGCACAGGAATATACTGTT -GAACAACTAAACCACGGCCGTAAAGTCTATGACTTTATGCGCTGGGACTACTGGGCTTTCGGCATCTCTGGTCTGCTGTT -AATCGCTGCTATCGTTATTATGGGCGTGCGCGGCTTTAACTGGGGGCTGGATTTCACCGGTGGTACGGTTATTGAAATTA -CGCTCGAAAAACCGGCTGAAATTGACGTAATGCGTGATGCATTGCAAAAAGCCGGTTTTGAAGAGCCGATGCTGCAAAAC -TTTGGTAGCAGCCATGACATCATGGTCCGTATGCCGCCTGCTGAAGGCGAAACCGGCGGTCAGGTGTTGGGCAGCCAGGT -TCTGAAGGTGATTAACGAATCCACCAATCAGAATGCAGCAGTGAAGCGTATTGAGTTCGTCGGTCCGAGCGTGGGGGCAG -ACCTTGCGCAAACCGGTGCGATGGCGTTGATGGCAGCGCTGCTGTCTATCCTCGTGTACGTAGGTTTCCGCTTTGAGTGG -CGACTGGCGGCAGGGGTGGTTATTGCGCTGGCGCACGACGTTATCATTACGCTGGGTATTTTGTCGTTATTCCATATCGA -GATTGACCTGACCATTGTGGCATCGTTGATGTCGGTTATCGGTTACTCGCTTAACGACAGTATCGTGGTATCGGACCGTA -TTCGTGAAAACTTCCGCAAGATCCGTCGCGGTACGCCTTACGAAATCTTTAACGTGTCCTTGACCCAGACGCTGCACCGT -ACCTTGATCACATCCGGTACTACCTTGATGGTTATCCTGATGCTGTACCTCTTCGGTGGTCCGGTACTGGAAGGCTTCTC -GCTGACCATGCTTATCGGTGTTTCCATCGGTACTGCATCTTCCATCTATGTGGCATCTGCGTTGGCTCTGAAACTGGGTA -TGAAGCGCGAACACATGTTGCAGCAGAAAGTGGAAAAAGAAGGGGCGGATCAGCCGTCAATTCTGCCGTAATCAAGTTCC -CGTTGATGTTGAAAATCCCGGTCAGAAGATCGGGATTTTTTTTGATGTATGGAGATTGCGAAAATCCCCGCATCTTGGGA -AACTGCGCGTAACCCTACATTTCATCCAGGTAACTTTTCATGGCTATCATCCCAAAAAACTATGCGCGGTTAGAAAGCGG -CTATCGCGAAAAAGCATTAAAAATCTATCCGTGGGTCTGCGGTCGCTGTTCCCGCGAGTTTGTTTATTCCAACCTGCGTG -AACTTACCGTTCACCACATTGATCACGACCATACCAATAACCCGGAAGATGGCAGTAACTGGGAATTGTTGTGTCTCTAT -TGCCACGATCATGAGCATTCGAAATATACCGAAGCGGATCAGTATGGTACGACCGTTATCGCAGGGGAAGATGCGCAGAA -AGATGTCGGTGAAGCGAAGTACAACCCATTCGCTGACCTGAAAGCGATGATGAACAAGAAGAAGTGATTAAAACGTAAAA -TTGCCTGATGCGCTACGCTTATCAGGCCTACGTTATTTCAGCAATATATTGAATTTACGTGCTTTTGTTGGCCGGACAAA -GCGTTTACGCCGCATCCGGCATGAACAAAGCACACGTTGTTAACAATCAGAAATGCCGGGAATAAATCCCGGCATTTTCA -TAATCAGAAGTTGTAACCTACTACCAGGTAACCACCCCAGCCGGTAGAGCGAACGTTGAAGTTGCCGTTGCCGAAGTTCA -GTTCTGCATCGTCGTTCCACTGACCACCGTCGTGCCAGTAACGAGCTACGACAGAGTAGTGCCAGTGATCGTAGTTCAGA -GCCAGAATATGGCTGGAAGCGATAGAGTTATTAGTACGGGTCTTAATACCGTTGATTGCGTTACCGCTGTCATCCCCTAA -ATCGGAACCCCAGTCGAAGTTGGTGAAGCCGATGTAGCTCAGCTGACCGCCCCACAGATCGGTAATCGGCACAAAGTATT -TAATTTTGAAACGGTAACCGTCCCACTCGTTTTCGTTCGCTGCGCCATAGTTCTGCCACTGGTATTTCGCATAGACGTTC -ATGGACAGGCTCATCGGCAGGCCAGTGTCGATATCGGTACCCAGACCCATGTACCAGGTGCTCTGGCGACCATCTTTATT -ACGACCCATGTCGTAAATGTAGTTGTTCGCGAAGTACCACTCTTTGAACGGACCGAAGCTAAGGTCAGTATTGGTCAGCT -TGTCGATGGAGAAACGTGGTTCGATTTCCATAAACAGCGGAGAACCGTGGTTCCAGATACCTTTAGCATCGGAGTTACCG -CCGAAGAATACCGGCGCATCCGCATAACCATAGAAGTCGAACCAGTCTTTTTTAGCGAATGCTTCGTACTCAAGGTAGGT -ATCGTTGCGGATCTGCGGTCCGAAACGGGTGTGATAGCTTCCGACAACGTTAACGCTCTGGTGCCACCAGTCGGAAAGAT -ACTGCGGTTTGTCGTTTTCAGCTGCGTTGACAGTAAAAGACGAAGAGAGCGCCAGTACCGCACCGGCTGCCAGTAATGTT -TTTTTCATATGTATGCCACTGTTTGAAAATCCCTTGCGGGAGTGAAAAAGGCGCAAATTGCGTTTCTAAATATTTCGTAT -ACAGAGGAGCCTATTATAAAAATCATTGCTCACAAAAATATGTTTCGTTTCACAGTTCTATCATTTACGTAATCGATTGC -GTTCACGTTTACACACATTCGGGCGGGGATTGTACTGACTTTCGCCCTTGTTGCAAACTTTTACTATCAATCCAGGTGAT -GTAAGCAGAGTAACAAAATGACGGGGAAAGATGTTGCGGGACGCACAAAATCGTCCCGAAATACGTTTACTGCATAACAG -GTTGAATGTCGTGGATACGTACAAAGCCTAACTGATCCACAGAAATCCCCTTTAACTGTAACGGAATATCAACATCGCTG -GGGGCGAGGACGCTGGCAGGGGCATTAATCAATTGATTCTGCACATTGATTTCCTGAAAGTTGTCTATTGTTCCCTGAAT -TTGCCCATATTCAACAGTTCCGCTGAATGCGGGCAAGGGATCATTCGACTCACCCTGAATACGTAGTGTAAGGGTGGTGC -CATCTGCATCAGGCGTAATATTCACCAGCGACATACGTAAAGTACCGATCTGGCTTTCCAGTCTTGCCGGTGTTTTCGCT -CCAGGCAGAAGGTAAACCCCACTGCTGGATTTTGCATTCAGCCTGTTTTGCTGAGTGATTTTGACTGTTTCTTGATTGAG -TTGCGTCATCTCCTGGTTCAGCGTGCTGACGCTGTGTTTCATCTGTCGCACTTCACTTTGCTGCACACAGGCGCTAAGGC -TGAACAGGCTTCCCAGCAGGAGCAGTCGAAAAACGTTAGTATTCATAGGTCGTCCCTTTCTCGTCGCAATTAGCCTAATG -GTAGAGGGTAAAAGCAGCGAAAGCATCGATCCTTTATCTCAAAAGCGTTGCGCCTTTGTTGTATCGTCAGTTCAGGGTAA -AATAGATTTCCGTTAACCACCTGGTCAGGACGCCGTATGCATTGCCCATTCTGTTTCGCCGTGGACACTAAGGTAATTGA -CTCTCGTCTCGTGGGCGAGGGTTCATCCGTACGCCGCCGTCGGCAGTGTCTGGTGTGTAATGAACGTTTCACCACCTTTG -AAGTGGCGGAGCTGGTTATGCCGCGTGTTGTAAAAAGCAACGACGTGCGTGAACCGTTTAATGAAGAGAAATTGCGTAGC -GGAATGCTGCGGGCGCTGGAAAAACGTCCGGTGAGTTCCGATGACGTCGAAATGGCAATCAATCATATTAAATCGCAGCT -GCGCGCCACCGGTGAGCGCGAAGTGCCGAGCAAGATGATTGGCAATCTGGTGATGGAGCAATTGAAAAAGCTCGATAAAG -TCGCCTATATCCGTTTTGCCTCTGTCTACCGCAGTTTCGAAGATATCAAAGAATTTGGCGAAGAGATCGCGCGCCTGGAG -GACTAAGCCGTGCAGGACGAGTATTACATGGCGCGGGCGCTAAAGCTGGCGCAACGAGGACGTTTTACCACGCATCCCAA -CCCGAATGTCGGGTGCGTCATTGTCAAAGATGGCGAAATTGTCGGTGAAGGTTACCACCAACGTGCGGGTGAACCACATG -CCGAAGTACACGCGTTGCGTATGGCGGGTGAAAAAGCCAAAGGTGCGACCGCCTATGTCACACTCGAACCCTGTAGCCAT -CATGGTCGTACGCCACCGTGCTGTGACGCACTCATCGCCGCTGGCGTAGCGCGCGTGGTTGCCTCGATGCAAGATCCTAA -CCCGCAGGTCGCTGGGCGTGGACTTTACCGTCTGCAACAGGCTGGCATTGACGTCAGCCACGGCCTGATGATGAGTGAAG -CCGAGCAATTGAATAAAGGCTTTCTCAAGCGGATGCGCACCGGCTTTCCTTATATTCAGTTAAAACTTGGCGCATCGCTT -GATGGTCGCACGGCGATGGCGAGCGGCGAAAGCCAGTGGATCACTTCGCCCCAGGCGCGGCGTGATGTACAACTACTGCG -CGCGCAAAGTCATGCCATTTTAACCAGCAGCGCCACGGTGCTGGCGGATGATCCTGCCTTAACGGTGCGTTGGTCTGAAC -TGGATGAACAAACTCAGGCGCTCTATCCGCAACAAAATCTCCGTCAGCCGATACGTATTGTGATTGATAGCCAAAATCGC -GTGACGCCGGTACATCGCATTGTGCAGCAGCCCGGCGAAACCTGGTTCGCGCGTACGCAGGAAGATTCTCGTGAGTGGCC -GGAAACGGTGCGTACCTTGCTGATTCCAGAGCATAAAGGTCATCTGGATCTGGTTGTACTGATGATGCAACTGGGTAAAC -AGCAAATTAACAGCATCTGGGTGGAAGCGGGGCCAACGCTCGCTGGCGCATTGCTGCAGGCGGGTTTAGTCGATGAGCTG -ATTGTCTATATCGCACCTAAACTATTAGGCAGCGACGCCCGCGGATTATGCACGCTGCCAGGGCTTGAGAAATTAGCCGA -CGCCCCCCAATTTAAATTCAAAGAGATACGTCATGTAGGCCCGGATGTTTGCCTGCATTTAGTGGGTGCATGATCTCCCG -GCTCGAAAGGGAAGCAGCGCACGAAATATTATGCTAAAATCCGCCCCCCTGCGGGGCCATACTCGAACCCGAAGGAAGAA -AATGAACATTATTGAAGCTAACGTTGCTACCCCGGACGCTCGCGTCGCCATCACCATCGCGCGTTTCAACAACTTTATCA -ATGACAGCCTGCTGGAAGGTGCAATTGACGCACTGAAACGTATCGGTCAGGTAAAAGATGAAAACATTACCGTTGTTTGG -GTGCCTGGTGCCTATGAGCTGCCGCTGGCGGCGGGTGCACTGGCTAAAACCGGTAAATACGACGCGGTGATTGCGCTGGG -TACGGTTATTCGTGGTGGCACTGCCCACTTTGAATATGTCGCTGGTGGTGCAAGCAACGGCCTGGCGCATGTTGCCCAGG -ACAGCGAAATTCCGGTTGCTTTTGGGGTTCTGACCACTGAAAGCATTGAACAAGCGATCGAACGTGCTGGCACCAAAGCT -GGCAACAAAGGTGCAGAAGCTGCACTGACCGCGCTTGAAATGATTAATGTATTGAAAGCCATCAAGGCCTGAAATTAGTA -AGGGGAAATCCGTGAAACCTGCTGCTCGTCGCCGCGCTCGTGAGTGTGCCGTCCAGGCGCTCTACTCCTGGCAGTTGTCC -CAGAACGACATCGCTGATGTTGAATACCAGTTCCTGGCTGAACAGGATGTAAAAGACGTTGACGTCCTGTACTTCCGTGA -GCTGCTGGCCGGGGTGGCGACTAATACCGCATACCTCGACGGACTGATGAAGCCATACCTGTCCCGCCTGCTGGAAGAAC -TGGGACAGGTAGAAAAAGCAGTACTGCGCATTGCGCTGTACGAACTGTCTAAACGTAGCGATGTGCCATACAAAGTGGCC -ATTAACGAAGCGATCGAACTGGCGAAATCGTTCGGCGCAGAAGACAGCCATAAGTTCGTCAACGGCGTACTCGATAAAGC -AGCACCTGTGATTCGCCCTAACAAAAAGTGATATCCAGGCCGGTAGATTCACGGAAGACCGTTCCATGATCGCCGGCCTT -TTCTTTTTTACCTGCTGAGGCATAACGTATGGCATGTGGCGAGTTCTCCCTGATTGCCCGTTATTTTGACCGTGTAAGAA -GTTCTCGTCTTGATGTCGAACTGGGCATCGGCGACGATTGCGCACTTCTCAATATCCCCGAGAAACAGACCCTGGCGATC -AGCACTGATACGCTGGTGGCGGGTAACCATTTCCTCCCTGATATCGATCCTGCTGATCTGGCTTATAAAGCACTGGCGGT -GAACCTAAGCGATCTGGCAGCGATGGGGGCCGATCCGGCCTGGCTGACGCTGGCATTAACCTTACCGGACGTAGACGAAG -CGTGGCTTGAGTCCTTCAGCGACAGTTTGTTTGATCTTCTCAATTATTACGATATGCAACTCATTGGCGGCGATACCACG -CGTGGGCCATTATCAATGACGTTGGGTATCCACGGCTTTGTTCCGATGGGACGAGCCTTAACGCGCTCTGGGGCGAAACC -GGGTGACTGGATCTATGTGACCGGTACACCGGGCGATAGCGCCGCCGGGCTGGCGATTTTGCAAAACCGTTTGCAGGTTG -CCGATGCTAAAGATGCGGACTACTTGATCAAACGTCATCTCCGTCCATCGCCGCGTATTTTACAGGGGCAGGCACTGCGC -GATCTGGCAAATTCAGCCATCGATCTCTCTGACGGTTTGATTTCCGATCTCGGGCATATCGTGAAAGCCAGCGACTGCGG -CGCACGTATTGACCTGGCATTGCTGCCGTTTTCTGATGCGCTTTCTCGCCATGTTGAACCGGAACAGGCGCTGCGCTGGG -CGCTCTCTGGCGGTGAAGATTACGAGTTGTGTTTCACTGTGCCGGAACTGAACCGTGGCGCGCTGGATGTGGCTCTCGGA -CACCTGGGCGTACCGTTTACCTGTATCGGGCAAATGACCGCCGATATCGAAGGGCTTTGTTTTATTCGTGACGGCGAACC -TGTTACATTAGACTGGAAAGGATATGACCATTTTGCCACGCCATAAAGATGTCGCGAAAAGTCGCCTGAAGATGAGTAAT -CCGTGGCATCTACTTGCTGTCGGATTCGGAAGTGGATTAAGCCCGATCGTTCCTGGGACGATGGGCTCGCTGGCAGCGAT -TCCGTTCTGGTATCTGATGACCTTTTTGCCCTGGCAGCTCTACTCGCTGGTGGTGATGCTGGGGATCTGTATCGGCGTCT -ATCTTTGTCATCAAACGGCGAAAGACATGGGTGTGCACGATCATGGCAGCATTGTCTGGGACGAATTTATTGGTATGTGG -ATCACGCTCATGGCGCTGCCGACCAATGACTGGCAGTGGGTTGCCGCCGGGTTTGTGATTTTCCGTATTCTGGATATGTG -GAAGCCGTGGCCGATCCGCTGGTTTGATCGCAATGTGCATGGCGGCATGGGGATCATGATCGACGATATTGTCGCCGGGG -TGATTTCCGCAGGCATCCTGTATTTTATCGGTCATCACTGGCCGCTGGGTATTCTGTCGTAGTTGTGCACCGATGCCTGA -TGTGACGCTTGTCACGTCTCATCAGGCCTGGACTCTTATTTAAATCCTACGACAGGATGCGGTTTATACGGCGTTTCCAG -TTCGGCAATCTGTTCCGGCTTCAAAGTGATATCCACCGCGTTCAATAGCTCATCAAGCTGTTCTTCGCGCGAAGTTCCGA -TAATCGGTGCGGCAATGCCCGGTTTACTCAACAACCAGGCCAGCGCAACTTGTGCTCGTGTCGCCCCCAGTTCTTCACTG -ACGCCTGTTAACCGCTCTGCGATCTGCGCGTCATTTTCATCGCTTTCTTTATAGAGATTTTTCCCCACCTCATCAGACAC -CAGTCGTGCGGTAGTTTCTCCCCACGGACGCGTCAGACGGCCCCTTGCCAGCGGGCTCCATGGAATTACCGCCACGCCCT -CCTGATAACACAGTGGTAGCATCTCGCGCTCTTCTTCACGATAAATCAGATTGTAGTGATCCTGCATACTGACAAACTGC -GCCCAGCCGTGCTGTTTTTGGAGTTCCAGTGCCTGAGCAAACTGCGAAGCGTGCATTGATGACGCGCCGATATAACGCGC -TTTCCCGGCTTTTACCACGTCGTTGAGGGCTTCCAGCGTCTCTTCGATCGGCGTGTTGTAATCCCAGCGATGAATTTGCA -GGATATCGACATAATCCATGCCGAGACGTCGCAGGCTGTCGTCGATAGAGCGCAAAATTTGCGCACGGGATAATCCTTCC -GGTAAATCACCAACGCGATGGAACACTTTGGTCGCAACGACCACGTCTTCACGACGGGCGAAATCCCGCAGTGCGCGACC -GACGATCTCTTCGCTGCTGCCGTCAGAATAACTGTTGGCGGTATCAAAGAAATTTATGCCGCCTTCCAGTGCACGTTTAA -TTATGGGACGGCTGCTTTCTTCCGGCAGTGTCCATGCGTGATTACCGCGATCTGGCTCGCCAAAGGTCATACAGCCGAGG -CAAAGTCGGGAAACGCGAAGGTCGGTTTTTCCTAAGGGGTTGTATTGCATGCTGCCACTCCTGCTATACTCGTCATACTT -CAAGTTGCATGTGCTGCGGCTGCATTCGTTCACCCCAGTCACTTACTTATGTAAGCTCCTGGGGCTTCACTCGTTTGCCG -CCTTCCTGCAACTCGAATTATTTAGAGTCTATGAATAATTTCTTAAGCATAGCAGGAGTGGAGTAGGGATTATGCCAGCC -AGGCCTTGATTTTGGCTTCCATACCAGCGGCATCGAGGCCGAGTTCGGCGCGCATTTCTTCCTGAGTTCCTTGCGGAATA -AAGAAGTCCGGCAGGCCAATGTTCAGCACGGGTACTGGTTTACGATGGGCCATCAGCACTTCGTTCACGCCGCTGCCTGC -GCCGCCCATAATGGCGTTTTCTTCTACGGTGACCAGCGCTTCATGGCTGGCGGCCATTTCCAGAATTAACGCTTCATCAA -GCGGTTTCACAAAACGCATATCGACCAGCGTGGCGTTCAGCGATTCGGCGACTTTCGCCGCTTCTGGCATCAGCGTACCA -AAGTTAAGGATCGCCAGTTTCTCGCCACGACGCTTCACAATGCCTTTGCCAATTGGTAGTTTTTCCAGCGGCGTCAGTTC -CACGCCGACCGCGTTGCCACGCGGGTAGCGCACCGCTGACGGGCCATCGTTATAGTGATAGCCGGTATAGAGCATCTGGC -GACATTCGTTTTCATCGCTCGGGGTCATAATGACCATTTCCGGTATGCAGCGCAGGTAAGAGAGATCAAAAGCACCCTGA -TGGGTTTGACCGTCAGCACCAACAATGCCCGCGCGGTCGATGGCGAACAGGACCGGAAGCTTTTGAATCGCCACGTCATG -CAGCACCTGATCATAGGCGCGTTGCAGGAAAGTGGAGTAAATCGCGACAATGGGTTTGTACCCACCAATCGCCAGACCCG -CAGCAAAGGTCACCGCGTGTTGCTCGGCAATTGCCACGTCGAAGTAGCGATCCGGGAATTTACGTGAAAACTCGACCATG -CCGGAACCTTCACGCATCGCCGGAGTAATCGCCATCAGCTTGTTGTCTTTCGCTGCCGTTTCGCACAACCAGTCGCCAAA -GATTTTTGAATAGCTCGGCAAACCGCCGCTACTTTTCGGCAAACAACCGCTGGAGGGATCAAATTTAGGCACGGCGTGGA -AAGTGATCGGGTCTTTTTCTGCCGGTTCATAACCACGACCTTTTTTGGTCATGATATGCAGGAACTGCGGGCCTTTCAGG -TCGCGCATGTTCTTTAGCGTGGTGATAAGCCCCAGCACATCGTGACCGTCCACCGGGCCGATGTAGTTAAAGCCCAGCTC -TTCAAACAACGTGCCAGGCACTACCATGCCTTTAATATGTTCTTCGGTGCGTTTGAGCAGCTCTTTAATTGGCGGCACGC -CAGAGAAAACTTTTTTCCCGCCTTCGCGCAGTGAAGAGTAAAGCTTACCGGAAAGCAGCTGTGCCAGATGGTTGTTGAGC -GCGCCGACATTTTCGGAAATCGACATTTCATTGTCGTTGAGAATCACCAGCATATCAGGACGGATATCGCCCGCGTGATT -CATCGCTTCAAACGCCATGCCTGCGGTAATCGCGCCATCGCCAATGACACAGACGGTGCGGCGATTTTTGCCTTCTTTTT -CGGCAGCAACCGCAATACCAATTCCGGCACTGATGGAGGTTGATGAATGCCCGACGCTTAATACGTCATATTCGCTTTCG -CCGCGCCACGGGAACGGGTGCAGACCGCCTTTCTGACGGATGGTGCCGATTTTGTCGCGGCGTCCGGTCAAAATTTTATG -CGGATAAGCCTGATGCCCCACATCCCAAATCAATTGGTCAAACGGGGTGTTGTAGACATAGTGCAGCGCCACGGTCAGTT -CGACCGTGCCCAGCCCGGAGGCGAAGTGCCCGCTGGAACGGCTCACGCTGTCGAGTAAATAGCGGCGCAGTTCGTCGCAG -AGTTTCGGTAAACTCTCTTTCGGCAACAGTCGTAACTCCTGGGTGGAGTCGACCAGTGCCAGGGTCGGGTATTTGGCAAT -ATCAAAACTCATCAGGGGCCTATTAATACTTATTGTTTATTTATTACGCTGGATGATGTAGTCCGCTAGCGCTTCCAGTG -CCGAGGTATCGAGTGACTGTTCAGCCAGTTGTTTCAGCGACTGACGGGCATCGTCGATCAGATCCCGGGCTTTCTTCCGG -GCTTGCTCAAGACCCAGAAGTGCAGGGTAGGTACTTTTACCAAGTTGCTGGTCGGCACCCTGGCGTTTTCCCAACGTTGC -AGTATCTCCCACCACATCCAGGATGTCATCCTGAACCTGGAAGGCAAGGCCGATGCTCTCTGCATACTTGTCGAGTACCG -GCAGAGCACGACGTCCTTTATCTCCGGCGCTTAATGCACCAAGGCGAACGGCGGCGCGAATCAATGCGCCGGTTTTATGA -CGATGAATACGCTCAAGCGCGTCCAGAGGTACGTGTTTGCCTTCCGCGTCTAAATCTAATGCCTGACCACCGCACATTCC -GGCAATACCACTGGCGCTCGCCAGTTCAGAAATCATCGAAATTCTGTCGCGGTCCGACACTTCCGGCATATCGGCATCGC -TTAAAATCGAGAACGCCAGCGTTTGTAAAGCGTCGCCAGCGAGAATCGCGTTTGCTTCGCCAAACTTCACATGGCAGGTT -GGCAAACCGCGACGCAGATCGTCATCATCCATTGCCGGTAAATCATCATGAATTAATGAGTAAGCGTGGATACACTCAAC -GGCGGCAGCGGGTGCGTCCAGCGTGTTTGTGCTAACGCCGAACATATGACCGGTGGCATAAACCAGGAAAGGTCGCAGGC -GCTTACCACCTAATAATGCGCCATACTGCATGGTTTCGACCACGGGAGTGTTCTGAAAGGGCAGTGGGGCGATAAAACGG -CTCAGCGCCTGGTTGGCCTGCTTAACGCAGGCTTCGAGTTGCTGCGGAAAGTCCATTACTCATTGTCCGGTGTAAAAGGG -GTTAGAGAGGCGTCTTCATTGTCAGACAGCAGAATTTGTACGCGCTGTTCGGCTTGTTGTAATTTGGCCTGCCCCTGACG -TGCCAGCTGCACGCCGCGTTCGAACTCGTTCAGCGCCTCTTCCAGCGGCAGGTCGCCACTTTCCAGACGGGTTACAATCT -GTTCCAGCTCGCTCAGCGCCTTTTCAAAGCTGGCGGGCGCCTCATTTTTCTTCGGCATAATGAATGTCTGACTCTCAATA -TTTTTCGCCCCGTCATGGTAACGGACTCAGGGCAAATAGCAAATAACGCGCAATGGTAAGGTGATGTGCACAGCAAAGCG -ATGTTAGTGGTATACTTCCGCGCCTGGATGCAGCCGCAGGTGTGGGCTGCTGTATTTTTCCCTATACAAGTCGCTTAAGG -CTTGCCAACGAACCATTGCCGCCATGAAGTTTATCATTAAATTGTTCCCGGAAATCACCATCAAAAGCCAATCTGTGCGC -TTGCGCTTTATAAAAATCCTTACCGGGAACATTCGTAACGTTTTAAAGCACTATGATGAGACGCTCGCTGTCGTCCGCCA -CTGGGATAACATCGAAGTTCGCGCAAAAGATGAAAACCAGCGTCTGGCTATTCGCGACGCTCTGACCCGTATTCCGGGTA -TCCACCATATTCTCGAAGTCGAAGACGTGCCGTTTACCGACATGCACGATATTTTCGAGAAAGCGTTGGTTCAGTATCGC -GATCAGCTGGAAGGCAAAACCTTCTGCGTACGCGTGAAGCGCCGTGGCAAACATGATTTTAGCTCGATTGATGTGGAACG -TTACGTCGGCGGCGGTTTAAATCAGCATATTGAATCCGCGCGCGTGAAGCTGACCAATCCGGATGTGACTGTCCATCTGG -AAGTGGAAGACGATCGTCTCCTGCTGATTAAAGGCCGCTACGAAGGTATTGGCGGTTTCCCGATCGGCACCCAGGAAGAT -GTGCTGTCGCTCATTTCCGGTGGTTTCGACTCCGGTGTTTCCAGTTATATGTTGATGCGTCGCGGCTGCCGCGTGCATTA -CTGCTTCTTTAACCTCGGCGGCGCGGCGCATGAAATTGGCGTGCGTCAGGTGGCGCATTATCTGTGGAACCGCTTTGGCA -GCTCCCACCGCGTGCGTTTTGTCGCTATTAATTTCGAACCGGTCGTCGGGGAAATTCTCGAGAAAATCGACGACGGTCAG -ATGGGCGTTATCCTCAAACGTATGATGGTGCGTGCCGCATCTAAAGTGGCTGAACGTTACGGCGTACAGGCGCTGGTCAC -CGGCGAAGCGCTCGGCCAGGTGTCCAGCCAGACGCTGACCAACCTGCGCCTGATTGATAACGTCTCCGACACGCTGATCC -TGCGTCCGCTGATCTCTTACGACAAAGAGCACATCATCAACCTGGCCCGCCAGATTGGCACCGAAGACTTTGCTCGCACG -ATGCCGGAATATTGTGGTGTGATCTCCAAAAGCCCGACGGTGAAAGCAGTTAAATCGAAGATTGAAGCGGAAGAAGAGAA -GTTCGACTTCAGCATTCTCGATAAAGTGGTTGAGGAAGCGAATAACGTTGATATCCGCGAAATCGCCCAGCAGACCGAGC -AGGAAGTGGTGGAAGTGGAAACCGTCAATGGCTTCGGCCCGAACGACGTGATCCTCGATATCCGTTCTATCGATGAACAG -GAAGATAAGCCACTGAAAGTCGAAGGGATTGATGTGGTTTCTCTGCCGTTCTATAAACTGAGCACCAAATTTGGCGATCT -CGACCAGAACAAAACCTGGCTGCTGTGGTGTGAGCGCGGGGTGATGAGCCGTCTGCAGGCGCTCTATCTGCGCGAGCAGG -GCTTTAACAATGTGAAGGTATATCGCCCGTAATTTGTGGTTTTTACGTCGCATCTGGTCAGATGCGACGTTTGCCGCATC -CGACACTACTCGTAATAATTATAAATCCCTGCCGCCATCACCAGTTGTGATGCCACTTCATGGGCTTTTTCACGCCCAAC -CAACAGGTCGATAATTTTCAGACCAAAGTCGATAGCTGTACCCGGCCCCTGGCTGGTCAGCAATTTTACCCGTGCATCCC -AGACGACGCGCTTGTCCAGCCATTGTTCGGCGGGAATTTTGTCTTTCAGCGTCGGGAAGCCGGTCATATTACCAATCGGG -AAGATATCGTGCGGCACCAGCACGGTGGCTGGCGCGGCGCAAATAGCCGCGACGATACGCCCGGAACGGTGGAACTGTTT -AACGGTTTCAACCAGCAGAGTGCTATCGCGAAAACACTCCGCGCCTTTAATGCCACCAGGCAGCACGATCACGTCATATT -CGCCATCAGCCACTTCGACCAGCGGCGCATCCGCCAGCAGCTTCACGCCGCGCGAGCAGGTAATCGCCAGGTTACCATCG -CTGGCGACGCTGGCAGTGGTGACTTTGATACCGCCGCGAACCAGCAGATCGATAGTGGTGACGGCTTCAGTCTCTTCACT -ACCAGGGGCGAGGCAAACCAGTGCCGATGCGCTCATATTCACTCTCCTTTCTTTTTACCATTTCAAACAGGCGGGTGTTT -TCCGGTACGGCAATCCCATGCGCGCGGGCGCGGCGTAAGAGAAAACCATTGATATAGTCGATTTCAGTGTGGCGCAGCGC -GCGGATATCCTGCAACATCGACGAGATATTTTCCGCTGTGGCATCAATCACCTGCATCACGTAATCACGCAAATCTTCTG -CTGAAGTATGATGCCCTTCGCGTTCGATCACCGCCGCGACTTCTTCGCATATCTGCATAATTTCTTGCGGATGATGACGT -AATTCACCGTTCGGGCAATTCCAGATGGCAGTCAGTGGATTAATCACGCAGTTGACTGCCAGCTTGCGCCACAGCTCGGC -GCGAATATTGTTATGCCAGGCAACGTCAGGCAACACGGTTTGCAAAATATCCGCCAGATAACTGTAATCCCCGTCCTGTT -GCCGTGCCGGGCCAATATGCGTGATACCGTTTGCCACATGAATAATGACATTGCCGTCGCGGCGGGCTGCATGGGTGGTG -GTGCCCATCAGTAATGGCTGCTGAATGTTTTGCAACTCTTCGATGGTGCCCATGCCGTTGTGAATTAACAGTATTGGCGT -AGTTACAGGCAGTGTGGACGCGAGGCTTTTGACGGCATCGGAAACCTGCCATGCTTTCAGCGTCACCAGGAGCAGATCGC -TGGTGGCGAGAAAATCGGGATCGTTGGCGGTCAGCGATTCGTTAAATATCGAACCATCTGTCTCAACCAGATTCACGCTA -CAATAAGGTTGCGGTACGCGCAGCCAGCCCTGAACTTCATGACCCTGTTTGCAAAGTGCTGTAAGCCATAATTGCCCTAA -GGCACCGCATCCCAATACGGTAATTTTCATTGTTCCTCCTCACCCGCAACCACTCCGGGTGTTCAATAAGGCTATCCCTT -AATTGTGCATGCTGTTGCGACTATGCACAATTAAGGGATACGTCCTGGTGCAGGACTGTCGGTTATTTAACTTTGCGGGT -ATTATGCTTCGCATCAAAAATGAAGGGAGAGGAAAAGATGCCATCTTTCGATATTGTCTCTGAAGTTGATCTTCAGGAAG -CACGTAACGCGGTCGATAACGCGAGCCGCGAAGTGGAGTCCCGTTTTGACTTCCGTAACGTTGAAGCCTCATTTGAGCTG -AACGACGCCAGCAAAACCATCAAAGTGTTGAGCGAGTCCGATTTCCAGGTCAATCAGTTGCTGGATATTCTGCGTGCCAA -GCTGCTGAAGCGCGGCATTGAAGGCAGTTCGCTGGATGTACCGGAGAATATCGTTCATAGCGGTAAAACCTGGTTTGTGG -AAGCGAAACTGAAACAGGGCATTGAGAGCGCGACCCAGAAGAAAATCGTCAAGATGATCAAAGACAGCAAACTGAAAGTG -CAGGCGCAAATTCAGGGCGATGAAATCCGCGTAACGGGCAAATCTCGTGATGATTTGCAGGCTGTCATGGCGATGGTACG -TGGTGGCGATCTCGGTCAGCCGTTCCAGTTCAAAAACTTCCGCGATTAATCGCGACTATGTGCGTTTTGTTCATGTCAGA -TGCGGCATGAACGCCTGATTCGGCCTACAAAGGTTTGTAATTCAGAAACTTTGTAGGCCTGATAAGCGTAGCGCAGCAGG -CAATTCGCCGCGTTTTTTATGCCTGACGAATTGCCTGTTCTATCTCAAAGCGATTCGTCACTTTGCTGTCGATTTTCACA -TAAGCTGAATGTTCTTCTTCTGCAATCAACACTTCTTTGATGCCTTCAGTTTCTAGCAAACGCACTTTTAACGCCTCGTT -TGCGGCAATGTTCGCCGGGATTTCAATGCGCAAACTGCTGACATACGGCGGTTCTTTCATGGTACTGGCGACTGTCAGCC -ACACTGCGGCCAGCATTGCGCCAGCGAGAAATACCCCCTGACCGTCAAACATGCCGTTAATCCAGCCGCCCAGCGAACCG -CCAATCGCCACGCCAAGAAACTGGCTGGTGGAGTAAACACCCATCGCCGTACCTTTGTAACCTGCTGGCGACTCTTTACT -GATAAGTGAGGGCAGGAGGGCTTCCATCAAATTAAACGCCACAAAGAAAAGCTGCACGCCGACCACCAGTTGCCAGAACT -GCGTTTGCGCGTTCCACAACACAATTTCCGCAACCACGATCAACCCGACGCAGAAGACAAAGACTTGCTTCATTTTGCGC -TTAACTTCAGCGTAGATAATGAAAGGCACGACCGAGCCAAAGGCGATTAGCATTGTCGCCAGATAGACCTTCCAGTGTTC -AGCCGCCGGGAACCCTGCATCAGCCAGTTGTCCGGGCAGGGCAACAAACGTCGACATCAGCAAAATATGCAGACACATAA -TGCCAAAGTTGAGTTTCAGCAGCCGCGGTTCCGCCAGCACTTTACTGAAACTGCCTTTCACCATTCCGGACTCACGATTA -AGTACGTGAGTGCTACTGTTGGGCACAACCCAAATGGTCAACGCAATGCCGGTCGTTGCCAGAATAGCGATCATCCAGAA -CAGCGCGTGCAGCCCAAGTTTGTGAGTGATGATCGGGCCAAGCACCATCGCAATGGCAAAGGTAATGCCAAAGCTCACGC -CGATAAACGCCATCGCTTTGGTGCGGTTTTGTTCGCGCGTGAGATCGGAAAGCAGCGCCATAACGGCGGCGGCAATTGCT -CCAGAGCCTTGTAGCGCCCGGCCCAGAATAATTCCCCAGATGGAGTCGGAAAGCGCAGCGATAACGCTACCGGCGGCAAA -CACCGCCAGCCCACCGACAATTAATGGTTTGCGACCAATGCGGTCGGAAAGCAGGCCAAACGGAATCTGAAAAACGGCCT -GAGTCAGACCATAAATACCAATGGCAATACCGATTAATGCTTCGCTGGCACCTTGCAGAGCCATGCCGTACGTGGTCAGA -ACCGGCAGAACCATAAACATGCCCAGCATGCGCAACGAGAATACGGTCCCTAAACCCCAGGTCGCGCGCCTCTCACCTGG -CGTCATTTTATAATCGTTCATTACCACCTCTGTTTTAAATTCGCGACTAGTGTAAAGCGGCAAACGAATGGGGTAAACAT -GCGGATTTTTTAGTAAATATTTCGAGAGGGATATGTTTCTAATGCTAAGAAAAAAGGTGCCGTAGCACCTTTTTAATAGA -GAGGTTTTGTTACCACACAGCAGCCAGCAGCGTATGCGAGTCCGGTACCATAAAATCAACGGACATCATCACCGAGAGGG -CAGTGATGGCGATGATAGAGAAGCCGAACAGCTTGCGCGCCCAGATTCTGTCATCAGCAACTTTATAACCGCGCAGAGCC -ATACCTAACCACCAGACGCTAACCGCCGCGGCGACCACCAGATATTTATACCCAGCGTAACCGCCAAGAGAGAGCATCAG -CGTGGCAACGGCAAAGGCGATGATATACAGCGTGATGTGATTCTTCGCCACCGAAATGCCTTTTACCACTGGCAATACCG -GAATGTTTGCCGCCTGGTAATCCTTAAAGCGGAAAATGGCGATGGCATAGGAGTGAGGCATCTGCCACAGGCTGAAGATA -GCCAGCAGGATCGCTGCGCCGCTATCGAACTCACCGGTTACCGCACAGTAGCCGATCACCGGCGGCGCAGCGCCGGAGAG -CGAACCAATCAACGTGCCGTAGACAGAGTGGCGTTTCATGTACAGGCTATAAACGCCGACATAAACCACAAAGCCCATCA -CCCCCAGCCAGCAGGCCAGCGGATTCGCGCCAAACCACAGCAGCATAAAGCCAGCAATACCCAGCAACGTGGCGTACACC -AGCGAGACAGCAGGAGAGATCAGGCCTTTCACCAGCACCCGATTCTTCGTCCTTTCCATCTTTCTGTCGATATCCCTGTC -GATGTAGTTGTTAAACACACAACCCGACGCCACAACCAGTGACACCCCAACCAGCGTGTAGATAAACAGGGGATAATCAA -TGCTGCCCTTTGAGGCCAGCAGGAATCCCCCAATCACCGAGATCAGGTTGCCAAAGATGATGCCTGGTTTCGTTACTTGC -AGGTATTGCTTAAACATCATAACCGCCGCTCTTAGTGCATCATCATGTTGTAGTTGAGGTTCCACATAATCCAGATGGAG -CCTACAACCAGGATAGCGATGATTAGCACGGTGAAGACAAACGCCGTCATGTTCCAGCCTTCATCTGATTTGGTATTCAT -GTGCAGGAAGCACACCAGATGCACCAGAACCTGTACCACTGCCATTGCCAGGATTGTTCCCAGAATTACGGCCGGAGAGG -CAGCTCCTGTCATCACCATCCAGAACGGAATCACCGTCAGAATGATCGACAGGATAAAGCCTGTCATGTAGGTTTTTACG -CTGCCATGGGACGCGCCGCTGTGATCGGTAGAATGACTCATTACATCGCCCCCATCAGATAAACAACAGTGAACACACAG -ATCCAAACCACATCCAGGAAGTGCCAGAACAGGCTCAGGCACATGATGCGGGTACGGTTAGTGCTGGTCAGGCCGCGACG -GGCGATTTGCACCATCAGCACCGCCATCCAGATAAGACCAGAAGTGACGTGCAGACCGTGCGTGCCGACCAGCGCAAAGA -ACGCTGACAGGAAGCCGCTGCGATCCGGACCCATGCCGTTAACAATCAGGTGATGGAATTCATAGATTTCCATCCCGATA -AATCCGGCACCAAACAACCAGGTCAACGCCAGCCAGGAGATAACCTGGCTTTTGTTGTTTTTGTACATGGCGATAGCCGC -CATGCCGTAGGTGATGGAGCTGAACAACAGCAAGAAAGTTTCAACCAGAACGAACGGCAGTTCGAAAATGTCCTTACCTG -TCGGGCCGCCTGCGGTGCCGTTCACCAGAACGGCATAGGTAGCAAACAAGATAGAGAACAGAATGCAGTCGCTCATCAGG -TAGATCCAAAATCCGAAGATTTTGGTTCCGCCTGCATCGTGGTGCCCGTGTTCGTGCGCGTGGGCAGTCGCGTGCGTCAA -AGTATCAGTTGCCATTTTTCAGCCCTGCCTTAGTAATCTCATCGAAATGCTGGTTTTCCAGTTTTTCGATTTCTGCCACC -GGCACGTAGTAATCCACGTCCTCGTCGAAGCTTTTCACGATCCAGGTGATGATCATGCCTGCGAAGCCAACAATCGCCAG -CCACCAGATATGCCAGATCATGGCGAAACCGAAGATGGTGGAGAAAGCTGCAATGACGATACCTGCACCGCTGTTTTTCG -GCATATGAATTTCTTCATAGTGGTCAGGCTTTTTATACGCTTCGCCTTTCTCTTTCATTTCCCAGAATGCATCACGTTCG -TGAACGTGCGGCACTACGGCAAAGTTATAGAACGGAGGCGGGGAAGAGGTTGCCCACTCCAGCGTACGGCCACCCCACGG -GTCGCCAGTCAGGTCACGGTTCTGGTCGCGGTCGCGAATAGAAACGTACATCTGAATAACGAGGCAGAGAATACCCAGCG -CAATCAGTACTGCACCGCTGGCTGCAATCATCAGCATGGTGTGGAACTGCGGGTCAATCTGCTGGCTCAAACGACGGGTC -ATGCCCATGAAGCCCAGCGCATACAGTGGCATAAAGGCAACGAAGAAGCCGATGATCCAGAACCAGAACGCGCGTTTACC -CCAGGTTTCGTTCAGTTTGAAACCGAACGCTTTAGGCCACCAGTAGGTCATCCCTGCGAAGCAGCCGAAGACCACGCCGC -CGATGATCACGTTATGGAAGTGCGCAATCAGGAACAGGCTGTTATGCAGAACGAAGTCCGCGCCCGGTACGGCCAGCAGC -ACGCCAGTCATCCCGCCCACCGAGAAGGTGACGATAAAACCGATGGTCCACAGCATCGCAGAATGGAACACGATGCGGCC -CTGATACATGGTGAACAGCCAGTTGAAGATCTTCACCCCGGTCGGGATGGCGATAATCATTGTGGTGATACCAAAGAAGG -CGTTTACGTTCGCGCCCGCACCCATCGTAAAGAAGTGGTGCAGCCAAACGATGAACGACAGCACGGTGATACAGACGGTT -GCCCATACCAGCGAGGTATAACCAAACAGACGTTTACGCGAGAAGGTTGCCGCAATTTCGGAGAACACACCGAAAACAGG -CAGGATCAGGATGTAAACTTCCGGGTGGCCCCAGGCCCAAATCAGGTTGATGTACATCATCATGTTGCCACCCATATCGT -TGGTAAAGAAATGGGTGCCCAGATAGCGATCCAGGGTCAACAACGCGACGGTAACCGTCAGAATTGGGAAGGAAGCAATA -ATCAGTACGTTCGCGCACAGTGATGCCCAGGTAAATACTGGCATCTTGAACATGGTCATGCCCGGTGCGCGCATCTTCAG -AATGGTAACGAAGAAGTTGATACCGGTAAGCGTCGTACCTATACCGGATAGCTGGAGACTCCATATCCAGTAATCGACAC -CGACTCCCGGACTGTACTCTATTCCCGATAGCGGTGGATAGGCCAGCCAGCCGGTCTGCGCAAATTCGCCCACGCCGAGA -GAAACGTTAACCAGAATCACACCAACAACGGTAAACCAGAAGCTTAAGTTGTTGAGGAACGGGAACGCAACGTCACGCGC -GCCGATCTGCAGCGGAACCACCAGGTTCATCAGACCGATAACGAAAGGCATCGCCACGAAGAAGATCATAATCACGCCGT -GCGCGGTAAAGATCTGATCGTAGTGGTGAGGTGGCAGGAAGCCCGCTTCGCCCGCCGAGGCAAGAGCCTGCTGGCTACGC -ATCATAATGGCGTCAGCAAAACCACGCAGCAACATCACAATCGCCACGATGATATACATGATACCGAGGCGTTTATGGTC -GACGGAGGTCAGCCACTCTTTCCACAGGTAGGTCCACTTACCGAAGTAAGTGATCAGGCCAACGAGCGCCAGACCTCCCA -AAATAATGCCAGCGATCGTAACCATGACGATAGGTTCATGGAACGGGACTGCATCAAGTGATAATTTTCCGAACATCTTT -ATTCTTCCTCAACCCCTTTAATGGGCGGATTCCGCGTGGCTCATGTCCATGCCTTCCATACCTTCGTGTGCGCTGTGCTC -ACCTTCTGGCTGGGTCATGTCCATGCTCTTACCGTGAGCCATAAACTTGTTAATTACATCGGCAAACAAGTCTGGTTTCA -CGTTGGAGAAATATTCCACCTGGTTGTATTCGCTAGGCGCGGCCAGTTTTTCGAACGCAGCCATGTCAGACATGGTGTTC -GGCGACTGCTTCGCTTTTGCGACCCACTGGTCGAATGCGGCGCGATCCGGTGTTGCAATAGCTTTGAACTTCATGCCTGA -GAAGCCCGGGCCGCTGTAGCTGGCGGAGATACCGTCATAAGTGCCGGGTTCGTTGGCGATCAGATGCAGGCGAGTCTGCA -TACCGGCCATGGCATAAATCTGGCTACCCAGACGCGGAATGAAGAAGGAGTTCATCACGGAGTTGGAGGTCACTTTGAAG -TACACCGGAGTGTTCGCCGGGAAAGCGATTTCATTCACGGTAGCAATGCCCTGTTCCGGGTAGATGAAGAACCATTTCCA -GTCCATGGAAACCACTTCGATGGTAATGGGCTTCTCGTCGTGTGCCAGCGGCTTGCTAGGCTCAAGAGCGTGAGTGGTTT -TCCAGGTCAGTACTGCAAGGAAGATGATGATTAAGATAGGTACCGTCCAGACCACAGCTTCCACTTTATTGGAGTGTGAC -CAGTTCGGGCTGTACTTAGCATCTTTATTGCTCGCACGGTACTTCCAGGCGAAACCAACAGCCATCAAGATTGCGGGAAT -AACGACAATCAACATCAGGCCAAATGCCGTCAGTATCAGTGAACGTTGCTCCAGACCAATCTGTCCTTTGGGATCTAACA -GCGCAGAATTACAGCCACTGAGCAATACAGTGCCTGCAAATAATGACAACCATCCCAAACTTTTATTGTATTTCCTGAGT -CTCATTTAACGACCTCAATTCCACGGGATCTGGTGGCGTTTAAAGTGTGTGGGCATTTTACGGGAAGGTTACATTACTGT -AAACATGATTAAATTCCTGTTACTTGGATTTGGCTGCCAGGTCACATATGTTGCAAAACATATCAGGTTGATTTTAAGAA -GCTGTTGCAAAAGGGCGTTATAACAAAAGGGGAGTGCTGAAGGAGTCTGGGCGGGCAATTGGTATAACCAATGTGAAATA -AAACAATTATTTAACAAATAATTATCATTAGAGTGACAACTGGGTGATGAGAAAATAAAGACTCATTAGCTGAATCGTGT -AAGAAAAATAGAATTTATAAATGGCGCCAATAATTTCCAAACGCTAAGCCGCACAAAAGAACAAATATTAATAAGCGATA -CTGATGTTTATTTAGCCGTAATAATTACGGCGAGTGATTACTACAGCTAAATAATATTTACAGATTACGTCAGATGCGTT -TTTCGTAGCGCCAGATAATCCAGCAAACCACCAAGCACGACGCCAGAAAGGGCGACTAAAACCCCGACTTCCAGCAGAGC -AGGCAGGAAAGAGAAGTGCGTCAAATCCAGCGCGTCCATCGTCAATAGCAGTAACCACACGGCCAACAGGCTGACGCCCG -CCGCCAGTGTCCACATGGCAAAGGCATAACCTGCCGGATATGCGGTACGGGAGATAAAGTTGTCATTTACTCGTGTATAT -TCAAGCGTCTGGCGGCAAACCAGCAGCAAAATAAGCCCTGGTACGGCAGCGGCGACGGAGAATAGATAGAATGTCGACCA -GCCGTGTGCTTCAACAAACCAACCCGCCACGGGGCCGACATAAACTCGCCCTACAGCAGAAAGCGCTGAGAGCAGGGCAA -ATTGAGTAGCGGAAAATGACTTATTACATAGCGTCATTAACAGCGCGACAAAGGCTGATGTGCCCATCCCGCCACAGAGG -TTTTCGAAAAAGACGGCTGCGCCCATGCTGTAGAGATGCTTATCAGTAATCGACAGCAGCCAGTAACCGGCGTTAGACGC -ACCTTGTAAAATGCCGAAAATCAGCAGTGCCCGGAACAGTGACAGGCGCTGCATCAAAATCCCACCGTACAATGCGCCAA -CAATGGTCGCTAGTAAGCCAAGCGTTTTGTTAACCACGCCTACTTCACCCGCATCAAACCCGACGCCGCGAATCAAAAAC -GTGGTTGTCAGGCTCATGGCGAATGCGTCGCCCAGCTTATACAGCACGATAAGAAGCAAAATAAGCCAGGCATTATTGCG -ACCAAAGAAATCTCGCAGAGGTGCAACAACCGCTTGTTCCAGCGTTTTGGGCACAGGAATGGTGTCGGTTGGTTCTGGTG -CAAGCAACGTCGCGATAATACAGGGGATCAACAGTGCCGCCATTAACCAGTACATGCCCTGCCAGCCCAGCCATTTATCT -GCCAGCCACAGGGCTAGGCCGCCGGAAACCAGCATCCCTAAACGGTAACCCAGCACGCTGATTGCCGCGCCCGCACCACG -TTCTTCTGCCGGAAGCACATCGGTTTTCCACGCATCGAAGACTATATCCTGGGAAGCAGAGCAAAAAGCGATCACCACTG -CCAGCGCCGCCATCCAGCGGAGTTGGGTGCCTGGTTCGAGAAAACCCATCGCCGCAATGGCGACTAATAACAGGATTTGC -GTGGCGAGCAGCCAACCGCGCCGCCGCCCAAAAAATGGAGGCGTGTAGCGGTCCATCAGCGGTGACCAGAGGAATTTAAA -AACGTAAGCCTGGCCTACCAGAGAGAAGAAACCAATGGTTTTGAGATCGATATTCTCGACCGTCATCCAGGCCTGTAAGG -TACCGGATGTCAGGGCGAGCGGTAGCCCGGAAGCAAAACCCAGGATCAGCAATATGGCTGAACGCGGCTGTTGAAAAATA -CGTAAATATTGACTGGACATGGGCGTCTACAGGCCCGGCTTGCACCGGGCCAGAGGGCAGAAATTAACGCGCGTTCTGCT -TGATGAATTCGTGGATGCTGGTGTCCTGAGACATATCAGCGATGGTATCGGTCAGCACACTGTTAACCGCATCGGCGATA -TTTTTGTTGGAGGCCTGGAACGCACCTTCAACGTTGTAGCTGGCACGATAGTTTTTGGTCATTTTGTTGCCATTCTGCGC -GGTAGCGATGATGGCGATATCCGCTTTGGTCGCGATGTTGTAGCGCACGTTGCCCTGGGACACGTCAGCATACAGTTGGC -TAACGATGATTTGCAGATTAACCGGGCCATTCGGACCAACCATGTAACCACGCGCGGTCATCTGTTTTTCCAGCACTTCT -TGCAGCAGGAAACGCAGATCGCGGGAGGCGGTCAGGGTAACGATTTGATTATCGCGGGTGACTTTTGCCAGCGCCTGATC -GGTACGCTGATCGGCACCATTAATGCTTACGGTGACGCCCATCAGGCTTGGATCCTGCTGTGGCAGTGTAATCGTCGGGG -AAACTTCAATAGTTGTTGGCGGTTTTGCGCATCCTGCAAGCATAAACAGAGCAACTAACGGGAAGAGGATTTTTTTGAAC -ATGTTCGGGCTCTCAGAGACTCTTAAGCGTGTTTGGTAAAAATTCCCGCCATCATAACATTGCCAACGGCGAGGGGAAGT -GGGTAAGGCATGTAAATTCATCATGTTGACGAAATAATCGCCCCTGGTAAAAGAAACACTGATGCGAGGCCTGTGTTTCA -ATCTTTAAATCAGTAAACTTCATACGCTTGACGGAAAAACCAGGACGAAACCTAAATATTTGTTGTTAAGCTGCAATGGA -AACGGTAAAAGCGGCTAGTATTTAAAGGGATGGATGACATCTCAGCGTTGTCGGAGGAGATATTTCATGATGATACGTGA -GCGGATAGAAGAAAAATTAAGGGCGGCGTTCCAACCCGTATTCCTCGAAGTAGTGGATGAAAGCTATCGTCACAATGTCC -CAGCCGGCTCTGAAAGCCATTTTAAAGTTGTGCTGGTCAGCGATCGTTTTACGGGTGAACGTTTTCTGAATCGTCATCGA -ATGATTTACAGTACTTTAGCGGAGGAACTCTCTACTACCGTTCATGCGCTGGCTCTGCATACTTACACTATTAAGGAGTG -GGAAGGGTTGCAGGACACCGTCTTTGCCTCTCCTCCCTGTCGTGGAGCAGGAAGCATCGCGTAAAAACGCATTTGCAACT -GTCGGCGCTTTTCCAGTATGTTGCTAAAGATTTTATGAAAAACGGCCTGCGGGCCGTTTTGTTTTGTCTGGATTTTGCGC -TTTTTGCCCAGCATTCAGACGAAAATTGCCCGGGAATTGTGAAAAAATACGCGACAGCGCGCAATAACCGTTCTCGACTC -ATAAAAGTGATGCCGCTATAATGCCGCGTCCTATTTGAATGCTTTCGGGATGATTCTGGTAACAGGGAATGTGATTGATT -ATAAGAACATCCCGGTTCCGCGAAGCCAACAACCTGTGCTTGCGGGGTAAGAGTTGACCGAGCACTGTGATTTTTTGAGG -TAACAAGATGCAAGTTTCAGTTGAAACCACTCAAGGCCTTGGCCGCCGTGTAACGATTACTATCGCTGCTGACAGCATCG -AGACCGCTGTTAAAAGCGAGCTGGTCAACGTTGCGAAAAAAGTACGTATTGACGGCTTCCGCAAAGGCAAAGTGCCAATG -AATATCGTTGCTCAGCGTTATGGCGCGTCTGTACGCCAGGACGTTCTGGGTGACCTGATGAGCCGTAACTTCATTGACGC -CATCATTAAAGAAAAAATCAATCCGGCTGGCGCACCGACTTATGTTCCGGGCGAATACAAGCTGGGTGAAGACTTCACTT -ACTCTGTAGAGTTTGAAGTTTATCCGGAAGTTGAACTGCAGGGTCTGGAAGCGATCGAAGTTGAAAAACCGATCGTTGAA -GTGACCGACGCTGACGTTGACGGCATGCTGGATACTCTGCGTAAACAGCAGGCGACCTGGAAAGAAAAAGACGGCGCTGT -TGAAGCAGAAGACCGCGTAACCATCGACTTCACCGGTTCTGTAGACGGCGAAGAGTTCGAAGGCGGTAAAGCGTCTGATT -TCGTACTGGCGATGGGCCAGGGTCGTATGATCCCGGGCTTTGAAGACGGTATCAAAGGCCACAAAGCTGGCGAAGAGTTC -ACCATCGACGTGACCTTCCCGGAAGAATACCACGCAGAAAACCTGAAAGGTAAAGCAGCGAAATTCGCTATCAACCTGAA -GAAAGTTGAAGAGCGTGAACTGCCGGAACTGACTGCAGAATTCATCAAACGTTTCGGCGTTGAAGATGGTTCCGTAGAAG -GTCTGCGCGCTGAAGTGCGTAAAAACATGGAGCGCGAGCTGAAGAGCGCCATCCGTAACCGCGTTAAGTCTCAGGCGATC -GAAGGTCTGGTAAAAGCTAACGACATCGACGTACCGGCTGCGCTGATCGACAGCGAAATCGACGTTCTGCGTCGCCAGGC -TGCACAGCGTTTCGGTGGCAACGAAAAACAAGCTCTGGAACTGCCGCGCGAACTGTTCGAAGAACAGGCTAAACGCCGCG -TAGTTGTTGGCCTGCTGCTGGGCGAAGTTATCCGCACCAACGAGCTGAAAGCTGACGAAGAGCGCGTGAAAGGCCTGATC -GAAGAGATGGCTTCTGCGTACGAAGATCCGAAAGAAGTTATCGAGTTCTACAGCAAAAACAAAGAACTGATGGACAACAT -GCGCAATGTTGCTCTGGAAGAACAGGCTGTTGAAGCTGTACTGGCGAAAGCGAAAGTGACTGAAAAAGAAACCACTTTCA -ACGAGCTGATGAACCAGCAGGCGTAATTTACGCAGCATAACGCGCTAAATTCGCACAAAGGCCCGTCACCGCCAGGTGGT -GGGCTTTTTTTTGTCATGAATTTTGCATGGAACCGTGCGAAAAGCCTCTTTCGGTGTTAGCGTAACAACAAAAGATTGTT -ATGCTTGAAATATGGTGATGCCGTACCCATAACACAGGGACTAGCTGATAATCCGTCCATAAGGTTACAATCGGTACAGC -AGGTTTTTTCAATTTTATCCAGGAGACGGAAATGTCATACAGCGGCGAACGAGATAACTTTGCACCCCATATGGCGCTGG -TGCCGATGGTCATTGAACAGACCTCACGCGGTGAGCGCTCTTTTGATATCTATTCTCGTCTACTTAAGGAACGCGTCATT -TTTCTGACTGGCCAGGTTGAAGACCACATGGCTAACCTGATTGTGGCGCAGATGCTGTTCCTGGAAGCGGAAAACCCAGA -AAAAGATATCTATCTGTACATTAACTCCCCAGGCGGGGTGATCACTGCCGGGATGTCTATCTATGACACCATGCAGTTTA -TCAAGCCTGATGTCAGCACCATCTGTATGGGCCAGGCGGCCTCGATGGGCGCTTTCTTGCTGACCGCAGGGGCAAAAGGT -AAACGTTTTTGCCTGCCGAATTCGCGCGTGATGATTCACCAACCGTTGGGCGGCTACCAGGGCCAGGCGACCGATATCGA -AATTCATGCCCGTGAAATTCTGAAAGTTAAAGGGCGCATGAATGAACTTATGGCGCTTCATACGGGTCAATCATTAGAAC -AGATTGAACGTGATACCGAGCGCGATCGCTTCCTTTCCGCCCCTGAAGCGGTGGAATACGGTCTGGTCGATTCGATTCTG -ACCCATCGTAATTGATGCCAGAGGCGCAACTGTGCCGCTATACTTATCCAGGGCGGCACAACGCTGTAAGCGGCTTGCGC -CTGAGAATGGCATTTGCGTCGTCGTGTGCGGCACAAAGAACAAAGAAGAGGTTTTGACCCATGACAGATAAACGCAAAGA -TGGCTCAGGCAAATTGCTGTATTGCTCTTTTTGCGGCAAAAGCCAGCATGAAGTGCGCAAGCTGATTGCCGGTCCATCCG -TGTATATCTGCGACGAATGTGTTGATTTATGTAACGACATCATTCGCGAAGAGATTAAAGAAGTTGCACCGCATCGTGAA -CGCAGTGCGCTACCGACGCCGCATGAAATTCGCAACCACCTGGACGATTACGTTATCGGCCAGGAACAGGCGAAAAAAGT -GCTGGCGGTCGCGGTATACAACCATTACAAACGTCTGCGCAACGGCGATACCAGCAATGGCGTCGAGTTGGGCAAAAGTA -ACATTCTGCTGATCGGTCCGACCGGTTCCGGTAAAACGCTGCTGGCTGAAACGCTGGCGCGCCTGCTGGATGTTCCGTTC -ACCATGGCCGACGCGACTACACTGACCGAAGCCGGTTATGTGGGTGAAGACGTTGAAAACATCATTCAGAAGCTGTTGCA -GAAATGCGACTACGATGTCCAGAAAGCACAGCGTGGTATTGTCTACATCGATGAAATCGACAAGATTTCTCGTAAGTCAG -ACAACCCGTCCATTACCCGAGACGTTTCCGGTGAAGGCGTACAGCAGGCACTGTTGAAACTGATCGAAGGTACGGTAGCT -GCTGTTCCACCGCAAGGTGGGCGTAAACATCCGCAGCAGGAATTCTTGCAGGTTGATACCTCTAAGATCCTGTTTATTTG -TGGCGGTGCGTTTGCCGGTCTGGATAAAGTGATTTCCCACCGTGTAGAAACCGGCTCCGGCATTGGTTTTGGCGCGACGG -TAAAAGCGAAGTCCGACAAAGCAAGCGAAGGCGAGCTGCTGGCGCAGGTTGAACCGGAAGATCTGATCAAGTTTGGTCTT -ATCCCTGAGTTTATTGGTCGTCTGCCGGTTGTCGCAACGTTGAATGAACTGAGCGAAGAAGCTCTGATTCAGATCCTCAA -AGAGCCGAAAAACGCCCTGACCAAGCAGTATCAGGCGCTGTTTAATCTGGAAGGCGTGGATCTGGAATTCCGTGACGAGG -CGCTGGATGCTATCGCTAAGAAAGCGATGGCGCGTAAAACCGGTGCCCGTGGCCTGCGTTCCATCGTAGAAGCCGCACTG -CTCGATACCATGTACGATCTGCCGTCCATGGAAGACGTCGAAAAAGTGGTTATCGACGAGTCGGTAATTGATGGTCAAAG -CAAACCGTTGCTGATTTATGGCAAGCCGGAAGCGCAACAGGCATCTGGTGAATAATTAACCATTCCCATACAATTAGTTA -ACCAAAAAGGGGGGATTTTATCTCCCCTTTAATTTTTCCTCTATTCTCGGCGTTGAATGTGGGGGAAACATCCCCATATA -CTGACGTACATGTTAATAGATGGCGTGAAGCACAGTCGTGTCATCTGATTACCTGGCGGAAATTAAACTAAGAGAGAGCT -CTATGAATCCTGAGCGTTCTGAACGCATTGAAATCCCCGTATTGCCGCTGCGCGATGTGGTGGTTTATCCGCACATGGTC -ATCCCCTTATTTGTCGGGCGGGAAAAATCTATCCGTTGTCTGGAAGCGGCGATGGACCATGATAAAAAAATTATGCTGGT -CGCGCAGAAAGAAGCTTCAACGGATGAGCCGGGTGTAAACGATCTTTTCACCGTCGGGACCGTGGCCTCTATATTGCAGA -TGCTGAAACTGCCTGACGGCACCGTCAAAGTGCTGGTCGAGGGGTTACAGCGCGCGCGTATTTCTGCGCTCTCTGACAAT -GGCGAACACTTTTCTGCGAAGGCGGAGTATCTGGAGTCGCCGACCATTGATGAGCGGGAACAGGAAGTGCTGGTGCGTAC -TGCAATCAGCCAGTTCGAAGGCTACATCAAGCTGAACAAAAAAATCCCACCAGAAGTGCTGACGTCGCTGAATAGCATCG -ACGATCCGGCGCGTCTGGCGGATACCATTGCTGCACATATGCCGCTGAAACTGGCTGACAAACAGTCTGTTCTGGAGATG -TCCGACGTTAACGAACGTCTGGAATATCTGATGGCAATGATGGAATCGGAAATCGATCTGCTGCAGGTTGAGAAACGCAT -TCGCAACCGCGTTAAAAAGCAGATGGAGAAATCCCAGCGTGAGTACTATCTGAACGAGCAAATGAAAGCTATTCAGAAAG -AACTCGGTGAAATGGACGACGCGCCGGACGAAAACGAAGCCCTGAAGCGCAAAATCGACGCGGCGAAGATGCCGAAAGAG -GCAAAAGAGAAAGCGGAAGCAGAGTTGCAGAAGCTGAAAATGATGTCTCCGATGTCGGCAGAAGCGACCGTAGTGCGTGG -TTATATCGACTGGATGGTACAGGTGCCGTGGAATGCGCGTAGCAAGGTCAAAAAAGACCTGCGTCAGGCGCAGGAAATCC -TTGATACCGACCATTATGGTCTGGAGCGCGTGAAAGATCGAATCCTTGAGTATCTTGCGGTTCAAAGCCGTGTCAACAAA -ATCAAGGGACCGATCCTCTGCCTGGTAGGGCCGCCGGGGGTAGGTAAAACCTCTCTTGGTCAGTCCATTGCCAAAGCCAC -CGGGCGTAAATATGTCCGTATGGCGCTGGGCGGCGTGCGTGATGAAGCGGAAATCCGTGGTCACCGCCGTACTTACATCG -GTTCTATGCCGGGTAAACTGATCCAGAAAATGGCGAAAGTGGGCGTGAAAAACCCGCTGTTCCTGCTCGATGAGATCGAC -AAAATGTCTTCTGACATGCGTGGCGATCCGGCCTCTGCACTGCTTGAAGTGCTGGATCCAGAGCAGAACGTAGCGTTCAG -CGACCACTACCTGGAAGTGGATTACGATCTCAGCGACGTGATGTTTGTCGCGACGTCGAACTCCATGAACATTCCGGCAC -CGCTGCTGGATCGTATGGAAGTGATTCGCCTCTCCGGTTATACCGAAGATGAAAAACTGAACATCGCCAAACGTCACCTG -CTGCCGAAGCAGATTGAACGTAATGCACTGAAAAAAGGTGAGCTGACCGTCGACGATAGCGCCATTATCGGCATTATTCG -TTACTACACCCGTGAGGCGGGCGTGCGTGGTCTGGAGCGTGAAATCTCCAAACTGTGTCGCAAAGCGGTTAAGCAGTTAC -TGCTCGATAAGTCATTAAAACATATCGAAATTAACGGCGATAACCTGCATGACTATCTCGGTGTTCAGCGTTTCGACTAT -GGTCGCGCGGATAACGAAAACCGTGTCGGTCAGGTAACCGGTCTGGCGTGGACGGAAGTGGGCGGTGACTTGCTGACCAT -TGAAACCGCATGTGTTCCGGGTAAAGGCAAACTGACCTATACCGGTTCGCTCGGCGAAGTGATGCAGGAGTCCATTCAGG -CGGCGTTAACGGTGGTTCGTGCGCGTGCGGAAAAACTGGGGATCAACCCTGATTTTTACGAAAAACGTGACATCCACGTC -CACGTACCGGAAGGTGCGACGCCGAAAGATGGTCCGAGTGCCGGTATTGCTATGTGCACCGCGCTGGTTTCTTGCCTGAC -CGGTAACCCGGTTCGTGCCGATGTGGCAATGACCGGTGAGATCACTCTGCGTGGTCAGGTACTGCCGATCGGTGGTTTGA -AAGAAAAACTCCTGGCAGCGCATCGCGGCGGGATTAAAACAGTGCTAATTCCGTTCGAAAATAAACGCGATCTGGAAGAG -ATTCCTGACAACGTAATTGCCGATCTGGACATTCATCCTGTGAAGCGCATTGAGGAAGTTCTGACTCTGGCGCTGCAAAA -TGAACCGTCTGGTATGCAGGTTGTGACTGCAAAATAGTGACCTCGCGCAAAATGCACTAATAAAAACAGGGCTGGCAGGC -TAATTCGGGCTTGCCAGCCTTTTTTTGTCTCGCTAAGTTAGATGGCGGATCGGGCTTGCCCTTATTAAGGGGTGTTGTAA -GGGGATGGCTGGCCTGATATAACTGCTGCGCGTTCGTACCTTGAAGGATTCAAGTGCGATATAAATTATAAAGAGGAAGA -GAAGAGTGAATAAATCTCAATTGATCGACAAGATTGCTGCAGGGGCTGATATCTCTAAAGCTGCGGCTGGCCGTGCGTTA -GATGCTATTATTGCTTCCGTAACTGAATCTCTGAAAGAAGGGGATGATGTAGCACTGGTAGGTTTTGGTACTTTTGCCGT -TAAAGAGCGTGCTGCCCGTACTGGCCGCAACCCGCAGACCGGTAAAGAGATCACCATCGCTGCTGCTAAAGTACCGAGCT -TCCGTGCAGGTAAAGCACTGAAAGACGCGGTAAACTAAGCGTTGTCCCCAGTGGGGATGTGACGAAGTTCAAGGGCGCAT -CTACTGATGTGCCTTTTTTATTTGTATTCGGTGACTTTCTGCGTCTTGTGGGCTGACAATTGCCCCCGTTTCTTGTCACA -ATAGGCCTTTGCGCGCATCGATACGTTGCGTGAGGTACACAGTCATCTACAGCGGAGTGTTGTTACACCATGATGGACAG -CTTACGCACGGCTGCAAACAGTCTCGTGCTCAAGATTATTTTCGGTATCATTATCGTGTCGTTCATATTGACCGGCGTGA -GTGGTTACCTGATTGGCGGAGGCAATAACTACGCCGCAAAAGTGAATGACCAGGAAATCAGCCGTGGGCAATTCGAGAAC -GCCTTCAACAGCGAGCGTAATCGCATGCAGCAACAGCTGGGCGATCAATACTCCGAGCTGGCAGCGAACGAAGGCTATAT -GAAAACCCTGCGTCAACAGGTGCTGAATCGTCTGATCGACGAGGCGCTGCTGGATCAGTACGCACGTGAGCTGAAACTGG -GTATCAGCGATGAGCAGGTTAAACAGGCGATTTTCGCGACCCCAGCCTTCCAGGTTGACGGCAAATTTGATAACAGCCGC -TATAACGGTATCCTCAACCAGATGGGGATGACCGCCGATCAGTACGCCCAGGCGCTGCGTAACCAGCTCACTACCCAACA -GCTGATTAACGGCGTTGCCGGTACCGATTTTATGCTGAAAGGTGAAACCGACGAGCTGGCGGCACTGGTCGCGCAACAAC -GCGTGGTGCGTGAGGCGACTATCGATGTTAACGCGCTGGCGGCGAAGCAGCCTGTGACCGAACAGGAGATTGCCAGCTAC -TACGAACAAAACAAAAACAATTTCATGACGCCGGAACAATTCCGCGTGAGTTACATCAAGCTGGATGCCGCAACGATGCA -GCAACCGGTTAGCGATGCGGATATCCAGAGCTACTACGACCAGCATCAGGATCAATTCACCCAGCCGCAGCGTACCCGCT -ACAGCATCATCCAGACCAAAACTGAAGATGAAGCGAAAGCGGTACTTGATGAGCTGAATAAAGGCGGTGATTTTGCTGCA -TTAGCCAAAGAAAAATCTGCCGATATTATCTCTGCTCGTAACGGCGGCGATATGGGTTGGTTAGAAGATGCCACTATCCC -GGACGAACTGAAAAATGCTGGTCTGAAAGAAAAAGGCCAACTGTCTGGTGTCATCAAATCTTCGGTCGGTTTCCTGATTG -TACGTCTGGACGACATTCAGCCAGCGAAAGTGAAATCGTTAGACGAAGTACGTGACGACATTGCGGCGAAAGTGAAACAC -GAAAAAGCCCTCGATGCGTACTACGCGCTGCAGCAGAAAGTGAGCGATGCGGCAAGCAACGACACCGAGTCTCTGGCCGG -TGCAGAGCAAGCTGCCGGCGTTAAAGCCACTCAGACGGGTTGGTTCAGCAAAGATAACCTGCCGGAAGAGTTGAACTTCA -AGCCGGTTGCCGACGCTATCTTTAACGGCGGTCTGGTAGGTGAAAACGGCGCGCCGGGCATCAACTCTGACATCATCACC -GTAGACGGCGACCGCGCATTCGTGCTGCGCATCAGCGAGCACAAACCGGAAGCGGTGAAACCGTTGGCAGATGTTCAGGA -ACAAGTTAAGGCATTGGTTCAGCACAACAAAGCTGAACAACAGGCGAAAGTGGATGCTGAGAAACTGCTGGTTGATTTGA -AAGCCGGCAAAGGTGCGGAAGCTATGCAGGCTGCCGGTCTGAAATTTGGCGAGCCGAAAACCTTAAGCCGTTCCGGTCGT -GACCCGATTAGCCAGGCGGCGTTTGCACTGCCACTGCCAGCGAAAGACAAACCGAGCTACGGTATGGCGACCGATATGCA -AGGTAATGTGGTTCTGCTGGCGCTGGATGAAGTGAAACAAGGTTCAATGCCGGAAGATCAGAAAAAAGCGATGGTGCAGG -GTATCACCCAGAACAACGCACAAATCGTCTTTGAAGCTCTGATGAGTAACCTGCGTAAAGAGGCGAAAATCAAAATTGGC -GATGCGCTGGAACAGCAATAATCCTGAAGCCGCCTCGCAAAAAAATGCGTTGCAGCTGTAACAAGAAAAGGTCGCTTTCG -CGGCCTTTTCCATTTCTGAACATTGCCATTTGTTTACTGTTTTCACTGCCGTTAAGGTGATTCCACTGTTAACAAACAAG -GAGAAAACAGTATGAAACACGGAATTAAAGCACTGCTCATTACCCTGTCCCTGGCCTGTGCCGGAATGTCTCATAGCGCG -CTGGCGGCAGCTTCTGTGGCGAAACCGACGGCGGTAGAAACCAAAGCGGAAGCTCCTGCAGCACAAAGTAAAGCAGCAGT -ACCGGCGAAAGCCAGTGACGAAGAAGGCACCCGGGTCAGCATTAATAATGCCAGCGCGGAAGAGCTAGCCCGCGCGATGA -ATGGCGTTGGCCTGAAGAAAGCGCAGGCGATTGTCAGTTATCGCGAAGAGTACGGTCCGTTTAAAACTGTGGAGGATCTA -AAGCAGGTGCCGGGGATGGGCAATTCGCTGGTGGAACGTAATCTGGCGGTATTAACCCTGTAATTAATTTGCATAGTGGC -AATTTTTTGCCAGACTGAAGAGGTCATACCAGTTATGACCTCTGTACTTATAACAACAACGTAAGGTTATTGCGCTATGC -AAACACAAATCAAAGTTCGTGGATATCATCTCGACGTTTACCAGCACGTCAACAACGCCCGCTACCTTGAATTTCTCGAA -GAAGCCCGCTGGGATGGGTTGGAAAATAGCGACAGTTTTCAGTGGATGACGGCCCATAACATCGCCTTCGTCGTGGTCAA -TATCAATATTAACTATCGTCGCCCAGCGGTATTAAGTGACCTGTTAACTATTACCAGTCAGTTGCAGCAATTAAACGGTA -AAAGCGGCATCTTAAGCCAGGTCATTACACTGGAGCCGGAAGGGCAGGTGGTAGCGGATGCGCTTATTACGTTTGTTTGT -ATTGATCTTAAAACGCAGAAAGCATTAGCTCTGGAAGGGGAATTGCGCGAAAAGCTGGAGCAGATGGTTAAGTAAACGTT -TTGTGGTGCCGGATGCTCAAGCCGCATCCGGCGACACCCGGAATAATTACCTCAACCCGGTTTTCTGCTTCATCGCTGCC -ATCACCGTCGGTTTATCGGCCAGATAATGATTCAAACCGTTGGCGCGTAAATTACATGCCGCACAATGACCGCAACCGTC -GCCTTTAAAGCCGTTATAGCAGGTCAACGTTTCGTTACGGACTAAATCCAGTTTGCCGTAATAATCTGCCAGCGCCCAGG -TTTCCGCTTTATCAATCCACATCAGCGGCGTTTCAAAACGAATATCTTTCGCCATGCCCAAACTGACGGCATGGTTTAGT -GCTTTCACAAACTCATCGCGGCAATCCGGGTAGCCGGAGAAATCCGTTTCGCAGACGCCAGTAATTACGGCTTCTGCTTT -TACCTGATACGCATATATTGCCGCCAGCGTCAGGAACAAAATATTACGCCCTGGGACAAACGTATTCGGGATACCATCGG -CTTCAGGTTCATAATCAGGCACCGGAATGCTGTCACGCGTCAGGCTACTGACCGCCAGCTCGTTGAGCAGGGTGACATCC -AGCACCTTATGCGCGCGTGCCCCCAGTTTCAGCGCCAGTTCGCGTGCCACGTCGATTTCTGCGCGATGCCGCTGACCGTA -ATCGAACGTCACGCAATGGACTTCATCATATTGTTGTAATGCCTGCACCAGACAGGTGGTGGAATCCTGACCTCCACTGA -ACACAACGACAGCACGTTTCATAGATAATCCTGCTTGAACAATAAAAGCGTTATGGTAACGCCTGCGATTAACCCGGACC -AGCTATTCATTGCGATGGCGCGGGAAGCCAGGCTTCGGTAAATTCAAACCAGCCGCGCGGTGTCAGTCGCACACCGTTCA -CGCCGGGAGGGGCACTAATGCGATAGTGATAGTTGAACAGCGGCGTCAGCGTCGCATCTGTCATTAACTGGCTAAAAACC -GCTTTCAGGGCATTAAATCGGTTTTCTTCATCAGGCATTATTTGCACGGCATCCAGTGTCGATTGTAGATGTGCGTATGC -TGGAGCGTCGAAAACATGTGGCCACAGCGGATCGCAGCGCAGCCATTGCTCCAGAGTATATTCCGGTGCTTCGCCAATTA -ATCTGTCGCCCATCATGAGGTCTGCGTGTGCCTGTAGGGTCGTGTCGTCCCAGTTTTTTGCGTTATGAAAAATAATTGTG -AGTTCACAGCCTTCCGCTGCCAGTGTCGCCTGTAGGCGTTCTGCCATGGTATGAAGTTCTATCGGTAGGTGATAAACCAG -CGTCAAGGTTTTCGGTAGTTTGACTTCATCCGGTACCTGCCAATGCGGAATAGTCCAGCCTGGCAGTAATGCATGACTGG -CGGTGATCAGGTTTTCTCCGACTTCTAACGTTTGTAATAAACCGGATTGATGAATAATGGAGATCACTTTTCGCGCCTGC -CAGAGGGAGAGTCGGGGACTTTTGCGCAACGTCAAATAGCAAAAACCTAAACTGATGCCGCTACTGACCTGGCTGACCCG -TTGCAGCTCCTCCGGTTTGCCGATGGTGATTTGCACGGGATGCCGACAACTGGTTCCCAAATCTTTTTCGAAAAGCGGCG -GAGTTATCCAGTACTCAACCGCTTTAAGCAGCGGATGACGTAAATGGTAATAATCATGGCTTTCCAGGCGCACCAGCTCT -GCTGTGAATTGTGTTAAGCGAAAAGGACCCGTGCCGATCAGTGGGAATTGCGGATGCGCCAGATGGCTGCAATAGCTCGC -CAGCCGGTGCGCAAGCCAGTAATCAGGGCGATGTAAAAAGAAGGTCAGACACTGCGGATGGGTGACTTCAATACGCTTCA -CGCTAATAAATAATTGATCCAGTGCTGGCAGTTGTAACAGCATCAATAATCGCTGGTGTAAGTGTGAGGCTTTTACTGCA -TCGCCGTTATGCCAGTGTAGGGTTGAACGAAGATAAAAGTCCCAGCGTAACCCGTCAGTAGAGGTTTCCCAGTGATGCGC -TAAATCGCCAATCGGGCGCTGAGTATTATTATCGAAGCGGGTCAGGCCGGAAAATATCTGCCCGGCGAGATGCTGCTCGG -CACGGCCGGGCAAAAAGCCTGGTTGTAGCGGTTCGAGCGGGCGATAGTAGGGAATACGCAACGTGGGTGTATCGTTTTGC -CATTGTCCGCCCATAAACGGCTGTAACAGAGTGCGCAGCTCACCTGGGGCCAGTTGCGCCAGCTCCAGCACATCTTGCTG -CTTTCCGGTTTCCAGTGCCTGTTCCATCATCGCATTGCGTAGCGATTCCGGCGTGACCAGAAAGCGTAATTGTCCGCGCT -TTCCGCGTCCTGACTGCGCCTGCCACTCCAGCCATCCCGCCTCCTGTGCCTGACGCAACAGCGTACGAACATGGCGTTCG -CTGCAAAAACAGCGTTCGGCCAGTTCGCTGACGGTGACGGTTTGCGGCTTTCCGGCGGAAGGTTGCCACAGACGTTGATA -CTGGTTAAGACGGTTGAGCAATCGCATATAAACCCGGAACAATATTATTTAACTATTCACTATTACTTCCGTATATATCA -GGTGATACTCAATCACCATTAACCGTGTCACAGAGTGGAGAAAGAAATGGCTCGTCTGGCAGCATTTGATATGGATGGCA -CTTTATTGATGCCCGACCATCATTTAGGTGAGAAAACCCTCTCTACTTTGGCGCGACTGCGTGAACGCGACATTACCCTC -ACTTTTGCCACGGGGCGTCATGCGCTGGAGATGCAGCATATTCTCGGGGCGCTATCGCTGGATGCGTATTTGATTACCGG -CAACGGAACGCGCGTGCATTCTCTGGAAGGTGAACTTTTACATCGTGATGATTTACCTGCGGATGTCGCGGAGCTGGTGC -TGTATCAGCAATGGGATACCCGAGCCAGCATGCATATCTTCAATGACGACGGTTGGTTTACCGGGAAAGAGATCCCTGCG -TTGTTGCAGGCATTTGTCTATAGCGGTTTTCGTTATCAGATAATCGATGTCAAAAAAATGCCACTCGGCAGCGTCACCAA -GATCTGCTTCTGTGGCGATCACGACGATCTTACACGCTTGCAGATCCAGCTATACGAAGCATTAGGCGAGCGTGCACATT -TGTGTTTTTCCGCCACGGATTGCCTCGAAGTGCTGCCGGTGGGCTGCAATAAAGGCGCTGCATTGACGGTGCTGACCCAA -CATTTAGGTTTATCGTTGCGCGATTGCATGGCCTTTGGTGATGCGATGAACGATCGCGAAATGTTAGTCAGCGTCGGTAG -CGGATTTATTATGGGCAATGCGATGCCGCAACTGCGCGCGGAGCTCCCGCATTTACCGGTGATTGGACATTGCCGAAATC -AGGCTGTCTCTCACTATTTGACGCACTGGCTGGACTATCCACATCTACCTTATTCCCCCGAATAACGAGATCCCTTCCAG -CACCGGGCAATTGCCCGGTTTTTTTTGCGTTGAATTTGTCATTTTGTGCCGTGGTGTTTAAACCGCACAGAATAAATTGT -CGTGATTTCACCTTTAAAATAAAATTAAAAGAGAAAAAAATTCTCTGTGGAAGGGCTATGTTAGATAAAATTGACCGTAA -GCTGCTGGCCTTACTGCAGCAGGATTGCACCCTCTCTTTGCAGGCACTGGCTGAAGCCGTTAATCTGACAACCACCCCTT -GCTGGAAGCGCCTGAAACGGCTGGAGGACGACGGTATCCTTATCGGCAAAGTCGCCCTGCTGGATCCGGAAAAAATAGGC -CTCGGCCTGACCGCTTTTGTGCTGATAAAAACGCAACATCACAGCAGCGAATGGTATTGCCGCTTTGTCACGGTGGTTAC -CGAAATGCCAGAAGTGCTGGGGTTCTGGCGCATGGCTGGTGAATACGATTATCTGATGCGCGTCCAGGTTGCCGACATGA -AACGCTACGACGAGTTTTATAAGCGTCTGGTAAACAGCGTGCCGGGGCTGTCGGACGTCACTTCCAGCTTCGCGATGGAA -CAGATTAAATACACCACTTCTTTACCCATCGAATAAATATCCAGAATCAGGTCAGGACACAACGCGTGCGATTATTTGCT -CAATTAAGCTGGTATTTCCGTCGGGAATGGCGTCGCTATCTCGGGGCTGTCGCCTTGCTTGTCATTATCGCGATGCTGCA -ACTGGTTCCGCCAAAAGTGGTTGGTATTGTTGTCGATGGCGTGACAGAACAACACTTTACTACCGGGCAGATCCTGATGT -GGATCGCCACCATGGTGCTGATTGCCGTTGTGGTTTATCTCCTGCGTTACGTCTGGCGGGTATTGCTGTTTGGTGCGTCT -TATCAACTGGCTGTTGAACTGCGTGAAGATTATTACCGTCAGCTAAGCCGGCAGCATCCTGAGTTTTACCTGCGTCATCG -CACCGGTGACCTCATGGCTCGTGCGACCAATGACGTCGATCGCGTCGTGTTTGCCGCCGGAGAAGGGGTGCTGACGCTGG -TGGATTCACTGGTGATGGGCTGCGCTGTGTTGATTATGATGTCTACGCAAATTAGCTGGCAGTTGACCTTATTTTCCCTG -TTGCCGATGCCAGTGATGGCGATCATGATTAAGCGCAACGGCGATGCTTTGCATGAACGCTTTAAGCTGGCACAGGCGGC -GTTTTCCAGTCTTAATGACCGCACCCAGGAAAGCCTCACCAGTATCCGCATGATCAAAGCCTTTGGTCTGGAAGATCGCC -AGTCGGCGTTATTTGCCGCGGATGCCGAAGATACCGGCAAAAAAAACATGCGGGTGGCGCGTATTGATGCTCGTTTCGAC -CCGACCATCTATATCGCGATTGGTATGGCGAACTTGCTGGCGATTGGCGGCGGTAGTTGGATGGTGGTGCAGGGCAGTTT -AACGCTGGGCCAGCTCACCAGTTTTATGATGTATTTAGGTCTGATGATTTGGCCAATGCTGGCGCTGGCATGGATGTTTA -ACATTGTGGAACGTGGTAGTGCTGCGTACAGCCGTATTCGCGCGATGCTGGCGGAAGCGCCGGTGGTGAACGATGGTAGC -GAACCCGTGCCGGAAGGGCGTGGCGAACTGGATGTAAATATTCACCAGTTCACGTATCCGCAGACTGACCATCCTGCGCT -GGAAAACGTCAATTTCGCCCTGAAACCCGGTCAGATGCTGGGTATCTGCGGGCCGACTGGTTCCGGCAAAAGTACCCTGT -TGTCGCTCATTCAGCGTCATTTCGACGTCAGCGAGGGGGATATTCGCTTTCATGATATTCCTCTGACGAAGTTACAACTC -GATAGCTGGCGTAGCCGCCTGGCGGTAGTTAGCCAGACGCCATTCCTTTTTTCTGACACTGTGGCGAATAACATCGCGCT -GGGTTGCCCGAATGCCACCCAGCAAGAGATTGAGCATGTCGCGCGGTTAGCCAGCGTACATGACGATATTTTGCGTCTAC -CGCAAGGTTACGATACAGAGGTGGGCGAGCGCGGTGTGATGCTTTCCGGCGGGCAAAAACAGCGTATCTCCATTGCTCGT -GCGTTATTAGTCAACGCGGAAATCCTCATCCTTGATGATGCGCTTTCGGCGGTGGACGGACGCACTGAGCACCAGATCCT -GCATAACCTGCGTCAGTGGGGGCAGGGAAGAACGGTAATCATCAGTGCCCATCGCCTTTCTGCACTGACGGAAGCCAGTG -AAATTATTGTGATGCAGCACGGACATATCGCCCAGCGTGGCAATCATGATGTGCTGGCACAACAAAGCGGCTGGTATCGC -GATATGTATCGCTATCAACAACTGGAGGCGGCGCTCGACGACGCTCCGGAAAATCGCGAGGAGGCCGTCGATGCGTAGTT -TTAGCCAACTGTGGCCGACTCTCAAGCGCCTGTTAGCGTACGGTTCGCCGTGGCGTAAACCGCTGGGGATTGCGGTCCTG -ATGATGTGGGTTGCGGCGGCGGCAGAAGTCAGTGGGCCGCTGCTTATCAGCTATTTTATCGACAATATGGTAGCGAAAAA -TAACCTGCCGTTGAAAGTGGTTGCAGGGCTGGCTGCGGCGTATGTTGGGCTGCAACTGTTTGCCGCCGGGCTACATTACG -CGCAGTCGCTGCTGTTTAATCGGGCGGCAGTAGGCGTAGTGCAACAGTTGCGTACCGACGTGATGGATGCTGCGTTACGC -CAGCCATTAAGCGAGTTTGATACCCAACCCGTCGGGCAGGTGATTTCCCGCGTCACTAATGACACTGAAGTGATCCGCGA -TCTCTACGTTACCGTAGTGGCAACTGTCCTGCGCAGTGCCGCGCTGGTGGGCGCGATGCTGGTGGCGATGTTCAGCCTCG -ACTGGCGAATGGCACTGGTGGCGATAATGATTTTCCCGGTGGTGCTGGTGGTAATGGTGATATACCAGCGTTACAGCACG -CCGATTGTCCGTCGTGTGCGCGCCTATTTGGCGGATATCAACGACGGCTTTAACGAAATCATCAATGGCATGAGCGTTAT -CCAGCAGTTTCGTCAGCAGGCGCGATTTGGCGAACGTATGGGGGAGGCCAGTCGTTCACACTATATGGCGAGGATGCAAA -CCCTGCGCCTCGACGGTTTTCTGCTGCGTCCGCTGCTGAGTCTGTTTTCATCGCTCATTCTTTGTGGCTTGTTGATGCTG -TTTGGCTTCTCCGCCAGCGGCACCATTGAAGTGGGCGTGCTGTATGCGTTTATCAGCTATCTTGGGCGACTTAACGAACC -ATTAATCGAACTGACCACGCAACAGGCGATGCTGCAACAGGCTGTTGTTGCTGGTGAGCGCGTGTTTGAACTGATGGACG -GACCGCGCCAGCAATATGGCAATGATGATCGCCCGTTACAGAGTGGCACCATCGAAGTCGATAACGTGTCATTTGCTTAT -CGCGATGACAATCTGGTGCTAAAGAACATTAATCTCTCTGTGCCTTCGCGCAATTTTGTGGCGCTGGTCGGGCATACCGG -CAGTGGCAAAAGCACCCTCGCCAGTTTATTGATGGGCTATTACCCGCTAACGGAAGGTGAGATTCGCCTTGATGGTCGTC -CATTAAGTTCGCTAAGTCACAGCGCGCTGCGCCAGGGCGTGGCAATGGTGCAGCAAGATCCGGTGGTGCTGGCGGATACC -TTCCTCGCCAACGTGACGCTGGGGCGGGATATCTCCGAAGAACGCGTCTGGCAGGCGCTGGAAACCGTGCAACTGGCGGA -GCTGGCGCGTAGCATGAGCGACGGTATTTACACGCCGCTGGGCGAGCAGGGGAATAATCTCTCAGTTGGGCAAAAGCAAC -TGCTGGCACTGGCGCGCGTGCTGGTCGAGACGCCGCAAATCCTGATCCTTGATGAGGCAACCGCCAGCATTGACTCCGGT -ACTGAACAGGCGATTCAACATGCTCTGGCGGCGGTGCGTGAACATACCACGCTGGTAGTGATTGCTCACCGCTTATCGAC -CATTGTTGATGCCGACACCATTCTGGTGCTTCATCGTGGGCAAGCCGTGGAGCAGGGCACTCACCAGCAACTGCTGGCGG -CCCAGGGACGCTACTGGCAGATGTATCAACTGCAACTTGCGGGCGAAGAGCTGGCAGCCAGCGTGCGTGAAGAGGAATCA -TTGAGCGCCTGAATAGCGCAATATTTCATCGTTGGTGCAAAAATGTAACGCACTGTGCACTGTCATAGTGCGTTTTCATT -TTCAAACTTCTTAACTTCCTGCTCTCTTTCTCGTTTTTCATTTCTGGCACACCGCTTGCAATACCTTCTTCGTGTAGCAG -AACCATTACCGAATTCTGACCGGAGGGGATCTATGAAGCTGGTGACCGTGATAATCAAACCATTCAAGCTGGAAGACGTT -CGTGAAGCGTTATCTTCCATTGGTATTCAGGGCCTGACCGTCACCGAAGTGAAAGGTTTCGGGCGTCAGAAAGGGCATGC -CGAGCTGTACCGGGGGGCGGAATACAGCGTCAATTTCCTGCCAAAAGTAAAAATTGATGTGGCGATTGCTGATGACCAAC -TCGATGAAGTGATCGATATCGTCAGTAAGGCGGCTTACACCGGAAAAATTGGCGACGGCAAAATCTTCGTCGCTGAATTG -CAACGCGTCATTCGTATTCGTACCGGCGAAGCCGACGAAGCGGCGCTGTAATCTCTGGCACACAGCAACAGGAACGAAAA -ATGAAGATAGCGACGATAAAAACTGGGCTTGCTTCACTGGCGATGCTTCCGGGACTGGTAATGGCTGCACCTGCGGTGGC -CGATAAAGCCGACAATGCGTTTATGATGATTTGTACTGCGCTGGTGCTGTTTATGACTATTCCGGGGATTGCCCTGTTTT -ACGGTGGGTTGATTCGCGGCAAAAACGTGCTGTCGATGCTGACGCAGGTGACGGTGACATTTGCACTGGTCTGTATTCTC -TGGGTGGTTTACGGTTACTCGCTGGCGTTTGGTGAGGGCAACAACTTCTTCGGCAACATTAACTGGTTGATGCTGAAAAA -CATCGAACTGACGGCGGTGATGGGCAGCATTTATCAGTATATCCACGTGGCGTTTCAGGGATCGTTTGCCTGCATTACCG -TCGGCTTGATAGTTGGGGCGCTGGCGGAACGAATCCGCTTCTCAGCTGTGTTGATTTTCGTGGTGGTATGGCTGACGCTC -TCTTACATTCCGATTGCGCATATGGTGTGGGGCGGTGGTTTGCTGGCTTCTCACGGTGCGCTGGATTTCGCGGGTGGCAC -CGTGGTGCACATTAACGCCGCAATCGCCGGTCTGGTGGGCGCGTATCTGATAGGAAAACGCGTGGGCTTCGGTAAAGAGG -CGTTTAAACCGCACAACCTGCCGATGGTCTTCACCGGGACTGCCATTCTCTATATCGGTTGGTTTGGCTTTAACGCCGGG -TCAGCGGGCACGGCGAATGAAATCGCGGCACTGGCATTTGTGAATACTGTGGTCGCAACGGCGGCGGCAATTCTTGGCTG -GATCTTCGGTGAATGGGCGCTGCGTGGTAAGCCTTCACTGCTGGGGGCGTGTTCTGGCGCGATTGCCGGTCTGGTCGGCG -TGACGCCAGCCTGCGGCTACATTGGGGTTGGCGGCGCGTTGATTATCGGCGTGGTAGCTGGTCTGGCGGGCTTGTGGGGC -GTTACCATGCTCAAACGCTTGCTGCGGGTGGATGATCCCTGCGATGTCTTCGGTGTGCACGGCGTTTGTGGCATTGTCGG -CTGTATCATGACCGGGATTTTTGCCGCCAGCTCGCTGGGCGGCGTGGGCTTCGCTGAAGGTGTGACGATGGGCCATCAGT -TGCTGGTACAGCTGGAAAGCATCGCCATTACGATCGTCTGGTCCGGTGTTGTGGCATTTATCGGCTACAAATTGGCGGAT -CTGACGGTTGGTCTGCGTGTACCGGAAGAGCAGGAGCGAGAAGGGCTGGATGTCAACAGCCACGGCGAGAATGCCTATAA -CGCGTAACAAGCACTGCAAAAAACAGCCGGACGGTTTTCACCTCCGGCTATTTTTTTAATTGTGATTACGCATCACCCCT -TCCTGAACGGTCGAGGCAACCAGTACGCCGTCTTGGGTATAAAACTCACCGCGCACAAAGCCACGTGCGCTGGACGCCGA -GGTGCTCTCCACGCTATACAGCAGCCATTCATTCAAATTAAACGGGCGATGGAACCACATGGAATGGTCAATGGTGGCAA -TCTGAATCCCCGGTTCGAGAAAACCGATGCCGTGCGGCTGTAGAGCTACCGGCAGGAAGTTAAGATCAGAAGCGTAACCG -AGCAGATACTGATGAACGCGCAGGTCATCCGGCACGCTACCATTTGCGCGGATCCACACCTGACGATGTGGTTCTGCGAC -GTGACCTTTCAGTGGGTTATGAAACTCCACCGGACGGACTTCCAGCGGACGATCGCAGATGAATTTATCTTTCAGCACTG -GCGGCAGCAGGTGCGCCAGCGATTGGGCGATTTGCGTTTCCGAAGGGAGGCCATCAGGCGCTGGCGCGGACGGCATTGTT -TTTTGATGTTCGAAACCCGCTTCTGGTGCCTGGAAAGAGGCAGTCATATAAAAAATCGGTTTGCCGTTTTGAATAGCAGC -AACCCGGCGGGCGCTGAAGCTGTTACCGTCACGCAGCGTTTCGACATCATAAATAATCGGCTTCTTACTATCGCCAGGGC -GAAGAAAGTAGCTGTGAAACGAATGTACCAGCCGCTCTTCAGGGACGGTCTCTTTTGCAGCATACAAGGCCTGACCCACG -ACCTGGCCGCCAAACACCTGGCGTAAACCTAAATCTTCACTCTGGCCGCGAAAGAGTCCTTCCTCAATTTTTTCCAGATT -TAACAATGTCAGTAAATTTTTTAGCGCCTGACTCATATAACTCTCCAGTAACAAAGCTGCCGCAGCAAGCCAAAGTGAGT -TGAGTATAACGCAAATTTGCTACTGGTCCGATGGGTGCAATGGTCTGAATTACGGGCTAATTACAGGCAGAAATGCGTGA -TGTGTGCCACACTTGTTGACGTTACTATTTTGTTAACCACTCTTCCGGCGAGGAAAGTTAGCCCGCTGGTGCATTGATAA -TAAGGAGAAATGAATGAAACTCGTGCACATGGCCAGTGGTTTAGCGGTTGCGATTGCGTTGGCGGCTTGCGCAGATAAAA -GCGCGGATATTCAGACGCCAGCACCGGCTGCAAATACGTCTATTTCAGCAACACAACAACCAGCTATCCAGCAACCGAAT -GTCTCCGGTACCGTCTGGATCCGTCAGAAAGTCGCACTGCCGCCTGATGCTGTGCTGACCGTGACACTTTCTGACGCGTC -GTTAGCCGATGCACCGTCAAAAGTGCTGGCGCAGAAAGCGGTGCGTACTGAAGGTAAACAGTCACCATTCAGCTTTGTTC -TGTCATTTAACCCGGCAGATGTTCAGCCGAACGCGCGTATTCTGTTGAGTGCGGCGATTACCGTGAATGACAAACTGGTA -TTTATCACCGATACCGTTCAGCCGGTGATCAACCAGGGCGGAACTAAAGCCGACCTGACATTGGTGCCGGTACAGCAAAC -CGCCGTGCCGGTTCAGGCCAGCGGTGGCGCAACGACTACCGTACCTTCGACTTCACCAACTCAGGTGAATCCGTCTTCGG -CAGTTCCAGCTCCTACGCAATATTAAGCGACGTTAACCCTCTCCGCCCGGAGAGGGTTAGTAGTTCCAGCGATAACGCTG -CAAGTCGATTTGCCCGCTTCCCGATACCATCACACCTTCTGCCAGTAATGCCTGTCGCTGACGCTGTAAATCCGGTCCGG -TTAGCGAAATTGTGCCGTGGCGATTAACCACCCGGTGCCAGGGTAAGGTGCTGCCTTCAGGGAGACGCTTTAACACACCG -CCCACCTGGCGCGCGGCGCGGGGCGATCCCGCCAGTTTCGCCACATCACCGTAAGTGGTGACATAGCCTTCGGGAATAGC -GGCGACGATTTGCCAGACGCGTTGGGGAAATGAATCTTCTTTTTCCATCTTTTCTTCCTGAGGTAATTTTTCAGCATAAT -CTGGAAAAACGCCCGAGTGAAGTCGCATTGCGCAAGAAACCAGCATCTGGCACGCGATGGGTTGCAATTAGCCGGGGCAG -CAGTGATAATGCGCCTGCGCGTTGGTTCTCAACGCTCTCAATGGGGGCTCTGTTGGTTCTCCCGCAACGCTACTCTGTTT -ACCAGGTCAGGTCCGGAAGGAAGCAGCCAAGGCAGATGACGCGTGTGCCGGGATGTAGCTGGCAGGGCCCCCACCCATTT -CTGCCTCCCACCGTTTCGTCAAAAAATCCCAACATGGCTAAACTTTAACCACAACTGACGTCGCAAGAATTGTCTGGCTG -CGCAGTACGCTTCGGAGGTATGTCTGATGAAGTATGTTGATGGTTTTGTGGTTGCCGTTCCTGCCGATAAAAAGGATGCC -TATCGGGAAATGGCCGCTAAGGCTGCGCCATTGTTTAAAGAGTTTGGCGCGCTTCGTATTGTCGAATGCTGGGCCAGCGA -TGTACCGGATGGCAAAGTGACCGATTTTCGTATGGCGGTGAAAGCGGAAGAGAATGAAGAGGTTGTCTTTAGCTGGATTG -AATACCCTTCAAAAGAGGTCCGCGACGCTGCTAATCAAAAGATGATGTCGGACCCACGGATGAAAGAGTTCGGCGAGTCC -ATGCCGTTTGACGGCAAGCGAATGATCTATGGCGGATTCGAGTCAATCATCGACGAATAGGTAGCGTGACGGGCTGTGCG -GCGTGCCGTCAGCCCAAAAATTCACAAATGTTGCTCGGCCCAGCGTAAGAAATCTTCTTTCGGTAATGCCTTGCTGTAGA -GCCAGCCCTGACCGTAGTGCACGCCATGCTGGCGTAACCACTCTTCTTGTTTACTGGTTTCGATTCCCTCCGCTACCATT -TTCAGTTTCAGTGTTTTTGCCATTTCGATGATATGCGGCGTGACATTTTTATATTCCAGCGCATCAACGAAAGATTTATC -GATCTTCAGAATGTCGACATCCAGATCCTGTAAATAACTTAAACTTGAATACCCCGTACCAAAATCATCAAGATAAATTT -CATGGCCCGCCTCCCGGTAGCGAGAAATTATCGGGGCGCTGGTTTTCGGATCGGCAAACTCGCGTTCAGTGAGTTCAAGC -GCGATCTGTCTGGGATTAACCTGATAGTGATTGATCATGTCACGCAGCAATTGCGGGATTTTTTCCGAGGTGAGCACGGG -GGATTCAAGATTGATCGAAATATGCTGCTGTGGATGCTGACGCAGCCAGTCGCCCATATCTTCAAAGACGCTTCTTATAA -TCAGTAGCGTCAATGGCTCAGAAAGGCCCGTTTGCTGTGCCAGCGGAATAAAACTATCTGGTGACAACCAACTACCGTCT -GTCTGCGGCCAGCGCGCCAGTGCCTCAGCACCGACAATTTTGCCATTGGCTAAGGAGACAATCGGCTGATAGTGCACGCA -AATATCACGATTTTCGATAGCATCCTGCAGCCGATGATGCGGTGACTGAATACGGCGCAAAATACGCAGCACAAACATCG -CTGCCAGCAGGCCAATCACCAACCCGAGCGGTAACCAAATAAAGACTTGCCGATGCCAGCCTTTCTGCAACATTTTCGTT -GAAGCCCATGTGATGATCGAAATATTCATCTCCGGTAAGGGCAGGATATCGTAAATGATTCCATTATTTTCGATATGCTC -ACCGGGTGTTTTTTGTAGCCTGGTAATAATTCCCTGAGCAATTTCATCGCTGCTGGTTATGACAACGTTATGGGCATTGC -CAATAATGGCGGCATCAATTTGCCATGAGCTATAGGGAATGACATCAATAAAGGAAGCGGGGTCGATCATGACGACATAA -TGTGCCGTTCCCATGGCGACCATGTAACGGATAATGCCTAAATCGTTATGCGATGTTAACCAGACACGATAACCATCTTT -CGAAATTTTACCTGGCTCGGGGAAGGTATCGGGCGGACTTTCATGCTCCAGAGACGAACACTGGGGAACGTTGTTATCGA -TATAAGCCACTTCCTGAATATAGCGATAACTGTAAGATACCCGACGCATTTCCATGAGATGGGCTTCGCTACAGGCAGCG -CCTTGCCATCTTTCCAGCTCCTGCAGCGCATCTTTCCCTTGTGTCGCCACCTTATTGGCTCGAATAGCGACGCGGGAGGA -ATAGGTATCCAGCTCTTCAATAAACGATGTTTCTACCTGCTGATGGGCCAGCCAGATGCTTAAGCCGACAGGCAGCAATA -CTGAAAGAATCAGTACTCCCGAAATAAGGCCGACCAGATGTCGTGTTCTCACCAGCATATCCTTATTAACACAGTGTAGG -GAAAGTATATCTGATTGTGGAAAAAGGCTGGCTGGAGATAAGGAGGTAGAGCTGGTATTTCATGAAGTGATGGGTGGAAA -CGATCATTGTCATTTGACCAGGCGCAGAGCTTTACGCCTGGTATGTAACCCTAACTTAAGATGTTGATTCGGCGCGAGCG -AGGGTAAAAATATCGTAAAAAGACAGTTCACCTTTACGGACGATCATTTTTTGCAGTTGTTCCTTATGAACATCCGCGAC -ACGCGGAGAGTTCAAGATGGCTTCAACCAGCGCGGCAGGTACAAAGCGCGTGTTGTACCATTCGCCGTTATAGCAAACGC -GGAAATCCAGCACGTCGATATCTTCATAGCGGTAGCGTGGGTAGACATCGAAAAAGAAGAAACCATTAAGCAGGATAAAT -AATACAACCAGTAGCCAGACAGAGCCTGACAGCGTTTCGGACTGCAACATCACCGCCAGGGTGGCAAAAAAAGCAACGTA -CATACCGATAAACAGCCCCGGATGTTTACGGATAAAACTGATACTAAAGCGGGGTTTGTTGTCGCGTTTTTCGCGGGTAT -TCAGAGACTCAATCGTTTCGGTCAGCAGGCGTTGTATTTCGGTCATCGTTTGCCTTCGTGGTATCTGCAACTTTCCAGGG -AACACCCTATTTTAACGTGGGAATAGTAGAGGGGAAGTAACAGATCTACCACAATTTTGCATAACAGTTGCGAAAAACCG -ATTACAATTTTTTAATTATTCTGGCTGGATTACCGCCCACGACAACGTTGTCCGGGACATCTTTTGTGACAACTGCACCT -GAGGCTACCACGACGTTATCACCAATGGTCACACCAGGGTTAATGACCGCGCGTCCGCCAATCCAGACGTTATTACCGAT -GGTGACGGGTTTCCCCAGTTCAGCACCGCTATTACGTGCTACAGGGTCGATGGGATGTGTTGCCGTGTAGATATGAACGC -CTGGTGCCAACATACAGTTATCACCGATGCGAATAGGGCAGACATCAAGCATCACGCAATCGAAGTTGGCGAAAAAATTA -TTACCGAGAAAAATGTTATAGCCATAGTCACAGCGAAACGTTGGCTCAATATAAGCCTCTGTCACCTGACCGAATAGATC -AGCGAGAATTTGCTGGCGTAATGTGTGCTCTTCCGCCAGGGAATGATTGTATCGGTGAATAAGCTGACGAGCGCGCAGGC -GATCGCGAGATAACGTCTCATCTGCCGAGCGATACAACTCACCAGCAATCATCTTTTCTTTTTCTGTGCTCATTACTGAC -CTCCGGTTGCTGAAAATGCGGCAACACAGTAAGACGAAAAGTCAGTGAAGAGAACGTTCCCATTACATCTGTGTGATAAA -GATCACATAGGGTATGTCTTCATGGCGAAAAAGTATAAAATTCTTAATAAACAGCCGGTTATAGCTCCGAAAGCGAATTA -TTTATTAGCGAATAAATTTCCATACTGAGGAAGGGATCTTGTCGTACAGTTTATTCATGGTCAATTCGGCGAGGCGGTGA -TCTGCGGCTGAGTAAAATACCGCCAGTTCATTATCTGATAATTCGTATTTATTTTTCTCGATAACACGCTCCAGCGTGTC -AATTGTCTGGCAACGACGTAAACGCATTAAATAATCGGTTTTCGTTAAAAATTTTTCGGACATACTTCTACCTATGGTTG -TAATAATTCTAACAAGATAAACTCGCAGGATTCTCTTTCGTCGCATTGACAAAACAACGGAATAGTCGATTACCTGACTT -CCGCCATTTCTGAAGATCCTGCATATTAATACCATAACTACTGAACAACATAAAGGTGTCATCCAGATATTCGTCGATCT -GCTCAATGAGCTTATTGTCTTCATTATACTTAATTTTGTAATTAAGTGCGAAGGTCGCAATATGCTCAATCAGTTCATTC -AACTGGAGGTTGATCGCCGAGGTTGGGTCGTTTACCCAGCCATGATTGCTTTCTTCAAGGTTTGCAAGGCAGTCATGATA -CAGGGTTTCACAGAGAAACTTAAGCTGTGCGATATCATGTCTTTTGGGTGAGTATTCATCCATAACGCGTCCCCTTCTTA -GCGGTTGAACTAACGGACACCTTTCGGGATGGAAAAAACTTACTGACCTGGACTTGCCCTCTCGTTTGTTAGCTTAACTA -TAAGCCACTCTTTGCAGGTTTTCATCGCATTATTACGAAAAATTACAATTAGGAAGGAAGCGGGACAGGACTCACTTTTT -CATACTAGCACTAACCCGCAGCAGGTAAAAGCAGTTTGCTCGAACTATTCATAACATTTCAGGATTATCGCCAGATGAAA -TTGGTGACACTAATACCAGGATTGCTCTGAATATGACGTAATAACCGAGGAATGAATAAAGAATTACCGCAAATAATTAA -GAATAGCCTCTAAATGATTATGGATTATTAAATCTATTAGCGCTACTTAATATAAATTAACTAACAATCAGTATTTTTTA -TGAATTTTATCCGTGGTTAATACTGGTTTTCGTATGAGATCCTGAGTTGGTGGTTCAATTACTCCTTAATGTTCGTAGGT -TATGCATAAAAAAGGCCGCTTACGCGGCCTTAGTGATTACACGTTGTATCAATGATGATCGACAGTATGGCTGTGCTCGA -TATCTTCATTCTTGCGGCTAAAGCGGCGGCGAACCACCACAAAGAATACCGGAACGAAGAAGATTGCCAGTACCGTTGCG -GTCACCATCCCGCCCATTACACCGGTACCTACTGCGTTCTGCGCGCCGGAACCAGCACCAGTACTGATAACCAGCGGCAT -AACGCCGAGGATAAACGCCAGCGAGGTCATCAGGATCGGACGTAAACGCATCCGCACCGCATCAAGCGTCGCTTCAATCA -GACCTTTACCTTCTTTATCCATCAAGTCTTTGGCGAATTCGACGATAAGGATCGCGTTCTTCGCCGACAACCCAATGGTT -GTGAGCAGGCCTACCTGGAAGTAAACGTCATTGGTCAGGCCACGGAAGGTGGCAGCCAGCAACGCACCGATAACCCCCAG -CGGAACGACCAGCATAACGGAGAACGGAATCGACCAGCTCTCGTACAGCGCCGCCAGACACAGGAACACGACAATCAACG -AAATCGCGTACAGTGAAGGTGCCTGGTTGCCGGAGAGACGTTCCTGATAGGACATCCCCGTCCAGTCATAGCCAACACCG -GTAGGCAGTTTGCTCGCCAGTTGTTCCATCAGCTCCATTGCTTCACCGGTACTTTTACCCGGTGCCGCCTGGCCTAAGAT -TTCCATGGATGGCAGGCCGTTGTAACGTTCCAGACGCGGCGAACCGTACTCCCAACGAGAAGAGGAGAACGCCGAGAATG -GCACCATCTGACCATCAGCAGCACGAACATACCAGTCGCCGATATCATCCGGCAGCATACGGTATTTCGCTTCTGACATG -ACATAAACTTTCTTCACACGACCGCGGTCGATAAAGTCGTTCACATAGCTGCCGCCCCATGCAGCGCCCAGAGTGGTGTT -AATGTCGTTGATAGAAACACCCAGCGCCTGCGCTTTTTCCTGGTCGATATCAATCTTAAACTGCGGGGTATCTTCCAGAC -CGTTTGGACGTACGCTGGTCAACATATCAGGGTGCTTCGCTGCTTCTGCAAGCAACTGGTTACGCGCCTGAGTCAGTTTT -TCGTGACCAAGGCCAGCCTGGTCAATCAGCTCAAAGTCAAAGCCGGTTGCAGTACCCAGTTCCACGATTGCGGGCAGGTT -AAAGGCGAAAACCATCGCATCTTTGATTTGCGAGAAAGCGCGTGTTGCACGCATGGTAATCGCTTCAACTTTGTTTTCTT -CGCCCGGACGATCGGCCCAGTCCTTCAAGGAAACGAACGCAATACCGGTATTCTGACCACGTCCCGCAAAGCCGAAGCCG -TTAACGGCGAACACCGACTCAACGTTGTTCTTTTCTTTGGTCAGATAGTAATGCGTTACCTCATTGAGCACTTTCTGTGT -ACGTTCCTGCGTTGCACCTGCTGGCAGCTGAACCATGGTCATAAACACGCCCTGGTCCTCATCTGGCAAGAAGGAGCTTG -GCAGACGCACGAACAGATAGGCCATGCCGACCACGATGATCAGATACAGCACCAGGTAACGCCCCGTACTGCGCAGAATA -CCGCCTACGCTGTCGGTGTAGTGGTGCGTGCTCTTCTCGAACATGCGGTTAAACCAGCCGAAGAAGCCTTTTTTACCTTC -CCCGTGATCGCCTTTGGCAATCGGTTTCAGCATGGTGGCACAAAGAGCTGGAGTCAGGATCAACGCCACCAGTACCGACA -GCGCCATTGCTGAAACAATGGTAATAGAGAACTGACGATAGATAGCACCAGTAGAACCGCCAAAGAAGGCCATCGGTACG -AATACCGCCGACAGTACCATCGCGATACCGACCAGAGCGCCCTGAATCTGCCCCATCGACTTACGGGTAGCTTCTTTTGG -CGGCAAACCTTCTTCCGCCATAACACGCTCAACGTTTTCTACCACAACGATGGCGTCATCCACCAACAGGCCGATGGCGA -GCACCATCCCGAACATTGTTAGCGTGTTTATCGAGAAGCCAAAGGCGGCAAGGACGGCAAAGGTCCCGAGCAATACCACC -GGTACGGCAATGGTCGGAATCAACGTCGCGCGGAAGTTCTGCAGGAACAGATACATAACCAGGAACACGAGGATGATCGC -TTCGACCAGCGTTTTAACCACTTCGTGAATAGAGATTTTCACGAACGGCGTGGTGTCGTATGGGTAAACAATTTTCAGAC -CCGACGGGAAGAACGGTTCCATCTTCGCCAGTTCAGCACGGATTGCCGCAGCGGTATCCAGCGCGTTTGCACCGGTCGCC -AGCTTGATCCCCAGACCGGAAGCCGGTTGGCCGTTAAACTCTGCGATGATGTCGTAGTTCTCACCACCCAGCTCAATCTT -CGCGACGTCACGCAGCAGCACGCGGGAACCATCCTGATTCACTTTCAGCAGGATTTTGCCGAACTCTTCAGTAGAGGTCA -GACGCGTCTGAGCAATAATAGAGGCGTTAAGCTGTTGGCCTTTCACCGGCGGCGTACCACCGAGCTGACCCGCCGCAACC -TGGGCGTTCTGCGCTTTGATGGCGGTAATGACATCAACCGGCGTTAGCTGGAATTTGTTCAGCTCATTCGGGTTCATCCA -GATACGCATCGCGTACTGTGAACCGAACAACTGAACATCACCCACGCCCGACGTACGGCTGATGGCATCTTTCATATTCG -CCGCCACGTAGTCGGAGATATCCTCCTGCGTCATGGTGCCATCGGTGTTGATAACGCCGACAACCATCAGGAAGCTGCTG -GATGATTTCTCAACGCTCACCCCTTGCTGCTGAACTTCTTGCGGCAGCAACGGCATCGCCAGCTGCAGTTTGTTCTGCAC -CTGAACCTGCGCGATATCCGCATCAGTACCAGACTCAAAGGTCAGGGTGATCTGCACGGTACCCGTGGAGTCACTGTTAG -AGGACATGTACATCAGGTTATCGATACCGTTCATATTCTGTTCGATAACCTGTGTCACCGTGTCCTGCACTGTTTTCGCA -TCAGCGCCGGGGTAGGAGGCGGAGATCGTTACTGCCGGCGGTGCAATCGTAGGATATTGCGCCACCGGCAGTTTGAGGAT -CGCCAGCCCCCCTGCCAACATGATGATAATGGCGATCACCCACGCAAAAATCGGGCGATCGATAAAGAAATTAGGCATGT -CTTAACGGCTCCTGTTTAAGTTAAGACTTGGACTGTTCAGGCTGAGCACCGCTTGCGGCTTGCTGGTTATTATCAGCGGT -AACTTCTTGTGCTTTTACCTGGACACCAGGACGCACTTTCTGCAGCCCACTTATTACTACGCGATCGCCTGCTTTCAGAC -CTTCTGTCACCAGCCACTTATCGCCAATAGCCTGGCTTGCAACGATCGGACGGGTTTCCACTTTGTCATCCGCGCCAACT -ACCAGTACGGTGGCATCGCCACGCGGCGTACGGGTTACGCCCTGTTGCGGGACTAAAATAGCGTTTGGATTAAGCCCTTC -TTCCAGACGTGCGCGCACGAACATACCCGGCAGCAGAGTGTGATCCGGGTTCGGGAAGATAGCGCGTAGGGTGATAGACC -CAGTGGTCTGATCAACGGTAACGTCAGAGAATTCCAGCGTACCGTCCTGCGGGAACTTAATGCCGTCACTGGTGATCAGT -GACACTTTGGCTTTGCCGTTCTCTTGTTTCAGCGTGCCATTCGCCAGTTCCTGTTTCAGGCGCAGGAAGTCGTTGCTGGA -CTGGGTCACATCAACGTAGATCGGATCAAGTTGCTGCACGGTTGCCAGCGCAGTCGCCTGACCGTTCTGTACCAATGCGC -CTTCCGTCACGTTCGACTTACCAATGCGACCGCTAATCGGAGAGGTGACTTTGGTGTAAGCCAGATTGATCCGCGCAGTT -TCAACGGCAGCTTTCGCCGCAGTTACCGCAGCATTCGCCTGTTGCGCATCAGCCAGAGCCTGATCGTACTCTTGCTTACT -GATGTACTGAGTACCGAGCAGTTTCTGATAACGATTCACCGTCAATTGCGCGATATTGGCTGCAGCCTGGGCTTTCGCCA -GATCACCTTTCGCACTGTCGTATGTCGCCTGATAGGTCGCAGGATCAATCTGATAGAGAGAGACACCTGCTTCGATGTCG -CTACCTTCTTTGAAATTACGCTTCAGGATAATCCCGCTAACTTGAGGACGAACTTCTGCGATCCGGTAGGCACTGGTGCG -ACCCGGAAGCTCGGTTGTGATCTGCAGAGGTTCAGTTTTGACTGTTACTACGCCAACGGCGGGCATCTGCTGGCCACCTT -GTTGGGCCTGTTTGTCGTCACATCCTGTTAGGGCTAAGCTGCCTGAGAGCATCAGAACGACCGCCAGAGGCGTAAACCCT -CTGTTTTTGTTCATATGTAAACCTCGAGTGTCCGATTTCAAATTGGTCAATGGTCAAAAGTTAATAAACCCATTGCTGCG -TTTATATTATCGTCGTGCTATGGTACATACATTCACAAATGTATGTAAATCTAACGCCTGTAAATTCACGAACATATGGC -ACGAAAAACCAAACAAGAAGCGCAAGAAACGCGCCAACACATCCTCGATGTGGCTCTACGTCTTTTCTCACAGCAGGGGG -TATCATCCACCTCGCTGGGCGAGATTGCAAAAGCAGCTGGCGTTACGCGCGGTGCAATCTACTGGCATTTTAAAGACAAG -TCGGATTTGTTCAGTGAGATCTGGGAACTGTCAGAATCCAATATTGGTGAACTAGAGCTTGAGTATCAGGCAAAATTCCC -TGGCGATCCACTCTCAGTATTAAGAGAGATATTAATTCATGTTCTTGAATCCACGGTGACAGAAGAACGGCGTCGATTAT -TGATGGAGATTATATTCCACAAATGCGAATTTGTCGGAGAAATGGCTGTTGTGCAACAGGCACAACGTAATCTCTGTCTG -GAAAGTTATGACCGTATAGAACAAACGTTAAAACATTGTATTGAAGCGAAAATGTTGCCTGCGGATTTAATGACGCGTCG -CGCAGCAATTATTATGCGCGGCTATATTTCCGGCCTGATGGAAAACTGGCTCTTTGCCCCGCAATCTTTTGATCTTAAAA -AAGAAGCCCGCGATTACGTTGCCATCTTACTGGAGATGTATCTCCTGTGCCCCACGCTTCGTAATCCTGCCACTAACGAA -TAACCCTGAATCTGACTCCAGGATTTTTCCTGGACATTTTCGTCGTTGCTATTCTGGTTCACTGCGTCGTGATATTCTTG -CGGTTTGACTTTTTCAGGTCGTTCTTCAGGTTCAGAAACCTTCATTCATCATGACTATGTTCCAGTATTACAAACGATCA -CGGCATTTTGTTTTTTCAGCATTTATTGCTTTTGTTTTTGTCTTGTTATGCCAGAACACGGCGTTTGCGCGGGCGTCATC -GAATGGTGATCTGCCGACAAAAGCGGACCTGCAGGCGCAACTTGACTCACTAAATAAACAAAAAGATCTTTCTGCTCAGG -ACAAACTGGTGCAGCAGGATCTGACAGATACATTAGCCACCCTCGATAAAATCGATCGCATAAAAGAAGAGACAGTTCAG -CTACGGCAAAAAGTCGCTGAAGCGCCGGAAAAAATGCGCCAGGCGACCGCGGCGTTAACAGCACTTAGCGATGTCGATAA -CGACGAAGAAACGCGCAAAATTCTGAGCACGCTGTCGTTGCGCCAGCTGGAAACTCGCGTTGCCCAGGCGCTGGACGATT -TGCAAAACGCACAAAACGATCTGGCGTCTTATAACAGCCAGCTGGTTTCGTTACAGACGCAGCCCGAACGCGTGCAAAAT -GCGATGTATAACGCTTCGCAGCAGCTGCAACAAATTCGCAGTCGTCTGGATGGGACTGATGTCGGCGAGACAGCCTTACG -TCCCAGCCAGAAAGTGTTAATGCAGGCCCAGCAGGCGTTGCTGAATGCGGAGATTGACCAGCAGCGTAAAAGCCTGGAAG -GGAACACCGTCTTGCAGGATACCTTGCAAAAGCAACGTGATTACGTGACGGCGAACAGCGCTCGTCTGGAGCACCAGTTA -CAACTGTTGCAAGAAGCGGTAAACAGCAAGCGCCTGACTTTAACCGAAAAAACGGCGCAGGAAGCCGTCTCCCCGGATGA -AGCCGCGCGTATTCAGGCTAATCCGCTGGTGAAGCAGGAACTGGAAATTAACCAGCAGTTAAGTCAGCGTCTGATTACCG -CGACTGAAAACGGTAATCAGTTGATGCAGCAAAACATTAAAGTCAAAAACTGGCTGGAGCGGGCGCTGCAATCGGAACGC -AATATTAAAGAGCAGATTGCCGTCCTGAAGGGCAGCCTGCTGTTGTCTCGTATCCTTTACCAGCAACAACAAACGCTGCC -CTCGGCGGATGAACTGGAAAACATGACCAACCGCATCGCGGATTTGCGTCTCGAACAGTTTGAAGTTAACCAGCAGCGTG -ATGCACTCTTCCAGAGCGATGCGTTCGTCAACAAACTGGAAGAAGGTCACACCAACGAAGTCAACAGCGAAGTTCACGAT -GCGTTATTGCAAGTGGTTGATATGCGTCGCGAATTGCTGGATCAACTCAACAAACAGTTGGGTAACCAGCTGATGATGGC -CATTAACCTGCAAATCAACCAGCAGCAGTTAATGAGTGTGTCGAAAAACCTGAAATCCATCCTGACTCAGCAAATCTTTT -GGGTGAACAGTAACCGTCCAATGGACTGGGACTGGATCAAAGCGTTCCCGCAAAGCCTGAAAGATGAATTTAAGTCGATG -AAAATCACGGTGAACTGGCAAAAAGCCTGGCCCGCCGTTTTTATCGCTTTCCTCGCTGGTTTGCCGCTGCTGTTGATTGC -CGGGCTGATCCACTGGCGTCTGGGCTGGCTGAAAGCGTATCAACAAAAACTGGCTTCCGCTGTGGGTTCCCTGCGTAACG -ACAGCCAGCTCAACACACCAAAAGCGATCCTTATCGACCTGATCCGTGCGCTGCCGGTGTGCCTGATTATTCTCGCGGTT -GGCCTGATTCTGTTGACCATGCAGCTCAACATCAGCGAACTGCTATGGTCGTTCAGCAAAAAACTGGCGATATTCTGGCT -GGTGTTTGGCCTGTGCTGGAAGGTACTGGAGAAAAACGGCGTTGCCGTACGTCACTTCGGCATGCCGGAACAGCAGACCA -GCCACTGGCGTCGGCAAATTGTCCGCATCAGTCTCGCATTGCTGCCTATCCATTTCTGGTCTGTGGTGGCAGAACTTTCC -CCGCTGCATCTGATGGATGATGTGCTGGGGCAAGCGATGATTTTCTTCAACCTGCTGCTGATTGCCTTCCTGGTATGGCC -GATGTGCCGCGAAAGCTGGCGTGATAAAGAGTCGCACACCATGCGACTGGTCACCATTACCGTGCTGTCGATAATCCCGA -TTGCGCTGATGGTGCTGACTGCTACAGGCTACTTCTACACTACGCTGCGTCTGGCAGGACGCTGGATTGAAACCGTTTAT -CTGGTGATCATCTGGAACCTGCTGTACCAGACGGTACTGCGTGGCTTAAGCGTAGCGGCGCGGCGTATCGCCTGGCGTCG -TGCGCTGGCGCGTCGGCAGAATCTGGTGAAAGAGGGCGCAGAAGGTGCTGAACCGCCGGAAGAACCCACCATTGCACTGG -AGCAAGTTAACCAGCAGACGCTGCGTATTACCATGTTGCTGATGTTTGCGCTGTTCGGTGTCATGTTCTGGGCAATTTGG -TCCGATTTGATCACCGTGTTCAGCTATCTCGACAGCATCACGCTCTGGCATTACAACGGCACTGAAGCTGGCGCTGCGGT -GGTGAAAAACGTCACCATGGGCAGTCTGTTGTTTGCGATTATCGCCTCAATGGTGGCCTGGGCGTTGATTCGCAACCTGC -CTGGTTTACTGGAAGTGCTGGTGCTCTCGCGACTGAATATGCGCCAGGGCGCGTCGTATGCCATTACTACCATCCTTAAC -TACATCATTATTGCTGTTGGTGCGATGACGGTGTTCGGATCGCTGGGCGTCTCTTGGGATAAACTCCAGTGGCTGGCCGC -AGCATTATCCGTAGGTCTTGGTTTTGGTTTACAAGAAATTTTCGGTAACTTCGTCTCCGGTTTGATCATTCTATTCGAAC -GTCCGGTGCGTATTGGCGATACGGTAACCATTGGTAGCTTCTCGGGGACGGTAAGTAAGATCCGTATTCGTGCGACAACG -ATTACCGATTTCGATCGCAAAGAAGTGATCATCCCGAACAAAGCGTTTGTTACCGAGCGTCTGATCAACTGGTCGTTGAC -TGACACTACTACGCGTCTGGTGATCCGTCTCGGCGTGGCCTATGGCTCCGATCTGGAAAAAGTGCGTAAAGTGTTACTGA -AGGCGGCGACTGAGCACCCAAGGGTGATGCACGAACCAATGCCGGAAGTCTTCTTTACGGCATTTGGTGCCAGCACGTTG -GATCATGAGCTGCGTCTGTATGTGCGTGAACTGCGTGACCGTAGTCGTACTGTCGATGAGCTGAACCGTACTATCGATCA -GCTGTGCCGTGAAAACGACATCAACATTGCCTTTAACCAGCTTGAAGTGCATCTGCACAACGAGAAGGGCGATGAGGTGA -CGGAAGTAAAACGCGACTACAAAGGCGATGACCCGACGCCAGCGGTAGGGTAAAAACGAAAGGGGGCAACATTTAGTTGC -CCCGAGATTGCTAACAAAGTGCGCGTTGTTCATGCCGGATGCGGCGTGACCGCCTTATCCGGCCTACGAAACCGCAAGAA -TTCAATATATTGCAGGAGCGGTGTAGGCCTGATAAGCGTAGCGCATCAGGCAGTTTTGCGTTTGCCCGCAACCTTAGGGG -ACATTTAGCGACCCCATTTATTTCTCACTTTTCCGCCTCATCATCGCGCGTTAATTTCTTTTCATAATCACGCTTTACAA -TATCCAGCGCGCGCAGCACGGTACTGGCAGGGATCTGATTTTCCTCCAGCAGCACAATCAAATCGACAGCCAGTTTGACA -TCGTCAGGGGCATTTTCCAGTGACATATTCTCTCCATTGCTAGCGGGTTAAACGCGCTAACCTGTTTTCGATTTTTTCCA -GCGCATGGCGGCAGCGTGCCAGGCGCGCTTCATAGGCTTCCACTTCACGATGCAGCGTTTGCTGTTCCACGAGATCGGTC -ACCCGCGCCAGACGGGCTCTGCGTTCGGCAACCATCTCACGTAGCCGCCGCTCAAAATCCTGATGCTGAATACGTTTACG -CTGCCAGCGGGCAATTTTCGGTGGTGCACTGTCCCACTCGCGCAATGACCAGGCGGAGGCTTCACGCGCGATGGCTTCCA -GTTGTGCCGCCAGATGTTCCGCCAGCCAGGCCACTTGCGGCAGCTGTTGCTGCTCAACTGCATGACGAAGCGCAGCCAGA -TTATCGCCCGCCTCGTCGAGACAAGCCTGTAGTGTTGTCGCACGAGTCTGAAAAAGATGCCTGTCGAAACGAGCACTTAG -CGTGGCGAACTGTGACACCGGGGCACAACGCTGACGCAGCGTAGCGAGCTGTCCTTCCAGTTTTTCCAGCAGCAGGGCGG -TTTTCACGATAAGACCTCAATGAAAATGATAATTGTTATGCTAAAGTAGCCACTCTGTAAGCTGACAACACTCAATATGC -AACGAATCATTTTAATCATCATTGGCTGGCTGGCGGTAGTGCTGGGTACGCTGGGCGTGGTATTACCGGTATTACCGACG -ACGCCGTTTATCCTGCTGGCGGCCTGGTGCTTTGCCCGTTCTTCCCCGCGCTTTCACGCCTGGTTGCTGTACCGCTCATG -GTTTGGCAGCTATCTACGTTTCTGGCAGAAACATCATGCGATGCCGCGCGGCGTCAAACCGCGGGCGATTTTGCTTATTT -TGCTCACGTTTGCCATTTCTCTGTGGTTCGTCCAGATGCCATGGGTGCGCATCATGTTGCTGGTAATTCTCGCCTGTTTG -CTTTTCTATATGTGGCGAATTCCGGTGATTGATGAAAAGCAAGAAAAGCACTGAAGCACAACAATCGCAGTTGCAATTAT -TGCGTACAGCCAGTACATTCTGGCGTTTTCGAGCACAGGCGCAGGCGGTCAAAGGTTAAACAACTGTTACTTTTGATACG -TTTAAAACGCGCCGTGAGTACCACCGTAACAAGCAGGCATACACTTATGACCGCGACTGCACAGCAGCTTGAGTATCTCA -AAAATAGCATCAAAAGCATTCAGGACTACCCAAAACCCGGCATTCTTTTCCGCGATGTCACCAGCTTACTGGAAGACCCG -AAAGCTTACGCTCTCAGCATCGACTTGCTGGTTGAGCGTTACAAAAATGCGGGCATTACCAAAGTTGTCGGCACCGAAGC -GCGTGGCTTCTTGTTTGGCGCTCCGGTAGCTCTGGGTCTGGGCGTTGGCTTTGTACCGGTCCGTAAACCGGGCAAACTGC -CGCGTGAAACCATCAGTGAAACTTACGACCTGGAATACGGCACCGATCAGCTGGAGATCCACGTTGATGCCATCAAACCG -GGCGACAAAGTTCTGGTGGTGGACGACCTGCTGGCAACCGGCGGCACTATCGAAGCGACCGTTAAACTGATCCGTCGTCT -GGGTGGTGAAGTGGCTGACGCTGCGTTCATTATCAACCTGTTCGATCTCGGCGGCGAACAGCGTCTCGAAAAACAGGGCA -TTACCAGCTACAGCCTTGTCCCGTTCCCGGGCCATTAATTATCGCCAGTCTTGTGCTGCCCACGCTACGGACAGCACAAG -ATGTGCATTCAGCCTCGCCGTTCTGACGGGGCTGTGTTAGCATTACCCCTTCGTGAATCCACCTTCCAGCGTTTCAGAGC -CTGCCAATGAGTTATCAGGTCTTAGCCCGAAAATGGCGCCCACAAACCTTTGCTGACGTCGTCGGCCAGGAACATGTGCT -GACCGCACTGGCGAACGGCTTGTCGTTAGGGCGTATTCATCATGCTTATCTTTTTTCCGGCACCCGTGGCGTCGGAAAAA -CCTCTATCGCCCGACTGCTGGCGAAGGGGCTAAACTGCGAAACCGGCATTACCGCGACGCCGTGCGGCGTGTGCGATAAC -TGTCGTGAAATCGAGCAGGGGCGCTTTGTCGATCTGATTGAAATCGACGCCGCCTCGCGCACCAAAGTTGAAGATACCCG -CGACCTGCTGGATAACGTCCAGTACGCTCCGGCGCGTGGTCGTTTCAAAGTTTATCTGATCGACGAAGTGCATATGCTGT -CGCGCCACAGCTTTAACGCACTGTTAAAAACCCTTGAAGAGCCGCCGGAGCACGTTAAGTTTCTGCTGGCGACGACCGAT -CCACAGAAATTGCCGGTGACGATTTTGTCACGCTGTCTGCAATTTCATCTCAAGGCGCTGGATGTCGAGCAAATTCGCCA -TCAGCTTGAGCACATCCTCAACGAAGAACATATCGCTCACGAGCCGCGGGCGCTGCAATTGCTGGCACGCGCCGCTGAAG -GCAGCCTGCGAGATGCCTTAAGTCTGACCGACCAGGCGATTGCCAGCGGTGACGGCCAGGTTTCAACCCAGGCGGTCAGT -GCGATGCTGGGTACGCTTGACGACGATCAGGCGCTGTCGCTGGTTGAAGCGATGGTCGAGGCCAACGGCGAGCGCGTAAT -GGCGCTGATTAATGAAGCCGCTGCCCGTGGTATCGAGTGGGAAGCGTTGCTGGTGGAAATGCTCGGCCTGTTGCATCGTA -TTGCGATGGTACAACTTTCGCCTGCTGCACTTGGCAACGACATGGCCGCCATCGAGCTGCGGATGCGTGAACTGGCGCGC -ACCATACCGCCGACGGATATTCAGCTTTACTATCAGACGCTGTTGATTGGTCGCAAAGAATTACCGTATGCGCCGGACCG -TCGCATGGGCGTTGAGATGACGCTGCTGCGCGCGCTGGCATTCCATCCGCGTATGCCGCTGCCTGAGCCAGAAGTGCCAC -GACAGTCCTTTGCACCCGTCGCGCCAACGGCAGTAATGACGCCAACCCAGGTGCCGCCGCAACCGCAATCAGCGCCGCAG -CAGGCACCGACTGTACCGCTCCCGGAAACCACCAGCCAGGTGCTGGCGGCGCGCCAGCAGTTGCAGCGCGTGCAGGGAGC -AACCAAAGCAAAAAAGAGTGAACCGGCAGCCGCTACCCGCGCGCGGCCGGTGAATAACGCTGCGCTGGAAAGACTGGCTT -CGGTCACCGATCGCGTTCAGGCGCGTCCGGTGCCATCGGCGCTGGAAAAAGCGCCAGCCAAAAAAGAAGCGTATCGCTGG -AAGGCGACCACTCCGGTGATGCAGCAAAAAGAAGTGGTCGCCACGCCGAAGGCGCTGAAAAAAGCGCTGGAACATGAAAA -AACGCCGGAACTGGCGGCGAAGCTAGCGGCAGAAGCCATTGAGCGCGACCCGTGGGCGGCACAGGTGAGCCAACTTTCGC -TACCAAAACTGGTCGAACAGGTGGCGTTAAATGCCTGGAAAGAGGAGAGCGACAACGCAGTATGTCTGCATTTGCGCTCC -TCTCAGCGGCATTTGAACAACCGCGGTGCACAGCAAAAACTGGCTGAAGCGTTGAGCATGTTAAAAGGTTCAACGGTTGA -ACTGACTATCGTTGAAGATGATAATCCCGCGGTGCGTACGCCGCTGGAGTGGCGTCAGGCGATATACGAAGAAAAACTTG -CGCAGGCGCGCGAGTCCATTATTGCGGATAATAATATTCAGACCCTGCGTCGGTTCTTCGATGCGGAGCTGGATGAAGAA -AGTATCCGCCCCATTTGATCGTAAGCACAGCTTACGTTCGTCATCCTTAACGTGATTGAGAGAGAAACCTATGTTTGGTA -AAGGCGGTCTGGGTAACCTGATGAAGCAAGCCCAGCAGATGCAAGAAAAAATGCAGAAAATGCAGGAAGAGATCGCGCAG -CTGGAAGTCACCGGCGAATCTGGCGCAGGTCTGGTAAAAGTGACCATCAACGGTGCACACAACTGCCGTCGCGTAGAGAT -CGACCCGAGCCTGCTGGAAGACGACAAAGAGATGCTGGAAGACCTGGTGGCTGCAGCATTCAACGACGCAGCACGTCGTA -TTGAAGAAACGCAGAAAGAAAAAATGGCCTCTGTATCCTCCGGAATGCAGCTGCCGCCTGGCTTTAAGATGCCGTTCTGA -TGCAAACCAGCCCGCTGTTAACACAGCTTATGGAAGCACTGCGCTGTCTGCCGGGCGTTGGCCCGAAGTCGGCGCAGCGT -ATGGCGTTCACGCTGCTTCAGCGCGATCGTAGCGGCGGGATGCGTCTGGCGCAGGCGCTCACCCGGGCGATGTCGGAAAT -CGGCCACTGCGCCGATTGCCGCACTTTCACCGAACAGGAAGTCTGTAACATCTGTTCGAATCCGCGTCGTCAGGAAAACG -GTCAAATCTGCGTGGTGGAGAGTCCGGCGGACATCTACGCCATTGAGCAGACGGGGCAGTTTTCAGGTCGTTATTTTGTG -TTGATGGGGCATCTGTCACCGCTGGACGGCATCGGTCCGGATGATATCGGGCTTGATCGTCTGGAACAGCGTCTGGCAGA -GGAAAAAATCACTGAAGTGATCCTCGCCACCAACCCCACGGTTGAAGGTGAAGCTACCGCTAACTACATTGCCGAGCTTT -GCGCGCAATATGACGTGGAAGCCAGCCGAATCGCTCATGGCGTTCCGGTTGGCGGCGAGCTGGAAATGGTCGACGGCACC -ACGTTGTCACACTCCCTTGCCGGGCGTCATAAGATTCGTTTTTAAGCAAACGAGAGCAGGATCACCTGCTCTCGCTTGAA -ATTATTCTCCCTTGTCCCCATCTCTCCCACATCCTGTTTTTAACCTTAAAATGGCATTATTGAGGTAGACCTACATGAAA -GGACAAGAAACTCGTGGTTTTCAGTCAGAAGTGAAACAGCTTCTGCACCTGATGATCCATTCTCTCTATTCCAATAAAGA -AATCTTCCTGCGTGAGCTTATCTCTAACGCCTCCGATGCGGCGGACAAGCTGCGTTTCCGTGCGCTCTCTAACCCGGACC -TGTACGAAGGTGATGGCGAACTACGCGTTCGTGTCTCTTTCGATAAAGACAAGCGTACGCTGACCATCTCCGATAACGGC -GTGGGGATGACCCGCGACGAAGTGATTGACCATCTGGGGACTATCGCTAAATCCGGTACCAAATCATTCCTCGAATCCCT -GGGTTCTGACCAGGCGAAAGACAGCCAGCTGATCGGTCAGTTTGGTGTTGGTTTCTACTCTGCGTTTATCGTGGCCGACA -AAGTGACCGTGCGTACTCGCGCGGCAGGCGAAAAACCAGAAAATGGCGTCTTCTGGGAATCGGCTGGCGAAGGTGAATAC -ACCGTTGCCGACATCACCAAAGAAGATCGTGGTACTGAAATCACCCTGCATCTGCGTGAAGGCGAAGACGAGTTCCTCGA -TGACTGGCGCGTGCGTTCCATCATCAGCAAATACTCCGACCATATCGCGCTGCCGGTAGAGATCGAAAAACGCGAAGAGA -AAGACGGCGAAACCGTTATCTCCTGGGAGAAAATCAACAAAGCGCAGGCGCTGTGGACTCGTAACAAGTCGGAAATCACC -GATGAAGAGTACAAAGAGTTCTACAAACACATCGCCCACGACTTTAATGATCCGCTGACCTGGAGCCACAACCGTGTTGA -AGGTAAGCAGGAGTACACCAGCCTGCTGTACATCCCGTCCCAGGCTCCGTGGGATATGTGGAACCGCGATCATAAACACG -GCCTGAAACTGTATGTTCAGCGTGTGTTCATCATGGACGACGCAGAACAGTTCATGCCGAACTATCTGCGCTTCGTGCGT -GGTCTGATTGACTCCAGCGATCTGCCGCTGAACGTTTCCCGTGAAATCCTCCAGGACAGCACGGTAACGCGTAACCTGCG -CAATGCGCTGACCAAGCGTGTGCTGCAAATGCTGGAAAAACTGGCGAAAGACGACGCGGAAAAATACCAGACCTTCTGGC -AACAGTTTGGCCTGGTACTGAAAGAAGGTCCGGCGGAAGATTTCGCTAACCAGGAAGCGATCGCCAAACTGCTGCGTTTT -GCTTCTACCCATACCGATTCTTCTGCGCAGACCGTATCTCTGGAAGACTACGTTTCCCGCATGAAAGAAGGGCAGGAGAA -AATCTACTACATCACCGCAGACAGCTATGCGGCAGCGAAGAGCAGCCCGCACCTGGAACTGCTGCGTAAGAAAGGCATCG -AAGTTCTGCTGCTTTCCGACCGCATCGATGAGTGGATGATGAACTATCTGACTGAGTTCGACGGTAAACCGTTCCAGTCG -GTGTCTAAAGTTGACGAGTCGCTTGAAAAACTGGCTGACGAAGTTGATGAGAGCGCGAAAGAAGCGGAGAAAGCACTGAC -TCCGTTCATCGACCGTGTGAAAGCCCTGCTCGGCGAGCGCGTGAAAGATGTCCGTCTGACTCACCGTCTGACCGATACGC -CAGCGATCGTTTCGACCGACGCGGACGAAATGAGCACTCAGATGGCGAAACTGTTCGCTGCGGCGGGCCAGAAAGTGCCA -GAAGTGAAATACATCTTCGAACTGAACCCGGATCACGTACTGGTGAAACGTGCGGCAGATACTGAAGATGAAGCGAAGTT -CAGCGAGTGGGTAGAACTGCTGCTGGATCAGGCGCTGCTGGCAGAACGCGGCACGCTGGAAGATCCGAACCTGTTTATTC -GTCGTATGAACCAGCTGCTGGTTTCCTGATGTAATGCCGGATGACCTTCGTGTCATCCGGCATTTTTCTTTTCATCATCT -GCACTTTCCGCAAATTATCTCGCCATTAACCGTTTCAGCCCCAGGTGCCTTTCTTGAGGCAATCGCCTGTTGGTGGTATC -GTTTATCGCTTTTTCAAAAAATTCGACACATTTTAAGGGGATTTTCGCAATGCGTATCATTCTGCTTGGCGCTCCGGGCG -CGGGGAAAGGGACTCAGGCTCAGTTCATCATGGAGAAATATGGTATTCCGCAAATCTCCACTGGCGATATGCTGCGTGCT -GCGGTCAAATCTGGCTCCGAGCTGGGTAAACAAGCAAAAGACATTATGGATGCTGGCAAACTGGTCACCGACGAACTGGT -GATCGCGCTGGTTAAAGAGCGCATTGCTCAGGAAGACTGCCGTAATGGTTTCCTGTTGGACGGCTTCCCGCGTACCATTC -CGCAGGCAGACGCGATGAAAGAAGCGGGCATCAATGTTGATTACGTTCTGGAATTCGACGTACCGGACGAACTGATCGTT -GACCGTATCGTCGGTCGCCGCGTTCATGCGCCGTCTGGTCGTGTTTATCACGTTAAATTCAATCCGCCGAAAGTAGAAGG -CAAAGACGACGTTACCGGTGAAGAACTGACTACCCGTAAAGATGATCAGGAAGAGACCGTACGTAAACGTCTGGTTGAAT -ACCATCAGATGACAGCACCGCTGATCGGCTACTACTCCAAAGAAGCAGAAGCGGGTAATACCAAATACGCGAAAGTTGAC -GGCACCAAGCCGGTTGCTGAAGTTCGCGCTGATCTGGAAAAAATCCTCGGCTAATTCGAAAGCGCGCACGGACAGTCCCC -TCGCCCCCTCGGGGAGAGGGTTAGGGTGAGGGGAACAGGCCCGCACAAGCAAACTTATCAGCAATCTCAGGCCGGATATT -CATTCGGCCTTTTACAAAAACCTCAATCTGCGCTATTCCTTTTTCTGATTTGACCTCTCACAGCAATTAGTTCTTCTTCC -TCACTTTTCCGCTACAATTATCAACAAGTTGAATCGATAAGAGGCGGTAATGCGTCAGACTAAAACCGGTATCCTGCTGG -CAAACCTGGGTACGCCCGATGCCCCCACACCTGAAGCGGTAAAACGCTATCTGAAACAATTTTTAAGCGACAGACGCGTG -GTTGATACCTCACGGTTGTTATGGTGGCCATTGCTGCGCGGCGTGATTTTGCCGCTGCGCTCGCCGCGTGTGGCGAAGCT -GTATGCCTCTGTCTGGATGGAAGGTGGCTCGCCGCTGATGGTTTACAGCCGCCAGCAACAGCAGGCGCTGGCACAACGTT -TACCGGAGATGCCCGTAGCGCTGGGAATGAGCTACGGCTCGCCATCACTGGAAAGCGCCGTAGATGAACTCCTGGCAGAG -CATGTAGATCATATTGTGGTGCTGCCGCTTTATCCGCAATTCTCCTGTTCTACGGTCGGTGCGGTATGGGATGAACTGGC -ACGCATTCTGGCGCGCAAACGTAGCATTCCGGGGATATCGTTTATACGTGATTACGCCGATAACCACGATTACATTAATG -CACTGGCGAACAGCGTACGCGCTTCTTTTGCCAAACATGGCGAACCGGATCTGCTACTGCTCTCTTATCATGGCATTCCC -CAGCGTTATGCAGATGAAGGCGATGATTACCCGCAACGTTGCCGCACAACGACTCGTGAACTGGCTTCCGCATTGGGGAT -GGCACCGGAAAAAGTGATGATGACCTTTCAGTCGCGCTTTGGTCGGGAACCCTGGCTGATGCCTTATACCGACGAAACGC -TGAAAATGCTCGGAGAAAAAGGCGTAGGTCATATTCAGGTGATGTGCCCGGGCTTTGCTGCGGATTGTCTGGAGACGCTG -GAAGAGATTGCCGAGCAAAACCGTGAGGTCTTCCTCGGTGCCGGCGGGAAAAAATATGAATATATTCCGGCGCTTAATGC -CACGCCGGAACATATCGAAATGATGGCTAATCTTGTTGCCGCGTATCGCTAAAGCTGAGCGGTAAAGAACTGAGCGCCGT -CGCGAAGAGCCTCGTCGGCGGTTTTCATCATCCGTGAATAATGCAAAAAGGCGTGCAGCGTGCCTGGGTAGAGTTTGAAC -TCACAGGGCTGCTGATGCGCCGCTAACGTCTGGTAAAGCAGACGGCTGTCATCCAGCAGCGGATCGAACTCCGCCCCGGC -AATAAAACAGGGCGGAACTTCGCGAGTGAGATCATTATTAAACAGACAGTAATACGGCGACTCGCGGTCCGCGTCGTTGC -TTAAATATGCCTCTTCGTACATCTGCAAATCCTGTTGCGTTAAGCCATCCCAGACACCGCCCAACAGACGACGAGTCACG -GAATCCCGTAATCCGTAAAGCCCATACCACAGCAAAACGCCCGCAACTTTACCGCAATCGATCTGTTTATCACGCAACCA -CAACGCACTGGCGAGCGCCAGCATGGCACCTGCGGAATCACCGGCAAAGCCAATGCGGGACATATTGATTTGATAATCCT -CCGCCTGCTGGTGGAAATAACAACAAGCAGCCACAATTTCCTCTATCGCTTGCGGAAAACGCGCTTCAGGTGAAAGGGTG -TAATCAATACCAATCACCGTACATTGGCTGTAGCTTGCCAGCAGGCGCATGATGCGATCGTGGGTATCGAGATTGCCGAG -AATAAAACCGCCTCCATGCAAATAAAATAGCGTCGCTGGGCTATCTGGCTGCGGACAAAAGAGACGTGTTTCCACCTGCC -CATATTTTGTTGGAACCATGTAAGCTCTGGTTGCCATTTCTGGAGCGCCCGCATTCCAGAATCGGCGCTCAAGCGTGTAA -TACTGTCGTTGCTCAGCAATCGTTCCCGTTGCGGGCCAGGGCGGTAAATCCGGCTGAAGAGTATTCACAACGGTCTTCAT -TTCAGCAGAAATAAGGTCCAGAACAGGTAGTTTGTTTTCCGGCTTCATACAAAAACTCCTTTCAAATTACGTCATTGTAA -GGAACCACTGCCATGAAAATGCGATCCCGCCTGCTGATATTGAAACTGGCTGCGTCTCGCGCGCTCCCGTCAGATTGTGT -TAACATTCGCCGCTCAGTTAACCACCCGTAAAAACAACCATGAAATTTCCCGGTAAACGTAAATCCAAACATTACTTCCC -CGTAAACGCACGCGATCCGCTGCTTCAGCAATTCCAGCCAGAAAACGAAACCAGCGCTGCCTGGGTAGTGGGTATCGATC -AAACGCTGGTCGATATTGAAGCGAAAGTGGATGATGAATTTATTGAGCGTTATGGATTAAGCGCCGGGCATTCACTGGTG -ATTGAGGATGATGTAGCCGAAGCGCTTTATCAGGAACTAAAACAGAAAAACCTGATTACCCATCAGTTTGCGGGTGGCAC -CATTGGTAACACCATGCACAACTACTCGGTGCTCGCGGACGACCGTTCGGTGCTGCTGGGCGTCATGTGCAGCAATATTG -AAATTGGCAGTTATGCCTATCGTTACCTGTGTAACACTTCCAGCCGTACCGATCTTAACTATCTACAAGGCGTGGATGGC -CCGATTGGTCGTTGCTTTACGCTGATTGGCGAGTCCGGGGAACGTACCTTTGCTATCAGTCCAGGCCACATGAACCAGCT -GCGGGCTGAAAGCATTCCGGAAGATGTGATTGCCGGAGCCTCGGCACTGGTTCTCACCTCATATCTGGTGCGTTGCAAGC -CGGGTGAACCCATGCCGGAAGCAACCATGAAAGCCATTGAGTACGCGAAGAAATATAACGTACCGGTGGTGCTGACGCTG -GGCACCAAGTTTGTCATTGCCGAGAATCCGCAGTGGTGGCAGCAATTCCTCAAAGATCACGTCTCTATCCTTGCGATGAA -CGAAGATGAAGCCGAAGCGTTGACCGGAGAAAGCGATCCGTTGTTGGCATCTGACAAGGCGCTGGACTGGGTAGATCTGG -TGCTGTGCACCGCCGGGCCAATCGGCTTGTATATGGCGGGCTTTACCGAAGACGAAGCGAAACGTAAAACCCAGCATCCG -CTGCTGCCGGGCGCTATAGCGGAATTCAACCAGTATGAGTTTAGCCGCGCCATGCGCCACAAGGATTGCCAGAATCCGCT -GCGTGTATATTCGCACATTGCGCCGTACATGGGCGGGCCGGAAAAAATCATGAACACTAATGGAGCGGGGGATGGCGCAT -TGGCAGCGTTGCTGCATGACATTACCGCCAACAGCTACCATCGTAGCAACGTACCAAACTCCAGCAAACATAAATTCACC -TGGTTAACTTATTCATCGTTAGCGCAGGTGTGTAAATATGCTAACCGTGTGAGCTATCAGGTACTGAACCAGCATTCACC -TCGTTTAACGCGCGGCTTGCCGGAGCGTGAAGACAGCCTGGAAGAGTCTTACTGGGATCGTTAAGTTATCGTCGGTTCGT -AGGCCAGATAAGGCGTTCACGCCGCATCTGGCATTTGGCTCTCGATGCCTGATGCGACGCTGGCGCGTCTTATCATGCCT -ACATATTTTTCATATTTTACATCCGGCAACCACCGTTTACCCCGTCACCACCTCACCCGCCGGTGGCGTTTCCAGCAGTT -CCAGCATGGTACGGGCGATTTCACGCTCGCCCATCACTACCTGATTCGCACCACGTTCGGTGATATACGCCACTTCATCG -TCATAATGGGCGCGGGCAATAATCTCAATATCCGGATTTTTCGCGCGGGCAGATGCCACAATCTCACCCGCTTCATAACC -GTTGGGAATCGTCAGGATCAGCCATTTTGCACATTCCAGATGCGCCAGTTGCATAATTTCTTCGTTCGCCGCATTGCCCA -ATACTGCGCGGACCCCGCGCTCTCGCAGCTCATCAACACGGGTTCGTGACGTCTCAATCACCACCAGCGGAATATCAGAG -GCGAGCAATTTCTCCCCCAGCAGGCTGCCTACACGACCGTAACCCACCAGTAGCGCATGGTTGCAAATATCCACTGGGAT -CTGCTTCTCTTCTTCGATTGCCTCTTCCAGCGTCTGCTCTTCCAGCGTTTCGGTCTTCGCCAGATATTTCTCCAGTAGTG -CGAACAGTACCGGGTTGAGCATAATCGACAGGATCGCCCCTGCCAGTACCAGGTTTTGTCCGGCCTGCGGCAGTAAATTC -AATGCCATTCCCAGTCCCGCCAGGATAAACGCGAACTCACCAATCTGCGCCAGGCTGGCGGCGATGGTTAATGCCGTACG -TTGGGAGTGACCAAACAGTCGCACCAGGAAAAATGCGGCTAACGACTTACCAAACAGAATAATCGCCAGCGTCGCCAGCA -CTGCCAGCGGTTGCTGAATCAGAATTAACGGATCAAACAACATCCCGACGGAGACAAAAAACAGCACCGCAAACGCGTCG -CGCAATGGCAGCGTATCGTGGGCGGCACGGTGACTCAGTTCAGACTCGTTCAGTACCATCCCGGCAAAGAACGCACCGAG -TGCAAAGGAGACATCAAACAGCTCTACCGCACCAAAGGCAACCCCTAACGCCAGCGCCAGCACCGACAGGGTAAACAGCT -CGCGAGAACCGGTTGCCGCGCTGCGTGCCATAATCCACGGCACCAGACGGCGACCTACCAGCATCATAATGGCGATAAAT -GCGATCACTTTGCCGATGGTGATCCCCATATCGACTGCAAGAGTGGCAAAGCCCACATCGCCCTGTTCCATCATTCCTGC -CACTGCGGGCAGCAACACCAGCGTCAGAACCATTACCAGGTCTTCCACAATCAACCAACCGATGGCGATTTGCCCACGCT -GACTGTCAATTAATTGCCGTTCTTCAAGTGCGCGCAGTAACACCACGGTACTGGCGGTGGAAAGACATAAACCGAACACG -ATACCGGTCATTAACGACCAGCCCAGCACGGCAGAGAGCGCCATACCCAGCAGCGTCGCCACGGCTATCTGGGCGATCGC -ACCGGGAATGGCGATGGCCTTTACCGCCATCAAATCCTTCAGCGAAAAGTGCAAACCGACGCCAAACATCAACAGAATGA -CGCCCAGTTCAGCCAGTTCCGGGGCAAGCTTGGTATCGGCAACAAAGCCCGGAGTGAATGGTCCTGCCAGCACACCCGCT -AACAGATATCCCACCAGAGGAGAAATACGTAGTTTATTGGCCAGCATGCCGAGGATAAAGGCGAGCACAAGGCCGCCAAC -AATGGTGGTGATAAGCGGGGTGGCGTGATGCATTCCGTCTCCTTTTCCTGGTGGTTATTGTCCATTTTTGGCCGGGAAAA -CCAAAATTACAGGTAATAGTTTATGACAATTTCATTGATGATGTTCATGAATAATTATTGAATTTTGCAGAAAAATGGAA -TTAGCTGCAAAAAAAGCACGGATCGGAAAACAGAAGGCGGTTTAACAGAGGAAAGGCTTATGGCGACTGTAAAACGATGC -AGCCAAAGTTTGCCTTTGGCTGCAATGAAATCAGTCTTTATGCCGGTTATCAGGCAGGAATATGGTCAACATCCCCAATA -GTGGCAGGAAAGCACAGATTTTATAGACTAACTCGATGCTGGTGTGATCGGCGATAAGCCCCAGAACTGCCGCTCCCAGA -CCTCCCATGCCAAAAGCAAAACCGAAAAAGAGTCCAGAAACCATACCGATACGTCCTGGAAGCAGCTCCTGAGCGTAGAC -CAGAATGGCAGAGAATGCCGAAGCGAGGATAAATCCAATAATCACCGTTAAAACCCCCGTCCAGTGCAGGCTGGCGTAGG -GTAAAATCAGCGTAAACGGCGCAACGCCGAGGATAGAGCCCCAAATCACATATTTCCGCCCAATTTTATCCCCTACAGGC -CCGCCGATCACCGTACCTGCCGCAACGGCAAACAGGAAGGCAAACAGATGAAGCTGAGCATTCTGGATAGATAATCCGAA -TTTTTGCATCAGATAAAAGGTGTAATAGCTGCTGATGCTCGCCATATAGAAATATTTCGAGAAAATGAGGATTAACAGAA -TGCTGACCGCCAGTACAACTTTATTGCGCGGCAGTGGATTGATAATCGTCGCTTTGGGTTTTCCTTTATTCATTCGGTGC -TGTGCCGAGTACCAACGGCTGATTTGCGCCAACACCACGATCGCCAGCAGTGCCGCAAGCACAAACCAGGCAACGTTGCC -TTTGCCATAAGGCGCGATAATCACCGCCGCCAGCAAGGGTCCCAGGGAACTGCCAAAGTTGCCGCCGACCTGAAAGATAG -ATTGCGCCAGGCCATGCCGCCCGCCGGAAGCCATACGGGCCACGCGAGAAGATTCCGGATGAAAGACCGATGAACCGGTA -CCGACCAGCGCCGCCGCCAGCAGAACTGCGCCAAAACTGCCCGCCAGCGCAAGCAGCACCAGACCGCTTAAGGTAAAGCA -CATGCCAATTGGCAACGACCATGGCATCGGATATTTATCGGTCCAGTAGCCGACCACTGGTTGCAGTAGCGAAGAGGCGA -GCTGGAAGGTGAGGGTTATCATGCCAATCTGCATAAATGTCAGAGAAAATTCTGACTGAAGCAGCGGATAAATCGCCAGA -ATCAGCGATTGGATCATGTCGTTCAGCAGATGTGAGAGGCTGATAGCACCTAAAATACCAAACGATGTTCGGGCCTTGGT -CGTTGACGCAGCCGCGCCCGCCACAGGCTGGGGTTGTTCACTCATTGCCATAGGAAAGTCACTTTTTCAGGGTTGCGATG -TAAAGAATGATCTTATTTGTGATTATTACCAGACTAACATACCTGTATGCGTCGTCTGAAGGAAGTCTCAACGCCGAATA -CAGAATTTCTAATCTGGATGCAGATTTATCTTCACCGGACGCAGACTTGTCTATGATGTCGCGTCATACTATTTTTCAAC -ACGTTGAAATCAGGTCAGGGAGAGAAGTATGAAATTATTGCAGCGGGGCGTGGCGTTAGCGCTGTTAACCACATTTACAC -TGGCGAGTGAAACTGCTCTGGCGTATGAGCAGGATAAAACCTACAAAATTACAGTTCTGCATACCAATGATCATCATGGG -CATTTTTGGCGCAATGAATATGGCGAATATGGTCTGGCGGCGCAAAAAACGCTGGTGGATGGTATCCGCAAAGAGGTTGC -GGCTGAAGGCGGTAGCGTGCTGCTACTTTCCGGTGGCGACATTAACACTGGCGTGCCCGAGTCTGACTTACAGGATGCCG -AACCTGATTTTCGCGGTATGAATCTGGTGGGCTATGACGCGATGGCGATCGGTAATCATGAATTTGATAATCCGCTCACC -GTATTACGCCAGCAGGAAAAGTGGGCCAAGTTCCCGTTGCTTTCCGCGAATATCTACCAGAAAAGTACTGGCGAGCGCCT -GTTTAAACCGTGGGCGCTGTTTAAGCGTCAGGATCTGAAAATTGCCGTTATTGGGCTGACAACCGATGACACAGCAAAAA -TTGGTAACCCGGAATACTTCACTGATATCGAATTTCGTAAGCCCGCCGATGAAGCGAAGCTGGTGATTCAGGAGCTGCAA -CAGACAGAAAAGCCAGACATTATTATCGCGGCGACCCATATGGGGCATTACGATAATGGTGAGCACGGCTCTAACGCACC -GGGCGATGTGGAGATGGCACGCGCGCTGCCTGCCGGATCGCTGGCGATGATCGTCGGTGGTCACTCGCAAGATCCGGTCT -GCATGGCGGCAGAAAACAAAAAACAGGTCGATTACGTGCCGGGTACGCCATGCAAACCAGATCAACAAAACGGCATCTGG -ATTGTGCAGGCGCATGAGTGGGGCAAATACGTGGGACGGGCTGATTTTGAGTTTCGTAATGGCGAAATGAAAATGGTTAA -CTACCAGCTGATTCCGGTGAACCTGAAGAAGAAAGTGACCTGGGAAGACGGGAAAAGCGAGCGCGTGCTTTACACTCCTG -AAATCGCTGAAAACCAGCAAATGATCTCGCTGTTATCACCGTTCCAGAACAAAGGCAAAGCGCAGCTGGAAGTGAAAATA -GGCGAAACCAATGGTCGTCTGGAAGGCGATCGTGACAAAGTGCGTTTTGTACAGACCAATATGGGGCGGTTGATTCTGGC -AGCCCAAATGGATCGCACTGGTGCCGACTTTGCGGTGATGAGCGGAGGCGGAATTCGTGATTCTATCGAAGCAGGCGATA -TCAGCTATAAAAACGTGCTGAAAGTGCAGCCATTCGGCAATGTGGTGGTGTATGCCGACATGACCGGTAAAGAGGTGATT -GATTACCTGACCGCCGTCGCGCAGATGAAGCCAGATTCAGGTGCCTACCCGCAATTTGCCAACGTTAGCTTTGTGGCGAA -AGACGGCAAACTGAACGACCTTAAAATCAAAGGCGAACCGGTCGATCCGGCGAAAACTTACCGTATGGCGACATTAAACT -TCAATGCCACCGGCGGTGATGGATATCCGCGCCTTGATAACAAACCGGGCTATGTGAATACCGGCTTTATTGATGCCGAA -GTGCTGAAAGCGTATATCCAGAAAAGCTCGCCGCTGGATGTGAGTGTTTATGAACCGAAAGGTGAGGTGAGCTGGCAGTA -ATCCGAAAGTGCCGGATGTTTGCATCCGGCACAATGCTTAATCGCGGCGGGCGATATCAGCAAATTTGGCATCGAGGATC -TTTGCCAGATCGCCTGCCGCCAGTTCGATATCCAGTCCGCGCTTGCCGCCGGAAACATAAATAGTGGCAAATTCTTGTGC -GGGGGCGTCGATAATCGTTGGCAGACGTTTTTTCTGCCCCAGTGGGCTAATCCCCCCAACCAGGTATCCCGTCGAACGCT -GCGCGACCATCGGATCGGCCATCTCAACTTTCTTGGCACCCAGCGCTTTTGCTACTTTTTTAAGATCCAGTTGACCTGCG -ACCGGCGTAACGGCCACGGCAAGGTGTTTCATATCACCGTTCACTGCCACCAGCAGCGTTTTGTAGACCTGATCCGGATT -CAAACCTAATTTTTTGACGACTTCATCGCCAAAATTGGTTTCAGCCGGATCGTGCTCGTAGGTATGGATTTGAAACGAAA -TCTTGTTTTTTTCGAGTAATTTAACTGCGGGTGTCATGGTAATTTTCCTGCCTTAAACAAAAAAACGAAGCAAGCATACG -CCTGATGGCGGTCCAAAAAAAAGAGTCATCTTGCCTAAGAGTATTGGCAGGATGGTGAGATTGAGCGACAATCGAGTTAC -ACCGTCGCTTAAAGTGACGGCATAATAATAAAAAAATGAAATTCCTCTTTGACGGGCCAATAGCGATATTGGCCATTTTT -TTAGCGCAACATTTGCGGCAAATTCCCTTCTCCATACAGGTGTAGTGCACCGACCGCGACCACATATCGCCCCGGCGGCA -TGGCGCGTAATTTATCCCGCCAGGCGAGATTTCGCTGATGCATCAGCACATCGTACAGCGACTGACTGAACGTATTGGGC -AGCGTTATATCATTATTTTGCGGCGGTGCATTCAGCCACCAGCTCATCATTTGTTGCAGCAACCGTGCGTTGGTATGCCA -GTGGGTCAGCGTATCGTCCAGCAGCGCCAGTCCTTTGTCAGGGAGCTGGAGCAACATGGCAATCTGGTTTTCAGCCCCTT -CCAGTTCAATCACGGGTTTATGTTGTTGCTTCGCCGCCTGCAATAGCTGGTAATCGATACCGTATTCTGCCCGCAGCCCC -AGTTTTTGTGCCTGCGTCGCCTGAAGAACCATCGCGATTTGCCACAGCGGTTGGGTAGAAAAGAGTGAGGGAGAAATGCC -CATCTCCTGGCTAATGTGCTGCAGGTTTTGGAGTTGCTCCTCGCTAATGCGCTCTTCCAGCGCCTCGCAGGCAGGCAAAT -TAGCAAAAGGCGTATCGCTGGTGGAAACATCCGCCTCGACGATCAGCGCATCGGCGTTTTTGAGCTTTTTGAGCAAACGG -GTGGGCAGGGGAGCCATATCGTGGCTACCCATATGAATACTGCCAATCAGATGAAAATGGCGATTGCCGGGGAGGGTGAT -ATCGATGGCAGGCCAGGTGTAATGATTACCGCGCAGCGCGGCCCAAAGCGTTTTTACCCGGTACAACAGATCCATACGAC -CTCCCTTTGTGAAATATCATGCTAGCGCGCGGTGAGGGATGGCGCAAATGGAGTTGGAGACTTGTTTAATGTGTTTGTAT -GATTCAGTATGTTCTTGCATCGCTATTCACAAGGAAGCAACAGTTAAAAACCATGAAACAGGCAACAAGAAAACCGACGA -CACCCGGAGATATTCTTCTCTATGAATATCTGGAACCGCTCGATTTGAAAATCAATGAGTTAGCAGAGTTGCTGCATGTT -CATCGTAATAGCGTCAGTGCACTGATCAATAACAATCGTAAACTCACTACTGAGATGGCATTTCGTCTGGCGAAAGTTTT -TGATACCACAGTCGATTTTTGGCTAAACCTCCAGGCGGCGGTTGATCTTTGGGAAGTTGAAAACAACATGCGCACCCAGG -AAGAATTGGGACGGATTGAAACAGTGGCTGAATATTTGGCACGCCGTGAAGAGCGTGCAAAAAAGGTCGCGTAAGGCCAA -AACATCGCTTCATCTCGTAGGCCGGATAAGGCGTTCACGCCGCATCCGGCATCCGAGCACCATTGCCTGATGCGACGCTT -ACCCGTCTTATCAGGCCTACAAACTTGTGCCTGAACCGTAGGCCGGATAAGGCGTTTACGCCGCATCCGGCATCCGAGCA -CCATTGCCTGATGCGACGCTTACGCGTCTTATCAGGCCTACAAACCTGTGCCTGAACCGTAGGCCGGATAAGGCGTTTAC -GCCGCATCCGGCAGTCATGCGTCGATGCCAAATGCGCCACCCTAAAGCAGCGCATCCGCAATGATGTACTTATTCCTTCG -GTTTAAACCGCAGCAACCGGTTGGCGTTACTCACTACGGTAATCGACGAGAGCGCCATTGCCGCTCCGGCAACTACCGGG -TTAAGCAGTGTTCCAGTGAACGGCCACAAAATACCGGCGGCGACCGGAATACCGATACTGTTGTAGATAAACGCACCGAG -CAGGTTCTGCTTCATGTTGTGCAGCGTTGCGCGGGAAATAGCGAGCGCATCCGCAACGCCCATCAGGCTATGGCGCATCA -GGGTAATCGCCGCGGTTTCAATGGCAACATCACTGCCGCCACCCATCGCAATGCCGACATCCGCCTGAGCCAGCGCTGGC -GCGTCGTTAATGCCGTCGCCCACCATTGCCACCTGACGTCCTTCACTTTGCAGATGTTTGATCGCTTCGGCTTTACCGTC -CGGCAGCACCCCGGCGATCACCTCATCAATCCCTGCTTCTTTGGCGATCGCATTGGCGGTGGTTGGGTTATCCCCGGTCA -ACATCACCAGACGATATCCCGCTTTATGCAGGCGTTGCAGCGCCGCCACGCTATCACTACGCAACGGATCGCGTACTGCC -AGCAGGGCTACCGCTTTCCCGTCAACCGCCAGCAGCACAGGCGTTGCCCCTTGCGATGCCTGAGCAGTAATCTCCGCTTC -GATAGCTTTGGTACCAACCTGTTGCTCATTTAACAGCGCCTGATTGCCCAGCAATAACGCATGACCTTCAGCTTCACCGC -TCACGCCCAGCCCGCGCAATGTGCGGAAACCGTTGACCTGCGGTAGCTGCATATCACCTGCTTTATCGAGGATCGCTCGT -GCCAGCGGATGGCTGGAACCTTGCTCCAGTGCCGCCGCCAGACGCAATGCCTGCGCTTCATCAACATCAGCAAATGTTTT -CACTGCGACAACCTGCGGCTTCCCTTCAGTCAGCGTCCCGGTTTTATCGAACACTACAGTGTCGAGTGTACTGGCGCGTT -GCAGCGCGTCAGCGTCCCGCACCAGCACGCCAAACTCAGCCGCCCGCCCGACGCCGGAAATAATCGACATCGGCGTCGCC -AGCCCCAGCGCACACGGACAGGCAATAATCAGTACCGTGGTGGCAATCACCAGGGTATAGACAATCTGCGGTGCCGGACC -AAAGAAATACCAGATTGCCGCACTGACAAGCGCAATAACCACCACTACCGGCACAAATACGGCTGAGATTTTATCCGCCA -GCTGACCGATTTCTGGCTTGCTGCTCTGGGCCTGGCGCACCATGCGAATGATTCGTGACAGCGTAGTATGGCTGCCAACC -GCACTGGCACGAAACAGCACACTGCCGTCCTGTACCACTGTCCCGGCATGGACGCTATCGCCTTCGCCTTTTTGCTGCGG -GATTGGTTCGCCCGTCAGCATCGCTTCATCCAGCCATGCTTCGCCCTGGGTAATCTCGCCATCTACCGGCACGCGATCGC -CGGTCGTCAGGCGCAGCAACATACCTGGCTGCACTTCTGCCAGAGGCACGCTTTTTTCACCTTCGTCAGTAACCAGGCGT -GCCGTCGGCGGGGTTAAATCGAGTAACTTTTCCAGCGCCTTAGAAGAACGCTGGCGTGCGCGCGCTTCCAGCATATGGCC -GAGATTGATCAGACCGATAATCATCGCGCTGGCTTCGTAATAAAGATGTCGCGCTTCCATCGGGAACCACTGCGGCCACA -GGTTGACGCTCATCGAATAGAGCCACGCCACGCCAGTACCCAGCGCCACCAGCGTATCCATCGTCGCCGCACCGTTCAGC -AGGCTTTTCCATGCACTGCGGTAAAAATGGCCGCCGGCGAAAACCATCACTGCCAGGGTTATCAGGCCGATAACCAACCA -CAGGCTGCGGTTGTCAGCGGTGACCATCATGTTATCGCCGATCATCCCCCAGACCATCACCGGGATACCCACCGCCAGTG -CGACAATTGCCTGCCAGCGGAAGCGCTTCATCGTAGCGACGGCGGTTTCTTGCTGGCGCTCGCGGCGTTTAGCGTCATCT -TCAATCGCTTCCGCGCCGTAGCCCGCTTTTTCCACCGCCTGCACTAAATCTTGTGGGGAGGCACTGCCCATCACCAGCGC -AGTACGCTCCGCCAGGTTTACCCGTGCCTGAGTGACGCCCGGTACGCTTTGCAGCGCATTTTGTACGCGGGTGACACAGC -TGGCGCAGCTCATGCCGCTCAGCAGCAACTGCTGGCTGTCATCGTCATCGGCGGTCGCTGCCGGAAGCGCCTCAGAAACC -GCTGTCAGTGCTTCCGACGGGATTGATGACTCCGCCAGCGGTTTAGCCTTTGGGTGGCTTACAGATGCGTCATAACCCGC -TTGTTTGATGGTTTCGATCAGCTGTTCTGCACTGGCAGTCCCGGTAACGTGCGCTTCAGTGATAGACACATCCGCCTGCT -CAACATCCGGACGCTGTTCAAGACTTTCTTTCACGCGTTTAACGCAGTGACCGCAGGACAGGCCGTCCAGGGTCAGGTCG -ATAGTTTGTGACATAAAACACTCCTTTAAGACAGTTTTGACTGGCTGTGATAAAGGTTAAACCTTCCAGCAAGGGGAAGG -TCAAGAAATTAATAAACCAGGCGGGTAAAAGTCCGTAAAGATTAAAAAATCGGCTCGATTTGCATCAGGATTAGACATTT -ATCTCTTTGTTTTCCTGTAGTTAAGTTGCGGGTGCTAAGTTAAATCAGGATGCCTGAAAATCGGCACCGGGGTGAGGAAT -TACCTCCCGCATCTATAAAAAGGAGTTAACAAAAGATGTTAGATGCAAACAAATTACAGCAGGCAGTGGATCAGGCTTAC -ACCCAATTTCACTCACTTAACGGCGGACAAAATGCCGATTACATTCCCTTTCTGGCGAATGTACCAGGTCAACTGGCGGC -AGTGGCTATCGTGACCTGCGATGGCAACGTCTATAGTGCGGGTGACAGTGATTACCGCTTTGCACTGGAATCCATCTCGA -AAGTCTGTACGTTAGCCCTTGCGTTAGAAGATGTCGGCCCGCAGGCGGTACAGGACAAAATTGGCGCTGACCCGACCGGA -TTGCCCTTTAACTCAGTTATCGCCTTAGAGTTGCATGGCGGCAAACCGCTTTCGCCACTGGTAAATGCTGGCGCTATTGC -CACCACCAGCCTGATTAACGCTGAAAATGTTGAACAACGCTGGCAGCGAATTTTACATATCCAACAGCAACTGGCTGGCG -AGCAGGTAGCGCTCTCTGACGAAGTCAACCAGTCGGAACAAACAACCAACTTCCATAACCGGGCCATAGCCTGGCTGCTG -TACTCCGCCGGATATCTCTATTGTGATGCAATGGAAGCCTGTGACGTGTATACCCGTCAGTGCTCCACGCTCCTCAATAC -TATTGAACTGGCAACGCTTGGCGCGACGCTGGCGGCAGGTGGTGTGAATCCGTTGACGCATAAACGCGTTCTTCAGGCCG -ACAACGTGCCGTACATTCTGGCCGAAATGATGATGGAAGGGCTGTATGGTCGCTCCGGTGACTGGGCGTATCGTGTTGGT -TTACCGGGCAAAAGCGGTGTAGGTGGCGGTATTCTGGCGGTCGTCCCTGGAGTGATGGGAATTGCCGCGTTCTCACCACC -GCTGGACGAAGATGGCAACAGTGTTCGCGGTCAAAAAATGGTGGCATCGGTCGCTAAGCAACTCGGCTATAACGTGTTTA -AGGGCTGATCATGATGAACACGGAAGGTAATAACGGTAACAAACCTCTCGGTCTATGGAACGTCGTTTCCATCGGCATTG -GGGCAATGGTGGGGGCGGGGATCTTCGCGCTGCTGGGGCAGGCTGCATTGCTAATGGAAGCCTCGACCTGGGTCGCCTTT -GCTTTTGGCGGTATTGTGGCGATGTTTTCCGGTTATGCCTATGCGCGTCTGGGGGCGAGCTATCCCAGCAATGGCGGCAT -TATCGACTTCTTTCGTCGCGGATTAGGCAACGGCGTCTTTTCGCTGGCGCTCTCGTTACTGTACCTGTTGACGCTGGCGG -TGAGCATCGCCATGGTCGCCCGTGCTTTTGGCGCTTATGCCGTGCAGTTTTTGCATGAAGGCAGCCAGGAGGAGCACCTT -ATTTTGCTCTACGCGTTGGGGATCATTGCGGTGATGACGCTTTTCAACTCCTTAAGCAACCATGCGGTAGGGCGGCTGGA -AGTGATCCTCGTCGGCATTAAAATGATGATCCTGTTATTGCTGATTATTGCCGGTGTCTGGTCGCTGCAACCGGCGCATA -TTTCCGTCTCTGCGCCCCCCAGCTCCGGTGCGTTCTTCTCCTGTATTGGGATAACTTTCCTTGCCTATGCGGGCTTTGGC -ATGATGGCGAACGCGGCGGATAAAGTGAAAGATCCGCAGGTCATTATGCCACGGGCGTTTCTGGTGGCGATTGGCGTTAC -CACGTTGCTTTATATCTCGCTGGCACTGGTTTTGCTTAGCGATGTATCGGCATTAGAGTTAGAAAAATATGCCGATACCG -CCGTAGCGCAGGCTGCTTCTCCGCTGCTCGGGCATGTGGGTTATGTGATCGTCGTCATCGGCGCTTTACTGGCGACGGCT -TCAGCCATTAACGCGAACCTGTTCGCCGTGTTTAACATCATGGACAACATGGGCAGCGAACGCGAACTGCCGAAGCTAAT -GAATAAATCCCTGTGGCGGCAGAGTACCTGGGGCAACATTATTGTCGTGGTGTTGATTATGCTGATGACGGCGGCACTGA -ATTTAGGCTCACTCGCCAGCGTTGCCAGCGCCACCTTTTTGATTTGCTACCTGGCGGTGTTTGTGGTGGCGATCCGCCTG -CGTCATGATATTCACGCCTCGTTGCCGATTCTTATCGTTGGTACGTTGGTGATGTTGTTGGTGATCGTTGGCTTTATCTA -CAGTCTGTGGTCCCAGGGTAGCCGTGCGTTGATATGGATTATTGGCTCACTCTTACTCAGCCTTATTGTGGCAATGGTCA -TGAAGCGCAATAAAACCGTATAACATCTCTCTGTGCGCAGTACTTCCTGTATTATTGTGGTGGCGGTCGATATTCGCACT -GGCAAAAAAACGTGCTTGAATATCTGTTGAAACCCTTTAACAAAGCACAGGAGGCGTTGCGCGAACGATGAACATCAGCG -ATGTAGCAAAAATTACCGGCCTGACCAGCAAAGCCATTCGCTTCTATGAAGAGAAGGGGCTGGTGACGCCGCCGATGCGC -AGCGAAAACGGTTATCGCACCTACACGCAGCAGCATCTCAACGAACTGACCTTACTGCGCCAGGCACGGCAGGTGGGCTT -TAACCTGGAAGAGAGCGGCGAGCTGGTGAATCTGTTTAACGACCCGCAGCGGCACAGCGCCGACGTCAAACGGCGCACGC -TGGAGAAGGTGGCGGAGATCGAACGACACATTGAGGAGCTGCAATCCATGCGCGACCAGCTGCTGGCACTGGCGAATGCC -TGCCCTGGCGATGACAGCGCCGACTGCCCGATTATCGAAAATCTCTCCGGCTGCTGTCATCATCGGGCAGGGTGATTAAG -ACGAGACGGCTCGGATATGTAGGGTTATCCCTTCTATCGCAATGACTTCAACATGCGTACCTGCACCGAGATCCTCGCTG -GCGCTGACAGGCCATGAACTGTCACCGACGCGCATATGACCGCGCCCGTTGACCAGCGGAGATTCCAGCACAAAACGTCG -GCCAATCAGCTGCTGCCCGCGCTGGTTTAAATGACTATCGCTGTGCTTTTGTTCGCGCACCCGCCGCGACAACCATTTCC -ACCACAGCCAGGCGGCGAGCAGCGTCAGGATGGCAAACATTACCCCTTGCCACTCCCAACCCAGCGGCACCAGCCAGACC -ACCAGGCCGGTAATCACCGCTGCCACGCCGCTCCACAACAAATAACCATTTCCGCCCAGCATCTCGGCTGCCAGCAGCAA -ACCGCCGAGACTGAGCCAGAAAATATGTGGATGAACGACCATTAACTCCATCATGGCTGAGTCCGTTTGTTGGCGCTGTC -TTTCACCAGCTCGGCAATCCCGGCAATCGACCCCATCAGGCTGCTGGCCTCTAATGGCATCATCACTACTTTGCTGTTAC -TGGAGGAACCGATCTGCTGTAACGCTTCGGTGTATTTCTGCGCTACGAAGTAGTTCACCGCCTGAATATCACCGGAGGCG -ATAGCTTCAGACACCATTTTGGTGGCGCGGGCTTCTGCTTCGGCGGAACGTTCACGCGCTTCAGCCTGTAAAAACGCCGA -CTGACGTTCGCCTTCCGCTTTCAGGATTTGCGACTGTTTTTCACCTTCGGCTTTGAGGATTTCCGCCTGACGGATCCCTT -CCGCTTCAAGAATGTAAGCGCGTTTGGTACGTTCCGCTTTCATCTGCGCGTTCATTGAAGAGATAAGCTCTGCCGGTGGG -CGCACGTCGCGAATTTCAATACGGGTGACTTTAATCCCCCACGGGTTGGTGGCTTCATCGACAATACGCAGCAGGCGTGA -GTTGATGCTGTCGCGCTGAGAGAGCATTTCGTCAAGTTCCATTGAACCCAGCACGGTACGGATGTTAGTCATGGTCAGGT -TGATGATCGCCAGCTCCAGATTGCTGACTTCATAAGCCGCGCGCGGCGCGTCAATCACCTGAATAAAGCACACGGCGTCG -ATGGTAACGTTGGCGTTATCTTTCGAGATAACTTCCTGGGAAGGGATATCGAGCACTTGCTCCATCATATTGATCTTGCG -ACCAATGCGATCCATAAACGGCACCACCAGACTGAGCCCCGGCTGTAACGTTTTGGTATAGCGACCAAAGCGTTCTACTG -TCCACTGATAGCCCTGCGGTACGATTTTGACACCCGCGCCGACAATGACCAGCGCGACAAAAATGAGAATCGGGATAAAG -ATAAGCATCGGAAAAACCTCCTGTTGTACCGTCCATAATCAGCAAAATTGCTGCTTGATTAAACAAATTATACCTGATTA -CTGAAAGAGAGTTCCCCCTTATTCCTGCGAAGGATAAACTGTTTTTAGTAAAAATCAGAAAAAGGGAACAGCGATGCAGG -AAAATAGTCCTTTGCTTCAGCTACAAAACGTAGGATATCTGGCGGGTGATGCGAAGATTCTTAATAACATCAATTTTTCG -CTGCGTGCTGGCGAATTTAAGTTAATTACCGGTCCTTCTGGTTGTGGCAAAAGTACGCTGCTAAAAATAGTTGCTTCATT -GATCAGCCCAACCAGCGGAACGTTACTGTTTGAAGGTGAGGATGTCAGCACACTAAAGCCAGAAATCTACCGCCAACAAG -TCTCTTACTGCGCCCAGACACCGACGCTGTTTGGCGATACGGTATACGATAATCTGATCTTTCCCTGGCAGATCCGTAAC -CGGCAGCCTGACCCAGCCATTTTTCTCGATTTTCTCGAACGCTTCGCCTTGCCGGACAGCATTTTGACGAAGAATATCGC -CGAGCTATCTGGTGGTGAAAAACAACGCATCTCATTGATTCGTAACCTGCAATTTATGCCGAAGGTTTTATTGCTGGATG -AAATAACCAGTGCGCTGGATGAAAGTAATAAACATAACGTCAATGAGATGATCCATCGTTATGTGCGCGAGCAAAATATT -GCCGTGCTGTGGGTGACACACGATAAAGACGAAATTAATCATGCGGATAAAGTGATTACACTGCAACCGCATGCCGGAGA -AATGCAGGAAGCACGCTATGAACTCGCATAATATTACTAACGAATCATTAGCACTGGCATTAATGCTGGTGGTGGTGGCA -ATCTTAATTAGCCATAAAGAAAAACTGGCGCTGGAGAAAGATATTCTCTGGAGCGTCGGGCGAGCGATAATTCAGCTGAT -TATTGTCGGCTATGTGCTGAAGTATATTTTCAGCGTGGATGATGCCAGCCTGACATTATTGATGGTGTTATTTATCTGCT -TTAATGCGGCGTGGAACGCGCAAAAACGCAGTAAATATATTGCTAAAGCTTTTATCTCATCGTTTATTGCCATTACGGTC -GGGGCGGGAATTACCCTGGCGGTGCTGATTCTCTCAGGGTCGATTGAATTTATCCCGATGCAGGTGATCCCTATCGCCGG -GATGATTGCCGGTAACGCCATGGTAGCGGTGGGGTTGTGTTACAACAATTTAGGGCAACGGGTCATTAGCGAACAGCAAC -AGATTCAGGAGAAACTGAGTCTTGGTGCGACGCCGAAGCAGGCTTCAGCGATATTGATTCGCGACAGTATTCGCGCGGCT -TTAATTCCGACGGTCGATTCAGCAAAAACGGTTGGCTTAGTGAGTTTACCAGGAATGATGTCCGGGCTGATATTTGCCGG -GATTGATCCGGTGAAGGCGATTAAATATCAGATTATGGTGACCTTTATGCTGCTCTCAACCGCCAGCTTGTCGACCATTA -TTGCCTGCTATTTAACCTATCGTAAGTTTTATAATTCGCGCCACCAGTTGGTGGTGACGCAATTGAAGAAGAAATGATGC -GATGCCGGATGCGCAGCATCGCATCCGGCGTTGTGGTTCATGTGCCGATCAACGGAATATCAATACAACAATGCATACAG -CTGGCGGCGATACTTCGACGCCAGTGCATCACCCGTACCCAGCGCAGCGAGGATCTCCTGGAACGTTTTACGCGTCTGAC -CGTCTGCGGCGGTGAGATCTTTACGCAGATGCCCGAACAGCAACTCCAGCGCCTCTTCATTGCGCCCAACCTGATGCAGT -TGCAGCGCCAGTTGCGTCGCCAGTGCGGCATCTTCTGGATTCTCCGCCACCTGCTGTTGCAACTGTTGAATTTCCGGCGT -ATCAGCCGCCTGCTTCAGCAGTTCGATTTGCGCCACCAGCCCCTGGTAGCGGGTGTCCTGATCCTGCAACGGAATGGTTT -TCAGCACCGCTTCCGCATCTTCAGAACGGTTCAGCGCAATCAGCGTTTCTGCCAGCAGCAGGCCGATCTCCCCGTTCTGA -TTCGACAACTGCCAGGCGTCTTTCAGCAATGGCAGGGCATCGGTGTAATTGCTTTCCTGCATCAGTTGCATCGCCTGCTG -CGCTTTCAGCTCTTCTTCGCGCGGCAGCACTTTATCCAGCAGGGCGCGGATCGCCTCTTCCGGTTGCGGCCCCTGGAAGC -CATCTACCGGTTGCCCGTTCTGGAACAGATACACGGTCGGAATCGCACGCAGACCAAACTGCGCGGCAATCATCTGCTCC -GCGTCGCAGTCCAGCTTCGCCAGAATAAATTGCCCGTTGTACTGCGCCGCGAGGCTTTCCAGAATTGGGGTTAACTGCAA -ACAGTGCTGGCTACGTTCAGACCAAAAATAGAACAGCACCGGAGTGGTCATCGACTGTTCAAGAACCTGTTGCAGGTTAG -ATTCGTTAATGTTGACAATATTTTCTACGGACATGGAGTCGCTCTCTGTTGTCGATATTTTCTTTGACATGGGGGCTTAA -GCGCGCGCTTCAACTCACCCCTGCAATATTTTGTCCATCACGCGCCCCGGCAGCAGGCGCTTAAGCACCATTACCGCCCA -GGTCACCAGCGTCACCGGATAGCGCATCTTCGGCTTCTCGCTAATAAAAGCATGGCGTACTTTGTCCACCACCGCTTCCG -GTCCCAACGTAAAGCGGGCGGCGATGCCGGGATTTTCGACTGGTTTATCACTTTGCGTCTGGTTGACGTTGTCGGTGAAG -CGAGTACGAATGGGACCGGGTTCGATCAGGCTGACTTTAATTCCGCTGTGGCGCAGCTCCATGCGCAGTGCATCTGACCA -CGCCTCCAGCGCATATTTACTGGCCGCGTAAGCGCCACGACCCGGCGTGGAGATTAATCCCATCACCGATGATGTCATCA -CAATACGCCCTTCACCGTGCGGTAACATCGCGGGTAACAGGCGCATGGTGAGCTGGTGTGCGCCGAAAAAGTTGGCGGAA -AACTGCTGTTCCATCTGCGCACGGCTGATGGTGGAAAGGGGGCCATACATGCCGAATCCGGCATTGTTAAAGATCCCATA -CAGACAATTATCGGTCAGGGCGATCACCTCGTCGGCTGCGCGATCAACACTTTCTGGTGAATCCAGATCGATCAACACGC -CGGTAAATCCCATGCTGTTCATGCGCTCAACATCATCCGGTTTCCGGCAACCTGCCAGCACATGAAAACCCTGGCGTTTT -AATTCGAGCGCGCTTTCCAGGCCAATTCCACTGGAACATCCGGTAATTAAGACCGATTTTTGCATAACTTTACCTGTCAG -GATCTCCGTTGCTTTATGAGTCATGATTTACTAAAGGCTGCAACTGCTTCGCCATCCAGTCGGCAATAAACGGCTGGGCG -TCGCGGTTGGGATGAATACCGTCATCCTGCATCCATTGTGGCTTGAGGTAGACCTCTTCCATAAAAAAGGGCAGCAGCGG -AACATCAAACTCTTTGGCGAGTTTGGGGTAAATGGCGCTAAAGGCTTCATTATAACGGCGACCATAGTTTGCAGGCAGAC -GTATTTGCATTAACAATGGTTCAGCGTTGGCGGCTTTGACATCCTGCAAAATCTGGCGCAGCGTTTGCTCGGTTTGCTGT -GGCTGAAAACCACGCAAACCGTCATTGCCGCCCAGTTCAACCAGCACCCAACGCGGCTGATGCTGTTTCAGCAGAGCCGG -AAGGCGCGCCAGTCCTTGTTGCGAGGTGTCGCCGCTGATGCTGGCATTAACTACCGACGTTTTACTCTGCCACTTATCAT -TCAACAAGGCAGGCCAGGCCGCGCTGGCAGACATTCGATACCCGGCGCTCAGGCTATCACCCAGAATCAATAACGTGTCC -GCTGCGGCGGCACGGAAGGTTAACAGGACCAGGAACAGGAAGGGCAAATGCCAGCGGAAAACATTGTTGAAGTTCATCAT -CTTAAGAAGTCCGTCGGTCAGGGGGAGCATGAACTCTCCATCCTCACCGGAGTTGAGCTGGTTGTCAAACGTGGCGAGAC -CATCGCACTGGTGGGCGAGTCGGGATCGGGTAAGTCAACCTTGCTGGCGATCCTCGCCGGGCTTGATGACGGCAGCAGTG -GCGAAGTGAGTCTGGTGGGACAACCGCTACATAATATGGACGAAGAAGCGCGGGCAAAGTTGCGCGCGAAGCACGTCGGC -TTTGTTTTTCAGTCATTTATGTTAATTCCTACCCTTAACGCGCTGGAAAACGTCGAGCTTCCGGCTCTGCTGCGCGGTGA -GAGTAGCGCGGAAAGTCGTAACGGGGCGAAAGCGTTGCTCGAACAGTTAGGGCTGGGTAAACGTCTGGATCATCTTCCGG -CACAGCTTTCCGGCGGTGAACAGCAACGAGTGGCGCTGGCACGAGCCTTTAATGGTCGACCTGATGTGCTGTTTGCCGAC -GAACCCACCGGCAACCTTGACCGCCAGACGGGCGATAAAATTGCCGACCTGCTGTTTTCCCTCAACCGTGAACATGGCAC -CACGTTGATTATGGTGACCCACGACCTGCAACTGGCGGCACGCTGCGACCGCTGCTTACGGCTGGTGAACGGGCAGTTGC -AGGAGGAAGCATGATTGCACGTTGGTTCTGGCGCGAATGGCGTTCGCCGTCGCTATTAATTGTCTGGCTGGCGCTAAGCC -TGGCGGTGGCCTGCGTGCTGGCGCTGGGCAATATCAGCGATCGCATGGAGAAGGGCTTAAGCCAGCAAAGCCGTGAGTTT -ATGGCGGGCGATCGGGCGTTGCGCAGTTCACGCGAAGTGCCGCAAGCGTGGCTGGAGGAAGCGCAAAAGCGCGGCCTGAA -AGTCGGCAAGCAGCTGACTTTCGCCACAATGACCTTTGCAGGCGACACACCGCAGCTGGCGAACGTCAAAGCGGTGGATG -ATATCTACCCGATGTATGGCGATCTGCAAACTAATCCCCCTGGCCTGAAACCGCAGGCGGGCAGCGTATTGCTGGCCCCA -CGCCTGATGGCACTGCTTAACCTGAAAACGGGCGACACCATTGACGTGGGCGATGCCACCTTGCGGATTGCCGGAGAAGT -GATTCAGGAACCGGATTCCGGTTTTAACCCCTTCCAGATGGCTCCGCGTCTGATGATGAATCTGGCGGATGTCGATAAAA -CCGGAGCCGTGCAGCCGGGGAGTCGGGTCACCTGGCGTTATAAATTCGGCGGCAACGAGAACCAGCTCGACGGCTATGAG -AAATGGTTGTTACCTCAGCTTAAACCCGAACAACGCTGGTACGGTCTGGAACAGGACGAAGGCGCGCTGGGGCGATCGAT -GGAACGCTCGCAACAGTTCCTGCTGCTTTCGGCGCTTCTGACCTTGCTGCTGGCAGTGGCAGCGGTGGCGGTAGCGATGA -ATCATTACTGTCGCAGTCGCTACGATCTGGTGGCGATCCTCAAAACGCTGGGGGCAGGGCGAGCGCAACTGCGTAAGCTA -ATCGTCGGTCAGTGGTTGATGGTGCTGACGCTTTCAGCCGTTACCGGTGGGGCCATAGGCCTGTTGTTCGAAAACGTGTT -GATGGTGCTGCTCAAGCCCGTTCTGCCTGCTGCACTACCGCCAGCCAGCCTCTGGCCGTGGCTGTGGGCGCTTGGCACCA -TGACGGTCATCTCGCTGCTGGTGGGGCTACGACCATATCGCTTGTTGCTGGCAACGCAGCCTTTACGCGTATTACGTAAT -GATGTGGTAGCGAACGTCTGGCCGCTGAAGTTTTATCTGCCGATTGTCAGTGTGGTGGTTGTGCTGCTGCTCGCCGGATT -AATGGGTGGCAGCATGCTGCTTTGGGCGGTGCTGGCGGGCGCGGTAGTACTGGCTTTGCTGTGCGGTGTGCTGGGCTGGA -TGCTGCTGAATGTACTTCGCCGCATGACGCTGAAATCGCTGCCTCTGCGCCTGGCGGTTAGCCGCCTGTTACGTCAGCCG -TGGTCAACGTTAAGTCAGCTTTCGGCATTTTCGCTCTCCTTTATGCTGCTGGCACTGCTGCTGGTGTTGCGTGGCGATCT -GCTCGACCGCTGGCAGCAGCAGCTACCTCCAGAAAGCCCGAACTACTTTTTAATTAACATCGCCACAGAACAGGTAGCAC -CGCTAAAAGCGTTCCTCGCGGAACATCAGATAGTCCCGGAATCGTTTTATCCGGTGGTGCGGGCGCGGCTGACGGCGATT -AACGATAAGCCGACAGAAGGTAATGAAGATGAGGCGCTTAACCGCGAACTCAATCTTACCTGGCAAAATACGCGGCCCGA -TCATAATCCGATTGTCGCCGGTAACTGGCCGCCAAAAGCCGATGAAGTGTCGATGGAAGAGGGGCTGGCGAAACGCTTAA -ACGTTGCCCTCGGTGATACCGTGACTTTTATGGGCGATACCCAGGAGTTCCGCGCTAAAGTGACCAGCCTGCGCAAAGTG -GACTGGGAAAGTCTGCGGCCTAATTTCTATTTTATTTTCCCTGAAGGGGCATTAGACGGGCAACCGCAGAGCTGGCTTAC -CAGTTTCCGCTGGGAGAATGGCAACGGCATGTTGACACAACTCAACCGCCAGTTCCCGACCATTAGCCTGTTAGATATTG -GCGCGATTTTAAAACAGGTCGGTCAGGTGCTGGAGCAGGTAAGTCGGGCGCTGGAAGTGATGGTGGTACTGGTCACCGCC -TGCGGTATGTTGCTGTTGCTGGCACAGGTGCAGGTGGGAATGCGTCAGCGTCATCAGGAGCTGGTGGTGTGGCGCACACT -CGGTGCGGGGAAAAAACTGCTGCGTACCACGTTGTGGTGTGAGTTCGCCATGCTTGGGTTTGTTTCCGGCCTGGTGGCCG -CAATTGGTGCGGAAACGGCGCTGGCAGTGTTGCAGGCGAAAGTGTTTGATTTTCCGTGGGAGCCAGACTGGCGATTGTGG -ATTGTTCTGCCGTGCAGCGGAGCGCTGCTGCTGTCGCTTTTCGGCGGCTGGCTGGGTGCGCGACTGGTTAAGGGTAAGGC -GCTGTTCAGGCAGTTTGCGGGGTGATGAGAGTAAATAAGGGGCGTTCTGGTTGAATGGAACGCCTTGTTTAAATTAATTC -TACAATATGTTTCATTGATGATGTTATTGAATTGGTGATTTCCTATCTTTCTATTGCTGATATTAATCTGAATCGGTGGA -GTTTATTGATTTTAAATATAGCCCTACAAAAATAACTCAGACTAATAAAATCATAAATCATATGCGTTGAATGGATATTA -TCCATATAGTGAATTTGTTGATGATGAATTCATCTGTGCTAAAAATGTTAGTTTAATAAAATATTGAAAGTGACCTGTAA -TAACAGTTGTTGTTGATTGAGAACAAATAAGTTTATGTGAAAAATATATAAATACATTAGCTGGTCTTGTGTGTCATTTT -ATTTTTTTTTGTTGCTAACACAGGGATATGAACAATAACTAAAAGGGCACTTTATATGAGCGGAAAACCAGCGGCGCGTC -AGGGAGATATGACTCAGTATGGCGGTCCCATTGTCCAGGGTTCGGCAGGTGTAAGAATTGGCGCGCCCACCGGCGTGGCG -TGCTCGGTGTGTCCGGGCGGGATGACTTCGGGCAACCCGGTAAATCCGCTGCTGGGGGCGAAGGTGCTGCCCGGCGAGAC -GGACCTTGCGCTGCCCGGCCCGCTGCCGTTCATTCTCTCCCGCACCTACAGCAGCTACCGGACGAAGACGCCTGCACCGG -TGGGCGTTTTCGGCCCCGGCTGGAAAGCGCCTTCTGATATCCGCTTACAGCTACGTGATGACGGACTGATACTCAACGAC -AACGGCGGGCGGAGCATTCACTTTGAGCCGCTGCTGCCGGGGGAGGCGGTGTACAGCCGCAGTGAGTCAATGTGGCTGGT -GCGCGGTGGTAAGGCAGCACAGCCGGACGGCCATACGCTGGCGCGGCTGTGGGGGGCGCTGCCGCCGGATATCCGGTTAA -GCCCGCATCTTTACCTGGCGACCAACAGCGCACAGGGGCCGTGGTGGATACTGGGGTGGTCTGAGCGGGTGCCGGGTGCT -GAGGACGTACTGCCAGCGCCGCTGCCGCCGTACCGGGTGCTTACCGGGATGGCGGACCGCTTCGGGCGGACGCTGACGTA -CCGGCGTGAGGCCGCCGGTGACCTGGCCGGGGAAATCACCGGCGTGACGGACGGTGCCGGGCGGGAGTTCCGTCTGGTGC -TGACCACGCAGGCGCAGCGTGCGGAAGAGGCCCGCACCTCTTCGCTATCTTCTTCTGACAGTTCCCGCCCTCTCTCAGCC -TCAGCGTTCCCCGACACACTGCCCGGTACCGAATACGGCCCCGACAGGGGTATCCGCCTTTCGGCGGTGTGGCTGATGCA -CGACCCGGCATACCCGGAGAGCCTGCCCGCTGCGCCACTGGTGCGGTACACGTATACGGAAGCCGGTGAACTGCTGGCGG -TATATGACCGCAGCAATACGCAGGTGCGCGCTTTCACGTATGACGCGCAGCACCCGGGCCGGATGGTGGCGCACCGTTAC -GCGGGAAGGCCGGAGATGCGCTACCGCTACGACGATACGGGGCGGGTGGTGGAGCAACTGAACCCGGCAGGGTTAAGCTA -CCGCTATCTTTATGAGCAGGACCGCATCACCGTCACCGACAGCCTGAACCGGCGTGAGGTGCTGCATACAGAAGGCGGGG -CCGGGCTGAAACGGGTGGTGAAAAAAGAACTGGCGGACGGCAGCGTCACGCGCAGCGGGTATGACGCGGCAGGAAGGCTC -ACGGCGCAGACGGACGCGGCGGGACGGAGGACAGAGTACGGTCTGAATGTGGTGTCCGGCGATATCACGGACATCACCAC -ACCGGACGGGCGGGAGACGAAATTTTACTATAACGACGGGAACCAGCTGACGGCGGTGGTGTCCCCGGACGGGCTGGAGA -GCCGCCGGGAATATGATGAACCGGGCAGGCTGGTATCGGAGACATCGCGCAGCGGGGAGACAGTACGCTACCGCTACGAT -GACGCGCACAGTGAGTTACCGGCGACGACAACGGATGCGACGGGCAGCACCCGGCAGATGACCTGGAGCCGCTACGGGCA -GTTGCTGGCGTTCACCGACTGCTCGGGCTACCAGACCCGTTATGAATACGACCGCTTCGGCCAGATGACGGCGGTCCACC -GCGAGGAAGGCATCAGCCTTTACCGCCGCTATGACAACCGTGGCCGGTTAACCTCGGTGAAAGACGCACAGGGCCGTGAA -ACGCGGTATGAATACAACGCCGCAGGCGACCTGACTGCCGTTATCACCCCGGACGGCAACCGGAGCGAGACACAGTACGA -TGCGTGGGGAAAGGCGGTCAGCACCACGCAGGGCGGGCTGACGCGCAGTATGGAGTACGATGCTGCCGGACGTGTCATCA -GCCTGACCAACGAGAACGGCAGCCACAGCGTCTTCAGTTACGATGCGCTGGACCGGCTGGTACAGCAGGGCGGCTTTGAC -GGGCGGACGCAACGTTATCATTATGACCTGACCGGAAAACTCACACAGAGTGAGGATGAGGGACTTGTCATCCTCTGGTA -CTACGATGAATCGGACCGTATCACTCACCGCACGGTGAACGGCGAACCGGCAGAGCAGTGGCAGTATGATGGCCACGGCT -GGCTGACAGACATCAGCCACCTGAGCGAAGGCCACCGTGTTGCCGTCCACTATGGCTATGACGATAAAGGCCGCCTGACC -GGCGAATGCCAGACGGTGGAGAACCCGGAGACGGGGGAACTGCTGTGGCAGCATGAGACGAAACACGCATACAACGAGCA -GGGGCTGGCAAACCGCGTCACGCCGGACAGCCTGCCGCCGGTGGAGTGGCTGACGTATGGCAGCGGTTACCTGGCGGGAA -TGAAGCTGGGCGGGACGCCGCTGGTCGAGTATACGCGGGACAGGCTGCACCGTGAGACGGTGCGCAGCTTCGGCAGCATG -GCAGGCAGTAATGCCGCATACGAACTGACCAGCACATACACCCCCGCAGGCCAGTTACAGAGCCAGCACCTGAACAGCCT -GGTATATGACCGTGACTACGGGTGGAGTGACAACGGCGACCTGGTGCGCATCAGCGGCCCGCGACAGACGCGGGAATACG -GCTACAGCGCCACGGGCAGGCTGGAGAGTGTGCGCACCCTCGCACCAGACCTGGACATCCGCATCCCGTATGCCACGGAC -CCGGCGGGCAACCGGCTGCCGGACCCGGAGCTGCACCCGGACAGTACACTCACAGTGTGGCCGGATAACCGCATCGCGGA -GGATGCGCACTATGTCTACCGCCACGATGAATACGGCAGGCTGACGGAGAAGACGGACCGCATCCCGGCGGGTGTGATAC -GGACGGACGACGAGCGGACCCACCACTACCACTACGACAGCCAGCACCGCCTGGTGTTCTACACGCGGATACAGCATGGC -GAGCCACTGGTCGAGAGCCGCTACCTCTACGACCCGCTGGGACGGCGAATGGCAAAACGGGTCTGGCGGCGGGAGCGTGA -CCTGACGGGGTGGATGTCGCTGTCGCGTAAACCGGAGGTGACGTGGTATGGCTGGGACGGAGACAGGCTGACGACGGTGC -AGACTGACACCACACGTATCCAGACGGTATACGAGCCGGGAAGCTTCACGCCGCTCATCCGGGTCGAGACAGAGAACGGC -GAGCGGGAAAAAGCGCAGCGGCGCAGCCTGGCAGAGACGCTCCAGCAGGAAGGGAGTGAGAACGGCCACGGCGTGGTGTT -CCCGGCTGAACTGGTGCGGCTGCTGGACAGGCTGGAGGAAGAAATCCGGGCAGACCGCGTGAGCAGTGAAAGCCGGGCGT -GGCTTGCGCAGTGCGGGCTGACGGTGGAGCAACTGGCCAGACAGGTGGAGCCGGAATACACACCGGCGCGAAAAGCTCAT -CTTTATCACTGCGACCACCGGGGACTGCCGCTGGCGCTTATCAGCGAAGACGGCAATACGGCGTGGAGCGCGGAATATGA -TGAATGGGGCAACCAGCTTAATGAGGAGAACCCGCATCATGTGTATCAGCCGTACCGTCTGCCAGGGCAGCAGCATGATG -AGGAATCAGGGCTGTACTATAACCGTCACCGGTACTACGATCCGTTGCAGGGGCGGTATATTACTCAGGACCCGATGGGG -TTGAAAGGGGGATGGAATTTATATCAGTATCCTTTAAATCCACTACAACAAATTGACCCTATGGGATTATTGCAGACTTG -GGATGATGCCAGATCTGGAGCATGTACGGGGGGAGTTTGTGGTGTTCTTTCACGTATAATAGGACCAAGTAAATTTGATA -GTACTGCAGATGCTGCGTTAGATGCTTTGAAAGAAACGCAGAATAGATCTCTATGTAATGATATGGAATACTCTGGTATT -GTCTGTAAAGATACTAATGGAAAATATTTTGCATCTAAGGCAGAAACTGATAATTTAAGAAAGGAGTCATATCCTCTGAA -AAGAAAATGTCCCACAGGTACAGATAGAGTTGCTGCTTATCATACTCACGGTGCAGATAGTCATGGCGATTATGTTGATG -AATTTTTTTCAAGTAGCGATAAAAATCTTGTAAGAAGTAAAGATAATAATCTTGAAGCATTTTATCTCGCAACACCTGAT -GGACGATTTGAGGCGCTTAATAATAAAGGAGAATATATTTTTATCAGAAATAGTGTCCCGGGATTGAGTTCAGTATGCAT -ACCGTATCATGATTAATTTTAGTGCTTTTATTAGTGGGGCCTATAAGGAGATTCAATGAAATATAGTTCAATATTTTCGA -TGCTTTCATTTTTTATACTATTTGCCTGTAATGAGACAGCTGTTTACGGTTCTGATGAAAACATTATTTTTATGAGGTAT -GTGGAAAAATTACATTTAGATAAATACTCTGTTAAAAATACGGTAAAAACTGAAACAATGGCGATACAATTAGCTGAAAT -ATATGTTAGGTATCGCTATGGCGAACGGATTGCAGAAGAAGAAAAACCATATTTAATTACGGAACTACCAGATAGTTGGG -TTGTTGAGGGAGCAAAGTTACCTTATGAAGTTGCGGGTGGTGTATTTATTATAGAAATTAATAAGAAAAATGGATGTGTT -TTGAATTTCCTACATAGTAAATAATGCTGGCGCTGATGGATGCGGATGGAAACATTGCGTGGAGCGGGGAGTATGATGAG -TGGGGCAACCAGCTGAATGAAGAGAACCCGCATCACCTGCACCAGCCGTACCGGCTGCCGGGGCAGCAGTATGATAAGGA -GTCGGGGCTGTACTACAACCGGAACCGGTACTACGATCCGTTGCAGGGGCGGTATATCACTCAGGACCCGATAGGGCTGG -AGGGGGGATGGAGTCTGTATGCGTATCCGCTGAATCCGGTGAATGGTATTGATCCATTAGGGTTAAGTCCCGCAGATGTA -GCGCTAATAAGAAGAAAAGATCAACTAAACCATCAAAGAGCATGGGATATATTATCTGATACTTATGAAGATATGAAGAG -ATTAAATTTAGGTGGGACTGATCAATTTTTCCATTGTATGGCATTTTGTCGAGTGTCTAAATTAAATGACGCTGGTGTTA -GCCGATCGGCGAAAGGGCTGGGTTATGAAAAAGAGATTAGAGATTACGGGTTAAATCTGTTCGGTATGTACGGCAGAAAA -GTAAAGCTATCCCATTCTGAAATGATTGAAGATAATAAAAAAGACTTGGCTGTAAATGACCATGGGTTGACATGTCCATC -AACAACAGATTGCTCAGATAGATGTAGTGATTATATTAATCCAGAGCATAAAAAAACGATAAAGGCTTTACAAGATGCTG -GCTATCTCAAGTAATCTATCAAAGATGATAATATTTATTTTTGCTATTATAATCATTGTTGTTTTATGCGTAATTACTTA -TCTTTATTTATACAAAGATGAATCTCTTGTAAGTAAACATTACATAAACTATATGGCAATACCAGAAAATGATGGAGTTT -TTACATGGCTCCCAGATTTTTTTCCGCACGTAGCGGTGGATATATCAATATACACAAATGTAGAAGATGATTATTTTTTT -CTTATTTTTCCCTAACAAATGATGATGGGGGTAGGTTTAAGAAAACATTGACAGTGAGGGCCAGGGAACAAGTGGCGAAA -ATCGTATCAAAGAATGATCCAGATACAAAAAAAGTGTGGTGTAAATATGGTAAGATACCAGGGCAAGGGGATGGTGTAAA -CCTTTTTTTTGTTGGTGAAATTAATGTTACGCATTATTTTATAACAAATATTGGAGCTGGATTGCCTGATGCTTGTGCAG -AGTAATTGCTTGAATTAAGAGTCTATCCCATATCGAAGTCGTCAACTTCGTAGTGAGGAAAAGTAAAATTCCTGACTGAG -AAAAGACATGTCGGCTATTGTGTAAAGCCATATAGCTCAGACGATGAATATCTACTCGTATTCAGTTGTTTATTGAGGGT -GAGTTCCGACCCTGAAACAACAAATAAAATGAACAGTCAGAGAGTTTACATAGAATTGCACTGGTCTTTTACGATATCTG -ACATTGTGTAATACATATTCAGCCATGCATTAATTAAAATGTTACGTGTTTAATGTGAGTCCCTATCTGAAAATAAATAA -TCCTTCCGGATTAAAATAAATTCTTGCCGGGAAAGAAAGAGGAAATAAACCATTAGCGGAAAACCAGCGGCACGCCAGGG -TGACATGCCCCAGTACGGCGGCCCGATAGTCCAGGGTTCAGCGGGGGTACTGATAGTCGCGCCGACTGCATCGAGAACTC -CATACAACTTTTTACGGAACGTCACCTGATAAAATTTGTTCAGTATCGTCTTTTGAGATTCTCAAGGTTATGGAGTAACC -AGACAGAACGGACACCACTGTCGGAGATAAAAACCCCCTGTTTACGCAGCTCGTTGCTGGCCCGGTGCTGACCATGTGTC -GGGAAAGCGACGGCGTAATCAACAACAGCCTGTTCAGTTGCCTCATCGGTACGGTTCTTAAGGTTAGGAGCGCGGCGACT -ACGATTAATCTGCGCATCCACACCGCCTTCAGCGACCAGTTCGCGGTAACGATAAAACGTATCACGCGAAACGCCCATGA -TTTTACAGGCTTTTGATACGTTGCTGAGTTCTTCAGCCAGATTGAGCAAACCGGCTTTGTGTTTGATGACGGGATTGGCA -GTATGAAGCATGAGAGTTACCTCTTGTTTTGGATAAGGATTCGACACTCATATCAAAACCGGTAACTCTCAACCTTTCAA -GGCCATGTGTCAGATCAAGTCGCGACTAATACAAATACGTCCCTCATTACCGCGCCTTAACCCATTCCGCCACTTCCGCC -CACTCACCGCGAAAGACAACTTTTTCCGCTTTTTTCTCAAGCTGATAGCGATACATCGGGTCGTAATATTCTTCAAGTAA -CGGCACCAGCCAGGCCAGATGACCGTCGGTGCTGCCGGTGGTGAGTTGCGTTGTCAGTGCTGCATCCAGCCTTGCAGCCA -GTTCGTTATAGCGCTGTAGCCCCAGCCGACGCTTAATCGCCGAAAGTCCGTGATGCAGGTATTCGCAATACTCCTGCCAG -CCCTGTTCGTCGCCGTACGCGTGGGTAAAATCATGATGCATACGCAAGAAATACTCTTCGTTCAGGCGCTCAAGACGGAT -CTCAAACGGATCTTCTACCACCGCAATCGCCGCCTGAGTCATTCGCTCGCGCAGGCATTCCGGCAGGTGATTCGAACCGA -TCATCCGGCTTTCGTCTTCCAGCACCCACAGGCGCAAATTCTGACGGGCGTCGGTTTTTAGCATTTCGGCAGCCAGCAGG -TTTTCAAAACTCGCCTGGCTAAGTTGTGGTTGTAACGTGCGACCAAACGCCGAACCGCGATGACGCGCCAACCCTTCCAG -ATCAACACCGTTCGGCTGTTGCTGCACTAACAGCGTTTTACCGCTGCCGGTACAACCGCCAATCAGCACTATCGGTTTTT -GTGCCAGTTCAATAGTCGCCTGAATCGCGGTCTGGCGCAGTGCCTTATAACCGCCTTCCACCAGCGGATAATCAATCCCC -GCTGCATGCAACCAGCTTTGCACAATATGTGAGCGCTGACCGCCACGGGCGCAGCAGAGAATACCTTGCGGATTTTGCAG -GCACGCTGCCCGCCAGGCGTCCATGCGCTGCTGACGAATTTCACCCGCCACCAGTTTATGTCCCAGCGCCAGCGCTGCGT -CTGAGCCTTGCTGTTTATAGCAGGTGCCAACGGCGGCGCGTTCATCGTTATTCATTAACGGCAGATTGATAGCGGCGGGC -ATTGCGCCGTGCTCAAACTCGATAGGGGCGCGAACATCAATAATGGGCGTATCAGCAATCAGCAGGGCACGATAGTCCTG -TTCCGTGTGTCTCTCTTGCATAGTTAAAAGTGAACCTCAAATCAGCTTGCGCGCTATTTTACGCGCCAACGCGCAAGGAA -ACTTGATTTTTAACTGCGTGGGTTGCCGAAAATTTCTAAAAATCCGCTGATTTCCGGCCTGCGCTGGGTAAACAAGGTCA -CAATATCTTCTACCGCTTTGCCGCTGCCAAATTTGCGCCATGCCAGACTCAATGGCGAAGGAGGGCGCATCGTTGGGATT -ACCCGGCTGACCAGTTGTTGATTATCGATCATTGACTGGCAAAGCGATTTTGGCAAAAAACCAATGCCAACGCCCGCCAG -ATGGGCGGCGATTTTCGTTTCCATATCGGGAACAATAATCTCTTTTTGCCCTGGCAATCGCCAGGCGACGCGTTTGGTTA -AGGTGCGGGCGCTGTCTTCAATATTGACCGCCGGAAAGCGCCGCAACTGCGCTTCTGTTAGCGGCTCTTCAACGTTCGCC -AGCGGATGATCCGCCGCCATGACAAAGCGCCATTGCACCGATCCTAAGGGATCAAGACTAAAGGTATTTGCCAGCGCCTC -AGTTCCCGTGACGCCGATAGCCAGCGAAAAACCTTCGTACAATAGCGAGTCCCAGACGCCCATATAGATTTGTCGGGAGA -TGTGAAACTGGGTAAAGGGGTAACGCTCATTCAGCCACGCCAGCAACTGGGCGACGGCCTGGGGGTTGTAGAGCAGGTTG -TTGATGACAATATTCACCTGGCGTTCCACGCCATCATTCACCTGTTGCAGCTCGCTTGGCATACTTTCCAGCCAGCTCAG -CCAGTCTCTGGCCTGGGAAAGTAGATGCTCGCCAGCCGCTGTCAACGTCACGCTGCGAGTCGTACGGAAAAACAGCGCTA -CTCCGGTATTCTCTTCCAGAAGTTTAATGCGATAACTGATCGTCGCCGTGGTTTTACATAATCGTTCTGCCGCTTTTGAA -AAACTTCCTGTTTCAGCAACCGCAATGAAAGTCCGCAAGGTTTCTGGATCGAACATCTTCAGGTATCCCCTTTTAAATCC -GCAAGTTGCGTGATTTTCTTATCCTCTGATTTATCAGTATTTTTACATGATAACCCTGTTCAATTTGTGGACTAAATCTA -GTTTTGGAAAAATATTCCAACTTTTGTATTGATGTTGTTCTCTTAAGGTTTTAGATTGCCTGTTATTGAAACCAAGCTGA -CCGGTCGGCGGTGGTTGAACGGAATTATGTTACAAGGACAAAAAGATGAAACTTCAGGTATTACCGTTAAGTCAGGAAGC -CTTTAGTGCTTATGGCGACGTAATCGAAACGCAGCAACGGGATTTTTTCCATATTAACAATGGCCTGGTGGAGCGTTACC -ACGATTTGGCGCTGGTTGAGATTCTTGAGCAAGACTGTACGCTTATCAGCATTAACCGCGCGCAACCGGCGAATCTGCCG -CTGACCATTCACGAACTCGAACGTCATCCGCTGGGTACTCAGGCCTTTATCCCGATGAAAGGTGAGGTGTTTGTGGTGGT -CGTGGCGTTAGGTGACGACAAACCAGACCTGTCAACGCTGCGGGCGTTTATCACCAACGGCGAACAGGGAGTGAATTACC -ATCGTAACGTCTGGCATCACCCACTTTTCGCCTGGCAGCGCGTCACCGATTTTCTGACCATCGATCGCGGCGGCAGTGAC -AACTGTGATGTTGAAAGTATTCCTGAACAGGAACTCTGTTTTGCGTGACGCCTGCAACCGACTTGCATAAGATAAACTAA -TTGTTCATTGTTTATGCTCACTTGTAGGTCGGAGTTAACGTAGGTATGACGGAAGTTAGACGGCGCGGCAGGCCAGGACA -GGCGGAGCCTGTGGCACAGAAGGGCGCACAGGCGTTAGAGCGGGGAATTGCGATTCTGCAATATTTGGAAAAAAGTGGGG -GAAGTTCGTCGGTTAGCGATATTTCTCTCAATCTGGATTTGCCGCTCTCCACGACCTTTCGCTTGCTGAAGGTTTTACAG -GCAGCGGATTTTGTCTATCAGGACAGTCAATTAGGCTGGTGGCATATAGGATTAGGTGTCTTTAACGTCGGTGCGGCGTA -CATCCATAACCGCGATGTCCTCTCCGTCGCCGGGCCGTTTATGCGCCGCCTGATGTTACTTTCCGGCGAAACGGTCAATG -TCGCGATCCGTAACGGCAATGAAGCGGTATTAATTGGTCAGTTAGAGTGTAAATCGATGGTCAGGATGTGTGCGCCACTG -GGCAGTCGTCTGCCACTGCATGCTTCCGGTGCGGGCAAAGCGCTGCTTTATCCGCTGGCGGAAGAGGAGTTGATGAGCAT -CATTCTGCAAACCGGTTTGCAGCAGTTTACGCCAACTACGCTTGTGGATATGCCCACCTTGCTGAAGGACCTGGAACAAG -CGCGTGAACTGGGCTATACCGTAGATAAAGAAGAGCATGTTGTAGGTCTGAATTGCATAGCTTCAGCAATTTACGATGAT -GTCGGTAGTGTTGTTGCCGCTATCTCCATCTCCGGGCCTTCATCAAGACTGACAGAAGATCGTTTTGTCAGTCAGGGTGA -GCTGGTCAGAGACACCGCCCGCGATATCAGCACGGCGTTGGGACTGAAAGCACATCCATAATGTCTGTCGCATCCCGCTC -TGCGGAGCGGGTTTTTTTGACAAAATTTGAAAGTTGGAAAAATTTTCCAATAAATAGAGGTAGGAATAAAATGGCAAAAA -TGAGAGCCGTTGACGCGGCAATGTATGTGCTGGAGAAAGAAGGTATCACTACCGCCTTCGGTGTTCCGGGAGCTGCAATC -AATCCGTTCTACTCAGCGATGCGTAAGCACGGCGGTATTCGTCACATTCTGGCGCGTCATGTGGAAGGTGCTTCGCACAT -GGCGGAAGGTTATACCCGCGCAACGGCAGGGAATATCGGCGTATGTCTGGGGACTTCCGGTCCTGCGGGCACGGACATGA -TCACCGCGCTCTATTCCGCTTCTGCTGATTCCATTCCTATTCTGTGCATTACCGGCCAGGCACCGCGCGCCCGTCTGCAT -AAAGAAGATTTTCAGGCCGTAGATATTGAAGCAATTGCTAAACCGGTCAGCAAAATGGCGGTTACAGTTCGTGAAGCGGC -GCTGGTGCCTCGCGTGCTGCAACAGGCATTTCACCTGATGCGTTCTGGTCGTCCGGGTCCGGTACTGGTGGATTTACCGT -TCGACGTTCAGGTTGCGGAAATCGAGTTTGATCCTGACATGTACGAACCGCTGCCGGTCTACAAACCTGCTGCCAGCCGT -ATGCAGATCGAAAAAGCTGTAGAAATGTTAATCCAGGCCGAACGTCCGGTGATTGTTGCCGGGGGCGGGGTAATTAATGC -TGACGCAGCTGCACTGTTACAACAGTTTGCTGAACTGACCAGCGTTCCGGTGATCCCAACGCTAATGGGCTGGGGCTGTA -TCCCGGACGATCATGAACTGATGGCCGGGATGGTGGGTCTGCAAACCGCGCATCGTTACGGTAACGCAACGCTGCTGGCG -TCTGACATGGTGTTTGGTATCGGTAACCGTTTTGCTAACCGTCATACCGGCTCGGTAGAGAAATACACCGAAGGGCGCAA -AATCGTTCATATTGATATTGAGCCGACGCAAATTGGTCGCGTGCTGTGTCCGGATCTCGGTATTGTCTCTGATGCTAAAG -CGGCGCTGACACTGCTGGTTGAAGTGGCGCAGGAGATGCAAAAAGCGGGTCGTCTGCCGTGTCGTAAAGAATGGGTCGCC -GACTGCCAGCAGCGTAAACGCACTTTGCTGCGCAAAACCCACTTCGACAACGTGCCGGTGAAACCGCAGCGCGTGTATGA -AGAGATGAACAAAGCCTTTGGTCGCGATGTTTGTTATGTCACCACCATTGGTCTGTCACAAATCGCTGCGGCACAAATGC -TGCATGTCTTTAAAGACCGCCACTGGATCAACTGTGGTCAGGCTGGTCCGTTAGGCTGGACGATTCCGGCTGCGCTAGGG -GTTTGTGCCGCTGATCCGAAACGCAATGTGGTGGCGATTTCTGGCGACTTTGACTTCCAGTTCCTGATTGAAGAGTTAGC -TGTTGGCGCGCAGTTCAACATTCCGTACATCCATGTGCTGGTCAACAACGCTTATCTGGGGCTGATTCGTCAGTCACAAC -GCGCTTTTGACATGGACTACTGCGTGCAACTCGCTTTCGAGAATATCAACTCCAGTGAAGTGAATGGCTACGGTGTTGAC -CACGTAAAAGTAGCGGAAGGTTTAGGTTGTAAAGCTATTCGGGTCTTCAAACCGGAAGATATTGCGCCAGCCTTTGAACA -GGCGAAAGCCTTAATGGCGCAATATCGGGTACCGGTAGTCGTGGAAGTTATTCTCGAGCGTGTGACCAATATTTCGATGG -GCAGCGAACTGGATAACGTCATGGAATTTGAAGATATCGCCGATAACGCAGCGGACGCACCGACTGAAACCTGCTTCATG -CACTATGAATAAGGGAGATAAATAATGTTACGTTTCTCTGCTAATTTATCGATGTTATTTGGAGAATATGATTTTCTCGC -CCGTTTTGAGAAAGCTGCGCAGTGTGGTTTTCGCGGCGTTGAATTTATGTTTCCTTATGACTACGACATTGAAGAATTAA -AACATGTGCTGGCGAGTAATAAACTCGAACATACGCTGCACAATTTACCGGCGGGTGACTGGGCGGCGGGGGAGCGCGGT -ATTGCCTGTATTCCTGGCCGTGAAGAAGAGTTTCGGGATGGCGTAGCAGCAGCGATTCGTTATGCCCGTGCGCTGGGTAA -TAAAAAAATTAACTGTCTGGTCGGTAAAACGCCGGCTGGTTTCAGCAGTGAACAGATTCACGCAACGCTTGTAGAAAACC -TGCGTTATGCCGCGAATATGCTGATGAAAGAAGATATTTTATTACTGATTGAACCTATTAACCATTTTGATATTCCTGGT -TTCCATCTCACCGGAACTCGGCAGGCGCTGAAATTGATTGATGATGTTGGTTGCTGCAATTTGAAAATTCAGTATGACAT -TTATCATATGCAGCGGATGGAAGGTGAATTAACCAACACCATGACTCAGTGGGCTGATAAAATTGGTCACCTGCAAATTG -CCGATAATCCGCATCGCGGCGAACCGGGAACCGGAGAAATTAATTATGATTATCTCTTTAAGGTAATCGAAAATTCTGAC -TACAACGGTTGGGTTGGGTGTGAATATAAACCCCAAACCACCACGGAAGCCGGTTTACGCTGGATGGATCCGTACCGTTA -AAACGTAACGCTATTCAGACAATGCTTTTTTAGGCCGCTAAGTTGGCAGGGGATCGTGTTGTCTGAATTCAGGAAAAGCG -AAATTTAAAAGAGGTTAATTATGAAACTGGGATTTATTGGCTTAGGCATTATGGGTACACCGATGGCCATTAATCTGGCG -CGTGCCGGTCATCAATTACATGTCACGACCATTGGACCGGTTGCTGATGAATTACTGTCACTGGGTGCCGTCAGTGTTGA -AACTGCTCGCCAGGTAACGGAAGCATCGGACATCATTTTTATTATGGTGCCGGACACACCTCAGGTTGAAGAAGTTCTGT -TCGGTGAAAATGGTTGTACCAAAGCCTCGCTGAAGGGCAAAACCATTGTTGATATGAGCTCCATTTCCCCGATTGAAACT -AAGCGTTTCGCTCGTCAGGTGAATGAACTGGGCGGCGATTATCTCGATGCGCCAGTCTCCGGCGGTGAAATCGGTGCGCG -TGAAGGGACGTTGTCGATTATGGTTGGCGGTGATGAAGCGGTATTTGAACGTGTTAAACCGCTGTTTGAACTGCTCGGTA -AAAATATCACCCTCGTGGGCGGTAACGGCGATGGTCAAACCTGCAAAGTGGCAAATCAGATTATCGTGGCGCTCAATATT -GAAGCGGTTTCTGAAGCCCTGCTATTTGCTTCAAAAGCCGGTGCGGACCCGGTACGTGTGCGCCAGGCGCTGATGGGCGG -CTTTGCTTCCTCACGTATTCTGGAAGTTCATGGCGAGCGTATGATTAAACGCACCTTTAATCCGGGCTTCAAAATCGCTC -TGCACCAGAAAGATCTCAACCTGGCACTGCAAAGTGCGAAAGCACTTGCGCTGAACCTGCCAAACACTGCGACCTGCCAG -GAGTTATTTAATACCTGTGCGGCAAACGGTGGCAGCCAGTTGGATCACTCTGCGTTAGTGCAGGCGCTGGAATTAATGGC -TAACCATAAACTGGCCTGATACCCGCAATAAAAATGGCCGATATCAGAAAATGAATCGGCCAGCAATATTAAAAAAGAAA -GCAGCCAAAGATGTTGCTTCAGTATTAAAAATAATATTTTTATTTTATTTGTTCCTCATAGCTAGATTAAAACAACGTTA -TTCGATACGTGAAATTAAGAGGGATTTATGGAACATCAGAGAAAACTATTCCAGCAACGCGGCTATAGCGAAGATCTATT -GCCGAAAACGCAAAGCCAGCGGACCTGGAAAACATTTAACTATTTTACCTTATGGATGGGTTCGGTTCATAACGTTCCCA -ATTATGTGATGGTCGGCGGCTTTTTTATTCTCGGCTTGTCTACCTTTAGTATTATGCTGGCAATTATCCTCAGCGCCTTT -TTCATTGCCGCGGTAATGGTATTAAACGGTGCTGCGGGCAGTAAATACGGTGTGCCTTTTGCCATGATCCTGCGTGCTTC -TTACGGTGTACGTGGTGCACTGTTTCCCGGATTATTAAGGGGCGGAATTGCCGCCATCATGTGGTTTGGTTTGCAATGTT -ACGCGGGGTCACTGGCCTGCTTGATTCTGATTGGCAAAATCTGGCCGGGATTTTTAACTCTCGGTGGTGATTTCACTCTG -TTAGGCCTTTCTCTACCGGGCTTAATTACTTTCTTAATCTTCTGGCTGGTCAACGTTGGTATAGGTTTTGGCGGTGGCAA -AGTTTTAAATAAATTCACTGCCATTCTTAACCCGTGCATCTATATCGTTTTCGGCGGTATGGCGATTTGGGCGATTTCAC -TGGTCGGGATCGGTCCAATCTTTGACTACATTCCGAGCGGTATTCAGAAAGCAGAAAACGGTGGCTTCCTGTTCCTGGTG -GTGATTAACGCGGTAGTTGCGGTCTGGGCGGCACCGGCGGTGAGCGCATCCGACTTTACGCAAAACGCCCACTCGTTTCG -TGAGCAGGCGCTGGGGCAAACGCTGGGTTTAGTTGTGGCCTATATTCTGTTTGCGGTCGCCGGGGTATGTATTATTGCCG -GAGCCAGTATTCACTACGGCGCTGATACCTGGAACGTGCTGGATATTGTTCAGCGTTGGGACAGCCTGTTCGCCTCGTTC -TTTGCGGTACTGGTTATTCTGATGACAACTATCTCCACTAACGCGACCGGTAATATTATTCCAGCCGGTTATCAGATTGC -CGCCATTGCACCGACAAAACTGACCTATAAAAACGGCGTACTGATTGCCAGTATTATCAGCTTGCTGATCTGCCCGTGGA -AATTAATGGAAAATCAGGACAGCATTTATCTTTTCCTCGATATTATCGGCGGAATGCTTGGTCCGGTAATTGGTGTCATG -ATGGCGCATTATTTTGTGGTGATGCGCGGACAAATTAATCTTGATGAACTGTATACCGCACCTGGCGATTATAAATATTA -CGATAACGGTTTTAACCTCACTGCGTTTTCAGTAACTCTGGTGGCCGTTATTTTATCTCTTGGCGGTAAGTTTATTCACT -TTATGGAACCGTTATCGCGTGTTTCATGGTTTGTCGGCGTCATCGTCGCCTTTGCGGCCTACGCCTTATTAAAGAAACGT -ACAACAGCAGAAAAAACAGGAGAGCAAAAAACCATAGGTTAATTAATCCCGATATTGAACATTGAGTTAAAAACCAATCT -GTATTTTACAAGGAGTTTGTTATGTCTTTTGATTTAATCATTAAAAACGGCACCGTTATTTTAGAAAACGAAGCTCGCGT -TGTAGATATCGCCGTTAAAGGCGGAAAAATTGCTGCTATCGGTCAGGATCTGGGCGATGCAAAAGAAGTTATGGATGCGT -CTGGTCTGGTGGTTTCGCCGGGCATGGTTGATGCGCACACCCATATTTCTGAACCGGGTCGTAGCCACTGGGAAGGTTAT -GAAACCGGTACTCGCGCAGCGGCAAAAGGTGGTATCACCACCATGATCGAAATGCCGCTCAACCAGCTGCCTGCAACGGT -TGACCGCGCTTCAATTGAACTGAAGTTCGATGCCGCTAAAGGCAAGCTGACTATTGATGCGGCACAACTCGGTGGCCTGG -TGTCTTACAACATCGACCGTCTGCATGAGCTGGATGAAGTGGGCGTTGTCGGCTTCAAATGCTTCGTTGCGACCTGTGGC -GATCGCGGTATCGACAACGACTTCCGTGATGTAAACGACTGGCAGTTCTTCAAAGGTGCGCAGAAGCTGGGCGAACTGGG -TCAGCCGGTGCTGGTGCACTGCGAAAACGCGCTGATTTGTGACGAACTGGGCGAAGAAGCGAAGCGTGAAGGTCGCGTAA -CCGCTCATGACTATGTGGCTTCGCGTCCGGTATTTACCGAAGTGGAAGCAATTCGCCGCGTACTGTATCTGGCGAAAGTT -GCTGGTTGCCGTCTGCACGTTTGCCACGTCAGCAGCCCGGAAGGTGTTGAGGAAGTGACTCGTGCACGTCAGGAAGGTCA -GGACGTTACTTGTGAATCCTGCCCGCATTACTTTGTACTGGATACCGATCAGTTCGAAGAAATCGGTACTCTGGCGAAGT -GTTCACCGCCGATCCGCGATCTGGAAAACCAGAAAGGCATGTGGGAAAAACTGTTTAACGGTGAAATCGACTGCCTGGTT -TCCGACCACTCTCCATGCCCGCCGGAAATGAAAGCCGGTAACATCATGAAAGCATGGGGCGGTATCGCCGGTCTGCAAAG -CTGCATGGACGTGATGTTCGATGAAGCGGTACAGAAACGCGGTATGTCTCTGCCAATGTTCGGCAAATTAATGGCGACTA -ACGCAGCAGATATTTTCGGTCTGCAGCAAAAAGGCCGTATCGCCCCAGGAAAAGATGCCGACTTCGTCTTCATTCAGCCG -AATAGCAGCTATGTTCTTACCAATGACGATCTGGAATATCGCCACAAAGTCAGCCCGTATGTTGGCCGTACCATTGGCGC -GCGTATCACGAAAACCATCTTACGTGGTGATGTGATTTACGACATTGAACAGGGCTTCCCTGTTGCGCCGAAAGGTCAAT -TTATCCTTAAACATCAGCAGTAATCTGGCCCCTGCAATGCCCGTCCTTGCGGCGGGCATTCTCCGGTTAAGGTGTGTTTA -TGTTCAATTTTGCAGTCAGCCGCGAAAGCCTGTTATCAGGATTTCAGTGGTTTTTCTTTATTTTTTGCAACACGGTTGTG -GTTCCTCCTACGCTACTTTCTGCTTTTCAGTTGCCGCAAAGTAGCCTGCTTACGCTCACGCAATATGCTTTTCTTGCTAC -CGCACTGGCCTGCTTCGCTCAGGCGTTTTGCGGTCATCGTCGCGCTATTATGGAAGGGCCAGGTGGCCTGTGGTGGGGAA -CCATCCTTACTATCACCCTTGGTGAAGCATCGCGCGGGACACCGATCAACGATATCGCCACCAGCCTGGCAGTGGGGATT -GCACTCTCCGGCGTGCTGACGATGTTGATTGGTTTTAGCGGATTAGGCCATCGCCTGGCACGGTTATTTACGCCGTCGGT -GATGGTCTTGTTTATGTTGATGCTGGGCGCGCAGCTGACCACTATCTTTTTCAAAGGTATGCTCGGGCTGCCGTTTGGCA -TAGCCGACCCGAATTTTAAAATTCAGTTACCGCCGTTCGCGCTCTCGGTGGCGGTGATGTGCCTGGTACTGGCGATGATT -ATCTTCCTGCCGCAACGTTTTGCCCGTTATGGCCTGCTGGTCGGCACCATAACCGGCTGGTTGTTGTGGTACTTTTGCTT -TCCTTCTTCGCACTCGCTCTCCGGTGAGTTGCACTGGCAGTGGTTCCCGCTCGGCAGTGGCGGTGCTTTGTCGCCGGGAA -TTATTCTGACGGCGGTGATTACAGGTCTGGTAAATATCAGCAATACCTACGGTGCGATTCGGGGCACGGATGTTTTTTAT -CCGCAGCAGGGCGCAGGGAATACGCGTTATCGTCGTAGCTTTGTGGCGACCGGATTTATGACGCTGATAACCGTACCGCT -GGCGGTAATTCCATTTTCACCGTTTGTTTCATCCATTGGTTTATTAACCCAGACTGGCGATTACACGCGGCGTTCGTTTA -TTTATGGCAGCGTTATTTGCCTGCTGGTGGCGCTGGTTCCTGCACTCACGCGACTGTTTTGCAGTATCCCTTTACCCGTG -AGTAGTGCGGTCATGCTGGTTTCTTATCTGCCTTTACTCTTTTCCGCGCTGGTGTTTAGCCAGCAAATAACGTTTACCGC -TCGCAATATTTATCGACTCGCATTGCCGTTATTTGTCGGCATATTTTTAATGGCATTACCGCCTGTGTATCTGCAAGACC -TTCCATTAACGCTTCGTCCTCTGCTCAGTAACGGCTTATTGGTCGGGATTTTACTGGCTGTTCTTATGGATAACCTTATT -CCGTGGGAACGCATCGAATAATTTGTTGAAAAAGGATTGATAATGAAGATTGTCATTGCGCCAGACTCTTTTAAAGAGAG -CTTAAGTGCAGAAAAATGTTGTCAGGCAATTAAAGCCGGGTTTTCGACCCTCTTTCCCGATGCGAACTATATCTGTTTGC -CGATAGCGGATGGCGGCGAAGGGACGGTGGATGCGATGGTCGCCGCGACGGGCGGCAACATCGTGACGCTTGAAGTCTGC -GGGCCGATGGGCGAAAAAGTGAATGCTTTTTATGGCCTTACCGGCGACGGGAAAACGGCGGTGATTGAGATGGCGGCAGC -AAGTGGCCTGATGCTGGTCGCGCCTGAAAAGCGTAATCCGTTGCTGGCCTCCAGTTTTGGTACGGGGGAGTTAATTCGTC -ATGCGCTGGATAACGACATTCGCCATATTATTCTCGGCATTGGCGGCAGTGCGACGGTCGACGGCGGTATGGGCATGGCG -CAGGCGCTCGGTGTGCGTTTCCTTGATGCCGACGGTCAGGCGCTGGCGGCAAACGGTGGTAATTTAGCGCGCGTGGCAAG -CATTGAGATGGATGAATGCGATCCGCGTCTGGCGAATTGCCATATTGAAGTAGCATGTGACGTTGATAACCCGCTGGTAG -GGGCACGCGGCGCGGCGGCGGTGTTTGGCCCGCAAAAAGGGGCAACGCCGGAGATGGTCGAAGAACTTGAACAGGGGCTG -CAAAATTACGCCCGTGTTTTACAACAGCAAACTGAAATTAATGTCTGCCAGATGGCGGGCGGCGGCGCTGCGGGCGGTAT -GGGTATTGCGGCGGCGGTATTTCTCAATGCGGATATTAAACCGGGCATTGAAATTGTGTTGAATGCGGTCAATCTTGCGC -AGGCAGTGCAGGGCGCAGCACTGGTGATTACCGGGGAAGGGCGCATCGACTCGCAAACGGCAGGCGGTAAAGCGCCGCTG -GGTGTGGCGTCGGTGGCGAAGCAGTTTAATGTACCGGTGATTGGGATTGCTGGCGTATTGGGTGATGGCGTGGAAGTGGT -GCACCAGTACGGCATTGACGCGGTATTCAGCATTTTGCCTCGTCTGGCACCTTTAGCCGAAGTGCTCGCCAGCGGTGAAA -CCAATCTCTTCAACAGCGCGCGAAATATTGCCTGCGCCATTAAAATAGGTCAGGGAATTAAAAACTAACCCTTACCTTTA -AAGCGGATGCGATTTATATCGCATAAGAGTGCAGTACTCATGCCGGATGCGGCATGAGTACCATATCCTTCCTGAAAATC -GCGCAAATTCTATATATTGCAGAGATCATGTAGGCCTGATAAGCGAAGCGCATCAGGCAATGTTACAAAAAAAGCCACGG -TATAAACCGTGGCAAAATCCAACATAGCTAAAAATAATCAGGCGAGTGGTATGACTTAAATCTCTACGTCGCGGTTACAA -TCTTTCGAGTAAATATAGCTGAACGCTTCACCACGCCCTACACCATAACCAGCCTGTAAAGAATAAGCGCCCATAAAGAT -GTAATCGCCTTTTTTCACCGGGATCCAGTTATTGTCGAGGTTATAAACCCCCTGACCGGAAAGAATATAGGCACCGTGTT -CCTGAACGTGTGTTTCGATATAACCGTGGCTGGCACCTGGTGCAAAAGAGAGGATATGCATGTTCATATCAAAACCTAAC -TCTTTGGGCAGAAAATCCAGCAGAATAACATCGTCCATGCCTTCATAATGAATGCGTTCCAGTTCGCTGGCATTGCCAGA -AACCAGCCACGGTGCATAGCCTTCTACCGGAACATAGCGGCGCTTATATAAAAAGATTTGGCTGTCTTCGGCCTGGGCGT -TAACAAACGTCATTAAGGAGCCTGGCGGGCAATAAAGATAGCCACCTTCGCTTAAGGCAAATGTTTTGCCTTCGGCTTTG -GCAGTGATATTTCCAGAGATCACATACAGGAACGTTTCAATGCCTTCGCCACCGAAGCCCTGTTGGTTGCCACCGTTTTG -ATGCAGTGTGACCAGATAATCAACAAAAGAGGCACCCAGCTTTGGCGTGGAGAGGATTGTCGCGTCACAATTTTCAAAGC -CCGGAATAATATTTTTTACCAGACCATCCGGGGTTAACAGTGCGAAATTACCGTGTTTAACAATCGCACGGTTAGCCAGT -AAATCTTCGCGGTAACCGGTGACGTTATTTAAATATCCCATTTATGACTCCTTATTTCTGCCAGGCAAGTTGATAAAGCA -TGAGTGCCAACGTTTTGACCCCTTCGGCAAGGTCGGTAATATTGGTGCGTTCCGCCGGGTTATGGCTGATCCCGTTGATG -CTGGGGATAAAAATCATGCAGGTTGGTACGCGAGGCGCGAAAATTTGCGCGTCGTGCCCGGCACCACTGTGCATCACCCG -GTAATTCAGTTTTTCTCTTTCACACAATTCTGTCAGGGTGGCGACCAGCTCCTTATTCATCGGCACGGGTTCTTCGTCCA -TCCATAAATCGATATCAATACCAATGTCCATTTCATCGCAAATCGCCCGCATGTCGTTTTCTAACTGTTGGGTGAAATCG -CGCAGCACGGCAGCGTCGGTATGACGACAATCAATGGTGAACGTGGTTTTACCCGGCACCACATTTACCGTATTCGGGCG -CGGCTCTACTTTGCCAAAGGTCAGAACCAGCGGATCGCCCATCCTTTTCGCTTTTTCGACCGACTGATGGCAAATGCGAC -TGAAAGCGTAAACTGTATCACGACGATAACCCATCGGCGTGGTGCCTGCATGGTTTGATTCGCCGTTCAGCGTTACCGTA -TAACGACGCTGCCCGACAATTGCATTCACCACGCCAATTGATTGCCCATTACTTTCCAGCACACAGCCCTGTTCAATATG -CAGTTCAACAAAGGCTTTAATATCCTGACGCGGAGTTAGTGGGGCGTTCGGAAGAGTAAATCCGCAAGCCTTCATCGCAT -CGACAAAACTATTTCCTTTGGCATCACAGATATTCCGCACGTCGTCAGGATTCGCCAGCCCAAAAATATTTTTACTGCCC -CAGAAGACATACGGGAAGCGGCTGCCTTCTTCTTCTGCCATCGCCACCACTTCGACCGTACGTAGCGGCGCGCCGTATTG -CGTTTTCAGCCAGTCAATTGCCAGCCACGCCGCCAGCGCGCCGAATTGCCCGTCAAGGTTACCGCCGTTAACCACGGTAT -CGATATGCGAACCGCTCAGAACCACTTCCTGTGGATATTCGGTGCCATTCAGGCGACCGTATAAATTCCCCACTTCATCG -AAACGTGTTTCCAGCCCGCTTGCTGCCATTCTTTTTTTAAATTGCTGCTGGGTTTCCAGCCATTCCGGCGAATAAAGTAA -ACGGGTCATCCCACCCGCTGGGTCAGCGCCAAAAGAGGAAAGCCAGGGCAGCGTTTCTTCTATAGCTTGACGGAAATGTG -TAATCATAAGAAAGTCCTGTCTCAATAATTATTGCGCAAAGGGATTTTTCGTTTCGTATGACGTGTTATAAAGCGCGTCG -GAAATTAAATACTGGTAAATATCATCAACAATTTCGATGCCTTCGACGGCGGCTTTGCGTTGTTTAATATCCTGATCCTG -TCCGGGATAATAAACCTGATTAAAACCGGGCGCGGGGGTAATGGCATTTAATTCGCGCATGGTCTGGCTAAGATGTTGAC -GGAATAATTCGCTGGAGGAGAAAAAGTTCGGATTAATAACTATATGTAATTGCCCCAAATTACGCCCTGCGTGTAAATCG -TCATACATCGAACTAACCTGTCGCCCGAACGGTAAGCCGAGTAAGACGCCTGAGAGGACGTCAATCATCATCATCAGGCC -ATACCCTTTTGGCCCGGCGGCGGGGAGCAGAGCATGTACCGCGAACGGATCGGTTGTTGGTACACCGTTTTTATCGACCG -CCCAGGTATCCGGGATAGACATATTACGCGAGCGGGCGTCGAGCACTTTTCCCCATGCCTGTACGGTAGTCGCCATATCA -AAGGTAAGGATCTCGTCGCCTTCTCCCGGCGCGGCAAAGGCCAGGGGGTTAGTACCGTAGTAAATTTCCGCGCCGCCAAA -CGGCACCACCATTGGATCGGACTGGCACATCGAAATGCCAATGAATCCGGCGCGGGCTGCCTGCTGCACAAAATAAGAGA -TTGCGCCGCTGTGACCCATCCGGCTGATACCGACCACCGCAACGCCATTTTGCTGGGCGGTTTTGATGGCATGTTCCATA -CCCATTTTCGCCGCGACCTGTCCGGCGGCATTGTCGGCATGTAAAATTGCCGAGCACGGCCCGGTTTCCTCAAGACGAAA -CTCCGGTTCGCGGTTGGTGCCGCCTTTTGAAATGCGTTCCGCGTAGTATTCCACGCGCACCGCGCCATGAGAGTGGATCC -CTCTGGCATCGGCGTAAACCAATACTTCAGCCACGGTTGCAGCGTGCTCACGTTTTAACCCAGCCTGGCAGAGTTTATTC -TCAATTAGCTGGTGGAGTGTTTCCCGACTGATTTTCATCTGTCTTCCTTTTTAACGACGGTGTGAAGCATGACTGCAATT -AACATACAGGGAAAATATCTGGATTATGTGATCCAGACAGGCAAAAAAATATAGTTAGAATTTATTTGATAATCCGCTCA -CTTTTAACCTGATTTTTAAAACAACAACGCTTATTAAAAAATAATGAGTAATAGCCTGGTGGTTATTTGAATTCTTTTGT -TAATAATTCCTGTGTGATATTCATCACCTTATTTACTCGTTGTCATCGATACCGTAATCGCCACATTAACACTGCTCGTG -CAATTGCCATGGGTGCAATTTTTAAGGAGTTGTTATGATCCACGCCTTTATTAAAAAAGGGTGTTTTCAGGATTCGGTCA -GTTTAATGATTATTTCACGAAAACTCAGCGAATCAGAAAATGTTGATGATGTTTCCGTAATGATGGGTACGCCCGCCAAT -AAAGCGTTATTAGATACCACAGGTTTCTGGCATGACGATTTTAATAACGCCACGCCGAACGATATTTGCGTGGCAATTCG -TAGCGAAGCGGCGGATGCGGGGATCGCGCAGGCGATTATGCAGCAGCTTGAAGAGGCGCTAAAACAACTGGCGCAGGGGT -CAGGCAGCAGCCAGGCGTTGACGCAGGTGCGTCGCTGGGACAGTGCCTGTCAGAAATTACCCGATGCCAATCTGGCGCTG -ATTTCAGTGGCTGGCGAGTATGCGGCGGAGCTGGCAAACCAGGCGCTGGATCGCAACCTCAACGTGATGATGTTCTCCGA -TAACGTCACGCTGGAAGATGAAATCCAACTTAAAACCCGCGCGCGGGAAAAAGGCTTGCTGGTGATGGGGCCGGACTGCG -GTACGTCGATGATTGCCGGCACACCGCTGGCTTTTGCTAACGTGATGCCGGAAGGCAATATTGGCGTCATTGGCGCTTCC -GGTACCGGGATTCAGGAGCTGTGTTCGCAGATTGCGCTGGCAGGGGAGGGAATTACTCACGCGATTGGCCTTGGCGGGCG -CGACCTCAGCCGTGAAGTGGGCGGCATCAGTGCGCTAACAGCGCTGGAAATGCTCAGTGCAGACGAGAAAAGCGAAGTGC -TGGCATTTGTTTCAAAACCACCTGCCGAAGCTGTGCGTCTGAAAATTGTTAATGCCATGAAAGCAACCGGCAAACCGACG -GTGGCGCTGTTTTTAGGTTATACCCCGGCGGTGGCCCGCGACGAGAATGTCTGGTTTGCCTCCTCGCTGGATGAGGCCGC -ACGCCTGGCTTGCCTGCTTTCACGCGTCACGGCGCGACGTAACGCAATAGCGCCTGTCAGCAGCGGATTTATTTGCGGTT -TGTATACCGGCGGTACGCTGGCTGCCGAAGCGGCGGGATTACTTGCCGGACACCTTGGCGTGGAAGCCGACGATACCCAT -CAACATGGCATGATGCTGGACGCCGATAGCCACCAGATTATTGACCTCGGCGATGATTTCTACACCGTCGGGCGTCCCCA -TCCGATGATCGACCCAACCTTACGCAACCAGTTAATTGCCGATCTCGGCGCTAAACCGCAAGTGCGCGTGTTGCTGCTTG -ATGTCGTGATTGGCTTCGGTGCGACCGCCGATCCTGCCGCCTCGCTGGTGAGCGCCTGGCAAAAAGCCTGTGCCGCGCGT -TTAGATAATCAACCACTGTATGCCATTGCCACGGTGACAGGCACTGAACGTGACCCGCAATGCCGCTCGCAGCAAATCGC -CACGCTGGAAGATGCGGGGATTGCGGTCGTGAGTTCGCTACCGGAAGCCACCTTGCTGGCGGCAGCGTTAATTCATCCGC -TCTCGCCTGCCGCACAGCAACACACACCGTCATTACTGGAAAACGTCGCCGTGATTAACATCGGATTACGCAGCTTTGCG -CTGGAGCTACAAAGCGCCAGCAAACCGGTTGTGCATTACCAATGGTCGCCAGTCGCCGGTGGCAATAAAAAACTGGCTCG -TTTATTAGAACGTTTGCAATAAGGGGTTCCCATGTTTACATCAGTGGCGCAAGCCAATGCTGCGGTTATCGAACAAATTC -GTCGCGCTCGTCCACACTGGCTGGATGTGCAACCGGCTTCTTCACTTATCAGCGAACTAAACGAGGGCAAAACACTGCTT -CACGCCGGGCCGCCAATGCGCTGGCAGGAGATGACCGGACCCATGAAAGGGGCGTGCGTGGGCGCATGTCTGTTCGAAGG -TTGGGCGAAAGATGAAGCGCAGGCGCTGGCAATACTGGAGCAGGGGGAAGTGAACTTCATTCCTTGTCACCATGTGAATG -CCGTCGGGCCAATGGGCGGTATTACTTCTGCCAGTATGCCGATGCTGGTGGTTGAGAACGTGACCGACGGCAACCGGGCG -TACTGCAACCTCAACGAAGGTATCGGCAAAGTGATGCGTTTTGGCGCTTACGGCGAAGATGTCCTGACTCGCCATCGCTG -GATGCGCGATGTGTTAATGCCAGTATTAAGCGCGGCGCTGGGGCGCATGGAGCGCGGTATCGATCTCACGGCGATGATGG -CGCAGGGCATTACGATGGGCGATGAGTTCCATCAACGCAATATTGCTTCCTCTGCACTGTTAATGCGTGCGCTGGCCCCA -CAAATTGCTCGCCTCGATCATGATAAACAGCACATCGCCGAAGTGATGGATTTCCTCAGCGTGACCGATCAGTTCTTCCT -CAACCTCGCGATGGCTTACTGCAAGGCGGCGATGGATGCTGGCGCGATGATCCGCGCAGGCAGCATCGTCACGGCAATGA -CCCGCAACGGCAATATGTTCGGGATTCGGGTAAGCGGGCTGGGCGAACGCTGGTTTACTGCGCCTGTAAACACTCCGCAA -GGTCTGTTTTTCACCGGCTTCTCGCAGGAGCAGGCGAACCCGGATATGGGCGATAGCGCGATTACCGAAACCTTTGGTAT -CGGAGGTGCGGCAATGATCGCAGCGCCTGGCGTAACGCGCTTTGTCGGTGCGGGTGGCATGGAAGCGGCAAGAGCGGTAT -CTGAAGAGATGGCGGAAATTTACCTTGAACGCAATATGCAGTTGCAGATCCCAAGCTGGGATTTTCAGGGCGCGTGCCTG -GGGCTGGACATTCGTCGCGTGGTAGAAACCGGCATTACGCCACTCATCAATACCGGTATCGCCCATAAAGAGGCGGGGAT -CGGGCAGATTGGCGCAGGCACCGTGCGGGCACCGCTGGCGTGCTTTGAACAGGCGCTGGAAGCACTGGCTGAAAGCATGG -GTATTGGTTGAGGAACGCGCAATGACGATCATCCATCCTCTGCTTGCCAGTAGTAGCGCACCGAATTATCGCCAGTCCTG -GCGGTTAGCGGGAGTGTGGCGGCGGGCGATTAACCTGATGACGGAAAGCGGCGAACTGTTAACGTTGCATCGTCAGGGTA -GTGGTTTCGGCCCCGGAGGATGGGTGCTTCGCCGTGCGCAATTCGATGCGTTATGCGGTGGATTATGCGGCAATGAACGA -CCACAGGTTGTGGCTCAAGGGATTCGCCTCGGGCGTTTCACGGTTAAACAGCCACAGCGTTATTGTTTGCTGCGTATTAC -GCCGCCTGCGCATCCTCAACCACTTGCAGCTGCATGGATGCAACGCGCGGAGGAAACCGGGCTTTTCGGGCCACTGGCGT -TGGCGGCAAGCGATCCGCTGCCTGCTGAGTTACGCCAGTTTCGTCACTGTTTTCAGGCCGCGCTCAATGGCGTTAAGACC -GACTGGCGGCACTGGCTGGGTAAAGGCCCCGGATTAACGCCGAGTCATGATGACACGCTGAGCGGAATGCTGCTGGCGGC -CTGGTATTATGGCGCTTTAGATGCGCGCTCCGGTCGTCCGTTTTTTGCCTGTTCCGACAATCTGCAACTCGTTACCACAG -CGGTGAGCGTCAGTTATTTACGTTATGCCGCGCAAGGATATTTCGCCTCGCCACTCCTGCACTTTGTTCATGCTCTGAGT -TGCCCGAAACGTACCGCTGTTGCGATTGATTCGCTGCTGGCGCTGGGGCATACGTCAGGGGCAGATACGCTGCTGGGGTT -CTGGCTTGGCCAACAATTATTACAAGGAAAACCATGAAAACACTGGTTGTGGCTCTTGGGGGCAACGCCTTACTCCAGCG -CGGTGAGGCGCTGACGGCAGAAAATCAATATCGCAATATCGCCAGTGCTGTACCCGCGCTGGCACGCCTGGCCCGTTCTT -ATCGGTTGGCGATTGTTCACGGCAACGGGCCGCAGGTGGGGCTGCTGGCATTGCAGAATCTGGCGTGGAAAGAGGTAGAA -CCGTATCCGCTGGATGTGCTGGTTGCGGAAAGCCAGGGGATGATTGGCTATATGCTGGCGCAGAGTTTGAGCGCACAGCC -GCAGATGCCGCCCGTGACGACGGTGCTGACGCGCATTGAGGTTTCGCCTGATGATCCGGCGTTTTTGCAGCCAGAGAAAT -TTATTGGTCCGGTTTATCAGCCAGAAGAACAAGAGGCACTGGAAGCGGCTTACGGCTGGCAGATGAAACGTGATGGTAAA -TATTTGCGCCGGGTGGTGGCGTCTCCGCAACCGCGTAAAATTCTCGACAGCGAAGCCATCGAGTTGTTGCTCAAAGAGGG -GCATGTGGTGATTTGCAGTGGCGGCGGCGGTGTGCCTGTGACGGATGACGGAGCAGGGAGTGAAGCAGTGATTGATAAAG -ATCTCGCCGCTGCGTTGCTCGCCGAGCAGATTAATGCAGATGGACTGGTGATCCTCACCGATGCTGATGCGGTATATGAA -AACTGGGGAACGCCGCAGCAACGTGCCATTCGCCATGCCACACCGGATGAGTTAGCGCCATTTGCCAAAGCCGATGGTTC -GATGGGGCCGAATGTAACGGCGGTGAGTGGTTATGTCAGAAGCCGTGGTAAACCCGCGTGGATTGGGGCGTTATCGCGAA -TTGAAGAGACGCTGGCGGGCGAAGCGGGGACCTGTATTTCGCTGTAGTCGTAGGCATTAGACATTTGTGCCTGATGCGAC -GCTTGACGCGTCTTATCAGGCCTACAACCGGTGCCGCATCCGGCAATTGGTGCACAATGCCTGATGCGATGCTTGACGCA -TCTTATCAGGCCTACAATGGGTACCGGATCGGTAGGCCGGATAAGGCGTTTACGCCGCATCCGGCAAGAATAGAGCACCA -GTTAACCGAACTTACTCTGCGCCCAAATCACGCCGCTGGCATATTCCGGCGGCAGCAGCGGGATTAAGGCTTCCAGCGTC -GCAGTCAGACGCGATGTGTCGCTGTCGGTCAAATTCAGATGCCCCACTTTACGCCCCGGACGGACTTCTTTGTCGTACCA -GTGCAGATGCACCAGCGGCAGTTTCAGCCAGTCATAATTCACATCGCTACCAATCAGATTGATCATCACCGACGGATTAT -TCACCACTGGTTGCGGTAACGGCAGATCGGTAATCGCCCGCAGATGCAGCTCAAACTGGCTGATGCTGGCACCGTTTTGT -GTCCAGTGACCGCTGTTATGCACACGCGGTGCCAGTTCGTTGATCAACAGACCTTGCGGGGTGACAAAACACTCCATCGC -CATCACGCCCACATAGCCCAGCTCCTGCATAATCGCCGACAGCATCTCTTCGGCTTGCGCCTGCTGCTGTGCGTTGGCCT -GCGGAAAAGCGACGCTGGTGCGCAAAATACCGTCCTGATGCAGGTTATGCGTCAGCGGATAAAACACGGTGCTGCCATCA -AAGCCGCGCGCGCCAACCAGCGACACTTCACCAGAGAAGTTAATGCCCTGCTCGACAATACATTCGCCGTAACACTCTGC -CGGTAACTGTTCGGTTTCATTTGCGCGTAAACGCCATTGACCGCGACCGTCATAACCACCAGTGCGACGCTTAACAATCG -CCAGCTCACCTAAACGATCAAACACCGCAGGCCACTCGCTGCGTTCGGCAAGTAACTGCCACGGTGCAGTCGGCAGGTGG -AGCTTATCGAAAAGCTGCTTCTGAGTCAGACGGTCAGCAATAATCGGGAACACATCGCGGTTCACAAAGGCCGGATGGCG -CGCCAGCTCGCGGGTTAATGCGGTTTCCGGCCAGCGTTCTATCTCAGCGGTAATCACGCTTTGTTGAAAAGGCACCGCCG -CCGGTTCAGCGTCCAGCCCGACTGGCCAGACAGCAATGCCTAACGGTTCGCCTGCCTGACGCAGCATACGGCCTAACTGC -CCGTTACCGAGGACGCAAACCTGTTTCATGCCGCACCTCGCGGGTCCGGGTTTTCCAGCACTTCGTCGGTCTGGGCTTTG -CGCCAGTCATTCAGACGCTGGTGCAGTTCTTTATCATGAGTCGCAAGAATTTGTGCTGCCAGTAACGCCGCGTTTGCCGC -GCCAGCTTTACCAATCGCCAGCGTACCCACCGGAATGCCGCGCGGCATTTGTACGATGGAGTAGAGGCTATCGACACCGC -TCAGTGCGGCGCTCTGTACTGGCACGCCCAGCACCGGCACCAGCGTTTTGGCGGCAATCATGCCTGGCAGATGCGCTGCG -CCGCCTGCGCCCGCAATAATCACCTGATAACCGTTCTCTTCGGCGCTTTCGGCGAAGCTGAACAGTTTATCGGGGGTGCG -GTGAGCAGAAACCACTTCAACGTGGTGCGGGACATTCAGGATTTCGAAGATTTCGGCGGCGAACTGCATGGTAGCCCAGT -CGCTTTTGGACCCCATCACGATGGCGACACGCGCCGGATTATTGCGGGAAGACATGCGTCTTAAAACTCCTGTGGTGCAC -AACTCTCGGCTTTAGAGGGCACAGAGAATAGCACGAAAAGAGAGCAAGGAAAACGGTTGCGTGGCTGTGAAATCAGCAAA -GTTGCGGGTTTTTTAAAACGGAAAATGAATCAGCTCAACGTCATCCGCCGTGACTTTCACCATTGAACCTTCCGTATGCC -AGGCACCCAGTACCACGCGAAAAGCAGGTTGCTGATTGGCGATAAGTTCATGCACCGCCGGGCGATGGGTATGCCCGTGG -ATCAGCCATTGCACCTGATGTTTTTCCATCGCACTGACCACCGCGTTTTGGTTAACGTCCATGATCGCCAGCGATTTACT -GCTGTTGGCTTCTTTGCTGTTCGCGCGCATTCGCGCGGCAATGCGTTTGCGCACAAACAACGGCAGGGCGAGGAATAGCG -TCTGCAGCCAGGGTTTGTGGACCTTGGCGCGAAAAGCCTGATAACCCGCGTCATCGGTGCACAGCGTGTCGCCATGCATA -ATCAACACCCGGCGACCATAAAGTTCGAGCACCTTTTCTTCCGGCAATAACGTCATGCCACTTTCACGGGCAAAGCGTTT -GCCGAGCAGAAAATCACGGTTGCCATGAATGAAATAACAGGGAACGCCGGAATCGGACACCGCTTTGATCGCCGCCGCCA -TCTTGCGATGGAGTGGGTTGGGATCGTCGTCGCCAATCCATGCTTCAAACAGATCGCCAAGAATATACAGCGCGTCGGCC -TTGCGGGCTTCCCCCGCTAAAAAACGCAGAAAACCGGCGGTGATCGCCGGTTCTTCCACGCAGAGATGAAGATCTGCAAT -AAAGAGTGTCGCCACGATTACTCGCTAACGGTCACGCTTTCAATGATAACGTCTTCTTTTGGCACGTCCTGGTGCATACC -GCTACGACCGGTTGCAACACCTTTGATTTTGTCTACCACGTCCATGCCGTCAACCACTTCAGCAAACACGCAGTAGCCCC -AACCTTGCAGGCTTTCGCCAGAGAAGTTCAGGAAGTCGTTATCAACCACGTTGATGAAGAACTGTGCAGTTGCAGAGTGC -GGAGCCTGAGTACGTGCCATTGCCAGCGTACCACGGGTATTTTTCAGGCCGTTGTTGGCTTCGTTTTTGATCGGTTCTTT -GGTGGCTTTTTGTTTCATGCCCGGTTCAAAACCGCCGCCCTGAATCATAAAGCCGTTGATAACACGGTGGAAAATGGTGT -TGTTGTAAAAACCTTCGCGGCAGTAGTCCAGGAAGTTTTTAACTGTTTCAGGTGCTTTATCGTCAAAAGTTTTGATGACA -ATATCGCCGTGATTGGTGTGGAAAGTAACCATTTTTGCATCCTGTTCCGTTTGATTGGTGCTTCAACCCAGTTCGGGTCA -TATATAGGGTGGTGTTATAGCATAACCGCACGATCGGATCATCACGCAATGTATGCTGATTCGCGCGGGAAATATGGGTA -TTATACGCAACTCAATTACCCACACATGTCTAAACGGAATCTTCGATGCTAAAAATCTTCAATACTCTGACACGCCAAAA -AGAGGAATTTAAGCCTATTCACGCCGGGGAAGTCGGCATGTACGTGTGTGGAATCACCGTTTACGATCTCTGTCATATCG -GTCACGGGCGTACCTTTGTTGCTTTTGACGTGGTTGCGCGCTATCTGCGTTTCCTCGGCTATAAACTGAAGTATGTGCGC -AACATTACCGATATCGACGACAAAATCATCAAACGCGCCAATGAAAATGGCGAAAGCTTTGTGGCGATGGTGGATCGCAT -GATCGCCGAAATGCACAAAGATTTTGATGCTTTGAACATTCTGCGCCCGGATATGGAGCCGCGCGCGACGCACCATATCG -CAGAAATTATTGAACTCACTGAACAACTGATCGCCAAAGGTCACGCTTATGTGGCGGACAACGGCGACGTGATGTTCGAC -GTCCCGACCGATCCAACTTATGGCGTGCTGTCGCGTCAGGATCTCGACCAGCTGCAGGCAGGCGCGCGCGTTGACGTGGT -CGACGACAAACGCAACCCAATGGACTTCGTTCTGTGGAAGATGTCGAAAGAGGGCGAACCGAGCTGGCCGTCTCCGTGGG -GCGCGGGTCGTCCTGGCTGGCACATTGAATGTTCGGCAATGAACTGCAAGCAGCTGGGTAACCACTTTGATATCCACGGC -GGCGGTTCAGACCTGATGTTCCCGCACCACGAAAACGAAATCGCGCAGTCCACCTGTGCCCATGATGGTCAGTATGTGAA -CTACTGGATGCACTCGGGGATGGTGATGGTTGACCGCGAGAAGATGTCCAAATCGCTGGGTAACTTCTTTACCGTGCGCG -ATGTGCTGAAATACTACGACGCGGAAACCGTGCGTTACTTCCTGATGTCGGGCCACTATCGCAGCCAGTTGAACTACAGC -GAAGAGAACCTGAAGCAGGCGCGTGCGGCGCTGGAGCGTCTCTACACTGCGCTGCGCGGCACAGATAAAACCGTTGCGCC -TGCCGGTGGCGAAGCGTTTGAAGCGCGCTTTATTGAAGCGATGGACGACGATTTCAACACCCCGGAAGCCTATTCCGTAC -TGTTTGATATGGCGCGTGAAGTAAACCGTCTGAAAGCAGAAGATATGGCAGCGGCGAATGCAATGGCATCTCACCTGCGT -AAACTTTCCGCTGTATTGGGCCTGCTGGAGCAAGAACCGGAAGCGTTCCTGCAAAGCGGCGCGCAGGCAGACGACAGCGA -AGTGGCTGAGATTGAAGCGTTAATTCAACAGCGTCTGGATGCCCGTAAAGCGAAAGACTGGGCGGCGGCGGATGCGGCGC -GTGATCGTCTTAACGAGATGGGGATCGTGCTGGAAGATGGCCCGCAAGGGACCACCTGGCGTCGTAAGTAATTGCGCTAT -TGCCGGATGCGAGTTTTCGCATCCGGTTATCGTCTGCGCCACCACAACATTCCCATCAGTAGCATCCCCGGCAACCACAC -CCACATCAATTCAGAAATAATCACCTGATGCCCGTACGGCGTGGTGTAACGAGACAATGCAAACGGCGCGACTTTTATCA -CCTGCCAGGGAGCGAAAAAGCGTTCATCTGACCACGGCCACAGCCAGCCAACGCCTTTACCGCCAGTGGTTACCGAATCC -AGCAAGCTGTGCGATAGCAACGAGACGGTTAAAAACAGCCAGCAGCGAATCAGCCCAGCCCTGAACCATCGGCGTCCAAT -AAACACACATAACAGCGGGACAACAAACGCAAACACCAGCGAATGGGTAAACCCGCGATGACCAAAAACATTGCCGTAAG -CAACGCCAAATTTAAACGACAATACGTCGGCGTCGGGCAGCATCGCCAGGATGATTCCGGCAAATAACAGACGCGGAGGG -ATGACTTTCGAACCCAACCCTAAACCAATGCATAGGGGAACGGCGGCGTGCGTAATAACGGTTGGCATGATGGTCGCTTC -GGCAAAATGTCGATGCTATCAGCATGGATGAACGGGGCGTAGAGGGCAAAAGTCTGAAAAGAGAACCGGCCTGTTGATAC -AGGCCGGGAAAGGGATCAGGCAACAACCTGTACGCTGTGACCTGCAAAACTCACTGTCTGACCGGCGACGATTTTGCAGC -GTTTGCGCGTTTCAACCGCACCGTCGACTTTCACCTGGCCTTCGGCAATCGCGATTTTCGCCTGCGCGCCGCTTTCGCTC -CAGCCTTCCAGTTTCAGCAAGTCGCACAGCTCAACGTGCGGATGTTTACCTAAAGAAAATGTCGCCATGTTACTCATCCT -GTGGATCATGATATTCAACGCACGCCTGTAGCGTGTTTTCAATCAGCGTGGCAACCGTCATCGGGCCAACGCCGCCGGGA -ACAGGCGTAATGTATGAGGCGCGTTTAGCCGCGTCTTCAAACACGACGTCGCCCACAACTTTGCCATTTTCCAGACGGTT -GATGCCGACATCAATCACAATTGCGCCTTCTTTGATCCAGTCACCGGGAATAAAGCCTGGCTTGCCAACGGCAACGATCA -ATAGATCGGCATTTTCTACGTGATGACGCAGATTTTTAGTGAAGCGGTGAGTCACTGTAGTGGTGCAACCTGCCAGCAGC -AGTTCCATGCTCATCGGGCGGCCAACGATATTCGATGCGCCAATCACCACGGCGTTGAGGCCGAAGGTATCAATGTTGTA -ACGCTCAAGCAGCGTGACGATACCGCGCGGGGTGCAGGGACGCAGACGCGGCGCGCGCTGGCACAGACGACCGACGTTGT -AAGGATGGAAACCGTCCACGTCTTTGTCCGGATGAATACGTTCCAGCACTTTGACGTTATCAATACCCGCCGGTAACGGC -AGTTGAACCAGAATGCCATCGATGGTGTTGTCGGCATTCAGCGTATCGATAAGCTCCAGCAGCTCCGCTTCGCTGGTGGT -TTCCGGGAGGTCATAAGAGCGGGAGACGAACCCGACTTCTTCACAAGCCTTGCGTTTGCTTGCGACATAAATTTGCGATG -CAGGGTTACTACCCACCAGCACAACGGCCAGTCCTGGTGCCCGCAGTCCGGCTGCAATACGCGCCTGAACTTTTTGAGCA -ACTTCAGAGCGCACCTGCTGCGCAATCGTTTTACCGTCAATAATCTTTGCTGCCATCAGAGAGAGGATTCCATCTGTTAC -GTAGATCGAAGGGGATGCGCCTATTTTGTCAGAAGCGGGGCGCGCTGTCAGGTTTCGTTTCAGATTTATCGCGTGAAGCG -ACCTCTTGCGAAGGTGAGGCGCACCGTCGCTGAGACTGAAAGCTTCATTTTTCGTCCATGATGGCGTTGTAAATCTGGAA -CTGATTTATTTCCTTGTCTAAGGATTAAGATAATTTAAGAAATACCTGACAATATAAAAAGAATTTTCAGCCTGGTAATT -TACCGCTTCAGGTCTATATTTGTGTTGAATATATTTTGCGCGGAAGTATTCATCTAACGGGGCTCTCTATTTTTTAGAAT -AGAGTGCATATTTTCAATTAAGACATTCTTAGAGGATAAAAAGGAATTTACTACTATCAGTGTCTTAAATAAAGTAATCG -GTTATATACGGATGTGGAGTCGATAAATGAGATTGAAGGAATATATATGAAATTAAGATTTATTTCGTCTGCGCTGGCTG -CCGCACTATTCGCCGCTACGGGTAGTTATGCTGCCGTTGTAGATGGCGGTACAATTCACTTTGAAGGCGAACTGGTGAAT -GCTGCCTGTTCAGTGAATACTGACTCGGCAGACCAGGTTGTCACACTCGGTCAATATCGTACCGATATTTTCAATGCTGT -TGGTAATACCTCTGCATTAATTCCATTCACCATTCAGTTGAACGACTGCGATCCTGTTGTTGCCGCTAATGCTGCCGTTG -CATTTTCTGGTCAGGCTGATGCAATCAATGATAATTTATTGGCCATTGCATCCAGTACCAATACAACAACAGCAACGGGT -GTCGGTATTGAAATACTTGATAATACATCCGCAATTCTCAAACCTGATGGGAATAGCTTCTCAACCAACCAGAACTTGAT -CCCCGGGACCAACGTTCTTCATTTTTCTGCACGTTATAAAGGCACCGGTACAAGTGCATCAGCAGGGCAAGCAAATGCTG -ACGCGACTTTTATTATGAGATATGAATAATCAAAACCACGTTGTTTTGAATTATATATCACGTCTTATAACAAAGTAATG -TACCGGTTGTCTGAAGCGGTATGGTGGCAATGTAAATCGAAATCATGTTCACTTTGTATCATGCCGCTTTATTAAATGAA -AAGGGAATGATGTGTTGTAAGAAACCAAAGCAATCATTTCTTTATATTCCTTATTTTTGCCGTCAGGAATACACAAGGCG -TATTAACTATGATGACTAAAATAAAGTTATTGATGCTCATTATATTTTATTTAATCATTTCGGCCAGCGCCCATGCTGCC -GGAGGGATCGCATTAGGTGCCACGCGTATTATTTATCCCGCTGATGCTAAACAGACTGCGGTATGGATTAGAAATAGCCA -TACCAATGAGCGCTTTCTGGTCAATTCGTGGATTGAAAACAGCAGCGGTGTAAAAGAAAAGTCATTCATCATTACACCGC -CACTGTTTGTTAGTGAACCCAAAAGCGAAAATACTTTGCGTATTATTTACACCGGTCCACCGCTGGCAGCAGATCGTGAG -TCTCTGTTCTGGATGAATGTTAAGACGATCCCTTCGGTAGATAAAAATGCATTGAACGGCAGGAATGTTTTGCAACTGGC -GATTTTATCGCGCATGAAATTATTTCTCCGTCCAATTCAATTACAAGAATTACCCGCAGAAGCGCCGGACACACTCAAGT -TTTCGCGATCCGGTAACTATATCAATGTTCATAATCCATCACCTTTTTATGTCACCCTGGTTAACTTACAAGTGGGCAGC -CAAAAGTTGGGGAATGCTATGGCTGCACCCAGAGTTAATTCACAAATTCCCTTACCCTCAGGAGTGCAGGGAAAGCTGAA -ATTTCAGACCGTTAATGATTATGGTTCAGTAACTCCGGTCAGAGAAGTGAACTTAAACTAACCGAATCATCTGACAATAT -CAGAGCTAATTATGAAAATACCCACTACTACGGATATTCCGCAGAGGTATACCTGGTGTCTGGCCGGAATTTGTTATTCA -TCTCTTGCCATTTTACCCTCCTTTTTAAGCTATGCGGAAAGTTATTTCAACCCGGCATTTTTATTAGAGAATGGCACATC -CGTTGCTGATTTATCGCGCTTTGAGAGAGGTAATCATCAACCTGCGGGCGTGTATCGGGTGGATCTCTGGCGTAATGATG -AGTTCATTGGTTCGCAGGATATCGTATTTGAATCGACAACAGAAAATACAGGTGATAAATCAGGTGGGTTAATGCCCTGT -TTTAACCAGGTACTTCTTGAACGAATTGGCCTTAATAGCAGTGCATTTCCCGAGTTAGCCCAGCAGCAAAACAATAAATG -CATCAATTTACTGAAAGCTGTACCTGATGCCACAATTAACTTTGATTTTGCAGCGATGCGCCTGAACATCACTATTCCTC -AGATAGCGTTGTTGAGTAGCGCTCACGGTTACATTCCGCCTGAAGAGTGGGATGAAGGTATTCCTGCTTTACTCCTGAAT -TATAATTTCACCGGTAACAGAGGTAATGGTAACGATAGCTATTTTTTTAGTGAGCTCAGCGGGATTAATATTGGCCCGTG -GCGTTTACGCAACAATGGTTCCTGGAACTATTTTCGCGGAAATGGATATCATTCAGAACAGTGGAATAATATTGGCACCT -GGGTACAGCGCGCCATTATTCCGCTGAAAAGTGAACTGGTAATGGGAGACGGCAATACAGGAAGTGATATTTTCGATGGC -GTTGGATTTCGTGGTGTACGGCTTTATTCTTCTGATAATATGTATCCTGATAGCCAGCAAGGGTTTGCCCCAACGGTACG -TGGGATTGCCCGTACGGCGGCCCAGCTAACGATTCGGCAAAATGGTTTTATTATCTATCAAAGCTATGTTTCCCCCGGCG -CTTTTGAAATTACAGATTTGCACCCGACATCTTCAAATGGCGATCTGGACGTCACCATCGACGAGCGCGATGGCAATCAG -CAGAATTACACAATTCCGTATTCAACAGTGCCAATTTTACAACGCGAAGGGCGTTTCAAATTTGACCTGACGGCGGGCGA -TTTTCGTAGCGGTAATAGTCAGCAATCATCGCCTTTCTTTTTTCAGGGTACGGCACTCGGCGGTTTACCACAGGAATTTA -CTGCCTACGGCGGGACGCAATTATCTGCCAATTACACCGCCTTTTTATTAGGGCTGGGGCGCAATCTCGGGAACTGGGGC -GCAGTGTCGCTGGATGTAACGCATGCGCGCAGTCAGTTAGCCGACGCCAGTCGTCATGAGGGGGATTCTATTCGCTTCCT -CTATGCGAAATCGATGAACACCTTCGGCACCAATTTTCAGTTAATGGGTTACCGCTATTCGACACAAGGTTTTTATACCC -TTGATGATGTTGCGTATCGTCGAATGGAGGGGTACGAATATGATTACGACGGTGAGCATCGCGATGAACCGATAATCGTG -AATTACCACAATTTACGCTTTAGCCGTAAAGACCGTTTGCAGTTAAATGTTTCACAATCACTTAATGACTTTGGCTCGCT -TTATATTTCTGGTACCCATCAAAAATACTGGAATACTTCGGATTCAGATACGTGGTATCAGGTGGGGTATACCAGCAGCT -GGGTTGGCATCAGTTATTCGCTCTCATTTTCGTGGAATGAATCTGTAGGGATCCCCGATAACGAACGTATTGTCGGACTT -AATGTTTCAGTGCCTTTCAATGTTTTGACCAAACGTCGCTACACCCGGGAAAATGCGCTCGACCGCGCTTATGCCTCCTT -TAACGCCAACCGTAACAGCAACGGGCAAAATAGCTGGCTGGCAGGTGTAGGTGGGACCTTACTGGAAGGCCACAACCTGA -GTTATCACGTAAGCCAGGGTGATACCTCGAATAATGGGTACACGGGCAGCGCCACGGCAAACTGGCAGGCCGCTTACGGT -ACGCTGGGGGGCGGGTATAACTACGACCGCGATCAACATGACGTTAACTGGCAGCTGTCTGGCGGTGTGGTCGGGCATGA -AAATGGCATAACGCTGAGCCAGCCTTTAGGGGATACCAATGTTTTGATTAAAGCGCCTGGCGCAGGCGGTGTACGCATTG -AAAATCAAACTGGCATTTTAACCGACTGGCGCGGCTATGCGGTGATGCTGTATGCCACGGTTTATCGGTATAACCGTATC -GCGCTTGATACCAATACGATGGGGAATTCCATCGATGTTGAAAAAAATATTAGCAGCGTTGTGCCGACGCAAGGCGCGTT -GGTTCGTGCCAATTTTGATACCCGCATAGGCGTGCGGGCGCTCATTACCGTTACCCAGGGCGGAAAACCGGTGCCGTTTG -GATCACTGGTACGGGAAAACAGTACCGGAATAACCAGTATGGTGGGTGATGACGGGCAAGTTTATTTAAGTGGTGCGCCA -TTGTCTGGTGAATTACTGGTTCAGTGGGGAGACGGCGCGAACTCACGCTGCATTGCGCACTATGTATTGCCGAAGCAAAG -CTTACAGCAAGCCGTCACTGTTATTTCGGCAGTTTGCACACATCCTGGCTCATAAAGGAAATTATCAATAAGATAATCTG -CAGATTATTATTGGCGATGGCATGTTTGTGTCTGGCAAACATATCCTGGGCTACTGTTTGTGCAAATAGTACTGGCGTAG -CAGAAGATGAACACTATGATCTCTCAAATATCTTTAATAGCACCAATAACCAGCCAGGGCAGATTGTTGTTTTACCGGAA -AAATCCGGCTGGGTAGGTGTCTCAGCAATTTGTCCACCCGGTACGCTGGTGAATTATACATACCGTAGTTATGTCACCAA -CTTTATTGTTCAGGAAACTATCGATAATTATAAATATATGCAATTACATGATTATCTATTAGGTGCGATGAGTCTGGTTG -ATAGTGTGATGGATATTCAGTTCCCCCCGCAAAATTATATTCGGATGGGAACAGATCCTAACGTTTCGCAAAACCTTCCA -TTCGGGGTGATGGATTCTCGTTTAATATTTCGTTTAAAGGTTATTCGTCCCTTTATTAACATGGTGGAGATCCCCAGACA -GGTGATGTTTACCGTGTATGTGACATCAACGCCTTACGATCCGTTGGTTACACCTGTTTATACCATTAGTTTTGGTGGCC -GGGTTGAAGTACCGCAAAACTGCGAATTAAATGCCGGGCAGATTGTTGAATTTGATTTTGGTGATATCGGCGCATCGTTA -TTTAGTGCGGCAGGGCCGGGTAATCGACCTGCTGGTGTCATGCCGCAAACCAAGAGCATTGCGGTCAAATGTACGAATGT -TGCTGCGCAGGCTTATTTAACAATGCGTCTGGAAGCCAGTGCCGTTTCTGGTCAGGCGATGGTGTCGGACAATCAGGATT -TAGGTTTTATTGTCGCCGATCAGAACGATACGCCGATCACGCCTAACGATCTCAATAGCGTTATTCCTTTCCGTCTGGAT -GCAGCTGCGGCAGCCAATGTCACACTTCGCGCCTGGCCTATCAGTATTACCGGTCAAAAACCGACCGAAGGGCCGTTTAG -CGCGCTGGGGTATTTACGCGTCGATTATCAATGAGGTACGGAGAATGAGAAGAGTACTCTTTAGCTGTTTCTGCGGGCTA -CTGTGGAGTTCCAGTGGATGGGCAGTTGACCCTTTAGGAACGATTAATATCAATTTGCACGGTAACGTTGTTGATTTCTC -CTGTACCGTAAACACAGCGGATATTGATAAGACGGTAGATTTAGGCAGATGGCCTACGACACAACTACTGAACGCTGGCG -ATACCACGGCACTCGTCCCTTTTAGCCTGCGGCTGGAGGGATGTCCTCCGGGTTCAGTTGCGATTTTATTTACGGGAACG -CCGGCATCCGATACCAACCTGCTGGCTCTGGATGATCCCGCAATGGCACAAACCGTCGCCATCGAATTACGTAATAGCGA -TCGCTCCCGGCTCGCACTGGGGGAGGCGAGCCCGACTGAGGAAGTAGATGCAAATGGCAATGTCACACTAAACTTTTTTG -CCAATTATCGAGCGTTAGCCAGCGGTGTTCGGCCAGGTGTGGCGAAAGCGGATGCGATATTTATGATCAATTATAATTAA -TATTATATTAATTCGTATAATTTGGCGTAGTCGATAAGCTCTACAATTGAATGCAAACCTAGCTTGCCATAAATATTAGA -TTTATGCGCACTAACTGTTTTATTGCTAAGTAATAACTTATCGGCAATTTCTTTATTAGATAATCCGCTAACCAGATAAC -GTAATATGGTCACTTCACGATTAGATAGCACAGTGACCGTTGAACTATTCGTACTACATTTATTGCTTTTTATATAGTTA -AGCGTTTCGCTGGGAAAAAACGTGTATCCGGAGAGGATCATCTGAACGGCATGAAAAATATCATTCTGATCATTGCATTT -ACTGACAAAACCGTTAGCACCAGCTTGTATCGCTCTGCCAGCATAAAAGCATTCTGATTTCGATGATAAAAATAACACTT -TCACTGTGCTCTGGATTTGTTTGATCCTTTTCAGGAAGGTAAAACCGTCTGTTCCGGGCAAGTCTATATCCATAATGATT -AAATCAACAGGACGGGTTCGGAGATAATCGATGGTTATGCGATAATCATCCGTTTTCAGGACAATCTGCAATTCACTGTT -TTTTTGCAACAGAACTTCAATAGACATTCTGATGATAGGATGAGTATCCATAATGATCACCGACGTTGGTTTCATAGTTA -CCAGTCTCATAGGAGCGGACAATTTTCCGTTAGGTCGGGAAATTGTACTTTGATACATGAAAATACGGGTTTTCTTGATT -CAGACGCGCAGCGGTGTGCGTTTGTTTGCCGCTATAGCGAAATAAATCAGAAAATCAGACGCGGTCGTTCACTTGTTCAG -CAACCAGATCAAAAGCCATTGACTCAGCAAGGGTTGACCGTATAATTCACGCGATTACACCGCATTGCGGTATCAACGCG -CCCTTAGCTCAGTTGGATAGAGCAACGACCTTCTAAGTCGTGGGCCGCAGGTTCGAATCCTGCAGGGCGCGCCATTACAA -TTCAATCAGTTACGCCTTCTTTATATCCTCCATAATTTCAGAGTGGGACATATTTGGGACATTATCACCAAAAATGTCGT -CTATTTTCCTCGCATGCTCTGTCAAATGATTAGGCGCAAGGTGAGCATACCTACGAACCATTTCTATGGACTCCCATCCG -CCCATTTCCTGAAGCACTGATAATGGGACGCCTGACTGAATCAGCCAGCTTGCCCAGGTGTGTCTGAGGTCATGGAAACG -GAAATCTTCAATTCCTGCACGACGACAAGCTGATAGCCATGATGTCTTGCTGTCGATGCGCATCTTCCTGACCGCAGGCG -TTGATGTTCCATCTGCTCGCTTAGCCGCCTTGGTATGTACAAACACCCATTTGTGATGCTTGCCTATTTGATCACGCAAC -ACTTTACAGGCGGTATCGTTCAGCGCCACACCAATGGCGCGGTTTGATTTGCTCTCTTCTGGATTCACCCAGGCAACTCG -TCGCTGCATGTCGATTTGTTGCCATTCCAGATTTATGATGTTCGACTTTCTCAGACCAGTTGCCAGCGCAAACTTGACGA -CAGATTTCAGTGGTTCGGGGCACTCATCAATAAGGCGTTTTGCTTCCTCCTTTTCCAGCCATCTGACTCGCTTGTTTCTG -ACCGCTGGTATCTTGATGACAGGCGCTTTTTCCAGCCACTTCCAGTCGCGTTCTGCAGCACGGAGAATGGCCTTTATCAT -GGCAAGATGCTTTGCCTTTGTCTGAGTTGATACTGGCTTTGGTTCATAAACAGGCAGTTCTTTACCTTTCCTGATGGCGG -CCTGAACTTTCTGTTTCCATATTTCTTTCGTCTTTCTGTTATGCATTCTGCTTACAGCAGAGTAAATCTTTGCCTCCGAG -ATATCTTTAAGCCTTATACCCTCAAAATGTTCAAGCCAGAACTCAATCCGGCTTTTATCTGAATCGAGAGATTTTTTATC -AGCTTTTTCCTCAAGCCATCTTAGGCAGGCCTCTTCAAAAGTGACATCAGGTAAATCCCCTAGCTTTTCTACTCGCCAGA -GTTCTGCTTTTCGCTTGTCGTGCAACTCCTGAGCTTGCCGTTTGTCCTTTGTGCCAAGAGATTCCTTAATTCGTTTCCCG -CCCGGGAGCGAATACGAGGCATACCATATTTCATTTCTGCGGAAGAGTGACATTTTCTTTCCTCTGTTATGCCATCACCC -GCGCTCACCTGGACAGTATGCAGCGGAGACTGAAGCGCCGCAATGCAGGCTTGCCGTGTTGTGAGGTACCCGGATATTAT -CGTGAGGATGCGTCATCGCCATTGCTCCCCAAATACAAAACCAATTTCAGCCAGTGCCTCGTCCATTTTTTCGATGAACT -CCGGCACCATCTCGTCAAAACTCGCCATGTACTTTTCATTCCGCTCAATCACGACATAATGCAGGCCTTCACGCTTCATG -CGCGGGTCATAGTTGGCAAAGTACCAGGCATCTTTTCGCGTCACCCACATGCTGTACTGCACCTGGGCCATGTAAGCCGA -TTTTATTGCCTCGAAACCACCGAGCCGGAATTTCATGAAATCCCGGGAGGTACGAGTATTGCCGGAAGCGTGGCCTGTAT -CCGGATGCAGAGTCTTATCCGTGGAAATCGAACGCGCATTACTGGTTGGTTACCAACTTGTACCAGAACATGCGGGCCAA -TGCGCTGGCTGACGCGGAATTACGGCGCAAGGCTGCCGATGAACTGACCTGTATGACAGCGCGAATTAACCGTGGTGAGA -CGATACCTGAACCAGTAAAACAACTTCCTGTTATGGGCGGTAGACCTCTAAATCGTGCACAGGCTCTGGCGAAGATCGCA -GAAATTAAAGCTAAGTTCGGACTGAAAGGAGCAAGTGTATGACGGGCAAAGAGGCAATTATTCATTACCTGGGGACGCAT -AAGAGCTTCTGTGCACAGGACGTTGCCGCGGTAACAGGCGCAACCGTAATCTGATCTTACCCAGCAATAGTGGACACGCG -GCTAAGTGAGTAAACTCTCAGTCAGAGGTGACTCACATGACAAAAACAGTATCAACCAGTAAAAAACCCCGTAAACAGCA -TTCGCCTGAATTTCGCAGTGAAGCCCTGAAGCTTGCTGAACGCATCGGTGTTACTGCCGCAGCCCGTGAACTCAGCCTGT -ATGAATCACAACTCTACAACTGGCGCAGTAAACAGCAAAATCAGCAGACGTCTTCTGAACGTGAACTGGAGATGTCTACC -GAGATTGCACGTCTCAAACGCCAGCTGGCAGAACGGGATGAAGAGCTGGCTATCCTCCAAAAGGCCGCGACATACTTCGC -GAAGCGCCTGAAATGAAGTATGTCTTTATTGAAAAACATCAGGCTGAGTTCAGCATCAAAGCAATGTGCCGCGTGCTCCG -GGTGGCCCGCAGCGGCTGGTATACGTGGTGTCAGCGGCGGACAAGGATAAGCACGCGTCAGCAGTTCCGCCAACACTGCG -ACAGCGTTGTCCTCGCGGCTTTTACCCGGTCAAAACAGCGTTACGGTGCCCCACGCCTGACGGATGAACTGCGTGCTCAG -GGTTACCCCTTTAACGTAAAAACCGTGGCGGCAAGCCTGCGCCGTCAGGGACTGAGGGCAAAGGCCTCCCGGAAGTTCAG -CCCGGTCAGCTACCGCGCACACGGCCTGCCTGTGTCAGAAAATCTGTTGGAGCAGGATTTTTACGCCAGTGGCCCGAACC -AGAAGTGGGCAGGAGACATCACGTACTTACGTACAGATGAAGGCTGGCTGTATCTGGCAGTGGTCATTGACCTGTGGTCA -CGTGCCGTTATTGGCTGGTCAATGTCGCCACGCATGACGGCGCAACTGGCCTGCGATGCCCTGCAGATGGCGCTGTGGCG -GCGTAAGAGGCCCCGGAACGTTATCGTTCACACGGACCGTGGAGGCCAGTACTGTTCAGCAGATTATCAGGCGCAACTGA -AGCGGCATAATCTGCGTGGAAGTATGAGCGCAAAAGGTTGCTGCTACGATAATGCCTGCGTGGAAAGCTTCTTTCATTCG -CTGAAAGTGGAATGTATCCATGGAGAACACTTTATCAGCCGGGAAATAATGCGGGCAACGGTGTTTAATTATATCGAATG -TGATTACAATCGGTGGCGGCGGCACAGTTGGTGTGGCGGCCTCAGTCCGGAACAATTTGAAAACAAGAACCTCGCTTAGG -CCTGTGTCCATATTACGTGGGTAGGATCAACCAGCATAAATCAGGCTGCGGCTAAAATGGCGCGGGCAGGAATCCTGGTC -GTTGATGGTAAGGTCTGGCGAACGGTGTATTACCGGTTCGCTACCAGAGAAGAATGGGAAGGAAAGGTGAGCACGAATCT -GATTTTTAAGGAGTGTCGCCAGAGTGCCGCGATGAAACGGGTATTGAGGGTATATAAAAGAACATCAATGGGAACACAAT -GATGAAACAGGTGAGTTGAGTTCAAACTGTAGTACAATTCTCTCCAGTTTGAACAGGAAAGAATATGCTATGAACCCTTA -TATTTATCTTGGTGGTGCAATACTTGCAGAGGTCATTGGTACAACCTTAATGAAGTTTTCAGAAGGTTTTACACGGTTAT -GGCCATCTGTTGGTACAATTATTTGTTATTGTGCATCATTCTGGTTATTAGCTCAGACGCTGGCTTATATTCCTACAGGG -ATTGCTTATGCTATCTGGTCAGGAGTCGGTATTGTCCTGATTAGCTTACTGTCATGGGGATTTTTCGGCCAACGGCTGGA -CCTGCCAGCCATTATAGGCATGATGTTGATTTGTGCCGGTGTGTTGATTATTAATTTATTGTCACGAAGCACACCACATT -AAAATAATTTGTTTCTAAACGACTAAAATATGGAGGCTCTTATATTTATATGAGCCTCGTTTTATGCTTTTTGTTAATGT -CTTTATTTTTTATGTATTCTTTTGTGCTTTCAAGATTATGGCGTAAGAAAATTGCAATACGATTATTGTTGTATATTCAA -GATAATGTGACCTTAATTGTCTTTTTAAATAAAAAATAAACAAAAATTATATCCCACCACTAAGGTTTATAAAAGCATAC -GTTAGCAGGTGTCACCATGAAAAAAGCCATAGCATATATGCGATTTTCATCACCAGGTCAGATGTCTGGCGACTCATTAA -ACCGACAGAGAAGACTTATTGCTGAATGGTTAAAGGTAAATAGTGATTATTATCTTGATACCATAACATATGAAGATTTA -GGATTAAGTGCATTCAAAGGAAAGCATGCACAATCAGGAGCTTTTTCGGAATTTTTAGATGCTATAGAGCATGGTTATAT -ATTGCCAGGAACTACATTGTTAGTTGAAAGTCTGGACAGACTTTCAAGAGAAAAAGTCGGTGAAGCGATTGAACGTCTGA -AATTGATTTTGAATCACGGTATTGATGTTATAACTCTTTGCGACAATACAGTCTATAATATTGACTCTTTGAATGAGCCA -TATTCATTAATAAAAGCCATACTTATAGCACAAAGGGCAAATGAAGAAAGCGAGATAAAGTCAAGTCGGGTTAAATTATC -ATGGAAGAAAAAACGGCAGGATGCACTGGAATCAGGTACGATTATGACGGCGTCTTGTCCGAGATGGCTCTCCTTAGATG -ACAAAAGAACGGCTTTTGTTCCAGACCCCGACAGGGTGAAAACTATTGAGCTAATTTTTAAACTCAGGATGGAAAGGCGC -TCATTGAATGCAATAGCCAAGTATTTAAATGATCATGCTGTAAAGAATTTCTCAGGAAAAGAAAGTGCATGGGGACCTTC -TGTAATTGAAAAATTATTAGCGAATAAAGCTCTGATAGGTATTTGCGTACCTTCATATCGTGCAAGAGGGAAAGGGATAA -GTGAAATCGCTGGCTATTATCCCAGAGTCATATCAGATGATTTGTTTTACGCTGTACAGGAAATTCGGTTGGCACCTTTT -GGTATTAGCAATAGTAGCAAGAATCCTATGCTAATAAATCTACTTCGAACAGTTATGAAGTGTGAGGCTTGTGGTAATAC -CATGATTGTTCATGCGGTATCTGGAAGTTTGCATGGCTATTATGTTTGTCCGATGAGAAGATTACATCGATGTGACAGGC -CATCAATAAAAAGAGATTTGGTTGATTATAATATCATTAATGAATTGCTTTTTAATTGTAGCAAAATTCAACCAGTTGAA -AACAAGAAAGATGCTAATGAAACTTTAGAGTTAAAAATTATTGAGCTTCAGATGAAAATTAATAATTTAATCGTTGCATT -GTCTGTCGCGCCTGAAGTTACCGCTATAGCAGAGAAAATAAGACTATTAGATAAGGAATTACGAAGGGCTTCGGTATCAT -TGAAAACTTTGAAGAGTAAAGGTGTAAATTCATTCAGTGATTTTTATGCTATTGACTTAACCAGTAAAAATGGACGAGAG -TTATGCCGTACACTTGCCTATAAAACATTCGAAAAAATCATAATTAATACGGATAATAAAACCTGTGATATCTATTTTAT -GAATGGCATTGTTTTTAAACACTATCCTTTAATGAAAGTAATATCCGCCCAGCAGGCGATAAGTGCTCTCAAATATATGG -TTGATGGTGAGATTTATTTCTAAATAATGATCTCGGATTTTAAGTTATGCTATGGTGATAAAGTGCAAGACAGAATTAAT -TATCTTTGACGAAACTTAATGGGTAATTACTTTGTTTGCTCCCACAAGCGAGTTTTGTACGGCTGTATTGGGGTAGTAAA -TGAGCTATACAATCTTAATCATTTGTTAGGTGAGAACTCTTGGTCGCAGATTCAAATACTGAAAATACGTGACAAATTAT -TATGAGCAAAATGGTGTATGTCACGTATTTTGAATGGTAGGTTAAAAAATAACACCGACTTTCGTAGGTGTTACTAATAA -TAAAGCAGAGTTTTTAGATAGTATCAATGTGCTTTGTGTATATTGTGGCAAATAATTGGGTTGGGGGTACAATTGTGATT -GCTTTTGCATGAACATTGCGCCTTTATGCATAATGAGATAAAGGAATATCAAATAAAATAACGATAGGTCATAACAAAGA -GGTTTTTATGAAAACACTTATCGTTTCAACTGTATTGGCATTCATAACATTTTCTGCGCAGGCTGCAGCATTTCAGGTCA -CTAGTAATGAAATAAAAACAGGAGAGCAACTTACAACGTCTCATGTCTTTTCTGGATTTGGGTGTGAAGGTGGTAATACA -TCGCCCTCATTAACCTGGTCTGGTGTTCCTGAAGGTACCAAAAGCTTTGCCGTAACTGTATATGATCCAGATGCACCTAC -AGGCAGTGGTTGGTGGCATTGGACTGTTGTTAATATTCCAGCAACAGTAACATATTTGCCCGTTGATGCAGGGAGACGTG -ATGGAACAAAACTGCCGACTGGTGCTGTTCAAGGCCGAAATGATTTTGGCTATGCTGGGTTTGGTGGCGCATGTCCTCCT -AAAGGAGATAAACCACATCATTACCAGTTTAAAGTATGGGCTCTAAAAACTGAAAAGATTCCTGTAGATTCTAACTCCAG -CGGAGCGTTAGTTGGTTATATGCTTAATGCTAATAAAATCGCAACCGCTGAGATAACACCAGTTTATGAGATAAAGTAGG -GTGAGAGTATGCTGGCAAGAGGTAAGACTAACTTAAAGATCGAAGAAATACGGATGCATAAACATCATGAGATTCATAGG -GTTAAGCCTCTTATGCCAGCTTTGTGTCGTATCCGTCAGGGAAAGAAAGTTATCAATTGGGAGACGCATACTTTAACTGT -TGATAATAATCAAATAATATTATTTCCTTGTGGTTATGAATTTTATATTGAGAATTATCCTGAAGCAGGGCTTTATCTTG -CAGAAATGCTTTACTTACCCATTGATTTAATTGAGAGTTTCCAAAAACTTTATACGGTAACTGATCAAATACGTAACAAA -ACAAGTTTCTTTTTACCTCAGAATCCTGAGTTAATATATTGTTGGGAGCAACTAAAAACATCTGTTTCCCGAGGCTTCTC -AACTAAAATTCAGGAGCACTTAGCAATGGGCGTTCTACTTTCGTTAGGAGTGAATCATGTTAATCATTTACTTTTATCAT -ATAGTAAACAATCATTGATAAGTCGTTGTTATAACCTGCTGCTATCCGAACCCGGCACAAAATGGACAGCAAACAAGGTT -GCTCGATATCTCTACATTTCTGTTTCTACATTACATCGCCGTCTAGCAAGCGAGGGGGTAAGTTTCCAAAGTATACTGGA -CGATGTGAGGTTAAATAATGCGTTGTCTGCTATACAAACGACGGTAAAACCTATAAGCGAGATTGCCAGAGAAAATGGTT -ATAAGTGTCCTTCTCGTTTTACTGAAAGATTTCATAATCGTTTTAATATAACACCAAGAGAGATAAGAAAAGCTTCCAGA -GAGTAAAAGTGTTTTAAGAAGGAGCAATTCTATCGATTTTGATTTTGGGAAATCAACACGGCATAATTATGTCACCGGAG -CCTGAACAACTCCGGTGACTTCTGCGCTAAACGGGGACGTTTATGCGCACATACAATCCAAACTCTCTTCTCCCTTCACA -GATGCAGAAATGCACCTGCAATTCTTTGCATCTAGCGTTTGACCTCTGCGGAGGGGAAGCGTGAACCTCTCACAAGACGG -CATCAAATTACATCGCGGCAACTTCACCGCTATCGGTCGGCAGATCCAGCCTTATCTGGAGGAGGGCAAATGCTTTCGCA -TGGTGCTTAAACCGTGGCGTGAGAAACGCAGTCTTTCCCAGAATGCACTCAGCCACATGTGGTACAGCGAAATCAGTGAA -TACCTCATCAGCAGGGGTAAAACGTTCGCCACTCCAGCTTGGGTAAAAGATGCTCTCAAACACACATATCTCGGTTATGA -AACCAAAGACCTGGTTGATGTCGTAACCGGTGATATCACCACTATCCAGTCGTTACGCCATACCTCCGATCTTGATACCG -GAGAGATGTATGTCTTCCTGTGTAAGGTTGAAGCCTGGGCGATGAATATTGGTTGCCACCTGACTATTCCACAGAGCTGC -GAGTTCCAGCTGCTGCGCGACAAGCAGGAGGCGTAATGGCTACACCGCTTATTCGTGTCATGAACGGACACATCTACAGA -GTACCAAATCGTCGTAAGCGTAAACCTGAGCTGAAGCCATCCGAAATACCAACACTGCTCGGATATACCGCCAGCTTGGT -TGATAAAAAATGGTTGCGACTGGCAGCAAGGAGGAGTCATGGCTGATTTGAGAAAAGCAGCGCGTGGTCGGGAATGCCAG -GTAAGAATCCCTGGCGTATGTAATGGCAACCCTGAAACGTCTGTACTGGCACATATCCGGCTGACTGGATTGTGCGGCAC -CGGTACGAAACCGCCAGACCTGATTGCCACCATTGCATGTTCTGCCTGCCACGACGAAATCGACCGCCGCACGCATTTTG -TTGACGCTGGATATGCAAAAGAATGCGCGCTGGAAGGTATGGCGAGAACACAGGTTATCTGGCTGAAAGAGGGGGTTATT -AAGGCGTGAATACCTACAGCATCACATTACCCTGGCCTCCGAGCAATAATCGCTATTACCGCCATAATCGCGGGCGCACG -CACGTCAGCGCAGAGGGGCAGGCATACCGCGATAACGTCGCCCGAATCATTAAAAACGCAATGCTGGATATCGGCCTGGC -TATGCCTGTGAAAATCCGCATTGAGTGCCACATGCCGGATCGCCGTCGCCGTGACCTGGATAATCTGCAAAAAGCCGCTT -TTGACGCACTCACTAAAGCAGGTTTCTGGCTGGATGATGCTCAGGTCGTTGATTACCGCGTTGTGAAGATGCCTGTTACC -AAAGGTGGGAGGCTGGAACTGACCATCACCGAAATGGGGAATGAATGATGTTTGAGTTTAATATGGCAGAACTTCTTCGC -CACCGCTGGGGGCGTCTGCGCTTATATCGTTTCCCCGGTTCTGTTTTGACCGATTACCGAATACTGAAGAATTACGCCAA -AACCCTGACAGGAGCAGGAGTATGAAGTCAGAGATAACAATCAACTAATACTGTTTTGTTGATTTTTGCTTGTAATTGGC -GTTCTGGTCTGATTTTTGTGGAGTAAGTTGATGCGTGATATTCAGATGGTTCTTGAGCGTTGGGGAGCGTGGGCGGCTAA -TAATCATGAAGATGTGACCTGGTCGTCCATTGCCGCCGGTTTTAAGGGATTAATTACTTCAAAAGTAAAATCTCGCCCGC -AATGTTGTGACGATGACGCGATGATCATTTGCGGGTGCATGGCCCGTCTGAAAAAGAACAACAGCGATTTGCACGATTTA -TTAGTAGATTATTATGTAGTCGGTATGACATTCATGTCACTGGCAGGTAAGCATTGCTGCTCTGATGGTTATATCGGGAA -AAGGTTACAGAAGGCTGAGGGCATAATTGAAGGGATGTTAATGGCATTAGATATCCGGTTAGAGATGGATATCGTTGTTA -ATAACTCTAATTAATATGCCAATTGTTTACTAAAAATTATTAAAAATGGGGCGTTGAGACGCCCCCAAAAATAAAGGGTA -ATATATAACAGAAGGTTTATATAGTTAGAAGCAAGGTTGTGCTTCTAAAGGAAGTGGCTTGAGGGAGCCACTTATATGTT -GGGGAGGCAACGCCTCCCGCAACATATCTTTTTCGTAATCAGATTAGAACTGGTAAACCAGACCTACAGCAACGATGTCA -TCAGTGCTTACACCGAGTGCTTTAGGGAAGGTGCGAATAAGCGGGGAAATTCTTCTCGGCTGACTCAGTCATTTCATTTC -TTCATGTTTGAGCCGATTTTTTCTCCCGTAAATGCCTTGAATCAGCCTATTTAGACCGTTTCTTCGCCATTTAAGGCGTT -ATCCCCAGTTTTTAGTGAGATCTCTCCCACTGACGTATCATTTGGTCCGCCCGAAACAGGTTGGCCAGCGTGAATAACAT -CGCCAGTTGGTTATCGTTTTTCAGCAACCCCTTGTATCTGGCTTTCACGAAGCCGAACTGTCGCTTGATGATGCGAAATG -GGTGCTCCACCCTGGCCCGGATGCTGGCTTTCATGTATTCGATGTTGATGGCCGTTTTGTTCTTGCGTGGATGCTGTTTC -AAGGTTCTTACCTTGCCGGGGCGCTCGGCGATCAGCCAGTCCACATCCACCTCGGCCAGCTCCTCGCGCTGTGGCGCCCC -TTGGTAGCCGGCATCGGCTGAGACAAATTGCTCCTCTCCATGCAGCAGATTACCCAGCTGATTGAGGTCATGCTCGTTGG -CCGCGGTGGTGACCAGGCTGTGGGTCAGGCCACTCTTGGCATCGACACCAATGTGGGCCTTCATGCCAAAGTGCCACTGA -TTGCCTTTCTTGGTCTGATGCATCTCCGGATCGCGTTGCTGCTCTTTGTTCTTGGTCGAGCTGGGTGCCTCAATGATGGT -GGCATCGACCAAGGTGCCTTGAGTCATCATGACGCCTGCTTCGGCCAGCCAGCGATTGATGGTCTTGAACAATTGGCGGG -CCAGTTGATGCTGCTCCAGCAGGTGGCGGAAATTCATGATGGTGGTGCGGTCCGGCAAGGCGCTATCCAGGGATAACCGG -GCAAACAGACGCATGGAGGCGATTTCGTACAGAGCATCTTCCATCGCGCCATCGCTCAGGTTGTACCAATGCTGCATGCA -GTGAATGCGTAGCATGGTTTCCAGCGGATAAGGTCGCCGGCCATTACCAGCCTTGGGGTAAAACGGCTCGATGACTTCCA -CCATGTTTTGCCATGGCAGAATCTGCTCCATGCGGGACAAGAAAATCTCTTTTCTGGTCTGACGGCGCTTACTGCTGAAT -TCACTGTCGGCGAAGGTAAGTTGATGACTCATGATGAACCCTGTTCTATGGCTCCAGATGACAAACATGATCTCATATCA -GGGACTTGTTCGCACCTTCCTTAGTGAAGTCATTTTTGTCAAGCAGGTTGATTTTGTAATCAACGAAAGTAGACATATTT -TTGTTGAAGTAATAGGTTGCACCTACATCAACATATTTGACTAAGTCCTGATCGCCCCATACTCCAAGATCCTTACCTTT -AGATTGCAGGTAAGCAACGGACGGACGCAGACCGAAATCGAACTGATATTGTGCAACAGCTTCGAAGTTTTGGGCTTTAT -TAGCAACGAAGTGATCAGCAAATACAGTCATATTCTGGGTTTCAGAATAGGTAGTGGCCAGGTAAATGTTGTTAGCGTCA -TATTTCAGACCTGCGGCCCAAACTTCTGCATTTTTACCGGAAGCAAATACTTCAGGAAGAACTTTCCCTGCATTAACTTG -AGTGTCGGTACGATCAGATTTCGCATAAGTTGCACCGATACCGAATCCTTCGTATTCATAGGTAGCAGAGAAACCGAAGC -CATCACCGTTACCTTCAGTGTAGTTATCGAAATCGCTACGATCGTTTTTGCCTTGGTACTGAGCAGCAAAGTTCAGACCA -TCAACCAGACCAAAGAAGTCGTTGTTACGATAGGTTGCAACACCAGTTGCACGTTGAGTCATGAACACGTCGGTTTGAGT -CCAAGTGTCACCACCGAATTCTGGCAGGACGTCAGTCCACGCACCGATGTCGTATGCTACACCGTAGTTACGGCCGTAAT -CGATGGAGCCGTAGTCACCGAATTTCAGGCCAGCGAAGGCAAGACGGGTTTTATCTTTGGAGGAACCTTGAGATTCAGCG -CGGTTGCCTTTGAATTCATATTCCCACTGACCGAAACCAGTCAGTTGATCGTTGATTTGGGTTTCACCTTTGAAGCCAAG -ACGGGCATAAGTAGTATCACCATCATCTGCATCATTAGAGGAGAAGTAGTGCTTAGCATTAACTTTCCCGTACAGATCCA -GCTTGTTACTGTCTTTATTATAAATTTCAGCTGCCTGAGCAGACATCGCCATTAGTACTGATGCAGCTACAGCAGAAATT -GCCACTGTTAATTTTTTCATCGTGAGCCCTTTTTTTGAACTATTATTAAAAAATGATGTCACTGCGCGATAAATATTCAT -CTAATCAATGTGATTATTTCAAGATGTAAGTTTTGGTTTCTCGTTTGATTTGTGAAGTAGATCTCTATTTTTATCTGAAC -TTTTTTCTATCGAATCCTATTCATGGCTCTTGGCTGAATAAAAATAAATCTATTAGCCAATTTATATTAACGGCTGTTAT -TTATAAGTGCTCTATAATTTGAAGGTTCAATTTAAACCGGCTAAAAATAACACTGGAAATTATTTTTTGGTTATTTGTTG -AGATTTGCTTATGTATTTGTAGTGGTGTTTTCAATACTCGGTAGCATTCTCTCAAATATCATTTAGTGGTTTACGTACGT -AAAAAATTGGTTATGCTGTTAAGAGTGGTTACTTCGTCACACAGCTTAAACCCGCCGTCGAGCGGGTTTTTCCATTTTTT -GAGTCTCGATATTAGCTGATAACCCAATACCTGAGTTATTCACTGACTCCGAGTCTGTTACGTTTCGTAGTATTCCCTCA -ATTTACACCCGCTTTGTCTGCGAGGTGGGGTTATGAAATCCATGGATAAGTTAACAACGGGTGTCGCCTATGGCACCTCA -GCAGGTAGTGCCGGGTACTGGTTTTTACAGCTGCTAGATAAAGTCACTCCCTCACAGTGGGCAGCAATAGGTGTGCTGGG -TAGCCTGGTATTTGGCCTGCTGACGTACCTGACAAACCTTTATTTCAAGATTAAAGAAGATAAGCGCAAGGCTGCGAGAG -GTGAATAATGCCTCCATCATTACGAAAAGCCGTTGCTGCTGCTATTGGTGGCGGAGCAATTGCTATAGCATCAGTGTTAA -TCACTGGCCCAAGTGGTAACGATGGTCTGGAAGGTGTCAGCTACATACCATACAAAGATATTGTTGGTGTATGGACTGTA -TGTCACGGACACACCGGAAAAGACATCATGCTCGGTAAAACGTATACCAAAGCAGAATGCAAAGCACTCTTGAATAAAGA -CCTTGCCACTGTCGCCAGACAAATTAACCCGTATATCAAAGTCGATATACCGGAAACAACGCGCGGCGCTCTTTACTCAT -TCGTTTACAACGTGGGTGCTGGCAATTTTAGAACATCGACGCTTCTTCGCAAAATAAACCAGGGCGATATCAAAGGCGCA -TGTGATCAGCTGCGTCGCTGGACATACGCTGGCGGTAAGCAATGGAAAGGCCTGATGACTCGTCGTGAGATTGAGCGTGA -AGTCTGTTTGTGGGGGCAACAGTGAGCAGAGTAACCGCGATTATATCCGCTCTGATTATCTGCATCATCGTCAGCCTGTC -ATGGGCGGTCAATCATTACCGTGATAACGCAATCGCCTACAAAGTCCAGCGCGACAAAAATGCCAGAGAACTGAAGCTAG -CGAACGCGGCAATTACTGACATGCAGATGCGTCAGCGTGATGTTGCTGCGCTCGATGCAAAATACACGAAGGAGTTAGCT -GATGCGAAAGCTGAAAATGATGCTCTGCGTGATGATGTTGCCGCTGGTCGTCGTCGGTTGCACATCAAAGCAGTCTGTCA -GTCAGTGCGTGAAGCCACCACGGCCTCCGGCGTGGATAATGCAGCCTCCCCCCGACTGGCAGACACCGCTGAACGGGATT -ATTTCACCCTCAGAGAGAGGCTGATCACTATGCAAAAACAACTGGAAGGAACCCAGAAGTATATTAATGAGCAGTGCAGA -TAGAGCTGACCATATCGATGGGCAACTCATGCAATTATTTTGAGCAATACACACGCGCTTCCAGCGGAGTATAAATGCCT -AAAGTAATAAAACCGAGCAATCCATTTACGAATGTTTGCTGGGTTTCTGTTTTAACAACATTTTCTGCGCCGCCACAAAT -TTTAGCTGCATCGACAGTTTTCTTCTGCCCAATTCCAGAAACGAAGAAATGATGGGTGATGGTTTCCTTTGGTGCTACTG -CTGTCTGTTTGTTTTGAACAGTAAATGTCTGTTGAGCACATCCTGTAATAAGCAGGGCCAGCGCAGTAGCGAGTAGCATT -TTTTTCATGGTGTTATTCCCGATGCTTTTTGAAGTTCGCAGAATCGTATGTGTAGAAAATTAAACAAACCCTAAACAATG -AGTTGAAATTTCATATTGTTAATATTTATTAATGTATGCCAGGTGCGATGAATCGTCATTGTATTCCCGGATTAACTATG -TCCACAGCCCTGACGGGGAACTTCTCTGCGGGAGTGTCCGGGAATAATTAAAAACGATGCACACAGGGTTTAGCGCGTAC -ATGTATTGTATTATGCCAACACCCCGGTGCTGACACGGAAGAAACCGGACGTTATGATTTAGCGTGGAAAGATTTGTGTA -GTGTTCTGAATGCTCTCAGTAAATAGTAATGAATTATCAAAGGTATAGTAATATCTTTTATGTTCGTGGATATTTGTAAT -CCATCGGAAAACTCCTGCTTTAGCAAGATTTTCCCTGTATTGCTGAAATGTGATTTCTCTTGATTTCAACCTATCATAGG -ACGTTTCTATAAGATGCGTATTTCTTGAGAATTTAACATTTACAACCTTTTTAAGTCCTTTTATTAACACGGTGTTATCG -TTTTCTAACACAATGTGAATATTATCTGTGGCTAGATAGTAAATATAATGTGAGACATTGTGACGTTTTAGTTCAGAATA -AAACAATTCACAGTTTAAATCTTTTCGCACTTGATCGAATATTTCTTTAAAAATGGCAACCTGAGCCATTGGTAAAACCT -TCCATGTGATACGAGGGCGCGTAGTTTGCATTATCGTTTTTATCGCTTCAATCTGGTCTGACCTCTTTGTGTTTTGTTGA -TGATTTATGTCAAATATTAGGAATGTTTTCAATTAATAGTATTGGTTGCGTAACAAAGTGCGGTCCTGCTGGCATTCTGG -AGGGAAATACAACCGACAGATGTATGTAAGGCCAACGTGCTCAAACCTTCATACAGAAAGATTTGAAGTAATATTTTAAC -CGCTAGATGAAGAGCAAGCGCATGGAGCGACAAAATGAATAAAGAACAATCTGCTGATGATCCCTCCGTGGATCTGATTC -GTGTAAAAAATATGCTTAATAGCACCATTTCTATGAGTTACCCTGATGTTGTAATTGCATGTATAGAACATAAGGTGTCT -CTGGAAGCATTCAGGGCAATTGAGGCAGCGTTGGTGAAGCACGATAATAATATGAAGGATTATTCCCTGGTGGTTGACTG -ATCACCATAACTGCTAATCATTCAAACTACTTAACCTGTGACAGAGCCAACACGCAGTCTGTCACTGTCAGGAAAGTGGT -AAAACTGCAACTCAATTACTGCAATGCCCTCGTAATTAAGTGAATTTACAATATCGTCCTGTTCGGAGGGAAGAACGCGG -GATGTTCATTCTTCATCACTTTTAATTGATGTATATGCTCTCTTTTCTGACGTTAGCCTCCGACGGCAGGCTTCAATGAC -CCAGGCTGAGAAATTCCCGGACCCTTTTTGCTCAAGAGCGATGTTAATTTGTTCAATCATTTGGTTAGGAAAGCGGATGT -TGCGGGTTGTTGTTCTGCGGGTTCTGTTCTTAGTTGACATGAGGTTGCCCCGTATTCAGTGTCGCTGATTTGTATTGTCT -GAAGTTGTTTTTACGTTAAGTTGATGCAGATCAATTAATACGATACCTGCGTCATAATTGATTATTTGACGTGGTTTGAT -GGCGTAGATGCACGTTGTGACATGTAGATGATAATTATTATCATTTTGTGGGTCCTTTCCGGCGATCCGACAGGTTACGG -GGCGGCGACCTCGCGGGTTTTCGCTATTTATGAAAATTTTCCGGTTTAAGGTGTTTCCGTTCTTCTTCGTCGTAACTTAA -TGTATTTATTTAAAATACCCCCTGAAAAGAAAGGAAACGACAGGTGCTGAAAGCGAGCTTTTTGGCCTCTGTCGTTTCCT -TTCTCTGTTTTTGTCCGTGGAATGTGCAATGGAAGTCAACAAAAAGCAGCTGGCTGACATTTTCGGTGCGAGTATCCGTA -CCATTCAGAACTGGCAGGAACAGGGAATGCCCGTTCTGCGAGGCGGTGGCAAGGGTAATGAGGTGCTTTATGACTCTGCC -GCCGTCATAAAATGGTATGCCGAAAGGGATGCTGAAATTGAGAACGAAAAGCTGCGCCGGGAGGTTGAAGAACTGCTGCA -GGCCAGCGAGACAGATCTCCAGCCAGGGACTATTGAGTACGAACGCCATCGACTTACGCGTGCGCAGGCCGATGCACAGG -AGCTGAAAAATGCCAGAGACTCCGCTGAAGTGGTGGAAACCGCATTCTGTACTTTCGTGCTGTCGCGGATCGCAGGTGAA -ATTGCCAGTATTCTCGACGGGATCCCCCTGTCGGTGCAGCGGCGTTTTCCGGAACTGGAAAACCGACATGTTGATTTCCT -GAAACGGGATATCATCAAAGCCATGAACAAAGCAGCCGCGCTGGATGAACTGATACCGGGGTTGCTGAGTGAATATATCG -AACAGTCAGGTTAACAGGCTGCGGCATTTTGTCCGCGCCGGGCTTCGCTCACTGTTCAGGCCGGAGCCACAGACCGCCGT -TGAATGGGCGGATGCTAATTACTATCTCCCGAAAGAATCCGCATACCAGGAAGGGCGCTGGGAAACACTGCCCTTTCAGC -GGGCCATCATGAATGCGATGGGCAGCGACTACATCCGTGAGGTGAATGTGGTGAAGTCTGCCCGTGTCGGTTATTCCAAA -ATGCTGCTGGGTGTTTATGCCTACTTTATAGAGCATAAGCAGCGCAACACCCTTATTCCAGCTGGCTTCGTGGCTGTTTT -CAACAGTGATGAGTCATCGTGGCATCTCGTTGAAGATCATCGGGGTAAAACGGTTTATGACGTAGCGTCAGGGGACGCGT -TATTTATTTCTGAACTCGGTCCGTTACCGGAAAATGTTACCTGGTTATCGCCGGAAGGGGAGTTTCAGAAGTGGAACGGT -ACAGCCTGGGTGAAAGATGCAGAAGCAGAAAAACTGTTCCGGATTCGGGAGGCGGAAGAAACAAAAAACAGCCTGATGCA -GGTAGCCAGTGAGCATATTGCGCCACTTCAGGATGCTGTAGATCTGGAAATCGCAACGGAGGAAGAAACCTCATTGCTGG -AAGCCTGGAAAAAATATCGGGTGTTGCTGAACCGTGTTGATACATCAACTGCACCTGATATTGAGTGGCCTACGAACCCT -GTCAGGGAGTAATCATTGGGATTATGCCGCAGCACGTCTTAAGCAAGAACATGCTGCGGTTGGATGCTATTTTTTTCCTG -AAGCGGAAAACATTACTACAGTACCTTGAACCTTGGTTTTAACATTCTCGAAATGCTCTGAGAGTATATGTGTTAAGCCT -TCTTCGGAATCTTTTGTGTTTGAAAAGATGCCTTTCTGATTGTAAATGCGCATCAGTTTTTGACCGAAGCTATTGTGCAC -AACTCCATCGCCAAGAATTGTGGCTCCGTATAGAGTTCCATCGTCAGTTAAGGCCTGCGCCGCATTGCGTATTACACAGC -TTTTTGTAGATATATTTCCAGGCAGGCAGTGAAGAAGGTAAGACATGGAAATGGAATCAAATTGACCATGTAACGCCGCG -GGATAAGGTTCAAAAACATCATGGCTAATTTTATGTTTAATTTTTGATTCCCCAGCCCTTGTAGATGCCGCGTTCAGGCT -AGCTTCGTTCAAATCCATTAAAGATATCAGACTACTCTCAGGTACGTGAGTAAGGTAAAACCCAGTTCCAACACCAATAT -CCAGATGGTTGTTACCTAAATGTTCCAGAAAGTGTGGAAGAAGGTGTTCCTTTGTAGGACATCCCCATGCAAGCCGATTT -GATACTCCCAAAACCCACCAGTCATAAAGCTTTAGGGTAAGTGGTGTGTAAATTCTAGCCCCATCATCTGTGTTTTTTTA -TTAATTTCACCATGTTATAGTTTTATTTGTGAATTAAATCAATTATGGCAATGAATTACAAGGGGTTAAATGCTGCCGCA -GCATAGCGATATTGAAATAGCCTGGTATGCTTCAATACAGCAGGAGCCGAATGGCTGGAAGACCGTCACCACACAGTTCT -ACATCCAGGAATTCAGTGAGTATATTGCGCCACTGCAGGATGCTGTAGATCTGGAAATCGCAACGGAGGAAGAAAGATCG -TTGCTGGAAGCCTGAAAAAAGTATCGGGTGCTGCTAAACCGTGTGGACACTTCCGTAGCACCAGATATCGAGTGGCTTAT -TCAACCATAATAAACAGTATGTATATCATAGGTTATTAATTGTGAGTTTTTTCGGTGTGTTATTTGTTTGTTTGATGTTA -TGCTTTTGCGCCCCAAAAGGTTGTTTAGATGTATTTTATCAATTGATTTTCAATATCGTTTAATAAAGAAAAATTAAGCA -AGCTGGATGTTGGTTTTTTGTTAATTGAATGGTTCTAATAATGTTTTTTTACTGTTGTTGAATGTGACTTGATAAGAAAT -GCAAGTAAAAATGATACTCTTTTTATTTTAAATTCAAACGGTTGACATATATATAGCAAGAGGTTTCAGGTGCGTTGTAG -TGAGTTTATGTTAATAAAAAGCATAGTAAGCGTTGAAAAATGTAACTTTGAAATAAGTTAGAATAAAAAACAACATACAT -ATAATAATTTAATCTTAAATGAAATTTATTAAAATTTGCAAACTATAATTTTGTGTATAAAAATATAAATGCACATCATC -CTGATTATGATTGTGTATTTAATTGGTTGTTATTTGACTACTATCAACTTGTTTTAATTTTATGATAGGTGCAAGATGGA -TTATGTTTGCTCCGTAGTTTTCATCTGTCAATCATTTGATTTAATTATAAACAGGAGAGTTATCTCGTTCAAAAAAAATT -CATTGTTTATTGTAAGCGACAAAATTAGAAGGGAGTTACCAGTATGCCCCTCTAAACTAAGAATTGTTGATATAGATAAG -AAAACATGTTTATCCTTTTTTATCGACGTGAATAATGAGCTGCCTGGCAAATTTACTCTTGATAAGAATGGCTATATTGC -TGAAGAGGAACCTCCATTATCGCTTGTTTTTTCTCTGTTTGAAGGGATTAAAATAGCAGACTCACACTCCCTTTGGTTAA -AAGAAAGACTATGTATATCCTTACTTGCCATGTTCAAAAAACGCGAAAGTGTAAATTCATTTATACTAACAAATATAAAT -ACATTTACCTGTAAAATTACTGGAATAATCAGTTTTAATATTGAGCGGCAATGGCATTTAAAAGATATTGCGGAATTGAT -TTATACGAGTGAAAGTTTAATAAAAAAAAGATTAAGGGATGAAGGAACGTCATTTACTGAAATATTGAGAGATACTAGGA -TGAGGTATGCAAAAAAACTCATAACTTCAAACTCTTATTCTATCAATGTCGTAGCCCAGAAATGTGGCTATAACAGTACT -TCATATTTCATATGTGCATTTAAAGATTATTATGGTGTCACGCCATCTCATTATTTTGAGAAAATAATCGGCGTCACAGA -TGGAATAAACAAAACAATTGACTGATAATGTTTATTACAAGTTGTCTACATGTTAATTATAATATTATACAGCGTTTTTT -TTGATGTGATATTCTGGAACCATTAATTTGTAATTGGGTTGCTGTCGCCTATTTTATACATACTATAATTGATGGTTTTC -TATGTGATTTAGTTAATAACCTTCTGGGTTTATTTTAAGGGTTAATTGTTACATTGAAATGGCTAGTTATTCCCCGGGGC -GATTTTCACCTCGGGGAAATTTTAGTTGGCGTTCTTAAAATGTGTACTTAAGACCAGCAGTAGTGATGAAGTTATAGTTT -TCTATACCTGCTCCATTTTTGCTGTAGTCTGAAGTGTTATTATTGTGATCATAAAGTGAAGTATTACCTTTTTTATTCGT -AACCCGATTCCATGCGCCTTCAACATAAACTTTTGCGTTAGGTGTGACGTAATAACCTGCATTGACTGCAACAGAATAGT -AATTTTGGTCTTTGACCTTACTGCGATAAGTGATTCTTTTTCCCGGGTCATAGTGTTCATCGTTATCAGATGATTCCACC -CAGCCGCTGTATTTAAATGTGCCACCGAGTTCAAAATCTTCATAACGATAACTTCCAGTCAAGCCAATGTAGGGCATTTT -AAAACGTTGTTTGTAGCCGATTGCTCTTTCTCCATTCGGGAAGGAGCCGATATCATCTCTGAATCCCTCCTCAGAACTGT -AGATATAGGAACCACCTCTGGCTGTAAAGCTATAACGGCTTTCCTGATATCCGGCCATGAGTCCCAGGCGGTAATTGGGT -TCGTTGAGGAGCCAGCCTTTGATATTCAGATCAAATTCGTTGGCATAATTGAGTTGTGTATCAGGGTGTCTACTTTCATC -CGTCCAGGTTCCGGGGTTACTGGAATCCATCCAGTCCTGATCGACCATATTGCCACCTCGGCTGCCGAGAGTTGTCCAGC -CAGCAGCCCCGATAGATATCTGGGGCATCAAATCCCAATTAATTGCACCTTTAATAATTGCAGCGTTATTGAATTTCCAG -TCGAGTTGACTGACTTTTCGGCCTCCTTCTTCGGCTAGATAAACACGCTCTTTTGTTTTTCCGCTCAGAGTTCCAAGACT -AATGTCCGCATTTATGTTGTCAGGAGTAAACGATAAAGTCTCGGTAGAAGCAAAAGAGCTGATCGCAATAGGGGTTGTCA -GGACTATTCCCAGAAGTTTCGCCCGCATAAAAGTTCTCCATTCAATCGTTTTAATGATTGAATATGTATTTTTTATATCT -AACTTAATGAGTCAATTACATATTGCTCCACTGTTTATATTTTGTTTAGTATTGAATGATTATCACAATGCGCTATCTGT -TTTTGGTTTAATTATCTGTTATTGTTTCATATTTCGGTTTTACTGTGTGGTTTTTTTATGCTTTTGTGGTGCTTTTATCT -ATTTAAGTGCCATGCCTTTAGAGGCATATAAGCGAAAATAGCATGAGGTTTATCCTCAATTACTATGTTTTTTAGTACAA -AAAAGAGGGACAAAACTGAGACACATAAGGCCTCGCAATGGCTTGCAAGGCTTTACATGTTTTGAGGTAGTGGGACGTGT -GAGCGCAGAGATGGCGCGGTAAGTTGTTGACTTAAAATGTCGTTCTAGGAACTTCTAAGTCGTGGGCCGCAGGTTCGAAT -CCTGCAGGGCGCGCCATTTCTTCCTCATTTATGCCCGTCTTATCCGTTTCCGCTTTGCCCTTCACCACATCACTTTTTGT -CGCTGTTTGGCGAGATAATTCAACGGTGTCAGGCCGTAAAACGCCTTAAAAACAGAGATAAAGTACGACGTGCTGCTATA -GCCACATAATTGCGCCACCTGAGTGATATTTTTGTTATCCATCAATAACATCTGTACGGCGTAACGCATACGACACTCTG -TGACAATCTGGCTATAGCTGGTATTTTCGTTTTTTAATTTCTTTTTGAGCAGGCTGGGGCTTAAACATAGCGAACTGGCG -ACAATTCGCAGATTCCAGTAATGCTGAATATCGCTTTGAATAATGCGGCAGACGCTGTCGCGGACGCTGCTGCGTAAGAT -ATACATCAGTAGGGCAATAAACCGCGATTGCTCAAGAAAGTTAGACAATACGGTAAAAAGCAATGCGCGCGTCAACTCCG -CTTCGCAGGGTCTGCTGGGTTGCTGCTTGCTGTGGTTGGCGGCTAGCCGGAACACTTCCGGTGTACGGCTATGACAAGCG -ATAACCGGGGTTGCCAGCCGCGACCAGGGCTTTACACAGGTTAAGTTCTTATTTAAAAACAACAGATAATCGTTGATGAT -GTTACGGTTGATGTGGGTGATTAATACGTGATTTAACGTTGAGAGTTCAATGACGTTATTGTTGCACGCGAAGGCGGCCA -GGTAGTTTTTCGGAAGGGTAAACGTAGCATGGTTATTGACGCTTACCTCTACCTCTTTTTCGGTCAGGATCACCACGCAA -GGTTCACTGCTGCTCAATTGCATTTCGCACTCCTCAGATATCAGAAACTCCGCTCAAAGGATCTATGCTTCCTGCATGAG -TGATCGGCCCGTTCGCCGATAACGATCTTCTTTCTTTAGCACGCTTTTTAGCAATTAATCTTGATGGAATTCTGATGAGA -GCGAAAGAGGTAAGCCAGGTCGTACCCGACTTACCTGGAGGAGATTTAATACTCGAGAATGCCGTGCGCGACGGGCAAAT -AGCGCAGAGAGAAATAGAGAGTGTCTTTACCGCAAGAGGAACGTTTCGCTAACAGCGAGGCAATTTCTGCGTCCGGTTTC -GGTTTCGCTGTAAAGGTTTTGCCTTTGCCGGCGACAAAAAGTTCATAAACAACGCCGCTGGCAGGGGCGGGACTTTGGCA -ATCGGCGCTGGCCTGTAAATAACGTTCACGCTGTTCAGCGGTCAGTTTATCCACGCCGCTGCCATCCTGTACCCAGACAT -TAACGCCGGTTGCTTTAACGTGTTCCAGCAGTTGGCGATAGCCATCGGGCGACATGTTTCCGGCGAAAAAACTACTGATA -TAAACCGGTTTTGCTGAAACATCGCTAATCAGCCGCTGCGCGTTGTTTAACCATGTTAGCAAAGGCTGACGGGCGGCTTC -GCTGCGCCAGTTCAGGTCGTCAATTTCCGCGCTGATGTACCAGCCATCCGGCGTTATGCCAGGCGCGGCGCTCCATAATC -TGGCTTGCTGGAGATCGGCAGCCAGCAGGCGATTAAGATAGCTTTCCAGCGCTGCGGACGACTGTTTCTGGTGCATAAAA -AATTCCGGATCGGCGTTCAGCCCGACAATAAGCTTCAGACCAGCCTGTTGCGCAGCTGCGGCCCGCTTAAACAATAACGT -GCGCTGTTCTGGCTGGGTAAATGCATCGCCGTAACGGGTCCATTGCAAAACAAGGGTATCGAAGCCTTGCAAACGTAACT -GACTCATCAGCCCCTGCCACTGGGTATCGGTAACCTGACTATCTCGGTTTTGTGGTTGCCAGATAATACCTTTCATCGCA -AAGGAAAAAGGGCTGACCAAAAGCAGTGTCAGCAATACGAAAATGAACTTACGCATTTACCAGTGCACTCCAATGGTGAG -AAACGCGTTGTTGCGCTCTCCGTTACGTTGATTAATCGCCTTAAAGGTATGTTGATACTCGACGCCGAGACTGACTTTGT -GCGGCCAGGCGTCGTAGTGCGTCTCGCCGGTCCAGATATTCCAGCGGACCCCGACTCCGCCAAGCTGCGCGCCCTGAGTG -CCTTTATCACGATAGCCGTTGTCCTGAACGTGAGCGTAAGGCTCAATAGTCTGTCCGTTAGCTACCTTCTGATGCCAGCT -GACGCGATAATCTGCCGTCCACGCCTGAATATCCTGGCGGATATATTGCGCCGCATCGAGGTACAGGTTTTGGGCAAACC -AGCCTGAACCGTTCGGGTGCCATTCGTCGCTGTATTTGCCGCCATTAAAGAATGAGGCGCTGGCGCGCAGCATGGTATCG -GATGCGCCATTTTGGCCGTTCAGCGGCAACTGCTGTTCGACGGCGATGAAAAAGATCTGATCGCGCAGCGGCTTCCAGCG -CAGACCGGTGCCGGACATCGGATTTTTCACCGGCATCATCACCCCGTTTTCTCCGGTATCGGCAAAGACGCGGCTATAAA -CTGAGAGCAGGTCGCCTTCCAGCAGCATATTGCGTCCGATGCGGTACTCGGCTTCCAGTTGTCCGTAGCTACGATAGCTT -TTCCCTGGCGCTGCGCCGCCGACATTATTGTTAGCGGTACTCATTGCGCCGGAACGCAAGCCGATGGAAGAATCGAAACT -GAACGTCCAGCGGCGACCGACCTCCTCATGCAAACGGCGGAAATTGAAGCGTTGTTGATTTTGTTCTGGGGTCAGTGGGG -TTATCAGCGCCTGATTATCAATGTCATCAATCACCAGCCGGGCGTAGTGCTGCGTCGCAGGCATGTCATCCAGACGCTGG -TTCACGTAGGCCAGTTGTCGGATCAGTGCCGGATCGTCCGGAAGCCCTTTATGCGCCGGTTCGAGCATTTCCCGCGACTG -TGCGATATCACCGCTATCCCACAAGGCGTAACCAAGCGCTGCCTGGGTGTTGCTATTATTCGGTTCCAGTTCCAGCGCGG -CGCGCAAATCACTCACCGCGGCCGGGACATTATGACGTTGGCGATAAATTGTCGCCCGCGCAACGTAAGCGTTGGCAGAA -GGCGCAATATTGATTGAGCGCGTGAGATCGTTCAGTGCGAGTTCCGGCTGACCAGGAATGTAACGTTGCGCATGCAGCCA -CCAGTAGAGGGCATTGCTTCCCAGTCCACGTTTTTCTGCCTGTTGTAGCCAGCGATCGCGAGCCGCACCATTTCCTGCCG -CCTGGGCGGTATTGGCAGCAGCAAGCAGATCCTCATTGCTCATGTCGTGAAGACTGATTTTCTGCCAGGCCGCCAGTGCG -GTGGCGTAGTCCTCAACCTGATACGCCTGATAGGCTACCGCACGATGTTGCCAGGCGCTCGGTTGTCGTTGTTCGGCCTG -AAGCCATGCATACAACGCCACACCGGGTAGCGTGTCCCGATAACACTTTGCCAGACGGTTCCAGGCGGCGGCATCGTAGG -AAGGCGACATATCGCCCAGCAAGCGAACTATTGCCGGGCAATTATCTGCAATACCCGGCAACTGACTTTGCCACTGACGT -TGCTCCGCCAGCGGTAAGGGTTTCGATAAAATCGCCACCTTCGCCGGCGTTGCCAGGTAAGGATGACTTTCCAGCAGAGA -CGCCAGTCGCGCCATTAAAGTCTGGCTGACACGCGCATCGCCCTGGAAAGGATAGCGTTGCAGCAATAAATCGGCAGCTT -CGCGTGACTGCTCGTTCTGCATCAGTTGCCAGGTTAGTTGATCCAGGCGGGTAAGATTTGCCGGTTCTTGCTGATACAGC -AATCGTGCCAGACGCAGAGCTTCAGCCTTGTTACGGGTCGCCACGCTGACAGCATAACGCTCCTCAAGCATTTCATTGGC -GGGGAGGGTGGCGAGCAGTTTTTGCGCTGCGTCGTACTGACCTTCTTTTAACAGCACCGGTAGCGTCGCGCCAACAACAT -ACTGGCGGTTGTCGGCAAACTGTACCGTATAATTCGCCAACGCCTGAACGGGGTTAGCGCTGTATTTAGATAACAGATAG -AGCCAACTTTTCTCTTGTGCGTCCGTGGTAAATAGTGGCTTATTTTCAATGAGATAATGCTGGAGGCGTGCTTTTTCGCC -ACGATAAGCCAGCGCGGTCGCGTAAGTAATATATGACTGAGGATCGGTGAAGATCCCCTGTGATTGCAGTGCCAGGATCC -GATCGTCCAGCTGCCCGGCAAGAAGCACGTCAAACCACTGACGGCGTTCTGCCGCGCTTAATGTGTTCTGCTGGCGTGCT -TCATTGTATAGCGTATCTGCCTGGGACCATTGTTTCAGGTAGATTGCCCGTTGCAGCAGATCGGTTCGCAGCGTTTTTCC -TTCCGGCGATGCAGCAAACGTCGCATCGTTCAGTTGCGCTCTGGCGACAGGTAACTGTGCCAGCCGCAGGGCATTCTGCC -CGACTTCACTGCGACAACGCAGGGTCGGCGCAGCATCGCACGCTTTTTGCTGGGCAAGCAGTTCTTCAACTGTCGTAACG -CTTTTCACTTCAACCGGAATAGCCGCCAGACTGCGCTCAAGTCGGGCATCTCCTGGGTGACGTTTCAGTTGATCCTCAAG -CAACAGCCGCGCCCGGTCATCATGACCAAAATGGCGATAGGCTTCCGCAAGGTATAAAGTCAGCGGAATATTATCCGGCA -CCTGCTGGTGTATATATTCAAATTCGCGGATGGCGGTTGCTTCGTCGTTATTTTTCTGTGCCTTCAGCGCTTTATCGAGA -CGGGGATAAATAACAAAATGGCGATAATCGCTCAGCCCCAGCTCTTCTGCGCTGGTGCCGATATTGTCTGCGAGTGCGCT -GGTACTCAATAAAGACGTCAGCAGTAAACCAGACCATCCGATGACGCGATTAAGGTTATTCTCCTTCATTTTCGGACTCC -AGTTGCGCAACCTGTTCTGTGTTTAAACCTGCTTTGAGTAATAGTGATTGCATCGAAACTTGTAATTCGCGTTGAATTGT -CAGGACGCGATCCAACGTTTCCTGGCTGATAACGCCTTCGGTGACCAAAAACTTGCCGAGCGGCAGAGAACTGCGTTCAT -GGCGCAATAACAACACGTTAATTGCTGAACGATTAATATGACCGAGCGTGGTCAGTATTTCGGCGAACAGGAACTGATGC -GGCACATATTGCCGCCAGATTTCACCGGCCTGCTGTTCCGTGAGCCACTGATGCTGAACCGCATTGTACAACATTGCCCG -CGGATCGTGACCGCGTCGGCGTGCATACCAGTGACGTAACCCTGTGACAATTTGTCCCCGCAGAACAATGACGTAACGCA -CTTTGCGTCCGACTTTACGCGTCAGGGCCGCCAGCGAAACCGGGTCAATACCATCTTCACTGCCGACAATTAACTCGTCA -TTTTCCAGACGCAGCGGCAGTACCGCATAATGCAGCGCCACGGAGGCCGGCATTTCGGCAATCAGCGAGGAAGGGATCTG -CCAGGCATCGATGGATTCCCACGCCACGCCGTTTTGCTCTGCCAGCGCCTGTGCCAGCTGCTCGGCGCTAATCAGCCCCT -GCATCAGCATTGAACCGCCCAGGCGTAGACCTTCGACGCGATTACGCAGTGCTGTATCGAGTTGTTCTTCAGTGATGACC -TGATTTTCCAGCAGAATTTGACCTAACGGGCGCAACGAGCGGGTATCGCCAGTCACGCTGGGGAAGTCATGCGTTGTTTT -ATCCCACGCCACGCGACGTGGATCGCCGTGTTGAAGTACCTGTTTTAGCGCGCGCCAGTTGGCCATGAAGTTAATCAGGT -TGCCCCAGAAAAGACGCAGGACGGAAAGCAGCCCCTGCGTCAGGCCGTAGTAGCCAGTAACGAAAATCACCCGCTGCACG -ATGCGGTTAACCATCAAACCAAAGTTTAGCCACAGCAGGGTCATTAACCATGCGCTGCCGCTGAAAATAGAAAGGAAATG -CCAGGCATCGGGCCACAAACTTTCATACGCCAGCAACAGCAAAAGCTGGATCATCACCAGCATCGCGAGGAAGCTGACAA -AGTTACTGATTGCCCCTTTGCGGTCGCGCCAGAGAAAGTAGTTCAGCGTCAGGCTGGAGGTCCATTTATGGGTTTTAAAG -CCTTGGAAAACAATGCCGATGATCCAGCGGGATTTTTGTCGAACCGCAGTCGAAAAGGTATCGGGGAAATATTCGCGCAC -GCAGATCATGTTTGATGTCCGCGCGTGCTGTAAAAATTTACGCTGCTCGCGTTCTTTGGCTTCGTCCACCACCGGAAAAC -GGACAAAAATTTCCGTCATACCTTTTTCTTTCAGGCGGAAGCCAATGTCGTAATCTTCAGTAAGACTCTGCACGTCGAAA -GCAATACCGTCACCGTCAGCTAACAGTGCGGTCACGGCGCGGCGGCTGAAACAGGTGCCGACGCCTGCGCTGGGCACTTG -TCCGGCGAGGGCTTCACGCACCGGAACATCTTTGCCATGCAGCTCTGAAAACTCATCAATGTAAGTCATGCTGGTGAAGT -GCGTCCATTCGCGTTCGAACGGATACACCGGGATCTGAATCAGATCTTTACGCTCGACCAGATAGTTGAACAGACGCAAT -TCCATCGGTGAAATCACATCTTCGGCGTCATGCAGAATAAAACCAGCAAAAGCGAAATTGGCGCTACGCTCAAATTGGGT -GATGGCGTCCAGCACGTTGTTCAGACAGTCGGCTTTGCTGGTGGGGCCAGGACGCGCGCAGACTACCTTATGCACATTCG -GGAAGCGAGCGCACACTTCGTCAACATCACGCTGAGTATCGGGGTCGTTGGGGTAGGTGCCAACAAAGATATGATAGTTT -TCGTAGTCGAGCGTGGTCGCCGCCAGCTCGGCCATATTGCCGATGACGCCCGTTTCATTCCACGCCGGAACCATAATCGC -TAACGGTTTTTCATCTGGTTTATACAGTTCGCGGTAACTCATTCGCGGGTAGCGGCGATAAACACTCAACTTGCGTTTAA -TGCGGCGTACCCAGTAGACGACATCAATAAAAAAATCGTCCAGCCCGCTGATGAACATGATGACCGCTAACGTTATCGCG -ATTACTTTTAAGCCGTAGAGCCAGGTAGCAAAAACATCAAGAAGCCAGTCCACACAAAAACCTTACATTAACGCTGGTTA -TGTTTAGGGTGGCGTATATTAAGGTTTTTTATGAATTGTGACAGCTTTTTACCATTAATAGGTATGACTATTGCGGCACG -TTATTTTTACACTGGTTATAAAAGTTGCCGTTTGCTGAAGGATTAAGCGGGTAATGTGATAACAAACCTTGTCCCCCGCG -CATCCGACGTTACCGCAACCGTGCCTTTATGCGCGACAACAATCGATTTCACTATCGCCAGGCCAATACCGCTACCTTCA -CCTTTTCGCTGGCGGGAGGGGTCAACGCGATAGAAACGGTCAAACAATCGCGGTAAGTGCTCGGGCGCAATGGGCGTACC -GGGGTTTTCGACGATAACTTGCACCAGGTGATCGACCGTCTGACAGCGCACTACAATTGTCTCTCCGGTTGGCGTATAAC -GCAGGGCGTTCGAAAGCAGGTTGCTTAGCGCCCGACGCAGCATCAGCGGATCGCCCGCGACCTGACACTTGTCGCCAACA -AACCGCAACTCCACGCCGCGATCTTCCGCTAACGCCTCGAAAAAATCGAACACTTTGCCGACTTCATCCGCCAGGTTGAG -CATTTTCTTTTCGGGGATTAGCTGGTTGTTATCGGCCTGAGCGAGAAACAGCATATCGCTGACCATTTTCGCCATTCGCG -TCAGCTCTTCGAGATTAGAGTAGAGCACATCTTCCAGCTCCTTCTGGCTGCGCGACTGGCTGAGGGCGATTTCGGTTTGC -GTTATGAGATTCGTAATTGGTGTGCGAATTTCGTGAGCGATATCCGCTGAGAAATTGGACTGGCGGGTAAAGACATCCTC -AATACGCTCGATCATATGGTTGAACGACAGTACCAGCTGTTCCAGCTCAATGGGCACGGTCTGCGGGTCGAGGCGAACGT -CGAGATCTTTCGAGGTAATATTCTGGATTTGACGGCTGACGCTGCGGATCGGCGCGTGACCTTTATGTACCGCCAACAGT -ACGATAAAGACGATCAGGATGCTGATTACCGATGCGGTCATAATAAGTTTATTCATCAAATCATTTATGTAATGAAGATG -AAAATCGATCGAAAGCGCGATGTAGAGCGTATAAATCGGTTTGCCGTCCACCAACGGGCCAACCGGCAAGTTAATCATCC -GCCAGTTGCTGTGTTCCATATGCCCGTGACCGTGGCCTGGCATCATCATCGTCGGGCCGGAAAGGAGATACACCTCGCCA -CCCTGAGCGTCTTTATCGGGTATGGCGTCACGCGTAAACTCGCGGATATCCGGCGCACCGGGGGAGTGATACACCGTTTT -ACCCTGACTATCTGCCAGGGAAATCAACACATTGGAATAACCACTGACGATATCTTCCAGCGTCATTAAGCGTCGGGCTT -GCGTTTCGTCAGGGTGATTTAGTACCCGTTCAAGGGTGGCGCTAATCTCTTTTAAATCATTAATATCCTGCTCGGCAAAA -TGAACTTTTACTGAGTGGATCATGATCCATGCAAAGGCGAAAAACGCCGCGATGGTGGCCAGGCTGATAAAAAAGGTCAG -GCGGGTTGCCAGCGAAAACGGGCGCTGAAATGGCTTACTGACCATCCGGCACCTCAAGCATGTAACCCACGCCGCGCACG -GTCTGAATTAGCTTCGGCTCAAAGTCGTTGTCGATTTTGCCGCGCAGCCGCTTCACCGCCACATCAATAGCATTGGTATC -GCTGTCAAAATTCATGTCCCATACCTGCGAGGCGATAAGCGAGCGGGGCAGCACTTCGCCCTGATGGCGAAGGAAGAACT -CCAGCAGAGTAAACTCTTTACTGGTCAAAGTGATGCGCGTGCCGCTGCGGGTGACTTTGCGGCTGACGAGATCGACCATC -AAATCGGCAACCTGAAACTGACTTTCGATAATCACCGCCGCCCCGCGCCGCAGTAATGTGCGCACCCGCGCCAGCAGTTC -AGCAAAAGCGAATGGCTTCACCAGGTAGTCATCTGCCCCCAACTCCAGCCCCTTGACGCGATGTTCAATGGTGCCAAGCG -CGGTAAGCAACAGAATCGGCATCCCTTTATTGGCGGAGCGTAACATGCGCACGATATCCCAGCCGTTCACGTCCGGCAGC -ATAATATCGAGGATTATCAGATCATAATCACCGGTCATCGCCAGATGGTAGCCATTCAGCCCGTTGTCGGCCAAATCGAC -CACAAAACCGGCTTCGGTTAACCCTTTGGTCAAGTATTCTCCGGTTTTCTTTTCATCTTCGACAATCAACAGTTTCATAT -TTCCTCCGCATGTTGCCCGGGCAATTCTAGAGTAGCGGGATCAGATGGCAATCGCTTATTGGCAAAATGACAATTTTGTC -ATTTTTCTGTCACCGGAAAATCAGAGCCTGGCGAGTAAAGTTGGCGGCATAAAATCACCAGAAATTATGAGCCTATGTCT -CCTTGTAAACTTCTGCCATTTTGTGTGGCCCTTGCGCTAACCGGTTGTTCACTGGCACCGGATTATCAGCGTCCGGCAAT -GCCCGTGCCGCAGCAGTTCTCACTCAGCCAGAACGGCCTGGTTAACGCAGCAGATAACTATCAGAACGCGGGCTGGCGCA -CCTTTTTTGTTGATAATCAGGTGAAGACGCTGATTAGCGAGGCGCTGGTGAATAATCGGGATTTGCGCATGGCGACGCTG -AAAGTGCAGGAGGCACGGGCGCAATATCGTCTGACCGATGCCGACCGCTACCCACAGCTCAATGGCGAGGGCAGCGGCAG -CTGGAGCGGTAATCTTAAAGGGAATACCGCCACGACACGGGAGTTTTCGACCGGCCTTAACGCCAGCTTTGACCTCGATT -TTTTCGGTCGCTTAAAGAACATGAGCGAAGCCGAGCGACAAAATTATTTAGCCACTGAGGAAGCTCAGCGCGCGGTGCAT -ATTCTGCTGGTTTCTAATGTCGCGCAAAGCTATTTCAATCAGCAACTGGCGTATGCGCAATTGCAAATAGCCGAAGAAAC -GCTGCGTAATTATCAGCAGTCATATGCGTTTGTCGAAAAACAACTGTTGACAGGTAGCAGTAATGTTCTGGCGCTGGAAC -AGGCTCGCGGGGTGATAGAAAGTACCCGCAGCGACATCGCTAAACGTCAGGGGGAACTGGCGCAGGCGAATAATGCATTG -CAACTGTTGCTGGGAAGCTACGGCAAGCTGCCGCAAGCGCAGACAGTAAACAGCGACAGCCTGCAAAGCGTTAAATTACC -GGCGGGATTGTCGTCGCAAATCTTATTGCAGCGCCCGGATATTATGGAAGCTGAACACGCGTTAATGGCGGCTAATGCCA -ATATTGGCGCTGCACGCGCGGCATTTTTTCCGTCTATAAGCCTGACCAGCGGAATATCGACCGCCAGTAGCGATCTATCG -TCATTATTTAACGCCAGCAGCGGGATGTGGAATTTTATACCCAAAATTGAGATCCCCATTTTTAATGCCGGACGCAACCA -GGCCAATCTGGATATCGCCGAAATTCGCCAGCAGCAGTCGGTGGTGAATTATGAACAGAAAATCCAGAACGCCTTTAAAG -AAGTGGCAGATGCGCTGGCATTACGTCAAAGCCTGAACGATCAAATTAGCGCCCAGCAGCGTTATCTGGCATCGCTGCAA -ATTACTTTGCAACGGGCGCGGGCATTATATCAGCACGGCGCAGTAAGTTATCTGGAAGTGCTGGATGCCGAGCGTTCTTT -ATTTGCAACCCGACAAACTTTACTTGATCTGAATTATGCCCGTCAGGTTAACGAAATTTCTTTGTATACCGCACTTGGTG -GCGGTTGACAGCAATATACTCGTCATACTTCAAGTTGCATGTGCTGCGTCTGCGTTCGCTCACCCCAGTCACTTACTTAT -GTAAGCTCCTGGGGATTCACTCGCTTGTCGCCTTCCTGCAACTCGAATTATTTAGAGTATGACTTTTAACTCCAGGAGAG -AATAAATGAAAAAAGCACTGCAAGTCGCAATGTTCAGTCTGTTTACCGTTATTGGCTTTAATGCCCAGGCTAACGAACAT -CATCATGAAACCATGAGCGAAGCACAACCACAGGTTATTAGCGCCACTGGCGTGGTAAAGGGTATCGATCTGGAAAGCAA -AAAAATCACCATCCATCACGATCCGATTGCTGCCGTGAACTGGCCGGAGATGACCATGCGCTTTACCATCACCCCGCAGA -CGAAAATGAGTGAAATTAAAACCGGCGACAAAGTGGCGTTTAATTTTGTCCAGCAGGGCAACCTTTCTTTATTACAGGAT -ATTAAAGTCAGCCAGTAACCCAGGTTTAATGAGATGAAAAAAATCGCGCTTATTATCGGCAGCATGATCGCGGGCGGTAT -TATTTCTGCGGCAGGTTTTACCTGGGTTGCAAAGGCGGAACCGCCTGCAGAAAAAACGTCGACCGCAGAACGTAAAATCT -TATTCTGGTACGACCCAATGTATCCCAATACGCGGTTCGATAAACCAGGTAAATCGCCGTTTATGGATATGGATCTGGTG -CCGAAATATGCCGATGAAGAGAGTTCTGCGTCTGGTGTGCGCATTGACCCGACTCAGACGCAGAATCTGGGGGTGAAAAC -GGCTACCGTCACGCGCGGACCGCTGACTTTTGCCCAGAGTTTCCCGGCGAATGTCAGTTACAACGAGTATCAGTATGCCA -TTGTGCAGGCTCGCGCTGCCGGGTTTATCGACAAGGTGTATCCGCTTACCGTGGGCGATAAAGTACAAAAGGGCACACCG -CTTCTCGACCTGACCATTCCTGACTGGGTGGAAGCGCAGAGTGAGTATTTACTGCTGCGCGAAACCGGCGGTACGGCGAC -CCAGACTGAAGGCATTCTTGAGCGGCTGCGACTGGCGGGAATGCCGGAGGCGGATATTCGCCGCCTGATCGCCACGCAAA -AAATCCAGACTCGCTTTACGCTCAAAGCGCCCATTGATGGCGTGATCACCGCGTTTGATCTGCGCGCGGGAATGAATATC -GCCAAAGATAACGTGGTAGCGAAAATTCAGGGTATGGACCCGGTGTGGGTCACTGCTGCGATCCCGGAGTCTATCGCCTG -GCTGGTGAAAGATGCCTCGCAGTTTACCCTCACCGTTCCGGCGCGACCGGATAAAACACTCACCATCCGCAAATGGACGC -TGCTACCTGGCGTGGATGCCGCGACCCGCACGCTGCAGCTGCGTCTGGAAGTCGACAACGCCGACGAGGCGCTAAAACCG -GGCATGAACGCCTGGTTGCAACTCAACACCGCCAGCGAACCGATGCTGCTCATTCCGTCACAAGCGCTGATTGATACCGG -CAGCGAACAGCGGGTGATTACCGTTGATGCCGACGGGCGCTTTGTACCGAAACGCGTTGCTGTTTTCCAGGCATCGCAAG -GCGTCACCGCATTACGCTCTGGTCTGGCGGAAGGTGAAAAGGTGGTTTCCAGCGGCCTGTTCCTGATTGATTCCGAAGCC -AATATTTCTGGCGCACTGGAGCGGATGCGCTCTGAAAGTGCTACCCATGCGCATTGAGGGAATAACCAATGATTGAATGG -ATTATTCGTCGCTCGGTGGCGAACCGTTTTTTGGTGCTGATGGGCGCGTTGTTTCTGAGCATCTGGGGCACCTGGACCAT -CATTAATACGCCAGTGGATGCGCTGCCGGATCTCTCCGATGTGCAGGTTATTATTAAAACCAGCTATCCCGGTCAGGCAC -CACAAATCGTTGAAAATCAGGTGACTTATCCGCTAACCACCACCATGTTGTCGGTGCCTGGCGCGAAGACTGTGCGCGGT -TTCTCACAGTTTGGCGACTCTTATGTGTATGTCATTTTCGAAGATGGCACCGATCCGTACTGGGCGCGTTCGCGGGTGCT -GGAGTACCTCAACCAGGTACAGGGTAAGCTGCCTGCGGGAGTCAGCGCCGAGCTGGGGCCAGATGCCACGGGTGTTGGCT -GGATCTATGAATATGCACTGGTGGATCGCAGCGGTAAGCACGATCTGGCCGATTTACGCTCATTACAGGACTGGTTTCTC -AAATATGAGCTGAAAACCATCCCTGACGTTGCGGAAGTGGCGTCGGTGGGCGGTGTGGTGAAAGAGTATCAGGTGGTTAT -CGATCCCCAGCGCCTGGCGCAGTATGGCATCAGTCTCGCCGAAGTAAAAAGCGCGCTGGATGCTTCAAACCAGGAAGCGG -GCGGTTCGTCGATCGAACTGGCGGAAGCGGAATATATGGTGCGCGCCAGCGGCTATCTGCAAACGCTCGACGACTTTAAT -CACATCGTTTTAAAAGCCAGTGAAAATGGCGTGCCCGTTTATCTGCGCGATGTTGCGAAGGTCCAGATTGGCCCGGAGAT -GCGCCGGGGCATTGCCGAACTAAACGGCGAAGGCGAAGTGGCGGGCGGGGTGGTGATCCTGCGATCCGGCAAAAACGCCC -GAGAAGTGATCGCCGCCGTGAAGGACAAACTGGAAACGCTGAAAAGTAGTCTGCCGGAAGGCGTGGAGATAGTTACAACA -TACGATCGCAGCCAGCTCATTGACCGCGCCATCGACAACCTCAGCGGCAAGTTGCTGGAAGAGTTTATTGTGGTGGCGGT -AGTCTGTGCGCTGTTTCTCTGGCATGTGCGCTCGGCGCTGGTGGCGATTATTTCGTTGCCGCTGGGGTTGTGTATTGCTT -TTATTGTCATGCACTTCCAGGGACTGAATGCCAATATTATGTCGTTGGGTGGCATTGCGATTGCCGTCGGGGCGATGGTC -GATGCTGCTATCGTCATGATCGAGAATGCGCATAAACGGCTGGAAGAGTGGCAGCACCAGCATCCTGACGCCACGCTGGA -TAATAAAACGCGCTGGCAGGTGATCACCGATGCGTCTGTTGAAGTGGGGCCGGCGCTATTTATCAGTCTGCTGATTATCA -CGTTGTCGTTTATCCCGATCTTCACCCTGGAAGGGCAGGAAGGGCGTCTGTTTGGCCCGTTGGCGTTCACCAAAACGTAT -GCGATGGCGGGTGCGGCGCTGCTGGCGATCGTAGTGATCCCGATCCTGATGGGCTACTGGATCCGTGGCAAAATTCCGCC -GGAAAGCAGTAACCCGCTCAATCGCTTTTTGATTCGTGTTTATCATCCGCTGTTGCTGAAAGTACTGCACTGGCCGAAAA -CCACGCTGCTGGTGGCGGCGCTTTCGGTGCTGACGGTTCTCTGGCCGCTCAATAAAGTTGGCGGGGAATTTTTACCGCAG -ATCAATGAAGGCGACTTGTTGTATATGCCATCGACGCTGCCGGGGATTTCCGCAGCAGAGGCGGCGAGTATGCTGCAAAA -AACCGACAAGCTAATTATGAGCGTACCTGAAGTGGCGCGGGTATTTGGCAAAACCGGGAAAGCGGAAACCGCCACCGATT -CTGCTCCGCTGGAGATGGTAGAAACGACCATCCAGCTTAAGCCGCAGGAGCAGTGGCGGCCAGGCATGACGATGGACAAA -ATCATTGAGGAACTGGATAACACCGTGCGGCTGCCGGGGCTGGCGAATCTGTGGGTGCCGCCAATTCGTAACCGTATCGA -TATGCTCTCAACCGGCATTAAAAGCCCCATCGGCATTAAAGTTTCCGGCACTGTGCTGGCGGATATCGACGCGATGGCTG -AGCAAATTGAAGAAGTAGCGCGAACGGTGCCAGGCGTAGCTTCTGCGCTTGCCGAGCGGCTGGAAGGTGGGCGCTATATC -AACGTTGAGATTAACCGTGAAAAAGCCGCACGTTACGGTATGACGGTGGCGGATGTGCAGTTGTTTGTGACTTCTGCGGT -GGGCGGGGCGATGGTTGGCGAAACGGTGGAAGGGATTGCCCGTTATCCAATTAATCTGCGTTATCCGCAAAGCTGGCGCG -ATAGTCCGCAGGCACTGCGCCAGCTGCCGATCCTGACGCCGATGAAGCAGCAAATCACCCTGGCAGACGTGGCCGACATT -AAAGTCTCTACCGGACCGTCGATGCTGAAAACCGAGAATGCGCGCCCGACGAGCTGGATTTATATCGATGCCCGCGATCG -TGACATGGTGTCGGTGGTTCACGATTTGCAAAAAGCGATAGCTGAAAAAGTGCAGTTAAAACCGGGCACCAGCGTGGCAT -TCTCCGGGCAGTTCGAGCTACTGGAGCGCGCCAACCATAAGCTTAAACTCATGGTGCCGATGACGTTGATGATTATCTTC -GTGCTGTTGTATCTGGCGTTCCGTCGGGTGGGCGAAGCGTTGCTGATTATCAGCAGCGTACCGTTTGCGCTGGTGGGCGG -CATCTGGTTGCTGTGGTGGATGGGCTTTCATCTTTCCGTGGCGACGGGCACTGGCTTTATCGCCCTCGCCGGGGTCGCCG -CCGAATTTGGCGTGGTGATGCTGATGTATTTACGTCACGCCATAGAGGCCGTGCCGTCGTTGAATAATCCACAAACATTC -AGCGAGCAGAAGCTGGATGAGGCGTTATATCACGGCGCGGTCCTGCGCGTGCGCCCGAAAGCGATGACGGTGGCGGTGAT -TATCGCCGGTCTGCTGCCGATTCTGTGGGGAACGGGGGCTGGTTCAGAGGTGATGAGCCGGATTGCCGCGCCGATGATTG -GCGGCATGATCACCGCACCTTTGCTGTCGCTGTTTATTATCCCGGCGGCGTATAAGCTGATGTGGCTGCACCGACATCGG -GTACGGAAATAAAAGCAGGATACCCCGTTTAACCGTGTGGATTGTGTCTTGCGACGATGGGCACTAAATGTTAAAAGGTG -CCCCTCAACAAAAAAGACACACAGGGGAAAGGCGTGAAAAACGCGTCAACCGTATCGGAAGATACTGCGTCGAATCAAGA -GCCGACGCTTCATCGCGGATTACATAACCGTCATATTCAACTGATTGCGTTGGGTGGCGCAATTGGTACTGGTCTGTTTC -TTGGCATTGGCCCGGCGATTCAGATGGCGGGTCCGGCTGTATTGCTGGGCTACGGCGTCGCCGGGATCATCGCTTTCCTG -ATTATGCGCCAGCTTGGCGAAATGGTGGTTGAGGAGCCGGTATCCGGTTCATTTGCCCACTTTGCCTATAAATACTGGGG -ACCGTTTGCGGGCTTCCTCTCTGGCTGGAACTACTGGGTAATGTTCGTGCTGGTGGGAATGGCAGAGCTGACCGCTGCGG -GCATCTATATGCAGTACTGGTTCCCGGATGTTCCAACGTGGATTTGGGCTGCCGCCTTCTTTATTATCATCAACGCCGTT -AACCTGGTGAACGTGCGCTTATATGGCGAAACCGAGTTCTGGTTTGCGTTGATTAAAGTGCTGGCAATCATCGGTATGAT -CGGCTTTGGCCTGTGGCTGCTGTTTTCTGGTCACGGCGGCGAGAAAGCCAGTATCGACAACCTCTGGCGCTACGGTGGTT -TCTTCGCCACCGGCTGGAATGGGCTGATTTTGTCGCTGGCGGTAATTATGTTCTCCTTCGGCGGTCTGGAGCTGATTGGG -ATTACTGCCGCTGAAGCGCGCGATCCGGAAAAAAGCATTCCAAAAGCGGTAAATCAGGTGGTGTATCGCATCCTGCTGTT -TTACATCGGTTCACTGGTGGTTTTACTGGCGCTCTATCCGTGGGTGGAAGTGAAATCCAACAGTAGCCCGTTTGTGATGA -TTTTCCATAATCTCGACAGCAACGTGGTAGCTTCTGCGCTGAACTTCGTCATTCTGGTAGCATCGCTGTCAGTGTATAAC -AGCGGGGTTTACTCTAACAGCCGCATGCTGTTTGGCCTTTCTGTGCAGGGTAATGCGCCGAAGTTTTTGACTCGCGTCAG -CCGTCGCGGTGTGCCGATTAACTCGCTGATGCTTTCCGGAGCGATCACTTCGCTGGTGGTGTTAATCAACTATCTGCTGC -CGCAAAAAGCGTTTGGTCTGCTGATGGCGCTGGTGGTAGCAACGCTGCTGTTGAACTGGATTATGATCTGTCTGGCGCAT -CTGCGTTTTCGTGCAGCGATGCGACGTCAGGGGCGTGAAACACAGTTTAAGGCGCTGCTCTATCCGTTCGGCAACTATCT -CTGCATTGCCTTCCTCGGCATGATTTTGCTGCTGATGTGCACGATGGATGATATGCGCTTGTCAGCGATCCTGCTGCCGG -TGTGGATTGTATTCCTGTTTATGGCATTTAAAACGCTGCGTCGGAAATAAGGCATTCACGCTACATCCGACAAAACGATG -TCAACCATCCGAAACCGCTCTCATCCATTCGATGAGAGCGGTTTTTTTAATTACTGCTTAAATGCACCCGCCAGAGAGCG -AATATCATTGCCGGTTGGCGACTGATGAAGTCGCAGACCAAACTCTTCGACAATCGCAAATATGTGATCGAATATATCAG -CCTGAATGCTTTCATATTCCAGCCACACCACGGTGTTAGTAAACGCGTAGATCTCGAGCGGTAAACCGTTATCACCTGGA -GCCAGTTGGCGTACCATTAAGGTCATATCTTTACGAATCCGCGGATGGTTACGCAGATATTCGTTCAGATAGGCACGAAA -GGTTCCAATATTGGTCATTCGGCGCAGATTTAATACCGACTCCGTAGAACCTTGCTGGCGATTCCACTCATTAATTTCCT -GATGGCGGCTGGTTAAATAAGGCTTTAACAAATGCGCTTTATTCAGACGTTGCATTTCGTCTTCATCAAGAAAACGAATA -CTGGTGACATCAATACTGATACTGCGCTTAATACGTCGCCCGCCAGATGCTGACATCCCGCTCCAGTTTTTAAAGGAGTC -AGAAACCAGAGACCAGGTGGGAATAGTGGTAATGGTATTGTCCCAGTTACGCACTTTGACGGTGGTTAACCCAATATCGA -TCACCGCGCCATCCGCGCCGTATTTCGGCATCTCCAGCCAGTCGCCCAGTTTCAGCATATCGTTCGCGGAAAGCTGAATA -CCTGCCACCAGACCAAGAATCGGATCTTTAAATACCAACATCAGCACGGCAGCCATTGCACCAAGACCGCTGATCAGAAT -CGCTGGCGACTGACCAATCAGCAGCGAGATCATCAAAATGCCGACCAGAATCGCGCCGATCAGTTTAATCCCCTGAAATA -TCCCTTTCAGCGGTAACTGAGATGCTGCCGGGAATTTCTGCGCCAGATTCAAAATAACATCCAGCAACGAGAAGACTGAA -AGCAGCGCATACATCATGATCCACAACTGCGCGCAGGTAGTCAGAATATCTGCCGCTTCGGTGCCTTTTTGCAGCCAGAA -TACCGCCTGAATATTGACGATAATCCCCTGCAGGGTAAAAGCTAAACGGTGGAAGAGTTTATTCTGGGTAATGATTTGCA -ACCAAAGCCGTGAACTGGCGATGGCACGTTTTTCGAAGGTCCGCAGTACCACCCAATGCAAAATAATATGCACCACGACG -GCGGTCAGAAAAATAATACCGAAAATCATCACCATCGAGGTGGTGTGATCGATCTCAATACCCGCTAAATCTTCAACCTG -GGATATTAAATCCTGCATAACGTCTCCTTTATACAACAGCAGCCTATGATGACGGCTGAAACAGGGTTATGCAAATCAGG -AGAATCTGAGAGGAAATAGCCGGGCAGATGCCCGGCAAGAGAGAATTACACTTCGGTTAAGGTGATGTTTTGCGGCAGAC -GAGATTTCGGCAGCGTAGCGTTAAAATCTTCAACGCTGTGATGACCTACCGGAACAACCACCAGACTGGTGTAGCCTTTC -TCTTTCAGACCAAATTCTGCATCGAGGATGGCGGCGTCAAAACCTTCGATGGGTACCGCGTCCAGACCCAGAGCCGCCAC -GCCGAGCAGGAAGTTACCGACGTTGAGATAAACCTGTTTTGCCATCCACTCTGCATCATCATGCAGATCTTTACGGTGCA -TATCAGCGAAGAACTTGCGACCTTTATCGTTCGCGGCTTTCGCTTCCGGCGTGGCAAAGCGGCCATCGGCATCTTCCTGG -TCAACAACCAGCTTCAGCCAGACATCGTCCATCGCGGTTTTTGCACAGAACACCACGACGTGCGAGGCATCAAGCATTTT -ACGCTCGTTGAACACGTAATTACCGGCAGCGGATTTGGCAACACGCGCTTTACCTTCTTCCGTGCTGGCAACAATAAAAT -GCCACGGCTGGGAGTTGGTGCTGGATGGGCTGTATTGCAGTAGCGTTTTGATCTGCTCGGCCTGTTCCGGGGTAAGTTTT -TTGCTGGCATCAAATGCCTTAGTGGAATGACGCTTTAAGGCGACAGAAATGATATCCATAAAGACTCCATGTGAAAGTAA -TTTTGCGTGCCAGCAGATTACAAGGTTCAACGAGAAATGGTAAGCGAGAAAAATGCGCTATAGATTTCCGCTTTAGCCTG -GACGCACTCTTTTTTGATCGCGTTTAGCCAGACCATCAACCACCAGATTCCACGAATCGTTGATCAGATCGCGAAGTAAC -GCTTCGGAGATTTCTTCGCCGGGATACACTGAAATCCAGTGCTTTTTATTCATGTGATACCCTGGCTTAATGCTTGGGTA -TATTTGCTGATTTAACAGGGATTTTTGTGGATCGGACTTCAGATTGATAAAGGGGACGCCGCGTAGCTCCGACGACAGCA -TAAAAATCTTGCCGCCAATTTTAAAAACATCGAACTCCGGGCCAAAAGGCCAGCAAAGCTCGACAAAGGGTAACTCAAGG -GCCAGGCGTTTCGCCGTTTCGTGCAGTGATTGCTTATCCATAAACGTTCCTTTAGGCGAAGGAGAATAAGCAAAGTATGC -CGCGAAGTACGGCGATAATCGACGTTTAATCCGCCAGCGAGAACCAGCGTCGCCAGATAAAGCGCAGAACAAAATACTCA -ATAGCGCCCAGCACTAAAAACCACAGACAAAACAATAAAGTGTAAAGCTGACTAAGATCCATCAGATGGAACATGGTCAC -CAGTTTTTGTGCCAGCGCCAGCCCCAGTGCGGGGGCGGGCAGCAGCAGGCAAGAGAGGAAAGCCATCAGCAAAATGCCTG -CTGCGGTGGTCAAGGTTTCTAAAGGGTGTTTCATAACATTGTTAAATGTAAGTTAAAACACCATTGTCAGGGATATTCTT -CTGTAAGGCAATTCCCGGCTTAGTCACCGGCCCAGATCTCACAATGCTTTTTCACCAGCCCAATCAGCGAGCCGCCATCG -GCGACGAAATCGCGCATTAGCTGCGCTTCATTCAGACCGCTGACGACCTGGCGATGCAGGGCCTCAATCGCGCTCGATGC -ACCAATTTTATGTGCGGAAGGGGCGATTTTTTCCAGCAATCGCAAGGTATCTTCCGTTAGCGGTCGACGATCTCCAGTGT -GCGGATCGGTGATGACGCCTTCAAGCCCATAGCGACAGGCCTGGAAACGGTTGAATTTATACAGCAGGTAATCTTTTTCC -TGATGTTTAAACGGGCGTTCCGTCAGTAACCAGTGGGCGGTAGCCTGAATTAATCCCGCCATATTTACTGCGTGGCTAAG -GGTTAACGGGGTATCCATCACCCGAACCTCCACCGTGCCAAAATGAGGACTGGGGCGAATATCCCAGTGCAGATCTTTAA -TGCTGTCGATCATCGTGGTGTAACTCAGACAGCGAAACAGGGCTTCAAATTGTTGCCAGTTACTGACCCACGGCATCGGG -CCATTATCAGGAAAGGCGGAAAAAATATTCGGTCGTGAGGAGGCAAAACGCGTATCCGTTCCCTGCATATATGGCGACGC -GGCGGAAAGGGCGATAAAGTGCGGCACAAATCGTGACAAGCCGTGCAGCAAATAAATGGCGTCATCGCCACTGGCGCAGC -CAACATGGACATGCTGACCAAAAACGGTCGCCTGCTGAATGAGATAACCAAAGTTTTCCAGCGTGCGTTGATAGCGTTCG -TTATCGCATACCTCCTGACGCTGCCATTTCTGAAACGGGTGCGTGCCACCGCCGCAAATTTCCAGATGATGGTCTGTGGC -TGCCTGCAATACGACTTTCTGCATCGCTGAAAACTGCCCGGCAGCCTGGTTGATATCACGGCAAACATCCGTCGCCAGCT -CCAGCATACTTTCGGTGATATCGTGCTTTACCTCTCCGGCCGTGATCTTATTTTTAACCGCGTCAATCAGCATTGAAGAG -TCCTGGCTTAAGTCATAGCCCGGCGGATTAACCACCTGCATTTCCAGTTCAATACCGAGGGTAAAAGGTTCAGAAACATG -AAAATCGGGTAATGGCATAGGTTTCTCTTATGTTGGCGTTTTCTATTCAGTATAGAAGTCGGAGCGGCTGGGCGAGATGC -GGAAGTTCTGGAATGTTTCTTTTTTTTGGTGATGGTGAACTGATGGTGCCTGAAGCAATTTGGCTACTTTTGCAATGTGA -CAAGTTATGGCAGTGCTGACTGGTGGCGAAGAATTTTGACGATTGAGTCATGCAGAAAAAAACGGGTTCAGCTTCAGTTG -ATTAAATGAGGAGTGAGAAGTCCGAAACAGGACTCACTGTATAAATAAACAGCTATTTTGTTGAGGAAGGGTAAGATAAC -GGCGGGTGCCTGAAGCTTTCCGGTTTCAGGTTTACTCTGAGGTCTGGAAAGATGAAGCCCCAGGAGATATTTCTATCAAC -CCTGGGGCTGCCACTCCAAACCCGAACAATTTGGATGGTAGTCCCTTCTTCGCATGGAGGCAATATAAACATGCTGACGA -AATATGCCCTTGCGGCAGTCATAGTGCTGTGTTTAACGGTGCTGGGATTTACGCTTCTGGTCGGAGACTCGCTGTGTGAG -TTTACGGTGAAGGAACGTAATATTGAGTTTAAGGCTGTTCTCGCTTACGAACCGAAGAAGTAGCCGTTGTGCGGGGAGTA -ATCCCATAAGCGCTAACTTAAGGGTTGTGGTATTACGCCTGATATGATTTAACGTGCCGATGAATTACTCTCACGATAAC -TGGTCAGCAATTCTGGCCCATATTGGTAAGCCCGAAGAACTGGATACTTCGGCACGTAATGCCGGGGCTCTAACCCGCCG -CCGCGAAATTCGTGATGCTGCAACTCTGCTACGTCTGGGGCTGGCTTACGGCCCCGGGGGGATGTCATTACGTGAAGTCA -CTGCATGGGCTCAGCTCCATGACGTTGCAACATTATCTGACGTGGCTCTCCTGAAGCGGCTGCGGAATGCCGCCGACTGG -TTTGGCATACTTGCCGCACAAACACTTGCTGTACGCGCCGCAGTTACGGGTTGTACAAGCGGAAAGAGATTGCGTCTTGT -CGATGGAACAGCAATCAGTGCGCCCGGGGGCGGCAGCGCTGAATGGCGACTACATATGGGATATGATCCTCATACCTGTC -AGTTCACTGATTTTGAGCTAACCGACAGCAGAGACGCTGAACGGCTGGACCGATTTGCGCAAACGGCAGACGAGATACGC -ATTGCTGACCGGGGATTCGGTTCGCGTCCCGAATGTATCCGCTCACTTGCTTTTGGAGAAGCTGATTATATCGTCCGGGT -TCACTGGCGAGGATTGCGCTGGTTAACTGCAGAAGGAATGCGCTTTGACATGATGGGTTTTCTGCGCGGGCTGGATTGCG -GTAAGAACGGTGAAACCACTGTAATGATAGGCAATTCAGGTAATAAAAAAGCCGGAGCTCCCTTTCCGGCACGTCTCATT -GCCGTATCACTTCCTCCCGAAAAAGCATTAATCAGTAAAACCCGACTGCTCAGCGAGAATCGTCGAAAAGGACGAGTAGT -TCAGGCGGAAACGCTGGAAGCAGCGGGCCATGTGCTATTGCTAACATCATTACCGGAAGATGAATATTCAGCAGAGCAAG -TGGCTGATTGTTACCGTCTGCGATGGCAAATTGAACTGGCTTTTAAGCGGCTCAAAAGTTTGCTGCACCTGGATGCTTTG -CGTGCAAAGGAACCTGAACTCGCGAAAGCGTGGATATTTGCTAATCTACTCGCCGCATTTTTAATTGACGACATAATCCA -GCCATCGCTGGATTTCCCCCCCAGAAGTGCCGGATCCGAAAAGAAGAACTAACTCGTTGTGGAGAATAACAAAAATGGTC -ATCTGGAGCTTACAGGTGGCCATTCGTGGGACAGTATCCCTGACAGCCTACAAAACGCAATTGAAGAACGCGAGGCATCG -TCTTAACGAGGCACCGAGGCGTCGCATTCTTCAGATGGTTCAACCCTTAAGTTAGCGCTTATGGGAGTAATCCCCGCATA -TCCGGTTGTCAGGTCAGGATGGTAAGGCACCTGCTTTACACTTTCGCCCGTGGTCAGTGATGGCTGCGGGCGAATCGTAC -CAGATGTTGTCAATTAATCGTGTTGGCACAGCGTTATGACTATCTTTTCTTTTATCTGCCAGTGCACAGCAAACATCTCA -TTCTCACGATGAATGATGACCTGCTGTTTATTCCAGCTAATTATCTGATAGTCCAGAAAACCTGCATCAGTTTGGATCTC -ACTTGCCTTAAATGCGCTCTCTTTGGCGGAAAATGCCAGTGTCAGCGCCAGAGAAAAGGCTAAACCGCAGTCTGCGAGTC -GCTCGTGTTCCGCTGGTGTAATAATGTTGTCTGTCAATTCTCTTGCGGTTTGTACAGAAAAAATTTCTTCTATATCAATG -CCAATCGGTTGACGAGATACCACGGCTAATGCCGTAGTCCCACAGTGGCTAATACTGCCGTATACCTCCGCAGGCCAGAC -AGGTTGGCGTAGCTCGCCGATTGCGGGCACACATTTATAGCCATATTCCCGCAAAGCATAAACAGCAGCGATCCGTCCGG -CTAAATGCTCTGTTTTACGTTTACGTCCAGCGTGTTGCAGTTGTGCGTAGTGCGGCAGCCAGAGTAAATCCTGCTCACAA -AAATTCGCCGGATCGAACTCAACAAAATGCAGCGTATGTCCGGCAAAGGGGAGGGAGGTATGCGTAGTTTTCATATCGAC -CATATTCGAGACTGATGACAAACGCAAAACTGCCTGATGCGCTACGCTTATCAGGCCTACATGGTCCTGCAATATATTGA -ATTGGCAAGATTTTTGTAGGCCGGATAAGGCGTTCACGCCGCATCCGGCATGAACGACGCGCACTTTGTCAACAATCTGA -CGTTAGCATCAGAAGTGGGTGTTTACGCTCATATACCACGTACGTCCCGGCTCGTTATAGGTATACGCCCCGGCACCGGC -GATATAGTTGGCCCCTGCCAAATCGCCCGTGGTCTGGGCATTACCCGCACGCCACAAACGTTTGTCGAACAGATTGTCCA -CGCCGCCGGTCAGACTGACATTCTTCGTCACATCCCAGGTCGCGCTCAGGCCAACAATGCTGTAAGGACTAATTTCTTTG -GTTTCCGGTCCAACCGCTGGCTGACCTTTATAGTTGTACTTCTTCGGCTGCTGCTTGCCGTACCAGGTGAAGGTCGTTTG -CATCGACAAATCTTCCCGTGCCTGCCAGCTCAGCGTTGAGTTCAACGTATACTCCGGGATGATCGACAAACGGTCGCCCG -TGGTTTTGTTTTCACTCTTCAGCATATAAGTGATGTTATTGGTCCACATCACCGTTTCGCTAACCGGTACGTTTAACGAT -CCTTCCAGACCTTCAACCACCGCTTTCGGCACGTTATCCCACTGATAGAGATCGGTGCCGACTGCGTTTTGCCCTACAGC -CACATAGCCCGCTTCAATCTTATTGCGATAATCGTTACGGAACCAGGTGACGCCCGCCAGCCACCCGTCGCGTTTGAACT -CCAGACCAATCTCTTTGTTGATGCTGGTTTCTGCTTTCAGGTCATCGTTACCTTGCAGATAGCAGCCGCCCGCGCTGGCA -TAGCAACCCTGACCTTTACTGTAGAGAATGTAGTTCGGGTTAGTCTGGTACAGGCTCGGCGCTTTATAAGCACGGGCGAT -GCCCATTTTCAGCGTGAAGTCATCGCCTAAACCTTGCGATATGTTCAGCGCCGGGCTCCAGTTATTGCCGACAATACTGT -GATGATCGAAACGCAGCCCCGGCGTTACGATGGTGCTGTCAGTCAGCTCCATGTTGTTTTCGGCAAACAGCGAGAAAATT -TCTGCTTTTGAATACGGGCTACGGTCGGTGGTACTCACGCCATCAATAGCGCCACCGGTATTCGTTCCGGTCAGTGCCTG -GGTGTTGGAACTTAAGTCCTTCATCCGTTGCTGATTCCACTCCGTACCCAGCGTCAGCGTCTGGTTAACGAGGAAATCAA -TCGGCAGGTTAACTTCGCTGTGCAGCATCACGTCATCAAGATCGATATCGACGAAATCCTGTGTCGCTTTTTCGTTAAAT -TTCCCTTCGGTACCGCCCGCCAGACCTTCCGGAATACGCGAGTTACGGGTGTGTTCGTACTGCACCCAGTTGCTGGTGGT -CACGCCGTTATCCCAGCCACCGTTCCAGGTCAGCGCGTAGTTCTGGCGATACAGACGGTTGGTTTCATCGCCATATTTCG -AGCGGGTATAGGAATCGGAGTTGGTATTCTGGGTGTCGCCCGCATACAGGTTACCCTGGCGGCTGTAACCTGCTTCCAGT -TCCAGCGATTGCAATGGCGCGAAATCCCAGCGCACCACGCCATTAATATCTTTGTTGATTACCCCTTCGCGCCCGGCTGG -TAACGTCGTGGCATACGTTCCGGCACGCGCGGACTGATGGCCCTGGTTGATATCCCACGCGTCAGCCTGGGTTTTGTCGA -GGTTGCCATACAAACGGAAGCTGAATTCGTCGCCCAGCGGACCGGTCAGGCTAAAGTTAGTGCGTTTGGTGGCACCTTCC -TCTTTATGTTCTGGCGCATTGAAATATGCGTCCCAGGAGCCGTGCCACTCGCCGCTGCCTTTTTTGGTAATGATGTTAAC -CACGCCGCCCGCCGCGCCGTTGCCATAACGCGCAGCTGCCGGACCACGCAGAACTTCAATACGTTCAATCATTTCAGGTG -GCACCCAGGAAGTATCACCACGGGTATCGCGCTCGCCACGCCAGCCCTGACGCACCGAGTTACGGCTGCTTACCGGCTTG -CCGTCAATCAAAATCAGCGTGTTTTCCGGACCCATACCGCGAATATCAATCTGTCGGTTATTCCCACGCTGACCACTGGT -GGAGTTACCGGTCAGGTTAACGCCTGGCATGGTACGGATGATCTTCGACACATCGCGGGCAACCGGGTTTTTGCGGATTT -CATCTGCGGTGATGGTCGAAACGCCAGGCGCCTGTAAGTTCTGCTCGGCGGCGGTAACGACAATAGTATCGTCATGTGAA -ACAGGAGTATCGGTCGGCTCTTGTGCCTGCGCTACCCCATAAATCCCCAGATTGACCAACAAGGCCAGGGAATGAATCTT -CTTGTTCATTGTTTTATTCCTGCATTTTTGCCACGAATTGCAACTGTCGGGCATGGTCGTCATCAACACGACGCATCCCG -CTACCGCGAAAACCTTTGATCCTGAAAGACACGCAGTGCAGTTGGTTAATTAATGTCCGCGCTTCCCACGGCGCGCCATT -ACGCTATTGCAAATGCAAATAGTTATCAATAATATTATCAATATATTTCTGCAATCAATGAAAAATTGCACAGTAAACAT -GGGGTTATGGTGTGACGGCGTTAAAAGTAGGAAGTGAGAGCTGGTGGCAGTCGAAACATGGCCCGGAATGGCAGCGTCTG -AATGACGAAATGTTTGAGGTCACTTTCTGGTGGCGTGATCCCCAAGGTTCTGAAGAATACTCGACGATAAAGCGCGTATG -GGTCTACATCACTGGTGTGACCGATCACCATCAGAACAGCCAGCCCCAGTCGATGCAGCGAATTGCAGGCACTAACGTCT -GGCAGTGGACGACACAACTCAATGCCAACTGGCGCGGCAGCTACTGCTTTATTCCCACCGAACGCGATGACATTTTTTCT -GTACCATCCCCCGATCGCCTCGAATTGCGCGAAGGCTGGCGAAAACTATTACCCCAGGCGATAGCCGATCCGCTGAACCT -ACAAAGCTGGAAAGGCGGGCGAGGGCACGCTGTTTCTGCACTCGAAATGCCGCAAGCGCCTCTGCAACCGGGATGGGATT -GTCCGCAAGCGCCAGAAATACCTGCCAAAGAAATTATCTGGAAAAGTGAACGGTTGAAAAAGTCACGGCGTGTATGGATT -TTTACCACCGGCGATGCAACAGCAGAAGAACGCCCGCTGGCAGTTTTGCTCGATGGCGAATTTTGGGCGCAAAGTATGCC -CGTCTGGCCAGTGCTGACTTCGCTGACCCATCGTCAGCAACTTCCTCCCGCCGTGTATGTGTTGATCGACGCTATCGACA -CCACGCACCGCGCCCACGAACTGCCGTGTAATGCGGATTTCTGGCTCGCAGTACAGCAAGAGTTATTACCCCTGGTGAAA -GCTATTGCCCCTTTTAGCGATCGTGCCGATCGCACCGTGGTTGCCGGGCAGAGTTTTGGTGGGCTTTCCGCGCTGTATGC -CGGACTGCACTGGCCTGAACGCTTTGGCTGTGTATTAAGCCAGTCAGGATCGTACTGGTGGCCGCATCGGGGCGGGCAGC -AAGAGGGCGTGTTACTTGAAAAGCTAAAAGCTGGTGAAGTTAGCGCCGAAGGTCTGCGCATTGTGCTGGAAGCGGGTATT -CGCGAGCCGATGATCATGCGGGCCAATCAGGCGCTGTATGCGCAATTACACCCCATAAAAGAATCCATTTTCTGGCGTCA -GGTTGACGGCGGACATGATGCGCTTTGTTGGCGCGGTGGCTTGATGCAGGGGCTAATCGACCTCTGGCAACCACTTTTCC -ATGACAGGAGTTGAATATGGCATTCAGTAATCCCTTCGATGATCCGCAGGGAGCGTTTTACATATTGCGCAATGCGCAGG -GGCAATTCAGTCTGTGGCCGCAACAATGCGTCTTACCGGCAGGCTGGGACATTGTGTGTCAGCCGCAGTCACAGGCGTCC -TGCCAGCAGTGGCTGGAAGCCCACTGGCGTACTCTGACACCGACGAATTTTACCCAGTTGCAGGAGGCACAATGAGCCAG -CATTTACCTTTGGTCGCCGCACAGCCCGGCATCTGGATGGCAGAAAAACTGTCAGAATTACCCTCCGCCTGGAGCGTGGC -GCATTACGTTGAGTTAACCGGAGAGGTTGATTCGCCATTACTGGCCCGCGCGGTGGTTGCCGGACTAGCGCAAGCAGATA -CGCTGCGGATGCGTTTTACGGAAGATAACGGCGAAGTCTGGCAGTGGGTCGATGATGCGCTGACGTTCGAACTGCCAGAA -ATTATCGACCTACGAACCAACATTGATCCGCACGGTACTGCGCAGGCATTAATGCAGGCGGATTTGCAACAAGATCTGCG -CGTCGATAGCGGTAAACCACTGGTCTTTCATCAGCTGATACAGGTGGCGGATAACCGCTGGTACTGGTATCAGCGTTATC -ACCATTTGCTGGTCGATGGCTTTAGTTTCCCGGCCATTACCCGCCAGATCGCCAATATTTACTGCACATGGCTGCGTGGC -GAACCAACGCCTGCTTCGCCATTTACGCCTTTCGCTGATGTAGTGGAAGAGTACCAGCAATACCGCGAAAGCGAAGCCTG -GCAGCGTGATGCGGCATTCTGGGCAGAACAGCGTCGTCAACTGCCGCCGCCCGCGTCACTTTCTCCGGCACCTTTACCGG -GGCGCAGCGCCTCGGCAGATATTCTGCGCCTGAAACTGGAATTTACCGACGGGGAATTCCGCCAGCTGGCTACGCAACTT -TCAGGTGTGCAGCGTACCGATTTAGCCCTTGCGCTGGCAGCCTTGTGGCTGGGGCGATTGTGCAATCGTATGGACTACGC -CGCCGGATTTATCTTTATGCGTCGACTGGGCTCGGCGGCGCTGACGGCTACCGGACCCGTGCTCAACGTTTTGCCGTTGG -GTATTCACATTGCGGCGCAAGAAACGCTGCCGGAACTGGCAACCCGACTGGCAGCACAACTGAAAAAAATGCGTCGTCAT -CAACGTTACGATGCCGAACAAATTGTCCGTGACAGCGGGCGAGCGGCAGGTGATGAACCGCTGTTTGGTCCGGTACTCAA -TATCAAGGTATTTGATTACCAACTGGATATTCCTGATGTTCAGGCGCAAACCCATACCCTGGCAACCGGTCCGGTTAATG -ACCTTGAACTGGCCCTGTTCCCGGATGTACACGGTGATTTGAGTATTGAGATCCTCGCCAATAAACAGCGTTACGATGAG -CCAACGTTAATCCAGCATGCTGAACGCCTGAAAATGCTGATTGCCCAGTTCGCCGCGGATCCGGCGCTGTTGTGCGGCGA -TGTCGATATTATGCTGCCAGGTGAGTATGCGCAGCTGGCGCAGCTCAACGCCACTCAGGTTGAGATTCCAGAAACCACGC -TTAGCGCGCTGGTGGCAGAACAAGCGGCAAAAACACCGGATGCTCCGGCGCTGGCAGATGCGCGTTACCTGTTCAGCTAT -CGGGAAATGCGCGAGCAGGTGGTGGCGCTGGCGAATCTGCTGCGTGAGCGCGGCGTTAAACCAGGGGACAGCGTGGCGGT -GGCACTACCGCGCTCGGTCTTTTTGACCCTGGCACTCCATGCGATAGTTGAAGCTGGAGCGGCCTGGCTACCGCTGGATA -CCGGCTATCCGGACGATCGCCTGAAAATGATGCTGGAAGATGCGCGTCCGTCGCTGTTAATTACCACCGACGATCAACTG -CCGCGCTTTAGCGATGTTCCCAATTTAACAAGCCTTTGCTATAACGCCCCGCTTACACCGCAGGGCAGTGCGCCGCTGCA -ACTTTCACAACCGCATCACACGGCTTATATCATCTTTACCTCTGGCTCCACCGGCAGGCCGAAAGGGGTAATGGTCGGGC -AGACGGCTATCGTCAACCGCCTGCTTTGGATGCAAAATCATTATCCGCTTACAGGCGAAGATGTCGTTGCCCAAAAAACG -CCGTGCAGTTTTGATGTCTCGGTGTGGGAGTTTTTCTGGCCGTTTATCGCAGGGGCAAAACTGGTGATGGCTGAACCGGA -AGCGCACCGCGACCCGCTCGCTATGCAGCAATTCTTTGCCGAATATGGCGTAACGACCACGCACTTTGTGCCGTCGATGC -TGGCGGCATTTGTTGCCTCGCTGACGCCGCAAACCGCTCGCCAGAGTTGCGCGACGTTGAAACAGGTTTTCTGTAGTGGT -GAGGCCTTACCGGCTGATTTATGCCGCGAATGGCAACAGTTAACTGGCGCGCCGTTGCATAATCTATATGGCCCGACGGA -AGCGGCGGTAGATGTCAGCTGGTATCCGGCTTTTGGCGAGGAACTGGCACAGGTGCGCGGCAGCAGTGTGCCGATTGGTT -ATCCGGTATGGAATACGGGTCTGCGTATTCTTGATGCGATGATGCATCCGGTGCCGCCGGGTGTGGCGGGTGATCTCTAT -CTCACTGGCATTCAACTGGCGCAGGGCTATCTCGGACGCCCCGATCTGACCGCCAGCCGCTTTATTGCCGATCCTTTTGC -CCCAGGTGAACGGATGTACCGTACCGGAGACGTTGCCCGCTGGCTGGATAACGGCGCGGTGGAGTACCTCGGGCGCAGTG -ATGATCAGCTAAAAATTCGCGGGCAGCGTATCGAACTGGGCGAAATCGATCGCGTGATGCAGGCGCTGCCGGATGTCGAA -CAAGCCGTTACCCACGCCTGTGTGATTAACCAGGCGGCTGCCACCGGTGGTGATGCGCGTCAATTGGTGGGCTATCTGGT -GTCGCAATCGGGCCTGCCGTTGGATACCAGCGCATTGCAGGCGCAGCTTCGTGAAACATTGCCACCACATATGGTACCGG -TGGTTCTGCTGCAACTTCCACAGTTACCACTTAGCGCCAACGGCAAGCTGGATCGCAAAGCCTTACCGTTGCCTGAACTG -AAGGCACAAGCGCCAGGGCGTGCGCCGAAAGCGGGCAGTGAAACGATTATCGCCGCGGCATTCTCGTCGTTGCTGGGGTG -TGACGTGCAGGATGCCGATGCTGATTTCTTCGCGCTTGGCGGTCATTCGCTACTGGCAATGAAACTGGCAGCGCAGTTAA -GTCGGCAGGTTGCCCGCCAGGTGACGCCGGGGCAAGTGATGGTCGCGTCAACTGTCGCCAAACTGGCAACGATTATTGAT -GCTGAAGAAGACAGCACCCGGCGTATGGGATTCGAAACCATTCTGCCGTTGCGTGAAGGTAATGGCCCGACGCTGTTTTG -TTTCCATCCTGCGTCCGGTTTTGCCTGGCAGTTCAGCGTGCTCTCGCGTTATCTCGATCCACAATGGTCGATTATCGGCA -TTCAGTCACCGCGCCCCAATGGCCCCATGCAGACGGCGGCAAACCTGGATGAAGTCTGCGAAGCGCATCTGGCAACGTTA -CTTGAACAACAACCGCATGGCCCTTATTACCTGCTGGGGTATTCCCTTGGCGGTACGCTGGCGCAGGGTATTGCGGCGCG -ACTGCGTGCCCGTGGCGAACAGGTGGCATTTCTTGGCTTGCTGGATACCTGGCCGCCAGAAACGCAAAACTGGCAGGAAA -AAGAAGCTAATGGTCTGGACCCGGAAGTGCTGGCGGAGATTAACCGCGAACGCGAGGCCTTCCTGGCAGCACAGCAGGGA -AGTACTTCAACGGAGTTGTTTACCACCATTGAAGGCAACTACGCTGATGCTGTGCGCCTGCTGACGACTGCTCATAGCGT -ACCGTTTGACGGTAAAGCGACGCTGTTTGTTGCTGAACGCACACTTCAGGAAGGTATGAGTCCCGAACGCGCCTGGTCGC -CGTGGATAGCGGAGCTGGATATCTATCGTCAGGATTGTGCGCATGTGGATATTATCTCTCCAGGGACGTTTGAAAAAATT -GGGCCGATTATTCGCGCAACGCTAAACAGGTAAATTAATATTATTTATAAACCCATAATTACAGAAAATAATTATGGGTT -TTTTATTTGTTTGATTTATAGGTTTGATGAATATTTCTCTTAAATAGAGTGAATGTTGCATTCAGTGGAAGGAATTTACA -AACTTCAGCTTCGGATAATTATCACCAACTGGTAAAGTGAGCGCCGTGGAGATTTCCCCCTATTGGACTCATTTTCAGGT -TATACCCCATGTCATCACTGAATATTAAACAGGGAAGTGACGCTCATTTTCCCGATTATCCTCTGGCGTCGCCCAGTAAT -AATGAAATTGATTTACTTAATCTAATCTCAGTTTTATGGCGGGCCAAAAAAACGGTCATGGCGGTCGTTTTTGCGTTTGC -CTGCGCAGGCTTGCTGATCTCTTTCATCCTGCCGCAAAAATGGACCAGCGCGGCGGTTGTCACGCCTCCAGAACCTGTTC -AGTGGCAAGAGTTGGAGAAATCATTCACTAAGCTTCGTGTGCTGGATCTGGATATCAAAATTGATCGTACAGAAGCATTT -AACCTGTTTATCAAGAAGTTTCAGTCGGTTAGCTTGCTGGAAGAGTACCTGCGTTCATCACCTTATGTGATGGACCAATT -AAAAGAGGCGAAAATCGACGAACTGGATTTGCATCGCGCAATTGTCGCATTGAGCGAAAAAATGAAAGCGGTTGATGACA -ATGCCAGTAAGAAAAAAGATGAACCGTCACTGTATACCTCCTGGACGCTAAGTTTTACCGCGCCAACCAGTGAAGAGGCG -CAGACCGTTTTGAGCGGGTATATCGATTATATCTCTACGTTGGTGGTGAAAGAGTCGCTAGAAAACGTCCGTAATAAACT -GGAGATCAAAACCCAGTTTGAAAAAGAAAAACTGGCTCAGGATCGCATTAAAACGAAAAATCAACTTGATGCAAACATTC -AGCGCCTCAATTATTCACTCGACATTGCCAACGCGGCAGGAATTAAAAAGCCCGTTTACAGTAATGGTCAGGCCGTTAAA -GATGACCCCGATTTTTCTATTTCTCTCGGTGCAGACGGTATTGAACGCAAACTGGAAATAGAAAAAGCGGTCACTGACGT -TGCGGAACTGAACGGTGAATTACGTAATCGGCAGTATCTTGTCGAGCAATTAACAAAAGCACATGTCAACGATGTGAATT -TTACGCCGTTTAAATATCAGTTAAGCCCGTCATTGCCAGTGAAAAAAGACGGTCCGGGTAAGGCGATTATTGTGATCCTT -TCCGCGTTGATCGGCGGGATGGTGGCTTGTGGTGGCGTGCTGTTGCGCTATGCGATGGCATCCAGAAAACAGGATGCCAT -GATGGCAGACCACTTAGTTTAACTATTTGCGGTTGAAGGTGCCGTTCGTCCGAGCGGCACCACAAGCGGCGTTCCGGCAA -CTGGATCGTCAATGATCATGCAGCGCAGACCATAAATGCGCTCAATCAGTTCAGCAGTGACAATCTCCTTCGGCGCTCCC -TGAGCAACAATTTTCCCTTCCCGCAATGCAATCAAATGGCTGGCGTAACGACAGGCCTGATTAAGATCGTGCAGCACCGC -CGCCAGGGTATAGCCTTTTTCGCGGTTCAGTTCGCTTAACAACTCCAGCAAATCAATCTGATGACTGATATCCAGCCAGG -TCGTGGGTTCGTCGAGCAGCATAATTGCCGTTTCCTGGGCCAGCACCATCGCGATCCACGCTCGCTGGCGTTGTCCGCCA -GAAAGGGTATCCACGCTTTGATCTGCCAGATGAGTTATTCCCGTGGCCTGCATTGCTTTCGTTACCGCTTCTTCATCCTC -TTTGCGCCAGCGGGTAAACAGCGGTTGATGCGGATAACGTCCACGCGCCACCAGCTCCTGCACGGTGATATCGCCCGGCG -TGGTAGCATTTTGCGCCAACAGACCAATCCGGCGTGCAACCTCTTTACTGGCGTAATGTTGAATGTGCTCGCCATCCAGC -CAGACATGCCCATGAGCAGGCGTCATCAGGCGGCTTAAGGTACGCAGTAACGTGGATTTACCGCAGCCATTTGGCCCGAT -AATTGCCGTGAAGTGACCATCAGGTATTTCTACAGTCAGATTTTCCGCAACGGTATATTTGCCATATCCCAGGGTTAACT -GTTCGCCGCGCAAACGGGCTACTGATTCGGTCATTTTTTGCGAGACTCCTGAATTAACAAGACGATAAGGTAAATACCGC -CGAGGCTGACGGTAACGACGCCAACCGGAAGTTGATACGGCATAAACAGTTGTTGGGCGCAGAGATCGGCCGCCAGCAGT -AACAGCGCCCCGCATAGCGCCGCCTGGGTTAGCCCCCAGCGAGCGGTGCCGCTAATGCGTCGGGCAATGTGCGGTGCGAC -TAAAGCAATAAAGGAAATCGGCCCGGCAAGCGCTGTTGCCGCAGCGGTAAGCACCACTGCAACCAGCATCATTAACAGAC -GCGAACGTTCGACGCTGACGCCCAGCGCACACGCGGTATCATCGCCCATTTCCAGCAAGCGCATCCGGCGTACCAGTAAG -GCGGCGGCAATGAGCATCAATATAATGATGGGTGCGGAAGGCGAGGTTTTTGCCCACGTCAGGCCGTTGAGCGATCCGGC -ATTCCACAAACCTGCTGTTAGCGCCGTTTCTAAAGACGCTTTCAGCAACAGCCAGGTATTAAAGGCCACCAGCATGGCGC -GAACGCCGATACCGATAATAATCAACCGAAAGGTGTCGATGCCGTTGCGCCAGGCGAGCAGCCAGACCAGCAGCGAAGTG -ACAATGCCGCCCACCATTGCTGACAGCGCGATAGCCGTCAGGTCCTGACCAAACAGCACCATCGCCACCAGCACGCCGCT -CCACGCCCCGGTGTTAAAGCCCATTACGTCAGGGCTGCCGAGCGGGTTACGCATCAGCGACTGAAAAATCGCGCCACTGA -CGCCCAGTGCTGCGCCAATCAACAGCGCCATCAGCACGCGTGGTAAACGCCATTCGGTGACCACCATCGTCATACTGCGC -GGCGCATCGCCCATCAGCGCGGCGAATACCTGCGAGGTTTCCAGCGTGACGGCACCGCTGCGTAATCCCCAGATACCTGC -AACCACACAGGCGGAAACCAGCAGCAAACAGGTGATGAGTAATCGGCGAGAGACGTAAATCATGCACCACCTCGCGTTTT -ACGTCGCACGAGGAAGATCAGCACCGGTGCACCAATAAACGCACTGACCACAGAAACGCGCAGTTCGCCGGGCACAATCA -CCCGCCCGATGATATCGGCAAACAGCAGCAGGGCAGGGGTAGCAAGTAGCGTGACGGGCAGCGACCAGCGATGATCGGCA -CCCACCAGCCAACGCGCCATATGCGGCATCATCAGGCCAATAAAGGCAATCGGGCCAACTATTGCCGTCGCACTACCACA -AAGCACGGTAATCGCCAGCAGACCAATCAACTGTGTGCGCGCCACGCGACTGCCCAGCGCCGTCGCGGTGTCGCTGCCGA -GGCTCAAACTGTTCAGCGCGCGACTCAGTAATAGCGCAGTTGCTCCGGCGATCAGCACCGGGATCAGCACCACTTTTAAG -GTATGTAGATTGCGAATATCCAGCGAACCGGCTTGCCAGAAACGCAACTGATCGTAGACGTCAGGATTAAGCAGGGCGAT -GCCGCTGGTCAGTCCTTCCAGCACCGCCGCCAGCGCCACGCCCGCCAGGGTTAAACGCACCGGACTTAACTGCCCGCCGC -CCTGACTGCCGGTAAAGGCAACAATCAATGAGGCCACCAGCGCCCCGGCGAAGGCCATCGCCAGTTGTTCCTGCGCGGAA -GAGTAACCAAACAGCGCCGCACCCAGCACAATGGCAAAGCTGGCTCCGGCGTTCACGCCAAGCAAGCCGGGGTCGGCAAG -TGGGTTTCGGGTGAGGGTTTGCATTAACGCCCCGGCAAGGCCAAGCGCGCCGCCTGCCAGTAAACCGGCAAGGGTACGCG -GCAGCCGCGCGTCGAGCACGATGGTGCAGTCGGCGCTCTGGCAGGTGCCGGAGAAGGCCTCCAGCACTACGGAAGCGGGG -AGTGATTTTGCCCCAATGAGCAGGCTTAATGCCGTCGCGATAATCAGTAATAACAGCAATCCGGGCACGGCAATGGCGCG -TGTCACGGCAACAGAACCAGACATACGAACTTCCATGATAATGAAATTAATTATCGTTATCGATCTTATTTGGATATGTT -AGCATGTGCAGCCTAAGAATAGGTATTTAAAATATTTGATGGCAAGGCATTGTAATGAATAAACAATCCTGGCTGCTTAA -CCTCAGCCTGTTGAAAACGCACCCGGCGTTTCGCGCAGTATTCCTCGCTCGTTTCATCTCAATTGTGTCTCTGGGTTTGC -TCGGCGTCGCGGTGCCGGTGCAGATCCAGATGATGACACATTCCACCTGGCAGGTGGGGCTTTCGGTGACGCTGACCGGC -GGCGCGATGTTTGTTGGCCTGATGGTCGGCGGTGTGCTGGCGGATCGCTATGAGCGCAAAAAAGTGATTTTGCTGGCGCG -CGGCACCTGTGGCATTGGCTTCATTGGACTGTGCCTTAATGCACTGCTGCCGGAGCCGTCATTGCTGGCAATCTATTTAC -TTGGTTTATGGGATGGTTTTTTCGCATCGCTTGGCGTTACGGCGCTATTGGCGGCGACACCAGCACTGGTAGGGCGTGAA -AACTTAATGCAGGCCGGGGCGATCACCATGTTGACCGTGCGTCTGGGGTCGGTGATTTCGCCCATGATTGGCGGTTTATT -GCTGGCGACCGGTGGCGTAGCCTGGAACTACGGGCTGGCGGCGGCGGGCACGTTTATTACCTTGCTACCGTTGTTAAGCC -TTCCGGCGTTGCCACCGCCACCGCAGCCGCGTGAGCATCCGTTGAAATCATTACTGGCAGGATTTCGTTTTCTGCTTGCC -AGCCCGCTGGTGGGCGGGATTGCGCTGCTGGGTGGTTTATTGACGATGGCGAGCGCGGTGCGGGTACTGTATCCGGCGCT -GGCTGACAACTGGCAGATGTCAGCGGCACAGATTGGTTTTCTCTACGCGGCGATCCCGCTCGGCGCGGCTATTGGTGCGT -TAACCAGCGGGAAGCTGGCACATAGTGCGCGACCAGGGTTATTGATGCTGCTCTCCACGCTGGGATCGTTCCTCGCCATT -GGTCTGTTTGGCCTGATGCCGATGTGGATTTTAGGCGTGGTTTGTCTGGCGCTGTTCGGCTGGTTGAGTGCGGTCAGCTC -GTTGCTGCAATACACAATGCTGCAAACGCAAACCCCGGAAGCGATGTTAGGGCGGATTAACGGTTTGTGGACGGCGCAGA -ACGTGACGGGCGATGCCATAGGCGCGGCGCTGCTGGGTGGTTTGGGCGCGATGATGACACCGGTTGCTTCCGCAAGCGCG -AGCGGTTTTGGTTTGTTGATTATCGGCGTGTTGTTATTGCTGGTGCTGGTGGAGTTGCGACATTTTCGCCAGACGCCGCC -GCAGGTGACAGCGTCCGACAGTTAATGCTTAAAACAGCGCCTTAAGCCTATCCAGCACTTGCATGGCGCTGTAGTAATCC -AGACGGAACGTCTCGGTTCCCAGCGCATAAACCTGCTTGTTTTGTACTGCAGGCAGGTGCGCGAGCAGCGGATTAGCATA -AATAGCATCGGCATCTTTCTGATCACCGGCGAACAGGAATAGTGACTCGCCATTTAACCCTGCAGCCAGATTTTCCCCAC -CAAGCTGAATGATGTCATGGCGTTTACCCTGACTTTGGCTGGCATTTAACCCTGCGGGTAACTTCGCCAGCGTAAAGCCG -AGTTGTTCCAGCATCTGCCCTTGTGCTGATTCTGGCGTCCAGAGATTGGCACTGTGTGCAGCGGCAGTATAGACAATGGC -AGTGACCGGCTGCGGCGGTAATTTGATTTGCTCTTTCGCCGCCGCCAGTTGCTTATCAAACTGCGCAATCCGCTCTGCCG -CTTGTTTCTCATGCCCGGTAATTTCGCCAAGTTGCGTTAACAGCGACTGCCAGCTTTTGTCGTCGTAATTGATGATTAAT -GTCGGGGCGATGGTGGAAAGCTGATCATACAGTGCCAGCGCCGAATCCCCGCCGGTTGCGCTAATTAAAATCAGATCCGG -CATTTGCGCGGCAACGGCTTCGGCGCTCGGTTCGCCGATATAGAGCCGTTGCAGTTTGCGTTCTTTCGCCACCTTGCTCC -ACTGGCGTAAAAAGCCCTGGTCATCCGCGACGCGGTTATTCGGCGTGGTCGCGCCGCTGGCGATCACCGGAGCATCAATC -GCCAGCAGTGAGCCGGTCAGGGTGACGCTGGTGGAAACAATACGCTGCGGCTGGCTTTCCAGTGTATGTGTGCCACGGCT -GTCAGTAATCTGACGCGGCCAGTCAGCGGCCTGAACTGCGGCTATTCCTGAAAGCAAAAGTCCTGTTAATAGAAGGGCGT -TGCGGTAGAGCGGGGCGAGTCTCACAAATCAGCTTCCTGTTATTAATAAGGTTAAGGGCGTAATGACAAATTCGACAAAG -CGCACAATCCGTCCCCTCGCCCCTTTGGGGAGAGGGTTAGGGTGAGGGGAACAGCCAGCACTGGTGCGAACATTAACCCT -CACCCCAGCCCTCACCCTGGAAGGGAGAGGGGGCAGAACGGCGCAGGACATCACATTGCGCTTATGCGAATCCATCAATA -ATGCTTCTCATTTTCATTGTAACCACAACCAGATGCAACCCCGAGTTGCAGATTGCGTTACCTCAAGAGTTGACATAGTG -CGCGTTTGCTTTTAGGTTAGCGACCGAAAATATAAATGATAATCATTATTAAAGCCTTTATCATTTTGTGGAGGATGATA -TGGATACGTCACTGGCTGAGGAAGTACAGCAGACCATGGCAACACTTGCGCCCAATCGCTTTTTCTTTATGTCGCCGTAC -CGCAGTTTTACGACGTCAGGATGTTTCGCCCGCTTCGATGAACCGGCTGTGAACGGGGATTCGCCCGACAGTCCCTTCCA -GCAAAAACTCGCCGCGCTGTTTGCCGATGCCAAAGCGCAGGGCATCAAAAATCCGGTGATGGTCGGGGCGATTCCCTTCG -ATCCACGTCAGCCTTCGTCGCTGTATATTCCTGAATCCTGGCAGTCGTTCTCCCGTCAGGAAAAACAAGCTTCCGCACGC -CGTTTCACCCGCAGCCAGTCGCTGAATGTGGTGGAACGCCAGGCAATTCCGGAGCAAACCACGTTTGAACAGATGGTTGC -CCGCGCCGCCGCACTTACCGCCACGCCGCAGGTCGACAAAGTGGTGTTGTCACGGTTGATTGATATCACCACTGACGCCG -CCATTGATAGTGGCGTATTGCTGGAACGGTTGATTGCGCAAAACCCGGTTAGTTACAACTTCCATGTTCCGCTGGCTGAT -GGTGGCGTCCTGCTGGGGGCCAGCCCGGAACTGCTGCTACGTAAAGACGGCGAGCGTTTTAGCTCCATTCCGTTAGCCGG -TTCCGCGCGTCGTCAGCCGGATGAAGTGCTCGATCGCGAAGCAGGTAATCGTCTGCTGGCGTCAGAAAAAGATCGCCATG -AACATGAACTGGTGACTCAGGCGATGAAAGAGGTACTGCGCGAACGCAGTAGTGAGTTACACGTTCCTTCTTCTCCACAG -CTGATCACCACGCCGACGCTGTGGCATCTCGCAACTCCCTTTGAAGGTAAAGCGAATTCGCAAGAAAACGCACTGACTCT -GGCCTGTCTGCTGCATCCGACCCCCGCGCTGAGCGGTTTCCCGCATCAGGCCGCGACCCAGGTTATTGCTGAACTGGAAC -CGTTCGACCGCGAACTGTTTGGCGGCATTGTGGGTTGGTGTGACAGCGAAGGTAACGGCGAATGGGTGGTGACCATCCGC -TGCGCGAAGCTGCGGGAAAATCAGGTGCGTCTGTTTGCCGGAGCGGGGATTGTGCCTGCGTCGTCACCGTTGGGTGAGTG -GCGCGAAACAGGCGTCAAACTTTCTACCATGTTGAACGTTTTTGGATTGCATTAAGGAGCGAGGATGAGCATTCCATTCA -CCCGCTGGCCGGAAGAGTTTGCCCGTCGCTATCGGGAAAAAGGCTACTGGCAGGATTTGCCGCTGACCGACATTCTGACG -CGACATGCTGCGAGTGACAGCATCGCGGTTATCGACGGCGAGCGACAGTTGAGTTATCGGGAGCTGAATCAGGCGGCGGA -TAACCTCGCGTGTAGTTTACGCCGTCAGGGCATTAAACCTGGTGAAACCGCGCTGGTACAACTGGGTAACGTCGCTGAAT -TGTATATTACCTTTTTCGCGCTGCTGAAACTGGGCGTTGCGCCGGTGCTGGCGTTGTTCAGCCATCAGCGTAGTGAACTG -AACGCCTATGCCAGCCAGATTGAACCCGCATTGCTGATTGCCGATCGCCAACATGCGCTGTTTAGCGGGGATGATTTCCT -CAATACTTTCGTCACAGAACATTCCTCCATTCGCGTGGTGCAACTGCTCAACGACAGCGGTGAGCATAACTTGCAGGATG -CGATTAACCATCCGGCTGAGGATTTTACTGCCACGCCATCACCTGCTGATGAAGTGGCCTATTTCCAGCTTTCCGGTGGC -ACCACCGGCACACCGAAACTGATCCCGCGCACTCATAACGACTACTACTACAGCGTGCGTCGTAGCGTCGAGATTTGTCA -GTTCACACAACAGACACGCTACCTGTGCGCGATCCCGGCGGCTCATAACTACGCCATGAGTTCGCCAGGATCGCTGGGCG -TCTTTCTTGCCGGAGGAACGGTTGTTCTGGCGGCCGATCCCAGCGCCACGCTCTGTTTCCCATTGATTGAAAAACATCAG -GTTAACGTTACCGCGCTGGTGCCACCCGCAGTCAGCCTGTGGTTGCAGGCGCTGATCGAAGGCGAAAGCCGGGCGCAGCT -TGCCTCGCTGAAACTGTTACAGGTCGGCGGCGCACGTCTTTCTGCCACCCTTGCGGCGCGTATTCCCGCTGAGATTGGCT -GTCAGTTGCAGCAGGTGTTTGGCATGGCGGAAGGGCTGGTGAACTACACCCGACTTGATGATAGCGCGGAGAAAATTATC -CATACCCAGGGTTACCCAATGTGTCCGGATGACGAAGTATGGGTTGCCGATGCCGAAGGAAATCCACTGCCGCAAGGGGA -AGTCGGACGCCTGATGACGCGCGGGCCGTACACCTTCCGCGGCTATTACAAAAGTCCACAGCACAATGCCAGCGCCTTTG -ATGCCAACGGTTTTTACTGTTCCGGCGATCTGATCTCTATTGATCCAGAGGGTTACATCACCGTGCAGGGGCGCGAGAAA -GATCAGATTAACCGTGGCGGCGAGAAGATCGCTGCCGAAGAGATCGAAAACCTGCTGCTGCGCCACCCGGCGGTGATCTA -CGCCGCACTGGTGAGCATGGAAGATGAGCTGATGGGCGAAAAAAGCTGCGCTTATCTGGTGGTAAAAGAGCCGCTGCGCG -CGGTGCAGGTGCGTCGTTTCCTGCGTGAACAGGGTATTGCCGAATTTAAATTACCGGATCGCGTGGAGTGTGTGGATTCA -CTTCCGCTGACGGCGGTCGGGAAAGTCGATAAAAAACAATTACGTCAGTGGCTGGCGTCACGCGCATCAGCCTGAAGGAG -AGAACACGATGGCTATTCCAAAATTACAGGCTTACGCACTGCCGGAGTCTCACGATATTCCGCAGAATAAAGTTGACTGG -GCCTTTGAACCGCAACGTGCCGCGTTGTTAATCCATGATATGCAGGACTATTTTGTCAGCTTCTGGGGCGAGAACTGCCC -GATGATGGAGCAGGTGATCGCGAATATTGCTGCGCTGCGCGACTACTGCAAACAGCACAATATCCCGGTTTATTACACCG -CCCAGCCGAAAGAGCAGAGCGATGAAGATCGGGCGCTGTTGAATGATATGTGGGGGCCGGGCCTGACCCGCTCGCCGGAA -CAGCAAAAGGTGGTGGATCGCCTGACGCCAGATGCCGACGACACGGTGCTGGTGAAGTGGCGCTACAGCGCGTTTCATCG -TTCTCCGCTGGAGCAAATGCTGAAAGAGAGTGGACGTAACCAGCTGATTATTACCGGGGTATATGCCCACATTGGCTGTA -TGACCACCGCAACCGACGCATTTATGCGCGATATTAAACCGTTTATGGTGGCGGATGCGCTGGCCGATTTCAGCCGTGAC -GAGCATTTGATGTCGCTGAAATATGTGGCCGGACGTTCTGGCCGGGTGGTGATGACTGAAGAATTACTGCCAGCACCTAT -CCCCGCCAGCAAAGCGGCGCTGCGTGAGGTGATCCTGCCGTTGCTGGACGAGTCCGATGAACCGTTCGATGACGACAACC -TGATCGACTACGGTCTGGATTCGGTGCGCATGATGGCGCTGGCGGCGCGCTGGCGCAAAGTGCATGGTGATATCGACTTT -GTCATGCTGGCGAAAAACCCGACCATCGACGCCTGGTGGAAGCTACTCTCCCGCGAGGTGAAATAATGGATTTCAGCGGT -AAAAATGTCTGGGTAACCGGCGCAGGTAAAGGTATCGGCTACGCCACGGCGCTGGCGTTTGTTGAGGCGGGAGCGAAAGT -TACAGGTTTTGATCAAGCGTTCACTCAGGAGCAATATCCCTTTGCGACCGAAGTGATGGATGTTGCCGACGCTGCGCAGG -TCGCGCAAGTGTGTCAGCGACTGTTAGCTGAAACGGAGCGACTGGACGCGCTGGTCAATGCGGCGGGAATTTTACGCATG -GGCGCGACCGATCAGCTCAGTAAAGAGGACTGGCAGCAGACTTTTGCGGTTAACGTCGGCGGTGCGTTTAACCTGTTCCA -GCAAACCATGAACCAGTTTCGCCGTCAGCGGGGCGGGGCGATTGTCACTGTGGCGTCCGACGCCGCGCACACGCCGCGTA -TTGGCATGAGTGCTTATGGCGCATCGAAAGCGGCGCTGAAAAGCCTGGCGTTGAGCGTCGGGCTGGAACTGGCGGGTAGC -GGCGTGCGCTGTAATGTGGTTTCGCCTGGCTCCACCGACACCGATATGCAACGCACGCTGTGGGTGAGCGATGACGCCGA -AGAACAGCGTATTCGCGGCTTTGGCGAGCAGTTTAAACTCGGCATTCCGCTGGGGAAAATCGCCCGTCCACAAGAGATCG -CCAACACGATTTTGTTCCTCGCCTCTGACCTCGCCAGCCATATTACCCTACAGGATATTGTGGTCGATGGCGGCTCAACG -CTGGGGGCATAAGCATGATCTGGAAACGCCATTTAACGCTCGACGAACTGAACGCCACCAGCGATAACACAATGGTGGCG -CATCTGGGAATTGTGTATACCCGTCTGGGCGATGATGTGCTGGAAGCCGAAATGCCGGTTGATACCCGTACTCATCAGCC -GTTCGGTTTACTACATGGCGGCGCGTCGGCGGCGCTGGCGGAAACGCTGGGATCGATGGCCGGATTTATGATGACCCGCG -ACGGACAGTGTGTGGTAGGCACAGAACTTAATGCAACACACCATCGCCCGGTGTCTGAGGGAAAGGTACGCGGCGTCTGC -CAGCCGCTGCATCTTGGTCGGCAAAATCAGAGCTGGGAAATCGTCGTTTTCGATGAACAGGGGCGGCGTTGCTGCACTTG -TCGGCTGGGTACGGCAGTTTTGGGATGAACCCGACAGAATTAGATGAGATTGCAGGAAAACTCGGTTAACGGAGTGATCG -AGTTAACATTGTTAAGTTAAATATTGGTTTCAACTCCGATTTACATGGTTGCTGTGTTGTTAAATTGTACAAAGATGTTA -TAGAAACAAAATGTAACATCTCTATGGACACGCACACGGATAACAACTATGAACAAATCAGGGAAATACCTCGTCTGGAC -AGTGCTCTCTGTAATGGGAGCATTTGCTCTGGGATACATTGCTTTAAATCGTGGGGAACAGATCAACGCGCTGTGGATTG -TGGTGGCGTCGGTCTGTATCTATCTGATCGCTTACCGTTTTTATGGGCTGTATATCGCCAAAAATGTGCTGGCGGTTGAC -CCGACGCGTATGACGCCAGCGGTGCGCCATAACGACGGGCTGGACTATGTGCCGACGGACAAGAAAGTGCTGTTCGGTCA -CCATTTTGCGGCCATTGCCGGAGCAGGTCCGCTGGTGGGGCCGGTACTGGCGGCGCAAATGGGCTACCTGCCGGGGATGA -TCTGGCTGCTCGCTGGGGTGGTTCTCGCCGGTGCGGTGCAGGATTTCATGGTGCTGTTTGTTTCTACGCGCCGTGACGGT -CGCTCGCTGGGTGAGCTGGTCAAAGAAGAGATGGGGCCAACCGCCGGGGTGATTGCGCTGGTGGCCTGCTTTATGATCAT -GGTCATTATCCTTGCAGTGCTGGCGATGATCGTGGTGAAAGCCCTGACTCATAGCCCGTGGGGAACATATACCGTTGCGT -TCACCATTCCGCTGGCGCTGTTTATGGGGATCTACCTGCGCTATCTGCGTCCGGGGCGTATTGGCGAAGTGTCGGTCATC -GGTCTGGTATTCCTGATTTTCGCCATTATCTCTGGCGGCTGGGTGGCAGAAAGTCCGACCTGGGCACCGTACTTTGACTT -TACCGGCGTGCAGTTGACCTGGATGCTGGTGGGTTACGGTTTTGTGGCGGCGGTGCTGCCGGTGTGGTTACTGCTGGCCC -CGCGTGACTACCTCTCTACCTTCCTGAAAATCGGGACTATCGTCGGTCTGGCGGTAGGCATTTTGATTATGCGCCCGACG -CTGACCATGCCTGCGCTGACCAAATTTGTCGATGGCACTGGCCCGGTATGGACCGGTAACCTGTTCCCGTTCCTGTTTAT -CACCATCGCCTGTGGCGCGGTGTCTGGCTTCCATGCGCTGATCTCTTCTGGGACCACGCCGAAGATGCTGGCGAACGAAG -GGCAGGCGTGCTTTATCGGCTACGGTGGGATGTTAATGGAATCCTTCGTGGCGATTATGGCGCTGGTTTCCGCCTGTATC -ATCGATCCGGGCGTGTATTTTGCCATGAACAGCCCGATGGCGGTGCTGGCTCCGGCAGGGACGGCGGATGTGGTCGCTTC -TGCCGCGCAGGTGGTGAGTAGCTGGGGCTTTAGCATTACACCAGATACGCTAAACCAGATTGCCAGCGAAGTGGGTGAAC -AGTCGATCATTTCCCGTGCGGGCGGTGCGCCGACGCTGGCGGTGGGGATGGCCTACATTCTGCACGGCGCGCTGGGCGGC -ATGATGGATGTGGCGTTCTGGTATCACTTCGCCATTTTGTTTGAAGCACTGTTTATTCTGACGGCGGTGGATGCAGGTAC -GCGTGCTGCGCGCTTTATGTTGCAGGATCTGCTGGGCGTGGTGTCTCCTGGCCTGAAGCGGACCGATTCACTGCCTGCTA -ACCTGCTGGCAACAGCGCTGTGCGTACTGGCGTGGGGCTACTTCCTCCATCAGGGCGTGGTCGATCCGCTGGGCGGCATT -AACACTCTGTGGCCGCTGTTTGGTATTGCCAACCAGATGCTGGCAGGGATGGCGCTGATGCTCTGTGCCGTGGTGTTGTT -CAAGATGAAACGTCAACGTTACGCCTGGGTGGCGCTGGTACCAACGGCCTGGCTGCTGATTTGTACCCTGACCGCAGGCT -GGCAGAAAGCGTTTAGCCCGGATGCGAAAGTCGGCTTCCTGGCCATTGCTAATAAGTTCCAGGCAATGATCGACAGCGGC -AATATTCCGTCGCAGTATACTGAGTCACAGCTGGCGCAACTGGTGTTCAACAACCGTCTGGATGCCGGGTTAACCATCTT -CTTTATGGTGGTCGTGGTGGTTCTGGCACTGTTCTCGATTAAGACGGCACTTGCGGCATTGAAAGATCCGAAGCCAACGG -CGAAAGAAACGCCGTATGAACCAATGCCGGAAAATGTCGAGGAGATCGTGGCGCAGGCAAAAGGCGCACACTAAAGTCAG -AGTGAGGGGGGGATGTTGGCGAATGTTGGCTTAGTGCCCAGGGTTCCCTCTCACCCTAACCCTCTCCCCGGTGGGGCGAG -GGGACTGACCGAGCGCGTTGATAGCATTTGTAGGCCGGATAAGGCGTTCACGCCGCATCCGGCACTCTTTCAGCAACATG -GTTAGCGGAGGCCAAGATGTTTGATTCACTGGCAAAAGCCGGAAAATATTTAGGTCAGGCGGCGAAGCTGATGATTGGTA -TGCCTGATTACGACAACTATGTCGAACATATGCGGGTTAACCATCCCGATCAAACGCCGATGACCTACGAAGAGTTTTTC -CGTGAGCGGCAGGACGCGCGCTACGGTGGAAAAGGCGGCGCGCGCTGCTGCTAAATTTGTACGTCAGGCTTTAAACGATT -CCACTTTTTTGAACGCTGCACGCAACGTATCTGGTGTCAGCGTGACTGGCAGGTAATGAATGGACTCCACCGGACGCAGG -GTGTGGGCAATCACTTTGTCGATCTCCGCCTGATTATTGATATCCACTTCCAGCTCCGCCAGTGTAGTCGGCAGATGAAA -ACGCTGATACGCTCCAGTTAATTGCGCCAGCACATCATCCTGACCCAGCAAGGCGCTTTGCACCAGAATTCCGTAGGCGA -CTTTGGTGCCGTGGAGAAACTTCTCGGTTTGCGGCAGCACGGTCAGACCGTTATGCACGGCATGAGCTGCCGCCACACGC -GTAAAACGATCGCCCAGACCACCAACCATCCCACCACCAGCAATAATAGCATCCACCACATCGCAAAATGATTGCGTTAA -CTGTTGATTTTGCTGATCGCTCAGCGCCTGTTCGCTACTGTTTAACAAGACGTCGCGAATGGCTTGCGCATTATTGATCC -CCAGTCGCACGGTTAGCGGCAACGTTTCTGGTTGCGGAGCCAGCACCACCGCTTCATACCATTTCGCCAGCGTGTCACCG -ATCCCCGCCAGCAGATATTGTTGCGGTGCATTGAGGATAATCTCCGGTTCCACCAGCACCATAAAATTGGCGTCGTCGAA -AATCTCATAATGCAGCGCCTGTCCGGCATCATTATACCAGACGGAGAGCGGTGTCCAGGCGGCGCAGGTGGCGGCGATCG -TCGGAACGGCAACAAACGGCAGACCGAGACGGCGGGCGAGGGCTTTCGCGGTGTCGAGCAGTGCACCGCCACCGACGCCA -ATCACCACGCTGCGGTCGTCACCGGACTCAGCCGCCAGTTGTTGTACATCGCTTTCGCTGCAATGACCGCGAAACAAAAT -ATGCTTTGCCCCTGGCAGTCCAAACGCTGGCGGAAGTTTGGTTTGCGCCGCAGCAATGGCGCGTTTGCCGTAGATCCACA -CCGCGCGAGAAAGTTGTTCATCAGTGAAAAAATCGTGCAGGTGATTGAAACTTCCTGGATGTGAAAAGTAGTTAGCCGGG -CCGACGACCACGCGGATAGGATTGTGAGGCATGTTGTGTTGTCCTTATTGTTTTATTTAGACATCTAAACGTCTTGATTG -CCAAATACTAGCATCGTGTTATAGTGCCTTCAACACGCAACTTCGTCAGGTACAATAAAAATGACAAATAACCCTCTGAT -TCCACAAAGCAAACTTCCACAACTTGGCACCACTATTTTCACCCAGATGAGCGCGCTGGCGCAGCAACACCAGGCGATTA -ACCTGTCGCAAGGCTTTCCTGATTTTGATGGTCCGCGCTATTTACAGGAGCGGCTGGCGCACCACGTTGCACAGGGGGCA -AACCAATACGCGCCCATGACCGGCGTGCAGGCCTTGCGCGAGGCGATTGCTCAGAAAACGGAACGTTTGTATGGCTATCA -ACCAGATGCCGATAGCGATATCACCGTAACGGCAGGGGCGACGGAAGCGTTATACGCGGCGATTACCGCACTGGTGCGCA -ATGGCGATGAAGTGATTTGTTTTGATCCCAGCTATGACAGTTACGCCCCCGCCATCGCGCTTTCTGGGGGAATAGTGAAG -CGTATGGCACTGCAACCACCGCATTTTCGCGTTGACTGGCAGGAATTTGCCGCATTATTAAGCGAGCGCACCAGACTGGT -GATCCTCAACACTCCGCATAACCCCAGTGCAACTGTCTGGCAGCAGGCTGATTTCGCCGCTTTGTGGCAGGCGATCGCCG -GGCACGAGATTTTTGTCATTAGCGATGAAGTCTACGAGCACATCAACTTTTCACAACAGGGCCATGCCAGTGTGCTGGCG -CATCCGCAGCTGCGTGAGCGGGCAGTGGCGGTTTCTTCATTTGGCAAGACCTATCATATGACCGGCTGGAAAGTGGGTTA -TTGTGTTGCGCCAGCGCCCATCAGCGCCGAAATTCGCAAGGTACATCAGTATCTGACCTTTTCGGTGAATACCCCGGCAC -AGCTGGCGCTTGCTGATATGCTACGTGCAGAACCTGAGCATTATCTTGCGTTACCGGACTTTTATCGCCAGAAGCGCGAT -ATTCTGGTGAATGCTTTAAATGAAAGCCGGCTGGAGATTTTACCGTGTGAAGGTACATACTTTTTGCTGGTGGATTACAG -CGCGGTTTCTACCCTGGATGATGTTGAGTTTTGCCAGTGGCTGACGCAGGAGCACGGCGTAGCGGCGATTCCGCTGTCGG -TGTTTTGCGCCGATCCCTTCCCACATAAACTGATTCGTCTCTGTTTTGCCAAGAAGGAATCGACGTTGCTGGCAGCAGCT -GAACGCCTGCGCCAGCTTTAGCTATTTAACCGTCCAGGCGCGGGAATATTGACGGTCGGCAAACAACTCTTGCAGGCCGT -TAATTTGCTTCAGGCGCAGCACTTCGTCGCTGTCCATTCCCAGCTCTTTGCCAATTTTATTATCGTCCCATCCCAACTGG -CTAAGTTCACGGACGATTTCCGACATGGCGGTGATTTGATGGCGTCCACGAGCGCGATTATGACGAATAGTCGCGGCGAT -GCGTTGATTACGCGTACCTTCCAGACAGGTCACCGGCAAATAACCTTTTAAGCGTAATTTTAATGATGATGAGCCTTTAC -CAATTTCATGGCGGTGAAAACCATCCACGATTTCCATGGCATTTTTATCCGTATGTGTGACCACAATGGGTTGGGTAAAA -CCATCTATTTCAATGGATTTTTGCAGCAGTTTTTTTTCGGGTGGTGCCACGTTGTTTGGGTTGTAATCATTAGGCATAAG -TTGGCTGTTTTTAACCCACAGAACGCAATCCACTGGCTCTTCACGAAAGGGGCTAACCTGATGGATCGCCATGCGGATTT -CATTAATCGCTTTGATGCGATCATCTTCCGGCAAGCTGGCGAGAAATTGCGTTAAATCCTGCGTTAATCGTTGTTGCATA -GTATCCCCCATTCCTGACGTTTTCCTTTTATCCGTTCGTTATAACGCTGATAGTTCTTCGATTTTGTGGGGCTAAATGAT -AATGCCCGACACCAGTAATCGTTATTGAGTAAAACTTTGCATATCCGCCGCCAGGAGGGGATATCTTTCGCGCCAATGTC -CCCTTGCTGGGTTTGTGGAACCTCGATGCCTTTTTTCTGATACCAGTGCAAATAAATGGCGATTTTATTGCGGTAATGCT -CAGCTGTTTTTTCCGGCATGCTATTGAGCAGCAATAATGCATATTCTTGCCAGTCTAAATGTTCTGGCTTGAGGATTTTC -CGATGCCCATAGAAATGATTGTCATGTCCGGCGTAAATGCCGCCACTTTTTACCCCGCTGACTCGTGCGCACATAGCAGC -CCAGCGATCCGGTTCGATAACGTGATAGAGCCATAATCCTTGTCGTTGCTCCGGGCCAAAAGGTTCGCAAATTCGCATAT -GACGCAGAGGAACGCCTGCCTGATACATTAGGTTATACAGTGGGTTGCAGAGACTTTGATGATTTGCATACCAGGTCCAG -ATATCAGCCACTTTCCAGTCGTAAATGGGGTAAATGTACCAGCTATGACCGCCTGGTGCGGCCGTAGTCCAGGGTTTATC -GTCGGCAAAACGTTGTTTATTTAAACTGGCGATGGCGACAAAACGGTTGTAGGACTCATCCGCACGGATGCCGATCATCA -TCGCCGCCGGACGTTTTTGTGAAAACCATTCGGCAAACTCACGTACAAATTGTTCGAAGGTCATGCCTGGCTGGTAAAAG -CAGAAAAAGTCAGGGTCGGTTATCGCATCTTGGGGAGGTTGACGTACCCATTCGACATCAGGTTCCCAGCACTGCCATTC -GGGTTGGTATTGTGAAAGGGAATTTTGCGTCGTAAGCGGGAGCGCAACCCAGTAAAACTCTTCGATGACATCGGTGTACA -ACTCGCGCAGGGACTGAACATAGTTAATGGTGCAAGAGAATTGCGCCTCCCAGTCGATAAACAAAACGCAGATTTTTTTG -CCCATTTGTCGGGCAAGTTCGGCTGTCAGATGCAGCATTAAACCAGAGTCTTTGCCGCCAGAAAATGAGACACAAACGCG -GGGTAGGGTGTTGAGTGTCCAGGTAATACGCTCTCGTGCAGCTTCCAGAATATTGAGCGGAAGAGGAATTTTATAAATAG -ACATCTGAAGACGCTCTCTGAACGTTACAGGGTGATCAGTGAGATAAGTCTGTTAATTATAAAGTAAACACTGTAAAGCA -GAGTGTTTTATTTTTCATTCGCGCTGTGAATAAATAGATGAAAGTTATAGTAGCTGTCTGTAGTTATATATCAAAAACTC -TCATTTAGACGGTCAATAAATCGGGAGAACACCAAATTATTTAAAGAAGATTTATTATAGGAAATGTAAAGCTTTATTGA -AGGTAACGGATGTTCTAGTTTTATCTCTTTTAAGTTAAGAAAGTCACGGTAGGAATTATAAAGTTCATAGGGGACTATTC -CCAGTAAATCTGTAACTGCAATGCTATTAATGATTGTCAGCAAAGAGGAACCACGAAATGAGATTTTGCGATTCATAAAT -CTCTCGTCTATTTCCATTTGAATATCATCAACCCCTGCTGATTTAGATATTAATTGGGTGAACTCTTCTGCCATAATTTG -TTCATAAGTGCTATTGTCAGTAATTCGTGGATGCCTATTACTACAAATTAGAGTATTGCGAATCGTATGCAATGGCATGC -AAATGACGGAACGGCTGATCACTGGCATTTGGGTGATCACCAGATCGGCTTTGCGGTGAACCAACAGTTCTTCAGCATTC -TCTGCTGACATGAGGATATCATGGCACTCAATCTCGACAGAGGAATCTTGCCGTAGGCAGCGGATCAGCATACTATTATT -AGAGCAAGAAATGAGCTGAGGGCCGTAGATAATAAAGTTTTTCTTTAGTTCGGACTTATTGACTATATTAATTGTTTGTT -CAAGGCCTCTGAGATTTTTCTCAAGATGGTGATGCAGATTTAACCCTGTTGTCGTCGGCGCGATACCTTTTCCTGAGCGA -ATGAATAAAGGGTCATTAAATTGCGCACGTAAGCGTTGTAACGACTGGCTCACGGCTGATGGGGTGATATATAGTGATTC -AGCAGCTTTGCTAATGCTTAAATGCTGGTAAATACACTCAAATATGACAAGAAGATTTAAGTCGAACTTTTTCAAGTCGT -AGAGATTGGCCATACACTACTCCGGTTATATTTTTCTTCCATGATATATTCACTTAATCAATGTTTTTTGCGTATATATT -TTTATTGATTATGTTTTTTTGCTTAACTCAGGATTAAGTTTTTCTAAAATAGCACAGCCACTTAGGGCAGAGCGAGCAAT -TCATGCTTTTTTAGGATGGTTGAAAAGCAGGGATATAGTTCAACCATCCATGAATTACCTTTTATTTATTCCCCATAATG -ATATTAAGCGTTTTCTGATCGGGCAACCCCACGGCCTGTTGTAGCGTATTTTCCTTACTCATGTAATAGATAGCCGGCGT -GACATTTGCCCCCAGATCGTCCATCAGTTTCTCATTGTCACTTAACACTTTCATTTGCTCTGTACTTACGTTTGCAGGCA -CGTTTAGCTTAAGCTTGCCACCAGAGGCTTCATATTGTTGCCAGGTTTTTGCGGGATCTTTGGAGGCAAGAATTGCCGCT -GCTGTCGCCGGGCTTTCTGGCTTGATAACCCCAACCAACAATGTTCTTAATTGCACTTTGCCAGAATCTACCCACGGGCG -CGCCTGCTGCCAGAACTGTTTACAATATGGGCAGAACGGATCGGCGAAGACGTAGACAATGACCGGCGCATCTTTTTTAC -CGTCGAGGAGCCAGTGGGATTGTTCCATCCGTTGCCACATTTCGCGTCCGGCTGGTGCGTAAATTTCTTTTTCGATAAGT -GTGTTACTCAGGTTTTCACCTTTCTCGTTGTACATGTAACCAGAGATAGCGTGCTTACCATCTGGAGTCAGGTAGATGGT -GACGCCCATATCCTGATACTTTCCGAGATAACCTTTCATTCCTCCGGGGGCATCGAATGTTTTGATGATTGTAATGCCCT -GTTTTTCAATCGCTTTTACTGGAGCAGGAAGTTCCTCTGCGAAGGCGATTGCAGGAAGCAGAGCCAGTAAAAGTATCTTT -TTTAACATTAATTTGTCCTTTTCAGTCAGTGCAAAAGTCGAGTAAAAGGCATAACCTATCACTGTCATAGGTAAGAGCTT -AGATCAGGTGATTGCCCTTTGTTTATGAGGGTGTTGTAATCCATGTCGTTGTTGCATTTGTAAGGGCAACACCTCAGCCT -GCAGGCAGGCACTGAAGATACCAAAGGGTAGTTCAGATTACACGGTCACCTGGAAAGGGGGCCATTTTACTTTTTATCGC -CGCTGGCGGTGCAAAGTTCACAAAGTTGTCTTACGAAGGTTGTAAGGTAAAACTTATCGATTTGATAATGGAAACGCATT -AGCCGAATCGGCAAAAATTGGTTACCTTACATCTCATCGAAAACACGGAGGAAGTATAGATGTCCTTGATTAACACCAAA -ATTAAACCTTTTAAAAACCAGGCATTCAAAAACGGCGAATTCATCGAAATCACCGAAAAAGATACCGAAGGCCGCTGGAG -CGTCTTCTTCTTCTACCCGGCTGACTTTACTTTCGTATGCCCGACCGAACTGGGTGACGTTGCTGACCACTACGAAGAAC -TGCAGAAACTGGGCGTAGACGTATACGCAGTATCTACCGATACTCACTTCACCCACAAAGCATGGCACAGCAGCTCTGAA -ACCATCGCTAAAATCAAATATGCGATGATCGGCGACCCGACTGGCGCCCTGACCCGTAACTTCGACAACATGCGTGAAGA -TGAAGGTCTGGCTGACCGTGCGACCTTCGTTGTTGACCCGCAGGGTATCATCCAGGCAATCGAAGTTACCGCTGAAGGCA -TTGGCCGTGACGCGTCTGACCTGCTGCGTAAAATCAAAGCAGCACAGTACGTAGCTTCTCACCCAGGTGAAGTTTGCCCG -GCTAAATGGAAAGAAGGTGAAGCAACTCTGGCTCCGTCTCTGGACCTGGTTGGTAAAATCTAAATTTCCTTCGTCTTTCA -CGCCATAGCGGCGTTGGCGTCGCCCGCTCACCCCGGTCACTTACTTGTGTAAGCTCCCGGGGATTCACAGGCTAGCCGCC -TTGCTCTGACGCGAAATACTTCGGAAATTCACCTAATTCTTCGGGTGCTGCGGCACCCGATTTTCTTCCCCGCACCATGA -TGCAAGCTGCATCCAGGTAGCCGCAGAGGCCGCTTGCATGATGATGTTTAAAGCCCAGGAGATAAACATGCTCGACACAA -ATATGAAAACTCAACTCAAGGCTTACCTTGAGAAATTGACCAAGCCTGTTGAGTTAATTGCCACGCTGGATGACAGCGCT -AAATCGGCAGAAATCAAGGAACTGTTGGCTGAAATCGCAGAACTGTCAGACAAAGTCACCTTTAAAGAAGATAACAGCTT -GCCGGTGCGTAAGCCGTCTTTCCTGATCACCAACCCAGGTTCCAACCAGGGGCCACGTTTTGCAGGCTCCCCGCTGGGCC -ACGAGTTCACCTCGCTGGTACTGGCGTTGCTGTGGACCGGTGGTCATCCGTCGAAAGAAGCGCAGTCTCTGCTGGAGCAG -ATTCGCCATATTGACGGTGATTTTGAATTCGAAACCTATTACTCGCTCTCTTGCCACAACTGCCCGGACGTGGTGCAGGC -GCTGAACCTGATGAGCGTACTGAACCCGCGCATCAAGCACACTGCAATTGACGGCGGCACCTTCCAGAACGAAATCACCG -ATCGCAACGTGATGGGCGTTCCGGCAGTGTTCGTAAACGGGAAAGAGTTTGGTCAGGGCCGCATGACGTTGACTGAAATC -GTTGCCAAAATTGATACTGGCGCGGAAAAACGTGCGGCAGAAGAGCTGAACAAGCGTGATGCTTATGACGTATTAATCGT -CGGTTCCGGCCCGGCGGGTGCAGCGGCAGCAATTTACTCCGCACGTAAAGGCATCCGTACCGGTCTGATGGGCGAACGTT -TTGGTGGTCAGATCCTCGATACCGTTGATATCGAAAACTACATTTCTGTACCGAAGACTGAAGGGCAGAAGCTGGCAGGC -GCACTGAAAGTTCACGTTGATGAATACGACGTTGATGTGATCGACAGCCAGAGCGCCAGCAAACTGATCCCAGCAGCAGT -TGAAGGTGGTCTGCATCAGATTGAAACAGCTTCTGGCGCGGTACTGAAAGCACGCAGCATTATCGTGGCGACCGGTGCAA -AATGGCGCAACATGAACGTTCCGGGCGAAGATCAGTATCGCACCAAAGGCGTGACCTACTGCCCGCACTGCGACGGCCCG -CTGTTTAAAGGTAAACGCGTAGCGGTTATCGGCGGCGGTAACTCCGGCGTGGAAGCGGCAATTGACCTGGCGGGTATCGT -TGAGCACGTAACGCTGCTGGAATTTGCGCCAGAAATGAAAGCCGACCAGGTTCTGCAGGACAAACTGCGCAGCCTGAAAA -ACGTCGACATTATTCTGAATGCGCAAACCACGGAAGTGAAAGGCGACGGCAGCAAAGTCGTTGGTCTGGAATATCGAGAT -CGTGTCAGCGGCGATATTCACAACATCGAACTGGCCGGTATTTTCGTCCAGATTGGTCTGCTGCCGAACACCAACTGGCT -CGAAGGCGCAGTCGAACGTAACCGCATGGGCGAGATTATCATTGATGCGAAATGCGAAACCAACGTGAAAGGCGTGTTCG -CAGCGGGTGACTGTACGACGGTTCCGTACAAGCAGATCATCATCGCCACTGGCGAAGGTGCCAAAGCCTCTCTGAGTGCT -TTTGACTACCTGATTCGCACCAAAACTGCATAAGAAGAAGTAAGATTCACCTGCAATTGCTTAGCCGCCGGGGTCAAACC -TGGCGGCTTTTTTATGGCATTAAAAAGCCCCGCCGGGATGGCTCCGGGCAGGGCGGGATACTTATTCTGGCAATTAACGC -ACAACCAGCACCGGCAGATTGGCGTGGCGGATCACGCTCGAGGCGTTAGAACCTAACAGATGGGTCGAAATCGATGGGTT -GCGAGAACCAATAACTACAACATCAGCCCCCAGTTCTTCTGCCAACTCATTGACTTCATCCCGCACGCTACCAAAACGGA -CATGTTGTTTAATGCGGGAAGGATCGATGGTGAAGTGGCTGACCATCGTTTGCAGACGTTCTTGTGCTTCATGTTGCAGA -TGCTCTTCAAAACGACGCACATCAGCGGCAAAACGGTGCAGGCTCAGGCTGGCTGACCCGGGTAGTACGTGAAGTAGATG -AATAACTCCGTCATCCTGGGCGAGGAATTCAGCGTGGCGAACAGCTTTGTCGCTCAATTCCATTTCAAATACATCAACTG -GCATAATGATTGTCTTATACATAACCCTTTCTCCCTGTTAATCATGAACAAATCATTCGCCATGATTATAATATTTATCC -CTGATATTTGTCTGGTTCTTTTTCCTTACGAACTGTTTCTGTGATGAATATATTCTCACTGAACACCAGGAATTCTCCCA -AAACCTGTGGTACCGCCCGTTTTCCCGCTGTGATAGCTACCCTTAAAGACTGACTCTTTTTTGAACTGTCTCTGGAGGTT -GCATGAAAGCATTGACTTATCACGGCCCACATCACGTTCAGGTAGAAAATGTTCCCGATCCGGGCGTTGAACAGGCAGAT -GATATTATTCTGCGTATTACGGCAACGGCGATCTGTGGCTCTGACCTCCATCTTTATCGAGGCAAAATACCTCAGGTTAA -ACATGGCGATATTTTTGGTCATGAATTTATGGGGGAAGTAGTTGAAACCGGAAAGGACGTAAAAAATTTGCAAAAAGGCG -ACCGAGTGGTAATTCCGTTCGTCATTGCTTGTGGCGACTGTTTTTTCTGTCGATTGCAACAATATGCCGCCTGCGAAAAT -ACCAATGCGGGTAAAGGCGCTGCGCTCAATAAAAAACAGATACCAGCTCCAGCGGCATTGTTTGGTTATAGTCACCTGTA -TGGCGGCGTTCCTGGTGGGCAGGCGGAATATGTCCGCGTCCCTAAAGGGAATGTGGGGCCGTTTAAAGTACCGCCTTTGC -TTTCAGATGATAAAGCGCTTTTCCTTTCTGATATTCTGCCAACGGCATGGCAGGCAGCAAAAAATGCGCAGATCCAACAA -GGTTCAAGCGTTGCAGTCTATGGTGCTGGTCCTGTGGGATTGTTGACAATCGCCTGTGCACGGTTGCTCGGTGCGGAACA -GATTTTTGTTGTTGATCATCATCCCTACCGCTTGCATTTCGCCGCCGACCGCTACGGCGCGATCCCGATTAATTTTGATG -AAGACAGCGATCCGGCACAGTCAATTATTGAACAAACGGCAGGTCACCGGGGCGTGGATGCAGTAATAGACGCCGTCGGT -TTTGAAGCGAAAGGCAGCACCACGGAAACGGTGCTGACTAACCTGAAACTGGAGGGCAGCAGCGGTAAAGCGTTGCGTCA -GTGTATTGCGGCGGTCAGGCGTGGCGGCATTGTTAGCGTACCGGGCGTCTACGCTGGATTTATTCACGGTTTCCTGTTTG -GCGACGCCTTTGATAAAGGGTTGTCGTTTAAAATGGGACAGACCCACGTTCACGCATGGCTGGGAGAATTATTACCGTTA -ATTGAGAAAGGATTACTGAAACCAGAAGAAATTGTTACCCACTATATGCCGTTTGAAGAGGCCGCCCGGGGATATGAGAT -TTTCGAAAAACGTGAAGAGGAGTGCCGTAAGGTGATTCTGGTACCCGGTGCACAAAGCGCAGAGGCGGCGCAGAAGGCGG -TTTCAGGTCTGGTGAATGCGATGCCGGGGGGAACAATATGATCGTCAGGAGTGGTTTTCGAGGTAAAGGACAGCCATGAC -GATAATCGCCGCCATAATCAGAAATCCTATCAGGATGTAAAATGCTTCTGCCATGGTTATTCCCACAAACGAAACGGAAT -AATTTTGCAGCAAAAGTGAACAGTGAGAACCAGGAAAAATTGCTGATTTTGCGTAAAGAGGATGCGAGTGCATCCTCTGG -GCAAAGCGAGTTATCGCTTGTGCAGATGGGATTAAAGCAGGTAGTCGCCAGCAGCTTCTGGCTGGTATTCGAGTTCCAGC -ACTTCAAGGTGGGTTGCAACGCCGCCCGGAAGTTCCCAGTGAATGGAATCGCCAACGCGCAGCCCCAGCAGTGCGGCACC -TACCGGAGCCATAACGGAAAGCTGAGTATTGCTATCGGTCATTTTTGCCGGATACACCAGCGTGCGCACACGCACTTCGC -CATCGCTAAGATTGCGGAATTTAACCCGGCTGTTCATTGTCACCACGTCGTGTGGCATCTCTTCTGGCGAACACATTTGG -GCGCGATCCAACTCTGCGTTTAACGCGTCGGCGATTGGCAAACCAGCATAGGCGGGTTGCTCCAGCAGAATATCGATGCG -TTCGGCATCCAGGTCGTTAATGATGATAGTTGGTCTGGACATTTTTACTCCATGTCGTCGGTGCTGCGAGTGTCGCAGAT -AAACATACCCAAAAGAAAACCCTCACCGTCAGGCGGCGAGGGTTTAACTCACATGATGATACTGACTGTTGCTCACTCTT -TGAAGTGATTTGCGTCACATTCAGGGAATTCCTCAATGCAGCGCATTATGTATAAATCTTAATCGCCTTGGTTTATGGAA -GACGAATTAGCGTGTTTTGTAAATCAGATGATTAATAACCCGCTTTATCAATCACAAAGGTTTTGCCACAGTTACCTGGG -TGAGGTTGTGGCAAGAATGAGTTTGCAGAAAGCGGAGCGTTGATGGCGTCAGCTTTGATCGAGATCTGAATTTCAGTCAA -ATACGCAGGGTTACCCTGGCACGTTAGCTTAACTGCTTTCACGTTCTCTTTTCCCCAGCTTTTGGCAAAGGCGGCGTCAA -AGTCACGGCGGCTCACTGTTTTACCGTAATTATCCGCAAGGAATTTTCCGGCTTCGCTCTCTTTAATTTCTTGATTCAGG -CGTACCATCGTACCGAAGTATGCGTCCGGATCAAAACCAAAGCAGGCACCGTGTTTGGCATATTCGTAGCGTTCCAGGCA -GGAACGTCCGCCAGCTCCTGGCATGACTTCACTTAGTTTAGCGGCCGTTTCCAGTGATAATCCGGTTTCCGGCGATGAAC -ACATTCGGCTGGCGCGCGCTTCTGGTAGATTCGGGATTGGGCGAGTAGCGCAACCGAAGCGCATCCAGCGGCGTTCATCA -ACACCACGGGCAGCAACCGATTTAGGCAATCCTGGCCACAGACCATGTACGGTCAGAAAATCAGCTTTGTTGGTCGTTTC -GGTTTGCAGGCGACATTCATCTCGTTCGTTACGATTTCGATCGTGTTGACTCTGGCAAAATCCGGTTTGCCAGGAGAGGG -CCAGGACATAGCGATCAAAATCGCCATACTGTTTTGCCTGCAACGCTAAGGCGTTGGCAGAAGAGAAGGGAAGCAGAGAA -ACCGCGAGCAACGCGGCGTTACGCCAGAATGCTTTCATAATGGGTGTGGAACTCATACATACACTGAATACTATCTATTA -AATCATAAAAAAGCCCGCCAGGTGGGCTTACCTGGCGGGCGTGATGATTTATTCAGCGTTTGGCGAACGTATTAGTTCCA -CATGGCGAGAATCGGCCAGCCAACCAACAGCAACATAGAGATGTAAATCACCCCGAAGATTGCGCCAAGACGCCAGTAAT -CTTTTGATTTCACATAGCCACAGCCGTAAATAATCACCCCAGGACCGGTTGCATACGGCGTCAGACAGCCCATGATACCG -ATAGACAGCACCAGCAGGATACACAGTTGTTCCATTGGTACGCCCGGAATACCTTTACCGACGGCCAGAATAACCGGCAG -CATGGTTGCGGTGTGCGCAGACAGGCTGGCAAACAGGTAGTGTGCAAAGTAGAACACCAGAACCAGTACAATCACCGTTG -CGTTTGGTGAGAATCCTTCCAGGTGCGTACTCATGGTACCGGCGAACCAGTCAATAAAACCAGAACGAGTCAGGCCGTTA -GCCATCACAACCAGAGTTGCCAGGTTGACCAGTGTGTTCCATGCGCTGTTATAGCGGGTAATGTCTTTCCAAGGCACAAC -GTGCAGGGCCAGCATTAGCGAAACTGCCAGCAGACCAACCGCAGTAGCATTAATGACTTCACTGCCAAATACCCACAAAC -CTAAGCTGAGCAATACAAGGCCAATCAGTGTCCACTCTCTGCGTGTCAGCGCACCCATGGTTTTCAGTTCATCACCCGCC -CAGGTTGCCACTTCTTCACTGTGTGTGATTTCCGGTTTGTACAGCACGTAGGAAAGCCACGGCGCAATGATAAGCAAGAT -AACCCCAACCGGCAGGAAGCAGAGGAACCACTGCAACCAGCTAATCTGGATACCGGCAATTTTGCTGACGAACTCCAGAC -CCAGCACGTTTGGTGCCGCACCGGTGACAAACATGGACGAACTCAGACTGGTACTAATGACCATCATCCACATCAAATAG -CCGCCAATACGACGCGCGGACGGATCGTTCGGGAATGATTTAAACAACGGCGGCAGGTTTTTAATGACCGGAAAAACCGT -ACCCCCGGTACGCGCGGTGTTGGAAGGTGTAAACGGTGCCAGCAGAATGTCGATAATGACAATCGCATAACCCAACGTCA -GCGTGCGTTTGCCCATGAATTTCACCAGGAAAAGGGCAATGCGACGACCTAACCCGGAAACTTCATACCCTAATGCAAAA -ATAAATGCGCCAAATACCAGCCATACCGTGGTGCTGGAAAAACCAGCCAGGCCCCATTTCAGCGCCTGTTTTTGCGCATT -AAACGCTGGGTCAGCTAATTCTTTGGCATCAAAGAGCAGGTAATTACTGCCAATAACGCAAATAGTAACCGCAATAAAAC -TGATCGCTGTTGCCGGAATTGGCTCGAGGATCATGCCGACAATCATTGCCACAAACACAGCGAAGTAATGCCATGCCTGC -GGCGGCATACCGTCGGGGACAGGGATAAGAAACATGACACCCATCACCACCAGTGGGGCCAATAGTTTCCATATATTATC -TTTTGCTAAAGACATACGGGTTCTCCGAAAATTAATATTTCCAAATTTATCAAGTGCTTAAATAATTAAATCTGTGCTAA -AAACCAGGTAAGGATCAGTAGGTCAGCACTGCCGCCTGGACTGAGATTTCGTTCGATACACTCCCTGTCGAACTGCCGGA -GATAATCGAGATCGGCGGGGGTTCGAATGCCCCCTTTTTGCAATAATGTTTGCGCCTCGCGCTGTAGCCAGCGCAGGCCC -CCCTCGCCACCGCGCGATGCAACGTTGGTATCGCCGTTGATCGCCATCAGTAGGAGCAAGGTATCGAGCAATGCCAGTTC -AGGATCTAACCCCTGATCCAGCAGAGTGAGGTAATGCGGCAAGGCGTGATTGATCACCAGTGGATAACCCGCTTCGGCTT -CACCGCGTGCGCCGGTAAGGCCAAGCTGTTGGTACAACCGTTGACCTGCCGTCAGTTGTGAATTATTGGTACGCAGTTCG -CGATCGGTCAGGCCACGGCAGAAACTTGCCGCCGTAGAACAAACGGTTGTTGGCGTTACCGGTTGGTTGAGTTGAAGCAA -ACGGCCAATTGCCGCACATAGCAGCCCTAAAGAAAAAATGCTGCCTTTATGCGTGTTTACGCCCGCAGTGGCGCGGAACA -TATCACCTTCGCAAGCCATACCAATTGGGCGTAATCCGTGGAGTACCGCTTCTGGTGCCATTTCCGCACTACAGGCACCA -AATTCAATGAAACGGGGTAGCCAGCCCTGAATCGCCAGCGCGCTGCGGTGGAAATCTTCCAGCGCCATATCTTTGTGCGC -ACCGCAGTTAATGCGATCCACGAGGCCTGGTTTCGGTGACAGATTGACTTCAGTCAGCATGGCGCGCCAGCCCAGCAGGG -CGTACTCATCGATTAATGACGTCGCAAGCTTTGTGGTTTTAGTTGACGTTGCAGGCATCGACATCGTTCAGCAGTGCCTC -CATGCGGTTGAGTAAATCGGTCAGTTGATGGGTTTTTCCACGCGCGCAGACGGCTGCGCTTTGTTCGCACAACAGGCAGC -GGCGAGGCGGCAGTGAATAGTCGCGGCGGGAGAGAATTTCGCCTTCGGGCGTCAGGACATCGATATCCCATAACCGCCCG -AGAGGATGACTATGTTCAAGCTCAATGGTGGCGAGCTTGAGGTCGCGAGCCGGGGCGGCAATGCTCAACATGCCCTCCGG -CCCGCTGGCGGAAACCAGTGCAGCCTGCTCCTGAATTTGCCAGCCCTGTTTTGCGGCTAAGGCACGCAAGGCTGTCACGC -CATGATTAAAAATTCGGCGTGTGACCTCGCTGTCTTTAATCGGCCCAGGCGCAACCACGGTAAAGGAGACCAGTGGAACA -GGATGGCGCTTGAGCCAGACGTGTTGCCGTGCTTGCCTTTCATCCCGGCTGACGAGCAGCTCGGGAATTGATACCGCATG -GTGGCTGGCGAGTTCAGGAAGCAGGTGCATGGCTTATTCCTTCACCTGATGCACAACATCGATCACCGAGCCATCGCGGT -AACGCACAACGGCAACGACGCGGTCTGTGAATTCAATCGGCTGTGGTTCACCGGTCAGCAGACGCGCACGTTCGCGCAGC -CACTCAATGGAAACCACTTTAATGCCCGCTTCCTGCAGACGTTCTGCCAGTTCCGGACGTGCCGGGTTAACTGCGATACC -GTGGTCTGTGACCAGAATATCGACACTGGAGCCTGGGGTGATGCAGGTCAGTACGTTATCCACCAGAGTCGGAATACGAC -CGCGTACCAGCGGCGCGACGATGATGGAAAGCGCAGAGGCAATCGCGGTATCGCAGTGACCACCGGAAGCACCACGCAGT -ACGCCGTCAGAGCCGGTCAGCACGTTAACGTTGAACTGGGTGTCAATTTCCAGCGCGCTCAGTACCACCACGTCGAGACG -ATCAACCGATGCGCCTTTCGAACCCCAGTTAGCGTACTGGTTGGCGCTGATTTCGATGTGATTGGGGTTACGGGCCAGCG -ATTGCGCAGCATGGCTGTCAAAGCTCTGCACATCCAGCAGTTTGCGGATCAGACCTTTTTCGTGCAGGTCAACCATCGTC -GCGGTAATACCGCCAAGGGCGAAGTCGGCGCGAATATCGCGGCTACGCATTTTGTCTTCCAGGAAACGGGTTACCGCCAG -CGATGCGCCGCCGGTGCCGGTTTGCATGGAGAAACCTTCTTTGAAGTAGCCAGAGTTGACAATCACATCCGCAGCGCTAC -GGGCAATAAGCAGTTCGCGCGGGTTAGTGGTCATACGGGTCGCGCCAGCGCCGATTTTTGCAGCATCGCCAACGCGGTCA -ACTTTGACGATCAAATCAACCTGATCTTGCTCAATGCTTGCCGGATTATGCGGATAAGGCAGCAGTTCTTCGGTAAGCAT -CACGACCTGTTTTGCGTTGTCGGCATCAACTATTGCATAGCCGAGGGAGCCGCAGCAGGCTTTACCGGTGTAGCCGTTGG -CATTACCGAATTCATCACAGGACGGGACGCCGAGGAAAGCCACGTCGATATTCAGTTCGCCGCTCTGTACCAGATGCACA -CGACCGCCGTGAGAGTGGATCTGCACCGGTTCTGCCAGCAGACCACGGGAGATCTCTTCCGCCAGTGGACCACGCAGGCC -GGAGGTATAAATGCGGGTAACCACGCCCTGGCGAATGTGTTCTACCAGCGGCGCATGGCAATCACTCAGGGAGCTGGACG -CCAGGGTCAGGTTTTTAAAGCCCATCTTCGCGATGACGTCCATCACCATATTGACGGTCAGGTCACCGCCACGGAAAGCG -TGATGGAAGGAAACCGTCATGCCGTCCTGTAAACCAGAGCGACGAATCGCTTCTTCCAGGTTGGCGCACAGTTTGCGATC -GCGCGCTTTTTCAGCCTGGTAGGTTTGCTTTGGCGAGTTCTGGAAAGCGGCAAGATCGCATTCAGCGCGACGATTCCAGG -CCGCTACCCGTTCTTGTCGTTGAGATTGTTCAATTTTCTGCGTCATTTTGATTGCCTTATTCTTCGCGGATGCCGGAAAG -TTCTGCACGGGAGAGCACCAGACGGGCGCGATCGATAACCGGACCGTCCACCATCTTGCCGTTCAGGGAAACCACGCCGA -GGCCTTCGCGAGCGGCGGCTTCAGCGGCTTCTACGACGCGGCGGGCGTGATCCACTTCTTTCTGGGTCGGTGCGTAGAGG -TTGTGCAGCAGATCAATCTGACGCGGGTTGATCAGCGATTTGCCGTCAAAGCCCAGCTGTTTGATGTGGGCGGCTTCTTG -CAGAAATCCGGCTTCGTTGTTAGCGTCGGAATAGACGGTATCGAACGCCTGAATACCCGCAGAGCGCGCGGCCTGCAAAA -TGGAACAGCGTGCGAACAGCAGTTCAGTTCCTTCCGGGGAGCGTTCTGTACGCAGGTTGCGCACATAGTCTTCTGCACCG -AGGGCGATACCGATCAAACGCTCGGAAGCGTGAGCGATTTCCACTGCGCGGGTAATCCCCAGCGGAGATTCAATCGCCGC -CAGCAGGCCGGTGCTGCCGGGTTCACGACCACAGGCTTTTTCGATACGCAGGATCTCTTTTTCAATATCCAGAACATCCT -GAGCGGTATCGGTTTTCGGCAGACGCACAACGTCCGCACCACCGCGAACGACGGCTTCCAGGTCGTTAACACCCCATTCG -GAATCCAGCGCGTTGACACGCACAATGGTTTCAATATCGCGATACAGCGGATGTTGCAGCGCGTGGTAAACCATGCGGCG -GGCGGTGTCTTTTTCACGCAATGCTACGGAGTCTTCGAGGTCAAACATCAGGGCATCAGCCGGGTAGATGAAGGAGTTGC -TGACCATCGCGGCATTGGCACCAGGCACAAACAACATGCTGCGGCGGGTGCGAGTTTTACGTTGTTGCAGCGAAGCGGAA -ATCATTGGCAATCCTCCCATGGCAGAGCCGGGATACCGCTGGCGCGTGCCAGCAGGGCTTCCAGTCGTGCACGTAAAATG -CAGTCCAGTGCGCCTTTGTCATCGACATTCAGCTGTACGCCGCGCACGTTGTAGCGGGCGAGAACGTCCAGAATGGTGGT -GCGAATTGCATCGCCAAACTGTTTCTCAACGCTGCTATTGATTTGCAGGTCGATATCCTGCGTATCGAGTGGGGCGATGC -GTATCATCACATCCCCAGACTCAAGGGTGCCTGCAACGGCGGGCTGGTTTATTTTCATTTTTCACCTGTTTCTCATGCGG -GGGTCTTTTGACGAGCTGCCGCGTCCTGGCGGGAGTGCTCAAGCAGGTTCTGCAAATAATGCAGCGTGACTGCAGGGACC -AGCGGCGCGATAGCCGTGAGATCGTTTTTCGCCAGCAGTTGACGTACCCGGGAAGCGGATATCGGCATCTCCTGGTAACG -CAGCCGCTCAATTTCAACCAGTTCGATGGGCGGTGCGGAGATAGTCGGCGTTTCCAGCCAGTAGCGCATATCCTGGTTGT -ACTGGGCGGTAACGCGACAAAAGGGTTCAGTACCGACAAAGCGGTGAGTTACACCCAGCGCGGGAGCGAGGTACTGACGG -AAAATCTTCAGATCAATTTCGGTGTAACAATGGTTAATGACGCTCTGTTCTTTAATGAAGTAGCAAGGGAACGTAGCGCG -GGAGATGATGTATTCGGAGCCACGATGCACAGTCAGGCGTGGAATATCGGCGGTGCCTTTTAACACCAAATCCAGCCGGT -CTTCATAGGGGAAGCGTGAAGAATCTTCTTTGACTAAAAACAGATGCAACCAGTCGCACTGTGCCGCAGCCTGTTGAATC -AGATAACGGTGACCATTCGTAAAGGGATTGGCGTTCATCACAATGCAGCCAATCTTGTTCCCTGGATGACGAAATTTTTT -CAGCGATTCGGCATAGCGTTTCAGTCGCGTGGCGCTGTTTTCCATCAGCACCATCACGCCGGGTACGCTGGTCAGCGTGG -AAAAACCGCACTGGCGGAACAGCGCCTCGTATTCGGTTTTGGTATAAATAAACAGATGCGTGCTGTGCCGCTCATAGGCG -AGGTTTATCAATTCAGTGGCTAATGTCAGCGCCAGTCCTTCACCGCGGACGGATTCACTGATAGCAACGCATTTAATAAT -ATTTCCGGCAATTCCACCGCACGCGATAAGCTTTTCATCGCGGGTTACGGTAATAAATACTTCGACTGTGGTGTCAACGC -TCAAATCATTTTCATGCAGGAATTGGGCGATTTCCGCCATTTTTTTATTTTCTGAACGTTTTACGCGGGTGAAAATATCA -TTGCCGAACATAATAAATAGTATCCTGAAGGTGCATGTTGTTATCGATTTGCAACGAATGTTGTTCAATGTTGCAAACTG -ATAACCTTTTATTTTCACTTGGGAGAAAGGGGGTGATCGAGGTATATCTTTTTCTCCTTTCGCTATACATCCTAAGGAGT -ATTTCGGCGTGAAATTTTGATTTATTTCACATAGAGTTAGTGGTTTTTTATTTATTTAATGATTTTAAGTTTTTTAATTA -ATGTAATTACGAAATGACTCGCAGGTTTAAGTGATTTAATTGATTTAATGAATAAAATTTGCCACGATCATAATTAATAT -CTATGTATTTTGATTCAACATTTTAATTACATCCGTCAAAGAGGCTCGGGACAACCCGCAAGGAAAACAATGTTGCAGCT -TAACGAGAATAAACAGTTTGCATTTTTCCAAAGACTGGCATTTCCGCTGCGTATCTTTTTGCTGATTCTGGTGTTCTCAA -TATTTGTCATTGCAGCCCTGGCGCAATATTTTACGGCCAGTTTTGAGGACTATTTAACGCTTCATGTACGCGACATGGCA -ATGAATCAGGCGAAAATTATTGCCTCCAATGACAGTGTCATCTCTGCGGTGAAAACGCGTGACTACAAACGGCTGGCGAC -CATCGCTAACAAATTACAAAGAGATACCGATTTTGATTATGTGGTGATTGGGGACCGGCACTCGATCCGCCTTTACCATC -CTAATCCGGAGAAAATTGGTTATCCTATGCAGTTCACCAAACAGGGCGCGCTGGAGAAAGGGGAGAGCTACTTCATTACC -GGGAAAGGGTCAATGGGGATGGCGATGCGCGCCAAAACGCCAATCTTTGATGACGATGGAAAAGTCATCGGCGTGGTGTC -GATTGGCTACCTGGTGAGTAAAATCGATAGCTGGCGGGCTGAGTTTTTATTACCGATGGCAGGTGTGTTTGTCGTGCTGT -TAGGGATTCTGATGTTGCTGTCGTGGTTCCTGGCCGCGCATATCCGTCGGCAGATGATGGGCATGGAGCCAAAGCAAATC -GCACGCGTGGTCCGTCAGCAAGAGGCGCTGTTTAGTTCGGTTTATGAAGGGCTGATTGCGGTGGATCCGCATGGTTACAT -TACCGCCATCAATCGTAACGCAAGAAAGATGCTGGGGCTGAGTTCCCCCGGACGGCAATGGTTGGGTAAACCCATTGTTG -AAGTGGTCAGGCCCGCCGATTTCTTTACCGAACAGATTGATGAAAAACGTCAGGATGTGGTGGCGAACTTTAACGGTCTG -AGCGTTATTGCCAACCGGGAAGCTATTCGTTCAGGTGATGATTTGCTGGGGGCCATTATCAGCTTTCGTAGTAAAGACGA -AATTTCCACCCTCAATGCGCAACTGACGCAAATAAAACAATACGTTGAGAGCCTTCGTACATTGCGACACGAGCATCTCA -ATTGGATGTCGACGCTCAATGGTCTGTTGCAGATGAAAGAGTATGATCGCGTGCTGGCGATGGTGCAGGGGGAGTCTCAG -GCCCAGCAACAGCTTATTGACAGCCTGCGCGAGGCGTTTGCCGATCGCCAGGTGGCGGGGCTGCTTTTTGGTAAAGTGCA -GCGCGCCCGGGAACTGGGGCTAAAAATGATCATTGTCCCCGGTAGCCAGCTTTCGCAACTGCCGCCAGGACTGGATAGCA -CCGAGTTTGCAGCCATTGTGGGCAATTTACTTGATAACGCCTTCGAAGCCAGCCTGCGTAGCGATGAAGGAAACAAGATC -GTTGAATTATTCCTCAGCGATGAAGGCGATGATGTGGTGATTGAAGTCGCCGATCAGGGCTGCGGCGTTCCAGAGTCTCT -ACGAGACAAAATATTTGAGCAGGGGGTCAGTACGCGTGCTGACGAGCCCGGTGAACATGGCATTGGGTTGTACTTGATTG -CCAGCTACGTAACGCGCTGCGGTGGTGTTATCACTCTCGAAGATAATGATCCCTGCGGTACCTTATTTTCAATCTATATT -CCGAAAGTGAAACCTAATGACAGCTCCATTAACCCTATTGATCGTTGAGGACGAAACGCCGCTGGCAGAGATGCATGCGG -AATATATTCGTCACATTCCCGGATTCAGTCAGATATTACTGGCGGGAAATCTGGCGCAGGCCCGAATGATGATCGAGCGT -TTTAAGCCGGGGCTAATCTTGCTCGATAACTATCTTCCTGACGGTAGAGGGATTAATTTACTGCATGAACTGGTGCAGGC -GCATTATCCCGGCGACGTGGTGTTTACCACTGCAGCCAGCGATATGGAAACGGTGTCTGAAGCCGTACGTTGTGGTGTAT -TTGATTATCTCATTAAGCCCATTGCCTATGAACGGCTGGGGCAAACGCTAACCCGTTTCCGCCAGCGTAAACATATGCTG -GAAAGTATTGATAGCGCCAGCCAGAAGCAAATTGATGAGATGTTTAATGCTTATGCTCGCGGTGAACCTAAGGACGAGCT -ACCGACCGGCATTGACCCCTTGACGCTAAACGCGGTGCGAAAACTGTTTAAAGAGCCTGGTGTGCAACATACGGCAGAAA -CGGTGGCGCAGGCACTGACCATCAGCCGCACCACTGCCAGGCGTTATCTTGAATATTGCGCCAGCCGCCATCTGATTATT -GCTGAAATTGTTCACGGCAAAGTTGGCAGACCACAACGCATATACCACAGTGGGTGACATGATAAAGCCGGAGGAAACTT -GCCTCCGGCATTACTATTTACTTGCCTGTGACCGCTGCTGCCGTTCCTGGCACCATCAGCTCTGTAGCAACGATAACAAT -CACCAAACCAACAAGCACCGGTACCGAGGTGCGTTTTACGACTTCAAACGGCGAGATCTTCGCCATCCCGGCAACCGCAA -CGACTACGCCAGAAACGGGCGAAAGGGTACGGCCAAGGTTTGACGCCTGCAGCATCGGGATAGTCAAATACGCCGGGTTA -ATGCCGGAAGAGTGCGCCAGTTTCGGGATCATCTCAACAAACGCATAAAACGGCGCATTGCCTGAACCGGTCGTGACTGC -CGCCAGCATTGTCAGAATCACCAATACCAGCATCAGGATGATACTCGCCGAACCAAACGAGGTAGCGATAGAAATCAGAC -TTTGAATAAAGCCGATGGTGCTAAGCCCCTGAGCGAATACCCCAGCGGCAACCAGCAGCATCACCACGTTAGCAAACGCA -TCTGCCATCCCGCGATAAGCCACTTCCAGACCAGAGAAAACTTTCTGGGTATTAAAGCTGCGGAGGAACTCCAGAATGGA -GGCAATCAGCATACAAATCACCAGAATAGTGATGATGTGTAATTGCGGACCCCATTTACCGTCAAAAATCAGTACACCGA -TGATCGGCGTGAACGGCAAAATGGCATAAAACGCAGGAGCAGTGGTGGTGATTTCACTGACATCTAACATTTCATGAGAG -ATGTGCTCTTTTTTATCCAGATAACGTTGCCAGAAGAAGTGGGCGATCGCCATGCCGATAATTGCAGCAATTGAGATAGG -CAGCGTCGTTTTGAAGGCGAAGTCAATCAGCGACATTTCGGAAGCTTGCGCCGCCAGCACCACATCCCCTGAAGTCGGTG -CGAGAATAATCGCCGCCGGGGAGGCACAAATGGCAGCAGCTGCGCCACGACTGATACCAACGTTTACCATCACCGGAAAT -AGGGTTGCCATCAGCAAAACACCCAGACCGGTTGCGGAAGAGACGGCCAGAGACATCAGACAGGCGACAAAATAGGCGGC -AATCATCAGCAGGTAAGGGGAGTTAATATACTGCAATGGTTTTGACGCCAGCTTGACCACCATATCATTCGCGCCGATAT -GGGTCATGTAAGCGGCAAATCCACACAGCATCATAATCATCATGCCGAGGTCGCCGCCGCGGCTCATTAGTAATATTTTA -ACGTATTCAACGATATCCGTGGCGCTGTAGCCTGTTGAAGCCTGGCTGGACGGTAACACTTTGTGCCCCATAATGGCACT -GATAATCAGCAATAACAGGCCACCGACAAATAACACACCAGTGGCGGAATACCCTTTAATGATGTAGCGAGCTACACCCA -CAATAACCACAACCCCAATAAGGAGCTCAATGAATGTCAGCATAATTTTTCCTGTCTCCAGGCCCCAAAGTAAATAATAA -AAAATTCCTAAAGCTTAAGGAAAAAATATGCCCAATAAATTGGCGATGAATGCTGATTAAAATCAAGAAAAACTGCCATT -AAGACATTGAAGTTGCTGTTTTTATACATAGATAACAAAACGCATATTTAGCGGTTGGCAATTATCACATAATAATGTGT -GCAAATTGATGGTGGATTGATGCAAATTTGTTAATTGCAATGGTGTTAGCTGCGGCTGTGCGCTCAAAAAATAATCTAAT -ATGAGCATAGGTTGACGATATATATTATATACTTCGTTAAGATGATTGTTGTATCTCGTTAAAAAATAAAATAATTTTTC -CTTGATTGCATTTTGTCATCAAAAAAGACTTGGTTTTTCTTTTTTGACTATTCCCATCGCAGAAAACGACGCATCATCTT -TAATCGATGCGCGGAAATATTTAACTTGAACAAGCGGAAATAAATAGAGCAGCTATTCAGATTATTCTTTATGTTGGGTC -TATTAAGGTTATGTTAATTGTAGCTTTGCTATGCTAGTAGTAGATTTTTGATAAATGTTTTATGGTCACAAATGAACGTG -AGTAAATATGTCGCTATCTTTTCCTTTGTTTTTATTCAGTTAATCAGCGTTGGTAAAGTTTTTGCTAACGCAGATGAGTG -GATGACAACGTTTAGAGAAAATATTGCACAAACCTGGCAACAGCCTGAACATTATGATTTATATATTCCTGCCATCACCT -GGCATGCACGTTTCGCTTACGACAAAGAAAAAACCGATCGCTATAACGAGCGACCGTGGGGTGGCGGTTTTGGCCTGTCG -CGTTGGGATGAAAAAGGAAACTGGCATGGCCTGTATGCCATGGCATTTAAGGACTCGTGGAACAAATGGGAACCGATTGC -CGGATACGGATGGGAAAGTACCTGGCGACCGCTGGCGGATGAAAATTTTCATTTAGGTCTGGGATTCACCGCTGGCGTAA -CGGCACGCGATAACTGGAATTACATCCCTCTCCCGGTTCTACTGCCATTGGCCTCCGTGGGTTATGGCCCAGTGACTTTT -CAGATGACCTACATTCCGGGTACCTACAACAATGGCAATGTGTACTTTGCCTGGATGCGCTTTCAGTTTTGAGACAAATG -AAGTTTTAGTAACTTCTTTAAAATCAATAGCTAAAATAAGTAACATCAAAAATAACGCGACTTTTATCACTTTTTAGTAA -AGTTACACTGGACAAAGCGTACCACAATTGGTGTACTGGTAACCGACACAGCATTTGTGTCTATTTTTCATGTAAAGGTA -ATTTTGATGTCTAAGATTAAAGGTAACGTTAAGTGGTTTAATGAGTCCAAAGGATTCGGTTTCATTACTCCGGAAGACGG -CAGCAAAGACGTGTTCGTACACTTCTCTGCAATCCAGACTAATGGTTTTAAAACTCTTGCTGAAGGTCAGCGCGTAGAGT -TCGAAATCACTAACGGTGCCAAAGGCCCTTCTGCTGCAAACGTAATCGCTCTGTAAGATACGTCAGCAAGAATTCAAAAC -CCGCTTAATCAGCGGGTTTTTTTTGGTCTTTAGTGTGCGGTTGAGGCCGAAAACAGCCAGAATGCCAGTGCGGTCATGGC -AAAAGACCCCAGAAGGTTGACGAAAACGTTCAGTAATGCCCAGCCAAAGCGGCCCTCTTGTAACAAAAACACCACTTCTG -CCGAAAATGTTGAGAAGGTTGTTAGACCGCCACAAAATCCGGTGGTGATTAATACTTTCCACACTGGATCAATGTTCGTC -ATCCTGCTGAACCATGCGAATCCTATTCCTATGATGAATGCCCCAATCAGGTTTGCTGTCAGCGTCCCCAACGGAATCGC -CTGATGCAGTGGGTTAAATCGCATACTTAACAGCCATCTCGCCACGCTTCCCGTACCACCGCCAATAAAAACTGCTAAAA -GAAGTTGTAACACTGCAAAATCCTGCTATTTGATTTGTATGAGTGATAAGTGTAACGCCGAATAATCGTCGTTGGCGAAT -TTTACGACTCTGACAGGAGGTGGCAATGCTGGTTGCCGCAGGACAGTTTGCTGTTACATCTGTGTGGGAAAAGAACGCTG -AGATTTGTGCCTCGTTGATGGCGCAGGCGGCGGAAAACGACGCATCGCTGTTTGCCCTGCCGGAAGCATTGCTGGCGCGC -GATGATCATGATGCAGATCTATCGGTTAAATCAGCACAGCTGCTGGAAGGCGAATTCCTCGGACTTTACGGCGAGAAAGT -AAACGTAACATGATGACGACAATTCTGACGATTCATGTTCCTTCAACGCCGGGGCGCGCATGGAATATGCTGGTGGCACT -TCAGGCAGGAAACATCGTCGCCCGTTATGCCAAACTGCATCTCTATGATGCATTTGCCATTCAGGAATCACGCCGTGTTG -ATGCTGGTAATGAAATCGCTCCGTTACTGGAGGTGGAAGGGATGAAGGTCGGTCTGATGACCTGTTATGACTTACGCTTT -CCAGAGCTGGCGCTGGCACAGGCATTACAGGGAGCTGAAATCCTGGTACTTCCTGCCGCCTGGGTTCGCGGGCCGCTCAA -AGAGCATCACTGGTCAACGTTGCTTGCCGCTCGTGCGCTGGATACCACCTGTTATATGGTGGCGGCGGGGGAGTGCGGGA -ACAAAAATATCGGTCAAAGCCGGATTATAGATCCCTTTGGCGTCACCATTGCGGCAGCGTCAGAAATGCCTGCACTCATT -ATGGCGGAAGTGACGCCCGAACGTGTGCGTCAGGTGCGCGCGCAACTGCCCGTCTTAAACAACCGTCGCTTTGCGCCGCC -GCAATTATTATGATGTTTTTTTACTCGGCGCTTGATTCACCTTGTTACAGATTGCTATTGTGTGCGCGCGTCGAATGACC -GTTAATATTCTCTGGTTTTTAAGGCGCGTTCTGTTGCCGGTTATATGTCAAGAAGGTATCTATGGGTGAGATTAGTATTA -CCAAACTGCTGGTAGTTGCGGCGCTGGTCGTTCTGCTGTTTGGGACTAAGAAGTTACGTACGCTGGGCGGAGACCTTGGA -GCGGCCATTAAAGGGTTCAAGAAGGCGATGAATGATGACGATGCTGCGGCGAAAAAAGGCGCAGACGTTGATCTTCAGGC -TGAAAAGCTCTCTCATAAAGAGTGACGTGGCGAGCAGGACGCTCCCTCAATATCTTGTTCGATACAAAAAACCCGCTTCA -AAAAGCGGGTTTTTTATCAGACAGATGTAAGTAATTATTACAGGATTACTTAACTTCCATCCCTTTCGCCTGCAAATCGG -CGTGGTAAGAAGAGCGGACAAACGGACCGCATGCAGCATGGGTAAAGCCCATCGCCAGCGCTTCGGCTTTCATTTCGTCG -AACTCATCCGGGCTAACGTAACGTTGAACCGGCAGGTGATGGCGGCTTGGCTGCAAATATTGCCCCAGCGTTAACATCGT -CACACCATGACGGCGCAGGTCGCGCATTACCTCAATAATTTCTTCATTGGTTTCACCCAGTCCCACCATCAGACCAGACT -TGGTCGGGATTTCCGGATGCGCTTCTTTAAAGCGTTCCAGCAGCTTCAGCGACCAGTTGTAATCTGCACCAGGCCGTACC -TGACGGTAAATACGCGGTACGTTTTCCAGGTTATGGTTGAACACATCTGGTGGCGTTGCAGTCAGAATATCCAGAGCACG -ATCCATACGACCGCGGAAATCCGGCACCAGAGTTTCAATTTTGATTTGCGGGCTTTTTTCCCGAATGGCAGTAATGCAAT -CCGCAAAGTGCTGGGCACCGCCATCGCGCAGGTCATCACGGTCAACGGAGGTGATAACCACATAACGCAGCGCCATATCG -GCAATGGTCTGCGCCAGTTTCACTGGTTCATTGGCATCAGGAGCTACCGGGCGACCGTGGGCAACATCACAGAACGGACA -ACGGCGGGTACAAATAGCGCCGAGGATCATAAACGTTGCTGTGCCGTGGTTGAAGCATTCCGCCAGGTTAGGGCAGGAGG -CTTCCTCGCAGACAGAATGCAGGCCATTTTTGCGCATTGCGGCTTTGATGCCCTGGATACGTGTAGAGTCCGCTGGAAGC -TTGATTTTCATCCATTCCGGCTTGCGCAGCAGGGCTTCGCGCTCTGTTGCCACGTTTTTAACCGGGATAAGGGCCATCTT -ATCGGCATCGCGGTATTTAACACCGCGTTCCATCACAATGGGTTTACTCATAGCGTGCGTGTTCCAGTTGCGAATTACGA -AGGAAAGCGTTTCAATTCAATAGATTGTTGTAATTATCAACTATTTTTGAATTAACGACTGGCAGTATATCATTGAAACG -GACCTGAAAGCAGCCAAAGCGGTCGCGAAAATGTAAAATTGTTGTTGGATTGTGCCATTTTATCGTTCTGCGCTGTGATC -TGGCTGTAACAATACTTTTTCAAAATGCATTACGGATAACATCTATTACTCCGTGCAGGATGGGATCACGCAGGCTGAAT -TTGTTGTAGTGGATAGAGAAATCTATTTGCTCCTCATTTAAGGACGGAAAAGGCAGTTTTTCCAGCGGCCAGCAGCGGCT -AAACAGGTTATAAAAACGGCTGGGAATAATCGCTAACATGTCACTGTTGGCAACCAGTGCAGCGATTGTCAAAATGTTGT -AGCTGGTGAAATTGATTTGCCGGTCCGGAAACATTTCTTGAACTCTCTGCCGCAGACCGCTGAAATTTTGCTCTTCCGGT -AACAGAAGTACATGCGCAGCGTTGTCGATAGTCTCTCTGTCATCTTCTAAAGAGAGTAGTGGATTTCCCTCGCGGCAAAT -TAACACCATATTGTCGGTGAACAGAACATGATGTTGCACCGTACGATTGGTGCAAAACATGTTATCGATGATGAGATCGG -TTTGAAACTGACTGAGTTGGTTTTCCGCGTCGCTGATGGGCGGGTTGCGCAGTAAAAGCTGCGGATAGTGAGTTTTAATC -GCCCGATAGATGACAGGAAGGACCAGTGCTCCGACCGAGGGAGTGGTCGCAATAGTTATCGTTCGTTGCTTATCATAGCT -TCCTTCGATATCCAGCGCGCCAAGAATGGACTCAAGGCCCTGACTGATATACTCATGTAGATGCATCGCAAATGCGGTAG -GAGTGACACCCTGGCCTTTGCGAATAAACAATGGGTCAGGGAATATAACGCGCAGTTTCTGAATAGACTGACTGATTGCC -GAGGGGGTCAGATTAAGCACTTTCGCTGCATTAACGATCCCTTTATGTACATATACAGCTTCAAAAATAGTCAGAAGGTT -AAGATCAATATTTCGTAAGGTTGTAAATATTTGTGGTTTACCTTCTGACGACTTTCTGCTTAAACAGGGTTCAATTTGAT -TATTACTATCCACGCACTTACTCCAATTTTATTCATGGAAAAATAATATTTAAAAAATTACAATAATCTTATGTCTAATT -GGAACGGAACGCTTTTGCTCACCATAATCAACTATTTCAATAGGTTAATCAATGGGGTGAGTTACGGAGCAAGGCGTGGC -ACCGCATTTCTGCAAGTGATAAAGAAAATATACAAACGCGAAGGAGATGTAAAGCATTAGCAGATATTATGAGTAATGAC -CCAGTGTAAATTGGGCCATTGATGTATGGAATTAAGCGGTAATATATTCGAAGTCCGGATTGTTTAGTAGCGCTAAAATA -TTTTCCAGTAAACGTGGAGCAATATTATTAGTCGTCGCTTCGGGTTTCCATTGTGATATTTTAGCCATTTCCATTCCGGC -ATACCCACAAGGATTAATACGTAAAAATGGTGAAAGATCCATATTGACGTTTAATGCCAGACCGTGGAATGAACAACCGC -GTCGAATACGTAAACCCAGTGAGCAAATTTTCTTTTCCCCAACATAGACACCTGGCGCGTCAGCCCGAGGATGCGCTTCT -ATACCCAGTTCAGCCAGGGTATTCACCACTGTTTGCTCAAGCAAGGTCACCAGTTCACGCACACCGAGTTTACGGCGTTT -CAGGTTAAGCAACACATACATCACCTGTTGCCCCGGCCCGTGATAAGTCACCTGCCCACCGCGATCGCTCTGGATCACCG -GAATATCACCCGGCATTAAAATGTGCTCCGCTTTTCCTGCCTGACCTTGGGTGAATACCGGATAGTGCTCGACCAGCCAG -ATTTCATCAAGGGTACTATCATCGCGGGTATCGGTGAATTCATGCATAGCCTGGGAGATTGGCTCGTAAGGCTGAAGACC -GAGCTGGCGGACAAGAATTTTATCCTGATACAAAACGGCATCTCCGTGGAGAATGAGTAAAAGTGGGGGAAAAGTATATC -ACAGCGAGGAGAGGGGAGTTACCCGACCAGGAGCCGGGTAACGGAGAAGCGAGTTACAGAACCATGCGGACAATATCGAT -TTTGCCCAGTTCTTCATACAGTGTTTCAACCTGCTCGATATGAGTGGCGTTGATAGTGATAGATACCGAGTGGTAGTTGC -CTTTGCTGCTTGGTTTTACCGTTGGGGTGTAGTCACCTGGCGCATGGCGCTGTACCACTTCAACCACCTGATCAACCAGC -TCAGGTAACGCCTGCCCCATAACTTTGTAAGTAAAAGGAGTAGGGAATTCAAGCAGTTCGTTAAGTTTGGTTTTCATGTC -AGCTCCGGCGTAACGTAATTAAATAGCAACTCCCGCCAGAAGGCGGGAGTTTTTTACTGATGCTTAGTATATGGGGACGG -AAATTACACTTTCAAGTGTTTAATTTTTAACCAAACCAGTGATGGAACATTAATTTAATGTAATCAATGATTTTGCCGAA -GAAGTTACCTTCCGGGATTTCTTGCAACACAACCAGCGGGCGTTGCTCGATCGTTTTGCCATCAAGCTGGAAGTTGATAG -TTCCGACGACCTGATTCTTTTGCAGCGGCGCATGCAATTCACTGCTGTTCAGCACATAGCTGGCTTTCAGATCTTTCATG -CGACCACGCGGAATGGTCAGGTACACGTCTTTATCAACCCCTAACGAAGCGCGATCAGAATCACCAAACCAAACCGGTTC -AGAGGCGAACTCTTTACCTACTTTCAGTGGGTTAACGGTTTCAAAGAAACGGAAGCCCCAGGTTAGCAGTTTTTTACTTT -CGGCTTCACGGCCTTTAAAAGTACGTCCGCCCATTACCGCAGAAATCAAGCGCATCTGGCCTTCAGTCGCAGAAGCAACA -AGGTTGTAACCTGCTTTGTCAGTGTGTCCGGTTTTGATGCCGTCGACATTCAGGCTGTTATCCCATAACAGGCCGTTACG -GTTCAGCTGGCGAATACCGTTAAACGTAAATTCTTTTTCTTTATAGATCGAGTATTCATTCGGTACGTCACGGATCAATG -CCTGGCCGATCAGCGCCATATCTCGCGCGGAGCTGTACTGACCATCAGCATCCAGACCATGTACCGTCTGGAAGTGGGTA -TTTTTCAGGCCCAGTGCGTTAACGTAGCTGTTCATCAAGCCAACAAAAGCGTCCTGGCTACCAGCGGCAAAATCGGCCAT -GGCGACACAAGCATCGTTACCCGATTGCAGGTTAATACCGCGGATCAGCTGAGAAACCGGAACCTGCATGCCCGGTTTGA -GGAACATCAGCGAAGAACCTTTAAACACCGGGTTACCGGTGGCCCATGCGTCGTTGCCGATAGTGACTAAATCAGTTTCT -TTAAATTTACCGGCTTTCATTGCCTGGCCGATAACGTAACTGGTCATCATTTTGGTCAGGCTGGCAGGATCGCGGCGGAC -ATCTGCGTTCTGTTCGGCGAGCACTTTGCCGGAGTTATAGTCAATCAGGATGTAGGACTCCGCATCGATCTGCGGTACAC -CCGGGATCATAGTTTTGATATTCAGGTCATCGGCATGTGCAGCAGAGATAAAGGCTGTGCAAAGAGCCGTGGTGAGCGCC -AGGCGCTTCATGATACGAGCGGAAAAAATGGTATTCATGGTCTGAACTACGACATCCGTGATGGAATTAAAAAAGTGCCC -TACTATAGCAAATGCACTACCGGCAGGCATCTGACTTTCCGCGTGACTTTGTTAACGTCATTTACAGAAATTGACACATC -AGATGCCTGCTTTACGCTACTGCGCGGTAGTAATAAATGACTGTAATTGGGCTTCGGTTTGCAAACGTTGCTGCAAGGTA -CTGGCTTCGGCTTTGCTGGCGAATGGGCCAAGCTGGATCCGCCAGACCGCGCCATTTTGAGTTACGCGACCGGGGACGCC -GAACTTCTGTCCCAGTTGCTGTTGGTACTGTTGCGCACGAGCCTGATCGCTTACGGCCCCGACTTGCACCATAAAGTTGC -CGCTGGCGCTTTGCGAGACGGCTTGCGGTGTCACCATTGCAGGCGAGGTTGCAGGCGTTGTCGACGGAGCTGTAACAACG -GGCTGTGGCGCAGGCGTCGGTTCGCTGCCTTCCAGTACACCAGGCGCTAAGGTCGTTGGTGCGCCGAGGAAACCGCTACT -GGTTACCGGCGCGCCGGTCGGATCTTCGCTTTTTAGCGTCGAATTACTGACCGGAAGAATGTCACCCTGCGGGCCAGACA -CTGAACTTGTTCCCGCGCCACCGCTTAAATCGGGAGGTGCAGGCAGGGCGTAAGTCTGTTTGGCGACTGTGGTACAAGCC -ATACCAGGACCAGAAAGCGAACCATCCTGGGCAACAATAATCGGATCGATACGAACTTTGGTGTTGTTTGACGTGTTAAG -ACGGTCAGCTGCCGCGCGAGAAAGTGAAATAACGCGGTCGTTGCCGTAAGGGCCGCGATCATTAATGCGCACCACGATCA -TTCGCCCGTTAGCCAGGTTAGTGATTCTGGCGTAGCTGGGGATCGGAAGCGTTGGATGGGCTGCCGTCAGCTGTGTCGGA -TCGAATGCTTCGCCAGAGGCCGTCAGGTTACTGCCGGGTTCGGCATCATAGATTGCCGCCAGTCCCGCCTGGCTAAATCG -AGACGGATCCTGCACGATTTTGTAGCTTTTACCGTCGCGCTGGTAATCCTGATTTGCCGTCGCGTTCAGTGGTTCGAAAC -GCGGGTCCGCCCCGCTAATTTCAACTATAGGGCCGTTACATACCGCAGGCTGCGGTACACTTACCGTCTGTTGCTGACCA -TCATCGCTTGTACATGCCGCGAGCATTCCTGCCGCGATGCAGATCCCGAGCCACTGCTTACGCATTGCGCACCTCTTACA -CGCTTTTCGACAACATTTTCCTGTGGGTGTGGATTGACATTACAATCCCGAACCCAGCCATCAGCACAATTAGCGCCGAT -CCTCCATAACTGACCAGTGGGAGCGGAACCCCTACAACCGGCAGAATACCGCTTACCATACCAATATTTACGAAGACATA -AACGAATAATATCAGCATTAAGCCGCCAGCCATGACGCGACCAAAGGTGGTTTGCGCTCTGGCGGCTATCCACAGCCCGC -GCATGATCAGCAGAATGTAGAGAGCGAGCAGAATCAGAATGCCCACTAATCCCAGCTCTTCCGCCAGTACCGCGAAGATA -AAGTCAGTATGGCGTTCGGGGAGAAATTCAAGCTGTGACTGAGTGCCGTGCAGCCAGCCTTTGCCGCGTAATCCGCCGGA -GCCAATAGCAATTTTAGACTGAATAATGTGATAGCCCGCGCCGAGTGGGTCTGATTCCGGGTCCAGGAGCATCATTACGC -GCTGGCGCTGGTAATCATGCATCAGGAAGAACCACAGAATCGGAATGAACGCCGCTACCAGCACTACTGCGACGCCAATC -AGACGCCAGCTAAGGCCAGAGAGGAACAGTACAAACAGACCGGAAAGCGCAACGAGGATTGATGTTCCCAGGTCAGGCTG -TGCAGCCACCAGCAGCGTGGGCATAAATATCAGCACCAGCGCGATGCCAGTGTTCTTCAACGATGGCGGGCAAACGTCGC -GGTTGATAAAGCGCGCAACCATCAGTGGTACGGCTATTTTGGCAATTTCCGACGGCTGAAAACGAACAATACCGAGGTCC -AGCCAGCGTTGAGCACCTTTAGAGATGGCACCGAAAGCATCTACCGCCACCAGCAAAATAATACAGATGATATAGAGATA -GGGGGCCCAGCCTTCATAAACGCGTGGAGGAATTTGCGCCATCACCACCATGATGACCAGACCCATCGCGATTTGGCCGA -TTTTACGCTCCATCATGCCAATATCCTGACCGCTGGCGCTCCAGATAACCAGGGCGCTGTAAACCAGCAATGCCAGTAAG -ATCAGCAGCATTGTGGGATCGAGATGGACTTTATCCCAGAATGTTTTTTTATTCGGATTATCCGTCATGATTAATGGTCC -TCCGCTGCGGCAACCGCTGGATTTTCCGCAGGCAGATCGGTGTTGTTATCACCCAGCATAATGTGGTCGAGGATCTGGCG -CATCAGTGTACCAACCGCCGGACCCGCACCACCGTTCTCCAGAATCATGGCGACAGCCACTTGCGGATTGTTGTATGGCG -CAAAGGCGGTCATCAGTTTGTGGTCACGTAAACGCTCGGCAATTTTGTGCGCATTATAGGTTTCGTTCGCTTTCAGACCG -AAGACCTGAGCGGTACCGGATTTCGCCGCAATTTTGTACGGTGCGCTAGCAAAGTATTTATGCGCCGTACCGTTAGGGCG -GTTAGCAACACCGTACATACCGTCTTTCGCCAGCTCCCAGTAACCGGAATGAATATCGCCGACGGGCGGTTCATGCGGCT -GTACCCATGGCACCTGTTTGCCGTCTTCGGCGGTGCTCATCAGCAAATGAGGAACCTTCACGATACCGTCATTAATCAGG -ATCATCAGTGCCTTACTCATCTGGATTGGGGTCGCTGTCCAGTAACCCTGACCGATACCAACCGGAATGGTGTCACCCTG -ATACCACGGTTTTTTAAAGCGTTTCTGTTTCCATTCGCGGGTAGGCATGTTGCCGGAACGTTCTTCCGCCAGGTCGATAC -CGGTGTAATGACCATAACCGAATTTACCCATCCATTCGGAGAGGCGATCGATCCCCATATCGTAGGCCACCTGATAGAAG -AAGGTATCCGCAGATTCTTCCAGCGATCTTGTGACATTCAGACGCCCGTGGCCCCATTTTTTCCAGTCACGATAACGTTT -TTCCGAACCTGGCAGTTGCCACCAGCCTGGGTCAAACAGCGTCGTATTGCGCGTGATCACCCCGGCGCTCAATGCCGAAA -CCGCCACATAGGGTTTAACTGTAGACGCGGGAGGATAAACCCCCTGTGTGGCGCGGTTCACCAGCGGTGTATTCGGATCG -TTCAACAAGGCGGAATAATCTTTGCTGGAGATACCGTCAACAAACAAGTTTGGGTCATAACTAGGCGTGGAAACCAGCGC -CAGCACCCCACCTGTACGCGGATCGGTGACTACCACAGCTGCGCGGCTACCCGCCAGCAGCGTTTCAATATATTGCTGGA -GTTTGAGATCCAGCGTCAGGTAAATATCGTGTCCGGCTTGCGGTGGTACTTCTTTTAACTGGCGAATAACACGCCCACGG -TTGTTAACTTCAACCTCTTCATAACCGGTCTGACCGTGCAGCACATCTTCATAGTAACGCTCAATGCCCAGCTTACCGAT -ATCATGCGTTGCCGCATAGTTGGCCAGTTTGCCGTCATTATTCAGGCGTTCGACGTCTTTATCGTTGATTTTCGACACAT -AGCCGATGACGTGGGTCAACGCCGAACCGTAAGGATAGTAACGACGTTTATAGCCTTTAACTTCGACACCCGGAAAACGG -TACTGATTGACGGCAAAGCGAGCTACTTGTACTTCGGTCAGGTTAGTTTTCACCGGAATAGAGGTGAAACGGTGTGAACG -TGCGCGCTCTTTTCGGAATGCAGCAATATCGTCATCGGTCAGATCTACCACGCTGCGCAAAGCGTCCAGCGTTTGCTGCA -CGTTATCGACTTTCTCCGGCATCATTTCTATCTGGTAGATAGTGCGGTTGAGGGCCAGAGGGATACCGTTACGATCGTAG -ATAATGCCGCGGCTGGGCGCGATAGGCACCAGCTTAATGCGGTTTTCATTAGAGCGGGTCTGGTAGTCGGTAAAGCGAAC -AATTTGCAGATTATACAGGTTGGCGATAAGCACGCCGGTCAGCAGCAAAATCCCCAAAAAGGCGACCAGCGCCCGGCGCA -CAAACAGCGCGGACTCTGCCGTATAGTCGCGAAAAGAGTTCTGTAGTTTCATCCGCTGCGTTTTCTACTCAAAGCTCCCT -TATCACTCACGGTGATAAGGATGGTTGGTGGTGATGCTCCACGCCCGGTACAGACTCTCTGCGACCAGCACGCGAACCAG -CGGATGGGGGAGGGTAAGCGCCGACAGCGACCAGCTCTGCTCAGCCGCCGCTTTACAGGCAGGCGACAACCCTTCAGGCC -CGCCAATCAGTAGACTGACGTCGCGACCATCCAGCTTCCAGCGTTCCAGCTCAGCGGCTAACTGCGGCGTATCCCAGGGC -TTGCCTGGAATATCGAGGGTGACAATGCGGTTTTTGCCTGCGGCCGCCAACATCTGCTCACCCTCTTTGTCGAGTATGCG -CTTGATGTCCGCATTCTTGCCGCGTTTTCCGGCCGGAATTTCAATCAGCTCGAAGGGCATATCTTTCGGAAAACGACGCA -GGTACTCGGTAAAACCGGTTTGTACCCAGTCCGGCATTTTCGTTCCCACGGCGACAAGTTGCAGCTTCACGCATTAACTC -CAGAGTTTTTCCAGTTCATACAGGCGACGGCTCTCTTCCTGCATGACATGGACAATCACATCGCCCAAATCCACGACAAT -CCAGTCGGCGCTGTTTTCACCTTCTACGCCGAGCGGTAACAGGCCCGCTGCGCGAGACTCCTGCACAACGTGGTCAGCAA -TGGACATAACATGACGGCTGGACGTACCCGTACAGATGATCATGCAGTCGGTGATGCTGGATTTGCCCTGAACGTCTAAG -GCGATGATGTCCTGACCTTTGAGGTCATCAATTTTGTCGATAACAAAATCCTGGAGTGCTTTACCCTGCAAGTTTTCCCC -CTGGGTGAATCAAATAGATAAAAATGGTCTGTCAGTATACCTGAACCAGAGGCGATTTCGGGACAATTGTCGCCGAATCG -GCTTTCGAAAGTGGGCTATCATCCCACCCCGCGCCGCAGATTGCATCGCCATTTTTGTAAAACAATTTCTACAAAGTCGT -GTCTGGCGGAAAAAGTCTGGCTGCGGAGAATATCAGCCTGCCCGGGTCTGTCAATGGTCGTTGCGGCTTACCCGTAAAAA -AACAGAAAAGTCATGCATTCTCGACCCCGATGGCACGGCTATTGAGGACGCGTAGCGTCGCGAATTTTTGGTTGATATCA -ATGGCGCTCCAACACCCCTGGTCAACGCGAAAATGCCACATAGCTTCGGCAGGCATGCCAATTAAACGGGCGATTAACAG -ACTCAGTACACCCTGATGGCTGACGACTAAAATATTCTGATAGTGCTGAAATTCACTAAGCCTTGCGATAAAGCGTTCCA -CACGTTGCGAAAATGCCTGAAATCCTTCACCGTTCGTGGGGATTGCATGCTGCCAGTCATTGCACCACGCGCTATAGTTT -TCGGCATCTTCTTGCATGAGGTCGCGATGATGTCGCATCTCCCAGTCGCCAAAAAACATTTCGTTGAGTTCAGGTATGAT -TTGCACGGGGAGCTGGCGGTCACTGAGAACCAGTCGCGCGGTATGCTGTGCCCGTTCCAGTTCACTGCATAAAACCAGAT -CAAAGGAAACACCATGTAGCAGCGTATGCAGATTTTGCGCTTGCTCAATACCGCGCGCGGTCAGGGGGGTGGGCGCATGA -CCGCTGTAAAGACCATCGATATTCGCTTGCGTTTCACCATGACGAATTAACCACAGTCGCATCATGCCCTCCGTAACGAC -AGGTATCAGCGATACAAGCCTTGTTGGTTAATGTAAGTCAGTACCGGTTCCGGCAATAAATCCTCACATGATTCACCGTT -TTGCAAACGTTCGCGGATGATGGTCGCCGAGATGTTAAACCACGGCGTTTCAGCCAGATAAATTTTACCGGCAGGCTGAA -GGTGAAGATCTTCCGGGTTATGTGTCAAATGATCTTCCAGCCATTGCTGGTATTGCGGTTGCGCCATTTCAAGTGGGTAA -CCTGGACGCCGACAGACGATCAAATGTGCATTGTCGAGTATCGTTTCGTATTCGTACCAGGTCGGAAAGGTCAGCAGTGA -ATCCTGACCAATAATAAACGCCAGCGGCACGTCCGGTCCTTGTTCCTGCCGCCACTCTTTCAGTGTTTGCGCAGTGTAAG -AGGGGGCATTGCGCTTTAGCTCGCGTTCATCAAGAGTAAATAATGGCTTGTCGGCAATCGCCAGTTCAAGCATGTGTTTA -CGCTGCACGCTGTTCGCTTCCGGCTGGGGACGATGCGGAGGAACATTATTAGGGATGATTGTGACCCGCGTCAGACCAAT -CAAATTCGCCAGCGTTTCCACGGGTTTTAGATGACCATAGTGCACCGGATCAAAGGTGCCGCCAAACAGAGCCTGTAAAG -ATTTCATATCAACCGTCGATAAATACGTCCGCCAGGGGTTTATGGCACAACAGAAGAGATAACCCTTCCAGCTCTGCCCA -CACTGACTGACCGTAATCTTGTTTGAGGGTGAGTTCCGTTCGTGTCAGGAGTTGCACGGCCTGACGTAACTGCGTCTGAC -TTAAGCGATTTAACGCCTCGCCCATCATGCCCCGGCGGTTCTGCCATACCCGATGCTTATCAAACAACGCACGCAGTGGC -GTATGGGCAGACTGGCGTTTCAGGTTAACCAGTAACAACAGTTCACGTTGTAATGTGCGCAACAAAATAACCGGTTCGCT -GCCTTCCAGACGCAGTTGCTGAAGAATATGCAATGCGCGCTTACTTTTTCCCATCAACAAAGCATCAACCCAATGAAAAG -GGGTGAAATGCGCGGCATCATTCACCGCCTGTTCAACGCGCGGTAATGTCAATTTGCCGTCTGGCCAGAGCAGCGATAAA -CGCTCCAGTGCCTGAGCCAGCGCCAGCAGGTTACCTTCATAACAGTAGCAGAGCACCTGATTTGCCGCGTCATCCAGTTC -TAAGTTGAGCTGTTTTGCGCGCGCAGCAACCCAGCGGGGAAGCTGAGCCTGCTCCGGTGTCTGACAGGTCACCTGCACGC -TGCGATTCGCAAGCGCAGTAAACCAGGCGGCATTTTCTTGCGCTTTGCTTAATTTATTACCGCGGACGATCAACAGCAGG -TCGTCATGCAGAAGTCCGGTGAGTGTGAGAAGTTGCTCATTGATCGCCGCATTCGGTCCGTTTTCTGGTAACAACAGCAA -TAGCGTTTGTCGACTGGCAAACAGACTCATAGCCTGGCATAACGAAAAGATCGCATTCCAGTCAGTGTTGGGATCAATGG -AAAAAGTGTGGTGTTCTTCGAATCCTTGTGCCGCAGCTACCTGACGAACAGCGTCCTGGCTTTCCTGCAATAACAGAGGA -TCGTTACCAAGTAAAAGATACGCCGCGCGCAGCCCTTCATTGAGCTGCGCGCGGAGTTGTTCCGGGTACAACCGAATCAT -CAGTTACCCAGCGTGGTGGAGACGCGTGCAGGCGTTGCCGGAGTATCCGTTGTGGTCGACGTCTGTTCTTCGTCGGAACG -AATATCCGCAGCACGGATGCTTGGCAGCTTACGAATCAGCTGTTCGGCAGCACGGTCGTACATCTCTTTTACGATCATGT -CTTGTTCGTTATCTTTCGCTAACGCCATTTGCGGGTTATCGAAGAACGAACGGAAGACTTTGGCGCTAATCGGGTAGATA -TCACGGCCGGGGATCAACACGGTCGCATTAACCGTCATGATCATCTGATACTCTGCTGTTTGACCGTTACGGAATACCGA -TGCGGTATCTTTCGCGATGCTCACTTTACCCAAACGCAAGGATGGAACGTCCTTACGCGTGGTTTCTTTATCAAGCAACT -CGACACCATTCAGACGTAACTGGTTACGCACCGCACGGCTTAATGGCCCGTTCGGATCGCCTGAGTCCAGGATCATGACC -TTCATAGTGGAAGGAACCTGCGTGGTATCACGCAGATGCCAGCCACACCCGGCGGTGATTAACACCGCCAGAGATAACAA -CAATGTTGCCAGATATCGCACGCTTCCTCCCGCGCTTAGCCAACGACCAGATTGAGGAGTTTACCTGGTACGTAAATCAC -TTTACGTACAGTAACGCCATCAAGATATTTTGCTACCAGATGTTCCTGGCCAGCACGTTCGCGAACCTGTTCTTCCGTTG -CGTCCACCGGAACGGTGATTTTGGCACGGACTTTACCGTTAACCTGCACCACGACCAGCGTGGAGTCTTCCACCATCGCT -TTTTCGTCAGCAACCGGCCACGGCGCGTTGTCGATATCGCCTTCGCCTTTCAGTTCCTGCCACAGCGTGAAGCAGATGTG -CGGGGTGAACGGGTTAAGCATACGGACAACGGCCAGCAGTGCTTCCTGCATCAGAGCGCGATCCTGCTCGCCATCGGTTG -GTGCTTTCGCCAGTTTGTTCATCAGCTCCATAATCGCCGCAATTGCGGTGTTGAAGGTCTGACGACGGCCGATATCATCG -GTCACTTTAGCGATCGTTTTATGCACATCGCGACGCAGCGCTTTCTGATTTTCAGTCAGCGCATCAACGTTCAGTGCCGC -AACATCACCTTTTGCTGTGTGCTCGTAAACCAGTTTCCAGACACGTTTCAGGAAGCGGTTAGCCCCTTCCACACCGGATT -CCTGCCATTCGAGAGTCATATCAGCCGGAGAAGCAAACATCATAAACAGACGAACGGTGTCCGCGCCGTAACGTTCAACC -ATCACCTGCGGGTCGATACCGTTGTTCTTCGACTTGGACATTTTGCTCATGCCGGTATAAACCAGTTCATGGCCTGCCGC -ATCTTTCGCTTTCACGATACGGCCTTTCTCGTCACGTTCAACGATAGCATCAACCGGGGAAACCCAGTTACGTTCGCCGT -TTTCGCCAACATAGTAGAAGGCATCTGCCAGCACCATACCCTGACACAGCAACTGTTTCGCTGGTTCGTCAGAGTTCACC -ATGCCTGCATCACGCATCAGTTTGTGGAAGAAGCGGAAGTAGAGCAGGTGCATAATGGCGTGTTCAATACCACCAATGTA -GATATCCACCGGCAGCCAGTAGTTAGCCGCTTCGGAATCCAGCATACCTTCTTTGTACTGCGGGCAAGTGTAGCGCGCAT -AGTACCAGGAGGACTCCATAAAGGTGTCGAAAGTGTCGGTTTCACGCAGTGCTGGCATACCGTTAACGGTAGTTTTCGCC -CACTCCGGATCTGCTTTAATCGGGCTGGTAATGCCGTCCATTACCACATCTTCCGGCAGGATCACCGGCAGCTGGTCGTC -CGGGGTCGGCATTACGGTACCGTCTTCCAGCGTCACCATCGGAATCGGCGCGCCCCAGTAACGCTGACGGGAAACACCCC -AGTCGCGCAGGCGGTAGTTCACTTTACGCTCGCCAACGCCCATCGCAGTCAGTTTATCGGCGATGGCGTTGAAGGCCGCT -TCATGGTCAAGACCGTTGAACTCGCCAGAGTTGAACAGCACGCCTTTTTCAGTCAGGGCTTGCTGAGAAAGATCTGGCTC -AGAGCCGTCAGCTGCCAGGATAACCGGTTTGATGTTCAGGCCGTATTTAGAGGCAAACTCGTAGTCGCGCTGGTCGTGCC -CCGGTACCGCCATAACTGCGCCCGTGCCGTACTCCATCAATACGAAGTTTGCTGCCCAAACGGGAATTTCTTCGCCCGTT -AATGGGTGAACCGCTTTAAAGCCAGTATCGACGCCTTTTTTCTCCATCGTCGCCATTTCAGCTTCGGCAACTTTGGTGTT -ACGGCATTCGTCAATAAAGGCCGCCAGTTCAGGATTATTTTCCGCCGCTTTCTGCGCCAGCGGATGACCCGCAGCTACCG -CCAGGTAGGTACAACCCATAAAGGTGTCCGGGCGGGTAGTGTAAACGGTCAGCGTGTTGTCATAGTCGTTAACGTTGAAG -GTGATCTCCACGCCTTCGGAACGACCGATCCAGTTACGCTGCATGGTTTTAACGGTGTCTGGCCAGTGATCCAGTTTATC -CAGATCGTTGAGCAGCTCGTCAGCGTAAGCAGTGATTTTGATAAACCACTGCGGGATCTCTTTACGTTCAACTTTGGTAT -CGCAGCGCCAGCAGCAGCCGTCGATAACTTGTTCGTTCGCCAGTACGGTCTGGTCGTTCGGGCACCAGTTGACCGCAGAA -GTCTTCTTATATACCAGGCCTTTTTTATACAGCTCGGTGAAGAATTTCTGTTCCCAACGGTAGTATTCCGGCGTACAGGT -TGCCAGCTCGCGGCTCCAGTCATAACCAAAGCCCAGCATTTTGAGCTGGTTTTTCATATACGCGATGTTGTCGTACGTCC -ACGGTGCCGGAGCGGTGTTGTTTTTCACCGCCGCGCCTTCCGCAGGCAGACCAAACGCGTCCCAGCCGATCGGCTGCAGG -ACGTTTTTGCCCAGCATACGCTGGTAGCGGGCGATCACGTCACCGATGGTGTAGTTACGTACGTGGCCCATGTGTAGTCG -ACCAGAAGGATAGGGAAGCATAGACAGGCAGTAATACTTCTCTTTGCTCTCGTCTTCGGTTACTTCAAATGTGCGCTTCT -CATCCCAATGAAGCTGTACTTTGGATTCTATCTCTTCCGGGCGGTATTGCTCTTGCATGGCAGCCAGTGGTCCTGTTTTC -AATACGGCTACAAATGTAGCGTTGAGGTGGTTTTTCAGATCCGCATAGCATAGCCCAAACGTCCGCGTCAAAACAGCCTT -TCGCGCACTCGACGTTGAAATGATGCCCGGATTATTCATACATTAATTTACAGAGTTTGTGGGCGTATTAGCAAAGCAAG -GAACAAAGAACGTCTATTATTATAGTCAGTTAACGACCCGGGAGATGAAACGATGAACAAGGTTGCTCAATATTACCGTG -AACTGGTTGCGTCACTGAGCGAACGCCTGCGCAATGGCGAACGTGATATCGACGCACTGGTGGAACAGGCGCGCGAGCGC -GTAATAAAAACAGGGGAGTTAACGCGAACCGAGGTCGATGAGCTGACGCGAGCTGTCAGACGTGACCTGGAAGAGTTCGC -CATGAGCTATGAAGAGAGCCTGAAAGAAGAATCTGACAGCGTCTTTATGCGGGTGATTAAAGAAAGCTTGTGGCAGGAGC -TGGCAGACATCACCGATAAAACGCAGCTTGAATGGCGCGAAGTTTTCCAGGACCTCAATCATCATGGGGTTTATCACAGC -GGAGAAGTGGTCGGGCTGGGAAATCTGGTCTGCGAGAAATGTCACTTCCATCTCCCGATCTACACACCGGAAGTGCTGAC -GCTATGCCCGAAATGTGGTCATGACCAGTTCCAGAGACGCCCGTTTGAGCCGTAATAGTCTGATTTCGCACAGCAATAAA -GAGAATATGGGCCGAATGAAATTCCCCGGCCCTTGTTTTTATCTCTACAGTAAATCTTCAGTCTCACGAATTTCCTGACT -GACATCTCTGGTTCCGGATGACTGAACTTTACGATACAGGTCGAGAGCCTGTCGGAGATCGACAGGTCTTCCTTCTCCGT -AGTGATACATAATGGCCAGGTTATACCAGGCAGTGGCGTCATTGCATTCAGCGGCTTTCGTAAACCATTCAAAGGCAGCC -TGATAATCTTTCTCAACGCCTTGTCCGTGTTTATACATATAACCGATGTTGACGTAAGCGCCGACGCTCCCCTGAGCGGC -AGCCTTCAGATACCAGTACATCGCTTGCTTATAGTCCTGGTCCACCCCTTCGCCAGCGTTATAATCCCATGCAATTTGAA -ACTGGGCGTGCCGATTACCCTGCTGTGCGCTTTTCAAATACCAGAATGCGGCGAGTGTCTTGTTTTGAGCAACGCCTTTT -CCGTCTTCATAAAGATCGGCCAGATTGTTTTGCGCGTCACTATGGCCTTGTAATGCAGCTTGTTTGTACCAGAAAAATGC -CAGCGCATAGTCTTTTGCGACTCCGTTGCCATTTCTGTACATCCACCCAAGATTATTTTGCGCATAAGACATTCCGCTCT -CCGCGGCTATCTGATACCAGACAACCGCTTCTTTATAATTGGGGGCTTCTCCACGATCCAGTGTCCAGCCAAGGGCGTTG -GAAGCGAAAGTATGGCCTTGTAGGGCAGCTTTTTTCAGCCAGAAGATGGCTTGCTCATTATCTTTATGACGGCTTTTATC -CTCGGTATACTTTTGCCCTAAGGAATACTGTGCTTCACAATGACCTTGCTCAGCGGCCAGCTTCAGCCAGTAAAAGGCTT -TTTCGTCGTCCGGAGAATCAATTGCGCTATCGCGATTATAATAAAACCCAACAATATATTGAGCCTCGCAATCGCCTTTT -TCAGCACGTTCGATAATCTCATCTATTGATAAATTATCGCAGCAACTTGACGTGAAAATCATTATCATTTCCTTATGGTT -GCAGATAAAACATATTATATTTTTATGTGTTCCATTTTTGCGTAAGCCTTATTTTATGCGTATTATGTCGCGTCAGAAAA -GTATAAATAAACGAGCCTCGCAATGCGGCTAATATTCATTTAATGAATATTTAAGGATAAATTATATGGACATGGAGTCG -CAAAAAATATTGTTTGCACTTTCCACTCCGATGGAAATACGCAATGAATGCTGTTTACCTTCGCATTCATCACCCAAAAT -GTATTTAGGTACATGCTTTTTTGACCTTTCTTCCTCATGGGGAATTGATGACCGTGATGACCTGCTGCGCACAATTCACC -GAATGATCGATAACGGTCATGCCGCTCGGTTGGCAGGGTTTTATCACCGCTGGTTTCGTTATTCGCCATGTGAATGGCGT -GACTATCTTGCTGAACTAAATGAGCAAGGTCAGGCTTATGCGCAATTTGTCGCCAGCACCGCCGAATGCTGTGGCGAAGG -GGGAATCAAAGCCTGGGATTATGTCCGGATGGGTTTTTTAAGCCGAATGGGCGTACTTAATAACTGGTTGAGCGAAGAAG -AAAGTCTATGGATCCAGTCGCGCATTCATCTACGGGCTCTACGTTATTATAGTAACTGGCGGCAATACTTTGCCGGTTAT -ACCTTTGGTCGGCAATATTGGCAGTCTCCCGAAGATGATCATCTGCCTTTATTACGCGAATTCTTAGCGCGTAAAGAATA -CGACGATTCCGGCAATGATATGTTTTATCAATTATTTGCCAGTGATGATGCGTATTACCCTACCTTGTCCTGGCAACCAT -TGGCTTACTATTCTGCATGCCCGGAAACGCTTAAGGATATGAGCGACCTATGAAAAATTGCTGGAAGATCCTCGATATAG -AGGAAACGACTGACGTCGATATTATCCGCCGCGCTTATCTGGCGCTGTTACCGTCCTTTCATCCAGAAACCGATCCGCAG -GGTTTTAAACAACTTCGTCAGGCGTATGAGGAGGCGCTACGGATTGCGCAGTCGCCTGCTAAATCTGTTTGGCAACCAGA -AGAATATGAGGTAGCAGAACATGAAATTCTGCTCGCCTTTCGTGCGTTACTTGCCTCTGATAGTGAACGTTTTCTGCCCT -CCGCCTGGCAGCGATTCATTCAGCAATTAAATTATTGCTCGATGGAGGAGATTGATGAATTACGCTGGTCGCTGTGCACA -ATCGCCATGAACACTGCCCATTTATCCTTCGAGTGCGTGGTGTTATTAGCAGAAAGATTGCGGTGGTTACAGGAGGAAAA -TACCGGGGAAATAGACGAAGAAGAACTGGAATCCTTTTTATATGCCATTGCGAAGGGGAATGTTTTTAACTTCCAGACCA -TTCTGCATCTGCCCGTTGCCGTGCAAAATGACACCATCGATTTTTACCAAATGTTCGCTCGGATTTGGTCATCGCATCCA -CAATGGCTGACATTGTATTTAGCGCAACATCGCGCAGTGATTATCCCCGATGATGCAAAACTGCACAGAAATTTACTCCG -CTGGTATAGCGCAGGTCGCCTGGATATCCCCGAACTTCTGGATTACGCCCAGTCATGGCGGGAAACTGAACCTGATAATG -AAGATGCGCCTTATTATGAATACGCGCAACGCGTCTATTGTGGAGAAGGCGAAAGCCTGTTGGCAGAACTTTGTGACTAC -TGGCGCGAGTATCCCTCCACCCAGGCGGATGCTTTAATGTTGCAATGGTGCCGTCAGCATCGGGTCGATTATTACCCATT -ACTGGTGATGATGATTGAAGCGCGTGATCTGGTTAACGATCAGGGAAAACCGCTACTTTATGTCCCCGGCGACAGCGCCC -GTACGCGTTTTCATTTATACGAAATACTCAGCGATGAAAAACTCTCTGCGCTGGGGCGTTCACTGGTCGAGATGGTTTTG -CACAAAGGACGTAAGCCGCGGATCTCACTCACGCGTGATACAGAACATACCTTATGGCCATTATATCTAGTTGCCAAACA -ATTAGTGCAGGCCTGCCAACCTACAGAAGAATCATTAATGCCGATTGTGAGCCGCCTTGATGCAGAAAATCGTTGTCCAC -TGGAAGCATTAATTATTCGTCGATTATTAATTCAGGCGGCGAATTTTACCGAGAAGCAAACTGTTGAACCGGAGCCGCAA -CCGCAGCCAATGCCCGTTGACGATGGTGGGCCAGGCTGTCTGGGCATCATTAAAATTATTTTCTATATTTTTATCTTTGC -TGGTTTGATAGGGAAAATACTCCATCTGTTCGGGTGACAGTCGACGTTAATGTGCGGGAAGCCCGGCAAGTAATCTTTCC -GCATTTTTGTAATGTTGTTTGGCGGTCAGTTTTAACCATTTTTGAGATTCATAATGGTTAACATTAATACCTGAGCCATT -TCTGTAGATCAAACCTAAAGTATATTGAGCATGAGCATACCCTTGTTCAGCTGCTTCCTTATACCAGAGAATTGCTTTAC -GGGTGTCGGGTTTGACCCCCAGACCTTTGAGGTAGATCCACCCCAGTTTACTTTGCGCGCGTGGATTTTCCTGTTCCGCT -GATTGCTCATACCAGTATCTCGCCTGTGTATAATCCAGTGGTTTACCGTCGCTACCATGAAGATAAAATTCTCCAAGGCG -ATATTGCGACGTTGAGTGACCATGAATCGCGGAAAGCTCCGTGGCTGCCGTGGTGAATGGAAGACTGCCCGGTGAGCTTA -AATAATCAAAGGCATAATTCACCATGGCTTTATCACGCAACGTCGTTTTCTTGGGTTGGCTAATACAGGTAATTGCTGCA -ACTATAAAAATTGCGAATATATACATTAATTTTTTATTCATGTGTGAATGCTTCGATTTTCTTTTTATTTTGAAAGCGTC -AAGTTTATACTCATCAATAATAAAAAAGTAGTCAGTTAATGCACTTAAGGGATTATTAACAAATGAATAAGGAAGAACAA -TATCTTCTTTTTGCGCTTTCTGCGCCCATGGAAATACTTAATCAGGGTTGCAAACCCGCGCATGACTCGCCAAAAATGTA -TACTGGGATAAAAGAATTCGAGCTCTCATCATCCTGGGGAATAAATAATCGTGATGATTTAATTCAGACTATTTATCAGA -TGACTGATGATGGTCATGCCAATGATTTAGCTGGCTTATATCTGACATGGCATCGCTCTTCCCCTGAAGAGTGGAAAGCA -TTAATTGCTGGTGGCTCGGAGAGAGGGTTGATTTATACCCAATTCGTTGCCCAAACCGCTATGTGCTGTGGGGAAGGGGG -AATCAAAGCCTGGGATTATGTTCGAATGGGGTTTCTGTCACGGGTCGGTGTGCTCAACAAGTGGCTGACGGAAGAAGAGA -GTTTATGGCTGCAATCGCGCGTCTATGTACGAGCTCACCATTACTATCACAGCTGGATGCACTATTTTTCCGCCTATTCG -TTAGGACGTCTCTACTGGCAATCTTCTCAGTGCGAAGACAACACTTCGCTACGCGAGGCGCTAACCCTGTACAAATACGA -TAGCGCCGGGAGTCGTATGTTCGAAGAGCTGGCAGCGGGAAGCGATCGTTTCTATGCCACGCTTCCCTGGCAGCCATTAA -CTGTCCAGTCTGAATGCCCGGTAACGCTTAAGGATGTGAGCGACCTATGAAAACATGTTGGCAAATCCTCGAAATTGAAA -GCACGACGCAAATAGACATTATCCGCCAGGCTTATCTTGCTCGCTTACCGTTGTGTCATCCCGAAACCGATCCGCAAGGG -TTTAAAGCATTACGCCAGGCCTATGAAGAGGCCCTGCGACTGGCGGTAAATCCTGTCGAGGAAGCAGATGATGAAGAAAA -AGATGCTGCCGCTGAACATGAAATACTACGTGCATTCAGGACATTACTGGATTCAGAAAGTGATCGTTTTCAGCCTTCCG -CCTGGCAGAAATTTATTCAGCAATTAAATACCTGGAACATGGAGGATGTCGATCAATTACGCTGGCCGCTGTGTGCAATC -GCCATAGAAGCGCGATATCTTTCATTAAATTGTGCTTCTTTGCTGGCAGAGCGTTTGAACTGGCATTCATTTAATGACAG -CGAAGGAATGGATGAGGAAGAAAGGGAGGCTTTTCTTGAGGCCATTCAGGCTGGTGATTGTTTCGATTTCCTTAGCCTTC -TGGAATATCCCATTGCGTTGCAGAACCAGACTGTTGAGTATTACTTCGCGCTGGAACGTTGCTGCCGTTACCATCCTGAC -TATGTCACTGCGTTTTTGGCGATGGAAGGTCCGTGGTTAATTCCTGATGATGCAAAGTTACATCGCAAACTGTTGCGCTG -GTACAGCTCGGTGCAAACAGGTATGGCGGAACTCATTCCTGTCGCTCAACAGTGGCAAACGGAAGAACCAGAAAGCGAAG -ATGCCCGGTATTACTTGTGTGCACAACGTTTGTACTGCGGCGAGGGGGAAAGCCTGCTTGCCGATCTCTGCGCGTACTGG -GAAAGTTACCCATCTACACAAGCTGATAATTTGTTGTTGCAGTGGAGCAAGCGTCATTGCCCGGATTATTTCGCGTTATT -AGTGATGGTTATCGAAGCGCGGAGCATGGTAGATGCGCAAGGTCAACCGCTGAAATATGTTCCTGGTGAGAGCGCCCGGA -CGCGGCTGTTATGGGCGGAGATTTTACATAGCGGAAAATTATCGCCGTTAGGTCAATCGTTTATTGAGTCGTTATTCTTC -AAGCGCAAAGCATGGGCGTGGTGGAAATCGAGAGTCGGTAGCGAGACAGAGCAAGATTCACCGTTCCTGGATTTGTATCG -GGTAGCGGAACAGGTAGTACTTGAAGCGTTTCCGAAACAAGAGATGCTGGCCCGTCTTAATACAAGGCTGGAAGGCGGAG -ATGCTCATCCATTAGAGGCCATTGTCACCCGGATGCTTTTGACGAAAGTGAAACTCGAGCCGGAGGATGAAGATGTCGAT -GAGCCAACACCTGAAAATCATGAAGAAAAAAATGATGAGGGTGAAAAACCACAGAGCATTACCAGCATTATCAAAATCAG -TTTAACGGTGCTGGTGATAGGTTATGCTCTCGGCAAAATCGCGATGTTGTTTAGCTGACGATGTGTTTTTTGCGCCGATG -CCGGATGCAGCGTTTACGCCGCATCCGGCAGCCGTGTTTATGGGATCTCAATGGCTAAATAATCGCTCGCCCGCCGCCGA -ACTTCATCCACGCGGGCCATATCGTTTGACTGCAACGCCGCATCAAAATCGGTGATCACCCGGCCGATCTCTTCTCGCTC -GTCACCCAGCGCCCGCGCCCACAACTCTTCCAGTTTGGCTTTAAAGGTGCGATTGATGAGCATATCGCGCGGATAAATTT -TCAATGCGGATAACCGCGTCCGACTCTCTTCAATCTGCTGCGCGCTCAATGTTACCGGGCTGTGGTTAATCACTCTGGAC -TTAACGCTGCCGTCTTCCAGAAGCACGTCAACTTCAAGCAACCCGTTGATATCATAACTAAAGCGAATATCAATCGACTG -ATAAGCCCCGGTTTTCTTCAACGGCACATCGAAGGATTCCACCAGAATGTTGTTTTTAACTTTGTGGTTTTCTCCCTGAT -AGACGTTAACCGTAATTGAATCCTGTTCCGGGTGCATGGTTGAATAAGTTTCTACACGCGACACGGGCACAGTGGTGTTT -CGTTCAATAATCGGCGAGAAAATGCCGGAAACGCCCTGGCGGTTAACTTCAACGCCCAACGAGTAAGGGCAAATATCAGT -GAGGATTACCTCTTCAATATCTTCACTGCGTAAGCGGCAGGCGGCCTGGATTGCTGCGCCCAGCGCGACAATGGTGCTCG -GATCGTAACTTTGATACGGTAATTTGCCAAACAGACGCACGGCGATTCGCTGCACCAGCGGCATTTGTGACGCGCCGCCA -ACCAGCACCAGACTGTCGATTTGACTCGGCTTCAGACGCGCATCGCGCAACGCCTGTTCAATCGGCACTCGCAAGCGATT -GAGCAGCGGCAACCACAAATCTTCCAGTTCGTTCTCGTAAAATTCGCATTCCCGCGTTTCTTCCTGATACTGCCAGCGAA -TGTGCAATGGCGATTGATTGCTACATTTTGCCGCTTCCACACAGGCGTACAAGGCTGCCAGTTCACTCTCGTTAAGCGTG -GTCCTGGCGACATCCGCGCGTTTTAAAACCTCATCGACCAGCATATGGGTAAAATCTTCGCCACCAAGAAAGTTGTCGCC -AGCGGAGGCGTGAACTTCAATCACCGGCGTGGCGTACTCAAGCACCGTAACGTCAAACGTGCCGCCACCGAGATCAAACA -CCAGCGAACGGGTATTTTGTTGGGTATGCAGGCCATACGCCATCGCAGCTGCTGTGGGTTCATTAATTAAGCGTACCGCA -TTTAACCCGGCTAACTCCGCTGCTAAACGGGTATGCTTGCGTTGTTCATCGCTGAAATAAGCCGGAACGGAGATCACCAC -ATCTTTAATCGGACGTTGCAGAAATTCTTCGGCATCTTCTTTTAATGAGCGTAATACCAAAGAGGACAGTTCTGGCGCGT -TAAATGTGTCGCTGCCTAACCGCCAGTTGGTATTACTGCCCATTGCACGTTTAAATAACGCTGCCGTTTTATCCGGATGC -GAAGTACGCCGTGATACAGCCGGTTTTCCGACTAAAATATGATTATTTTCATCCATGCTAATTATGGATGGTGTTAAATA -TTCACCGAACTTATTTGGAATTAATTGCGCGGCACCGTCTTTCCAGACGGCAATTAAACTATTGGTAGTACCGAGATCGA -TACCAATGGCGAGTTCTGCATTATCCATTGCATTTATATCTTGAAAGAAAAAGAGATAAACAGATTAAGACCACCCAGGT -AACGCGTGGTGATCTTAATCAATGACGTGTGTTAAGCGTAAAATTTCAGACGATCAGCCAGTAAATCAACAAAGCCCTGA -CGATCAACATCGACCATTACGGTGGCATTCGGTTTATTGCCTGTCAGATAATAATAATCAACAACCGTCATACCCTGGGT -ATATTTCCCCTGTGTTTCCACGCCAACCCAGCGCTCAACAGAGGTAAATAACTCCGGTTTCAACAGCCAGGCGATGGTGC -ATGGGTCATGCAGTGGTGCGCCGACAAAGCCCCATTTTTCGTCTTTATGATATTCGAGGAAGAAATCCAGCAGTTCGGCA -ACAATGGTTGAAACAGGGTTACCAATCGCGCGGAAACGCTCGGTGTCTTCAACGTGGATTTGTGCTTTATGAGTAACATC -CAGACCGGCCATCACCACCGGGATCCCTGACTGGAAGACAATTTCTGCCGCTTCCGGGTCAACGTAAATATTAAATTCAG -CCGCAGGCGTCCAGTTACCCAGCCCCATAGCGCCACCCATAATCACGATACGGGCAATTTTGCTATGCAGTTCCGGATGG -CTATTGAGCAGCAAGGCAACGTTAGTTTGCGGTCCGGTAGACACAATGGTGACAGGTTCCGCACTTTCACGCAGCGTTTT -CGCCATCAGCTCTACCGCCGTACAGTTTTGCGGTGCGAATGTCGGTTCCGGTAATGCCGGGCCGTCGAGACCGCTTTCGC -CGTGCACATTGTCCGCGATAATCAACTCACGCATTAACGGTTTTACCGCGCCGCCTGCTACCGGAATATCGGTGCGATTA -AGCAAGGTCAGCATACGCAGAACATTGCGTAAGGTTTTTTCTGGTGTCTGGTTTCCGGCGGAAGACGTAATTGCTTTGAC -ATCAAGCTCTGGTGAGGCGAGGGCGAGAACTATTGCGATAGCGTCGTCATGACCTGGGTCGCAATCTAACAGAATTGGCA -GTGCCATTGTTGCTCCTTGTTGTGTGCTTCTTTGCGACAAGGGTAACGCCAGGATGTAACAGATACGAGGGGCGAAACGA -TAAAGCGTGAGATGGCGCGCAATTGGGTATGCGCGCCAGAGTGATTAATGCAGGATTTTCGCGAGGAAGTCTTTTGCGCG -GTCCGATTTCGGATCATCGAAGAAAGCGTCTTTCGGCGAGTCTTCGACAATTTTACCCTCGTCCATAAAGATCACCCGAT -TCGCCACTTTACGGGCAAAGCCCATTTCGTGGGTCACCACCATCATGGTCATTCCTTCGTTCGCCAGTTCCACCATCACG -TCCAGTACTTCGTTGATCATCTCCGGATCCAGCGCCGATGTCGGTTCGTCAAACAGCATCGCAATAGGATCCATACACAA -CGCGCGAGCGATTGCCACACGCTGCTGCTGACCGCCGGAAAGCTGCGCCGGAAACTTATTGGCGTGAGCAGAAAGCCCGA -CACGCTCCAGCAGTTTCAGGGCTTTTTCACGAGCCGGCGCTTTATCGCGTTTAAGCACTTTCACCTGCGCCAGGGTCAGG -TTTTCGATAATCGACAGATGAGGGAACAGCTCGAAATGCTGGAATACCATCCCGACGCGGGAACGCAGCTTTGCCAGATC -GGTTTTCTTGTCGTTAACCACGATACCATCGACGGTGATTTCACCTTGCTGCACCGGTTCGAGGCCGTTGACGGTTTTAA -TCAGCGTTGATTTGCCGGAACCAGACGGGCCGCAAACCACCACCACTTCGCCTTTTTTCACTTCGGTTGAGCAGTCGGTC -AGCACCTGAAAGTGACCATACCATTTTGAAACATTTTTCAGGGTAATCATTATGCTGTCCTTCTTTTCAAGTAGCTGACC -AACAACGACGCGCTAAGACTAATAACGAAATAAACAAATCCGGCAAACAGGATCATCTCAACCTGCGTACCATCACGCTC -ACCAATGGTTGAGGCGGTACGGAAGAAATCGGCCAGGGATAACACATACACCAGTGAGGTATCCTGGAACAGTACGATGC -CCTGAGTGAGCAGCAGCGGCACCATCGCGCGGAACGCCTGCGGCAGAATAATCAGTTTCATCGACTGCCAGTGAGTCATT -CCCAACGCCAGCGCGGCGCTCGATTGACCACGAGAAATACTTTGAATACCAGCACGGATAATCTCTGAATAGTAGGCCGC -TTCAAACATCGAAAACGCCACCATCGCCGAAATTAAACGGATATCATTTTTTGGCGATAATCCCAGCACGTTTTGCAGAA -AACCCGGCACGATCAGGTAAAACCACAGCAAAACCATAACTAAAGGAATCGAGCGGAATACGTTAACGTAGGCTTTGGCA -AACCACGCCACGGGCGCAAAGCTGGATAAACGCATCACCGCCAGCATCGTGCCCCACAAAATACCAATCACTACCGCCGT -GACGGTGATTTTCAGGGTGATCACCAGCCCGTCGAGCAGATATGGCAGGGAAGGGACAATGGAACTCCAGTCAAACTCGT -ACATTATTTGCCCCCCATGTTGCCAGGCAGGCGAACTTTACGTTCAACCAGCGTCATCACCAGCATGATAAAAGCGTTAA -TCAACACATACGCCAGCGTAATGGCGGTAAACGACTCCCAGGCATGGGCTGAGTAATCGAGCAATTTACCCGCCTGCGCC -GCCATATCCACCAGACCGATAGTCGAGGCGATGGCGGAGTTTTTCACCAGGTTCATCATCTCTGAGGTCATCGGCGGGAC -GATAACGCGATAAGCATTAGGCAGCAGTACGTATCGATAAGCCTGCGGTAGCGTCAGGCCCATCGCCAGCGCGGCATTTT -TTTGCCCTCGCGGCAGCGACTGAATCGCGGCGCGTACCTGTTCGCAAACACGGGCGGCGGTAAACAGCCCCAGGCAGAGC -ATGGATGAAAGGAAAAACTGAATATTGGGATCCAGCTCGGCCTTAAACCACATGCCGATTTTCTCCGGCAGCAGCTCCGG -GATCACCAGATACCAGGTAAAGAATTGCACAATCAACGGCACGTTGCGGAACAGTTCGACATACAACGTACCCAGACCAG -AGAGAAAACGGTTTGGAACGGTACGTAAAATGCCGAAAAATGAACCGACGAGGAAAGCGATAATCCAGGCGCAGATCGAC -AAAGCGATCGTCACCTGAAAACCACTCCAGATCCAACCAAGATAGGTGGTGTTGCCGAACGGGGCTTGTTGTAAAAAAAT -ACCCCAGTTCCAGTCTATAGACATAAATCTACTCCAGAAAAAAGAGGGTAGCAGCGTTAACTGCTACCCTCGAAGATTGT -TACCCAGCGTATTGCGGTTTTCAGGCCCGATGGGGAACGACCATCAGGCGTATAGTCTGTCCGTGCTACGTAACAATCGA -GAGGGCTGGAATTTCCGCCCCTGGTTCTTGTAATTAGTTCAGTGCCTTGTCATTCGGTTCTTTGAACAGTGCTTTCATTT -CGTCTGACAGTTCGAAATTCATGTTCAGGTTTTTCGGCGGAATTGGATTTTTGAACCACTTATCAAACCATTTTTCCGCT -TCACCGGAGGTCTGCACCTGAGCGATGGTGTCATCCATCAGCTTTTTGAACTGCGGATCATCTTTACGCAACATACAACC -GTAGGCCTCCTGAGACTGCGGCTTGCCGACGATTTCCCAGTTGTCTGGTTTCTTCGCTTTCGCACGTTCACCGGCCAGCA -GAGCGTCATCCATCATAAAGGCAACGGCACGACCGCTTTCCAGGGTGCGGAAAGAGTCACCGTGATCTTTGGCGCTGATG -ATGCGCATATTCATTTTTTGCTCTTCATTCAGTTTGTTGAGCAAAACTTCAGAGGTAGTGCCGGAAGTGACGACTACGGC -TTTGTCTTTCAGGTTGGCAAAATCTTTGATATCGCCACCCTTTTTGGTCAACAGGCGCGTACCGACCACGAAAATAGTGT -CAGAGAAAGCCGCCTGTTTTTGGCGTTCGACGTTGTTGGTGGTAGAACCACATTCAAAATCGAAAGTGCCGTTTTGCAGC -AGTGGAATACGGTTTTGTGAGGTAATCGGAATCAGTTTTACCTGCAAGTCCGGTTTGTTGAGTTTCTTTTTCACTGCTTC -AACAATGGCGTTGGAGTAATCCTGCGAGTAACCCACCACTTTTTGCTGATTGTCGTAATAAGAGAAAGGCACTGAAGATT -CACGGTGACCGACGACAATCACACCGTTTTTGGCGATTTTGTCCAGAGTACTGCCCGCTGCCGGGGCGGCGTCATCTGCC -TGTGCCAGTCCTGCGGAAAGCGCCAGGGCGAGGATTGCTGTGGCAGGTTTACGTAATTGCATATCCAACTCCTTTATCTT -CTGCGTTAAGAACGCATGGATACCCGTTGTGAGTGTTTGTGTTGTTATCGTCTGCAACTTTATTGTGCAGTGTTGTGCCT -GTTAGGGAAGGTGCGAATAAGCGGGGAAATTCTTCTCGGCTGACTCAGTCATTTCATTTCTTCATGTTTGAGCCGATTTT -TTCTCCCGTAAATGCCTTGAATCAGCCTATTTAGACCGTTTCTTCGCCATTTAAGGCGTTATCCCCAGTTTTTAGTGAGA -TCTCTCCCACTGACGTATCATTTGGTCCGCCCGAAACAGGTTGGCCAGCGTGAATAACATCGCCAGTTGGTTATCGTTTT -TCAGCAACCCCTTGTATCTGGCTTTCACGAAGCCGAACTGTCGCTTGATGATGCGAAATGGGTGCTCCACCCTGGCCCGG -ATGCTGGCTTTCATGTATTCGATGTTGATGGCCGTTTTGTTCTTGCGTGGATGCTGTTTCAAGGTTCTTACCTTGCCGGG -GCGCTCGGCGATCAGCCAGTCCACATCCACCTCGGCCAGCTCCTCGCGCTGTGGCGCCCCTTGGTAGCCGGCATCGGCTG -AGACAAATTGCTCCTCTCCATGCAGCAGATTACCCAGCTGATTGAGGTCATGCTCGTTGGCCGCGGTGGTGACCAGGCTG -TGGGTCAGGCCACTCTTGGCATCGACACCAATGTGGGCCTTCATGCCAAAGTGCCACTGATTGCCTTTCTTGGTCTGATG -CATCTCCGGATCGCGTTGCTGCTCTTTGTTCTTGGTCGAGCTGGGTGCCTCAATGATGGTGGCATCGACCAAGGTGCCTT -GAGTCATCATGACGCCTGCTTCGGCCAGCCAGCGATTGATGGTCTTGAACAATTGGCGGGCCAGTTGATGCTGCTCCAGC -AGGTGGCGGAAATTCATGATGGTGGTGCGGTCCGGCAAGGCGCTATCCAGGGATAACCGGGCAAACAGACGCATGGAGGC -GATTTCGTACAGAGCATCTTCCATCGCGCCATCGCTCAGGTTGTACCAATGCTGCATGCAGTGAATGCGTAGCATGGTTT -CCAGCGGATAAGGTCGCCGGCCATTACCAGCCTTGGGGTAAAACGGCTCGATGACTTCCACCATGTTTTGCCATGGCAGA -ATCTGCTCCATGCGGGACAAGAAAATCTCTTTTCTGGTCTGACGGCGCTTACTGCTGAATTCACTGTCGGCGAAGGTAAG -TTGATGACTCATGATGAACCCTGTTCTATGGCTCCAGATGACAAACATGATCTCATATCAGGGACTTGTTCGCACCTTCC -TTAGTGAAGTCATTTTTGTCAAGCAGGTTGATTTTGTAATCAACGAAAGTAGACATATTTTTGTTGAAGTAATAGGTTGC -ACCTACATCAACATATTTGACTAAGTCCTGATCGCCCCATACTCCAAGATCCTTACCTTTAGATTGCAGGTAAGCAACGG -ACGGACGCAGACCGAAATCGAACTGATATTGTGCAACAGCTTCGAAGTTTTGGGCTTTATTAGCAACGAAGTGATCAGCA -AATACAGTCATATTCTGGGTTTCAGAATAGGTAGTGGCCAGGTAAATGTTGTTAGCGTCATATTTCAGACCTGCGGCCCA -AACTTCTGCATTTTTACCGGAAGCAAATACTTCAGGAAGAACTTTCCCTGCATTAACTTGAGTGTCGGTACGATCAGATT -TCGCATAAGTTGCACCGATACCGAATCCTTCGTATTCATAGGTAGCAGAGAAACCGAAGCCATCACCGTTACCTTCAGTG -TAGTTATCGAAATCGCTACGATCGTTTTTGCCTTGGTACTGAGCAGCAAAGTTCAGACCATCAACCAGACCAAAGAAGTC -GTTGTTACGATAGGTTGCAACACCAGTTGCACGTTGAGTCATGAACACGTCGGTTTGAGTCCAAGTGTCACCACCGAATT -CTGGCAGGACGTCAGTCCACGCACCGATGTCGTATGCTACACCGTAGTTACGGCCGTAATCGATGGAGCCGTAGTCACCG -AATTTCAGGCCAGCGAAGGCAAGACGGGTTTTATCTTTGGAGGAACCTTGAGATTCAGCGCGGTTGCCTTTGAATTCATA -TTCCCACTGACCGAAACCAGTCAGTTGATCGTTGATTTGGGTTTCACCTTTGAAGCCAAGACGGGCATAAGTAGTATCAC -CATCATCTGCATCATTAGAGGAGAAGTAGTGCTTAGCATTAACTTTCCCGTACAGATCCAGCTTGTTACTGTCTTTATTA -TAAATTTCAGCTGCCTGAGCAGACATCGCCATTAGTACTGATGCAGCTACAGCAGAAATTGCCACTGTTAATTTTTTCAT -CGTGAGCCCTTTTTTTGAACTATTATTAAAAAATGATGTCACTGCGCGATAAATATTCATCTAATCAATGTGATTATTTC -AAGATGTAAGTTTTGGTTTCTCGTTTGATTTGTGAAGTAGATCTCTATTTTTATCTGAACTTTTTTCTATCGAATCCTAT -TCATGGCTCTTGGCTGAATAAAAATAAATCTATTAGCCAATTTATATTAACGGCTGTTATTTATAAGTGCTCTATAATTT -GAAGGTTCAATTTAAACCGGCTAAAAATAACACTGGAAATTATTTTTTGGTTATTTGTTGAGATTTGCTTATGTATTTGT -AGTGGTGTTTTCAATACTCGGTAGCATTCTCTCAAATATCATTTAGTGGTTTACGTACGTAAAAAATTGGTTATGCTGTT -AAGAGTGGTTACTTCGTCACACAGCTTAAACCCGCCGTCGAGCGGGTTTTTCCATTTTTTGAGTCTCGATATTAGCTGAT -AACCCAATACCTGAGTTATTCACTGACTCCGAGTCTGTTACGTTTCGTAGTATTCCCTCAATTTACACCCGCTTTGTCTG -CGAGGTGGGGTTATGAAATCCATGGATAAGTTAACAACGGGTGTCGCCTATGGCACCTCAGCAGGTAGTGCCGGGTACTG -GTTTTTACAGCTGCTAGATAAAGTCACTCCCTCACAGTGGGCAGCAATAGGTGTGCTGGGTAGCCTGGTATTTGGCCTGC -TGACGTACCTGACAAACCTTTATTTCAAGATTAAAGAAGATAAGCGCAAGGCTGCGAGAGGTGAATAATGCCTCCATCAT -TACGAAAAGCCGTTGCTGCTGCTATTGGTGGCGGAGCAATTGCTATAGCATCAGTGTTAATCACTGGCCCAAGTGGTAAC -GATGGTCTGGAAGGTGTCAGCTACATACCATACAAAGATATTGTTGGTGTATGGACTGTATGTCACGGACACACCGGAAA -AGACATCATGCTCGGTAAAACGTATACCAAAGCAGAATGCAAAGCACTCTTGAATAAAGACCTTGCCACTGTCGCCAGAC -AAATTAACCCGTATATCAAAGTCGATATACCGGAAACAACGCGCGGCGCTCTTTACTCATTCGTTTACAACGTGGGTGCT -GGCAATTTTAGAACATCGACGCTTCTTCGCAAAATAAACCAGGGCGATATCAAAGGCGCATGTGATCAGCTGCGTCGCTG -GACATACGCTGGCGGTAAGCAATGGAAAGGCCTGATGACTCGTCGTGAGATTGAGCGTGAAGTCTGTTTGTGGGGGCAAC -AGTGAGCAGAGTAACCGCGATTATATCCGCTCTGATTATCTGCATCATCGTCAGCCTGTCATGGGCGGTCAATCATTACC -GTGATAACGCAATCGCCTACAAAGTCCAGCGCGACAAAAATGCCAGAGAACTGAAGCTAGCGAACGCGGCAATTACTGAC -ATGCAGATGCGTCAGCGTGATGTTGCTGCGCTCGATGCAAAATACACGAAGGAGTTAGCTGATGCGAAAGCTGAAAATGA -TGCTCTGCGTGATGATGTTGCCGCTGGTCGTCGTCGGTTGCACATCAAAGCAGTCTGTCAGTCAGTGCGTGAAGCCACCA -CGGCCTCCGGCGTGGATAATGCAGCCTCCCCCCGACTGGCAGACACCGCTGAACGGGATTATTTCACCCTCAGAGAGAGG -CTGATCACTATGCAAAAACAACTGGAAGGAACCCAGAAGTATATTAATGAGCAGTGCAGATAGAGCTGACCATATCGATG -GGCAACTCATGCAATTATTTTGAGCAATACACACGCGCTTCCAGCGGAGTATAAATGCCTAAAGTAATAAAACCGAGCAA -TCCATTTACGAATGTTTGCTGGGTTTCTGTTTTAACAACATTTTCTGCGCCGCCACAAATTTTAGCTGCATCGACAGTTT -TCTTCTGCCCAATTCCAGAAACGAAGAAATGATGGGTGATGGTTTCCTTTGGTGCTACTGCTGTCTGTTTGTTTTGAACA -GTAAATGTCTGTTGAGCACATCCTGTAATAAGCAGGGCCAGCGCAGTAGCGAGTAGCATTTTTTTCATGGTGTTATTCCC -GATGCTTTTTGAAGTTCGCAGAATCGTATGTGTAGAAAATTAAACAAACCCTAAACAATGAGTTGAAATTTCATATTGTT -AATATTTATTAATGTATGCCAGGTGCGATGAATCGTCATTGTATTCCCGGATTAACTATGTCCACAGCCCTGACGGGGAA -CTTCTCTGCGGGAGTGTCCGGGAATAATTAAAAACGATGCACACAGGGTTTAGCGCGTACATGTATTGTATTATGCCAAC -ACCCCGGTGCTGACACGGAAGAAACCGGACGTTATGATTTAGCGTGGAAAGATTTGTGTAGTGTTCTGAATGCTCTCAGT -AAATAGTAATGAATTATCAAAGGTATAGTAATATCTTTTATGTTCGTGGATATTTGTAATCCATCGGAAAACTCCTGCTT -TAGCAAGATTTTCCCTGTATTGCTGAAATGTGATTTCTCTTGATTTCAACCTATCATAGGACGTTTCTATAAGATGCGTA -TTTCTTGAGAATTTAACATTTACAACCTTTTTAAGTCCTTTTATTAACACGGTGTTATCGTTTTCTAACACAATGTGAAT -ATTATCTGTGGCTAGATAGTAAATATAATGTGAGACATTGTGACGTTTTAGTTCAGAATAAAACAATTCACAGTTTAAAT -CTTTTCGCACTTGATCGAATATTTCTTTAAAAATGGCAACCTGAGCCATTGGTAAAACCTTCCATGTGATACGAGGGCGC -GTAGTTTGCATTATCGTTTTTATCGCTTCAATCTGGTCTGACCTCTTTGTGTTTTGTTGATGATTTATGTCAAATATTAG -GAATGTTTTCAATTAATAGTATTGGTTGCGTAACAAAGTGCGGTCCTGCTGGCATTCTGGAGGGAAATACAACCGACAGA -TGTATGTAAGGCCAACGTGCTCAAACCTTCATACAGAAAGATTTGAAGTAATATTTTAACCGCTAGATGAAGAGCAAGCG -CATGGAGCGACAAAATGAATAAAGAACAATCTGCTGATGATCCCTCCGTGGATCTGATTCGTGTAAAAAATATGCTTAAT -AGCACCATTTCTATGAGTTACCCTGATGTTGTAATTGCATGTATAGAACATAAGGTGTCTCTGGAAGCATTCAGGGCAAT -TGAGGCAGCGTTGGTGAAGCACGATAATAATATGAAGGATTATTCCCTGGTGGTTGACTGATCACCATAACTGCTAATCA -TTCAAACTACTTAACCTGTGACAGAGCCAACACGCAGTCTGTCACTGTCAGGAAAGTGGTAAAACTGCAACTCAATTACT -GCAATGCCCTCGTAATTAAGTGAATTTACAATATCGTCCTGTTCGGAGGGAAGAACGCGGGATGTTCATTCTTCATCACT -TTTAATTGATGTATATGCTCTCTTTTCTGACGTTAGCCTCCGACGGCAGGCTTCAATGACCCAGGCTGAGAAATTCCCGG -ACCCTTTTTGCTCAAGAGCGATGTTAATTTGTTCAATCATTTGGTTAGGAAAGCGGATGTTGCGGGTTGTTGTTCTGCGG -GTTCTGTTCTTAGTTGACATGAGGTTGCCCCGTATTCAGTGTCGCTGATTTGTATTGTCTGAAGTTGTTTTTACGTTAAG -TTGATGCAGATCAATTAATACGATACCTGCGTCATAATTGATTATTTGACGTGGTTTGATGGCGTAGATGCACGTTGTGA -CATGTAGATGATAATTATTATCATTTTGTGGGTCCTTTCCGGCGATCCGACAGGTTACGGGGCGGCGACCTCGCGGGTTT -TCGCTATTTATGAAAATTTTCCGGTTTAAGGTGTTTCCGTTCTTCTTCGTCGTAACTTAATGTATTTATTTAAAATACCC -CCTGAAAAGAAAGGAAACGACAGGTGCTGAAAGCGAGCTTTTTGGCCTCTGTCGTTTCCTTTCTCTGTTTTTGTCCGTGG -AATGTGCAATGGAAGTCAACAAAAAGCAGCTGGCTGACATTTTCGGTGCGAGTATCCGTACCATTCAGAACTGGCAGGAA -CAGGGAATGCCCGTTCTGCGAGGCGGTGGCAAGGGTAATGAGGTGCTTTATGACTCTGCCGCCGTCATAAAATGGTATGC -CGAAAGGGATGCTGAAATTGAGAACGAAAAGCTGCGCCGGGAGGTTGAAGAACTGCTGCAGGCCAGCGAGACAGATCTCC -AGCCAGGGACTATTGAGTACGAACGCCATCGACTTACGCGTGCGCAGGCCGATGCACAGGAGCTGAAAAATGCCAGAGAC -TCCGCTGAAGTGGTGGAAACCGCATTCTGTACTTTCGTGCTGTCGCGGATCGCAGGTGAAATTGCCAGTATTCTCGACGG -GATCCCCCTGTCGGTGCAGCGGCGTTTTCCGGAACTGGAAAACCGACATGTTGATTTCCTGAAACGGGATATCATCAAAG -CCATGAACAAAGCAGCCGCGCTGGATGAACTGATACCGGGGTTGCTGAGTGAATATATCGAACAGTCAGGTTAACAGGCT -GCGGCATTTTGTCCGCGCCGGGCTTCGCTCACTGTTCAGGCCGGAGCCACAGACCGCCGTTGAATGGGCGGATGCTAATT -ACTATCTCCCGAAAGAATCCGCATACCAGGAAGGGCGCTGGGAAACACTGCCCTTTCAGCGGGCCATCATGAATGCGATG -GGCAGCGACTACATCCGTGAGGTGAATGTGGTGAAGTCTGCCCGTGTCGGTTATTCCAAAATGCTGCTGGGTGTTTATGC -CTACTTTATAGAGCATAAGCAGCGCAACACCCTTATTCCAGCTGGCTTCGTGGCTGTTTTCAACAGTGATGAGTCATCGT -GGCATCTCGTTGAAGATCATCGGGGTAAAACGGTTTATGACGTAGCGTCAGGGGACGCGTTATTTATTTCTGAACTCGGT -CCGTTACCGGAAAATGTTACCTGGTTATCGCCGGAAGGGGAGTTTCAGAAGTGGAACGGTACAGCCTGGGTGAAAGATGC -AGAAGCAGAAAAACTGTTCCGGATTCGGGAGGCGGAAGAAACAAAAAACAGCCTGATGCAGGTAGCCAGTGAGCATATTG -CGCCACTTCAGGATGCTGTAGATCTGGAAATCGCAACGGAGGAAGAAACCTCATTGCTGGAAGCCTGGAAAAAATATCGG -GTGTTGCTGAACCGTGTTGATACATCAACTGCACCTGATATTGAGTGGCCTACGAACCCTGTCAGGGAGTAATCATTGGG -ATTATGCCGCAGCACGTCTTAAGCAAGAACATGCTGCGGTTGGATGCTATTTTTTTCCTGAAGCGGAAAACATTACTACA -GTACCTTGAACCTTGGTTTTAACATTCTCGAAATGCTCTGAGAGTATATGTGTTAAGCCTTCTTCGGAATCTTTTGTGTT -TGAAAAGATGCCTTTCTGATTGTAAATGCGCATCAGTTTTTGACCGAAGCTATTGTGCACAACTCCATCGCCAAGAATTG -TGGCTCCGTATAGAGTTCCATCGTCAGTTAAGGCCTGCGCCGCATTGCGTATTACACAGCTTTTTGTAGATATATTTCCA -GGCAGGCAGTGAAGAAGGTAAGACATGGAAATGGAATCAAATTGACCATGTAACGCCGCGGGATAAGGTTCAAAAACATC -ATGGCTAATTTTATGTTTAATTTTTGATTCCCCAGCCCTTGTAGATGCCGCGTTCAGGCTAGCTTCGTTCAAATCCATTA -AAGATATCAGACTACTCTCAGGTACGTGAGTAAGGTAAAACCCAGTTCCAACACCAATATCCAGATGGTTGTTACCTAAA -TGTTCCAGAAAGTGTGGAAGAAGGTGTTCCTTTGTAGGACATCCCCATGCAAGCCGATTTGATACTCCCAAAACCCACCA -GTCATAAAGCTTTAGGGTAAGTGGTGTGTAAATTCTAGCCCCATCATCTGTGTTTTTTTATTAATTTCACCATGTTATAG -TTTTATTTGTGAATTAAATCAATTATGGCAATGAATTACAAGGGGTTAAATGCTGCCGCAGCATAGCGATATTGAAATAG -CCTGGTATGCTTCAATACAGCAGGAGCCGAATGGCTGGAAGACCGTCACCACACAGTTCTACATCCAGGAATTCAGTGAG -TATATTGCGCCACTGCAGGATGCTGTAGATCTGGAAATCGCAACGGAGGAAGAAAGATCGTTGCTGGAAGCCTGAAAAAA -GTATCGGGTGCTGCTAAACCGTGTGGACACTTCCGTAGCACCAGATATCGAGTGGCTTATTCAACCATAATAAACAGTAT -GTATATCATAGGTTATTAATTGTGAGTTTTTTCGGTGTGTTATTTGTTTGTTTGATGTTATGCTTTTGCGCCCCAAAAGG -TTGTTTAGATGTATTTTATCAATTGATTTTCAATATCGTTTAATAAAGAAAAATTAAGCAAGCTGGATGTTGGTTTTTTG -TTAATTGAATGGTTCTAATAATGTTTTTTTACTGTTGTTGAATGTGACTTGATAAGAAATGCAAGTAAAAATGATACTCT -TTTTATTTTAAATTCAAACGGTTGACATATATATAGCAAGAGGTTTCAGGTGCGTTGTAGTGAGTTTATGTTAATAAAAA -GCATAGTAAGCGTTGAAAAATGTAACTTTGAAATAAGTTAGAATAAAAAACAACATACATATAATAATTTAATCTTAAAT -GAAATTTATTAAAATTTGCAAACTATAATTTTGTGTATAAAAATATAAATGCACATCATCCTGATTATGATTGTGTATTT -AATTGGTTGTTATTTGACTACTATCAACTTGTTTTAATTTTATGATAGGTGCAAGATGGATTATGTTTGCTCCGTAGTTT -TCATCTGTCAATCATTTGATTTAATTATAAACAGGAGAGTTATCTCGTTCAAAAAAAATTCATTGTTTATTGTAAGCGAC -AAAATTAGAAGGGAGTTACCAGTATGCCCCTCTAAACTAAGAATTGTTGATATAGATAAGAAAACATGTTTATCCTTTTT -TATCGACGTGAATAATGAGCTGCCTGGCAAATTTACTCTTGATAAGAATGGCTATATTGCTGAAGAGGAACCTCCATTAT -CGCTTGTTTTTTCTCTGTTTGAAGGGATTAAAATAGCAGACTCACACTCCCTTTGGTTAAAAGAAAGACTATGTATATCC -TTACTTGCCATGTTCAAAAAACGCGAAAGTGTAAATTCATTTATACTAACAAATATAAATACATTTACCTGTAAAATTAC -TGGAATAATCAGTTTTAATATTGAGCGGCAATGGCATTTAAAAGATATTGCGGAATTGATTTATACGAGTGAAAGTTTAA -TAAAAAAAAGATTAAGGGATGAAGGAACGTCATTTACTGAAATATTGAGAGATACTAGGATGAGGTATGCAAAAAAACTC -ATAACTTCAAACTCTTATTCTATCAATGTCGTAGCCCAGAAATGTGGCTATAACAGTACTTCATATTTCATATGTGCATT -TAAAGATTATTATGGTGTCACGCCATCTCATTATTTTGAGAAAATAATCGGCGTCACAGATGGAATAAACAAAACAATTG -ACTGATAATGTTTATTACAAGTTGTCTACATGTTAATTATAATATTATACAGCGTTTTTTTTGATGTGATATTCTGGAAC -CATTAATTTGTAATTGGGTTGCTGTCGCCTATTTTATACATACTATAATTGATGGTTTTCTATGTGATTTAGTTAATAAC -CTTCTGGGTTTATTTTAAGGGTTAATTGTTACATTGAAATGGCTAGTTATTCCCCGGGGCGATTTTCACCTCGGGGAAAT -TTTAGTTGGCGTTCTTAAAATGTGTACTTAAGACCAGCAGTAGTGATGAAGTTATAGTTTTCTATACCTGCTCCATTTTT -GCTGTAGTCTGAAGTGTTATTATTGTGATCATAAAGTGAAGTATTACCTTTTTTATTCGTAACCCGATTCCATGCGCCTT -CAACATAAACTTTTGCGTTAGGTGTGACGTAATAACCTGCATTGACTGCAACAGAATAGTAATTTTGGTCTTTGACCTTA -CTGCGATAAGTGATTCTTTTTCCCGGGTCATAGTGTTCATCGTTATCAGATGATTCCACCCAGCCGCTGTATTTAAATGT -GCCACCGAGTTCAAAATCTTCATAACGATAACTTCCAGTCAAGCCAATGTAGGGCATTTTAAAACGTTGTTTGTAGCCGA -TTGCTCTTTCTCCATTCGGGAAGGAGCCGATATCATCTCTGAATCCCTCCTCAGAACTGTAGATATAGGAACCACCTCTG -GCTGTAAAGCTATAACGGCTTTCCTGATATCCGGCCATGAGTCCCAGGCGGTAATTGGGTTCGTTGAGGAGCCAGCCTTT -GATATTCAGATCAAATTCGTTGGCATAATTGAGTTGTGTATCAGGGTGTCTACTTTCATCCGTCCAGGTTCCGGGGTTAC -TGGAATCCATCCAGTCCTGATCGACCATATTGCCACCTCGGCTGCCGAGAGTTGTCCAGCCAGCAGCCCCGATAGATATC -TGGGGCATCAAATCCCAATTAATTGCACCTTTAATAATTGCAGCGTTATTGAATTTCCAGTCGAGTTGACTGACTTTTCG -GCCTCCTTCTTCGGCTAGATAAACACGCTCTTTTGTTTTTCCGCTCAGAGTTCCAAGACTAATGTCCGCATTTATGTTGT -CAGGAGTAAACGATAAAGTCTCGGTAGAAGCAAAAGAGCTGATCGCAATAGGGGTTGTCAGGACTATTCCCAGAAGTTTC -GCCCGCATAAAAGTTCTCCATTCAATCGTTTTAATGATTGAATATGTATTTTTTATATCTAACTTAATGAGTCAATTACA -TATTGCTCCACTGTTTATATTTTGTTTAGTATTGAATGATTATCACAATGCGCTATCTGTTTTTGGTTTAATTATCTGTT -ATTGTTTCATATTTCGGTTTTACTGTGTGGTTTTTTTATGCTTTTGTGGTGCTTTTATCTATTTAAGTGCCATGCCTTTA -GAGGCATATAAGCGAAAATAGCATGAGGTTTATCCTCAATTACTATGTTTTTTAGTACAAAAAAGAGGGACAAAACTGAG -ACACATAAGGCCTCGCAATGGCTTGCAAGGCTTTACATGTTTTGAGGTAGTGGGACGTGTGAGCGCAGAGATGGCGCGGT -AAGTTGTTGACTTAAAATGTCGTTCTAGGAACTTCTAAGTCGTGGGCCGCAGGTTCGAATCCTGCAGGGCGCGCCATTTC -TTCCTCATTTATGCCCGTCTTATCCGTTTCCGCTTTGCCCTTCACCACATCACTTTTTGTCGCTGTTTGGCGAGATAATT -CAACGGTGTCAGGCCGTAAAACGCCTTAAAAACAGAGATAAAGTACGACGTGCTGCTATAGCCACATAATTGCGCCACCT -GAGTGATATTTTTGTTATCCATCAATAACATCTGTACGGCGTAACGCATACGACACTCTGTGACAATCTGGCTATAGCTG -GTATTTTCGTTTTTTAATTTCTTTTTGAGCAGGCTGGGGCTTAAACATAGCGAACTGGCGACAATTCGCAGATTCCAGTA -ATGCTGAATATCGCTTTGAATAATGCGGCAGACGCTGTCGCGGACGCTGCTGCGTAAGATATACATCAGTAGGGCAATAA -ACCGCGATTGCTCAAGAAAGTTAGACAATACGGTAAAAAGCAATGCGCGCGTCAACTCCGCTTCGCAGGGTCTGCTGGGT -TGCTGCTTGCTGTGGTTGGCGGCTAGCCGGAACACTTCCGGTGTACGGCTATGACAAGCGATAACCGGGGTTGCCAGCCG -CGACCAGGGCTTTACACAGGTTAAGTTCTTATTTAAAAACAACAGATAATCGTTGATGATGTTACGGTTGATGTGGGTGA -TTAATACGTGATTTAACGTTGAGAGTTCAATGACGTTATTGTTGCACGCGAAGGCGGCCAGGTAGTTTTTCGGAAGGGTA -AACGTAGCATGGTTATTGACGCTTACCTCTACCTCTTTTTCGGTCAGGATCACCACGCAAGGTTCACTGCTGCTCAATTG -CATTTCGCACTCCTCAGATATCAGAAACTCCGCTCAAAGGATCTATGCTTCCTGCATGAGTGATCGGCCCGTTCGCCGAT -AACGATCTTCTTTCTTTAGCACGCTTTTTAGCAATTAATCTTGATGGAATTCTGATGAGAGCGAAAGAGGTAAGCCAGGT -CGTACCCGACTTACCTGGAGGAGATTTAATACTCGAGAATGCCGTGCGCGACGGGCAAATAGCGCAGAGAGAAATAGAGA -GTGTCTTTACCGCAAGAGGAACGTTTCGCTAACAGCGAGGCAATTTCTGCGTCCGGTTTCGGTTTCGCTGTAAAGGTTTT -GCCTTTGCCGGCGACAAAAAGTTCATAAACAACGCCGCTGGCAGGGGCGGGACTTTGGCAATCGGCGCTGGCCTGTAAAT -AACGTTCACGCTGTTCAGCGGTCAGTTTATCCACGCCGCTGCCATCCTGTACCCAGACATTAACGCCGGTTGCTTTAACG -TGTTCCAGCAGTTGGCGATAGCCATCGGGCGACATGTTTCCGGCGAAAAAACTACTGATATAAACCGGTTTTGCTGAAAC -ATCGCTAATCAGCCGCTGCGCGTTGTTTAACCATGTTAGCAAAGGCTGACGGGCGGCTTCGCTGCGCCAGTTCAGGTCGT -CAATTTCCGCGCTGATGTACCAGCCATCCGGCGTTATGCCAGGCGCGGCGCTCCATAATCTGGCTTGCTGGAGATCGGCA -GCCAGCAGGCGATTAAGATAGCTTTCCAGCGCTGCGGACGACTGTTTCTGGTGCATAAAAAATTCCGGATCGGCGTTCAG -CCCGACAATAAGCTTCAGACCAGCCTGTTGCGCAGCTGCGGCCCGCTTAAACAATAACGTGCGCTGTTCTGGCTGGGTAA -ATGCATCGCCGTAACGGGTCCATTGCAAAACAAGGGTATCGAAGCCTTGCAAACGTAACTGACTCATCAGCCCCTGCCAC -TGGGTATCGGTAACCTGACTATCTCGGTTTTGTGGTTGCCAGATAATACCTTTCATCGCAAAGGAAAAAGGGCTGACCAA -AAGCAGTGTCAGCAATACGAAAATGAACTTACGCATTTACCAGTGCACTCCAATGGTGAGAAACGCGTTGTTGCGCTCTC -CGTTACGTTGATTAATCGCCTTAAAGGTATGTTGATACTCGACGCCGAGACTGACTTTGTGCGGCCAGGCGTCGTAGTGC -GTCTCGCCGGTCCAGATATTCCAGCGGACCCCGACTCCGCCAAGCTGCGCGCCCTGAGTGCCTTTATCACGATAGCCGTT -GTCCTGAACGTGAGCGTAAGGCTCAATAGTCTGTCCGTTAGCTACCTTCTGATGCCAGCTGACGCGATAATCTGCCGTCC -ACGCCTGAATATCCTGGCGGATATATTGCGCCGCATCGAGGTACAGGTTTTGGGCAAACCAGCCTGAACCGTTCGGGTGC -CATTCGTCGCTGTATTTGCCGCCATTAAAGAATGAGGCGCTGGCGCGCAGCATGGTATCGGATGCGCCATTTTGGCCGTT -CAGCGGCAACTGCTGTTCGACGGCGATGAAAAAGATCTGATCGCGCAGCGGCTTCCAGCGCAGACCGGTGCCGGACATCG -GATTTTTCACCGGCATCATCACCCCGTTTTCTCCGGTATCGGCAAAGACGCGGCTATAAACTGAGAGCAGGTCGCCTTCC -AGCAGCATATTGCGTCCGATGCGGTACTCGGCTTCCAGTTGTCCGTAGCTACGATAGCTTTTCCCTGGCGCTGCGCCGCC -GACATTATTGTTAGCGGTACTCATTGCGCCGGAACGCAAGCCGATGGAAGAATCGAAACTGAACGTCCAGCGGCGACCGA -CCTCCTCATGCAAACGGCGGAAATTGAAGCGTTGTTGATTTTGTTCTGGGGTCAGTGGGGTTATCAGCGCCTGATTATCA -ATGTCATCAATCACCAGCCGGGCGTAGTGCTGCGTCGCAGGCATGTCATCCAGACGCTGGTTCACGTAGGCCAGTTGTCG -GATCAGTGCCGGATCGTCCGGAAGCCCTTTATGCGCCGGTTCGAGCATTTCCCGCGACTGTGCGATATCACCGCTATCCC -ACAAGGCGTAACCAAGCGCTGCCTGGGTGTTGCTATTATTCGGTTCCAGTTCCAGCGCGGCGCGCAAATCACTCACCGCG -GCCGGGACATTATGACGTTGGCGATAAATTGTCGCCCGCGCAACGTAAGCGTTGGCAGAAGGCGCAATATTGATTGAGCG -CGTGAGATCGTTCAGTGCGAGTTCCGGCTGACCAGGAATGTAACGTTGCGCATGCAGCCACCAGTAGAGGGCATTGCTTC -CCAGTCCACGTTTTTCTGCCTGTTGTAGCCAGCGATCGCGAGCCGCACCATTTCCTGCCGCCTGGGCGGTATTGGCAGCA -GCAAGCAGATCCTCATTGCTCATGTCGTGAAGACTGATTTTCTGCCAGGCCGCCAGTGCGGTGGCGTAGTCCTCAACCTG -ATACGCCTGATAGGCTACCGCACGATGTTGCCAGGCGCTCGGTTGTCGTTGTTCGGCCTGAAGCCATGCATACAACGCCA -CACCGGGTAGCGTGTCCCGATAACACTTTGCCAGACGGTTCCAGGCGGCGGCATCGTAGGAAGGCGACATATCGCCCAGC -AAGCGAACTATTGCCGGGCAATTATCTGCAATACCCGGCAACTGACTTTGCCACTGACGTTGCTCCGCCAGCGGTAAGGG -TTTCGATAAAATCGCCACCTTCGCCGGCGTTGCCAGGTAAGGATGACTTTCCAGCAGAGACGCCAGTCGCGCCATTAAAG -TCTGGCTGACACGCGCATCGCCCTGGAAAGGATAGCGTTGCAGCAATAAATCGGCAGCTTCGCGTGACTGCTCGTTCTGC -ATCAGTTGCCAGGTTAGTTGATCCAGGCGGGTAAGATTTGCCGGTTCTTGCTGATACAGCAATCGTGCCAGACGCAGAGC -TTCAGCCTTGTTACGGGTCGCCACGCTGACAGCATAACGCTCCTCAAGCATTTCATTGGCGGGGAGGGTGGCGAGCAGTT -TTTGCGCTGCGTCGTACTGACCTTCTTTTAACAGCACCGGTAGCGTCGCGCCAACAACATACTGGCGGTTGTCGGCAAAC -TGTACCGTATAATTCGCCAACGCCTGAACGGGGTTAGCGCTGTATTTAGATAACAGATAGAGCCAACTTTTCTCTTGTGC -GTCCGTGGTAAATAGTGGCTTATTTTCAATGAGATAATGCTGGAGGCGTGCTTTTTCGCCACGATAAGCCAGCGCGGTCG -CGTAAGTAATATATGACTGAGGATCGGTGAAGATCCCCTGTGATTGCAGTGCCAGGATCCGATCGTCCAGCTGCCCGGCA -AGAAGCACGTCAAACCACTGACGGCGTTCTGCCGCGCTTAATGTGTTCTGCTGGCGTGCTTCATTGTATAGCGTATCTGC -CTGGGACCATTGTTTCAGGTAGATTGCCCGTTGCAGCAGATCGGTTCGCAGCGTTTTTCCTTCCGGCGATGCAGCAAACG -TCGCATCGTTCAGTTGCGCTCTGGCGACAGGTAACTGTGCCAGCCGCAGGGCATTCTGCCCGACTTCACTGCGACAACGC -AGGGTCGGCGCAGCATCGCACGCTTTTTGCTGGGCAAGCAGTTCTTCAACTGTCGTAACGCTTTTCACTTCAACCGGAAT -AGCCGCCAGACTGCGCTCAAGTCGGGCATCTCCTGGGTGACGTTTCAGTTGATCCTCAAGCAACAGCCGCGCCCGGTCAT -CATGACCAAAATGGCGATAGGCTTCCGCAAGGTATAAAGTCAGCGGAATATTATCCGGCACCTGCTGGTGTATATATTCA -AATTCGCGGATGGCGGTTGCTTCGTCGTTATTTTTCTGTGCCTTCAGCGCTTTATCGAGACGGGGATAAATAACAAAATG -GCGATAATCGCTCAGCCCCAGCTCTTCTGCGCTGGTGCCGATATTGTCTGCGAGTGCGCTGGTACTCAATAAAGACGTCA -GCAGTAAACCAGACCATCCGATGACGCGATTAAGGTTATTCTCCTTCATTTTCGGACTCCAGTTGCGCAACCTGTTCTGT -GTTTAAACCTGCTTTGAGTAATAGTGATTGCATCGAAACTTGTAATTCGCGTTGAATTGTCAGGACGCGATCCAACGTTT -CCTGGCTGATAACGCCTTCGGTGACCAAAAACTTGCCGAGCGGCAGAGAACTGCGTTCATGGCGCAATAACAACACGTTA -ATTGCTGAACGATTAATATGACCGAGCGTGGTCAGTATTTCGGCGAACAGGAACTGATGCGGCACATATTGCCGCCAGAT -TTCACCGGCCTGCTGTTCCGTGAGCCACTGATGCTGAACCGCATTGTACAACATTGCCCGCGGATCGTGACCGCGTCGGC -GTGCATACCAGTGACGTAACCCTGTGACAATTTGTCCCCGCAGAACAATGACGTAACGCACTTTGCGTCCGACTTTACGC -GTCAGGGCCGCCAGCGAAACCGGGTCAATACCATCTTCACTGCCGACAATTAACTCGTCATTTTCCAGACGCAGCGGCAG -TACCGCATAATGCAGCGCCACGGAGGCCGGCATTTCGGCAATCAGCGAGGAAGGGATCTGCCAGGCATCGATGGATTCCC -ACGCCACGCCGTTTTGCTCTGCCAGCGCCTGTGCCAGCTGCTCGGCGCTAATCAGCCCCTGCATCAGCATTGAACCGCCC -AGGCGTAGACCTTCGACGCGATTACGCAGTGCTGTATCGAGTTGTTCTTCAGTGATGACCTGATTTTCCAGCAGAATTTG -ACCTAACGGGCGCAACGAGCGGGTATCGCCAGTCACGCTGGGGAAGTCATGCGTTGTTTTATCCCACGCCACGCGACGTG -GATCGCCGTGTTGAAGTACCTGTTTTAGCGCGCGCCAGTTGGCCATGAAGTTAATCAGGTTGCCCCAGAAAAGACGCAGG -ACGGAAAGCAGCCCCTGCGTCAGGCCGTAGTAGCCAGTAACGAAAATCACCCGCTGCACGATGCGGTTAACCATCAAACC -AAAGTTTAGCCACAGCAGGGTCATTAACCATGCGCTGCCGCTGAAAATAGAAAGGAAATGCCAGGCATCGGGCCACAAAC -TTTCATACGCCAGCAACAGCAAAAGCTGGATCATCACCAGCATCGCGAGGAAGCTGACAAAGTTACTGATTGCCCCTTTG -CGGTCGCGCCAGAGAAAGTAGTTCAGCGTCAGGCTGGAGGTCCATTTATGGGTTTTAAAGCCTTGGAAAACAATGCCGAT -GATCCAGCGGGATTTTTGTCGAACCGCAGTCGAAAAGGTATCGGGGAAATATTCGCGCACGCAGATCATGTTTGATGTCC -GCGCGTGCTGTAAAAATTTACGCTGCTCGCGTTCTTTGGCTTCGTCCACCACCGGAAAACGGACAAAAATTTCCGTCATA -CCTTTTTCTTTCAGGCGGAAGCCAATGTCGTAATCTTCAGTAAGACTCTGCACGTCGAAAGCAATACCGTCACCGTCAGC -TAACAGTGCGGTCACGGCGCGGCGGCTGAAACAGGTGCCGACGCCTGCGCTGGGCACTTGTCCGGCGAGGGCTTCACGCA -CCGGAACATCTTTGCCATGCAGCTCTGAAAACTCATCAATGTAAGTCATGCTGGTGAAGTGCGTCCATTCGCGTTCGAAC -GGATACACCGGGATCTGAATCAGATCTTTACGCTCGACCAGATAGTTGAACAGACGCAATTCCATCGGTGAAATCACATC -TTCGGCGTCATGCAGAATAAAACCAGCAAAAGCGAAATTGGCGCTACGCTCAAATTGGGTGATGGCGTCCAGCACGTTGT -TCAGACAGTCGGCTTTGCTGGTGGGGCCAGGACGCGCGCAGACTACCTTATGCACATTCGGGAAGCGAGCGCACACTTCG -TCAACATCACGCTGAGTATCGGGGTCGTTGGGGTAGGTGCCAACAAAGATATGATAGTTTTCGTAGTCGAGCGTGGTCGC -CGCCAGCTCGGCCATATTGCCGATGACGCCCGTTTCATTCCACGCCGGAACCATAATCGCTAACGGTTTTTCATCTGGTT -TATACAGTTCGCGGTAACTCATTCGCGGGTAGCGGCGATAAACACTCAACTTGCGTTTAATGCGGCGTACCCAGTAGACG -ACATCAATAAAAAAATCGTCCAGCCCGCTGATGAACATGATGACCGCTAACGTTATCGCGATTACTTTTAAGCCGTAGAG -CCAGGTAGCAAAAACATCAAGAAGCCAGTCCACACAAAAACCTTACATTAACGCTGGTTATGTTTAGGGTGGCGTATATT -AAGGTTTTTTATGAATTGTGACAGCTTTTTACCATTAATAGGTATGACTATTGCGGCACGTTATTTTTACACTGGTTATA -AAAGTTGCCGTTTGCTGAAGGATTAAGCGGGTAATGTGATAACAAACCTTGTCCCCCGCGCATCCGACGTTACCGCAACC -GTGCCTTTATGCGCGACAACAATCGATTTCACTATCGCCAGGCCAATACCGCTACCTTCACCTTTTCGCTGGCGGGAGGG -GTCAACGCGATAGAAACGGTCAAACAATCGCGGTAAGTGCTCGGGCGCAATGGGCGTACCGGGGTTTTCGACGATAACTT -GCACCAGGTGATCGACCGTCTGACAGCGCACTACAATTGTCTCTCCGGTTGGCGTATAACGCAGGGCGTTCGAAAGCAGG -TTGCTTAGCGCCCGACGCAGCATCAGCGGATCGCCCGCGACCTGACACTTGTCGCCAACAAACCGCAACTCCACGCCGCG -ATCTTCCGCTAACGCCTCGAAAAAATCGAACACTTTGCCGACTTCATCCGCCAGGTTGAGCATTTTCTTTTCGGGGATTA -GCTGGTTGTTATCGGCCTGAGCGAGAAACAGCATATCGCTGACCATTTTCGCCATTCGCGTCAGCTCTTCGAGATTAGAG -TAGAGCACATCTTCCAGCTCCTTCTGGCTGCGCGACTGGCTGAGGGCGATTTCGGTTTGCGTTATGAGATTCGTAATTGG -TGTGCGAATTTCGTGAGCGATATCCGCTGAGAAATTGGACTGGCGGGTAAAGACATCCTCAATACGCTCGATCATATGGT -TGAACGACAGTACCAGCTGTTCCAGCTCAATGGGCACGGTCTGCGGGTCGAGGCGAACGTCGAGATCTTTCGAGGTAATA -TTCTGGATTTGACGGCTGACGCTGCGGATCGGCGCGTGACCTTTATGTACCGCCAACAGTACGATAAAGACGATCAGGAT -GCTGATTACCGATGCGGTCATAATAAGTTTATTCATCAAATCATTTATGTAATGAAGATGAAAATCGATCGAAAGCGCGA -TGTAGAGCGTATAAATCGGTTTGCCGTCCACCAACGGGCCAACCGGCAAGTTAATCATCCGCCAGTTGCTGTGTTCCATA -TGCCCGTGACCGTGGCCTGGCATCATCATCGTCGGGCCGGAAAGGAGATACACCTCGCCACCCTGAGCGTCTTTATCGGG -TATGGCGTCACGCGTAAACTCGCGGATATCCGGCGCACCGGGGGAGTGATACACCGTTTTACCCTGACTATCTGCCAGGG -AAATCAACACATTGGAATAACCACTGACGATATCTTCCAGCGTCATTAAGCGTCGGGCTTGCGTTTCGTCAGGGTGATTT -AGTACCCGTTCAAGGGTGGCGCTAATCTCTTTTAAATCATTAATATCCTGCTCGGCAAAATGAACTTTTACTGAGTGGAT -CATGATCCATGCAAAGGCGAAAAACGCCGCGATGGTGGCCAGGCTGATAAAAAAGGTCAGGCGGGTTGCCAGCGAAAACG -GGCGCTGAAATGGCTTACTGACCATCCGGCACCTCAAGCATGTAACCCACGCCGCGCACGGTCTGAATTAGCTTCGGCTC -AAAGTCGTTGTCGATTTTGCCGCGCAGCCGCTTCACCGCCACATCAATAGCATTGGTATCGCTGTCAAAATTCATGTCCC -ATACCTGCGAGGCGATAAGCGAGCGGGGCAGCACTTCGCCCTGATGGCGAAGGAAGAACTCCAGCAGAGTAAACTCTTTA -CTGGTCAAAGTGATGCGCGTGCCGCTGCGGGTGACTTTGCGGCTGACGAGATCGACCATCAAATCGGCAACCTGAAACTG -ACTTTCGATAATCACCGCCGCCCCGCGCCGCAGTAATGTGCGCACCCGCGCCAGCAGTTCAGCAAAAGCGAATGGCTTCA -CCAGGTAGTCATCTGCCCCCAACTCCAGCCCCTTGACGCGATGTTCAATGGTGCCAAGCGCGGTAAGCAACAGAATCGGC -ATCCCTTTATTGGCGGAGCGTAACATGCGCACGATATCCCAGCCGTTCACGTCCGGCAGCATAATATCGAGGATTATCAG -ATCATAATCACCGGTCATCGCCAGATGGTAGCCATTCAGCCCGTTGTCGGCCAAATCGACCACAAAACCGGCTTCGGTTA -ACCCTTTGGTCAAGTATTCTCCGGTTTTCTTTTCATCTTCGACAATCAACAGTTTCATATTTCCTCCGCATGTTGCCCGG -GCAATTCTAGAGTAGCGGGATCAGATGGCAATCGCTTATTGGCAAAATGACAATTTTGTCATTTTTCTGTCACCGGAAAA -TCAGAGCCTGGCGAGTAAAGTTGGCGGCATAAAATCACCAGAAATTATGAGCCTATGTCTCCTTGTAAACTTCTGCCATT -TTGTGTGGCCCTTGCGCTAACCGGTTGTTCACTGGCACCGGATTATCAGCGTCCGGCAATGCCCGTGCCGCAGCAGTTCT -CACTCAGCCAGAACGGCCTGGTTAACGCAGCAGATAACTATCAGAACGCGGGCTGGCGCACCTTTTTTGTTGATAATCAG -GTGAAGACGCTGATTAGCGAGGCGCTGGTGAATAATCGGGATTTGCGCATGGCGACGCTGAAAGTGCAGGAGGCACGGGC -GCAATATCGTCTGACCGATGCCGACCGCTACCCACAGCTCAATGGCGAGGGCAGCGGCAGCTGGAGCGGTAATCTTAAAG -GGAATACCGCCACGACACGGGAGTTTTCGACCGGCCTTAACGCCAGCTTTGACCTCGATTTTTTCGGTCGCTTAAAGAAC -ATGAGCGAAGCCGAGCGACAAAATTATTTAGCCACTGAGGAAGCTCAGCGCGCGGTGCATATTCTGCTGGTTTCTAATGT -CGCGCAAAGCTATTTCAATCAGCAACTGGCGTATGCGCAATTGCAAATAGCCGAAGAAACGCTGCGTAATTATCAGCAGT -CATATGCGTTTGTCGAAAAACAACTGTTGACAGGTAGCAGTAATGTTCTGGCGCTGGAACAGGCTCGCGGGGTGATAGAA -AGTACCCGCAGCGACATCGCTAAACGTCAGGGGGAACTGGCGCAGGCGAATAATGCATTGCAACTGTTGCTGGGAAGCTA -CGGCAAGCTGCCGCAAGCGCAGACAGTAAACAGCGACAGCCTGCAAAGCGTTAAATTACCGGCGGGATTGTCGTCGCAAA -TCTTATTGCAGCGCCCGGATATTATGGAAGCTGAACACGCGTTAATGGCGGCTAATGCCAATATTGGCGCTGCACGCGCG -GCATTTTTTCCGTCTATAAGCCTGACCAGCGGAATATCGACCGCCAGTAGCGATCTATCGTCATTATTTAACGCCAGCAG -CGGGATGTGGAATTTTATACCCAAAATTGAGATCCCCATTTTTAATGCCGGACGCAACCAGGCCAATCTGGATATCGCCG -AAATTCGCCAGCAGCAGTCGGTGGTGAATTATGAACAGAAAATCCAGAACGCCTTTAAAGAAGTGGCAGATGCGCTGGCA -TTACGTCAAAGCCTGAACGATCAAATTAGCGCCCAGCAGCGTTATCTGGCATCGCTGCAAATTACTTTGCAACGGGCGCG -GGCATTATATCAGCACGGCGCAGTAAGTTATCTGGAAGTGCTGGATGCCGAGCGTTCTTTATTTGCAACCCGACAAACTT -TACTTGATCTGAATTATGCCCGTCAGGTTAACGAAATTTCTTTGTATACCGCACTTGGTGGCGGTTGACAGCAATATACT -CGTCATACTTCAAGTTGCATGTGCTGCGTCTGCGTTCGCTCACCCCAGTCACTTACTTATGTAAGCTCCTGGGGATTCAC -TCGCTTGTCGCCTTCCTGCAACTCGAATTATTTAGAGTATGACTTTTAACTCCAGGAGAGAATAAATGAAAAAAGCACTG -CAAGTCGCAATGTTCAGTCTGTTTACCGTTATTGGCTTTAATGCCCAGGCTAACGAACATCATCATGAAACCATGAGCGA -AGCACAACCACAGGTTATTAGCGCCACTGGCGTGGTAAAGGGTATCGATCTGGAAAGCAAAAAAATCACCATCCATCACG -ATCCGATTGCTGCCGTGAACTGGCCGGAGATGACCATGCGCTTTACCATCACCCCGCAGACGAAAATGAGTGAAATTAAA -ACCGGCGACAAAGTGGCGTTTAATTTTGTCCAGCAGGGCAACCTTTCTTTATTACAGGATATTAAAGTCAGCCAGTAACC -CAGGTTTAATGAGATGAAAAAAATCGCGCTTATTATCGGCAGCATGATCGCGGGCGGTATTATTTCTGCGGCAGGTTTTA -CCTGGGTTGCAAAGGCGGAACCGCCTGCAGAAAAAACGTCGACCGCAGAACGTAAAATCTTATTCTGGTACGACCCAATG -TATCCCAATACGCGGTTCGATAAACCAGGTAAATCGCCGTTTATGGATATGGATCTGGTGCCGAAATATGCCGATGAAGA -GAGTTCTGCGTCTGGTGTGCGCATTGACCCGACTCAGACGCAGAATCTGGGGGTGAAAACGGCTACCGTCACGCGCGGAC -CGCTGACTTTTGCCCAGAGTTTCCCGGCGAATGTCAGTTACAACGAGTATCAGTATGCCATTGTGCAGGCTCGCGCTGCC -GGGTTTATCGACAAGGTGTATCCGCTTACCGTGGGCGATAAAGTACAAAAGGGCACACCGCTTCTCGACCTGACCATTCC -TGACTGGGTGGAAGCGCAGAGTGAGTATTTACTGCTGCGCGAAACCGGCGGTACGGCGACCCAGACTGAAGGCATTCTTG -AGCGGCTGCGACTGGCGGGAATGCCGGAGGCGGATATTCGCCGCCTGATCGCCACGCAAAAAATCCAGACTCGCTTTACG -CTCAAAGCGCCCATTGATGGCGTGATCACCGCGTTTGATCTGCGCGCGGGAATGAATATCGCCAAAGATAACGTGGTAGC -GAAAATTCAGGGTATGGACCCGGTGTGGGTCACTGCTGCGATCCCGGAGTCTATCGCCTGGCTGGTGAAAGATGCCTCGC -AGTTTACCCTCACCGTTCCGGCGCGACCGGATAAAACACTCACCATCCGCAAATGGACGCTGCTACCTGGCGTGGATGCC -GCGACCCGCACGCTGCAGCTGCGTCTGGAAGTCGACAACGCCGACGAGGCGCTAAAACCGGGCATGAACGCCTGGTTGCA -ACTCAACACCGCCAGCGAACCGATGCTGCTCATTCCGTCACAAGCGCTGATTGATACCGGCAGCGAACAGCGGGTGATTA -CCGTTGATGCCGACGGGCGCTTTGTACCGAAACGCGTTGCTGTTTTCCAGGCATCGCAAGGCGTCACCGCATTACGCTCT -GGTCTGGCGGAAGGTGAAAAGGTGGTTTCCAGCGGCCTGTTCCTGATTGATTCCGAAGCCAATATTTCTGGCGCACTGGA -GCGGATGCGCTCTGAAAGTGCTACCCATGCGCATTGAGGGAATAACCAATGATTGAATGGATTATTCGTCGCTCGGTGGC -GAACCGTTTTTTGGTGCTGATGGGCGCGTTGTTTCTGAGCATCTGGGGCACCTGGACCATCATTAATACGCCAGTGGATG -CGCTGCCGGATCTCTCCGATGTGCAGGTTATTATTAAAACCAGCTATCCCGGTCAGGCACCACAAATCGTTGAAAATCAG -GTGACTTATCCGCTAACCACCACCATGTTGTCGGTGCCTGGCGCGAAGACTGTGCGCGGTTTCTCACAGTTTGGCGACTC -TTATGTGTATGTCATTTTCGAAGATGGCACCGATCCGTACTGGGCGCGTTCGCGGGTGCTGGAGTACCTCAACCAGGTAC -AGGGTAAGCTGCCTGCGGGAGTCAGCGCCGAGCTGGGGCCAGATGCCACGGGTGTTGGCTGGATCTATGAATATGCACTG -GTGGATCGCAGCGGTAAGCACGATCTGGCCGATTTACGCTCATTACAGGACTGGTTTCTCAAATATGAGCTGAAAACCAT -CCCTGACGTTGCGGAAGTGGCGTCGGTGGGCGGTGTGGTGAAAGAGTATCAGGTGGTTATCGATCCCCAGCGCCTGGCGC -AGTATGGCATCAGTCTCGCCGAAGTAAAAAGCGCGCTGGATGCTTCAAACCAGGAAGCGGGCGGTTCGTCGATCGAACTG -GCGGAAGCGGAATATATGGTGCGCGCCAGCGGCTATCTGCAAACGCTCGACGACTTTAATCACATCGTTTTAAAAGCCAG -TGAAAATGGCGTGCCCGTTTATCTGCGCGATGTTGCGAAGGTCCAGATTGGCCCGGAGATGCGCCGGGGCATTGCCGAAC -TAAACGGCGAAGGCGAAGTGGCGGGCGGGGTGGTGATCCTGCGATCCGGCAAAAACGCCCGAGAAGTGATCGCCGCCGTG -AAGGACAAACTGGAAACGCTGAAAAGTAGTCTGCCGGAAGGCGTGGAGATAGTTACAACATACGATCGCAGCCAGCTCAT -TGACCGCGCCATCGACAACCTCAGCGGCAAGTTGCTGGAAGAGTTTATTGTGGTGGCGGTAGTCTGTGCGCTGTTTCTCT -GGCATGTGCGCTCGGCGCTGGTGGCGATTATTTCGTTGCCGCTGGGGTTGTGTATTGCTTTTATTGTCATGCACTTCCAG -GGACTGAATGCCAATATTATGTCGTTGGGTGGCATTGCGATTGCCGTCGGGGCGATGGTCGATGCTGCTATCGTCATGAT -CGAGAATGCGCATAAACGGCTGGAAGAGTGGCAGCACCAGCATCCTGACGCCACGCTGGATAATAAAACGCGCTGGCAGG -TGATCACCGATGCGTCTGTTGAAGTGGGGCCGGCGCTATTTATCAGTCTGCTGATTATCACGTTGTCGTTTATCCCGATC -TTCACCCTGGAAGGGCAGGAAGGGCGTCTGTTTGGCCCGTTGGCGTTCACCAAAACGTATGCGATGGCGGGTGCGGCGCT -GCTGGCGATCGTAGTGATCCCGATCCTGATGGGCTACTGGATCCGTGGCAAAATTCCGCCGGAAAGCAGTAACCCGCTCA -ATCGCTTTTTGATTCGTGTTTATCATCCGCTGTTGCTGAAAGTACTGCACTGGCCGAAAACCACGCTGCTGGTGGCGGCG -CTTTCGGTGCTGACGGTTCTCTGGCCGCTCAATAAAGTTGGCGGGGAATTTTTACCGCAGATCAATGAAGGCGACTTGTT -GTATATGCCATCGACGCTGCCGGGGATTTCCGCAGCAGAGGCGGCGAGTATGCTGCAAAAAACCGACAAGCTAATTATGA -GCGTACCTGAAGTGGCGCGGGTATTTGGCAAAACCGGGAAAGCGGAAACCGCCACCGATTCTGCTCCGCTGGAGATGGTA -GAAACGACCATCCAGCTTAAGCCGCAGGAGCAGTGGCGGCCAGGCATGACGATGGACAAAATCATTGAGGAACTGGATAA -CACCGTGCGGCTGCCGGGGCTGGCGAATCTGTGGGTGCCGCCAATTCGTAACCGTATCGATATGCTCTCAACCGGCATTA -AAAGCCCCATCGGCATTAAAGTTTCCGGCACTGTGCTGGCGGATATCGACGCGATGGCTGAGCAAATTGAAGAAGTAGCG -CGAACGGTGCCAGGCGTAGCTTCTGCGCTTGCCGAGCGGCTGGAAGGTGGGCGCTATATCAACGTTGAGATTAACCGTGA -AAAAGCCGCACGTTACGGTATGACGGTGGCGGATGTGCAGTTGTTTGTGACTTCTGCGGTGGGCGGGGCGATGGTTGGCG -AAACGGTGGAAGGGATTGCCCGTTATCCAATTAATCTGCGTTATCCGCAAAGCTGGCGCGATAGTCCGCAGGCACTGCGC -CAGCTGCCGATCCTGACGCCGATGAAGCAGCAAATCACCCTGGCAGACGTGGCCGACATTAAAGTCTCTACCGGACCGTC -GATGCTGAAAACCGAGAATGCGCGCCCGACGAGCTGGATTTATATCGATGCCCGCGATCGTGACATGGTGTCGGTGGTTC -ACGATTTGCAAAAAGCGATAGCTGAAAAAGTGCAGTTAAAACCGGGCACCAGCGTGGCATTCTCCGGGCAGTTCGAGCTA -CTGGAGCGCGCCAACCATAAGCTTAAACTCATGGTGCCGATGACGTTGATGATTATCTTCGTGCTGTTGTATCTGGCGTT -CCGTCGGGTGGGCGAAGCGTTGCTGATTATCAGCAGCGTACCGTTTGCGCTGGTGGGCGGCATCTGGTTGCTGTGGTGGA -TGGGCTTTCATCTTTCCGTGGCGACGGGCACTGGCTTTATCGCCCTCGCCGGGGTCGCCGCCGAATTTGGCGTGGTGATG -CTGATGTATTTACGTCACGCCATAGAGGCCGTGCCGTCGTTGAATAATCCACAAACATTCAGCGAGCAGAAGCTGGATGA -GGCGTTATATCACGGCGCGGTCCTGCGCGTGCGCCCGAAAGCGATGACGGTGGCGGTGATTATCGCCGGTCTGCTGCCGA -TTCTGTGGGGAACGGGGGCTGGTTCAGAGGTGATGAGCCGGATTGCCGCGCCGATGATTGGCGGCATGATCACCGCACCT -TTGCTGTCGCTGTTTATTATCCCGGCGGCGTATAAGCTGATGTGGCTGCACCGACATCGGGTACGGAAATAAAAGCAGGA -TACCCCGTTTAACCGTGTGGATTGTGTCTTGCGACGATGGGCACTAAATGTTAAAAGGTGCCCCTCAACAAAAAAGACAC -ACAGGGGAAAGGCGTGAAAAACGCGTCAACCGTATCGGAAGATACTGCGTCGAATCAAGAGCCGACGCTTCATCGCGGAT -TACATAACCGTCATATTCAACTGATTGCGTTGGGTGGCGCAATTGGTACTGGTCTGTTTCTTGGCATTGGCCCGGCGATT -CAGATGGCGGGTCCGGCTGTATTGCTGGGCTACGGCGTCGCCGGGATCATCGCTTTCCTGATTATGCGCCAGCTTGGCGA -AATGGTGGTTGAGGAGCCGGTATCCGGTTCATTTGCCCACTTTGCCTATAAATACTGGGGACCGTTTGCGGGCTTCCTCT -CTGGCTGGAACTACTGGGTAATGTTCGTGCTGGTGGGAATGGCAGAGCTGACCGCTGCGGGCATCTATATGCAGTACTGG -TTCCCGGATGTTCCAACGTGGATTTGGGCTGCCGCCTTCTTTATTATCATCAACGCCGTTAACCTGGTGAACGTGCGCTT -ATATGGCGAAACCGAGTTCTGGTTTGCGTTGATTAAAGTGCTGGCAATCATCGGTATGATCGGCTTTGGCCTGTGGCTGC -TGTTTTCTGGTCACGGCGGCGAGAAAGCCAGTATCGACAACCTCTGGCGCTACGGTGGTTTCTTCGCCACCGGCTGGAAT -GGGCTGATTTTGTCGCTGGCGGTAATTATGTTCTCCTTCGGCGGTCTGGAGCTGATTGGGATTACTGCCGCTGAAGCGCG -CGATCCGGAAAAAAGCATTCCAAAAGCGGTAAATCAGGTGGTGTATCGCATCCTGCTGTTTTACATCGGTTCACTGGTGG -TTTTACTGGCGCTCTATCCGTGGGTGGAAGTGAAATCCAACAGTAGCCCGTTTGTGATGATTTTCCATAATCTCGACAGC -AACGTGGTAGCTTCTGCGCTGAACTTCGTCATTCTGGTAGCATCGCTGTCAGTGTATAACAGCGGGGTTTACTCTAACAG -CCGCATGCTGTTTGGCCTTTCTGTGCAGGGTAATGCGCCGAAGTTTTTGACTCGCGTCAGCCGTCGCGGTGTGCCGATTA -ACTCGCTGATGCTTTCCGGAGCGATCACTTCGCTGGTGGTGTTAATCAACTATCTGCTGCCGCAAAAAGCGTTTGGTCTG -CTGATGGCGCTGGTGGTAGCAACGCTGCTGTTGAACTGGATTATGATCTGTCTGGCGCATCTGCGTTTTCGTGCAGCGAT -GCGACGTCAGGGGCGTGAAACACAGTTTAAGGCGCTGCTCTATCCGTTCGGCAACTATCTCTGCATTGCCTTCCTCGGCA -TGATTTTGCTGCTGATGTGCACGATGGATGATATGCGCTTGTCAGCGATCCTGCTGCCGGTGTGGATTGTATTCCTGTTT -ATGGCATTTAAAACGCTGCGTCGGAAATAAGGCATTCACGCTACATCCGACAAAACGATGTCAACCATCCGAAACCGCTC -TCATCCATTCGATGAGAGCGGTTTTTTTAATTACTGCTTAAATGCACCCGCCAGAGAGCGAATATCATTGCCGGTTGGCG -ACTGATGAAGTCGCAGACCAAACTCTTCGACAATCGCAAATATGTGATCGAATATATCAGCCTGAATGCTTTCATATTCC -AGCCACACCACGGTGTTAGTAAACGCGTAGATCTCGAGCGGTAAACCGTTATCACCTGGAGCCAGTTGGCGTACCATTAA -GGTCATATCTTTACGAATCCGCGGATGGTTACGCAGATATTCGTTCAGATAGGCACGAAAGGTTCCAATATTGGTCATTC -GGCGCAGATTTAATACCGACTCCGTAGAACCTTGCTGGCGATTCCACTCATTAATTTCCTGATGGCGGCTGGTTAAATAA -GGCTTTAACAAATGCGCTTTATTCAGACGTTGCATTTCGTCTTCATCAAGAAAACGAATACTGGTGACATCAATACTGAT -ACTGCGCTTAATACGTCGCCCGCCAGATGCTGACATCCCGCTCCAGTTTTTAAAGGAGTCAGAAACCAGAGACCAGGTGG -GAATAGTGGTAATGGTATTGTCCCAGTTACGCACTTTGACGGTGGTTAACCCAATATCGATCACCGCGCCATCCGCGCCG -TATTTCGGCATCTCCAGCCAGTCGCCCAGTTTCAGCATATCGTTCGCGGAAAGCTGAATACCTGCCACCAGACCAAGAAT -CGGATCTTTAAATACCAACATCAGCACGGCAGCCATTGCACCAAGACCGCTGATCAGAATCGCTGGCGACTGACCAATCA -GCAGCGAGATCATCAAAATGCCGACCAGAATCGCGCCGATCAGTTTAATCCCCTGAAATATCCCTTTCAGCGGTAACTGA -GATGCTGCCGGGAATTTCTGCGCCAGATTCAAAATAACATCCAGCAACGAGAAGACTGAAAGCAGCGCATACATCATGAT -CCACAACTGCGCGCAGGTAGTCAGAATATCTGCCGCTTCGGTGCCTTTTTGCAGCCAGAATACCGCCTGAATATTGACGA -TAATCCCCTGCAGGGTAAAAGCTAAACGGTGGAAGAGTTTATTCTGGGTAATGATTTGCAACCAAAGCCGTGAACTGGCG -ATGGCACGTTTTTCGAAGGTCCGCAGTACCACCCAATGCAAAATAATATGCACCACGACGGCGGTCAGAAAAATAATACC -GAAAATCATCACCATCGAGGTGGTGTGATCGATCTCAATACCCGCTAAATCTTCAACCTGGGATATTAAATCCTGCATAA -CGTCTCCTTTATACAACAGCAGCCTATGATGACGGCTGAAACAGGGTTATGCAAATCAGGAGAATCTGAGAGGAAATAGC -CGGGCAGATGCCCGGCAAGAGAGAATTACACTTCGGTTAAGGTGATGTTTTGCGGCAGACGAGATTTCGGCAGCGTAGCG -TTAAAATCTTCAACGCTGTGATGACCTACCGGAACAACCACCAGACTGGTGTAGCCTTTCTCTTTCAGACCAAATTCTGC -ATCGAGGATGGCGGCGTCAAAACCTTCGATGGGTACCGCGTCCAGACCCAGAGCCGCCACGCCGAGCAGGAAGTTACCGA -CGTTGAGATAAACCTGTTTTGCCATCCACTCTGCATCATCATGCAGATCTTTACGGTGCATATCAGCGAAGAACTTGCGA -CCTTTATCGTTCGCGGCTTTCGCTTCCGGCGTGGCAAAGCGGCCATCGGCATCTTCCTGGTCAACAACCAGCTTCAGCCA -GACATCGTCCATCGCGGTTTTTGCACAGAACACCACGACGTGCGAGGCATCAAGCATTTTACGCTCGTTGAACACGTAAT -TACCGGCAGCGGATTTGGCAACACGCGCTTTACCTTCTTCCGTGCTGGCAACAATAAAATGCCACGGCTGGGAGTTGGTG -CTGGATGGGCTGTATTGCAGTAGCGTTTTGATCTGCTCGGCCTGTTCCGGGGTAAGTTTTTTGCTGGCATCAAATGCCTT -AGTGGAATGACGCTTTAAGGCGACAGAAATGATATCCATAAAGACTCCATGTGAAAGTAATTTTGCGTGCCAGCAGATTA -CAAGGTTCAACGAGAAATGGTAAGCGAGAAAAATGCGCTATAGATTTCCGCTTTAGCCTGGACGCACTCTTTTTTGATCG -CGTTTAGCCAGACCATCAACCACCAGATTCCACGAATCGTTGATCAGATCGCGAAGTAACGCTTCGGAGATTTCTTCGCC -GGGATACACTGAAATCCAGTGCTTTTTATTCATGTGATACCCTGGCTTAATGCTTGGGTATATTTGCTGATTTAACAGGG -ATTTTTGTGGATCGGACTTCAGATTGATAAAGGGGACGCCGCGTAGCTCCGACGACAGCATAAAAATCTTGCCGCCAATT -TTAAAAACATCGAACTCCGGGCCAAAAGGCCAGCAAAGCTCGACAAAGGGTAACTCAAGGGCCAGGCGTTTCGCCGTTTC -GTGCAGTGATTGCTTATCCATAAACGTTCCTTTAGGCGAAGGAGAATAAGCAAAGTATGCCGCGAAGTACGGCGATAATC -GACGTTTAATCCGCCAGCGAGAACCAGCGTCGCCAGATAAAGCGCAGAACAAAATACTCAATAGCGCCCAGCACTAAAAA -CCACAGACAAAACAATAAAGTGTAAAGCTGACTAAGATCCATCAGATGGAACATGGTCACCAGTTTTTGTGCCAGCGCCA -GCCCCAGTGCGGGGGCGGGCAGCAGCAGGCAAGAGAGGAAAGCCATCAGCAAAATGCCTGCTGCGGTGGTCAAGGTTTCT -AAAGGGTGTTTCATAACATTGTTAAATGTAAGTTAAAACACCATTGTCAGGGATATTCTTCTGTAAGGCAATTCCCGGCT -TAGTCACCGGCCCAGATCTCACAATGCTTTTTCACCAGCCCAATCAGCGAGCCGCCATCGGCGACGAAATCGCGCATTAG -CTGCGCTTCATTCAGACCGCTGACGACCTGGCGATGCAGGGCCTCAATCGCGCTCGATGCACCAATTTTATGTGCGGAAG -GGGCGATTTTTTCCAGCAATCGCAAGGTATCTTCCGTTAGCGGTCGACGATCTCCAGTGTGCGGATCGGTGATGACGCCT -TCAAGCCCATAGCGACAGGCCTGGAAACGGTTGAATTTATACAGCAGGTAATCTTTTTCCTGATGTTTAAACGGGCGTTC -CGTCAGTAACCAGTGGGCGGTAGCCTGAATTAATCCCGCCATATTTACTGCGTGGCTAAGGGTTAACGGGGTATCCATCA -CCCGAACCTCCACCGTGCCAAAATGAGGACTGGGGCGAATATCCCAGTGCAGATCTTTAATGCTGTCGATCATCGTGGTG -TAACTCAGACAGCGAAACAGGGCTTCAAATTGTTGCCAGTTACTGACCCACGGCATCGGGCCATTATCAGGAAAGGCGGA -AAAAATATTCGGTCGTGAGGAGGCAAAACGCGTATCCGTTCCCTGCATATATGGCGACGCGGCGGAAAGGGCGATAAAGT -GCGGCACAAATCGTGACAAGCCGTGCAGCAAATAAATGGCGTCATCGCCACTGGCGCAGCCAACATGGACATGCTGACCA -AAAACGGTCGCCTGCTGAATGAGATAACCAAAGTTTTCCAGCGTGCGTTGATAGCGTTCGTTATCGCATACCTCCTGACG -CTGCCATTTCTGAAACGGGTGCGTGCCACCGCCGCAAATTTCCAGATGATGGTCTGTGGCTGCCTGCAATACGACTTTCT -GCATCGCTGAAAACTGCCCGGCAGCCTGGTTGATATCACGGCAAACATCCGTCGCCAGCTCCAGCATACTTTCGGTGATA -TCGTGCTTTACCTCTCCGGCCGTGATCTTATTTTTAACCGCGTCAATCAGCATTGAAGAGTCCTGGCTTAAGTCATAGCC -CGGCGGATTAACCACCTGCATTTCCAGTTCAATACCGAGGGTAAAAGGTTCAGAAACATGAAAATCGGGTAATGGCATAG -GTTTCTCTTATGTTGGCGTTTTCTATTCAGTATAGAAGTCGGAGCGGCTGGGCGAGATGCGGAAGTTCTGGAATGTTTCT -TTTTTTTGGTGATGGTGAACTGATGGTGCCTGAAGCAATTTGGCTACTTTTGCAATGTGACAAGTTATGGCAGTGCTGAC -TGGTGGCGAAGAATTTTGACGATTGAGTCATGCAGAAAAAAACGGGTTCAGCTTCAGTTGATTAAATGAGGAGTGAGAAG -TCCGAAACAGGACTCACTGTATAAATAAACAGCTATTTTGTTGAGGAAGGGTAAGATAACGGCGGGTGCCTGAAGCTTTC -CGGTTTCAGGTTTACTCTGAGGTCTGGAAAGATGAAGCCCCAGGAGATATTTCTATCAACCCTGGGGCTGCCACTCCAAA -CCCGAACAATTTGGATGGTAGTCCCTTCTTCGCATGGAGGCAATATAAACATGCTGACGAAATATGCCCTTGCGGCAGTC -ATAGTGCTGTGTTTAACGGTGCTGGGATTTACGCTTCTGGTCGGAGACTCGCTGTGTGAGTTTACGGTGAAGGAACGTAA -TATTGAGTTTAAGGCTGTTCTCGCTTACGAACCGAAGAAGTAGCCGTTGTGCGGGGAGTAATCCCATAAGCGCTAACTTA -AGGGTTGTGGTATTACGCCTGATATGATTTAACGTGCCGATGAATTACTCTCACGATAACTGGTCAGCAATTCTGGCCCA -TATTGGTAAGCCCGAAGAACTGGATACTTCGGCACGTAATGCCGGGGCTCTAACCCGCCGCCGCGAAATTCGTGATGCTG -CAACTCTGCTACGTCTGGGGCTGGCTTACGGCCCCGGGGGGATGTCATTACGTGAAGTCACTGCATGGGCTCAGCTCCAT -GACGTTGCAACATTATCTGACGTGGCTCTCCTGAAGCGGCTGCGGAATGCCGCCGACTGGTTTGGCATACTTGCCGCACA -AACACTTGCTGTACGCGCCGCAGTTACGGGTTGTACAAGCGGAAAGAGATTGCGTCTTGTCGATGGAACAGCAATCAGTG -CGCCCGGGGGCGGCAGCGCTGAATGGCGACTACATATGGGATATGATCCTCATACCTGTCAGTTCACTGATTTTGAGCTA -ACCGACAGCAGAGACGCTGAACGGCTGGACCGATTTGCGCAAACGGCAGACGAGATACGCATTGCTGACCGGGGATTCGG -TTCGCGTCCCGAATGTATCCGCTCACTTGCTTTTGGAGAAGCTGATTATATCGTCCGGGTTCACTGGCGAGGATTGCGCT -GGTTAACTGCAGAAGGAATGCGCTTTGACATGATGGGTTTTCTGCGCGGGCTGGATTGCGGTAAGAACGGTGAAACCACT -GTAATGATAGGCAATTCAGGTAATAAAAAAGCCGGAGCTCCCTTTCCGGCACGTCTCATTGCCGTATCACTTCCTCCCGA -AAAAGCATTAATCAGTAAAACCCGACTGCTCAGCGAGAATCGTCGAAAAGGACGAGTAGTTCAGGCGGAAACGCTGGAAG -CAGCGGGCCATGTGCTATTGCTAACATCATTACCGGAAGATGAATATTCAGCAGAGCAAGTGGCTGATTGTTACCGTCTG -CGATGGCAAATTGAACTGGCTTTTAAGCGGCTCAAAAGTTTGCTGCACCTGGATGCTTTGCGTGCAAAGGAACCTGAACT -CGCGAAAGCGTGGATATTTGCTAATCTACTCGCCGCATTTTTAATTGACGACATAATCCAGCCATCGCTGGATTTCCCCC -CCAGAAGTGCCGGATCCGAAAAGAAGAACTAACTCGTTGTGGAGAATAACAAAAATGGTCATCTGGAGCTTACAGGTGGC -CATTCGTGGGACAGTATCCCTGACAGCCTACAAAACGCAATTGAAGAACGCGAGGCATCGTCTTAACGAGGCACCGAGGC -GTCGCATTCTTCAGATGGTTCAACCCTTAAGTTAGCGCTTATGGGAGTAATCCCCGCATATCCGGTTGTCAGGTCAGGAT -GGTAAGGCACCTGCTTTACACTTTCGCCCGTGGTCAGTGATGGCTGCGGGCGAATCGTACCAGATGTTGTCAATTAATCG -TGTTGGCACAGCGTTATGACTATCTTTTCTTTTATCTGCCAGTGCACAGCAAACATCTCATTCTCACGATGAATGATGAC -CTGCTGTTTATTCCAGCTAATTATCTGATAGTCCAGAAAACCTGCATCAGTTTGGATCTCACTTGCCTTAAATGCGCTCT -CTTTGGCGGAAAATGCCAGTGTCAGCGCCAGAGAAAAGGCTAAACCGCAGTCTGCGAGTCGCTCGTGTTCCGCTGGTGTA -ATAATGTTGTCTGTCAATTCTCTTGCGGTTTGTACAGAAAAAATTTCTTCTATATCAATGCCAATCGGTTGACGAGATAC -CACGGCTAATGCCGTAGTCCCACAGTGGCTAATACTGCCGTATACCTCCGCAGGCCAGACAGGTTGGCGTAGCTCGCCGA -TTGCGGGCACACATTTATAGCCATATTCCCGCAAAGCATAAACAGCAGCGATCCGTCCGGCTAAATGCTCTGTTTTACGT -TTACGTCCAGCGTGTTGCAGTTGTGCGTAGTGCGGCAGCCAGAGTAAATCCTGCTCACAAAAATTCGCCGGATCGAACTC -AACAAAATGCAGCGTATGTCCGGCAAAGGGGAGGGAGGTATGCGTAGTTTTCATATCGACCATATTCGAGACTGATGACA -AACGCAAAACTGCCTGATGCGCTACGCTTATCAGGCCTACATGGTCCTGCAATATATTGAATTGGCAAGATTTTTGTAGG -CCGGATAAGGCGTTCACGCCGCATCCGGCATGAACGACGCGCACTTTGTCAACAATCTGACGTTAGCATCAGAAGTGGGT -GTTTACGCTCATATACCACGTACGTCCCGGCTCGTTATAGGTATACGCCCCGGCACCGGCGATATAGTTGGCCCCTGCCA -AATCGCCCGTGGTCTGGGCATTACCCGCACGCCACAAACGTTTGTCGAACAGATTGTCCACGCCGCCGGTCAGACTGACA -TTCTTCGTCACATCCCAGGTCGCGCTCAGGCCAACAATGCTGTAAGGACTAATTTCTTTGGTTTCCGGTCCAACCGCTGG -CTGACCTTTATAGTTGTACTTCTTCGGCTGCTGCTTGCCGTACCAGGTGAAGGTCGTTTGCATCGACAAATCTTCCCGTG -CCTGCCAGCTCAGCGTTGAGTTCAACGTATACTCCGGGATGATCGACAAACGGTCGCCCGTGGTTTTGTTTTCACTCTTC -AGCATATAAGTGATGTTATTGGTCCACATCACCGTTTCGCTAACCGGTACGTTTAACGATCCTTCCAGACCTTCAACCAC -CGCTTTCGGCACGTTATCCCACTGATAGAGATCGGTGCCGACTGCGTTTTGCCCTACAGCCACATAGCCCGCTTCAATCT -TATTGCGATAATCGTTACGGAACCAGGTGACGCCCGCCAGCCACCCGTCGCGTTTGAACTCCAGACCAATCTCTTTGTTG -ATGCTGGTTTCTGCTTTCAGGTCATCGTTACCTTGCAGATAGCAGCCGCCCGCGCTGGCATAGCAACCCTGACCTTTACT -GTAGAGAATGTAGTTCGGGTTAGTCTGGTACAGGCTCGGCGCTTTATAAGCACGGGCGATGCCCATTTTCAGCGTGAAGT -CATCGCCTAAACCTTGCGATATGTTCAGCGCCGGGCTCCAGTTATTGCCGACAATACTGTGATGATCGAAACGCAGCCCC -GGCGTTACGATGGTGCTGTCAGTCAGCTCCATGTTGTTTTCGGCAAACAGCGAGAAAATTTCTGCTTTTGAATACGGGCT -ACGGTCGGTGGTACTCACGCCATCAATAGCGCCACCGGTATTCGTTCCGGTCAGTGCCTGGGTGTTGGAACTTAAGTCCT -TCATCCGTTGCTGATTCCACTCCGTACCCAGCGTCAGCGTCTGGTTAACGAGGAAATCAATCGGCAGGTTAACTTCGCTG -TGCAGCATCACGTCATCAAGATCGATATCGACGAAATCCTGTGTCGCTTTTTCGTTAAATTTCCCTTCGGTACCGCCCGC -CAGACCTTCCGGAATACGCGAGTTACGGGTGTGTTCGTACTGCACCCAGTTGCTGGTGGTCACGCCGTTATCCCAGCCAC -CGTTCCAGGTCAGCGCGTAGTTCTGGCGATACAGACGGTTGGTTTCATCGCCATATTTCGAGCGGGTATAGGAATCGGAG -TTGGTATTCTGGGTGTCGCCCGCATACAGGTTACCCTGGCGGCTGTAACCTGCTTCCAGTTCCAGCGATTGCAATGGCGC -GAAATCCCAGCGCACCACGCCATTAATATCTTTGTTGATTACCCCTTCGCGCCCGGCTGGTAACGTCGTGGCATACGTTC -CGGCACGCGCGGACTGATGGCCCTGGTTGATATCCCACGCGTCAGCCTGGGTTTTGTCGAGGTTGCCATACAAACGGAAG -CTGAATTCGTCGCCCAGCGGACCGGTCAGGCTAAAGTTAGTGCGTTTGGTGGCACCTTCCTCTTTATGTTCTGGCGCATT -GAAATATGCGTCCCAGGAGCCGTGCCACTCGCCGCTGCCTTTTTTGGTAATGATGTTAACCACGCCGCCCGCCGCGCCGT -TGCCATAACGCGCAGCTGCCGGACCACGCAGAACTTCAATACGTTCAATCATTTCAGGTGGCACCCAGGAAGTATCACCA -CGGGTATCGCGCTCGCCACGCCAGCCCTGACGCACCGAGTTACGGCTGCTTACCGGCTTGCCGTCAATCAAAATCAGCGT -GTTTTCCGGACCCATACCGCGAATATCAATCTGTCGGTTATTCCCACGCTGACCACTGGTGGAGTTACCGGTCAGGTTAA -CGCCTGGCATGGTACGGATGATCTTCGACACATCGCGGGCAACCGGGTTTTTGCGGATTTCATCTGCGGTGATGGTCGAA -ACGCCAGGCGCCTGTAAGTTCTGCTCGGCGGCGGTAACGACAATAGTATCGTCATGTGAAACAGGAGTATCGGTCGGCTC -TTGTGCCTGCGCTACCCCATAAATCCCCAGATTGACCAACAAGGCCAGGGAATGAATCTTCTTGTTCATTGTTTTATTCC -TGCATTTTTGCCACGAATTGCAACTGTCGGGCATGGTCGTCATCAACACGACGCATCCCGCTACCGCGAAAACCTTTGAT -CCTGAAAGACACGCAGTGCAGTTGGTTAATTAATGTCCGCGCTTCCCACGGCGCGCCATTACGCTATTGCAAATGCAAAT -AGTTATCAATAATATTATCAATATATTTCTGCAATCAATGAAAAATTGCACAGTAAACATGGGGTTATGGTGTGACGGCG -TTAAAAGTAGGAAGTGAGAGCTGGTGGCAGTCGAAACATGGCCCGGAATGGCAGCGTCTGAATGACGAAATGTTTGAGGT -CACTTTCTGGTGGCGTGATCCCCAAGGTTCTGAAGAATACTCGACGATAAAGCGCGTATGGGTCTACATCACTGGTGTGA -CCGATCACCATCAGAACAGCCAGCCCCAGTCGATGCAGCGAATTGCAGGCACTAACGTCTGGCAGTGGACGACACAACTC -AATGCCAACTGGCGCGGCAGCTACTGCTTTATTCCCACCGAACGCGATGACATTTTTTCTGTACCATCCCCCGATCGCCT -CGAATTGCGCGAAGGCTGGCGAAAACTATTACCCCAGGCGATAGCCGATCCGCTGAACCTACAAAGCTGGAAAGGCGGGC -GAGGGCACGCTGTTTCTGCACTCGAAATGCCGCAAGCGCCTCTGCAACCGGGATGGGATTGTCCGCAAGCGCCAGAAATA -CCTGCCAAAGAAATTATCTGGAAAAGTGAACGGTTGAAAAAGTCACGGCGTGTATGGATTTTTACCACCGGCGATGCAAC -AGCAGAAGAACGCCCGCTGGCAGTTTTGCTCGATGGCGAATTTTGGGCGCAAAGTATGCCCGTCTGGCCAGTGCTGACTT -CGCTGACCCATCGTCAGCAACTTCCTCCCGCCGTGTATGTGTTGATCGACGCTATCGACACCACGCACCGCGCCCACGAA -CTGCCGTGTAATGCGGATTTCTGGCTCGCAGTACAGCAAGAGTTATTACCCCTGGTGAAAGCTATTGCCCCTTTTAGCGA -TCGTGCCGATCGCACCGTGGTTGCCGGGCAGAGTTTTGGTGGGCTTTCCGCGCTGTATGCCGGACTGCACTGGCCTGAAC -GCTTTGGCTGTGTATTAAGCCAGTCAGGATCGTACTGGTGGCCGCATCGGGGCGGGCAGCAAGAGGGCGTGTTACTTGAA -AAGCTAAAAGCTGGTGAAGTTAGCGCCGAAGGTCTGCGCATTGTGCTGGAAGCGGGTATTCGCGAGCCGATGATCATGCG -GGCCAATCAGGCGCTGTATGCGCAATTACACCCCATAAAAGAATCCATTTTCTGGCGTCAGGTTGACGGCGGACATGATG -CGCTTTGTTGGCGCGGTGGCTTGATGCAGGGGCTAATCGACCTCTGGCAACCACTTTTCCATGACAGGAGTTGAATATGG -CATTCAGTAATCCCTTCGATGATCCGCAGGGAGCGTTTTACATATTGCGCAATGCGCAGGGGCAATTCAGTCTGTGGCCG -CAACAATGCGTCTTACCGGCAGGCTGGGACATTGTGTGTCAGCCGCAGTCACAGGCGTCCTGCCAGCAGTGGCTGGAAGC -CCACTGGCGTACTCTGACACCGACGAATTTTACCCAGTTGCAGGAGGCACAATGAGCCAGCATTTACCTTTGGTCGCCGC -ACAGCCCGGCATCTGGATGGCAGAAAAACTGTCAGAATTACCCTCCGCCTGGAGCGTGGCGCATTACGTTGAGTTAACCG -GAGAGGTTGATTCGCCATTACTGGCCCGCGCGGTGGTTGCCGGACTAGCGCAAGCAGATACGCTGCGGATGCGTTTTACG -GAAGATAACGGCGAAGTCTGGCAGTGGGTCGATGATGCGCTGACGTTCGAACTGCCAGAAATTATCGACCTACGAACCAA -CATTGATCCGCACGGTACTGCGCAGGCATTAATGCAGGCGGATTTGCAACAAGATCTGCGCGTCGATAGCGGTAAACCAC -TGGTCTTTCATCAGCTGATACAGGTGGCGGATAACCGCTGGTACTGGTATCAGCGTTATCACCATTTGCTGGTCGATGGC -TTTAGTTTCCCGGCCATTACCCGCCAGATCGCCAATATTTACTGCACATGGCTGCGTGGCGAACCAACGCCTGCTTCGCC -ATTTACGCCTTTCGCTGATGTAGTGGAAGAGTACCAGCAATACCGCGAAAGCGAAGCCTGGCAGCGTGATGCGGCATTCT -GGGCAGAACAGCGTCGTCAACTGCCGCCGCCCGCGTCACTTTCTCCGGCACCTTTACCGGGGCGCAGCGCCTCGGCAGAT -ATTCTGCGCCTGAAACTGGAATTTACCGACGGGGAATTCCGCCAGCTGGCTACGCAACTTTCAGGTGTGCAGCGTACCGA -TTTAGCCCTTGCGCTGGCAGCCTTGTGGCTGGGGCGATTGTGCAATCGTATGGACTACGCCGCCGGATTTATCTTTATGC -GTCGACTGGGCTCGGCGGCGCTGACGGCTACCGGACCCGTGCTCAACGTTTTGCCGTTGGGTATTCACATTGCGGCGCAA -GAAACGCTGCCGGAACTGGCAACCCGACTGGCAGCACAACTGAAAAAAATGCGTCGTCATCAACGTTACGATGCCGAACA -AATTGTCCGTGACAGCGGGCGAGCGGCAGGTGATGAACCGCTGTTTGGTCCGGTACTCAATATCAAGGTATTTGATTACC -AACTGGATATTCCTGATGTTCAGGCGCAAACCCATACCCTGGCAACCGGTCCGGTTAATGACCTTGAACTGGCCCTGTTC -CCGGATGTACACGGTGATTTGAGTATTGAGATCCTCGCCAATAAACAGCGTTACGATGAGCCAACGTTAATCCAGCATGC -TGAACGCCTGAAAATGCTGATTGCCCAGTTCGCCGCGGATCCGGCGCTGTTGTGCGGCGATGTCGATATTATGCTGCCAG -GTGAGTATGCGCAGCTGGCGCAGCTCAACGCCACTCAGGTTGAGATTCCAGAAACCACGCTTAGCGCGCTGGTGGCAGAA -CAAGCGGCAAAAACACCGGATGCTCCGGCGCTGGCAGATGCGCGTTACCTGTTCAGCTATCGGGAAATGCGCGAGCAGGT -GGTGGCGCTGGCGAATCTGCTGCGTGAGCGCGGCGTTAAACCAGGGGACAGCGTGGCGGTGGCACTACCGCGCTCGGTCT -TTTTGACCCTGGCACTCCATGCGATAGTTGAAGCTGGAGCGGCCTGGCTACCGCTGGATACCGGCTATCCGGACGATCGC -CTGAAAATGATGCTGGAAGATGCGCGTCCGTCGCTGTTAATTACCACCGACGATCAACTGCCGCGCTTTAGCGATGTTCC -CAATTTAACAAGCCTTTGCTATAACGCCCCGCTTACACCGCAGGGCAGTGCGCCGCTGCAACTTTCACAACCGCATCACA -CGGCTTATATCATCTTTACCTCTGGCTCCACCGGCAGGCCGAAAGGGGTAATGGTCGGGCAGACGGCTATCGTCAACCGC -CTGCTTTGGATGCAAAATCATTATCCGCTTACAGGCGAAGATGTCGTTGCCCAAAAAACGCCGTGCAGTTTTGATGTCTC -GGTGTGGGAGTTTTTCTGGCCGTTTATCGCAGGGGCAAAACTGGTGATGGCTGAACCGGAAGCGCACCGCGACCCGCTCG -CTATGCAGCAATTCTTTGCCGAATATGGCGTAACGACCACGCACTTTGTGCCGTCGATGCTGGCGGCATTTGTTGCCTCG -CTGACGCCGCAAACCGCTCGCCAGAGTTGCGCGACGTTGAAACAGGTTTTCTGTAGTGGTGAGGCCTTACCGGCTGATTT -ATGCCGCGAATGGCAACAGTTAACTGGCGCGCCGTTGCATAATCTATATGGCCCGACGGAAGCGGCGGTAGATGTCAGCT -GGTATCCGGCTTTTGGCGAGGAACTGGCACAGGTGCGCGGCAGCAGTGTGCCGATTGGTTATCCGGTATGGAATACGGGT -CTGCGTATTCTTGATGCGATGATGCATCCGGTGCCGCCGGGTGTGGCGGGTGATCTCTATCTCACTGGCATTCAACTGGC -GCAGGGCTATCTCGGACGCCCCGATCTGACCGCCAGCCGCTTTATTGCCGATCCTTTTGCCCCAGGTGAACGGATGTACC -GTACCGGAGACGTTGCCCGCTGGCTGGATAACGGCGCGGTGGAGTACCTCGGGCGCAGTGATGATCAGCTAAAAATTCGC -GGGCAGCGTATCGAACTGGGCGAAATCGATCGCGTGATGCAGGCGCTGCCGGATGTCGAACAAGCCGTTACCCACGCCTG -TGTGATTAACCAGGCGGCTGCCACCGGTGGTGATGCGCGTCAATTGGTGGGCTATCTGGTGTCGCAATCGGGCCTGCCGT -TGGATACCAGCGCATTGCAGGCGCAGCTTCGTGAAACATTGCCACCACATATGGTACCGGTGGTTCTGCTGCAACTTCCA -CAGTTACCACTTAGCGCCAACGGCAAGCTGGATCGCAAAGCCTTACCGTTGCCTGAACTGAAGGCACAAGCGCCAGGGCG -TGCGCCGAAAGCGGGCAGTGAAACGATTATCGCCGCGGCATTCTCGTCGTTGCTGGGGTGTGACGTGCAGGATGCCGATG -CTGATTTCTTCGCGCTTGGCGGTCATTCGCTACTGGCAATGAAACTGGCAGCGCAGTTAAGTCGGCAGGTTGCCCGCCAG -GTGACGCCGGGGCAAGTGATGGTCGCGTCAACTGTCGCCAAACTGGCAACGATTATTGATGCTGAAGAAGACAGCACCCG -GCGTATGGGATTCGAAACCATTCTGCCGTTGCGTGAAGGTAATGGCCCGACGCTGTTTTGTTTCCATCCTGCGTCCGGTT -TTGCCTGGCAGTTCAGCGTGCTCTCGCGTTATCTCGATCCACAATGGTCGATTATCGGCATTCAGTCACCGCGCCCCAAT -GGCCCCATGCAGACGGCGGCAAACCTGGATGAAGTCTGCGAAGCGCATCTGGCAACGTTACTTGAACAACAACCGCATGG -CCCTTATTACCTGCTGGGGTATTCCCTTGGCGGTACGCTGGCGCAGGGTATTGCGGCGCGACTGCGTGCCCGTGGCGAAC -AGGTGGCATTTCTTGGCTTGCTGGATACCTGGCCGCCAGAAACGCAAAACTGGCAGGAAAAAGAAGCTAATGGTCTGGAC -CCGGAAGTGCTGGCGGAGATTAACCGCGAACGCGAGGCCTTCCTGGCAGCACAGCAGGGAAGTACTTCAACGGAGTTGTT -TACCACCATTGAAGGCAACTACGCTGATGCTGTGCGCCTGCTGACGACTGCTCATAGCGTACCGTTTGACGGTAAAGCGA -CGCTGTTTGTTGCTGAACGCACACTTCAGGAAGGTATGAGTCCCGAACGCGCCTGGTCGCCGTGGATAGCGGAGCTGGAT -ATCTATCGTCAGGATTGTGCGCATGTGGATATTATCTCTCCAGGGACGTTTGAAAAAATTGGGCCGATTATTCGCGCAAC -GCTAAACAGGTAAATTAATATTATTTATAAACCCATAATTACAGAAAATAATTATGGGTTTTTTATTTGTTTGATTTATA -GGTTTGATGAATATTTCTCTTAAATAGAGTGAATGTTGCATTCAGTGGAAGGAATTTACAAACTTCAGCTTCGGATAATT -ATCACCAACTGGTAAAGTGAGCGCCGTGGAGATTTCCCCCTATTGGACTCATTTTCAGGTTATACCCCATGTCATCACTG -AATATTAAACAGGGAAGTGACGCTCATTTTCCCGATTATCCTCTGGCGTCGCCCAGTAATAATGAAATTGATTTACTTAA -TCTAATCTCAGTTTTATGGCGGGCCAAAAAAACGGTCATGGCGGTCGTTTTTGCGTTTGCCTGCGCAGGCTTGCTGATCT -CTTTCATCCTGCCGCAAAAATGGACCAGCGCGGCGGTTGTCACGCCTCCAGAACCTGTTCAGTGGCAAGAGTTGGAGAAA -TCATTCACTAAGCTTCGTGTGCTGGATCTGGATATCAAAATTGATCGTACAGAAGCATTTAACCTGTTTATCAAGAAGTT -TCAGTCGGTTAGCTTGCTGGAAGAGTACCTGCGTTCATCACCTTATGTGATGGACCAATTAAAAGAGGCGAAAATCGACG -AACTGGATTTGCATCGCGCAATTGTCGCATTGAGCGAAAAAATGAAAGCGGTTGATGACAATGCCAGTAAGAAAAAAGAT -GAACCGTCACTGTATACCTCCTGGACGCTAAGTTTTACCGCGCCAACCAGTGAAGAGGCGCAGACCGTTTTGAGCGGGTA -TATCGATTATATCTCTACGTTGGTGGTGAAAGAGTCGCTAGAAAACGTCCGTAATAAACTGGAGATCAAAACCCAGTTTG -AAAAAGAAAAACTGGCTCAGGATCGCATTAAAACGAAAAATCAACTTGATGCAAACATTCAGCGCCTCAATTATTCACTC -GACATTGCCAACGCGGCAGGAATTAAAAAGCCCGTTTACAGTAATGGTCAGGCCGTTAAAGATGACCCCGATTTTTCTAT -TTCTCTCGGTGCAGACGGTATTGAACGCAAACTGGAAATAGAAAAAGCGGTCACTGACGTTGCGGAACTGAACGGTGAAT -TACGTAATCGGCAGTATCTTGTCGAGCAATTAACAAAAGCACATGTCAACGATGTGAATTTTACGCCGTTTAAATATCAG -TTAAGCCCGTCATTGCCAGTGAAAAAAGACGGTCCGGGTAAGGCGATTATTGTGATCCTTTCCGCGTTGATCGGCGGGAT -GGTGGCTTGTGGTGGCGTGCTGTTGCGCTATGCGATGGCATCCAGAAAACAGGATGCCATGATGGCAGACCACTTAGTTT -AACTATTTGCGGTTGAAGGTGCCGTTCGTCCGAGCGGCACCACAAGCGGCGTTCCGGCAACTGGATCGTCAATGATCATG -CAGCGCAGACCATAAATGCGCTCAATCAGTTCAGCAGTGACAATCTCCTTCGGCGCTCCCTGAGCAACAATTTTCCCTTC -CCGCAATGCAATCAAATGGCTGGCGTAACGACAGGCCTGATTAAGATCGTGCAGCACCGCCGCCAGGGTATAGCCTTTTT -CGCGGTTCAGTTCGCTTAACAACTCCAGCAAATCAATCTGATGACTGATATCCAGCCAGGTCGTGGGTTCGTCGAGCAGC -ATAATTGCCGTTTCCTGGGCCAGCACCATCGCGATCCACGCTCGCTGGCGTTGTCCGCCAGAAAGGGTATCCACGCTTTG -ATCTGCCAGATGAGTTATTCCCGTGGCCTGCATTGCTTTCGTTACCGCTTCTTCATCCTCTTTGCGCCAGCGGGTAAACA -GCGGTTGATGCGGATAACGTCCACGCGCCACCAGCTCCTGCACGGTGATATCGCCCGGCGTGGTAGCATTTTGCGCCAAC -AGACCAATCCGGCGTGCAACCTCTTTACTGGCGTAATGTTGAATGTGCTCGCCATCCAGCCAGACATGCCCATGAGCAGG -CGTCATCAGGCGGCTTAAGGTACGCAGTAACGTGGATTTACCGCAGCCATTTGGCCCGATAATTGCCGTGAAGTGACCAT -CAGGTATTTCTACAGTCAGATTTTCCGCAACGGTATATTTGCCATATCCCAGGGTTAACTGTTCGCCGCGCAAACGGGCT -ACTGATTCGGTCATTTTTTGCGAGACTCCTGAATTAACAAGACGATAAGGTAAATACCGCCGAGGCTGACGGTAACGACG -CCAACCGGAAGTTGATACGGCATAAACAGTTGTTGGGCGCAGAGATCGGCCGCCAGCAGTAACAGCGCCCCGCATAGCGC -CGCCTGGGTTAGCCCCCAGCGAGCGGTGCCGCTAATGCGTCGGGCAATGTGCGGTGCGACTAAAGCAATAAAGGAAATCG -GCCCGGCAAGCGCTGTTGCCGCAGCGGTAAGCACCACTGCAACCAGCATCATTAACAGACGCGAACGTTCGACGCTGACG -CCCAGCGCACACGCGGTATCATCGCCCATTTCCAGCAAGCGCATCCGGCGTACCAGTAAGGCGGCGGCAATGAGCATCAA -TATAATGATGGGTGCGGAAGGCGAGGTTTTTGCCCACGTCAGGCCGTTGAGCGATCCGGCATTCCACAAACCTGCTGTTA -GCGCCGTTTCTAAAGACGCTTTCAGCAACAGCCAGGTATTAAAGGCCACCAGCATGGCGCGAACGCCGATACCGATAATA -ATCAACCGAAAGGTGTCGATGCCGTTGCGCCAGGCGAGCAGCCAGACCAGCAGCGAAGTGACAATGCCGCCCACCATTGC -TGACAGCGCGATAGCCGTCAGGTCCTGACCAAACAGCACCATCGCCACCAGCACGCCGCTCCACGCCCCGGTGTTAAAGC -CCATTACGTCAGGGCTGCCGAGCGGGTTACGCATCAGCGACTGAAAAATCGCGCCACTGACGCCCAGTGCTGCGCCAATC -AACAGCGCCATCAGCACGCGTGGTAAACGCCATTCGGTGACCACCATCGTCATACTGCGCGGCGCATCGCCCATCAGCGC -GGCGAATACCTGCGAGGTTTCCAGCGTGACGGCACCGCTGCGTAATCCCCAGATACCTGCAACCACACAGGCGGAAACCA -GCAGCAAACAGGTGATGAGTAATCGGCGAGAGACGTAAATCATGCACCACCTCGCGTTTTACGTCGCACGAGGAAGATCA -GCACCGGTGCACCAATAAACGCACTGACCACAGAAACGCGCAGTTCGCCGGGCACAATCACCCGCCCGATGATATCGGCA -AACAGCAGCAGGGCAGGGGTAGCAAGTAGCGTGACGGGCAGCGACCAGCGATGATCGGCACCCACCAGCCAACGCGCCAT -ATGCGGCATCATCAGGCCAATAAAGGCAATCGGGCCAACTATTGCCGTCGCACTACCACAAAGCACGGTAATCGCCAGCA -GACCAATCAACTGTGTGCGCGCCACGCGACTGCCCAGCGCCGTCGCGGTGTCGCTGCCGAGGCTCAAACTGTTCAGCGCG -CGACTCAGTAATAGCGCAGTTGCTCCGGCGATCAGCACCGGGATCAGCACCACTTTTAAGGTATGTAGATTGCGAATATC -CAGCGAACCGGCTTGCCAGAAACGCAACTGATCGTAGACGTCAGGATTAAGCAGGGCGATGCCGCTGGTCAGTCCTTCCA -GCACCGCCGCCAGCGCCACGCCCGCCAGGGTTAAACGCACCGGACTTAACTGCCCGCCGCCCTGACTGCCGGTAAAGGCA -ACAATCAATGAGGCCACCAGCGCCCCGGCGAAGGCCATCGCCAGTTGTTCCTGCGCGGAAGAGTAACCAAACAGCGCCGC -ACCCAGCACAATGGCAAAGCTGGCTCCGGCGTTCACGCCAAGCAAGCCGGGGTCGGCAAGTGGGTTTCGGGTGAGGGTTT -GCATTAACGCCCCGGCAAGGCCAAGCGCGCCGCCTGCCAGTAAACCGGCAAGGGTACGCGGCAGCCGCGCGTCGAGCACG -ATGGTGCAGTCGGCGCTCTGGCAGGTGCCGGAGAAGGCCTCCAGCACTACGGAAGCGGGGAGTGATTTTGCCCCAATGAG -CAGGCTTAATGCCGTCGCGATAATCAGTAATAACAGCAATCCGGGCACGGCAATGGCGCGTGTCACGGCAACAGAACCAG -ACATACGAACTTCCATGATAATGAAATTAATTATCGTTATCGATCTTATTTGGATATGTTAGCATGTGCAGCCTAAGAAT -AGGTATTTAAAATATTTGATGGCAAGGCATTGTAATGAATAAACAATCCTGGCTGCTTAACCTCAGCCTGTTGAAAACGC -ACCCGGCGTTTCGCGCAGTATTCCTCGCTCGTTTCATCTCAATTGTGTCTCTGGGTTTGCTCGGCGTCGCGGTGCCGGTG -CAGATCCAGATGATGACACATTCCACCTGGCAGGTGGGGCTTTCGGTGACGCTGACCGGCGGCGCGATGTTTGTTGGCCT -GATGGTCGGCGGTGTGCTGGCGGATCGCTATGAGCGCAAAAAAGTGATTTTGCTGGCGCGCGGCACCTGTGGCATTGGCT -TCATTGGACTGTGCCTTAATGCACTGCTGCCGGAGCCGTCATTGCTGGCAATCTATTTACTTGGTTTATGGGATGGTTTT -TTCGCATCGCTTGGCGTTACGGCGCTATTGGCGGCGACACCAGCACTGGTAGGGCGTGAAAACTTAATGCAGGCCGGGGC -GATCACCATGTTGACCGTGCGTCTGGGGTCGGTGATTTCGCCCATGATTGGCGGTTTATTGCTGGCGACCGGTGGCGTAG -CCTGGAACTACGGGCTGGCGGCGGCGGGCACGTTTATTACCTTGCTACCGTTGTTAAGCCTTCCGGCGTTGCCACCGCCA -CCGCAGCCGCGTGAGCATCCGTTGAAATCATTACTGGCAGGATTTCGTTTTCTGCTTGCCAGCCCGCTGGTGGGCGGGAT -TGCGCTGCTGGGTGGTTTATTGACGATGGCGAGCGCGGTGCGGGTACTGTATCCGGCGCTGGCTGACAACTGGCAGATGT -CAGCGGCACAGATTGGTTTTCTCTACGCGGCGATCCCGCTCGGCGCGGCTATTGGTGCGTTAACCAGCGGGAAGCTGGCA -CATAGTGCGCGACCAGGGTTATTGATGCTGCTCTCCACGCTGGGATCGTTCCTCGCCATTGGTCTGTTTGGCCTGATGCC -GATGTGGATTTTAGGCGTGGTTTGTCTGGCGCTGTTCGGCTGGTTGAGTGCGGTCAGCTCGTTGCTGCAATACACAATGC -TGCAAACGCAAACCCCGGAAGCGATGTTAGGGCGGATTAACGGTTTGTGGACGGCGCAGAACGTGACGGGCGATGCCATA -GGCGCGGCGCTGCTGGGTGGTTTGGGCGCGATGATGACACCGGTTGCTTCCGCAAGCGCGAGCGGTTTTGGTTTGTTGAT -TATCGGCGTGTTGTTATTGCTGGTGCTGGTGGAGTTGCGACATTTTCGCCAGACGCCGCCGCAGGTGACAGCGTCCGACA -GTTAATGCTTAAAACAGCGCCTTAAGCCTATCCAGCACTTGCATGGCGCTGTAGTAATCCAGACGGAACGTCTCGGTTCC -CAGCGCATAAACCTGCTTGTTTTGTACTGCAGGCAGGTGCGCGAGCAGCGGATTAGCATAAATAGCATCGGCATCTTTCT -GATCACCGGCGAACAGGAATAGTGACTCGCCATTTAACCCTGCAGCCAGATTTTCCCCACCAAGCTGAATGATGTCATGG -CGTTTACCCTGACTTTGGCTGGCATTTAACCCTGCGGGTAACTTCGCCAGCGTAAAGCCGAGTTGTTCCAGCATCTGCCC -TTGTGCTGATTCTGGCGTCCAGAGATTGGCACTGTGTGCAGCGGCAGTATAGACAATGGCAGTGACCGGCTGCGGCGGTA -ATTTGATTTGCTCTTTCGCCGCCGCCAGTTGCTTATCAAACTGCGCAATCCGCTCTGCCGCTTGTTTCTCATGCCCGGTA -ATTTCGCCAAGTTGCGTTAACAGCGACTGCCAGCTTTTGTCGTCGTAATTGATGATTAATGTCGGGGCGATGGTGGAAAG -CTGATCATACAGTGCCAGCGCCGAATCCCCGCCGGTTGCGCTAATTAAAATCAGATCCGGCATTTGCGCGGCAACGGCTT -CGGCGCTCGGTTCGCCGATATAGAGCCGTTGCAGTTTGCGTTCTTTCGCCACCTTGCTCCACTGGCGTAAAAAGCCCTGG -TCATCCGCGACGCGGTTATTCGGCGTGGTCGCGCCGCTGGCGATCACCGGAGCATCAATCGCCAGCAGTGAGCCGGTCAG -GGTGACGCTGGTGGAAACAATACGCTGCGGCTGGCTTTCCAGTGTATGTGTGCCACGGCTGTCAGTAATCTGACGCGGCC -AGTCAGCGGCCTGAACTGCGGCTATTCCTGAAAGCAAAAGTCCTGTTAATAGAAGGGCGTTGCGGTAGAGCGGGGCGAGT -CTCACAAATCAGCTTCCTGTTATTAATAAGGTTAAGGGCGTAATGACAAATTCGACAAAGCGCACAATCCGTCCCCTCGC -CCCTTTGGGGAGAGGGTTAGGGTGAGGGGAACAGCCAGCACTGGTGCGAACATTAACCCTCACCCCAGCCCTCACCCTGG -AAGGGAGAGGGGGCAGAACGGCGCAGGACATCACATTGCGCTTATGCGAATCCATCAATAATGCTTCTCATTTTCATTGT -AACCACAACCAGATGCAACCCCGAGTTGCAGATTGCGTTACCTCAAGAGTTGACATAGTGCGCGTTTGCTTTTAGGTTAG -CGACCGAAAATATAAATGATAATCATTATTAAAGCCTTTATCATTTTGTGGAGGATGATATGGATACGTCACTGGCTGAG -GAAGTACAGCAGACCATGGCAACACTTGCGCCCAATCGCTTTTTCTTTATGTCGCCGTACCGCAGTTTTACGACGTCAGG -ATGTTTCGCCCGCTTCGATGAACCGGCTGTGAACGGGGATTCGCCCGACAGTCCCTTCCAGCAAAAACTCGCCGCGCTGT -TTGCCGATGCCAAAGCGCAGGGCATCAAAAATCCGGTGATGGTCGGGGCGATTCCCTTCGATCCACGTCAGCCTTCGTCG -CTGTATATTCCTGAATCCTGGCAGTCGTTCTCCCGTCAGGAAAAACAAGCTTCCGCACGCCGTTTCACCCGCAGCCAGTC -GCTGAATGTGGTGGAACGCCAGGCAATTCCGGAGCAAACCACGTTTGAACAGATGGTTGCCCGCGCCGCCGCACTTACCG -CCACGCCGCAGGTCGACAAAGTGGTGTTGTCACGGTTGATTGATATCACCACTGACGCCGCCATTGATAGTGGCGTATTG -CTGGAACGGTTGATTGCGCAAAACCCGGTTAGTTACAACTTCCATGTTCCGCTGGCTGATGGTGGCGTCCTGCTGGGGGC -CAGCCCGGAACTGCTGCTACGTAAAGACGGCGAGCGTTTTAGCTCCATTCCGTTAGCCGGTTCCGCGCGTCGTCAGCCGG -ATGAAGTGCTCGATCGCGAAGCAGGTAATCGTCTGCTGGCGTCAGAAAAAGATCGCCATGAACATGAACTGGTGACTCAG -GCGATGAAAGAGGTACTGCGCGAACGCAGTAGTGAGTTACACGTTCCTTCTTCTCCACAGCTGATCACCACGCCGACGCT -GTGGCATCTCGCAACTCCCTTTGAAGGTAAAGCGAATTCGCAAGAAAACGCACTGACTCTGGCCTGTCTGCTGCATCCGA -CCCCCGCGCTGAGCGGTTTCCCGCATCAGGCCGCGACCCAGGTTATTGCTGAACTGGAACCGTTCGACCGCGAACTGTTT -GGCGGCATTGTGGGTTGGTGTGACAGCGAAGGTAACGGCGAATGGGTGGTGACCATCCGCTGCGCGAAGCTGCGGGAAAA -TCAGGTGCGTCTGTTTGCCGGAGCGGGGATTGTGCCTGCGTCGTCACCGTTGGGTGAGTGGCGCGAAACAGGCGTCAAAC -TTTCTACCATGTTGAACGTTTTTGGATTGCATTAAGGAGCGAGGATGAGCATTCCATTCACCCGCTGGCCGGAAGAGTTT -GCCCGTCGCTATCGGGAAAAAGGCTACTGGCAGGATTTGCCGCTGACCGACATTCTGACGCGACATGCTGCGAGTGACAG -CATCGCGGTTATCGACGGCGAGCGACAGTTGAGTTATCGGGAGCTGAATCAGGCGGCGGATAACCTCGCGTGTAGTTTAC -GCCGTCAGGGCATTAAACCTGGTGAAACCGCGCTGGTACAACTGGGTAACGTCGCTGAATTGTATATTACCTTTTTCGCG -CTGCTGAAACTGGGCGTTGCGCCGGTGCTGGCGTTGTTCAGCCATCAGCGTAGTGAACTGAACGCCTATGCCAGCCAGAT -TGAACCCGCATTGCTGATTGCCGATCGCCAACATGCGCTGTTTAGCGGGGATGATTTCCTCAATACTTTCGTCACAGAAC -ATTCCTCCATTCGCGTGGTGCAACTGCTCAACGACAGCGGTGAGCATAACTTGCAGGATGCGATTAACCATCCGGCTGAG -GATTTTACTGCCACGCCATCACCTGCTGATGAAGTGGCCTATTTCCAGCTTTCCGGTGGCACCACCGGCACACCGAAACT -GATCCCGCGCACTCATAACGACTACTACTACAGCGTGCGTCGTAGCGTCGAGATTTGTCAGTTCACACAACAGACACGCT -ACCTGTGCGCGATCCCGGCGGCTCATAACTACGCCATGAGTTCGCCAGGATCGCTGGGCGTCTTTCTTGCCGGAGGAACG -GTTGTTCTGGCGGCCGATCCCAGCGCCACGCTCTGTTTCCCATTGATTGAAAAACATCAGGTTAACGTTACCGCGCTGGT -GCCACCCGCAGTCAGCCTGTGGTTGCAGGCGCTGATCGAAGGCGAAAGCCGGGCGCAGCTTGCCTCGCTGAAACTGTTAC -AGGTCGGCGGCGCACGTCTTTCTGCCACCCTTGCGGCGCGTATTCCCGCTGAGATTGGCTGTCAGTTGCAGCAGGTGTTT -GGCATGGCGGAAGGGCTGGTGAACTACACCCGACTTGATGATAGCGCGGAGAAAATTATCCATACCCAGGGTTACCCAAT -GTGTCCGGATGACGAAGTATGGGTTGCCGATGCCGAAGGAAATCCACTGCCGCAAGGGGAAGTCGGACGCCTGATGACGC -GCGGGCCGTACACCTTCCGCGGCTATTACAAAAGTCCACAGCACAATGCCAGCGCCTTTGATGCCAACGGTTTTTACTGT -TCCGGCGATCTGATCTCTATTGATCCAGAGGGTTACATCACCGTGCAGGGGCGCGAGAAAGATCAGATTAACCGTGGCGG -CGAGAAGATCGCTGCCGAAGAGATCGAAAACCTGCTGCTGCGCCACCCGGCGGTGATCTACGCCGCACTGGTGAGCATGG -AAGATGAGCTGATGGGCGAAAAAAGCTGCGCTTATCTGGTGGTAAAAGAGCCGCTGCGCGCGGTGCAGGTGCGTCGTTTC -CTGCGTGAACAGGGTATTGCCGAATTTAAATTACCGGATCGCGTGGAGTGTGTGGATTCACTTCCGCTGACGGCGGTCGG -GAAAGTCGATAAAAAACAATTACGTCAGTGGCTGGCGTCACGCGCATCAGCCTGAAGGAGAGAACACGATGGCTATTCCA -AAATTACAGGCTTACGCACTGCCGGAGTCTCACGATATTCCGCAGAATAAAGTTGACTGGGCCTTTGAACCGCAACGTGC -CGCGTTGTTAATCCATGATATGCAGGACTATTTTGTCAGCTTCTGGGGCGAGAACTGCCCGATGATGGAGCAGGTGATCG -CGAATATTGCTGCGCTGCGCGACTACTGCAAACAGCACAATATCCCGGTTTATTACACCGCCCAGCCGAAAGAGCAGAGC -GATGAAGATCGGGCGCTGTTGAATGATATGTGGGGGCCGGGCCTGACCCGCTCGCCGGAACAGCAAAAGGTGGTGGATCG -CCTGACGCCAGATGCCGACGACACGGTGCTGGTGAAGTGGCGCTACAGCGCGTTTCATCGTTCTCCGCTGGAGCAAATGC -TGAAAGAGAGTGGACGTAACCAGCTGATTATTACCGGGGTATATGCCCACATTGGCTGTATGACCACCGCAACCGACGCA -TTTATGCGCGATATTAAACCGTTTATGGTGGCGGATGCGCTGGCCGATTTCAGCCGTGACGAGCATTTGATGTCGCTGAA -ATATGTGGCCGGACGTTCTGGCCGGGTGGTGATGACTGAAGAATTACTGCCAGCACCTATCCCCGCCAGCAAAGCGGCGC -TGCGTGAGGTGATCCTGCCGTTGCTGGACGAGTCCGATGAACCGTTCGATGACGACAACCTGATCGACTACGGTCTGGAT -TCGGTGCGCATGATGGCGCTGGCGGCGCGCTGGCGCAAAGTGCATGGTGATATCGACTTTGTCATGCTGGCGAAAAACCC -GACCATCGACGCCTGGTGGAAGCTACTCTCCCGCGAGGTGAAATAATGGATTTCAGCGGTAAAAATGTCTGGGTAACCGG -CGCAGGTAAAGGTATCGGCTACGCCACGGCGCTGGCGTTTGTTGAGGCGGGAGCGAAAGTTACAGGTTTTGATCAAGCGT -TCACTCAGGAGCAATATCCCTTTGCGACCGAAGTGATGGATGTTGCCGACGCTGCGCAGGTCGCGCAAGTGTGTCAGCGA -CTGTTAGCTGAAACGGAGCGACTGGACGCGCTGGTCAATGCGGCGGGAATTTTACGCATGGGCGCGACCGATCAGCTCAG -TAAAGAGGACTGGCAGCAGACTTTTGCGGTTAACGTCGGCGGTGCGTTTAACCTGTTCCAGCAAACCATGAACCAGTTTC -GCCGTCAGCGGGGCGGGGCGATTGTCACTGTGGCGTCCGACGCCGCGCACACGCCGCGTATTGGCATGAGTGCTTATGGC -GCATCGAAAGCGGCGCTGAAAAGCCTGGCGTTGAGCGTCGGGCTGGAACTGGCGGGTAGCGGCGTGCGCTGTAATGTGGT -TTCGCCTGGCTCCACCGACACCGATATGCAACGCACGCTGTGGGTGAGCGATGACGCCGAAGAACAGCGTATTCGCGGCT -TTGGCGAGCAGTTTAAACTCGGCATTCCGCTGGGGAAAATCGCCCGTCCACAAGAGATCGCCAACACGATTTTGTTCCTC -GCCTCTGACCTCGCCAGCCATATTACCCTACAGGATATTGTGGTCGATGGCGGCTCAACGCTGGGGGCATAAGCATGATC -TGGAAACGCCATTTAACGCTCGACGAACTGAACGCCACCAGCGATAACACAATGGTGGCGCATCTGGGAATTGTGTATAC -CCGTCTGGGCGATGATGTGCTGGAAGCCGAAATGCCGGTTGATACCCGTACTCATCAGCCGTTCGGTTTACTACATGGCG -GCGCGTCGGCGGCGCTGGCGGAAACGCTGGGATCGATGGCCGGATTTATGATGACCCGCGACGGACAGTGTGTGGTAGGC -ACAGAACTTAATGCAACACACCATCGCCCGGTGTCTGAGGGAAAGGTACGCGGCGTCTGCCAGCCGCTGCATCTTGGTCG -GCAAAATCAGAGCTGGGAAATCGTCGTTTTCGATGAACAGGGGCGGCGTTGCTGCACTTGTCGGCTGGGTACGGCAGTTT -TGGGATGAACCCGACAGAATTAGATGAGATTGCAGGAAAACTCGGTTAACGGAGTGATCGAGTTAACATTGTTAAGTTAA -ATATTGGTTTCAACTCCGATTTACATGGTTGCTGTGTTGTTAAATTGTACAAAGATGTTATAGAAACAAAATGTAACATC -TCTATGGACACGCACACGGATAACAACTATGAACAAATCAGGGAAATACCTCGTCTGGACAGTGCTCTCTGTAATGGGAG -CATTTGCTCTGGGATACATTGCTTTAAATCGTGGGGAACAGATCAACGCGCTGTGGATTGTGGTGGCGTCGGTCTGTATC -TATCTGATCGCTTACCGTTTTTATGGGCTGTATATCGCCAAAAATGTGCTGGCGGTTGACCCGACGCGTATGACGCCAGC -GGTGCGCCATAACGACGGGCTGGACTATGTGCCGACGGACAAGAAAGTGCTGTTCGGTCACCATTTTGCGGCCATTGCCG -GAGCAGGTCCGCTGGTGGGGCCGGTACTGGCGGCGCAAATGGGCTACCTGCCGGGGATGATCTGGCTGCTCGCTGGGGTG -GTTCTCGCCGGTGCGGTGCAGGATTTCATGGTGCTGTTTGTTTCTACGCGCCGTGACGGTCGCTCGCTGGGTGAGCTGGT -CAAAGAAGAGATGGGGCCAACCGCCGGGGTGATTGCGCTGGTGGCCTGCTTTATGATCATGGTCATTATCCTTGCAGTGC -TGGCGATGATCGTGGTGAAAGCCCTGACTCATAGCCCGTGGGGAACATATACCGTTGCGTTCACCATTCCGCTGGCGCTG -TTTATGGGGATCTACCTGCGCTATCTGCGTCCGGGGCGTATTGGCGAAGTGTCGGTCATCGGTCTGGTATTCCTGATTTT -CGCCATTATCTCTGGCGGCTGGGTGGCAGAAAGTCCGACCTGGGCACCGTACTTTGACTTTACCGGCGTGCAGTTGACCT -GGATGCTGGTGGGTTACGGTTTTGTGGCGGCGGTGCTGCCGGTGTGGTTACTGCTGGCCCCGCGTGACTACCTCTCTACC -TTCCTGAAAATCGGGACTATCGTCGGTCTGGCGGTAGGCATTTTGATTATGCGCCCGACGCTGACCATGCCTGCGCTGAC -CAAATTTGTCGATGGCACTGGCCCGGTATGGACCGGTAACCTGTTCCCGTTCCTGTTTATCACCATCGCCTGTGGCGCGG -TGTCTGGCTTCCATGCGCTGATCTCTTCTGGGACCACGCCGAAGATGCTGGCGAACGAAGGGCAGGCGTGCTTTATCGGC -TACGGTGGGATGTTAATGGAATCCTTCGTGGCGATTATGGCGCTGGTTTCCGCCTGTATCATCGATCCGGGCGTGTATTT -TGCCATGAACAGCCCGATGGCGGTGCTGGCTCCGGCAGGGACGGCGGATGTGGTCGCTTCTGCCGCGCAGGTGGTGAGTA -GCTGGGGCTTTAGCATTACACCAGATACGCTAAACCAGATTGCCAGCGAAGTGGGTGAACAGTCGATCATTTCCCGTGCG -GGCGGTGCGCCGACGCTGGCGGTGGGGATGGCCTACATTCTGCACGGCGCGCTGGGCGGCATGATGGATGTGGCGTTCTG -GTATCACTTCGCCATTTTGTTTGAAGCACTGTTTATTCTGACGGCGGTGGATGCAGGTACGCGTGCTGCGCGCTTTATGT -TGCAGGATCTGCTGGGCGTGGTGTCTCCTGGCCTGAAGCGGACCGATTCACTGCCTGCTAACCTGCTGGCAACAGCGCTG -TGCGTACTGGCGTGGGGCTACTTCCTCCATCAGGGCGTGGTCGATCCGCTGGGCGGCATTAACACTCTGTGGCCGCTGTT -TGGTATTGCCAACCAGATGCTGGCAGGGATGGCGCTGATGCTCTGTGCCGTGGTGTTGTTCAAGATGAAACGTCAACGTT -ACGCCTGGGTGGCGCTGGTACCAACGGCCTGGCTGCTGATTTGTACCCTGACCGCAGGCTGGCAGAAAGCGTTTAGCCCG -GATGCGAAAGTCGGCTTCCTGGCCATTGCTAATAAGTTCCAGGCAATGATCGACAGCGGCAATATTCCGTCGCAGTATAC -TGAGTCACAGCTGGCGCAACTGGTGTTCAACAACCGTCTGGATGCCGGGTTAACCATCTTCTTTATGGTGGTCGTGGTGG -TTCTGGCACTGTTCTCGATTAAGACGGCACTTGCGGCATTGAAAGATCCGAAGCCAACGGCGAAAGAAACGCCGTATGAA -CCAATGCCGGAAAATGTCGAGGAGATCGTGGCGCAGGCAAAAGGCGCACACTAAAGTCAGAGTGAGGGGGGGATGTTGGC -GAATGTTGGCTTAGTGCCCAGGGTTCCCTCTCACCCTAACCCTCTCCCCGGTGGGGCGAGGGGACTGACCGAGCGCGTTG -ATAGCATTTGTAGGCCGGATAAGGCGTTCACGCCGCATCCGGCACTCTTTCAGCAACATGGTTAGCGGAGGCCAAGATGT -TTGATTCACTGGCAAAAGCCGGAAAATATTTAGGTCAGGCGGCGAAGCTGATGATTGGTATGCCTGATTACGACAACTAT -GTCGAACATATGCGGGTTAACCATCCCGATCAAACGCCGATGACCTACGAAGAGTTTTTCCGTGAGCGGCAGGACGCGCG -CTACGGTGGAAAAGGCGGCGCGCGCTGCTGCTAAATTTGTACGTCAGGCTTTAAACGATTCCACTTTTTTGAACGCTGCA -CGCAACGTATCTGGTGTCAGCGTGACTGGCAGGTAATGAATGGACTCCACCGGACGCAGGGTGTGGGCAATCACTTTGTC -GATCTCCGCCTGATTATTGATATCCACTTCCAGCTCCGCCAGTGTAGTCGGCAGATGAAAACGCTGATACGCTCCAGTTA -ATTGCGCCAGCACATCATCCTGACCCAGCAAGGCGCTTTGCACCAGAATTCCGTAGGCGACTTTGGTGCCGTGGAGAAAC -TTCTCGGTTTGCGGCAGCACGGTCAGACCGTTATGCACGGCATGAGCTGCCGCCACACGCGTAAAACGATCGCCCAGACC -ACCAACCATCCCACCACCAGCAATAATAGCATCCACCACATCGCAAAATGATTGCGTTAACTGTTGATTTTGCTGATCGC -TCAGCGCCTGTTCGCTACTGTTTAACAAGACGTCGCGAATGGCTTGCGCATTATTGATCCCCAGTCGCACGGTTAGCGGC -AACGTTTCTGGTTGCGGAGCCAGCACCACCGCTTCATACCATTTCGCCAGCGTGTCACCGATCCCCGCCAGCAGATATTG -TTGCGGTGCATTGAGGATAATCTCCGGTTCCACCAGCACCATAAAATTGGCGTCGTCGAAAATCTCATAATGCAGCGCCT -GTCCGGCATCATTATACCAGACGGAGAGCGGTGTCCAGGCGGCGCAGGTGGCGGCGATCGTCGGAACGGCAACAAACGGC -AGACCGAGACGGCGGGCGAGGGCTTTCGCGGTGTCGAGCAGTGCACCGCCACCGACGCCAATCACCACGCTGCGGTCGTC -ACCGGACTCAGCCGCCAGTTGTTGTACATCGCTTTCGCTGCAATGACCGCGAAACAAAATATGCTTTGCCCCTGGCAGTC -CAAACGCTGGCGGAAGTTTGGTTTGCGCCGCAGCAATGGCGCGTTTGCCGTAGATCCACACCGCGCGAGAAAGTTGTTCA -TCAGTGAAAAAATCGTGCAGGTGATTGAAACTTCCTGGATGTGAAAAGTAGTTAGCCGGGCCGACGACCACGCGGATAGG -ATTGTGAGGCATGTTGTGTTGTCCTTATTGTTTTATTTAGACATCTAAACGTCTTGATTGCCAAATACTAGCATCGTGTT -ATAGTGCCTTCAACACGCAACTTCGTCAGGTACAATAAAAATGACAAATAACCCTCTGATTCCACAAAGCAAACTTCCAC -AACTTGGCACCACTATTTTCACCCAGATGAGCGCGCTGGCGCAGCAACACCAGGCGATTAACCTGTCGCAAGGCTTTCCT -GATTTTGATGGTCCGCGCTATTTACAGGAGCGGCTGGCGCACCACGTTGCACAGGGGGCAAACCAATACGCGCCCATGAC -CGGCGTGCAGGCCTTGCGCGAGGCGATTGCTCAGAAAACGGAACGTTTGTATGGCTATCAACCAGATGCCGATAGCGATA -TCACCGTAACGGCAGGGGCGACGGAAGCGTTATACGCGGCGATTACCGCACTGGTGCGCAATGGCGATGAAGTGATTTGT -TTTGATCCCAGCTATGACAGTTACGCCCCCGCCATCGCGCTTTCTGGGGGAATAGTGAAGCGTATGGCACTGCAACCACC -GCATTTTCGCGTTGACTGGCAGGAATTTGCCGCATTATTAAGCGAGCGCACCAGACTGGTGATCCTCAACACTCCGCATA -ACCCCAGTGCAACTGTCTGGCAGCAGGCTGATTTCGCCGCTTTGTGGCAGGCGATCGCCGGGCACGAGATTTTTGTCATT -AGCGATGAAGTCTACGAGCACATCAACTTTTCACAACAGGGCCATGCCAGTGTGCTGGCGCATCCGCAGCTGCGTGAGCG -GGCAGTGGCGGTTTCTTCATTTGGCAAGACCTATCATATGACCGGCTGGAAAGTGGGTTATTGTGTTGCGCCAGCGCCCA -TCAGCGCCGAAATTCGCAAGGTACATCAGTATCTGACCTTTTCGGTGAATACCCCGGCACAGCTGGCGCTTGCTGATATG -CTACGTGCAGAACCTGAGCATTATCTTGCGTTACCGGACTTTTATCGCCAGAAGCGCGATATTCTGGTGAATGCTTTAAA -TGAAAGCCGGCTGGAGATTTTACCGTGTGAAGGTACATACTTTTTGCTGGTGGATTACAGCGCGGTTTCTACCCTGGATG -ATGTTGAGTTTTGCCAGTGGCTGACGCAGGAGCACGGCGTAGCGGCGATTCCGCTGTCGGTGTTTTGCGCCGATCCCTTC -CCACATAAACTGATTCGTCTCTGTTTTGCCAAGAAGGAATCGACGTTGCTGGCAGCAGCTGAACGCCTGCGCCAGCTTTA -GCTATTTAACCGTCCAGGCGCGGGAATATTGACGGTCGGCAAACAACTCTTGCAGGCCGTTAATTTGCTTCAGGCGCAGC -ACTTCGTCGCTGTCCATTCCCAGCTCTTTGCCAATTTTATTATCGTCCCATCCCAACTGGCTAAGTTCACGGACGATTTC -CGACATGGCGGTGATTTGATGGCGTCCACGAGCGCGATTATGACGAATAGTCGCGGCGATGCGTTGATTACGCGTACCTT -CCAGACAGGTCACCGGCAAATAACCTTTTAAGCGTAATTTTAATGATGATGAGCCTTTACCAATTTCATGGCGGTGAAAA -CCATCCACGATTTCCATGGCATTTTTATCCGTATGTGTGACCACAATGGGTTGGGTAAAACCATCTATTTCAATGGATTT -TTGCAGCAGTTTTTTTTCGGGTGGTGCCACGTTGTTTGGGTTGTAATCATTAGGCATAAGTTGGCTGTTTTTAACCCACA -GAACGCAATCCACTGGCTCTTCACGAAAGGGGCTAACCTGATGGATCGCCATGCGGATTTCATTAATCGCTTTGATGCGA -TCATCTTCCGGCAAGCTGGCGAGAAATTGCGTTAAATCCTGCGTTAATCGTTGTTGCATAGTATCCCCCATTCCTGACGT -TTTCCTTTTATCCGTTCGTTATAACGCTGATAGTTCTTCGATTTTGTGGGGCTAAATGATAATGCCCGACACCAGTAATC -GTTATTGAGTAAAACTTTGCATATCCGCCGCCAGGAGGGGATATCTTTCGCGCCAATGTCCCCTTGCTGGGTTTGTGGAA -CCTCGATGCCTTTTTTCTGATACCAGTGCAAATAAATGGCGATTTTATTGCGGTAATGCTCAGCTGTTTTTTCCGGCATG -CTATTGAGCAGCAATAATGCATATTCTTGCCAGTCTAAATGTTCTGGCTTGAGGATTTTCCGATGCCCATAGAAATGATT -GTCATGTCCGGCGTAAATGCCGCCACTTTTTACCCCGCTGACTCGTGCGCACATAGCAGCCCAGCGATCCGGTTCGATAA -CGTGATAGAGCCATAATCCTTGTCGTTGCTCCGGGCCAAAAGGTTCGCAAATTCGCATATGACGCAGAGGAACGCCTGCC -TGATACATTAGGTTATACAGTGGGTTGCAGAGACTTTGATGATTTGCATACCAGGTCCAGATATCAGCCACTTTCCAGTC -GTAAATGGGGTAAATGTACCAGCTATGACCGCCTGGTGCGGCCGTAGTCCAGGGTTTATCGTCGGCAAAACGTTGTTTAT -TTAAACTGGCGATGGCGACAAAACGGTTGTAGGACTCATCCGCACGGATGCCGATCATCATCGCCGCCGGACGTTTTTGT -GAAAACCATTCGGCAAACTCACGTACAAATTGTTCGAAGGTCATGCCTGGCTGGTAAAAGCAGAAAAAGTCAGGGTCGGT -TATCGCATCTTGGGGAGGTTGACGTACCCATTCGACATCAGGTTCCCAGCACTGCCATTCGGGTTGGTATTGTGAAAGGG -AATTTTGCGTCGTAAGCGGGAGCGCAACCCAGTAAAACTCTTCGATGACATCGGTGTACAACTCGCGCAGGGACTGAACA -TAGTTAATGGTGCAAGAGAATTGCGCCTCCCAGTCGATAAACAAAACGCAGATTTTTTTGCCCATTTGTCGGGCAAGTTC -GGCTGTCAGATGCAGCATTAAACCAGAGTCTTTGCCGCCAGAAAATGAGACACAAACGCGGGGTAGGGTGTTGAGTGTCC -AGGTAATACGCTCTCGTGCAGCTTCCAGAATATTGAGCGGAAGAGGAATTTTATAAATAGACATCTGAAGACGCTCTCTG -AACGTTACAGGGTGATCAGTGAGATAAGTCTGTTAATTATAAAGTAAACACTGTAAAGCAGAGTGTTTTATTTTTCATTC -GCGCTGTGAATAAATAGATGAAAGTTATAGTAGCTGTCTGTAGTTATATATCAAAAACTCTCATTTAGACGGTCAATAAA -TCGGGAGAACACCAAATTATTTAAAGAAGATTTATTATAGGAAATGTAAAGCTTTATTGAAGGTAACGGATGTTCTAGTT -TTATCTCTTTTAAGTTAAGAAAGTCACGGTAGGAATTATAAAGTTCATAGGGGACTATTCCCAGTAAATCTGTAACTGCA -ATGCTATTAATGATTGTCAGCAAAGAGGAACCACGAAATGAGATTTTGCGATTCATAAATCTCTCGTCTATTTCCATTTG -AATATCATCAACCCCTGCTGATTTAGATATTAATTGGGTGAACTCTTCTGCCATAATTTGTTCATAAGTGCTATTGTCAG -TAATTCGTGGATGCCTATTACTACAAATTAGAGTATTGCGAATCGTATGCAATGGCATGCAAATGACGGAACGGCTGATC -ACTGGCATTTGGGTGATCACCAGATCGGCTTTGCGGTGAACCAACAGTTCTTCAGCATTCTCTGCTGACATGAGGATATC -ATGGCACTCAATCTCGACAGAGGAATCTTGCCGTAGGCAGCGGATCAGCATACTATTATTAGAGCAAGAAATGAGCTGAG -GGCCGTAGATAATAAAGTTTTTCTTTAGTTCGGACTTATTGACTATATTAATTGTTTGTTCAAGGCCTCTGAGATTTTTC -TCAAGATGGTGATGCAGATTTAACCCTGTTGTCGTCGGCGCGATACCTTTTCCTGAGCGAATGAATAAAGGGTCATTAAA -TTGCGCACGTAAGCGTTGTAACGACTGGCTCACGGCTGATGGGGTGATATATAGTGATTCAGCAGCTTTGCTAATGCTTA -AATGCTGGTAAATACACTCAAATATGACAAGAAGATTTAAGTCGAACTTTTTCAAGTCGTAGAGATTGGCCATACACTAC -TCCGGTTATATTTTTCTTCCATGATATATTCACTTAATCAATGTTTTTTGCGTATATATTTTTATTGATTATGTTTTTTT -GCTTAACTCAGGATTAAGTTTTTCTAAAATAGCACAGCCACTTAGGGCAGAGCGAGCAATTCATGCTTTTTTAGGATGGT -TGAAAAGCAGGGATATAGTTCAACCATCCATGAATTACCTTTTATTTATTCCCCATAATGATATTAAGCGTTTTCTGATC -GGGCAACCCCACGGCCTGTTGTAGCGTATTTTCCTTACTCATGTAATAGATAGCCGGCGTGACATTTGCCCCCAGATCGT -CCATCAGTTTCTCATTGTCACTTAACACTTTCATTTGCTCTGTACTTACGTTTGCAGGCACGTTTAGCTTAAGCTTGCCA -CCAGAGGCTTCATATTGTTGCCAGGTTTTTGCGGGATCTTTGGAGGCAAGAATTGCCGCTGCTGTCGCCGGGCTTTCTGG -CTTGATAACCCCAACCAACAATGTTCTTAATTGCACTTTGCCAGAATCTACCCACGGGCGCGCCTGCTGCCAGAACTGTT -TACAATATGGGCAGAACGGATCGGCGAAGACGTAGACAATGACCGGCGCATCTTTTTTACCGTCGAGGAGCCAGTGGGAT -TGTTCCATCCGTTGCCACATTTCGCGTCCGGCTGGTGCGTAAATTTCTTTTTCGATAAGTGTGTTACTCAGGTTTTCACC -TTTCTCGTTGTACATGTAACCAGAGATAGCGTGCTTACCATCTGGAGTCAGGTAGATGGTGACGCCCATATCCTGATACT -TTCCGAGATAACCTTTCATTCCTCCGGGGGCATCGAATGTTTTGATGATTGTAATGCCCTGTTTTTCAATCGCTTTTACT -GGAGCAGGAAGTTCCTCTGCGAAGGCGATTGCAGGAAGCAGAGCCAGTAAAAGTATCTTTTTTAACATTAATTTGTCCTT -TTCAGTCAGTGCAAAAGTCGAGTAAAAGGCATAACCTATCACTGTCATAGGTAAGAGCTTAGATCAGGTGATTGCCCTTT -GTTTATGAGGGTGTTGTAATCCATGTCGTTGTTGCATTTGTAAGGGCAACACCTCAGCCTGCAGGCAGGCACTGAAGATA -CCAAAGGGTAGTTCAGATTACACGGTCACCTGGAAAGGGGGCCATTTTACTTTTTATCGCCGCTGGCGGTGCAAAGTTCA -CAAAGTTGTCTTACGAAGGTTGTAAGGTAAAACTTATCGATTTGATAATGGAAACGCATTAGCCGAATCGGCAAAAATTG -GTTACCTTACATCTCATCGAAAACACGGAGGAAGTATAGATGTCCTTGATTAACACCAAAATTAAACCTTTTAAAAACCA -GGCATTCAAAAACGGCGAATTCATCGAAATCACCGAAAAAGATACCGAAGGCCGCTGGAGCGTCTTCTTCTTCTACCCGG -CTGACTTTACTTTCGTATGCCCGACCGAACTGGGTGACGTTGCTGACCACTACGAAGAACTGCAGAAACTGGGCGTAGAC -GTATACGCAGTATCTACCGATACTCACTTCACCCACAAAGCATGGCACAGCAGCTCTGAAACCATCGCTAAAATCAAATA -TGCGATGATCGGCGACCCGACTGGCGCCCTGACCCGTAACTTCGACAACATGCGTGAAGATGAAGGTCTGGCTGACCGTG -CGACCTTCGTTGTTGACCCGCAGGGTATCATCCAGGCAATCGAAGTTACCGCTGAAGGCATTGGCCGTGACGCGTCTGAC -CTGCTGCGTAAAATCAAAGCAGCACAGTACGTAGCTTCTCACCCAGGTGAAGTTTGCCCGGCTAAATGGAAAGAAGGTGA -AGCAACTCTGGCTCCGTCTCTGGACCTGGTTGGTAAAATCTAAATTTCCTTCGTCTTTCACGCCATAGCGGCGTTGGCGT -CGCCCGCTCACCCCGGTCACTTACTTGTGTAAGCTCCCGGGGATTCACAGGCTAGCCGCCTTGCTCTGACGCGAAATACT -TCGGAAATTCACCTAATTCTTCGGGTGCTGCGGCACCCGATTTTCTTCCCCGCACCATGATGCAAGCTGCATCCAGGTAG -CCGCAGAGGCCGCTTGCATGATGATGTTTAAAGCCCAGGAGATAAACATGCTCGACACAAATATGAAAACTCAACTCAAG -GCTTACCTTGAGAAATTGACCAAGCCTGTTGAGTTAATTGCCACGCTGGATGACAGCGCTAAATCGGCAGAAATCAAGGA -ACTGTTGGCTGAAATCGCAGAACTGTCAGACAAAGTCACCTTTAAAGAAGATAACAGCTTGCCGGTGCGTAAGCCGTCTT -TCCTGATCACCAACCCAGGTTCCAACCAGGGGCCACGTTTTGCAGGCTCCCCGCTGGGCCACGAGTTCACCTCGCTGGTA -CTGGCGTTGCTGTGGACCGGTGGTCATCCGTCGAAAGAAGCGCAGTCTCTGCTGGAGCAGATTCGCCATATTGACGGTGA -TTTTGAATTCGAAACCTATTACTCGCTCTCTTGCCACAACTGCCCGGACGTGGTGCAGGCGCTGAACCTGATGAGCGTAC -TGAACCCGCGCATCAAGCACACTGCAATTGACGGCGGCACCTTCCAGAACGAAATCACCGATCGCAACGTGATGGGCGTT -CCGGCAGTGTTCGTAAACGGGAAAGAGTTTGGTCAGGGCCGCATGACGTTGACTGAAATCGTTGCCAAAATTGATACTGG -CGCGGAAAAACGTGCGGCAGAAGAGCTGAACAAGCGTGATGCTTATGACGTATTAATCGTCGGTTCCGGCCCGGCGGGTG -CAGCGGCAGCAATTTACTCCGCACGTAAAGGCATCCGTACCGGTCTGATGGGCGAACGTTTTGGTGGTCAGATCCTCGAT -ACCGTTGATATCGAAAACTACATTTCTGTACCGAAGACTGAAGGGCAGAAGCTGGCAGGCGCACTGAAAGTTCACGTTGA -TGAATACGACGTTGATGTGATCGACAGCCAGAGCGCCAGCAAACTGATCCCAGCAGCAGTTGAAGGTGGTCTGCATCAGA -TTGAAACAGCTTCTGGCGCGGTACTGAAAGCACGCAGCATTATCGTGGCGACCGGTGCAAAATGGCGCAACATGAACGTT -CCGGGCGAAGATCAGTATCGCACCAAAGGCGTGACCTACTGCCCGCACTGCGACGGCCCGCTGTTTAAAGGTAAACGCGT -AGCGGTTATCGGCGGCGGTAACTCCGGCGTGGAAGCGGCAATTGACCTGGCGGGTATCGTTGAGCACGTAACGCTGCTGG -AATTTGCGCCAGAAATGAAAGCCGACCAGGTTCTGCAGGACAAACTGCGCAGCCTGAAAAACGTCGACATTATTCTGAAT -GCGCAAACCACGGAAGTGAAAGGCGACGGCAGCAAAGTCGTTGGTCTGGAATATCGAGATCGTGTCAGCGGCGATATTCA -CAACATCGAACTGGCCGGTATTTTCGTCCAGATTGGTCTGCTGCCGAACACCAACTGGCTCGAAGGCGCAGTCGAACGTA -ACCGCATGGGCGAGATTATCATTGATGCGAAATGCGAAACCAACGTGAAAGGCGTGTTCGCAGCGGGTGACTGTACGACG -GTTCCGTACAAGCAGATCATCATCGCCACTGGCGAAGGTGCCAAAGCCTCTCTGAGTGCTTTTGACTACCTGATTCGCAC -CAAAACTGCATAAGAAGAAGTAAGATTCACCTGCAATTGCTTAGCCGCCGGGGTCAAACCTGGCGGCTTTTTTATGGCAT -TAAAAAGCCCCGCCGGGATGGCTCCGGGCAGGGCGGGATACTTATTCTGGCAATTAACGCACAACCAGCACCGGCAGATT -GGCGTGGCGGATCACGCTCGAGGCGTTAGAACCTAACAGATGGGTCGAAATCGATGGGTTGCGAGAACCAATAACTACAA -CATCAGCCCCCAGTTCTTCTGCCAACTCATTGACTTCATCCCGCACGCTACCAAAACGGACATGTTGTTTAATGCGGGAA -GGATCGATGGTGAAGTGGCTGACCATCGTTTGCAGACGTTCTTGTGCTTCATGTTGCAGATGCTCTTCAAAACGACGCAC -ATCAGCGGCAAAACGGTGCAGGCTCAGGCTGGCTGACCCGGGTAGTACGTGAAGTAGATGAATAACTCCGTCATCCTGGG -CGAGGAATTCAGCGTGGCGAACAGCTTTGTCGCTCAATTCCATTTCAAATACATCAACTGGCATAATGATTGTCTTATAC -ATAACCCTTTCTCCCTGTTAATCATGAACAAATCATTCGCCATGATTATAATATTTATCCCTGATATTTGTCTGGTTCTT -TTTCCTTACGAACTGTTTCTGTGATGAATATATTCTCACTGAACACCAGGAATTCTCCCAAAACCTGTGGTACCGCCCGT -TTTCCCGCTGTGATAGCTACCCTTAAAGACTGACTCTTTTTTGAACTGTCTCTGGAGGTTGCATGAAAGCATTGACTTAT -CACGGCCCACATCACGTTCAGGTAGAAAATGTTCCCGATCCGGGCGTTGAACAGGCAGATGATATTATTCTGCGTATTAC -GGCAACGGCGATCTGTGGCTCTGACCTCCATCTTTATCGAGGCAAAATACCTCAGGTTAAACATGGCGATATTTTTGGTC -ATGAATTTATGGGGGAAGTAGTTGAAACCGGAAAGGACGTAAAAAATTTGCAAAAAGGCGACCGAGTGGTAATTCCGTTC -GTCATTGCTTGTGGCGACTGTTTTTTCTGTCGATTGCAACAATATGCCGCCTGCGAAAATACCAATGCGGGTAAAGGCGC -TGCGCTCAATAAAAAACAGATACCAGCTCCAGCGGCATTGTTTGGTTATAGTCACCTGTATGGCGGCGTTCCTGGTGGGC -AGGCGGAATATGTCCGCGTCCCTAAAGGGAATGTGGGGCCGTTTAAAGTACCGCCTTTGCTTTCAGATGATAAAGCGCTT -TTCCTTTCTGATATTCTGCCAACGGCATGGCAGGCAGCAAAAAATGCGCAGATCCAACAAGGTTCAAGCGTTGCAGTCTA -TGGTGCTGGTCCTGTGGGATTGTTGACAATCGCCTGTGCACGGTTGCTCGGTGCGGAACAGATTTTTGTTGTTGATCATC -ATCCCTACCGCTTGCATTTCGCCGCCGACCGCTACGGCGCGATCCCGATTAATTTTGATGAAGACAGCGATCCGGCACAG -TCAATTATTGAACAAACGGCAGGTCACCGGGGCGTGGATGCAGTAATAGACGCCGTCGGTTTTGAAGCGAAAGGCAGCAC -CACGGAAACGGTGCTGACTAACCTGAAACTGGAGGGCAGCAGCGGTAAAGCGTTGCGTCAGTGTATTGCGGCGGTCAGGC -GTGGCGGCATTGTTAGCGTACCGGGCGTCTACGCTGGATTTATTCACGGTTTCCTGTTTGGCGACGCCTTTGATAAAGGG -TTGTCGTTTAAAATGGGACAGACCCACGTTCACGCATGGCTGGGAGAATTATTACCGTTAATTGAGAAAGGATTACTGAA -ACCAGAAGAAATTGTTACCCACTATATGCCGTTTGAAGAGGCCGCCCGGGGATATGAGATTTTCGAAAAACGTGAAGAGG -AGTGCCGTAAGGTGATTCTGGTACCCGGTGCACAAAGCGCAGAGGCGGCGCAGAAGGCGGTTTCAGGTCTGGTGAATGCG -ATGCCGGGGGGAACAATATGATCGTCAGGAGTGGTTTTCGAGGTAAAGGACAGCCATGACGATAATCGCCGCCATAATCA -GAAATCCTATCAGGATGTAAAATGCTTCTGCCATGGTTATTCCCACAAACGAAACGGAATAATTTTGCAGCAAAAGTGAA -CAGTGAGAACCAGGAAAAATTGCTGATTTTGCGTAAAGAGGATGCGAGTGCATCCTCTGGGCAAAGCGAGTTATCGCTTG -TGCAGATGGGATTAAAGCAGGTAGTCGCCAGCAGCTTCTGGCTGGTATTCGAGTTCCAGCACTTCAAGGTGGGTTGCAAC -GCCGCCCGGAAGTTCCCAGTGAATGGAATCGCCAACGCGCAGCCCCAGCAGTGCGGCACCTACCGGAGCCATAACGGAAA -GCTGAGTATTGCTATCGGTCATTTTTGCCGGATACACCAGCGTGCGCACACGCACTTCGCCATCGCTAAGATTGCGGAAT -TTAACCCGGCTGTTCATTGTCACCACGTCGTGTGGCATCTCTTCTGGCGAACACATTTGGGCGCGATCCAACTCTGCGTT -TAACGCGTCGGCGATTGGCAAACCAGCATAGGCGGGTTGCTCCAGCAGAATATCGATGCGTTCGGCATCCAGGTCGTTAA -TGATGATAGTTGGTCTGGACATTTTTACTCCATGTCGTCGGTGCTGCGAGTGTCGCAGATAAACATACCCAAAAGAAAAC -CCTCACCGTCAGGCGGCGAGGGTTTAACTCACATGATGATACTGACTGTTGCTCACTCTTTGAAGTGATTTGCGTCACAT -TCAGGGAATTCCTCAATGCAGCGCATTATGTATAAATCTTAATCGCCTTGGTTTATGGAAGACGAATTAGCGTGTTTTGT -AAATCAGATGATTAATAACCCGCTTTATCAATCACAAAGGTTTTGCCACAGTTACCTGGGTGAGGTTGTGGCAAGAATGA -GTTTGCAGAAAGCGGAGCGTTGATGGCGTCAGCTTTGATCGAGATCTGAATTTCAGTCAAATACGCAGGGTTACCCTGGC -ACGTTAGCTTAACTGCTTTCACGTTCTCTTTTCCCCAGCTTTTGGCAAAGGCGGCGTCAAAGTCACGGCGGCTCACTGTT -TTACCGTAATTATCCGCAAGGAATTTTCCGGCTTCGCTCTCTTTAATTTCTTGATTCAGGCGTACCATCGTACCGAAGTA -TGCGTCCGGATCAAAACCAAAGCAGGCACCGTGTTTGGCATATTCGTAGCGTTCCAGGCAGGAACGTCCGCCAGCTCCTG -GCATGACTTCACTTAGTTTAGCGGCCGTTTCCAGTGATAATCCGGTTTCCGGCGATGAACACATTCGGCTGGCGCGCGCT -TCTGGTAGATTCGGGATTGGGCGAGTAGCGCAACCGAAGCGCATCCAGCGGCGTTCATCAACACCACGGGCAGCAACCGA -TTTAGGCAATCCTGGCCACAGACCATGTACGGTCAGAAAATCAGCTTTGTTGGTCGTTTCGGTTTGCAGGCGACATTCAT -CTCGTTCGTTACGATTTCGATCGTGTTGACTCTGGCAAAATCCGGTTTGCCAGGAGAGGGCCAGGACATAGCGATCAAAA -TCGCCATACTGTTTTGCCTGCAACGCTAAGGCGTTGGCAGAAGAGAAGGGAAGCAGAGAAACCGCGAGCAACGCGGCGTT -ACGCCAGAATGCTTTCATAATGGGTGTGGAACTCATACATACACTGAATACTATCTATTAAATCATAAAAAAGCCCGCCA -GGTGGGCTTACCTGGCGGGCGTGATGATTTATTCAGCGTTTGGCGAACGTATTAGTTCCACATGGCGAGAATCGGCCAGC -CAACCAACAGCAACATAGAGATGTAAATCACCCCGAAGATTGCGCCAAGACGCCAGTAATCTTTTGATTTCACATAGCCA -CAGCCGTAAATAATCACCCCAGGACCGGTTGCATACGGCGTCAGACAGCCCATGATACCGATAGACAGCACCAGCAGGAT -ACACAGTTGTTCCATTGGTACGCCCGGAATACCTTTACCGACGGCCAGAATAACCGGCAGCATGGTTGCGGTGTGCGCAG -ACAGGCTGGCAAACAGGTAGTGTGCAAAGTAGAACACCAGAACCAGTACAATCACCGTTGCGTTTGGTGAGAATCCTTCC -AGGTGCGTACTCATGGTACCGGCGAACCAGTCAATAAAACCAGAACGAGTCAGGCCGTTAGCCATCACAACCAGAGTTGC -CAGGTTGACCAGTGTGTTCCATGCGCTGTTATAGCGGGTAATGTCTTTCCAAGGCACAACGTGCAGGGCCAGCATTAGCG -AAACTGCCAGCAGACCAACCGCAGTAGCATTAATGACTTCACTGCCAAATACCCACAAACCTAAGCTGAGCAATACAAGG -CCAATCAGTGTCCACTCTCTGCGTGTCAGCGCACCCATGGTTTTCAGTTCATCACCCGCCCAGGTTGCCACTTCTTCACT -GTGTGTGATTTCCGGTTTGTACAGCACGTAGGAAAGCCACGGCGCAATGATAAGCAAGATAACCCCAACCGGCAGGAAGC -AGAGGAACCACTGCAACCAGCTAATCTGGATACCGGCAATTTTGCTGACGAACTCCAGACCCAGCACGTTTGGTGCCGCA -CCGGTGACAAACATGGACGAACTCAGACTGGTACTAATGACCATCATCCACATCAAATAGCCGCCAATACGACGCGCGGA -CGGATCGTTCGGGAATGATTTAAACAACGGCGGCAGGTTTTTAATGACCGGAAAAACCGTACCCCCGGTACGCGCGGTGT -TGGAAGGTGTAAACGGTGCCAGCAGAATGTCGATAATGACAATCGCATAACCCAACGTCAGCGTGCGTTTGCCCATGAAT -TTCACCAGGAAAAGGGCAATGCGACGACCTAACCCGGAAACTTCATACCCTAATGCAAAAATAAATGCGCCAAATACCAG -CCATACCGTGGTGCTGGAAAAACCAGCCAGGCCCCATTTCAGCGCCTGTTTTTGCGCATTAAACGCTGGGTCAGCTAATT -CTTTGGCATCAAAGAGCAGGTAATTACTGCCAATAACGCAAATAGTAACCGCAATAAAACTGATCGCTGTTGCCGGAATT -GGCTCGAGGATCATGCCGACAATCATTGCCACAAACACAGCGAAGTAATGCCATGCCTGCGGCGGCATACCGTCGGGGAC -AGGGATAAGAAACATGACACCCATCACCACCAGTGGGGCCAATAGTTTCCATATATTATCTTTTGCTAAAGACATACGGG -TTCTCCGAAAATTAATATTTCCAAATTTATCAAGTGCTTAAATAATTAAATCTGTGCTAAAAACCAGGTAAGGATCAGTA -GGTCAGCACTGCCGCCTGGACTGAGATTTCGTTCGATACACTCCCTGTCGAACTGCCGGAGATAATCGAGATCGGCGGGG -GTTCGAATGCCCCCTTTTTGCAATAATGTTTGCGCCTCGCGCTGTAGCCAGCGCAGGCCCCCCTCGCCACCGCGCGATGC -AACGTTGGTATCGCCGTTGATCGCCATCAGTAGGAGCAAGGTATCGAGCAATGCCAGTTCAGGATCTAACCCCTGATCCA -GCAGAGTGAGGTAATGCGGCAAGGCGTGATTGATCACCAGTGGATAACCCGCTTCGGCTTCACCGCGTGCGCCGGTAAGG -CCAAGCTGTTGGTACAACCGTTGACCTGCCGTCAGTTGTGAATTATTGGTACGCAGTTCGCGATCGGTCAGGCCACGGCA -GAAACTTGCCGCCGTAGAACAAACGGTTGTTGGCGTTACCGGTTGGTTGAGTTGAAGCAAACGGCCAATTGCCGCACATA -GCAGCCCTAAAGAAAAAATGCTGCCTTTATGCGTGTTTACGCCCGCAGTGGCGCGGAACATATCACCTTCGCAAGCCATA -CCAATTGGGCGTAATCCGTGGAGTACCGCTTCTGGTGCCATTTCCGCACTACAGGCACCAAATTCAATGAAACGGGGTAG -CCAGCCCTGAATCGCCAGCGCGCTGCGGTGGAAATCTTCCAGCGCCATATCTTTGTGCGCACCGCAGTTAATGCGATCCA -CGAGGCCTGGTTTCGGTGACAGATTGACTTCAGTCAGCATGGCGCGCCAGCCCAGCAGGGCGTACTCATCGATTAATGAC -GTCGCAAGCTTTGTGGTTTTAGTTGACGTTGCAGGCATCGACATCGTTCAGCAGTGCCTCCATGCGGTTGAGTAAATCGG -TCAGTTGATGGGTTTTTCCACGCGCGCAGACGGCTGCGCTTTGTTCGCACAACAGGCAGCGGCGAGGCGGCAGTGAATAG -TCGCGGCGGGAGAGAATTTCGCCTTCGGGCGTCAGGACATCGATATCCCATAACCGCCCGAGAGGATGACTATGTTCAAG -CTCAATGGTGGCGAGCTTGAGGTCGCGAGCCGGGGCGGCAATGCTCAACATGCCCTCCGGCCCGCTGGCGGAAACCAGTG -CAGCCTGCTCCTGAATTTGCCAGCCCTGTTTTGCGGCTAAGGCACGCAAGGCTGTCACGCCATGATTAAAAATTCGGCGT -GTGACCTCGCTGTCTTTAATCGGCCCAGGCGCAACCACGGTAAAGGAGACCAGTGGAACAGGATGGCGCTTGAGCCAGAC -GTGTTGCCGTGCTTGCCTTTCATCCCGGCTGACGAGCAGCTCGGGAATTGATACCGCATGGTGGCTGGCGAGTTCAGGAA -GCAGGTGCATGGCTTATTCCTTCACCTGATGCACAACATCGATCACCGAGCCATCGCGGTAACGCACAACGGCAACGACG -CGGTCTGTGAATTCAATCGGCTGTGGTTCACCGGTCAGCAGACGCGCACGTTCGCGCAGCCACTCAATGGAAACCACTTT -AATGCCCGCTTCCTGCAGACGTTCTGCCAGTTCCGGACGTGCCGGGTTAACTGCGATACCGTGGTCTGTGACCAGAATAT -CGACACTGGAGCCTGGGGTGATGCAGGTCAGTACGTTATCCACCAGAGTCGGAATACGACCGCGTACCAGCGGCGCGACG -ATGATGGAAAGCGCAGAGGCAATCGCGGTATCGCAGTGACCACCGGAAGCACCACGCAGTACGCCGTCAGAGCCGGTCAG -CACGTTAACGTTGAACTGGGTGTCAATTTCCAGCGCGCTCAGTACCACCACGTCGAGACGATCAACCGATGCGCCTTTCG -AACCCCAGTTAGCGTACTGGTTGGCGCTGATTTCGATGTGATTGGGGTTACGGGCCAGCGATTGCGCAGCATGGCTGTCA -AAGCTCTGCACATCCAGCAGTTTGCGGATCAGACCTTTTTCGTGCAGGTCAACCATCGTCGCGGTAATACCGCCAAGGGC -GAAGTCGGCGCGAATATCGCGGCTACGCATTTTGTCTTCCAGGAAACGGGTTACCGCCAGCGATGCGCCGCCGGTGCCGG -TTTGCATGGAGAAACCTTCTTTGAAGTAGCCAGAGTTGACAATCACATCCGCAGCGCTACGGGCAATAAGCAGTTCGCGC -GGGTTAGTGGTCATACGGGTCGCGCCAGCGCCGATTTTTGCAGCATCGCCAACGCGGTCAACTTTGACGATCAAATCAAC -CTGATCTTGCTCAATGCTTGCCGGATTATGCGGATAAGGCAGCAGTTCTTCGGTAAGCATCACGACCTGTTTTGCGTTGT -CGGCATCAACTATTGCATAGCCGAGGGAGCCGCAGCAGGCTTTACCGGTGTAGCCGTTGGCATTACCGAATTCATCACAG -GACGGGACGCCGAGGAAAGCCACGTCGATATTCAGTTCGCCGCTCTGTACCAGATGCACACGACCGCCGTGAGAGTGGAT -CTGCACCGGTTCTGCCAGCAGACCACGGGAGATCTCTTCCGCCAGTGGACCACGCAGGCCGGAGGTATAAATGCGGGTAA -CCACGCCCTGGCGAATGTGTTCTACCAGCGGCGCATGGCAATCACTCAGGGAGCTGGACGCCAGGGTCAGGTTTTTAAAG -CCCATCTTCGCGATGACGTCCATCACCATATTGACGGTCAGGTCACCGCCACGGAAAGCGTGATGGAAGGAAACCGTCAT -GCCGTCCTGTAAACCAGAGCGACGAATCGCTTCTTCCAGGTTGGCGCACAGTTTGCGATCGCGCGCTTTTTCAGCCTGGT -AGGTTTGCTTTGGCGAGTTCTGGAAAGCGGCAAGATCGCATTCAGCGCGACGATTCCAGGCCGCTACCCGTTCTTGTCGT -TGAGATTGTTCAATTTTCTGCGTCATTTTGATTGCCTTATTCTTCGCGGATGCCGGAAAGTTCTGCACGGGAGAGCACCA -GACGGGCGCGATCGATAACCGGACCGTCCACCATCTTGCCGTTCAGGGAAACCACGCCGAGGCCTTCGCGAGCGGCGGCT -TCAGCGGCTTCTACGACGCGGCGGGCGTGATCCACTTCTTTCTGGGTCGGTGCGTAGAGGTTGTGCAGCAGATCAATCTG -ACGCGGGTTGATCAGCGATTTGCCGTCAAAGCCCAGCTGTTTGATGTGGGCGGCTTCTTGCAGAAATCCGGCTTCGTTGT -TAGCGTCGGAATAGACGGTATCGAACGCCTGAATACCCGCAGAGCGCGCGGCCTGCAAAATGGAACAGCGTGCGAACAGC -AGTTCAGTTCCTTCCGGGGAGCGTTCTGTACGCAGGTTGCGCACATAGTCTTCTGCACCGAGGGCGATACCGATCAAACG -CTCGGAAGCGTGAGCGATTTCCACTGCGCGGGTAATCCCCAGCGGAGATTCAATCGCCGCCAGCAGGCCGGTGCTGCCGG -GTTCACGACCACAGGCTTTTTCGATACGCAGGATCTCTTTTTCAATATCCAGAACATCCTGAGCGGTATCGGTTTTCGGC -AGACGCACAACGTCCGCACCACCGCGAACGACGGCTTCCAGGTCGTTAACACCCCATTCGGAATCCAGCGCGTTGACACG -CACAATGGTTTCAATATCGCGATACAGCGGATGTTGCAGCGCGTGGTAAACCATGCGGCGGGCGGTGTCTTTTTCACGCA -ATGCTACGGAGTCTTCGAGGTCAAACATCAGGGCATCAGCCGGGTAGATGAAGGAGTTGCTGACCATCGCGGCATTGGCA -CCAGGCACAAACAACATGCTGCGGCGGGTGCGAGTTTTACGTTGTTGCAGCGAAGCGGAAATCATTGGCAATCCTCCCAT -GGCAGAGCCGGGATACCGCTGGCGCGTGCCAGCAGGGCTTCCAGTCGTGCACGTAAAATGCAGTCCAGTGCGCCTTTGTC -ATCGACATTCAGCTGTACGCCGCGCACGTTGTAGCGGGCGAGAACGTCCAGAATGGTGGTGCGAATTGCATCGCCAAACT -GTTTCTCAACGCTGCTATTGATTTGCAGGTCGATATCCTGCGTATCGAGTGGGGCGATGCGTATCATCACATCCCCAGAC -TCAAGGGTGCCTGCAACGGCGGGCTGGTTTATTTTCATTTTTCACCTGTTTCTCATGCGGGGGTCTTTTGACGAGCTGCC -GCGTCCTGGCGGGAGTGCTCAAGCAGGTTCTGCAAATAATGCAGCGTGACTGCAGGGACCAGCGGCGCGATAGCCGTGAG -ATCGTTTTTCGCCAGCAGTTGACGTACCCGGGAAGCGGATATCGGCATCTCCTGGTAACGCAGCCGCTCAATTTCAACCA -GTTCGATGGGCGGTGCGGAGATAGTCGGCGTTTCCAGCCAGTAGCGCATATCCTGGTTGTACTGGGCGGTAACGCGACAA -AAGGGTTCAGTACCGACAAAGCGGTGAGTTACACCCAGCGCGGGAGCGAGGTACTGACGGAAAATCTTCAGATCAATTTC -GGTGTAACAATGGTTAATGACGCTCTGTTCTTTAATGAAGTAGCAAGGGAACGTAGCGCGGGAGATGATGTATTCGGAGC -CACGATGCACAGTCAGGCGTGGAATATCGGCGGTGCCTTTTAACACCAAATCCAGCCGGTCTTCATAGGGGAAGCGTGAA -GAATCTTCTTTGACTAAAAACAGATGCAACCAGTCGCACTGTGCCGCAGCCTGTTGAATCAGATAACGGTGACCATTCGT -AAAGGGATTGGCGTTCATCACAATGCAGCCAATCTTGTTCCCTGGATGACGAAATTTTTTCAGCGATTCGGCATAGCGTT -TCAGTCGCGTGGCGCTGTTTTCCATCAGCACCATCACGCCGGGTACGCTGGTCAGCGTGGAAAAACCGCACTGGCGGAAC -AGCGCCTCGTATTCGGTTTTGGTATAAATAAACAGATGCGTGCTGTGCCGCTCATAGGCGAGGTTTATCAATTCAGTGGC -TAATGTCAGCGCCAGTCCTTCACCGCGGACGGATTCACTGATAGCAACGCATTTAATAATATTTCCGGCAATTCCACCGC -ACGCGATAAGCTTTTCATCGCGGGTTACGGTAATAAATACTTCGACTGTGGTGTCAACGCTCAAATCATTTTCATGCAGG -AATTGGGCGATTTCCGCCATTTTTTTATTTTCTGAACGTTTTACGCGGGTGAAAATATCATTGCCGAACATAATAAATAG -TATCCTGAAGGTGCATGTTGTTATCGATTTGCAACGAATGTTGTTCAATGTTGCAAACTGATAACCTTTTATTTTCACTT -GGGAGAAAGGGGGTGATCGAGGTATATCTTTTTCTCCTTTCGCTATACATCCTAAGGAGTATTTCGGCGTGAAATTTTGA -TTTATTTCACATAGAGTTAGTGGTTTTTTATTTATTTAATGATTTTAAGTTTTTTAATTAATGTAATTACGAAATGACTC -GCAGGTTTAAGTGATTTAATTGATTTAATGAATAAAATTTGCCACGATCATAATTAATATCTATGTATTTTGATTCAACA -TTTTAATTACATCCGTCAAAGAGGCTCGGGACAACCCGCAAGGAAAACAATGTTGCAGCTTAACGAGAATAAACAGTTTG -CATTTTTCCAAAGACTGGCATTTCCGCTGCGTATCTTTTTGCTGATTCTGGTGTTCTCAATATTTGTCATTGCAGCCCTG -GCGCAATATTTTACGGCCAGTTTTGAGGACTATTTAACGCTTCATGTACGCGACATGGCAATGAATCAGGCGAAAATTAT -TGCCTCCAATGACAGTGTCATCTCTGCGGTGAAAACGCGTGACTACAAACGGCTGGCGACCATCGCTAACAAATTACAAA -GAGATACCGATTTTGATTATGTGGTGATTGGGGACCGGCACTCGATCCGCCTTTACCATCCTAATCCGGAGAAAATTGGT -TATCCTATGCAGTTCACCAAACAGGGCGCGCTGGAGAAAGGGGAGAGCTACTTCATTACCGGGAAAGGGTCAATGGGGAT -GGCGATGCGCGCCAAAACGCCAATCTTTGATGACGATGGAAAAGTCATCGGCGTGGTGTCGATTGGCTACCTGGTGAGTA -AAATCGATAGCTGGCGGGCTGAGTTTTTATTACCGATGGCAGGTGTGTTTGTCGTGCTGTTAGGGATTCTGATGTTGCTG -TCGTGGTTCCTGGCCGCGCATATCCGTCGGCAGATGATGGGCATGGAGCCAAAGCAAATCGCACGCGTGGTCCGTCAGCA -AGAGGCGCTGTTTAGTTCGGTTTATGAAGGGCTGATTGCGGTGGATCCGCATGGTTACATTACCGCCATCAATCGTAACG -CAAGAAAGATGCTGGGGCTGAGTTCCCCCGGACGGCAATGGTTGGGTAAACCCATTGTTGAAGTGGTCAGGCCCGCCGAT -TTCTTTACCGAACAGATTGATGAAAAACGTCAGGATGTGGTGGCGAACTTTAACGGTCTGAGCGTTATTGCCAACCGGGA -AGCTATTCGTTCAGGTGATGATTTGCTGGGGGCCATTATCAGCTTTCGTAGTAAAGACGAAATTTCCACCCTCAATGCGC -AACTGACGCAAATAAAACAATACGTTGAGAGCCTTCGTACATTGCGACACGAGCATCTCAATTGGATGTCGACGCTCAAT -GGTCTGTTGCAGATGAAAGAGTATGATCGCGTGCTGGCGATGGTGCAGGGGGAGTCTCAGGCCCAGCAACAGCTTATTGA -CAGCCTGCGCGAGGCGTTTGCCGATCGCCAGGTGGCGGGGCTGCTTTTTGGTAAAGTGCAGCGCGCCCGGGAACTGGGGC -TAAAAATGATCATTGTCCCCGGTAGCCAGCTTTCGCAACTGCCGCCAGGACTGGATAGCACCGAGTTTGCAGCCATTGTG -GGCAATTTACTTGATAACGCCTTCGAAGCCAGCCTGCGTAGCGATGAAGGAAACAAGATCGTTGAATTATTCCTCAGCGA -TGAAGGCGATGATGTGGTGATTGAAGTCGCCGATCAGGGCTGCGGCGTTCCAGAGTCTCTACGAGACAAAATATTTGAGC -AGGGGGTCAGTACGCGTGCTGACGAGCCCGGTGAACATGGCATTGGGTTGTACTTGATTGCCAGCTACGTAACGCGCTGC -GGTGGTGTTATCACTCTCGAAGATAATGATCCCTGCGGTACCTTATTTTCAATCTATATTCCGAAAGTGAAACCTAATGA -CAGCTCCATTAACCCTATTGATCGTTGAGGACGAAACGCCGCTGGCAGAGATGCATGCGGAATATATTCGTCACATTCCC -GGATTCAGTCAGATATTACTGGCGGGAAATCTGGCGCAGGCCCGAATGATGATCGAGCGTTTTAAGCCGGGGCTAATCTT -GCTCGATAACTATCTTCCTGACGGTAGAGGGATTAATTTACTGCATGAACTGGTGCAGGCGCATTATCCCGGCGACGTGG -TGTTTACCACTGCAGCCAGCGATATGGAAACGGTGTCTGAAGCCGTACGTTGTGGTGTATTTGATTATCTCATTAAGCCC -ATTGCCTATGAACGGCTGGGGCAAACGCTAACCCGTTTCCGCCAGCGTAAACATATGCTGGAAAGTATTGATAGCGCCAG -CCAGAAGCAAATTGATGAGATGTTTAATGCTTATGCTCGCGGTGAACCTAAGGACGAGCTACCGACCGGCATTGACCCCT -TGACGCTAAACGCGGTGCGAAAACTGTTTAAAGAGCCTGGTGTGCAACATACGGCAGAAACGGTGGCGCAGGCACTGACC -ATCAGCCGCACCACTGCCAGGCGTTATCTTGAATATTGCGCCAGCCGCCATCTGATTATTGCTGAAATTGTTCACGGCAA -AGTTGGCAGACCACAACGCATATACCACAGTGGGTGACATGATAAAGCCGGAGGAAACTTGCCTCCGGCATTACTATTTA -CTTGCCTGTGACCGCTGCTGCCGTTCCTGGCACCATCAGCTCTGTAGCAACGATAACAATCACCAAACCAACAAGCACCG -GTACCGAGGTGCGTTTTACGACTTCAAACGGCGAGATCTTCGCCATCCCGGCAACCGCAACGACTACGCCAGAAACGGGC -GAAAGGGTACGGCCAAGGTTTGACGCCTGCAGCATCGGGATAGTCAAATACGCCGGGTTAATGCCGGAAGAGTGCGCCAG -TTTCGGGATCATCTCAACAAACGCATAAAACGGCGCATTGCCTGAACCGGTCGTGACTGCCGCCAGCATTGTCAGAATCA -CCAATACCAGCATCAGGATGATACTCGCCGAACCAAACGAGGTAGCGATAGAAATCAGACTTTGAATAAAGCCGATGGTG -CTAAGCCCCTGAGCGAATACCCCAGCGGCAACCAGCAGCATCACCACGTTAGCAAACGCATCTGCCATCCCGCGATAAGC -CACTTCCAGACCAGAGAAAACTTTCTGGGTATTAAAGCTGCGGAGGAACTCCAGAATGGAGGCAATCAGCATACAAATCA -CCAGAATAGTGATGATGTGTAATTGCGGACCCCATTTACCGTCAAAAATCAGTACACCGATGATCGGCGTGAACGGCAAA -ATGGCATAAAACGCAGGAGCAGTGGTGGTGATTTCACTGACATCTAACATTTCATGAGAGATGTGCTCTTTTTTATCCAG -ATAACGTTGCCAGAAGAAGTGGGCGATCGCCATGCCGATAATTGCAGCAATTGAGATAGGCAGCGTCGTTTTGAAGGCGA -AGTCAATCAGCGACATTTCGGAAGCTTGCGCCGCCAGCACCACATCCCCTGAAGTCGGTGCGAGAATAATCGCCGCCGGG -GAGGCACAAATGGCAGCAGCTGCGCCACGACTGATACCAACGTTTACCATCACCGGAAATAGGGTTGCCATCAGCAAAAC -ACCCAGACCGGTTGCGGAAGAGACGGCCAGAGACATCAGACAGGCGACAAAATAGGCGGCAATCATCAGCAGGTAAGGGG -AGTTAATATACTGCAATGGTTTTGACGCCAGCTTGACCACCATATCATTCGCGCCGATATGGGTCATGTAAGCGGCAAAT -CCACACAGCATCATAATCATCATGCCGAGGTCGCCGCCGCGGCTCATTAGTAATATTTTAACGTATTCAACGATATCCGT -GGCGCTGTAGCCTGTTGAAGCCTGGCTGGACGGTAACACTTTGTGCCCCATAATGGCACTGATAATCAGCAATAACAGGC -CACCGACAAATAACACACCAGTGGCGGAATACCCTTTAATGATGTAGCGAGCTACACCCACAATAACCACAACCCCAATA -AGGAGCTCAATGAATGTCAGCATAATTTTTCCTGTCTCCAGGCCCCAAAGTAAATAATAAAAAATTCCTAAAGCTTAAGG -AAAAAATATGCCCAATAAATTGGCGATGAATGCTGATTAAAATCAAGAAAAACTGCCATTAAGACATTGAAGTTGCTGTT -TTTATACATAGATAACAAAACGCATATTTAGCGGTTGGCAATTATCACATAATAATGTGTGCAAATTGATGGTGGATTGA -TGCAAATTTGTTAATTGCAATGGTGTTAGCTGCGGCTGTGCGCTCAAAAAATAATCTAATATGAGCATAGGTTGACGATA -TATATTATATACTTCGTTAAGATGATTGTTGTATCTCGTTAAAAAATAAAATAATTTTTCCTTGATTGCATTTTGTCATC -AAAAAAGACTTGGTTTTTCTTTTTTGACTATTCCCATCGCAGAAAACGACGCATCATCTTTAATCGATGCGCGGAAATAT -TTAACTTGAACAAGCGGAAATAAATAGAGCAGCTATTCAGATTATTCTTTATGTTGGGTCTATTAAGGTTATGTTAATTG -TAGCTTTGCTATGCTAGTAGTAGATTTTTGATAAATGTTTTATGGTCACAAATGAACGTGAGTAAATATGTCGCTATCTT -TTCCTTTGTTTTTATTCAGTTAATCAGCGTTGGTAAAGTTTTTGCTAACGCAGATGAGTGGATGACAACGTTTAGAGAAA -ATATTGCACAAACCTGGCAACAGCCTGAACATTATGATTTATATATTCCTGCCATCACCTGGCATGCACGTTTCGCTTAC -GACAAAGAAAAAACCGATCGCTATAACGAGCGACCGTGGGGTGGCGGTTTTGGCCTGTCGCGTTGGGATGAAAAAGGAAA -CTGGCATGGCCTGTATGCCATGGCATTTAAGGACTCGTGGAACAAATGGGAACCGATTGCCGGATACGGATGGGAAAGTA -CCTGGCGACCGCTGGCGGATGAAAATTTTCATTTAGGTCTGGGATTCACCGCTGGCGTAACGGCACGCGATAACTGGAAT -TACATCCCTCTCCCGGTTCTACTGCCATTGGCCTCCGTGGGTTATGGCCCAGTGACTTTTCAGATGACCTACATTCCGGG -TACCTACAACAATGGCAATGTGTACTTTGCCTGGATGCGCTTTCAGTTTTGAGACAAATGAAGTTTTAGTAACTTCTTTA -AAATCAATAGCTAAAATAAGTAACATCAAAAATAACGCGACTTTTATCACTTTTTAGTAAAGTTACACTGGACAAAGCGT -ACCACAATTGGTGTACTGGTAACCGACACAGCATTTGTGTCTATTTTTCATGTAAAGGTAATTTTGATGTCTAAGATTAA -AGGTAACGTTAAGTGGTTTAATGAGTCCAAAGGATTCGGTTTCATTACTCCGGAAGACGGCAGCAAAGACGTGTTCGTAC -ACTTCTCTGCAATCCAGACTAATGGTTTTAAAACTCTTGCTGAAGGTCAGCGCGTAGAGTTCGAAATCACTAACGGTGCC -AAAGGCCCTTCTGCTGCAAACGTAATCGCTCTGTAAGATACGTCAGCAAGAATTCAAAACCCGCTTAATCAGCGGGTTTT -TTTTGGTCTTTAGTGTGCGGTTGAGGCCGAAAACAGCCAGAATGCCAGTGCGGTCATGGCAAAAGACCCCAGAAGGTTGA -CGAAAACGTTCAGTAATGCCCAGCCAAAGCGGCCCTCTTGTAACAAAAACACCACTTCTGCCGAAAATGTTGAGAAGGTT -GTTAGACCGCCACAAAATCCGGTGGTGATTAATACTTTCCACACTGGATCAATGTTCGTCATCCTGCTGAACCATGCGAA -TCCTATTCCTATGATGAATGCCCCAATCAGGTTTGCTGTCAGCGTCCCCAACGGAATCGCCTGATGCAGTGGGTTAAATC -GCATACTTAACAGCCATCTCGCCACGCTTCCCGTACCACCGCCAATAAAAACTGCTAAAAGAAGTTGTAACACTGCAAAA -TCCTGCTATTTGATTTGTATGAGTGATAAGTGTAACGCCGAATAATCGTCGTTGGCGAATTTTACGACTCTGACAGGAGG -TGGCAATGCTGGTTGCCGCAGGACAGTTTGCTGTTACATCTGTGTGGGAAAAGAACGCTGAGATTTGTGCCTCGTTGATG -GCGCAGGCGGCGGAAAACGACGCATCGCTGTTTGCCCTGCCGGAAGCATTGCTGGCGCGCGATGATCATGATGCAGATCT -ATCGGTTAAATCAGCACAGCTGCTGGAAGGCGAATTCCTCGGACTTTACGGCGAGAAAGTAAACGTAACATGATGACGAC -AATTCTGACGATTCATGTTCCTTCAACGCCGGGGCGCGCATGGAATATGCTGGTGGCACTTCAGGCAGGAAACATCGTCG -CCCGTTATGCCAAACTGCATCTCTATGATGCATTTGCCATTCAGGAATCACGCCGTGTTGATGCTGGTAATGAAATCGCT -CCGTTACTGGAGGTGGAAGGGATGAAGGTCGGTCTGATGACCTGTTATGACTTACGCTTTCCAGAGCTGGCGCTGGCACA -GGCATTACAGGGAGCTGAAATCCTGGTACTTCCTGCCGCCTGGGTTCGCGGGCCGCTCAAAGAGCATCACTGGTCAACGT -TGCTTGCCGCTCGTGCGCTGGATACCACCTGTTATATGGTGGCGGCGGGGGAGTGCGGGAACAAAAATATCGGTCAAAGC -CGGATTATAGATCCCTTTGGCGTCACCATTGCGGCAGCGTCAGAAATGCCTGCACTCATTATGGCGGAAGTGACGCCCGA -ACGTGTGCGTCAGGTGCGCGCGCAACTGCCCGTCTTAAACAACCGTCGCTTTGCGCCGCCGCAATTATTATGATGTTTTT -TTACTCGGCGCTTGATTCACCTTGTTACAGATTGCTATTGTGTGCGCGCGTCGAATGACCGTTAATATTCTCTGGTTTTT -AAGGCGCGTTCTGTTGCCGGTTATATGTCAAGAAGGTATCTATGGGTGAGATTAGTATTACCAAACTGCTGGTAGTTGCG -GCGCTGGTCGTTCTGCTGTTTGGGACTAAGAAGTTACGTACGCTGGGCGGAGACCTTGGAGCGGCCATTAAAGGGTTCAA -GAAGGCGATGAATGATGACGATGCTGCGGCGAAAAAAGGCGCAGACGTTGATCTTCAGGCTGAAAAGCTCTCTCATAAAG -AGTGACGTGGCGAGCAGGACGCTCCCTCAATATCTTGTTCGATACAAAAAACCCGCTTCAAAAAGCGGGTTTTTTATCAG -ACAGATGTAAGTAATTATTACAGGATTACTTAACTTCCATCCCTTTCGCCTGCAAATCGGCGTGGTAAGAAGAGCGGACA -AACGGACCGCATGCAGCATGGGTAAAGCCCATCGCCAGCGCTTCGGCTTTCATTTCGTCGAACTCATCCGGGCTAACGTA -ACGTTGAACCGGCAGGTGATGGCGGCTTGGCTGCAAATATTGCCCCAGCGTTAACATCGTCACACCATGACGGCGCAGGT -CGCGCATTACCTCAATAATTTCTTCATTGGTTTCACCCAGTCCCACCATCAGACCAGACTTGGTCGGGATTTCCGGATGC -GCTTCTTTAAAGCGTTCCAGCAGCTTCAGCGACCAGTTGTAATCTGCACCAGGCCGTACCTGACGGTAAATACGCGGTAC -GTTTTCCAGGTTATGGTTGAACACATCTGGTGGCGTTGCAGTCAGAATATCCAGAGCACGATCCATACGACCGCGGAAAT -CCGGCACCAGAGTTTCAATTTTGATTTGCGGGCTTTTTTCCCGAATGGCAGTAATGCAATCCGCAAAGTGCTGGGCACCG -CCATCGCGCAGGTCATCACGGTCAACGGAGGTGATAACCACATAACGCAGCGCCATATCGGCAATGGTCTGCGCCAGTTT -CACTGGTTCATTGGCATCAGGAGCTACCGGGCGACCGTGGGCAACATCACAGAACGGACAACGGCGGGTACAAATAGCGC -CGAGGATCATAAACGTTGCTGTGCCGTGGTTGAAGCATTCCGCCAGGTTAGGGCAGGAGGCTTCCTCGCAGACAGAATGC -AGGCCATTTTTGCGCATTGCGGCTTTGATGCCCTGGATACGTGTAGAGTCCGCTGGAAGCTTGATTTTCATCCATTCCGG -CTTGCGCAGCAGGGCTTCGCGCTCTGTTGCCACGTTTTTAACCGGGATAAGGGCCATCTTATCGGCATCGCGGTATTTAA -CACCGCGTTCCATCACAATGGGTTTACTCATAGCGTGCGTGTTCCAGTTGCGAATTACGAAGGAAAGCGTTTCAATTCAA -TAGATTGTTGTAATTATCAACTATTTTTGAATTAACGACTGGCAGTATATCATTGAAACGGACCTGAAAGCAGCCAAAGC -GGTCGCGAAAATGTAAAATTGTTGTTGGATTGTGCCATTTTATCGTTCTGCGCTGTGATCTGGCTGTAACAATACTTTTT -CAAAATGCATTACGGATAACATCTATTACTCCGTGCAGGATGGGATCACGCAGGCTGAATTTGTTGTAGTGGATAGAGAA -ATCTATTTGCTCCTCATTTAAGGACGGAAAAGGCAGTTTTTCCAGCGGCCAGCAGCGGCTAAACAGGTTATAAAAACGGC -TGGGAATAATCGCTAACATGTCACTGTTGGCAACCAGTGCAGCGATTGTCAAAATGTTGTAGCTGGTGAAATTGATTTGC -CGGTCCGGAAACATTTCTTGAACTCTCTGCCGCAGACCGCTGAAATTTTGCTCTTCCGGTAACAGAAGTACATGCGCAGC -GTTGTCGATAGTCTCTCTGTCATCTTCTAAAGAGAGTAGTGGATTTCCCTCGCGGCAAATTAACACCATATTGTCGGTGA -ACAGAACATGATGTTGCACCGTACGATTGGTGCAAAACATGTTATCGATGATGAGATCGGTTTGAAACTGACTGAGTTGG -TTTTCCGCGTCGCTGATGGGCGGGTTGCGCAGTAAAAGCTGCGGATAGTGAGTTTTAATCGCCCGATAGATGACAGGAAG -GACCAGTGCTCCGACCGAGGGAGTGGTCGCAATAGTTATCGTTCGTTGCTTATCATAGCTTCCTTCGATATCCAGCGCGC -CAAGAATGGACTCAAGGCCCTGACTGATATACTCATGTAGATGCATCGCAAATGCGGTAGGAGTGACACCCTGGCCTTTG -CGAATAAACAATGGGTCAGGGAATATAACGCGCAGTTTCTGAATAGACTGACTGATTGCCGAGGGGGTCAGATTAAGCAC -TTTCGCTGCATTAACGATCCCTTTATGTACATATACAGCTTCAAAAATAGTCAGAAGGTTAAGATCAATATTTCGTAAGG -TTGTAAATATTTGTGGTTTACCTTCTGACGACTTTCTGCTTAAACAGGGTTCAATTTGATTATTACTATCCACGCACTTA -CTCCAATTTTATTCATGGAAAAATAATATTTAAAAAATTACAATAATCTTATGTCTAATTGGAACGGAACGCTTTTGCTC -ACCATAATCAACTATTTCAATAGGTTAATCAATGGGGTGAGTTACGGAGCAAGGCGTGGCACCGCATTTCTGCAAGTGAT -AAAGAAAATATACAAACGCGAAGGAGATGTAAAGCATTAGCAGATATTATGAGTAATGACCCAGTGTAAATTGGGCCATT -GATGTATGGAATTAAGCGGTAATATATTCGAAGTCCGGATTGTTTAGTAGCGCTAAAATATTTTCCAGTAAACGTGGAGC -AATATTATTAGTCGTCGCTTCGGGTTTCCATTGTGATATTTTAGCCATTTCCATTCCGGCATACCCACAAGGATTAATAC -GTAAAAATGGTGAAAGATCCATATTGACGTTTAATGCCAGACCGTGGAATGAACAACCGCGTCGAATACGTAAACCCAGT -GAGCAAATTTTCTTTTCCCCAACATAGACACCTGGCGCGTCAGCCCGAGGATGCGCTTCTATACCCAGTTCAGCCAGGGT -ATTCACCACTGTTTGCTCAAGCAAGGTCACCAGTTCACGCACACCGAGTTTACGGCGTTTCAGGTTAAGCAACACATACA -TCACCTGTTGCCCCGGCCCGTGATAAGTCACCTGCCCACCGCGATCGCTCTGGATCACCGGAATATCACCCGGCATTAAA -ATGTGCTCCGCTTTTCCTGCCTGACCTTGGGTGAATACCGGATAGTGCTCGACCAGCCAGATTTCATCAAGGGTACTATC -ATCGCGGGTATCGGTGAATTCATGCATAGCCTGGGAGATTGGCTCGTAAGGCTGAAGACCGAGCTGGCGGACAAGAATTT -TATCCTGATACAAAACGGCATCTCCGTGGAGAATGAGTAAAAGTGGGGGAAAAGTATATCACAGCGAGGAGAGGGGAGTT -ACCCGACCAGGAGCCGGGTAACGGAGAAGCGAGTTACAGAACCATGCGGACAATATCGATTTTGCCCAGTTCTTCATACA -GTGTTTCAACCTGCTCGATATGAGTGGCGTTGATAGTGATAGATACCGAGTGGTAGTTGCCTTTGCTGCTTGGTTTTACC -GTTGGGGTGTAGTCACCTGGCGCATGGCGCTGTACCACTTCAACCACCTGATCAACCAGCTCAGGTAACGCCTGCCCCAT -AACTTTGTAAGTAAAAGGAGTAGGGAATTCAAGCAGTTCGTTAAGTTTGGTTTTCATGTCAGCTCCGGCGTAACGTAATT -AAATAGCAACTCCCGCCAGAAGGCGGGAGTTTTTTACTGATGCTTAGTATATGGGGACGGAAATTACACTTTCAAGTGTT -TAATTTTTAACCAAACCAGTGATGGAACATTAATTTAATGTAATCAATGATTTTGCCGAAGAAGTTACCTTCCGGGATTT -CTTGCAACACAACCAGCGGGCGTTGCTCGATCGTTTTGCCATCAAGCTGGAAGTTGATAGTTCCGACGACCTGATTCTTT -TGCAGCGGCGCATGCAATTCACTGCTGTTCAGCACATAGCTGGCTTTCAGATCTTTCATGCGACCACGCGGAATGGTCAG -GTACACGTCTTTATCAACCCCTAACGAAGCGCGATCAGAATCACCAAACCAAACCGGTTCAGAGGCGAACTCTTTACCTA -CTTTCAGTGGGTTAACGGTTTCAAAGAAACGGAAGCCCCAGGTTAGCAGTTTTTTACTTTCGGCTTCACGGCCTTTAAAA -GTACGTCCGCCCATTACCGCAGAAATCAAGCGCATCTGGCCTTCAGTCGCAGAAGCAACAAGGTTGTAACCTGCTTTGTC -AGTGTGTCCGGTTTTGATGCCGTCGACATTCAGGCTGTTATCCCATAACAGGCCGTTACGGTTCAGCTGGCGAATACCGT -TAAACGTAAATTCTTTTTCTTTATAGATCGAGTATTCATTCGGTACGTCACGGATCAATGCCTGGCCGATCAGCGCCATA -TCTCGCGCGGAGCTGTACTGACCATCAGCATCCAGACCATGTACCGTCTGGAAGTGGGTATTTTTCAGGCCCAGTGCGTT -AACGTAGCTGTTCATCAAGCCAACAAAAGCGTCCTGGCTACCAGCGGCAAAATCGGCCATGGCGACACAAGCATCGTTAC -CCGATTGCAGGTTAATACCGCGGATCAGCTGAGAAACCGGAACCTGCATGCCCGGTTTGAGGAACATCAGCGAAGAACCT -TTAAACACCGGGTTACCGGTGGCCCATGCGTCGTTGCCGATAGTGACTAAATCAGTTTCTTTAAATTTACCGGCTTTCAT -TGCCTGGCCGATAACGTAACTGGTCATCATTTTGGTCAGGCTGGCAGGATCGCGGCGGACATCTGCGTTCTGTTCGGCGA -GCACTTTGCCGGAGTTATAGTCAATCAGGATGTAGGACTCCGCATCGATCTGCGGTACACCCGGGATCATAGTTTTGATA -TTCAGGTCATCGGCATGTGCAGCAGAGATAAAGGCTGTGCAAAGAGCCGTGGTGAGCGCCAGGCGCTTCATGATACGAGC -GGAAAAAATGGTATTCATGGTCTGAACTACGACATCCGTGATGGAATTAAAAAAGTGCCCTACTATAGCAAATGCACTAC -CGGCAGGCATCTGACTTTCCGCGTGACTTTGTTAACGTCATTTACAGAAATTGACACATCAGATGCCTGCTTTACGCTAC -TGCGCGGTAGTAATAAATGACTGTAATTGGGCTTCGGTTTGCAAACGTTGCTGCAAGGTACTGGCTTCGGCTTTGCTGGC -GAATGGGCCAAGCTGGATCCGCCAGACCGCGCCATTTTGAGTTACGCGACCGGGGACGCCGAACTTCTGTCCCAGTTGCT -GTTGGTACTGTTGCGCACGAGCCTGATCGCTTACGGCCCCGACTTGCACCATAAAGTTGCCGCTGGCGCTTTGCGAGACG -GCTTGCGGTGTCACCATTGCAGGCGAGGTTGCAGGCGTTGTCGACGGAGCTGTAACAACGGGCTGTGGCGCAGGCGTCGG -TTCGCTGCCTTCCAGTACACCAGGCGCTAAGGTCGTTGGTGCGCCGAGGAAACCGCTACTGGTTACCGGCGCGCCGGTCG -GATCTTCGCTTTTTAGCGTCGAATTACTGACCGGAAGAATGTCACCCTGCGGGCCAGACACTGAACTTGTTCCCGCGCCA -CCGCTTAAATCGGGAGGTGCAGGCAGGGCGTAAGTCTGTTTGGCGACTGTGGTACAAGCCATACCAGGACCAGAAAGCGA -ACCATCCTGGGCAACAATAATCGGATCGATACGAACTTTGGTGTTGTTTGACGTGTTAAGACGGTCAGCTGCCGCGCGAG -AAAGTGAAATAACGCGGTCGTTGCCGTAAGGGCCGCGATCATTAATGCGCACCACGATCATTCGCCCGTTAGCCAGGTTA -GTGATTCTGGCGTAGCTGGGGATCGGAAGCGTTGGATGGGCTGCCGTCAGCTGTGTCGGATCGAATGCTTCGCCAGAGGC -CGTCAGGTTACTGCCGGGTTCGGCATCATAGATTGCCGCCAGTCCCGCCTGGCTAAATCGAGACGGATCCTGCACGATTT -TGTAGCTTTTACCGTCGCGCTGGTAATCCTGATTTGCCGTCGCGTTCAGTGGTTCGAAACGCGGGTCCGCCCCGCTAATT -TCAACTATAGGGCCGTTACATACCGCAGGCTGCGGTACACTTACCGTCTGTTGCTGACCATCATCGCTTGTACATGCCGC -GAGCATTCCTGCCGCGATGCAGATCCCGAGCCACTGCTTACGCATTGCGCACCTCTTACACGCTTTTCGACAACATTTTC -CTGTGGGTGTGGATTGACATTACAATCCCGAACCCAGCCATCAGCACAATTAGCGCCGATCCTCCATAACTGACCAGTGG -GAGCGGAACCCCTACAACCGGCAGAATACCGCTTACCATACCAATATTTACGAAGACATAAACGAATAATATCAGCATTA -AGCCGCCAGCCATGACGCGACCAAAGGTGGTTTGCGCTCTGGCGGCTATCCACAGCCCGCGCATGATCAGCAGAATGTAG -AGAGCGAGCAGAATCAGAATGCCCACTAATCCCAGCTCTTCCGCCAGTACCGCGAAGATAAAGTCAGTATGGCGTTCGGG -GAGAAATTCAAGCTGTGACTGAGTGCCGTGCAGCCAGCCTTTGCCGCGTAATCCGCCGGAGCCAATAGCAATTTTAGACT -GAATAATGTGATAGCCCGCGCCGAGTGGGTCTGATTCCGGGTCCAGGAGCATCATTACGCGCTGGCGCTGGTAATCATGC -ATCAGGAAGAACCACAGAATCGGAATGAACGCCGCTACCAGCACTACTGCGACGCCAATCAGACGCCAGCTAAGGCCAGA -GAGGAACAGTACAAACAGACCGGAAAGCGCAACGAGGATTGATGTTCCCAGGTCAGGCTGTGCAGCCACCAGCAGCGTGG -GCATAAATATCAGCACCAGCGCGATGCCAGTGTTCTTCAACGATGGCGGGCAAACGTCGCGGTTGATAAAGCGCGCAACC -ATCAGTGGTACGGCTATTTTGGCAATTTCCGACGGCTGAAAACGAACAATACCGAGGTCCAGCCAGCGTTGAGCACCTTT -AGAGATGGCACCGAAAGCATCTACCGCCACCAGCAAAATAATACAGATGATATAGAGATAGGGGGCCCAGCCTTCATAAA -CGCGTGGAGGAATTTGCGCCATCACCACCATGATGACCAGACCCATCGCGATTTGGCCGATTTTACGCTCCATCATGCCA -ATATCCTGACCGCTGGCGCTCCAGATAACCAGGGCGCTGTAAACCAGCAATGCCAGTAAGATCAGCAGCATTGTGGGATC -GAGATGGACTTTATCCCAGAATGTTTTTTTATTCGGATTATCCGTCATGATTAATGGTCCTCCGCTGCGGCAACCGCTGG -ATTTTCCGCAGGCAGATCGGTGTTGTTATCACCCAGCATAATGTGGTCGAGGATCTGGCGCATCAGTGTACCAACCGCCG -GACCCGCACCACCGTTCTCCAGAATCATGGCGACAGCCACTTGCGGATTGTTGTATGGCGCAAAGGCGGTCATCAGTTTG -TGGTCACGTAAACGCTCGGCAATTTTGTGCGCATTATAGGTTTCGTTCGCTTTCAGACCGAAGACCTGAGCGGTACCGGA -TTTCGCCGCAATTTTGTACGGTGCGCTAGCAAAGTATTTATGCGCCGTACCGTTAGGGCGGTTAGCAACACCGTACATAC -CGTCTTTCGCCAGCTCCCAGTAACCGGAATGAATATCGCCGACGGGCGGTTCATGCGGCTGTACCCATGGCACCTGTTTG -CCGTCTTCGGCGGTGCTCATCAGCAAATGAGGAACCTTCACGATACCGTCATTAATCAGGATCATCAGTGCCTTACTCAT -CTGGATTGGGGTCGCTGTCCAGTAACCCTGACCGATACCAACCGGAATGGTGTCACCCTGATACCACGGTTTTTTAAAGC -GTTTCTGTTTCCATTCGCGGGTAGGCATGTTGCCGGAACGTTCTTCCGCCAGGTCGATACCGGTGTAATGACCATAACCG -AATTTACCCATCCATTCGGAGAGGCGATCGATCCCCATATCGTAGGCCACCTGATAGAAGAAGGTATCCGCAGATTCTTC -CAGCGATCTTGTGACATTCAGACGCCCGTGGCCCCATTTTTTCCAGTCACGATAACGTTTTTCCGAACCTGGCAGTTGCC -ACCAGCCTGGGTCAAACAGCGTCGTATTGCGCGTGATCACCCCGGCGCTCAATGCCGAAACCGCCACATAGGGTTTAACT -GTAGACGCGGGAGGATAAACCCCCTGTGTGGCGCGGTTCACCAGCGGTGTATTCGGATCGTTCAACAAGGCGGAATAATC -TTTGCTGGAGATACCGTCAACAAACAAGTTTGGGTCATAACTAGGCGTGGAAACCAGCGCCAGCACCCCACCTGTACGCG -GATCGGTGACTACCACAGCTGCGCGGCTACCCGCCAGCAGCGTTTCAATATATTGCTGGAGTTTGAGATCCAGCGTCAGG -TAAATATCGTGTCCGGCTTGCGGTGGTACTTCTTTTAACTGGCGAATAACACGCCCACGGTTGTTAACTTCAACCTCTTC -ATAACCGGTCTGACCGTGCAGCACATCTTCATAGTAACGCTCAATGCCCAGCTTACCGATATCATGCGTTGCCGCATAGT -TGGCCAGTTTGCCGTCATTATTCAGGCGTTCGACGTCTTTATCGTTGATTTTCGACACATAGCCGATGACGTGGGTCAAC -GCCGAACCGTAAGGATAGTAACGACGTTTATAGCCTTTAACTTCGACACCCGGAAAACGGTACTGATTGACGGCAAAGCG -AGCTACTTGTACTTCGGTCAGGTTAGTTTTCACCGGAATAGAGGTGAAACGGTGTGAACGTGCGCGCTCTTTTCGGAATG -CAGCAATATCGTCATCGGTCAGATCTACCACGCTGCGCAAAGCGTCCAGCGTTTGCTGCACGTTATCGACTTTCTCCGGC -ATCATTTCTATCTGGTAGATAGTGCGGTTGAGGGCCAGAGGGATACCGTTACGATCGTAGATAATGCCGCGGCTGGGCGC -GATAGGCACCAGCTTAATGCGGTTTTCATTAGAGCGGGTCTGGTAGTCGGTAAAGCGAACAATTTGCAGATTATACAGGT -TGGCGATAAGCACGCCGGTCAGCAGCAAAATCCCCAAAAAGGCGACCAGCGCCCGGCGCACAAACAGCGCGGACTCTGCC -GTATAGTCGCGAAAAGAGTTCTGTAGTTTCATCCGCTGCGTTTTCTACTCAAAGCTCCCTTATCACTCACGGTGATAAGG -ATGGTTGGTGGTGATGCTCCACGCCCGGTACAGACTCTCTGCGACCAGCACGCGAACCAGCGGATGGGGGAGGGTAAGCG -CCGACAGCGACCAGCTCTGCTCAGCCGCCGCTTTACAGGCAGGCGACAACCCTTCAGGCCCGCCAATCAGTAGACTGACG -TCGCGACCATCCAGCTTCCAGCGTTCCAGCTCAGCGGCTAACTGCGGCGTATCCCAGGGCTTGCCTGGAATATCGAGGGT -GACAATGCGGTTTTTGCCTGCGGCCGCCAACATCTGCTCACCCTCTTTGTCGAGTATGCGCTTGATGTCCGCATTCTTGC -CGCGTTTTCCGGCCGGAATTTCAATCAGCTCGAAGGGCATATCTTTCGGAAAACGACGCAGGTACTCGGTAAAACCGGTT -TGTACCCAGTCCGGCATTTTCGTTCCCACGGCGACAAGTTGCAGCTTCACGCATTAACTCCAGAGTTTTTCCAGTTCATA -CAGGCGACGGCTCTCTTCCTGCATGACATGGACAATCACATCGCCCAAATCCACGACAATCCAGTCGGCGCTGTTTTCAC -CTTCTACGCCGAGCGGTAACAGGCCCGCTGCGCGAGACTCCTGCACAACGTGGTCAGCAATGGACATAACATGACGGCTG -GACGTACCCGTACAGATGATCATGCAGTCGGTGATGCTGGATTTGCCCTGAACGTCTAAGGCGATGATGTCCTGACCTTT -GAGGTCATCAATTTTGTCGATAACAAAATCCTGGAGTGCTTTACCCTGCAAGTTTTCCCCCTGGGTGAATCAAATAGATA -AAAATGGTCTGTCAGTATACCTGAACCAGAGGCGATTTCGGGACAATTGTCGCCGAATCGGCTTTCGAAAGTGGGCTATC -ATCCCACCCCGCGCCGCAGATTGCATCGCCATTTTTGTAAAACAATTTCTACAAAGTCGTGTCTGGCGGAAAAAGTCTGG -CTGCGGAGAATATCAGCCTGCCCGGGTCTGTCAATGGTCGTTGCGGCTTACCCGTAAAAAAACAGAAAAGTCATGCATTC -TCGACCCCGATGGCACGGCTATTGAGGACGCGTAGCGTCGCGAATTTTTGGTTGATATCAATGGCGCTCCAACACCCCTG -GTCAACGCGAAAATGCCACATAGCTTCGGCAGGCATGCCAATTAAACGGGCGATTAACAGACTCAGTACACCCTGATGGC -TGACGACTAAAATATTCTGATAGTGCTGAAATTCACTAAGCCTTGCGATAAAGCGTTCCACACGTTGCGAAAATGCCTGA -AATCCTTCACCGTTCGTGGGGATTGCATGCTGCCAGTCATTGCACCACGCGCTATAGTTTTCGGCATCTTCTTGCATGAG -GTCGCGATGATGTCGCATCTCCCAGTCGCCAAAAAACATTTCGTTGAGTTCAGGTATGATTTGCACGGGGAGCTGGCGGT -CACTGAGAACCAGTCGCGCGGTATGCTGTGCCCGTTCCAGTTCACTGCATAAAACCAGATCAAAGGAAACACCATGTAGC -AGCGTATGCAGATTTTGCGCTTGCTCAATACCGCGCGCGGTCAGGGGGGTGGGCGCATGACCGCTGTAAAGACCATCGAT -ATTCGCTTGCGTTTCACCATGACGAATTAACCACAGTCGCATCATGCCCTCCGTAACGACAGGTATCAGCGATACAAGCC -TTGTTGGTTAATGTAAGTCAGTACCGGTTCCGGCAATAAATCCTCACATGATTCACCGTTTTGCAAACGTTCGCGGATGA -TGGTCGCCGAGATGTTAAACCACGGCGTTTCAGCCAGATAAATTTTACCGGCAGGCTGAAGGTGAAGATCTTCCGGGTTA -TGTGTCAAATGATCTTCCAGCCATTGCTGGTATTGCGGTTGCGCCATTTCAAGTGGGTAACCTGGACGCCGACAGACGAT -CAAATGTGCATTGTCGAGTATCGTTTCGTATTCGTACCAGGTCGGAAAGGTCAGCAGTGAATCCTGACCAATAATAAACG -CCAGCGGCACGTCCGGTCCTTGTTCCTGCCGCCACTCTTTCAGTGTTTGCGCAGTGTAAGAGGGGGCATTGCGCTTTAGC -TCGCGTTCATCAAGAGTAAATAATGGCTTGTCGGCAATCGCCAGTTCAAGCATGTGTTTACGCTGCACGCTGTTCGCTTC -CGGCTGGGGACGATGCGGAGGAACATTATTAGGGATGATTGTGACCCGCGTCAGACCAATCAAATTCGCCAGCGTTTCCA -CGGGTTTTAGATGACCATAGTGCACCGGATCAAAGGTGCCGCCAAACAGAGCCTGTAAAGATTTCATATCAACCGTCGAT -AAATACGTCCGCCAGGGGTTTATGGCACAACAGAAGAGATAACCCTTCCAGCTCTGCCCACACTGACTGACCGTAATCTT -GTTTGAGGGTGAGTTCCGTTCGTGTCAGGAGTTGCACGGCCTGACGTAACTGCGTCTGACTTAAGCGATTTAACGCCTCG -CCCATCATGCCCCGGCGGTTCTGCCATACCCGATGCTTATCAAACAACGCACGCAGTGGCGTATGGGCAGACTGGCGTTT -CAGGTTAACCAGTAACAACAGTTCACGTTGTAATGTGCGCAACAAAATAACCGGTTCGCTGCCTTCCAGACGCAGTTGCT -GAAGAATATGCAATGCGCGCTTACTTTTTCCCATCAACAAAGCATCAACCCAATGAAAAGGGGTGAAATGCGCGGCATCA -TTCACCGCCTGTTCAACGCGCGGTAATGTCAATTTGCCGTCTGGCCAGAGCAGCGATAAACGCTCCAGTGCCTGAGCCAG -CGCCAGCAGGTTACCTTCATAACAGTAGCAGAGCACCTGATTTGCCGCGTCATCCAGTTCTAAGTTGAGCTGTTTTGCGC -GCGCAGCAACCCAGCGGGGAAGCTGAGCCTGCTCCGGTGTCTGACAGGTCACCTGCACGCTGCGATTCGCAAGCGCAGTA -AACCAGGCGGCATTTTCTTGCGCTTTGCTTAATTTATTACCGCGGACGATCAACAGCAGGTCGTCATGCAGAAGTCCGGT -GAGTGTGAGAAGTTGCTCATTGATCGCCGCATTCGGTCCGTTTTCTGGTAACAACAGCAATAGCGTTTGTCGACTGGCAA -ACAGACTCATAGCCTGGCATAACGAAAAGATCGCATTCCAGTCAGTGTTGGGATCAATGGAAAAAGTGTGGTGTTCTTCG -AATCCTTGTGCCGCAGCTACCTGACGAACAGCGTCCTGGCTTTCCTGCAATAACAGAGGATCGTTACCAAGTAAAAGATA -CGCCGCGCGCAGCCCTTCATTGAGCTGCGCGCGGAGTTGTTCCGGGTACAACCGAATCATCAGTTACCCAGCGTGGTGGA -GACGCGTGCAGGCGTTGCCGGAGTATCCGTTGTGGTCGACGTCTGTTCTTCGTCGGAACGAATATCCGCAGCACGGATGC -TTGGCAGCTTACGAATCAGCTGTTCGGCAGCACGGTCGTACATCTCTTTTACGATCATGTCTTGTTCGTTATCTTTCGCT -AACGCCATTTGCGGGTTATCGAAGAACGAACGGAAGACTTTGGCGCTAATCGGGTAGATATCACGGCCGGGGATCAACAC -GGTCGCATTAACCGTCATGATCATCTGATACTCTGCTGTTTGACCGTTACGGAATACCGATGCGGTATCTTTCGCGATGC -TCACTTTACCCAAACGCAAGGATGGAACGTCCTTACGCGTGGTTTCTTTATCAAGCAACTCGACACCATTCAGACGTAAC -TGGTTACGCACCGCACGGCTTAATGGCCCGTTCGGATCGCCTGAGTCCAGGATCATGACCTTCATAGTGGAAGGAACCTG -CGTGGTATCACGCAGATGCCAGCCACACCCGGCGGTGATTAACACCGCCAGAGATAACAACAATGTTGCCAGATATCGCA -CGCTTCCTCCCGCGCTTAGCCAACGACCAGATTGAGGAGTTTACCTGGTACGTAAATCACTTTACGTACAGTAACGCCAT -CAAGATATTTTGCTACCAGATGTTCCTGGCCAGCACGTTCGCGAACCTGTTCTTCCGTTGCGTCCACCGGAACGGTGATT -TTGGCACGGACTTTACCGTTAACCTGCACCACGACCAGCGTGGAGTCTTCCACCATCGCTTTTTCGTCAGCAACCGGCCA -CGGCGCGTTGTCGATATCGCCTTCGCCTTTCAGTTCCTGCCACAGCGTGAAGCAGATGTGCGGGGTGAACGGGTTAAGCA -TACGGACAACGGCCAGCAGTGCTTCCTGCATCAGAGCGCGATCCTGCTCGCCATCGGTTGGTGCTTTCGCCAGTTTGTTC -ATCAGCTCCATAATCGCCGCAATTGCGGTGTTGAAGGTCTGACGACGGCCGATATCATCGGTCACTTTAGCGATCGTTTT -ATGCACATCGCGACGCAGCGCTTTCTGATTTTCAGTCAGCGCATCAACGTTCAGTGCCGCAACATCACCTTTTGCTGTGT -GCTCGTAAACCAGTTTCCAGACACGTTTCAGGAAGCGGTTAGCCCCTTCCACACCGGATTCCTGCCATTCGAGAGTCATA -TCAGCCGGAGAAGCAAACATCATAAACAGACGAACGGTGTCCGCGCCGTAACGTTCAACCATCACCTGCGGGTCGATACC -GTTGTTCTTCGACTTGGACATTTTGCTCATGCCGGTATAAACCAGTTCATGGCCTGCCGCATCTTTCGCTTTCACGATAC -GGCCTTTCTCGTCACGTTCAACGATAGCATCAACCGGGGAAACCCAGTTACGTTCGCCGTTTTCGCCAACATAGTAGAAG -GCATCTGCCAGCACCATACCCTGACACAGCAACTGTTTCGCTGGTTCGTCAGAGTTCACCATGCCTGCATCACGCATCAG -TTTGTGGAAGAAGCGGAAGTAGAGCAGGTGCATAATGGCGTGTTCAATACCACCAATGTAGATATCCACCGGCAGCCAGT -AGTTAGCCGCTTCGGAATCCAGCATACCTTCTTTGTACTGCGGGCAAGTGTAGCGCGCATAGTACCAGGAGGACTCCATA -AAGGTGTCGAAAGTGTCGGTTTCACGCAGTGCTGGCATACCGTTAACGGTAGTTTTCGCCCACTCCGGATCTGCTTTAAT -CGGGCTGGTAATGCCGTCCATTACCACATCTTCCGGCAGGATCACCGGCAGCTGGTCGTCCGGGGTCGGCATTACGGTAC -CGTCTTCCAGCGTCACCATCGGAATCGGCGCGCCCCAGTAACGCTGACGGGAAACACCCCAGTCGCGCAGGCGGTAGTTC -ACTTTACGCTCGCCAACGCCCATCGCAGTCAGTTTATCGGCGATGGCGTTGAAGGCCGCTTCATGGTCAAGACCGTTGAA -CTCGCCAGAGTTGAACAGCACGCCTTTTTCAGTCAGGGCTTGCTGAGAAAGATCTGGCTCAGAGCCGTCAGCTGCCAGGA -TAACCGGTTTGATGTTCAGGCCGTATTTAGAGGCAAACTCGTAGTCGCGCTGGTCGTGCCCCGGTACCGCCATAACTGCG -CCCGTGCCGTACTCCATCAATACGAAGTTTGCTGCCCAAACGGGAATTTCTTCGCCCGTTAATGGGTGAACCGCTTTAAA -GCCAGTATCGACGCCTTTTTTCTCCATCGTCGCCATTTCAGCTTCGGCAACTTTGGTGTTACGGCATTCGTCAATAAAGG -CCGCCAGTTCAGGATTATTTTCCGCCGCTTTCTGCGCCAGCGGATGACCCGCAGCTACCGCCAGGTAGGTACAACCCATA -AAGGTGTCCGGGCGGGTAGTGTAAACGGTCAGCGTGTTGTCATAGTCGTTAACGTTGAAGGTGATCTCCACGCCTTCGGA -ACGACCGATCCAGTTACGCTGCATGGTTTTAACGGTGTCTGGCCAGTGATCCAGTTTATCCAGATCGTTGAGCAGCTCGT -CAGCGTAAGCAGTGATTTTGATAAACCACTGCGGGATCTCTTTACGTTCAACTTTGGTATCGCAGCGCCAGCAGCAGCCG -TCGATAACTTGTTCGTTCGCCAGTACGGTCTGGTCGTTCGGGCACCAGTTGACCGCAGAAGTCTTCTTATATACCAGGCC -TTTTTTATACAGCTCGGTGAAGAATTTCTGTTCCCAACGGTAGTATTCCGGCGTACAGGTTGCCAGCTCGCGGCTCCAGT -CATAACCAAAGCCCAGCATTTTGAGCTGGTTTTTCATATACGCGATGTTGTCGTACGTCCACGGTGCCGGAGCGGTGTTG -TTTTTCACCGCCGCGCCTTCCGCAGGCAGACCAAACGCGTCCCAGCCGATCGGCTGCAGGACGTTTTTGCCCAGCATACG -CTGGTAGCGGGCGATCACGTCACCGATGGTGTAGTTACGTACGTGGCCCATGTGTAGTCGACCAGAAGGATAGGGAAGCA -TAGACAGGCAGTAATACTTCTCTTTGCTCTCGTCTTCGGTTACTTCAAATGTGCGCTTCTCATCCCAATGAAGCTGTACT -TTGGATTCTATCTCTTCCGGGCGGTATTGCTCTTGCATGGCAGCCAGTGGTCCTGTTTTCAATACGGCTACAAATGTAGC -GTTGAGGTGGTTTTTCAGATCCGCATAGCATAGCCCAAACGTCCGCGTCAAAACAGCCTTTCGCGCACTCGACGTTGAAA -TGATGCCCGGATTATTCATACATTAATTTACAGAGTTTGTGGGCGTATTAGCAAAGCAAGGAACAAAGAACGTCTATTAT -TATAGTCAGTTAACGACCCGGGAGATGAAACGATGAACAAGGTTGCTCAATATTACCGTGAACTGGTTGCGTCACTGAGC -GAACGCCTGCGCAATGGCGAACGTGATATCGACGCACTGGTGGAACAGGCGCGCGAGCGCGTAATAAAAACAGGGGAGTT -AACGCGAACCGAGGTCGATGAGCTGACGCGAGCTGTCAGACGTGACCTGGAAGAGTTCGCCATGAGCTATGAAGAGAGCC -TGAAAGAAGAATCTGACAGCGTCTTTATGCGGGTGATTAAAGAAAGCTTGTGGCAGGAGCTGGCAGACATCACCGATAAA -ACGCAGCTTGAATGGCGCGAAGTTTTCCAGGACCTCAATCATCATGGGGTTTATCACAGCGGAGAAGTGGTCGGGCTGGG -AAATCTGGTCTGCGAGAAATGTCACTTCCATCTCCCGATCTACACACCGGAAGTGCTGACGCTATGCCCGAAATGTGGTC -ATGACCAGTTCCAGAGACGCCCGTTTGAGCCGTAATAGTCTGATTTCGCACAGCAATAAAGAGAATATGGGCCGAATGAA -ATTCCCCGGCCCTTGTTTTTATCTCTACAGTAAATCTTCAGTCTCACGAATTTCCTGACTGACATCTCTGGTTCCGGATG -ACTGAACTTTACGATACAGGTCGAGAGCCTGTCGGAGATCGACAGGTCTTCCTTCTCCGTAGTGATACATAATGGCCAGG -TTATACCAGGCAGTGGCGTCATTGCATTCAGCGGCTTTCGTAAACCATTCAAAGGCAGCCTGATAATCTTTCTCAACGCC -TTGTCCGTGTTTATACATATAACCGATGTTGACGTAAGCGCCGACGCTCCCCTGAGCGGCAGCCTTCAGATACCAGTACA -TCGCTTGCTTATAGTCCTGGTCCACCCCTTCGCCAGCGTTATAATCCCATGCAATTTGAAACTGGGCGTGCCGATTACCC -TGCTGTGCGCTTTTCAAATACCAGAATGCGGCGAGTGTCTTGTTTTGAGCAACGCCTTTTCCGTCTTCATAAAGATCGGC -CAGATTGTTTTGCGCGTCACTATGGCCTTGTAATGCAGCTTGTTTGTACCAGAAAAATGCCAGCGCATAGTCTTTTGCGA -CTCCGTTGCCATTTCTGTACATCCACCCAAGATTATTTTGCGCATAAGACATTCCGCTCTCCGCGGCTATCTGATACCAG -ACAACCGCTTCTTTATAATTGGGGGCTTCTCCACGATCCAGTGTCCAGCCAAGGGCGTTGGAAGCGAAAGTATGGCCTTG -TAGGGCAGCTTTTTTCAGCCAGAAGATGGCTTGCTCATTATCTTTATGACGGCTTTTATCCTCGGTATACTTTTGCCCTA -AGGAATACTGTGCTTCACAATGACCTTGCTCAGCGGCCAGCTTCAGCCAGTAAAAGGCTTTTTCGTCGTCCGGAGAATCA -ATTGCGCTATCGCGATTATAATAAAACCCAACAATATATTGAGCCTCGCAATCGCCTTTTTCAGCACGTTCGATAATCTC -ATCTATTGATAAATTATCGCAGCAACTTGACGTGAAAATCATTATCATTTCCTTATGGTTGCAGATAAAACATATTATAT -TTTTATGTGTTCCATTTTTGCGTAAGCCTTATTTTATGCGTATTATGTCGCGTCAGAAAAGTATAAATAAACGAGCCTCG -CAATGCGGCTAATATTCATTTAATGAATATTTAAGGATAAATTATATGGACATGGAGTCGCAAAAAATATTGTTTGCACT -TTCCACTCCGATGGAAATACGCAATGAATGCTGTTTACCTTCGCATTCATCACCCAAAATGTATTTAGGTACATGCTTTT -TTGACCTTTCTTCCTCATGGGGAATTGATGACCGTGATGACCTGCTGCGCACAATTCACCGAATGATCGATAACGGTCAT -GCCGCTCGGTTGGCAGGGTTTTATCACCGCTGGTTTCGTTATTCGCCATGTGAATGGCGTGACTATCTTGCTGAACTAAA -TGAGCAAGGTCAGGCTTATGCGCAATTTGTCGCCAGCACCGCCGAATGCTGTGGCGAAGGGGGAATCAAAGCCTGGGATT -ATGTCCGGATGGGTTTTTTAAGCCGAATGGGCGTACTTAATAACTGGTTGAGCGAAGAAGAAAGTCTATGGATCCAGTCG -CGCATTCATCTACGGGCTCTACGTTATTATAGTAACTGGCGGCAATACTTTGCCGGTTATACCTTTGGTCGGCAATATTG -GCAGTCTCCCGAAGATGATCATCTGCCTTTATTACGCGAATTCTTAGCGCGTAAAGAATACGACGATTCCGGCAATGATA -TGTTTTATCAATTATTTGCCAGTGATGATGCGTATTACCCTACCTTGTCCTGGCAACCATTGGCTTACTATTCTGCATGC -CCGGAAACGCTTAAGGATATGAGCGACCTATGAAAAATTGCTGGAAGATCCTCGATATAGAGGAAACGACTGACGTCGAT -ATTATCCGCCGCGCTTATCTGGCGCTGTTACCGTCCTTTCATCCAGAAACCGATCCGCAGGGTTTTAAACAACTTCGTCA -GGCGTATGAGGAGGCGCTACGGATTGCGCAGTCGCCTGCTAAATCTGTTTGGCAACCAGAAGAATATGAGGTAGCAGAAC -ATGAAATTCTGCTCGCCTTTCGTGCGTTACTTGCCTCTGATAGTGAACGTTTTCTGCCCTCCGCCTGGCAGCGATTCATT -CAGCAATTAAATTATTGCTCGATGGAGGAGATTGATGAATTACGCTGGTCGCTGTGCACAATCGCCATGAACACTGCCCA -TTTATCCTTCGAGTGCGTGGTGTTATTAGCAGAAAGATTGCGGTGGTTACAGGAGGAAAATACCGGGGAAATAGACGAAG -AAGAACTGGAATCCTTTTTATATGCCATTGCGAAGGGGAATGTTTTTAACTTCCAGACCATTCTGCATCTGCCCGTTGCC -GTGCAAAATGACACCATCGATTTTTACCAAATGTTCGCTCGGATTTGGTCATCGCATCCACAATGGCTGACATTGTATTT -AGCGCAACATCGCGCAGTGATTATCCCCGATGATGCAAAACTGCACAGAAATTTACTCCGCTGGTATAGCGCAGGTCGCC -TGGATATCCCCGAACTTCTGGATTACGCCCAGTCATGGCGGGAAACTGAACCTGATAATGAAGATGCGCCTTATTATGAA -TACGCGCAACGCGTCTATTGTGGAGAAGGCGAAAGCCTGTTGGCAGAACTTTGTGACTACTGGCGCGAGTATCCCTCCAC -CCAGGCGGATGCTTTAATGTTGCAATGGTGCCGTCAGCATCGGGTCGATTATTACCCATTACTGGTGATGATGATTGAAG -CGCGTGATCTGGTTAACGATCAGGGAAAACCGCTACTTTATGTCCCCGGCGACAGCGCCCGTACGCGTTTTCATTTATAC -GAAATACTCAGCGATGAAAAACTCTCTGCGCTGGGGCGTTCACTGGTCGAGATGGTTTTGCACAAAGGACGTAAGCCGCG -GATCTCACTCACGCGTGATACAGAACATACCTTATGGCCATTATATCTAGTTGCCAAACAATTAGTGCAGGCCTGCCAAC -CTACAGAAGAATCATTAATGCCGATTGTGAGCCGCCTTGATGCAGAAAATCGTTGTCCACTGGAAGCATTAATTATTCGT -CGATTATTAATTCAGGCGGCGAATTTTACCGAGAAGCAAACTGTTGAACCGGAGCCGCAACCGCAGCCAATGCCCGTTGA -CGATGGTGGGCCAGGCTGTCTGGGCATCATTAAAATTATTTTCTATATTTTTATCTTTGCTGGTTTGATAGGGAAAATAC -TCCATCTGTTCGGGTGACAGTCGACGTTAATGTGCGGGAAGCCCGGCAAGTAATCTTTCCGCATTTTTGTAATGTTGTTT -GGCGGTCAGTTTTAACCATTTTTGAGATTCATAATGGTTAACATTAATACCTGAGCCATTTCTGTAGATCAAACCTAAAG -TATATTGAGCATGAGCATACCCTTGTTCAGCTGCTTCCTTATACCAGAGAATTGCTTTACGGGTGTCGGGTTTGACCCCC -AGACCTTTGAGGTAGATCCACCCCAGTTTACTTTGCGCGCGTGGATTTTCCTGTTCCGCTGATTGCTCATACCAGTATCT -CGCCTGTGTATAATCCAGTGGTTTACCGTCGCTACCATGAAGATAAAATTCTCCAAGGCGATATTGCGACGTTGAGTGAC -CATGAATCGCGGAAAGCTCCGTGGCTGCCGTGGTGAATGGAAGACTGCCCGGTGAGCTTAAATAATCAAAGGCATAATTC -ACCATGGCTTTATCACGCAACGTCGTTTTCTTGGGTTGGCTAATACAGGTAATTGCTGCAACTATAAAAATTGCGAATAT -ATACATTAATTTTTTATTCATGTGTGAATGCTTCGATTTTCTTTTTATTTTGAAAGCGTCAAGTTTATACTCATCAATAA -TAAAAAAGTAGTCAGTTAATGCACTTAAGGGATTATTAACAAATGAATAAGGAAGAACAATATCTTCTTTTTGCGCTTTC -TGCGCCCATGGAAATACTTAATCAGGGTTGCAAACCCGCGCATGACTCGCCAAAAATGTATACTGGGATAAAAGAATTCG -AGCTCTCATCATCCTGGGGAATAAATAATCGTGATGATTTAATTCAGACTATTTATCAGATGACTGATGATGGTCATGCC -AATGATTTAGCTGGCTTATATCTGACATGGCATCGCTCTTCCCCTGAAGAGTGGAAAGCATTAATTGCTGGTGGCTCGGA -GAGAGGGTTGATTTATACCCAATTCGTTGCCCAAACCGCTATGTGCTGTGGGGAAGGGGGAATCAAAGCCTGGGATTATG -TTCGAATGGGGTTTCTGTCACGGGTCGGTGTGCTCAACAAGTGGCTGACGGAAGAAGAGAGTTTATGGCTGCAATCGCGC -GTCTATGTACGAGCTCACCATTACTATCACAGCTGGATGCACTATTTTTCCGCCTATTCGTTAGGACGTCTCTACTGGCA -ATCTTCTCAGTGCGAAGACAACACTTCGCTACGCGAGGCGCTAACCCTGTACAAATACGATAGCGCCGGGAGTCGTATGT -TCGAAGAGCTGGCAGCGGGAAGCGATCGTTTCTATGCCACGCTTCCCTGGCAGCCATTAACTGTCCAGTCTGAATGCCCG -GTAACGCTTAAGGATGTGAGCGACCTATGAAAACATGTTGGCAAATCCTCGAAATTGAAAGCACGACGCAAATAGACATT -ATCCGCCAGGCTTATCTTGCTCGCTTACCGTTGTGTCATCCCGAAACCGATCCGCAAGGGTTTAAAGCATTACGCCAGGC -CTATGAAGAGGCCCTGCGACTGGCGGTAAATCCTGTCGAGGAAGCAGATGATGAAGAAAAAGATGCTGCCGCTGAACATG -AAATACTACGTGCATTCAGGACATTACTGGATTCAGAAAGTGATCGTTTTCAGCCTTCCGCCTGGCAGAAATTTATTCAG -CAATTAAATACCTGGAACATGGAGGATGTCGATCAATTACGCTGGCCGCTGTGTGCAATCGCCATAGAAGCGCGATATCT -TTCATTAAATTGTGCTTCTTTGCTGGCAGAGCGTTTGAACTGGCATTCATTTAATGACAGCGAAGGAATGGATGAGGAAG -AAAGGGAGGCTTTTCTTGAGGCCATTCAGGCTGGTGATTGTTTCGATTTCCTTAGCCTTCTGGAATATCCCATTGCGTTG -CAGAACCAGACTGTTGAGTATTACTTCGCGCTGGAACGTTGCTGCCGTTACCATCCTGACTATGTCACTGCGTTTTTGGC -GATGGAAGGTCCGTGGTTAATTCCTGATGATGCAAAGTTACATCGCAAACTGTTGCGCTGGTACAGCTCGGTGCAAACAG -GTATGGCGGAACTCATTCCTGTCGCTCAACAGTGGCAAACGGAAGAACCAGAAAGCGAAGATGCCCGGTATTACTTGTGT -GCACAACGTTTGTACTGCGGCGAGGGGGAAAGCCTGCTTGCCGATCTCTGCGCGTACTGGGAAAGTTACCCATCTACACA -AGCTGATAATTTGTTGTTGCAGTGGAGCAAGCGTCATTGCCCGGATTATTTCGCGTTATTAGTGATGGTTATCGAAGCGC -GGAGCATGGTAGATGCGCAAGGTCAACCGCTGAAATATGTTCCTGGTGAGAGCGCCCGGACGCGGCTGTTATGGGCGGAG -ATTTTACATAGCGGAAAATTATCGCCGTTAGGTCAATCGTTTATTGAGTCGTTATTCTTCAAGCGCAAAGCATGGGCGTG -GTGGAAATCGAGAGTCGGTAGCGAGACAGAGCAAGATTCACCGTTCCTGGATTTGTATCGGGTAGCGGAACAGGTAGTAC -TTGAAGCGTTTCCGAAACAAGAGATGCTGGCCCGTCTTAATACAAGGCTGGAAGGCGGAGATGCTCATCCATTAGAGGCC -ATTGTCACCCGGATGCTTTTGACGAAAGTGAAACTCGAGCCGGAGGATGAAGATGTCGATGAGCCAACACCTGAAAATCA -TGAAGAAAAAAATGATGAGGGTGAAAAACCACAGAGCATTACCAGCATTATCAAAATCAGTTTAACGGTGCTGGTGATAG -GTTATGCTCTCGGCAAAATCGCGATGTTGTTTAGCTGACGATGTGTTTTTTGCGCCGATGCCGGATGCAGCGTTTACGCC -GCATCCGGCAGCCGTGTTTATGGGATCTCAATGGCTAAATAATCGCTCGCCCGCCGCCGAACTTCATCCACGCGGGCCAT -ATCGTTTGACTGCAACGCCGCATCAAAATCGGTGATCACCCGGCCGATCTCTTCTCGCTCGTCACCCAGCGCCCGCGCCC -ACAACTCTTCCAGTTTGGCTTTAAAGGTGCGATTGATGAGCATATCGCGCGGATAAATTTTCAATGCGGATAACCGCGTC -CGACTCTCTTCAATCTGCTGCGCGCTCAATGTTACCGGGCTGTGGTTAATCACTCTGGACTTAACGCTGCCGTCTTCCAG -AAGCACGTCAACTTCAAGCAACCCGTTGATATCATAACTAAAGCGAATATCAATCGACTGATAAGCCCCGGTTTTCTTCA -ACGGCACATCGAAGGATTCCACCAGAATGTTGTTTTTAACTTTGTGGTTTTCTCCCTGATAGACGTTAACCGTAATTGAA -TCCTGTTCCGGGTGCATGGTTGAATAAGTTTCTACACGCGACACGGGCACAGTGGTGTTTCGTTCAATAATCGGCGAGAA -AATGCCGGAAACGCCCTGGCGGTTAACTTCAACGCCCAACGAGTAAGGGCAAATATCAGTGAGGATTACCTCTTCAATAT -CTTCACTGCGTAAGCGGCAGGCGGCCTGGATTGCTGCGCCCAGCGCGACAATGGTGCTCGGATCGTAACTTTGATACGGT -AATTTGCCAAACAGACGCACGGCGATTCGCTGCACCAGCGGCATTTGTGACGCGCCGCCAACCAGCACCAGACTGTCGAT -TTGACTCGGCTTCAGACGCGCATCGCGCAACGCCTGTTCAATCGGCACTCGCAAGCGATTGAGCAGCGGCAACCACAAAT -CTTCCAGTTCGTTCTCGTAAAATTCGCATTCCCGCGTTTCTTCCTGATACTGCCAGCGAATGTGCAATGGCGATTGATTG -CTACATTTTGCCGCTTCCACACAGGCGTACAAGGCTGCCAGTTCACTCTCGTTAAGCGTGGTCCTGGCGACATCCGCGCG -TTTTAAAACCTCATCGACCAGCATATGGGTAAAATCTTCGCCACCAAGAAAGTTGTCGCCAGCGGAGGCGTGAACTTCAA -TCACCGGCGTGGCGTACTCAAGCACCGTAACGTCAAACGTGCCGCCACCGAGATCAAACACCAGCGAACGGGTATTTTGT -TGGGTATGCAGGCCATACGCCATCGCAGCTGCTGTGGGTTCATTAATTAAGCGTACCGCATTTAACCCGGCTAACTCCGC -TGCTAAACGGGTATGCTTGCGTTGTTCATCGCTGAAATAAGCCGGAACGGAGATCACCACATCTTTAATCGGACGTTGCA -GAAATTCTTCGGCATCTTCTTTTAATGAGCGTAATACCAAAGAGGACAGTTCTGGCGCGTTAAATGTGTCGCTGCCTAAC -CGCCAGTTGGTATTACTGCCCATTGCACGTTTAAATAACGCTGCCGTTTTATCCGGATGCGAAGTACGCCGTGATACAGC -CGGTTTTCCGACTAAAATATGATTATTTTCATCCATGCTAATTATGGATGGTGTTAAATATTCACCGAACTTATTTGGAA -TTAATTGCGCGGCACCGTCTTTCCAGACGGCAATTAAACTATTGGTAGTACCGAGATCGATACCAATGGCGAGTTCTGCA -TTATCCATTGCATTTATATCTTGAAAGAAAAAGAGATAAACAGATTAAGACCACCCAGGTAACGCGTGGTGATCTTAATC -AATGACGTGTGTTAAGCGTAAAATTTCAGACGATCAGCCAGTAAATCAACAAAGCCCTGACGATCAACATCGACCATTAC -GGTGGCATTCGGTTTATTGCCTGTCAGATAATAATAATCAACAACCGTCATACCCTGGGTATATTTCCCCTGTGTTTCCA -CGCCAACCCAGCGCTCAACAGAGGTAAATAACTCCGGTTTCAACAGCCAGGCGATGGTGCATGGGTCATGCAGTGGTGCG -CCGACAAAGCCCCATTTTTCGTCTTTATGATATTCGAGGAAGAAATCCAGCAGTTCGGCAACAATGGTTGAAACAGGGTT -ACCAATCGCGCGGAAACGCTCGGTGTCTTCAACGTGGATTTGTGCTTTATGAGTAACATCCAGACCGGCCATCACCACCG -GGATCCCTGACTGGAAGACAATTTCTGCCGCTTCCGGGTCAACGTAAATATTAAATTCAGCCGCAGGCGTCCAGTTACCC -AGCCCCATAGCGCCACCCATAATCACGATACGGGCAATTTTGCTATGCAGTTCCGGATGGCTATTGAGCAGCAAGGCAAC -GTTAGTTTGCGGTCCGGTAGACACAATGGTGACAGGTTCCGCACTTTCACGCAGCGTTTTCGCCATCAGCTCTACCGCCG -TACAGTTTTGCGGTGCGAATGTCGGTTCCGGTAATGCCGGGCCGTCGAGACCGCTTTCGCCGTGCACATTGTCCGCGATA -ATCAACTCACGCATTAACGGTTTTACCGCGCCGCCTGCTACCGGAATATCGGTGCGATTAAGCAAGGTCAGCATACGCAG -AACATTGCGTAAGGTTTTTTCTGGTGTCTGGTTTCCGGCGGAAGACGTAATTGCTTTGACATCAAGCTCTGGTGAGGCGA -GGGCGAGAACTATTGCGATAGCGTCGTCATGACCTGGGTCGCAATCTAACAGAATTGGCAGTGCCATTGTTGCTCCTTGT -TGTGTGCTTCTTTGCGACAAGGGTAACGCCAGGATGTAACAGATACGAGGGGCGAAACGATAAAGCGTGAGATGGCGCGC -AATTGGGTATGCGCGCCAGAGTGATTAATGCAGGATTTTCGCGAGGAAGTCTTTTGCGCGGTCCGATTTCGGATCATCGA -AGAAAGCGTCTTTCGGCGAGTCTTCGACAATTTTACCCTCGTCCATAAAGATCACCCGATTCGCCACTTTACGGGCAAAG -CCCATTTCGTGGGTCACCACCATCATGGTCATTCCTTCGTTCGCCAGTTCCACCATCACGTCCAGTACTTCGTTGATCAT -CTCCGGATCCAGCGCCGATGTCGGTTCGTCAAACAGCATCGCAATAGGATCCATACACAACGCGCGAGCGATTGCCACAC -GCTGCTGCTGACCGCCGGAAAGCTGCGCCGGAAACTTATTGGCGTGAGCAGAAAGCCCGACACGCTCCAGCAGTTTCAGG -GCTTTTTCACGAGCCGGCGCTTTATCGCGTTTAAGCACTTTCACCTGCGCCAGGGTCAGGTTTTCGATAATCGACAGATG -AGGGAACAGCTCGAAATGCTGGAATACCATCCCGACGCGGGAACGCAGCTTTGCCAGATCGGTTTTCTTGTCGTTAACCA -CGATACCATCGACGGTGATTTCACCTTGCTGCACCGGTTCGAGGCCGTTGACGGTTTTAATCAGCGTTGATTTGCCGGAA -CCAGACGGGCCGCAAACCACCACCACTTCGCCTTTTTTCACTTCGGTTGAGCAGTCGGTCAGCACCTGAAAGTGACCATA -CCATTTTGAAACATTTTTCAGGGTAATCATTATGCTGTCCTTCTTTTCAAGTAGCTGACCAACAACGACGCGCTAAGACT -AATAACGAAATAAACAAATCCGGCAAACAGGATCATCTCAACCTGCGTACCATCACGCTCACCAATGGTTGAGGCGGTAC -GGAAGAAATCGGCCAGGGATAACACATACACCAGTGAGGTATCCTGGAACAGTACGATGCCCTGAGTGAGCAGCAGCGGC -ACCATCGCGCGGAACGCCTGCGGCAGAATAATCAGTTTCATCGACTGCCAGTGAGTCATTCCCAACGCCAGCGCGGCGCT -CGATTGACCACGAGAAATACTTTGAATACCAGCACGGATAATCTCTGAATAGTAGGCCGCTTCAAACATCGAAAACGCCA -CCATCGCCGAAATTAAACGGATATCATTTTTTGGCGATAATCCCAGCACGTTTTGCAGAAAACCCGGCACGATCAGGTAA -AACCACAGCAAAACCATAACTAAAGGAATCGAGCGGAATACGTTAACGTAGGCTTTGGCAAACCACGCCACGGGCGCAAA -GCTGGATAAACGCATCACCGCCAGCATCGTGCCCCACAAAATACCAATCACTACCGCCGTGACGGTGATTTTCAGGGTGA -TCACCAGCCCGTCGAGCAGATATGGCAGGGAAGGGACAATGGAACTCCAGTCAAACTCGTACATTATTTGCCCCCCATGT -TGCCAGGCAGGCGAACTTTACGTTCAACCAGCGTCATCACCAGCATGATAAAAGCGTTAATCAACACATACGCCAGCGTA -ATGGCGGTAAACGACTCCCAGGCATGGGCTGAGTAATCGAGCAATTTACCCGCCTGCGCCGCCATATCCACCAGACCGAT -AGTCGAGGCGATGGCGGAGTTTTTCACCAGGTTCATCATCTCTGAGGTCATCGGCGGGACGATAACGCGATAAGCATTAG -GCAGCAGTACGTATCGATAAGCCTGCGGTAGCGTCAGGCCCATCGCCAGCGCGGCATTTTTTTGCCCTCGCGGCAGCGAC -TGAATCGCGGCGCGTACCTGTTCGCAAACACGGGCGGCGGTAAACAGCCCCAGGCAGAGCATGGATGAAAGGAAAAACTG -AATATTGGGATCCAGCTCGGCCTTAAACCACATGCCGATTTTCTCCGGCAGCAGCTCCGGGATCACCAGATACCAGGTAA -AGAATTGCACAATCAACGGCACGTTGCGGAACAGTTCGACATACAACGTACCCAGACCAGAGAGAAAACGGTTTGGAACG -GTACGTAAAATGCCGAAAAATGAACCGACGAGGAAAGCGATAATCCAGGCGCAGATCGACAAAGCGATCGTCACCTGAAA -ACCACTCCAGATCCAACCAAGATAGGTGGTGTTGCCGAACGGGGCTTGTTGTAAAAAAATACCCCAGTTCCAGTCTATAG -ACATAAATCTACTCCAGAAAAAAGAGGGTAGCAGCGTTAACTGCTACCCTCGAAGATTGTTACCCAGCGTATTGCGGTTT -TCAGGCCCGATGGGGAACGACCATCAGGCGTATAGTCTGTCCGTGCTACGTAACAATCGAGAGGGCTGGAATTTCCGCCC -CTGGTTCTTGTAATTAGTTCAGTGCCTTGTCATTCGGTTCTTTGAACAGTGCTTTCATTTCGTCTGACAGTTCGAAATTC -ATGTTCAGGTTTTTCGGCGGAATTGGATTTTTGAACCACTTATCAAACCATTTTTCCGCTTCACCGGAGGTCTGCACCTG -AGCGATGGTGTCATCCATCAGCTTTTTGAACTGCGGATCATCTTTACGCAACATACAACCGTAGGCCTCCTGAGACTGCG -GCTTGCCGACGATTTCCCAGTTGTCTGGTTTCTTCGCTTTCGCACGTTCACCGGCCAGCAGAGCGTCATCCATCATAAAG -GCAACGGCACGACCGCTTTCCAGGGTGCGGAAAGAGTCACCGTGATCTTTGGCGCTGATGATGCGCATATTCATTTTTTG -CTCTTCATTCAGTTTGTTGAGCAAAACTTCAGAGGTAGTGCCGGAAGTGACGACTACGGCTTTGTCTTTCAGGTTGGCAA -AATCTTTGATATCGCCACCCTTTTTGGTCAACAGGCGCGTACCGACCACGAAAATAGTGTCAGAGAAAGCCGCCTGTTTT -TGGCGTTCGACGTTGTTGGTGGTAGAACCACATTCAAAATCGAAAGTGCCGTTTTGCAGCAGTGGAATACGGTTTTGTGA -GGTAATCGGAATCAGTTTTACCTGCAAGTCCGGTTTGTTGAGTTTCTTTTTCACTGCTTCAACAATGGCGTTGGAGTAAT -CCTGCGAGTAACCCACCACTTTTTGCTGATTGTCGTAATAAGAGAAAGGCACTGAAGATTCACGGTGACCGACGACAATC -ACACCGTTTTTGGCGATTTTGTCCAGAGTACTGCCCGCTGCCGGGGCGGCGTCATCTGCCTGTGCCAGTCCTGCGGAAAG -CGCCAGGGCGAGGATTGCTGTGGCAGGTTTACGTAATTGCATATCCAACTCCTTTATCTTCTGCGTTAAGAACGCATGGA -TACCCGTTGTGAGTGTTTGTGTTGTTATCGTCTGCAACTTTATTGTGCAGTGTTGTGCCTGTTAGGGAAGGTGCGAATAA -GCGGGGAAATTCTTCTCGGCTGACTCAGTCATTTCATTTCTTCATGTTTGAGCCGATTTTTTCTCCCGTAAATGCCTTGA -ATCAGCCTATTTAGACCGTTTCTTCGCCATTTAAGGCGTTATCCCCAGTTTTTAGTGAGATCTCTCCCACTGACGTATCA -TTTGGTCCGCCCGAAACAGGTTGGCCAGCGTGAATAACATCGCCAGTTGGTTATCGTTTTTCAGCAACCCCTTGTATCTG -GCTTTCACGAAGCCGAACTGTCGCTTGATGATGCGAAATGGGTGCTCCACCCTGGCCCGGATGCTGGCTTTCATGTATTC -GATGTTGATGGCCGTTTTGTTCTTGCGTGGATGCTGTTTCAAGGTTCTTACCTTGCCGGGGCGCTCGGCGATCAGCCAGT -CCACATCCACCTCGGCCAGCTCCTCGCGCTGTGGCGCCCCTTGGTAGCCGGCATCGGCTGAGACAAATTGCTCCTCTCCA -TGCAGCAGATTACCCAGCTGATTGAGGTCATGCTCGTTGGCCGCGGTGGTGACCAGGCTGTGGGTCAGGCCACTCTTGGC -ATCGACACCAATGTGGGCCTTCATGCCAAAGTGCCACTGATTGCCTTTCTTGGTCTGATGCATCTCCGGATCGCGTTGCT -GCTCTTTGTTCTTGGTCGAGCTGGGTGCCTCAATGATGGTGGCATCGACCAAGGTGCCTTGAGTCATCATGACGCCTGCT -TCGGCCAGCCAGCGATTGATGGTCTTGAACAATTGGCGGGCCAGTTGATGCTGCTCCAGCAGGTGGCGGAAATTCATGAT -GGTGGTGCGGTCCGGCAAGGCGCTATCCAGGGATAACCGGGCAAACAGACGCATGGAGGCGATTTCGTACAGAGCATCTT -CCATCGCGCCATCGCTCAGGTTGTACCAATGCTGCATGCAGTGAATGCGTAGCATGGTTTCCAGCGGATAAGGTCGCCGG -CCATTACCAGCCTTGGGGTAAAACGGCTCGATGACTTCCACCATGTTTTGCCATGGCAGAATCTGCTCCATGCGGGACAA -GAAAATCTCTTTTCTGGTCTGACGGCGCTTACTGCTGAATTCACTGTCGGCGAAGGTAAGTTGATGACTCATGATGAACC -CTGTTCTATGGCTCCAGATGACAAACATGATCTCATATCAGGGACTTGTTCGCACCTTCCTTAGGTAACATTTAGTTTGG -CTAAATGTAAAGATATTGCTGTTTTATTGTTTGTTTTTGCGAGATGCGCCGCACCATTCCGAAGCAAAATTCTTAAAATG -CACTCTTTTAGTGCTACCGCTGGATTACTGTGGTGCAACTAGGTTGTACTGATGCTGTTTCAGGGTTTGCCTTGTATAAC -AAAGCAATAGATGTGCCAAAGTTGGATAGGAGAATATTGTTATCCGGATAATGCACTGATGCCGCATCCGGTGAGCGTGC -CGAAATATGGGATGTATTCCGGCACGATAAGAAGGGATTATTTACGTCGCTGACGCAGACTCATCAACACAGCAGCAAAA -CCAAACAATGCCGTCAGCACCCACAGCGGCCAGTTGCCGGTACGTGCGTATGGTGTGAGTCCGGTGGTCGGCGTCACGTT -AGTGGTTAACACCTCGCGGGTGAACTGCGGGATCATCGCCTGAATCTCACCCTGCGGGCCAATCACCGCCGTAATGCCGT -TGTTGGTGCTGCGCAACAGTGGGCGCGCCAGCTCCAGCGCACGCATTCGCGCCATCTGGAAGTGTTGCCATGGACCAATA -GATTTACCAAACCACGCATCGTTGGAGATAGTCAGCAGATAGTCGGTATCCGGGCGGAAGTTATCGCGCACTTGCTCGCC -GAGAATGATCTCGTAGCAAATAGCCGCAGTAAGCTCAATACCATTTGCCGACAGCGGCGGCTGGATATATGGCCCACGGC -TGAACGACGACATCGGCAGATCAAAGAACGGTGCTAACGGACGCAGAATCGACTCCAGCGGGACAAACTCGCCAAACGGC -ACCAGATGGTTTTTGTTATAGCGATCGGCTGATTCGTAGCTGTACGGCGCACCTTTACCCAGCGTGATGATGGTGTTGTA -GGTATCGTAGCGGTTCTGCTTATTGAGACGCGCGTCGACAATCCCGGTTACCAGCGAGCTACCTTTATCACGCAACTCAC -CGTCCAGTGCTTTGAGGAACGGTTGCTGATTAATTTCCAGATCGGTTATCGCCGACTCCGGCCAGATAATCAACGATGAT -TTGCCCATCAGCGGTGCCGTTGCGTTGTAGTAAATCTTCAGCGTATTAAGAAGCTGGCCTTCGTCCCATTTCAGCGATTG -CGGAATATCGCCCTGAACCATCGAAACCTGAATGGTTTTCTCCGGTTGTGGGGTAAACCACTGGATGTAACGCAGCGGGA -AGGGAAGGGCAAACAGCACGACGGCCACCACCAGCGGACGCCAGTTGCGTTTGACCAACGCCAGTGCCAGCAGGCCACTA -ACCATCATCAGCAGGAAGTTAATGGCTTCCACGCCCATTATCGGTGCCAGCCCTTTTAACGGGCCATCAATCTGGCTATA -GCCGAACTGTAACCACGGGAAGCCGGTCAGTACCCAACCGCGCAGAAACTCGGTCACTTGCCAGAGGGCAGGGGCGGCAA -TCGCTACGCGCAGCCAGGTGGTTTTCGGCCACAGACGCGACAGCACGCCAGCAAACAGTCCGGTATACAGCGACAAATAC -GCCGCCAGCAGCACCACCAGGAAGATGTTAACCGGGCCAGGCATTCCGCCAAAGGTCGCGATGCTGACATAGACCCAGTT -AATACCGCTGCCAAAGAGGCCAAATCCCCAGCAAAAGCCAATAGCGGCAGACTGGAGTGGACGGCGGTTAAAGGTCAACG -CCTGAAGCCCCATCAGCGAAATAATCGCCGCAGGCCAGACGTCGTAAGGAGAGAAGGCCAGCGTTCCGCAGGCACCGAAT -AATAACGCCAGCAGCAGGCGAATGCGCTGGCGTTCAATTAATGAGGCAAAAGCCATGTAGTTATCTATCCAGTTTCGGTT -TTATTCATCCAGCTTCGGCTGGGGTGAGTCATCCGGGATTTTAACATGAACCTGAATAATACGCCGACTGTCGGCCATCG -CCACTTTGAACTGGTAACCGTCGATGTCGATAGTTTCGCCACGCGCCGGAAGATGCCCAAATGCCTGCATCACCAGACCA -CCGATAGTGTCGACTTCTTCATCGCTAAAGTGGGTGCCGAACGCTTCGTTGAAGTCTTCAATGGAAGCCAGTGCGCGTAC -GGTCCAGGTATGACGACTCAGCTGACGGAAGTCGATATCATCTTCTTCGTCATACTCGTCTTCAATCTCACCAACAATCA -GTTCCAGGATGTCTTCAATGGTCACCAGACCGGAAACCCCACCGAATTCGTCAATAACGATCGCCATGTGGTAACGCTGA -GAGCGAAACTCTTTCAGCATCCGGTCTACGCGCTTACTTTCAGGAACGACAACCGCCTGACGTAACACTTTGTCCATGCT -GAAGGCTTCAGCATCGCTGCGCATAAACGGCAGCAAGTCTTTCGCCATCAGAATCCCTTCAATGTGATCTTTGTCTTCGC -TAATCACCGGGAAACGTGAGTGGGCGGACTCGATGATGACATCAAGACATTCGTCCAGCGTCTGGTTGCGTTTCAGGGTA -ATCATCTGGGAGCGGGGGATCATGATGTCGCGAACGCGTTGGTCTGCGATGTCCATCACCCCTTCGAGCATATCGCGCGT -ATCTTCGTCGATAAGGTCGTTCTGCCCGGAATCACGGATCAGCGCCAGCAGTTCGTCACGGTTTTTCGGTTCACCGTGGA -AAAGTTGGCTGAGTAACAGGGAGAAAAATCCCTTCTTGTTGCTTATCGTGTCACTACTGTGTGAATTGTCGTCGCTCATG -GCGTCGTATGGGTTCTCATGTTAGTTAATCAAAACGCCGTCGTTAATCACCAACGGCGGGGACGTCTGCCAGTCAAATGC -CTGGCAAATTATTCTTTCTCGGCAATGTACGGATCCTCATAGCCCAGAGCAAGCATAATCTCTGTTTCGAGGGCTTCCAT -TTCTTCTGCTTCGTCATCTTCGATGTGATCGTAACCTAACAAATGCAGACTGCCGTGCACCACCATATGCGCCCAGTGCG -CCTCCAGTGGTTTGCCTTGCTCCTGAGCTTCCTTCTCAACCACCTGACGGCAGATAACCAGATCGCCCAGTAGCGACATT -TCCATGCCAGGCGGCACTTCAAACGGGAAGGAGAGCACGTTGGTCGGCTTATCCTTACCGCGATAGGTCAGATTCAGACT -GTGGCTTTCGGCGGTATCGACCACGCGAATCGTCACTTCCGATTCTTCCTGAAACTGCGGGATCACCGCATTCAGCCATG -TCTGAAACTGGCTCTCTTCCGGTAACCCGGAATTATCTTCACATGCCAGTTGTAAATCGAGGATCACCTGACTCATTTTT -GTTCCTGTTCTTCGCGCTTGCGTTCTGCTGCCAGCGCCGCTTTTCGTTTTTGTTCGGCTTCTTCCCAGGCTTCATAGGCG -TTAACGATACGCGCCACCACAGGGTGACGAACCACGTCTTCGCTGTGGAAGAAGTTAAAGCTGATCTCTTCGACATCGGC -CAGCACTTCGATGGCGTGACGTAAGCCTGATTTAGTATTACGCGGCAGGTCGATCTGTGTGACGTCGCCGGTGATAACCG -CTTTTGAGTTAAAACCGATACGGGTCAGGAACATCTTCATCTGTTCGATGGTGGTGTTCTGGCTCTCATCGAGAATGATA -AACGCGTCGTTCAGCGTACGACCACGCATATAGGCCAGCGGTGCGACTTCAATAACGTTGCGCTCAATCAGTTTCTCGAC -TTTCTCAAAGCCCAGCATTTCAAACAGCGCGTCGTACAGCGGGCGCAGATACGGGTCTACTTTCTGGCTTAAATCGCCAG -GCAGGAAGCCCAGTTTCTCACCGGCTTCTACTGCCGGACGAGTCAGCAGAATACGGCGAATTTCCTGACGCTCCAGGGCA -TCAACTGCCGCAGCCACTGCCAGGTAGGTTTTACCCGTACCCGCCGGGCCAACGCCGAAGGTAATGTCATGGTCGAGAAT -ATTGGCGATGTACTGCGCCTGGTTTGGCGTGCGCGGCTTAATTACGCCGCGTTTGGTTTTGATATTGACCGCTTTGCCGT -ACTCCGGCACGCTCTCCGCGCTTTGCTCCAGTACCCGCGCTTCTTTAATCGCAAGGTGGATCTGTTCCGGTTCGATATCC -TGAATCTGACCGCGCATCGGGGCAGTATCGACATACAGGCTACGCAGAATGTCTGCCGCAGCGGTGACGCAAATCGGACG -GCCGGTCAGTTTAAAGTGGTTATCGCGGCGATTGATCTCGATGCCGAGACGGCGTTCGAGCTGCTTGATGTTGTCATCAA -ACGGGCCGCACAGGCTCAACAGACGCGCATTGTCTGCTGGCTCCAGGGTGATTTCGCGAGTGTCTATGTTCAAACCGTTC -CTCTTATCTGTATGCCGCCGGAAGCTGAACATTCACCGGCCTATAAGGAAATTATTCACGCCACAGGAAAAAGGCGCAAG -CATTGCAATAAAGATGGGGATAAAGAGAGAAAAAACAAGGCCCACCGGAACGGCAGGCCTGAGAATTACGGCTGATAATA -ACCCACGCCAAGGTCGTTTTCTTTGCGGGTACGGGCAATCACTGATTCCGGTGTTTCTGCCACGCGCAGACCCATTTCAT -CTTCAGTACGCACCACTTTACCGCGCAGAGAGTTCGGGTAGACGTCGGTAATTTCTACATCGACGAATTTACCGATCATA -TCCGGCGTGCCTTCGAAGTTGACCACGCGGTTATTTTCCGTACGCCCGGAAAGCTCCATGATGCTCTTACGCGATGTACC -TTCTACCAGAATACGCTGGGTGGTGCCGAGCATCCGGCGGCTCCACGCCATCGCTTGCTGATTAATGCGCTCTTGCAGAA -TATACAGACGCTGCTTCTTCTCTTCTTCCGGAACATCATCAACCATATCGGCGGCTGGTGTACCCGGACGTGCAGAGAAG -ATAAAGCTGTAGCTCATGTCGAAATTGACGTCGGCAATCAGCTTCATCGTTTTCTCGAAGTCTTCGGTGGTTTCGCCAGG -GAAGCCAACGATGAAATCAGAACTGATCTGAATATCTGGACGCGCCGCACGCAGTTTACGGATGATCGCTTTGTACTCCA -GCGCCGTATGGGTACGGCCCATCAGGTTCAGAATGCGATCGGAACCGCTCTGTACCGGCAGATGCAGGAAGCTCACCAGC -TCCGGCGTGTCGCGATACACTTCGATGATATCGTCGGTGAATTCGATCGGATGGCTGGTGGTAAAGCGAATACGATCGAT -CCCGTCGATCGCAGCAACCAGACGCAGCAGATCGGCAAACGATCCGGTGGTGCCGTCGTAGTTTTCACCACGCCAGGCGT -TCACGTTCTGACCGAGCAGGTTGACTTCACGCACGCCCTGAGCCGCAAGCTGGGCAATCTCAAACAGAATATCGTCGGAC -GGACGGCTTACCTCTTCACCACGGGTGTAAGGCACCACGCAGTAGGTGCAATATTTATTGCAGCCTTCCATGATGGAGAC -AAACGCGGTCGGCCCTTCGGCGCGCGGTTCCGGTAGACGGTCAAACTTCTCGATTTCCGGGAAGCTGATATCTACAACCG -GGCTGCGGTCGCCACGCACGGAGTTGATCATCTCCGGCAGACGGTGCAGCGTTTGCGGCCCAAAAATAATATCGACATAG -TGGGCGCGCTGGCGAATGTGCTCGCCTTCTTGCGATGCCACGCAGCCACCGACGCCGATAATCAGGTCTGGATTCTTCTC -TTTTAACAGTTTCCAGCGACCCAACTGATGGAAGACTTTTTCCTGAGCCTTCTCGCGGATTGAGCAGGTGTTCAGCAGCA -GCACATCCGCTTCTTCCGCCACGTCGGTCAGTTGATAGCCGTGGGTGGCATCCAGCAGATCGGCCATCTTCGATGAATCG -TACTCGTTCATCTGACAGCCCCAGGTTTTAATATGGAGTTTTTTGGTCATCGACTTGCTCTTGCGAAATAGTAGCCAGGA -ATGCAGGGCGCATAGTGTAATGCTTTGCTGCCGTTGTGACCAGTATGAGCGTTATCAGCCCTTAGGGGTAAAAATCCTGT -AAACTTAAAGCATATTGCTAACAGGATGATTGACCATGACAAATCAACCAACGGAAATTGCCATTGTCGGCGGAGGAATG -GTCGGCGGCGCACTGGCGCTGGGGCTGGCACAGCACGGATTTGCGGTAACGGTGATCGAGCACGCAGAACCAGCGCCGTT -TGTCGCTGATAGCCAACCGGACGTGCGGATCTCGGCGATCAGCGCGGCTTCGGTATCATTGCTTAAAGGGTTAGGGGTCT -GGGATGCAGTACAGGCTATGCGTTGCCATCCTTACCGCAGACTGGAAACGTGGGAGTGGGAAACGGCGCATGTGGTGTTT -GACGCCGCTGAACTTAAGCTACCGCTGCTTGGCTATATGGTGGAAAACACTGTCCTGCAACAGGCGTTGTGGCAGGCGCT -GGAAGCGCATCCGAAAGTAACGTTACGTGTGCCAGGCTCGCTGATTGCGCTGCATCGCCATGATGATCTTCAGGAGCTGG -AGCTGAAAGGCGGTGAAGTGATTCGCGCGAAGCTGGTGATTGGTGCCGACGGCGCAAATTCGCAGGTGCGGCAGATGGCG -GGAATTGGCGTTCATGCATGGCAGTATGCGCAGTCGTGCATGTTGATTAGCGTCCAGTGCGAGAACGATCCCGGCGACAG -CACCTGGCAGCAATTTACTCCGGACGGACCGCGTGCGTTTCTGCCGTTGTTTGATAACTGGGCATCGCTGGTGTGGTATG -ACTCTCCGGCGCGTATTCGCCAGTTGCAGAATATGAATATGGCACAGCTCCAGGCGGAAATCGCGAAGCATTTCCCGTCG -CGTCTGGGTTACGTTACACCGCTTGCCGCTGGTGCGTTTCCGCTGACGCGTCGCCATGCGTTGCAGTACGTGCAGCCAGG -GCTTGCGCTGGTGGGCGATGCCGCGCATACCATCCATCCGCTGGCGGGGCAGGGAGTGAATCTTGGTTATCGTGATGTCG -ATGCCCTGATTGATGTTCTGGTCAACGCCCGCAGCTACGGCGAAGCGTGGGCCAGTTATCCTGTCCTCAAGCGTTACCAG -ATGCGGCGCATGGCGGATAACTTCATTATGCAAAGCGGTATGGATCTGTTTTATGCCGGATTCAGCAATAATCTGCCACC -ACTGCGTTTTATGCGTAATCTCGGGTTAATGGCGGCGGAGCGTGCTGGCGTGTTGAAACGTCAGGCGCTGAAATATGCGT -TAGGGTTGTAGCCTTACAACATTGCCGGATGCGTGCCAACCGTAGGTCGGATAAGACGCGGCAGCGTCGCATCCGACATT -GAAGGATAAGACGTGTCAACATCGCATTCGACATTGAATGAACGCAGAAAAGCAAAAAGCTCGCCGAAGCGAGCTTTTTT -AATGTGGCTGGGGTACGAGGATTCGAACCTCGGAATGCCGGAATCAGAATCCGGTGCCTTACCGCTTGGCGATACCCCAA -CTGGGTGCACTTACAAGGTAAGCGTCTTGAATAAATTGGCTGGGGTACGAGGATTCGAACCTCGGAATGCCGGAATCAGA -ATCCGGTGCCTTACCGCTTGGCGATACCCCAACAAATTGGTTTTGAATTTGCCGAACATATTCGATACATTCAGAATTTG -GTGGCTACGACGGGATTCGAACCTGTGACCCCATCATTATGAGTGATGTGCTCTAACCAACTGAGCTACGTAGCCAGATT -GTTTCTTCGATGGCTGGGGTACCTGGATTCGAACCAGGGAATGCCGGTATCAAAAACCGGTGCCTTACCGCTTGGCGATA -CCCCAATAACCGGGCGGTGAACCGCTTACTCGAAGAAGATGGCTGGGGTACCTGGATTCGAACCAGGGAATGCCGGTATC -AAAAACCGGTGCCTTACCGCTTGGCGATACCCCATCCGTACAACGCTTTCTGGTGAATGGTGCGGGAGGCGAGACTTGAA -CTCGCACACCTTGCGGCGCCAGAACCTAAATCTGGTGCGTCTACCAATTTCGCCACTCCCGCAAAAAAAGATGGTGGCTA -CGACGGGATTCGAACCTGTGACCCCATCATTATGAGTGATGTGCTCTAACCAACTGAGCTACGTAGCCATCTTTTTTTTC -GCGATACCTTATCGGCGTTGCGGGGCGCATTATGCGTATAGAGCCTTGCAGCGTCAACCTCTTTTTCAAGGAAAATTGCT -CGAAAGTGACTGTTTGGTTAGGTTGCGAACAGCGTGGCGCTATATTCGTCAATTATTGTTTACTTTGTGTTTTTTCCCAC -CCTACAGCCATTCTTTTGTCATACAGGATGAAATTCGGAATTTAACAATAGTGGTGGGAAATTAATCTATGAAATACTGG -CCTACAGTGATGAGTTGTCAAACAGTGATGTGGCAAACCCGGAACATTTCCTTACTGCATATCAGAATCAACAAGCACCT -CAATAACTGAAACAGCCCCGGATTTCACCGGGGCTGTTTCGCATTTCTTACTTATACGCCGACTGGTGAACACCAACCGC -GCGACCAGACGGATCGTCCATTTTCTTGAACGCTTCATCCCATTCGATCGCTTTAGCGGAAGAACAAGCGACGGAAGGAC -CGCCCGGCACGCACTCAGCGGCGCTCGGAAGCGGGAATAGTTCTTCAAAGATCTCCCGATACAAGTACGCTTCTTTAGAG -GTTGGCGTGTTGTACGGGAAGCGGAAGCGGGCAGTTTCCAGTTGCTGATCAGAAACCTGCTGCGCAGCCACTTCTTTCAG -GGTGTCGATCCAACTGTAACCGACGCCATCGGAGAACTGCTCTTTCTGCCGCCAGGCCACGCTTGCAGGCAGATACGCTT -CAAAACATTCACGCAGGATGTGTTTTTCCATTTTGCCGTTACCGCACATTTTATCCTGTGGGTTAATACGCATCGCCACA -TCAAGGAATTTTTTGTCGAGGAACGGAACGCGTGCTTCCACGCCCCAGGCTGACATCGCTTTGTTGGCACGCGCGCAGTC -ATACATATGCAGGGCCAGCAGTTTACGCACCGTCTCTTCATGCAGTTCTTTGGCATTCGGTGCTTTGTGGAAGTAAAGAT -AACCGCCGAACACTTCATCAGAACCTTCACCGGACAGCACCATTTTAATGCCCATCGCCTTGATCTTACGCGACATTAAA -TACATCGGTGTTGAAGCGCGAATAGTGGTCACATCATAAGTTTCGATGTGGTAAATCACGTCGCGGATGGCATCCAGACC -TTCCTGTACAGTGAAGTGAATTTCGTGATGCACCGTGCCCAGATGGTTTGCCACTTCCTGGGCTGCTTTCAGATCCGGTG -AACCCGGCAGACCTACAGCAAAGGAGTGTAACTGCGGCCACCAGGCTTCAGAGCGTTCCTGATCTTCCACGCGACGGGCT -GCGTATTTCTTGGTGATAGCGGAAATAATTGAGGAATCCAGACCACCAGAAAGCAGCACACCGTAAGGCACATCAGACAT -CAGATGGCTTTTAACTGAATCTTCCAGTGCCTGACGCAGCTCGTTTTTGTCGGTCACGTTATCTTTCACCGCATCGTAGT -CGAACCAGTCGCGATGATAGTAAGAACGGATTTCGCCGTCCTGGCTCCACAAATAGCTCCCCGCCGGGAACTCTTTAATC -GTGCGGCAAACTGGCACCAGCGCTTTCATTTCTGAGGCCACATACAGCTGACCGTGTTCGTCATACCCCATATACAGTGG -GATGATCCCCAGATGGTCGCGACCAATCAGGTAGGCATCTTTTTCGCTGTCGTACAGTGCAAAGGCAAACATGCCCTGCA -AGTCGTCGAGAAATTCCGGCCCTTTTTCCTGATACAGCGCGAGGATCACTTCACAGTCAGACCCGGTCTGGAACTGGTAA -CGATCGCCATATTCGGCGCGCAATGCCTGGTGGTTGTAGATTTCACCGTTTACCGCCAGTACGTGGGTTTTTTGTTGGTT -GTAGAGAGGTTGCGCCCCCGCGTTAACGTCAACAATTGACAGACGTTCGTGGGCGAGAATGGCGTTATCGCTGGCATAAA -TACCGGACCAGTCCGGGCCACGATGACGCATCAGGCGTGACAGCTCGAGGGCTTTCTTACGCAGCTCAACTGCGTCTGTT -TTGATATCGAATACGCCAAAAATTGAACACATAACCTTCTCCGTTAACCTGGTATTTGTTGCTTGTTGTGTTTGCTTGTT -TAAAAAAATGCCGCAAAGCAGCACTGTGCGCAAGCGATTTGGCGGTGAAAAAATAAAAAACGTAATGGTGATTGTCGATT -GGTGAAAAAAGGTCTGGTGTGAGGATATATTTATTGATGAATCGATAATTTTTAGCGGGTTTTATTGAATGTTTATATTT -TACGGGGGCCAAATTGCTGACAAAGTGCGATTTGTTCATGCCGGATGCGGCGTGAACGCCTTATCCGGCCTACAAAAGCA -TGAAAATTCAATATATTGCAGGAGCTGCGTAGGCCTGATAAGCGTAGCGCATCAGGCAGTTTGGCGTTTGTCATCAGAGC -CAACCACGTCCGCAGACGTGGTTGCTATTCAGATAACGTCGATTTCAGCGACTGACGGGTAAATCCAGCTGGGGCGGAAA -GGCATACTGTCGATATCGTCGAGCGACGAAACACCAGAAAGCACCAGAATCGTCTCCAGACCTGCCTGGAAGCCGGCCAG -AATATCGGTACGCAGGTTATCGCCGACAATCACCGTTTCTTCCGAATGCGCCTGCATTTTGTTTAATGCTGCGCGGATGA -TCCACGGGCTGGGCTTACCAACATAGAACGGTTTGCGCCCGGAGATTTTCTCAATCCCTGCACACAACGCGCCACAAGCG -GGATAAAAACCGCGCCCGTGGGTGTCCGGATTGGTGGCGATAAAACGTGCACCGTTAGCGACGAAATAGGCTGCTTTATG -CATCATGTCCCAGTTGTAGGAACGCGTTTCGCCAACAATCACGAAATCAGGGTTCACATCGGTAATAGTGAAACCGGCTT -TGTACAGTTCATAAATCAGTGCGCCTTCGCCCACCACATACGCTTTCTTGCCTTCCTGGCGACGCAGGAAATCGGCAGTC -GCCATCGCAGAGGTATAAAACACGCTGTCAGGTACATCGACACCTGCGGTGGCAAAGCGGTTCGCCAGATCTTGCCCAGT -CTGCGAAGGATAGTTGGTCAGCAACACCAGCGGCAGGCCTTTATCCATAATCCCGTGCAAAAATTCCGCTGCACCCGGTA -CGGCGACGTTATCGTGCATCAGCACGCCGTCGATATCGCAAATTACATTTTTAATGGTCATGGACTACCCAGAATATTGA -CAACAATAAGCGCCACTATAAAAGCACATTAATTTTCCAGCAAATGCTGGAGCAAAATACCGTTGAGCATGGCGCGTTTT -ACCAGCGCAAAAGCGCCGATTGCCGAGCGGTGATCCAGCTCAGAACGTACCACCGGCAGATTAGTGCGAAACGCCTTCAG -CGCCTGGGTATTAATGCAGCTTTCAATAGCAGGGAGCAGCACTTTATCGGCTTCGGTGATTTCACCGGCAATAACAATTT -TTTGCGGATTAAATAAGTTGATAGCAATGGCGATGGTTTTACCCAGATGACGACCGACATACTCAATTACTTCCGACGCC -AGACTATCGCCTTTGTTCGCGGCTTTGCAGATAGTTTTGATGGTGCAGTCGTCCAGCGGCACGCGGCTCTGGTAGCCCTG -CTTTAACAGATTCAACACCCGTTGTTCAATGGCAGCGTTGGCAGCGATAGTTTCCAGGCAGCCAAAGTTGCCGCAGTGGC -AGCGTTCACCCAGCGGTTCGACCTGAATATGGCCAATTTCACCGACGTTGCCGTTGCGGCCAATAAAAATGCGCCCGTTA -GAGATAATCCCGGCCCCGGTTCCGCGATGGACACGCACCAGAATGGAGTCTTCGCAATCCTGACTTGCACCGAAGTAGTG -CTCCGCCAGCGCCAGACTACGGATATCGTGACCAACGAAACAGGTCACTTTAAAACGTTCTTCCAGAGCTTCTACCAGCC -CCCAGTTTTCTACCTGAATATGCGGCATGTAATGAATTTTGCCGCTGTCCGGGTCAACAAGCCCTGGCAGGATCACCGAA -ATCGCGATCAGCTCGCGCAGTTTGCGCTGGTAGCTATCAATAAACTGAGCAATGGCATTCAACAGGGCATGTTCCAGCGT -TTGCTGGGTACGTTCCGGCAGCGGGTAATGTTCTTCTGCCAGCACTTTGCTGCTGAGATCAAACAGAGTGATGGTGGCGT -CATGACGACCAAGCCGTACGCCGATTGCGTGGAAATTGCGGGTTTCGGTGACGATGGAGATAGCGCGGCGGCCCCCGGTG -GAGGCCTGCTGATCAACTTCTTTGATCAGCCCGCGTTCGATAAGCTGACGCGTAATTTTGGTTACGCTGGCGGGGGCAAG -CTGGCTTTGCTCGGCAATCTGAATCCGCGAGATTGGCCCGTACTGGTCAATCAGGCGATAAACCGCCGCGCTGTTAAGCT -GTTTTACGAGATCAACATTACCTATCTGAGCTTGTCCGCCTGGTGTCATACTTTCTCTTATTGAGTTACGACCTCGTTAC -CGTTAACGATGGTCTTGGTGATTTTAAAATCAGGTGTGAATGCAGTCAGGTTGGCTACTTTACCTGCGGCGAGTGTGCCG -AGACGTTTCTCAACGCCAATCGCACGCGCCGGATAGAGCGTCGCCATACGTAGCACTTCATCCAGTGCGATACCGCAATG -TTCGACCAGATTACGCACGCCTTCAATCATGGTTAAGGATGAACCGCTTAACGTACCGTTCTCATCCACACAAAGTCCGT -TACGGTAGTATATTGTTTTACCCGCAAAAATGAACTGTTCAATGTTGGCACCTGCTGGCGCGGTGGCGTCAGTAACCAGA -CACAGTTTGTCGCCTTTCAGACGTTTAGCGTTGCGAATGTTGGCGTAATCAACATGCAGGCCATCAGCAATAATACCGCA -ATAAATGTCAGCTTCGTCGAGGATCGCGCCCGCCAGGCCAGGTTCACGACCGGTAATATACGGCATCGCGTTGTACAGAT -GGGTGGCAAAGGTAATCCCCGCGCGGAAACCGGCTTTTGCTTCTTTCAACGTCGCGTTGGAGTGACCGGCAGAAACCACA -ATCCCGGCATTTGCCAGTTTGCTGATGACTTCCGCAGGAACCATTTCCGGTGCCAGGGTCACTTTGGTAATGACGTCGGC -GTTTTCACACAGGAAATCGACCAGCGCGGCATCAGGCTTACGCACAAAATTCGGATTATGGGTGCCTTTTTTTACCAGAT -TCAGCCACGGACCTTCCAGATGCAGACCTAACGCCTGATTCGGATGTTTTGCCAGGTACTCGCGCATAACGCGCACGCCC -TGTTTCATCAGCTCATCGCTGGTGGTGATAAGCGTCGGCAGATAGTTAGTACAGCCTGATTTCTCATTGGCTTTCTGCAT -GATTTCCAGCGTTTCCACGCTGACCGCTTCAGCGGTGTCGTTAAACTGTACGCCGCCGCAGCCGTTTAACTGCACATCGA -TAAAACCGGGGGAGAGAATGGCCCCGTTCAGTGAACGTTGTTCGATCTCTGGCGGCAGTTCCGCTACCGGACAGACGCTT -TTAATCAGGCCATCAGCGATAACAACCGCGTGGTCATCAAGAAATTCGTGGCCGGTAAAGATCCGGCCCTGGGTTAATGC -ATACATTCTGACCCCCGATTTTAAAAAATATTGCCCTGAGCAAGGAGCCAGGGCAGGGATAACAATTACAGACCTTTGAT -ATTTTCTGCTTCTAATTCATTGAAATATCTTAAAGTCTTAACTTTCAGCTCCATGGTGGAAGGTTCATCGCACACCATGA -TCGCTTTCGGATGCAGTTGCAGACAGCTGATGGTCCACATATGGTTCACGCAACCTTCAACGGCGGCCTGCAGCGCCAGT -GCTTTCTGGCTACCCAGCACCAGAATCATCACTTCTTCGGCATCCAGCAGTGTACCAACACCGACAGTCAGGGCATATTT -TGGCACCTGATTAACATCGTTATCAAAGAAACGAGAGTTTGCGACGCGAGTGTCATGAGTCAGGGTTTTGATACGAGTAC -GAGAAGCCAGAGAAGACGCCGGTTCGTTAAATGCAATATGACCGTCGTTACCTACACCGCCCATAAACAGATGAATTTTT -CCGTAAGAACGGATTTTTTCTTCATACTGGCGGCACTCGGCGTCGATATCCGGGGCGTTGCCGTTGAGAAGGTTGATGTT -TTCTGCTGGAATATCAACGTGATCGAAGAAATTACGGTGCATAAAGCTGTAGTAGCTTTCCGGATGCTCTTTCGGCAGAC -CGACATATTCGTCCATGTTGAAGGTGACAACGTGCTTAAAGCTGACCTGGCCTGCTTTATGCATTTCGACTAACGCTTTA -TAGGTGGTCATCGGCGTGCCGCCAGTCGGCAGGCCCAGTACAAACGGACGATCGGCAGTCGGTTTGAACGCATTGATACG -ATTGACGATATGGCGAGCAGCCCATTTGCCGACCTGTTCAGCGGTAGTCAGGGGGATCAGTCTCATTATTCACCTCAATA -AGTAAAATGTAAGCCGTTGGCGGATTAGGCATCTTTAAGCGTAACCTGGATTTGCGCAGACAGGCGTCAATCCGACCTGA -TTTTTTGAATGATAAAATAAGTTTTCTGGTTTAGCCAGTAAAAGGGAGTGATAATAACGATATTTGGTGACAAAACTCAC -AAAAGACACGCGTTTAATTTGCGATACGAATTAAATTTTCACACACTCTGTAGCAGATGATCTAACAATCTGATTACAGA -ACATCGGCAGTACAATTTGCAGCAAAATAAAAATACGGCTTGAAACGAGCCAAATAGGGTTCTCGTAGGGGGAATAAGAT -GAATATTTTAGGTTTTTTCCAGCGACTCGGTAGGGCGTTACAGCTCCCTATCGCGGTGCTGCCGGTGGCGGCACTGTTGC -TGCGATTCGGTCAGCCAGATTTACTTAACGTTGCGTTTATTGCCCAGGCGGGCGGTGCGATTTTTGATAACCTCGCATTA -ATCTTCGCCATCGGTGTGGCATCCAGCTGGTCGAAAGACAGCGCTGGTGCGGCGGCGCTGGCGGGTGCGGTAGGTTACTT -TGTGTTAACCAAAGCGATGGTGACCATCAACCCAGAAATTAACATGGGTGTACTGGCGGGTATCATTACCGGTCTGGTTG -GTGGCGCAGCCTATAACCGTTGGTCCGATATTAAACTGCCGGACTTCCTGAGCTTCTTCGGCGGCAAACGCTTTGTGCCG -ATTGCCACCGGATTCTTCTGCCTGGTGCTGGCGGCCATTTTTGGTTACGTCTGGCCGCCGGTACAGCACGCTATCCATGC -AGGCGGCGAGTGGATCGTTTCTGCGGGCGCGCTGGGTTCCGGTATCTTTGGTTTCATCAACCGTCTGCTGATCCCAACCG -GTCTGCATCAGGTACTGAACACCATCGCCTGGTTCCAGATTGGTGAATTCACCAACGCGGCGGGTACGGTTTTCCACGGT -GACATTAACCGCTTCTATGCCGGTGACGGCACCGCGGGGATGTTCATGTCCGGCTTCTTCCCGATCATGATGTTCGGTCT -GCCGGGTGCGGCGCTGGCGATGTACTTCGCAGCACCGAAAGAGCGTCGTCCGATGGTTGGCGGTATGCTGCTTTCTGTTG -CTGTTACTGCGTTCCTGACCGGTGTGACTGAGCCGCTGGAATTCCTGTTCATGTTCCTTGCTCCGCTGCTGTACCTCCTG -CACGCACTGCTGACCGGTATCAGCCTGTTTGTGGCAACGCTGCTGGGTATCCACGCGGGCTTCTCTTTCTCTGCGGGGGC -TATCGACTACGCGTTGATGTATAACCTGCCGGCCGCCAGCCAGAACGTCTGGATGCTGCTGGTGATGGGCGTTATCTTCT -TCGCTATCTACTTCGTGGTGTTCAGTTTGGTTATCCGCATGTTCAACCTGAAAACGCCGGGTCGTGAAGATAAAGAAGAC -GAGATCGTTACTGAAGAAGCCAACAGCAACACTGAAGAAGGTCTGACTCAACTGGCAACCAACTATATTGCTGCGGTTGG -CGGCACTGACAACCTGAAAGCGATTGACGCCTGTATCACCCGTCTGCGCCTTACAGTGGCTGACTCTGCCCGCGTTAACG -ATACGATGTGTAAACGTCTGGGTGCTTCTGGGGTAGTGAAACTGAACAAACAGACTATTCAGGTGATTGTTGGCGCGAAA -GCAGAATCCATCGGCGATGCGATGAAGAAAGTCGTTGCCCGTGGTCCGGTAGCCGCTGCGTCAGCTGAAGCAACTCCGGC -AACTGCCGCGCCTGTAGCAAAACCGCAGGCTGTACCAAACGCGGTATCTATCGCGGAGCTGGTATCGCCGATTACCGGTG -ATGTCGTGGCACTGGATCAGGTTCCTGACGAAGCATTCGCCAGCAAAGCGGTGGGTGACGGTGTGGCGGTGAAACCGACA -GATAAAATCGTCGTATCACCAGCCGCAGGGACAATCGTGAAAATCTTCAACACCAACCACGCGTTCTGCCTGGAAACCGA -AAAAGGCGCGGAGATCGTCGTCCATATGGGTATCGACACCGTAGCGCTGGAAGGTAAAGGCTTTAAACGTCTGGTGGAAG -AGGGTGCGCAGGTAAGCGCAGGGCAACCGATTCTGGAAATGGATCTGGATTACCTGAACGCTAACGCCCGCTCGATGATT -AGCCCGGTGGTTTGCAGCAATATCGACGATTTCAGTGGCTTGATCATTAAAGCTCAGGGCCATATTGTGGCGGGTCAAAC -ACCGCTGTATGAAATCAAAAAGTAATCTGCTTTATGCCTGATGCGACGCTTGAGCGTCGCATCCAACAATGACAAGCGGT -GGAGATCTTCTCTGCCGCTTTTTTTTTCATCAATCATCCCCATAATCCTTGTTAGATTATCAATTTTAAAAAACTAACAG -TTGTCAGCCTGTCCCGCTTATAAGATCATACGCCGTTATACGTTGTTTACGCTTTGAGGAATCCACGATGAGTGAGGCAG -AAGCCCGCCCGACTAACTTTATCCGTCAGATCATCGATGAAGATCTGGCCAGTGGTAAGCACACCACAGTACACACCCGT -TTCCCGCCGGAGCCGAATGGCTATCTGCATATTGGCCATGCGAAATCTATCTGCCTGAACTTCGGGATCGCCCAGGACTA -TAAAGGCCAGTGCAACCTGCGTTTCGACGACACTAACCCGGTAAAAGAAGATATCGAGTATGTTGAGTCGATCAAAAACG -ACGTAGAGTGGTTAGGTTTTCACTGGTCTGGTAACGTCCGTTACTCCTCCGATTATTTTGATCAGCTCCACGCCTATGCG -ATCGAACTGATCAATAAAGGCCTGGCGTACGTTGATGAACTGACGCCGGAACAGATCCGCGAATACCGCGGCACCCTGAC -GCAACCGGGTAAAAACAGCCCGTACCGCGACCGCAGCGTTGAAGAGAACCTGGCGCTGTTCGAAAAAATGCGTGCCGGTG -GTTTTGAAGAAGGTAAAGCCTGCCTGCGTGCGAAAATCGACATGGCTTCACCGTTTATCGTGATGCGCGATCCGGTGCTG -TACCGTATTAAATTTGCTGAACACCACCAGACTGGCAACAAGTGGTGCATCTACCCGATGTACGACTTCACCCACTGCAT -CAGCGATGCCCTGGAAGGTATTACGCACTCTCTGTGTACGCTTGAGTTCCAGGACAACCGTCGTCTGTACGACTGGGTAC -TGGACAACATCACGATTCCTGTTCACCCGCGCCAGTATGAGTTCTCGCGCCTGAATCTGGAATACACCGTGATGTCCAAG -CGTAAGTTGAACCTGCTGGTGACCGACAAGCACGTTGAAGGCTGGGATGACCCGCGTATGCCGACCATTTCCGGTCTGCG -TCGTCGTGGTTACACTGCGGCTTCTATTCGTGAGTTCTGCAAACGCATCGGCGTGACCAAGCAGGACAACACCATTGAGA -TGGCGTCGCTGGAATCCTGCATCCGTGAAGATCTCAACGAAAATGCGCCGCGCGCAATGGCGGTTATCGATCCGGTGAAA -CTGGTTATCGAAAACTATCAGGGCGAAGGCGAAATGGTTACCATGCCGAACCATCCGAACAAACCGGAAATGGGCAGCCG -TCAGGTGCCGTTTAGCGGTGAGATTTGGATTGATCGCGCCGATTTCCGCGAAGAAGCTAACAAGCAGTACAAACGTCTGG -TGCTGGGTAAAGAAGTGCGTCTGCGTAATGCTTATGTGATTAAGGCAGAACGCGTCGAGAAAGATGCCGAAGGTAATATC -ACCACCATCTTCTGTACTTATGACGCCGATACCTTAAGCAAAGATCCGGCAGATGGTCGTAAAGTCAAAGGTGTTATTCA -CTGGGTGAGCGCGGCACATGCGCTGCCGGTTGAAATCCGTTTGTATGACCGTCTGTTCAGCGTGCCTAACCCAGGTGCTG -CGGATGATTTCCTGTCGGTGATTAACCCGGAATCGCTGGTGATCAAACAGGGCTTTGCTGAACCGTCGCTGAAAGATGCG -GTTGCGGGTAAAGCATTCCAGTTTGAGCGTGAAGGTTACTTCTGCCTCGATAGCCGCCATTCTACGGCGGAAAAACCGGT -ATTTAACCGCACCGTTGGGCTGCGTGATACCTGGGCGAAAGTAGGCGAGTAATTTTAAGTTTCGCTATGCCGGATGGGGC -GTTTACGTCGCATCCGGCAAGGAACAGACAAACAGTTTCAAACGCTAAATTGCCTGATGCGCTACGCTTATCAGGCCTAC -ATGATCTCTGCAATATATTGAGTTTGCGTGCTTTTGTAGGCCGGATAAGGCGTTCACGCCGCATCCGGCAAGAAACAGCA -AACAATCCAAAACGCCGCGTTCAGCGGCGTTTTTTCTGCTTTTCTTCGCGAATTAATTCCGCTTCGCAATTTATCCATAA -AATAAATTTAAAATAACAAAACATAATTAAATAAAATGTAACCGCTTTCATCTTGCTGGAATTTCACGCTTTTATTCTTC -TGCAAGCCTTTCAACCGCAAACTTAAGCCTTGTAACAAAAATCATCAAAATATGTGCGGTTGCTCATGTTCTTACATTCT -GGTTACAGAAAGAGATTGATAATTCGCGTCGCGAAAAATAGTCTGTTCCTGTAGTCAGCGAGACTTTTCTCAACGCTACT -TTTTTAATTTTTATTTTTTCGCTGTTCACCTTTGGTGCAGCAATTTATACGTCAAAGAGGATTAACCCATGCGTACGTTT -AGTGGCAAACGTAGTACGCTGGCGCTGGCTATCGCCGGTGTTACAGCAATGTCGGGCTTTATGGCAATGCCGGAGGCTCG -CGCCGAAGGATTCATCGACGATTCAACCTTAACCGGCGGTATCTATTACTGGCAGCGTGAACGCGACCGTAAAGATGTTA -CCGACGGCGACAAATACAAAACCAACCTTTCTCACTCCACCTGGAATGCCAACCTCGATTTTCAGTCCGGTTATGCTGCT -GATATGTTCGGCCTTGATATTGCTGCGTTTACGGCGATTGAAATGGCGGAAAACGGCGACAGCTCCCACCCGAACGAAAT -CGCGTTTTCAAAAAGTAATAAAGCCTATGACGAAGACTGGTCCGGCGACAAAAGCGGTATAAGCCTGTATAAAGCTGCGG -CCAAATTTAAATACGGTCCGGTTTGGGCGAGGGCAGGTTACATTCAGCCAACTGGTCAAACGCTGTTAGCGCCGCACTGG -AGCTTTATGCCAGGTACTTATCAGGGGGCGGAAGCCGGGGCGAATTTTGATTACGGCGATGCTGGTGCGTTGAGTTTCTC -CTACATGTGGACCAACGAATACAAAGCGCCGTGGCATCTGGAAATGGATGAGTTTTATCAGAACGATAAAACCACCAAAG -TTGATTATCTGCACTCCTTTGGGGCGAAATACGACTTCAAAAATAACTTCGTACTGGAAGCGGCATTTGGTCAGGCGGAA -GGGTATATCGATCAATATTTTGCCAAAGCCAGCTACAAATTTGATATCGCCGGTAGCCCGTTAACCACCAGCTACCAGTT -CTACGGTACCCGAGATAAAGTTGACGATCGCAGCGTCAACGACCTTTATGACGGCACCGCCTGGCTGCAAGCGTTGACCT -TTGGTTACCGGGCGGCTGACGTAGTGGATTTGCGCCTCGAAGGCACCTGGGTTAAGGCTGACGGTCAGCAGGGATACTTC -CTGCAACGTATGACTCCAACCTACGCTTCCTCAAACGGTCGCCTGGATATCTGGTGGGATAACCGTTCTGACTTCAACGC -CAACGGCGAAAAAGCGGTCTTCTTCGGTGCGATGTATGACCTGAAAAACTGGAATCTTCCAGGCTTCGCCATCGGCGCTT -CCTACGTTTACGCATGGGATGCTAAACCTGCGACCTGGCAGAGCAATCCGGATGCGTACTACGACAAAAACCGGACTATT -GAAGAGTCTGCCTACAGCCTGGATGCGGTCTATACCATTCAGGACGGTCGCGCCAAAGGCACGATGTTCAAACTGCATTT -CACCGAATACGACAACCACTCCGACATCCCAAGCTGGGGCGGTGGTTACGGCAACATCTTCCAGGATGAGCGTGACGTGA -AATTTATGGTAATCGCACCATTCACCATCTTCTGATGCCCGACGCGGCAGGTTTTGTGCCTGCCGCACGTTTGAGGAATT -TGCTATGAAAAAACTGATTCTCATCGCCATAATGGCATCGGGGCTGGTAGCTTGTGCGCAATCAACCGCGCCACAGGAAG -ACAGTCGTCTGAAAGAGGCATACAGCGCCTGTATCAACACCGCACAAGGTTCGCCAGAAAAAATTGAAGCCTGCCAGAGC -GTGTTAAACGTGCTGAAGAAAGAGAAACAACATCAGCAGTTTGCCGACCAGGAAAGTGTACGCGTACTGGATTATCAGCA -GTGTCTGCGTGCAACGCAAACCGGAAATGATCAGGCGGTGAAAGCCGATTGTGATAAAGTCTGGCAGGAAATACGCAGTA -ATAACAAATAAGTGAGAGCTGTAACTCTCGCTTTTCTTATTTCCCTTGCATAAAAAAGCCAACCCGCAGGTTGGCTTTTC -TCGTTCAGGCTGGCTTATTTGCCTTCGTGCGCATGTTCATCTTCGCGGCAATCGCCTTCGGCACAGTGACCGTAAAGATA -GAGACTGTGGTTAGTCAGGCGAATGCCATGTTTTGCGGCAATTTCACGCTGACGCGCTTCGATGGAATCATCACTAAATT -CGATAACCTTGCCGCAGTCGAGGCAGATCAGGTGATCGTGGTGATGTTGCTGTGTCAGTTCAAATACGGATTTACCGCCT -TCAAAATTGTGGCGGGTGACGATACCAGCGTCGTCAAACTGGTTCAGTACGCGATATACCGTAGCCAGACCAATTTCTTC -ACCCATATCGATCAGACGTTTGTATAAATCTTCCGCACTGACGTGATGGTTGTCCGGCTCCTGAAGAACTTCCAGGATTT -TTAAACGAGGAAGCGTTACTTTCAGGCCAGCTTTCTTTAGGGCGGTATTGTTATCAGTCATGCGGAATCTGTCCTGTTAC -TAAGCGGTTCACTTCATTAGAAGAAGTGACAGAATTTGCTCTTGAGATAATGCGTATCATTATAGAATTGCCACGCCTAA -ATGAAAACCACAAGTCCCTGGCAAATATTGTTAATAAAAACGTGGCACAGCTTACATTTACAACGGCAAGGCCACTTGAA -CACCGGGACATTGTACAGGTACAACAGCAAAAGTTACAAATTTGTAGCAATTATTTTGATTGGCATTATCTATTAATACG -GCGTAGACATGAGTCTACGCCGCATCACATCAGGCATTGAGAATTTCGTCGAGATGCAACTCTTCAGAAATCTGTTTAAC -CCATTTTTCTACACGTTCAGCGGTCAGTTCCGGCTGACGGTCTTCGTCGATAGCCAGACCGACAAAGTGGTCGTCATCTG -CCAGACCTTTTGATGCTTCGAAATGATAGCCCGCAGTTGGCCAGTGACCAACGATGGTTGCACCGCGCGGTTCAATGATG -TCGCGGATGGTGCCCAATGCGTCGCAGAAATATTCGGCGTAATCTTCCTGGTCACCACAACCAAACAGCGCAACCAGTTT -GCCGTTGAAATCAATCTCTTCGAGAGTCGGGAAGAAGTCATCCCAGTCACACTGCGCTTCGCCGTAATACCAGGTTGGGA -TGCCCAGCAGCAGAATGTCATAAGCTTCCAGATCTTCTTTGCTGCTTTTTGCAATGTCATGGACATCGGCAACGTCTTTA -CCAAGCTGTTTTTGAATCATTTTTGCGATATTTTCGGTATTACCGGTGTCGCTGCCGAAAAAGATGCCAGTGATAGCCAT -GAGTGAAATAACCTCTTGAAACTTATTGAAATGGGGGTGGAAAATTGCCCACGGATAAAGGCAATCATAGCAGAACAGGC -AGTCTTGCGGAATCAGCAAACGAGCAGGACTGCACACTGTGCTACATGAAAGTGGAAATTTAAACGATGCCCTGACTACG -CAGCGCCGCCAGTTGCTGCATTAACATCTCTTCGATCAGTTCGCTACGGCTCATATTGCGCGACTCCGCCAGCTCGTTCA -GCGCCTCGACAGCTTCCGCGTTCAGCTTCAGTTCGACACGCTTAAGGCCACGTACTTTGTCGCGTTTTAGCTGGTTGCGT -TTATTAATACGCAGCTGTTCATCGCGCGAAAGCGGATTAGTTTTCGGTCGTCCCGGTCGACGCTCGTGCGCGAACAGATC -TAATGTCGTACGGTCCGTTTGTTCTTTGGCCATGATCTTGGTGACTTCGGGGGAAACAATCAGCCAGGCCTCTGCCCGGA -TGGATAGCGCGCCATAATACATCAGCGCGATGAGTCACGCCAACGCCCACGCGCGGAAAGCGACGCGGACGCTGGGTTTT -TAATCAGTTGCGTTAATCATTGAGATAGCGACGGATAGCGCGTAATACCGCATCCGGTTTTTCAGCATGGACCCAGTGAC -CCGCGCCTGCAATCACATGCGCCCGTGCCTGTGGAAATTGAGCCAGTAAATCATCACGGTACTGCTCGCTAACATACGGA -GAATTGCCGCCAGGGATAAACAGGGCAGGGTGATCCCATGCCGGGATTTTCTCCCAACCTACAATATGCGGATACTGATC -CCACAATACCGGCACGTTAAAGCGCCACTCCCCGTCAACAAAAGATTTCAGCAGAAACTGAATCACCCCTTCTTCATTAA -GATGCTGGCGCATTATTGCTGCTGCTTGCTGGCGAGTTTGTGCGTCCGATTCACTGACCGCGTTGATAGCCGCAAAAATC -TCATCATGACGGCGTACGTGATAGTCGACCGGCGCGATATCGATCGCCACCAGTTTATCGATGCGATCGGAGGCTAGTGC -AGTAAGTGCCATTACCGCTTTACCGCCCATGGAGTGACCGATAAATGTTGCTTTGTCGATCTGCTGTGCATCCAGAGTAT -CAACAAGATCCTGCGCCATCGCCGGGTAATTCATTACCGGATCTCTCGGTGAAAGACCGTGGTTACGCATATCAACCTGG -ATGATATTGTGATCGTTTACCAGATCGCGAGCCAGTACGCCAAGGTTGTCGAGGCTGCCAAACAGACCGTGGACAAGAAC -GATGGGAGAATTATTGTGCTGGTTTTGTGCAGTTTGCGCGCGGATATTCAATTTCATGGCAAAGTTCTTTTTTTCGCGTT -GTCGGGTTAGGGTATTATGTTGACCATTGTGCCACAGGGCTGCAACAAATAAGGTTTATTCCGAGTTTTTCTGCAAGCCA -GGCTTGACGCTATCCGCTGCCGGGATTTATTCATATACTCCTGGCGACTTGTATTCAGCTAAGACACTGCACTGGATTAA -GATGAAAACGATTGAAGTTGATGATGAACTCTACAGCTATATTGCCAGCCACACTAAGCATATCGGCGAGAGCGCATCCG -ACATTTTACGGCGTATGTTGAAATTTTCCGCCGCATCACAGCCTGCTGCTCCGGTGACGAAAGAGGTTCGCGTTGCGTCA -CCTGCTATCGTCGAAGCGAAGCCGGTCAAAACGATTAAAGACAAGGTTCGCGCAATGCGTGAACTTCTGCTTTCGGATGA -ATACGCAGAGCAAAAGCGAGCGGTCAATCGCTTTATGCTGCTGTTGTCTACACTATATTCTCTTGACGCCCAGGCGTTTG -CCGAAGCAACGGAATCGTTGCACGGTCGTACACGCGTTTACTTTGCGGCAGATGAACAAACGCTGCTGAAAAATGGTAAT -CAGACCAAGCCGAAACATGTGCCAGGCACGCCGTATTGGGTGATCACCAACACCAACACCGGCCGTAAATGCAGCATGAT -CGAACACATCATGCAGTCGATGCAATTCCCGGCGGAATTGATTGAGAAGGTTTGCGGAACTATCTAAAACGTTGCAGACA -AAGGACAAAGCAATGGCAATCCACAATCGTGCAGGCCAACCTGCACAACAGAGTGATTTGATTAACGTCGCCCAACTGAC -GGCGCAATATTATGTACTGAAACCAGAAGCAGGGAATGCGGAGCACGCGGTGAAATTCGGTACTTCCGGTCACCGTGGCA -GTGCAGCGCGCCACAGCTTTAACGAGCCGCACATTCTGGCGATCGCTCAGGCAATTGCTGAAGAACGTGCGAAAAACGGC -ATCACTGGCCCTTGCTATGTGGGTAAAGATACTCACGCCCTGTCCGAACCTGCATTCATTTCCGTTCTGGAAGTGCTGGC -AGCGAACGGCGTTGATGTCATTGTGCAGGAAAACAATGGCTTCACCCCGACGCCTGCCGTTTCCAATGCCATCCTGGTTC -ACAATAAAAAAGGTGGCCCGCTGGCAGACGGTATCGTGATTACACCGTCCCATAACCCGCCGGAAGATGGTGGAATCAAA -TACAATCCGCCAAATGGTGGCCCGGCTGATACCAACGTCACTAAAGTGGTGGAAGACAGGGCCAACGCACTGCTGGCCGA -TGGCCTGAAAGGCGTGAAGCGTATCTCCCTCGACGAAGCGATGGCATCCGGTCATGTGAAAGAGCAGGATCTGGTGCAGC -CGTTCGTGGAAGGTCTGGCCGATATCGTTGATATGGCCGCGATTCAGAAAGCGGGCCTGACGCTGGGCGTTGATCCGCTG -GGCGGTTCCGGTATCGAATACTGGAAGCGTATTGGCGAGTATTACAACCTCAACCTGACTATCGTTAACGATCAGGTCGA -TCAAACCTTCCGCTTTATGCACCTTGATAAAGACGGCGCGATCCGTATGGACTGCTCCTCCGAGTGTGCGATGGCGGGCC -TGCTGGCACTGCGTGATAAGTTCGATCTGGCGTTTGCTAACGACCCGGATTATGACCGTCACGGTATCGTCACTCCGGCA -GGTTTGATGAATCCGAACCACTACCTGGCGGTGGCAATCAATTACCTGTTCCAGCATCGTCCGCAGTGGGGCAAAGATGT -TGCCGTCGGTAAAACGCTGGTTTCATCTGCGATGATCGACCGTGTGGTCAACGACTTGGGCCGTAAACTGGTAGAAGTCC -CGGTAGGTTTCAAATGGTTTGTCGATGGTCTGTTCGACGGCAGCTTCGGCTTTGGCGGCGAAGAGAGTGCAGGGGCTTCC -TTCCTGCGTTTCGACGGCACGCCGTGGTCCACCGACAAAGACGGCATCATCATGTGTCTGCTGGCGGCGGAAATCACCGC -TGTCACCGGTAAGAACCCGCAGGAACACTACAACGAACTGGCAAAACGCTTTGGTGCGCCGAGCTACAACCGTTTGCAGG -CAGCTGCGACTTCCGCACAAAAAGCGGCGCTGTCTAAGCTGTCTCCGGAAATGGTGAGCGCCAGCACCCTGGCAGGTGAC -CCGATCACCGCGCGCCTGACTGCTGCTCCGGGCAACGGTGCTTCTATTGGCGGTCTGAAAGTGATGACTGACAACGGCTG -GTTCGCCGCGCGTCCGTCAGGCACGGAAGACGCATATAAGATCTACTGCGAAAGCTTCCTCGGTGAAGAACATCGCAAGC -AGATTGAGAAAGAAGCGGTTGAGATTGTTAGCGAAGTTCTGAAAAACGCGTAAACACATTTAATAAAAAAAGGGCGGTCG -CAAGATCGCCCTTTTTTACGTATGACAAACACAGAATTGCCTGATGCGCTACGCTTATCAGGCCTACGAGGATGGTGCAA -TATATTGAATTTAAGCGATTTTGTAGGCCGGATAAGGCGTTCACGCCGCATCCGGCAAAAACAACGAACACTTTGTCAAC -AAACTGAGTAGCTCAAGGAAATCCCAATGAAGACCAACAGGAGTCTGGTCGTCATAGTGTCACTAATTACCGCCACATTA -CTGCTGACTGCATGCGCCCAACCTGAACAATCATCATTAGCTGGCGACTGGTTACTGACCCCTAAAGATAAAACCAGAGG -ATTAACGGGTAGCATTGCGGTAAATATTGCACCTTTCCGGTGTAAGACAAATTGCCGTGGTGATAACTTACCTGATAATA -CCCGCCGCTGGCAGTTGTCAGGCGGGAACGAAAAAGAACTTACTTATCTTCATAATATGTCAGCACAAGAAAAGGTCGGT -TTAAATCCCGGTTGGCAATGCTACACCTCATTTTTTATGCGGGTTTGCCAGGGCAAGCCCGGCACTCGACCGATAGTCAA -TGAGGATTATGTCAGCGAAAGCGGATTTTTTGGCTCGATGATGCATGTCGGGATTATTGAGTTACGACGCTGCCAGTCAG -AAAATTGCCAGCAAGAATTGAAAGCGATAAATACACATTAAAATAGTGAGTCCGGGAATGAAACCCGGACCTGAACATGT -CTTATTGCGTGAATGTTTCTTTCATTTGATACTGCATTTCCCAGAGTTCAGTAAGCGAAATAACTTTTCTTGTTCTTGCT -TCTTCACTTTGTACCCATAAGAAAGGGTAGAACGTGAAGGCTTCCGTTGCCGATAATTTTATTACGTCTTCTCGCCATTG -CTGCCATCGTACATTTTCATAGAAGGTATCTAAATCACCGGATAATGCCCACTGAAGAAACTCAGAATATCCAACTTCCA -GACTTTCCCAATTCAGCGTATCTGGCGCAAAATAATAAACGCAGCCAGTATCTTCCCCAAGATCGCCACCATTAAGAGCA -AAAATTACCCCTGCGACATCGTCAGCGATGGGTAAAGCCCGCACGCCTGCGAATTCAGGGCGTTGTGTCCAACTTACTGG -ATCTCGTGGCAACCGGGGGTGACCAGATCCTGCTATGCGTAACTAACCATTATCAATCAGCAGACCTCCGGAGCCATAGA -CAAGCGCACCCATCGGTGATTTTGTTGTCACCTGTAATTGATAAAGTGCGGTTTCGGCTAAATCTTTATTAACCGGTAAG -AGTTCGGTATGGTTTGTGGCGTCTTTTAACCAGTTCTGGATTATTGGCCAGGCTGAATCTTCAGTATTTACTAACTGATT -CATTTCACGCATCGCTACTTGCTCCTTGTGTGCTACGGTGTCATTTATGATGAGGAATTGTATGGAACATTTTTTAAATA -TTAAGTTCCTTATATTTGAATAAAAAATGACTTTATCCATACATTGCCACTTTTTTCAAAGCATAAACCGATACCCAATA -CCGGTTTCAGTAATAAAATGGCGAGGCCGGGCCGGATCCTGTTCCAGTTTTTGTCGCAGATGCCCCATATAATTACGCAA -ATAGTTGCTGTGTTCGATCGCGTTTAGACCCTACATCTGCCGGATGCGGCATAAATAACGAACTATTTGCCAACAAACAG -AAAGGGCGATCATTCAATCGCCCTTTTTTACTTTGTTTTATTAACCGTGTTTATTTTTCAGTTCAAAGCGTGGTGATACC -AGACCATACAGTGTCCAACCAAGGAAGGTCACGATGGAACCGTACAGCATGGCTTCTTCCCCGGATGAGTACAGCGCATA -AAAGCTATACATCGCGCCAACAAAAGCAACAAAGTTTGCAACTTTCGCTTTTGAGGGGGGCACATTAGCGACCTTCTGAA -TAATGACTAATGCCGCCATTGACAGAATATACGGAATGATATTGGTCACCACGGCCAGGTTAACCAGCACGTTGAACTGA -CTGTTTAGCGACGGGCTAATGGTCATCAGTGCCAATCCACTCTGAATAATCACAATGGTCAACATTCCCTGCACCGGTGC -ATCCACTTTGGTTACACGGGAGAAAATTTTAGGGAAGTAGCCTTCATCAGATGAAGATTTAAACACCTGGGCAATGGTGA -ACTGCCAGCCAAGTAGCGAACCGCAGCAGGACATCACCATCAGCGCCATAATGACTTTACCCACTTCCGGCGTGAACATC -TGCGCGAAGGCCAGACCAAATGGTGCCGTTGAATTTGCCAGCTCCATATTTGGCACAATCCCGGCAATCACGTTGGTGGA -GACGATATAAATCACCGCCGCACCTAACGTACCGCCGAGTACCGCGATTGGCACATTACGTTCCGGGTTTTCCACTACAT -CAGTATTCGCACACGCAGACTCCAGACCAAGAAAAGCCCACAGCGTCATAGCGATGGAAGAACCTACCGCACTGAAGAAC -GGTGCATGATGCGGATTCCAGGAATCAACGTACAGCGTCGGGCTAAACCAGAACCAGCCAATAATGCACAGACCGACGAC -CGGAATAATGACCCCCCACACGGTAATGCTACTGATTTGCCCGGTAATGCGCGCACCACCAAAGTTAGCCACGGTACAAA -TCCACAGCACCCCGATGGTCGCAAGACCAATCTGCACTGGCGACAAACTCGCGCCGAGCAGTTCGGTGCCGTAACCAACC -GCCGAAATAGCAATCGCGACGTTAGCAATCAGCAGTGAGACGCCGTAGGTATAGTTCGCCATAAAGTTACCGGATTTACC -GAAAGCATACTCGGCATAACCGCCCATACCGCCTGATTTACGGCTGAACATACCGCATTTTGCGAATGCCCATGCCAGTG -CCATTGAGCCTACGGCTGTCACCAGCCAGGAGATAATTGAGATTGTCCCGACTTCGGCAAGCTTTGTCGGCAGCATGATG -ATACCGGAGCCCATCATGTTGACCATCGTCAGTATGGTTAACTGAACGACGCCCATTTTGTTCGATTTAGCCTGACTCAT -AATTTTTCCCCTTTCAACAGGGTGCTTTGCGCATCACGAGGCTTGATGACATAGCACCAAACTTGCTTACGACCATCATG -TTCTTCGATATAGACACCCTGCAGCTCCGGTGCAAAACCTGGCAGCAGGTTGATCCCTTCTTCCAGAGCGCTGAAGTAAC -GCAGAACAGCACCACCCCAGATTTCACCCGGAACAACACACAGCACACCCGGAGGATAAGGAAGCGCACCTTCGGCAGCG -ATACGGCCTTCTGCATCCGGCAGACGAACCAGTTCCACTTCACCGCGTAAATAGGCGTAGTTGGCTTCTTGCGGATTCAT -GCTGACGCGTGGGAAGTGCTCCTTACGGAACATCTCTTTTTGCAGTTGTTTCACGTTGTGGCGGGCATACAAATCATGCA -TTTCCTGACACAACTGACGCAGGGTATAACCGGCGTAGCGCTCTTCATGCTGTTTGTAGATGGAAGGTAGCACTTCTGCT -AATGGCGCGTCGGACTCAAGCAGTTTTTCGAAGCGTACCAGCAGGGCAACAAGTTGCTGAAGTTTGGCCATATCTTCTGC -CGGAGTCAGCAGGAAGAGGATGGAGTTAAGATCGCATTTTTCCGGCACTACGCCATTTTCGCGCAGGAAGTTAGCAAGAA -TCGTCGCGGGTACACCGAACGCTTCATATTCGCCGTTACGTGCATCAATACCTGGGGTTGTCAGCAACAGTTTGCATGGA -TCGACAAAGTATTGATTCTCTGCATAGCCTTCAAAAGAATGCCAGTGTTCCCCTGGTACAAACTGGAAGAAGCGCAGATC -AACCGCAATTTGCGCTGTTTCATACGACTGCCAGGGTTTACCATCCACCAGTTCAGGTACGAACGGACGAATATGCTGAC -AGTTATCGAGGATCAGTTTGCGGGCATTAATGCCATTTACCACACAATCCATCCACATATTACGACCGCTGACACCTTCA -TGCATTTTGGCGTTGATATTCAGTGCGGCAAACAGCGGATAGAACGGGCTGGTGGAGGCGTGCATCATAAAGGCGTTGTT -CATGCGTTTGTGCGGTACATAACGCTGTTGCCCTTTGATGTGGCTGTCTTTTTTATGAATTTGTGAAGTCTGAGAAAAAC -CAGCCTGTTGTTTATGCACAGATTGCGTAACCAGAATACCCGGATCGTTCTCATTAAGATCCAGCAACAGCGGCGAACAG -TCCGCCATCATCGGAATAAACTGTTCATAGCCGACCCATGCTGAGTCAAACAGGATGTAGTCACACAGATGACCAATTTT -ATCCACCACTTGGCGGGCGTTATAAATCGTACCGTCGTAGGTGCCTAACTGAATCACAGCGAGGCGGAAAGGACGAGCCT -CTTTTGCCCGCTGCGGTGCGACTTCCGCGATCAGCTCACGCAGGTAACTTTCTTCAAAACAGTGCGCATCAATGCCACCG -ATAAAGCCATACGGGTTACGTGCCGTTTCCAGATAAACCGGTGTTGCACCAGCCTGTAGCAACGCTCCGTGGTGGTTAGA -TTTGTGGTTATTGCGATCAAACAGCACCAGATCACCCGGTGTTAGCAGGGCGTTTAAAACCACTTTGTTAGAAGATGAAG -TGCCATTTAAAACGAAGTAGGTTTTATCGGCATTAAACACTTTTGCCGCATGTTGCTGTGCAATGCATGGCGCGCCTTCG -TGAATCAGCAGATCGCCCATCGCTACGTCGGCGTTGCACAAGTCGGCACGGAACAGCGCCTCACCAAAGTATTCCACAAA -CTGATTCCCCGCCGGATGGCGACGGAAAAATTCGCCGCCCTGATGACCAGGGCAATCAAACGCGCTGTTACCTTGATTGA -CATAATCGACCAGTGCGCGGAAGAAAGGTGGGCGCAGTTGAGTTTCATAATGGCTGGCAGCGGTTTCTAACTGGCGACCA -TAAAATTCTCGTCGCGATTCGCAATTCTCAAAGACACCCGAAATACGGGGCAAATACTCTGCGGGTACACGTTCTTGATT -TTCAGTAGCAATAAATACCGGGATGCCATAACCCGTGGCATCGATTTCATCGAGTTTTCCGCATGTAACATCGTTGAGCG -ATAAAACTATTGCCGCCACATCGATATTACGACTTTCATTAATGTAGATACATTCTCGCTGCGTGGTAAAACAGTCCGGG -CAAGAATCACTAACCGCAATTTTTAATTTTGACATTTTTCATCTCTTTATTTTAGGTAATAGCAGGTCCTCAATTTCTCG -AATGAGAAATCGATCGTGCCGGAAAAAAGCAAAGTTACCCCGCTGATAAATAAATCAGGTAGATTGCTTTTTTCAGAATG -CAGAAACCCTTACCAGTCAGGTGGCTGATAATACAAGGGTTAACAGAGAATGAGCACTGCGGAATACAGGCATATGCCTG -TAATACAGAGAGTCAGGAAGACCTGTACGCTGAAGTGCCCTTAGTCGGTAGACTAACGGGCATTGAAGAAGTGAAAGTCG -AAGCTATTGCGATGAGCAAACTTCATAATATGAGTTGTCCGCCTTATATGGGGCATAGTGCGGCTGTTATTTTCCATTTA -ATTTACCTTTCCTGATGTGAATGAAGGTGAAGATATTCTATCCAGGAAATACGGTTGAACTGTGAAGGTGATCAATAAAA -AATGATCAATCTTAATTTATTTAATGATGAGCTTTTTACTCAGTAATATAAAATATTGAATTGTTATTTTTGTGTGTTGT -TTAAGATAAAAAGCCGTATTTATTATTACGGCTTTAATTAATAAAAGGCAGGCTGTATTAAAATTAATATTCAAAGCATA -AACCGATAGCCAATACCGGTTTCAGTAATGAAATGGCGTGGGCGGGCGGGATCCTGTTCCAGTTTTTGTCGCAGATGTCC -CATATAAATACGCAAATAGTGACTGTGTTCGACCGCGTTTGGCCCCCACACCTGGTTAAGGAGCTGGCGCTGGGTGAGTA -CTTTTCCGGCATTGTTGAGCAGCACCGCCAGCAGGCGGAACTCAATTGGTGTGAGATGCACCTCTTCCTCACCCCGGTGA -ATCACGCGGGCGGCTAAATCGACGGTAACATCGGAAAATTTTACCAGCGGATCGGGCGCGGTGGTGGCAGAGTGGCGGCG -TAATGCGACGCGCAGACGGGCCTGCAATTCGCCAATGCCAAACGGCTTACTCAGATAATCATCCGCTCCGGCATCCAGCG -CGGCGATTTTGTCGCTCTCTTCGCTGCGTGCGGAAAGCACAATCACCGGCACCGCGCTCCACTGGCGCAGGTCGCGGATA -AACTCAATCCCATCACCATCGGGCAGGCCGAGATCGAGAATAATCAAATCTGGCTTACGGGTTGCCGCTTCCAGCAAGCC -GCGTTGCAGCGTTTCGGCCTCAAAGACGCGCATCCCGTCGCCCTCCAGCGCCGTGCGCAGAAAGCGACGAATAGCCTGTT -CATCTTCAACAATCAGAACGTTTGTCACATATCCTCATGAAATTCTTCAAGTTCAGGGGCAGTTTGCTGGGGAAGTGTAA -CACGAAAACAGGCACCACCTTCCGGTCGGTTGAACGCGGTAATAGTGCCCCCGTGTACATCCACTATCGCCCGACAAATT -GCCAGTCCAAGCCCTACCCCCGGTACTGCCGACTCTTTATTCCCGCGAGCAAACTTATCAAATATCGTCTGCTCCTGGCC -TGGCGGAAGACCGGGGCCGTTATCCCAGACATCCAGTTGTAGATTTTCGCCCTCAACGTGGGCATCGATACCAATTTCGG -CCTGCGCACCCGCATATTTCACCGCGTTCTCCAGCAGATTAATCAGCACCCGTTCAAAGAGTGGCCCGTCAACGTGGATT -AAGGTCAGCGGTTCTGGCAGAGAAAGATTGATGGGCGACGATAAACCCGGTTCCAGCATTTGCAGCGCGCTGCCGACTAC -TTCTTCCAGCGTTAACCACTCTTTCTTCAAATTAAAGCCGCCGGACTGAATTCGCGCCATATCCAGTAGATTATTCACCA -GTCGGGTAGTGTTCAGCACATGCTGACGGATCTCGCTGGCCTGGCGGGCGTGGGGTGATCCTTCGCTTGCCAGATCGAGC -GTTAAGATTTCTGCCTGACCAAACAGCACCGTAAGCGGCGTGCGTAAATCATGCGAAAGCGCCGCCAGCAGGGCGTTGCG -GATCTGTTCACGTTCGCTTGCCATCCGCGCCTGTTCTTCGCTGGCGGTTAGCGTCAGCCGCTCAAGGGCATTGGCGACTA -ACAGCGTAAACGTCTCCAGCAGGCGCTGCTGTTCCGGGATCATCAACTGGCGCAGATTCCCCGGCTCCACCACCACCAGC -CCGTAGGTTTTCTCGCCGCTTTTTAGCGGCAAAATCTGGTACGGTACACCGGGTAACGTGTCGGTGCCCGCGCCCGCAGG -CAGGCCTTTATCAAAACTCCACTGCGCGATGGCATCGTCCCACGGCGTCATTCCTTGCGGATGTGTTAACGGCTGCAATT -TACCGTTGTCATCGGGCAACAACACCTGACTGCGGGCATGAAACGTGGAGGCAATAAATTGTTCGCTGGTGGCAGCGATA -TCCTGCGGACTGCGGCCCACCGCCAGAGCTTTCGACATTTCATATAAGTGCCGTGTGCGTTGCTCGCGGTAACGGGCTAC -CCGCGCCTGATAACGCACGCCAGCAGTAAGGTTCCCGATCACCAGCCCGACGGTTAACATCACCGCGAAGGTCAGCAGAT -ATTGCACATCAGAGACGGCGAGCGTGCCGCGTGGGGCGATAAAAAAGAGATCGAAACTCACTACATTAATGACGGTGGCA -ACCACTGAAGGCCAGCGTCCATAAAATAGCGCCACCACCACCACGCCAAGCAGATACAGCATCACCAGGTTGGCGGCATC -AAACGCCATCAGCCACTGCATGGCAATTAAGGTGATAACGGCGCATAACGCGGCGGCAACCACGCATCCCTGAATTTGTA -CACGCCACTTGTCTTTAAAAGAGCGGTTATCCGGCGCGTTGTTAATCGTGCGGGCGGGTGGTTCATCAAGCGCGACCAGC -ACCTGATCGAGATCGGGGGCGATGCGCGCCAGTCGGTCAGCAAACGTTTCCCGACGCCACCAGCGGCGCGAGGCCGGGCG -ACCGAGAATAATCTTGCCGAGATTATGTTCACGGGCATAACGCACTACCGCTTTCTCTTCCGCTGGATCAGAAAGTGTTG -CCGTCTCCGCGCCCAGTTCCTGCGCCAGACGTAAGGCGCTGAGAATTGCCCGACGTTTTTTTTCCGGTAAGCGGTGCAGG -GCAGGGGTTTCAACATACACCGCGTGCCAGACGCTACCCAGCCGTGACGCCAGCCGCGCCGCTGCGCGGACCAGTTTTTC -GCTGCCGGTGTTATGGCCGATGCATAAAAGGATCGCGTCGCGCGTGTGCCACACTTTCTCTTCGCCAGGATGCCCCCGCC -AGGCGCGCATTTGCTCATCAACGCGATCGGCAGTACGGCGCAGTGCCAGTTCGCGCAGGGCGATCAGATTACCTTTGCGG -AAAAAATGTTCAATGGCGCGCTCCGCCTGCCCGGCAATATAGACTTTGCCTTCTTTCAGCCGCTGGCGCAGATCGTCCGG -GGGCAAGTCCACCAGCACCACGTCGTCGGCGGCATCGAAAAAAGGATCGGGCACGGTTTCCCGTACCTGAATTCCGGTGA -CGCCGCTGACCACATCATTCAGACTTTCCAGATGCTGAACGTTGACGGTAGTGAAAACATCAATGCCAGCTTCCAGCAGT -TCTTCGATATCCTGCCAGCGTTTGGGATGACGGGAACCTGGCGCATTACTGTGCGCCAGTTCGTCCATTAAGATCAGCGC -CGGGCGGCGGGCGAGGGCGGCATCGAGATCAAACTCGCTGATATGCCGCCCACGGTACGCCTGGCGTTTTAACGGCAGAA -CAGCCAGCCCTTCCAGCATGGCGGCGGTATCTTTTCGCCCGTGGGTTTCTACCACGCCAACCACAATATCCAGCCCTTGC -GCCCGCAGTCGCTGGGCTTCTGCCAGCATCGCCCAGGTCTTCCCGACGCCTGCACAGGCACCGAAGAAAACTTTCAGCTT -CCCCCGATGCGGCGCGGCAGTTTGTTCCAGCAGACGATCGGGGTCGGGACGTAAGGGTTCGTTATTCATCAAGTTTATCC -AGCGCCAGATTGAGTTCAACAATGTTGACAACCGGCTGGCCGATATATTTCACCAGCGGTTGTTGGCTGTATTTTGCGAT -CAGTTGCGTGAGCTGTTCAACGCTGAGATTACGCGCTTTCGCCACGCGTGGGATTTGCCAGGCCGCCGCTTGCGGGGTGA -TATTATTGTCCAGCCCGCTTGCCGATGCCGTCACCAGTTCAACCGGAACGCTCGCGCTGGCATCCGGGTTAGCGGCCCGT -AATGCAGCAACGCGTGCGGCTATTAGTTTATCCAGCTCAGGGTTACTGACCGCCAGATTGCTCCCGCCAGAAGCCTGTGG -ATTATAGGGCATTTCTGCCGTTGCCGACGGGCGACCATGAAAATAGCCGTTGCCGGTAAAATTCTGCCCGATTAATGCCG -AACCGCGCACCGTATCACCTTCACGAATCAACGAACCATTGGCCTGCCAGGGAAACCACCATTGCCCCAGTACGGTGGTC -AGCAGCGGGTAAACGCCGCCAGTAATCAATAACAGAAAGATAAATGTTGATAATGCCGGACGTAATCCACTCATGGTAAA -CCTCACACCAGACCGCAAACGGTCAGCAGTAAATCAATGACTTTGATACCGATAAACGGCACCAGCAGCCCACCCAGACC -GTAAATCCATAAGTTACGGCGCAACATGGCAGAAGCGGTAAGCGGTTTATAACTCACGCCTTTTAACGCCAGGGGAATCA -AAAAGACGATAATCAAGGCGTTGAAAATCACCGCACTGAGGATTGCGGAGTCGGGCGAATGCAGGCACATGATGTTCAGC -GCATTTAACTGCGGATACGTTGCCGCGAATGCCGCCGGAATAATGGCGAAGTATTTCGCCACATCGTTGGCAATGCTGAA -GGTGGTCAGCGAGCCACGGGTCATCAGCATCTGTTTGCCAATGTGCACCACCTCGATCAACTTGGTCGGGTTAGAGTCGA -GATCGACCATATTGCCCGCCTCTTTCGCCGCCTGGGTGCCGGAGTTCATCGCCACCGCGACATCTGCCTGCGCCAGCGCC -GGAGCATCGTTGGTGCCGTCGCCGGTCATCGCTACCAAACGACCTTCCGCCTGATACTGACGGATCAATGCCAGCTTGGC -CTCCGGTGTCGCTTCGGCGAGAAAATCATCGACACCCGCTTCCGCAGCAATCGCGGCGGCAGTCAGACGGTTATCGCCGG -TAATCATCACCGTTTTAATGCCCATTTTGCGCAGCTGGGCGAAGCGCTCTTTAATACCGCCTTTGACGATATCTTTCAGC -GCAATAACGCCCAGCACACGAGAACCTTCCACCACCACCAGCGGCGTGGCTCCCTGACGCGCAACCTGATCGACTTTTTG -ATCAACATCGGTAGGGAAGTGACCACCGTTAGCCTCAACATGGCGACGAATGGCATCGACAGAACCTTTACGGATCATGC -GGTTGTCGATGTTGATCCCGCTCATCCGGCTTTGCGCAGTAAACGGTACAAAGGTGGCATGGAGCGACTGCACATCGCGC -TCGCGCAGGTTAAAACGCTGCTTGGCGAGGATCACAATACTGCGGCCTTCCGGCGTTTCATCAGCCAGCGAAGCCAGTTG -TGCGGCGTCAGCCAGCGTTTTTTCATCCACGCCCTGCGCGGGGATAAACTCCGACGCCTGACGGTTACCGAGTGTGATGG -TGCCGGTTTTATCCAGTAGCAGAACGTCAACGTCACCTGCCGCTTCAACTGCACGTCCGCTGGTGGCAATCACATTCGCG -CCTAGCATCCGGCTCATCCCGGCGACGCCGATCGCTGACAACAGGCCGCCAATAGTGGTTGGGATCAGACAGACCAGCAG -CGCCACCAGTACCGTTACGCTGACTGCATTACCGCCCCACGCGGAAAACGGCCACAGCGTGGCGGTTGCCAGTAAAAAGA -CGATAGTCAGGGCAATCAGCAGAATGGTCAGGGCAATTTCGTTCGGCGTTTTGCGTCGCTGTGCGCCTTCCACCATCGCG -ATCATCCGATCCAGAAATGTCTCGCCGGGGTTAACGCTACACTCAATCACCAGCCAGTCAGAAAGAATACGCGTGCCGCC -GGTGACGGAGGCAAAATCGCCGCCGGATTCACGGATCACCGGTGCCGATTCCCCGGTGATGGCGCTTTCATCGACCGATG -CACCCCCTTCAATAACTTCACCATCGCAGGGGATAATATCGCCAGCTTCTACCAGTACGATATCGCCTTTACGAAGTTGG -TCGGCAGGAACTTTGTCCGCCGCAGCGCCATATTTCGGCTCACGCAGCTTGCGGGCAAAGGCAGTTTTTTTCACCCCTTT -CAGACTGTTGGCCTGCGCTTTACTGCGGCCTTCTGCCAGCGCCTCGGCGAAATTAGCGAACAGTACGGTGATCCACAGCC -AACCGCTAATGGCCGCGCTAAACAGCGCATTGCCGGGCATCGCACCGCTTGCCATCGCGATGCTAATACAGGTGGTCAGC -AGACTGCCGATCCAGACGATAAACATCACCGGATTGCGCCATTGCGCCTGCGGGTTTAATTTTTTCACCGCTTCTTTCAG -CGCCTGAACGACAAGTGTTGGTTCGAATAGCGCCAGTTGTTTACGACTCATATTCAGTGCTCACTCAATATCATCAGGAG -AGATATTCCGCCACCGGACCAAGCGCCAGGGCAGGGATAAAGGTCAGTGCGCCAACCAGCAACACGGTGCCGATTAACAG -GCCAACAAACAGCGGGCCGTGCGTTGGCAGCGTGCCGGAGCTGGCGGCTTGGCTCTTTTTACTCACCAGCGAACCGGCAA -TTGCCATCACCGGGATAATCACCCCGAAGCGACCGACAAACATGCAGAACGCCAGTAAACAGTTCCAGAACGGAGAGTTG -GCGCTTAATCCGGCAAAGGCGCTGCCGTTGTTGTTAGCGGCGGATGACACGGCGTACAGCACTTCGCTAAAACCATGCGG -GCCAGGGTTGAGCATGGCGCTACGTCCGGCGTCGGTCATCATCGCCAACGCCGCGCCCATCAGCACCAGCGTCGGGGTAA -CCAGAATTGCCAGTGCAGTCAGTTTCATCTCGCGTACGTCGATTTTTTTACCCAGATATTCCGGTGTACGACCAATCATC -AGCCCGGCAATAAACACCGCCAGCAGGACAAACAGCATCATGCCGTAAAGACCAGAACCGACACCGCCGAACACCACTTC -ACCAATTTGCATCAGCCACATCGGCACCATGCCACCGAGAGCGGTAAACGAATCATGCATCGCAATCACCGCGCCACAGG -AAGCCGCCGTCGTCACGACCGCAAACAGGCTACTGACCAGCACGCCGAAACGGCTCTCTTTACCTTCCATATTGATGCTG -CTGTCCGTGCCCAGTGCCAGCAGATGAGGATTACCCTGAACTTCTGCCCACATCACCACGCCTACGCAGATGACAAAAAT -CACTGACATCGCCCACAGCAACATGCGCCCCTGGCGGCGATCGCCCATCACTTCACCAAAGGCAAAGCACAGCGCCGTTG -GGATCAAGAAGATCGCCAGCATCTGCACGAAGTTGGTCAGTGCGGTTGGGTTTTCAAACGGATGCGACGAGTTGGCATTA -AAGAAGCCACCGCCGTTAGTACCGAGCATCTTGATCGCTTCCTGAGAAGCTACAGGCCCCATGGGTAACAGCTGTTGCGC -TCCTTCAACGGTATTCACAGCCTGATAAGGCAGAAAGTTTTGCAGCGCACCTTGTTGAATAAAAAACAGTGCAATCAACA -ACGCCACAGGGACTAGCACCCATAACGTGATGCGTAGCAGATCGACCCAGGCATTCCCGAGCGTGCTCATGCTCTGGCGG -GTAAACGCACGGATGAGGGCAAAAATCACCGCAATCCCGCTGGCGGCAGAAAGAAAGTTTTGCACCGTTAAGCCCGCCAT -CTGGCTGAAATAGCTCAACGTGGTTTCACCGCTATAAGATTGCCAGTTGGTATTGGTGACAAAGCTGACGGCGGTATTCA -GCGCCAGATCCCACGACAGCCCTGGCAACTGCTGTGGATTAAGCGGCAGATAGTGCTGACCGAGCAACATAAAAAACAGC -ACCGCCAGCCCCAGCATGTTCAGGCCGAGAATGGCACAAAGATATTGCTTCCAGTTCATCTCACGGTCAGAGACGCCAAG -TGCGCGAAAAAGTACGCGCTCAACGCCCGTTGTACCGGGAAGAGGAATGTCATTAATCAGCCGCGCCAGCCCGCTGCCTA -AAGGACGCGCCAGCACCATTAACACCAGTAAAAACGTGGCGATCAGTAAGAACCCTTGCGCAGCCATCAGAACGCCTCCG -CATTGATCAGGGCATAAACCAGATAACCCAGTAATAAAAACACCAGCAATACGCCGGTTATCACGCCTGCACTCACAGTG -CACCTCCAGTGGCCTAAAAGTGATACCGGAAGGGTAGAATTCTGGCTGCAAAGATTTCGCAAAAATCTGCGGGCGGGGTG -TAAAAAAAGTATAAAAATGGCAAAAGCCATGATTTAACTAATGTTTAGTATTAATTTAACTTTTGTGTAACTTAATTACA -GGATGAATGTAAATAAACCATCAATAAGCAAAAATAAGTGGTCGGATGAGTAGTAAAATTACACAAAAGGCGGTACTATT -TTCATCAGATAAACAAATTCATTTTTCCGGTGCCATTCACCGGGTAGATACAAAAGGGGGAGAAAAGTATGGAACTCTAC -AGAGAATATCCTGCATGGCTTATCTTTTTACGCCGTACTTATGCGGTTGCAGCGGGCGTTCTGGCGCTGCCTTTCATGCT -TTTCTGGAAAGACCGCGCCCGCTTTTACAGCTACCTGCATCGCGTCTGGTCGAAAACCAGCGATAAACCGGTGTGGATGG -ATCAGGCCGAAAAGGCAACTGGTGATTTTTATTGATTGCTGAGTTTTGAATACATTGAAAACCGCCAGCGGAAACGCTGG -CGGTTTTTTGTATCAGGAAGATGTTCAGAGGAATATTTAGACATCGTTATACCAATCGAAACATATATTCATGAAATATA -TATAAATATTTTCCTAATTGTTCTTATCTGACAGATATCTCACTTAAGGCTTTCTTATAAATCTGTAGGGTTTCGCCTGT -CAGCAGACAAATAACCCGATAAAACAAGGATGAGCAGATGAGCGGAAAACCGGCGGCGCGTCAGGGCGACATGACGCAGT -ATGGCGGTAGCATTGTCCAGGGTTCAGCCGGGGTACGCATCGGTGCCCCCACCGGCGTGGCCTGTTCGGTGTGCCCCGGC -GGGGTGACGTCCGGCCATCCGGTCAATCCGCTGCTCGGTGCAAAGGTCCTTCCCGGTGAAACCGACATCGCCCTGCCCGG -CCCGCTGCCGTTCATTCTCTCCCGCACCTACAGCAGTTACCGGACAAAAACGCCCGCGCCGGTGGGGAGCCTCGGCCCCG -GCTGGAAAATGCCTGCGGATATCCGCTTACAGCTGCGCGATAACACACTGATACTCAGTGATAACGGCGGCAGAAGCCTG -TATTTTGAGCACCTGTTTCCCGGTGAGGACGGTTACAGCCGCAGCGAGTCACTGTGGCTGGTGCGCGGCGGCGTGGCGAA -ACTGGATGAAGGTCACCGGCTGGCCGCACTCTGGCAGGCGCTGCCGGAAGAACTCCGCTTAAGTCCGCATCGTTATCTGG -CGACAAACAGTCCGCAGGGGCCGTGGTGGCTGCTCGGCTGGTGTGAGCGGGTGCCGGAAGCGGATGAGGTGCTGCCTGCG -CCGCTGCCGCCGTACCGGGTACTGACCGGGCTGGTGGACCGCTTCGGGCGCACACAGACGTTCCACCGCGAAGCCGCCGG -TGAATTCAGCGGCGAAATCACCGGCGTGACGGATGGTGCCGGGCGTCACTTCCGGCTGGTACTGACCACGCAGGCGCAGC -GGGCAGAAGAAGCCCGGCAGCAGGCCATTTCCGGCGGGACGGAACCGTCCGCTTTTCCTGATACCCTGCCGGGTTACACC -GAATATGGCCGGGACAACGGCATCCGTCTGTCTGCCGTGTGGCTGACGCACGACCCGGAATACCCGGAGAATTTACCTGC -CGCGCCGCTGGTGCGCTATGGCTGGACGCCCCGCGGCGAACTGGCGGCGGTGTATGACCGCAGCAATACACAGGTGCGCA -GCTTTACTTACGATGATAAATACCGGGGCCGGATGGTGGCGCACCGTCACACGGGCCGACCGGAAATCTGTTACCGTTAC -GACAGCGACGGGCGGGTGACAGAACAGCTAAACCCGGCAGGCTTAAGTTACACGTATCAGTATGAGAAGGACCGCATCAC -CATCACCGACAGCCTGAACCGCCGTGAAGTCCTGCACACGCAGGGTGAAGGCGGGCTGAAGCGGGTGGTGAAAAAGGAAC -ACGCGGACGGCAGCGTCACGCAGAGTCAGTTTGACGCGGTGGGCAGGCTCAGGGCACAGACGGATGCCGCAGGCAGGACA -ACAGAATACAGTCCGGATGTGGTGACGGGCCTCATCACGCGCATCACCACGCCGGATGGCAGGGCATCGGCGTTTTACTA -TAACCACCACAGCCAGTTAACGTCAGCCACCGGGCCTGACGGGCTGGAAATACGCCGGGAATATGATGAATGGGGCCGTC -TGATTCAGGAAACTGCCCCTGACGGCGATATCACCCGCTACCGTTATGATAATCCACACAGTGACTTACCCTGCGCAACG -GAAGATGCCACCGGCAGCCGGAAAACCATGACGTGGAGCCGTTACGGTCAGTTGCTGAGCTTCACTGACTGTTCCGGTTA -TGTAACCCGCTATGACCATGACCGTTTTGGTCAGGTGACGGCGGTGCACCGCGAGGAAGGGCTGAGTCAGTACCGCGCAT -ACGACAGCCGTGGACAGTTAATTGCCGTGAAAGACACGCAGGGCCATGAAACGCGGTATGAATACAACGCCGCCGGTGAC -CTGACCACCGTCATTGCCCCGGACGGCAGCAGAAACGGGACACAGTACGATGCGTGGGGAAAAGCCATCTGTACCACGCA -GGGCGGTCTGACGCGCAGTATGGAATACGATGCTGCCGGACGGGTCATCCGCCTGACCAGTGAAAACGGCAGCCACACCA -CCTTCCGTTACGATGTACTCGACCGGCTGATACAGGAAACCGGCTTTGACGGCCGCACACAGCGTTATCACCACGACCTG -ACCGGCAAACTTATCCGCAGCGAGGATGAGGGGCTGGTCACCCACTGGCACTATGACGAAGCAGACCGCCTCACGCACCG -CACCGTGAATGGCGAAACCGCAGAGCGGTGGCAGTATGACGAACGCGGCTGGCTGACAGACATCAGCCATATCAGCGAAG -GGCACCGGGTGACGGTGCACTATGGTTATGACAGTAAAGGCCGCCTCGCCAGTGAACACCTGACGGTGCATCATCCGCAG -ACGAATGAACTGCTCTGGCAGCATGAGACCAGACATGCGTACAACGCACAGGGACTGGCGAACCGCTGTATACCGGACAG -CCTGCCCGCCGTGGAATGGCTGACCTACGGCAGCGGCTGGCTGTCAGGCATGAAACTCGGCGACACACCGCTGGTGGAGT -ACACCCGCGACCGCCTGCACCGGGAAACGCTGCGCAGCTTCGGCCGTTATGAACTCACCACCGCTTATACCCCTGCCGGG -CAGTTACAGAGCCAGCACCTGAACAGCCTGCTGTCTGACCGCGATTACACCTGGAACGACAACGGCGAACTCATCCGCAT -CAGCAGCCCGCGCCAGACCCGGAGTTACAGCTACAGCACCACCGGCAGGCTGACCGGCGTTCACACCACCGCAGCGAATC -TGGATATCCGCATCCCGTATACCACAGACCCGGCAGGTAACCGCCTGCCCGACCCGGAGCTGCACCCGGACAGCGCCCTC -AGCATGTGGCCGGATAACCGTATCGCCCGTGACGCGCACTATCTTTACCGGTATGACCGTCACGGCAGGCTGACAGAGAA -AACCGACCTCATCCCGGAAGGGGTTATCCGCACGGATGATGAGCGCACCCACCGGTACCATTACGACAGTCAGCACCGGC -TGGTGCACTACACGCGGACACAATATGCAGAGCCGCTGGTCGAAAGTCGCTATCTTTACGACCCGCTGGGCCGCAGGGTG -GCAAAACGGGTATGGCGGCGTGAACGGGACCTGACGGGCTGGATGTCGCTGTCACGGAAACCGCAAGTGACCTGGTACGG -CTGGGACGGCGACCGCCTGACCACGATACAGAACGACAGAACCCGCATCCAGACGATTTATCAGCCGGGGAGCTTCACGC -CACTCATCAGGGTTGAAACCGCCACCGGTGAGCTGGCGAAAACGCAGCGCCGCAGCCTGGCGGATACCCTTCAGCAGTCC -GGTGGCGAAGACGGTGGCAGTGTGGTGTTCCCGCCGGTGCTGGTGCAGATGCTCGACCGGCTGGAAAGTGAAATCCTGGC -TGACCGGGTGAGTGAGGAAAGCCGCCGCTGGCTGGCATCGTGCGGCCTGACGGTGGCGCAGATGCAAAGCCAGATGGACC -CGGTATACACGCCGGCGCGAAAAATTCACCTGTACCACTGCGACCATCGCGGCCTGCCGCTGGCCCTTATCAGCACGGAA -GGGACAACAGCGTGGTACGCAGAATACGATGAATGGGGTAACCTGCTGAATGAAGAGAACCCGCATCAGCTGCAGCAGCT -TATCCGCCTGCCGGGGCAGCAGTATGATGAGGAGTCCGGCCTGTATTACAACCGCCACCGCTATTATGACCCGCTGCAGG -GGCGATATATCACTCAGGATCCGATTGGGCTGAAAGGGGGATGGAATTTTTATCAGTATCCGTTGAATCCGATCTCAAAT -ATAGATCCATTAGGATTAGAAACACTAAAATGCATTAAGCCACTGCATTCAATGGGCGGAACTGGTGAAAGAAGCGGTCC -AGATATATGGGGGAATCCGTTCTATCATCAATATCTTTGTGTCCCAGATGGTAAAGGGGACTATACTTGTGGTGGCCAAG -ACCAACGGGGAGAATCAAAAGGAGATGGTCTATGGGGGCCAGGTAAAGCAAGTAATGATACAAAAGAAGCTGCTGGCCGT -TGTGACCTCGTTGAAACCGATAATAGTTGTGTGGAGAACTGTTTAAAAGGGAAGTTTAAAGAGGTAAGGCCGCGTTATTC -TGTATTGCCTGATATATTCACACCTATAAATTTAGGGCTATTTAAAAACTGCCAAGACTGGTCTAATGATTCTTTAGAAA -CATGTAAGATGAAGTGCTCCGGAAATAACATTGGACGTTTTATTAGATTTGTATTCACCGGAGTGATGTAATGAAATATA -TTATTTTTTTATTCAGAGCTATATGGCTGGCTTTATCGCTTTTAATACTATTCTTTTCCATGCATAGACTTTCACTATTA -GACTCCACTCGTGATGTGAGCGAGTTAATTAGTCTCATGTCTTATGGAATGATGGTAATATGTTTTCCAACAGGCATAGT -ATTCTTTATTGCTCTAATATTTATAGGGACTGTATCAGACATTATTGGCGTAAGGATTGATAGTAAGTATATTATGGCGA -TAATAATATGGCTTTATTTTCTGTCAGGAGGGTATATTCAATGGTTTGTATTAAGTAAGCGCATTATAAACAAATAAATT -AAGTTAATTGCTCTTATTATTATATGTAACCTGGGCATTGATATCCCGTATGCCACAGACCCGGCAGGTAACCGCCTGCC -CGACCCGGAGCTGCACCCGGACAGCACCCTCAGCATGTGGCCGGATAACCGTATCGCCCGTGACGCGCACTATCTTTACC -GGTATGACCGTCACGGCAGGCTGACGGAGAAAACCGACCTCATCCCGGAAGGGGTTATCCGCACGGATGATGAGCGCACC -CACCGGTACCATTACGACAGTCAGCACCGGCTGGTGCACTACACGCGGACACAATATGCAGAGCCGCTGGTCGAAAGCCG -CTATCTTTACGACCCGCTGGGCCGCAGGGTGGCAAAACGGGTGTGGCGACGTGAACGGGACCTGACGGGCTGGATGTCGC -TGTCACGGAAACCGCAAGTGACCTGGTACGGCTGGGACGGCGACCGCCTGACCACGATACAGAACGACAGAACCCGCATC -CAGACGATTTATCAGCCGGGGAGCTTCACGCCACTCATCAGGGTTGAAACCGCCACCGGTGAGCTGGCGAAAACGCAGCG -CCGCAGCCTGGCGGATACCCTTCAGCAGTCCGGCGGCGAAGACGGTGGCAGTGTGGTGTTCCCGCCGGTGCTGGTGCAGA -TGCTCGACCGGCTGGAAAGTGAAATCCTGGCTGACCGGGTGAGTGAGGAAAGCCGCCGCTGGCTGGCATCGTGCGGCCTG -ACGGTGGAGCAGATGCAAAACCAGATGGACCCGGTGTACACGCCGGCGCGAAAAATCCACCTGTACCACTGCGACCATCG -CGGCCTGCCGCTGGCGCTTGTCAGCACGGAAGGGGCAACAGAATGGTGCGCAGAATACGATGAATGGGGCAACCTGCTGA -ATGAAGAGAACCCGCATCAGCTGCAGCAGCTTATCCGCCTGCCGGGGCAGCAGTATGATGAGGAGTCCGGCCTGTATTAC -AACCGCCACCGCTATTATGACCCGCTGCAGGGGAGGTATATCACTCAGGATCCGATTGGGCTGAAGGGGGGATGGAATTT -TTATCAGTATCCGCTGAATCCGGTTCAGTATATAGATTCAATGGGACTGGCATCAAAATATGGACACTTAAATAATGGCG -GATATGGAGCGAGACCCAACAAACCGCCTACGCCCGATCCAAGTAAATTGCCGGACATAGCGAAACAATTAAGACTGCCA -TATCCTATTGACCAGGCCAGTAGTGCGCCTAATGTTTTCAAAACATTCTTCAGAGCATTAAGCCCTTACGACTACACACT -GTATTGCAGGAAGTGGGTAAAACCAAATCTGACTTGTACGCCACAGGATGATTCCCAGTATCCAGGGATGGATACAAAGA -CAGCAAGTGATTACCTGCCACAGACAAATTGGCCAACAACTCAATTACCACCAGGATATACTTGTGCAGAACCCTATTTA -TTCCCAGACATTAATAAACCCGATGGGCCAGCAACAGCAGGGATAGATGATTTGGGTGAAATTTTAGCTAAGATGAAACA -GAGAACATCGAGAGGAATAAGAAAATGAAAAGAGTTTTGTTCTTTTTGCTGATGATATTTGTTAGTTTTGGTGTTATAGC -TGATTGCGAAATACAAGCTAAAGATCATGATTGTTTTACTATTTTCGCTAAGGGTACTATTTTTTCCGCGTTTCCTGTCT -TAAATAATAAAGCCATGTGGAGATGGTATCAGAATGAGGACATCGGTGAGTATTATTGGCAAACAGAACTGGGTACATGT -AAAAATAATAAATTCACACCAAGCGGGGCGAGACTCTTAATTCGCGTCGGGTCACTACGCCTTAATGAAAATCATGCCAT -CAAAGGAACGTTGCAGGAGTTGATAAATACAGCAGAAAAAACGGCGTTTCTCGGCGATCGGTTTAGAAGTTATATAAGAG -CGGGTATCTATCAAAAAAAGAGCAGTGATCCAGTTCAGTTGTTGGCAGTCCTTGATAATTCAATCATGGTAAAATATTTT -AAAGATGAGAAACCAACTTATGCTCGAATGACAGCACATCTCCCGAACAAAAATGAGTCTTACGAATGTTTAATAAAGAT -ACAGCATGAACTAATTCGTAGTGAAGAGAAATAAAATCTCTTCCTGAGAAAACAAATTAATCATTGTGAAAAATTATATA -ACTCATGGAATAGGTGTTTATTTTGCGTTCCATTTGCAGGGAAAGATCACGTAACGCTACTTTTTTGTACTAAATAATTC -GAATTTTAAGTTCAACAATTGAGATACTACTTATTGTCTAAAGCTGTTTTTCATAGCTTATACATGATCAAATACTCCTT -ACATAAATAAGGTGAACAAATGGAACTTAAAAAATTGATGGAACATATTTCTATTACACCCGATTACAGACAAGCCTGGA -AAGTGGTGCATAAATTGTCAGATATTCTACTGTTGACTATTTGTGCCGTTATTTCTGGTGCAGAAGGTTGGGAAGATATA -GAGGATTTCGGGGAAACACATCTCGATTTTTTGAAGCAATATGGTGATTTTGAAAATGGTATTCCTGTTCACGATACCAT -TGCCAGAGTTGTATCCCAGGGAAAGATCACGTAACGCTACTTTTTTGTACTAAATAATTCGCATTTTATGTTTAAAAATT -GAGATATTCCTTATTACCTAAAGCTGTTTTTCATAGCTTATACATGATCAAATACTCCTTACATAAATAAGGTGAACAAA -TGGAACTTAAAAAATTGATGGAACATATTTCTATTATTCCCGATTACAGATAAGCCTGGAAAGTAGAGCATAAATTGTCA -GGCATCCTACTATTGACTATTTTTGCCGTTATTTCTGGTGCAGAAAGTTGGGAAGATATAGAGGATTTCGGGGAAACACA -TCTCGATTTCTTGAAGCAATATGGTGATTTTGAAAATGGTATTCCTGTTCACGATACTATTGCCAGAGTTGTATCCTGTA -TCAGTCCTGCAAAATTTCACGAGTGCTTTATTAACTGGATGCGTGATTGCCATTCATCAAATGATAAAGACGTCATTGCA -ATTGATGGAAAAACGCTCCGGCACTCTTATGACAAGAGTCGCCGCAGGGGAGCGATTCATGTCATTAGTGCGTTCTCAAC -AATGCACAGTCTGGTCATCGGGCAGATCAAGACGGATAAGAAATCCAATGAGATCACAGCTATCCCTGAACTTCTTAACA -TGCTGGATATTAAAGGAAAAATCATCACAACTGATGCGATGGGTTGCCAGAAAGATATTGCAGAGAAGATACAAAAACAG -GGAGGTGATTATTTATTCGCTGTAAAAGGAAACCAGGGGCGGCTTAATAAAGCCTTTGAGGAAAAATTTCCGCTGAAAGA -ATTAAATAATCCAGAGCATGACAGTTACGCAATGAGTGAAAAGAGTCACGGCAGAGAAGAAATCCGTCTTCATATTGTTT -GCGATGTCCCTGATGAACTTATTGATTTCACGTTTGAATGGAAAGGACTGAAGAAATTATGCGTGGCAGTCTCCTTTCGG -TCAATAATAGCAGAACAAAAGAAAGAGCCAGAAATGACGGTCAGATATTATATCAGTTCTGCTGATTTAACCGCAGAAAA -GTTCGCCACAGCAATCCGAAACCACTGGCACGTGGAGAATAAGCTGCACTGGCGTCTGGACGTGGTAATGAATGAAGACG -ACTGCAAAATAAGAAGAGGAAACGCCGCAGAATTATTTTCAGGGATACGGCACATCGCTATTAATATTTTAACGAATGAT -AAGGTATTCAAGGCAGGGTTAAGACGTAAGATGCGAAAAGCAGCCATGGATAGAAACTATCTCGCGTCAGTCCTTGCGGG -GAGCGGGCTTTCGTAATCTTTCCCTGCTTTTTGTACTAAATAATTCGCATTTTATGTTTAAAAATTGAGATATTCCTTAT -TACCTGAAGCTGTTTTTTATTGCTTATACATGATCAAATACTTCTTACATAATTAAGGAGAACAAAATGGAACTTAAAAA -ATTGATGGAACATATTTCTATTATCCCCGATTACAGACAAGCCTGGAAAGTGGAACATAAATTATCGGATATTCTACTGT -TGACTATTTGTGCCGTTATTTCTGGTGCAGAAGGCTGGGAAGATATAGAGGATTTTGGGGAAACACATCCCGATTTTTTG -AAGCAATATGGTGATTTTGAAAATGGTATTCCTGTTCACGATACCATTGCCAGAGTTGTATCCTGTATCTGTCCTGCGAA -ATTTCATGAGAGCTTTATTAACTGGATGCTTGACTACCATTCTTCAGATGATAAAGACGTCATCGCAATTGATGGAAAAA -TACACCGGCATTCTTATGACAAGAGTCGCCGTAAGGGAGCGATTCATGTCATTAGTGCGTTCTCAACAATGCACAGTCTG -GTCATCGGACAGATCAAGACGGATAAGAAATCCAATGAGATCACAGCTATCCCTGAACTTCTTAACATGCTGGATATTAA -AGGAAAAATCATCAAAACCGATGCGATGGGTTGCCAGAAAGATATTGCAGAGAAGATACAAAAACAGGGAGGTGATTATT -TATTCGCTGTAAAAGGAAACCAGGGGCGGCTAAATAAAGCCTTCGAGGAAAAATTTCCGCTGAAAGAATTAAATAATCCC -AAGCATGACAGTTACGCAATTAGTGAAAAGAGTCACGGCAGAGAAGAAACCCGTCTTCATATTGTTTGCGATGTCCCTGA -TGAGCTTATTGATTTCACGTTTGAATAGAAAGGGCAGCTATGGTTAGAAACTACCTGACGTCAGTCCTTGCGGGGAGCAG -GCTTTCGTAAATTTGTCCTGCTACAACAGGATTAACTTCACAAATATCATTTCTCAACGTCTACACTTACTCCTGTAAAC -CGCTCAGGAGCAGTAATGAATCTACAACGATTTGATGACAGCACCCTAATCCGTATCTTTGCCCTTCATGAGTTACATCG -ACTGAAAGAACATGGCTTAACGCGCGGGGCGCTTCTCGATTATCACAGCCGCTATAAACTCGTCTTTCTGGCGCATTCTC -AGCCGGAGTACCGCAAACTTGGCCCGTTCGTGGCTGATATTCACCAGTGGCAAAATCTGGATGACTATTACAACCAGTAC -CGCCAACGCGTAGTTGTTTTGCTTTCTCACCCCGCCAACCCGCGCGATCACACCAATGTTTTGATGCACGTTCAGGGTTA -TTTTCGCCCGCATATTGATTCCACAGAACGCCAGCAGCTGGCTGCGCTTATCGACAGTTATCGCCGTGGCGAGCAACCAC -TTCTTGCGCCGCTGATGCGTATCAAACACTATATGGCGCTTTATCCTGACGCCTGGCTTTCAGGGCAGCGTTATTTCGAA -CTTTGGCCGCGTGTGATTAACTTGCGCCATTCAGGAGTTTTATGACTACCCATCTGGTCTGGTTTCGCCAGGATTTACGT -CTGCACGATAATCTCGCACTGGCTGCCGCCTGCCGCAATTCGTCTGCACGCGTGCTGGCGTTGTATATCGCTACACCACG -CCAGTGGGCGACGCATAACATGTCGCCGCGTCAGGCTGAACTTATCAATGCTCAACTGAATGGGCTACAAATAGCGCTTG -CGGAAAAAGGTATTCCTTTATTGTTCCGTGAAGTGGATGACTTTGTCGCCAGTGTCGAAATAGTTAAACAGGTGTGCGCG -GAAAACAGCGTTACCCACCTGTTTTATAACTATCAGTATGAAGTGAATGAGCGGGCGCGGGATGTGGAAGTTGAAAGAGC -GCTGCGTAACGTGGTGTGTGAAGGATTTGATGACAGCGTGATCCTGCCGCCTGGCGCGGTGATGACCGGTAATCACGAGA -TGTACAAAGTCTTTACGCCTTTTAAGAATGCCTGGCTGAAACGGCTGCGGGAAGGGATGCCGGAGTGCGTCGCTGCGCCA -AAAGTTCGTAGTAGCGGATCGATAGAGCCCTCGCCATCCATTACGCTGAATTATCCTCGTCAGTCTTTCGATACTGCGCA -TTTTCCGGTGGAAGAAAAAGCGGCGATTGCGCAATTACGCCAGTTTTGCCAGAACGGTGCCGGAGAATATGAGCAACAAC -GAGATTTTCCGGCAGTGGAAGGCACCAGCCGTTTGTCGGCCAGCCTGGCAACGGGCGGGTTATCGCCTCGCCAGTGCTTG -CATCGCTTGTTGGCTGAACAGCCGCAGGCGCTGGACGGTGGGGCCGGTAGTGTCTGGCTTAATGAGCTGATCTGGCGCGA -GTTTTACCGTCACCTGATAACGTATCACCCCTCGTTGTGTAAACATCGTCCATTTATTGCCTGGACGGATCGTGTACAGT -GGCAGAGCAATCCCGCACATTTACAGGCCTGGCAGGAAGGCAAAACGGGATACCCGATTGTTGATGCCGCTATGCGTCAG -CTTAACAGCACTGGCTGGATGCATAACAGGCTACGGATGATTACAGCCAGTTTTCTGGTGAAAGATTTATTGATCGACTG -GCGCGAAGGCGAGCGATATTTCATGTCGCAGCTGATTGATGGTGATTTGGCAGCCAATAACGGTGGCTGGCAGTGGGCCG -CTTCAACCGGAACCGATGCAGCGCCGTATTTTCGTATTTTCAACCCGACAACCCAGGGCGAGAAATTTGATCATGAGGGC -GAGTTTATCCGCCAGTGGCTACCGGAACTGCGCGATGTGCCAGGGAAAGTGGTGCATGAGCCGTGGAAGTGGGCGCAGAA -AGCAGGTGTGACGCTGGATTATCCGCAACCGATAGTCGAGCACAAAGAAGCGAGAGTACAAACGTTGGCAGCGTATGAGG -CGGCGCGGAAGGGGAAATAACAGACGCGTCAGGCAATCGAGCCCAGATGCCGGATGCGGCGTGAACGCCTTATCCAGCCT -ACAAATTTGTGCAAATTCAATAAATTGCAGGAAATACGTAGGCCTGATAAGACGCGTCAAGCGTCGCATCAGGCATCGGT -GCTGGCCTATTAAGACTCCAGCGCCAGCGCGCGGTTTCTGAATTTCAGCGCCTGATACAGCCAAATCATCAGTACCAGTC -CTACACACGCCAGTGCGCCCCAGGTAATTTGATCAAATACTTCAATATATGCATTGATGGAGTAGTTGATCGCCCCGGAA -GCATCAAACGAAGCCTGCGATGTCTGATCGGCAATCACGCCCGCCAGATAGTTCGCGATCGCGCCAGAAAGCAGCATGTA -GATGCCGGTTAATACGCCGGTCACACCGGGGATTTCAATGCGCGTAATTTGCGACATGGCAACCGGGTCGATAAACAGTT -CCGCAAAGCCCATCACCGCCAGGCCTAATACCATCAGTGGCAGAGAAGAGTGACCATACATTGCGGACCAGCGGGCGCTT -AAGGTCAGAATGCAGAATCCGGCGCTCATCAGGCCAAGGCCAAGAGCAAATTTCCCCCAGATGCGCACGGTACGATTACC -CGCGACACTCTCTTTTACCACCCACGCCAGGAACACACCGCACAGCATAACTGCGAAGGCATTAATCGACTGGAACATCG -CGGTCGGAACGGTATAACCAAACATATCGCGGTTAACGAAGCGGTCGATATAAAGGCTAATCGAGCTACCGCCCTGTTGT -GCGAAGGCCCAGAACAACATACTGAAGAAGGTGAGCGTCACAATCAGCCCCAGCTCCTTCCGCTGTTTCTGGTTTTCTGC -TTTGCGATAAATTTTTGCCAGTACACCCAGGCCAATAATAGTCGCGACAATTAAGGCGTATACCGACCACTCTTTCCAGA -ACAGTATGGTAATCAGTGCAGGCGTTGCCACCAGCAGAACCAGCAGCCATCCCCAGTTCGGCAGGAGAAAGTTTGTCGCA -CGCAGTACTTTTTTGTTAACGCCGCGGGTATGAGTGAAATGACGATTGCCACATAAGAAAATGACCAGACCCGCGATCAT -GCCAACCGCCGCCAGGCCAAAGCCCATCGCCCAGCTGTACTCTTCCTGGGCGTAACCACAGGCGATAGGTGCGATAATAG -ACCCCACGTTACCCGCCGCATACATCAGCGAGAAACCGCCATCACGACGCGGATCGGTTGGCTCATACAGCTCGCCGAGC -AGACAGCTTACGTTAGATTTAAACAGGCCATAGCCGCAGACGATAATCGCCAGGGACAGATAGAGGAATGACGGATGGAT -CTCACTGGCACCCAGCACCACATGACCGATCGCCATCAACAACGCCCCCAGCATCACCGCCATGCGATTGCCGAGAACTT -TATCCGCCAAAAAGCCACCGAGGATTGGCGTGACATACACCAGCGAACAGTAGGCGCTAAATAACTCGTAGGCGTGAGTA -TCGTTGTATTTTAGTTGATTGGTGAGATAGAGAATCAGCAGGGCACGCATGCCGTAAAAGCTAAAATATTCCCAGATTTG -CAGCGCAACGACATAGTAAATAGCGCGCGGCTGTGATGCGTGTTTATTCATAATAATTCCACAATTGACGGCAACGTCAC -GTAATAGTTGCGCGGCGTGCTTGTGTTTCCTTAAAGTTAAAACTTTGATACAGATCTGATTATTTATGCAATATGCTGTC -TGATTGCATAAATATACATTAGCTGAAGCGTGATGATATAAACAATTTGCGTCTTTTGGCGTCGGGTTTGTTTCTTAATA -TGTCAAAAGATTGGCTATCGACGAACTGGCGAGGTAACGCTATGTTAACGGTGTAGCTATCAGAATACGGAAGGCGCGAA -GATGAAAAACACCGAACTGGAACAACTGATTAACGAAAAACTGAACAGCGCGGCGATTAGTGATTACGCGCCGAATGGTT -TGCAGGTGGAAGGCAAAGAGACGGTGCAAAAAATTGTTACCGGTGTCACCGCCAGCCAGGCTTTGCTCGATGAGGCAGTG -CGTCTGGGCGCGGATGCGGTCATTGTGCATCATGGCTACTTCTGGAAAGGAGAGTCTCCGGTCATTCGCGGAATGAAGCG -TAACCGTTTAAAAACGTTGCTGGCGAATGATATCAACCTGTATGGCTGGCATTTGCCGCTTGACGCACATCCTGAGCTGG -GCAATAACGCACAGCTGGCGGCGTTACTGGGGATCACGGTCATGGGCGAAATTGAGCCGTTGGTGCCGTGGGGCGAACTG -ACCATGCCTGTGCCGGGACTGGAGCTGGCTTCCTGGATTGAAGCGCGTCTGGGACGTAAGCCGTTATGGTGTGGCGATAC -CGGACCTGAGGTGGTCCAGCGCGTCGCCTGGTGCACGGGCGGCGGGCAAAGTTTTATCGATAGCGCCGCGCGTTTTGGCG -TGGATGCTTTTATTACTGGCGAAGTTTCTGAACAGACCATTCATTCAGCCCGCGAGCAGGGATTGCATTTTTATGCTGCA -GGTCACCATGCCACTGAACGTGGTGGTATTCGCGCATTGAGCGAGTGGCTGAATGAAAATACCGATCTTGATGTGACCTT -TATTGATATTCCTAATCCTGCATAACGAATAATCAGAGGGATCGAAAGTGCAACGAGCGCGTTGTTATCTGATAGGTGAA -ACGGCGGTAGTGCTGGAACTGGAACCGCCGGTGACGCTGGCTAGCCAGAAACGGATCTGGCGACTGGCGCAGCGTCTGGT -GGATATGCCGAATGTGGTTGAAGCCATTCCCGGCATGAACAATATCACGGTGATTTTGCGTAATCCTGAGTCGCTGGCGC -TGGATGCCATAGAGCGTTTGCAACGCTGGTGGGAGGAGAGCGAGGCGCTGGAGCCGGAGTCTCGCTTTATTGAAATTCCG -GTGGTTTACGGTGGTGCAGGCGGACCGGATTTGGCGGTGGTCGCGGCGCATTGCGGGTTGAGCGAAAAACAGGTTGTTGA -ATTGCACTCCTCCGTGGAATACGTGGTCTGGTTTTTAGGTTTTCAACCGGGCTTCCCGTATCTCGGGAGTTTGCCGGAAC -AACTACACACGCCACGGCGCGCTGAACCGCGCTTACTCGTTCCGGCAGGTTCTGTCGGGATCGGCGGGCCGCAGACTGGT -GTTTATCCGCTGGCAACGCCGGGTGGCTGGCAGTTGATTGGTCATACCTCACTCAGCCTGTTTGATCCGGCGCGTGACGA -ACCCATCTTATTACGTCCGGGAGACAGCGTGCGCTTTGTACCGCAGAAGGAGGGAGTATGCTGAAGATTATTCGTGCGGG -CATGTATACCACTGTGCAGGATGGCGGTCGTCACGGTTTTCGCCAGTCGGGTATCAGCCACTGCGGCGCACTGGATATGC -CCGCGTTACGCATTGCTAACCTACTGGTGGGTAATGACGCCAATGCCCCCGCGCTGGAGATCACGCTCGGTCAGTTAACT -GTTGAGTTCGAAACTGATGGGTGGTTTGCTCTGACGGGTGCCGGTTGCGAAGCGCGGCTGGATGATAATGCCGTCTGGAC -CGGCTGGCGATTGCCGATGAAAGCAGGCCAGCGTTTAACGCTTAAACGCCCGCAGCACGGGATGCGCAGTTATCTGGCGG -TCGCGGGTGGTATTGATGTTCCGCCGGTAATGGGCTCATGCAGCACCGATCTCAAAGTGGGGATTGGCGGGCTGGAAGGC -CGTTTACTGAAGGATGGTGACCGACTCCCGATTGGCAAATCGAAGCGTGATTCTATGGAAGCGCAGGGCGTTAAACAGCT -GCTGTGGGGCAACCGCATTCGCGCCTTGCCGGGGCCGGAATATCATGAGTTCGATCGCGCCTCGCAGGATGCATTCTGGC -GTTCGCCCTGGCAGCTTAGCTCGCAAAGTAACCGCATGGGCTATCGCTTACAGGGGCAAATTTTAAAACGCACCACCGAT -CGCGAACTGTTATCTCACGGTTTGTTACCGGGCGTGGTGCAGGTGCCACATAACGGGCAGCCGATTGTGTTGATGAACGA -CGCACAGACCACCGGTGGTTACCCGCGTATTGCCTGTATCATTGAGGCTGATATGTACCATCTGGCGCAAATTCCGCTCG -GTCAGCCGATTCATTTTGTCCAGTGTTCACTGGAAGAGGCACTAAAAGCACGGCAAGATCAGCAACGTTATTTTGAACAA -TTAGCGTGGCGGCTGCACAATGAAAATTGACCTGAACGCCGATCTGGGCGAAGGCTGCGCCAGCGACGCAGAGCTATTAA -CGCTGGTTTCCTCTGCCAATATTGCCTGTGGATTTCATGCAGGCGATGCGCAAATCATGCAGGCTTGCGTGCGTGAAGCA -ATAAAAAATGGTGTCGCGATTGGCGCTCACCCGAGTTTTCCCGACAGGGAAAATTTTGGTCGCAGCGCCATGCAGCTGCC -GCCAGAAACCGTTTACGCCCAGACGCTGTATCAAATTGGCGCGCTGGCAACGATTGCCCGTGCGCAAGGCGGCGTAATGC -GTCATGTCAAACCGCACGGCATGTTGTACAACCAGGCGGCGAAAGAAGCACAACTGGCAGACGCCATCGCCAGAGCGGTA -TACGCTTGCGATCCAGCATTGATTCTCGTCGGGCTGGCGGGAAGCGAGCTGATTCGTGCAGGCAAGCAATATGGTCTGAC -AACGCGCGAGGAAGTGTTTGCCGATCGCGGTTATCAGGCTGACGGCTCGCTGGTGCCGCGAAGCCAGTCAGGCGCGTTGA -TTGAAAACGAAGAACAGGCGCTGGCGCAAACGCTGGAGATGGTGCAACACGGCAGAGTCAAAAGTATCACCGGCGAATGG -GCAACGGTCGCGGCGCAAACGGTCTGCCTGCATGGCGACGGCGAGCACGCACTGGCGTTCGCCCGCCGACTACGCTCTGC -ATTTGCCGAAAAGGGGATTGTTGTCGCAGCATAACCCCGATTAATAAAGAATGAAAAAAGGATATCACCATGCCTGAAGG -CCCGGAGATCCGCCGTGCAGCGGATAACCTGGAGGCGGCGATCAAAGGCAAACCACTAACTGATGTCTGGTTTGCCTTCC -CGCAGTTAAAACCTTATCAATCACAACTTATCGGTCAACACGTTACCCATGTGGAAACGCGTGGTAAGGCGTTGTTAACT -CATTTTTCCAACGACTTAACGCTCTACAGCCATAATCAGCTTTACGGCGTCTGGCGCGTGGTTGATACCGGCGAAGAGCC -GCAGACCACGCGAGTATTGCGGGTAAAACTGCAAACGGCTGACAAAACCATTCTGCTTTATAGCGCCTCGGATATTGAGA -TGTTGACCCCGGAACAACTGACCACGCATCCGTTTTTACAACGCGTTGGTCCCGATGTGCTGGATCCGAATCTGACGCCG -GAGGTGGTGAAAGAACGATTATTGTCGCCGCGCTTTCGTAACCGTCAGTTTGCTGGATTACTGCTCGATCAGGCGTTTCT -GGCTGGGCTTGGCAATTATTTGCGGGTGGAGATCCTCTGGCAGGTTGGGTTGACTGGAAATCATAAAGCGAAAGATCTCA -ATGCGGCGCAACTGGATGCACTCGCACACGCGTTACTGGAGATTCCTCGATTTTCCTACGCTACGCGGGGGCAGGTGGAT -GAGAATAAGCATCATGGGGCGCTGTTTCGCTTTAAGGTTTTTCATCGAGATGGCGAACCGTGCGAACGTTGTGGCAGCAT -CATTGAGAAAACCACGCTGTCATCTCGCCCGTTTTACTGGTGCCCTGGCTGCCAGCACTAGGCCGACCGCTTCGGCGCAT -AGGTTGAAATAAACCGCGCAATGGCAGGCCCTGTCAGCAAAATACTGAACAGGCGTAGGGTTTGCATCGCCATAATGAGC -GCCATATCGGCATTGCTCCCTGCGGCGATGACCGCCACGGTATCAAGCCCGCCGGGGCTGGTGGCGAGGTAGGCAGTCAT -AAAATCAATGTGCATAAACCGGGTCAGCCCCCACGCCATACCCGCACAAATAGCCAGCAGAGCAAAAATCGACAGCAGGA -TTTGCGGTAGCGGGCGTAGTGCCCGCAGTAAGATTTGTTTATCGAAACCAAGACCAATCCGCCAGCCAATTGCCATATAC -GCCATCGCCAGCAGCCATTCCGGTAGTTCGATGGTGATGAGCTGACCAGACTGGAGCACTGCGCCCGCCAGCATCGGGAT -GAGCATCGTGCCGGAAGGAAGACGCAGCAGGCATCCCACTGTACCGGCAACGACCGCGAGCAAAATAGTAAGCAGGAGAT -TAATGCTCACTGGCGGGAACCAGACGATATGCTGGTTAACCGCTTCAGCGTTATCGCCCAGCATCATGCGGGTGACCAGA -ACAGCGGCCCCCGCGACGAACAGCACTCGCAGATATTGCATAAACGCCACCAGGCGAATATCTGCGCCGTAATCTTGCGC -CATAGCGACCATTGCCGCCGCGCCGCCAGGAGAGGAGCCCCAGGCACCGGTATTTCCAGGCAATGAGCTATAGCGCACCA -ATAACCAACCCACAATGGCGCTGGAAAGCAGCGTTACCAGTAAAATTGCAAGCACGATCGGCCAGTTGACGGCCAGGGTG -GTGAGAATCGAACCAGTGAGGTTTTGCGCAATCATGCAGCCAAGAATGGCCTGGGCGGCGAGAAAAGCAGAGCGGGGAAG -TTGCAGAGTAATTCCGCGCATACTAAAGATGATCCCGGCGATCATCGGCCCAAGTAATAGCGCCGCCGGGAGATGTACCG -CGAGGAAACCAATAGAAAGGAGAAGTGATAGCACACATAACATTCCCCACTGCAAAACTGGCATCCTTCGCTCCCTCATT -ATTTTCTCTTTGGTGTATCGATACAGCATAAAGAAAGCTGGGCCAGGAAAAAATAACAGCAATCAAGGAAAAGGGGAAAA -TCAGCAATTTTCTGAAAGAGATGCCCTTTCCGGCGGCAAAGGGCATCATGGTAAATCAGTTATAGTTAATCTTAAAAAGC -ACCACTGTATCGAAGGGGCCAGCCTCGATGGGGGTGCCTGGAATGGACGAAAGTTCAGCCGTATAGGTTTTTTCGTAGAC -CAACATGTCACTGGTGAAATCGGCGTATTCAGCATATTTATTGAAGGTATAAGGCGAGGCGTTTTCATCCAGTAAACGTA -GCTTCAGACCATTACCAATCAACAATGCTTTATCTTCTTCAACCAACGTTTCTTCGGTATAAAAGGAGGAACTGACTTTA -AATCCGTCGGTGCATTGATCGTTTTGGCTCTTGGTCGTTTTAATACTGAACGTTTTCGACATTGTGTGGCGACGTATATC -CAGCAAATTAAATTTACCAAAATCAATCACCTGTGTTTCCGGTGAAATGGAAAAATTGACGCTGCAATCCAGCACGCGAA -TGTTTTCCAGACCAGTAATATGATATTTCAGGTTTTGGGCAGTAGGGTCTTCGTTAACGCTACCGGCACCGTCAAATTGC -ACGACGATATAGTCGCTAAGCGTACTTTGATAATCATGCGGCGGCATTTCTCGTATTTTGACGTATAACCGCATGCGAGC -GAGAAAGGTACGCGACATATGAATATTAGCGGGATCGCCCGAGCAAATTTTGTTCTGCCATCCCATCGCGATGATCTGCT -CAGGGGTATAAATATCAATGTTCTTACTGTCGATACACTGGTTAGTGTCGATGCGACTTTTTCCCAGACTGGCATCGTAA -TCGACACCGTTGTATGTCACGCCGAGTTGATAATAACGATCCTGCACCCCCGGATAGGGGTTTACCCAGGCGTAGACATG -CTCGCTTTCAAAGTTGCCGTTGGTATTGTTGTCACAATAGACGGGAATTTTAATATCGTCAGATTCCCAGATCTTATCAC -CGGGTTTGGCATTGCCTGGTACAGCAAACGGTTGAATCGCTTCTGATTTTTCTACTGCGCCACCAGATGTACCAAAATAG -CAGTTCAGCGCCATTGCAGACTTCAACGGCAGAAATAACAGGCAGATGACGAGCAACAATCCCTTGCCAGCACTCATTTC -GCCTCCACTGCTTGTAAACGGCATTGTCCGCTGCAGTTGAGCGTCGTCATGCGTAATGCGCCGTAATCATCCATGTAACC -GAGATAAAACTGGCTGCCGCTATAACTTCCGGTGTTTGTGTTGACCGTACTAAAAGGTGCAACCATCACGGTTTTGAAGC -CTGGGAGAACGCCTTTTTCATTTCTCCCCAGATAGGCAATGGTCAGATAATACGCGGTAGGATTTTTCAGTGTCAGTTGG -TTGCCCTGCTGGCTGACCTGTAACTGCAGTTCGACCTTTTCTCCTGCTTTCTTGCGTAATGCAGCCGGTCGCCAGAACAA -TTTAATACGACTTTGAATAGCGACCTGAAGTATCGCATGGTCGCTGCTTTTATCCGGAGCGGGAGGAATTTCGCGCATAT -TGTAGAAAAATAGCGTTTCGCGATCGCCAGGTAATTGTGTGGTTGAGGCTTGTTTCACAACCCGCACCTGCGATGTCGCT -TTCGGTTCCAGACGTTGAATAGGGGGCAAAGCGACCAGAAGAGCATCGCTTTTCTCCCCTTTTTCATTTTCTATCCAGGA -ATAAGCAAGATAAGGCAGTTTGTCACTTTGGTTTTCGATACGCAGGCTGGTGGCTTTGTCATTGGCGTTAAACACAATGC -GTGTGCGATCGGGTTGCACCGCAGCATTGCAACCCAAGCTGATGGTTAACAACATTAAGGGTAATCCTTTAATAAATGTC -ATTCTCTTTTCCTTAATTAATGACAAGGTAAAATCAGGCGTTTGGTCGTGTCTTCCAGACGTTCTGGCAGATGAATAATG -CAGCTTTGCTCACCCCAGACCACGGTAAACAGTTGATTTTCAGCGACACCGCTTAACCAGGCATGTCCTTCCTCGCCAAC -CATACCCACGCTAATGCCGCTGTCATCCTGGCGGATATCCGCACCGAGGGGAGGGAACTGACCGCTGGCGTTGCGTATGA -TGACGTTAACGTCTTTACCGGAACGGGAAGCCAGTGATTTGTAACCTATCGCGCCTTCAATCCATGTTTCCTTGATGACG -TTTTCTGCAACTGTTACGCCGTCGGGTAAGTCATTCATGTTCACCGCCACGGTGGAAGGCTGGTAACTGGAAATCAACGG -CACCACCGCAATGCCAAAATGGTTGGTGTAGTCGAGATTGCCCTGAACCGGAATATCTGCCACGCCATCGGTGCTGACCA -TCAGGCGTGGTTCATTGGTGGAGCTGCGGCGATGAAATGCTGCACCATATTGGGTTGCGGTGAAAGAACCGCTCCAGCTG -CTGCTGACGGAACTGTAATCACTGGCGGCATAGGTACCAGAAATATCCCACTCACCCGCTGAACTCAGGTGCTGATAGTT -ACCGCTCACCTGGGCTCCATTGTCCGGACGATCGGATTGCAGTCCGGCAGACATGCCCCAGCTATTACGTTCATCCAGCG -TATCGTTCCACGACATGCGGTGTATGGTGCTGTGGCTACTGTTTTGCATGTCATAGCCAACCCGACCACCGTTACCGAAG -GGGAGCGAAATCGACAGATAAATCTGGTTGTCGCGATCTTTATCTTCGTAGTGGGTCGTATTGAATGACGTCGAAATCGA -GATATCTCTCCAGTCACCAATATCAACATTAAAACCTGCTGTGATGTTGGCGGTCGTGGAGGCGTCTGCATTCCACCAGG -TTTGATGTAGCAGGTTGGCGTAAAGATTGAGGTTTAGTGGGGTAATCGGTTGGCCCACGGATAAGCTGATCGTCTGTTTT -TCGTCCTGCGCATCGCTGTCGTTGTATTTGTGATCCAGATAGTTGGCGTAGCTGTGAAAATGACGATCTGAGAAGCGATA -AGCGGCGAGCGAAATCGTGCTGTTGGTGGCATCCACTTGTTTGCTGTAATTAAAACGGTAGCTTAAGCCCCGCTCGTCCT -GCTGAGTATCAAAATGGCTACTGGCCCAGGTGACATCAAAGGACAGTGCGCCAAGCCACAGCATATTTTGCCCGATACCC -ATTGCGGCAGAATGGTAGTCATCATCAGAAATCAGCAGGCCGCCGTACAGCGAGGTGTTTGAGAGCATCCCCCAGGAAAC -TTCATTGCTAAAAAAGGTTTCATTTTCAGTTTGATGTGACATGGAAGGCCGTGGCTGACCCGCGGCCAATTTATAGCGAA -CCTGTCCCTGGCGAGTCAGGAAGGGCGTCGATGCTGCCGAAACCTGGAAATTGTTCACCCGACCATCTTCTTCCGTCACT -TTGACATCCAGCGTGCCCTGAACAGACTGATTGAGGTCATCAATAATAAACGGGCCTGGCGGGACTTTTTTCTGGTAAAT -GACGCGGCCTGATTGACTGATCGTCACCGTGGCATTGGTCTGTGCAATACCGCTAATTTGTGGGGCGTAGCCACGCAGCT -CCCACGGTAACATTCGATCGTCACTCGCCAGTGCCGCGCCGGTATAAGAAAAACCATCGAAAATATTGGAACTGAAATCG -GTTTCGCCGAGGGTTAACTTAGAGCCTAATTGCGGTAATGGACGAAAAAGATAGGTGCGCGATATTCCGCCTGACTGGTC -ATGGTTATCTTCGCTATCGGTCTTATTAAGCTGGTAATCACTGCGTAAGCGCCATGCCCCGGCGTTAATTCCGGCGGTAC -CGTAGGCATTCAGGTTAGTGCTGCTGCTGCCGTCCTGTGGGCGGTAGCTGCTGGCAAACAAGTTGTAATCCATCAGGACA -CCGGCAACACCTTCTTTCCATGTAGAGGGGGGAGCCCAGTTTTCTGAGTGCCACGCCAGCCAGGCTTGCGGAATACTAAT -ATTCAGTTGCTGATTGGCTTGATCGAAATTGAAGAGCATTTCAGGTCGGGAACTGAAATCAATACACCGATCTATCTGTG -GCAAGGACTGACGGATATCTGGTTTTAAACCAAATTTATCGACCAGTGAATCATTGATGCATGGAATGGTTTTGTCACCC -TTTTTTTGCCAGTTAATTTTTTGCCCATTACTGATTTTGTTGTTATTCACCGCAACGCTAACAAAATATTCACCGGGAGC -AATGACTCCTTTTTCCTTTAATAATGAAATATCAATGCGGTCGCGCATTGATTTATCGAGAACATTCAGATTGAATTCGA -CCGCCATTGCGCAAGGCATCGCCATGACCAGGCAGGATACAAAAGAGAGTCGATAAATATTCACGGTGTCCATACCTGAT -AAATATTTTATGAAAGGCGGCGATGATGCCGCCAAAATAATACTTATTTATAATCCAGCACGTAGGTTGCGTTAGCGGTT -ACTTCACCTGCCGTGACATCGACTGCATTATCAATTTGTTCCATCCAGGCGAAAAAGTTCAGCGTCTGTTCTGATGAGCT -TGCATCCAGGTCAAGATCTGGCGCGGCTGAACCTAATACGATGTTACCGTCATTTTTGTCCATCAGTCGTACACCGACCC -CAGTTGCTTCGCCTGCACTGGTGTTGCTCAACAAAGGCGTAGCACCAGTTGTCTTAGCCGTGCTATCGAAGGTTACGCCA -ACTTTGGATACCGGCATTCCGCTACCGTTGTCAGAAGCAGGCAGATCACAGTTGATCAAGCGAATGTCGACGGCCACTTT -ATTGCTATGATGCTCCCGGTTTATATGGGTTGTCGTGACTTGTCCAAGATCTATGTTTTTATCAATATCTTCTGGATGAA -TTTCACAAGGTGCTTCAATAACCTCCCCCTTAAAGTGAATTTCGCCAGAACCTTCATCAGCAGCATAAACAGGTGCAGTG -AACAGCAGAGATACGGCCAGTGCGGCCAATGTTTTTTGTCCTTTAAACATAACAGAGTCCTTTAAGGATATAGAATAGGG -GTATAGCTACGCCAGAATATCGTATTTGATTATTGCTAGTTTTTAGTTTTGCTTAAAAATATTGTTAGTTTTATTAAATG -CAAAACTAAATTATTGGTATCATGAATTTGTTGTATGATGAATAAAATATAGGGGGGTATAGATAGACGTCATTTTCATA -GGGTTATAAATGCGACTACCATGAAGTTTTTAATTGAAAGTATTGGGTTGCTGATAATTTGAGCTGTTCTATTCTTTTTA -AATATCTATATAGGTCTGTTAATGGATTTTATTTTTACAATTTTTTGTGTTTAGGCATATAAAAATCAACCCGCCATATG -AACGGCGGGTTAAAATATTTACAACTTAGCAATCAACCATTAACGCTTGATATCGCTTTTAAAGTCGCGTTTTTCATATC -CTGTATACAGCTGACGCGGACGGGCAATCTTCATACCGTCACTGTGCATTTCGCTCCAGTGGGCGATCCAGCCAACGGTA -CGTGCCATTGCGAAAATGACGGTGAACATGGAAGACGGAATACCCATCGCTTTCAGGATGATACCAGAGTAGAAATCGAC -GTTCGGGTACAGTTTCTTCTCGATAAAGTACGGGTCGTTCAGCGCGATGTTTTCCAGCTCCATAGCCACTTCCAGCAGGT -CATCCTTCGTGCCCAGCTCTTTCAGCACTTCATGGCAGGTTTCACGCATTACGGTGGCGCGCGGGTCGTAATTTTTGTAC -ACGCGGTGACCGAAGCCCATCAGGCGGAAAGAATCATTTTTGTCTTTCGCACGACGAACAAATTCCGGAATGTGTTTAAC -GGAGCTGATTTCTTCCAGCATTTTCAGCGCCGCTTCGTTAGCACCGCCGTGCGCAGGTCCCCACAGTGAAGCAATACCTG -CTGCGATACAGGCAAACGGGTTCGCACCCGAAGAGCCAGCGGTACGCACGGTGGAGGTAGAGGCGTTCTGTTCATGGTCA -GCGTGCAGGATCAGAATACGGTCCATAGCACGTTCCAGAATCGGATTAACTTCATACGGTTCGCACGGCGTGGAGAACAT -CATATTCAGGAAGTTACCGGCGTAGGAGAGATCGTTGCGCGGGTAAACAAATGGCTGACCAATGGAATACTTGTAACACA -TCGCGGCCATGGTCGGCATTTTCGACAGCAGGCGGAACGCGGCAATTTCACGGTGACGAGGATTGTTAACATCCAGCGAG -TCGTGATAGAACGCCGCCAGCGCGCCGGTAATACCACACATGACTGCCATTGGATGCGAGTCGCGACGGAAAGCATGGAA -CAGACGGGTAATCTGCTCGTGGATCATGGTATGACGGGTCACCGTAGTTTTAAATTCGTCATACTGTTCCTGAGTCGGTT -TTTCACCATTCAGCAGGATGTAACAAACTTCCAGGTAGTTAGAATCGGTCGCCAGCTGATCGATCGGGAAACCGCGGTGC -AGCAAAATACCTTCATCACCATCAATAAAAGTAATTTTAGATTCGCAGGATGCGGTTGAAGTGAAGCCTGGGTCAAAGGT -GAACACACCTTTTGAACCGAGAGTACGGATATCAATAACATCTTGACCCAGCGTGCCTTTCAGCACATCCAGTTCAACAG -CTGTATCCCCGTTGAGGGTGAGTTTTGCTTTTGTATCAGCCATTTAAGGTCTCCTTAGCGCCTTATTGCGTAAGACTGCC -GGAACTTAAATTTGCCTTCGCACATCAACCTGGCTTTACCCGTTTTTTATTTGGCTCGCCGCTCTGTGAAAGAGGGGAAA -ACCTGGGTACAGAGCTCTGGGCGCTTGCAGGTAAAGGATCCATTGATGACGAATAAATGGCGAATCAAGTACTTAGCAAT -CCGAATTATTAAACTTGTCTACCACTAATAACTGTCCCGAATGAATTGGTCAATACTTCCACACTGTTACATAAGTTAAT -CTTAGGTGAAATACCGACTTCATAACTTTTACGCATTATATGCTTTTCCTGGTAATGTTTGTAACAACTTTGTTGAATGA -TTGTCAAATTAGATGATTAAAAATTAAATAAATGTTGTTATCGTGACCTGGATCACTGTTCAGGATAAAACCCGACAAAC -TATATGTAGGTTAATTGTAATGATTTTGTGAACAGCCTATACTGCCGCCAGGTCTCCGGAACACCCTGCAATCCCGAGCC -ACCCAGCGTTGTAACGTGTCGTTTTCGCATCTGGAAGCAGTGTTTTGCATGACGCGCAGTTATAGAAAGGACGCTGTCTG -ACCCGCAAGCAGACCGGAGGAAGGAAATCCCGACGTCTCCAGGTAACAGAAAGTTAACCTCTGTGCCCGTAGTCCCCAGG -GAATAATAAGAACAGCATGTGGGCGTTATTCATGATAAGAAATGTGAAAAAACAAAGACCTGTTAATCTGGACCTACAGA -CCATCCGGTTCCCCATCACGGCGATAGCGTCCATTCTCCATCGCGTTTCCGGTGTGATCACCTTTGTTGCAGTGGGCATC -CTGCTGTGGCTTCTGGGTACCAGCCTCTCTTCCCCTGAAGGTTTCGAGCAAGCTTCCGCGATTATGGGCAGCTTCTTCGT -CAAATTTATCATGTGGGGCATCCTTACCGCTCTGGCGTATCACGTCGTCGTAGGTATTCGCCACATGATGATGGATTTTG -GCTATCTGGAAGAAACATTCGAAGCGGGTAAACGCTCCGCCAAAATCTCCTTTGTTATTACTGTCGTGCTTTCACTTCTC -GCAGGAGTCCTCGTATGGTAAGCAACGCCTCCGCATTAGGACGCAATGGCGTACATGATTTCATCCTCGTTCGCGCTACC -GCTATCGTCCTGACGCTCTACATCATTTATATGGTCGGTTTTTTCGCTACCAGTGGCGAGCTGACATATGAAGTCTGGAT -CGGTTTCTTCGCCTCTGCGTTCACCAAAGTGTTCACCCTGCTGGCGCTGTTTTCTATCTTGATCCATGCCTGGATCGGCA -TGTGGCAGGTGTTGACCGACTACGTTAAACCGCTGGCTTTGCGCCTGATGCTGCAACTGGTGATTGTCGTTGCACTGGTG -GTTTACGTGATTTATGGATTCGTTGTGGTGTGGGGTGTGTGATGAAATTGCCAGTCAGAGAATTTGATGCAGTTGTGATT -GGTGCCGGTGGCGCAGGTATGCGCGCGGCGCTGCAAATTTCCCAGAGCGGCCAGACCTGTGCGCTGCTCTCTAAAGTCTT -CCCGACCCGTTCCCATACCGTTTCTGCGCAAGGCGGCATTACCGTTGCGCTGGGTAATACCCATGAAGATAACTGGGAAT -GGCATATGTACGACACCGTGAAAGGGTCGGACTATATCGGTGACCAGGACGCGATTGAATATATGTGTAAAACCGGGCCG -GAAGCGATTCTGGAACTCGAACACATGGGCCTGCCGTTCTCGCGTCTCGATGATGGTCGTATCTATCAACGTCCGTTTGG -CGGTCAGTCGAAAAACTTCGGCGGCGAGCAGGCGGCACGCACTGCGGCAGCAGCTGACCGTACCGGTCACGCACTGTTGC -ACACGCTTTATCAGCAGAACCTGAAAAACCACACCACCATTTTCTCCGAGTGGTATGCGCTGGATCTGGTGAAAAACCAG -GATGGCGCGGTGGTGGGTTGTACCGCACTGTGCATCGAAACCGGTGAAGTGGTTTATTTCAAAGCCCGCGCTACCGTGCT -GGCGACTGGCGGAGCAGGGCGTATTTATCAGTCCACCACCAACGCCCACATTAACACCGGCGACGGTGTCGGCATGGCTA -TCCGTGCCGGCGTACCGGTGCAGGATATGGAAATGTGGCAGTTCCACCCGACCGGCATTGCCGGTGCGGGCGTACTGGTC -ACCGAAGGTTGCCGTGGTGAAGGCGGTTATCTGCTGAACAAACATGGCGAACGTTTTATGGAGCGTTATGCGCCGAACGC -CAAAGACCTGGCGGGCCGTGACGTGGTTGCGCGTTCCATCATGATCGAAATCCGTGAAGGTCGCGGCTGTGATGGTCCGT -GGGGGCCACACGCGAAACTGAAACTCGATCACCTGGGTAAAGAAGTTCTCGAATCCCGTCTGCCGGGTATCCTGGAGCTT -TCCCGTACCTTCGCTCACGTCGATCCGGTGAAAGAGCCGATTCCGGTTATCCCAACCTGTCACTACATGATGGGCGGTAT -TCCGACCAAAGTTACCGGTCAGGCACTGACTGTGAATGAGAAAGGCGAAGATGTGGTTGTTCCGGGACTGTTTGCCGTTG -GTGAAATCGCTTGTGTATCGGTACACGGCGCTAACCGTCTGGGCGGCAACTCGCTGCTGGACCTGGTGGTCTTTGGTCGC -GCGGCAGGTCTGCATCTGCAAGAGTCTATCGCCGAGCAGGGCGCACTGCGCGATGCCAGCGAGTCTGATGTTGAAGCGTC -TCTGGATCGCCTGAACCGCTGGAACAATAATCGTAACGGTGAAGATCCGGTGGCGATCCGTAAAGCGCTGCAAGAATGTA -TGCAGCATAACTTCTCGGTCTTCCGTGAAGGTGATGCGATGGCGAAAGGGCTTGAGCAGTTGAAAGTGATCCGCGAGCGT -CTGAAAAATGCCCGTCTGGATGACACTTCCAGCGAGTTCAACACCCAGCGCGTTGAGTGCCTGGAACTGGATAACCTGAT -GGAAACGGCGTATGCAACGGCTGTTTCTGCCAACTTCCGTACCGAAAGCCGTGGCGCGCATAGCCGCTTCGACTTCCCGG -ATCGTGATGATGAAAACTGGCTGTGCCACTCCCTGTATCTGCCAGAGTCGGAATCCATGACGCGCCGAAGCGTCAACATG -GAACCGAAACTGCGCCCGGCATTCCCGCCGAAGATTCGTACTTACTAATGCGGAGACAGGAAAATGAGACTCGAGTTTTC -AATTTATCGCTATAACCCGGATGTTGATGATGCTCCGCGTATGCAGGATTACACCCTGGAAGCGGATGAAGGTCGCGACA -TGATGCTGCTGGATGCGCTTATCCAGCTAAAAGAGAAAGATCCCAGCCTGTCGTTCCGCCGCTCCTGCCGTGAAGGTGTG -TGCGGTTCCGACGGTCTGAACATGAACGGCAAGAATGGTCTGGCCTGTATTACCCCGATTTCGGCACTCAACCAGCCGGG -CAAGAAGATTGTGATTCGCCCGCTGCCAGGTTTACCGGTGATCCGCGATTTGGTGGTAGACATGGGACAATTCTATGCGC -AATATGAGAAAATTAAGCCTTACCTGTTGAATAATGGACAAAATCCGCCAGCTCGCGAGCATTTACAGATGCCAGAGCAG -CGCGAAAAACTCGACGGGCTGTATGAATGTATTCTCTGCGCATGTTGTTCAACCTCTTGTCCGTCTTTCTGGTGGAATCC -CGATAAGTTTATCGGCCCGGCAGGCTTGTTAGCGGCATATCGTTTCCTGATTGATAGCCGTGATACCGAGACTGACAGCC -GCCTCGACGGTTTGAGTGATGCATTCAGCGTATTCCGCTGTCACAGCATCATGAACTGCGTCAGTGTATGTCCGAAGGGG -CTGAACCCGACGCGCGCCATCGGCCATATCAAGTCGATGTTGTTGCAACGTAATGCGTAAACCGTAGGCCTGATAAGACG -CGCAAGCGTCGCATCAGGCAACCAGTGCCGGATGCGGCGTGAACGCCTTATCCGGCCTACAAGTCATTACCCGTAGGCCT -GATAAGCGCAGCGCATCAGGCGTAACAAAGAAATGCAGGAAATCTTTAAAAACTGCCCCTGACACTAAGACAGTTTTTAA -AGGTTCCTTCGCGAGCCACTACGTAGACAAGAGCTCGCAAGTGAACCCCGGCACGCACATCACTGTGCGTGGTAGTATCC -ACGGCGAAGTAAGCATAAAAAAGATGCTTAAGGGATCACGATGCAGAACAGCGCTTTGAAAGCCTGGTTGGACTCTTCTT -ACCTCTCTGGCGCAAACCAGAGCTGGATAGAACAGCTCTATGAAGACTTCTTAACCGATCCTGACTCGGTTGACGCTAAC -TGGCGTTCGACGTTCCAGCAGTTACCTGGTACGGGAGTCAAACCGGATCAATTCCACTCTCAAACGCGTGAATATTTCCG -CCGCCTGGCGAAAGACGCTTCACGTTACTCTTCAACGATCTCCGACCCTGACACCAATGTGAAGCAGGTTAAAGTCCTGC -AGCTCATTAACGCATACCGCTTCCGTGGTCACCAGCATGCGAATCTCGATCCGCTGGGACTGTGGCAGCAAGATAAAGTG -GCCGATCTGGATCCGTCTTTCCACGATCTGACCGAAGCAGACTTCCAGGAGACCTTCAACGTCGGTTCATTTGCCAGCGG -CAAAGAAACCATGAAACTCGGCGAGCTGCTGGAAGCCCTCAAGCAAACCTACTGCGGCCCGATTGGTGCCGAGTATATGC -ACATTACCAGCACCGAAGAAAAACGCTGGATCCAACAGCGTATCGAGTCTGGTCGCGCGACTTTCAATAGCGAAGAGAAA -AAACGCTTCTTAAGCGAACTGACCGCCGCTGAAGGTCTTGAACGTTACCTCGGCGCAAAATTCCCTGGCGCAAAACGCTT -CTCGCTGGAAGGCGGTGACGCGTTAATCCCGATGCTTAAAGAGATGATCCGCCACGCTGGCAACAGCGGCACCCGCGAAG -TGGTTCTCGGGATGGCGCACCGTGGTCGTCTGAACGTGCTGGTGAACGTGCTGGGTAAAAAACCGCAAGACTTGTTCGAC -GAGTTCGCCGGTAAACATAAAGAACACCTCGGCACGGGTGACGTGAAATACCACATGGGCTTCTCGTCTGACTTCCAGAC -CGATGGCGGCCTGGTGCACCTGGCGCTGGCGTTTAACCCGTCTCACCTTGAGATTGTAAGCCCGGTAGTTATCGGTTCTG -TTCGTGCCCGTCTGGACAGACTTGATGAGCCGAGCAGCAACAAAGTGCTGCCAATCACCATCCACGGTGACGCCGCAGTG -ACCGGGCAGGGCGTGGTTCAGGAAACCCTGAACATGTCGAAAGCGCGTGGTTATGAAGTTGGCGGTACGGTACGTATCGT -TATCAACAACCAGGTTGGTTTCACCACCTCTAATCCGCTGGATGCCCGTTCTACGCCGTACTGTACTGATATCGGTAAGA -TGGTTCAGGCCCCGATTTTCCACGTTAACGCGGACGATCCGGAAGCCGTTGCCTTTGTGACCCGTCTGGCGCTCGATTTC -CGTAACACCTTTAAACGTGATGTCTTCATCGACCTGGTGTGCTACCGCCGTCACGGCCACAACGAAGCCGACGAGCCGAG -CGCAACCCAGCCGCTGATGTATCAGAAAATCAAAAAACATCCGACACCGCGCAAAATCTACGCTGACAAGCTGGAGCAGG -AAAAAGTGGCGACGCTGGAAGATGCCACCGAGATGGTTAACCTGTACCGCGATGCGCTGGATGCTGGCGATTGCGTAGTG -GCAGAGTGGCGTCCGATGAACATGCACTCTTTCACCTGGTCGCCGTACCTCAACCACGAATGGGACGAAGAGTACCCGAA -CAAAGTTGAGATGAAGCGCCTGCAGGAGCTGGCGAAACGCATCAGCACGGTGCCGGAAGCAGTTGAAATGCAGTCTCGCG -TTGCCAAGATTTATGGCGATCGCCAGGCGATGGCTGCCGGTGAGAAACTGTTCGACTGGGGCGGTGCGGAAAACCTCGCT -TACGCCACGCTGGTTGATGAAGGCATTCCGGTTCGCCTGTCGGGTGAAGACTCCGGTCGCGGTACCTTCTTCCACCGCCA -CGCGGTGATCCACAACCAGTCTAACGGTTCCACTTACACGCCGCTGCAACATATCCATAACGGGCAGGGCGCGTTCCGTG -TCTGGGACTCCGTACTGTCTGAAGAAGCAGTGCTGGCGTTTGAATATGGTTATGCCACCGCAGAACCACGCACTCTGACC -ATCTGGGAAGCGCAGTTCGGTGACTTCGCCAACGGTGCGCAGGTGGTTATCGACCAGTTCATCTCCTCTGGCGAACAGAA -ATGGGGCCGGATGTGTGGTCTGGTGATGTTGCTGCCGCACGGTTACGAAGGGCAGGGGCCGGAGCACTCCTCCGCGCGTC -TGGAACGTTATCTGCAACTTTGTGCTGAGCAAAACATGCAGGTTTGCGTACCGTCTACCCCGGCACAGGTTTACCACATG -CTGCGTCGTCAGGCGCTGCGCGGGATGCGTCGTCCGCTGGTCGTGATGTCGCCGAAATCCCTGCTGCGTCATCCGCTGGC -GGTTTCCAGCCTCGAAGAACTGGCGAACGGCACCTTCCTGCCAGCCATCGGTGAAATCGACGAGCTTGATCCGAAGGGCG -TGAAGCGCGTAGTGATGTGTTCTGGTAAGGTTTATTACGACCTGCTGGAACAGCGTCGTAAGAACAATCAACACGATGTC -GCCATTGTGCGTATCGAGCAACTCTACCCGTTCCCGCATAAAGCGATGCAGGAAGTGTTGCAGCAGTTTGCTCACGTCAA -GGATTTTGTCTGGTGCCAGGAAGAGCCGCTCAACCAGGGCGCATGGTACTGCAGCCAGCATCATTTCCGTGAAGTGATTC -CGTTTGGGGCTTCTCTGCGTTATGCAGGCCGCCCGGCCTCCGCCTCTCCGGCGGTAGGGTATATGTCCGTTCACCAGAAA -CAGCAACAAGATCTGGTTAATGACGCGCTGAACGTCGAATAAATAAAGGATACACAATGAGTAGCGTAGATATTCTGGTC -CCTGACCTGCCTGAATCCGTAGCCGATGCCACCGTCGCAACCTGGCATAAAAAACCCGGCGACGCAGTCGTACGTGATGA -AGTGCTGGTAGAAATCGAAACTGACAAAGTGGTACTGGAAGTACCGGCATCAGCAGACGGCATTCTGGATGCGGTTCTGG -AAGATGAAGGTACAACGGTAACGTCTCGTCAGATCCTTGGTCGCCTGCGTGAAGGCAACAGCGCCGGTAAAGAAACCAGC -GCCAAATCTGAAGAGAAAGCGTCCACTCCGGCGCAACGCCAGCAGGCGTCTCTGGAAGAGCAAAACAACGATGCGTTAAG -CCCGGCGATCCGTCGCCTGCTGGCTGAACACAATCTCGACGCCAGCGCCATTAAAGGCACCGGTGTGGGTGGTCGTCTGA -CTCGTGAAGATGTGGAAAAACATCTGGCGAAAGCCCCGGCGAAAGAGTCTGCTCCGGCAGCGGCTGCTCCGGCGGCGCAA -CCGGCTCTGGCTGCACGTAGTGAAAAACGTGTCCCGATGACTCGCCTGCGTAAGCGTGTGGCAGAGCGTCTGCTGGAAGC -GAAAAACTCCACCGCCATGCTGACCACGTTCAACGAAGTCAACATGAAGCCGATTATGGATCTGCGTAAGCAGTACGGTG -AAGCGTTTGAAAAACGCCACGGCATCCGTCTGGGCTTTATGTCCTTCTACGTGAAAGCGGTGGTTGAAGCCCTGAAACGT -TACCCGGAAGTGAACGCTTCTATCGACGGCGATGACGTGGTTTACCACAACTATTTCGACGTCAGCATGGCGGTTTCTAC -GCCGCGCGGCCTGGTGACGCCGGTTCTGCGTGATGTCGATACCCTCGGCATGGCAGACATCGAGAAGAAAATCAAAGAGC -TGGCAGTCAAAGGCCGTGACGGCAAGCTGACCGTTGAAGATCTGACCGGTGGTAACTTCACCATCACCAACGGTGGTGTG -TTCGGTTCCCTGATGTCTACGCCGATCATCAACCCGCCGCAGAGCGCAATTCTGGGTATGCACGCTATCAAAGATCGTCC -GATGGCGGTGAATGGTCAGGTTGAGATCCTGCCGATGATGTACCTGGCGCTGTCCTACGATCACCGTCTGATCGATGGTC -GCGAATCCGTGGGCTTCCTGGTAACGATCAAAGAGTTGCTGGAAGATCCGACGCGTCTGCTGCTGGACGTGTAGTAGTTT -AAGTTTCACCTGCACTGTAGACCGGATAAGGCATTATCGCCTTCTCCGGCAATTGAAGCCTGATGCGACGCTGACGCGTC -TTATCAGGCCTACGGGACCACCAATGTAGGTCGGATAAGGCGCAAGCGCCGCATCCGACAAGCGATGCCTGATGTGACGT -TTAACGTGTCTTATCAGGCCTACGGGTGACCGACAATGCCCGGAAGCGATACGAAATATTCGGTCTACGGTTTAAAAGAT -AACGATTACTGAAGGATGGACAGAACACATGAACTTACATGAATATCAGGCAAAACAACTTTTTGCCCGCTATGGCTTAC -CAGCACCGGTGGGTTATGCCTGTACTACTCCGCGCGAAGCAGAAGAAGCCGCTTCAAAAATCGGTGCCGGTCCGTGGGTA -GTGAAATGTCAGGTTCACGCTGGTGGCCGCGGTAAAGCGGGCGGTGTGAAAGTTGTAAACAGCAAAGAAGACATCCGTGC -TTTTGCAGAAAACTGGCTGGGCAAGCGTCTGGTAACGTATCAAACAGATGCCAATGGCCAACCGGTTAACCAGATTCTGG -TTGAAGCAGCGACCGATATCGCTAAAGAGCTGTATCTCGGTGCCGTTGTTGACCGTAGTTCCCGTCGTGTGGTCTTTATG -GCCTCCACCGAAGGCGGCGTGGAAATCGAAAAAGTGGCGGAAGAAACTCCGCACCTGATCCATAAAGTTGCGCTTGATCC -GCTGACTGGCCCGATGCCGTATCAGGGACGCGAGCTGGCGTTCAAACTGGGTCTGGAAGGTAAACTGGTTCAGCAGTTCA -CCAAAATCTTCATGGGCCTGGCGACCATTTTCCTGGAGCGCGACCTGGCGTTGATCGAAATCAACCCGCTGGTCATCACC -AAACAGGGCGATCTGATTTGCCTCGACGGCAAACTGGGCGCTGACGGCAACGCACTGTTCCGCCAGCCTGATCTGCGCGA -AATGCGTGACCAGTCGCAGGAAGATCCGCGTGAAGCACAGGCTGCACAGTGGGAACTGAACTACGTTGCGCTGGACGGTA -ACATCGGTTGTATGGTTAACGGCGCAGGTCTGGCGATGGGTACGATGGACATCGTTAAACTGCACGGCGGCGAACCGGCT -AACTTCCTTGACGTTGGCGGCGGCGCAACCAAAGAACGTGTAACCGAAGCGTTCAAAATCATCCTCTCTGACGACAAAGT -GAAAGCCGTTCTGGTTAACATCTTCGGCGGTATCGTTCGTTGCGACCTGATCGCTGACGGTATCATCGGCGCGGTAGCAG -AAGTGGGTGTTAACGTACCGGTCGTGGTACGTCTGGAAGGTAACAACGCCGAACTCGGCGCGAAGAAACTGGCTGACAGC -GGCCTGAATATTATTGCAGCAAAAGGTCTGACGGATGCAGCTCAGCAGGTTGTTGCCGCAGTGGAGGGGAAATAATGTCC -ATTTTAATCGATAAAAACACCAAGGTTATCTGCCAGGGCTTTACCGGTAGCCAGGGGACTTTCCACTCAGAACAGGCCAT -TGCATACGGCACTAAAATGGTTGGCGGCGTAACCCCAGGTAAAGGCGGCACCACCCACCTCGGCCTGCCGGTGTTCAACA -CCGTGCGTGAAGCCGTTGCTGCCACTGGCGCTACCGCTTCTGTTATCTACGTACCAGCACCGTTCTGCAAAGACTCCATT -CTGGAAGCCATCGACGCAGGCATCAAACTGATTATCACCATCACTGAAGGCATCCCGACGCTGGATATGCTGACCGTGAA -AGTGAAGCTGGATGAAGCAGGCGTTCGTATGATCGGCCCGAACTGCCCAGGCGTTATCACTCCGGGTGAATGCAAAATCG -GTATCCAGCCTGGTCACATTCACAAACCGGGTAAAGTGGGTATCGTTTCCCGTTCCGGTACACTGACCTATGAAGCGGTT -AAACAGACCACGGATTACGGTTTCGGTCAGTCGACCTGTGTCGGTATCGGCGGTGACCCGATCCCGGGCTCTAACTTTAT -CGACATTCTCGAAATGTTCGAAAAAGATCCGCAGACCGAAGCGATCGTGATGATCGGTGAGATCGGCGGTAGCGCTGAAG -AAGAAGCAGCTGCGTACATCAAAGAGCACGTTACCAAGCCAGTTGTGGGTTACATCGCTGGTGTGACTGCGCCGAAAGGC -AAACGTATGGGCCACGCGGGTGCCATCATTGCCGGTGGGAAAGGGACTGCGGATGAGAAATTCGCTGCTCTGGAAGCCGC -AGGCGTGAAAACCGTTCGCAGCCTGGCGGATATCGGTGAAGCACTGAAAACTGTTCTGAAATAAATATCTGTAATAAGAA -ATAGCCCTCGCCGCTTCCCTCTACAGGAATGGCGAAGGGCTGTCGGTTTCGACATGGTTGGCCATCGTATGATGGCCTTT -TTTGTGCTTATCGCGATGATTTTCGCTGCGCTATCAGGGTAAATTTATAGTCATCGGTATTAAAAGCGTTGCGGCTATAT -TCAAACACCCGACCATCAACTAAATATCCACGCGATACTTTTTCAAGAATCGGCTTTGTCTGGCTGATATTAAGCAGACG -GCTCATCTCTTCGGTTGGCATCAGAGGAATGATTTCCTGTTCGCTACGATCGATAACCATTTTCTTCACTTCTTCGATAA -AGTGATATTTCGAATTTTCCATGACCTGCCAGGTGAGATCCGGGAACAACGCAAGCGGCATCCAGGTTTCTTCCAGCGCC -ATTGGCTTTTGCTTGCGATAGCGCACGCGCTTCACATGCCACACACGATCCTGCGGGGTGATTTGTAGCTGTTGCTGAAG -AAAATCGTCAGCCGGAATCACTTCGAATATCAGAACTTCACTGTGTGTATCGACGTGACGGTCCGACAGTTTTTCATCAA -AACTGGTTAACTGAAAAATATCGTAATTGACCCGCTCTTCTTTGACGTAAGTCCCGCTGCCCTGAATGCTTTCGAGGATC -TGCTGCTCGACTAGCTGGCGCAAAGCCTGACGCACCGTAACCCGGCTGACGCCAAACTCTGTTTGTAGCGCTGATTCAGT -GGGTAACGCATCGCCAGGTTTAAGCTCGCCACGCGCAATTTGTTCACGAATGCGATCGGCAATCTGCCGGTATAAGGGCT -TGTGTCCCATTTTTAGTATCTCATTAATACGAATTTAACCATTATGCCCGATAAATTCATCCTGTAAATAATACAAATAC -AATACAAATAATTTCAATCAAGTGAAATTGATCACATAATGGTATTGTTTTATCGGGCACACTGGCGCGACTATAAAAAC -GATCAAGTGAGGATCATGATGAATCTGACGACTCTGACCCACCGCGATGCGTTGTGTCTGAATGCGCGCTTTACCAGCCG -TGAAGAGGCCATCCACGCGTTGACTCAACGTCTTGCTGCTCTGGGGAAAATTTCCAGTACTGAGCAATTTCTGGAAGAAG -TGTATCGCCGTGAAAGCCTTGGCCCGACCGCCTTAGGTGAAGGGTTGGCTGTGCCGCATGGCAAAACTGCTGCGGTAAAA -GAAGCGGCGTTTGCGGTCGCCACACTCAGCGAGCCGCTTCAGTGGGAAGGCGTTGATGGCCCGGAAGCAGTTGATTTAGT -GGTGCTGCTGGCGATTCCCCCCAATGAAGCGGGTACTACGCATATGCAACTGCTGACAGCGCTGACCACGCGCCTTGCGG -ATGATGAGATTCGGGCGCGTATACAGTCGGCGACGACGCCTGATGAGTTGCTCTCGGCGCTGGATGACAAGGGAGGCACG -CAACCTTCTGCCTCTTTTTCCAACGCGCCAACTATCGTCTGCGTAACGGCCTGTCCGGCGGGTATTGCTCACACCTATAT -GGCTGCGGAATATCTGGAAAAAGCCGGACGCAAACTCGGCGTAAATGTTTACGTTGAAAAACAAGGCGCTAACGGCATTG -AAGGGCGTTTAACGGCGGATCAACTCAATAGTGCAACCGCCTGTATTTTTGCGGCTGAAGTCGCCATCAAGGAGAGTGAG -CGTTTTAATGGCATTCCCGCGCTTTCAGTGCCTGTTGCCGAGCCGATTCGCCATGCAGAAGCGTTGATCCAACAAGCGCT -TACCCTCAAGCGTAGCGATGAGACGCGTACCGTACAGCAAGATACGCAACCGGTGAAAAGTGTCAAAACGGAGCTGAAAC -AGGCACTGTTGAGCGGAATCTCTTTTGCCGTACCGTTGATTGTCGCGGGGGGCACGGTGCTGGCGGTCGCGGTATTACTG -TCGCAAATCTTCGGGCTACAAGATCTGTTTAATGAAGAAAACTCCTGGCTGTGGATGTACCGCAAGCTGGGCGGCGGGCT -GCTCGGAATTTTGATGGTACCGGTGCTCGCGGCCTATACCGCCTATTCTCTGGCAGATAAACCGGCGTTAGCGCCAGGCT -TTGCGGCTGGACTTGCCGCCAACATGATCGGCTCCGGGTTTCTCGGCGCGGTCGTTGGCGGATTGATAGCCGGTTACTTG -ATGCGCTGGGTGAAAAATCACTTGCGTCTTAGCAGTAAATTCAATGGATTCCTGACTTTTTATCTCTACCCGGTGCTCGG -TACGTTGGGAGCGGGCAGTCTGATGCTGTTTGTGGTGGGGGAACCTGTCGCCTGGATCAATAACTCGCTTACCGCCTGGC -TGAACGGTCTGTCAGGAAGTAACGCGCTGTTGCTGGGTGCCATTCTCGGTTTTATGTGTTCCTTTGACCTTGGAGGGCCA -GTGAATAAAGCCGCTTATGCATTCTGCCTGGGCGCAATGGCGAACGGCGTTTACGGCCCGTATGCCATTTTCGCCTCCGT -CAAAATGGTTTCGGCATTTACCGTAACCGCTTCCACGATGCTCGCACCGCGCCTGTTTAAAGAGTTTGAAATTGAGACCG -GGAAATCCACCTGGCTGTTAGGGCTGGCAGGTATTACCGAAGGGGCGATCCCGATGGCGATTGAAGATCCGCTGCGGGTT -ATTGGTTCGTTTGTGCTGGGCTCTATGGTAACGGGCGCTATTGTCGGTGCGATGAATATCGGCCTTTCGACACCCGGTGC -CGGCATTTTCTCGCTCTTTTTACTTCATGATAATGGCGCGGGCGGTGTTATGGCGGCAATTGGCTGGTTTGGCGCGGCAT -TGGTGGGGGCTGCAATCTCGACTGCAATTCTCCTGATGTGGCGGCGTCACGCGGTTAAGCATGGCAACTATCTGACTGAT -GGCGTAATGCCATAAACAAAAAGGAAACGACGATGAAAGCAGTATCTCGCGTTCACATCACCCCGCATATGCACTGGGAT -CGAGAGTGGTATTTCACCACCGAAGAGTCACGTATTCTGCTGGTCAATAATATGGAAGAGATCCTGTGCCGACTGGAACA -GGACAACGAATACAAATATTACGTACTCGACGGGCAAACGGCGATCCTCGAAGATTATTTCGCGGTGAAACCGGAAAACA -AAGACCGTGTGAAGAAACAGGTAGAAGCCGGCAAGTTGATTATCGGCCCCTGGTATACCCAGACCGATACCACGATTGTT -TCTGCGGAATCCATCGTCCGTAATCTGATGTACGGAATGCGTGACTGCCTCGCGTTTGGCGAGCCGATGAAAATAGGTTA -TTTACCAGATTCCTTTGGCATGTCCGGGCAACTGCCGCATATCTACAATGGATTTGGCATTACCCGCACCATGTTCTGGC -GCGGATGTTCGGAGCGCCACGGTACTGATAAAACCGAGTTTTTGTGGCAAAGCAGTGACGGTAGCGAAGTGACGGCGCAG -GTGCTGCCGCTGGGCTACGCCATCGGTAAGTACTTACCTGCCGACGAAAACGGATTACGTAAACGCCTCGACAGTTATTT -TGACGTGCTGGAAAAAGCGTCTGTAACCAAAGAGATTTTGCTGCCGAATGGGCATGACCAGATGCCATTGCAGCAAAATA -TCTTCGAAGTGATGGATAAGCTACGTGAGATCTACCCTCAACGTAAGTTTGTGATGAGCCGCTTTGAAGAGGTATTTGAG -AAGATCGAAGCGCAGCGAGATAATCTGGCAACCCTGAAAGGGGAATTTATTGATGGCAAATATATGCGCGTGCATCGCAC -CATCGGTTCTACGCGTATGGATATCAAAATTGCCCACGCGCGTATTGAAAATAAGATTGTTAATCTGCTGGAACCGCTGG -CAACACTGGCCTGGACGTTGGGTTTTGAATACCACCACGGCTTGCTGGAGAAAATGTGGAAAGAGATCTTAAAAAATCAT -GCCCACGACAGTATCGGCTGCTGCTGTAGTGACAAAGTTCATCGCGAAATCGTCGCCCGCTTCGAACTGGCTGAAGACAT -GGCGGATAATCTGATTCGTTTCTACATGCGCAAAATTGCCGACAACATGCCGCAGAGCGACGCCGACAAACTCGTCCTGT -TTAACCTGATGCCCTGGCCGCGTGAAGAAGTTATCAACACCACTGTGCGGCTGCGCGCCAGCCAGTTTAATTTGCGGGAC -GATCGCGGTCAGCCTGTACCGTATTTTATTCGCCATGCCCGTGAGATCGATCCAGGCCTAATCGATCGGCAAATAGTTCA -TTACGGTAATTACGATCCCTTTATGGAGTTTGATATACAGATCAACCAGATTGTCCCTTCTATGGGCTATCGCACGCTTT -ATATCGAAGCGAATCAGCCTGGCAACGTAATTGCGGCAAAAAGTGACGCTGAAGGGATACTGGAAAATGCTTTCTGGCAA -ATTGCGCTCAATGAGGATGGTTCTCTGCAACTGGTAGATAAAGACAGCGGTGTGCGCTATGACCGGGTATTGCAAATTGA -AGAAAGCTCTGATGATGGTGATGAATATGACTATTCACCCGCAAAAGAAGAGTGGGTAATTACCGCAGCGAACGCGAAAC -CGCAATGCGATATTATTCATGAAGCCTGGCAGAGCAGGGCTGTTATCCGCTATGACATGGCAGTGCCGCTCAATTTGTCA -GAACGCAGCGCCCGGCAATCCACTGGCAGAGTAGGGGTGGTGTTGGTTGTCACTCTTAGTCATAACAGCAGGCGTATTGA -TGTGGATATCAATCTTGATAACCAGGCTGACGATCATCGCCTTCGTGTCCTGGTCCCTACACCTTTTAACACCGACAGTG -TTCTGGCAGATACGCAGTTTGGTTCGCTAACGCGCCCCGTGAACGACAGTGCAATGAACAACTGGCAGCAAGAAGGCTGG -AAAGAAGCGCCGGTTCCGGTATGGAATATGCTCAACTATGTTGCCTTACAGGAAGGGCGTAACGGCATGGCTGTCTTTAG -CGAAGGGTTACGTGAATTTGAAGTCATCGGTGAAGAGAAGAAAACCTTTGCCATTACGTTGCTGCGTGGCGTGGGCTTAC -TGGGCAAAGAAGATCTGCTTTTAAGGCCTGGGCGGCCTTCGGGAATTAAAATGCCAGTCCCGGACTCACAACTACGTGGT -CTGCTTTCTTGTCGCCTAAGTTTATTGAGTTATACCGGTACGCCAACCGCCGCTGGTGTAGCTCAGCAGGCGCGAGCATG -GCTGACTCCAGTACAGTGTTACAACAAAATCCCATGGGATGTGATGAAGCTCAACAAAGCCGGATTCAACGTGCCGGAAA -GTTATAGTTTGTTGAAAATGCCCCCAGTGGGATGCCTGATAAGCGCACTTAAGAAAGCTGAAGACCGACAAGAAGTGATT -TTACGGCTGTTTAATCCGGCTGAATCAGCAACCTGTGATGCGACTGTTGCTTTCAGTCGCGAGGTGATTTCTTGCTCAGA -AACGATGATGGATGAACACATTACCACCGAGGAAAATCAAGGTTCAAATCTATCGGGGCCTTTTTTACCCGGCCAGTCAC -GGACGTTCAGTTACCGGCTTGCCTGAATAGCAATCAAACCGAAGCCACATATGCGCGGCCAGATTGTTGACAAAGGGCGC -TTTGTTCATGCCGGATACGGCATGAACGCTTTATTCGGTCTACAAAAGCAGGCAAATTCAATATATTGCAGAGATGATGT -AGACACTGGCAAGCGTAGCGCATCAGGTAATTTTGCGTTTATCTTCACTCTCAAGCCACGTATATGTGGCTTTATTTTTA -ACAAAATAATAACCCTGGGTGAGTTAATTATAATATAATTATAAGTTAACTAAATGTTAATATTGGCGGGGTGGATTTAT -GCCTTTATTAGTAATCCTGAAACTCTGCGTCGTATTAGCCAGTGACCAAAAAAAGAATTAAGGTCAACCGTGCTGTTTTT -GCTTCGTCTCTTTTTATCTTTAATTGCCAACCGAAACTAATTTCAGCCTTATAACTCACACATTTTAAACATAAATGTCA -CTAAAGTTACCTTATTGAAACATGATTAACATAATTTGTAGGAATTGATATTTATCAATGTATAAGTCTTGGAAATGGGC -ATCAAAAAGAGATAAATTGTTCTCGATCAAATTGGCTGAAAGGCGGTAATTTAGCTATAAATTGATCACCGTCGAAAAAT -GCAAATTTGCTTCAACAAAAACCTGTTTATTGTAAGGATTTTGCGGCGTAATATATACGTGGGATCAATTTGAGTTTTTA -TTAACATGTTTGCAACCTTTCTTTACGCCGTTTTTGTGTGCATTCACATGGTATGATGAAAGTGTTCAAACAAATTTCTA -TTGGGGCATGCGTGTGACCCTTTCTAACGGGGTTCACTCTCGGAGTCTTCATGCGATGAGCAAGGAGTCATGATGTTAGA -TATAGTCGAACTGTCGCGCTTACAGTTTGCCTTGACCGCGATGTACCACTTCCTTTTTGTGCCACTGACGCTCGGTATGG -CGTTCCTGCTGGCCATTATGGAAACGGTCTACGTCCTCTCCGGCAAACAGATTTATAAAGATATGACCAAGTTCTGGGGC -AAGTTGTTTGGTATCAACTTCGCTCTGGGTGTGGCTACCGGTCTGACCATGGAGTTCCAGTTCGGGACTAACTGGTCTTA -CTATTCCCACTATGTAGGGGATATCTTCGGTGCGCCGCTGGCAATCGAAGGTCTGATGGCCTTCTTCCTCGAATCCACCT -TTGTAGGTCTGTTCTTCTTCGGTTGGGATCGTCTGGGTAAAGTTCAGCATATGTGTGTCACCTGGCTGGTGGCGCTCGGT -TCAAACCTGTCCGCACTGTGGATTCTGGTTGCGAACGGCTGGATGCAAAACCCAATCGCGTCCGATTTCAACTTTGAAAC -TATGCGTATGGAGATGGTGAGCTTCTCCGAGCTGGTGCTTAACCCGGTTGCTCAGGTGAAATTCGTTCACACTGTAGCGT -CTGGTTATGTGACTGGCGCGATGTTCATCCTCGGTATCAGCGCATGGTATATGCTGAAAGGTCGTGACTTCGCCTTCGCT -AAACGCTCCTTTGCTATCGCTGCCAGCTTCGGTATGGCTGCTGTTCTGTCTGTTATTGTTCTGGGTGATGAATCCGGCTA -CGAAATGGGCGACGTGCAGAAAACCAAACTGGCTGCTATTGAAGCCGAGTGGGAAACGCAACCTGCGCCTGCTGCCTTTA -CTCTGTTCGGCATTCCTGATCAGGAAGAGGAGACGAACAAATTTGCGATTCAGATCCCTTACGCACTGGGCATCATTGCA -ACGCGTTCCGTGGATACCCCGGTTATCGGCCTGAAAGAGCTGATGGTGCAGCATGAAGAACGCATTCGTAACGGGATGAA -GGCGTACTCTCTGCTCGAACAACTGCGTTCTGGTTCTACCGACCAGGCGGTTCGTGACCAGTTCAATAGCATGAAGAAAG -ACCTCGGTTACGGTCTGCTGCTGAAACGCTATACGCCAAACGTGGCTGATGCGACTGAAGCGCAGATTCAACAGGCAACC -AAAGACTCCATCCCGCGTGTAGCGCCGCTGTACTTTGCGTTCCGTATCATGGTGGCGTGTGGCTTCCTGCTTCTGGCAAT -CATCGCGCTCTCTTTCTGGAGTGTCATCCGCAACCGCATTGGCGAGAAAAAATGGCTTCTGCGCGCCGCGCTGTACGGTA -TTCCGCTGCCGTGGATTGCTGTAGAAGCGGGCTGGTTCGTGGCTGAATATGGCCGCCAACCGTGGGCTATCGGTGAAGTG -CTGCCGACAGCTGTGGCGAACTCGTCACTGACCGCAGGCGATCTCATCTTCTCAATGGTGCTGATTTGCGGCCTGTATAC -CCTGTTCCTGGTGGCAGAATTGTTCTTAATGTTCAAGTTTGCACGCCTCGGCCCAAGCAGCCTGAAAACCGGTCGCTATC -ACTTTGAGCAGTCTTCCACGACTACTCAGCCGGCACGCTAAGACAGGAGTCGTCAAATGATCGATTATGAAGTATTGCGT -TTTATCTGGTGGCTGCTGGTTGGCGTTCTGCTGATTGGTTTTGCAGTCACTGACGGTTTCGACATGGGGGTGGGCATGCT -CACCCGTTTCCTCGGTCGTAACGACACCGAGCGTCGAATTATGATTAACTCCATTGCACCACACTGGGACGGTAACCAGG -TTTGGCTGATCACCGCGGGCGGCGCACTCTTTGCTGCCTGGCCGATGGTCTATGCCGCTGCGTTCTCCGGCTTCTATGTG -GCGATGATCCTCGTGCTGGCGTCTTTGTTCTTCCGTCCGGTCGGTTTTGACTACCGCTCCAAGATTGAAGAAACCCGCTG -GCGTAACATGTGGGACTGGGGCATCTTCATTGGTAGCTTCGTTCCGCCGCTGGTAATTGGTGTAGCGTTCGGTAACCTGT -TGCAGGGCGTACCGTTCAACGTTGATGAATATCTGCGTCTGTACTACACCGGTAACTTCTTCCAGTTGCTTAACCCGTTC -GGCCTGCTGGCAGGCGTGGTGAGCGTAGGGATGATCATTACTCAGGGCGCAACCTATCTGCAAATGCGTACCGTGGGCGA -ACTGCACCTGCGTACCCGTGCAACGGCTCAGGTGGCTGCGCTGGTGACACTGGTCTGTTTCGCACTGGCTGGCGTATGGG -TGATGTACGGTATCGATGGTTATGTCGTGAAATCGACAATGGACCATTACGCAGCCTCTAACCCACTGAATAAAGAAGTG -GTTCGTGAAGCTGGCGCATGGCTGGTTAACTTCAACAACACGCCAATTCTGTGGGCTATTCCGGCACTGGGTGTGGTTCT -GCCGCTGCTGACCATCCTGACTGCACGTATGGATAAAGCCGCGTGGGCGTTTGTGTTCTCCTCCCTGACGCTGGCCTGCA -TCATCCTGACAGCCGGTATCGCAATGTTCCCGTTTGTGATGCCGTCCAGCACCATGATGAACGCAAGTCTGACAATGTGG -GATGCAACTTCCAGCCAGCTGACGCTTAACGTCATGACCTGGGTTGCGGTGGTTCTGGTACCGATCATTCTGCTCTACAC -CGCCTGGTGTTACTGGAAAATGTTCGGTCGTATCACCAAAGAAGATATTGAACGTAACACCCACTCTCTGTACTAAGTAA -GGAGCTAAAAATGTGGTATTTCGCATGGATTCTGGGAACGCTTCTTGCCTGTTCGTTTGGGGTAATCACCGCGCTGGCGC -TTGAACACGTCGAATCAGGCAAAGCCGGTCAAGAAGACATCTGATGAGTAAGATTATCGCGACTTTGTATGCGGTAATGG -ACAAGCGCCCCCTGCGGGCGCTTTCCTTCGTGATGGCGCTTCTGTTAGCAGGATGTATGTTTTGGGACCCATCTCGTTTT -GCCGCGAAGACCAGTGAACTGGAAATCTGGCATGGTTTATTGCTGATGTGGGCCGTCTGTGCTGGTGTGATTCACGGCGT -GGGCTTTCGTCCGCAGAAGGTTCTTTGGCAAGGGATTTTTTGCCCATTGCTTGCCGATATTGTTCTCATTGTCGGGCTGA -TTTTCTTCTTCTTTTAAATCAGAATTCTCTTTAAAAAATTATGGGCCGCTCCAGGCCCATAAATTTTTACGCTCCCTTAA -CTTGCCCTCATTCCCAAACCTCAATCGCGCGCGTATAGTAGCAGCGTTTAAAAGCTCTAACTTTTGTTGCATTACCGGGA -TGTAAAGTGAATACAACGCTGTTTCGATGGCCGGTTCGCGTCTACTATGAAGATACCGATGCCGGTGGTGTGGTGTACCA -CGCCAGTTACGTCGCTTTTTATGAAAGAGCACGCACAGAGATGCTGCGTCATCATCACTTCAGTCAGCAGGCGCTGATGG -CTGAACGCGTTGCCTTTGTGGTACGTAAAATGACGGTGGAATATTACGCACCTGCGCGGCTCGACGATATGCTCGAAATA -CAGACTGAAATAACATCAATGCGTGGCACCTCTTTGGTTTTCACGCAACGTATTGTCAACGCCGAGAATACTTTGCTGAA -TGAAGCAGAGGTTCTGGTTGTTTGCGTTGACCCACTCAAAATGAAGCCTCGTGCGCTTCCCAAGTCTATTGTCGCGGAGT -TTAAGCAGTGACTGACATGAATATCCTTGATTTGTTCCTGAAGGCTAGCCTTCTGGTTAAACTTATCATGTTGATTTTGA -TTGGTTTTTCAATCGCATCTTGGGCCATTATTATCCAGCGGACCCGTATTCTTAACGCAGCGGCGCGCGAAGCCGAAGCG -TTTGAAGATAAATTCTGGTCTGGAATCGAACTCTCTCGCCTCTATCAAGAGAGCCAGGGGAAACGGGATAATCTGACTGG -TTCGGAACAAATCTTTTACAGCGGGTTCAAAGAGTTTGTGCGCCTGCATCGTGCCAATAGCCATGCGCCGGAAGCCGTAG -TGGAAGGGGCGTCGCGTGCTATGCGTATCTCCATGAACCGTGAACTTGAAAATCTGGAAACGCACATTCCGTTCCTCGGT -ACGGTTGGCTCCATCAGCCCGTATATTGGTCTGTTTGGTACGGTCTGGGGGATCATGCACGCCTTTATCGCCCTCGGGGC -GGTAAAACAAGCAACACTGCAAATGGTTGCGCCCGGTATCGCAGAAGCGTTGATTGCGACTGCAATTGGTCTGTTTGCCG -CTATCCCGGCAGTTATGGCCTACAACCGCCTCAACCAGCGCGTAAACAAACTGGAACTGAATTACGACAACTTTATGGAA -GAGTTTACCGCGATTCTGCACCGCCAGGCGTTTACCGTTAGCGAGAGCAACAAGGGGTAAGCCATGGCCAGAGCGCGTGG -ACGAGGTCGTCGCGATCTCAAGTCCGAAATCAACATTGTACCGTTGCTGGACGTACTGCTGGTGCTGTTGCTGATCTTTA -TGGCGACAGCGCCCATCATCACCCAGAGCGTGGAGGTCGATCTGCCAGACGCTACTGAATCACAGGCGGTGAGCAGTAAC -GATAATCCGCCAGTGATTGTTGAAGTGTCTGGTATTGGTCAGTACACCGTGGTGGTTGAGAAAGATCGCCTGGAGCGTTT -ACCACCAGAGCAGGTGGTGGCGGAAGTGTCCAGCCGTTTCAAGGCCAACCCGAAAACGGTCTTTCTGATCGGTGGCGCAA -AAGATGTGCCTTACGATGAAATAATTAAAGCACTGAACTTGTTACATAGTGCGGGTGTGAAATCGGTTGGTTTAATGACG -CAGCCTATCTAAACATCTGCGTTTCCCTTGCTTGAAAGAGAGCGGGTAACAGGCGAACAGTTTTTGGAAACCGAGAGTGT -CAAAGGCAACCGAACAAAACGACAAGCTCAAGCGGGCGATAATTATTTCAGCAGTGCTGCATGTCATCTTATTTGCGGCG -CTGATCTGGAGTTCGTTCGATGAGAATATAGAAGCTTCAGCCGGAGGCGGCGGTGGTTCGTCCATCGACGCTGTCATGGT -TGATTCAGGTGCGGTAGTTGAGCAGTACAAACGCATGCAAAGCCAGGAATCAAGCGCGAAGCGTTCTGATGAACAGCGCA -AGATGAAGGAACAGCAGGCTGCTGAAGAACTGCGTGAGAAACAAGCGGCTGAACAGGAACGCCTGAAGCAACTTGAGAAA -GAGCGGTTAGCGGCTCAGGAGCAGAAAAAGCAGGCTGAAGAAGCCGCAAAACAGGCCGAGTTAAAGCAGAAGCAAGCTGA -AGAGGCGGCAGCGAAAGCGGCGGCAGATGCTAAAGCGAAGGCCGAAGCAGATGCTAAAGCTGCGGAAGAAGCAGCGAAGA -AAGCGGCTGCAGACGCAAAGAAAAAAGCAGAAGCAGAAGCCGCCAAAGCCGCAGCCGAAGCGCAGAAAAAAGCCGAGGCA -GCCGCTGCGGCACTGAAGAAGAAAGCGGAAGCGGCAGAAGCAGCTGCAGCTGAAGCAAGAAAGAAAGCGGCAACTGAAGC -TGCTGAAAAAGCCAAAGCAGAAGCTGAGAAGAAAGCGGCTGCTGAAAAGGCTGCAGCTGATAAGAAAGCGGCAGCAGAGA -AAGCTGCAGCCGACAAAAAAGCAGCAGAAAAAGCGGCTGCTGAAAAGGCAGCAGCTGATAAGAAAGCAGCGGCAGAAAAA -GCCGCCGCAGACAAAAAAGCGGCAGCGGCAAAAGCTGCAGCTGAAAAAGCCGCTGCAGCAAAAGCGGCCGCAGAGGCAGA -TGATATTTTCGGTGAGCTAAGCTCTGGTAAGAATGCACCGAAAACGGGGGGAGGGGCGAAAGGGAACAATGCTTCGCCTG -CCGGGAGTGGTAATACTAAAAACAATGGCGCATCAGGGGCCGATATCAATAACTATGCCGGGCAGATTAAATCTGCTATC -GAAAGTAAGTTCTATGACGCATCGTCCTATGCAGGCAAAACCTGTACGCTGCGCATAAAACTGGCACCCGATGGTATGTT -ACTGGATATCAAACCTGAAGGTGGCGATCCCGCACTTTGTCAGGCTGCGTTGGCAGCAGCTAAACTTGCGAAGATCCCGA -AACCACCAAGCCAGGCAGTATATGAAGTGTTCAAAAACGCGCCATTGGACTTCAAACCGTAATCGCGATGTTGACTGTTC -GGACGGTCAACATCAGGCACCGGTTGCCACGGGGTTCTGGTAGTTTTGTGTATTTTAGTTTGTTAACATTCTGCTAAATT -ATCGTGGGCCATCGGTCCAGATAAGGGAGATATGATGAAGCAGGCATTACGAGTAGCATTTGGTTTTCTCATACTGTGGG -CATCAGTTCTGCATGCTGAAGTCCGCATTGTGATCGACAGCGGTGTAGATTCCGGTCGTCCTATTGGTGTTGTTCCTTTC -CAGTGGGCGGGGCCTGGTGCGGCACCTGAAGATATTGGCGGCATCGTTGCTGCTGACTTGCGTAACAGCGGTAAATTTAA -TCCGTTAGATCGCGCTCGTCTGCCACAGCAGCCGGGTAGTGCGCAGGAAGTACAACCAGCTGCATGGTCCGCACTGGGCA -TTGACGCTGTAGTTGTCGGTCAGGTCACTCCGAATCCGGATGGTTCTTACAATGTTGCTTATCAACTTGTTGACACTGGC -GGCGCACCGGGTACTGTACTTGCTCAGAACTCGTACAAAGTGAACAAGCAGTGGCTGCGTTATGCTGGTCATACCGCCAG -TGATGAAGTGTTTGAAAAACTGACCGGCATTAAAGGTGCGTTCCGTACTCGTATTGCCTACGTTGTTCAGACCAACGGCG -GTCAGTTCCCGTATGAACTGCGCGTATCTGACTATGACGGTTACAACCAGTTTGTCGTTCACCGTTCACCGCAGCCGCTG -ATGTCTCCGGCGTGGTCACCAGACGGTTCTAAACTGGCTTATGTGACCTTCGAAAGCGGTCGTTCCGCGCTGGTTATTCA -GACGCTGGCAAATGGCGCTGTACGTCAGGTGGCTTCATTCCCGCGTCACAACGGTGCACCTGCATTCTCGCCAGACGGCA -GCAAACTGGCATTCGCCTTGTCGAAAACCGGTAGTCTGAACCTGTACGTAATGGATTTGGCTTCTGGTCAGATCCGCCAG -GTGACTGATGGTCGCAGTAACAATACCGAACCGACCTGGTTCCCGGATAGCCAGAACCTGGCATTTACTTCTGACCAGGC -CGGTCGTCCGCAGGTTTATAAAGTGAATATCAACGGCGGTGCGCCACAACGTATTACCTGGGAAGGTTCGCAGAACCAGG -ATGCGGATGTCAGCAGCGACGGTAAATTTATGGTAATGGTCAGCTCCAATGGTGGGCAGCAGCACATTGCCAAACAAGAT -CTGGCAACGGGAGGCGTACAAGTTCTGTCGTCCACGTTCCTGGATGAAACGCCAAGTCTGGCACCTAACGGCACTATGGT -AATCTACAGCTCTTCTCAGGGGATGGGATCCGTGCTGAATTTGGTTTCTACAGATGGGCGTTTCAAAGCGCGTCTTCCGG -CAACTGATGGACAGGTCAAATTCCCTGCCTGGTCGCCGTATCTGTGATAATAATTAATTGAATAGTAAAGGAATCATTGA -AATGCAACTGAACAAAGTGCTGAAAGGGCTGATGATTGCTCTGCCTGTTATGGCAATTGCGGCATGTTCTTCCAACAAGA -ACGCCAGCAATGACGGCAGCGAAGGCATGCTGGGTGCCGGCACTGGTATGGATGCGAACGGCGGCAACGGCAACATGTCT -TCCGAAGAGCAGGCTCGTCTGCAAATGCAACAGCTGCAGCAGAACAACATCGTTTACTTCGATCTGGACAAGTACGATAT -CCGTTCTGACTTCGCTCAAATGCTGGATGCACATGCAAACTTCCTGCGTAGCAACCCGTCTTACAAAGTCACCGTAGAAG -GTCACGCGGACGAACGTGGTACTCCGGAATACAACATCTCCCTGGGTGAACGTCGTGCGAACGCCGTTAAGATGTACCTG -CAGGGTAAAGGCGTTTCTGCAGACCAGATCTCCATCGTTTCTTACGGTAAAGAAAAACCTGCAGTACTGGGTCATGACGA -AGCGGCATACTCCAAAAACCGTCGTGCGGTACTGGTTTACTAAGAGAATTGCATGAGCAGTAACTTCAGACATCAACTAT -TGAGTCTGTCGTTACTGGTTGGTATAGCGGCCCCCTGGGCCGCTTTTGCTCAGGCACCAATCAGTAGTGTCGGCTCAGGC -TCGGTCGAAGACCGCGTCACTCAACTTGAGCGTATTTCTAATGCTCACAGCCAGCTTTTAACCCAACTCCAGCAACAACT -TTCTGATAATCAATCCGATATTGATTCCCTGCGTGGTCAGATTCAGGAAAATCAGTATCAACTGAATCAGGTCGTGGAGC -GGCAAAAGCAGATCCTGTTGCAGATCGACAGCCTCAGCAGCGGTGGTGCAGCGGCGCAATCAACCAGCGGCGATCAAAGC -GGTGCGGCGGCATCAACGACGCCGACAGCTGATGCTGGTACTGCGAATGCTGGCGCGCCGGTGAAAAGCGGTAATGCAAA -CACGGATTACAATGCAGCTATTGCGCTGGTGCAGGATAAATCCCGCCAGGATGACGCAATGGTGGCATTTCAGAATTTCA -TCAAAAATTACCCTGATTCAACTTACCTGCCAAACGCCAATTATTGGCTGGGTCAGTTAAACTACAACAAGGGTAAAAAA -GATGATGCGGCGTACTATTTTGCTTCGGTAGTGAAAAACTATCCGAAGTCACCAAAGGCTGCAGATGCGATGTTTAAAGT -CGGCGTCATCATGCAGGACAAAGGTGACACCGCAAAAGCGAAAGCCGTATACCAGCAGGTTATCAGTAAATACCCTGGTA -CTGATGGCGCTAAACAGGCACAAAAACGTCTGAACGCGATGTAATGCATAACACACGACCAGAAGTCGCATTATTTCTGG -TCGTGTCGTGCGAATCATAAGCAGTTGAGTGATCTACATCGAAATTTTTGTTGCGCTCAAGTCTGAAATCAGTAATATAT -GCCGCCGTTGCCACGGGATATCAAACAAACCGAAAGCAACGAAAAAGTGGGTCGTTAGCTCAGTTGGTAGAGCAGTTGAC -TTTTAATCAATTGGTCGCAGGTTCGAATCCTGCACGACCCACCAATCGCTAAGGTGGAAGCGGTAGTAAAACGTGAAGGA -TAACGTTGCATGAGCAACGGCCCGAAGGGCGAGACGAAGTCGAGTCATCCTGCACGACCCACCACTAACATAGTTAGTTG -TAGTATCCAGCGTAGTATCGGGTGATTAGCTCAGCTGGGAGAGCACCTCCCTTACAAGGAGGGGGTCGGCGGTTCGATCC -CGTCATCACCCACCACCGGGTCGTTAGCTCAGTTGGTAGAGCAGTTGACTTTTAATCAATTGGTCGCAGGTTCGAATCCT -GCACGACCCACCAGTTTTAACATCGAAGACAGATGTTAAGCGTGTAGGATAACGTTGCGTCAGCAACGGCCCGTAGGGCG -AGCGAAGCGAGTCATCCTGCACGACCCACCACTAATGACGGTGGGTTCGGTGGAAGTAGTTTGTAGTATCCAGCGCAGTA -TCGGGTGATTAGCTCAGCTGGGAGAGCACCTCCCTTACAAGGAGGGGGTCGGCGGTTCGATCCCGTCATCACCCACCACT -CGGGTCGTTAGCTCAGTTGGTAGAGCAGTTGACTTTTAATCAATTGGTCGCAGGTTCGAATCCTGCACGACCCACCAGTT -TTAACATCAAACTCAGATGTTAAGCGTGAAGGATAACGTTGCGCCAGCAACGGCCCGTAGGGCGAGCGAAGCGAGTCATC -CTGCACGACCCACCAATCTTAAAGATTGGCCCCGAGTAAAAATCTTTCAGGTAACACCCGTATGGGTCGTTAGCTCAGTT -GGTAGAGCAGTTGACTTTTAATCAATTGGTCGCAGGTTCGAATCCTGCACGACCCACCAATTTAAAGGTGGTTACTGGTA -GAGAACGTGAAGGATAACGTTGCGTTAGCAACGGCCCGAAGGGCGAGACGAAGTCGAGTCATCCTGCACGACCCACCATC -CTGAATGATTAAGGCAGCATAATCCCGCAAGGGGTCGTTAGCTCAGTTGGTAGAGCAGTTGACTTTTAATCAATTGGTCG -CAGGTTCGAATCCTGCACGACCCACCAATGTAAAAAAGCGCCCTAAAGGCGCTTTTTTGCTATCTGCGATACTCAAAGAT -TCGAACCTGCAGCAGGTTTGAGTTGAGCGCAGCGAAACAACGGAGCCGCTCGCGGCGACGGCCCGAAGGGCGAGCGAAGC -GAGTCATCCTGCACGACCCACCAATGTAAAAAAGCGCCCTAAAGGCGCTTTTTTGCTATTCAGGCATCCTCAATTTCACT -TTGTAAACCTGATGACATCGTCAGAGCTTACTGTGCAAGCAACTCTATGTCGGTGGAATTAGGCGTAAAATGACGCATCC -TGCACATTAGGCGTAATTCGAGTGACTTTTCCCCACCATTCGACTATCTTGTTTAGCATATAAAACAAATTACACCGATA -ACAGCGAATATTACGCTAATGTCGGTTTTAACGTTAAGCCTGTAAAACGAGATGGTAAGATGAGCGTAATGTTTGATCCA -GACACGGCGATTTATCCTTTCCCCCCGAAGCCGACGCCGTTAAGCATTGATGAAAAAGCGTATTACCGCGAGAAGATAAA -ACGTCTGCTAAAAGAACGTAATGCGGTGATGGTTGCCCACTACTATACCGATCCCGAAATTCAACAACTGGCAGAAGAAA -CCGGTGGCTGTATTTCTGATTCTCTGGAAATGGCGCGCTTCGGTGCAAAGCATCCCGCTTCTACTTTGTTAGTCGCTGGG -GTGAGATTTATGGGAGAAACCGCCAAAATTCTCAGTCCGGAAAAAACAATTCTGATGCCGACACTTCAGGCTGAATGTTC -ACTGGATCTCGGCTGCCCTGTTGAAGAATTTAACGCATTTTGCGATGCCCATCCCGATCGTACTGTCGTCGTCTACGCCA -ACACTTCTGCTGCGGTAAAAGCGCGCGCAGATTGGGTGGTAACTTCAAGCATTGCCGTCGAACTTATTGATCATCTTGAT -AGTTTGGGTGAAAAAATCATCTGGGCACCCGACAAACATCTGGGGCGTTACGTGCAAAAACAGACGGGTGGAGACATTCT -ATGCTGGCAGGGTGCCTGTATTGTGCATGATGAATTTAAGACTCAGGCGTTAACCCGCTTGCAAGAAGAATACCCGGATG -CTGCCATACTGGTGCATCCAGAATCACCACAAGCTATTGTCGATATGGCGGATGCGGTCGGTTCCACCAGTCAACTGATC -GCTGCTGCGAAAACATTGCCACATCAGAGGCTTATTGTGGCAACCGATCGGGGTATTTTCTACAAAATGCAGCAGGCGGT -GCCAGATAAAGAGTTACTGGAAGCACCAACCGCAGGTGAGGGTGCAACCTGCCGCAGCTGCGCGCATTGTCCGTGGATGG -CCATGAATGGCCTTCAGGCCATCGCAGAGGCATTAGAACAGGAAGGAAGCAATCACGAGGTTCATGTTGATGAAAGGCTG -CGAGAGAGGGCGCTGGTGCCGCTCAATCGTATGCTGGATTTTGCGGCTACACTACGTGGATAACGAATAATAAGGCGTAA -CGTTACGCTTTGGGGGAAAGATGGATTTTTTTAGTGTGCAGAATATCCTGGTACATATACCAATAGGGGCAGGCGGTTAT -GATCTCTCATGGATCGAAGCGGTAGGCACGATCGCCGGGTTGCTGTGTATTGGCCTTGCCAGTCTGGAGAAGATCAGCAA -CTACTTCTTTGGCCTGATCAACGTCACCTTGTTTGGCATTATTTTCTTTCAGATTCAGCTGTATGCCAGCCTGCTATTAC -AGGTGTTTTTCTTTGCCGCGAATATTTACGGTTGGTATGCGTGGTCGCGACAAACCAGTCAGAACGAGGCGGAGTTGAAA -ATTCGCTGGTTGCCATTGCCGAAGGCACTCAGCTGGTTGGCGGTTTGCGTTGTTTCGATTGGTCTGATGACGGTATTTAT -CAATCCGGTGTTTGCATTTTTGACCCGCGTGGCAGTCATGATCATGCAAGCATTAGGATTACAGGTTGTGATGCCTGAAC -TGCAACCGGACGCTTTCCCGTTCTGGGATTCATGCATGATGGTGTTATCTATCGTGGCAATGATTCTGATGACGCGTAAG -TATGTGGAAAACTGGCTGTTGTGGGTGATTATTAACGTGATTAGCGTCGTTATTTTTGCACTTCAGGGCGTTTACGCCAT -GTCTCTGGAGTACATCATCCTGACCTTTATTGCGCTCAACGGCAGCCGGATGTGGATCAACAGCGCACGTGAAAGAGGCT -CACGCGCGCTGTCCCATTAATGGTGATGATGTGAATGGCCAGACACCCCTTCATTCAGGTGGCAGTCTGGCCCATGACAA -GGTTGATATTCCATCTGAATGGTGGCGTGCTCAATCTGATAGTGATCCATCAGGTAGTGTTGGATCTGATCCAACAAGGC -ATCGTGATCGTGTGGCGGGATCACCTGCACATGCAACGTCATCACCGGCTTCTCGCCTACCATCCATACATGTACATGGT -GCACATTGCGGACTTCCGGGATTTCCCGGCACATACGACGCTTCAGTTCAGCGATATCCAGCGATACCGGTGCACCTTCA -AGTAATTCATTCACGCTATCTTTCAACAGTCGCCACGCGCTACGCAGAACCAGAAGCGACACCAGTATCGAGAGAATGGG -GTCAGCAGGTGTCCAGCCAGTCCAGATAATAATCAACGCGGCAATAATAGCCCCAACCGAACCCAGCAGGTCCCCGAGCA -CATGCAGTGCCGCTGCTCGTACGTTGAGGTTTTTCTCTTCGCTGCCGTGATGAAGTAACCAGAAAGAAAGTATATTTGCC -AGCAACCCAGCCACGGCAATTGCCATCATCATGCCGCCCTCGACCGGACGCGGCGTGCGGAAGCGTTCTATCGCCTCCCA -GACAATCAAAATGGTAATTACCACGAGGGCTATGGCATTCACAAACGCCGCGAGCGTGGTCAGTCTTAGCCAACCGAAAG -TGTGGCGAATGGTGGGAGGACGACGTGAAAATTGCACGGCGAGTAGGGCGAAAAGCAGGGCGGCAGTATCGGTCAACATA -TGACCCGCATCGGCCAGCAATGCCAGAGAACCAGAAAGAAAACCACCAACGACTTCTACCAGCATAAACCCGGCAGTCAC -GCCGAAAGCATACAACAAGCGACGAGCATTATTATCTTCTGGCAGGTGTGAGGACGTGTGTGAGTGTGAGTGCGCCATGA -CGAGTCATCCCTTAATTATTCTCACTTAACTTTATGACATCATACTGCTTTTAGAAGTGAAAAATTAAAAGGGAGAGACT -CCGCTCTCCCATTATTGGCTATTTTGCAGGGTTACTGCGTGGTACCGTCGGTTTTGGTATCGACATCATTATTGATGCCA -TCACCGGTTTGTACCTTTTTATTGATATCCGGACAGCGACCATCTTTGCACATGGTGTTCTTGTGCTCTTCATCTTTGGT -CATTCCGTCATTGTTCATTGAAGAACCATCCGAATGCAGCATTGTGCCGCCAGAACCGGTATTTACCCCGTTATTGTCGA -CGTTATTTGGCGCGACATTTTCACGGGCGTCAGGGGCTACCTGGCCCGCATCAGCTGCGGCGTTTGCCTGGCCGTTATTA -GTTTGCGCTCCGCTATCGGCAGCCAGTGCGGCACCGCTGGCAAGGCTTAGAGTGGCAGTCAGAAATAATGTGGCCAGTTT -TGTCATTTTCATAGGATGCTCCTGTTATGGTCGTTATGTCGGATAACCTCTTCCAACAGTGCATTTGCAGGTGAATATAA -GGCATTGGTTTAAGATTTCAGCCAGGTTATGAAACGCAGCAGAGAATCTTGAAATAATTAACAAACAAAGGAGTTACAGT -TAGAAATTGTAGGAGAGATCTCGTTTTTCGCGACAATCTGGCGTTTTTCTTGCTAATTCCAGGATTAATCCGTTCATAGT -GTAAAACCCCGTTTACACATTCTGACGGAAGATATAGATTGGAAGTATTGCATTCACTAAGATAAGTATGGCAACACTGG -AACAGACATGAATTATCAGAACGACGATTTACGCATCAAAGAAATCAAAGAGTTACTTCCTCCTGTCGCATTGCTGGAAA -AATTCCCCGCTACTGAAAATGCCGCGAATACGGTTGCCCATGCCCGAAAAGCGATCCATAAGATCCTGAAAGGTAATGAT -GATCGCCTGTTGGTTGTGATTGGCCCATGCTCAATTCATGATCCTGTCGCGGCAAAAGAGTATGCCACTCGCTTGCTGGC -GCTGCGTGAAGAGCTGAAAGATGAGCTGGAAATCGTAATGCGCGTCTATTTTGAAAAGCCGCGTACCACGGTGGGCTGGA -AAGGGCTGATTAACGATCCGCATATGGATAATAGCTTCCAGATCAACGACGGTCTGCGTATAGCCCGTAAATTGCTGCTT -GATATTAACGACAGCGGTCTGCCAGCGGCAGGTGAGTTTCTCGATATGATCACCCCACAATATCTCGCTGACCTGATGAG -CTGGGGCGCAATTGGCGCACGTACCACCGAATCGCAGGTGCACCGCGAACTGGCATCAGGGCTTTCTTGTCCGGTCGGCT -TCAAAAATGGCACCGACGGTACGATTAAAGTGGCTATCGATGCCATTAATGCCGCCGGTGCGCCGCACTGCTTCCTGTCC -GTAACGAAATGGGGGCATTCGGCGATTGTGAATACCAGCGGTAACGGCGATTGCCATATCATTCTGCGCGGCGGTAAAGA -GCCTAACTACAGCGCGAAGCACGTTGCTGAAGTGAAAGAAGGGCTGAACAAAGCAGGCCTGCCAGCACAGGTGATGATCG -ATTTCAGCCATGCTAACTCGTCCAAACAATTCAAAAAGCAGATGGATGTTTGTGCTGACGTTTGCCAGCAGATTGCCGGT -GGCGAAAAGGCCATTATTGGCGTGATGGTGGAAAGCCATCTGGTGGAAGGCAATCAGAGCCTCGAGAGCGGGGAGCCGCT -GGCCTACGGTAAGAGCATCACCGATGCCTGCATCGGCTGGGAAGATACCGATGCTCTGTTACGTCAACTGGCGAATGCAG -TAAAAGCGCGTCGCGGGTAAGGTTTAATTGTCGGATGCGCCGTCAGAGTGGCGTATCCGATGAATCACCACAGGCCTGAT -AAGTCGCGCAGCGTCGCATCAGGCAATGTGCTCCATTGTTAGCAACAAAAAAGCCGACTCACTTGCAGTCGGCTTTCTCA -TTTTAAACGAATGACGTTTACTTCGCTTTACCCTGGTTTGCAACCGCCGCTGCTTTCGCTGCGATCTCGTCAGCATTACC -CAGATAATAGCGTTTCAGCGGTTTGAAATTCTCGTCGAACTCATACACCAGCGGCACGCCAGTCGGGATATTAAGCTCAA -GAATCTCTTCTTCGCTCATGTTATCAAGATATTTCACCAGCGCACGTAAAGAGTTACCGTGTGCAGCGATGATCACGCGC -TCACCGCTCTTCATACGCGGCAGAATAGTTTCATTCCAGTAAGGGATCACGCGGTCAATGGTCAGCGCCAGGCTTTCCGT -CAGCGGCAGTTCTTTCTCGCTCAGTTTCGCGTAACGCGGATCGTGACCCGGATAACGCTCATCATCTTTAGTCAGTTCCG -GCGGAGTCACTGCAAAACCACGACGCCACTGTTTCACCTGCTCGTCGCCATACTTTTCAGCAGTTTCCGCTTTGTTCAGA -CCCTGCAACGCACCGTAGTGACGTTCGTTCAGTTTCCAGGATTTCTCAACGGGCAGCCATGCCTGATCCAGTTCGTCCAG -CACATTCCACAGGGTATGGATAGCGCGTTTCAGCACAGAAGTGTAAGCAAAGTCAAAGCTGTAACCTTCCTCTTTCAGCA -GCTTACCTGCTGCTTTTGCTTCGCTTACGCCTTTCTCAGACAGATCCACGTCGTACCAACCGGTGAAACGGTTTTCTTTG -TTCCACTGACTTTCGCCATGACGAACCAGAACCAGCTTAGTTACAGCCATATACTTACTCCTCAAATCATCTTTTAATGA -TAATAATTCTCATTATATTGCCGCGACGAAGCAACAGCAATGCTTACGCATAACCATAGCGAAAATAGTGGCGCAGTGTA -AGGTTGTTGTGAATATTGAGTTGCAAATATGTCGGTGTTTGCTGGTGATTTGAACAATATGAGATAAAGCCCTCATGACG -AGGGCGTAACATTACTCAGCAATAAACTGATATTCCGTCAGGCTGGAATACTCTTCGCCAGGACGCAGGAAGCAGTCCGG -TTGCGGCCATTCAGGGTGGTTCGGGCTGTCCGGTAGAAACTCGCTTTCCAGAGCCAGCCCTTGCCAGTCGGCGTAAGGTT -CGGTTCCCCGCGACGGTGTGCCGCCGAGGAAGTTGCCGGAGTAGAATTGCAGAGCCGGAGCGGTGGTGTAGACCTTCAGC -TGCAATTTTTCATCTGCTGACCAGACATGCGCCGCCACTTTCTTGCCATCGCCTTTGGCCTGTAACAAGAATGCGTGATC -GTAACCTTTCACTTTGCGCTGATCGTCGTCGGCAAGAAACTCACTGGCGATGATTTTGGCGCTGCGGAAATCAAAAGACG -TTCCGGCGACAGATTTCAGGCCGTCGTGCGGAATGCCGCCTTCATCAACCGGCAGATATTCGTCCGCCAGAATCTGCAAC -TTGTGATTGCGCACGTCAGACTGCTCGCCGTCAAGATTGAAATAGACGTGATTAGTCATATTCACCGGGCAAGGTTTATC -AACTGTGGCGCGATAAGTAATGGAGATACGGTTATCGTCGGTCAGACGATATTGCACCGTCGCGCCGAGATTACCCGGGA -AGCCCTGATCACCATCATCTGAACTCAGGGCAAACAGCACCTGACGATCGTTCTGGTTCACAATCTGCCAGCGACGTTTG -TCGAACCCTTCCGGCCCGCCGTGCAGCTGGTTAACGCCCTGACTTGGCGAAAGCGTCACGGTTTCACCGTCAAAGGTATA -ACGGCTATTGGCGATACGGTTGGCATAACGACCAATAGAGGCCCCCAGAAACGCGGCCTGATCCTGATAGCATTCCGGGC -TGGCACAGCCGAGCAGCGCCTCGCGGACGCTGCCATCGGAAAGCGGAATACGGGCGGAAAGTAAAGTCGCACCCCAGTCC -ATCAGCGTGACTACCATCCCTGCGTTGTTACGCAAAGTTAACAGTCGGTACGGCTGACCATCGGGTGCCAGTGCGGGAGT -TTCGTTCAGCACTGTCCTGCTCCTTGTGATGGTTTACAAACGTAAAAAGTCTCTTTAATACCTGTTTTTGCTTCATATTG -TTCAGCGACAGCTTGCTGTACGGCAGGCACCAGCTCTTCCGGGATCAGCGCGACGATACAGCCGCCAAATCCGCCGCCGG -TCATGCGTACGCCACCTTTGTCGCCAATCACAGCTTTGACGATTTCTACCAGAGTGTCAATTTGCGGCACGGTGATTTCG -AAATCATCGCGCATAGAGGCATGAGACTCCGCCATCAACTCGCCCATACGTTTCAGGTCGCCTTGCTCCAGCGCGCTGGC -AGCTTCAACGGTGCGGGCGTTTTCAGTCAGTATATGACGCACGCGTTTTGCCACGATCGGGTCCAGTTCATGCGCAACAG -CGTTGAACTCTTCAATGGTGACATCACGCAGGGCTGGCTGCTGGAAGAAACGCGCACCGGTTTCGCACTGTTCACGACGG -GTGTTGTATTCGCTGCCAACCAGGGTACGTTTGAAGTTACTGTTGATGATGACGACAGCCACACCTTTGGGCATGGAAAC -TGCTTTGGTCCCCAGTGAGCGGCAATCGATCAGCAAGGCATGATCTTTCTTGCCGAGCGCGGAAATTAGCTGATCCATGA -TCCCGCAGTTACAGCCTACAAACTGGTTTTCTGCTTCCTGACCGTTAAGCGCGATTTGTGCGCCGTCCAGCGGCAGATGA -TAAAGCTGCTGCAATACGGTTCCGACCGCGACTTCCAGTGAAGCGGAAGAACTTAACCCGGCACCCTGCGGCACATTGCC -GCTGATCACCATGTCCACGCCGCCGAAGCTGTTGTTACGCAGTTGCAGATGTTTCACCACGCCACGAACGTAGTTAGCCC -ATTGATAGTTTTCATGTGCGACAATGGGCGCATCGAGGGAAAACTCGTCGAGCTGATTTTCATAATCGGCTGCCATCACG -CGAACTTTACGGTCATCGCGTGGTGCACAACTGGATTTGCCCCTATATTTCCAGACATCTGTTATCACTTAACCCATTAC -AAGCCCGCTGCCGCAGATATTCCCGTGGCGAGCGATAACCCAGCGCACTATGCGGATGCCATTCGTTATAATGCTCGAAC -GCCTCTGCAAGGTTCTTTGCTGCCGTTAACCCGTCTGGTTTGGGCATGATACTGATGTAGTCACGCTTTATCGTTTTCAC -GAAGCTCTCTGCTATTCCGTTACTCTCCGGACTCCGCACCGCCGTGTTCTTCGGTTCAAGTCCCAACATCCGGGCGAACT -GGCGTGTTTCATTAGCCCGGTAGCATGAACCATTATCCGTCAGCCACTCCACTGGAGACGACGGAAGATCGTTGCCGAAG -CGGCGTTCCACCGCTCCCAGCATGACGTCCTGTACTGTTTCACTGTTGAAGCCGCCGGTAGTGACCGCCCAGTGCAGTGC -CTCACGATCACAGCAGTCCAGCGCGAACGTGACACGCAGTCTCTCTCCGTTATCACAGCAGAACTCGAACCCGTCAGAGC -ACCATCGCTGATTGCTTTCTTTCACGGCCACTCTGCCTGTATGTGCCCGTTTCGATGGCGGTACAGCAGGTTTTCGCTCA -AGCAACAGCGCATTCTGGCGCATGATCCGGTAAACACGTTTGGCATTGATCGCAGGCATACCATCAAGTTCTGCCTGTCT -GCGAAGCAGCGCCCATACCCGACGATAACCATACGTTGGCAGCTCTCCGATAACATGGTGTATACGGAGAAGCACATCCG -TATCATCAGTGTGACGACTGCGGCGGCCATCCATCCAGTCATCGGTTCGTCTGAGAATGACGTGCAACTGCGCACGCGAC -ACCCGGAGACAACGGCTGACTAAGCTTACTCCCCATCCCCGGGCAATAAGGGCGCGTGCGCTATCCACTTTTTTGCCCGT -CCATATTCAACGGCTTCTTTGAGGAGTTCATTTTCCATCGTTTTCTTGCCGAGCAGGCGCTGGAGTTCTTTAATCTGCTT -CATGGCGGCAGCAAGTTCAGAGGCAGGAACAACCTGTTCTCCGGCGGCGACAGCAGTAAGACTTCCTTCCTGGTATTGCT -TACGCCAGAGAAATAACTGGCTGGCTGCTACACCATGTTGCCGGGCAACGAGGGAGACCGTCATCCCCGGTTCAAAGCTC -TGCTGAACAATTGCGATCTTTTCCTGTGTGGTACGCCGTCTGCGTTTCTCCGGCCCTAAGACATCAATCATCTGTTCTCC -AATGACTAGTCTAAAAACTAGTATTAAGACTATCACTTATTTAAGTGATATTGGTTGTCTGGAGATTCAGGGGGCCAGTC -TAACAACTGATCACGGTTTGATAATCAATCGCGCAGGGCAGAACGAAACCGTCGTTGTAGTCGGTGTGTTCACCAATCAA -ATTCACGCGGCCAGGCGCCTGAATGGTGTGAGTGGCAGGGTAGCCAAATGCGTTGGCAAACAGAGATTGTGTTTTTTCTT -TCAGACTCATTTCTTACACTCCGGATTCGCGAAAATGGATATCGCTGACTGCGCGCAAACGCTCTGCTGCCTGTTCTGCG -GTCAGGTCTCGCTGGGTCTCTGCCAGCATTTCATAACCAACCATAAATTTACGTACGGTGGCGGAGCGCAGCAGAGGCGG -ATAAAAGTGCGCGTGCAGCTGCCAGTGTTGATTCTCTTCGCCATTAAATGGCGCGCCGTGCCAGCCCATAGAGTAGGGGA -AGGAGCACTGGAAGAGGTTGTCATAACGACTGGTCAGCTTTTTCAACGCCAGCGCCAGATCGCTGCGCTGGGCGTCGGTC -AAATCGGTGATCCGTAAAACGTGGGCTTTGGGCAGCAGTAGCGTTTCGAACGGCCAGGCAGCCCAGTAAGGCACGACGGC -TAACCAGTGTTCGGTTTCGACAACGGTACGGCTACCGTCTGCCAGCTCGCGCTGAACATAATCCACCAGCATTGGTGATT -TCTGTTCGGCAAAATATTCTTTTTGCAGGCGGTCTTCGCGCTCAGCTTCGTTAGGCAGGAAGCTATTTGCCCAAATCTGA -CCGTGCGGATGCGGGTTAGAGCAGCCCATCGCCGCGCCTTTGTTTTCAAAAACCTGCACCCATGGGTACGTTTTCCCCAG -TTCTGCGGTTTGCTCCTGCCAGGTTTTGACGATTTCCGTCAATGCTGCAACGCTGAGCTCTGGCAGCGTTTTACTGTGAT -CCGGTGAAAAGCAGATCACCCGGCTGGTGCCGCGCGCGCTCTGGCAACGCATCAGCGGATCGTGACTTTCTGGCGCATCT -GGCGTGTCAGACATCAAAGCCGCAAAGTCATTAGTGAAAACGTAAGTCCCGGTGTAATCGGGGTTTTTATCGCCTGTCAC -CCGCACATTACCTGCGCAGAGGAAGCAATCTGGATCGTGCGCAGGTAACACCTGTTTGGCTGGCGTTTCCTGCGCCCCCT -GCCAGGGGCGCTTAGCGCGGTGCGGTGAAACCAGAATCCATTGCCCGGTGAGCGGGTTGTAGCGGCGATGTGGATGATCA -ACGGGATTAAATTGCGTCATGGTCGTTCCTTAATCGGGATATCCCTGTGGATGGCGTGACTGCCAGTGCCAGGTGTCCTG -CGCCATTTCATCGAGTGTGCGCGTTACGCGCCAGTTCAGTTCACGGTCGGCTTTGCTGGCGTCCGCCCAGTAGGCCGGAA -GGTCGCCCTCGCGACGCGGTGCAAAATGATAATTAACCGGTTTGCCGCAGGCTTTGCTGAAGGCATTAACCACGTCCAGC -ACGCTGTTGCCTACGCCAGCGCCGAGGTTGTAGATGTGTACGCCTGGCTTGTTCGCCAGTTTTTCCATCGCCACGACGTG -ACCGTCCGCCAGATCCATTACGTGGATGTAATCGCGTACGCCAGTACCATCTTCGGTCGGATAATCGTTACCAAAAATCG -CCAGCGAGTCGCGACGGCCTACAGCAACCTGGGCGATGTATGGCATCAGGTTATTCGGAATGCCTTGCGGATCTTCGCCC -ATATCGCCCGACGGATGCGCGCCAACCGGGTTGAAGTAGCGCAGCAGGGCAATGCTCCAGTCCGGCTGGGCTTTTTGCAG -ATCGGTGAGGATCTGTTCCACCATCAGCTTGCTTTTGCCGTAAGGGCTTTGCGGTGTGCCGGTCGGGAAGCTTTCAACGT -ATGGAATTTTGGGCTGATCGCCATAAACGGTGGCGGAGAAGCTAAAAATAAAGTTTTTGACGTTAGCGGCGCGCATGGCG -CTAATCAGGCGCAGAGTGCCGTTGACATTGTTGTCGTAATATTCCAGCGGTTTTTGTACCGATTCGCCCACGGCTTTCAG -CCCGGCGAAGTGGATCACGGTGTCGATAGCGTGATCGTGCAGGATCTCGGTCATCAACGCTTCGTTACGAATATCGCCTT -CAACAAACGTTGGATGTTTGCCGCCTAAACGCTCGATAACAGGCAGTACGCTGCGCTTACTGTTACAGAGGTTATCAAGA -ATGATGACATCATGACCGTTTTGCAGTAATTGCACACAGGTATGACTTCCAATGTAACCGCTACCACCGGTAACCAGAAC -TCTCATAATTCGCTCCATTAGGCTTATGGTATGAAATAACCATAGCATAACAAAGATGCGAAAAGTGTGACATGGAATAA -ATTAGTGGAATCGTTTACACAAGAATTTAGCCGTTTTTTATGCGCGATTAAGTGATTATAAAACAGAGGGTTTATGAATG -ATTGCGCTTTTTATCTGAAAAAAGACGCGGTTTCATGCCTGCATGCGTCGAACCGTTGGCCGGAGAGGGTGCTAAGGCCG -CCTCCGGCAAGGTCAGCACTACCGACTCAATATATTTTTGTCAGCACATAGCGATAGAGTCCACCGTCCGGCACGAACTC -AAGACGATGGGTAATACAGGCAGGCGCATCTTCAGCGTGGTGCGAAACAAACAACAATTGCGTTTCACCTTCGCTAATCA -GCACATCAACAAAACGGCGGATAAGCTGGCGATTCAGCGGATCAAGCCCCTGTAGTGGTTCATCGAGAATAAGCAACGTC -GGATGTTTCACCAGTGCGCGGACAATCAGCGCCAGACGCTGCTGTCCCCAGGAAAGACTATGGAACGGAGCGTCAGCCGT -GCGTTTATCAATGCCGAGAATATCCAGCCACTGCTGCACCAGTTTTTGCTGGCGATCCGAAACGGCCTGATAAATGCCAA -TCGAATCAAAATAGCCAGAAAGAATCACATTACGCACGGTAGTGCTGACCCGGTAATCCAGATGCAAACTACTGCTGACG -TAACCGATATGCTTTTTGATATCCCAGATGGTTTCGCCGCTGCCGCGACGTCGTCCGAAAAGCGTCAAATCGTTGCTGTA -ACCTTGCGGATGATCGCCAGTAACCAGGCTTAATAACGTCGATTTTCCTGCACCATTTGGCCCGACAATTTGCCAGTGTT -CGCCTGGATTCACCTGCCAGCTAAGGTTATTAAGAATGGGGCGATCGTTATAAGAAACCACGCCATTGTTCAGCACAATG -CGCGGTTCGTTGGCGGGTAAGGCGTGACGTGCTGAAGGTTCATCCGGCTCCGGCAGTTGCACACCTTCAAGCTGTTCACT -ATGCGCCAGTTGCGCGACGAGTGCTTGTTGGAGCAGTTCCTCTTTAGCGCCAGTTTCCGCTAACGTGCAATCCGCCAGCA -CGCCAGCAAACTGGACAAACTCCGGGATCTCATCGAAGCGATTGAGCACCAGTACCAGAGTAATACCGGACTGATGTAAC -GAGGCGAGTCGCTCAGCCAGCTGCTGACGTGAGGCAACATCCAGGCCATCGAACGGCTCATCAAGAATCAACAAGTCAGG -CTCCGACATCAGCGCCTGACACAGCAGGGTTTTTCGCGTCTCGCCAGTGGAAAGGTATTTAAAGCGTCGGTCGAGGAGGG -CGGTAATACCGAACTGCTGCGCCAGTTGCATGCAACGCGGTGCATCCTTTACTTCATCCTGAATGATCTCAGCCGTAGTG -CGTCCGGTGTCATCTTCGCCAGGGCCGAGCATATCGGTGTTATTCCGCTGCCATTCGTCGCTGACGAGTTTTTGCAATTG -CTCGAAGGAGAGACGAGTGATGTGGGAAAACTGGCTTTGCCGTTCACCTTTCAAAAGCGGAAGTTCCCCCGCCAGCGCGC -GGGCCAGGGCCGATTTCCCGCTTCCATTCGAACCGACAAACGCCCAACTATCACCCGCGTTTAACGTTAGCTGAGGCAAT -TGCAGCGTTTTTGTGTCGCTAAGACGAAACGTGCCTTGCAAAATTTGCAACGATGACATTTTATATCCCACTTTGTGCAG -CGATTACTGACAGGGATACGTGTTTCATAACAAATTGTCAACACGCTTAGCACAGCGTGGCGATAATCACGCTGTCGGCA -TTAAAGTAGGCCGTGACATTCTGTCCTTGCTGAAGAGAAGTCGCTTCATTTACCGGCACTGTGGCGCACAGTGTTTGCCC -GTCGGGTAGCGCCATTAATACTTCGCACTGCTCTGCGCCGCGCTCAATATGACTAATAATACCCGGTAATTGGTTGTCAG -CGTTTTGCGCGACCGCCTCGTCCTGAGTAATACCTACCCACGGCGCTTTTAGCAATATCAACACTTCTTTGCCTTCATCC -AGCCCCAGACGCGCGCCGCTTTGTGCGGTAATTGCGACTTTCAGGCGTGTTTTTCCGTCAGCCAGTAAGACATCAACATG -CTGTTGAACGTCATCATGATCGCGGGCGGTGATGGTACCGAACCACTGGTTACGGGCGCTGGTTTGCAGTGAAAAACGTG -AGATCGCGGCCAGCAGGCTGTTCAGCGGCAGGGCGTCATCGTCACTTAACACATCAAAGGCTTTTTGCTGGATTTGCGCC -AGTAAGTCATAGAGCTGAATCAGTCGCTGACCATAGCGGGTCAGTACTGCGCCGCCGCCACCTTTACCGCCTGTTGCGCG -CTCGACCAGAATATGCTCACTTAACTGATTCATCTCGTTAATGGCATCCCAGGCGCTTTTATAGCTAATACCGGCATCTT -TCGCTCCCTGGCTAATGGAACCGGAAAGCGCAATGTGTTTTAGTAGCGAAATGCGGCGCGGGTCGGCGAATAATTTTTGT -TGGAGCTTAAGGGTGAGAAGGATTTCGGCCTGCATAACAATGTCCTGGCAAAAGTCTTATTGTGACGGAAAACGAACGCC -ACGCAAAGCTGACCGCACAAAAGGGGAGTGCTTTTCTGTGCTTAGCGGTTAGAATAGTCTCATGACTATATCTGGAGTTG -ACCATGTTAGAGTTATTAAAAAGTCTGGTATTCGCCGTAATCATGGTACCTGTCGTGATGGCCATCATCCTGGGTCTGAT -TTACGGTCTTGGTGAAGTATTCAACATCTTTTCTGGTGTTGGTAAAAAAGACCAGCCCGGACAAAATCATTGATTCCCTG -AATGCCCGCTTAGTCGGGCATTTTCTTTTTCTCAACTTCCTGCTTTTCCTGCCGATATTTTTTCTTATCTACCTCACAAA -GGTTAGCAATAACTGCTGGGAAAATTCCGAGTTAGTCGTTATATTGTCGCCTACATAACGTTACATTAAGGGGTTACCAA -TGGCTCGTAAATGGTTGAACTTGTTTGCCGGGGCGGCACTCTCTTTCGCTGTTGCTGGCAATGCACTGGCAGATGAAGGG -AAAATCACGGTGTTCGCCGCCGCATCACTGACTAACGCAATGCAGGACATTGCTACGCAGTTTAAAAAAGAGAAAGGCGT -GGATGTGGTTTCTTCTTTCGCTTCGTCATCTACTCTCGCCCGTCAGATTGAAGCGGGTGCGCCTGCGGATCTGTTTATTT -CTGCCGATCAGAAATGGATGGATTATGCGGTTGATAAAAAAGCGATCGATACAGCTACGCGTCAGACACTGCTCGGCAAT -AGCCTGGTCGTTGTAGCACCGAAAGCCAGCGTGCAGAAAGATTTCACCATCGACAGCAAAACCAACTGGACTTCACTGCT -GAATGGCGGTCGCCTGGCGGTTGGCGATCCGGAACATGTTCCCGCTGGCATTTATGCAAAAGAAGCACTGCAAAAACTGG -GCGCATGGGATACGCTCTCTCCGAAACTGGCCCCAGCGGAAGATGTTCGTGGGGCGCTGGCGCTGGTCGAACGTAACGAA -GCGCCTCTGGGCATTGTCTACGGTTCTGACGCAGTTGCCAGCAAAGGGGTAAAAGTGGTTGCCACCTTCCCGGAAGATTC -ACATAAAAAAGTGGAATATCCGGTTGCTGTTGTGGAAGGGCATAACAATGCGACAGTGAAAGCATTTTATGATTATCTGA -AGGGACCGCAGGCAGCGGAAATCTTTAAACGTTACGGATTTACAATCAAGTAATGATACTGACCGATCCAGAATGGCAGG -CAGTTTTATTAAGCCTGAAAGTTTCTTCCCTGGCTGTGCTGTTTAGCCTGCCGTTTGGGATCTTTTTTGCCTGGTTACTG -GTGCGTTGCACGTTTCCGGGCAAAGCTCTGCTCGACAGCGTACTGCATCTACCGCTGGTGTTACCGCCCGTGGTCGTCGG -TTACTTATTATTAGTTTCGATGGGACGGCGCGGATTTATCGGTGAACGTCTGTATGACTGGTTTGGTATTACCTTCGCCT -TTAGCTGGCGCGGCGCGGTTCTCGCTGCCGCCGTCATGTCGTTTCCGCTGATGGTGCGGGCAATTCGTCTGGCGCTGGAA -GGGGTTGATGTCAAACTGGAACAGGCCGCAAGAACACTGGGGGCCGGGCGCTGGCGCGTTTTCTTTACTATCACGTTACC -GCTGACCTTACCGGGAATTATTGTTGGTACGGTACTGGCTTTTGCTCGTTCTCTCGGTGAGTTTGGTGCAACCATCACCT -TTGTGTCGAACATTCCTGGTGAAACGCGAACCATTCCTTCTGCCATGTATACCCTGATCCAGACCCCCGGCGGGGAAAGT -GGAGCGGCGAGACTGTGCATTATTTCTATTGCGCTGGCGATGATCTCCCTGTTGATTTCAGAATGGCTGGCCAGAATCAG -CCGTGAACGGGCGGGGCGCTAATCATGCTGGAACTGAATTTTTCCCAGACGTTGGGCAACCATTGCCTGACTATTAATGA -AACGCTGCCCGCCAATGGCATCACTGCTATCTTTGGCGTCTCCGGTGCCGGAAAAACTTCGCTGATTAACGCCATCAGTG -GACTGACGCGCCCGCAAAAAGGGCGGATTGTCCTCAATGGGCGGGTACTAAATGATGCCGAAAAAGGTATCTGCCTGACG -CCGGAAAAGCGTCGCGTTGGCTATGTTTTTCAGGATGCGCGGCTGTTCCCGCATTACAAAGTGCGTGGCAATCTGCGCTA -CGGCATGTCGAAAAGTATGGTCGATCAGTTCGATAAGCTGGTGGCGCTTTTAGGCATTGAACCGTTGCTTGACCGTTTAC -CAGGCAGCCTGTCCGGAGGCGAAAAACAGCGCGTGGCGATTGGTCGGGCTTTGCTGACAGCACCGGAATTGCTGTTGCTG -GATGAACCGCTGGCGTCACTGGATATTCCGCGTAAACGCGAACTGTTGCCTTATCTGCAACGGCTGACACGGGAAATCAA -CATTCCGATGTTGTATGTCAGCCATTCGCTGGATGAGATCCTCCATCTGGCAGACAGAGTGATGGTACTGGAAAACGGTC -AGGTGAAAGCCTTTGGCGCGCTGGAGGAAGTGTGGGGCAGTAGCGTGATGAATCCGTGGCTGCCGAAAGAGCAACAAAGT -AGCATTCTGAAAGTGACGGTGCTTGAGCATCATCCGCATTACGCGATGACCGCGCTGGCGCTGGGCGATCAGCATTTGTG -GGTCAATAAGCTGGACGAACCGCTGCAAGCTGCGCTACGTATCCGCATTCAGGCTTCCGATGTTTCTCTGGTTTTACAAC -CGCCGCAGCAAACCAGCATTCGTAACGTATTGCGGGCAAAAGTTGTTAATAGTTATGACGACAACGGCCAGGTGGAAGTG -GAACTGGAAGTCGGCGGTAAAACGCTGTGGGCGCGTATCAGCCCGTGGGCCAGGGATGAACTGGCGATCAAACCTGGCCT -GTGGCTGTACGCGCAAATTAAAAGTGTGTCGATAACCGCCTGATTAAATCAGGTGGCTATAAATGAACTGGGCAATGCTG -TCGGTGGTGTTATCACCAATCACAATGTTGGCGCGCGCTTTTACCGCGTCATCGGCGTTGCCCATCGCCACGCCTGTACC -AGCGGCTTCCAGCATACTGATATCATTAAAGTTATCGCCGAATGCCACGACGTTTTCCATCGACCAACCTTGCGCCTCAA -CCCATTTCGTCAAACGTTTACCTTTGCTGTTGCCGCCGCGTGCAATATCAACCTGATCGTGCCAGGACCATTCACACTCC -AGTCCCAGTTCATGTTCGACATGCTTACCAAAATGCTGCAATTGCGGCAGGTCATCGTGCGTCAGGGCGAACTTCCATAC -GGCGTTAACTTGTTGCGCCGTTTCAGCCAGAGAAGCGACTTGTGTGAAAGTCGGACGCTGTTCCGGCGGCAGGGTTTGCG -CCCAGTTAGATGTGCGAATGACATGCCCGGTCGGGTGCTCATAGACCATTGCATCATCGACATACATCAGACCGTGAATG -TGGTGTTCATTCAGCATCTCAATGAGTTGCAGGGCTTTAATAACGGGCATTGGGTCCGCTTCCAGCACGGTTTTTGCATG -ATAATCATACAAATAGGTGCCATTACAGCAAATAGCAGGTGTATCCAGCGCCAGCGCCTGATAAAAAGGATGAATAGCGA -CGTGATGGCGACCTGTGACGATGATTAATTGATAGCCTGCTTCGCGAGCGCGGGCCAGGGCTTCTATCGATGAAGGAAGC -AGGGTCTTTTTCGGGGTCAATAAGGTGCCGTCTAAGTCGAGAGCAATCACGCGTGTGGTCATGGCGTATTCCAGATTAAG -GTTAAGAATTTTCGTCTGCGCGAATGGTACACCGATACCACTATCGGACAAAATTCTGCGTTTTAATTCAGCATTCACCG -CCAAAAGCGACTAATTTTAGCTGTTACAGTCAGTTGCTAAATGCAAAGGAGCATTCATGAAGCAAACAGTTTATATCGCC -AGCCCTGAGAGCCAGCAAATTCACGTCTGGAATCTGAATCATGAAGGCGCACTGACGCTGACACAGGTTGTCGATGTGCC -GGGGCAGGTGCAGCCGATGGTGGTCAGCCCGGACAAACGTTATCTCTATGTTGGTGTTCGCCCTGAGTTTCGCGTCCTGG -CGTATCGTATCGCCCCGGACGATGGCGCACTGACCTTTGCCGCAGAGTCTGCGCTGCCGGGTAGTCCGACGCATATTTCC -ACCGATCACCAGGGGCAGTTTGTCTTTGTAGGTTCTTACAATGCGGGTAACGTGAGCGTAACGCGTCTGGAAGATGGCCT -GCCAGTGGGCGTCGTCGATGTGGTCGAGGGGCTGGACGGTTGCCATTCCGCCAATATCTCACCGGACAACCGTACGCTGT -GGGTTCCGGCATTAAAGCAGGATCGCATTTGCCTGTTTACGGTCAGCGATGATGGTCATCTCGTGGCGCAGGACCCTGCG -GAAGTGACCACCGTTGAAGGGGCCGGCCCGCGTCATATGGTATTCCATCCAAACGAACAATATGCGTATTGCGTCAATGA -GTTAAACAGCTCAGTGGATGTCTGGGAACTGAAAGATCCGCACGGTAATATCGAATGTGTCCAGACGCTGGATATGATGC -CGGAAAACTTCTCCGACACCCGTTGGGCGGCTGATATTCATATCACCCCGGATGGTCGCCATTTATACGCCTGCGACCGT -ACCGCCAGCCTGATTACCGTTTTCAGCGTTTCGGAAGATGGCAGCGTGTTGAGTAAAGAAGGCTTCCAGCCAACGGAAAC -CCAGCCGCGCGGCTTCAATGTTGATCACAGCGGCAAGTATCTGATTGCCGCCGGGCAAAAATCTCACCACATCTCGGTAT -ACGAAATTGTTGGCGAGCAGGGGCTACTGCATGAAAAAGGCCGCTATGCGGTCGGGCAGGGACCAATGTGGGTGGTGGTT -AACGCACACTAACCGCTGATTTACCCGGCGCAGTCTCTCCTGCGCCGGTGTATTAACCTATCTCCTGTAACGCGTGTCTC -TGGCGTTCGACGATATTGGTCCACAAATTGTCTTTATCGTCAGTCCATAAATTAATCAGCAAGGCAAAAAAGCGTTCTGC -TGCTGGAGAAAGTACGGCATCTTTACGGCGAATTATTCCCAATGTTCGACGTATAACGGGTTCCACCAATGGGATACCAA -TAATCGAAGAATAGGGCGCATGAGGCATTGCCAGGCCAGGAAGCGCCGAAATCCCCAGTCCCGCCTCCACCAGTCCTAAT -GACGTCGAAAGATGACGCACTTCGTAAAACCAGTCCAGCTTCCAGGGCTTGTCGGCCAGCTGTTGTTCTATCAACAGTCG -GTTGCCGCTGGAGGAGCGTACGCCAATCATTTTGTAACCCACTAACTCCTGCCATTCTACAAGCTGCTTTTTGGCCAATG -GATGGTCACGCCGACAGGCCAGCACGAACGGCTCGTTGACCAGTGGGGTAAAATCAATGGATGAATTTGTGACGTTGTTC -ATGTTTATGCCAAAGTCTGATTCGTTACACAGCACCGATTCCATGCAATTATTCGTGCCTTGTTCCAGAATCCGCACTTT -AATATTGGGATACAGCTCATTAAATTTACCGATTGCCAGCGGTAAAAAATAAAATACTGCGGTCGGAATACACGCTAACG -TCACCATACCACGATGATAAGCATTCATATCACGAATATTAAAAAGCGTTTCATCGAATTTCTTTATTAATTCCCGCGCC -TCCGGGAGCAACCTTTTTCCTGCTTTTGTTAACGTAACCTTGCGAGTTGTACGCTCAAATAGTTGAACATGTAAATCTTC -CTCCATCTTTTTTATTCTTCGCGTTAATGCAGGTTGCGTAATATTGAGTAATTTAGCGGCATTGTTAAACGAACTGGACT -CTGCCAGTATGACAAATGCCTTCATACTTGATAATTCATGCTTCATTATTACTCCGGAAAATGGAAGCGACGATTTTGGG -TGGCTGGCCGTTAAAAATTTTAACTGCATTTAGCCAACTTAAATTAATGAAAAAATGTTATTAATCGTTGAGCTAAAGTC -ATTAGAGATGCTTTGCCCTTAATGTAACCATATCGCAATAAGTTATGTTTTTAAATTGAGGGCATTATTATGAAAAAAAT -ACCCTGCGTGATGATGCGAGGTGGAACCTCGAGGGGCGCGTTCCTGTTAGCGGAACATTTACCCGAAGATCAAACGCAGC -GCGATAAAATATTGATGGCAATTATGGGTTCCGGTAACGATCTGGAAATTGACGGTATTGGCGGCGGTAATCCACTGACC -AGTAAAGTCGCCATTATTAGCCGTTCCAGCGATCCGCGTGCTGATGTCGATTATCTGTTTGCGCAGGTAATCGTTCATGA -GCAACGTGTCGATACCACGCCTAACTGCGGCAATATGCTGTCTGGTGTTGGGGCATTCGCCATTGAAAATGGTTTGATTG -CAGCGACTTCGCCAGTTACTCGCGTACGTATCCGCAACGTCAATACGGGTACGTTCATCGAAGCTGATGTGCAAACGCCA -AATGGTGTTGTCGAGTACGAGGGTAGCGCCAGAATTGACGGCGTACCGGGTACTGCCGCACCGGTTGCGCTCACTTTCCT -GAATGCCGCTGGAACCAAAACCGGAAAAGTTTTCCCGACTGATAATCAGATTGATTATTTTGACGATGTCCCGGTGACCT -GTATCGATATGGCGATGCCAGTCGTCATTATTCCGGCTGAATATCTGGGAAAAACAGGTTATGAATTACCGGCGGAACTG -GATGCCGACAAAGCATTATTAGCCCGCATTGAATCTATCCGTCTACAAGCGGGTAAAGCAATGGGCTTAGGTGATGTCAG -TAATATGGTTATCCCTAAACCTGTGCTTATTTCTCCAGCGCAGAAAGGCGGGGCAATTAATGTGCGTTATTTTATGCCGC -ATTCTTGCCATCGCGCGCTGGCGATAACCGGTGCTATTGCTATTTCCAGTAGTTGTGCATTGGAAGGCACCGTCACCCGA -CAAATCGTCCCTTCTGTAGGATACGGCAATATCAATATTGAACACCCCAGTGGTGCGCTCGACGTTCATTTAAGTAATGA -AGGTCAGGATGCCACGACGTTACGCGCATCTGTTATTCGGACGACCAGAAAAATATTTTCCGGTGAAGTTTATCTTCCCT -GAAAAAATTCGTTGTCAGGATAAGGACAATCAATAAAGGACTTCTGTATGAGTCATACAGAAAGAACAGGATTTTAAATG -AATAAGAAATCGTTATGGAAGCTAATTCTGATATTAGCGATCCCATGTATTATTGGTTTTATGCCAGCTCCGGCAGGATT -AAGCGAACTGGCGTGGGTGCTTTTTGGTATTTACCTGGCGGCCATTGTGGGGCTGGTTATCAAGCCTTTCCCGGAACCTG -TCGTACTGTTAATTGCCGTTGCTGCCTCAATGGTGGTGGTCGGTAACTTATCCGACGGTGCGTTTAAAACCACCGCCGTA -TTAAGCGGTTACTCTTCAGGTACCACCTGGCTGGTGTTCTCGGCGTTTACCTTAAGCGCCGCATTTGTGACCACCGGTTT -AGGTAAACGTATTGCCTATCTGCTGATTGGTAAAATCGGTAACACCACGCTGGGTCTGGGTTACGTTACGGTATTCCTCG -ATCTGGTACTGGCTCCGGCAACACCGTCTAACACCGCGCGTGCGGGCGGCATTGTGTTACCGATCATCAACAGCGTGGCG -GTGGCTTTGGGGTCCGAACCGGAAAAAAGTCCGCGTCGTGTCGGACATTACCTGATGATGTCCATTTACATGGTCACCAA -AACCACCAGCTATATGTTCTTTACCGCAATGGCGGGGAACATTCTGGCGCTGAAAATGATCAACGACATTCTGCACCTGC -AAATTAGCTGGGGTGGATGGGCGCTGGCAGCCGGATTGCCGGGCATCATTATGCTGCTGGTCACCCCGCTGGTGATTTAC -ACCATGTATCCACCAGAAATTAAGAAGGTGGATAACAAAACCATCGCTAAAGCGGGCCTTGCCGAACTAGGACCGATGAA -AATCCGCGAAAAAATGCTGCTCGGTGTCTTTGTGCTGGCGCTGCTGGGCTGGATTTTCAGTAAGTCTCTGGGGGTTGATG -AATCCACCGTGGCAATCGTTGTTATGGCAACCATGCTGCTGCTGGGTATCGTTACCTGGGAAGACGTGGTTAAAAATAAA -GGCGGCTGGAATACCTTAATCTGGTACGGCGGTATTATCGGCTTAAGCTCCTTATTATCGAAAGTTAAATTCTTCGAATG -GTTAGCTGAAGTCTTTAAAAATAACCTGGCATTTGATGGTCACGGTAACGTTGCTTTCTTCGTTATTATTTTCCTCAGCA -TTATCGTGCGTTATTTCTTCGCTTCCGGTAGTGCCTATATCGTTGCTATGTTACCGGTATTTGCCATGCTGGCGAACGTC -TCCGGCGCACCGTTAATGTTAACCGCGCTGGCACTGTTGTTCTCCAACTCCTATGGCGGCATGGTTACTCACTATGGCGG -CGCGGCAGGTCCGGTCATCTTTGGCGTGGGTTATAACGATATTAAATCCTGGTGGTTGGTCGGTGCGGTACTGACGATAT -TAACCTTCCTGGTGCATATCACCCTCGGCGTGTGGTGGTGGAATATGCTGATCGGCTGGAACATGCTGTAAATATTCTCG -TCATACTTCAAGTTGCATGTGCTGCGTCTGCGTTCGCTCACCCCAGTCACTTACTTATGTAAGCTCCTGGGGATTCACTC -GCTTGTCGCCTTCCTGCAACTCGAATTATTTAGAGTATATCCATTTATTATCTTTCTGCGCACTTCACGGTGCGCAGATA -TCTGGAGCATTTGATGATCAAGTTATCTGAAAAAGGCGTGTTTCTCGCCAGTAATAACGAAATAATTGCCGAAGAACATT -TCACCGGCGAAATTAAAAAAGAAGAAGCCAAAAAAGGCACTATTGCCTGGTCTATTCTCTCTTCGCATAATACGTCCGGA -AATATGGATAAACTTAAAATTAAGTTTGATTCATTAGCCTCTCACGATATTACCTTTGTTGGTATTGTACAGACCGCTAA -AGCGTCCGGTATGGAACGTTTCCCGCTGCCGTATGTGCTGACCAACTGCCATAACTCACTCTGCGCCGTCGGCGGCACTA -TTAACGGTGATGACCATGTTTTTGGTTTATCGGCGGCCCAGCGTTATGGCGGTATTTTTGTGCCTCCGCATATTGCGGTC -ATCCATCAATATATGCGTGAGATGATGGCAGGCGGCGGCAAAATGATCCTCGGGTCAGACAGCCACACCCGTTACGGTGC -ATTAGGGACAATGGCAGTCGGTGAGGGCGGCGGTGAGTTGGTAAAACAGCTGCTTAATGACACCTGGGATATCGACTATC -CGGGCGTGGTTGCGGTGCATCTGACCGGAAAACCTGCGCCGTATGTGGGGCCACAGGATGTGGCGCTGGCTATCATTGGC -GCGGTGTTCAAAAACGGTTACGTCAAAAACAAAGTCATGGAGTTCGTTGGACCGGGCGTTAGCGCGCTCTCTACCGATTT -CCGTAACAGCGTTGACGTGATGACCACTGAAACGACCTGTTTAAGTTCTGTCTGGCAAACCGATGAAGAAGTCCATAACT -GGCTGGCGCTGCACGGTCGCGGCCAGGATTACTGCCAGCTTAACCCTCAACCGATGGCGTACTACGATGGCTGCATCAGC -GTTGATTTAAGCGCCATCAAACCAATGATTGCGCTGCCGTTCCACCCGAGCAACGTGTATGAAATCGACACACTGAACCA -GAACCTGACCGACATTCTGCGTGAGATTGAAATTGAGTCCGAACGCGTGGCGCACGGTAAAGCCAAACTCTCGCTGCTGG -ATAAAGTGGAAAATGGTCGCCTGAAAGTGCAGCAGGGGATTATCGCGGGCTGTTCTGGCGGTAACTACGAAAACGTCATC -GCGGCGGCGAATGCACTGCGCGGTCAATCCTGTGGCAATGACACCTTCTCGCTGGCAGTTTACCCGTCATCACAGCCGGT -GTTTATGGATCTCGCCAAAAAAGGTGTGGTAGCAGATTTGATTGGCGCAGGCGCAATCATCAGAACCGCGTTCTGCGGCC -CATGCTTTGGCGCGGGCGATACGCCAATCAACAACGGTTTGAGTATTCGCCACACCACGCGTAACTTCCCGAACCGCGAA -GGCTCTAAGCCAGCTAATGGGCAGATGTCAGCGGTGGCGTTGATGGACGCTCGTTCTATCGCTGCGACTGCGGCAAACGG -TGGCTATTTAACCTCTGCCAGCGAACTTGATTGCTGGGACAACGTGCCGGAGTACGCCTTCGATGTAACGCCGTATAAAA -ACCGTGTTTATCAGGGCTTTGTGAAAGGGGCAACTCAGCAACCGCTGATTTACGGGCCGAACATTAAAGACTGGCCGGAA -TTGGGTGCGCTGACTGACAATATCGTCCTGAAAGTGTGCTCGAAGATCCTCGACGAAGTGACCACCACCGACGAACTGAT -TCCTTCCGGTGAAACCTCTTCTTATCGTTCAAATCCGATTGGTCTGGCGGAGTTTACCCTGTCTCGCCGCGATCCCGGTT -ATGTTAGCAGAAGTAAAGCGACTGCTGAGCTGGAAAATCAGCGTCTGGCGGGGAATGTCAGCGAGCTGACAGAGGTGTTT -GCGCGCATTAAGCAGATTGCTGGTCAGGAGCATATTGATCCGCTGCAAACTGAAATTGGCAGCATGGTCTATGCGGTGAA -ACCAGGCGATGGTTCTGCGCGTGAACAGGCGGCGAGCTGCCAGCGTGTGATTGGCGGTCTGGCGAATATTGCCGAGGAGT -ACGCGACTAAACGCTATCGTTCTAACGTCATCAACTGGGGGATGTTACCGCTGCAAATGGCGGAAGTACCAACCTTTGAA -GTGGGGGATTACATTTACATCCCTGGCATTAAAGCGGCGCTGGATAATCCGGGTACGACGTTTAAAGGTTATGTGATCCA -TGAAGATGCGCCGGTAACGGAAATTACGCTCTATATGGAAAGTCTGACTGCTGAAGAGCGCGAGATTATCAAGGCGGGTA -GTTTGATTAACTTCAATAAAAACCGTCAGATGTAAAAAGCGCCATGTGAATGTAGGTCGCATTCGGCACTTATTGTCGGA -TGCGATGCTTGCGCATCTTATCCGACCTACGAATCGCATCGAATCTGTAGGCCAGATAAGGCATTTTCGCAGCATCCGGC -ACTTATTGTCGGATGCGATGCTTGCGCATCTTATCCGACCTACAAATCGCATCGAACCGTAGGCCGGATAAGGCGTTTAC -GCCGCATCCGGCAAATAGTTAATTGCTCTTACTTCTTCGCCTCTGCAACCACTTTACTACCCACGCCGCGGTTATTGTAT -TCCCACATGCGGTTGTAGTTAGTGTCATTCAGATTGCGCTGTATTTCGTCGTTATCATCTACGCTGCCGGTATTACCCGC -AAACGGACGATTAGAGATCACCGCATCGGCCCACGGTTTAGCCGTGTTAAAACCTTCGTTGATGGCGCTATCACGGATCA -CCACCTGACCGTTGGTATTGGCATCAACATCCAGCGAGCGGCCCAGTTGCGCCACACCATCACCGAAAGCATTGAAACGG -CTGTTTACGGCGAGGAAACCGTAGTAAATGTTGGACAGCGTAGCCGGTGCAAACACATACGCTTCTTGCTGAGTACGTGA -GTTCACCACGCGGAATTCGGTGTTATCGAACACCACTGCGCCGCGACCAGAAACGATATCCACATCCCCTTCAATGTAGC -TGTTGGTCACCAGCGTACGCGGCTGACGATTCGTTTCCAGACGGTTCTGCACACCGCTGTTGGTGACAAAGAAGGTGTTC -TGACGACCGAGAATGTTAACGTTGTTAATCTGTACCTGGTCACCATCAGTACGCAGTGCCACCGCCGGATGGTTACCTGC -ATCTACGCTATCGCCCAGCGTGTTTTCGATGGTCAGATTTTGCAGTTGCAGGCCATTGTTTTGTGACCAGAAGACCGCAG -AGCAGAGAACACCGATACTGTCGCTGCGTTTGCTCTGGCAGCTATCGTACATATACCACGCTGGTTTACCTGGCATATAT -TTGCCGCGCGGGTTGACGTCGTGACGCCAGTCGGCAGGGCTCATGCCACCATCAAGGGAAAGCCCAATCTTCACATCAAT -CGGTTTTTCACCTGTACCGTACAGAGTAATTCCACCCGGAGCGGCAGGGACATATACCGTTCCCTGATACTCACCAGGCA -TCACGGCAATATACTGGCGCTTGTTGGTACGCTTGATAATTGCCGCATCTACCGCCGCCTGAATCGTGGTATGCGTTACA -CCTTGAGTGCCCGCCGGGCCGACAACAAAGTCAGGTTGCGCAGGCAGGGTAATCGGGGAAGGATTCCACGCTGCAGCACC -TGGTGTCAGGGATGCAAAATAGTGTTGAGCATCGAAATTCTGCGCTTCTTTTGCCGACAGAATCGGGCGAGAAGAGGTAC -CAGGCGCGGTTTGATCAGAAGGACGTTGATCGGGCGGGGTTGAGCTACAGGCGGTCAGCGTCACGCCAAAAGCCAATGCC -AGCGCCAGACGGGAAACTGAAAATGTGTTCACAGGTTGCTCCGGGCTATGAAATAGAAAAATGAATCCGTTGAAGCCTGC -TTTTTTATACTAACTTGAGCGAAACGGGAAGGTAAAAAGACAAAAAGTTGTTTTTAATACCTTTAAGTGATACCAGATGG -CATTGCGCCATCTGGCAGAGTGATTAACTAAACATCGCAGTAATCGAGGCGCTTGCCAGAGAGTGGAAATGAACGTTAAA -CCCGACCATCGCGCCGCTGGCACCTTCATCGACATCAATACGTTCTATATCCAGCGCGTGAACGGTAAAAATGTAGCGAT -GAGTTTCGCCTTTCGGCGGTGCTGCGCCATCGTACCCGGTTTTACCAAAGTCGGTACGCGTCTGCAAAACGCCGTCTGGC -ATTGCTACCAGACCAGAGCCAAACCCTTGCGGTAATACGCGGGTATCAGCGGGTAAGTTAACAACTACCCAGTGCCACCA -GCCGGAGCCGGTTGGCGCATCCGGGTCGTAGCAGGTGACAACAAAACTTTTCGTTCCCGCAGGAACATCATCCCACGCCA -GATGCGGTGAAATATTATCGCCATCGTAACCCATGCCGTTAAAGACATGACGATGCGGCAATTTATCGCCATCGCGCAGA -TCGTTACTGATGAGTTTCATGAACCCTCCTTTCTTGTTTGCAGAAAGTGTAGCCAGAAACCCTCACGCGGACTTCTCGTT -ATTGGCAAAAAAATGTTTCATCCTGTACCGCGCGGTTAACCGCTGCGGTCAGACGCTGCAACTGTTGCGGGAGAATAATA -TAGGGCGGCATCAGGTAAATCAGTTTGCCAAAAGGCCGGATCCAGACACCCTGTTCGACAAAGAATTTTTGCAGCGCCGC -CATATTCACCGGATGAGTGGTTTCGACCACGCCAATGGCCCCCAGTACGCGCACATCGGCAACCATTTCGGCATCACGGG -CGGGGGCAAGTTGCTCGCGCAGCTGTACTTCAATATCCGCCACCTGTTGCTGCCAGTCGCCAGATTCGAGAATCGCCAGG -CTGGCGTTTGCTGCCGCGCAGGCCAGCGGATTGCCCATAAAAGTTGGCCCATGCATAAAGCAACCGGCTTCACCGTTACT -GATGGTTTCTGCAACCTCGCGCGTGGTGAGTGTGGCGGAAAGGGTCATTGTGCCGCCGGTTAAGGCTTTACCGAGGCACA -AAATGTCCGGCGCGATTTCTGCATGTTCACAGGCAAACAGTTTCCCGGTACGACCAAATCCAGTGGCGATCTCGTCGGCA -ATCAGCAAGATACCTTCGCGATCGCATATTTTGCGGATTCGTTTTAACCATTCCGGATGGTACATGCGCATCCCGCCTGC -GCCCTGGACAATCGGCTCAATGATCACCGCCGCGATTTCATGACGATGCGCCGCCATCAGGCGGGCAAAGCCCACCATAT -CGCGCTCATCCCATTCGCCATCCATGCGGCTTTGCGGGGCGGGAGCAAACAGGTTTTCTGGCAGGTAGCCTTTCCACAGA -CTGTGCATTGAGTTATCCGGATCGCACACCGACATCGCGCCAAAGGTATCGCCATGATAACCATTGCGGAAGGTCAGAAA -ACGCTGGCGCGCTTCGCCTTTGGCTTGCCAGTACTGCAACGCCATTTTCATCGCCACTTCCACCGCTACGGAACCGGAGT -CCGCGAGAAAAACGCACTCCAGCGGTTGCGGCGTCATCGCCACCAGTTTGCGGCACAGCTCAATGGCTGGCGCATGGGTG -ATACCGCCAAACATCACATGCGACATGGCATCAATTTGCGACTTCATCGCCGCATTAAGCTGCGGGTGATTGTAGCCGTG -GATCGCCGCCCACCAGGACGACATACCGTCAACCAGGCGTCTGCCGTCAGACAAAATCAGCTCGCAACCTTCGGCGCTCA -CCACCGGATAAACCGGCAGAGGGGAGGTCATGGATGTGTATGGGTGCAGGATATGGCGTTGGTCAAAGGCAAGATCGTCC -GTTGTCATAATCGACTTGTAAACCAAATTGAAAAGATTTAGGTTTACAAGTCTACACCGAATTAACAACAAAAAACACGT -TTTGGAGAAGCCCCATGGCTCACCGCCCACGCTGGACATTGTCGCAAGTCACAGAATTATTTGAAAAACCGTTGCTGGAT -CTGCTGTTTGAAGCGCAGCAGGTGCATCGCCAGCATTTCGATCCTCGTCAGGTGCAGGTCAGCACGTTGCTGTCGATTAA -GACCGGAGCTTGTCCGGAAGATTGCAAATACTGCCCGCAAAGCTCGCGCTACAAAACCGGGCTGGAAGCCGAGCGGTTGA -TGGAAGTTGAACAGGTGCTGGAGTCGGCGCGCAAAGCGAAAGCGGCAGGATCGACGCGCTTCTGTATGGGCGCGGCGTGG -AAGAATCCCCACGAACGCGATATGCCGTACCTGGAACAAATGGTGCAGGGGGTAAAAGCGATGGGGCTGGAGGCGTGTAT -GACGCTGGGCACGTTGAGTGAATCTCAGGCGCAGCGCCTCGCGAACGCCGGGCTGGATTACTACAACCACAACCTGGACA -CCTCGCCGGAGTTTTACGGCAATATCATCACCACACGCACTTATCAGGAACGCCTCGATACGCTGGAAAAAGTGCGCGAT -GCCGGGATCAAAGTCTGTTCTGGCGGCATTGTGGGCTTAGGCGAAACGGTAAAAGATCGCGCCGGATTATTGCTGCAACT -GGCAAACCTGCCGACGCCGCCGGAAAGCGTGCCAATCAACATGCTGGTGAAGGTGAAAGGCACGCCGCTTGCCGATAACG -ATGATGTCGATGCCTTTGATTTTATTCGCACCATTGCGGTCGCGCGGATCATGATGCCAACCTCTTACGTGCGCCTTTCT -GCCGGACGCGAGCAGATGAACGAACAGACTCAGGCGATGTGCTTTATGGCAGGCGCAAACTCGATTTTCTACGGTTGCAA -ACTGCTGACCACGCCGAATCCGGAAGAAGATAAAGACCTGCAACTGTTCCGCAAACTGGGGCTAAATCCGCAGCAAACTG -CCGTGCTGGCAGGGGATAACGAACAACAGCAACGTCTTGAACAGGCGCTGATGACCCCGGACACCGACGAATATTACAAC -GCGGCAGCATTATGAGCTGGCAGGAGAAAATCAACGCGGCGCTCGATGCGCGGCGTGCTGCCGATGCCCTGCGTCGCCGT -TATCCGGTGGCGCAAGGAGCCGGACGCTGGCTGGTGGCGGATGATCGCCAGTATCTGAACTTTTCCAGTAACGATTATTT -AGGTTTAAGCCATCATCCGCAAATTATCCGTGCCTGGCAGCAGGGGGCGGAGCAATTTGGCATCGGTAGCGGCGGCTCCG -GTCACGTCAGCGGTTATAGCGTGGTGCATCAGGCACTGGAAGAAGAGCTGGCCGAGTGGCTTGGCTATTCGCGGGCACTG -CTGTTTATCTCTGGTTTCGCCGCTAATCAGGCAGTTATTGCCGCGATGATGGCGAAAGAGGACCGTATTGCTGCCGACCG -GCTTAGCCATGCCTCATTGCTGGAAGCTGCCAGTTTAAGCCCGTCGCAGCTTCGCCGTTTTGCTCATAACGATGTCACTC -ATTTGGCGCGATTGCTTGCTTCCCCCTGTCCGGGGCAGCAAATGGTGGTGACAGAAGGCGTGTTCAGCATGGACGGCGAT -AGTGCGCCACTGGCGGAAATCCAGCAGGTAACGCAACAGCACAATGGCTGGTTGATGGTCGATGATGCCCACGGCACGGG -CGTTATCGGGGAGCAGGGGCGCGGCAGCTGCTGGCTGCAAAAGGTAAAACCAGAATTGCTGGTAGTGACTTTTGGCAAAG -GATTTGGCGTCAGCGGGGCAGCGGTGCTTTGCTCCAGTACGGTGGCGGATTATCTGCTGCAATTCGCCCGCCACCTTATC -TACAGCACCAGTATGCCGCCCGCTCAGGCGCAGGCATTACGTGCGTCGCTGGCGGTCATTCGCAGTGATGAGGGTGATGC -ACGGCGCGAAAAACTGGCGGCACTCATTACGCGTTTTCGTGCCGGAGTACAGGATTTGCCGTTTACGCTTGCTGATTCAT -GCAGCGCCATCCAGCCATTGATTGTCGGTGATAACAGCCGTGCGTTACAACTGGCAGAAAAACTGCGTCAGCAAGGCTGC -TGGGTCACGGCGATTCGCCCGCCAACCGTACCCGCTGGTACTGCGCGACTGCGCTTAACGCTAACCGCTGCGCATGAAAT -GCAGGATATCGACCGTCTGCTGGAGGTGCTGCATGGCAACGGTTAATAAACAAGCCATTGCAGCGGCATTTGGTCGGGCA -GCCGCACACTATGAGCAACATGCAGATCTACAGCGCCAGAGTGCTGACGCCTTACTGGCAATGCTTCCACAGCGTAAATA -CACCCACGTACTGGACGCGGGTTGTGGACCTGGCTGGATGAGCCGCCACTGGCGGGAACGTCACGCGCAGGTGACGGCCT -TAGATCTCTCGCCGCCAATGCTTGTTCAGGCACGCCAGAAGGATGCCGCAGACCATTATCTGGCGGGAGATATCGAATCC -CTGCCGTTAGCGACTGCGACGTTCGATCTTGCATGGAGCAATCTCGCAGTGCAGTGGTGCGGTAATTTATCCACGGCACT -CCGCGAGCTGTATCGGGTGGTGCGCCCCAAAGGCGTGGTCGCGTTTACCACGCTGGTGCAGGGATCGTTACCCGAACTGC -ATCAGGCGTGGCAGGCGGTGGACGAGCGTCCGCATGCTAATCGCTTTTTACCGCCAGATGAAATCGAACAGTCGCTGAAC -GGCGTGCATTATCAACATCATATTCAGCCCATCACGCTGTGGTTTGATGATGCGCTCAGTGCCATGCGTTCGCTGAAAGG -CATCGGTGCCACGCATCTTCATGAAGGGCGCGACCCGCGAATATTAACGCGTTCGCAGTTGCAGCGATTGCAACTGGCCT -GGCCGCAACAGCAGGGGCGATATCCTCTGACGTATCATCTTTTTTTGGGAGTGATTGCTCGTGAGTAAACGTTATTTTGT -CACCGGAACGGATACCGAAGTGGGGAAAACTGTCGCCAGTTGTGCACTTTTACAAGCCGCAAAGGCAGCAGGCTACCGGA -CGGCAGGTTATAAACCGGTCGCCTCTGGCAGCGAAAAGACCCCGGAAGGTTTACGCAATAGCGACGCGCTGGCGTTACAG -CGCAACAGCAGCCTGCAGCTGGATTACGCAACAGTAAATCCTTACACCTTCGCAGAACCCACTTCGCCGCACATCATCAG -CGCGCAAGAGGGCAGACCGATAGAATCATTGGTAATGAGCGCCGGATTACGCGCGCTTGAACAACAGGCTGACTGGGTGT -TAGTGGAAGGTGCTGGCGGCTGGTTTACGCCGCTTTCTGACACTTTCACTTTTGCAGATTGGGTAACACAGGAACAACTG -CCGGTGATACTGGTAGTTGGTGTGAAACTCGGCTGTATTAATCACGCGATGTTGACTGCACAGGTAATACAACACGCCGG -ACTGACTCTGGCGGGTTGGGTGGCGAACGATGTTACGCCTCCGGGAAAACGTCACGCTGAATATATGACCACGCTCACCC -GCATGATTCCCGCGCCGCTGCTGGGAGAGATCCCCTGGCTTGCAGAAAATCCAGAAAATGCGGCAACCGGAAAGTACATA -AACCTTGCCTTGTTGTAGCCATTCTGTATTTGGTTAAATTGCGAGCGAGATCGCGTCTTCGATTGACTGCAATTTAACCA -ATTAAATTCTAAAATAATCACGAAAAAAATTTTACTTCCGCCTCATGCGGCGAATGTGGGAATTGCCCAGGCGGCGGGGG -ATAGGGGCTGGAGACAGTTATCCACTATTCCTGTGGATAACCATGTGTATTAGAGTTAGAAAACACGAGGCAAGCGAGAG -AATACGCGGCTTGCACGCGAATTGGCGTTAAAGACGGCTCAAAGAAATATCTTTTATTTTTTAACTGGTTAGATAAATGC -AATGGCAGTCACTGAACAGGCATCTCTTGCCATAAAACTGTCATCACTCATCTTGACAAATGTTAAAAAAGCCGTTGCTT -TGGGGATAACCCGGTAAGGCCGGAGTTTTATCTCGCCACAGAGTAAATTTTGCTCATGATTGACAGCGGAGTTTACGCTG -TATCAGAAATATTATGGTGATGAACTGTTTTTTTATCCAGTATAATTTGTTGGCATAATTAAGTACGACGAGTAAAATTA -CATACCTGCCCGCCCAACTCCTTCAGGTAGCGACTCATGAGTAAACCGTTCAAACTGAATTCCGCTTTTAAACCTTCTGG -CGATCAGCCAGAGGCGATTCGACGTCTCGAAGAGGGGCTGGAAGATGGCCTGGCGCACCAGACGTTACTTGGCGTGACTG -GCTCAGGGAAAACCTTCACCATTGCCAATGTCATTGCTGACCTTCAGCGCCCAACCATGGTACTTGCGCCCAACAAAACG -CTGGCGGCCCAGCTGTATGGCGAAATGAAAGAGTTCTTCCCGGAAAACGCGGTGGAATATTTCGTTTCCTACTACGACTA -CTATCAGCCGGAAGCCTATGTACCGAGTTCCGACACTTTCATTGAGAAAGATGCCTCGGTTAACGAACATATTGAGCAGA -TGCGTTTGTCCGCCACCAAAGCGATGCTGGAGCGGCGTGATGTGGTTGTGGTGGCGTCTGTTTCCGCGATTTATGGTCTG -GGCGATCCTGATTTATATCTCAAGATGATGCTCCATCTCACGGTCGGTATGATTATCGATCAGCGCGCGATTCTGCGCCG -ACTGGCGGAGCTGCAATACGCTCGTAATGATCAAGCATTCCAGCGTGGTACTTTCCGCGTTCGTGGCGAGGTGATAGATA -TCTTCCCGGCAGAATCGGATGACATTGCACTTCGCGTGGAACTGTTTGACGAGGAAGTGGAACGATTGTCGTTATTTGAC -CCGCTGACCGGGCAGATTGTTTCCACTATTCCACGTTTTACCATCTACCCGAAAACGCACTACGTCACACCGCGCGAGCG -CATCGTACAGGCGATGGAGGAGATCAAAGAAGAGCTGGCCGCCAGACGCAAAGTGCTGTTGGAAAACAACAAACTGCTGG -AAGAGCAGCGGCTGACCCAGCGTACCCAGTTTGATCTGGAGATGATGAACGAGCTGGGCTACTGTTCGGGGATTGAAAAC -TACTCGCGCTTCCTCTCCGGTCGTGGACCGGGTGAGCCACCGCCGACGCTGTTTGATTACCTGCCTGCCGATGGGCTGCT -GGTCGTCGATGAATCTCACGTCACCATTCCACAAATTGGCGGCATGTATCGCGGTGACCGGGCGCGTAAAGAGACACTGG -TGGAGTACGGCTTCCGCCTGCCATCAGCGCTGGATAACCGTCCGCTTAAGTTTGAAGAGTTCGAAGCATTAGCGCCGCAA -ACCATCTATGTTTCGGCGACGCCGGGTAATTACGAGCTGGAAAAATCCGGCGGCGATGTGGTGGATCAGGTGGTGCGTCC -AACCGGATTGCTTGACCCGATTATCGAAGTGCGGCCGGTGGCGACACAGGTTGATGATCTTCTTTCGGAGATTCGTCAGC -GAGCGGCAATTAACGAACGCGTACTGGTCACCACACTGACCAAGCGGATGGCGGAAGATCTTACCGAATATCTCGAAGAA -CATGGCGAGCGCGTGCGTTATCTTCACTCAGATATCGACACCGTCGAACGTATGGAGATTATCCGCGACTTGCGTCTGGG -TGAGTTCGACGTGCTGGTAGGGATCAACTTACTGCGCGAAGGTCTGGATATGCCGGAAGTGTCGCTGGTGGCGATCCTCG -ACGCTGACAAAGAAGGCTTCCTGCGTTCCGAACGTTCGTTGATCCAGACCATTGGTCGTGCGGCACGTAACGTTAACGGT -AAAGCGATTCTCTACGGCGATAAGATCACCCCATCAATGGCGAAAGCGATTGGCGAAACCGAACGTCGCCGTGAGAAACA -GCAGAAGTACAACGAGGAACACGGAATTACGCCGCAAGGCTTGAACAAGAAAGTGGTCGATATCCTGGCGCTGGGGCAGA -ACATTGCCAAAACCAAAGCGAAGGGCAGAGGAAAATCGCGCCCGATTGTTGAGCCGGATAATGTGCCGATGGATATGTCG -CCTAAAGCGTTGCAGCAGAAAATCCATGAGCTGGAAGGGTTGATGATGCAACACGCGCAGAATCTGGAGTTCGAAGAAGC -GGCGCAAATTCGTGACCAGTTGCATCAGCTGCGTGAGCTGTTTATCGCGGCATCGTAACAGGATAGCGAAGAAGACTGAT -GACAAACGGAAAACAGCCTGATGCGCTACGCTTATCAGGCCTACATTTTCTCCGCAATATATTGAATTTGCGCGGTTTGT -AGGCCGGATAAGGCGTTCACGCCGCATCCGGCATAAACAACGCGCACTTTGTCTTCAATAGGAAGCCGGAATTTTCCTTC -GGATTTCCGTTAACCTAAAGCCTGTAACGCCTTTTCCAGCGCGTTATGTAACAACTGGCGGTCATGACGATACGGAATAT -CGCTGGCCTCCAGTACCTCCTGGATCACAATCCGCTCTTTCACCGCCGAGACATCCACTTTTGGCCCGACGATGACCGCA -TCAATGACCTTTTTACCAACATACTGCTCCATAATTGCCAGCTTGCTTTCCAGCTTCAAATTAGCCGCAGGTAAACTCAA -CTCACGCCCCAGATTGCCGATATAAACCATCGGCGCTGGCGTGCGGCGTAATGCCTGGGCGATTTCCTTCAGCAGCAGAA -TTGGCATCAGGCTGGTATAAAAACTGCCAGGCCCAATAATGATGAGATCCGCTTCATTGATAGCGTGAACCGCCTCACGC -GTTGCGGGTACATTAGGCGTTAACAATAACTCTTGAATCGGCGTAGTTAACTGGTCGATATTGACCTCGCCGTAAACTTC -ATGCCCCTGATCGTCAATCGCCATCAGATCAACAGGATGCTCTGACATTGGAATCAAATGCGTATCCACTTTCAGCAGAT -TACGAATTAAATTGATGGCTTCCAGAGGCCGCACGCTAAGGTGATCCAGCGCCTTTAACATCAAGTTTCCGAGATTATGA -CCGGAAAGTTCGCCATTGCCACCAAAACGGTATTCAAACATCGCGGAGGCGACGCTCGGTTCCGTTATCAGCTGGTTGAG -GCAGTTGCGCATATCGCCCCAGGCAATGCCGCCTTCTGAACGGCGAATACGCCCCGTCGAGCCACCATTATCGGTGGTGG -TGACGATACCCGTTAAACGAGAACCCAAAGACGAAAGTGATGAGAGAACGCGTCCCAGTCCATGCCCTCCGCCGAGAGCA -ACGACACGATCAAGATCAGCCAGCGTACGATTGCGCATATAGTTTCCTGGAGTCAGATTATCCGCGCTACAGTAGCGCAA -ATTGCGGGGAAACAGCAATTAACCTGCCAATATTGAGGATACAAACTATTTTCTTCTACCTCTAAAGGACGATGCACGCT -ATGCCTCCCTGATGATGTATATCAAAGTAAAACCGCCATTTTCCCTTATTCTGTAGCGAAATAGCACGATCATGACGCTA -TATACATGATTACATAGCGAAAGTGTGGATGGTAAAAATCTCATTTACACGCTAGTATCGGCATAACCACTAAACACTCT -AGCCTCTGCACCTGGGTCAACTGATACGGTGCTTTGGCCGTGACAATGCTCGTAAAGATTGCCACCAGGGCGAAGGAAGA -AATGACTTCGCCTCCCGTATCTGGAAAGGTGTACATGGCTTCACAACTGACTGATGCATTTGCGCGTAAGTTTTACTACT -TGCGCCTGTCGATTACCGATGTGTGTAACTTTCGTTGCACCTACTGCCTGCCGGATGGCTACAAACCGAGCGGCGTCACC -AATAAAGGCTTTCTTACCGTCGATGAAATTCGCCGGGTTACGCGCGCCTTCGCCAGACTGGGCACCGAAAAAGTGCGCCT -GACAGGAGGAGAGCCGTCTTTACGCCGCGACTTTACCGATATCATCGCCGCTGTGCGGGAAAACGACGCTATCCGCCAGA -TTGCGGTCACAACCAATGGTTACCGTCTGGAACGCGATGTGGCGAGCTGGCGCGATGCGGGACTTACTGGCATTAACGTC -AGTGTCGACAGTCTGGACGCCCGCCAGTTTCACGCTATTACCGGGCAGGATAAATTCAACCAGGTCATGGCAGGGATTGA -TGCTGCATTTGAGGCCGGTTTTGAGAAGGTCAAAGTCAATACCGTGCTGATGCGTGATGTTAATCATCACCAGCTCGACA -CCTTTCTGAACTGGATCCAGCATCGCCCTATCCAGCTGCGTTTCATCGAACTGATGGAAACGGGCGAGGGCAGCGAGCTC -TTCCGTAAGCATCACATCTCTGGTCAGGTTCTGCGTGACGAGCTACTGCGTCGCGGCTGGATCCACCAATTACGTCAACG -CAGCGACGGTCCCGCGCAAGTCTTTTGCCATCCAGATTACGCCGGAGAGATTGGCCTTATCATGCCGTATGAAAAAGACT -TCTGCGCCACTTGCAACCGCCTGCGCGTTTCCTCCATTGGTAAACTCCATCTCTGCCTGTTTGGTGAAGGCGGCGTTAAC -CTGCGCGATCTGCTGGAAGACGATACCCAGCAACAGGCGCTGGAAGCGCGTATTTCAGCGGCGCTGCGGGAGAAGAAACA -GACCCATTTCCTGCATCAAAACAACACCGGTATTACGCAAAACTTATCGTACATTGGCGGCTAAAACGTCAAAAGGAGAG -ATCAGATGAGTCAGGTAAGCACTGAATTTATCCCGACCCGTATTGCTATTCTTACGGTTTCTAATCGTCGCGGTGAAGAA -GACGATACCTCCGGTCACTATCTGCGCGATTCGGCGCAAGAAGCGGGCCATCACGTTGTCGATAAAGCCATTGTGAAAGA -AAACCGCTACGCTATTCGCGCTCAGGTATCTGCGTGGATCGCCAGCGACGATGTACAAGTGGTATTGATTACGGGTGGTA -CTGGCCTGACGGAAGGTGATCAGGCTCCCGAAGCATTGCTGCCGTTGTTCGACCGTGAAGTTGAAGGTTTTGGTGAAGTG -TTCCGGATGTTGTCGTTTGAAGAGATTGGCACTTCCACGTTGCAATCTCGTGCGGTAGCGGGCGTCGCCAACAAAACGCT -GATTTTCGCCATGCCGGGTTCGACCAAAGCGTGCCGTACCGCATGGGAAAATATCATCGCGCCGCAGCTGGATGCCCGTA -CGCGTCCGTGTAATTTCCATCCACATTTGAAGAAATAAGTATGTCGCAACTGACCCATATCAACGCCGCTGGCGAAGCGC -ACATGGTGGATGTCTCCGCCAAAGCGGAAACCGTGCGTGAAGCGCGGGCGGAAGCCTTTGTCACCATGCGCAGCGAGACG -CTGGCGATGATTATTGATGGTCGCCACCACAAAGGCGACGTATTTGCCACTGCGCGTATTGCCGGTATTCAGGCGGCAAA -ACGCACCTGGGATCTGATCCCGCTCTGTCATCCGCTGATGCTCAGCAAAGTTGAAGTCAATTTACAGGCCGAGCCGGAGC -ACAATCGGGTGCGTATAGAAACCTTATGCCGCCTGACCGGGAAAACCGGTGTCGAAATGGAAGCATTAACCGCGGCCTCC -GTGGCGGCGCTGACCATTTATGACATGTGCAAAGCGGTGCAAAAAGATATGGTGATTGGTCCGGTACGTTTGCTGGCGAA -GAGCGGCGGCAAGTCGGGTGACTTTAAGGTGGAAGCGGATGATTAAAGTTCTTTTTTTCGCCCAGGTGCGCGAGTTGGTG -GGAACAGATGCAACCGAAGTGGCTGCGGATTTCCCAACTGTTGAAGCGTTACGCCAGCACATGGCTGCGCAGAGCGATCG -CTGGGCGCTGGCGCTGGAAGATGGCAAATTACTGGCTGCCGTCAACCAGACGCTGGTGAGTTTTGACCATCCGCTGACTG -ACGGCGACGAAGTAGCTTTCTTCCCGCCGGTAACCGGAGGTTAAGATGGCAGAAACCAAAATTGTTGTTGGTCCGCAGCC -GTTCAGCGTAGGAGAAGAGTACCCGTGGCTGGCGGAGCGTGACGAAGACGGTGCGGTAGTCACCTTTACTGGTAAGGTGC -GCAACCATAACCTGGGCGACAGCGTCAACGCATTAACCCTCGAACACTATCCGGGGATGACTGAAAAAGCACTGGCAGAA -ATTGTTGATGAAGCGCGTAACCGCTGGCCGCTGGGGCGCGTCACTGTGATTCACCGCATCGGGGAATTATGGCCGGGCGA -TGAAATCGTTTTTGTCGGTGTCACCAGTGCGCATCGCAGCAGTGCGTTTGAAGCCGGGCAGTTTATTATGGATTATCTCA -AAACCCGCGCACCGTTCTGGAAGCGCGAAGCCACGCCGGAAGGCGACCGCTGGGTTGAAGCTCGGGAGAGCGATCAGCAG -GCGGCAAAACGCTGGTAGTTTTTTGTTAGCCGGATAAGGCACCGCTGCGTCCGGCAATTTCACCGCTCAGTACATACGTT -TACGCTGCGTCGATGCACAGCCTCATCATTTTGCAGTATCCTTAAGATATTCCTTATATCTTCAGGAGATCGTCATGGAC -AGATTCCCACGTTCTGATTCAATCGTACAACCCCGGGCTGGCTTGCAAACTTATATGGCTCAAGTCTATGGCTGGATGAC -CGTTGGCTTGTTGCTGACCGCATTTGTTGCCTGGTATGCGGCTAATTCCGCGGCCGTGATGGAGCTGTTGTTCACTAACC -GTGTCTTTTTAATCGGTCTGATCATCGCGCAATTAGCATTGGTTATTGTGTTATCAGCGATGATTCAAAAGCTGAGCGCA -GGTGTAACGACGATGCTCTTTATGCTTTATTCGGCGCTGACGGGTCTTACGCTTTCCAGTATATTCATTGTCTATACCGC -TGCTTCTATCGCCAGTACTTTCGTCGTTACTGCCGGGATGTTCGGCGCAATGAGCCTGTACGGTTACACCACGAAGCGCG -ATTTAAGTGGCTTTGGCAATATGCTGTTTATGGCGTTAATCGGCATTGTGCTGGCATCGCTGGTCAACTTCTGGTTGAAA -AGCGAAGCATTGATGTGGGCAGTTACCTACATCGGCGTGATTGTCTTTGTCGGATTGACGGCGTATGACACGCAGAAACT -GAAAAATATGGGTGAGCAGATTGATACCCGCGACACGTCGAACCTGCGCAAATATTCCATTCTTGGCGCGTTAACCTTGT -ATCTGGACTTCATCAACCTGTTCCTGATGTTGTTGCGGATCTTCGGCAACCGCCGTTAATTCTTTTTCACCATCACTATC -CCGGCCATGTGTCGGGATTTTTTTCTTACTAAAAACGACACTTAACAAGTACCAGGTATAAAATATGCCTTATGGACGAG -CGGAAGCGTTTTCTGTATCCATAAATGCAAAAGTATTTTGTATGCGTGGTTTTAAATTTATTGATGGTGAATATTAATAT -TTTTTCTAAGGATAACTAAAAGAATGGAATCATACTCGCAAAACAGCAATAAATTAGATTTTCAGCACGAGGCCAGGATA -TTAAACGGTATATGGCTCATTACCGCTTTAGGTTTGGTGGCAACCGCAGGACTAGCCTGGGGAGCTAAGTATATCGAAAT -TACGGCAACCAAATATGATTCACCACCAATGTATGTCGCCATAGGGTTATTATTACTTTGTATGTATGGCTTAAGTAAGG -ATATCAACAAGATAAATGCCGCCATCGCGGGCGTAATATATCTGTTTTTACTCTCTTTGGTGGCGATTGTCGTTGCAAGT -TTAGTTCCTGTATATGCCATTATCATCGTGTTCAGCACTGCGGGCGCGATGTTTTTAATCAGTATGCTGGCCGGTTTATT -ATTTAATGTTGATCCTGGTTCTCACCGTTTTATCATTATGATGACGTTGACAGGGTTGGCCCTGGTAATCATCGTGAATG -CGGCATTAATGAGTGAACGGCCCATTTGGATAATAAGTTGCTTAATGATTGTGTTATGGTCAGGCATTATCTCGCATGGA -CGAAATAAGCTCCTTGAATTGGCGGGGAAATGCCATAGTGAAGAGTTGTGGAGTCCGGTTCGTTGCGCTTTTACAGGTGC -ATTAACACTCTATTACTATTTTATCGGCTTCTTTGGGATACTTGCCGCGATAGCTATAACGCTTGTCTGGCAAAGGCATA -CGCGTTTTTTTCATTAGCCGTAAATGCACATACTAAAGAACTTAACTAAACTTCACATCGCCGCTTCATTTTTCGCCCGT -AGCTTCTTCGCCTGGCTTTCCAGCAACAGGTAACAGATCAGCGCCAGCAGCAGTGGGATAAAGTAATACAGCACACGGTA -AGCGAGTAGGGCGGCGATAATTGTACCTTTGGAGGTATGCTCCCCAGCCAGTAGTGCGATAAACACCGCTTCCAGCACAC -CGATCCCCGCCGGAATATGCACGATGACGCCAGCAATACTACTAACCAGTAACACGCCCAGTACAAAGAAATAGTTCACG -CTTTGACCAAGTAACAGCCAGATAATCGCCCCCATTACCATCCAGTTAACGCTGGAAATCAGCATCTGAGCGAGGGCGAA -TTTCCATGAAGGCAGCACCAGCTTTTGCCCTTTGATGGTCATATGGCGGTGCTTCGCGAAAGCGCAAAACCACAAATAAA -CCGCGATAATCATCAGTAAGCCAATGCCGAGAATACGCAGCGTAGTTTGATCGACATACCAGTGATCCGGCAACTCCACC -ACGCCTGCGGTAAAGATAATCCCTGCCAGTAAAATGTAGCCCAGCCAGTTGGTGGTAATACTGAGCGAGAAAATCCGCGT -AATAGTGCTACCGGGCAACCCCAGACGAGAGTACAAACGATAGCGCATACCAATGCCGCCGACCCAGGTACTGAGCGTCA -GGTTGAAGGCGTAGCAGATAAACGACACCAGCATCACCTGGCGCTTCGCCAGTTTGTGACCGCAGTAAAAGCGGGCGAGC -AGGTCATAGCAGCCGTAAATCAGATAGCTGACGACCACCAGCCCGACCGCACTAAGCAGCGCAACGCGATTGTAGTCGCG -GATGACCTTCCAGACCTCTTCCCAGTCCACTTTTTTGGCGTAGACCACCAGCAACACAATCACCGCGATAAAAAACAGCC -AGGTGAGGATCTTCTTTGCTAAGCGCCAGCGCGGGTGTGATTTACTCATCAGGGTTTTACCCCCGTGTTTTCAGTTTCTA -CCCGATCCTGCGTTTCCATTGTCGGTTGTGCGGGCGGATCAACCTGCGCCAGACGTGGCGTGTGTGCCGGAAGCCAGCCA -ACCAGCGCCGGGAAGTGGCGTAAAAAGTGGAACGCCAGCACGCTTTTGGTCAGGTTCCACCAGGTGCGTTTGGGCAGCAT -GGTTTCATCCACCTGCTGACAATCTGCGGCAATAATGCCGTTCAGATTATCGCGCAGCGTCTGGTTAAAATGACGATCGT -GGATGATGACATTTGCTTCGAGATTCAGTGACAAACTGAGCGGATCGAGATTACTGGACCCTACTGTCGCCCAGTGATCG -TCCATCAATGCCACTTTGCCGTGGAGCGGGCGGCGGCGGTACTCAAAAACCTGAACGCCGCCTTTAACCAGATAGTTATA -CAGCAAGCGCGCACCGACTCTGACAATCGGCATATCCGGTTCGCCCTGAATGATCAGTTTGATCCGCACCCCGCGCCGTG -CCGCTTTACGCAAGGCGTGTAAAAATCGATAGCCGGGGAAGAAGTAGGCGTTGGCGATAATCACTTCCCGCCGCGCCTGA -GTGAGCATTTTCAAATAATGGCGTTCAATATCATCGCGATGTTCTTCGTTATCGCGCCAGACCAGCAATACCTGCGCTTC -TCCCGGCTGGCGGTTCTCTTCCGCTTTGTGATGACGTCGCCACCAGCGTCGTGCCGCGCTCTGTCCAGGCAGGTTTTCCA -GCTCAAACTGGAGAATATCTTCGACAATCGGCCCTTCAAGGCGTACCGCGTAATCCTGTTTAGCCTCTGGACCGTAGCTG -GACATATGCTCGGCGGAGTAATTCAGCCCGCCAATAAAGGCTATACGCGCGTCGATCACCACAATTTTGCGATGCATCCG -GCGAAACACATTGGTGCGCATACCAAAAAGGCGAGGGCGGGGATCGTAGTAGCGGAACACTACGCCAGCTGCCGTCAGTT -CATTGACAAACTCATCGCTGAGATCCGGCGAACCGTAGCCATCCAGCAAGACTTCCGCTTTAACCCCGCGTTGCGCTGCT -GCCAGTAGTGCCGCATGCAGTTGTTTGCCGACGTCATCCTCAAACCAGATAAACGTTTCAAGAATGATGCGTTCTTGTGC -CTCGCCAATCGCCTTAAACACCGCGGGATAATATTGCTCGCCGTTTTCCAGCAACTGGATCTTATTGCCTTCGCGCCAGC -TACATTTCATAAATGAATCTCCGCACTTAAAGGGGCATGATCAGAAAGGTGTCGCCATGTCCGCAGCGGCAACGCGGTTG -GCGCGCTGGCGCTGGCATTTTTGACGTAGATCCTGTCCAGTCGTAGTAGAGGAAATTGCACCGGAAACGTGCGCGCCGGG -CGTCCGTGGGCGCGGGTAAAAATCTCATCCAGTCCGGCCTGCACTTTTAACGGATGATTAGCTTTTTGCCGCCAGTCATT -GAAATCACCCGCCACCAATACCGGTTCGCCGTCCGGTAGCTCATTCACCCATTCGGCGAGCATCGCAAGCTGCGCCTGAC -GGTGCGCCTCACGCAGGCCCAGATGTACGCACATCACATGAATCGCTTTTCCGGTCATCGGCGGCACAATGCGGCAGTAG -AGCACGCCGCGCTTTTCCGCACCATCGACCGAAACATCGCGATTCTCATAATGTTCAATGGGATAACGCGACAGTACGGC -GTTGCCGTGATGCCCTTCCGGGTATACGGCATTGCGACCGTAGGCAAAATCGCTCCACATAGTGTCGGCGAGAAACTCGT -AGTGCGAGGTATCGGGCCAGTTTTCCACATGCAGCGGATGAACTTCGTGCGCGCCCATCACTTCCTGCAGGCAAACAATA -TCGGCGCTGACGGTACGCACGGCGTCGCGAAGTTCCGGCAAAATGAAGCGTCGGTTAAACGCGGTAAAGCCTTTGTGAAT -ATTGATGGTGAGCACCTTGAACGAAAATTGTTGTGTTTGATCGGGCATAATTTTCCTGTCTTTGCCTCTTATCTCATTGA -AATAGTGTAGTCGGCGTCACAAAAAGGTGCGGTCTTACGGAATTTTCCGTAAAGTTCGGTACTCTGAGTAAGTAGAGATA -AATTCTTCAGGAGAGAAGCCATGAAGTGGCAACAACGTGTTCGTGTCGCAACGGGTCTAAGTTGCTGGCAGATTATGTTG -CATTTACTGGTAGTGGCGCTGCTGGTGGTGGGCTGGATGAGTAAGACTCTGGTTCACGTCGGCGTGGGATTATGCGCACT -GTATTGTGTCACGGTAGTGATGATGCTGGTGTTTCAGCGCCACCCCGAGCAACGCTGGCGTGAGGTGGCAGACGTGCTGG -AAGAGCTGACCACGACCTGGTATTTTGGCGCAGCGCTGATTGTGCTGTGGCTGTTGTCCCGCGTTCTGGAAAACAACTTT -TTGCTGGCAATTGCAGGGCTGGCAATCCTTGCCGGCCCGGCGGTAGTGTCTTTGCTGGCGAAAGATAAGAAGTTACATCA -CCTTACGTCTAAACATCGCGTACGCCGCTGACCCTGTCGTGGCCGTTATCACCAGTAGCGGCCACAAACTATTCCACACA -ATATCCAGACTCGCATCCTTCAAATAAATCTGCTTGGTAATGTCCGTAAAGTGGCGAATAGGGTTAATCCACGTCAGGTT -TTGCAGCCATACCGGCATGTTTTCCACCGGAGAAACGTAACCGGAAAGGAGAATGGCGGGCATCATAAAGACAAACACGC -CGATAAACGCCTGCTGTTGTGTTGAACAGAGTGATGAAATCAACAGACCGAATCCCACCAGCGATAAACCATAAATCACC -ATCGTAAAGTAGAACAGCGCCAGCGATCCGGCGAAGGGGATTTGATACGCCCAGATACCAATCGCCAGCACAATGGTGGC -CTGGAAGGTGGCGACAATTAACGCCGGTACGGCTTTGCCGATGAAGATCTGCCAGGTGGTGAGCGGCGAAACCAGTAGCT -GATCGAGCGTACCTTGTTCACGTTCGCGGGCGACGGAAAGTGAAGTGACGATCATTACGCCGATAGTGGTGATCATGGCG -ATCAGTGACGGCACCACAAACCATTTGTAGTCGAGATTCGGGTTATACCAGTTGCGTACCACCAGCTCGCTGTTGTTAGG -TTTCGGTTTTCCTTCCAGCAGCTCCTGCTGATAATTTTTGACGATCTGTTGCAGGTAGTTGGCGGCAATTTGCGCACTGT -TGGAGTTACGCCCGTCGAGGATCAACTGCAAAGGCGCGGTCTGGAAGGTATCCAGTTTGCGCGAGAAGTCAGCCGGGAAA -CGCACCAGTAGTAACGCCTTTTGTGTGTCGATGGTTGGGCGGATCTCCTGTGGGCTTTTCAGCAGCAGCACATGAGTAAA -GGCGCTGGCGCGGGCAAAACGTTGGGTCAGCTCCACCGAATGCTCGCCGTTATCTTCATCGTAGATGGCGATGGTGGCGT -TAGTCACTTCCAGCGTGGCGGCGAACGGGAACAGGATCACCTGAATTAGCACGGGTAAAATCAGAATCGCGCGGGTTTGC -GGTTCGCGCAGCAACGACTGCAACTCTTTGCGGATTAACGTCCATAAGCGATGAAACATGCTCTTCTCCCTAATCCAGCC -GACGTTTGGTTTTCAGCCACGTCAGGCCGATAAACATCACCGCCGAAGCGATCAAAAACAGCACGTTTACCACCAGCACC -ACTGGAATATTCCCGGCGAGGAACAGGCTTTGCAGGGTGCTGACGAAATAACGAGCGGGAATAATGTACGTCACCGCGCG -GATCACCGCGGGCATACTGTCGATCTGAAAAATAAAGCCGGAAAGCATAATCGACGGCAGAAAAGCGGCGTTCAGGGCGA -CCTGAGCGGCATTGAACTGGTTGCGGGTAATCGTGGAAATCAGCAGCCCCATCCCCAGGGTACTGAGTAAAAACAGGCTG -GAGATAAAAAACAGAATCAGCAGCGACCCGCGATACGGCACGCCGAGAATAAACACTGACACCAGCATACACAGCAACAT -CGCCAGCATCCCGAGAAAGTAATAAGGGATCAGCTTACACAGCAGCAGTTCCGTGCGGGTAATCTCCGTAGAGAGCAGAG -CCTCCATGGTGCCGCGTTCCCATTCTCGCGCCACCACCAGCGAGGTGAGAATCGCGCCGATGACCGTCATGATAATGGTC -ACCGCACCGGGGATAATGAAGTGCTGGCTAATCGCCGCCGGGTTAAACCAGTAGCGGGTTTGTACATCAATAAGCGGTTC -AAAAGTCTGCCCGTTGTCCTCCGCTCGCTGCATTTGCCAGATCTGCCAGATCCCTTCGACATACCCCTGTACAAAGTTAG -CGGTATTCGGCTCACTGCCGTCGGTGATCACCTGAATCGGTGCGGTGGCGTTGGCGCGCTCCATCTGTTCCGCAAAATCC -ACCGGAATAACCACCAGACCGCGAATTTTCCCCGCCTGCATTTTGGCGATCAGTTCCTGACGGTTATCGCTGATGGTGGC -GTCGATGTAGGGCGAACCGGTCATGGTGTGGGTGAAATCCAGCGCCGCTTCGCTACGCTGTTCCAGTAAAATCCCGACCC -GCAGCTTGCTGGAGTCGAGGTTAATGCCGTAACCAAAAATAAACAGCAGTAGCAGCGGGATCACTACCGCAATCAGCCAG -CTACTCGGATCGCGAACGATCTGCCGCGTCTCTTTAACGCACAGCGCCCGTACGCGACGCCAGGACAGGATCGGGTTACT -CATTGCTATGCTCCTTATCCCAGTCGTGGATCAACTGAATAAAGGCTTGCTCCATGGTGGGATCGGGTTGCTCATCGTTA -GCCGACTGTGCTTTCAAATCGTCCGGCGTGCCGCTGGCGATTAATTTCCCGCGGTACACCAGGCCGATGCGGTCGCAATA -TTCCGCTTCATCCATAAAGTGGGTGGTGACCATCACCGTGACGCCTTTCTCTACCATGCTGTTGATGTGCAGCCAAAATT -CACGGCGGGTGAGGGGGTCAACGCCGGAAGTCGGTTCGTCGAGAAACAGAATGTCCGGTTCATGCATCAGCGAACAGGCC -AGCGCCAGCCGCTGTTTAAAACCTAATGGCAGTTCATCGGTGGCGTGGGAGGCGATACTTTTCAGGCCGAACGCCTCGCT -CATGCGGGAGATTTTTTCGTTCTGCGCCCGACCGCGTAAGCCATACACACCAGAGAAAAAGCGTAAATTCTGTTCGACCG -TCAGGTTACCGTAGAGCGAAAATTTTTGCGCCATATAGCCGAGATGCTGGCGCGCTTTACCGGAACTCTCTTTCAGATCC -ATCCCCAGCACCAGCGCCTGGCCGGAAGTCGGCACCAGCAAACCGCACATCATCTTAAAGGTGGTCGATTTACCCGCGCC -GTTTGGCCCCAGCAAACCAAAAATCTCCCCACGTTTAACGGCAAAGTTGACGTGATCGGTGGCGGCAAAATCCCCAAATT -TCTTGGTCAGTTCTTTCGCTTCGATCACCGTCTCGCCGGGTGTGCCTTCTACCGTATGTAATATTGCGCCCAGCGGCGAT -TCCGAGGTTCCGGCACCGCCCAGCAAATCAATAAACGCATCTTCAAAACGCGGCGTAGTTTCGTTGATGTTGATTTCCGG -CATCCCGTCGGCATGGCGAATATCGTCTGGTGTGGCCTCTTTTTTGAGGATCAGACGTACCGATTTCCCCTGAATCATGC -CGTCGCTGACCTGCGGCAGTTTCAAGGCGCGTTGCAACAGTTTGCGGTTGCCCTCGTGTGGACTGGTCATCAGAAAGCTG -CGTCCGGCCATGGTTTGTGTCAGGGCTTTTGGTTCTCCCTGATACAGCAACTCGCCTTCGTTCATCAGTAACACGTCACG -GCACTGCTCGGCTTCGTCGAGATACGAGGTACTCCAGAGGATTAACATCCCTTCGCCCGCCAGCTCATGCACCATCTGCC -ACAGTTCGCGCCGTGAGATAGGGTCAACGCCGACGCCGGGTTCATCGAGCAGCAACACTTTCGGTTCGCCCACCAGGGTA -CAGGCCAGACCGAGTTTTTGTTTCATCCCACCGGAGAGCTTGCCCGCCAGGCGTCCGGTAAACGGCCCAAGAGACGTAAA -CTCCAGCAGGCGAGCAAAAGTTTGCTTACGTGCCTCGCCGGTGACGCTGCGCAAATCCGCGTACAGATTGAGGTTCTCCA -TCACCGTGAGATCTTCATACAGACCAAATTTCTGCGGCATATAACCGAGCACGGCGTGCAGCGCGCCGTCGTTTTTGATC -GGATCAAAGCCAATCACCGTGGCACTGCCGCTGTCGGGTTTCAGTAATCCCGCCAACATCCGCATCAGCGTGGTTTTACC -TGCACCGTCCGGCCCCACCAACCCCGTCACATAACCGGCGTGAATGGTACAATCGAGCGGCGCGACGGCGGGCTTGTCCA -TGCCCGGAAAGCGTTTTTCCAGGCCGTTCAGCGTGATAACGGCATCATTCATGTCCTGCCTCGTCACCGAATTGTACCGT -CACTGGCATTCCCTGGCGTAACGCATCATCGGCGTCGGTCACCACAATACGCAGGCGATAGACGAGGTCGGTACGCAGAT -CCGGCGTTTCGACGGTTTTCGGGGTAAATTCAGCAGTCGGCGAAACGAAACCAATCTGCCCGTGATACGGCTTGTCCGGG -CGACCATCGGTATAAAGCAGCACTTTGCGCCCCGGCTGGGCCTGGTCAAGATTACGTTCATCAACATAAGCGCGCACCCA -CACCGGACGCGTTAGTGAAACGGTAAACACCGTGCCACCTTCATTGAGGACCGTGCCTGGCTCCACCGCGCGCGTTAACA -GCGTGCCATCAGACGGGGCTATCAACGTTGAGTCCTGTAAATTCAACTCCGCCTGCGCCAGTTGCGCCTGCGCCTGTTCG -AGGCTGGCTTTCGCCTGAGCGATGTCCTGTTCACGGTTACCGGAACGGTACTGACGCAATTTATCCTGTGCTGATTTCAG -CGTTGCCTGCGCCTGGTCGCGCGAGGAGCGGGCATTTTCCAGGTCATTTGCCGAAATAGTGCGGCTTTTCCACAACCCTT -GCTGGCGGTTATAGAAGTTCTGCGCATAGTCATAGGCGGCTTGCGCCTGTTTCACCGCTGCGGCGGCCTGAGCGATTTCT -TCATTGCGATACCCGGCAAGCATCAGGTCATACTGCGCCTGTGCCACCGAAACACCCGCTTTCGCCTGCATCAGGGCAAT -CTCATACGGCTTGTGATCCAGTTCGCCCAGCACCTGGCCCGCTTTGATAGCATCACCTTCGTCCACCGCCAGCGATTCAA -CGCGCCCCCCAACACGGAAACTAAGATTTACCGTACGAATATCCACGTTGCCATACAGCGTCAGGCCGTTATCCTGGCGG -CTTTGATACCACCAGTAGCCTCCGGCAACCACGGCGGCAAGTACCACTACCGCCAATCCGATCACGACAGGTTTTTTCAT -CACTACAAACTCCTTTGCGATAATCCTTGCAAAATCAGGTCGATATGACAGGTCACCGTCTGGTTGATCAGTTCGGTCTT -TTCTTCATCGAACGCGGTCCAGCCGGTACGTAACAGAATTGTTTCTTTGCCAAGACGGAACGCCAGAATCTCACCAATCA -ACGCATGGGTATGAAGGATCATGCGGGTGTCATTGGCGTCGCAGCCGGTCCAGGCGGCAATCAGGCGTGTCAGGTGGCTG -TGTAGCGGACTAATCACCTGTTCGTGCACCAGGTGGTAGGCTGCCGTGGGAGAGAGCTGCTCACGGGAGATAAACTTGCT -GAGGTTGACGGTGTCATCCTGGGTGAGCAGCTTAATCATGTTCCTGCAGGCGCGAAGGATCAGTTCACGGATGGCAGCCC -GATCAGGCTGTGGTTGCGCGAACAAGCGTTCGGCTTCCTCGGCATGCGGACGGAACTGCTCGCCAATAAAATCGGCAATC -CACTGGGCGCAGGCGAGGTACAAATCTTCTTTCGAACCGAAGTAGTAGGTGATGGCAGCGATATTCTGCCCGGCCTGGGC -GGCTATCTCGCGAGTGGTGGCGTTCATTCCATATTCACCAAACTGCGCCAGTGCGGCAGCAATCAGCTGTTTTTTCGCCT -GTTCACCCTTGATTGTCATGGCAGGATTATTCATCGCACAGTCCATTCTTAATCAAATGATTGATTAAGATTATGACTCC -ATAGGGGAGTTGTCCAGTATGGCTAAGAATTTTAGCAACGCCAGTCACAGGGATAATTTATGCGCTGCGTCACAAAAACT -GCTACACTCCGCTCCCTCATGACATTGTGGTTTTTGTCATTTTCCTTTTCAGTATCTCCCTGAAAACTACACCGGTAACG -GTCGGGGCGGTTCGGAGTAGTTATGTCTTTCGATTCTTTGGGTTTAAGCCCTGATATCCTGCGCGCCGTTGCCGAGCAGG -GTTACCGTGAACCCACCCCTATTCAGCAGCAGGCGATCCCTGCGGTGCTGGAAGGCCGCGACCTGATGGCTAGCGCCCAG -ACCGGCACCGGCAAAACAGCGGGCTTTACGCTGCCGCTGTTGCAACACCTGATCACTCGCCAGCCGCACGCCAAAGGGCG -TCGTCCGGTACGTGCGCTCATTCTTACCCCGACCCGTGAACTGGCGGCGCAGATTGGCGAAAACGTCCGTGATTACAGCA -AATACCTGAACATTCGTTCGCTGGTGGTGTTTGGTGGTGTGAGTATTAACCCGCAGATGATGAAACTGCGTGGCGGCGTT -GATGTGCTGGTGGCAACCCCGGGACGTTTGCTGGACCTGGAACATCAGAATGCAGTGAAGCTGGATCAGGTTGAAATCCT -CGTCCTCGATGAAGCTGACCGCATGCTCGACATGGGCTTTATCCACGATATCCGTCGCGTGTTAACAAAACTACCTGCGA -AGCGCCAGAACCTGTTATTCTCCGCGACCTTCTCTGACGATATTAAAGCCCTGGCGGAAAAACTGTTGCACAACCCGCTG -GAAATCGAAGTGGCACGCCGCAATACCGCGTCTGATCAGGTGACCCAGCACGTTCACTTTGTCGATAAGAAACGCAAACG -CGAATTGCTGTCGCACATGATTGGGAAAGGGAACTGGCAGCAGGTGCTGGTGTTTACCCGTACCAAACACGGCGCTAACC -ATCTGGCTGAACAGCTCAATAAAGATGGCATCCGTAGTGCGGCGATCCACGGCAATAAATCGCAAGGTGCGCGTACTCGT -GCGCTGGCTGATTTTAAATCGGGCGATATTCGTGTACTGGTGGCAACTGACATCGCTGCGCGCGGCCTGGATATTGAAGA -GCTGCCGCACGTCGTCAACTATGAACTGCCAAACGTACCTGAAGATTATGTCCACCGTATCGGGCGTACCGGTCGTGCGG -CTGCTACCGGTGAAGCGTTGTCGCTGGTGTGTGTTGATGAACACAAACTGCTGCGTGATATCGAAAAACTGCTGAAAAAA -GAGATCCCGCGCATTGCGATTCCGGGCTATGAGCCGGACCCGTCAATCAAAGCCGAACCGATCCAGAACGGTCGCCAGCA -ACGTGGCGGCGGCGGTCGTGGGCAAGGTGGTGGTCGCGGTCAACAGCAACCACGCCGTGGGGAAGGTGGCGCAAAATCTG -CAAGCGCGAAACCTGCAGAAAAACCGTCTCGCCGCCTCGGCGATGCCAAACCGGCAGGCGAACAACAACGTCGCCGCCGT -CCGCGTAAACCTGCCGCTGCGCAGTAATCTTTTATGCCGGGCTATGCCCGGCATCAGGCTGATGAACAAACGCAAAACTG -CCTGATGCGCTACGCTTATCAGGCCTACGTGAACTCTGCAATATATTGAATTTGCATGCTTTTGTAGGCCGGATAAGGCG -TTTACGCCGCATCCGGCATTTCACAACAAGCACTTGTCAGCAATTTGAGAACACGGGAAAAAATTTATCTGTTTTACCGC -CCATAAGCCACCGAGACGTTACTTCTCTATAGCCAATTGTTCGCGCAACTCCATTAAAAGGTAGCCCAGTCGATTCTTGC -CCTTACCATGACCACCGTCTCCCCAGTAAGCATCGTTTTCCGTATGCTCAACCAGTTTTGCGGGCGCGGTTGCCAGCAAG -AGCGCACGCAGTTCTGCATGCTGTTCGAATTTAGCGCGAAGTGCTTTTCGCATCACCTGTTCTTTGACCGACTCCCAGTT -TTTACGCAGAGGCTTAGAACGATCGCGCCCCATGCGTGCGGCGACCATAGGGGAAGAAACCCGACGGATCTCTTCGCGGT -ATTTTTCATCAAGGAATTTTTGTGCCTGAAAATAGTGTTCTGAGGTAGGCCAGGTTTTCCCGTCAACCTTGATGGGCCAG -GCGGCAAAGTTAGAAAAATCACCGTAGTCATCGCTGGTGCTGTAGAAATTTATGATGGTGTCTTGCATGACGTGTTGGAT -CCTTTGTGCTCGAACGGGCATTAAACCGCATTATGTTGGTGGTTATTGCGAGCCGCTTTCCAGAAACAGAAAAACCATTA -CCCCTGAAAACCGAAAAATGCCACAATATTGGCTGTTTATACAGTATTTCAGGTTTTCTCATGGCATTAACCGCCGCGCT -TAAAGCGCAAATTGCCGCCTGGTATAAGGCGCTTCAGGAACAGATCCCCGACTTTATTCCCCGTGCGCCGCAGCGGCAGA -TGATTGCGGACGTCGCCAAAACGCTGGCCGGAGAAGAAGGGCGACATCTGGCGATTGAAGCCCCCACCGGCGTTGGGAAA -ACGCTCTCTTATTTGATTCCCGGCATCGCCATTGCCCGCGAAGAGCAAAAAACGCTGGTGGTGAGTACCGCCAACGTGGC -ATTGCAGGATCAGATTTACAGCAAAGATTTACCGCTGCTGAAAAAGATCATTCCCGATCTTAAATTCACTGCCGCTTTTG -GGCGTGGGCGCTACGTTTGTCCGCGTAATCTGACGGCGCTCGCCAGTACTGAACCCACGCAACAGGATCTGCTGGCGTTT -CTTGACGACGAACTGACGCCGAACAATCAGGAAGAGCAAAAACGTTGTGCGAAGCTGAAGGGCGATCTCGATACTTATAA -ATGGGATGGTCTGCGCGATCATACTGATATCGCTATAGATGACGATCTCTGGCGTCGTTTAAGTACCGACAAAGCCAGCT -GCCTCAACCGCAATTGTTACTACTATCGTGAATGCCCGTTTTTTGTCGCTCGTCGGGAGATTCAGGAAGCGGAAGTGGTG -GTGGCAAACCATGCGCTGGTGATGGCGGCGATGGAAAGCGAAGCGGTATTGCCTGACCCGAAAAATTTACTGCTGGTGCT -GGACGAAGGCCATCACCTGCCGGATGTGGCGCGGGATGCGCTTGAGATGAGCGCCGAAATCACCGCGCCGTGGTATCGGC -TACAGCTGGACTTGTTCACGAAACTGGTCGCTACCTGCATGGAGCAGTTTCGCCCGAAGACCATCCCACCGCTGGCGATC -CCTGAACGTTTGAATGCGCATTGTGAAGAGTTGTATGAGCTTATCGCCTCGTTAAACAACATTCTCAATCTCTACATGCC -TGCCGGGCAGGAGGCAGAGCACCGTTTTGCGATGGGCGAACTGCCAGATGAAGTGCTGGAGATCTGCCAGCGGCTGGCAA -AACTCACCGAGATGCTGCGTGGCCTGGCGGAGTTATTTCTTAACGATTTAAGTGAGAAAACCGGCAGCCATGACATTGTA -CGTCTGCATCGGTTGATTTTGCAGATGAACCGCGCGTTGGGGATGTTCGAGGCGCAAAGCAAACTCTGGCGGCTGGCTTC -GCTGGCGCAATCTTCCGGTGCACCGGTGACCAAATGGGCGACGCGGGAAGAGCGCGAAGGGCAGCTACACCTCTGGTTTC -ACTGCGTGGGAATACGTGTCAGCGATCAGCTGGAAAGGCTGCTGTGGCGCAGTATTCCGCACATTATTGTCACCTCCGCA -ACCTTGCGTTCGCTGAACAGTTTTTCGCGTTTGCAGGAGATGAGTGGTCTGAAAGAGAAAGCGGGCGACCGTTTTGTGGC -GCTGGATTCCCCCTTTAACCACTGCGAACAGGGCAAAATTGTTATTCCCCGGATGCGCGTTGAGCCTTCCATCGACAACG -AAGAGCAGCATATTGCCGAAATGGCGGCCTTTTTCCGTAAGCAGGTGGAGAGCAAAAAACATCTCGGTATGTTGGTACTG -TTTGCCAGCGGACGGGCGATGCAGCGCTTTCTCGACTATGTGACGGATTTACGTCTGATGTTGCTGGTTCAGGGCGATCA -GCCGCGTTACCGTTTAGTTGAACTGCACCGCAAACGCGTCGCCAACGGTGAGCGCAGCGTGCTGGTGGGCTTACAGTCAT -TTGCCGAAGGGCTTGATTTGAAAGGTGATCTGCTCAGCCAGGTGCATATCCACAAAATCGCTTTTCCGCCCATCGACAGC -CCGGTGGTGATCACCGAAGGGGAATGGCTGAAAAGCCTCAACCGCTATCCGTTTGAGGTGCAAAGCCTGCCGAGCGCCTC -GTTTAACCTGATTCAGCAGGTTGGGCGACTGATTCGAAGCCACGGTTGCTGGGGCGAAGTGGTTATCTACGACAAACGCT -TGCTGACCAAAAATTATGGCAAGCGACTACTGGATGCATTACCGGTATTTCCGATAGAGCAACCGGAAGTCCCTGAAGGT -ATAGTTAAAAAGAAAGAAAAAACGAAATCCCCACGCCGTCGGCGGCGTTAATGATGTGAGTCAGGTAAGGAGTCGTAAAT -GGACTATCGCAAAATCATTAAAGAGATCGGGCGCGGGAAAAACCACGCGCGCGATTTAGACCGGGATACTGCGCGCGGTC -TGTATGCTCATATGCTCAATGGTGAAGTCCCTGACCTTGAGTTGGGCGGCGTATTGATTGCGCTGCGTATCAAAGGAGAA -GGGGAAGCAGAGATGCTCGGCTTTTACGAAGCCATGCAAAATCACACCATCAAGCTGACGCCGCCAGCAGGCAAGCCGAT -GCCGATTGTCATCCCCAGTTACAACGGCGCGCGTAAACAGGCCAACCTGACGCCGTTGTTGGCGATTCTCCTGCACAAAC -TCGGTTTTCCTGTGGTGGTTCACGGGGTTAGCGAAGATCCAACCCGCGTGCTGACTGAAACCATTTTTGAATTGATGGGT -ATTACGCCAACGTTGCACGGCGGGCAGGCGCAGGCGAAGCTCGACGAACATCAACCGGTGTTTATGCCAGTCGGCGCGTT -TTGCCCGCCGCTGGAAAAACAACTGGCGATGCGCTGGCGGATGGGCGTGCGTAACAGTGCACATACCCTGGCGAAACTGG -CGACGCCATTTGCCGAAGGTGAGGCGCTGCGTCTTTCCAGCGTTTCGCATCCGGAATACATTGGACGCGTCGCGAAGTTC -TTTAGCGATATCGGCGGGCGGGCGCTACTAATGCATGGTACTGAAGGTGAAGTGTATGCTAATCCGCAGCGCTGCCCGCA -GATCAATCTCATTGACCGTGAAGGGATGCGGGTGCTGTATGAAAAACAGGACACTGCTGGTAGCGAGTTACTGCCACAAG -CAAAAGATCCGGAAACCACGGCGCAGTGGATTGAGCGTTGCCTTGCTGGCAGCGAACCGATTCCCGAATCGCTGAAAATC -CAGATGGCTTGCTGCCTGGTGGCTACGGGTGAAGCGGCAACTATCAGCGACGGCCTGGCGCGCGTTAATCAGGCATTTTA -ATTCTTTTCTCAGCCGGATGAGCCATGTCATCCGGCTTTTACCCCACCGCAATATGAAATTCCTGCATCTTTATTGACCT -TCCCACGCCCGGCGTGCAGCATAAAAATACAACAAACACATAACATAAACAGGAGTTAACCATGGAAAGTGGTCATCGCT -TTGATGCTCAGACGCTGCACAGTTTTATTCAGGCTGTATTTCGTCAGATGGGTAGCGAGGAACAAGAAGCGAAATTAGTT -GCCGATCATTTAATCGCGGCAAACCTGGCAGGGCATGATTCACATGGTATTGGCATGATCCCAAGCTATGTACGCTCCTG -GAGTCAGGGGCACCTGCAAATTAACCATCATGCCAAAACCGTTAAAGAGGCGGGGGCGGCGGTCACGCTCGATGGCGATC -GCGCATTTGGTCAGGTCGCGGCACATGAAGCGATGGCGCTGGGGATTGAGAAAGCGCATCAGCACGGTATTGCCGCCGTG -GCGCTACATAACTCGCATCATATCGGCCGTATCGGTTACTGGGCGGAGCAGTGTGCAGCGGCGGGGTTTGTCTCTATCCA -CTTTGTTAGCGTGGTCGGTATTCCAATGGTCGCGCCGTTCCACGGTCGCGACAGCCGCTTTGGCACCAATCCGTTCTGTG -TGGTTTTCCCTCGTAAAGATAATTTCCCGCTGTTGCTTGATTACGCCACCAGCGCCATTGCATTTGGCAAAACCCGCGTC -GCCTGGCATAAAGGCGTCCCCGTGCCGCCAGGTTGCCTGATTGACGTTAACGGCGTGCCGACGACCAATCCGGCGGTAAT -GCAGGAGTCGCCGTTGGGTTCGCTGTTGACCTTTGCCGAACATAAAGGCTACGCCCTTGCAGCGATGTGTGAAATTCTTG -GCGGGGCGCTTTCCGGCGGTAAAACGACGCATCAGGAAACGTTACAAACCAGTCCCGATGCCATTCTTAACTGCATGACC -ACTATCATCATCAACCCGGAACTCTTCGGCGCGCCGGATTGTAACGCGCAGACCGAAGCCTTTGCCGAGTGGGTGAAAGC -CTCGCCGCATGATGATGATAAGCCGATTTTGCTACCGGGCGAGTGGGAAGTGAACACGCGTCGCGAACGGCAGAAGCAGG -GGATTCCACTGGATGCGGGAAGCTGGCAGGCCATTTGTGATGCAGCGCGGCAGATTGGTATGCCGGAAGAGACGTTGCAG -GCTTTCTGTCAGCAGTTAGCCAGCTAAAAAAAAGCCCGTCCAGTGGCGGACGGGCAAACAAGGGTAACATAGGATCAATG -AGGGTTAGAGCATATGCGTCTGTCGGCAAACAGACAGGGAAATACTTGTGCTGGACGTAGCGTAAACGCCTGATCCGTCC -AACGGTTCGGATTTTGTAGGCCTGATAAGACGCGGTAGCGTCGCATCAGGCATCTGTTGCCGGATGCGGCGTAAACGCCT -TATCCGTCCTACGAATTACTTATAAATTACCGCAGTACCGCTTAATTTATTGTTGTTGGTGGCGGAAGTGATGCTGTATC -CACTGGCACCGGCTGCCGCGGCTTTCTCAGCCAGTTTCGCTTCCAGGGCATCGAGGGTGGATGCGCCATCGGCAGAAACC -ACGCCGATTTTATTCATGTTCTGTGCCTGGGATGCCGTTACCGGTTCCGCCGCGAACACGCCAAATGACAGAGTTGAAAG -AGCCATAGCAGCAACAACAGTATTGATAGTTTTCATAATTAATCTCTCGCAGGTGATTTTTGTATAAGTGACGTTGTTTC -GTCGATGTGATGAGTATCACGTTTTTTTACGAGAGATAAAATCGAAGAGAATTGACCGCCTTGTTCAAATAAATTGATTG -ATATCTAACCTACTGATAAACCATTTATTTGTTGTACTTATGAACTTGTTTTATACCGCGTGGCAGTCACAGCAGCGTTA -AAGGCACGGAATGACACGCAAAATACAAATTATACTCGCTATGCATCTCGCCAGTTGTAGTTAACGTAACTGGCTGTCTT -TCGAACCTCTGCGATTATATCCTGTATAAGCTGGTTTTTGTAAATCTTTCTCCTGCTGACAATGAATACATAAGCGCACG -CCAGGAATGGCTTCCCGACGGGCCTGCGGGATGGGGGCACCGCACTCTTCACATTCATCCAGGCTTTCGCCGCGCGGAAT -TTCACCCCGAGCGCGGGCAATCGCATCTTCAATTGTACTGTTGATCTGTTCGTTGACGGCGTCATCGTTAGCCCAACCGG -ATGCCATATCGACCTCCCCATATCAATACTTGTACAGTTAAGTGTAGCTAATCCAGGGACGAACTCGGGCAGTTCAAGCA -TCAGATCTCCGACCATTCCCGCAGCAGATTATGATAAAGATTAAGCAGCGACAGGATCTCTTCACTTTCGCCGTAGCGGC -TTTTCAGCGACTGAATATTGTTGTCCAGTTCAAACAGCATGGCGCGCTTTTTATCATCGCGGATCATCGACTGGATCCAC -ATAAATGATGCCACTCGTACGCCGCGGGTTACGGGTGTCACGCAATGCAGGCTGCTGGAGGGATACAACACGAGATCGCC -TGCCGGGAGTTTTACCCGATGTTGTCCGAAGGTGTCATTAACGACCAGTTCGCCGCCGTCGTAGCTTTGTGGATCGCTTA -AAAACAGCGTGGCAGAAAGGTCAGTACGCATCCAGCCGTTTTGTGGATGGCTGCGTACTGCGCCATCCACATGGAAACCA -TAGGTTTCATTGTTCTGATAGCGATTAAACAGCGGCGTGGAAAGGGTACGCGGCAAGGCCGCGGCAAAGAATAAAGCATG -TTGGTTAACCGCGTTCAGCACCTCATTTTGCAGGGCGGCGTATAACGTGCTGCGGGTGTCGACCTGTTGATTGTTCTTAA -CTTGCGCACCTTGTGCGCCGGTGGTGACGCGTCCATCCACCCATTCGGCTTGTTCCAGTTGTTCGCGAAAACGAGCGACG -TCCTGTGGCGATAACACGCCGGGAATGTGGTACATCATACAATTTCTCCAAAAAGTGGGGCCTGCGCCCCACATCTGAAT -CAGAAATGCATATTGGCTGTGAGCAAGAAGGTTCTTGGCTCGCCCGGGTGATAACGGTAGCCGCTCTTGTTGATTGAGGC -GACGTAATCGGTATCAAACAGGTTGTAAACGTTTAGCTGGAAGTCGAGATTGCGATTAACTCGATACCCCAGTTTGGCAT -CGGCGACCCAGTAACCTTCGGTAAACGCTGGCGTTCCCACCGCGCCGTCTGAACCTTTATGCATACTGCCGATATAGCGT -GCGCCCGCGCCAACAGAGATATCGTCGGTTGCCTGATATTGGCTCCATAAGGTGAAGGCGTGCTCCGGGGTATACGGCAG -CGATGAGGAACCATCCTGGGCAACATCTTTGCCGTTTTTGATGGTTGCTTTTTGCTGGGTATAGCCGCCAATCACCTGCC -ACGCGGGAGTGATATTCCCGGCCACGGATATCTCATAGCCTTCGACGCGTTTCTTACCGTATTGCGAGTAAGTTCCGTCA -TCATTTTGCTCAACTTCATTTTCGATATCAGTGCGGAACAGCGCGGCGGTGAGCAACAGACGTTTATCCAGAACCTGCCA -TTTGGTGCCAATCTCGCTGGTGTTGGCTTTTTGCGGTTTAAAATCGGTGCGGTTGGCACTGTTACCGCTGCCAGACTGCG -CAAGGGCGAAGTTGTTGCCGCCCGGAGGCTGCTGGGAAACGGCATAGTTAATATAGACATTGCCGTTTTCCGTCAGGTGA -TACAGCGCCCCGGCTTTCCAGTTCATCAGATTGCCCGACTTGGCGGTGTCGACGGTGGTGACCGGAGAACCTTTTGCCAC -ACCAGTTGGGCAGGTGATGGCACCGCGTCCGCTGCCGCCGCAGGCGGTGGCACTGTCATATTCAGTATGATAATTATCCA -GACGGATCCCGCCGTTCAGCTCAAAATCACGGGTGATTTGCAGCGTATCAAAGGCGTAAATTGCGAAGGTATCCGTCTGA -CCATTGGCGTTTGCGCCGTTGCGCGTCAGGCCGCCGGGATGAATGCTGCTGTCAGGATGATAAATATTTACCGCGGGTAA -CGTCACCGGATTAACGCCGTAGTTAGTCTGCGTTTCACGGGTAAATTCCACGCCGGTACTGACATCATGACCGATAGAAC -CGGTATAGAACGTCGAGGTCAGGTTGGTCTGGTTGGTGAGAATTTTATTACTCACATCTTTGGTATTCGCCGTGCGTGAC -CAGGTCCAGCTATTCACATCGCTGGTGGGCTGAGTAATATTCGACGCCCCGCCCATAATCGCCGTCATCAGGTAATCCTG -CTTTACGCGCGACCAACGGGTAGTATTGCGAATGGTGGTGTTATCGTTGATGTCGTGCTCAAAACGCATGGTGGCGGTGT -CGGTGGTCGAATCGTCGTAATCGGAATCCGTGCCGTAAAAGTTATGAGTATCAACTTTTCCGGAATGATTCAGGGCCGCC -GTTCCCGCAGATGGGGCAGAATAGCCCGGCAAACCGATGGTCGGAATGCCGCCGTCTGGCGTGTTGTGCTGGGTGACATG -CAGATAATTAAGATACAAACGATTCGCTGTACCAAGGCCAAAAGCGACAGAAGGGGCGACGCCGTAACGCTCATTTTTGA -CTTTGTCGCGTCCGGCATCGTGCGTTTTTTCGCCCATTACATTCAGGCGCACCGCGGTGGTATCACCAATGACCTGATTG -ACGTCCAGCGTGCCGCGGCGGAACCAGGCGCTGCCAATACTGGCGGAGGCGTCAATGCCGGAATCATTGCGCGGCTGCTT -GCTGATCATATTGATCGAGCCTGTCGGTGCGCTGCGCCCGTAGTCGGTGCCGGACGGCCCTTTAATCACTTCGACCTGCT -CGGTATTGAAGGTGTCGCGCGAGACGCTGCCGATATCGCGAATGCCATCAATATAAATACTGTTAGAGGTATCGGCACCA -CGCATATAAATGGCGTCGCCAGTGGTGGAGTTACCGTTCTCACCCGCAAAAAACGCACCCACGCCGGGGACGTTTTTGAG -CGCGTCGGTAAGGTTGGTTGCGCCCTGATCTTTAATCACTTGTTCAGAAATTACCGTCATCGTGCGGGTAGTATCCGCTA -CCGGACGCGAGAATTTCGGATCGGCAGATTGTTGTGGCGCATAAAGCGAAGGCGTTGATGCTTCGACAACCAGCGTGTCA -TCCGCGTTAGTTTGCCCTTCGGCGGCGAGTGCCTGAGCCACAGGCGTGATGCCAATACAAAGACCGGCAAAGAACGTGAG -CGAATGAAATTGTCTGGCAGGGAAATTGCGATTGTTTTCCATTTTGCAGGTGACTTTTTCTTATATGTTGAAATTTTCAC -TGCCACGAGAAAGCCTCTCTGCGGATGCGATGCCACTGTTAATCCCGTGATAGTGCTCGTGAAAGTGATAATAATTTTGA -TAAGCATTATCACTTGGAGCGATTTTCTATCACCCATTGCGCGAAAAAGAAATACATTTATTTACATTGAGTTCATATTT -GATGTTTTTTGATTACAAAACAGACGAAAACTGCATCCAGAGGCGAATGCAGTTACGTTGGTGGGGTTATTTGTAGATGG -TTGCAGTACCGAACATCTGGTCATTTCCGCCTGCGGAATTAATGACATAACCTTTCGCGCCTTGTTCGCGCGCTTTTTCT -GCCAGTTTATCCTCCAGATCGCTTAGGTTTGATGCGCCAGTTGCCGAAACGGTACCGGCGGGCCGTAGCTGACCGCTGTC -CAGGTTACTCATCGGTTGCGCGGCATAAGCCGTGAGAGAGATTCCGCTCAGGACGGTGGCAATCAGTAGTGTGAGGCACT -TTTTCATAATGACATCCTCATAAATACAACGGGTAGTGCCTGATAAGTGTAGGTCGCCTGCGCGATGCAAATGACGCAAA -AAATTGACAGAGATGTGCTTATTTTTTGAACGATATATTTTTACAAAATAAGACAAATCAATGACATGCATAATGCTGAT -TTTTATGATGAATTGCCATAAACCATAGCCATGTTAAGGTTTTGGGGAATGATAAACGCAGCCAGATATTTACCCTGTCG -CGTTATGCGGGTATCTTACGCCGCTGCTTAAAGGAGAATGCTATGTCCGCCCAGAAACCGGGGTTGCATCCGCGCAACCG -TCATCACAGCCGCTACGATCTCGCCACGCTTTGTCAGGTCAATCCTGAACTCAGGCAATTCCTCACGCTTACACCCGCCG -GGGAGCAAAGCGTAGACTTTGCCAATCCGCTGGCGGTGAAGGCGCTCAATAAGGCGTTGCTGGCCCATTTTTACGCCGTA -GCGAACTGGGATATCCCCGACGGTTTTCTCTGCCCACCAGTACCGGGCCGGGCGGATTATATTCATCACCTTGCCGATTT -ACTGGCAGAAGCAAGCGGAACAATTCCAGCGAATGCCAGCATTCTGGATATCGGCGTTGGTGCGAACTGTATTTATCCGC -TGATTGGCGTACATGAATATGGCTGGCGTTTTACCGGTAGTGAAACCAGCAGCCAGGCGTTAAGCAGTGCGCAGGCGATT -ATCAGTTCTAATCCGGGGCTTAACCGCGCCATTCGTCTGCGTCGGCAAAAAGAGAGTGGGGCGATTTTTAACGGCATCAT -CCATAAAAACGAGCAATACGACGCGACCTTGTGTAACCCGCCATTCCACGATTCCGCCGCTGCGGCACGGGCAGGTAGTG -AGCGTAAACGCCGTAACCTGGGGCTGAACAAAGACGATGCACTGAACTTTGGCGGCCAGCAACAGGAGTTGTGGTGTGAA -GGCGGTGAAGTCACCTTTATCAAAAAGATGATTGAAGAGAGCAAAGGCTTCGCGAAGCAGGTGATGTGGTTTACATCACT -GGTATCTCGTGGTGAAAACTTACCGCCGTTGTATCGTGCCCTGACGGACGTGGGCGCGGTGAAGGTGGTTAAAAAAGAGA -TGGCCCAGGGGCAAAAGCAGAGTCGCTTTATTGCCTGGACCTTTATGAACGACGAGCAGCGCCGCCGTTTTGTCAATCGC -CAGCGTTAAAGCGTTGGTTCCCCCGGCGGTAACGGTTCAGCCGGGGTCGCGCCCGGAGCAGGCAGCACCTGATAAGTCTG -CACTGGCGCGCGAACGCCCGCCAGGTCGAAATGTTTTTTCACCTGGCTGTCGAGGGCAAAGCGTACCGTCCACTGTTTGA -GTGGCAGCGTGGTGAACGAAACACGCAGTGTAAACGCGGTATTGCTTAAGCCGACAATCCCGGCAAAATTCGGTTCACCA -ATAATCAGCCCGCGAATTTCTTCGTTTTCCATTAATTCCGCTACCGCATCTTTCAGTGCCTGATTGGCTTTATCAGCATC -TTCATGGCGATCAACATCATAATTTGCCACCACCGAACCAATGCCGCGGACAAAGTTAGCAAAGGTGGTTATCGAAGACC -ACGGAATGATGTGATACGCCCCGGTATCCTGTCGTACGCCCACGGAGCGAATCGACATCCGTTCCACTGTGCCGGTCAAC -GGCCCGATAGTCACCAAATCTCCAGTGTTCATGCCGTTTTCAAACTGAATAAATACCCCGGTGATAATATCTTTCACCAG -CGTTTGCGAACCAAACGAGATAGCCAGACCTAATGCCCCGGCACCTGCCAGCAATGGCGCGATATTGACGCCGATTTCCG -ACAACACAATCATGATGGTGATGGTACTGATAATCACCGCCAGCGCGTTACGAAACAGCGTAAGCAGGGTACGCGTGCGG -GCGCTGGGTAGCGGGCGGCCATGAATATCCGAAGCCAGCCGGTTTTCGATCAAACTGGCGAGCACCGTCCAGCCAACCGC -CGAGAAGAAAAGAATGAGTGCGATACGGATCAGGATATCTACGGTTTTCTGCCCCGCGCCGTTTTGCAGCCAGTTCCAGA -AATCGAACAATCCCCATGCGCTCAACAGCAACATTACCGCCACGCAGACTGTCAGAATACGCGCCGTTTTCAGCGCCGCC -GACAGCCAGCCATTCAACCGTTTTTGCAGCTCCGGATAGTTACGCTGAGTATGTGGCGAGAGAGTGATGGTTTTCGCCAG -CCAGCGGGAAAACATACCGGAAACAAACGCTGCGATACCAATAATCGCCAGGCTGCGCACCGTTGCACCCATCATAAATT -TCAGGCTGTTGCCCGGATCGAACAACGAAAAGAAAAACAGCACGATAAAATAGGCGCTTGCCAGCCAGTGCCACACCAGC -GCAAAGGCGCGGATAAACAGGCTGAAAAAGGCCAGCGAATGCTCCGCGAAGTTGAGCAAATGCTGGGTAATCTCTTTTTT -ATTACGAAAGATCAGGTACAACGCCCAGACGGTCATGCACAGCATAATGATGACGTTCGCCAGCGCACCTATCTGTACAT -TCACCTGATTAGAGATAATCGGCACGGCCACAATCAGGCCATAACCTATCAAACTGCTTAACCAGCTCAGGCGACGACTC -CAGTAACGGGCGCTCTCGTCCTGAATCGTGAACGGGCGCAGCTCCGCCACGTTTGGGCAAAAAATCAGGCGTAGTACGGC -TTTGAAAAATTCAATGAGGGCAAAGGCGTTGAGAAACAAACTTTGTTGGAAAGCGATGGTGCGACTGCCTGCATTCAGGT -TGTCGCTTAATACCTGGCCGACAAATAATGTCAGGGCCAGTAACAGCAGGTCGATAATAAACGCCCCGATAATCATCGCC -GGAAGCTGCAACCAGTTGCTGCGCTCACGATTTTTTTGCCGCGCCCACTGACCCATTTTGCGATACAGCGGCAGTGCGCA -CAGGCGAATCAGCCAGTAAAAACCAAACACTAATACCGCTAACATTGAAAAATGGGTCAGCGCATTGCTGAAGGTTTGTG -GATTAAACGGCTTATGCGGGGAGCCGGTGATATTGCGATAAAGTTGCCCGAAGCGGGCGGAAAGGGCTTCACCATAATGG -CGGCTGACTTCGGTGACCTTTTGCAGCACGGTTTGCTCTTCGACCAGCGTCGGCGGCACTATTTTTGGTACCGGTTCAGC -AGGGGGCGTAGCGGCAACGGTGCGCAACTGGTCGATCAACTCTTTACGCGAGGTGTCATTATCCAGCACATCCGCCAGTG -CGCCATAGGCCGCTTTTTTTTGTTCGATATCCGGTTCCGGGGCCGGTTCAGTCGTTGAGTCCGTTGTCGTTGTGGTTGTA -ACGCCGGGTATGGATACCGCGTGGGCAGGTGCGCCCAGCAGGCAGAAGAGGATGAACAGGATCCACCGCATGACTCCTCC -AGTGAGAAAATAGAGCAAAAAGATAAGTATAGATGCTGGAGGAGGGGCGATTTTAAATGAGAGGAATCTGGTGTGCCTCC -CTTTCGGGTGAAAGGGAGGAAGGGATATTAAGCAGGTTGCTGACAACGTGCGGGCTTTTTTGCCGGATGCGGCGTGAACG -CCTTATCCGTCCTACAAGTTCATGCAATTTTAATAAGTTGCCAGATATCCTGTAGGCCTGATAAGCGTAGCGCATCAGGC -AATGTGTCTTATTAAGAGACGTGCTGCAAAAATTCCTGCAAGCGCTGGCTCGGCGGGTTCTTGATCAACACCTGCGGATT -GCCATCTTCCGCAATCCGGCCTTTGTCGATAAAGATCAGCCGCGAAGCTACTTTCTCGGCAAAACCGATTTCGTGGGTCA -CGATCACCATCGTCATCCCTTCTTCAGCCAGATCCTGCATAACCTTCAGCACTTCATGGCGCAGTTCCGGGTCAAGAGCG -GAAGTCGGTTCATCAAACAGCATCATTTTCGGCTTCACCGCCAGCGCGCGGGCAATCGCCACACGCTGCTGTTGACCACC -AGAAAGTTCGGAAGGGTAGTGATGTGCACGTTCTGCCAGACCGACTTTCGCCAGCAGCTCACGTGCCAGTTTTTCCGCCT -CTTCTTTGTTCGCGCCACGCACGCGTAGCGGGCCAAACATGACGTTTTCCAGCGCTGTCAGATGCGGGAAGAGGTAAAAC -TGCTGGAACACCATACCTGCTTCCTGGCGAATCAGGCGCTCGTCAACTTTCGGATCGTTAACCTTCAGGCCATCGACAAT -CAGATCGCCGGAGGTGATTTCTTCCAGTTTGTTGATGCAGCGCAGCAGGGTCGATTTACCGGAACCGGACGGCCCGATAA -TCACCACGACTTCGCCCTGGGCAATGTTCAAATCGATATTGTGCAGCACCTGGGTTGGGCCAAAGTGCTTGGAGACGTTT -TTAAATTCAATCACAGGATTTTCATCCTTCTTTCCAGACGACGCAGAATAAAGCTCAGCACCAGGGTAATAATCAGATAG -AACACCGCCACGGCGCTCCAGATCTCAAGGGCGCGGAAGTTACCGGCAATAATTTCTTGCCCCTGACGGGTCAGTTCCGC -CACGCCGATCACAATAAACAGCGAGGTGTCTTTAATGCTGATGATCCACTGGTTACCCAGCGGCGGCAGCATACGACGCA -GTGCCAGCGGTAAAATGACGTAGCGAATGGTTTCCCAACGTGAAAGACCGAGCGCCAGTCCTGCTTCACGAAAACCTTTG -TGGATAGACAGCACCGCACCACGCGTGATTTCCGCAATATACGCGCCGGAGTTGATCATGATGGTGACCACCGCCGCAGT -AAATGGGTCGATGCGTAAGTCGTTAAACGCCATCGGCAGGGCGAAATAAATAAACATCACCTGGACGACGATAGGTGTGC -CGCGGATCACTTCAATAAAGACCAGCGCGACGTGGTTGGCTATCCAACCTCCGAAGGTGCGTGCAAAACCTGCCAGCAAT -CCGATTACCAGACCGCCTGCCAGACCGAGGACCGAAATCCACAGGGTCATTTTGGCACCTTCAATCAGAAGCGGAATGGC -AGGCCAGATGGCACTCCAGTCAAACTGCATATGTTGTTCCTGTTACCGTGGTGTAAATAATCAAATTCAGGGTAATTAAT -GGCCCCGGAGCGGGTTTGCGCCCCTCACCCTAATCCTCTCCCCATAGGGGAGAGGGAACTGCCAGTGCGTTTTACAGGTG -TAGCGTTATTATTTCGGTTCAGTACCGAACCATTTTTTGTAGATTTCGTTGTAAGTTCCGTTCTCGCGCAGGGTTTTCAA -CGCGCCGTTGACTTTGTCACGCAGCTCGTCGCTACCTTTCGGGAACGCAATACCGTATTGCTGCGCTTCCAGAGAGTCAC -CTACCGCTTTGAACTGACCGTTACCGGCGGTTTTGATGAAGTACAGAATGTTTGGCGTATCGTGCAGAACGGCGTCTGCG -CGGTTGGTGCCCAGTTCCATATAGGCGTTATCGATGTTCGGGAACTGACGCAGATCTTTAGTTTTGATGTTTGCTTTCGC -GTAATCAACGGAGCCAGTACCGCTCTTCACAGCAACCACTTTCCCGTCGAGATCTTTCACGCTTTTCACATCGTTATTGT -TAGCTTTCACCATCACTAACAGGCCGCTTTTGTAGTAGCCGTCAGAGAAATCGATCGCTTTTTTACGCTCGTCGGTGATG -GTAATGCCCGCCAGCGCCAGATCGACGTTTTTGGTTTGCAGTGCCGGAATGATCCCACTGAAATCCATCGGCTTCAGTTC -GTAATCCAGCTTCAGCTCTTTAGCGATGGCAGCCCACAGATCAACGTCAAAGCCCACATATTTATCGCCCTGTTTAAATT -CAAACGGAACGAAGGCGGTATCCGTCGCGACAACTAATTTTTTATCCGCGGCATGAGAAGAAACCGCAAAAGCCAGGGTC -AGTGCAGCCAGTGAAACTTTTAATACAGACTTCATAGCATTTCCTTTTTTCTATCCACGGGACGATCCCCTGCGTGACAT -TCACATATATGAAAAAATCGTGCCAGTTTTGCAACTCCTTGATTTTTCGAGATGCGGCAAAAACGTGATGCACGATTTAT -AGGGCAATACCCTGAAGATGCACCATTCTGGGGCACCAATCTGGTGCGCTAAAATTGTGCACTCAACACAGTGATTATTT -AGCGTAAAACCTGATGAAAAAACAATCTTTATGTAACGATTGTGTGATGATGTGGATACAAAAAATTTACTTAATCAGCT -GGAGATAGCAGATGGATGCACTAAATAAGTGCGTTGAGGTGGGCTGCAAAACAAAACGGCCTCCTGTCAGGAAGCCGCTT -TTATCGGGTACTAAAGTTCTGCACCATCAGCGATGGATTTATTCGATGTTAGACTCGATAAACCACAGGAATTTATCCAG -GTCGCGAGACGCGGCGGTCAGGATATCTGCGGTGTCGTCATCTTTCGCTTCGCCAATCGCTTTGCGTACGTCATTAGCGA -CGATTGCGTAACGGTCAGCCAGTTCTTTCAGGTGATCCTGAACGTTGTGGATGTCCAGCGGGTAACTTTTCAGCGGGGTT -TTGCTGTTGATAACTTGAGTGGTCCCCAGAGCTACACCGCCCAGCTGCACTGCACGTTCTGCCATGGTATCCAGATGATC -GATCAGTGCGGTGCGGAAGCCATCCAGCATTTCATGTACGGCAATGAAGTTAGCGCCGCGCATGTTCCAGTGCGCTTGTT -TGGTAATCAAAGAAAGATCAATAAACTGGATAACCTGGCGATTCAGCAACTCTACTGTTGCTTTTTTCTCGCTGTCGGAG -ACATCGTTGCGGGTATAAAGCAGATTGGTCGCTTTTGATTTAACTAATTTAGCGGTACTCATAATTTCATATCCTCTTGA -TGTTATGTCCCAGTAATTAACGAGATTAAGTATAGCACCGGCTATGTGTTCCGCTATTCTGGCTGTTCCTATCACACTAA -TAGTGGTAACAAGCGTGAAAAACAAAACTAATAAAGATTCAATGAGTTAGATATATTGATAAGAACAATTCTTATTTATC -TGCTCGCCAGGAATTTTCGGAATAAATATGCTTTTGCATAATTCGATATATAAAGACGGTGTAGAGGAAAAGTAGCGAGA -AATTCTGCATGGTTATGCATAACCATGCAGAAATGTAAATTTAATTAATGTCTAATTCTTTTATTTTGCTCTCTTTGCGT -ACTGTCAGCGTAGACCCCATTGAAGCGGCGATGATAGCGCCGAGCGCCAGTAGCTGTATGGGTGTCAGTGTTTCTCCGAG -GAAAATCATCCCGGAAACGGCAGCCAGCGCCGGTTCCATGCTCATCAGCGTACCAAATGTCCGTGTTGGCAAACGGGTGA -GGGCAATCATTTCCAGCGAATAAGGCAGAGCGGTCGAGAGAATAGCGACAGCCAGACCCAATGGAATAACCGACCAGTGC -CAGAGTGCTTCACCAGCCTGAAGCGCTCCAATTGGCACGAAAATTAACGCTGCAATCAACGAACCAATTGCCACCGTCGC -AGGGCCATGTTCCGCTCCTGCGCGTTGCCCACTTAAAATGTAAATAGCCCAACAAGCCCCGGCCCCCAGTGCCAGCGCAC -AGCCGGTTAAATCGACATGGGAAACGTCTTGCCCCAGCGGTAGCAGGAACCACAGACCAAGAACCGCCAGCACAACCCAG -ACGAAATCTACCGGGCGACGAGAAGAGAACAGCGCCACCGCCAGTGGTCCGGTGAACTCCAGCGCCACCGCAATACCCAG -CGGTACTGTCTGAATAGAAAGATAAAAAAGATAATTCATCCCACCCAGCGAAACGCCGTAAAACAACAGCGGTAACCGTT -GCTCTTTGGCAAAGCGCAGTCGCCATGGCTTAAAGAACGCGATGAGGATCAGCGTTCCTAATGCCAGACGCAGCGCAGTG -ACACCCGGTGCGCCCACCAGAGGAAAAAGTGACTTAGCTAACGAGGCTCCACCCTGAATAGACGCCATGGCAACGAGCAA -TATGACTATTGGTAACCAGACCGGCATTTTACGTAATGAACCAGGCATCCTTTCTCCCACAAATATCTAGACTTAAGTAA -AGCGTGGAGTGTACTGGATATACCCAATGCTGGTTGAGCATTTGTTGAAAAAATTTTCCCCCGTTTTGACTAAAATGCGC -CAGGATTGATGGAATCATTAGTCTGGTGATTAGGAATAATCTGGATGAATGACAGGGAAAACATGCGTAATACTTACGCA -GTTCTCTGAAAAAGTGATTTAAATTTAGATGGATAGCGGTGTATGGAAACGTTCTGTTACATGAAATGGCCCGTTAGACA -TCACAAATCGCGAAGAGTTTCCCATTAATTTTTGATATATTTAAAACTTAGGACTTATTTGAATCACATTTGAGGTGGTT -ATGAAAAAAATTGCATGTCTTTCAGCACTGGCCGCAGTTCTGGCTTTCACCGCAGGTACTTCCGTAGCTGCGACTTCTAC -TGTAACTGGCGGTTACGCACAGAGCGACGCTCAGGGCCAAATGAACAAAATGGGCGGTTTCAACCTGAAATACCGCTATG -AAGAAGACAACAGCCCGCTGGGTGTGATCGGTTCTTTCACTTACACCGAGAAAAGCCGTACTGCAAGCTCTGGTGACTAC -AACAAAAACCAGTACTACGGCATCACTGCTGGTCCGGCTTACCGCATTAACGACTGGGCAAGCATCTACGGTGTAGTGGG -TGTGGGTTATGGTAAATTCCAGACCACTGAATACCCGACCTACAAACACGACACCAGCGACTACGGTTTCTCCTACGGTG -CGGGTCTGCAGTTCAACCCGATGGAAAACGTTGCTCTGGACTTCTCTTACGAGCAGAGCCGTATTCGTAGCGTTGACGTA -GGCACCTGGATTGCCGGTGTTGGTTACCGCTTCTAATCACTTTGGTGATATAAAAAATCCGCCTCTCGGGGCGGATTTTT -GTTTTTAAGGTTTCGGGTCGAAAATATCGGTTCCGAGATGGTTGTAATCCACCTTCTGTAACTGGAAGTTGGTGATGTAT -ATCGGCCCGGCTTTCTTCTCAGATATAAACGGGTATTTGATGTTAATTTCCTTCGCTTTAATCCCCGTCCACTGGGAGAA -AAAGCCTAAGAAGTCATTGGCTGAGCGGCGGGCTTTAATCACACGATGCGCTTTATCGTCGCTGGAAATGACCATAAAAG -GCACCTGGAAATTTTGCTGATATTTATCATCATGGGCAAGGTATTGCACGTCTTTACCGCGCTCTTTAAAGGCCAGACCG -TGGTCAGAAAAGTAAACCAGCGAGAAGCTGCTGCCGCTGTTGCGTAACTGATCGTACAGCTTGCGCAGTAAATCGTCCGT -TTGCGTCATGGTATAGAGATAGCACGACGTTTCTTTCGATTGCACAAAGGTTTCGTATTTTCCTTGTGTCCTGTCGCAGG -CCTGCGGATGTGAGCCCATCAGATGTAGAACAATCAGCTGCGGTTGCGAGTGCTCTTGCGCCAGCACTTGAGCGGTCATA -TCCAGTAACGCTTCGTCTTTGGTGTTTTTATCTGCTTCAAAATTACCTTCTTTCAGGAAGTACACTTCATCTGCTCGTTT -GGCGATGCTGGCGATAGCGGTATCGTATTCGCCGATTTGACCCTGGTTGGAAAACCACCAGGTCTGGAAGCCCGCGCGAT -TTGCCAGGGTGACAAAGTTATCCTGAAACTGTGGTTTGCCATCGACAACGCGATTGAGCGTTAAGCCAAGCGATTTCTGC -GTGGAGCCACTGGCGGCAATGTAGTCAGCAAATATCAAACCGTTAACGCTGCTGGCAAACGGGGTATTGTCCCAGTGACC -GCCAAAGGCACCGAGGGCATCGCGACGCGCGCTTTCACCGATCACCACCACATAGGTCTGATACTTCGGCTTAACGGCAG -TGACCGTCCAGGTATCTTTCATTCCGGAAAGTTTTGCCATCCGTTCTTGCTCTTCAATCACCTCGTTATTATTGACGATG -ACATCCTTAGCAAAACGAAATACCGGATAGCCAGTATCTTTCAGTTTAAATACGCCACCCCAGGCCAGGTTTTGCACGGG -AGCAACAAAAAATGTCGCCACACTGAATACCAGACACAGGCTGTCGAAGGTATTCCAGCGCGCTTTTTCATTCTCTTTTT -TTCGCCTGATTGCTATTACGCCGAGCGCAAAAATAAATAAGCCGACCAGGTAGCTGTACCACGGAAAAATCGTCAGGATT -TCGGTCGACTCTTCCATATTGGTGGAGTGCAATGCCAGCAATGTATTGAAATTAGGCGCGCCGTAGGCCTGAGCAAAAGG -GAAATAACAAGCCGCCACCAGCGAACTGACACCGACCAGAACTTTTTGTACGCGAGGCAATGTTCGCCATAGCAAAAGCA -AAATAGCCGTAAACGCAGCGGTGTAGAGCAAACTGAAGGGGTAACCTAAGCCGAGGTTAATTAATAGCGACTGTAAAAAG -TAGAACGCAGTCCACGGGCTAAATACCCGGCTACGGGTAACAAGCGATTCTTTGAGGGTTAAATTCATATGCCACTATCG -TAACAAACGCCATGTGCTTACCCTGGCGTCAAGGGTCAATACCTGCAAGAGTGCGTGAAGAGTGGAAAGGGGTCCGCATC -CGCGAGCCGCAATATACGCAGGGCTGCAAGAAGATAGAGCGAGCCGCCGTTCAGGTCAACTACTGACGAACAAATCTTTT -GCGAAGGGGATTGCAAATCCGACAAAAAGTGGGGTTTTTCAGACCAAAACGCGTTATGCCTGCATGAAAGCAGGAGTGAA -GCGGCGTACCGCGACGCCGCTATTTATCGGAAGGTTTATCTTGCTGCGGTTTGTTGTTGACCATATCGCACAACATAGAG -AGCAGCATTAACCGTACTTTAAAGGGAGAATGACTAAACACGCGCATACACCTCTTGAACTCATTCATAAGACCTCCTGA -CTTGCTAATCCCGTCGATCCTTGAGGGATGATTGCATTACATACAGATATAGCACAGGCTATATTATATAGCTATTGCTA -AAACGTTAATTTTTTGTACCTTCGCAACTCTGGTTTACAATGTGCGCACGAAATGAGAACGCTATGTATGCGTCACCATA -ATGAGGAAGCACAATGAGTCGTCGCGCAGGTACGCCAACAGCAAAAAAAGTGACGCAGTTAGTGAACGTGGAAGAGCACG -TTGAAGGGTTCCGCCAGGTCAGAGAGGCGCATCGGCGCGAGCTTATTGATGATTACGTTGAGCTGATTTCTGACTTGATC -AGGGAAGTGGGGGAAGCTCGTCAGGTGGACATGGCTGCTCGTCTGGGAGTTTCGCAACCGACGGTGGCTAAAATGCTTAA -GCGGCTGGCAACCATGGGGCTGATTGAAATGATCCCCTGGCGTGGCGTGTTTTTAACGGCAGAAGGAGAGAAGCTGGCGC -AGGAAAGCCGCGAGCGACATCAGATAGTCGAAAATTTCTTGTTGGTGTTGGGCGTCAGTCCGGAAATCGCCCGTCGCGAC -GCGGAAGGCATGGAGCACCATGTTAGTGAAGAGACGCTCGACGCTTTTCGTTTGTTTACCCAGAAACACGGTGCCAAATG -AGCCTGCCTTTTTTACGCACGCTGCAAGGCGATCGTTTTTTTCAGTTATTAATTCTTGTTGGTATCGGATTAAGCTTTTT -CGTGCCCTTTGCACCGAAATCCTGGCCTGCTGCTATCGACTGGCACACCATCATCACCTTAAGCGGCCTGATGCTGCTGA -CCAAAGGTGTGGAGTTAAGCGGTTATTTTGATGTGCTGGGGCGCAAAATGGTGCGCCGCTTTGCTACGGAGCGTCGGCTG -GCGATGTTTATGGTGCTGGCGGCGGCGCTGCTTTCTACCTTTCTGACCAACGATGTCGCGCTGTTTATTGTTGTTCCGCT -GACTATCACGCTAAAAAGACTGTGTGAGATCCCGGTTAATCGGCTGATTATTTTTGAGGCGCTGGCAGTCAACGCTGGTT -CGCTACTGACGCCAATTGGCAACCCGCAAAATATTCTTATCTGGGGACGTTCTGGTCTTTCGTTTGCCGGATTTATTGCC -CAAATGGCACCGCTGGCTGGCGCAATGATGCTGACGCTCCTGCTCCTGTGCTGGTGTTGTTTCCCTGGAAAGGCGATGCA -ATACCATACGGGGGTGCAAACACCGGAGTGGAAACCGCGGCTGGTGTGGAGTTGTCTGGGGCTGTATATCGTCTTTCTGA -CGGCGCTGGAGTTCAAACAAGAGCTGTGGGGACTGGTGATTGTGGCGGCAGGCTTTGCGCTGCTGGCACGTCGCGTGGTG -CTCAGTGTGGACTGGACGCTGCTGCTGGTGTTTATGGCGATGTTTATCGACGTCCATTTACTGACCCAGCTTCCAGCGTT -GCAAGGCGTGTTGGGTAACGTGAGTCATCTATCTGAACCCGGGTTATGGTTAACGGCAATCGGTTTATCGCAGGTGATCA -GTAACGTGCCGAGTACCATATTGTTGCTGAACTATGTGCCGCCGTCTTTATTACTGGTATGGGCGGTAAACGTAGGTGGC -TTTGGGTTATTACCCGGATCGCTGGCAAATTTGATTGCGCTACGTATGGCGAACGATCGCCGCATCTGGTGGCGTTTCCA -TCTCTATTCAATACCGATGCTGTTGTGGGCGGCGTTGGTGGGATATGTTTTGTTAGTTATACTCCCGGCCAACTAGGGTC -TGGCAAATAAAAAAGGCGGATTATGAGTCCGCCTTTTGCTTTAAGTTTTGAAGATTAATTCAGACGAACCGGCATCCCGG -AGCGGTTTTTAATCGCTTCATCAAGAACAACCTGGTCAACATCTGGCTGACCGGTCACTGTCTGCACGCTCTTCGTCAGG -GTAATTGGCACAATTTCCTGACCTTCAAACTGGGCTTCGGTGGTAGACAGCGGGTTATGGACTTCAATATAACGGCTGCC -GTCTGGCTCGGTGGTCGCTTTTACCGGCTCATCAATAAACTGTACGCGGGTACCGACCGGTACTTTCTCGAACAGGAATT -TGATGTCTTCGTTACGCAGACGCACACAACCATGACTTACACGCAGGCCGATACCGAAGTTGGCGTTGGTGCCATGGATA -GCATACAGGCGACCGATATAGAGTGCATACAGCCCCATCGGGTTATCCGGACCTGCCGGAACGACAGCCGGAAGCGGTTC -GCCCGCAGCGCGGTACTCTGCGTGCATTTTGGCGGTCGGCGTCCAGGTCGGGCCTGCTTTTTTACGCTCAACTTTGGTGG -TCCAGTTGATAGGCGTATCTTTGCCTAACTGACCAATGCCGATCGGCAGCACGATAACGGTGTTGGTCCCTTTCGGATAG -TAATAAAGACGCATCTCAGCACTGTTAATGACGATGCCTTCATGAACGGTATCCGGCAGGATCAGCTGCTGCGGAATGTT -CAGTACAGTACCGCCTTTCGGCAGGAAGGTATCCACACCCGGGTTCGCTTCCATCATATTGGAAAGCCCCATCTGGTACT -CGGCGGCAAAATACTCCAGCGGCTGAGTGTTACCTTCAGGAATGGTGATCACCTGATTCTGACCAACCAGGCGACTCCCG -TCGGTTGGCAGAGGATAAGTTACCGCAGAGGCGGTACTGCAAAAGCCGACAACAGCGAAGGCCGCTGCGAATAATGTTTT -CAATTTCATATTCATGTTAAGCGAGATTTTGTGCCTGGCAGGCCATTGGGTTGAGAATATTAGAGTATTGGAAGCGCATT -ATAAGTTCATTCCAGCTCACAGTGAAATCAGATGTGTACGAAATCACATTTTTTGCCTTTGGCTTGAGTGTAGACCTTAA -GCGAGGAGCAGGATCTTCTTTCAGACTTATGGCATAATGCGCGGTTTGTCATATCTCTTTTCAGGATACGCCTGTGTTAG -TTTCCAGTAACGTCACCATGCAGTTCGGCAGTAAGCCGTTGTTTGAAAACATTTCCGTCAAATTTGGCGGCGGCAACCGT -TACGGCCTGATTGGCGCGAACGGTAGTGGTAAATCCACCTTTATGAAGATCCTCGGCGGCGACCTTGAGCCGACGCTGGG -TAACGTTTCCCTCGATCCCAACGAGCGCATTGGTAAACTGCGTCAGGATCAGTTTGCCTTTGAAGAGTTCACTGTGCTGG -ATACGGTGATCATGGGGCATAAAGAGTTGTGGGAAGTGAAGCAGGAGCGCGACCGCATCTATGCTTTGCCGGAAATGAGT -GAAGAAGACGGCTATAAAGTGGCCGATCTGGAAGTTAAATACGGCGAAATGGACGGTTACTCTGCGGAAGCTCGCGCCGG -TGAACTGTTGCTTGGCGTGGGAATTCCAGTGGAACAGCACTACGGCCCGATGAGTGAAGTTGCTCCTGGCTGGAAGCTGC -GTGTGCTTCTGGCGCAGGCGCTGTTTGCTGATCCGGATATTCTCCTGCTCGACGAACCGACCAACAACCTCGACATCGAC -ACCATTCGCTGGCTGGAACAGGTGCTGAACGAGCGTGACAGCACCATGATCATCATCTCGCACGACCGTCACTTCCTTAA -CATGGTCTGTACCCACATGGCGGATCTGGATTACGGCGAGCTGCGCGTTTATCCGGGTAACTACGATGAGTACATGACGG -CGGCGACCCAGGCGCGTGAACGTCTGCTGGCCGATAACGCCAAGAAGAAAGCGCAGATTGCTGAGTTGCAATCTTTCGTT -AGCCGCTTTAGCGCCAACGCCTCGAAATCTCGCCAGGCAACTTCGCGCGCGCGCCAGATTGATAAAATCAAACTGGAAGA -GGTGAAAGCCTCCAGCCGTCAGAACCCGTTCATCCGTTTTGAACAGGATAAGAAACTGTTCCGTAACGCGCTGGAAGTGG -AAGGTCTGACCAAAGGGTTTGATAACGGTCCGCTGTTTAAAAATCTCAACCTGCTGCTGGAAGTGGGTGAAAAACTGGCG -GTACTGGGTACCAACGGCGTCGGTAAATCAACGCTGCTGAAAACGCTGGTGGGCGATCTGCAACCGGACAGCGGCACCGT -AAAATGGTCTGAGAACGCGCGCATTGGTTACTATGCTCAGGACCACGAATATGAGTTTGAAAATGATCTGACCGTGTTCG -AATGGATGAGCCAGTGGAAGCAGGAAGGCGATGACGAGCAGGCGGTACGCAGTATTCTCGGTCGTTTGCTGTTCAGCCAG -GACGACATCAAAAAGCCAGCTAAAGTGCTTTCCGGTGGGGAAAAAGGGCGGATGCTGTTTGGTAAGTTAATGATGCAGAA -GCCGAACATTCTGATCATGGACGAACCGACCAACCACCTGGATATGGAATCCATTGAGTCGCTGAACATGGCACTGGAAC -TGTATCAGGGCACGCTGATCTTTGTTTCACACGACCGTGAGTTCGTAAGCTCCCTGGCGACCCGCATTCTGGAAATCACC -CCGGAACGCGTGATCGACTTTAGCGGTAATTACGAAGATTACCTGCGTAGTAAAGGGATCGAGTAAGTGATTATCCGTCA -CCCCGATACTGTCGGGGTGACGGCGGCTGATGACAAATGCAAAATAGCCTGATGCGCTACGCTTATCAGGCCTACGCAGT -ACCTGCAATATATTGAATCTGCAGGACTTTGTAGGCCGGATAAGGCGTTAACGCCGCATCAGGCATTAACAAAGCGCATT -TGTCAGCAATCTGAGTAACGTCGAATCGATTTTCTTAATCCCACATCAATTCACTTCCATTAATTCTCAAACATCCATGC -CCAACGCTCGCTTACCGTGAATGTTGAGGTCGGCAAGCGTAAAGCGTCCTTCCCAGTTTGTTTCATAGTCCTCGCGCGGG -AAGTCGCCCGGCGATGCGCCTTTTTCCAGTGCGGCCTTCACCTTGTGCGCGTAGGCAAGATTTTTCTCGCACATCGGTGC -CGCAGGAATGTACATCACGTTGCCCCAACCTTGTTGATTTTCAACGGGGGCAACGGAATGGATGACGTCGCAGTGCCACC -AGACGGAGTCTCCGGCTTCGAGTTTTGGAATGCTGGTTAACGCCTCAATCAACAGTGGATGCCATTGCTCTGATACCGGC -AATACTCTTCCGGGCGCTACGCCGCACAGTTCATCCTCCGGCACATCATCAAGCAGCGGACGTAACAGTACGTACGCCAT -AGCTTCAGGAATGGGCACGACGTGCAGCAGCCCCTGACCAGGCAGCATATCAGAGAGCGCTGTCCAGCCCTGGAATGTCC -GAAACACGGAACATTTGGTGGTGTTGTCCACCGTGTACTCTTCAACTTCCGTACGATGTGCCGCATGCCAGGGATCATAT -TGCGCCAGATTGCCATTAAAGACGTTGGCGAAAACGCGCTGATACGCTGGAAGCAGCCAGCGTTCCAGTGCCCCGGAGTC -GGTATGCGCTCCAAGACCTTTGGAGGTCGTTCCGGGCGGACGGCGGCGGATACGGTCAGGGTAGATGACGCTCACATCCG -GGTTAAACCATTGCTTTCCATCACTTTCAAATGTCCACAGACGATTGAGAAACGACTGCGCATTCGCCATTTCTTCACTC -TGGCGGGCCTGCATTTGCGCCTGCGACCAGTAGATGGGGTAAATCTCGGGACGTGAAGCGCTGAGCGTCCCGAAGAAATT -ATCGCCGGGGCCTTTGTAGACCTCGTCAAAGCGGTTGCGGTCCAGATAGTCCAGCATCGACTGATCCCAGCCTAGCGCTT -GTTCGCGGGGGAAATGGCCTTTTATCACCGCACAACCGCGACGTTTAATCTGTTCGCGCTGCTCTGCAGTAACATGACCT -GCTTTGATATCGGCATAAGACAGCACCGGCCAGACGGCATCGCCCTGTGCTTTGAGTGCGTTGATTTCAGCCACTCGCGT -GGCAATGTCATCGCTTAGCTGATTAAAGATCTGCTGGACGTCGCCAAGCTGCGCCCGCAGCGCGTGCTTCATCTGACGGA -TAGCTGCTTTGTGATCGGCAGGCAATGTGTCGCTGGTAAAAGTAGAAGCCATAACCACCTCTCATTAACTTTCATTCGAA -ACCATTCTGATTTGCATGTGACAATATAAGTTATAAATAAGTTAATGCAAGTTTAATGATTTGATGTGATGTACAGGATG -TAAAAAGAAGGGAAAACCGGAGCGCACGGCTCCGGTAGAGAGGTCAGCTGTTAAAAGGGGATGTGTTATCCAGCACCGCC -TGAATCACATTCAGCGCGCCTTCATGATTATTATCATCGGTAGCGTAACGGGCGATTTGTTTAATGTTTTCCGCAGCATT -GCCCATCGCAAAGGAATAACGCGCCATTTTCAGCATCTCCGCATCGTTACCGCTGTCGCCAATCGCTACCACATTTTGCG -GTGACAGATCCCAGCGTTTCAGTAACCGCGAAATACCGTTTGCTTTATGTAGACCGGGAATAATCAGGTCGATAAAGCCA -AAACCACTGGTAACGGGTTTCATAATGCCATCGAGCGCTACGTGCAGTTTGTCGATCACTAACGGGATTTGTTCATCCGG -CAGGTTGAGCGAAAACTTGAACAGTACGTCGTCAATCTCCTGATAATCTTTTACAGGTTTCAGGCGATGGTAGTGTTTTG -CCATCAGTGCGACAAATGCTTCGGGGGCATTTTCGCTGACATATGCACTTTGCAGACCGCAGGCGACAAAATTGAGTTGC -TTATCTTTTAGCAACTCGCCAATAACAATCCGCGATTCATGTCGGGTCAGTTCGCCGTGGAACAACTGCTTGCCATGTTC -GTAAACCAGTGCGCCGTTTTCCGCGACAAAAGAGATCTCATCCTTTAGCTCAGGAAAGAATGAAATAAGCTGGTAATACT -GATTACCGCTGGCAACAACGAACTTAATGCCGCGCTTTTTCAGTTCCTGATATTGCGCCATAAAACGTGGTTGGTTGTAC -GTTTTGGCGTCGTTAAGAAAAGTACCGTCCATGTCTGTGACGATAACTTTTACGCTCATAGGTGTGCTCCTGGCTCGAAA -ATGAAACCGTAACAGTGTAATAACAATGTGACGCAGAGCACAAATTATATTTCGAATGAAAGTAAGGATGAAATTGATGA -TGTGAATGATTTAGCCCGGCGACGACGCCGCCGGGCCGAGGAGATTACAGCATATGTTCAGTACGGGCGATGATATCGTC -CTGAGCGTCTGGAGAGAGCGCGGTGAAGAACGCGGAATAGCCCGCGACACGCACTACCAGATCGCGATACTGATCGGGAT -GTTTTTTCGCATCCAGCAGCGTTTCGCGGGAAACGATGTTGTACTGAATATGCCAGCCTTTATGCACTTCAAAGAAGGTA -CGCAGCAGGATCATCAGTTTCTGCTTGTCAGATTCGTTCTCCAGCGTTGCCGGATTCAGTTTCTGGTTGAGCAACACGCC -GCCGAGAATCGCTGCCGTAGGCAGTTTACCCACTGAGCCAATGACCGCAGTAGGGCCAAGATGGTCAGTACCGGAGGCCG -GGCTTGCGCCTTCTGCCAGCGGGGTGTGGGCTTTACGCCCGTCCGGTGTTGCCATAGTCTGCGCGCCAAACGGTACGTTA -GCGGAGATTGATGACGTACCCGCGTAATAGTTGCCGCCAACCGGACCACGACCGTAGCGCGGATTATGGTACTGTTTCAG -TTCGTCGATATAGGTCTGATAAGCGCGAGCCAGCAGCGTATCGACAGTATCATCGTCGTTGCCGTACTTCGGCGCACCGT -TAATCAGCCGCTGACGCAGCTGCTCGTGAGTCAGGCCGTCGAAGTCATCTGCCAGTGCGGCAGCAAGCTGTTGCTGACCA -ATCGCACCTTGTTCAAACACCAGTTTCTTCACTGCCGCCAGGCTGTTGCCGAGGTTGGCAATGCCGACCTGCAGGCCAGA -AACCCAGTCATATTTCGCGCCGCCTTGCTTGATACTTTTCGCTCGCTCAATACAGTCATCCACCAGCGCCGAGCAGAGAA -TATCGTGCACGTTCTCTTCCAGCATGGTGTCGACGACATATTCGATTTCGATTGATTTGCGGGTGTAGTAACGGATTTGC -GTATCCCACGCGTCCATCACTTCATCGAAGTTGTTGAAGTTACCTGCCGACAACGCTTTTTCTTGTGGCAGGAACACTTT -GCCGCTGGTGGCATCATGCCCGCCTTCCAGCGCCGCCAGCATCACGCGGGCGAAGTTGATAAAGCTCATGCCGGTACAGC -GATAGCCCCATTTGCCACCGACGGCGGTTTCTATACAACCAATCGCTGCGTAGTCATAAGCGTCCTGCGGTTCAATACCG -AGTTTAATAAATTCCGGGATCACGATTTCGTCGTTGTTGAACGCCGGCATCCCGAAGCCGCAACGGATCACCTGTACGCA -GGCGTCGAGGAAATCGTTGCTCATTCCTGCATGGTAACGCACGCTGAGGTTAGGCTGAGTGGAACGCAGGCGACCGCAGG -ATTCGAGGATCGCGTAAGAGAGTGGATTCACCGCGTCCATTGGTTGACCATCAACCAGATTTTGCCCGCCAATAGTGACG -TTCTGATACAGCGGACTTCCCGCAGAGGCTTTTGAGTGTGAGCCGGAGCGGATCTTGTTCACTTCCAGCAGTTTCAGCCA -GCAGCTATGCAGCATCTCGATGGCGTGTTCGCGATCCAGCGTCTGGTTGAGTTCAACGTCGCGGCGATAGTACGGGTAGA -GATACTGGTCCATACGACCAAACGATACTGAGTGACCGTTAGATTCGATCTGCAAAATCAACTGGATGAAGTAACACAGT -TGCAGCGCCTGCCAGAAAGTCTGCGGCGGCTGGTGGGCGATAAGATCGCAGTTTTCTGCCATCGCCAGCAGTTCATCGCG -ACGGCTTTCGCGGGTTTCGGTCGCGGCCATTTCACGCGCCAGGGCAGCGAAACGTTCAATGTGTTCACTGACTGCCACCA -GCACGATATCAATCGCTTTCAGGAATTGCTCACCGTGTAAATCTTCCAGCACCGTCAGGTTGATGCGCGAGCGACGTTCC -GCTACTTCCTCGCGCAGACCATCAAGCCCTTTTTCCAGCAGCAGCGGGAAATTCACCGCCAGGTGCGCATCGCCGGAGGT -CATATTGCCTTCCGCTTTAATGATTCCGGTCGCCAGCAGACCTTTTTGCTCATCGGTAAACATGCCGTAGCAGCGATCCT -GTACGGTCTGACCGCGCCACCACGGGCACACTTCATGCAGAACGCGTTTGTTCTCTTCGCTCACCGCAAAGCCAGCACCG -GGACGATCTGCCAGATCATCAATCTCTTTTTCGATCCACGAGACAGTATATTCCGGGAAGATCGGCGCGGCGCGAACTTC -GCTTGCCTGGTTGCCAATGATCAACTCATCGTGTTTGATCCAGATGGTGCGATTCGCCAGGTGATGCGCCAGTGCCAGCG -CGCGACGTACCGGGATCGGCTTATCGAGATGTTGTTGATACATCTCGGTATAGTGCTGCGCGCGCTCGGTACAGACTGGC -GGTTTCACAATATGCACCAGCGCATTTTTGTGCGCTTTAATGCGGTCGCTGAGCGTGTCCAGTTTCAGTGTGGTCATGGT -TGTTATCCTCGTAAGGTCGCGGTTAACCCTTTCTGGCAGGCATACTGCTGGGCAAAGTCGAGCAGTTCTGGCGCATCAAG -CGGTTTTTCCGGGGCGTCATAGGGCAGATTAAGTAAGTGATATTTGTTGATGCCCAGCGTGTGGTAGGGCAGAAAATGAA -TTTCGCCAACGTGCAGCTCGTCGGCGGCAAAATCGGTAATGGCTTTTACAGAGGTTTCGTCGGCATTAAAGCCCTGAATC -AGCGGCACGCGGATAATGATTTTTTTGCCCGCTGCGGCGAGTTTTTTCAGGTTATCCAGCACTCTGGCGGCGTTACCGTC -GGTCCACTGTTTAAACGGCGCGTCGGCAACGTGTTTTAAATCGGCAAGAAACAGATCGATATAGGGCAGAGAAGGGGCGA -TATATTTCCACGGCACATGCAGACAGGTTTCTACCGCAGTATGAATGCCTGCCTCGTGGCTGGCTTGCAGTAGCGCCATC -GCCATTTCCGGCTGCATAAAGGGCTCACCACCCGAAAGCGTTAAACCGCCGCCGCTGCGATCGTAAAACGGTTTATCGCG -CAGAACGGTCGTCATGATCTCCTCAACGCTTTTCACTTCACCACACACGGTTAATGCCTGTGTCGGACAGCAGTCGGTTA -ACGCCGTCAGATGCTCCGGGGTTAACTTTTCCCGATGAATAAGCAAACCATTCAGCGCGCGCTCAATCACTTCCGGCGCG -GCCTTAGCGCACAGCTCGCAGCCTTCCAGACACAGTCGTGCGTCATACAGCAGATCCTGCGTGCGGGCGCGGCTTTCCGG -GTTCTGACACCAGCGGCAGCCCAGCGAACAGCCTTTAAGAAATACGACCGTGCGGATACCGGGGCCATCATGGGTCGAGT -AGCGCTGAATATTGAAAATCATAGTTGCCTCTCTATTTCGTTCAAGCATTAAAATACTTTCGAATGAAAGTTAGATTGAT -GTGCGTCAACTGTTCAGAGAGTTTTCCCGTGATAGTCTACATTCAGACAAAAAGTACATTTTGAGGATGGTTATGGAACT -GTATCTGGATACTTCAGACGTTGTTGCGGTGAAGGCGCTGTCACGTATTTTTCCGCTGGCGGGTGTGACCACTAACCCAA -GCATTATCGCCGCGGGTAAAAAACCGCTGGATGTTGTGCTTCCGCAACTTCATGAAGCGATGGGCGGTCAGGGGCGTCTG -TTTGCCCAGGTAATGGCTACCACTGCCGAAGGGATGGTTAATGACGCGCTTAAGCTGCGTTCTATTATTGCGGATATCGT -GGTGAAAGTTCCGGTGACCGCCGAGGGGCTGGCAGCTATTAAGATGTTAAAAGCGGAAGGGATTCCGACGCTGGGAACCG -CGGTATATGGCGCAGCACAAGGGCTGCTGTCGGCGCTGGCAGGTGCGGAATATGTTGCGCCTTACGTTAATCGTATTGAT -GCTCAGGGCGGTAGCGGCATTCAGACTGTGACCGACTTACACCAGTTATTGAAAATGCATGCGCCGCAGGCGAAAGTGCT -GGCAGCGAGTTTCAAAACCCCGCGTCAGGCGCTGGACTGCTTACTGGCAGGATGTGAATCAATTACTCTGCCACTGGATG -TGGCACAACAGATGATTAGCTATCCGGCGGTTGATGCCGCTGTGGCGAAGTTTGAGCAGGACTGGCAGGGAGCGTTTGGC -AGAACGTCGATTTAACCGGACGTTCTGCATCCTCATAAATTGCTGATGACGTGGCGGAGTGCCGCGTCTTATCAGGCCTG -GAGGTGGCAATTACTGCCCACACACCTCACACCCCGGATTACGCATCAGTTTCATTTCGCGAAACTGACAGGTCATCGCA -TCGTACATGACGATTTTCCCGCTGGCCGGTTTGCCATAACCTGCCAGCATTTTGATCGCTTCCATTGCCTGCAACGAACC -AATTACGCCGATCAACGGTGCCATTACGCCTGCTTCCACGCAGGTTAATGCATTTTCACCAAACAAACGGCTAAGGCAGC -GATAGCACGGTTCACCGTCCTGATAAGTAAAGACGGTGATTTGACCTTCCATACGAATTGCCGCGCCGGAAACCAGCGGT -ACCTTCGCGGCAAAACAGCCTGCGTTCAGTTGATTACGTACCGCAACGTTATCCGTACAGTCGAGCACCAGATCGTGTTC -AGCAATCAATGCTGCAAGTTCTGCGTCATCCAGCAGTGCATTGACTGGCGTAATCGCGATATGTGGGTTGATCCGCGTCA -GGGCGTCACGGGCGGATTCCACCTTCGGTTGCCCGACCGTGGCATCACTGTGCAGTGTCTGGCGTTGCAGATTCGAGAGC -GAAACCGTGTCGAAGTCGAGCAGCGTCAGGTTACCGACACCGGCGCTTGCCAGATACTGCGAGGCTGCACAGCCGAGGCC -GCCCAGGCCCACTATCAGCACGCGAGAATCTTTCAGCGCCTCCTGGCCGTCAAAATCAAAGCCGCGCAGAATGATTTGCC -GGTTGTAGCGCAGCATCTCCTGATCGCTGAGTTCCGCCATTACAGGCCTCCGAACAACGCGTTAAACGGTTCTACTTCCA -CCCATTCGCCCACTTCCACATTGCCGCGATCGCGTTCCAGCACGATAAAGCAGTTGCCGAGGCTAAAGGAGCTAAATATA -TGTGAACCCTGATGTCCGGTGGTCGTCACTTCCAGTTCGCCATCGGCGTTGCGTTGCAGCACGCCGCGCTGGAAATCAAG -ACGTCCTGGCGTTTTTTTCAGGCGGGACGCTGTGCGTACGCGCTGGCGCGCGGGCAGGCCGCTGGCGGTGTTACCGCTTA -GTTTTGCCAGCAAAGGCTGTACCAGTTGATAGAAGGTCAGCGTCGCTGAAACCGGGTTGCCCGGCAGGCCGCAGAACCAG -CTATTGCTGAGTTTACCGAACGCGAACGGTTTACCTGGTTTAATCGCCAGCTTCCAGAAGGCGATCTCCCCCAGCTCTTC -AAGAATCGTTTTGGTGTAATCCGCCTCACCCACTGAAACACCGCCGGAACTGATCACCACATCCGCCTGGCTGTCGGCTT -CAATAAATGCGGCGCGCAGGGCATGGGGATCGTCGCGGATAATCCCTAAGTTAATTACCTCGCATCCCAACTGTTCTAAC -ATCAGGTGTACGGCGAGACGGTTGGTATCGTAGATTTGGCCGTCGCCCAGCGGCTGACCGGGCAACTGGAGTTCATCACC -GGTAGAAAAAAGCGCTACACGCACTTTACGAATCACCGGAACTTCGGCAATCCCCAGTGAAGCAATTACTGGCAGCTCTG -CGGTAGTCAGGCGAGTTCCCGCCGGGAAAACAACCGCACCTGCAGAGATATCTTCACCGCGACGGCGAATATTTTGCCCG -CTACGCACTTCAGCAGTAAAACGCACGCCATTGTCCATTTGTTCAGTCTGCTCCTGCATCACCACCGCTTCGCAGCCTTC -CGGCACCGGCGCACCGGTCATAATACGAATGCAGGTACCCGCAGGCCATTCACCATGGTATGGCTGACCGGCAAAGGATT -TACCGGCAACGGGCAGCGGTTGCCCGGAGGCAATATCGGCTAAACGCACCGCGTAGCCGTCCATTGCGGAGTTATCAAAC -CCCGGAACATCAAGCGGCGAAACGACATCGCTCGCCAGAATACGACCAAAACACTGTACCAGTGGCAGCGTTTCCTGGGC -GGTCAGTGGGGTGACGCGAGAAAGCATCTCATTAAGCGCGGTGTCGAGCGACATCAATCCGGTGGTAAATTCCATGAAAA -CACTCCTGCGGAGGCAAAATCGAATTTGCCTATTATGTCAGAAAAACGCCACAGACTGTATGCCACCTCGGGCGTAGCGC -TGGGTCCTGCCTTTACATGCCATATCCATCTTTCTATATTCAAAAATTGAATGAGTAATTCATAAAAATTCTGATATTTA -TAGCAAAAGTGGCGAACCACCCTTAATGGACGAATACTATGGGCAAAGCAGTCATTGCAATTCATGGTGGCGCAGGTGCA -ATTAGCCGCGCGCAGATGAGTCTGCAACAGGAATTACGCTACATCGAGGCGTTGTCTGCCATTGTTGAAACCGGGCAGAA -AATGCTGGAAGCGGGCGAAAGTGCGCTGGATGTGGTGACGGAAGCGGTGCGTCTGCTGGAAGAGTGTCCACTGTTTAACG -CCGGAATTGGCGCTGTCTTTACGCGTGATGAAACCCATGAACTGGACGCCTGTGTGATGGATGGTAACACCCTGAAAGCC -GGTGCGGTGGCGGGCGTTAGTCATCTGCGTAATCCGGTTCTTGCCGCCCGGCTGGTGATGGAGCAAAGCCCGCATGTGAT -GATGATTGGCGAAGGGGCAGAAAATTTTGCGTTTGCTCGTGGCATGGAGCGCGTCTCGCCGGAGATTTTCTCCACGTCTT -TGCGTTATGAACAACTACTGGCAGCGCGCAAGGAAGGGGCAACCGTCCTCGACCATAGCGGTGCGCCACTGGATGAAAAA -CAGAAAATGGGCACCGTGGGGGCCGTGGCGTTGGATTTAGACGGCAATTTGGCGGCAGCCACGTCCACAGGCGGAATGAC -CAATAAATTACCCGGACGAGTTGGCGATAGTCCCTTAGTGGGTGCCGGATGCTACGCCAATAACGCCAGTGTGGCGGTTT -CTTGTACCGGCACGGGCGAAGTCTTCATCCGCGCGCTGGCGGCATATGACATCGCCGCGTTAATGGATTACGGCGGATTA -AGTCTCGCGGAAGCCTGCGAGCGGGTAGTAATGGAAAAACTCCCTGCGCTTGGCGGTAGCGGTGGCTTAATCGCTATCGA -CCATGAAGGGAATGTCGCGCTACCGTTTAACACCGAAGGAATGTATCGCGCCTGGGGCTACGCAGGCGATACGCCAACCA -CCGGTATCTACCGTGAAAAAGGGGACACCGTTGCCACACAGTGATGAACTTGATGCCGGTAATGTGCTGGCGGTTGAAAA -TCTGAATATTGCCTTTATGCAGGACCAGCAGAAAATAGCTGCGGTCCGCAATCTCTCTTTTAGTCTGCAACGCGGTGAGA -CGCTGGCAATTGTTGGCGAATCCGGCTCCGGTAAGTCAGTGACTGCGTTGGCATTGATGCGCCTGTTGGAACAGGCGGGC -GGTTTAGTACAGTGCGATAAAATGCTGTTGCAGCGGCGCAGTCGCGAAGTGATTGAACTTAGCGAGCAGAACGCTGCACA -AATGCGCCATGTTCGCGGTGCGGATATGGCGATGATATTTCAGGAGCCGATGACATCGCTGAACCCGGTATTTACTGTGG -GTGAACAGATTGCCGAATCAATTCGTCTGCATCAGAACGCCAGTCGTGAAGAAGCGATGGTCGAGGCGAAGCGGATGCTG -GATCAGGTACGCATTCCTGAGGCACAAACCATTCTTTCACGTTATCCGCATCAACTCTCTGGCGGGATGCGCCAGCGAGT -GATGATTGCGATGGCGCTGTCATGCCGCCCGGCGGTGCTGATTGCCGATGAGCCAACCACCGCGCTGGATGTCACTATTC -AGGCGCAGATCCTGCAATTAATCAAAGTATTGCAAAAAGAGATGTCGATGGGCGTTATCTTTATCACTCACGATATGGGC -GTGGTGGCAGAGATTGCCGATCGGGTACTGGTGATGTATCAGGGCGAGGCGGTGGAAACGGGTACCGTCGAACAGATTTT -TCATGCACCGCAACATCCTTACACCCGTGCGCTGTTAGCTGCTGTTCCGCAACTTGGTGCGATGAAAGGGTTAGATTATC -CCCGACGTTTCCCGTTGATATCGCTTGAACATCCAGCGAAACAGGCCCCCCCCATCGAGCAGAAAACGGTGGTGGATGGC -GAACCTGTTTTACGAGTGCGTAATCTTGTCACCCGTTTCCCTTTGCGCAGCGGTTTGTTGAATCGCGTAACGCGGGAAGT -GCATGCCGTTGAGAAAGTCAGTTTTGATCTCTGGCCTGGCGAAACGCTATCGCTGGTGGGCGAGTCTGGCAGCGGTAAAT -CCACTACCGGGCGGGCGTTGCTGCGCCTGGTCGAATCGCAGGGCGGCGAAATTATCTTTAACGGTCAGCGAATCGATACC -TTGTCACCCGGCAAACTTCAGGCATTACGCCGGGATATTCAGTTTATTTTTCAGGACCCTTACGCTTCGCTGGACCCACG -TCAGACCATCGGTGATTCGATTATCGAACCGCTGCGTGTACACGGTTTATTGCCAGGTAAAGACGCGGCTGCACGCGTTG -CGTGGTTGCTGGAGCGCGTGGGCCTGTTACCTGAACATGCCTGGCGTTACCCGCATGAGTTTTCCGGCGGTCAGCGCCAG -CGCATCTGCATTGCTCGCGCGTTGGCATTGAATCCAAAAGTGATCATTGCCGACGAAGCCGTTTCGGCGCTGGATGTTTC -TATTCGCGGGCAGATTATCAACTTGTTGCTCGATCTCCAGCGTGATTTCGGCATTGCGTATCTGTTTATCTCCCACGATA -TGGCGGTGGTAGAGCGGATTAGTCATCGTGTGGCGGTGATGTATCTCGGGCAAATTGTTGAAATTGGTCCACGGCGCGCG -GTCTTCGAAAACCCGCAGCATCCTTATACGCGTAAATTACTGGCGGCAGTTCCGGTCGCTGAACCGTCCCGACAACGACC -GCAGCGTGTACTGCTGTCGGACGATCTTCCCAGCAATATTCATCTGCGTGGCGAAGAGGTGGCAGCCGTCTCGTTGCAAT -GCGTCGGGCCGGGGCATTACGTCGCACAACCACAATCAGAATACGCATTCATGCGTAGATAACATTCAGGCGGAGAATAA -AATGGCAAGAGCTGTACACCGTAGTGGGTTAGTGGCGCTGGGCATTGCGACAGCGTTGATGGCATCTTGTGCATTCGCTG -CCAAAGATGTGGTGGTGGCGGTAGGATCGAATTTCACCACGCTCGATCCGTATGACGCAAATGACACGTTATCTCAGGCC -GTAGCGAAATCGTTTTACCAGGGGCTGTTCGGTCTGGATAAAGAGATGAAACTGAAAAACGTGCTGGCGGAGAGTTATAC -CGTTTCCGATGACGGCATTACTTACACCGTGAAATTGCGGGAAGGCATTAAATTCCAGGATGGCACCGATTTCAACGCCG -CGGCGGTGAAAGCGAATCTGGACCGGGCCAGCGATCCGGCGAATCATCTTAAACGCTATAACCTGTATAAGAATATTGCT -AAAACGGAAGCGATCGATCCGACAACGGTAAAGATTACCCTCAAACAGCCGTTCTCAGCGTTTATTAATATTCTTGCCCA -TCCGGCGACCGCGATGATTTCACCGGCAGCGCTGGAAAAATATGGCAAGGAGATTGGTTTTTATCCGGTGGGAACCGGAC -CGTATGAACTGGATACCTGGAATCAGACCGATTTTGTGAAGGTGAAAAAATTCGCGGGTTACTGGCAGCCAGGATTGCCC -AAACTGGACAGCATAACCTGGCGTCCGGTGGCGGATAACAACACCCGCGCGGCAATGCTGCAAACCGGTGAAGCGCAGTT -TGCTTTCCCCATTCCTTACGAGCAGGCCACACTGCTGGAGAAAAACAAAAATATCGAGTTGATGGCCAGTCCGTCAATTA -TGCAGCGTTATATCAGTATGAACGTGACGCAAAAGCCGTTCGATAACCCGAAGGTCCGTGAGGCGCTGAATTACGCCATT -AACCGTCCGGCGCTGGTGAAAGTTGCCTTTGCGGGCTATGCAACGCCAGCTACTGGTGTGGTACCGCCAAGTATCGCCTA -CGCGCAAAGTTATAAACCGTGGCCTTACGATCCAGTGAAAGCGCGCGAATTACTGAAAGAGGCGGGATATCCCAACGGTT -TCAGTACCACGCTGTGGTCGTCACATAACCACAGCACCGCGCAGAAAGTGCTGCAATTTACCCAGCAGCAGTTAGCGCAG -GTCGGGATTAAAGCCCAGGTGACTGCGATGGATGCCGGACAGCGGGCGGCAGAAGTTGAAGGTAAAGGGCAAAAAGAGAG -CGGCGTGCGGATGTTCTACACTGGCTGGTCGGCTTCAACCGGCGAAGCGGACTGGGCACTATCGCCGCTGTTTGCCTCGC -AGAACTGGCCACCGACGCTGTTTAATACCGCGTTTTACAGCAATAAACAGGTGGATGACTTCCTGGCTCAGGCACTGAAA -ACTAATGATCCGGCGGAAAAGACCCGCTTATATAAGGCGGCGCAGGATATCATCTGGCAAGAATCGCCGTGGATCCCGCT -GGTGGTAGAAAAACTGGTGTCGGCACACAGTAAAAACCTGACCGGTTTTTGGATCATGCCAGACACCGGCTTCAGCTTTG -AAGACGCGGATTTGCAATAAGCAACGCAGGGAGTGGAATGCTTAATTACGTTATCAAACGCTTACTGGGGTTGATTCCGA -CGCTGTTTATCGTCTCGGTGCTGGTGTTTTTATTTGTCCATATGCTGCCCGGCGATCCGGCGCGATTGATTGCCGGGCCC -GAAGCTGATGCGCAGGTTATAGAACTGGTGCGTCAGCAGCTGGGGTTGGATCAGCCGCTGTATCACCAGTTCTGGCACTA -TATCAGCAATGCTGTGCAGGGGGATTTTGGCCTGTCGATGGTGTCGCGTCGTCCGGTTGCCGATGAGATTGCCAGCCGCT -TTATGCCAACGCTGTGGCTGACCATAACCAGTATGGTCTGGGCGGTTATATTTGGTATGGCGGCGGGAATTATCGCCGCC -GTCTGGCGTAACCGTTGGCCGGATCGATTGAGTATGACCATTGCGGTGTCGGGGATCTCGTTTCCGGCATTTGCTCTGGG -GATGCTTTTAATTCAGGTATTCTCCGTTGAACTGGGCTGGCTGCCTACCGTGGGAGCAGACAGTTGGCAGCACTACATTT -TACCCTCCCTGACGCTCGGCGCGGCAGTGGCCGCCGTGATGGCGCGCTTTACCCGCGCGTCGTTTGTCGATGTTTTAAGC -GAAGATTATATGCGTACCGCGAGGGCGAAAGGGGTGAGCGAAACCTGGGTTGTCCTCAAACACGGGCTACGTAACGCGAT -GATCCCGGTAGTGACCATGATGGGCTTACAGTTTGGCTTTTTGCTCGGTGGTTCCATCGTTGTGGAGAAAGTTTTCAACT -GGCCGGGACTTGGACGCTTACTCGTTGACTCCGTAGAAATGCGTGATTACCCGGTGATTCAGGCGGAAATTCTGCTTTTC -TCGCTGGAATTTATTCTTATCAACTTAGTGGTGGATGTGCTTTACGCCGCCATTAACCCGGCTATCAGGTACAAGTAAGG -ATGCGACTATTTAACTGGCGACGTCAGGCGGTGTTAAACGCCATGCCACTGGTCAAACCTGACCAGGTACGTACACCGTG -GCATGAATTCTGGCGACGATTTCGCCGTCAGCATATGGCGATGACCGCCGCATTATTCGTTATTTTATTGATTGTGGTGG -CCATTTTTGCACGCTGGATCGCTCCCTATGACGCCGAAAATTATTTTGATTATGACAATCTGAATAACGGACCTTCTTTG -CAGCACTGGTTTGGCGTCGATTCACTGGGGCGTGACATTTTCAGCCGTGTCCTGGTTGGTGCGCAAATCTCGCTGGCGGC -GGGCGTGTTTGCCGTGTTTATCGGTGCGGCGATCGGGACGTTGCTGGGCTTGCTCGCTGGATATTATGAAGGCTGGTGGG -ATCGGCTGATCATGCGCATTTGCGATGTGCTGTTTGCCTTCCCGGGTATTTTACTGGCGATCGCTGTTGTTGCGGTGTTG -GGAAGCGGCATTGCTAACGTGATTATTGCAGTCGCCATTTTTTCCATCCCCGCGTTTGCCCGCCTGGTGCGCGGCAACAC -GCTGGTGTTGAAACAGCAAACCTTTATTGAGTCAGCACGCAGTATTGGTGCCAGCGATATGACCGTTTTGTTGCGTCATA -TCCTGCCTGGGACCGTCTCTTCTATCGTGGTGTTTTTCACCATGCGCATTGGTACCTCGATTATCTCTGCCGCCAGCCTC -TCATTTCTCGGCCTCGGTGCGCAGCCGCCGACACCAGAGTGGGGAGCAATGCTCAATGAGGCTCGAGCGGATATGGTTAT -CGCGCCGCATGTCGCTGTTTTTCCGGCCCTGGCTATTTTTCTGACCGTACTGGCGTTCAATTTGTTGGGCGATGGTTTAC -GCGATGCGCTGGATCCGAAAATTAAAGGATAGTTACGTTTGAATATTGCTTGAAAGGGTAATCACCTCACAGGAAATTAT -TGCCCTAAGCAAGTGTTGTAACTTTCTGCTGATTTTGTAGAATCGGGTAATTTGGTTAAAAAGCCGCAGCAAGGGACAAT -TTTTGCAGCGGCACAGCGTTCAGATAGTTATTTTGTTAAATGTATTAACATGCTGAGTTTATACGAAAAGATAAAGATAA -GGCTGATAATTTTATTTTTATTGGCAGCACTGTCATTTATTGGTCTTTTTTTCATCATTAACTATCAACTGGTATCGGAG -CGCGCGGTAAAACGTGCCGATAGCCGCTTTGAACTTATTCAGAAAAACGTTGGCTATTTCTTTAAAGATATTGAACGTTC -GGCCCTGACATTAAAGGACTCACTGTATTTATTAAAAAATACAGAGGAGATTCAACGCGCCGTGATTCTTAAAATGGAAA -TGATGCCATTTTTAGACTCGGTGGGACTGGTACTTGATGATAATAAATATTATCTTTTTTCGCGGAGGGCGAATGATAAA -ATCGTTGTTTATCATCAGGAACAAGTAAATGGACCGCTTGTCGACGAGTCAGGGCGGGTTATTTTTGCCGATTTTAACCC -ATCGAAACGACCGTGGTCGGTGGCTTCAGATGACTCTAACAACAGCTGGAATCCGGCATACAATTGCTTTGATCGTCCGG -GTAAAAAATGTATCTCTTTTACGCTACACATCAACGGCAAAGATCACGATTTGTTAGCGGTGGATAAAATTCATGTCGAT -TTAAACTGGCGATATCTGAACGAGTATCTTGATCAAATCAGCGCTAATGATGAAGTTCTATTTTTGAAACAAGGCCATGA -GATCATTGCCAAGAATCAACTCGCTCGTGAAAAACTGATTATTTATAATAGCGAAGGTAATTATAATATTATTGATTCTG -TCGATACTGAATATATCGAAAAAACATCAGCGGTGCCAAACAACGCATTATTCGAAATCTATTTTTATTATCCTGGCGGT -AATTTATTGAACGCATCAGATAAACTTTTTTATCTGCCGTTTGCGTTCATTATTATCGTATTGCTGGTGGTTTATTTAAT -GACCACTCGTGTGTTCCGTCGGCAATTTTCTGAAATGACAGAGCTGGTTAATACGCTGGCGTTTTTGCCTGACTCAACGG -ATCAAATCGAGGCTCTGAAAATTCGTGAAGGCGATGCGAAAGAGATTATCAGCATCAAAAATTCGATCGCGGAAATGAAA -GATGCCGAAATTGAACGGTCAAATAAATTGCTCTCACTGATCTCTTACGATCAGGAAAGTGGTTTTATTAAAAATATGGC -GATTATTGAGTCTAACAATAATCAGTATCTGGCTGTGGGGATCATCAAACTGTGTGGTCTGGAAGCCGTGGAAGCGGTGT -TTGGTGTTGATGAGCGCAATAAAATCGTCAGGAAATTGTGTCAGCGAATTGCCGAGAAATATGCGCAATGCTGCGATATC -GTGACATTCAATGCCGATCTCTATTTACTTCTGTGTCGGGAAAATGTACAGACATTTACCCGTAAAATAGCGATGGTAAA -CGATTTTGACAGCAGCTTTGGCTACCGCAATCTGCGCATCCATAAGTCTGCCATTTGTGAACCTTTGCAGGGGGAAAACG -CCTGGAGTTACGCAGAAAAACTGAAACTGGCGATTTCCAGTATCCGTGACCATATGTTCTCAGAGTTTATTTTCTGTGAT -GACGCGAAACTCAACGAAATAGAAGAGAATATCTGGATTGCGCGTAATATTCGCCATGCAATGGAAATTGGCGAACTATT -CCTCGTCTATCAACCGATCGTTGATATTAACACCCGCGCCATTCTGGGCGCGGAGGCGTTGTGCCGTTGGGTGTCTGCGG -AGCGGGGGATCATTTCACCGCTGAAGTTCATTACCATTGCTGAAGATATCGGGTTTATCAATGAGCTGGGTTATCAGATT -ATTAAAACGGCAATGGGTGAATTCAGACATTTTAGTCAGCGTGCGTCGCTGAAGGATGATTTCTTACTGCATATTAATGT -TTCGCCCTGGCAGTTAAACGAACCACACTTTCATGAGCGTTTTACCACCATCATGAAAGAAAATGGCCTGAAGGCGAACA -GCCTCTGTGTTGAGATCACTGAAACCGTGATCGAGCGAATTAATGAACATTTTTATCTCAATATTGAACAACTGCGTAAA -CAAGGGGTACGGATATCGATTGATGACTTTGGCACCGGTTTGTCAAACCTGAAACGTTTTTATGAAATTAATCCAGACAG -CATAAAGGTGGACTCGCAATTCACCGGCGATATTTTCGGTACTGCGGGAAAAATTGTGCGCATTATTTTCGACCTGGCAC -GCTATAACCGGATCCCGGTGATTGCGGAAGGCGTAGAGAGCGAAGACGTTGCGCGCGAATTAATCAAATTAGGATGTGTT -CAGGCTCAGGGGTATCTGTACCAGAAACCCATGCCATTCTCCGCCTGGGATAAAAGTGGAAAATTAGTAAAAGAGTAGTT -TACGTATGTCCAGAATCAATAAGTTCGTACTTACAGTCAGTCTGCTGATTTTTATCATGATTTCAGCAGTTGCCTGCGGG -ATCTACACTCAAATGGTAAAGGAACGGGTGTATAGCCTGAAACAGTCCGTTATTGATACTGCTTTTGCGGTGGCAAATAT -TGCTGAATATCGGCGTAGCGTGGCAATTGATCTTATCAACACGCTAAATCCCACGGAGGAACAGCTGTTGGTTGGTTTGC -GCACAGCTTACGCCGACTCGGTTTCCCCCTCTTATTTGTACGATGTCGGTCCTTATCTGATTTCCAGTGACGAATGTATT -CAGGTAAAGGAGTTCGAGAAAAATTATTGTGCAGATATTATGCAGGTTGTGAAGTATCGACATGTCAAAAATACAGGGTT -TATCTCTTTTGACGGTAAAACCTTCGTCTATTACCTCTATCCGGTAACTCACAATCGTAGTCTGATATTTTTGCTTGGTC -TGGAGCGTTTTTCTTTACTGTCAAAATCGCTGGCGATGGACAGCGAGAACCTGATGTTCTCTCTATTTAAGAACGGTAAA -CCGGTGACCGGTGATGAATATAATGCTAAAAACGCCATCTTCACCGTTTCGGAAGCGATGGAGCACTTCGCCTATTTGCC -GACCGGATTGTATGTATTTGCGTATAAAAAAGATGTTTATTTGCGGGTTTGTACATTGATTATTTTCTTTGCCGCATTGG -TGGCAGTGATATCGGGTGCCAGTTGCCTCTATCTGGTACGCAGAGTGATTAATCGTGGTATTGTGGAGAAAGAAGCCATC -ATTAATAACCATTTTGAACGCGTACTGGATGGCGGGCTTTTCTTTTCGGCTGCCGATGTCAAAAAACTCTACAGTATGTA -TAACTCGGCGTTCCTGGACGACCTGACCAAAGCAATGGGCAGAAAATCCTTTGACGAAGATTTAAAAGCGCTGCCGGAAA -AAGGCGGTTATTTGTGCCTGTTTGACGTCGATAAATTCAAAAACATTAACGACACCTTCGGTCATTTGCTGGGCGATGAA -GTGTTGATGAAAGTGGTGAAAATCCTTAAATCACAGATCCCGGTAGATAAAGGTAAAGTCTACCGCTTCGGCGGTGACGA -ATTTGCGGTGATTTATACGGGTGGAACGCTGGAAGAGTTGCTATCGATTCTAAAAGAAATCGTTCATTTCCAGGTGGGAA -GCATTAATTTAAGTACCAGTATCGGTGTAGCACATTCAAATGAATGTCCTACCGTCGAACGCTTGAAAATGCTGGCGGAT -GAGCGGCTGTATAAGAGTAAGAAAAACGGCAGGGCACAGATTAGCTGGCAGTAATCATTATTCGCAGGCCGGACAAATGA -TTTTGCCCGGCCTGAATTAATTAAACCCGGCTACCCCACAAATCGTACTCATCGGCGTGCTCGACTTTCACACGCAGGAT -ATCACCCGGCTTAACGTTGGTTTCACCATTGAGATAAACCGCGCCGTCGATTTCCGGTGCATCTGCCATGCTGCGACCAA -TCGCGCCTTCTTCGTCCACTTCGTCGATAATCACCAGAATTTCACGGCCCACTTTCTCTTGCAGGCGCTCGGCGGAAATC -TGCTGCTGCAGCTGCATGAAACGGTTCCAGCGTTCTTCTTTAACTTCTTCCGGAACCTGGTCAGGCAGGGCATTGGCGTC -TGCACCTTCAACCGGGCTGTATTTAAAGCAGCCAACGCGATCCAGACGCGCTTCTTTCAGGAAGTCGAGTAGCATCTGGA -AATCTTCTTCTGTCTCGCCAGGGAAGCCGACAATAAAGGTTGAGCGTAGGGTCAGTTCCGGGCAGATTTCGCGCCACTGT -TTGATGCGCGCCAGTTGGCGATCTACAGAACCCGGACGCTTCATCAGTTTGAGAATGCGCGGGCTGGCGTGCTGCAACGG -AATGTCCAGATACGGCAGGATTTTGCCTTCTGCCATCAGTGGGATGACGTCGTCCACATGCGGATAAGGGTAAACGTAGT -GCAGACGTGTCCAGATCCCCAGTTTCGATAACTGTTCGCACAGGCTGACCATGCTGGTTTTTACCGGCTCGCCGTTGTGG -AAGCCAGTACGATGTTTAACATCAACGCCATAGGCGGAAGTATCCTGCGAGATCACCAGAATCTCTTTAACGCCCGCATC -TACCAGACGTTTCGCTTCACTTAACACTTCGCCAATCGGACGGCTCACCAGGTCGCCGCGCATAGACGGAATAATGCAGA -AGGTGCAGCGGTGATTACAGCCTTCAGAAATTTTCAGATAGGCATAATGACGCGGCGTCAGTTTCACACCTTGTTCTGGC -ACCAGGCTCAGGAATGGGTTGTGTTTCGGTTTTGGCACGTAGTGATGAACGTGCTCCAGAACCTGCTCATAGCTATGAGG -CCCGGTGATTTCCAGCACTTTCGGGTGGACTTCGCGGATCTGATCTTCTTTTGCCCCCAGACAACCGGTCACAATAACCT -TGCCGTTTTCATTCAACGCTTCACCAATGGCTTCCAGTGATTCTTGTACCGCGCTGTCAATAAAGCCGCAGGTGTTGACG -ATCACCATGTCCGCATCGTCATAGCTCGGTACCACGTCATAACCTTCAGTGCGGAGTTCGGTGAGAATACGCTCTGAATC -AACAAGGTTTTTCGGACAGCCAAGGGAAACAAAGCCGATTTTCGGCTGGGGAGTTACTTTGCTCATAGCTTAAAAAATAT -TCAGTTACAGGAAAGGTCAGGGCAGGGATTCTACAGAGTTCTGGATAAAATTTGTATCGCAATCTCATTCGCTGGCGGAG -GCGAAGGAAATGTAAATTTTGTTAATTCGGCGTGAAGAATTGATCCTGGACAGCATTTTGCTCAAAAAATAGCCATACTA -TTTAATTGCAACAAGGCTGGGAAGAGGAGGATCGAAGTATGTTCGTTGACAGACAGCGAATCGATCTGCTGAACCGGTTG -ATCGACGCACGCGTTGACCTCGCCGCATACGTGCAACTGAGGAAGGCAAAAGGATACATGTCCGTCAGCGAAAGCAATCA -TCTACGAGATAACTTTTTTAAACTGAATCGCGAACTGCACGATAAATCGCTGCGGTTGAATCTTCATCTGGATCAGGAAG -AGTGGAGTGCTCTTCATCATGCTGAAGAAGCATTAGCGACAGCCGCAGTATGTTTGATGAGTGGGCACCATGATTGCCCG -ACTGTTATTACCGTCAACGCCGATAAGCTTGAAAATTGTCTGATGAGCTTAACGCTGAGTATCCAGAGCCTGCAGAAGCA -CGCCATGCTTGAGAAGGCCTGAAAACTAAGGGGGAGAAAGCGTCTCCCCCTTCATGTTTAAGTTTTTGTAAAAATGAATT -TGTTATCTCCTCCACTGACTACGCTTTAAGCCAGAGTCAATCCGGAGGCGTTATGCATCGACAATCCTTTTTCCTTGTGC -CCCTTATTTGTCTTTCTTCCGCTCTCTGGGCGGCTCCTGCAACGGTAAATGTCGAAGTACTGCAAGACAAACTCGACCAT -CCCTGGGCACTGGCCTTTTTACCCGATAATCACGGTATGTTAATCACTCTGCGCGGCGGCGAGTTGCGTCACTGGCAAGC -AGGAAAAGGATTATCTGCGCCGCTTTCCGGAGTTCCGGACGTTTGGGCGCACGGGCAGGGCGGCCTGCTGGACGTGGTTT -TAGCGCCTGATTTTGCTCAGTCTCGCCGCATCTGGTTAAGTTATTCCGAAGTTGGCGATGATGGCAAAGCCGGAACTGCT -GTGGGTTATGGCCGCTTAAGTGATGATCTCTCAAAAGTGACCGACTTCCGCACCGTCTTTCGCCAGATGCCAAAACTGTC -TACCGGCAACCATTTTGGCGGGCGGCTGGTATTCGACGGTAAAGGTTATCTTTTTATTGCTCTGGGCGAAAACAATCAGC -GCCCGACGGCGCAGGATCTGGATAAATTACAGGGCAAACTGGTGCGTCTGACCGACCAGGGCGAAATCCCGGATGATAAT -CCTTTTATAAAGGAATCCGGTGCGCGCGCCGAGATCTGGTCTTATGGCATTCGTAATCCGCAAGGAATGGCGATGAATCC -GTGGAGTAATGCACTGTGGCTGAATGAACATGGCCCGCGCGGTGGTGATGAAATTAATATCCCGCAAAAAGGCAAAAACT -ACGGCTGGCCGCTGGCAACCTGGGGAATCAACTATTCAGGCTTTAAGATACCGGAAGCGAAAGGGGAGATCGTCGCCGGG -ACCGAGCAACCTGTTTTTTACTGGAAAGATTCGCCCGCTGTGAGCGGCATGGCCTTCTATAACAGCGATAAATTCCCCCA -GTGGCAGCAAAAATTATTTATTGGCGCGCTGAAAGATAAAGATGTCATTGTGATGAGCGTCAACGGCGACAAAGTGACAG -AAGATGGCCGTATTTTAACGGACAGAGGGCAGCGAATTCGTGATGTTCGCACTGGACCCGACGGTTATTTATACGTTCTC -ACCGACGAGTCCAGTGGGGAATTACTTAAAGTTAGCCCACGCAATTAGCTAACGGGAATCATCACCACTTTGCGCACTGC -GGGGCGTTCAGTGAGTTGCTGATACCAGCGTTGCAGATTTGGACGCGGTGTCCAGGTCAGGCCAACGTTAAACAAATTGT -AGATGAACGGTGCGATAGCGATATCGCCCACACCAAACTCGTCGCCAGAGAACCATTTTACTTTTGCCAGTTCCGCATCG -AGCAGGGCAAACAGGGCGTCGCACTCTTTGCAACTGGCATCAATGGCGGCCTGATCGCGCTCTTCCGGTGGTGTTCTGAC -TAATCCCATCAGGATCCCGCGATGAGCATTACTGAGCGTCTGGTTTGCCCAGTCCATCCATTTTTCCGCTTCCGCACGAC -GTGCCGGTGAGTCGATCCACAGGCGTTTTTGCCCGTACTGTGCCGCCAGATAGCGGACAATGGCGTTTGATTCCCAAAGA -ATGAGATCACTTTCGTCGTCACGCAACAACGGCACCAGCCCGTTAGGGTTCATCGCCAGAAAATCAGCATCGTGATTTAT -CCCAAACTCACGGCCCGCGAGAATTTGCTCATAAGGTAGTTCCAGTTCTTCGAGCGTCAGCAATACTTTTTTTACGTTAG -TTGAATTATTCCGACCCCACAGCGTAATCATACTCACCCCTTTTCCGACAGGCAGCCACAGGCTGAACAGGACTCCGATG -GTGAAGTAAAGTTAACTTTTAAGCAACAGCTGGCAAAAAAATGACACCAGAAGCAGCGAAGCGGCAGGATATTGCATAAA -CTTTAAAAACTTTACCAACTTACGGTTTCTTTAAGTTTGTGTGTGCGTTATTAATCACCAAACTTATCATACGGCGATAT -AACGTATTTTTTTTGAATGGATACTCGGGTGGCATTTATGACGCAATACTCCTCTCTCCTTCGTGGTCTTGCAGCGGGTT -CTGCATTTTTATTCCTTTTTGCCCCAACGGCATTCGCGGCGGAACAAACCGTTGAAGCGCCGAGCGTGGATGCGCGTGCA -TGGATTTTAATGGATTACGCCAGCGGTAAAGTGCTGGCAGAAGGCAATGCGGATGAGAAACTGGATCCCGCGAGCCTGAC -TAAAATCATGACCAGCTATGTGGTTGGGCAGGCGCTTAAGGCCGATAAGATTAAACTCACCGATATGGTGACGGTCGGTA -AAGATGCCTGGGCGACGGGAAATCCGGCACTGCGTGGTTCATCGGTAATGTTCCTCAAACCGGGCGATCAGGTTTCGGTG -GCAGACTTGAACAAAGGTGTGATTATCCAGTCCGGTAATGACGCCTGTATTGCGCTGGCTGATTACGTTGCCGGGAGCCA -GGAGTCATTTATTGGTCTGATGAATGGTTATGCCAAAAAACTGGGTCTGACCAACACTACCTTCCAGACGGTGCACGGCC -TGGATGCGCCGGGGCAGTTCAGCACCGCGCGCGATATGGCATTGCTGGGTAAAGCATTGATCCACGATGTGCCGGAAGAG -TACGCCATTCATAAAGAGAAAGAGTTCACCTTCAACAAAATTCGTCAGCCTAACCGTAACCGTCTGCTGTGGAGCAGCAA -TCTGAATGTTGATGGCATGAAGACAGGAACCACGGCAGGCGCGGGATATAATCTGGTTGCTTCGGCTACCCAGGGCGATA -TGCGTTTAATCTCCGTAGTGTTGGGGGCGAAAACCGACCGTATCCGTTTTAATGAGTCTGAGAAATTATTGACCTGGGGT -TTCCGCTTCTTTGAAACCGTGACGCCAATTAAACCTGATGCCACCTTTGTGACTCAGCGCGTCTGGTTTGGTGATAAGAG -CGAAGTGAATCTCGGGGCAGGTGAAGCGGGCTCAGTGACCATACCGCGTGGGCAGCTGAAAAACCTGAAAGCGAGTTATA -CGTTAACGGAACCGCAGCTTACCGCACCGCTGAAAAAAGGTCAGGTTGTCGGGACCATTGATTTCCAGCTTAACGGTAAA -TCCATTGAGCAGCGTCCGCTGATCGTGATGGAAAATGTGGAAGAGGGCGGATTCTTTGGTCGGGTGTGGGATTTCGTGAT -GATGAAATTCCATCAGTGGTTCGGCAGCTGGTTCTCTTAATCTTCTGATAACCGGATGGCGCGAAACGTCATCCGGTTAT -ACGTCATTAATACATCAACTTAATGCGCTGCGTCTGCGCGTACTTCACATACTCATCTTCCGGGCAACAATCGCTCACCA -CAATATCAAAGCGTTTCAGGTCACCCATGCGCGCCGGACGCACCTTGCCAAATTTACTGTGGTCGACAACCAGCACATGC -TTTTGCGCCATCGACATGGCCCAGTGTTTTACCGGCAACTCTTCAAGATTAAAACAGGTAGCGCCTTTACTGACATGCAC -GCCCGCCGCAGAATAAAAAGCGATATCCGGGCAAAAATTATTCAGCGTTTGCTGAAAATCGATGGGTTTGAAAATGGCGT -TGCTGGCGTGAAATTCACCACCGCAAAGAAACGCGCGGCAATGGGGTTTCTCTTTCAGCGCCAGAAAGGTATTTAGCGAA -TAACAAACGGCGGTAAAAGGGATTTCATTATCAATCGCTTCAATAATCCACGGCGTGGTGGTGCCACAGTCAAAAAAGAG -GGTCTGATCGGGTTCTACCAGCGTCGCAGCCAGTTTTGCCGCCCGGCGTTTTTCTTCCACCAGGCGGGATTTTTGATCGC -TTAACAGGTAATGGCTGGCACTGCGCGGTTCCAGAACAATATAGCCGCCGAGCAAAACGACGGGCGCACTGTGGTTGTTC -AGATCGCGACGAATCGTCATCTCCGAAACCCCAAGCAGGGCGGCGGCGTCTTTAAGATGTAACTTATCGCTGCGTTTTAA -TTCTTGCAGCAGCTGCCCGATACGCTCTTCGCGACGTGTTTCCATAATCCCTCTGAATAGTTATTGAAGCGAGCCGCTCA -ATACTACACTTTTTAGCAGAGATCAGTCACGCACCCAGCCTTTGCGGATCGGTAATGCAAAACAGACGCGATACCACGAT -TGCAGACGTTGATAGAGTTTATGCCCCATCGCTTGCCAGATAATCTGGGCACTAAGGCAGCCAATCATACCTGCCAGCAA -TCCACCGAGCATATCCAGCGGCCAGTGGACGCCAAGATAAACGCGCGACCAGGCAATGACGACGGCCAGCACCATTAAAA -GTGAGCCGGACCACAGGCGATGCCAGCATAAAAATGCCAGTGCAAAGGTGAAAATCACCGTACCGTGATCGCTTGGGAAT -GAGTCATCCGCCGCATGATGCAGGAAGTTATAGCCGATATTTTCGACAAAGGGTCGGTCGTGCGGAAAAAGATGTCCCAT -CGTCCAGGACACAAACAGGCTGACCGCCAGCGCGATAGCGATTTTTATCACCAGTTGCCGTTGTGCTGTAAGCCCCCACA -ACCAAAGTACCACGGCCAGCAACGGCACCACGGTAATCAAATCTTTAGCAATAAAAATCGCCAACGAGATCATCCACGGA -GCCGAGTCTGGCGTCGCGTTAATAAGAGAGAATAGAGAGAGATTCAAATTTTCCAGCATAACTTCCCGACGCAAAGTGAT -TAAAAGGGAGCCAATACAGGCAAGTCGTTGAGAATAAAGTGCAGGTTAAACTGGGTAAAGCGGCATCGTCTTATTTCCCT -CAAGCGGCCTGTTTACGGTGGGTGATTGTAACGGGCATAGGTTAAATAAAACTTAAAGAAAGCGTAGCTATACTCGTAAT -AATGTAAGAATGTGCTTAACCGTGGTTTCAGCTACAAAATTCGCTTTCTCGTTAGCTGCGCTTTTATTAAACTCTGCGCG -ATTATTATTGGCGAAGAAATTGCATGCAAAATAAATTAGCTTCCGGTGCCAGGCTTGGACGTCAGGCGTTACTTTTCCCT -CTCTGTCTGGTGCTTTACGAATTTTCAACCTATATCGGCAACGATATGATTCAACCCGGTATGTTGGCCGTGGTGGAACA -ATATCAGGCGGGCATTGATTGGGTTCCTACTTCGATGACCGCGTATCTGGCGGGCGGGATGTTTTTACAATGGCTGCTGG -GGCCGCTGTCGGATCGTATTGGTCGCCGTCCGGTGATGCTGGCGGGAGTGGTGTGGTTTATCGTCACCTGTCTGGCAATA -TTGCTGGCGCAAAACATTGAACAATTCACCCTGTTGCGCTTCTTGCAGGGCATAAGCCTCTGTTTCATTGGCGCTGTGGG -ATACGCCGCAATTCAGGAATCCTTCGAAGAGGCGGTTTGTATCAAGATCACCGCGCTGATGGCGAACGTGGCGCTGATTG -CTCCGCTACTTGGTCCGCTGGTGGGCGCGGCGTGGATCCATGTGCTGCCCTGGGAGGGGATGTTTGTTTTGTTTGCCGCA -TTGGCAGCGATCTCCTTTTTCGGTCTGCAACGAGCCATGCCTGAAACCGCCACGCGTATAGGCGAGAAACTGTCACTGAA -AGAACTCGGTCGTGACTATAAGCTGGTGCTGAAGAACGGCCGCTTTGTGGCGGGGGCGCTGGCGCTGGGATTCGTTAGTC -TGCCGTTGCTGGCGTGGATCGCCCAGTCGCCGATTATCATCATTACCGGCGAGCAGTTGAGCAGCTATGAATATGGCTTG -CTGCAAGTGCCTATTTTCGGGGCGTTAATTGCGGGTAACTTGCTGTTAGCGCGTCTGACCTCGCGCCGCACCGTACGTTC -GCTGATTATTATGGGCGGCTGGCCGATTATGATTGGTCTATTGGTCGCTGCTGCGGCAACGGTTATCTCATCGCACGCGT -ATTTATGGATGACTGCCGGGTTAAGTATTTATGCTTTCGGTATTGGTCTGGCGAATGCGGGACTGGTGCGATTAACCCTG -TTTGCCAGCGATATGAGTAAAGGTACGGTTTCTGCCGCGATGGGAATGCTGCAAATGCTGATCTTTACCGTTGGTATTGA -AATCAGCAAACATGCCTGGCTGAACGGGGGCAACGGACTGTTTAATCTCTTCAACCTTGTCAACGGAATTTTGTGGCTGT -CGCTGATGGTTATCTTTTTAAAAGATAAACAGATGGGAAATTCTCACGAAGGGTAAAAAAATGCCTGACTGCTTTGTGCG -ATCAGGCATTCTCGAATTAATGGTGATGGTCGTCAATCTGGTGTTCGATAACCATCCCTTCACCTACGCTGGCAAGATGG -CGAACATAAGGATGCGGGCGGTAAGCCGGAGCTGGCGCAGGAGCCACATAGACGGTTTGCGGCACAGTCGCGACGCTGAC -CGCTTGTGGAACGCTGACTGAATCAGGAACCACAACCACTTTGTATCCACTCGGCACATCGACGGTGACACTTTGCGCCA -TCGCCACACCAGTAAAGCCCATTAAAAGCGCGCCCAACAGTAGACAATTTTTCATAATCATTTCGCCTGAAATAATGCAG -CGGGTTAATTTCCGCGAATTATGCAGCCTTCATTCAGGCATTGTGTTGCCGGGCGTGCTGCCGGTTTTATTGGTCAAATG -GCGCTTCGTGTTTAAGAACTTTATCGATCACATCCAGTACGCCTTCACGGTTATTGGAGCCTGCGCGGTATTTTGCCGCT -GCGACGACCGCGCTACCGGCATTTTCCATTGCAAAACTAAAGCCTGCCTGACGCAGCATCTCAATATCGTTACCGCCATC -GCCAAAGACCACCACTTCGCTGTCGTCTATTCCCCATAATTTCTGCAGTTGGCGAAGGCCATTGGCTTTATGTACGCCGG -GGATAATCAGATCGATGCTGCCGTTGCCGGTGTGGACCGACACCATAATATCGCCGATGGCCTCATGTAATGCTTTTTGT -ACTTGTGGAATCAGTTCATCGGAAAGATTCAGGCCAAACTTAAAGAAGATATCCTCTAAGTTGTCAAAGTTATCGACGTA -TTCCAGACGGTGATAATACATTTCCGCCACCGTTTTCATGGCATCGTCATATTTTTTGAGTGTATAGGCACTATTTTTTC -CGCAGGCAATAATTTCCACTTCCGGGCGCGTCAGCAAATGTTCCACGACAGTAGCAAACGCATCCTTCGATAGCTCGCCA -TTAAAAACATCTTTGCCTTCGCTCACTACCCAGCCGCCGTTTTCAGCCACAAAGGCAATTTCATTAGCAATTTCAGGGAA -GAAAGAGATCAACTGATAATATTGATTCCCGCTGGCGACTACAAAGCGAATTCCTTGTGCTTTCATTTGCTGATACTGAG -CCATAAACCGCTCACGGTTATAGGTTTTTTGATCGCTTAAGAAAGTACCATCCATGTCTACCGCAATTAATTTAATGCTC -ATCAACTATTCTCCATCGCCGTCTGCGTTTTGGTATCGGGTTTGGCGACGGCTTTCGCGACAATAGCCGCGAGAATAACC -AGCGCCAGTACAACCAGCATTGCACTACGTAATCCATAATGTTCGCCGAGATAGCCCAGCAGCGGCGGCCCGACGAGGAA -AGCCAGATAACCGGTCGTTGCTACCACACTGACGCGGGTTGGTGCATCGGGGCCGGTATCGCTGGCGGCAGAAATGGTCA -GCGGGAAGCCCAGCGAGGCACCCAGTCCCCAGAGTACAACAGACACCCCAGCGACCCAGGCGCTATCGACAAAAATAATC -AGCCCAATACCCAACGCCCCCATTAGTGCACTGGCCCGAACCACGGCAACGCGACTGTAACGGTCGATGAACCAACCGCC -GGTGAAGCGTCCAACGGTCATCCCCAGGGTAAAACCGGCATAAATCAGCGAGCCGGAAGTAGGGCTAAAACCGTGACCGT -CAACCATTAATAAGGGTAACCAGTCGTTGGCAGAACCTTCGGCAAAGGCCATCGCCAGCACCACAACACCTATCAGCAGC -AACTGGATATCGCGATAAAAAGGTACGCCTTTTTCGCCATGCTGGGTGCCATCGGCAGCATTTTTGCCCGTACCGTCAGG -GATTGCCTGAATGGCGATATAAATAGGTGCGATACCTACCAGCGCCGCCAATAAAATGTGCACCGTTGCCGGAACGCCAA -AGGCCGTCAGTGCCATCCCGACACCTGCGCCTGCCAGCGTGCCCAGGCTATAAAAACCGTGCATCATCGGCAAAACCGTC -TTATTCATTTCTCGCTCAACGGCAGCACCTTCAACGTTTATCGCCACTTCCGCAGAACCAAAACTTGCCCCAAAGACGCC -GAGACCAACGGCAAAGAGCAGGGGCGATGTCAGCCAGAGTGCCAGACTTAATATCATCATCCCGATCAATGCGCAGGACA -TCGTGACCAGGATGACATTACGTGTCCCAAAGCGTTTCACTAACCACGCCGAGCAGAGAATACCGCTCATCGAACCGATC -GACAGACCAAAGAGAACACCGCCCATTTCAGCGATCGAGACAGAGAGAATATCGCGGATAGCAGGCGTACGGGTTGCCCA -GGACGCCATTAACAGGCCTGGCAAAAAGAAGAACATAAACAGCGCCCAGGTTCGGCGTTTCAATGCATTACGTGAAGAAT -TTACGGTCATAGATCACGTCAAAATAAGAAGAGGGAAGACAACATTAGCAAGGTTGTGTACATTTGTACACAATTGCAGA -GAGAGGAAATGACATGCGTCGCGCTAACGATCCGCAACGGCGAGAAAAAATTATCCAGGCCACGCTGGAGGCGGTGAAAC -TTTACGGAATACATGCTGTTACGCACCGCAAAATTGCTACCCTTGCCGGGGTACCGTTGGGATCGATGACCTACTATTTT -TCAGGAATTGATGAGTTGTTACTGGAGGCGTTCAGCAGTTTTACTGAGATCATGTCCCGGCAATATCAGGCATTTTTTAG -CGATGTTAGTGATGCTCCGGGCGCATGCCAGGCTATCACCGATATGATCTACAGCTCACAGGTTGCAACGCCGGATAACA -TGGAGCTGATGTACCAGCTCTACGCGCTGGCTAGCCGAAAACCGCTATTAAAAACGGTAATGCAAAACTGGATGCAGCGC -AGTCAGCAAACGCTCGAACAATGGTTTGAACCCGGAACCGCCCGCGCGCTTGATGCGTTTATTGAGGGGATGACGCTGCA -TTTTGTCACCGACCGTAAGCCGCTATCGCGCGAGGAGATTTTGAGGATGGTTGAGAGGGTTGCAGGGTAGTAGATAAGTT -TTAGATAACAAAAAACCCATCAACCTTGAACCGAAATGGCGGGGTTGATGGGCTCCACAAAATGGGGACATCAAAGAAAA -GCAGTGGCACTAATTAAGACTGATGCCCTGCGGAAAAGTTCTGCGGTTGTGCAAAAAAATTTCATTTTCAGGGCAACTTC -AGTTTTATCCTAATCCTGGCCATACCATGACGATGATTGTCCCTGCCAGCGTCAGCAGGACGTTGGCGATTGCATAGGTG -CCCGCATAGCCCAGCGCCGGGATGTTACTGCGAGCTGTATCACTGATGATCTCCATTGCCGGCGCGCAGGTACGTGCGCC -CATCATTGCGCCGAACAACAGCGCGCGGTTCATTCGCAATACATAAGCACCGAACAAGAAACAGATAACCACGGGCACCA -GACTGACAATCAATCCGGCAATCAACATCTGACCGCCAATCGCGCCCAGGCCGTTATTAATACCGCTACCGGCGCTCAGA -CCAACGCCTGCCATAAACACCATCAAGCCGAACTCTTTCACCATGCTTAATGCACCCTGCGGAATGTAACCGAAGGTCGG -GTGGTTAGCACGCATAAAGCCCAGCATAATTCCGGCGAATAACAACCCGGCAGCGTTCCCCATGCCGAAACTGAATGTGC -TGAACTGGAAGGTGATCATCCCGATCATCAGCCCAATAACAAAGAAGGCGCAGAATGCCAGCAGGTCAGTGACCTGGCTG -TGAATCGAGATAAAGCCGATGCGATCGGCGATGGTTTTTACGCGGCGGGCATCGCCGCTGACTTGTAAAACGTCACCTTT -GTTAAGCACGACGTTGTCATCTATCGGCATCTCAATCTGGCTACGAATGACGCGGTTAAGGAAGCAACCGTGATCGGTCA -ACTTCAGTTGTGCGAGACGTTTACCTACAGCGTTATGGTTTTTAACGACCACTTCTTCAGTGACGATACGCATGTCGAGA -AGGTCACGATCGAAAACTTCTTTACCGTTACGGAAGCTGGGATCGAGTCGGGCATGGGCGTCGGGATAGCCTACCAACGC -TATTTCATCGCCCATTTGTAGCACGGCATCACCGTCTGGATTTGCCAGAATCCCGTTACGTCGAATACGTTCAATGTAGC -AGCCGGTTTGTCGATAAATACCCAGTTCACGCAGATTTTTGCCGTCGGTCCAGGCCACCAGTTCCGGGCCGACGCGATAG -GCGCGGATCACCGGTAAATAAACCTTACGGTTGGCATCAGTGTCCAGGCCACGTTCGCGGGCGATTTGCTGGGCGCTGGT -CTGTAAGTCCTGATGCTGCAATTTCGGCAAGTAACGCGCACCAACAATCAAACTCACCAGACCGATTAAATAGGTTAAGG -CATACCCGAGGCTCAGATTATCCAGTGCCAGTGAGAGCTGCCTGCTTTCCATGCCGGAATGACGCAGTGTATCGCCAGCA -CCGACCAGAACCGGTGTCGACGTCATAGAGCCTGCTAACATACCGGCCGTCAGGCCAATATCCCAGCCAAACAGCTTACC -TAACCCTAAGGCGATCACCAGCGCACTGCCAACCATCACCAGTGCTAACATTAGGTAATTTTTCCCATCGCGAAAAAAAA -TGGAAAAAAAGTTCGGTCCGGCTTCGACCCCGACGCAGAAAATAAACAGCATAAAGCCAAGATTAAGCGCATCGGTGTTA -ATGCTGAAATGTTGTTGGCCTAATAACAGCGATACGACTAAAACGCCAATGGAATTACCCAGTTGGATCGAACCAAGTCG -TAACTTTCCGAGACATAGCCCAAGCGCGAGGACCACAAATAATAACAGAATGTAATTCCCATTTAACAATTCGGCGACGT -TTATATTCACGGAGGCTAACTTCTTGTTTACTAGTAAGCTGTTGAAAGAAATGGTAATTTACGATAATGTTTTTTACCAG -AATTCAGGGCGCAGATTCATTCAGCGCACCTAAACGATAGTAAAGTAACAATATATTTTACTAGTGTAATCACATTAGGT -ATCAACGGCTATATGAATTGCGTTGGCCTATATTAGCATGGAATGCGAAGCGGCTTTATCTTACTGAACGCCACACTGGC -GAAAAATGTGTTCGATAGACGCAGTGTCAGGAGGAACGAGTGAAACATAAACAACGTTGGGCGGGGGCAATCTGCTGTTT -TGTCCTCTTCATTGTGGTGTGCCTTTTTCTGGCGACGCACATGAAAGGCGCTTTTCGGGCTGCCGGGCATCCTGAAATCG -GCTTGCTATTTTTCATTCTTCCTGGAGCAGTCGCCAGCTTCTTTTCACAGCGTAGAGAAGTCCTGAAACCTCTGTTTGGC -GCAATGCTGGCGGCACCCTGTTCGATGCTCATTATGCGGCTGTTTTTTTCACCGACGCGCTCATTCTGGCAAGAGCTGGC -ATGGTTACTAAGCGCGGTGTTCTGGTGTGCGCTGGGGGCACTGTGTTTCTTATTTATCAGTAGTTTGTTTAAACCACAGC -ACAGAAAAAATCAGTAAAGCCCTCAACGCGAGGGCTTGTCAGACGATCAGGCGTCCAGATTTTCTTTCACCCATGCAGCA -AAATCGGTATAGCCGCCGATATGTTGCTGATCGACAAAAATCTGCGGCACGGTTTCTACGGGTTTACCTGCCTTTTGTTG -TAGATCTTCTTTAGTGATCCCTTCCGCACGAATATCTACATACTGATACTGAAAATCATCGCGTTCATTGCTCAATTTCT -CAGCCAGATCTTTTGCACGCACACAGTAAGGGCAACCCGAACGACCAAAAATAACGGTTTGCATTATTTCTCTCCTCATA -GATTTATGCCTGTAATGATCACGCTAAAATGTATTCGCTGAAAGTAGGTTTAACCTGTTGCATTAATTGCTAAAAGCTAT -AACTGTTAAACACAATACAGTGAAAAGTTTTAGACTGAAGGCTCACTTTGCAGAGGGAAGCGTATGCGCGCGATCGGTAA -ATTGCCTAAAGGCGTGTTGATACTGGAATTTATCGGAATGATGCTACTGGCGGTGGCGCTGCTGTCGGTAAGCGACTCCC -TGTCGCTGCCTGAGCCATTTTCTCGGCCAGAAGTGCAGATTCTGATGATTTTTCTCGGTGTTTTGCTCATGCTTCCCGCT -GCGGTGGTGGTTATTCTTCAGGTGGCAAAACGTCTTGCCCCACAGCTGATGAACCGTCCACCGCAATATTCACGTTCAGA -AAGAGAAAAAGATAATGACGCCAACCATTGAACTTATTTGTGGCCATCGCTCCATTCGCCATTTCACTGATGAACCCATT -TCCGAAGCGCAGCGTGAGGCGATTATTAACAGCGCCCGTGCGACGTCCAGTTCCAGTTTTTTGCAGTGCAGTAGCATTAT -TCGCATTACCGACAAAGCGTTACGTGAAGAACTGGTGACGCTGACCGGCGGGCAAAAACACGTAGCGCAAGCGGCGGAGT -TCTGGGTGTTCTGTGCCGACTTTAACCGCCATTTACAGATCTGTCCGGATGCTCAGCTCGGCCTGGCGGAACAACTGTTG -CTCGGTGTCGTTGATACGGCAATGATGGCGCAGAATGCATTAATCGCAGCGGAATCGCTGGGATTGGGCGGGGTATATAT -CGGCGGCCTGCGCAATAATATTGAAGCGGTGACGAAACTGCTTAAATTACCGCAGCATGTTCTGCCGCTGTTTGGGCTGT -GCCTTGGCTGGCCTGCGGATAATCCGGATCTTAAGCCGCGTTTACCGGCCTCCATTTTGGTGCATGAAAACAGCTATCAA -CCGCTGGATAAAGGCGCACTGGCGCAGTATGACGAGCAACTGGCGGAATATTACCTCACCCGTGGCAGCAATAATCGCCG -GGATACCTGGAGCGATCATATCCGCCGAACAATCATTAAAGAAAGCCGCCCATTTATTCTGGATTATTTGCACAAACAGG -GTTGGGCGACGCGCTAAAACCGCCACGTCGATGTATGATACGCGGGCTTTTGACCAGGTCTGACAGAGAGGTGCAGGGTG -AAAATTGCCATATTGTCCCGGGATGGAACGCTCTATTCGTGTAAGCGGCTGCGTGAAGCCGCTATACAGCGCGGTCACCT -GGTTGAAATTCTTGATCCGCTTTCTTGCTACATGAACATAAATCCTGCGGCGTCTTCTATTCACTACAAAGGCCGCAAGT -TACCCCATTTTGACGCAGTGATCCCGCGTATTGGCACCGCCATTACCTTTTATGGGACGGCGGCACTGCGCCAGTTCGAG -ATGCTGGGGAGCTATCCGCTCAATGAGTCGGTCGCCATTGCCCGGGCGCGTGACAAATTGCGTTCCATGCAACTGCTGGC -GCGTCAGGGCATCGACCTGCCTGTCACGGGCATTGCGCATTCGCCGGATGATACCAGCGATTTAATCGACATGGTCGGTG -GTGCGCCGCTGGTGGTCAAGTTGGTTGAAGGCACGCAGGGAATTGGCGTCGTGCTGGCGGAGACGCGTCAGGCGGCGGAA -AGCGTGATTGACGCTTTCCGCGGTCTGAACGCGCATATTCTGGTGCAGGAATATATCAAAGAGGCGCAAGGGTGCGATAT -CCGCTGTCTGGTTGTTGGCGATGAAGTGGTCGCTGCGATTGAACGGCGGGCGAAAGAGGGCGATTTTCGTTCCAATTTGC -ATCGTGGCGGCGCGGCAAGCGTCGCCAGTATCACACCACAGGAGCGTGAAATCGCGATAAAAGCCGCGCGAACGATGGCG -CTGGACGTTGCTGGTGTGGATATTCTGCGTGCTAATCGCGGGCCGTTGGTGATGGAGGTGAATGCGTCGCCGGGGCTGGA -AGGAATAGAAAAAACCACCGGTATCGACATCGCGGGTAAAATGATCCGCTGGATCGAACGCCACGCTACGACAGAATATT -GCCTGAAAACGGGTGGTTAGTCGCAATCACATTACTGATCATGGTTTTGCCTGCGCTTTTTGCGTAAGCTGTGCCGGTCT -TTTTATCGAAAGAGGTTGTACAAAATTATGACATCGCTGGTCGTTCCTGGTCTGGATACGCTGCGTCAATGGCTCGATGA -CCTGGGGATGAGTTTTTTTGAATGTGATAACTGTCAGGCTCTGCATCTGCCCCATATGCAGAATTTCGACGGTGTCTTTG -ATGCCAAAATCGATCTGATCGATAACACGATCCTGTTTTCTGCCATGGCGGAAGTCCGACCTTCAGCCGTATTGCCGCTG -GCGGCGGATTTATCTGCCATCAATGCCAGTTCGCTGACCGTGAAAGCATTTCTTGATATGCAGGATGATAATCTGCCAAA -GCTGGTGGTTTGCCAGTCTTTATCCGTTATGCAGGGCGTAACCTATGAGCAGTTTGCATGGTTCGTGCGTCAGAGCGAAG -AGCAGATTTCGATGGTCATTCTTGAAGCTAATGCCCATCAACTGCTGTTACCGACTGATGATGAAGGGCAAAACAACGTT -ACCGAAAACTATTTCCTCCACTGATAACTCCTTTCGAGCACGCAGTCGCTGGTGCAGTGGCTGCGCGCTGCAAAATTATC -TGCTGTTTTTAACCTTTTCTTAAAGATTATTTCACTTCTCTTGTGTCGATTTGGCTTTATCACATAGAGCAAATATGCAT -AAAAATTTGTTAAATACCGTTTTTTAATCCGAGCTATAGTCTCAAACCCTGGCTAAAGTTATTCTTGCGATGCTTTTATA -TAGCGAGCAGTGCTGGCCGGGAGAAAGTTCTCTTTTCTTACACCGCGCCGATAAAAAATATGCACGTTTATTGCATATCT -TTCAGTGTGACAACTTTTGTTCGTTTGTTAACGAACTTTCAGAAGGAAAGAGATATGACCGCCTTAAATAAAAAATGGCT -ATCGGGTCTGGTTGCGGGTGCTCTGATGGCCGTCTCTGTCGGCACGCTCGCGGCTGAACAAAAAACACTCCACATTTATA -ACTGGTCTGATTATATCGCCCCGGACACGGTGGCCAATTTTGAAAAAGAAACCGGTATTAAAGTCGTCTACGATGTTTTC -GACTCTAACGAAGTACTGGAAGGCAAATTAATGGCCGGGAGTACCGGCTTTGATCTGGTGGTTCCATCTGCCAGCTTTCT -GGAGCGCCAGTTGACTGCGGGAGTTTTCCAGCCGCTGGACAAAAGCAAATTGCCGGAGTGGAAGAATCTCGACCCGGAAC -TGCTGAAGCTGGTCGCCAAACACGATCCCGACAATAAATTTGCTATGCCCTATATGTGGGCGACGACCGGGATTGGCTAT -AACGTTGATAAAGTTAAAGCGGTGCTGGGCGAAAACGCGCCCGTCGATAGCTGGGACTTGATCCTCAAACCTGAAAATCT -GGAAAAACTGAAAAGCTGCGGTGTCTCTTTCCTGGATGCGCCAGAAGAAGTTTTTGCTACCGTGTTGAATTATCTCGGCA -AAGATCCCAACAGCACTAAAGCGGATGATTACACCGGACCGGCAACAGATCTGCTGTTAAAGCTGCGCCCGAACATTCGT -TATTTCCATTCATCTCAATACATTAACGACCTGGCAAACGGCGATATTTGCGTCGCTATCGGCTGGGCAGGTGATGTCTG -GCAGGCGTCAAACCGCGCGAAGGAAGCGAAGAATGGCGTGAATGTCTCGTTCTCGATTCCAAAAGAAGGGGCGATGGCGT -TCTTTGATGTATTCGCCATGCCTGCGGATGCCAAAAACAAAGACGAAGCCTATCAGTTCCTGAATTACCTGCTGCGCCCG -GATGTAGTAGCGCATATTTCCGACCATGTGTTCTATGCCAACGCCAATAAAGCAGCCACGCCGCTGGTGAGTGCGGAAGT -CCGTGAGAACCCAGGTATTTATCCGCCTGCGGATGTTCGTGCGAAGCTGTTCACTCTGAAAGTGCAGGATCCGAAAATCG -ACCGTGTGCGCACCCGCGCGTGGACCAAAGTGAAGAGCGGAAAATAATCCGCAGTCGTAGATGCCGGAGGGGCGCACCAC -ACCCGCCGGCAATTCGCACCATTATGGTGCGCTTGCACACATTCAATGCCGGAGAGCAGCCGTGAATGACGCTATCCCTC -GCCCGCAGGCGAAAACCCGTAAGGCGCTGACGCCGCTATTAGAAATCCGCAACCTGACCAAATCCTACGATGGTCAACAT -GCGGTGGATGATGTCAGCCTGACCATCTACAAAGGTGAAATCTTCGCGCTGCTGGGCGCATCCGGCTGTGGCAAGTCCAC -GCTGCTGCGTATGCTGGCAGGTTTCGAACAACCTTCTGCCGGACAGATAATGCTTGATGGCGTCGATTTGTCACAGGTTC -CGCCTTACCTGCGCCCCATCAATATGATGTTTCAGTCTTACGCGCTGTTTCCGCATATGACCGTGGAACAGAACATCGCT -TTTGGCCTGAAACAGGACAAACTACCGAAAGCGGAAATTGCCAGCCGGGTCAATGAGATGCTCGGCCTGGTGCATATGCA -GGAGTTCGCCAAACGCAAACCGCATCAGCTTTCCGGTGGTCAGCGACAACGTGTGGCCCTGGCCCGAAGCCTTGCGAAGC -GCCCGAAACTATTACTGCTCGATGAGCCGATGGGCGCGCTGGATAAAAAGCTGCGTGACAGGATGCAGCTTGAAGTGGTG -GATATTCTGGAGCGCGTCGGTGTGACTTGTGTGATGGTCACCCACGATCAGGAAGAGGCGATGACCATGGCGGGGCGCAT -CGCCATTATGAATCGTGGGAAATTTGTCCAGATTGGCGAACCGGAAGAGATCTACGAGCATCCGACTACCCGCTATAGCG -CCGAATTTATTGGCTCGGTAAACGTCTTTGAAGGCGTACTCAAAGAGCGTCAGGAAGATGGCCTGGTGCTTGATTCGCCG -GGGCTGGTGCATCCACTGAAAGTCGACGCGGATGCCTCGGTGGTCGATAACGTGCCGGTACATGTGGCGCTGCGCCCGGA -AAAAATCATGCTTTGCGAAGAGCCGCCCGCCAATGGTTGTAACTTCGCGGTGGGGGAGGTGATACACATTGCCTATCTCG -GCGATCTTTCGGTGTATCACGTTCGTCTGAAAAGTGGGCAGATGATTAGCGCCCAGCTACAAAACGCCCATCGTCATCGT -AAAGGGTTACCGACCTGGGGCGACGAAGTGCGTTTGTGCTGGGAAGTGGACAGCTGTGTGGTGCTGACGGTTTAAGGAGC -AAAGATGAGTACACTTGAACCTGCTGCCCAGTCGAAACCGCCGGGCGGATTTAAGCTGTGGTTGTCGCAGCTGCAAATGA -AGCATGGGCGCAAACTGGTCATTGCGTTGCCATATATCTGGTTGATCTTGCTGTTTCTGCTGCCATTTCTGATTGTCTTT -AAAATAAGCCTGGCGGAGATGGCGCGCGCTATTCCACCTTATACCGAACTGATGGAGTGGGCTGACGGGCAACTGTCCAT -CACTCTTAATCTCGGTAATTTTCTGCAACTGACCGACGATCCGCTCTATTTCGATGCTTATCTCCAGTCGCTACAGGTGG -CTGCGATTTCGACATTTTGCTGTTTACTGATCGGCTATCCGCTGGCGTGGGCGGTGGCGCACAGTAAGCCTTCGACCCGT -AATATTTTATTACTACTGGTGATCCTGCCGTCGTGGACCTCGTTTCTGATCCGCGTTTATGCCTGGATGGGAATATTAAA -AAACAACGGTGTGCTGAATAATTTTCTGCTGTGGCTGGGGGTTATCGATCAACCGCTGACCATTCTGCATACCAATCTGG -CCGTTTATATCGGCATTGTTTACGCTTACGTGCCGTTTATGGTACTGCCGATTTATACCGCGTTGATTCGTATTGATTAT -TCGCTGGTGGAAGCAGCGCTGGATCTCGGTGCACGACCGCTGAAAACGTTCTTTACTGTGATCGTGCCGCTGACTAAAGG -TGGGATTATTGCCGGATCGATGCTGGTGTTTATCCCGGCTGTGGGCGAGTTTGTGATCCCGGAACTGCTCGGTGGCCCGG -ACAGCATCATGATCGGGCGCGTGCTATGGCAAGAGTTTTTCAATAACCGCGACTGGCCGGTGGCCTCGGCGGTAGCGATC -ATCATGTTGCTGCTGCTAATTGTGCCGATAATGTGGTTCCACAAACACCAGCAAAAAAGCGTGGGAGAACACGGATGAAT -AATTTACCGGTAGTTCGTTCGCCCTGGCGGATTGTGATTTTGCTGCTGGGCTTTACCTTTCTCTACGCGCCAATGCTGAT -GCTGGTTATCTATTCGTTTAACAGCTCGAAGCTGGTGACGGTGTGGGCCGGCTGGTCAACGCGCTGGTATGGTGAGTTAT -TGCGCGATGACGCGATGATGAGTGCGGTTGGTTTAAGTCTGACAATTGCGGCCTGTGCGGCGACGGCGGCGGCGATCCTC -GGAACTATTGCGGCGGTGGTGCTGGTGCGCTTTGGCAGGTTTCGCGGATCAAATGGCTTTGCCTTTATGATCACCGCGCC -GCTGGTAATGCCAGATGTCATCACGGGCTTGTCGCTGTTGTTATTATTCGTCGCGCTTGCTCATGCCATTGGCTGGCCTG -CGGACCGCGGTATGCTCACCATCTGGCTGGCGCATGTCACTTTTTGTACGGCTTATGTGGCGGTCGTTATTTCTTCAAGA -TTGCGGGAACTGGATCGCTCGATAGAAGAAGCAGCGATGGATCTCGGTGCGACGCCGCTGAAAGTGTTTTTCGTCATTAC -GCTACCGATGATCATGCCCGCGATCATTTCTGGCTGGTTACTGGCTTTTACTTTGTCGCTTGATGATCTGGTGATCGCCA -GCTTTGTTTCCGGGCCGGGAGCCACCACGTTACCGATGCTGGTCTTTTCCAGCGTGCGGATGGGGGTGAATCCGGAAATC -AACGCCCTGGCAACATTGATCCTCGGCGCGGTCGGAATTGTCGGATTTATCGCCTGGTATCTGATGGCTCGCGCAGAAAA -ACAGCGGATACGCGACATCCAGCGTGCAAGACGTGGCTGAAGACACTAAAATTTGCCAACCTGGCTACATAATGCCGCGC -ATGTCGCGGCATTGTTTTCATGGAAGACGAAACGTTGGGATTTTTTAAGAAAACATCTTCATCTCATGCTCGCCTGAATG -TGCCTGCGCTGGTGCAGGTGGCGGCGCTCGCCATTATTATGATCCGTGGCCTCGACGTGCTGATGATTTTCAATACGCTG -GGCGTGCGCGGTATTGGCGAGTTCATTCATCGCAGCGTACAAACCTGGAGTTTAACGCTGGTCTTTTTAAGCAGTCTGGT -GCTGGTTTTCATTGAGATCTGGTGTGCGTTTTCACTGGTGAAAGGGCGTCGCTGGGCGCGCTGGCTATATCTGCTGACAC -AAATCACCGCCGCAAGTTACTTGTGGGCGGCTTCGCTGGGGTACGGTTATCCGGAGCTGTTCAGCATTCCCGGTGAATCA -AAACGTGAAATCTTCCATAGCCTGATGCTGCAGAAGCTGCCGGATATGCTCATCCTGATGCTGCTGTTCGTTCCCTCGAC -CAGTCGGCGGTTCTTCCAGTTGCAATAATGTGTATAATCGTCGCCCCTGATGATGTGAAGGTCAATGTATGCAGTGCGCA -CTTTACGACGCGGGTCGCTGTCGTTCCTGTCAGTGGATAATGCAGCCGATTCCAGAGCAACTCTCCGCTAAAACCGCCGA -TCTTAAAAATCTGCTCGCCGACTTTCCGGTTGAGGAATGGTGCGCGCCGGTGTCAGGCCCGGAACAAGGGTTTCGTAATA -AAGCCAAAATGGTGGTGAGTGGTAGCGTTGAAAAACCACTGCTCGGTATGCTGCATCGCGATGGCACACCAGAAGACCTT -TGTGACTGCCCGCTTTATCCTGCCTCATTTGCGCCCGTTTTTGCGGCGCTAAAACCGTTTATCGCCCGAGCGGGGTTAAC -GCCCTACAACGTGGCGCGTAAGCGTGGCGAACTGAAATACATTCTGCTGACTGAAAGCCAGAGTGATGGAGGCATGATGC -TGCGCTTTGTACTGCGTTCTGATACCAAGCTGGCGCAACTGCGTAAGGCGCTGCCGTGGTTACACGAACAACTACCGCAG -CTGAAAGTTATTACCGTCAATATTCAGCCGGTACATATGGCGATTATGGAAGGGGAGACGGAGATCTACCTGACCGAACA -ACAGGCACTGGCGGAGCGTTTTAATGACGTACCGCTGTGGATCCGTCCGCAAAGTTTCTTCCAGACTAATCCGGCGGTCG -CCAGCCAGTTGTACGCCACCGCGCGCGACTGGGTACGACAGCTGCCGGTTAAACATATGTGGGATCTGTTCTGCGGTGTG -GGGGGCTTTGGTTTACACTGCGCGACGCCTGACATGCAGTTAACCGGGATCGAAATTGCATCAGAGGCCATTGCCTGTGC -AAAGCAGTCAGCCGCTGAACTGGGCTTAACGCGTTTGCAATTTCAGGCGCTGGACTCCACTCAGTTTGCCACCGCTCAGG -GGGATGTGCCGGAGCTGGTGCTGGTTAACCCGCCGCGCCGCGGCATTGGTAAACCGCTGTGTGATTATCTCTCAACGATG -GCACCGCGTTTTATCATCTACTCCAGCTGTAACGCCCAAACTATGGCGAAAGATATCCGCGAACTGCCTGGGTTTCGTAT -TGAACGGGTGCAGCTTTTCGATATGTTCCCGCATACCGCGCACTATGAAGTGCTGACGCTGCTGGTGAAGCAATAAAAAA -GCCGCATGTGCGGCTTCAGATTGCTGACAAAGTGCGCGTTGTTTATGCCGGATGCGGCGTAAACGCCTTATCCGGCCTAC -AAAAGCGTGCAAATTCAATACATTGCATGGGCCATGTAGGCCTGATAAGCGTAGCGCATCAGGCAATTTTACCTTTGTCA -TCAGTCTCAAGCCGCGGTTGCGGCTTTCTGAATCTTACTGTGGGAACCACTGGTCACTGATTTTTTGATAAGTACCGTCA -GCTTTAATTGCTGCCAGCGCGTTATTCAGTTTTTCCAGCAGGGCTTTGTTATCCGGACGTACAGCGATGCCCAGGCCGGT -GCCAAAATATTGCGGATCGGTCACTTTCTCAGTAGCAACACCAAGTTGTGGATTGGTTTTCAGCCATTCGTTTACCACCG -CTGTGTCACCAAATACCCCATCAATACGACCATTTTTCAGATCGATAAAGGCATTCTGATAACTGTCATAAGAGACAGTT -TTCACTTCCGGGTGCTGATCCTGAATATATTTCTGGTGCGTAGTACCGTTTTCCATCCCAATACGTTTGCCTTTCAGATC -GGCAAACGTTTTGTAGGTATCTTTTTTGGCAATCACGACGGCTGAGTTTTCATAGTAGGGCGTGGTAAACGATACCTGTT -TGCTACGCTCCGGGGTGATATCCATACCGGAGATTACGGCGTCATATTTTCTGAATTTCAGGGACGGGATCAGGCTGTCG -AACGCGTGATTAGTAAAAGTACATTCTGCCTGCATTTGTTTGCACAAGGCTTTTGCCAGATCGATATCAAAGCCGACAAT -CTCATTATTAGCACCTATAGATTCAAAGGGTGGATAGGTGGCTGAAACGCCAAAATTGATTTTCTCTGCGGCAGAAGCAC -CGAAAGTAAAGGAAGCAAGTAAAGCGGCAAGAACTAACTTTTTCATGATGGAACTCCCGTCTGTCAATCTTATGATTTTT -GGCCGTGTCTGCGGCATGGGATAACAATGCCATCAAGTGAATTTATATGCAATAAACATGATTAAATAATTTAAATGAAA -TAAAAAAGACGGACAACTTAGTGGGTTGTCCGTCTTCATTATAAGAATTTATGCACTATGTAGGCCGGATAAGGCGTCCC -CGCCGCATCCGGCACAGGCACCGTGCTGATGTCTGATGCGACGCTGGCGCGTCTTATCAGACCTACAAAACCCCCCGGCG -AATGTACGCAGCCACATTAATTTCGCCGTTCGAATGCCAGCGCTTTGCGCTCGATCAGACGCATCATCAGCGTCAGCAGG -CCGTTAACGACCAGGTAAATAATCCCTGCCGCACCGAACACCATTACATCGTAGGTGCGTCCGTACAACAACTGGCTGTA -TCCCATCACTTCCATCAGCGTAATGGTGTATGCCAGAGAGGTACTTTTGAATACCAGCACCACTTCGTTGGAATAAGAAG -AGAGCGAGCGTTTAAAGGCATACGGCAGCAGGATCGCCAGCGTATCTTTTTTGCTCATTCCCAGGGCGCTACAGGACTGC -CACTGACCTTCCGGGATCGCACGAATTGCACCGTAAAACAGCTGCGTGGTATACGCCGCACTATTCAGCGACAACGCAAT -CAGCGCACATAACCACGGTTCTGACAACAAATGCCACAGTGCCGGATACTCCTGCAAAGTCGGAAACTGGCCCGGCCCGT -AATAAATCAGGAAGATCTGCACCAGCAGCGGCGTACCGGTAAACAGCGTGATATAACCCCGCACCAGCCACACCAGCACC -GGCGTTTTCAGCGTCAGGATGATGGTAAAAATCAATGCCAGAATCAGTGCCACAATCAGCGAGGCAACGGTTAGCGTCAG -GCTGGTGTGTAGCCCTTTCATCAGTTCGGGTAAATACTCAAACATTAGCTGGGCCTCCGCTCAAAACGTGTCGCGCGCAG -GTCAATGCGTTTGAGAATGTACTGACTGAGCAGGGTGATCACCAGGTAAATCGCCGCCGCCACAATGTACCAGGTAAATG -GTTCCTGGGTACGAGTAGCGATGCTTTTTGTTTGCAGCATTAAATCATTCACACTAATCAAACTGACCAGCGCGGTATCT -TTCAGCAGCACCAGCCACTGGTTACCGAGGCCAGGCAGCGCATGACGCCACATCTGCGGCATCACCAGACGGAAAAAGAT -AGCCGATTTCGACAGCCCCAGCGCCTGACCAGACTCCCACTGACCCACCGGCACCGCTTTCAACGCGCCCCGAAGCGTTT -GCGAGGCATAGGCGGCATACAGCAGTGACAGAGCGATGACACCACAAAGGAACGGGCTAACGTCGAAGTTCTCAATGTCC -ATCTGCACTGGGATCTGCACGAACCCAAGATTGATAGTGAAGCCATCCGAAAGCGTCAGCAGCAGCTGCGAGGAGCCAAA -ATAGATAAACAGCACCACCAGAATTTCTGGCAGGCCACGCAGAATGGTTACCAGCGCTGAACCTGCCCACGCGACAGGAC -GCCATTTTGCCGACTCCCATACCGCAAAGAACATCGCCAGCGCCAGCCCGACAATCAATGCACAAACGGCAAGGCCGACG -GTCATCCCGGCGGCGCTTGCTAAAGGAAAAAATTCATTCATCAGGAATTACTTCTGGAACCATTTGTTGTAGATGGTTTC -GTAAGTGCCATCTTTCTTCACTTTTTCCAGCGCAGTGTTGAGTTTCTGCTGCAGCTCAGTGTTGCCCTGACGTACCGCGA -TGCCGAGGCCAGTGCCGAAGTAATCTTTATCGGTCACTTTGTCGCCCACCGCCGCCAGTTTCGGGTTATCTTTCAGCCAC -TCAGTGACCACTGCGGTGTCACCGAAGACGCCGTCGATACGCCCGTTTTGCAGATCCAGTTTTGCGTTCTGGTAGCTGTC -ATACGGAACGGTAGTGATTTCCGGGTGCTTATCCATAATGAATTTCTGGTGTGTCGTCCCGTTCTGTACGCCGACTTTTT -TGCCTTTCAGCTGATCAACACTGGTGTATTTGCCTTGCTGACCCACAAACAGGGCAGAGTTGTCATAGTACGGGGTGGTA -AACAGCACCTGCTTTTCACGCTCCGGAGTGATATCCATGCCCGCCATCACGGCTTCTACGCGACGGAATTTCAGGCTTGG -GATCAGGCTGTCAAACGCCTGGTTAGAGAAAGTGCAGGTTGCATCAATCTCTTTACACAGCGCTTGTGCCAGGTCGACGT -CAAAACCAACGATCTGGTTGTTTGCATCAATCGATTCAAACGGAGGATAGGAGGCTTCGGTAGCAAAACGAATGGTTTCG -GCAGCTGTGGCGGAAAGACTAAAACCTGCAATTAACGCGGCAATCAGAACTTTTTTCATTGTTGTTATCCCGAATCTTAG -TGAGAGAGATAGTTTTTAAATGCTTCGGTTTGCGGCTCGGTAAAGCAGCTCGCGTCGCCTTGTTCTACGATATGACCATT -TTCCATATACACCACTCGGCTGGCGGTTTTACGCGCCACTTCAACTTCGTGGGTGACGATCACCTGGGTAATATTCGTTT -CTGCCAGCTCACGAATGATGCTGACGATTTGTGCCGTAATTTCCGGGTCCAGTGCGGCGGTCGGTTCATCGAACAGCAGT -ACCTGCGGTTCCATCATCAACGCACGGGCAATAGCAACACGCTGCTGCTGACCACCAGAAAGATGCAGCGGGTAACGATC -GCTATAAGGTTTGAGACGCAGACGTTCCAGCAGTTTTTCTGCACGGGCCAGCGCCTGATCTTTACTCAACCCCAGTACAC -GGCAGGGCGCTTCAATCAGGTTTTGCTGCACGGTCAGATGCGGCCACAGGTTGTATTGCTGAAACACCATGCCAACGTTA -CGACGCAAATCGCGAATCGCTTTGTCAGAGGGTGTTTTGGTGAAATCGAAATGGTTGCCTGCAATGTTGAGCGTACCGGA -GCGCGGCATCTCAAGCAGATTGAGTACACGCAGCAGCGAGCTTTTACCCGCGCCGCTGGGGCCAAGTAACACCAGCGTTT -CGCCCTGTGGGCAATCCAGCGTGATATCGAACAGCGCCTGATGCGCGCCGTAGAAGCAATTAATGCCGTTTAATTGAATA -CTCATTGACACTCGTATACTGGCAGTCTGATAGCTATTGAGGTCGAAGATAGTACCTTTGACAGAATAATTATGCAATAT -TTCTGCTTTAAAAGTTAAAAGCAAAGCGCATTATTCAATAAACATAGCACAAAATAACGGGGGCGGTGGTCGGCGAGCAT -AAATGTCGGCATTCCTCACGAAATGCCGGACAATTTACGGGGTTTATTGGTTGATCAAGGCGTTAGCGATTCTCGATGGA -CTGACGGAGCGTACCCGCCGTGGCATGAACGCTACCGCCTAAGTAACGCACATCGTCGATGACCCAACACTGGCCTTCCT -GAATCATTAACACTTCATCCTGCCAACCCTGGTCACCCTGTTTGAGATCCACGCGCAATGGAATGTTACGGGCATCACGA -TTAGGGATAGTCGATGCACTGGCAACGTGGGCGCTATCTGGCAAGGTGGTTCGACTGGAGAATGGATCGTTGGTCAGTAG -TTCCCGATGGTTATTATCCCGGGAGGCATCGCTAAGCAGTGTCGCCAGTTTGTCGCTCAGATAAGGGCGCAAGGCGGTGA -TGTCGTTGCTGCGGTGCAAAATGCGGTAGTCATAAAATTGCTGGGCCACGTTATCCGGGCCTCCTTCAACGCAAGGACCA -CTGCGTGTGCCGTTATCTTTATAAGCTGGAGTGACTGTGGTGCAGGCACTGAGGAGCAGTGCGCAGGGGATAAGCATTGT -CAATTTGCTGTAGCGCATAATGATTTCCTTATAAGCGATCGCTCTGAAAGCGTTCTACGATAATAATGATATCCTTTCAA -TAATAGCGTATCAGTCTGATAATGCTTTTGAGATCGAAGGCTTAGCAAACAAGGAGATCGATCATGCAATTTTCTACAAC -CCCAACTCTGGAAGGCCAGACCATCGTTGAATATTGCGGTGTGGTGACCGGCGAAGCGATTTTAGGTGCCAATATTTTCC -GTGATTTCTTTGCCGGTATCCGCGATATCGTTGGCGGACGTTCCGGTGCGTATGAAAAAGAACTGCGTAAAGCACGGGAG -ATCGCCTTTGAGGAATTAGGCTCCCAGGCGCGGGCGCTGGGGGCCGATGCCGTCGTCGGTATTGATATCGACTACGAAAC -GGTCGGGCAAAACGGCAGTATGCTGATGGTTAGCGTCAGCGGTACGGCGGTGAAAACGCGTCGATGAGAAGATTCTTCTG -GCTGGTCGCTGCCGCTCTGTTATTGGCAGGGTGTGCAGGCGAAAAAGGCATTGTCGAGAAAGAGGGATATCAGCTTGATA -CCCGACGCCAGGCGCAGGCGGCGTATCCGCGCATTAAAGTGCTGGTGATCCACTACACCGCAGATGATTTTGATAGCTCG -CTGGCGACACTGACCGATAAGCAGGTCAGCTCGCATTATCTGGTCCCTGCGGTACCACCGCGATACAACGGTAAACCGCG -CATCTGGCAACTGGTGCCGGAACAAGAACTGGCCTGGCATGCGGGGATTAGCGCCTGGCGCGGGGCAACGCGCCTTAACG -ACACCTCTATTGGCATTGAGCTGGAAAACCGTGGCTGGCAAAAATCGGCCGGAGTGAAATATTTTGCCCCGTTTGAACCG -GCACAGATTCAGGCGCTTATTCCACTGGCGAAAGATATTATTGCCCGTTATCACATCAAGCCGGAAAACGTAGTGGCACA -TGCGGATATCGCACCGCAGCGCAAAGACGATCCGGGGCCATTATTTCCCTGGCAGCAACTGGCGCAGCAGGGGATTGGTG -CCTGGCCGGATGCGCAGCGGGTTAACTTTTACCTTGCCGGGCGCGCGCCGCACACACCGGTAGATACCGCGTCATTGCTG -GAGCTTTTGGCGCGCTACGGTTATGACGTTAAACCTGATATGACACCGCGCGAGCAGCGGCGCGTGATTATGGCATTCCA -GATGCATTTCCGCCCGACGTTATATAACGGCGAAGCGGATGCAGAAACTCAGGCGATTGCCGAAGCATTGCTGGAGAAAT -ACGGGCAGGATTAGCGCGGCAGTTTTCCGTGGTCGCGTAGCCAGGCGGCAGTTTTCTCGATACCTTCATCCAGGGTGATG -ACCGGCTGATAACCTAACTCTTCCTGCGCACGCGTAATATCCAGCGTAAAGTCAAAATTCAACTTGGAGACGCCGTAGTG -GGTCAGCGGCGGCTCTTTTGCTGACTTGCGGCCTAAACGCTCCATGCTGCGGGCGATCATATCCAGCATCGGGTAGGGGA -CGGAACGAATACGACAGTCAATATTCAACTCGTCGATCAGCTTCTGCACGATGCTGCGCAGTGTGCGATGCTCGCCGTTG -GTGATGTTGTACACACGCCCGGAAGGTAGCTTATCGCAGGCTTCCTGGCTTGCCAGCCACATTGCGTGCACGGCATTTTC -ATAGTAGGTCATATCGACCAGCGCACTGCCGCCATGCGGTAACAGAATACTGCCGTAGTGGTGCATCATATGCGCCAGAC -GGGGAATAAAGACTTTATCGTGCGGTCCGAACAGACTTTGTGGGCGCAGAATAGTAAAGCGCGTTTGTGGATTCGCCTGC -GAAAGCATATTGATCACTTCTTCGCTGGCTGCTTTGCTGCGGGCAAACTCGTTGGCGAAGCGGTGAGGGCGAAAATCTTC -TTTAATATCGCGATGGTGGTGATAATCGAAGTACAGGGAGGGGGAAGAGATATGAATAAAGTTACGCACACCCCAGGCGA -CAGCCCATTCACCCAGGCGGCGAGTGGCGCGAACGTTAGCCAGATCGAAAGCCTGTTGTGTCCCCCAGGGTGAGGTAAAG -CTGGAGCAGTGCCACAGCGTATCAATGCCCGCGAGCATCACTTTAGCTTGTGATGAAACCAGCTCGGTCAGATCCGCCGG -AACAAACTCTGCGCCCATTTTTTCCAGCAATTTGCCCATTGCCTCGTTGCGACCGGTCGCTCGCACGCTGATGCCTTTCT -GGCATAAAAACTCTACCGCGTTTCGACCTAAGCCGCTGGTGGCGCCGGTAACCAGTACCTTCATATCAATCCACTGTTGT -TGAGAAAATAACGTGCGCATTCTTCCGTGATTTCCCCCATGATGCAATGGGAAACATGAAAGAATAACGCAGGTTTTGTC -GATTAATCTGTGCTTTGTTCTGCCAGTCTGGCGATTTGTTTTGCCATTCCGCGAAAAATAAACAGATGCGCGGGGATCAT -CAATAACCAGTAAAACAGCCCCGGCATACCGTGCGGATGCCAGAAAGCGCGGACATCGATAGTACGATAGTCGCCTTTAT -CTTCCAGGCTAAAACACAGTCGTCCCAGCCCCGGCGCTTTCATGCCAAATAACAACGTAAGTTGTTTTTCCGGTTCAACG -ACAATCACTTTCCAGCTATCCACCGCATCGCCAGTCTGTAAATATTCGCGCTCCGGGCGGCCTTTCGCCAGCTTATGACC -GATCGCGCGGTCCATCAACGCCCGTGTCTGCCACAAAATATTGCCAAAGAAATAACGCTCTTTACCGCCGATTTGGTTCA -CTACCTGCCATAAAGCAGCAAGGCTGGCGGACGTTTTAACGGTAAACCCCGCCTGTTTGGCAAAATAACCGTACTCCGGT -CGCCAGCGGGCAAAGGCCTGAGCGTCGTAGCCCCAGTCGCTGGAGTTGACCAGTTTTTCCTCCTCTTTCAACGTGCTACG -TACCGCGTCATCGAAAGCGATCAGCCGTTGTGGGATGAGTGCACGTAGCGCGGTATCATCCGCCAGCAGATCGTGTTTCA -GCCCCTGAATCAACGCCCTGGCGGTGGTGGGCGGTACGGAAGTAATCACATTGAGAAACCACACCGAAATCCAGCGGGTG -GGGAGGGGGATGGGGATCAACCAGCGGCGCTTACCGCTCACCGCCATAAAATGTTCAAACTGTTGCTGATAACTGAGCAC -CTCTGGTCCGGCGGCTTCGAAGATGCGGTGTTCGCTGGCCGGATGATCTAACAACGCAACCAGATAGTGCAGCAAGTTTT -CCAGCGCAATGGGCGTGGTGCGTGAACGAACCCAGCGCGGAGGCGTTAAGACTGGCAGGTTGTAGACCATATCGCGCATG -ACTTCGAACGCCGCGGAACCTGCGCCAACGATAATTCCGGCCCGCAGTTCGGTCACGGGTACATTCGCTTCACGCAGAAT -GTCCGCCGTAGCCTGACGAGCACGCAGATGATCCGACTGCTCATGTGGCGGGGCCTGCAACGAACTAAGAAAGATTAATT -GCTTAACTGGTACTTCACGTAGCGCATCGCGGACGTTGAGAGCCACCTGGCGCTCCTGAGCGATAAAATCGCCGCCTTCG -CCCATGCTGTGCACCAGAAAATAGACCGTATCGATATCCTGCAACAGGGCCGGTAGGTTATCCGGCCAGCTGAGATCGAC -TTTATGGCAACTGACGTTTGCCAGTTGCAGCTTTGCAAGCCTGTCGACATGACGTGCCGCCGCCAGGATCTGATGCCCTT -GCTGGCTGAGTGTGCGCACCAGATGCTGACCAATGTAGCCACTGGCACCGAGAACTAAAATGCGTTGCGGCACGTCTCTC -TCCTTAACGCGCCAGGAATGCACGCCAGTGGGCGGCGACTTCCGCCAGTTGTTCGCGCGAGACGTCAAGATGCGTCACCA -GGCGGACAATCGGCGAGGCGTTAATCAGCACGTTTCTCGCTTTCATGTATTCGCCTAACGCGGCAGCATTTTCTTCCCCG -ACGCGAACAAACAGCATATTGGTGTCCTGACGCATCACATCCGCGCCTGCTTCACGCAGCTGCTCCGCCATCCAGGCAGC -GTTGTCGTGGTCTTCCTGCAAGCGCGCAACGTTATTTTTCAGGGCATATATCCCGGCGGCAGCCAGAATGCCGGACTGGC -GCATCCCGCCACCTGTCATTTTCCGCCAGCGAATGGCACGTTTAATGTAATCACGATTACCGACGAGTAATGAACCGACT -GGCGTCCCAAGACCTTTCGACAGGCAAATGGTGAACGAATCACAATATTGCGTGATCTCTTTCAGTTCGCAGCCGTAAGC -CACCACGGCATTAAAGATGCGCGCACCGTCAACATGCAGCGCCAGATTGCGCTCGCGGGTAAATTCCCATGCTTCTTTCA -GGTATTCCCGCGGCAACACTTTGCCGTTGTGGGTGTTTTCCAGACTGAGTAATTTGGTGCGGGCGAAATGGATATCGTCG -GGTTTGATTTTCATCGCCACTTTATCCAGCGGTAGCGTGCCGTCGGCAGCCGCGTCTATGGGTTGCGGTTGAATACTGCC -CAGCACCGCCGCGCCACCGGCTTCAAACAGATAGTTATGCGCGGCCTGACCGACAATATACTCTTCGCCGCGTTCGCAGT -GACTGAGCAGAGCGACCAGGTTGGCCTGAGTGCCGGTAGGCAGAAAAATGGCGGCTTCTTTACCGGAAAGCTCTGCTGCG -TAGTCCTGCAGAGCATTAACGGTAGGGTCGTCTCCGTAAACGTCGTCCCCAACCGGGGCGGCCATCATCGCTTCGAGCAT -GGCGCGGCTTGGTCGGGTAACGGTATCACTGCGTAAATCAATCATGGCATGTCCTTATTATGACGGGAAATGCCACCCTT -TTTACCTTAGCCAGTTTGTTTTCGCCAGTTCGATCACTTCATCACCGCGTCCGCTGATGATTGCGCGCAGCATATACAGG -CTGAAACCTTTGGCCTGTTCGAGTTTGATCTGCGGTGGAATGGCTAACTCTTCTTTGGCGACCACCACATCCACCAACAC -CGGACCGTCGATGGAGAAGGCGCGTTGCAGGGCTTCATCAACTTCAGACGCTTTTTCTACACGGATACCCGTAATGCCGC -ACGCTTCGGCAATGCGGGCAAAGTTTGTGTCGTGTAGTTCGGTGCCGTCAGTCAAATAGCCACCAGCTTTCATCTCCATC -GCCACAAAGCCCAGCACGCTGTTGTTAAAGACGACAATTTTCACTGGCAGTTTCATCTGCACTACTGAGAGGAAATCGCC -CATCAACATGCTAAAACCGCCATCGCCGCACATGGCGACCACCTGACGTTCTGGCTCTGTCGCCTGCGCACCCAGCGCCT -GCGGCATGGCGTTAGCCATCGAACCGTGGTTAAACGAACCTAACAGGCGACGCTTGCCGTTCATTTTTAGATAACGTGCC -GCCCACACCGTTGGCGTACCAACGTCACAGGTGAAAATAGCGTCATCGGCGGCAAAATGACTAATTTGCTGCGCCAGATA -TTGCGGGTGAATGGCTTTCTCGCTCGGTTTAGCTAAATCGTCCAGCCCTTTGCGGGCGTCGCGGTAATCTTCCAGCGCTT -TATCCAGAAACTTGCGATCGGCTTTTTCTTCCACCAATGGAAGCAATGCACGCAGAGTCGACTTGATATCGCCGACCAGT -GCCATATCCACCTTGCTGTGAGCGCCGATGCTGGCTGGGTTGATATCAATCTGAATGATTTTGGCATCGGTCGGGTAGAA -GGCGCGGTAGGGAAATTGCGTGCCGAGTAGCACTAACGTGTCGGCGTTCATCATGGTATGGAAACCTGACGAGAAGCCGA -TTAACCCGGTCATTCCAACATCATACGGATTATCGTATTCGACATGTTCTTTACCGCGCAGGGCATGAACAATAGGCGCT -TTAATTTTCCCGGCAAACTCAACTAACTCTTTATGCGCCCCCGCGCAGCCGCTGCCACACATCAGGGCGATATTGCTGGA -ATAACGCAGCAGTTGCGCCAGTTTGCGTAACTCTTCTTCTTCCGGCGTCACGACTGGTTGTGGCGCATGATACCAGTGCA -TGGTTGCCCCTTCTGGCGCAGGTTTTAACGCCACGTCGCCTGGTAACACGACAACCGAAACGCCACGGTTAAGCACCGCT -TTGCGCATGGCAATCGCCAGTACTTGTGGGATCTGCTCCGGGCTGGAAACCAGCTCGCAATAGTGACTACATTCGCGGAA -TAGCTCTTGTGGGTGGGTTTCCTGGAAATAGCCGCTGCCAATTTCGCTGGAGGGAATATGAGCGGCAATCGCCAGTACCG -GAACGTGATTGCGGTGGCAATCGAACAGGCCGTTGATTAAGTGCAGGTTGCCGGGGCCGCACGATCCGGCGCAGACCGCC -AGTTCTCCGCTAAGTTGTGCTTCAGCGCCAGCGGCAAAGGCCGCCACTTCTTCGTGGCGGGTGGACATCCACTCGATGGT -GCCCATGCGATTAAGACTGTCACTAAGACCGTTCAGAGAGTCGCCTGTGACTCCCCAGATGCGTTTCACCCCTGCCGATT -CGAGTGTTTTGGCGATATAAGCTGCAACCGTTTGTTTCATGGTTCTCCATCTCCTGAATGTGATAACGGTAACAAGTTTA -GTTCATCTGACGGAGGGGGAAGGGATGGGAGAGAAAGGAGGCACTAACGGTTAAATAGCCCGATGAAAGGAATATCATCG -GGCATAAGGCGATTATGCGAGAACCAAATCCCCCTGCGGATGGCAGGAGCAGGCCAGTACGTAACCTTCAGCGATTTCGG -CGTCGGTCAGCGTCATTGTGCTGCTCACCGTATATTCACCGGAAACCACTTTTGTCTTACAGCAGCCGCAAACACCCGCA -CGGCAGGCAGCGACAACCGGAACGTTATTGCTTTCCAGCGCCTCCAGTAGCGTGGTGCCAACCGGGGCGTAAAATTCTCG -TGCCGGTTGCAGTTTGGTGAATTTCAGACCGCTGGTCGCCGCTTCTGCTACTGGGGTGAAGAATTTCTCTTTAAAGAAAC -GCGTCACGCCGAGCGCTTTCACTTCCTGCTCTACCCAATCCATATACGGAGCCGGGCCGCAGGTCATCACGGTACGTGAA -GCTAAGTCAGGTACACCTGCCAGCAGTTCGCGAGTGAGACGACCAGCGATAAAGCCTTCGGTAACGTTATTTTCTGCCAC -CAGCGTTACCGGATAGTTACGCCACTCATCGGCGAAAATAACATCCTGCGGCGTACGCACGTTGTAGATCACCCGCACAT -CGGCCTGTGGACGGTTCTTCGCAAGCCAGCGACGCATCGACATAATCGGCGTGACGCCGCAGCCTGCCGCCAGCAACAGG -AATTTATCTTCTGCTTTATCGTCGCAGGTAAATTCCCCCATCGCGTCCGAAAGCCAGAGATAATCACCGCGTTTTACATC -GCGCGTCAGCCACTGGGAGCCGACACCGTCATCAATCCGCCGCACGGTCAGGGTGATATATTCACTCACGCCTGGCGTGG -AGGAAATGGTGTAAGCACGCAGCGTTTCCGCTGAGTTTCGCACGCTGACCAGTGCATATTGCCCGGCGCGATATGGGTAG -TAATCGTGGCAAATCAGGGAAATCGTCCACACATCCGGCGTTTCTTGCGTAATGTGATGAACCTGCATCCGCCACGGGCA -TTGATTCGTTGGCATCGTCATCGACAAACTCCTTACGCGCTCAACAGTTGCTTCATGTCTTCTTCAACAGTGGTGATAGA -ACGCAGGCCGAATTTCTCGTTCAGCACCGCCAGCAGGTCTGGTGTCAGGAAACCAGGTGCAGTCGGGCCGGTGACGATAT -TTTTCACGCCCAGAGAAAGCAGCGTCAGCAGAATGACGATCGCTTTCTGTTCAAACCAGGAGAGCACCAGCGACAGCGGC -AGATCGTTGACACCGCAGCCCAGTTTCTCTGCCAGAGTGACAGCCAGAATAATCGCTGAGTAAGCATCGTTACATTGACC -TGCATCTACCAGACGCGGCAGACCTTCGATATCGCCAAACTCAAGTTTGTTAAAGCGATATTTACCACAGGCGAGGGTCA -GGATCAGGCAGTCATCCGGCACGCTGGTGGCGAAATCGGTGAAGTAGTGGCGCTCGCCGCGTGCGCCGTCACAGCCACCA -AGCAGGAAGATATGACGCAGTTTTTCACGGCTCACCAGATCAATCAGCGTATCAGCAGCGCCAAGCAGCGTCTGGCGACC -AAAACCCACGGTGATAAGGTGCGGAATTTCGCTGTACGGGAAGCCTGCCATCTGTTGCGCCTGGGTGATAACCGCAGAGA -AATCATCACCGTCCAGATGACGCACGCCAGGCCAGCCAACAATGCTGCGGGTCCAGATACGATCGTCATAAGCGCCTACG -GTTGGGTCGATGATGCAGTTCGAGGTCATCACGATGGGGCCAGGGAAACGAGCGAACTCCACTTGCTGATTCTGCCAGCC -GCTGCCGTAGTTACCGACCAGATGCTTGAATTTACGCAGCTCCGGGTAGCCATGCGCAGGCAGCATTTCGCCGTGGGTGT -AGACATTAACGCCCGTGCCTTCGGTCTGTTCCAGCAGGTTGTAGAGATCTTTGAGATCGTGACCGGAAATCAGAATGCAT -TTACCCGCCGTCGCTTTGACGTTGACCTGGGTTGGCGTCGGGTGACCGTATTTACCGGTTTCGCCTGCATCCAGAATGCT -CATCACTTTGAAGTTCATCTGGCCGATTTCCATTGAACACTCAAGAAGCGCGTTCATATCGGCAGGCCAGGTCCCCAGCC -ACGCCATGATTTTATGGTACTGGGCATAAATATCGTTGTCGTATTGACCGAGAACATGCGCGTGTTCCATATAGGCCGCC -GCACCTTTCAGGCCATACAGGCACAGCAGACGCAGGCCGAGAATGTTTTCGCCAATCGCCGCTTTATCTTTGTTAGGGGT -AAATTCTGCTGCCTGACGTTGCAGCTCGCCGAGATCGTCGCTCACCAGTTGCAGGTCAGCCATCGGGTTATCGACGCGCG -CGTTGGCATCTACAGCCAGGCATTGCGCTTTCAGCGCCTCGCGCAGGGCAATCGCTTCACGAGCGTAGCCGACAATACGC -GGAGAATCGAAGTTAACGTTGGTCAGGGTTGAGAAAAAGGCACGTGGCGCGAAGCTGTCAACATCGTGGTTGATGATGCC -GTATTCACGCGCTTTTACCGCCCAGGCAGAAAGCCCTTGCAGCGCCGCGATGAGTAAATCCTGAAGGTCAGAAGTTTCCG -CCGTTTTACCACACATCCCCTGCGCGTATGAGCAGCCGTTTCCTGCCGGAGTACGGATAGTTTGTTCACATTGCACACAA -AACATGATCACACCTTTTAAAGTTATATTTAATATACATGTTTAAGGTTAAGACGCTTAACGCGGGGATAAAAGGGATTT -TTCATGCAACTTTAAGGGAGATTGATTTAGCGCAATTTTGGCGGCAGGGATCTACCGCCAGAGAGGTATTACGCAGAGAA -AAAGGCGATGAGGATCGGCACTAACAGGCTAAGAATAAAACCGTGAACAATTGCCGCCGGGACCATATCCAGCCCGCCAG -TACGTTGAAGAACGGGCAGGGTGAAATCCATTGATGTGGCACCGCATAAGCCCAGTGCAGTAGAGCGGCTGCGGCGAATC -AGCCCAGGGATCAACATAATAGCAATCAGTTCACGGGCCAGATCATTAAAAAACGCCGCGCTCCCGATTACCGGACCAAA -AGATTCGGTCAATAAAATACCGGAAAGAGAATACCAGCCGAAACCGGAGGCCATTGCCAGCGCGGTATTGATGGGGAGAT -CAAGAATAAAGGCGTTAATTAAACCACCAATTAATGAACTGACAACCACCACCACGGCGACAATCATTCCCCGGCGATTA -AGGACAATCTGCTTTAAGGTCATGCCATTATTGCGCAACTGAATACCAACGAGGAAAAGTAGCAAAATTAACGTGTATTC -ACTGGCTTCGGTCGCGTGTTGTAAGAAAGCCAGTCCACTTAGACCAATGGCAAAACCAATCACTACTACGCCGCACAGTT -TTAGCGACTCCAGCGCCATCGCAATACGCGACGGGAGTTTTTCTTGCTGATGGTGGTTGCGCCACGGCAGGCCTCGCTCC -AGCCACATCAGGGCGGCAATATTACACAGTAAAATAACGGTAATACTGACGGCAGAATAATGCAGAATCGCCAACAGGTT -ACTGGCGAGGTTATCGAGAAACGCCAGACTGATACCCATAAAAAAGAGAATAAGGTAAACCATCCAGCTTAATAGCTGAT -TAATAACTTTTAACGCAGCTTGTTGGCGAAGCGGAATGAGGTAACCCACAATCAGGGGAACCAGAATGATTAACAGCCCA -GAAAACATGAAAACCCAGTCCTTGCAAAGATGAAGTCGAAATGCGCGATGACACACTACTGAAAGCGGAAGGACGAGTAA -AGTTGCAATTAAAAGGAAATGTTATGCATAAGGAGCAGTAGAGTATTCGTTTTCATTTAAAGATATTCTTGCGCTTTAAT -TACAAACTGCACCGATGTTGGTGGCGTCAAAATCGCCGAGGCGTTCCCTGAAGGCCGGGGCAGCCCACATGGATGTGGGC -TGAGGGCGCGTTTTACAGGGATGTTACCTCGCGCCCGACCCGGTAGCCGTAAGGGATAAGTCGAGGGCACCGCGCAGCGG -CGATTTTGTTCGCCAGAGCCCGGGGGTGCAGGGGGCGGCGGCGATTGGCCGCCCCCTGCGCGCTCCTTGCGCCAGTGGCA -ATATGTTGCTTAGCTCATGAAAGGAGCGCAACAAGATGATGAATCAACATATAACAACATCTTAAAAAAAGGCCTGACAT -TACGCCAGGCCTTCTGCGTTAATTAATCACGCTTTTCCAGCAGGGTCCGGTAAATCAGACCACCGATAATGCCGCCGACA -ATTGGCACCACCCAGAAGAACCACAGTTGTTCTAATGCCCAGCCGCCCTGGAAGATAGCAACCGCGGTGCTGCGCGCCGG -GTTAACAGAAGTGTTAGTCACCGGAATACTAATTAAGTGAATCAGGGTTAAGGCCAGACCAATAGCGATCGGCGCAAAAC -CTGCCGGCGCGAATTTGTCGGTTGCGCCGTGGATCACCAACAGGAAACCTGCACTCAATACCAGTTCAACTACCAGCGCG -GAAAGCATGGAATAACCGCCTGGTGAATGCTCGCCATAACCGTTAGAAGCAAAACCGCTGGCTGCCGCGTCAAAACCCGT -TTTACCACTGGCAATTAAATACAGCAGCGCCGCTGCAACAATACCGCCGACAACCTGGGCAATTACGTAGCCAACGACTT -CTTTTGCCGGAAAACGTCCGCCAGCCCATAAACCAATAGTGACCGCCGGGTTAAAATGACCACCAGAAATATGACCAACA -GCAAAGGCCATCGTCAGAACGGTCAGACCGAACGCCAACGCCACGCCGGCAAAACCAATGCCTAATTCCGGGAAGCCTGC -GGCCAGTACAGCACTACCACAGCCACCAAAAACAAGCCAGAAAGTACCAAAACATTCAGCTGCTAATTTTCTGAACATAT -CCACCACAATTAAAAATTGACCCTGTGAAAAATATGGTCGTTTTATAGGGTCGTCGTAAAAAAGTGACGACGGAAATAAT -GCGCGGCTATTTTAAAAACGAAGGCGAGTCATTCACCAGATAAATAAATCCAGTAAATTTGATTTAGGGCAACAGCGGGT -TGCCCCATATAGTCATTTGTCTGATTGACAGTGTAGTGCACGCAAAAGATTTAATCCTTTAGGCGTAATAAAAAATAATT -TATCATGCTAATTATTTGATTTTGTTGTTTTTGCAGACTTATCAGCAAGAGGGAGTATAACGCGATTATTCGCTCATTTT -TCAGACATTTGCCATGCTTAAATGTGATGTCATCACGTATTAGCAAGGCCTTTCCCGTTATACTGCCAGCGTAAAGGATA -AGTCACATATTTCTGGAGGGGATATGATTCTTGAGCGCGTTGAAATTGTGGGTTTTCGCGGTATCAACCGTTTGTCGTTG -ATGCTGGAACAAAACAACGTCCTGATTGGGGAGAACGCGTGGGGTAAATCCAGCTTGCTGGACGCCTTAACTCTGCTGCT -ATCGCCAGAATCAGATCTCTACCATTTTGAGCGCGACGATTTCTGGTTCCCGCCGGGAGATATCAACGGGCGAGAACATC -ATCTGCATATTATTTTGACCTTCCGCGAATCGCTGCCAGGCCGACATCGGGTTCGCCGTTATCGGCCGCTGGAAGCGTGC -TGGACGCCATGCACCGATGGCTATCACCGTATTTTTTATCGTCTGGAAGGGGAGAGTGCGGAAGACGGCAGCGTGATGAC -ACTGCGCAGTTTTCTCGATAAAGACGGACATCCGATTGATGTCGAGGATATTAACGATCAGGCACGCCATCTGGTGCGTT -TAATGCCGGTGCTGCGCTTGCGTGATGCCCGTTTTATGCGCCGTATTCGTAACGGCACGGTGCCAAATGTCCCTAATGTG -GAAGTCACCGCGCGCCAGCTCGATTTCCTCGCCCGTGAGTTATCCTCACATCCGCAAAATCTCTCTGATGGGCAGATTCG -TCAGGGACTTTCCGCAATGGTACAGCTGCTTGAGCATTATTTCTCTGAGCAGGGGGCCGGACAGGCGCGATATCGTTTAA -TGCGGCGGCGAGCCAGCAATGAGCAACGAAGCTGGCGCTATCTGGATATCATCAACCGGATGATTGACCGACCTGGTGGG -CGCTCGTATCGGGTTATTTTGCTCGGCCTATTTGCTACTTTGTTGCAGGCAAAAGGCACATTGCGACTGGATAAAGACGC -CCGTCCATTGTTGCTGATCGAAGATCCAGAAACCCGTTTACACCCCATTATGCTTTCAGTTGCCTGGCATCTGTTGAATC -TTCTGCCATTGCAGCGCATTGCCACCACCAACTCGGGTGAGTTGCTTTCGTTAACGCCGGTAGAGCATGTTTGCCGACTG -GTACGTGAGTCCTCGCGCGTTGCCGCCTGGCGTCTGGGGCCGAGTGGCTTGAGTACCGAAGATAGCCGACGCATATCCTT -TCACATTCGTTTTAACCGTCCGTCATCGCTGTTTGCACGCTGCTGGTTGCTGGTGGAAGGGGAAACGGAAACCTGGGTTA -TCAATGAACTGGCGCGTCAGTGCGGACATCATTTTGATGCCGAAGGGATCAAGGTCATTGAGTTTGCCCAGTCCGGGCTA -AAGCCACTGGTTAAATTTGCCCGCCGAATGGGGATTGAATGGCATGTACTGGTCGATGGCGATGAAGCAGGGAAGAAATA -TGCCGCTACGGTACGCAGCCTGTTGAATAACGATCGGGAAGCCGAACGAGAACATTTAACGGCGTTACCGGCGCTGGATA -TGGAACATTTTATGTATCGCCAGGGATTTTCCGATGTGTTCCACCGCATGGCGCAAATCCCGGAAAATGTACCGATAAAT -CTACGCAAAATTATCTCGAAAGCGATCCATCGCTCTTCCAAACCCGATCTTGCCATTGAAGTGGCAATGGAGGCAGGACG -TCGTGGTGTGGACTCCGTACCGACGCTGCTGAAAAAAATGTTCTCACGCGTGCTGTGGCTGGCGCGCGGTCGCGCGGATT -AACCGCGAAACATCGTGGCCATTTGTGGCTGAATAGCGTCGAGCATCTCATAGCGCCGACGGTATTCAGCCCGTTTTTTA -CTGGCGATTTCGGCAATCTCTTTTCGTGCTATCTGTGCTGGAAGGCGGTAATGGCGTTCAGCATCACATACGCCGCCAAC -CGATTCCCAGAAAGCGTTGTAATCAGCGTGGATCTTGCCTTCTTTATCGCGATAACGCAGGCTGCGGTAAATATGCGTTT -CATTGCTGACGGCAATAATCTGCTCTACCTGCAAACGTTGGGCAAACAGACAGGCCGCTTCCATCACGAGGCGTTTGGGA -AATAGCCCGTGGCAGGCTTTCGTCGCATTCTGGATTTCCTGATGTGGAATTTCCCATTTTGCGCCTTGCAGTCCGCCAAT -AAACATCGTTCTTTTCCCCTGATATTCACACAGGGTAAACGTGATCTCTGCCAGAGGAATACCTTCGCTGTTGCGGAACA -GGATTGTGCTGTCACCTTCTTTATCCATTGAGATCATCATGGTCAGCTCAAGCGTGAACTGCTCGCCGTTTTTGCCTTCC -AGCTTCGCCAGTTGCAGCCCGGGGGTATTCAAATATAAGCTGAATTCTTCCGCCGACATACATTCGCGGAGTAACGCATA -ATGGTAACGTAACGCCTCCAGCAATTGCTTACGGCTAAGATTCGCCGCAAGGTAAGGGCGATGCAGACGCACAGGCAGTC -GCGGCTGGCGCGTTAACAATACATTGAGATTAGGCCAGTGGGAAAGTTCGTTCATCCACTCAACGCTTAAACGCGGCATA -ATCAACGAGCGCAGCAAAAATTTCTGGCGAAAACTACGGCGATGCCAGAATTTACCCGGCCGACACTGTCCACGTGCCAG -ACTAAGAAAAAGTGACAGGCTGCTGAGAGATTCAGATGGCGTAAAGGTCCGTTCAGTTAGCTGCGACATATTCATGAAAT -CAATGGTTATACATGGCGTCGATTTCACCATTGCGTATCTTAACCAAACATCAATAGTGTGATTACTAACGTAAATTTTA -GGGTTTTGTTGATATTTCGTTGAAGTTAATGACCCGGATTGGCATATGGAGTATTCAGAAAATTTATGAAAAAGCGGAAA -ACCGTGAAGAAGCGTTACGTTATTGCGCTGGTGATAGTCATCGCCGGACTGATTACGTTATGGAGAATTCTTAACGCACC -CGTGCCGACTTATCAGACGCTGATTGTGCGCCCCGGTGATTTACAGCAAAGCGTGCTGGCGACCGGAAAGCTGGACGCGC -TGCGTAAGGTTGATGTGGGCGCGCAGGTCAGCGGTCAGTTGAAAACTCTGTCGGTGGCGATTGGCGATAAAGTAAAAAAA -GACCAGCTTTTAGGGGTTATTGATCCTGAACAGGCTGAAAACCAGATTAAGGAGGTCGAAGCAACGCTGATGGAGCTACG -TGCGCAGCGGCAGCAGGCGGAAGCGGAGCTGAAACTGGCGCGGGTGACGTATTCCCGTCAGCAACGTCTGGCACAAACGA -AGGCTGTTTCACAGCAGGATCTCGACACCGCCGCGACGGAGATGGCTGTGAAACAGGCGCAAATTGGCACCATTGACGCG -CAAATCAAGCGCAATCAGGCTTCTCTCGATACGGCTAAAACCAATCTCGATTACACTCGCATCGTTGCCCCGATGGCCGG -GGAAGTCACGCAAATCACCACTCTGCAAGGCCAGACGGTGATTGCCGCACAACAAGCACCGAACATTCTGACGCTGGCAG -ATATGAGCGCCATGCTGGTAAAAGCGCAGGTTTCTGAAGCGGATGTAATCCACCTGAAGCCGGGGCAAAAAGCCTGGTTT -ACGGTGCTTGGCGATCCACTGACGCGCTACGAGGGGCAAATCAAGGATGTACTACCGACGCCGGAAAAGGTTAACGACGC -TATTTTCTATTACGCCCGTTTTGAAGTCCCCAACCCCAATGGTTTGCTGCGGCTGGATATGACTGCGCAAGTGCATATTC -AGCTCACCGATGTGAAAAATGTGCTGACGATCCCTCTGTCGGCGTTAGGCGATCCGGTTGGCGATAATCGTTATAAAGTC -AAATTGTTGCGTAATGGTGAAACACGCGAGCGTGAAGTGACGATTGGCGCACGTAACGATACCGATGTTGAGATTGTCAA -AGGGCTTGAAGCGGGCGATGAAGTGGTGATTGGTGAGGCCAAACCAGGAGCTGCACAATGACGCCTTTGCTCGAATTAAA -GGATATTCGTCGCAGCTATCCTGCCGGTGATGAGCAGGTTGAGGTGCTGAAGGGCATCAGCCTCGATATTTATGCGGGTG -AGATGGTCGCGATTGTTGGCGCTTCGGGTTCCGGTAAATCGACCCTGATGAATATTCTCGGCTGTCTGGATAAGGCCACC -AGCGGCACCTATCGCGTCGCCGGTCAGGATGTTGCCACGCTGGACGCCGATGCGCTGGCGCAACTGCGCCGCGAGCATTT -CGGCTTTATTTTCCAGCGTTACCATTTGCTTTCGCATTTAACCGCCGAGCAGAACGTTGAAGTACCCGCCGTCTATGCTG -GTCTTGAGCGGAAACAGCGACTGCTTCGTGCCCAGGAGTTGCTGCAACGGCTGGGGCTGGAAGACCGTACAGAGTATTAT -CCGGCACAGCTTTCGGGTGGTCAGCAACAGCGCGTCAGCATCGCGCGGGCATTGATGAACGGTGGTCAGGTAATTCTTGC -CGATGAACCAACCGGCGCACTGGACAGCCATTCTGGCGAAGAGGTGATGGCGATCCTGCATCAGCTGCGCGATCGTGGGC -ATACGGTGATTATCGTCACCCACGATCCGCAGGTCGCTGCTCAGGCCGAGCGGGTGATCGAAATTCGCGACGGCGAAATT -GTGCGCAATCCTCCCGCCATTGAAAAAGTGAATGTTACTGGCGGGACGGAACCTGTTGTCAACACGGTGTCTGGCTGGCG -GCAGTTTGTCAGCGGTTTTAACGAGGCGCTGACGATGGCATGGCGGGCGCTGGCAGCGAATAAAATGCGTACTTTACTGA -CCATGCTGGGGATTATTATCGGTATTGCGTCGGTGGTTTCCATTGTCGTGGTGGGTGACGCCGCCAAACAAATGGTGCTG -GCGGATATTCGTTCTATTGGTACGAATACTATTGATGTCTATCCCGGGAAAGATTTTGGCGATGACGATCCGCAATATCA -GCAGGCGCTGAAGTACGACGACTTAATCGCCATCCAAAAACAACCGTGGGTCGCCTCAGCCACACCTGCCGTCTCGCAAA -ACCTGCGCCTGCGTTATAACAATGTTGATGTTGCTGCCAGTGCCAATGGCGTGAGCGGCGATTATTTTAATGTCTATGGC -ATGACCTTCAGTGAAGGAAACACCTTTAATCAGGAGCAGCTGAACGGTCGTGCGCAGGTCGTGGTTCTCGACAGTAATAC -TCGCCGCCAGCTTTTCCCCCATAAAGCAGATGTGGTTGGCGAGGTGATTCTGGTCGGCAATATGCCCGCCAGAGTCATTG -GTGTGGCGGAAGAAAAACAGTCGATGTTTGGTAGCAGTAAAGTGCTGCGTGTCTGGCTACCTTACAGCACGATGTCCGGG -CGAGTTATGGGCCAGTCGTGGCTTAACTCCATTACTGTCAGGGTGAAAGAAGGATTTGACAGCGCCGAGGCGGAACAGCA -ACTCACGCGTTTACTTTCACTGCGCCACGGAAAGAAGGATTTCTTTACCTGGAACATGGACGGCGTCTTGAAAACTGTTG -AAAAGACCACACGTACTTTACAACTGTTTCTGACGCTGGTGGCGGTGATTTCGCTGGTGGTGGGCGGTATTGGTGTAATG -AATATTATGCTGGTGTCAGTGACCGAGCGGACGCGGGAAATTGGCATTCGCATGGCTGTAGGTGCGCGAGCAAGCGATGT -TTTGCAACAGTTCCTGATCGAAGCCGTACTGGTTTGCCTGGTCGGTGGCGCGTTGGGAATAACACTGTCACTGTTAATTG -CTTTCACCTTGCAGCTTTTCTTACCCGGCTGGGAGATTGGTTTTTCACCGTTGGCGCTGCTGCTGGCGTTTCTCTGCTCG -ACGGTCACCGGGATTTTATTTGGCTGGTTACCCGCACGAAATGCGGCACGACTGGATCCAGTAGATGCTCTGGCACGAGA -GTAATTTTTGAGATAAAAATGCCAGCCGATCGGGCTGGCATTTTGCCTTTAGGATGTACACAATGAGACAGAAGAGCTAT -GCGACTGCCGCTTCTACTTCGACGGGCACAATAACACTGGCGTGATTGCCTTTTGGCCCCTGGTGGACATCAAACTGAAC -GGATTGTCCAGCTTTTAGCGTTCTGTAACCATCCATCTGAATGGTGGAATAATGAGCGAAAATATCTTCGCCGCCGCCTT -CAGGGCAGATGAAACCAAACCCTTTGGCATTGTTGAACCACTTAACAGTACCCTTTTCCATGCTTCGACATCCTTCGCAA -ATCTTATACAAGTAAGATGGAATAAACCGGGGTCAGAGAGGGGGCTGTTCAAAACCTCGCCAACTCTAGAAATACAATTT -AGAGAATTAGGGCGAGCCGTCAAGCATTTGACAGGGGACAAGGGGCAGGTATGAATCAAAAATTTGAAGCAGTTAACGCT -ATTGACAGGAATGTGACAGATGTCGCTGATGCCAACGATAGATGATAGTTATCTATCATGTGGAGTAGATTGGTCAGGCA -AATAAGCTCTTGTCAGCGGCAGGGCGTTCTGCCGATAACCGTAACCGAAGATGATAACTGACAATGGGTAAAACGAACGA -CTGGCTGGACTTTGATCAACTGGCGGAAGAAAAAGTTCGCGACGCGCTAAAACCGCCATCTATGTATAAAGTGATATTAG -TCAATGATGATTACACTCCGATGGAGTTTGTTATTGACGTGTTACAAAAATTCTTTTCTTATGATGTAGAACGTGCAACG -CAATTGATGCTCGCTGTTCACTACCAGGGGAAGGCCATTTGCGGAGTCTTTACCGCCGAGGTTGCAGAAACCAAAGTGGC -GATGGTGAACAAGTACGCGAGGGAGAATGAGCATCCATTGCTGTGTACGCTAGAAAAAGCCTGAATGCAGGCATAAAAAT -TGGGGGAGGTGCCTATGCTCAATCAAGAACTGGAACTCAGTTTAAATATGGCTTTCGCCAGAGCGCGCGAGCACCGTCAT -GAGTTTATGACCGTCGAGCACTTGTTACTGGCGCTGCTCAGTAACCCATCTGCCCGGGAGGCGCTGGAAGCGTGTTCTGT -GGATTTGGTTGCGCTCCGTCAGGAACTGGAAGCCTTTATTGAACAAACCACACCCGTTCTGCCTGCCAGTGAAGAGGAGC -GCGACACACAGCCGACGCTGAGTTTTCAGCGTGTACTGCAACGTGCGGTCTTCCATGTCCAGTCCTCCGGTCGCAATGAG -GTTACCGGTGCAAACGTTCTGGTCGCTATCTTTAGCGAACAGGAGTCGCAGGCGGCATATCTGTTGCGTAAACATGAAGT -CAGCCGTCTCGATGTGGTGAACTTTATCTCTCATGGCACGCGTAAAGACGAGCCGACACAGTCTTCTGATCCTGGCAGCC -AGCCAAACAGCGAAGAACAAGCTGGTGGGGAGGAACGTATGGAGAATTTCACGACGAACCTGAATCAGCTTGCGCGCGTG -GGCGGAATCGACCCACTGATTGGTCGTGAGAAGGAGCTGGAGCGTGCTATTCAGGTTCTCTGCCGTCGCCGTAAAAACAA -CCCGCTGCTGGTGGGGGAATCTGGTGTCGGTAAAACCGCGATTGCGGAAGGTCTTGCCTGGCGAATTGTTCAGGGCGATG -TGCCGGAAGTGATGGCTGACTGTACGATTTACTCTCTCGATATCGGTTCTCTGTTAGCGGGCACAAAATATCGCGGCGAC -TTTGAAAAACGTTTTAAAGCGTTGCTCAAGCAGCTGGAGCAGGACACTAACAGCATCCTGTTTATTGATGAGATCCACAC -CATTATCGGTGCGGGTGCAGCGTCTGGTGGTCAGGTCGATGCGGCTAACCTAATCAAACCGTTGCTCTCCAGCGGTAAAA -TTCGTGTAATTGGTTCGACAACCTATCAGGAGTTCAGCAACATTTTCGAGAAAGACCGTGCTCTGGCGCGTCGCTTCCAG -AAAATTGATATTACTGAACCGTCGATCGAAGAAACTGTTCAAATCATCAATGGCCTGAAACCGAAGTATGAAGCGCACCA -CGACGTGCGTTATACCGCAAAAGCGGTGCGTGCGGCGGTAGAGCTGGCGGTGAAATACATTAACGATCGTCATCTGCCGG -ATAAAGCCATTGATGTTATCGACGAAGCGGGCGCTCGCGCACGCCTGATGCCGGTAAGCAAACGCAAGAAAACCGTTAAT -GTGGCGGATATTGAGTCCGTGGTGGCCCGTATTGCACGCATTCCAGAGAAGAGTGTTTCTCAGAGTGATCGTGATACCCT -GAAAAACCTCGGCGATCGCTTGAAAATGCTGGTCTTCGGTCAGGATAAAGCCATTGAGGCGCTGACTGAAGCCATTAAGA -TGGCGCGTGCAGGTTTAGGTCACGAACATAAACCGGTTGGTTCGTTCCTGTTTGCCGGCCCTACCGGGGTCGGGAAAACA -GAGGTGACGGTACAGCTTTCGAAAGCTTTGGGCATTGAGCTTCTGCGCTTTGATATGTCCGAGTATATGGAACGCCATAC -CGTCAGCCGTCTTATTGGTGCGCCTCCGGGATACGTTGGTTTTGATCAGGGCGGTTTGCTGACTGATGCGGTCATCAAGC -ATCCACATGCGGTGCTGCTGCTGGACGAAATCGAGAAAGCGCACCCGGACGTGTTCAATATTCTGTTGCAGGTGATGGAT -AACGGTACGCTGACCGATAACAACGGACGCAAAGCAGACTTCCGTAACGTGGTGCTGGTGATGACCACCAACGCCGGGGT -ACGGGAAACTGAGCGCAAATCCATTGGTCTTATCCACCAGGATAACAGCACCGATGCGATGGAAGAGATCAAGAAGATCT -TTACACCGGAATTCCGTAACCGTCTCGACAACATTATCTGGTTTGATCATCTGTCAACCGACGTGATCCATCAGGTGGTG -GATAAATTCATCGTCGAGTTGCAGGTTCAGCTGGATCAGAAAGGTGTTTCTCTGGAAGTGAGCCAGGAAGCGCGTAACTG -GCTGGCCGAGAAAGGTTACGACCGGGCAATGGGCGCTCGTCCGATGGCGCGTGTCATCCAGGACAACCTGAAAAAACCGC -TCGCCAACGAACTGCTGTTTGGTTCGCTGGTGGACGGCGGTCAGGTCACCGTCGCGCTGGATAAAGAGAAAAATGAGCTG -ACTTACGGATTCCAGAGTGCACAAAAGCACAAGGCGGAAGCAGCGCATTAATCTGATTGTTAGGTAGGTTGGTCAAGTCC -GTAATCTCGAAAGAGGTTACGGACTTTTTGTTTATGGGGTGGAGGAGGTTCAGACCCTTTTTTTAATGATGATGGTAAGT -TGTTGATAATTAGTGCTGCGGGAAGGTAAGGATAAAAAAGGGTGCTGCAGGAGAATGGGATGGTTTTGCTTTATTAACAA -CGGGCTAAACGTGTAGTATTTGAGTTCACTGCCGTACAGGCAGCTTAGAAATTCACAGGTAACATACTCCACCCGCCCAC -CATGTTCACTGCCGTACAGACAGATAAAATGCGAAAAAAAAGCTCGCACTTTCGTACGAGCTCTTCTTTAAATATGGCGG -TGAGGGGGGGATTCGAACCCCCGATACGTTGCCGTATACACACTTTCCAGGCGTGCTCCTTCAGCCACTCGGACACCTCA -CCAAATTGTTTTGCTACCAAACCTCATGGGTGGCAACGGGGCGCTACTATAGGGAGTTGGAGTAAAACGGTCAAGAAGAA -TTTTAATGATAATTATTGTTTGCTCATACTGTAAACAAGTTGTGCAGTATATCTACATCGAGACAAGTTACGGACTTATA -CTTCCAAAGTACTTCATACATATCACAAAATAAAAAGGCCGGTTAAACCGACCTTTTACTCGTTCTTTCTCTTCGCCCAT -CAGGCGGTAAAACAATCAGCGACTACGGAAGACAATGCGGCCTTTGCTCAGGTCGTACGGGGTCAGTTCAACAGTCACTT -TGTCGCCCGTCAGGATGCGGATGTAGTTTTTGCGCATTTTACCGGAGATGTGTGCAGTAACCACGTGACCGTTTTCTAAC -TCTACGCGGAACATGGTATTAGGCAACGTTTCAAGAACGGTACCTTGCATTTCAATATTGTCTTCTTTGGCCATCTAATC -CTCTGGGGTATCACTACCGTAATTTGAACCGGCAAGATAATGCCGAAGTTCTGTAAATAAGTAAAGATTTGCGCGCTAAA -TCGCAACAAACAGGTTCGGCACATTACTCCGAAAACACACGGCTAAGCCGCACCAAAAGCGCAACGTATAAGGGAGCGGT -GAGATAAACGATGGGCGTTACCTGACGCGAAAAATTCCTTATCGGCAGCGGGGTAATGAGCGTAACCAACTCTGCGACCG -CAATTATAACACTCTGGGGAGAAATGTGCCGAAAACATTCATTCTTGTGGTGAAAACAAGCATCGTGGTACCCAGAAATT -ATTCGGCAATCGTCCGAGGCGCATTTGATTGAGATAATTAAGGTAATCCCGGCGGGGAATTTCGCAGGCACCAAGCGATG -CTGTGTGATCGTTAAGGACCTGGCAGTCGATAAGCTTACCGCCATGACCGATAAATTCCTCACAGAATACCAGAAGCGCC -GTTTTAGACGCATTTTCCATCCGGCTGAACATGGACTCGCCACAAAATAGCGTTCCCTGGGCCACGCCGTACATACCGCC -GACAAGCTCATCTTCACGCCAGACTTCAATGGAGTGGGCATGGCCGAGTTCGTGAAGGCGATGGTAGGCTTCGACCACGC -CACGCGTGATCCAGGTTCCTTCTTCGCGATCGCTGGCACAGCCTTCAATGACCTGACCAAAAGCGTAATTCATCGTGACA -CGATAGGGCGAGCGTTTATGAAATCGCTTCATACTACGGCTGATATGCAGTGATTCTGGCCATAGCACCGCGCGGGGATC -GGGCGACCACCAGAGGATGGGGTCGCCTGGAGAAAACCACGGAAAAATACCACGCTGGTAAGCCATTAACAGGCGCGCAG -GGCTAAGATCGCCCCCAAGTGCCAGCAGGCCGTTAGGCTCACGTAATGCGCCTTCCGGGGAAGGGAAGGCTATTGAATGG -CGAGAAAGCTGAACCAGGCGCATGACCGCAAAACTCCACGCAAGTCGGATCGTTCAATAATAGCTTACAAACCCTGCTTG -AACTGGTAATAACGCCCCTGTCTGGCAAGCAGTTCTGCGTGAGTACCTTGCTCAATAATTTGCCCGTTGTCCATCACTAT -TATTTGTTGGAAACGAGAGAGTCCGCGAAGTCGATGGGTGACCATTAACACCGTTTTCTCACGCATCATTTCTGCAAGCA -ATTCAAGGATCTGGCTTTCGGTTGTGGCATCTAAGCCTTCGGTAGGTTCATCCAGCAACACCAGTGGCGCATCATGTAAC -AGCGCACGGGCGATAGCCAGACGGCGCAGTTCACCACCGGAGAGCTGGCGTCCGCCTTCACCTAACCAACTGTTGAGACC -TGCATCCTCGAGCAGCTTTTCCAGGCCAACGCGACGCAAGATCTCCGACAGAGCCTCATCACTACTGCCAGGCGAGGCGA -GTAAAAGATTATCACGCAGCGTGGCGCTAAACAGATGCACTCGCTGAGGAACAACGCTGATGGTCTGTCGTAGAGCCGCT -TCATTCAGGCTGGCTATGGGGCTATCGTTAAGCAAAATCTCGCCCTGTTGCGGGTCCCATGCGCGGGTCAGCTGTTGTAA -CAGTGTTGATTTGCCGCATCCGGTTCGCCCGAGAATCGCTATATGTTCCCCGGCGTTTACCTGAAGAGAAATCCCTTTAA -GTGCCTGTTGAGATTGCTCCGGATAAGTGAACTGAACATCCCGTAACGTCAGCGAAACGCGATCGGCAACACGAGTTTGG -GTATCAGGAAAGGTGACCTCCGGTTTTTGATCCGTTAAGTCAGAGATACGTACGGCAGAGGCAATGACTTGCCCCAGATG -CTGAAATGCACCCGTTACTGGTGCCAGTGCTTCAAACGCGGCTAACGCGCAGAAGACAAACAGGGCAATTAACGCGCCGG -GTTGAGCATTGCCGCCAACGCCGCCAGACGCCATCCACAGCATCAGGATCACCGCTAACGCGCCAATGAGCAGCATTATC -GCTTGCGACAATGCGGTCAGTTCAGATTGACGGCGTTGCGCTTCCAGCCATTGAATTTCTGTATTCTCTAGTTGCGTGCG -ATAACGATCGCTGGCACCAAAAATGGTCAGCTCAGCTTGCCCTTGCAGCCAGGCCGTCAGTTGTTGGCGATACTGTCCGC -GAAGATGAGTCAGATTTTGCCCGGTGCTTTTTCCCGCACGATAAAACAGCGGTGGCATCAGGAAAAGCGTCAGTAACATA -ATGCCGCCCAGCGTAAAGGCGAGGGTGAAATCAAGGAAACTTAACCCGATTGTCACCACCATAATCACCACAAAAGCGCC -CACCAGCGGCGAGATAACGCGCAGGTAAAGATGATCGAGCGTATCAACATCCGCCACCACGCGATTGAGCAATTCGCCCT -GACGATAGCGCGCCAGTCCGGCAGGGGAGAGGGGCAGCAATTTGCTGAAGGTGTAAATGCGCAGATGCTGCAACACGCGG -AAAGTCGCGTCGTGACTTACCAGACGTTCAAAATAGCGCCCGGCAGTACGGGTGATTGCTGCGCCACGCACGCCCGCAGC -GGGTAGCATATAGTTGAAGCTGTACAGTCCGGCAACCCCCGCAACCGCTGAGGCCGAGAGGAACCAGCCGGAAAGTGTCA -ACAGACCGATACTGGCGAGCAGCGTCACAATTGCCAGCACAATACCAAGACTTAACATCCATTTATGACGTTTATACAGT -GCCAGATAGGGTAGCAAAGCGCGCATTTAAATCTCCTCCTGACGATGGGCCAGTAATGTGGCGAATGGGCCACCAGCCAC -ACTTAATTCCGCGTAACGTCCTTGCTCAATAATCCGGCCATCCTGCATAACCCAAATGACATCCCAGTCAGCAAGATCTT -CTAACTGGTGGGTGACCATTAACGTTGTCTGGCGCAGAGAGGCGGCATTCAGCGCCTCCATTACGCGCTGTTCACTGTGA -GCATCAAGGCTGGCAGCGGGTTCATCCAACAGTAATAGCGAACAGGGATTTAGTAACGCACGGGCCACCGCCACGCGCTG -CGCCTGCCCCACGGAAAGGCGGGCAGCCTGGTCGCCAACAGGCGTATCAACGCCTTGTGGGAGGAGCGGTAGAAACTCGC -TGACCCAGGCGTTATCCAGCGCTGCTTGTAATTCTTGTTCGCTGGCATCAGGTCGCGCCAGTAGTACGTTATCCCGCAAT -GTTGCTGCCGGTAATTGTGGGTTTTGCCCAACCCAGGAGAGATGTTTACGCCATGATTCTGGTGATAAATCGCGTAATTC -TATCCCGTTGATTCGTAGCGATCCCTGATATGAGAGAAAACCAGAAAGCGCGTTCAGCAGTGAGCTTTTACCTGAACCGC -TGCGACCAACCAACACCGCACGTTGGCCTGCTGGCAAAGTAAAGTTCAGCGGTCCGGCCAGCGTTTTACCTTCCGGCGAC -GTGATAAACAGCTCCTCGGCCTCAATGGTCACCGGATCGGTCGATGCTAATTCCGCCTCACCACGTTGCGGATGGGCGAG -CGGGGTTTCCATAAACGTTTTCAGACTGTCAGCTGCGCCAACAGCCTGGGCTTTAGCATGATAAAACGTACCGAGATCGC -GTAATGGCTGGAAAAACTCTGGCGCAAGGATCAGGGCCAGAAAACCCGCAGCCAGCGTCACACCGGTATCGTAGTGACCA -AAATCCAGCTCGCCGAGATAGGAAAAACCAAAGTAGACCGCCACCAGAGCAATTGACAGCGAGGTAAAAAATTCGAGAAT -GCCGGAGGATAAAAACGCCAGCCGTAGCACTTCCATTGTCCGTTGGCGGAAATCTTCCGAAGCAGAACGAATACTTTCAA -TTTCAGCTTCACCACGACCAAAAATACGCAATGTTTCCATGCCGCGCAGGCGATCGAGGAAATGCCCACTTAAGCGAGCA -AGAGCGAGAAAGTTACGTCGGTTAGCATCGGCAGCCCCCATTCCAACCAGCGCCATAAACAACGGAATTAACGGTGCAGT -GCCCAGCAGAATGAGCGCCGCAGCCCAGTTAGAGGGGAAGATTGCCACCACAATCAGCAACGGCACCGACACTGCCAGCG -CCATTTGCGGCAGATAGCGTGCATAGTAATCATGCATATCGTCAATTTGCTCGAGTACCAGCGTCGCCCAGCTCCCCGCA -GGTTTACCCTGAATCCACGCTGGCCCTGCTTGTTGCAGACGGTCGAGAACCTGACGGCGGATGGCAAAGCGGATATGCTG -CCCGGCGTGATAACCCACCCGTTCGCGTAACCAGACCACCCATGCGCGCAGTACAAAGGTCAGAACCAGTAACGTAAAGG -GAAGCAGCAGGGCTTCACGGGGAATATTCTCCATAATCATATGTTGCAGAATTCGCGCCATGAACCAGGCCTGGGCAATG -ATCAATATGCCGCTCACAAAGCCCAGCAGACGAGAAATATTCAGCCAACGTTGGGAGATGACGCTTTGCTGTTTTAACCA -GCGGGTTAACTCTTTTTGACGAGATTTATTCATTGCACGCTTAGCAGGTGAGTTATCAGAATTATTTGCAGAGCAATGTT -ACAACGGGGAAAAAATAAAGGCGACCCATAGTCGCATGGTGTCGCCTTCTTTACTTTTGTTACTGATTTGTAAAATTATT -TTGCGTCAGCTAAACCATCGAGGTAGCGTTCCGCATCAAGTGCTGCCATGCAGCCTGTACCGGCCGAAGTAATGGCCTGG -CGATAAATGTGATCCATCACGTCGCCTGCGGCAAAGACGCCAGGAATGCTGGTCTGGGTGGCATTACCATGAATACCCGA -CTGTACTTTGATGTAGCCGTTTTCCAGTTCCAGCTGCCCTTCGAAAATCGCAGTATTCGGGCTGTGACCGATAGCAACAA -ACAGACCGGCAACGTCGAGTGACTCGATGTTATCGCTGTTTTGCGTATCGCGCAGACGAACGCCAGTGACACCCATTTGA -TCGCCGGTCACTTCTTCCAGCGTACGGTTGGTGTGCAGAATGATGTTGCCGTTCTCCACTTTATCCATCAGGCGCTTAAT -GAGGATTTTTTCCGCGCGGAAACCGTCACGGCGGTGAATCAGATGCACTTCCGAAGCGATGTTAGACAGATACAGCGCCT -CTTCAACCGCGGTATTGCCGCCGCCGATGACCGCAACTTTCTGGTTGCGATAGAAGAAACCGTCGCAGGTTGCACAAGCA -GAAACCCCACGGCCTTTAAAGGCTTCTTCAGAGGGCAGGCCGAGATAGCGTGCAGAAGCTCCGGTGGCAATAATCAGCGC -GTCGCAAGTGTATTCGCCGTTATCGCCATTCAGACGGAACGGACGGTTTTGCAGATCCACCTTGTTGATATGATCAAAAA -TGATCTCAGTTTCAAACTTGGTGGCATGTTCGTGCATGCGCTCCATTAATAACGGACCGGTCAGATCGTTTGGATCGCCA -GGCCAGTTTTCCACTTCCGTGGTGGTGGTCAGTTGGCCGCCTTTTTCCATGCCGGTAATCAGCACAGGTTGCAGGTTGGC -GCGCGCCGCGTAGACAGCAGCGGTGTATCCCGCCGGGCCTGAACCCAGGATAAGCAGTTTACTGTGTTTGGTCGTGCCCA -TGAGATCCCCATAGTTGTTGGCAGACAATGGGCAGGATTGTAGGGAATTTACAGACGTAAAAAAAGAGTATGACGATTTT -GTTAACAATTTGTGCAATCGGCAGCATCGATAAGCAGGTCAAATTCTCCCGTCATTATCACCTCTGCTACTTAAATTTCC -CGCTTTATAAGCCGATTAAATGATGAATAAACGCCCCTGTTAATGAATATCTGGCATGTTGTACTAAAAATCGATGTTTT -GCTTTGACAATCCCCTGGTGTTTTGCGAAAACATTCGAGGAAGAAAAAAAACAGTATTCTTATATGCGCATAACCATGCA -TGTAAATACCATGTTTACCGTGCTAGTGAAATCTACGTATGGCGTGGACAGACGCCATTCGTGATGTCGATAGCTGCCAC -AAGGCAACGGTCTTCTCACCGTAGACCCAGGCATTGCGCGCCGTGAATCTTCATGATTTCGGTCTATCGTGACGGGTAGC -GACTCTGAACAGTGATGTTTCAGGGTCAGACAGGAGTAGGGAAGGAATACAGAGAGACAATAATAATGGTAGATAGCAAG -AAGCGCCCTGGCAAAGATCTCGACCGTATCGATCGTAACATTCTTAATGAGTTGCAAAAGGATGGGCGTATTTCTAACGT -CGAGCTTTCTAAACGTGTGGGACTTTCCCCAACGCCGTGCCTTGAGCGTGTGCGTCGGCTGGAAAGACAAGGGTTTATTC -AGGGCTATACGGCGCTGCTTAACCCCCATTATCTGGATGCATCACTTCTGGTATTCGTTGAGATTACTCTGAATCGTGGC -GCACCGGATGTGTTTGAACAATTCAATACCGCTGTACAAAAACTTGAAGAAATTCAGGAGTGTCATTTAGTATCCGGTGA -TTTCGACTACCTGTTGAAAACACGCGTGCCGGATATGTCAGCCTACCGTAAGTTGCTGGGGGAAACCCTGCTGCGTCTGC -CTGGCGTCAATGACACACGGACATACGTTGTTATGGAAGAAGTCAAGCAGAGTAATCGTCTGGTTATTAAGACGCGCTAA -CACGGAACAGGTGCAAAATCGGCGTATTTTGATTACACTCCTGTTAATCCATACAGCAACAGTACTGGGGTAACCTGGTA -CTGTTGTCCGTTTTAGCATCGGGCAGGAAAAGCCTGTAACCTGGAGAGCCTTTCTTGAGCCAGGAATACATTGAAGACAA -AGAAGTCACATTGACAAAGTTAAGTAGCGGCCGCCGCCTTCTGGAGGCGTTGCTGATCCTTATTGTCCTGTTTGCCGTCT -GGTTGATGGCTGCCTTACTAAGCTTTAACCCTTCGGACCCCAGCTGGTCGCAAACGGCCTGGCATGAACCTATCCATAAT -TTAGGTGGGATGCCCGGTGCGTGGTTGGCAGATACGCTGTTCTTTATTTTTGGCGTGATGGCTTACACCATTCCCGTCAT -TATTGTCGGCGGTTGTTGGTTTGCCTGGCGTCATCAGTCCAGCGACGAATACATTGATTATTTTGCCGTTTCGCTACGCA -TCATTGGCGTTTTGGCGCTCATCCTTACCTCCTGTGGTCTGGCGGCAATCAACGCTGACGATATCTGGTATTTTGCCTCC -GGTGGCGTCATTGGCAGCTTACTAAGCACTACGCTACAACCACTGCTACACAGTAGCGGGGGAACTATTGCGCTGCTCTG -CGTTTGGGCAGCGGGCCTGACGTTGTTCACCGGTTGGTCATGGGTGACCATTGCTGAAAAACTCGGCGGCTGGATTTTAA -ACATTCTCACCTTCGCCAGTAATCGTACCCGTCGCGATGATACCTGGGTCGATGAAGATGAGTATGAAGACGACGAAGAG -TATGAAGATGAAAATCACGGCAAACAGCATGAATCACGCCGTGCCCGTATTCTTCGCGGCGCGCTAGCGCGTCGTAAACG -GTTGGCGGAAAAATTCATTAATCCGATGGGGCGGCAAACAGACGCTGCGTTGTTCTCCGGTAAGCGGATGGATGATGACG -AAGAGATTACCTACACTGCACGCGGTGTGGCTGCCGACCCGGACGACGTCCTATTTTCGGGCAATCGTGCAACGCAGCCA -GAATATGACGAATACGATCCATTATTAAACGGTGCGCCAATTACCGAACCTGTCGCTGTAGCAGCTGCTGCTACCACGGC -GACACAAAGCTGGGCTGCGCCGGTTGAACCTGTGACTCAGACGCCGCCTGTTGCCTCTGTTGATGTTCCACCTGCGCAAC -CTACAGTAGCCTGGCAGCCTGTACCGGGTCCACAAACGGGAGAGCCGGTTATTGCTCCTGCACCGGAAGGTTACCCACAG -CAGTCACAATATGCGCAGCCTGCAGTGCAATATAATGAGCCGCTGCAACAACCAGTACAGCCGCAGCAGCCGTATTATGC -ACCTGCAGCTGAACAACCTGCGCAACAGCCGTATTATGCCCCTGCGCCAGAACAACCGGTGGCAGGTAACGCCTGGCAAG -CCGAAGAGCAGCAATCCACTTTTGCTCCACAGTCTACATACCAGACTGAGCAAACTTATCAGCAGCCAGCCGCTCAGGAG -CCGTTGTACCAACAGCCGCAACCCGTTGAACAGCAGCCTGTTGTGGAGCCTGAACCCGTTGTAGAAGAGACAAAACCCGC -GCGTCCGCCGCTTTACTACTTTGAAGAAGTTGAAGAGAAGCGAGCCCGTGAACGTGAACAACTTGCGGCCTGGTATCAAC -CGATTCCAGAACCGGTTAAAGAACCAGAACCGATCAAATCTTCGCTGAAAGCACCTTCTGTTGCAGCAGTACCTCCAGTA -GAAGCCGCTGCCGCTGTTTCCCCGCTGGCATCTGGCGTGAAAAAAGCGACACTGGCGACGGGGGCTGCCGCAACCGTTGC -CGCGCCAGTCTTCAGTCTGGCAAATAGCGGTGGACCGCGTCCTCAGGTCAAAGAGGGGATTGGTCCGCAGTTGCCACGAC -CGAAACGTATCCGCGTGCCAACTCGTCGTGAACTGGCGTCTTACGGTATTAAGCTGCCCTCACAGCGTGCGGCGGAAGAA -AAAGCCCGTGAAGCCCAGCGCAATCAGTACGATTCTGGCGATCAGTACAACGATGATGAAATCGATGCGATGCAGCAGGA -TGAACTGGCACGTCAGTTCGCCCAGACACAGCAGCAACGCTATGGCGAACAGTATCAACATGATGTGCCCGTAAACGCAG -AAGATGCAGATGCTGCGGCAGAGGCTGAACTGGCTCGTCAGTTTGCGCAAACTCAACAACAACGTTATTCCGGCGAACAA -CCGGCTGGGGCGAATCCGTTCTCGCTGGATGATTTTGAATTTTCGCCAATGAAAGCGTTGCTGGATGATGGTCCACACGA -ACCGTTGTTTACGCCAATTGTTGAACCTGTACAGCAGCCGCAACAACCGGTTGCACCGCAGCAGCAATATCAGCAGCCGC -AACAACCAGTTCCGCCGCAGCCGCAGTATCAGCAGCCACAACAGCCGGTTGCGCCGCAGCCACAATATCAGCAGCCGCAA -CAACCGGTTGCGCCACAGCAGCAATATCAGCAGCCGCAACAACCGGTTGCGCCGCAGCAGCAGTATCAGCAGCCACAACA -GCCAGTTGCGCCACAACCGCAGGATACCCTGCTTCATCCGCTGTTGATGCGTAATGGCGACAGCCGTCCGTTGCATAAAC -CGACGACGCCGCTGCCTTCTCTGGATTTGCTGACACCGCCGCCGAGCGAAGTGGAGCCGGTAGATACCTTTGCGCTTGAA -CAAATGGCTCGCCTGGTGGAAGCGCGTCTGGCTGATTTCCGTATTAAAGCCGATGTCGTCAATTACTCTCCGGGGCCGGT -TATCACTCGCTTTGAATTGAACCTGGCACCGGGCGTAAAAGCGGCGCGCATTTCTAACTTGTCACGGGACCTTGCCCGTT -CACTTTCGACGGTGGCGGTGCGTGTCGTTGAAGTTATTCCTGGCAAACCCTATGTAGGTCTGGAGTTACCGAATAAAAAA -CGACAAACCGTTTATCTGCGCGAAGTTTTGGATAACGCCAAATTCCGCGATAATCCGTCGCCATTAACCGTGGTGCTGGG -TAAAGATATCGCCGGTGAGCCGGTGGTTGCCGATCTGGCGAAAATGCCGCACTTGTTGGTTGCGGGGACTACCGGTTCCG -GTAAATCTGTCGGTGTGAACGCGATGATCCTGAGCATGCTTTATAAAGCACAGCCAGAAGATGTGCGTTTCATCATGATC -GACCCGAAAATGCTGGAGCTTTCGGTTTATGAAGGCATTCCGCATCTGTTAACGGAAGTCGTTACTGATATGAAAGATGC -CGCCAACGCGCTGCGCTGGTGTGTTAACGAGATGGAGCGTCGGTATAAACTGATGTCTGCGCTGGGTGTGCGTAATCTGG -CGGGTTATAACGAAAAAATTGCTGAAGCCGATCGCATGATGCGTCCGATTCCAGACCCGTACTGGAAGCCGGGTGACAGT -ATGGATGCCCAGCATCCGGTGCTGAAAAAAGAACCATACATTGTGGTGTTGGTTGACGAATTTGCCGACCTGATGATGAC -GGTAGGTAAAAAAGTGGAAGAGCTGATAGCACGTCTGGCGCAAAAAGCCCGTGCCGCGGGTATCCACCTCGTACTGGCAA -CTCAGCGTCCATCGGTTGATGTTATTACTGGTCTGATTAAAGCGAATATTCCGACCCGTATCGCCTTTACCGTATCCAGT -AAGATTGACTCACGTACCATTCTTGATCAGGCTGGCGCGGAATCACTGCTGGGTATGGGGGATATGCTCTACTCTGGGCC -GAACTCCACGTTGCCGGTACGTGTCCATGGTGCTTTTGTTCGCGATCAGGAAGTTCATGCCGTGGTGCAGGACTGGAAAG -CGCGTGGTCGCCCACAGTATGTTGATGGCATCACCTCCGACAGCGAAAGCGAAGGTGGTGCGGGTGGTTTCGATGGCGCT -GAAGAACTGGATCCGTTGTTCGATCAGGCGGTGCAGTTTGTCACTGAAAAACGCAAAGCGTCAATTTCTGGCGTACAGCG -TCAGTTCCGCATTGGTTATAACCGTGCAGCGCGTATTATCGAACAGATGGAAGCGCAGGGGATTGTCAGCGAACAGGGGC -ACAACGGTAATCGTGAAGTGCTGGCCCCACCGCCGTTTGACTAACTAATGCATCGTATGCCGGATAAGGCGCGGTAGCGT -CGCATCCGGCACTCTATCAACTGAAAATTCAGTATTTTCTTCTTTCCTCAAGCTGATTATTAGCCTGGAATAGAGAGTAG -AGGGAACTCCCGATCGGGAGTGACGTAATTTGAGGAATAATGATGAAAAAAATTGCCATCACCTGTGCATTACTCTCAAG -CTTAGTAGCAAGCAGCGTTTGGGCTGATGCCGCAAGCGATCTGAAAAGCCGCCTGGATAAAGTCAGCAGCTTCCACGCCA -GCTTCACACAAAAAGTGACTGACGGTAGCGGCGCGGCGGTGCAGGAAGGTCAGGGCGATCTGTGGGTGAAACGTCCAAAC -TTATTCAACTGGCATATGACACAACCTGATGAAAGCATTCTGGTTTCTGACGGTAAAACACTGTGGTTCTATAACCCGTT -CGTTGAGCAAGCTACGGCAACCTGGCTGAAAGATGCCACCGGTAATACGCCGTTTATGCTGATTGCCCGCAACCAGTCCA -GCGACTGGCAGCAGTACAATATCAAACAGAATGGCGATGACTTTGTCCTGACGCCGAAAGCCAGCAATGGCAATCTGAAG -CAGTTCACCATTAACGTGGGACGTGATGGCACAATCCATCAGTTTAGCGCGGTGGAGCAGGACGATCAGCGCAGCAGTTA -TCAACTGAAATCCCAGCAAAATGGGGCTGTGGATGCAGCGAAATTTACCTTCACCCCGCCGCAAGGCGTCACGGTAGATG -ATCAACGTAAGTAGAGGCACCTGAGTGAGCAATCTGTCGCTCGATTTTTCGGATAATACTTTTCAACCTCTGGCCGCGCG -TATGCGGCCAGAAAATTTAGCACAGTATATCGGCCAGCAACATTTGCTGGCTGCGGGGAAGCCGTTGCCGCGCGCTATCG -AAGCCGGGCATTTACATTCTATGATCCTCTGGGGGCCGCCGGGTACCGGCAAAACAACTCTCGCTGAAGTGATTGCCCGC -TATGCGAACGCTGATGTGGAACGTATTTCTGCCGTCACCTCTGGCGTGAAAGAGATTCGCGAGGCGATCGAGCGCGCCCG -GCAAAACCGCAATGCAGGTCGCCGCACTATTCTTTTTGTTGACGAAGTTCACCGTTTCAACAAAAGCCAGCAGGATGCAT -TTCTGCCACATATTGAAGACGGCACCATCACTTTTATTGGCGCAACCACTGAAAACCCGTCGTTTGAGCTTAATTCGGCA -CTGCTTTCCCGTGCCCGTGTCTATCTGTTGAAATCCCTGAGTACAGAGGATATTGAGCAAGTACTAACTCAGGCGATGGA -AGACAAAACCCGTGGCTATGGTGGTCAGGATATTGTTCTGCCAGATGAAACACGACGCGCCATTGCTGAACTGGTGAATG -GCGACGCGCGCCGGGCGTTAAATACGCTGGAAATGATGGCGGATATGGCCGAAGTCGATGATAGCGGTAAGCGGGTCCTG -AAGCCTGAATTACTGACCGAAATCGCCGGTGAACGTAGCGCCCGCTTTGATAACAAAGGCGATCGCTTTTACGATCTGAT -TTCCGCACTGCATAAGTCGGTACGTGGTAGCGCACCCGATGCGGCGCTGTACTGGTATGCGCGAATTATTACCGCTGGTG -GCGATCCGTTATATGTCGCGCGTCGCTGTCTGGCGATTGCGTCTGAAGACGTCGGTAATGCCGATCCACGGGCGATGCAG -GTGGCAATTGCGGCCTGGGATTGCTTTACTCGCGTTGGCCCGGCGGAAGGTGAACGCGCCATTGCTCAGGCGATTGTTTA -CCTGGCCTGCGCGCCAAAAAGCAACGCTGTCTACACTGCGTTTAAAGCCGCGCTGGCCGATGCTCGCGAACGCCCGGATT -ATGACGTGCCGGTTCATTTGCGTAATGCGCCGACGAAATTAATGAAGGAAATGGGCTACGGGCAGGAATATCGTTACGCT -CATGATGAAGCAAACGCTTATGCTGCCGGTGAGGTTTACTTCCCGCCGGAAATAGCACAAACACGCTATTATTTCCCGAC -AAACAGGGGCCTTGAAGGCAAGATTGGCGAAAAGCTCGCCTGGCTGGCTGAACAGGATCAAAATAGCCCCATAAAACGCT -ACCGTTAATGTTATCGTTGCGGTAATGTTGTTACTGTATCCCTGTGGTCGCAGGCTGTGGCCACATCTCCCATTTAATTC -GATAAGCACAGGATAAGCATGCTCGATCCCAATCTGCTGCGTAATGAGCCAGACGCAGTCGCTGAAAAACTGGCACGCCG -GGGCTTTAAGCTGGATGTAGATAAGCTGGGCGCTCTTGAAGAGCGTCGTAAAGTATTGCAGGTCAAAACGGAAAACCTGC -AAGCGGAGCGTAACTCCCGATCGAAATCCATTGGCCAGGCGAAAGCGCGCGGGGAAGATATCGAGCCTTTACGTCTGGAA -GTGAACAAACTGGGCGAAGAGCTGGATGCAGCAAAAGCCGAGCTGGATGCTTTACAGGCTGAAATTCGCGATATCGCGCT -GACCATCCCTAACCTGCCTGCAGATGAAGTGCCGGTAGGTAAAGACGAAAATGACAACGTTGAAGTCAGCCGCTGGGGTA -CCCCGCGTGAGTTTGACTTTGAAGTTCGTGACCACGTGACGCTGGGTGAAATGCACTCTGGCCTCGACTTTGCAGCTGCA -GTTAAGCTGACTGGTTCCCGCTTTGTGGTAATGAAAGGGCAGATTGCTCGCATGCACCGCGCACTGTCGCAGTTTATGCT -GGATCTGCATACCGAACAGCATGGCTACAGTGAGAACTATGTTCCGTACCTGGTTAACCAGGACACGCTGTACGGTACGG -GTCAACTGCCGAAATTTGCTGGCGATCTGTTCCATACTCGTCCGCTGGAAGAAGAAGCAGACACCAGTAACTATGCGCTG -ATCCCAACGGCAGAAGTTCCGCTGACTAACCTGGTGCGCGGTGAAATCATCGATGAAGATGATCTGCCAATTAAGATGAC -CGCCCACACCCCATGCTTCCGTTCTGAAGCCGGTTCATATGGTCGTGACACCCGTGGTCTGATCCGTATGCACCAGTTCG -ACAAAGTTGAAATGGTGCAGATCGTGCGCCCAGAAGACTCAATGGCGGCGCTGGAAGAGATGACTGGTCATGCAGAAAAA -GTCCTGCAGTTGCTGGGCCTGCCGTACCGTAAAATCATCCTTTGCACTGGCGACATGGGCTTTGGCGCTTGCAAAACTTA -CGACCTGGAAGTATGGATCCCGGCACAGAACACCTACCGTGAGATCTCTTCCTGCTCCAACGTTTGGGATTTCCAGGCAC -GTCGTATGCAGGCACGTTGCCGCAGCAAGTCGGACAAGAAAACCCGTCTGGTTCATACCCTGAACGGTTCTGGTCTGGCT -GTTGGTCGTACGCTGGTTGCAGTAATGGAAAACTATCAGCAGGCTGATGGTCGTATTGAAGTACCAGAAGTTCTGCGTCC -GTATATGAACGGACTGGAATATATTGGCTAATACCCAATTTTTCTGAATCTAAAAAGCGCCTGCGGGCGCTTTTTTTGTC -TCCCTTTGATACCGAACAATAATTACTCCTCACTTACACGTAATACTACTTTCGAGTGAAAATCTACCTATCTCTTTGAT -TTTCAAATTATTCGATGTATACAAGCCTATATAGCGAACTGCTATAGAAATAATTACACAATACGGTTTGTTACTGGAAT -CAATCGTGAGCAAGCTTGAGTGAGCCATTATGAAAACGAAAATCCCTGATGCGGTATTGGCTGCTGAGGTGAGTCGCCGT -GGTTTGGTAAAAACGACAGCGATCGGCGGCCTGGCAATGGCCAGCAGCGCATTAACATTACCTTTTAGTCGGATTGCGCA -CGCTGTCGATAGCGCCATTCCAACAAAATCAGACGAAAAGGTTATCTGGAGCGCCTGTACAGTTAACTGTGGTAGTCGCT -GCCCGCTACGTATGCACGTCGTGGACGGTGAAATCAAATATGTCGAAACGGACAATACCGGCGATGACAATTACGACGGC -CTGCACCAGGTTCGCGCCTGCCTGCGTGGGCGTTCCATGCGTCGCCGTGTCTACAATCCGGACCGCCTGAAATATCCGAT -GAAACGAGTCGGGGCGCGCGGTGAAGGCAAATTCGAGCGCATTAGCTGGGAAGAAGCCTACGACATCATCGCGACCAATA -TGCAGCGCCTGATCAAAGAGTACGGCAACGAGTCTATCTATCTGAACTATGGCACCGGTACGCTGGGCGGCACCATGACC -CGCTCCTGGCCGCCGGGAAATACCCTGGTCGCGCGGCTGATGAACTGCTGCGGCGGCTATCTGAACCATTACGGCGACTA -CTCCTCCGCGCAAATTGCGGAAGGTTTGAACTATACCTACGGCGGCTGGGCAGATGGCAACAGCCCGTCGGATATCGAAA -ACAGTAAGCTGGTAGTGCTGTTTGGTAATAACCCTGGCGAAACGCGAATGAGTGGCGGTGGGGTGACTTACTATCTTGAA -CAGGCACGCCAGAAATCTAATGCCCGCATGATCATCATCGATCCGCGCTATACCGACACCGGTGCCGGGCGCGAAGATGA -GTGGATCCCTATTCGTCCGGGAACAGATGCCGCACTGGTTAACGGTCTGGCGTACGTCATGATCACTGAAAACCTGGTGG -ATCAGGCATTCCTCGATAAATATTGCGTTGGCTACGATGAGAAAACCCTGCCAGCCAGTGCGCCGAAAAATGGCCACTAT -AAAGCTTATATTCTGGGTGAAGGGCCAGATGGCGTGGCTAAAACGCCGGAATGGGCCTCGCAAATCACTGGTGTTCCGGC -AGACAAAATCATCAAATTGGCTCGTGAAATCGGTAGTACCAAACCGGCGTTTATCAGCCAGGGATGGGGCCCGCAGCGTC -ACGCTAACGGTGAAATCGCAACCCGTGCTATCTCGATGCTGGCGATTCTGACCGGTAACGTTGGTATTAACGGAGGCAAC -AGCGGCGCGCGTGAAGGTTCATACAGCTTACCGTTTGTCCGTATGCCGACCTTGGAAAACCCGATCCAGACCAGCATTTC -GATGTTTATGTGGACCGATGCCATTGAACGTGGCCCGGAAATGACGGCGCTGCGTGATGGTGTACGCGGGAAAGATAAGC -TGGATGTGCCGATCAAAATGATCTGGAACTATGCCGGTAACTGCCTGATTAACCAGCATTCTGAAATCAACCGTACCCAT -GAAATCCTTCAGGATGATAAGAAGTGCGAGCTGATTGTGGTTATCGACTGCCACATGACCTCATCGGCGAAATATGCTGA -CATCCTGCTGCCTGACTGCACCGCTTCCGAACAGATGGACTTTGCGCTGGATGCATCCTGCGGGAATATGTCTTACGTGA -TTTTCAACGATCAGGTGATTAAACCGCGCTTTGAATGTAAGACCATCTATGAAATGACCAGCGAACTGGCAAAACGTCTT -GGCGTTGAGCAACAGTTTACTGAAGGCCGTACCCAGGAAGAGTGGATGCGGCATCTGTATGCCCAGTCGCGGGAAGCGAT -TCCTGAACTGCCAACGTTTGAAGAGTTCCGCAAGCAGGGGATCTTTAAAAAGCGCGACCCACAAGGGCATCACGTTGCTT -ATAAAGCCTTCCGTGAAGATCCGCAGGCAAACCCACTGACTACGCCATCGGGCAAAATTGAGATTTATTCGCAGGCGCTG -GCTGACATTGCCGCTACCTGGGAATTGCCTGAAGGCGATGTGATCGATCCACTGCCGATCTACACGCCGGGCTTTGAAAG -TTATCAGGATCCGCTGAACAAACAGTATCCGCTGCAGCTTACAGGTTTCCACTATAAATCTCGCGTTCACTCAACTTACG -GCAACGTTGATGTGCTGAAAGCGGCTTGCCGTCAGGAAATGTGGATCAACCCGCTTGATGCCCAAAAACGCGGTATCCAC -AACGGCGATAAAGTCAGGATCTTTAACGATCGTGGTGAGGTTCATATTGAGGCGAAAGTGACGCCACGAATGATGCCGGG -TGTGGTCGCACTGGGTGAAGGTGCCTGGTATGACCCGGATGCAAAACGTGTCGATAAGGGTGGTTGTATTAACGTACTGA -CCACTCAACGTCCGTCTCCTCTCGCTAAGGGGAATCCGTCACATACAAACCTTGTTCAGGTTGAAAAGGTGTAAGGAGTA -ACCGATGACAACCCAGTATGGATTTTTTATTGATTCCAGCCGTTGCACCGGTTGCAAAACCTGCGAGCTGGCCTGTAAAG -ACTACAAAGATTTGACGCCAGAAGTCAGCTTCCGCCGCATTTATGAATATGCTGGCGGCGACTGGCAGGAAGATAACGGT -GTCTGGCACCAGAACGTGTTTGCCTACTATCTGTCGATTTCATGTAACCACTGCGAAGATCCGGCTTGTACTAAAGTCTG -CCCGAGCGGTGCGATGCATAAACGTGAAGATGGTTTTGTTGTGGTCGATGAAGATGTGTGCATTGGCTGCCGCTACTGCC -ATATGGCTTGCCCGTATGGCGCACCGCAATATAACGAAACGAAAGGCCATATGACCAAATGCGATGGTTGTTATGACCGT -GTTGCGGAGGGTAAAAAGCCGATCTGTGTTGAATCTTGTCCGCTGCGGGCGCTGGATTTCGGCCCTATCGACGAGCTGCG -TAAAAAACATGGCGATCTGGCGGCCGTTGCGCCGTTGCCGCGAGCTCACTTTACCAAACCGAATATTGTGATCAAACCCA -ATGCCAATAGCCGCCCGACCGGGGATACCACTGGCTATCTGGCAAACCCGAAGGAGGTGTGAGATGGGAAGTGGATGGCA -TGAATGGCCGCTGATGATCTTCACGGTCTTCGGGCAATGTGTAGCAGGTGGTTTTATCGTTCTGGCTTTGGCGCTGCTCA -AAGGCGACCTGCGAGCAGAAGCCCAGCAGCGTGTTATCGCCTGCATGTTTGGTTTATGGGTGCTGATGGGCATTGGCTTT -ATCGCCTCTATGCTCCATCTTGGTTCACCAATGCGCGCTTTTAACTCGCTCAACCGGGTAGGGGCTTCAGCACTCAGTAA -CGAAATCGCCAGCGGTTCGATCTTTTTTGCCGTAGGCGGCATCGGCTGGTTGCTGGCAATGCTGAAAAAGCTGTCACCGG -CATTGCGTACGCTGTGGCTGATAGTGACGATGGTTCTTGGCGTCATCTTTGTCTGGATGATGGTGCGTGTGTATAACAGC -ATTGATACCGTTCCGACCTGGTACAGCATCTGGACGCCGATGGGCTTCTTCCTGACGATGTTTATGGGCGGCCCGTTACT -GGGTTACCTGTTGTTGAGTCTGGCTGGCGTCGATGGCTGGGCGATGCGTCTGCTGCCAGCAATTTCTGTACTGGCACTGG -TAGTGAGTGGCGTGGTGTCAGTGATGCAGGGCGCAGAGCTGGCGACTATTCATAGTTCTGTGCAGCAGGCCGCAGCGCTG -GTGCCGGACTATGGTGCGCTGATGTCCTGGCGGATCGTGCTTTTGGCCGTTGCCCTGTGCTTGTGGATTGCACCACAGCT -AAAAGGTTATCAGCCTGCGGTTCCGCTACTTTCTGTATCATTCATTCTGCTTCTGGCAGGGGAATTAATCGGTCGCGGCG -TATTCTATGGTTTGCATATGACCGTGGGGATGGCCGTCGCAAGCTAATCATAACAACCGGGGTTTCGGCCCCGGTTCTCT -TTTATTTCTGCTTCGTTAACGTGTCATAACTGGTCATCAAATTACGATAATCAGGAATGTGGTTAGAGAACAACGTCGCC -AGTCCTTCAATATCATTACGCCAGTCGCGATGCAGCTCGCACGCCACGCCGAACCATGTCATCAATTGCGCACCAGCTTG -CGACAAGCGATCCCATGCCGAATGCCGGGTAATTTCATTAAAGGTCCCTGACGCGTCAGTCACGACAAAGACGTCAAACC -CTTCTTCAATGGCTGAAAGCGCCGGGAATGCCACGCAAACTTCGGTTACCACACCGGCAATAATTAACTGTTTTTTACCT -GTCGCTTTGACAGCTTTTACAAAATCTTCGTTATCCCAGGCGTTAATATTTCCCGGGCGAGCAATGTAAGGTGTATCGGG -GAATTGTGCTTTCAGTTCTGGAACTAATGGGCCGTTAGGACCGGTTTCAAAACTGGTGGTAAGAATAGTTGGTAAGTTGA -AATACTTAGCCAGGTCACCCAGCGCCAGCACGTTATTTTTAAACTTATCGGGTTCGATATCCCGTACAAGGGAAAGTAAA -CCAGCCTGGTGATCAACAAGCAAAACGGCAGCATCATTTTTATCAAGACGAACATACGGTTTGGTCATCCTCTTCTCCTT -TCGAGAGTCAGTGGTACGTCTGAAATCGATCAGACGCGATGCATTGCTCTGAAAGCATAGACGGGAAATATGAGTTTGCT -GTGACCATGAAATTTTTCGACTGAACGAAGCGTATGAAATTTGTGTTAGTTCAATAAAAACAATCAGATGAGACTAATCA -TCTCTTCAGCATTAGCGTTATGAATGAGTAATATAAATCGATAATACCGCCGCTGGGATATCGCGTATTTTCACCCATTG -ACAATGTTTTTGGCGGTGGCATGATGCGCATGAAATTTGAACTTCCTCACGGTTTTAATTCATGTCCACGTATACCCAGC -CTGTCATGCTTTTGCTGTCTGGCCTGCTTTTGTTGACTCTGGCGATTGCGGTGTTAAATACACTCGTGCCGCTTTGGCTC -GCCCAGGAACACATGTCCACATGGCAGGTAGGCGTTGTCAGCTCATCCTATTTTACCGGCAACCTTGTCGGTACATTGCT -GACAGGGTATGTCATTAAGCGCATTGGCTTTAACCGCAGCTATTATCTGGCCTCCTTCATTTTTGCCGCTGGCTGTGCCG -GCCTTGGCCTGATGATTGGATTCTGGAGCTGGTTGGCTTGGCGTTTTGTCGCGGGCGTCGGCTGTGCCATGATTTGGGTG -GTTGTTGAGAGCGCGCTGATGTGCAGTGGGACGTCACGTAACCGTGGGCGTTTGCTTGCTGCGTATATGATGGTTTATTA -CGTGGGAACGTTTTTAGGCCAGTTACTGGTCAGCAAAGTTTCAACCGAGCTGATGTCCGTATTGCCGTGGGTTACAGGTT -TGACGTTGGCAGGGATCTTACCGCTGTTGTTTACGCGTGTGCTGAATCAGCAGGCTGAAAACCATGATTCGACGTCAATT -ACGTCAATGCTAAAACTCCGTCAGGCGCGGCTTGGCGTGAATGGCTGCATTATCTCAGGAATCGTTCTGGGATCTCTATA -TGGCCTGATGCCGCTGTACCTCAATCACAAAGGGGTGAGCAATGCCAGCATTGGTTTCTGGATGGCGGTACTGGTCAGTG -CGGGTATCCTTGGACAATGGCCGATTGGACGTCTGGCGGATAAGTTTGGTCGACTGCTGGTGTTGCGTGTTCAGGTCTTT -GTCGTCATTCTCGGCAGTATCGCGATGCTTAGCCAGGCGGCGATGGCCCCAGCGTTATTCATCCTCGGTGCCGCTGGCTT -TACGCTATATCCGGTGGCGATGGCATGGGCTTGCGAGAAAGTTGAACATCATCAACTGGTGGCGATGAACCAGGCCTTAC -TGTTGAGCTATACTGTGGGAAGTCTGCTTGGCCCGTCATTTACCGCTATGCTAATGCAGAATTTCTCCGATAATTTATTG -TTTATCATGATCGCCAGCGTATCGTTTATCTATTTGCTGATGCTGCTGCGCAACGCCGGTCATACGCCGAAACCCGTTGC -TCACGTGTAAATGAATTCAAGCAGAGTGTGAACTTACTGTTTCACACTCTGCTTTTTTGTTTCTTCTATCTGACTTGCTT -TATTCCAAATTTTATTCGTTTAAAAATAAAATGTGCAGCAGGTTATAATTTTGCATTTCGCTATTTCCGCACTTCTTATT -TGCCGCGCATAATCCCTCGTTTTACCGATGCCCCTTTAATTTTGGCGAAGGATTTGTCTATGGCTGGGAATGTTCAGGAA -AAACAGTTGCGATGGTACAACATTGCGCTGATGTCTTTTATCACTGTCTGGGGTTTTGGCAACGTTGTTAATAACTATGC -CAACCAGGGGCTGGTGGTTGTTTTTTCATGGGTGTTTATCTTTGCACTCTATTTCACACCTTATGCGCTAATTGTTGGTC -AGTTAGGCTCGACCTTCAAAGATGGGAAGGGCGGGGTCAGTACCTGGATTAAACACACGATGGGACCCGGACTGGCTTAT -CTCGCCGCGTGGACCTACTGGGTGGTGCATATTCCCTATCTGGCACAAAAACCCCAGGCAATTCTGATTGCGCTCGGTTG -GGCGATGAAAGGCGACGGTTCGCTAATCAAAGAATATTCAGTCGTAGCGTTACAGGGGTTAACGCTGGTGCTGTTTATCT -TCTTTATGTGGGTTGCTTCACGCGGTATGAAATCGCTGAAAATCGTCGGTTCTGTGGCAGGGATTGCTATGTTTGTTATG -TCACTCCTGTATGTGGCGATGGCGGTAACCGCGCCTGCAATTACTGAAGTGCATATTGCGACCACAAACATTACCTGGGA -AACGTTCATTCCTCATATCGACTTTACCTACATTACCACTATTTCAATGCTGGTTTTCGCGGTTGGCGGAGCAGAGAAGA -TTTCTCCTTACGTTAATCAAACGCGCAACCCAGGAAAAGAATTTCCAAAAGGGATGTTATGCCTGGCGGTGATGGTTGCG -GTTTGTGCCATTCTGGGCTCGCTGGCGATGGGGATGATGTTTGATTCGCGTAATATCCCGGATGACTTAATGACCAACGG -TCAGTATTACGCCTTTCAGAAGCTGGGCGAGTATTACAACATGGGTAATACTTTAATGGTGATTTACGCCATTGCGAATA -CCCTGGGACAAGTAGCGGCGCTGGTATTCTCGATTGATGCCCCGCTTAAAGTGCTATTAGGTGATGCTGACAGCAAATAT -ATTCCAGCCAGTTTATGTCGTACCAACGCTTCTGGTACGCCCGTTAATGGCTATTTTCTGACCCTGGTACTGGTGGCGAT -TCTGATTATGCTGCCGACTCTCGGCATTGGTGATATGAACAATCTCTATAAATGGCTGTTGAACCTTAATTCGGTAGTGA -TGCCGCTGCGTTATTTATGGGTATTTGTTGCATTTATTGCAGTCGTTCGCTTGGCGCAGAAATATAAACCAGAATATGTC -TTTATTCGTAATAAGCCTCTGGCAATGACCGTCGGGATTTGGTGTTTTGCCTTTACCGCCTTTGCCTGTTTGACGGGGAT -CTTCCCGAAAATGGAAGCCTTCACTGCAGAGTGGACCTTCCAGTTGGCGCTGAATGTTGCAACGCCGTTTGTGCTGGTAG -GATTAGGACTGATATTCCCGCTGCTGGCGCGTAAAGCGAATAGTAAATAATTATTGTGGTCGGTGACGCTGACTCTGGCA -GATCTGACCCGTTTTTACATAATCGAGAAATGCGCGCAAGCCGCAGGACATATACTGGCGGTTTGGATAATAGATCTGGA -AGCCTGGACGCTCTGTGCTCCAGTCTTCCAGTACACATTCTAAACGACCAGTATCAAGGTACTCCTTGATCTGTTCATAG -AGCAGATACCCGATACCAGCACCCATCAAAACGGCCTCCAGTTCAGCATCAACATCATCCAGAATGATATTTCCTGCGAC -AGCAATTTCCAGCTCCTTTGCAAATTGCCAGTGGAAAGGTTTGCCGCTGGGATAACGAAAAACAACACATTGATGATTAA -GCAGATCATGAGGATGGCGGGGTTTGCCATATCTTGCAAAGTACTCTGGCGTTGCTGCTACACATAATTTCACTGGCGGG -CCGATCGCCACGCTGATCATATCTTTTTCGACGATGCAACTAAGTCGAACGCCAGCGTCAAAGCCCTGTTGGACGATATC -GACAAGAGAGTCGTCAGTTGTGAGCTCGACTTTAATATCAGGATATTCACGTGTGAAACCAACCAGTAAAGACATTAAAA -ATATACGTGCAGCTACCCGGGCGGCATTGATTTTGAGCGTTCCTGTCGGTGTCAGACGAAAATCATTCATCTCATCTAAC -ATGATCTGAATTTCGTCGAAAGCTGGGCGCAATCGTTCATAGAGATTAGAACCCGCTTCCGTTAACGATACGCTTCGGGT -TGTCCGATTGAATAAGCGAATTTTAAGACGTTGTTCCAGTGTTTTAATACTATGGCTAATGGCGGACGAGGATAAGCCTA -ACTCATCGCCCGCTGCACGAAAGCTTTGATTACGGGCCACGGCAAAGAAAGTGGCAAAGTCAGACATATTCATCCGCATT -AGTGAAAATCCTTCATTAACTCATCCTGAATCATCACGTTTACAGGATTATGCCGCCTGCGTAAAGTGCGCTCCAGAACT -TAACGTGGAGGTAAAATTATGCAGTCTGAACGTATTTATTTGGTATGGGCCCATCCTCGTCATGATTCATTGACCGCACA -TATTGCTGATGCGATCCATCAGCGGGCAATGGAGCGGAAAATACAGGTGACGGAACTCGATTTATATCGGCGTAATTTCA -ACCCAGTGATGACGCCGGAAGATGAACCAGACTGGAAGAATATGGATAAACGTTATTCTCCAGAGGTTCATCAGCTTTAT -TCAGAGCTGCTTGAACATGACACGTTAGTGGTGGTTTTTCCTCTCTGGTGGTACAGCTTCCCGGCAATGCTAAAAGGATA -TATTGACAGAGTATGGAATAATGGGCTGGCTTATGGAGATGGGCACAAATTACCATTCAATAAAGTTCGTTGGGTGGCGC -TGGTTGGAGGAGACAAAGAATCATTTGTCCAGATGGGCTGGGAAAAAAATATAAGCGATTATTTAAAAAATATGTGCAGT -TATCTTGGTATTGAAGATGCCGATGTCACTTTCTTGTGTAATACAGTGGTATTCGATGGGGAAGAACTTCACGCGAGCTA -TTATCAGTCGTTATTATCTCAGGTACGGGATATGGTAGATGCACTATAAGATGTGTTAAAAACGCTGTAGCAGAATGAAG -CGCGGAATAAAAAAGCGGCAACTCAATAAAGTTGCCGCTTTACGGGGAAATTAGAACATTACCTTATGACCGTACTGCTC -AAGAATGCCTTTCACGCGTTCCATGGTCTCTTTCTTCGGTGGTTTAACACCGTCGAGTTTGTACTCTTCACCCATTGCCA -CCCATTTGTGTTTGCCCAGCTCGTGGTAGGGGAGAAGCTCGATTTTCTCAACGTTGCCCATATCACGGGTAAATTCACCG -AGGCGATGCGCTGAATCGTCATCGTCAGACCAGCCTGGGACAACAACGTAGCGGATCCACACCTTCACATTTTTGTTCGC -CAGATATTTAGCGAACTCCAGCGTGCGGTGGTTGGAAACTCCAACCAGATTTTGGTGGATCTCGTCGTTCATCTGTTTGA -GATCGAGCATTACCAGGTCGGTTACTTCCAGCAGTTCATCAATCACCGGATCGTAACGACGAACAAAACCGTTGGTGTCC -AGACAGGTATGAATGCCTTCTTTTTTGCAGGCGCGGAACCAGTCACGAACAAACTCAGCTTGCAGGATTGCTTCACCGCC -GGATGCGGTAACGCCGCCGCCGGAAGCGTTCATAAAGTGGCGATAGGTCACCACTTCCTTCATCAAATCTTCAACGGTAA -CTTCTTTACCGCCATGCGTGTCCCAGGTGTCGCGGTTATGACAATACAGGCAGCGCATCAGGCAGCCCTGGAAAAAGGTG -ATAAAGCGAATACCTGGGCCGTCTACGGTTCCACAGGATTCAAAGGAGTGAATGCGACCAATAACTGACATTGCGGTGTT -TCTCCAGATGTGGCCCATCTGAGGCCGTGTTGGTGCGCAGCTCGAAGGCTACGTCGAGTCTGTTTTGGCAGTCACCTTAA -AGTATAGATAGCTGACAAAAAAGGCTCTCGCGCTAAAAAAGGCCCCACTTTCGTGGAGCCTTTATTGTACGCTTTTTACT -GTACGATTTCAGTCAAATCTAATTACATAGATTGAGTGAAGGTACGAGTAATAACGTCCTGCTGCTGTTCTTTAGTCAGC -GAGTTGAAACGTACTGCGTAGCCAGATACACGGATGGTCAGCTGCGGATATTTTTCCGGGTTTTCCATCGCGTCGAGCAG -CATTTCACGGTTCATCACGTTAACGTTCAGGTGCTGACCACCTTCGATGGATGCTTCGTGGTGGAAGTAACCATCCATCA -GACCAGCCAGGTTGGTCTTACGAACTTCGTCGTCTTTACCCAGTGCGTTCGGAACGATAGAGAAGGTGTAGGAGATACCA -TCTTTAGCGTAAGCAAACGGCAGTTTAGCAACGGAAGTCAGAGAGGCTACTGCACCTTTCTGGTCACGACCGTGCATCGG -GTTAGCACCCGGTCCGAACGGCGCGCCAGCACGACGACCGTCTGGGGTGTTACCCGTTTTCTTACCATACACAACGTTAG -AAGTGATGGTCAGAACAGACTGAGTCGGGATAGCGTCACGGTAGGTGTGCAGTTTCTGAATTTTCTTCATGAAACGTTCT -ACCAGGTCAACAGCCAGGTCATCTACACGCGGATCATTGTTACCAAACTGCGGGTATTCGCCTTCGATTTCGAAGTCGAT -AGCCAGACCGTCTTCGTCACGAATCGGTTTAACTTTCGCATATTTGATTGCAGACAGGGAGTCAGCAGCAACGGACAGAC -CAGCGATACCACACGCCATGGTGCGGATAACGTCACGGTCGTGCAGCGCCATCAGAGAGGCTTCGTAGCTGTACTTGTCG -TGCATGTAGTGGATGATGTTCAGTGCAGTGATGTACTGTTTAGCCAGCCAGTCCATGAAGTGATCCATGCGCTCCATCAC -TTCATCATAGTTCAGGACATCGCCTTTGATCGGTTCAGACTTCGGACCAACCTGCATTTTCAGTTTTTCGTCAACGCCGC -CGTTGATTGCGTACAGCATGGTTTTCGCCAGGTTTGCACGCGCACCGAAGAACTGCATTTGTTTACCAACGATCATCGGG -CTTACGCAGCAAGCAATAGCGTAGTCATCGTTGTTGAAGTCCGGACGCATCAGGTCATCGTTCTCATACTGCAGAGAAGA -GGTGTCGATGGACACTTTAGCGGCGAATTTCTTGAAGTTCAGCGGCAGTTTTTCAGACCACAGAATGGTCATGTTCGGTT -CCGGAGACGGACCCATGGTGTACAGGGTGTTCAGGAAACGGAAGCTGTTTTTGGTAACCAGGGTACGACCGTCGAGGCCC -ATACCACCGATAGATTCGGTTGCCCAGATCGGGTCGCCAGAGAACAGTTCATCGTATTCCGGAGTACGCAGGAAGCGAAC -CATACGCAGTTTCATGACCAGGTGGTCAACCATTTCCTGCGCTTCTTGTTCGGTGATCTTGCCAGCTTTCAGGTCACGTT -CGATGTACACATCCAGGAAGGTGGAGGTACGACCGAAGGACATTGCAGCACCGTTCTGAGACTTAACAGCAGCCAGGTAG -CCGAAGTAAGTCCACTGGATAGCTTCCTGAGCGTTGGTAGCCGGACCAGAGATGTCGTAGCCGTATTTCGCAGCCATTTC -TTTCATCTGACCCAGAGCGCGGTGCTGTTCAGCGATTTCTTCGCGCAGACGGATAGTCTGTTCCAGGTTTACGCCGTTTT -CCAGATCAGCCTGCAGAGAAGTGAACTGTGCCAGTTTGTCTTTCATCAGGTAGTCGATACCGTACAGCGCAACGCGACGG -TAGTCACCGATGATACGGCCACGGCCATATGCATCTGGCAGACCGGTCAGAACACCAGATTTACGGCAACGCAGGATGTC -CGGAGTGTAAACGTCGAACACGCCCTGGTTGTGAGTTTTACGGTATTCAGTGAAGATTTTTTTGATCATCGGATCCAGTT -CGCGGTTGTACGCTTTGCAGGAACCTTCGATCATTTTGATACCACCGAACGGGATAAGAGCACGTTTCAGCGGAGCTTCA -GTCTGCAGACCAACGATTTTCTCAAGCTGCTTGTTGATGTAGCCAGCGTCGTGAGAGGTGATGGTGGAAGCAACAGCGGT -GTCAAAGTCAACTGGCGCGTGAGTGCGGTTTTCCAGTTTAACGCCTTCCATTACTTTGTCCCACAGGGTGGTGGTCGCTT -CAGTAGCGCCAGCCAGGAAGGACTCGTCACCCTCGTACGGAGTGTAGTTTTTCTGAATGAAGTCACGGACGTTTACTTCA -TTCTGCCAGTCACCTTTGGTAAAACCTTCCCAGGCTGTGGCTAACTTTTCATTAAGCTCGGACATGTAACACCTACCTTC -TTAAGTGGATTTTTTATTTACTGCGTACTTCGACAACCATTAATGGTGGTCGTTTTCACGCAGGTAAATGACCCAGTATG -TCAACCCAACCAACAAACCACCACCGATAATGTTGCCGATCGTAACCGGAATCAGGTTATCAGTGATGAAATTCATCACG -GTCAGGTGAGAAAAATTTTCCGGTGCAGAACCGACTGCGGTCCAAAATTCCGGGGATGCGAAGTCGCGGATTACAATACC -CATCGGGATCATAAACATGTTTGCGATACTGTGCTCAAAACCGCTGGCAACAAACATCGCGACCGGCAGCACCATAATGA -ACGCTTTGTCCATCAGGCTGCGGCCAGAATAACTCATCCATACTGCCAGACATACCATCAGGTTTGCCAGGATACCAAGA -CAGACGGCCTCAATAAAAGTATGGTGCACTTTGTGGTCGGCGGTTTGTAGGACGTTTAGTCCCCATTGACCATTTGCGGT -CATATACTCGCCGGAAAGCCACATTAAAAGTACAAACAGCAGTGCGCCGACCAGGTTGCCAAAATAGACATTTAGCCAGT -TTTTCGCCAACTGACCCCAGGTGATGCGCCCACTCGCCTTAGCAACAACAATCAACACGGTGGAAGTAAAGAGATCGGCT -CCGCAGACAACACAAAGAATCAGCCCCAGAGAGAAGCAAATGCCGCCAACCAGTTTTGCCATGCCGAAGGGCATTGTGCC -TGTGCCAGTGGTTGCTGTGATATAGAAGACGAATGCGATTGAGATGAAAACACCGGCGGTAATCGCCAGATAGAAAGTCT -TAAGCGGATGTTTCGTTGCTTTATAGACACCCGCCTCTTCGGCCACTTTGGCCATTGCAGCAGGAAGTAAAAGATCAAAA -GGGTTGTCAGCTTTCACACTAACTCTCTCTTTATTAAGTCGGCGACGAGATACTAACAAAGCATTATAGATGAGAAATTG -ATATAGATCATATCTCGCCTGGCTTATAGGCCCGTAACTCGCATGGTTTTTATGCAAATACGGAGTAAATATTTGATTAT -CCAAATAAAAATAAATTTTAAAAATTAACAAATGAGTTGAATTTTTTCCGCATCCTCCGCTAAAACAGTTAATTAAAAGG -GAGCATCAGGCGAATAAAGTAACAATATCGATCGTATTTATTAAATACAAATTACCGATATTTAACCTTATAATTACAAT -TATTTTATTAATGCAAATATATGTAAAGCGGGGCATTAAAAAAACGCCCCGTAATATAACTCAGACTAATCATTAAGCCT -ACATTGCGTAGGCTATTTGATTTTATTTTGCCCAGAATGCTGCTTTGGCGCGCTGCAGCTTTTCGTAGGCCTTCAACAAC -GACTGATGTGCAGCAAACGCGTGCAGATCGCTATCTACCGGTTGCAGGCCGTAAAACGCCGCTTCGCCGCTCATTGCCGC -ACTGGCGGCTTCTACGGCATCTGCGCCGTACATGCGAACAAACGCATTCAGATATTGCAGCGGCTGGCGATCTTCTTCCT -GTGCCAGTAATAACAACGTTTGCAGGCAGCGATAATAGTTGGCGCGTTCCGGACTAAATACTGATGAGTTAAACTCCATC -GTCCATTCGGTCCAGACCAGAGCCTGTTCCAGATCGCCACCAGCCAGCGCCAGCATGGCTTTTAATTCACCGATACGCAG -GGTGTACCAACCGTTATCCGACCCGGTCGCCAGACCCAACAGCTCACGCACGCGGGTAAAGTCATCAAAACCTTCTTCAT -CCAGTTGCTCGATGAGGTTCAGGTAATCTTCTTTTTCCCACTCGCTGCCTGGTAGCGAAAGAATCGTTTCACGTAAATGG -CTGCCCATACTGTTATTCGCGAGCCACAGATCTTCAGCCGGATAAATATCGGACATGCCAGGCACGATAATACGGCAAGC -ATAAACGCCCAGATGCTCGTAATCGGCAATATAAACTTCTTTATCTTCTTTGTTGAAGATAGCCATCAGTGTGGCGAACT -CTTCTTCCGTGGTGCCGGAGAAATTCCAGTCCACAAACGGATAATCGGCATCCTGCTTGAACAGGTCCCAGGAGATTAAA -CCGCTGGAATCGATAAAGTGCGTTTCGAGGTTGGTATGTTCAGCGACTTCTTCATCATCGAAGGTTGGCGGAGTAAACAC -ATCCAAATCTTTCAGGCCACGACCTTGCAGCAGCTCGGTCACGGTACGTTCCAGTGCTACGCCAAAATCAGGATGCGCAC -CGAAAGAGGCAAAGCAGGTACCGTTAGCAGGATTGAACAGTACCACGCAAATCACCGGATACTGGCCGCCAAGCGAACCG -TCATAAGCGAAGATTGGGAAACCCTCCGCTTCCAGCGTTTCGATGGCTTCAACTACTGCTGGGTAACGCGCCAGCACGTC -TGCCGGGATCTCTGGCAGGCTGATGCTTTCAGCAATAATGCGGTTTTTCACGTAGCGTTCGAAAACTTCAGACAATCCCT -GAACGCGTGCTTCGTTGCGGGTATTACCTGCGGACATACCGTTGGAGACGTACAGGTTACCAATGATATTCATCGGAATA -TAAACGGTCTGATTGTCGGACTGACGCGTAAACGGCAGGCCGCAAATACCACGATCTTCGTTACCGGATTGTAGGTCAAT -CAGCATGCTGCCGGTCAGTTCATTCTCCGGATCATAAAACGCGCGCAGACGGTCATCGAGCAGCCCTTCTGGCACATCGT -CATTTTCGGTCAGTGGGAACCATTTTTCGTTGGGATAATGCACGAACGGACCGTTGGCGATGGTTTCGCCCAGCCAGAAG -TCCGCAAAAAAGTAGTTGGTTGAGAGACGCTCGAAATATTCACCGAGTGCAGAAGCCAGCGCCGCTTTCTTGGTTGCGCC -TTTACCGTTGGTAAAACACAGTGCGCACTCTTTGTCGCGAATATGTACAGACCAGACGTTAGGCACGGGATTCAGCCAGG -AGGCCTCTTCAATCTGAAAGCCGAGGTCTGAAAGTTTTTGCTGGAAGCGAGCGATGGAATCTTCCAGAGCGGCATCTTTG -CCGGGGATAAATGTTTGCGTCATGAAAATCACTTTAGTCGTACGGAAAGCGCGCAATAATACGGGTTTTATCTCAAAGGC -GCTATCACCGCCGCCATGCCGATGAACTGTTGACTATGCTTTTAGCGGATAAACCACGTTAAGAGCATAAAAATGAAGGC -GTTCGATCTCCACCGTATGGCATTTGATAAAGTGCCTTTTGATTTCCTTGGCGAAGTTGCACTACGTAGTCTTTATACCT -TTGTACTGGTCTTTTTGTTCCTCAAAATGACCGGAAGACGCGGTGTGCGGCAGATGTCGCTGTTTGAAGTTTTAATCATT -CTGACGCTGGGATCAGCGGCGGGAGATGTGGCGTTTTATGATGATGTGCCGATGGTCCCGGTACTTATCGTCTTTATTAC -TCTGGCGTTGTTATACCGCCTGGTAATGTGGTTGATGGCGCACAGTGAAAAACTGGAAGATCTTCTGGAAGGCAAGCCAG -TTGTCATTATTGAAGATGGCGAGCTGGCCTGGTCGAAACTCAATAACTCCAACATGACGGAATTTGAGTTCTTTATGGAG -CTACGATTGCGTGGCGTGGAGCAGCTGGGGCAGGTACGTCTGGCGATTCTCGAAACCAACGGGCAAATCAGTGTCTATTT -CTTTGAAGATGACAAGGTGAAACCGGGTTTACTTATTTTACCCAGTGATTGTACGCAGCGTTACAAAGTGGTGCCGGAGT -CGGCGGACTATGCCTGTATTCGTTGTAGTGAAATCATTCATATGAAAGCGGGGGAAAAACAATTATGTCCGCGCTGTGCA -AATCCAGAATGGACGAAGGCAAGTCGGGCAAAACGGGTGACCTGACAGTAAAAACATCGGCTTTTTGCTAATAATCCGAG -AGATTCTTTTGTGTGATGCAAGCCACATTTTTGCCCTCAACGGTTTTACTCATTGCGATGTGTGTCACTGAATGATAAAA -CCGATAGCCACAGGAATAATGTATTACCTGTGGTCGCAATCGATTGACCGCGGGTTAATAGCAACGCAACGTGGTGAGGG -GAAATGGCTCAAATCTTCAATTTTAGTTCTGGTCCGGCAATGCTACCGGCAGAGGTGCTTAAACAGGCTCAACAGGAACT -GCGCGACTGGAACGGTCTTGGTACGTCGGTGATGGAAGTGAGTCACCGTGGCAAAGAGTTCATTCAGGTTGCAGAGGAAG -CCGAGAAGGATTTTCGCGATCTTCTTAATGTCCCCTCCAACTACAAGGTATTATTCTGCCATGGCGGTGGTCGCGGTCAG -TTTGCTGCGGTACCGCTGAATATTCTCGGTGATAAAACCACCGCAGATTATGTTGATGCCGGTTACTGGGCGGCAAGTGC -CATTAAAGAAGCGAAAAAATACTGCACGCCTAATGTCTTTGACGCCAAAGTGACTGTTGATGGTCTGCGCGCGGTTAAGC -CAATGCGTGAATGGCAACTCTCTGATAATGCTGCTTATATGCATTATTGCCCGAATGAAACCATCGATGGTATCGCCATC -GACGAAACGCCAGACTTCGGCGCAGATGTGGTGGTCGCCGCTGACTTCTCTTCAACCATTCTTTCCCGTCCGATTGACGT -CAGCCGTTATGGTGTAATTTACGCTGGCGCGCAGAAAAATATCGGCCCGGCTGGCCTGACAATCGTCATCGTTCGTGAAG -ATTTGCTGGGCAAAGCGAATATCGCGTGTCCGTCGATTCTGGATTATTCCATCCTCAACGATAACGGCTCCATGTTTAAC -ACGCCGCCGACATTTGCCTGGTATCTATCTGGTCTGGTCTTTAAATGGCTGAAAGCGAACGGCGGTGTAGCTGAAATGGA -TAAAATCAATCAGCAAAAAGCAGAACTGCTATATGGGGTGATTGATAACAGCGATTTCTACCGCAATGACGTGGCGAAAG -CTAACCGTTCGCGGATGAACGTGCCGTTCCAGTTGGCGGACAGTGCGCTTGACAAATTGTTCCTTGAAGAGTCTTTTGCT -GCTGGCCTTCATGCACTGAAAGGTCACCGTGTGGTCGGCGGAATGCGCGCTTCTATTTATAACGCCATGCCGCTGGAAGG -CGTTAAAGCGCTGACAGACTTCATGGTTGAGTTCGAACGCCGTCACGGTTAATGCCGAAATTTTGCTTAATCCCCACAGC -CAGCCTGTGGGGTTTTTATTTCTGTTGTAGAGAGTTGAGTTCATGGAATCCCTGACGTTACAACCCATCGCTCGTGTCGA -TGGCACTATTAATCTGCCCGGTTCCAAGAGCGTTTCTAACCGCGCTTTATTGCTGGCGGCATTAGCACACGGCAAAACAG -TATTAACCAATCTGCTGGATAGCGATGACGTGCGCCATATGCTGAATGCATTAACAGCGTTAGGGGTAAGCTATACGCTT -TCAGCCGATCGTACGCGTTGCGAAATTATCGGTAACGGCGGTCCATTACACGCAGAAGGTGCCCTGGAGTTGTTCCTCGG -TAACGCCGGAACGGCAATGCGTCCGCTGGCGGCAGCTCTTTGTCTGGGTAGCAATGATATTGTGCTGACCGGTGAGCCGC -GTATGAAAGAACGCCCGATTGGTCATCTGGTGGATGCGCTGCGCCTGGGCGGGGCGAAGATCACTTACCTGGAACAAGAA -AATTATCCGCCGTTGCGTTTACAGGGCGGCTTTACTGGCGGCAACGTTGACGTTGATGGCTCCGTTTCCAGCCAATTCCT -CACCGCACTGTTAATGACTGCGCCTCTTGCGCCGGAAGATACGGTGATTCGTATTAAAGGCGATCTGGTTTCTAAACCTT -ATATCGACATCACACTCAATCTGATGAAGACGTTTGGTGTTGAAATTGAAAATCAGCACTATCAACAATTTGTCGTAAAA -GGCGGGCAGTCTTATCAGTCTCCGGGTACTTATTTGGTCGAAGGCGATGCATCTTCGGCTTCTTACTTTCTGGCAGCAGC -AGCAATCAAAGGCGGCACTGTAAAAGTGACCGGTATTGGACGTAACAGTATGCAGGGTGATATTCGCTTTGCTGATGTGC -TGGAAAAAATGGGCGCGACCATTTGCTGGGGCGATGATTATATTTCCTGCACGCGTGGTGAACTGAACGCTATTGATATG -GATATGAACCATATTCCTGATGCGGCGATGACCATTGCCACGGCGGCGTTATTTGCAAAAGGCACCACCACGCTGCGCAA -TATCTATAACTGGCGTGTTAAAGAGACCGATCGCCTGTTTGCGATGGCAACAGAACTGCGTAAAGTCGGCGCGGAAGTGG -AAGAGGGGCACGATTACATTCGTATCACTCCTCCGGAAAAACTGAACTTTGCCGAGATCGCGACATACAATGATCACCGG -ATGGCGATGTGTTTCTCGCTGGTGGCGTTGTCAGATACACCAGTGACGATTCTTGATCCCAAATGCACGGCCAAAACATT -TCCGGATTATTTCGAGCAGCTGGCGCGGATTAGCCAGGCAGCCTGAATGAACAACGGGCAATAAATAGCCAAATCTTTCT -TTATCAAAACGTCGGCACATTGTCGGCGTTTTTTTTCGGACCTTGTGAGTCATTTTGATTAATGGTAGCGTCGCTTGTCA -ATGTAAGTTGTTGATACATAATATTTATATATGATTAATCAACGGATGATTCACATGAAGAATACTAAATTACTGCTGGC -GATTGCGACCTCTGCAGCATTACTGACAGGGTGTCAAAATACCCACGGTATTGATACCAATATGGCTATCAGCTCCGGTT -TAAATGCCTATAAAGCAGCAACATTAAGCGATGCCGATGCAAAAGCGATTGCCAATCAGGGCTGTGCCGAAATGGACAGC -GGCAATCAAGTCGCAAGTAAATCCAGCAAGTACGGTAAACGTCTGGCAAAAATCGCCAAAGCATTGGGTAACAATATTAA -TGGCACGCCGGTCAACTATAAGGTTTATATGACCAGCGACGTCAACGCATGGGCGATGGCGAACGGCTGTGTTCGTGTCT -ACAGTGGCCTGATGGACATGATGAATGACAACGAAATTGAAGGCGTTCTGGGCCATGAACTGGGCCACGTCGCGTTGGGT -CACTCGCTGGCTGAAATGAAAGCTTCTTATGCGATCGTTGCCGCACGCGATGCCATTTCAGCTACCAGCGGTGTGGCTTC -CCAGCTTTCCCGCTCACAATTAGGTGATATCGCAGAAGGCGCTATCAATGCTAAATACTCCCGTGATAAAGAGTCCGAAG -CAGATGATTTCTCCTTTGATCTGTTGAAGAAACGTGGCATCAGCACCCAGGGGCTGGTTGGCAGCTTTGAAACACTGGCT -AGCCTGGATGGCGGTCGCACCCAGTCCATGTTTGACTCTCACCCACCATCAACAGAGCGTGCGCAACACATCCGTGATCG -TATCGCCTCTGGTAAGTAAATCATTGTCATCTTTCGGGCTGGTCTTCTGCCAGCCCGCTATAATTGCGCAATAAATCCCC -ATCTGAATACAGACAAAACTGGTTTTTGCACACAACGTTAACGATTTGTGGCGTCGGCGCGTATAATGCGCGCGGTTATG -TTAACGGTACGCCTGTTTTAAGGAGATAAAGATGACGGCAATTGCCCCGGTTATTACCATTGATGGCCCAAGCGGTGCAG -GGAAAGGCACCTTGTGTAAGGCTATGGCGGAAGCGTTGCAATGGCATCTGCTGGACTCGGGTGCAATTTATCGCGTACTG -GCATTGGCGGCATTACATCACCATGTTGATGTTGCGTCGGAAGATGCGCTGGTACCGCTGGCATCCCATCTGGATGTACG -TTTTGTGTCGACCAATGGCAATCTGGAAGTGATCCTCGAAGGGGAAGATGTCAGCGGCGAAATTCGTACTCAGGAAGTGG -CGAATGCAGCTTCACAAGTCGCGGCATTCCCACGCGTTCGTGAAGCATTATTGCGTCGCCAACGCGCGTTTCGCGAATTA -CCAGGTCTGATTGCCGATGGCCGCGACATGGGAACGGTGGTATTCCCTGATGCACCAGTGAAAATTTTCCTTGACGCCTC -CTCGGAAGAACGTGCGCATCGCCGCATGCTACAGTTGCAGGAGAAGGGCTTTAGTGTTAACTTTGAGCGCCTTTTGGCCG -AGATCAAAGAACGCGACGACCGCGATCGTAACCGAGCGGTAGCGCCACTGGTTCCGGCAGCCGATGCTTTAGTGTTGGAT -TCCACCACCTTAAGCATTGAGCAAGTGATTGAAAAAGCGCTACAATACGCGCGCCAGAAATTGGCTCTCGCATAAGCGAC -CGAATTTGCAGTACCCCCGTTGCAATGGAATGACAGCGGGTATGTTAAACAACCCCATCCGGCATGGAGCCAGGTGGACG -TTAAATATAAACCTGAAGATTAAACATGACTGAATCTTTTGCTCAACTCTTTGAAGAGTCCTTAAAAGAAATCGAAACCC -GCCCGGGTTCTATCGTTCGTGGCGTTGTTGTTGCTATCGACAAAGACGTAGTACTGGTTGACGCTGGTCTGAAATCTGAG -TCCGCCATCCCGGCTGAGCAGTTCAAAAACGCCCAGGGCGAGCTGGAAATCCAGGTAGGTGACGAAGTTGACGTTGCTCT -GGACGCAGTAGAAGACGGCTTCGGTGAAACTCTGCTGTCCCGTGAGAAAGCTAAACGTCACGAAGCCTGGATCACGCTGG -AAAAAGCTTACGAAGATGCTGAAACTGTTACCGGTGTTATCAACGGCAAAGTTAAGGGCGGCTTCACTGTTGAGCTGAAC -GGTATTCGTGCGTTCCTGCCAGGTTCTCTGGTAGACGTTCGTCCGGTGCGTGACACTCTGCACCTGGAAGGCAAAGAGCT -TGAATTTAAAGTAATCAAGCTGGATCAGAAGCGCAACAACGTTGTTGTTTCTCGTCGTGCCGTTATCGAATCCGAAAACA -GCGCAGAGCGCGATCAGCTGCTGGAAAACCTGCAGGAAGGCATGGAAGTTAAAGGTATCGTTAAGAACCTCACTGACTAC -GGTGCATTCGTTGATCTGGGCGGCGTTGACGGCCTGCTGCACATCACTGACATGGCCTGGAAACGCGTTAAGCATCCGAG -CGAAATCGTCAACGTGGGCGACGAAATCACTGTTAAAGTGCTGAAGTTCGACCGCGAACGTACCCGTGTATCCCTGGGCC -TGAAACAGCTGGGCGAAGATCCGTGGGTAGCTATCGCTAAACGTTATCCGGAAGGTACCAAACTGACTGGTCGCGTGACC -AACCTGACCGACTACGGCTGCTTCGTTGAAATCGAAGAAGGCGTTGAAGGCCTGGTACACGTTTCCGAAATGGACTGGAC -CAACAAAAACATCCACCCGTCCAAAGTTGTTAACGTTGGCGATGTAGTGGAAGTTATGGTTCTGGATATCGACGAAGAAC -GTCGTCGTATCTCCCTGGGTCTGAAACAGTGCAAAGCTAACCCGTGGCAGCAGTTCGCGGAAACCCACAACAAGGGCGAC -CGTGTTGAAGGTAAAATCAAGTCTATCACTGACTTCGGTATCTTCATCGGCTTGGACGGCGGCATCGACGGCCTGGTTCA -CCTGTCTGACATCTCCTGGAACGTTGCAGGCGAAGAAGCAGTTCGTGAATACAAAAAAGGCGACGAAATCGCTGCAGTTG -TTCTGCAGGTTGACGCAGAACGTGAACGTATCTCCCTGGGCGTTAAACAGCTCGCAGAAGATCCGTTCAACAACTGGGTT -GCTCTGAACAAGAAAGGCGCTATCGTAACCGGTAAAGTAACTGCAGTTGACGCTAAAGGCGCAACCGTAGAACTGGCTGA -CGGCGTTGAAGGTTACCTGCGTGCTTCTGAAGCATCCCGTGACCGCGTTGAAGACGCTACCCTGGTTCTGAGCGTTGGCG -ACGAAGTTGAAGCTAAATTCACCGGCGTTGATCGTAAAAACCGCGCAATCAGCCTGTCTGTTCGTGCGAAAGACGAAGCT -GACGAGAAAGATGCAATCGCAACTGTTAACAAACAGGAAGATGCAAACTTCTCCAACAACGCAATGGCTGAAGCTTTCAA -AGCAGCTAAAGGCGAGTAATTCTCTGACTCTTCGGGATTTTTATTCCGAAGTTTGTTGAGTTTACTTGACAGATTGCAGG -TTTCGTCCTGTAATCAAGCACTAAGGGCGGCTACGGCCGCCCTTAATCAATGCAGCAACAGCAGCCGCTTAATTTGCCTT -TAAGGAACCGGAGGAATCATGACCAAGTCAGAATTGATAGAAAGACTTGCCACCCAGCAATCGCACATTCCCGCCAAGAC -GGTTGAAGATGCAGTAAAAGAGATGCTGGAGCATATGGCCTCGACTCTTGCGCAGGGCGAGCGTATTGAAATCCGCGGTT -TCGGCAGTTTCTCTTTGCACTACCGCGCACCACGTACCGGACGTAATCCGAAGACTGGCGATAAAGTAGAACTGGAAGGA -AAATACGTTCCTCACTTTAAACCTGGTAAAGAACTGCGCGATCGCGCCAATATTTACGGTTAAGTTTTTTACTCAAACTT -GAACGAGAGAAAAGCACCTGTCGGGTGCTTTTTTCATTTCTCTAATCTGGAACTGGAAGCTGCCTCGCAGAGTTTTGAAC -AGTTTTCACCCTTTCGTTAAATTCTTCTGAATATGCCTCGGGGAACGCAAAATTCCCACCAGACAACCGCTCAACAAAGT -TGCACACTTTCCATAAACAGGGAGGGGTGCATGAAAATAACGACAGTCGGTGTATGCATAATTAGCGGAATTTTTCCGTT -GCTGATTTTGCCCCAATTGCCTGGGACATTAACCCTTGCGTTTCTGACTCTCTTCGCCTGCGTACTGGCATTTATCCCTG -TTAAAACCGTCCGTTATATCGCGCTGACGTTGCTGTTTTTCGTTTGGGGCATATTATCAGCAAAGCAAATTTTGTGGGCA -GGAGAAACCTTAACTGGCGCGACGCAGGATGCAATTGTTGAGATCACTGCAACTGACGGCATGACCACTCATTACGGTCA -AATTACTCATCTACAAGGTCGACGTATATTCCCTGCGTCAGGTCTCGTGATGTATGGCGAATATCTTCCGCAAGCGGTTT -GTGCTGGACAACAATGGTCAATGAAACTCAAAGTTCGTGCAGTTCATGGCCAACTTAATGATGGCGGCTTTGATAGCCAG -CGTTATGCCATTGCCCAGCATCAGCCGCTCACCGGCCGTTTTCTGCAGGCAAGTGTCATTGAACCGAATTGTAGCCTGCG -TGCACAGTATCTGGCGTCACTACAAACAACGCTGCAACCCTATCCGTGGAATGCGGTTATTCTTGGTTTAGGTATGGGGG -AACGGTTATCCGTCCCCAAAGAAATCAAAAATATCATGCGCGATACTGGAACGGCGCATTTAATGGCGATATCGGGATTG -CACATCGCTTTTGCGGCGTTGCTGGCTGCCGGACTCATTCGCAGTGGACAAATTTTTCTGCCTGGGCGCTGGATCCACTG -GCAAATACCATTAATTGGCGGAATCTGCTGTGCTGCTTTTTATGCCTGGTTGACGGGAATGCAACCTCCTGCATTGCGTA -CCATGGTGGCGCTTGCTACGTGGGGAATGCTTAAGTTAAGTGGGCGACAGTGGAGTGGCTGGGATGTATGGATATGTTGT -CTGGCGGCAATTTTGCTGATGGATCCTGTTGCCATTCTCTCGCAAAGTTTATGGCTCTCTGCCGCTGCGGTCGCGGCATT -GATATTTTGGTATCAGTGGTTTCCCTGTCCTGAGTGGCAACTGCCGCCGGTATTGCGTGCAGTTGTTTCCCTCATCCATC -TGCAACTGGGAATCACACTTCTGCTTATGCCCGTGCAAATCGTCATATTTCATGGCATTAGTCTGACCTCGTTTATTGCA -AATCTATTAGCAATTCCCTTGGTGACATTTATCACGGTTCCGTTGATCCTCGCCGCGATGGTTGTGCATTTAAGCGGGCC -GTTAATCCTGGAGCAAGGGTTATGGTTTCTTGCCGACCGGTCTTTGGCTTTACTTTTCTGGGGGTTAAAGAGTTTGCCGG -AAGGGTGGATCAACATTGCTGAATGTTGGCAATGGCTATCATTTTCCCCATGGTTCTTACTGGTGGTATGGCGATTAAAC -GCCTGGCGAACGTTGCCAGCAATGTGTGTGGCTGGAGGCTTGCTGATGTGCTGGCCGCTGTGGCAAAAACCTCGACCTGA -CGAGTGGCAGCTGTACATGCTTGATGTCGGGCAAGGGCTGGCAATGGTGATAGCCAGAAACGGCAAAGCGATTCTCTATG -ACACAGGACTGGCCTGGCCTGAAGGGGATAGTGGGCAACAACTGATTATCCCCTGGCTCCACTGGCATAATCTTGAACCG -GAAGGCGTTATTCTGAGCCATGAACATCTGGATCACCGGGGAGGGCTGGATTCAATATTGCATATATGGCCGATGTTATG -GATCAGAAGTCCGTTAAACTGGGAACATCATCAGCCCTGTGTGCGTGGCGAAGCGTGGCAATGGCAAGGATTGCGTTTCA -GCGCGCACTGGCCTTTACAAGGTAGCAACGATAAAGGAAATAACCATTCCTGTGTGGTTAAGGTTGATGACGGGACGAAT -AGCATTCTTCTAACCGGTGATATTGAAGCCCCAGCTGAACAAAAGATGCTAAGCCGTTACTGGCAGCAAGTGCAGGCAAC -ATTGCTTCAGGTACCTCACCATGGCAGTAATACCTCATCATCGTTGCCATTAATTCAGCGAGTGAATGGAAAAGTGGCAC -TCGCATCGGCATCGCGCTATAACGCATGGCGACTGCCCTCTAACAAAGTTAAGCATCGCTATCAACTGCAAGGATATCAA -TGGATTGATACTCCACATCAAGGTCAAACAACGGTCAATTTTTCAGCGCAAGGCTGGCGGATTAGCAGCCTCAGGGAGCA -AATTTTACCTCGTTGGTATCATCAGTGGTTTGGCGTGCCAGTGGATAACGGGTAGAATATGCGGCTATTTCAACAAATGC -TGGTTTTTTGAATGCATAACGACAAAGATCTCTCTACGTGGCAGACATTCCGCCGACTGTGGCCAACCATTGCGCCTTTC -AAAGCGGGTCTGATCGTGGCGGGCGTAGCGTTAATCCTCAACGCAGCCAGCGATACCTTCATGTTATCGCTCCTTAAGCC -ACTTCTTGATGATGGCTTTGGTAAAACAGATCGCTCCGTGCTGGTGTGGATGCCGCTGGTGGTGATCGGGCTGATGATTT -TACGTGGTATCACCAGCTATGTCTCCAGCTACTGTATCTCCTGGGTATCAGGAAAGGTGGTAATGACCATGCGTCGCCGC -CTGTTTGGTCACATGATGGGAATGCCAGTTTCATTCTTTGACAAACAGTCAACGGGTACGCTGTTGTCACGTATTACCTA -CGATTCCGAACAGGTTGCTTCTTCTTCTTCCGGCGCACTGATTACTGTTGTGCGTGAAGGTGCGTCGATCATCGGCCTGT -TCATCATGATGTTCTATTACAGTTGGCAACTGTCGATCATTTTGATTGTGCTGGCACCGATTGTTTCGATTGCGATTCGC -GTTGTATCGAAGCGTTTTCGCAACATCAGTAAAAACATGCAGAACACCATGGGGCAGGTGACCACCAGCGCAGAACAAAT -GCTGAAGGGCCACAAAGAAGTATTGATTTTCGGTGGTCAGGAAGTGGAAACGAAACGCTTTGATAAAGTCAGCAACCGAA -TGCGTCTTCAGGGGATGAAAATGGTTTCAGCCTCTTCCATCTCTGATCCGATCATTCAGCTGATCGCCTCTTTGGCGCTG -GCGTTTGTTCTGTATGCGGCGAGCTTCCCAAGTGTCATGGATAGCCTGACTGCCGGTACGATTACCGTTGTTTTCTCTTC -AATGATTGCACTGATGCGTCCGCTGAAATCGCTGACCAACGTTAACGCCCAGTTCCAGCGCGGTATGGCGGCTTGTCAGA -CGCTGTTTACCATTCTGGACAGTGAGCAGGAGAAAGATGAAGGTAAGCGCGTGATCGAGCGTGCGACTGGCGACGTGGAA -TTCCGCAATGTCACCTTTACTTATCCGGGACGTGACGTACCTGCATTGCGTAACATCAACCTGAAAATTCCGGCAGGGAA -GACGGTTGCTCTGGTTGGACGCTCTGGTTCGGGTAAATCAACCATCGCCAGCCTGATCACGCGTTTTTACGATATTGATG -AAGGCGAAATCCTGATGGATGGTCACGATCTGCGCGAGTATACCCTGGCGTCGTTACGTAACCAGGTTGCTCTGGTGTCG -CAGAATGTCCATCTGTTTAACGATACGGTTGCTAACAACATTGCTTACGCACGGACTGAACAGTACAGCCGTGAGCAAAT -TGAAGAAGCGGCGCGTATGGCCTACGCCATGGACTTCATCAATAAGATGGATAACGGTCTCGATACAGTGATTGGTGAAA -ACGGCGTGCTGCTCTCTGGCGGTCAGCGTCAGCGTATTGCTATCGCTCGAGCCTTGTTGCGTGATAGCCCGATTCTGATT -CTGGACGAAGCTACCTCGGCTCTGGATACCGAATCCGAACGTGCGATTCAGGCGGCACTGGATGAGTTGCAGAAAAACCG -TACCTCTCTGGTGATTGCCCACCGCTTGTCTACCATTGAAAAGGCAGACGAAATCGTGGTCGTCGAGGATGGTGTCATTG -TGGAACGCGGTACGCATAACGATTTGCTTGAGCACCGCGGCGTTTACGCGCAACTTCACAAAATGCAGTTTGGCCAATGA -TCGAAAAAATCTGGTCTGGTGAATCCCCTTTGTGGCGGCTATTGCTGCCACTCTCCTGGTTGTATGGCCTGGTGAGTGGC -GCGATCCGTCTTTGCTATAAACTAAAACTGAAGCGCGCCTGGCGTGCCCCCGTACCGGTTGTCGTGGTTGGTAATCTCAC -CGCAGGCGGCAACGGAAAAACCCCGGTCGTTGTCTGGCTGGTGGAACAGTTGCAACAGCGCGGTATTCGCGTGGGGGTCG -TATCGCGGGGATATGGTGGTAAGGCTGAATCTTATCCGCTGTTATTGTCGGCAGATACCACAACAGCACAGGCGGGTGAT -GAACCTGTGTTGATTTATCAACGCACTGATGCGCCTGTTGCGGTTTCTCCCGTTCGTTCTGATGCGGTAAAAGCCATTCT -GGCGCAACACCCTGATGTGCAGATCATCGTAACCGACGACGGTTTACAGCATTACCGTCTGGCGCGTAATGTGGAAATTG -TCGTTATTGATGGTGTGCGTCGCTTTGGCAATGGCTGGTGGTTGCCGGCGGGGCCAATGCGTGAGCGAGCGGGGCGCTTA -AAGTCGGTTGATGCGGTAATCGTCAACGGCGGTGTCCCTCGCAGCGGTGAAATCCCCATGCATCTGCTGCCGGGTCAGGC -GGTGAATTTACGTACCGGTACGCGTTGTGACGTTGCTCAGCTTGAACATGTAGTGGCGATGGCGGGGATTGGGCATCCGC -CGCGCTTTTTTGCCACGCTGAAGATGTGTGGCGTACAACCGGAAAAATGTGTACCGCTGGCCGATCATCAGTCTTTGAAC -CATGCGGATGTCAGTGCGTTGGTAAGCGCCGGGCAAACGCTGGTAATGACTGAAAAAGATGCGGTGAAATGCCGGGCCTT -TGCAGAAGAAAATTGGTGGTATTTGCCTGTAGACGCACAGCTTTCAGGTGATGAACCAGCGAAACTGCTTACGCAACTAA -CCTTGCTGGCTTCTGGCAACTAGTTACGCCGCGGCAGCGTTCGATTGATGGAGTCATGAATGTCGCTGCCGCACCTCTCC -CTTGCTGATGCGCGTAATCTTCACCTTGCCGCACAAGGCCTGTTAAACAAACCCCGCCGTCGAGCGTCGTTGGAGGATAT -TCCGGCAACGATCTCCCGCATGTCCTTGCTGCAAATCGATACCATCAATATTGTTGCCCGTAGTCCATATCTGGTGCTTT -TCAGTCGTCTGGGAAATTATCCTGCCCAGTGGCTGGATGAGTCTCTGGCGCGTGGCGAATTAATGGAATACTGGGCGCAT -GAAGCCTGCTTTATGCCGCGTAGCGACTTTCGTCTTATTCGCCACCGCATGCTGGCACCTGAAAAAATGGGCTGGAAATA -CAAAGACGCCTGGATGCAGGAACATGAGGCGGAAATTGCACAGTTAATTCAGCATATTCATGATAAGGGGCCGGTACGTT -CAGCCGATTTTGAGCATCCTCGTAAAGGTGCAAGCGGCTGGTGGGAATGGAAGCCGCATAAACGGCATCTGGAAGGTTTA -TTTACTGCCGGAAAGGTGATGGTGATTGAACGGCGCAACTTCCAGCGCGTTTATGATTTAACCCACCGTGTCATGCCTGA -CTGGGATGATGAGCGCGATCTCGTTTCGCAAACAGAAGCAGAAATCATCATGCTGGATAACAGTGCGCGTAGCCTGGGAA -TATTCCGCGAACAGTGGCTGGCAGATTACTATCGGCTGAAACGTCCGGCACTGGCGGCGTGGCGCGAAGCGAGGGCTGAA -CAGCAGCAAATCATTGCTGTGCATGTTGAAAAATTGGGCAATCTTTGGCTGCATGATGATTTGCTGCCGCTACTCGAGCG -AGCGCTGGCCGGAAAGCTCACTGCAACGCACAGCGCGGTACTTTCGCCTTTTGATCCTGTTGTCTGGGATCGCAAACGCG -CAGAGCAGCTTTTTGATTTTAGCTACCGGCTGGAGTGCTATACCCCAGCGCCGAAACGCCAGTATGGCTATTTTGTTCTG -CCGTTATTACATCGTGGGCAATTAGTTGGGCGAATGGATGCCAAAATGCATCGCCAGACAGGCATCCTTGAAGTTATCTC -TCTGTGGTTACAGGAAGGTATTAAACCAACGACAACGCTGCAAAAAGGGCTACGTCAGGCGATTACTGATTTCGCTAACT -GGCAGCAGGCAACGCGGGTGACATTAGGATGCTGCCCGCAAGGCCTCTTTACTGATTGCCGCACCGGCTGGGAAATAGAC -CCCGTCGCATAAATGATTATGATAAGATTTATGCATTCATAACCCGATCCATCTGGAGGAACTATGGATCATCGTCTGCT -TGAAATCATTGCCTGCCCGGTTTGCAACGGAAAACTTTGGTATAACCAGGAAAAACAAGAGCTTATTTGCAAACTGGACA -ACCTCGCTTTCCCGCTGCGTGATGGCATTCCAGTGTTGCTGGAAACGGAAGCCCGCGTGCTGACTGCTGATGAGAGTAAA -TCATGAGTTTTGTGGTCATTATTCCCGCGCGCTACGCGTCCACGCGTCTGCCCGGTAAACCATTGGTTGATATTAACGGC -AAACCCATGATTGTTCATGTTCTTGAACGCGCGCGTGAATCAGGTGCCGAGCGCATCATCGTGGCAACCGATCATGAGGA -TGTTGCCCGCGCCGTTGAAGCCGCTGGCGGTGAAGTATGTATGACGCGCGCCGATCATCAGTCAGGAACAGAACGTCTGG -CGGAAGTTGTCGAAAAATGCGCATTCAGCGACGACACGGTGATCGTTAATGTGCAGGGTGATGAACCGATGATCCCTGCG -ACAATCATTCGTCAGGTTGCTGATAACCTCGCTCAGCGTCAGGTGGGTATGGCGACTCTGGCGGTGCCAATCCACAATGC -GGAAGAAGCGTTTAACCCGAATGCGGTGAAAGTGGTTCTCGACGCTGAAGGGTATGCACTGTACTTCTCTCGCGCCACCA -TTCCTTGGGATCGTGATCGTTTTGCAGAAGGCCTTGAAACCGTTGGCGATAACTTCCTGCGTCATCTTGGTATTTATGGC -TACCGTGCAGGCTTTATCCGTCGTTACGTCAACTGGCAGCCAAGTCCGTTAGAACACATCGAAATGTTAGAGCAGCTTCG -TGTTCTGTGGTACGGCGAAAAAATCCATGTTGCTGTTGCTCAGGAAGTTCCTGGCACAGGTGTGGATACCCCTGAAGATC -TTGAGCGCGTTCGCGCTGAAATGCGCTAATTTCACTTCACGACACTTCAGCCAATTTTGGGAGGAGTGTCGTACCGTTAC -GATTTTCCTCAATTTTTCTTTTCAACAATTGATCTCATTCAGGTGACATCTTTTATATTGGCGCTCATTATGAAAGCAGT -AGCTTTTATGAGGGTAATCTGAATGGAACAGCTGCGTGCCGAATTAAGCCATTTACTGGGCGAAAAACTCAGTCGTATTG -AGTGCGTCAATGAAAAAGCGGATACGGCGTTGTGGGCTTTGTATGACAGCCAGGGAAACCCAATGCCGTTAATGGCAAGA -AGCTTTAGTACGCCCGGAAAAGCCCGACAACTGGCATGGAAAACCACCATGCTGGCAAGAAGTGGGACTGTCCGTATGCC -GACTATTTATGGTGTGATGACGCATGAAGAACACCCCGGCCCCGATGTCCTGCTACTGGAGCGGATGCGTGGTGTTTCGG -TGGAGGCACCAGCCCGAACACCAGAACGCTGGGAACAACTCAAAGACCAAATCGTTGAAGCCTTACTGGCCTGGCACCGT -CAGGACAGTCGCGGTTGCGTCGGCGCGGTCGACAATACTCAGGAAAATTTCTGGCCCTCATGGTACCGGCAACATGTTGA -AGTGCTATGGACCACGCTCAATCAGTTCAATAACACCGGTCTGACGATGCAGGATAAGCGGATCCTGTTTCGCACTCGCG -AATGTCTCCCGGCATTATTTGAAGGCTTTAACGACAATTGTGTGCTGATTCACGGTAACTTCTGTTTACGCAGCATGTTG -AAAGATTCGCGCAGCGATCAGTTACTGGCGATGGTCGGGCCGGGACTAATGCTTTGGGCACCGCGAGAATACGAACTGTT -CCGACTAATGGATAATTCTCTGGCGGAAGATTTGCTCTGGAGTTACCTGCAACGCGCGCCAGTGGCGGAGTCGTTCATCT -GGCGGCGTTGGTTGTATGTGTTATGGGATGAAGTTGCGCAACTGGTTAATACCGGACGATTTAGTCGGCGCAACTTCGAT -CTGGCATCAAAATCACTCTTGCCGTGGCTCGCCTGACGAACCTTTTAGCCACTGCCAGATACGGCCAAGCGTTTCATAGC -CAACACGATCGCTATGCATCAACCAGACCGGAGAAGGGATTGCCCGTTCCCACGGGTTAAGCGGCGAGTCGATGGCCAAC -TGATTCGCCGGGGCTGGTAGCGGATTTAACCCTTCCTGCTGAAAAAAGATCATCGCCCGCGGCAGATGTGATGCGGAGGT -CACCAGCAGGAAAGGGGCGTCACCAATCGCCTGTTTCACTGCTGCAGCTTCTTCTTCGGTATCTTTTGGCAAATCCAGGG -TGATAATTTGCTCGCGCGGCACGCCCAGCGATTGCGCAACTCTGGCACCTACTTCCGCTGTACTCACCGTATTGGTTTTT -GCTACGCCTCCCGTGAAGATCAGTTTTGATCCCGGATTTTCGCGCCATAAGCGAATACCTTCATTCAGGCGTGGCAGACT -GTTATTGATTAAATTAGAGCTCGGTGCCCACTGCGGGTTCCAGGTATAACCACCTCCGAGCACCACGATATAGTCCACTT -TTTGCGAATTATTCCATGTCGGATAGGTGCTTTCGATGGGACGCAGCAGGCGGTCGGCTACCGGTTGCAAACTCAATAAC -AAGAGCGCCAGCCACCCAATGCTAATAAAAATCTTCCCGGTTTTTTGAAAACGGCTAAACCACAGCAGCGCCAGGCCAGC -GCCAATAATCAACAACATCAGCGGAAGTGGCAGCAACATATTGCCAATCACTTTTTTCAGTGTAAAAAGCATCCTTTCTG -GTTCCTTTTTTAACCATATAGCAAGGGATCGCCAGCGATATTACACCAGACGGGTTCATTCTCGCCGTGGCTGTGACAAA -ATAGCGTCTTTATCAGAAAACGTCTTAGCCAACCGGTGGAGAAAGCAATGCAGGATCGCAATTTTGATGATATTGCGGAA -AAGTTTTCCCGTAACATTTACGGCACCACCAAAGGGCAGCTTCGACAGGCTATTCTGTGGCAGGATCTCGATCGCGTGCT -GGCGGAAATGGGCCCGCAAAAACTGCGTGTGCTGGATGCTGGCGGTGGAGAAGGGCAGACCGCAATCAAAATGGCCGAGC -GTGGGCATCAGGTCATTTTATGCGATCTTTCTGCGCAGATGATCGACCGCGCAAAACAGGCGGCAGAAGCAAAAGGTGTG -AGCGACAACATGCAATTTATACATTGCGCCGCTCAGGATGTTGCTTCGCATTTGGAAACGCCCGTTGATCTGATATTGTT -CCATGCGGTGCTCGAGTGGGTGGCTGATCCCCGCAGCGTATTGCAGACCCTCTGGTCAGTGTTGCGTCCAGGCGGCGTGT -TGTCGTTAATGTTCTACAATGCGCATGGTTTGTTGATGCATAACATGGTCGCCGGGAATTTTGATTACGTGCAGGCGGGA -ATGCCGAAAAAGAAAAAACGGACGCTTTCGCCAGATTATCCACGCGACCCGGCGCAGGTTTATCTGTGGCTGGAAGAAGC -TGGTTGGCAAATTATGGGTAAGACAGGCGTTCGCGTGTTTCATGATTATCTGCGCGAGAAACACCAGCAGCGCGACTGCT -ATGAAGCATTACTTGAATTAGAAACGCGTTATTGCCGTCAGGAACCGTATATTACCCTGGGGCGTTATATTCATGTCACC -GCGCGCAAACCGCAGAGCAAGGATAAAGTATGAGTGAATTTTCCCAGACAGTCCCCGAACTGGTTGCCTGGGCCAGAAAA -AATGACTTCTCCATCTCGCTGCCGGTAGACCGACTCTCTTTTCTGCTGGCGGTTGCCACGCTGAACGGCGAGCGTCTGGA -TGGTGAGATGAGTGAAGGCGAGCTGGTGGATGCATTCCGCCATGTGAGTGATGCGTTTGAGCAAACCAGCGAAACCATCG -GCGTGCGCGCCAATAACGCGATCAACGACATGGTGCGTCAACGTCTGCTGAACCGCTTTACCAGCGAGCAGGCGGAAGGG -AACGCAATTTACCGTCTGACGCCGCTCGGCATCGGCATTACTGACTACTACATCCGTCAGCGCGAGTTTTCTACGCTGCG -TCTTTCTATGCAGTTGTCGATTGTGGCGGGTGAGCTCAAACGCGCAGCAGATGCCGCCGAAGAGGGCGGTGATGAATTTC -ACTGGCACCGTAATGTCTATGCGCCACTGAAATATTCGGTAGCAGAAATTTTCGACAGTATCGACCTGACGCAACGTCTG -ATGGACGAACAGCAGCAGCAGGTGAAGGACGATATCGCCCAGTTGCTGAACAAAGACTGGCGGGCGGCGATTTCCAGCTG -TGAATTGTTGCTTTCGGAAACTTCCGGAACGCTGCGTGAATTGCAGGATACGCTGGAAGCGGCAGGCGACAAATTGCAGG -CTAATCTGTTGCGCATTCAGGATGCGACGATGACCCATGACGATCTGCATTTCGTCGATCGTCTGGTGTTCGATCTGCAG -AGCAAACTCGATCGTATTATCAGTTGGGGCCAGCAATCCATCGACTTGTGGATTGGCTACGACCGCCACGTACACAAATT -TATTCGTACCGCGATCGATATGGATAAAAACCGCGTCTTTGCTCAGCGGTTACGTCAGTCGGTACAAACCTATTTTGATG -AGCCGTGGGCGCTAACTTATGCCAATGCCGATCGTCTGCTGGATATGCGTGACGAAGAGATGGCACTGCGCGATGAAGAA -GTGACTGGGGAACTTCCTGAGGATCTGGAATACGAAGAGTTTAACGAGATCCGCGAACAGCTGGCGGCGATCATCGAAGA -ACAACTTGCCGTGTACAAAACCAGACAAGTGCCGCTGGATCTTGGTCTGGTGGTACGCGAATATCTGTCACAGTATCCGC -GTGCACGTCACTTTGACGTTGCGCGTATTGTTATTGATCAGGCGGTACGTCTTGGCGTAGCGCAAGCAGATTTCACCGGA -CTGCCAGCGAAATGGCAGCCGATTAATGATTACGGAGCCAAGGTACAGGCGCATGTCATCGACAAATATTGAACAAGTGA -TGCCGGTTAAGCTGGCGCAGGCGCTGGCGAATCCGTTATTTCCGGCGCTGGACAGCGCCTTACGTTCAGGACGCCATATT -GGCCTCGACGAACTGGATAATCATGCATTCCTGATGGATTTTCAGGAATATCTGGAAGAGTTTTACGCGCGTTATAACGT -TGAGCTTATTCGCGCACCAGAAGGGTTCTTCTATTTACGCCCACGTTCCACCACGCTGATCCCTCGTTCCGTCTTGTCGG -AACTGGATATGATGGTCGGGAAAATCCTCTGTTATCTCTATCTCAGCCCGGAACGGCTGGCGAATGAGGGGATTTTCACC -CAGCAGGAACTGTACGACGAACTGCTCACCCTGGCCGATGAAGCAAAACTGCTGAAACTGGTGAACAACCGTTCAACCGG -TTCAGACGTTGACCGTCAGAAGTTGCAGGAGAAAGTACGTTCTTCGCTCAACCGTCTGCGTCGTTTAGGCATGGTGTGGT -TTATGGGCCACGACAGCAGCAAGTTTCGCATTACCGAATCGGTGTTCCGCTTCGGAGCCGATGTGCGTGCTGGCGACGAT -CCCCGTGAAGCACAGCGTCGCCTGATTCGTGATGGCGAAGCAATGCCGATTGAAAATCATCTGCAACTCAACGATGAAAC -CGAAGAGAATCAGCCAGATAGCGGAGAGGAAGAATAATGATTGAACGCGGTAAATTTCGCTCACTGACGCTGATTAACTG -GAACGGCTTTTTTGCCCGAACTTTTGACCTTGACGAGCTGGTCACGACGCTTTCTGGCGGTAACGGGGCGGGTAAATCCA -CCACCATGGCGGCGTTCGTTACGGCGCTGATCCCCGACCTGACCCTGCTGCATTTCCGTAACACTACGGAAGCCGGGGCC -ACCAGCGGTTCGCGCGATAAAGGTCTGCACGGTAAGCTGAAAGCGGGTGTCTGTTATTCGATGCTCGACACCATTAACTC -GCGCCACCAGCGCGTGGTGGTCGGTGTGCGTCTGCAACAGGTTGCCGGACGCGATCGTAAAGTGGATATCAAGCCGTTTG -CCATTCAGGGACTGCCGATGTCGGTGCAGCCGACACAGCTGGTGACCGAAACCCTGAACGAACGCCAGGCGCGCGTGCTG -CCGCTTAACGAGCTGAAAGACAAGCTCGAGGCGATGGAAGGCGTGCAGTTTAAACAGTTCAACTCCATTACTGATTACCA -CTCGCTGATGTTCGATCTGGGCATCATCGCGCGTCGTCTGCGCTCCGCATCTGACCGTAGCAAATTCTATCGTCTGATCG -AAGCTTCGCTGTATGGCGGGATCTCCAGTGCCATTACCCGTTCTCTGCGCGACTACCTGTTGCCAGAAAACAGCGGCGTG -CGTAAAGCGTTCCAGGACATGGAAGCGGCGCTGCGTGAAAACCGTATGACGCTGGAAGCGATTCGTGTCACCCAGTCGGA -CCGCGACCTGTTTAAGCATCTGATCAGCGAAGCCACCAACTACGTGGCGGCGGACTACATGCGTCACGCCAACGAGCGCC -GTGTCCATCTCGACAAAGCCCTGGAGTTTCGTCGCGAGCTACATACTTCGCGTCAGCAACTGGCGGCTGAGCAGTACAAA -CACGTCGATATGGCGCGTGAGCTGGCAGAGCACAACGGTGCCGAAGGCGATCTGGAAGCGGATTATCAGGCGGCCAGTGA -TCACCTGAACCTGGTGCAAACCGCACTGCGTCAGCAGGAGAAGATCGAACGCTACGAAGCGGATCTCGATGAGCTGCAGA -TCCGTCTGGAAGAGCAAAATGAAGTGGTGGCAGAAGCCATCGAACGCCAGCAAGAGAATGAGGCTCGTGCGGAAGCTGCC -GAACTGGAAGTGGACGAGCTGAAAAGCCAGCTTGCTGACTACCAGCAGGCGCTGGACGTCCAGCAAACGCGCGCGATCCA -GTATAACCAGGCGATTGCTGCGCTTAATCGTGCCAAAGAACTGTGCCATCTGCCGGACTTAACCGCCGACTGCGCCGCCG -AATGGCTGGAAACCTTCCAGGCGAAAGAGCTGGAAGCGACTGAAAAAATGCTCTCTCTTGAGCAGAAAATGAGCATGGCG -CAAACCGCGCACAGCCAGTTTGAGCAGGCTTATCAGCTGGTGGTGGCAATCAACGGCCCACTGGCGCGTAACGAGGCGTG -GGATGTCGCTCGCGAACTATTGCGCGAAGGGGTCGATCAGCGTCACCTGGCAGAGCAGGTTCAGCCGCTGCGGATGCGAT -TAAGCGAACTGGAACAGCGTCTACGCGAGCAGCAAGAAGCTGAGCGTCTGCTGGCAGATTTCTGCAAACGTCAGGGCAAG -AATTTTGATATCGACGAACTGGAAGCCCTGCATCAGGAACTGGAAGCACGCATTGCCTCTCTTTCCGATAGCGTGTCTAA -CGCCCGTGAAGAGCGCATGGCACTGCGCCAGGAGCAGGAACAGCTGCAGTCTCGCATTCAGAGTTTGATGCAGCGTGCGC -CGGTTTGGCTGGCAGCGCAAAACAGTCTCAACCAGTTGAGCGAACAGTGCGGCGAAGAGTTTACCTCCAGCCAGGACGTC -ACCGAATATCTGCAACAGTTGCTGGAGCGTGAGCGAGAGGCGATTGTTGAACGCGATGAAGTGGGCGCGCGCAAAAACGC -CGTCGATGAAGAGATCGAACGTTTAAGCCAGCCTGGCGGCTCTGAAGATCAGCGTCTGAACGCGCTGGCGGAGCGTTTTG -GTGGTGTGCTGCTGTCAGAAATTTATGACGACGTTAGCCTGGAAGATGCGCCGTACTTCTCAGCGCTGTATGGCCCGTCA -CGCCACGCCATCGTGGTGCCAGATCTGTCACAGGTAACTGAACACCTGGAAGGCTTGACCGATTGCCCGGAAGATCTCTA -TCTGATCGAAGGAGATCCGCAGTCATTCGATGACAGCGTGTTCAGCGTTGATGAGCTGGAAAAAGCGGTAGTGGTGAAAA -TCGCCGATCGTCAGTGGCGTTATTCACGTTTCCCGGAAGTGCCGCTGTTTGGTCGTGCTGCGCGTGAAAGCCGTATTGAA -AGCCTCCATGCCGAGCGTGAAGTGCTTTCCGAACGCTTCGCCACGCTCTCCTTTGATGTACAGAAAACTCAGCGTCTGCA -TCAGGCGTTCAGCCGCTTTATCGGCAGTCATCTGGCGGTTGCGTTTGAGTCTGACCCGGAAGCAGAAATCCGTCAACTGA -ACAGCCGTCGCGTCGAACTGGAGCGGGCGTTAAGTAATCATGAAAATGATAACCAGCAGCAGCGTATTCAGTTTGAGCAG -GCGAAAGAGGGCGTTACGGCGCTGAACCGCATTCTGCCGCGTCTCAACCTGTTGGCTGATGACAGCCTGGCGGATCGCGT -CGATGAAATCCGCGAACGTCTGGATGAAGCCCAGGAAGCCGCGCGTTTTGTTCAGCAGTTTGGCAATCAACTGGCGAAAC -TGGAACCGATTGTTTCGGTATTGCAGAGCGACCCGGAACAGTTCGAACAGTTAAAAGAAGATTACGCGTACTCTCAGCAG -ATGCAGCGCGATGCCCGTCAGCAGGCGTTTGCCCTGACGGAAGTGGTGCAGCGTCGTGCGCACTTTAGCTATTCTGACTC -GGCAGAAATGCTTAGCGGTAACAGCGATCTCAACGAAAAACTGCGTGAACGTCTGGAACAGGCGGAAGCGGAGCGTACCC -GCGCTCGCGAAGCGTTGCGCGGTCACGCAGCGCAGTTGAGTCAGTACAACCAGGTGCTGGCTTCGCTGAAAAGTTCTTAC -GACACCAAAAAAGAGCTACTCAACGATCTGCAACGTGAATTGCAGGATATCGGCGTGCGTGCTGATAGCGGGGCAGAAGA -GCGGGCGCGTATTCGCCGTGACGAGCTGCATGCGCAACTGAGCAATAACCGTTCACGCCGCAATCAACTGGAAAAAGCGC -TTACCTTCTGCGAAGCGGAGATGGACAACCTGACCCGCAAACTGCGCAAGCTGGAGCGGGATTACTTTGAGATGCGCGAG -CAGGTAGTGACCGCCAAAGCGGGCTGGTGTGCGGTGATGCGCATGGTGAAAGATAACGGCGTTGAGCGCCGCTTACACCG -TCGTGAGCTGGCTTATCTCTCCGCTGATGATTTGCGTTCCATGTCGGATAAGGCGTTAGGTGCGCTGCGTCTGGCGGTGG -CGGATAACGAACATCTGCGCGACGTGCTGCGCATGTCGGAAGATCCGAAACGTCCGGAGCGTAAAATTCAGTTCTTCGTG -GCGGTTTATCAGCATCTGCGTGAACGTATTCGTCAGGATATTATTCGTACCGATGATCCGGTGGAAGCTATCGAACAGAT -GGAGATTGAACTTAGCCGTCTGACCGAAGAATTAACCTCCCGTGAACAGAAACTGGCGATCAGTTCCCGCAGCGTGGCGA -ACATCATTCGCAAAACCATTCAGCGCGAGCAGAACCGTATCCGTATGCTCAACCAGGGGTTGCAGAACGTATCGTTTGGT -CAGGTGAACAGCGTGCGTCTCAACGTGAACGTGCGTGAAACGCACGCCATGCTACTGGATGTGCTCTCTGAACAGCACGA -GCAGCATCAGGATCTGTTTAACAGCAACCGTTTGACCTTCTCGGAAGCGCTGGCGAAACTGTATCAACGTCTTAACCCGC -AGATTGATATGGGGCAGCGCACGCCGCAGACCATCGGTGAAGAACTGCTGGATTACCGCAACTATCTGGAAATGGAAGTT -GAGGTTAACCGTGGTTCCGATGGCTGGCTGCGCGCAGAGTCTGGTGCATTGTCGACCGGTGAGGCGATTGGTACCGGTAT -GTCGATTCTGGTGATGGTGGTACAAAGCTGGGAAGATGAATCTCGCCGCCTGCGCGGTAAAGATATCTCTCCTTGCCGCC -TGCTGTTCCTCGATGAAGCAGCGCGACTGGATGCTCGTTCTATCGCCACGCTGTTTGAATTGTGTGAGCGTTTGCAAATG -CAACTCATCATCGCAGCGCCGGAAAATATCAGCCCGGAGAAAGGCACCACCTATAAACTGGTGCGTAAAGTCTTCCAGAA -TACCGAACACGTTCATGTCGTCGGCCTGCGAGGATTTGCGCCGCAACTCCCTGAAACGCTTCCAGGAACTGACGAAGCGC -CTTCTCAGGCGAGTTAAAATTAAGGCGGCAGCAATGCCGCCTTTTCTTTTTCCGAAAACTCCGTTTCTGCACTAAAAAAG -TGGCACATTACGGCGCGCTTTTCTTTAAACTTCTTTACATTAGGTTATGTAAAAACGTATCGGCGTTTATATACTGAAGA -TAAGCCTGATGAGTAACAGGCTTGCTCGTCATACTTTCGTGAGTATTGGCGTTGTACAGGCAAGTCGTAAAATAACAGCC -TGGCTATTCAGAGTATGATAAAAACAGGGGGCAAGGGATGTTGCTTAATATGATGTGTGGTCGTCAGCTGTCGGCAATCA -GTTTGTGCCTGGCCGTAACATTCGCTCCACTGTTCAATGCGCAGGCCGATGAGCCTGAAGTAATCCCTGGCGACAGCCCG -GTGGCTGTCAGTGAACAGGGCGAGGCACTGCCGCAGGCGCAAGCCACGGCAATAATGGCGGGGATCCAGCCATTGCCTGA -AGGTGCGGCAGAAAAAGCCCGCACGCAAATCGAATCTCAATTACCCGCAGGTTACAAGCCGGTTTATCTTAACCAGCTTC -AACTGTTGTATGCCGCACGCGATATGCAACCCATGTGGGAAAACCGTGATGCTGTTAAAGCCTTCCAGCAACAGCTGGCA -GAGGTGGCGATTGCCGGTTTCCAGCCGCAGTTTAATAAATGGGTAGAGTTACTGACCGATCCTGGTGTTAACGGGATGGC -ACGCGACGTGGTGCTCTCTGATGCGATGATGGGCTATCTCCATTTCATTGCAAATATTCCGGTCAAAGGCACTCGCTGGC -TATATAGCAGTAAACCTTATGCACTTGCAACGCCGCCGCTCTCGGTGATTAACCAATGGCAGCTGGCGCTGGATAAAGGT -CAATTGCCTACGTTTGTTGCAGGACTGGCACCGCAGCATCCGCAATATGCGGCGATGCATGAATCGTTACTGGCCTTACT -CTGTGACACCAAACCGTGGCCCCAACTGACCGGCAAAGCAACGTTGCGCCCAGGGCAGTGGAGTAACGACGTACCGGCGT -TGCGCGAAATATTGCAACGCACAGGCATGTTGGACGGGGGGCCGAAAATTACTCTACCTGGCGATGACACGCCAACTGAC -GCGGTAGTCAGCCCATCCGCTGTTACTGTTGAAACAGCAGAAACTAAGCCGATGGATAAGCAAACGACGTCTCGTAGTAA -ACCTGCGCCTGCCGTTCGCGCCGCCTACGATAATGAACTGGTGGAAGCCGTTAAACGTTTTCAGGCATGGCAAGGATTGG -GGGCAGATGGTGCTATTGGCCCGGCAACACGTGACTGGTTAAACGTAACGCCCGCCCAGCGTGCTGGTGTGTTGGCTCTC -AACATCCAGCGATTGCGCTTGCTGCCAACAGAGCTTTCTACCGGGATCATGGTTAACATTCCGGCCTATTCGCTGGTCTA -CTATCAGAACGGCAATCAGGTGCTGGATTCGCGAGTCATTGTCGGTCGCCCCGATCGCAAAACGCCGATGATGAGCAGTG -CCCTTAACAACGTAGTGGTAAACCCGCCGTGGAACGTACCTCCAACTCTGGCACGCAAAGATATTCTGCCAAAAGTGCGC -AACGATCCGGGATATCTCGAAAGCCATGGCTATACGGTGATGCGCGGCTGGAACAGCAGAGAAGCGATTGACCCATGGCA -GGTTGACTGGTCTACAATCACGGCCTCGAATTTACCGTTCCGCTTCCAGCAGGCTCCAGGCCCACGGAACTCGCTGGGGC -GCTATAAATTCAATATGCCGAGTTCAGAGGCCATTTATTTGCATGACACGCCGAACCACAATCTGTTCAAGCGTGATACA -CGCGCATTGAGCTCAGGCTGTGTACGAGTGAATAAAGCTTCCGATCTGGCGAATATGCTGTTGCAGGATGCAGGCTGGAA -TGACAAACGTATTTCTGATGCGCTGAAGCAGGGTGATACACGTTACGTCAATATTCGGCAGTCGATTCCGGTGAATCTCT -ACTACCTGACGGCCTTTGTTGGTGCAGATGGTCGTACCCAGTATCGTACAGATATTTACAATTATGATCTGCCTGCGCGA -TCCAGCTCGCAAATCGTATCGAAAGCGGAACAATTAATCAGGTAAATGAAGTAGTTCGGGGAAATCAGTTGTCGTAATAA -TTAGCATGATTGGGGGCGATTCTCTGCAGCCCCCGTCACTGCTGGGGTTGAGTCATCTTGACGTCTGCTTTACGGGCGGT -TAAGGTGCCTCTTGTGCGCCAGAAGTGCATATAAACGATAACATTGACCTGTAGACTTGATTATCATGGACAAATTCGAC -GCTAATCGCCGCAAATTGCTGGCGCTTGGTGGCGTTGCACTCGGTGCCGCCATCCTGCCGACCCCTGCGTTTGCAACACT -CTCTACCCCACGCCCGCGCATTTTGACACTCAATAATCTTCATACCGGAGAGTCAATCAAAGCGGAGTTTTTCGATGGCA -GAGGCTATATTCAGGAAGAATTGGCAAAACTTAACCATTTTTTCCGCGATTACCGCGCGAACAAAATAAAGTCCATCGAC -CCAGGATTATTCGACCAGTTGTATCGCCTGCAAGGGTTGTTAGGCACGCGCAAACCGGTGCAACTCATTTCCGGTTATCG -TTCTATTGATACCAACAATGAACTACGCGCCCGCAGCCGTGGAGTAGCGAAGAAAAGCTATCACACTAAAGGCCAGGCGA -TGGATTTCCATATTGAAGGTATCGCGTTAAGCAATATTCGCAAAGCCGCGTTATCTATGCGCGCAGGTGGTGTAGGATAT -TATCCACGTAGTAACTTTGTGCATATTGATACCGGGCCAGCACGGCACTGGTAGTAATTGCTTAACGAAACAGGGGCAGT -ATGAACTATCGTATTATTCCGGTCACCGCATTCTCCCAGAACTGTTCATTAATCTGGTGTGAACAAACCCGTCTGGCCGC -ACTGGTCGATCCTGGCGGCGATGCGGAAAAAATCAAACAGGAAGTTGATGACAGCGGCCTGACACTGATGCAGATCCTGC -TGACGCATGGTCATCTGGACCACGTTGGCGCAGCGGCGGAACTGGCGCAACATTACGGCGTGCCGGTTTTCGGCCCGGAA -AAAGAAGATGAGTTCTGGCTGCAAGGCTTGCCTGCGCAAAGTCGTATGTTTGGTCTGGAAGAGTGCCAGCCGCTGACGCC -AGATCGTTGGCTGAACGAAGGCGATACCATCAGCATAGGGAATGTGACTTTACAGGTGTTACATTGCCCTGGGCATACGC -CGGGTCATGTCGTGTTTTTTGATGATCGGGCAAAGCTGCTGATTTCTGGCGATGTTATTTTCAAAGGCGGAGTAGGGCGC -AGTGACTTCCCGCGTGGCGATCATAATCAACTGATTTCTTCAATCAAAGATAAATTGCTGCCACTGGGGGATGACGTGAT -ATTTATTCCGGGTCACGGACCATTATCCACACTTGGTTATGAACGCCTGCATAATCCCTTCCTGCAAGACGAAATGCCCG -TCTGGTAAGGCACATAAAAAAGCCCGCTTTTAATGCTGGCCTGGATTTCTGGCAAAGTGCGCTTTGTTTATGCCGGATGC -GGCACGAGCGCCTTATCCGGCCTACAAAATCGTGCAAATTCAAAATATTGCAGGGGACGCGTAGGCCTGATAAGCGTAGC -GCATCAGGCAATGTTGCGTTTGTCATCAGTCTCAGCCCGCTTTTCAGCGGGCTTCATTGTTTTTAATGCTTACAGCACTG -CCACAATCGCTTCGCACAGCGGAGCCATGTTATCTGGTGTCATCCCGGCCACATTTACGCGACCAGAAGCAACCGCATAT -ACGCCAAACTCTTCGCGCAGACGCAGCACTTGTTCTTTTGTCAGGCCACTGAAGGAGAACATGCCGTTCTGTTTGATGAT -AAAGCTGAAGTCGCGGTTTGCGCCTTTTTCCTGCAGCGTATTGACGAACAACTGACGCATACGCTGAATACGCTGGCGCA -TATCAGTCAGCTCTTGTTCCCAAATCGCACGTAACGCATCGTTGCTCAGGATGGTGGCAACAACAGAAGCGCCGTGTGCT -GGTGGGTTAGAGTAGTTAGCGCGAATCGCCGCTTTCATTTGGCTGAATGCGCGATCAACGGTTTCACTGTCGGCAGCAAC -CAGAGTACAAGCGCCAACACGCTCGTTGTACAGGCCAAAGTTTTTAGAGTAGGAACTGGCAACAATCAGCTCTTTATGCA -TAGCCGCGAAAGCGCGCAGTCCTTCAGCATCTTCTTCCAGACCACGGGCAAAACCCTGGTAAGCGAAGTCAAACAGCGGT -AACCAGCCTTTCTCAACGGAGAGTTGTGCCAGTGTTTGCCATTGTTCCAGCGTAGGGTCGATACCGGTTGGGTTATGGCA -GCAGCCATGGAACAGCACTACGTCGCCAGCCTGAGCTTCATTCAGGCTGTTAATCAGTGCATCGAAGTCAAGAGTGTGAT -TTTCCGCATCATAATAAGCGTATTCACGAACTTCCAGACCTGCAGAGTTAAAGACGCTCTTATGGTTCGGCCAGCTTGGG -TTGCTCACCCACACACGCTTAACGCTGGTATTTTTTGCCAGGAAATCGGCAGCCACGCGTAGTGCGCCAGTGCCCCCCGG -AGTCTGTGCCGTGCGAGCACGTTTGTCATTGATCAGGGCGCTACCTTTACCAAACAGCAGTTCCTGAGTGCAGCGACCAA -ATTCAGGGATGCCGTCAATGCCGAGGTAATTTTTGGTGGTTTCATTTTCGAGCAGATACTGTTCAGCCTTTTTCACGCTG -GTCAGTACCGGGGTTTTGCCCGTCTCATCTTTATAGACACCAATCCCGAGGTTAATTTTGCCGGGACGTTCATCGGCACG -AAACAGATCGGCCAGGCCCAGAATCGGGTCGGCAGGAGCGGCGGTAATGTTCTCAAACATGACGAGGTTCCATTATGGTT -ACAGAAGGGAAGTCCGCTATCAGGGTAACGGGAGATTTACAAAATTCCAACTATTACTGATGAAAACGCAGGCTGTTTTT -GCAAGACGTGAGATTGCTCTGGAAGGTATAAAAAAAACAGGACCAAAGTCCTGTTTTTTCGGCATTTAACAAAGAGGTGT -GCTATTAGAACTGGTAAACGATACCCACAGCAACGGTGTCGTCTGAACCTACGCCCAGTTTGTTGTCAGAATCGATCTGG -TTGATGATGTAGTCAACATAGGTGGACATGTTTTTGTTGAAGTAGTAGGTTGCGCCCACTTCAAAGTAGTTCACCAGATC -AACATCACCGATACCTTCTACGTCTTTCGCTTTAGATTTGGTGTAAGCGATGGACGGACGCAGACCGAAATCGAACTGGT -ATTGCGCAACTAACAGAACGTCTTGCGTTTTGTTGGCGAAGCCGCTGGTGTTTGTAAATTTATTAGTGATCGGCGTAGCG -TTACGGGTTTCACCGTAGTTCGCTGCCAGGTAGATGTTGTTCGCGTCGTACTTCAGACCAGTAGCCCACTGTTCAGCTTT -TTTACCGTTGCCAAGAGGTTGAGCTTCTTGCAGGTTGGTACGGTCAGCTGCACCATAAGCACCAACGATACCAAAGCCTT -CGTATTCGTAGCTGATAGAACCGCCAACACCGTCGCCGTTAGAACGGCGTGCAGTGTCACGCTCGTTTTTACCCAGGTAC -TGAACAGCGAAGTTCAGGCCATCAACCAGACCAAAGAAGTTGGAGTTACGATAGGTAGCAACGCCGCCAACACGACCAAC -GAAGAAGTCATCGCTGTATGCAGTATCACCACCAAATTCTGGCAGCATATCGGTGTAACCCAGTGCATCATAAACCACAC -CGTAGTTACGGCCGTAATCGAAAGAACCAACGTCAGCGTATTTAAGACCCGCGAATGCCAGACGCGTTTTGTTACCAGTT -TGAGCGTCAGCGCCTTCAGAGTTGTTACCCTGGAAGTTATATTCCCACTGACCATAACCGGTCAGATCGGAATTGATTTG -AGTTTCCCCTTTAAAACCAAGACGGGCATAGGTCATGTCGCCATTGCCACCGTAACTGTTTTCACCGTTACCCTTGGAAA -AATAATGCAGACCAACAGCTTTACCGTACAGATCTACTTTGTTGCCATCTTTGTTATAGATTTCTGCAGCGTTTGCAGTA -CCTGCTACTAACAGAGCAGGGACGATCACTGCCAGAATATTGCGCTTCATCATTATTTATTACCCTCATGGTTTTTTTTA -TGACACCTGCCACTGCCGTCAATAAGTTCTGTCAATAAAAATTTACGGAACTATTGATGAGAGTTTGGTGTCTTTATGTG -TCTGCAGGCATCTTTCCATTCAAACTAACGTTTCGCTACCGTGAAAGTGCTACAAAGATAAAGATTTGGTTTCAAAAAGA -AAAAATATGTAACCAAAAGTAAAATTTAAGGAACTTTGTGAACACCGTCATATTTCCATAGAGACGTGATGATATTTACA -GCAATTTTAATCTATTTATATGATTTCCTTATATTTAAATTAACTAAACGGAAATTTTGTTTCTGATGGAAACTTTATCG -ACCTGGCACAAAATCTTCTTTCAGACATCCAGAATGCCAAAAAATAGTATGAAAATTGTGCTATTAGCTAAGAAAAAACT -AATCCGCAATAAGAATGCGGATTAGTTTTTGCGCGTAAATGTTGCAATGTAATATTCCGTAACAGGATGATCGTTATGGC -GGGGTTGCAAATAGATTGCTTGACTTAACAAACAGATAACTTGACAGAAAAGATAAAAAAAGAGCCAGCGGGCGCTGGCT -CTTGAAGACGCTAAATTAGAAGCTGGCGTTACGCGGAGTACGTGGGAACGGAATCACATCACGTACGTTTTGCACGCCAG -TTACGTAAGCAATCAGACGTTCAAAACCAAGACCGAAACCTGAATGCGGAACAGTACCGTAGCGACGCAGATCGCGATAC -CACCAGTAATCTTCTTTATTCAGGCCCATTTCCAGCATACGCTCGTCCAGCACGTCCAGACGTTCTTCACGCTGGGAGCC -ACCAATGATCTCACCGATGCCCGGAGCCAGAACGTCCATAGCCGCAACGGTTTTACCGTCTTCGTTAAGGCGCATATAGA -ACGCTTTAATATCTTTCGGATAGTTTTTAACCACTACCGGTGCTTTAAAGTGTTCTTCCGCCAGATAACGCTCATGCTCA -GAAGAGAGATCGACTCCCCAGTAAACCGGGTTTTCAAACTTCCTGCCGCAGTTTTCGAGAATGGTCACTGCGTCGGTATA -ATCCACCTGCGCAAAATCGGCTTCAATGAAGCGTTCCAGACGTGAAACGGCATCTTTATCTACGCGTTCAGCGAAGAATT -TCATGTCGTCAGCGCGTTCTTCGAGAACCGCTTTGAAGACATATTTCAGCATGGCTTCAGCCAGACCCGCAATATCGTTC -AGGTTAGCAAACGCCACTTCCGGCTCCAGCATCCAGAATTCCGCCAGGTGACGGCTGGTGTTGGAGTTTTCAGCACGGAA -AGTCGGGCCGAAGGTATAAATTTTGGACAATGCGCAAGCGTAGGTTTCGCCGTTCAACTGGCCAGATACGGTCAGGAAAG -ACTCTTTACCAAAGAAGTCTTTGTCGAAATCCACTTTGCCCTGATCGTTACGCGGCAGGTTTTCCAGATCCAGCGTAGAA -ACGCGGAACATTTCGCCTGCACCTTCGGTATCAGATGCGGTAATCAGTGGCGTTGAAACCCAGAAGAATCCCTGCTCGTT -AAAGAAGCGATGCAGCGCCTGCGCCAGCGTATGGCGAACGCGCGCGACGGCACCAATCAGGTTTGTGCGCGGACGCAGGT -GAGCGACTTCACGCAGATACTCAATGCTGTGGCGTTTTGCCGCCATCGGGTAAGTGTCTGGATCTTCAACCCAACCAGCA -ACTTCAACCTTGCTGGCCTGAATTTCAAATTGTTGCCCCTGGCCCGGCGACGCCACGACTTTACCCGTCACAATGACCGA -GCAGCCGGTGGTCAGACGCAGGACGTCTTCATTGTAATTGGGCAGAGAATTATTGATGACAGCCTGTACAGGATCAAAGC -AGGAACCGTCATAAACGGCGAGGAAGGAGATGCCAGCTTTTGAATCTCGGCGGGTACGTACCCATCCGCGCACGGTGACT -TCGCTGTCAACGGCTACACGGCCCTGGAGTACGTCGGCTACAGGCACAACGCTCATAATATTCTCTCTGTTAATAGTCGG -AAAAAATAAACACTTGTCCACCCGTAAATGGGGGGATACCTATGTTACCTGGCATCTGCAATCAGACAAGCAGAATTCGC -AAATGCAGCGAAAGATTTCGGAATTAAAGGTAAAAAAAGGGAGCCGATTAGCTCCCTGATGATATTAACTGGCTTTTTTA -ATATGCGGAAGGTCGAACGCTTTGCGCAGCGCCCGAACAAACGCTTTATCATGGCAGATAGTTTTGCCAGGGCTGTCAGA -AAGTTTCGCCACCGGTTTACCGTTACACTCTACCAACTTAATGACAATATTCAGGGGTTTTACCTGGGGGATATCGCAGG -TCAGGCGAGTCCCAATACCAAAACTTAATTGCACGCGGGAAGAGAAGTGGCGGTATAGCTCAACCGCTTTGCGTAAATCC -AGATTGTCAGAGAAAACCAGCGTTTTACTCTGTGGATCAATTCCCAGCTTTTCATAATGTGCAATGGCTTTTTCACCCCA -TTCAACCGGGTCGCCAGAGTCATGACGCAGGCCCTGATACCGACTAGCGAACTCGACACCGAAATCACGCAGGAAAGCAT -CCATAGTGATGCAGTCGGTTAATGCAATGCCAAGTTGGTCGGGATACTCTTCCAGCCAGGCAGCAAGTGCAGCTCGCTGG -CTGTTGGCTAGATCCGGGCTGATTTGCTGATGTGCCTGGAACCATTCGTGTGCCTGTGTTCCCATCGGCGTGAGGGAAAG -CCGACGCGCCAGATCGTAGTTGCTGGTGCCCACAAACCAGGATTCCTGTTGCAGACGCTTAACGATGGTTTCTTGTACTT -CGCGAGAAAAACGGCGACGGGTGCCAAAATCCATCAGATGGAAGCGCGACATATCAAGACCGGCGGTTAACGCCGAGAAG -TCGACTAATTTGCTTTCCAGCGTGTCGAGGGCTTGCGCAACGTCGGCCTGCGGTGAGCGATAGCGATGTACCATTTCACT -GATAACCGCCAGCAAAGGAACTTCCCAGAGGATGACTTCACGCCACGGGCCGCTTAAACGAATATCCAGCTTGCCATTAT -CGTTGGACACGGTGACTTGTTCCGGGTTAAAGCGGAACTCGCGTAACCAGTTAAGATAGTCGGCCTTAAAGAAAGGCAGG -GCAGAAAGCCACTGATATTCATCATCCTGCAGGCGCAGGTGCTGCATCGCCTGAACCTGTTCACGAATAGCATCGGCATA -AATACCCAGCAGATCGTCACCTCGGCAACGAAACTCCGCCGCGACATGCACATCGTAATAGTGATGAAACACGGCTTGCT -GCATATGCAACTTATAAGCATCTGTATCCAGCAACGAGTGCAGAACAGGAGAAGCGAATTGTGTCATAGGTGCGCAGTAG -CGTCCTCGTACAGGAGCGTTTAGTACAATAAACATCTTCAGGAACTGCTGGAGTATACCTTGTTTCGCAATTTATTGAAC -CCCGATCACACCATATGCCACCTTTCTGGTCGATGGCATTACGCGGTGTATGTTATAAAAATGTAGCAATAAAGGCGTTT -GTACCTGAAAAGATGAAGATTCTGCATAGCGCGATTTACGCAACAGGAATAGACTGAACACCAGACTCTATAAAAGATGC -TAAAGGTTATTTATGACTCAACAGCCACAAGCCAAATACCGTCACGATTATCGTGCGCCGGATTACCAGATTACTGATAT -TGACTTGACCTTTGACCTCGACGCGCAAAAGACGGTCGTTACCGCGGTCAGCCAGGCTGTCCGTCATGGTGCATCAGATG -CTCCCCTTCGTCTCAACGGCGAAGACCTCAAACTGGTTTCTGTTCATATTAATGATGAGCCGTGGACCGCCTGGAAAGAA -GAAGAGGGCGCACTGGTTATCAGTAATTTGCCGGAGCGTTTTACGCTTAAGATCATTAATGAAATAAGCCCGGCGGCGAA -TACCGCGCTGGAAGGGCTTTATCAGTCAGGCGATGCGCTTTGCACCCAGTGTGAAGCCGAAGGTTTCCGCCATATTACGT -ATTATCTCGACCGCCCGGACGTGCTGGCGCGTTTTACCACCAAAATTATTGCCGATAAAATCAAATATCCCTTCCTGCTT -TCCAATGGTAACCGCGTTGCGCAAGGCGAACTGGAAAACGGACGCCATTGGGTACAGTGGCAGGACCCGTTCCCGAAACC -GTGCTACCTGTTTGCGCTGGTGGCAGGCGACTTTGATGTACTGCGCGATACCTTTACCACGCGTTCTGGTCGCGAAGTAG -CACTGGAGCTGTACGTCGATCGCGGCAACCTTGATCGCGCGCCGTGGGCGATGACCTCGCTGAAAAACTCCATGAAATGG -GATGAAGAACGCTTTGGCCTGGAGTATGACCTCGACATCTATATGATCGTCGCGGTGGATTTCTTCAATATGGGCGCAAT -GGAGAATAAGGGGCTGAATATCTTTAACTCCAAATATGTGCTGGCCCGCACCGACACCGCCACCGACAAAGATTACCTCG -ATATTGAACGCGTTATCGGCCATGAATATTTCCATAACTGGACCGGTAACCGAGTGACCTGTCGCGACTGGTTCCAGCTC -AGCCTGAAAGAAGGTTTAACCGTCTTCCGCGATCAGGAGTTCAGCTCTGACCTTGGTTCCCGCGCAGTTAACCGCATCAA -TAATGTACGCACCATGCGCGGATTGCAGTTTGCAGAAGACGCCAGCCCGATGGCGCACCCGATCCGCCCGGATATGGTCA -TTGAGATGAACAACTTCTACACCCTGACCGTTTACGAGAAGGGCGCGGAAGTGATTCGCATGATCCACACCCTGCTTGGC -GAAGAAAACTTCCAGAAAGGGATGCAGCTTTATTTCGAGCGTCATGATGGTAGTGCAGCGACCTGTGACGACTTTGTGCA -GGCGATGGAAGATGCGTCGAATGTCGATCTCTCCCATTTCCGCCGTTGGTACAGCCAGTCCGGTACACCGATTGTGACCG -TCAAAGACGACTACAATCCGGAAACCGAGCAGTACACCCTGACCATCAGCCAGCGCACGCCAGCCACGCCGGATCAGGCA -GAAAAACAGCCGCTGCATATTCCGTTTGCCATCGAACTGTATGATAACGAAGGCAAAGTGATCCCGTTGCAGAAAGGCGG -TCATCCGGTGAATTCCGTGCTGAACGTCACTCAGGCGGAACAGACCTTTGTCTTTGATAATGTCTACTTCCAGCCGGTGC -CTGCGCTGCTGTGCGAATTCTCTGCGCCAGTGAAACTGGAATATAAGTGGAGCGATCAGCAACTGACCTTCCTGATGCGT -CATGCGCGTAATGATTTCTCCCGCTGGGATGCGGCGCAAAGTTTGCTGGCAACCTACATCAAGCTGAACGTCGCGCGTCA -TCAGCAAGGTCAGCCGCTGTCTCTGCCGGTGCATGTGGCTGATGCTTTCCGCGCGGTACTGCTTGATGAGAAGATTGATC -CAGCGCTGGCGGCAGAAATCCTGACGCTGCCTTCTGTCAATGAAATGGCTGAATTGTTCGATATCATCGACCCGATTGCT -ATTGCCGAAGTACGCGAAGCACTCACTCGTACTCTGGCGACTGAACTGGCGGATGAGCTACTGGCTATTTACAACGCGAA -TTACCAGAGCGAGTACCGTGTTGAGCATGAAGATATTGCAAAACGCACTCTGCGTAATGCCTGCCTGCGTTTCCTCGCTT -TTGGTGAAACGCATCTGGCTGATGTGCTGGTGAGCAAGCAGTTCCACGAAGCAAACAATATGACTGATGCGCTGGCGGCG -CTTTCTGCGGCGGTTGCCGCACAGCTGCCTTGCCGTGACGCGCTGATGCAGGAGTACGACGACAAGTGGCATCAGAACGG -TCTGGTGATGGATAAATGGTTTATCCTGCAAGCCACCAGCCCGGCGGCGAATGTGCTGGAGACGGTGCGCGGCCTGTTGC -AGCATCGCTCATTTACCATGAGCAACCCGAACCGTATTCGTTCGTTGATTGGCGCGTTTGCGGGCAGCAATCCGGCAGCG -TTCCATGCCGAAGATGGCAGCGGTTACCTGTTCCTGGTGGAAATGCTTACCGACCTCAACAGCCGTAACCCGCAGGTGGC -TTCACGTCTGATTGAACCGCTGATTCGCCTGAAACGTTACGATGCCAAACGTCAGGAGAAAATGCGCGCGGCGCTGGAAC -AGTTGAAAGGGCTGGAAAATCTCTCTGGCGATCTGTACGAGAAGATAACTAAAGCACTGGCTTGATAAATAACCGAATGG -CGGCAATAGCGCCGCCATTCGGGGAATTTACCCCTGTTTTCTCAGGCGAGTTTCAGATTCACCACGTTGCATCACCCGTT -GCAACACCTCCGCTTCCAGCTCCGCTAATCGCACCGACCCTAATCGACGCGGACGGGGGATATCCACTGTCAAATCCAGA -CCAATTTTTCCCTCTTCAATTAACAGCACCCGGTCAGCCATCGCTACCGCTTCGCTCACATCATGCGTCACCAACAGTAC -GGTAAAGCCGTGCTCCTGCCAAAGTGACACAATCAAATCCTGCATCTCGAGTCGCGTTAAGGCGTCCAGCGCCCCGAGCG -GTTCATCAAGCAACAATAATCCCGGTCGATGAATCAACGCTCTTGCCAGCGCCACTCGCTGTTTCTGCCCGCCAGAAAGT -GCGGCAGGCCATTCCCCTGCGCGATTCTCCAGTCCTACCGCAGCCAACGCTCGACGTGCGGCATCGCGCCACTGGCCTTT -AAGGCCTAACCCAACGTTATCAATCACCGATTTCCACGGTAGCAGACGCGCATCCTGAAACATCATTCGCGTGTCTTCCT -GAATTTCAGCCAGCGGTGTGGTGCCCGCTAACACATCGCCTGCGGTTGGCGTTTCCAGACCTGCCAGCAGGCGCAGCAGG -GTACTTTTGCCACCACCGCTGCGGCCCACCACCGCCACAAACTGACCTGCCGGAATATGTAAATCCAGTTGGTTCAGGAC -GATATTTTCCGCGTAATGTTTGCTTACTGCATTGAGCAACAATGGCGTGCCCTGGTTCAGACGAGCAGTATTCATACCGT -GGCCTCCTTCAAATGATAAGCCGGGTTCCAGCGCAACCAGAGGCGCTCTAACAGCTGCGCGCTGACGTCAGCCAGTTTGC -CGAGCAGGGCGTAAAGAATAATAGCGACTACCACCACGTCCGTTTGCAAAAACTCCCGCGCATTCATCGCCAGATAACCA -ATGCCTGAATTGGCAGAAATGGTTTCGGCAACAATCAGCGTCAGCCACATCAGGCCCAACGCAAAACGCACGCCGACCAT -AATTGAGGGCAGGGCACCAGGCAGGATCACATGGATAAACAGCGGTATGCCGGATAATCCATAGCTACGCGCCATCTCCA -CCAACCCGCGATCGATATTACGGATGCCATGCCAGGTGTTGATATAAATGGGGAATAGCGTACCGAGCGCCACCAGAAAG -ATTTTTGCGGATTCATCAATGCCAAACCACAAAATCACCAGCGGGATCAGCGCCAGATGCGGCACGTTGCGCAACATCTG -AATTGAGGTATCCAGCAGCCGTTCTCCCCAGCGAGATAGCCCGCTAATCAGTCCCAAAATCAACCCCAGCGATCCGCCAA -TTGAAAAGCCAATCAGCGCCCGCCAGGAGCTGATCGCCAGATGCTGCCACAGTTCGCCGCTGGCGGAGAGCGTCCAGAAC -GCCGTCACCACTCCTTCCGGTGAAGGCAAAATACGCGTCGACAGCCAGCCAACCGAGGAGGCCAGTTGCCACACCGCCAC -GATGCCCACCGGTAAAAACCAGGGGGCAACGCGCAATAACCACTTCTTCACTGGCGTTGCCATTATTTCTTCCTTAGCTT -TGCGCGACTTTACGGGGGATAAAATCATTCGCCACCGCTTCGCCTTGCGGATTCAGCGGCTGCGGCTGGGGAATTTCCGG -GATGGCGACATCCAGAAGCGGGAACAGCAACTCGCCAACCCGATACGCTTCTTCCAGATGCGGATAGCCCGAAAGCACAA -AACTGTCGATGCCAAGCGCGGCATATTCGTTGATTCGCGCAGCGACCGTAGGACCATCGCCCACCAGCGCCGTCCCGGCA -CCGCCGCGCACTAAGCCAACGCCCGCCCATAAATTGGGGCTGATCTCCAGATTGTCGCGCTTGCCGTTATGTAACGCCGC -CATTCGCTGTTGCCCTACGGAATCCGTCCGGGCGAATGCGGCCTGTGCTTTGGCGATAGTTTCATCATCAAGATGCGAGA -TTAACCGCTCGGCGGCCTGCCACGCTTCGTCGTTAGTTTCACGAACAATCACATGCAGACGAATACCGAAACGAATTTTG -CGTCCATGCGCGGCAGCTTTCGCCCGCACTTGTTCGATTTTCTCTTTAACCAGTTCCGGCGGTTCGCCCCAGGTGAGGTA -GAGATCAACCTGTTCTGCCGCCAGCTCCTGGGCGACATCTGACGATCCGCCAAAGTAAAGTGGCGGATACGGCTGTTGAA -TCGCCGGGAAGAGCAGTTTTGCTCCGCGCACATGAATATGTTTACCGTTGAAATCGACGGTTTCTCTCTGCAATAAACGC -CGCCAGACCTGGGTAAATTCCGCCGAGGCTTCGTAGCGCTCGCTATGATCAAGGAACACTCCGTCGCCTGCCAGCTCTTG -TGGATCGCTGCCTGTGACCAGGTTAAACAACGCACGTCCATTTGAGAGACGGTCAAGCGTGGCGGCCTGGCGGGCGGCAA -CGGTAGGTGAGGTTACGCTGGGACGCAGGGCGACAAGAAACTTCAGCCGCTGCGTCACCGGGATCATCGATGCGGCAACC -AGCCACGCATCTTCGCAGGAGCGCCCCGTTGGAATTAGCACACCGGTATAGCCAAGACGATCCGCCGCTTGCGCAATTTG -TTGCAGATAACCGTGATCAACCGGGCGTGAACCTTCTTCCGTTCCCAGATAATGCCCGTCACCGTGGGTCGGTAAAAACC -AGAACATATTCAGACTCATAATTGTTTTCCTTCCAGTTGAGTGGGCTGCCAGATGCGCTGGCGAATATCGACTTTTTTCG -GCACCAGACGATTTTCATAAAACAGATCTGCCGTTTGCTGCTGTAAGGCGGCAACCTCGGCGTTAACCGGTTTGATGGTG -GTAGGAGGGCGATGATCTAAGTAAGAGGCAATCACCGGTGCCGGTAAGCCCATCGTTTTTGCCAGTAAAGCGATGCTTTG -CTCGCGCTGGCTGCGGGTTAACGCATCGGCCTCACTAAAGGTTGCCAGTACGCCCTGAATAAAAGCGCCGTTTTTTTCTG -CATAGGGACGAGCTGCCAGATAAAACGATCCAGTTTGATTGAGATCGGTGCCGTCTTTCAGCACCCGCACGCCGCCCTGT -AATAATGCAGCAGAGTAGTAGGGATCCCAGATAGCCCAGGCGTCAACGTTACCTTGCTGGAACGCGGCGCGGGCATCAGC -GGGCGTCAGGTAAGTGGGTTGGATATCGGTAAACTTAAGTCCGGCCTGACGCAGTGCACGCAGTAAAAGGTTGTGTGAAC -TGGAACCTTTCTGAAAGGCAACTTTGTGACCTTTAAGATCGGCTACGGTTTTGATCGGGCTGTTTTCTGCCACCAGAATC -ACTTCGGCTTTGGGCTTCGGTGGCTCGACGCCCACGTACACCAAATCAGCCCCGGCAGCCTGGGCAAAGATTGGCGGAAT -ATCCCCGGTACTGCCGAGATCAATACTGCCAACGTTTAACGCTTCCAACATTTGCGGACCCGCGGGGAACTCCACCCAGG -AGATTTTTGATTCCGGATAGCGTTTTTCCAGTAACTGGTGGCTTTTTGCCAGCACCATACCAATACTGCCTTTCTGATAG -CCTATACGTAACGCTTCAGGCGAGGATTCTGCAGCAACCGCAAAAGTAGAGACGCTAAGCAATCCCGCCAGCGCCAGTTT -AATGATGTTACGCATGGGCATTACCTCGCAGAGACAGAAGGTCAGGAACCTGAACATCGCGGCGGTGCAATGCCTGCCAG -AAAGTTTCTAGCGCGGTATCAAGACGGGTTTGCAGATTTGGCGTGAACTGGGGTCTGTGATGGTAATCAATTACTTGTGA -GTCATCGGCAAACACGCCGTGCAGGATCTCCTGAGCTTTCAGTGCGCTTAAAACTGGTTTAAGGGCATAATCGACCGCCA -GCAGATGGGCCACGGTACCGCCCGTCGCCAGCGGTAGCACCACTTTGCCTTGCAAAGCGCGTTCTGGCAGCAGGTCGAGC -AGGGTTTTCAACGCACCGGAATAGGCGGCTTTATACACAGGCGTGGCGACAATCAGCCCATCGGCCTGTTGCAGCTGTTC -GGTGAAGGTCTTGAGTGCCGGACTATCGAAACGAGCATAAAGTAGATCTTCCGGGGCGAAGTTTTGCAGATTCCAGTGAT -AAACCTCTACATCCAGGCCATTTAGTTTTTCCCGCGCATATTCCAGCAAGGAGCTGGAGCGAGAAGGAAAGCGAGGACTA -CCCGCCAGGGTGATGACACGCATACTCTCTCCTTATAACCAATTGTTCTTTTTTTGTTAACATTGATAACAATTCGGTCA -GTCTGTCGGAGAGACAAGAAAATTCCAAATATAAATTTTGTGTATCTTTTTCTGAAAATAAACTAAAGAAAGGGCTTTAT -ATATCACGCATATTTATTTATTGGATAGTCATTAGATGTTGAATCAATGAATTACTCGTTCAGTTAATATTTAAATATTC -ATGAAATCTATAAATTAAAGATTTGTCACTTATTGGATTTAGTATGCTTGATTTAAATGGCGGACAATTATTGTTATTAT -TAAGTCTAATGTCATTTAAAGGCATTATCATATTTACGAAGAGATCAGGATGATAACGATGAAAAAAAGTGTATTGACGG -CGTTTATAACTGTGGTATGTGCAACGTCCAGCGTTATGGCTGCTGATGATAATGCTATCACGGATGGCTCAGTAACATTT -AATGGTAAAGTTATTGCTCCAGCTTGTACCCTGGTAGCTGCGACGAAAGATTCCGTGGTGACTTTGCCAGATGTTAGTGC -CACGAAGTTGCAAACCAATGGTCAGGTTTCTGGCGTGCAAATTGATGTGCCAATTGAATTAAAAGATTGTGATACTACCG -TAACAAAAAATGCAACGTTCACCTTTAATGGCACTGCGGATACTACTCAGATTACAGCGTTTGCTAACCAGGCCTCATCT -GATGCTGCTACAAACGTGGCCCTGCAAATGTATATGAATGATGGTACAACGGCCATCACGCCAGACACAGAAACCGGGAA -CATTTTGTTGCAGGATGGAGATCAGACGTTGACTTTTAAAGTTGATTATATCGCTACGGGGAAAGCGACTTCAGGTAATG -TGAATGCGGTAACAAATTTCCATATTAACTATTATTAATAGAACTCATTAATTGTTTTATTAATTAGTACCCCTCCAGTG -TTCTGGAGGGGATATTCATATTTTTTAAGAGTGACTATTTATGAAAACTTGCATAACAAAGGGAATTGTGACCGTAAGTT -TAACGGCAATATTACTCAGCTGCTCATCCGCATGGGCGGCAGGTAAAGGCGGGATTGGACTTGCAGCAACACGTCTTGTT -TATTCAGAAGGTGAAGAGCAAATTTCACTGGGTGTACGTAACACCAGTCCGGATGTTCCTTATCTTATTCAGTCATGGGT -GATGACCCCAGATAATAAAAAATCAGCAGACTTTATTATTACACCACCGCTATTTGTGCTGAATCCGGCAAATGAGAATC -TGTTACGCATTATGTACATTGGAGCGCCGTTGGCGAAAGACAGAGAAACCCTTTTCTTCACTAGCGTACGGGCAGTCCCT -TCAACAACGAAGCGGAAAGAGGGAAATACCCTGAAGATTGCCACACAAAGCGTCATCAAACTTTTCTGGCGACCAAAAGG -TTTAGCGTATCCCTTAGGCGAGGCTCCGGCGAAACTGCGTTGCACTTCGTCAGCTGACATGGTTACGGTCAGTAACCCAA -CACCTTATTTCATTACCCTGACAGACCTGAAAATAGGTGGAAAAGTAGTTAAAAATCAAATGATTTCCCCCTTTGATAAA -TACCAATTTTCTCTGCCAAAGGGGGCCAAAAATAGCAGCGTAACGTATCGAACCATCAATGACTACGGGGCGGAAACGCC -GCAACTCAACTGTAAATCGTAAGCCGTCTTCAGTTAAGAGAGCGAGATGTATAGAACTCATCGACAACACAGCCTGTTAA -GCTCTGGTGGAGTGCCATCGTTTATTGGTGGGCTGGTGGTGTTTGTGTCGGCAGCGTTCAATGCACAAGCTGAAACCTGG -TTCGATCCTGCTTTTTTCAAAGATGATCCCTCAATGGTGGCCGATTTGTCTCGTTTCGAAAAAGGACAAAAAATAACGCC -AGGGGTTTATCGTGTCGATATTGTTCTGAATCAGACAATTGTAGATACGCGCAACGTCAATTTTGTTGAGATAACGCCAG -AGAAGGGGATTGCCGCCTGTTTGACGACTGAAAGCCTGGATGCAATGGGTGTTAATACTGATGCGTTTCCGGCTTTTAAA -CAACTGGACAAACAAGCGTGTGTGCCATTGGCGGAGATTATTCCGGATGCCAGCGTAACGTTTAATGTGAATAAACTCCG -TCTGGAAATTTCAGTACCGCAAATCGCCATCAAAAGTAATGCCCGTGGTTATGTCCCCCCTGAACGTTGGGATGAAGGGA -TCAACGCGCTATTACTGGGATATTCGTTTAGCGGGGCTAACAGTATTCATAGCAGCGCAGACAGTGATTCTGGCGACAGC -TATTTTCTGAATTTAAACAGTGGCGTTAATTTAGGCCCATGGAGATTGCGCAACAATTCAACATGGAGTCGTAGTAGTGG -CCAAACCGCAGAATGGAAGAATCTCAGCAGCTATTTGCAACGGGCGGTTATTCCTCTGAAAGGCGAACTGACCGTAGGTG -ATGATTATACTGCAGGCGATTTTTTCGATAGTGTCAGCTTTCGTGGTGTGCAGCTGGCGTCAGATGACAACATGCTGCCA -GACAGCCTGAAAGGGTTTGCGCCTGTGGTGCGTGGTATCGCCAAAAGCAATGCCCAGATAACGATTAAGCAAAATGGTTA -CACCATTTACCAAACTTATGTATCGCCTGGTGCTTTTGAAATTAGTGATCTCTATTCCACGTCGTCGAGCGGTGATTTGT -TAGTTGAAATCAAAGAAGCGGACGGCAGCGTCAATAGCTACAGCGTACCGTTCTCCAGTGTGCCATTACTCCAGCGTCAG -GGGCGAATCAAATACGCGGTGACACTGGCGAAATACAGAACCAATAGTAATGAACAGCAGGAGAGCAAATTTGCCCAGGC -CACGTTGCAGTGGGGCGGACCGTGGGGAACGACCTGGTATGGTGGTGGACAATATGCTGAATATTACCGTGCCGCCATGT -TTGGTCTGGGATTTAACCTCGGCGATTTCGGAGCAATTTCGTTCGATGCGACCCAGGCGAAGAGTACGCTAGCAGATCAA -AGCGAACATAAAGGTCAGTCATATCGTTTTCTGTATGCCAAAACGCTCAACCACTTGGGCACTAACTTTCAATTGATGGG -CTATCGCTATTCGACGTCGGGTTTCTACACCCTTTCCGACACCATGTATAAACATATGGATGGCTACGAATTTAATGACG -GTGATGATGAAGATACGCCGATGTGGTCGCGTTATTACAATTTGTTTTACACCAAACGTGGCAAACTGCAGGTCAATATC -TCCCAGCAATTAGGCGAGTACGGTTCGTTTTATTTAAGTGGTAGCCAGCAAACTTACTGGCATACGGATCAACAGGATCG -GCTATTACAGTTTGGCTACAACACGCAAATTAAAGATCTTTCGCTGGGGATTTCCTGGAACTACAGTAAGTCCCGTGGTC -AACCTGATGCTGATCAGGTGTTTGCTCTAAATTTTTCCCTGCCGCTCAATCTGTTGCTCCCCAGAAGTAATGATAGCTAT -ACCAGGAAAAAAAATTACGCCTGGATGACCTCTAACACCAGTATCGATAACGAAGGGCACACTACACAAAACCTGGGTTT -AACGGAGACATTACTCGATGACGGTAACCTGAGCTACAGCGTGCAACAGGGATATAACAGCGAGGGGAAAACGGCTAATG -GTAGCGCCAGCATGGATTACAAAGGGGCGTTTGCGGATGCCCGAGTGGGCTACAACTACAGCGATAACGGCAGTCAACAA -CAACTGAACTACGCTCTTTCAGGCAGTTTAGTTGCCCATTCACAGGGCATTACCCTGGGGCAATCGCTGGGGGAAACTAA -CGTTCTGATTGCAGCACCAGGCGCAGAGAATACTCGTGTGGCGAACAGCACCGGGCTGAAAACTGACTGGCGCGGATATA -CCGTTGTTCCTTATGCCACTTCTTATCGGGAAAATCGAATCGCACTTGATGCGGCGTCGTTAAAACGTAACGTGGATCTT -GAAAATGCAGTAGTCAACGTGGTTCCCACCAAAGGGGCGTTGGTTCTGGCGGAGTTCAATGCCCATGCGGGTGCAAGGGT -ATTAATGAAAACATCAAAGCAGGGTATACCGCTGCGTTTTGGCGCGATAGCGACGCTGGACGGCGTACAGGCTAATAGCG -GCATAATTGATGATGATGGCTCGCTCTATATGGCGGGTTTACCGGCGAAGGGAACAATAAGCGTGCGCTGGGGCGAAGCT -CCCGATCAAATTTGTCATATCAATTACGAGCTTACCGAACAACAAATTAACTCTGCGATTACGCGAATGGATGCCATATG -CAGATAATCTTTGGAGAAAAATGCGTGTCATTACTACGACTATTTTTTGCCGCCGTCTTAATGTTATGGTGCGCTCAAAC -CGCTGCTTATAGCGGGCAGTGTCATACTACTCAGGGGAATCCGTATATTGGCGTCAATTTTGGCGTTAAAACCCTGGAGG -AAGAAGCAAATACGGCAGGGGTAGTTAAAGACAAATTTTATCAGTGGAACGAATCGAATGATTATTATGTTTCCTGTGAT -TGCGATAAAGACAATGTCAGAAGTGGCCGATGGGCATTCGCCGCGGATTCACCGTTAGTCTATTTAGGCGACAACTGGTA -CAAAATTAATGACTATCTTGCCGCCAAAGTTTTATTGCAGGTTAAAGGCAGTTCTCCTACTGCGGTTCCTTTCGAAAACG -TGGGCACAGGGGGGGATACCCGATGGCATATTTGCGACCCTGGCGGTCAACGTTTAGGTGGGCAGGGGGCAAGCGGTAAT -AGCGGTAGCTTTTCCCTGAAAATATTGCAGCCGTTCGTTGGCTCGGTCGTCATTCCTCCTATGGCGCTGGCGCGATTATA -TGAATGCTACAACATACCCGCAGGTGATTCCTGCACGACTACAGGTACACCGGTTTTAGTGTATTACCTGTCTGGTACGA -TCAATTCACTTGGCTCATGTTCCGTCAATGCCGGAGAGACAATTGAAGTTGATTTAGGTGATGTCTTCGCTGCCAATTTC -CGTGTTGTAGGGCATAAACCTCTTGGGGCCAGAACGGCAGAACTTGCAATTCCAGTCAGGTGTAACACGGGAAACGCGGG -ATTAGTTAATGTCAACCTGAGTCTGACGGCAACCACAGACCCCAGCTATCCCCAGGCGATTAAGACGTCACGTCCTGGCG -TGGGCGTGGTGGTGACCGATAGCCAGAACAACATTATTTCCCCTGCTGGTGGAACATTACCGCTCTCTATTCCTGATGAT -GCAGACAGTATCGCGCGAATGAATGTCTATCCAGTCAGCACGACAGGTGTACCACCAGAAACCGGGCGATTTGAAGCCAC -GGCAACGGTGAGAATAAATTTTGATTAACGCGTGAACGTATGAAGAAAAAAACGATATTTCAGTGCGTTATCTTGTTCTT -TAGCATTCTTAACATCCATGTCGGGATGGCTGGGCCTGAACAAGTTAGTATGCATATTTATGGGAATGTGGTCGATCAGG -GCTGTGATGTCGCCACCAAAAGTGCATTACAAAATATTCATATTGGTGATTTTAATATCAGTGATTTTCAGGCCGCGAAT -ACCGTAAGCACTGCTGCTGATTTGAATATCGATATCACCGGTTGTGCCGCTGGTATTACTGGCGCGGACGTCCTTTTTAG -CGGCGAGGCTGACACCCTTGCGCCGACACTGCTCAAACTAACTGACACAGGCGGAAGCGGTGGTATGGCAACGTGGATTG -CCGTGCAAATTCTTGATGCGCAAAGTCAGCAAGAAATCCCGCTCAATCAGGTCCAGCCTCTTACGCCCTTAAAAGCCGGG -GATAACACACTCAAATATCAACTTCGTTATAAGTCCACAAAGGCGGGAGCAACGGGCGGTAATGCGACGGCGGTTCTCTA -TTTTGATCTGGTTTACCAGTGAAGGAGTGATGTTGAAACGGATAATCTGGATTCTGTTCTTATTGGGATTAACGTGGGGC -TGTGAGCTATTTGCCCATGATGGCACGGTCAACATTAGCGGATCGTTTCGCCGTAATACATGCGTGCTGGCACAGGATAG -CAAGCAAATCAATGTGCAGTTAGGCGATGTCTCGCTGACACGTTTTTCTCATGGGAATTATGGCCCGGAGAAATCTTTCA -TCATTAATTTGCAGGATTGCGGAACAGATGTCAGCACGGTTGACGTCACCTTTTCAGGAACCCCCGACGGAGTGCAGAGC -GAAATGTTGTCCATTGAAAGTGGTACGGATGCAGCCAGCGGGCTGGCAATTGCGATTCTGGATGATGCGAAGATATTGAT -TCCGCTTAACCAGGCGAGTAAAGACTACAGCCTACATAGCGGTAAGGTGCCATTAACTTTTTATGCGCAATTGCGACCTG -TCAATAGCGATGTGCAGTCGGGTAAAGTGAATGCCAGCGCGACATTTGTACTTCATTATGACTAATACGTGGAACAGATT -GGCGCTCTTGATTTTCGCCGTTTTATCGCTGCTGGTGGCGGGTGAATTGCAGGCAGGAGTGGTGGTCGGCGGAACGCGAT -TTATCTTTCCGGCAGACAGAGAATCGATATCTATTTTACTGACTAATACCAGTCAGGAATCCTGGCTTATTAACAGTAAA -ATCAACCGCCCAACGCGTTGGGCCGGGGGGGAAGCGTCGACAGTGCCAGCACCATTACTGGCCGCTCCGCCACTTATTCT -CCTGAAGCCCGGTACGACAGGCACGTTGCGCTTGCTGAGAACGGAAAGCGACATCTTGCCTGTGGATCGCGAAACGCTAT -TTGAGTTAAGCATTGCCAGCGTGCCATCCGGCAAAGTTGAAAATCAGAGCGTAAAAGTGGCGATGCGCTCGGTATTTAAA -CTGTTCTGGCGACCCGAAGGTTTGCCGGGCGACCCGCTGGAAGCTTATCAACAATTACGCTGGACACGGAATTCGCAGGG -TGTACAACTCACTAACCCAACGCCTTATTACATTAACCTGATTCAGGTGAGTGTAAATGGTAAAGCGTTAAGTAATGTGG -GAGTTGTGCCGCCTAAAAGCCAGCGTCAGACAAGCTGGTGTCAGGCAATCGCACCGTGTCATGTCGCCTGGCGGGCGATA -AATGATTACGGCGGGTTGAGTGCAAAGAAGGAGCAAAATCTGCCCTGAAACAGGTTCGGAAAACGTTTGCGTTTTTTTTG -CCGCAGGTCAATTCCCTTTTGGTCCGAACTCGCACATAATACGCCCCCGGTTTGCACACCGGGAATCCAGGAGAGTTCAT -GTACTACCCCTTCGTTCGTAAAGCCCTTTTCCAGCTCGATCCAGAGCGCGCTCATGAGTTTACTTTTCAGCAATTACGCC -GTATTACAGGAACGCCGTTTGAAGCACTGGTGCGGCAGAAAGTGCCTGCGAAACCTGTTAACTGCATGGGCCTGACGTTT -AAAAATCCGCTTGGTCTGGCAGCCGGTCTTGATAAAGACGGGGAGTGCATTGACGCGTTAGGCGCGATGGGATTTGGATC -GATCGAGATCGGTACCGTCACGCCACGTCCACAGCCAGGTAATGACAAGCCGCGTCTCTTTCGTCTGGTAGATGCCGAAG -GTTTGATCAACCGTATGGGCTTTAATAATCTTGGCGTTGATAACCTCGTAGAGAACGTAAAAAAGGCCCATTATGACGGC -GTCCTGGGTATTAACATCGGCAAAAATAAAGATACGCCAGTGGAGCAGGGCAAAGATGACTATCTGATTTGTATGGAAAA -AATCTATGCCTATGCGGGATATATCGCCATCAATATTTCATCGCCGAATACCCCAGGATTACGCACGCTGCAATATGGTG -AAGCGCTGGATGATCTCTTAACCGCGATTAAAAATAAGCAAAATGATTTGCAAGCGATGCACCATAAATATGTGCCGATC -GCAGTGAAGATCGCGCCGGATCTTTCTGAAGAAGAATTGATCCAGGTTGCCGATAGTTTAGTTCGCCATAATATTGATGG -CGTTATTGCAACCAATACCACACTCGATCGTTCTCTTGTTCAGGGAATGAAAAATTGCGATCAAACCGGTGGCTTAAGTG -GTCGTCCGCTTCAGTTAAAAAGCACCGAAATTATTCGCCGCTTGTCACTGGAATTAAACGGTCGCTTACCGATCATCGGT -GTTGGCGGCATCGACTCGGTTATCGCTGCGCGTGAAAAGATTGCTGCGGGTGCCTCACTGGTGCAAATTTATTCTGGTTT -TATTTTTAAAGGTCCGCCGCTGATTAAAGAAATCGTTACCCATATCTAATTATTTCTTCGAATTCCTCTTTATAAGATAA -TCAGGGCTTTATTTTCAGCCCTGGTTGTTTTATATTCATCGCTGTTGCTTATTTAGACATTTTGTACTTTTATTGTTGAG -GTTATTAAGCGAAGCGACAATGGATTGTGTTGCTGCGGTTTTATAGGGTAGGGGAGAGGCAGATGCGAATTAAACCAGAC -GATAACTGGCGTTGGTATTACGATGAAGAGCACGATCGAATGATGCTCGATTTAGCCAATGGTATGCTATTTCGCTCACG -TTTTGCGCGCAAGATGTTGACTCCAGATGCCTTTTCTCCCGCAGGCTTTTGCGTTGACGACGCCGCGCTCTATTTCTCTT -TTGAAGAAAAGTGCCGCGATTTTAATTTATCTAAAGAACAAAAAGCCGAACTGGTGCTGAATGCACTGGTAGCAATTCGC -TATCTCAAACCGCAAATGCCGAAAAGCTGGCATTTTGTTTCCCATGGTGAAATGTGGGTGCCCATGCCGGGCGATGCGGC -CTGCGTTTGGTTGAGCGATACTCACGAGCAGGTCAATTTGCTGGTCGTTGAATCTGGCGAAAATGCCGCACTATGCCTGC -TGGCACAACCCTGCGTTGTTATTGCGGGTCGCGCGATGCAGTTGGGCGACGCCATTAAAATCATGAACGACAGGCTGAAA -CCGCAGGTTAATGTTGACAGCTTCAGCCTCGAACAGGCAGTCTAACGCGCCAACTTAAGTGCAGTCTTCGGTACACAGCT -ACAGCAAAGAATGGTGCCATCATCGCCCATTGCTGATTTTTTCAGCGGCGTGACTTCGCCTTCTAAAAGCTGAACACGGC -AACTTCCACAAATGCCCGCGCGGCAAGAATAAGGGATACGAATTCCCTGATTTTCTAATTGCTCCAGCAACACCTGTTGG -TTATTTCCACGAAATGCCTGTCCCTGCCAGTCAATATCTACATTTGCGTCCGGTTGTTGCGTGATGTTGGCGGTATCATC -AGCGGCAGCTGCGCCGTAAATTTTTGCCGGAGCCGTTGCCAGAATTTCCACCTCATCGCCAACGCGAATCACGCCGCTAT -TACGGGCAATTAAATTCTGACCAAAATCGACATCGCCGTTATCCTGGGCAGTGCGGAAAGATTGCAATGTTTTTAATGGT -TCGCCTGCCGGATGTTTTTGCCCTTTTTCTGGGCTGACGGTGGTGAAAATACAGCGGCTACAAGGTTTAACCACATCAAA -CACCACATCACCAATGCGAATCACTTTCCAGCGATCTTCTTCCCAGGCTGACGCGCCGGAAACCACCAGATTGGGGCGGA -ATTGCTCCATTTTTACACTGGCCGGACAACGTTGTTGGAGATCACGTAACGAGGCTTCGTTAGCAAGAAGGTAAGGATAG -CCATCAGCAAATGACAGAGGTACAGTGTTGTGGCGTTTCACGCGCCGGGTCATTTGTGGCCCCACCCAGCGTAATTGCAC -TTCGCGGGAGAAAAATCCACTTAGCCATTTGTTGATCGCGTCTGGCGCAATTCGCGCGGTAAAATGTGTGCCCCAAACTT -CGGTTGGTGCGTCTTGTGTGGCGAAATCAGCAAAACGAACATATGCGCTACTGCCATCTGGTGCGGTGAGATGCAAGCCA -TCATGCACAGGTGAAGGAGTAAACCGTACCATCTGGGGAAACTGGCGAGCGGTAATAAACGTACCGTCAGGTTCCGTGAT -CATAAAGATGCGATCGAAGGCCAGACCACTGACATCTGCCAGAGCATGTGTAAGACCAATGCCGCGCATCGATTTAACAG -GATGAATAAAAAGCCGGATTAATGTCGCCACGGTGCGGTCCTCAAATGAAAATAAGCCCTCAACTTTATGACATGACGCG -CTTATTAGCTATAATGCGCAACAATTTTCTTAGCGCCTGTCCCATTAGGCTATTTTATTTGTCAGTTTGGCCCTGGGTTA -TGCTCGAAATCCTCACGTACTTGTGTACGCTCCGGTTTCTCCGCGCTGTCCATGTCCAGACTGACTGCAACAATTACGCC -TACTGCGGTAGGCTCTTAGAGTAAAAGTGACGATATGAATTCTCTGTTTGCCAGTACGGCCCGTGGGCTGGAAGAGCTGT -TAAAAACTGAACTGGAAAACCTGGGGGCCGTTGAATGCCAGGTGGTTCAGGGTGGGGTCCATTTCAAGGGCGACACACGG -CTTGTTTACCAGAGCCTGATGTGGAGCCGCCTGGCCTCGCGTATTATGTTGCCGCTGGGCGAGTGTAAGGTTTACAGCGA -TTTAGACCTCTATCTCGGTGTTCAGGCGATCAACTGGACAGAGATGTTTAATCCTGGCGCGACCTTCGCTGTCCACTTCA -GTGGTTTGAATGACACCATCCGCAACAGTCAGTACGGCGCGATGAAAGTGAAAGACGCGATCGTCGATGCTTTCACGCGG -AAAAATCTGCCGCGTCCAAATGTTGATCGCGATGCGCCGGATATCCGCGTTAACGTCTGGCTGCATAAAGAAACCGCCAG -TATCGCTCTTGATCTGAGTGGTGATGGTTTACATCTGCGTGGCTATCGCGATCGTGCTGGTATTGCGCCGATCAAAGAAA -CCCTGGCAGCCGCTATTGTGATGCGATCCGGCTGGCAGCCAGGAACACCGCTGCTCGATCCGATGTGTGGTTCCGGTACG -TTGCTGATTGAAGCAGCGATGCTGGCGACCGATCGCGCACCAGGCTTGCACCGTGGGCGTTGGGGCTTTAGCGGCTGGGC -GCAGCATGATGAAGCTATCTGGCAGGAAGTGAAAGCGGAAGCGCAAACTCGCGCCCGTAAAGGCCTGGCTGAGTATAGCT -CTCATTTTTACGGTTCGGACAGCGACGCACGGGTGATTCAACGTGCACGCACTAACGCCCGTCTTGCGGGGATTGGTGAA -CTGATCACCTTTGAGGTGAAAGATGTCGCGCAACTGACCAATCCGCTGCCGAAAGGGCCGTACGGCACAGTGTTGAGCAA -CCCGCCATACGGGGAACGTCTGGACAGCGAACCGGCGCTGATTGCGCTGCATAGCCTGCTGGGTCGGATCATGAAAAACC -AGTTTGGTGGCTGGAATCTCTCTTTGTTTAGTGCCTCGCCGGATCTGCTAAGCTGCTTGCAGCTGCGTGCAGACAAACAG -TACAAGGCGAAAAACGGCCCGCTGGACTGCGTACAGAAAAATTACCACGTTGCCGAAAGCACTCCAGACAGCAAACCGGC -GATGGTAGCGGAAGACTACACCAACCGCCTGCGTAAGAACCTCAAAAAATTCGAGAAGTGGGCTCGCCAGGAAGGGATTG -AATGTTACCGCCTGTATGACGCCGATCTGCCAGAATATAACGTTGCCGTTGACCGTTATGCCGACTGGGTGGTGGTGCAG -GAGTATGCGCCGCCAAAAACTATTGATGCTCACAAAGCGCGTCAGCGTCTGTTCGATATTATCGCTGCAACCATTTCGGT -ACTGGGGATTGCGCCAAACAAACTGGTGCTGAAAACCCGTGAACGCCAGAAGGGCAAAAACCAATACCAGAAACTGGGCG -AGAAGGGCGAGTTTCTTGAAGTTACCGAATATAACGCTCACTTGTGGGTGAACCTGACGGATTATCTCGATACTGGTCTG -TTCCTCGATCACCGCATCGCCCGTCGTATGCTCGGTCAGATGAGCAAAGGCAAAGATTTCCTCAACCTGTTCTCTTATAC -CGGCAGCGCCACCGTGCATGCGGGATTAGGCGGTGCACGCAGCACCACCACCGTGGATATGTCGCGTACTTATCTGGAAT -GGGCAGAACGCAACCTGCGTCTGAATGGCCTGACCGGGCGTGCGCATCGCCTGATTCAGGCCGATTGCCTGGCGTGGCTG -CGTGAGGCAAATGAACAGTTCGATCTGATCTTTATCGATCCGCCAACCTTCTCTAACTCAAAACGAATGGAAGATGCGTT -TGATGTTCAGCGCGATCATCTGGCGCTGATGAAAGATTTGAAACGTCTGCTGCGTGCAGGTGGGACGATCATGTTCTCGA -ACAACAAACGTGGCTTCCGTATGGATCTCGACGGCCTGGCAAAACTGGGACTGAAAGCACAAGAAATTACGCAAAAAACG -CTCTCCCAGGATTTCGCCCGTAACCGCCAGATCCACAACTGCTGGCTGATTACCGCAGCCTGAAAGGAATAGTAATGTCA -TTAATCAGTATGCATGGCGCATGGCTGTCGTTCAGCGACGCGCCGCTTCTCGATAACGCAGAACTGCATATCGAAGATAA -CGAACGTGTTTGTCTGGTGGGCCGCAACGGCGCAGGCAAATCGACGTTAATGAAAATCCTCAACCGTGAACAAGGGCTGG -ATGACGGTCGCATTATTTACGAGCAAGATTTGATTGTAGCGCGTCTGCAACAGGATCCGCCGCGTAACGTTGAGGGTAGC -GTTTATGATTTCGTTGCCGAAGGCATTGAAGAACAAGCGGAATATCTGAAACGCTATCACGATATTTCGCGCCTGGTGAT -GAACGACCCGAGCGAGAAAAATCTCAACGAACTGGCGAAGGTTCAGGAACAGCTGGATCACCACAACCTGTGGCAGCTGG -AAAACCGCATCAACGAAGTGCTGGCGCAACTGGGGTTAGATCCTAACGTTGCGCTGTCGTCGCTTTCCGGCGGCTGGTTG -CGTAAAGCGGCATTAGGACGCGCGCTGGTGAGTAATCCGCGCGTGCTGTTGCTTGATGAACCGACAAACCACCTGGATAT -TGAAACCATCGACTGGCTGGAAGGGTTTTTGAAAACTTTCAACGGGACGATTATTTTCATCTCCCACGACCGTTCGTTTA -TCCGCAATATGGCGACGCGCATTGTTGATCTCGATCGCGGCAAGCTGGTGACCTATCCAGGGAATTACGACCAGTACCTG -CTGGAAAAAGAAGAAGCCCTGCGCGTGGAAGAATTACAAAATGCCGAGTTCGATCGCAAACTGGCGCAGGAAGAGGTGTG -GATCCGCCAGGGGATCAAAGCACGCCGTACCCGTAATGAAGGCCGCGTACGCGCCCTGAAAGCGATGCGTCGCGAACGTG -GTGAACGTCGCGAAGTGATGGGTACCGCAAAGATGCAGGTGGAAGAGGCCAGCCGCTCCGGTAAAATCGTTTTCGAAATG -GAAGACGTTTGCTACCAGGTTAACGGTAAGCAACTGGTGAAAGATTTTTCTGCCCAGGTTCTACGTGGCGACAAAATTGC -CCTGATTGGTCCGAATGGGTGCGGCAAAACCACGCTGCTAAAACTGATGCTCGGTCAGCTTCAAGCGGACAGCGGGCGTA -TTCACGTTGGCACCAAACTGGAAGTGGCTTATTTCGATCAGCACCGCGCGGAACTGGATCCCGATAAAACGGTGATGGAT -AACCTTGCCGAAGGTAAGCAAGAGGTGATGGTTAACGGCAAGCCACGCCACGTATTGGGCTATTTGCAGGACTTTCTGTT -CCATCCGAAACGGGCGATGACGCCGGTACGTGCGCTTTCTGGCGGTGAGCGGAACCGCTTGCTGCTGGCGCGTTTGTTCC -TCAAACCAAGCAACTTATTGATTCTTGACGAACCGACCAACGATCTTGATGTCGAAACGCTGGAACTGCTGGAAGAACTG -ATCGACAGCTATCAGGGCACGGTATTGCTGGTTAGCCACGATCGTCAGTTTGTCGATAACACCGTTACAGAATGTTGGAT -CTTCGAAGGCGGCGGTAAAATTGGTCGTTATGTCGGCGGTTATCATGATGCCCGTGGTCAGCAAGAGCAGTATGTGGCGC -TCAAACAGCCTGCGGTGAAAAAAACCGAAGAAGCCGCCGCGGCAAAAGCAGAAACTGTAAAACGCAGCAGTAGCAAACTA -AGCTATAAATTGCAGCGCGAACTGGAGCAGCTACCGCAATTGCTCGAAGATCTGGAGGCGAAGCTGGAAGCCCTACAGAC -GCAAGTGGCGGATGCTTCCTTCTTCAGTCAGCCGCATGAGCAGACGCAAAAAGTGCTTGCTGATATGGCTGCTGCAGAGC -AGGAGCTGGAGCAAGCCTTTGAACGCTGGGAGTATCTTGAAGCGTTAAAAAATGGTGGCTGATCGCAAAATAGTCGATTT -AAACAGAGACAGCTGACAACGGTAAAATTGCCTGATGAACTGGGTTTATCAGGCATGAAAACCAACACTTTGTTAGTCAT -CTGTAAAATAGCGCATCATTAAGGAGTACCAATGTGCGAACATCATCATGCCGCGAAGCACATCCTGTGCTCGCAGTGTG -ACATGCTGGTGGCGTTACCGCGCCTTGAGCATGGTCAGAAAGCGGCATGTCCCCGGTGTGGCACAACGTTAACCGTGGCG -TGGGATGCCCCTCGGCAGCGTCCCACCGCCTATGCGTTGGCTGCACTGTTCATGCTGTTGCTGTCCAACTTGTTTCCTTT -TGTGAATATGAACGTTGCAGGAGTTACCAGTGAAATTACATTACTGGAAATTCCCGGCGTGCTTTTTTCTGAGGACTACG -CCAGCCTCGGCACCTTTTTCCTGTTGTTTGTGCAACTGGTTCCCGCGTTTTGTCTGATAACCATTCTGTTACTGGTGAAT -CGCGCGGAATTACCGGTCCGTTTAAAAGAGCAACTGGCACGGGTGCTTTTTCAACTCAAAACCTGGGGAATGGCGGAGAT -TTTCCTCGCGGGTGTGCTGGTCAGTTTCGTTAAACTGATGGCTTACGGCAGCATTGGGGTAGGCAGCAGCTTTCTCCCCT -GGTGTTTATTTTGTGTCCTGCAACTGCGCGCTTTTCAGTGCGTTGATCGTCGCTGGTTATGGGACGACATCGCCCCGATG -CCAGAACTGCGCCAGCCGCTAAAACCAGGCGTCACGGGGATACGTCAGGGGCTGCGTTCGTGCTCCTGTTGTACGGCAAT -CCTTCCTGCTGATGAACCCGTGTGCCCGCGTTGTAGTACCAAAGGGTACGTTCGGCGTAGAAACAGCCTGCAGTGGACAC -TCGCGCTGCTTGTAACGTCCATCATGCTGTATCTTCCGGCTAATATTTTGCCCATCATGGTGACGGATTTATTAGGCTCG -AAGATGCCGTCGACGATTCTCGCTGGGGTCATTCTGTTATGGAGCGAAGGCTCTTATCCCGTCGCTGCGGTGATCTTTCT -GGCCAGTATTATGGTGCCAACGTTAAAGATGATCGCCATCGCGTGGCTGTGTTGGGATGCCAAAGGGCATGGCAAGCGCG -ACAGTGAAAGAATGCATTTGATTTATGAAGTTGTTGAGTTTGTAGGCCGCTGGTCGATGATTGACGTTTTCGTTATCGCG -GTGCTCTCGGCGCTGGTGCGTATGGGAGGTTTAATGAGTATTTATCCGGCAATGGGTGCATTAATGTTTGCTTTAGTCGT -CATAATGACAATGTTTTCTGCTATGACGTTTGACCCGCGTTTGTCGTGGGATCGTCAACCTGAATCAGAGCATGAGGAGT -CCTGACAGTATGGAATCTAATAATGGGGAAGCCAAAATCCAGAAAGTGAAGAACTGGTCTCCCGTGTGGATATTTCCTAT -CGTCACGGCGCTCATTGGGGCCTGGGTTCTTTTTTATCATTACAGCCATCAGGGACCGGAAGTGACCCTGATCACCGCGA -ATGCGGAAGGAATTGAAGGTGGCAAAACCACCATTAAAAGCCGTAGCGTTGACGTCGGCGTGGTTGAAAGCGCCACACTG -GCTGATGATTTGACGCACGTTGAAATCAAAGCGCGGCTGAATTCCGGTATGGAAAAATTGCTGCATAAAGACACCGTCTT -TTGGGTGGTGAAACCGCAGATTGGTCGCGAAGGGATTAGCGGCCTGGGAACGCTGCTGTCTGGAGTTTATATCGAACTGC -AGCCAGGCGCGAAAGGCAGCAAAATGGATAAATACGATTTGCTGGACTCGCCACCGTTGGCCCCGCCTGATGCGAAAGGT -ATCCGTGTGATTCTCGATAGCAAAAAAGCCGGGCAGCTCTCGCCAGGAGATCCGGTGCTGTTCCGTGGCTATCGGGTAGG -TTCGGTTGAAACCAGCACCTTCGATACACAAAAACGCAATATCAGCTATCAACTGTTCATCAATGCACCTTATGACCGAC -TGGTGACCAACAATGTTCGCTTCTGGAAAGATAGTGGCATTGCGGTTGATCTGACGTCAGCAGGGATGCGTGTGGAGATG -GGCTCATTGACAACGCTGCTGAGTGGCGGTGTCAGCTTTGATGTGCCGGAAGGTCTGGATTTAGGGCAGCCAGTGGCACC -GAAAACAGCTTTCGTTTTGTATGATGATCAGAAGAGCATTCAGGATTCGTTGTACACCGATCACATTGATTATCTGATGT -TCTTTAAAGATTCGGTACGCGGTCTGCAACCGGGAGCTCCGGTAGAGTTCCGGGGTATTCGCCTGGGTACCGTAAGCAAA -GTGCCATTCTTTGCGCCGAATATGCGTCAGACATTTAACGATGATTACCGTATTCCGGTACTGATTCGTATCGAGCCAGA -GCGGCTGAAAATGCAGCTTGGCGAAAATGCGGATGTTGTTGAGCACCTTGGCGAATTGTTGAAACGTGGTTTACGCGGAT -CGCTGAAAACCGGAAACCTGGTCACTGGTGCACTGTATGTTGATCTCGATTTCTATCCAAATACGCCTGCAATAACCGGT -ATTCGTGAATTTAATGGTTATCAGATTATCCCGACCGTTAGCGGCGGCCTGGCGCAAATCCAGCAACGACTGATGGAAGC -GTTGGATAAGATCAACAAACTGCCATTGAATCCGATGATTGAACAGGCAACCAGTACGCTTTCTGAAAGTCAGCGCACAA -TGAAAAACCTGCAAACGACGCTGGATAGCATGAACAAGATCCTCGCTAGCCAGTCGATGCAGCAGTTGCCGACGGATATG -CAGTCAACGTTGCGTGAATTGAATCGCAGCATGCAGGGCTTCCAGCCTGGCTCCGCAGCCTACAACAAGATGGTGGCGGA -TATGCAGCGCCTTGATCAGGTGTTGCGAGAACTGCAACCGGTGCTGAAAACGCTCAATGAGAAGAGTAACGCGCTGGTAT -TTGAAGCGAAGGACAAAAAAGATCCAGAGCCGAAGAGGGCGAAACAATGAAAAAGTGGCTAGTGACGATTGCAGCACTGT -GGCTGGCCGGATGCAGCTCCGGCGAAATTAATAAAAACTATTACCAGTTACCTGTGGTGCAGAGCGGTACACAAAGTACC -GCCAGCCAGGGCAATCGTCTGTTATGGGTAGAGCAGGTCACTGTTCCTGACTATCTGGCGGGGAATGGTGTGGTTTATCA -AACCAGTGATGTGAAGTATGTGATTGCCAACAACAACTTGTGGGCCAGCCCGTTGGATCAACAGTTGCGCAACACCCTGG -TTGCCAACCTGAGTACGCAACTGCCCGGCTGGGTGGTTGCCTCCCAGCCTCTGGGAAGCGCCCAGGACACGCTCAATGTT -ACCGTAACGGAGTTTAACGGTCGCTATGATGGCAAGGTCATTGTCAGTGGTGAGTGGCTGTTGAACCACCAGGGACAACT -GATCAAACGTCCGTTCCGTCTGGAAGGAGTGCAAACTCAGGATGGTTACGATGAGATGGTTAAAGTGCTGGCCGGTGTCT -GGAGTCAGGAAGCCGCTTCTATTGCACAAGAGATAAAGCGTCTACCTTAATTATAAAGATTTGTAAATATAACCGTCTCC -GGTATGTTGCCTGAGGCGGTTTTTTTGTCTCTAACGTGCGGAAAAATTTGTTCCTCTTCACATTTTTTGTACAACCGACA -TGCCCGTGTAGCTCACAAATATGACAGTGGCGTGAATTTTGCGCATTGACGGCAGTTATGATTCGCGGTATTGCTTAACT -GTGATTGCACATTTAGTAATCACTGTTTTCTTTTCCACCAGAAACCAGTATGAGGGAAACGAGGCATGAAGAGACAAAAA -CGAGATCGCCTGGAACGGGCACATCAACGTGGTTATCAGGCCGGCATCGCCGGACGCTCAAAAGAAATGTGTCCCTATCA -GACGCTGAATCAAAGGTCACAATGGCTGGGAGGCTGGCGAGAAGCCATGGCGGACAGGGTAGTAATGGCCTGATTCTGTC -TCTTTAAAAAGAAACCTCCGCATTGCGGAGGTTTCGCCTTTTGATACTCTGTCTGATTATAATCAGAAGGCAGACGTATC -CTGGAACAGACCGACTTTCAGGTCGCTGGCGGTATAGATCAGACGACCATCAACCAGCACTTCGCCATCCGCCAGGCCCA -TAATCAGACGACGGTTAACAATGCGTTTAAAGTGAATACGGTAGGTCACTTTTTTCGCTGTCGGCAGTACCTGACCAGTG -AATTTCACTTCGCCAACGCCCAGCGCGCGGCCTTTACCTTCGCCGCCCAGCCAGCCGAGGTAGAACCCTACCAGCTGCCA -CATTGCGTCCAGGCCCAGGCATCCCGGCATAACCGGATCGCCAATAAAGTGGCATCCGAAGAACCACAGATCCGGATTGA -TATCCAGTTCTGCTTCAACATACCCTTTGTCGAAGTTACCACCCGTTTCGGTCATTTTGACCACACGGTCCATCATCAGC -ATGTTCGGTGCTGGCAATTGCGGGCCTTTAGCGCCAAACAGTTCACCGCGACCAGAGGCAAGAAGGTCTTCTTTTGTATA -GGATTCGCGTTTATCTACCATGTTCTCTGTAAGCCTTATTTTATTGAAGCACGCAGGATAGCTAACACGTGTACGCTGAA -CAAGTCCGATCAGTTCGGAATAAACCAGTTCAGCCAACGTAATGGCCATGGAAAACGGTGACGTCCTTCCTGTTGCGATG -CTTGCGCGATACGTTCCTGGATGGTTTGCATCAGCGTCGTTTGGCCTTCGCCATCCCACACCAGATTTAATAATAACGGC -AGTGCGTCAGTCACATCGTCTACTGCCCAGATGGTGAATTTGCCTTCTTCTACCGCTTTCACCAGTTCACTGTGAAGACT -TAAATGGCGAACGTTAGCTGTGGGGATAATGACACCTTGTTTCCCGGTTAACTCACGTTGCTGGCAAATAGCAAAGAAGC -CTTCGATTTTCTCATTTAAACCACCGACCGGCTGGGCGCGACCGAACTGATCGACTGAACCTGTGATAGCGATACTCTGA -TTCACCGGCACATCGGCGAGGGCGCTTATCAGGGCGCAGAGTTCAGCCATCGAGGCACTATCTCCATCAACTTCACTGTA -TGACTGCTCAAATGTCAGCGATGCTGAGAAGGGGATCTGTTGCTCAAGCTGTAGTTCCGACATCAGGAACGCTTGCATGA -TCATCATCCCTTTCGCATGGATATTGCCGCCAAGCTCCGCTTTGCGTTCGATGTCGGTGAATTCACCATCGCCAATATGC -ACAACGCAGCTAATGCGAGAAGGTTCGCCAAAAGCGCGTGGATGACCCGGAAATTCAATGACCGAAAGGGCGTTAATTTG -CCCGATGCGTTCGCCTTCGGTTTCAATCAGGATTTGCTCCTGAAGGATCTCATCCTGCATACGTTCAGCGAGGAAACCTT -CGCGCCATTCACGCTGCTGCAGCATTAAGTTTAGCTGCTCGCCGGAGAAGGTGTCGCCATCACACAGGGAGGCGACCTCT -TTACACTGGCGGAGGATCCACTGCGGGCTAAGCGGAAGTGTTTCTTGTTCACCGGTGTAGCGTGCTGCTTCGCGGATAAG -TATCGGCCAGGCATCCGCTCCCGGTGCAGGTAAGTGATTATGTCTGGCGGTAAATGTCACCCAGCGACACCACTGGGTTA -CTGACTCCGCATCGACAATCTGCAGAGTATCTTCAAATTCGCTATAAATAGCCTGCTCTGAAAGCTCTGGCTCCATCTCC -TGGAAATCAGCCAATGATTCGCGTTCGCCTACCAGAATGACTTTCAGCTTCAATGGCATCGAAGGCACAGAGACGGGGAG -AGGGCGCGACTCATCAAACGCAACCCAGTCAAAACGCTCGCGGTTAACGATATTTTTCAGCCGCATCCACAGCAGAGGTT -GCGCCAGCAGTGTACGCAAAGAGATAATGAGAATACCGCCATTTGCCTGATGCACCAGACCAGGCTGCAGGGTAATGTCG -CCATTAAACTGGCGCAGGCAGCCAAAGAGTTGCTCCGCTTCTACCCAGTCGGCAGCGACAACTTGCGTTAAAGTCGCAAA -ATTATCATCTGCACTCACTGCGTGACGTAAGCGGATGGAGTGGCCGGAAACCTCATAGTGACCGCCCACCAGTTGGCCTG -CATCGCTTTGTAGCGTACGCGCGGCATTGGCAATAAGATTCAGATACTCAGACTCTTCCGGGGCCTTCGCCAGCATAAAA -GAGGAGGATGCTCGCGTATGCAGCAACTGCTCCAGCGCAAATTGCAGCCGCGGTTGAGTATCACTGAATAAAGGATCGTT -TTCGTCAATCAAATGTGGCTGAGCAAATATTTCCTGATAGCTATCGGTATCAGGAACCAGGTCACGCCATGCAAGTTTCG -TAATGGTCAAAGTTGATGTTTTTTAGTCTGTTGTCAAAGCCGCGATTATACCGTAACCGGCACTACAGCACACGTAGAAA -GCACCGACAATACTCCTGGCATGGGCGTTAAAGCTCACAGGATGGAGATTCTTTTCTTCACTGGCCTAAAAAGCTGATAT -TCTGTAAAGAGTTACACGGTAACATTGAGATCGCTATGAAATATCAACAACTTGAAAATCTTGAAAGCGGTTGGAAATGG -AAGTATCTGGTTAAGAAGCATCGCGAAGGGGAGTTAATCACCCGTTACATAGAAGCCAGTGCCGCCCAGGAAGCCGTCGA -TGTGTTGCTCTCGCTGGAAAATGAACCCGTGCTGGTAAATGGCTGGATTGACAAGCATATGAATCCGGAACTGGTCAATC -GCATGAAGCAAACCATTCGGGCAAGACGAAAGCGCCATTTTAATGCGGAACACCAGCATACGCGCAAAAAATCGATCGAT -CTGGAATTTATTGTCTGGCAACGTCTGGCTGGTCTTGCGCAGCGTCGCGGTAAAACGCTTTCTGAAACGATTGTTCAGCT -GATTGAAGATGCGGAAAACAAAGAGAAATACGCGAATAAAATGTCTTCTCTGAAGCAGGATCTGCAGGCATTGCTGGGTA -AGGAATAACTGACGAAAGTCAGTTCAATTTACTAAAGGCAAAAAAAACCCCGCAGCAGCGGGGTTTTTCTACCAGACGAG -AACTTAAGCCTGCGGCTGAGTTACAACGTCTTTGATACCTTTAACTTCGATCTCTACGCGACGATCCGGAGCCAGGCAGT -CGATCAGTGCAGCACGCTGTTTCACGTTGTCACAGGTGTTGCCAGTAACCGGGTTGGATTCGCCCATACCACGTGCGGAG -ATCTTGTCTGCCGGGATACCTTTGGAGATCAGGTAATCAACAACAGACTGAGCACGGCGCTCGGACAGACCCTGGTTGTA -AGCGTCAGAACCGATGCGGTCGGTGTAACCCAGAACAACTACGGAACCGTCTTTCGGATCCAGGTTGCTCAGCTGGCTGT -ACAGCTGATCCAGAGCAGCCTGACCTTCCGGTTTCAGGGTTGCTTTGTTGAAGTTGAACAGAACGTCAGACTTCAGAGTG -AAGTGCTTGGTCTGTACTTCCGGTGCCGGAGCTGGAGCCGGAGCAACTACTGGAGCTGCTTCGCCCTGACCGAAACGGTA -GGAAACACCCAGGCTCAGCATGCCGTTGTCCGGACGAGTGCCGATGGTGTGTGCGTCACCGATGTTGTTGGTCCACTGGT -ATTCCAGACGGGTAGCGATTTCAGGAGTGATCGCGTACTCAACACCGCCAGCGAAGACCGGAGAAACGCCGGTGTCGTGG -TTTTTACCATAAACGTTGGATTTAGTGTCTGCACGCCATACCATGCCACCCAGACGAGTGTAGATGTCCAGGTCGTCAGT -GATTGGGTAACCCAGTTTAGCGGTCAGTTGAACGCCCTGAGCTTTGTATGCACCGTTTTCAACGCTGCCTTTGTACGGCA -TACGACCTAACCAGTCGTAACCCATTTCAAAGCCAACATACGGGTTAACCTGGTAACCACCAAAAGCACCAGCGCCCAGT -TGGTTTTCATGGGTCGGGCCATTGTTGTTGATGAAACCAGTGTCATGGTACTGGGACCAGCCCAGTTTAGCACCAGTGTA -CCAGGTGTTATCTTTCGGAGCGGCCTGCGCTACGGTAGCGAAACCAGCCAGTGCCACTGCAATCGCGATAGCTGTCTTTT -TCATTTTTTGCGCCTCGTTATCATCCAAAATACGCCATGAATATCTCCAACGAGATAACACGGTTAAATCCTTCACCGGG -GGATCTGCTCAATATTAACTCTACCGATATCTTCGGCTTATGCCGAGCACCCCTGGCGATGTAAAGTCTACAACGTAGTT -GAAAACTTACAAGTGTGAACTCCGTCAGGCATATGAAAAAAAAGTCTTGTATAAGGTATGTTTAATCTTTTTTGTCAGCG -ACAATTTACAGAAGAGAATCGCGGAAACCGCTTCAGACAAGCCTCCGCAAGGAAAATTAGTCACGACTGAAAGCATTGGC -TGGGCGACAAAAAAAGTTCCAGGATTAATCCTAAATTTACTTAATGATACAAATTAGAGTGAATTTTTAGCCCGGAAAGT -TGTCTCGTGGCGTGAGAGGATGCGCTTACCGGACGCATAATAAACCCCATAGCGTTACCTTCATTTGCCGCATCAACAAG -TTCAGCATGCTCTTCTTCAGTCAAATCATCTGCCAACCAACCGATCACCACACTGTAATTGCCCGTGCGTAAAGCGCGAA -CCATTGACTCCACAGTGTGGCAAGGGGAGAGCTGGCTAATCTGCATTACTTTCGTTAAGGGTAGCCCAGATGCCTGAACC -CATTCCCGACTCAGTTTTTGTTGCGGTGTTAACCAGAGTTGCCAGCGCGATTGCTGACCGAGTTGCTGTAACAATGGCAA -CAGTAGAAGTTGCGTCATCATGGGCTGATCTTCGCGATAGACAACTTCACTGATAAGCCCGGCTGTAGTGTTTTCCGTAG -AGACACGCGCAATTTTACTTGCTGCGGATGAGAACGACGAAGAACGATGTGCATAGCCTGAAGTGTACATAATCAATCCA -GCCCCTGTGAGTTACTGTATGGATGTACAGTACATCCAGTGACAACAAAGATCAACCCTATTTTCGGAAAGAGCCTCGCA -AATTTTGTCGTTGGTGACGGGAAAACATAAATTAATCTTGCCCCTTAAGAATAAGTTGCCTATTTTCGTAGTTAACGGAT -CCGTTAATGTGAATCATTCTTTTATGTTATGATTTTAAAAGGAATTTTATGAAAAGCCTCTCCTATAAGCGGATCTATAA -ATCACAAGAATACCTGGCAACGTTGGGCACAATTGAATACCGATCATTGTTTGGCAGTTACAGCCTGACCGTTGACGACA -CGGTGTTTGCGATGGTTTCTGATGGTGAGTTGTATCTTCGGGCTTGTGAGCAAAGTGCACAGTACTGTGTAAAACATCCG -CCTGTCTGGCTGACATATAAAAAGTGTGGCCGATCCGTTACCCTCAATTACTATCGGGTTGATGAAAGTCTATGGCGAAA -TCAACTGAAGCTGGTGCGTCTGTCGAAATATTCTCTCGATGCAGCGCTGAAAGAGAAAAGCACGCGCAATACCCGGGAAA -GACTGAAAGATTTGCCCAATATGTCTTTTCATCTGGAAGCGATTCTCGGGGAGGTGGGGATTAAGGATGTACGGGCGTTA -CGTATACTTGGGGCAAAAATGTGTTGGTTGCGACTGCGGCAGCAAAACAGTCTGGTGACAGAAAAGATTCTGTTTATGCT -TGAAGGTGCCATTATCGGCATTCATGAAGCTGCGCTCCCGGTGGCACGCCGCCAGGAGCTTGCAGAATGGGCTGACTCTC -TTACGCCGAAACAGGAGTTTCCTGCGGAACTTGAGTAATCTGGCGTTGCAGACGACCAATCTCAGGCAGTAATGCAATCA -ATAATCCAACTTGTTGTACGACCAGAGGTTCTTTGCTGTCTGCCCGTGGTTCAAGTTGCTGCATCCGCTGTTTCAGGCTA -GCTAATGCCTCATTGACGCGTTCTTCATCAGCAGGTTGATGATGTAACGCGTCATCAACATAGCAAACTGCGTCATCAAG -AAACGCCAGAATTTCAGGATTAGTTAACTGCTCCCGGTGAGCACCGAGGGCTGAGATATAGCTGGTAAACGTATGGTTAA -GGCACAGCAACCGAAACGCGGCTTCGCGAATTTGCGGGGTAACGTTCGGCTCGCTGGACATATTTGATACCACCGACGCC -AGCTCAGCATCACGGTTGTGTGCATCGCGGCGGGCAATACGATACGCCAGACGGTTATCACGCCCCTGATGGTATTGCTC -CAGTATGGCATCGAGATACCGACAGTTGGCCTCTGTGGCGCGTTCGAGCATGCGCGGCAGATTGCGAAACTGCCAGTCAG -GCCAGATGTAGCTCACTGCCGCCCACGCAATGGCACAACCAATCAGCGTATCGATTACGCGAGGTAACGCTACTTCAAAA -CCTTCACCCAGTAAGTTAAAACACAGTAGCACCAAAAGTGTGATGAACATCGTTGCATGAGCGTATTGCACGTTACGGAA -GGCAAAAAAGAGCACGCCGGTAATAACCAGCAGCACCAGCTGCCCTTCCAGTGATGGCACAAACCACAGCACAGGAATGC -CAATGGCGATACCTACCAGCGTACCAATAATCCTTAACTTCAGGCGGTGGCGCGTGGCGTTATAGTTTGGCTGGCAGACA -AACAAACTTGTCAGCAAGATCCAATACCCGTGATGCATTCCGGTTATCTGAATGATGGCGTAGCCGAAGCACAACACCAG -CGACATTCTTACCGCATGACGGAAGAGGGCGGATTCCGGCGTGAAGTGACGGCTAAGACGCAGCCAGATATCACTCAACC -CGTGCGGGCTGTCATCAGCGAGCTCATTTTCGTCATTATTATGGGGTAGTGCCTGGGCCTGTTCTGATTCAATTGTTGCC -AGTTGGGCATCAATGGCGCGTAAATTGTTCAGCAAAAATCCCAGTGTTTTGAGTAAATCGGCGGGTGCGCCGTTATCGCG -CATCCGCTCCAGCGCAGCATCAATATGCGTAAAAGCGCGCTCAAAATGCGGATCATGTTGATAAGGCTGACGCAACAAAA -TACAGCGTGACAGTTGCTGGCACGCCTGGCCCTGCATCGACATCAGCCGCTGAAAACGGAACAGCACGTCGCTGTGGCGA -AAATGTTCACGCAATGTTTGATACTGAATATGAGAAGAGCTGGCACGCTCGTGAATATCCTGTGCGACAAAGTAATAATG -CAGCGTGCGACGCGTTCCCCGTTGACCACGATCGCCACGTAAGCGGGTCAGCAGCGAGAGTTTCGTCTGATTCAATGTCG -CCATCAGCAGACCGTTGGCGAGAGCCAAATCGTACAGCGGTGCCTGGCTTTGATCTTCAATATCAGGATCAAACATGCGC -GACTTGAGCTCAAGATAACGCGCCAGTTGTTCATAGCAACGCGCCAGGTTGTCCTGCAGCGGGCGGACCGGGAACAGCAG -ATGACCAATAAGTGTCAGGACGTTGTACCAGACGGCACCGGCCAGCAGATACATCGGCTGCTGATACCAGTGCTCATACA -GTGATGTTCCCAACATAGTGTAAATGGCGATCAGCAATGCACCGAAGGCAATTGTTGCATAGCGTTGACCCAGACCGCCG -AGCAAAATGAAGCCGCTGGTAGAGAGCGTTAAGCCAATCGCAAATAGCCAGGGCCAGGGAAACAGCAATTCTACTGAGGC -CGAGGCGATAAAAAAGCAGAACAGCGTAATGATGAGGTTACGCAAACGTCCCGCCAGTCGGTCATCGAGATCGGTCAGCG -CCGCTGCCACCATCCCCAGCGTTAGCGGAATCGTCAGTTTTACATCACCCAGCCACCACGGAAACGCTGTGGTTCCACAA -AGCGCAATAAAAATACGCGCGTAATACAGCCAGGCGCTGTTCCAGGTATAGCGTTTGAGCAAAGGACTTAGCATAAAGGC -CATATTAGTGGATTATTCAAAACGACGACGTGCATTGGCTTCACGCGCAGCTTGCGCTGTTTCTACCGATACCACGCGAC -GACCAACCGGCCATAGTGCAATAGCGGCAATTTTAAAGTTCGCAATGCCGACAGGAATGCCAATGATTGAAATACATTGT -GCGATGCCCGTTGCAATGTGCATCAGGCATAACCACCAGCCAAAGAAAATCAGCCAGAAAATATTCAATACCGTACCGCC -AGTATTCAGCAGCACATTTTTGCCAGCCGGGTTCAGTTCATCGACATGAATAGCTTCATTGCCATAAGGCACCAGAGACA -GTTTAGTGATCTCCCAGCAGGATCGTGTCAGCGGTAAGGTAAAAATCAGCACAATACTGACCAGAGTCGCCAACAGCCAG -CCCAGAGTGGTGGCAAATCCGCCAAGCACAAAGTTCAGAATGTTCAAAACGGTACGCATAAAACCTCGCTTTACTGTGGT -TTTCAGTAATGGGCGGCAATTGTAACGTTTTTTTGGGCTGGAGCACGTTTTCTCTGACGGTTACACTGATAAGAAATAAT -TTCGTGTGGATCTACAGAGTCATGGAACTGAAAGCGACAACGCTTGGAAAACGTCTGGCACAGCACCCTTACGATCGGGC -GGTGATCCTCAATGCCGGGATTAAAGTCTCCGGCGATCGCCACGAATACCTTATTCCTTTCAATCAATTACTGGCGATTC -ACTGTAAGCGCGGTCTGGTATGGGGCGAGCTGGAATTTGTACTGCCGGACGAAAAAGTGGTGCGTCTGCACGGCACCGAA -TGGGGCGAGACGCAGCGTTTTTACCATCATCTTGATGCTCACTGGCGGCGGTGGAGTGGCGAGATGAGCGAAATTGCGTC -TGGTGTTTTACGCCAGCAACTGGATTTGATTGCCACGCGCACTGGGGAAAATAAATGGCTGACGCGTGAGCAAACCTCTG -GCGTGCAGCAACAAATCCGCCAGGCTTTGTCGGCGTTGCCGTTGCCGGTTAACCGACTGGAAGAATTCGATAACTGCCGT -GAGGCGTGGCGTAAATGTCAGGCCTGGTTGAAAGATATTGAAAGCGCTCGGTTGCAGCATAACCAGGCGTATACCGAAGC -CATGCTTACCGAGTATGCGGATTTTTTCCGCCAGGTCGAGTCTTCACCGCTGAATCCGGCGCAGGCCCGGGCAGTCGTTA -ATGGCGAGCATTCTCTGTTAGTGCTGGCAGGTGCAGGAAGCGGAAAAACGTCGGTGCTGGTGGCCCGTGCAGGCTGGTTG -CTGGCGCGTGGTGAAGCGTCCCCTGAGCAAATTTTATTGCTGGCGTTTGGTCGCAAAGCCGCTGAAGAGATGGACGAGCG -GATTCGCGAACGGCTACATACCGAAGACATTACCGCACGCACGTTTCATGCGCTGGCGCTGCATATTATTCAGCAGGGCA -GCAAAAAAGTTCCGATAGTCAGCAAACTGGAAAATGATACCGCTGCCCGTCATGAACTCTTTATTGCTGAGTGGCGCAAG -CAATGCAGCGAAAAGAAAGCGCAGGCGAAGGGCTGGCGGCAATGGCTGACGGAAGAAATGCAGTGGTCAGTGCCAGAAGG -TAACTTCTGGGATGATGAAAAATTACAGCGTCGCCTTGCCTCTCGCCTCGATCGCTGGGTAAGTCTGATGCGGATGCACG -GTGGTGCACAGGCAGAAATGATTGCCAGTGCACCCGAAGAGATTCGCGATCTGTTCAGTAAACGTATCAAGTTGATGGCC -CCGTTATTAAAAGCCTGGAAAGGTGCGCTGAAGGCAGAAAACGCTGTCGATTTTTCGGGCCTTATTCATCAGGCGATTGT -GATTCTGGAGAAAGGTCGCTTTATCAGCCCGTGGAAGCATATTCTGGTTGATGAATTTCAGGATATCTCGCCGCAGCGGG -CAGCGTTGTTAGCGGCATTACGCAAGCAAAACAGTCAGACGACGTTGTTCGCTGTTGGTGATGACTGGCAGGCGATTTAC -CGATTCAGCGGTGCGCAAATGTCGCTCACCACCGCTTTCCATGAAAACTTTGGTGAAGGCGAACGCTGTGATTTAGACAC -GACTTACCGTTTTAACAGTCGTATCGGTGAGGTGGCAAACCGGTTTATTCAGCAGAACCCAGGCCAGCTGAAAAAGCCGC -TAAACAGCTTAACCAATGGAGACAAAAAAGCCGTCACGTTATTGGATGAGAGTCAACTTGACGCTTTGCTGGATAAGCTC -TCTGGTTATGCCAAACCGGAAGAGCGCATTCTGATCCTGGCGCGTTACCATCACATGAGGCCTGCCAGCCTGGAAAAAGC -GGCAACACGCTGGCCGAAGTTGCAAATCGACTTTATGACCATTCATGCCAGCAAAGGGCAACAGGCGGATTACGTCATCA -TCGTTGGCTTGCAGGAGGGAAGTGATGGTTTTCCGGCTGCGGCGCGGGAGTCGATTATGGAAGAGGCGCTACTGCCACCG -GTTGAGGATTTCCCGGACGCTGAAGAACGGCGGTTAATGTACGTGGCGCTGACCCGGGCACGCCATCGGGTATGGGCACT -GTTTAACAAAGAGAATCCCTCTCCCTTTGTGGAAATACTGAAAAATCTGGATGTGCCGGTGGCGAGAAAACCGTAAGAAA -CAGGTGGCGTTTGCCACCTGTGCAATATTACTTCAGACGGTCCGCGAGATAACGCTGATAATCGGGGATCAGAATATCGA -CCGCGTCGTTGAAATGCGGCGACTGGATTATGAAGTCTGCCGTTGCCACGTTGGTGGCGACCGGAATGTTCCATACCGTC -GCCAGACGCAGCAAGGCTTTCACGTCAGGATCGTGCGGCACGGCATTTAGTGGATCCCAGAAGAAAATCAATACATCAAT -TTTCCCTTCTGAGATCAATGCGCCAACCTGCTGGTCACCCCCCATTGGGCCACTCAACATCGCGTTGACGTTCATGCCGG -TCGCGCGGGAAATTAAGTTACCGGTAGTGCCTGTTGCATACAGTACGTGTTGTTCCAGTAACGGTTGATGCCGTTCCACC -CAGCTCATCAGCATTTGTTTGCAGTGATCGTGTGCCACCAGCGCAATATGTTTCCGCGCAGGTAAAGTGCGAGTCGTCAG -TTCCATAATGTACATCCGTAGTTAACTTTCCTACAGATTACTGTAAGCACTTATCGCTGCAAGATAAAGACCGAAAAAGC -CTGCGCACAGGCACAAAAATCTCAGGAAGATGGTTGTTTTTCCGCCCACTGCAGGAAAGTATTTCGCGTTTGTGGGTCAG -CCAGTTTAAACCAATACTTCAGCCGTTGTTCTGTGAGCACCTGAGACTGCGGTGGAATAGCATCCAGCTCGGAAACACCC -GAAAGCAGCGTACTGTCATCTGCCATCATCGTGGCAAATTGCGGTAGTGAAGCGCGTTTCGCGGATTTGTTATAGCGTTC -AACCTCGACCTCATAATCAATCGTTTTTGCCGTTGAGGTAATGGCGAGAATATCCAGCTTTACCGGAATCGGCGTCGCAT -CGCCATCCAACAATTCAAGGCGCGGCGCGGCATCAAAATGGTTAGCTTCCCGCTCATTCTCCAGGCGAGGCAGGCGAAAA -TTGACCTGGTTGATGAGCTGGGTATTAAAACTGACCACCAGCGGTGGGGAGATATACAGCCGTTCTTCACTATTGGAAAG -ATGAATCGTCTTCTCAACGCGAAACACTAACTGATGCGGTCCATTATCCAGTTCAATGCTGTCCGCACCGCGCAGCAGAG -AGCTGGAAACCTTCTTGCCGTCGAGTACCAGAAGATCGACATCGGTTGAAAGCCGCAGCGTGGTGGCAAAAACGGATACC -GGCAAACATAATGCAATCAAGGTGGTCACGATGCCGGTTTTCATAGGTAGCTCCTGTCAAAAGACCGCCCGAATAATAAT -GTGTCAAAATTTTTCTTTAATCATACTTACTAACATATAGACATATTTCCCGCTTTTGCTCTCATTCATTCGTATTAGCT -GCATGGTTGGCATGTCGGCTTTGTCGTACACTTTGTTAAACAGTCTGGAGGAAATAATGAAAGAAACCGATATTGCAGGC -ATTTTAACGTCCACTCACACCATTGCGCTGGTGGGGGCAAGCGACAAACCCGATCGTCCCAGCTATCGCGTGATGAAATA -TCTACTCGACCAGGGGTATCACGTCATTCCGGTTTCGCCAAAAGTTGCCGGCAAAACGCTGCTGGGCCAGAAGGGGTATG -GCACGCTGGCAGACGTTCCGGAAAAAGTCGATATGGTCGATGTTTTCCGTAATTCAGAAGCGGCGTGGGGCGTGGCACAG -GAAGCTATTGCCATTGGCGCGAAAACTCTCTGGATGCAACTGGGGGTGATTAATGAGCAAGCGGCAGTACTGGCACGGGA -TGCCGGGTTAAATGTGGTGATGGATCGCTGCCCGGCTATTGAGATCCCTCGCCTGGGCCTGGCCAAATAAAAAATCCCCG -GAAGGCAAAAACCTTCCGGGGATTTGTTCAGGGATTAGTTACGCAGACGCGGGGCCTGGAGTTGTTTGCGGATGGTCTGC -GCCAGCTCATCCATGGATGGCTGTTCAGGATGTTCATCCTGCAATTCGCTACTTAGCTGGGCTTCAGCCAGGTAGGTATG -AACCGGTAGGCCGTTATCGTCCTCCATCACTACGTGATACCACGGAGCGGCGCGAAGCTCGTCATTCACCGCCAGCTCAT -CAGGCGACGGTTCAGAGAGCGAATAAACCGGGTCGATATCCACGACCACTCCGAGATAACCTAACAGGGAATGGCGGACC -TGCTGGCCGATACCGAATTTGCTGGCAATCATAGTCACCTCCCGGGAAATCTTTACCTTTGATATAAGGGTAAAATTCCA -CATTTCAAGTTACATGACGCGACAGGCAAACCCTTTCAGATATAGCCCTTCCGGATAGGTAGCGATCACCGGATGATCGG -CTGCCTGACGGAACTGCTCTATAAATTGTACATCACGACCGGCATCAATTGCGGCATCCGCGATGATTTTCTGAAATAAA -TCGCTGGTCATCAGACCGGAACAGGAGAAAGTCAGGAGAATACCGCCTTCATTCAGCAGCTGAATCGCCAGCATGTTGAT -GTCTTTATAACCACGACACGCGCCCATCAACTGGCTTTTATTCTCAACAAACTTCGGCGGGTCCATCACGATAACGTCAA -ATTTTTCACCGCGATCGCGATAAGTACGCAGCAATTTAAAGACATCATCACGGACAAACTCAGCCTTGCTCAGATCCAGT -TTGTTCAGCTCAACGTTCTGCCGTGCAATATCCAGCGCTTCCTGGGAGGTATCAACGCTGACAACCTGGCTGCAACCGCC -CATCAGTGCCGATACGGCGAAACCACCGGTATAGGAGAAACAGTTCAGCACACGTTTATTTTCAACGTAGCGGCGGGTAG -CCAGGCGGCTATCACGCTGGTCCAGGTAGTAGCCCGTTTTGTGTCCGTGCTGAATATCCACCAGCAGTTTCATTCCGTGT -TCTTCAATCGGCAGCAGGGCAGGTGGCAACTCGCCGGTGACGGGGCCCTGGGTCAGCTCCATTCCTTCTTTTTTACGTAC -CGCGACGTCGCTGCGATCGTAAATCGAACATTCCGGGTACAGCGTTTGCAGGGCACTAATTAATGCCGCGCGCTGATATT -CTGCCCCAGCACTCAGCAGTTGCAGCACCAGAAAATTACCGAAACGATCGATAGTAATACCCGGCAGGCCATCAGATTCT -CCGGCGATTAAACGATAGCTGTCGAGGCCATCTTTTTGCGCCAGCCAGTCACGCCATTTTTGTGCTTGTTGCAAACGGCG -GGAAAAAAAAGCAATGTCGATAGACTCAGACGGGTCAAACGTCCAGACGCGCGCCCGGATTTGCGAAGCTGGCGAATAAG -CGCCGCGTGCTAACCATTTTCCCTGATGATCAACAATATCGATGGTTTCACCGAGGCTGGCTTTACCTTCCATGCGGGCA -ACGGCCCCGGAAAAGACCCACGGATGGCGACGAAGTAATGATTTTTCGCGCCCTTTGGCTAACACTAAACGTACACTCAT -AATTTACTTTTCTGTCGATGCAAAGAAATGGGCGTCATTGTCCGGAGTTTTCCATGGATTTGCAACGCGTCCATTAAGGA -TAAGGAGAGCAGCAATGTCGAAAGTCTGCATAATTGCCTGGGTTTACGGGCGAGTTCAGGGCGTAGGATTTCGCTACACC -ACACAGTACGAAGCGAAAAGACTGGGTTTAACCGGGTACGCCAAAAATCTTGACGATGGCAGCGTGGAAGTGGTTGCTTG -CGGTGAAGAAGGGCAGGTGGAAAAATTAATGCAGTGGTTAAAGAGTGGCGGCCCGCGTTCTGCGCGTGTAGAACGGGTGC -TCAGCGAGCCGCATCATCCCTCGGGGGAATTAACCGATTTTCGTATCCGTTAAATACATTTTACCGGTTTTGGCAGGCCA -GCAATTTTGGTGGCTTGCTTAGCCGGACCTTTCGGAAACAGTCGGTATAAATAGCGGCTGTTACCTTTTTCTTCGCCAAA -TTTATTCGCCATCGCTTTTACCAGCATACGAATCGCCGGAGAAGTATTGAATTCCAGATAGAAATCACGCACAAAACGCA -CCACTTCCCAGTGTTCCGGTGACAGCGAAATCCCTTCGTTCTCTGCAATCACCACAGCCAGCGGCTCACTCCACTGGCTG -CTTTCTTTGAGATAGCCTTCGGTATCCGTTTCTATCTCTTTACCTTCGAAGATCAGCATAATTATTACTACCTTAATCAG -ACTGGCGGCAGTGTAACAAAAAACAAAGCCCCGCATAAAGCGAGGCTATGAAAGTGTTAGCGGGTGAGATTAATCGCGGC -TAGCGAAGCCCAGAATGCTCAGCAGGCTGACGAAGATGTTGTACAGCGAAACATACAGGCTAACCGTGGCACGAATATAG -TTCGTCTCACCGCCATGAATGATGTTGCTGGTTTCAAACAAGATAGCGCCAGAGGAGATCAGAATGAAGACCGCGCTGAT -CGCCAGATGCAGAGCAGGCAGCTGCAGGAAGATATTCGCAACCATACCAATCAGCACCACCACAATACCCGCCATCAGCA -TACCGCCGAGGAACGACATATCTTTGCGGGTGGTCAGCACATATGCAGAGCAGCAGAAGAACACTAACGCCGTTCCGCCC -AGTGCCATAGCGATTACGTCACCCATTCCGGCAGACAGATAGGTGTTCAGAATAGGTCCGAGGATATAACCCAGAAAACC -GGTAAAGGCGAATGCGGAGATAATCCCGGTCGGCTTATTCGCCGTTTTATAGGTCAGGAACATCAAACCATACATACCCA -CCAGCGTCAGAATCAGACCCGGAGATGGCAGCATCAGCACCGTACTGGCAGTTGCGGTAATCGCCGAAAAGGCCAGCGTC -AGGCTCAGCAGAAAATAGGTATTACGCAGCACCTTATGGGTGCTAAGCAGTGATGTACGGTCATGTGAAGAACTAACAAT -ACGATCCATTGAGTCACTCTCTATGACAGATGTAATTAATTAAGCAGCATAATGATAATGCGTAAGGGCACCCAGAAGTT -TTACCCATCTTTACGCATTTGATCTGGAACAGGTTTAACAGCGGATTATCAGGTCATTAAGCAAATATAACGCCCTGAGA -ATTTCGACAGGCAAAAGAAAAAGGGGTTAGCATTTAGCTAACCCCTTATCTTATTTGGCGGAAGCGCAGAGATTCGAACT -CTGGAACCCTTTCGGGTCGCCGGTTTTCAAGACCGGTGCCTTCAACCGCTCGGCCACACTTCCGGAATGACGCGCACTAT -AAACATCCCGATGCGGCGTGTAAACCCCTAATTTGTTTGTTTGCCTGAAAAACAGCCAAAAGTGCATTGATAGCGTGAAA -TAACAGCAGATTGATCATTTCATCACCATGAATTCCTTCTCTTTTACTCGTTTAGCAACCGGCTAAACATCCCCACCGCC -CGGCCAAAAGAAAAATAGGTCCATTTTTATCGCTAAAAGATAAATCCACACAGTTTGTATTGTTTTGTGCAAAAGTTTCA -CTACGCTTTATTAACAATACTTTCTGGCGACGTGCGCCAGTGCAGAAGGATGAGCTTTCGTTTTCAGCATCTCACGTGAA -GCGATGGTTTGCCTTGCTACAGGGACGTCGCTTGCCGACCATAAGCGCCCGGTGTCCTGCCGGTGTCGCAAGGAGGAGAG -ACGTGCGATATGAATAACGAGGAAACATTTTACCAGGCCATGCGGCGTCAGGGCGTTACCCGGCGCAGCTTTCTCAAATA -TTGTAGTCTGGCTGCCACGTCGCTGGGATTAGGCGCGGGAATGGCACCAAAGATTGCCTGGGCGCTGGAGAACAAACCGC -GCATTCCGGTGGTATGGATCCACGGTCTGGAATGCACCTGCTGTACCGAATCTTTTATCCGCTCCGCTCACCCACTGGCG -AAGGACGTCATCCTTTCCCTGATTTCCCTCGATTACGACGATACTTTGATGGCTGCCGCCGGAACCCAGGCGGAAGAAGT -CTTTGAAGACATCATCACGCAATACAATGGCAAATATATCCTCGCAGTAGAAGGTAATCCGCCGCTGGGCGAGCAGGGGA -TGTTCTGTATCAGCAGCGGTCGACCGTTTATTGAGAAACTCAAACGTGCCGCTGCCGGAGCCAGCGCGATTATCGCCTGG -GGAACCTGCGCGTCCTGGGGCTGCGTGCAGGCCGCGCGACCCAATCCGACGCAGGCAACGCCTATCGACAAAGTCATCAC -CGACAAACCCATTATCAAAGTACCTGGCTGCCCGCCGATCCCGGATGTGATGAGCGCCATCATTACTTACATGGTGACCT -TTGATCGCTTGCCAGATGTCGACAGAATGGGCCGTCCGCTGATGTTCTATGGTCAGCGAATCCACGATAAATGCTATCGC -CGCGCCCACTTCGACGCCGGAGAGTTCGTCCAGAGTTGGGATGATGACGCTGCCCGCAAAGGTTACTGCCTGTACAAAAT -GGGCTGCAAAGGGCCTACCACCTATAACGCCTGTTCCTCCACACGCTGGAATGATGGCGTTTCTTTCCCAATCCAGTCTG -GTCACGGCTGCCTGGGCTGTGCGGAAAATGGTTTCTGGGATCGCGGTTCGTTCTACAGCCGCGTGGTCGATATTCCGCAA -ATGGGTACTCATTCCACCGCCGATACCGTCGGTTTAACCGCGCTTGGCGTGGTGGCAGCGGCTGTTGGTGTGCACGCAGT -CGCCAGCGCCGTTGACCAGCGCAGACGTCATAACCAGCAACCTACAGAAACCGAACATCAGCCAGGCAATGAGGATAAAC -AGGCATGAGCACTCAGTACGAAACTCAGGGATACACCATCAATAATGCCGGACGCCGCCTGGTGGTCGACCCGATTACGC -GCATCGAAGGCCACATGCGCTGCGAAGTGAATATTAACGATCAGAATGTGATCACCAATGCCGTCTCCTGCGGCACCATG -TTTCGCGGGCTGGAGATCATCCTACAAGGGCGCGACCCGCGCGATGCGTGGGCGTTCGTTGAACGTATCTGCGGCGTCTG -TACTGGCGTACACGCCCTGGCTTCGGTTTACGCCATCGAAGATGCTATCGGTATTAAAGTGCCGGACAACGCCAATATCA -TCCGCAACATTATGCTGGCAACGCTCTGGTGCCACGATCATCTGGTGCACTTCTATCAGCTTGCCGGGATGGACTGGATC -GATGTGTTAGATGCGCTGAAAGCCGACCCGCGGAAAACCTCCGAACTGGCGCAAAGTCTCTCCTCTTGGCCGAAATCATC -CCCTGGCTATTTCTTCGACGTACAAAACCGCCTGAAAAAATTTGTTGAAGGCGGGCAGTTGGGGATCTTCCGCAATGGCT -ACTGGGGGCACCCGCAGTACAAACTGCCGCCAGAAGCTAACCTGATGGGCTTTGCCCACTATCTCGAAGCTCTCGATTTC -CAGCGTGAAATTGTCAAAATCCACGCGGTCTTTGGCGGTAAAAACCCGCATCCAAACTGGATTGTCGGCGGGATGCCTTG -CGCCATCAACATTGACGAAAGCGGCGCGGTCGGGGCAGTCAATATGGAACGCCTGAACCTGGTGCAGTCAATTATCACCC -GCACGGCGGACTTCATTAACAACGTGATGATCCCCGACGCCTTAGCCATCGGTCAGTTCAACAAACCGTGGAGCGAAATC -GGCACTGGTCTTTCTGATAAATGCGTTCTCAGCTACGGCGCATTCCCGGATATTGCCAACGACTTTGGCGAGAAAAGTCT -GCTGATGCCTGGCGGCGCGGTGATTAACGGCGACTTCAACAATGTGCTGCCAGTGGATTTGGTTGATCCGCAGCAGGTGC -AGGAGTTTGTCGACCACGCCTGGTATCGATATCCCAACGATCAGGTCGGGCGTCATCCGTTCGATGGCATCACCGACCCG -TGGTACAACCCCGGCGATGTCAAAGGCAGCGATACCAACATTCAGCAGCTGAATGAACAGGAACGCTACTCGTGGATCAA -AGCGCCACGCTGGCGCGGTAACGCGATGGAAGTGGGGCCGCTGGCGCGCACGTTAATCGCTTATCACAAAGGCGATGCTG -CGACCGTTGAGTCGGTCGATCGCATGATGTCGGCGTTGAACCTGCCGCTTTCCGGTATCCAGTCAACGTTAGGCCGCATT -TTGTGCCGCGCGCACGAAGCGCAGTGGGCCGCAGGTAAGTTGCAGTATTTCTTCGACAAGCTGATGACCAACCTGAAAAA -CGGCAATCTCGCCACTGCTTCCACGGAAAAATGGGAACCTGCAACCTGGCCGACAGAGTGCCGTGGTGTCGGTTTTACCG -AAGCGCCGCGCGGGGCGTTAGGCCACTGGGCCGCCATTCGCGATGGCAAGATTGATCTCTACCAGTGCGTGGTGCCGACC -ACCTGGAACGCCAGCCCGCGCGATCCCAAAGGGCAGATTGGCGCTTATGAAGCGGCGCTGATGAACACCAAAATGGCGAT -CCCCGAGCAACCGCTGGAGATCCTGCGTACTCTGCACAGCTTTGACCCGTGCCTCGCCTGTTCAACACACGTGCTGGGCG -ACGACGGTAGCGAGCTGATCTCCGTGCAGGTGCGTTAACAGCGAAGGAGAATCATCATGCAACAGAAAAGCGACAACGTT -GTCAGCCACTATGTCTTTGAAGCGCCAGTGCGCATCTGGCACTGGTTGACGGTGTTATGCATGGCGGTGTTGATGGTCAC -CGGATACTTTATCGGCAAGCCGCTACCTTCCGTCAGCGGCGAGGCGACGTATCTGTTCTATATGGGCTACATCAGGTTAA -TTCACTTCAGCGCCGGGATGGTTTTTACCGTGGTTTTGCTGATGCGGATCTACTGGGCTTTTGTTGGCAATCGATACTCC -CGCGAGCTGTTTATCGTGCCGGTATGGCGTAAAAGCTGGTGGCAGGGCGTGTGGTATGAAATCCGCTGGTATCTGTTTCT -GGCAAAACGTCCGAGTGCCGATATAGGCCATAATCCCATCGCCCAGGCGGCGATGTTCGGCTATTTCCTGATGTCGGTCT -TTATGATCATCACTGGTTTTGCGCTGTACAGCGAACACAGCCAGTACGCTATTTTTGCGCCGTTCCGTTATGTGGTGGAA -TTTTTCTACTGGACGGGTGGCAACTCAATGGACATTCACAGCTGGCATCGGCTGGGGATGTGGCTGATTGGCGCGTTTGT -GATCGGTCATGTCTACATGGCGCTGCGTGAAGACATCATGTCCGACGACACGGTGATCTCCACCATGGTCAACGGCTACC -GTAGCCACAAATTTGGCAAAATAAGTAACAAGGAGCGTTCATGAGCGAGCAACGCGTGGTGGTCATGGGGCTGGGCAACC -TGCTGTGGGCCGATGAAGGCTTCGGCGTGCGGGTGGCGGAACGGCTGTATGCCCATTACCACTGGCCCGAGTATGTGGAG -ATTGTCGATGGCGGTACTCAGGGACTGAACTTGCTGGGGTATGTCGAAAGCGCCAGCCATCTGTTGATTCTCGATGCCAT -TGACTACGGGCTGGAACCTGGAACGCTGCGAACCTATGCCGGAGAACGCATTCCGGCTTATCTCAGCGCGAAGAAAATGA -GCCTGCATCAGAACAGTTTCTCCGAAGTGTTGGCGCTGGCGGATATCCGCGGACATCTGCCAGCACATATTGCCCTCGTC -GGTCTGCAACCCGCAATGCTCGACGACTACGGCGGTAGCCTGAGCGAACTGGCACGGGAGCAACTGCCCGCTGCGGAACA -GGCGGCGCTGGCGCAGCTTGCTGCGTGGGGAATTGTGCCGCAACCGGCTAATGAATCGCGCTGTCTCAATTATGACTGTC -TGTCGATGGAAAATTACGAAGGCGTTCGCTTGCGCCAGTACCGGATGACACAGGAGGAGCAGGGATGAGCAACGACACGC -CATTTGATGCGTTGTGGCAACGAATGCTGGCGCGCGGCTGGACGCCAGTCAGTGAATCCCGTCTTGACGACTGGCTTACG -CAAGCGCCAGACGGCGTGGTGTTATTAAGCAGTGACCCGAAACGCACGCCAGAGGTCAGCGATAATCCGGTAATGATTGG -CGAATTACTGCGCGAGTTTCCCGACTATACATGGCAGGTGGCGATTGCTGACCTTGAGCAGAGCGAAGCCATCGGCGATC -GCTTTGGCGTCTTTCGCTTTCCTGCCACTTTAGTGTTTACCGGCGGAAACTATCGCGGCGTGCTGAATGGTATTCACCCG -TGGGCGGAACTGATAAACCTGATGCGCGGGCTTGTCGAACCGCAGCAGGAGCGTGCCTCATGAGCGAAACTTTTTTCCAT -CTGCTGGGGCCAGGAACGCAACCGAACGATGACAGTTTCAGCATGAATCCACTGCCGATCACCTGTCAGGTGAATGATGA -ACCGAGTATGGCGGCCCTGGAGCAATGTGCTCACAGCCCGCAGGTGATTGCGCTGTTAAACGAGTTACAACATCAACTAA -GCGAACGCCAACCGCCGTTGGGCGAGGTGCTGGCAGTCGATCTGTTAAATCTCAACGCCGACGATCGTCACTTTATCAAT -ACGCTTCTCGGGGAAGGGGAAGTGTCAGTGCGCATTCAGCAGGCTGACGACAGTGAAAGTGAAATACAGGAGGCGATCTT -CTGCGGATTATGGCGGGTGCGCAGACGTCGCGGCGAAAAGTTGCTGGAGGACAAACTGGAGGCTGGCTGCGCGCCGCTGG -CGTTGTGGCAGGCGGCAACGCAAAATCTCTTGCCGACAGATTCGCTGTTACCGCCGCCCATTGATGGCCTGATGAATGGC -CTACCGTTGGCGCATGAGTTACTGGCACATGTACGTAACCCCGACGCGCAGCCGCACAGCATTAATCTGACGCAATTACC -CATCAGCGAGGCTGATCGGCTTTTTCTCTCACGTCTCTGTGGGCCGGGAAATATTCAGATTCGTACCATTGGCTATGGCG -AGAGCTATATCAACGCCACGGGGTTACGCCATGTCTGGCATTTACGCTGTACGGACACCTTAAAAGGCCCGTTACTGGAA -AGTTATGAAATCTGCCCAATACCGGAAGTGGTGCTGGCAGCGCCAGAAGATTTGGTCGACTCTGCGCAGCGGCTTAGCGA -GGTATGTCAGTGGCTGGCGGAAGCTGCACCGACGTAAAAAGACGGTAAGTATCGCTTTCAGTCTTATGAATATCGCAATC -GGCGAATACCTCTGGTCGTAGAGTTTCAGGATAAAGAGGGAGATCTACCATTATCGGGTTATTTTTCTCTCTTCGCCTAC -AGGAGTGCGCATGTGGGATGTCATTGATTTATCGCGCTGGCAGTTTGCTCTGACCGCGCTGTATCACTTTTTATTTGTAC -CCCTTACCCTGGGGCTGATTTTTTTGCTGGCTATTATGGAAACCATTTACGTGGTCACCGGCAAAACAATCTACCGCGAT -ATGACGCGCTTCTGGGGTAAGCTCTTCGGTATCAATTTTGCTCTTGGCGTGGCTACCGGCCTGACCATGGAGTTTCAGTT -TGGTACTAACTGGTCATTCTATTCCAACTATGTGGGCGATATTTTTGGCGCACCGCTGGCGATGGAAGCATTAATGGCCT -TCTTCCTCGAATCCACCTTTGTCGGGCTGTTCTTCTTCGGCTGGCAACGGCTGAATAAATACCAGCACCTGCTGGTGACG -TGGCTGGTGGCGTTCGGTTCAAATCTCTCTGCGTTGTGGATATTGAATGCCAACGGTTGGATGCAATACCCGACCGGTGC -GCATTTTGATATCGACACCCTGCGTATGGAGATGACCAGCTTCAGCGAGCTGGTCTTTAATCCGGTCAGCCAGGTGAAAT -TTGTGCACACCGTAATGGCGGGCTACGTGACCGGGGCCATGTTTATTATGGCGATCAGCGCCTGGTATTTACTGCGCGGA -CGGGAGCGCAATGTCGCATTACGCTCGTTTGCCATCGGTTCCGTCTTCGGTACTCTGGCGATTATCGGTACCCTGCAACT -CGGAGACAGTTCTGCGTATGAAGTCGCGCAAGTACAACCGGTAAAACTGGCGGCGATGGAAGGGGAGTGGCAAACGGAAC -CTGCACCTGCACCGTTCCATGTGGTTGCCTGGCCGGAACAGGATCAAGAGCGTAACGCCTTTGCCCTCAAAATTCCCGCG -CTGCTAGGGATCCTCGCCACTCACTCATTAGATAAACCCGTGCCGGGTCTGAAGAATTTGATGGCTGAAACCTACCCACG -CTTGCAACGCGGACGTATGGCCTGGCTGTTAATGCAGGAAATATCGCAAGGCAATCGTGAGCCGCATGTGTTGCAGGCAT -TCCGGGGACTGGAAGGTGACCTGGGCTACGGCATGTTGCTCTCCCGCTATGCGCCGGATATGAATCATGTCACAGCCGCA -CAGTACCAGGCGGCGATGCGTGGCGCGATACCTCAGGTTGCGCCGGTATTCTGGAGTTTCCGCATCATGGTGGGCTGTGG -TTCCCTGCTGCTACTGGTGATGCTGATTGCGCTTGTCCAGACGCTGCGTGGCAAAATCGACCAGCATCGCTGGGTGCTGA -AAATGGCGCTCTGGAGTTTGCCGTTGCCGTGGATTGCGATTGAAGCCGGGTGGTTTATGACCGAGTTTGGTCGTCAGCCG -TGGGCGATACAGGACATCTTACCGACATACTCCGCGCACTCCGCTTTAACCACAGGACAACTGGCTTTCTCACTGATCAT -GATCGTAGGGCTTTACACCCTGTTCTTAATCGCCGAAGTCTACCTGATGCAGAAATATGCCCGTCTGGGGCCGAGCGCGA -TGCAGAGTGAACAACCGACGCAGCAACAGGGGTAAAGGAGAAAATCATGTTTGATTATGAAACATTGCGCTTCATCTGGT -GGCTGCTGATTGGCGTGATCCTGGTGGTCTTTATGATCTCCGACGGATTTGACATGGGGATCGGCTGTCTGCTGCCGCTG -GTGGCGCGTAATGATGATGAACGCCGGATAGTGATAAACAGCGTTGGTGCACACTGGGAAGGCAACCAGGTCTGGTTGAT -CCTCGCTGGTGGGGCATTATTTGCCGCCTGGCCCAGAGTGTATGCAGCGGCGTTTTCCGGCTTTTATGTGGCGATGATCC -TGGTGCTGTGCTCACTGTTCTTCCGCCCGCTGGCCTTTGATTATCGCGGAAAAATCGCCGATGCACGCTGGCGTAAAATG -TGGGACGCCGGTCTGGTCATCGGCAGTCTGGTGCCGCCGGTAGTCTTCGGTATCGCCTTCGGCAACTTGTTGCTCGGCGT -GCCGTTTGCCTTCACACCGCAATTACGCGTGGAGTATCTCGGCAGCTTCTGGCAACTGCTGACGCCATTCCCTTTATTGT -GCGGATTGCTCAGCCTTGGGATGGTGATTTTGCAAGGTGGCGTCTGGTTACAACTGAAAACTGTTGGTGTGATTCATCTG -CGTTCACAGCTGGCGACCAAACGCGCTGCACTGTTGGTGATGCTGTGCTTTTTGCTGGCGGGTTACTGGCTGTGGGTCGG -TATTGATGGCTTTGTACTGCTCGCCCAGGATGCTAACGGTCCTTCCAATCCGTTAATGAAACTGGTGGCAGTGCTACCTG -GTGCCTGGATGAATAATTTTGTCGAGTCGCCCGTTTTGTGGATCTTCCCGCTGCTGGGATTCTTCTGCCCATTGCTTACG -GTGATGGCGATTTATCGTGGTCGCCCGGGTTGGGGATTTTTGATGGCATCATTGATGCAATTTGGCGTGATTTTCACGGC -AGGCATCACGCTGTTCCCCTTTGTCATGCCGTCAAGCGTGAGTCCGATCTCCAGCCTGACGTTGTGGGACAGTACTTCCA -GTCAGCTGACGCTGAGCATTATGTTGGTAATCGTGCTGATATTTTTGCCCATTGTGTTGCTCTACACTCTCTGGAGCTAC -TACAAAATGTGGGGGCGCATGACAACAGAAACTCTCCGCCGTAACGAAAACGAGTTGTACTAAGGAGCAGAAACAATGTG -GTATTTACTTTGGTTCGTCGGCATTTTGTTGATGTGTTCGCTCTCCACCCTTGTGTTGGTATGGCTGGACCCGCGTCTGA -AAAGTTAACGAACGTAGGCCTGATGCGGCGCATTAGCATCGCATCAGGCAATCAATAATGTCAGATATGAAAAGCGGAAA -CATATCGATGAAAGCGATCTTAATCCCATTTTTATCTCTTCTGATTCCGTTAACCCCGCAATCTGCATTCGCTCAGAGTG -AGCCGGAGCTGAAGCTGGAAAGTGTGGTGATTGTCAGTCGTCATGGTGTGCGTGCTCCAACCAAGGCCACGCAACTGATG -CAGGATGTCACCCCAGACGCATGGCCAACCTGGCCGGTAAAACTGGGTTGGCTGACACCGCGCGGTGGTGAGCTAATCGC -CTATCTCGGACATTACCAACGCCAGCGTCTGGTAGCCGACGGATTGCTGGCGAAAAAGGGCTGCCCGCAGTCTGGTCAGG -TCGCGATTATTGCTGATGTCGACGAGCGTACCCGTAAAACAGGCGAAGCCTTCGCCGCCGGGCTGGCACCTGACTGTGCA -ATAACCGTACATACCCAGGCAGATACGTCCAGTCCCGATCCGTTATTTAATCCTCTAAAAACTGGCGTTTGCCAACTGGA -TAACGCGAACGTGACTGACGCGATCCTCAGCAGGGCAGGAGGGTCAATTGCTGACTTTACCGGGCATCGGCAAACGGCGT -TTCGCGAACTGGAACGGGTGCTTAATTTTCCGCAATCAAACTTGTGCCTTAAACGTGAGAAACAGGACGAAAGCTGTTCA -TTAACGCAGGCATTACCATCGGAACTCAAGGTGAGCGCCGACAATGTCTCATTAACCGGTGCGGTAAGCCTCGCATCAAT -GCTGACGGAGATATTTCTCCTGCAACAAGCACAGGGAATGCCGGAGCCGGGGTGGGGAAGGATCACCGATTCACACCAGT -GGAACACCTTGCTAAGTTTGCATAACGCGCAATTTTATTTGCTACAACGCACGCCAGAGGTTGCCCGCAGCCGCGCCACC -CCGTTATTAGATTTGATCAAGACAGCGTTGACGCCCCATCCACCGCAAAAACAGGCGTATGGTGTGACATTACCCACTTC -AGTGCTGTTTATCGCCGGACACGATACTAATCTGGCAAATCTCGGCGGCGCACTGGAGCTCAACTGGACGCTTCCCGGTC -AGCCGGATAACACGCCGCCAGGTGGTGAACTGGTGTTTGAACGCTGGCGTCGGCTAAGCGATAACAGCCAGTGGATTCAG -GTTTCGCTGGTCTTCCAGACTTTACAGCAGATGCGTGATAAAACGCCGCTGTCATTAAATACGCCGCCCGGAGAGGTGAA -ACTGACCCTGGCAGGATGTGAAGAGCGAAATGCGCAGGGCATGTGTTCGTTGGCAGGTTTTACGCAAATCGTGAATGAAG -CACGCATACCGGCGTGCAGTTTGTAATGCATAAAAAAGAGCATTCAGTTACCTGAATGCTCTGAGGCTGATGACAAACGA -AGAACTGTCTAATGCGTAGACCGGAAAAGGCGTTCACGCCGCATCCGGCCACTTTCAGTTTTACTCTTTCTCGGAGTAAC -TATAACCGTAATAGTTATAGCCGTAACTGTAAGCGGTGCTGGCGCGTTTAATCACACCATTGAGGATAGCGCCTTTAATA -TTGACGCCTGCCTGTTCCAGACGCTGCATTGACAAACTCACCTCTTTGGCGGTGTTCAAGCCAAAACGCGCAACCAGCAG -GCTGGTGCCAACAGAACGCCCCACGACCGCGGCATCACTCACCGCCAGCATCGGCGGCGTATCGACAATCACCAGATCGT -AATGGTCGTTCGCCCATTCCAGTAATTGACGCATCCGATCGCGCATCAGCAGTTCAGACGGGTTAGGTGGCACCTGACCG -CGAGTAATCACATCAAAGCCTCCTTTGCCAAAATGCTGGATCACTTTGTTGAGCTCATCTTTACCTGCCAGATATTCCGA -CAAGCCATGTTCATTACTCACGGTAAACAGGTTATGCGAATAACCACGGCGTAAGTCGGCATCAATAAATAACACTTTTT -GATCGGACTGGGCGATCACCGCTGCCAGAGTTGAACTGACAAACGTTTTACCACTGTCTGGCGTCGCACCGGTGATCATT -AGAATGTTATTCTCCGTCTCCATCATAGCGAAATGCAGACTGGTTCGTAGCGCACGTACGGCTTCCACAGCAGAATCCGC -CGGGTTATCCACCGCCAGGAAGGGGATATTTTTAGTACGATGGCGCTGCTGATTAGAAAATAAATTTTTCTTACGCAGAC -GGGTGCGTTTATCCAGCCACTCGGACATTGGGATAGTGGCATAAACGCTGATGCCGTGCTCTTCCAGTTGTTCCGGGGCT -TCTACACCACGACGCAACATCGCACGCGCCAGCACGGCACCCACAGAAATAAACAGGCCAAGAATAAAACCAAGCACCAC -GTTCAACGCTTTTTTCGGTTTCACTGGCTGCGGCTGAGTGACTGCCGGGTCGATAATCCGCACGTTACCAATGGCACTGG -ATTTCGAAATACTCAACTCCTGCTGGCGGTTAAGTAATTGCAGATATACCGCACGGCCCGCTTCTACGTCACGACTTAAA -CGCAACACTTCCTGTTGGGTGGAAGGCATTGCCGATACCCGCTTATTCAGGCGTTTGCGTTCTTGCTCCAGCGTCTGGCG -TTTTTCCAGCAGCGCACGATAAGTTGGGTGATCTTTCTTATACAGCTGGGAGATCTCTGCCTCGCGGAAGGTCAGCTCAT -TGAGTTGATTATCAACGTTCACAATCTGCTCAAGAACGGCTTTGGCTTCCAGGTTAAGGTCAACCGAATCGCGCTGCTGG -CGATAAACGTTGAGTTTTTCTTCCGCTTGGTCCAGCTCGCTGCGCACTTCAGGTAACTGGCGCTGTAAGAATTCAAGGCT -TTGTGAATCCTGCGCCGCCTGGCGAGCGATATTCTGTTGCAAATAGTTGTTAGCGATGCTGTTCAGAATACGAGTAATCA -ACTGGGGATCATCACCAGTCATGGTAAGTTCCAGCATCCCGCTTTCTTTACTGCGTTCGCTAACGGTAAAGGTTTCCTGC -AATGCGTTAATCGCTTCCAGTTCGGTACGCTGGCTCAGGACAAACTGTGTTCCTGGTTTGGCCTTAATGTCCGCGATAGT -CAGCGCAACGCCATCTTTTTCCAGACGCTGGCCGACCATACCATTGACGGTGAACTCTTCACCTTCCAGTGTATAGTGGC -CGTTTTCCCCAACCGTGAGTGTCAGTTGCTGATCCTGACCATTCAGTTGTGGAATATGCATCCAGCTGATCGCCAGCTCA -CCTGGTTTTTCTTTGGTTAATCTCGCCCAGCCGCGACCCACAATCGGAAAATACTTCTGCTCAACTATGTCGCGCAGATT -CAGTTCAGCAATGGTTTTACCGAGAATCATGCGCGATTGCAGCAGTTGGATCTCCGGTGCAGACTCGGGCGATGAGTTAG -GGATCATATCGCTCAGGCCGCTGAGAATGGCGTTGCCCTGTTTTTGCTCAACCTGGACCAGAGTATCTGCCTGATAAATT -GGTGTGCTTAACAGCGAGTAAGCGACAGCGATCAGCGTGAATAACGCGGTCACGCTGATAATAAACTTACGGTGATCCCA -TAACTCGCCGACCAGACGAAGCAGATCGATCTCATTTTCCTGAGTGCTGCCTGGTGGCGTATTCATATTTTTAGTTGTCA -TCGTATTTTATAAACTCAAATTACCGGCTGAGGCGCTTCGCCCATTCCTGACTGGCGCGCTCCAACATACCGTAGACATG -TTCAAATGCGTCCTGACTTTTACGATAGGGATCCGGGATCTCTTTCTGTTCCAGCCATTGCCCAAACAGCATTGTCTTCC -CGCGGACCTCGGGAGCAATTGCGGTAACCTGAGCAATATGTTCCGACTCCATTGCCAGAATCAGATCGTAATTTCGTGCC -ATCTCAGCAGTGAGCTTACGTCCGGCATGTCCTTCAAGAGATACGCCATGATTAGCGGCAACATCTGCCGCTGTCGCATC -TGCAGGGTGTTTTACCAGACCATGAACACCTGCCGATTTGACTTTTACGCCCGGCAGACGTTTACGCAGCAAGCGCTCGC -CAATGGGCGAACGGCAAATGTTGCCGGTACAAACCACCAGGATTGAGTTAAATTTTAGTTGGGCCATGTTTGAATCCACC -GTGAAGTCTCTGTCAGGTCATGCACCCCGGAAATCGTCGGTACCAGCAGAGAAATCACACGGTTCCAACGAGCCAGCGGC -GCGGTAGTGACATAAACAATGTCGTAAGGTTCAAGCTGGAATTCCGTTCCGAGTATCATTGCCGATGCGTCCTTCGCATT -CAGCTGATAAATATTGGCGATTTTGCCATTCTGCTTGTTTTGCGTTGCACGAATAACAAAAATCCCCGTCGCATCAGCGA -CATCCTGATTCATACCCTCAGCGTTACCCAGCGCTTCCGCCAGGGTCATACCGCTGCGGTCCATTTTCAGCGTGCTCTGT -TTACCCACTTCACCCATCACGAAGACTTTCAGATCATCGTTGCGCGGAATAAATAAAATATCGCCCGGGTGCAGCAGTTT -GTTCTGGCGCAAGTCGCCACGCTGCATCAGCGCATAGAGGTTCACTTTGGTCTTTACGCCATTCTGGGTGAGCACCACGT -TGCGCCAGTCTGCATCTGCGGTCAGACCGCCCGCGGCGTTAATCGCATCCATGATGGTCAGAGGAATATTGGTAATCGGC -TGCTGACCCGATTTGCTGACTTCGCCGGTGACGTACGCTTTTTGCGATCGGAACGCCGCGACGCTGACATCGACTTGCGG -GCTTTCAATGACTGAATCGAGACGCGCTGTAATCTCGTTGCGTACCTGGGTAAGTGTTTTCCCGGCCACTTTCAGGCGAC -CAATATAGGGGTAGAAAATCGCACCATCGGCGTTAACCCAGTTGCCGGTATCACTGGCGCTACGGTATTGCCCTGCGGGG -GTGGTTAGTTCCGGGTGATCCCAGACCGTAACCATCAACACATCACCAATCCCGATACGATATTCATAGTTTGCGATTTG -CTGCTCCAGCTCCGGGTTAGCCTGCGACATAATCGGTTTGGCGCGCAACTGATCAATCAATCCTGGCGTGACGGGATAGA -TATTGACCATTTTGTCCAGGTCATACTGATTGTCAGGTAGTTCAATGACATCCTTGTTACTGGTCGATAAATTCTGACCA -GGAACAAGGGTACATGCTGTCAAAGACAGAACAGCCAATGTCAGTACCGAAAACTTAAAAATGTTCTTTTTCATTGGTTT -ATATTTATCAGTCAATGTAATGTTATGAATTACGTCAGGTTATTGTCCAACCGGTACTTCTCGCTCTGCCGTCATTGGAT -AGAGCTGGTATTTGCGTGACAGCATTTGTCCACCATCACGCGTCAATGGTGTCCACGAAACCACCGCGCGGTTGCGGTTA -GGTCCAATGGTCATCAAGTCGAATGGAATCGAGATATAAAAACCTTTACTAAAGCCGCCTTCGCCGTAGTCATCTTTAGA -TACGTTACTGATTGCCGCCCATACCCCTACCGCCACGCCGCTGTCAAAGCGTTTGGCGACGTCGATCGTTGCGCCTTTAT -CTTTTGCCAGATATTGCCCAACGCTAAGTTTCATCAGTACGCCATTGAGCGTCGGCGGGTTCCAGTAAGCCGTCACGAAA -CCTGTTGGCGTGGAATAATCGGTGAAACGCATCATGTTGTCCCAGTCACGTTGCTTCACGTAGTTAACGTCCACACCCAG -CGCCCAGCAGGCATCTAGCGGGCGATAAAGCAGCTCGGAACCGACACCGGCGTACATCGTTTCCAGATAACCGCCATACA -CCTGGCCATAGAAACCATTGCCTAAGTCAGCAAAATAGTTCGCCTGCAAGTTGTTGAGATAAACGTCATTGCGAACGTAG -TCACGGATATGCGTGCGCACGCGGGGCAGGGTAGAGTCCGCGGGCAACAGCGAAGACTTAAACTTGTCGTAGTTGTTGTA -AATATTGGTGAAAATACCGCCATCAAGCAGCAGGTGGTCGGTAAACCAGTAGCGGGCACTGGACATCAGCCCCAGCTGGA -ACATATAGAAATCTTCCGGGCCGCCCAGCGACTGTGAAAGTGTTGGGTTGAAAGAGTAGCTAAAGCGATCTTCACGAATA -CGGTAGCCCCGACCAAAGGCAGAAAGATCTTCAGCTTCAACACGTTGTTGTTGCAGTGGCTCTGATTGACCAGGCGCTGT -ACCTGCCAGCTGTTTGCGCAGGCTGGCTACGTCGGTTTCGGTAGTCACCATCGCCATATGCTCGCGCTTTTGCGTCACGC -TAATCTTCTCAACGCCTTGCGGCAGGTTATTCACCAGAATCCGGTTGGCACGATCGACCGCTTCACGAGAGTCACGGTAT -TTGTATTGCTGACCAGACATATACAGTGTCTTATCGCGTAGCTGAATTTCTGGCGCGTCAAAGCCCGCGTTATACTTCAG -GGCGGTAAGTTGGTTTGCTACCGTGGTGTACTGCAATCCTTCAGATTCAGGCGCAGGTTGATATGCCGGTTTTGGCGTAT -CGCGCAGGGCAGGGCGCAGATCGTTGAAATTGGTCCGTAACGTGAAGCCAAACATCAACGTGTTACCGCGTTCATAACTC -AGGTTGAGATCTGCCCAGCTGGCAGCGCGATAAACTGCGCCGACGTTGAAATGGCTTGCCTGAGGCAGTTTGCCAGCGAA -ATCATTCTGGTAATTGTTTCCATCGTATTCGAGTTTCAGACGCAGGGGATTCCACGGCGTTTGATACTCAATGCCGCCAA -AGATGGAAGCCGGGCCACGAAAGATATCGCTAAAGCTGATATCGCCCGCATCGTGAGACTCTGCGCGATGACAATATTTA -TCGCTCACCCGGCAAAACGGGTTGGTAATATTGCCCGCATTACCGGCGTAGCCCCATGCCATCCCGAGGGTGAAATCAAA -TGGCCCCGCTTGCTTGCTGGCCACCAGATACTCACCGTCAAACAGACCCGTACCAGCAATATCACGTTTACCAAACGCCA -CTTGCGGTAGCCAGTAACCTTCTTCCCACAGGCGAAGTTTAAAATCGAATGATTTGTCTTTGTATGACTGATCGCCGCTG -AAATCTTCCCACTGGCTATATTTGCGTGTGCGCACATCCGTATAACGAATGGTGCCTTCCAGCCATGGGAACAGCGCCAC -GGAGGTGGAGTAGAACCGGTATTGATCGTTATCCCGGTAGTTGACGCTGAATTCACCTTCCGGTGCGATGCGCGCATTTG -GCATCTGCAACAATCCTGTGCCGCCAAAGTCTGATTGCGACGAACCCAGCGGATCCGGGTAGGTTAATACTTCAGCATGA -CAGGCACTGGAGACGGCAATGGCCAGGCAGCTTAAAAGATAAGAATTCTTCTTCATCAGTCAGGAACACGTTGCGTTAAA -ACAGACACAATCTGGTCATTTAAATCAGCATATTTTTCGGGCAGTACATGCGCAGAAAAGCCCAACCAAAGCTGGCTGCC -AGGCGGTGGTTCCACATGTCTTTTATTCCACAGGGCAACAGGGGCGACGACAGTCTCACCCTCAGGCGTAATCACCATAA -CGTTATTCTTGTCCGCGCCTGCAAGGCGGGGGTGATCTTGCAGATAATCGGTAACGCTACGGCCTGCCTGCCAGGGCAAT -TGCCCGGCCCCAGAAACCGCACCCAGCAGAGTAATAGTCACCGGACGCTGTACGGTATAGAGCGTATAGTCCCCGACCAA -CGGGGGATTGCTGTTCTCATCCACTCGTACAAAATCAGGGTCCAGTTTGACCGGTAAGCGACCAGTGATATTGAGATTGA -GTAACTGCTGGCGCACGGATTTAATCGTTGCCGCCACATCGTCGTCAGCTTCTGCTTCCCAGGAAGCAAGCTGTGCCATG -ACATGTTGGTAGTCTTTAAGCGCTTTAGCTTTCGCCGCAGAGTCGGTCAGCAAGGCACCAGGCCACCAGAGGCGATCGCG -CAGTTGCGGTTGTGTCACCAACTGGACAACATTTTCCACGGGGCCAACGGAAAGTGTCTGTTGTTCGCCAGGCAGATAAA -TAGTCACCGTTCCTTGCGCAAAGGCATGGGGTGTCATTACGTAAAGTACGCTGGCAATGAAATACGACTGTAATTTATTC -ATGGTGCGGGTTTAAGAAACGTCATTTCTACGGGAATAACCCCTGCGCCTAACATTTGCCGACTTTGACGAACCTGGCCA -GTAGCCGAATCGACCCAGAATGTGTTTTGCCACTGTTTTTCTGGCCGCGTGGAAGTCACCTCTTCCTGCCAGACATTACA -CAGCACATTGCGACCCGCAATATTCAGCGTCTCTAATCCAGCAAAGGAAAAAGTAGAACTCAGGGTCGCAGAGCGAAAAT -GGTTGTCTTCACTCCAGAGAATATCGCGCGTCCAGCGGCTGCCATCTTTTATTGCCAGCGCGTTACGCAGAGGGTCCTGC -CCGGAATTTGTCACTTCCAGCAGATTATTATTAAGTTTGACGGTTTTTAAAAGACGTCCATTGTGGGTAACCAGCATGGC -GTTATCCTGGGATAACCATTTGCTTTGTTCTTGTTCTATATATCCCAGTACCACAAAGATTCGTTGCCCTTCATTAAGGC -GTAAATACATAGTGGAATAAGGCAACGCCTGGATCTGCTGATCCGCTACGGTGATATCCTGATTATCGAAAAGGCTGGCG -CGAAATGTATCGACCATACTTTGCTGGCTGTGCGTACATCCCGCAAGAAATAGTGCGAAAATCGATAAAATAAGAGGGCG -CACCTTTAATCCTTGAAAGGTTAATTAAAAAAATGCAAATCTCTAAAGCCCGGTACGAATATCGCAACCGGGTATCATTT -AACTTTAATTTCGACGCGTTAAAGCAGTATTAGCGTGTAGTGGACGTGGTGGTTGAGGTGTTATGAGAACCGCCATCGCC -ACTGTCATTTGCTGCAACAACTGCCAACGTCGCCACACCAACAGCCGTTGCCACACCGACAACTGTCGCCGTGCCGACAG -CGCCAGCAGCCACGCCACCAGTGGTAGTAGCAGTCGTGGTTGCGCCGGTAGTGGTCGTTGTGGTGCCAGTAGTACCCGTC -GTTGCCTCGGTCCCGTTTGTTGCTTCAGGGGCAGCAAACGCAGCTGGCGTCGTCAACATGAAGGCCATAAGGATTGCAGA -AAGCTTGTGTTTCATAACTTTTCCTTTATTCATCGCATGGACAATACGGGTGATGCTGCCAACTTACTGATTTAGTGTAT -GATGGTGTTTTTGAGGTTCTCCAGTGGCTTCTGTTTCTATCAGCTGTCCCTCCTGTTCAGCTACTGACGGGGTGGTGCGT -AACGGCAAAAGCACTGCCGGACATCAGCGCTATCTCTGCTCTCACTGCCGTAAAACATGGCAACTGCAGTTCACTTACAC -CGCTTCTCAACCCGGTACGCACCAGAAAATCATTGATATGGCCATGAATGGCGTTGGATGCCGGGCAACAGCCCGCATTA -TGGGCGTTGGCCTCAACACGATTTTCCGCCATTTAAAAAACTCAGGCCGCAGTCGGTAACCTCGCGCATACAGCCGGGCA -GTGACGTCATCGTCTGCGCGGAAATGGACGAACAGTGGGGATACGTCGGGGCTAAATCGCGCCAGCGCTGGCTGTTTTAC -GCGTATGACAGGCTCCGGAAGACGGTTGTTGCGCACGTATTCGGTGAACGCACTATGGCGACGCTGGGGCGTCTTATGAG -CCTGCTGTCACCCTTTGACGTGGTGATATGGATGACGGATGGCTGGCCGCTGTATGAATCCCGCCTGAAGGGAAAGCTGC -ACGTAATCAGCAAGCGATATACGCAGCGAATTGAGCGGTATAACCTGAATCTGAGGCAGCACCTGGCACGGCTGGGACGG -AAGTCGCTGTCGTTCTCAAAATCGGTGGAGCTGCATGACAAAGTCATCGGGCATTATCTGAACATAAAACACTATCAATA -AGTTGGAGTCATTACCGACAATACGTACGCTTGAGATCAGGATTGTCTACTTTGAGTATAACATCCTTGTGAAATCTCCC -TTTCCTCATACCGCTTGCACTATATACTGCGGGTAGGAAAGGCGCGCAGAGGGAAATATAAGATTGTTAACTATCCCCCT -CTGGAAATACGACTTGTGAGCATAAGATAAATCTTAGCAAAATACAAATTAAAGATAAGGAAATTGTTACGAAAGCTATT -AATTATTGTTGGTAATATAGTTTCAAGTGGTACTATAACTGGCTGTTAAATGGCATTTATAACTATTAGGTGCAGAGATA -TTCGCTTAAATGGATTAGTTTCTTTGTGGAAAAGTAACTGATGTTATAATGTATGATGTTGACTATTTCACTATTCCAAT -AAAACCAGTCAGCTTTAAACAAGCAGCGTCATATTAAGAGAGATAAACATTTGCCGCTGTTGGTCCTCGCAGGCCATTTA -CGCGGCAAAATTCCACACGTAATCCTGGTATAAGCACTTCTGCGTCGCGGGGAGTGAATGCGGAAATATGGACCTGAACT -TCTTTACGACCGTCGGAGGGGATAATGAATCCTTTGCCGCTTTTGCGATCAAAGGTTTTGACAATTCCTGTCATTTTACG -GGACAAACAAATTCCTTACTGAAAATACTGCGCTGCACTATACGGGGTTAATAAAATAAAGCCAGCGATATTTAAGACCG -CCGGACGGCTAAAATAAAATTTGCTTAATCTCAATTATCATGCGTTAATAGCTGCGTCGGTTTGAAAGACAGACAGCATA -CAAAGTAGTTTACTAAAGCAGTTCTCATTATCAGGCATTATCCCCTTCTTTTGAGTCTCTCTCCTGAACACTAAGTAGTT -TCTGTATTAAAGCCCTGTTTGCCGAAAGGCCCAAAATGAAGGAAGTAAAATATGTCTAATAAAATGACTGGTTTAGTAAA -ATGGTTTAACGCAGATAAAGGTTTTGGCTTTATCACTCCTGATGATGGCAGCAAAGACGTTTTCGTCCATTTCACCGCCA -TCCAGAGCAATGAATTCCGCACGCTGAACGAAAATCAGAAAGTTGAATTTTCTATTGAGCAGGGGCAACGTGGCCCCGCG -GCAGCGAACGTTGTTACGCTCTAAGGTTGCCATTATTACTCAACATCTCCATTTCCGCTGTCCATGTTGTCATGGTTCAC -AGTACCGCACATCGGCATTCGATGTGACGGAGCGAAACCCTTTGGGCGCTAAGTGTATTTTTTGTAAATCGACGATGATC -ACCTTTGATAACGTCGCGCTGCAAATACGCACTGACCATGCGCCGCTGGATTTCACAAAATAATATCAGGCTCCCTCGTG -GAGCCTTTTTTATATCTGCCTTATTTTTCTTCAACGCTGTATGTATAGTAAGCGATAACCTGTTGATTATTGAATCTTTC -GGGGAGATGGCTTATAACATTTCTTACCTGACCAGGGTACCGGGAACCAACACCTTACTGGCGTGTTGCTGTCTTTTAAG -ACCAGAAGAGGTTAACAGTGAATATTGAAGAGTTAAAAAAACAAGCCGAAACGGAAATCGCCGACTTTATCGCGCAAAAA -ATCGCCGAGCTGAACAAGAATACAGGGAAAGAAGTCTCTGAAATTCGCTTCACCGCACGAGAAAAAATGACCGGGCTTGA -AAGTTATGATGTCAAAATCAAAATAATGTGATTTTGTGAACATCACCCCGTGCGAGGTGATGTTCCGCTTGTTGCTAATT -TAGTGACCAATCATTGGCGCTTGTGGAATTAAGCGTCGGTACAATTCCTCCGGCACCGGGCTTTGCCATACTCCCGCATA -CATTGCGTAACCAATCACCGCAAACATAATCCCCAGAACCAGTAGCGTCATTAACCAGCCAGACAACGCAAAGGCTTTTT -TATTTGCCGCAGGTTTTTGCAGTGAAAAGGTCAATGTTGAGGCTACCGGACATGACTCTACGCAAGTCATACAGCCGGTA -CATTCCACTGTTCGTACCTGAATTAATTTATCGACCGGGATCCGTGATGGGCAATTTTTTGCGCATTTGCCACAGTCGAT -ACAACTTTCGGCATTGCGACGAATCTTAAACGGCGACAATAGCGAAACCACGCCCATCAGCGCGCCATATGGGCAAAGAT -AACGACACCAGGCATGGCGAATAAACAGGCTGGCAATCAGCAAAACGGTCACGCTGATTAATGTCGCGGTCCCCATATGA -CGAAAGAAATCGAGCATTTTAACGTCCATCACCACGCTGTAGGGCGACAACATAAAATAGTGAATCGCCTGAGCGGGCAT -CAATAACGCGATATAGATAAAAAAACTCAACAGCAAATACTTCACGCCGCGCAGAGGAATATCCAGCCAGCGGGGAAGGA -CACATTGCCGACCAAACAGTTTGTTACCGAGATCGCCGATTAATTCAGAAAGCGTACCAACCGGGCATAACCATGAGCAA -AAGGCCTTTTTGAGTAATAGACTGATGACGATAAAAGCGACCAATAACAGCATCGCGGCGGCGTGGACGGACGGTAACTG -ACCTGTTACAAGGCTATATTTCAGATTCATCAGCCCGGCAATCGGTAGCCAGCCTTCGATACCTCCCGGTCTGGCGACAA -ATGTCGTGCTACTTGCCGTTTCGTAATAGCGCACCCAATACCAGAACGTGATGGCAATATAAATATTCATTGCCAACAGT -AATAATTGCGTCGCTTTACGCCAGGTCGTGGCATTACGCCAGTCATTCCACGGTAATTTGCCGCCCGTCGTGCCTGGCCG -CCGCTGCCAGCGGGTTCTTTTATTCTCTGCCATGATTTTGCCAGTCCGTTAAGTTGTATACCAAATGCCACTATTCTAGT -TGTTCTTAACTGGCTGATATTGATTCAAATCGCGTTCAGGTCTTTCTTATGCAACCATGCTTCCAGAGCGGCAACACTGC -GTGTAATTTCTTCGTGTGGAAGGGGGGCAGATAATGGCTGCTGCTCCAGTTGTGCGCATAGCTGGCTGGCGATATGCATT -CCCAGACTCGAGCAACTGCTTTTTAGCTGATGCGCGGCACGCTTTATTTTCTCGCTATCCTGACTGGCGCGGGCAATGTC -GATTTCATCGAGAAGCGGCAGGGCATGTTGTGTAAATAATACCAGCCATTCGTGGATCTTCTCCGTCCCCATTAACTGAG -CATCTTCATTGAGTTGCGATACATCCAGCGATTGATCATTATTGACTTGCAGTTGGAGATAGTGCGCCAGTAACTGACCG -AGCACTTCACGCGGCACCGGTTTAGGGATAATCCCGCGGAATAATGAACTGGTACGCTGGCGCAGCGTTTCGTCAATGAC -ATGGGCGCTAAAGCCAATCAAAACCAGCGACGGATATTGCTGTGCCAGTTGTCGGGCAAGCGTAATGCCGTCGATATCCG -GCAGATCAAAATCCACCAGTGCGGCAGCAAACGGTTCGCTATTTTGCAGTGTCTCTAAAGCCTGCGCGGCATTGCCAACA -GCAACAATCTGCGCACCACTGGTTTTCAGCATCTCAATGGTAATTCGCTGGGTTAGCGGGTTATCTTCAATTAACAGCAA -ACGTAAACCGTCAAGACGCACCGCCTGATTGACTGTTTTTGGCACGGGTGCCGTGGCAACACGTAACGGCAAGCGTAAAC -AAAAACAGCTTCCAACCTCCGGCGTGCTGGTGGCGCTCAGTTCGCCGCCCATCGCCTGGGCCAGACGGCTACTGATAGTC -AGTCCCAGCCCGGTGCCGCCGCGTTTGCCGCTTACCTGCACAAATGGCTGGAAGATTTCTGCCAGTTTCGCGGGATCAAT -ACCGCAGCCGCTGTCTTCCACTTCGACCAGCCATTGCTCGCCATCAGTGCGACTACGCAGGATAATGTACCCTTCGTCAG -TAAAACGCAGGGCGTTGCTCAACAGGTTGGTTATAACCTGACGAATACGTCGTGGATCGCCCATTAACGCGCACGGCATA -TCATCGGCAATTGCCGTTGCCAGGCGAATCGGGCGACCTTTCACCCGTCCGCTCATTAATTGCAGGGTACTTTCCAGCAG -CGGGCGCGGTTCAAAGGGCTCATCGCTGACCGAAACATTCTTGCCACCTGCTTCGATAGCGGAATAATCGAGAATATCGT -TGAGGATGGTCAGCAACGATTCACCAGAGTCAGTAATTGCCCGCAAATCATCACGCTGGGCGTTAAGTGCGGGGTTATCT -GCCAGCAGTTGAGCAGTGCCGAGAATACCGTACAGCGGTGTGCGGATCTCATGGCTCATCGCCGCCAGAAACGCCGATTT -TGCCTGGCTGGCTTTTTCTGCTTCCGCCCGTGCCTGTCGGTGTTCTATCACCAGTTCCTGCAATTCAGCTGTACGCGCTT -TGACCTGCGCCGCCAGCTGTTCGCGGTGGCGATTCAGTGCATGAACATTGCTGCGAAACGCATCCATCAGCCGCCCGATG -GTATCCAGCTCCCGTACGCCAGCGGTTTCCGGGAAAGGGGAGTCAATATCACCGTCCAGCAGCCGTTGCAGCGCCTGCGT -TTGTTCGGCAAGTGGACGCGTGACTGAGCGATAAACCACGCGCCAGAGGATCAGAATCAGTGCGCAAAGTGAAACCATCC -CCAGCAATAACAGGCTGTATTGCCCGCGTGCACTCGCTTTTTCCAGATGCGCCAGTCCGTGCTGATTACGCAGCTCAATG -GTGTCGACCAGCTGACTGACTTCGCTACTAAACTGCGCGAACTGGGCGATGTTATTTTGTGCGAGAGTTTGTAGGTGATT -GCTGATTTCACTGTCCTGCTGATACAGCGCCAGCAAATCGCTATATTGGCTAACGGTAGTTAACGTTGTTGCGACCTGCG -CACGAACACCCGGATCTTCAATGCGTATTTGCCGACGTTGCAGAATTTTCACCGCATTATTGAGCTGCTTTTCCAGCGTT -GGTGCATTTTTCTGGATCTGCTCCAGCCCCAGATTCATCACCATTTGCTGCACCCGCAGAGCGCTAAGGCGCAGTTCATT -CATCTGGTTAACATACTCAAGATCGATATCAATCAGCCGATCGAGTGCACTTTCAGCAGCCTGACGCTGATCTTGTTCGA -TCAAATCGTAAATCCCGGCCTGGGTCGCTCCAGCGGAAGTTGTCGCATTATTCGCCTGACCTTGCGCCAGGCGTGCGATC -TCATCGGCGGCAGCGACTATCTGCTGACTGAGTTGCTGTTGTTGCTGGCGCAGTTGCAAACGCTGCCCCACCAGTTCCCC -TTGCTGACGTAACGAACGGGAGATCTCCTGCTCCTGTTGTTCAATAGCGGTGGTATCAAAACCTTGTTCCCGTAACGCTT -GCAGCAACGCATTAATCTTCAGGCTTTGTGCGGTGAGCATTCGCCCCTGCGCCTGCCACATCTTTTCGTTATCGGCACTG -GTCAGGTTCTGCGCGGCGAAAAGTTCCCAGGCGCTGGCTTCGCTCAACTGGCGCGCCATATTCATGGTAGGAATCAATGC -CTGAGTGTTGTCTTTTTCCACCTGGCTGATAAAGCGCAGGTTGTACCATCCCACCAGGGTACTGGTCAGGGTTAACAGCG -CCATCAGGGCAAAGCCCATCCAGAGTCTTCGGGTCAGGGTTAAATTCACGGTCGGTGCACTTTAGGTGAAAAAGGTTGAG -TCGCAAAGCGGAATGCATCTAGCATAAAGCCTTATTATTGATGAGGCTATCATGCGCGTACTGCTATTTTTACTTCTTTC -CCTTTTCATGTTGCCGGCATTTTCGGCTGATAACCTGTTGCGCTGGCATGATGCGCAGCATTTCACGGTGCAAGCCTCTA -CGCCGCTTAAAGCCAAACGCGCATGGAAACTGTGCGCGCTTTATCCCAGCCTGAAAGATTCATATTGGTTATCGTTGAAC -TATGGTATGCAGGAGGCTGCTCGCCGCTACGGTGTGGATTTAAAAGTGCTGGAGGCAGGCGGCTACAGCCAGTTGGCTAC -CCAGCAAGCACAAATCGACCAGTGTAAACAGTGGGGCGCAGAGGCCATTTTGCTCGGTAGTAGCACGACCTCATTTCCCG -ACCTGCAAAAGCAGGTAGCAAGTCTGCCGGTGATCGAACTGGTAAATGCTATTGATGCTCCCCAGGTGAAAAGCCGCGTT -GGTGTGCCCTGGTTTCAGATGGGCTATCAACCGGGGCGATATCTGGTGCAATGGGCGCACGGTAAACCACTGAATGTGCT -GTTGATGCCCGGACCCGATAACGCCGGGGGCAGTAAGGAGATGGTCGAGGGTTTTCGCGCAGCCATTGCCGGAAGCCCGG -TGCGTATTGTTGATATTGCGCTTGGTGATAACGATATTGAAATCCAGCGTAACCTGTTGCAGGAGATGCTGGAACGCCAT -CCAGAAATCGACGTCGTTGCCGGAACGGCCATTGCGGCAGAGGCGGCAATGGGGGAAGGGCGTAACCTGAAAACGCCGCT -TACCGTGGTGTCGTTTTATCTTTCACATCAGGTGTATCGCGGGCTGAAGCGGGGAAGAGTGATTATGGCTGCCAGCGATC -AAATGGTCTGGCAGGGGGAACTGGCGGTTGAGCAGGCCATCAGGCAATTACAGGGGCAATCGGTTTCTGATAATGTCAGC -CCACCGATTTTAGTTCTGACGCCGAAAAATGCCGACCGTGAACATATTCGCCGCTCGCTGTCACCAGGGGGATTTCGTCC -GGTCTATTTTTATCAGCACACATCAGCGGCTAAGAAATAACCTTCACCATGTTGCGTCACCAGTAAATCCGCGCTGAGTT -TATGACGTAAACGACGAATTAACACATCGACGGTGCGCAGGTCAGGGTTTTCCACCCGACGCGCAGAAAGCATACGTAGC -AGACGTTCACGGCTGAGAATTTCGCCCGGATTCGTCACAAATGCCACCAACATTTCATACTCTGCGCGGGTCAGTTTAAT -CGGCTCGCCATCCCGCTCCAGCGTATGGCGCGACACATTCAGGCAATAACCGGCAAAGCGATAGCAGTTGTCCTGAGTGT -GCGGTTGAGCTTGTCGCGCGAGGTCGATTCGCCAGAGCAGATTTTTCACCCGTACTACCAGTTCGCGCAGTTCCAGCGGT -TTGGTGACGTAATCGTCTGCGCCCATTTCCAGCCCAACAATACGGTCAATCCGATCGCTGCGTCCGGTAACCAGAATAAT -CCCCACCGTTGAGCGTTCTCGCAGGGCGCGGGTTAACATCAGGCCATTTTCATCGGGTAAGTTGATATCCAGCAGAATTA -AATCTACCGACTGATTCTGCATAATTTCCCGTAGCCCAGCACCGCTCGCCGTAACGGAAACGGTATACCCCTCCTGAGTG -AAGTAGGATTGTAATCGCGCCTGGGTAACCGGCTCATCTTCAACAATAACAATGTGATGTGGCATCAGAGGGTTTTACTC -ATTCTGTTCATATCTGTTCATATTCTGCCGTAAGCCGTTCATCCTGACCAGTGCCGCTGTTCATATTTGCTCATTAAGAT -CGCTTCACTAAACCATAATTCTACAGGGGTTATTATGCGGAAACTCTGGAACGCGCTACGCCGACCCAGTGCTCGTTGGT -CGGTACTGGCGCTGGTCGCAATTGGGATTGTGATTGGCATTGCGCTGATTGTATTGCCACACGTTGGGATCAAAGTCACC -AGCACAACCGAATTTTGTGTCAGTTGCCACAGTATGCAACCGGTGTATGAAGAATATAAACAGTCGGTGCATTTCCAGAA -CGCCTCCGGCGTGCGAGCTGAATGCCATGACTGTCATATCCCGCCGGATATTCCAGGCATGGTGAAGCGCAAACTGGAAG -CGAGCAATGATATCTACCAGACCTTTATTGCTCACTCCATTGATACACCTGAAAAATTCGAAGCCAAACGCGCGGAACTT -GCCGAGCGTGAATGGGCGCGAATGAAAGAAAACAACTCGGCAACCTGCCGCTCCTGCCATAACTACGATGCGATGGATCA -TGCGAAGCAGCATCCTGAAGCAGCACGTCAGATGAAGGTGGCAGCGAAAGATAATCAATCCTGCATCGACTGTCATAAAG -GTATTGCCCACCAGTTACCGGATATGAGTAGCGGCTTCCGTAAGCAGTTCGATGAGCTGCGCGCCAGTGCTAATGACAGT -GGTGACACGCTGTACTCTATTGATATTAAGCCAATTTATGCGGCGAAAGGCGATAAAGAAGCCTCTGGTTCTCTGCTGCC -TGCTTCGGAAGTGAAAGTCCTTAAACGTGACGGCGACTGGCTGCAAATTGAAATTACCGGCTGGACGGAAAGCGCCGGAC -GTCAGCGTGTACTCACCCAATTCCCAGGTAAACGCATCTTTGTTGCCTCGATTCGTGGTGATGTGCAGCAGCAGGTAAAA -ACGCTGGAGAAAACCACCGTTGCCGACACCAATACCGAGTGGAGCAAGTTGCAGGCCACTGCGTGGATGAAGAAAGGCGA -CATGGTGAACGATATCAAACCGATCTGGGCTTATGCGGATTCGTTGTACAACGGCACCTGTAACCAGTGCCACGGCGCAC -CGGAAATCGCCCACTTTGACGCTAACGGTTGGATCGGCACGCTCAACGGCATGATTGGCTTTACCAGTCTCGATAAACGT -GAAGAACGCACCTTGTTGAAATATCTGCAAATGAATGCGTCTGACACCGCAGGTAAGGCTCACGGCGATAAGAAGGAAGA -AAAATAATGAACAATAACGATCTCTTTCAGGCATCACGTCGGCGTTTTCTGGCACAACTCGGCGGCTTAACCGTCGCCGG -GATGCTGGGGCCGTCATTGTTAACGCCGCGACGTGCGACTGCGGCGCAAGCGGCGACTGACGCTGTCATCTCGAAAGAGG -GCATTCTTACCGGGTCGCACTGGGGGGCTATCCGCGCGACGGTGAAGGATGGTCGCTTTGTGGCGGCAAAACCGTTCGAA -CTGGATAAATATCCGTCGAAAATGATTGCCGGATTGCCGGATCACGTACACAACGCGGCGCGTATTCGTTATCCGATGGT -ACGCGTGGACTGGCTGCGTAAGCGCCATCTCAGCGATACCTCCCAGCGCGGTGATAACCGTTTTGTGCGCGTGAGCTGGG -ATGAAGCCCTCGACATGTTCTATGAAGAACTGGAACGCGTGCAGAAAACTCACGGGCCGAGTGCCTTGCTGACCGCCAGT -GGTTGGCAATCGACGGGGATGTTCCATAACGCTTCGGGGATGCTGGCGAAAGCTATTGCCTTGCATGGTAATAGCGTTGG -TACGGGCGGAGATTACTCTACCGGTGCTGCGCAGGTGATCCTGCCGCGCGTAGTCGGTTCGATGGAAGTGTATGAACAGC -AAACCTCCTGGCCGCTGGTATTGCAGAACAGCAAAACCATTGTGCTGTGGGGCTCCGATTTGCTGAAAAACCAGCAAGCG -AACTGGTGGTGCCCGGATCACGATGTTTATGAATATTACGCGCAGCTAAAAGCGAAAGTCGCCGCCGGTGAAATTGAGGT -CATCAGCATCGATCCGGTTGTCACATCCACCCATGAGTATCTGGGGCGCGAGCATGTGAAGCACATTGCGGTTAACCCGC -AAACTGACGTGCCGCTGCAACTGGCGCTGGCACATACGCTGTACAGTGAAAACCTGTACGACAAAAACTTCCTTGCTAAC -TACTGTGTGGGTTTTGAGCAGTTCCTGCCGTATCTGCTGGGTGAGAAAGACGGTCAGCCGAAAGATGCCGCATGGGCTGA -AAAACTGACCGGCATTGATGCCGAAACCATTCGTGGGCTGGCGCGGCAGATGGCGGCGAACAGAACGCAAATTATTGCTG -GCTGGTGCGTGCAGCGTATGCAGCACGGTGAACAGTGGGCGTGGATGATTGTGGTTCTGGCGGCGATGCTGGGGCAAATT -GGCCTGCCAGGTGGTGGTTTTGGTTTTGGCTGGCACTACAACGGCGCAGGCACGCCGGGGCGTAAAGGCGTTATTCTGAG -TGGTTTCTCCGGCTCTACGTCGATTCCGCCTGTTCACGACAACAGTGACTACAAAGGCTACAGCAGCACTATTCCGATTG -CCCGTTTTATCGATGCGATCCTCGAACCGGGGAAAGTGATCAACTGGAACGGTAAATCGGTAAAACTGCCGCCGCTGAAA -ATGTGTATTTTTGCCGGAACTAACCCATTCCATCGCCATCAGCAGATCAACCGCATTATTGAAGGCTTGCGCAAGCTGGA -AACGGTTATCGCCATAGATAACCAGTGGACCTCAACCTGCCGCTTTGCCGATATCGTACTGCCTGCGACCACGCAGTTTG -AGCGTAACGATCTCGACCAGTACGGCAATCACTCCAACCGTGGCATTATCGCCATGAAACAGGTGGTGCCGCCGCAGTTC -GAGGCGCGCAACGACTTCGATATTTTCCGCGAGCTGTGCCGTCGCTTTAATCGCGAAGAAGCCTTTACCGAAGGGCTGGA -CGAAATGGGCTGGCTGAAACGCATCTGGCAGGAAGGTGTACAGCAAGGCAAAGGACGCGGCGTTCATCTGCCAGCGTTTG -ATGACTTCTGGAATAACAAAGAGTACGTCGAGTTTGACCATCCGCAGATGTTTGTTCGCCACCAGGCATTCCGCGAAGAT -CCGGATCTCGAACCGCTGGGCACGCCGAGTGGCCTGATTGAGATCTACTCGAAAACTATCGCCGATATGAACTACGACGA -TTGTCAGGGGCATCCGATGTGGTTTGAGAAAATCGAACGCTCCCACGGTGGGCCTGGCTCGCAAAAGTATCCGTTGCATC -TGCAATCTGTGCATCCGGATTTCCGACTTCACTCGCAGTTATGTGAGTCGGAAACGCTGCGTCAGCAATATACGGTAGCG -GGTAAAGAGCCAGTATTCATTAACCCGCAGGATGCCAGCGCGCGCGGTATTCGTAACGGTGATGTGGTACGCGTCTTTAA -CGCTCGCGGTCAGGTGTTGGCAGGGGCAGTGGTTTCTGACCGCTATGCACCCGGCGTGGCACGAATTCACGAAGGGGCAT -GGTACGATCCAGATAAAGGCGGCGAGCCTGGTGCGCTGTGCAAATACGGTAACCCCAACGTGTTGACCATCGACATCGGT -ACATCGCAGCTGGCGCAGGCGACCAGTGCGCACACTACGCTGGTGGAAATTGAGAAGTACAACGGAACAGTGGAGCAGGT -GACGGCGTTTAACGGCCCCGTGGAGATGGTGGCGCAGTGCGAATATGTTCCCGCGTCGCAGGTGAAATCATGACCACGCT -GACAGCACAACAGATTGCCTGTGTTTACGCCTGGCTAGCGCAGTTGTTCTCCCGTGAGCTGGACGATGAACAACTGACGC -AAATCGCCAGTGCGCAGATGGCTGAATGGTTTTCGTTGCTGAAAAACGAACCGCCGCTCACTGCGGCGGTGAACGAGCTG -GAAAACCGTATTGCCACGCTGACAGTACGTGACGATGCCCGTCTGGAACTGGCCGCGGACTTTTGCGGCCTGTTTCTGAT -GACCGACAAACAAGCGGCGCTGCCGTATGCATCGGCCTACAAACAGGACGAGCAAGAGATTAAACGCTTGTTAGTTGAGG -CAGGGATGGAAACCAGCGGCAATTTCAACGAACCGGCAGATCATCTGGCGATCTATCTCGAATTGCTCAGCCATCTGCAT -TTTTCGCTGGGAGAGGGGACCGTTCCTGCGCGAAGAATCGACAGTTTGCGGCAAAAAACACTGACGGCGCTGTGGCAATG -GTTACCAGAGTTTGTTGCGCGTTGTCGTCAGTATGACAGCTTTGGTTTTTACGCGGCACTAAGCCAGTTATTGCTGGTGT -TAGTGGAGTGCGACCACCAAAACAGATAACGTCGTTTGTGCGCCTGAAAAGACGCGTTTAGCGTCGCATCAGGCATTATG -GCGCAGTTGCCGGATGCGGCGTGAACGTCTTATCCGGCCCACAGGAACTGTAATCTTTGTAGACCGGTTAAGATGCGTCA -TCGCATCCGGCAAACACACATCACGGATGAGCTACAAACCGGGAAAGCCGCTGGCGCAGCAGGCGGTTTTCCTGCTTCAG -GTGCGCAATATCATCCATTAACGTCAGCGCCACCGCGATCCCCGGCCAGTCCAGAGCCAGTTCATGACGCAGGCGTACCG -CGCGTTGCACCACAATGGCGGCATGGTCGTCAAATACCCAGGTTGTTTCCTGGATCTCACGCGGTTCAACCACCCCCAAA -CCGACAATTTCATTCAACTCCTCTTCAGAGATGCCGGTATGCAGGCAAAATTCGGTAATAGTAAAAGTCACCGTAACATT -AGCCATTATGCTTTCCCCCAATCTTTACGTGGATCAAAAGACGACTGGGCGTCTGCCAGTTGCTGCCACAGCGCGGCAGT -GTTTTCATCCGGTTTCGGCGGCATCACGATTTTCAGTACCGCATACAGATCGCCGGTCTGTTTTTTGCTCACCAGACCTT -TGCCTTTAACGCGCAATCGTTGCCCGGCCTGGCTGCCTGGCGGGATAGTCAGCAAAATGCTTTCTTTCAGTGTTGGAACG -GTGACTTTAGCACCCAGCGCCGCTTCCCACGGGCTAACCGGCACCACAATTTCCAGATCCTGGCCGACAATATCAAACAG -CGGATGTGGCGCAATATGAATCACCAGCCACAAATCGCCATTTGGACCGCCGTTTTCGCCCGGCGTCCCCTGGCCTTTCA -GACGGATGCGTTGACCATTGCCGACGCCCGCCGGGATCTTCACATTCAGCGTTTTCGGAATTTCCTGTTCGATCATGCCA -AAGGCGTTATAAACCGGCAGGTTATAGCTGATGGTACGCTTATGCTCAGTAAGCGTTTCTTCGAGGAATACCGCCACTTC -GATTTCAATATCGTGGCCGCGTGTGGCGGGGCGTTGACGGCTCTGGCGGGCATGCTGACCGAAAATTGACGAGAAGATAT -CGTCAAAATCTTCGGCGTTAAAACTCTGACCGTCGCCATGGTGGAACTGACGGTTAAATTGCGGATCGTTGCGATGTTGC -CACATCTGATCATACTCAGCGCGACGTTGTTCATCACTTAACACTTCCCAGGCTTCAGCGACCTCTTTGAAGCGGGCTTC -GGCATCCGGTTCTTTGCTGACATCAGGATGGTATTTGCGGGCAAGTCGACGATAGGCGGTCTTGATTGTCTTGAGATCGT -CCGTCGGTTTCACGCCCATGATGGCGTAATAATCCTTTAATTCCATAGCGTTATCTCGCGTAAATCAACACAAATTGAAG -GAACCCCTGTAAGGTAACTCCTATAAGTGTAGGGTAATCCTCAAAATTTCATATGCCAACACAGAATATGTTATTGAAAT -CATCGCGGAGAGGAGGTCGCCATCAAGATGGGTTGCTGAACATATTTTAAACAGGTGAAAAAGGGTGAGCGATTTTTGAT -AGTTGAACCAGGCACTTTAAGTTTAACTAGGGCGTCATTATTTATTAAATTTTATAGACGCTATATATGGGTAGTAATAT -ACATGGAATTAGTTGCACTGCAAATAATTATTTGAAACAGGCCTGGAACGATATAAAAAATGAGTACGAAAAAAATCAAA -CATATTCAATCACGCTTTTTGAAAACACACTGGTGTGTTTTATGCGGTTATACAATGAACTCAGACGTAAAGTAAATGAA -GAGGATACTCCATGTCTGGAATGTGAATCACTAGAAAAAGAATTTGAGGAAATGCAGAATGATAATGATCTATCATTATT -TATGAGAATATTGCGTACTAATGATACACAAATTTATTCAGGGGTTTCAGGAGGTATTACATATACTATACAATATGTTC -GAGATATTGATATTGTTAGAGTGTCCTTGCCGGGCAGAGCTTCAGAGTCTATCACAGATTTTAAAGGTTATTATTGGTAT -AACTTTATGGAGTATATTGAAAACATTAATGCGTGTGATGATGTTTTTTCTGAGTATTGTTTTGATGATGAAAATATAAG -TGTCCAGCCAGAGCGGATAAATACGCCGGGAATATCTGATTTGGATTCTGACATTGATTTGTCTGGTATATCTTTTATTC -AGCGTGAAACTAACCAGGCATTAGGATTAAAATATGCTCCTGTAGATGGCGATGGATATTGTCTGTTAAGAGCTATACTG -GTTTTAAAACAACATGATTATTCATGGGCGCTGGTCAGTTATAAGATGCAAAAGGAAGTTTACAACGAATTCATTAAAAT -GGTTGATAAAAAAACGATCGAGGCTCTTGTTGATACGGCATTCTATAATCTCAGGGAAGATGTAAAGACGTTATTTGGCG -TTGATCTACAATCTGACAACCAAATTCAGGGGCAGAGTAGTCTTATGTCATGGAGCTTTCTGTTTTTTAAAAAACAATTC -ATTGATAGTTGCTTGAATAACGAAAAATGTATCCTGCATTTACCCGAGTTTATATTTAATGATAACAAGAACTTGCTTGC -TTTAGATACCGACACGTCGGATAGGATTAAAGCGGTGAAGAATTTTCTTGTTGTTCTTTCAGATAGCATTTGCTCATTAT -TTATTGTTAATAGTAATGTGGCATCAATCTCCTTGGGGAATGAATCCTTTTCAACAGATGAAGATCTTGAGTATGGTTAT -TTAATGAACACTGGCAATCATTATGACGTTTACCTCCCTCCTGAACTTTTTGCTCAGGCTTACAAGTTAAACAATAAGGA -AATGAATGCGCAACTCGACTATTTAAATCGTTATGCAATTTAATGGCAAAGGCATATGCTAAAAACCATTGTTATTAGTC -TCACACTTTTTTATTGGTAAATATTGTCTCTGTATTGGTAACGCCGCAGATATTCTGTTTAGCCACAGGTGCAATTATCA -GCGGCGTACGCGAGGCAGGGGCTAATCAGGCATAGTTTGCGTCAAACCTTGCCTGTTTTTGAAGATGTATATAGAAAAAC -AGGCGTTCAACAAGCCATTTTGCGAACCTGTTCCCGGAAAAAAGTCATATTTCTGTCACACTCTTTAGTGATTGATAACA -AAAGAGGTGCCAGGAATGAACAAAACGCTAATCGCCGCAGCTGTGGCAGGGATAGTTTTACTCGCTTCAAACGCTCAGGC -ACAAACCGTACCGGAAGGCTATCAGCTACAGCAAGTGCTCATGATGAGCCGCCATAACTTACGTGCGCCGCTGGCGAACA -ATGGCAGTGTGCTGGAGCAGTCGACGCCGAATAAATGGCCAGAATGGGACGTCCCCGGTGGGCAACTCACCACCAAAGGT -GGCGTGCTCGAAGTGTATATGGGCCATTACATGCGTGAATGGCTGGCAGAGCAGGGGATGGTGAAATCGGGGGAATGCCC -GCCGCCGTACACCGTTTATGCCTATGCCAATAGTCTGCAACGTACCGTTGCGACCGCACAGTTCTTTATTACCGGCGCAT -TCCCGGGGTGTGATATTCCTGTGCATCACCAGGAAAAAATGGGCACTATGGACCCAACCTTTAACCCGGTGATCACCGAT -GATTCCGCCGCATTCAGTGAACAGGCGGTGGCGGCAATGGAGAAAGAGCTCAGCAAACTCCAGCTTACCGACAGCTACCA -GCTACTGGAAAAAATCGTTAACTATAAAGATTCCCCTGCCTGTAAAGAGAAACAACAGTGTTCGCTGGTGGATGGCAAAA -ATACCTTTAGCGCCAAGTATCAACAAGAACCAGGTGTTTCCGGGCCGCTGAAAGTCGGCAACTCGCTGGTAGATGCGTTT -ACTTTGCAATATTACGAAGGTTTTCCGATGGATCAGGTGGCCTGGGGAGAAATCAAATCTGACCAGCAGTGGAAGGTGTT -GTCGAAGCTTAAAAACGGCTACCAGGACAGCCTGTTTACCTCACCGGAAGTGGCGCGCAATGTTGCGAAACCGCTGGTCA -GTTATATCGACAAAGCTCTGGTCACCGATCGCACCAGCGCACCGAAAATTACAGTGTTGGTTGGGCACGACTCCAACATT -GCCTCTCTGTTAACGGCGCTGGATTTCAAACCGTATCAGTTGCATGACCAGAACGAACGCACGCCGATTGGCGGCAAAAT -CGTTTTCCAGCGTTGGCATGACAGCAAAGCCAATCGCGATTTGATGAAAATTGAATATGTGTATCAGAGTGCGGAACAGT -TACGTAATGCCGATGCGTTAACCCTGCAGGCACCTGCGCAGCGTGTGACGCTGGAATTAAGCGGTTGCCCGATAGACGCT -GATGGTTTCTGCCCGATGGATAAGTTTGATAGCGTGTTGAATGAAGCGGTGAAATAACAGAAAACTCCCCCGCGAGAAGC -GGGGGAGTCGCTGGTTAAACGTTTTTACGTTCGATGGTCTGTTCGCCCCAAAAAAGCGAATCTTTATCGGTCTTAGCAAA -GGCTTTGACTAACACTTCATCACTACCTTCTTCCCAAATCTTTTCCGCCATTTTTTCGTCGTACCCGGCGACTTCGAAAA -TGGCCTCGGCTATTTCCGGCGACGTATTGCGCAGAGATGCCCATTCACCGACGTGATGAGCTTTCGCTTCTTGAGTTGGC -ATGCGTATCCTCCTGTTGAAGATTAGCCGTTAAGTTTAACTGCCAGACCTGCGACATATTCCCCTTGATAACGAGCAATA -GACAGTTCTTCCTGGCTGGGCTGGCGTGAACCGTCACCGCCTGCGATGGTGGTTGCGCCGTACGGCGTACCGCCGCGAAC -CTGTGAAACGTCAAATAATTCCTGCGCTGCGTAGCCAATAGGGACAATTACCATGCCGTGATGCGCAAGGGTCGTCCAGG -TGGATGTGATGGTTTGTTCCTGACCGCCGCCAGTACCGGTGGAACTAAAGACGCTCGCCAGTTTTCCGTATAGTGCGCCG -GAAGCCCACAGGCCGCCCGTCTGGTCGAGGAAGGTACGCATTTGACCGGACATGTTGCCAAAGCGGGTAGGTGTACCAAA -AATAATGGCGTCGTAATCGGCCAGTTCTTGCGGGGTTGCAACCGGTGCAGTTTGCGTTTTACCGCCTGCTTTTTCAAATA -ATTGCGGCGGCATGGTTTCCGGTACACGCTTAACGACAACTTCAGCGCCATCCACTTTGCTTGCACCCTCAGCGACTGCG -CGTGCCATCGTTTCAATATGTCCGTACATGGAATAATAAAGCACCAGAACTTTAGCCATTTCTAACCACTCCTCGTGTTA -TCTCTATTCCGTAGCGATTCGCTACCACTTATTTAAAGATAAGACGTCCTTTTCAGAGTGCAAATTTCACAACCACTTAT -TTGATTTATAACAACTTTCACAAGCACGTAATTTTGTCGCAAAATGACACATTTTTATCTCATCGCGTTTTTTTAATCAT -AAGAGCGGCTTATGGATAATTATTGGAGATGATATCTATTCTCGCTAAGAAGCTGTTGCAGGATATTACCAAACGCGGGT -CTGCCCGCGTCAGTTCACTAAGCTTAGTCCCACGTAGCGAAAATATGGCAGCCGCCATACGCCGCGTTAATTCTATGCAA -TATGATGTCTATACCCAGACGGAGGTCAGTAATGGCAAACCATCGAGGCGGTTCCGGCAATTTTGCAGAAGACCGCGAAA -GAGCATCAGAAGCAGGTAAAAAAGGTGGACAGCACAGCGGGGGTAATTTCAAGAATGACCCGCAGCGCGCATCTGAAGCA -GGTAAAAAAGGTGGTAAGAGCAGTCACGGCAAAAGCGACAACTAGCCGGGCTAATCAATGACGAATGCATTTTTGTCTGT -AGCTCGTCAAAAAGCCATCACCGCCGGTTACCCGGTGGTTGATACTGATGACAAATGTAAGCTTGCCTGATGCGCGATGC -TTATCAGGCCTACCAGAAGATTGCAATATATTGAATTTGCACTGTTTTGTAGGCCGGATAAGGCGTTTACGCCGCATCCG -GCATGAACAATGCGTACGTTGTCAACAATCTGCACCGCCGGTAACCCCGGCGGTTTTCTGTTTATGGCTCCTGATGAACA -ACTTCTGGCGGTGGAACGTCAACCAACTTTCTGCTTAACAACGCATTGAGTAAAATCGCGCCAAAGGTTGCTGTACCAAT -CCCTCCCAACGTAAAACCGCCCAGCGTGAGAGCAAAATCACCCGCGCCCAGCACTAAGGTTACTGCGACCATAATCAAAT -TACCGTTCTGGCTTAAATCGACACGGTTTTGTACCCATATCCTTGCGCCTGCGACGGCAATCAGCCCGAACACAACAATT -GATGCACCACCAATAACCGCGGCCGGAATGGTATGAATCAGCGCACCAAATTTCGGTGAAAAGCCCAACAGCATGGCGAT -GACGGCAGCAGCAACAAACACCAGCGTCGAGTAGACTTTGGTCACGGCCATCACACCGATATTTTCAGCATAGGTGGTCA -CGCCGCTACCGCCGACAGAGCCGGAAAGCATCGTTGCCAGACCATCGCCTACGAATGCCCGCCCCATATACGGGTCCATA -TTGCGTCCGGTCATCCCGGCGACTGCCTTGAGATGACCTAAGTTTTCCGCCACCAGAATCACCGCCACGGGCGCAATCAG -CATCATTGCCTGACCATTAAAAGCAGGAGTGGAAAAATGTGGCAGACCGAACCAGGCAGCATGGCTGACGAGAGTAAAAT -CGACGGCTTTTCCCAGCCCTAAAACGTTGGTCATCACGCCATACAGCAGACAGGCGACAATTAATCCTACGAGAATCAAT -AACCGCTGGATCATGCCACGGGTAAACACCGCCACCAGCCCAATACACAGCACCGTCATTACCGCCATCCAGCTATCAAA -GGCCGAAGCCGATACACTTTTCACTGCGATAGGCGCTAAGTTCAGGCCAATCGCCATCACCACCGCACCCGTCACCACCG -GCGGCATCAGTCGTTCAATCCAGCGCGTACCGATTTTCATCACCACCAGGCCAATGACGGTATAAACCAGCCCACAGGCG -ATAATCCCGCCCAGCGCAATGCTGATATTCGGGTTAATGCCCTGACCGTTAAAGCCCGTCGCGGCGATCACCACGCCGAC -AAAAGCCGCGCTGGAGCCGAGATAACTGGGGACGCGCCCGCCGGTAATAAAGAAAAACAGTAACGTGCCGATCCCCGACA -TTAAAATGGAAAGATTGGGATCCAGCCCCATCAGAATCGGCATTAACACCGTCGCGCCAAACATCGCCACCGCGTGTTGA -ACGCCCATTACTGCCGTCTGAGCAAACGGCAATCGTTCATCCGGCGCGACCACGCCGCTCTCTGTAGAGGTCGATTTTAA -CTGCCAGTGAGGAAAACCGAACATTGCCATCAGCTGTCTCCTTAAGGAGGTTAACAAGCAGGGCGCATCAGCGCGTGATA -ACTGCGATCGAACCACACCAGCCCGTAGGGTGTGGTGTGACGATGAATCGCTTCGATGGCGCAAAACAGAATGTCGTGGG -TGCCGACGCTCACCACCTGGCTGATACGGCAGTCAAACGAAACCAGAGCCTCTTCCAGTTGCGGGCATCCGGTCACCCCC -GTCTGCCAGCGGGCGGCGGCAAAGCGGTGTTCCATGGGCGTTTTGCCGCCAAAAAGGTTTGAAAGCGGCTCCTGCCCGGC -GCTAAGTGTATTTACACACAGCGTTCGATTTTCATTGAATGCCGGCCAGACGGACGCCCCACGATTCAGGCACACCAGTA -ATGTGGGCGGCGTATCGGTCACACTGCAGACGGCGCTGGCGGTGAACCCGGCGCGCCCGGCTGGACCGTCCGTGGTGATA -ATATTGACCGCCGCGCCCATGCAGGACATCGCATCGCGAAAAGTTTGTTGATCGACAATGTTCATAGTTTGCTCCTTACA -ACAGCCCGCAGGCTTCTTCAAAGGACAGACGTGGCAGGCGCGCATAAAGCTTGCTGCTATCGCCATAGCCGATATTAATC -AGCAGATTGCTCTTCAGCGTGCTGCCCGTAAAAAAGGCGTCGTCCACGTGTTGACGGTCAAAGCCCGACATCGGGCCGGT -ATCCAGTCCCAGCGCCCGGCAGGCGACGATCAGATAGGCCGCCTGCATGGAACTGTTGCGAAACGCTGTTTCTTCGGCAA -GTTGTGGGCTGGAGGTAAACCAACTGCGGGCATCACCGTGGGGAAACAGTAGTGGTAACCGTTCATAAAATTCACTGTCC -CAGGCGACGATAGCGGTGACGGGCGCGGTCAGGGTTTTTTGCAGATTGCCGCTGGAAAGTGCCGGGCGCAGACGTTCTTT -TCCTTCTGCCGTGCGGGTAAACACGATCCGTGCCGGAGAACAGTTAGCTGATGTCGGCCCCCATTTCATCAGGGCATAAA -TCTCCCGTAACGTCTCATCGCTGACGGGTGTCTCCCGCCAGCCGTTGTGAGTGCGGGCATCGGTGAACAGGGTGCTAAGC -GCACCTGGGCTAACGGCTTCGTTCATAGCAATTCCTTACAGGGCGGCTTCACGGTGATGTAACAGGCTGGCAAGCCCGTT -GAGTAACAGAGCATTAAACGTTTCGGGATCGGTCACGTTGCAGGCGTGTCCGCCATAGGGCATCACCATTTTCTGGCTAT -CGGGCAGGGCGGCATGAAGTTCACTGGAACATGCTGTTGGCACCAGCAGATCATCACTGGCGCAGATGATTTGCACCGGG -CAGCGGATGCGATCCGCATGGTGACTAAAGTCAGCGCGTTTGAGGGCGTTAAGTCGACGCAGTAAATTATTTTTGCCCTG -AAAATGCGCCAGTGCCAGCGCGTCTTCTGCCTCCAGGCGAGGTGCGCGGGCCGCCATCCAGTCGGCGGGATAGAGGAACA -ACGGCTGCGCTTCCACCCATGCCTGCGCGCCGCCGCTATACAGTAATCGTTCGCGAACCTGAAAACAGCGGCGCGTATGG -GCGTTTATTCGTAGCCAGCCGTTAACGCTGATCAGCACAGTTACCGACGCGGGATAATCCAGCGCCAGCTGCATTCCCAC -CAGCGCACCGAGCGCATGGCCGACCACTGCGTAATGCTCAATCCCTGCGGCTACCAGCGCCTGATGCAGTTCCGCTGCCA -TCTGGGCGATACTGTAATCTTCTGCCAGCGTGTCGGGATTATTGCCGGTGCCGCGCTGGTCGTAACAGACTACCTGATAC -TCCTGCTCCAGCACCGCCAGTTGCGGTAACCAGTAACTGCCGCTACCCCCAAGACCCGAAATCAACACCACTACGGGCGC -ATCAGCATAAGGGGGAGGTGAGAGTGAAAGTTTCATCGCGGCCTCACTTGGCGATATGCGCAATTGTGGCGATTTCCACC -AGCGCGTCAGGTTTTACCAGTCCGCACTGAATGCAGAATCGCGCCGGTTTATCACCCGGAAAAAACTCGGCGTAGATTTC -GTTAATCGCGGCGTAATTTTTCCAGTCGGTAATAAAGATGCTGTTGAAGGTCACATCCGCCATCGTGCCACCCGCCGTCT -CGATCACCTTGCGGATAGTTTCCAGAACGTGGCGGGTTTGCGCCTTTGGGTCATCGGCAAACAGCACGTTATTATGTTGA -TCAAAAGCCAGCGTACCGGAGACATACACCACGCCATCAGCCAGCGTGCCGGGAACGAAGGGGGCCAGCGGTGCGCTGCT -GCCAGCGGGAATAATTACGGATTTTGGCATCGTTAAACTCCTTAAGCGATATGAGCAAAGGACGTGGGAGAAAGCGCGTC -GCAGAATGTTTCGACGTCGCTGACCCAGCCAAAAAAGGTTTCGATATTGAACAACGCGGCTTTCTGCGCAAATTTCGGCC -CCGCCTGGTGAGTTGCGTCTTCAAGCACCACGCCGAAATACTCCAGAAAAAAGCCGTCGCGTAGCGTCGATTCGACGCAG -ACGTTGGTAGCGATGCCGGTGAAAACCAGATGGCGTATTCCGCGGCTGCGCAAAATGCTGTCCAGCGGCGTATTGAAGAA -ACCGCTGTAGCGCGGCTTCGGCAGCACAATATCGCCAGGCTGCGGCACCAGTTCATCCACCAGTTGATAATCCCAGGAGC -CTTTCGCCAGCAATTTCCCCTGCAGCTGCGGCTGCTTACGCATGGTTTTCAGGGCGTTCGATTTATGAAAATTCGGTGAG -CCGGGTCCGCCAGCCTCGACATACTGTTCATCCCAGCCATTTTGAAACCAGATGATCAGCATCCCTGCCGCTCGCGCTGC -GGTCACGGCGGTTTGAATGTTGGCAATGACCGGGCGAGTGGTTGAGACATCAAACCCGGCGAGATCTAAGTAGCCGCCTG -GCGTGGCATAAGCGTTTTGCATATCCACCACGATCAGCGCACTTTGCTGCGGATCGAAGGTAATGGCTTCCGGTCGAGCG -GTTAAGGTCGTCATCATGCCACCTCCTGAGTCAGCGCAGGTAGATGGGCGCGGCATTGCATCAGTGGTTGAATGCGCTCG -CCGAAGGTTTCGATTCCCGACAGAAAATCGTCGAAGGTTAACAGCACGCCTTCGGCACCAGGCACGCTTGCGACTTCATC -TAACATGCGCGCGACACTGGCGTAAGAACCGACTAACGTCCCCATATTGATGTTTACCGCCGAAGTGGGATCGGCCATCT -GACGAACGTTGGTGTCAGTACCGGAGCGGGTATCTTTCTGACTTTGTTCGGTTAGCCAGCTTAACGCCTCTTCATCCGCG -CCCGCTTTGTAGTGTTCCCATTTGGCGCGAGCGGCATCGTCGGTTTCATCGGCAATCACCATAAACAACACATAAGAGCC -AACGTCGCGTCCGGTTTGCTCTGCGGCCTGTTTCATCCGCGCAGCGGTCGGGGCGAAAGCCGTGGGTGTATTTACGCCTT -TGCCGAAACAGAAGTTGAAATCGGCATACCGGGCGGAGAACGCCATGCCAGCGTCGCTTTGCCCGGCGCAGATCACTTTC -ATGGGGACACTCGGTTGCGGACTCACGCGACAATCATTCATGGTGAAAAAATCGCCTTTAAAATCGCTTTTCCCCGTGCC -CCACAGGTCGCGCAGCACCTGAACATATTCGGTGAGATAGTCGTAACGACGGGAGAAATAGTCATCGCCAGGCCAGATAC -CCATCTGCTCATACTCGGGCTTTTGCCAGCCAGTCACGAGGTTGACGCCAAAACGCCCGCCAGAGATGGAGTCGATGGTT -GCGGCCATACGGGCGACGATTGCCGGAGGTAACGTTAAGGTGGCAGCAGTGGCGTAAATCTGAATGCGCGAGGTCACGGC -CGCCAGCCCCGCCATCAAGGTGAACGACTCAAGGTTGTGATCCCAGAACTCAGTTTTGCCGCCAAAGCCACGCAGTTTGA -TCATCGACAGGGCGAAATCGAAATGGTAGTGCTCCGCTTTTTGCACAATGGCTTTATTCAGTTCAAAGGTCGGCATGTAC -TGCGGCGCGTGGGTCGAAATGAGCCAGCCGTTGTTGCCAATAGGTACGAATACGCCAATTTTCATCATCAACCTCTCTTC -GTCTCGTAAAGTGAAAGTCAGACGGGGCGCTGCATCCTGCATATCCTTTTCAGCCGCGTATTGGCTTGTTTGCAAAGCGG -ATGCCAGTTTTTAAAAAGTTAATGTTATTAATCTGTTAACATTACGTTATCTAAAATATCTGGTAAAAAGTGGACTAAAC -GGTCAAAACAGTTGCACATAAAACATGCATCTGTGCGCGATGAGAGTGCAGAAGGTCGAGGCCGGGCGGGGGTTTTGCTA -TCCTGTTGCCAATCTACAAGAGGGGAGAGCGCATGACGCAAGGCGCAGTGAAAACAACGGGTAAACGTTCGCGCGCAGTA -AGCGCGAAGAAAAAAGCGATTCTTAGCGCAGCACTGGACACTTTTTCACAATTCGGTTTTCACGGCACAAGGCTGGAGCA -GATCGCAGAGTTGGCGGGTGTTTCAAAAACCAATCTGCTGTATTACTTTCCGTCAAAAGAGGCGCTGTATATTGCCGTGC -TGCGGCAGATTCTCGATATCTGGCTGGCACCGTTAAAAGCGTTTCGTGAAGATTTCGCCCCGCTGGCGGCGATCAAAGAG -TACATCCGTCTGAAGCTGGAAGTCTCACGCGATTATCCGCAGGCTTCGCGCCTGTTCTGTATGGAGATGCTGGCAGGCGC -GCCGCTGTTAATGGATGAACTGACGGGCGATTTGAAGGCATTAATTGATGAGAAATCGGCGCTGATTGCCGGTTGGGTCA -AAAGCGGCAAACTCGCGCCGATTGATCCGCAGCATTTGATTTTTATGATTTGGGCTTCCACTCAACATTACGCCGATTTC -GCCCCTCAGGTGGAGGCGGTGACAGGCGCGACGTTGCGCGATGAGGTATTTTTCAATCAAACGGTTGAAAACGTGCAGCG -GATTATTATTGAGGGGATTCGACCACGTTAAAGATGCCGGAGGAGGTTGTAACATCCTCCGGCTACCTGTTTAACCTATA -GTCATTAAGCTGGCGTTACCGCCAGCGGCAGCGGTATTCACACTCAGCGAACGCTCGATATACAGCCGTTCCAGAAGGAT -ATTGCTTTCGCCACGGGCAAAACCCTGCACCGAAACAATTGTGCCATCCCGCGCGGCAACTGCTTCACACAATGCGCGAA -GCTGATCCGAATCACCGTGGAAGATCACCGCATCAAACGGTTGAGCGGTTATATTTTCCGCTTTCGCCAGTTGAATACGT -TCGCTGACTGCCGATGGCAATGCCTTCACTAACTGACGATGCAGCGCGTCATCCGGCCACAGTACCTGGCTGCCCACCGC -CAGCACGGCGGCGAGCTGAGTCAGCGCATCCTGCTCATCATCGGCAATACACAACACGCGCTCACGCGGCAGCAGCGTCC -AGGTGTTGCGTTCACCCGTCGGCCCCGGCAGCAATCGTTGTGTTCCTGCCTGCGCCAGCTCGCCATATTGCGTACATAAC -GCCTGCAATTCTGGACGATTTGCTGCCCATTCCCGCAGTGCATTTAGCGGCTGAGTCAATGCGGCTTTCAACTGCGCATC -GACCGGATACTTTGCATCCTGACGCGCGAGCGTCACTGCCAGCGCACTTTCCGGGCGATTCGCCAGCAGACGGTAGAGAT -AGAGCGGACCGCCTGCTTTCGGCCCGGTACCGGACAACCCTTCGCCGCCGAACGGCTGCACACCAACCACTGCGCCCACC -ATATTACGGTTAACATACAGGTTACCAACATGGGCCGAGCCAGTGACCTGGGCGATGGTTTCATCAATGCGCGTATGGAC -GCCAAGCGTCAGACCATAACCGGAAGCGTTAATCTGCTCGATCAGCTCTGGTAGCTGGTTACGGTTGTAACGCACCACAT -GCAGCACCGGACCAAAGACCTCTTTTTGCAATTCGGCAAAGTCATCCAGTTCGATCAGCGTCGGGGCGACAAAGGTGCCG -CTTTGCCATTCACGGGCATCTTCGCTGTTTTCCCGCACCGCCTGGAACACCGGACGGCCTTTGCTACGCATGGTCTGAAT -ATGGCGCTCAATATTGGCTTTCGCTTCGCTATCAATCACTGGACCGATATCGGTGGTCAGGCGACCCGGATTACCCATCC -GGCATTCGGCCATTGCGCCGCGCAGCATTTTCAACGTGTGGTCGGCAATCTCATCTTGCAGGCACAGCACGCGCAGCGCC -GAACAACGCTGACCCGCACTGTCGAACGCCGAGGCCAGTACATCCACGACGACCTGTTCGGTCAGTGCTGAAGAATCGAC -AATCATCGCGTTCATGCCGCCGGTTTCAGCGATGAGCGGAATAGGGCGACCCTGAGCGTCCAGGCGGCTGGCGATATTGC -GCTGCAGTAACGTAGCGACTTCGGTTGAACCGGTAAACATCACCCCGCGCACGCGATCATCACCCGTCAGTTGCGCGCCC -ACGGTTTCACCCCGACCTGGCAGCAATTGCACCACGCCTGGCGGTACACCCGCTTCCAGCAAAATGGCGATCCCTTGCGC -GGCAATCAGCGGCGTTTGTTCTGCCGGTTTTGCCAGCACGCTGTTACCTGCCGCCAGTGCGGCGGCGATCTGCCCGGTGA -AAATAGCCAGCGGGAAGTTCCACGGACTGATACACACCACAGGCCCTAATGGACGGTGGGTTTCGTTAGCGAAATCATCC -CGCACCTGTCCGGCGTAGTAGTGGAGAAAATCGACCGCTTCGCGCACTTCGGCAATGGCGTTACTGAAGGTTTTTCCGGC -CTCACGCACCAGAATACCAATCAGTTGCTGCATCTGGCTTTCCATCAGCACGGCAGCGCGGTGCAAAATCGCTGCGCGTT -CAGCCGGAGGCGTGGCAAACCAGATTGGCGCGTTATTAACCGCACTTTCCAGCGCCTGTTCTACTTCACGCGGCGTGGCT -TCACGCACATAGCCCACAATATCTTTCGGTTCCGCAGGGTTAATAACGGGCGACATCTCACCTGCCGCTACCGGTTGTTC -CAGCATTGGCAAGGCCTGCCATTTTTGCAGTGCACTATTGAGCAGGGCAGAGGAGAGCGAGGCCAGGCGGTGTTCGTTAG -CGAGATCCAGCCCTGCCGAGTTGTCGCGCCCGTGACCGTAAAGATCGCGCGGCAGGGGAATTTTCGGATGCGGTAATCCA -GTTTGCCCTTCCTGTTGCGCCAGTTTTTCTACAGCAGTGACCGGATCGGCGACCAGTTCATCCAGTGGCAAAGAGGTGTC -GGCAATACGGTTAACAAACGAGGTGTTAGCACCGTTTTCCAGCAGGCGACGCACCAGATACGCCAACAGCGTTTCATGTG -TGCCAACCGGAGCATAAATACGACACGGACGGTTAAGTTTGCCGTCGGCAACTTTCCCGGTGACCTGCTCATACAGTGGC -TCGCCCATACCATGCAGGCACTGGAACTCGTACTGACCCGGGTAGTAGTTCTGCCCCGCCAGTTGATAAATCGCCGCCAG -CGTATGGGCGTTGTGCGTCGCGAACTGCGGGTAGATTAGATTCGGCACCGCCAGCAGCTTTTTCGCACAGGCGAGATAAG -AAACGTCGGTATACACCTTGCGGGTATAAACCGGATAACCTTCAAGGCCGTCCATCTGCGCACGCTTAATTTCACTATCC -CAGTACGCGCCTTTCACCAGGCGAATCATCAGACGGCGACGGCTGCGGGTGGCGAGATCAATCAGGTAATCGATCACCAA -CGGGCAGCGTTTTTGATAAGCCTGAATAACAAAACCGATGCCGTTCCAGCCTGCCAGTTCCGGCTCGAAACAGAGTTTTT -CCAGCAGATCGAGGGAGATCTCCAGGCGATCGGACTCTTCGGCGTCAATGTTGATACCAATATCGTACTGACGCGCCAGC -AGGGTGAGTGATTTCAGACGCGGGTAAAGCTCTTCCATTACCCGGTCATACTGGGCGCGGCTATAACGCGGATGCAGCGC -CGACAGTTTGATTGAAATGCCCGGCCCTTCATAGATGCCACGACCGTTAGACGCTTTACCGATGGCGTGAATCGCCTGCT -GATAGGAAACCATATACGCCTGTGCATCTGCGGCGGTCAGCGCGGCTTCGCCCAGCATATCGTAAGAGTAACGGAAACCT -TTCTCTTCCAGCTTGCGGGCATTGGCTAACGCTTCCGCGATGGTTTCGCCAGTGACGAACTGCTCACCCATCAGGCGCAT -CGCCATATCCACACCTTTGCGGATCAGCGGTTCACCGCTTTTACCGATAATGCGGTTCAGCGAGCGGGAGAGGCTGGCTT -CGTTATGGGTGGAAACCAGTTTGCCAGTAAACAGCAGCCCCCAGGTGGCGGCATTAACAAACAGTGACGGGCTACGACCA -ATGTGTGACTGCCAGTTACCGTTGCTGATTTTGTCGCGAATTAACGCGTCGCGGGTGGCTTTGTCGGGAATACGCAACAA -CGCTTCCGCCAGACACATCAGCGCCACGCCTTCCTGCGATGACAGCGAAAACTCCTGCAATAACCCCTGGACCATACCTG -CGCGACCACTGGCATTTTTTTGATTACGCAGTTTATCGGCCAGCTGATACGCCAGTTTGTGCGCCTGTTCAGCAACTGGC -TGCGGCAGGCGGGCTTGTTCCAGCAGCATAGAAACCGCTTCGGTTTCCGGGCGGCGATAGGCCGCGGTGATCGCGGCGCG -GGAAACCGACTGGGGCAATATTTGCTCGGCAAAGTCGAGGAATGGCTGGTGTGGTTCCTCTGCCGGAGTCGGTGCTTCAT -CGCTCTCATTGGCCGCGCCAGAAAGCAGCGCAGGTAGCTCCGGCAGAGTATCGCTGTTTTCCAGTTGTTCGAGATAAGAA -AAAATCGCCTGCTTAATTAACCAGTGTGGTGTGCGATCGATACGTGTCGCGGCAGACTTAATACGCTCACGCGTCGCGTC -GTCCAGCTTAACCCCCATGGTGGTGGTTCCCATGCCATTACTCCTGTTGTTCAGAAAGGTGCAACTTAACGTTATCGTGA -AATATCCATGATGTTGCAACTTTGTGCAACCATGTTAAATGTGACATGCGTAGCAAGCTTAAAAATGAATGAAATGTTAA -TAAAAGAAATCGATATGACAGGGATTAAAAAAATAACTCAGACTTTTTCTCTGCGGCAGTTAACATTTTTGAAAGGTGCA -ACCGCAAAAAATGTGAGAGAGTGCAACCTGATGAAAAATAGTGTCGCTGAGCACTAAAATTTAATGTAAATGGTGTGTTA -AATCGATTGTGAATAACCAGCGCTTCCGGCAGGATACGGTCGCCCTGGTAAAACATAAACTCTGTTACCCCGTTCCGGTG -GCAGATATAACGGCAAGTTTCGACATTGCCGATAATAATTTTTTGGAGACTTTAGATGGCTATTAGCACACCGATGTTGG -TGACATTTTGTGTCTATATCTTTGGCATGATATTGATTGGGTTTATCGCCTGGCGATCAACGAAAAACTTTGACGACTAT -ATTCTGGGCGGTCGTAGTCTTGGGCCATTCGTGACGGCATTATCGGCGGGTGCGTCGGATATGAGCGGCTGGCTGTTAAT -GGGGTTGCCGGGCGCTGTTTTTCTTTCCGGGATTTCCGAAAGCTGGATCGCCATTGGCCTGACATTAGGCGCGTGGATTA -ACTGGAAGCTGGTGGCCGGGCGGTTGCGTGTGCATACCGAATACAACAATAACGCCTTAACACTGCCGGATTATTTCACC -GGGCGCTTTGAAGATAAAAGCCGCATTTTGCGCATTATCTCTGCGCTGGTTATTTTGCTGTTCTTCACCATTTATTGCGC -TTCGGGCATTGTGGCAGGCGCGCGTCTGTTTGAAAGTACCTTTGGCATGAGCTACGAAACGGCTCTGTGGGCGGGCGCTG -CGGCGACGATCCTTTACACCTTTATTGGCGGTTTCCTCGCGGTGAGCTGGACTGACACTGTACAGGCCAGCCTGATGATT -TTTGCCCTGATCCTGACGCCGGTTATCGTCATTATCAGTGTCGGTGGCTTTGGTGACTCGCTGGAAGTGATCAAACAAAA -GAGCATCGAAAACGTTGATATGCTCAAAGGTCTGAACTTTGTTGCCATTATCTCACTGATGGGTTGGGGGCTGGGTTACT -TCGGGCAGCCGCACATTCTGGCGCGTTTTATGGCGGCGGATTCTCACCACAGCATTGTCCATGCGCGTCGTATTAGTATG -ACCTGGATGATCCTCTGCCTGGCAGGGGCGGTGGCTGTCGGCTTCTTTGGGATTGCTTACTTTAACGATCATCCGGCGTT -GGCTGGTGCGGTAAATCAGAACGCCGAGCGTGTGTTTATCGAACTGGCGCAAATTCTGTTTAACCCGTGGATTGCCGGGA -TTCTGCTGTCGGCAATTCTGGCGGCGGTAATGTCAACCTTAAGTTGCCAGCTGCTGGTGTGCTCCAGTGCGATTACCGAA -GATTTGTACAAAGCGTTTCTGCGTAAACATGCCAGCCAGAAAGAGCTGGTGTGGGTAGGGCGTGTGATGGTGCTGGTGGT -GGCGCTGGTGGCGATTGCGCTGGCGGCAAACCCGGAAAACCGCGTGCTGGGCTTAGTGAGCTACGCGTGGGCAGGCTTTG -GCGCGGCGTTTGGTCCAGTGGTGCTGTTCTCGGTGATGTGGTCACGCATGACGCGTAACGGTGCGCTGGCGGGGATGATC -ATCGGTGCGCTGACGGTTATCGTCTGGAAACAGTTCGGCTGGCTGGGACTGTACGAAATTATTCCGGGCTTTATCTTCGG -CAGTATTGGGATTGTAGTGTTTAGTTTGCTGGGTAAAGCGCCGTCAGCGGCGATGCAAAAACGCTTTGCCGAGGCCGATG -CGCACTATCATTCGGCTCCGCCGTCACGGTTGCAGGAAAGCTAAGGGACTTAGCCTGCGGCGGTTTTGTTTGGCTTCAGC -AGCGGGTTGCGCTCCCTTAATGTGCCTCGCCATATAAATTGAATGGTGCAGGGAGCGCGCAGGGGGCGGCCAATCGCCGC -CGCCCCCTGCTGTCCCGGCCTTCGGGGAACGCTTCAGCGATTTTGACGCCACCAACACCCGAGCTGTTATTATGTTCCGG -GCAAAAAGTTAGATTTGATAATCGCGGATGGACGAAATTGCTTGATACACCCGCTTATCAGTTTTACATGGAAGCTCTGA -TGCATTGAGTCTGGACAGTTTTGTCGGCTGGATACGGCGTTTACGCGGCATCCGGCAAGAACACATGGTTCTTTGCAAAC -AATCCCATCTTTCTACCCTGGAATAATCGTTTATATCCCTTGGCATTACCTCTCTTTGTTTACATTCCAACATCATTTTA -TAAACATTCCGCTTGTGTTTTTCTTTGCCGTAATGATAATCGCTATCACTGCGATTTACTTTTCTTTGCATAGATTGACT -CAGAAAAACGTTTAAGGGTGGGTGGCATGTTTGTTCCGTTTCTCATTATGTTGCGCGAAGGACTTGAAGCCGCGCTGATT -GTCAGTTTGATTGCCAGCTATCTTAAGCGTACCCAGCGAGGCCGATGGATTGTGTGATGTGGATTGGCGTGTTGCTTGCC -GCTGCGTTGTGCCTGGGCTTGGGTATCTTCATTAACGAAACCACCGGCGAATTTCCGCAAAAAGAACAGGAACTGTTTGA -AGGTATCGTGGCGGTGATCGCCGTGGTGATCCTTACCTGGATGGTTTTCTGGATGCGCAAAGTGTCGCGCAACGTCAAAG -TGCAACTGGAACAGGCAGTCGATAGCGCATTGCAGCGTGGAAATCATCATGGCTGGGCGCTGGTGATGATGGTCTTTTTT -GCCGTTGCAAGGGAAGGGCTGGAGTCGGTCTTTTTCCTGCTGGCGGCATTTCAACAAGATGTCGGGATCTGGCCGCCGCT -GGGTGCAATGCTCGGTCTTGCTACTGCCGTGGTGCTAGGCTTCCTGCTCTACTGGGGCGGTATTCGCCTCAATCTTGGTG -CATTTTTTAAATGGACCAGCCTGTTTATTCTCTTCGTCGCCGCAGGGCTGGCAGCTGGTGCCATTCGCGCATTTCATGAA -GCCGGATTGTGGAACCACTTTCAGGAAATCGCCTTCGATATGAGTGCGGTGCTCTCAACTCACTCGCTGTTTGGCACGCT -GATGGAAGGGATTTTTGGCTATCAGGAAGCGCCGAGCGTCAGCGAAGTCGCCGTCTGGTTTATTTATCTCATCCCGGCGC -TGGTGGCATTTGCTCTGCCACCACGCGCAGGGGCGACAGCGTCTCGCTCCGCGTAACAAATACGACGCAAACTCTTGCTT -AGTTACAACATACTTTAAAGGGATAGTCTCGTCATGACCATTAACTTCCGCCGTAACGCATTGCAGTTGAGCGTGGCTGC -GCTGTTTTCTTCTGCTTTTATGGCTAACGCCGCTGATGTGCCGCAGGTCAAAGTGACCGTGACGGATAAGCAGTGCGAAC -CGATGACCATTACGGTTAACGCCGGGAAAACACAGTTCATTATTCAGAACCACAGCCAGAAGGCGCTGGAGTGGGAGATC -CTCAAAGGCGTGATGGTGGTGGAAGAGCGGGAAAATATCGCCCCTGGCTTTAGCCAGAAAATGACGGCGAATTTACAGCC -TGGCGAATACGATATGACCTGCGGTCTGCTGACTAACCCGAAAGGGAAGTTGATCGTCAAAGGTGAGGCAACGGCGGATG -CGGCGCAAAGTGATGCGCTGTTAAGTCTTGGTGGTGCAATTACTGCATATAAAGCGTATGTCATGGCGGAAACCACGCAG -CTGGTGACCGACACCAAAGCCTTTACCGACGCGATTAAAGCAGGCGATATCGAAAAAGCGAAAGCACTGTATGCACCGAC -GCGCCAGCACTATGAGCGTATTGAACCGATTGCTGAACTGTTCTCCGATCTGGATGGCAGCATTGACGCCCGTGAAGATG -ATTACGAGCAAAAAGCCGCCGACCCAAAATTCACTGGTTTCCACCGTCTGGAAAAAGCATTGTTTGGCGACAACACCACC -AAAGGGATGGATCAGTACGCTGAGCAGCTTTATACCGATGTGGTCGATTTGCAAAAACGCATCAGTGAACTGGCTTTCCC -ACCTTCAAAAGTGGTCGGCGGCGCAGCCGGACTGATTGAGGAAGTGGCAGCCAGCAAAATTAGCGGTGAAGAAGATCGCT -ACAGCCACACCGATCTGTGGGATTTCCAGGCTAACGTTGAAGGCTCGCAGAAAATTGTCGATTTGCTGCGTCCACAACTG -CAAAAAGCCAACCCGGAACTGCTGGCAAAAGTCGATGCCAACTTTAAAAAGGTCGATACCATTCTGGCGAAATACCGTAC -TAAAGACGGTTTTGAAACCTACGACAAATTGACCGATGCCGACCGGAATGCACTGAAAGGACCGATTACTGCGCTGGCGG -AAGATCTGGCGCAACTTCGCGGTGTGCTGGGACTGGATTAAGCGTTATGCAGTATAAAGATGAAAACGGCGTGAATGAAC -CGTCACGCCGACGTTTACTGAAAGTGATAGGTGCACTGGCGCTGGCGGGAAGTTGTCCGGTCGCTCATGCACAAAAAACG -CAAAGTGCGCCGGGTACGCTTTCACCGGATGCTCGCAATGAGAAACAGCCGTTTTATGGTGAGCATCAGGCAGGGATCCT -GACGCCACAACAGGCCGCAATGATGCTGGTGGCGTTTGATGTGCTTGCCAGCGATAAAGCCGATCTTGAGCGGTTGTTTC -GCTTGTTGACTCAGCGTTTTGCTTTTCTGACTCAGGGCGGAGCAGCACCAGAAACGCCAAATCCGCGCCTGCCACCACTC -GATTCCGGCATTCTTGGCGGCTACATTGCGCCCGATAATCTCACCATCACGTTATCGGTGGGTCACTCATTGTTTGATGA -GCGCTTTGGCCTTGCGCCACAGATGCCAAAAAAGCTGCAGAAGATGACGCGTTTCCCCAACGACTCGCTGGATGCGGCGT -TATGTCATGGTGATGTGTTGCTACAGATTTGCGCCAACACCCAGGACACGGTTATCCATGCGCTGCGCGATATCATCAAA -CACACGCCGGATTTGCTCAGTGTGCGCTGGAAGCGGGAAGGGTTTATTTCCGATCACGCGGCGCGTAGTAAAGGCAAAGA -GACGCCGATTAATTTGCTGGGTTTCAAAGACGGCACTGCCAATCCCGATAGCCAGAATGATAAGTTGATGCAAAAAGTGG -TGTGGGTAACGGCAGATCAGCAGGAGCCTGCGTGGACAATCGGTGGCAGCTATCAGGCAGTACGCTTGATTCAGTTTCGA -GTGGAATTTTGGGACAGAACGCCGCTGAAAGAACAGCAGACGATTTTTGGCCGTGATAAGCAAACCGGTGCGCCGCTGGG -AATGCAGCATGAGCATGATGTGCCTGATTACGCCAGCGACCCGGAAGGGAAGGTGATCGCGCTGGACAGCCATATCCGGC -TGGCGAATCCCCGCACGGCGGAGAGTGAGTCCAGCCTGATGCTGCGTCGTGGCTACAGTTATTCACTGGGCGTCACCAAC -TCCGGGCAACTGGATATGGGGTTGCTGTTTGTCTGCTACCAACACGATCTGGAAAAAGGCTTCCTGACAGTACAAAAAAG -GCTCAATGGCGAAGCGCTGGAGGAATACGTTAAACCTATCGGCGGCGGTTATTTTTTTGCGCTGCCGGGGGTGAAGGACG -CGAACGATTATTTCGGAAGCGCGTTATTGCGGGTTTAATGTTTTTAGGCGGATAAGGCATTTGTGCGCAGATGCCTGATG -CGACGCTTGCGCGTCTTATCATGCCTACAATCAGTGCGGGTTTGGTAGGCTGGATAAGGCGTTCACGCCGCATCCGGCGA -TCGTGCACTGATGCCTGATGCAAATCCTGCTGAAAGCACACAGCTTTTTTCATCACTGTCATCACTCTGTCATCTTTCCA -GTAGAAACTAATGTCACTGAAATGGTGTTTTATAGTTAAATATAAGTAAATATATTGTTGCAATAAATGCGAGATCTGTT -GTACTTATTAAGTAGCAGCGGAAGTTCCCGGCAGTGATAGTCAGTCACTATGGAGATCGCGGATGGTAACGTCCTGTACT -GGACATGTTTTAGATAATCAACGCGCCACCACTCGCGGAGTTTTCTCCTCCGGTAGTCATCTCGTCACTTTGCATTTTCA -ACCTCATCCTTTCTTTTCATGTGTTACCGACGCCGTAAACGGTGCGCGTAGCCGTTTTTCGGCATTTTATCCAAAAGCAA -ACTATGGCTTACAAGGAAGCCAACCCTCTGATGTTCGTGCGCATAATCGCGCTGCCAACGGCGCGTGTGATGAATACAAA -CAACTCAAGGTGCTCTCCATGGGAAGACAAAAAGCAGTGATCAAAGCTCGTCGCGAGGCAAAACGTGTGCTGAGACGGGA -TTCGCGCAGCCATAAGCAGCGTGAAGAAGAATCGGTCACCTCGCTTGTGCAGATGGGCGGCGTAGAAGCCATTGGTATGG -CCCGCGACAGTCGCGATACTTCGCCCATCCTCGCGCGAAATGAAGCGCAATTGCACTATCTGAAGGCTATTGAGAGTAAG -CAGCTGATATTCGCCACGGGCGAAGCCGGGTGCGGAAAAACCTGGATCAGCGCAGCAAAAGCGGCAGAGGCCCTGATACA -TAAGGATGTCGACAGGATTATCGTCACCCGTCCAGTTCTGCAAGCCGATGAAGATCTTGGCTTCTTACCTGGAGATATCG -CAGAAAAGTTTGCTCCCTATTTTCGCCCGGTCTACGACGTGCTGGTCCGGCGCTTAGGGGCTTCCTTTATGCAGTACTGC -CTGCGACCGGAAATAGGGAAGGTGGAAATTGCGCCGTTCGCCTATATGCGTGGACGTACCTTTGAAAATGCAGTCGTCAT -TCTTGACGAGGCGCAGAATGTGACTGCCGCGCAAATGAAAATGTTTTTAACCCGCCTCGGGGAGAACGTGACGGTTATCG -TCAACGGTGATATCACGCAATGCGATTTGCCTCGCGGCGTGTGCTCCGGATTAAGTGACGCGCTGGAACGTTTCGAAGAA -GATGAAATGGTTGGGATCGTCCGGTTCGGTAAAGAGGACTGCGTACGTTCGGCACTTTGCCAACGTACGCTGCATGCCTA -CAGTTAAGTGTGTTATCGGTGCAGAGCCCGGGCGAACCGGGCTTTGTTTTGGGTGTTTATGCCCGGACTAGCGCTTTTTC -TGAAACAACCATTTTTATTTGCCCCTGGCTGGTGAAGTGTACGCTCATCCTGTGGCTTTTTTGTAGTTGCTGATAGAGCT -CATCAGGTATTGCTAAGCTCTCTGCATATTCTTGCGGCGTATATTGGTAGGCTGCATGATGCTGCTGTTTTTGAAAACGC -AGCTTATTGTACAGCGCCCAGACAATTAACACGACGGCATTCGCCACTGCCAGCAAAAAATAGAACTGAAGTCGGCTTCT -GGCCTCGCTTTGCCAGTAATAACCCGTCAGCAGATCCATGGCGAATAAGAATATGAACAACGCAAATAATGTCCACAAGA -TGGTTGTGGCAACATAATCAACCAGTAAACGTACTGGTGATTGTCGGGTCGTAATAATTAAATTGTTCATATTAACCTCT -CAGAATCCCGCGATCGGGACTTACCCAACGGGCGCGTTGCTTTTTAGGCATCAACATGACTCGTGTAAATGATACCAATG -TCGTTGCCAGGCTCAGCATCCAGAAAATAACCGGGAACCAAATAATCCAGAAAAGCGATGAAGTCAGATTATGCTCATAG -CGATTCTCGATCATCAGGCTGACAATAAATTGCAGTAAACATAACGTACACAATAATATTCCGGCAGTATGTGTCGCAGC -GATATGTGTCAATTCAATATTTAACGGTACACCGGCAAGTTGGACTGCGTAAATAATGAAACCGACCAGGCAGGTGAAGG -CCCATATTGTCGTCAGGCAGTATTCAAAAAACAGCGGCCACATTCGAAAGTTTTCTTTGCGCCACAACCTTGTCATATTT -TTGAGGAATACTTCTGCACCGCCCTGAGCCCAGCGCAGGCGCTGTTTCCACAGCCCTTTTAACGTTTCAGGCATTAATAT -CCAGCACAGTGCCCGTGGCTCGTAAAAAATCGTCCACTGATTCAACTGCAGCTTCCAGCTAATATCAATATCTTCGGTGA -TCATATCGTCACTCCAGTAACCCACTTCTGCCAGGGCGCTGCGACGAAATGCGGCAATAACACCGGAAACGGTAAATACG -TTTCCATAGATACGCTGGGTTCGCTTGATCAAACCAATAATTGAGGAATACTCGCCAACCTGAATTTTACCCACCAGGGT -AGAACGTGTTCGAATACGAGGATTACCGGTTACGGCACCCACACGCGGGTTGTACAACATCGGTTCCACAATATATGCCG -CCGCATCGCGGTCTAATAACGCATCGCCATCAATGCACACCAGATATTCACTTTTCGCCGCGGCAGCTCCGGTTTTAAGC -GCAATGGCTTTCCCCTGGTTTTGCGCCAGATGAATGACCCGCAAATGGGGAATTTGTGCAGCCATGCGATCCAGGATGGC -ACGGGTTTTATCTGTTGAACCGTCATTTACGGCAATAACTTCAATGTTCTCATAACGCTGTGCTAAAGCGGCGTGTATGG -TTTCCTCAACGTTTTTCTCCTCATTAAAACAGGGAATGATAATGGAGATAGACGGATTATCTTTCAACTGGGGAGCTGGT -GCGTTTTCTCCCCACGGCCAGTGGCGTTCACGATAGACCCAGAAATAGACGCCGCCAACAATCCACATAATGGACATAAA -AAACGGCCAGAAGAAAACGAACCTCATCATCAGTTCACCAGAGTGAAAGTACGCTACGCATAGGGGTATGCATAACACCA -GACATAATATAAAAAACGATACGATGCGATTAATCATTTTTCGGATACCAGGCTGTTGAAAACTCAGGACGAATAAGGTC -TATTTCAGGTTGGTTATGCAGAAAATTGTCGGGATAATAACCATAGTTTTTCACTCCATTCAGTTGTAATAGGCTCATCC -AGTGAGCGAGTTGTTGCGAAGAAATAGCCTGATGCTGACCATTTTTCTGCCAGTTTTGTGCCTGTAATTCTAAAATAGAT -TTGTCTTTAGCCTGAGGGATGTTTTTAATTTGATTGGTCAATTGTATTAACCATTGGTCAGCCGATTTTTCTGCGACACC -TTCCAGATAAGGCATAGCCATAATAGCGGTCCAGTCATAGCTTTTTAGGAAATCAGCATAATTCTGTGCAAACCAGGCTT -CACTTTCAGGTTGTATTACCGGAAGTGCAAAAATATTTCGTGCAGTTTTAATATGTGGACCGCGAATGGCTTTTACGCGC -GCACTAAGTTCTAAAGTGAAGTCAGTTAACGCACGACTTTTAAAGCGGGCCCACTGTTTAAATTGCTCCGGGTTTTGTCG -AATTTCGCTCAGACTCCCGCTAAAGCCTGCTTGCTGATAAGCCGTGATAGCCGGTGCACTGGCATCTTCATAATCTGAAA -GCAAAGCATCATCGTGGAACAATATGCCATCAAAAGCAGCATGTCCGGCAAGATCTTCATATAACATGCCAACTTGTGCT -CTGACTCTGTCATCGAAAGGAGAGAGACGGTGATATTGTTCAGGATGAATTTGTGCTTTTTTCTCCCCTGTTGGTAAGTA -TTTTACTCGCGTTAATGTGGGATCTAAATCCCAGCTTAATACCGGCATCCACGCATAGATGTTTACACCTGAGCGGGTAC -GTAATTGCCAGGCAACCCGACTAAAAATATCTGCTTTCATTGGTAGCAAACGATTTGGAAACCAGACCTCTTTGACCAGC -CCATCACCATCGGGATCAGCAAATGCCTGCAAATACACGGTTGATATTTGCATATCTTTCACCCGCTGAATTAGCACATC -AATATTGCGATCCATTTGCTGGAGGTTTTCGTCATAAACGTAATCAAGATCGATATGCATTATCCGTTGTGGTGATTTTT -CCTGTACGGTAATAATTTGCTGGGCAAACTCTTTTAATGAGGGATTATTGGCGATTAATACCCGCGGAATGGAATCCAAT -TGCGACGCATTTGCCAAACCTGATTCAAGGGTGAAGAACATGTCATAACCGAGTTTTTTTAATTCCTCTATCGCTATGCC -ATTCGCTTCGCCATAAGGCCAAACAAAAACGTGTGGATTTACCTCAACCTTTGTACGCAGGTATTCCGTCATTTTTACAG -CATCCAGACGAATTCTTTCCCGGTATTCTGCTGCGGTTTCATACCGTGCGTGGTCAGTAAAATATGCACGATTTACATAT -ACAGGCAATAAGCTGCCGGTGGCATTAGCCTGAATACCGTAGTGAGAATTCCATGTATGAGAAGCGAGCTCAACGAGCCG -GGAACGCGCAACTTCTCGCACTTGTTGCCACGTGGCAAAATATTCTCGATCGACCAACTCATCGCCAAATTTTACTTGTT -TATCCGCTGGCGTATCGACCCAACTGCCGACGGGGGCCCATACAGCAGGCCACTGGAAGGCCTGAAGAATTGGGAAGACG -CGGGTATAAAAACTCTGGTAGCCGTCATCAAAAGTCAGCACTACAGCTTTTTCCGGTAGCGGTTTTCCTCCTCGATGTGC -TTCACGAATTTGAGCAATACTGACCGGTTGATAACCGTTCTCGCGCAGCCAGGCAAATTGTTCACGCAGTGCTGATGTCC -GCACTGACATAAAACGCTGGTCGGCAGCTTCGTCTTCAACGTTATGCCATGAAATCGCTACAAAACCATTATGCGGCCAC -GGTTGCTCGGCGAGTAAAGATTCGCGATCCTGTGGCGGTATAAATGATGTTCTTGACTGGCTAATGCACGCGGTGAGCAT -AATTATACTCACCAGCATCAGGAGATATTTATTTCCATTACGTAACATATTTATCCTTAAAATCTGAATGTCATATCGAA -TTCAACGTATAAGTTGTGTTCTCTGTCACCGTCATAAGGTCGTTTTTCCCAGCGTAGCGTTGCGCCAGCATCAATCACGT -CATTCCAACTAATGCGTTGCCCGTAGCCGAGTTGGGTGACGACATCCGTGCCATAATGTTTTTGCCAGGAGGCACCAACA -CCTGCGCTGAATATTTGCTCCCAGCTATTTTCATAGCTTCGCCATAACAAATGGCTTGCCTCAAATGCCGGAACAATATC -GAACGTTTTTATAGGGTTGTAGTATGGGGTATCGTGTTCTGTATTTTGTTCGTAATACAGACTGGGTAGGAAATCGACAA -TCAAATATGGTGAAGACCAGATGCGTTCCTGACCCTCAAGTGAGACTTCATGACGCTGGTTACTGTCGGAAAAATCAGTG -AAAGCCCAGGAGACACCGTACTTACGCCGCTCATTTTGATACCAGCGAACATAAGCCTGAGCACTGTTGCCTGTAACACC -ATTTTTCATTGCCCGTAATGGAACGCGGTGAGAGAGGCGTTCCAGTTGCGAACCAATACGCCAGTTATCATTAAAATCAT -ACCAGCCAGACAGGCGCGCGCCGGGTTTATGCTCATGATTGAAAACGCGTTCAGCGTACTCTGCCTCGAGCCAGATATTA -CGTGACCGCCACTCAACACCCGCAAGCCAGTCGCGAACAATCCCTTTTCCTTCGCTAAATTGTCCATCGGCATAACCGAA -TCCAGCAAAACCGCGCCAGTTATCCTTCAGCGGTGGTGAATAAACGATGGTGGTTAAGTCGACATCATGTTTACCACTAT -CCGGGCCTTCGGCATCAATTCCTGTTGAGCCAGCGATACGAAGCTCTGCAAGATTATGTACATCAACCGCACGTTTTAAT -CGTACAACGCCGGGATCTTGCGGTTCACGTTCGACAACATCGTGCGTTAAGACAGCTGCCTGCTGCCATTCTTGTAACGT -TAATGCTGTCCAGGCTTGTTCAACCTCCAGATTAATATTACGTGGCTCGATCACTTCTGCTTTTTTTAATTCATTTTCTG -CTGCACGAGGCCAACCGCGGGCTTGTAACACACTCGCGTAATCAATGCGCAGTCCCTGATTTCCTGGTGCGTTATAAGCA -AGCTCTCTGGCTGTCATTTCAGCCTGAGGAAGATCATTACTATATTTTGCTACGGTTGAGAGAAACGAATGCCCCTGTAA -CCAGGTATCATTCGGGATGCTCGTAGGCGTGCCCATTAACCGAAGGAAAGGCGGCGAAGTATTAATGGTATGTTGGGTGA -CAGTTAGCGCGCCCGGATAATTTTCACTCTCCAGGTGGCTGTAAAAGAGATCCGCAAGTTCTTCATCGGATAAATCCGGG -GCAATGGTCTCCTTGTGATAAAAGAGCTCGGTCATTATTGACTGTGCTTTTTTCGGCTGATGATCTTTGAGATAAGCCGA -TGCAACCCAATATTGCCCCCAGGGCGGAATAATTTGCCCCGTCTTTTTTAATCGCTGATAGTGAGAAATAACGTCTTTAT -AACGATCGCGAGTTAATAACGCGCCAAGATGATCAACCTGAATACGCTGGTACTGGGCAGTGCGGTCTGGGTTATCGTGC -CACAGAATTTCTAATGCAGCGTATTGGGCGAGGGCGCGATCGGCAATGGCATAACGTTCACTTTCACTGCGCGTAGGCAT -AAACGACAGTCTGACCAGTTCGGCATGAATATCAGCGCGAATATCTGGCGTTAAATTGGCATCGTCAATCGCGGCAGCAA -GTTGATTATTACGTAATGCCTGCACGTATTCTGTGGGATATTGTTGCGTAGATGCATTTTCAGGTAATGACTCTGTCATC -GCCCGTAATTCATCCTGATGACGCCCCGCCAGTTTATAGATATAGGCTTCTGCGAGTAAATTGGCTTTGTCCGGTGCTCC -AGAGTTAAGCTGCTTAAGTTTAACCAGCGCAGTATCATAGTGACCAGCATCTGCCAGGGTTAAAATTTGTCCCCGTTGAT -AATCCTTATTTTGCGGCTCCAGAGAGAGCGCCTTTTGCCACAGTGTAAGCGAGTTTTGCCATTGTTGCAGGTTACGATAA -GCGACGGCGACAGCTGCATAACCACGCGCTGGTAATTGCTGATGACGGTAGCGGTTGTAAACGGTAATAACCTGTTTATC -TTGCCCGGCCCATAAGGCAATCTGTAACCAGTCAGCAATTTGGTTATTGCTGAGTGCTGATTTTAGTGCAAACCATGACA -AAGCTGGCTGAGTATTACCCTTGCGAGCTTCAATAATCAATGCATCATAGGCGTTATTAACAGCACTCTTCGCCGCGGGA -CTCGCTGCTAAAAATGCGGCAGTAAGAAGTTTCAAAGCCCATTTGGTTTTCGGGCACCTTTTTCTGCTACTTGAATACAT -CCTGTATTACTCCATGTATTGCCAAAATCTCTCTCTGTATCTAATTACAGGTAACTGAAAAGAAAGATATTTTTGCACCT -CATAATCCGTTATTAAACGCGGAAGAGAGACGTGAATTGTTGATGATGAGAAGAAGAAATGATGAGCAGAGTGTCCATAT -AAAATCCTTTTCTCGCCCGAAAATCCATTCCAATGATGAGGATCTTCAGGAATACGGCATAAATCCCAATGCCTTTTTCA -AAATAAATTAGGATTAAAATAATTAAATCAGTAAATTCCGATGCATGATTTCGGATTTTTCGAAAGTCCTGATGAAAGGC -TGCGCTACGGCACTCACGGATTTAATTGTTATTCCTAATGTATCTATGAATTAATGTTTTATAAGGATTTTCTATAACCA -TTTATAAGTATTTTCAAGCCTGGCTTGTTGCAAACAATGTATAAAGCACTTAGGCAATAATAATTACATTCAGCAACTAT -CATCATCGGTATTGTTTGTGGGCGGAATTTCATATTGACAACAGTACAGTTCTTATATCTATTAATAATAGAAAGGGATC -TACAACCTACAGATTGGTGTAGCTTTATGGAAAAAGACTATTTGAGAATTAGTAGTACTGTATTAGTGAGCTTATTGTTT -GGGCTTGCTTTGGTTTTGGTGAATAGTTGGTTTAATCAGCCAGGCGTTGAGGAAGTTGTTCCACGATCAACCTATCTGAT -GGTAATGATTGCTTTATTTTTTATCGATACTGTTGCATTTATTTTTATGCAGTTGTATTTCATTTATGACCGTAGGCAAT -TTTCAAACTGTGTACTTAGTTTGGCTTTTCTGAGTTGTTTGATTTACTTTGTTATAACCGTCATTATCATTCAGCAAATT -ATTGAGGAGCGTTTGACAAGCAGTGTTGTCCAAAATGACATTGCAATCTATTATTTGTTTCGTCAGATGAGTTTGTGCAT -ATTAATATTTCTGGCATTGGTGAATAAAGTTAGTGAAAACACAAAACAGCGCAATTTATTTTCCAAAAAAATGACTTTGT -GCATAAGTTTGTTTTTTGTTTTTGGGGGGCCGATAGTTGCTCACATACTTTCTAGTCATTATGAGAGCTACAATTTACAC -ATTGCCGAGTTAACCAATGAAAATGGTCAGGTGGTTTGGAAAGCCTCATATGTTACCATAATGATTTTCATGTGGTTAGA -CTGGCCCCCTGAATCTCCAGACAACCAATATCACTTAAATAAGTGATAGTCTTAATACTAGTTTTTAGACTAGTCATTGG -AGAACAGATGATTGATGTCTTAGGGCCGGAGAAACGCAGACGGCGTACCACACAGGAAAAGATCGCAATTGTTCAGCAGA -GCTTTGAACCGGGGATGACGGTCTCCCTCGTTGCCCGGCAACATGGTGTAGCAGCCAGCCAGTTATTTCTCTGGCGTAAG -CAATACCAGGAAGGAAGTCTTACTGCTGTCGCCGCCGGAGAACAGGTTGTTCCTGCCTCTGAACTTGCTGCCGCCATGAA -GCAGATTAAAGAACTCCAGCGCCTGCTCGGCAAGAAAACGATGGAAAATGAACTCCTCAAAGAAGCCGTTGAATATGGAC -GGGCAAAAAAGTGGATAGCGCACGCGCCCTTATTGCCCGGGGATGGGGAGTAAGCTTAGTCAGCCGTTGTCTCCGGGTGT -CGCGTGCGCAGTTGCACGTCATTCTCAGACGAACCGATGACTGGATGGATGGCCGCCGCAGTCGTCACACTGATGATACG -GATGTGCTTCTCCGTATACACCATGTTATCGGAGAGCTGCCAACGTATGGTTATCGTCGGGTATGGGCGCTGCTTCGCAG -ACAGGCAGAACTTGATGGTATGCCTGCGATCAATGCCAAACGTGTTTACCGGATCATGCGCCAGAATGCGCTGTTGCTTG -AGCGAAAACCTGCTGTACCGCCATCGAAACGGGCACATACAGGCAGAGTGGCCGTGAAAGAAAGCAATCAGCGATGGTGC -TCTGACGGGTTCGAGTTCTGCTGTGATAACGGAGAGAGACTGCGTGTCACGTTCGCGCTGGACTGCTGTGATCGTGAGGC -ACTGCACTGGGCGGTCACTACCGGCGGCTTCAACAGTGAAACAGTACAGGACGTCATGCTGGGAGCGGTGGAACGCCGCT -TCGGCAACGATCTTCCGTCGTCTCCAGTGGAGTGGCTGACGGATAATGGTTCATGCTACCGGGCTAATGAAACACGCCAG -TTCGCCCGGATGTTGGGACTTGAACCGAAGAACACGGCGGTGCGGAGTCCGGAGAGTAACGGAATAGCAGAGAGCTTCGT -GAAAACGATAAAGCGTGACTACATCAGTATCATGCCCAAACCAGACGGGTTAACGGCAGCAAAGAACCTTGCAGAGGCGT -TCGAGCATTATAACGAATGGCATCCGCATAGTGCGCTGGGTTATCGCTCGCCACGGGAATATCTGCGGCAGCGGGCTTGT -AATGGGTTAAGTGATAACAGATGTCTGGAAATATAGGGGCAAATCCAGTGGTTAACCTTGCTTTCGGTTAATCTATACTT -TAATGGTTTACGCTATGATATCTGGAATGGAGTGACGGTGATTGCTTTTTGTGCCGTACTGTACAATATCTCTCTGTTAT -TTATGAGCAGGTATAGCGTGTCCACTTGGTATATTAGTCGCACTATTGAAGTAGTCAGTAAGTTAACCGTTATGGTAATA -TTTATGTGCCATATATTCAGTGCGCTACGAGTAACAAAGAACATTGCACATCGCGATCCCTTAACCAATATATTTAACAG -AAATTATTTTTTTAATGAACTGACAGTTCAATCAGCATCAGCCCAAAAAACGCCTTATTGCGTCATGATTATGGATATCG -ACCACTTCAAAAAAGTCAACGACACCTGGGGGCATCCGGTTGGCGATCAGGTGATAAAAACAGTGGTGAATATCATTGGG -AAAAGCATACGACCAGATGACCTTTTAGCGCGCGTCGGCGGCGAAGAGTTTGGCGTCTTGCTGACGGACATCGATACTGA -ACGTGCGAAAGCTTTAGCGGAAAGGATTCGGGAAAATGTTGAGCGTTTAACTGGCGATAATCCTGAATACGCTATACCAC -AAAAAGTGACGATTAGTATTGGCGCTGTTGTGACTCAGGAAAATGCGTTAAACCCAAATGAGATCTATCGACTGGCTGAT -AACGCACTTTACGAGGCGAAAGAGACCGGGCGTAATAAGGTGGTTGTGAGGGATGTGGTGAATTTTTGTGAGTCACCATA -AAGCGGCATTTTGATCCTACCCACGTAATATGGACACAGGCCTAAGCGAGGTTCTTGTTTTCAAATTGTTCCGGACTGAG -GCCGCCACACCAACTGTGCCGCCGCCACCGATTGTAATCACATTCGATATAATTAAACACCGTTGCCCGCATTATTTCCC -GGCTGATAAAGTGTTCTCCATGGATACATTCCACTTTCAGCGAATGAAAGAAGCTTTCCACGCAGGCATTATCGTAGCAG -CAACCTTTTGCGCTCATACTTCCACGCAGATTATGCCGCTTCAGTTGCGCCTGATAATCTGCTGAACAGTACTGGCCTCC -ACGGTCCGTGTGAACGATAACGTTCCGGGGCCTCTTACGCCGCCACAGCGCCATCTGCAGGGCATCGCAGGCCAGTTGCG -CCGTCATGCGTGGCGACATTGACCAGCCAATAACGGCACGTGACCACAGGTCAATGACCACTGCCAGATACAGCCAGCCT -TCATCTGTACGTAAGTACGTGATGTCTCCTGCCCACTTCTGGTTCGGGCCACTGGCGTAAAAATCCTGCTCCAACAGATT -TTCTGACACAGGCAGGCCGTGTGCGCGGTAGCTGACCGGGCTGAACTTCCGGGAGGCCTTTGCCCTCAGTCCCTGACGGC -GCAGGCTTGCCGCCACGGTTTTTACGTTAAAGGGGTAACCCTGAGCACGCAGTTCATCCGTCAGGCGTGGGGCACCGTAA -CGCTGTTTTGACCGGGTAAAAGCCGCGAGGACAACGCTGTCGCAGTGTTGGCGGAACTGCTGACGCGTGCTTATCCTTGT -CCGCCGCTGACACCACGTATACCAGCCGCTGCGGGCCACCCGGAGCACGCGGCACATTGCTTTGATGCTGAACTCAGCCT -GATGTTTTTCAATAAAGACATACTTCATTTCAGGCGCTTCGCGAAGTATGTCGCGGCCTTTTGGAGGATAGCCAGCTCTT -CATCCCGTTCTGCCAGCTGGCGTTTGAGACGTGCAATCTCGGTAGACATCTCCAGTTCACGTTCAGAAGACGTCTGCTGA -TTTTGCTGTTTACTGCGCCAGTTGTAGAGTTGTGATTCATACAGGCTGAGTTCACGGGCTGCGGCAGTAACACCGATGCG -TTCAGCAAGCTTCAGGGCTTCACTGCGAAATTCAGGCGAATGCTGTTTACGGGGTTTTTTACTGGTTGATACTGTTTTTG -TCATGTGAGTCACCTCTGACTGAGAGTTTACTCACTTAGCCGCGTGTCCACTATTGCTGGGTAAGATCAGTGCCTGGCAC -ACGCGTTTGATGGAAGACGGCGTTCAGGCAATGCGCGATTATCTTGCCGGACTGGATATCGCTTCGCCAGAGCATCAGGT -TCTGATGAACGTAACAGCAAAAAGCGAGGTCGCTCCGTCAATTATCAAAGAAAATCTCTCATTACACTTAACTCATACGG -TGAAATGGACTGAATCTCTCGATACATTTCTGAATATGCCAACCCCGGTAGCTTTCCTTGAAATAAGTAATAAGCCCTAT -TTGGGGAATATGTTAAATGATTTTGCTGGCGTGGATCAGCAACGAGTTATGCATTGTCGTAAAGCATTTAGTGATGCAAA -GGTATTCAAATGATTCCTGATTATTTAACTTTTATTCGCTTTCAGGATAAACGAAATCTGATATACATTTATGCTATTGG -ACTTATTCTGATAGGCTTTTATTGGAAGAATGCAGGGTTTACTTTTCCATCAGAGGATATTGGTGTAGTTAGTGGGATTC -TGGCTCTGGTGCTGTATAATTTTATTTTTGATCTCAAGGCGTACTGGGCTTATAAATGCGTCACGAAGAATATCGATTTT -TCGTGGTTTAAGAAAAAGCAGAACCACAAAATAGAATTATTTCTTACACAACCTCTGGTGGCAGGATTTCTGTCGTTAAT -CATGTTGAGTGCAATGAGTTGGGGGCTATACCAGCTTCTACCCTCGTTATATGCGCTGTTCCTGATTTCGTTACTTGGGC -CGTTGGTCATCTTTCTGCTGTTTCGGATGATCCGCACCAGTTATGTCAAGCAGGTCGCTATTTCAGTAGCGAAAAAAGTA -AAATATAAAAGTCTGACTCGCTATGTGCTGCTTTCGGTGTGCATCTCAACGGTTGTTAACCTGCTTACTATCAGCCCGTT -GCGTAACAGTGATTCTTTTGTGACAGAGGGGCAGTGGTTAACGTTTAAATCGATAATTGCATTGCTCATTCTTTGTGGCG -TAGTGTTGGCGATTAATCTGTTTTTTCTGCGCTTCTCCAAGCGGTACGCTTTTCTGGGCAGGCTTTTTTTGCAGGAAATC -GATCTGTTTTTCTCCAGTGAAAATGCGTTGTCGACCTTTTTTGCCAAGCCGCTTTGGCTTCGGTTATTCATATTGCTGGT -TATTGAAGTGATGTGGATTACGCTGGTGTCGGTATTGGCAACGCTTGTAGAATGGCGGATTTGGTTTGAAGCCTATTTTT -TACTCTGCTATGTACCGTGCTTAATTTACTATTTTTTCTATTGTCGATTCCTCTGGCATAACGATTTTATGATGGCATGT -GACATGTATTTCCGTTGGGGGCATTTTAATAAGTGAGGAAGTGATAGGAAGTGACCAGATAATACATATATGTTCTGTAC -TCTCTTGCGCATTTTGATTGTTGACTGAGTAACCAGACAGTTGATGTGCACGATTTCCCCTCGCCCTAACAGACGTGGGC -GGGGGCACCCGGTGTGTGCAATATACGAAAAAAAAGCCCGTACTTTCGTACGAGCTCTTCTTTAAATATGGCGGTGAGGG -GGGGATTGACTCGCTTCGCTCGCCCTGCGGGCAGCCCGCTCACTGCGTTCACGGTCTGTCCAACTGGCTGTCGCCAGTTG -TCGACCCCCGGTCGGGGCTTCTCATCCCCCCGGTGTGTGCAATACACGAAAAAAAAGCCCGTACTTTCGTACGAGCTCTT -CTTTAAATATGGCGGTGAGGGGGGGATTGACTCGCTTCGCTCGCCCTGCGGGCAGCCCGCTCACTGCGTTCACGGTCTGT -CCAACTGGCTGTCGCCAGTTGTCGAACCCCGGTCGGGGCTTCTCATCCCCCCGGTGTGTGCAATATACGAAAAAAAAGCC -CGTACTTTCGTACGAGCTCTTCTTTAAATATGGCGGTGAGGGGGGGATTGACTCGCTTCGCTCGCCCTGCGGGCAGCCCG -CTCACTGCGTTCACGGTCTGTCCAACTGGCTGTCGCCAGTTGTCGAACCCCGGTCGGGGCTTCTCATCCCCCCGGTGTGT -GCAATATACGAAAAAAAAGCCCGTACTTTCGTACGAGCTCTTCTTTAAATATGGCGGTGAGGGGGGGATTGACTCGCTTC -GCTCGCCCTGCGGGCAGCCCGCTCACTGCGTTCACGGTCTGTCCAACTGGCTGTCGCCAGTTGTCGAACCCCGGTCGGGG -CTTCTCATCCCCCCGGTGTGTGCAATATACGAAAAAAAAGCCCGTACTTTCGTACGAGCTCTTCTTTAAATATGGCGGTG -AGGGGGGGATTCGAACCCCCGATACGTTGCCGTATACACACTTTCCAGGCGTGCTCCTTCAGCCACTCGGACACCTCACC -AAATTGTCGTTCCTGTCTTGCTGGAACGGGCGCTAATTTAGGGAAATCATGACCTGAGGTCAACAAACTTTTTGAAAAAA -TCGCGCGTTTATTCAAACTTCAATCAATGTGTGGTTTTAATAAGCGAAATCTGCTTTTTTTGCCACCGACCACGGATTTG -TTATGCTGGTGGCCTTTGTAGATCATAACGATAAGTGCGAATAAATTTCGCACAACGCTTTTCGGGAGTCAGTATGGATA -TCATCTTTTATCACCCAACGTTCGATACCCAATGGTGGATTGAGGCACTGCGCAAAGCTATTCCTCAGGCAAGAGTCAGA -GCATGGAAAAGCGGAGATAATGACTCTGCTGATTATGCTTTAGTCTGGCATCCTCCTGTTGAAATGCTGGCAGGGCGCGA -TCTTAAAGCGGTGTTCGCACTCGGGGCCGGTGTTGATTCTATTTTGAGCAAGCTACAGGCACACCCTGAAATGCTGAACC -CTTCTGTTCCACTTTTTCGCCTGGAAGATACCGGTATGGGCGAGCAAATGCAGGAATATGCTGTCAGTCAGGTGCTGCAT -TGGTTTCGACGTTTTGACGATTATCGCATCCAGCAAAATAGTTCGCATTGGCAACCGCTGCCTGAATATCATCGGGAAGA -TTTTACCATCGGCATTTTGGGCGCAGGCGTACTGGGCAGTAAAGTTGCTCAGAGTCTGCAAACCTGGCGCTTTCCGCTGC -GTTGCTGGAGTCGAACCCGTAAATCGTGGCCTGGCGTGCAAAGCTTTGCCGGACGGGAAGAACTGTCTGCATTTCTGAGC -CAATGTCGGGTATTGATTAATTTGTTACCGAATACCCCTGAAACCGTCGGCATTATTAATCAACAATTACTCGAAAAATT -ACCGGATGGCGCGTATCTCCTCAACCTGGCGCGTGGTGTTCATGTTGTGGAAGATGACCTGCTCGCGGCGCTGGATAGCG -GCAAAGTTAAAGGCGCAATGTTGGATGTTTTTAATCGTGAACCCTTACCGCCTGAAAGTCCGCTCTGGCAACATCCACGC -GTGACGATAACACCACATGTCGCCGCGATTACCCGTCCCGCTGAAGCTGTGGAGTACATTTCTCGCACCATTGCCCAGCT -CGAAAAAGGGGAGAGGGTCTGCGGGCAAGTCGACCGCGCACGCGGCTACTAATAAAGCATCAGGATTCCTGCTATCCTTG -GCGGGAATTGAATACAGGAGAGAGTTATGTATCCCGTCGACCTTCATATGCATACCGTTGCCAGCACACATGCATATAGC -ACATTAAGTGATTACATTGCCCAGGCCAAACAAAAGGGCATTAAACTTTTTGCGATCACCGATCATGGCCCGGATATGGA -AGATGCGCCGCATCACTGGCACTTCATTAACATGCGTATCTGGCCGCGAGTGGTTGATGGGGTAGGGATCCTGCGCGGCA -TCGAAGCTAACATTAAAAATGTTGATGGTGAAATTGACTGCAGCGGTAAAATGTTTGACTCGCTGGATCTAATTATTGCC -GGTTTTCATGAGCCGGTTTTTGCGCCACATGACAAAGCGACCAATACACAAGCGATGATCGCCACTATCGCCAGCGGCAA -TGTGCATATAATAAGCCATCCCGGAAATCCCAAATATGAAATAGATGTGAAAGCCGTTGCTGAAGCAGCCGCGAAACATC -AGGTGGCGCTGGAAATCAATAATTCCTCATTTTTACACTCACGTAAGGGCAGTGAAGACAACTGTCGTGAGGTAGCCGCA -GCGGTACGTGATGCTGGAGGTTGGGTGGCATTAGGCTCGGATTCTCACACCGCGTTTACCATGGGGGAATTTGAAGAGTG -TCTTAAAATCCTCGACGCGGTAGATTTTCCGCCAGAGCGCATTTTGAATGTTTCTCCGCGCCGCTTACTGAACTTCCTTG -AATCTCGCGGTATGGCACCGATTGCGGAATTTGCAGACCTTTAATTACTAGTAATGGAAATATATTAATGAACGAGTTTT -CTATCCTCTGTCGTGTGCTGGGTTCGCTCTATTACCGCCAACCACAAGATCCTTTACTGGTGCCGCTGTTTACCCTGATT -CGTGAGGGGAAACTGGCTGCGAACTGGCCACTGGAGCAGGATGAGTTGCTGACACGTTTGCAGAAAAGCTGTGATATGAC -GCAAGTCTCTGCCGATTACAATGCGTTGTTTATCGGCGATGAATGTGCTGTGCCGCCATATCGTAGCGCATGGGTTGAGG -GCGCGACGGAAGCGGAAGTGCGCGCTTTTCTTTCTGAGCGAGGGATGCCATTAGCGGATACGCCAGCCGATCACATCGGC -ACATTGCTGCTCGCAGCTTCCTGGCTGGAAGATCAGTCAACGGAAGATGAGAGCGAAGCACTGGAAACACTGTTCAGTGA -GTATCTGTTACCCTGGTATGGTGCGTTCCTTGGCAAAGTGGAGGCCCATGCAACCACGCCTTTCTGGCGCACCATGGCAC -CGCTAACCCGCGATGCCATTAGTGCAATGTGGGACGAGCTGGAAGAAGATTCTGAAGAATAAGTGTGATCTACGTCACTC -ATAACTGCAACGGATAATTTGTTGTTGCATAAAATGTGTGCTCGATCTCATTCATGGCCGCGTTTTCTGCTATCATGCGC -GGCATGAACATACTTCTCTCTATTGCAATCACAACAGGCATTCTCTCCGGTATCTGGGGATGGGTGGCTGTTTCCCTGGG -CTTACTAAGCTGGGCGGGCTTCCTGGGCTGTACGGCCTACTTTGCCTGCCCGCAAGGTGGGCTGAAAGGGCTGGCGATCT -CCGCTGCAACCCTGCTTAGTGGCGTGGTGTGGGCGATGGTCATTATTTACGGTAGTGCACTGGCACCACATCTGGAAATT -CTCGGTTATGTCATAACCGGTATTGTCGCGTTTCTGATGTGTATTCAGGCCAAACAGCTGCTGCTTTCATTTGTTCCGGG -GACGTTTATAGGCGCATGCGCGACGTTTGCCGGGCAGGGTGACTGGAAACTGGTGTTACCTTCGCTGGCGCTTGGGCTGA -TATTTGGTTACGCAATGAAAAACAGTGGCCTGTGGCTGGCGGCGCGTAGTGCAAAGACGGCGCACCGTGAGCAGGAAATC -AAAAATAAAGCGTGAGGGGCACTCACGCTTTCGCTTAAACAGTAAAATGCCGGATGATAATTCCGGCTTTTTTATCTGTC -AGGATTCCGGTGGAACCGACATATGGCGGTATTTCACCAGAATGTCATTCTGCCGTTCTGCTTTATTTTGCAAATCCCAC -AGACCACGGTCGATACCATCATTAATCAGGAAAATGACCCCTGTTTCGATAGCCGACATCAGGCACAGCATAACAGGTTC -GTTCGAGGTGTAACCCACTTCCCCTTCAAGCAAGCGCTGGTAGTCAATAAAGCGGAAAACCCCGGCCTGAACTTCATAGG -AAAGTATCGTCTTACTGGTGTTCACCGAAGAAAGGATCTCGCCGGTACTCACATTGACGACGCGCAGGTTCACGGCAATC -TGATCGAGCTGGTATTGCGTGTCGGCACCGATGCCAAAATATCTTGCCCCAACCCCGCCAGATTTGACGTTGCTTTCATA -ACCGATAATCGAACCTTCAACCATGATATTTGCCGCCGTTAAAGATTGCAGCGGGATTCGGTTATTAATGGCAACCGTGC -CGTTTTCTTGTGCCGCACGAATAATCTTGCGCTCGTTAAGCAGGTTTTGTAAGCCCTGGCGCTCCAGCGGTATAAACCAG -CGAGAATCTTTCAGTGCCGTGACCAGCATTGCCGTGGCGCTTTGCGGAACAGCAGTGGAGAAGTTACTTGCCGGGTAGGG -TTTAAATTGCCCGGTTTCGTCCTGAATGTTGTATACCGAAACAAAGATTTTACCCGTCGGCGCTGGCAGATGGGTCAAAT -CTTTGTAGCTCTGAGCACGAGGCATTAATGTCGGTCTGGCGGCTTCTTTAGGCGGGGCGGTTAAGCATCCGCTCAGTAAC -ATGACGGCAACCAAAAGAAATAAGCGCTGCATGATTATTTTCCTTATGAAGCTGGGGCTTAAAAATCGGTTGAGTTATTT -TGTAAACCCGAAACCTGGATGGTCGAGGTTTGTCCGGTTTTACGATCTGTCACGTTCAACTGCAATTGACCATCGCGGTT -GGCAATATCGACAATATAATCGTTGGTCACCATGCGGCCCGGTTTACCGGTATTAATATTCGACAGTAGCCCACCTAAAA -TTTGTGACTGGATGGCCTGAGTAAAGTTATCTAACGCTGAGGGTGTTTCAATACCAAAGTCATCGTTATAGCTCGGATCT -TTATAAGAGTTTTGGGCCTGAGCGCTATTTAATAAAAAAGCGCCATTATTTGGGTTACCACCAAAGTTTGGATTACGGAA -CTGGAAAGTCATGGTTCCAGCCCAACTTAATGGCGAAATAAGCATGAGTAGAACTACTGCATGTTTGACACGCATTGCAG -CCTCCGAACAATTTTTTATTTAGAATTCATCATGCGCCAAATCGCCCGTACTTAATAACGCCTGATTTATCTGGCGACGA -TTTAGTGCTTCTTCAGTTTGAATCAGTGCAAAGACGACAGTTTTCTCGAAGTCTCTTTTCAACGGAAATAAAAAAGTCTG -GAAAATAACGTCCTGATTGACCGTTATAGTGATCCAGCTTCCCCATCGTGCACTGGGCCTTTCATTAATCGTTAAGTTAC -CCGTATAGTCACTTTCCCATTTATCACTAAAGGCTCGGTAAAAATCATGGCCAATAGATGAAACAGTATGGTCAGTTAGC -AATCCCGGGACTTCTACCTCAACGGCGTGAAGATTCCCTGCGGCGAACAGAAATTCTGCCGCCACAATCCAGCGTAAATA -ACGTTTCATGGCTTTATCGCCTGAGGTTATCGTTTGCCCAGGAAACCGCTTGTGTCCGGTTTTTTACGGCTATCTTCTTG -AAAAGATTATAAAGATGCGTTTTAACCGTATTTTCGCTGATGAACAACGAACGAGCGATCTCGTTATTAGACGCGCCGAT -ACGCAGCTTATTCAGGATCTCTTTTTCCCGATGAGTAAGGAGGGCTGATTCCGTGCTGTTATAACGATAGTTACCTGAAT -GCGTAATCAGGTAGCTGGCAAGCTTTTGCGTAAAGTAGCATTCGCCGCGCAGGACGCCTTGCAACCCATTGACAACACGT -TCTTGATCCTCCATGGAATAAAAAACGCCGTTGATATGAGGCCAGTTTTCAATGTCGCGGTACGGGTAATCTTCAGGCGT -ATTTAGCAACAATATTTTGATATTGTTGTTTTTCCTGCTCAAAGTATCCTGCCAATAATGGATAAGCTTTTTATCCGCTT -CCATCATATCCAGAAGAATAATAGAGCCTGAAGAGATATCGTCCAGAGAACGTTGAATATTATGTAATTTTCCTGTAATT -GCCAGCGATTGTTTAAGGTGCTGCAAGAGAGCTGTCGCCTGCAAAGAAGATTTAGTGATCAACAATAATGTATGACCATG -AATACTATGGACTTCATTAAACATGATGAAACCCCGCTTTTTTTATTGATCGCACACCTGACAGCTGCCTCTAAAATAGA -AGCACCAGAAGTACTGACAGATGTTGCACTGCTGTGTGTAGTAATAAATCAGCCCTAAATGGGTAAAATATAAAACTAAT -GGATTACATCTGATTTCAATCTAGCCATTACAAATCTTAAATCAAGTGTTAAACATGTAACTAAATGTAACTCGTTATAT -TAAAATGTTAACCTTAAGGTTTTATTAAGTTTAGAAATGATAGAAAAGTTGTACATTTGGTTTTTATTGCACAATTTTAA -AAAATCATACAAATGGTGATAACTTACTAATAATGCATATAAAAAATATTTCGGTGTAGTCCTTTCGTCATGTAAAACGT -TCTTGTTTTTTCTCCACACCTCCGTGGACAATTTTTTACTGCAAAAAGACGAGGTTTGTCACGGCTTGTGCGCAAGACAT -ATCGCAGCAATCAGCGACGGGCAAGAAGAATGACTGTCTGGTGCTTTTTGATAGCGGAAAACGGAGATTTAAAAGAAAAC -AAAATATTTTTTTGCGTAGATAACAGCGTATTTACGTGGGTTTTAATACTTTGGTATGAACTAAAAAAGAAAAATACAAC -GCGCGGGTGAGTTATTAAAAATATTTCCGCAGACATACTTTCCATCGTAACGCAGCGTTAACAAAATACAGGTTGCGTTA -ACAACCAAGTTGAAATGATTTAATTTCTTAAATGTACGACCAGGTCCAGGGTGACAACATGAAAAACAAATTGTTATTTA -TGATGTTAACAATACTGGGTGCGCCTGGGATTGCAGCCGCAGCAGGTTATGATTTAGCTAATTCAGAATATAACTTCGCG -GTAAATGAATTGAGTAAGTCTTCATTTAATCAGGCAGCCATAATTGGTCAAGCTGGGACTAATAATAGTGCTCAGTTACG -GCAGGGAGGCTCAAAACTTTTGGCGGTTGTTGCGCAAGAAGGTAGTAGCAACCGGGCAAAGATTGACCAGACAGGAGATT -ATAACCTTGCATATATTGATCAGGCGGGCAGTGCCAACGATGCCAGTATTTCGCAAGGTGCTTATGGTAATACTGCGATG -ATTATCCAGAAAGGTTCTGGTAATAAAGCAAATATTACACAGTATGGTACTCAAAAAACGGCAATTGTAGTGCAGAGACA -GTCGCAAATGGCTATTCGCGTGACACAACGTTAATTTCCATTCGACTTTTAAATCAATCCGATGGGGGTTTTACATGAAA -CTTTTAAAAGTAGCAGCAATTGCAGCAATCGTATTCTCCGGTAGCGCTCTGGCAGGTGTTGTTCCTCAGTACGGCGGCGG -CGGTAACCACGGTGGTGGCGGTAATAATAGCGGCCCAAATTCTGAGCTGAACATTTACCAGTACGGTGGCGGTAACTCTG -CACTTGCTCTGCAAACTGATGCCCGTAACTCTGACTTGACTATTACCCAGCATGGCGGCGGTAATGGTGCAGATGTTGGT -CAGGGCTCAGATGACAGCTCAATCGATCTGACCCAACGTGGCTTCGGTAACAGCGCTACTCTTGATCAGTGGAACGGCAA -AAATTCTGAAATGACGGTTAAACAGTTCGGTGGTGGCAACGGTGCTGCAGTTGACCAGACTGCATCTAACTCCTCCGTCA -ACGTGACTCAGGTTGGCTTTGGTAACAACGCGACCGCTCATCAGTACTAATACATCATTTGTATTACAGAAACAGGGCGC -AAGCCCTGTTTTTTTTCGGGAGAAGAATATGAATACGTTATTACTCCTTGCGGCACTTTCCAGTCAGATAACCTTTAATA -CGACCCAGCAAGGGGATGTGTATACCATTATTCCTGAAGTCACTCTTACTCAATCTTGTCTGTGCAGAGTACAAATATTG -TCCCTGCGCGAAGGCAGTTCAGGGCAAAGTCAGACGAAGCAAGAAAAGACCCTTTCATTGCCTGCTAATCAACCCATTGC -TTTGACGAAGTTGAGTTTAAATATTTCCCCGGACGATCGGGTGAAAATAGTTGTTACTGTTTCTGATGGACAGTCACTTC -ATTTATCACAACAATGGCCGCCCTCTTCAGAAAAGTCTTAATTTGTTGAAATATCGAGCATAAGATGAATCTGGAGAGAA -TGGTCTGCTGCGAATCAGCCAACCTGAAAGTATGGATAACACAACCCTCAAGGATGACTAATCATTGAGGAAATAGAATA -AATGTTCAGACCTTTTTTAAACTCTCTTATGCTCGGCAGTTTGTTTTTTCCTTTTATTGCCATTGCTGGAAGCACCGTGC -AAGGGGGCGTGATCCATTTTTATGGCCAAATTGTGGAACCGGCATGTGACGTCAGCACCCAGTCATCACCCGTAGAAATG -AACTGCCCACAGAATGGTTCTATTCCGGGCAAAACCTACTCCAGCAAAGCGTTAATGAGCGGCAATGTCAAAAACGCGCA -AATAGCCTCAGTAAAAGTGCAGTATCTTGATAAACAGAAAAAGCTGGCTGTAATGAACATCGAATATAACTAAGTTTCTG -AACAACTCACGTTGCTGAGCAGAAAAATGCGATTTAACCAAAAAGCCTGCTGTACACTTAAGAAACAAGAAGGTGTAAGG -AGGCGTTATGAAAACGCGTATTCATGTTGTGCAGGGTGATATTACCAAACTGGCCGTTGATGTGATTGTGAATGCGGCTA -ATCCGTCATTAATGGGAGGCGGCGGCGTCGATGGGGCCATTCATCGCGCAGCGGGTCCGGCCCTGCTGGATGCTTGTTTA -AAAGTCAGGCAACAGCAGGGCGATTGCCCTACGGGGCATGCCGTTATTACGCTTGCAGGCGATCTTCCCGCTAAAGCCGT -AGTGCACACCGTCGGGCCAGTCTGGCGTGGTGGTGAACAAAACGAAGACCAGCTTTTGCAGGATGCCTATCTCAATAGCC -TACGACTGGTGGCGGCAAACAGCTATACGTCAGTGGCTTTTCCTGCAATCAGTACTGGGGTTTATGGTTACCCTCGTGCG -GCAGCGGCTGAAATCGCAGTAAAAACCGTTTCAGAATTTATTACCCGTCACGCTTTACCCGAACAGGTATACTTTGTCTG -TTATGATGAAGAAAACGCCCACCTCTACGAAAGACTCCTTACCCAACAAGGAGATGAATGATTTGCCCCGGCTGGCGAGC -GCGGTGCTGCCACTGTGTTCGCAACATCCCGGTCAGTGTGGCCTTTTTCCTCTGGAGAAAAGTCTGGATGCGTTTGCCGC -CCGGTATCGTCTGGCCGAAATGGCAGAGCATACGCTCGATGTTCAGTATTACATCTGGCAGGACGATATGTCGGGTCGGT -TACTGTTTTCCGCCCTGTTAGCCGCAGCAAAGCGTGGCGTTCGCGTCCGTTTGTTGCTGGACGACAACAATACGCCCGGA -CTTGACGACATTTTACGCTTGCTTGACAGTCATCCACGCATTGAAGTCCGGCTTTTTAATCCTTTCTCGTTTCGCTTGCT -GCGTCCGCTTGGTTATATCACCGACTTTTCCCGTCTTAATCGCCGTATGCACAATAAAAGTTTCACTGTCGATGGCGTGG -TGACCCTGGTGGGAGGACGAAATATTGGTGATGCCTATTTTGGAGCAGGGGAGGAGCCACTTTTTTCGGATTTAGATGTC -ATGGCAATAGGACCCGTGGTAGAGGACGTTGCCGATGATTTCGCCCGCTACTGGTATTGCAAATCGGTTTCACCCTTACA -GCAGGTGCTGGATGTCCCGGAGGGTGAAATGGCGGATCGCATCGAGTTACCCGCCTCCTGGCATAACGATGCCATGACGC -ATCGTTATTTACGCAAAATGGAATCCAGTCCATTTATAAATCATCTGGTTGATGGAACATTGCCGCTTATCTGGGCGAAG -ACACGTTTATTAAGTGATGATCCGGCGAAAGGGGAGGGCAAGGCAAAACGGCATTCACTGTTACCGCAGCGCCTGTTCGA -TATCATGGGCTCACCCAGTGAACGCATCGATATTATCTCTTCCTATTTTGTACCGACACGCGCAGGTGTGGCGCAACTCT -TACGGATGGTGAGAAAAGGGGTAAAGATTGCGATCCTAACCAATTCTCTTGCCGCTAACGATGTTGCTGTCGTCCATGCC -GGATACGCGCGCTGGCGCAAAAAATTGCTCCGCTATGGCGTGGAATTATATGAACTCAAGCCGACGCGTGAACAAAGTAG -TACGTTACACGATCGCGGCATAACCGGTAATTCCGGAGCCAGCCTGCATGCTAAAACCTTTAGCATCGATGGTAAAACGG -TGTTTATCGGCTCTTTCAATTTCGATCCGCGTTCAACATTGCTCAATACTGAAATGGGCTTCGTGATAGAGAGCGAAACG -CTGGCACAGTTAATTGATAAACGCTTTATTCAGAGCCAGTATGATGCGGCCTGGCAGCTCCGTCTGGACAGGTGGGGACG -GATCAACTGGGTTGATCGTCATGCAAAGAAAGAGATTATTCTCAAAAAAGAACCCGCCACCAGTTTCTGGAAGCGGGTTA -TGGTCAGACTGGCGTCGATATTGCCCGTGGAATGGTTATTGTAAATGTGGCTTAACGGGCTGGTGCTTTATCGTTCTCAC -GCTTAACAACCGGTTTACCAGAGAACAAAAACTTCAGTAACGGGATGCGCAAATGAATTTCATACAGAATTATCGCAATC -CCTACTACAAATATCAGGCCACAGAGAAAACCAAGCCAGTTGGAGGTGATGTGCGGTGTAATGTATGCGCCGAAAAACAG -CGTTAACGGGTGGTGAACCAGATAGATAAACAGCGATGCGTTAACAAAATAAGTCACCCGCGCTGACTGGAAGTTAAGCA -AACGGTGGCCAAAGGAGAAGACCACATTCACCATCCACAGACCGAGGACCATGGTGATCACCGACTCGGTTTCGTACATC -CAGGCATCGCCACTGCCATAGCGCTGGTTGAGTAAATAAGCGACAAACGCCAATGCTGCTGCAAGGGTACAGCCACGAGA -CGGCGTGGTAAACAAGGCTTTAAGATGAGGGAAAATGAAAGCCAGTGCGCCGAGGATAAAGAACGGCAAATAAAACAGCG -TTTGCATGACAATAAAATTGAACATGCCATTACTCAGAATGGGCGGATACACAATAAAAATCGTTCTTCTTATTACCGCA -TAACCGATGCCGAGGCATAAAAAAATCACCGATAGTTTTACCATCGAGAATTTTTTATTCGTTTTATCAGAATTTTCTAA -ATTATTTCTGATGCGCTTAAATATCCATACGCACAGCGTCGTCATGACCACTAACACCAGTAAAAACCACAGGTGTGATA -TTAATTCCCAGGCCAACGTATTATATTTGTCATACAATGACAGCCCAGGCCAACTTTCCGCTTTTCCTTTGACATATTGC -AGCATAATAAATTGCGGTAATGTCAGTAGGGGGATGGCTGTTAACATCGGGATACCTACACGTTCGACACGTACTTTCCA -CCATTTTTTCAAGGGATAGCGTAAAAAAAGCATGTAGGAAAAGTAGCCGGATATAACGAAAAATACCTGCATGCGGAACG -AGTGGATGAAGTCATTAAAAAGGGTCAGCCACAATGATGATTCGGCGCTATTCACATGCCATGTATGGCTCGAATAGATT -AAAGAAATATGAAAAGGTATCCCTAACAACATCAGCCAGGCGCGGATGGAGTCGAGGAAATATTCACGTTGCGCGGGTAC -TGGGTTCATATATGGTTAACTAATCTCGGATTTTTCGTCTTATCCCTGTCGGGTTATGCCTTTAGGCTTGTTGCCATAGT -GACACCGACCTGACCGCGCCAGGCGCAGGCTTCAAGGTTTTTATGCATAGCATCATCGCTACCACTAACCAGAATGGAAG -CGTCTGTAAGACGGTTGATAAATAAATTTGCTGGCAAACCCTACACGAAGTCGATGCTTCTGTCTTTAGGAGAAGCACGG -AAAGTGAAAACGGTTGCAATCAGGTGCTTAATCCATGAGCCAGCGTGCTGAACGATACCGGGATTCTGTTGTCGGAATGG -CTGGTTATCCATTAAAATAGATCGGATCGATATAAGCACACAAAGGGGGAAGTGCTTACTAATTATGAAACATAAACTAC -AAATGATGAAAATGCGTTGGTTGAGTGCTGCAGTAATGTTAACCCTGTATACATCTTCAAGCTGGGCTTTCAGTATTGAT -GATGTCGCAAAGCAAGCTCAATCTTTAGCCGGGAAAGGCTACGAGACGCCCAAAAGCAACTTGCCCTCCGTTTTCCGCGA -TATGAAATACGCGGACTATCAGCAGATCCAGTTTAATCATGACAAAGCGTACTGGAACAATCTGAAGACCCCATTCAAAC -TCGAGTTCTACCATCAGGGTATGTACTTCGATACCCCGGTCAAAATAAATGAAGTGACTGCCACCGCAGTCAAACGAATC -AAATACAGCCCGGATTATTTCACTTTCGGCGATGTTCAGCATGACAAAGATACGGTAAAAGACCTTGGCTTTGCCGGTTT -TAAAGTGCTTTACCCGATCAACAGCAAAGATAAAAACGATGAAATCGTCAGCATGCTCGGGGCCAGCTATTTCCGCGTGA -TTGGTGCAGGTCAGGTTTATGGCCTTTCTGCCCGCGGCCTGGCAATTGATACCGCCTTGCCATCGGGTGAAGAATTTCCG -CGCTTCAAAGAGTTCTGGATCGAGCGTCCAAAACCGACTGATAAACGTTTAACCATCTATGCATTGCTTGACTCGCCGCG -TGCGACAGGTGCTTACAAATTCGTGGTTATGCCAGGGCGTGACACGGTTGTGGATGTGCAGTCGAAAATCTATCTGCGCG -ATAAAGTCGGCAAACTGGGGGTTGCACCGTTAACCAGTATGTTCCTGTTTGGGCCGAACCAACCGTCGCCTGCAAATAAC -TATCGTCCGGAGTTGCACGACTCTAACGGTCTCTCTATCCATGCCGGTAATGGCGAATGGATCTGGCGTCCGTTGAATAA -CCCGAAACATTTAGCGGTCAGCAGCTTCTCCATGGAAAACCCGCAAGGCTTTGGTCTGTTGCAGCGCGGTCGTGATTTCT -CCCGCTTTGAAGATCTCGATGATCGTTACGATCTCCGTCCAAGCGCATGGGTGACTCCGAAAGGGGAGTGGGGTAAAGGC -AGCGTTGAGCTGGTGGAAATTCCAACCAACGATGAAACCAACGATAACATCGTCGCTTACTGGACGCCGGATCAGCTGCC -GGAGCCGGGTAAAGAGATGAACTTTAAATACACCATCACCTTCAGCCGTGATGAAGACAAACTGCATGCGCCAGATAACG -CATGGGTGCAACAAACGCGTCGTTCAACGGGGGATGTGAAGCAGTCGAACCTGATTCGCCAGCCTGACGGTACTATCGCC -TTTGTGGTCGATTTTACCGGCGCAGAGATGAAAAAACTGCCAGAGGATACCCCGGTCACAGCGCAAACCAGCATTGGTGA -TAATGGTGAGATAGTTGAAAGCACGGTGCGCTATAACCCGGTTACCAAAGGCTGGCGTCTGGTGATGCGTGTGAAAGTGA -AAGATGCCAAGAAAACCACTGAAATGCGTGCTGCGCTGGTGAATGCCGATCAGACGTTGAGTGAAACCTGGAGCTACCAG -TTACCTGCCAATGAATAAGACAACTGAGTACATTGACGCAATGCCCATCGCCGCAAGCGAGAAAGCGGCATTGCCGAAGA -CTGATATCCGCGCCGTTCATCAGGCGCTGGATGCCGAACACCGCACCTGGGCGCGGGAGGATGATTCCCCGCAAGGCTCG -GTAAAGGCGCGTCTGGAACAAGCCTGGCCAGATTCACTTGCTGATGGACAGTTAATTAAAGACGACGAAGGGCGCGATCA -GCTGAAGGCGATGCCAGAAGCAAAACGCTCCTCGATGTTTCCCGACCCGTGGCGTACCAACCCGGTAGGCCGTTTCTGGG -ATCGCCTGCGTGGACGCGATGTCACGCCGCGCTATCTGGCTCGTTTGACCAAAGAAGAGCAGGAGAGCGAGCAAAAGTGG -CGTACCGTCGGTACCATCCGCCGTTACATTCTGTTGATCCTGACGCTCGCGCAAACTGTCGTCGCGACCTGGTATATGAA -GACCATTCTTCCTTATCAGGGTTGGGCGCTGATTAATCCTATGGATATGGTTGGTCAGGATTTGTGGGTTTCCTTTATGC -AGCTTCTGCCTTATATGCTGCAAACCGGTATCCTGATCCTCTTTGCGGTACTGTTCTGTTGGGTGTCCGCCGGATTCTGG -ACGGCGTTAATGGGCTTCCTGCAACTGCTTATTGGTCGCGATAAATACAGTATATCTGCGTCAACAGTTGGCGATGAACC -ATTAAACCCGGAGCATCGCACGGCGTTGATCATGCCTATCTGTAACGAAGACGTGAACCGTGTTTTTGCTGGCCTGCGTG -CAACGTGGGAATCAGTAAAAGCCACCGGGAATGCCAAACACTTTGATGTCTACATTCTTAGTGACAGTTATAACTTGGAT -ATCTGCGTCGCAGAGCAAAAAGCCTGGATGGAGCTTATCGCTGAAGTCGGTGGCGAAGGTCAGATTTTCTATCGCCGCCG -CCGTCGCCGCGTGAAGCGTAAAAGCGGTAATATCGATGACTTCTGCCGTCGCTGGGGCAGCCAGTACAGCTACATGGTGG -TGCTGGATGCTGACTCGGTAATGACCGGTGATTGTTTGTGCGGGCTGGTGCGCCTGATGGAAGCCAACCCGAACGCCGGG -ATCATTCAGTCGTCGCCGAAAGCGTCCGGTATGGATACGCTGTATGCGCGCTGTCAGCAGTTCGCGACCCGCGTGTATGG -GCCACTGTTTACAGCCGGTTTGCACTTCTGGCAACTTGGCGAGTCGCACTACTGGGGACATAACGCGATTATCCGCGTGA -AACCGTTTATCGAGCACTGCGCACTGGCTCCGCTGCCGGGCGAAGGTTCCTTTGCCGGTTCAATCCTGTCACATGACTTC -GTGGAAGCGGCGTTGATGCGCCGTGCAGGTTGGGGGGTCTGGATTGCTTACGATCTCCCGGGTTCTTATGAAGAATTGCC -GCCTAACTTGCTTGATGAGCTAAAACGTGACCGCCGATGGTGCCACGGTAACCTGATGAACTTCCGTCTGTTCCTGGTGA -AGGGTATGCACCCGGTTCACCGTGCGGTGTTCCTGACGGGCGTGATGTCTTATCTCTCCGCTCCGCTGTGGTTTATGTTC -CTCGCGCTCTCTACTGCATTGCAGGTAGTGCATGCGTTGACCGAACCGCAATACTTCCTGCAACCACGGCAGTTGTTCCC -AGTGTGGCCGCAGTGGCGTCCTGAGCTGGCGATTGCACTTTTTGCTTCGACCATGGTGCTGTTGTTCCTGCCGAAGTTAT -TGAGCATTTTGCTTATCTGGTGCAAAGGAACGAAAGAATACGGCGGCTTCTGGCGCGTTACATTATCGTTGCTGCTGGAA -GTGCTTTTTTCCGTGCTGCTGGCTCCGGTACGCATGCTGTTCCATACGGTCTTCGTTGTCAGCGCGTTCCTTGGCTGGGA -AGTGGTGTGGAATTCACCGCAGCGTGATGATGACTCCACTTCCTGGGGTGAAGCGTTCAAACGCCACGGCTCACAGCTGC -TGTTAGGGTTAGTGTGGGCTGTTGGGATGGCGTGGCTGGATCTGCGTTTCCTGTTCTGGCTGGCACCGATTGTCTTCTCG -TTGATCCTGTCACCGTTTGTTTCGGTGATTTCCAGCCGTGCCACCGTTGGTCTGCGCACCAAACGCTGGAAACTGTTCCT -GATCCCGGAAGAGTATTCGCCGCCGCAGGTGCTGGTTGATACCGATCGGTTCCTTGAGATGAATCGTCAACGCTCCCTTG -ATGATGGCTTTATGCACGCAGTGTTTAACCCGTCATTTAACGCTCTGGCAACCGCAATGGCGACCGCGCGTCACCGCGCC -AGTAAGGTGCTGGAAATCGCCCGTGACCGCCACGTTGAACAGGCGCTGAACGAGACGCCAGAGAAGCTGAATCGCGATCG -TCGCCTGGTGCTGCTAAGCGATCCGGTGACGATGGCCCGTCTGCATTTCCGTGTCTGGAATTCCCCGGAGAGATATTCTT -CATGGGTGAGTTATTACGAAGGGATAAAGCTCAATCCACTGGCATTGCGTAAACCGGATGCGGCTTCGCAATAAAAACGT -AGTTGCCTGATGCGCTACGCTTATCAGGCCTACATCGTTCCTGCAATTTATTGATTTTGCAAGACTTTGTGGGTCGGATA -AGGCGTTCACGCCGCATCCGGCAAAAACAACGAGCCAATAAAAATACCGGCGTTATGCCGGTATTTTTTTACGAAAGAGG -TATCAAATGCGTTTAATTGTGGTGAGCATCATGGTGACCTTGCTGAGTGGCTGTGGCAGCATTATTAGTCGCACTATACC -GGGGCAGGGGCATGGCAACCAATATTATCCCGGTGTGCAATGGGATGTGCGTGACTCCGCCTGGCGTTATGTCACGATCC -TTGATCTGCCATTCTCTCTGGTTTTTGATACTTTACTGCTGCCGATCGACATTCATCATGGCCCGTATGAGTGATTAACG -TTCATCCCACTCATCAGCTGCTGCGCGTCCTTCCTCGGTATCCAGCGGTGGCTCAAGCTGAAATTCCCCCTCGTCCCATT -CATGTAATGTATTCTCTTCCTGCCACTCCTGGCGTATCTCTATCTCATCATAGTCGCCATCAAAAACACTTTGCGCGGCT -TCACCGCTAAGCATAGGTAAACATTCACCTTCTTCCCCTTCGTCGGCAAAAAACTCAACTTGCCACATGATGTCGCCGTC -CTGCAAAACGTATTTTTGGGCATTGAACTGTTGCACATTCGCATCTTCGGCGTCGATGCCGGGGTTGTCTGCAAGAAATT -CTTCGCGTGCAGCGTCAATGGCTTCTTCAAGCGTTGCGTACATGGTCATCACGATTCTCCCTTTGAGTTGATGAGGTTTC -AGGGAAAAGGATAGCTGATTCTCCGCTTTTGCAAGTATGAAAGGCGAAAAATCAGTTCGATACCTGGGGTATTCGACGAC -GACGTAGACTGTTCCATGAATAGACTGCGTTGAATAACACTACGCCAGCGGTGACGAGAAATACCGCTCTGAAACCGTAG -TTCGCTGAAATCGCTGCTCCCATCAATGGTCCGGTAACGTTGCCAATATCACGAAACGATTGGTTATAGCTGAAGATACG -CCCGGCGATCTGGTTGCTCGAGTTGTAAACCAACAGTGTCTGTACGGCGGGGAGTAGTGCACCATCGGCGGCACCGAGCA -AAAAACGTAAAATCCCAAGTTGCAATGGCGTCTGAACGTAAGACATTGGGATCAACAGCAGTACAGAAAAGATCAGCGCT -GTAATCAGGATCTTTTCGGGTCCGATTCGATCGCCAAGTTTGCCGAGTCGTGGTGCACTTAGCAGAGCCGCCACGCCTGG -CACCGAGGCGATCATGCCACTGATAAAGGCGACGTTACTGACGTTACCCGCCAGTTCGCGGACATACAGCGTCAGAATGG -GGGCAATTGAGCCCGTCGCCACCTGGATGATTAACGTAGTGACAAACAGGCTGAGTACCAGTTTCGGGTTTTTAAGTGAT -GTCACCACTTCCCGCATGTGCAGCATCTCTTTTTTGCTGACCGGCTGGAATTTTTCTCTGATGCAAAACAGGGTGACGAA -AAAGCAGAGTATGAGCACACTGGCGGTAATAAAGAATACCGGACGTAAGCCGTAGCTATCGGCGAGCAGGCCGCCAGCCA -TTGGGCCGAGCAACGCACCACTAACGCCGCCTGTGGAGAGCGTACCCAGCGCCCAGCCGCTTTTATTACGCGGTACTTGT -GTGGCGATAAGAGCATTAGCGTTGGGGACAAATCCGCCAAGTAACCCAAGAAGCGCCCGCAGGATCAAAAACTGCCAGAT -ATTTTGTGCCAGCCCCATCAACACCATCACGATGCCCATGCCGAGGGCAGAGCGTAATAGCATGAGTTTTCGGCCTTTAC -GGTCGGCGAGTCCACCCCAAAACGGTGAGGCGATGGCCGAAAATAAAAATGTAATGCTGAAGACAATACCGGACCACATA -TTCAGGGCGGAGTGACCGGTAACGCCAAGCTGCTCAACGTAGAGGGGTAAGAAGGGCATTACCAGACTGAAGGCGGCACC -GGTAAGAAAACAGCCTAGCCAGGCGACGATCAGGTTTCGTTTCCAGTTTATAGGGGTGTCATTTTCACAGGGTGACATAG -CAATCCGCTGTTGGTGCGCCAGGCGCGGTGAACATAAGAAGAAAAGATAAGCACACTAATTATGCGCCCGACTTCCAGGG -GGCGCAATCCAGAGAGCTTTTATCGCTAAATCAGGGGGATTTGCTGTGGTAATGCCGGATGCCATTCTGAAGCATCCGGC -ATGGGAGATTTAATAGCGTGAAGGAACGCCTTCCGGGCGTGTTTTAAAGCGACGGTGTAACCACATATACTGCTCTGGTG -CCATCATGATGCATTTTTCGACCACTTTGTTCATCCACGCGGCGGTAGTTTCGGCATCATCCAGTGGCGGAGAACACTCT -GGCGGCAGCATAATCAATTGATACCCTTTGCCATCTGGCTTACGGCGTGGAACGAAGGGCACCAGACATGCGCCGGACAT -CCGTGCCAGCATCCAGGTTCCGGTCGTGGTCGCAGCCTGCTCAACGGCAAACAACGGGACGAAAACGCTTGAGCGCGGGC -CGTAATCATGATCCGGTGCGTACCAGACCACTTCGCCTTTTTTCAGGGCTTTAATCATGCCTTTTAAATCTTTGCGGTCG -AGCATCGATTTATTTGAGCGCAAACGGCCCCAGGTTTGTAGCCAGTCAATCAGTGGATTATCGTTCGGGCGATAAACGCC -AATACCCGGTTCCTGCATACCAAACTGCCGCGCACCCAGCTCCAGTGTCAGAAAATGGATGCCAACTAACAGGATGCCGC -GTTTTTGCGCCTGCACGTCACGAATGTGTTCCATGCCGATCACTTCCGTCCAGCGGGCGATTCGGCGGTCCGGCCAGAAC -CACGCCATGCCGGTTTCCATCAGGCCCATGCCAACGGATTCGAAATTCTTCACCACCATTTTACGGCGTTCTTGTTCGCT -CATTTCCGGGAAGCACAGTTCCAGGTTGCGATGCACAATTTTTGCGCGTCGTTTCATAAAACGTAACGCCAGTTTTCCTA -ATCCACAACCGAGGCGGTAGATAACCGGGTAGGGCAATTGCACGACTAACCAAAGTACGCCAATACCCAACCAGGTTAAC -CAATAACGCGGATGAAGCAGTGCGGTGGAGAACTTGGGTAGATTCGTCATATCAATCCTGTTTTTCAACCTATTCGGGCA -ATTGTATGTATTGTCGCATTTTTTCGCCCGCAACCAAAATTTGTGGCTGAAGACTGGGCGAAATTGCCGCGCTTGTAAAT -AACAAATAATTTTTAATGCGCAAATGTAGCGTAAAATGTGTGGATGTTAATTATCGATAATTGCTATATCATGCCGCGGA -TTTTTACTTTCCCATCTCGCAGGAACCGTACACCATGCCAGTGTTACACAACCGCATTTCCAACGACGCGCTAAAAGCCA -AAATGTTGGCTGAGAGCGAACCGCGAACCACCATTTCGTTTTACAAGTATTTCCACATCGCCGATCCTAAGGCGACCCGT -GACGCTTTATATCAGCTGTTTACCGCGCTGAATGTTTTTGGGCGAGTGTATCTGGCGCATGAGGGCATTAACGCGCAAAT -CAGCGTACCTGCGAGCAATGTTGAAACATTTCGCGCGCAGCTCTATGCCTTCGACCCGGCTTTAGAGGGTTTACGCCTGA -ATATCGCGTTGGATGATGACGGGAAATCCTTCTGGGTACTGCGCATGAAGGTACGCGATCGCATTGTTGCCGACGGTATT -GACGATCCTCACTTTGATGCCAGCAATGTTGGTGAGTATCTGCAAGCGGCGGAAGTGAACGCCATGCTTGACGATCCCGA -TGCACTATTTATCGACATGCGTAACCACTATGAGTATGAAGTGGGGCACTTTGAAAACGCGCTCGAAATTCCGGCAGATA -CCTTCCGTGAGCAGCTGCCAAAAGCAGTCGAGATGATGCAGGCACATAAAGATAAAAAAATCGTCATGTACTGCACCGGC -GGCATTCGTTGTGAAAAGGCCAGTGCCTGGATGAAACATAACGGATTCAACAAAGTCTGGCATATCGAGGGCGGAATTAT -TGAATACGCCCGTAAGGCGCGCGAGCAGGGCTTGCCGGTGCGTTTTATTGGCAAAAATTTTGTTTTTGACGAGCGGATGG -GCGAACGTATATCGGATGAGATTATCGCGCATTGCCACCAGTGCGGCGCGCCGTGCGACAGCCATACCAACTGTAAAAAT -GATGGCTGCCACCTGCTGTTTATTCAGTGTCCAGTATGCGCGGAAAAATACAAAGGTTGTTGTAGTGAGATTTGCTGCGA -AGAAAGCGCGTTACCGCCAGAAGAACAGCGACGCCGTCGGGCAGGACGTGAAAATGGCAATAAGATCTTTAATAAGTCTC -GTGGACGTCTGAATACAACACTGTGCATTCCTGATCCAACAGAATAAATATCATTGCCGGATGCGTGCCATCCGGCAACA -TTTCACGCTTACTTCTGCTGTACGCCTTCCACTGAAATAATCAGATCCACTTCCTGAGAAGCTGGACCTAAATCTGTCTT -GATATTGAAGTCCTTGAGCTTAATTTTGCCTTCGGCCTCGAAGCCTGCACGTTTACCACCCCATGGGTCGTCGCCCTGAC -CAATTAATTTCGCTTCCAGCGTGACGGGTTTGGTTACGCCATTCAGCGTCAGATCGCCGGTAATATCCAGTTCGTCACCG -TCTTTCTTCACGCTGGTGGAGGTGAATGTTGCCTGTGGATATTTTGCGGTATTGAGGAAATCTGCACTGCGAAGATGTTT -ATCGCGTTCGGCGTGATTAGTATCGACGCTGGTGGTGTTAATTGTCACATTCACTTTATCGGCAGCCGGATTTTTTTCGT -CAAAGGTAAAAGTACCGTCGAAATCTTTAAAGGTGCCGTATAACCAGCTATAGCCAAGGTGCTGGATGCGGAAATTAACA -AAGGCGTGCTGACCTTCTTTGTCAATTTTGTAATCGGCGGCAACCGCTGAACCGGCAGAGAACATCAGGGACGCGAAGGT -TAAACCAAGCAGGCTTTTTTTCATTTTTTATACTCCATAGTCAGATGACGACTTTCCCAGCATGCGCTTCAGAGTGTCGT -CTTTATCGATGAAATGATGCTTCAGGGCCATAAATCCGTGCATAACGGACAGTACTACGACGCTCCACGCGAGCCAAAAA -TGCAGGGCACCGGCAAAGTCTGCCTGTGCGCCAGCGTCGGCAAGGGTCGCGGGGACGTCAAACCAGCCAAAAACGCTGAT -CGGTTTACCATCGGCAGTTGAGATCAGATAGCCGCTGATGCCGATGGCGAAAAGCAATAGGTACAATGCGAGATGTCCAG -CTCTTGCGGCAAGACGAGTCATGGGCGAATAACTCGGCAGCGGACCCGGCGGTGGAGATATGACACGCCACAGAACGCGA -ATAACCAGCCCCATCATTAACAAAATACCGATGCTTTTATGCAGTTCGGGTGCTTTGTGATACCAGCCATCGTAATAACT -GAGCGTGACCATCCACAGACCTAAAGCAAACATGCCGTAGACAATAATTGCGCTTAGCCAATGGAAGGCCGCAGATATAA -CACCATAGCGTTCAGGGGTATTTGTGAATGACATAAGTGCATCCAAAACGAATTTGCGAGAGAAAGAAAATGGCGTGTCG -GAGAATGAATTGCAACACAAAAATAACAAATTGAATGATATTTATTTTTATTTCAATAATTTTGAATTAATAATGAAAGA -ATCTTCATAAGTTTAGTGGGTTCAGCATCAGAGATGTCTGGTGAGTGCTGTAGAAGCAGGAATAATCTCATTCAATTTTT -CACGCTAAATGAAAGGGAGATTAAATATTTGTCAGTTTATGTCAGTGCGGAAAACTAAAAATAAAACACATAGATCAGAT -CCATAATTGCCAACAATCCCCAGAGAAAAAGATAAAGCATCAGATGCTCGCGAATATTATTGATGAGATAGTGCAACAGC -CGACGCATTAAATACTCCTGTAAAAACGGCCTCATTCTGGAGGCCGTAATGATGATTATTGGAAGCGGGAAAGCCTGAAT -GGCGTCAAATCAAAATCGCTTTTTTTGTCTTGCGCAAAATCGGCAGCTATTTCCCCTAAAACTGACGCAAATTTAAAACC -GTGCCCACTCAGGCCGGTAATGAGCAGTGTATTATCGTGGCCGGGTAGGGTATCGATAATAAAATCTTCGTCAGGCGAAT -TATCATAGGTGCAGGCAGCGCCGTACAGGCAGCAACCGATACCCGGCAATACATTGCGCAAGAACGGGAAGGCTTCTGAC -CCATCACTGGCCACTTCCGCAAACGGAACACGTTCATCCGCTGAATGGATAACCTGGCCTCCGTTATGTTTGCCAATCTT -CAACGCGTCGTTTTCTGCCGGAAAACCATAATATTGATCGCCATTGGGCAGTTCACCGGTAAACGCCGGGAATTTATTCT -TCACGCTATAGCGGCCATCGGCCTGATACCAGGCAAATACTTTGCGTACGGGCTGGACAGGCAGCTCCGGGAGCAGGTCT -TTTACCCATGTTCCCGCGCAGACAATCGCTTTTTTCGCCTGATACTCACCGTCAGCCGTTTCAATAGTTACGCCATCATC -GTCATGACGAATTGCGGTGACCGGGCAGTTGAACAGTTGCGCACAGCCCGCTTCCTTCGCCAGTTGGATCCAGGTTTTAA -TCGCCAGTTCGCTGCGCAAAAAACCGGAATCAGTTTCAAATAAGCCGATGTAGTTGTCCGGGACGCGTATTTCCGGCCAG -CGGGCCATAATCCCTTGCGCATCGAGCTTTTCAACGTTGAGTTGCCATTGTTCGGCGCTGTGGGCGACGTTGGCGAGAAA -TGTGGAATCAGCCGGGCCAAGGTTAATGACGCCAGAGCGTACAAAAATGGGATCTTCTTCGTTGTGGCGGGAGAGTTCAT -CCCACAGCGTTTGCGCGCGGAGGACCAGCGGGACATACTTTTCGCCTTCACCATAAGCATGGCGAATTAATCGCGTATCG -CCGTGGTGGCTGCCGTGTTGATGCGGTGGCATATGGGCGTCGGTCATTAGCACGTTTAAACCGGCGCGGGTTGCATAATA -CCCGGCGGCAGCGCCTACGGAACCGCTGCCAATAATGATGAGATCGTATTTCATTTTTTTCTCTCTGCTCTCATGGTTTA -AGCAGAGTAATTAACTGAATGCAGATATACAACCCAGAAATGGTAAAGGCACCGGTGAGGTGCCTTTTGGGTGGATGGTC -ATGTCATGTTAATGACGCCGATACTCGTTTACCTGGAAATCACCGGATTCAATTTTGGCGATTCCTGCTTCTAATATCGA -AATAAATTGTCTGGCAACATCAGTGGTTAACCAGAGCGTCTGACCAACTTCAGTCCCTTCCTGCTCGGACTTATTTGGGG -TCTGGTAGTGCAAACGCAACATCAGCGCATCATAGCTATCAACGGTGCTGATGTCCCACCCTACGAGCGGATGAGTCTGA -ATGACTTCATTATTTTTTTCCATCATGGCCCCCTAATTCGTGTTACTAGACAACGTTATTCGAGGTTCAATGCGTTTTTA -TCTGAAGCAACTTCAGTATACCAATAAGTAAGGGTATTCACCGAATTTTTAAAGGGGGAAACAGATAAATTTCTGCTTTT -AAGATTTATATGAACAATAAAACAGCATGTCATTCATATTTTTTTAGCATATTGTGCAATTATTTTGAGGAAGTGTAGAA -ATTTTGTACTCAAAATTCGTAAGTAAAATAAAAAAGCCGGGGCGACCCGGCAAAAAAAATCACTGCATATTATTCGCTGA -CAAACCAGTCATCGGCGCTTTCCCACGTTTCCTGGAGAATTTCACTAATGCGCTGTTTATCTTCTTTTGTCGCGCCAATA -ACCGATAAATTATTCGCTGCGGCATAACGTACCGATACGTGGCCTTCATTATCAGGAAACGCATACTGAATACGGCGGGA -AAGTTCGCCAGCCAGGGCGTCAATAGCCCCAGCTGGCAATGGAGAAGTTTTCGCTATGGTGACTTCAATTCGCATAATAG -CCCCCTGTTGAATATACTGGTTATTTATACAGGTAAAATAACCTAATGACAACAGGAAGCTACGATTTTTATTGTTTAAC -GGACCAGCGTACCGTTTCCCCGGCGAGGAATGGCACCAGCGTGTCATCAGTCAGTGCGATGCTTTCAGCAACCTGTTGCT -CTTCACGTACCAGTTCGATGAATGTGTCGTTGACCGGCAACCCATAGAACTGCGGGCCGTTTACAGAACAGAATGCTTCA -AAGTGCTGCAAAGCATTCATTTCTTCAAAGACGGTAGCGTAACTGCCCAGCGCGGTTGGGGCGTTGAAGCAGCCCGCGCA -GCCGCAACTGCTCTCTTTGCGATGACGTGCATGTGGCGCAGAATCCGTACCGAGGAATACTCGATTAAAACCGCTGGCGA -CCAGTTCACGCAATGCCTGTTGGTGAATATTACGTTTGAGGATGGGTAGACAATACAGGTGCGGACGCACGCCTCCAACC -AGCATATGGTTGCGGTTAAACATCAGATGCTGCGGAGTGATGGTGGCAGCCAGCCGTTCATTTCCGTCACGGACATAGTC -GGCAGCATCTTTGGTGGTGATGTGCTCAAAAACGACTTTCAGCGCAGTCAGGCGCTGGCGCAGAGGTTCCATCACGCTTT -CTATAAAGCGCGCTTCACGATCAAAAATGTCGATATCTGCATGTGTCACTTCACCATGCACCAGTAGCGGCATACCGATT -TTTTCCATGCGCTCAAGTACCGGCATGATTGCGTCAATTGACGTCACGCCGTGGCTGGAGTTAGTGGTTGCGTTTGCCGG -GTAAAGTTTTGCAGCGGTGAACACGCCTTCGTTAAATCCGCGCTCCAGCTCATTAGGATCCAGCGAATCTGTTAAATAAC -AGGTCATCAATGGGGTGAAATCGTGCCCGGCAGGTACGGCGTCAAGAATACGCTGGCGATACGCCACGGCAGCCTCAACG -GTGGTCACGGGCGGAGCCAGATTGGGCATTACGATAGCCCGTCCATAAATTTCGCTGGTATATGGCACGACAGTTTTTAA -CATGTCGCCATCGCGGAGGTGAAGGTGCCAGTCGTCTGGGCGGCGGATCTTTAATACCTGGGATGGTGCAGTCATTAATC -TCTATGCTCCGGCTGAAGGGATGTTTTTGCCGGACACAAAGGATAAGCGGAAACGTTTTCCTTTGCACGAAAAATAAAGG -GCGCGAATGCGCCCTCGTGATTAATCAGTAAATGGAATGACAATTTCGCCTGGCTTCACTTCAATGCCTTTCGCCAGTTT -TTTCGCCATTGCTTCGCCCTGGCTGCCATCTTCGCGCAGGACGTAAGCAGGTTGCTGGTTAAAGTAATTGCGTAATGCCT -GGTTCAAATAGGGAAGCAACGTTTGCATCACCGTTTGCATTTTTTCCGGTTGTACCGTCGCATCGACCACTTCCATCTCT -TTCAGGAAGATCGCACCTTTTTCTTTATCAAACACGGGCAGCGCTTTCAGCTTCAGTTTCATGGTCGCTTTCTGACTACC -GAACAGGGAGTTCATGTCCAGATTGGCGTCTCCGGTTAGGGTAACCTTATTCGGCTCTTCGCGACCAATTTGGCTGGTCA -GGTTTGTCAGAACAATATGGGCGTCAGCCACGCCGGGTAAACCGATATCTTTTGAGAAATTATTATGTTTCGCAAGCGAC -TGGTTAATTTCTTGTTCGGTGATGGTGTATTGGGTGAGTTGATTACAGCCAACGAGCAGGCCACTGACGATCAATGCAGC -GGCAAATAAAAACTTGTTCATGGTAGTCCTCGACATGAAATCTGCGTCAATATCCTGACACAACGCAGCATGTGTCACCA -GCGATAAACTCGCCAGCAGAAAAAACTGAAAACGGCGGCAACCCGCGAATACAGGCTGCCGCGGCGGGTCAGGATTAAAT -CGCCATTGATGATAACAAATTGATTTGTGTCTGTTTCGCCATATTATCGCGGTAATCAGCAACGCGGCTTGGCCAGTTAA -TTCCGGCTACCAGCGTCAGATTACGCAGTAGCGGGAATAGCTGAATATCATCTTCCGAAAGTTTGCCATTCACGGCGTTC -GGTTTGACGATCAGTTTGTCCAGCGCACGTAAATCATCGCTGATATTCTTAATCAGACCGTCAGAGTGGGCCAGCAGGTC -GGCAAAATTACCCGCGCTGGCCTCTTTCTTGTCGACGAAATATTTGCGCGCGGCGGGAGTAGAAAACTCATCAAATGCCG -ATTTGGCAAAACGCGGCAACAGCAGTTTGTTGGCGTAGCCATTGACCTTGCGCAGCCACTCTTCAATGGCAGGGGAACGT -TTGCCGGTCAGTAACGGTTTGCCGTCGAGTTTATCGACATAGTGAACGATGTCCATGCTTTCTGGCATATAGCGGCTGTC -ATCTTTTTGCAGAATGGGAACCTGTTTTTGACCGACCATCCGGGTGGGTGTTTCTGCGTCGTCGTTGAGCAGAACATGTA -ATTCGACGGGGATATTTTTCAGGCCGAAAATCATGCGGGCTTTGAGGCAGTAAGGGCAGTGATCGTAAATGTATAGCTTC -ACGTGACTCCTCCATTTGGCTGTCAGTTCACTTTCAGTATGAAGGAGTCAGGGGGGAGTATCAAATCAGGCGTCGCGTTC -AAGCAAACGACGCGCGGCGCGTTTCTGGCTAAACTGCCAACCCAGCGCAAGGAAAGTGAAGATGCCAATAATGCCCAGCA -TCATCCACGGAAGCTCTGGCTGGTGCGCCGATTTGCCCAGGTCAAACAGCCAGCCGCCACCGATATAACCAATAGCGCCG -CCAATCGCCAGACCCAGACGGCTAAACCCCATATAGCTGCCGCGAGCTCTTGCGTCCGCCAGCGAAGCACTTAAGGTTTC -ACGCGCAGGCTCGGCAATGATCGACCCGATATAAAACAGACAAATCAGGGTGAAAAGTTGTTGCAGGCCGCTGACCATGC -CCACCGGCATCATGCTTAATGACATTATCAACAGCCCAGCCATCAACCGGTGTTCCAGACGAAAATGCTTTTCACTCCAG -CGGGCGATAGGGTAGAGCAACGTTAACGACAGACACGCTTCAATGGCATACATCCATTTAACGGCAGAGGGCGCGCCAGC -CACGTCGTTGACCATAATTGGCAGCATCAGCATCACTTGTACAGCCAGCATGTAGTAACCCGCCAGCGTCAGAACATAGG -TGACAAAACGCTTGTCACGCATCACGCGGGTCATGCCTTCGCGAACGGGCGTGCGTACGGTGGAGAGTTTCCATGCTGGT -AACAACCACGCATTGAACGCCGCACATAGCACAAATAGAACTGCCCCTGTGGCGCAGACCAGGCGAAAGTCGTATTGCAA -CAGCCAGCTCCCCAACAATGCGCCAATGACCGCACCGGCACTGTCCTGCATCATCAACAGCGAGAAAAAACGACCACGCT -GCTGTGGACGGATTAATTTCACCACCAGCGCCGAACGCGGCGGATCAAACAACGTGCCACCGAGTCCCGAGAGCAGGCAT -GAAAACCACAATAGCCACGGTTCGTGGGCGATACCCATTGTGGCGAATCCGGCGGCGCGCATCAGCATACCGGTAACAAT -CATCGGTTTGGCACCAAAGCGGTCGGCAATTGCACCGCCGAAAATACCCAGACCTTGCTGAATAAATTGGCGTAGACCGA -GAGCAATACCGACCATGACGGCGGCCCAGCCCATTTGATCAACGAAGCGGATAGAGATCAGCGGGAAGACAACAAAGAAC -CCCAGCACGACCAGCATATTATCGATGAGCAGGAAATATTTACCCAGGTTCCTCGCCTGCGACACGCGGGACATTTCCCC -TCCCGGGAAATAAAAGATGAGCACTTTCTATTCTGCATTGCCGCTAAGACTTTTCCCATCACTTCGGGGACAATATTTTT -TTATCAAAACGTCGCTTTGATAGAGAGTTTTTATCAAATATGTGAATAATGCAGAAAATGGCATTTTGGACTTTTCACAG -GGTCTGGTTGCGCAGGTATAGTAATACTTACAGCGTATTAAAGACGTTACGGGAAGGAGTAGGTATAGAATGTTTGGCTA -TCGCAGTAACGTGCCAAAAGTGCGCTTAACCACAGACCGACTGGTCGTGCGTCTGGTGCATGATCGTGATGCCTGGCGTC -TTGCGGATTATTACGCAGAGAATCGCCATTTCCTCAAGCCCTGGGAGCCAGTGCGCGACGAAAGCCACTGTTATCCATCA -GGCTGGCAGGCCAGGCTGGGGATGATTAACGAATTTCATAAACAAGGTTCAGCTTTCTACTTTGGCTTATTCGACCCGGA -CGAAAAAGAGATTATTGGCGTTGCCAATTTTTCCAATGTTGTTCGTGGCTCTTTTCATGCCTGCTATCTCGGTTATTCGA -TTGGGCAAAAATGGCAGGGCAAAGGACTCATGTTTGAAGCCCTGACCGCAGCCATTCGTTATATGCAGCGCACCCAACAT -ATTCATCGCATTATGGCTAATTATATGCCGCACAATAAACGCAGCGGTGATTTACTGGCGCGACTGGGTTTTGAAAAAGA -AGGCTATGCGAAAGACTATCTGTTGATTGATGGACAATGGCGCGATCACGTACTGACGGCATTAACTACCCCAGACTGGA -CGCCCGGCCGCTAAGGAGAATCTCATGAAATATCAACTTACTGCCCTTGAAGCTCGCGTGATTGGTTGCTTGCTGGAAAA -GCAGGTGACCACGCCGGAGCAATACCCGCTCTCAGTCAATGGTGTAGTCACGGCCTGTAATCAGAAAACGAACCGTGAAC -CGGTCATGAATCTGAGTGAATCCGAAGTGCAGGAACAGCTGGATAATCTGGTCAAACGTCATTATCTACGCACAGTGAGC -GGTTTTGGTAATCGGGTCACCAAATATGAGCAACGTTTTTGTAATTCAGAATTTGGCGATCTGAAACTGAGCGCAGCGGA -AGTGGCGTTAATCACCACGTTGTTATTGCGTGGTGCCCAGACGCCAGGTGAACTGCGCAGCCGCGCCGCGCGAATGTATG -AATTCAGCGATATGGCGGAAGTGGAGTCGACGCTGGAACAACTGGCAAATCGCGAAGATGGTCCTTTTGTGGTGCGTCTG -GCCCGCGAACCGGGTAAACGCGAAAACCGCTACATGCATCTTTTCAGTGGTGAGGTTGAAGATCAGCCGGCGGTGACGGA -TATGTCGAACGCGGTTGACGGTGATTTACAGGCCCGCGTCGAAGCCCTGGAAATCGAAGTGGCAGAACTGAAACAGCGTC -TTGATTCGTTGCTGGCCCATCTGGGAGATTAAAGTGAAAAAATTACGTATCGGCGTAGTGGGATTAGGTGGCATTGCGCA -AAAAGCGTGGTTACCGGTGCTGGCGGCAGCGTCTGACTGGACGTTACAAGGAGCCTGGTCGCCTACGCGCGCGAAAGCCC -TGCCAATTTGTGAAAGCTGGCGCATTCCTTATGCCGATTCGTTATCCAGCCTTGCCGCCAGTTGCGATGCGGTTTTTGTG -CATTCCAGCACCGCCAGCCACTTTGACGTGGTCAGTACGTTACTCAATGCGGGGGTACATGTCTGTGTCGATAAACCGCT -GGCAGAAAATCTGCGCGATGCTGAACGGCTGGTGGAACTGGCGGCGCGGAAAAAACTGACGTTGATGGTCGGTTTTAACC -GTCGTTTCGCACCACTCTACGGTGAGTTAAAAACGCAACTCGCCACCGCAGCCTCGCTAAGAATGGATAAACATCGTAGC -AATAGCGTCGGGCCACACGATCTTTATTTCACGTTGCTGGATGATTATCTGCATGTGGTGGATACCGCGCTGTGGTTGTC -GGGCGGCAAAGCCTCTCTGGATGGCGGTACGCTACTGACTAACGACGCTGGCGAAATGCTGTTTGCCGAGCACCATTTTT -CGGCTGGTCCTTTGCAGATCACCACCTGTATGCATCGCCGTGCCGGAAGTCAGCGTGAAACCGTGCAGGCCGTGACTGAC -GGTGCGCTCATCGACATTACGGATATGCGCGAATGGCGTGAGGAGCGCGGGCAGGGCGTAGTGCATAAACCGATTCCTGG -TTGGCAGAGTACGCTTGAGCAACGTGGGTTTGTCGGCTGTGCGCGGCACTTCATTGAATGTGTGCAAAACCAGACAGTTC -CGCAAACCGCCGGCGAACAGGCCGTGCTGGCGCAACGTATCGTTGACAAGATCTGGCGCGATGCGATGAGTGAATAAACC -CTGTAACATCTGGCGGTAGCAATTCACCATAATCCAGGTAGACTATTCGCCTCTTTCAGCGCCTGCCTTGCAGGCGTTTT -GCCCGTGGGTCTGGATTAGAACACCGATGAATTTATTAAAATCGCTGGCCGCCGTCAGCTCGATGACCATGTTTTCGCGT -GTGCTTGGCTTCGCACGAGACGCAATTGTCGCCAGAATCTTTGGCGCAGGGATGGCAACCGACGCCTTTTTCGTCGCTTT -TAAACTTCCTAACTTGTTACGCCGTATCTTTGCCGAAGGGGCATTTTCCCAGGCATTTGTACCGATTCTGGCGGAATATA -AAAGTAAGCAGGGTGAAGACGCCACGCGGGTCTTTGTCTCTTATGTTTCTGGCCTGCTGACACTTGCGCTGGCGGTTGTG -ACGGTCGCTGGCATGCTCGCCGCACCGTGGGTGATCATGGTGACCGCGCCAGGCTTCGCTGACACAGCTGACAAATTTGC -CCTGACCAGCCAGCTACTAAAGATTACCTTTCCCTATATCTTGCTGATCTCCCTGGCGTCGCTGGTGGGAGCGATTCTGA -ATACGTGGAACCGCTTCTCGATTCCGGCGTTTGCTCCAACACTGCTTAACATCAGCATGATTGGTTTCGCGCTGTTTGCC -GCACCGTACTTTAACCCACCGGTGCTGGCGCTGGCGTGGGCTGTTACGGTCGGCGGCGTCCTGCAGCTGGTGTATCAGCT -ACCGCACCTGAAGAAGATCGGCATGCTGGTCCTGCCGCGCATTAACTTCCACGATGCCGGAGCAATGCGCGTGGTGAAAC -AGATGGGACCGGCGATCCTTGGCGTCTCTGTGAGCCAGATCTCCTTAATCATCAACACCATTTTTGCCTCGTTTCTTGCT -TCCGGTTCGGTGTCTTGGATGTATTACGCCGACCGCTTAATGGAGTTTCCGTCCGGTGTGCTGGGCGTGGCGCTTGGCAC -CATTTTGCTGCCGTCGCTGTCGAAAAGTTTTGCCAGTGGCAATCATGATGAATACAACCGTTTGATGGACTGGGGGTTGC -GTCTTTGTTTCCTGTTGGCGCTGCCGAGTGCGGTTGCGTTGGGCATTCTTTCCGGTCCGTTGACCGTTTCGCTGTTCCAG -TACGGTAAATTTACCGCGTTTGATGCGCTGATGACCCAGCGGGCGTTAATTGCCTACTCGGTGGGTTTGATTGGCCTGAT -TGTAGTGAAAGTGTTGGCTCCTGGCTTTTATTCCCGCCAGGACATTAAAACGCCAGTGAAAATTGCCATCGTTACGCTGA -TTTTAACGCAATTGATGAACCTGGCGTTTATTGGTCCGTTGAAACATGCCGGGCTGTCACTTTCTATTGGTCTGGCGGCG -TGTCTGAATGCTTCGCTGCTTTACTGGCAGTTGCGTAAGCAGAAAATCTTTACCCCGCAACCCGGCTGGATGGCGTTTCT -GTTGCGTCTGGTGGTGGCGGTACTGGTGATGTCTGGCGTGCTTTTAGGTATGTTACATATCATGCCGGAGTGGTCATTGG -GTACCATGCCCTGGCGTTTACTGCGTTTAATGGCGGTCGTGCTGGCGGGGATTGCCGCGTACTTCGCTGCACTGGCGGTA -CTGGGCTTCAAAGTTAAAGAATTTGCCCGCCGGACGGTGTAACAATGCATTCCGGCCTGCAGTGCAGGCCGGAGATAATC -TTCAGATCGAAATCTTTTTACCGCCGCGATGGGTTGTTGAGGTCTGACCGTTCGCCCCATATAGCGTCGGTTCCTGATGC -GGTTTCAACATTTCCAGCGCCTGTTGATTGCGCTCAATCTGTCCTTCCAGTAACCAGCCGTTATGTTGATTCATTTGGCG -TAGTTGCTGCGTTTTCACAGTAATTTCCTGCCAGCGTTGACTAATATCAACGCTATTTGCTGTATTGGGTTCTTTCCTGC -GTAACTGTTCGAGGTAATCCAGCGTCGCCAGCAGTGAGCTTTTTTGTTCTGTAATCCATTGCAACTGGCTGCCGTTGATC -TGCCCCATAGAGAGATGTTGCTGCTCTTGATCCATTACCGTTTTGAGATCGTTAAGCACAGCGGACATCTGGTCGAGGAT -CTCTGCAAGACGTGTCATACGATCAGTTACTCTGCAAGTCTTGCTGCGCTTCGTTGATCAGCGCATCGGCAATTTTGCCG -GTGTCCATTTTTAGTTCACCGTTACGAATCGCCAGTTTTAACGCTTCGACACGTTCAAGATTGATATCACTGCTGCCGGG -TTGCATCAGTTTTGCTTGCGCGTCGCTTAACGTCACACTGGTGCTGGTGGAGGCGGTTGTTTTTGCCGCCCGGCTGTTCG -TTACCGGCGCGTCAGTGGTTTCGCGCGGTTGAACGGTGCTTACAGGCTTCAGAGGCGAAGTGCGATCAATACTCATGGTT -TATTCCTCATTGAGGGCGCTTTTATCATGTGTTGCTTATTTATCGGCAAGGGACGGGTAATCTTTAACAGCTTACAGGTT -TATAAGAATATTCCCATCTGCATCAACAACGCCGCTGACTACCTGTCCCGATACCATGCGCACCCGCGCATTCTGTGCGA -CGGCTGCATTGTTCAGCGCCTGACCTTCTGCGTTGGCGCTAAACCCATCACCGCTGGCGATCACATTGACGCGTTGTCCC -GCTTTTACCCGCCATGCCTGGCGAAACTGGGTTAACTGGATAGGTTGATCGGGTGATAGATCGCGCAGGCTAATGGCATC -AACAAGTTGATTGATATCCAGCACCGTACGCGGTGGCAGGGTATCCAGCCGTCCGCGTTTCAGTTTGACATTGCCAGCTT -CCAGCTTTCCTCCCCGCGCAATGGGCATCGCGGCAACCACATAATTTCCTGTGGCCTGTACATTAACCTGTAAATATCGT -TTGTCGTTACCGCAGCGTGCCAACACATTCACATTGCCCCACAGGCGGGAATTATTGCTCATCGAAAGCAATGGCTGCTC -GCATGGCGGTAGTAGATTGGGCGCTGTACGAATAGAAACACGAACCTCATCACTTACCCCCGCGAGTTGGGCGCTAAAAA -AGTTGTGCAATTGCGATGTGAGATTGCTCGCCGTACTTAACGGACTGAACAGTATCGCGATGATCGCCACGCTACGTTTT -ATTATCAGCATTTTCGCCCCCAGCCATTTCTACAACGTGAATTGTACCTGTCCGCAATGACCATCAACGGCATAAATAGC -GACCCATTTTGCGTTTATTCCGCCGATAACGCGCGCGTAAAGGCATTTAAGCTGATGGCAGAATTTTGATACCTGCGGAG -GAGATATGCTCGATAAGCTCGACGCCGCCTTACGTTTTCAACAAGAGGCGCTCAATCTGCGCGCCCAGCGTCAGGAAGTG -CTGGCAGCAAACATCGCCAATGCCGATACCCCTGGTTATCAGGCGCGCGATATCGATTTTGCCAGTGAACTTAAAAAAGT -CATGCAACGTGGACGGGATGCAACCAGTGTGGTTGCACTGACGATGACCTCAACGCAACACATTCCGGCGCAGGCGCTGA -CGCCTCCTACCGCAGAACTGCAATACCGTATTCCGGACCAGCCTTCGCTTGACGGTAATACCGTCGATATGGATCGCGAA -CGCACCCAGTTTGCCGATAACAGCCTGCAATACCAGATGAGCCTTAGCGCGTTGAGCGGGCAAATCAAAGGCATGATGAA -CGTTTTACAGAGCGGAAATTAACGGATGGCACTGCTGAATATTTTTGATATCGCCGGGTCGGCGTTAACTGCCCAGTCCC -AGCGCCTGAACGTGGCGGCCAGTAATCTGGCGAATGCTGATAGCGTGACCGGTCCCGATGGACAGCCATATCGGGCAAAA -CAGGTGGTATTCCAGGTTAACGCTGCACCAGGTGCTGCGACAGGCGGCGTAAAGGTTGCCGATGTTATAGAAAGTCAGGC -CCCGGACAAACTGGTTTATGAACCGGGTAATCCGCTGGCAGATGCAAAGGGCTACGTAAAAATGCCGAACGTTGATGTTG -TCGGAGAGATGGTTAACACCATGTCGGCGTCACGCAGCTATCAGGCCAATGTTGAAGTGCTCAACACGGTGAAAAGCATG -ATGCTGAAAACCCTTACGCTCGGTCAATAAAGGAGAAAGCTATGTCCATTGCGGTAACCACCACCGATCCGACAAATACC -GGCGTCAGTACCACCAGCAGTAGTTCGCTCACGGGCAGCAACGCCGCAGATTTACAAAGCAGTTTTCTGACTTTGCTGGT -GGCGCAGCTGAAAAACCAGGACCCGACCAATCCAATGGAAAACAACGAGCTGACGTCGCAATTGGCACAAATCAGCACGG -TCAGCGGGATTGAAAAACTCAATACCACGCTCGGATCTATTTCCGGACAGATTGATAACAGCCAGTCGTTACAGGCCAGT -AACCTGATCGGTCACGGCGTGATGATCCCCGGCACCACTGTTCTTGCGGGAACCGGCAGTGAAGAAGGGGCTGTGACCAC -GACCACGCCGTTTGGTGTTGAGCTGCAACAGGCGGCAGACAAAGTTACGGCCACCATCACCGATAAAAATGGCGCGGTTG -TGCGCACCATTGATATTGGTGAACTGACCGCCGGAGTTCACAGTTTCACCTGGGACGGTACGTTGACTGATGGCAGCACT -GCGCCGAACGGTTCTTACAATGTAGCGATTAGCGCCAGTAACGGTGGTACACAACTGGTTGCCCAGCCGCTGCAGTTTGC -TCTGGTGCAGGGTGTGATCCGCGGCAACAGCGGTAATACGCTGGATCTCGGCACTTACGGCACCACCACCCTCGACGAAG -TACGGCAGATAATTTAAGCCTTCACATTTCAGGAGTCAGTCATGGCCTTTTCTCAAGCGGTTAGCGGATTAAACGCTGCC -GCCACCAACCTCGATGTTATTGGCAACAATATCGCCAACTCCGCCACCTACGGCTTTAAATCAGGCACGGCCTCTTTTGC -CGATATGTTTGCCGGTTCGAAAGTGGGACTGGGGGTAAAAGTTGCCGGTATCACTCAGGACTTTACCGATGGCACGACCA -CCAACACCGGGCGAGGTCTGGACGTTGCTATCAGCCAGAACGGTTTTTTCCGTCTGGTAGACAGCAACGGTTCGGTGTTC -TACAGCCGTAACGGACAATTTAAGCTGGATGAAAACCGTAACCTGGTGAATATGCAAGGTTTACAGCTGACGGGTTACCC -GGCAACCGGTACGCCGCCGACTATTCAGCAAGGGGCGAATCCGACCAATATTTCGATCCCGAATACCCTGATGGCAGCGA -AAACTACCACCACGGCATCGATGCAGATCAACCTGAATTCCAGTGATCCGCTTCCTACTGTTACGCCATTCAGCGCCAGC -AATGCGGATAGCTATAACAAAAAAGGTTCGGTGACTGTTTTCGACAGTCAGGGTAATGCTCATGACATGAGCGTCTACTT -TGTGAAGACCGGGGATAATAACTGGCAGGTCTACACCCAGGATAGCAGTGATCCAAACAGCATTGCGAAGACAGCGACAA -CACTGGAATTTAATGCTAATGGCACATTAGTGGATGGTGCGATGGCGAATAATATCGCAACCGGCGCAATTAACGGTGCA -GAACCCGCCACGTTTAGTCTGAGCTTCCTCAACTCCATGCAGCAAAATACCGGCGCTAACAATATTGTGGCAACCACCCA -GAACGGCTACAAACCGGGCGATCTGGTGAGTTATCAAATCAATGATGACGGTACGGTTGTCGGCAACTATTCCAACGAAC -AAACCCAACTGCTGGGGCAGATTGTACTGGCGAACTTTGCCAACAACGAAGGTCTGGCATCCGAAGGCGACAACGTCTGG -TCTGCGACGCAATCTTCTGGCGTGGCGCTGTTGGGGACAGCCGGGACGGGAAACTTTGGCACCCTGACCAACGGTGCGCT -GGAAGCGTCCAACGTCGATCTCAGTAAAGAACTGGTCAATATGATCGTTGCCCAGCGTAACTATCAGTCTAACGCCCAGA -CCATCAAAACCCAGGACCAGATCCTCAACACGCTGGTTAACTTACGCTAATCGCTGACGGGATAGCTCAATGGATCACGC -AATTTATACCGCGATGGGAGCAGCCAGCCAGACACTGAATCAACAGGCGGTAACCGCCAGTAATCTGGCCAATGCCTCAA -CGCCCGGTTTTCGCGCGCAGTTGAATGCTTTACGCGCGGTGCCAGTGGAAGGGCTTTCTCTGCCCACGCGCACGTTGGTC -ACGGCGTCAACGCCGGGCGCAGATATGACGCCCGGCAAAATGGATTACACCTCGCGCCCGCTGGACGTCGCGTTGCAGCA -GGATGGCTGGCTGGCCGTGCAGACCGCTGACGGCAGCGAAGGGTATACGCGTAATGGCAGCATTCAGGTTGATCCCACCG -GGCAACTGACAATTCAGGGGCATCCGGTGATAGGCGAGGCTGGGCCAATTGCTGTGCCGGAAGGGGCGGAAATCACTATT -GCTGCCGATGGCACAATCTCGGCGCTCAATCCGGGCGATCCGGCAAATACGGTTGCGCCAGTAGGGCGTCTTAAACTGGT -GAAAGCCACGGGCAGCGAAGTGCAGCGCGGTGACGACGGCATTTTTCGTTTAAGCGCAGAAACCCAGGCCACGCGTGGGC -CGGTACTGCAGGCAGATCCAACCTTGCGTGTGATGTCGGGGGTTCTGGAAGGCAGTAACGTCAATGCCGTTGCGGCAATG -AGCGACATGATTGCCAGCGCGCGGCGTTTTGAAATGCAGATGAAGGTGATCAGCAGCGTCGATGATAACGCAGGCCGTGC -CAACCAACTGCTGTCGATGAGTTAATTGAAAGGATACATGACAAGTATAAGTTGCCCGATGCGCAAGTTTATCGGGTCTA -TGGGGGCAATCGCAATTTATCGATTTTGCGAGCACTTGTAGGCCGGATAAGGCGTTTACGCCGCATCCGGCAAGAAGACA -TATGCACTTTGTCACTAATCCACTACAGGACATTTTATGATCAGTTCATTATGGATCGCCAAAACGGGCCTTGACGCCCA -GCAAACCAATATGGACGTCATTGCCAACAACCTGGCAAACGTCAGTACTAACGGTTTTAAGCGTCAGCGCGCGGTGTTTG -AAGATCTGCTTTATCAAACCATTCGCCAGCCGGGGGCACAGTCTTCCGAACAAACCACCTTACCCTCCGGATTACAAATC -GGCACGGGGGTACGCCCGGTCGCCACTGAACGCTTACACAGCCAGGGAAACCTGTCGCAGACCAACAACAGCAAAGATGT -CGCGATTAAAGGGCAGGGCTTTTTCCAGGTGATGTTGCCAGATGGTTCATCAGCCTATACCCGTGACGGCTCTTTCCAGG -TGGATCAGAACGGGCAGCTGGTGACGGCTGGTGGTTTTCAGGTGCAGCCAGCGATCACCATTCCGGCGAATGCGTTAAGT -ATCACCATCGGTCGTGATGGCGTGGTCAGCGTAACCCAACAAGGCCAGGCAGCTCCGGTTCAGGTTGGGCAGCTCAATCT -CACCACCTTTATGAATGACACCGGGCTGGAGAGCATTGGCGAAAACCTCTACACCGAAACGCAATCCTCTGGTGCACCGA -ACGAAAGCACGCCGGGCCTGAACGGCGCGGGACTGCTGTATCAAGGGTATGTTGAAACGTCTAACGTCAACGTGGCGGAA -GAACTGGTCAATATGATTCAGGTGCAACGCGCTTACGAAATCAACAGTAAAGCGGTGTCCACCACCGATCAGATGCTGCA -AAAACTGACGCAACTCTAAGGCTTAACCGGTGGCAGGTTCACCGGTTTACTGATTTTTGAAGATGATAGCCATGCAAAAA -AACGCTGCGCATACTTATGCCATTTCCAGCTTGTTGGTGCTTTCACTAACCGGCTGCGCCTGGATACCCTCCACGCCGCT -GGTGCAGGGGGCGACCAGTGCACAACCGGTTCCCGGTCCGACGCCCGTCGCCAACGGTTCTATTTTCCAGTCTGCTCAGC -CGATTAACTATGGCTATCAACCGCTGTTTGAAGATCGTCGACCACGCAATATTGGCGATACGCTGACCATCGTGTTGCAG -GAGAACGTCAGCGCCAGCAAAAGCTCCTCTGCGAATGCCAGCCGTGACGGTAAAACTAATTTTGGCTTTGATACTGTGCC -GCGCTATTTGCAGGGGCTGTTTGGTAACGCTCGTGCCGATGTCGAAGCCTCCGGTGGTAACACGTTCAACGGAAAGGGCG -GGGCCAATGCCAGCAATACCTTTAGCGGCACGTTGACGGTGACGGTTGACCAGGTACTGGTCAACGGCAACCTGCATGTG -GTGGGTGAAAAACAGATTGCCATTAATCAGGGTACCGAATTTATTCGCTTCTCTGGCGTGGTTAATCCACGCACTATCAG -CGGCAGCAATACCGTACCGTCTACTCAGGTGGCGGATGCGCGCATTGAATACGTAGGCAATGGCTACATTAACGAAGCGC -AAAATATGGGCTGGTTGCAGCGTTTCTTCCTTAACCTGTCGCCAATGTAAGTGAGGCTGTGGTGATTAAATTTCTCTCTG -CATTAATTCTTCTACTGGTCACGACGGCGGCTCAGGCTGAGCGTATTCGCGATCTCACCAGTGTTCAGGGGGTAAGGCAA -AACTCACTGATTGGCTATGGTCTGGTGGTGGGGCTGGATGGCACCGGTGACCAGACAACCCAGACGCCGTTTACCACACA -AACGCTTAATAACATGCTCTCACAGCTGGGAATTACCGTTCCGACGGGCACCAATATGCAGCTAAAAAACGTCGCTGCGG -TAATGGTGACAGCGTCACTTCCTCCGTTTGGACGTCAGGGGCAAACCATCGATGTGGTGGTTTCTTCCATGGGAAATGCC -AAAAGCTTGCGTGGAGGTACGTTGTTGATGACACCGCTTAAGGGCGTTGACAGTCAGGTGTATGCGCTGGCGCAGGGCAA -TATTCTGGTTGGCGGCGCAGGAGCCTCCGCTGGCGGTAGCAGTGTTCAGGTTAACCAACTGAACGGTGGACGGATCACCA -ATGGTGCGGTTATTGAACGTGAATTGCCCAGCCAGTTTGGCGTCGGGAATACCCTTAATTTGCAACTTAACGACGAAGAT -TTCAGCATGGCGCAGCAAATCGCTGACACCATCAACCGCGTGCGTGGATATGGCAGCGCCACCGCGTTAGATGCGCGGAC -TATTCAGGTGCGCGTACCGAGTGGCAACAGTTCCCAGGTCCGCTTCCTTGCCGATATTCAGAATATGCAGGTTAATGTCA -CCCCGCAGGACGCTAAAGTAGTGATTAACTCGCGCACCGGTTCGGTGGTGATGAATCGCGAAGTGACCCTCGACAGCTGC -GCGGTAGCGCAGGGGAATCTCTCAGTAACAGTTAATCGTCAGGCCAATGTCAGCCAGCCAGATACACCGTTTGGTGGTGG -ACAGACTGTGGTTACTCCACAAACGCAGATCGATTTACGCCAGAGCGGCGGTTCGCTGCAAAGCGTACGTTCCAGCGCCA -GCCTCAATAACGTGGTGCGCGCGCTCAATGCGCTGGGCGCTACGCCGATGGATCTGATGTCCATACTGCAATCAATGCAA -AGTGCGGGATGTCTGCGGGCAAAACTGGAAATCATCTGATGATCAGCGACAGCAAACTACTGGCAAGTGCGGCCTGGGAT -GCGCAATCACTCAACGAACTAAAGGCGAAAGCGGGCGAAGATCCGGCGGCAAATATCCGTCCGGTGGCCCGTCAGGTGGA -AGGGATGTTCGTGCAGATGATGTTGAAAAGCATGCGCGACGCTTTACCAAAAGATGGCCTGTTCAGCAGCGAGCACACTC -GCCTGTATACCAGTATGTATGACCAGCAGATTGCCCAACAGATGACGGCGGGCAAAGGTCTGGGGCTTGCAGAGATGATG -GTTAAACAGATGACGCCAGAACAACCATTGCCAGAGGAGTCCACGCCAGCAGCACCGATGAAATTCCCGCTCGAAACTGT -GGTGCGTTATCAAAATCAGGCGCTTTCGCAGCTGGTGCAAAAGGCCGTGCCACGTAACTACGATGATTCGCTGCCGGGTG -ACAGTAAAGCATTCCTCGCGCAACTCTCGCTGCCCGCCCAACTGGCAAGCCAGCAAAGCGGTGTGCCACATCATTTGATC -CTCGCTCAGGCGGCACTGGAATCTGGTTGGGGGCAACGGCAAATCCGCCGCGAAAACGGCGAGCCGAGCTATAACCTGTT -TGGTGTCAAAGCCTCTGGCAACTGGAAAGGGCCAGTTACTGAAATCACCACGACTGAATATGAAAACGGCGAAGCGAAGA -AAGTAAAAGCGAAGTTTCGCGTCTACAGCTCGTATCTGGAAGCCTTGTCGGATTACGTTGGGCTGTTAACGCGTAACCCG -CGCTACGCCGCCGTGACGACCGCCGCGAGTGCGGAACAGGGGGCGCAGGCCCTACAGGACGCGGGCTATGCCACCGATCC -TCACTATGCCCGCAAACTCACCAACATGATTCAGCAGATGAAATCGATAAGCGACAAGGTGAGCAAAACCTACAGTATGA -ACATTGATAATCTGTTCTGAATAACTCAAGTCCGGCGGGTCGCTGCCGATAATACTCTGTAATTGAAGGCTTATAAGGAA -CCTCCATGTCCAGCTTGATTAATAACGCCATGAGCGGACTGAACGCGGCCCAGGCGGCGTTAAATACGGCAAGTAATAAT -ATCTCCAGCTATAACGTTGCCGGATATACCCGCCAAACCACTATTATGGCGCAGGCCAATAGCACGTTGGGCGCTGGCGG -CTGGGTTGGCAATGGTGTCTACGTTTCTGGTGTGCAGCGTGAGTATGATGCGTTTATTACCAACCAGTTACGTGCGGCGC -AGACGCAAAGTAGCGGTCTGACTGCCCGCTATGAGCAGATGTCGAAAATCGACAATATGCTCTCCACCAGTACCTCTTCG -CTGGCAACACAGATGCAGGATTTCTTCACCAGCCTGCAAACGCTGGTGAGTAACGCGGAAGACCCGGCAGCGCGCCAGGC -GCTGATTGGGAAATCAGAAGGATTGGTGAATCAGTTTAAAACCACCGATCAATATCTGCGCGACCAGGACAAACAGGTCA -ATATCGCGATAGGTGCCAGCGTTGATCAGATCAACAACTACGCTAAACAAATTGCCAGCCTGAACGATCAAATCTCGCGC -CTGACAGGCGTGGGGGCAGGGGCGTCACCTAACAATCTGCTGGATCAACGCGATCAACTGGTGAGCGAATTAAACCAGAT -TGTTGGTGTAGAAGTCAGCGTTCAGGATGGCGGCACTTATAACATCACGATGGCCAATGGTTACTCACTGGTTCAGGGAA -GTACGGCGCGGCAACTGGCGGCAGTTCCTTCCAGCGCTGACCCTTCTCGTACGACTGTCGCTTATGTTGATGGGACGGCA -GGCAATATTGAGATCCCGGAGAAATTACTGAATACCGGGTCGCTGGGCGGCATTCTGACATTCCGTTCTCAGGATCTGGA -CCAGACGCGTAATACGCTTGGACAACTGGCGCTGGCATTTGCCGAGGCTTTCAACACCCAACACAAAGCCGGATTTGATG -CTAACGGCGATGCCGGTGAAGATTTCTTTGCTATCGGTAAGCCCGCGGTTCTGCAAAACACGAAAAACAAAGGTGACGTT -GCGATCGGTGCCACGGTAACTGATGCCTCCGCGGTACTGGCGACAGATTACAAAATCTCGTTCGATAATAATCAGTGGCA -GGTCACCCGCCTTGCCAGCAATACCACTTTTACGGTGACGCCGGATGCCAACGGTAAAGTGGCATTTGATGGTCTGGAGT -TGACGTTTACAGGAACGCCTGCCGTTAACGACAGCTTCACGCTGAAACCAGTAAGTGACGCCATCGTCAACATGGATGTA -TTAATCACCGACGAAGCGAAAATAGCGATGGCGAGCGAAGAAGATGCGGGTGATAGCGATAACCGCAACGGTCAGGCCCT -GCTGGATCTGCAAAGCAACAGTAAAACGGTGGGCGGTGCGAAATCCTTTAACGACGCTTATGCCTCGTTAGTGAGTGATA -TCGGTAATAAAACCGCGACGTTGAAAACCAGTAGCGCCACGCAAGGTAATGTGGTGACGCAGCTTTCCAATCAGCAGCAG -TCGATTTCCGGTGTCAATCTCGATGAGGAGTACGGAAATCTGCAACGTTTTCAGCAGTATTACCTGGCGAATGCGCAGGT -TCTGCAGACGGCAAACGCGATTTTTGATGCGCTGATTAACATTCGCTAAGGGGAGATAAGATGCGTTTCAGTACACAGAT -GATGTACCAGCAAAACATGCGTGGTATCACCAATTCTCAGGCAGAATGGATGAAGTACGGCGAACAGATGTCGACGGGTA -AGCGAGTCGTTAACCCTTCTGACGATCCCATTGCTGCATCACAAGCCGTAGTTCTCTCCCAGGCACAGGCGCAAAACAGC -CAGTACACGCTGGCGCGTACTTTCGCCACTCAAAAAGTGTCACTGGAAGAGAGTGTACTTAGCCAGGTCACCACTGCTAT -CCAGAATGCTCAGGAAAAAATTGTCTACGCCAGCAATGGCACCTTGAGTGACGATGACCGGGCCTCGCTGGCTACGGATA -TTCAGGGGCTTCGTGACCAGTTGCTGAATCTGGCAAACACCACTGACGGTAACGGGCGCTACATTTTTGCCGGTTATAAA -ACAGAGACTGCGCCGTTTAGCGAAGAGAAAGGGAAATACGTCGGTGGAGCAGAAAGTATTAAACAACAGGTCGATGCTTC -GCGTTCGATGGTGATAGGGCACACGGGTGACAAAATTTTCGACAGTATTACCAGCAACGCGGTAGCGGAACCAGACGGTA -GCGCTTCTGAAACCAATCTTTTTGCCATGCTGGATAGTGCCATCGCAGCCCTGAAAACGCCGGTCGCGGATAGCGAAGCG -GATAAAGAAACCGCCGCTGCGGCGTTAGATAAAACCAACCGCGGACTGAAAAACTCGCTGAACAATGTGCTGACTGTTCG -CGCGGAATTAGGCACGCAGCTGAACGAACTGGAGTCGCTGGATTCATTAGGTAGCGATCGCGCTTTAGGGCAAACGCAGC -AGATGAGCGATCTGGTTGATGTGGACTGGAATGCAACTATTTCATCTTACATCATGCAGCAAACGGCATTGCAGGCATCG -TATAAAGCATTTACCGATATGCAGGGATTGTCGCTCTTCCAGCTCAGCAAATAATTTCGCTTTAAAACATATCATGAAAC -TGGGTATGTTTTGTCTGCCTGCTCTGGGATCGCTGGGGCGGGCATTTTTTTGCCTATTTTGCATTGTTGGTTAGCAAGGA -TGCCATTCGATGAATTTTAATATGTTGATTCAAAGATGAAATAAAAAAGCCCTGGCAGTTACCAGGGCTTGATTACTTTG -AGCTAATTATTACTCAACAGGTTGCGGACGCGCAGGAGCGGCAGAGGCATGATGTGTTGCCGTATGACCACCTGCGGCAC -CTTTACCTTCGAAGGCAAAAGTAGGGCGCTGCCAGTCACTGTGACGCGGTGCCTCCGGAACATATTCCGGTGCTGGAGCG -CGCGTCATTGGCGCGGTAGCGTGGTTATGCTCAACGGTGACCTCAGGTTCGACCGCAGCTACCGTTTCAACTTCTGCTGC -GACTTCAGCGACTACTGGCGCGGCAGGTTGAGCAACAACTTCAGGTTCAGCAACTACAACCTCAGCAGTTTCGACAACTT -CTTCAATATCTGCCGTCTCTTCCTGCGGTTCAACCACCGGTTCTGCTTGTTCTGCAACTTCCTGGGCTACGGCAACATCA -GACTCGGTAATCACCTGCGGCTGTTCAGTTACCGCGGCAGCGATCACTTCAGGATGCGTCGTTTCAACCACTTCCGGTTG -CGGTTCGGCAACCTGAACGGGGGCTTCTACGACACCGGCCACTTCTTCAACAACTGGCGCGCTAACAACCGGTTCGATAG -CGGCGGCGACAGGGACCTCAGTCACCATCGGCTGCACATGTACTTCTTCCTGTTCGCGCTGCTCTTCAACCTGTACATCT -TGCGGACGTACAATTGGATAGCGGATCCAGACTTTGCCAGAGGCCAGTTCCGGAGACGCGCACGCTACGGTCAACGGCAT -TGGCGACTGGGTTGGATAACGCTCGTCACGATAGCGACGACGACGCTGACCACTTACGCGCAGGTGACGAGGCGAGCGGC -GAGAACGACGCGGCATGCCACCGTTGTCACGGTTATCAGCATTGTTCTCTTCTTGCTGTTCTGGTGCAGTTTGCGCTACG -ACTGGCAGCGGGACTTTCACCAGTTCTGTGCGTGGAGCTGGCGCTTCCTGAACAATTGGTTCGGCAGCGACAGTTTCTTC -AACCACCGGTGCGACTACCGCTTCTTCGGCTACGCTTTGCTCGTAACGCACTTTCTGATTGAGCTGACGCTGTTTACGAC -GCGGCTGAACCGGACGTACACGTTCTTCCTGTTCGGTTTCCTGAACAGATTGCTCTTCAACATTCAGCGCCTTCGCTTCT -TGTTGCGCCTGACGTTTATCATCATTACGGCGGCGGCTACGTTCACGACGCGGCGCTTGCTGCTCGTCGGCGGTACGCGC -TTTTTCCGTTACCTCAGCCTGCTGACGGCTCTCACGCGTCTCGGCAGTCTGCTGCTGTGCCTGGCGACGATTACGACGGT -TTTCTTCGCGATTATCGCTGCCTTCAGTACGTTCACTACGGGTGTCGCGGCGCTCATTACGGTCACGGCGGTTGTTCTGA -CGAGGCTTGCGACGATCCTGTTGACGTTCCGGTTTCGCTTCTGCTTTCGGTGCTGGTTGCTCGGTCGGTTTGGTTTCTTC -ACCACCGCTGAACAGCGCTTTCAGTGCGCCGAAGAAGCGGCTCAACAGCCCAGGTTGTGCAGGAGCTGCTGGTGTTGCCG -GTGCAGCTTTCGGTGCTGGAGCTACAACAGGCGCGGCAGGTTCAGCTGGCGTTGGCGCAGGCGGCACATCCGGCATGGCA -AAGGTTGCCAGCGCAGGTTGTTCCGGACGCTTACGTTCAGCGAACTCTTCTTCAGACGGCAGCGCCATCGCTTCTTCATG -CAGCTTCGGCAGCATGTAGCTTAAGGTTGGGGTTTCTTCCCCTTTACGCACGCGCAGCACGTGGTAGTGCGGGGTTTCCA -TCTGATCGTTTGGCACAATTACACAGCGCACACCGTCCTGACGAGTTTCAATGGCATTTACCGCAGAACGTTTTTCATTC -AGCAGGTAAGAAGCGATTGGCACAGGAACAATGGCGTGAACTTCCTGGGTGTTCTCTTTCAGCGCTTCTTCTTCGATCAG -ACGCAGAATAGAGAGCGACAGCGATTCGTTGTCACGCACGGTGCCAGTACCAGAACAACGCGGACAAACGTGATGACTGG -ATTCACCCAGTGATGGGCTCAGGCGCTGACGGGACATTTCCAGCAGGCCAAAGCGAGAAATATGGCTGATTTGAATACGC -GCACGGTCCTGACGCACCGCTTCACGCAGACGGTTTTCTACCGCACGCTGGTGGCGTACTGGCGTCATGTCGATGAAGTC -GATAACAATCAGGCCGCCGAGGTCACGCAGGCGCAGCTGACGAGCAATCTCATCGGCAGCTTCGAGGTTAGTGTTAAACG -CGGTTTCTTCGATATCGCCGCCGCGGGTCGCGCGTGCGGAGTTGATGTCGATGGCCGTTAACGCTTCGGTGCTGTCGATA -ACAATGGAACCACCAGACGGCAGACGAACTTCACGCTGGAAGGCGGACTCGATCTGTGACTCGATCTGGTAGTGGCTGAA -CAGCGGGATCTCGCCGGTGTACAGTTTGATTTTGCTGCTGAAATCCGGGCGACCTAATGCAGCGATATGCTGACGTGCCA -GTTCGAGCACTTTCGGGTTATCGATAAGGATTTCGCCGATGTCCTGACGTAAGTAATCGCGGAATGCGCGAACGATTACG -TTGCTCTCCTGATGAATCAGGAACGGGGCCGGGCGGCTTTCAGCGGCTTTTTTGATGGCTTCCCAGTGTTTCAGACGGAA -GCTTAAATCCCATTGCAGCGCCTCAGCAGATTTGCCGACGCCAGCGGTGCGCACGATAAGCCCCATGCCTTCCGGCAGTT -CAAGGCTTGCCAGTGCTTCTTTTAATTCGGTACGGTCGTCGCCTTCGATACGGCGAGAAATGCCACCCGCGCGCGGGTTG -TTCGGCATCAGAACCAGATAGCTACCCGCCAGACTGATAAAGGTGGTTAATGCCGCGCCTTTGTTGCCGCGCTCTTCTTT -ATCGATCTGAACAATGACTTCCTGACCTTCACGCAACACATCTTTAATGTTGGGACGACCATGAGCACTGTAGTTAGCAG -GGAAATATTCGCGGGCAATTTCTTTTAGTGGGAGGAAACCGTGACGTTCAGCGCCGTAATCAACAAAAGCAGCTTCCAGA -CTCGGTTCAATGCGGGTGATTTTACCTTTGTAGATGTTTGCCTTTTTCTGCTCGTGCCCTGGACTTTCGATATCCAGGTC -ATACAGACGCTGCCCATCTACAAGGGCAACGCGCAACTCTTCCTGCTGAGTTGCGTTGATTAACATTCTTTTCATCGTAA -CTTACTCATTATTCTTACATTGACGACTAAGCTGCGGGCAAAGTAACGCCTTTCCGGGTGTGAACCGATGGCCTCGTGTC -TAGTCGCGTCGCCAACCTCACGGTTATCGTCAGCTCAAAGAGGCGCAGAGTGTCGGTTGCCCGTTTTTCATGCGGAAAAA -CAGCGCAATTATCAAAGAAACAGACTGGGTATTACTCTCCAGAAATATTTCCATCTACCGGTAAGGACTGCAACCCGCAG -CCCGCTAACTGCCTGAAAGATCAATACGTCTTACGCCATTGCTGCGTGGATGATCGGTCGGGCAAAATGGGTTATTCCGT -AAAATTTCTTGTTTTAACAAGGATGGACACGGAAACGGCCTCATTATTCCACTGCAAGCCTTGTTATAGCAAGATGACTT -TTACCATTTATCACCCGCTTACTCACAGTTTTTTCACTTCTTGCTGGTGATTGGTTTAATAACCATCAATAAAGTGATCA -CGCAGTGAAGTAATAAGGTGCAAAAGTAAATATAAGCATAGAAAAATGAGTGGCGCGAATCCTGTTGGCTAATTAGAATC -GCCAACCATGAAAACAGAGACTCCATCCGTAAAAATTGTTGCTATCACCGCTGACGAAGCGGGGCAACGTATCGATAACT -TTTTGCGTACCCAATTGAAAGGCGTACCAAAAAGTATGATTTACCGTATTTTGCGTAAAGGCGAAGTGCGGGTGAACAAA -AAACGTATTAAGCCTGAATATAAACTCGAAGCGGGTGATGAGGTGCGTATTCCACCGGTTCGCGTTGCTGAGCGGGAAGA -AGAGGCGGTTTCGCCACATCTGCAAAAGGTGGCGGCGCTGGCGGACGTCATCTTATATGAAGATGATCACATCCTGGTGC -TGAATAAACCTTCCGGTACGGCGGTACATGGCGGCAGTGGTTTAAGCTTCGGCGTTATTGAAGGTTTGCGGGCGTTGCGC -CCGGAAGCGCGGTTCCTTGAACTGGTTCATCGTCTTGACCGGGACACCTCAGGTGTTTTGCTGGTAGCGAAAAAACGCTC -GGCGTTGCGTTCTCTGCATGAGCAATTACGTGAAAAAGGGATGCAAAAAGATTACCTGGCGCTGGTGCGCGGTCAGTGGC -AGTCGCATGTGAAGAGCGTTCAAGCACCGTTACTGAAAAATATTCTGCAAAGCGGCGAACGTATCGTGCGTGTGAGTCAG -GAAGGCAAACCGTCGGAAACACGCTTTAAAGTGGAAGAACGCTATGCATTTGCCACCCTGGTGCGTTGTAGCCCGGTAAC -AGGGCGTACTCACCAGATCCGTGTGCATACACAATATGCGGGTCATCCGATTGCCTTTGACGATCGCTACGGTGACCGTG -AATTTGACAGGCAGCTCACTGAAGCAGGCACGGGATTAAATCGCCTGTTCCTGCACGCTGCAGCGTTGAAGTTTACTCAT -CCGGGGACCGGTGAGGTGATGCGTATCGAAGCTCCGATGGATGAAGGTTTGAAGCGTTGTTTGCAAAAGCTGCGTAACGC -GCGCTAATACAAGCATATAAACCTGATAATGGGCGGTTGGCCTGATAAGGCGTTTACGCCGCATCAGGCCGCCAGCACCG -ATTGCCGGATGCGACGTAACCACATCCGGCGCAAAAAACTATCCCATCAGCGGGTTTTTCCCTTCCCGACGTAACATCTG -ACACAGCGCGATTAGCGGTAAACCAACCAGCGTGTTAGGATCACGCCCCTCTAAACGCTCAAACAGCGTAATGCCAAATC -CTTCACTCTTAAAGCTACCCGCGCAGTGCAGGGGATGCTCTTTACGCACGTAATTATCAATCTCCGCCTCGCTCAGGTGA -CGGAAATGGACGTCAAAAGGCTCCACTTCTGTTTGCAGATGCCCATTCGCCGAATTAAACAACGCCAGTCCAGTATAGAA -GGTGACGATATTGCCGCTGGCTTTGCGTAATTGCAGACGGGCATTTTCTTCCGTTAACGGTTTACCGGTGATTTCGCCAT -CAAGAACACATACCTGGTCTGAACCAATAATTAAATGATCCGGATAACGTGACGCCAGAGATTGCGCTTTTTCTTGTGCC -AGTCGAAGCACCAACTGTCGCGGTGATTCGTCGCTGCGTGGGGTTTCGTCGACCTCTGGTGCTGCACATTCAAAAGAGAT -TTGCAGTTTTTCCAGAAGAGCGCGACGCCATGGCGAGGTGGAGGCTAAAATAAGTTTAGGCATATTTTTTTCCATCAGAT -ATAGCGTATTGATGATAGCCATTTTAAACTATGCGCTTCGTTTTGCAGGTTGATGTTTGTTATCAGCACTGAACGAAAAT -AAAGCAGTAACCCGCAATGTGTGCGAATTATTGGCAAAAGGCAACCACAGGCTGCCTTTTTCTTTGACTCTATGACGTTA -CAAAGTTAATATGCGCGCCCTATGCAAAAGGTAAAATTACCCCTGACTCTCGATCCGGTTCGTACGGCTCAAAAACGCCT -TGATTACCAGGGTATCTATACCCCTGATCAGGTTGAGCGCGTCGCCGAATCCGTAGTCAGTGTGGACAGTGATGTGGAAT -GCTCCATGTCGTTCGCTATCGATAACCAACGTCTCGCAGTGTTAAACGGCGATGCGAAGGTGACGGTAACGCTCGAGTGT -CAGCGTTGCGGGAAGCCGTTTACTCATCAGGTCTACACAACGTATTGTTTTAGTCCTGTGCGTTCAGACGAACAGGCTGA -AGCACTGCCGGAAGCGTATGAACCGATTGAGGTTAACGAATTCGGTGAAATCGATCTGCTTGCAATGGTTGAAGATGAAA -TCATCCTCGCCTTGCCGGTAGTTCCGGTGCATGATTCTGAACACTGTGAAGTGTCCGAAGCGGACATGGTCTTTGGTGAA -CTGCCTGAAGAAGCGCAAAAGCCAAACCCATTTGCCGTATTAGCCAGCTTAAAGCGTAAGTAATTGGTGCTCCCCGTTGG -ATCGGGGATAAACCGTAATTGAGGAGTAAGGTCCATGGCCGTACAACAGAATAAACCAACCCGTTCCAAACGTGGCATGC -GTCGTTCCCATGACGCGCTGACCGCAGTCACCAGCCTGTCTGTAGACAAAACTTCTGGTGAAAAACACCTGCGTCACCAC -ATCACTGCCGACGGTTACTACCGCGGCCGCAAGGTCATCGCTAAGTAATCACGCATCTGCGTGATGAAGCTTAGTGAGGA -TTTTCCCCAGGCAACTGGGGAAAGACCAAACCGGGCGGCGACGATACCTTGACACGTCTAACCCTGGCGTTAGATGTCAT -GGGAGGGGATTTTGGCCCTTCCGTGACAGTGCCTGCAGCATTGCAGGCACTGAATTCTAATTCGCAACTCACTCTTCTTT -TAGTCGGCAATTCCGACGCCATCACGCCATTACTTGCTAAAGCTGACTTTGAACAACGTTCGCGTCTGCAGATTATTCCT -GCGCAGTCAGTTATCGCCAGTGATGCCCGGCCTTCGCAAGCTATCCGCGCCAGTCGTGGGAGTTCAATGCGCGTGGCCCT -GGAGCTGGTGAAAGAAGGTCGAGCGCAAGCCTGTGTCAGTGCCGGTAATACCGGGGCGCTGATGGGGCTGGCAAAATTAT -TACTCAAGCCCCTGGAGGGGATTGAGCGTCCGGCGCTGGTGACGGTATTACCACATCAGCAAAAGGGCAAAACGGTGGTC -CTTGACTTAGGGGCCAACGTCGATTGTGACAGCACAATGCTGGTGCAATTTGCCATTATGGGCTCAGTTCTGGCTGAAGA -GGTGGTGGAAATTCCCAATCCTCGCGTGGCGTTGCTCAATATTGGTGAAGAAGAAGTAAAGGGTCTCGACAGTATTCGGG -ATGCCTCAGCGGTGCTTAAAACAATCCCTTCTATCAATTATATCGGCTATCTTGAAGCCAATGAGTTGTTAACTGGCAAG -ACAGATGTGCTGGTTTGTGACGGCTTTACAGGAAATGTCACATTAAAGACGATGGAAGGTGTTGTCAGGATGTTCCTTTC -TCTGCTGAAATCTCAGGGTGAAGGGAAAAAACGGTCGTGGTGGCTACTGTTATTAAAGCGTTGGCTACAAAAGAGCCTGA -CGAGGCGATTCAGTCACCTCAACCCCGACCAGTATAACGGCGCCTGTCTGTTAGGATTGCGCGGCACGGTGATAAAAAGT -CATGGTGCAGCCAATCAGCGAGCTTTTGCGGTCGCGATTGAACAGGCAGTGCAGGCGGTGCAGCGACAAGTTCCTCAGCG -AATTGCCGCTCGCCTGGAATCTGTATACCCAGCTGGTTTTGAGCTGCTGGACGGTGGCAAAAGCGGAACTCTGCGGTAGC -AGGACGCTGCCAGCGAACTCGCAGTTTGCAAGTGACGGTATATAACCGAAAAGTGACTGAGCGTACATGTATACGAAGAT -TATTGGTACTGGCAGCTATCTGCCCGAACAAGTGCGGACAAACGCCGATTTGGAAAAAATGGTGGACACCTCTGACGAGT -GGATTGTCACTCGTACCGGTATCCGCGAACGCCACATTGCCGCGCCAAACGAAACCGTTTCAACCATGGGCTTTGAAGCG -GCGACACGCGCAATTGAGATGGCGGGCATTGAGAAAGACCAGATTGGCCTGATCGTTGTGGCAACGACTTCTGCTACGCA -CGCTTTCCCGAGCGCAGCTTGTCAGATTCAAAGCATGTTGGGCATTAAAGGTTGCCCGGCATTTGACGTTGCAGCAGCCT -GCGCAGGTTTCACCTATGCATTAAGCGTAGCCGATCAATACGTGAAATCTGGGGCGGTGAAGTATGCTCTGGTCGTCGGT -TCCGATGTACTGGCGCGCACCTGCGATCCAACCGATCGTGGGACTATTATTATTTTTGGCGATGGCGCGGGCGCTGCGGT -GCTGGCTGCCTCTGAAGAGCCGGGAATCATTTCCACCCATCTGCATGCCGACGGTAGTTATGGTGAATTGCTGACGCTGC -CAAACGCCGACCGCGTGAATCCAGAGAATTCAATTCATCTGACGATGGCGGGCAACGAAGTCTTCAAGGTTGCGGTAACG -GAACTGGCGCACATCGTTGATGAGACGCTGGCGGCGAATAATCTTGACCGTTCTCAACTGGACTGGCTGGTTCCGCATCA -GGCTAACCTGCGTATTATCAGTGCAACGGCGAAAAAACTCGGTATGTCTATGGATAATGTCGTGGTGACGCTGGATCGCC -ACGGTAATACCTCTGCGGCCTCTGTCCCGTGCGCGCTGGATGAAGCTGTACGCGACGGGCGCATTAAGCCGGGGCAGTTG -GTTCTGCTTGAAGCCTTTGGCGGTGGATTCACCTGGGGCTCCGCGCTGGTTCGTTTCTAGGATAAGGATTAAAACATGAC -GCAATTTGCATTTGTGTTCCCTGGACAGGGTTCTCAAACCGTTGGAATGCTGGCTGATATGGCGGCGAGCTATCCAATTG -TCGAAGAAACGTTTGCTGAAGCTTCTGCGGCGCTGGGCTACGACCTGTGGGCGCTGACCCAGCAGGGGCCAGCTGAAGAA -CTGAATAAAACCTGGCAAACTCAGCCTGCGCTGTTGACTGCATCTGTTGCGCTGTATCGCGTATGGCAGCAGCAGGGCGG -TAAAGCACCGGCAATGATGGCCGGTCACAGCCTGGGGGAATACTCCGCGCTGGTTTGCGCTGGTGTGATTGATTTCGCTG -ATGCGGTGCGTCTGGTTGAGATGCGCGGCAAGTTCATGCAAGAAGCCGTACCGGAAGGCACGGGCGCTATGGCGGCAATC -ATCGGTCTGGATGATGCGTCTATTGCGAAAGCGTGTGAAGAAGCTGCAGAAGGTCAGGTCGTTTCTCCGGTAAACTTTAA -CTCTCCGGGACAGGTGGTTATTGCCGGTCATAAAGAAGCGGTTGAGCGTGCTGGCGCTGCCTGTAAAGCGGCGGGCGCAA -AACGCGCGCTGCCGTTACCAGTGAGCGTACCGTCTCACTGTGCGCTGATGAAACCAGCAGCCGACAAACTGGCAGTAGAA -TTAGCGAAAATCACCTTTAACGCACCAACAGTTCCTGTTGTGAATAACGTTGATGTGAAATGCGAAACCAATGGTGATGC -CATCCGTGACGCACTGGTACGTCAGTTGTATAACCCGGTTCAGTGGACGAAGTCTGTTGAGTACATGGCAGCGCAAGGCG -TAGAACATCTCTATGAAGTCGGCCCGGGCAAAGTGCTTACTGGCCTGACGAAACGCATTGTCGACACCCTGACCGCCTCG -GCGCTGAACGAACCTTCAGCGATGGCAGCGGCGCTCGAGCTTTAAAAGAGGAAAATCATGAATTTTGAAGGAAAAATCGC -ACTGGTAACCGGTGCAAGCCGCGGAATTGGCCGCGCAATTGCTGAAACGCTCGCAGCCCGTGGCGCGAAAGTTATTGGCA -CTGCGACCAGTGAAAATGGCGCTCAGGCGATCAGTGATTATTTAGGTGCCAACGGCAAAGGTCTGATGTTGAATGTGACC -GACCCGGCATCTATCGAATCTGTTCTGGAAAAAATTCGCGCAGAATTTGGTGAAGTGGATATCCTGGTCAATAATGCCGG -TATCACTCGTGATAACCTGTTAATGCGAATGAAAGATGAAGAGTGGAACGATATTATCGAAACCAACCTTTCATCTGTTT -TCCGTCTGTCAAAAGCGGTAATGCGCGCTATGATGAAAAAGCGTCATGGTCGTATTATCACTATCGGTTCTGTGGTTGGT -ACCATGGGAAATGGCGGTCAGGCCAACTACGCTGCGGCGAAAGCGGGCTTGATCGGCTTCAGTAAATCACTGGCGCGCGA -AGTTGCGTCACGCGGTATTACTGTAAACGTTGTTGCTCCGGGCTTTATTGAAACGGACATGACACGTGCGCTGAGCGATG -ACCAGCGTGCGGGTATCCTGGCGCAGGTTCCTGCGGGTCGCCTCGGCGGCGCACAGGAAATCGCCAACGCGGTTGCATTC -CTGGCATCCGACGAAGCAGCTTACATCACGGGTGAAACTTTGCATGTGAACGGCGGGATGTACATGGTCTGACCGCGATT -TGCACAAAATGCTCATGTTGCGCGCAGTCTGCGTGGTTATGAGTAATAATTAGTGCAAAATGATTTGCGTTATTGGGGGG -TAAGGCCTCAAAATAACGTAAAATCGTGGTAAGACCTGCCGGGATTTAGTTGCAAATTTTTCAACATTTTATACACTACG -AAAACCATCGCGAAAGCGAGTTTTGATAGGAAATTTAAGAGTATGAGCACTATCGAAGAACGCGTTAAGAAAATTATCGG -CGAACAGCTGGGCGTTAAGCAGGAAGAAGTTACCAACAATGCTTCTTTCGTTGAAGACCTGGGCGCGGATTCTCTTGACA -CCGTTGAGCTGGTAATGGCTCTGGAAGAAGAGTTTGATACTGAGATTCCGGACGAAGAAGCTGAGAAAATCACCACCGTT -CAGGCTGCCATTGATTACATCAACGGCCACCAGGCGTAAGTGAACATCTCCAGGCGGTCGTTCGACCGCCTGAGTTTTAT -CTTTTTGTCCCACTAGAATCATTTTTTCCCTCCCTGGAGGACAAACGTGTCTAAGCGTCGTGTAGTTGTGACCGGACTGG -GCATGTTGTCTCCTGTCGGCAATACCGTAGAGTCTACCTGGAAAGCTCTGCTTGCCGGTCAGAGTGGCATCAGCCTAATC -GACCATTTCGATACTAGCGCCTATGCAACGAAATTTGCTGGCTTAGTAAAGGATTTTAACTGTGAGGACATTATCTCGCG -CAAAGAACAGCGCAAGATGGATGCCTTCATTCAATATGGAATTGTCGCTGGCGTTCAGGCCATGCAGGATTCTGGCCTTG -AAATAACGGAAGAGAACGCAACCCGCATTGGTGCCGCAATTGGCTCCGGGATTGGCGGCCTCGGACTGATCGAAGAAAAC -CACACATCTCTGATGAACGGTGGTCCACGTAAGATCAGCCCATTCTTCGTTCCGTCAACGATTGTGAACATGGTGGCAGG -TCATCTGACTATCATGTATGGCCTGCGTGGCCCGAGCATCTCTATCGCGACTGCCTGTACTTCCGGCGTGCACAACATTG -GCCATGCTGCGCGTATTATCGCGTATGGCGATGCTGACGTGATGGTTGCAGGTGGCGCAGAGAAAGCCAGTACGCCGCTG -GGCGTTGGTGGTTTTGGCGCGGCACGTGCATTATCTACCCGCAATGATAACCCGCAAGCGGCGAGCCGCCCGTGGGATAA -AGAGCGTGATGGTTTCGTACTGGGCGATGGTGCCGGTATGCTGGTACTTGAAGAGTACGAACACGCGAAAAAACGCGGTG -CGAAAATTTACGCTGAACTCGTCGGCTTTGGTATGAGCAGCGATGCTTATCATATGACGTCACCGCCAGAAAATGGCGCA -GGCGCAGCTCTGGCGATGGCAAATGCTCTGCGTGATGCAGGCATTGAAGCGAGTCAGATTGGCTACGTTAACGCGCACGG -TACTTCTACGCCGGCTGGCGATAAAGCTGAAGCGCAGGCGGTGAAAACCATCTTCGGTGAAGCTGCAAGCCGTGTGTTGG -TAAGCTCCACGAAATCTATGACCGGTCACCTGTTAGGTGCGGCGGGTGCAGTAGAATCTATCTACTCCATCCTGGCGCTG -CGCGATCAGGCTGTTCCGCCAACCATCAACCTGGATAACCCGGATGAAGGTTGCGATCTGGATTTCGTACCGCACGAAGC -GCGTCAGGTTAGCGGAATGGAATACACTCTGTGTAACTCCTTCGGCTTCGGTGGCACTAATGGTTCTTTGATCTTTAAAA -AGATCTAAGTTGTCATTTTCCACCCTTATAAAAGGTCCGCTTGCGGGCCTTTTTTCTTAGCTTTTATTCCGACTTGTTCC -GTAGTGAACATGCTGCCACACTAACAATTCTCTGATAAGGAGCCGGTATGTTCTTAATTAACGGTCATAAGCAGGAATCG -CTGGCAGTAAGCGATCGGGCAACGCAGTTTGGTGATGGTTGTTTTACCACCGCCAGAGTTATCGACGGTAAAGTCAGTTT -GTTATCGGCGCATATCCAGCGACTACAGGATGCTTGTCAGCGGTTGATGATTTCCTGTGACTTCTGGCCTCAGCTTGAAC -AAGAGATGAAAACGCTGGCAGCAGAACAGCAAAATGGTGTGCTGAAAGTCGTGATCAGTCGCGGTAGTGGCGGGCGAGGG -TACAGCACATTGAACAGCGGACCGGCAACGCGGATTCTCTCCGTTACGGCTTATCCTGCACATTACGACCGTTTGCGTAA -CGAGGGGATTACGTTGGCGCTAAGCCCGGTGCGGCTGGGGCGCAATCCTCATCTTGCAGGTATTAAACATCTCAATCGTC -TTGAGCAAGTATTGATTCGCTCTCATCTTGAGCAGACAAACGCTGATGAGGCGCTGGTCCTTGACAGCGAAGGGTGGGTT -ACGGAATGCTGTGCGGCTAATTTGTTCTGGCGGAAGGGCAACGTAGTTTATACGCCGCGACTGGATCAGGCAGGTGTTAA -CGGCATTATGCGACAATTCTGTATCCGTTTGCTGGCACAATCCTCTTATCAGCTTGTCGAAGTGCAAGCCTCTCTGGAAG -AGTCGTTGCAGGCAGATGAGATGGTTATTTGTAATGCGTTAATGCCAGTGATGCCCGTATGTGCCTGTGGCGATGTCTCC -TTTTCGTCAGCAACGTTATATGAATATTTAGCCCCACTTTGTGAGCGCCCGAATTAGTCATGAAAAAAGTGTTATTGATA -ATCTTGTTATTGCTGGTGGTACTGGGTATCGCCGCTGGTGTGGGCGTCTGGAAGGTTCGCCATCTTGCCGACAGCAAATT -GCTTATCAAAGAAGAGACGATATTTACCCTGAAGCCAGGGACCGGACGTCTGGCGCTCGGTGAACAGCTTTATGCCGATA -AGATCATCAATCGTCCACGGGTTTTTCAATGGCTGCTGCGTATCGAACCGGATCTTTCTCACTTTAAAGCCGGGACTTAC -CGCTTTACACCGCAGATGACCGTGCGCGAGATGCTGAAATTGCTGGAAAGCGGTAAAGAAGCACAGTTCCCTCTGCGACT -GGTAGAAGGGATGCGTCTGAGCGATTACCTCAAGCAATTGCGTGAGGCCCCGTATATCAAGCATACGCTGAGCGATGATA -AGTACGCCACCGTAGCGCAGGCACTTGAACTGGAAAACCCGGAGTGGATTGAAGGTTGGTTCTGGCCAGACACCTGGATG -TATACCGCCAATACCACCGATGTCGCGTTACTCAAGCGAGCGCACAAGAAAATGGTGAAAGCGGTCGATAGCGCCTGGGA -AGGGCGTGCGGACGGTCTGCCTTATAAAGATAAAAACCAGTTGGTGACGATGGCATCAATTATCGAAAAAGAAACCGCCG -TTGCCAGTGAACGCGATAAGGTTGCCTCAGTATTTATCAACCGTTTACGCATTGGTATGCGCCTGCAGACCGACCCGACC -GTGATTTACGGGATGGGAGAGCGTTATAATGGCAAACTTTCTCGTGCAGACCTGGAAACGCCGACAGCGTATAACACCTA -TACCATTACCGGTCTGCCGCCAGGTGCGATAGCGACGCCGGGGGCGGATTCGCTGAAGGCTGCTGCGCATCCGGCAAAAA -CGCCGTATCTCTATTTTGTGGCCGATGGTAAAGGTGGTCACACGTTTAATACCAATCTTGCCAGTCATAACAAGTCTGTG -CAGGATTATCTGAAAGTGCTTAAGGAAAAAAATGCGCAGTAAGTATATCGTCATTGAGGGGCTGGAAGGCGCAGGCAAAA -CTACCGCGCGTAATGTGGTGGTTGAGACGCTCGAGCAACTGGGTATCCGCGACATGGTTTTCACTCGGGAACCTGGCGGT -ACGCAACTTGCCGAAAAGTTAAGAAGCCTGGTGCTGGATATCAAATCGGTAGGCGATGAAGTCATTACCGATAAAGCCGA -AGTTCTGATGTTTTATGCCGCGCGCGTTCAACTGGTAGAAACGGTCATCAAACCAGCTCTGGCTAACGGCACCTGGGTGA -TTGGCGATCGCCACGATCTCTCCACTCAGGCGTATCAGGGCGGCGGACGTGGTATTGACCAACATATGCTGGCAACACTG -CGTGATGCTGTTCTCGGGGATTTTCGCCCCGACTTAACGCTCTATCTCGATGTTACCCCGGAAGTTGGCTTAAAACGCGC -GCGTGCGCGCGGCGAGCTGGATCGTATTGAGCAAGAATCTTTCGATTTCTTTAATCGCACCCGCGCCCGCTATCTGGAAC -TGGCAGCACAAGATAAAAGCATTCATACCATTGATGCCACCCAGCCGCTGGAGGCCGTGATGGATGCAATCCGCACTACC -GTGACCCACTGGGTGAAGGAGTTGGACGCATGAGATGGTATCCATGGTTACGACCTGATTTCGAAAAACTGGTAGCCAGC -TATCAGGCCGGAAGAGGTCACCATGCGCTACTCATTCAGGCGTTACCGGGCATGGGCGATGATGCTTTAATCTACGCCCT -GAGCCGTTATTTACTCTGCCAACAACCGCAGGGCCACAAAAGTTGCGGTCACTGTCGTGGATGTCAGTTGATGCAGGCTG -GCACGCATCCCGATTACTACACCCTGGCTCCCGAAAAAGGAAAAAATACGCTGGGCGTTGATGCGGTACGTGAGGTCACC -GAAAAGCTGAATGAGCACGCACGCTTAGGTGGTGCGAAAGTCGTTTGGGTAACCGATGCTGCCTTACTAACCGACGCCGC -GGCTAACGCATTGCTGAAAACGCTTGAAGAGCCACCAGCAGAAACTTGGTTTTTCCTGGCTACCCGCGAGCCTGAACGTT -TACTGGCAACATTACGTAGTCGTTGTCGGTTACATTACCTTGCGCCGCCGCCGGAACAGTACGCCGTGACCTGGCTTTCA -CGCGAAGTGACAATGTCACAGGATGCATTACTTGCCGCATTGCGCTTAAGCGCCGGTTCGCCTGGCGCGGCACTGGCGTT -GTTTCAGGGAGATAACTGGCAGGCTCGTGAAACATTGTGTCAGGCGTTGGCATATAGCGTGCCATCGGGCGACTGGTATT -CGCTGCTAGCGGCCCTTAATCATGAACAAGCTCCGGCGCGTTTACACTGGCTGGCAACGTTGCTGATGGATGCGCTAAAA -CGCCATCATGGTGCTGCGCAGGTGACCAATGTTGATGTGCCGGGCCTGGTCGCCGAACTGGCAAACCATCTTTCTCCCTC -GCGCCTGCAGGCTATACTGGGGGATGTTTGCCACATTCGTGAACAGTTAATGTCTGTTACAGGCATCAACCGCGAGCTTC -TCATCACCGATCTTTTACTGCGTATTGAGCATTACCTGCAACCGGGCGTTGTGCTACCGGTTCCTCATCTTTAAGAGAGA -CATCATGTTTTTAGTCGACTCACACTGCCATCTCGATGGTCTGGATTATGAATCTTTGCATAAGGACGTGGATGACGTTC -TGGCGAAAGCCGCCGCACGCGATGTGAAATTTTGTCTGGCAGTCGCCACAACATTACCGGGTTATTTACATATGCGGGAT -CTGGTAGGCGAACGTGACAACGTCGTATTTTCTTGTGGCGTGCATCCACTCAACCAGAATGATCCCTACGATGTAGAAGA -TTTACGCCGTCTGGCGGCAGAAGAGGGTGTTGTAGCGCTGGGTGAAACCGGGCTGGATTATTATTACACGCCGGAAACTA -AAGTACGTCAGCAAGAGTCCTTCATCCATCATATCCAGATTGGTCGTGAACTGAACAAGCCGGTTATCGTCCATACCCGT -GACGCCCGTGCCGATACGCTGGCAATTCTGCGCGAAGAAAAAGTGACGGATTGCGGTGGCGTACTACACTGTTTTACAGA -GGACAGAGAAACGGCGGGTAAATTACTGGATCTCGGATTTTACATCTCCTTTTCCGGCATTGTGACCTTCCGTAATGCGG -AGCAACTGCGCGATGCTGCGCGTTATGTCCCCCTGGATCGGTTACTGGTGGAAACTGACTCACCTTACCTTGCGCCGGTA -CCGCATCGAGGAAAAGAGAATCAACCTGCGATGGTTCGTGACGTTGCAGAATACATGGCTGTGTTGAAAGGTGTTGCCGT -TGAAGAACTGGCGCAGGTAACCACCGATAACTTCGCCCGTCTGTTTCACATCGACGCTTCCCGCCTTCAATCCATCCGTT -GAATGAGTTTTTTTAAAGCTCGTAATTAATGGCTAAAACGAGTAAAGTTCACCGCCGAAAATTGGGCGGTGAATAACCAC -GTTTGAAATATTGTGACATATGTTTTGTCAAAATGTGCAACTTCTCCAATGATCTGAAGTTGAAACGTGATAGCCGTCAA -ACAAATTGGCACTGAATTATTTTACTCTGTGTAATAAATAAAGGGCGCTTAGATGCCCTGTACACGGCGAGGCTCTCCCC -CCTTGCCACGCGTGAGAACGTAAAAAAAGCACCCATACTCAGGAGCACTCTCAATTATGTTTAAGAATGCATTTGCTAAC -CTGCAAAAGGTCGGTAAATCGCTGATGCTGCCGGTATCCGTACTGCCTATCGCAGGTATTCTGCTGGGCGTCGGTTCCGC -GAATTTCAGCTGGCTGCCCGCCGTTGTATCGCATGTTATGGCAGAAGCAGGCGGTTCCGTCTTTGCAAACATGCCACTGA -TTTTTGCGATCGGTGTCGCCCTCGGCTTTACCAATAACGATGGCGTATCCGCGCTGGCCGCAGTTGTTGCCTATGGCATC -ATGGTTAAAACCATGGCCGTGGTTGCGCCACTGGTACTGCATTTACCTGCTGAAGAAATCGCCTCTAAACACCTGGCGGA -TACTGGCGTACTCGGAGGGATTATCTCCGGTGCGATCGCAGCGTACATGTTTAACCGTTTCTACCGTATTAAGCTGCCTG -AGTATCTTGGCTTCTTTGCCGGTAAACGCTTTGTGCCGATCATTTCTGGCCTGGCTGCCATCTTTACTGGCGTTGTGCTG -TCCTTCATTTGGCCGCCGATTGGTTCTGCAATCCAGACCTTCTCTCAGTGGGCTGCTTACCAGAACCCGGTAGTTGCGTT -TGGCATTTACGGTTTCATCGAACGTTGCCTGGTACCGTTTGGTCTGCACCACATCTGGAACGTACCTTTCCAGATGCAGA -TTGGTGAATACACCAACGCAGCAGGTCAGGTTTTCCACGGCGACATTCCGCGTTATATGGCGGGTGACCCGACTGCGGGT -AAACTGTCTGGTGGCTTCCTGTTCAAAATGTACGGTCTGCCAGCTGCCGCAATTGCTATCTGGCACTCTGCTAAACCAGA -AAACCGCGCGAAAGTGGGCGGTATTATGATCTCCGCGGCGCTGACCTCGTTCCTGACCGGTATCACCGAGCCGATCGAGT -TCTCCTTCATGTTCGTTGCGCCGATCCTGTACATCATCCACGCGATTCTGGCAGGCCTGGCATTCCCAATCTGTATTCTT -CTGGGGATGCGTGACGGTACGTCGTTCTCGCACGGTCTGATCGACTTCATCGTTCTGTCTGGTAACAGCAGCAAACTGTG -GCTGTTCCCGATCGTCGGTATCGGTTATGCGATTGTTTACTACACCATCTTCCGCGTGCTGATTAAAGCACTGGATCTGA -AAACGCCGGGTCGTGAAGACGCGACTGAAGATGCAAAAGCGACAGGTACCAGCGAAATGGCACCGGCTCTGGTTGCTGCA -TTTGGTGGTAAAGAAAACATTACTAACCTCGACGCATGTATTACCCGTCTGCGCGTCAGCGTTGCTGATGTGTCTAAAGT -GGATCAGGCCGGCCTGAAGAAACTGGGCGCAGCGGGCGTAGTGGTTGCTGGTTCTGGTGTTCAGGCGATTTTCGGTACTA -AATCCGATAACCTGAAAACCGAGATGGATGAGTACATCCGTAACCACTAATCCGTAAGACGTTGGGGAGACTAAGGCAGC -CAGATGGCTGCCTTTTTTACAGGTGTTATTCAGAATTGATACGTGCCGGTAATGCTGAAATTACGCGGTGTGCCGTAGAC -GATAGAACCTTCCACGTTGGTATCGTAGGTTTTGTCGAACAGGTTATTGACGTTCCCCTGTAACGAGAAGTTTTTCGTCA -CCTGGTAGCGGGTGAAGAGATCCACCAGCGCGTAGCTACCTTGCTCGGCGCGGAAGGTGCCATACGGCGTCACGGTGTCG -GTATACACGCGATTTTGCCAGTTAACACCACCGCCGACCGTCAACTCTGGCATGACAGGCAACCGATAGCTGGTGAACAT -TTTAACCGTGGTGCGTGGCAGATTAGGATTAACGGCGTTTCCTTCGTTATCCTCTGCAATATAGCGCGTTGCGCCAAATG -TCAGCTGCCAGTTGTCGGTAATTGCGCCGTTGAGTTCAAATTCCACCCCTTTACTGACTGTCCCATCCACCGCTTTATAG -GCGGTTTCGCCGTTGCTGCCGGGGATAGGTGTACCGGTGGACTGAGCGACATTATCCTGCTCAATACGGAAGATGGCTAA -CGTGGTGGTCAGACGGCTATTCATCCAGTCCGATTTCAGACCCAGCTCGTAGTTGTTACCGGTGATTGGAGCCAGATATT -TGCCTGAACTGTCACGATCATTTTGCGGCTGGAAAATAGAGGTATAGCTGGCGTAGGTCGACCAGTTGTCATTGATGTCA -AACACCAGACCAGCGTAAGGCGTGGTGTGGTTTTTCTCCATGCTGTAAGTCAGCGTATCAACCCGCCAGTTGGTATAACG -TGCGCCGAGGATCAGATGCAGCGGATCGGCAAGGGTGACACGAGTGGCAGCATATAACGATTTCATATGTGTGGTATCGT -CCTGCGCCAGGCTCTGTGGTGACCAGTCGGTTTGTGGGAAATTGCCATTAAAGTTGTAGAAACTGCCAATTTCATCCGGG -AAGATGTTGGCCCATGAACTGAAGTAACGATTGTTTTGTTTGCTGTAACTGCCACCAAACATTAGATTGTGCTGACGACC -AAACAATTCATAACTACCGTCAGCGAACAAATCCAGCGCATCAACTTTACGTTTGCCACTGTTCCAACCGGTGCCGCCGA -CATAATCAAAGCCAGGTCCATAATTACTGTATGGCCCAACCAGCATACCATCCGCTTTGTTTACATAGGCATCGACATAC -ATCATTTTGCTGTCAAATTCGACTTCAGAGTGGGTGGCATTCAGTGTCGCTTGCCAGGTATCAGCAAACTGCTGCTTCAG -GGTCATAAAGACCTTGTTGATCTCTTTATCGTTGTACGCCCAGTCAGGTGCGGTACTGCGTGCGCGATCGTAACTGTTGC -TGCTGCCATCAGTATTCCAGCGCGGTAAACCGCCCCAGGTAGGGCTATTAACATCAATGCGCTGATATTCGTAACCGGCT -GAAAGCGTCGTAAGATCGCCTAAATCAGCATCGACAATGCCCGAGAAGAAGGTCTTTTCACTGTTGTAGCGGTCCAGCCA -TGAGTCGTTATTCTGGTAGCCGCCGACAATTCGCGCGCGGATTTTACCGTCTTCGGTGAGTGGGCTTTGTAAATCCGCCA -CATACCGTTCTTTGTTCCAGCTACCGTATTCCGCCGAGACATCGCCTTTAAATTCACGACTGGTCGCGTGTTTTCGAACC -ATATTAATTGCCGCAGATGGATTACCCGTCCCGGTCATGAGTCCTGTCGCGCCACGCACTACTTCTACGCGTTCAAAGAG -TGCCATATCAGAAAGTGCGTCGCCCAGATTCCAGCGCGATTCAAAATAGGTGGGGATACCATCAACCATATAGTTATCGA -TCTGGAATCCGCGGGAATAATAAAGAGCACGATCGGAATCCGCCTGACTTTTGCTGATCCCCAGCGTGTTTTCCATCACT -TCGCCCAGCGTTTGTAACTGCTGATCTTCCATCCGCTGCTGGCTAACAATAGTGACCGACTGAGGAATATCACGTTGAGT -CATCTGCATTTTGGTACCCGCAGAGGTAGACGTTACGCTGTAATCATTTTCGCCATCATCTGGAGCTGTGGCTGAACCCT -CAACAATCACCGTTTCTTCAGTGGCTGGTGCAGCAAAAGCGGCAGAAGGTAATAGTGCCAGTGCTATGCAACCGGCAAGT -AGTGACGGTTTGGTGATGGCTTGATATTGATTATCCCTGTTAAATTGTGTTGAAAGCATTTGAAATCTCTTGGTTTATGT -TGTCGTCAGGCTCATGCCGGAGGAGGGTGATGAGCGATTATATTTAGTGTGCGAATAATTTTGTTTGTAAATGCAAATGA -GAAATATACGCATTCATATTTGTCATGTAAACCAAACAGAGAATGTCTTTTCAGCGCATTCGCAGGCAGAAATGGGAATA -ATGGCGATATATACGGCAGCAAAACGATTTTTTGCTTAAGAAATCGTGAGTTAAGGTTGAAAGAGCAGGTTTAACTCGAC -CATACTCTATACTCGCAGTGTGGCGCGGCGTAGCATGGCGCAACGCATGGCTATTTGAAAAAGGAAAATGTCGTGGCAGA -AGAAACTATATTCAGCAAAATTATTCGTCGTGAGATCCCCTCCGATATCGTCTACCAGGATGATCTGGTAACGGCGTTTC -GCGATATTTCGCCGCAAGCGCCAACGCATATTCTGATCATTCCGAATATCCTCATTCCGACTGTGAACGACGTCTCAGCT -GAGCATGAGCAGGCGCTGGGACGCATGATCACCGTAGCGGCAAAAATTGCTGAGCAAGAAGGTATTGCCGAAGATGGCTA -TCGTCTGATCATGAATACCAACCGCCATGGCGGACAAGAGGTTTACCACATCCATATGCACTTGTTGGGTGGCCGTCCGC -TGGGACCAATGCTGGCGCATAAAGGTCTGTAACGATGAGAAAAGGATGCTTTGGGCTGGTGTCTCTGGTGTTGTTACTGC -TGGTGGGCTGTCGTTCACATCCGGAAATTCCGGTGAATGATGAGCAATCGCTGGTGATGGAGTCATCTTTATTGGCTGCG -GGCATCAGTGCAGAAAAGCCCTTCCTTTCGACGTCTGATATTCAACCTTCAGCATCCTCAACGCTTTATAACGAAAGGCA -AGAACCCGTTACCGTTCATTATCGTTTTTACTGGTATGACGCCAGAGGGCTGGAGATGCATCCTCTGGAAAGGCCACGCA -GCGTTACCATTCCCGCACATTCGGCGGTAACGCTGTACGGCAGCGCCAATTTTCTGGGGGCGCACAAAGTCAGACTTTAT -CTATATTTGTAAGGGGTGAATCTTGATGACAAAAATGAGTCGCTACGCCTTGATTACCGCGCTGGCGATGTTTCTCGCCG -GGTGTGTGGGGCAACGTGAACCTGCACCGGTAGAAGAAGTGAAACCAGCGCCGGAACAACCAGCCGAGCCACAACAGCCT -GTCCCCACAGTGCCCTCGGTGCCGACGATCCCGCAGCAGCCAGGCCCAATTGAGCACGAAGATCAAACTGCACCGCCTGC -GCCGCATATTCGCCATTATGACTGGAATGGCGCAATGCAGCCGATGGTCAGTAAGATGCTTGGGGCTGACGGGGTGACTG -CGGGTAGCGTCCTGCTGGTTGATAGCGTTAACAACCGTACTAACGGTTCGCTGAATGCCGCAGAAGCGACCGAAACGCTG -CGAAATGCGCTGGCTAATAACGGGAAATTTACCCTGGTTTCCGCCCAGCAACTGTCGATGGCGAAGCAACAGTTAGGTTT -GTCGCCGCAGGACAGTTTAGGCACCCGTAGTAAAGCCATAGGCATTGCCCGCAATGTCGGCGCTCATTACGTGCTGTACT -CCAGCGCCTCTGGCAACGTTAACGCTCCGACCCTACAAATGCAGCTGATGCTGGTGCAGACGGGCGAAATTATCTGGTCA -GGTAAAGGTGCCGTTTCGCAGCAATAATCCCATCACGCGCGACGAATTGCTGTCGCGCTTTTTCCCGCAGTATCATCCCG -TCACGACGTTTAATAGTGGGCTTAGTGGCGGGAGTTTTCTCATTGAACATCAGGGCCAGCGTTTTGTTGTGCGTCAGCCG -CACGATCCTGATGCGCCGCAGTCCGCGTTCTTGCGCCAGTATCGGGCTTTATCACAACTACCCGCATGCATTGCACCGAA -GCCGCATTTATATCTCCGTGACTGGATGGTAGTCGACTATCTGCCCGGCGCGGTAAAAACGTATTTGCCGGATACCAACG -AACTGGCAGGCTTGCTGTATTATCTACATCAACAACCACGTTTTGGCTGGCGAATAACGCTGTTGCCGTTACTGGAACTG -TACTGGCAGCAAAGCGATCCGGCGCGGCGGACAGTGGGTTGGCTGCGAATGTTAAAACGTCTGCGCAAAGCGCGGGAACC -ACGGCCTTTACGCTTAAGTCCATTGCATATGGATGTCCACGCCGGAAATTTAGTGCATAGCGCGTCAGGGTTAAAACTCA -TCGACTGGGAGTATGCCGGAGATGGTGATATCGCGCTGGAACTGGCGGCGGTGTGGGTGGAAAATACTGAACAGCACCGG -CAATTGGTCAATGACTATGCCACTCGCGCGAAGATTTATCCGGCGCAATTATGGCGTCAGGTCAGGCGATGGTTTCCCTG -GCTGCTGATGCTCAAAGCAGGGTGGTTTGAGTACCGCTGGCGACAAACCGGCGATCAACAATTTATCAGGCTGGCCGATG -ACACCTGGCGGCAGCTATTAATAAAACAATAAGGAGAGCAGTGTGGGTCCAGTAATGTTGGATGTCGAAGGTTACGAACT -GGACGCGGAAGAGCGTGAAATACTGGCGCATCCGCTGGTGGGAGGGCTGATTCTCTTTACGCGTAACTATCATGATCCTG -CCCAGTTACGTGAACTGGTGCGCCAGATCCGCGCAGCTTCGCGCAATCGTCTGGTGGTGGCGGTTGATCAGGAAGGTGGA -CGCGTGCAGCGTTTTCGTGAAGGTTTTACCCGCTTGCCAGCGGCGCAATCATTCGCTGCGCTGTCAGGAATGGAAGAGGG -TGGCAAACTGGCGCAGGAGGCAGGTTGGTTGATGGCCAGCGAAATGATCGCTATGGATATTGATATCAGCTTTGCGCCTG -TGCTGGATGTCGGGCATATCAGCGCGGCGATTGGCGAGCGTTCTTATCATGCCGATCCACAAAAAGCCCTGGCAATTGCC -AGCCGGTTTATTGATGGTATGCATGAAGCCGGAATGAAAACGACCGGGAAACACTTCCCAGGACACGGTGCAGTAACGGC -AGACTCACACAAAGAAACACCGTGCGATCCACGTCCACAAGCGGAGATTCGCGCTAAAGATATGTCGGTCTTCAGTTCCT -TAATCCGCGAAAATAAACTCGACGCCATTATGCCTGCGCATGTGATCTACAGTGATGTTGATCCGCGTCCGGCGAGCGGT -TCTCCCTACTGGCTGAAAACCGTTTTGCGTCAGGAACTGGGTTTTGACGGCGTGATTTTCTCTGACGATTTATCGATGGA -AGGTGCCGCGATTATGGGCAGTTATGCCGAACGCGGGCAGGCTTCACTGGATGCGGGTTGCGATATGATCCTGGTCTGCA -ATAATCGTAAAGGGGCCGTCAGCGTGTTAGATAATCTGTCACCGATCAAGGCAGAACGTGTTACACGTTTGTATCATAAA -GGTTCATTTTCGCGACAGGAACTGATGGACTCGGCTCGCTGGAAAGCGATCAGCACCCGTCTGAATCAGTTACATGAACG -CTGGCAGGAAGAGAAAGCAGGTCACTAACCCTGGCTTATGTGAGGAAGCGATGATTATCTATTTACACGGTTTTGACTCT -AACAGTCCGGGTAACCACGAGAAAGTCTTACAATTGCAGTTTATTGACCCGGATGTACGCTTGATAAGCTACAGTACGCG -GCATCCGAAACATGATATGCAGCATCTGCTTAAAGAAGTGGACAAAATGTTGCAACTGAACGTTGACGAGCGTCCGCTAA -TTTGCGGCGTTGGCTTGGGCGGATACTGGGCGGAACGGATTGGTTTTCTTTGCGACATCCGCCAGGTGATCTTCAACCCT -AATTTGTTCCCTTATGAGAACATGGAAGGCAAGATTGATCGCCCGGAAGAGTATGCCGATATTGCCACTAAGTGTGTGAC -CAACTTCCGTGAGAAGAATCGCGATCGTTGCCTGGTGATTTTGTCGCGTAATGATGAAGCGCTTAACAGCCAGCGGACAT -CTGAAGAGTTGCATCATTATTACGAGATTGTCTGGGACGAAGAGCAGACGCACAAATTCAAGAATATCTCCCCGCATTTA -CAGCGCATTAAAGCGTTCAAAACCCTCGGGTAAATGCCCTCGTCGCATCAGGTAACCTTGCCGGTACCTGATGCGCTCCG -AATTCTGTGGGTCGGATAAGGCGTCCACGCCGCATCCGACAGTCGAGCATCAATGCCTGATGCGCTTCTTATCAGGCCTA -CCGAACGCCCTGCATACACCCCTCACTCTATATCACTCTCACAAATTCGCTCAAATAATAAACAATAAACTCTGTTTTTT -GATCTCACCCGGTAAAGTCGCCTATCTTTTCAGCAACAAAACTTGATTAACATCAATTTTGGTATGACCAATGCACCATT -CATGTTATTCTCAATAGCGAAGAACATTTTCATTGCTGTAACCTGTTGTTAATTAAGAGCTATGTTAATAACCATTAATT -AACAATTGGTTAATAAATTTAAGGGGGTCACGTTGACTACGCCATTGAAAAAGATTGTGATTGTCGGCGGCGGTGCTGGT -GGGCTGGAAATGGCAACACAGCTGGGGCATAAGCTGGGACGCAAGAAAAAAGCCAAAATTACGCTGGTCGATCGTAACCA -CAGCCACCTGTGGAAACCGCTGCTGCACGAAGTGGCGACTGGCTCGCTTGATGAAGGCGTCGATGCGTTGAGCTATCTGG -CCCATGCGCGCAATCATGGTTTCCAGTTCCAGCTGGGTTCCGTCATTGATATTGATCGTGAAGCGAAAACAATCACTATT -GCAGAACTGCGCGACGAGAAAGGTGAACTGCTGGTTCCGGAACGTAAAATCGCCTATGACACCCTGGTAATGGCGCTGGG -TAGCACCTCTAACGATTTCAATACGCCAGGTGTCAAAGAGAACTGCATTTTCCTCGATAACCCGCACCAGGCGCGTCGCT -TCCACCAGGAGATGCTGAATTTGTTCCTGAAATACTCCGCCAACCTGGGCGCGAATGGCAAAGTGAACATTGCGATTGTC -GGCGGCGGCGCGACGGGTGTAGAACTCTCCGCTGAATTGCACAACGCGGTCAAGCAACTGCACAGCTACGGTTACAAAGG -CCTGACCAACGAAGCCCTGAACGTAACGCTGGTAGAAGCGGGAGAACGTATTTTGCCTGCGTTACCGCCACGTATCTCTG -CTGCGGCCCACAACGAGCTAACGAAACTTGGCGTTCGCGTGCTGACGCAAACCATGGTCACCAGTGCTGATGAAGGCGGC -CTGCACACTAAAGATGGCGAATATATTGAGGCTGATCTGATGGTATGGGCAGCCGGGATCAAAGCGCCAGACTTCCTGAA -AGATATCGGTGGTCTTGAAACTAACCGTATCAACCAGCTGGTGGTGGAACCGACGCTGCAAACCACCCGCGATCCAGACA -TTTACGCTATTGGCGACTGCGCGTCATGCCCGCGTCCGGAAGGGGGCTTTGTTCCGCCGCGTGCTCAGGCTGCACACCAG -ATGGCGACTTGCGCAATGAACAACATTCTGGCGCAGATGAACGGTAAGCCGCTGAAAAATTATCAGTATAAAGATCATGG -TTCGCTGGTATCGCTGTCGAACTTCTCCACCGTCGGTAGCCTGATGGGTAACCTGACGCGCGGCTCAATGATGATTGAAG -GACGAATTGCGCGCTTTGTATATATCTCGCTATACCGAATGCATCAGATTGCGCTGCATGGTTACTTTAAAACCGGATTA -ATGATGCTGGTGGGGAGTATTAACCGCGTTATCCGTCCGCGTTTGAAGTTGCATTAATCGACGTACACTGGCGGATGTGG -CATAAACGCCTCATCCGCCCTTGAGGAACAGCGCGATCGGCAGCCGCGTTGTATCAGGCATCCTTTCAGACTCCTCCGAA -TCCTTAAGTATTTCCAGCCATTCCCGCGCTTTTCATCTTCTGTCTGATAGCTGCTTTTCTCCTTCGCTTGCATGATTGGC -ATAACTGCAAAGAAGGAGGTGTTCCCGTGAATAAATCAATGTTGGCGGGTATCGGGATTGGTGTCGCAGCTGCGCTGGGC -GTAGCGGCAGTGGCCAGTCTGAACGTGTTTGAACGGGGCCCGCAATACGCTCAGGTTGTTTCTGCAACCCCAATCAAGGA -AACGGTTAAAACACCGCGTCAGGAGTGTCGCAACGTCACAGTGACCCATCGTCGACCGGTGCAGGATGAAAATCGCATTA -CCGGGTCGGTGCTCGGCGCTGTTGCTGGCGGCGTGATAGGGCATCAGTTTGGTGGTGGTCGCGGTAAAGATGTCGCCACT -GTTGTGGGGGCGCTGGGTGGTGGATATGCCGGTAACCAGATCCAGGGCTCTCTCCAGGAAAGCGATACTTACACGACTAC -GCAACAGCGTTGTAAAACGGTGTATGACAAGTCAGAAAAAATGCTCGGTTATGATGTGACCTATAAGATTGGCGATCAGC -AGGGCAAAATCCGCATGGACCGCGATCCGGGTACGCAGATCCCGCTAGATAGCAACGGGCAACTGATTTTGAATAACAAA -GTATAACAAGGCTGTACTCTGCAATTTGGCCCCTCATTCGCTCAGGCTGAGGGGCTTTTTTTGCGACTTATTTCACCAGT -TCGGGCCATAAACGCAAAGTCGTTCCGGCAATCTGCATCAGTTTTTCCAGCGATGCACCTTCGCGTGCGCTGATCGACAT -CCCCTGAATAATACAATTAAGGAATTCTGCCAGATGTGTCACGTCACAGTGGGGCGGGATTTCCCCGCGCGCTTGTCGTT -GACATAAAAACTGCTGCAAAGTGCGCTCTTGCATCGCATGGCGTGATTTCAACGTATTGGCGATATCTCCTGAATCTGGG -GAGAGGGTGGTGCAGTTGTTGATCATGAAGCAGCCTGCCGGGGTGTCTTTGCTGGTAAAGCAGTTGGCGATGGCAGCAAA -ATAGTCAGCCAGCGCAGACTCCACGCTTTTCTCTTCACAAAACAGCTGTGCTTCATGCTTAGCGGCAAAACGATCGATAT -AGCGGTCGAGAACGGCACGAAATAACCCCTCTTTGTTGGTAAATTCCGCGTATAGCGTGGGCGCTTTGGCTCCGGTCGCT -TCGACGAGGTCCGCAAGAGAAGTCGCTTCATAACCGTGTTGCCAGAACAATTTCATGGCCTTATCAAGCGCGGCATCCCT -GTCGAACACTTTTGGGCGGCCACGGCTTTTTTTTACACATTGTGTTGAGTCAGTTGCCATGATGCCGTTGTACCTGGTGA -CTGTGAATGAAAGGTTATTATAAAAATAATCACCTCCGTTCACCAGTCCAGATCCCATAAAAATAATTGCTTTCTATTTA -ACTGAAATTTAAAGATTTTTAAATTAATTAATGATTGTTATAAAAAATATCTTGTATGTGATCCAGATCACATCTATCAT -TTAGTTATCGATCGTTAAGTAATTGCTTGCGACGTCATTCATCTGCATAAGGCCACTATTATGAAAAACGTAAAAACCCT -CATCGCTGCGGCGATTTTAAGCTCCATGTCATTTGCCAGCTTTGCGGCTGTCGAAGTTCAGTCAACGCCAGAAGGCCAAC -AAAAAGTCGGTACAATCAGTGCTAACGCGGGGACAAATCTGGGATCGCTGGAAGAGCAGCTGGCGCAAAAAGCGGATGAG -ATGGGCGCAAAATCTTTCCGTATTACTTCTGTAACCGGTCCGAATACCCTCCATGGAACAGCAGTAATTTATAAATAAGC -ATTAACCCTCATTAATGCCTGCTACTGCTGATTTTTTCCCCGCGACATGCCGTGTCGCGGGGATTTTTTTATCCGGGCTT -TACAGCGTTTGTGGGCTCACTTGATGACGGCGGACATCCACCGGCATCCCGGAACGGACATCCATCACATGTTGCATCAC -TTCAGCGTCAGTTTGTGCTGCATCTTTAAATGATTGCATTGCGCTATTCAGCGTAATTGGCAGCAGCTGCGGATCGTCAT -CAATCTTCTCTGACAGCGGCTGATGTACTTCAACCAGACGCGCACCGTTTGGTTCGGCAGAGACTTTTATCGGAGTGTTG -ATGATATTCACTTTGGTGCCTGGGGTGACCTGGCTAAAGAGTGTTTTGATATCGTCATCCCGCAGACGAATACAGCCAGA -ACTTACCCGCATGCCAATGCCGAAATCGGCGTTCGTACCATGAAGCAAATAAACGCCGCCATAGGCCGCCAGACGAATCG -CATGATGGCCCATTGGGTTATCCGGTCCAGCCGGCACTACCGCAGGCAACTCAATTCCCTGTGCTTTATAACGGGCGCGG -ATGTTTGCCGTTGGCGTCCAGGTTGGGTTTGCACGTTTGTCTGAAACGGTGGTCACCATTGTCGGTGTCAGCGTGTCACC -ACCTAACTGACCAATACCTATTGGATACACGGTTACCGAATTTTTACCCGGCGGGTAGTAATAGAGACGCAGCTCCGCAA -TGTTGATCACAATGCCTTCGCGCGGCGCATCTGGAAGTAGGGTTTGCAACGGGATCGTTAACACGCTGCCCGCGCGCGGT -ACGTAAGGATCAACGCCGGGGTTAGCCTGTAACAGAGCGAGAAAGCCGACGTTGTATTTTTTGGCGATGGCTTCCAGAGA -ACCACCGTCATTTTCCACCACATGAAATTTGTTTTCGCCAACCAGACGACTGCCCGCTGGCGGCAGCGGCCAGGTGTTGG -CTTTTGCCGGTAGCGCCAGCGCCACGGCAGCGGCGAACGTAAAAAACGTTAGCCAGCGAGAAAAACGCGTTTTGATCATC -ACCAAAAATCCATAATAAATATAAGGTTATTGTAATAAACAGATAAGCCTGAATTATGGATGGTGACAGTGTCGGATAGT -GCAGGGAAGTGCAAAGAATTTGTAAATGTTGCAGATGGGGGCGCAGAAACGCCCCCGATTTACCATTAAGCGATCGCGTT -CTCTTCCAGTTCACGCATAAACTGGCGTACCCATTCGATACGCGTTTTCCGCTCACTCAAATCCTGAATAAATTTCAGGC -GCGTCGGACCATCAAGGCGGTAATGCTGCGGCTGTTTTTGCAGCAAACCAATCAACCAGGCCGGATTAACGTGATTCTTC -TCGGCAAATTCGATCACCCCGCCTTTCTCATTACCTTCCAGCTTCCTGATCCCCAGTTTCTGCGCTTGCTGGCGCAGACG -GGCAATATCCAGCAGGGTACGCGCCGGATCTGGCAGCAGGCCGAAGCGATCGATAAGCTCGACTTTGATCTCTTCCAGTT -CGTTTTCCGTTTTGGCGCTGGCAATACGTTTGTAGAACGACAGACGCGTGTTCACGTCAGGGATGAAATCATCTGGCAAT -AGCGACGGCATCCGCAGCTCGACTTCTGTTTGCTGGCTGGTGAGATCTTCCAGCGACGGCTCGCGTCCGGCTTTCAGTGC -ATCGACGGCGTTTTCCAGCAACTCCATATACAGCGAGAAACCGATGGTTTCCATTGAGCCGCTTTGTTCTTCGCCAAGCA -GTTCACCCGCGCCGCGAATCTCCAGATCGTGCGTTGCCAGCGCAAAACCTGCCCCGAGATCTTCCAGCGAGGCAATTGCT -TCAAGACGTTTTTGTGCATCGGTAGTCATCGCTTTTGGATGCGGTGTCAGCAACCATGCATATGCCTGATGATGCGAACG -TCCGACGCGACCGCGTAACTGGTGCAGCTGCGCCAGACCGAAGTGATCCGCGCGTTCAATGATAATAGTGTTGGCTGTCG -GGATGTCGATCCCGGTTTCGATAATGGTTGTACAAACCAGCACGTTGAAACGTTGATGATGGAAATCATTCATCACCCGT -TCCAGTTCGCGCTCGCGCATCTGCCCGTGACCGATGGCGATCCGCGCTTCTGGCACCAGTTCTGCCAGCCGTTCGGCGGC -TTTCTGAATGTTTTCCACATCATTGTAGAGATAATAAACCTGTCCTCCGCGCAAAATTTCACGCAGGATCGCCTCCCGGA -CCACCATGCTGTCATACTCACGGACAAAGGTTTTAACTGCCAGACGACGGGCGGGCGGCGTGGCGATAATCGACAGGTCA -CGCATTCCGCTCATTGCCATATTCAGCGTACGTGGGATCGGCGTTGCAGTAAGCGTCAGAATATCCACGTTCGCGCGCAT -CGCTTTAATGCGCTCTTTATGACGCACCCCGAAGCGGTGTTCTTCATCGACAATCAGCAGGCCTAAATCTTTAAACTTGA -CGTCACTTTGCAGCAGTTTGTGCGTACCGATCAGAATATCGATTTTCCCTTCCGCCACTTCCGCAAGGATTTGCGTCTGC -TCTTTGGCGCTGCGGAAACGGGAGATCATTTCGATACGTACCGGCCAGTTGGCGAAACGGTCGCGGAAGTTGTCGTAATG -CTGCTGCGCGAGAAGGGTGGTAGGCACCAGCACCGCCACCTGCTTGTGGTTATCTACTGCCAGGAAAGCTGCGCGCATCG -CCACTTCTGTTTTACCAAAGCCAACATCGCCGCACACCAGACGATCCATTGCCAGCGGCTGACACATGTCGCTAAGTACC -GCATTAATGGCCTGCGCCTGATCCGGCGTGGTTTCAAACGGGAAGCTGTCGCAGAACAACTGATACTGCTCACGATCGTG -TTTAAACGCGAAGCCCTCTTTGGCGGCGCGTTGCGCGTAGATATCCAGCAATTCCGCCGCCACATCACGCACTTTTTCCG -CCGCTTTCTGCCGCGCGCGTGACCACGCATCGCCGCCAAGTTTATGCAGCGGGGCGTTTTCTTCCGCGCCACCTGCGTAA -CGGCTAATCAGATGCAGTGACGACACCGGAACATACAGTTTGGCGTCGTTGGCATAGGTGAGCATCAGATACTCGCCAGT -AATGCCACCCGCTTCCAGCGTGGTCATTCCGGCATAACGACCGACGCCGTGCTCCAGATGGACCACCGGCTGACCAATAT -GCAGTTCCGCAAGGTTACGGATCAGTGTATCGGGGTTGATGGTGCGGCGAGAATCCTGACGACGACGGGCAACGCGTTCA -CCGAGCAGATCGCTTTCGCAAATCAGCGCCAGATTACGCACCGTATCGACAAAACCATGTTCGGCAGCGCCAATCATCAG -ATAACGCCCACGGTCGCTGGCTTCATCAAGACGCATAATGCGTTGCGGAGCAATTTTAATTCGTGCGAGCAGTTCACCCA -GCGCTTCACGGCGACCTTCACTTTCTACCGAGAACACCACCGGACCGTCGAAAGTCTCGAGGAACTTACGCAGCGCATCC -AGCGGCGCTTTTTGTTGTGCCTGAACGGCCAGGTCTGGCAGTTTCTGGAAACCTAAATTGGCATTCGCGGCTTTTGTCGG -TAAATGTTCAGTTTTTAGCTGCACCCGGGGCCAGTTTTTCAGCTCTGAGAAGAGCTCGTCCACCCGCAGCCAGAGCGATT -GTGGTGGCAACAGCGGGCGCATCGGATCGACGCCGCGATTCTCAAAACGCGCCAGCGTGTCAGCCTGGAAACGTTCGGCA -CTGGTTTCCAGATCGCCAGTATTCACGAGCAAGGTATTGGCAGGGAAATAACTGAACAGCGGCGGCAGTGGTTCGCTGAA -GAACAATGGCTGCCAGTACTCGATCCCGGCAGGTAATGTGCCTTTACTCACTTGCTGGTAAATATGTTCTGGATCGCGCT -TCACTTCGAAGGTATCGCGCCACTGGCTGCGGAACAGTTCAATTGCCGCTTTATCGGTCGGAAATTCGTGCGCGGGCAGC -AGATTGATCGCTTCTACTTCCTCCAGCGTGCGCTGGCTGTCGACGTCAAACACCCGCAGGCTGTCGATTTCATCATCAAA -GAAATCAAGACGATAAGGCAGCTCACTCCCCATCGGGAAGAGATCCAGCAACGCGCCGCGCGTGGCGTATTCGCCGTGCT -CCATCACCTGGTCAACATGGCGATAACCGGCGCTGTCCAGTTGGGTTCGTAATGCATCTCGTGACAGGCGCTGACCTTTT -TTCATCACCAGCGCATGACCGTGGAGAAAACTGTGTGGGCAAACGCGCTGCATAAGCGTATTCACCGGAACAATCAGTAC -GCCACGCTGCATCGTCGGTAGCTGGTAAAGGGTGGAAAGGCGCGAGGAGATAATGTCCTGATGAGGCGAAAAACTGTCGT -AGGGAAGAGTTTCCCAGTCCGCCAGATTCATCACCATTTGATCGGTAAACTGGCTGATTTCATCATGCAAACGCAGAGCA -TTTTGCATATCTGGTGCAATGAGTACCACCGGACCGGCGTGACGTTCGGCAATTTCCGCTACCAGCGTTGCACAGGCTGC -GCCGGTTAACTCGCCCAGCAGACGCTGCTCACCCGCTTTGACGGGCAGCGTATAACGATATTGTTCAGGCATAACGGTTG -TCAGATTCTCGTTAGGATATGCCTCAACATATGGGGGCATATCTCTGATAAGCAATGCTGTTCATTATCCGTAATCGACA -TGGTTTAGCAAATTGAATCGCCCCGGCTGGGGCGATGGCTTAGCGGGAGTAACTGACGGCAGCGGGCAGTGAAGGCGGGG -AGAACAACAGATCGCTGAATGCACGCTGTGAAAGTTTTCTTACCAGCAAGCCCGCAACAGTACAGATGAACAAACTGACA -AAGGGATAAACCAGCAGGAGTGTCAGTTCGACTTGCGGCGACCAGCGTGCTGCGTTCATTTGCGCAAGCAGAGTTAAGCT -GAATATTTCAACCAGAATGCGATGGGTGGTGTAGATAGCAATGGTGTTGGAGCCAATCACATTCAGCAGGCTGGTGGAGC -GCATACCGAATCGTTGCTCGTATTGATAAAACAGCTTCATGATCACCACAATCGATACCAGCGACAACAGCAGCGAGATA -GTAAACAACCAGGCACCGACCGCCAGAACGGTAAGCAAAGAAGCCATCAGCAGATGGCGGCGCAACGGCACCTCTTTAAC -ACAGGTCATTATTGTTGCGCCAAACCATGCGCCAAGGCTGTAATAAGGCAAATTGCGGATCACACTGTTCATTCCCCACC -ACGGCGTGGGAACGAAATTAACCGCCACACTCAGCAGTACAAACAAGGCGAATAGTGGCAGCGCCAGACGGCTAAAAATT -TTACATACCACGAAATAGACAATTAACGCATACAGATACCACAAGCTGGTGCTGGCGGTGATCATCCCGTGCAGGAACTC -ACCGGTGGAATCGGCATAAGCGGCATTGGAGGCATTGCTTAAATCGCGCTCAGGTGCCAGCCACTGGTTCAGCGCACTTA -ACGCCAGCCACTGCACCACGCCCCAAAGCGCCAGCACCCAGAAGATGTTCCAGATCCGTTTATCGAGACAATTTCCCCAC -GGTACGCTGTCGATATAGCGGCGAATCAAATAGCCGGATATAAAGAAAAAAACCGGCATACGAAAGGGGGCAAGGTAAAG -ATTGAAATAGATCCAGCATTTGCTCAGGACTTCCGATAACGGATGCTGAAAAGTGGTCAGATGCGGATAAAAGGTAATGA -CCGAGTGATAAATCACCACCAGACAAATACATAACCCTTTGATCTGGTTAATCCATAGCTCTTTTTGTTTCATCAGGACA -ACACGCTCTTTTTTAATTTACATGCGGTTGATCCTGCGGGTTATGACCCGAGGTGTAATGGGTATCTGTCTGTATTGGAT -GATTTTTCAGATTAAGATCAGGCGGCAAGATTGATGATAAAACATGGCAATTTAGCCGATTGATTTACGGGGGCTTTTCA -GATTAGCCCTGACGATCACTTACAGTTCAGACGTTTACCCATCTTGCTTTCGCTTATATACTCGTGTCTTTGCTACAGCA -ACCAGACGGATTTCATGTACCAACCTGTCGCTCTATTTATTGGCCTGCGTTACATGCGTGGGCGTGCAGCGGATCGCTTC -GGTCGTTTCGTCTCCTGGCTTTCTACCATCGGCATTACCCTCGGGGTGATGGCGCTGGTCACAGTATTGTCAGTGATGAA -CGGCTTTGAGCGCGAGCTGCAAAACAACATCCTTGGCCTGATGCCACAGGCAATTCTCTCTTCTGAGCATGGCTCTCTTA -ACCCGCAGCAACTCCCAGAAACGGCAGTCAAACTGGACGGCGTTAATCGCGTCGCACCTATTACTACCGGTGATGTGGTA -CTGCAAAGCGCGCGCAGCGTGGCGGTCGGGGTGATGCTCGGTATCGACCCGGCGCAAAAAGATCCACTTACACCGTATCT -GGTCAATGTGAAACAAACTGACCTCGAGCCGGGGAAATATAATGTCATCCTCGGCGAACAACTTGCCTCACAGCTAGGCG -TTAATCGCGGTGATCAAATCCGCGTGATGGTACCATCTGCCAGCCAGTTCACGCCGATGGGGCGTATTCCAAGCCAGCGC -CTGTTCAATGTGATTGGCACTTTCGCCGCCAACAGTGAAGTCGATGGCTATGAAATGCTGGTGAATATTGAGGATGCCTC -GCGTCTGATGCGTTATCCGGCAGGCAATATTACCGGCTGGCGTTTGTGGCTGGATGAGCCGCTGAAAGTCGACTCATTAA -GTCAGCAAAAACTGCCTGAAGGCAGCAAATGGCAGGACTGGCGTGATCGTAAAGGCGAGTTGTTCCAGGCCGTACGCATG -GAAAAAAATATGATGGGTTTACTGCTGAGCCTGATTGTCGCCGTTGCGGCGTTTAACATTATTACCTCACTAGGGCTGAT -GGTAATGGAGAAGCAGGGCGAAGTAGCGATCCTGCAAACGCAAGGCTTAACTCCGCGACAAATCATGATGGTCTTTATGG -TGCAAGGGGCCAGCGCCGGGATTATCGGTGCGATCCTCGGAGCGGCGCTTGGCGCCCTGCTTGCCAGCCAGTTAAATAAT -CTGATGCCGATAATCGGCGTCCTGCTTGATGGCGCGGCGCTGCCGGTGGCTATCGAACCTTTACAGGTCATTGTTATTGC -GCTGGTGGCGATGGCTATCGCGCTGCTGTCTACGCTTTACCCTTCATGGCGCGCTGCCGCCACTCAACCCGCTGAGGCTT -TACGTTATGAATAAGATCCTGTTGCAATGCGACAACCTGTGCAAACGCTATCAGGAAGGCAGTGTGCAAACCGATGTGCT -GCACAATGTCAGTTTCAGCGTCGGCGAAGGTGAAATGATGGCGATCGTCGGTAGCTCTGGTTCCGGTAAAAGTACCTTGC -TGCACCTGCTGGGCGGGCTGGATACGCCAACCTCCGGCGATGTGATTTTTAATGGTCAGCCAATGAGCAAACTGTCGTCG -GCAGCGAAAGCTGAACTGCGCAACCAGAAGCTGGGCTTTATTTATCAGTTTCACCACCTGCTGCCGGATTTTACCGCCCT -GGAAAACGTGGCTATGCCGCTGCTGATTGGCAAGAAAAAGCCCGCTGAAATCAACAGCCGTGCACTTGAGATGTTAAAAG -CGGTGGGGCTGGATCATCGTGCGAATCACCGCCCATCTGAACTTTCTGGCGGCGAACGCCAGCGTGTGGCGATTGCCCGT -GCGCTGGTGAATAACCCGCGCCTGGTACTGGCGGATGAACCTACCGGTAACCTCGATGCGCGTAACGCCGACAGCATCTT -CCAGTTGCTTGGGGAATTGAATCGCTTGCAGGGCACCGCCTTCCTGGTGGTTACTCACGACCTGCAACTGGCGAAACGTA -TGAGCCGCCAGTTAGAAATGCGTGATGGTCGTCTGACGGCGGAACTGAGCCTGATGGGGGCGGAGTAATGGCGATGCCTT -TATCGTTATTAATTGGCCTGCGTTTTAGTCGCGGACGGCGGCGCGGCGGCATGGTGTCGCTGATCTCCGTTATTTCTACC -ATTGGCATTGCCCTCGGCGTGGCGGTATTGATCGTCGGCTTAAGCGCGATGAACGGCTTTGAACGCGAACTGAACAACCG -TATTCTGGCGGTGGTGCCGCATGGTGAAATCGAGGCGGTGGATCAGCCGTGGACTAACTGGCAGGAAGCACTGGATCACG -TGCAAAAAGTGCCGGGTATTGCCGCTGCCGCGCCGTATATCAATTTCACCGGGCTGGTGGAAAGTGGCGCGAATCTTCGC -GCAATCCAGGTGAAGGGCGTTAACCCGCAACAGGAACAGCGTCTGAGCGCATTACCCTCGTTTGTCCAGGGCGATGCGTG -GCGCAATTTTAAAGCGGGCGAACAGCAAATTATCATCGGCAAAGGCGTGGCGGATGCGCTGAAAGTGAAGCAGGGGGATT -GGGTGTCGATTATGATCCCCAACTCGAATCCCGAGCATAAACTGATGCAGCCAAAACGTGTGCGTTTGCACGTTGCCGGT -ATTTTGCAGTTGAGTGGTCAACTCGATCACAGTTTTGCCATGATCCCGCTGGCGGATGCCCAACAATATCTTGATATGGG -TTCCAGCGTGTCAGGTATTGCCCTTAAAATGACGGATGTTTTCAACGCCAATAAGCTGGTACGCGATGCGGGTGAAGTGA -CCAACAGCTATGTTTATATTAAAAGCTGGATTGGTACTTACGGCTATATGTATCGCGATATCCAAATGATCCGCGCCATT -ATGTATCTGGCGATGGTACTGGTGATTGGCGTGGCCTGTTTCAACATCGTCTCCACCTTAGTGATGGCGGTGAAAGACAA -GAGTGGCGATATCGCAGTATTAAGAACGCTGGGGGCGAAAGATGGTTTAATTCGCGCCATCTTTGTCTGGTATGGATTGC -TGGCAGGGCTGTTCGGCAGCCTGTGTGGTGTGATTATCGGCGTAGTGGTTTCACTGCAACTTACCCCGATTATTGAGTGG -ATTGAAAAGTTGATCGGTCATCAGTTCCTCTCCAGCGATATCTATTTTATTGATTTCCTGCCATCGGAATTGCACTGGCT -GGACGTCTTCTACGTACTGGTCACAGCATTGTTGCTGAGTCTTTTGGCAAGTTGGTATCCGGCGCGGCGCGCCAGTAATA -TTGACCCTGCGCGAGTCCTTAGCGGCCAGTAAAGGCAGTACATTAAAACAAGGAGCGGCAATGTATTACGGGTTTGATAT -TGGTGGAACAAAAATTGCGCTTGGCGTGTTTGATAGCGGTCGGCAGTTGCAGTGGGAAAAGCGGGTGCCGACACCGCGTG -ACAGCTATGACGCATTTTTAGATGCAGTGTGTGAGCTGGTAGCTGAAGCTGACCAACGTTTTGGCTGTAAAGGTTCTGTC -GGCATCGGTATTCCGGGAATGCCGGAAACAGAAGATGGTACGCTGTATGCCGCCAATGTCCCCGCTGCCAGCGGTAAACC -GCTGCGTGCCGACCTGAGCGCACGTCTTGATCGCGATGTACGCCTTGATAACGATGCCAACTGTTTTGCCCTTTCAGAAG -CCTGGGATGATGAATTTACTCAATATCCACTGGTGATGGGGTTGATTCTCGGCACCGGTGTTGGCGGCGGGCTGATTTTC -AACGGCAAACCGATTACCGGTAAAAGCTACATTACCGGCGAGTTTGGCCATATGCGTCTGCCGGTTGATGCGTTAACCAT -GATGGGGTTGGATTTCCCGTTACGCCGCTGCGGCTGTGGTCAGCATGGCTGCATTGAAAATTATCTGTCTGGTCGCGGTT -TTGCGTGGCTGTATCAACACTATTATCATCAACCGTTGCAGGCTCCCGAAATTATTGCGCTTTATGATCAAGGCGATGAG -CAGGCAAGGGCGCACGTTGAGCGTTATCTGGATTTATTAGCGGTTTGTCTGGGAAATATCCTGACCATCGTTGACCCTGA -CCTGGTCGTCATTGGTGGTGGCTTATCGAATTTCCCGGCAATCACAACGCAACTGGCGGACAGGCTGCCTCGTCATCTCT -TACCTGTAGCTCGTGTTCCGCGCATTGAACGCGCGCGCCACGGTGATGCGGGAGGAATGCGTGGTGCGGCCTTCCTACAT -CTAACCGATTAAACAACAGAGGTTGCTATGCTGTCGCGTCGGGGTCATCGGTTAAGTCGTTTTCGTAAAAATAAACGCCG -CCTGCGCGAGCGTTTGCGTCAGCGTATTTTTTTCAGAGATAAAGTGGTGCCGGAAGCAATGGAAAAACCAAGAGTACTCG -TACTGACAGGGGCAGGAATTTCTGCGGAATCAGGTATTCGTACCTTTCGCGCCGCAGATGGCCTGTGGGAAGAACATCGG -GTTGAAGATGTGGCAACGCCGGAAGGTTTCGATCGCGATCCTGAACTGGTGCAAGCGTTTTATAACGCCCGTCGTCGACA -GCTGCAGCAGCCAGAAATTCAGCCTAACGCCGCGCATCTTGCGCTGGCTAAACTGCAAGACGCCCTCGGCGATCGCTTTT -TGCTGGTGACGCAGAATATCGACAACCTGCATGAACGCGCAGGTAATACCAATGTGATTCATATGCATGGGGAACTGCTG -AAAGTGCGTTGTTCACAAAGTGGTCAGGTTCTCGACTGGACAGGAGACGTTACCCCAGAAGATAAATGCCATTGTTGCCA -GTTTCCGGCACCCTTGCGCCCGCACGTAGTGTGGTTTGGCGAAATGCCACTCGGCATGGATGAAATTTATATGGCGTTGT -CGATGGCCGATATTTTCATTGCCATTGGCACATCCGGGCATGTTTATCCGGCGGCTGGGTTTGTTCACGAAGCGAAACTG -CATGGCGCGCACACCGTGGAACTGAATCTTGAACCGAGTCAGGTTGGTAATGAATTTGCCGAGAAATATTACGGCCCGGC -AAGCCAGGTGGTGCCTGAGTTTGTTGAAAAGTTGCTGAAGGGATTAAAAGCGGGAAGCATTGCCTGATGCACTACGCTTA -TCAGGCCTGCAAGGGGACGCAATTAATTGAATTTGCGGGTTTTGTGGGCCGGATAAGGCGTTCGCGCCCCATCCGGAATA -ATACACGCGCACTTTTCCGGCCTCTTTTATCGTTTACTCGTCAATAACAATGCGGCAATAAACGTACAGACACCAATTAG -CCCTGCCCAGAGTGGCGATATTCTGGTAATCGCAAAGCTATTATCGATATACAAACATAAAGCCTGATAACCCATATTGG -CAATAGTCATCGCCACTGCAAATTTTAACGCATAAATAAAACGAGTCGTGTAGTAAAAGATCCTGGAAAATAAGATAAAC -GTCGCAGCCCAGGCGATAAAACCTAATGTGTTGGTGCTGCCGGGGGGAGCATTTTCATGCTGTTGTCCTGGATGCGGATA -ATACGTTAGTGGCGGCGTCGATTGTTTTAATATCTGTGCTTGTAGAACAGCCAATGCATTATTGATTCCCTGATACCAGA -GATCTGCATTTAAATAAGCCAGCGTGTGATTTTCTATCAGAAGGCCGAGATGTTTATCGTCCAGACCACTTTCAACCTGG -CCGTTGGTGATCATAATTAACCGTGGTTCGCGGGTAGTAAATAGTAACAGAACACTTCCTTTTACATCACTCAATGAAGA -TGACGCATGCGCCAGCATCGCTTTACCATTTTGTCTGAGACTGGCTTCATTATTAATGTCGGGTAAAACCACAATAAACG -GTGCAATTCCCGTTTGTTGGCGAAAAAGCTCGGCTTTATGCGCGATCTCTTCAGCATCTGGTACAGTACCGGTAACGTCC -GTAAAAAGTGTCTTCATTATTGGAATTAATGGCTTGCTGGCTGCTGTCAGAGGCAGGAGTATCAGTAAACTGAGCAGTAT -AATGAATTTTTTCATGGGCGGGACTTCCGTTTCCTGCGTGATTTTTTAGAGGAGGGCATACTTATTAATAAACCGACGGC -GATAAAAATAACGCCCATAATGCCGATAAACCCCCATTTAAAAAAATTAACCCACGGGTTATTTATCTCAGCCTTTTCAG -GATGCCCGGGAGAATAATAAACATTAACTTTATCGCCTTCGCTGTCTTCATAAAAATCGCTGCCGATACTCGAATTGAAA -ATTAGCGTGTAATCTGGCGTCGGTCGAAAGGCAACGACGGGATACCACGAACCATCTTTACCCGTGCGATGAGAATGACT -GGAGTGCCAGACGGTATCAACAATGACGCCTTCGGTATGAATCGCGTCTTTGCTATAGGTGAACTGGTTATAAAAGACAA -CAACAGAAATGAGGATCAGTACCAGACCGATACCGAGGAATATACGAAAGAAAACTTTACTGTCCTGACTCATTAGCCAC -ATCCTTGCTAACTAAAAAACGGGCGGTAATACCACCGCCCGCTTGCTGAATTAACGTCCTGCTTTCAGCTTCTGATAATA -CTCTTCATAAATGCTGCTGGCTGCGCCAACGTCATTCTGCCATTCGCCATTTTTAATGGTTTCAGCATCCGGGTAGAGTG -TTTTATCGTTCGCCACTTCTGGACTTAACAGCTTACGCGCCGCAAGGTTTGGCGTTGGATAACCGATAGTTTCAGCAACC -TGTTTTGCCACATCCGGGCGCAGCAGGAAGTTGATCAATTTCAGCGCGCCTTCTTTGTTTTTGGCATTTGCCGGGATCGC -CAGGCTGTCCATCCAGAAAATGCCGCCTTCTTTCGGCCACACCACGTCAATTGGCGTACCCGCCTGGCGTGCAACGAAAG -CAGAACCGTTCCAGATCATGCCGAGGTTAACTTCGCCTTCCATGTACGGGTTCGCCGGGTTATCGGAGTTAAAGGCTGCC -ACGTTTGGCATCAGTTTTTTCAGCTCGTTATATGCAGCTTCAATCTCTTTCGGATCGGTGGTGTTACCGGAGTAGCCCAG -CTTACGCAGCGCCATCTGGAACACTTCACGGGCATCGTCGGTCAACAGCAGGCTGCCTTTGTACTCTGGCTTCCACAGAT -CGGCCCAGCTGGTGACAGATTTCGGATCCACCGCATCACCGTTAACACCAATCGCCGTCGCACCCCAGATATACGGAATG -GAGTAGTCGTTATTCGGGTCAAAAGGCTTGTTGAGCATGTCTGGATCGAGATTGCTGAAGTTTGTTAACTTCGACTTGTC -GATCTTCTGGATCATCCCTTCTTTACGCATTTTATCAACGTAATAGGTTGAAGGAACCACCAGATCATAGGCACCGTCTT -TGTATGTTTTCAGCTTGGCGTACATGGTTTCGTTCGACTCGTAAGTCGAATAGATAACCTTAATACCGGTTTCTTTGGTG -AACTGTTCAAGCAGTCCTGGCGGCACGTACTCGGTCCAGTTGTAGAAATACAGCGTGTTGTTGTCATCGGCGTGAGCGGC -GCTCATGCCCAGTGCCAGAGCACCCGCCGCGAGCAGGTGGCGTGACCATTTTTTCATTTAACGTCCCCTGTGTTACCTTT -CGTTTTATCACGAGCAATAAGCTGGCTGGCAATAACCATCACCAGCGACAGCACCAGTAATATGGTTGCCAGCGCGTTAA -CTTCCGGCGATACGCCGACTTTGACCATCGAATAAATTTTTAACGGCAGAATTTCATAACTTGGTCCGGTGACGAACGAA -GAAACTACCACATCGTCCATCGACAGGGTAAAGCTTAACACCCAGCCCGCCGCCACCGCTGGCATTGCCAGTGGCAGAAT -GATTTTTCGCAGAATGGTAAATTCGCTGGCACCGAGATCTTTCGCCGCTTCCAGCATTCGCACGTCAAAACCTTTCAGGC -GCGAATACACCGTCACCACCACAAATGGCAGGCAGAAGGTGATATGCGAGAACAGCAGCGACCAGAAGCCAAGCTGAATA -CCCAGCAGCATAAACAGCACCAGCAGCGAAATCGCCATCACGATATCTGGTGACATCATCACCACAAACAGCATTCCGCT -AACGAACGGCTTACCACGAAAGCGATAACGGTACAGCGCAACTGCCGTCAGTGAACCGATAAGCGTAGCAAACGTCGCCG -AAAACACCGCCATTGTTAGTGAATGCTGCGCTGCCTGTAACAGGCTGTCGTTGTTCATCAGCAGGCTATACCATTTGGTG -GTAAAGCCCTGCCAGTTGATGCCAAAGCGCGAGCTGTTAAAGGAGTTCACAATCAAAATAATGATTGGGATATACAGGTA -CGCGTAGATAGCGGTCATAAAACCGCCGCGAAGCAGTCGACCGATCATTCGAGTTCCACCTTCTTATTCAGCAAACGAGA -AGCGCGCCAGTAAACCAGCAACATCAGGCCCATTACGATAGTCAGCGTAATGCTGGTAGCTGCACCAAACGGCCAGTCAC -GAATATTAAGGAACTGGACCTTGATGACGTTACCGATCAGCAGGTTTTTCGCACCGCCCATCAGGTCGGATACATAGAAC -AGGCCCATCGCTGGCAGCATCACCAGCAGACATCCGGCAATAATTCCCGGCATCGTCAGTGGAATAATGATACGGATAAA -AGTCTGTAACTTGCTGGCACCGAGATCGCGCGCCGCCTCAAGCAACGGCTTATCCAGTTTTTCGATACTGGAGTACAGCG -GCATCACCATAAACGGCAGCAGAATGTAAACCAGACCGATAATCACCGCACTGGGCGTGAACATGATACGGATTGGTGTG -TCGATAACGCCCAGCCAGAGCAAAAACTCGTTGAGATAGCCTTTGGTGCTGAGGAAAATTTTCAGCCCGTAGATACGAAT -TAATGAGTTGGTCCAGAACGGAACAATCAGCAGAAACAGCAGCAGCGGACGCACCTTGTGTGGCAACTTCGCCAGAAACC -AGGCAAACGGGTAGCCCAGCACCAGGCAGGCGAGGGTGGCGATCAGCGCCATATTCAGCGAGTGCAATAGCACTTCAAAA -TAGAGCGGATCGAGCAGACGCGTGTAGTTATCCAGCGTAAAGACCATTTTGACAAAACTGGCGTCGTCGCGGGTCAAAAA -GCTGGTGCCAATGATCATCAGGTTGGGCAGAAAGACAAACAACACAAGCCAACCGACAATAGTGACAATCACTACATTCT -GGAACTTACTTGTGTTCTTCATCAGCCAGTACGACCTCCCAGCTTTCTACCCAATTAATGGCCATTTTTTGGTCGAGAGA -GTGGTCAAAGTCAGGATCGTCTTCATTGAAGAATTCGCTGACCATCACCATCTTGCCATTTTCCAGTTCAACAACCGACT -CCAGCGTCATGCCTTTGTAGTTACGCTCGCGAACGTAACCAATCAGCCCTTCAGCGTGGTTGTCGTCGTTAATCTCTTCA -ACACGTAAGTCTTCCGGGCGCAGCAGAACATGCAGTTTTTGCCCCGGTTCAACGGCGAAGTTAACGTAGATATTACATTC -GCGGCCTTCAACGTTGGCGCGTACGCGCTGCTCGTCTAGACGTTCGATGACAGTGGCGTTAAACATATTGATTTCGCCAA -TGAAGCCGGCAACAAACAGGTTTTTCGGCTCTTCGTAGATTTCACGCGGCGTGCCGTCTTGCTCAATGCGACCATCGCGC -ATCACCACAATCCTGTCTGACATGGTGAGTGCTTCTTCCTGGTCGTGAGTCACAAAGACGAATGTAATGCCAAGCTTACG -CTGTAACGCTTTCAGCTCGTTCTGCATTTGCTTACGCAGTTTGTAATCCAGCGCTGAGAGCGACTCATCCAGCAACAACA -GACGAGGCTTGTTAACCACCGCGCGAGCAATGGCGACGCGTTGCTGTTGACCACCAGAGAGCTGATGCGGTTTGCGTTGA -GCGAAGGTTTCCAACTGCACCATCCGCAGGGCTTCCATCACGCGGGGCGTAATTTCAGCAGCGGGGGTTTTTTGCATGCG -CAACCCAAAGGCCACATTTTCGAACACGGTCATGTGGGGGAAAAGTGCGTAGCTTTGGAAAACAGTGTTCACATAGCGGT -TTTCCGCCGGAACGTGGGTGATGTCCTCGTTATCCAGCATGATGCGTCCGGAATCAACAGTTTCCAGACCTGCAATCAGG -CGAAGAACGGTTGTTTTACCGCAGCCAGAAGGGCCAAGCAGCGTGAGGAACTCGCCATTGTTGATAGTCAGATCCAGCTG -GGGAATGACCTCTTTACCATCAAAGCATTTGCGAATTCCCGCCAATTGCACCAGCGGTGAAAGCGAACTCGGTTGTTTAT -TCAATTTTTTACTCTGTCCCATGTAAACGCAACGGATGGCTTACCGATGCGGGGTTTGTGGTTAACCACCTTGGTGACTC -TTAATGAGGGCGGTAATTCTACGGCAAACCGCTTGAATCGCCAATCTTTGTTGTGAATTACTGGCTTAGCTTTATATTCA -TTAAGGTAATGCTGATAAATATTCCCGCTTGCAGGGGTAAAAGTGACCTGACGCAATATTTGTCTTTTCTTGCTTCTTAA -TAATGTTGTCACAAAAAGTGAGGGTGACTACATGGATAAACTACTTGAGCGATTTTTGAACTACGTGTCTCTGGATACCC -AATCAAAAGCAGGGGTGAGACAGGTTCCCAGCACGGAAGGCCAATGGAAGTTATTGCATCTGCTGAAAGAGCAGCTCGAA -GAGATGGGGCTTATCAATGTGACCTTAAGTGAGAAGGGCACTTTGATGGCGACGTTACCGGCTAACGTCCCTGGCGATAT -CCCGGCGATTGGCTTTATTTCTCATGTGGATACCTCACCGGATTGCAGCGGCAAAAATGTGAATCCGCAAATTGTTGAAA -ACTATCGCGGTGGCGATATTGCGCTGGGTATCGGCGATGAAGTTTTATCACCGGTTATGTTCCCGGTGCTGCATCAGCTA -CTGGGTCAGACGCTGATTACCACCGATGGTAAAACCTTGTTAGGTGCCGATGACAAAGCAGGTATTGCAGAAATCATGAC -CGCGCTGGCGGTATTGCAACAGAAAAAAATTCCGCATGGTGATATTCGCGTCGCCTTTACCCCGGATGAAGAAGTGGGCA -AAGGGGCGAAACATTTTGATGTTGACGCCTTCGATGCCCGCTGGGCTTACACTGTTGATGGTGGTGGCGTAGGCGAACTG -GAGTTTGAAAACTTCAACGCCGCGTCGGTCAATATCAAAATTGTCGGTAACAATGTTCATCCGGGCACGGCGAAAGGAGT -GATGGTAAATGCGCTGTCGCTGGCGGCACGTATTCATGCGGAAGTTCCGGCGGATGAAAGCCCGGAAATGACAGAAGGCT -ATGAAGGTTTCTATCATCTGGCGAGCATGAAAGGCACCGTTGAACGGGCCGATATGCACTACATCATCCGTGATTTCGAC -CGTAAACAGTTTGAAGCGCGTAAACGTAAAATGATGGAGATCGCCAAAAAAGTGGGCAAAGGGTTACATCCTGATTGCTA -CATTGAACTGGTGATTGAAGACAGTTACTACAATATGCGCGAGAAAGTGGTTGAGCATCCGCATATTCTCGATATCGCCC -AGCAGGCGATGCGCGATTGCGATATTGAACCGGAACTGAAACCGATCCGCGGTGGTACCGACGGCGCGCAGTTGTCGTTT -ATGGGATTACCGTGCCCGAACCTGTTCACTGGCGGTTACAACTATCATGGTAAGCATGAGTTTGTGACTCTGGAAGGTAT -GGAAAAAGCGGTGCAGGTGATCGTCCGTATTGCCGAGTTAACGGCGCAACGGAAGTAAGCGAAAAGGGATGCGGCATGTG -ATGCCGCATCCGGCTTAAATCCAAACTTACCCTTCGAAGAACCAATACCCGCTATTGACCAGCGCCGCGAGCATCGCGAG -GAATGACGGATCTTCCAGCGCATCGCCAAAATTCTCCGCAGTCAGCGCAATGTTGCTGGCGAGTGCATCCAGTGCCGGAC -GGTGCGGGGAATCGATCTTCTCACCATTGGCATACACGTCGTCGCCAATGCGCAATACGCGCAGACCACCCAGGCGCACC -AGCACTTCACCTTGTTTCAGCGCATCGTAGATTTCATCCGGCTGATAAGGCGGCTCTGGCGGCGCGATATCCAGTTCATG -ACGTGACTGGGATATAAACTCGCCAAACCATTGCTTAAAGTGTTCCGGCTGGTTGATCAATTCGAGCATCATCTCACGCA -GTTTATCCATCTCTTGCGGCAGAACATCCGCAGGATGAGCGCGAGGTGGAACATCCGGATCGCTGTAGTAGTTGCCGCCC -AGTTCACGTTGCAGCACATAATCGGCAAATCCACTAATCAGTTCCCGCGTATTTGGCGCGCGAAAGCCCACGGAATAGTT -CATCGCATTTTCCAGCGCGTAGCCTTCATGCGGGAATCCTGGCGGAATATAAAGAATATCACCAGGCTCCAGCTCTTCAT -CGATGATGGCTTCGAACGGATCGACCTGTAACAGATCCGGATGTGGGCAGTGCTGTTTCATTTGCAGCTTTTCGCCCACT -CGCCAGCGACGACGTCCGGTACCCTGAATGATAAACACGTCGTACTGATCGAGATGCGGGCCGACGCCGCCGCCGGGTAC -AGAAAAAGAAATCATCAGATCATCAATACGCCAGTCCGGTAGTTCACGGAACGGTCGCATCAGCGCGGCGGTCGGCTCAT -GCCAGTGGTTCACTGCCTGTACCAGTAATGACCAGTTGGTTTCACCGAGATGATCGTAGCTTTCGAACGGGCCGTGGCTG -ACCTGCCATTTGCCATCCTGGTGACTGACCAGTCGACTGTCAACTTCGCTTTCCATCGCCAGACCCGCCAACTCGTCTGG -AGAGATCGGGTCAATAAAATTATTAAAGCCGCGTTTTAACACCACCGGGCGTTTCTGCCAGTGACGTTCAAGAAAATCGG -GCCAGTTAAGAGTGAGTTGGTATTCCATGTTAAGCATCCACAGGCTGGTATCTGCAACCGATTATAACGGATGCTTAACG -TAATGCGTGAAGTATGGGCATATTTATTCATCTTTCGGCGCAGAATGCTGGCGACCAAAAATCACCTCCATCCGCGCACC -GCCCAGCATGCTCTCTCCGGCGACGATTTTACCCTCATATTGCTCGGTGATTTCGCGGGCTACCGCCAGCCCTACACCTT -GCCCAGGGCGTAAAGTATCAACCCGTTGACCACGGTCGAAAATGACCTCTCGCTTGCTTAATGGAATACCGGGGCCATCA -TCCTCGACCACAATATAGAGATGCTCGTCGGTTTGCCTTGCAGAAATTTCGACAAACTCGAGGCAATATTTACAGGCATT -ATCCAGCACGTTGCCCATCACCTCGACAAAATCGTTCTGCTCACCGACAAAGCTGATCTCTGGCGAAATATCGAGAGAGA -TATTGACCCCTTTGCGTTGATACACTTTGTTCAGCGCTGAGGTGAGATTGTCCAGCAGTGGGGCGACCGGATGCAGCTCG -CGGCTGAGCAATGTCCCGCCGCGCATACTGGCACGATGCAGGTAGTAGCCAATTTGCTGTGAAATGCGGCTGATTTGCTC -CAGCATTACCGGCTCAGCATCACTGACGCTCATCTTTTCACTACGCAGAGAACGCAGCGTACTTTGCAGCACCGCCAGTG -GCGTTTTCAGACTATGGGTCAGGTCGGTGAGCGTCGTACGGTATTTGTCGTAACGTTCGCGTTCACTTTTTAACAATCGG -TTCAGGTTTCGTACCAGACTGGTCAGTTCTCGCGTTGTGGCTGGATTGAGCAATTCGCGGTTATGTTCTTCCAGTTCGCG -GACTTCTTTTGCCAGGGCTTCGATGGGGCGTAAACTCCACCAGGCGGCGACCCACAGCAGCGGGATCACTAACAGCAGAT -TGGCTGAGAGCACATAGATAAACCAGCTCCAGACCATATAGGAACTTTTTAGCTCCACCGGAATGGTATCCACCACCACA -ATGGTTAATTTTGGCATCCGCGATGTTGCCGGGTAGACGTTTACTGCCACCGAGTGGGTCATCTCCGCGTCGTCATCATC -TTCCCGCACTTCCTGCAACTGTTGCTGTATCGAATGATCTCCACTCAGCAAGAGGCTGGTATCGTTAACATCCGCTTCAA -TTTCATGAAAACCATTCGATTTCAGCCAGTCAGGCTGGATCATCTTCATCAGCCAGGGCACGTCACGTTGCGCCCATAAA -AGCTGCCCGTTCTCATCATAAATTAGCGTCATGGTGGGGCTTTGCTTGTCGATATTTTCGGGTAACTCGACATGCAACTT -ATTGTTTTCCCACTTCGCAAGGGTATAGAACAGATTGCTCTCGCCACGTAACAGCCGAAACGTAGTTTTATCGAAACTGA -CGCTATAACCGATCAGCGCGACCATTCCGTAGGCAAGCGAAAGCACCAGTACTACCGCTGCCGTTGCCAACAGAAAACGT -ACCCGCAGCGAGAGCGGGAAAAAAAGACGCAGTAATTTTTTCATCAGCGCAATTCGAACAGATAGCCCTGGCCGCGAACG -GTGGTAATCACTTCTTGGGGATATTGTGCCTGAATTTTTTTGCGCAGACGTCCCATCAGTACATCAATGGTATGGCTTTC -CCGCAGCTCCGCATCCGGATAGAGTTGGAGCATTAACGAATCTTTGCTGACCACTTTGCCATTATTGCGTATCAACGTTT -CCATAATGGTGTATTCGAACGCGGTCAGTTTGATCACTTCGTCATTAATAGATAATTCACGGCGAGAGAGATCAACCTGA -AACGGGGGGAGCGAAATGACCTGTGAAGCCAGACCGCTATTACGCCGCATTAATGCCTGCATTCGCGCCATCACCTCTTC -AATATGAAACGGTTTAGTCACATAATCATCAGCACCGGCACTTAATACTTCGACTTTGTCCTGCCAGCTTTCACGGGCGG -TTAATACCAGAATCGGCAGTGAAACATCGTTGCTACGCCAGCGGCGAATCAGTGACAGACCGTCCTCGTCTGGCAATCCG -AGATCGACAATCGCAATATCCGGTATATGTTCATTGAGATAATAATCGGCTTCTTTGGCATCTTCTGCGTCATCGACCTG -ATGACCAGCATCCTGAATCTGAACTTTAAGGTGGTGACGTAACAACGCATTGTCTTCAACAACCAGTACGCGCATTTTTA -TTTCTCCCTGTCTTAATTATTAAAATAGTGTAACGCGATTATGTGGTTATGGGGGTAAACATTAAATAAACCAGCGGGGA -GGGGAGGTAAAGTGAAAAAATAAAAAGCGGATAATCTTAATAAGCAGGCCGGACAGCATCGCCATCCGGCACTGATACGA -GGTTTATTTCAGCTCATCAACCATCGTGATAGCTCGACCAATATAGTTAGCCGGCGTCATCGCTTTCAGGCGGGCTTTCT -CTTCTTCTGGCAACGCCAGACCATCGATAAACTGCTTCATGCCTTCGGCGTCAACGCGCTTACCGCGAGTCAGCTCTTTC -AGCTTCTCGTACGGTTTTTCGATGCCATAGCGACGCATAACTGTCTGGATTGGTTCAGCCAGCACTTCCCAGTTGTGATC -CAGTTCATCCAGCAGATGGTCACGGTTCACTTCCAGTTTGCTCACGCCTTTCAGGGTGGATTGATATGCAATCAAGGCAT -AACCGATACCCACGCCGAGGTTACGCAGCACGGTAGAGTCGGTCAGGTCACGCTGCCAGCGGGAAACCGGCAGTTTGCTT -GCCAGATGCTGCAATACCGCGTTGGAAAGGCCCAGATTCCCTTCGGAGTTTTCGAAGTCGATCGGGTTAACTTTATGCGG -CATGGTGGAAGAACCAATCTCACCAGCAATGGTTTTCTGTTTGAAGTGGTTAAGGGCGATATAACCCCAGACGTCACGGT -CAAAGTCGATCAGAATAGTGTTGAAGCGCGCAACGCAATCAAACAGTTCGGCAATGTAGTCGTGCGGTTCGATCTGGGTG -GTGTACGGGTTCCACTGAATACCCAGCGAGGTGACGAACTCTTCGCTGAACTGATGCCAGTCAACTTCCGGGTAAGCGGC -GATGTGGGCGTTATAGTTACCGACCGCGCCGTTGATTTTGCCGAGGATCTCCACCTGGTTAAGCTGGCGGTACTGGCGCT -CCATACGGTAGGCGACGTTTGCCATCTCTTTACCGATGGTTGACGGCGTGGCTGGCTGACCGTGGGTACGAGACAGCAGC -GGGATATCGCGATACTGAACGGCGAGATCTTTAATGCCATCAATCAGTTGACGCCAGTATGGCAGGATCACTTCATCACG -CGCGGTTTTCAGCATTAATGCGTGGGAGAGGTTATTGATATCTTCCGAAGTACAGGCAAAGTGGATGAATTCAGAAACCG -CGTGCAGTTCCGGGATCTCCGCCACTTTTTCTTTCAGGAAATACTCAACCGCTTTAACGTCGTGGTTAGTGGTACGCTCG -ATAGTTTTGATGCGCGCCGCATCTTCTTCGCTGAAACTGGCGACGATTGCATCAAGGTAACCGATTGCGTCGGCAGCAAA -AGCAGGAACTTCCTTGATCGCTGCGTGCGCGGCCAGTTTTTGCAGCCAACGTACTTCAACTTGTACACGGAATTTCAGCA -AACCATATTCGCTGAAAATCCCGCGCAGCGCGCTGACTTTATCGCCGTAGCGTCCATCGACAGGGGAAACGGCGGTCAGT -GAGGATAATTCCATAGATCACAACTCCGGGGTTAAATGAGCAAGAATTTGTTTTGCCTGAGTGGTCAGGCGATTACGAGA -AAACATCAGTTGCAGACGTCCGCCGCCGACCTGGTGCCAGAGCACGGCGGCGCGAATGCCTGCCAGCAGGGTTGCGCGAA -CTTTCGCCTGCACTTGTGGGCTTTGCAGTACAGCAGGGGAACCGGTGACCTGAATGCGCGGGCCAAGCGGGCTAATCACA -TCAACATAGATAGCAGCCATCGCGCTCATCAGCGTTTCGGACTGTAAATCGAAGTGTTCGAGCTGGCGTTGCAGGCCGTT -GATCCGGTTGCCCAGAGTGTCGAGCGCGCCTTTCGCTGAGGAGAGTTTGCGCTCAAGCACCATCAAGCTGAGTGTGTAGC -GGGTTAATTCGGCGTTTAAGCCCTGGCGACTGCTGGCATTGAGCACGCCGAGCAGGGTTTCCAGCCCGACGCGCAGGTTG -GCTTCGCTACCGCCAAAAACCGCCAGCGTCGAGCTGGGGTTCATATCAATAATACTGTTGAGTGAGACGTGTAGCGCATC -GGCATCACAATGCCCCTGGTGAGCGAGTTGTTGCACCAGGCGTGCCGACTGACAAATACCGGCCAGGGCGAGGGTGATGT -CATAGTAATTCTTTGCCACGTTCACTGCTTCCTTGTTTTAAGTAAAGATAATAATCAGACCGGCAGCGGCAGACGCTGCT -CAATAATACCGCCACCGAGGCACACTTCACCGTTATAGAAGACGGCAGACTGGCCCGGCGTCACGGCGGCAACCGGTTCA -TCGAAAATCACTTCAATGCGATCATCGTCCAGCGCCTTGACGGTGCAAGGGATATCGGTCTGGCGATAGCGGGTTTTTAC -CGTGCAACGCATAGTGCCGGTGAATGGTTCGCGATCGACCCAGTGCAACTGCTGGGCAATCAACCCGACAGACATCAGCC -GCGGGTGTTCATGGCCCTGAGCGACAACCAGAATGTTGTTTTCGACGTCTTTGTCCACCACATACCACGGTTCTTCGGTA -CCTTCTTTGGTGCCACCGATACCCAGACCTTTACGCTGACCGAGAGTGTGATACATCAGCCCCTGGTGCTCACCAATTTC -ATCGCCATCGACGGTAATGATTTTGCCCGGTTGCGCCGGGAGATAACGGCCCAGGAACTCGCGGAATTTACGTTCGCCAA -TGAAGCAAATGCCGGTAGAGTCTTTTTTCTTCGCGGTGACCAGACCAAGATCTTCAGCAATCTTACGCACCTGCGGTTTT -TCCAGTTCGCCGACCGGGAACAGGCTTTGCGCAATCTGCTCATGGCTGAGCGTATAAAGGAAGTAGCTCTGGTCTTTATT -GCTGTCCAGACCACGCAGCAGGCGGCTCTTGCCATCGACATCGGCCCGACGTACGTAATGACCGGTAGCGATATAATCGG -CACCTAAATCTTCGGCGGCAAATTCGAGGAAGGCTTTAAATTTGATCTCTTTGTTGCACAGAATATCCGGATTCGGCGTG -CGACCGGCTTTATATTCGGCAAGGAACAGTTCGAAGACGTTGTCCCAGTACTCGGCAGCAAAGTTAACGGTGTGCAGTTC -AATGCCGAGCTTGTCGCAGACAGCCTGGGCATCAGCCAGATCCGCTGCCGCTGTGCAATATTCCTCACCGTCGTCTTCTT -CCCAGTTCTTCATAAACAGGCCTTCGACCTGATATCCCTGTTGTTGCAACAGCCAGGCAGAAACGGAGGAATCGACACCG -CCGGACATGCCGACGATTACTTTTTTTGCGGTTTCAGACATTGGATCACTCACGACATTGAACTTCAAGGCGGCGTATTC -TATCACGCAGCCTTTTAGATGACACCCTTTGTAAAAGGCCAGTTAAAATCGCCAATCATCTCCAGCGGATAACGTTGCCC -GCTTTGATAACAACGAATACTTTCCGCCACCAGCGGCGAACGAAGATTTGACGCCTGTAAAATTTCTTCGGCGCTGACCC -AACGGCAGCAGTCGATATCGCTGTCATGAGGCTGGGTCGGGCATATTTGCTCAAGCTCAATGGCAAAGAGGAAACGCAAA -AACGGCGTTTTATCTGGCGCAATCCACTGATGCATACGAATAAAGTGTTGCGGCTGCGCGCTGATGCCGGTTTCTTCCCA -CAGTTCACGGGCGGCGGCTTCCACTAAGGTTTCATCGGCTTCCAGATGCCCGGCAGGTTGGTTCCATAACGCTTTACCAT -TAATCGTCTCTTCAACGACTAAAAATTTGCCTTCTGCGTGCACCACGCAAGCAACGGTAACGTGCGGTTTAAACATTTTG -CATCCTTAATCTGTCACTTCTCGCCATTCACCATTGGCAAGATTATCCAAAGAGTAATCACCCATCGCATAGCGAATCAG -TCGCAGCGTGGGGAAGCCAACATGGGCGGTCATGCGGCGCACCTGGCGATTACGTCCTTCATATAAGGTGATCTTCAGCC -AGCTGGTGGGAATACTTTTGCGTTCACGAATTGGTGGATTCCGCGGCCATAACCACGCGGGTTCGTCAACCAGCTCCGCG -CCGGCGGGCAGGGTAGGGCCATCATTTAAGGTTACGCCATTGCGCAAGGCTTCAAGTGCGTCTTGTGTGGGAATACCTTC -CACCTGCACATAATAGATTTTTCCGGTGCGTTTACCCGGCTGGGTTAAACGCGCCTGCAACGCGCCGTTATTGGTCAGCA -CCAGCAACCCTTCGCTATCGCGGTCAAGGCGACCTGCTGCATAAACACCCTGAACCGGGATGAATTCTTTTAATGTTTTG -CGTCCGGCTTCATCGGTGAACTGCGGAAGAACATCGTAGGGTTTATTGAACAGGATCACACGCGTGGGCTGGTTTTCAGG -TTTACGCCTGGTAGAACGTTGCGAGCTGAATCGCTTAACCTGGTGATTTCTAAAAGAAGTTTTTTGCATGGTATTTTCAG -AGATTATGAATTGCCGCATTATAGCCTAATAACGCGCATCTTTCATGACGGCAAACAATAGGGTAGTATTGACAAGCCAA -TTACAAATCATTAACAAAAAATTGCTCTAAAGCATCCGTATCGCAGGACGCAAACGCATATGCAACGTGGTGGCAGACGA -GCAAACCAGTAGCGCTCGAAGGAGAGGTGAATGGAAAGTAAAGTAGTTGTTCCGGCACAAGGCAAGAAGATCACCCTGCA -AAACGGCAAACTCAACGTTCCTGAAAATCCGATTATCCCTTACATTGAAGGTGATGGAATCGGTGTAGATGTAACCCCAG -CCATGCTGAAAGTGGTCGACGCTGCAGTCGAGAAAGCCTATAAAGGCGAGCGTAAAATCTCCTGGATGGAAATTTACACC -GGTGAAAAATCCACACAGGTTTATGGTCAGGACGTCTGGCTGCCTGCTGAAACTCTTGATCTGATTCGTGAATATCGCGT -TGCCATTAAAGGTCCGCTGACCACTCCGGTTGGTGGCGGTATTCGCTCTCTGAACGTTGCCCTGCGCCAGGAACTGGATC -TCTACATCTGCCTGCGTCCGGTACGTTACTATCAGGGCACTCCAAGCCCGGTTAAACACCCTGAACTGACCGATATGGTT -ATCTTCCGTGAAAACTCGGAAGACATTTATGCGGGTATCGAATGGAAAGCAGACTCTGCCGACGCCGAGAAAGTGATTAA -ATTCCTGCGTGAAGAGATGGGGGTGAAGAAAATTCGCTTCCCGGAACATTGTGGTATCGGTATTAAGCCGTGTTCGGAAG -AAGGCACCAAACGTCTGGTTCGTGCAGCGATCGAATACGCAATTGCTAACGATCGTGACTCTGTGACTCTGGTGCACAAA -GGCAACATCATGAAGTTCACCGAAGGAGCGTTTAAAGACTGGGGCTACCAGCTGGCGCGTGAAGAGTTTGGCGGTGAACT -GATCGACGGTGGCCCGTGGCTGAAAGTTAAAAACCCGAACACTGGCAAAGAGATCGTCATTAAAGACGTGATTGCTGATG -CATTCCTGCAACAGATCCTGCTGCGTCCGGCTGAATATGATGTTATCGCCTGTATGAACCTGAACGGTGACTACATTTCT -GACGCCCTGGCAGCGCAGGTTGGCGGTATCGGTATCGCCCCTGGTGCAAACATCGGTGACGAATGCGCCCTGTTTGAAGC -CACCCACGGTACTGCGCCGAAATATGCCGGTCAGGACAAAGTAAATCCTGGCTCTATTATTCTCTCCGCTGAGATGATGC -TGCGCCATATGGGTTGGACTGAAGCGGCTGACCTGATTGTTAAAGGTATGGAAGGCGCAATCAATGCCAAGACCGTAACT -TATGACTTCGAACGTCTGATGGAAGGCGCTAAGCTGCTGAAATGTTCAGAGTTTGGTGAAGCGATCATCGAAAACATGTA -ATCTCTCCATGTGTTAAATATTGAAACGGGCGTATAACACGCCCGTTGTTTTATTTATGTGGATATTATTAATAGCATAT -CGAGCATATTTATATGAAGCCCATTACTTGAGCCCATATGGGCATATTTTTATAATGCAACTATTATGTAAACATTTATT -TGTTATTTTGCTTTCTCCTGGAGGACACTCTTGACTGCTTTTGAGTAAACTCCATAAATCCTTGTTGAATGGTGCGATGT -GATAAATAGTAATAGGATATTCTTTATCCTTAAGGATAATACCAGACTTAACCGGTGTAAATATACTGCCAGGAGGGAGA -AATATAGTAGATTGATACCAGATGATCATTTTCATATTACCCCATATGGCTGAAAAAGATATACCACATGTAGGTTGAAT -TACCGTGTCAATTACTATCCACTTCATTTGTTATGTCTTATCCCACGGTATTTAATATGGTTCATTAGGATGTTTATTTC -TTGATTTTGCATATGAGTATATTACCCCCCCCTCAAAAAAATAAATTAATTAAAATGATGGCTTATATAAAATAAAATTT -AAAGCAAGGAATCTCAATGGATGTTAAACAAAATGAGATTTTGTGAAAGCAATAAATTATTGACTTCGTTTTAGATTTGT -TTAGCTATAATGTTATACATTCAAATGACTGAACATCCTGTAATTAAAACATAGCCTTTATGCTACTTTGTGCCAATTTG -CTAAACATTATGGTTGCCTTTTTATATAACGATAATAATGAATATAAGCATGACATGAGAATAAGGTTTCAATTTTTGAG -TTATATAGGAATGATTTAACCTGTTCCTGGCTAAAATACATATAACCGGATGATGACTAAACCAAAATACATGTGCGTTA -AGTATTGAAACGGACGTGTGGCACGGCCGTTGTTTTTATAAATATGTTAACCGTTATAAAATAACGTATCAAAAGTCAAG -TGATCACATTTCAAATATCAAGTTGATAGTATTAGTCTGGTGATTATTTATGGGTGACAATAAAAAGACAGTATTAATCA -TCCATAGAGATAGTCTCTGCACTTTTATTTCCATTATGCTAATGCCTTACTGAATTATGAAGCATTTCTTAAGTATCCAA -CTTTAGCTAGATTAATGGTTTATTATTTTCTACATCTTCAATATATAAAAGCGTATTATCAATGGCGTAGTAACTGCGTT -TGTTATGATTAACATCAGTAACCCACCGGAAAACGCCCGCGCCTGCCAGTGTTGAACAGTATTCCCGAAATGTAGATTTT -CCGCAAATATGAAGCAATGCGGCCTCTTTTATTTTAGCAGGGTTCTTGGTCGTACTAACTTTTAACAGGTTCCTGGTTCC -TCTTAATAACAAAACCGTATCATCGTGAGTAATAATTCTGATGTTATCCGTAGCCAGATAATAAATGTAATGTGCAATAC -GGTGATGTTTTAATTCTGAATAAAACCAGGAGAAGTTTTGCTCTTTTCTCACTTGCTCAAACATCTTTTGAAAAACAACG -ACCTGATCCATCAGGATAATAACCTCTTGTTAGTTGTGAGACTGCGTAGTGTGCACGATCGGTTTTACCACTTCAATCTG -GTCTGTCCTTTGGCTGTGATATGTACAGAGTGTGATAGAGGGAATATCTGAATTCTCCCGGTGAGCATTTTGCAACGGAC -CAGCTCCGGTACAAACGCTGTTGTGGGTTCAGATTATAACATTCTGTCTAAGGGGCGGGATAAAGGTGAAATTAGGGGGC -ATGAAAGATGACTTTATAACCTTGCTCACCCCAGTGTTGTAAAAGTTCGTTTTGCCTTCTCGTTGGTGCCATGCCTGTCC -AGACAATCAATGTTTGCGTCGGGAACAGTTCCGGGCGCGGCGATTCAATGGGATCAGCAAGAACAGAAATGTGCCATCCT -GACAATGATAAACGCCATGCTTCCAGCCACAATCGTGCTCTCTCTTCAACATTCCACGCCATCAGAATGGCTTCTTTACC -GGGCTTACGGCGCATTTCGAAAAGCGAGGTTGCTGCGTATTCAATTAATGCGCCGTCAAACATACTGCTCATAATGCGGG -AGGTGTTGTGATCAAGCACGAGACGCTGGCGAACAGGAAGGTAAACATGATTAATCAATTGATCTACTGGGTACTCTCGA -CCCAGTGAAATAATTCTCGCGCGTAGTTTGGCAGGATTAGCCATGCGAAGAATTGACATCATCTCTTCTTGCAGGCGGCT -CCAGTCATCTTCCGTATCCTGGCTGGTGGTTTCCAGTAATGCTTTAACTTTGCCTACAGGGACGCCATTACTTATCCAAC -GCTTGATCTCTTCGATGCGTTGTATGTCTTCTTCATCAAAGAGTCGGTGTCCGCCTTCACTGCGCTGTGGTTTTAACAAA -CCGTAGCGGCGTTGCCAGGCCCGGAGAGTGACAGGATTAATCCCGCAACGTTCAGCAACATCACCAATGCTGTAATAAGC -CACAATTCCTCCTTGCGGTCACAAATCTCCGTCGCCTGTACACGACCCAATAATACTTTGTACAATATACGCTAAAATTG -TACAAAGTATAAATAAGATTTCAGCTAAATTGGATGAAACATTATTTTTAATGTGGATTAAATTTAAACGTAACGTATTC -ATTTTCACGATGATTTACTGAAATCATGTGAAAGAATGTGCTGAAAATTATTTTTTCTCTGGCCACGCTATGGAAGGGAT -ACCATTCAATTTAGCTTTAGCAAACAGATCTCCCTGAAACATCTCAATTCCTGCGGATTCAAGCCACATCCACTCTTCTG -GTGTTGCCACGCCCATAGCACTGACTTGAATTTCAAGTGATGTACAGCATTTTATGATCGCCTGAATAATTGCCTGCCGT -GGCCCACTTTTATGAACATTGGTAATCAATTCCTGACTGATTTTAATTCTGTCAGGCTGGAAGCGTGACAGGAGTAACAA -ACCAGCAAAACCTGCGCCAAAATGATCAATTGCTACACTGATACCAGCAGCCTTTAGCGATTTAATCGCTTCGGCAAACT -CATCAAACCGAGATATGACTTCACTTTCAGTAAATTCAACGATGATTTGTTCAGGCACCAGAGCATTGGCCTTTATTTCA -TTAAGTAAAAAAGAGACTGCGTCAGGTTCGTTAACCAGGGTCATAGGTAATAGATTGATTGAAATCATTTTATCACCGAG -CTCAAGTGCGTGTGCCATCGTGAATGCAAGCGCCTTACTTTTGAGATCCGCTGTGTAGATTTCCCCGTCTTTACGCTGCC -CAACCGCTATGGCTGATGGGCTATCTTCATTTTTTTGCACAATGGCTTCAAAAGCGATTATCCGCCGCGATAAGGGATCG -ACAATAGGATGAAAGGCAAAGTGGTCGTTTATAGTTGGTGAAAGGGCACAGGAATCAAGTTCTTTATCAGATCCGTCAGC -GATAAAAAGCCAGGAGTCTTCGGCAGGGATCTCGAAATAGGTTGATTGTTCGGTTGCAAGGACAAAAGTACGAAAAAATT -GTAGCGCTCTGTCATCATAAGTTAGCTGAAATTTTGATGTGCCTTTGTCGAATACGGCCTGTAAAACGTCATCTCGCTCG -TGCAGGCGCAAATCAAATAATTCCATTCCCGCTTTGCCAAAACGGCGAGCAGGCGCGTAATCGCACAGCAGCTCAACAAT -ATTATAGTGCCGTGGATCCTGGCATATAGCCCGATATATCATTTTAACCTGTTCTTCCGGACCTTCCAGAAGCTGGAAAA -AATGAGAACCATTAAACAGTAAGATCCCTGTTACGTCAGACTGCATGTTCCTGCGATTTGCTATCGAAACCATTTCTTCG -ATTTTTTTGACAGGTTCGTCGTCACGTATATGGCTACGATAAATAAGGGTGGTAAGCATTAACAATCCAGGGTAATGGGT -GAGGCGAGAGTAAGACGGTAACAGACATATCTTCTTGTGTCTTTCTTTTAATACCAAAACATAACCGTTTCTTTACATTG -ATAAAAAATGGAAAAAGTTGAACACTAGTTGGCGAAAAATCTTGTATAGATTGTCAGTTAAATGATGCAATATGTTTTAT -CATAACACATTGTTTTATATGCATTAGCACTAATTGCAAAAAATTAATTTATCATTCTGTACACATATTTCGTACAAGTT -TGCTATTGTTACTTCACTTAACATTGATTAACATTTTTAACAGAGGCGTAGCATGCATCAAAATTCAGTGACTTTAGATT -CTGCGGGAGCAATCACTCGTTACTTTGCAAAAGCTAACTTGCATACTCAGCAGGAAACTCTCGGGGAAATTGTGACTGAG -ATTTTGAAAGATGGACGTAATCTGAGTCGAAAGTCGCTTTGTGCCAAACTTCTTTGCCGACTGGAACACGCGACTGGGGA -AGAGGAACAGAAACATTATAATGCACTAATTGGGTTGCTTTTTGAATAATGCAACAGCCTGATTATTTAACAGGTTAGCT -ATGAAGTCGTTATGAAGACATCTGATAATGAACGTATAAAATATGAAATTACTGGCCAGGCGGTGCTCCAGATACTGCGC -ATGAAGATAAATTTTTCATTGCAGACTCTTATTAAGCAATTACTCGTAATGAAATCGGCTGAGGAAGATGCTTTCCGACG -CGATTTAATTGACAGCATAATTCGTGATTTTAGCAATAGTGATTCAGGAGGGCCAAACCGAAGAACAGCGACAGCTGACA -ATAAAAGTATGTTCAATGGTAAGAAAATAAACAGAATACATTAAAATTTCATAAGTAAGATGAGAGGTTACCATGCTTGA -AGATACTACAATTCATAATGCAATAACTGATAAAGCGTTAGCAAGTTACTTTCGCAGTTCGGGTAATTTGTTAGAAGAAG -AATCAGCAGTGTTAGGGCAGGCTGTCACCAATTTAATGCTTTCAGGCGATAATGTTAATAATAAAAATATTATCTTAAGT -CTGATACACTCCTTGGAAACAACAAGTGATATTCTCAAAGCTGATGTGATTAGAAAAACACTGGAAATCGTGTTGCGATA -CACAGCTGATGATATGTAACTTCTAATTATTAAGTATAAGTTTATAGAAAACTCATTCATCTTATTTTTGTCTGTCGCTT -TAGACTATACACAGCATAATTTTATTGGGTTAATATTTCTACGAGGCTGACATGAATAATTCAATCCCAGAGAGATTTAT -TTTTCAATGTGCTTTGTTTAAAAATCTCGAGAGGGAGGTGTTCATGACGCATGGGTATGTTGATAGTCATATTATTGATC -AGGCTTTACGCTTGCGTTTAAAAGATGAAACCAGTGTGATTCTTTCTGATCTCTATCTGCAAATATTGCAGTACATTGAA -ATGCATAAGACTACACTAACGGATATCATTATTAATGACAGGGAATCCGTGCTCTCTTAGAACTTGAGTAAGGTTTTAGA -ATAAACATCAGCTGTATCACCATGCTGATGCAAAGTGAGCATTTCAGGCGTTATGCTTTCTTATTATGTCCGCAATATCA -GGTGTCAAGAATGGAGAGTTCTCGCTCTCCATTCTTGACGCCTGATATCCCGCCTAACTTATTTTGTACTGCCTACATTA -TGCTCAATAATTAATGGGTTAGATCAAGATGGAGAAAATTTTATCTTCGGCGTGGATATTTCTTATGCTCTCTACCATGC -TCTCTGTAGATGCCAGCGCGAGCGAATGAATGGCATTTTCATGTATTAAACCCTTTGGCCGGGACAAGCAAATGCGCAAT -ACACTCATACCCATCCTCGTTGCGATATGCTTGTTTATTACCGGTGTCGCTATTTTGAACATCCAGCTCTGGTATTCCGC -AAAAGCAGAGTACCTGGCGGGAGCGAGATATGCCGCCAACAATATCAATCATATACTTGAAGAAGCGTCACAAGCGACTC -AAACAGCGGTTAACATTGCCGGGAAGGAATGCAACCTCGAGGAGCAATATCAGCTTGGCACTGAAGCAGCTCTGAAACCT -CACCTGCGCACAATCATCATTCTCAAACAGGGAATAGTCTGGTGTACATCCCTGCCTGGGAATCGGGTCCTGTTGTCTCG -TATTCCTGTTTTCCCGGACAGTAATTTACTGTTGGCTCCAGCAATCGACACCGTTAATAGATTACCTATCCTGCTCTATC -AGAACCAATTTGCAGATACGCGCATTTTGGTTACGATAAGCGATCAGCATATTCGTGGGGCACTTAATGTACCCTTGAAA -GGGGTAAGGTATGTATTACGCGTGGCGGATGACATTATTGGACCAACGGGTGATGTGATGACGCTTAATGGACATTATCC -CTATACCGAGAAGGTTCACTCCACAAAATATCATTTCACTATTATCTTTAACCCGCCGCCACTCTTTAGCTTCTACAGAC -TTATCGATAAAGGCTTTGGGATTTTAATATTTATTCTGTTAATCGCCTGCGCCGCTGCCTTCCTGCTTGATAGATATTTC -AATAAAAGCGCAACGCCTGAAGAGATCCTGCGACGGGCAATAAATAATGGGGAGATCGTCCCTTTTTACCAACCTGTGGT -AAATGGTCGGGAAGGGACATTGCGGGGAGTTGAGGTGTTAGCCCGCTGGAAACAACCTCACGGTGGATATATATCACCCG -CGGCATTTATTCCACTTGCTGAAAAATCCGGATTAATCGTTCCGCTTACGCAAAGCCTGATGAATCAGGTTGCCAGACAG -ATGAACGCTATCGCGAGTAAATTGCCGGAAGGTTTTCATATTGGAATTAATTTTAGCGCTTCGCATATTATTTCGCCGAC -GTTTGTCGACGAGTGTTTAAATTTCCGTGACAGTTTTACCCGCCGCGATTTAAACCTTGTTCTGGAAGTCACCGAGCGTG -AGCCATTGAATGTTGATGAAAGTCTGGTTCAGCGGTTGAACATACTGCATGAAAATGGTTTTGTCATCGCACTGGATGAT -TTCGGTACTGGCTACTCAGGGCTTTCTTATCTTCATGACCTGCATATTGATTATATCAAAATTGATCACAGTTTCGTTGG -CCGCGTAAACGCAGACCCAGAATCAACCCGAATTCTGGATTGTGTATTGGATCTGGCGCGTAAACTTTCGATCAGTATCG -TCGCTGAAGGTGTCGAAACGAAAGAACAACTTGACTATCTGAACCAAAATTATATCACATTTCAGCAGGGTTATTATTTC -TATAAACCTGTTACATACATCGACCTGGTCAAAATTATCCTTTCTAAACCGAAGGTGAAGGTTGTGGTTGAGTGAAAATT -GATCAGTAAGGCCATAGTGCGGTGTAATTATAGACAGCTAATTAGCTCGTTGCCTCTTGTTACTATTGTTCATTATTTTG -TTTGCTATAATTGTTTGAAAGTTTTGACAGGATTGCCATTAGTAGCATGAACAATAGTAATAATCTGGATTATTTCACTC -TCTATATCATATTTTCCATTGCATTTATGCTGATCACCCTCCTGGTCATCCTTATTGCAAAACCCAGTACCGGGCTGGGA -GAAGTGCTTGTGACGATAAATTTGCTTAATGCCCTTGTTTGGCTGGCGATCAATCTGGTTAATCGATTAAGAGAAAGACT -CGTCAACCACAGGGATCAGCAATAATCTTTCAGTTTCTCACTGTCAGTATGCGGCTGAATGGGTTGCTGGCAGTGAACGC -CTGGATCATTGAAGGAAAGGCATTATTGCGCAAATAGTTGTCAACCCTGGTGTTATCACGGTTGTTTTTATATATCACCG -AAATAATCCTCATCGCAACTATTAACAATTTTGATGTCGAAGAGTTATTTGTTAAACAAAATCGTCACCTCAAAGTGATC -AATGTCATGAAAATAAGGTGAAAAATGATAATGCCGACTTATTTATCATTTATATATTGTCGCTGTTTATCTATTTAAAT -TTTTTGTGCTTTTGTTTTTGTCTTTACCCTCCGTTTTGGTAATCTGAGCTCATAGGTTATTTGACCAGGAATGTTTGTTA -ATCCAATGAATGGATGGTTAATCTATGAAACTGAAAAAACTCCCCGGGTTTAGTTTGGGACTTATTGCTCTGGCGGTGGG -TAATGCATATGCAACACAATTGTTGGATGATTATAGTATAATTTCCTATATGACTGATGAAGAATCGCCGATTGAAATCA -AAGATAATAATCCGATAAGTAATGGAGAGTATCTAACCACTGAAGACGAAAGCCATGCTGTGAAAGTGGATGACGGTGTA -ACTGGATATATAAATAATGCCAGTGTGATGACTAGTGGTGATGGATCTTATGGTATTTCTGTTGATAGTCAAAACAAAGT -ATTATATATAAGCGATAGCGATATTAAGACCTCTGGAAGCGTATCTGACAAAGAAAATGGAGGGATAACAGCCAGCGCAG -TAGTCAGTGAATTTGGTGGCACCATCTTTATGAATGGTGATAATTCAGTCGAGTCGGGTGGGGCATATTCAGCGGGACTT -TTAAGCCAGGTTAATGATTCTGAAAAGATGGTAAATAACACCCGTCTTGAAACCACAGATAAAACGAACATTGTTACCTC -TGGGGAAAATGCAGTAGGTGTTCTTGCATGTTCAAGTCCTGGAGAGTCTCGAACATGTGTCGATGCTGTAGATGATGAAG -TTAGTGATTCTAACAGTTACGAAGTTATTAGCCGTGCTGATTTAAAAATGAATGGTGGTTCCATAACAACTAATGGCATT -AATAGCTATGGTGCTTATGCTAATGGGAAAAAAGCATATATTAATTTAGATTATGTGGCACTTGAAACTGTGGCTGATGG -AAGTTATGCAGTTGCTATTCGACAAGGTAACATTGATATAAAAAATAGTTCTATTACAACAACAGGCACTAAAGCCCCCA -TTGCAAAAATATACAATGGTGGAGAGTTATTTTTTTCCAATGTCACCGCGGTATCAAAACAAGATAAAGGAATATCAATT -GATGCATCAAATATCGATTCTCAAGCCAAAATAGCACTATTAAGTGTTGAACTTTCAAGTGCTTTGGATAGTATTGATGT -TAACAAAACTACAACGGATGTAAGTATCCTTAATCGAAGTATTATCACACCTGGTAATAATGTTCTGGTTAATAATACTG -GAGGTGACTTAAACATAATTTCGTCCGACTCTATTCTAAATGGAGCGACTAAACTCGTCAGCGGCACAACCACGCTGAAG -CTTTCAGAAAATACAATCTGGAATATGAAAGATGACTCCGTTGTTACCCATCTGACTAATTCAGACAGTATTATCAATCT -TTCGTATGATGATGGTCAAACATTTACCCAAGGAAAAACATTAACCGTAAAAGGTAATTATGTCGGTAATAATGGTCAGC -TTAATATCCGCACCGTATTAGGTGATGATAAATCGGCTACGGACAGACTTATTGTTGAGGGTAATACTTCGGGTTCAACT -ACCGTCTATGTGAAAAATGCTGGAGGAAGCGGCGCGGCCACGCTAAACGGGATCGAACTCATAACTGTGAATGGCGATGA -ATCTCCAGCAGATGCCTTCAGATAAGGTGATGCAAGGATTGCAGCTGGAGCTTTCGAATATCAACTAAAACAACAAGGCA -AAAACTGGTATTTGACAAGTTATCAGTCAGTGAATGAGGAGGATAACAGCTCAGAGGGAAATTCAGAATCAACAGAAACG -CCTACCCCCGTCCTGCGCCCCGAAGCTGGAAGTTACGTCGCTAACCTGGCAGCTGCTAACACTCTTTTTGTTATGCGTCT -GAACGACCGTGCGGGTGAAACGCGCTACATCGATCCTGTAACTGAACAGGAGCGTTCAAGCCGACTTTGGCTACGTCAAA -TTGGCGGGCATAATGCCTGGCGTGACAGCAACGGACAGTTGAGAACGACCTCGCATCGCTACGTCTCGCAGTTAGGGGGC -GATCTGTTAACCGGTGGTTTTACCGATAGTGACAGTTGGCGTTTGGGAGTGATGGCTGGTTATGCCCGCGACTACAACTT -AACTCATTCCAGCGTGTCGGATTATCGTTCGAAAGGGAGTGTCAGAGGCTATAGCGCAGGGCTGTATGCCACCTGGTTTG -CCGATGACATCAGTAAAAAAGGCGCATACATTGACTCCTGGGCGCAATATAGCTGGTTTAAAAACTCGGTGAAAGGGGAT -GAATTAGCCTATGAATCCTATAGCGCGAAAGGTGCAACCGTCTCGCTGGAAGCGGGTTACGGTTTTGCCCTGAATAAATC -CTTTGGTCTGGAAGCGGCGAAATATACGTGGATCTTCCAGCCACAGGCACAGGCTATCTGGATGGGCGTCGATCATAATG -CGCACACGGAAGCCAATGGCTCACGTATTGAGAATGACGCAAATAACAACATCCAGACCCGACTCGGCTTCCGCACCTTT -ATTCGTACTCAGGAGAAAAACAGCGGTCCGCACGGTGACGACTTTGAACCTTTTGTTGAAATGAACTGGATCCATAACAG -TAAAGATTTTGCTGTCTCAATGAACGGTGTGAAAGTCGAACAAGATGGGGCGAGTAATTTGGGGGAAATTAAACTTGGCG -TAAATGGCAACCTGAATCCAGCGGCCAGCGTCTGGGGAATGTGGGCGTGCAGCTGGGTGATAATGGCTACAATGACACCG -CAGTGATGGTGGGCCTGAAATATAAGTTCTGATCCCGCCGTTAGCTAAAAAACCGCGTCGTATTCATCGACGCGGTACAT -ATGAAATATTATTTTTTGCCGATAGCACGCATGGTGTCATCAATTGCCGTGATCAACAGCATTTGCGGGTCTTTAGCGCA -AACCTGATTCAGTTTTTCTACCACTTTGGCGCTCAGTTCCGGAGATTGCTCAATTTTTAAATCACGGCTGGCAACGCTGG -CATTACCCATTACCGCAACAATTTCTGCAACCTGTGCGCTGTCAGTTTTTGCCATTTCGTTGGCTTCTGCGCAAGTAATA -TAGGTTTCTGACGGCAAACCGTTTTTAATATTGTAGTCCTGCGCCCAGGTCATTGGTGCGAAAACAAACAGGCCCGCCAG -TAAAGCAAATTTTTTCATCATCATTCCTTATTTCATTTTACCCAGAATTGCACCACCCGTACCGCCAATCACGGCACCTT -TAATCGCCCCTTCGAGGCCATTGCCGGTCAGAACGCCAGTGACAGCACCAACGGCGGCACCCACTTTTGCACCTTTACGC -GCATTTTTACCGTCGCGGCCTTTTTCTGTTACTGCACCAACACCAGCGCCAACAGCTGCACCTTTCAGTACGCCATTAAC -ACCATTGCCAGTAAGTAAACCAACGCCTGCGCCTAGCAATGCACCTTTCGTGGTGCGGTTCATATCCGCCATCGCTGGCG -TGGAGCAGAACAATGCTGAGATAAGCCCGAAGGCAAGTATTTTTTTCTTCAACTTAGATGTCCGGTATTAAGTAAGTTGC -ACACACAATAATTTCGTCTTCAATTAAGATCTGCTTAACTAAAGAACGCTCGCTATTATTCAGATAATTCAAAATGAGCG -TGGCTGTGATGATAGGAATTATGTTTTTTACGTGAATGAGAATAATCTTAAATGAGGAATAACTCATTGATTGACAATAT -TTTTATTCAAGAAGTGTCATTGACTGTTAACGCAATGTTGTAAAGGTAAGATAATCTGATTTATCAATATTATTGTGTGA -TTTTTATGTGAGCAGAAGATATTCATCAGCAACGATTACATTAGTCATTTTATTTTGCCGACGGCCTCATTGTCGAAAGA -TAAGCGTACGACAGTATTATCAGAAAAGAGTGATTTTTTATCCAACTACACTTCAGCGCACTGCGTGTAAAAAATGCCTC -TTTCTTATGCGGGATATCATCATTTCATCATGATGTCTTTGGTGAGCGGTGAACACAATACACCTGCGCTGTCTCTTCAG -GATGAATCCCCTGGTCTGGTGCCTGCGGGCTGATGTTGCAGCAGAGCTTAGGTCACTTAGACGCTACTATCATTTATCCA -ATGGCATGGAATCGAAATCAGTCGATACCCGCAGTATATATCGTGAACTGGGTGCAACGCTGAGTTACAACATGCGCCTG -GGGAACGGTATGGAAATGAACCCTGGCTGAAGGCGGCTGTGCGCAAAGAATTTGTCGATGATAACCGGGTGAAGGTGAAT -AATGACGGTAATTTCGTCAATGATTTGTCGGGCAGACGTGGAATATACCAGGCAGCTATTAAAGCCTCATTCAGCAGTAC -GTTTAGCGGACATCTCGGGGTGGGGTATAGCCATGGTGCCGGTGTGGAATCCCCGTGGAACGCGGTGGCTGGTGTGAACT -GGTCGTTCTGACCATCAACGATTAAACTGCGCTTCGGCGCAGTTTTCGTTTACAGGATGTTGAAAGGGAAAATTCTGGGG -CAAAAAAAGCCCGCCAGTTACGGCGGGAAACCTCATCCTATGGGAGAACAATGAATAATGAAATTGCGGGGTTATCATCT -CCCAGTATATCCATACTAACAATAAGGTTATTTACTCAACCAGGCATAAACATTTTGTTTTGTGCGTGGGAACAGCCTTA -AGGTGTAAAGGGGGAGGTGGAAATAGCAATGAGGAGTATCAGCAAGAATACTCGCCGCTTTACCACAACGTGGATGAGAG -GGATGAAAAACTCAAGGCAGAGATAACTCTGCCTTGAAGATAAATGCGCTTTTACAGCGGGCTTATTTCAGCTCTTCTGC -TTCCGGTAAGGTCACGTTCAGCTCAAGAATAGAAATATCGCCATCTTTTTGCTCAAGCTGTACGGTTACCATCTCAGGAT -CAATTTGTACGTATTTACAAATGACCTCAAGAATATCTTTACGCAACTGCGGCAGATAATGCGGTTCTGCATCGCTGCGA -CGGCGTTCAGCAACAATAATCTGCAGCCGTTCTTTTGCAATGTTGGCTGTGTTTTTCTTCCGCGAGAGAAAGAAATCGAG -TAATGCCATAACTTATCCTCCGAACAAGCGTTTGAGGAAGCCTTTCTTCTCTTCTTCAATGAAGCGGAAAGGACGTTCTT -CTCCCAACAGACGTTCTACGGTATCTGCGTAGGCTTTACCCGCATCGGCGTTAATGTCGAGAATGACCGGTTCACCCTGG -TTAGAGGCGCGCAATACTGATTGATCCTCTGGGATCACGCCGACGAGTTTGATGCGCAGGATCTCCAGCACATCTTCCAT -GCTCAGCATGTCACCTCTGCTTACGCGGCCTGGGTTATAGCGCGTTAACAGCAGGTGCTCTTTAATAGGCTCTTCGCCAT -TTTCTGCGCGGCGTGATTTCGACGCCAGAATGCCTAAAATACGGTCAGAGTCGCGTACTGAGGAGACTTCCGGGTTGGTG -GTAATAATGGCTTCGTCTGCAAAATAGAGTGCCATTAACGCACCGGTTTCAATCCCTGCCGGGGAGTCACAAACGATAAA -TTCAAAATCCATCGCTTTCAGATCATCAAGAACTTTGGCGACCCCTTCACGGGTGAGGGCATCTTTATCGCGTGTTTGCG -ATGCCGGCAGAATATAGAGATTTTCAGTACGCTTATCTTTAATTAACGCCTGATTTAGCGTTGCATCGCCCTGAATGACG -TTGACGAAATCGTAAACGACCCGGCGTTCACAACCCATAATCAGGTCGAGATTACGCAGGCCGATATCAAAATCTATCAC -GACAGTTTTCTTTCCCTTCTGGGCCAAACCAGTGGCGATGGCCGCGCTGGAGGTTGTCTTACCAACACCCCCTTTGCCCG -AAGTAACAACAATAATGCGTGCCATAGAAATTCCTTGTTAAAAAGGGATCAATTTAACGGTTGAACGGTCAAAGCGTTTT -CGACTAACTGCAGTCGCGCCGCTTTGCCATAAAATTCTGCTGGGATTTGATCACTCAGCCAGTATTCACCTGCGATGGAC -ACCAGTTCCGCCATCAGGTTCGTACAAAATATTTGCGTTTCCCGGTCACCACTTGCCCCTGCCAGCGCACGACCGCGCAT -CATGCCATAGACATGAATGTTCCCATCGGCAATCAATTCGGCCCCAGCGCTAACGTGGCTTGTAACAATCAGATCACATT -GTGGAGCATAAATACGCTGACCGGAACGCACCGGGGTATCTATTAAACGCGTTTTTGTGACCGGCGTTGTATTTTGCGCT -GGAGCCTGCGGTGTGGGAGCTGGACGTGGCGCTTTTTCCTTTCCTTCCGTCAGGATAGGCAGCCCCATCTTTTCAATTTC -GGCTTTAAGTTGCGCATCTTTGCAGCCACTTACGCCAATAACCCGCAAACCGGTTGCCGAAACCGCCTTATGCATCGCTG -ACCAGTTTACCGGGTCTTCCAGTGCACTGACGTTGAGTACAACGGGGGCATGTTTTAAAAATGCGGGGGCCTGAGCGATT -TTGTCTTCCAGCGCCTGATGGATAACCTTAGGTTCTGCCTCATGCAGATGAACCACAGATAAAGTGAAGCTACTGCCTTT -AAGCTCGATTGGCGTGTTTGACATCCTGGCCTTACTCAATTAGCTATTAATCATCGCCAGCGCGCGATGATGTTCCGAAG -ACTATAAGGCATGTTATAGTCTGGATTATATTGAGGCAAGTCACCCTCCCATTTATTCAGAGTAAAAGTCTATTCTGTGA -TAAATGGCGCTGATTCATAGCTTAAAAAATACCCTTGTCAATCAACCCATTGCCGTCGTACTTTTGATTGTTCTTATTTA -CGCTTCCTTTTTCCGCACCCTAATCGTGACAGCATCTCCAGACCTGTTTAAATATCCAGTATTGAGGCAAGTGTATTTTT -TCACCACGCCAGGCTTTCTTAACTTTCCATTTTTTGCGGCATCATTAAAGAACAGATACCCGTTATCTTAATATCCGCCA -CAGAATTGCTCTATCATAGAAACCGCAGAAGACGTCTGATACTTCTGTCAGGTCATCGTAACTCGTCCAGGTCAGCGGTT -TTGATTACGGATTGATGATGAAATGAGCATAAGTGTTGTACGGTTGGATTATCAGGATGTGCTATGAATATGATGCGTAT -TTTTTATATCGGATTGTCAGGTGTGGGGATGATGTTCTCATCAATGGCGTCTGGAAATGACGCTGGCGGACTTCAATCTC -CGGCGTGCGGCGTTGTTTGCGACCCGTATATTTGTGTGAACTCAGATGGCATTTCCCCAGAGTTAACAAGGAAATATCTC -GGCGAAAAAGCCGCTGAAAACTTACAATCATTACAAGGCTACGATCCCAGCGAATTTACATTCGCTAACGGTGTATTTTG -CGATGTTAAAGAAAAATTATGTCGTGATGATCGTTATTTTGGTGTGGATGGTAAGCGGAGTGGAAAAATCAATCAAACCA -CCACAAAGATGTTATTTATGTGTCGTGAGTGATGTCTTGTTTACATTATGTTCTATTCGTCATTAACCTCTTGAGCGACA -GAGAGGAGTGGGGCATTAACGTTTATGACGGGGAGAGTCCCCGTCGGTTGACATTTACTTAATTTGAATATCGACGTTAT -ATTTTTTAGTTTTGTTTTTACGGGCGTCGTTTCGGGTTTGCAACACTCGCAGCTCATATTTGCCAGAAGCAGGGAGTGAG -TATTGTCCGTGACTATCGAGTTCTGGGGAATATCTGGATAAATCAACTGAATCATCGATTCCTGGCCCGAAGAGGTAAGT -ATCAGCGCCTTCATTAGAGATACTCACATGCACTTTCTGACCTTTTTTGGCATAGAAGGTATATGTATCGTAATCGTATC -CCTTTATTTCGCCGGAGTACTGAGCGCTGCTATGGCCTTTTCTGAACTCAACATTGACATTCTTACCCGCAGCAAAGCTC -GTGGAGGTTAGCAGTGCAAGCAGCAATACAGCCTTCCTGATGCTCTTGATTTTCATTGGTAGTCTCCTGTTCAGAATGAG -TACGATGAACTGTTATAATATAACAATCCCTAACGGGAGAATTCCAGTGGCTTTCCTGCGTTCGGTAAAATCACGTTGCG -GCATTTTTGCCGGGGGGATTACTTATAAAGGGGGCATGGACTCAACAAACCGTAGAAATCTACAGCTGGCTGGCTTGTGG -CGCGGGTTTCATTGATGTTAGCTTATGCCAAAACCTGGCATCTTAAAGAGTAAAAGTATGTTTTGTGTGATTTATCGAAG -CAGCAAGCGTGACCAGACCTATTTATATGTCGAAAAAAAAGACGATTTTTCGCGTGTTCCTGAGGAACTGATGAAAGGTT -TTGGTCAGCCTCAGTTAGCGATGATTCTGCCGCTGGATGGGCGGAAGAAACTGGTCAATGCCGATATTGAAAAGGTTAAA -CAGGCATTAACCGAGCAAGGTTACTATTTGCAGTTACCGCCACCACCCGAAGATTTGCTGAAGCAACATCTTTCCGTCAT -GGGGCAGAAAACAGACGACACTAACAAATAACCGATATCCGGCGGTGGCATTATCTTTGTCGGCGCGGGTTTTCATATCC -ACGATAAGGTGAGGGGAACGTTATGTATCAACATCACAACTGGCAAGGTGCGCTGCTGGATTATCCGGTGAGTAAAGTAG -TCTGTGTTGGCAGTAACTATGCCAAACATATTAAAGAGATGGGCAGCGCAGTGCCCGAAGAGCCAGTGCTGTTTATTAAA -CCAGAAACGGCACTGTGCGATCTGCGGCAGCCATTGGCGATCCCATCCGATTTCGGTTCAGTTCATCATGAAGTCGAACT -GGCGGTGTTGATTGGCGCGACACTGCGTCAGGCTACGGAAGAGCATGTCCGCAAAGCCATTGCCGGTTATGGCGTGGCGC -TCGATCTGACATTGCGTGATGTTCAGGGAAAAATGAAGAAAGCCGGGCAGCCGTGGGAAAAGGCTAAAGCGTTTGATAAC -TCTTGTCCGCTTTCCGGGTTTATTCCCGCGGCGGAATTTACCGGCGACCCGCAAAATACAACGCTGAGCCTGAGCGTAAA -CGGCGAACAACGCCAGCAAGGTACGACTGCGGACATGATCCATAAAATCGTTCCGCTGATCGCTTATATGAGCAAGTTTT -TTACCCTCAAGGCCGGTGACGTTGTGTTGACAGGCACGCCTGATGGCGTCGGCCCGTTGCAAAGCGGTGATGAGCTGACA -GTCACTTTCGATGGGCATTCTTTGACAACTCGCGTTTTGTAATACTTTTTGCCGCCTGAAAGCGGCGGCAAAACTTGCAT -CGCTGTGCCAGACTGGTTATAAGGTGCGTTTTAACGTAATGGCGGAACACCTGATGAGCGATGTACCTTTCTGGCAAAGT -AAAACCCTGGACGAAATGAGCGATGCGGAATGGGAGTCGTTGTGTGATGGTTGCGGTCAGTGTTGCCTGCATAAACTGAT -GGATGAAGACACCGACGAAATCTACTTCACTAACGTCGCCTGTCGCCAGCTCAATATTAAAACCTGTCAATGTCGGAACT -ACGAACGTCGTTTCGAGTTTGAACCCGACTGCATTAAATTAACCCGTGAAAATCTGCCAACATTCGAATGGCTGCCAATG -ACCTGCGCTTATCGTTTGCTGGCGGAAGGTAAAGATTTACCTGCGTGGCATCCGCTACTTACTGGTTCGAAAGCGGCAAT -GCATGGTGAACGTATCTCTGTGCGTCATATCGCAGTGAAAGAATCAGAAGTGATTGACTGGCAGGATCATATCTTAAATA -AACCTGACTGGGCGCAGTGATAAATTTAATAGATGCTGATGGGGGCTTTCTTAATATACGTCTGGATGCTCGCCATTTCG -TAGCCCTGTTTTTGAAAGCGCTCTGTCATAATGAGAGTTACCCGATACCTTATTATCAACAGGTAACTCTCAATCTTTAA -AAAACGTCTGTGTTTTTAAATGTGATAAACCTTATACCTTGAGTACATGGAGAGAATAATCGCTTATCAGACTTCAGGTA -CCTCAAAGAGTGTCTTTTTACCGTGTCTTTTCTGATACTCATTACAGGTGTTAATCATTTTTTTGGCCGCTTCTTTTAGC -AAAGAAAGCATTAAATCATCATAATCAACGTAGAATCTGGTTGTTTCAGTTTCCGTTTTTATCTCACCGATGGCGGCTAT -TTCGGTGGTTAATTTCAATTTGGCGGCATCGATATCTTTATTCGCTTGTTTAACCGTGTTAGACAGGGTGGTAAAGAAAT -TCTGCACAGATTTTAACTTGTTCTTCAATTCTGGAATCAGTTTTCCTTCAACTACGCCCGCAGCAATAGAATAGGAAATG -ATTAATCCAAATGGACCGGCGACGACACCGGCTGCGGCACCGGCATATGCTTCCTTCCTGATTTTATCTACCTGTGACTG -GAAATAGCTGCTTTTTTCTGAAAAATCATTGGTTAACTGGCTATCTAACGCCAGCAGTTTCCCGGAAGCGTTGTTGAAAC -TTTGTGAGCTTACCAGCAGGGATTTTTGCGCTTCATTCAGCTTCGTGATGCCGTCATCCAGTACCTTAATGAGAATGTCT -TTCTGGGCGGATGCTTTCTTCTCATTGTACTCATCAAATAGCAAAATATACGCTGCGAGCAATTGCGTCGCAACACCACA -CCATTCATACACTGTTTGGGTTGCTTCAAAATACTTATCCTGGCTATCCATAAGTAAGGTTTTAATATCGCCGACTAAAA -CGGAGGCTGCCTGTGAATACTCCTGTTTAAAGCGACTTAACTCTTTTATGGTTTCATCAAAGGTCTGCCAGGGGATGACC -TGATCGAGATATTTATTATAAAGATCTAATGCTCCATCTGCGGTTTCGATTGCGTTTTTAACTACTTCTACCGTTTTATC -TGCAACGATTTCAGTCATAATCATTCGCCTCTTTAAATATATAAATTGTAATGAAACTCCTGTTTTACAACTATTAATAA -ATTTTACTTCATCTAATTCATAGTTAGCCGGGCGGGATGCGTCAATGTCTTTATTTCTATTAATATGATAAATATCAAAC -AATGTTTAATGTCATTATGGCGAATGCTTCTATTCTATTTTTTAGCCGGGTGATATTTTTCATTTCTGCTGGATGAGCGT -CGTCGCCAGAAGGCCACGTGAGCACAAGATAAGAGAACGAAAAATCAGCAGCCTATGCAGCGACAAATATTGATAGCCTG -AATCAGTATTGATCTGCTGGCAAGAACAGACTACTGTATATAAAAACAGTATAACTTCAGGCAGATTATTATGTTGTTTA -TCAAGCCTGCGGATCTCCGCGAAATTGTGACTTTTCCGCTATTTAGCGATCTTGTTCAGTGTGGCTTTCCTTCACCGGCA -GCAGATTACGTTGAACAGCGCATCGATCTGAATCAACTGTTGATCCAGCATCCCAGCGCGACTTACTTCGTCAAAGCAAG -TGGTGATTCTATGATTGATGGTGGAATTAGTGACGGTGATTTACTGATTGTCGATAGCGCTATTACCGCCAGCCATGGTG -ATATTGTCATCGCTGCTGTTGACGGCGAGTTTACGGTGAAAAAATTGCAACTACGCCCGACGGTACAGCTTATTCCCATG -AACAGCGCGTACTCGCCCATTACCATCAGTAGTGAAGATACGCTGGATGTCTTTGGTGTGGTGATCCACGTCGTTAAGGC -GATGCGCTGATGTTTGCCCTCTGTGATGTAAACGCGTTTTATGCCAGCTGTGAGACGGTGTTTCGCCCTGATTTATGGGG -TAAACCGGTGGTTGTGCTATCGAATAATGACGGTTGCGTTATCGCCCGAAACGCTGAGGCAAAGGCGCTTGGCGTTAAAA -TGGGCGATCCCTGGTTCAAACAAAAAGATCTGTTTCGTCGCTGTGGCGTGGTTTGCTTTAGCAGCAATTATGAGCTTTAC -GCAGACATGAGCAATCGGGTGATGTCGACGCTGGAAGAGCTATCGCCCCGCGTCGAGATTTACAGTATTGATGAGGCATT -CTGCGATCTGACAGGTGTGCGTAATTGTCGCGATCTGACTGATTTTGGCAGAGAAATTCGCGCAACGGTGCTACAACGTA -CCCATCTTACTGTTGGTGTGGGGATCGCCCAGACCAAAACGCTGGCTAAGCTTGCCAATCATGCGGCAAAAAAATGGCAG -CGGCAGACGGGTGGGGTGGTGGATTTATCAAATCTGGAACGCCAGCGTAAATTAATGTCTGCTCTCCCCGTGGATGACGT -CTGGGGGATTGGACGGCGGATCAGCAAAAAACTGGACGCGATGGGGATCAAAACCGTTCTCGATTTGGCGGATACAGATA -TCCGGTTTATCCGTAAACATTTTAATGTCGTGCTCGAAAGAACGGTGCGTGAACTGCGCGGCGAACCCTGTTTGCAACTG -GAAGAGTTTGCACCGACGAAGCAGGAAATTATCTGTTCCCGCTCGTTTGGTGAACGCATCACGGATTATCCGTCGATGCG -GCAGGCCATTTGTAGTTACGCTGCCCGGGCGGCGGAAAAACTTCGCAGCGAGCATCAATATTGTCGGTTTATCTCCACGT -TTATTAAGACGTCACCATTTGCGCTCAATGAACCTTATTACGGCAATAGCGCGTCGGTAAAACTGCTGACGCCCACTCAG -GACAGCAGGGATATCATTAACGCTGCTACGCGATCTCTGGATGCCATCTGGCAAGCGGGCCATCGTTACCAAAAAGCGGG -CGTGATGCTGGGGGATTTCTTCAGTCAGGGAGTCGCGCAGCTCAATTTATTCGATGACAACGCACCGCGCCCCGGGAGTG -AGCAATTGATGACGGTAATGGATACACTGAATGCTAAAGAGGGCAGAGGAACACTCTATTTTGCCGGGCAGGGGATCCAG -CAACAATGGCAGATGAAGCGAGCCATGCTTTCACCACGTTATACAACGCGAAGTTCTGATTTACTGAGGGTCAAATAAAT -ATAGCGGCAGGAAAAAAGCGCTCCCGCAGGAGCGCCGAATGGATTAGCGACCGAACAGATCACGTTTTTTCGCTTTAAAC -GGCTGGGAAATCACCACCAGCACTGCGACAATCAGGTAAGCGATAAAAATACCGAGCAGCCACTGCGGCATTTCCAGACC -TAAAAAATCCCACTGACGCTCGGCGCAATCGCCAGAGGCGACAAACACTTGCGGCACCCACTTATCCAGCGGCAGCCATT -CCGGGAAACGAACCATAAAATCACAGGTGGCAAACGGCGAAGGATAGAGCTGAAGCATGGTGTGCTCGTAAGTTAACTGC -ACACCGCGGAACGCACTATACAACCAGATAACCATCGCTACATAACGCAGCGGAGTTTTCGGGGCGATCGCGCCAATCAG -CGCAGCACCCAGAACGCCGAATAACGCGCAGCGTTCATAAATACAGAGCACGCAAGGTTTCAGTAACATCACATGCTGGA -ACCACAGCGCCGTCAGTTCCAGTGCCAGAGCAGTAAACGCCATCAACAGCCACGCGCCCCGGCCTTGTGAACATTGGTTC -AAAAATCGCAACATAATCATTTCCCTGCAATATGCATAGAGTGCGCAGTTTAAACCAATTCATTCGCTGCGCCACCAGGA -GGCAGCAAAAATAGGACGCAATTGGACAATTATCGGGCGAAAAGGCAAACCGGGCATTTATATGCCCGGTAAGTTGTTAT -CAAAGCGTTGCTATCCAGCCCATTTGCATAAACCATTCGGTTACAGGGGCAAGCGTAAACTCGACGCAGAGCAAGCCGAC -GAGTGTCAGGACGAGGGTGTAAGGCAGGGCCATCCACACCATGCGGCCATAAGAGAGGCGAATCAATGGCGCGAGTGCAG -AGGTCAGCAGGAACAGGAACGCAGCCTGACCGTTCGGCGTAGCGACGGAGGGCAGATTGGTACCGGTATTAATGGCGACC -GCCAGCAGCTCGTATTGCTTCAACGTGATAGCGCCACTTTCCATTGCCGCTTTCGCTTCGTTGATATAAATCGTCCCCAC -GAAGACGTTATCCGAAATGGATGACAGCAGACCGTTGAAAATATAGAACAGCGACAGCTGAGCATGTTCCGATGCCTGCA -ACACAAACTGAATAATTGGCGAAAACAGTTGTTGGTCGATAATCACCGCGACTACCGAGAAAAACACCGTCAACAGTGCG -GTGAATGGCAGAGATTCGGTGAAGGCTTTACCGATAGCATGCTCATCGGTGACACCGGTCAATGATGTTGCCAGAATAAT -GACTGACAAACCAATCAAGCCAACTTCCGCCAGATGCAACGCCAGCGCAGTCACCAGCCAGACGCCAATAATCGCCTGGA -CAATCAGACGGATTTTATCCTGACGGGTACGCTGGTGGCGGCTTTGATCGTCAAACTGTTGCAACACTTCGCGGACTTTC -TCCGGCAGCGTTTCACCGTAGCCAAACCAACGCAGCTTCTCTACCAGCAGGCAGGTTAACAGGCCACAAATCAGAACCGG -AACGGTCACCGGCGACATGCGCAGGAAGAAATCGCCAAAATGCCAGCCAGCCGCTTTAGCGATGATCAGGTTCTGTGGTT -CGCCCACCATGGTCATTACGCCGCCTAATGCGGTGCCGACACCGGCATGCATCATCAGGCTACGCAGAAAGCCACGGAAC -TGTTCCAGAACCACTTTGTAATGCTTGTCGATATGACTATCGTCTTGCAGGTCGGTGTCTTCGGTACGGGAAGAGGCTAC -GCGGTGATAAATACCATAAAAACCGACTGCAACGCTGATCACCACCGCCACGACGGTTAAGGCATCGAGGAACGCGGAGA -GGAACGCAGCCGCCACGCAAAAAGAGAGCGACAGCAGCATTTTGGAGCGAATGCTTAACAGCAAACGGGTAAATATGAAC -AGCAACAGCTGTTTCATAAAATAGATACCCGCCACCATAAACATCAGTAACAGCAAGACTTCAAGATTTGCCGCCACCTC -TTCACGGACGTGTTCCGCGCTGGTCATGCCGATGAATACCGCTTCGATAGCCAACAGACCACCGGGGAGCAGCGGGTAGC -ATTTCAGGGCCATCGCCAGAGTGAAAATAAATTCCGCTACCAGCAACCAGCCCGCGACGAAAGGGCTGATGAGGAAAATT -AACGGGTTTACGATTAAGAAAATGATGAGGGCGAGTTTGTACCAGTCGGGGGACTGGCCCAAAAAATTGCGCCATAGCGC -GCGGCCCCAGGAGATCTCCATGATGGTTTCCCTTACCTTACAAATAATCAATGATGTTTTTATGTTTAAACGCAAAGCTT -AACGGTCAGGCAGGAGTGAGGCAAGTCTTGATAGTCAAGGGGAAAGAGATGCGGAAAATGAAGCCTTGATCCCTTTTTCT -TCTTTTTGTCTGCTATCAGCGTAGTTAGCCCTCTGGTATGATGAGTCCAACTTTGTTTTGCTGTGTTATGGAAATCTCAC -TATGGTCATTAAGGCGCAAAGCCCGGCGGGTTTCGCGGAAGAGTACATTATTGAAAGTATCTGGAATAACCGCTTCCCTC -CCGGGACTATTTTGCCCGCAGAACGTGAACTTTCAGAATTAATTGGCGTAACGCGTACTACGTTACGTGAAGTGTTACAG -CGTCTGGCACGAGATGGCTGGTTGACCATTCAACATGGCAAGCCGACGAAGGTGAATAATTTCTGGGAAACTTCCGGTTT -AAATATCCTTGAAACACTGGCGCGACTGGATCACGAAAGTGTGCCGCAGCTTATTGATAATTTGCTGTCGGTGCGTACCA -ATATTTCCACTATTTTTATTCGCACCGCGTTTCGTCAGCATCCCGATAAAGCGCAGGAAGTGCTGGCTACCGCTAATGAA -GTGGCCGATCACGCCGATGCCTTTGCCGAGCTGGATTACAACATATTCCGCGGCCTGGCGTTTGCTTCCGGCAACCCGAT -TTACGGTCTGATTCTTAACGGGATGAAAGGGCTGTATACGCGTATTGGTCGTCACTATTTCGCCAATCCGGAAGCGCGCA -GTCTGGCGCTGGGCTTCTACCACAAACTGTCGGCGTTGTGCAGTGAAGGCGCGCACGATCAGGTGTACGAAACAGTGCGT -CGCTATGGGCATGAGAGTGGCGAGATTTGGCACCGGATGCAGAAAAATCTGCCGGGTGATTTAGCCATTCAGGGGCGATA -ATCCCTTCCGTTTAAAGAGCAAACCCCTCAAACGAGGGGTTTTTTGTTGTTTTTACAGATTTCCCATTCTTGGCGGGCAA -CGTTCCAGCAACTCGATGCTGCCGTCTTCGTTTTGCTGTTCGAGCATCACATCAAATCCCCACAGGCGATGCACATGCTT -CAGGACTTCTTTGCGCCCCCGATCCAGCGGTGCGCGATTATGTGGAATATAACGCAGCGTCAGCGAACGGTCGCCGCGCA -AATCCACGTTCCAGATCTGAATATTCGGCTCCAGATTACTTAAGTTATATTGCGACGATAACCGGTTACGGATCTCCCGA -TAACCTTCTTCATTATGAATAGCGGAAATCTCCAGATAATTATGCCGATCGTCATCCAGCACGGTGAAGAAGCGGAAATC -ACGCATCACTTTCGGTGACAGGAACTGGCTGATAAAACTCTCATCTTTGAAATCACGCATCGCGAAATGCAGCGTTTCCA -GCCAGTCGGAACCGGCGATATCCGGGAACCAGTATTTGTCTTCTTCCGTTGGCGACTGACAAATCCGTTTAATATCCTGG -AACATGGCGAACCCGAGGGCATACGGGTTGATGCCGCTGTACCACGGGCTGTTATAGGGGGGCTGGAAGACCACATTGGT -GTGGCTGTGCAAAAACTCCAGCATAAAACGTTCCGTTACTTTCCCTTCATCATACAGATGGTTAAGGATGGTGTAGTGCC -AGAAGGTCGCCCAGCCTTCGTTCATCACCTGAGTCTGTTTTTGCGGATAAAAATACTGGCTCACCTTACGCACAATACGC -AGGATTTCACGCTGCCATGATTCCAGCAGTGGCGCATTTTTCTCCATAAAATAGAGCAGGTTTTCTTGTGGTTCGGACGG -ATAGCGGCGCGCTTCAGCAACCGTTTTCTCTTCCTCGCGCTTCGGCAGGGTACGCCAGAGCATATTGACCTGACTTTGCA -GATACTCTTCGCGACTTTTCTGCCGGGCTTTCTCTTCTTGCAGCGAGATTTTTTGCGGGCGTTTGTACCGGTCCACGCCG -TAGTTCATCAGCGCGTGGCACGAGTCCAGAAGCCGTTCTACTTCATCAACGCCATAACGCTCTTCGCACTCGGTAATATA -TTTACGGGCAAAAATCAGATAATCGACAATCGAACTGGCGTCGGTCCAGCTACGGAATAAGTAATTGTTTTTGAAGAAAG -AGTTATGCCCATAGCAGGCATGAGCCATCACCAGCGCTTGCATGGTAATGGTGTTCTCTTCCATCAGGTAAGCGATACAC -GGGTTAGAGTTAATGACGATTTCATAGGCCAGTCCTTGCTGACCGTGCTTATACAGCCGTTCAGTCTCGATAAACTTTTT -ACCGAATGACCAGTGCGGATAGTTAATTGGCATGCCGACGCTGGAGTAGGCATCCATCATCTGTTCTGAGGTTATCACTT -CAATCTGGTGCGGGTAGGTATCCAGCCGGTAGAGTTTCGCCACCCGGTCTATCTCTGCCAGATAAACATCCAGCAGGTCG -AACGTCCAGTCGGGTCCATCGCTCAAACGTGTGGTGTCCTTATTCATAGAATCGATCGTCGCCATACGCGCACCTCATTG -TTGTCGGCGCTCTCTGTGTGGAGCACCTCATTTCAAGCATAGAACACCTGTTAAAAACCGCGTCGCCGGAGAATTTTTTT -CTTTGCGATTTCTTATTATCAGAGTGCCACTAATCCGCTTCTGAACGGAATTTTATGCTGGATAAAAAGGGCGTTCAGCA -GGAGATACTAAAGACGCCATATTGCCGCAGAGTCAGGGAGATGTGAGCCAGCTCACCATAAAAAAGCCGCATGTTGAATA -ATATTTTCAACTGAGTTATCAAGATGTGATTAGATTATTATTCTTTTACTGTATCTACCGTTATCGGAGTGGCTATGCGA -GTTGTCATACTGGGAAGTGGTGTGGTAGGCGTTGCCAGCGCCTGGTACTTAAATCAGGCAGGACATGAGGTCACCGTCAT -TGATCGGGAGCCGGGGGCCGCCCTGGAAACCAGTGCCGCGAATGCCGGGCAAATCTCCCCCGGATATGCTGCACCGTGGG -CGGCACCAGGTGTGCCTTTAAAAGCGATTAAATGGATGTTCCAGCGCCATGCGCCGCTGGCGGTTCGTCTCGACGGTACG -CAGTTCCAGTTGAAATGGATGTGGCAAATGTTACGTAACTGCGACACCAGCCACTACATGGAAAACAAAGGGCGGATGGT -GCGTCTGGCGGAATACAGCCGTGATTGCCTGAAAGCATTGCGCGCCGAAACCAATATTCAGTATGAAGGGCGTCAGGGTG -GGACGCTGCAACTGTTCCGTACCGAACAACAGTATGAAAATGCGACCCGCGATATCGCCGTGCTGGAAGATGCCGGCGTA -CCGTATCAGCTGCTGGAATCCAGCCGCCTGGCGGAAGTGGAGCCCGCGCTGGCAGAAGTGGCGCACAAACTGACGGGCGG -CCTGCAGTTACCCAATGATGAAACCGGAGACTGTCAGCTATTTACCCAGAATCTGGCGCGGATGGCGGAGCAGGCGGGGG -TTAAATTCCGCTTTAATACGCCCGTTGACCAACTGCTTTGCGACGGCGAGCAAATCTACGGCGTGAAGTGTGGCGATGAA -GTGATTAAGGCCGATGCGTATGTGATGGCGTTTGGTTCTTACTCGACGGCGATGCTCAAAGGCATTGTTGATATTCCGGT -GTATCCGCTGAAAGGCTACTCGCTGACCATTCCAATTGCGCAGGAAGATGGTGCGCCGGTATCCACCATTCTTGATGAAA -CCTACAAAATCGCCATTACCCGTTTCGATAACCGCATTCGTGTTGGCGGAATGGCGGAGATTGTTGGTTTTAATACCGAG -CTGTTGCAACCGCGTCGTGAAACGCTGGAGATGGTGGTTCGCGATCTCTATCCACGCGGCGGTCATGTCGAGCAGGCGAC -TTTCTGGACTGGTCTGCGCCCGATGACGCCAGACGGCACGCCGGTTGTCGGGCGTACACGCTTTAAAAATCTGTGGCTGA -ATACCGGTCACGGCACGCTCGGCTGGACGATGGCTTGCGGTTCCGGTCAGTTGTTAAGCGATCTGCTCTCTGGTCGCACG -CCAGCGATCCCATATGAGGATCTAAGCGTAGCGCGCTACAGCCGTGGATTTACGCCATCACGTCCGGGCCATTTACATGG -CGCACACAGCTAAGGAAACGAGATGACCCGTCCGATACAGGCCAGCCTCGATCTGCAGGCATTAAAACAGAATCTGTCCA -TTGTCCGCCAGGCCGCGACGCACGCGCGCGTCTGGTCGGTGGTAAAAGCGAACGCTTACGGGCATGGTATTGAGCGTATC -TGGAGCGCGATCGGGGCCACCGATGGCTTTGCATTGCTTAACCTGGAAGAGGCAATAACGTTACGTGAGCGCGGCTGGAA -AGGACCGATCCTGATGCTGGAAGGATTTTTCCATGCTCAGGATCTGGAGATTTATGACCAGCACCGCCTGACCACCTGCG -TACACAGCAACTGGCAGCTCAAAGCACTGCAAAATGCGCGGCTAAAAGCACCGTTGGATATTTATCTTAAAGTGAACAGT -GGGATGAATCGGTTGGGCTTCCAGCCCGATCGCGTGCTTACCGTCTGGCAGCAGTTGCGGGCAATGGCGAATGTTGGCGA -AATGACCCTGATGTCGCATTTTGCCGAAGCGGAACATCCTGATGGAATTTCCGGCGCGATGGCGCGTATTGAGCAGGCGG -CGGAGGGGCTGGAGTGTCGGCGTTCGTTGTCCAATTCGGCGGCGACTCTGTGGCACCCGGAAGCGCATTTTGACTGGGTT -CGGCCTGGCATTATTTTGTATGGCGCTTCGCCGTCCGGTCAGTGGCGTGATATCGCCAATACCGGATTACGTCCGGTGAT -GACGCTAAGCAGTGAGATTATTGGTGTCCAGACGCTAAAAGCGGGCGAGCGTGTGGGCTACGGCGGTCGCTATACTGCGC -GCGATGAACAGCGAATCGGCATTGTCGCCGCAGGGTACGCCGACGGTTATCCGCGCCACGCGCCTACCGGTACCCCTGTT -TTAGTGGACGGCGTGCGCACCATGACGGTGGGGACCGTCTCGATGGATATGCTAGCGGTCGATTTAACGCCTTGCCCGCA -GGCGGGTATTGGTACGCCGGTTGAGCTGTGGGGCAAGGAGATCAAAATTGATGATGTCGCCGCCGCTGCCGGAACGGTGG -GCTATGAGTTGATGTGCGCGCTGGCGCTACGCGTCCCGGTTGTGACGGTGTAACTTGTTGTAAGCCGGATCGGAGGCAAC -GTCTTCTGGGTGCAAAAAAATCATCCATCCGGCTGGTCAGCAACTGTAGTTGTTAATGTGACAGAGCCATTGCCCATGAT -AGTGTCCATTAAAAGGATGGACACTATTTCCCCGGAACCTGAACTCACCGCACAGGCGTTCTACATAAAACGCTTACGCT -TCATTGTTGACTCGAACTCGACTTCAGATAAATCACGCTTTACCCTTGATGGAGCCTGTACATAGATTTGTGTAATTGCC -TGATTTTGATATGTTCAATTCAACATCAAATGAAGGTTAAATTATGGACGACAAACAATTGCAGGCTCAGGCTGCGTTCA -GCAAAGCATCGCAACCGGCGATAGATGCTTCATTAAATTTAAGATTCAGCTTCCTCTTCAGCCACCCGTACGCCAATCTT -CAACACTTCATTATCTTCTTTCTCGGCCACCGTCCAGATCATCCCGGCAAACTCTACCTGGTCACCGACAACCGGTGCCG -CGCCTAACAACTGCTGGACAATTTCACCCAGCGTTTGCTGCTTATCACGATATTCTCGCCCGTCTTCCAGGCCATATATC -AGCGCAACATCAGCATATTTGGCGCTGGCTTCGAGAATGAAGTCACCAAAGAAGCGTTGATCCAGCGCGACCGGCGGCGA -CTGGCTGAACAGTTTACCGAGCGCCGGAAGATCGCGTTCCCGACCAATTACACACAACACATCGCCTTCGCGCAGTCGGG -TGCTGCCGGTAGGATGAAGCAACTGGTTATCACGAAACAGTGCCGCAATACGCGTCTCTTTTGGCATATGCAAATCGCGC -AGTGCCGCGCCCACGCACCATTTATCGGCACTCAATTGATAAACAAACTGCTCCCACGGATTTTCCGGATGAATATCCAG -GCCAACGCGTGACACCGGACGTCCCACTGGCGGAACCACCACTTTGGCTTTTTTAGCCGCCCACGAGAGTGATGTTCCCT -GCAAGAGCAGTGAAACCAGAACCACAAAGAAGGCGACATTAAAGAACAGACGTGCATTCTCCAGCCCCGCCATCATCGGG -AACACGGCCAGGATGATTGGCACCGCGCCGCGTAATCCTACCCAGCTGATAAACACGCGCTCACGCAGATTGAAACCGCG -GAAGGGGAGCAATCCAGCAAATACCGAAAGGGGACGGGCGAAGAATATCATCCATGCGGACAAAATGAGCGCCGGAATGG -CAATAGGCAGCAGATCGCTTGGGTTAACCAACAGCCCCAGCACCAGGAACATGGCGATTTGCGCCAGCCAGGCGAGGCCG -TCGAAATTTTGCAGGATGCCGTAGCGGTTGCGAATAGGGCGATTACCCAGCAGAAAACCGCACAGATACACCGCCAGAAT -ACCGCTACCTTCCAGCGCAGTAGTTAATGAGAAAATCAGAATACCGCCACTTAATGCCAGCAATGGATATAATCCGGCGG -GCAGGGCGATGCGGTTGATCATTTGCAGTAGTAAATAACCGCCGCCAAGACCTATTACAATGCCCAGACCAAATTGTTGC -AGAATATCGACAATGAACATCCAGCTAATATTGCTCTCATGATGCTGGATCATCGCAATTAGGGTAATCGTCAGAAAGAC -CGCCATTGGATCATTACTGCCGGATTCAATTTCCAGCGTCGAGCCAACACGTTCGTTAAGCCCCTTACCACCCAGCAGAG -AAAAGACCGCTGCAGCATCGGTAGAGCCGACGATAGCGCCGATTAATAAGCCTTCAATCAAATCAAGATTAAACAGCCAC -GCCGCCATCATGCCGGTTAAACCAGAGGTGATAAGCACGCCCAGCGTCGCCAGCGACAGTGCCGGTCCTAACGCCACACG -AAAGGAACTGGCCTGAGTGCGCATCCCGCCGTCGAGCAAAATAATCGCCAGTGCCAGGTTACTTACCATGTAGGCGAAGG -GGTAATTATCAAACGGGATACCGCCGACGCCATCGACTCCTGCCAGCATGCCGATCGCCAGAAAAATAACCAGAATAGGA -ATGCCAAGACGGGAAGAAAATGAACTAAGTAATATACTGCTGGTGACAAGGATGGATCCTAAGATGAAAAGGCTAATTAT -TGTTGTGGCATCCAACGGTCGGTTACTCCTGATTACGCTGTCTCTTATATAAACCCTACCATATTAGCGGCAGAGACAGC -GTTTTACTTAGCCCTGAAGCGTGATTTTTTTACATTTTAAGAACAGGATGACCGCTAATCGTCAACTGAGTGCCTTCCCG -GGTGTTATTCAGAATGGCATGTGCGCCCAACGGCAGCGTAACCGTGCGTTGTTCATGACCAAAATCGAGGCCGGTAATGA -GTGGAATCGACAGGCGGGAACGCAAAAACGCGTACACTGACTCCAGGTTGTAACCTGCGTCATAATCATTGGGCGTGCTG -CCGCTAAAGCTACCGAGAATAATCGCCTTCTGACGTGGCAAAATTCCCGCATGATAGAGCTGCAACAGCATACGTTCGAC -CCGGAAAGGGTGCTCGTTAATATCTTCCAGCACCAGAATACCGTTCTCAATTTTTGGCATCCACGGTGTACCGATCAGTG -AAATCAGCATCGCAAGATTGCCTCCCCACAACGTGCCTTCGGCCCGACATGTCGGGCCTTCCCCTTGCCATTCAATGGTG -AAGGTTTCATTGCGTAACGCCAGCCAGAAATGGTGCTCGGTAAAGGCGTTCAGTTCATCCGCGCCAAAGTTTGCTACCAG -CATGGGGCCGCTAAAGGTGATGACATTGCCATGCGCCAGAAGACCGCACTGAATGGCGGTAAAATCGCTATGTCCGCAAA -TGAGCAACGGGTCATGTTGTTGGCGAGCCACCAGTGCCTGCCAGTCAATATCTGCCAGTAAACGACTGGCACCGTAACCG -CCGCGTACAGCCAGCACGATGGTGTTGGGGGTAGTCAGTCTGGCAAGGGAATTGAGATCTTCCAGACGCTCTGTTTCCGT -ACCCGCAAAACGCTCACAACGACGGGCAATAACCTCGACGTTATTGACTTGATGCCCCGCGTCGGTAAGGCGCTGGATAC -CACGCAGCGCGGCGTGCTGTTTAATGCAGTAACCCGATGGGGCAATTAAGTGAAACAGAGACATGGCAATTCCTTGCTGA -CAACAGAAACGAAATGTATATCATGCCGCTTAGGTGTGCCGTTGTCACCTCAACGGCGATTCCAGGCTATAAGGATAGAA -GAAGTGAAATTGAGATGGTTTGCCTTTTTGATTGTGTTATTAGCGGGTTGTTCATCAAAGCATGACTATACGAACCCGCC -GTGGAACGCGAAAGTTCCGGTGCAACGTGCGATGCAGTGGATGCCAATAAGCCAGAAAGCCGGTGCAGCCTGGGGCGTCG -ATCCACAATTGATCACGGCGATTATCGCTATCGAATCGGGTGGTAATCCGAACGCGGTGAGTAAATCGAATGCCATTGGT -TTGATGCAGTTAAAAGCTTCAACCTCCGGACGTGATGTTTATCGCCGTATGGGCTGGAGTGGTGAGCCGACGACCAGCGA -GCTGAAAAATCCAGAGCGTAATATTTCAATGGGGGCGGCTTACCTGAATATTCTGGAAACCGGCCCGCTGGCAGGCATTG -AAGATCCGAAGGTACTGCAATATGCGCTGGTGGTGTCATACGCTAACGGGGCAGGTGCGCTGCTACGGACTTTCTCGTCA -GATCGGAAAAAGGCGATCAGCAAAATCAACGATTTGGATGCTGACGAGTTCCTCGAACACGTAGCGCGAAATCACCCTGC -GCCGCAGGCTCCGCGCTATATCTACAAACTTGAGCAGGCACTGGACGCGATGTAAATCAGTCGCGCACTTTGTCCGCTTT -TTCCCGGGCTTCTCGCTCGAGAGAGAAAATAATCCGCTGTAATTGCCGCTCCACCGTCGGGCTGACGTTAAGAAAACGGA -AGCTCAGACGGGGAGTGGTGATGGTTTCATTCTTGCCATCAATCACTTTGCGCTCGCTGATGGAGATTAACTGGGCGTCA -AAGTGAAAAACACCCCATTGCCCCATGTTGACTTCAATCTGAGCGAAGCGCATGCCTTCTTGTAATTCGGCAGGCTTTGC -TGTTTCCAGTAATGCGCCCATGCCGCCTAACGACAAATCATACAGGCGGAAACGTAACGTACTGTTATCCGCCAGTTTGG -TCTGGCAAAAATAAGGCGGATGGAGTGGGGCGGAGATGCGGAAATATCGGCGTCGTTGTACAAACCATAAGGTGGGAGGC -GGTACGGTAATAAATGCCGGAAGCTGCAAGTATTCACTCTGCTGTAGTTGTTCAACAGTAAACTCGACTTTCGCACCCTG -AGTTTCGGCGGTAATGGTAATGTGCTGTGCCTTTAGCACGGCGATGTTGTCTTCGGCTTGACTGCCGAAATCCAGCACCA -GTTTATCCGGGGTTATTGCCAGTAATTTGCTGATCAGCTGCCCGCCATTCCAACTGAGACGCAAAGGAATTGCGGCTTTG -TGCAAATCGCGTAACACGCCCAGGACGGCTAACGGATTTTGTTTCAGGAACTGCTCATGGTAATGACTCACGCGGAAAAA -CTCCTGACTGACAAACTGTCTTTGGTTTATCGGTCACAGTTAACAAAACTTAATACAAATGCGTGAATATTTTTTACATG -TTGTTCTTAAATCAGCCGACATACGCCCAGCATCGATCCCGCCCTTGCCTATACTTAGAGCGTTGATGTAAGCATTTCTT -GCGTCCGATTCATCGAAACGAGGGCCTGAACATGGGAATTATTGCCTGGATTATTTTTGACCTGATAGCCGGCATTATCG -CCAAGCTAATCATGCCGGGGCGTGATGGTGGTGGATTTTTCCTGACCTGTATTCTCGGGATAGTCGGTGCGGTGGTCGGC -GGCTGGCTGGCGACCATGTTTGGCATTGGCGGCTCCATCAGTGGTTTTAATCTGCACAGCTTCCTGGTGGCGGTGGTGGG -AGCTATTCTCGTTCTGGGCATATTCCGCCTCCTGCGAAGAGAATAAGATTTTCATAAGGCGGATAGCGATACAGATGCCG -CTATCCGCTTTCACATCAGAACGTATACTCGACACCTGCTTTACGGGTGAAAAAAATCAATATAGCACTTCGATATCCGA -TAAAGTCGGTTCCCGGTAACAACAACAGAATCCTTTTTTAATTATTGTTTCGTTGTTTTTGGTGTGATTCAGAAAATAAA -TATTTTAGACAGTAGCCAGTCAGGCGTTAAAAATGGGGCGGATAGTGAGGCGGTTTTGGCTGCGCTTATTGAACATTTAG -AATTGATCAATCCTTCTGGCAGATTAAGCCAAAATACCCGTTCGGCAATGCTTCAGTTACGCGAAGAGGAATGGTCTGAA -TTCTTTTTTTGGTTGCTAAATTCTCTGGAGTGTCTGGATTATGTGATTATTAATTTAACTCCAGAAAGCAAAAAAACGTT -GATGAGTGAACACCGTAACAATATTCAGGTAGCAATTGATGCTTTATATAGCCAACGTCGGCGTAAATCGCCGGGTGATG -AAAGTGAAACACTTACCCGTAGAAATGACGCTATCTTCGGCAACCACGTATGGCAAACATTTGCGCAATACTTCCCGCCA -GGACTTGAAAAACCGTCTGTGTAGAAAAAACCATAGCTATGGTGTTATCTGCCGACAACGCCATCCGGAGAAGCCGAATG -ACGTTGTCGGAGTAAGCGCTGGTTAAGGTGTGGGTTGTGCCTCTTTGGTTGAGGGTTGCGTCGTTGCTGACTTAACGGTC -GGACGCGTCGCCGGAACATTGTCACACGGTTGCTCTTTCGGGCAGATCAAATCCAGCATTTTCAGCGTCACGCCATTGGT -CCAGCCAAAGCCATCCTGTAATGGATATTCGCCACCGCCGCCCCCCGTTCCGGTGGTGCTGACATCATATTTTTCCACCA -GCTTTTTCTCCCGGTCATAGGTGTGCTGAACATTGGTCAGGAAGTGCCAGCTAATGTCCATCGCCACCTCTTTTTGCCCG -TAGTTTTGTAATCCTTCTGTCGCGACCCACTGTAACGGTGCCCAGCCATTTGGCGCATCCCATTGTTGCCCACTTTTCAC -CGACGTGGTGTTCAGGCCGCCGGGTTGCAGCAGATGTGTTTTCGTCGCCGTCGCCATTTTGTTGGCGCGATCTTTCGCTG -CCGCATTGACGTACAGCGGGAACAGGGCGGCCGCGGTTAACTGATTGCGCACTTTATGACTTTTCAGGTCGTAATCGGCA -TACCAGCCTTGTTGATCGTTCCACAGGTATTTTTCGATCCCTTTTTGACGGGCATTTGCCAGCGTTTCGTACTGGTTTGC -CATCGCGTTATCTCCGGCAGCTTTGCTGGCGCGGGCGAGGATTTTTTCCATTTTAAACATCAGGCTGTTCAGATCGACCG -GTACGATGCTGGTGGTGCGTAAGGTATTTAACTGCTGCGGGTTGTCCATCCAGCGCGAGCTGAAATCCCAGCCAGACGCA -GCGGCAGAGCGCAGGTCGCGGTAAATTTCAGTGGCAGGTCGATTCGGATTGCTTTTGGCGGTGGCAATATCTTCCACCCA -TGACTCTGGTCGTGGCGTATCGCGATCGTCCCAGTAGCGGTTGAGAAGGGTACCATCCTGAAGTTTGACAACGCGTTTTT -CCTGTTGTCCGGCTTGCAGGTTTTCAACACCGTCCATCCAGTAAGCATATTCTTTTTGCATTTGCGGCAGGTATTGCTTC -AACGCGGCATCGCCTTCATGCTGCGCCAGTAACTCTACCATCAGGGCAAAGAAGGGCGGTTGCGAGCGGCTTAAATAGTA -ACTGCGGTTGCCGTTGGGAATATGACCGTAAGTGTCTATTTCATGAGCAAAATTGGCCACCATATCCGCGACTTTATCCC -AGTGACCGCTTTCGGCAAGTCCTAACATGGTGAAGTAACTGTCCCAGTAATATACCTCGCGAAAGCGTCCGCCCGGCACG -ACATAAGGTTCCGGCAGCGGTAACAGAGAATCCCATTTTTCGGTGTTTTCGGTAGAACGCGTTAATACCGGCCAAAGTCC -GTCAATATGTTCGCGCAGTGACTGCCCCTCTGGCGGAACATATTTCTCGCCTTCTTTCGGCAGGGTGAAATTGACGTTAA -CGAAATGGCGCAGATCAAATCCGCTCTGGTTTTGCTGCATCCGATAATCAGCAAGGATCATCAGCGGATCGCTGTTCGGC -ACGGCATCGGCAAAGGTTTTTTGGTCCGGAAAAAGTTTGGCGTTTTGCACATCATTAAACAGCGGCCCTAATAAAATATC -AGGCGGCTGTGGTGTTACCGGTGTTTCTTCTGCCTGCACCGATAGCGCAGCGAAACACAAAAAGATACAGGCTGGAATTA -ACGCCATTTTTTGCGGGCGAGAAGGTGCGGGGGATTTCATCAATCATTCTCCTTTGGCGAAACCGAATAAAACGGTATTC -AAGTATCAGAAAACCTTAGTTCAGGATCGCACTAGCTGCATGATCGAAATCTCATTCTGCGAACTGTCAGGCATTTTAGA -AAAGGGAATTAAAGGGATAAATAACGGCGAAATAGAGTGATCAAATAACGTCTGTTTATTAGCCAGCCAGCGGCGTTGGG -TTCGTGATTAGCGAAGAAAAATCATCATAAATTGGTGAAAAATATAACAGGTAGTTAAAAACCATTAGTGCTGAGTAAAT -TGCCGGATGACATCAGAACGATGCCATCCGAACAGTGGCTTAACCCTGACGGTTGAAACGTTGCGTTTTAACGTCCAGCG -TTAGCGTTTCTTCTGGTTGTATCGCATACAGTTTCTCACCCTGCTGGCAAATCCAGCCAATCCCCAGTTCACGGGCGATT -AGGGCGCTGTGGGATACCGGACTTCCGGCGCTAAGGCAGATACCTTTTACAACCGCCGGATCCAGTTGCAGTACTGTGGA -AGGATAAATGTTCTCCGCCAGTAGAATAGTTGGCGAGTTAAACTGCGGGAGTTCTTCTTTCGTTTGGGTCAGGTGGACCA -GGGTGCGATGCAGAAGATCGTCCACATCAATATAGCGAGCTTGTAGATATTCATCATCCAGTTGCTGGTATTGCTGGCTA -AGTTCTTTAAGAACTTGCTGCCAGGCATATTCTGCCGTGCAATGTTCATGCTGAAGGAGTTCGCTTGCCGCCGCCAGCAG -TTCCGGATCATCTAACAGTGTATGGTGACCAGAAAAGATTGCGGCAATATCGTCAAGCCCGCTGGCTTCTGCTTTCGCTG -TTAACGTCATCAGATCTAATAACGTGAAGTCAATAGCCTGGCGTAATCGATCTTGTTCTTCTTCCACGGTCAGGGTTGAT -TTTGCCTGTACCGTACATAAAACTGGTTGATAATAAAAGGCTTTACCCGAAACAGGCGGAACGGGACGCAGAGTAGGTGG -AGCGACTTCCTCCGTTTCACCAAAGTTATCTTCAGCCAGCTGACGGAAAGCGATCAGTGCCTCTTCAGCTTCTGGCCCTT -TCGCAATCAGGCGCAGCGTATCGTTATAGCGAACTTGTAGTAACGCAATCTGGTTAATACTCTCTGGTGTGACGCATTTG -CCGTTTTTTTCCAGCAACATATCGGCATTAAATGTCGATAAGGTATAAACCAGCCGGGAGGCCGGACGTACATGCAGGCC -GTTACGGTTTTTTATGACCACCGCCAGAGAACGGGCTTCTTCATCGTACGCAGGACATGTGTCAGAGATTTCAGTGTCGG -AGGACGGTAAACCCAGTTGTTCACGTTTGGCTTCCAGCGCATGCATGGCGTCAAAGATAACTTTGTCGATATCCGCCCCC -GAGGCCGCGCTGACCGTTGCTGCCAGTGTACCTTCGACCAACGGCGCAGCACACAAACGTACTTTTGCGGCGATCTCGGG -AGCCAGCAATTCCAGCGCAGTTTCAGCACTCAATAATGCGCTACCCATATCCATCATGACCAGCACATGGTCGGCATCAG -CAACAGATTCGATGGCCTCCATCACTTTGACGGCATCGGTACCAATGGGATTTTGTGGATCGTCAATTCCCGCGGCAATG -GCGATTTTACAACTATCACTCATTAACATCTGACGGGCTAATTCACCGACACCTTCTCCCAGTCGGCTGCTATGTGAAAC -TATGACCAGGTTTACCATCACCAATTCCTTACTCTTTTGCGGCTAACGCCAACATTTGCATCATAAACATCACCGAGGTC -GCGCCGGGATCCTGGTGACCAATACTGCGTTCACCGAGATAACTGGCGCGGCCTTTGCGGGCTTGCATCGTAATCGTACT -TTGTGCAGCGGATTCGGCGATGCTACTGGCAGCTTCGAGCGCCACCGGAACAGAGAGATTTTGCTCGCTGGACTGACGTA -ACGATTCCACCACCGGCACCCACACATCACACATGGTTTTATCGCCAGGTTCGGCTTTCCCGCGACTGATTACGCCGTCC -GCGCCATCGCGGAACATCTGATAAAGCTCTTCCAGTGTCAGGCTTTGCCGTGCCTGGGTCGCCTGTGCGGCGCGGATAAA -GAAGGTACCGAACAGCGGACCACTGGCACCACCGACGCTGGAAAGCAGCGTCATACCGGTATTCTTGAGAATGAAACCGA -TATCTTTATCTGCGATAGCAGGGAGTTTTTCCACCACTTTGCTAAAGCCTCGGTTCATATTTAGCCCGTGGTCAGCATCG -CCAATTTCGCGATCCAGTCCGGTAAGATACTCGCTCTCGGTGCTGAAAATATCGCCACAACGAGTGAGCCAGTTAACAAT -TTGAGTTCTGCTCAGTGACATTGCTTTCTCCTTATTTACCCCAGTTAAGGGCCGGGGTGTGGACCGGGGCGTCCCAGAGT -GCCAGCGTTTCGTCATCAACTTTCAGTAAGGTGATTGAGAAACCGGTCATATCCAGTGAGGTGCAGTACGCGCCAATTAA -ATTACGTTCGATAGTCAATCCCGCTTGCTGGCAACGTGTGGTCAGGCGGTTATAGACGCCGTACAGCTCAGAAAGCGGAG -TTGCGCCAAGATTGTTAACCAGCGCAATCACCCGATCGCCAGACTGGAGCGGTTGTTTGGTTTGTTGTTCTTCCTGCCAA -CTGCCTTGTTGATAATCCCAGAAACGCAAAGTGCGATGGTATGAGCCATTTACCAGCAGGGTGTCGAACATTTCATCGAC -GGTTTGATCAAGGGAAGAGAAGGGGCGGCGGTCAATACCCGGCTCACCATGAATGCCGACGCCAAACTCCATCTCATTAT -CCGCCAGGGTAAAAGAAGGTTTGCCCGCGGCAGGAACGGTACAGGCACCGAGAGCGATACCTATTGAGTGGCCTTGATTA -TTCAGCTTACGCCCCAGTTCCGCACAGGCGTCCAGTGAGTCGCCACGCTCCGCCGCTGCGCCTACGAGTTTTTCAATTAA -TACGGTGTTGGCAACGCCGCGTCGCCCGGCAGTATAAAGACTGTCTTTTACCGCAACGTCGTCATCAATGACCACAGTGG -TCACTTTTACGCCGCTATCGTGCAGTAACTCGGTCGCTGTTTCAAAGTTAAGAATATCGCCGGTGTAATTTTTGATAATC -AACAGTACACCTTCGCCGCCATCAACTTGCATGGCGCATTCAAAGATTTTATCGGGCGTCGGTGAGGTGAAAATTTCGCC -CGGACAGGCCCCCGAAAGCATCCCCTGACCGATATAACCACAGTGCATCGGCTCGTGTCCGCTGCCGCCACCCGACAGCA -GGGCGACTTTTCCTGCAACAGGGGCATCAGCTCGGGTGACATACACCGGATCCTGATGCAGTGTCAGCGATGGATGCGCT -TTCGCCAGTCCTGCCAGTTGTTCGTCCAGTACGTCTTGCACATCATTGATCAATTTTTTCATTATTTTGCTCCAGCAATT -ACGGTAGGGCATGGATGATGTTCAACGACACGGCGACCACTGACTGCCGATGAATCCATTGTGCATCAGGCAAGGGAAAA -GAAAATTAGCCCAAATTATGTTTCATAGTGAAACATATGCTTTAATGAATGTTCCATATTGAAACTTTTACGTGTATTAA -TACTTAAAATTGCGAGCCGGAACACCTTTTGTCATAAGGGATGCGGGATATGAGTGGCGCTTTTAACAACGATGGTCGGG -GCATATCTCCCTTAATTGCAACCTCCTGGGAGCGATGCAATAAGCTGATGAAACGGGAGACATGGAACGTACCACATCAG -GCCCAGGGCGTGACATTTGCTTCTATTTATCGGCGTAAGAAAGCGATGCTGACGCTCGGGCAGGCTGCGCTGGAAGATGC -CTGGGAATATATGGCACCGCGAGAGTGTGCGCTGTTTATCCTCGATGAAACCGCCTGCATTCTCAGCCGTAATGGCGATC -CGCAAACCTTGCAGCAGCTAAGTGCACTGGGATTCAATGACGGCACGTATTGCGCCGAGGGAATTATTGGTACTTGTGCG -CTATCGTTAGCGGCTATCTCTGGTCAGGCCGTGAAAACGATGGCCGATCAACATTTCAAACAGGTACTCTGGAACTGGGC -CTTTTGTGCAACGCCGTTGTTTGACAGCAAGGGCCGATTGACGGGAACAATAGCGCTGGCGTGTCCGGTTGAGCAAACTA -CCGCAGCTGATTTGCCGTTGACGTTGGCAATCGCCCGCGAGGTCGGAAATTTACTGCTGACGGACAGTTTGCTCGCTGAA -ACTAACCGTCATTTAAATCAACTTAATGCCCTGTTAGAAAGTATGGATGATGGCGTGATTAGCTGGGACGAGCAGGGTAA -TTTGCAATTTATTAATGCCCAGGCGGCGCGGGTCTTGCGCCTTGACGCGACGGCAAGTCAGGGACGGGCAATCACTGAAC -TCTTAACGTTACCCGCCGTATTGCAACAAGCAATAAAACAGGCACATCCGCTCAAACACGTAGAAGCAACCTTTGAAAGC -CAGCACCAGTTTATTGATGCGGTGATAACCCTTAAACCGATAATAGAAACGCAGGGAACCAGCTTTATTTTGTTGCTCCA -TCCTGTGGAACAGATGCGGCAGTTGATGACCAGTCAATTAGGAAAAGTCAGCCATACCTTCGCTCATATGCCACAGGACG -ATCCGCAAACCCGCCGCTTGATTCATTTTGGTCGCCAGGCGGCGCGCAGTAGCTTTCCTGTCCTGCTTTGTGGAGAAGAG -GGCGTGGGCAAGGCACTGCTAAGTCAGGCAATTCATAATGAAAGCGAGCGTGCTGCAGGTCCTTATATCGCCGTCAATTG -TGAGTTATATGGTGATGCTGCGCTGGCGGAAGAATTTATTGGTGGCGATCGCACGGACAATGAAAATGGCCGTCTGAGTC -GGCTGGAACTGGCACACGGCGGCACGCTGTTTCTTGAAAAGATTGAATATCTGGCGGTGGAGTTACAGTCTGCTTTGCTT -CAGGTTATCAAGCAGGGGGTTATCACGCGACTGGATGCGCGGCGTTTAATACCAATTGATGTCAAAGTGATTGCAACAAC -GACCGCGGACCTCGCAATGCTGGTGGAACAAAATCGTTTTAGTCGCCAGCTGTATTACGCGCTGCATGCATTTGAAATTA -CCATCCCGCCTCTGCGTATGCGGCGTGGCAGCATTCCGGCGCTGGTGAATAACAAATTACGCAGTCTTGAAAAACGCTTC -TCTACGCGGCTGAAAATTGATGACGATGCCCTCGCTCGCCTGGTTTCTTGTGCATGGCCAGGCAACGATTTTGAACTTTA -CAGCGTCATCGAGAATCTTGCTCTGAGTAGTGATAACGGGCGCATTCGCGTCAGTGATTTGCCGGAACATCTGTTTACCG -AGCAGGCGACAGATGATGTCAGCGCCACCCGCCTTTCCACCAGTCTGTCATTTGCGGAAGTTGAAAAAGAGGCAATTATT -AACGCAGCCCAGGTCACAGGCGGTCGCATTCAGGAAATGTCGGCTTTACTTGGGATCGGCCGCACTACGCTGTGGCGGAA -AATGAAGCAACATGGCATTGATGCAGGGCAGTTTAAGCGCCGGGTATGAAAGACAGAAACGATTTCTGATACATCAGAGT -GATCTGTATTTCATTCCGGCGCACGCTAACAATTTTCAGCATCGTTTAAGGGCTTGTCTATCCCGCACTTAAAAGCTGAA -GCGATATCCTCCGTTGACTTGCTTCTGATCAAAGAGGTTACCCTGCGTGTAATCCGCTTCGAGATAGAATGTGTGCTGTT -TGTTATACTGTGCACTGACTCCCACGCCGTTATTCCAGCCATTACCTTTGAAACTGTACTTCTCCCGGGAGTTGTTCAAC -AGATATTCGGTATCCCCTGAAAACTCGCGGATAGCGCCAGTCTTCACATAGACATTCAGCTGGCTGTTGCCTGCGGTGAT -GTCATACCCCAGTATCATGCTGGCACGCCCCAGCAGCGATTCGTAGTGATTCAGATGTATATTGAGGCCATTACTCGCCT -TCATAGTCATCTCATTCTGGTGGCTGTATGTAAGCTGGGTTTGCGGCTCTATATAGAACCCATAACCAGTAGGGGACAGG -TTGAACCTCTGCCCGGCTTCCAGGGAGATGCTCATTCCATTCGCAGTGCCGTTGGCGTTAACGCCGTTGTTCTGACTGTC -CAGTACGTGGAAACTATTTTTCTGGCGCGATGCTTTTATAACGAGATCGCTGTAAAAACCGTTTTGTGCCATGTAACTGG -CGTACATTCCCATGTAGTCTGAACGTGCGGTACCGTCGCCTCCGCTATAGTCCGGCGATGCATGTGTTGAGCCAATATAC -AGACCGACATACAACGGCATTACATCAGAGAGACGTTTATCCCCACCAAACTGGATACCGCTGTAACCCATGTCAAAGCC -GCTCAGTTTGCCACTGGCAAAGGAGTCCAGGCTTCCCCCATAACTGCGCAACCAGATATTACCGTCTTTACTCTGATTTC -GCAGGTCACCCATCCGTTGCATCAGCGTACGGTTTTCAACATAGTTCAATAAGTAACCGACATTGAGATAATTGCCGCCA -GCATCTGCGGTCGTGGTGGGTTTAGGCGTGGGAGCGGGTTCAGGCGTAGGATCGGGGTTGACTATGGGAGGCTGAGCGGG -AGCTGGTGTGGGTTCAGGATTAGGAGTCGGTTCCGGAACTGTCCCGGAAGCGTAAAGCTCCCAGTTAGTGCCATTTTTAC -GCACATCGTACAGATATCCCCCCAACTCAACCTGAGAAGACGCGCTGAACGAGGCCGCGCCGTCAGTGGTTTTTACCACT -GTCAGAACTTCATTTCCCGTTGTGGCCTCGCTGCCCTGGTTGCGGATAGCCAATACGTGATTACCAGCACTACTCCCGCT -GATATTCAATAAATCCCCTTTATTATTAACGCCATTACCCTCGCCAACAACATCAGCACGCATAATAAAGGTACTGTTAC -CGCTCAGGTTCTCTACGTTTAATGTGGCAAATGTGCCGGCAGTTGACCCGTGGCTGGCAAAATCGACAGTTGAATGGCTC -AGCGCCAGCGTGTCGAGATTAGAATTACTTGTTACGTTCCAGACGCTGTTATTCATTGCAACGTCCAGTTTTCCGCCATT -GACATTATCGCTGAGGGAGGAACCTGTCCAAACCGACCCAGGGTGCATATCCAGATTGATTAGCCCACCTTTGGAAAGAA -CGCTACCGTTGATAAGCATACGACCCGAGGCGTTGATGCGGCTGGCGGCATAACCATCGTCATGTTGCGTTGCGATGGCC -ATCTGGTCGGGTGTACTCATATCAATGACCAGATCGCTCGTGAGGTCGATCTGGCTGTTGGTCATGGCATAAATTCCCCT -GGCTCCTGCCGCGCCGGTGATAGCCAAACTGTCTCCGGTTATTCTACCGCCGCTGAGAGCCCACAAACCCAGCGCCAGAC -TGCCATTACGATCAACTGTAATATCGGTATTTTGCATGTTGACAACAGCCGTTGCCGTCTGGGCCGAGGCACCATAAGAA -CCGCCGGAAAAGATGCTGTTTCGTTGCGCTGCCGTGCCAGTAAAATTGATTATCGCGTCTGAACCACTGGTGACGAGGCC -ACCGCCCTGCGCGGAAGAAATATGGCTATCTGCACCGATAGTGGTTGTACCACCACGAACTTCGACGCCATTGGCCGCGG -CTCCAGTTACATCAACAGTGAGTGCATTCGCGCTAACCTGGCCAAAGCTCCAGAGGCCGTGAGCATTATCGCCATTGGTT -TTAATGGTACTGTTTGTTCCGAGATCGACAACAGAGTTTTTCTGTACGTTTATCCCCATGGCGCTGTAGCCCTGAACATC -GATTGTCAGGTCTGTAGCCGTAAAACGCGCAGCACCATTGGCGTTATTGCCGTTGAGACCACCGATATAAACACCTGTAC -TTCCATCGGTCGTGATTTTACTTCCGCTTCCAAGATCGACACTGGTGCCATAGTCATTGATGGTTAGGCCTATACCGTTC -GAGTTTTCAATGGTGAATTGAGTGGCTGTTAGTGTTGAGCTATGCCCAATAATGATGCCGTCATCGTTACTCTTAATGGT -GCTGCCTGTGCCTAAGTCAGCATGGGTATAGTCACCAATTAAGTTAATGCCGATGGCAGAGGTTTGACCAACAACATCTA -CTGTGAGTCGGTTAGCTGTCAGGGAGCTGTTTTTGCCCTGAATAATGATTCCTTTTGCATATCCAGAGGCGTCGTTGACA -TTGACGGTGACATCATTACCCAGGTTGATATTGCCAGGCGTGTTTCCTGCTGGGGTCATTACACCATAGAGGTTTCCTGA -TGGATCGGCGGTATCTCCTGTAATTCTGTCACCATCATTAATAGTAATATTGGTGCCATATTGACTTCCTGTATCAGCAG -CTATCAGCAGGGGGGAAAAGATAATTGCATTCAAACCAATAGCGCCAAATTTTATCAGTTGAATTGAGGGCGAACGGATT -TTTAATTCAGCGAGACGATCTGCTTTGGTATTCCCATTGTGTTGTTTGATGCCCATACCACTCCTATATAGTACCCAGAC -TATGGGTCTATGGATTTTGTCATTTTGTTTAAATCAATGAATAATATCCTCTTATCATCATGATATTTGTATGGTGCAAT -CATGATGAGCTTCTCAGAGAATAATTCTCTATTACCGGGCAAAATCAGGAACACAGGAATTAATATATATTTAACATCCC -CCTTACAAAGGTGAGTTTATATCGAGTTATTCCCTAAGTTGTCGTTACTTATTCCAATTCGTTACTATAAATATGGCAAA -AATATTACAACAAACAGCGGTTAAAAAATTTGGTGAAGATTTTTTGTAATAATCCTAATTAGTTATGGGAATTTCGCTTG -ATGTATCTGCATAACAAAAACAATATGCGCCATTTTTGCATTACTAATAAGAAAAAGCAAAAAACATCGATATTCATTTT -TGGTCAATGGGTTTTCTGGCCTATCGTTGTTATTGTGCTACTGGTTATCATTTTCATCTTGCCAGCATATTGGAGCGTGA -TCAATTTTGATCAGCTGTGAAGGGGGCTGATGTGTAGTGATACAAAAACTTACGTTATATCACTGCTAATGAGATATCCG -GCATCTGAACACTTATGTCTTTAATTATTCTCGTGGTTCACTATAGGCAATAAGCACAAAAGTGTAGGATGTTACAAGAA -TGATTAGGACTCGGTGAAATGAAAAATCCACGCAATTGCGTGGATTTTATATACTTTTGCGCTCTTCATGAGATTTAGCG -AAACCTCATGAGACAATAAATTAATTAGACGTTGAAAAGGAAGTTCATCACATCGCCATCTTTCACGATGTAATCTTTAC -CTTCTGCACGCATTTTGCCTGCTTCTTTCGCGCCTTGTTCACCTTTGTAAGTGATGAAATCTTCAAACGAGATGGTTTGT -GCACGGATAAAGCCTTTTTCAAAATCAGTATGGATTTTGCCCGCTGCCTGCGGCGCGGTTGCTCCAACCGGAATGGTCCA -TGCACGCACTTCTTTCACCCCAGCGGTGAAGTAAGTTTGCAGGTTCAGCAGTTTATAACCGGCACGGATCACACGGTTCA -GGCCCGGCTCTTCCAGCCCAAGCTCCTGCATAAACTCGTCACGTTCTTCGTCGTCCAGTTCGGCAATGTCTGCTTCAACA -GCAGCACAAACCGGAACCACAACAGAACCTTCTTTCGCCGCGATTTCACGCACCTGGTCAAGATATGGGTTGTTTTCAAA -ACCGTCTTCGTTGACGTTGGCGATGTACATTGTTGGTTTCAGCGTCAGGAAGCTCAGGTAACGAATAGCCGCTTTCTCTT -CAGCGCTTAAATCCAGCGCGCGCAGCATACCTGCATTTTCCAACTGGGGCAGGCATTTTTCCAGGACCGCCAGCTCAGCT -TTCGCGTCTTTATCGCCACCTTTGGCTTTCTTCTGTACGCGATGAATCGCACGTTCGCAGGTGTCGAGGTCTGCCAGCGC -CAGTTCGGTGTTGATAACTTCAATATCGTCAGCCGGGTTAACTTTGCCGGAAACGTGAATGATGTTGTCATTTTCAAAGC -AGCGAACAACGTGACCGATCGCTTCGGTTTCACGGATGTTGGTCAGGAACTGGTTACCCAGACCTTCGCCTTTCGATGCG -CCTTTTACCAGACCGGCGATATCGACAAATTCCATGGTCGTGGGAAGCGTACGCTGCGGTTTTACGATTTCAGCCAGTTG -ATCCAGGCGAGGATCAGGCATTGGTACGACGCCTGTGTTCGGCTCAATGGTGCAGAATGGAAAGTTGGCCGCTTCAATAC -CGGCTTTGGTCAGCGCGTTGAACAGGGTAGATTTCCCGACGTTGGGCAAACCGACGATACCGCATTTGAATCCCATGATT -TAAATCACCTTAATATCTTAATAATCAACCTGTTATTGCTAACAGATTGCAGAAATGGAAATAACTTTGCCTATTATACA -CGGCACTCGGCAAAAATGCCGCAGACAACGACTTATTGCGCTTTAAAGGCGTGCAATCGGTTCGTTGCTTTGGTCAAGCC -ATCTGTAAACCACATTTCAGTACAACGCGCCGCTTCGTCAATGGCTTCATCAATTAACTTCTGTTCACTAACAGGCGGTT -TGCCTAACACAAAACCGACAACTTTATTTTTATCGCCCGGATGACCGATTCCGATGCGTAAACGGTGAAAGTTAGGGTTA -TTACCCAATTTACTGATGATGTCTTTCAGTCCATTGTGACCACCATGGCCACCGCCCAATTTAAATTTGGCGACGCCAGG -AGGCAGATCCAGTTCGTCGTGGGCCACCAGAATTTCGTCCGGATTAATGCGGAAAAAACTGGCCATCGCCGCAACGGCTT -TGCCGCTGAGATTCATAAATGTAGTCGGGACTAACAGGCGGACATCTTCGCCTCCAAGAGTGACTCGCGAAGTATAACCA -AAGAATTTAGCCTCTTCGCGCAGCGGAGCGCGCAAACGCTCTGCCAGTAAGTCAACGAACCAGGCACCAGCATTATGTCG -CGTTGCGGCGTATTCAGCACCGGGGTTCGCCAGGCCGACAATCAATTTAATCGTCACGTTTTTTTGTCCTGAGTGTGTAC -ATAACTGGCGCGTAGTTTACTGGTTGCGGCCCCGCTTGACAAAAAACTGCGTATCAAATGCAGATAACGTAATAATTGCC -TGAGTGGACTATTAGAAAGTCAAGGTGTTCAGGCGTTTATTTGTAAAGTTTTGTTGAAATAAGGGTTGTAATTGTGATCA -CGCCCGCACATAACCCACTGGGTGTTGTCTATACTTTACACATAAGGAAGAGGGGTATTCCCTGTTACAACCCAGAAAGT -TCCGGAGGTGACATATGAAACGCAAAAACGCTTCGTTACTCGGTAACGTGCTCATGGGGTTGGGTCTGGTGGTAATGGTG -GTCGGCGTGGGGTATTCAATCCTCAACCAGTTACCACAGTTTAATATGCCCCAGTATTTCGCACATGGTGCAGTGCTAAG -TATTTTCGTCGGTGCCATTCTCTGGCTGGCGGGTGCCCGTGTTGGCGGGCATGAACAGGTGTGCGACCGTTACTGGTGGG -TTCGCCACTATGACAAACGTTGCCGCCGTAGCGATAATCGCCGTCATAGCTAACAAATAATGCAGTTTGCTGACCAGTCA -GTTTGCGCTGACTGGTCAATCTCGTACTTATAAATCCGCCATCGCCGCGCGACGATTCGGGAAGAACGCCAGGCGTCCCG -GGATCGGTTGAATGCCAGCGCGAGCCATAGTGCGCAGTGGCTGGAATTCCACGTTGCACACGCGCAGTTCACATCCCTCG -GGCAGACGCTTCACAAAACGCTGGAACGCATCAAGACCACCAGCATCAAGTACCGGAACGGCATCCCACTTCAGAATCAC -AATCCGTTTGCCTTCAAGACGTGACTCCAGGTCCGTGAATAAGCCTTCAGCAGCAGCAAAAAACAGCGGGCCAATAACGC -GCAGAACCAGGACATCGTCTGGAACATCTACGACTACCGGTGCCAGGCGAGTCATACGTGCGATACGACGCATAAACAGC -AGCGATGCCAGCACGATCCCCACGCTGATGGCAATAACCATATCAAACAACACGGTCAGCGACATGCACAGCAGCATGAC -GATGATGTCATCTTTCGGCGCATGACGCAGCAAGTCGACCACTTTGTGCGCTTCACTCATGTTCCACGCCACCATCAACA -GCAGGGCTGCCATGGCGGAAAGCGGCAGCCAGGAGAGCAGCGGTGCCAGTACCAGCAGGGCAAGAATAACCAGAATAGAG -TGGATCACCGCCGAGATAGGGGACGTTGCCCCGGCACGGACGTTAGCGGCAGAACGCGCGATGGCAGCTGTAGCGGTAAT -ACCACCAAAGAACGGAGCGATAATATTCCCCAGTCCCTGTCCAACCAGTTCGCTGTTCGCCTTGTGTTTCGTCCCGGTCA -TACCATCCAGCACCACGGCGCAGAGCAGAGATTCGATTGCGCCGAGCATTGCCATTGAGAATGCCGCAGGCAGCAGTGTG -CGAATAGAATCCCAGGTTAGCGTGAATTCTGAATTAGGCAGATCCCACGGCAGCACCAGTTGCGGCAGCAGTTGCGGAAT -ACCGTTACCCTGAGAACCATCGGCCAGGACGTAGTGGAATTGCGAACCGATGGTAGCAACATGTCCGCCGAGCAGGTTAA -CAATCCCCATCACCGCGCAACCAGCCAGCAAGGCCGGAAGGTGACCGGGTAAACGAATGCCCAGACGCGGCCAAAAAACA -AGAATACCTAGCGTCACAATGCCAATGGCAGCATCACCCACATTAATGGTCGGCAGCGCCATAAATAATGCGCCGACTTT -TTGTAGATAATGTTCCGGGACATGGGCCATTTGCAGACCGAGAAAATCTTTAATCTGCATGGTACCGATGGTGATCCCGA -TACCCGAGGTGAAACCTAAGGTGACGGAAACCGGAATATACTCAATCAGGCGACCAAAGCGTGCCAGACCCATCAGAATC -AAAAAGATCCCCGACAGCAAGGTCGCAACCAGCAGTCCTGCCAGTCCAAACTGTTGCGACACGGGATAGAGAATTACCAC -AAATGCCGCAGTCGGACCGGAAACGCTAAAGCGTGACCCACCCGTCAGAGCAATGACAATCCCCGCAACAGCTGCGGTAT -ATAAACCGTACTGGGGTGCCACACCACTACCAATAGCCAACGCCATCGCCAGCGGGATAGCAATAATCCCGACGGTTATC -CCGGCAATCAGGTCACGGGTAAACCGTGCGGCAGTATATTTTTCTTTCCAGCAAGCGTCGATCAGAGCGCGGAAAGGCAT -CACATGTGAGGAAAATATTTTGTTCACAATAATGTTTCATCCGTGAGCGCATCATCTGTCAACTAAATGGCAGGTGAAGG -AGGCATAGGTCATACAAATGGATATTACAGACAAAAAAACCCGCCGCAGCGGGTCTTTGAGCCGGGTTCGATTAGTGTTC -GAACATGGCAGAGATCGATTCTTCGTTGCTGATACGACGAATCGCTTCGGCCAGCATACCTGACAGGGTCAGAGTACGCA -CGTTCGGCAGTGATTTGATTTCATCGCTCAGCGGAATGGTATCGCAGACAACGACTTCATCAATTACAGAGTTACGCAGG -TTGTTCGCCGCGTTGCCAGAGAAGATCGGGTGAGTCGCGTACGCAAATACACGTTTAGCACCACGTTCTTTCAGAGCTTC -AGCAGCTTTACACAGCGTACCGCCAGTGTCGATCATATCATCGACCAGTACGCAGTCACGACCTGCAACGTCACCGATGA -TATGCATCACCTGTGAAACGTTCGCACGCGGACGACGTTTGTCGATGATTGCCATATCGGTATCGTTCAGCAGCTTAGCG -ATAGCGCGGGCACGCACAACGCCGCCGATGTCCGGAGAAACCACAATTGGGTTATCCAGATTCAGCTGCAGCATGTCTTC -CAGCAGGATCGGGCTACCAAATACGTTATCAACCGGAACGTCGAAGAAACCCTGAATCTGTTCAGCGTGCAGATCCACTG -TCAGCACACGGTCAACACCGACGCTGGAGAGGAAGTCTGCAACCACTTTCGCAGTGATTGGTACACGAGCGGAACGGACG -CGACGGTCCTGGCGCGCATAGCCAAAGTAGGGGATAACAGCGGTGATACGACCTGCGGAAGCACGACGCAGGGCATCAAC -CATAACGACTAATTCCATCAGGTTGTCGTTAGTAGGGGCACAAGTGGACTGGATGATGAAAATATCACCACCGCGTACAT -TTTCATTAATTTGTACGCTGACTTCGCCATCGCTAAAGCGACCTACAGCGGCGTCGCCGAGTGAAGTGTACAGGCGGTTG -GCAATACGTTGTGCTAGTTCCGGGGTGGCGTTACCAGCAAAAAGCTTCATATCAGGCACGAGAAGAACCTCAGGCATGCG -TCCATTGGTGGAAAGAATCTGCCGAAAACTGTGCGGGCCAGGCATGATCCTTTCCAGGCGGTGTATTAAAGAGCGCGATG -CAACGTCTGGAACAAGGTGACGTTGTCACCGAAACTCAGCTTGCCCGGCTTAAAGCATGGCTCTGTGCAATGGGGAAAGA -TTAGCGCCTTTCGCCACAAAGCCATTGAGCCATTCCGGGGCTTGCTCTAGCACCTGGCGGGCTTCAGACTCTGTATCAAA -TTCAGCAAAGACACAGGCCCCTGTCCCAGTCAGGCGCGACGGGGCGTATTCTAACAGCCAGGAAAGCACCGCATCAACCT -CGCGAAAACGTTTTCTTGCGATAACCTCGCAATCATTGCTGAATTCACATTTTAGCAACGTTTCTATTGACCTTTTTGGC -GTATTGCGCGGGAGTTCAGGATCTTTAAAAATCACCGGAGTCGGAATACTTACACCAGGGTGCGCCACCAGATACCACTT -CTCTGGCGGATCCACCGGCGTTAGTATTTCACCAACGCCTTCGGCAAACGCGGCATGCCCCCGAACAAAGACAGGAACAT -CTGCGCCCAGCGTCAGCCCCATTTCCGCCAGCTCATCCATGCTTAGCCCGCATTGCCAGAGATGATTTAATGCCACCAGG -ACCGTCGCGGCATTGGATGAACCACCGCCGAGACCGCCGCCCATCGGCAAACGCTTGTCAATGCTGATATTCGCACCGCT -TCCCGTCGGAAGACGCCCGCTGTCTGCCGCAGTTTTCATCAACAATCGCGCTGCGCGAACGATCAGGTTATCTTCATGTT -CCACGCCTTCAACGGGCGTTAACAGACGAATATCCCCATCGTCACGAAGCTCAATGCTGATGGTGTCGCCGTAATCAAGA -AACTGAAACAGCGTTTGCAGCGTGTGGTAACCATCCGCACGCTGACCGGTAATGTATAAAAACAGATTAAGTTTTGCCGG -AGAGGGCCACTGTGTCCGCATTATTTCACTATCCAGTTATCCATTTTTAACTTGATGCGTTGACCACCGTCGGTGAGTTC -CATATTGGCTGGCATCGCAGGTTGCGTTTTGGTGTCATAACCACCATAAACAACCTTCCAGTTTTTGCCATTCTGGCTGT -AGGTAATTTCGCTCAGGCGGTACTGGTCGTCCAGTTTGTAGTCGGTTGCATCACCCGGTAAACCTAAAATCCACTGGCGC -AAGCTGTTGAGCGGAATTGGCATTCCGGTCAATTTGCCAATCATCTCTTCGGCGTCATCGGCGGTATAACGCTGACCTTT -ATTGTCGACTAACTGCACGTTACCCGGTTGAGCATTCAGCTCCAGTTCCGTGCTGCCCAATGGGTTAGTGAGCAGCAGAC -GGTAGCGATCCTGGCCGGTTTGCTGCCAGAAAAAGCGGGCGTACACTTTTTGTTGGTCAGAAATATAAGCGAACGCGCCG -CGAGTCTGATACTGATTAAGATTGCGCACGTCTTGCTGATGCTGACGCCATTGTGGCGAATCCGGGCTTTTGCCAGGACC -TTTGGGCGTGGTAACGGAACAGGCAGTGAGCACAAGAGCAGCCAGCGGTAGCAGGCGGATAAGACGAAAATCGGGCAGGG -GCATAGTGATGACAAGTCCTTGAGATACGTTGCAGTTATAACCCTTAATGCTAGCGTTACCGTCCGCTATCGTCTATGTT -CAAGTTGTCTTAATTGCCAGAATCTAACGGCTTTCGGCAATTACTCCAAAAGGGGGCGCTCTCTTTTATTGATCTTACGC -ATCCTGTATGATGCAAGCAGACTAACCCTATCAACGTTGGTATTATTTCCCGCAGACATGACCCTTTTAGCACTCGGTAT -CAACCATAAAACGGCACCTGTATCGCTGCGAGAACGTGTATCGTTTTCGCCGGATAAGCTCGATCAGGCGCTTGACAGCC -TGCTTGCGCAGCCGATGGTGCAGGGCGGCGTGGTGCTGTCGACGTGCAACCGCACGGAACTTTATCTTAGCGTTGAAGAG -CAGGACAACCTGCAAGAGGCGTTAATCCGCTGGCTTTGCGATTATCACAATCTTAATGAAGAAGATCTGCGTAAAAGCCT -CTACTGGCATCAGGATAACGACGCGGTTAGCCATTTAATGCGTGTTGCCAGCGGCCTGGATTCACTGGTTCTGGGGGAGC -CGCAGATCCTCGGTCAGGTTAAAAAAGCGTTTGCCGATTCGCAAAAAGGTCATATGAAGGCCAGCGAACTGGAACGCATG -TTCCAGAAATCTTTCTCTGTCGCGAAACGCGTTCGCACTGAAACAGATATCGGTGCCAGCGCTGTGTCTGTCGCTTTTGC -GGCTTGTACGCTGGCGCGGCAGATCTTTGAATCGCTCTCTACGGTCACAGTGTTGCTGGTAGGCGCGGGCGAAACTATCG -AGCTGGTGGCGCGTCATCTGCGCGAACACAAAGTACAGAAGATGATTATCGCCAACCGCACTCGCGAACGTGCCCAAATT -CTGGCAGATGAAGTCGGCGCGGAAGTGATTGCCCTGAGTGATATCGACGAACGTCTGCGCGAAGCCGATATCATCATCAG -TTCCACCGCCAGCCCGTTACCGATTATCGGGAAAGGCATGGTGGAGCGCGCATTAAAAAGCCGTCGCAACCAACCAATGC -TGTTGGTGGATATTGCCGTTCCGCGCGATGTTGAGCCGGAAGTTGGCAAACTGGCGAATGCTTATCTTTATAGCGTTGAT -GATCTGCAAAGCATCATTTCGCACAACCTGGCGCAGCGTAAAGCCGCAGCGGTTGAGGCGGAAACTATTGTCGCTCAGGA -AACCAGCGAATTTATGGCGTGGCTGCGAGCACAAAGCGCCAGCGAAACCATTCGCGAGTATCGCAGCCAGGCAGAGCAAG -TTCGCGATGAGTTAACCGCCAAAGCGTTAGCGGCCCTTGAGCAGGGCGGCGACGCGCAAGCCATTATGCAGGATCTGGCA -TGGAAACTGACTAACCGCTTGATCCATGCGCCAACGAAATCACTTCAACAGGCCGCCCGTGACGGGGATAACGAACGCCT -GAATATTCTGCGCGACAGCCTCGGGCTGGAGTAGCAGTACATCATTTTCTTTTTTTACAGGGTGCATTTACGCCTATGAA -GCCTTCTATCGTTGCCAAACTGGAAGCCCTGCATGAACGCCATGAAGAAGTTCAGGCGTTGCTGGGTGACGCGCAAACTA -TCGCCGACCAGGAACGTTTTCGCGCATTATCACGCGAATATGCGCAGTTAAGTGATGTTTCGCGCTGTTTTACCGACTGG -CAACAGGTTCAGGAAGATATCGAAACCGCACAGATGATGCTCGATGATCCTGAAATGCGTGAGATGGCGCAGGATGAACT -GCGCGAAGCTAAAGAAAAAAGCGAGCAACTGGAACAGCAATTACAGGTTCTGTTACTGCCAAAAGATCCTGATGACGAAC -GTAACGCCTTCCTCGAAGTCCGAGCCGGAACCGGCGGCGACGAAGCGGCGCTGTTCGCGGGCGATCTGTTCCGTATGTAC -AGCCGTTATGCCGAAGCCCGCCGCTGGCGGGTAGAAATCATGAGCGCCAGCGAGGGTGAACATGGTGGTTATAAAGAGAT -CATCGCCAAAATTAGCGGTGATGGTGTGTATGGTCGTCTGAAATTTGAATCCGGCGGTCATCGCGTGCAACGTGTTCCTG -CTACGGAATCGCAGGGTCGTATTCATACTTCTGCTTGTACCGTTGCGGTAATGCCAGAACTGCCTGACGCAGAACTGCCG -GACATCAACCCAGCAGATTTACGCATTGATACTTTCCGCTCGTCAGGGGCGGGTGGTCAGCACGTTAACACCACCGATTC -GGCAATTCGTATTACTCACTTGCCGACCGGGATTGTTGTTGAATGTCAGGACGAACGTTCACAACATAAAAACAAAGCTA -AAGCACTTTCTGTTCTCGGTGCTCGCATCCACGCTGCTGAAATGGCAAAACGCCAACAGGCCGAAGCGTCTACCCGTCGT -AACCTGCTGGGGAGTGGCGATCGCAGCGACCGTAACCGTACTTACAACTTCCCGCAGGGGCGCGTTACCGATCACCGCAT -CAACCTGACGCTCTACCGCCTGGATGAAGTGATGGAAGGTAAGCTGGATATGCTGATTGAACCGATTATCCAGGAACATC -AGGCCGACCAACTGGCGGCGTTGTCCGAGCAGGAATAATGGAATATCAACACTGGTTACGTGAAGCAATAAGCCAACTTC -AGGCGAGCGAAAGCCCGCGGCGTGATGCTGAAATCCTGCTGGAGCATGTTACCGGCAGAGGGCGTACTTTTATTCTCGCC -TTTGGTGAAACGCAGCTGACTGACGAACAATGTCAGCAACTTGATGCGCTACTGACACGTCGTCGCGATGGTGAACCCAT -TGCTCATTTAACCGGGGTGCGAGAATTCTGGTCGTTGCCGTTATTTGTTTCGCCAGCGACCTTAATTCCGCGCCCGGATA -CGGAGTGTCTGGTGGAGCAGGCACTGGCGCGGTTGCCTGAACAACCTTGCCGTATTCTCGATCTCGGGACGGGTACCGGG -GCGATTGCGCTTGCGCTGGCTAGCGAGCGCCCGGACTGCGAAATTATCGCTGTAGATCGTATGCCTGATGCTGTCTCCCT -GGCACAACGTAATGCCCAGCATCTGGCGATCAAAAATATCCACATTCTGCAAAGCGACTGGTTTAGCGCGCTAGCCGGGC -AGCAGTTTGCGATGATTGTCAGCAATCCGCCGTATATTGACGAGCAGGACCCTCATCTTCAACAAGGCGATGTCCGCTTT -GAGCCGCTCACTGCGCTGGTTGCGGCAGACAGTGGAATGGCAGACATCGTGCATATCATCGAACAGTCGCGTAACGCGCT -GGTATCCGGCGGCTTTCTGCTTCTGGAACATGGCTGGCAGCAGGGCGAAGCGGTGCGACAAGCATTTATCCTCGCGGGGT -ATCATGACGTCGAAACCTGCCGTGACTATGGTGATAACGAGCGCGTAACGCTCGGCCGCTATTATCAATGACAAGTTTTT -CTACACTGCTTAGTGTTCATCTTATTAGTATCGCGCTTTCTGTTGGGCTATTAACCTTACGTTTCTGGCTACGTTATCAG -AAGCATCCACAGGCATTTGCTCGCTGGACGCGCATTGTGCCGCCGGTTGTCGATACGCTGTTACTGTTAAGCGGCATTGC -GTTGATGGCTAAAGCGCACATCCTGCCATTTTCCGGGCAGGCACAGTGGCTGACTGAAAAGCTGTTTGGAGTTATCATTT -ATATCGTTTTGGGTTTTATTGCACTCGATTATCGTCGTATGCACAGTCAGCAGGCGCGCATTATTGCCTTCCCGCTGGCG -TTGGTGGTGCTGTACATCATCATTAAACTCGCCACCACAAAAGTACCGTTACTGGGGTAAGTCATGAGATCGTTAGCTGA -TTTCGAATTTAATAAAGCGCCATTGTGCGAAGGCATGATCCTGGCTTGCGAAGCAATCCGCCGCGATTTTCCCTCGCAAG -ATGTTTACGACGAACTGGAGCGTCTCGTTAGTCTGGCGAAGGAAGAAATCAGCCAGCTTCTGCCTTTAGAAGAGCAGTTG -GAAAAACTGATCGCGCTGTTTTACGGCGACTGGGGATTTAAAGCCTCACGCGGTGTTTATCGTCTTTCCGATGCATTATG -GCTGGACCAGGTGTTAAAGAATCGACAGGGCAGTGCGGTATCATTAGGTGCGGTTTTATTATGGGTCGCGAATCGTCTCG -ATTTGCCGCTGCTGCCGGTGATTTTCCCTACGCAGCTGATATTGCGCATTGAATGTCCGGATGGCGAAATTTGGCTGATT -AATCCTTTTAACGGTGAATCGTTAAGCGAACATATGCTGGACGTATGGTTAAAGGGAAATATCAGCCCGTCGGCGGAACT -GTTTTATGAAGACCTTGATGAAGCTGATAACATTGAGGTAATCCGCAAATTGCTGGATACACTCAAAGCCTCGTTGATGG -AAGAAAATCAGATGGAGCTGGCGTTACGCACCAGCGAAGCTTTATTACAATTCAACCCTGAAGATCCCTATGAAATTCGC -GATCGCGGGTTGATTTATGCGCAACTGGATTGCGAACACGTTGCGTTGAACGATTTAAGTTATTTCGTTGAACAGTGTCC -GGAAGACCCGATCAGCGAAATGATCCGTGCGCAAATAAATAACATCGCGCATAAACATATTGTGCTGCATTAATTAATCG -ACATTTTACTCAAGATTAAGGCGATCCTATGAAACAAAAAGTGGTTAGCATTGGCGACATCAACGTAGCAAATGACCTGC -CGTTCGTACTGTTTGGCGGTATGAACGTGTTGGAATCTCGCGATCTGGCGATGCGCATTTGCGAGCACTACGTAACTGTG -ACCCAGAAACTGGGTATCCCTTACGTGTTCAAAGCCTCTTTTGACAAAGCCAACCGCTCCTCCATCCACTCTTATCGTGG -ACCGGGCCTGGAAGAAGGGATGAAAATCTTCCAGGAGTTGAAGCAGACTTTTGGCGTGAAAATTATCACCGACGTTCACG -AACCAAGTCAGGCACAGCCCGTTGCTGATGTCGTGGATGTGATTCAGTTGCCGGCGTTTCTTGCTCGCCAGACTGACCTG -GTTGAAGCCATGGCGAAAACCGGTGCGGTAATTAACGTCAAGAAACCACAGTTTGTCAGCCCGGGACAGATGGGTAATAT -CGTTGATAAATTCAAAGAAGGCGGCAACGAAAAAGTGATTCTTTGCGATCGCGGTGCTAACTTCGGCTATGACAACCTGG -TTGTCGATATGCTGGGCTTCAGCATTATGAAGAAAGTGTCTGGTAACTCGCCGGTGATTTTCGACGTGACCCACGCACTG -CAATGCCGCGATCCGTTTGGCGCAGCTTCCGGTGGTCGTCGTGCTCAGGTGGCTGAGCTGGCACGAGCCGGTATGGCGGT -AGGTCTGGCGGGGCTGTTTATTGAAGCGCATCCGGATCCGGAACATGCGAAATGTGATGGTCCATCCGCGCTGCCGCTGG -CTAAACTGGAACCGTTCCTCAAGCAGATGAAAGCGATTGATGATCTGGTGAAAGGTTTCGAAGAACTGGATACCAGCAAG -TAATCTTTTTTGCTTGAAAAATAAAGTATTAGCGTTCTGCGTTAAGACTTTTTTCATGGGTGCCGGATACAAAAAAGGCC -GCAGGCTGTTACCCCTGCGGCCGGTTTCGGGCGCATATTGCCATCACGGCAGCCTGACGCCCGTTTTCACCTTACTTCCG -GTTACGCCACCAGCTGACAATCGCTGCGGTAATAATTCCCGCCAGGATCGGTGCTGCCAGGTCGTGCCAGAAAATCATGG -CAAACTGCGCGAGCGTCATATAGCCGCCTTGTTGTAATGACAACATTTTGCGGCTATTCTTGAATTGTTCTGGTTCAAGA -TTAGCCCCCGTTCTGTTGTCAGGTTGTACCTCTCAACGTGCGGGGGTTTTCTCTTTCCAGCAACCAATGCCACCAGGGAT -AAAGCCCCCGCAACATTGCGCCTCACCGGATAACGCCGGCTTGGTGTGGATACTACGACTCAATTCATCTTCACTTCATC -CCTGAAATGTTTGCAATGAAGAGTGCATTCCGGTTTTTCAACAGCTGTTACAGTCATTTCATGAGTGCTCTGGATGAGGC -TTCCAGCTCGGGTTGCCAATATTTACTTGTGGAAGTGATAAAGACAAAAATGGCCGCAGGCTGTTACCCCTGCGGCCGGT -TTCGGGCGCATATTGCCATCACGGCAGCCTGACGCCCGTTTTCACCTTACTTCCGGTTACGCCACCAGCCGACAATCGCT -GCGGTAATAATTCCCGCCAGGATCGGTGCCGCCAGGTCGTGCCAGAAAGTCATGGCAAACTGCGCGAGCGTCATATAGCC -GCCTTGTTGTAATGACAACATTTTGCGGCTATTCTTGAAGTGTCTGGTTTCAAGATTAGCCCCCGTTCTGTTGTCAGGTT -TTACCTCTCAACGTGCGGGGGTTTTCTCTTTCCAGCAACCAATGCCACCAGGGATAAAGCCCCCGCAACATTGCGCCTCA -CCGGATAATTCCGGCTTGGTGTGGATACTACGTCTCAATTCATCTTCACTTCATCCCTGAAATGTTTGCAATAAAGAGTA -CATTCCGGCTTTTCAACAGCTGTTGCAGTCGTTTCATGAGTGCTCTGGATGATGCTTCCAGCTCGGGTTGCCAATATTTA -CTTGTGGAAGAGATAAAGACAAAAATGGCCGCAGGCTGTTACCCCTGCGGCCGGTTTCGGGCGCATATTGCCATCACGGC -AGCCTGACGCCCGTTTTCACCTTACTTCCGGTTACGCCACCAGCTGACAATCGCTGCGGTAATAATTCCCGCCAGGATCG -GTGCTGCCAGGTCGTGCCAGAAAATCATGGCAAACTGCGCGAGCGTCATATAGCCGCCTTGTTGTAATGACAACATTTTG -CGGCTATTCTTGAAGTGTCTGGTTTCAAGATTAGCCCCCGTTTTGTTGTCAGGTTTTACCTCTCAACGTGCGGGGGTTTT -CTCTTTCCAGCAACCAATGCCACCAGGGATAAAGCCCCGCAACATTGCGCCTCACCGGATAACGCCGGCTTGGTGTGGAT -ACTACGTCGCAATTCATCTTCACTTCATCCCTGAAATGTTTGCAATGAAGAGTACATTCCGGCTTTTCAACAGCTGTTGC -AGTGGTTTCGTGCAGGGTGTGGTACAGGCTCGCAATTCTGATTAACGACCTGTCCAGGTAGTATGAAGAAATACAATAAG -CAGGAATTTATATTATCTCCCCCGATTACCGTCATCGGAGGAGATATAACTGTCAGGCAAATATCGTCATCAAATAGGCG -GCAAACAGTGCCAGATGCGCTGCGCCATTGAGCACGTTAGTACGTCCGGTGGAGAAGGAGATATGGCACAGCACTAAAGA -GGCCACCATCACCACCATTTCTGGCGCACCAAGTGCAAACTGCAATTCGTTACCCGTCATAAAGGCAATTAGCGTGACGA -CAGGTACGGTAAGCGAAATGGTTGCTAACACTGAACCAAAGAACAGATTCATCGCGCGCTGAACCTGGTTGTTCAACACT -GCTTTTAATGCACCTAAACCTTCCGGCGACAGAATCAACAGTGCCACCAGGAAGCCAGTAAAGGCGACAGGGGCATTCAT -GCTGTCGAGCAATGTCTCCAGCGAGCTGGCGTTCATTTTGGTCACCGCAATAACGGCAATCAGATGGATAATCAACCAGA -TAGCATGCCACAGGCTGCTATGGGCAGACGGTTTACCGTGATGCGGGTCGTCATCATCACTGTCATCTTCGTGCTCGTAG -ACAAACAAACTTTGATGCGTTTTGGTCTGGATCAGCAAAAATACGCCATACATTGCCGCAGAAATTAATGCTACCAGTAA -CGCCTGACCGGTTGAAAAATTCGCCGCAGGCAGAGCCATTGGAAATACCAGTACGATTATCGCCAGGGGGAACAGCGCAA -TTAAATACTGCTTGATACCAAACAGATTCATATATTGGGTGGCAAACTTACGACCGCCCAACAATAATGAAAAGCCAACC -AGCCCACCGGTAACAATCATAATGATTGAATAGAGCGTATCACGCATTAGCGTTGGCGCGGCGTCGCCGGTTGCCATTAA -AGCTGAAATCAAACTGACTTCAAGAATAACCACTGAAAGGCTAAGAATAAGCGAACCGTAAGGTTCTCCCAGGCGATGGG -CTAATACGTCCGCATGACGGACAACACTAAAGGCGCTACTTAAAATACCAATAAGCGCAAGAAGATTGATGGCAATGACC -ACTGGTAGTGTCTGGCTGCTTCCCCACAGGAACAGCACTACCAGCGCCAGAACCGGGAAAATAAGCGAAGTCTCCTTGTG -GCGGGTTTTTACCGCCTCTTGAGCATTTGACATTATGGTTATCCCTTTGCAGATGAATTTATCGAAAATGTAAAAAATAG -GTAGGAAAAATAACAGAAAGTGTCTGGATATCGGTAACATTTTACGAATTTTTACCCCGCTGTCGATTTTTTACTCATTG -GGGCATAAAAATAAGTATTACGTTTAGACAATGTTTGTTTTAGCGTCTCTTAAGAAGAGTCTGACCTGAAAATTCTTATG -TTTTGGCAAGAGTAGATATTGTTGACCACACTTAATGTTCAACTTTGTAAAAGGAGTCAACGATGCCGTATAAAACGAAA -AGCGATCTGCCGGAAAGCGTAAAGCACGTTCTACCGTCTCATGCCCAGGATATCTATAAAGAAGCGTTCAACAGCGCATG -GGATCAATATAAAGATAAAGAAGATCGGCGTGATGACGCCAGTCGCGAAGAAACCGCGCATAAAGTGGCCTGGGCTGCTG -TGAAGCATGAATATGCCAAAGGGGATGATGATAAATGGCATAAAAAATCGTAAAACCGGTCGCTTAGTTAAAGCTATTCG -TGCGGTGTTGCCTTGCAAGTGGTCCGTGGATTGCATATTGTCCCGTTAGTGGTTTCAAAATGAGCAGTAAAAATGTCCGG -AAGACACCAAAAAGTTGTCGCAGGGAAGTATGCAGTGGCGGAAGTGTAAGGTGATAACGCGTGATTTCTTGATGAATGCC -GATTGTAAAACGGCATTTGGTGCCATTGAAGAATCACTCTTATGGTCAGCAGAACAACGGGCGGCTTCGCTGGCGGCGAC -GCTGGCTTGTCGACCTGATGAGGGACCGGTGTGGATCTTCGGCTATGGATCGTTGATGTGGAATCCGGCACTGGAGTTTA -CCGAATCGTGCACCGGTACACTGGTTGGATGGCATCGCGCATTTTGCCTGCGCCTGACCGCCGGGCGCGGGACTGCGCAC -CAGCCGGGACGGATGCTTGCACTGAAAGAGGGCGGACGCACCACAGGCGTCGCCTATCGACTGCCAGAAGAGACGCTGGA -GCAGGAACTAACCCTGTTGTGGAAGCGAGAGATGATTACCGGCTGTTATCTGCCAACCTGGTGTCAGCTTGATCTTGATG -ATGGACGCACAGTAAACGCCATTGTGTTTATTATGGACCCGCGACATCCAGAATATGAATCTGATACTCGCGCTCAGGTC -ATCGCGCCGTTGATTGCGGCGGCGAGCGGTCCGCTGGGAACCAACGCACAATACCTGTTTTCACTGGAACAGGAGCTTAT -CAAACTGGGAATGCAGGACGATGGGCTGAATGATTTGCTGGTATCGGTAAAAAAACTGCTGGCGGAGAATTTTCCGGATG -GTGTGTTACGTCCGGGATTCGCCTGAGTAAACTTCCCGCATAGTGGGGCGTCAGACGCCCCCTCAAACATTAAAATGTGA -GCACTTTATCGGCTGACAGCGTCCATTGCGCCAGTTCCACAAGAGTACCGATTTCCACCCCATCAATCAGAGGAAGTGTA -CTAATCCCGCGCCCGTCGGTACAGGTTTTGCACAATTTCACCGGTACATTCTGAGCGGTAAGGATCTCCAGCATTTGCTG -AATGTTGTAGCCTTCCCCTGGTTTTTGCCCGCGCAACCCGGCTGTGACCGCATCAGACATGAGGAACAGACGCAGATCCA -GATTGCTCTCCTGCTCTCGTAACGCAATGGCCAGCCGCAAGCTGTTAAACAAGGATTCGCTCCCGTAAGGTGCGCCATTG -GCAACGATCACGATTTTTTGCATTATTTACTCCTGTATTCAGGGAATTAGACACTCATCTTCTATCTTACTGCTTCTGCA -GCGTCTGACCAATCGGTCACATTTTTAAGGATTTTCCTGAAAGCGCGAGAAAATACGACAAAAGTTGCCAGTAATCGTTA -TTCTTTAAGGCTATGGTTTTTCATTATTACCGGAAGTTACCGACGTTTTGAGCCGTTTCGTTCCTCGCATTATCCCGTTT -TATTTACTCTTGCTTGTAGCAGGCGGTACAGCTAACGCACAATCTACCTTCGAGCAAAAAGCGGCAAATCCCTTTGATAA -TAACAATGATGGTCTGCCGGATTTAGGCATGGCTCCCGAAAATCATGATGGGGAAAAACACTTTGCTGAAATTGTGAAAG -ATTTCGGCGAAACCAGTATGAATGATAACGGGCTGGATACTGGCGAGCAGGCAAAAGCTTTCGCATTGGGAAAAGTCCGC -GACGCGCTTAGTCAACAGGTTAATCAGCACGTAGAGTCCTGGCTATCACCGTGGGGAAATGCCAGTGTTGACGTCAAAGT -GGATAACGAAGGACATTTCACCGGCAGTCGTGGAAGCTGGTTTGTGCCGTTACAAGATAATGATCGTTATCTCACCTGGA -GCCAGCTTGGTCTTACTCAGCAGGATAATGGGTTGGTGAGCAATGTGGGCGTTGGGCAACGCTGGGCGCGCGGCAACTGG -CTGGTGGGTTATAACACTTTTTATGACAACTTGCTGGACGAAAATCTTCAGCGAGCGGGCTTTGGTGCCGAAGCGTGGGG -CGAATATTTGCGATTATCGGCAAACTTTTATCAGCCGTTTGCTGCATGGCATGAACAGACAGCCACGCAGGAACAACGGA -TGGCGCGCGGGTACGACCTGACAGCTCGGATGCGCATGCCGTTCTATCAACACCTCAATACCAGTGTCAGCCTAGAACAG -TATTTTGGTGATCGTGTTGATTTGTTTAACTCTGGTACGGGTTATCACAATCCCGTCGCGTTGAGTCTGGGATTAAATTA -CACCCCTGTGCCATTAGTCACTGTGACGGCCCAGCATAAACAGGGTGAAAGTGGCGAAAATCAAAATAACCTCGGGCTGA -ATCTTAATTACCGCTTTGGTGTACCGCTCAAAAAACAACTTTCTGCGGGCGAGGTTGCCGAAAGTCAGTCGTTACGTGGT -AGTCGCTATGACAATCCGCAGCGAAATAATCTACCGACTCTTGAGTACCGACAGCGAAAAACGTTAACGGTGTTTCTGGC -GACACCGCCGTGGGATCTAAAACCTGGCGAAACAGTGCCGCTGAAATTACAAATCCGCAGTCGTTACGGTATTCGGCAAC -TGATTTGGCAGGGCGATACGCAGATATTAAGTTTGACGCCGGGCGCACAAGCCAACAGCGCGGAGGGCTGGACGCTGATC -ATGCCTGACTGGCAGAACGGGGAAGGGGCAAGCAATCACTGGCGATTGTCTGTGGTGGTGGAAGATAACCAGGGGCAGCG -TGTCTCCTCCAATGAGATCACGCTAACGCTTGTCGAACCGTTCGATGCATTGTCAAACGACGAACTGCGCTGGGAACCGT -AATCAGAAAATGCGCTCCTGATGCACCCATACCGCTGCTTCCACGCGAGACTTGAGCTTCATTTTCTTCAGCATGTGCTT -GACGTGCACTTTTACTGTGCTTTCGGTGATATCCAGGCGGCGGGCAATCATCTTGTTCGGCAAACCCTGGGCAATCAGCT -TGAGAATATCGCGCTCGCGTGGGGTTAACTGGTTAACATCGCGCTCAGTAGTGGCACGGTTAGCGCGCAAGCTGGCGGCC -AGAACAGGCGTTAATGCTTCGCTTAATACCATTTCGCCAGCAGCTGCCTGATGCAATGCTTTCAGCAGATCTTCCGGTTC -CATATCTTTTAACAGATAGCCATCCGCGCCGCGTTTCAGTGCGGTGACCACATCTTCTTCATGGTTAGAGACGCTGAATA -CCACAATGCGCCCTGAGAGGGACTTTTCGCGCAGTTTATCCAGCGTTTCCAGACCGTTCATGCCGGGCATATTGAGATCT -AACAGGATCAGATCGGGATCAAGAGACTCCGCCAGTTCAATACCCTGTTCGCCATTACTCGCTTCGCCAACCACGGTGAT -ATCTGGTGCCATACTGATAAGCTGTTTTACGCCAGTTCGCAGCATCGGGTGATCGTCAATCAGCAGGATAGTAGCCGGTT -CCTGATTACTCATGGGTATCTCCTTGGACGTCTGTGAAAGTTTTTTCGGGAATAAAGGTGACCACCACTTCGGTGCCACC -TGATTCACGACGGCGGACGCGGCAATCGCCTCGTAAACTTTGCGCACGATCGCGCATTATTATCATGCCGTAGTGATTGC -TGCGGATGGCATTTTCAGGCACGCCGCAGCCGTTATCCTGGACGGTCAGTTTGACCTGATTATCGTTTTGCGCCACCGTC -ACCACGACTTCACTCGCTTGCGAATGTTTGAGGGCGTTACTTAATGCCTCACGGGCAATTTGCAACAAGTGGATTGCCTG -ATGCGAAGGCACCAGGCGAGGCGGCAATTGATAATCCAGCTTCACCGGGAAGCCAAATTTGGCGCTGTACTCTTCGCAAC -TCGCCTCCAGCGCCGGACGTAATCCAGGCTCGGTGAGCTGCAAGCGGAATGTGGTGAGCAATTCACGCAACTGCGCCCAG -GATGCATTCAGTTCGTTACGGATCTGACTTAACAGTTCGCGGCTGCTTTCTGGCAGCGCATCGCCCTGCATCTGTAAACA -ACTCACCTGCATCTTCATGCAAGAGAGAGATTGGGCAATAGAATCATGCAGTTCGCGCGCAATGGTGGCACGCTCTTCCA -TCACGATCAACTGTTGCTGACGTTCCTGATGGCGATCCAGCGCCAGCGTGGCGGTGAGTTGTTCAACCAGGGTATCCACC -AGTTGTTGTTGATCATGGCTAAGATGACGCCCCTGCGGCAGGGTCGCCAGCAAAATACCGTACTGCGTATGAGAGTCAGC -CAGCCGCCACTTCAGGGTCGTGCCGCGATCACCAACGGGTAATACGCCGCGCGGGCAGAGCTGGCAGCCTTTATCATCAC -AAGTCATATCTGGCTGGCAGGTAAACTCCTGATGATTCTCTTCATCATCAGTGTCATACACCCGCAATTCGATATCACGT -AGCAGGGTTAAATTCTGTAAGCCGTTGAGTACAGGTGACAGGCGTTCACACAGCGGGGCGCGGGAATGCAAACGGCGGTT -AGCCTGCCATAAAAAAGAGAGGATCTGATTTTTATGCTCCAGCCCGGCGGTTTTCTCCTGAACCCGCTGCTCAAGTACGG -CATAACTTTCGGCCAGTTCTGCAGACATATTGTTCAACGCAGTTCCAAGCATCGCCATTTCGTTGCGCCCGCTGATGTTT -GCGCGTTGGGTAAAATCGCGATGACTGACGGCACTCGCCATTGCCAGCAGTTGCCGCCACGGTTGTAGCAGTCGCGCCCG -CAACCAGATAATAGTGAACACCAGTAAAAGTGCCATAAATACCGCCATTACCCGATGGACCAGTACCACTGTCTCGATGC -GCATTTCCGTGGTGCGGTCAAAACCAGATACCAGTTGATCAAGCCCGGCAACAAACTGGCTGACATCCGCTGACACCGTT -TCTCGGTTTTGTGCACGCATCAGCGCAGGGATCAGTTCATTACGCCAGTAATCTTGTAAACCCTGTAATTGCGCCAGTTG -TCCGTCTCGTTCTGCTGCTCGAGTCAACTCGGCGCTAAATGCCGTTTGTTCCATCTCTTTAATTAAGGGCTTGTCTTTCT -CGCTTAATGGCACTGCCGCCAACAGACGGTAACTTTGCATGCGCAGCGATCCCGCTTTGTTGATCGCATGGGCGCTGCCC -TGAACGCCTTGCACCAGCCAGCCAGAAACCGCCATCCCTGCCAGTCCAATAGCAGTAGAAAGCAACACAATAAGCGCAAC -CTGATTAACCAGGGTGAGCGGAGAGAGACAACGTTTAAGCATGTAAACCTCTTCCTTCAGGCTTTAAATGAGCAATAACC -TTAATGAATGTGACGATACATTCTGGAATGGCAGTATTCTCGGCTATTGGCTGAAGTATACCCATACCCGGAAAGAGTTA -CTCCTTATTTGCCGTGTGGTTAGTCGCTTTACATCGGTAAGGGTAGGGATTTTACAGCACCGTGAAAAATCTCATAATTT -TTATGAAGTCACTGTACTCACTATGGGTAATGATAAATATCAATGATAGATAAAGTTATCTTATCGTTTGATTTACATCA -AATTGCCTTTAGCTACAGACACTAAGGTGGCAGACATCGAAACGAGTATCAGAGGTGTCTATGAGTCACTCATCCGCCCC -CGAAAGGGCTACTGGAGCTGTCATTACAGATTGGCGACCGGAAGATCCTGCGTTCTGGCAACAACGCGGTCAACGTATTG -CCAGCCGCAACCTGTGGATTTCCGTTCCCTGTCTGCTGCTGGCGTTTTGCGTATGGATGTTGTTCAGCGCTGTTGCGGTG -AACCTACCGAAAGTCGGCTTTAATTTTACGACCGATCAGCTATTTATGTTGACTGCGCTGCCTTCGGTTTCTGGCGCGTT -ATTACGTGTTCCATACTCCTTTATGGTTCCTATCTTCGGTGGTCGTCGCTGGACGGCGTTCAGCACCGGTATTCTGATTA -TTCCTTGCGTCTGGCTGGGTTTTGCCGTGCAGGATACCTCCACGCCTTATAGCGTCTTCATCATCATCTCTCTGCTATGC -GGCTTTGCTGGCGCGAACTTCGCATCCAGTATGGCAAACATCAGCTTCTTCTTTCCGAAACAGAAGCAGGGTGGCGCGCT -GGGTCTGAATGGTGGTCTGGGAAACATGGGCGTCAGCGTCATGCAGTTGGTTGCTCCGCTGGTGGTATCACTGTCGATTT -TCGCAGTATTTGGTAGCCAGGGCGTCAAACAGCCGGATGGGACTGAGCTGTATCTGGCGAATGCGTCCTGGATATGGGTG -CCGTTCCTTGCCATCTTCACCATTGCGGCGTGGTTTGGCATGAACGATCTTGCTACCTCGAAAGCCTCCATCAAGGAGCA -GTTGCCGGTACTCAAACGGGGTCATCTGTGGATTATGAGCCTGCTGTATCTGGCAACCTTCGGCTCCTTCATCGGCTTCT -CCGCGGGCTTTGCAATGCTGTCAAAAACGCAGTTCCCGGATGTTCAGATTCTGCAATACGCTTTCTTCGGGCCGTTTATT -GGTGCGCTGGCGCGTTCTGCAGGTGGTGCATTATCTGACCGTCTGGGCGGAACTCGTGTCACGCTGGTGAACTTTATTCT -GATGGCGATTTTCAGCGGCCTGCTGTTCCTGACCTTACCGACTGACGGGCAGGGCGGAAGCTTCATGGCGTTCTTCGCGG -TCTTCCTGGCGCTGTTCCTGACAGCTGGGCTGGGTAGTGGTTCCACTTTCCAGATGATTTCAGTGATCTTCCGTAAACTG -ACAATGGATCGCGTGAAAGCAGAAGGGGGTTCTGACGAACGTGCGATGCGTGAAGCGGCAACCGACACGGCGGCGGCGCT -GGGTTTCATCTCTGCGATTGGCGCGATTGGTGGCTTCTTTATCCCGAAAGCGTTTGGTAGCTCGCTGGCATTAACGGGTT -CGCCAGTCGGCGCAATGAAGGTATTTTTGATTTTCTATATCGCCTGCGTAGTGATTACCTGGGCGGTATATGGTCGGCAT -TCTAAAAAATAAACCGTTACTCGTCATACTTCGGGTTACATGTGCTGCGGCTGCGTTCATTCACCCCAGTCACTTACTTT -AGTAAGCTCCTGGGATTCATTCACTTGCCGCCTTCCTGTAAACCGAATTATATAGAGTAAAATATTTGATTATCCTTTGC -GCGGCATGATGTCGCGCTTTTTTTATGCGTCATTTAGTTACAACATACTAATGTTATATGGTTTATTTCGCCGGATTTCA -TTAAGAGCCATTAATATGTTACCCATGGGGAATACTCCTTAATACCCATCTGCATAAAAATCTTAATAGTTTAAATAACT -ACAGGTATAAAACGTCTTAATTTACAGTCTGTTATGTGGTGGCTGTTAATTATCCTAAAGGGGTATCTTAGGAATTTACT -TTATTTTTCATCCCCATCACTCTTGATCGTTATCAATTCCCACGCTGTTTCAGAGCGTTACCTTGCCCTTAAACATTAGC -AATGTCGATTTATCAGAGGGCCGACAGGCTCCCACAGGAGAAAACCGATGAGTAAATTCCTGGACCGGTTTCGCTACTTC -AAACAGAAGGGTGAAACCTTTGCCGATGGGCATGGCCAGCTTCTCAATACCAACCGTGACTGGGAGGATGGATATCGCCA -GCGTTGGCAGCATGACAAAATCGTCCGCTCTACCCACGGGGTAAACTGCACCGGCTCCTGCAGCTGGAAAATCTACGTCA -AAAACGGTCTGGTCACCTGGGAAACCCAGCAGACTGACTATCCGCGTACCCGTCCGGATCTGCCAAACCATGAACCTCGC -GGCTGCCCGCGCGGTGCCAGCTACTCCTGGTATCTTTACAGTGCCAACCGCCTGAAATACCCGATGATGCGCAAACGCCT -GATGAAAATGTGGCGTGAAGCGAAGGCGCTGCATAGCGATCCGGTTGAGGCATGGGCTTCTATCATTGAAGACGCCGATA -AAGCGAAAAGCTTTAAGCAGGCGCGTGGACGCGGTGGATTTGTTCGTTCTTCCTGGCAGGAGGTGAACGAACTGATCGCC -GCATCTAACGTTTACACCATCAAAAACTACGGCCCGGACCGTGTTGCTGGTTTCTCGCCAATTCCGGCAATGTCGATGGT -TTCTTACGCATCGGGTGCACGCTATCTCTCGCTGATTGGCGGTACTTGCTTAAGCTTCTACGACTGGTACTGCGACTTGC -CTCCTGCGTCTCCGCAAACCTGGGGCGAGCAAACTGACGTACCGGAATCTGCTGACTGGTACAACTCCAGCTACATCATC -GCCTGGGGGTCAAACGTGCCGCAGACGCGTACCCCGGATGCTCACTTCTTTACTGAAGTGCGTTACAAAGGGACCAAAAC -TGTTGCCGTCACACCAGACTACGCTGAAATCGCCAAACTGTGCGATCTGTGGCTGGCACCGAAACAGGGCACCGATGCGG -CAATGGCGCTGGCGATGGGCCACGTAATGCTGCGTGAATTCCACCTCGACAACCCAAGCCAGTATTTCACCGACTATGTG -CGTCGCTACACCGACATGCCGATGCTGGTGATGCTGGAAGAACGCGACGGTTACTACGCTGCAGGTCGTATGCTGCGCGC -TGCTGATCTGGTTGATGCGCTGGGCCAGGAAAACAATCCGGAATGGAAAACTGTCGCCTTTAATACCAATGGCGAAATGG -TTGCGCCGAACGGTTCTATTGGCTTCCGCTGGGGCGAGAAGGGCAAATGGAATCTTGAGCAGCGCGACGGCAAAACTGGC -GAAGAAACCGAGCTGCAACTGAGCCTGCTGGGTAGCCAGGATGAGATCGCTGAGGTAGGCTTCCCGTACTTTGGTGGCGA -CGGCACGGAACACTTCAACAAAGTGGAACTGGAAAACGTGCTGCTGCACAAACTGCCGGTGAAACGCCTGCAACTGGCTG -ATGGCAGCACCGCCCTGGTGACCACCGTTTATGATCTGACGCTGGCAAACTACGGTCTGGAACGTGGCCTGAACGACGTT -AACTGTGCAACCAGCTATGACGATGTGAAAGCTTATACCCCGGCCTGGGCCGAGCAGATTACCGGCGTTTCTCGCAGCCA -GATTATTCGCATCGCCCGTGAATTTGCCGATAACGCTGATAAAACGCACGGTCGTTCGATGATTATCGTCGGTGCGGGGC -TGAACCACTGGTATCACCTCGATATGAACTATCGTGGTCTGATCAACATGCTGATTTTCTGCGGCTGTGTCGGTCAGAGC -GGGGGCGGCTGGGCGCACTATGTAGGTCAGGAAAAACTGCGTCCGCAAACCGGCTGGCAGCCGCTGGCGTTTGCCCTTGA -CTGGCAGCGTCCGGCGCGTCACATGAACAGCACTTCTTATTTCTATAACCACTCCAGCCAGTGGCGTTATGAAACCGTCA -CGGCGGAAGAGTTGCTGTCACCGATGGCGGACAAATCCCGCTATACCGGACACTTGATCGACTTTAACGTCCGTGCGGAA -CGCATGGGCTGGCTGCCGTCTGCACCGCAGTTAGGCACTAACCCGCTGACTATCGCTGGCGAAGCGGAAAAAGCCGGGAT -GAATCCGGTGGACTATACGGTGAAATCCCTGAAAGAGGGTTCCATCCGTTTTGCGGCAGAACAACCAGAAAACGGTAAAA -ACCACCCGCGCAACCTGTTCATCTGGCGTTCTAACCTGCTCGGTTCTTCCGGTAAAGGTCATGAGTTTATGCTCAAGTAC -CTGCTGGGGACGGAGCACGGTATCCAGGGTAAAGATCTGGGGCAACAGGGCGGCGTGAAGCCGGAAGAAGTGGACTGGCA -GGACAATGGTCTGGAAGGCAAGCTGGATCTGGTGGTTACGCTGGACTTCCGTCTGTCGAGCACCTGTCTCTATTCCGACA -TCATTTTGCCGACGGCGACCTGGTACGAAAAAGACGACATGAATACTTCGGATATGCATCCGTTTATTCACCCGCTGTCT -GCGGCGGTCGATCCGGCCTGGGAAGCGAAAAGCGACTGGGAAATCTACAAAGCCATCGCGAAGAAATTCTCCGAAGTGTG -CGTCGGCCATCTGGGTAAAGAAACCGACATCGTCACGCTGCCTATCCAGCATGACTCTGCCGCTGAACTGGCGCAGCCGC -TGGATGTGAAAGACTGGAAAAAAGGCGAGTGCGACCTGATCCCAGGTAAAACCGCGCCACACATTATGGTCGTAGAGCGC -GATTATCCGGCGACTTACGAACGCTTTACCTCTATCGGCCCGCTGATGGAGAAAATCGGTAATGGCGGTAAAGGGATTGC -CTGGAACACCCAGAGCGAGATGGATCTGCTGCGTAAGCTCAACTACACCAAAGCGGAAGGTCCGGCGAAAGGCCAGCCGA -TGCTGAACACCGCAATTGATGCGGCAGAGATGATCCTGACACTGGCACCGGAAACCAACGGTCAGGTAGCCGTGAAAGCC -TGGGCTGCCCTGAGCGAATTTACCGGTCGTGACCATACGCATCTGGCGCTGAATAAAGAAGACGAGAAGATCCGCTTCCG -CGATATTCAGGCACAGCCGCGCAAAATTATCTCCAGCCCGACCTGGTCTGGTCTGGAAGATGAACACGTTTCTTACAACG -CCGGTTACACCAACGTTCACGAGCTGATCCCATGGCGTACGCTCTCTGGTCGTCAGCAACTGTATCAGGATCACCAGTGG -ATGCGTGATTTCGGTGAAAGCCTGCTGGTTTATCGTCCGCCGATCGACACCCGTTCGGTGAAAGAAGTGATAGGCCAGAA -ATCCAACGGCAACCAGGAAAAAGCGCTCAACTTCCTGACGCCGCACCAGAAGTGGGGTATCCACTCCACCTACAGCGACA -ACCTGCTGATGCTGACTTTAGGTCGCGGTGGTCCGGTGGTCTGGTTGAGTGAAGCCGATGCCAAAGATCTGGGTATCGCC -GATAACGACTGGATTGAAGTCTTCAACAGCAACGGTGCTCTGACTGCCCGTGCGGTTGTCAGCCAGCGTGTTCCGGCAGG -GATGACCATGATGTACCACGCGCAGGAACGTATCGTTAACCTGCCTGGTTCGGAAATTACCCAACAGCGTGGTGGTATCC -ATAACTCGGTCACCCGTATCACGCCGAAACCGACGCATATGATCGGCGGCTATGCCCATCTGGCATACGGCTTTAACTAC -TATGGCACCGTAGGTTCTAACCGCGATGAGTTTGTTGTAGTGCGTAAGATGAAGAACATTGACTGGTTAGATGGCGAAGG -CAATGACCAGGTACAGGAGAGCGTAAAATGAAAATTCGTTCACAAGTCGGCATGGTGCTGAATCTCGATAAGTGCATCGG -CTGCCACACCTGTTCAGTTACCTGTAAAAACGTCTGGACCAGCCGTGAAGGCGTGGAATATGCGTGGTTCAACAACGTGG -AAACCAAGCCGGGCCAGGGCTTCCCGACTGACTGGGAAAACCAGGAAAAATACAAAGGCGGCTGGATCCGTAAAATCAAC -GGCAAACTGCAGCCGCGCATGGGTAACCGTGCCATGCTGCTGGGTAAAATCTTCGCTAACCCGCATCTGCCGGGGATCGA -CGATTATTACGAGCCGTTCGATTTTGACTATCAGAACCTGCATACCGCGCCGGAAGGCAGCAAATCGCAGCCGATTGCCC -GTCCGCGTTCGCTGATTACCGGGGAACGGATGGCGAAAATCGAAAAAGGGCCGAACTGGGAAGATGACCTGGGCGGTGAG -TTTGACAAACTGGCGAAAGACAAGAACTTCGACAACATCCAGAAGGCGATGTATAGCCAGTTCGAAAACACCTTCATGAT -GTATTTGCCGCGCCTGTGCGAACACTGCCTGAACCCGGCATGTGTGGCGACCTGCCCGAGCGGTGCGATTTACAAGCGTG -AAGAAGATGGCATCGTCCTGATCGACCAGGATAAATGCCGTGGCTGGCGTATGTGCATCACTGGATGCCCGTACAAAAAA -ATCTACTTCAACTGGAAGAGCGGTAAGTCTGAGAAGTGCATCTTCTGCTATCCGCGTATTGAAGCGGGTCAGCCGACCGT -GTGCTCAGAAACCTGTGTCGGTCGTATCCGTTATCTTGGCGTGCTGTTGTACGATGCCGACGCTATTGAACGTGCAGCCA -GCACCGAGAACGAGAAAGATCTTTACCAGCGTCAGCTGGACGTGTTCCTCGATCCGAACGATCCGAAAGTCATCGAGCAG -GCGATTAAAGACGGTATTCCGCTGAGCGTTATTGAAGCCGCACAGCAGTCGCCGGTTTATAAAATGGCAATGGAATGGAA -ACTGGCGCTGCCGCTGCATCCGGAATATCGCACACTGCCGATGGTCTGGTACGTGCCGCCTCTGTCTCCGATTCAGTCTG -CAGCAGACGCGGGTGAGCTGGGTAGCAACGGCATTCTGCCAGACGTCGAAAGCCTGCGTATTCCGGTACAGTATCTGGCG -AATCTGCTGACCGCCGGTGATACCAAACCGGTACTGCGCGCACTGAAACGTATGCTGGCGATGCGTCATTACAAACGTGC -TGAAACCGTTGACGGTAAAGTTGATACCCGTGCGCTGGAAGAGGTCGGTCTGACCGAAGCCCAGGCACAGGAGATGTACC -GTTATCTGGCGATTGCTAACTACGAAGATCGCTTTGTGGTGCCGAGTAGTCATCGTGAACTGGCACGGGAAGCCTTCCCG -GAGAAAAATGGCTGCGGCTTTACCTTTGGTGATGGCTGCCACGGTTCAGATACCAAATTCAATCTGTTCAACAGCCGTCG -TATCGATGCCATCGATGTGACCAGCAAAACGGAGCCGCATCCATGATCGAACTCGTGATTGTATCGCGTCTCCTTGAATA -TCCGGATGCTGCCTTATGGCAGCATCAACAAGAGATGTTTGAGGCGATTGCCGCGTCGAAAAATCTGCCAAAAGAGGATG -CCCATGCGCTGGGCATTTTCCTGCGCGATTTAACGACGATGGATCCGCTCGATGCCCAGGCGCAGTACAGCGAACTGTTC -GACCGTGGCCGCGCCACGTCACTGTTGCTGTTTGAACATGTGCACGGCGAATCCCGCGACCGCGGCCAGGCGATGGTGGA -CCTGCTGGCGCAGTACGAGCAGCACGGCTTGCAGTTAAACAGCCGCGAATTGCCGGACCATCTGCCGCTGTATCTGGAGT -ACCTGGCGCAGCTGCCGCAAAGCGAAGCCGTGGAAGGTTTGAAAGATATCGCGCCGATTCTGGCATTGCTGAGCGCGCGT -CTGCAACAGCGTGAAAGCCGTTATGCCGTGCTGTTTGATCTGCTGCTGAAACTGGCGAATACCGCTATCGACAGCGACAA -AGTGGCGGAAAAAATTGCCGACGAAGCGCGCGATGATACGCCGCAGGCGCTGGATGCTGTCTGGGAAGAAGAGCAGGTTA -AATTCTTTGCTGACAAAGGCTGCGGTGATTCAGCAATCACTGCGCATCAGCGTCGCTTTGCCGGTGCCGTCGCGCCGCAA -TATCTGAATATCACCACCGGAGGACAGCACTAATGCAATTCCTGAATATGTTCTTCTTTGATATCTACCCGTACATAGCC -GGGGCGGTCTTCCTGATTGGTAGCTGGCTGCGTTATGACTACGGGCAGTACACCTGGCGCGCGGCGTCCAGCCAGATGCT -GGATCGCAAAGGGATGAACCTGGCGTCGAACCTGTTCCATATCGGGATTCTGGGGATTTTTGTCGGTCACTTCTTCGGTA -TGCTGACGCCGCACTGGATGTATGAAGCCTGGCTGCCGATTGAAGTGAAACAGAAAATGGCAATGTTTGCTGGTGGTGCC -AGCGGCGTGCTGTGTCTGATTGGCGGCGTGCTGTTGCTGAAACGTCGTCTGTTCAGCCCACGCGTGCGTGCAACCACTAC -CGGAGCGGATATCCTGATCCTGTCGCTGCTCGTTATCCAGTGCGCGCTGGGCCTGTTGACCATTCCGTTCTCCGCTCAGC -ATATGGACGGTAGCGAGATGATGAAACTGGTTGGCTGGGCGCAGTCGGTGGTGACCTTCCACGGTGGCGCTTCTCAACAC -CTCGATGGTGTGGCGTTTATCTTCCGTCTGCACCTGGTGCTGGGGATGACGTTATTCCTGCTGTTCCCGTTCTCGCGTCT -GATACACATCTGGAGCGTACCGGTGGAGTATCTGACACGTAAGTACCAGCTGGTGCGCGCTCGTCACTAAGCGAATTTTA -GTTCACATAGACCCTGCTTCGGCGGGGTTTTTTTATGGGCACGGTGCGGGGTGAGTTGTCGGATGCGCTTCGCTTATCCG -ACCTACAGGGGAGGATATTGTAGGCCCGGTAAACGTGGTGCCATCGGGCAAAATTAGCTCGGAGTAACAGGTTTTGATTA -TTTAAGGAAGCGATGGTGGTGGGGGAAGGATTACTCAGCGCTGCGCGCTTCGCCCTTCGGGTCGTTGCCTGCGGCAACGC -TCTCTCGCTGGCGCTCAAGTCGAACCTTGGTCGAAGCTTCTCATCCTTCCCCGCTTGGGCAGAATATTTGATTGCGGATT -CGTTTGAGAATTCCGGGGCTTTTGAAAGTGATGGTGGTGGGGGAAGGATTACTCAGCGCTGCGCGCTTCGCCCTTCGGGT -CGTTGCCTGCGGCAACGCTCTCTCGCTGACGCTCGAGCCGAACCTTAGTCGAAGCTTCTCATCCTTCCCCGCATGGGCAG -AATATTTGATTGCGGATTCGCTTGAGAGTTCAGGGACTTTTGAAAGTGATGGTGGTGGGGGAAGGATTACTCAGCGCTGC -GCGCTTCGCCCTTCGGGTCGTTGCCTGCGGCAACGCTCTCTCGCTGGCGCTCGAGTCGAACCTTGGTCGAAGCTTCTCAT -CCTTCCCCGCATGGGCAGAATATTTAATTGCGGATTCGTTGGGAAGTTCAGGGACTTTTGAAAGTGATGGTGGTGGGGGA -AGGATTCGAACCTTCGAAGTCGATGACGGCAGATTTACAGTCTGCTCCCTTTGGCCGCTCGGGAACCCCACCAGGGGTAA -TTCAAATTTTGAGGTAATGCTTGAGATGGTGGTGGGGGAAGGATTATTCGTCGCTTCGCTCCTCACCCTTCGGGCCGTTG -CCTGTGGCAACGTTCTCTCGCTTTCGCTCGAATCGAACCTTAGTCGAAGGTTCTCACCCTTCCCCGATGAGTGCAAACTT -TCACAATCTCACCGAAGTTACCACATCGCTGTGGTGAATTATGGTGGTGGGGGAAGGATTCGAACCTTCGAAGTCGATGA -CGGCAGATTTACAGTCTGCTCCCTTTGGCCGCTCGGGAACCCCACCACGGGGTAATGCTTTTTACTGGCCTGCTCCCTTA -TCGGGAAGCGGGGCGCATCATATCAAATGACGCGCCGCTGTAAAGTGTTACGTTGAGAAAAATGAACTGGTTGCGTAATT -TTCATCCGTAACGGATTAAAGGTAACCAGTTATTTTTGCTGGCGATTAAAGAATAATCGTTCGATTACCGTAAACAAAGA -CGCGCTGTGCCAGTACTTTGTATAGTGCACGACTTAAGACGTTTTTCTCGACGTCACGACCTGCGCGCATCATATCTTCA -GCTGTGTAGGTATGATCGACATGAATAACGTCCTGCATGATGATTGGGCCTTCGTCCAGATTGTCATTCACATAGTGAGC -GGTTGCGCCAATAATCTTCACACCACGTTCATAGGCCTGGTGATAAGGACGTGCGCCAATAAACGCTGGCAGGAATGAAT -GGTGAATATTGATGATCTTATTCGGGAAGCGTGCCACAAATTCCGGCGTTAATACCCGCATATACTTCGCCAGCACCACG -TAGTCAGGTTGATAAGCATCAATGGCATCCGCCATCTTTTGATCGTGCTCGTTGCGGGTTAACCCTTCATGGCTTACCAG -CTCAAACGGAATATCAAAACGCTCAACCAGAGAACGTAAAGTATCGTGGTTACCAATAACTGCCGCGATTTCGACATCCA -GGCCGCCGTAATTGGCTTTCATCAACAAATCGCCAAGGCAATGCGCTTCTTTAGTGACCAGAATCACTATCCGGCGACGA -CCGGCAGGATTCAGCTCACGCACGGAGCCTTCTGGCAATGCGCTATCGAGATCCGCCAGCAGGGTGGAATCATTAAAAAT -CCCTTCCAGTTCCGTGCGCATAAAAAAGCGCCCGGTACGGTGATCAACAAATTCATTGTTCTGTACGATATTTAACTCGT -GCTTGTAGCAAATATTGGTAATACGTGCGATCAGACCTTTTTGGTCCGGACAAATAGTACGCAGAACTTTACGTTGGAGT -GAATGCATTGCTGGAAAAACCTTGTTGAGAGTGTTTGCTAAACCGTACCGTCAACCATTATTGGCCGCAGCACTTTTTAA -ATTTTTTACCTGAACCACAAGGGCAGGGATCGTTGCGACCAAACTGCGGACGTGTACCGTCAATATAGTACCATTGACCG -TTTTCTTTCAAAAATCGCGAACGTTCAATTATTGCACCTGTTTTACCACCTTCGGTAAATCGAGCAACAAAACTGACAAA -TCCGATATTGTCGGCGTCCTGCCAACAATGTTCAAATACGGTCAATCCCAACCATTCAGTATGCGCAAATCCGGCCATCA -ATTCGGCACGTAACGCCGCTGCTCCACAAGAGGGATGCCAGGTCTTTATTAAATAATCTGCGTCTTGCATCACAAAAGCG -CAGTAACGCGAACGCATGAGATGTTCTGGATCAGGTGCAACCTTTTCACCAGACACATAAGGGTGGCAACATAGGCTATA -CTCGACAGCACTACCACAGGGACAAAGCTGAGACACAAATAATCTCCCTGGAAACAATAACGGCGTATTAACCGCCTGAG -TAGCACTATGTTAACCGAGCAGTAGCGATGTGGCTACGATTGCATTCCAGGGGAATCTTGCGGGAATAATGAGAAAGATA -AAAATAGGGCTGGCGCTGGGATCTGGCGCGGCGAGAGGTTGGTCGCATATTGGCGTTATTAATGCGCTAAAAAAAGTGGG -TATTGAAATTGATATCGTTGCAGGATGTTCAATTGGTTCGCTGGTGGGCGCTGCCTATGCATGCGATCGATTATCTGCGC -TGGAAGATTGGGTGACCTCTTTCAGTTATTGGGATGTTTTACGCCTGATGGATCTCTCCTGGCAGCGCGGTGGGTTACTG -CGCGGCGAGCGTGTCTTCAATCAATACCGCGAAATAATGCCGGAAACAGAGATCGAAAATTGTTCCCGTCGCTTTGCGGC -TGTTGCCACCAATTTAAGTACGGGACGTGAATTATGGTTTACTGAAGGCGATCTCCATCTTGCTATTCGCGCATCATGCA -GTATTCCAGGACTCATGGCACCTGTTGCACATAACGGCTACTGGCTGGTTGATGGAGCAGTCGTTAACCCAATTCCTATT -TCCCTCACGCGTGCATTGGGGGCTGATATTGTGATAGCGGTTGACCTGCAGCACGATGCTCATTTGATGCAACAAGATTT -GCTCTCCTTTAATGTCAGTGAAGAAAATAGCGAGAATGGTGATTCTCTGCCGTGGCATGCGCGTCTGAAAGAAAGGTTAG -GCAGCATAACGACACGTCGGGCGGTGACAGCGCCAACGGCAACAGAGATTATGACCACTTCTATCCAGGTGCTGGAGAAC -CGCCTTAAAAGGAACCGCATGGCAGGTGATCCGCCCGATATTCTGATTCAACCTGTTTGCCCGCAAATATCTACGCTTGA -TTTCCATCGCGCGCACGCTGCCATTGCGGCCGGACAGCTGGCAGTGGAAAGGAAAATGGACGAACTTTTGCCGTTGGTAC -GCACCAACATTTGACCAGAATTTTTATCTACACTTAAGTTAATTCTGACAGGCGCAGGTGGCAATAGCATGCCACTATTG -AGTAAAGCCAGTCAGGGGAGAGAACATGACGCAGCCATTGGTCGGAAAACAGATTCTCATTGTTGAAGATGAGCAGGTAT -TTCGCTCGCTTCTGGATTCATGGTTTTCCTCATTGGGAGCGACAACGGTACTGGCGGCTGATGGGGTGGATGCCCTTGAG -TTGCTGGGAGGTTTCACTCCAGACCTGATGATATGTGATATCGCGATGCCACGAATGAACGGGCTTAAACTGCTGGAGCA -TATACGTAACAGAGGCGACCAGACCCCAGTTCTGGTGATATCTGCCACTGAAAATATGGCAGATATTGCCAAAGCGTTAC -GTCTGGGCGTTGAAGATGTTTTGCTGAAACCAGTTAAAGATCTGAATCGCTTGCGCGAGATGGTTTTTGCCTGTCTCTAT -CCCAGCATGTTTAATTCGCGCGTTGAGGAAGAGGAAAGGCTTTTTCGCGACTGGGATGCAATGGTTGATAACCCTGCCGC -AGCGGCGAAATTATTACAGGAACTACAACCGCCGGTTCAGCAGGTGATTTCCCATTGCCGGGTTAATTATCGTCAATTGG -TTGCCGCGGACAAACCCGGCCTGGTGCTTGATATTGCCGCACTTTCGGAAAACGATCTGGCATTTTATTGCCTTGATGTC -ACCCGAGCTGGACATAATGGCGTACTTGCTGCCTTGTTATTACGCGCATTGTTTAACGGATTATTACAGGAACAGCTTGC -ACACCAAAATCAACGGTTGCCAGAGTTGGGCGCGTTATTGAAGCAGGTAAACCATTTACTTCGTCAGGCCAATCTGCCGG -GGCAGTTTCCGCTATTAGTTGGCTATTATCATCGCGAACTGAAAAATCTCATTCTGGTTTCTGCGGGTCTGAATGCGACG -TTAAATACCGGCGAACACCAGGTGCAAATCAGTAATGGTGTTCCGTTAGGCACTTTAGGTAACGCTTATTTGAATCAATT -GAGCCAGCGATGCGATGCCTGGCAATGCCAAATATGGGGAACCGGTGGTCGACTGCGCTTGATGTTGTCTGCAGAATGAG -CAAACGATAACGCGGGCTAAATTTGCATTACCTGCTAATGTCGGCTGGTGGTACTATCGTCGCCATTCGTATAAGTAATT -GTCTTAATTATGCTAACTCGCCTCCTTTTCAGAACTTAGCCCCTTCGGGGTGCTGATATACTGGGATGCGATACAGAAAT -ATGAACACGTTCAAAACACGAACAGTCCAGGAGAATTTAAATGGCTGCCATTAATACGAAAGTCAAAAAAGCCGTTATCC -CCGTTGCGGGATTAGGAACCAGGATGTTGCCGGCGACGAAAGCCATCCCGAAAGAGATGCTGCCACTTGTCGATAAGCCA -TTAATTCAATACGTCGTGAATGAATGTATTGCGGCTGGCATTACTGAAATTGTGCTGGTTACACACTCATCTAAAAACTC -TATTGAAAACCACTTTGATACCAGTTTTGAACTGGAAGCAATGCTGGAAAAACGTGTAAAACGTCAACTGCTTGATGAAG -TGCAGTCTATTTGTCCACCGCACGTGACTATTATGCAAGTTCGTCAGGGTCTGGCGAAAGGCCTGGGACACGCGGTATTG -TGTGCTCACCCGGTAGTGGGTGATGAACCGGTAGCTGTTATTTTGCCTGATGTTATTCTGGATGAATATGAATCCGATTT -GTCACAGGATAACCTGGCAGAGATGATCCGCCGCTTTGATGAAACGGGTCATAGCCAGATCATGGTTGAACCGGTTGCTG -ATGTGACCGCATATGGCGTTGTGGATTGCAAAGGCGTTGAATTAGCGCCGGGTGAAAGCGTACCGATGGTTGGTGTGGTA -GAAAAACCGAAAGCGGATGTTGCGCCGTCTAATCTCGCTATTGTGGGTCGTTACGTACTTAGCGCGGATATTTGGCCGTT -GCTGGCAAAAACCCCTCCGGGAGCTGGTGATGAAATTCAGCTCACCGACGCAATTGATATGCTGATCGAAAAAGAAACGG -TGGAAGCCTATCATATGAAAGGGAAGAGCCATGACTGCGGTAATAAATTAGGTTACATGCAGGCCTTCGTTGAATACGGT -ATTCGTCATAACACCCTTGGCACGGAATTTAAAGCCTGGCTTGAAGAAGAGATGGGCATTAAGAAGTAACATCCGTATCG -GTGTTATCCACGAAACGGCGTTGAGCAATCGACGCCGTTTTTTTATAGCTTATTCTTATTAAATTGTCTTAAACCGGACA -ATAAAAAATCCCGCCGCTGGCGGGATTTTAAGCAAGTGCAATCTACAAAAGATTATTGCTTGATCAGGAAATCGTCGAGG -GATTTACCTTGCTCATCCATTGCTTTTTTGATTACAGCTGGAGTACGGCCTTGGCCAGTCCAGGTTTTAGTTTCGCCGTT -TTCGTCAACGTAGCTATATTTTGCCGGACGCTGAGCACGTTTAGCTTTGGTGCCAGATTTAACGGCAGCAAGGCTATTCA -GCAGTTCGTTCGGGTCAATACCGTCAGCGATCAGCATTTCGCGATATTGCTGCAGTTTACGAGTGCGCTCTTCAACTTCA -GCAGCAGCCGCGCTTTCTTCTTCGCGACGTTCGTTAACAACAACTTCTAATTTTTCCAGCATTTCTTCCAGCGTTTCAAG -TGTACATTCTCTTGCCTGCGCACGAAGAGTACGGATGTTGTTCAGAATTTTAAGTGCTTCGCTCATTGTAGTAATCTCAA -ACTTATATTGGGGTGGTTTGTTGAGGTAATAATAGAGCCTTAAATTCAGTTGTGCAATAGCCAGGAATGTAAGGAATTCA -AAATTGTTCTTTATTTTGTGCCGCCAATAAATATCTTTTCATAAAATTAGCCAGAAAAGACGCGGCATATAGCCCTATTT -ACACCGATGATTTCGCAGCACGTGAGGTTAAAACTTCCTGATTCATGTCACATTTTATGGGGAGATTATCGTAGGCTGAC -GACCTTTCAGTCTTCTGTATTAGTTGTGTTTACGAGAATTCCCTATTAAGCGAATGATGAAAAGTAGAACAGTCGCAATA -AGAGCATGGACTTAGTATTGCACTATCTCCTGGAGGTCAACAGAGGGCTATTACTTGCGCAACAGGTTAAAGATTGTGAA -TAGTTACCAGCAGTCATTTACCCGCTTATAACAAGCGAGGCAGTTGTAATGATAGCTCAGAAGGATTATGCAAGGCTTCG -TAAGGGAGAACGCATATACCCACTTCTGTGCATACTGTTGAGCTGAAAAACTGACGAATTATGATAAACTCCAGCCAACT -TTATTTCATATCATTGAGGGCCTGTGGCTGATGGCACAGCTATATTTCTACTATTCCGCAATGAATGCGGGTAAGTCTAC -AGCATTGTTGCAATCTTCATACAATTACCAGGAACGCGGCATGCGCACTGTCGTATATACGGCAGAAATTGATGATCGCT -TTGGTGCCGGGAAAGTCAGTTCGCGTATAGGTTTGTCATCGCCTGCAAAATTATTTAACCAAAATTCATCATTATTTGAT -GAGATTCGTGCGGAACATGAACAGCAGGCAATTCATTGCGTACTGGTTGATGAATGCCAGTTTTTAACCAGACAACAAGT -ATATGAATTATCGGAGGTTGTCGATCAACTCGATATACCCGTACTTTGTTATGGTTTACGTACCGATTTTCGAGGTGAAT -TATTTATTGGCAGCCAATACTTACTGGCATGGTCCGACAAACTGGTTGAATTAAAAACCATCTGTTTTTGTGGCCGTAAA -GCAAGCATGGTGCTGCGTCTTGATCAAGCAGGCAGACCTTATAACGAAGGTGAGCAGGTGGTAATTGGTGGTAATGAACG -ATACGTTTCTGTATGCCGTAAACACTATAAAGAGGCGTTACAAGTCGACTCATTAACGGCTATTCAGGAAAGGCATCGCC -ACGATTAATAAGAATTTCTTTACTGACAGGGTGAGCAGGGCACTTTTATCCTGTCAGTTCGTTTTACGCACTTCTTCCGG -GCTATATACCCTTCTCGGCAGTTTTTTAACGCCGCTATACGCCTCACAGGGCTCTTAAGCACCGACGTTGACTTGTGACC -TGTAAAGTACAATATCCCTGTGTTTAGGCGTTATACATCGTCGCAAATATGATGAAGGCTAATGCTGTCGGTTTATGGAA -AAGTTGCTTTGGGTAAACAAAAAATACGGCCCCAGAAGGGCAATGCCGTTCACTTAAGAGGAGCGGCACTATGTTTCACA -GGATAACGGGTTTTTGATATCTTAACCGACCTCGGCCTTGATGGTCGGGGGCGTTTTGTTATGAACACCACTTCCAGAGC -ACCCCGAAGATGCTCCAGTCGTTTCGGGATGGTCCCTGGTGACGCCGTGTTTCCCAGCTCTATCATTTCTGATGCGATAT -TCTTCCACGCAGGCAGTAGCCAGTGGCGGTTACAACCCTTCTGGTTCAGCGTCAGCAGCAGGTCTTCGCTGTAAAAAAGT -TTATCAAACAACGTAATAGAGTTATCCGGGATGGTGGCGAGCATGGAGTGGGCCAGCACAGTTTCGCTCTGCCGGTAAGG -TGCGGTCACGGCATTCAGCAGAATGTGACTTCCCAGGTTCATTAAGGCCACCAGACGCATAACCGGGTAGGCGTTCTGCC -GCTTAGTGGATGTGTTGGCAGACCCATAATATTCACGCAGCTCGGGTTTATCAGGTGTCCTGAACTGTGCGCCATCAATG -GCAAAAAGTTGCAGGCCGTGCCAGTCATCCTTCAGGTAACGTTCCGCGCCCCTGTCTGTGCGGTCTGGCGGAAGAGCCAT -TCCACTGGGGCGGCCCCCACGCGCTGACGCGCCTGGGTGACAGCGCTGCGGGCCAGCAGGTTCATCCCCGCTTCGCCATC -CGCGCTCAGGTTCAGACGGCGAACAACATCGGTAATTGGCTCATTGCACCACCATCCAGATAACCATGTCCCCCGGTAAA -CGACGGCGGCGAACGGTCGCATGAGCAGAAAGCGTCAGGCAGTGTTGTATCCACTCGGTGGGAAGGTGTTCTGCAAATAG -TTGTGCAGAGGGCGGAGGCATAAGCGGATGGTCACTGAAATCGAGCAGATCATTGAGAAGTGGCATAAGAAAACGGCTCC -CTGTTGTGGAAGCCGTTATAGTGCCTCAGTTTAAGGATCGGTCAACTAATCCTTAACTGATCGGCATTGCCCAGAAGGGG -CCGTTTATGTTGCCAGACAGCGCTACTGATTAAGCGGATTTTTTCGCTTTTTTCTCAGCTTTAGCCGGAGCAGCTTCTTT -CTTCGCTGCAGTTTCACCTTCTACATAATCACGACCGTAGTAGGTATCCAGCAGAATCTGTTTCAGCTCGGAGATCAGCG -GGTAACGCGGGTTAGCGCCGGTGCACTGGTCATCGAATGCATCTTCAGACAGTTTATCCACGTTCGCCAGGAAGTCTGCT -TCCTGAACGCCAGCTTCACGGATAGATTTCGGAATACCCAGTTCAGCTTTCAGCGTTTCCAGCCATGCCAGCAGTTTCTC -GATCTTAGCAGCAGTACGGTCGCCCGGTGCGCTCAGACCCAAGTGGTCGGCAATTTCAGCATAACGACGGCGAGCCTGCG -GACGGTCATACTGGCTGAATGCAGTCTGCTTGGTCGGGTTGTCGTTCGCATTGTAGCGAATAACGTTACAAATCAGCAGG -GCGTTTGCCAGACCGTGCGGAATATGGAACTGGGAACCCAGTTTGTGCGCCATTGAGTGACATACACCCAGGAAGGCGTT -CGCAAACGCGATACCCGCGATAGTCGCTGCACTGTGAACACGTTCACGCGCTACCGGATTTTTAGACCCTTCGTGGTAGG -ACGCTGGCAGATATTCTTTCAGCAGTTTCAGTGCCTGCAGAGCCTGACCATCAGAGAACTCAGATGCCAGTACAGAAACA -TAAGCTTCCATGGCGTGAGTTACTGCGTCCAGACCACCGAAAGCACACAGGGACTTCGGCATGTCCATAACCAGGTTGGC -GTCGACAATCGCCATATCCGGAGTCAGCGCATAGTCTGCCAGCGGATATTTCTGACCAGTAGCGTCGTCAGTTACAACCG -CAAACGGAGTGACTTCAGAACCTGTACCAGAAGTGGTGGTGACAGCGATCATTTTCGCTTTCACGCCCATTTTCGGGAAC -TTGTAGATACGTTTACGGATATCCATAAAGCGCAGCGCCAGCTCTTCGAAGTGAGTTTCCGGATGTTCGTACATAACCCA -CATGATCTTCGCGGCGTCCATCGGGGAACCACCACCCAGCGCGATAATCACGTCTGGTTTGAAGGAGTTTGCCAGTTCTG -CACCTTTACGAACGATGCTCAGGGTCGGGTCCGCTTCTACTTCGAAGAAGACTTCAGTTTCAACGCCTGCTGCTTTCAGT -ACGGAAGTGATCTGATCAGCATAACCATTGTTGAACAGGAAGCGGTCAGTCACGATGAGCGCACGTTTGTGGCCATCAGT -AATCACTTCATCCAGCGCGATTGGCAGGGAGCCACGGCGGAAGTAGATAGATTTCGGAAGTTTGTGCCACAACATGTTTT -CAGCTCGCTTAGCAACGGTTTTCTTGTTGATCAGGTGTTTCGGACCAACGTTTTCAGAGATGGAGTTACCACCCCAAGAA -CCACAACCCAGAGTCAGGGAAGGTGCGAGTTTGAAGTTATACAGGTCACCGATACCACCCTGAGACGCTGGGGTGTTAAT -CAGGATACGCGCCGTTTTCATTTTCTGACCGAAGTAAGAAACGCGAGCCGGTTGGTTATCCTGGTCAGTGTACAGGCAAG -AGGTATGACCGATACCGCCCATAGCAACCAGTTTCTCTGCTTTTTCTACCGCGTCTTCGAAATCTTTAGCGCGGTACATT -GCCAGAGTCGGGGACAGTTTTTCATGTGCGAACGGTTCGCTTTCATCAACAACGGTCACTTCACCGATCAGAATCTTGGT -GTTTTCTGGTACAGAGAAGCCTGCCAGTTCAGCAATTTTATAGGCTGGCTGACCAACGATAGCCGCGTTCAGCGCACCGT -TTTTCAGGATAACATCCTGAACAGCTTTCAGCTCTTTACCCTGCAACAGATAGCCGCCGTGGGTTGCAAAACGTTCACGT -ACAGCGTCATAAACAGAGTCAACAACAACAACAGACTGTTCAGAAGCACAGATTACGCCGTTGTCGAAGGTTTTGGACAT -CAGTACAGATGCAACTGCACGTTTGATATCAGCAGTTTCATCGATAACAACTGGAGTGTTGCCCGCGCCTACACCGATAG -CTGGTTTACCGGAGCTGTATGCGGCTTTAACCATGCCCGGACCACCAGTCGCGAGGATCAGGTTGATGTCTGGGTGGTGC -ATCAGTGCGTTAGACAGTTCAACAGAAGGTTGATCGATCCAGCCGATCAGATCTTTCGGAGCACCGGCAGCGATAGCAGC -CTGCAGAACGATATCAGCCGCTTTGTTGGTGGCATCTTTTGCACGCGGGTGCGGGGAGAAGATAATGGCGTTACGGGTCT -TCAGACTGATCAGCGATTTGAAGATAGCAGTTGAAGTCGGGTTAGTGGTCGGAACGATACCGCAAATAATACCGATTGGT -TCAGCGATAGTGATGGTACCAAAAGTGTCGTCTTCAGACAGAACACCACAGGTTTTTTCATCTTTATAGGCGTTGTAGAT -ATATTCAGAAGCAAAGTGGTTTTTGATCACTTTATCTTCGACGATACCCATGCCGGATTCGGCAACGGCCATTTTCGCGA -GTGGGATTCGAGCATCTGCAGCAGCCAGAGCGGCGGCGCGGAAGATTTTGTCTACTTGCTCTTGAGTGAAACTGGCATAT -TCACGCTGGGCTTTTTTTACACGCTCTACGAGTGCGTTAAGTTCAGCGACATTAGTAACAGCCATAATGCTCTCCTGATA -ATGTTAAACTTTTTTAGTAAATCATCTGCTCGAATACGAGAGTATAGTCAGTGCGGTGATGATTTGCTTAACCTATGAAA -ATCAAAAGCTTACTCGCGCTCACACTCACTGTGATTTACTAAAAGAGTTTAAACATTAGAGTTATTATCTCTAATGCGTC -ACTTCCAGGTGGCGTAAGCAAGATTACTCACTTCTGGGTACTGATTACGTGATCCAAATCAAATTTTTGCAAAGCTGACA -CCTTTCAGCATCGCTTTTCGCCATTATAGCTAACAGTTAATAAATTGTAGTATGATTTGGTGGCTACATTAGCATGTTTT -GCACAACTAGATAACAATAACGAATGATAGCAATTTTAAGTAGTTAGGAGGTGAAAAATGCTGTCAAAAGGCGTATTGTC -AGCGCGTCTTTTCAACCTTATTTATGGCTAACATTATCCGGCTTTTGCTTCGGAGCTAACCGTGATTCAGACCTTTTTTG -ATTTTCCCGTTTACTTCAAATTTTTCATCGGGTTATTTGCGCTGGTCAACCCGGTAGGGATTATTCCCGTCTTTATCAGC -ATGACCAGTTATCAGACAGCGGCAGCGCGAAACAAAACTAACCTTACAGCCAACCTGTCTGTGGCCATTATCTTGTGGAT -CTCGCTTTTTCTCGGCGACACGATTCTACAACTTTTTGGTATATCAATTGATTCGTTCCGTATCGCCGGGGGTATCCTGG -TGGTGACAATAGCGATGTCGATGATCAGCGGCAAGCTTGGCGAGGATAAACAGAACAAGCAAGAAAAATCAGAAACCGCG -GTACGTGAAAGCATTGGTGTGGTGCCACTGGCGTTGCCGTTGATGGCGGGGCCAGGGGCGATCAGTTCTACCATCGTCTG -GGGTACGCGTTATCACAGCATTAGCTATCTGTTTGGTTTCTTTGTGGCTATTGCATTGTTCGCTTTATGTTGTTGGGGAT -TGTTCCGCATGGCACCGTGGCTGGTACGGGTTTTACGCCAGACCGGCATCAACGTGATTACGCGTATTATGGGGCTATTG -CTGATGGCATTGGGGATTGAATTTATCGTTACTGGTATTAAGGGGATTTTCCCCGGCCTGCTTAATTAATTCCTTTCAAA -TGAAACGGAGCTGCCATGCTCCGTTTACTTCGTCATTATTTTTACTTTGTTCCCGCGCAGTTATCAAAAGCAAAAGGAAT -AGGTAAAAATATTCTTCTCAAATTACAGTTAGTTATAAGGATTTCCTTAACTGCTTCTCCTCACCATCATGTTATTTTCG -CCACATCATAATCCTGGGCTTGCTGAAGAATAATTGAAATGATATTATTAATTCCACTGCCTTTGGTAGAGGAAAGTGCT -AAATAATAATCAATTGTTAAATTATTGTGCATTTCACTACTGGAACTGTAATCAGAAAAGATAGACATGCTTAGCCAATC -TCTATTTGATTGAATTGAAAGATGTTTGTTAAGGCATGGATGCAAGCTATAGATTCTGATACGGTCAATAAAAGAGAATT -GCTTAACAATTTTGCAAAATGTATTGGCGAGTAAGAACCGCATTTGGTACTTTCCGGGCAACCGCCAGACGATTCTTTAT -TGGTAATGAGAATAATTAACAATTAAAGAGCGTCGCGAAAGAATAATGTGTCTCGACAGGGGAGACACAGTACGAATCGA -CATAAGGTGATCGTCTGAATCACCAGAATAAATAAAGTCGGTGGGTGATGCTGCCAACTTACTGATTTAGTGTATGATGG -TGTTTTTGAGGTGCTCCAGTGGCTTCTGTTTCTATCAGCTGTCCCTCCTGTTCAGCTACTGACGGGGTGGTGCGTAACGG -CAAAAGCACCGCCGGACATCAGCGCTATCTCTGCTCTCACTGCCGTAAAACATGGCAACTGCAGTTCACTTACACCGCTT -CTCAACCCGGTACGCACCAGAAAATCATTGATATGGCCATGAATGGCGTTGGATGCCGGGCAACAGCCCGCATTATGGGC -GTTGGCCTCAACACGATTTTACGTCACTTAAAAAACTCAGGCCGCAGTCGGTAACCTCGCGCATACAGCCGGGCAGTGAC -GTCATCGTCTGCGCGGAAATGGACGAACAGTGGGGCTATGTCGGGGCTAAATCGCGCCAGCGCTGGCTGTTTTACGCGTA -TGACAGTCTCCGGAAGACGGTTGTTGCGCACGTATTCGGTGAACGCACTATGGCGACGCTGGGGCGTCTTATGAGCCTGC -TGTCACCCTTTGACGTGGTGATATGGATGACGGATGGCTGGCCGCTGTATGAATCCCGCCTGAAGGGAAAGCTGCACGTA -ATCAGCAAGCGATATACGCAGCGAATTGAGCGGCATAACCTGAATCTGAGGCAGCACCTGGCACGGCTGGGACGGAAGTC -GCTGTCGTTCTCAAAATCGGTGGAGCTGCATGACAAAGTCATCGGGCATTATCTGAACATAAAACACTATCAATAAGTTG -GAGTCATTACCAAGTCGGTGATAGTAATACGTAACGATAAAGTAACCTGACAGCAGAAAGTCTCCGAGCCTGTGCAGGGT -CCCAATCCGGGATTACACATGCTGGTTAATACCAGTAATTATAATGAGGGAGTCCAAAAAACAATGACCAACATCACCAA -GAGAAGTTTAGTAGCAGCTGGCGTTCTGGCTGCGCTAATGGCAGGGAATGTCGCGCTGGCAGCTGATGTACCCGCAGGCG -TCACACTGGCGGAAAAACAAACACTGGTACGTAACAATGGTTCAGAAGTTCAGTCATTAGATCCGCACAAAATTGAAGGT -GTTCCGGAGTCTAATATCAGCCGAGACCTGTTTGAAGGCTTACTGGTCAGCGATCTTGACGGTCATCCAGCACCTGGCGT -CGCTGAATCCTGGGATAATAAAGACGCGAAAGTCTGGACCTTCCATTTGCGTAAAGATGCGAAATGGTCTGATGGCACGC -CAGTCACAGCACAAGACTTTGTGTATAGCTGGCAACGTTCTGTTGATCCGAACACTGCTTCTCCGTATGCCAGTTATCTG -CAATATGGGCATATCGCCGGTATTGATGAAATTCTTGAAGGGAAAAAACCGATTACCGATCTCGGCGTGAAAGCTATTGA -TGATCACACATTAGAAGTCACCTTAAGTGAACCCGTTCCGTACTTCTATAAATTACTTGTTCACCCATCAACTTCACCGG -TGCCAAAAGCCGCTATCGAGAAATTCGGCGAAAAATGGACCCAGCCTGGTAATATCGTCACCAACGGTGCCTATACCTTA -AAAGATTGGGTCGTAAACGAACGAATCGTTCTTGAACGCAGCCCGACCTACTGGAACAACGCGAAAACCGTTATTAACCA -GGTAACCTATTTGCCTATTGCTTCTGAAGTTACCGATGTCAACCGCTACCGTAGTGGTGAAATCGACATGACGTATAACA -GCATGCCGATCGAATTGTTCCAGAAGCTGAAAAAAGAGATCCCGGACGAAGTTCACGTTGATCCATACCTGTGCACTTAC -TATTACGAAATTAACAACCAGAAACCGCCATTCAACGATGTGCGTGTGCGTACCGCACTGAAACTAGGTATGGACCGCGA -TATCATTGTTAATAAAGTGAAAGCGCAGGGCAACATGCCCGCCTATGGTTACACTCCACCGTATACTGATGGCGCAAAAT -TGACTCAGCCAGAATGGTTTGGCTGGAGCCAGGAAAAACGTAACGAAGAAGCGAAAAAACTGCTGGCTGAAGCGGGTTAT -ACCGCAGACAAACCGTTGACCATCAACCTGTTGTATAACACCTCCGATCTGCATAAAAAGCTGGCGATTGCTGCCTCTTC -ATTGTGGAAGAAAAACATTGGTGTAAACGTCAAACTGGTTAACCAGGAGTGGAAAACGTTCCTCGACACCCGTCACCAGG -GTACTTTTGATGTGGCCCGTGCAGGCTGGTGTGCTGACTACAACGAACCAACTTCCTTCCTGAACACCATGCTTTCGAAC -AGCTCGATGAATACCGCGCATTATAAGAGCCCGGCCTTTGACAGCATTATGGCGGAAACGCTGAAAGTGACTGACGAGGC -GCAGCGCACAGCTCTGTACACTAAAGCAGAACAACAGCTGGATAAGGATTCGGCCATTGTTCCTGTTTATTACTACGTGA -ATGCGCGTCTGGTGAAACCGTGGGTTGGTGGCTATACCGGCAAAGATCCGCTGGATAATACCTATACCCGGAATATGTAC -ATTGTGAAGCACTAATGGCAATACGTGGGGCAGGAGTGTCCTGCTCCACGGTGTCTGATTTTTATCGCATTACAGAAGGC -ACAGGCCAGAAGGTAGGGCAATGTTAAAATTTATTCTACGTCGCTGTCTGGAAGCGATTCCGACGCTATTTATTCTTATT -ACTATTTCGTTCTTTATGATGCGCCTCGCGCCGGGAAGCCCTTTTACCGGCGAACGTACTTTACCGCCAGAAGTGATGGC -CAATATCGAAGCGAAATATCATCTTAATGATCCGATCATGACACAGTATTTCAGCTACCTGAAACAACTGGCGCACGGTG -ATTTCGGTCCATCGTTTAAATATAAAGATTATTCGGTCAATGACTTGGTTGCATCCAGTTTTCCCGTTTCTGCCAAACTG -GGAGCCGCAGCATTTTTCCTTGCGGTAATACTGGGTGTTAGTGCTGGCGTTATTGCCGCATTAAAACAAAACACCAAATG -GGACTATACCGTGATGGGGCTGGCAATGACCGGGGTTGTTATCCCCAGTTTTGTGGTTGCACCATTATTAGTCATGATAT -TTGCGATCATTTTGCATTGGCTGCCGGGCGGTGGCTGGAATGGTGGGGCGCTTAAATTCATGATATTGCCGATGGTGGCG -TTGTCACTCGCTTATATCGCCAGTATTGCGCGTATTACCCGTGGCTCTATGATTGAAGTATTACACTCCAATTTTATTCG -TACTGCCCGGGCGAAAGGGTTACCTATGCGGCGGATCATTTTACGTCACGCATTAAAACCTGCTCTGTTACCCGTGCTCT -CTTATATGGGCCCCGCATTTGTCGGCATTATTACCGGTTCTATGGTTATCGAAACCATTTATGGTTTGCCGGGGATTGGA -CAACTGTTCGTTAATGGCGCATTGAACCGTGACTATTCCTTAGTGTTAAGCCTGACCATCCTGGTTGGTGCTTTAACCAT -TTTGTTTAATGCCATTGTCGATGTGCTATATGCGGTTATCGACCCGAAAATCCGTTACTGATACTGGAGCTCGCGATGAT -GTTAAGTAAGAAAAACAGCGAGACGCTGGAAAATTTCAGTGAAAAGCTGGAGGTCGAAGGGCGCAGCTTGTGGCAGGACG -CACGTCGACGTTTTATGCATAACCGTGCGGCGGTTGCCAGTCTGATAGTGCTGGTGCTGATCGCGTTATTTGTAATCCTG -GCACCGATGCTTTCCCAGTTTGCCTATGACGATACTGACTGGGCGATGATGTCCAGCGCCCCGGATATGGAGTCCGGTCA -CTACTTTGGTACTGACTCATCCGGTCGCGACCTGCTTGTGCGCGTTGCGATTGGCGGGCGTATCTCACTCATGGTCGGTG -TTGCTGCGGCACTGGTGGCTGTGGTCGTCGGGACACTTTATGGTTCGCTTTCCGGTTATCTGGGCGGTAAAGTGGATTCG -GTAATGATGCGTCTGCTGGAAATCCTCAACTCCTTCCCATTCATGTTCTTCGTCATTTTGCTGGTGACCTTTTTCGGTCA -AAACATCCTGCTGATTTTCGTGGCGATAGGCATGGTTTCCTGGCTGGATATGGCTCGTATTGTGCGTGGGCAAACCCTGA -GTCTGAAGCGCAAAGAGTTTATTGAGGCGGCACAAGTTGGCGGTGTATCGACATCGGGCATTGTTATTCGCCACATTGTG -CCGAATGTACTCGGTGTGGTGGTGGTCTACGCATCACTTCTGGTGCCCAGCATGATCCTCTTTGAATCTTTCCTTAGCTT -CCTGGGGTTGGGTACGCAAGAGCCGTTAAGCAGCTGGGGTGCATTGCTGAGTGATGGCGCGAACTCGATGGAAGTCTCTC -CATGGTTATTGTTGTTCCCAGCGGGATTCCTCGTGGTGACGCTGTTTTGTTTCAACTTTATCGGCGATGGCTTGCGTGAT -GCCCTCGACCCGAAAGATCGTTAAGGAGTGCAGCCATGAGCGTAATTGAAACTGCAACTGTGCCGCTCGCACAACAACAG -GCTGACGCACTGCTGAACGTGAAAGATTTGCGTGTCACCTTTAGTACCCCGGACGGCGACGTCACGGCGGTCAATGATTT -GAATTTTTCCCTACGTGCCGGAGAAACGCTGGGTATTGTAGGTGAGTCTGGTTCGGGTAAATCGCAAACTGCATTTGCGT -TGATGGGCCTGTTGGCTGCCAACGGACGTATTGGCGGATCGGCAACCTTCAATGGGCGTGAAATCCTCAATTTGCCAGAG -CATGAACTCAATAAACTGCGCGCTGAACAAATCTCAATGATTTTTCAGGACCCAATGACTTCGTTGAATCCCTATATGCG -CGTCGGTGAGCAGTTGATGGAAGTGCTGATGCTGCATAAGAACATGAGCAAAGCTGAGGCGTTTGAAGAGTCGGTGCGGA -TGCTCGATGCGGTAAAAATGCCGGAAGCGCGTAAACGCATGAAAATGTACCCGCACGAATTTTCTGGCGGCATGCGTCAG -CGAGTCATGATTGCGATGGCCTTGTTATGTCGACCTAAGCTGCTGATTGCGGATGAACCAACAACTGCGCTGGACGTCAC -CGTACAGGCGCAGATCATGACGCTATTAAATGAACTGAAGCGGGAATTTAATACCGCCATCATTATGATCACCCACGATC -TTGTCGTGGTGGCGGGGATCTGCGACAAAGTGCTGGTAATGTACGCCGGGCGCACGATGGAATATGGCAACGCGCGCGAT -GTCTTTTATCAACCCGTTCATCCTTATTCTATCGGTTTGCTCAACGCGGTGCCGCGTCTCGATGCGGAAGGTGAAACAAT -GTTGACCATCCCGGGTAATCCGCCAAACCTGCTGCGATTACCGAAAGGTTGCCCGTTCCAGCCACGTTGTCCGCATGCGA -TGGAAATTTGTAGTAGCGCACCGCCGCTGGAAGAGTTTACGCCTGGCCGTCTGCGTGCTTGCTTTAAACCGGTGGAGGAA -CTGTTATGAATGCTGTAACTGAAGGAAGAAAAGTCCTCCTTGAAATCGCCGATCTTAAAGTGCACTTTGAAATCAAAGAT -GGCAAACAGTGGTTCTGGCAACCGCCGAAAACGCTCAAAGCCGTCGATGGTGTCACTCTTCGCCTGTATGAAGGGGAAAC -ATTAGGTGTGGTAGGGGAATCGGGATGCGGTAAGTCCACCTTTGCTCGCGCCATCATCGGTTTGGTCAAGGCGACCGACG -GTCATGTTGCCTGGTTAGGTAAAGAGTTGCTGGGCATGAAACCCGATGAATGGCGTGCCGTTCGCAGTGATATTCAGATG -ATTTTCCAGGATCCGTTGGCATCGCTAAACCCGCGTATGACCATCGGCGAGATCATCGCTGAACCACTGCGTACTTATCA -TCCGAAAATGTCACGCCAGGAAGTTCGCGAGCGCGTGAAGGCGATGATGCTGAAAGTCGGGTTATTGCCTAACCTGATTA -ACCGCTATCCGCATGAGTTCTCTGGTGGGCAGTGCCAGCGTATCGGGATTGCGCGTGCTCTTATTCTTGAACCGAAGCTG -ATTATCTGTGATGAGCCGGTGTCGGCGCTGGACGTGTCAATTCAGGCACAGGTGGTCAACCTGCTCCAGCAATTGCAACG -TGAGATGGGATTGTCATTAATTTTTATCGCTCATGACCTGGCCGTGGTAAAACACATTTCCGATCGTGTGTTGGTGATGT -ATCTCGGCCATGCGGTAGAACTGGGGACCTATGATGAGGTCTACCACAATCCACTACATCCTTACACCAGGGCATTGATG -TCGGCAGTCCCCATACCTGATCCGGATCTGGAGAAGAACAAAACCATCCAGTTACTGGAAGGGGAATTACCGTCGCCGAT -CAACCCGCCTTCCGGTTGTGTTTTCCGTACCCGTTGCCCGATTGCCGGTCCAGAGTGCGCCAAAACACGTCCTGTTCTGG -AGGGGAGTTTCAGACACGCCGTTTCTTGCCTGAAAGTCGATCCGCTTTAAAAACAATAAGGGCTGACAGTTGTCAGCCCT -TTTTCACGCTAAAAGCGATTATTTATTCCCGCCAGATGATATGGCAAAGTTTGTGATCTTTTTCGCGGCATAACAGAATG -CGGGCAAAAACATCGTTGATTTCACCATCTTCACTGTCCGCCAGACCAATCACCACTTCGGCAAAAAAGTCCGGGTTCAA -ATCGAAATCAACATGTTCCTGCCAGTCTTCCGCCGGATCGAATAACTCCGCGCCGCCGCGCTCTTCAAACTGAAGATTGA -ACAGCAGAACATCAGCTGGATCGAGATTGTCGGCAGCCAGTTCGAGAAAAATATCGTAGGCCTGTTCAAGCGTTTCATCT -TCAGTCAGGCGATTGTTTAGATCCATATCCATAGTTACTACCTGTTTAACCTCTGTTGGCGACGTTTTACAGCAACGGAC -TGAAGAAGTAAAACAGTCGCTCGGCGACACGTTGCCATAATGGACGTTTTAGCCATAAACGGGCATCGAGCAGACGTGAA -CGCGAAATATAATCGTCCTGAACGGCGGCGAGGTCAGCACCAAAACCTTTATCGTCGATTGCCAGGGTAATCTCGAAATT -TAGCCACAGACTACGCATATCAAGGTTAACTGTGCCAACCAGACTTAGTTCGCCATCGACCAGCACGCTCTTGGTATGCA -GTAACCCGCCTTCAAACTGATAAATTTTAACCCCAGCAGCCAGCAGTTCCGTAAAGAATGCGCGACTGGCCCAGCCGACC -AGCATCGAGTCATTTTTTCGCGGAAGGATAATACTGACATCCACCCCGCGCTGCGCCGCCGTGCAAATCGCATGAAGTAA -ATCATCGCTTGGCACAAAGTAGGGCGTGGTCATGATCAAATATTCACGCGCCGAATAAGCCGCAGTCAATAATGCCTGGT -GAATGAGATCTTCCGGAAAGCCGGGGCCAGAAGCAATTGTGTGAATGGTGTGACCGCTGGCCTGTTCAAACGGCATAATA -TTGACATCTGGTGGTGGCGGCAGAATACGTTTTCCGGTTTCAATCTCCCAGTCGCAGGAATAAATAATCCCCATCGCGGT -GGCGATAGGGCCTTCCATACGCGCCATCAGATCAATCCATTGCCCTACGCCCGCATCTTGTTTGAAGTAGCGAGGATCGA -CCATATTCATGCTGCCGGTGTACGCGATGTAATTATCGATCATGATCATCTTGCGATGTTGGCGCAGGTCCATACGGCGT -AAAAACACACGCATCAGATTGACCTTTAAGGCTTCGACCACTTCAATACCGGCATTACGCATTAGCTCGGGCCACGGGCT -GCGGAAAAAAGCCACACTCCCGGCGGAGTCGAGCATCAATCGGCAATGAATGCCGCGTCGCGCAGCCGCCATTAATGATT -CAGCCACCTGGTCCGCCATGCCGCCGGGCTGCCAGATATAAAACACCATCTCAATATTATGGCGCGCGAGCTGGATGTCG -CGGATTAACGCCTGCATCACATCATCTGACTCGGTCATCAGTTGTAGCTGATTCCCTTTGACCCCAGCGATCCCCTGACG -ACGCTCGCAAAGCTTGAATAATGGCGCAGCGACACTGCTATTTTCTTCGGCGAAGATATGCTTACAGGCTTTAAGGTCGT -TAAGCCATTTTGCGGTGGAAGGCCACATCGCTCTGGCGCGCTCAGCGCGGCGTTTGCCTAAATGGAGCTCGCCAACGGCA -AGATAGGCAATAATTCCGACTAACGGCAGAATGTAAATAATCAACAGCCAGGCCATCGCGGAGGGAACTGCGCGTCGTTT -CATTAGAATGCGTAAAGTTACGCCTGCAATGAGCAACCAGTATCCCAGAATGGCCAACCAACTCACCAACGTATAAACGG -TTGTCATAGATTAGAAATCCTTTTGAAAGCGCATTGTTATGAGTTTACGCATATGGATTCATCTGGCAAATAAAAACGCG -GGAAAAGCACTGGTCAGCGTCGGGGGTGGGGGTATAATGACCATTCTGTTATTGCATAGAGTAGTTAACATGAAGCGGAG -TAGAACGGAAGTGGGGCGCTGGCGCATGCAGCGTCAGGCTAGCCGACGTAAATCGCGTTGGCTTGAGGGGCAATCGCGCC -GAAATATGCGTATCCACAGCATCAGGAAGTGCATTCTAAACAAACAGCGTAACTCGTTATTGTTTGCGATCTACAATATC -TAAATGTACTGGGCACCATTGCGGTGCCCAATAAGTTTACTCTTCCGTCTTTAAACTCTATTTTTGCGCCGATTCTTTAC -TGTCAGCTTTCGTTTCTAGTTCATCGTTATCGCTGAAAATACCATGACCTGAGTTCAACAACATTGAAACGAGCATATCA -TTATTAATCTCTTCACCATTTAAAACTCGCGCCAGAATTTCGCTGCCAAACAGTTGCGGTGAGAGAATGATATCCGGATG -TACCATCTTAATCTTATTCAGGTTTTTGCTATCACTGACGGCGAGAACTGTTTTGACATCACTGCTCATATCTTTTGCCG -AGAGTACAACAAACGCGTTATCTGCATCGTTATCACTCAGCGCCAGAATGGCCCGGCAACGATCGATTCCCGCTTTCTTT -AATACAGAACTGTCATTACTGTCACCGGGGATAACATCAGCATTATCGCCTAAGCGTTGCTCAAGTTGCTTGATATCATC -TTCAGGCAAGTTGCTGATAACCGTTACGTTTTGTCCGCGTTGATTCAGTTGCAGGATCGTATTGATGGCGAGAATCGAAT -GTCCGCAAACAATAAAATGATCTTTACGATGCATTGTATGATTGTTTCCTTTTACAAGTTTGTTGAATCCCCCGCGGATA -AGCGGACCAAAAATTGAGGTCATAGATGTGGCAAAAACGGTAATGCCGGAAATAATGACCGAAATAGTGAACAATCGTGC -TGATTCAGAAACAGGGACAATATCGCCATAGCCGACGGTTGACATGGTTTCTATCGAAAAATAGAACGCGGTCATCAAAC -TTTCTATTCGCGGATTAAAACCTTCGCTTAAATAAAGCGCACCGTAGGTTGAGTAAAACAGTAATGTCGTGAAACTAATA -AATGCAAAAATTGTCCCGGCTGCGGCGCTACTGTGGGAGAAGTCTTTGCGCAGTATCAGCAAAAACACCAGCGTAAAAAT -GCAAAATCCAATACTAAATTTCAGCCAGGGATAAAAATGCAGGGTGTAAATTAGCGCTATCAACAACAAAATGATACTGA -TTGCCCATGCGAGCTTTGCCCGGAACAGTAAGCCAATGGAGTTCAGGACAAGAAAGACGCCGAGCATAAAGAGTGGGGCG -TTTGCCAGCAAGGAGAGATCCAACTCTGAAAATGCTTTGATATGGAAAATATCAAGCAAATTGACCGACATACCATAGAT -TGTTTTAAAAATAAGCAATCCATTTAAAAAGACGGCCAGCGCGAGAATGTCGTGCCGAAGGGTCACCCATAAATTTGTTG -CTGTTTGTTTGAATGTAGCCCAGTGACTCACTGATACCTCTGTAACCACAATTTTGTTTAATTATCTTAGCGTGCACATT -TTCTGAACATACATGCAGCGCGTGAATGTGTTAAACAATAGTAGATGACTTTATCCGCAGTAATCAAAGGATTTGAGCGA -GCAACTGTACCTCAGGAAAGGTCATTTTTCCTGAATATGCTCACATCATATAAAGAAATACAGATAAAGTTATTATCTGC -TTGTGGTGGTGAATGCACTGACCGGCTATAAGGAAAGGCCAAACAAGAACACGGTTGCAAAAACCGTGCCCTTAAATATT -GAATCTCTATTCAGAACACTTTCTTAAATTGTCATTTGGCATATTACGAACAATTCCGCGTAAAAACGTTCTGTTACGCT -AAACCCTTATCCAGCAGGCTTTCAAGGATGTAAACCATAACACTCTGCGAACTAGTGTTACATTGCGTGTAGCTTTGAGT -GGGCAACTTTGTGTACACTTTTGTGTACCCAAAAACAAAAATGTGTACCCATTCAATGATCACCGACACAAAGCTCAGGA -AGGCGCTCGGCAAGAAAAGAGATGATATCGAGATTATTTCTGATTCGCACGGGCTCAACGCCAGAATCAGCCAGGCCGGA -AAAATATCATTTTTCTATCGGTATCGCTGGGCCGGTAAAGCGGTAAAACTCAATGTTGGTGATTATCCTGCAATGAGTAT -CACCCAGGCAAGAGAGCGTCGCCAACAATTCAGAAACTGGTTAACTGAGGGACTGGATCCGCGAGAGCAGGTGAAGCTGG -ATAAGCAGACCCGACAGGAAGCGATGTCCGTTGCCGAAGCGTTCAATTACTGGATTGAAAGGCACTGTATCGCTAACGGG -CTAGTTAAAGTCGATTACTATCGCCAGGTGTTTGAGAAACATATCGCCGAACCGATGAAGAATGTCAAAGTCGATAACAC -AGCGAAAATGCACTGGATCAACGTCTTCGATTCTATAGAAAGCAGGGTGATGGCTCATTACATGCTTTCGCTGTGCAAAC -GGGCGTTTAGGTTCTGCGTTAACAGAAGTGTGATCGCCTCAAACCCACTCGAGGGATTACTGCCATCTGATGTCGGGCAA -AAGCCTAAAAAGAGAACTCGCAGGATGGACGATGACGATCTGCGCAAAATCTATCAGTGGTTGAAAAGCCATATGTCGAT -AGAGTCCGTTTTCCTGGTGAAATTTATTATGCTTACCGGATGCCGTACGGCTGAGATTCGACTTAGTGAGAGATCATGGT -TTCGATTGGATGATAATGAGTGGGTCGTGCCTGCGGGCAGTTATAAAACTCGGGTACATATTAGAAGGGGACTCTCAGAC -GCCGCCGTTAACCTGGTCAGAAATCACCTCAAGAAAATAAACACCAATCACCTGGTGACTTCACAACGTAAAATTGATGG -CGGGATCAAAGATTCGCCCGTTCATTCACCTGTGGCATCCAATTACGCCCGTTCTATTTGGAATGGAACAGGTATGGCAG -AGTGGTCGCTTCATGATATGAGGCGGACGATAGCCACAAATCTCTCTGAGTTAGGTTGCCCGCCGCACGTAATTGAAAAG -CTGCTCGGGCATCAGATGGTGGGGGTTATGGCGCATTACAACCTTCATGACTATATCGATGATCAGAAACACTGGCTCCG -CGTTTGGCAGAGCCATCTTGAAGAGATCATCGGAGAGCCCTTCAGTTAATTTATCTTCTTTTTATCCTCCCACTCTTTGA -TTGACTCAGAGCGCCAGCGGTTAGGGTTGCCGGGCCAGTCAGGGGGTGGGAACGGGCATACGAAGCCCCGAGGCATTGTG -TCTGCACTTTGCCATGACCAAAGGGTTTTGCGTGAAATTTTGTAGCGACTGGTCAGGTCTGACGTTACCAAAATATCATC -CATAGCTCTCTCCAGTTGCCCGTTCGGGCCATTCAAAATCTTTTTCAACCAACCTGCCCGGGCAGGGAGCGGAGACGGCG -CATGCCGGTCATCGCTGTGGCCACGTAGCTCGCCTTTCGGTTCACCACCTCCACCCAGACTTTCACGCCTTCAACCTTCA -CCGTATAAGTCTCTTTCATCTTGCTTCGCCCATAGTCGCCATATGTTTGCAAGTGAGCTGCCAGCGCAACATCGCAAGCG -CGGCGACCAATAGGTGATTGCTTACTGCGATTAATCAGCTTCATCATCACTGCACTCCCAAAGTGGCTACGACATCACTC -GCTGTTTCGCGGGTACTGCCTTTGCTGGATATAGCCCGGCGAGCACTGACGCGGTGCAGATTGAAGCCGTGCTGTTCGTA -AAGTTCAATTACGCGCGGTGCGGTAGAATTGCTGATCACCACTTTTGCCCCCCGCTGGTGGGCTGCCACACAGCTTTCCG -CAAGCTCTACCTGGCTATCCCATGAGAACCCACCAGCCGCGTAGTTAGTGAAACCAGCGGTGCCGGGAAGCGGCTCATAA -GGCGGATCGCAGTAAACGACGTCACCATCACCTGCCAGCGCGAGCGTGCGCCTGAAGCCTGCATTCATGAATACGCATGC -GTGAGCCTTCCGCTTAAATGCCTTGATCTCTTCTTCCGGGAAATATGGCGCTTTATATTTCCCAAAGCCGACGTTAAAAA -AAACCGTCCAGGTTGTAACGAATCAGGCCGTTGAAGCAGTGCCGATTGAGGTAAAGGAATGCTGCTGCACGCTCGACCGC -ATCCAGCCGCTGCGCGTTGAATGCTTCACGAATTAACGTATAGTTTTCGGCATCATTAAGATGCCTGAATGCCTTCATTG -CCTCATAGATCACCGAATCGGGGACCACCGCCAGCATCTGATACAGGTTAATCAGGTCAGCGCTGACGTCAGCCAGAAGG -AAGCGTTCGTGCTTGTCTGAGTTAAGGAACACCGAGCCGCCACCCACAAAAGGCTCAATAAGGCGTTTACCTGCGGGGAT -CAAACGATCCAGTTCCGGCAGCAGCGAATATTTGCCGCCAGCCCATTTAAGGAACGGGCGCTGCCAGCTGCGCAGCGCCG -GTTCTTCTATGGGCATCGCCGCAGCTCCACTGCAAACAGATCCGTATCTCATGCTGCCTCCTGCCTTTCCCGATATTCCT -CAGCGAGCCGCTGCGCCTTTAATGGATTGCTGACCACTTCACCCCATGGTATTAGCCAGCAGTTACCAATGAAGGGGAGG -CACAGTGTGCCTACGCTGATGTCGTCGTGAGCGTGAGTCATAGGATGGACTCCATTTCGTCGATATAGAGGCCCTGAGCA -ATCAGGCGGCGACGGCGTGCTGCACGTTCAATGCACTCCTGCCGCCTGCCTTCCTGCGACTGCTCTATGGCGCGCCGGGT -GAACAGCCGAGATTTACCCTGCGGCGTAATGACCTTTGGCTTCGTAACCAGGTCGAATGTCCGGTCGCAGATGCCGTCCT -CGTTGATCCATTTTTCCGACTCAACGATCTGCGCTATCTGTCCGGTGCCGCGGGTGATGCCGTTGGCGACCCGGTTAAAC -TCAATGAGCGATACGCCAAACTTCTCGGCGATTTCGCTGCCAGTGACCGGGCGGCCGCGCGTCTGAATCATCCAGATAAC -GCGTTCACGGAGGCCGGAGAATTGCCCGGCTCGCCCGGGCCTGCGGTAGAATGGTGTGCGTTTCATTTCCACTGTTCCCC -GAACGTGAAGCCGATCTCTGCCAGCGCCTCGTCCATCTTCTCGATGAACTCCGGCACCATTTCGTTGAAATCGGACATGT -ACTGAGGATCCCGCTCAACGACGACGTGGTGAATGCCTTCGCGTTTCATGCGCGGGTCGTAGTTTGCAAAGAACCATGCG -TCTTTTCCGGTCACCCACATGCTGTACTGCACCTGGGCCATGTACGCAGACTTGATGGCTTCGAAACCGCCAAGGCGGAA -TTTCATGAAGTCGCGGGAGGTGAAAGGGCATTTAAGCTCAAGGCCGAACCCGTTACTGCACAGGCCGTCAGGGGAGCAGG -CGGTGCGCATGCTCTCGTCACGGAACAAGATCGGAGACTCCGTGACTTTCACGTCAGTGGTGAACTCGAAGAGGGTGCGG -GCGTCTTCTTCGTACTGCTTGCCCCAGGCCAGCGCCTTGGCGTTAACCTCTGGCGCTACACCGGTGCATACCTCGGCGAG -CAAGGTGTGGAAGTAGGACATTTTCATGTCTGTCCATTTGCTGCCAGATCGAGGCTTGGAAATGACGTTGTGAGCGTCAG -AGGCAGTAATAACTCCGAGCCTTAATTTGGCCCATGCTTCATCACCTTGCTCTACGGTGGACACATCTATGCCGGTCCGG -GCCAGGATAATTTCTGGTGTCATGCTGCCGCCTTCTTCTTGAGGAAGCCTAAGGCCTTAACTGCCTCGGCTTGGGTAAGC -TCGGATGAATCGCGAATATCACGACGGAAAATTTGCGAACAGACTGGGAGCAGGTTTTCTTCCCATGTCTTATCCATTGC -GATAAGGACGTCGTTAATCTCCTTGATAATTTCGTCTCCTGCTGGGGTTACATCGCGTTCTGGCTGGCGTTCTGCTGAGA -AGTTGATACCTTCCTCACCCTCGGTATTAACATGGTCGATGGCGGCATCCAGGCGCTCACGTCGAGGCCAGTATTTTGCT -GCCTGCTTCACGACCGTCTTTAGGATCATCTGCTCTTCATCGGTGACCCATGGACACTTCTTGCTGTTGTCAGATTTGTA -CTTCTTCCATGCTTCAGACCGGTCACGGATGGAGTAGATGGCATCGATGCGCATCGTATGGGTAAGGTAATCACCATCGT -CAGTTTTTACCGTTACATACGCCCCTACAATGTCCCCGCGCTGCTCTTCAGTATCAAAGTCGTTGTAGATGTGGATCGGC -GGCTTATCGAGCCCCTCGCGGCGGAACTGGTCGTTTCTTCGAACAATAGCCGACTGGCACCACTTAATGGCGCCAGACTG -CTGCGCGATGTGCATCAGGCCCATGTAACTGATGTCGAGGCAAATAGCCCCTTTACGCGGAACCAGGTAAGCCAGCTTCT -GAGCTGGGTTTAGCGAAATACCGATAGCCGCAACGTTGATGATCGCGTTCTGTGTGCTGGTCTGGTTCTGGAATGCAACT -TTCGCGAGGTAGTCGTTGTTCTGAAATAGCTGGATGGCGAACTGACTTTCCTTCGCCCACACCATCCGCTCGTCAGTGGC -CGCCTTAATGAAAAGCGGCTCCTGTTGTTTGACGAAATCAACAAGGGTTAAGCTCATAGTCCCTCCTTAAAATGGGCAGA -TTGGATGAAGGCGATCCCACTCTTCTTCGGCGCGGTCGTAACAGATGCGTGTGACATAGTCGTTATAGGCTTCCTCTGCC -TTTTCACCGACTAGTGCCATTTGCGCTTCTTTTGGGAGAAACAGGCTACTCATTTGCAGAGCATATTTCGGGAACATGGC -GATCAGTTCTTTCGCCCGGTCGTCGATCCACTTCTCTTTCTCGTCGGTGAGTTGCTGCTCAACCCAGCGCCGTTCTTCGA -TGCGGTCGTAAGTGAGGTATGCGTTCATGTTTGCCTCAATATTTGATGTGCGCGTCCTGCACTTTGCCGCCAGCGATCGC -CAGCACTGCTTTCTGTGCGTATTCTTCTGGGATGCCCTGAGCAATCAGATCTGCGTAGACACGACGATTGACGGTGCGGC -GGTGCTCTTTGTCTGCGGCTCGGCGCGCTTCTTCTTCAGCTTTGCGCTGCTCTTCGACCAAACGGGCGGCTTCTGCCTCT -TCCTGGCGGCGGCGCTCGGCGGCAACGGCTTCTTCTTTTTCGCGGCGCGCACGCTCTTCGGTTTCCTTCTTCTCGCGTTC -CGCACGCTGTTCCGCTTCAATGCGCTGGCGTTCAGCCAGCTCTGCACGTGCTTTCTCTTCAGCTTCACGGCGCGCTGCGG -CTTCAATCTCCGCTTTGTGCTTCGCTTCGGCATCTCGGCGGGCTTGTTCTGCTGCTTCGCGCTTAATGCGCTCTTCGTGC -TCACGCCGAGCCTGTTCCGCCAGGCGGCGCTGCTCTTCGCGGTCACGGTCGAAATCCTTGTTCATCAGCAGAGCCATTTC -GTGGTCTGCTTCGAACTTGGCCGCCAACTCCTGATCGAACTTGATGTTCATTTCCAGCGCTTCGGCGTGCAGCGCGTTCA -TGGCTTCTTCAGCCTTAATGCGTTCCTGCTCGGCTTCCCATTCGGTGAGTGGGCGGCGGGTTGCGTCGCGAAGCTCGTCA -CATGCATCAACGAAACGCTTAATTTCGGCCTCAGCAGGTCGCACAGCCTCTTTCAGGCGCTTCAGGTACTCTCGGCCCGG -CTTTTCAATTGCCGTCTTACTGCGTGATACCTGCGCTGCCAGAGAGGCGACACGGTCACGTCCTTTCTTCGTGGACAGGT -CCGGCACTTCGTTTACTGCCTGGCGGATTTGCTCGAGATAAGCATCAAGGCCGCCCGCTACGTAAAGCACTGGGGCCTGT -TCCGGCTTGATTTCGATGACAGTTAAGTCCGTTACTTCGCTCATGGTTTCTCCTGAAATTTTGATGTGCAGATCTCGCCC -TCTGGTGACAGGCAGCAGTTGAATTGGTTAAGGGTTATTTGCCTATGGATCTGAAAATGCGTATATGGCTAGTTGATTGC -TTCGTTAAGCATTTTCTCTATAGCCAGCTTGCCGTCATTTATCTGAGCAACTTGCTTATCGAAGTTCTCTTGGTAGTGGG -CGAGATTCTTTTCCGATGCAGAGAATAGGCGTTCTTTGATTTTTTGTAACTCATCCCTGCTGAAAACAATGCCCATATTG -CGGCACTTTTTGACATCATCAATGCTCAGGCCGTTACCATTGAGTTTTTCCAGGGCAATGCGCTTAACACACTGCCTGGC -TTCTTCAATAGTCTTGTAGAACTCAACCGTATCGCTTCCACCACTGCCATCTGAATAGCAATTTACTCGTAAAGCTATAT -CTCCATTAGTGCTGCCCAAAAGAGATAAGCACTTGATACCTTCAAATTTCTTACGCCCATAGTAGTTGTCAATTGAAGAC -ATAAAATCTTCATATCTTTCAATGGACGGCACACCGTAATCACGACGAATGGCAAATTTAACCTGCCCGGTCATTACATC -TGCGAAATGGTCCAGGTCAGCATCATTGATATGATCTGAGAACGCTTTTACCTGCTTAACCATTTCTCTCCAGAAACTTA -ATGTATTCTGTAGGTTGCTAATTTCCGAGTTGATCTTTTCAATTTTCAACTTCGCATCAGCAAGGGCTTTTTCTTGTTTT -GCTTTTTCACGAGACAACCATGATTCAACTGGCTGGTCATGTAGACTCTTCACCACAAAACGCTCGCCACCAGGGATTTC -ATCACCCTGCTGCGTGACAAACACTTCCTGGACGATCGTTTCCTGATTATTCAACGCACCAACGACAACGACCTTACGGC -CGTCAGAAAGAAATTTAGTTTCCATGACAAAGTCCTTAATGGGTGAGAGGGTTGCCGTGACCGTCCAGAAGGACGTCAAT -CACGCAGTCACTGAGGCGGATGATTTCTGCGTCGGTGTGCAGGTAGACCCATTTGCGCTCCTGAATGACTGCTGAGACGC -GATATGTGCGGCCTTCATGCAATGCCATCATGCCGGGCGTGACGCACTGGCGAATGAGCGGGGTGGTGCCGTAGTGGTTG -ATCATGCCTTCACCTCAACCTGTTCCAGGAGGCCAGCCAGCTTCATATGCCAGCGGTTCATCGTCAGCTTTTCACGCGGG -TTAGATACCGACGTCAGCTGCCACTCGTTATCGTTGAGCTTTTTGGCGGTGTACTGCTTGCCGTTGTGGGTGACTGTCAT -CTCACACCACCTTGAATAAGAACCAGCCCATACCGCACACAATCAGGCCCACAATGGTTATTGCGGAAGACATGCGTACA -TGGTCAATGGCTAGTTTTGAAAGTGGCTGGCGATGTTCTTTTTTCGTCAGCGAGTTGATTGCTATGTCGAGCAGAAACGT -CCCGACAAACCATAATGCGTATATCTTTAAGCCCAACTCCAAATCACTCATAAATCCTCTTGGCCTTATCGCGGCGAACG -GAACGGTTAATACAAGACTTCAACGCATTTATTCAGTGTTTCAATGGTCGGTGGATGGCCGCCGGTTGTCATAACTTGAG -CCACTCGTAAATGACTCCAGGTATGAAAAAGCCGCTGGTTAGGCGGCTATTGAGGTTCGCGCGGCTTGTGGTCGAATCGG -TGCCACCCGTCAGTTAATTCAAATGGAGCATAACTTTCCCGGCGCTCAGCGAACCCAAGCTCAACAGACAGAGCGTGCAG -CTCATGCCGACGCTTAATCTGTTCCATCGCAATCCAGTCAGCATCGGCATTGCGCTTTTGAGCTTGCTTCGGCGACAGGT -CTAAACTGTTTATTTCACTTAGTTTCTGCTGACGCTTGATGTCCTGTTTCATATTGCGAAGCGCATTTATCATTGAGTCG -ATGCGCTTGATGTCGTCGATCATCCCCTTACCCTCTGTCGTTACCCGCTGATGCGGGAGAAATGCTTTGGCGATGTGGTA -GGTGGGAGACCCATTTCGACCCGATTCGGCCTACTTATCTTCGGCAATAGCTCCTCGGGCCTCGCCGCTTTACGTGCGAC -ATATTCCCGTCCATGAACCCTTCACCACATCCCATAACATTCCCTGTATTGGTCAGCGCCAACTCCCTGCCAGTGTTGCC -CGTTCTCACGCCGTTCTCGCTCTCGCGCGGGGATACTCTCTCACCGACCGGATCGCACCCGGTGATACAGCACGTTTACG -TGTAGGGGTCTTAACAGGTCATTGACGCTGTAAATCTGCATGTTGTTAAAAAGCAGGCGACTTGCTGTCCGCCGCTGGCT -AACTTCGCTCAGCTGTCGATGTTTCGTTTCGATGGAGTAATTAAACATCATGTGGATTTGTAGGTCAACACCTTGTGGAT -TTATTTTGTTGATTTAATCGTTTACTGTTGATTTTTATGTTGATTTATTTTTTGGTGGCATAAGTGATATGCTGAAAAAA -ACATCAAAAAGGAGTGGGTAATGGACTTGGATGAAGAAAGAGTGAACATGATGGTTCACGCCATGGGGCGGGCGGTCATG -GAGTTGTCACTGGCAGATTTACCTATGACCCAGCAAAACATCATCGACAAGCTGGAACGGTACCGGAAGGAAACGGGAAA -CGTGATAGGTAAGGGTGTGAACAGGGATGCAGCTGAGATAGTCAGGAAGGGTAGTAAAGCTGTGAAGTAGGCACAAAAAA -CCCGGCGCGGTGGCCGGTTGTTAAAGCTCAATATCAACTATGAAAAGTTTACTAATAGCCCCTTTTCTAACTGCTGCTTT -GGCAGTTACTTTTACCGCTGACTCATGACTTAGACCCGTTGACAGAAAACGACTAAGTGAAATGAGATACGGGTTGTCTG -CCTTTGAAGCAGATGGATCGCTTATTTGTGCTGAGATGCGCTTATCTGAATCATCACCTTCTATAATGACTTTAGCGGTC -ATTCGGTGAGCGTCGAATTCAGTAAGGAAGATTCGATACTCCCTTAAGCCAAGAACTTCGTCGTCGTCCAACTGGTCTAT -TACTGCTTTATCTTGCTCATCAATTACAGCAGGCTTGAAACCATTCCCCGGTGTGACGCTTATCTTATTACAGGTGGTAC -CGATGGGGGAAACTGCCTGTCTAACTGATGGGCGTAACTCACTAGCCATCTTGTCAATCACTGAGATTAGACCTGAGATG -GTATCTTTATCTTTATTTCCGAGGGCCTCAATTGCCTTCTCAAGTGCTTCTTTTAGGTATTTCATTTCCTCTTTCTTCTG -CGAGTTTTTAGCGAAGATATAAGGCACTAATGCGCCAAGTATAGCCCCCGCAGACCCTGAGAACAATTGAGACTGACTGA -TAAAATTCATGATAGTATCAAGAGAAAAACAATTGGCCCTAGCTTCGGTAGCGTAAATTTTAACCTCTTGAGTTGAGGTG -CTTCGCGAGTACTTTTGGGTTAATGCGAAGGTTCCAGCTGTAGCTAATATCTTCGAAAATCCCTTTAGCGATTCACCGAG -CGAAGAAAGTTCAATCTCATGCTTTTCAGCATCCAAACCGTCATATCTAAGTGAAAAATTAACATCGTGTAAGCCAGTGT -TTTCCATCAACAGTCCTTATATGCTTTCACCAAAACGTCTCATCAGGCCACCATAAGCACGATCGCAACAACCGAGAGCA -AAGTAACCACGCCTACTATCAGATATTCTCTCATCACCCAAACGTCTCTTCAGGCCACTAAAATTATCGGCGATATCGCA -ATACCGAGTACCAGAACACAAAACCGATTATCTCGACATCTGCCTCATCGGCCTCTTCGTCGTCATAATCACGATTAATG -CTTCTGATTAGAATTTTTCCGCCTGGTTTGCGATAAAGTTGCTTGATGCGCTTCAGATCTCCCTGGTTGATGGCGTAGAG -TTCGCCGTCAATAACTCGCTTATTACCAGTATCAACAGCTACAGTTGCACCATCAGGAATGACTGGCTCCATACTGTCTC -CTGATGCAGGAAAACACAGGACACCAGAACCATCACTATTGGCTCCAACTCGACGGAGCGTTGCTTTTGAAAAGCGCAAT -TTAAAACCGTTGTGATCCTCATCGTGTACTCGTCCATCACCACACGCAAACTCGATATCCTTCAGAAACGGTACTTCCAC -CTCATCGTCAGGTAGGGGGGTATTTTTGTCCCAAGCGTCGACAGTTCCCCACTCAGACTCTGGCGGGATGTTGCTCTCCA -GATCCTTCTTTGGAGAACCCTCTCCATTTAATAACCAGTCAAGAGAATAACCGAATTTTTCAGATATTTGTTGCGCCGCC -TCACGACTTAACGCGTCTCTTTTTATCCAGTTGTTGACGGTCTGTGGGCTAGTCGACAAAGCCTCAGCCAAATCCCGCTG -CTTCAAGCCTTCCCTTGCCAGTAAAAATTTAATTCTTTCAGAAATGCTGCTCATAAAACCCTCCGCTCCATGCATGGTAA -ACAACATGTGGATTTTTTCCATCACCATAATGTTGATTTAATCCACGCCATGAATTAACATGGTGTTGATTACACATGAG -CGGAGCAAAACATGATCAACAAAAAATCCAACGCCAGCACCCCGCTTGAGAAAGCCATTAATGCAGTGGGCGGCTCTCAA -AAGGTGCTTGCTGAAAAGGTCGGCGTAACGCCTCAGGCCATCAATATGCTTAAAAAGCGAGGTGGCAGCCTTCCAGTAAC -AAAAATGCGTAAATACGAAGAAGTAACCGGACTTCCTCGCGAAGTTCTATATCCAGGTATCTTTGCCGCCTAACCGGCGG -CTCTAACCACGAAATGGAAAGCAATGCATTCACTTGCGTATCAACACAATACCGGAATACACCCGGGAGCGATGATAAAC -CGCGCTCAACCTAAGGCGGAGCCAGGTCACGACAAAATCCGCGATGCGGTCCGTGCATGGTCGTCGTCCCTGGACAATCA -GGACGTAGTGTCAGCGCTGATCATCAACGAATACCGGGAGCAGGGCGGTACCGCCATCAGCTTCCCAGAAGACATCAGCA -GGGCGCGCCAGAAACTTTTTCGCTTTCTGGATAACCGCTTCGACTCCGATCAGTACCGCGAGAACGTTAGAGAACTGACC -CCGGCAATCATGGCTGTTCTTCCTGTTGAGTTTCGTACACGCCTGGCGCCGCAGAACGACACCATGTCGCTGATCGCATC -TGCCATGAAGGAATGTTCAGAAGCAAAGCAAGCCGTTCTCCTGAACGCGCCTGAGCACCAGAAAATGAAGGAGGTAAGCG -AGGGCATAGCGTCATTGTTTCGCCTCATGCCGGAGCAGGTAGGACCGCTGATGACGATGGTTACATCGATGCTGGGGGTT -ATATGAGAGGCACAAGAAAAGAAAAAGCCCTTGAAGCGGTAACTTCAAAGGCCCTTATCACACTGTGTTACGGCAAGTAA -CGGGAGTAAGTATGTCAAACACCGCTGAAATAATCAATTTCCCAAATAAAACCGAACAACCGGGAGGTCGTATGGCCGAC -CTGTCGAACGGGTATACCAAGGTCGCTAACGAGATCCAACAGCTTAAGCCTCGCCTGAGACTGTCAGGCCGGGAATGGCA -ATGTTTTGAGGCGGTGATCTGGCTTACCTACGGCTGGAACAAGAAACAGGACCGCGTGACAAATACGGTTATTGCCGAGC -TTACGGGCCTGAGCGATACGCATGTATCGGACGCGCTTAAGTCTCTCGCAGAACGCAAAATCATCTTTTCACAGAAGCAG -GGCATGATGAAAATCGTCGGTGTAAACACTGACCTTTCAGCATGGATTTTAGACAAACCGGAAACGGGAAGAAAATTCCC -GAAAACGGGAAAATCCTTCCCGAAATCAGGAATAACCTTCCCGAAAACGGTAGACACCCAATACAAGAACAAGAACAGTA -TTAAAAGATCTTCGTCCGAGAATTCTGACGAATCCTCTGACGCACGTCTGAAGAAATTTTTATCAACTCATCCTGAAGCT -GCGGTCTACACACCATCCGGTGCGAAGTGGGGCTCTGCTGAAGACCTCGAGACAGCTAAGTGGATTTCCTCCAGGGTGAA -GCTGATTAACCCAACCTGCAAAGCCCCGGACATGACCTCCTGGTCTAACACTGTTCGCCTGATGCGCCAGATAGACAACC -GGTCGCACCAGGACATCTGCGCGCTGTATGACTGGGCTAGCAAACACCACTTCTGGCAGACCAACATCCTGAGTCCCGAA -AGCCTGCGTAAGCAGTGGGACAAGCTGACAATGCAGCGTAACGCCGGAGGTGAGCAGCGCGCTGTCAAGCCAGATCTGGA -CTTCAACAACACTGACTGGGCCTATGGGGTGATCCGATGAAATCTCTTGCAGAGCAGATGCGTAACCACGACCGCGAGCA -GATGAGCCGCATGGCCCATAACCTGCCAGAGCAGTACCAGGAGTGCGCGCCGGTCGAGCAGGTGGCGCAGGTATTCAACA -AGCTGTTCAACGAGCTGCGCGCCGCGTTCCCGGCCAGCATGGCGAACTTCCGCACCCAGGAAGACCTGAACGAATTCCGC -CGTCAGTGGCTGCTGGCGTTTCAGGAGAACGGGATCCACACCATGGCTCAGGTCGATGCCGGCATGCGCATTGCCCGCCG -CCAGGAGCGCCCATTCCTGCCGTCGCCGGGCCAGTTCGTCGCCTGGTGCAAGCAGAGCGGCGGCGCGCTGGGCGTCAACG -TTGACCAGGTGATCGCCGAGTACTGGGAATGGCGTAATCGTTCGTTCGAATTCATCTCCAGCGAGCAATTTCCATGGTCG -CAGCCGGTCATGTACCACATTTGCGTAGAATTGCGCCACCGCAGCACCGAGCGCCAGTTAACGCATGGTGAACTGGCACG -CGAGGCAGGCGATCTGCTGGACATGTGGGAAAGGCGCGTCACCGAGGGTAAGCCAGTGCCGCCGGTACGCCGGGCTATTG -CCGCACCAGCTGCCGAGCAAGGGCCGACGCCGATCCAGCTGCTGCTGGCCAAGTACAACCGCAACAAGTCGAACGGGATG -GTGTGACATGAACATAACAATCCGCGGGCAGATTCTTGCAGCCCTGCGTAGGATACTGAGGACTAACCCATGAGCACCAT -TACCAAAGAATGGCTACTGAAGACTATCGCGGAGCTTGAAGAAGAGCGAGATGCTACGCCAGGCGCAGTGAACGAAGACG -CGGCGATGGCGCTCGCTGCGATGAAGCTAGCGCTGGCATCGCTCGAAGCGGAGCCTGTGGCGTGGCTACTGTCAGGCGGC -GGCGCAAAAAACAACGTCAGCTTCGATAGTGGCAATGCTTATGCCGCCCAGCTGCGAGAAGTAACGCCGCTTTACACCGC -CCCGCCAGCGCCGGTATCTGTGCCCGCTGCGATGGAAATTGATGATGACTTTGACAGCGCGTTTGAACACGGAAAAGCTG -TCGGCTGGAACGCCTATCGCGCCGCCATGCTTCAGGCCGAACCTGTAAGTAATAGTGATGAGTTACCGCTGGACTATCTG -CAAGGACACAAAGACGGCCTGGAGTGGGCTGCACAATTGGCAGAAGCCAATCATCCGCAAACAGGTGACTGGTTGTACGA -CGACCAAATCGAACTTGCCAGGGCGATTCGCAAAGGTCCGGATATGCCTACTGTTCAGGGTGGCAACTCTCCGGTGATTC -CAGATGGTTGGGTGATGGTGCCGGTTGAGCTTACTCCGGATATGCGTGCAGCATGGGATTCGGCTCCGTACACAGACGAT -GATGACAACGACATGCAGGCTGCATACCGCGCGATGATTGCAGTAGCACCGCAGTGGAAGGTGAAGTGATGCAGAACCCA -TTCGACGCATAACTAAACGTCAAGCAACGTTTGATAAAACACTATCAACGAGCCATAATAAATCTGCCAGCGGCCTGAAC -AACCCTGGCAGACTTCTGCGCATTTAAGGGGACTTAAATGCGACCACAATATGAACTTCTCACCTTGTCACAGATGCAGA -AATGCACCTGCGATTTTCTGTATTCTTCGGTTTCCGTCAAGGAGGCCGTATGATTATCCCCAAAGACGGCATCAAGCTAC -ACCGTGGAAATCTTGGTGCTATCACTCAGCATCTGAAGCCACTTCTCGAAAACGGTGAGTGCTTCCGGCTCCAACTCAAA -GACTGGCGCGAGAAGAGAAGCCTTTCACAAAATAGTCTGAGCCACGTTTGGTACAAGGAAATAAGCGACTACCTGATCAA -GTCTGGGCGCACTGACGCAACGCCTGCATGGGTAAAGCGAAACCTCAAAAAAACTTATCTGGGTTATGAAGAGGTTGAGT -ACACCGATTTCGTCACCGGAATTAAGACGATTGAATTAGAACTCCGCCACACGTCCGATCTGGACACTGGCGACATGCAC -CATTTCATGTGCCAGGTGGAAGGCTGGTGCGCTCAGTTTGGCCTGGTGCTCACAATCCCTCAAAGCAGCGAATTTCAGGT -GCTGCGCGATAAGCAGGAGGCCTGATGTCAACTCCACTTTCCCGCGTCATCACAAACGAAATCTTTCGCGTTCCGGCGCG -CCGCAAGCCTAAGCCCGCGGTTAAGCCATCCGATATCCCGACCCTGAAAGACTACACCGCCCGCCTGGTGGATCAGAAAT -GGCTGCGACTCGCGGCGAGGAGAAAATCTGCATGAGCATGTATCAACGCATTAATGGCGCTGACTGGCGCAATATTTTCG -TCGTCGGCGATCTGCATGGGTGCTACACGCTGCTGATGAATGAACTCGAAAAGGTTTCGTTCGACCCTGCGTGTGATTTG -CTGATTTCGGTTGGAGACCTTGTTGACCGCGGCGCGGAAAACGTCGAGTGCCTGGAGCTGATTACTATGCCTTGGTTCCG -GGCTGTGCGAGGTAACCATGAGCAGATGATGATTGATGGGCTATCGGAGTATGGAAACGTTAACCACTGGCTGGAAAACG -GCGGCGTGTGGTTCTTCAGTCTTGATTATGAAAAAGAGGTGCTGGCTAAGGCTCTGGTTCATAAATCGGCCAGCCTGCCA -TTCGTCATCGAGCTGGTTACCGCTGAACGTAAAATCGTTATCTGCCACGCTGACTACCCGCATAACGAATATGCGTTCGA -CAAGCCGGTCCCGAAAGACATGGTCATCTGGAATCGTGAACGGGTTAGCGACGCTCAGGACGGCATTGTCTCGCCGATAG -CTGGTGCTGATCTGTTTATCTTCGGCCACACCCCTGCGCGCCAGCCCCTGAAGTATGCCAACCAGATGTACATCGATACT -GGTGCCGTGTTCTGCGGAAACCTCACGCTGGTACAGGTTCAAGGTGGTGCCCATGCGTAAACCATCCCGCCGTAAGTGCA -AAGTATGCGGTGAATACTTCGTGCCGAAATTCCACGACATCCGGATCCGGTGGTGCAGCCCGGAGCATGGCGCAATCCTC -GCAATGGAAGAACGCAAGAAGGAGAAGGTGAAAGCCGCGGCTAAGCGCATCAAGGAGCAAAAAGAGGCTGAAAAGGACGG -GCGCAAACGCCGCAAGGAGCGGCTGGCAGAGCTCAGGCCAGACGGATACTACAAGGCTCAGGCTCAGAAAGCTTTCAACG -CCTTTATCCGTGCGCGCGACGCCGATTTGCCATGCATCAGCTGCGGCGAGACCAATCCGCCTGATCTGCATGGTGGCCAG -TGGGATTGCGGCCATTTCAAGACAGTAGGTGCTTACCCTGAACTGCGCTTTGAAGAACGCAACGCCCATAAGCAGTGCAA -ATCCTGTAATGCCGGAGCTGGCAAGTACACCGCCAAAGAGGCGACCGTGGCGCAGCAATACGAAGCTGGGTTGGTCGCTC -GTTACGGTCAGGGATACGTCAACTGGCTCAATGGTCCCCACGAAATGACCAACTACCGCCGTGAAGACTTCATCCGGATC -CGGGATGAGTACCGCGACAAGCTCAAAGCACTGAAACAGCGGGAGGCAGCATGAAACCAATGATATTCGATCTCAAGCTA -CCTCATTGGGCTTTTCTGCTTGAGTGTCCGTTCTGTGGCGGCGGCGCAGAACTTTTTTCTGATGGTGATGGTGTCTACGC -CGGTTGTTCAACAAAGCAATGCTTGATTAAGCCGATAACTGACACCTATCCAACAAAGCGCGATGCAATTCGCGCCTGGA -ATCGGAGGCCATCATGACCAGAGACGAGATAACCCGATACCAGGCCGAAAGCGTTAAGCGCGCCAGCATGCCGCCAATAG -TAAAGCACAGCCAGACCAAAACCCACCAGCCACAGAAGGAAGCCGCATAATGAACCTCGAATCAATCGCTAAATACTTTG -CGCCTAAATCACCGATGTTCAGTGACTCTCCTCGCGCAACCGCATCAGACAGTCTCACCGGCACTGACGTTATGGCGGCG -CTTGGCCTTGCTGGCCACAAGTGCGGGTTTGGTTTCGATCTTTACCTCTCGAAAATCGGCATTAGCAGCCCAGATATAGC -ACTGGAGAGACTCTATGAGCAGGCACGTAAGTTATCAGGTAAATTCAGAGCACTGTCTGAACTCGATGAATCAGCTCGGT -CAGGCGTGCTTAAGGTTCTCTGCGCTTTTGCATACCAGGATTATTCAAGAAGTGCTGCCAGCACTCGAAAATGTGATTGC -TGTGATGGTGGCGGATTTACAGAGGCGCAAGTGTTTACCAACAAGGTCTCATACCCATGGGGGAAACCGCCTTACTGGTC -GAAAATGTCGCGTGCCGTTCGCCCAAGCGACTGGGAGAGCTGGACACAGGCGCGTGAGGTGGTGCGAGTTAAGTGCAAGC -CGTGTAACGGAAAAGGCGTTATCAGCAATTCGTGTCGCTGCCATGGCAAAGGTAAGGTGCTGGACAAGGCAGAAAGCGAT -CGCCAGGGCGTTCCAGTAATGAAAGCCTGCGACCGCTGCGGTGGTAGAGGTTACGCCAGGCTTAAGTTCTCAACGGTAAT -TGAGGGCGTTAATACTGTTGCGGAGATAAAGAAAACGGCGGCATATGAGCAACTTCAGCCGCTATTTGAGGAGTTGGTCG -CCGAATGCCATAAACAGGAGTCTATGGCTGATTCCATTCTCTCAAAAGTAACGAGATGAAAATAATTTTCCCTAATGTTG -AAAATATATAGGAAATAGGTATTGCATTTCGCGGAAAAACTGGATAGATTCATCTCTAACGCTGGGAATACGTTCAGTCG -TTCCGAAGCCAAAAAAATTCAAGCCCGAGGTTAACGCCTTGGGCTTTTTTTATTTCTTTGTGGCCTAAATCGCTTCGAGC -CAAAAAAACGCGGAGAACGACATCACCCCTCTCCGCAATAACGACTCAATCTCATACCCGCTTGTCTTTCTTTTATCCAC -AAAGAGGTAAAGCCATAACTTAGTGGAAATGGTAACAGCTAAAAACTATTTGAAAAGCTAATTATTTTTTGCATCAACTG -GCTATTCTTAAGGATTGTTTAATTTTTTGCTTTCCTAGCGAGAAAGAAGCTCCGGAAACTATCAATCAATACAAGGCTGC -CGTTCGGCGGCCTTTTTTATTCCTAGCAACAGCACTCGCACAAAGCGAGGTGAGAGTATGTATCGCATGGACAAACTAAC -CACTGGTGCTGCCTATGGCGCTTCAGCCGGGAGCATCCTAAACGGCATGTTGAATGCCTACAGCCCCGAGCAGTGGAACG -CTATCGGCGTGCTGGTGGGTATCATCATTGCCGTAATGACGTATCTGACAAATCTCTATTTCAAAATCCGCGAAGACAAC -CGCCGCAGCAGGAGCCGAGATGAACCCAACGTTGAGGAATAAGCTGGTGGGTGCCATTGTTGGCGGATCAGGGGCAATCA -CTATTGCTGCAGTAATGCTGGGCAATGCGGATGGACTCGAAGGTCGGCGTTATTACGCCTATCAGGATGTGGTCGGCGTC -TGGACCGTTTGCGATGGGCACACTGGTACCGACATTCGCCGCGGTCACCGATATACCGACAAAGAGTGTGACAACCTGCT -TAAGGCAGATCTGCGAAAGGTGGCAAGCGCCATCGACCCGCTGATCAAGGTTCGCATCCCTGAGCCAACCCGCGCCGCGC -TTTACTCCTTCACCTATAACGTTGGCTCTGGTGCTTTTGCCAGCTCGACGCTGCTGAAGAAGCTGAACTCCGGTGATGTT -CCGGGTGCGTGTAAAGAACTGCAGCGCTGGACTTATGCTGGCGGCAAGCAGTGGAAGGGGCTGATCACCCGGCGCGAGAT -TGAGCGTGAAGTCTGCGAGTGGGGCCAGAAATGAGCCGATTAACCGCAATCATCTGCGCTGTCGTTATCTGCCTGCTGGT -TTCCATGGCCTGGGCCATTAACCACTACCGCGACAACGCCATCACCTACAAAGACCAGCGCGACAAAGCCACCAAAAGTC -TCCGCCTGGCTAACGACACCATCAAAGACATGCAGACCCGTCAGCGTGATGTCGCTGCACTGGATGCCAAATACACCGGA -GAACTGGCTGATGCGAAAGAAACCATTGAGCGTCTGCATAGCGATGTCATTGCTGGCCGTAAGCGGCTGCAAGTCGCCGC -CACCTGTGCAAAGTCAACGACCGGAGCCAGCAGCATGGGCGATGGAGAAAGCCCAAGACTTACAGCAGATGCTGAACTCA -ATTATTACCGTCTCCGAAGTGGAATCGACAGGATAACCGCGCAGGTTAACTACCTGCAGGAATACATCAGGACGCAATGC -CTGAAATAATTTTTTTGCAAATCACAAAGTCAATTTAATGAGCCTCGCGATGCGGGGCTTTTTTATGTCCGCAGTAAACG -CGCATCTCACGCGCATATTAACGAGAGCCTTTCAGTAAGCGAGCCTGAGAAATGCCGTTATAGGTGGCGACCTCTCTCGG -GCGGCTTTTCTGTGAGACAGGCTCACTTTCTAAAAGGTAAAGACGCTATGAATAATCCGTCAGTTATTCCGGCCTTCGAC -TTCCGCGAAATGGTCACGACCCTCGACAACAAGATAATCACCACATCACTCAAGGTGGCGGATTACTTTGGCAAGCGACA -CAAAGACGTTTTGCGTGCCATACGTAACCTGAAATGCTCCGATGACTTCACCCAGCGCAATTTTGCGCCCATTGATTTCA -TTGATAAAAATGGCGATGTTCAGCCTATGTATAACATCACCCGCGACGGATGCATGATGCTAGTGATGGGATTCACTGGC -AAAACAGCTGCCGCAGTGAAGGAGTGTTACATCAATGCCTTCAACTGGATGGCCGAGCAGCTAAACCGGCGCATGGCGAT -GGGTGAAGAATTGCAGCATCGCTACGCCATCAAAGAAACGCGCTCAAAGCTGAAAGGCACGATCGGAAGCCGTTTGATGA -ACGAGCGGAAGAAAGAGAAGCGCGTCCTGGAGCTCGAACATGAGCACATCATGCAGGTAACGCAGCCAGAATTGTTGATT -GGCTGATCGCGGCATTACAGCAGGCATTCACTGAGTGCCTGTGATAATGCAACAGCCCGTACAAAACGGGCTTGGATTTA -TCTCTTTGTTGCGTTCATGGTCACATGGTAAACGAATTGGCTAAATTGGTTATCCCAGCGCCCATTATGATTAGCTGCAA -CTAATTGCATTAACGCCTGCATTAACTTGCTGAACAGCAAGATTAACTTAAGTCTGTTTTTTGAACTGTCACTATCTAAG -GAAACTTCTTCGGTTAATTGATTCTCGGCGTTAAAAATACCCAGTTTTGATTCTTCCATGCTGGGTTCCGTTGGATGCTG -TTTAAAGTATTCAGTCAGAGTATCCTTCAGGCTCTGGATCCTTGAATCAGCAATGCTTTGTATTGATGGATTGTGTGCAA -GGTCATTACGCATTGAGTTGATGGTTTTAAGTGATTTCATAAGTTCCGGGGGGATTCCCAGGTTTCCCGCCATGGATATT -TTAGTATTACATTCGATTAAAAGTTTGTTTTTATCTCTTCCAAAGAGATCTTGGCAGTCACAGCATGCGCATATCCATGC -TTCGACCATGCGCTCACAAAGTAGGTGAATGCGCAATGTAGTACCCACATCGTCATCGCTTTCCACTGCTCTCGCGAATA -AAGATGGAAAATCAATCTCATGGTAATAGTCCATGAAAATCCTTGTATTCATAAATCCTCCAGGTAGCTATATGCAAATT -GAAACAAAAGAGATGGTGATCTTTCTAAGAGATGATGGAATCTCCCTTCAGTATCCCGATGGTCAATGCGCTGGATATGG -GATAGATGGGAATATGCTGATTTTTATGGGACAGAGTTGCGAACTGTTCCCAACTAAAATCATTTTGCACGATCAGCGCA -CTACGAACTTTACCCACAAATAGTCAGGTAATGAATCCTGATATAAAGACAGGTTGATAAATCAGTCTTCTACGCGCATC -GCACGCGCACACCGTAGAAAGTCTTTCAGTTGTGAGCCTGGGCAAACCGTTAACTTTCGGCGGCTTTGCTGTGCGACAGG -CTCACGTCTAAAAGGAAATAAATCATGGGTCATAAAATTATCACGTTGTCCGGCGCGGCGACGGATGTTCTGTATGCGCT -GTTTTTCCGTGGCGCGTTGCTGTCTGGTGATCTGCCTTCTAAATCTGGCACAGCCGAATTGCGCGAGCTTGGTTTTGCTG -AAACCAGACACACAGCAACTGAATACCAGAAAGAAAATCACTTTACCTTTCTGACATCAGAAGGGCAGAAATTTGCCGTT -GAACACCTGGTCAATACGCGTTTTGGTGAGCAGCAATATTGCGCTTCGATGACGCTTGGCGTTGAGATTGATACCTCTGC -TGCACAAAAGGCAATCGACGAGCTGGACCAGCGCATTCGTGACACCGTCTCCTTCGAACTTATTCGCAATGGAGTGTCAT -TCATCAAGGACGCCGCTATCGCAAATGGTGCTATCCACGCAGCGGCAATCGAAACACCTCAGCCGGTGACCAATATCTAC -AACATCAGCCTTGGTATCCAGCGTGATGAGCCAGCGCAGAACAAGGTAACCGTCAGTGCCGATAAGTTCAAAGTTAAACC -TGGTGTTGATACCAACATTGAAACGTTGATCGAAAACGCGCTGAAAAACGCTGCTGAATGTGCGGCGCTGGATGTCACAA -AGCAAATGGCAGCAGACAAGAAAGCGATGGATGAACTGGCTTCCTATGTCCGCACGGCCATCATGATGGAATGTTTCCCC -GGTGGTGTTATCTGGCAGCAGTGCCGTCGATAGTATGCAATTGATAATTATTATCATTTGCGGGTCCTTTCCGGCGATCC -GCCTTGTTACGGGGCGGCGACCTCGCAGATTCTCGCTATTTATGAAAATTTTCAGGCATTTGCCGTTTCCGTTCTTCTTC -TCGCTAATTCATTGTTTTAACTGTAAACACCCCCTGAAAAGAAAGGAAATGATAAGCCTTAAAAACGGCTAAATAGCCAG -AGGGCGTTTCCTTTCTCTGTTTTTGTGTATGGAGTGAGCTATGGAGGTCAACAAAAAGCGTCTTTCTGAAATATTTGGGG -TCAGCGTGCGAACCATTCAGAACTGGCAGGATCAGGGAATGCCTGTAGCACGTGGCGGTGGAAAAGGTAATGAGGTCCTC -TATGAATCTTCCGCGGCTATCGAATGGTATTCCGCACGCGACGCGGCGATTGAGAATGAGAAATTACGGAAGGAGGTGGA -AGACCTTCGTCTTGCATCGGAATCCGACCTTCAGCCTGGTACGATTGACTATGAGCGTCACCGCCTCACCCGAGCGCAGG -CAGATGCCCAGGAACTAAAAAATGCAAAAGATTCCGCTGAGGTGGTGGAAACCGCATTCTGCACGTTCGTGCTGTCGCGG -ATGGCCGGAGAAGTAGCCAGCATTCTTGATGGAGTTCCTCTGTCGGTTCAGCGGCGCTTCCCGGAGCTGGAAAACCGACA -TATTGATTTCCTCAAGAAGGACATCATTAAAGCCATGAACAAAGCAGCTGCGCTGGATGAAATAATACCGGGGTTGCTGA -GTGAATATATCGAACAGTCAGGTTAAGGGGCTGCAGCACTCTGCGCGCGCGGGTCTACTTTCGCTGTACCGACCTGAGCC -GCAAACGGCGGTTGAATGGGCAGACGATAATTACTATCTCCCCAAAGAGTCGGCCTACCAGGAAGGGCGCTGGGAAACGT -TGCCGTTTCAACGCGCGATCATGAATGCGATGGGTAACGATTACATACGTGAGGTCAACGTTGTTAAGTCTGCCCGTGTT -GGCTATTCAAAAATGTTGCTGGGTGTTTATGCGTATTTTATTCAGCACAAGCAGCGAAATTCCCTTATCTGGCTGCCTAC -TGATGGTGACGCCGAAAACTTTATGAAGTCGCATGTTGAGCCGACGATTCGCGATATTCCGTCACTTCTGGCGCTGGCCC -CCTGGTATGGAAAAAAGCACCGGGACAATACGCTCAGTATGAAACGCTTCTCCAACGGTCGCGGGTTCTGGTGTCTGGGT -GGTAAAGCGGCGAAAAACTATCGTGAGAAATCGGTCGATGTCGCCGGTTACGATGAACTGGCGGCATTCGATGAAGATAT -TGAGAAAGAGGGATCCCCGACGTTCCTGGGTGATAAACGTATTGAGGGGTCTGTCTGGCCCAAATCTATTCGCGGCTCAA -CGCCAAAAACAAAGGGGACCTGCCAGATTGAGCGTGCTGCCAGCGAGTCCGGGCATTTCATGCGTTTTCATGTTGCCTGT -CCGCACTGTGGTGAAGAGCAGTACCTTAAATTCGGCGACAAAGAGACCCCGTTCGGGCTGAAATGGACACCGGGCGAACC -CTCCAGCGTCTTTTACCTGTGTGAACATAATGCCTGCGTCATTAAGCAGCAGGAGCTGGATTTCACTGAAGCTCGTTACA -TCTGCGACACCACCGGGATCTGGACGCGCGACGGTTTATCCTGGTTTTCATCAACAGGCACCGAAATCGACCCGCCAGAC -AGCGTGACGTTTCACATCTGGACGGCATACAGCCCGTTTACCACCTGGGTTCAGATCGTTAAAGACTGGCTAAAAACGAA -AGGGGATACAGGAAAGCGTAAAACCTTCGTGAACACCACTCTGGGCGAAACATGGGAGCCTAAAATTGGTGAACGGCCTG -ACGCGGAGCTCATGGCCGAACGCAAAGAGTTCTTCGGGGCATCCGTACCGGAGCGTGTTGCTTATCTGACAGCCGGGATC -GACTCCCAACTGGATCGATATGAAATGCGCGTCTGGGGATGGGGGCCCGGTGAGGAAAGCTGGCTGATTGACCGGCAGAT -CATTATGGGCCGTCATGATGATGAAGCGACCCTCGTCAGGGTGGACGAGGCGATTAACAAAACCTATCTCCGAAAGAATG -GCGTGGAAATGTCGGTATCCCGTATCTGCTGGGATATCGGCGGTATTGACCCCACCATCGTCTACAACCGCTCAAAAAAA -CACGGTCTGTTTCGTGTGATCCCTATAAAGGGGGCGTCGGTTTATGGAAAGCCGGTGGCGAACATGCCACGCAAGCGTAA -CAAGAATGGTGTTTACCTCACAGAGGTAGGAACAGACACCGCAAAAGAGCAGATTTATAACCGTTTCACGCTGGTGGCGC -AAAGAGACGAGCCGCTGGCGGGAGCGGTTCATTTCCCGAATAACCCAGAAATCTACGATCTAACAGAGGCCCAACAACTA -ACAGCTGAAGAGCAGGTGGAAAAATGGGTAGACGGAAAGAAAAAGATCGTCTGGGACAGCAAAAAACGACGAAATGAGGC -GCTCGATTGCTTTGTTTATGCACTGGCGGCGCTGCGTATAAGCATATCCCGCTGGCAGCTTAACCTTGATTCACTTCTTG -CCAGCCTGCTGGAGGAAGAAGGCACCCGTAACAATAACAAGACCCTGGCGGATTACGCGCGGGCATTGTCTGGAGAGGAA -TAATGGCAACACAGACTGAACTGGATGCCGCGCGCGCTGCGTTACATGACCTGATGATGGGAAAGCGCGTGGCGACGGTA -CAGAAAGACGGTCGAAGAGTGGAATTTACAGCTACCTCAGTCACCGATCTCAAAAAGTATATTGCTGACCTTGAATCTCA -GGTTGGTACCACATCACGACGCCAGGGGCCTGCAAGGTTTTACGTATGAAAATACCATCTTTAGTGGGTCCTGACGGGAA -AACATCCCTCCGGGAATACGCGGGGTATCATGGCGGCGGCGGAGGGTTTGGTGGTCAGTTGCGGGGCTGGAATCCACCAA -GCGAAAGTGCTGATGCGGCTCTTCTGCCTAACTTCTCGCGCGGAAATGCCCGTGCTGACGATCTGGTCAGAAATAATGGC -TATGCGGCAAACGCCGTGCAGCTCCACCAGGACCACATCGTCGGGTCATTTTTCAGACTCAGCTATCGACCGAGCTGGCG -CTATCTTGGCATCAATGAGGAGGATTCACGCGCATTTTCGCGGGATGTAGAAGCCGCCTGGAACGAGTATGCCGAGGACG -ACTTTTGCGGGATTGATGCCGAGCGTAAGCGAACGTTTACGATGATGATCCGAGAAGGTGTGGCCATGCACGCGTTTAAC -GGTGAATTATGCACGCAGGCGACCTGGGACAGCGATTCAACGCGTCTTTTCCGTACTCAGTTCAAAATGGTCAGTCCGAA -GCGCGTCAGCAATCCGAATAATATCGGTGATACCCGGAACTGTCGCGCCGGTGTGAAAATAAATGATAGCGGTGCTGCGC -TGGGATATTACGTCAGCGACGATGGTTATCCCGGCTGGATGGCGCAGAACTGGACCTACATTCCTCGCGAACTACCCGGC -GGTCGACCTTCATTTATCCATGTATTCGAACCGATGGAGGATGGACAGACCCGTGGGGCCAATGCGTTTTACAGCGTGAT -GGAGCAGATGAAAATGCTCGATACCCTGCAAAATACCCAGCTCCAGAGCGCGATAGTGAAGGCTATGTATGCCGCTACCA -TCGAGAGTGAACTGGATACCCAATCGGCGATGGACTTTATTCTCGGCGCGGATAATAAAGAGCAGCAGAGCAAACTTACG -GGCTGGCTCGGTGAAATGGCGTCCTATTACTCAGCTGCGCCTGTTCGCCTGGGTGGGGCAAGGGTTCCACACCTGTTGCC -GGGTGATTCTCTCAACCTTCAGTCGGCGCAGGATACCGATAACGGCTACTCGACTTTTGAACAGTCCCTGCTGCGTTATA -TTGCCGCTGGGCTTGGTGTGTCGTATGAGCAGCTTTCGCGAAACTATTCGCAGATGAGCTACTCGACCGCACGCGCAAGT -GCTAACGAGTCCTGGGCGTACTTTATGGGGCGTCGCAAGTTTGTGGCATCCCGACAGGCCTGTCAGATGTTTCTTTGCTG -GCTTGAAGAGGCGATTGTCCGCCGCGTGGTCACGCTTCCTTCGAAAGCCCGGTTCAGTTTCCAGGAGGCGAGAACAGCCT -GGGGGAATGCCAACTGGATTGGCTCTGGTCGAATGGCAATTGACGGGCTGAAAGAGGTACAGGAGGCCGTCATGCTCATT -GAGGCAGGTCTCAGCACGTATGAAAAAGAGTGCGCCAAACGCGGTGATGATTATCAGGAGATTTTTGCCCAGCAGGTCCG -GGAAACCATGGAGCGTCGTGCTGCGGGTCTGAAACCACCGGCATGGGCCGCTGCAGCTTTTGAGGCCGGAGTGAAAAAAT -CAAACGAGGAGGAGCAAGATGGCGCACGAGCTGCGTAATCTTCCGCATATTGCCAGTATGGCCTTTAATGAGCCGCTGAT -GCTTGAACCCGCCTATGCGCGGGTTTTCTTTTGCGCGCTGGCTGGCCAGTTGGGCATCACCCGGCTGACAGATACCGTCT -CTGGCATCACGCTTGATGCCGGACAAATAGCCGAACCGCTGGCGCTGTTTGGTGAGGATGATGACATGGATCCCCGTCCA -TCACGCAGCTATCAGGTGGCAAATGGTATCGCGGTCTTGCCGGTTTCCGGCACGCTGGTCAGTAAAACCCGTGCGCTTCA -GCCTTATTCCGGGATGACGGGTTACAACGGGATCATTGCTCGCCTGCAGCAGGCAATCAGTGACCCCGGCGTTGACGGCA -TTCTTCTGGATATGGATACGCCGGGTGGAATGGTGTCCGGGGCGTTTGACTGCGCCGACATTATTGCCCGTATGCGCGAT -ATCAAACCCATCTGGGCGCTGGCCAATGACATGAACTGCAGTGCAGGTCAGCTTATTGCCAGTTCGGCATCGCGACGGCT -GGTCACACAAACGGCCAGAACCGGCTCCATTGGGGTCATGATGGCGCACAGTAACTATGGCGCTGCGCTCAAAACTAACG -GCGTTGAGGTCACGCTGATTTACAGCGGCGATCGCAAGGTCGACGGCAACCCTTACGAAAAGCTTCCGAAAGATGTGCGT -GCTGATTTCCAGACGCGTATCGATGCCACTCGTCAGATGTTTGCCGAAAAGGTTTCCGCTTATACCGGCATGTCTGTTCA -GGACGTGCTGGACACCGAAGCGGCAGTATTCTCCGGCCAGGAATCTTTGGATAACGGGCTGGCGGATGAACTTGTTAACA -ATACCGATGCGCTCGGCGTGATGCGCGAAGCACTCGACAGACGCAAAAAAACAACCCTTGGAGGAACTATGCCATCACCT -TCTGCATCAGCTGTGACCACTAAGCCAGTTGACCAGGCAGCAACTCAGACAACTGCATCAGCTGAACAGGCCACTACCGT -TGACACGACAATTGCTTCCGTAGCAGCCCCTGTAGATGTCAGTGCGCAGGTTACTGCAGCAGTAGCTGCAGAGAATAGTC -GCATCATGGGCATCCTGAACTGCGACGAGGCTAAAGGGCGTGAGTCACAGGCGCGAGCACTGGCCGAAACGCCGGGTATG -ACGGTAGAGAGCGCACAGCGCATTCTGGCTGCTGCACCGCAAAGTGCCCAGATGCGTACCGATACGGCGCTGGATCGTTT -GATGGAAACAGCACCCGGTGCACTCCAAGCAGGTAGCGCATCTTCTGATGCCGCTGACGATTTGTTAAACACCCCCGTTT -AAGAGGCTATCATGGCAATTACTGAAGTTTTCACACATAACCAGCCGCTCGGTAACAGCGACCCGGCGCACACTGCGTAT -GGTCCTGGCGAACTGACGGCTTCCACTCCAGCCATGACGCCGCTCATGCTGGATGCCACTTCTGGCAAGCTGACCGTCTG -GGATGGTGCTCATGCTGGCGCGGCAATGGGCATCCTGGCTGTAACCGCAGACCAGAACAGCGCGGAACTGGCATATTACA -AATCTGGCTCTTTCCGTATTGAAGATGTCCTCTGGCCATCTGCCGTCACCGACGACAACATTAAACGTAACGCGTTCGCC -GGTACTGCAATCAGCATCGTTTAATCCGCATTTCTACAACCATCATCATTCATAAAAGCCGCTTGCGCGGCTTTTTTTAC -GGGAAAAATCTATGTCCGTTTACACCACTGCCCAACTGCTGGCGGTCAATGAGAAGAAATTCAAATTCGATCCGCTTTTC -CTGCGTATCTTTTTCCGCGAAACCTATCCCTTCAGTACAGAGAAGGTTTACCTGTCGCAAATTCCTGGCCTGGTCAATAT -GGCGCTTTACGTCTCGCCGATTGTCTCCGGCAAAGTGATCCGCTCCCGTGGCGGCAGCACGTCTGAATTCACGCCGGGTT -ATGTGAAGCCGAAACACGAAGTTAACCCACTGATGACTCTCCGCCGCCTGCCGGATGAGGATCCGCAGAATCTCGCTGAC -CCGGTCTATCGCCGTCGCCGCATTATCCTTCAGAACATGAAGGATGAAGAGCTGGCGATTGCTCAGGTCGAAGAGAAACA -GGCTGTTTCGGCGGTGCTCAGCGGTAAATACACCATGACCGGGGAAGCGTTCGAGCCTGTTGAAGTCGATATGGGCCGCA -GCGCTGGTAACAACATTGTCCAGGCCGGTGCGGCTGCATGGTCAACCCGCGACAAAGAAACGTATGACCCGACCGATGAC -ATTGAAGCCTACGCGCTCAACGCCAGCGGTGTGGTCAACATCATTGTGTTCGATCCGAAAGGCTGGGCGCTGTTCCGTTC -CTTCAAGGCTGTTGAGAAGAAGCTGGATACGCGTCGTGGTTCTAACTCTGAGCTGGAAACTGCCGTGAAAGACCTGGGTA -TGGCTGTTTCATACAAGGGGATGTTTGGCGATGTGGCAATCGTGGTGTACTCCGGCCAGTACGTCGAAAACGACGTCAAA -AAGAATTATCTGCCGGACCTGACAATGGTGCTGGGGAATACCCAGGCTCGTGGCCTGCGTACCTATGGCTGCATTCTTGA -TGCTGATGCCCAGCGCGAAGGTATCAATGCCTCGACACGCTACCCGAAAAACTGGGTGCAGTCGGGGGATCCGGCGCGCG -AATCCACCATGATTCAGTCACAAATTAACCGCAATATTCGTCTTGATCTTGCCGATGCCATTTTGCTCAGCAAAGCTAAA -AAAGATCTCTCATTTGCCGAGATTGCCGACGGCACCGGTCTGGCAGAAGCCTTTGTAACCGCGGCTTTGCTGGGTCAGCA -GGCGCTTCCTGCCGACGCCGCCCGCCTGGTCGGGGCGAAGCTGGATCTCGACGAAGACTCCATTCTACTGTTGCAGATGA -TTCCACTGCGTGGCTGCATTGATGACCGTATTCCAACTGACCCAACGATGTATCGTTTCTATGAAATGTTGCAGGTGTAC -GGTACAACCCTGAAAGCGTTGGTTCATGAGAAATTTGGCGATGGCATTATTAGCGCGATTAACTTCAAACTCGACGTTAA -GAAAGTGGCGGACCCGGAAGGTGGCGAACGTGCGGTCATCACCTTAGATGGTAAATATCTGCCGACCAAACCGTTCTGAC -AGCCATGCGCAACCATCAAAAGACGTTCACGATGCTGCTGGTACTGGTGCTGATTGGTCTTAATATGCGACCACTGCTCA -CCTCCGTCGGGCCACTGCTACCGCAATTGCGCCAGGCGAGCGGAATGAGCTTTAGCGTGGCTGCCCTGTTGACCGCTCTG -CCGGTGGTTACCATGGGCGGGCTGGCGCTGGCCGGAAGCTGGCTTCATCAGCATGTCAGCGAACGTCGCAGTGTCGCCAT -CAGTCTGTTGCTGATTGCCGTCGGTGCATTGATGCGTGAGCTTTACCCGCAAAGTGCGCTGCTGCTTAGCAGCGCACTGC -TTGGTGGGGTGGGGATCGGCATCATTCAGGCGGTGATGCCTTCGGTGATTAAACGGCGGTTTCAGCAGCGCACGCCACTG -GTGATGGGGCTGTGGTCCGCGGCTCTGATGGGCGGCGGTGGGCTTGGTGCCGCCATAACGCCCTGGTTAGTTCAACATAG -CGAAACCTGGTATCAAACACTCGCCTGGTGGGCGCTGCCTGCCGTTGTTGCGCTCTTTGCCTGGTGGTGGCAAAGCGCCC -GCGAGGTCGCCTCTTCCCACAAGACAACAACCACTCCGGTTCGCGTGGTATTCACTCCCCGCGCGTGGACGCTGGGTGTT -TACTTCGGTCTGATTAACGGCGGTTACGCCAGCCTGATTGCCTGGTTACCCGCTTTCTATATTGAGATTGGTGCCAGCGC -GCAGTACAGCGGTTCCTTACTGGCATTGATGACGCTTGGGCAAGCCGCAGGAGCTTTGCTGATGCCTGCTATGGCTCGCC -ATCAGGATCGGCGCAAACTGTTAATGCTGGCGCTGGTGTTACAACTGGTGGGGTTCTGCGGCTTTATCTGGCTGCCGATG -CAATTGCCGGTATTGTGGGCGATGGTGTGTGGGTTAGGTCTGGGCGGCGCGTTTCCGCTCTGTTTGCTGCTGGCGCTCGA -TCACTCTGTGCAACCGGCTATTGCTGGCAAGCTGGTGGCGTTTATGCAGGGAATCGGTTTTATCATCGCCGGGCTTGCCC -CGTGGTTTTCTGGCGTGCTGCGTAGTATCAGCGGCAATTACCTGATGGACTGGGCATTTCATGCGCTGTGCGTCGTTGGG -CTGATGATCATAACCCTGCGTTTTGCACCAGTACGTTTTCCGCAGCTGTGGGTCAAAGAGGCATGATGCGACGCTTGTTC -CTGCGCTTTGTTCATGCCGGATGCGGCTAATGTAGATCGCTGAACTTGTAGGCCTGATAAGCGCAGCGTATCAGGCAATT -TTTATAATTTAAACTGACGATTCAACTTTATAATCTTTGAAATAATAGTGCTTATCCCGGTCGTTTATTTCGCGAATAAC -CCGACAAGGAACGCCAGCCGCCACGACGTTTGGTGGAATGTCTTTTGTGACGATACTACCCGCGCCAATAACAGAATTAT -CCCCGATGGTGACGCCTGGATTAATAACCACATGACTTCCGATCCAGACGTTATTGCCAATCGTTATCGGAAAAGAGTAC -ATCTCGCCGTTTTTTCTCAATTCATGGTGTACAGGGTGTCCCGTAACGGAAAGAGTAACGTTGGGTGCAATCAGTACGTT -ATCACCGATTGTTACCGTGTAGTCATCGACAATGGTTAAATTGAAATTTGCATAAAAATTGCGGCCTATATGGATGTTGG -AACCGTAAGAGAAATAGACAGGCGGTTCTACCCAGGCGTTTTCCCCTACCGTGGCAAACATTTCTTTAATCAGGCTTTCT -CTTTTTTCAACTTCTGATGGATGCGAGTGATTAAACTCATACATTAACGTTTTCCCACGAAGTCTTTTTTCCGGTAAGCC -TTCGCACATATCGGTAAATAGCTTGCCTGCTCTTATTCTTTCGGTCATTGGCATGTTCAATGCGATCACTCCGTTATGAT -ATGTTGGTCGGATAAGGCGCTCGCGCCGCATCCGACATTGATTGCTTAAGCGACTTCATTCACCTGACGACGCAGCAGGG -AAAGCGGGCCGGGGCCGCTAAGCGTGAACACGGAAATTAAGGTGAAGCCCAGCGCCACCAGACCCAGCACCAGATAAGCG -CCCTGGAAACCGATGCTTTCATACATATTGCCCGCCAGTACAGACATAAAAATCATCGCCAGTTGCTTAAAGAAGCAGAA -ACAGACCAGATAAATCGTCGCTGAAAAACGCACTTCAAACTGGCTGGTAATATATTTAAAGCAGCCCACCAGCAGGAACG -GTACTTCAAACATATGCAGCGTTTTCAGAATAACCACTTCCAGCGCTGAGGTGGCGAACGATGAGCCAATAATACGTACA -GACATAATAGTGCCAGCCAGCAGCAGGGCGTTTTTCCCACCGATGCGATTAATGATCAGTGGCGCAAAGAACATAATCGA -GGCGTTAAGTAATTCGCCCATTGTCGTTACGTAGCCAAATACCCGCGTACCCTGTTCACCGGTAGCAAAGAACGAAGTAA -AGAAATTAGCAAACTGTTGGTCAAAAACATCGTAGGTGCAGGAAACGCCAATAACATACAGTGACAAAAACCACAGTTTT -GGCTGTCTGAACAGTTCCAGTGCCAGCTTAAGGCTAAATGCCGAATGGTTGGCACCTACCGCATTGGCAACCGTGGCAGA -AGAGGGCGCATCCGTTTTGGCGAAAAAGAGTAAAACGGCGAGGATGAGTGCACAGCCAGAGCCCAGCCAGAAAACAAACT -GATTATTGATGGTGAACATGATGCCGACAATCGAGGCACACAGCGCCCAGCCAACACAGCCAAACATCCGCGCGCGACCA -AATTCGAAATTACTGCGACGGCTGACTTTCTCAATAAATGCCTCTACTGCTGGCGCACCGGCGTTAAAACAAAAGCCTAG -ATAAATACCACCAACAATCGATCCTACTAAAATGTTGTATTGTAACAGTGGCCCGAAGATAAAAATAAAGAACGGCGCAA -ACATCACTAACATGCCGGTAATAATCCACAGCAGGTATTTGCGCAGCCCGAGTTTGTCAGAAAGCAGACCAAACAGCGGT -TGGAATAATAGCGAGAACAGAGAAATAGCGGCAAAAATAATACCCGTATCACTTTTGCTGATATGGTTGATGTCATGTAG -CCAAATCGGGAAAAACGGGAAGTAGGCTCCCATGATAAAAAAGTAAAAGAAAAAGAATAAACCGAACATCCAAAAGTTTG -TGTTTTTTAAATAGTACATAATGGATTTCCTTACGCGAAATACGGGCAGACATGGCCTGCCCGGTTATTATTATTTTTGA -CACCAGACCAACTGGTAATGGTAGCGACCGGCGCTCAGCTGGAATTCCGCCGATACTGACGGGCTCCAGGAGTCGTCGCC -ACCAATCCCCATATGGAAACCGTCGATATTCAGCCATGTGCCTTCTTCCGCGTGCAGCAGATGGCGATGGCTGGTTTCCA -TCAGTTGCTGTTGACTGTAGCGGCTGATGTTGAACTGGAAGTCGCCGCGCCACTGGTGTGGGCCATAATTCAATTCGCGC -GTCCCGCAGCGCAGACCGTTTTCGCTCGGGAAGACGTACGGGGTATACATGTCTGACAATGGCAGATCCCAGCGGTCAAA -ACAGGCGGCAGTAAGGCGGTCGGGATAGTTTTCTTGCGGCCCTAATCCGAGCCAGTTTACCCGCTCTGCTACCTGCGCCA -GCTGGCAGTTCAGGCCAATCCGCGCCGGATGCGGTGTATCGCTCGCCACTTCAACATCAACGGTAATCGCCATTTGACCA -CTACCATCAATCCGGTAGGTTTTCCGGCTGATAAATAAGGTTTTCCCCTGATGCTGCCACGCGTGAGCGGTCGTAATCAG -CACCGCATCAGCAAGTGTATCTGCCGTGCACTGCAACAACGCTGCTTCGGCCTGGTAATGGCCCGCCGCCTTCCAGCGTT -CGACCCAGGCGTTAGGGTCAATGCGGGTCGCTTCACTTACGCCAATGTCGTTATCCAGCGGTGCACGGGTGAACTGATCG -CGCAGCGGCGTCAGCAGTTGTTTTTTATCGCCAATCCACATCTGTGAAAGAAAGCCTGACTGGCGGTTAAATTGCCAACG -CTTATTACCCAGCTCGATGCAAAAATCCATTTCGCTGGTGGTCAGATGCGGGATGGCGTGGGACGCGGCGGGGAGCGTCA -CACTGAGGTTTTCCGCCAGACGCCACTGCTGCCAGGCGCTGATGTGCCCGGCTTCTGACCATGCGGTCGCGTTCGGTTGC -ACTACGCGTACTGTGAGCCAGAGTTGCCCGGCGCTCTCCGGCTGCGGTAGTTCAGGCAGTTCAATCAACTGTTTACCTTG -TGGAGCGACATCCAGAGGCACTTCACCGCTTGCCAGCGGCTTACCATCCAGCGCCACCATCCAGTGCAGGAGCTCGTTAT -CGCTATGACGGAACAGGTATTCGCTGGTCACTTCGATGGTTTGCCCGGATAAACGGAACTGGAAAAACTGCTGCTGGTGT -TTTGCTTCCGTCAGCGCTGGATGCGGCGTGCGGTCGGCAAAGACCAGACCGTTCATACAGAACTGGCGATCGTTCGGCGT -ATCGCCAAAATCACCGCCGTAAGCCGACCACGGGTTGCCGTTTTCATCATATTTAATCAGCGACTGATCCACCCAGTCCC -AGACGAAGCCGCCCTGTAAACGGGGATACTGACGAAACGCCTGCCAGTATTTAGCGAAACCGCCAAGACTGTTACCCATC -GCGTGGGCGTATTCGCAAAGGATCAGCGGGCGCGTCTCTCCAGGTAGCGAAAGCCATTTTTTGATGGACCATTTCGGCAC -AGCCGGGAAGGGCTGGTCTTCATCCACGCGCGCGTACATCGGGCAAATAATATCGGTGGCCGTGGTGTCGGCTCCGCCGC -CTTCATACTGCACCGGGCGGGAAGGATCGACAGATTTGATCCAGCGATACAGCGCGTCGTGATTAGCGCCGTGGCCTGAT -TCATTCCCCAGCGACCAGATGATCACACTCGGGTGATTACGATCGCGCTGCACCATTCGCGTTACGCGTTCGCTCATCGC -CGGTAGCCAGCGCGGATCATCGGTCAGACGATTCATTGGCACCATGCCGTGGGTTTCAATATTGGCTTCATCCACCACAT -ACAGGCCGTAGCGGTCGCACAGCGTGTACCACAGCGGATGGTTCGGATAATGCGAACAGCGCACGGCGTTAAAGTTGTTC -TGCTTCATCAGCAGGATATCCTGCACCATCGTCTGCTCATCCATGACCTGACCATGCAGAGGATGATGCTCGTGACGGTT -AACGCCTCGAATCAGCAACGGCTTGCCGTTCAGCAGCAGCAGACCATTTTCAATCCGCACCTCGCGGAAACCGACATCGC -AGGCTTCTGCTTCAATCAGCGTGCCGTCGGCGGTGTGCAGTTCAACCACCGCACGATAGAGATTCGGGATTTCGGCGCTC -CACAGTTTCGGGTTTTCGACGTTCAGACGTAGTGTGACGCGATCGGCATAACCACCACGCTCATCGATAATTTCACCGCC -GAAAGGCGCGGTGCCGCTGGCGACCTGCGTTTCACCCTGCCATAAAGAAACTGTTACCCGTAGGTAGTCACGCAACTCGC -CGCACATCTGAACTTCAGCCTCCAGTACAGCGCGGCTGAAATCATCATTAAAGCGAGTGGCAACATGGAAATCGCTGATT -TGTGTAGTCGGTTTATGCAGCAACGAGACGTCACGGAAAATGCCGCTCATCCGCCACATATCCTGATCTTCCAGATAACT -GCCGTCACTCCAGCGCAGCACCATCACCGCGAGGCGGTTTTCTCCGGCGCGTAAAAATGCGCTCAGGTCAAATTCAGACG -GCAAACGACTGTCCTGGCCGTAACCGACCCAGCGCCCGTTGCACCACAGATGAAACGCCGAGTTAACGCCATCAAAAATA -ATTCGCGTCTGGCCTTCCTGTAGCCAGCTTTCATCAACATTAAATGTGAGCGAGTAACAACCCGTCGGATTCTCCGTGGG -AACAAACGGCGGATTGACCGTAATGGGATAGGTCACGTTGGTGTAGATGGGCGCATCGTAACCGTGCATCTGCCAGTTTG -AGGGGACGACGACAGTATCGGCCTCAGGAAGATCGCACTCCAGCCAGCTTTCCGGCACCGCTTCTGGTGCCGGAAACCAG -GCAAAGCGCCATTCGCCATTCAGGCTGCGCAACTGTTGGGAAGGGCGATCGGTGCGGGCCACGACGGCCAGTGAATCCGT -AATCATGGTCATAGCTGTTTCCTGTGTGAAATTGTTATCCGCTCACAATTCCACACAACATACGAGCCGGAAGCATAAAG -TGTAAAGCCTGGGGTGCCTAATGAGTGAGCTAACTCACATTAATTGCGTTGCGCTCACTGCCCGCTTTCCAGTCGGGAAA -CCTGTCGTGCCAGCTGCATTAATGAATCGGCCAACGCGCGGGGAGAGGCGGTTTGCGTATTGGGCGCCAGGGTGGTTTTT -CTTTTCACCAGTGAGACGGGCAACAGCTGATTGCCCTTCACCGCCTGGCCCTGAGAGAGTTGCAGCAAGCGGTCCACGCT -GGTTTGCCCCAGCAGGCGAAAATCCTGTTTGATGGTGGTTAACGGCGGGATATAACATGAGCTGTCTTCGGTATCGTCGT -ATCCCACTACCGAGATATCCGCACCAACGCGCAGCCCGGACTCGGTAATGGCGCGCATTGCGCCCAGCGCCATCTGATCG -TTGGCAACCAGCATCGCAGTGGGAACGATGCCCTCATTCAGCATTTGCATGGTTTGTTGAAAACCGGACATGGCACTCCA -GTCGCCTTCCCGTTCCGCTATCGGCTGAATTTGATTGCGAGTGAGATATTTATGCCAGCCAGCCAGACGCAGACGCGCCG -AGACAGAACTTAATGGGCCCGCTAACAGCGCGATTTGCTGGTGACCCAATGCGACCAGATGCTCCACGCCCAGTCGCGTA -CCGTCTTCATGGGAGAAAATAATACTGTTGATGGGTGTCTGGTCAGAGACATCAAGAAATAACGCCGGAACATTAGTGCA -GGCAGCTTCCACAGCAATGGCATCCTGGTCATCCAGCGGATAGTTAATGATCAGCCCACTGACGCGTTGCGCGAGAAGAT -TGTGCACCGCCGCTTTACAGGCTTCGACGCCGCTTCGTTCTACCATCGACACCACCACGCTGGCACCCAGTTGATCGGCG -CGAGATTTAATCGCCGCGACAATTTGCGACGGCGCGTGCAGGGCCAGACTGGAGGTGGCAACGCCAATCAGCAACGACTG -TTTGCCCGCCAGTTGTTGTGCCACGCGGTTGGGAATGTAATTCAGCTCCGCCATCGCCGCTTCCACTTTTTCCCGCGTTT -TCGCAGAAACGTGGCTGGCCTGGTTCACCACGCGGGAAACGGTCTGATAAGAGACACCGGCATACTCTGCGACATCGTAT -AACGTTACTGGTTTCACATTCACCACCCTGAATTGACTCTCTTCCGGGCGCTATCATGCCATACCGCGAAAGGTTTTGCG -CCATTCGATGGTGTCAACGTAAATGCATGCCGCTTCGCCTTCCGGCCACCAGAATAGCCTGCGATTCAACCCCTTCTTCG -ATCTGTTTTGCTACCCGTTGTAGCGCCGGAAGATGCTTTTCCGCTGCCTGTTCAATGGTCATTGCGCTCGCCATATACAC -CAGATTCAGACAGCCAATCACCCGTTGTTCACTGCGCAGCGGTACGGCGATAGAGGCGATCTTCTCCTCCTGATCCCAGC -CGCGGTAGTTCTGTCCGTAACCCTCTTTGCGCGCGCGCGCCAGAATGGCTTCCAGCTTTAACGGTTCCCGTGCCAGTTGA -TAGTCATCACCGGGGCGGGAGGCTAACATTTCGATTAATTCCTTGCGGTCTTGTTCCGGGCAAAAGGCCAGCCAGGTCAG -GCCCGAGGCGGTTTTCAGAAGCGGCAAACGTCGCCCGACCATTGCCCGGTGAAAGGATAAGCGGCTGAAACGGTGAGTGG -TTTCGCGTACCACCATTGCATCAACATCCAGCGTGGACACATCTGTCGGCCATACCACTTCGCGCAACAGATCGCCCAGC -AGTGGGGCCGCCAGTGCAGAAATCCACTGTTCGTCACGAAATCCTTCGCTTAATTGCCGCACTTTGATGGTCAGTCGAAA -ACTATCATCGGAGGGGCTACGGCGGACATATCCCTCTTCCTGCAGCGTCTCCAGCAGTCGCCGCACAGTGGTGCGATGCA -GGCCGCTGAGTTCCGCCAGCAGCCCGACGCTGGCACCGCCATCAAGTTTATTTAACATATTTAATAACATTAGACCGCGG -GTTAAGCCGCGCACGGTTTTGTATTCCGTCTGCTCATTGTTCTGCATATTAATTGACATTTCTATAGTTAAAACAACGTG -GTGCACCTGGTGCACATTCGGGCATGTTTTGATTGTAGCCGAAAACACCCTTCCTATACTGAGCGCACAATAAAAAATCA -TTTACATGTTTTTAACAAAATAAGTTGCGCTGTACTGTGCGCGCAACGACATTTTGTCCGAGTCGTGAGGTACTGAAATG -GCAATACAACACCCTGACATCCAGCCTGCTGTTAACCATAGCGTTCAGGTGGCGATCGCTGGTGCCGGCCCGGTTGGGCT -GATGATGGCGAACTATCTCGGCCAGATGGGCATTGACGTGCTGGTGGTGGAGAAACTCGATAAGTTGATCGACTACCCGC -GTGCGATTGGTATTGATGACGAGGCGCTGCGCACCATGCAGTCGGTCGGCCTGGTCGATGATGTTCTGCCGCACACTACG -CCGTGGCACGCGATGCGTTTTCTCACCCCGAAAGGCCGCTGTTTTGCTGATATTCAGCCAATGACCGATGAATTTGGCTG -GCCGCGCCGTAACGCCTTTATTCAGCCGCAGGTCGATGCGGTGATGCTGGAAGGGGTGTCGCGTTTTCCGAATGTGCGCT -GCTTGTTTTCCCGCGAGCTGGAGGCCTTCAGTCAGCAAGATGACGAAGTGACCTTGCACCTGAAAACGGCAGAAGGGCAG -CGGGAAATAGTCAAAGCCCAGTGGCTGGTAGCCTGTGACGGTGGAGCAAGTTTTGTCCGTCGCACTCTGAATGTGCCGTT -TGAAGGTAAAACTGCGCCAAATCAGTGGATTGTGGTAGATATCGCCAACGATCCGTTAAGTACGCCGCATATCTATTTGT -GTTGCGATCCGGTGCGCCCGTATGTTTCTGCCGCGCTGCCTCATGCGGTACGTCGCTTTGAATTTATGGTGATGCCGGGA -GAAACCGAAGAGCAGCTGCGTGAGCCGCAAAATATGCGCAAGCTGTTAAGCAAAGTGCTGCCTAATCCGGACAATGTTGA -ATTGATTCGCCAGCGTGTCTACACCCACAACGCGCGACTGGCGCAACGTTTCCGTATTGATCGCGTACTGCTGGCGGGCG -ATGCCGCGCACATCATGCCGGTATGGCAGGGGCAGGGCTATAACAGTGGTATGCGCGACGCCTTTAACCTCGCATGGAAA -CTGGCGTTGGTTATCCAGGGGAAAGCCCGCGATGCGCTGCTCGATACCTATCAACAAGAACGTCGCGATCACGCCAAAGC -GATGATTGACCTGTCCGTGACGGCGGGCAACGTGCTGGCTCCGCCGAAACGCTGGCAGGGTACGTTACGTGACGGCGTTT -CCTGGCTGTTGAATTATCTGCCGCCAGTAAAACGCTACTTCCTCGAAATGCGCTTCAAGCCGATGCCGCAATATTACGGC -GGTGCGCTGATGCGTGAGGGCGAAGCGAAGCACTCTCCGGTCGGCAAGATGTTTATTCAGCCGAAAGTCACGCTGGAAAA -CGGCGACGTGACGCTGCTCGATAACGCGATCGGCGCGAACTTCGCGGTAATTGGCTGGGGATGCAATCCACTGTGGGGGA -TGAGCGACGAGCAAATCCAGCAGTGGCGCGCGTTGGGCACACGCTTCATTCAGGTGGTGCCGGAAGTGCAAATTCATACC -GCACAGGATAACCACGACGGCGTACTACGCGTGGGCGATACGCAAGGTCGCCTGCGTAGCTGGTTCGCGCAACACAATGC -TTCGCTGGTGGTGATGCGCCCGGATCGCTTTGTTGCCGCCACCGCCATTCCGCAAACCCTGGGCAAGACCCTGAATAAAC -TGGCGTCGGTGATGACGCTGACCCGCCCTGATGCCGACGTTTCTGTCGAAAAGGTAGCCTGATATGCACGCTTATCTTCA -CTGTCTTTCCCACTCGCCGCTGGTGGGGTATGTCGACCCGGCGCAAGAGGTGCTCGATGAGGTCAATGGCGTGATTGCCA -GCGCCCGCGAGCGTATTGCGGCATTCTCCCCTGAACTGGTGGTGCTGTTTGCGCCAGATCACTACAACGGCTTTTTCTAT -GACGTGATGCCACCGTTCTGTTTAGGCGTTGGAGCGACGGCAATTGGTGATTTCGGCAGTGCGGCAGGAGAGCTGCCCGT -GCCTGTGGAGCTGGCGGAGGCCTGTGCGCATGCCGTCATGAAGAGCGGGATCGATCTTGCCGTTTCTTACTGTATGCAGG -TGGACCACGGGTTCGCCCAGCCGCTGGAGTTCCTGCTCGGTGGGCTGGATAAGGTGCCAGTTCTGCCTGTGTTCATCAAC -GGTGTCGCCACGCCGCTGCCCGGTTTCCAGCGTACCCGCATGTTGGGTGAAGCCATTGGACGTTTCACCAGCACTCTCAA -TAAACGCGTGCTGTTCCTGGGTTCCGGTGGGCTTTCCCATCAGCCGCCGGTGCCCGAACTGGCGAAAGCCGATGCCCATA -TGCGCGACCGTCTGTTGGGGAGCGGGAAAGATTTACCCGCCAGTGAGCGCGAATTGCGTCAGCAACGGGTGATTAGCGCC -GCTGAGAAGTTTGTTGAGGATCAGAGAACGCTGCATCCGCTCAACCCGATTTGGGATAACCAGTTCATGACTTTGCTGGA -GCAGGGACGCATACAGGAACTGGATGCCGTCAGTAACGAAGAGCTTTCCGCCATTGCCGGAAAGTCGACACATGAAATCA -AAACCTGGGTCGCCGCTTTTGCCGCTATTTCTGCGTTTGGCAACTGGCGTAGCGAAGGGCGTTATTACCGCCCAATCCCG -GAGTGGATTGCCGGATTTGGCTCGTTAAGCGCCAGAACAGAGAACTGAATATGCAGGAGAAGATGATGAGTTATCAGCCA -CAAACCGAAGCCGCCACCAGCCGTTTTCTGAATGTAGAAGAAGCGGGTAAAACGCTGCGCATCCATTTTAATGACTGCGG -ACAAGGCGACGAAACCGTTGTCCTGCTGCATGGTTCCGGCCCGGGTGCTACTGGCTGGGCGAACTTCAGCCGCAATATCG -ATCCGCTGGTAGAGGCGGGCTATCGGGTGATCCTGCTGGATTGTCCGGGTTGGGGCAAGAGCGATTCGGTCGTTAATAGT -GGTTCGCGATCGGATCTTAATGCACGAATCCTGAAAAGCGTGGTGGATCAACTGGATATCGCCAAAATCCACCTGCTGGG -CAACTCGATGGGGGGCCATAGTTCTGTGGCGTTCACCCTTAAATGGCCGGAGCGCGTCGGCAAACTGGTGCTGATGGGCG -GCGGTACGGGCGGCATGAGTTTGTTTACGCCGATGCCAACCGAAGGTATTAAGCGACTGAATCAGCTTTATCGTCAGCCG -ACTATCGAAAACCTGAAGCTGATGATGGATATCTTCGTTTTTGATACCAGCGATTTGACCGACGCCCTGTTTGAAGCGCG -CCTGAATAATATGCTGTCGCGCCGCGATCACCTGGAAAACTTCGTTAAGAGCCTGGAAGCTAATCCGAAACAGTTCCCGG -ATTTTGGCCCACGTCTGGCGGAAATCAAAGCGCAAACCCTGATTGTCTGGGGGCGCAACGACCGCTTTGTGCCGATGGAT -GCGGGTCTGCGTCTGCTGTCCGGCATTGCCGGTTCTGAACTGCATATCTTCCGCGACTGTGGTCACTGGGCGCAGTGGGA -ACATGCCGACGCTTTCAATCAACTGGTGCTGAATTTCCTCGCACGCCCTTAAGGAATGGTCATGACGAAGCATACTCTTG -AGCAACTGGCGGCGGATTTACGCCGCGCCGCAGAGCAGGGCGAAGCGATTGCACCGCTGCGCGATCTGATTGGTATCGAT -AACGCTGAAGCGGCTTACGCCATTCAGCACATAAATGTGCAACATGACGTTGCGCAGGGGCGTCGCGTGGTAGGGCGTAA -AGTGGGCCTGACACATCCGAAAGTGCAACAACAACTGGGCGTTGATGGGGTTTGAGGGCCAATGGAACGAAAACGTACGT -TTATGGTATAACTTATTGATTATAATACAGTATACAAAGGTCCCTTTTCAGGGACCCTTTCGTATGTTGTAGCTGATTTT -ATTTTCTTCTTTTCTTTTGGGTGCTTTTAATAGCCATATATGATGTTTCATATAAAGTTAAAAGTTTCCCCATCTGTCTA -TCTATAGCGTCATGTTTTTCAGGATTTCTTAATTTCTGCAGCAGTTTAGATATATATTTCGCAGGTAACTTTATTATTAA -TGAATTATGGGATTGATACATTTCCTTTGTCCAATCTAAATCTTTTCCTGATTTCAATACCTCACTCTCATCTCTATTAA -TTATAAAACCGAGCTTTCCATACGGACCTGTTAAATATGATTGTAATTGTCTATACTCAGATGGACCTAATTCTTCAAAA -TTTTTAGCATCAAAAACAACTTGTCTTGTTTTATAGTCCTCCAATACTCGTTTCCAAAAATCAGATTTGCCACCATTGGT -GCCTATAATATCTCGTCTCTGAACTGCGTTACCATTTGGATGGGACTTGATGTCTGTTAGGTGGGATGCAAATACTATTC -TTAGTGCGTCTAAACACCATTGTTCAAATTCAGTGGCACCTTCATTTCCTATCGGTATCTGATCTAGATGAGTAGTTATT -TGACCTATTGTTTTATTTCTAATGGCTGAATTATCTGAAATAATATTAATATCATATTCGTCATTTATCTCCTCTGCTTC -CTCTGGAGCAAGTGCATTACGATTTAGATTCAAACCAAGCCAGTAACATGGATGAATTAATAATTTCTCATTACTTTCAA -AACCTTTATCTGGAGTTCGCCCGTCATGGCAAAATGAATAGGATGAGGTGTTTTTATCACGAATACCAACAAATCCTACA -CTATACAAACTTTGGAGAATTCCACTTGCCTTTAACAACTGTATTTCAGACGTTATTTTAGGATCTCCATTTTCTTCGAT -TAATTCGAAAGATGCTTCTATTTTTTTTAAGCACGTATAAACTGTTAATTCAGGTTCAATGCTACGAAATGCACTAGTTA -TAACCTGTATTGAAGGAAAGATCTTCTGATACTCTTTCCAGAGATCTTCAAGTCTGGCCATGGAAATTGACTTGGCTGCA -TATTCTAGGTCAGTGTTTATGATAGTTTCTCTATTCTCTCTGAATGCGGAAAAAAAAGCTTCATTCAACAATGATAGTAA -ATCCCTGGGCCGGTAAAGGGTAAATTGCAAACATCGCTTAAAACCATTCCTCCCTTTAAGATCATCCGCTGTGCATCTAT -CCCAAACTCGTTGATCTTTCTCAATATCTAGCTTAAATGCTACTTTCATTCTTTTAGCTGACAGCATTAGGAGTTGTGCC -CAGTCCCAATGCAACCTTATGACTTGACCCTCTATATTTCTCGAGTAATCAGGATCTTCCTTTGATAGCGACCTAAATAT -ATTATCCCTTAAAAAAATTATTGGACGAATGCATTTTGCTTTTTGATTTAATTCAATAGATGCATATGCTAGACCTGCAA -TGATTCCAATTCCTATATTATCCGGTTCATACGCCTCATCTAGCTTATCCATTAATATGACAACTTTCCTGTCTGAGCGT -TCAAGAAGTGATACTATATTATTTTCTATTTCTGAGATATTCAAATTGAATTGAAGATCACCAATTGATTCTTCTGGGTT -ATTTTCATCTAAATACTCCTTTGCGACAAGCCTACACTTTCTTAAAATGTCACCTTGTGCAGAATTCCATTTTTTCAAAT -GTTCATTCAACAATGTTTCTGATGATATTTGAGATGACAATTTGTAATGAGATGATATATATGATGCTATCTCCATTAGC -ATAGCGTATCGCCATAATAGTCTTGTTGCTGCCCTTGCTAAATTAAATGATCCTGTAAATGGTTTCAACATTGATCTGAA -ACCAATAATTTGAGAATCGTCTGGTGAGAAACTCAGGATTAATATTTTTTTGTCTTTCTTCCAATGCTCATTTAGCTGAA -TAAATAAAGCACTTTTACCTGTCCCTCGTCTACCAACAACAATGGTCCTGTCATCAGTTTCAATTAGAGTCCTAAAGTCA -GCAGTTTCAATGAAAGCATTACTCAACATCTTTTTATCATTTTCTGCTGTCGTATCACCAAACGGATTAGACTTTGAAGT -AATATTCAATTCCATATTCAACCTTTTATGTTAGTTGCTTTCATTTATTACTTTATATACTGTTGAACGAGCAATATTCA -TTGTTTTTGATATATGTGAGGCACCTAACCCCTGTTGCCACATATTTAATACTGCATCTCTATCTATTTTTCTTTTTCTA -CCAAAAACAACTCCTTTTGCCATTGCCTCTTGGCGACCTTCATTGGTACGCTCTAGTATTCTCTGTCGTTCTGCCTGGGC -CACTGCAGATAGAATAGTGACAACCATTTTACCCATCTCCCCATCGGTACTGATTCCGTCATCAATAAACCGAATGGATA -CACCTTGGGCGTCAAACTCTTTTATTAACTGGATCATGTCAGCAGTATCGCGCCCAAGGCGGTCAAGTTTCTTCACCAAG -ATGACGTCACCTTCCTCCACCTTCATCCTCAGCAAGTCCAGCCCTTTCCGATCGCTTGAACTGCCCGATGCCTTGTCAGT -AAAGATGCGATTTGCTTTCACGCCTGCGTCTTTGAGTGCCCGAACCTGAATATCGAGAGATTGCTGGCTGGTTGATACCC -GTGCGTAACCAAAAAGTCGCATAAAAATGTATCCTAAATCAAATATCGGACAAGCAGTGTCTGTTATAACAAAAAATCGA -TTTAATAGACACATTAACAGCACTGTTTTTATGTGTGCGATAATTTATAATATTTCGGACGGTTGCAAAATTGTTAATGA -ATAACTGTCAGGTAGGGAGCCTGATATGCCTGTCGACTTTCTAACCTCTGACCAAAAACAGAATTACGGTTGTTATGCTG -CAGAACCTAATGACGTGCAACTGGCGCGCTATTTTCATCTTGATGAACGGGATCTGGCCTTCATTAACCAACGACGGGGC -AAACATAATAGGCTGGGCATTGCGCTTCAGCTCACCACAGCCCGTTTTCTGGGAACATTTCTGACGGATTTAACTCAGGT -TCTGCCTGGTGTTCAACATTTTGTCGCGGTACAGCTTAATATCCACCGTCCAGAAGTTCTCTCCCGCTATGCTGAACGGG -ACACTACCCTTAGAGAACATACTGCATTAATTAAGGAATATTACGGCTATCATGAATTTGGTGATTTTCCATGGTCTTTC -CGCCTGAAGCGTCTGCTATATACCCGGGCGTGGCTCAGTAATGAGCGACCGGGTCTGATGTTTGATTTTGCCACTGCATG -GTTGCTTCAAAATAAGGTATTACTGCCCGGAGCAACCACACTAGTACGTCTCATCAGTGAAATTCGTGAAAGGGCAAATC -AGCGGCTGTGGAAAAAGCTGGCCGCACTGCCGAACAAATGGCAGGCAGCTCAAGTGATGGAGCTTCTGGTCATTCCGGAA -GGTCAGCGTGTATCAGCACTGGAACAGTTGAAAAAAGGCCCTGTTACAGTCAGTGGACCTGCGTTTAATGAAGCGCTGGA -ACGATATATCCGATTACGAAGTCTTGAGTTTTCCCGACTGAACTTTTCCGGTCTGCCTGCCATTCAACTGCGTAATCTGG -CTCGTTATGCTGGCATGGCGTCGGTAAAATATATCGCTCGAATGCCACAGCAGAGAAAGCTTGCTGTACTTACTGCATTC -GTTAAAGCACAGGAAATAACGGCATTAGACGATGCCGTTGATGTGCTTGATATGCTAATTCTGGACATTATCCGCGAAGC -AAAGAAAACCGGGCAAAAAAAAAGACTCAGGACACTGAAAGATCTTGATCAGGCCGCATTGTTACTGGCGCGGGCATGTG -CATTGTTGCTGGATGATAATACAGATGTCCCAGATCTCAGGCAGGTTATCTTCAAGTGCGTACCCAAAAACAGACTGGCA -GAATCTGTAAGCAAGGTTAATGAACTTGCTCGTCCACAGAACAATAATTTCCATGACGAAATGGTTGAGCAGTACGGTCG -GGTTAAACGTTTTCTTCCGGCGGTGTTGCGGGACCTGCATTTCCGTGCGGCACCGGCAGGTGAACATGTACTGGCTGCGA -TTCATTATCTGGCAGAACTGAATGGTTCGAAAAAGCGCATCCTTGATGATGCGCCTGAACATATTATCACCGGTCCCTGG -AAACGCCTCGTATACGATGCGGAGGGACGGATACAGCGTGCAGGTTATTCACTATGTTTGCTGGAACGCCTTCAGGATGC -ACTGCGCCGCCGGGACATCTGGCTTGAAAACAGTGATCGCTGGGGAGATCCTCGCGAGAAGTTGTTGCAAGGTGAAGAGT -GGCAGACTCAGCGTATTCCTGTCTGTCGGGCACTGGGACATCCTGTCGATGGACGTAAAGGTGTGCAACAACTGGCTATT -CAGCTGGATGAGACCTGGAAAGCCGTGGCATCACGATTTGAAAAGAATGCGGAAGTTCATATCTGTAATGAAGGTAAATA -TCCATCCCTGACTATCAGTTGTCTGGAGAAACAGGAAGAGCCACCATCATTGCTTCGTCTAAATAATCGGATCAAACAGC -TACTCCCACCGGTAGATTTAACGGAACTGTTACTTGAGATAGATGCCCAGACAGGATTTACACATGAGTTTGCGCATGTC -AGTGAATCTGGTGCTCGAGCGCAAGATTTGCACATCAGTTTATGTGCGGTATTGATGGCTGAAGCCTGTAATATCGGACT -GGAACCGCTGATAAAGCACAATATACCAGCACTGACCCGCCATCGGCTCAGTTGGGTGAAACAGAATTACCTTCGTGCAG -AAACGCTGGTCAGCGCCAATGCCCGCCTGGTTGATTTTCAGTCCACACTGGAGCTTGCTGGTCGTTGGGGAGGTGGAGAA -GTGGCATCAGCTGACGGCATGCGCTTTGTCACACCAGTGAAGACCATCAACTCAGGATCTAACAGAAAATATTTTGGTTC -TGGACGAGGCATCACCTGGTATAACTTCGTATCTGATCAGTACTCTGGGTTCCATGGCATTGTGGTACCCGGTACATTAC -GGGATTCGATTTTTGTACTGGAAGGACTTCTTGAGCAGCAGACAGGGCTGAATCCAGTTGAAATCATGACAGACACTGCG -GGTAGCAGCGATATTATTTTCGGTCTGTTCTGGCTACTGGGGTATCAGTTTTCCCCCCGGCTTGCCGATGCAGGTGAGGC -GGTGTTCTGGCGGGTGAATAAATCGGCAAACTACGGAGTACTGGATAAGTTGGCCCGAGGATATGCAGATCTGTCAAAAG -CGGAGAGTCAGTGGGATGAGATGATGCGAACCGCTGGTTCGCTGAAGTTGGGTACAATTCATGCGTCAGAACTCATTCGC -TCTTTACTGAAAAGCTCGCGCCCATCAGGACTGGCACAGGCAATTATGGAAGTAGGGCGTGTAAACAAAACGCTATATCT -CCTCAATTATATTGATGATGAAGATTATCGTCGGCGGATCCTGACGCAGCTTAATCGAGGAGAAGGCCGCCACGCTGTGG -CTCGTGCGATTTGTTACGGACAACGCGGAGAGATCAGAAAGCGTTATCGTGAAGGGCAGGAAGATCAACTGGGGGCGCTG -GGCCTGGTTACTAATGCAGTGGTTCTGTGGAACACGCTCTATATGGAGGAAGCGTTGAGCTGGATGCGCCGTAATGGCGA -AGAAATTATAGATGAAGATATCGCTCGGCTATCTCCCCTGATGCACGGGCATATCAATATGTTGGGCCATTATACATTCA -CGTTGCCAGAGGATATTTTAAAAGGGGAACTGAGAGCTCTAAATTTAAATATAAACAACGAATTATCTCCTTAACGTACG -TTTTCGTTCCATTGGCCCTCAAACCCCTTTTACAAGTTTGTTGAATCCCCCGCGGATAAGCGGACCAAAAATTGAGGTCA -TAGATGTGGCAAAAACGGTAATGCCGGAAATAATGACCGAAATAGTGAACAATCGTGCTGATTCAGAAACAGGGACAATA -TCGCCATAGCCGACGGTTGACATGGTTTCTATCGAAAAATAGAACGCGGTCATCAAACTTTCTATTCGCGGATTAAAACC -TTCGCTTAAATAAAGCGCACCGTAGGTTGAGTAAAACAGTAATGTCGTGAAACTAATAAATGCAAAAATTGTCCCGGCTG -CGGCGCTACTGTGGGAGAAGTCTTTGCGCAGTATCAGCAAAAACACCAGCGTAAAAATGCAAAATCCAATACTAAATTTC -AGCCAGGGATAAAAATGCAGGGTGTAAATTAGCGCTATCAACAACAAAATGATACTGATTGCCCATGCGAGCTTTGCCCG -GAACAGTAAGCCAATGGAGTTCAGGACAAGAAAGACGCCGAGCATAAAGAGTGGGGCGTTTGCCAGCAAGGAGAGATCCA -ACTCTGAAAATGCTTTGATATGGAAAATATCAAGCAAATTGACCGACATACCATAGATTGTTTTAAAAATAAGCAATCCA -TTTAAAAAGACGGCCAGCGCGAGAATGTCGTGCCGAAGGGTCACCCATAAATTTGTTGCTGTTTGTTTGAATGTAGCCCA -GTGACTCACTGATACCTCTGTAACCACAATTTTGTTTAATTATCTTAGCGTGCACATTTTCTGAACATACATGCAGCGCG -TGAATGTGTTAAACAATAGTAGATGACTTTATCCGCAGTAATCAAAGGATTTGAGCGAGCAACTGTACCTCAGGAAAGGT -CATTTTTCCTGAATATGCTCACATCATATAAAGAAATACAGATAAAGTTATTATCTGCTTGTGGTGGTGAATGCACTGAC -CGGCTATAAGGAAAGGCCAAACAAGAACACGGTTGCAAAAACCGTGCCCTTAAATATTGAATCTCTATTCAGAACACTTT -CTTAAATGGTTTCACTGAAACGTGTTCATAGACTCCTGCCGCTACGTACGGGTCAGCATCGGCCCAGGCCTGAGCTGCTT -CCAGCGATTCAAATTCAGCAATAACGGTTGAGCCAGTAAATCCCGCAGCCCCTGGATCGTTACTGTCTACCGCTGGCATT -GGACCAGCTGTCAACAAACGACCTTCATCGTGCAGTAACTGTAAACGTGCTAAATGTGCCGGACGAACGGAAAGGCGTTT -TTCGAGGCTATCAGCTTTGTCTTGAGCGTAAATAACATACAACACGGGCACAACTCCTTGTTCGGGAAAGTTGTAAAGTA -CGTTATTTGAAAGGGCGAAGATCTGCAACGGAAAGATGATGTCTTTGTTAAGGCCATGCATAAAGTAAGGGTAATTACGC -CAAAAATGACATTTTCACTGATCCTGATCGTCTTGCCTTATTGAATATGATTGCTATTTGCATTTAAAATCGAGACCTGG -TTTTTCTACTGAAATGATTATGACTTCAATGACCCTTGATTTACCTCGCCGCTTCCCCTGGCCGACGTTACTTTCGGTCT -GCATTCATGGTGCTGTTGTGGCGGGTCTGCTCTATACCTCGGTACATCAGGTTATTGAACTACCTGCGCCTGCGCAGCCG -ATTTCTGTCACGATGGTTACGCCTGCTGATCTCGAACCGCCACAAGCCGTTCAGCCGCCACCGGAGCCGGTGGTAGAGCC -AGAACCGGAACCTGAGCCGATCCCCGAACCGCCAAAAGAAGCACCGGTGGTCATTGAAAAGCCGAAGCCGAAACCTAAGC -CAAAACCGAAGCCGGTGAAAAAGGTACAGGAGCAGCCAAAACGCGATGTCAAACCCGTAGAGTCGCGTCCGGCATCACCG -TTTGAAAATACGGCACCGGCACGCCTGACATCAAGTACAGCAACGGCTGCAACCAGCAAGCCGGTTACCAGTGTGGCTTC -AGGACCACGCGCATTAAGCCGTAATCAGCCGCAGTATCCGGCACGAGCACAGGCATTGCGCATTGAAGGGCAGGTTAAAG -TTAAATTTGACGTTACGCCGGATGGTCGCGTGGATAACGTACAAATCCTCTCAGCCAAGCCTGCGAACATGTTTGAGCGT -GAGGTGAAAAATGCGATGCGCAGATGGCGTTATGAGCCGGGTAAGCCAGGCAGTGGGATTGTGGTGAATATCCTGTTTAA -AATTAACGGCACCACCGAAATTCAGTAAGCAGAAAGTCAAAAGCCTCCGACCGGAGGCTTTTGACTATTACTCAACAGGT -AAGGCGCGAGGTTTTCCTTCAGGATCAACCGCGACATACTTAAATAATGCTTCTGTCGCTTTATAGCGTTGCCCAATTGG -TTCAGACGCTACTTTTTTCACCCACACTTCAATATTAATGCTGACCGATGTCGTCCCTTTCTGGACACAGCGTGCATAGC -AGCACACCACATCGCCGACCGCAACCGGCCGTAAGAAAGTCATTCCTTCAACCCGCACAGTCACTACGCGACCGTGGGCA -ATTTCTTTTGCCAGAATAGCGCCGCCAATATCCATTTGTGACATTAACCAACCACCAAAGATGTCACCATTGGCATTGGT -ATCGGCGGGCATGGCTAAAGTACGTAAAACAAGATCGCCCTGAGGGACGTTATGTGTTGTAGACATGGTAAAACCGACTT -AAAAGGAAAATCACAGGCGCGATGCTACTATGATTTTCCTGAGGAGAACAGAGGAGATACAGCGCCAGCCCCGAAGGACT -GGCAGTCTGGTTAGGATTTATCTTCCTGCGGCATGTGGCGGTAGATATAGATACCGCTTAACAATGTGAAGATTAAGGTA -AGGGCGGTCAGGCCAAAGACTTTAAAGTTGACCCAAATATTTTGCGGCAGCCAGAATGCGATGTAGATGTTTGCCAGACC -GCAAAGGATAAAGAAAACAGCCCAGGCCAGATTCAGCTTCGACCATACCGGTTGCGGCAGCGTGAGTTCTTTACCCAGCA -TCCGCTGAATTAGCGGCTTTTTCATCACCCATTGGCTGACTAACAGGGCTCCCGCAAATAGAGCATAAATGACAGTAACC -TTCCATTTAATAAACTCATCATTGTGGAAGAACAGCGTCAAGCCACCGAAGACGACCACCAGAACAAAAGTGATCAGGGC -CATCTTCTCAACCTTACGAAAGCGAACCCAGCTATAGATAAGCACAATCGCCGTGGCGACGATCAGCGCCGCAGTAGCCG -CATAGATGTCATAAATCTTGTAAAACGCGAAAAAGACAACCAGCGGTAAAAAATCAAGAAACTGCTTCATTTTACGATTC -CGTAATCAAATGCTTAAGGTTATTGGCGAATCAACATATACAGGCGGAACAGATAGATGAGCAATATGGCTGAAATCAGG -TTGCTCAAGGTGTTCGCCAGTACGGCACCAATTTCCGGGGTTAATGCGGCAAAAGAAGAGGCAAAAAGCAGCAACAGTGT -TTTTGCCAGCAACCAGCTCAGTACTGCGGGTGCCACCAGACGCATATTCGCCCAAGTCAGCCGCATACTGCTACGCATCG -AGGCAAAAACGCCCATTTTGTCCTGTACCAACATCACCGGTGCCAGGGCCAGTAAAATGGCCATGATAATTCCCGGAACG -ACCACCAGCATGATGCCAATCTGTACTAAAAGGGTAGTCAGAAAAATCAGAATAAATAACTTTGGCAATATCGGCGCACT -GGCACCAATAGCTCGCAGCGCACTGACTCTCTGACCCGCAGACACCAGCTGGATAATTAATATTACGCCTCCGGCGAGAA -TGGCGTTACCGATTAATCCTGAAAAAGTGGACGCCGCTGAAGCCTGCAGCAAAATTTGTTGCTGTTCCGGTGACATATTC -TGAACCAGGTCGAACAACCCACTACTGCCGCTAACGGGCACGCCGTCATTGAGCTGCGCAAGCTGTGCATCACTGGGTGA -GAAAACATGCCCTAACACCACTGTGATAAACGCACATAGCAACGATACCAACAGAATGGTCATAAATTGATTACGGAAGA -AATTTCCGGTGTCACGGTATACGGACTGCGCCGTGATAGACATGCACTCTCCTTGAGTTTTATGCAGGTGTTAATTAGCG -GGCAATTGTACCCTGGTTAAGCCTCGGGTGGCAGCATCAGGTCTTGTATGGAAAAGCATATCTTTGTAAAGCGGAGGTAA -TTGCTGGCCTTCAGGCATGGGCAAATCGCGGCAAGTGGCGACCGAGTTAATATTTGCGTAGCGAAAATATTTAAAAATTG -ATTTAAATCACATTAACCAGGATTCTCAATGCAACTTCTAAATTAATCCAGATCAATAAAGGGTGAATTATCATATGTAA -TGTGATCTATGTAGGATCATTTGTTACTCCAATGTAGGTATATTCGTCACGTTTTTATAACCATAACGACGGAGCGGATA -TGAAAAAGTTAACAGTGGCGGCTTTGGCAGTAACAACTCTTCTCTCTGGCAGTGCCTTTGCGCATGAAGCAGGCGAATTT -TTTATGCGTGCAGGTTCTGCAACCGTACGTCCAACAGAAGGTGCTGGTGGTACGTTAGGAAGTCTGGGTGGATTCAGCGT -GACCAATAACACGCAACTGGGCCTTACGTTTACTTATATGGCGACCGACAACATTGGTGTGGAATTACTGGCAGCGACGC -CGTTCCGCCATAAAATCGGCACCCGGGCGACCGGCGATATTGCAACCGTTCATCATCTGCCACCAACACTGATGGCGCAG -TGGTATTTTGGTGATGCCAGCAGCAAATTCCGTCCTTACGTTGGGGCAGGTATTAACTACACCACCTTCTTTGATAATGG -ATTTAACGATCATGGCAAAGAGGCAGGGCTTTCCGATCTCAGTCTGAAAGATTCCTGGGGAGCTGCCGGGCAGGTGGGGG -TTGATTATCTGATTAACCGTGACTGGTTGGTTAACATGTCAGTGTGGTACATGGATATCGATACCACCGCCAATTATAAG -CTGGGCGGTGCACAGCAACACGATAGCGTACGCCTCGATCCGTGGGTGTTTATGTTCTCAGCAGGATATCGTTTTTAATT -CCGCACAAAAACGACCCCGTAATATACGGGGTCAATAAGGACATGGTATAAAGGGTATTATTTCTTCGCTTCTACGCCAT -CAGTTTCAGAGCGAATTAAAAATTTCTCAGTTGTTTGCGGAATATTCTGAATCAGCCAGTCGGCCATTTGCTTTTCCTCA -TTTAAAATCGCTTCGATGGTTGGAATTGAAGCTGTATCACCGGCATTTTTTGCTGCTGCTAATAGTGAGGTGTAACAGGC -GATTTCAAATTGCTCGAAGACATATCCGCTAATAGAGCCTTTGACTATTTCATCAGAAGGGAATATACCACCGATTGACT -GCCCAAGCGCAGCCATTTTACTCATGGAATCTTTAATGACTGAACGTGAAATGTCATTACGATCAAGAATAGTTTCCAGT -TGAACAATCTGGTTTTTGGTTTCACTAAGATGTTGTTCAATACGAGCGCGTAGTTCAGGATAATTATCTATACGGCTGGC -CATGGATTCAAGCATAGATTCGGCTTGCTTTTCCATTGCGTGGGCGTCACGTAACCAGTCATGATAATGTTCAATACGAT -TCATGAAAATGTCCTCTTTATAAAATGACTAAAAGTTAAAATTCATATTTCAGGCTTTATTTTCGGCTTTCTTATTTACG -TTATTAATGGCCAGATCAGTCAGTTTGATGTCGGTGGCCTTTTCTTCTTCCAGGGTTTCTTTCAGAAGCTTCGCTGCTTT -ACGGTAACCTAATTGTTCAGCCAGCGTCGCTAATGTCCCGTAACTGGCAATCTCATAATGCTCGACTTTCTGTGCTGCGG -CAATCAGTGCGGCATCACGCACTTCGTTTTTCTCGGTACTTTCGATGACCTCATTAGCTTCTTCAATAAGACCTTCCATT -GCCACACATTTCATGCGCTTAATTTTCAGGTTCGATTCGGACTCCACAACTTGATCAATACGTTCAATCTGTCCATGAGT -TTCCTCGAGGTGCGCATGAAAAGCCTGACTTAATTTTTCATTTGATGTTGCTCTTGCGAGTTTTGCCAGTGCCCGGGTTA -ATTGTTTTTCTGCGCTGTAGGTATCTGAAAGCAGGTGAATAAATACATCTTCAATGGTCTTCATATTCATATTTTTCTCC -AGTGAAATCACTGCGAGCCATACGGCCCGCAGATGCAATTATCTTTATCAGCTGATATTAATAATTAACGGTGAATCAGG -ATTTGCCTGATTTATTACCACCGCTTTGTTGACCGCCTTTTTTACCCGCTTCAGATGCGCGTTGCGGATCATTTTTAAAA -TTACCGCCGCTATGCTGACCGCCTTTACGGCCTGCGTCGGATGCCTTCTCACGGTCTTCGGCGAAATTTCCTGAACCACC -ACGATGTTCGGCCATGTTATTTCTCCCGTTGCGTTGCATTGTTTCATTAATATGAGTGTTGTGTGTCGACACTCATTAAA -ATTAGTCGCTAATGAGAATTAGTCAAATTAAGCGCAACGAGAAGATAGAGGGAAAATATATTTTGAGGAACATTCTGGAT -ATATTAACAATTACCTGAGGAATAAGTGACTTAGAGAAAATTATTGATTTTACTGGTGTTATGTTGCGGGATTAATTTGT -TTGATTATATTACTGTTGGGCGGAAAAATGACGTAAGTTGACGTTCGACCGGGGTAAGCGAAACGGTAAAAAGATAAATA -TTAAATGAATTTAGGATTTTTCCGGCTTCATTAAAGAAAGTTAAAATGCCGCCAGCGGAACTGGCGGCTGTGGGATTAAC -TGCGCGTCGCCGCTTTCATCGGTTGTACAAAAACTTTCAGTGCCGCCAGCATTTTCTCTGGCTCATTAATATGTTGCTCG -ATGATTTTAACAATGGCCGAACCAGAAATCGCGCCCGCAGCTCCTGCATCAATCGCTGCTTTTACCTGATCCGGGGCGGA -AATACCAAATCCCTGCAATGGAGGTGCAGCGTTGTACTCTTTCAGCTTCGCAACCAGATGATTGAGGGGTAACGCGGCGC -GGTTTTCTGCGCCGGTCACGCCTGCTCGTGACAGCAAATAGGTGTAACCACGACCGTAAGAGGCTATCTGGCGCAGCAGG -TCGTCATCGGCATTTGGCGGGCAGATGAAGATAGGTGCGACATTATGACGCAACGCGGCCTGGCGGAAGGGCGCGGACTC -TTCAACTGGCACATCGGCAACCAGCACCGAATCGACGCCGACTTTTTCGCACTGGGCATAAAACTCATCAATGCCTTTGT -TAAACACCAGATTGGCATACATCAACAGGCCAATGGGAATGGTCGGGTGTTTCTGGCGAATCAGTGCCAGCATTTCAAAA -CATTGTGCCGGAGTCACACCTGCCGCAAAGGCGCGCAGAGTGGCGTTTTGAATCGTCGGGCCATCCGCCAGTGGGTCGGA -GAAGGGGATACCTAACTCCAGCGCGTCAGCACCGGCTTCAATTAGCGTATCGATAATTTTCAATGACTGCTCAATGCCCG -GATCACCGAGCGTGACGAAAGGAACGAATGCGCCTTCTTTGCGCTCCTTCAACTGGGCAAACAGAGATTCGTAGCGTTCC -ATCAGATTTCCCCTCGTGCTTTCAAAATATCGTGAACGGTGAAGATGTCTTTATCGCCGCGACCGGAAAGGTTAACCACC -AGTAGCTGCTCTTTATCCGGGTTTTCGCGCATCATTTTCAACGCATGGGCCAGGGCGTGGGAGGATTCCAGCGCCGGGAT -GATCCCTTCGTGCAGGCACAGCGTTTTGAAGGCTTCAAGGGCTTCATCATCGGTAATAGACACGTAATCAGCGCGTCCAG -TGCTGTTAAGATACGCGTGTTGTGGGCCGACAGACGGGAAATCCAGTCCGGCGGAGATGGAGTAAGATTCTTCAATCTGC -CCGTCTTCGGTTTGCATCATCGGCGCTTTCATACCGAAATAGATACCCACGCGACCATGTTTTAGCGGTGCGCCGTGCTC -GCCAGTTTCGATACCGTGACCACCTGGCTCCACACCAATCAGGCCGACGTTGGTTTCATTGATGAAATCAGCAAACATGC -CGATGGCATTCGAACCGCCGCCAACACAGGCGATAACGGCATCCGGCAGGCGACCTTCTCTTTCCAGAATCTGCGCTTTG -GTTTCTTCGCCAATCATCCGCTGAAACTCACGCACAATGGTCGGATAAGGATGCGGGCCAGCTGCGGTGCCCAGCATATA -GTGCGCGGTTTCGTAACTACCGGACCAGTCGCGCAGCGCCTCGTTACAGGCATCTTTCAGCGTCGCGGAACCGCTATGCA -CCGGGATCACTTCCGCACCCATTAAGCGCATACGAAAAACGTTAGGCGACTGGCGTTCAACGTCTTTGGCACCCATATAA -ATACGGCATTTCAGGCCGAGCAGGGCGCTGGCAAGGGCCGACGCCACGCCATGCTGACCGGCACCGGTTTCGGCGATGAT -TTCGGTTTTACCCATCCGCTTCGCCAGCAACGCCTGCCCCAGCACCTGGTTAGTTTTATGCGCGCCGCCGTGCAGCAAAT -CTTCACGCTTGAGATACAGCGTGGTGTTCGTCCCGGCTGTAATGTTCTGGCATTTGGTCAGCGCGGTTGGACGCCCGGCA -TAGTTTTTCAGCAGGTCGTTGAACTGAGCCTGAAATTCAGGATCTTTTTGCGCACTGACAAAAGCTTCTTCCAGCTGGCG -CAGAGCAGGCATCAGGATTTGTGGCACGTACATGCCGCCAAACTCACCAAAATAGGGGTTAAGTAATGTTGTCATTGTTC -CTTTCCTTAATATGCGCGCAGCGTCTGGAAAACCGAGGCCAAAAGACGTGCGTCTTTGATGCCCGGTTGCGACTCTACAG -CAGAATTAAAATCAAGTCCGGCGCAGCCGGTTTGTGCCGCTTCCACGCAGTTATCTGCGCCTAAGCCCCCCGCCAGCAGA -ACGTTGCCAAGCGATTGACCATTTAATAGTGACCAGTCAAAACGTTGCCCGCTTCCACCCTGGCCGTTGTCTAAAACATA -TTTATCAACGTGCTGAAACTCGCGGGCGGGCAGGGTTTCACCGACGCTTAATGCTTTCCAGATGGCAACATGTGCTGGCA -GAGCTTCACGCAGCGTATCGATATACAGCTGTTCTTCATTACCATGCAGTTGCACTGCCGCCAGCGATAACACCTTAGCT -TTGTCCACCACATCGGCAATATCGTGATTGCGGAACACGCCAACATACTGCAACGGTGCCGCAGCCATCACTTCCTGCGC -CTGTTCAACGTTGACGCAACGCGGTGATGTCGCAACAAAAATCAACCCACCGTAAATCGCGCCCGCGTCATAAGCTGCTT -TAGCATCTTGCCCACGCGTCAGGCCACATACTTTATTCTCACCCAGCAACACCCGGCGCACGGCGGCGTGCAAATCGTCA -TGGGCCATCAACGCCGAACCAATCAGAAAACCGTTAGCGAAGTGGCTTAACTCGCGCACCTGAGCGTAAGTATTGATGCC -GGATTCGCTGATTACCGTCACGTTGTGCCCCAGTTTCGGCGCAAGCTCGCGGGTACGGTTGAGATCAATCGACAAATCAC -GCAGATCGCGGTTGTTGATGCCAACGACCTTTGCTCCCAATGCAATGGCGCGCTCCTGTTCCTCTTCATTACTGACTTCG -GTCAGCACCCCCATCTCCAGACTGTGAGCGACGGCGGCAAGCTGGCGATATTGGTCGTCATCCAGTACTGAAAGCATTAA -TAAGCAGGCATCGGCCTGGTAATAGCGCGCCAGATAGATCTGGTAAGGGTCGATAATGAAGTCTTTACATAAAATCGGCT -GCGGGGCGATTTGGCTGACGATGGGGAGGAAATTAAAGCTCCCCTGAAAATATTTCTCATCAGTCAGCACCGAAATTGCC -GAAGCGTAATGTTTATAAATGGCGGCAATGCGTGCTGGATCGAAATCATCACGGATCACGCCTTTTGACGGCGACGCTTT -CTTGCACTCCAGAATAAACGCCGTGCGCGCACCCTGTAGCGCATCATAAAAATGTCGCGTGCTCGGCTGAACCTCATTCT -GAAAACTGGCCAGCGGTTGCTGCTGTTTGCGGGCTTCTACCCAAATCGCCTTGTCTGCGACGATTTTCGCTAAAACGGTT -TGCATCATTTACCCTCGTGCCGCCAGTGCGGTGACTCTGTCGTAAGCGGAACCACTGCGCAGTACCTCAAGAACGGTTTG -CGCATTGGCTTGCAGATCTTCATGGCCATGCAGGCGCATTAACATGGCGACGTTCGCAGCGACGGCTGCTTCATGGGCGG -CGTCGCCTTTACCTTGTAACAAACGTGTTAAAATGTCACGGTTTTCTTCCGGTGTTCCGCCTGCCAGTTGCTCCTGGTGG -TAGGGTGTCAGGCCAAAGTCTTCTGCGGTGAGCTGATAGCTTTTAATTTCGCCGTCATGCAGTTCGGCAACGATTGTCGG -CGCGTGTAATGAAACTTCATCCATCCCGCCGCTGTGCACCACCGCCGCGCGTTGATACCCCAGCACGCGCAAGGTTTCGG -CAATCGGCAGCACCAGTTCCGGACTATAAACACCAATTAACGCCAGCGGCGGATGCGCCGGGTTAATCAATGGCCCCAGC -ACATTGAACAGGGTGCGGGTTTTCAGTTGCTGGCGAACCGGCATCGCGTGGCGGAATCCGGTGTGATACTTCGGCGCAAA -GAGGAAACATACACCTAACTCATCCAGCGCCTGGCGCGATTTATCGGCGTTCATATCAAGATTAATACCGAACGCCGCCA -GCAGATCGGACGAACCAGATTTACTGGAGACGCTACGGTTGCCGTGTTTCGCCACTTTCAGCCCACAGGCCGCGGCGACA -AACGCACTGGCGGTAGAAATATTGATACTGTTGCTGCCGTCACCGCCAGTACCGACGATATCAGCAAACAGATAATCCGG -GCGCGGGAACGGCGCTGCGTTTTCCAGTAGCGCGGTTGCTGCCCCGGCGATCTCGTTCGGGTGCTCACCGCGAATTTTCA -TGCTCACCAGCGCCGCCGCCAGTTGTTCCGGCTTCAGCTCGCCACGCACCACCGCTGAAAACAGCTGGTGGCTTTCTTGT -TGGCTAAGCGTCTGCGCCTGATACAGTTTTTCCAGAATCGGTTGCAGCGTGTTGGCTGGCTCTAGTTTCTGCTGCGCCCA -GGCCAGCGTTTGTTCCAGCAGGCGAGCGCCCTGGGTGGTGAGAATGGATTCCGGATGGAACTGGAATCCACAAACGCGAT -CCGCATCGTGACGTACTGCCATCACCATGCCATTAAAATGGGCGTTGATGGTTAAACCGGCCGGAATGTTACTGCCAACC -AGCGAGTGATAACGCGCCACCGGCAGCGGGTTTGTTAATCCGGCAAACATCGCCTGACCGTCATGTTCAATGCTGGAGGC -TTTACCGTGGAGAATTTCGCCCGCCTGACCGACATAGCCCCCGTAAGCTTCGACAATCGCCTGATGTCCGAGGCAAATGC -CAATAATGGGCAGCTTGCCACGCAAGCGGGTGAGGAGTTCCGGCATACAACCGGCTTCGCTCGGCACACCGGGGCCAGGA -GAAAGCATCAGCACCGGATTGCTCATGGTCGCCAGGCGTTCAATTAAGGTTTGCGCCGGAATATGGTTGCGGTAAATCAC -CACGTTATGCCCATTGCTGCGCAACTGATCTGCCAGGTTGTACGTAAAAGAGTCGATATTATCGAGCAGCAGAATGTCAG -CCATCAGAAAGTCTCCTGTGCATGATGCGCGGTGGCAATAGCGCGCAGTACAGCGCGGGCTTTGTTACGGGTTTCGTCGG -CTTCCGACTGCGGAACAGAATCAAGGACTACACCAGCACCCGCTTGCACGGTGGCGATACCGTTTTCCACCAGCGCCGAG -CGGATCACAATGCAGGTGTCGAGATCGCCATGCGCGGTGAAATAACCTACCGCGCCGCCGTAGCTGCCGCGGCGACGACC -TTCCGCCTCGGCAATTAACTGCATAGCGCGTACTTTCGGCGCACCGCTTAACGTCCCCATATTCATACAGGCGCGATAAG -CGTGCAGGGCGTCAAGATCGTGACGCAGTTCGCCGACTACGCGAGAGACGAGGTGCATCACATAGGAATAACGGTCAACT -TTGGTGAGATCGGCGACGTAGCGGCTGCCGGGGGTGCAAATGCGTGCCAGATCATTACGGGCGAGATCAACCAGCATCAG -ATGTTCAGACAGCTCTTTATGATCGGTACGCATTTCCAGTTCAATACGGCTGTCGAGATCTCTGTCCAGTGAACCATCGG -CGCGACGACCGCGTGGGCGTGTTCCGGCAATCGGGTAGATCTCAATCTGGCGGCTGGTGGCATCATACTTGAGCGAGCTT -TCCGGCGACGCGCCAAATAGGGTGAAATCATTATCCTGCATAAAAAACATGTACGGGCTGGGATTACTCTTTTTCAGCAC -GTAATAGGCCGCCAGCGGTGACGGGCAGGGCAGAGAGAAACGGCGAGATGGCACCACCTGGAAAATTTCTCCAGCGCGAA -TCGCTTTTTGCAACAAACGCACTACGCCACCGAACTCTTCATCGCTCTGATTACATTCACAACGCATATGCGGCACGGAA -ACCACTGGCAGCGGCGGCGCGGCTTCGGTCAGTTGCTGACGTAGTTCGTTCAGGCGAGCAGTGAGACGTTGTTTTTCTTC -TTCATTCGGAGCAAACAGGCTGGCCTGAATACGGGTGCTTTTTTTCTGATGGTCAATCACCATCAGCGTTTCAGCGAGAT -AAAAACAGAAATCAGGGCAGTTATTTTCCGCTGACAGTTGCGGTAAATCTTCAAATCCCGCCACAAGGTCATAAGAGAAC -AGGCCGCCGAAGAACATGGCTTCTCGTTCTTCCTTCGGTACATTCAACAGATTCTGCAATAAACGGAAAGCGTCAAAAAC -CGAAAGGGAGCATAAGCGGGCGTCTTCATCCAGCAGTGGACTGACAGGGGGGAAGCGCAGCACACGGCAGTTTGGTGATT -GTTCACTTTCCACACCCGCAGGCAGGGCGTTATCCAGTAGTGCCAGGAGGGCTTCGCCGTTGCCGGAAAGTGCCTGGATT -GTGACAGTGTCACCTAAAGCTGTAATGCGCAGCGCACTGTCTACCAGCAGCAGGCTTTTTAAATCATCTTTGCTGTCGAT -ATCTGCGGATTCCAGCAGCAGCGTTGCCGGACGATCCCCACACAACTGGTGAAAAAGCGCGGTGGGATTGTCGCGATAAG -CGCCTTCGCAGGTTAGCAGTTCGAGAGTCGGTTTTTGTGTTTGCATTGTTATTCTCTAATTTTGTTCAAAAAAAAGCCCG -CTCATTAGGCGGGCTGGGTATCTGATTGCTTTACGCATGGTGAATACACTGCCCGTTTCAGGAAGTGCGCCACCAACCTT -TCAGTACGAAAATTGCTTTCATTGTCGATACCCTTTTTACGTGAACTTGCGTACTAGTTAACTAGTTCGATGATTAATTG -TCAACAGCTCATTTCAGAATATTTGCCAGAACCGTTATGATGTCGGCGCAAAAAACATTATCCAGAACGGGAGTGCGCCT -TGAGCGACACGAATTATGCAGTGATTTACGACCTGCACAGCCATACCACAGCTTCCGATGGCTGCCTGACGCCAGAAGCA -TTGGTGCACCGTGCAGTCGAGATGCGCGTCGGCACCCTGGCGATCACCGACCATGACACCACAGCTGCAATCGCGCCAGC -AAGAGAGGAAATTTCACGTTCGGGACTGGCGTTGAATCTTATTCCCGGCGTGGAAATTTCCACGGTCTGGGAAAATCATG -AAATTCATATTGTCGGGCTGAATATTGATATTACTCATCCGCTAATGTGTGAGTTCCTCGCGCAGCAGACAGAACGGCGC -AATCAGCGGGCGCAGCTGATTGCCGAAAGACTTGAAAAAGCGCAAATACCTGGGGCGCTGGAAGGCGCACAACGACTGGC -GCAGGGCGGCGCAGTGACGCGCGGTCATTTTGCGCGTTTCCTTGTTGAGTGCGGCAAAGCCAGTTCAATGGCGGATGTCT -TTAAAAAGTATCTGGCGCGCGGGAAAACCGGATACGTTCCGCCACAGTGGTGTACAATAGAACAAGCTATTGATGTCATT -CATCATTCTGGCGGTAAGGCGGTGCTAGCTCATCCTGGGCGGTACAATCTTAGTGCTAAATGGCTGAAAAGATTGGTTGC -GCATTTTGCCGAACACCACGGTGACGCGATGGAAGTCGCGCAGTGCCAGCAATCGCCCAATGAACGTACCCAGCTGGCGG -CCCTTGCGCGTCAGCATCATTTATGGGCATCACAAGGATCTGATTTTCATCAGCCATGCCCGTGGATCGAACTGGGTCGT -AAACTCTGGCTGCCCGCAGGCGTTGAAGGCGTCTGGCAGCTATGGGAACAGCCGCAGAACACCACAGAGAGGGAATTATG -AGCCAGTTTTTTTATATTCATCCTGATAACCCACAGCAACGTCTGATCAACCAGGCGGTGGAGATCGTGCGTAAAGGCGG -GGTGATTGTTTATCCAACTGATTCCGGCTATGCGCTCGGCTGTAAAATTGAAGATAAAAACGCGATGGAGCGTATTTGTC -GTATTCGCCAGCTGCCGGACGGTCACAACTTTACCCTGATGTGTCGCGATCTTTCTGAACTCTCGACCTATTCATTTGTT -GATAACGTTGCGTTTCGTTTAATGAAAAACAACACGCCGGGCAACTATACCTTCATCCTGAAGGGGACGAAGGAAGTGCC -ACGCCGTCTGTTGCAGGAAAAACGCAAAACCATCGGTATGCGTGTGCCTTCTAACCCTATCGCTCAGGCGTTACTTGAAG -CATTGGGCGAACCGATGCTTTCCACTTCGCTAATGCTGCCAGGCAGCGAATTTACCGAATCGGACCCGGAAGAAATTAAA -GATCGTCTGGAAAAACAGGTAGATTTGATTATTCACGGCGGCTATCTCGGGCAGAAACCGACAACGGTTATTGATCTTAC -CGATGATACGCCGGTCGTGGTGCGTGAAGGCGTAGGTGATGTGAAGCCTTTCTTATAACAAATTGCGTTCCACGGATGGA -AGACTATGGCAGGGAAGTTTCGCTGCATTTTGCTGTTGATAGCAGGGCTGTTTGTATCATCTCTAAGTTATGCAGAAAAC -ACGGAGATCCCTTCTTATGAAGAAGGGATCTCGCTCTTTGATGTTGAAGCCACTCTGCAACCAGATGGGGTGCTCGACAT -CAAAGAAAATATTCATTTTCAGGCGCGAAATCAGCAGATTAAGCACGGCTTTTATCGTGATTTACCACGACTATGGATGC -AGCCTGATGGGGACGCTGCACTGCTGAACTATCATATTGTTGGCGTCACCCGTGATGGTATTCCTGAACCCTGGCATCTT -GACTGGCATATCGGGTTAATGAGTATTGTCGTGGGCGATAAACAACGTTTCTTGCCTCAAGGCGACTATCATTATCAAAT -TCATTATCAGGTTAAAAATGCTTTCCTGCGTGAGGGGGATTCTGATCTGCTAATCTGGAACGTGACCGGTAACCACTGGC -CGTTTGAAATTTATAAGACCCGTTTTTCTCTCCAGTTCTCTAATATTGCGGGTAATCCATTTAGCGAAATCGATCTTTTT -ACCGGAGAAGAGGGCGACACATATCGTAATGGCCGCATCCTTGAGGACGGAAGAATTGAATCCCGCGATCCGTTTTATCG -TGAAGATTTCACGGTCCTCTACCGCTGGCCTCACGCTTTACTTAGCAATGCCTCGGCTCCGCAAACGACGAATATTTTCA -GCCATCTTCTTTTACCCTCCACGTCATCGTTGTTAATTTGGTTTCCGTGTCTGTTCCTGGTTTGTGGATGGTTATATCTC -TGGAAGCGCAGGCCGCAATTTACGCCGGTAGATGTGATTGAAACCGATGTCATTCCGCCAGATTACACGCCCGGCATGTT -ACGTCTCGATGCGAAGCTAGTTTACGACGATAAAGGTTTTTGTGCCGATATCGTAAATCTGATTGTGAAAGGAAAAATTC -ATCTGGAAGATCAGTCTGACAAGAACCAGCAAATCCTGATTCGTGTTAATGAAGGCGCGACCAGAAATAATGCGGTATTA -CTGCCCGCAGAGCAGTTATTACTGGAAGCGTTATTTCGTAAAGGCGATAAGGTCGTTCTTACGGGGAGACGCAACAGAGT -CTTACGCAGGGCATTTTTACGGATGCAGAAATTTTATCTGCCGCGTAAAAAGTCTTCGTTTTACCGGTCTGATACTTTTT -TGCAATGGGGTGGACTGGCAATATTGGCGGTCATTCTTTACGGTAACTTGAGTCCTGTAGGCTGGGCAGGAATGAGTCTG -GTGGGCGATATGTTTATTATGATCTGCTGGATTATTCCTTTTTTATTTTGTTCCCTTGAGCTTTTGTTTGCCCGCGATGA -TGACAAGCCTTGCGTTAATCGTGTAATCATCACTTTGTTTTTACCACTGATTTGTTCAGGCGTGGCCTTCTATTCTCTCT -ACATCAATGTCGGAGATGTATTCTTTTACTGGTATATGCCAGCGGGTTATTTTACCGCTGTTTGCCTGACCGGTTATCTC -ACTGGCATGGGGTATATTTTTCTGCCAAAGTTTACCCAAACTGGACAGCAACGTTATGCCCACGGTGAAGCTATCGTTAA -CTATCTTGCGCGTAAAGAGGCAGCAACACACAGTGGACGTCGGCGGAAAGGGGAAACACGGAAACTGGATTACGCGTTGC -TAGGTTGGGCTATATCGGCAAATTTGGGGAGGGAATGGGCGTTACGCATTGCCCCTTCGCTTTCTTCGGCGATTCGCGCT -CCAGAGATTGCCCGTAACGGCGTTTTATTCTCATTACAGACGCACCTAAGTTGCGGGGCCAATACCAGTTTGTTGGGGCG -AAGTTATTCCGGTGGTGGTGCTGGCGGCGGCGCGGGTGGCGGAGGCGGTGGTGGCTGGTAATTAAGCTGATGTTAATCGA -AACAAGCTTTAACCATAAAGATAGTGTAGTATGTTGCGCCTCAAAGCCAGGCCGATAAACGTCGAGTCGTTTACTTAAGG -CCTGAAGAGTTCAAACAGACTTTACTATCAGTGAGTCAGATGTAAGTTCTGACTCACTGTTGCACAAAAGCATATCAGAC -GCCTGGGAAGGCGACACCAAAAGGAAGCTCTATGAGCGAAAAGCTACAGAAAGTGCTGGCGCGTGCCGGCCACGGTTCTC -GCCGTGAAATCGAATCTATTATTGAAGCCGGTCGTGTGAGTGTTGATGGCAAAATTGCTAAACTCGGCGATCGTGTTGAA -GTTACCCCTGGATTGAAAATCCGTATCGATGGTCACCTGATTTCGGTACGTGAGTCCGCTGAACAAATTTGTCGCGTTCT -GGCCTATTACAAACCGGAAGGTGAGTTGTGTACCCGTAACGATCCGGAAGGACGTCCAACGGTGTTTGACCGTCTGCCAA -AACTGCGTGGCGCACGCTGGATTGCCGTGGGTCGCTTGGACGTTAATACCTGTGGTCTGCTGCTGTTCACCACCGATGGT -GAACTGGCAAACCGTTTAATGCACCCAAGCCGTGAAGTTGAACGTGAATATGCCGTGCGTGTATTTGGTCAGGTTGACGA -CGCGAAACTGCGTGATTTGAGTCGTGGCGTGCAGTTGGAAGATGGTCCGGCAGCTTTTAAAACCATCAAGTTCAGCGGCG -GCGAAGGGATCAACCAGTGGTACAACGTGACTCTGACCGAAGGCCGTAACCGTGAAGTTCGTCGTCTGTGGGAAGCGGTT -GGTGTGCAGGTGAGCCGCCTGATCCGTGTTCGTTACGGTGATATCCCACTGCCAAAAGGTCTGCCACGCGGTGGCTGGAC -GGAGCTGGACCTCGCCCAGACTAACTATCTGCGCGAACTGGTGGAGCTACCGCCAGAAACCAGCTCTAAAGTCGCTGTAG -AAAAAGACCGTCGTCGCATGAAGGCGAATCAGATTCGTCGTGCGGTGAAACGTCACAGTCAGGTGAGCGGCGGTCGTCGT -TCTGGCGGACGTAATAATAACGGTTAATCAAAGTATGCCGGACGTCATATCCGGCATTTTTACAGATTAATAATCGATCC -CTATCTGCGCTTTTACACCGGCATCAAACGCATGTTTGACGGGGCGTAATTCACTTACCGTATCTGCCAGTTCAAGAATA -TCCCGATGACAACCACGACCCGTGATAATCACCGTCTGTTGATGTGGACGTTCATTTAACGCCTGCACCACTTCTTCCAG -TGGCAAATAGTCATACGCCACCATATACGTCAGTTCATCAAGCAAAACCATATCCAGTGAGGAATCAGCAAGCATCCGCT -TTGCATGTTGCCAGACTTCGCGGCAGGCGGCGGTATCAGACTCGCGGTTTTGTGTATCCCAGGTAAAGCCCGTTGCCATC -ACCTGAAACTCAACGCCATGTGGCTCCAGCAGATTGCGTTCGCCATTAGGCCAGGTGCCTTTAATAAACTGCACGACGCC -TACTTTTTTTCCGTGACCAACTGCGCGTGTTGCCGTACCAAATGCCGCGGTGGTTTTGCCTTTTCCATTGCCGGTAAAGA -CGATGATAATACCGCGTTCATCCTGGGCCTGGGCCACACGAGCATCTACTTTTTCTTTCACTCGCTGCTGACGCTGTTGG -TAGCGTTCATCACTCATTGGGAAATTCCTGGTTTACGGCCCGGTTGGGCGTCAAAGGTCATGCCGGTTTTACGGCGGCTG -TCATCGCCCATCAGCCAGAGGTAGAGCGGCATGATATCAGCGGGTGTTTTAAGTTTCTGTGGATCTTCGGTCGGGAAGGC -GCTGGCACGCATTGCGGTGCGCGTACCGCCTGGGTTAATGCAGTTGACACGCAGGCGCTGCTGATATTCATCGGCCAGTA -CCTGCATCATCCCTTCGGTGGCAAATTTCGACGCTGCATATGCACCCCAGTTGGCTCGTCCCTGACGTCCAACGCTTGAT -GAAGTAAAGACCAGTGAACCGGCGTCCGATTTGAGTAATAAAGGAAGCAGTGCCTGGGTGAGCATAAAGGTGGCATTAAC -GTTGACCTGCATGACGTCCTGCCAGACCTGCGGATTTTGTTCGCTCATTGGGCAAACATCGCCGAGCAATCCGGCATTAT -GCAAAACACCATCCAGACGCGGATAATTAACGGCAATGCGCTGTGCCAGTTGTTGGCAATTTTCGGACGTGCAGGTCAGC -AAATCGAGAATAAACCACTGTGGCTGACGCCCAGTTTCTTCGTTTATGTGGCTGGCTACCTGACGTAATTTTTCTTCATT -ACGGCCCAACAGAATCACTGTCGCACCATAGCGTGCATACGTCATCGCGGCTTCACGACCAATACCATCGCTGGCTCCCG -TCACCAGGATAATGCGATCATTGAGTAAATCTTGTTTTGGCTGGTAATGCATGGCTACTCCTCAACGACGTTGTCTGTCG -CGCTGCCAGTGTACTTTATGACTTTGGGGCTTTATGCCTGAAACAGAAGGGCATTTCAATCAGCCTGGGGCGATAACACC -GCAAAATGGATACTTTGTCATACTTTCGCTGCAATAACATCTCTGCGAGACGGCTTAACATGCCTGTTGTAAACTGTGAG -CCAAAGCGTTGTTTAACCAAGGTGGGGACTCGTGGAATTGTTGTCTGAATATGGTTTGTTTTTGGCGAAAATCGTTACCG -TTGTGCTAGCGATTGCGGCGATTGCCGCCATTATTGTCAATGTTGCTCAACGTAATAAACGCCAGCGTGGCGAGTTACGG -GTCAACAATCTCAGCGAACAGTATAAGGAGATGAAAGAAGAACTGGCCGCGGCGCTGATGGACTCACATCAGCAAAAACA -GTGGCACAAAGCGCAGAAGAAAAAGCATAAGCAAGAAGCGAAAGCAGCAAAAGCGAAAGCCAAACTGGGCGAGGTGGCAA -CTGACAGTAAACCCCGCGTCTGGGTGCTGGATTTTAAAGGCAGCATGGACGCCCATGAAGTGAACTCGCTACGTGAAGAG -ATAACGGCTGTACTCGCAGCATTCAAACCGCAGGATCAGGTTGTGCTCCGTCTGGAAAGCCCTGGTGGCATGGTGCATGG -TTACGGGCTGGCGGCTTCGCAACTGCAGCGTCTGCGCGATAAAAACATTCCTTTAACTGTTACGGTAGACAAAGTCGCTG -CCAGCGGCGGTTACATGATGGCCTGTGTGGCGGACAAAATTGTTTCCGCACCGTTTGCTATTGTGGGTTCCATTGGCGTG -GTGGCGCAAATGCCCAACTTTAACCGCTTCCTGAAAAGCAAAGATATTGATATCGAACTGCACACTGCCGGGCAGTATAA -GCGCACGCTGACGTTGCTGGGTGAAAATACCGAAGAAGGGCGGGAGAAATTCCGCGAAGAGTTGAACGAAACGCATCAGT -TGTTTAAAGATTTTGTGAAGCGTATGCGTCCTTCTCTGGATATTGAACAGGTGGCAACGGGTGAACACTGGTACGGACAA -CAGGCGGTAGAGAAAGGCCTGGTTGATGAAATCAACACCAGTGATGAAGTTATTCTTAGCCTGATGGAAGGCCGTGAAGT -GGTCAATGTACGCTATATGCAGCGTAAACGACTCATTGACCGATTCACCGGCAGCGCGGCAGAGAGCGCCGATCGATTGT -TGCTACGCTGGTGGCAGCGGGGTCAAAAGCCATTGATGTAAAAGACAAACGCGAGGCTAAGACCTCGCGTTTTGCTTTAA -TCAACCAGATGATATTTTTCTGAAAGCACATGGGCCAGGTGTTTGAACATATTAAACACCGCGGTGCTTTTGGCTGTTGG -CAATCCTTGTTCATCTAAAAAGTAGTCGCCGGTAAATACCAGCACGCCATTACGCTGCGTGACGCCGGTGGCTTCAATCC -CTGCGAGCGTATCCTCATGCTCACGAATGATTTTGTTGGCCTCTTTCAACAGCGTTTCGCGGTCGATGGGTTGTGTCTCT -TTGTTCATTATTTACTCCTTAAACAAGGACATTAGTCTACGCCAGGCATGGCTTGCAGACAAATATACCACGCTGGTGGC -AAGAGCGCCTTACTGGCAACTTTGGATTTTGCATGCTAATAAAGTTGCGTATCGGATTTTATCAGGTACAGTGTGACGCT -TTCGTCAATCTGGCAATAGATTTGCTTGACATTCGACCAAAATTCCGTCGTGCTATAGCGCCTGTAGGCCAAGACCTGTT -AACTCAGTCACCTGAATTTTCGTGAACAGAGTCACGACAAGGGGTTGATATCCGCAGAGAGCGAGTCCATATCGGTAACT -CGTTGCCAGTGGAAGGTTTATCAACGTGCGACGCATTCCTGGAAGAATCAAATTAGGTAAGGTGAATATGGGTAAAGCTC -TTGTCATCGTTGAGTCCCCGGCAAAAGCCAAAACGATCAACAAGTATCTGGGTAGTGACTACGTGGTGAAATCCAGCGTC -GGTCACATCCGCGATTTGCCGACCAGTGGCTCAGCTGCCAAAAAGAGTGCCGACTCTACCTCCACCAAGACGGCTAAAAA -GCCTAAAAAGGATGAACGTGGCGCTCTCGTCAACCGTATGGGGGTTGACCCGTGGCACAATTGGGAGGCGCACTATGAAG -TGTTGCCTGGTAAAGAGAAGGTCGTCTCTGAACTGAAACAACTGGCTGAAAAAGCCGACCACATCTATCTCGCAACCGAC -CTTGACCGCGAAGGGGAAGCCATTGCATGGCACCTGCGGGAAGTGATTGGGGGTGATGATGCGCGCTATAGCCGAGTGGT -GTTTAACGAAATTACTAAAAACGCGATCCGCCAGGCATTTAACAAACCGGGTGAGCTGAATATTGATCGTGTTAATGCCC -AGCAGGCGCGTCGCTTTATGGACCGCGTGGTGGGGTATATGGTTTCGCCGCTGCTATGGAAAAAGATCGCTCGTGGCCTG -TCTGCCGGTCGTGTGCAGTCGGTGGCGGTTCGCCTGGTGGTCGAGCGTGAGCGTGAAATTAAAGCGTTCGTGCCGGAAGA -GTTCTGGGAAGTCGATGCCAGCACGACCACGCCATCTGGTGAAGCGTTGGCGTTACAGGTGACTCATCAGAACGACAAAC -CGTTCCGTCCGGTCAACAAAGAACAAACTCAGGCTGCGGTAAGTCTGCTGGAAAAAGCGCGCTACAGCGTGCTGGAACGT -GAAGACAAACCGACAACCAGTAAACCTGGCGCTCCTTTTATTACCTCTACGCTGCAACAAGCTGCCAGCACCCGTCTTGG -ATTTGGTGTGAAAAAAACCATGATGATGGCGCAGCGTTTGTATGAAGCAGGCTATATCACTTACATGCGTACCGACTCCA -CTAACCTGAGTCAGGACGCGGTAAATATGGTTCGCGGTTATATCAGCGATAATTTTGGTAAGAAATATCTGCCGGAAAGT -CCGAATCAGTACGCCAGCAAAGAAAACTCACAGGAAGCGCACGAAGCGATTCGTCCTTCTGACGTCAATGTGATGGCGGA -ATCGCTGAAGGATATGGAAGCAGATGCGCAGAAACTGTACCAGTTAATCTGGCGTCAGTTCGTTGCCTGCCAGATGACCC -CAGCGAAATATGACTCCACGACGCTGACCGTTGGTGCGGGCGATTTCCGCCTGAAAGCACGCGGTCGTATTTTGCGTTTT -GATGGCTGGACAAAAGTGATGCCTGCGTTGCGTAAAGGCGATGAAGATCGCATCTTACCAGCAGTTAATAAAGGCGATGC -TCTGACGCTCGTTGAACTTACACCAGCCCAGCACTTTACCAAGCCGCCAGCCCGTTTCAGTGAAGCATCGCTGGTTAAAG -AGCTGGAAAAACGCGGTATCGGTCGTCCGTCTACCTATGCGTCGATCATTTCGACCATTCAGGATCGTGGCTACGTGCGA -GTAGAAAATCGTCGTTTCTATGCGGAAAAAATGGGCGAAATCGTCACCGATCGCCTTGAAGAAAATTTCCGCGAGTTAAT -GAACTACGACTTTACCGCGCAGATGGAAAACAGCCTCGACCAGGTGGCAAATCACGAAGCAGAGTGGAAAGCTGTACTGG -ATCACTTCTTCTCGGATTTCACCCAGCAGTTAGATAAAGCTGAAAAAGATCCGGAAGAGGGTGGTATGCGCCCGAACCAG -ATGGTTCTGACCAGCATTGACTGCCCGACTTGTGGTCGCAAAATGGGGATTCGCACAGCGAGCACCGGGGTATTCCTTGG -CTGTTCTGGCTATGCGCTGCCGCCGAAAGAGCGTTGCAAAACCACCATTAACCTGGTGCCGGAAAACGAAGTGCTGAACG -TGCTGGAAGGCGAAGATGCTGAAACCAACGCGCTGCGCGCAAAACGTCGTTGCCCGAAATGCGGCACGGCGATGGACAGC -TATCTCATCGATCCGAAACGTAAGTTGCATGTCTGTGGTAATAACCCAACCTGCGACGGTTACGAGATCGAAGAGGGCGA -ATTCCGCATTAAAGGTTATGACGGCCCGATCGTTGAGTGTGAAAAATGTGGCTCTGAAATGCACCTGAAAATGGGGCGTT -TCGGTAAATACATGGCCTGCACCAACGAAGAGTGTAAAAACACACGTAAGATTTTACGTAACGGCGAAGTGGCACCACCG -AAAGAAGATCCGGTGCCATTACCTGAGCTGCCGTGCGAAAAATCAGATGCTTATTTCGTGCTGCGTGACGGTGCTGCCGG -TGTGTTCCTGGCTGCCAACACTTTCCCGAAATCGCGTGAAACGCGTGCGCCACTGGTGGAAGAGCTTTATCGCTTCCGCG -ACCGTCTGCCGGAAAAACTGCGTTATCTGGCCGATGCGCCACAGCAGGATCCGGAAGGTAATAAGACCATGGTTCGCTTT -AGCCGTAAAACCAAACAGCAATATGTCTCTTCGGAAAAAGACGGAAAGGCGACTGGCTGGTCAGCATTTTATGTTGATGG -CAAATGGGTTGAAGGAAAAAAATAACCTTTAATTCTGTCAGGTTTTTATAAACAAAGGGTCGCGAAAGCGGCCCTTTTTT -ATTGCATATTATTTTTTCTTCACACCTATACACTAAGGCTATAAATGATATAGTGGTTATAGTTAGCACCTTTTTTATTA -TTAAATCGTATTAGTCACCCGCCAGGTGTGACGAAAAAACGATGTTCTGATGGCGTCTAAGTGGATGGTTTAACATGAAA -TTACAACAACTTCGCTATATTGTTGAGGTGGTCAATCATAACCTGAATGTCTCATCAACAGCGGAAGGACTTTACACATC -ACAACCCGGGATCAGTAAACAAGTCAGAATGCTGGAAGACGAGCTAGGCATTCAAATTTTTTCCCGAAGCGGCAAGCACC -TGACGCAGGTAACGCCAGCAGGGCAAGAAATAATTCGTATCGCTCGCGAAGTCCTGTCGAAAGTCGATGCCATAAAATCG -GTTGCCGGAGAGCACACCTGGCCGGATAAAGGTTCACTGTATATCGCCACCACGCATACCCAGGCACGCTACGCATTACC -AAACGTCATCAAAGGCTTTATTGAGCGTTATCCTCGCGTTTCTTTGCATATGCACCAGGGCTCGCCGACACAAATTGCTG -ATGCCGTCTCTAAAGGCAATGCTGATTTCGCTATCGCCACAGAAGCGCTGCATCTGTATGAAGATTTAGTGATGTTACCG -TGCTACCACTGGAATCGGGCTATTGTAGTCACTCCGGATCACCCGCTGGCAGGCAAAAAAGCCATTACCATTGAAGAACT -GGCGCAATATCCGTTGGTGACATATACCTTCGGCTTTACCGGACGTTCAGAACTGGATACTGCCTTTAATCGCGCAGGGT -TAACGCCGCGTATCGTTTTCACGGCAACGGATGCTGACGTCATTAAAACTTACGTCCGGTTAGGGCTGGGGGTAGGGGTC -ATTGCCAGCATGGCGGTGGATCCGGTCGCCGATCCCGACCTTGTGCGTGTTGATGCTCACGATATCTTCAGCCACAGTAC -AACCAAAATTGGTTTTCGCCGTAGTACTTTCTTGCGCAGTTATATGTATGATTTCATTCAGCGTTTTGCACCGCATTTAA -CGCGTGATGTCGTTGATGCGGCTGTCGCATTGCGCTCTAATGAAGAAATTGAGGTCATGTTTAAAGATATAAAACTGCCG -GAAAAATAATTTCTTGCGTTATTTTCGGCACCTTTTATGTAGCGAAGGTGCCGGAATATATTCTCTTTTGTTACTTATTT -CTATACCGTGCACAATATTTTTATCCCTCATATTTATAGGGTAAATTACCTGTAAAGTAGTGTCTAATTACCCGCCTCGC -AAACTCCAGTTTTCAAATATCTATTTCAGGTCAAAAGATTGAATTATTCACTGGAGACGATTCGTAAATTCGCTGGATTT -TTGACTAAAGTTTCTTTAGGATTTGTCTCATCGTATGATTAATTACACCAATCGTTCAACGTCTTGCTGATAAGTGATGG -CGATTATATGAGGTTAGCAATGCCTTCTGGAAATCAGGAACCCCGCCGCGATCCTGAATTAAAACGTAAAGCCTGGCTGG -CGGTTTTTCTTGGTTCTGCACTTTTCTGGGTGGTTGTCGCACTGCTGATTTGGAAAGTGTGGGGATAACTATGGTCGGTC -AGGAGCAACTGGAGTCGTCACCATTATGCCAGCATAGTGACAATGAAACAGAAACGAAACGGGAATGTTCCGTCGTTATT -CCAGACGACTGGCAACTAACATCGCAGCAGCAAGCCTTTATAGAACTGTTTGCTGAAGATGATCAGCCGAAACAATAATT -ATCATCATTCTTATTACCCATTTTTAATGAATTAAAGGGCTTTTAATACACCGCAGCAATAACAGCTTGAGTTATCTCAA -CACAAAATAATAACCGTTAAGGGTGTAGCCTATGATCAACACAAATATGAAATATTGGTCCTGGATGGGCGCGTTTTCTC -TGTCGATGCTCTTCTGGGCCGAACTCCTCTGGATCATTACTCACTGATCCTTGACCCCGCTGCGGCGGGGTTGTCATTTG -CTTTGCCACAAGGTTTCTCCTCTTTTATCAATTTGGGTTGTTATCAAATCGTTACGCGATGTTTGTGTTATCTTTAATAT -TCACCCTGAAGAGAATCAGGGCTTCGCAACCCTGTCATTAAGGAGGAGCTATGTCGTCAACCCTACGAGAAGCCAGTAAG -GACACGTTGCAGGCCAAAGATAAAACTTACCACTACTACAGCCTGCCGCTTGCTGCTAAATCACTGGGCGATATCACCCG -TCTACCCAAGTCACTCAAAGTTTTGCTCGAAAACCTGCTGCGCTGGCAGGATGGTAACTCGGTTACCGAAGAGGATATCC -ACGCGCTGGCAGGATGGCTGAAAAATGCCCATGCTGACCGTGAAATTGCCTACCGCCCGGCAAGGGTGCTGATGCAGGAC -TTTACCGGCGTACCTGCCGTTGTTGATCTGGCGGCAATGCGCGAAGCGGTTAAACGCCTCGGCGGCGATACTGCAAAGGT -TAACCCGCTCTCACCGGTCGACCTGGTCATTGACCACTCGGTGACCGTCGATCGTTTTGGTGATGATGAGGCATTTGAAG -AAAACGTACGCCTGGAAATGGAGCGCAACCACGAACGTTATGTGTTCCTGAAATGGGGAAAGCAAGCGTTCAGTCGGTTT -AGCGTCGTGCCGCCAGGCACAGGCATTTGCCATCAGGTTAACCTCGAATATCTCGGCAAAGCAGTGTGGAGTGAATTGCA -GGACGGTGAATGGATTGCTTATCCGGATACACTCGTTGGTACTGACTCGCACACCACCATGATCAACGGCCTTGGCGTGC -TGGGGTGGGGCGTTGGTGGGATCGAAGCAGAAGCCGCAATGTTAGGCCAGCCGGTTTCCATGCTTATCCCGGATGTAGTG -GGCTTCAAACTTACCGGAAAATTACGTGAAGGTATTACCGCCACAGACCTGGTTCTCACTGTTACCCAAATGCTGCGCAA -ACATGGCGTGGTGGGGAAATTCGTCGAATTTTATGGTGATGGTCTGGATTCACTACCGTTGGCGGATCGCGCCACCATTG -CCAATATGTCGCCAGAATATGGTGCCACCTGTGGCTTCTTCCCAATCGATGCTGTAACCCTCGATTACATGCGTTTAAGC -GGGCGCAGCGAAGATCAGGTCGAGTTGGTCGAAAAATATGCCAAAGCGCAGGGCATGTGGCGTAACCCGGGCGATGAACC -AATTTTTACCAGTACGTTAGAACTGGATATGAATGACGTTGAAGCGAGCCTGGCAGGGCCTAAACGCCCACAGGATCGCG -TTGCACTGCCCGATGTACCAAAAGCATTTGCCGCCAGTAACGAACTGGAAGTGAATGCCACGCATAAAGATCGCCAGCCG -GTCGATTATGTTATGAACGGACATCAGTATCAGTTACCTGATGGCGCTGTGGTCATTGCTGCGATAACCTCGTGCACCAA -CACCTCTAACCCAAGTGTGCTGATGGCCGCAGGCTTGCTGGCGAAAAAAGCCGTAACTCTGGGCCTCAAGCGGCAACCAT -GGGTCAAAGCGTCGCTGGCACCGGGTTCGAAAGTCGTTTCTGATTATCTGGCAAAAGCGAAACTGACACCGTATCTCGAC -GAACTGGGGTTTAACCTTGTGGGATACGGTTGTACCACCTGTATTGGTAACTCTGGGCCGCTGCCCGATCCTATCGAAAC -GGCAATCAAAAAAGGCGATTTAACCGTCGGTGCGGTGCTGTCCGGCAACCGTAACTTTGAAGGCCGTATCCATCCGCTGG -TTAAAACTAACTGGCTGGCCTCGCCGCCGCTGGTGGTTGCCTATGCGCTGGCGGGAAATATGAATATCAACCTGGCTTCT -GAGCCTATCGGCCATGATCGCAAAGGCGATCCGGTTTATCTGAAAGATATCTGGCCATCGGCACAAGAAATTGCCCGTGC -GGTAGAACAAGTCTCCACAGAAATGTTCCGCAAAGAGTACGCAGAAGTTTTTGAAGGCACAGCAGAGTGGAAGGGAATTA -ACGTCACACGATCCGATACCTACGGTTGGCAGGAGGACTCAACCTATATTCGCTTATCGCCTTTCTTTGATGAAATGCAG -GCAACACCAGCACCAGTGGAAGATATTCACGGTGCGCGGATCCTCGCAATGCTGGGGGATTCAGTCACCACTGACCATAT -CTCTCCGGCGGGCAGTATTAAGCCCGACAGCCCAGCGGGTCGATATCTACAAGGTCGGGGTGTTGAGCGAAAAGACTTTA -ACTCCTACGGTTCGCGGCGTGGTAACCATGAAGTGATGATGCGCGGCACCTTCGCCAATATTCGCATCCGTAATGAAATG -GTGCCTGGCGTTGAAGGGGGGATGACGCGGCATTTACCTGACAGCGACGTAGTCTCTATTTATGATGCTGCGATGCGCTA -TAAGCAGGAGCAAACGCCGCTGGCGGTGATTGCCGGGAAAGAGTATGGATCAGGCTCCAGTCGTGACTGGGCGGCAAAAG -GTCCGCGTCTGCTTGGTATTCGTGTGGTGATTGCCGAATCGTTTGAACGAATTCACCGTTCGAATTTAATTGGCATGGGC -ATCCTGCCGCTGGAATTTCCGCAAGGCGTAACGCGTAAAACGTTAGGGCTAACCGGGGAAGAGAAGATTGATATTGGCGA -TCTGCAAAACCTACAACCCGGCGCGACGGTTCCGGTGACGCTTACGCGCGCGGATGGTAGCCAGGAAGTCGTACCCTGCC -GTTGTCGTATCGACACCGCGACGGAGTTGACCTACTACCAGAACGACGGCATTTTGCATTATGTCATTCGTAATATGTTG -AAGTAACAACTATTTGCTTGCCGGTTATTTTGCTTCCGGCAAGCAAATGAATTACACAATGCAAGAGGGTTATTTGTTCA -GCAAATGGCCCATTTTCTCGGCTTTGGTATCGAGATAATGTTCGTTATTGGGGTTACGACCTACAATCAATGGTACGCGT -TCAACAATATTAATCCCTGCTTCGGTCAGAATTTCGACTTTTTTCGGGTTATTGGTTAACAAGCGGACTTCATTGACGCC -AAGGAGTTTGAACATATCAGCGCAAAGAGTGAAGTCGCGCTCATCAGCGGCGAAGCCTAACTGGTGGTTAGCCTCTACGG -TATCGTAACCTTGATCCTGCAGTGCGTAAGCGCGGATTTTATTCAGCAGACCAATGTTACGACCTTCCTGACGGTGATAC -AGCAAAATACCACGGCCTTCCTCGGCAATTTGCGTCAATGCCGCTTCGAGCTGGAAGCCACAATCGCAGCGCAAGCTGAA -CAGGGCGTCACCGGTCAGACATTCGGAATGGACGCGCGCAAGTACCGGGGTATGCCCGGAAATATCGCCATAGACTAGCG -CGACATGATCGTGTCCGGTTGCCAGTTCTTCAAATCCCACCATCAGGAAATCGCCCCATGGGGTTGGCAGTTTGGCTTCT -GCCACACGTTTAAGCTGCATGAAATTCTCCAGATAATGCTGGTTCTGTATTGGCTTATTTTGCCATAACGAGAAGGGGTT -CACCTAATCACGACGCGTCGATCGTTCACGGAATGGCACAAATCTGTCAATTTTTCCTGGAACTGGCGTTTTCAGTTATG -ATTGTGGGACTTATCAAAAAGGAGAGGCCATGCGTTCGATTGCCAGACGTACCGCAGTGGGAGCTGCACTATTGCTTGTC -ATGCCAGTAGCCGTATGGATTTCTGGCTGGCGTTGGCAACCTGGAGAACAAAGTTGGCTACTAAAAGCGGCTTTTTGGGT -TACTGAAACTGTCACCCAGCCCTGGGGCGTCATTACACATTTGATTTTATTCGGCTGGTTTCTCTGGTGTCTGCGTTTTC -GCATTAAGGCTGCCTTTGTATTATTTGCCATTCTGGCGGCCGCAATCCTTGTGGGACAAGGCGTTAAATCCTGGATCAAA -GACAAAGTCCAGGAACCACGACCTTTTGTTATCTGGCTGGAAAAAACACATCATATTCCGGTTGATGAGTTCTACACTTT -AAAGCGAGCAGAACGCGGAAATCTAGTGAAAGAACAGTTGGCTGAAGAGAAAAATATCCCACAATATTTGCGTTCACACT -GGCAGAAAGAGACGGGGTTTGCCTTTCCTTCCGGTCACACGATGTTTGCTGCCAGTTGGGCACTGCTGGCCGTTGGTTTG -CTGTGGCCGCGTCGGCGAACGTTAACCATTGCTATCTTGCTGGTCTGGGCAACGGGAGTCATGGGAAGCCGCCTGCTGCT -CGGGATGCATTGGCCACGCGATCTGGTAGTAGCTACGTTGATTTCGTGGGCGCTGGTGGCGGTGGCAACGTGGCTTGCGC -AACGAATTTGTGGGCCATTAACACCACCTGCGGAAGAAAATCGCGAAATAGCGCAACGAGAACAAGAAAGTTAACGCTGG -TTGATTTTCCGAATTTAGCCCTTAAATCATCAACAATGCGTGTGGATGCCATTTCGCAGACGGCGCGAAAATGGTACTTT -AAAGGGCTATTGCGGTAAGTTGACCATAATTTATTCGCTCTAACCACATAACGGGAAGTAATGTGAAATATTTACTCATT -TTCTTACTGGTGTTAGCGATCTTCGTGATTTCGGTCACGTTGGGTGCGCAGAACGATCAACAGGTGACGTTTAATTATCT -GTTAGCGCAAGGGGAGTACCGTATTTCCACATTGCTGGCGGTATTGTTTGCTGCGGGGTTTGCTATCGGTTGGTTGATTT -GTGGCCTGTTCTGGCTGCGAGTTCGTGTTTCCCTGGCGCGCGCTGAACGTAAAATAAAGCGACTGGAAAACCAGCTTTCA -CCCGCGACTGACGTGGCTGTAGTGCCGCACTCGTCAGCGGCGAAGGAATAACTTTCTATGCTGGAGTTGTTGTTTCTGCT -TTTGCCTGTAGCCGCTGCCTATGGCTGGTATATGGGCCGCAGAAGTGCGCAACAAAACAAGCAAGATGAAGCCAACCGCT -TGTCGCGTGATTACGTAGCGGGGGTTAACTTCCTGCTTAGTAATCAACAGGATAAAGCGGTAGACCTGTTTCTCGATATG -CTTAAAGAGGATACAGGCACCGTTGAAGCCCACCTTACGCTCGGAAACCTGTTCCGTTCGCGTGGCGAAGTTGATCGCGC -TATTCGCATCCATCAGACCCTAATGGAAAGCGCCTCGCTGACCTATGAACAGCGTCTGTTGGCGATTCAACAACTGGGGC -GTGATTACATGGCCGCCGGGTTATATGACCGCGCGGAAGACATGTTCAATCAGCTGACCGATGAAACTGACTTCCGCATT -GGCGCGCTGCAACAGTTGCTACAAATCTACCAGGCTACCAGTGAGTGGCAGAAAGCAATTGATGTTGCCGAACGCCTGGT -GAAGCTGGGTAAAGATAAACAGCGCGTCGAAATTGCCCATTTCTACTGTGAGTTAGCCCTGCAGCATATGGCCAGCGACG -ATCTCGATCGTGCCATGACCTTGCTAAAAAAAGGGGCGGCGGCAGATAAAAACAGCGCCCGCGTATCCATAATGATGGGA -CGCGTGTTTATGGCGAAAGGAGAATACGCCAAAGCCGTCGAAAGTCTGCAACGCGTGATATCCCAGGACAGAGAACTGGT -CAGCGAAACGCTGGAAATGTTGCAAACCTGCTATCAGCAGTTGGGTAAAACTGCCGAATGGGCAGAATTCCTGCAGCGTG -CGGTGGAAGAGAACACCGGTGCCGATGCTGAATTGATGCTTGCTGATATCATCGAAGCGCGCGACGGTAGTGAGGCCGCA -CAGGTCTATATTACGCGCCAGCTTCAGCGTCATCCGACCATGCGTGTGTTCCATAAGTTAATGGATTACCACTTAAATGA -AGCGGAAGAAGGGCGTGCCAAAGAGAGCCTGATGGTGCTGCGTGACATGGTTGGCGAGAAGGTACGTAGTAAGCCTCGTT -ATCGTTGCCAGAAATGTGGTTTTACCGCATACACCCTCTACTGGCATTGTCCGTCTTGTCGGGCCTGGTCAACCATTAAA -CCGATTCGCGGTCTTGATGGCCTGTAATTTTTAAAAAAAATCCGACTTTAGTTACAACATACTAATTATTAATGTTCCAT -TGTGCTCCGGCAACGACGGCGCAGAAAAAGCCTGCCAGGGGAGAAATCGCAACTGTTAATTTTTTATTTCCACGGGTAGA -ATGCTCGCCGTTTACCTGTTTCGCGCCACTTCCGGTGCCCATCATCAAGAAGGTCTGGTCATGACGTTAACTGCTTCATC -TTCTTCCCGCGCTGTTACGAATTCTCCTGTGGTTGTTGCCCTTGATTATCATAATCGTGATGACGCGCTGGCCTTTGTCG -ACAAGATCGACCCACGCGATTGTCGTCTGAAGGTCGGCAAAGAGATGTTTACATTGTTTGGGCCACAGTTTGTGCGCGAA -CTTCAACAGCGTGGTTTTGATATCTTTCTTGACCTGAAATTCCACGATATCCCCAACACTGCAGCGCACGCTGTCGCTGC -TGCAGCTGACTTAGGCGTGTGGATGGTGAATGTTCATGCCTCTGGTGGGGCGCGTATGATGACCGCAGCGCGTGAGGCAC -TGGTTCCGTTTGGCAAAGATGCACCGCTTTTGATTGCTGTGACAGTGTTGACCAGCATGGAAGCCAGCGACCTGGTCGAT -CTTGGCATGACACTGTCACCTGCAGATTATGCAGAACGTCTGGCGGCACTGACGCAAAAATGTGGCCTTGATGGTGTGGT -GTGTTCTGCTCAGGAAGCTGTGCGCTTTAAACAGGTATTCGGTCAGGAGTTCAAACTGGTTACGCCGGGCATTCGTCCGC -AGGGGAGTGAAGCTGGTGACCAGCGCCGCATTATGACGCCAGAACAGGCGTTGTCGGCTGGTGTTGATTATATGGTGATT -GGTCGCCCGGTAACGCAATCGGTAGATCCAGCGCAGACGCTGAAAGCGATCAACGCCTCTTTACAGCGGAGTGCATGATG -AGTGATTCCAACAGCCGTCTGGTCTACTCAACGGAAACCGGACGTATTGATGAGCCCAAAGCGGCCCCTGTACGCCCTAA -AGGCGACGGTGTGGTGCGTATTCAGCGTCAGACCAGTGGACGTAAAGGTAAGGGCGTTTGCCTGATTACCGGTGTCGATC -TCGATGATGCCGAACTGACAAAACTTGCAGCGGAACTGAAGAAAAAATGCGGCTGCGGCGGAGCAGTTAAAGATGGAGTT -ATTGAAATCCAGGGCGATAAGCGTGATTTATTAAAATCACTACTTGAAGCGAAAGGGATGAAGGTAAAACTCGCAGGCGG -TTAACATAAAAAGCCACGGATATATCCGTGGCTTTCGAATATTTTACTGTGCGTATTATTCAGTTATTTCGTACTGAACA -GAATCAAGCGTATTATAATTGCGAGTCGATAATCGACATTTATTTACGATTATTTACCGACCTGGTGACCAATAACACCT -CCGACAGCTGCACCACCTAATGTACCCAACGTACTGCCATCGGTCAGTACTGCACCGCCTAATGCCCCTGCACCCGCGCC -GATTGCGGTGTTGCGGTCCCGTTTAGACCAGTTAGAACAGGCACTCAGAGACATTGCCAAAGTAATTGCCAGAACAGCCG -CGGTCATTTTTTTGCTCGTTACAAACATAATACTCTCTCCTGAATTTATGATTCACGGAAGTAAGCTCTCTATAACTATA -ATAGCTAAGAATAAGTCTGGTGAAATTATTCCGTGAAATCTGCTCGCGCGCAGGGTTATATCACGCAGGTGATAATGACT -TCCTGTTATATCGCTGATAATAATTTTATATCTTGAGAGTGTTAATAACAGGTAAATAGTCTTAATTATCAACCAGGAAT -CATCTTAGAGCGGATGATTTGCCAAACTGCAAATCATCCGTAGAGAAGGGAAATGGTTAAATGTCAACGACGTGAATGGT -GAGTTTACTGTGCTCAAGATGCATCAGATCGCTGGCGCGTATTTTCGAATCGGTAATCACGCGATTGAATCGCTCAACGG -GACCGATGGAGTATGAATGTACAGCACCAAATTTCGAGCTGTCAGTCAGGACTATCGCTTCGCACTCTTTTTCCAGCACG -GCATTGACCACATCGGTACGCATCATATCGCGACCGGTAAATCCAGTTTCAGGTTGCCAGCCATCAATACCAATAAATGC -TTTGCTGAAATGCACCTGTTGGATGCACTGGCGTGTCAAAGGGCCAACCATACTTTCGCTTTTTTTCTGATACACGCCAC -CGAGCAAAATAACTTCACAAGGCGCGTCTTTCAGCAAATGCGCGATGTAGCTGCTGACCGTGATGATAGTGACATTTTTC -TTCTGCTCGCCCAGAGTCCGGGCGAGTAGGGCATTGCTGCTGCCATTTTCGATAAAGATGGTTTCGCCCGGTTGAACCAG -CGACGCGGCAAACTCGGCGAGTTCACGCTTCAGCGTATAGTTGCTCATCATACGGGTTTCGACGTCATCACTATCAAGCG -AAACAGCAAAGCCATGTGCACGGCGGAGGTAACTCAGTTTTTCGAGTGTGTTGAGATCCTGGCGAATGGTAACTTCAGAA -ACTCCAGTGGCTTTTGCCAGATCGGTTACGCTAACCTGACCCTGGTCAATGACCATCTGTAGAATAGTTTGTTGTCGGGA -ATTCATCGCTGTAATTCTTATAACGTTATAATACTTAATAAAAAAATACTGACGCGCCGGGCATCCTCAAATAGGAAAAC -CTGAAGGCACGATTGTTAAATCTCCCACGGTGCCTTCGGGATGTCTGGCGTAGATTCAGCAACCTGGCGCAAGAGTTCTG -CTTTAAGTATCTCGAGATTATGGATCGCAGAGTGGTAATCGCCTGCCACAAGGATATCTAACACAATATCAATACGTTCG -GCAACGCGCTGGGCATCAAATTCAGACATCAAGGACATCCTTATAGCAAAAGGGGGAAAATGAATAATGCAAAAATTGCC -GCTAAAAGAGAAGTGTTTAACAGCAACGGCTAATTATCATCCAGGAATACGATATATAATGACGGGATATAGCGCTAAGT -ATATATATTCATCTACTTATGCGCGCTTCAGATAGCGTTTATACCAGCGTTCGAAGGCGACGGCGGGCATCGGTTTGGCA -AACAAAAATCCTTGCCGCTCATTGATCCCGTTCTTGGTTAAAAAAGCATCTTCCTTTGCACTCTCTACACCTTCGGCGAT -CACCTGAAGATTCAATGCCTGGGCCACAGCGACGATCGCCCGGACCAGTGACTGCGAGACAGGTTGTTTGTGAATATCTC -GAACAAAAACCTGGTCAAGTTTGATGGCATCGATCGGAAAGCGCGCCAGTTGCGAAAGTGAAGAGTAGCCGGTACCAAAA -TCATCCAGATGCACTTGCGCACCTAGTTGGCTAAATTGTTGAATAACAGACAGTGCCAGTTCATCATTCTCAATCAGACA -ACTCTCTGTCAGTTCAACATCTATAGGGCAGTATTCAAAATTGAGTTCCTGGAGAACCTGTTTCAGGGCGGTGAAAATGG -TTTGATCGGCGAGCTGACGTGCAGAAATATTTACCGCCACTCGCAGGTTTATGCCTTTATCCCGCCACTTTGCCACCTGG -CGTACGACATCGAGAATCACCCAACGGCCTAAAGGCACAATTAGCCCTGACTCTTCGGCGTAGGAAATGAAGTCCAACGG -TGGAATCAACCCACGTTCAGGTGACTGCCAACGTACTAGTGCTTCCAGACTGCGCACTTCGCCACGCCAGGTGATTTTCG -GTTGATAGTGAATAACCAACTGATCGTTTTCCAGTGCTTTACGCAAGTTGGTATCCAGCCAGAGATATTCAAATACCCGT -TGATTCATTTCTGGGGTAAAAACGCAAAATTGTCCTCGTCCGCCTTCCTTCGCTGTGTACATTGCTGTGTCGGCGTGACG -AATAATAGCCGTGCTGTCTGAACCATGTTCGGGAGAGAGTGCAATACCTACTGAACAGCTGGTATAAACTTCAATTAAAC -CAATGCGAAAGGGGAGCCGTAAGCGGGTCAAAATTCGTGATGCCATTGCTTCCAGCGCGCTTTGTGAGGTGTTGGATGCC -AGTACCAGAAACTCATCCCCACCTGGACGCGCCAACACCTGGTCATGTTCGAGACAGCTTAAAATAGCCAATGACACGTC -GCGTAATAACTGGTCACCAAACAAATGCCCATAGGCGTCGTTGACCTTTTTGAAATTATCCAAATCAAGATACACAACCC -CAACTTTATTGTTATCTGCATGATTAATAGCGTGATCGATTAAATCCTGCATTGCGTTACGATTCGGCAGTCCGGTGATA -CTGTCGGTATTTGCCAGAATACGCAGTCGCTCCTGAGCGCGGCGCTCTTCGGTAATGTCGGTGCCGGAACAGATTAAAAA -AATCTCGTTTTTGCCACTGCCGCTGTGGACAAATTTATTGCGAAACAGAAACAGCCGCTGGCCTTTACATGTTGGTATCC -ACAGTTCGACTTCATATGCATTGCCGCTTCGAAAAAATACACGGTTATTGCGCCTGGATGCCGCAGCTTCACGACGGCTC -ATAAACAGTTTAAACACGCTTTGCCCAATGACGTCGTGTTCTTTCAACCCTGTGTAATCTTCACATAACCGATTGAAGCG -TTGGATATTCCCCCGGCTGTCGAGAATCACTATTGCGGAATGTGCTTCAGAAACTACCTGCTCAGCAAAGGAAAGCCCGT -GTGATAAATCACGAGCAACCGCCGGTGTGTCATGCCATGCAGACGCGTTGCCAGCCCATTCCCGTTTATTGATTTTTCGT -CCTACCAGATGCACAGAAAGATCGCTTTCATCGACGGTCAGACTCATCATCAGGCTGGAGGTGATGACCGTCATTTCCCT -GATGCGAGCAGCCTGTTCGGCAGATAACTGCAATGTACGATCAGGTTCTGTGGTTTCGGTGGTAGAAAAGCGCAAAACAT -CGCTGCTTTCCGTCAACCGCCAGTATGGATTGTGCGATCCGAGAAAGTTGTACAACGTTGTGGACTCCCTAACGGTTTTC -ATGATGCATATCCTCCGGTTAACAGCGGAGTCCGCGGTTAAATAAAAGGAACAACATGACTTACATGAAATTAACGGCGG -CTAAACGCATTGTTTTTTTTATATATTTATTTGTAATCCAGTTTTGGAAAAACGCCAGTTTTCAAACGAAAGTCAGTTAA -AAAATCTGCCTGGATATAACGAAGGTAGAGCGGGGAAATAAACGGCCCATCCATGAGGAATGGGCCGTGAAAGGAGATTA -CGCGACCGGGCGCGCAATAATGCTGCGGGTTTCCATGCGGACTTCGGCAATAGTGACGTCAATAACGTCAGTCACTTTGT -AAACCGTTTCACCTTTAATTTGTACAGTGCCGTTTTCCTGGCTGCAAACCAGTTCATCGCGCACAGCGTGTAAGAAAGGT -GCCGGAATAAAGGCGATAGCGCCGTTATCAACCAAACGAACACGCATGCCGCCACGGCTGATATCGACAATTTCCGCTGC -GAAACGGGTGTCGGTCCCGGCTTTGTCTTTCAGGAAGCGTGCGTATAACCAGTCACCAACATCACGTTCTGCCATCCGGT -TGAGACGGCGACGCTCGGCCATTTGGACAGTGATTTCATCCTGTGGGCGCGTCGCAGTTTCGCCTTTGATAACCGCTTTC -AGCAGACGGTGGTTGATCATGTCGCCATATTTACGGATCGGCGAAGTCCAGGTGGCGTATGCTTCCAGACCGAGGCCAAA -GTGAGGACCGGGTTCAGTGCTAATTTCAGCAAATGACTGGAAGCGACGAATGCGGCTGTCGAGGAAACCAGTTGGTTGCG -CGTCCAGTTCACGACGCAGTTTGCAGAAACCGTCCAGCGTGAGCACTTCTTCGGCATCGACATGCAGACCGTGCGTTTTC -AGCAACGCTGCCAGCGCGTCGGCATTCGCCGGATCAAAGCCCATATGCACGTTATAGATGCCAAAACCGAGCTTATCGCG -CAGTACGCGGGCCGCACAAATGTTAGCGGCAATCATCGCTTCTTCGACGATACGGTTGGCAATGCGACGAGGCTCGGCGA -CGATATCCAGCACTTCACCTTTTTCACCGAGAATAAAGCGGTAATCCGGGCGATCTTTAAACACCAGTGCGTGGTTATGA -CGCCACTCGCCGCGGCGTTGGCAAATTTGCGCTAGCAAACGGACTTGTTCGGCAATTGCTTCACTTTCAGGCTGCCAGTC -ACCGGTATTTTCCAGCCAGTCAGAAACCTGGTCATACACCAGCTTTGCTTTGGATTCGATGGTGGCGGCAAAGAATTCGA -TATTATCTTCAATGGTGCCATCAGCGGAGAGCGTCATGCGGCATGCCAGTACCGGGCGGACTTCATTGGCGCGCAGTGAG -CAGAGATCGTCAGAAAGCTCGCGAGGCAGCATAGGGATGTTGAAGCCAGGCAGATAGTTGGTGAATGCGCGAATTTTCGC -GGCTTTGTCCAGCTTGCTGCCTTCAGCAATCCACGCGGTTGGATCGGCAATCGCCACAATCAGCTGAAGTTTGTCATCCG -GCAACGCCTTAGCGAAAAGGGCGTCATCCATATCTTCTGTGCTGGCACTGTCGATGGTGACAAAATCCAGCGCGGTCAGA -TCTTCACGAACCAGACCTTCATCGAGCATTTCGGTAGCGACGCCGTCTGGTGCTTCTTTTTCCAGATTATGGCGTGCAAG -GGTAACCCACCACGGTACAAAGTGATCGTCACCAAAAGTGATGTATTGTGTCAGTTCTGCATAGAAAGAACGATCGCCTT -TCAGCGGATGACGGCGCATTTCGGCAACCGCCCAGTCGCCTTCTTTAAACTCGTGGTTCAGGCCACGGGCTGCGCGGCAA -GGAATGGCGTCTTTTAAGAGTGGATGATCAGGAACGATGGCCAGACGGTCATTTTTGCCCTGAACCTTACCCACGAAACG -AGTCAGGAACGGTTCAACCAGTTCTTCTGGCTCTGCGGATTCACGTTCTTTTTCACTGTGGATCACCGCGATAATTCGGT -CGCCATGCATGACTTTTTTCATCTGCGGCGGCGGAATGAAATAACTTTTTTGCGCGTCGACTTCCAGGAAGCCAAAGCCT -TTTTCTGTGGCTTTTACCACCCCTTCAGCGCGTGGCGTCTGGGAATGCAGTTGCTGTTTAAGCTGCGCTAGCAGCGGGTT -GTCCTGAAACATAATTGTCTATTTTGGTGGCCATTAGAGCGGCTGACAGTTTTACGCGAATCTGTCTGACGCGGCAAGGT -TAATATGTCTCACCCAACGCGATTTTTAAGCGATTTATCCAGCCACACAGCCCGCTCCATACCAGCAGATTAATAATCTG -CGTTGATGATTTTTCGTGTTCGAGTAAAGGGCTGAACTGGGCGGCGCTAAAGCGATCGGGTGCTCGGGTCAGCCATTGTA -TCGCCTGAACGGTAGCGCGCTCAACAGAATGACGGTCAGCCCATTGGTTAATTTCATTTTCGCCCTTGCGCATAAGGGTG -CTGATTTTTTTATATTCATTTGATGAATCCATACAGGTGGCAAAACAAGCAGGACTGCCATTTATACGCGCGCATAACAA -CGCCGCAAGCTGATTATCCGGCTGTGTATTGCCCCGTGTGCTGTTTAACAACTTTTCGAGAAGGGAAAGTGAAATAGGGT -GGAGAGAGAGTATTTCGGCCAGTTGGCAAAGTTCTGCAGTTGAACTTTTTGTGTGCTCTTCAGGTAGTTTTTCCACCTCA -TAGCTGCTTCGCCAGCGTAATGATTCATCAGCAAACAGTGACGCGTCGGCGTAGTTTTGTATCTCCAGCCCGGGTAACCA -GCGTACCGGATGCCCGAGATAAGCCTGAAATGTCGCAATTGTCCGCGCCTGAAAGCCAATAAAACCAATGATTTGGCTAA -TGATCACACAGTCCCAGGCAGTAAGACCGACGTCATTCAGATGCTGGCGCGATCGGTTGTCGATAATAGAAGGCGAGCTA -GCCAGTTGGCGGGCATATTGCGTGATTTGTGCCAACCGATGATTACTTTCCCTGGTGGAATCAGGCCCGGGGAGCGGCGT -AAGTCGCGCCGAATAGTAGTTACATAACCGCTGGACGCCGCAAACCTGAGCAACCGTCAGGGCCGTCGACAAGCGTTCAT -AAGCGGTGAAGGTCTGTGAACGGGTCACGGTAAGCTGGTCAGGGAACAAATCCACTGCAAGAACACGCGCAGGGTCCAGC -CATGAAAGGAAGGGGGCCAGCGTTTCTTTTTCAAGGATCACGTCGAGTAGAAAGGGATCGCTGACCTTTGCGGCTTCCGG -GACCAGAGGCAGAACGTCATACTCCGTAGTACTGGATTGCGTTTCATGATACCAGTGGCTTTTGCCGGTGATGTGGCGTT -GTTCCATGGGCGCTCCTTGGTCGTAAAGGAAATCGTTATCCTGACGCAAGGCGGGAAGGGGAGAAAGACGGATCGGCGAT -AACAAATATCAGAAAGGTATAACAGAGATAACGGGCGGCAGAACGCCGCCCATCTTTACCAACAGAACGATTATTTCAGT -TCGAGTTCGTTCATTGCAGCAATGCTGAAACCGCCGTCAACGTGGACCACTTCACCGGAGATACCGGCAGAGAGATCGGA -GCACAGGAATGCCGCAGAGTTACCCACATCTTCAATAGTAACGGTACGGCGAATCGGGGTAACGGCTTCGCAATGAGCCA -GCATTTTGCGGAAGTCTTTGATACCGGAGGCCGCCAGAGTACGGATCGGACCAGCAGAGATGGCGTTAACACGCACACCT -TCCGGACCCATCGCGTTCGCCATATAGCGCACGTTCGCTTCCAGAGACGCTTTTGCCAGACCCATAACGTTGTAGTTCGG -GATAGCGCGCTCAGCGCCAAGGTAGGAAAGGGTCAGCAGGGCAGAACCCGGATTCAGCATGGAGCGGCAAGCTTTTGCCA -TTGCAACGAAGCTGTAGGAGCTGATGTCGTGGGCAATTTTGAAGCCTTCACGGGTAACGGCGTTAACATAGTCACCATCC -AGCTGATCGCCAGGTGCAAAACCAATAGAGTGTACGAAACCGTCAAATTTCGGCCAAACTTTCCCCAGTTCAGCGAACAT -GGTGTCGATGCTGGCATCTTCTGCAACATCGCACTGCAGAACGATGTCAGAACCCAATTGAGCGGCAAATTCTTCTACGC -GGCCTTTCAGTTTGTCGTTCTGGTAGGTGAATGCCAGTTCAGCTCCTTCGCGGTGCATCGCCTGAGCGATACCGTAGGCG -ATGGATAGTTTGCTGGCAACACCGGTTACCAGAATGCGCTTACCGGAAAGAAAACCCATAGCTTTAATCCTTATTGTTGA -TGCTTGTTGTGCCTGAAAATCAGGCGATTCGTCGTTTTAGTAAACAGTACGAACAGATAAACGGTTATTATAATCAACCT -GGCTGTGAGTAGCTATAGTTGCCAGGTCCGACCGGAGCAGGCTGCGGCAGGGGGGGCGCTTTTCCCCTCACCCTAACCCT -CTCCCCAGAGGGGCGAGGGGACCGTATTGTGCAAATATTGTTACCCCAGCAACAAACAGGCTCATACAGCCCCTAACCCT -TTCATGGCGATGGCTGGGACGGTTCAGACCTTGCCGAATATTCTCCAGCACCGTCTCCATGTTTTCACCACAACAGCTAT -TCGGCTCGGTCTGCCCCCTCGCTCTTTCAGGGAGAGGGTGACCGGCGGTTCAGTTCCTGCAGAATATTCTCCAGCACCGT -CTCCTCATTACAATCAATCTCGTTATTCCAGAAACGCAGCACGGTCCAGCCCTGCGACTCAAGCCAGCTAGTGCGCCTGG -AATCATAGGCAACTGCTAAATCATGCTGCCCACCATCCAGCTCAACGACTACACGCGCCGAGCAGCAAGCAAAATCGAGA -ATGTAGCTCCCCACTGGATGTTGACGGCGAAATTTGAAATCACTAAAACGTCGGCTGCGAAGATATCGCCAGAGCTTTCG -TTCCTGCAAAGTGAGATTGCGTCTTAAATCACGCGCATTTGATTTAATTTTATCTATCACCTCATTCTGACAAGATTTAA -TCTTTTGTCAGAATGAGGTGAATAATCTGGAAGGAGGATTCAGAAAATTAGCGATCTTTACGCCACGCATCCGCCGTCAA -TGCCTCGCCAAAATGACCGGCAATCAGCCGTTTGGTGAGTTCATGCAGCGGCGATGCCAGCACATCCGCGGTGCTGCCTC -GCTCGACAACCTCGCCCTGATGCATCACCAGCACCTGGTCGCTAATGTGCTTCATCATTCCGATATGCTGGGTAACATAA -ATATACGAAATGCCCTGTTTTTCCTGTAATTCCAGCATCAGATTAATCAACTGCGAACGCATCGACATATCCAGTGAAGC -GAGGGCTTCATCGGCAATAATGACTTTTGGGCGCAATATCAGCGCGCGCGCCAGACCCAGACGCTGTTTTTGTCCGGGTG -CCAACATATGCGGATAGTAACTGACGTGATCCGGTAGCAGCCCAACCATACGCATCGTTTCAATAATCTGTTTGCGACGC -TGTTCCGGTTCCAGGTCGGTGTTCAGGCGCAGTGGAAAATCCAGAATTTGCGAGATACGTTGACGGGGATTCAACGAGGT -CGAAGGATCCTGAAAAATCATGCGAATACGCTGACTGCGGAAGGAATAATCGCCAAAATGCAGTGGATGATCGTCAATCA -ATAACTCGCCGCTGGTAGGCTCTATCATTCCCGCCAGCATTTTTGCCAGCGTGGATTTACCCGAACCATTCTCGCCAATA -ATCGCCAGTGTCTGGCCTTCACGTAGCGTAAAGCTCAAGGGTTTTACCGCTTCTACGGTCTGACGACGAAACCAGCCGGT -CCGGTAGCGGAACGTTTTACTTAAATTACGCACTTCAAGCAGCGTTTCGATCATCTCACTCTTTCTCCATGTTCAGCGGG -AAATGACAGGCATAGAGATGATTTTTCGCCCCCGTCAAACGTGGCGTCACAATGCATTCTCGTTGTGCATACGGGCAACG -TGGCCCCAGACGACAACCAATCGGTAACTGTTCCAGCAGTGGGATAGCGCCGGGCAGCGTATTGAGGCGACTTTTATGCG -GCATCGCGCTGCCGAAGTCTGGTATCGCGCGGATCAGCGCCTGGGTATAAGGATGATGTGGCATCGTCACCAACTCCTTA -CTCGGCGCGGTTTCCACTGTTTGACCGCAGTAAAGCACGTTAATTTTATCCGCCCATTGGCTAAGCATTTGTAAGTCATG -GCTGATAAGCAAAATAGTGGTATTGCTGTTTTGGTTGAGACGCGTCAGCAGGCGAAAGATTTGCGCCTGGGTTGTTGGCT -CCATTGAGTTGGTCGGTTCGTCAGCAATCAGCAGACGCGGTTGATTCGCCAGTGCAATGGCTATCATCACTTTCTGACAT -TCACCTTCGGTCAACTCATAGGGAAAACTGCGCATCGCATCTTTGTGATCTTTAATCCCCACGCGGTGCAGCAGTTCAAT -GGCACGGCGTTTGCGCCAGCCAAAACGCTGCCACCAACGGCCTTTATAGGTCCAGGCTGGGATGTTTTGCATCAACTGGC -GGCCCACACGTTCTGAAGGGTCAAGACACGACTGCGGTTCCTGGAAAATCATCGACACGTTATGGCCAACCAGTTTGCGC -CGTTCGCGTGCGGAGAGACGCAGCAAATCGATATCATCAAAACGCATACGGTCAGCAGTAACACGCCAGTTATCTTTATT -CACCCCACAAATCGCTTTCGCAATCAAACTCTTGCCGGAACCGGATTCACCAACAAGACCGCGGATTTCACCTTCGGTTA -AGGTCATACTTACCCGGTCGACGGCTTTAACCCACTCATCACCGGTTTTAAATTCAATGGTCAGGTTACGAATATCGAGT -AATGGCATTATTCCACCCCCGCAATAATCGCACGACGAACGCCATCGCCAAGGAGGTTAACCAACAACACGCTAATCATA -ATTGCCGCACCTGGCAGCATGACAGTCCACGGGGCGACATAAATCAGTTCCAGCGCATCACCGAGCATCGCTCCCCATTC -AGGCGAGGGGAGTTGTGCGCCGAGATCGAGAAAGCCCAGCGCGGCGATATCGAGAATTGCCATCGACAGTGCGCGGGTGA -TCTCGGTGACCAGCCCGGCGGTGATGTTTGGCATCACAGCAAACCAGAGAATATTCAGCGTTGATGCGCCATCCAGACGG -GCGGCGATAACGTACTCTTTTTCCAGTTCGTCATGCACCATGCTGTAAATCGAACGTACCATACGCGGCAGCAATGCCAG -CCAGACAGCAAACATAGCGTGGGACAAACTCGGTCCGGCAAACGCTACAACGATAATTGCCAACAGCAGCGAAGGGATCG -CCAGTAAGGTATCCAGAATATGGTTAAGCACCGCTGAGCGGAGGCCGTGTGTCGCCCCGGCGAAGGTGCCCAGTACCAGG -CCACAGATCGTCGCGGCAAGCGTCACCACAAATGCGCCACCCACGGTTGGCGCAGCTCCGCTCAGTAAACGGCTTAAAAC -ATCGCGTCCGAGGTCGTCAGTCCCCAGGAAGAAAGAAACTTCGCCATAGCGCGACCATGACGGCGGCAATAATTGATAAC -CGAGAAATTGCTGGTCGATGCCGTAAGGCGCAAACCAGCCGCCAAAAATACACAGTACAGCCAGCCCCGCGCAGCCGTAC -AGGCCGACCATCGCAGAGGCGTCACTATAAAATTTGCGCCAGGCGGTACGCAGCGTGCCCGGCGGGCGCTTTTCGCTGTA -TACGCTATCGTAAGGCATACCATTCCTTATGTTTCAGAGGGTTAGCCATGGCACCCAAAATATCAGAAATCACGTTAACA -ATAATGACCAGTGAGCCACACACCATCACTCCGGCGGAAATGGCTGCGTAATCCTGCTGGCGGATGGCGTTAATTAACCA -GCGCCCTAAACCCGGCCAGCTAAAAACCATTTCGGTGATCATCGCCAGCGTCAGCATGGTGGAAAACTGTAAGCCCAGGC -GAGGAATAACCGGCGGTAACGCGTTATGCAGAACGTGGCGACGCAAAATAGTAAAGCGCGACAAACCGCGGGTCGCCGCC -GCTTTTACATAGTTCTGGTCATACACTTCGATAGTGCTGATACGCATCAGGCGGATCACTTCAGTTGTTGGCGCAACCGA -CAGGGTGATCACGGGCAATATCATATGGCGGATTGCGCTCATGATCATTTCATCCCGCCATGGTGAGTCCGAAAGCCAGG -CATCAATCAACGCAAAACCGGTAATCGGTTTCACTTCGTAGAGCAGATCGAAACGCCCTGAAACGGGCAACCAACCTAGC -GTGAGTGAACAAAACAGCGTCAACAGAAGCGCCAGCCAGAACACCGGGATTGAAAAGCCCAGTAAGGCGATGGCGTTGAT -CAAGTTATCCTGCCACTTATGGCGCGTAATCCCGGCAATCATCCCCACGGGGATGCCAACAATCAGCGCAAAACCGAAGG -CGAGGATGCACAGTTCCATCGTCGCCGGGAAGACCTCTTTTAACTGTTCGGCAATCGGTTGACCGTTAATGCTGGAAACA -CCAAAATCCCAGTGGATCAGGCCGTTAAACCAGAACACCCAGGCATTCCACAGTGACGCGCCTTGTAACGGCGCATGAGG -GGTGAAATAGCTCAAGCTGAAGCCAACGAAGGTCAGCAGGAACAAGGTGACAATCAATAACAAAATGCGGCGTAAGGTGA -AGATAATCATGGTTTTTTCACCTCATCCTGTTTCTCGCGATACACCCCAGCAAAGGAGGCGTTACCAAACGGGCTAAGTA -CCAGACCTTTGATATCGTACCGATAGGCCTGCAAACGCAATGACGACGCCAGCGGCAAAATGGGCAATTCCTGCGCCAGA -ATACTCTGCGCTTCGTCATAGGCTTCAATACGCGCCGCCAGCTGCTGCGAAGAGAGCGCCTTACGCAATACGCTGTCGAA -TTTCGGATCGCACCAGTGGGCGAGGTTGGTCTGCGAATGAATTGCCGCGCAGCTCAGTAACGGACGGAAGAAACTGTCCG -GGTCGTTACTGTCCGTCGCCCAACCGGATAACGTCAGATCATGGCTCATATCCATCAACCGCGCCTCCTGAAAGCGACCT -TCTACCGGCACAATCACCACTTTTACGCCAACCTGCGCCATATCCGCCTGAATCAGTTCGGCAGTTTTCAGTGGACTGGG -GTTCCACGCCTGCGAACGTGTGGGCACCCACAGTTTCAGCGTTAAATTTTCCAGCCCCAACGACTTCAACTGTTCGCGCG -ATTTCGCCGGATTGTATTCAGTAATTTTAGCCTCGTTGTCATAGGCCCACGAGGCGCGCGGTAAAATAGAGGCCGCCGTT -TCAGCCGTACCATAATAGATGGATTGCATCAGGCGCTGGTTATTAATCGCCAGTGCCAGCGCATGGCGGACAGCGGGATT -ATTTAGCGGCGGTTTGGCGGTGTTAAATGCCAGATAGGCGACGTTCATCCCAGGACGCAGCGTTAAACGCAAGCGCGGGT -CGTCACGCAAAATGGATAGCTGGCTGGCAGCAGGCCAGGCCAGAACGTCGCATTCCCCGGTCAGGAGTTTCGACAGACGT -CCGGTGCCGCCGGAGCCTAAATCCACCACTACCTGCGGCATTAACGGTTTACCGCGCCAGAAGTCATCATGACGTTGTAG -GCGAATAAATTGCCCGGCGCGGTATTCCGACAACTGATACGGACCGGTGCCGACCGGTTGACGGTCGAGTTGCTCCTGGC -GATCTTCTTTCTCTAACTTCCGGGCATATTCTGCCGACATGACCGAAGCATAATGGGTTGCGAGGTGCCACAAAAAAGAA -GCATCCGGCTGGGCGAGTCGGAACTCAACGGTATGATTATCCAGTTTGCGGACGCTTTTCACGTTATCGGCAAATTGCAG -GCTGTCGAAGTAGGGGAAGTTGCTGCCGTTGACGTTATGCCACGGGTTGTTGCGGTCAAAAATTCGCTGGAAGGTAAACA -CCACATCGTCGGCATTCATTTTACGAGTGGGAGTAAACCAGTCGGTTTTTTGAAACGGAACATCGCGACGCAGGTGGAAG -CGATAGGTCGCGCCGTTGTCGAGTACTTCCCAGCTTTCGGCAAGTTCCGGCATCAGGCGATAGGTATAGGGATCGACATC -CAGCAGTCGATCATAAAACTGGGCGGCAAGGGTATCGACAATTAACCCACTGCTCGCTTTGGATGGGTTAAAGGTGTTGA -CTTGCCCGCTGACGCAATAGACAAAACCGCTGTCGCGGATATCAGCATGCGGGGGAGATTCAGGCGCGGCGATTGCCTGA -CCACTCACAAGTCCAGCAATCACCAAAAGAGACGATAATACCTGGCGCATAATATTAAGGGATTTTATGTAAAGAGGCTA -TCTTACTAATATTTAATGACATTTGCCATTACCGTTTGTGTTCAGGGGTCGTAATGAGGGCTGTGTGGTTGGTCGTTGAA -CAGGTGACGTCGCCATCTGTTCAACATTCGTACCCGTGATTTCTCTATAACTATAACTCACAGAACAACTTAGCGAGGAG -CAGAGCGGTACGATCGTGAGAAACCCATTAAAGCACGCTGCAGTGCGTGTCATTGTTAGCCAGATGCGGCGTGAACGCTT -TATCCGGACAACGATACTGACCGATCGTCTGCAATTAAATCATTACTCATTACCCCATTGATTCAAAAACTCTGCGATCT -CATCAATGCGTACGGGATTAATCCCCGCTTCAGCAGCCATTTCATGTTGGGCTTCTTCGCTGATCTCTTCATTGTTCATC -AAACGGGTGAGCAGTAACTGGAAGTAGTGGGCCAGCGGTGTGCGTTCAGCCTCTGCGACAGGCTCTGCGCATTCGGTCGC -GTACTCATCGGCAATATCAAAATATTTTAGCGGGATATCGTGGTTCATTATTTGCCCCTGGGGTTAATGCGCTAAGCATA -AGGGCGGATGATAGCACTCGTGATCCGGGTCATACATCTTTTTATAGTTAATGGCGCGGCGCGTTACCCTCAGGCAGGAT -AATGCGCCGCGCATCCGACTATTACGTTTCACTCACCGGCGTTCTGTCACCATCATACAACGGCACTTTGCGATAGCGGC -GGATCAGATACCATAAATATGCGCCGCCTAACGAAGCCCATACCAGACCGAGTGTCAGTGACGTTGACTCGAGGTTAACC -CACAGCACACCCACCGTCAGCGCGCCAACCAGCGGCATCAGCAAATAGTGGAAGTGATCCTTCCAGCTTTTATTCATTCC -TTTACGCCGCCAGAAATGATTAAACACCGACAGATTCACGAAGGTAAACGCCACCAGAGCACCGAAGTTAATTAACGCTG -TGGCGGTAACTAAATCGAAGAACAGCGCCGACAACGCGACAATCCCGACCATAATGACGTTGAGTGCCGGAGTCCGCCAT -TTTGGGTGCACATAGCCAAACACGCGCTCCGGAAACACATTGTCACGCCCCATCACATACAGCAGACGCGACACGCTGGC -ATGTGAAGCCAGGCCAGAGGCTAACGTGTTCACAAACGTGGTGCAGAGGAAAATCGACTGGAAGAGCTTGCCGCCGACGT -ACAGCGCAATTTCAGGCAGTGCGGCATCCGGATCTTTAAAGCGGCTGATATCGGGAAAGAACAGCTGCATAAAGAACGAC -GCCGCGATAAAGATAACGCCACCGTAGACCGCCGTCAGGAAGATGGCTTTCGGGATCACGCGTGCGGCGTCCGGCGTCTC -TTCCGAAAGCGTGGTCACCGCATCGAAACCGAGGAAGGAGAAACAGACAATCGTCGCCCCGGTAATAATCGGGATCAGGT -GCGCGTTCTCGCTGATAAACGGCTGAAGTGACCAGACGGTGCCAACGCCTTCTCCTTTATGCAGTCCCTGAACTACCAGG -AAGATAAACACCACCATGATGGAGATTTGCACCAGTACAAACAGGGTATTGAAGTTAGCGACCAGGTTGACGCTCTTCAG -ATTCGCGGCGGTTAAAATGGCGACGAAGGTTACCACCCACACCCACGGCGGCACTTCCGGGAAGAGGGCGGAGAGATAGA -TTTTCGCCAACAAGACGTTAATCATCGGCAAAAAGAGACAATCCAGCAGCGATGACCAGCCGACCATAAATCCGACGTGC -GGGTTAATCGACTTTTGCGCGTAGGTATAGGCCGAACCGGCCTCCGGAAACTGGCGAACCAGTTTGCCGTAGCTGATAGC -GGTAAACAGCACACCCGCCAGCGCCAGCAAATAGGACGCCGGAACGTGACCGTCGCTAATGCCGGAGACAATACCAAAAG -TATCAAATACGGTCATCGGCGTGAGATAGGCCAGACCCATCATCACCACCTGCCACAATTTCAGTGATTTTCGCAGACGG -GTTTTGCCGGGTTGCGCAGCAATATTCAGTGGTGAATTAATAGCCATAATTGCTGCCTCCCCTGCGTAATAAGGTTTGCG -GTCGTGTCGACCTGAAATCAAACCTGTTTAGCAAGGGAAGCAAAGGGGGCGGAGTCCAGTCAGTAGCAGGAGGGGCGCAT -ACGCAGCCTCCCTCGCCATGCGGGGATTTAATCATCGGCATCATCTCATTTCCTCGTCACAGTCTTAATCGTTAACGGAA -GCCCGTTGCCGCCCGCGCTCCATAACGCGACATCCGGGAAATGTCTGGATTACCAGCAAATGTCAGGCCTGGCTCCGCTC -AGGCCGATGAAACAACCCCGCAAGGGGTATTACGCGTTTTTCAACATCCACTCAATTTCTGTTTCTGTGATGAGGCGCTC -AAACTGCAACAGCTCATCATTTTTACAGGCGTGATAGACATGGCAGAAGCGTTCGCCTAAATAGCGGCGCAGGTGATCAT -TCTCGATAAACTCACCCAGGGCATCGCTCTGGCGAATCGGAAAGGGTAAGCCTTCCTGTTCCAGCCCGTTGCCTTCGACT -TCTTCCTGCAACGGCAGCTCGTTATCAAGGCCATGCAAAATACCGGCAAAAATCGCTGCCATCACCAGATATGGGTTGGC -ATCGGCACCCGCCACGCGATATTCCACGCGGTGATTATGACGGTCGCCGCACGGAATACGCAGGGCGACGGTGCGGTTGT -TATGGCCCCACGACGCCTGCGTCGGCACATACATTCCCGGCTGGAAGCGGCGATACGAGTTCACGTTTGGTGCCAGCAAC -GCCATCGACGACGGCATCAGGTCAATCATCCCGGCGAGCATCTTTTTCAGCAGCGGCGAATCTTCGCCTTCCGCGTCAGA -AAGCACGTTCTCGCCACGATTATTTTGCATACTGATATGGATATGCATTCCGCTGCCCGCGTGCTCTTCATACGGCTTCG -CCATAAAAGTGGCGTGCATCTTATGCTTTTCTGCCATCAGACGCACCAGGCGTTTTAGTGCCAGCGCATCATCGCAGGCT -TCCAGCACGTTATCAGTATGGTAAAGGTTGATTTCAAACTGACCCGGCGAGGCCTCAGCGACCGCGCCATCTGCCGGAAT -CAGCTGTAACTGCGCCAGTTCATCAATATCATTGAGCACGTCGGCGAAGTGGTTGAGGTTATCAACGGAGTAAACCTGGC -TTTGTGTATTGCGGTCATCGGTGCCAGGCGCGCAGGGCGGTTGCAGATACCCTTCAGCGTCGCGCTGGCGATCCAGTAAA -TAGAACTCCAGCTCTACCGCTACGACCGGGAACAATCCGCGCTGGCGCAGCTGCTGCCACAGGCGGTTAAGAACGTTCCG -CGGCTCAACGTCAAAGGGAGCGCCATCTTCATCGACCATGGTCAGGAGCATCTGACCGATAAACTCTGGATCGGCGGCAG -AAGGAGTTAAGGAACCGAGAACAGGAACACAGGTACGATCCGGCTCGCCCATTTCCTGACCCAGACCTGCTTCTTCTACT -ACGTTGCCCAGAATATCCATTGCAAATACCGAGGCCGGGAAATAACACCCTTTCTCGAGCTTCTTCAGGCTTGAAACAGG -AATACGCTTTCCACGGAAGCAACCATTTAAATCGGTAAGTAAAACATCAACATATTGCGTATTCGGGTAGCGCTCCAGGT -AGCGTTTCACTTCCTGCGTAAAGGCGCTACCCCGCCTCTCTTCTGACTGCTGAACAAAGTTCTCTACTTCAACGATATTG -GTTTCCATGATTCTTCGCCTTTGGTTTGTTTTCCGCTCGTTATCAAAGCGTAAAATATAATGACCACCATTCGAATCTGT -ATGCAAACTAAATGTTTGTCAAATGTTAAATTGAGTTTGCAAAAATGAAAACCCACTGCTAGATTGAAAAAATATTGAAC -ATAAAGGTCATTTAAAGCGCAGTAATGGCGATAATTTAGTCCACTTTGTGAGATTGAGCATGGAAAATATAATGAACAAT -CCGGTTATCGGTGTCGTAATGTGCAGGAACAGGCTTAAGGGTCATGCGACCCAGACTCTGCAAGAAAAGTACCTGAATGC -CATCATCCATGCAGGCGGCTTGCCTATTGCGCTACCACATGCGCTGGCGGAACCGTCATTACTTGAACAACTTTTGCCGA -AACTCGATGGCATTTATCTTCCTGGTAGTCCCAGCAATGTGCAGCCGCACCTATATGGTGAAAACGGCGATGAGCCTGAC -GCCGATCCCGGGCGTGATCTTCTGAGCATGGCGATAATTAATGCCGCACTCGAAAGGCGCATCCCCATTTTCGCCATCTG -CCGGGGTTTACAAGAACTGGTGGTGGCAACCGGTGGTTCGTTGCATCGCAAGCTGTGCGAACAGCCTGAATTGCTGGAAC -ATCGGGAAGATCCCGAACTGCCGGTGGAACAGCAATATGCACCGTCGCATGAAGTTCAGGTTGAAGAGGGGGGATTACTG -TCTGCGTTGTTACCTGAATGTAGCAACTTTTGGGTAAACTCTCTACATGGACAAGGGGCGAAGGTCGTTAGCCCACGGTT -GCGTGTTGAAGCTCGCTCGCCGGATGGCTTAGTTGAGGCGGTTAGCGTCATCAATCATCCTTTTGCGCTGGGCGTACAGT -GGCACCCGGAATGGAACAGTAGCGAGTACGCGCTTTCGCGTATATTGTTCGAGGGCTTTATCACCGCTTGTCAGCACCAT -ATCGCTGAAAAACAGCGACTCTGACCACTACAGTTTAAGGAAATGCAAATATGAGTGATGAGGGACTGGCGCCAGGAAAA -CGCTTGTCGGAAATCCGCCAGCAGCAGGGGCTTTCACAACGTCGTGCCGCCGAACTCTCCGGGCTGACTCACAGTGCTAT -CAGTACGATAGAACAAGATAAAGTCAGCCCTGCCATCAGTACGCTGCAAAAGCTGCTGAAGGTGTATGGTCTGTCACTCT -CGGAATTCTTTTCCGAGCCGGAAAAACCTGATGAGCCGCAGGTCGTCATTAATCAGGACGACTTAATTGAGATGGGTAGT -CAGGGTGTGTCAATGAAGCTGGTTCATAACGGTAACCCGAATCGCACGCTGGCGATGATCTTTGAAACGTACCAGCCGGG -CACAACCACTGGGGAAAGAATTAAGCATCAGGGTGAGGAAATAGGCACTGTACTGGAAGGTGAAATTGTTCTGACGATTA -ATGGTCAGGATTACCACCTCGTCGCGGGGCAAAGTTATGCCATTAATACCGGCATCCCGCACAGTTTCAGTAATACGTCG -GCAGGTATTTGCCGAATTATCAGCGCCCATACGCCCACCACGTTTTAATCTTTTTGTTCTGTAAGCCGGGTAAGCGCAAT -GCGCCCGGCAATCTATACACAAAATCATTCAAGTTGCATCAAGGCGGCAAGTGAGCGAATCCCGATGAGCTTACTCAGGT -AAGTGATTCGGGGGAGCGAACGCAGCCAAGGCAGAGGCGGCTTGAAGGATGAAGTGTATATAAAGAATGTCGCCAGAAAT -AAACGGGCATACGGCCCGGGGATCTCTGCGCCCTGACGTTCACAAACTGCATATATCTGATAGACGTGAAACAGGAGTCA -TAATGAATTTTCATCATCTGGCTTACTGGCAGGATAAAGCGTTAAGTCTCGCCATTGAAAACCGCTTATTTATTAACGGT -GAATATACTGCTGCGGCGGAAAATGAAACCTTTGAAACCGTTGATCCGGTCACCCAGGCACCGCTGGCGAAAATTGCCCG -CGGCAAGAGCGTCGATATCGACCGTGCGATGAGCGCAGCACGCGGCGTATTTGAACGCGGCGACTGGTCACTCTCTTCTC -CGGCTAAACGTAAAGCGGTACTGAATAAACTCGCCGATTTAATGGAAGCCCACGCCGAAGAGCTGGCACTGCTGGAAACT -CTCGACACCGGCAAACCGATTCGTCACAGTCTGCGTGATGATATTCCCGGCGCGGCGCGCGCCATTCGCTGGTACGCCGA -AGCGATCGACAAAGTGTATGGCGAAGTGGCGACCACCAGTAGCCATGAGCTGGCGATGATCGTGCGTGAACCGGTCGGCG -TGATTGCCGCCATCGTGCCGTGGAACTTCCCGCTGTTGCTGACTTGCTGGAAACTCGGCCCGGCGCTGGCGGCGGGAAAC -AGCGTGATTCTAAAACCGTCTGAAAAATCACCGCTCAGTGCGATTCGTCTCGCGGGGCTGGCGAAAGAAGCAGGCTTGCC -GGATGGTGTGTTGAACGTGGTGACGGGTTTTGGTCATGAAGCCGGGCAGGCGCTGTCGCGTCATAACGATATCGACGCCA -TTGCCTTTACCGGTTCAACCCGTACCGGGAAACAGCTGCTGAAAGATGCGGGCGACAGCAACATGAAACGCGTCTGGCTG -GAAGCGGGCGGCAAAAGCGCCAACATCGTTTTCGCTGACTGCCCGGATTTGCAACAGGCGGCAAGCGCCACCGCAGCAGG -CATTTTCTACAACCAGGGACAGGTGTGCATCGCCGGAACGCGCCTGTTGCTGGAAGAGAGCATCGCCGATGAATTCTTAG -CCCTGTTAAAACAGCAGGCGCAAAACTGGCAGCCGGGCCATCCACTTGATCCCGCAACCACCATGGGCACCTTAATCGAC -TGCGCCCACGCCGACTCGGTCCATAGCTTTATTCGGGAAGGCGAAAGCAAAGGGCAACTGTTGTTGGATGGCCGTAACGC -CGGGCTGGCTGCCGCCATCGGCCCGACCATCTTTGTGGATGTGGACCCGAATGCGTCCTTAAGTCGCGAAGAGATTTTCG -GTCCGGTGCTGGTGGTCACGCGTTTCACATCAGAAGAACAGGCGCTACAGCTTGCCAACGACAGCCAGTACGGCCTTGGC -GCGGCGGTATGGACGCGCGACCTCTCCCGCGCGCACCGCATGAGCCGACGCCTGAAAGCCGGTTCCGTCTTCGTCAATAA -CTACAACGACGGCGATATGACCGTGCCGTTTGGCGGCTATAAGCAGAGCGGCAACGGTCGCGACAAATCCCTGCATGCCC -TTGAAAAATTCACTGAACTGAAAACCATCTGGATAAGCCTGGAGGCCTGAAATGACCGAACATACCAGCAGTTACTACGC -CGCCAGTGCGAATAAATATGCACCATTCGACACGCTGAATGAGTCAATCACCTGCGACGTTTGCGTGGTTGGCGGCGGCT -ATACCGGGCTCTCCTCCGCGCTGCATCTGGCGGAAGCGGGCTTTGACGTAGTGGTTCTCGAAGCCTCACGCATCGGCTTT -GGCGCAAGCGGGCGCAATGGCGGACAGCTTGTGAACTCCTACAGCCGCGACATCGACGTGATCGAAAAAAGCTACGGCAT -GGACACCGCCCGTATGCTCGGCAGCATGATGTTCGAAGGTGGTGAGATCATCCGCGAACGTATCAAACGTTATCAGATTG -ACTGCGACTACCGCCCCGGCGGCCTGTTTGTGGCGATGAATGATAAACAGCTCGCCACACTTGAAGAGCAGAAAGAGAAC -TGGGAACGCTACGGCAATAAACAGCTGGAATTGCTGGACGCCAACGCCATTCGCCGTGAAGTAGCCAGCGATCGCTATAC -CGGTGCGCTGCTGGATCACAGCGGTGGGCATATTCATCCGCTAAACCTTGCCATTGGCGAAGCGGACGCCATCCGCCTCA -ACGGCGGGCGCGTGTATGAACTTTCTGCCGTGACGCAGATCCAGCACACCACGCCAGCCGTTGTGCGAACTGCCAAAGGT -CAGGTGACGGCGAAGTATGTGATTGTCGCCGGGAATGCGTATCTGGGCGATAAAGTAGAGCCGGAACTGGCGAAACGCAG -CATGCCGTGCGGCACGCAGGTGATCACCACCGAACGGCTGTCGGAAGATTTAGCCCGTTCGCTGATCCCGAAAAACTACT -GTGTGGAAGACTGTAACTATCTGCTTGATTACTACCGTCTTACCGCCGACAACCGCCTGCTGTACGGCGGCGGCGTGGTC -TACGGCGCGCGCGACCCGGATGACGTTGAGCGCCTTGTGGTGCCGAAACTGCTGAAAACCTTCCCGCAGCTGAAGGGCGT -GAAAATTGATTACCGCTGGACGGGCAACTTCCTGCTGACCCTGTCGCGTATGCCGCAGTTTGGTCGCCTCGATACCAACA -TCTATTACATGCAGGGCTACAGCGGCCACGGCGTGACCTGTACTCATCTAGCCGGACGTTTGATTGCCGAACTGCTGCGC -GGCGACGCCGAACGTTTCGATGCCTTCGCCAATCTGCCGCATTACCCGTTCCCCGGCGGGCGCACGCTGCGTGTGCCGTT -TACCGCGATGGGCGCGGCGTATTACAGCCTGCGCGATCGTCTGGGCGTTTAATTTCCGATTAACCGTGAAGAGTCAAAAG -GTGTGAAACATGAGCAACAATGAATTCCATCAGCGTCGTCTTTCTGCCACTCCGCGCGGGGTTGGCGTGATGTGTAACTT -CTTCGCCCAGTCGGCTGAAAACGCCACGCTGAAGGATGTTGAGGGCAACGAGTACATCGATTTCGCCGCAGGCATTGCGG -TGCTGAATACCGGACATCGCCACCCTGATCTGGTCGCGGCGGTGGAGCAGCAACTGCAACAGTTTACCCACACCGCGTAT -CAGATTGTGCCGTATGAAAGCTACGTCACCCTGGCGGAGAAAATCAACGCCCTTGCCCCGGTGAGCGGGCAGGCCAAAAC -CGCGTTCTTCACCACCGGTGCGGAAGCGGTGGAAAACGCGGTGAAAATTGCTCGCGCCCATACCGGACGCCCTGGCGTGA -TTGCGTTTAGCGGCGGCTTTCACGGTCGTACGTATATGACCATGGCGCTGACCGGAAAAGTTGCGCCGTACAAAATCGGC -TTCGGCCCGTTCCCTGGTTCGGTGTATCACGTACCTTATCCGTCAGATTTACACGGCATTTCAACACAGGACTCCCTCGA -CGCCATCGAACGCTTGTTTAAATCAGACATCGAAGCGAAGCAGGTGGCGGCGATTATTTTCGAACCGGTGCAGGGCGAGG -GCGGTTTCAACGTTGCGCCAAAAGAGCTGGTTGCCGCTATTCGCCGCCTGTGCGACGAGCACGGTATTGTGATGATTGCT -GATGAAGTGCAAAGCGGCTTTGCGCGTACCGGTAAGCTGTTTGCCATGGATCATTACGCCGATAAGCCGGATTTAATGAC -GATGGCGAAAAGCCTCGCGGGCGGGATGCCGCTTTCGGGCGTGGTCGGTAACGCGAATATTATGGACGCACCCGCGCCGG -GCGGGCTTGGCGGCACCTACGCCGGTAACCCGCTGGCGGTGGCTGCCGCGCACGCGGTGCTCAACATTATCGACAAAGAA -TCACTCTGCGAACGCGCGAATCAACTGGGCCAGCGTCTCAAAAACACGTTGATTGATGCCAAAGAAAGCGTTCCGGCCAT -TGCTGCGGTACGCGGCCTGGGGTCGATGATTGCGGTAGAGTTTAACGATCCGCAAACGGGCGAGCCGTCAGCGGCGATTG -CACAGAAAATCCAGCAACGCGCGCTGGCGCAGGGGCTGCTCCTGCTGACCTGTGGCGCATACGGCAACGTGATTCGCTTC -CTGTATCCGCTGACCATCCCGGATGCGCAATTCGATGCGGCAATGAAAATTTTGCAGGATGCGCTGAGCGATTAATAGCC -CAACGCAATAATGTCTGATGCGCTGCGCTTATCAGGCCTGCAAACGACGTATTGATTATGTATGCCGAATAAAGCATTCA -CGCCGCATCCGGCAAGTTGTATTGCTCAACTTCGCTAAATCTGGTGCTTTTTCAACAACGCGCGGAACTGATGATAAGTT -AACCCCAGTAATTCAGCCGCGCGCTTCTGGTTATATTTCCCTTGTTGCAAACTGAGTTGCAGCAACTCTTTTTCCTGCTG -CATCTGAAACTCACGTAAATCCAGCGGCAGTGTTGGAAGCGAGGTGGTTTCTGAAACGGCGATAGCGTCTTCAGGCGGAC -GCCGTTTAAAGGGATCAATAATGATGTCATCAAGCGGATAATCGCTGGTGCCGTGGCGATACACTGAACGTTCCACCACG -TTTTTCAATTCACGAATATTTCCCGGCCAACGATAATTCAGCAATGTTTCTCTGGCGCGCTCCGTAAACCCCGGGAACAG -AGGCAGCTTGATTTCCCGACACATCTGGATGGCAAAGTATTCTGCCATCAACATTATGTCGCTTTCGCGCTCGCGCAGTG -GTGGCAGTTGTACAACATCAAAAGCCAGTCGGTCGAGCAGGTCAGCGCGAAAAGTGCCTTCATTGACCATCGCCGGGAGA -TCGGCATTCGTCGCGCATACCAACCGCACATTCACCTGCAATGGTTGGCTGCCGCCAACGCGCTCCAGTTCACCGTACTC -AATCACGCGCAATAATTTCTCCTGCACCATCATCGGTGCCGTAGCGAGTTCATCAAGAAATAGCGTACCGCCGTCGGCAC -GTTCAAATCTCCCTGGATGACGTTTTTGCGCACCGGTAAACGCCCCCGCTTCGTGACCAAACAGTTCGGAATCCAGCAGA -TTTTCATTTAACGCCGCGCAGTTAAGGGAAATAAACGGCCCTTGCCAACGGGAGGAGAGATAATGCAGGCGGCTGGCAAT -CAGCTCTTTACCGGTGCCGCGTTCGCCGATGATGAGCACCGGTTTGTCCAGCGGTGCGAGATGCGAAACCTGTTCCAGCA -CTTCGAGAAAGCTGTTCGCCTCACCAAGTAAATTATCTTTGTATTCTGCCATGATGAAATTCGCCACTTGTTAGTGTAAT -TCGCTAACTCATCCTGGCATGTTGCTGTTGATTCTTCAATCAGATCTTTATAAATCAAAAAGATAAAAAATTGGCACGCA -AATTGTATTAACAGTTCAGCAGGACAATCCTGAACGCAGAAATCAAGAGGACAACATTATGGGTATTTTTTCTCGCTTTG -CCGACATCGTGAATGCCAACATCAACGCTCTGTTAGAGAAAGCGGAAGATCCACAGAAACTGGTTCGTCTGATGATCCAG -GAGATGGAAGATACACTGGTTGAAGTACGTTCTACTTCGGCGCGCGCGTTGGCAGAAAAGAAACAGCTGACTCGCCGTAT -TGAACAAGCGTCGGCGCGTGAGGTTGAATGGCAGGAAAAAGCCGAACTGGCGCTGCTGAAAGAGAGAGAGGATCTGGCAC -GTGCAGCGTTAATTGAAAAACAGAAACTGACCGATCTGATTAAGTCCCTGGAACATGAAGTGACGCTGGTGGACGATACG -CTGGCACGCATGAAGAAAGAGATTGGCGAGCTGGAAAACAAATTGAGCGAAACACGCGCTCGCCAGCAGGCATTGATGTT -ACGTCATCAGGCGGCAAACTCGTCGCGCGATGTGCGTCGTCAGCTGGACAGTGGCAAACTGGATGAAGCAATGGCTCGTT -TCGAATCTTTCGAACGTCGTATTGACCAGATGGAAGCGGAAGCAGAAAGCCACAGCTTCGGTAAACAAAAATCGCTGGAC -GATCAGTTTGCCGAACTGAAAGCCGATGATGCAATCAGCGAACAACTGGCACAATTAAAAGCCAAAATGAAGCAAGACAA -TCAATAATAACATCCAGGCGGCGTCCGAACGCGCCGCCGCTCATCGTCTAAGGAGTACTTATGAGCGCGCTATTTCTGGC -TATTCCGTTAACCATTTTTGTGCTGTTTGTTTTACCGATCTGGTTATGGCTGCATTACAGCAATCGTTCTGGTCGCAGTG -AATTGTCGCAAAGTGAGCAGCAGCGATTAGCGCAACTGGCTGATGAAGCAAAACGGATGCGCGAACGTATTCAGGCGCTG -GAATCTATTCTTGATGCAGAACATCCGAACTGGAGGGATCGCTAATGGCGGGCATTAATCTCAATAAAAAATTATGGCGT -ATTCCACAGCAGGGCATGGTCCGCGGCGTCTGCGCCGGGATTGCCAACTATTTTGATGTACCGGTAAAACTGGTGCGTAT -CCTGGTGGTGCTGTCGATTTTCTTCGGTCTGGCGCTGTTTACCCTGGTTGCTTACATCATTTTGTCATTTGCGCTTGATC -CAATGCCGGACAACATGGCCTTTGGTGAGCAGCTACCTTCCAGCAGCGAATTGCTGGATGAAGTCGACCGTGAACTGGCG -GCAAGTGAAACGCGTTTACGCGAGATGGAACGTTATGTCACTTCCGATACTTTCACGTTACGTAGCCGTTTCCGTCAACT -GTGAGGAAAGTTATGAATACTCGCTGGCAACAGGCCGGGCAAAAGGTAAAGCCTGGTTTCAAATTAGCAGGCAAGCTGGT -ACTTCTTACCGCACTGCGCTATGGCCCGGCGGGTGTGGCGGGCTGGGCGATAAAATCAGTTGCTCGCCGACCGCTGAAAA -TGTTGCTGGCTGTGGCGCTGGAACCGCTGTTAAGTCGGGCTGCTAATAAACTGGCACAGCGTTATAAAAGGTGAGGGGAG -TTTCGCAAAAATTGTTAAATCTCAGGCGTATAATGGATGGCAATTTTCATCCATAGAAGGACGCTTACATGTTTAAAAAA -GGCTTACTTGCTCTGGCACTGGTGTTTTCACTGCCCGTTTTCGCCGCTGAACACTGGATCGATGTTCGTGTTCCAGAGCA -GTATCAGCAAGAGCACGTTCAGGGGGCCATCAATATTCCCCTGAAGGAAGTGAAAGAGCGCATTGCCACCGCCGTTCCGG -ATAAAAACGACACCGTGAAAGTGTATTGCAATGCCGGACGCCAGTCAGGGCAAGCAAAAGAGATCCTTAGCGAGATGGGA -TATACCCACGTTGAGAACGCCGGTGGCCTGAAAGACATCGCAATGCCGAAGGTCAAAGGTTAAAAGAATTCACCATGAGC -GGCGCTTATGCGCCGTTTTTTTTTCTGTCACACCTTATTTACATCCCCATAGATTATTTGCGTCAGCTCACAAATACGCT -TTTTCCCTGGTAAAAAATGATTTCCTGCGTGACTAAAACCCTTGTGCTCAATTGACAGTTTATTTTCTGCGGAGTAGTCT -CTCGTTTCATGGGACCGCTACCACGGAAAGGCAACATGAAACAGAAAATTACGGATTACCTGGACGAAATCTACGGTGGA -ACATTTACCGCAACTCATTTACAGAAACTTGTAACGCGTCTTGAGAGTGCGAAACGATTAATTACACAGCGACGTAAAAA -ACACTGGGATGAAAGTGATGTCGTGTTAATTACCTATGCCGATCAATTTCACAGCAATGATTTAAAACCATTACCCACAT -TTAATCAGTTTTACCATCAATGGCTGCAAAGCATTTTTTCACATGTTCATTTGTTGCCGTTTTATCCATGGTCATCTGAT -GATGGCTTTTCGGTAATTGATTATCATCAGGTCGCCAGTGAAGCGGGGGAGTGGCAGGATATTCAGCAACTCGGTGAATG -CAGTCATTTAATGTTTGATTTTGTCTGCAACCATATGTCGGCAAAAAGTGAATGGTTTAAAAACTATTTACAACAGCATC -CAGGTTTTGAAGATTTTTTTATTGCCGTTGACCCGCAAACCGATCTCAGCGCCGTCACTCGCCCGCGTGCGTTACCGTTA -TTAACGCCATTCCAGATGCGCGATCATTCAACGCGCCATTTATGGACCACCTTTAGTGACGATCAAATTGACCTGAATTA -CCGTAGCCCTGAAGTGTTGCTGGCGATGGTGGATGTTTTACTCTGTTACCTTGCGAAAGGTGCTGAGTATGTCCGCCTGG -ATGCCGTTGGCTTTATGTGGAAAGAGCCGGGAACAAGCTGCATCCATCTGGAAAAAACACATCTGATTATCAAACTGTTA -CGGTCGATTATTGATAACGTTGCGCCAGGTACAGTGATCATTACCGAGACCAATGTTCCGCATAAAGACAACATTGCTTA -CTTTGGCGCAGGCGATGACGAAGCACATATGGTGTACCAGTTCTCGCTGCCGCCACTGGTGCTGCATGCGGTGCAAAAAC -AGAACGTTGAGGCGCTTTGTGCGTGGGCGCAAAACCTGACACTACCTTCCAGCAACACCACCTGGTTTAACTTCCTCGCC -TCTCACGATGGCATCGGGCTAAACCCGCTACGGGGCTTGTTGCCTGAAAGCGAAATATTAGAGCTGGTCGAGGCGTTACA -GCAGGAAGGTGCATTAGTAAACTGGAAAAATAATCCCGACGGTACACGCAGTCCGTATGAAATAAATGTGACCTATATGG -ATGCGTTAAGCCGCCGTGAGAGTAGCGATGAAGAACGTTGCGCCAGGTTTATCCTTGCCCATGCGATTTTGTTAAGTTTC -CCCGGTGTGCCAGCGATATATATTCAAAGTATTCTTGGCTCGCGTAATGATTACGCAGGTGTCGAAAAACTCGGATATAA -CCGTGCGATTAACCGTAAAAAATATCACAGTAAAGAGATAACCCGAGAACTGAACGATGAAGCTACATTAAGGCATGCGG -TATATCATGAGTTGTCGCGTTTAATTACACTTCGTCGCAGCCATAACGAGTTTCATCCGGATAATAATTTTACCATTGAT -ACGATTAATTCATCCGTAATGCGTATTCCAAGAAGTAACGCTGATGGTAATTGTCTGACTGGATTGTTTAATGTCAGTAA -AAATATTCAGCATGTAAATATTACTAATCTGCATGGTCGGGATCTGATTAGTGAAGTTGATATATTGGGTAATGAAATAA -CGCTGCGCCCCTGGCAGGTTATGTGGATTAAATAAAAAGGAACATCTCATGATTAAATCAAAAATCGTGCTGTTATCAGC -ACTGGTTTCATGCGCCCTGATTTCAGGCTGTAAAGAAGAAAATAAAACGAATGTATCCATCGAATTTATGCATTCTTCGG -TGGAGCAGGAGCGCCAGGCCGTTATCAGTAAATTGATTGCCCGTTTTGAAAAAGAAAACCCTGGCATCACCGTTAAGCAA -GTGCCCGTGGAAGAAGATGCCTATAACACTAAAGTCATTACTCTTTCACGTAGCGGTTCGCTGCCGGAAGTGATCGAAAC -CAGCCATGACTACGCCAAAGTGATGGACAAAGAGCAGCTTATCGATCGCAAAGCGGTTGCCACAGTCATCAGCAACGTTG -GTGAAGGCGCGTTTTACGATGGCGTACTGCGTATTGTGCGTACCGAAGATGGTAGCGCATGGACCGGTGTTCCTGTCAGC -GCCTGGATTGGCGGTATCTGGTATCGCAAAGATGTGCTGGCAAAAGCGGGGCTTGAGGAGCCGAAAAACTGGCAACAGCT -GCTGGACGTTGCACAGAAACTGAATGACCCGGCGAATAAAAAATACGGCATTGCGCTGCCTACAGCAGAAAGCGTGTTGA -CGGAACAATCCTTCTCCCAGTTTGCGTTATCCAACCAGGCTAACGTCTTTAACGCCGAAGGCAAAATCACCCTTGATACA -CCAGAGATGATGCAGGCACTGACCTATTACCGCGACCTTACTGCCAACACTATGCCGGGTTCTAACGACATCATGGAAGT -GAAAGACGCCTTTATGAACGGCACCGCGCCGATGGCGATTTACTCCACCTATATCCTTCCGGCTGTGATTAAAGAAGGCG -ACCCGAAAAACGTCGGTTTCGTGGTGCCAACCGAGAAAAACTCTGCGGTCTACGGCATGTTGACCTCGCTGACCATTACC -GCCGGGCAAAAGACCGAAGAGACGGAAGCAGCAGAAAAATTTGTCACCTTTATGGAGCAGGCAGACAACATTGCCGACTG -GGTGATGATGTCGCCAGGTGCTGCGCTGCCGGTGAATAAAGCGGTGGTGACTACCGCCACCTGGAAAGACAACGACGTTA -TTAAGGCGCTGGGTGAACTACCGAATCAGCTAATCGGTGAACTGCCAAATATTCAGGTTTTTGGCGCAGTAGGGGATAAA -AACTTTACCCGCATGGGTGATGTGACGGGTTCTGGCGTGGTGAGTTCAATGGTGCATAACGTCACCGTGGGTAAAGCCGA -TCTCTCTACTACGCTGCAAGCGAGCCAGAAAAAACTGGATGAACTGATCGAACAGCACTAAACCCAGGACAGGAATCCGC -AATGAACAGGCTTTTTTCAGGTCGTTCCGATATGCCCTTTGCGCTGCTGCTTCTCGCGCCCAGCTTATTACTGCTGGGCG -GTCTGGTGGCGTGGCCGATGGTGTCGAATATCGAAATCAGTTTTTTACGTCTGCCGCTCAATCCCAACATCGAGTCAACG -TTTGTTGGGGTGAGCAACTATGTGCGTATCCTCTCCGATCCCGGCTTCTGGCATTCGCTGTGGATGACGGTCTGGTATAC -CGCGCTGGTGGTGGCGGGCAGCACCGTGCTCGGGCTGGCGGTGGCGATGTTTTTCAACCGCGAGTTCCGCCTGCGCAAAA -CCGCGCGTTCGCTGGTGATCCTCTCCTACGTAACGCCGTCCATTTCGCTGGTGTTCGCCTGGAAATACATGTTCAACAAC -GGCTACGGCATTGTTAACTACCTCGGCGTCGATCTTCTGCATCTCTATGAGCAGGCACCGCTGTGGTTCGATAATCCGGG -CAGTAGCTTTGTGCTGGTGGTGCTGTTCGCCATCTGGCGCTACTTCCCGTATGCCTTTATCTCGTTTCTGGCGATTTTGC -AGACCATCGACAAATCGCTGTACGAAGCGGCAGAGATGGATGGCGCTAATGCCTGGCAACGGTTTCGTATCGTCACGCTG -CCCGCAATTATGCCGGTCCTGGCGACGGTGGTGACACTGCGCACCATCTGGATGTTCTACATGTTCGCGGATGTTTATTT -GCTGACGACCAAGGTCGATATTCTCGGTGTATATCTCTACAAAACCGCCTTTGCCTTTAATGATTTAGGAAAAGCGGCGG -CGATCTCGGTGGTGCTCTTCATCATTATTTTCGCTGTCATTCTGCTGACCAGGAAACGGGTGAACCTCAATGGCAACAAA -TAAACGCACACTCAGTCGCATCGGTTTTTACTGCGGGCTGGCGCTGTTTCTCATCATCACGCTGTTTCCATTTTTTGTGA -TGCTGATGACCTCGTTCAAGGGCGCGAAAGAGGCGATCTCACTGCATCCTACGCTGCTGCCGCAGCAGTGGACGCTGGAG -CATTACGTCGACATTTTTAACCCGATGATTTTCCCGTTTGTCGACTACTTCCGTAACAGTCTGGTGGTGTCTGTGGTTTC -ATCCGTGGTGGCGGTATTCCTCGGCATTCTTGGGGCTTACGCGCTTTCCCGCCTGCGCTTTAAAGGTCGGATGACCATCA -ACGCCAGCTTTTACACGGTGTATATGTTCTCTGGCATTTTGCTGGTGGTGCCGCTTTTCAAAATCATCACCGCGCTTGGC -ATTTACGACACTGAGATGGCGCTGATCATCACCATGGTGACGCAAACTCTGCCCACCGCCGTGTTTATGCTGAAAAGCTA -CTTCGACACCATCCCCGATGAGATCGAAGAAGCGGCGATGATGGATGGCCTCAACCGTCTGCAAATTATCTTCCGCATCA -CCGTGCCGTTGGCGATGTCCGGGCTGATATCCGTGTTCGTCTACTGCTTTATGGTGGCGTGGAACGACTATCTGTTTGCG -TCGATTTTCCTCTCCAGCGCCAGCAATTTCACCTTACCGGTGGGCCTGAACGCGCTGTTCAGTACGCCAGATTACATCTG -GGGACGGATGATGGCGGCCTCACTGGTGACCGCATTGCCGGTGGTGATTATGTATGCGCTTTCGGAACGTTTTATTAAGA -GTGGTTTGACCGCCGGTGGCGTGAAGGGCTAAAGCGGCCAGTTTCTTTACAAGGAGTTTTAAATGAAAAAGTTAGTAGCC -ACAGCACCGCGTGTTGCTGCGCTGGTTGAGTATGAAGATCGGGCGATTTTAGCTAATGAAGTGAAGATCCGCGTGCGTTT -CGGCGCACCGAAACACGGAACGGAAGTGGTCGACTTCCGCGCCGCCAGCCCGTTTATTGATGAAGACTTTAACGGCGAAT -GGCAGATGTTCACTCCGCGTCCGGCAGATGCGCCGCGCGGCATTGAGTTTGGCAAATTCCAGCTTGGCAACATGGTGGTT -GGCGACATTATCGAGTGCGGCAGCGACGTTACCGACTACGCGGTGGGCGACAGCGTATGCGGCTACGGCCCGCTCTCCGA -GACGGTCATCATTAACGCAGTGAATAACTACAAGCTGCGCAAAATGCCGCAAGGCAGCTCCTGGAAAAACGCCGTCTGCT -ACGACCCGGCGCAGTTTGCCATGAGCGGCGTGCGCGATGCCAACGTGCGCGTAGGGGATTTTGTGGTGGTGGTAGGGCTT -GGCGCAATCGGTCAAATTGCCATCCAACTGGCTAAACGCGCTGGCGCTTCTGTGGTGATTGGCGTCGATCCTATCGCCCA -TCGCTGTGATATTGCCCGTCGCCACGGCGCGGATTTCTGCCTTAACCCCATCGGCACTGATGTAGGTAAAGAGATCAAAA -CGCTGACCGGCAAGCAGGGTGCCGATGTGATTATCGAAACCAGCGGCTACGCCGACGCGCTGCAATCGGCGCTCCGCGGT -CTGGCTTATGGCGGCACCATCTCCTATGTCGCGTTTGCCAAGCCGTTTGCCGAAGGTTTTAACCTCGGACGCGAAGCGCA -TTTCAATAACGCCAAAATTGTCTTCTCTCGCGCGTGCAGCGAACCGAACCCGGATTATCCGCGCTGGAGCCGCAAGCGTA -TTGAAGAAACCTGTTGGGAACTGCTGATGAACGGTTATCTCAATTGCGAAGATTTAATCGACCCGGTGGTGACCTTTGCC -AATAGCCCGGAAAGCTATATGCAGTATGTCGACCAGCATCCGGAACAGAGCATCAAAATGGGCGTTACGTTTTAATTCAA -AGGAATGAAAAAAATGAAAATCGGCACACAGAATCAGGCGTTCTTTCCGGAAAACATTCTGGAGAAATTTCGTTATATCA -AAGAGATGGGCTTCGATGGTTTTGAGATTGACGGCAAACTGCTGGTTAACAACATCGAAGAAGTCAAAGCGGCGATCAAA -GAAACCGGTTTACCGGTGACCACCGCCTGCGGTGGCTATGACGGATGGATTGGCGACTTTATCGAAGAGCGTCGTCTTAA -TGGCTTAAAGCAGATCGAGCGCATTCTCGAAGCGCTGGCAGAAGTGGGCGGTAAAGGCATCGTCGTTCCGGCTGCGTGGG -GCATGTTTACCTTCCGCTTACCGCCGATGACCTCGCCGCGTAGCCTGGACGGCGACCGCAAAATGGTGAGTGATTCCCTG -CGCGTACTGGAACAGGTCGCCGCGCGTACCGGAACCGTGGTGTATCTCGAACCGTTAAACCGCTATCAGGATCATATGAT -CAACACCCTCGCCGATGCCCGCCGTTACATCGTCGAAAACGATCTTAAACATGTACAGATTATCGGCGATTTCTATCACA -TGAATATCGAAGAAGATAACCTGGCGCAGGCGCTGCATGACAACCGCGACCTGCTCGGTCATGTGCATATTGCGGATAAC -CATCGCTACCAGCCGGGCAGCGGCACCCTGGATTTCCACGCGCTGTTTGAACAGCTGCGCGCGGATAACTATCAGGGCTA -TGTAGTGTACGAAGGGCGTATCCGGGCGGAAGATCCTGCCCAGGCGTACCGTGATTCGTTGGCCTGGTTGCGTACCTGCT -AAGAGGTCTTTGTGAAAAGTGCAATGACAAGCTCTCCGCTGCGGGTCGCGATAATAGGCGCAGGCCAGGTGGCGGATAAG -GTTCATGCTTCGTACTACTGCACCCGCAACGATCTGGAACTGGTGGCTGTCTGTGACAGCCGCCTTTCCCAGGCGCAGGC -GCTGGCAGAAAAATACGGGAATGCATCCGTGTGGGACGATCCGCAGGCCATGCTGCTGGCGGTGAAACCTGATGTGGTTA -GCGTCTGCTCACCTAACCGTTTTCATTACGAACATACCCTGATGGCACTGGAAGCGGGCTGCCATGTGATGTGCGAAAAA -CCGCCCGCCATGACGCCAGAACAGGCGCGGGAAATGTGCGATACCGCGCGCAAACTGGGCAAGGTGCTGGCCTACGACTT -TCACCATCGTTTTGCGCTCGATACGCAACAGCTGCGTGAACAGGTGACCAACGGCGTTTTGGGAGAGATTTACGTTACCA -CCGCCCGCGCCCTGCGTCGCTGCGGCGTTCCCGGCTGGGGTGTCTTTACCAATAAAGAACTGCAGGGTGGTGGCCCGCTG -ATCGACATCGGCATTCATATGCTGGATGCTGCGATGTATGTGCTGGGCTTTCCGGCGGTGAAAAGCGTGAATGCGCATAG -CTTTCAAAAGATCGGCACGCAAAAGAGCTGTGGTCAATTTGGTGAGTGGGATCCGGCAACTTACAGCGTCGAAGATTCGC -TGTTTGGCACCATTGAATTTCATAACGGCGGCATTCTGTGGCTGGAAACGTCATTTGCACTCAACATCCGCGAACAGTCG -ATTATGAACGTCAGCTTTTGTGGTGATAAAGCTGGTGCGACGCTGTTTCCAGCACATATCTACACCGATAACAACGGTGA -ATTAATGACGCTGATGCAACGGGAAATAGCAGACGACAACCGCCATTTGCGCAGCATGGAAGCCTTTATCAATCACGTAC -AGGGCAAGCCCGTGATGATAGCCGACGCCGAGCAGGGGTACATCATCCAGCAACTGGTGGCGGCGTTGTATCAATCCGCA -GAAACAGGGACGCGTGTGGAATTATGACCAGGCCAGTAACGTTATCAGAACCCCATTTCAGCCAGCATACCCTGAACAAG -TATGCATCGCTGATGGCGCAGGGGAACGGCTATCTTGGGCTTCGCGCCAGCCATGAAGAAGATTACACGCGCCAGACGCG -AGGGATGTATCTGGCGGGGCTGTATCATCGGGCGGGAAAAGGTGAAATCAACGAACTGGTGAACCTGCCTGATGTCGTGG -GGATGGAGATTGCCATAAATGGTGAGGTTTTCTCGTTATCCCACGAAGCCTGGCAGCGTGAGCTTGACTTTGCCAGTGGC -GAATTACGCCGCAATGTTGTCTGGCGTACCAGCAACGGCTCAGGTTACACCATCGCCAGCCGTCGCTTTGTTTCGGCAGA -CCAACTGCCGCTCATTGCGCTGGAAATCACTATTACGCCACTGGACGCCGACGCGTCAGTGCTGATTTCAACAGGCATTG -ACGCCACGCAAACCAATCACGGTCGCCAACATCTCGACGAAACCCAGGTGCGGGTGTTTGGTCAGCATCTGATGCAGGGG -AGCTACACCACCCAGGATGGACGCAGTGATGTGGCCATCAGCTGTTGCTGTAAGGTGAGCGGTGATGTGCAGCAATGCTA -TACCGCCAAAGAGCGCCGTTTACTGCAACATACCAGTGCGCAGCTTCATGCAGGCGAGACAATGACGTTGCAAAAACTGG -TGTGGATCGACTGGCGGGATGACAGGCAAGCTGCTTTAGACGAGTGGGGCAGCGCGTCGCTTCGCCAGCTTGAAATGTGC -GCGCAGCAGAGTTACGACCAACTTCTTGCAGCATCAACAGAAAACTGGCGTCAATGGTGGCAGAAACGTCGTATCACGGT -AAATGGCGGCGAAGCGCACGATCAGCAAGCGTTAGATTATGCGCTTTATCATCTGCGCATCATGACGCCTGCCCACGACG -AGCGCAGCAGCATTGCGGCAAAAGGCTTAACCGGCGAAGGCTACAAAGGCCACGTTTTCTGGGATACAGAAGTATTTTTG -TTACCGTTTCATCTGTTTAGCGATCCGACGGTTGCCCGAAGTTTACTGCGTTATCGCTGGCACAACTTGCCAGGCGCGCA -GGAGAAAGCGCGACGCAACGGCTGGCAGGGCGCGCTATTTCCGTGGGAAAGCGCGCGCAGCGGCGAAGAAGAGACGCCGG -AATTTGCCGCCATTAACATTCGCACCGGGCTGCGGCAAAAAGTGGCCTCGGCGCAGGCGGAACATCATCTGGTGGCCGAT -ATCGCCTGGGCGGTTATTCAATACTGGCAGACCACGGGGGATGAAAGTTTCATTGCGCATGAAGGCATGGCGCTACTTCT -GGAGACGGCAAAGTTCTGGATTAGCCGCGCGGTGAGAGTTAACGATCGTCTGGAAATTCATGATGTTATTGGGCCAGACG -AATATACCGAACATGTCAATAATAATGCATACACCAGCTATATGGCCCGCTACAACGTTCAACAGGCGCTGAATATTGCC -CGCCAGTTCGGCTGTAGCGACGATGCGTTTATCCATCGCGCCGAAATGTTCCTCAAAGAGCTATGGATGCCAGAAATTCA -GCCCGACGGCGTTTTGCCGCAGGATGATTCGTTTATGGCTAAGCCGGCGATTAATCTGGCGAAATACAAAGCGGCGGCGG -GGAAGCAAACCATACTGCTGGATTATTCACGCGCAGAAGTGAACGAGATGCAGATCCTCAAACAAGCTGATGTGGTGATG -CTCAATTACATGCTGCCGGAGCAGTTCTCAGCGGCATCGTGTCTTGCCAATCTGCAATTTTATGAACCGCGCACTATTCA -CGACTCGTCATTAAGTAAAGCAATCCACGGCATTGTTGCCGCACGCTGTGGCCTGCTGACCCAAAGTTATCAGTTCTGGC -GCGAGGGGACTGAAATCGATCTTGGTGCTGATCCGCATAGTTGTGATGATGGTATCCATGCTGCCGCAACTGGCGCTATC -TGGCTGGGGGCGATTCAGGGTTTTGCCGGGGTGAGCGTGCGTGACGGTGAATTGCATCTCAATCCGGCGTTACCTGAGCA -GTGGCAACAGTTGTCTTTCCCTCTGTTCTGGCAGGGCTGCGAATTACAGGTCACTCTTGACGCGCAGCGTATTGCGATTC -GAACTTCTGCGCCCGTTTCACTGCGTTTGAACGGTCAGCTTATAACCGTGGCTGAAGAATCTGTTTTCTGTTTGGGTGAT -TTTATTTTGCCCTTCAATGGGACCGCTACCAAACATCAGGAGGATGAATGAAACTGCAAGGGGTAATTTTCGATCTGGAT -GGTGTAATCACCGATACCGCGCATCTGCATTTCCAGGCGTGGCAGCAGATTGCCGCTGAAATTGGCATCAGCATTGATGC -GCAGTTTAACGAATCCCTAAAAGGGATCAGCCGCGATGAGTCTCTGCGGCGCATTCTGCAACACGGGGGCAAAGAGGGCG -ACTTTAACTCGCAGGAGAGGGCGCAACTGGCGTATCGCAAAAATCTGCTCTATGTCCACTCACTACGCGAGTTGACGGTC -AACGCTGTTCTACCCGGCATTCGCTCTTTGCTGGCAGATCTCCGTGCACAGCAGATCTCGGTTGGGCTGGCTTCTGTCTC -CCTGAATGCGCCGACGATTTTAGCGGCGCTGGAGCTGCGCGAGTTTTTCACCTTCTGCGCGGATGCTTCCCAACTTAAAA -ACTCGAAACCGGACCCGGAAATCTTTCTCGCCGCCTGTGCAGGGCTGGGCGTGCCGCCGCAGGCATGTATCGGCATTGAA -GATGCGCAGGCGGGCATTGACGCCATTAACGCCAGCGGTATGCGCTCGGTGGGGATCGGCGCGGGCTTAACCGGGGCGCA -ATTACTGTTGCCTTCAACGGAATCACTCACCTGGCCGCGGTTATCGGCCTTCTGGCAAAACGTATAGCAAAGGAATCAAC -ATGGCTCAGCTTTCGTTACAACATATTCAAAAAATCTACGATAACCAGGTGCATGTGGTGAAGGACTTCAACCTGGAAAT -TGCCGATAAAGAGTTCATCGTGTTTGTCGGCCCGTCGGGCTGCGGTAAGTCGACCACCCTGCGCATGATTGCCGGGCTTG -AGGAGATCAGCGGCGGCGATCTGTTGATCGACGGCAAACGAATGAATGACGTTCCAGCCAAAGCACGCAATATAGCGATG -GTGTTCCAGAACTACGCGTTGTATCCGCATATGACGGTTTACGACAACATGGCGTTTGGTCTGAAGATGCAAAAAATCGC -CAAAGAGGTGATTGATGAGCGGGTGAACTGGGCGGCGCAAATTCTCGGCCTGCGTGAGTACCTGAAACGTAAGCCGGGGG -CGCTTTCCGGCGGGCAACGTCAGCGAGTGGCGCTTGGGCGGGCGATTGTACGCGAAGCGGGCGTGTTTTTAATGGATGAA -CCGCTCTCTAACCTTGATGCCAAGCTGCGCGTGCAAATGCGCGCAGAGATCAGCAAGCTGCATCAGAAACTGAACACCAC -CATGATCTACGTGACCCACGATCAGACCGAAGCGATGACCATGGCGACGCGGATTGTGATTATGAAAGACGGGATTGTTC -AGCAAGTAGGTGCGCCGAAAACCGTTTATAACCAACCCGCGAATATGTTTGTTTCCGGATTTATTGGATCACCAGCGATG -AATTTTATTCGCGGCACGATCGATGGCGATAAATTCGTTACGGAAACGCTTAAATTAACCATTCCCGAAGAGAAATTAGC -GGTTCTGAAAACACAGGAAAGTTTGCATAAGCCCATCGTGATGGGAATACGACCGGAAGATATTCATCCGGACGCGCAAG -AGGAAAATAACATTTCCGCCAAAATTAGCGTGGCAGAATTAACCGGTGCGGAATTTATGCTCTACACCACGGTTGGGGGC -ACGAGTTAGTGGTCCGTGCTGGTGCGTTAAATGATTATCATGCAGGAGAAAATATCACTATTCATTTTGATATGACGAAA -TGTCATTTCTTTGATGCAGAAACGGAAATAGCAATTCGCTAAATACAGGGGGAAGGCATTCCCCCAGGATAATACAAGGA -ACAATAATGAAAAAGTTATTACCCTGTACCGCACTGGTGATGTGTGCGGGAATGGCCTGCGCACAGGCCGAGGAAAGGAA -CGACTGGCACTTTAATATCGGCGCGATGTACGAAATAGAAAACGTCGAGGGTTATGGCGAAGATATGGATGGGCTGGCGG -AGCCTTCAGTCTATTTTAATGCCGCCAACGGGCCGTGGAGAATTGCTCTGGCCTATTATCAGGAAGGGCCGGTAGATTAT -AGCGCGGGTAAACGTGGAACGTGGTTTGATCGCCCGGAGCTGGAGGTGCATTATCAGTTCCTCGAAAACGATGATTTCAG -TTTCGGCCTGACCGGCGGTTTCCGTAATTATGGTTATCACTACGTTGATGAACCGGGTAAAGACACGGCGAATATGCAGC -GCTGGAAAATCGCGCCAGACTGGGATGTGAAACTGACTGACGATTTACGTTTCAACGGTTGGTTGTCGATGTATAAATTT -GCCAACGATCTGAACACTACCGGTTACGCTGATACCCGTGTCGAAACGGAAACAGGTCTGCAATATACCTTCAACGAAAC -GGTTGCCTTGCGAGTGAACTATTATCTCGAGCGCGGCTTCAATATGGACGACAGCCGCAATAACGGTGAGTTTTCCACGC -AAGAAATTCGCGCCTATTTGCCGCTGACGCTCGGCAACCACTCGGTGACGCCGTATACGCGCATTGGGCTGGATCGCTGG -AGTAACTGGGACTGGCAGGATGATATTGAACGTGAAGGCCATGATTTTAACCGTGTAGGTTTATTTTACGGTTATGATTT -CCAGAACGGACTTTCCGTTTCGCTGGAATACGCGTTTGAGTGGCAGGATCACGACGAAGGCGACAGTGATAAATTCCATT -ATGCAGGTGTCGGCGTAAATTACTCGTTCTGATAATGGGCTAAATTGCCGGATGCGGCGCGAGTACTTTATCCGATCTAT -AAATGTAGGCCGGATAAGATGCGCTAGCATCGCATCTGGCATTCAGGCAAGGTAGCTGGTATTTATTTCAGCGTCATATG -CGTGGCAACGGTAATATTCTGTGGTGACGGTTTTCCAGAAATTAAGCGGAATAATAACTCGCAGCTTTGTTGACCTAACT -CCTGCGTCGGAACATCGATGCCGCCCGGTGCAGGCGTTAAAATAAATGACAGCGTTTCATTGCTATAACCCACCACCGCT -AACTGCTGCGGAATAGCAATATTTTTCTCTGCTGCCGCACGATAAATGCTCATTAATTTCAGGCTGTCAGTGGCAAACAC -CGCCTCAGGCAACGGTGACTGGCTTAATAATTGCCGTGCTGCTTTTAATGCAGTTTCATGGGTATAACCGCCATCAACAA -TCCATTCATCACGCACTGCAATATTATGCGCAGCCAGGCTCTGCTTATAACCATTAACGCGATCAACCGAAACATGGACA -TCAAGCGGAGCATGCAGGCAGGCAATATTTTGATGCCCACTTTCAATTAATGCATCGGTCAACGCAATGCTGTCGCCAAA -ATTATCGGTATCGACAGAATAAACATGGGCATATTGACCTTCAACTTTGCCAATCACCACCACCGGAATATCATATTTAT -CGAGTTGGGCAAAAAATGACTCATCCGCTGGCGAACTGAGCATAATAATGCCTTTAATCATTTTCTGCTTAATTTTGCTT -TCGCATTTTTGCAGATCTTCTGCCGGATTGTGCGACGTTTGTAATATCACGTCGAAACCTTCTTCTTCAGCTTTGGCGGT -GATGGCATGCAAAACTTCAGAGAAAAACGGATTACCCGCCGTAGTTTTGGTCGAACGGGTAGAAATCACCATAATGGCAT -CAAAACCCGAAGAGGTCAGCGCGCGGGCCAGCTTGTTTGGCTGATACTGTAATTCTTCAATGGCCCGTAACACTTTTTCG -CGCGCTTCCGGGGAGATATTAGTTTGCTTATTCAGCACGCGTGATACGGTGGATTTTGATACGCCTGCAACCCTGGCAAT -ATCATAAATAGTAGGGGACATAGGTCAGGAACTCCGTCCGAACGTGAATGCTGCACATCTTATGGAGTTCGCCGGTCGAT -GACAACACGGGCAGTTGATAATCAATGGCCTGGCCCCCACATTCATATCCTTACGAATGATTTTTTTTCTGGTCTTCAGA -GCAGCACAGGACAGCAATGAAGCGACTTAAAAATGAACTCAATGCGCTGGTGAATCGGGGTGTCGACAGACATCTGCGCC -TCGCTGTAACCGGACTTAGCCGCAGCGGCAAAACAGCGTTTATCACCGCGATGGTTAATCAGTTGCTTAATATTCACGCC -GGAGCACGTTTGCCGCTGTTAAGTGCGGTGCGTGAAGAGCGCCTGCTGGGCGTGAAACGCATTCCCCAGCGTGACTTTGG -CATTCCGCGCTTCACCTATGACGAAGGGCTGGCGCAGTTATATGGCGATCCACCCGCCTGGCCAACGCCAACGCGCGGCG -TCAGTGAAATCCGCCTGGCGCTACGTTTTAAATCGAATGATTCGCTGCTACGCCACTTTAAGGATACCTCCACGCTGTAT -CTGGAAATTGTGGATTATCCCGGCGAATGGTTGCTCGACCTGCCGATGCTGGCGCAGGACTATTTAAGCTGGTCGCGCCA -GATGACGGGCTTACTCAATGGTCAGCGCGGAGAATGGTCGGCGAAATGGCGAATGATGAGCGAAGGGCTGGACCCGCTAG -CGCCTGCCGACGAAAACCGGCTGGCGGACATTGCCGCCGCGTGGACCGATTATCTCCACCACTGTAAAGAGCAGGGGCTG -CACTTTATTCAGCCTGGGCGCTTTGTCTTGCCGGGAGATATGGCAGGTGCGCCCGCGCTGCAATTCTTCCCGTGGCCGGA -TGTCGATACCTGGGGCGAGTCCAAACTGGCGCAGGCCGATAAGCATACCAATGCCGGAATGCTGCGCGAGCGCTTTAATT -ATTACTGCGAGAAGGTGGTGAAGGGGTTCTATAAGAATCATTTTCTGCGCTTTGACCGCCAGATTGTGCTGGTGGATTGC -CTGCAACCTCTCAACAGTGGGCCACAGGCATTTAATGATATGCGTCTGGCACTGACGCAGCTGATGCAAAGTTTTCACTA -CGGGCAGCGTACCCTGTTCCGGCGTTTGTTTTCGCCGGTTATCGATAAGCTATTGTTTGCTGCCACTAAAGCGGACCATG -TGACCATCGATCAGCACGCTAATATGGTTTCATTACTGCAACAACTGATTCAGGATGCCTGGCAAAATGCGGCGTTCGAA -GGGATCAGCATGGACTGCCTGGGGCTGGCGTCAGTTCAGGCGACCACCAGCGGCATTATTGATGTTAACGGTGAGAAAAT -CCCGGCGCTGCGTGGTAATCGACTTAGCGATGGCGCACCGCTCACTGTTTATCCTGGCGAAGTTCCCGCACGTTTGCCTG -GTCAGGCGTTCTGGGATAAGCAAGGCTTCCAGTTTGAGGCATTTCGTCCGCAGGTGATGGATGTCGACAAACCACTACCG -CATATTCGTCTTGATGCTGCGCTGGAATTTTTAATAGGAGATAAATTGCGATGACCGAACCGTTAAAACCACGTATTGAT -TTCGACGGTCCTCTGGAGGTCGATCAGAATCCTAAATTCAGGGCGCAGCAGACCTTTGACGAAAATCAGGCGCAAAATTT -TGCCCCGGCCACGCTCGACGAAGCGCAGGAAGAAGAGGGGCAAGTCGAAGCGGTAATGGACGCAGCGTTACGTCCGAAAC -GCAGCCTGTGGCGCAAAATGGTGATGGGAGGGCTGGCTCTGTTTGGCGCAAGCGTTGTCGGGCAGGGTGTACAGTGGACA -ATGAATGCCTGGCAAACCCAGGACTGGGTGGCGCTGGGTGGATGTGCCGCTGGGGCATTGATTATCGGCGCTGGCGTAGG -TTCTGTGGTAACAGAGTGGCGGCGCTTATGGCGCTTGCGACAGCGCGCCCATGAACGCGACGAAGCGCGTGATTTATTGC -ATAGCCACGGCACGGGCAAAGGCCGCGCATTTTGCGAAAAACTGGCGCAGCAGGCGGGTATTGATCAGTCGCATCCGGCG -CTGCAACGCTGGTATGCCTCAATCCATGAAACGCAAAACGACCGTGAAGTGGTCAGCCTGTATGCGCATTTGGTCCAGCC -AGTTTTAGATGCCCAGGCGCGGCGCGAAATCAGCCGTTCGGCGGCGGAATCAACGTTGATGATTGCGGTCAGCCCGCTGG -CGTTGGTCGATATGGCGTTTATCGCCTGGCGCAATCTGCGTTTAATTAATCGCATCGCCACGCTGTATGGCATTGAACTG -GGGTATTACAGCCGTTTGCGTCTGTTTAAGCTGGTATTGCTGAATATCGCTTTTGCCGGAGCCAGCGAACTGGTGCGCGA -AGTGGGGATGGACTGGATGTCGCAAGATCTCGCTGCTCGTTTGTCTACCCGCGCAGCTCAGGGGATTGGTGCAGGACTTC -TGACGGCACGACTCGGGATTAAAGCTATGGAGCTTTGCCGCCCGCTGCCGTGGATTGACGATGACAAACCTCGCCTCGGG -GATTTCCGTCGTCAGCTTATCGGTCAGGTGAAAGAAACGCTGCAAAAAGGCAAAACGCCCAGCGAAAAATAATGCAATAT -CGGGTGCTGACCGGATATCTTTACGCCGAAGTGCCCGTTTTTCCGTCTTTGTGTCAATGATTGTTGACAGAAACCTTCCT -GCTATCCAAATAGTGTCATATCATCATATTAATTGTTCTTTTTTCAGGTGAAGGTTCCCATGCGTCTGGAAGTCTTTTGT -GAAGACCGACTCGGTCTGACCCGCGAATTACTCGATCTACTCGTGCTAAGAGGCATTGATTTACGCGGTATTGAGATTGA -TCCCATTGGGCGAATCTACCTCAATTTTGCTGAACTGGAGTTTGAGAGTTTCAGCAGTCTGATGGCCGAAATACGCCGTA -TTGCGGGTGTTACCGATGTGCGTACTGTCCCGTGGATGCCTTCCGAACGTGAGCATCTGGCGTTGAGCGCGTTACTGGAG -GCGTTGCCTGAACCTGTGCTCTCTGTCGATATGAAAAGCAAAGTGGATATGGCGAACCCGGCGAGCTGTCAGCTTTTTGG -GCAAAAATTGGATCGCCTGCGCAACCATACCGCCGCACAATTGATTAACGGCTTTAATTTTTTACGTTGGCTGGAAAGCG -AACCGCAAGATTCGCATAACGAGCATGTCGTTATTAATGGGCAGAATTTCCTGATGGAGATTACGCCTGTTTATCTTCAG -GATGAAAATGATCAACACGTCCTGACCGGTGCGGTGGTGATGTTGCGATCAACGATTCGTATGGGCCGCCAGTTGCAAAA -TGTCGCCGCCCAGGACGTCAGCGCCTTCAGTCAAATTGTCGCCGTCAGCCCGAAAATGAAGCATGTTGTCGAACAGGCGC -AGAAACTGGCGATGCTAAGCGCGCCGCTGCTGATTACGGGTGACACAGGTACAGGTAAAGATCTCTTTGCCTACGCCTGC -CATCAGGCAAGCCCCAGAGCGGGCAAACCTTACCTGGCGCTGAACTGTGCGTCTATACCGGAAGATGCGGTCGAGAGTGA -ACTGTTTGGTCATGCTCCGGAAGGGAAGAAAGGATTCTTTGAGCAGGCGAACGGTGGTTCGGTGCTGTTGGATGAAATAG -GGGAAATGTCACCACGGATGCAGGCGAAATTACTGCGTTTCCTTAATGATGGCACTTTCCGTCGGGTTGGCGAAGACCAT -GAGGTGCATGTCGATGTGCGGGTGATTTGCGCTACGCAGAAGAATCTGGTCGAACTGGTGCAAAAAGGCATGTTCCGTGA -AGATCTCTATTATCGTCTGAACGTGTTGACGCTCAATCTGCCGCCGCTACGTGACTGTCCGCAGGACATCATGCCGTTAA -CTGAGCTGTTCGTCGCCCGCTTTGCCGACGAGCAGGGCGTGCCGCGTCCGAAACTGGCCGCTGACCTGAATACTGTACTT -ACGCGTTATGCGTGGCCGGGAAATGTGCGGCAGTTAAAGAACGCTATCTATCGCGCACTGACACAACTGGACGGTTATGA -GCTGCGTCCACAGGATATTTTGTTGCCGGATTATGACGCCGCAACGGTAGCCGTGGGCGAAGATGCGATGGAAGGTTCGC -TGGACGAAATCACCAGCCGTTTTGAACGCTCGGTATTAACCCAGCTTTATCGCAATTATCCCAGCACGCGCAAACTGGCA -AAACGTCTCGGCGTTTCACATACCGCGATTGCCAATAAGTTGCGGGAATATGGTCTGAGTCAGAAGAAGAACGAAGAGTA -AGCGCGAATATGCCTGATGGTGCAACACCATCAGGCATATTAAATTATGCTTTCAGTACAGCCAGAGCTGCTTCGTAATC -CGGCTCGGTGGTGATTTCATCCACCAGCTGGCTGAAAATCACATTGTCATTTTCGTCAATAACCACAACGGCACGCGCTG -CCAGACCTTTCAGTGGGCCATCAGCAATTGCCACACCGTAAGCTTGCAGAAATTCAGCGTTACGGAAAGTGGAGAGGGTG -ATAACGTTGTTCAGACCTTCTGCGCCGCAGAAACGAGACTGGGCGAACGGCAGATCGGCAGAGATACACAGCACAACGGT -GTTGTCGATCTCAGTTGCCAGTTGGTTAAACTTACGTACTGATGCGGCGCAAACACCGGTATCAATACTCGGGAAAATGT -TCAGCACTTTGCGTTTACCCGCAAACTGACCGAGGGTGACGTCAGACAGATCTTTTGCCACGAGAGTAAAAGTCTGCGCT -TTGCTACCCGCCTGCGGGATGGAATTGGCGACTGTAACCGGGTTGCCCTGGAAATGAACGGTTTGTGACATGATTATCTT -TCCTGTTTACATATAGTTAACGTCACACCTAGTTTATGCTAACTGTCAATAACACAGCAAACGCTATTTGCGCTTAATCC -GCAGACCACCGCGACAACAAGGAGTAAAGATGAGAACCGTTAAGGTATTCGAGGAAGCCTGGCCCTTACATACCCCGTTT -GTGATTGCCCGGGGAAGTCGCAGTGAAGCGCGCGTGGTGGTGGTTGAACTGGAAGAAGAGGGTATTAAAGGCACCGGCGA -ATGCACGCCGTATCCGCGTTATGGGGAAAGTGATGCCTCGGTAATGGCGCAAATTATGAGCGTCGTGCCGCAACTAGAGA -AAGGGCTGACACGGGAGGAGTTGCAAAAAATTCTCCCTGCCGGCGCAGCACGTAATGCGCTGGATTGTGCATTGTGGGAT -CTGGCCGCGCGAAGACAGCAGCAATCGCTGGCTGATTTGATCGGCATAACGCTTCCCGAGACAGTTATCACTGCACAGAC -GGTTGTCATCGGTACGCCTGATCAGATGGCCAATAGTGCATCAACACTCTGGCAGGCAGGCGCGAAATTACTGAAAGTGA -AGCTGGATAACCATCTTATCAGTGAGCGGATGGTGGCAATTCGCACAGCTGTGCCCGATGCGACGCTGATCGTTGATGCA -AATGAATCCTGGCGTGCAGAAGGGTTGGCGGCGCGTTGCCAGCTATTGGCGGATTTAGGCGTTGCGATGCTTGAACAACC -GCTTCCTGCGCAGGACGATGCGGCGCTGGAGAATTTTATTCATCCGTTGCCGATTTGTGCTGATGAAAGTTGTCATACTC -GTAGCAATTTGAAGGCGCTGAAAGGGCGCTATGAGATGGTTAATATTAAGCTCGATAAAACCGGGGGTCTGACGGAAGCG -CTGGCGCTGGCGACTGAAGCGCGTGCACAAGGTTTCAGTCTGATGCTGGGCTGCATGTTGTGTACCTCTCGTGCCATTAG -CGCCGCTTTACCGCTGGTGCCGCAGGTCAGTTTCGCCGATCTTGACGGACCGACCTGGCTGGCGGTAGATGTGGAACCGG -CGCTTCAGTTCACGACGGGCGAATTGCATCTTTAGGATGCCAGCGCAGCAAGTTTGCCATCGCAAAGAGATATTTTTCGC -TGGCTTCGTCGGAGGAGATGGGCGGAAACTCTGCGGTGATGCAATGCAAGTTCAGATCTGCACACCAACTGCCGAAAGAG -CCAGGCGTTTCATAACCGACGCTGGTTACCAGAGGCAATTCAAACGCCTGAGCCAGCCATTCGCCTAATTCGCTGTGTCT -GGGATCTTCAATACAGGCCAGTGGATCGTGGAATGAGACCACCCAGGCAGGTTGAATGCGGTGTATAAGCTGGCACAGCG -CCTGGGTTTCAGGTTCGGAGCCAGGTTTGTCACCTGTCAGTAATACGACATCGCGTTCTTCAGCGGCGCTGTTCCAGCGA -TAAACGGTTTCACCTTCCTTCCAGTTCGCCGCCGGAAAGTTTCTGTTTAAATCCACACCATTAGCATTGGCCCGTAACCC -CAACTGGCAGCCGTCAGGATTCACACACAGCACCACATGATGACGGCGCAAAGAAGGTGTCAACGTCCGCAGAGCACAGG -AGAGCGTGACGACCGAAGAGTTTTCATCACCGTGAGTGCCAGCCAGAATCAAACCACTTTCGCGGCTGGCTGCAGGGGCA -GGAAACCAGATTAACGGCGCGCCCAATAATGAACGTCCGTAATGTTCTGTTCCGGGCGGAAATGCGCCGCGTTCGGCGCG -TGGGCGGGTTACGGTCATGATCGTCTCTGGTTCAGGAAGTATTACAGGCAGTGTTGTGCAAATTTTGCGGATTATCAAAT -CCTTTTCTTCAACGCTATGTCATCGATCTTGTATCACTTTTTTGCCGGAAGTTGTTTGCATTTTATTAGTTGGATAGGGT -TTGTGGATTTTTGCTGGCTGACGGGCAAATAAAGTTTGTTTAATGGTTTGCTTATCTGCCAGTTGATTAATCACATGGCG -GGCTATCTGACCGCCAGCACCAAGAATCAGTACATTTTTCATGAAAATTATCCCAGATTATTGGCAGCAATATGCCAGTC -CATATCACTATTGCGGATTTGAATATGTTTCATTACAGAGTTTCCTCAAAGAACGGAGCTAATACTGAAATTGCTTCAGC -CACATAGGCTTTGCCGTCATAAAGATCCATATGGTTTGCGCCTTCAACAATGTGATAGCGTTTATCCTGGCTTGATGCTC -GATCGTACAGGTCGTCACTCATCCATTTGCTCCCTGCCTGGCTGCCCGCCACAATCTGCGTCGGCTGAGTCAGGTACACT -TCCGCCATATGGTAAGCATCATAGGTAATAATCTGGTTAAGGCTGCGCAAAGTAGCGTAACCCGGTGCTGTTGGATACTG -CGCGCGAGGGGTGTGGTAATACTCCCAGGCCTGACGCAGTTCTTCGTTCGGCGCATCGGACTCCTTCATTGGTGCCAGTG -GCATAATGGCGTATTCTCCGCTGCTAATATCGCTGGTTCTGGCGTTTGAACCCGCTTCAACGTATGGCAGGGCATCAATA -GATTTCACATTGTTTTCCCAACCATTACGGAATATCGAACCAATATTGACCGCACTAACGGTACCGATGGCCTTGATGCG -GCGATCCTGAATTGCAGCATTGGCTGTATATCCTGCACCGGCACAAATTCCCATCGCACCAATTCGGGTATTGTCGACAT -AAGAAAGCGTTGTCAGGTAATCAATCACGGCACTGATGTCTTCAGTACGAATGTATGGGTTTTCTAACTGACGCGGCTCG -CCGCCACTTTCACCTTGATAAGATGCGTCATAAGCAATAGTGACAAATCCCTTTTCCGCCAGTTTTTTGGCATAGGTTCC -GGCCGTTTGTTCTTTAACGCCCCCACCTGGGTGAGATAACACAATTGCCTGATACTGACGGGTTTCATCAAATTTTGGAG -GGAAATAGATCACTGCAGACAAAGAGATGGTTGGATTATTGCTGTTAGTGAAGCTGACTTTATTATTCATCATTCCGTTC -CTCATGGAGTTGTCGGTTCGTTTTAACGGTTGGTGATATCACTATAGATATTGATCATTAAGTTGATTAGACCCAAAATC -ATGATTAGACCTATCATTTAAATGATTAATAGATTGCATGGAGATACTGAATGAAGCGTGAAGAAATCGCTGATCTGATG -GCGTTTGTCGTCGTTGCAGAGGAGCGTAGCTTCACTCGTGCAGCAGCCCGCCTGAGCATGGCGCAGTCAGCTTTAAGCCA -GATAGTGCGTCGTATAGAAGAACGATTGGGATTGCGGCTTCTGACGCGAACCACGCGCAGCGTTGTTCCAACTGAAGCGG -GCGAGCATCTTTTGTCTGTTCTTGGCCCTATGTTGCATGACATAGATTCAGCCATGGCATCCCTGAGCGATCTGCAGAAC -CGCCCATCCGGGACAATACGTATTACTACTGTAGAACATGCAGCAAAAACGATATTGTTACCAGCAATGCGCACATTCCT -GAAATCGCATCCTGAAATTGATATTCAGCTCACCATTGATTATGGTTTGACCGATGTCGTTTCTGAACGTTTTGATGCAG -GCGTCCGTCTGGGTGGGGAGATGGATAAAGATATGATCGCCATTCGAATCGGGCCAGATATACCAATGGCTATTGTTGGC -TCACCGGATTATTTTTCTCGCCGAAGTGTTCCAACGTCAGTGTCACAATTAATAGATCATCAGGCAATTAATTTGTATCT -TCCCACATCGGGTACAGCAAATCGCTGGAGATTAATACGCGGTGGACGTGAAGTTCGTGTTCGCATGGAAGGTCAGCTTT -TACTGAATACGATAGACCTGATCATTGATGCTGCAATTGATGGGCATGGATTGGCGTATCTACCTTATGATCAGGTTGAG -CGGGCTATTAAAGAAAAAAAACTGATACGTGTTTTGGATAAATTCACACCAGATTTACCCGGTTATCACCTGTACTATCC -ACACCGTCGACATGCTGGCTCGGCATTCTCATTATTTATAGATAGGCTGAAGTATAAAGGTGCTGTTTAGCACTACTTGC -TGATACATTAATTTAATTCTTCTCTTAACGTATTCTCAGTTCCTTTCAACGTTTTGGTCATTTTTTATTCTTCGTACAAT -GGCGACAGATGCTGATTATGATACCGAAAACGGGTTTGAACGTGCGAAGCCCGAACGTAGTGTTCGGAGTTCTATGTGCT -TTACCGCATTTTGGAGACTATTATTTACACTAAATCTGATTTGATATATTGATACTTAAAACATTTGATGCTTCCTTTGT -CACTTTTTTGATGGAAGTTGTTTGCATTTCTTTAAGGCGAAACAAATAATTACGCATCAATTTTAATGTCGGTTAGAGGG -AAACTTATGAAGCACTCTGTTTCAGTCACGTGTTGTGCGCTGTTGGTCAGCAGCATTTCTCTTTCGTATGCTGCAGAAGT -TCCGAGCGGCACAGTACTGGCAGAGAAGCAGGAGCTGGTGCGCCACATTAAAGATGAGCCTGCGTCGCTGGATCCCGCTA -AAGCCGTGGGCCTGCCAGAGATTCAGGTCATTCGCGATCTGTTTGAAGGTCTGGTGAATCAGAACGAAAAAGGGGAGATT -GTCCCCGGCGTTGCGACTCAGTGGAAAAGTAATGACAACCGTATCTGGACTTTTACCCTGCGCGATAACGCAAAATGGGC -GGATGGCACACCGGTAACGGCGCAAGATTTTGTCTACAGCTGGCAACGTCTGGTGGACCCAAAAACATTGTCGCCATTTG -CATGGTTTGCCGCGCTGGCGGGAATCAACAACGCACAGGCGATTATTGATGGTAAAGCTACGCCTGACCAGCTTGGCGTC -ACCGCAGTTGATGCCCATACTTTGAAAATTCAGCTTGATAAACCGTTGCCGTGGTTTGTGAATTTAACCGCTAACTTTGC -CTTCTTCCCGGTGCAAAAAGCCAACGTAGAAAGCGGTAAAGAGTGGACGAAACCCGGAAATCTGATCGGCAATGGCGCTT -ATGTTCTTAAAGAGCGCGTAGTCAATGAAAAACTGGTCGTGGTACCGAATACCCATTATTGGGATAACGCCAAAACGGTA -CTGCAAAAAGTGACCTTCCTGCCAATTAATCAGGAATCCGCAGCCACTAAGCGTTACCTCGCGGGGGATATTGATATCAC -CGAATCCTTCCCGAAAAATATGTATCAGAAGCTGTTGAAGGATATTCCGGGGCAGGTTTATACGCCGCCGCAGCTCGGGA -CCTATTATTATGCGTTTAACACGCAAAAAGGGCCGACGGCAGATCAGCGCGTTCGTCTGGCATTAAGTATGACGATAGAT -CGCCGCCTGATGACCGAAAAAGTATTAGGGACGGGCGAAAAGCCAGCGTGGCATTTTACACCAGATGTTACCGCGGGATT -TACGCCGGAACCTTCGCCGTTTGAACAAATGAGTCAGGAAGAACTGAATGCGCAGGCAAAAACTTTGTTGAGCGCAGCTG -GTTATGGTCCGCAAAAACCGCTGAAGCTGACGCTTTTGTATAACACTTCAGAAAACCATCAAAAAATTGCGATTGCTGTA -GCATCGATGTGGAAAAAGAACCTTGGCGTAGATGTTAAATTGCAAAATCAGGAATGGAAAACCTATATCGATAGCCGTAA -CACCGGCAATTTTGATGTTATCCGCGCCTCGTGGGTGGGGGATTATAATGAACCCTCCACTTTCCTGACATTATTAACGT -CAACGCATTCAGGAAATATTTCACGCTTTAACAATCCGGCATATGACAAAGTTCTGGCCCAGGCATCGACGGAAAATACC -GTTAAAGCGCGTAATGCCGATTACAACGCGGCAGAAAAAATCCTCATGGAGCAAGCACCGATTGCACCAATTTATCAATA -TACCAATGGACGATTAATCAAGCCGTGGCTGAAAGGTTATCCCATTAATAATCCTGAAGATGTGGCGTACAGTCGGACTA -TGTATATTGTGAAGCATTGATGTGATGGGAACTGGCGTTACCCTTGTGCATAACGCCAGTGATGTCTGATTTAGCGACCC -TGTTCCGGCGGTGTAATGTTATCCATATACAGCGTCTGGCTGGGGAAGGCAAAGTCCGCGCCGTGTGACTGTACAATATC -GATAATCTTCAAATAAACGTCTTGCTGTGCAGCAAGCCATTCAGCCCATACCGTGGTTTTGGTAAAGCAATAAACCATAA -TATTCAATGAAGAGTCAGCAAACTGGTTGAAATAAACCAGTAAGGTTTGTCGCTGGTCGATGGCCGGGTGATTTTTCAGC -ATCTCACGTACAGCTTCGACAATAACGCCCACTTTTGCCGCATCCTCATAACGTAAACCAATGGTCGTGGTAATGCGGCG -GTTGGTCATTCGTCCTGGGTTTTCTACGCTGATCGACGAAAACAGCGAGTTCGGTACGTACAATGGACGATTATCAAAGG -TCGTAATTTTGGTAATTCGCCAGCCAATTTCCGCTACTGTACCTTCGATATTTCTGTCCGGTGAACGGATCCAGTCGCCA -ATACTGAAAGGACGGTCGAAATAGAGCATAATCCCGGAAAAGAAGTTACTCAGAATATCTTTACCGGCCATACCGACAGC -CAGACCACCAATACCACCAAAGGTCAGCAAGCCAGAAAGGCTCATGCCGAAATGTTCGCCATAAAGCAGAACAAGCACCA -CAATAATGGTGATTTTGATGATACGCGACATAATCCGCGCACTGGTGATATCGCGACCTTTTTTAATCTGCTGTTTTTCA -AACTGATTAATCAGCAGAAATAGCTTAATCGTCAGAATAACCGCAATCAGGGACGTACAGATAAAATCGATAACGCCTGG -GGTGATAAATTTGAGTTTATAGTTTTCTATAACATAATTAATAATGCTACCAACAGCACTGATAATTATGGTGTAGATTA -AAAATTGCACCGCATGGAATAAAAATCCTTTTCTTTTACGATTTCCACGGCGAAACCAAAAGCTCATCAGAATCAATGCT -GCGCAGCTACCGAAAATAATGACCAGATTAAGCGCATTATTTGTAAACAGTTCAGCGATCATTGTTTTATCAGGCTCCTC -CAGATAATTGTCGTCATGCCGGAAACCCCTGGCGGGGCTATTTTACCGCGACAATTCATTCAGATCATCAATAGTCAGGG -AAGGAAGTAGCAACATTAGCTAAGGAAGGTGCGAACAAGTCCCTGATATGAGATCATGTTTGTCATCTGGAGCCATAGAA -CAGGGTTCATCATGAGTCATCAACTTACCTTCGCCGACAGTGAATTCAGCAGTAAGCGCCGTCAGACCAGAAAAGAGATT -TTCTTGTCCCGCATGGAGCAGATTCTGCCATGGCAAAACATGGTGGAAGTCATCGAGCCGTTTTACCCCAAGGCTGGTAA -TGGCCGGCGACCTTATCCGCTGGAAACCATGCTACGCATTCACTGCATGCAGCATTGGTACAACCTGAGCGATGGCGCGA -TGGAAGATGCTCTGTACGAAATCGCCTCCATGCGTCTGTTTGCCCGGTTATCCCTGGATAGCGCCTTGCCGGACCGCACC -ACCATCATGAATTTCCGCCACCTGCTGGAGCAGCATCAACTGGCCCGCCAATTGTTCAAGACCATCAATCGCTGGCTGGC -CGAAGCAGGCGTCATGATGACTCAAGGCACCTTGGTCGATGCCACCATCATTGAGGCACCCAGCTCGACCAAGAACAAAG -AGCAGCAACGCGATCCGGAGATGCATCAGACCAAGAAAGGCAATCAGTGGCACTTTGGCATGAAGGCCCACATTGGTGTC -GATGCCAAGAGTGGCCTGACCCACAGCCTGGTCACCACCGCGGCCAACGAGCATGACCTCAATCAGCTGGGTAATCTGCT -GCATGGAGAGGAGCAATTTGTCTCAGCCGATGCCGGCTACCAAGGGGCGCCACAGCGCGAGGAGCTGGCCGAGGTGGATG -TGGACTGGCTGATCGCCGAGCGCCCCGGCAAGGTAAGAACCTTGAAACAGCATCCACGCAAGAACAAAACGGCCATCAAC -ATCGAATACATGAAAGCCAGCATCCGGGCCAGGGTGGAGCACCCATTTCGCATCATCAAGCGACAGTTCGGCTTCGTGAA -AGCCAGATACAAGGGGTTGCTGAAAAACGATAACCAACTGGCGATGTTATTCACGCTGGCCAACCTGTTTCGGGCGGACC -AAATGATACGTCAGTGGGAGAGATCTCACTAAAAACTGGGGATAACGCCTTAAATGGCGAAGAAACGGTCTAAATAGGCT -GATTCAAGGCATTTACGGGAGAAAAAATCGGCTCAAACATGAAGAAATGAAATGACTGAGTCAGCCGAGAAGAATTTCCC -CGCTTATTCGCACCTTCCCTAACTAATCAATGCGTTGATTGTAAATCCAGCTAAGAGGTGAGGTTTTCAGAGCAGACAAC -GGTGAAATGTCATGGTATTGTTACGTTTAGGTAACAAGAAATTTGTCTGCACAAGGATTACATCATGATTATGGCGAAAC -TGAAGTCAGCGAAAGGGAAGAAATTTCTCTTTGGTTTGTTGGCGGTTTTCATTATTGCGGCGTCGGTTGTGACTCGCGCG -ACCATCGGCGGCGTTATAGAACAGTACAATATTCCGCTGTCTGAGTGGACGACATCAATGTATGTGATTCAGTCATCGAT -GATTTTTGTTTATAGCCTGGTCTTTACTGTGTTGCTGGCAATCCCGTTGGGAATTTATTTCCTTGGCGGCGAAGAGCAGT -AAGTAAAAAATAGGCCCGATAACTCGGGCCTTGTCAGTTATTGAAGAGTCGTTAATCGTCTTCTTCGTCATCCAGTTCAA -CGGGTGTCTGATACTGGTCAGGTTTAATGACCAGCAGGTCGCAGCGAAGATGATCAATCACCTGTTCCGCCGTGTTGCCG -AGGAATGCTGCTGAAATACCGGTGCGTCCTACCGTGCCCAGAACCACAATCCCCGCCTGTAAGTGCTCCGCCAAATCAGG -AATCACCTCTTCTGGCAGACCTTTTTCTACGTGCGTCATGTTTTCATTAATGCCGAATTTCTGCCGCAGGGCTTTCATTG -CCAGCAAATGTTGCCCACGAATGGCATCGTTATAAACGCTCGGGTCAAATTCCGGCAGTTCAATCGCGATATTAATTGGC -GTTACCGGATAAGCGCCAACCAGATGAACTTCGGTATGGTTGACTTGTTCTGCCAGTTCGATCGTCTCTTTGACCAGTTT -TTCATTGAGCGCATTATGATACGGCTCTTCACTGGCGAGATTCACCGCCACCAGCGCCTTGCCTCCTTCCGGCCACGGCT -GGTCTTTCACCATCCACACCGGGCTTGGGCATTTGCGTAACAGATGCCAGTCCGTTGGCGTAAAAATCACCGCTTCCAGA -CGGTCATGTTGGTGCGCCATTTTTAGCACCAAATCGTGTCCGCCGCTGATCACTTCCTGAATGATGGCTTCGAAAGGACG -GTTATGCCAGACCACTTTAATTTCAATGGGAACGCCAGCATTGAGATAATATTTTGCCTGCTCGTGGATCCAGGCTGTAC -GCTGGCTGATGACGCCCTGACGCATAGCGGTACGTTCGTCCGGGGAGAGCAGGGTGGTCATTTCGTATGAGAAGTCATAG -ATCGGCAAAAAGGCTTTAATTTTGCCACCAATCCGTTGATGTAAATAAACAGCTCGCCGCAATGCTGGTTGGTCGTCCTG -GTTAGGATCGATAACAACGAGCATGTTCTGATACATAGCCATACAGGGTCTCCTTACAACAACTGTCAACGCAGTTTGTA -ATTAAAAGATTAACCCATATCTGGTGAATGAAACAGTGATGAACCTTCTGCCAGATCAATAAATCAGAAAAATTTAATGA -TATGACAGAAGGATAGTGAGTTATGCGGAAAAATCAGGCAACGTTACGCGTATGACCAGCAAGCTGGGCCAGCGCATCGT -TATTTTCGATGGTGATGTATTTACCTTTGACTGCCAGCATGCCGCTTTTCTGGAAGCGACCCAGCAGACGGCTGATGGTT -TCTACCGTCAGGCCCAGATAGTTACCGATATCGCCACGAGTCATCGTCAGGCGGAATTCACGAGGGGAGAAGCCGCGTTG -GGCAAAACGACGGGACAGGTTGTAGATGAATGCAGCCAGACGTTCCTCGGCATTTTTCTTCGACAACAGCAGGATCATGT -CCTGATCGCCTTTGATTTCACCGCTCATCAGACGCATCATCTGCTGACGCAGATTCGGCATTTTACCGGACAAATCGTCC -AGCGTTTCGAACGGGATTTCACATACCATCGAGGTTTCCAGCGCCTGCGCGAAGCTCGGGTGATGGCCGCTGCCGATGGC -GTCAAATCCCACCAGGTCGCCTGCTAAATGGAAACCAGTGATTTGCTCGTCGCCTTGCTCAGTGATGGTATAACTTTTAA -TCGTACCGGAGCGGATGGCATAAAGCGATTTAAGTTCATCACCAGCCTTAAACAGCGTCTGGCCTTTCTGAATAGGCTTC -TTCCGCTCAATGATATTATCAAGCTGATCAAGCTCATGTTCGTTGAGTGTGAACGGGATGCAAAGCTGGCTGATGCTGCA -ATCCTGGCAATGGATAGCACAACCGCCAGACTGAATGCGCCGTATAATTCGCTTTTCCGGGATCATAGGTCTGCTCAAGC -CGTAATTGATATTTGTCAATTTTAACATCTTTTTAGGGAGCAAGTAAGTCTAAGCAAACCTTAACAGCAGAGAATTCCGA -TATTAGATGTAAATATATGTCTATCTATTTGAAAACCCTTAAGTTGTTAAGGGTAACTTTACATAAAAGTGTGAACAAGC -TGGCACAAATTGTTTAATGTTTACAGCAAAAGATAACCTTCATGGCGCAATAACCACTCTTTTCGCTGAACTCCGCCTGC -ATATCCGGTCATGGTGCCGTTTCGGCCAATAACCCGATGGCAAGGTACGACGATGCTGATGGGATTCGATCCGTTTGCCG -CACCAACGGCACGCGCCGCGCCAGGACGGCCCAATTGCTCAGCCAGTTGGCCGTAATGCATTACCTGCCCGCAGGGGATA -GTGCGTAGTGTTTTCCAGACTTCGCGCTGAAATGGCGTCCCCCCCGTAGCAGTGGGAAGCGTATCAATAATGCTAAGATT -ACCGGCAAAATATTCACGAAGCTTGTCGCTTAAACCGCCTGGATTGGTGGCAGAAATGCGCTCATAGCCTTCTTTGCGAT -AATGGATGTCCAGCAGCTGCACCATGCGTTCGCTGTACTCTTCCCATTCAACCGCCCGCAGGCGAAATTGCTCATCGCAA -ATCACCCACAGTGGACCCAGTGGCGTGGCAATTTTTTCTTCAAGTAATCTCAGCATCCGTTCTCTCTTAAGACAAACGTG -GGTAAATACCCGGACCTATCGGCAGACCGACAAGATACCACGCCAGCAACATCAGCAGCCATACCACCAAAAAGATAAGT -GGATAGGGCAAGACTAACGAATAGTAAGTACCCAGTTTCGCGTCTGGTTTGTAGCGTTGCAGGAATCCAAGAAACAGTGG -AACAAAAGGAGATACCGGCGCTAAAGGCAATACGGATGAGTCGGCAATACGAAAGAGGATTTGCGCAAATGCCGGGTGAA -AGCCAAGTAGCATAAACATTGGTACGAAAATGGGGGCGAGAATCGACCAGATTGCGGAACCGCTGGCAATAAACATGCAT -AAGAAAGAGGAAAGCAACGCCAGACCGACAAACGCCGGGATGCCGCTAAGCCCTGAACTTTCCAGTATATCGGTCAGCCC -CACGGCGATGAATTTCCCCATGTTGCTCCAGTTAAACATGGCGACAAATTGGGCGAGGGGAAAAACCATCACGATAAATC -CCGCCATCTCTTTCATCGGTTCAATCATTAAATGCGGTAAATCCGCCTGACGTCGAATTGTGCGGGTAGCGATGCCATAA -GCCAGCGAGACAACAAAGAAAAAAAGAATGATCAGTGGCACGATACCTTTAATAAAGGGTGATGGCATCACGGTGTGATT -AATCGGATCGCGCAATATCCCGTTTTGCGGGATCACCATCAGCGCAATCGCAGCAATAAAAAGTAGCGATACGACACCTG -CTATGCGTAAACCAAAACGCTGACTTTCGGTCAATGTCTGCAGTTTCTCATCGCTGTTTCCCTGCCATTGACCTAACCGT -GGCTCGATGATTTTGTCGGTTATCAGGCCGCCAACAATCGTCAGTACGACTACGGAGCTGGCCATAAAATACCAGTTATC -AATTACACTGACGTGCATTTGCGGATTGAACGCAGCTGCCGCTTCCGTGCTGATCCCCGACAGCAACACGTCGGTTGTGA -CAATCAGTAAATTAGCCGTAAAGCCGCAACCTACGCCTGCAATGGCAGCCAGTAAACCTGCAACTGGATGCCTGCCCACC -GCCAGAAAAATCAGCGCACCCATCGGTGGCATGATCACTAACGCCGCATCGGAAGAAATGTGGCTGAAAAAAGCAATAAA -CAGCACCATATAACTGGCGTAGCGGGCATTAACATGCGATGCCATTTTAACCATTAGTGCTGGCAGTAAGCCGACGCGCT -CCGCCAGACCGGCACCTAAAACCAGCGCCAGGATCGCACCAAGTGGAGCAAAACCGCTAAAGTTTTTAATAACATTGGGT -AAAAACCAGTGTAATCCTTCCACACTGAGCAGGTTTTTCACCACGACCGGCGTACCATCGGTCGGGTTTTTCGCACTGAC -GCCAAAGGCCGACAAAATTGCCGTCGTCACCATGAGTACGATAATCAAATAGATAAAGAGCAGAAAAGGATGGGGAACCT -TGTTACCAATTCTTTCGACCCAGCCATAGAGCTTCCCGGATTGGGAGGACGACGGTATGGATGACATACTCATGGGCATT -CCTCGGTTGTTGTGTTTGCGTTGTTGTTGTTATTTTAAAGGTGACGGTGTCACGTTTTTCGGGATAGGGCAGTGATACGG -TTGCGTGTCCGTTACTTGCTGATGCTCTTGTTGGCATTCTTGCAATAGCCCTGAATCAAGGAAGAGATTGACTGTGGTTG -CTGCCATAGTTTTCGCCGCCAGCAGCATTCCTTTATGAGCAATAGATGTTCGCCCCTGGCTAACCAGTTGCCACGTATGT -AGCGGTGTACCGACGGCAAAACAGGGGCTGAAACACTGGGCAACAGGCAGTTTCCAACTGACGTCGCCGACATCAGTCGA -TGCCGCAAGCACGTTATCGGTGGCGGCATATGGAGCGACTTCATTCGCCAGTACCGTTTCACGATGACGTAGTGCAAAAA -CCTTGCCGTTTTCGCCACCGGTTGCGGCGATATTATTCAGACTGTTTTGCCGATCGTTGGAGGTGAGCGTAGCCTGAATT -TGTTTCGCAAAAGCCAGTTCTTCGGAGTTCCATTCCGGGGTACCAAAATGGGATAGGGCCTGGTACATGGCATTTTCTAA -GGTGCGATTCGGGAGATAACTGGAACAGGCTTTGTCGAAGCGGCATTCAACCGTGGTTTCGGTCATCAATGCCGCACCTT -CGGCGATTTTGGCGACCCGATCATAAATATGCTGCACGTCGGTCATTTCGGGGGCGCGGATAAGATAAAGCACTTCTGCC -TGCGCCTGGACCACGTTGGGCGAGATCCCGCCGCTATTTGTGATGGCATAGTGTACGCGCGCTTTTTCAATAATATGTTC -GTTGAGGAAGTTGGTGCCAGTGGTCATCAACGTTACGGCATCAAGGGCGCTGCGTCCCAAATGAGGGGAATTCGCGGCAT -GTGCTGCGATCCCTTTAAAGCGCCATGATGCCTGAATGTTTGCCAGCGTGCGGGTATTGAACATACCGGCAAAGGCTTCC -GGGTGCCAGGTGAGTGCCGCATCCACATCATCAAATACCCCCTCGCGAACCATGAACGTTTTACCCGAGCCGCCTTCTTC -GCCAGGACAACCATAAAAGCGCACCGTGCCGCCTTGCCCATATTGTTCCAGCCATTTCTTGACGGCTATTGCAGCGGCAA -AGGCGGCGGTTCCCAGCAAATTGTGTCCGCAACCGTGACCATTTTCACCGGGCGTCACGGATGTAGGTTGCGCGCAACCT -GCTTGCTGACTTAAACCTGCCAGGGCGTCATATTCTCCCAGCAGGGCGATAACCGGTTTGCCTTGACCAAACGAAGCAAT -AAAGGCATTTGGGATATTGCCTACGTTGCGGGTAACGGTGAAGCCTGCAGATTCCAGCGCCGAAGCCAGATGCTCCGCTG -ACCAGAACTCTTCAAAACGTGTTTCTGGATGATCCCAGATTTGATCGGCAATATCGGTATAACGTTGGCGATCGGCTTCA -ATCGCATCGTCGATAAAACGATAGATTTCCTGCATCAGATACCTCGCGTCCAGGGAAAATTGAGCGCGGTGCGCGCCAGC -GTTTCGACGGCAATAGCGAGAACCTGCTCGTCAAAATCGAATTTTTCGTTGTGATGACCTGCCGCCAGCTGTGTGCCAAA -CACCACGTAGGAGGCTTGCCCTTGATGTTGCTGCACGCGGGCCATCATTAATGTGGCATCTTCGGAACCCGCAGGCGCTT -CAACACGTTCAATGGCCTGATTGACCCCCGCGACCTGAGCCGCCTGACTTTGCAACCATGCGACCCATTGCGGCGAAGGA -GAACTGGCGGTAGCTGCACCCATCAGACGAGTTTCAACGCCGACACCATACATGGTTGCTGCGCCCTGAATCGCTTGTTG -TGCACGGTCAAAAACATATTGATTAATGACGTCGCTGGCCCCGCGTGTTTCCACTTTCAGCAACGCCGAGGCAGGAACAA -CGTTACGACCGCTTCCTGCCTGCATAACGCCCACGTTTACTCTGGAAGCTCCTTCGCTGTGCGGGGCGATTGCATGCAGT -GCAAGAGTGGCTTGTGCTGCCGCCAACAAGGCATTGTGACCGTCTTCTGGTTTTGCGCCTGCGTGAGCGGCGGTACCGGT -GAAGTGCGCGTCAAATTTGGTGGTTGCCATAAAATTATCACTGCCGCACACCACGGTGCCCGCAGGTACGCCAGTGCCAA -TGTGCACGGCAGTAAAATAATCAACATCATCTACGACACCTGCATCGACCATCGCCCGCGCGCCACGCGTACCTTCCTCT -GCAGGCTGAAAAATCAGTTTGATGACGCCATGTAGTCCGGACTCGAACTGTTTAAGGGTATGCGCCAGCCCAAGCCCAAT -GGCGGTATGTCCATCATGACCACAGGCATGCATCATTCCGGCGTTACATGACGCAAAACCGTCGCGGTAGGGGCGATGGC -TGACATCCTGCTCTTCACTGAGATCCAGCGCGTCCATATCGACACGGAAAGCCATCACCGGACCGGGGCGACCGGTATCC -AGGGTGGCGACGATACCAGTGAAACCACCTTCAAAAGCCGCAATCCATTGTGCTAGCGCACCCTGTTGACGAGCGCGCTC -GAATTCGCGTTGTAGAGTGAATTCATCAGGTAATCCCATCCGGCTACTTTCATTAACTACTTCGCGACCCAGCGCCAGTG -AATAGCCGAGCTGGTGCAATTCTTCCGCAACAAGGGTGGCAGTGCGGAATTCCACCCAGCCAGACTCTGCATAGTGATGA -AAATCACGTCGCCAGTGCGATAATTTTGGGGCAAGCGAATTAACAAATTGATTCAAAGACTCCATAACCTTTCCCGTCAT -CAGTAAAAAGTGTGACCCGGTTCACGTAGCGATAGTTTTTACTTATCACTAACTGATTTTTCACAGTTTTAACCGTTCAT -AAATTACCCTGACACAATCATCTGCATTAAAGTAGATGCCAGTTTCTTTGGTCTGATAAATAACGGTTATCGGTGGCGTC -ATGGCTTTTCAGGTAAAAATTCATCAAATTCGGGCTTTTGTTGAAGTGGCTCGTCAGGGCAGCATTCGCGGAGCGAGCCG -AATGTTGAATATGTCGCAACCGGCACTGAGTAAATCTATTCAGGAGCTAGAAGAAGGGTTAGCGGCGCAACTCTTTTTTC -GCCGTAGTAAAGGCGTGACGTTAACTGATGCCGGTGAAAGTTTTTATCAGCACGCCAGTCTAATTCTTGAAGAGCTGCGC -GCAGCCCAAGAGGATATTCGCCAACGACAAGGGCAACTGGCAGGGCAGATTAATATCGGCATGGGGGCCAGTATTTCCCG -CAGTCTGATGCCAGCTGTCATATCTCGTTTTCATCAGCAGCATCCGCAGGTAAAAGTACGCATTATGGAAGGGCAACTGG -TGTCGATGATTAATGAATTGCGTCAGGGAGAATTGGATTTCACCATCAATACCTATTATCAGGGACCGTACGACCACGAA -TTTACTTTTGAGAAATTACTGGAAAAGCAATTCGCGATCTTTTGCCGCCCGGGACACCCCGCCATTGGTGCCCGTTCGAT -CAAACAGTTACTGGATTACAGCTGGACAATGCCGACGCCACACGGCAGCTACTACAAACAGTTGAGTGAATTGCTTGACG -ATCAGGCGCAAACGCCACAGGTCGGTGTAGTCTGCGAGACGTTCTCAGCCTGTATCAGTCTGGTGGCAAAAAGCGATTTT -CTCAGCAAACTGCCTGAAGAAATGGGCTGCGATCCCTTGCACGGACAGGGGCTGGTGATGTTGCCGGTTAGCGAAATTTT -ACCGAAAGCGGCCTATTATTTGATTCAGCGGCGTGATAGTCGCCAGACACCACTGACCGCGTCATTAATCACGCAATTCC -GGCGAGAATGCGGCTATCTGCAAAGTTAAAACTGCATAAAAAAATAGAGTCTGTCGACATCCGCCAGACTCTACAGTACA -CACAGCAGTGCATCCGCGTCTTAAATCCGGCATTGTCTCCTCTGCGCCGGTGACTGTGTTATAACGGTTTTAACCTTTAG -TTGCCAATTTTCTTCAGTGACAGATTTCACGAAAATATAAGTTACATTATTAATATCGTGAATGAATAATCATGCATAAG -TATTTTGCTTAAAATATCGGCAATATTTGGAACTTATTACTGGAAATTTGGGTAATACGTTGTTGGACCGACCCGGTCTG -GTTATCATATCGCGCTCTTAATTGCGGGAGGATGTAACATGAACCTTGACGACAAATCGCTGTTTCTTGACGCCATGGAA -GATGTCCAGCCGCTGAAACGTGCTACCGATGTCCACTGGCATCCAACGCGTAACCAACGTGCGCCGCAGCGTATCGACAC -GCTGCAGCTTGATAATTTCCTCACCACCGGATTTCTCGACATCATCCCACTAAGTCAGCCGCTGGAGTTTCGGCGGGAAG -GGTTGCAACATGGGGTGCTGGATAAGCTGCGCAGTGGTAAATATCCGCAACAGGCGAGCCTGAATCTTTTGCGCCAGCCG -GTGGAAGAGTGCCGCAAAATGGTGTTCAGTTTTATTCAACAAGCCCTGGCGGATGGTTTGCGTAACGTGCTGATTATTCA -TGGTAAAGGGCGGGATGATAAATCGCATGCCAATATTGTCCGCAGCTATGTGGCGCGCTGGCTGACCGAATTTGATGATG -TTCAGGCATATTGCACCGCGCTACCGCATCATGGCGGCAGCGGGGCGTGTTACGTCGCACTACGTAAAACGGCGCAGGCG -AAGCAAGAAAACTGGGAGCGCCACGCTAAGCGCAGTCGTTGATCTCGAGACGCATCCGCGGCTTATGCCGCCAGCACGCG -GTTGCGTCCATCATTTTTCGCCCGATACAAAGCATCATCAACGCGTTTAAACAGTTCATCGATGCTTTCATTTCCTTCGT -GATGCGCCACACCAATGCTGACGGTAAAGCGTGGTAAGCCCGAAATACTCACTTTTGCCACGCTTACGCGGATAGTTTCA -GCCAGCGAAAGCGCGGTATCCAGTGGGGTTCTTGGTAGCAATAAGACAAACTCTTCGCCTCCCCAACGAAACACCAAATC -GCCTTTGCGAGCGCAACTTTCGAGGGTGCGGGCGAGGGCGCATAACACCTCATCACCTTTAGAATGCCCATAGAGATCGT -TAATGTGTTTAAAACGATCGGTGTCGATGAGCAACAAGCTGTAATCCTGAGCGATGGCGAGATGCTGCATTTGGCCTGGT -TCCGTAATGTGATAAAACTGTCGCCGATTCAGTAATCCGGTCATCGCGTCATGGTGAGCAGCATGTTCCAGCTGCTCCTC -CAGCCGTTTTTGCTCAGTAATATCATGCACAATACATAACATGAGCTTGTCGCCATAAATTTCAATCGGTCCGGCATAGG -TCTGCACATGACGAGTCGAACCATCCGCCAGTTTATGAACAAAATTCAAAGGTTTATGACCACCGGGTAAATGCGAGATT -TCATGCATGATAGGCATGACGCGACGCCCGAGCATATTTATTTCCCAGGTATGTTTCTGGCACATCGTTTCATGGTTATA -ACCATAGAAATTGAGCGCGGCGAGGTTAGCATCGACGATTTGTCCATCTCGTGACGGGTCAATCAACAACATTGGTGCAG -AGTTAGTCAGAAAAAAGCGCGCATAAAAACCTTGTTTTTTGCGCTGATAATTTGCCGAGCGACTGGCTTTTAAACCCAGC -GTTGCCGGCGCTTCGATACCTTCGAAAATAATCACCGGTTCTGTTTCTGTCAGCTTTCGCAAAACAAGCCGACAGCTCAA -TGCTGTTTCCTCTTCTTTACGCTGAACAGTGAGGATTTCGATAATATCGTGTTGGTTTTGCAGATCGGAGAGGTATTTCG -GCAGTTCTTTTTGTGAGGAGACGGAATAGGGTCCGGTTCGTAGCTGACTAAACGTGAGGTCTTGCATCAACAGTTTCGCC -GCGCTATTGGCATAAATTAACTGTTCCTCAAAGGGCGAAACGATCCAGACAGGACTGGTGAGTAAGTCCAGGGTATTGAA -GTTGTGCGTAATCATTGAGATCCCGTTATTTTTATCAATTTTTGTTGCTATCCGATCGCAAAAAAGCCACGTCATATGAT -CAGATAATTCTGATAATGATAGACGCTATTTAACACTTCACACGGTTTGTATACGGAAAAGCATTTTGCTTTTTGTATTC -AATTTAGACAGAATTTTATTAATCATTTCAGGGTAATGGGGTGATGAGATGTTGCGTAACAGGGCCAGAAGGCTAGACTA -CAAAATAATGCGTTGATGATGGAGGCACTGTGGAAGCGATTAAGGGATCGGACGTTAATGTCCCGGATGCAGTATTTGCC -TGGATGCTGGATGGTAGAGGCGGCGTTAAACCGCTGGAAAATACAGATGTGATTGATGAAGCGCATCCCTGTTGGCTCCA -CCTTAATTATGTACACCATGATAGCGCCCAATGGCTGGCGACAACACCGCTGCTTCCCAATAACGTACGTGATGCGCTGG -CGGGCGAGAGCACGCGTCCCCGAGTCAGCCGTCTCGGTGAAGGCACGCTGATTACATTGCGCTGTATAAACGGCAGCACC -GATGAACGCCCCGATCAACTGGTCGCCATGCGTGTATATATGGACGGGCGGTTAATTGTTTCGACCCGACAACGCAAAGT -GCTGGCGCTGGACGATGTGGTGAGCGATCTGGAAGAGGGCACGGGTCCGACCGATTGCGGGGGATGGCTGGTGGATGTGT -GCGATGCGTTGACCGATCATTCCAGTGAATTTATCGAGCAGCTGCACGATAAAATTATCGACCTTGAAGATAATCTCCTT -GATCAGCAAATTCCACCGCGTGGATTCCTGGCTCTGCTGCGCAAACAATTAATTGTGATGCGTCGCTATATGGCACCGCA -ACGTGATGTTTATGCTCGTCTTGCCAGTGAACGTTTGCCGTGGATGAGCGATGACCAACGCCGTCGGATGCAGGATATTG -CCGATCGCCTTGGGCGCGGCCTTGACGAAATCGACGCCTGTATAGCACGGACTGGCGTGATGGCGGATGAAATCGCTCAG -GTGATGCAGGAAAATTTAGCTCGTCGTACCTATACAATGTCGTTGATGGCAATGGTCTTTTTACCCAGTACCTTTCTGAC -CGGGTTATTTGGCGTCAACCTTGGTGGGATCCCTGGCGGCGGGTGGCAATTCGGATTTTCAATTTTTTGTATTCTGTTAG -TTGTTCTTATTGGTGGTGTTGCTTTATGGTTGCATCGTAGTAAATGGTTGTAACAAAAGCAATTTTTCCGGCTGTCTGTA -TACAAAAACGCCGCAAAGTTTGAGCGAAGTCAATAAACTCTCTACCCATTCAGGGCAATATCTCTCTTGCAGGTGAATGC -AACGTCAAGCGATGGGCGTTGCGCTCCATATTGTCTTACTTCCTTTTTTGAATTACTGCATAGCACAATTGATTCGTACG -ACGCCGACTTTGATGAGTCGGCTTTTTTTTGCCTGTTATTTATCAGCGTCTACCCTTTAAGAGTCCACCCAATGACCAGA -GGGAAATATGACGACACTTATTTATTTGCAAATTCCTGTCCCTGAACCGATTCCTGGCGATCCTGTTCCAGTGCCCGATC -CGATCCCTCGCCCGCAACCCATGCCTGACCCACCACCCGATGAAGAACCGATTAAATTGTCGCATCGTGAGCGTAGATCT -GCGAGGATACGCGCCTGCTAACTTTGCGTCGATGACCACGAGAATAGATTGTGACCGCTTTTTCTACCCTGAATGTTTTG -CCTCCCGCCCAACTCACGAACCTTAATGAGTTGGGTTATTTAACCATGACGCCGGTGCAGGCCGCCGCGCTTCCGGCGAT -CCTTGCCGGAAAAGATGTTCGCGTGCAGGCGAAAACCGGCAGCGGCAAAACGGCGGCTTTTGGCCTCGGCTTGTTACAGC -AAATTGATGCGTCGCTATTTCAAACCCAGGCTTTAGTGCTGTGTCCTACGCGTGAACTGGCGGATCAGGTGGCAGGTGAA -TTGCGTCGGCTGGCGCGTTTTCTGCCAAATACCAAAATTTTGACGTTGTGCGGTGGTCAACCGTTCGGTATGCAGCGTGA -TTCGTTGCAACATGCGCCGCATATTATCGTGGCAACGCCGGGGCGTTTGCTGGATCACCTGCAAAAAGGCACGGTATCAC -TGGATGCGTTGAATACGCTGGTGATGGATGAGGCCGACCGCATGCTGGATATGGGATTTAGCGATGCCATTGATGATGTC -ATCCGTTTTGCGCCTGCATCTCGACAGACGCTTCTGTTTTCGGCAACCTGGCCGGAAGCCATCGCTGCAATCAGCGGACG -AGTGCAACGCGATCCTTTGGCGATTGAAATTGACTCAACAGATGCTTTGCCACCCATTGAACAACAATTTTATGAGACAT -CCAGCAAAGGCAAAATTCCTCTGTTGCAACGGTTATTAAGCTTGCATCAGCCATCCTCTTGCGTGGTGTTTTGCAATACC -AAAAAAGATTGCCAGGCTGTCTGCGACGCGCTGAATGAAGTAGGGCAAAGTGCATTGTCATTACACGGCGATTTGGAGCA -ACGCGATCGCGATCAGACCCTGGTACGTTTTGCTAACGGTAGCGCCCGTGTACTGGTCGCGACTGATGTTGCTGCGCGTG -GTCTGGATATTAAATCGCTTGAGCTGGTGGTGAACTTTGAGCTGGCGTGGGACCCTGAAGTTCATGTACATCGCATCGGT -CGTACAGCTCGTGCAGGAAATAGCGGTCTGGCGATCAGTTTCTGTGCTCCGGAAGAAGCACAGCGGGCCAATATCATTTC -TGACATGTTGCAGATAAAACTTAACTGGCAAACGCCGCCAGCTAATAGTTCCATTGCGACGCTGGAAGCAGAAATGGCAA -CGTTGTGTATCGATGGCGGGAAAAAAGCCAAAATGCGCCCGGGTGATGTATTAGGTGCACTGACAGGAGATATCGGGCTT -GATGGCGCAGATATTGGCAAAATCGCCGTGCATCCGGCGCATGTCTATGTCGCGGTCCGTCAGGCTGTTGCTCATAAAGC -ATGGAAACAGTTACAGGGCGGGAAGATTAAAGGAAAAACGTGCCGGGTGCGGTTATTAAAATAATGAAATGTTGAATTGC -CGGGTGCAAGAGTAAACATCTTATTCGGGATTGCCGGATGCGACGCTGGCCGCGTCTTATCCGGCCTCCATAAGAGTAGC -CCGATACGCTTGCGCATCGGGCGCTATCCTGGTTATTTCACTTCAACCACATTCAGCCGTAACTCATCCAACTGATTTTC -ATCTTCTTCTGGCTGCCAGCACGCCGGTTGTAGTGGGATCTCTTCGCGATCAAACGCCAGATCACCCCCGTTAACCACTT -CAGAACCGTGGGTGATGCCTTTGAAATCGAACAGGTTGGTATCGCACAGATGCGACGGCACCACATTCTGCATCGCGCTG -AACATCGTCTCGATACGCCCTGGATAACGTTTATCCCAGTCACGCAACATGTCAGCAATCACCTGACGTTGCAGGTTAGG -CTGTGAACCGCACAGGTTGCACGGAATAATCGGGAACGCTTTTGCATCGGCAAATCGCTGAATATCTTTCTCGCGGCAGT -AGGCCAGCGGACGAATAACGATATGTTTGCCATCATCGCTCATCAGTTTCGGAGGCATACCTTTCATCTTACCGCCGTAG -AACATATTTAAGAACAACGTTTGCAGGATATCGTCACGATGGTGACCCAACGCGATCTTCGTCGCCCCCAGTTCCGTTGC -GGTACGATAAAGGATACCGCGACGAAGGCGAGAACACAGTGAGCAAGTGGTTTTGCCCTCTGGAATCTTCTCTTTCACGA -TACCGTAAGTATTCTCTTCAACAATCTTGTACTCAACGCCCAGCTTTTCAAGATACTCGGGCAGAACGTGTTCCGGGAAG -CCCGGTTGCTTTTGATCGAGGTTAACAGCCACCAGCGAAAAATTGATTGGCGCGCTTTGCTGCAAATTGCGCAGAATCTC -CAGCATGGTATAGCTGTCTTTACCCCCGGAGAGGCAAACCATGATGCGATCGCCTTCTTCAATCATATTGAAGTCAGCAA -TGGCTTCGCCCACGTTACGACGCAGACGTTTTTGTAATTTGTTCAGGTTGTATTGTTCTTTCTTTGTAATTTGTTGATTT -TCTTGCATTATTTCAGTTCTCTGGTACTAAATGGGGCAAATTGGGGGCAAACTTTGCAACTACGATAACCGCGCATTCAA -CATGGCTATCTGTTCGTCGTTCATGTCATCAATCCACATACCGTAAATTTCATACACCATCTGCGCAGTTTCATGCCCCA -TTTGGCTGGCTATAAATGCCGGGTTCGCTCCTGCCGTCAACAGCCAGCAGGCAAAAGTATGCCGCGTATGGTACGGATTA -CGGCGGCGAATACCAGCACGTTTTACTGCTGCATTCCACCTTGCCCCCAAACTGCTTACCGAGTAATAAGGTTTTTGTTT -TCCGTTACACACCCTGGGCATGAAAACAAAATGCAGTTTTTGCTTTTCGGTTCTGCCGTACTCCCGATGATAAAAGGTGA -TTTCGCTTTTGCGATGATGCCCGGTCAGTTTGTATTGCTCCTTCAGTGCTTCAAGAGCAGGCTGCAGTAGTGTTACTGTT -CGGATCCCGGCATTTGTTTTTGGGGGACCGAACATATCAAGTATCGTCAGGTTTCTTCTGACATTCACTATTCCCTTTTC -GAGATCCACATCCTCCCACGCCAGAGCTGCCAGTTCCCCGTGACGAAGTCCTGAGTAAACGGCAAATTTCCACAAGTTCT -GGCTCTGTCCTTTTTCACTTTCCATTAATGCATTGAATTCTGTTTTAGATAACGGATCAGGCTTTATTCTGTTTCGCTGT -AATTTTTTTACTCCTTCAAATGGTTTGGTTGATATAAATCCCGACTGATACGCAAAACGCAACAGCGAACAGAGCAGGGC -GATATAGTTATCAACTGTGCGCACGGTTCTTCCTTTTTTGTTGGATCTTGGATTATCCAGGTAAAGCGTTTCTCCATGCA -GCAGTTCATTCCGGTAGTTTAAGATATCGCTATAACGAATATGTGATATCGGGGTACTTTCACAAATTATTATTCTAAGT -GTTTTTAATTGTGATTTCGTTTTCTTCATTGTGTTTGTTGTTAACTCTGTCTCTTTAATTTTTGTCCAGATATCACAAAG -CTCTCCGAACGTTTTTATGACTCTCGTTGTCACCATTTTTGCCCCAGTGCTGGACTGGGGAAAACGTCTTAAATACTCAA -ATTCACCGGAGTTTATTTCATGAACTATCAGCGCTCTTAAATTTCCGGCCTTTTTAATATTACTGTTTGTAATCTCCCAG -CCTTTTAATGTTTCCCGACATCGTTTTCCTCGAAACATGAACCAGATGCGAATGTATCTACCTCTAATCTCGACACCTGT -TGGTAATTTAGACATATCATGAGTCTTTGATAAACTGATTTATCTTTGGATAGTTGTACCAGATAATCCCTCGTTTGCTG -TCTGGCTTACCTAAAGGAGATACTCGTTTGAAGTGGAAGCCCTCCACCCAACAGTTCTGGCGGTATGCTTCAATTTGTCT -GGCCCCCAGACCAGTGCGAAGCATCAGGCCGTATTCAACCATCCACTCTTCATTAAAGATTACTTGTGCCATCGCATCAC -CTCTGGCAGGCGCCAATGTTAGACTGAAATTGACGCCCGATGTTGATTATTAATAATCAGCTATGAAGTTTTAATTTGAA -TACAATGCAATTCTCGAGGACTGAAGTTTCTCGCAATTAAAATTTATCAGTTTTACTTTCTGCTCTCTGGAAACGCCTGC -TTCTTTTTTACCTGAGAGCATTTTTTCGCATTCTGATTTCGTTAGTTTAGATTTTGAATATCTTGTCCAGTTAGTAGGAG -TGCCACCTTCCTTTTCAATAGTGGCGGTAATTTTATACATGAACACCTCCATTATTATTTCCAGTGGTTCGTTTATTCCA -TCTTTCGAGTGCTTCTTTTTCACTTCCACCATAACCGGTTCGGGATTCGCATCCGTTACACTTCGCTCGGTAATATCCTG -AAATGGCTTTCACCGTTACTGATGGACAACCACAAAATGGACATGGTTTAACATTGTCATATCTCATAATTTTTCTCATA -AAAAATATTTCAAGTTGGCGGTGCATTACACCGCCAGGCTGAATTATTCCTCTGAATTATCGATTACACTGTATTCCCCG -GTTAATACAGAGGAATCTGCAGGATCGATTGTCAGTGGTTCCTTTTCATCCATTGATACTGCACGCTGGATCTCAATTGA -TACGGGCAAATATTTGAACAGGCGACGAATAGCCGTTTTCTTTGCCATTTCTTCCCAGTGAGTTACCCACGGCCCGTTAT -TACCAGCTTTACTCAGGCTGCGCACCAGCTCAATCTGTTTGCGCGTCATAACTTCAAACTGAGTACCTCCGTCTTTCAGT -CTTGCGACAGCATAGACGTGGGTAACCGGGGCATCTTCGTTTTCTCCCGGGCGGTGTATTAACTTTTCATCAAGGCCAAA -TTCGAAGCTAAACTCGTCACCTTCACGGACAACACGGGCTGACAGGCTGGCGATTTGACCAGAACGGCGAGCCAGATCAA -TCATGCCGCGATAGCCAATGATTAGCTGAACGTTCTTTTTACCGCTCTTTTCGTTTTTATTACCAAAAGGCAGTAAATAT -GCATGACCGAGGGCGCTACCTGGCTCAAGTCCGAGCTGTGAACACTGTACGATCGCACTGACAAAACTCATAGTGTCACA -GTTTCCTAACGCCGGAACTTTACGAATTTCTGTGGTGGCGATACGGATCATACGTTCAGCCGTCATATGGCGTGGAAGAG -CTGCTGCCAGTTGCTCTTTCATTGATGGCTGGTTAATAAAACTAATCACGTCGCTATTTTTAACTGCTGCTGGTGCACGG -TTTCCCTGAGTTTTTTGCAGATCGGCTTTTGCGATTGGTGGTTGCTTAGTCATTTGCATATTCCTTAGCCCAGCGGGGCA -GTGATAATGTCTTAATAGCTGGCCATTCATCGGTATTCAGGCAGTCAGACAGGGTTCGCAGATTGCGGTGATATTCCTGT -TGACCTGCCAGTTTTGCTTCTTCGCCCATCATGAAAATTTCAACCGGATAACGTCCGCATTCAATAGTTGTGCTGGCAAC -CAGAAAAACGAAAGTTGGCTGCACTCCAAACTGTGCTTCATAACCGTCACTGTAGAATGCATCCTGAACGTGATAGCGGT -AGTCGTAATAAGCGGTTTTGAATCGTTGAATATCCGCCGTAGTTTTCACGTCCATGATCCAGTGAAATTCAGGGATAATT -TTGTCCGGACGGCACCGACACAAAATTCCTGTTTCAGGATCTTCCCAGTAAATTGATGATTCAGCGTGTCCGGCGCTTTC -AACAAGCCATTGCCCCAGCGGCAAAGCCATAACGCTTTGATACATGAGTTCAATTTTCCGGCCTTCTTCCGCAGTGATAA -CCGTTTTTCCTGTGCTTGCGCATTCCATCAGAAACGCTTTCTCTTCTTCTTTTCCGGCGTTTGTACGGCGGTTAAATTCA -GGTGCTACGATAAAGCGGTTACTGAATTCTTCCGGTTCAAGTACCCGGCAGTGGAAAGCAGTTCCTAAATCGAGCGTTTT -TGTCTTTGTGGTGTCCACGGGGGCATTTTTACGCCACAAATATAGTGCCGGAGTATCAGCAATGTCATCGAGCTGAGACT -TACTGATACCGGGACCCGCGTGGTAATTCTCATTCGAAATTCCGTAATAAATACCTGGCTCTATGTCTTCTACGATTACG -GGATCTGCGACTTCGCCAGTTTCATCACTGCAATCGCGATGCGGATCGCTGCCAGCATTCTCATTGTGCGGATGTTCAGC -GCCTTCCATTTCCTCCGGATCATTTTCCTTAGCTTCAACCTGACTCTCTTCATCGAATGTTTCCTGGTATGTTGCGTCGC -CCATCACCGCACCACAGTCAGGGCAGTTATCCCCGCCAGTCTGGCCGCAGGCATTGCAGGCTATTTCCGGTTCCTGTTGC -ACTACTGGCTCAGGTTGATTCATATCTGGGCTGGTTTTTTCCGTTTCTGGCTGGTTCTGGTACACACAATCGCGAGTCTG -GATCCCCTTTACCCATTTCGGATCGTTCGGGTCGCTAATTCCGTCAACAAATTCACCACGTGATGCAGCAAGCAATTTAT -CGTCATCGACAGGATTTTTTGATGGAATGTTTTTCCGGGCTTCATGGAGTTCTGCCCGCAGTTCCTGATATTTCGCATCA -ACAGAATTTACCTGTGACTGAGCATCCAGCGGCTGCGTGTCCTGATGATGTTCAGTTGCGTCCGGTTCCATTGTTTCAGC -CTCTCCCTGTTCAACTGCCGTTGTTCCAGATGGTTGCGGTTTTTCTTCATCATCCTGTTTTCCTTCTTCTGTTACTCGCT -GCGGCATCGGGGCAGAGGAGCGACCGCAGGCAATATCCACGATTTCCGGATCAGGGTTGGCATGATCGGTTTCAGTCAGT -ACTTTGTTCAGATATTCAGTGACGTGCGCGGGGATGACCTCGATCCCAATTGGTGCTTCTTTTACGGACGCAACCACGAT -GGCGCGGGAATAATCCAGCCCGCCAGGCATGGTGATGAATTTGTCGCGGAAAACAGAAAAGGGCGGTTTATTTTCAGCGA -TAATTTCCTCAATGCGTTTAGCGTGTGCCGGATGAAGGTTATAGATGTCCAGATCCATTGAACGGGCCAGTACGCCAGTG -GCTACGTCGCGCGCCAGTGACGTCAGATCGTGTACGAAACCTTCGCCGCGATCGGTGAGGTTTCCGCCGCCAGCATTAGC -ACCGGAAGCCGTGCGAGTGATGTGTGAAACACGATTACCCTTCATCCACTCTTTTGTCAGCAGTCCTCGATCGGTGTAGT -CAGCGTTCAGGTATGCTTCGAAAAAAGCAGTTATCAGTCCCAGGTTTGAATTACCAGGATTAGGGAAAACTTTGTCAGTG -TCACGAACCAGTTTGTGGAGTTCGCGAATTTCCAGCGGGTCGAGCAGGCTGGTTTTGTGGGAAACAGCCAGGGCAGTAAC -AGCCGGTAGTTCTTCAGCCCGAGCAATGTGTAATGCCTGGAGTCCGTCGCGTGAAACGTGCGTTACCGGTTTTTCGCTGC -CGTGTTGAGCAAGCCAACGAATGGGCAGTTCCTGGCCAGAAATTGGGAGTAGCATATTCTCCTCAATCTCAGTCATGTCT -TCGCCGTTGACGTTGGTATTGCCTTGATAGTGAGCGTTGTCTGGTGCTGCTCCCGGTTTTAGTTCCCATGTCATGGAGTC -TTTGCTGAGTTGATAGCGTTCACTCCAGGTAAAATCGATCTCACCTTCAGCGGGCAGGTCATTAACGACAGGAAAATTCG -TGGCAACAGCTTTAAAATAGCTGCTCAGTTTTTTACCTGACTTAACGATCAGGTAGTCCAGAGTGGCACAGGTCGATTCA -AAATCGTTGCTTGCCCACAGGACGACGTCAGGTTCACCGGATGATTTTTTCGCTTTCCGTAACAGGAAGAGTGGTTTTGT -GCTCATTGTTTTTTAACCTCAACTCAGATTAAAATTCGTTTTGTTCAGTGAATGATCTTGCCGGATACACACTGTTCATA -GCCTGCGCCATACGCAGGCTATTTCTTTCAGATTTCACCTTTTAATTTCATTGCAATTAGAGTTGCCAGAAATTCGGCTT -TTTTTTCTGCGGGCAGATTCTTTCCGATATGCACCAGGCACATTTTTTTGACACCTTCATCAAGTGTTTTTACGTTGCCT -GATGGACCATCGATATCAACCACAGTGAATGGGGTTTCTTTATTTTCTGTTTTAATTACGTAGCCAATGCGCTTTCCTTC -CAGATTCACCTCGTGAACAATGTCATCGGTAGTTACAACAGTGGCTTCATAATTGGTAATCATGTTTTTCTCCTTAATTA -AGGTTGAGCGAATACCTGCCATTTCTGGCATAAATTCAGTTTCGAATAGTCAATTAATTAAAGTTCATGTGCCATCTGGT -CTTTTTCGGCACAAGCTTCACTGCAATATTTTCTCGGTTCGTCTTTTGATAAAATCCCGTGCATGAAGTGAAGCATTCTT -TCAATAGCTTTGCTTTCTTCAACGTCTTTTTTGCAAAGGTGGTAAGCACATTTTATTTTCTTAGTCATCACCATGACTCC -GCCTTTACAGGTAAACCATCACGACCGAGGAAGACTTTAATCATGCGGTCAGTAATGAATGTTTTTGTGGTCAGGTTACG -AATATATAGTTTTCGCTTTTTAATATTGTTTGCCGAGGCAATATATGTCCGGCCTTCATGAAGAACATAATCGCCAGGAG -TCACACACTGACGTGGTATTTCATCAGTTCCGAAGTGATGTGCAATCATAATTATCTCCATTTTTACAAATGAACTTTGT -TGATGCGGTGTCTGGTGCCTCCAGGTGACTGCAACCAGTTAACAATTACAGTCGGCTTTCCCACCCAAACCAATAAGGAC -TAACATGACTTTTAACTGTGCCACGTGCGCTTAGCCGCATTCACCGCATCACAAAATTCACTTTAAAAAGGGCGGACATC -AGCCGAACTTCAAGAAAAAAACTGATGCCGCCAGGACTACACACAGCAATGTCGTTATTTACAACCGGAGGCGCACTCCC -ACCATTTAAATTTAACAGACAAGACCGACTCTTTATGGATATCGGAAATGCGCCTTCGTGTTGTGCCCGGTTTTATTTCA -CCACCTCCGGGCTTCGGTGGTCTCGGCTATACCCCTACAGCGAGAGCTTGTGTTAACATTTCAATACCCTTACAGTTGAG -AGTTATTGATATGTTGGATGTATTTACTCCATTGTTGAAACTTTTTGCTAACGAGCCACTCGAAAGACTTATGTATACGA -TTATCATTTTTGGTCTCACTCTCTGGCTGATACCGAAAGAGTTTACTGTCGCATTCAATGCTTATACTGAAATACCTTGG -CTCTTTCAGATTATCGTTTTTGCCTTTTCTTTCGTGGTCGCCATTTCCTTCTCAAGATTGCGAGCACATATTCAAAAGCA -TTATTCATTACTACCAGAGCAACGAGTATTGCTTCGTTTATCTGAGAAAGAAATCGCTGTATTTAAAGATTTCCTTAAAA -CAGGAAATCTTATTATCACTTCTCCTTGCCGTAACCCGGTTATGAAAAAATTAGAACGGAAGGGCATCATTCAACATCAG -AGTGATAGCGCAAACTGTTCTTATTATCTCGTCACCGAAAAATACTCCCATTTTATGAAGTTATTCTGGAACAGCAGGAG -TAGACGTTTTAATCGTTAGCTTACTGTGTGCTTCTCCAACCATCGGCGCGCACCAGTTTCGGTTTTAAATGTTTTGCTTT -TGGTATACGTCATGGCAGTGAACGTTCCATCCTGGTTGGGGAACACGCCGCACACCAGGGATTCGTTGTTGCCGAGGTCG -ATTTTTTGCATTTTGCGAATCTCACATCTTGTTGCTACGTATAGCGACTTCTGCCTGCCAGAGATCCCAGTCGTTGCTGC -GTAAAGCCTGCACAGCCTGGTTGTAAGTGATACCGCAACAATCCATCAAATACTGAACTACTTCGTAATGCACCATCTTA -TCTCTCCCCTTAACGCCGGGTGGCGGAACTAACTGCTGCACTGCAAAATTTGAATCCCGCCGTCATGTTCATACGCCTCG -GGCTGGCTACTTAACCCCTTACCACTGCCTGGTAACTCGAAGTATTGCCCGGCGTTCTGTGGGGCGGGGTGGGTGGTATG -CTGGAACTATAGGTAATGCCTAATTGATTGTCAATAGGCTATGCCTAATGTTTTGAGCGTAACCTAATAGGTGATGGCGA -CAGCAGAAAGTGATGGGGGGGTTAAATAACGGAATCCAGGAGTTTTCCGTCAGACCATATAAGTTTAAGTTCCAGTTTTT -GTGATGTTCTGGCTTTTCCGTTCAGATTCAAGAGCTTTCAGATACTTACCCACTTTCATTTCCATCGCTGCTATGTAGGC -GCGAACATCGTGGTCAACCCAATCTGGTTCTGTAGCATTTCCAGATAACAGGAAAGCTACAATCGCTCTTATTTCATCAG -AGGCTGCTTGATAAAGGTTGTTTATATCTAAAAGTTCACTTTTTGTATCTGAATTGGTGGGGGTTGGTATGGGGTATTCG -TTAAGCCCCCAATGCTCTGGACCAACAACATCAGAAAAGAAACGCCATAATTCTGGAAGTTTATCTTTACTTATAGAGCC -TTTCTTAATCCAGTCATAAATTGATGGTGGTTGGACTTTAAAGTGGCGTGCGACCTCCGCCTTTGATTTGACGGATCCCG -ATGCGATTTTTTTGTTAATGGCCTGCTCTATCGCTCGGCCTAAGTCTTTACCACTAAGCATTGCTTAATATTCTCCTATG -CGCATTACATTAGGCAATCCCTACCCTTACTGCATTAGGCACAGCCTATTGACAATTGCGTTAGGCGTCGCCTAATATTT -CTGTGTGTTTTTGGAGTTCATTCGATGAAAAAAGAGAACTATTCATTCAAGCAAGCTTGTGCTGTTGTCGGTGGGCAATC -AGCAATGGCTAGGCTTTTAGGTGTATCACCTCCAAGCGTAAATCAATGGATCAAAGGGGTACGTCAATTGCCTGCCGAGA -GATGTCCAGCAATTGAACGTGCAACAAGAGGTGAGGTTCTGTGCGAAGAACTTCGTCCTGATATTGACTGGTCATATTTA -CGACGTTCGGCATGTTGTTCGCAGAATATGTCAGTGAAGCAACTAAATGACAGTAACAAATCCTCATTTGATCATACCTG -AAACATCAAGAGGCAAATGATTCATGAAAATCAAGCATGAGCACATCGAATCAGTGTTGTTTGCCCTAGCAGCCGAAAAA -GGGCAGGCATGGGTAGCCAATGCAATTACTGAAGAATATCTGCGCCAGGGGGGCGGCGAATTGCCCCTGGTTCCAGGCAA -GGACTGGAACAATCAGCAGAATATCTATCACCGTTGGTTGAAAGGTGAAACGAAAACGCAAAGAGAAAAAATTCAGAAGC -TGATCCCAGCAATTCTGGCAATCCTTCCGCGCGAGCTGCGTCACCGACTCTGCATCTTCGATACCCTGGAACGCCGTGCA -TTACTGGCGGCGCAGGAAGCGTTAAGTACGGCAATTGATGCGCATGATGATGCAGTCCAAGCCGTTTACCGGAAAGCGCA -TTTCAGCGGCGGCGGTTCTTCCGACGATTCTGTCATTGTTCATTAAGCAAAAGTTTCCATGCTGTTTGTGCTTATTCTAA -GCCACCGGGCAGCATCATACGGGGCAATTATGGCCGCATTACCATACATGCAACTGTACATAGCTGATTACCTGGCTGAC -ACCATGCATTTGTCAGCAGAGGAGCATGGTGCGTATTTGTTGCTGATGTTCAATTACTGGCAAACAGGAAAGCCAATACC -TAAAAACAGGCTGGCAAAAATTGCCCGTCTGACTAACGAGCGATGGGCTGATGTTGAACCATCCTTGCAGGAGTTTTTTT -GCGATAACGGCGAGGAATGGGTGCATCTTCGGATTGAGGAAGATCTGGCATCAGTCAGGGAAAAATTAACCAAAAAATCA -GCCGCAGGAAAAGCATCTGTTCAGGCCAGAAGAAGCAGAAAGGAAGCAGATGTTCAAACAAAACAAGAGAGAAATTTAAC -AGGTGTTCAAACAGATGTTGAAGTGGTGTTTGAACATGATGTCAACACAAAGGCAACTAATAAAGATACAGATAAAGATC -TAAAAACAGATCCCCCCCTAAATCCCCCCCGGGGGAATCGAGGTGTCAAAAAGTTTGACCCTCTGGATATTACTTTGCCG -AACTGGATTTCTGTCTCGCTTTGGCGTGAGTGGGTTGAATTTCGCCAGGCATTGCGAAAACCGATTCGAACGGAGCAGGG -CGCTAACGGGGCGATACGGGAGCTGGAAAAATTCCGCCAGCAGGGTTTTTCACCTGAGCAGGTGATTCGACACAGCATCG -CCAATGAATACCAGGGCTTGTTCGCGCCGAAAGGTGTTCGACCTGAGACGTTACTCCGACAGGTTAACACCGTCTCGTTA -CCGGATAGTGCGATCCCGCCAGGCTTCAGGGGGTAACTGACCATGAAAAATATTGCGACAGGCGATGTTCTTGAACGTAT -CCGCAGACTGGCCCCGTCACATGTAACCGCGCCATTCAAGACGGTAGCGGAGTGGCGCGAGTGGCAACTTTCCGAAGGCC -AGAAACGTTGTGAGGAGATCAACCGTCAGAATCGTCAGTTGCGGGTGGAAAAAATTCTGAATCGCTCTGGCATCCAGCCA -TTGCACCGCAAATGCTCGTTTTCGAATTACCAGGTGCAGAACGAAGGGCAGCGATACGCGTTGAGTCAGGCGAAATCCAT -CGCTGATGAACTGATGACCGGGTGTACAAATTTTGCGTTCAGCGGAAAACCTGGTACCGGGAAGAACCACTTAGCGGCAG -CTATCGGGAATCGCCTGCTGAAAGACGGTCAGACAGTGATTGTGGTTACCGTGGCTGATGTTATGAGTGCCCTGCACGCC -AGCTATGACGATGGGCAGTCAGGCGAAAAATTTTTGCGGGAACTGTGCGAAGTGGATCTGCTGGTTCTTGATGAAATTGG -CATTCAGCGCGAGACGAAAAACGAGCAGGTGGTACTGCACCAGATTGTTGATCGCCGGACAGCGTCGATGCGCAGCGTGG -GGATGCTGACAAACCTGAACTATGAGGCCATGAAAACATTGCTCGGCGAGCGGATTATGGATCGCATGACCATGAACGGC -GGGCGATGGGTGAATTTTAACTGGGAGAGCTGGCGTCCGAATGTCGTCCAGCCAGGAATTGCGAAGTAATTTTTACCGGG -AGAAAAATTTAATGGAGACTGTTTTTGACGCACTGAAAGCAATGGGAAAAGCCACATCCATAGAACTTGCTGCGCGACTT -GATATCAGTCGTGAAGAAGTGCTGAACGAACTATGGGAACTGAAAAAGGCTGGTTTTGTTGATAAAAGCGCGTACACCTG -GCGTGTGGCTGATAACAATGTTCAGCAGGAACAGCCAGCGCAGGCAGAACTGCCGGAAGAAATCACCACAGCAACAGTAG -CGAAAATCTCAGAGTGCGATTTAACCGCGACGATTGAACAACGAGGACCACAAACGGCTGATGAGCTGGCTACATTGTTT -GGTACCACATCACGCAAAGTGGCTTCAACGCTGGCAATGGCAATCAGCAAAGGTCGTCTGATTCGCGTAAATCAGGGCGG -TAAATTTCGTTACTGCATACCGGGCGATAATTTACCAGCAGAGCCGAAAGCAGCATCGGTATCTCCGCTCTGGTTATCTG -CATCGTCGTCTGCCTGTCATGGGGTGTTAATCATTACCGTGATAACGCCATCGCCTACAAAGAACAGCGCGACAAAAATG -CCAGAGAACTGAAGCTGGCGAACGCGGCAATTACTGAGATGCAGATGCGTCAGCGTGATGTTGCTGCGCTCGATGCAAAA -TACACGAAGGAGTTAGCTGATGCGAAAGCTGAAAATGATGCTCTGCGTGATGATGTTGCCGCTGGTCGTCGTCGGTTGCA -CATCAAAGCAGTCTGTCAGTCAGTGCGTGAAGCCACCACCGCCTCCGGCGTGGATAATGCAGCCTCCCCCCGACTGGCAG -ACACCGCTGAACGGGATTATTTCACCCTCCGGGAACGACTGGTAATGATGCAGGCCCAACTTGAAGGTGCTCAGCAATAC -ATAACCGAGCAGTGTTTAAAGTAAAATCTTAACTACAATATGATTCATTTTGATGATTGTTTCATAAGGAACAGTGAAGT -AAGATCTAAGAGGAGTTAAATTTTATACAGTATAATCATAATATTGCAGCAAGGTGGTTATAATTGAAAGAATATTTAGA -TATGAATACATCTCATGTAAGAGTTGTTACTCATATGTGTGGGTTCCTGGTTTGGCTCTATAGTCTTTCAATGTTGCCAC -CAATGGTTGTAGCATTGTTTTATAAAGAAAAAAGCCTGTTTGTTTTCTTTATAACTTTCGTTATATTTTTTTGCATTGGT -GGCGGAGCGTGGTATACAACTAAGAAATCTGGCATTCAATTACGTACCCGTGATGGGTTTATTATAATTGTAATGTTTTG -GATTTTGTTTTCTGTTATTAGTGCATTCCCTTTATGGATTGACTCAGAACTTAATTTAACGTTCATTGATGCTCTGTTTG -AAGGGGTTTCTGGAATAACAACAACAGGAGCAACTGTAATTGATGATGTTAGTTCATTACCTCGGGCATATTTGTACTAT -CGGTCACAGTTAAATTTTATAGGTGGTTTAGGAGTTATTGTTCTGGCGGTTGCTGTATTGCCATTATTGGGTATTGGTGG -TGCAAAGCTTTATCAGTCAGAAATGCCGGGGCCATTTAAGGATGACAAACTCACTCCCCGCCTGGCCGATACGTCACGGA -CACTGTGGATAACTTATTCTTTATTAGGTATTGCTTGTATTGTCTGTTATAGACTTGCAGGAATGCCTTTGTTTGATGCT -ATTTGTCACGGGATTTCCACAGTTTCGCTTGGTGGTTTCTCAACTCATAGCGAGAGTATCGGATATTTTAATAACTATTT -GGTTGAGCTGGTGGCTGGTTCTTTTTCCCTGCTATCGGCTTTCAACTTCACTCTTTGGTATATTGTTATTAGCAGGAAAA -CGATAAAACCTTTAATCAGAGATATTGAACTTCGTTTCTTTCTGTTAATAGCCTTAGGGGTGATCATTGTTACCTCTTTC -CAGGTCTGGCATATAGGTATGTATGACTTGCATGGAAGTTTTATTCATTCGTTTTTTCTTGCCAGCTCCATGCTCACTGA -TAATGGTTTAGCTACGCAGGATTATGCAAGTTGGCCCACGCACACGATAGTGTTTTTGCTGTTGTCAAGTTTCTTTGGGG -GATGTATAGGTTCAACTTGTGGTGGAATTAAGTCACTTCGATTTCTTATACTTTTCAAACAAAGCAAACACGAGATAAAT -CAGCTTTCTCATCCCAGAGCGTTGTTGAGTGTAAATGTAGGAGGGAAGATAGTTACAGATCGTGTAATGAGGTCTGTATG -GAGTTTCTTTTTTCTTTATACTCTCTTCACGGTGTTTTTTATACTGGTGTTAAATGGTATGGGATATGATTTTCTTACAT -CATTTGCAACAGTGGCTGCATGTATTAATAATATGGGATTAGGTTTTGGGGCTACTGCATCGTCATTCGGAGTGCTTAAT -GACATTGCAAAATGCTTAATGTGCATAGCTATGATTCTTGGTCGCCTTGAAATTTATCCTGTTATTATATTGTTTTCAGG -TTTTTTTTGGCGCTCCTAATATATGGCTGATTTATAATTGTGAGTTTAATATTATGTTGACTCACTCATTGATCCAATAC -CTAACTTTACCAGCAACACCTCCGTCCCCAGTAGCACTGGCTGCTGGGGTGCGTTTTATTCATAAAGCAAGGCTGTATGA -GCGAGAAATTAAAGATAGTCTATCGCCCATTACAAGAATTGTCACCGTATGCGCACAACGCCAGGACGCACAGTACTGAG -CAGGTGGCACAACTGGTAGAAAGTATTAAGCAATTCGGCTGGACTAATCCGGTGCTGATTGACGAAAAGGGCGAAATTAT -TGCGGGTCACGGTCGTGTTATGGCGGCTGAAATGCTCAAAATGGATTCTGTTCCGGTCATTGTTCTGTCTGGCCTGACGG -ATGAGCAGAAGCAGCGATAACGATCAGTATCGCTCCCGTAATGCATTAATCCGTCGCCACATTGAGAAAATGGATGCCAG -TTTGCACGTCGGAACGAAGGAGTTTGATATTTCAAAGGTTTCCGAGGTGGATTCTGTTGATGATTTACTCATTGATAATG -CCGCTCGTTATCTGCTGAAAGACTGGAAAGGGGTTGGTGAACTGGTTAATGGTGTTGAGGTTGCACTGGAATATACGGCA -GAACGAGGGATCGCGCTGCTTAAGCAGAATCCAGAGTTGTACTGGCAGATCCTTGCAGAAGCAGCCAGCATCGCCCAGGG -TAAAGAGCAGCAGAAGCAGGATACGATAAAAAAGCCATAGCTGCCCAGCGGTGGTTATCGGAGTTCGGGGGAGAAAGGGG -GGAAAAGGCAAGATGGAAGCGAGAAAAACTCAGGTTGCCACCGATACCGGAACCAGAAATAGACCCGGTGCTTAAGGAGT -TGTTGTACGCCTATTCGGTAATATCCCGTGCCCGACGTTATGCTGGAATGGCTGGGGTGCCTTTGCCTTTATCTCTGACA -GAGATAAATGAATATTTAGCCACTCATCCGGTATTGATTGAGCGCGATGAATTTGAAGCAGTGATCTTTGCACTGGATGA -CCAGTATTTTCAGGAGCAGTGTGTGTAGTTGTTAATTACGTACACTCTGTTACAGAGATGTGATGGTGTCTTTAATTAAA -TCGATGATGCTCCTGGAGAAAAGCATTGCGTGGCCTCGTAATCGCTATATCTACTATTATGTCGCCTGAAACCCACTTCG -CGGTGGGTTTTTTGTTGTCAGGAGTTTTAATAAATGGCAGAGCAAACCTCGCGTCTCGCAATAATTATTGATAGCACTGG -AGCGAAAAATAATGCTGACAATCTGACCTCCTCATTAGTCAAAATGACGCAGGCTGGGGAAACTGCTGCAAATAGCGCAG -GGAAAGTGACTAAGGCAACAGAAGATGAGAAGAACGCGCTCGCAAAATTAAAAGCAGCTATTGATCCAGTTGGTGCCGCA -ATTGATACTGTCGGTCGACGCTATTCTGAATTAAAGAAATTTTTCGATAAAGGGCTTATTGATAAAGAAGAATATGAATT -TCTTGTCCGTAAACTTAATGAAACCACAGAGGAATTGAGCGGGGTTGCGCAAGCGCAGAGAGAAGCCGAGAAGGCCGGAA -AACTTGCTGCCGCTCAGCAGGAAGCGCAGGCTCAGGCCTTTCAAAGAATGCTGGACAAGATCGACCCTCTGGCTGCGGCG -CTAAGAAATCTTGAACAACAGCATGATGAACTTAATGCTGCGTTTGCATCCGGGAAAATAAATGGTTCTCAGTTTGAGAA -TTATAGCCGAAAAATACAGGAAACACGGCGAGAGCTTACCGGAGAGGCTCAGGCAGAGCGAGAAGCAGCAAAAGCGCATG -ATGAACAGGTTGTTGCTTTGCAACGTCTGATTGCTCAACTTGATCCTGTCGGAACTGCTTTTAATCGTCTGGTAGAACAA -CAGAAACAGCTCAATGAAGCAAAAGCTAAGGGGATGCTTTCTCCTGAAATGTATGAGGAGCTTTCTGGAAAACTTCGTGC -TATGCGGAGTGAGCTTGAGGTTACTCAATCACAATTAAGCAAAACCGGAATGTCGGCAAAACAAACGGCTTTTGCTATGC -GCATGTTGCCTGCACAAATGACGGATATTGTTGTTGGGTTGTCCACTGGTCAGTCGCCATTTATGGTGTTAATGCAGCAG -GGCGGCCATTCAGCTATGCAGGAGACAAGAATCGCCAGCTTACCCGTTACAGCGATACCCGCTGGCATGAAGATTCCGTG -CGTAACCGCTGGTTCAGCGTGATGGTGGGGCCGTCTGTGCGCGTGAATGAATGGTTCAGCGCGTATGCGATGGCGGGTAT -GGCTTACAGCCGTGTGTCGACTTTCTCCGGGGATTATCTCCGCGTAACTGACAACAAGGGAAGGTGCGAATAAGCAGGTC -ATTTCTTCCCAAGCTGACTCGCTGATTAAAATTTCGCGGATCTGGGCCGATTTTTTTCCCGCAAACACATCGAATCAGCC -TATTTAGGCTATTTTTTCCACCATTTCTGGCGTTATTTCCGGTTTTTACTGAGATCTCTCCCACTGACGTATCATTTGGT -CCACCCGAAACAGGTTGGCCAGGGTGAATAACATCGCCAGTTGGTTATCGTTTTTCAGCAGCCCCTTGTATCTGGCTTTC -ACGAAGCCGAACTGCCGCTTGATGATGCGAAACGGGTGCTCCACCCTGGCACGGATGCTGGCTTTCATGTATTCGATGTT -GATGGCCGTTTTGTTCTTGCGCGGATTCTGCTTCAAGGTTTTTACCTTGCCGGGACGCTCGGCGATCAGCCAGTCCACAT -CCACCTCGGCCAGCTCCTCGCGCTGTGGCGCTCCTTGGTAGCCGGCATCGGCTGAGACAAATTGCTTCTCTCCATGAAGC -AGATTACCCAGCTGATTGAGGTCATGCTCGTTGGCCGCGGTGGTGACCAGGCTGTGGGTCAGGCCACTCTTGGCATCGAC -ACCAATGTGGGCCTTCATGCCAAAGTGCCACTGATTGCCTTTCTTGGTCTGATGCATCTCCGGATCGCGTTGCTGCTCTT -TGTTCTTGGTAGAGCTGGGTGCCTCAATGATGGTGGCATCCACCAAAGTGCCTTGGGTCATCATGACGCCTGCTTCGGCC -AGCCAGCGATTGATGGTCTTGAACAATTGACGGGCCAGTTGATGCTGCTCGAGCAGGTGGCGGAAATTCATGATGGTGGT -GCGATCCGGCAGGGCGCTATCCAGGGATAATCGGGCAAACAGGCGCATGGAGGCGATTTCGTACAGGGCATCTTCCATGG -CACCGTCGCTCAGGTTGTACCAATGCTGCATGCAGTGAATACGCAGCATGGTCTCCAGCGGATAGGGCCGTCGGCCATTG -CCCGCCTTGGGATAAAACGGCTCGATGACAGCGGTCATATTCTGCCATGGCAGAATCTGCTCCATGCGGGAGAGGAAAAT -CTCTTTTCGGGTCTGACGGCGCTTAGTGCTGAATTCACTATCGGCGAAGGTGAGTTGATGGCTCATGATGTCCCTCTGGG -ATGCGCTCCGGATGAATATGATGATCTCATATCAGGAACTTGTTCGCACCTTCCCAAGGGGAAAACGCACGACGTGCTGA -CCGGAAGTGATGACGGTCGCCACAGCAACACGTCTCTGGCGTGGGGAGCTGGCGTGCAGTTTAACCCGACCGAATCCGTG -GCCATTGATATTGCTTATGAAGGCCCCGGCAGTGGCGACTGGCGCACTGACGGTTTCATCGTGGGTGTCGGTTATAAGTT -CTGATTAGCCAGGTAACACAGTGTTATGACAGCCCGCCGGTTCAGGCGGGCTTTTTTGTGGGGTGAATATGGCAGTAAAG -ATTTCAGGTGTACTGAAAGACGGCACAGGAAAACCGGTACAGAACTGCACAATCCAGCTGAAAGCAAAACGTAACAGCAC -CACGGTGGTGGTGAACACGCTGGCCTCAGAAAATCCGGATGAAGCCGGGCGTTACAGCATGGACGTTGAGTACGGTCAGT -ACAGCGTTATTCTGTTGGTGGAAGGATTCCCGCCGTCACATGCCGGGACCATTACCGTGTATGAAGATTCTCAACCCGGT -ACGCTGAATGATTTTCTCGGTGCCATGACGGAGGATGATGCCCGTCCGGAGGCACTGCGCCGTTTTGAACTGATGGTGGA -AGAGGTGGCGCGTAACGCGTCCGCGGTGGCACAGAACACGGCAGCCGCGAAGAAGTCAGCCAGTGATGCCAGCACATCAG -CCCGTGAGGCGGCAACCCATGCGGCTGATGCTGCGGACTCAGCACGCGCAGCCAGCACGTCAGCCGGACAGGCCGCGTCG -TCGGCTCAGTCAGCGTCTTCCAGCGCAGGAACGGCATCAACAAAGGCCACTGAAGCATCAAAAAGTGCTGCCGCTGCAGA -GTCCTCAAAAAGCGCGGCGGCCACCAGTGCCGGTGCGGCGAAAACGTCAGAAACGAATGCTTCAGCGTCACTACAATCAG -CAGCCACATCTGCATCCACCGCGACCACGAAGGCATCAGAAGCTGCGACCTCGGCCCGGGATGCGGCGGCCTCAAAAGAA -GCGGCAAAATCATCAGAAACGAACGCATCATCAAGCGCCAGTAGTGCAGCTTCCTCGGCAACGGCGGCAGGAAATTCCGC -GAAGGCGGCAAAAACGTCCGAGACGAACGCCAGGTCTTCTGAAACGGCAGCGGGACAGAGCGCCTCGGCTGCGGCAGGCT -CAAAAACAGCGGCTGCGTCGTCTGCCAGTGCAGCGTCAACAAGTGCCGGGCAGGCCTCAGCCAGTGCCACCGCCGCCGGA -AAATCGGCAGAAAGCGCCGCATCGTCTGCTTCAACAGCCACAACGAAGGCTGGCGAAGCCACTGAACAGGCCAGCGCAGC -AGCGAGGTCTGCTTCCGCAGCGAAGACATCCGAAACGAACGCGAAAGCGTCGGAAACAAGCGCAGAATCCTCAAAAACGG -CTGCCGCATCGTCAGCCAGTTCGGCGGCGTCATCGGCATCATCGGCGTCTGCTTCAAAAGATGAGGCGACCAGACAAGCG -TCAGCAGCGAAGAGCAGCGCCACGACGGCATCCACGAAGGCGACAGAGGCTGCTGGCAGTGCGACGGCGGCAGCTCAGAG -CAAAAGTACGGCGGAATCCGCGGCAACGCGCGCCGAGACAGCAGCTAAACGGGCAGAGGATATTGCATCCGCCGTGGCGC -TTGAGGATGCAAGTACGACGAAAAAGGGGATAGTACAGCTCAGCAGTGCGACCAACAGTACGTCTGAAACGCTGGCGGCA -ACGCCAAAGGCAGTAAAATCAGCCTATGACAATGCAGAGAAACGTCTGCAGAAAGACCAGAACGGCGCTGATATACCCGA -TAAGGGATGCTTCCTGAACAACATTAACGCGGTCAGTAAAACAGACTTTGCTGATAAGCGTGGTATGCGTTATGTGCGGG -TTAACGCTCCTGCAGGTGCAACATCTGGAAAATATTACCCTGTTGTTGTTATGCGTTCTGCTGGCTCAGTAAGCGAACTG -GCATCAAGAGTCATTATCACCACGGCAACGCGAACCGCAGGCGATCCGATGAATAACTGCGAGTTTAACGGATTTGTTAT -GCCTGGTGGCTGGACTGACAGGGGGCGTTATGCTTATGGCATGTTCTGGCAATATCAAAACAATGAACGAGCCATTCACT -CAATAATGATGAGTAATAAGGGCGATGATTTGCGCTCTGTGTTCTATGTTGATGGCGCTGCTTTCCCTGTTTTTGCGTTT -ATTGAAGATGGCCTGTCAATATCCGCACCTGGTGCTGATCTCGTTGTTAATGATACGACCTATAAGTTTGGGGCAACAAA -TCCGGCGACTGAATGTATCGCGGCGGACGTTATCCTTGATTTTAAGAGTGGGCGTGGTTTTTATGAGTCTCATTCGTTAA -TCGTTAACGATAACTTGTCGTGCAAAAAACTTTTTGCCACAGACGAAATTGTAGCGCGTGGTGGTAATCAGATTCGAATG -ATAGGTGGGGAGTATGGTGCATTATGGCGTAATGATGGCGCTAAAACTTACCTGCTGCTTACCAATCAAGGTGATGTTTA -TGGTGGCTGGAATACATTAAGACCGTTTGCTATTGATAACGCAACCGGCGAACTGGTTATTGGAACCAAACTGTCCGCAA -GTCTGAACGGTAATGCATTAACAGCAACAAAGCTGCAAACGCCAAGACGGGTTTCTGGTGTTGAGTTTGATGGTTCCAAA -GATATTACTTTAACCGCCGCGCATGTGGCTGCTTTTGCCAGAAGGGCAACGGATACATATGCCGATGCGGATGGTGGCGT -TCCATGGAATGCCGAATCTGGCGCTTACAATGTCACCCGCTCTGGCGACAGCTATATTCTGGTTAACTTCTATACCGGAG -TCGGAAGTTGCCGGACCCTGCAGATGAAGGCGCATTACAGAAATGGTGGTCTGTTCTACCGTTCTTCAAGAGACGGTTAT -GGTTTTGAGGAAGACTGGGCAGAAGTTTATACCTCGAAAAATCTTCCACCAGAAAGCTACCCAGTCGGCGCACCAATCCC -GTGGCCATCAGATACCGTTCCGTCTGGTTATGCCCTGATGCAGGGGCAGGCTTTTGACAAATCTGCTTACCCGAAACTTG -CAGCCGCTTATCCGTCAGGCGTGATCCCTGATATGCGTGGCTGGACGATTAAGGGCAAACCTGCCAGTGGTCGGGCCGTA -TTGTCTCAGGAACAGGACGGCATTAAATCGCATACCCACAGCGCCAGCGCATCCAGTACAGATTTGGGGACGAAAACCAC -ATCGTCGTTTGATTACGGCACTAAATCCACGAATAACACCGGGGCACATACACACAGTGTGAGCGGCTCTACAAACTCGG -CTGGAGCACACACACACTCACTAGCCAACGTGAACACGGCTAGTGCTAACTCCGGTGCTGGTAGTGCATCAACAAGATTG -TCTGTTGTGCATAATCAAAACTATGCAACATCATCTGCTGGCGCACATACCCACTCACTGTCCGGCACTGCTGCAAGCGC -AGGTGCACACGCGCATACTGTCGGTATTGGTGCTCATACGCACTCCGTTGCGATTGGTTCACATGGACACACCATCACCG -TTAACGCTGCTGGTAACGCGGAAAACACCGTCAAAAACATCGCATTTAACTATATTGTGAGGCTTGCATAATGGCATTCA -GAATGAGTGAACAACCACGGACCATAAAAATTTATAATCTGCTGGCCGGAACTAATGAATTTATTGGTGAAGGTGATGCA -TATATTCCGCCTCATACAGGTCTGCCAGCAAACAGTACCGATATTGCACCGCCAGATATTCCGGCTGGCTTCGTGGCTGT -TTTCAACAGTGATGAGTCATCGTGGCATCTCGTTGAAGATCATCGGGGTAAAACGGTTTATGACGTGGCTTCCGGCAACG -CGTTATTTATTTCTGAACTCGGTCCGTTACCGGAAAATGTTACCTGGTTATCGCCGGAAGGGGAGTTTCAGAAGTGGAAC -GGCACAGCCTGGGTGAAGGATACGGAAGCAGAAAAACTGTTCCGGATCCGGGAGGCGGAAGAAACAAAAAACAACCTGAT -GCAGGTAGCCAGTGAGCATATTGCGCCGCTTCAGGATGCTGCAGATCTGGAAATTGCAACGGAGGAAGAAATCTCGTTGC -TGGAAGCATGGAAAAAGTATCGGGTATTGCTGAACCGTGTTGATACGTCAACTGCACAGGATATTGAATGGCCAGCACTG -CCGTAGGGTAAAACATATAAATTCTATAATTAGATGTATCTTTCCATTTACGGCAAGGAAGGGGGCTTGGAAGACGTAAA -GCATCTCACACCGAGATTATTTTTTATATGTCAGGTGTCTGAAGTTTTGCTTTGGCTCTTAAAATGGTTTGCCGCGAGGT -TTTGAATTCCCGGGCAATGGCACTTATACTTACACCTGACTTAATTCGTTCGAATACCACCTGTTTCTGTTCTTCATTTA -ACACAGGAGGTCGACCAAAACGTTTCCCTGCGCCGCGGGCTCTTACTATCCCGGAATGAGTGCGTTCAAGTAAAAGGTCT -CGTTCAAATTCAGCGACTGCTGAAATTACTTGCATCATCATTTTTCCTGTTGGACTGGTCAGGTCAATGCCACCCAATGC -TAAGCAATGCACTCTGATACCTGTTTCGGTCAGTTGTTCCACTGTTTTCCTGATATCCATTGCATTACAACCAAGGCGAT -CCAGTTTTGTCACAATCAATTGATCACCACATTTCAGGCGAGCAAGCAACCGGTTAAAACCAGGACGCTCACTGGTTGCT -GCTGAGCCGCTAATGTGTTCTTCGATTATTTGCTGAGGTTTGATTTTAAAACCTGCACTTTCGATTTCCCGGCGTTGATT -TTCGGTGGTCTGATCCAGCGTTGATATCCGACAGTAAGCAAAAATTCGAGACATAGTGAGACTCTATACGAAATTGGTGT -TCATATCATAATGCATCTCAGAAAATAATTATGATTATTTTTGTGCATATTTGTATGTACACGTTCGAAAATAAACGAAT -GCGTATGCAACCCCGTAATTTTGGTGAGACCCAAAATCGATTTTGTGAAAAATGGCTTTAACTCGGTTTGTTTTTCGAGT -TCCGGGCGGACTCAAGGAAGAAGAATAGTGTTGCGTGTTATTTTAACCAGATTTCAAGTTGTTTGGTCGTGGAAAAGTGG -AGCAAAATGTTGTTAAAGTGGAAAAATGATAAAAAAGTAAGTTTATTATATTACATTTTACCATTTAAATTTTGGTTGTC -TTTAAGAACTGATATCGCTGTTTGTAATAATTCTTTGTTATCCAGCCATGATGTTTTCTTTATGTTTCCTTCAATGTAAT -CAAGCAATGTTCTGGTATTGATAGGTCTTCCCTGTTTTGCTACTTCCACTACAGCATCCCCTAGGATAATTCTTACTTCA -GGAAGCTGCGCAGGGAACCACTTTAGGGTGTCTTTTGATTTCATGAAGATATTCCTTAAAATATTATTGATTTTCATTGC -GATATTGTATGTCTGATTCAGGATATGTTGACTTATACATCGGTTTTGTCTGGGTTATTGGATATGCCAATCCCTAATTT -TATTAGGGAAGGTGCGAACAAGTCCCTGATATGAGATCATGTTTGTCATCTGGAGCCATAGAACAGGGTTCATCATGAGT -CATCAACTTACCTTCGCCGACAGTGAATTCAGCAGTAAGCGCCGTCAGACCAGAAAAGAGATTTTCTTGTCCCGCATGGA -GCAGATTCTGCCATGGCAAAACATGGTGGAAGTCATCGAGCCGTTTTACCCCAAGGCTGGTAATGGCCGGCGACCTTATC -CGCTGGAAACCATGCTACGCATTCACTGCATGCAGCATTGGTACAACCTGAGCGATGGCGCGATGGAAGATGCTCTGTAC -GAAATCGCCTCCATGCGTCTGTTTGCCCGGTTATCCCTGGATAGCGCCTTGCCGGACCGCACCACCATCATGAATTTCCG -CCACCTGCTGGAGCAGCATCAACTGGCCCGCCAATTGTTCAAGACCATCAATCGCTGGCTGGCCGAAGCAGGCGTCATGA -TGACTCAAGGCACCTTGGTCGATGCCACCATCATTGAGGCACCCAGCTCGACCAAGAACAAAGAGCAGCAACGCGATCCG -GAGATGCATCAGACCAAGAAAGGCAATCAGTGGCACTTTGGCATGAAGGCCCACATTGGTGTCGATGCCAAGAGTGGCCT -GACCCACAGCCTGGTCACCACCGCGGCCAACGAGCATGACCTCAATCAGCTGGGTAATCTGCTGCATGGAGAGGAGCAAT -TTGTCTCAGCCGATGCCGGCTACCAAGGGGCGCCACAGCGCGAGGAGCTGGCCGAGGTGGATGTGGACTGGCTGATCGCC -GAGCGCCCCGGCAAGGTAAGAACCTTGAAACAGCATCCACGCAAGAACAAAACGGCCATCAACATCGAATACATGAAAGC -CAGCATCCGGGCCAGGGTGGAGCACCCATTTCGCATCATCAAGCGACAGTTCGGCTTCGTGAAAGCCAGATACAAGGGGT -TGCTGAAAAACGATAACCAACTGGCGATGTTATTCACGCTGGCCAACCTGTTTCGGGCGGACCAAATGATACGTCAGTGG -GAGAGATCTCACTAAAAACTGGGGATAACGCCTTAAATGGCGAAGAAACGGTCTAAATAGGCTGATTCAAGGCATTTACG -GGAGAAAAAATCGGCTCAAACATGAAGAAATGAAATGACTGAGTCAGCCGAGAAGAATTTCCCCGCTTATTCGCACCTTC -CTTAGAGCATGACTAAAAATGCTGAATATGATAAGGAGCGAAGTGATTATCAGTATGCTGTTCATATAGCCTCGAATTAG -TAATGTGTTATATATGATATAGTTGACAATTTTTATCCTGGGTGTTCTTAAAGTTCGTAGATAAACATTGTCGTTTCAGG -TATACAGGAATGCTAACAGGTGGCGGCAAAAATCAGGCGGTTTATGGCGCAAGCTGAAGTGGCAACTGCAAACTATCTTA -TGCAGAGACTCTACACGGATTGGGTTTAAAAGTATACATAGATAACAGTTTTTATCTGAAGAAGAAAAATATCAAGGTGA -TATAGCCTATATGCCTTTGATGCGGAGGAATGAATGTGATGGGAGTGATGTATCTGAATAGTTGAAAAACCGCAGTCACG -TCGTATGCAAGAACGTGCTGCGGTTGGTTTGACTTTGATTGAGACGTTTTGGAATTTTTTTCGGTGGCAAAAATGGGGCA -AAACGCTGCAAAAGGGGCAAAAAAGGGGCAAAAAAAGAGTGGATTATCGTAGCTTATTGTTGTCGCTGATGATATTTAAC -ACATTGAAAAATAAGTAAAATACTTATGAGTCAGAGAGTTGTGATTTTTGCCCTTACTTGTTCAGGTTGTATTGTTCTTT -CTTACTAATTTCTTGATTTTGCGACATTTAAAAGCGACTCAATTCGTTATATGGCATCAGAAGAGTATGCGTCATGCCGG -AACGCCCAGCATAAGAAATCTGATATAAAAAACTGTGGCGTGTATGGTACGGATTAGAGGGGAAAATGTCAGCACATTTG -CGAAATGAATCAAAAAGCCCGCAGCAATGTGCGGGCGTTAGTGTCAGCGCACAACCAGCACGGAGCACTCTGCGTGACGC -ACTACAGCTGCGGCGTTGGAACCGAGCAGATAAGTGGTGATATCCGGTCGATGGGAAGCAATGATGATCATATGAGCGGG -GATCTTCTTCGCCAATTCCAGAATGCGGTCTTTGGGCGAGCCTTCCTCAACATGGACATGCACTCTGTCGGTTGGCAGTT -TAAATTTTTTAATGATCTCTTCCAGTTGCGATTTGGCTTCCGCTTTCAGGTCATCCATTGCCGGTAATTCTGCGGAATAC -GCTAAACCCAGAGAGGCATAGTAGGGCAGTGAAGGTATTACCGTCAGGAAATGAACCTCTGCATCATCAATCTTTGCCTC -TTCCTCAACGTGGCTAATCACGCGTTGAGTTAATTCTGAATCGGAAATATCGATAGGGACAAGAATCGTTCTGTTCATAA -AACCTCCTGTTTTAGTATCCGCATAAAGTGTAACGCCAGATGACACTTTTTGTGTAATGACGGAGTTCACATTTTTAATT -TAGATCAAAGGAGGAAGAATAAGCAGAAAAAGCCCGCCATAACAGCGGGCAGGAGGATTTAGAACTGATAAACCAGACCT -AAAGCGACAATATCATCGGTAGAGATGCCATTGGCAGCGTAGAAGCTGTCATCTTCATCCAACAGGTTGATTTTATAGTC -AACGTAGGTGGACATGTTTTTATTGAAATAGTAAGTCGCGCCAATATCGGCGTATTTAACCAGATCTTTATCATCAACAC -CTGCCGGGTTGTCTGCACCACCCGCAGCGTGCAGGTCACGGCCTTTAGACATCAGGAAAGAGACTGCCGGACGCAGACCA -AAATCAAACTGGTACTGTGCAGTGACTTCAAAATTCTGGGTTTTGTTTGCCACAGCATAATCGCTGTCGCCAAACGGGGT -CATATTACGCGTTTCTGAATACATGGTTGCCAGGTAAATATTGTTAGCATCGTATTTTAGCCCAGCAGTCCACGCGTCTG -CTTTATCACCACCCGCCGCAGTATGGTTAACCTGGTCATTGGTGCGGTCAGAAGAGGTGTATGCCGCACCAGCGCTAAAG -CCCATGCCTAAATCATATGTTGTGGAAAGACCCCAGCCGTCACCGTTTTCATGGCGAACATCACGTCCGTTGTTGGTGCC -TTCCTGACCATTACTGGCTCCTTCGTTGTTACCTTGATACTGCACCGCGAAGTTCAGACCATTTACCAGACCGAAGAAAT -CAGTATTACGATAAGTCGCGACGCCATTGGCTCGACCAGTCATAAAGTTGTCTGCATTGGTATAAGAGTCACCGCCAAAT -TCAGGCAGCATATCGGTCCAGCCTTCGATGTCGTACATTACGCCATAATTACGTCCGTAATCGAAAGAACCGTAATCTGC -AAATTTCAGCCCGGCAAATGCCAGACGGGTCCATGACTGGTTTTTTGAAGATTCAGTGTTGTTTGCCTGAATATTGTATT -CCCATTGACCGTAGCCAGTGAGTTGATCGTTAATTTGGGTTTCGCCTTTAAAACCCAGACGCGCATAGCTCTGGTCGCCA -TCTTTCGCTGAATTATCAGAAAAATAATGCAGGCCATCAACTTTGCCATACAGATCTAATTTGTTGCCGTCTTTATTATA -AACTTCGGCTGCATGTGCAGCACCTGCGGCGAGCAGGGCAGGAATTAAAAGTGCCAGTACTTTGCTTTTCATTGAATAAA -TCCTTTAGTTATTTTATTTGCCTTTTATCCCCATTTCGGGGAGTGAAAACATCCTAAAGGAGAAGTTCAGTTAGCCGATA -AATATCATTTGTTACGCCTTAAGTAAAACCTTAATCAAATAATTCCTCTGAAATGATAATAAGTCTGGTGAATGTATCGA -AGATAATACATACAAAATAAAAATTATACTTTTAATTTGCTATACGTTATTCTGCGCGGGTTATATGCCTTTATTGTCAC -AGAATTTATTTTCTGTTGGGCCATTGCATTGCCACTGATTTTCCAACATATAAAAAGACAAGCCCGAACAGTCGTCCGGG -CTTTTTTTTTAGAATTGGATAATCCTTATCCAGAGCATTTAATCGGTGTTGCTTTTTTCCGCTTTTCCGGCCATTTGTGC -CAGGAAGTCATAGCGTTTTTGCAAATCAGCTGCAGCATCTTTCCATAACTGTTCTGCCACTTCTGGCTGCTGCGAATTCA -GCCGACGGAAACGTTGCTCGTGAAGTAACGTTTCTTCCGGTGCTTCTGACGGCGGGCGTGAATCCAAGGCCAGCGGCAGT -TTGCCTTCATCGGCACGACGCGGATCAAAGCGATATAGCGGCCAGAAGCCGGTAGCTGTGAGTTGGCGCATCTGGTCGTG -GCTGAGTGCCAGATCGTAACCATGCTCTTCACACGGGCTATAAGCAATGATCAGCGATGGCCCCGGATACGCTTCCGCTT -CCTGAATCGCTTTCACCGTCTGGTTCAGCTGCGCGCCGAGAGAAATCTGCGCCACATAAACATGACCGTACATCATCATA -CTGACGCCAAGATCTTTACGCGCTTTACGTTTGCCGTGCTCGCCAAATTTAGTTACTGCACCCAGCGGTGTCGCTTTCGA -CGCCTGACCACCGGTGTTGGAATAGCATTGCGTATCCAGCACCAGAATGTTGACGTTTTCCGTCAAACTCAATACATGAT -CCAGACCGCCAAAGCCGATATCGTAAGCCCAGCCATCACCACCAATCAGCCAGATTGATTTTTCCACCAGTGCATCTGCA -TCACGTAGCAGTTCATGTGCTTCGGCAACATCGTTGAGTTGCTGGCGTAAAGCTGCAACCTGTTCACGACGAACCTCTGG -CGTGGCGTCTGATTTCAACGCCGTCAGTAATTCCGCCGGGATTTTATCGGCAAATTGATCCAGCAGACGCAGCACGCGGA -CACGGTGTTGATCGACCGTCAGGCGGAAACCAAGGCCAAATTCGGCATTATCTTCAAATAGAGAGTTCGCCCATGCCGGC -CCACGACCGTTGGCATCGGTGGTATACGGTGTAGAGGGCAGGTTACCGCCATAAATTGAAGAACAGCCAGTGGCGTTAGC -GATCAACATCCGGTCGCCATAGAGCTGAGTCAGTAATTTAATATACGGCGTCTCGCCACAACCGGAGCAAGCACCTGAAT -ATTCAAACAGCGGTGTAATCAGCTGCGATGTACGAATATCAATACGTTCCAGTTTGCTACGGTCGATTTCTGGCAGGTTG -AGGAAGAAATCGTAATTGATTTTCTCTTCTTCGACATGTTCCAGGCGAGACATCATATTGATGGCTTTAATCTCTGGATT -CTGACGGTCTTTCGCCGGGCAAACTTCGACGCACAGGTTACAACCGGTGCAATCTTCCGGTGCCACCTGCAAGACATATT -TCTGCCCGCGCATATCACGCGATTTCACATCCAGCGAATGCAGGCTGGCAGGGGCGTTTTCCATCGCTTCAGGCGGCACC -ACTTTTGCGCGAATAGCTGAGTGTGGGCAAGCGGCAACGCAGTGGTTACATTGGGTACAGAGTTCCTCTTTCCAGATGGG -GATCTCTTCGGCGATATTGCGTTTTTCCCAGCGCGTAGTGCCCATCGGCCAGGTGCCGTCTGGCGGCAGCGCCGAAACGG -GGAGGGCGTCACCAAGCCCGGCGAGCATCGCAGCGGTTACGGTTTTCACGAAATCAGGGGCGGCATCGGAAACCACTGGC -GGTCGATTGGCGCTGTGCGGATTTACCGGTTGCAACGGAACTTCTTCTACGGATTCACGCGCCAGCGCCAGAGCCTGCCA -GTTGCGTTCCACCAGATCCTGGCCTTTGCTACTGTAACTTTTGGCAATCGCACCCTGCAATTCTGCGAGGGCGCTATCGC -CAGGCAGAATTTGCGTCAGATGGAAAAAAGCCATCTGCATGACGGTATTAATACGGGCCGCCAGGCCACATTCGCGGGCG -ATTTTCGCCGCGTTAATCACATAGAAGCGCGCTTTTTTCTGGTTTAACACGGCCTGAACTTCTTGCGGCAAGCGCGACCA -CACTTCATCTGCGCTGTACGGCGTGTTGAGCAGGAAAATGCCGCCAGGTTTTAAACGCTCAGCCATCTGATATTTATCGA -TAAACTGCAACTGGTGGCAGCCAACAAAATCAGCCTGGGAAATGAGATAAGCGGAACGAATCGGCTGTTCGCTCACTCGA -AGGTGAGAAACCGTCAGGCCGCCCGCCTTTTTGGAGTCGTAAACAAAATAGCCCTGTGCGTACCACGGCGTGGAATTACC -GATAATCTTGATATTGTTTTTGGTCGCGGAAACGCTGCCATCACTACCAAGGCCATAAAACAAGGCTTCCAGTTTCGCCG -AGTTTGGCAGGGTGTTTTCCGGCAACGGCAGTGACAGATTGGTCACATCATCGTAAATACCAACCGTAAAGCGCGCTTTC -GGTTTAGCCGCGTTGAGCTCGGCAAATACCGCCAGTACACAGTCTGGGCCAAATTCTTTGGATGAAAGACCATAGCGCCC -ACCAATGACACGGGGCAGAGTTTCGCGCTCGCCATTATTAAAGGCTTCTGCCAGTGCGGTCATTACATCCAGATAGAGCG -GTTCTGCCTGGGCACCGGGTTCTTTGGTTCTGTCCAGTACCGCCACGCTGCGTACGGATCCCGGCAGAGCTTGCAGTAAA -TGTTTAGCGGAGAAGGGGCGGTACAGGCGAACTTTCAGCACGCCAACTTTTTCGCCACGGGTTAGCAATTCATCAACCAC -TTCTTCACAGGTGCCAATGGCAGAGCCCATCAGGATAATCACCCGTTCCGCTTGCGGATGCCCGTAATATTCAAACGGCT -GATACTGACGACCTGTCGCGGCAGAGAAATCATTCATCGCCTGTTCAACATGGTCATAGACCGCGTTGTACCATGGGTTG -GTGGCTTCGCGAGACTGGAAATAAGTGTCAGGATTGGCGGACGTACCGCGGATCACCGGATGTTCCGGGTTGAGTGCCCG -GGCGCGATGAGCATCAATTTCGACCTGCGGCATGAGATCAAGAATCGTGTCATCGGCCAGCGGGACAATTTTATTGATTT -CGTGGGACGTGCGGAAACCATCAAAGAAATGAATAAATGGCACGCGGCTTTTCAGCGTCGCGATTTGCGAAATGAGAGCA -AAGTCTTGCGCTTCCTGGACGTTTGCTGCACACAACATCGCGCAACCCGTCTGGCGCACCGCCATAACGTCGGAATGATC -GCCAAAAATAGAGAGTGCATGTGTGGCAACGGTACGTGCCGCTACATGCAGGACAAACGGTGTTAGTTCGCCTGCCAGTT -TGTACAGCGTCGGGATCATCAGCAGCAAACCCTGCGATGACGTAAACGATGTTGAAAGGGCACCCGTCTGCAAAGCGCCA -TGCACGGTAGCGATAGCACCCGCTTCCGACTGCATTTCAACCACGCGTGGTGTGTCTCCCCAAACGTTCTTTAAGCCGTT -TCCGGCCCAGGCATCAGCCTGTTCTGCCATCGTGGAACTGGGGGTAATAGGGTAGATGGCGATAACTTCACTGGTGCGAA -ATGCGACCGAAGCAACCGCGCCATTACCGTCAATAGTAATCATATGACACCCTTACATTGCGCAAATGAGGGGCGCACGA -AATTGCTGCGCGCCCAGTAGTAATCTTTCAATTTTAGCAAATGGCTTTCTTCTGCATTTTCGCTTTTGTGTCCCCCACAT -CAGCGTAATGAATGTTTTGATCAAACAGAGGGCAAAAAAATAGCCATAAAAAAGTAAAAATGCGGGGCAACGCGCAGGAC -AGCTCTCGACGCCGCCCTCTGTGCTGCCTATTATTTATGGCGGTGTCGTTTGGCTTGAAGATCAGAGGAAGAAAAGATGC -GAGCAGCGTTTTGGGTAGGGTGTGCCGCTTTATTGTTGTCGGCGTGTAGTAGTGAACCTGTTCAGCAGGCGACTGCCGCG -CACGTAGCGCCAGGTTTAAAAGCGTCGATGTCCAGTAGTGGAGAAGCAAATTGTGCAATGATCGGCGGTTCGCTTTCTGT -TGCCCGTCAACTGGATGGTACGGCGATTGGGATGTGTGCATTACCCAACGGCAAACGCTGTAGCGAACAGTCACTTGCCG -CCGGGAGCTGTGGCAGCTATTAATTCATTAAATCCGCCAGCTTATAAGTTAATGTCTGTTTTGCGGTCGCCAGCGTTAAC -TGGTTCGCGGTCAGATCCACTTGTGCACCTTCTTTCAGCATTTCGCTAATGGTGTTATCGAGTTCATTAAGCTGCGGGTT -AGCGCACATCATACGGGTCATTGCCAGCCCTTTGGCTGTCAGTTCACCATTAGACAGTTTGCCTTCACCGCTAAAGCGGT -TACACATGCTGCCGGAAATCATCATTTTTTCACCAAAGCTGATTTCTGGCGGATTTTTATCGCTGGTCACGGGCTTACCG -TTTACGCTTTCCAGCACAAAGCGATGATGCTGTAGCTGTTCTGGCGTAACAGCAATTTTGTCATTACTTACACATCCCGC -CATCAGCAGGCTTAGCGCAACAAACGCGGCTACTTTCTTCATTGTGGTTCTCAATTACAGTTTCTGACTCAGGACTATTT -TAAGAATAGAGGATGAAAGGTCATTGGGGATTATCTGAATCAGCTCCCCTGGAATGCAGGGGAGCGGCAAGATTAAACCA -GTTCGTTCGGGCAGGTTTCGCCTTTTTCCAGATTGCTTAAGTTTTGCAGCGTAGTCTGAGAAATACTGGTCAGAGCTTCT -GCTGTCAGGAATGCCTGGTGCCCGGTAAACAGCACGTTGTGGCAGGCAGACAGGCGACGGAATACGTCATCCTGGATCAC -GTCGTTGGATTTATCTTCAAAGAATAGATCGCGTTCGTTCTCATACACGTCCATACCCAACGAACCAATTTTCTGATTTT -TCAGCGCTTCAATTGCTGCCTGAGAATCAATCAATGCACCGCGACTGGTATTGACGATCATCACGCCATTTTTCATCTGT -TCGAAGGCGGCTTCGTTCAACAGATGATAGTTTTCCGGTGTCAGCGGGCAGTGCAGAGAGATAACGTCTGATTCAGAGAA -CAGGGTTGGCAGATCGACATACTCCACACCGAGTTCCAGCGCCGCTGCACTTGGATACGGATCGAACGCCAGCAGACGCA -TACCAAAACCTTTCAGAATGCGCAGCATCGCCACACCGATTTTACCGGTACCGATAACGCCTGCCGTTTTGCCATACATA -GTAAAGCCGGTCAGACCTTCCAGAGAGAAGTTAGCATCACGGGTACGCTGATACGCGCGGTGAATACGGCGGTTCAGCGT -CATCATCATACCGATGGCGTGTTCAGCAACGGCCTCTGGATCATAGGCTGGAACACGGACTACTTTCAGCCCCAGTTCTT -TTGCCGCGTCAAGGTCGACGTTATTGAAACCGGCACAGCGCAGGGCGATATATTTAACGCCGTGCTTTTTCAGCTCTTCC -AGCACCGGGCGGCTGCCGTCATCGTTTACGAAAATACATACCGCTTCGCAGCCATTGGCAGTTTTAGCGGTTTTTTCCGT -CAGCAGAAAGTCAAAAAATTCCAGCTCAAAGCCAAAGGACTCGTTCACCTGTTGCAGGTACTTCTTGTCGTACTGTTTTG -TGCTATAAACGGCGAGTTTCATAAGACTTTCTCCAGTGATGTTGAATCACATTTAAGCTACTAAAAATATTTTACAAAAT -TTCAAATTTAATTGAAAGCTATGGCGATATTGAAAAATTCATCAACAACTATGCTTAGTGTAGGCGCAACCTTCAACTGA -ACGGTTAAACATGCCACAATACCCGTATTGAATGCTTAATTTTTCGCTAAATCAGGATATTAACTACCCATGCTGGGTAA -ATATAAAGCCGTTCTCGCGCTGTTATTACTGATTATTCTTGTGCCGTTGACGCTGCTGATGACGCTCGGGCTGTGGGTTC -CCACGCTGGCGGGCATCTGGCTACCGCTCGGGACACGTATTGCATTAGATGAAAGCCCACGCATTACGCGTAAAGGTTTA -ATCATTCCCGATCTCCGTTATCTGGTGGGAGATTGTCAGCTTGCGCATATCACCAACGCCAGCCTTTCACATCCCAGCCG -CTGGTTATTGAACGTCGGCACGGTAGAACTTGATTCTGCTTGTCTGGCGAAATTGCCGCAGACGGAGCAATCGCCAGCCG -CTCCAAAAACACTCGCGCAGTGGCAGGCCATGCTGCCTAACACCTGGATCAATATCGATAAACTGATTTTTTCTCCCTGG -CAGGAATGGCAGGGAAAACTCTCTCTCGCATTAACCTCTGATATCCAGCAACTGCGTTATCAGGGCGAAAAAGTTAAATT -TCAAGGCCAGCTGAAAGGGCAACAACTTACAGTCAGCGAACTGGATGTCGTCGCGTTTGAAAATCAGCCGCCGGTAAAAC -TGGTGGGGGAATTTGCTATGCCGCTCGTGCCGGATGGACTTCCTGTAAGTGGGCATGCTACTGCGACGTTAAACTTGCCG -CAGGAACCGTCACTGGTGGATGCCGAGCTGGACTGGCAGGAAAATAGCGGGCAATTGATCGTGCTGGCACGGGATAACGG -CGATCCGTTGCTCGATTTGCCGTGGCAAATTACTCGTCAACAATTGACCGTAAGCGATGGTCGCTGGAGCTGGCCGTATG -CAGGTTTTCCTTTGAGTGGCCGACTGGGTGTCAAAGTCGACAACTGGCAGGCAGGGCTTGAGAACGCTCTGGTCAGCGGA -CGACTGAGTGTGCTGACCCAGGGGCAAGCGGGTAAGGGCAACGCGGTGCTTAATTTTGGCCCAGGAAAATTAAGCATGGA -TAACAGTCAGCTGCCTCTGCAGCTGACCGGTGAAGCGAAACAGGCGGACCTCATTTTATATGCCCGTTTACCTGCGCAGC -TAAGTGGAAGTCTGTCTGACCCAACGCTGACCTTTGAGCCAGGCGCGTTACTTCGTTCAAAGGGAAGAGTCATCGATTCG -CTGGACATCGATGAAATCCGCTGGCCTTTAGCGGGTGTAAAAGTCACCCAACGTGGTGTTGACGGACGTTTGCAGGCCAT -CTTGCAGGCGCATGAAAATGAACTGGGCGATTTCGTGCTGCATATGGATGGGCTGGCGAATGATTTTCTCCCTGACGCTG -GCCGCTGGCAGTGGCGCTACTGGGGAAAAGGGAGTTTTACACCGATGAATGCCACCTGGGATGTCGCAGGAAAAGGTGAG -TGGCATGACAGCACGATTACGCTGACCGATCTCTCCACCGGTTTCGACCAGTTACAATACGGTACGATGACGGTAGAAAA -GCCGCGATTAATTCTCGACAAGCCCATCGTCTGGGTACGTGACGCACAGCATCCCTCCTTTAGCGGCGCGCTGTCACTGG -ACGCCGGGCAAACGCTGTTCACTGGCGGCAGTGTGTTACCGCCATCAACCTTAAAATTTAGCGTCGATGGGCGCGATCCT -ACCTATTTCCTCTTTAAAGGCGATTTACATGCTGGTGAGATTGGCCCGGTTCGGGTAAATGGTCGCTGGGACGGTATTCG -TCTGCGCGGTAACGCCTGGTGGCCTAAACAATCACTGACCGTATTCCAGCCGCTGGTGCCACCCGACTGGAAGATGAACT -TACGCGATGGTGAACTGTATGCTCAGGTTGCATTTTCTGCTGCGCCTGAACAAGGATTCCGCGCGGGAGGACACGGCGTG -TTGAAAGGCGGTAGTGCCTGGATGCCAGATAATCAGGTTAACGGTGTCGATTTTGTCCTGCCTTTCCGTTTTGCCGATGG -AGCCTGGCATCTGGGGACTCGCGGCCCCGTTACGTTGCGAATTGCCGAAGTGATTAATCTGGTGACAGCGAAAAATATTA -CGGCTGATTTGCAAGGGCGTTATCCGTGGACTGAAGAAGAACCCTTGCTGTTGACTGATGTTAGCGTCGATGTGTTAGGC -GGTAACGTACTGATGAAACAATTACGTATGCCGCAACATGACCCGGCGCTGTTGCGGCTGAATAATCTCTCATCCAGCGA -ACTGGTTAGCGCCGTCAATCCGAAACAATTCGCCATGTCCGGGGCATTTAGTGGTGCACTGCCGTTATGGCTGAACAATG -AAAAATGGATTGTGAAAGATGGCTGGCTGGCGAATAGCGGGCCGATGACATTGCGACTGGATAAAGACACTGCGGATGCG -GTGGTAAAAGACAATATGACTGCGGGTTCAGCAATTAACTGGTTGCGCTATATGGAAATTAGCCGTTCATCGACAAAAAT -TAATTTAGATAATCTCGGTTTATTAACCATGCAGGCCAACATTACAGGTACCAGTCGCGTTGATGGTAAAAGCGGTACGG -TAAACCTTAATTACCATCATGAAGAGAATATTTTTACGCTGTGGCGCAGTTTACGCTTTGGCGATAATCTCCAGGCATGG -CTGGAGCAGAACGCACGTCTGCCGGGAAATGACTGTCCGCAAGGAAAAGAGTGTGAGGAAAAACAATGAAAATTTTACTG -GCTGCGTTGACGTCATCTTTTATGCTGGTTGGCTGTACGCCTCGCATTGAAGTCGCTGCACCTAAGGAACCGATCACTAT -CAATATGAACGTTAAAATTGAGCATGAGATCATCATCAAGGCAGACAAAGATGTCGAAGAGCTGCTTGAAACTCGTAGCG -ATCTTTTCTGAGGTGATGATGAAGAAAACATTACTTCTTTGTGCGTTTCTTGTTGGGCTGGTAAGCAGCAATGTAATGGC -ATTGACTCTGGATGAAGCCAGAACTCAGGGGCGGGTAGGTGAAACATTTTACGGTTATCTGGTTGCGCTGAAAACGGATG -CTGAAACAGAGAAATTAGTAGCCGACATTAATGCCGAACGTAAAGCGAGTTACCAACAACTGGCAAAGCAAAATAATGTG -TCGGTAGATGATATCGCGAAACTCGCCGGGCAAAAGCTCGTAGCTCGGGCCAAACCGGGGGAATATGTACAAGGGATAAA -CGGTAAATGGGTGCGAAAATTTTAATAGCAAAACCGCAATATCGGGATAACGCTACAGGAGAAGGCGATTGATCTATTTT -CCTGAAACAAGGTGAATATTCAAAAACTCCTGTCAAATTGCCTTTTGCCCTGAAAAATGCATAGTCAAATATCTGTTTTA -ACTAATTGGCGTTGCAGTACATGCAACGCCAATTAGTTAGCGGAATTTACGTCGATACTCGCCTGGCGTCATCCCAAAGC -GTTGCTTAAATACCGTTGAAAAATGACTCTGGTCAGAAAATCCCCAATGAAAGCCGATGCCTGCCAGTTTTTCATCATCT -GCGGCATGGCGAATCGCATCTGCACAAAAATCGAGACGACGGTTACGAATATATTGCGCGACTACCAAACCTTTATCGGC -AAACATTCGGTACAAACTACGTACTGACATACCTGTCTCTCCGGCTATCCACTCCGGGCGTAATATCTCTTCGCGAATAT -TATCGTCTATCAACGTAACCACTTTTTGAAACTGACGTTCACGACGAGGTTGAACAGATTCCCGCTGATGAAGTACCGGG -CGCAGCAGACACACCATCGCCTGTAGCGCAGCTTCACTTTCTGTTTCAGAAAGTGCCGGATTATTCATGCTCTCCTGTAA -CAGGCGATGACTGAGTTGCACCATGGGTAAGTCAGCGTCCAGTCTTTCTGCGCAGATAGGTTTTTGATGGGGAAAATATT -GTTCCAGCAGAGTGCGTGGCAAAAGTAATGAAATCTGTTTAGAAGACTCCTGCCAGTAAAGCGAACAGGGGCGTGAGGCA -TCGAGTAACGTAATATCGCCAGCGCCAATCTGCACCTGACGCTCATCCTGCTCCATTATTGCCTGACCACTAAGCTGAAA -AACGGTGTAAAACCAGGCATCGTCGCTGCCTTTTACTTCCTGCCAGGTGCGGGATAAATTCACCCCGCTGGTTGTCACGG -TACTCAGCTTTAGTCCTTTGGCAAAATGCGTGTCCAGTACACCCGTGTAACGCTCAGTCAGCAGGCGTCCGGTAAAATTT -CCGCATACCTGATTGATTTGGGAAAGCCATTGCTGAAACTCATTATCCACTGCGGGGTTCATGGCACGTTTTCGCTCTGT -GAAATGTATTTTTATTGTTGCATTTGTGTTGCAATAAACGAAGCTAATGAGCCTGACTATAGGAAATAAGTCTTGTCAGG -CATAGAGACATAAGCGGTTATTGTCACGATTTGCGGAGCTTGTCACAGCTGACAAAGCGAATGTCACAGCGAAAAAAGTG -ACTTTTCTTGTCGCTGCGTACACTGAAATCACACTGGGTAAATAATAAGGAAAAGTGATGACAGAGCCGCATGTAGCAGT -ATTAAGCCAGGTCCAACAGTTTCTCGATCGTCAACACGGTCTTTATATTGATGGTCGTCCTGGCCCCGCACAAAGTGAAA -AACGGTTGGCGATCTTTGATCCGGCCACCGGGCAAGAAATTGCGTCTACTGCTGATGCCAACGAAGCGGATGTAGATAAC -GCAGTCATGTCTGCCTGGCGGGCCTTTGTCTCGCGTCGCTGGGCCGGGCGATTACCCGCAGAGCGTGAACGTATTCTGCT -ACGTTTTGCTGATCTGGTGGAGCAGCACAGTGAGGAGCTGGCGCAACTGGAAACCCTGGAGCAAGGCAAGTCAATTGCCA -TTTCCCGTGCTTTTGAAGTGGGCTGTACGCTGAACTGGATGCGTTATACCGCCGGGTTAACGACCAAAATCGCGGGTAAA -ACGCTGGACTTGTCGATTCCCTTACCCCAGGGGGCGCGTTATCAGGCCTGGACGCGTAAAGAGCCGGTTGGCGTAGTGGC -GGGAATTGTGCCATGGAACTTTCCGTTGATGATTGGTATGTGGAAGGTGATGCCAGCACTGGCAGCAGGCTGTTCAATCG -TGATTAAGCCTTCGGAAACCACGCCACTGACGATGTTGCGCGTGGCGGAACTGGCCAGCGAGGCTGGTATCCCTGATGGC -GTTTTTAATGTCGTCACCGGGTCAGGTGCTGTATGCGGCGCGGCCCTGACGTCACATCCTCATGTTGCGAAAATCAGTTT -TACCGGTTCAACCGCGACGGGAAAAGGTATTGCCAGAACTGCTGCTGATCACTTAACGCGTGTAACGCTGGAACTGGGCG -GTAAAAACCCGGCAATTGTATTAAAAGATGCTGATCCGCAATGGGTTATTGAAGGCTTGATGACCGGAAGCTTCCTGAAT -CAAGGGCAAGTATGCGCCGCCAGTTCGCGAATTTATATTGAAGCGCCGTTGTTTGACACGCTGGTTAGTGGATTTGAGCA -GGCGGTAAAATCGTTGCAAGTGGGACCGGGGATGTCACCTGTTGCACAGATTAACCCTTTGGTTTCTCGTGCGCACTGCG -ACAAAGTGTGTTCATTCCTCGACGATGCGCAGGCACAGCAAGCAGAGCTGATTCGCGGGTCGAATGGACCAGCCGGAGAG -GGGTATTATGTTGCGCCAACGCTGGTGGTAAATCCCGATGCTAAATTGCGCTTAACTCGTGAAGAGGTGTTTGGTCCGGT -GGTAAACCTGGTGCGAGTAGCGGATGGAGAAGAGGCGTTACAACTGGCAAACGACACGGAATATGGCTTAACTGCCAGTG -TCTGGACGCAAAATCTCTCCCAGGCTCTGGAATATAGCGATCGCTTACAGGCAGGGACGGTGTGGGTAAACAGCCATACC -TTAATTGACGCTAACTTACCGTTTGGTGGGATGAAGCAGTCAGGAACGGGCCGTGATTTTGGCCCCGACTGGCTGGACGG -TTGGTGTGAAACTAAGTCGGTGTGTGTACGGTATTAATCTGGTTCGCTCATAAGTAAAAAACGGCACCTGGTGCCGTTTT -TTTGTCTGAAACAATCACTTATCTTTCTTCAGCGCCCCTAGCGTTGGCGTTTCGTCAAAGAAGTTCCATGGTTTCAGCAG -AGTATGTACCCATTCGGTCGGCATAATCGGCCACTCTTCGGCGCGGGCCACATGTGTGGTGCCGGTGGTCATCCAGACAA -CGGCGTCGGTGTTGTCCAGCGACTCGTTATCCTTACTGTATTGTCCAAGACCGGTGTCATGAGTAGAACGGTTCGGATAT -TTGCCTTCCGGGAAACGCTCGCCAGGATGATAACGCGTTACCCAGAGCTGCTTGTCCATAAAGCTTAAACGATGATAGAT -CCACTCGTCCGGCGCGAACTGGGCACCTTTTGCTACCGGGTGAGTACCACCTGCATAAGGAATAATTTGATAGGAAACCG -GATTGCCCATGCGGTTCTCTTTGTTCGGGTTACTCAACAGACGAATCGTGCCCGGATCAAATTTCTGTGCGGCATCCTGT -TCATTGCCGATGTTGTACTGATTAACTTGCATGGTACTGGTGCGTGGGCCACCGGCAGTATTCGGTTTTACCACTGGGTC -CATCGCCACCAGGCTGTTATTCTCGCCATCTACATCCAGATCGAGGCGGAAATTATAAATATGTTGGTGTGTAGTACCCA -CGATATTGTGATCGATAAGCGTGCCGTAGCGCGTGTCATCTTTCGCCGTCTCATCGTGCATGGTTTTCGCTTTAACACCT -TTCACCGCTTCGATGCCCGTAGCACCGGCATCGATGCCAATAGTGCCGTTTTCATGGAAGATCCAGTCAAAAATGTAGTC -ATAGTTACCCACTGTACTGATCCAGCGCACCACTAACTCCCGGCGTTCGGTACTGACGTTGGGCTGGCCCATTTCCTGAT -GCTTATACTCCGGCCCGGCATAACGTTCAAATACCGCGATAGCGCGAGGGATCTCCATCGGCACGCCAGTGTAGTCGGCG -ATGGTTTCATTAAGGAGCACTGCGTTAGACGGGGCATCTTTACCACGAGCAATTGGTGAGGTTAGCGTGCCCATACCGTA -GTCACCAGAGTCCAGATACGCTTTAAAGTACCAGCCAATATCAGGATCACCGTAAGGCACAATCATGCCGCCGAGAGAAC -CTTCGTACATGACTTTGCGTTTGGTGCCATTGTCGTTATAAGTCACGGTGGAGATCATCGGCCCGACGCGAGAGTTCATG -CTGAGGTGAAAATCCCAGTTCCGCCAGTGAATCATATCGCCAGTAATGGTGTAATTTTTACCTTCAGGCTCAATGATTTG -CATAGGCTTAACTGCCGGAGCAACGCGGTCACGGCCATCAAATGGGCGTGCGGTCATTGGCACCGGAACTACCGGACCTT -CTTCAATCTTAACGATTTTTTTCTGTTCTAAATCAACGACCGCCACCAGGTTTTCGATGGGATGTGCCCAGTAGTTGCCA -TCACCGACATCAAGATAGCTGATGACTTTGAGCAACCGGGCATCTTGTTTCAGGCCATCTTTACCATCGAAATAACCTAC -GGTCAGCGGCGTGGTAATCACTTTTTTCGCATCAGTAATACCGCGTTTCTTCACGGCAGCGGCAAATTCTTCACTGTTGT -TAATAATGTTCTGCACACTGGCGAAATCATCCAGCAACACCATACCGTGGGCGTCTTTAATGGGTTGCCAGGAGAGCAGT -TTGTTGTTTTGCAGATCCACCACCGCTTCGATGATATGTTTGCCGTCGAGCATAATGACGTCGGCTTTGCGCGGCTGGTC -AACCGGTTTGTTTTCCAGCGCAAACGCCCAGACAGCTTCTTTATCTGGCGGTAGCAGGGAGATCTCAGTAAAACGGGTAT -TGGGTTTGAAGTCCGCGGAAGCTTTAACAATTTCAACGGCCTGTTTAATTTCGTCCGCAGTTAGCGCATTAAGTGGGTGA -GGGCGCTTTTCTACCTGAAAGGTTTGATCCAGCCCGGACTGGAAAACATCGTTAATAAAGGTGTCAGAAACCCAGGCTTT -ATTGTCTTTCATCACTACCGGTACTTGCAGTGCCAGAGGCTGACCATTAACAATTGCTGTTTGCGCACCAGGCTTCACTT -TCACGTACGCGCCATCTTTAATCAGGGTAAAGAGCTGGGCGTAGTCGTCCCACTGCACATCGGCACCAAATTCTTTAAGC -GTTTTATCCATTGGCACCATATGCGCTTCACCACCGTGGGCAAATACCGGCGCTTGCCAGGCGAAACTTAAGGCGACTGC -CAACGCCAGGGTTGTTTTACGGGCAGAATACAGAGAGGGGCTTCCCATTATTAACCTCGTCAGATGTTGTGTTCTTGTTA -GCAACCGCGCTCTGTGGGCGGTTTAGTCAGGTTCACATTATCAGTACTGATGCAAAGGGGATTGCCTGCACCTGCCAGGT -TGTTTGGCAGGTGTGCCAGCTTTTCATACAGTGGATGCCCTGAAAATAGATGTACACATCATGCATAATGTGACAACGTC -ACAAAACTTAGTGAAATAAAAGGGCAACTATTCGCCGTTGCCCTTCATTCACCGATTAATCGACAAAATCACCGTGCTGC -CTGGCCACCAGCGTCAGAATTGAATACAGCGCCACCGGGGTTTGATGCTGATTGAATACCTCTACAGCCCATTCCACCAC -ACCTGTTGGTTTTTCTTCTGCGCTACGCTGTTTTTTCAGCGTCTTGCGCTTACAGGTGAGACGCACCTGGATGGTATCGC -CTGGCTTTACGGGTTCGATAAAACGCAAGCTTTCCAGCCCGTAGTTAGCAATGACCGGACCGACACCGGCATCGACAAAC -AGACCCGCAGCCGCAGAAAGCACAAAATACCCATGCACCACCCGCTCACCGAAAATAGATTCGGCAGCAGCAATCTTATC -CATATGTGCATAGAAATGATCGCCGCTGAGGCAAGCAAAGTTAACAATATCGGCCTCTGTCATTGTGCGGCGGGGAGTCA -ACAGGCTGTCGCCTGGTTGTAGCTCCTCAAAATATTTGCGGAACGGATGAATACGATCTTCTTCGACTTTCGCACCGCGC -ACCCACTGTTTACTGATAGCGGCAAGCATCGTCGGACTACCCTGAACAGCGGTTCGCTGCATGTAATGTTTCACCGCTCG -TAAACCGCCTAATTCTTCACCGCCTCCTGCGCGACCAGGCCCACCATGTACCAGTTGTGGCAGTGGGGAGCCATGCCCGG -TGGATTCTTTTGCCGACTCTTCATTGAGGATCTGAATTCGCCCATGCGTACGTGCCGCGTCGGCAATAAACTGACGCGCA -ATTTGCGGATCAGCCGTCACCAGCGTTCCCGCAAGGCTACCGCCGCCTGCACAAGCCAGTTGCAGAGCATGTCGCTGGTT -TTGTGCTGGCATCAGCGTTGCGACAGGGCCAAAGGCTTCTGTTGCATGTACCGCCGGTGTTTCATCCGGCTGCGGACAGT -ACAATAAGGTTGGCGGGAAGAAGGCACCCGCAGCAGATAAATCCGCCTGACCACCGAGGCGAATCTCGCATCCTGCAGCC -AGCAATATGTTCACTTTTTCCTGCACATCGGCACGCTGCTCAGCATTTACCAGTGCGCCCATTTTCACGCCTTCCTGAGC -AGGATCACCGACCACGACTTTCTGTAATCGCGCAACCAGAGCATCACTGACAGCATTAACCAATGCCTGCGGCACAATAA -TCCGCCGGATTGCCGTACATTTTTGCCCGGCTTTTGTGGTCATCTCACGCACAACTTCACGAATAAACAGCGCAAACTCC -GGTTGATCCGGGGTGACATCTTCGCCCAGTACGCAGCAGTTCAGGGAATCAGCTTCCATAGTGAAGGGGATAGATTTGGC -GACGATATTTGGCTGAACTCGCAGCATCTGTCCGGTCGCCGCTGACCCCGTGAAAGTCACCACATCCTGGCTGTCCAGAT -GATCCAACAAGTCGCCAGCACTACCGCAGATCAGACTAATTGCGCCTTCGGGAACAAGACCACTATCGACAATTGATTTC -ACCATCGCCTGAGTCAGTTGGGCCGTCGCGGTAGCTGGTTTGATGATGGCTGGCATTCCGCCCAGCCACGTTGGTGCCAG -CTTTTCCAGCATTCCCCAGCAGGGGAAGTTAAAGGCGTTAATATGCACTGCCACGCCTGACTTTGAGGTCAGTAAATGGC -GCGCGGCAAATCCACCTTCTTTCGATAAGGGGATCAATTCATCTTCCGGCCACAGCGTATCGTCAGGCAGCTCCCGGCTA -CCGAGGCTGGCGTAAGTAAATAACGTCCCAATGCCACCTTCAATATCAACCCAACTGTCTGCCCGCGTTGCGCCTGTTTG -CGCAGAAAGAGCATAGAAACGCTCTTTTTCACTCAGCAGATGTTTAGCGACCGCTTTAAGCATCGCCGCACGTTCGATAA -AGGTCATAGCGCGAAGGGCGGGGGCACCTTTTTCAATGGCAAACTGGCGGGCAGCCGCCATATCAAGACCTTCACTGGTC -ACTTCCCATAACGCCTCGCCGCTAATAGCGTGGTGAATCAAACGGCTACGGCCCCGGCCAGACTGCCAGGTACCGGATAA -GAAACTGGCTAACTGCTGCATCGCTACTCTCCAGATGTTTCACATTTCTGTTGCTAATAGTTAAATCGCGAATCATAAAA -AGCAAAGGATCTTTTAACGAAATGTTAACTATGCGATCTGTATAGCAACTGCGGAAAACATTAATGCACTGATAAATAAT -GATTTATAAAAATAGGGTGCGAAATCCGTCACAGTTCAAACATACAAAATTTGTGATTTTACTTAACTATTGTGTAACTT -TCATAAAACAATGTGATTCGTGTTTTTAATTAATTCACGAAAACTGGAATCGTAAAGGTGATGACGTGACCCAAGAAGAA -CGCTTTGAGCAACGGATAGCCCAGGAAACGGCTATCGAGCCACAGGACTGGATGCCCGATGCTTACCGAAAGACATTGAT -CCGCCAGATTGGGCAGCATGCGCACTCCGAGATTGTTGGTATGTTGCCTGAAGGTAACTGGATCACTCGCGCACCAACCT -TGCGGCGTAAAGCCATTCTGTTGGCCAAAGTGCAGGATGAAGCCGGTCATGGTCTGTATCTCTATAGCGCCGCCGAAACA -CTGGGCTGCGCCAGAGAAGACATCTACCAAAAAATGCTCGACGGACGGATGAAATATTCCTCCATCTTTAATTATCCGAC -ATTGAGTTGGGCTGATATCGGTGTTATCGGCTGGCTGGTGGATGGCGCAGCGATCGTCAATCAGGTGGCGTTATGCCGCA -CTTCTTATGGCCCGTATGCCAGAGCAATGGTGAAAATCTGCAAAGAAGAGAGTTTTCACCAGCGTCAGGGGTTTGAAGCC -TGCATGGCACTGGCGCAGGGCAGCGAAGCTCAAAAGCAGATGTTGCAAGACGCCATTAACCGTTTCTGGTGGCCAGCCTT -AATGATGTTCGGGCCAAACGATGATAACTCGCCAAACAGCGCCAGAAGTCTCACCTGGAAAATCAAACGTTTCACCAACG -ACGAACTCCGCCAGCGTTTCGTGGATAACACCGTTCCACAGGTTGAAATGCTCGGTATGACCGTTCCTGACCCGGATCTG -CATTTTGACACTGAAAGCGGTCACTACCGCTTTGGTGAGATCGACTGGCAGGAGTTTAACGAAGTAATTAACGGTCGCGG -AATTTGTAATCAGGAGAGGCTCGACGCCAAACGTAAAGCCTGGGAAGAAGGTACCTGGGTACGGGAAGCAGCGCTGGCCC -ATGCACAAAAACAACATGCCCGTAAGGTCGCATAAGGAGATTCAAAATGAGTAATGTTTACTGGCCGTTATACGAAGTTT -TCGTGCGTGGCAAACAGGGCTTATCACACCGCCATGTTGGCAGTTTACATGCTGCCGATGAGCGGATGGCACTGGAAAAT -GCCCGTGATGCTTACACCCGTCGTAGCGAAGGATGTTCAATTTGGGTGGTGAAGGCGAGTGAAATTGTTGCCTCGCAACC -GGAAGAACGCGGTGAATTTTTTGATCCGGCTGAAAGCAAGGTCTATCGCCATCCAACGTTTTACACCATCCCTGATGGCA -TTGAGCACATGTGAGGTCGGAAATGAATCAGTTAACGGCTTACACCTTGCGCCTGGGCGATAACTGCCTGGTGCTCTCCC -AGCGGTTGGGTGAATGGTGCGGTCACGCACCGGAACTGGAAATCGATCTCGCACTGGCAAACATTGGCCTCGATTTATTA -GGTCAGGCACGCAACTTCTTATCGTATGCCGCTGAATTAGCGGGAGAAGGCGATGAAGATACCCTGGCCTTCACCCGAGA -CGAGCGCCAGTTCAGCAACTTATTGTTGGTTGAACAACCAAACGGCAATTTTGCCGACACCATTGCACGCCAGTATTTCA -TCGATGCATGGCATGTGGCGCTCTTTACCCGTCTGATGGAAAGCCGTGATCCGCAACTGGCGGCGATTTCTGCCAAAGCA -ATTAAAGAAGCGCGCTATCACCTGCGTTTTAGTCGTGGCTGGCTGGAGCGACTGGGCAATGGTACTGACGTATCAGGGCA -AAAGATGCAGCAGGCCATCAACAAGTTGTGGCGTTTTACCGCCGAACTGTTCGATGCCGACGAGATTGATATTGCACTGA -GTGAAGAGGGTATTGCGGTTGATCCACGCACTTTACGCGCAGCGTGGGAAGCCGAAGTTTTTGCCGGGATCAACGAAGCC -ACATTGAACGTACCGCAAGAGCAGGCGTATCGCACTGGCGGTAAAAAAGGACTGCATACCGAACACCTTGGACCCATGCT -GGCAGAAATGCAGTATCTCCAGCGTGTCTTGCCCGGTCAGCAATGGTAACAGAGGAGATGGGTATGCAACGTCTGGCCAC -CATTGCACCGCCACAGGTTCATGAGATATGGGCGCTACTCAGCCAGATCCCGGACCCGGAGATCCCGGTGCTGACCATTA -CTGATTTAGGCATGGTGCGTAATGTGACACAGATGGGAGAAGGATGGGTGATCGGCTTTACGCCGACATATTCCGGTTGT -CCGGCAACGGAACATTTGATTGGCGCGATACGTGAGGCAATGACAACCAACGGGTTTACCCCCGTTCAGGTTGTGCTGCA -ACTCGACCCGGCATGGACCACCGACTGGATGACCCCCGATGCCCGTGAGCGTCTGCGAGAGTATGGCATTAGCCCGCCCG -CCGGACACAGTTGCCATGCCCATTTGCCGCCAGAAGTACGTTGCCCGCGCTGCGCCAGCGTCCATACCACACTTATCAGT -GAATTTGGTTCCACGGCCTGCAAAGCATTGTACCGCTGCGATAGTTGCCGCGAACCTTTCGATTATTTCAAATGTATTTG -AGGATGCCATGACAACGTTTCATTCCTTAACAGTGGCAAAAGTCGAGTCGGAAACCCGTGATGCGGTGACCATTACCTTT -GCGGTGCCCCAGCCTTTGCAGGAGGCGTATCGCTTTCGCCCCGGTCAACATTTGACCTTAAAAGCCAGCTTTGATGGTGA -AGAATTACGCCGTTGTTACTCCATTTGCCGCAGCTATCTGCCTGGCGAAATTAGTGTGGCGGTGAAAGCCATTGAAGGCG -GACGTTTCTCCCGCTATGCCCGCGAACACATCCGCCAGGGTATGACGCTGGAGGTCATGGTGCCGCAGGGGCATTTCGGC -TATCAGCCGCAGGCCGAACGCCAGGGGCGCTATCTGGCAATTGCAGCAGGATCAGGTATTACGCCAATGCTGGCGATTAT -CGCCACCACTTTACAAACCGAGCCTGAAAGTCAGTTCACCCTGATCTACGGTAACCGTACCAGCCAGAGCATGATGTTTC -GCCAGGCACTGGCAGACCTGAAAGACAAATATCCTCAGCGTTTACAGTTGTTGTGCATTTTCAGTCAGGAAACCCTCGAC -AGCGATCTGCTTCACGGGCGTATTGACGGTGAAAAATTACAGTCACTTGGGGCCTCGCTCATTAATTTTCGTCTTTATGA -TGAGGCATTTATTTGTGGTCCGGCGGCGATGATGGATGACGCGGAAACCGCCTTAAAAGCACTGGGAATGCCAGATAAAA -CCATTCATCTGGAGCGGTTTAATACGCCTGGCACGCGCGTCAAACGTAGCGTTAACGTGCAAAGTGACGGACAAAAAGTG -ACTGTACGTCAGGATGGGCGGGATCGGGAAATCGTGCTTAATGCCGACGATGAAAGCATTCTCGATGCGGCATTGCGCCA -GGGGGCGGATCTGCCCTATGCCTGCAAAGGCGGCGTCTGTGCGACCTGCAAATGCAAAGTGCTGCGTGGCAAAGTGGCGA -TGGAAACCAATTACAGTCTGGAACCGGATGAACTGGCCGCAGGTTATGTGTTGAGTTGCCAGGCACTGCCGCTGACCAGC -GATGTGGTGGTTGACTTTGACGCGAAGGGGATGGCATGAGCGAACTGATCGTCAGCCGTCAGCAACGAGTATTGTTGCTG -ACCCTTAACCGTCCCGCCGCACGTAATGCGCTAAATAATGCCCTGCTGATGCAACTGGTAAATGAACTGGAAGCTGCGGC -TACCGATACCAGCATTTCGGTCTGTGTGATTACCGGTAATGCACGCTTTTTTGCCGCTGGGGCCGATCTCAACGAAATGG -CAGAAAAAGATCTCGCGGCCACCTTAAACGATACACGTCCGCAGCTATGGGCGCGATTGCAGGCCTTTAATAAACCACTT -ATCGCAGCCGTCAATGGTTACGCGCTTGGGGCGGGTTGCGAACTGGCATTGTTGTGCGATGTGGTGGTTGCCGGAGAGAA -CGCGCGTTTTGGGTTGCCGGAAATCACTCTCGGCATCATGCCTGGCGCAGGCGGAACGCAACGTTTAATCCGTAGTGTCG -GTAAATCGTTAGCCAGCAAAATGGTGCTGAGCGGAGAAAGTATCACCGCTCAGCAAGCACAGCAGGCCGGGCTGGTTAGC -GACGTCTTCCCCAGCGATTTAACCCTCGAATACGCCTTACAGCTGGCATCGAAAATGGCACGTCACTCGCCGCTGGCCTT -ACAAGCGGCAAAGCAAGCGCTGCGCCAGTCGCAGGAAGTGGCTTTGCAAGCCGGACTTGCCCAGGAGCGACAGTTATTCA -CCTTGCTGGCGGCAACAGAAGATCGTCATGAAGGCATCTCCGCTTTCTTACAAAAACGCACGCCCGACTTTAAAGGACGC -TAATGATGGAATTCATCCTCAGTCATGTAGAAAAGGGCGTGATGACACTAACGCTCAACCGCCCGGAACGCCTGAACAGT -TTTAATGATGAGATGCACGCACAACTGGCAGAGTGCCTGAAACAGGTCGAGCGCGACGACACTATCCGTTGCCTGTTACT -TACAGGTGCCGGGCGCGGATTTTGTGCTGGTCAGGATCTTAACGATCGTAACGTTGATCCCACAGGCCCCGCACCGGATT -TAGGGATGTCAGTTGAACGTTTCTATAACCCACTGGTACGTCGCCTGGCAAAACTGCCAAAACCGGTGATCTGTGCAGTC -AATGGCGTGGCGGCAGGGGCAGGCGCAACACTGGCACTGGGGGGCGACATCGTTATTGCTGCCCGTTCAGCAAAATTCGT -CATGGCGTTTAGTAAGTTAGGCTTAATACCCGATTGCGGTGGAACCTGGTTACTGCCACGCGTTGCCGGACGAGCGCGCG -CCATGGGGCTGGCACTGCTGGGGAATCAACTGAGTGCTGAACAGGCGCACGAATGGGGGATGATCTGGCAGGTTGTTGAT -GATGAAACGCTGGCAGATACCGCGCAACAGCTGGCACGGCATCTGGCGACACAACCGACATTTGGTCTTGGACTTATCAA -GCAAGCGATAAATAGCGCTGAAACCAATACGCTCGATACGCAACTGGATCTGGAACGTGACTATCAGCGACTTGCCGGAC -GGAGCGCAGATTATCGTGAAGGTGTCAGTGCGTTCCTGGCTAAACGCTCACCGCAGTTCACGGGGAAATAGCATGATGAT -AAATGTGCAAACTGTGGCAGTGATTGGGAGCGGCACCATGGGGGCAGGCATTGCTGAAGTTGCTGCCAGTCATGGACACC -AGGTTTTACTGTATGACATTTCTGCTGAAGCGCTGACCCGCGCAATCGACGGGATACACGCGCGGCTAAATTCACGCGTG -ACGCGGGGAAAACTGACTGCTGAAACCTGTGAACGCACATTGAAACGCCTGATCCCGGTGACCGATATTCACGCGCTGGC -AGCTGCGGACCTGGTCATTGAAGCGGCGTCTGAACGTCTGGAAGTCAAAAAAGCGCTCTTTGCACAGCTGGCGGAAGTTT -GCCCGCCACAAACGCTATTGACCACTAACACTTCGTCAATCTCTATAACCGCGATTGCTGCGGAGATAAAAAATCCTGAA -CGTGTTGCGGGGCTGCATTTTTTTAACCCGGCACCGGTGATGAAGTTGGTGGAGGTGGTCAGTGGGCTGGCAACGGCGGC -GGAAGTTGTTGAGCAGTTGTGTGAACTAACGTTGAGTTGGGGTAAGCAGCCTGTGCGCTGTCATTCGACTCCTGGATTTA -TCGTTAACCGTGTTGCGCGTCCTTATTATTCCGAGGCCTGGCGGGCACTGGAAGAGCAGGTTGCTGCACCAGAAGTGATT -GACGCTGCACTTCGCGATGGCGCTGGTTTCCCGATGGGGCCGCTGGAATTAACCGATCTGATTGGTCAGGACGTCAATTT -TGCTGTCACCTGTTCGGTGTTTAACGCTTTCTGGCAGGAGCGTCGTTTTTTACCTTCGCTGGTGCAACAGGAACTGGTGA -TTGGTGGACGGTTGGGCAAGAAAAGTGGGCTGGGCGTGTACGACTGGCGCGCGGAACGTGAGGCAGTTGTTGGCCTGGAA -GCGGTAAGCGACAGTTTTAGCCCAATGAAAGTAGAAAAGAAAAGTGACGGTGTCACGGAAATTGACGATGTTTTATTGAT -TGAGACACAAGGCGAGACGGCACAGGCGCTGGCAATACGACTGGCACGCCCGGTGGTAGTGATCGATAAAATGGCGGGCA -AGGTGGTGACCATTGCTGCTGCAGCGGTGAACCCGGACTCAGCGACCCGCAAGGCCATTTATTACCTGCAACAGCAGGGC -AAAACAGTGCTGCAAATTGCAGATTACCCAGGAATGCTGATTTGGCGAACGGTAGCAATGATCATCAATGAAGCCCTTGA -TGCGCTTCAAAAAGGCGTGGCCTCTGAACAGGATATCGATACCGCCATGCGTCTTGGGGTGAATTATCCATATGGCCCAC -TTGCCTGGGGAGCGCAACTTGGCTGGCAGCGAATATTAAGGCTCCTTGAAAATCTACAGCATCACTATGGCGAAGAACGC -TATCGCCCATGTTCATTGCTGCGCCAACGGGCGCTTCTGGAGAGCGGTTATGAGTCATAAGGCCTGGCAAAATGCCCATG -CAATGTATGAGAACGATGCCTGCGCCAAAGCGCTTGGCATCGACATTATCTCAATGGATGAAGGCTTTGCTGTAGTGACC -ATGACCGTCACTGCACAAATGCTTAACGGTCATCAAAGTTGCCACGGCGGGCAGCTATTTTCACTGGCTGATACTGCCTT -TGCCTACGCCTGCAATAGCCAGGGGCTGGCAGCCGTCGCTTCTGCCTGCACGATTGATTTTTTGCGTCCAGGCTTTGCCG -GAGACACCTTAACTGCTACTGCGCAGGTACGTCATCAGGGCAAGCAAACCGGTGTTTACGACATCGAAATTGTTAACCAA -CAACAAAAAACGGTTGCGCTGTTTCGCGGTAAATCTCACCGCATCGGCGGCACCATTACAGGAGAAGCCTGATGCGTGAA -GCCTTTATTTGTGACGGAATTCGTACGCCAATTGGTCGCTACGGCGGGGCATTATCAAGTGTTCGGGCTGATGATCTGGC -TGCTATCCCTTTGCGGGAACTGCTGGTGCGAAACCCGCGTCTCGATGCGGAGTGTATCGATGATGTGATCCTCGGCTGTG -CTAATCAGGCGGGAGAAGATAACCGTAACGTAGCCCGGATGGCGACTTTACTGGCGGGGCTGCCGCAGAGTGTTTCCGGC -ACAACCATTAACCGCTTGTGTGGTTCCGGGCTGGACGCACTGGGGTTTGCCGCACGGGCGATTAAAGCGGGCGATGGCGA -TTTGCTGATCGCCGGTGGCGTGGAGTCAATGTCACGGGCACCGTTTGTTATGGGCAAGGCAGCCAGTGCATTTTCTCGTC -AGGCTGAGATGTTCGATACCACTATTGGCTGGCGATTTGTGAACCCGCTCATGGCTCAGCAATTTGGAACTGACAGCATG -CCGGAAACGGCAGAGAATGTAGCTGAACTGTTAAAAATCTCACGAGAAGATCAAGATAGTTTTGCGCTACGCAGTCAGCA -ACGTACGGCAAAAGCGCAATCCTCAGGCATTCTGGCTGAGGAGATTGTTCCGGTTGTGTTGAAAAACAAGAAAGGTGTTG -TAACAGAAATACAACATGATGAGCATCTGCGCCCGGAAACGACGCTGGAACAGTTACGTGGGTTAAAAGCACCATTTCGT -GCCAATGGGGTGATTACCGCAGGCAATGCTTCCGGGGTGAATGACGGAGCCGCTGCGTTGATTATTGCCAGTGAACAGAT -GGCAGCAGCGCAAGGACTGACACCGCGGGCGCGTATCGTAGCCATGGCAACCGCCGGGGTGGAACCGCGCCTGATGGGGC -TTGGTCCGGTGCCTGCAACTCGCCGGGTGCTGGAACGCGCAGGGCTGAGTATTCACGATATGGACGTGATTGAACTGAAC -GAAGCGTTCGCGGCCCAGGCGTTGGGTGTACTACGCGAATTGGGGCTGCCTGATGATGCCCCACATGTTAACCCCAACGG -AGGCGCTATCGCCTTAGGCCATCCGTTGGGAATGAGTGGTGCCCGCCTGGCACTGGCTGCCAGCCATGAGCTGCATCGGC -GTAACGGTCGTTACGCATTGTGCACCATGTGCATCGGTGTCGGTCAGGGCATCGCCATGATTCTGGAGCGTGTTTGAGCA -TATCAACCTGCGAGTACCCTACAATGATAACCAATACAAAGCTTGACCCGATTGAAACCGCGTCTGTTGATGAGTTACAG -GCGTTGCAAACACAGCGTCTGAAATGGACGCTCAAACACGCGTATGAAAATGTGCCGATGTATCGGCGCAAATTCGACGC -AGCAGGCGTACATCCTGATGATTTCAGGGAACTTTCAGACCTGCGTAAATTTCCCTGTACCACCAAACAGGATCTGCGCG -ACAACTATCCCTTTGACACCTTTGCCGTGCCAATGGAACAAGTGGTGCGCATTCATGCTTCTTCGGGAACCACAGGTAAA -CCGACAGTTGTCGGCTATACGCAAAACGATATTGATAACTGGGCCAATATTGTAGCGCGTTCTTTGCGTGCGGCAGGGGG -CTCGCCCAAAGACAAAATTCATGTTGCCTATGGTTACGGCCTGTTTACTGGTGGGCTGGGTGCGCACTATGGTGCCGAAC -GTCTGGGCGCTACGGTGATCCCGATGTCTGGCGGGCAGACGGAAAAACAAGCGCAACTGATCCGTGATTTTCAACCAGAT -ATGATCATGGTTACGCCATCTTATTGCCTTAACCTGATTGAAGAGCTGGAGCGGCAGTTGGGCGGTGATGCCAGCGGTTG -CTCGCTGCGGGTTGGAGTATTTGGTGCTGAGCCGTGGACACAGGCCATGCGTAAAGAGATTGAGCGTCGCCTGGGGATCA -CCGCACTGGATATTTATGGCCTGTCAGAAGTGATGGGGCCGGGGGTGGCGATGGAGTGTCTGGAAACTACCGACGGCCCA -ACCATTTGGGAAGATCATTTCTATCCTGAAATTGTTAATCCTCATGACGGCACACCGCTTGCCGATGGTGAACATGGCGA -ACTGTTATTCACCACGCTGACCAAAGAAGCATTGCCGGTCATTCGTTACCGCACGCGTGATTTAACCCGACTGTTACCAG -GAACGGCGCGGACTATGCGCCGCATGGATCGCATCAGCGGACGCAGCGATGACATGTTGATTATTCGCGGTGTAAATGTC -TTTCCGTCACAACTGGAAGAAGAGATTGTCAAATTCGAACATTTATCGCCGCATTACCAACTGGAGGTGAACCGCCGGGG -GCATCTTGATTCACTTTCTGTGAAAGTGGAGTTGAAAGAAAGTAGCCTGACATTGACGCATGAGCAGCGTTGCCAGGTAT -GCCACCAGCTGCGCCATCGGATTAAGTCGATGGTGGGGATCTCTACCGATGTGATGATCGTTAACTGTGGCAGTATCCCG -CGTTCAGAAGGCAAGGCGTGTCGGGTGTTTGATCTGCGCAATATTGTTGGTGCCTGACGTATCGTCTGGCCCTGGTGGGG -TAAAGCGCCAGGGCCAGAAGTCGATACGACCTGTGCTATGATTCATAAATCACAACAATAACAACAGACTGAAGCGAATG -AGTAAACTTGATACTTTTATCCAACATGCTGTAAACGCTGTTCCGGTCAGTGGCACATCTTTGATCTCCTCTCTGTATGG -TGATTCGCTTTCCCATCGTGGTGGTGAAATCTGGTTGGGTAGTCTGGCTGCTTTGCTGGAAGGGCTGGGATTTGGTGAGC -GTTTCGTGCGCACCGCTTTGTTTCGTCTTAATAAAGAAGGCTGGCTGGATGTTTCCCGCATCGGGCGACGCAGTTTCTAT -AGCCTCAGTGATAAAGGCTTGCGCCTGACGCGACGGGCAGAAAGTAAAATTTATCGCGCAGAGCAACCTGCATGGGATGG -TAAATGGCTCCTGTTGCTCTCGGAAGGTTTAGATAAATCAACGCTGGCTGATGTCAAAAAGCAGTTGATCTGGCAAGGTT -TTGGCGCACTGGCACCCAGCCTGATGGCATCGCCGTCGCAAAAACTGGCCGATGTACAGACACTTTTGCATGAAGCGGGT -GTGGCGGATAACGTGATTTGTTTTGAAGCGCAAATACCACTGGCGCTTTCTCGCGCAGCACTGCGTGCCAGAGTAGAAGA -GTGCTGGCATTTAACTGAACAAAATGCCATGTACGAAACCTTTATTCAGTCATTCCGCCCGCTGGTGCCGCTTTTAAAAG -AGGCGGCAGACGAGTTAACCCCGGAGCGGGCATTTCATATTCAGCTTTTACTGATCCATTTTTATCGCCGTGTCGTCCTT -AAAGACCCATTGTTGCCGGAGGAGTTGCTTCCGGCACACTGGGCAGGGCATACGGCGCGTCAGCTGTGTATCAACATTTA -TCAGCGCGTAGCGCCTGCTGCTTTAGCGTTCGTTAGTGAAAAAGGTGAAACCTCGGTCGGTGAACTGCCTGCGCCGGGAA -GCCTGTATTTTCAACGTTTTGGCGGCTTGAATATTGAACAGGAGGCGTTATGCCAATTTATCAGATAGACGGTCTGACTC -CGGTTGTGCCAGAAGAGAGTTTTGTCCATCCGACAGCGGTATTGATCGGCGATGTTATTCTCGGCAAGGGCGTTTACGTT -GGGCCAAATGCCAGCCTGCGTGGCGATTTTGGTCGTATCGTGGTGAAAGATGGCGCGAACATTCAGGATAATTGCGTTAT -GCACGGTTTTCCCGAGCAGGATACTGTTGTAGGAGAAGATGGACATATTGGTCATAGCGCTATCCTTCACGGCTGCATTA -TCCGCCGCAATGCATTAGTGGGAATGAACGCGGTAGTGATGGACGGTGCGGTGATTGGCGAGAACAGCATTGTTGGTGCA -TCCGCATTTGTGAAAGCCAAAGCAGAAATGCCAGCTAATTACCTGATTGTCGGCAGCCCGGCGAAAGCGATTCGTGAACT -CAGTGAGCAGGAGTTGGCATGGAAAAAGCAGGGTACGCATGAGTACCAGGTGCTGGTGACACGCTGTAAGCAGACGTTAC -ATCAAGTCGAGCCATTGCGGGAAATTGAACCTGGCAGGAAACGCCTGGTATTTGATGAGAATCTGCGACCGAAACAGTAA -CAGATGTAAAATTATTTTGTCCCTTTAATTATAAAGCAGAGTTATGTTTAAGCTCTGCTTTATTTATTTGAGTATTAATT -CATACCGTTTTTTCATCATATAATTATTTATAATGAGAATGTGGTTTTAATTTGTAATTTATATTATATACACAATTTAT -ATATTTCATGGTCTTTTTTTATTCACCTGAATTATAATTGTGAATTATAGGAAAGTATGTTTGATTAGATAATAATCTAC -TGGCAATATTGGATGTCTTCTATGTTTTAAATAACTAATTGGTCGGGTTAGTGCATCCGGCTTTCTTTATATTCGCCAGA -AGGATTTATTATGCAAAGGAAAACTCTATTGTCGGCCTGTATTGCATTAGCTCTGAGTGGTCAGGGTTGGGCGGCAGATA -TCACAGAGGTAGAAACCACCACAGGTGAAAAGAAAAATACCAATGTGACTTGTCCGGCAGACCCAGGAAAACTCAGTCCG -GAAGAGCTTAAACGCTTACCCTCTGAATGCTCTCCTTTAGTCGAACAAAACCTGATGCCATGGCTTTCCACAGGCGCTGC -TGCGTTAATCACGGCCTTAGCCGTAGTGGAACTAAACGACGATGATGATCATCATCATCGCAACAATTCTCCACTCCCAC -CGACACCCCCTGATGATGAATCAGACGACACTCCAGTTCCCCCAACTCCTGGCGGAGATGAGATAATACCGGACGATCCG -GATGATACGCCTACACCTCCCAAACCGGTTTCGTTTAATAATGACGTTATTCTCGATAAAACAGAAAAAACGTTAACTAT -TCGCGATTCAGTTTTTACTTATACCGAGAATGCTGACGGGACTATATCTCTGCAAGATAGCAATGGTCGTAAGGCAACGA -TTAATCTTTGGCAGATTGATGAAGCGAATAACACTGTTGCCCTTGAAGGGGTGAGCGCAGATGGCGCAACGAAGTGGCAA -TATAATCACAACGGTGAGCTTGTTATTACGGGTGATAATGCCACAGTAAACAACAATGGCAAAACCACCGTTGACGGTAA -AGATTCCACCGGTACGGAAATCAACGGTAATAACGGGAAAGTGATTCAGGACGGCGATCTGGATGTCAGCGGCGGCGGTC -ACGGTATTGATATCACCGGTGACAGCGCGACGGTGGATAACAAGGGCACCATGACCGTCACCGATCCGGAGTCCATGGGT -ATCCAGATCGACGGTGACAAGGCCATCGTCAATAACGAAGGCGAGAGCACCATCACCAACGGTGGCACCGGCACCCAGAT -TAATGGTGATGACGCCACGGCAAACAACAACGGCAAAACCACCGTTGACGGCAAGGATTCCACCGGTACGGAAATCAACG -GTAATAACGGAAAAGTTATTCAGGACGGCGATCTGGATGTCAGCGGCGGCGGTCACGGTATTGATATCACCGGCGACAGC -GCAACGGTGGATAACAAGGGCACCATGACCGTCACCGATCCGGAGTCCATCGGTATCCAGGTTGACGGCGACCAGGCGGT -TGTTAACAACGAAGGCGAGAGCGCCATCACCAACGGTGGCACCGGCACGCAGATTAACGGTGATGACGCCACGGCAAACA -ACAACGGCAAAACCACCGTTGACGGCAAGGATTCCACCGGTACGGAAATTGCTGGCAATAACGGGAAGGTGATTCAGGAC -GGCGATCTGGATGTCAGCGGCGGCGGTCACGGTATTGATATCACCGGCGACAGCGCAACGGTGGATAACAAGGGCACCAT -GACCGTCACCGATCCGGAGTCCATCGGTATCCAGATTGACGGCGACCAGGCCATCGTCAATAACGAAGGCGAGAGCACTA -TCACCAATGGCGGCACCGGCACTCAGATCAACGGTAACGACGCCACCGCGAATAACAGTGGAAAAACCACTGTTGATGGA -AAAGATTCCACGGGTACCAAAATCGCGGGCAATATCGGCATTGTAAATCTGGATGGTAGCCTGACTGTTACAGGCGGTGC -GCATGGTGTTGAGAACATTGGTGACAACGGCACGGTTAACAACAAAGGAGATATTGTTGTTTCCGATACTGGATCGATTG -GCGTGCTCATCAACGGTGAGGGGGCAACAGTATCCAATACGGGTGATGTTAACGTTAGCAATGAAGCGACAGGGTTCAGC -ATCACAACCAACAGTGGGAAGGTTTCGCTGGCAGGCAGTATGCAGGTTGGCGATTTCTCGACCGGGGTAGATCTTAATGG -CAACAATAACAGCGTGACGCTGGCGGCAAAAGATCTAAAAGTGGTCGGGCAGAAAGCGACGGGCATAAACGTTTCTGGCG -ATGCGAATACAGTGAATATCACTGGTAACGTTCTGGTTGATAAGGATAAAACCGCAGACAATGCGGCGGAATATTTCTTC -GATCCATCCGTGGGTATCAACGTTTACGGCAGTGATAATAACGTGACGCTGGATGGAAAGTTAACTGTTGTATCAGACAG -TGAGGTTACTTCTCGTCAGAGTAATTTATTTGATGGCAGCGCAGAGAAAACGTCAGGTCTGGTTGTGATTGGCGATGGCA -ATACCGTTAATATGAATGGTGGACTTGAACTGATTGGAGAGAAAAACGCGCTTGCAGATGGGTCGCAGGTTACTTCCTTG -CGCACAGGATATAGTTATACCAGCGTTATTGTCGTTAGTGGTGAGTCGTCGGTATATCTGAATGGAGATACGACAATCAG -CGGAGAATTCCCTCTGGGGTTTGCCGGGGTTATTCGGGTACAGGATAAAGCTTTGCTGGAAATTGGCAGTGGCGCTACGC -TAACAATGCAGGATATTGACAGTTTTGAACATCATGGGACAAGAACCCTGGATTTGCCCCTATATTTCCAGACATCTGTT -ATCACTTAACCCATTACAAGCCCGCTGCCGCAGATATTCCCGTGGCGAGCGATAACCCAGCGCACTATGCGGATGCCATT -CGTTATAATGCTCGAACGCCTCTGCAAGGTTCTTTGCTGCCGTTAACCCGTCTGGTTTGGGCATGATACTGATGTAGTCA -CGCTTTATCGTTTTCACGAAGCTCTCTGCTATTCCGTTACTCTCCGGACTCCGCACCGCCGTGTTCTTCGGTTCAAGTCC -CAACATCCGGGCGAACTGGCGTGTTTCATTAGCCCGGTAGCATGAACCATTATCCGTCAGCCACTCCACTGGAGACGACG -GAAGATCGTTGCCGAAGCGGCGTTCCACCGCTCCCAGCATGACGTCCTGTACTGTTTCACTGTTGAAGCCGCCGGTAGTG -ACCGCCCAGTGCAGTGCCTCACGATCACAGCAGTCCAGCGCGAACGTGACACGCAGTCTCTCTCCGTTATCACAGCAGAA -CTCGAACCCGTCAGAGCACCATCGCTGATTGCTTTCTTTCACGGCCACTCTGCCTGTATGTGCCCGTTTCGATGGCGGTA -CAGCAGGTTTTCGCTCAAGCAACAGCGCATTCTGGCGCATGATCCGGTAAACACGTTTGGCATTGATCGCAGGCATACCA -TCAAGTTCTGCCTGTCTGCGAAGCAGCGCCCATACCCGACGATAACCATACGTTGGCAGCTCTCCGATAACATGGTGTAT -ACGGAGAAGCACATCCGTATCATCAGTGTGACGACTGCGGCGGCCATCCATCCAGTCATCGGTTCGTCTGAGAATGACGT -GCAACTGCGCACGCGACACCCGGAGACAACGGCTGACTAAGCTTACTCCCCATCCCCGGGCAATAAGGGCGCGTGCGCTA -TCCACTTTTTTGCCCGTCCATATTCAACGGCTTCTTTGAGGAGTTCATTTTCCATCGTTTTCTTGCCGAGCAGGCGCTGG -AGTTCTTTAATCTGCTTCATGGCGGCAGCAAGTTCAGAGGCAGGAACAACCTGTTCTCCGGCGGCGACAGCAGTAAGACT -TCCTTCCTGGTATTGCTTACGCCAGAGAAATAACTGGCTGGCTGCTACACCATGTTGCCGGGCAACGAGGGAGACCGTCA -TCCCCGGTTCAAAGCTCTGCTGAACAATTGCGATCTTTTCCTGTGTGGTACGCCGTCTGCGTTTCTCCGGCCCTAAGACA -TCAATCATCTGTTCTCCAATGACTAGTCTAAAAACTAGTATTAAGACTATCACTTATTTAAGTGATATTGGTTGTCTGGA -GATTCAGGGGGCCAGTCTAAACCCCAGAACTTACTTATGCTGATTCCGGTGCGAAAATTGTTAATAAAGGTACTTGTAGA -TTCAATTGGTCAACGCAACAGTTATGTGAAAACATGGGGTTGCGGAGGTTTTTTGAATGAGACGAACATTTACAGCAGAG -GAAAAAGCCTCTGTTTTTGAACTATGGAAGAACGGAACAGGCTTCAGTGAAATAGCGAATATCCTGGGTTCAAAACCCGG -AACGATCTTCACTATGTTAAGGGATACTGGCGGCATAAAACCCCATGAGCGTAAGCGGGCTGTAGCTCACCTGACACTGT -CTGAGCGCGAGGAGATACGAGCTGGTTTGTCAGCCAAAATGAGCATTCGTGCGATAGCTACTGCGCTGAATCGCAGTCCT -TCGACGATCTCACGTGAAGTTCAGCGTAATCGGGGCAGACGCTATTACAAAGCTGTTGATGCTAATAACCGAGCCAACAG -AATGGCGAAAAGGCCAAAACCGTGCTTACTGGATCAAAATTTACCATTGCGAAAGCTTGTTCTGGAAAAGCTGGAGATGA -AATGGTCTCCAGAGCAAATATCAGGATGGTTAAGGCGAACAAAACCACGTCAAAAAACGCTGCGAATATCACCTGAGACA -ATTTATAAAACGCTGTACTTTCGTAGCCGTGAAGCGCTACACCACCTGAATATACAGCATCTGCGACGGTCGCATAGCCT -TCGCCATGGCAGGCGTCATACCCGCAAAGGCGAAAGAGGTACGATTAACATAGTGAACGGAACACCAATTCACGAACGTT -CCCGAAATATCGATAACAGACGCTCTCTGGGGCATTGGGAGGGCGATTTAGTCTCAGGTACAAAAAACTCTCATATAGCC -ACACTTGTAGACCGAAAATCACGTTATACGATCATCGTTAGACTCAGGGGCAAAGATTCTGTCTCAGTAAATCAGGCTCT -TACCGACAAATTCCTGAGTTTACCGTCAGAACTCAGAAAATCACTGACATGGGACAGAGGAATGGAACTGGCCAGACATC -TAGAATTTACTGTCAGCACCGGCGTTAAAGTTTACTTCTGCGATCCTCAGAGTCCTTGGCAGCGGGGAACAAATGAGAAC -ACAAATGGGCTAATTCGGCAGTACTTTCCTAAAAAGACATGTCTTGCCCAATATACTCAACATGAACTAGATCTGGTTGC -TGCTCAGCTAAACAACAGACCGAGAAAGACACTGAAGTTCAAAACACCGAAAGAGATAATTGAAAGGGGTGTTGCATTGA -CAGATTGAATCTACACTGTTGAAATTCAGAATTTAGGTTTTGCTTTTGTTACTGGTGAAAATACAACAGGTATAAATAGT -GGCACGATCTCGTTATTACAAAATGGTAAAGATCCGGCACCGTCTCCCATTGTTTTACTGGCTACTAACGGAGGGAGCGC -CACTAATGCAGGTACGATCACAGGTAAAGTGACGGAACAACATAGCGTATTTAACAAGTATTCAACGGGCACATCGAATT -CATTTATTTTTAATAACGATGTCAGTAGCATAACAGGGTTAGTCGCTCAATCGAATAGCACAATTATCAATACTGACAGC -GGCATCATTGATTTGTATGGTCGTGGTAGTGTCGGCATGCTTGCTATAGCAGATTCAACAGCAGAAAATCAGGGTAAAAT -TACACTGGATTCTATGTGGGTAGATGCAAATGACACTACCGCAATGCGAGATATAGCTAGCAACAGCGCCATTGACTTCG -GTACAGGTGTGGGAGTTGGTACTGATAGTTATAGTGGTGCAGGGAAAAATGCAACAGCAATTAACCAATTGGGCGGTGTT -ATAACTATTTATAACGCCGGCGCAGGTATGGCGGCCTATGGCGCCAGCAATACAGTTATTAACCAGGGGACGATTAACCT -CGAAAAAAATGGTAATTATGACGATAGTCTGGCAGCAAATACTCTGGTAGGGATGGCTGTTTATGAGCATGGTACTGCTA -TCAACGACCAGACGGGTGTTATCAATATCAATGTTGGTACTGGTCAGGCGTTTTATAACGATGGCACAGGAACAATTGTT -AACTATGGTACAATCTGCACTTTCGGCGTGTGCCAATCGGGGAATGAGTACAATAATACAGATGATTTCACCTCACTGAT -CTATACCGGTGGCGATACGATTACACGAAGCGGAGAAACTGTAACGCTAAATAAATCTGCTGCTGTGACTGATAAGCTGG -CTGGGAATGTTGTTAATAGCGGAACGCTTTCCGGTGATCAAATTACGGTATCAAGCGGTCTTCTGGAAAATACCAGCGGT -GGCATCATCAATAACTTAGTAAAACTTGACAAGGGTGCCGTCATTAAAAATGCCGGGGTGATGACGAATAACGTCGATGT -TAGCGGTGGAATCCTCAATAATGCCGGAGAAATGACTGCGCAAATTACCATGAATGCTGGTGCTGATAGTTCGTTAGTGA -ACAACACCGGAACCATCAATAAAATCGTGCAGAACGCGGGGGTATTCAATAATAGTGGCAGTGTAACAGGGCGGATGATG -TCGGCTGGCGGGGTCTTTAATAATCAAACTGACGGGGCGATTATGAGAGGTGCTGCGCTGACAGGTACTGCAGTGGCAAA -TAACGAAGGAACCTGGAACCTCGGAAGTAGTAGTGAGGGTAACAACACCGGGATGCTGGAAGTTAATAATAATTCAGCTT -TCAATAACCGCGGCGAGTTTATTCTTGATAACGACAAGAATGCTGTGCACATCAACCAGTCCGGTACGCTTTATAATACC -GGTCACATGAACATCAGTAATTCTTCCCACAACGGAGCCGTTAATATGTGGGGCGGAAATGGTCGTTTTATCAATGACGG -AACGATTGATGTTTCTGCGAAGTCACTGGTAGTCAGCGCTAATAATGCCGGCGATCAGAATGCCTTCTTCTGGAACCAGG -ATAACGGGGTCATCAACTTCGATCACGACAGCGCCAGTGCCGTGAAAGTCACCCACAGCAACTTTATTGCCCAGAATGAC -GGCATCATGAACATCAGCGGCACCGGTGCTGTGGCTATGGAAGGTGATAAGAACGCGCAGCTGGTTAACAATGGCACCAT -CAACCTCGGTACCGCAGGCACTACTGACACGGGTATGATCGGTATGCAACTCGATGCCAACGCCACGGCGGATGCGGTAA -TCGAAAACAACGGCACCATCAATATCTTCGCCAATGACTCGTTTGCATTTAGCGTACTGGGTACAGTAGGTCATGTGGTT -AACAACGGCACGGTGGTGATTGCCGATGGGGTTACGGGTTCTGGACTGATCAAGCAGGGCGACAGCATCAATGTTGAAGG -TATGAACGGTAACAACGGTAATAGCAGCGAAGTGCATTATGGCGACTATACGTTGCCGGATGTGCCGAAGCCCAATACGG -TTAGTGTAACGTCGGGAAGTGATGAGGCTGGTGGCAGCATGAACAACCTCAACGGCTATGTCGTCGGTACCAACGTTAAC -GGCAGCGCCGGGAAGCTGAAGGTTAACAATGCCAGCATGAACGGCGTGGAGATTAACACGGGCTTTACCGCTGGTACGGC -AGACACCACTGTGAGTTTTGATAACGTAGTGGAAGGTAGCAACCTGACCGACGCTGACGCCATCACCTCAACGTCCGTGG -TATGGACTGCCAAAGGCAGCACCGATGCCAGCGGTAACGTTGACGTCACCATGAGCAAAAATGCCTACACCGATGTGGCA -ACAGATGCCTCGGTGAATGACATCGCGAAAGCACTGGATGCGGGTTACACCAACAACGAACTGTTTACCAGCCTGAACGT -CGGCACGACTGCTGAACTGAACAGTGCTCTGAAACAGGTCAGCGGTAGCCAGGCGACCACGGTATTCCGCGAAGCGCGCG -TGTTAAGCAACCGCTTTAGTATGCTGGCAGATGCCGCGCCGAAAGTGGGTAACGGTCTGGCGTTCAACGTTGTCGCGAAA -GGCGATCCGCGTGCCGAGTTAGGTAATAATACCGAATACGACATGCTGGCATTGCGTAAAACTATCGACCTGAGCGAAAG -CCAGACGATGAGTCTGGAGTACGGTATCGCTCGTCTCGATGGTGATGGTGCGCAGAAAGCGGGTGATAATGGCGTTACAG -GCGGTTATAGCCAGTTTTTTGGCCTGAAACATCAGATGTCGTTCGATAACGGCATGAACTGGAATAACGCCTTGCGTTAC -GACGTTCACAACCTTGACAGCAGCCGCTCGATTGCATTTGGCAACACGAACAAAACGGCTGATACCGACGTGAAACAGCA -GTACCTGGAGTTCCGCAGCGAAGGGGCGAAGACTTTCGAACCGAGCGAAGGACTGAAGGTTACGCCATATGCGGGTGTAA -AACTGCGTCACACACTGGAAGGTGGCTATCAGGAGCGCAATGCCGGAGACTTTAACCTGAATATGAACAGTGGCAGCGAA -ACGGCGGTGGACAGCATCGTCGGGCTGAAACTGGACTACGCAGGTAAAGACGGCTGGAGCGCTAGCGCTACGCTGGAAGG -CGGGCCGAACCTGAGCTACGCGAAGAGCCAGCGTACGGCAAGCCTGGCAGGCGCAGGCAGTCAGCACTTTAACGTCGATG -ACGGTCAGAAGGGCGGCGGCATCAATAGCCTGACAAGCGTCGGCGTGAAGTACAGCAGCAAAGAAAGTTCGCTGAATCTG -GATGCGTACAACTGGAAAGAGGATGGCATCAGCGATAAAGGCGTGATGCTGAACTTCAAGAAAACGTTCTAATTTTTAGC -ATGTGATCCCTAAACCGCAACGCTGATACAGGTTGCGGTTTTTTTATTGCCGGATGTGGTACGTGACGCGTTTTGTTTTG -TGTCTTTCAGGACAATAGAGCAACTCATCCAGTAATCTTGTTTACACCTTCGCATTATTTATCTCTTTTCGTTTCTATAC -TGATTTTTCTTAATCCGTTTTATTACAGGGCAGGGTGCGATGAGCAGCAATACATTTACTCTCGGTACAAAATCCGTTAA -CCGTCTTGGTTATGGCGCGATGCAACTGGCAGGTCCTGGAGTTTTTGGCCCCCCACGAGATCGCCACGTCGCTATAACCG -TGCTGCGTGAGGCGCTGGCATTGGGCGTCAATCATATTGATACCAGCGACTTTTATGGTCCGCACGTCACCAATCAGATT -ATCCGCGAAGCGCTTTATCCTTACTCTGACGACCTGACAATTGTCACTAAAATTGGTGCGCGGCGTGGAGAGGACGCATC -CTGGTTGCCCGCATTTTCTCCGGCAGAGCTGCAAAAAGCGGTGCACGATAATCTACGTAATCTCGGGCTGGACGTGCTGG -ATGTGGTTAACCTGCGCGTTATGATGGGGGATGGTCATGGCCCAGCGGAAGGATCGATTGAGGCCAGCCTGACCGTGCTG -GCAGAGATGCAACAACAAGGCCTGGTAAAACATATTGGCCTGAGCAACGTCACACCGACGCAGGTTGCAGAGGCGCGCAA -GATTGCCGAAATTGTCTGTGTGCAAAACGAATACAACATCGCGCACCGTGCTGATGATGCAATGATTGATGCTTTGGCCC -ACGATGGCATTGCCTACGTGCCGTTCTTCCCGCTCGGGGGCTTTACACCGCTGCAATCGTCCACACTTTCCGATGTTGCT -GCGAGCCTGGGTGCAACACCAATGCAGGTGGCGCTGGCGTGGCTGTTACAGCGTTCACCGAATATTTTGCTGATCCCAGG -GACGTCTTCGGTTGCGCATTTACGGGAGAATATGGCTGCTGAAAAATTGCATCTTTCTGAGGAAGTGTTGTCTACGTTGG -ATGGTATTTCGCGAGAATAACGAATATACAAAAGGGAAAGATGCATTTCCCTTTTTTTCTTTTTTAATGGCATGGAGTGC -ATATGTTGAAGGCCAGGAATTGCGGCTGGATACGTTTACTGCCCCTGTTTATGCTGAGTCTACCAGTACAGGCGGAACTT -CGATGTGTTGCAAATGCAGTTGATATTGAATCATTTTTTTCTGCGGCTACCGCTGAAGATAAACAACAAGTTGAACAAGC -TATCAACAGTAGCGTGAATCTTGTCCCCTTCGGTTTATCTGCATCGAACTGGAAAGTGCATCGTGGCGATTTAGTGGTAG -AAGGTAATATAGAGAGTAATCAAAAATTGATTGTTCTTGGGAATTTGACAGTCAAAGGTAATATTTCCACTTTCTCTCTT -TCTAATCCATGGGTTATTCTCGGTAACGTGACGGCAACGAATATAGTTGCGGATTCACCACTGTTAATTACCGGTTCGAT -AAATGCAAGTGGACTGGTATTTATCGACTCATATTACGATAATCCGTCTACGATTAAGGGGAGTATTAATGCGCGTGGGA -TATTTATCAATGACATAATTGCACCTGTTGTTGCGTCTTCGACAAATAGTGAATTCATGGTCCGTGCGAGTGACAAACAT -GACACTGAAAATGTCAAAAAAGCGCTGATGATAATAAATCCTGATGCATATTATTGGGGGCTAATTAATGATGAAGATGC -TCTGAAAGAAATTTTTAAGCGAAGCAATATTCGCATGGCAGGGAATGTCTGTAATCAGATGAAAAAAGAAGCGCTGTTTC -GCCCTAAGCCTTCTCCTGAGTTAGTGCAAGAATTGCAAATGCTGGATGAAGGCAAAGTTGCTGCATTTGAAGGACGAGAC -ATTGCGACATTTGATCTTGCCGTAATGCGAACTCTCCCAAGGCTTAAAGGAATTTCAGCTAACCTACGCAAACAACTTAT -TAATAGCAATGATGAACAAACGATTGAAAGTATGGCGAGATATATGCCTGACAATGAGATTCTGGAGTTGACCGATCAGC -AATTGGGTTACCAGCCTGTTGTTCTGGGGTTGCTCGACCGTGAACCGCTCTCTGTCGAAATAATGACGCGAATGAGTCGT -CTACCTGATGGTGTCGGTCCGTTGAATCTTGCGCTACGTGAAAATCTCCCTCTGGATATCGTCATGACTCTGGCGAAAAG -AGATTGGGATATGATCATTCAGGAGCTTTATAAAGATGCGTGGTTATTGCCTGAATCCATTATTGATGGCTATATCCGCA -GTGATGATTCCTCTATTCGTCAGGTCGGTGCTGGAGGACAACTCACCTACAATCAGGCAATGCAGTTGGCGAACGATTCA -TCAAACAATGTTGTCACAAGCTTAGCGTTCAAGCTGGCAGAGATGAAACACCATGGTCAATTGTTGCGGATGACGCCACA -AGAGAGTGACAAAGTTGCAGGCTATTTATACCAAAAATTCGAGAATGACGATGATCTAATACGTGTGTTATTTTTAGCAT -TGCCAGATAACTTACAGTTTAATTTTGTTAAAAGGATGGAGAAAAAATCCCCGGCCTACTTTTGCTGTCGGGATATGCAG -GTAATTCACTCTGACGCTGCTTTACAACGGTTATTGACACGTTTCAACGATCCTGAAGGGTGGAGTAATCTGGCGAAAAA -TCAGTATCTGAGCACGTCGATGAAACAAAAAATTTGGCAACGTGCTTTATCGCATCGGAAAAATAATCCGAAAGCAGATT -CAGATGCATATGAAACCAGCGCTGATATGATTTTGTCTGAGCTGATTAGCCACGGCGAAGTTGATGACCAGATGCTATTA -AATGCCACCGCCCTGATACGTTCGGACGACTGGGACTTTTTAGAGAGTGCATTAATTAGTTGGGATAATTTACCCGCTGT -TGTTCTCAAGGAATTACAGCAAAACACGCCACGCAATGATATTTGGGCGAAGTTTTTTCTGAGGCAGGAAAACAGTTCCC -GTGCGCAGGTTGACGAAGCGTTACGTGTTTATTATGCACTAGACCCCGATGCGTTAGCACAACTGGATGTACTGGCAAAA -CAACCGGATCGTATATGGTGGAGTACACTGGCGAAAAGCAATCTCACATTTTTCAAGTTCGGCGCACTTAACAACCGCCA -CACACCGCCTGCAGTACTGGCGGCAGAAATTGATCCCGAGTGGTGGATTGTGGCGATGAATAATCCCCGTTTTCCAGTTG -ATGTATTAAAGGCGAGGCTGAAACGTGATCCTTTGCTGGCGTTAGAGCTTGTTAACCCTGAACTGGATTTAGTCCGCCAG -CTGGCGCTTAACGGTAAGACGCGCGCAATACGGGAACAAGCGATGAGAAAACTTGATGAGTTGTATTGATCCACAACGTA -ATGTTTTTTAACTATCTGATTAATTGGGGATAATCATTCCTGACAGTGAGTCCCCAATACCTTGATATATTCTGAATTTT -TAATGAAACGGCGTGTTGCGATATCTCCGTCAGGGGAATTGATGCACCATAGCGCAAACCGAATTATCAAGGATTGATAA -TGACGCTCTACCAGATAAAACCGCTCTTTCAGTCGCTGTTAAGGCCGACGATGTTTTGGCTTTATAAGCACCACGTTACA -GCGAATCACATCACTCTTGCTGCACTGGCGCTTTCTCTTCTTACCGGATTGCTGTTGATGTTGGCGGCACAACCCATCCT -CTTTTTGCTATTGCCCATCGTGCTTTTTATCCGTATGGCGCTCAATGCGCTGGATGGCATGTTGGCGCGTGAGTGCAACC -AGCAAACACGTCTGGGGGCGATTTTGAATGAGACTGGCGATGTTATTTCCGATATTGCGCTCTATTTACCATTTTTATTT -TTACCGGAAAGTAACGCATCACTCGTGATACTCATGTTATTTTGCACCATATTGACCGAGTTTTGCGGTTTACTCGCGCA -GACGATTAACGGTGTTCGCAGTTATGCCGGTCCATTTGGCAAAAGCGATCGCGCGTTAATATTTGGTCTGTGGGGTCTGG -CCGTTGCCATTTATCCACAGTGGATGCAGTGGAATAATCTTTTATGGAGCATTGCTTCAATTCTGCTTCTCTGGACTGCG -ATTAATCGTTGTCGGAGTGTGCTTCTTATGAGCGCTGAAATATAATGCTGGAAAAATCTCTGGCAACACTTTTCGCGTTG -TTAATTTTAGCAACGCTGATAAACCGTTTTCTGCTATGGCGGTTACCGGAGAGAAAAGGGGGTGAGGTTACATTACGTAT -TCGTACCTGGTGGGGCATCGTCATTTGTTTTTCAATGGTGATTTCAGGTCCACGCTGGATGACGTTGACGTTTTTTGCGC -TGATAAGTTTTCTGGCATTGAAAGAATATTGTACGCTTATATCTGTACATTTTCCGCGTTGGTTATATTGGGGTATTCCT -CTTAACTATTTGCTTATCGGTTTTAATTGCTTTGAGCTGTTTCTGTTATTTATACCTTTGGCTGGGTTTCTGATATTAGC -CACCGGGCAAGTTTTAGTGGGTGACCCCTCTGGTTTTCTGCATACCGTGAGCGCCATTTTTTGGGGCTGGATAATGACCG -TTTTCGCCTTGAGTCATGCCGCCTGGTTATTAATGTTGCCAACCACAAATATCCAGGGCGGGGCGTTACTGGTGTTATTT -CTTTTGGCATTAACCGAGTCAAACGATATTGCACAGTATTTATGGGGAAAATCCTGCGGCAGAAGAAAAGTGGTCCCTAA -AGTCAGCCCGGGAAAAACATTGGAAGGTCTGATGGGCGGCGTCATCACCATCATGATTGCGTCACTGATTATCGGACCGT -TACTGACACCGCTAAATACATTACAGGCATTATTAGCGGGTTTGTTAATTGGTATTAGTGGTTTTTGCGGCGATGTCGTG -ATGTCAGCCATCAAACGAGATATTGGTGTTAAAGATAGCGGAAAACTATTGCCAGGACATGGCGGACTCCTTGACAGGAT -TGACTCATTAATTTTCACCGCTCCGGTATTTTTTTATTTTATACGCTACTGCTGTTACTGAAGGAAAATAGAGAAAATGG -AAAATTCACGCATCCCTGGGGAACATTTTTTTACCACCAGTGATAATACAGCGTTGTTTTATCGGCACTGGCCCGCTTTA -CAGCCCGGGGCGAAAAAGGTCATCGTCTTATTTCATCGCGGGCATGAACATTCTGGTCGTCTACAACATCTCGTTGATGA -ACTGGCGATGCCAGATACTGCTTTTTATGCCTGGGATGCCCGAGGGCATGGAAAAAGTTCGGGGCCGCGTGGTTATAGCC -CATCTCTTGCGCGTTCAGTGCGGGATGTCGATGAATTTGTCCGTTTTGCTGCCAGCGACAGCCAGGTTGGACTGGAAGAG -GTGGTAGTGATCGCGCAAAGCGTCGGCGCAGTGCTGGTTGCCACATGGATTCATGATTATGCACCTGCAATTCGCGGGCT -GGTGCTGGCTTCTCCGGCCTTTAAGGTTAAATTGTATGTGCCGCTGGCACGTCCTGCGCTGGCGTTATGGCATCGTCTGC -GTGGTCTGTTTTTTATTAATTCCTATGTGAAAGGACGCTATTTGACCCACGATCGGCAACGGGGGGCGAGTTTCAATAAT -GATCCGCTGATCACACGGGCGATTGCCGTTAATATCTTGCTCGATCTCTACAAAACGTCTGAACGTATTATTAGAGATGC -GGCGGCGATTACGCTCCCCACGCAACTTCTGATATCAGGCGATGACTATGTGGTGCATCGCCAACCGCAGATTGATTTTT -ATCAGAGATTACGTAGCCCTCTGAAAGAGCTGCATCTGCTGCCAGGCTTTTATCACGACACGTTGGGTGAAGAGAACAGG -GCGCTGGCATTTGAAAAAATGCAAAGCTTTATTAGTCGTTTATATGCTAACAAATCGCAAAAATTTGATTATCAGCATGA -AGACTGCACAGGACCATCAGCGGATCGATGGCGGCTACTTTCTGGTGGACCCGTGCCATTATCGCCGGTTGATTTAGCGT -ATCGCTTTATGCGAAAGGCGATGAAATTGTTCGGGACGCACTCTTCGGGCCTGCATCTCGGAATGAGCACCGGCTTTGAT -TCAGGCAGTTCGCTGGATTATGTCTATCAAAATCAACCGCAAGGTAGTAACGCATTCGGGCGTTTAGTCGACAAAATCTA -CCTGAACAGTGTTGGCTGGCGCGGTATTCGCCAGCGCAAAACCCATTTACAAATACTGATTAAACAAGCCGTTGCCGATC -TCCACGCCAAAGGTTTAGCCGTCCGCGTGGTTGACATTGCCGCAGGGCATGGGCGCTATGTACTGGATGCGCTGGCAAAC -GAGCCTGCCGTAAGCGATATTTTGTTACGTGATTACAGCGAGTTAAATGTTGCACAGGGGCAAGAGATGATTGCTCAACG -GGGAATGTCTGGGCGGGTGCGTTTTGAACAGGGCGATGCGTTTAACCCGGAGGAACTCAGCGCGTTAACTCCGCGGCCTA -CGCTGGCGATTGTCTCTGGCCTGTATGAGCTTTTTCCCGAAAATGAGCAGGTAAAAAACTCACTCGCAGGTCTTGCCAAT -GCCATCGAACCGGGCGGCATTCTCATCTACACCGGGCAGCCGTGGCACCCTCAACTGGAGATGATTGCCGGGGTGTTAAC -CAGTCATAAAGATGGTAAACCGTGGGTAATGCGCGTGCGTTCGCAAGGGGAGATGGATTCACTCGTGCGTGATGCCGGAT -TTGATAAATGCACACAACGGATTGATGAGTGGGGTATTTTTACGGTTTCGATGGCGGTGCGTCGTGATAACTGAACGTCG -GAACGTATTGCTACAAGGCGCTGGCTGGTTATTGTTGCTGGCCCCGTTTTTCTTCTTCACCTATGGATCTCTTAATCAGT -TCACCGCGGTTCAGGACCTTAACAGCCATGATATCCCCAGTCAGGTATTCGGTTGGGAAACGGCGATCCCTTTTCTTCCC -TGGACTATTGTTCCTTACTGGAGTCTGGATCTTTTATATGGATTTTCGCTGTTCGTTTGTAGCACGACATTCGAACAGCG -CCGACTTGTCCACCGGCTTATTCTGGCAACGGTAATGGCCTGCTGCGGTTTTTTGCTCTATCCGCTGAAGTTTAGTTTTA -TCCGTCCTGAAGTGAGTGGGGTGACGGGATGGCTATTTTCGCAACTTGAACTGTTTGATCTGCCTTATAACCAGTCTCCT -TCGCTGCATATTATTCTCTGCTGGCTACTTTGGCGTCACTTTCGTCAGCATCTGGCTGAGAGGTGGCGTAAAGTCTGCGG -CGGATGGTTTTTACTCATCGCCATTTCGACGCTGACGACCTGGCAGCATCATTTTATTGATGTCATCACAGGGCTGGCGG -TAGGTATGTTGATTGACTGGATGGTGCCCGTCGACCGTCGTTGGAATTATCAGAAACCTGATCAACGTCGAATCAAAATA -GCACTGCCCTATGTCGTAGGCGCGGGCTCGTGCATTGTATTGATGGAGCTAATGATGATGATTCAGTTATGGTGGTCAGT -CTGGTTATGTTGGCCAGTATTATCGCTACTCATAATTGGCCGTGGGTACGGTGGGCTTGGCGCGATAACAACAGGGAAAG -ATAGTCAGGGGAAACTACCGCCCGCCGTTTACTGGCTGACATTGCCCTGCCGCATCGGGATGTGGCTGTCTATGCGTTGG -TTTTGTCGTCGCCTGGAGCCGGTGAGCAAAATGACTGCTGGTGTTTATTTAGGGGCGTTTCCACGACATATTCCGGCACA -GAATGCGGTTCTGGACGTCACCTTTGAATTCCCTCGCGGACGAGCCACAAAAGATCGACTCTATTTTTGTGTACCGATGC -TGGATCTGGTGGTTCCGGAAGAGGGGGAGCTCCGACAGGCCGTGGCGATGCTGGAAACATTACGCGAAGAGCAAGGCAGC -GTTCTGGTCCATTGTGCATTGGGATTATCGCGCAGTGCGCTGGTGGTGGCGGCATGGTTGTTATGTTACGGACACTGTAA -AACCGTTAATGAAGCGATTAGCTATATTCGAGCCAGACGCCCGCAGATTGTGCTGACAGACGAGCACAAAGCGATGCTGA -GATTATGGGAAAACAGGTAAGTGGATTGAGATGTGGACTGAATATCTACAGTCCACATCAAGACCGTGTCCGGTTATGCA -GAAACAATGCTGTCGATGGCTGCTTTTGCGTCAGACTGTGCTTTCGCTGCCATTTCCGGACCGTATGCGATCCCTTCGGC -GAAGACAAATTTCACATCGGTAATGCCGATAAAGCCGAGGAACGTGGACAGATACGGCGTCACCAGGTCCGTTGGTCCAT -CTTTGTGGATCCCGCCGCGGCTGGTAATAACGATGGCTTTTTTACCCGTTACCAGACCTTCCGGACCGTTCTCGGTATAG -CGGAAAGTAACGCCTGCGCGGGCAACCAGGTCAAAATAGTTTTTCAACTGAGTCGAGATGTTGAAGTTATACATCGGTGC -CGCAATAACGATAACGTCGTGGGCTTTCAGCTCGGCAATCAACTCATCGGAAAGTGCCAGAGCTTCCTGCTGACGCGGAG -TCAGCGGCGCATCGCTCGGACGCAGAGCGCCAACCAGTTCGCCATCCAGTACCGGAATCGGATTTGCAGCCAGGTCGCGA -ACGGTGATTTCATCAGCGGAGTGCTTTTCGCGCCATTGTTCAACAAAATAATCGGACAACTGATTAGACTGAGAGTACCC -TGCCAGGATGCTGGATTTAAGAACTAATACCTTGCTCATGGTGTTTCCTTATAGATGTTTGAATGGGCGATGCCCCGTTG -CTTGTTGACACTTTATTCACAATCCTGCCACAGAGATAGCGCAATAAATCGAAGCCTATGTTCGAATTTATTGAACAACG -CATAGAAAGCCGCGATGTGGTACTCTATATCTATCATTTAAAAGAAAATTAATCAGGCAGACTACTGCCCACTAACGTTA -TGACAGAACAACAAAAATTGACCTTTACGGCCTTGCAGCAGCGGCTGGATTCGCTGATGCTGCGTGACAGACTGCGTTTT -TCTCGCCGTCTGCACGGCGTGAAGAAGGTTAAAAATCCTGATGCACAACAGGCCATTTTCCAGGAGATGGCGAAAGAGAT -TGACCAGGCGGCAGGGAAAGTCCTGCTGCGTGAAGCGGCACGACCGGAAATTACTTATCCTGACAATTTACCGGTTAGTC -AGAAAAAACAGGACATTCTCGAAGCGATTCGTGATCACCAGGTGGTGATCGTCGCCGGGGAAACGGGTTCTGGTAAAACG -ACTCAGTTACCGAAAATCTGTATGGAGCTGGGGCGCGGGATTAAAGGACTGATCGGCCATACCCAGCCGCGTCGTCTGGC -GGCAAGAACAGTGGCGAACCGTATTGCGGAAGAGCTGAAAACGGAGCCGGGCGGTTGCATCGGTTACAAAGTGCGTTTCA -GCGATCACGTAAGTGATAACACGATGGTCAAGCTGATGACCGACGGTATCCTGCTGGCGGAGATCCAGCAAGACCGCCTG -CTGATGCAGTACGACACTATCATTATTGACGAAGCGCACGAACGCAGCCTGAATATCGATTTTTTGCTCGGCTATTTGAA -AGAGTTGCTGCCGCGGCGTCCTGACCTAAAAATCATTATCACTTCCGCGACTATCGACCCGGAACGCTTTTCGCGCCACT -TTAATAATGCGCCGATTATTGAAGTCTCCGGTCGGACCTATCCGGTGGAAGTGCGCTATCGCCCGATTGTTGAAGAAGCC -GATGACACCGAGCGCGATCAGTTGCAGGCGATTTTTGACGCCGTAGACGAACTGAGTCAGGAAAGCCATGGCGACATTCT -GATCTTTATGAGCGGCGAGCGGGAAATCCGCGATACCGCCGATGCGCTGAACAAGCTGAACTTACGCCATACCGAAATCT -TGCCGCTTTATGCGCGGCTTTCGAACAGCGAACAAAATAGGGTATTCCAGTCGCACAGCGGACGGCGCATTGTGCTGGCG -ACCAACGTCGCGGAAACGTCGCTGACCGTACCGGGGATTAAATACGTTATCGACCCCGGTACAGCGCGTATCAGCCGCTA -CAGCTATCGCACCAAAGTGCAGCGTTTGCCGATTGAGCCGATTTCCCAGGCGTCTGCCAATCAGCGTAAAGGCCGCTGTG -GTCGTGTGTCCGAAGGGATCTGTATTCGTCTCTATTCCGAAGACGATTTCCTCTCGCGCCCGGAGTTTACCGATCCGGAG -ATTCTGCGTACCAACCTGGCCTCGGTTATTTTGCAGATGACCGCGCTGGGGCTGGGCGATATCGCTGCGTTCCCGTTTGT -CGAAGCACCGGATAAACGCAATATCCAGGATGGCGTGCGTCTGCTCGAAGAGCTGGGCGCGATCACCACTGATGAACAGG -CCAGCGCCTATAAACTGACGCCGCTCGGTCGCCAGCTCTCGCAGTTGCCTGTCGACCCACGTCTGGCGCGTATGGTGCTG -GAAGCGCAAAAACATGGCTGCGTGCGTGAGGCGATGATTATCACGTCCGCGCTCTCCATTCAGGATCCGCGCGAACGTCC -GATGGACAAACAGCAGGCATCGGACGAAAAACATCGTCGCTTCCACGACAAAGAGTCTGACTTTCTCGCGTTTGTGAATC -TGTGGAATTATCTTGGCGAGCAGCAAAAGGCGCTTTCTTCCAACGCCTTCCGTCGCCTGTGTCGTACCGATTATCTCAAC -TATCTGCGCGTGCGCGAATGGCAGGATATCTACACCCAGTTGCGTCAGGTGGTGAAAGAACTTGGCATTCCGGTTAACAG -CGAACCGGCGGAGTATCGCGAAATTCACATTGCGTTGCTGACCGGTTTACTTTCCCATATCGGCATGAAAGATGCCGATA -AACAAGAATATACCGGCGCACGTAACGCGCGTTTCTCCATCTTCCCCGGTTCTGGTTTATTCAAAAAACCGCCTAAATGG -GTAATGGTGGCGGAACTGGTAGAAACCAGCCGCCTGTGGGGGCGCATTGCTGCGCGTATCGACCCGGAATGGGTGGAGCC -AGTTGCTCAGCATTTGATTAAACGCACCTACAGCGAACCGCACTGGGAACGGGCGCAGGGCGCGGTGATGGCAACGGAAA -AAGTCACTGTTTATGGTTTGCCGATTGTTGCCGCGCGCAAGGTCAACTACAGCCAGATCGATCCGGCGTTATGTCGTGAA -CTCTTTATTCGCCACGCGCTGGTGGAAGGTGACTGGCAGACGCGTCACGCATTCTTCCGTGAAAACCTGAAACTACGGGC -GGAAGTAGAAGAGCTGGAACACAAATCACGTCGCCGCGATATTCTGGTTGATGACGAAACGTTGTTTGAGTTCTACGACC -AGCGCATCAGCCACGATGTAATCTCCGCTCGCCACTTCGACAGCTGGTGGAAAAAAGTCAGCCGCGAAACGCCTGATTTG -CTCAACTTTGAAAAAAGCATGTTGATCAAAGAGGGCGCAGAAAAAATCAGCAAGCTGGATTACCCGAACTTCTGGCATCA -GGGCAATCTCAAGCTGCGTTTGAGCTATCAGTTTGAGCCCGGCGCGGATGCTGACGGTGTGACCGTACATATTCCGCTGC -CGTTACTTAACCAGGTTGAGGAAAGCGGGTTTGAATGGCAGATCCCCGGTCTGCGCCGCGAACTGGTGATTGCTCTGATT -AAATCGTTGCCGAAACCGGTACGCCGTAATTTTGTACCCGCGCCAAACTATGCCGAAGCGTTTTTAGGCCGCGTCAAACC -GCTGGAGTTACCGTTGCTCGACAGCCTTGAGCGCGAGTTACGGCGGATGACCGGCGTTACCGTTGACCGCGAAGACTGGC -ACTGGGATCAGGTGCCCGATCACCTGAAAATTACCTTCCGCGTGGTGGATGACAAAAACAAGAAGCTAAAAGAAGGGCGC -TCGCTACAAGATCTGAAAGATGCGCTGAAAGGCAAAGTGCAGGAAACGCTATCTGCGGTGGCGGATGACGGTATCGAGCA -GAGCGGCTTACATATCTGGAGTTTTGGTCAGCTGCCGGAAAGCTACGAACAGAAGCGTGGCAACTACAAAGTGAAGGCGT -GGCCGGCGCTGGTGGATGAGCGCGACAGTGTGGCGATCAAACTGTTTGATAACCCGCTGGAGCAAAAGCAGGCAATGTGG -AACGGTCTTCGCCGTCTACTGCTGCTGAATATTCCATCGCCAATCAAATATTTACATGAAAAGTTACCGAACAAAGCCAA -GCTGGGACTGTACTTTAACCCGTATGGCAAAGTGCTGGAGCTGATCGACGACTGTATCTCCTGCGGTGTGGATAAATTGA -TCGACGCCAATGGTGGCCCGGTCTGGACGGAAGAAGGCTTTGCTGCGCTGCATGAAAAAGTGCGTGCCGAACTGAACGAC -ACGGTGGTGGATATTGCGAAGCAGGTCGAGCAAATCCTTACGGCAGTGTTCAATATCAACAAACGTCTGAAAGGGCGGGT -GGATATGACCATGGCGCTGGGGCTTTCTGACATTAAAGCGCAGATGGGCGGGTTGGTATATCGCGGTTTTGTCACTGGTA -ACGGCTTCAAACGGCTGGGCGACACGCTGCGATATTTGCAGGCGATTGAAAAACGGCTGGAAAAACTGGCGGTTGATCCA -CATCGCGACCGTGCGCAGATGCTGAAAGTCGAAAACGTCCAGCAGGCGTGGCAGCAATGGATCAACAAACTGCCGCCCGC -ACGTCGTGAGGATGAAGACGTGAAAGAGATCCGTTGGATGATAGAAGAGTTGCGCGTTAGTTACTTCGCTCAACAACTTG -GTACGCCTTATCCGATTTCAGATAAGCGTATTTTGCAGGCGATGGAGCAGATTAGCGGTTAACCCTGCTATTTGCCTGAT -AAAGAAAAAACCCGGTAAGCATTTAGCGCCGGGTTTTTTATTAATTCTAAAACGGTAAGGGTAAAAATTCAGGAATTCAG -AAAAATACAATTCTCTGCTGCAAGATGAATAATGTTTATCTACAGCATTTCCTTAAAAGATATGTCAGGCTTGCGGAGTG -GCGGTTAAGGACATACGATTTCCTCCTTTCAGAGTGCTCCGCTTCTCACTATTATCTCACGCAGTATTCTTAAGGGAACG -ATAAGGAGGAACCATGAACATTACCCCGTTTCCGACGCTTTCGCCGGCAACTATAGATGCCATAAATGTTATCGGACAGT -GGCTGGCGCAGGATGATTTCTCCGGTGAGGTGCCGTATCAGGCCGATTGCGTGATCCTTGCAGGCAATGCGGTTATGCCG -ACTATCGATGCGGCATGTAAGATTGCCCGCGATCAGCAAATTCCTTTACTGATTAGTGGTGGTATCGGTCACTCGACAAC -TTTTTTGTATAGCGCCATCGCACAGCATCCGCACTACAACACTATCCGCACCACTGGCAGAGCAGAAGCGACCATCCTGG -CGGATATCGCTCATCAGTTCTGGCACATTCCGCATGAAAAAATCTGGATTGAAGACCAGTCAACAAACTGCGGTGAAAAC -GCACGCTTTAGCATCGCGCTATTGAATCAGGCCGTAGAACGAGTTCATACGGCTATCGTTGTTCAGGACCCCACCATGCA -GCGGCGCACGATGGCGACGTTCCGCCGTATGACTGGGGACAATCCCGATGCACCACGCTGGTTAAGTTATCCCGGATTCG -TTCCTCAGTTAGGAAATAACGCAGACAGTGTAATCTTTATTAATCAGTTACAAGGATTATGGCCAGTTGAGCGTTATCTC -TCACTACTCACTGGCGAGCTGCCGCGTTTACGCGATGATAGCGATGGCTACGGTCCCCGCGGGCGAGATTTTATCGTTCA -CGTTGATTTTCCGGCAGAAGTCATCCATGCATGGCAAACGCTGAAACATGATGCGGTGCTCATCGAGGCGATGGAAAGTC -GCTCGTTACGTTAAAAATTGCCCGTTTGTGAACCACTTGTTTGCAAACGGGCATGACTCCTGACTTTTATTTCTGCCTTT -TATTCCTTTTACACTTGTTTTTATGAAGCCCTTCACAGAATTGTCCTTTCACGATTCCGTCTCTCTGATGATTGATGTTA -ATTAACAATGTATTCACCGAAAACAAACATATAAATCACAGGAGTCGCCCATGTCAGTACCCGTTCAACATCCTATGTAT -ATCGATGGACAGTTTGTTACCTGGCGTGGAGACGCATGGATTGATGTGGTAAACCCTGCTACAGAGGCTGTCATTTCCCG -CATACCCGATGGTCAGGCCGAGGATGCCCGTAAGGCAATCGATGCAGCAGAACGTGCACAACCAGAATGGGAAGCGTTGC -CTGCTATTGAACGCGCCAGTTGGTTGCGCAAAATCTCCGCCGGGATCCGCGAACGCGCCAGTGAAATCAGTGCGCTGATT -GTTGAAGAAGGGGGCAAGATCCAGCAGCTGGCTGAAGTCGAAGTGGCTTTTACTGCCGACTATATCGATTACATGGCGGA -GTGGGCACGGCGTTACGAGGGCGAGATTATTCAAAGCGATCGTCCAGGAGAAAATATTCTTTTGTTTAAACGTGCGCTTG -GTGTGACTACCGGCATTCTGCCGTGGAACTTCCCGTTCTTCCTCATTGCCCGCAAAATGGCTCCCGCTCTTTTGACCGGT -AATACCATCGTCATTAAACCTAGTGAATTTACGCCAAACAATGCGATTGCATTCGCCAAAATCGTCGATGAAATAGGCCT -TCCGCGCGGCGTGTTTAACCTTGTACTGGGGCGTGGTGAAACCGTTGGGCAAGAACTGGCGGGTAACCCAAAGGTCGCAA -TGGTCAGTATGACAGGCAGCGTCTCTGCAGGTGAGAAGATCATGGCGACTGCGGCGAAAAACATCACCAAAGTGTGTCTG -GAATTGGGGGGTAAAGCACCAGCTATCGTAATGGACGATGCCGATCTTGAACTGGCAGTCAAAGCCATCGTTGATTCACG -CGTCATTAATAGTGGGCAAGTGTGTAACTGTGCAGAACGTGTTTATGTACAGAAAGGCATTTATGATCAGTTCGTCAATC -GGCTGGGTGAAGCGATGCAGGCGGTTCAATTTGGTAACCCCGCTGAACGCAACGACATTGCGATGGGGCCGTTGATTAAC -GCCGCGGCGCTGGAAAGGGTCGAGCAAAAAGTGGCGCGCGCAGTAGAAGAAGGGGCGAGAGTGGCGTTCGGTGGCAAAGC -GGTAGAGGGGAAAGGATATTATTATCCGCCGACATTGCTGCTGGATGTTCGCCAGGAAATGTCGATTATGCATGAGGAAA -CCTTTGGCCCGGTGCTGCCAGTTGTCGCATTTGACACGCTGGAAGATGCTATCTCAATGGCTAATGACAGTGATTACGGC -CTGACCTCATCAATCTATACCCAAAATCTGAACGTCGCGATGAAAGCCATTAAAGGGCTGAAGTTTGGTGAAACTTACAT -CAACCGTGAAAACTTCGAAGCTATGCAAGGCTTCCACGCCGGATGGCGTAAATCCGGTATTGGCGGCGCAGATGGTAAAC -ATGGCTTGCATGAATATCTGCAGACCCAGGTGGTTTATTTACAGTCTTAATGAGTGAAAGAGGCGGAGGTTTTTTCCTCC -GCCTGTGCGCGTCAGAGTTTAGCGAATTTTTCGAGGGTGCGAATAAGCTGTGTGACGAAGCCATATTCGTTATCGTACCA -GGCGACCGTTTTCACCAGTTGTAAATCGCCCACGGCGGTAATTTCCGTTTGCGTGGCATCAAACACCGAACCGAAATGGC -TGCCAATGATATCGGAAGAGACTATTTCTTCATCGGTATAACCAAATGACTCGTTATTGGTGGTTGCTTGTTTAAGTGCG -TTATTCACCTCTTCGGCAGTCACTTTTTTCCGAGAATCGATACCAGTTCAGTGACCGAACCTGTTTTCACCGGCACGCGT -TGCGCATGACCTTTCAGTTTGCCGCTCAGTTCCGGGATCACCAGACCAATGGCTTTTGCCGCCCCCGTAGTGTGGGGAAT -GATATTTTCTGCCGCTGCGCGTGAAGCACGTAAATCTTTACCACGCGGGCCATCCACCAGTGACTGGGTGCCAGTATAGG -CATGAATGGTCGTCATCGTGCCGACTTCTATCCCGAAACTGTCATGCAAGGCTTTGGCCATCGGCGCAAGACAGTTAGTG -GTGCATGACGCCACGGAAACAATGGTGTCGTTGCCATCCAGAGTGTCGTCATTGACGTTATAAACGATAGTTTTCATTTC -ACCGGCAGGGGCGGAAATCAACACCTTCTTCGCACCAGCATCAAGATGCGCCTGCGATTTCTCGGCGGAGGTATAAAAGC -CAGTACATTCGACAATGATTTCTGCACCTTTCGCTTTCCACGGAATATTTTTAGCCTCTTTTTCGGCGTAAACCGCGATA -CTTTTCCCATCAACGATAAGTGAATCTTCCGTAAAATCAACGCTCCAGGGGAATGGTCCGTAGTTTGAATCATGTTTCAG -CAGGTAGGCGAGAATTTATGGGGAAGTGAGATCATTAATAGCGACAACGTCTATGTTGCTTTTGACTTCAAGTAATCGAC -CCAACACCAGTCGACCGATACGACCAAAACCGTTAATACCAACTTTACTCATGGTTTTCTCCTGTCAGGAACGTTCGGAT -GAAAATTGATCCTTTCCAAGCTTAGACCAGGATGGCGGGATGGGCAATCTCCATTCTCACAGTGAAACGTAACGTACTGA -AAACGGGTGAACAATATTTAATGAAATTTTGAGAAAAGCCCGTTATGTTAACGGAAAATTATGTTAAAGCAGGAAATGTT -ATGGAAAATAAATATTCAAGGTTACAAATCAGCATTCACTGGCTGGTCTTTTTACTGGTTATCGCAGCGTATTGCGCAAT -GGAGTTTCGTGGTTTCTTCCCACGTAGCGATCGGCCACTCATCAACATGATTCATGTTTCCTGTGGCATCTCAATTCTCG -TGCTGATGGTCGTTCGTCTTTTGTTAAGGCTGAAATACCCAACCCCGCCGATTATACCTAAGCCAAAACCGATGATGACG -GGACTGGCGCATTTGGGACATTTGGTGATTTATCTCCTGTTTATTGCGCTGCCAGTGATTGGTTTGGTGATGATGTATAA -CCGGGGCAACCCGTGGTTTGCGTTTGGTTTGACGATGCCTTACGCTTCAGAGGCCAATTTCGAACGGGTAGATAGCTTAA -AGTCGTGGCATGAAACGCTGGCGAATCTGGGATATTTTGTCATCGGGTTGCACGCTGCGGCTGCACTGGCACACCACTAT -TTCTGGAAGGACAACACACTTCTACGCATGATGCCGCGTAAACGTTCCTGAAGGATATTTAAAGAAAACGCCTGTACTAA -AACCGACCCGTGGTACAGGCGAAGAATACGGGTCTACATCGGAAGCGCCTATTATATTTATTTGTATGATAAATAAAACC -ATAATCCTTGCCCATACGTCCATCTGGCTTATTTTTAATCAATTCACCCGATCTTTGATCTCATCAACGGTATCAAAATA -AACCAGCGTATAACGTTCAAATCGAACATAAGATTCGATAAACCATGGAGGTTATATGAAAAAACTGGCACTTATTTTGT -TTATGGGAACGCTTGTTTCCTTTTATGCCGATGCCGGGCGCAAACCCTGTTCTGGTTCGAAAGGGGGGATCTCACACTGT -ACGGCAGGCGGCAAATTTGTCTGTAATGATGGTTCTATTAGTGCATCGAAAAAAACATGCACTAACTGAAGTGTAAAAGG -GGTGCCATGAGAAAATGAATCTGCTAGTCAAATGCGCGGGGAAAATCCCCGCGCTTGCCCTTACCTGGACGTGCAGGCCA -TGAGCGCAGCAACCTCCTTATCACCGTCCCGGAACCGCAGTTCGTAGAGCGTTTGTCGGGTCAGGAGTGTGAATGTCAGA -ATCGTAATGCAGATAATGAGCAGACACACCACCAGAGGGTTGTGCTTCATAGCCTTTCTCCTTGCCGGATGGCGGGTAAG -AGGCTAAGATCTGAATTGCTAGGTTCATTCGTTGGCCTCGGTTGATAGAAATATCGGTCGGGGCCTTCGTCTTTCTGATT -CCCGGTTAGCCTGAAAACAGAAAGTCTCAGGCACCCGCAGGCATCCTATGAGGTTTCCTTAGGGACGAAAATAATCACTT -CACGAAATTGCGTGCTGTTTTCCAGAATTTTTCGTCATTCGGGTTAGCCAGTTTAGCCATTCGTTACTCTCTTCATTCCA -ATAGCATTAATTTTCTATGCAATAATTGTTGTAAAAATGTGACGCAAAGAGGTTTTTGGTCATAAGTAATTACCGTCAAG -TGCCGATGACTTTCTATCAGGAGTAAACCTGGACGAGAGACAACGGTAATGAATACAACTCCCTCACAGCGATTAGGTTT -TTTGCATCACATCAGGTTGGTTCCGTTATTTGCCTGCATTCTAGGCGGTATCTTAGTTCTATTCGCATTAAGTTCAGCCC -TGGCTGGCTATTTCCTCTGGCAGGCCGATCGCGATCAGCGTGATGTTACTGCGGAGATTGAGATTCGGACCGGGTTAGCG -AACAGTTCAGATTTTTTGCGTTCAGCCCGGATCAATATGATTCAGGCCGGGGCTGCGAGTCGTATTGCGGAAATGGAAGC -AATGAAGCGAAATATTGCGCAAGCCGAATCGGAGATTAAACAGTCGCAGCAAGGTTATCGTGCTTATCAGAATCGACCGG -TGAAAACACCTGCTGATGAAGCCCTCGACACTGAATTAAATCAACGCTTTCAGGCTTATATCACGGGTATGCAACCTATG -TTGAAATATGCCAAAAATGGCATGTTTGAAGCGATTATCAATCATGAAAGTGAGCAGATCCGACCGCTGGATAATGCTTA -TACCGATATTTTGAACAAAGCCGTTAAGATACGTAGCACCAGAGCCAACCAACTGGCGGAACTGGCCCATCAGCGCACCC -GCCTGGGTGGGATGTTCATGATTGGCGCGTTTGTGCTTGCCCTGGTCATGACGCTGATAACATTTATGGTGCTACGTCGG -ATCGTCATTCGTCCACTGCAACATGCCGCACAACGGATTGAAAAAATCGCCAGTGGCGATCTGACGATGAATGATGAACC -GGCGGGTCGTAATGAAATCGGTCGCTTAAGTCGTCATTTACAGCAAATGCAGCATTCACTGGGGATGACAGTAGGGACTG -TTCGACAGGGCGCGGAAGAGATTTATCGTGGCACCAGCGAAATTTCAGCTGGCAATGCGGACCTGTCATCTCGCACCGAA -GAACAAGCGGCGGCTATCGAACAAACTGCCGCCAGCATGGAGCAACTCACTGCGACGGTGAAACAGAATGCGGATAACGC -GCATCATGCCAGCAAACTGGCGCAAGAGGCTTCTATTAAAGCCAGCGATGGCGGGCAGACGGTTTCCGGTGTAGTAAAAA -CGATGGGCGCTATCTCCACGAGTTCGAAGAAAATTTCTGAGATCACCGCCGTCATCAACAGTATTGCTTTCCAGACGAAT -ATTCTGGCACTGAATGCTGCCGTTGAAGCCGCGCGAGCGGGTGAGCAAGGGCGTGGATTTGCCGTTGTCGCCAGCGAAGT -ACGGACACTCGCAAGTCGCAGCGCTCAGGCGGCGAAAGAGATTGAAGGCTTGATCAGTGAATCAGTCAGGTTAATTGACC -TGGGGTCGGATGAGGTGGCAACGGCCGGGAAAACCATGAGCACTATTGTTGATGCCGTCGCGAGTGTCACACATATCATG -CAGGAAATCGCCGCCGCCTCGGATGAACAAAGTAGAGGCATAACGCAGGTTAGCCAGGCGATTTCTGAAATGGATAAGGT -GACGCAACAGAATGCTTCTCTGGTAGAAGAGGCCTCAGCGGCGGCGGTGTCCCTTGAAGAACAGGCGGCACGATTAACTG -AGGCGGTGGATGTATTCCGTCTGCACAAACATTCTGTGTCGGCAGAACCTCGCGGAGCGGGTGAACCAGTTAGTTTCGCT -ACGGTGTGAAAATGTTCAAGGAGGGATCGACAGATCCCTTCACCTTTCAGAACGGCATTGATTTTCGAATAGCGTTAATC -ATCAACTGGCAACCAGAAGAGAACGTCGCATCTACGCGGGTCAGTATTCCAATCGGTTCGCCTGCACCATGTCCCGGAAC -AGGCAGGGCCACCAGCGTGGCATGACGCAGGTCGTCTTTTACAGCGCCAGAAGGGACAAACCACACGTAATCGTATTCAA -CCGTAAGTTGACGAGATAGCGAAGCAGACAGCGTTTCGATACAACCCGAAGGAATTTTACAGCCCTGGCTCTGCACTAAT -GCATCTGAATGCTGGCGTGGCGCAGTGCCTTCTGGTGATACAACGACCGGCCATTCCAGCACCCGGCTTAGCGTTACGTT -CTCCTGAAGTAGCGGGTGATTAGGGCGGACAACCAGCTTCAACGATTCAAGAAACAGCAGTTCGTAATTAAGCCCGGTCA -TCAGTTCAGGATCTGACATCCGACCAATGCCGATATCGATTTCCCCGGTTTTTAAACCCGCCAGAATCATAGGGTTACTC -ATTGTCGCAACTTGCAAGGTCGTCTCTTTTTGTTGCTGATGAAACTGACCTATAACCGAAGGTAATATCCCCAGTGCCGC -AGTAGGTAGTGCACCAACCCTGACGACATCATTATTAAGACCTTCTTTACGATGAAGCGACCGTCCGGCAGTGTTGATGG -CGTCAAGAACTCTGACTGCATGCGTTAAAAATTGTTCGCCGGGTAAGGTAAGTTGCGCCCCCTGACGACCACGCTCAAAC -AAGCGAGCGCCAGTCAGCTGCTCCAGTTCATTCAATGTCTTAGAGAGCGCAGGTTGACTCAAATTAAGGGTTTCAGCCGC -GCGCCCCAAAGTTCCTTGTTGTGCGACAGCTACGAATGTATGAAGGTGGCGCAAACGGATGCGCTGACTAAACAGACTAT -TTTTTTCCATAAGCGATGTTAAAAACGAAGCGGTGTCGCTGACAAGTGAAGTTGTTTGATTATGATAACTTGATTGCAAA -ATATTATTAACAATTAAAGCAATTATGTTACAGCAAAATGGATAATATTGATGTTTTCGCGGCGAGATCACAGTTTGTAA -ATTCTTCCCGCAAGAGTGAATGCGGTTACCTACACTCCAGATTACTGACCACTGGAGGCAGACACTATGGCGAACAGCAT -CACGGCGGATGAGATTCGGGAACAGTTTTCGCAGGCAATGTCAGCCATGTACCAGCAAGAAGTTCCGCAATATGGCACGC -TGCTGGAACTGGTAGCTGATGTGAATCTGGCTGTGCTGGAAAACAATCCTCAACTGCACGAAAAAATGGTAAATGCAGAC -GAGCTGGCGCGACTGAATGTTGAACGTCATGGGGCGATTCGCGTTGGGACTGCACAAGAGCTTGCTACTCTTCGGCGGAT -GTTTGCCATTATGGGGATGTACCCGGTGAGCTATTACGATCTCTCGCAGGCAGGGGTGCCGGTACATTCGACAGCATTTC -GGCCCATTGATGATGCTTCTCTGGCGCGTAATCCCTTCCGCGTTTTTACCTCCTTACTCCGCCTTGAGCTTATCGAGAAC -GAAATTTTGCGCCAGAAAGCGGCGGAGATTCTGCGTCAGCGCGATATCTTCACCCCACGTTGTCGACAACTGTTAGAGGA -ATATGAGCAGCAGGGCGGTTTTAACGAAACACAGGCACAGGAGTTTGTGCAGGAAGCCCTGGAAACGTTTCGCTGGCACC -AGTCAGCAACGGTAGATGAAGAAACCTATCGCGCATTGCACAACGAACATCGGTTGATTGCTGATGTGGTCTGTTTTCCT -GGATGCCATATCAACCACCTGACGCCACGTACGCTGGATATTGACCGGGTGCAGTCGATGATGCCTGAATGCGGAATTGA -ACCCAAAATTCTCATCGAGGGGCCGCCGCGCCGCGAGGTACCGATTTTACTACGCCAGACCAGCTTTAAAGCACTGGAAG -AGACGGTGTTGTTTGCGGGGCAGAAACAGGGCACGCATACCGCGCGCTTTGGTGAAATTGAGCAGCGTGGCGTGGCATTA -ACGCCGAAAGGGCGACAACTGTATGATGATCTTCTGCGTAACGCTGGAACCGGGCAGGATAATCTCACTCACCAAATGCA -TTTACAGGAAACCTTCCGCACTTTTCCTGACAGTGAGTTTTTAATGCGTCAGCAAGGGTTGGCATGGTTCCGGTACCGTC -TGACGCCTTCGGGTGAGGCGCATCGTCAGGCGATTCATCCTGGAGACGATCCACAGCCCTTAATTGAACGTGGTTGGGTA -GTGGCGCAACCCATCACCTATGAAGATTTCTTGCCCGTTAGCGCGGCGGGGATCTTCCAGTCAAATCTGGGTAATGAAAC -GCAGACACGCAGTCACGGTAATGCCAGTCGCGAAGCATTTGAGCAGGCGTTGGGTTGTCCGGTTTTGGATGAGTTCCAGC -TTTACCAGGAAGCGGAAGAACGCAGTAAACGTCGCTGTGGTTTGCTTTAAAATCTGACCATCCGCCTTTGCAAAAATTTG -CCTGATTTTACAAACGAATCAGGCTCATCCCATCGACATAAAAAAAATGCCGATTTATGCATATTCTCTCAGTTCAACAA -TTGGATTATTAATAAATATTGTCTAGAGTGAGCGGTCATAAATAAGCACTTTCTTGCCGCTGAAAACGACCAGCGCGGGA -CCATTCACAACACCAGAAGGACTCACTTTCAGGTATGGATCGTAGACGATTTATTAAAGGTTCAATGGCTATGGCCGCCG -TGTGCGGTACCAGCGGCATTGCTTCTCTTTTTTCTCAGGCGGCATTCGCGGCAGATTCTGATATTGCCGACGGGCAAACC -CAGCGTTTTGACTTCTCCATTCTACAGTCAATGGCGCACGACTTAGCGCAAACAGCGTGGCGTGGTGCGCCTCGTCCGTT -ACCTGACACGCTGGCGACAATGACGCCGCAGGCTTATAACAGTATTCAATACGACGCCGAAAAATCGCTCTGGCATAACG -TTGAGAACCGTCAACTGGACGCTCAGTTCTTCCATATGGGAATGGGATTCCGTCGCCGCGTTCGTATGTTTTCTGTAGAT -CCAGCAACACATCTGGCGCGTGAAATTCACTTTCGCCCGGAGTTGTTCAAATACAACGATGCAGGTGTTGATACAAAACA -ATTAGAAGGGCAAAGCGATCTCGGCTTTGCCGGTTTTCGCGTGTTTAAAGCCCCCGAACTGGCGCGCCGTGATGTAGTAT -CATTTCTCGGCGCGAGTTATTTCCGCGCCGTTGATGATACATATCAATACGGTTTGTCGGCCCGCGGCCTGGCGATCGAC -ACTTACACCGACAGTAAAGAAGAGTTCCCCGACTTTACCGCCTTCTGGTTTGATACGGTAAAACCGGGGGCAACTACCTT -TACCGTTTATGCGTTGCTCGATAGCGCCAGCATTACTGGTGCCTATAAGTTCACTATCCATTGTGAGAAAAGTCAGGTGA -TTATGGATGTGGAAAATCACCTGTATGCGCGCAAAGACATTAAACAGCTGGGCATTGCGCCGATGACCAGTATGTTCAGC -TGCGGTACTAATGAACGTCGGATGTGCGATACAATTCATCCGCAAATTCATGACTCTGATCGTCTGTCCATGTGGCGGGG -CAACGGCGAGTGGATTTGCCGTCCGCTGAATAATCCGCAAAAATTGCAGTTCAATGCTTACACCGACAACAACCCGAAAG -GGTTTGGTTTATTGCAACTGGATCGTGACTTCTCCCATTATCAGGACATTATGGGCTGGTATAACAAACGCCCAAGTCTG -TGGGTGGAACCGCGTAACAAGTGGGGTAAGGGCACCATCGGCCTGATGGAAATCCCAACAACGGGCGAAACGCTGGATAA -CATTGTCTGCTTCTGGCAGCCAGAAAAAGCTGTAAAAGCAGGTGATGAGTTTGCATTCCAGTATCGTCTGTACTGGAGTG -CGCAACCGCCTGTTCATTGCCCATTAGCGCGCGTTATGGCGACGCGTACCGGCATGGGCGGTTTCTCGGAAGGTTGGGCG -CCAGGTGAACACTATCCCGAAAAATGGGCGCGTCGTTTTGCCGTCGATTTCGTTGGTGGTGATCTGAAAGCTGCCGCGCC -AAAAGGCATTGAGCCGGTGATTACGCTTTCCAGTGGGGAAGCGAAGCAAATCGAAATTCTCTATATTGAACCCATCGATG -GTTATCGTATTCAGTTTGACTGGTATCCGACTTCGGACTCCACTGATCCGGTCGATATGCGGATGTATCTACGTTGTCAG -GGGGACGCTATCAGTGAAACATGGCTGTATCAGTATTTCCCGCCAGCGCCGGATAAACGTCAGTATGTTGACGACCGCGT -GATGAGTTAATCGTTTTTTCTTCGGCACCTTCTTCGGGAGGTGCCGTCTGGTTAAACACGATCCCGCTCGCATTTTTCCC -TAAGTTAAATGAGTAATCTGATGGTGTGTATTTCAGATACACCTTGTCAGCCACTAACAGGGAGTGCGTATGTTTCCAGA -ATACCGAGATTTAATATCCCGTCTGAAAAACGAAAATCCTCGCTTTATGTCCTTGTTCGATAAACACAATAAACTTGATC -ATGAAATTGCCAGAAAGGAAGGTTCCGACGGTCGAGGGTACAATGCGGAAGTGGTCCGCATGAAAAAACAAAAGCTACAG -TTAAAAGATGAGATGCTCAAAATCCTGCAGCAGGAGAGCGTCAAAGAGGTGTAAACTTTCCTAAGCCGCCAGCCAGGCGG -CTTTTTTAACAACTGCATGGATTGACTGGAGATAAGATGACTGAAACGATAAAAGTAAGCGAATCACTTGAATTACATGC -TGTTGCAGAAAATCACGTCAAACCTCTTTATCAGTTAATCTGTAAAAATAAAACCTGGTTACAGCAGTCGCTAAACTGGC -CGCAGTTTGTTCAAAGTGAAGAGGACACGCGAAAAACGGTGCAGGGTAATGTGATGTTGCATCAACGCGGCTATGCCAAA -ATGTTCATGATTTTCAAAGAAGATGAACTTATCGGCGTTATCTCGTTTAATCGTATTGAACCACTGAATAAAACCGCTGA -AATAGGCTACTGGCTGGACGAATCTCATCAGGGGCAGGGGATCATTTCTCAGGCGCTGCAGGCATTGATTCATCATTACG -CCCAGTCTGGTGAACTTAGACGCTTCGTGATCAAATGTCGGGTGGACAATCCGCAAAGCAACCAGGTCGCTTTGCGCAAT -GGTTTTATCCTTGAAGGTTGCCTGAAACAGGCTGAGTTCCTGAATGATGCCTATGATGATGTGAACTTATACGCGCGTAT -TATCGATTCACAATAACCCTGCCAGCGGCGTTCGCGTAATGCGCTCCTCGCCGTTAATGACTTTTGGACCACGGACATGA -ACCGTGTCGCCATCAAAGGCTTCAACGACGGCGTGGTCGGTTAACTCCACATGGTTTTCAATTATCACCGCACCTGTAAT -ACGGCTCTCACCTTGTATGACAACGTGCTCGTCGAGCAGAATCGGTCCGCCACGTACCACGGCATTTCCGCCAACCAAGA -CATGATGTTTTAACACACAATTACCTTCCACAATGGCATATTCCGCCACCTGCGAACTGTAATGAATCGTCGGAATGGCA -TCTTCTTCTATGCCAGCTTTCACCTGCGCGTGACCGTAGACTTTAGCGCAATCGCATAGCCAGACATTGTTCTCTTCATT -ACCTTCAATACTGGCAAAATCAAAAACTTCGGCGCGATGTTCAATAAAAGCATACCGGACGACGGCATCGCCATAAATTT -GTGCCTGGTGGACAATACGCGAGGCGCTAACCCTTGCGCGATCATAAATTTGGAGCAGGAGTTGATGGTCGGGCGTTAAG -CCTTGTGCGGCGACGATCATAGAATGTTGATCAATTAAGGCGTGACCAAATATTCTACATTGCCCGTAAACTAATGAGTC -ATGAATGGTGACGCTGTCACTTATATATGCACCCTGGCTGATTTCACTATTATCGATCCAGACGTTATCCGTTGCGTAAA -CCTCTCCCCACAGCACGCTGGTGCCGGTGATACGCGTATTACCGGAAATCACCGCTCCGCCGAACGCAATAGCATTCTGG -TCGTAAATCCAGCAATTTCCTTCTTGTGCTAACACCGTTTCGCGATCGATCCAGCCGCCAGCGGTTCCTGCTATCACATC -GTTAAAATCGCTAATGGCGATAATCTGCCGTAATAACACATTTTTTTTAGTGCCATCTTCCTGATAACTAAAGGCTCGCT -GTTCTTCACTTAGACGATATTTGCGCATAGCGTTTTCCCACAGGTGACTTACTATAACCGTAGCAAATTCTGCGGCTCTG -GCTATGCTCGAGAAAATTCCATAAAATGCATTTCAAATATACTTTATAAATTAAACAAAATGAGTAAGAAGATGCAGAGC -GATAAAGTGCTCAATTTGCCGGCAGGCTACTTTGGTATTGTGTTGGGGACGATAGGGATGGGATTTGCCTGGCGCTATGC -CAGCCAGGTTTGGCAGGTCAGCCACTGGTTAGGGGATGGGCTGGTGATTCTGGCGATGATCATCTGGGGATTATTGACTA -GCGCATTTATTGCCCGACTCATACGCTTTCCGCATAGCGTGCTGGCGGAAGTTCGCCATCCAGTGCTGAGCAGTTTTGTG -AGTTTGTTTCCGGCAACGACGATGCTGGTGGCGATTGGTTTTGTTCCGTGGTTTCGCCCACTGGCGGTGTGCCTGTTCAG -TTTTGGTGTCGTGGTTCAGTTGGCTTATGCCGCCTGGCAAACTGCGGGATTATGGCGCGGATCTCACCCTGAAGAAGCTA -CCACGCCTGGACTGTATCTGCCGACAGTTGCCAACAACTTTATCAGCGCAATGGCCTGTGGTGCGTTGGGCTACACCGAC -GCCGGTCTGGTGTTTTTAGGCGCAGGCGTTTTCTCATGGCTAAGCCTTGAACCGGTGATCTTGCAGCGTCTGCGCAGTTC -GGGAGAATTACCCACGGCACTGCGGACATCACTCGGCATTCAGCTCGCTCCTGCGCTGGTGGCTTGTAGTGCCTGGCTGA -GCGTCAACGGCGGCGAGGGTGACACGCTGGCGAAAATGCTTTTCGGTTATGGACTGCTGCAACTGCTGTTTATGCTACGT -CTGATGCCATGGTATCTCTCCCAGCCATTTAATGCTTCATTCTGGAGTTTCTCGTTCGGCGTATCTGCACTGGCAACCAC -CGGTTTGCATCTGGGGAGTGGCAGCGATAATGGATTTTTCCATACGCTGGCGGTGCCGCTGTTTATCTTTACCAATTTTA -TTATTGCAATACTGCTCATCCGTACTTTTGCGCTTCTGATGCAGGGAAAATTGTTAGTCAGAACCGAGCGCGCCGTTTTA -ATGAAAGCAGAGGACAAAGAATGATCATTCGTGACGAAAACTATTTTACTGATAAATATGAATTAACCCGCACACACTCT -GAAGTACTGGAAGCGGTGAAAGTGGTTAAACCGGGTAAAACGCTGGATCTGGGCTGTGGCAATGGTCGTAACAGTCTTTA -CCTGGCAGCCAATGGTTATGATGTTGACGCATGGGATAAAAATGCCATGAGTATCGCCAACGTCGAGCGCATTAAATCCA -TTGAAAATCTGGATAATTTACACACCCGAGTCGTTGATCTGAATAACCTCACATTTGATAGACAGTACGATTTTATTCTT -TCGACTGTGGTGCTGATGTTCCTTGAGGCTAAAACCATCCCCGGGTTGATTGCCAATATGCAACGTTGCACTAAACCTGG -TGGTTACAACCTGATTGTGGCGGCGATGGATACCGCTGATTATCCATGTACCGTCGGCTTCCCGTTTGCCTTCAAAGAGG -GAGAATTACGTCGATATTACGAAGGCTGGGAGAGGGTGAAATACAATGAAGACGTCGGCGAGCTGCACCGCACCGACGCC -AACGGTAATCGTATTAAACTGCGTTTCGCCACGATGCTGGCACGTAAAAAATGACCCGGTAAGCACAAAACGCGTGAAAA -TTCCCCACGCTGAGATGATTTACTGTTCTTCTTTTCGGTAAGCATATTTTTTATCGAAGGGATGTGAAATTAATCACAGT -AGTCGAAGTTTTTAGCAGCTTAACTTACTGAAATTTAAGTACTGATGATTGACTTAGCCCCTTTTTCGGCATTGACTATG -TCGTCTGAAAAGGGGCTGAAAAATTTATTTTCACCAACACTTTTTTTGCCACAACACGAAGCGGCGCTTTTTGCTATAAC -TTAGAAAGTAATATAATCATCTCAGGAAACTATTCATGCGTACCACATCATTTGCGAAAGTTGCAGCTTTATGCGGCTTA -TTGGCTCTGTCTGGTTGTGCATCTAAAATCACCCAGCCAGATAAATATTCTGGTTTTTTAAACAATTACTCTGATTTAAA -AGAAACAACCTCGGCTACAGGTAAACCTGTTTTACGTTGGGTAGACCCGAGTTTTGATCAAAGCAAATATGACAGCATCG -TCTGGAACCCAATCACTTATTATCCGGTACCGAAACCGTCGACCCAGGTAGGGCAGAAAGTTCTGGATAAAATTTTGAAC -TATACCAACACCGAAATGAAAGAAGCGATAGCGCAGCGTAAACCACTGGTTACCACCGCTGGGCCGCGTAGTCTGATTTT -CCGTGGGGCCATTACCGGTGTAGATACCAGCAAAGAAGGGCTGCAATTCTATGAAGTGGTTCCTGTTGCATTAGTGGTTG -CGGGGACGCAAATGGCTACAGGCCACCGTACCATGGATACTCGCCTCTATTTTGAAGGTGAGCTGATTGATGCAGCGACT -AATAAACCGGTTATCAAAGTCGTTCGTCAGGGCGAAGGTAAAGACCTGAATAACGAAAGTACGCCAATGGCTTTCGAAAA -TATTAAACAAGTTATTGATGACATGGCGACCGATGCCACCATGTTTGACGTTAACAAAAAGTAGTTCCAGACGCGCCATC -GTTAGATGGCGCTTTTTATCCGGTGCGCCGTAAAACCCCATCCTTCAGGGCGGGGATATAAGGCGCGGTTTTCCACCTGA -CCAGGTGTTTGCTGTTGTTCAATGTATTGGCGGATGACGGATATTGGCGCACCTCCGCAGCTACTGGCAAAATAGCCAGG -ACTCCACAAAACGCCTTTGTAGTAATACCTGAATGCAATATCTGGTCGATCTCGTCGCAGTCACCTACCCGATACGCCTT -TGAGGCTGTTTACCAGACTGGATATCGCCAGTTTGGGAGGATAGTTAATTAACAAATGGACGTGATCTGGTTCGCCATCC -ATTTCAACCAGTTCAGCTTCAAAATCAGCACATACATTTGAAAAGTAAGTGCGTAGTTTTTCTGTCGCGTCATGGTCAAA -AATCTGGCGTCGGTATCTGGTGACAAAGAGCAGGTGAACATGCATCAGGAAAACACAATGCCTTCCACGCCGGATATCGG -TTTCTTTTTTCACAGACCAAAGTATCATTTGACCTGTGAAACGATTACAGGCATTTAAATTCCAGTTAAGACCCGGTGGT -CAACAGGAGTGTGAAATGAGGCGCTTCGCAGGCGCATGTCGTTTCGTTTTCAATCGTGCTCTGGCACGTCAGAATGAGAA -TCATGAGGCCGGTAATAAATACATCCCTTACGGGAAAATGGCTTCCTGGCTGGTTGAGTGGAAAAATGCCACTGAAACGC -AATGGCTTAAAGATTCTCCCTCACAGCCATTGCAACAGTCACTGAAAGACCTTGAGCGGGCTTACAAAAACTTCTTCCGG -AAGCGGGCTGCTTTTCCCCGATTCAAAAAGCGGGGACAGAATGATGCATTCCGCTACCCGCAGGGCGTTAAGCTCGATCA -GGAAAACAGCCGTATTTTTCTGCCGAAACTGGGCTGGATGCGCTACCGGAACAGCCGTCAGGTCACGGGTGTTGTGAAAA -ATGTCACTGTCAGCCAGTCCTGCGGTAAGTGGTACATCAGTATTCAGACAGAAAGTGAAGTATCAACTCCGGTTCACCCT -TCAGCATCAATGGTCGGGCTGGATGCTGGCGTGGCTAAACTCGCCACGCTGTCAGATGGCACAGTCTTTGAGCCTGTAAA -CAGTTTTCAGAAAAACCAGAAGAAGCTGGCGAGACTTCAGCGACAGTTAAGCCGCAAGGTCAAATTCAGCAACAACTGGC -AAAAGCAGAAACGCAAAATACAGCGACTGCATTCCTGTATCGCAAATATCCGCAGGGACTACCTTCACAAAGTCACAACG -GCCGTCAGCAAAAACCACGCAATGATAGTCATTGAGGATTTGAAGGTCAGCAACATGTCAAAGTCAGCAGCGGGTACGGT -CAGCCAGCCGGGGCGCAATGTCCGGGCAAAATCAGGTTTAAACCGTTCGATACTGGATCAGGGCTGGTATGAAATGCGCC -GCCAGCTTGCGTATAAGCAGCTCTGGCGTGGCGGTCAGGTGCTTGCTGTTCCGCCAGCGTATACAAGCCAGCGTTGCGCG -TACTGTGGTCATACAGCGAAAGAGAACCGCCTGTCACAAAGTAAATTCAGATGCCAGGTATGTGGATATACAGCGAACGC -CGATGTAAATGGCGCTCGCAACATTTTAGCGGCGGGGCACGCCGTTCTTGCCTGTGGAGAGATGGTGCAGTCAGGCCGCC -CGTTGAAGCAGGAACCCACCGAAATGATTCAGGCGACAGCCTGAACGTAGCAGGGATCCACGTCCTTCAGGGCGTGGAGG -ATGTCAATATCGGTTTCTGTCAGCGATTAAATTCAACACCACGTAACAAACGCCTCCGGCAATTAATCCCCAAAACGCAG -AACCAATCCCGACCAGCGTCAATCCACTTGCCGTTACCAGAAATGCCACCACCGCCGCGTCTCGCTCACGCTCATTATGC -AGCGCCTGATACAAACTGCCGCCGATGGTACTTAACAGCGCCAGACCTGCCAGCATCTGGATCCAACTTACGGGCAGGGC -AGCCATCATCCCGGTAATGGCACTACCAAACAGACCTGCGAGCAAATAGAAAATGCCTGCAACGGCAGCGGCCAGCCAAC -GTTGATCTTTATCCGGATGCGCTTCCGGGCTTTGGCAAATAGCCGCGGTGATTGCCGCAATACCGACGGAATAAACGCCG -AAAGGGGAAAAAACCAGTGCCAGCAATCCAGTAAATACAATTAATGGCGAAACAGGAGCCGAATATCCAGCTGCTTTCAT -TGCTGCGATACCCGGTGCGTTTTGCGATGCCATCGTCACCAGAAAAAGGGGGAGTGCAACGCTCAGGCTGTGAGCAAACG -AAAAATCAGGGGTAATATAAGTGGGGAGAACGGGTTTAAAGACAACATCAGTTGTGACAACGTCACCTTGCGCGATGACG -ATCACGATCCCAATAATCATCGCGGCAATTACCGCATAGCGCGGCGCAACGGCCTTGGTTGCCAGCCATACCAGCAACAT -ACTTCCACACAACGTAAATTGACCGTCCAGACTGGCAAACGCCTGTAAACCAAAGCGTAATAAAATCCCGGCAAGCATTG -CCGCCGCAAGCGAGTGCGGAATAATGCGCATCAGACGAGCAAAGAGTCCCGTTATGCCGCAGAGGACTATTAGCGCGTTG -GTGACAATAAAAACGCCGATGGCTTCGTTAAGTGTTAGTCCCTGCAATCCGGTGACCAACAAAGCCGCGCCAGGCGTTGA -CCATGCGGTGAGAACAGGTACGCGATACCATAATGTCAGAGTCAGCGTACTGACGCCCATTGCCAGCCCCAGCGCCGTCA -TCCAGCCAGAGATTTGTGCAGTGGTGGCTCCGGCGACAATCGCTGCTTGCCAGATTATTGCCGCTGAACTGGCGTAGCCA -ATTAATACCGCCAGAAACCCCGCCAGTAGCGTGGGTGGAGGAATAGAAAACAGACGCATAGTCACCTCGTGCGTTATAGC -GTACAGGCACCGTAGCATTTGTCCGTTATAACGCACAAGTGATAAACTTCCGTTTTGCCGGAGGAGTCGCATGGAAAATC -TCGCTCGCTTTTTATCCACCACACTTAAACAACTACGCCAGCAGCGCGGCTGGAGTCTTTCGCGACTGGCAGAAGCGACG -GGCGTTTCTAAAGCAATGTTAGGGCAGATTGAGCGTAATGAGTCCAGTCCGACGGTCGCGACATTATGGAAAATTGCCAC -CGGGTTGAACGTACCATTTTCAACATTTATTTCTCCGCCGCAGTCCGCTACGCCTTCAGTTTATGATCCACAACAGCAGG -CGATGGTGATCACTTCGCTGTTTCCTTATGATCCACAACTCTGCTTTGAACACTTCTCGATTCAGATGGCATCTGGTGCA -ATAAGCGAATCGACGCCCCATGAGAAGGGGGTAATCGAACATGTCGTCGTCATTGATGGACAACTTGATCTGTGCGTTGA -TGGGGAATGGCAGACCCTTAATTGTGGGGAAGGCGTTCGATTTGCTGCAGACGTCACGCATATCTATCGTAATGGTGGGG -AGCAAACCGTACATTTTCATTCCCTCATCCATTACCCGCGCAGTTAAGCGGGAAAACTATTTCGCAACGTCGCGCTTGTG -GCTAAAATAGCCGCCATTTTTCAGCTACTGGATAAGAATGTGACCGTATCTTCTCATCGACTTGAACTGTTAAGCCCGGC -ACGCGATGCCGCCATTGCCCGCGAAGCTATTTTGCACGGTGCCGATGCTGTTTATATCGGCGGCCCTGGTTTTGGTGCCC -GTCATAATGCCAGTAATAGCTTGAAAGATATTGCCGAGCTGGTGCCGTTTGCCCATCGTTATGGTGCAAAAATTTTCGTC -ACGCTTAACACCATTTTGCATGATGATGAGCTGGAACCCGCGCAACGGCTGATTACTGACCTCTACCAGACCGGTGTCGA -TGCGCTGATTGTTCAGGATATGGGGATTCTGGAACTTGATATTCCGCCGATTGAACTGCACGCCAGTACGCAGTGCGACA -TTCGTACAGTTGAAAAAGCGAAGTTCCTCTCTGATGTTGGCTTCACGCAGATTGTGCTGGCGCGAGAGCTGAATCTTGAT -CAGATCCGCGCGATTCACCAGGCTACGGACGCGACCATTGAATTCTTTATTCATGGGGCACTGTGCGTGGCCTATTCGGG -TCAGTGCTACATTTCTCATGCGCAAACAGGGCGTAGCGCCAACCGTGGCGATTGCTCGCAGGCGTGCCGTTTGCCATACA -CATTGAAAGACGATCAGGGGCGGGTGGTTTCCTATGAAAAACATCTGCTGTCGATGAAAGATAACGATCAGACTGCCAAC -CTCGGCGCGCTGATTGATGCTGGTGTACGCTCCTTCAAGATTGAAGGGCGTTACAAAGATATGAGCTACGTGAAGAATAT -CACCGCCCATTATCGCCAGATGCTTGATGCCATTATTGAAGAACGTGGCGATCTGGCGCGCGCTTCATCAGGTCGTACTG -AACATTTCTTTGTTCCATCGACGGAAAAGACTTTCCACCGTGGTAGCACAGATTATTTTGTGAATGCCCGTAAAGGCGAT -ATTGGCGCGTTCGATTCGCCGAAATTTATCGGCCTGCCGGTAGGCGAAGTAGTGAAAGTGGCGAAAGATCATCTCGATGT -TGCCGTTACCGAGCCACTGGCAAATGGCGATGGCCTGAACGTGTTGATTAAACGTGAAGTCGTCGGTTTTCGTGCCAATA -CGGTCGAGAAAACCGGAGAAAATCAGTACCGCGTCTGGCCCAATGAAATGCCAGCAGATTTGCACAAAATTCGTCCACAT -CACCCACTAAACCGTAATCTTGATCATAACTGGCAGCAGGCACTGACAAAAACCTCCAGCGAACGTCGGGTGGCGGTAGA -CATTGAACTGGGCGGCTGGCAGGAACAACTGATTCTGACCCTCACCAGTGAAGAGGGTGTCAGCATCACGCATACGCTGG -ACGGGCAGTTCGACGAAGCCAATAACGCCGAAAAAGCAATGAACAATCTGAAGGATGGTCTGGCAAAACTGGGGCAAACC -CTCTATTACGCCCGCGATGTGCAAATTAATTTGCCGGGGGCGCTGTTTGTACCAAACAGTCTGTTAAACCAGTTCCGCCG -TGAAGCTGCTGACATGCTGGATGCTGCGCGTCTTGCCAGTTACCAGCGCGGCAGCCGTAAACCGGTTGCTGATCCTGCGC -CGGTTTATCCGCAAACGCATCTGAGTTTCCTCGCGAACGTATACAACCAGAAAGCGCGTGAATTTTATCATCGCTATGGT -GTGCAGCTGATTGACGCGGCGTATGAAGCACATGAAGAGAAGGGCGAAGTCCCGGTGATGATCACCAAGCATTGTCTGCG -CTTTGCCTTTAATCTGTGCCCGAAACAGGCGAAAGGCAATATCAAAAGCTGGAAGGCGACGCCAATGCAACTGGTTAACG -GCGATGAAGTATTAACGCTAAAGTTTGATTGCCGCCCATGCGAGATGCACGTCATTGGCAAAATCAAAAATCACATACTG -AAAATGCCGTTACCGGGAAGCGTAGTGGCATCCGTAAGTCCGGATGAGCTGCTGAAAACATTGCCGAAGCGAAAAGGGTA -AAACGCCAGTTTTCTGGTTACTCACAACTTATTGAATCTGCATGATATTGCCTGCCGGGTAAGGCGTTACGCCGCATCCG -GCATCAAATGACTCAACGTTGTCCCGCTTCTGGTTTGCGCGATTTTTGCCAGTAAAAATGCTCGCGCAAACCTTCCGCCG -ACTCTTCCGCCACAGCACGCAATTCATCGCTGTCCGCTTCATGACGCAGCTGATGATCCACATTCTTTACCCACACAAAT -TCATGTCCTTTGTGCCCTGCCATGAGTTGTCCTGAAAACAGAGCACACGTTAATAAGACAACCGATAACGCCTTCGTAAA -CATCCTGCCACCTTTTTCTTACCTTTTGCCGCTATGATGCCGATCGTTTCTTGAGGTTATTATTCAGTTTTGCAAATTAG -CGCAAAGAAATTCTGGAATCTTCCTTCCTGATTTTGCATTGCATTCTGCCGTTGCGGCGATTTAGTGCTATTTTCGAGCA -AATTACACACGGAGGTAAACACTAATGTTTACTTTGTTGATATACTCAGCGGCAGGGAGGCGATGTGAAACAAAGCGAGT -TCAGACGTTGGCTCGAATCTCAGGGCGTCGATGTAGCGAATGGCAGCAACCATTTGAAACTCAGGTTTCATGGGAGGCGC -AGTGTCATGCCGCGTCACCCCTGCGATGAGATTAAAGAACCATTGCGTAAAGCAATCCTGAAACAACTCGGTTTGAGTTA -ATCGCCAATTAAAAAGGTTAATGACATGCGAGAGACAGTCGAAATTATGCGTTATCCCGTCACTCTTACACCCGCGCCGG -AAGGCGGTTATATGGTTTCTTTTGTGGATATCCCTGAAGCGTTGACCCAGGGCGAAACTGTCGCTGAAGCGATGGAAGCG -GCAAAAGATGCTTTACTGACCGCATTTGATTTTTATTTTGAAGATAACGAGCTTATCCCTTTACCTTCGCCATTAAATAG -TCACGATCACTTTATTGAAGTACCTTTGAGCGTCGCCTCTAAGGTATTGCTGTTAAATGCTTTTTTACAGTCAGAAATCA -CTCAGCAAGAGTTAGCCAGGCGAATTGGCAAACCTAAACAGGAGATTACTCGCCTATTTAACTTGCATCATGCGACAAAA -ATCGACGCCGTCCAGCTCGCGGCAAAGGCGCTTGGCAAAGAGTTATCGCTGGTGATGGTTTAATTACAGTTAACGAAAAG -TTGTCATTTTTAACAACTGATATAGACTGCCGAATCATCTGCACATAATTACGATTCGATAATGAAAAAATACCAGCAGC -TTGCAGAACAATTACGCGAGCAGATTGCGTCGGGTATCTGGCAACCCGGCGATCGTTTGCCTTCGTTGCGTGACCAGGTG -GCGCTTTCAGGCATGAGCTTTATGACTGTCAGCCATGCCTATCAGTTGCTCGAAAGTCAGGGATATATTATCGCACGACC -GCAGTCGGGTTATTACGTTGCGCCACAGGCAATAAAAATGCCGAAAGCGCCAGTCATTCCAGTCACTCGAGATGAAGCAG -TCGATATCAACACTTATATTTTTGATATGTTGCAGGCCAGTCGCGATCCGTCGGTCGTTCCGTTTGCCTCGGCCTTTCCC -GACCCGCGACTTTTCCCCCTCCAACAACTAAACCGCTCGCTGGCGCAGGTAAGCAAAACCGCCACAGCGATGAGCGTGAT -TGAAAACTTACCGCCAGGAAACGCAGAACTGCGTCAGGCTATTGCTCGTCGCTATGCCTTACAGGGCATCACCATTTCTC -CTGATGAAATTGTCATTACTGCCGGGGCGTTAGAGGCATTAAACCTCAGTTTGCAAGCGGTAACTGAACCGGGCGATTGG -GTGATAGTAGAGAATCCTTGTTTCTACGGTGCGTTGCAGGCGCTGGAGCGGCTACGGCTGAAGGCGTTATCGGTGGCGAC -GGATGTTAAAGAAGGGATAGATCTTCAGGCGCTGGAACTGGCGTTGCAGGAGTATCCGGTGAAAGCGTGCTGGCTGATGA -CTAATAGCCAGAATCCACTCGGATTTACCTTAACGCCGCAAAAAAAAGCACAACTGGTGGCGTTGCTCAATCAGTACAAC -GTAACGCTGATTGAAGATGACGTTTACAGCGAACTTTATTTTGGACGGGAAAAACCGCTGCCTGCGAAAGCGTGGGATCG -CCACGATGGCGTTTTGCATTGCTCTTCGTTTTCGAAATGTCTGGTGCCTGGTTTTCGTATTGGTTGGGTCGCCGCCGGAA -AACATGCACGTAAAATTCAACGCTTGCAGTTGATGAGTACGCTTTCCACCAGCTCACCGATGCAACTTGCGCTGGTGGAT -TACCTTTCCACGCGCCGATACGACGCCCATCTTCGTCGCCTGCGTCGCCAGCTTGCGGAACGTAAACAACGTGCCTGGCA -GGCACTGCTGCGTTATCTGCCTGCGGAAGTGAAAATTCATCATAATGACAGTGGTTACTTTCTCTGGTTGGAGCTCCCCG -AGCCGTTAGATGCCGGCGAATTAAGCCTGGCGGCACTGACGCATCATATCAGTATTGCGCCGGGTAAAATGTTTTCTACC -GGTGAAAACTGGTCACGTTTTTTCCGTTTTAATACCGCGTGGCAGTGGGGAGAGCGTGAAGAACAGGCGGTAAAACAATT -AGGCAAACTTATTCAAGAACGGCTGTAATAGCGTTTAATTTAATTCCTCTTAGATTGGGTAATATGAATTTCGAATAGCA -GTCATATTTCCTAACTCCTTGACTATACTCCAGAAGATAACCTTACAGACGGCATAATGCGCGGTAGCTCACAACCTGAA -TAAATTTTCTCAGGGGCGAAGGTGTGCCTGCAAGCCGCCGTCTATGGTTAAACAAGGAGATATTTTTACGGCACGGCGGC -TGAACAATTAATTACGACAGGAGTAAGACCTTATGAGCAAGACATTTGCCCGCAGCAGCCTGTGTGCGCTCAGCATGACA -ATAATGACCGCTCACGCCGCCGAACCGCCTACCAATTTAGATAAACCGGAAGGGCGACTGGATATTATCGCCTGGCCGGG -ATACATCGAACGCGGACAAACTGATAAACAATACGACTGGGTAACGCAGTTCGAAAAAGAGACAGGCTGCGCGGTGAATG -TGAAAACCGCCGCGACTTCCGATGAAATGGTCAGTCTGATGACCAAAGGGGGTTACGATCTGGTTACGGCATCCGGCGAT -GCCTCGCTGCGTTTGATTATGGGTAAACGCGTGCAGCCGATTAATACCGCATTGATTCCCAACTGGAAAACGCTCGATCC -GCGCGTGGTTAAAGGCGACTGGTTTAATGTTGGCGGCAAAGTTTACGGCACACCTTACCAATGGGGGCCGAACCTGCTGA -TGTACAACACTAAAACCTTCCCGACGCCGCCGGATAGCTGGCAAGTGGTTTTTGTTGAGCAAAATCTGCCGGACGGCAAG -AGCAATAAAGGCCGCGTTCAGGCTTATGATGGCCCTATCTATATTGCGGACGCTGCGTTGTTCGTTAAAGCCACTCAGCC -GCAGTTGGGCATCAGCGATCCGTATCAACTCACCGAAGAACAGTACCAGGCGGTGCTGAAAGTGCTGCGCGCTCAACACA -GTTTGATCCATCGCTACTGGCATGACACTACCGTGCAAATGAGCGATTTCAAAAACGAGGGTGTGGTTGCTTCCAGTGCC -TGGCCCTATCAGGCCAACGCCCTGAAAGCCGAAGGCCAGCCTGTTGCTACCGTTTTCCCGAAGGAGGGTGTTACCGGTTG -GGCTGATACCACCATGCTGCATAGCGAAGCGAAACATCCGGTTTGCGCCTACAAATGGATGAACTGGTCATTAACGCCAA -AAGTGCAGGGCGATGTGGCGGCCTGGTTTGGCTCGTTACCGGTAGTGCCGGAAGGGTGTAAAGCCAGTCCGTTATTAGGC -GAAAAAGGTTGTGAAACCAACGGTTTTAACTATTTCGACAAAATCGCCTTCTGGAAAACGCCTATAGCAGAAGGGGGCAA -GTTTGTTCCCTACAGTCGCTGGACGCAGGATTACATTGCCATTATGGGCGGTCGCTAACTTCGCTGGGGTGCTTTATGAC -GTACGCAGTGGAGTTTGACAACGTCTCGCGGTTGTACGGTGACGTGCGCGCAGTAGATGGCGTCAGTATTGCGATAAAAG -ATGGTGAGTTCTTCTCTATGCTGGGGCCGTCCGGCTCCGGCAAAACCACCTGCCTGCGCCTGATTGCTGGCTTCGAACAG -CTTTCCGGCGGGGCTATCTCTATCTTTGGTAAACCCGCCAGCAATCTGCCACCGTGGGAGCGGGACGTGAATACTGTCTT -TCAGGACTACGCGCTATTTCCGCATATGTCGATTCTTGACAATGTCGCCTATGGGCTGATGGTCAAAGGCGTGAATAAAA -AGCAGCGGCACGCAATGGCGCAAGAGGCGCTGGAGAAAGTGGCGTTGGGGTTTGTACATCAACGTAAACCGTCACAACTT -TCTGGTGGTCAGCGCCAGCGGGTTGCTATCGCCAGAGCATTGGTGAATGAACCGCGCGTATTGCTGTTGGATGAACCGCT -CGGCGCACTGGATCTCAAATTGCGTGAGCAGATGCAGCTGGAACTGAAAAAACTGCAACAGTCTCTCGGTATCACTTTTA -TCTTCGTTACCCACGATCAGGGCGAAGCGTTATCGATGTCCGATCGTGTGGCGGTTTTCAATAATGGACGCATTGAGCAG -GTCGATTCCCCGCGCGATCTCTATATGCGCCCGCGCACGCCGTTTGTTGCCGGGTTCGTTGGTACATCGAATGTTTTTGA -TGGACTGATGGCAGAGAAACTTTGTGGCATGACGGGAAGCTTCGCCCTGCGACCGGAACATATCCGCCTCAACACCCCTG -GTGAACTGCAGGCCAATGGCACGATCCAGGCGGTGCAATATCAGGGCGCGGCAACTCGTTTTGAACTGAAATTGAACGGC -GGTGAAAAACTGCTTGTGAGTCAGGCCAATATGACAGGCGAAGAACTGCCTGCCACGCTCACGCCCGGACAACAGGTGAT -GGTTTCCTGGTCGCGTGATGTGATGGTGCCGCTGGTTGAGGAGAGGTGAATGGCGATGAATGTATTGCAATCACCTTCAC -GTCCAGGTCTGGGTAAGGTGTCCGGTTTCTTCTGGCATAATCCGGGGCTGGGGCTGTTTTTACTGCTGCTTGGCCCGCTA -ATGTGGTTTGGCATTGTCTATTTCGGCTCGCTGCTGACACTGTTATGGCAGGGATTTTATACTTTTGACGATTTCACCAT -GTCGGTAACGCCGGAACTGACGCTGGCGAATATCCGTGCGCTGTTTAATCCGGCGAATTACGACATCATTCTCCGCACGC -TGACTATGGCTGTGGCAGTCACTATCGCCAGCGCCATTCTGGCTTTTCCAATGGCGTGGTATATGGCGCGCTATACCAGC -GGGAAAATGAAAGCGTTTTTTTATATTGCGGTAATGTTGCCGATGTGGGCGAGCTACATTGTTAAAGCCTATGCCTGGAC -GTTATTGCTGGCAAAAGATGGCGTGGCTCAGTGGTTTTTACAACATCTTGGGCTGGAACCACTGCTGACTGCGTTCCTTA -CATTACCTGCGGTGGGCGGAAATACGCTGTCAACTTCCGGGCTGGGGCGCTTTCTGGTGTTTCTCTATATCTGGTTGCCG -TTCATGATCCTGCCCGTTCAGGCGGCGCTTGAGCGTTTGCCGCCGTCATTGTTGCAGGCGTCGGCTGATCTCGGCGCACG -TCCACGACAAACCTTTCGCTATGTGGTGCTGCCGCTGGCAATCCCGGGTATTGCCGCTGGCTCTATCTTTACCTTCTCAC -TCACACTGGGCGATTTTATCGTCCCGCAGCTGGTTGGTCCTCCAGGATATTTTATCGGCAATATGGTTTATTCCCAGCAG -GGGGCGATTGGCAATATGCCGATGGCGGCGGCATTCACCCTGGTGCCGATTATTCTCATCGCACTGTACCTGGCGTTCGT -GAAACGTCTGGGAGCGTTCGATGCACTCTGAACGCGCACCGTTTTTCCTCAAACTGGCGGCCTGGGGCGGCGTTGTTTTC -CTACATTTTCCCATCCTGATAATCGCCGCCTATGCGTTTAACACTGAAGATGCGGCGTTTAGTTTTCCACCGCAGGGCCT -GACGCTGCGCTGGTTTAGCGTGGCAGCACAGCGTAGTGATATTCTTGATGCCGTGACACTGTCACTTAAAGTGGCGGCGC -TGGCGACATTAATTGCGCTGGTGTTAGGGACGCTGGCAGCTGCCGCGCTGTGGCGACGAGACTTTTTCGGCAAAAACGCC -ATTTCGCTGTTACTGCTGCTGCCCATTGCGCTGCCGGGCATTGTCACTGGTCTGGCGTTATTAACCGCCTTTAAAACCAT -CAATCTGGAGCCGGGATTTTTCACCATCGTGGTCGGTCATGCGACTTTTTGTGTAGTTGTGGTGTTTAACAATGTCATCG -CCCGTTTTCGCCGCACCTCCTGGAGTCTGGTTGAGGCGTCAATGGATCTTGGGGCCAATGGCTGGCAAACCTTCCGCTAC -GTAGTGTTGCCGAATCTCAGTTCGGCGTTACTGGCAGGAGGAATGCTGGCGTTTGCCTTGTCGTTCGATGAAATCATCGT -TACGACCTTTACGGCAGGTCATGAACGAACGTTACCGTTGTGGTTGCTCAATCAGCTTGGGCGACCGCGTGATGTACCGG -TAACTAACGTGGTGGCACTGCTGGTTATGTTGGTAACAACCTTGCCGATCCTGGGGGCCTGGTGGCTAACCCGCGAAGGC -GACAATGGTCAATAACCACTGATACAGGAATATGCTATGCAACATAAGTTACTGATTAACGGAGAACTGGTTAGCGGCGA -AGGGGAAAAACAGCCTGTCTATAATCCGGCAACGGGGGACGTTTTACTGGAAATTGCCGAGGCATCCGCAGAGCAGGTCG -ATGCTGCTGTGCGCGCGGCAGATGCAGCATTTGCCGAATGGGGGCAAACCACGCCGAAAGTGCGTGCGGAATGTCTGCTG -AAACTGGCTGATGTTATCGAAGAAAATGGTCAGGTTTTTGCCGAACTGGAGTCCCGTAATTGTGGCAAACCGCTGCATAG -TGCGTTCAATGATGAAATCCCGGCGATTGTCGATGTTTTTCGCTTTTTCGCGGGTGCGGCGCGCTGTCTGAATGGTCTGG -CGGCAGGTGAATATCTTGAAGGTCATACTTCGATGATCCGTCGCGATCCGTTGGGGGTCGTGGCTTCTATCGCACCGTGG -AATTATCCGCTGATGATGGCCGCGTGGAAACTTGCTCCGGCGCTGGCGGCAGGGAACTGCGTAGTGCTTAAACCATCAGA -AATTACCCCGCTGACCGCGTTGAAGTTGGCAGAGCTGGCGAAAGATATCTTCCCGGCAGGCGTGATTAACATACTGTTTG -GCAGAGGCAAAACGGTGGGTGATCCGCTGACCGGTCATCCCAAAGTGCGGATGGTGTCGCTGACGGGCTCTATCGCCACC -GGCGAGCACATCATCAGCCATACCGCGTCGTCCATTAAGCGTACTCATATGGAACTTGGTGGCAAAGCGCCAGTGATTGT -TTTTGATGATGCGGATATTGAAGCAGTGGTCGAAGGTGTACGTACATTTGGCTATTACAATGCTGGACAGGATTGTACTG -CGGCTTGTCGGATCTACGCGCAAAAAGGCATTTACGATACGCTGGTGGAAAAACTGGGTGCTGCGGTGGCAACGTTAAAA -TCTGGTGCGCCAGATGACGAGTCTACGGAGCTTGGACCTTTAAGCTCGCTGGCGCATCTCGAACGCGTCGGCAAGGCAGT -AGAAGAGGCGAAAGCGACAGGGCACATCAAAGTGATCACTGGCGGTGAAAAGCGCAAGGGTAATGGCTATTACTATGCGC -CGACGCTGCTGGCTGGCGCATTACAGGACGATGCCATCGTGCAAAAAGAGGTATTTGGTCCAGTAGTGAGTGTTACGCCC -TTCGACAACGAAGAACAGGTGGTGAACTGGGCGAATGACAGCCAGTACGGACTTGCATCTTCGGTATGGACGAAAGATGT -GGGCAGGGCGCATCGCGTCAGCGCACGGCTGCAATATGGTTGTACCTGGGTCAATACCCATTTCATGCTGGTAAGTGAAA -TGCCGCACGGTGGGCAGAAACTTTCTGGTTACGGCAAGGATATGTCACTTTATGGGCTGGAGGATTACACCGTCGTCCGC -CACGTCATGGTTAAACATTAAGGATAATATTGCAGATCGTAAGAGTATGAGATGATCTTGCGTACTGTCAGAGCACTGAT -TTCTCTGACAGTACGTGCTGCGTGCAAAATCACTACATCAAATAAACCAGCCAAATCTCATAGAGATAAGAGTAAACAAA -CCAACAGCAGCAAAGAAATTTATCAGTACTACAGTTCTACTGGAAACATTCATTTTTGCCACCTTTTATCATTGCCCCTA -TGTGTATAGTACGGGTTAAGAAAATCCGCAATAATACTCATTCTGAAGATGGATAAGGGCAAGTTGCTGTTTGATGATTT -TTTCTCAAACTGGTGAAAAAACTTGATGCACGTCAAAAAATGACGCATATTTGCGCGCGTTTTATTCATCTGGCTGGACG -CCCGTACATGTCTCTCTATCAACACATGCTTGTTTTTTATGCGGTTATGGCAGCAATCGCATTTCTTATCACCTGGTTTC -TTTCTCACGATAAGAAACGCATCCGTTTCTTAAGCGCCTTTCTGGTGGGGGCAACATGGCCGATGAGTTTCCCGGTGGCG -CTGTTGTTTTCACTGTTTTAAATCTTACTCACTGGCTTGACGGCACCACGCAGACTTATATCATTTGGATGAATCGATAA -ATTTCACAAGTGGCTAAGGAGAAAGTATGTCGCATCTGGATGAAGTCATCGCGCGCGTGGATGCCGCGATTGAAGAGAGC -GTCATTGCCCATATGAACGAATTATTAATCGCCCTGAGCGATGACGCGGAGTTAAGTCGGGAAGATCGCTACACCCAGCA -GCAACGTCTGCGCACAGCGATCGCCCATCACGGTCGCAAGCATAAAGAAGATATGGAAGCGCGCCACGAACAGTTAACCA -AAGGCGGCACCATCCTCTGATTAAAATGAGCGTCTGGCTACCAACCAGGCGCCAACCACAAGTAAAATTGCGCCACAAAT -TGGGCCGAACAACGCCCGTAGTGGTACGCCATGACTGCGGAAGATATCCAGCATCAGACCGCCAATCAGCTGACTGGCGA -CCAGTACAGCAATAGTTGTCGCCGCTCCCACATTCTGATATCCGCTGATACTGGCGAAGACAAAAAACGATCCCAGCAAG -CCAGGTATAAGTGTCCACCAGCGCACGCTGGACACCAGTTCGCCAAACCCCGCCATGCCTTGTTTAAACCATAAAATAGA -AACAAAGAGCACAATCCCCACCAGTGAGTTCAGCAACATGGCGATGAGAATGGTAGAGGAGGTCTGGGTGATGCGCACCA -TCAGCGTGTTCTGGACAACCAGACCAATTCCGGCGGCAATCAAAAAAGCAAGGGTGAGCGACTGATTCATCCAATCGCGT -CCGGTTCAGTGCGCTCGTCGAGTTGCAACTGCATAAATGTCAGATCCAGCCAACGACCAAATTTAGTGCCTACCTGCGGC -ATTTGCGCGGTGACGACAAATCCCAGCGACTGGTGGAGATGCAGCGAGGCCTGATTTTGCGATTCGATCCCGGCGACCAT -GACATGCTTCCCGCAATCCCGCGCTTCATCAATCAATCGGCTTAACAATTTACGCCCCAGACCTTTGCCCTGATGATCGG -GATGGACATAAACCGAATGTTCCACGGTATGGCGAAAACCATCGAAACTACGCCAGTCGCCAAACGAGGCATATCCCGTC -ACTACGCCGTTTTCCTCGCTCACCAGCACTGGATAACCTGCTAAAGTCCGCGCTTCAAACCAGGCAATGCGGTTATCAGC -ATCCACCGTTTGGTCATTCCAGATAGCCGCCGTATACAACACGGCGTGGTTATAAATTTCCGCAATGGCAGCACAGTCGG -CTTTGCGGGCAAAACGGATGGACATGTCTGGCCTCAATAAAATAATGATGATGATGTTATCAATACTATCGAAAACAGCC -CGAAGCAACGGATTCCTCGATGAAATTATTGCGTGTTGCAGAGGGGATGTGACGGCTGCAAACAAAACCAATCCCGTGAG -CCTGCTACTATTGATGGATTCATGCCAAAAGCACAGGAGAGCATTATGGGGCAACAAAAGCAGCGTAATCGACGTTGGGT -TCTGGCCTCGCGTCCACATGGCGCACCTGTTCCGGAGAATTTCCGTCTTGAAGAAGATGATGTCGCCACACCGGGTGAAG -GACAGGTGTTACTGCGCACAGTTTATTTGTCCCTGGACCCGTATATGCGTGGACGTATGAGCGATGAGCCATCTTATTCA -CCGCCTGTTGATATTGGCGGCGTGATGGTCGGCGGTACGGTGAGCCGTGTCGTGGAGTCGAATCATCCTGATTATCAGTC -TGGCGACTGGGTGCTGGGCTACAGTGGATGGCAAGACTATGACATATCCAGTGGTGATGATCTGGTGAAACTTGGCGATC -ATCCGCAAAATCCATCGTGGTCGCTGGGTGTGCTAGGGATGCCAGGCTTTACCGCTTATATGGGCCTACTGGATATCGGT -CAGCCTAAAGAGGGCGAAACGTTGGTGGTAGCTGCGGCGACAGGACCAGTGGGGGCGACGGTGGGGCAAATCGGCAAACT -TAAAGGTTGCAGAGTGGTGGGGGTAGCCGGTGGCGCGGAAAAATGCCGCCATGCTACCGAGGTGTTAGGCTTCGATGTTT -GTCTTGATCACCACGCGGATGATTTTGCCGAACAACTGGCGAAAGCGTGCCCAAAAGGTATTGATATCTATTATGAAAAC -GTGGGCGGTAAGGTATTCGATGCGGTGCTACCGTTACTTAATACATCTGCGCGCATTCCCGTCTGCGGATTAGTGAGCAG -CTATAACGCTACAGAGCTACCACCCGGTCCGGATCGTTTACCTCTGTTGATGGCTACAGTGCTGAAAAAACGTATTCGCT -TGCAAGGTTTTATTATCGCTCAGGATTATGGTCACCGCATCCATGAGTTTCAGAGGGAGATGGGGCAATGGGTGAAAGAG -GATAAAATCCACTACCGCGAAGAAATTACTGACGGTTTAGAGAATGCGCCACAGACGTTTATCGGCCTGCTGAAGGGTAA -AAACTTCGGCAAAGTGGTGATCCGCGTGGCGGGTGATGATTAAAGTTTCAACGGCGGCGTAAGCCGCCATAAAAATCCAG -GCAAAAAGCTTATTTTCAGCTTTAATTAACTAACCACATCATTGTTCTGCTGCTAATAACAACAAAGGTGAGTGGTTTAT -GATTATTCACTTTAATACACCAGGTGAATTCCTTCTGCCATGCAGGCAGGGTTGGACAGAAAACACGCGAAGGAATTAAA -ATGCCTGGAACGGGAAAAATGAAACATGTCAGTTTGACTCTGCAGGTTGAGAACGACCTGAAACATCAGCTTAGTATTGG -CGCATTAAAACCTGGCGCACGCCTGATTACTAAAAATCTGGCGGAGCAATTAGGTATGAGTATTACACCTGTGCGTGAAG -CATTATTACGTCTGGTTTCGGTGAATGCGCTTTCTGTCGCACCTGCACAAGCATTTACAGTTCCGGAAGTGGGGAAACGT -CAATTAGACGAAATCAATCGGATCCGCTACGAACTGGAATTAATGGCAGTTGCTCTGGCTGTTGAAAACCTCACCCCGCA -AGACCTTGCGGAACTCCAGGAATTGCTCGAGAAATTACAGCAGGCGCAAGAAAAGGGCGACATGGAACAAATCATTAATG -TAAACAGGCTATTTCGCTTAGCGATTTATCATCGCTCAAATATGCCCATCCTGTGTGAGATGATTGAGCAACTGTGGGTC -AGGATGGGGCCTGGTTTACATTATCTCTATGAAGCGATTAATCCAGCGGAATTACGGGAGCATATAGAAAACTATCATCT -GTTACTCGCTGCGTTAAAAGCAAAAGACAAAGAGGGATGCAGACATTGTCTTGCTGAAATTATGCAACAAAATATTGCTA -TTTTATACCAGCAATACAATCGTTAAAGTAAATGCCCGGCAAATACCGGGCATCAAGGTAATTACTCAAATCTCCACGCA -ATATTCATGCCGACACCATAATTTCGTCCGGGCGAAGGTTCGTAATATCGCCCGTTTGACTCATTGACAATGACAGAACC -AACGTATTCTTTATCGAATAAATTATCGACACGACCAAATAAATCCACAGTTAAATTGTGGTAATTGTATTTATACCCGG -TGAATAAGCCGACGAGAGTATAAGACGGCGCTTTTGCCGTATTTTCATCATCTGCCATAATATCGCCCATATAACGCGCT -TCCGTGCCTGCATACCAACCATCTTCCGGTACATAACCTATCGACGCAAAGCCCATATTACGGGCGATCCCTGGCATCCG -ATTACCGTTACAATCCTGTTCATTGCAAACATTGCTGCGATAGGTCGCATCAAGCCAGGTCCAGGACGCGTTTACGCGAA -AATCTCCTGCGAAACGTTGATCCCATGCCAGTTCAGCGCCTTGACGACGGGTCTTTCCGGCATTTTTGTAAGTCGTACGC -CCACCGCTACTGCTATCGACAACAATTTCATCATCAGTGTCGGTCTGAAACAATGCGAGACTAAGCAGCCCATCACCAAT -ACGCGTTTTACTGCCGATCTCAATTGTATCGTTGGTGGATGGTTTTAAACCTAAGTTCATACCGCTTTGCCCATCAGCAC -GATAAGACAGCTCATTAATCGTCGGCGTTTCAAAACCTCGCCCGGCTGCCAGATAGATATTCCAGGCATCGGTCATTGCA -TATTTTAACGAACCGGCAGGTAGCCATTTATGATAACTGGCATCACCGCTGTCATCGCCGTTACCCGGAGTAACGTAATG -GTCGTTGGAATCAAACCACACGGAGCTGTAGCGCACGCCAGCATCCAGCGACAGTTTTTCGCTCAGCTGCCACTGCGTCT -GTAAATAGGGATCGATGTTCCACATCAGATTGCGTTCGTCGCGACGCAACTCACCTTTTTGCCCGTACTCCGGCATGCCG -CTATTCAGGCGGAAGTTATTGTAGCCCTTGCGGTTTTCACTCATGTTTTCGTAGTTCAGGCCGGTAGTGAACGTGACCGG -AACGCCCAGTTCACCACGGTGTGTCCAGCGGCTGTCTATTCCCTGGTAATGGCGTTGCAGGGTAATCACGCCGCCCGCAT -GTGACGGGTTAAGTTGTGGTGCCATGGGTATTGACTGGTACTGGGTCGTTTCTCGCTCTCCGGCATACATCATCACACTC -ATATCATCCCGCGAACTCAGGCTACGCTCATAGCGCAACCCAGCCTGAGTTTGCTTGATGGTTTTTCGCGTGTCGTACTG -TTCTGCACGAGGCGCTTGTTGTGGATTAGCCTTCCATTCTGCTTTGGTTAGCCCACCTGGGTCATCTGCTTTGATATCCA -CACTATTGAAAATCAGACTTAATTTGCTGGCTTCATCAATGCGTACGCCCAGTTTGGCATTGGCTAAATTTTTCTGTGCG -CCACTATGGTCACGATAGCCGTGGGTCGTAAAACGCGTGGTTGAGACGGTGTAATCGACATCGCCAGGCTGTGTGCCGTC -TCCCGTTGCGCCCGTTGCTTTCAGCCCATAGCGCCAGCTGCCAAAACTGCCGTAGTAACTACTGGCTTCAATGGTTGGTG -GCTGTTGTCCGGTCTGGGTGGTGACATTCATTACCCCACCAGACGCGTTGCCATACAGGGCAGAGAAGGGGCCACGCAGC -ACTTCCACATTTTGCACACTGCTTAAATCGATGTTGGATGTTTGCCCTTGCCCGTCGGGCATGGTGGCGGGAATACCGTC -CACATACAGGCGAATACCGCGAATACCGTAAGTGGAGCGGGAGCCAAATCCGCGAATCGACAGCTGTAAATCTTGCGCAT -AGTTCTGCCGGTTTTGTACCTGCAAACCAGGCACGCCGGTCAGTGATTCGGACAAGTTAATGCGCGGTGTTGCCAGGCGC -ATCTCCTCGCCATCCACCACGCTTACTGCTGCTGGGGTATCCAGTTCTGAAACCACCTGCGGTGCGGCACTGACAATCAT -AGTCTGTTCATCAGCGGCAAAAACAACGGGGGAAAGGACAAGCAGTGCGGGCAAAACGGTCTGTCGGACGGAAAAAATCT -TCATGAAAAAAGCCAGGTTAAGAATGGGAAAACGCCGTCATGGTAATGAAATTGTAAATTTATGGAAAATGAAACGGCAC -AATACGTTAAGTAATTGAGAAAATTGTAGTCGTAACGGCAAGAAATGCTCCACATTTGAGAAAATAATGATTACCATTCC -CATTTATAACAAGAGCGTAACGATGATTACGCTTAGCGAAGCATTGTGAAGCAGCAAAAATATCGGTTCATCAAAGGGAG -TCGTCATGCATTTACGTCATCTGTTTTCATCGCGCCTGCGTGGTTCATTACTGTTAGGTTCATTGCTTGTTGTTTCATCA -TTCAGTACGCAGGCCGCAGAAGAAATGCTGCGTAAAGCGGTAGGTAAAGGTGCCTACGAAATGGCTTATAGCCAGCAAGA -AAACGCGCTGTGGCTCGCCACTTCGCAAAGCCGCAAACTGGATAAAGGTGGCGTGGTTTATCGTCTTGATCCGGTCACTC -TGGAAGTGACGCAGGCGATCCATAACGATCTCAAGCCGTTTGGTGCCACCATCAATAACACGACTCAGACGTTGTGGTTT -GGTAACACCGTAAACAGCGCGGTCACGGCGATAGATGCCAAAACGGGCGAAGTGAAAGGCCGTCTGGTGCTGGATGATCG -TAAGCGCACGGAAGAGGTGCGCCCGCTGCAACCGCGTGAGCTGGTAGCTGACGATGCCACGAACACCGTTTACATCAGTG -GTATTGGTAAAGAGAGCGTGATTTGGGTCGTTGATGGCGGGAATATCAAACTGAAAACCGCCATCCAGAACACCGGTAAA -ATGAGTACCGGTCTGGCGCTGGATAGCGAAGGCAAACGTCTTTACACCACTAACGCTGACGGCGAATTGATTACCATCGA -CACCGCCGACAATAAAATCCTCAGCCGTAAAAAGCTGCTGGATGACGGCAAAGAGCACTTCTTTATCAACATTAGCCTTG -ATACCGCCAGGCAGCGTGCATTTATCACCGATTCTAAAGCCGCAGAAGTGTTAGTGGTCGATACCCGTAATGGCAATATT -CTGGCGAAGGTTGCGGCACCGGAATCACTGGCTGTGCTGTTTAACCCCGCGCGTAATGAAGCCTACGTAACGCATCGTCA -GGCAGGTAAAGTCAGTGTGATTGACGCGAAAAGCTATAAAGTGGTGAAAACGTTCGATACGCCGACTCATCCAAACAGCC -TGGCGCTGTCTGCCGATGGCAAAACGCTGTATGTCAGTGTGAAACAAAAATCCACTAAACAGCAGGAAGCTACCCAGCCA -GACGATGTGATTCGTATTGCGCTGTAATAGATATGGCGAGGGTGAAAACGGTGAGACTTGCCTGCCTTTTATCACGGCGT -ATCCGGCACTTTCGTCAGTAATCTGAATTTGCCCGGCACGTAGCCGGGCAATTTTGCAATTAACTCGCCGTTTCAGGCTT -AAACACAATTTCCTGTTTTTCTTCATCTTCCTCGACGACTGGCGCAGTGCTGTGAATTTCAGCAACGCGTTTGCGCACAC -CAAACCAGCCTATAACCAGCAAAATACCGATAATCGGCAGCGCCGCGATAGTATAAGTCCCGTTCGGGTAATCGAACGCC -ATCAGCACAAGGACACTCAGTAAAAACAGTAATGTCAGCCAGGAAGTGAAGGGCGCGCCAGGCAGTTTAAAACTGACATC -CGCTGCTTTGCCTTCTTTAATCGCTTTACGCAGGCGCATCTGGCACACGATGATAAACGCCCATGAAGCGATGATTCCCA -GCGACGCGAAGTTCAACACAATCTCAAATACGCGCGACGGCACCAGATAGTTGAGGAATACGCCGACGACATACACAACT -AGTGTCGCCAGAATCCCGGCATACGGCACATGCTGACGACTCATTTTCGCCATAAAACTCGGTGCGGAACCGCCCATCGC -CATTGAGCGCAGAATACGTCCGGTGCAGTACAGACCTGAATTCAGGCTGGAGAGGGCAGCGGTCAGCACCACAATGTTCA -TAATGCTGCCGATATATGGCACACCCAGTTTAGAGAAAAACGTCACGAACGGACTTTGCCCCGCCTGATACGCGCTCCAC -GGCAATAACATAACCAGCAACACCACGGAGCCGACGTAAAACAGGCCAATACGCCAAATCACACTGTTAATGGCTTTAGG -CACCATGGTCTGCGGATCTTTACATTCTCCGGCAGCTGTACCCACCATTTCAATGGAGGCAAAAGCAAACACTACGCCCT -GAATCAACACCAGCGCAGGCAGCAAACCGTGGGGGAAGAAGCCGCCATTATCGGTGATTAAATGAAAGCCAGTGGTGTTG -CCATCCAGCGGCTGACCACTACCGAGGAACACTGTACCCACGACCAAAAAGGTCACAATGGCGAGCACTTTAATAAGCGC -AAACCAGAACTCCATCTCCGCAAACCATTTCACACCGATCATATTCATGGTGCCAACGATGGTAAGTGCAGCGAGCGCAA -AGACCCACTGCGGCACGCCGCCAAACGCACCCCAGTAATGCATATACAGAGCGACGGCGGTAATATCAACAATCCCCGTC -ATCGCCCAGTTGATGAAGTACATCCAGCCAGCAACATAAGCGGCTTTCTCACCCAAAAACTCACGGGCATAAGAAACAAA -ACTGCCACTGGAAGGGCGGTGTAGCACCAGCTCACCCAATGCACGCAGAATAAAAAACGAAAACAAGCCACAAATTAAAT -AAACCAGTGCCAGTGCGGGCCCCGCCATTTGCAGTCGGGCTCCTGCACCTAAAAACAAGCCGGTGCCAATCGCGCCGCCA -ATGGCGATCATCTGCACCTGGCGATTGCCCATCGCTTTGTGATACCCCTCTTCGTGGGCATTAAGCCAGCGGCGTTTCGC -GGCGTGTTGATCTGAAGTGTCGGTGTCGTGTTTACTCATTGCTCTCCCTGATTGCTTTAATGAAAAAGTCATATAAGTTG -CCATGAACAATGTTTATTCATCCTGGCGATGATAGTTATCACCATTATTCTTTATGGGTATAAAACTATCGGCGCAGCAT -CCTACCCGTTATCGATAAACGATGCAAAACATCCCCTTACAATCCTGAAGGGGATTAATACAACTGACGAAAAAATGACA -AATCCTTTTGCTGGTTAACCTGTGTACTGTCCTACACTTAATCTTTAAAAGATTGTGAGGGGCATATGATTAAGGTGTAT -GGCGTACCCGGATGGGGCTCTACAATCAGTGAGCTGATGCTAACACTGGCTGATATTCCTTATCAGTTCGTTGATGTCAG -TGGTTTTGACCACGAGGGAGCTTCACGCGAGTTATTGAAAACCCTGAACCCGTTGTGTCAGGTTCCGACACTGGCATTGG -AAAATGACGAGATTATGACGGAGACAGCGGCGATTGCATTGATGGTTCTCGATCGTCGCCCGGACCTTGCGCCACCGGTT -GGGCGCGCCGAACGTCAGCTGTTTCAACGGCTATTGGTCTGGCTGGTTGCTAATGTCTATCCAACATTCACTTTCGCCGA -TTACCCTGAGCGTTGGGCTCCTGACGCACCTGAACAGTTAAAGAAGAATGTTATTGAATATCGAAAATCGCTTTATATCT -GGTTGAATTCGCAGCTCACTGCTGAACCTTATGCGTTTGGTGAGCAACTAACGCTGGTGGACTGTTATCTTTGCACTATG -CGCACATGGGGGCCTGGGCATGAATGGTTTCAGGATAATGCCACGAATATCAGTGCGATTGCTGATGCTGTATGTCAGTT -ACCGAAATTACAAGAAGTATTAAAAAGGAATGAAATTATTTGAGTGGGATACCAGAAGATTATGTTATTTATTATTCAGT -AACTTTATCCACAATGATGGGCGTAATTAATTAAATTCATGGTATGTTTTTTAATTTATATCACTCTCCTTTTCATTCAG -CGTGTCTATTTCATTTCCTCTGAAAAGAAACTAACTATTCACATCGTGCAGATGTTTCAGTTGTTATCACAGGCATTCTA -TAATCTCAAAATGTTTTTAATGATGGATATGCTCGGAGTTGGAGATGCAATTAATATTAATACAAATAAAAATATCCGGC -AGGTATGCTAAAAGGATAAATGGCGTTCTCTGTATTTATTCGCAATTATCTGTAGGACAAATATGGAGAGCTTGATGAGT -CAGAGCTAAAACAGCAATTGATTAATAAACATGTTGATTTATTCAAGAAAATGGATGTATTTTAAATGTTGATTCTTAAT -ATAACCTAATCAATAGATTATCAAGTGAGAGCTACACATTATTGGAGGGGCAGGGGAAAACACCATTTTGGGAACAATGC -ATCAGGTACTCTTACCACTGAAGCAAGATCATCCGGCACCAGGTGGTGGTGCAGTGCTTTGGAAATGGTCCCCTCGGGGG -AGTTGTCATTATTTTCTATGCTATTTGCTTATTATATTCATCAGGTGAATTTAATAAATTCCTAATTTGAAATATCCACT -ATTAAGCTAGTGTTTAACGACGTTAAGATGGCAATGTGCAGATCATGTTATCAGGGTGGGGCGGTAGCGTATATTCCTTA -TACAAACCATCATTCATTTCAATGATTGTTATTGAATTATTTATTGTTGTGAATAAAAAGACATTATGAATATTGGTTTG -ACTTTGCATATCAGGTTTTTTATTACTCGCTGTAATGTACGAGCCTGTCGTGAATAACGTCGAGAACCCATCCGTTGCGT -TTGTGATTATTTTGTTGACTAAACAGACACCCGTTTCTCTGAAGTAAAATCCCAGACTAAATCATCACATAACCATGACA -TTTTTCTGATATTCCCCGGTAACGCCAGATGTCGACTCGCTTAACCACCCTCAGCCATACCAGTGAAGGCCACCGCGTGT -CGGTCCACTACGGCTATGACGATAAAGGCCGCCTGACCGGCGAACGCCAGACGGTGGAGAACCCGGAGACGGGGGAACTG -CTGTGGCACCATGAGACCGGACATGCGTACAACGAACAGGGGCTGGCAAACCGCGTCACGCCGGACAGTCTGCCGCCGGT -GGAGTGGCTGACCTACGGCAGCGGCTATCTTGCGGGCATGAAGCTGGGCGGGACGCCGCTGCTGGAGTTCACGCGCGACC -GCCTGCACCGTGAGACGGTGCGCAGCTTCGGCAGCATGGCAGGCAGTAATGCCGCATATAAACTGACCAGCACATACACC -CCCGCAGGCCAGTTACAGAGCCAGCACCTGAACAGCCTGGTGTATGACCGTGACTACGGGTGGAATGACAACGGCGACCT -GGTGCGCATCAGCGGCCCGCGACAGACGCGGGAATACGGCTACAGCGCCACGGGCAGGCTGGAGAGTGTGCGCACCCTCG -CACCAGACCTGGACATCCGCATCCCGTATGCCACGGACCCGGCGGGCAACCGGCTGCCGGACCCGGAGCTGCACCCGGAC -AGTACACTCACAGTGTGGCCGGATAACCGCATCGCGGAGGATGCGCACTATGTCTACCGCCACGATGAATACGGCAGGCT -GACGGAGAAGACGGACCGCATCCCGGCGGGTGTGATACGGACGGACGACGAGCGGACCCACCACTACCACTACGACAGCC -AGCACCGCCTGGTGTTCTACACGCGGATACAGCATGGCGAGCCACTGGTCGAGAGCCGCTACCTCTACGACCCGCTGGGA -CGGCGAATGGCAAAACGGGTCTGGCGGCGGGAGCGTGACCTGACGGGGTGGATGTCGCTGTCGCGTAAACCGGAGGTGAC -GTGGTATGGCTGGGACGGAGACAGGCTGACGACGGTGCAGACTGACACCACACGTATCCAGACGGTATACGAGCCGGGAA -GCTTCACGCCGCTCATCCGGGTCGAGACAGAGAACGGCGAGCGGGAAAAAGCGCAGCGGCGCAGCCTGGCAGAGACGCTC -CAGCAGGAAGGGAGTGAGAACGGCCACGGCGTGGTGTTCCCGGCTGAACTGGTGCGGCTGCTGGACAGGCTGGAGGAAGA -AATCCGGGCAGACCGCGTGAGCAGTGAAAGCCGGGCGTGGCTTGCGCAGTGCGGGCTGACGGTGGAGCAACTGGCCAGAC -AGGTGGAGCCGGAATACACACCGGCGCGAAAAGTTCATTTTTACCACTGCGACCACCGGGGCCTGCCGCTGGCGCTCATC -AGCGAAGACGGCAATACGGCGTGGCGCGGGGAGTATGATGAATGGGGCAACCAGCTTAATGAGGAGAACCCGCATCACCT -GCACCAGCCGTACCGTCTGCCAGGGCAGCAGCATGATGAGGAGTCGGGGCTGTACTATAACCGTCACCGGCACTACGATC -CGTTGCAGGGGCGGTATATCACCCCGGACCCGATTGGGTTGAGAGGTGGATGGAATATGTATCAGTATCCGTTGAATCCC -ATACAAGTGATAGACCCAATGGGGTTAGATGCGATTGAGAATATGACATCAGGTGGACTAATTTATGCCGTATCTGGTGT -ACCTGGATTGATTGCTGCAAACAGCATTACTAACAGTGCTTACCAGTTCGGTTATGATATGGATGCTATTGTTGGCGGAG -CTCATAATGGGGCCGCCGATGCAATGAGACATTGTTACTTGATGTGTCGAATGACTAAGACATTTGGATCAACAATAGCT -GACGTGATAGGTAAAAATCATGAGGCGGCAGGGGATAGACAAGGTCAGCCAGCTAAAGAAAGAATCATGGATCTTAAAAA -TAACACTGTCGGTATTGCTTGTGGCGATTTTTCTGCCAAATGTAGCGATGCATGTATTGAAAAATATAACACTGGGCAAC -TCTTCGGGTTAGATGGTATAAAAGCAGATAATCCAATAAAAGCAAAGCAAGGGAGTTCAGATGCTTCAAATTATTAGAGG -CAAACTTGTCATTTTTTTAATTACCCTTTGTTTATTTGTTGTTTACCTTGGGTTTGATAACAATTCAAATTCTGACATCG -TATTTTATGGACATAAAACACCAAAGAGCGTTGAGATATATCTTTCTGAAAAAAATATTATTTATAAAATAATTAATGAC -CAAAAAATTAGTAGAGGGAATGGTCATTTTATAAGTATAATGGTTAATAATTACAGGACGCACTGTGGAGTGGTTGATAT -AAATCTTAATTTTTTCAATGATATTCTTTATAGCGTGCGATTAAAAAACATTAGTAAACTGGAGAATATGGAGTTCTGCG -CTACAAAACAACGGGTGTATTTTAGTGATAAAAACAAGAAGGCTAGTTATAAAATAATTAATTATGGAGACTATTATGAT -GTTGATTATTATGATAACAATTTGAAAAATGAAGTTTTTGACTGGATTGGTAAATGGTCATAATGAACAACACCAGAAAG -AGAAAAATATAAAATACATACAGAAAGACATGAGAGCAAGGGACGGGGCAGGGCAAGATCATGAAAATTGTGATGTAAAT -CACGATTTTCATCTTTGCTTTAACGCCTACAGGTGATCAAAATTTAACCTTTGGAATAACTAAAAAGATAAAAAAGGACG -CCAGGTGAGTATTCAAAGTTTGCTTGATTATATTTCAGTGACCCCTGATATACGACAACAAGGAAAGGTTAAACATAAAT -TATCTGCTATTTTGTTTCTCACCGTATGTGCAGTAATTGCAGGTGCCGATGAGTGGCAGGAAATTGAAGATTTTGGACAT -GAAAGACTTGAATGGCTAAAGAAATATGGTGATTTTGATAATGGCATTCCGGTCGATGACACCATTGCACGCGTTGTGAG -TAACATTGACAGTTTGGCCTTTGAAAAGATGTTTATTGAATGGATGCAGGAGTGCCATGAAATCACTGATGGTGAAATTA -TAGCAATAGATGGAAAGACCATAAGAGGCTCCTTTGATAAGGGAAAAAGAAAAGGAGCAATCCATATGGTGAGTGCATTC -TCGAACGAAAATGGTGTTGTACTGGGGCAGGTGAAAACGGAAGCCAAAAGTAATGAGATTACAGCCATTCCAGAGTTGCT -TAACCTACTGTATTTAAAGAAAAATTTGATAACCATTGATGCTATGGGCTGTCAGAAAGATATCGCTTCGAAGATCAAAG -ATAAAAAAGCAGATTATCTTCTGGCAGTAAAAGGCAATCAGGGGAAATTACATCATGCATTCGAGGAAAAATTTCCTGTA -AATGTGTTTTCTAATTATAAAGGCGATTCGTTTAGTACGCAGGAGATAAGTCATGGAAGAAAAGAAACACGTTTGCATAT -TGTCAGTAACGTAACGCCTGAACTTTTGTGATTTTGAATTCGAATGGAAGGGATTAAAAAAGCTTTGTGTAGCATTGTCA -TTCAGGCAGAAGAAAGAAGATAAATCAGCAGAAGGTGTAAGCATCCGATATTATATTTCATCAAAGGATATGGATGCTAA -AGAATTTGCACATGCTATCAGAGCGCACTGGCTGATCGAGCACAGTCTTCATTGGGTGTTAGATGTAAAAATGAATGAAG -ATGCCAGCCGGATAAGAAGAGGAAACGCAGCCTAAATAATATCTGGAATAAAGAAGATGGCACTGAATTTATTAAGAGAT -TGCAAAGACATTAAGGGTGAAGAGGAAAAGAAAGAAGGCTGCGTTAAACACAGGGAAAGATCATCAGAAGTTCACTTTTT -GTACTAAACAATTCGCATTTTATGTTTAAAAATTGAGATATTCCTTATTACCTAAAGCTGTTTTTTATTGCTTACACATG -ATCAAATACTCCTTACATAATTAAGGAGAACAAAATGGAACTTAAAAAATTGATGGGACATATTTCTATTATCCCCGATT -ACAGACAAGCCTGGAAAATGGAACATAAGTTATCGGATATTCTACTGTTGACTATTTGTGCCGTTATTTCTGGTGCAGAA -GGCTGGGAAGATATAGAGGATTTTGGGGAAACACATCCCGATTTTTTGAAGCAATATGGTGATTTTGAAAATGGTATTCC -TGTTCACGACACCATTGCCAGAGTTGTATCCTGTATCAGTCCTGCAAAATTTCACGAGTGCTTTATTAACTGGATGCGTG -ACTGCCATTCTTCAGATGATAAAGACGTCATTGCAATTGATGGAAAAACGCTCCGGCATTCTTATGATAAGAGTCGCCGC -AGGGGAGCGATTCATGTCATTAGTGCGTTCTCAACAATGCACAGTCTGGTCATCGGACAGATCAAGACGGATGAGAAATC -TAATGAGATTACAGCTATCCCAGAACTTCTTAACATGCTGGATATTAAAGGAAAAATCATCACAACTGATGCGATGGGTT -GCCAGAAAGATATTGCAGAGAAGATACAAAAACAGGGAGGTGATTATTTATTCGCGGTAAAAGGAAACCAGGGGCGGCTA -AATAAAGCCTTTGAGGAAAAATTTCCGCTGAAAGAATTAAATAATCCAGCGCATGACAGTTACGCAATGAGTGAAAAGAG -TCACGGCAGAGAAGAAATCCGTCTTCATATTGTTTGCGATGTCCCTGATGAACTTATTGATTTCACGTTTGAATGGAAAG -GGCTGAAGAAATTATGCGTGGCAGTCTCCTTTCGGTCCATAATAGCAGAACAAAAGAAAGAGCTCGAAATGACGGTCAGA -TATTATATCAGTTCTGCTGATTTAACCGCAGAGAAGTTCGCCACAGCAATCCGAAACCACTGGCATGTGGAGAATAAGCT -GCACTGGCGTCTGGACGTGGTAATGAATGAAGACGACTGCAAAATAAGAAGAGGAAATGCAGCAGAATTATTTTCAGGGA -TACGGCACATTGCTATTAATATTTTGACGAATGATAAGGTATTCAAGGCAGGGTTAAGACGTAAGATGCGAAAAGCAGCC -ATGGACAGAAACTACCTGGCGTCAGTCCTTACGGGGAGCGGGCTTTCGTAATCTTGCCCTGGGCATTATTGTCGTATAAA -CGCTTTACCGGACACATGACATTCACAATGTGTGTTAATTTTACTGACATCTTTCAAAAGGAGCGTAATCATGCCGCACA -TCGACATTAAATGTTTTCCGCGTGAACTGGACGAACAACAAAAAGCAGCACTTGCTGCAGATATTACCGACGTTATTATT -CGTCATCTGAACAGTAAAGACAGTTCGATAAGCATTGCTCTACAGCAGATTCAACCAGAATCTTGGCAAGCTATCTGGGA -TGCCGAAATCGCGCCCCAAATGGAGGCTTTGATAAAGAAACCTGGTTATAGCATGAATGCTTAACCCGCCGTAACACGCT -TGCCGCTGGTAACAAACGTCCCAGCACCTAAATGATGCAACGTATTGAGCTTATCATCATCAAACTGCCAGCGGCCTTCG -ACAAATACCCGTGCGTCTGCCGCTGCTGATACTACTTCGCCAAACAGCGTGTCGTATTCTTCTTGCGCAGAAGTCGCAGG -TAGCAATCGACACTCCATCCACGCCAGACATTTTTCCTCGACCAGAGGCAAACCAAATACCGGGCCTCTCACAACCGGAA -TGCCATAGCAATTAAATTTATCTTCATCACGCCCCGACACACTTCCCACCGCCCACGTCCAGTTAGTTGCTGCAACGCCC -GGGATAACGATGCCAAATTTACCGTTATGTTCAATCAACTCCCTGGTCCATGTCGATTTATCTACCACAATCGCCACGCG -TGGAGGTTCAAACTCCACCGGCATTGACCAGGCTGCAGCCATAATGTTACGCCGCTGGGATTGCTCATCGAAACTGGTGA -TCAAGACCGTTGGGCCATGATTTAACAGACGGCTGGCATGGTGTAATTCTATGGGGATGAATCGGCTCATGGTATCGCCT -CGCGAAGAAGGTTTTTTTAAGCGTAGTCCGTAACGCAATAAGTAACGAAATTAACGGGATTGGCGATTTGCGAACGTGAT -GCATGTCCGCGATCGCACAAAATAGCCGGTGCGGCGTCTATTCCAGGTTATAAGTTGAGAAAACCACTAAGGGAAACGCC -TGATGACGCCCATTCTGAATCACTATTTTGCCCGTATTAACTGGTCGGGAGCTGCTGCGGTCAATATTGATACGCTTCGT -GCATTGCACCTGAAACACAATTGCACCATTCCGTTTGAAAACCTCGACGTTTTGCTGCCGAGGGAAATACAGCTTGATAA -TCAATCGCCGGAAGAGAAACTGGTGATAGCCCGTCGTGGCGGTTACTGTTTTGAGCAGAATGGCGTGTTTGAGCGGGTGT -TACGCGAGCTGGGGTTTAACGTTCGCAGCTTGTTAGGGCGCGTAGTGTTATCAAATCCGCCAGCATTACCGCCGCGCACC -CATCGTTTGCTGTTGGTGGAACTGGAAGAGGAAAAATGGATTGCTGATGTCGGTTTCGGTGGGCAGACGCTAACCGCGCC -GATTCGTTTAGTTTCCGATCTCGTGCAGACCACGCCACACGGAGAGTATCGGTTGTTGCAGGAGGGTGATGATTGGGTGT -TGCAGTTTAATCATCATCAGCATTGGCAGTCGATGTACCGTTTTGATCTCTGCGAGCAGCAACAAAGCGATTATGTGATG -GGCAATTTCTGGTCGGCGCACTGGCCGCAGTCGCATTTTCGCCATCATTTGCTGATGTGCCGCCATTTGCCGGACGGCGG -CAAGCTGACACTGACCAATTTTCATTTTACCCATTATGAAAATGGGCACGCGGTGGAGCAGCGAAATCTACCGGATGTGG -CGTCATTATATGCTGTGATGCAAGAACAGTTTGGTCTGGGCGTGGATGATGCGAAACATGGCTTTACCGTGGATGAGTTA -GCGCTGGTGATGGCGGCGTTTGATACGCACCCGGAGGCGGGAAAATAATTTATGTCAGGTTGCCGGATGCGGCGTAAACG -CCTTATCCGGCATACATTAGCCCGGTTGTAGACCTGACAGGCGAAGCGCATCAGACAACGGTTTCAGAGTTCAATTGCCC -ATTCGGCATGAAACAAAATCACCGCTGTGCCTGAAATGGTGACTTTTTCCGGTTGGTTATCACGAATTGTCACCGTCACT -TCAATCATACCGTCACGCCCCAATGCGCGCCCCTGATGGCCTTTAACACGCAACACGTTGCCATCGTGGGGCAATACGTT -GTGATGTACCAACCATGCACCCATCGGGCCATTGGCATTGCCAGTCACCGGATCTTCCACAATACCAATCGCAGGCGAGA -ACATGCGACCATCGGTTTCGTTTTTGCCTGGGCGGATCTGGAACGGGAAGAAACCATTGCAGCCAATCTTTTTGCTGATA -GCGGTCAGCGCATTAAGGTCAGGCGAAAGGGCGTCGATATCCACTTCCGGTTTCAGTGGGATCATCACTTTTGAGTGTCC -TGTTGTTGCCACCTGAATTGGCAAGCCTGGCAGAATATCGTCCTCAGTGAGATGAAGCGCGTTGATAATCGCCGCACGTG -TTTCACCTTCCAGCGGTGGCTCAAAGCCCGGCGTACCTTGTTCCAGCGAAATACGATAATCATCGTTGTGCTTTTCGATA -GTCACGCGATGTTTTCCTGCCAGCGATGTTTGCCAGATCGTGCAATTTCCTAAACCTAACACCTTCGCACGTACATAGTG -CGCAGCTACTGTCGCGTGACCGCAAATCGGCACTTCAACCGTTGGCGTAAAGTAGCGGATGCGCACATCGCTGTCGTCGC -TGTGCAGCAGAAAAGCAGTTTCCGAATGGCCTAACTCGCGGGCGATAAGCTGCATTTGCGCTTCGCTAAGATTATCGGCG -GGGAAAACAACACCGGCAGAATTGCCGCGAAACGGTTGTGAGGTAAAAGCATCGACGTGGTACACCTGCGGTTTCATTAA -CGTTCTCCTGTGACTGGAGAACTATCATAGCCTGCAAGTGGCCGGAGAGCGAAGGGCTATCCGGCCAGGGTGAAATTATC -GCCGCGAACGCACAATTTGATATCGACGAGTAAAGTACTCAAACGGCGCGCTCCACACATGCACCAGTCGGGTGAACGGG -AAGAGCAGGAAGATGGTCATTCCCAACACCAGATGCAGGCGGAAGACGAACGCTACGCCGTTGAGCATCTCTGACGATCC -ACCACGGAAAGTGACAATGCTTTGCGCCCAACCCACCAGCTTCATCATTTCGCTACCATCAGGATACTGTGCTGAAAACG -GTATGGTACTTAGCCCCAACAGACACTGGATCAGCAAAATGCTCATGATGATGATATCCGGCGTAGTGGAAGTGGCACGC -ACGCGCTGATTTGTCAGCCTGCGCCACAGCAGTCCTGCGCCGCCAATCAACGTCAACACACCGCAAATACCGCCGAGCAC -CATCGCCATGAGTTGTTTCGCTGCCACTGGCAAAAACCACGCGTACATCCAGTGCGGCGTTAACATGCCGAACAAGTGCC -CGAAGAAAATCCCCAAAATGCCGATATGGAACAGATTCGACCATATCACCATCCCGCGTTTATCGAGCATTTGACTTGAG -GAGGCGCGCCAGGTGTACTGCCCGTAGTCGTAGCGCAGCCAGCTGCCGAGGAAAAACACCGTCGCACAAATGTACGGGTA -GATATCGTAAAAAAAGACGTTCAGATACTGAATCATTTCCCACCTCCCGCACTGATGTCGACATATTGCGGCGCGACATC -CTGGCTAAAGCGTCGCTGATATTGATTAAGCGGCGAGCTGTCACACGCCGTGGCGTTATCTTCAATAAACTTCACCTGTT -CCTCTTCCCACACTGCATCAAGCGCCTGGCGGGTGTCATCGCGCTCTTCGCTGTTTACTTGTTTTGTGACACTGTCACTT -GAAAGGGAGCTTCCCGCCAGTTGCAGCAGAGCATCAAACAACGCGTACCACGGTGCCTCGCGTTGTTTTAAGCGACCGCC -AAGCAGGGCGAGGATCGGCGCAACATTGAGCAATCCTTCTTTCGCCTGATCGTCAGGCAGTACGCTTAAATACTCCAGAT -ACAGCGGTAGATAATCGGGCAGTTCCCGACAATCCAGCTGCAGGCCGACCTTTTCATACTCCGCCAGCAGGTCCACCATT -GCCTGGCCGCGATCGCGGGACTCGGCATGAACATGTTCGAACAGCAGCAGCGACGTGGTGCGCCCGCGGTCAAACACTTC -GCACCATTCGGCCTGTTTATCCAGCAGCGGCGCGTTAAGCAGGTTGTGGGTGAAATCCGTAAGCATCGGCGCGTCGCGGC -GGATCAACGCCAGCGCGTCCTCCTTGCATTCCCACAACAGCTCGTCCGGATACTCCATCAACAGGCCGATCACTTTGAGG -ATCTGCATTATTCGCCCTCCGCTTTGTCGCGCACTTCGGTGATGTTGATGGCATCGATACGGCTACTGTTGAACAGGTTG -AATTTACTGTCCGAACCGTGGCAACCGTCGCCAAAGGTAAAACCGCAGCCGTTGCGTTCTGCGAAGGCATCGCCCGCCAT -TTCCCGATGGCTGGTCGGGATAACAAAACGATCTTCATAGTTGGCAATGGCGAGATAGCGATACATCTCTTCGACCTGGG -CGACGCTCAGGCCTACTTCGTCGATGGCACGAGTATCAGTAACGCCTTCCACGGTTTGTGAACGCATATAGTGGCGCATC -GCCATCATCCGTTTCAGCGCCCGCAGTACCGGACCGGTATCGCCGGCACTCAACATATTGGCGAGATATTGCACCGGAAT -ACGCAGGCTTTCGATGGCGGGCAGCACGCCTTCGCTTTTCGGCAAACCGCCCGCATCTGCGTAGGACTGAATCGGTGACA -GCGGAGGAACGTACCAGACCATCGGCAGGGTGCGGTATTCAGGGTGCAACGGTAGTGCCAGTTTCCAGTCCATCGCCATT -TTGTAGACTGGCGAACGCTGGGCAGCGTCAATCACATTTTGTGGAATACCTTGTTTCAGGGCTTCCTCGATCACTGAGGG -ATCGTGTGGATCGAGGAACACTTCGCACTGGCGTTCATAGAGGTCAACTTCGCGCTCGGTGCTCGCCGCTTCCTCGATGC -GGTCGGCGTCGTAAAGCAGCACGCCCAGATACCGGATGCGACCCACGCAGGTTTCTGAGCACACGGTCGGTTGACCGGAC -TCAATTCGTGGGTAACAGAAGATGCATTTTTCTGACTTGCCGCTTTTCCAGTTGAAGTAGATTTTTTTGTACGGACAACC -GCTTATGCACAAACGCCAGCCACGGCATTTATCCTGATCAATCAGCACAATGCCGTCTTCTTCGCGTTTGTAGATAGCGC -CGCTTGGGCAGGTCGCCACGCAGCTGGGATTGAGGCAGTGTTCGCACAGGCGCGGCAGGTACATCATGAAGGTGTTTTCA -AACTGCCCGTACATCTCCTTTTGCATGGCCTCGAAGTTGCGGTCGCGGGCACGTTTTTCGAACTCACCGCCCAGCAGTTC -TTCCCAGTTTGGCCCCCAGATCACTTTGTCCATCCGTTTGCCGTCAATCAGTGAACGCGGGCGAGCAGTAGGAATATGTT -TGCCTTCCGGTGCGCTATGCAAATGTTCGTAGTCGAAGGTGAAAGGTTCGTAGTAATCATCAATCTGCGGCACCACCGGG -TTGGCGAAGATTTTGGTTATTACGCCCATCTTGTTGCCCAGACGCGGGCGTATCTTGCCATTCACATCACGCACCCAGCC -GCCTTGCCACTCTTCCTGATCTTCCCAGTTTTTCGGATAACCAATGCCCGGTTTGGTTTCGACGTTGTTAAACCATGCGT -ACTCCATGCCTTCGCGCCCGGTCCAGACGTTTTTACAGGTCACCGAACAGGTATGGCAGCCGATACATTTGTCGAGGTTA -AGCACCATGCCGACTTGTGAACGGATTTTCATTTTTTCGCCTCCTGTACCTGATCGCGACCTTCATCATCCAGCCAGTTA -ACGTTCTTCATCTTGCGGATCATGATGAACTCATCGCGGTTCGATCCGACGGTGCCGTAGTAGTTAAAGCCCCAGGCCAG -CTGCGCGTAACCGCCAATCATATGCGTTGGTTTCGGGCAAACGCGGGTAACCGAGTTATGAATGCCGCCGCGCATGCCAG -TTACTTCCGAACCAGGAATATTCATAATGCGTTCCTGGGCGTGATACATCATGGTCATGCCCGGCGGTACACGTTGGCTG -ACCACCGCGCGGGCAGTCAGCGCGCCGTTGGCGTTGAATACTTCCACCCAGTCGTTATCGACAATGGTCAGTTCTCGGGC -ATCTGTTTCGCTGATCCAGACAATCGGTCCACCGCGAGAGAGCGTCAGCATTAGCAGGTTTTCACTGTAGGTTGAGTGAA -TGCCCCATTTCTGGTGCGGCGTCAGGAAGTTAAGTGCTTTTTCCGGGAAGCCGTTTGGCGGTATCTGGCGCATCTCACTG -ACGCTACGGGTGTCGATAGGCGGGCGATAAGCCACCAGGCTTTCACCAAAAGCACGCATCCACGGATGATCCTGATAGAG -CTGCTGGCGTCCCGACAGCGTGCGCCACGGAATTAACTCATGAACGTTGGTGTATCCCGCGTTATAGGAGACGTGATCGC -TTTCCAGACCGGACCAGGTGGGGCTGGAGATAATTTTACGCGGCTGCGCCTGAATATCGCGAAAGCGAATCTTCTCGTCC -TCTTTGTGCAGCGCCAGATGGGTATGTTCGCGCCCGGTGATCTCGCCCAGCGCCTGCCACGCTTTGACTGCAACATGACC -GTTGGTTTCCGGTGCCAGTGCCAGAATCACTTCTGAAGCGTCAATGGCGGTGTCAATCAGCGGACGCCCCTGTGCCGGGC -CATCACGCTTGGTGTAATTGAGTTTGCCGAGGAAATCGATTTCATCCTGGGTATTCCACGAAATCCCTTTACCGCCATTG -CCAAGTTTGTCCATCAATGGCCCGAGCGAGGTAAAGCGTTCATACGTAGCAGGGTAGTCGCGCTCCACCGCCACAATATT -CGGCGCGGTTTTGCCTGGAATCAGATCGCATTCGCCTTTGCGCCAGTCGAGCACTTCACACGGCTGTGAGAGCTCTGCCG -GAGAGTCATGCAGTAGGGGTTGTAATACCACGTCGGTTTCTTTGCCAAGATGACCCACGCACACTTGCGAAAATGCTTTG -GCGATACCTTTGTAGATTTCCCAGTCGCTGCGTGATTCCCACGCCGGATCGACCGCCGCAGAAAGCGGATGAATAAACGG -ATGCATATCCGAGGTGTTCATATCGTCTTTTTCGTACCAGGTGGCGGTGGGCAGAACGATATCGGAGAACAGGCAGGTAC -TGGACATGCGGAAGTCGAGCGTCACCAGCAGGTCGAGCTTGCCTTCAATCGCTGCAGTTTGCCACTCGACTTCTTCCGGT -TTGATCCCGTCGCTGGCACCGAGTTCCTCGCCCTGAATCCCGCTTTCGGTCCCCAGCAGATACTTCTGCATATACTCGTG -GCCTTTGCCGGAGGAGCCAAGCAGGTTAGAGCGCCAGACAAACAAATTACGCGGATGATTGCTGCTGCTATCTGGTTGTT -CGCAGGCCATACGTAAATCGCCCGATTTCAGCGCCTGGGCGGTAAATTCTGTGGGGGATAATCCGGCCTTGTCGGCTTCA -GCTTTAATCCCGAGCGGGTTACGCCCCAGCTGCGGCGCAGAAGGTAGCCAGCCCATACGTTCGGCGCGAACGTTGAAATC -AATCAGATGACCGCTGTACTTACTGGCATCGGCGAGCGGTGAAAGTAACTCCTGAGCAGAGACTTTTTCATAGCGCCATT -GGCTGGAATGATTGTAGAAAAACGAGGTGCTGTTCATTTGGCGCGGTGGTCGGTTCCAGTCGAGCGCAAAGGCCAGTGGC -AACCAGCCGGTTTGTGGGCGCAGTTTTTCCTGGCCGACATAGTGTGCCCAGCCGCCACCGCTTTGCCCGACACAACCGCA -GAAGATCAGCATATTGATCATCCCGCGGTAGTTCATGTCCATGTGATACCAGTGGTTAACACCTGCGCCGAGGATAATCA -TCGAGCGCCCATGCGTTTTATGGGCGGTATCGGCAAATTCACGGGCGATGGTTTCAATATACTGGCGCGGCACGCCGGTA -ATTTGCTCACCCCAGGCTGGGGTGTACGGTTTGATTTCAGCGTAATCTTTCGCACTGTTTTCATCTTCCAGCCCGCGATC -GAGGCCGTAATTCGCCAGTACCAAATCATAAACGCTGACCACCGGACAGGTGTTGCCATCGACTAACGTCAGGTTTTTAA -CGGGCAATTGGCGCACCAGCACCGGATTGTGTTTTACGCTGCGAAAATGCGGATTTTCAATGCCGCCAAAGTAGGGGAAG -GCCACGCCTGCAACAGCGTCATGTTGACCGAGCAGGGTTAACGACAATTCGGTTTCCGTACCGGCGGCAATGGATTCCAG -ATTCCATTTGCCTTTTTCTCCCCAGCGGAAACCAATCGAACCGTTCGGCACTACCAATTCACCTGCGGTATTAACTGCTA -CGGTTTTCCACTGCGGATTGTTGCTTTCGCCCAGTCCATCCACCAGGTCAGATGCGCGGATCATGCGCCCGGGAACGTAG -CTACCATCGTCGCGAGGCTCCAGCATTACCAGCATCGGCATGTCGCTGTAGCGGCGGCAGTAGTTGATAAAGTAGTCGCT -GGGATTATCGAGATGAAACTCTTTTAAAATCACATGGCCCATTGCCATCGCCAGGGCGCTATCAGTGCCTTGTTTCGGTG -CCAGCCACTGGTCGCACAATTTGGCCACTTCAGAGTAGTCAGGGGTAATGGCGATGGTTTTAGTGCCTTTGTAGCGTACT -TCGGTAAAGAAGTGGGCGTCCGGCGTACGTGTCTGCGGTACGTTAGACCCCCAGGCGATGATGTAGCTGGAGTTATACCA -GTCGGCAGATTCCGGTACGTCGGTTTGCTCGCCCCAGGTCATCGGCGAGGCGGGCGGCAGGTCGCAATACCAGTCGTAGA -AACTTAAACAGGTGCCGCCAAGCAGCGACAGATAACGCGTTCCGGCGGCGTAAGAAACCATCGACATCGCCGGGATCGGC -GAGAAACCGGCAACGCGATCCGGGCCGTAGGTTTTGATGGTCCAGACGTTAGCGGCGGCAATCAGCTGGTTTAGTTCCTG -CCAGTTGGAGCGGATAAACCCGCCGCGCCCACGCACTTGTTTGTAGCTCAGGCACTTTTGCGGATCGTTCATAATCGATG -CCCACGCCAGTACCGGATCGCTGTGTTGCTTGAGGGCTTCGCGCCACAGTTCAATCAGTCGTTTACGAATGAGCGGGTAT -TTCAGGCGGTTAGCGCTGTAAAGATACCAGGAGTAACTTGCGCCACGCGGGCAGCCGCGAGGTTCATGATTGGGCAGGTC -AGGGCGAGTGCGCGGGTAGTCGGTCTGTTGGATTTCCCAGGTCACCAGACCATTTTTAACGTAGATTTTCCAGCTACAGG -AGCCTGTACAGTTAACACCGTGGGTGGAACGCACGATTTTGTCGAACTGCCAACGCTGGCGATAGCTGTCCTCCCAGTCG -CGGTTGCTATGCATCACCTGTCCGTGACCATCGGCAAAGGTTTCGCCCTTTTGTTTGAAGTAGCGAAAGCGATCCAAAAG -TTTACTCATGACATGACTCCTGCTCCAGGAATGAATTGGGATCTGATGCCTTGTCGGATGCGACACGGTTGTACATCAGG -CATCGATCTCTTATTTTTGGCTGAACTTCCGCCGACCATAAACCAGCCAGGTCAGCAGCACACAAACGATGTAGAAGATT -AAAAACACTTTCATCGCGCCGACCGGAGAGCCGGTCATATTGAGCGACATGCCAAACGCCTGCGGAATAAAAAAGCCGCC -CACTGCGCCAATGGCTGAGATAAAGCCCAGAGCCGCCGCCGTTTCGGTGACGGCTTCTTTATGAGCTTGCTCATCACTAC -CGCCTTTCATCTTTACCCGATAAATGGTTATCTGGCGAAAGATGACGGCGATCATCTGGAAAGTAGAACCACTTCCCAGA -CCCGCAGTCAGAAACAGCCCCATAAATACGGCGTAAAAGGCGATGAAATTACCGGAGCCTGTGCCCGGTAAGGTAAGGAA -CAGCAGGGCACTGAAAATCGCCATAAAAATAAAGTTGATCAACGTCACCCGCACGCCGCCGAACTTATCGGAAATAGCAC -CACCAACCGACCGCGCGATGGCACCGATAAATGGGCCAAAGAACGCCAGGCGCAGAATATTCACATCCGGGAACTGGGTT -TTTGCCAGCATGGCAAAACCCGCAGAAAAACCGATAAACGAACCGAAGGTGGCAAGGTAAAGCAGGCTCAGCAGCCAGAG -ATGCAGGCGTTGTAAGACAGGGAGCTGGTCGGCAATTGAGGCGCGTGAACTGGCGATATCATTCATCCCTGACCATGCGG -CGATCGTGGCAATCGCCAGTAGCGGTACCCAAATCCATGCGGCATTCGCCAGCGACATCACCGAACCGTCGGCCTGCGGT -ACGCCATTGACGCCGAGAAAGGCAAATACAGGTACAAAAATGACCAGCGGTGCAACCAGCTGCATTACACTTACACCTAA -GTTTCCTAATCCGCCATTAATCCCAAGAGCGCTCCCTTGTTTGGCTTTTGGAAAGAAGAAACTGATATTGCCCATGCTCG -AAGCAAAGTTTGCACCTGCAAAACCGCATAGCAAAGCGATAACGATAAATATCCCAAAAGGAGTATTCGGATTTTGCACG -GCAATTCCGAGCCAGACGCAAGGAATAATCAGGATTGCAGTACTAAAAACCGTCCATCGGCGTCCACCGAATATAGGCAC -CATAAAGGAGTAGGGAACACGCAATAATGCGCCAGAAACGGAGGGTAATGCGGTTAATAAAAAGAGTTGATCGGTAGTAA -AATTAAAACCGATTTTATTGAGATTAACGGTAACTGCGCTAAATAGCATCCAGACACAGAAGGCAAGAAGTAGACAACTG -ACTGATATCCAGAGATTTCTTCGAGCAATATGTTTTCCTTTATTTTCCCAGAAGGCCGGATTTTCTGGTTTCCAGTCGCG -CAAAAGATAACGACTATTTTTCTCATTTTGCAGTGCCATATTGTTCCTCACATGCACACATTGGTAATGAAAAAAAGACA -AAACACGAGGTAAGGCGCAATAGCCAGTTATTAGAATTAAGGATGAATTGGGTGAAGTGCTGATTGAAAGAATAGATAAG -AAAGCGTAACCGCGGGGGCAGAATGGGGATTAAGTAGCCAGATATGTGTTACTAAATGTAACTAACAAGCTAACCTTCAA -ACGGGGTTAATCTTTGAACGTATGTCATGTTTCAACCCTTCAGATCGTGAATCTAAAGGGTTACATATTAACTATATTAT -CAACAAGACCAGACACTTATAGAATTAGTGATGATTTATTCACTAAAAAGGCCATGAACTGGAGGAAAACGATCTGTCCA -GAAGGTCTATCGGTTCCTCTCTTATTGCCTGATTGTAATAATCGTTATTACAGTAAGTATTGTTTATTTCATCTAAGGTC -ATGTTTTTAACTTTTATATTCATCTGGTTTACAACTTCCTCTGTCTTGTAAGTGTGTATATTATATGGGGTATATGCTTT -TTTAATAGGATAGTGAAACAATTCGTTATCCACATCTATTCCGTCAGAGTGAACTTCAAATGCACCAGGCGAAAGAATTG -CCAGGCCAGTATTAAGCTTAAGTGCTGGGGAAAACAAATTAAATAACATGAGCTGCATAGTAGGGCAATTGTTCTTCCCA -GAAACATTTAAAAAATTTAAGTTTTGCTCTGTTTTATTATGGGGAATAAAGTTCCAATATCGGATGTATTATTAGTATCA -ATGTGGGTTATTTTATTATTGTCCAGTCTTAAACTTTTGATAGATGGAAGATAAGTCAGGAAATCAAGATTTATATATTT -CAACTGGTTGTTAGCAGCGTTTAATGTCTGAACATTGCAGAAGTTGCTATAGAATATTTTAATTTCAGAAAGCAAATTGT -TGTTAATAAGTAACGTATTCAAGTTGGGAAATAAGTCATTGTGTAAACTTGTTAGTTTATTATGGGATAGATCCAGCAGT -AAGAGTTCATTTTTATTACCTGCAACAATATCAGTTAATTGATTATGGCTGAGATTCAGGTATTGCAGCCATTCGCAAGA -TTCTAATTGCACAAACTCTAGTTGATTATGTGCCGCACTAAAATAAGTAACTGATGAAAGCCTATCTATATCAATATTTC -TGAGAGCATTATTATTCATAGATATATGTGTAATACTTACATTTCTGCCTTGAGGAAAATTTATTGACTCAAGAGCATTA -CTATTCAGACTTAGCTTTACGAGTCTATCGTAGTTGGTTGCATCAAAATGTGTGAATTGGTTATTATCAAGATTGATAGA -TGTGAAGTTTTGCAGCCCTGGTGGTTGAGTGGTTAAATTAAGTCCTGATAAATCAATGGTCACTTCATTAGTGTCATCAA -TTATATTTCTTACTGCAGTCCAGTACTGCATTTGTGCAAGTGGATCATTGTTGATGCCGTTAACTAATACATGCCAAAGA -TGTTTTGATGATATTAGTTGATCAATGTCATTGGTTGGCAGTAAATTGTTATTGCTTAAGTTTAAATATTCCAGTTTTGT -AGTGTTTTTGGCGTTTAAATGTGCAATATGGTTGTCGTTTAAAGTGATTGTTTTCATCCTGGGATGATTGTGTAATATAA -GGTCAGTGATCATATTGTGATGGGCACTTAACTCAATCAGAGATTCTTGCCGCGCGAGCCGTTGGCTTCATCGTTATAGC -CTTTAAAATCATATTCCCAGTGACCAAAACCAATCATTTGATCATTGATTTGCGTTTCTCCTTTAAAGCCGAGACGGGCA -TAAGTTTTATCACCATCGTCACGCTTATCATCAGTAAAATAACGTAGAGCGGTAACCTTGCCATAAAGGTCGAGTTTATT -ACCATCCTTGTTATAGACTTCGGCAGCGTGTGCTACGTTCGCAGCTAACAAACCAGTTACAACCACCGCAACTATTTTTA -ATTTCATTTAACAGAATCCTTTTAATTATCGTTAAACGTATTTTCTAAACGAATTTTAAACGGCGTCATTTATAAATGAC -ATACTGTTTTTAAAATAGAATGGTGATTAAAAACAATGAGAAAAATAGATGAAATAATATTATTTATCGATATGTGATCG -AAGTCGAAATGAGATATAAGGTGAATTACTGGTATTTGAAATTTATTTTTTTAATATTGTCGGAATTTATCTGATTAACT -ACCGGGCCGTAGACCCGGCAGTTATTTTAACCACGACGTGTCGCCAGCCAGCAGAGCAGGGAACCGCCGCAGACCATCAG -CGCGCCTTGCCAGAACGAGAACGACAGCGGGGCGCTGAGCAGCACGGCTGCAAGCGCTGAGGAAAGTACAGGCGTAAAAT -ACGAACCTACCGCCATAATGGTGACATTGCCATGCAATATACCGACATTCCATGCAGCATAAGCAAATCCTAAGGTAAAT -GCCGCAGAGATGAGTTTAATCATGACGGGCGTGCTAAATATCATTTCTGGTTGTGGCGTAAGAAAATAGTAAACCCACAG -ACTTGCTCCCGTTAGCAGGACAAAAACGGTAATTCCATTAAATCCGCGTGCGTATTTATTCGTTACTGTGCAATAGGCTG -CCCAGATAAACGCACCAATGAACGCCAGGAAATAACTCAATGGGCTGGTGGTGATATTATTGATGATTTCATCATAATGT -AACCCATTGTCACCGCCTAACACCCAACAGACGCCGACGAGGGCTAATAATAATCCAGGTACAATCAACCAGTTGGTTTT -CTGACCATTAAACAGAATGGCAAAGAGAATTGTCAGGCTGGGCCACAGATAGTTCACCATACCCACTTCAATCGCCTGAT -GATGGGTCGCCGCATACCCTAAGGAAAGCGCCAGACAGATTTCATAGCTGACGAATAACAGACTCCCGGCGAGTAAATAG -CCTTTCGGGATTTGCCGAATACGCGGAAATCCAACCGTGAAGATTAACAGCAGCCCGCTTAATGAATAGATAGCAGCTGC -GCCGCCGACCGGGCCGAGCCCCTCACTGACACCGCGAATCAATCCTACCATCGTGCTCCACAGGACGATCGCTATCAGCC -CTATGAGCGTTGCTTTTTGTCGTGTCATGCTCGCTGTTTTGTCTCTCTTGCCGTTAAAAATTAAGCTGAATTTTATAGCA -TTTTTTTAACTGGCCTGTCAGGCAGTGGTGCGTTTTTCTACCGCTATTGAGGTAGGTCAATTTGCGAAGGCGGATTATTT -TGTGGCAAACAGATGTTCTTTTTGATTTCGCGCAAAAAGATTCAGAATTTTACTGTTAGTTTCCTCGCGCAGTAATACCC -CTGAAAAAAGAGGAAAGCAATGGACGTCAGTCGCAGACAATTTTTTAAAATCTGCGCGGGCGGTATGGCTGGAACAACAG -TAGCGGCATTGGGCTTTGCCCCGAAGCAAGCACTGGCTCAGGCGCGAAACTACAAATTATTACGCGCTAAAGAGATCCGT -AACACCTGCACATACTGTTCCGTAGGTTGCGGGCTATTGATGTATAGCCTGGGTGATGGCGCAAAAAACGCCAGAGAAGC -GATTTATCACATTGAAGGTGACCCGGATCATCCGGTAAGCCGTGGTGCGCTGTGCCCGAAAGGGGCCGGTTTGCTGGATT -ACGTCAACAGTGAAAACCGTCTGCGCTACCCGGAATATCGTGCGCCAGGTTCTGACAAATGGCAGCGCATTAGCTGGGAA -GAAGCATTCTCCCGTATTGCGAAGCTGATGAAAGCTGACCGTGACGCTAACTTTATTGAAAAGAACGAGCAGGGCGTAAC -GGTAAACCGTTGGCTTTCTACCGGTATGCTGTGTGCCTCCGGTGCCAGCAACGAAACCGGGATGCTGACCCAGAAATTTG -CCCGCTCCCTCGGGATGCTGGCGGTAGACAACCAGGCGCGCGTCTGACACGGACCAACGGTAGCAAGTCTTGCTCCAACA -TTTGGTCGCGGTGCGATGACCAACCACTGGGTGGATATCAAAAACGCTAACGTCGTGATGGTGATGGGCGGTAACGCTGC -TGAAGCGCATCCCGTCGGTTTCCGCTGGGCGATGGAAGCGAAAAACAACAACGACGCAACCTTGATCGTTGTCGATCCCC -GTTTTACGCGTACCGCTTCTGTGGCGGATATTTACGCGCCTATTCGTTCCGGTACGGACATTACGTTCCTGTCTGGCGTT -TTGCGCTACCTGATCGAAAACAACAAAATCAACGCCGAATACGTTAAGCATTACACCAACGCCAGCCTGCTGGTGCGTGA -TGATTTTGCTTTCGAAGACGGTCTGTTCAGCGGCTACGACGCTGAAAAACGTCAATACGATAAATCGTCCTGGAACTATC -AGCTCGATGAAAACGGCTATGCGAAACGCGATGAAACACTGACTCATCCGCGCTGTGTGTGGAACCTGCTGAAAGAGCAC -GTTTCCCGCTACACGCCGGACGTCGTTGAAAACATCTGCGGTACGCCAAAAGCCGACTTCCTGAAAGTGTGTGAAGTGCT -GGCCTCCACCAGCGCACCGGATCGCACAACCACCTTCCTGTACGCGCTGGGCTGGACGCAGCACACTGTGGGTGCGCAGA -ACATCCGTACTATGGCGATGATCCAGTTGCTGCTCGGTAACATGGGTATGGCCGGTGGCGGCGTGAACGCATTGCGTGGT -CACTCCAACATTCAGGGCTTGACTGACTTAGGCCTGCTCTCTACCAGCCTGCCAGGTTATCTGACGCTGCCGTCAGAAAA -ACAGGTTGATTTGCAGTCGTATCTGGAAGCGAACACGCCGAAAGCGACGCTGGCTGATCAGGTGAACTACTGGAGCAACT -ATCCGAAGTTCTTCGTTAGCCTGATGAAATCTTTCTATGGCGATGCCGCGCAGAAAGAGAACAACTGGGGCTATGACTGG -CTGCCGAAGTGGGACCAGACCTACGACGTCATCAAGTATTTCAACATGATGGATGAAGGCAAAGTCACCGGTTATTTCTG -CCAGGGCTTTAACCCGGTTGCGTCCTTCCCGGACAAAAACAAAGTGGTGAGCTGCCTGAGCAAGCTGAAGTACATGGTGG -TTATCGATCCGCTGGTGACTGAAACCTCTACCTTCTGGCAGAACCACGGTGAGTCGAACGATGTCGATCCGGCGTCTATT -CAGACTGAAGTATTCCGTCTGCCTTCGACCTGCTTTGCTGAAGAAGATGGTTCTATCGCTAACTCCGGTCGCTGGTTGCA -GTGGCACTGGAAAGGTCAGGACGCGCCGGGCGAAGCGCGTAACGACGGTGAAATTCTGGCGGGTATCTACCATCATCTGC -GCGAGCTGTACCAGTCCGAAGGTGGTAAAGGCGTAGAACCGCTGATGAAGATGAGCTGGAACTACAAGCAGCCGCACGAA -CCGCAATCTGACGAAGTGGCTAAAGAGAACAACGGCTACGCGCTGGAAGATCTCTATGACGCTAATGGCGTGCTTATTGC -GAAGAAAGGTCAGTTGCTGAGTAGCTTTGCGCATCTGCGTGATGACGGTACAACCGCATCTTCTTGCTGGATCTACACCG -GTAGCTGGACAGAGCAGGGCAACCAGATGGCTAACCGCGATAACTCCGACCCGTCCGGTCTGGGGAATACGCTGGGATGG -GCCTGGGCGTGGCCGCTCAACCGTCGCGTGCTGTACAACCGTGCTTCGGCGGATATCAACGGTAAACCGTGGGATCCGAA -ACGGATGCTGATCCAGTGGAACGGCAGCAAGTGGACGGGTAACGATATTCCTGACTTCGGCAATGCCGCACCGGGTACGC -CAACCGGGCCGTTTATCATGCAGCCGGAAGGGATGGGACGCCTGTTTGCCATCAACAAAATGGCGGAAGGTCCGTTCCCG -GAACACTACGAGCCGATTGAAACGCCGCTGGGCACTAACCCGCTGCATCCGAACGTGGTGTCTAACCCGGTTGTTCGTCT -GTATGAACAAGACGCGCTGCGGATGGGTAAAAAAGAGCAGTTCCCGTATGTGGGTACGACCTATCGTCTGACCGAGCACT -TCCACACCTGGACCAAGCACGCATTGCTCAACGCAATTGCTCAGCCGGAACAGTTTGTGGAAATCAGCGAAACGCTGGCG -GCGGCGAAAGGCATTAATAATGGCGATCGTGTCACTGTCTCCAGCAAGCGTGGCTTTATCCGCGCGGTGGCTGTGGTAAC -GCGTCGTCTGAAACCGCTGAATGTAAATGGTCAGCAGGTTGAAACGGTGGGTATTCCAATCCACTGGGGCTTTGAGGGTG -TCGCGCGTAAAGGTTATATCGCTAACACTCTGACGCCGAATGTCGGTGATGCAAACTCGCAAACGCCGGAATATAAAGCG -TTCTTAGTCAACATCGAGAAGGCGTAAGGGGGCGAACAGATGGCTATGGAAACGCAGGACATTATCAAAAGGTCCGCAAC -TAACTCCATCACGCCGCCTTCTCAGGTGCGTGATTACAAAGCAGAAGTCGCAAAACTTATCGACGTTTCCACCTGTATCG -GCTGTAAAGCCTGTCAGGTGGCGTGTTCGGAGTGGAACGACATCCGTGATGAAGTGGGGCACTGCGTCGGGGTTTACGAT -AACCCCGCCGATCTGAGCGCCAAGTCCTGGACGGTGATGCGCTTTAGCGAAACCGAACAGAACGGCAAGCTGGAGTGGCT -GATCCGTAAAGACGGCTGTATGCACTGTGAAGATCCCGGCTGCCTGAAGGCGTGCCCGTCTGCTGGTGCAATCATTCAGT -ACGCTAACGGGATTGTCGATTTCCAGTCGGAAAACTGCATCGGCTGTGGTTACTGCATTGCCGGGTGTCCGTTTAATATT -CCGCGCCTCAACAAAGAGGATAACCGGGTATATAAATGCACGCTCTGCGTCGATCGCGTCAGCGTCGGCCAGGAACCGGC -TTGTGTGAAAACCTGTCCGACCGGGGCTATCCACTTCGGCACCAAGAAGGAGATGCTGGAGCTGGCGGAACAGCGCGTGG -CGAAACTGAAAGCGCGTGGTTACGAACATGCTGGCGTCTACAACCCGGAAGGGGTCGGTGGTACGCACGTTATGTACGTG -CTGCATCACGCCGATCAGCCGGAGCTGTATCACGGTCTGCCGAAAGATCCGAAGATCGACACCTCGGTAAGCCTGTGGAA -AGGCGCGTTGAAACCGCTGGCAGCGGCTGGCTTTATTGCCACTTTTGCCGGGTTGATTTTCCACTACATCGGTATTGGCC -CGAATAAGGAAGTGGACGATGACGAGGAGGATCATCATGAGTAAGTCGAAAATGATTGTGCGCACCAAATTTATTGATCG -CGCCTGTCACTGGACCGTGGTGATTTGCTTCTTCCTGGTGGCGCTGTCCGGGATTTCGTTCTTCTTCCCGACGCTGCAAT -GGCTGACGCAAACCTTCGGTACGCCGCAGATGGGACGCATTTTGCACCCGTTCTTCGGCATTGCGATTTTCGTCGCACTG -ATGTTTATGTTTGTGCGTTTTGTGCATCACAACATCCCGGATAAGAAAGATATTCCGTGGCTGTTGAACATTGTCGAAGT -ATTGAAAGGCAATGAGCATAAAGTGGCGGATGTCGGTAAGTACAACGCCGGGCAAAAGATGATGTTCTGGTCGATCATGA -GCATGATTTTCGTGCTGCTGGTGACCGGGGTGATTATCTGGCGTCCGTACTTTGCGCAGTACTTCCCGATGCAGGTTGTT -CGCTACAGCCTGCTGATCCACGCGGCTGCGGGTATCATCCTGATCCACGCCATCCTGATCCATATGTATATGGCATTTTG -GGTGAAAGGATCGATTAAAGGGATGATCGAAGGGAAGGTAAGTCGTCGCTGGGCGAAGAAACACCATCCGCGCTGGTATC -GTGAAATCGAGAAGGCAGAAGCGAAAAAAGAGAGTGAAGAAGGGATATAATCTCTTTTGAACTTTAAGCTGAAAATGGCG -CTGTAAAAGGCGCCATTTTCATATTGTAGACAACGTAGGCTTTGTTCATGCCGGATGCGGCGTGAACGCCTTATCCGGCA -TGAAAACCCTTCAAATCCAATAGATTGCAGTGAACGTGTAGGCCTGATAAGCGTAGCGCATCAGGCAATGTTGCGTTTGT -CATCAGTTTCAAATGGCGCTGTAAAAGGCGTCATTTTCATATTGTAGACAACGTAGGCTTTGTTCATGCCGGATGCGGCG -TGAACGCCTTATCCGGCATGAAAACCCTTCAAATCCAATAGATTGCAGTGAACGTGTAGGCCTGATAAGCGTAGCGCATC -AGGCAATGTTGCGTTTGTCATCAGTTCTAAATGGCGCTTTATAAAGTGCCATTTTTTTATTGCGTAACCAGACGGCGTAA -TCGCGACACATCCACTGTTTTTTCTGCCTCTGCCAGACTCCAGGCGTTTTGCAGATTCAGCCACATTTGCGGCGAACTGC -CGATCACCACGGAAAGTTTAATCGCCATTTCTGGCGTCAAAGCTGCTTTTCCTGTCAGCAATCGGCTTGCCGTTGAGGGA -GCAATTTCCATTGCTCTGGCAAACTCGCGCAGGCTGACATTAAGTTCGTCCAGTGATTCCTGAATAATGTCCCCCGGGCG -GGGATGATTGGCCATTTTCATTAGTGTCTTTACTCTCAGTAGCGTTCCTTCACTGGGAACACTATCATTATTGTTCCTTC -CTACGCAACAATAATCCATTTAGCCATTTCATGTTGGAGAGTGTGCGATGCTGCGACCCGAACATGGCAGTCGCAGCAAA -GGCCTCTTAGTGACGGAAATCAATCACCATGCGGCCACGGATTTTGCCTTCTTCCATCTCAGTAAAGATGGTGTTGATGT -CCGCTAACGGACGCAGGGCGACTTTCGGCACCACTTTACCTTCGGCGGCAAACTGGAAGGCTTCAGTTAAATCCTGGCGC -GTGCCGACCAGCGAACCGACCACTTCAATACCATCCAGCACAAGACGTGGGATATCCAGGCTCATAGACTCCGGCGGTAG -ACCGACAGCCACAACACGACCGCCTGCACGGACAGCATCAACTGCCGAGTTAAACGCAGCTTTAGCTACCGCTGTTACCA -CCGCAGCGTGAGCGCCACCAGTTTTCTCCTGCACAATTTTGGCGGCGTCTTCGGTGTGTGAGTTAATCGCTAAATCTGCG -CCCATTTCGGTTGCCAGTTTTAACTGCTCATCATTGACATCAATGGCGATCACTTTGGCGTTAAAGACATTCTTCGCGTA -TTGCAGGGCGAGGTTACCCAGACCGCCAAGACCGTAGATAGCAATCCACTGCCCTGGACGAATTTTTGACAGCTTAACGG -CTTTGTAGGTGGTGACTCCCGCACAGGTAATGCTGCTGGCCGCCGCCGAGTCCAGACCATCTGGCACTTTTACCGCGTAA -TCGGCGACCACGATGCACTCTTCCGCCATCCCGCCATCAACGCTGTATCCGGCATTTTTAACTGAACGGCAGAGCGTTTC -GTTACCACTGTTACAGTATTCGCAATGACCGCATCCTTCGTAGAACCACGCCACGCTGGCACGATCGCCTGGTTTTAATG -AGGTGACACCTGGACCCACTTCTGCCACCACACCGATGCCTTCATGGCCCAGAATTACGCCGGTTTTGTCACCAAAATCG -CCATTCTTAACATGAAGATCGGTATGACATACACCACAACACTCCATTTTCAGCAGGGCTTCGCCATGTTTCAGTGAGCG -CAGTGTTTTATACGTAACGTCAACATGATGATCCTTCGTAACAACTGCAGCCTTCATAGTTCCTCCTTTTCGGATGATGT -TCTGCATAGCAGGTGAGGCAAATGAGATTTATTCGCCACTACCCAGTATGGATGAGATCTGAAAAAGGGAGAGGGAAATA -GCCCGGTAGCCTTCACTACCGGGCGCAGGCTTAGATGGAGGTACGGCGGTAGTCGCGGTATTCGGCTTGCCAGAAATTAT -CGTCAATGGCCTGTTGCAGGGCTTCGGCAGAGGTTTTCACCGCCACGCCTTGCTGCTGCGCCATTTTGCCAACCGCAAAC -GCAATTGCGCGGGAGACTTTCTGAATATCTTTCAGTTCCGGCAGTACCATACCTTCGCCGTTCAGCACCAATGGTGAATA -CTGCGCCAGCGTTTCACTTGCCGACATCAGCATCTCATCGGTGATACGTGACGCGCCGGAAGCAATAACACCCAGGCCGA -TGCCCGGGAAAATAAAGGCGTTGTTACACTGGGCGATAGGGTAGATTTTATCTTTCCATACCACTGGATTAAACGGGCTG -CCCGTGGCGACCAGCGCGTTACCTTCGGTCCAGGCGATAATGTCCTGCGGTGTGGCTTCCACGCGTGACGTCGGGTTAGA -CAGCGGCATCACGATCGGACGCGGACAGTGTTTATGCATCTCACGGATGATCTCTTCCGTAAACAGCCCGGTCTGTCCTG -AGACGCCAATCAGAATATCTGGTTTTACATTGCGCACCACATCCAGCAGTGACAGCACATCGCTGTCGGTATCCCAGTCA -CTGAGGTTTTCGCGCTTCTGCACCAGTTTGGTCTGGAAAGGCAGCAGGTTCGGCATCTTGTCAGTCAGCAAGCCAAAGCG -ATCGACCATAAAGACTTTCTGCCGCGCCGCTTCCTCGCTTAATCCTTCGCGCTGGGTCTGGGAGATGATCATTTCGGCAA -TGCCGCATCCCGCTGAACCTGCGCCAAGGAAGACGATTTTTTTCTCGCTTAACTGACCACCTGCCGCGCGGCTTGCTGCG -ATCAGTGTGCCGACTGTTACCGCCGCAGTGCCCTGAATGTCATCGTTAAAAGAACAAATTTCATTGCGATAGCGGTTAAG -TAACGGCATCGCATTTTTTTGAGCAAAGTCTTCAAACTGCAACAGCACGTCTGGCCAGCGTTGTTTCACAGCCTGGATAA -ATTCATCAACGAATTCATAGTATTCGTCGTCAGTGATACGCGGATTACGCCAGCCCATATACAGCGGATCGTTAAGCAGC -TGTTGGTTGTTCGTTCCGACATCCAGCACCACCGGAAGGGTATACGCCGGGCTGATGCCGCCACAGGCGGTATAGAGCGA -CAGTTTACCGATCGGAATGCCCATCCCGCCGATGCCCTGGTCACCAAGCCCCAGAATGCGTTCACCGTCAGTCACCACAA -TCACTTTAATATTATGGTTCGGCACGTTTTGCAGAATATCGTCCATATTGTGCCGGTTCTGGTAAGAGATAAACACGCCG -CGTGAACGGCGGTAGATCTCAGAAAAACGCTCACAGGCTGCGCCGACGGTTGGGGTATAAATAACAGGCATCATCTCATC -AAGATGATTGTTTACCAGACGGTAGAAGAGGGTTTCGTTAGTGTCCTGGATGTTACGCAGGTAGATGTGTTTGTCGATTT -CGGTTTTGAATCCCTGATACTGGATCCATGCTCGTTCCGCTTGTTCTTCGATGGTTTCGACCACTTCCGGCAGTAACCCC -AGCAGGTTGAAGTTACGGCGTTCTTCCATGCTGAAGGCACTGCCTTTATTCAACAACGGAAATTCCAGCAGTACAGGGCC -AGCGTAAGGGATATAAAGCGAACGCTGTTTTTTTGTTTTTGGTTCCATGTCACTCACTCTTTTTTGAATATCCATCCCTG -GGGGGCTTTTATCGTCTTTGCTTTACCGCCAGGGCGTCGGCCTCAAGTATAAAGCAGATAAAAACAAAAACACCATTGCG -CAGGCAATGGTGTTTAATCGTCATTGAGGACTGATGGTTATGAATTACTTTTCAGCGGGGCGTTTTCTGCCGGTTGGGTT -ATTTACTACGCTGGATTTGTCACCTTCGGTAACTATTTTGCGCTGGTTAGAAATTTTATGGTCCAGTCCAAGAATATGAC -GTGCCTGACGGTTCGATTTCATTTTAACTCCTCAATCCTGTAGCTAGTTTTAAGGACAACATCGCCGTAGCGAAGAAACA -CGTGCTAAACCCCTAAATTAGGTTGCCGATCAAGCATAGCACCTTAAAGCGTAGGGTGCTGGCCACTGACCACATAATTG -ATCGTTTGCTGGTAGATATCACTGAGGATGTCGTTATCAGAAGCTTCAACCCATTTGGTCAGCTCCATGAGAATGTCATC -TTCAGTGACAACACCATGCTGTGCCCGAAGGCCTTGCTCAATGGCATTAACCAGAGCGGGTTCTGCTGTTGAATTTTCTG -CCTGATAATAAGTAAACATAGTGATTCTCCGTGTCTGTGTATTTATGGTGTCTGCTACGGATCGCAGATTTATAAAGCAC -ATTCAGCATGGCAAATATTTGCCGCTTCGTTGTTAAGATTAGTCCTGGTTGATGATTTTTATATTTTAACACCATGATAT -TCATAGGGATTGTGATTGGTATGATCCGATTAATATTGATACAATATCTTTTGGGTTATATATTCCCGGTAATCTATTGT -GGGAATTTAATTTAAGTGCAGAAGTAATATTTTCGCCGGATTTTATTCGGAATATCCTGCTTATCCTCGTGCTGTTTCTC -ACGTAGTCTATAATTTCCTTTTTAAGCCCACAGGAGAGCAACAATGACAATCCATAAGAAAGGTCAGGCACACTGGGAAG -GCGATATCAAACGCGGGAAGGGAACAGTATCCACCGAGAGTGGCGTGCTGAACCAACAGCCGTATGGATTTAACACGCGT -TTTGAAGGCGAAAAAGGAACCAACCCTGAAGAACTGATTGGCGCAGCGCATGCCGCATGTTTCTCAATGGCGCTTTCATT -AATGCTGGGGGAAGCGGGATTCACGCCAACATCGATTGATACCACCGCCGATGTGTCGCTGGATAAAGTGGATGCCGGTT -TTGCGATTACGAAAATCGCACTGAAGAGTGAAGTTGCGGTGCCGGGTATTGATGCCTCTACCTTTGACGGCATAATCCAG -AAAGCAAAAGCAGGATGCCCGGTCTCTCAGGTACTGAAAGCGGAAATTACGCTGGATTACCAGTTGAAATCGTAAAGCAT -TGCCGGATGACGCGTCAGGCGCGTGAATGCCTGATGCGTTGTTAGCATCTCTACAGCGCCCGCCAGCACCGGAGCTCACG -TCCGTCCTCCCTTATTGCTAATGATTGCCGGACTTCACATCCGTGGGTTGCCAGCGGGCAACGTTCGTAGAAAAAACAGC -CTTGCGGCAACGTGCGGTTTCCCGGCAGATCCGTTTTACGTAATGCCCATTCTTCCTCCAGCGGTTTATCAATGGCGGGG -AGGGAATCCAGCAATAATCGGGTGTATGGATGTGCAGGTGCCGTCAGCACCTGCTGCGCGTCGCCCAGTTCTACAATCTG -CCCGAGATACATCACCGCCACCCGATCGCTCATATGACGTATCACCGAGACATTGTGTGAAATCAGCACATAGGTCAGCC -CGTGATTTTCCTGTAGCGTTACCAGTAAATTGAGGATCTGCGCCTGAACGGAGATATCCAGCGCAGAGGTTGGCTCATCA -AGCACAATCACGTCAGGCTGCGAAGAGAGTGCTCTGGCAATGGCGATACGTTGCCGCTGCCCGCCGGAGAACGCATGAGG -CAGGCGGTCGAGATACTCCGGACGAATACCCACCTGCACAGCCAACTCCTCTGCCAACGCTCGCCGCTGTTGTTCACTAC -TACGCTTAGCTATCCAGAGCGGTTCTGTGATGATGCGCCACACCGGTAAGCGCGGATTAAGCGAAGAGAGCGGGTCCTGA -AACACCATCTGCATAATGCGTTGTGAGCCAGAACGGATGTACTGCCCGTGGCTCGGTTGCAGCATACCCATTAAAAGCTG -TGCGAGGGTGCTTTTGCCGCAGCCTGACTCGCCGACGATCCCTAAGGTTTCACCACGGCGGATCTGTAAATCAATACCAT -TAATGGCATGAACATGTTCCGTAGTTTTACCAAGCCAGTTTTTACGGGCCGGGAAATTGATATGGACGTCGCGTAACGTT -AATAACGTGTCAGACACTTATAACCTCCTGCTGCGGATACCAACAGGCACAGCGCTGGTTGTTGTCACCACACGCTGTCA -GCGCCGGGACGTTTTCACACTGTGCACCTGCCGCATAGCAACGATCGCGAAAAGCGCAGCCGTCAGGCAAATGGGTGAGG -TTTGGTACCGTCCCTGGAATGGCGGGTAATAGCTGGCGTGGTACTCCATGTTCTGGTGCGCATTGCAGCAAACCAATGGT -ATACGGATGCCGGGGATGATGGATAACGTCTGCCGTCACGCCGCTTTCAATTACGCTTCCGGCATACATCACGTAAACGC -TATCGCACAGTTGCGACACCACGGCCATATCATGGCTGATGAACAGAACCGCAGTTCCACTGGCGCGGGCTTTATGTTTA -AGCAAACGCAGTACCTGCAACTGCACCGTGACGTCCAGCGCCGTAGTCGGTTCGTCGGCAATAATCAATTGCGGCTCGCA -GGAGAATGCCAGCGCAATCATTACCCGCTGGCGCATACCACCTGAAAGCTCAAACGGATAGCGCGACATAACTTCCACGG -CATCCGGGATTTGCATCTCTTCCAGCAGGTCAATCGCTTTAGCTCTGGCTTCCCGACGACTTATTGGTTGATGATGGCGG -ATCACGTCCATCATCTGAAGACCTATTCGACGTGTCGGATTGAGGGCGGTCATCGGTTCCTGAAAGATCATCGCCACTCG -TGCGCCGCGCCACTGACGAAGCTGTTTTTCCCGCGCGTTAAGAACATCTTCTCCCAGCAGGGAAATCTGCCCCCGATGTA -CGCAATAACTGCCCGTCGGTAGCAGACGCATAATCAGCATTGCGGTGACTGATTTACCTGAGCCGGATTCTCCCACCAGA -CCGACAATTTCACCGCGGTTAATCTGCAAGGACACATTGTTGAGCGCGTGAACATCACCGTTAAAACCGGGGAAACTCAA -ATGCAGTTGTTGAATGTCCAGAACGGGTTGGGTCATGACTGCTTTCCTCCTGCTTTCGGGTCAAGCAGATCGCGAATACC -ATCACCAAAGAGATTAAACCCGACGGCGGTAAGCAAAATCGCTGCCCCCGGAAATGCGCAATACCACCACTGATCGAGTA -CATAGTTGCGACCATTTGCTACCATCGCGCCCCATTCAGCACTCGGTTGTTGAGCACCCAGGCCAATAAATCCCAACGTG -GCGGCCATTAAAATCGCGCTACCGATATCCAGCGATGCCTGCACGATCAGCGGCGGTAGGGAGTTACGTAAAATATGCCA -GTTGATCAGATGCCAACGAGACGCGCCAAAGGTTTTCGCCGCCTGAACATAGGTATACTGGCGTACAACTAATGCTTGCC -CCCGCGCCAGGCGCACATAAAAGGGAATTCGCACAATAGCAATAGCCAGCATGGCGTTAAACAAACTCGGCCCGAGAGCG -GCAGCCAGTGCCATTGTCAGTACCAACGAAGGAATCGACAGCATAATGTCCATGATGCGCATGATGATGGCGTCTGCGCG -TCCACCAAGCACACCGGATAGACATCCGAGTAGCGAACCAATCATACCCGCAATGGCAACCACGACTAATCCGGCGAGAA -TTGATTGCTGACTGCCGACCAGTACGCGGCTAAACAGATCGCGTCCCACTTCATCGGTGCCAAACCAGTGCGCCGCAGAA -GGCGGCAAAAGGCGGGCGGTTAAATCAATGGCGTTGGGATCATGCGTCGCCAGCCACGGTGAAAAAATCATCATCAATAG -CATTAATACAATGATGACTGCGCTGGTCACGGTGAGCGGACTGCCTTTCAGCATCCATACCAGTTTTGCACCGTTAAATC -GCGTTTGTTTTTGTGGGCGTACGGCGGACGTTTCCTCGCTTAGCATCATTCACCACCTCCACGTCCGATACGCGGATCAA -TCCACAAATAGAGCAAATCCACCACCAGGTTGACCAGCACATAAGCAAATGAAACCACGACGGCAAAGCCCATCACTGCC -GGGAAGTCGAGCGCCTGTATTGATGTTACTACCCATGCACCCATTCCGGGCCAGGCAAAAACGGTTTCGGTGAGCACTGC -GCCATACAACAAATCGCCCAGCGCCAAACCCAATACGGTAATCGATGGGATCAACGCATTGGGTAGCGCATAACATAAAA -CGATATACCAGCCGGGCAAGCCGCTGGCCCGGGCGGTACGAATGTAGTCTTCACTCAATTGTTCCAGCATCGCTGAGCGG -ATCTGGCGAGCGACAATTCCCAGGTGAACGAACGCCAGCGTTAATGCCGGTAAGATGAGATGTTGCAACGCATTGAAGAA -GACTTCACCGTTGCCTTCAAGCAGCGCATCGAGCAGATAAAAGCCGGTAACGTGCGTTGGTGGATCCAGCCAGTCATCAA -GCCTTCCGCCGCCGGGAAGAATTTGCAGATGACCATAAAACAGCACAATGACGCCCAGCCCAAGCCAGAACGCAGGTGTG -GAGATTCCGGTAATGGCCATTATTCGCACCAGATGATCCAGCCAGCGATTTCGCCAGACTGCAGAGAGTATGCCCAGCGG -GATGCCAATCAGGAGTGCCAGCAGCAGGGCACCAAAAGCCAGCTCCAGCGTCGCCGGGAAAAATATACGCAACTCTTCCA -GCACCGGACGCCCGGTACGAATGGATGTTCCCAGGTCACCATGAAACAGGTCGCTGACGTAGCGGTAAAACTGTACATAC -AGTGGCTGGTCCAGTCCCAGTTGCTGGCGAATATTTTCCACGATAGCATCGCTGGCGCGGTCACCCGCCAGTAACCGCGC -CGGATCACCAGGGATCAGATGCGAGATAATAAACGTAATCACGCAGACGCCCGCCACCACGAGCACCAGCCCCCAGCAGC -GTTGGCGTAAAATACTCCAGAAGGTCACGTTATTTACTCATGGTATTGATATTGAAGACCTGTTCCAGCATGGGATTGAA -CACAAAGCCTTTCACCTCTTTGTTCATCGCCAGTTGGTAGTTTTTCTGGAACAGGTACACATAAGCAGCGTCATCAATGA -CGATTTTCTGTGCCTGCTGGTAGTCCCGGGTACGCTGCGTCTGGTCGGTGGTCGCAAGCGCATTGCGCAGTAACTTATCG -ACCTCACTGTTTTCATAGAACGAGCGGTTACCCGGCAGACCTTTTTTGTCTGACTCAAACCAGTAATTCATAAACATATA -CGGGTCGGCAAAATCCGGACTCCAGTTGCCAATCGCAATGTCGTAATCACCTTTACCCACTCTGTCGCGCATGGTGGCGT -TCGCCAGCTTTTCCAGCTTCACAATGATGCCCAGCTTGTTGAGACTGGATTGTGTCGCCAGAGCAATAGGCTCCCAGTTC -GGATCGTTATCGGAGTAGAGAAACGTCAGGCTGGTGGGTTTGCTCGTCACTTTATCCCATTCGGCTTTGGCTTTCGTTTC -GTCATGGTTGTATTGCATTGCCGTCGCATCGTAGCCCCACATGCCTTCCGGAATCGGGCCGCGCATCTGTTTTCCGTTAC -CACTCAGAATGCCGTTAACCATGCCCTGATAATCGGTAGACCAGGAAATGGCCCGACGCAGATCCGCCTGATTAAGAGGC -GCTTTGCTGTTATTCAGATACAGATAGGTAACGCGCAGTGACGGATACTCTGCCACATTGACTTTATTTTCCTGCTTCAG -GGCGTTGAGTTGATCCACCGGCAGCGCATCGGCAATGTCAATGTCGCCACGGGAGAGCTGCAGGCGACGGGAGGCACTTT -CACCAATAATTTTTACCGATACCCGTTTGAAGTTCGGTTTATTGCCTGGGTAATGCGGATTTGGCACCAGAACTAATTGC -TGACCTTTTTGCCAGCTTTTCAGCATAAATGGTCCGGAACCGGCGGTATTTTGCGCGAGGAAGCCGCGAGCATCATCCGC -TGCATGTTCCTTTAAGACCGCCGGATTGATAATGGATGCACCGTCATTCGCCAGCGTGTAGAGGAACGGTGCGAATGGTT -GGCTAAGGGTAAACTTCACCGTATGTTCGTCGGGAGCATCAATCTTTAAATCTTTGGGAAATGCTTCTGCTGGCCCCTGG -CCGATTTTTAGTAGCCGCTCAAAAGAAAGTTTTACTGCTTCGGCAGTGACAGGTGTGCCATCGGCAAATTTAGCATTATC -TTTCAGGGTGAACGTCCACTCTTTTTGATCGTCAGACGCTTTCCAGCTACTTGCCAGATCGCCTTCAACGTCGGTTGAGC -CTTTATCACCGTCCGTTTTGTACTGAACCAGCCGCTGATAAGACGGGTAGGTCACTGTCCAGTCGTTATTATCTATTGTT -ACCGCCGGGTCGAGGGTTTGTGGATCGGCGGCCTTACCAATCACCAGCATATCTTTTGGTACGGCGGCGTGCGCAACCGG -GAAATTTGTGGCAAGGACGAGCGCGAGCAATGTGGGACGAAACGATATCGATCTCTTCATGACAGTTTCCTGATTAACTG -ACGTGCTGTGTGCCAGGGGATATAAAACAAGAGAATTGATCAGCGAGCAGAGGGTAACTCGCTGCCTGGGGTAATTCGAA -GTGCCACCATTCGCTGGAGATACCGACAAAACCGCCACCAGTCATTATCGCATTCAGCAACAGCCGATTGCGCTGAGCGG -CGGGCGGGACGGAAGGGTGATAGGCATGGGAGCGCTCGTGCATTTCATCGAACCCTGCGCCCATATCGAGGATGTTCCCG -TGCTCATCACGAAGCGTCAGGTCGATCGCCGTGCCACGGCTGTGATTAGAACCGACCGTCACATCAACAACATATTGCGG -GTCTGGGCAGGCTTGCCACAACATCGCCTGTGCTTGTTGTGGGCGATACGCATCGTAAATCACCAGTTGTAACCCTGACA -GCTGGGCGATGCTGATACTTTTCGCCAGCGCGGTAATCGCATCCTTGTGTAACAGACAACGCGCTTGCTGATAAATAGCT -TTACCTGTGATGTTATCAGCGCAGGCGTATTTCAATTCGATCTCCAGATCAGGGAAGATTACGGCTAAATCAACCAGTTC -GGTGGTATCCGACATAAACGGTTCCTGTATAAGACAAAAATTGCTGCGCTTTCCGCTTATGCAGATCTCATGCCATGCCG -GGATAAGCGCCAGAATGCTGGCTTAAAGTTATATTTTTTAACTTTTGATCAACATTTGTGCAGCGTAGTGCAGTTTTGGT -GCAAGAGGGGAAGTTAAGGAAGGAATCTCCCGGAATCGTAGCTGAAATCACAGTATTTAAGTGACAGTGTCACGTTAAAT -GAAAACCCGCGAGTGCGGGCGAGAGGAATTTGTCAGATTTTCAGCGGTAACACGCTGCTCATCCAGCCTGGAATTTCTTC -GGCGGGTAGGGGGCGGGAAAAGAAATATCCCTGAATAACGCGACAGTGGATCTTGCGTAGCATCTCAAATTGCTCTTTGG -TTTCGACGCCTTCCGCCACGACGGTTAAATTGAGGCTTTGCCCAATGCTGGTAATGGCTTCAAGTAAGGCAAGGATGCGT -TTTTCGGTCAGACAACGATCGACAAAACTTTTGTCAATTTTGATTTCCGTTACCGGAAGACTGACTAAGCGGGATAATCC -GGAAAAGCCCGTACCAAAATCATCTACCGATAAGCCCACGCCCATATCACGCAGGATCTGAATGCGCTTAAAGATTTCGG -TATCGTGTTCCATCATCATGCTTTCCGTGATTTCTACCGTCAGCTGGTGGCCGTCAATACCCCAGGCGTGCATTGCATCA -GACACCTGATTAGGCAGTTGATTACTGCGAAAGTGCAGCGCCGACAAGTTCACGGATAACGCCGGGATATGAATATTCTG -GCTACGCCATTCTGCTAACTGACGGCAAGCTTCCGCGATGACCCAGCGCCCAATATTTTCGATTTCACCAATCTCTTCTG -CGAGAGGAATAAACCGTGAAGGGGGCACATGACCATGCAGGGGATCGTGCCAGCGAGCAAGGGCTTCGATGCCGTACAGT -TCACCCGTTTCTGCGAAGATTTGCGGCTGGTAAACCAGTTTCAGTTGGTTATTGCTAATCGCTTCTTTCAGCGCTGCGCC -TAAAACCAAACGCTCTTTTACCATTTCGTTCATCGCCGGGCTGAAGAACTGCCAGCCGTTACCGCCATTCTTGCGAATAT -AATCCATTGCATTGTGAGCAGTGGAGAGCAAGTAATCGCGGTTTTTACCCAGGTCGTAGCTGATGCCAATACTCAAGGTA -AGCGGGAAGGGTTTATCGTCAATCATTATCGGCTTGCTGACCACATTCCGTAGCTCATCGGCGATTTGGGTAATGTTACT -GACGTCGTTTTCGAGGCTCACGAGGACAAACTGCGTACCTTCGATACGACAGAGATACTGATCCGGTTTGAGTTTTTCAC -GAAAGCGATTGACCACTTCCAGCAATGCCTGATCGGCCCACGCATAGCCAAGGCTATCAATCACATCCTGAATATGGTCA -ACACCGATGAGATACACCACGGGAGAGACGGCTTTGTCGACCAGGTCATCGAGGTAATTGTGCAGGTTATTGCGATTTGG -CAGACCGGTCATCGGATCAAATTGGATGAGTTGTTCAATATGCTGACGGCTTTTTTCCTGTTCCAGCGCCAGCGCGGCCA -TATGCTGGCTGATATCTGCCACGCGTTCGATAAAGGCGCTGGTTTCTGCTCCTGACGAGGTTTTAATTTGCAGGATCCCC -GCAGGCGCGCCATCACGCTGACGAATGGTCGCTGACCAGCTTTGCGCATTTTGAATTTCTGCACCGTGGGAAGATGACGC -CCAGTGTATCGGCATCCCGTTGCGCAGTGCGAACAGCGAAACATGCGATTCGTTGAGTACAGATTCGATGTTACGACAAA -TGATTTCCCCCATTTCATGAAATGGCGGGCTGCTGCACATGGCGGCGAGAATATTGCCTTCAAGCTGGCGAATCTGCCGT -TCTTCGGTGATATCCGAGAAAGTCATTACCAGGTTCTGCAGATGCGCGAGCACGTCATAAACCGGGCTGATAGAGGCTTT -AATCCAGATTTTTTCACCGGTGCGCGTCAACAGCAGAAATTCGTCCTGATCGCGGGCGGTTTTCCATAGCAACTGTTGTA -AACGAATGCGGTTATCGGCAGGGAATTCAGGAATGTTCAGGAGTGTATCGGGCTGCATACCGCTGGCTTCGCTAATGCAG -TAACCAAACATTTCGGTAAATGCGCGATTGCACTGCACAATATGGCGTTCCGGATCGAGGACAATCACCGGTCGGTCGAG -ATGGTCAACGGCAATAATCAATTGTCGGGTCTGTTCTTTTTGCGCCATTTCTACGCTGGCATCCCGTACCAGCGCCAGGT -AATAAACTTTCCCCTCGGCGCTCACTTTCGATAGCGCAAAACGGGTCCAGATTTTACTGCCGTCTTTTTTCTCCAGCTGC -AGCTCCCGACTCATCCCCTCAACACGCGCTTTACCGCCTTCACGGTTGTGACGAATGTATTCAGGATGCGCAGGACGCAA -ATCCCGCGGAATCAGCATATCAATGTTATTGCCAATGACTTCTTCACGTTTGTATCCCCAGAGCTTCTCTGCGGCGGGGT -TGAAAAACATCACTTCATCATTTTCGTTAATTAACACCGCACCCATCATATTTTGCTCAAGGGCGGGGAAAAAAATGCCA -TCGGCGGCATTATCCGCATCGGTTAGCTTCATGATTACCTCTGCATCCTGGCGCATCTAAAGACTGGCTTTCCAGAGTTC -AACACGGTTTCTACCTCGTCTTTTGGCGATATACAGAGCTTCATCGGCTATTTGAATGAGGCGCTCATAGTCAGGATGAC -CATTAAACATGGCGGCACCGATGGAAAGTGAGAGGGCAATATCTTCGCCGTTTGCGGCTTTCAGTTTGGTTTTCTCCACC -CGACTGCGAATACGTTCTGCGGTACGTAACGTTTCGTTTTCAGAAGCTTCAGTCAAAACAATGATAAATTCATCGCCCCC -GTAGCGGAAAACATAATCACTACTGCGGACGTTGTCATAAAAGGCCTGAGAGACTTTACGCAGAATTTCATCACCAGTGT -TATGGCCCCACGTATCGTTGATCTCTTTGAATTTATCAACGTCAATAATCAGCACTGACAGCGGTGTACCGGTCCGGTTG -GCATGGGCAATTTCGCGTTTGAAGATAGTCGGTAGGAAACGGCGGTTAAGTAATTTCGTCAGTACATCCATACCGACTTC -GTGGCGCGATACTTCTTCAAACAATTCACGCAGCAAGGTAATAATTTGCGATACGGTATTTCTTATCTGTAATAAAAATT -TCACCCGCAGACTTCTGTTATTCAAATTTCTGGTGTTACGCATGGTTTGATTGAAAATACCGTCGAAATCCTGAATCAGA -CGGGAGATATGGCCTACTTCGGCAATACCACTAAAATAATGTCGACCTTTATGGTTAAACCACAGGCCAAAATCAGCCTG -GCTTAAAGGCAAACTACTGCCTAAATCAGAATCCAGCAGGATTTTATAGATAATATCTATTTCCCATGAAAGTATTGAGG -CTATTTGCCGTTCTTTTTCTTCTTCGGCGTTTTCCAGTAACGAGAAGATACGATAGTTTTCATCTTCCTTTGAGGCACTA -CTGTCACTAAAGGTAAACGCGCGAGTCATCACTTCCATCGCGATATCAATACTGTTAATCGAGAAATGGTAGACCTGAAG -TTTTTCTGCGGCGGAATAATCCGAAGAGAAGATCACCGGATAGAGGATTTTTTTCAGCACCCGAAACCCCATCTCGACAA -TTTCTACCGGAATTCCTATGCGGGCATGCACTTCCGCGACGGTATGCTGGATTTGTATTAGCCTTTCGACATCGTCAACC -TGGGCAGAAAGCACGTTAATAATCCAGCGTTCCATCGCACTCTTCAACTGCCGCTCAACTTGTTCATTACTCAAGAATTC -TTCGGCATGCGGGTCGATGCGGACAATTCGATAAAACTCGATACTCAGATAATGAGCATGCGCAACGGCAATTTCCGCGG -CTTTAGCACGAATGGGCGGATCTGCCTGTTCGACAAGTCCGGTCCACTCATCTTTCATTCTTTTAAAATACATCTCCATA -ATTCACACCCTTATAAGGCTGGGAAATCAGACGGAATCAAAATGAAACGCAACGTGCGAGATCGACTAACTGCACCATAT -TCTCCTGAAATATGAAGATATACTGAAAAGAAATAAGCGATTTAGGACAGTTTCAATCTACGCTACTGTTCTTCAGAAGA -GTATAGCCCATCGTAATTATTTTTCGGTGACAGCGAATATCGTATGGTTTTTCATATTCATACATTTTTATTAGGGATTT -ATGGCTGTTTAACTAAGTGTGGTTAATTTGACTTAAGTAAGCATGATTATTAGTGGGATAGTTTAAGAGGGTAACAAGCC -GGTGGGTAAAGCACCGGCTTGTTACAAAGTAAGAATGGGAGTTTAACTGCCCCAGCGACTTTGCAGATAGCTGACCGCTT -GTTGAGTCTGCGGTTTATTCAGATAGTCCTCACGGAACAAGATGGTGCCGCTAATTTCGGGCACAGCATCGTTAAGATCG -AGCTGCTTTTTCAGTTCCGGTACGCCGCCGTTAATCATCCAGTCTGGCTCTATCTTTGAAGGTTCACCCACTTTATAGAA -GGCGATACCGATATACAGGCGGGTCCTGGTCGGTTTAACGACATCCGCCCACCATTTTGCCAACACGTCATAACGCGCGG -CACTCCGTGAGAACGGCCAGTAAATTTGGGGAGCAATGTAATCCAGCAATCCTTGTTCCACCCATCGACGGGTGTCAGCG -TAGGATTCGTCATAGGCTGCCGCGCCTCGGGTATCGGAACCGAGCGGATCGTGTGATCGGTTACGCCACACGCCTGCCGG -GCTAACACCAAATTCGACTCCCGGCTTAATGCTTTTAATGGTGTGCGATACCTTTGCAATTAACTGCTGAGTATTGTTGC -GCCGCCAGTCTGCTTTTGACGCAAATGCGCCTCCGTATTTACGGTACGTTTCGTTATCATTTAGCCGTGAACCCGGTGAC -TCCGTATAGAAATAGTCGTCAAACTGCACGCCATCTACGGGATAGCGGGAAACCACTTCTGCGACTATTGATGTGATCCA -GTCCTGAACCTCAGGGATGCCCGGGTCGAGGACAAAGCGATCGCCAGACGTTCTGATCCAGTCGCGGTGTTGCACATAGA -CGCTCGCCGGTTGTTGAGACAGAGTGCTATTCAGTTCCCTGATAGTACCGGGCTTCGTATTAACCGATACGCGATAGGGG -TTAAACCAGGCGTGTACTTTCATCCCACGCTTGTGGGCTTCGTCGAGCATAAATTGCAGCGGATCGTAACCCGGATTTTC -ACCAATCTTACCGGTCATAAGATCGGACCACGGCAAAATTTTCGATGGCCACAGGGCGGTACCGTCCGGCTTGACCTGGA -AAAAGACCGTGTTTATGCCGAGACGTTGCAGATGATCCAGTTTGTCGATCATCGCCTGTTGTTGTACACGGGCCCGGCTG -GTGGGGTTACTAATGTTAACCGAGGAAACCGGTGGCCAGTCGAGCCGAGAAACCGTGGCCAGCCAGATGCCACGCATCGG -TTGTGACGATTGTTGCGTCGTGGCTGGTGGCTTTGAACCTGCTGGTGGTGTCACCATGGACTCTGGAGGCGTGCTTTTAC -AACTACACAGTAAAAGTGCCAGTGCAACTAGTATCGCTGGTCTTCTAATCGTTAATTTCTTGTTTCGGGAGCAGATATCC -ATATGTGCTGGTTTCCGGTAAACAGATGTGCGCTCATTCTCGTACTTATCCCCGTTAAGTCAATACGACAGCAAGCACGA -AAAAGGGAGCGATGAATTATCGCTCCCTTGTCTTATAACCATTCAGACATGGTTAGTGTTTCTTGTCATTCATCACAATA -TAGTGTGGTGAACGTGCACGCGGGTGCAGGAAGAAGTGACCTTTTGGTGCGTTCTGACTGTTGATTGGCTCCAGAGTGAC -GCCGGTATTTGCTTTGCCTTTACGATCATGAACAGCATAGAGAATAAAGGGCAGGGCAAGTACCACCAGGAAACTAACAA -CCAGTAATTCAACATACATATCGGTAGAATCACCCTGGATGTTATCCGGCGGCAGGAAGGAAACAATAAACGCCATAATT -GAAGTCAGCAGACCGACAATTGCCACGACCAGTTTCACCCCTTTACCACCAGGGATATTAAATGTGCGTTTTAAGTCAGG -ATGTTTAAGAACCAACACAATGTAGCCAATAAACAGCATGAAATAAGCACACAGATAAATCACCACCGTCAGCGCCAGTG -CGATCAGGAAGGACATGTTGTTACCGCCACCGGTATTGGTGAGGATGATCAACGCGATAGACGTAATCACCAGCTGCGAA -ATGACCAGCGTTACCGGTACGCCATTTTTGTTCATTTTAGCGAATGCCGCTGGCAGCAGGTTTTTCTGCGCTGTTACATA -CATCCCGCGAGAAGGACCAACAATCCAGGAGGCGATTTCCGCCAGAACACCCAGCAACAGCAGTGCGGAGATCACGCGAA -CCGTCCACTCAATTTCTGGTGCCACATGGGACATCAGAACGGTAAAGGTTTGCATTACCCCTGCGGAGAGGTTGATTTCA -TTACCCGGAATGACCATCGCAATAGACAAACCACCAACAGAGCTTAAGCAGATTGCCGCCACCATCAGCAGTAACATAGC -CAACGGATAGTCGCGCCCTGGGTTGCTCATTTCATTGACGTGGGTTGCGGATGCTTCTACGCCCATATAACTCAAAATGA -AGGCAACAAATACTACCAGGGTGCCCACTTTAGAGAAGTCAGGGAAGAAGGTCTTCGAATCCATTTCGATAGCAACGGGG -GCACCGGAGTGCAGATAAATAGCCGCTAATGCGATCAAAATAAATGCAGGTAACAGGATACCGGCGAAGAAGCCAACTTT -AGCAATTCGCGCCGTGTATTTCGTGCCACCAAACTGCGTTAATGCCAGCGCCCAAAGAATGATGAGTGCTGCAATAGTTT -TGGTAATGGGGTCTTCATTCAGCGCTGGCCATTTCAGGATGTAGGAGAGTGCCCCTAACACGAAATAGAGCATCGGAATA -AAACCAATGGCGATTTGCAGATAGCCAAATGAGATCGCTGCAAATCCCCATCTCGGCCCCAGAGTATTTGATACCCAGGC -GAAGACACCACCTTCTTCCCAGCCGTCGACGGTGGCCATTTCCGCAGCACAAAGTCCCACGGGAATAAACCATAAAATCC -CGCCTAATAGCAGGAAGAAGACTAATGAAAAGCCCGATGTTGCGAAGGTAGGGTATTCATAAACAGCCATTACCATCGAT -GCCGTTATGGCAAAGAATCCAAGTAATGTGAGCTGCTTAGCTTTACCTGTCTGTACTGATGTAGCCATATTATCCCCCTA -AAACGGTATTCCTGTCGGAACCGCACCTGTTTTGTTCTGAAGCGTATTCAGAACAATATTTTCCGTTGCTAATGCCAGTG -AACAGACTTTGGAAATTGTCCCGAAACGGGTTCGTTTCGGGACACCGTTACCGTTAAACGTTATCAGGTATGTTTAAAGC -TGTTCTGTTGGGCAATACCCTGCAGTTTCGGGTGATCGCTGAGATATTTCAGGGAGGCTTTGTAGTCTTCCAGCAACAGT -TCAGCAAAGTCCATTTCGAAGCCGCGACGACACATAATGCGCATCACCACGATGTCGGTGGCTTCACCGCCGAGAGTGAA -GGCCGGAACCTGCCAGCCGCGCAGACGCAGACGTTCAGAGAGGTCATACAGGGTGTATCCCGGATCTTCACCATCTTTCA -GTTTGAAGCAAACCGCCGGGATGCCTTCGTCCGGGCGACCCGTACAGATGAACTCATACGGCCCCAGTTTGGCGATTTCA -TCCGCCAGATAAGCGGCAACCTGGTAAGAGGCGTTCTGTACTTTGGTATAGCCTTCACGACCGAGGCGCAGGAATTCATA -GTACTGTGCAATTACCTGACCCGCCGGGCGGGAGAAGTTGATGGCAAAAGTACCAATTTGACCACCCAGGTAGTCAACGT -TGAACACCAGTTCCTGCGGCAGCGCTTCTTCGTCACGCCAGATAACCCAGCCGCAGCCCAGCGGAGCCAGACCGAATTTA -TGGCCTGAAGCACTGATCGATTTCACACGCGGCAGGCGGAAGTCCCAGACGATATCCGGGGCGACGAACGGTGCCAGGAA -GCCACCGCTGGCAGCGTCGATGTGCATGTCGATGTCGATACCGGTATCGGCCTGGAATTTATCCAGCGCATCGTGCAGCG -GTTGTGGGAACTCATAGTTACCAGTGTAGGTCACGCCGAAAGTCGGCACCACGCCGATGGTGTTTTCGTCACAGGCTTCA -ATCATGCGTTTCGGGTCCATAAACAACTGACCGGGGCGCATAGGGATCTCACGCAGCTCCACATCCCAGTAGCGGGCGAA -TTTATGCCAGCAGATTTGTACCGGACCGCACACCAGGTTTGGTTTATCCGTTGGTTTGCCTGCAGCTTCCATACGCTTGC -GCCAACGCCATTTCATCGCCATCCCGCCGAGCATACAGGCCTCGGAAGAACCAATGGTGTTGGTGCCAACGGCCTGACCA -TTTTTCGGCGCAGGCGCATGCCACAGATCGGCAACCATATTTACGCAACGCAGGTCGATGGCTGCGGATTGCGGATATTC -TTCTTTGTCGATCCAGTTTTTGTTAATGGATAAATCCATCAATTTGTGGACATTTTCGTCGTCCCAGGTCTGGCAGAAAG -TGGCCAGGTTCTGACGAGCGTTGCCATCAAGATATAATTCGTCATTGATAATCTGGAATGCGACATCGTCGCGCATTTCG -TGCAGCGGAAAACGTTTTGATTCTGCGATAGTGGAAATAGACTTCGCACCAAAACGTGAATCGAGTAGTTCCGACCTTAA -ATCCGTTACTTGCTTCTTATCCATTTTAAACTCCTTAAAATGATTGGATCGCATTAAAAAAGTAGGATTTATCGATAAAG -TAAGCAAGTGCAAAGGACTCGTGTTTAAATAACAAAATCCTAATGTTATTTATCGTGAGATATTACGCGAATAATATTTT -TTCATTGAAAAACAATACAATATGAAATTCTTGGGTGGTGGTAAGGTGTTTTATGCTGTTATTTTTATGCGCATTCTGTG -TCTCCTGAATTATCACGTAAAAATCAGACCTTAAAATATCACTATTAGTACTTGATTATTATTTTGAACGCATTTATAAA -ATTATTACATAAAAATAGCGAATATTGCTAAAATCCCCGCCAACGATGTGTTGACGGGGCTGTTATTATTTTGGCAATAA -TACTCCGGTATAAGTATTTACCGGATGAGAAAGATATTGTTTAACGGCAGTGTTAACATTCTCTACCGTCATTTGTTTCA -ACAATTGCTCCTGCTCAGTCCATGCTGCAGGATCGTCATATTGAATAAGACTATTTACAATAGTGTTCGCTAATTGTTGA -ACGCTACGCTGTTGGATATCGAGGCTGCGCTGAACGTTTTGCTGGTATTCATTCAGTTCTTGCTCACTGATCCCTTTAGC -CAGACGCTTAACCATCACTTCATTCGCTAACGTTAACAGTTCATCATGTCGTTCTGGTTGACAAGTAAAAGCCAGCAAAT -GACTGATATCTTTGGCCTGAGGATCAACCGAGAGGCGAGAAGAAACGCTGTATGCTCCAGATGCCTGTTCACGAATATTA -ACACGTAGATCTTTTGCCAGTGCGACGTTAAAAGCATCGAGCGCCATACGCGTCGGCAGATTAACAGGTGTCCGGGAATC -ATAACGCTTCCACTGTGAAACCTGTGCCACAGGTTCATTTTGTTCTTTTACAGTAACCGATGCGTTGTCCGTCGCGCGAG -TTAATGGTTTACCTGCGGCTAATGGCGAATCAGAGTGTTTGATTGATCCTAAGTAACGCGTAATTAACGCCACGAGTTTG -TCTTCTGCGACATTACCGACAATGACAAACGTGATATCCGCTGGAGATGAAAACAATTGGCGATCGGCAGCCAGCGCATC -TGCGGCAGTAAACTGTGCAATCTGATTTTCTTGCAGTAATTTCGTGCGGTCATCAGCATAGCGCGTCTCATACATCTGCT -GGGCGAATTTCTCCGCTGGACGCTGGTCGAGCGTTTTCAACGCCTGAATTTGAGCATTTTGTAGCGATGCCCAAATATTA -TCGTTAATCGTGCTGTGGGTGATTCGCTGGTTAATCAACTGAAAACCAGGTTCAGGGTTATTAGTCCGCGCGCTAACGGA -GAGCAACGTATTCATGCCACTGACTTTACTGCTCATGGTTACCGAATTTTCCGCACTCCAGCGTTTCAGGCTGGAAGAGG -AGAGTTCGCCAACGCCGCTTCCGCTAACTGCTTTATTTGCCAGCGCGATAAGTGATTTTTGCTGCGCAGGGAAACTTAAA -TCGCCTTTATTCGATACGGCAATAATTTGTAGCTTTTGCTCTTCACCCGCGGATTTTGCCAGAATAACCCTGGCACCATT -GGAAAGTGTTAATGATGTCAGATTCTCCGCCAGCGTTTCTTTGCTGCTAATTTCCGCCTGTGGGTCTGCGTCTACTGTTA -ACGATAAATTTCTGCCTGGGAAGACGTAAGCCGCCAGCTTTTTGTTGGCGTACTCCTTTTCCAGCGCCAGGATAGCCGCA -GGAGACAATGCTTTTTTGGCGGCAACCTCATTGTTTACCATTTGCTCCCAAAATGCGTCCTGGTTCTTTCTTAACTGCTG -CCATTTTTCCGCCAGACTTTGCACGGTAATTTGCTGCCACAGACGTTTCGAAAGTTGATATGTCTCTTCCGGCGACAAGA -ACGGCGTATTATTTAATGAGCTGGATGCCAGGCGACTGGTCAGCATACGTAAATCACGTTCAGCTTGCTGATCAACCGCA -TTTTTCAGCCAGGTGAGGCGGGTAGATTTGACATCATCGAGTTCTTCAGCAGAAAAACCATGCTGATCAATGGTTGCCAA -CTCTGCCATTAATGCATTCGCAGCATCCTGCATATTATCGTCTCGTGCATTTACACGGAAAAACAGCGACTGATAATCGG -GTGCAATTTTAACGCTGCGCGCAGTGCCGCCAGAAATAGTCTTCAACTCGCCCGACTGTATGCGTTCCTGCAGACGTTGA -TTGAACAGCTGAACTAACATGCTCCATTCAGCTTGTTCGATAAAGCTTTGCTCATCGTTCACTTGTACCATTGGCAGGCG -ATAATAGAGTGCGATGCCGTTCACCCGGTTTTCTTTATCATTAATGATATTAAAGCGCAGGTGGTTTTCGGCTTTTGTCG -GCCAGACGCGATTTTCAGCTGCTTTGTTAGCCGGAAGCTTACTTAAATTATCCTTTATCAGCGCCAGCGCTTCTTTACTG -TCGATATCGCCGACCACGATAAAGGTCATATTATTTGGTTGATACCAGCGTTGATAAAATTGGCGCAATTGTGCCGGTGT -GACCGTGGCGACAGTATCCATCAGGCCGATAGGTTCACGGTCTAAATTACGGGTATTTGCCAGCAGGAAAGGGCGGCGCG -CCTGAGAGGTGCGCCATTTCGCATCCTGATGGGCACGCCATTCCTCAGTAATTACGCCACGTTCAGCGTCTACTTCGAGT -TTTTCAAAGGTTGCGGCATTACTCCATTCACTGAAGATTGCCATCACTTGTTGCAGATTTTGTTTCTGCGTAGTCGGCAA -ACTCACCTGATACACCGTTTCGTCATAGCTGGTATAGGCATTAACATCGCGACCAAAACGCAGGCCCATTGACTCAAATG -TTTCGATGACTTTATTACCCGGCCATGTTTTTGTGCCGTTAAACATCATATGTTCTACAAAATGAGCCACGCCGAGCTCA -TTGTCTTCTTCCTGCAATGAACCGGTATGAATTTGCAGCCATAAATTTACCTGATCCTTTGGATGAGCATGCGGATAAAT -CATATATCGCAAGCCATTGTCCAGTTGCCCGGTAATTAACTTTTCATCCTGCGGTAAGGCGGCGGCAATCAGCCGCCCGG -GGAGCAACAGAGTTGCCACTAACGTCAGTAAGAAACAGAGGTTTCTCATAATTATCTCCATGCGAAAACCGGGCGAATTT -ACCCGGTTAAGTAAAATCCGAACTATTAAAATTTCATGCTGACATCAAGCCAGAAAGTACGGCCACTGGCGTAGGTCGCC -ACACCGGTGTTCGTTGTATCAACAGCGGTTTTGCTATCCAGTACATTGAGAATATCGGCACTGATCGTCAGGTTTTGTTG -TTGCAGAAATTGTGGCGTCCAGGACAAGCGGGTGTCCCAGGTCAGGCTGCTATCCAGTTTTTCGTCAACATACTGCTTGT -AATCTGAATATTCGCTGATGTATTGCGCATTTGTCTTACCAAGGATAATGCGAGCTTTACGCGCTTCTTGCCAGGCCAGC -GTATTCGCCCACACTAACCCGCTCGGTTGATGCGTGAAATCCATGTTTAAGGAGATCTTTAATGGGTTATTAAAATCTGC -CACTGGAACGCTATCGTAAGAGACCAGATTACCGTTATAAACCACCTGGTTATCACCGGTATTGCTCTCCTCATAACCAT -TGTTTAACGACAAGTTGCCCTTGCTCTTGATATAGCTAAAGACAATTTGTGGGTTAATATCTACCTGGCGGATATGCAGG -GGTTCGGCCAGTTCAAAACTGAGGCTGAACGAATGCGTTTTGGTTTTGCCATCGTTGTTATATTCAGTAATGGTGGTTTT -AGTCGCGCTGTCGGTACGACTGCTTTTGCTGATTTGATCATGCGCTTCACGGTAAACATAGTTTGCACGCGCAATAACGT -TCTTACCGATTTTCTGCTGCAATCCCATTGCCAGTTCATCGTTATAAGGCGTTTTCAAATCCTGATAACGCGTCAGAGTT -TTATTACCTGATACCGATTCCGTCCAGCTATTGCGGATATCACGTAATCCCATATCAAGAATATTCCCGCCATAGTAACG -GTTATAACCTGCTGTAATCATTGAGGTTTGATTAGCAAAAATATCCCATTCCGTCATAAAGCGCGGGGAGATATTGTGGT -TTGACAGATAGTTGTCATAGTCATACCGCACGCCGGGCATTAATGACACATTACGCCAGCTAATGCGATCCGCCATATAC -AGCGTGTAGTTGTCAATTCCCAGGCGGCCTTTACCTTTATGGTAAATGGTATGGTTAGTTTTCTTTCCGGCAGCATTAAT -CACATAGGATTCAGACTGGTTATGGCGTTCAGTCCACGCATCGGAATAGATGTATTCCGCGCCGAAGTAGGGTTGATGCG -AAACATTACCCACGGCGAATTTTTGCCAGTCCAGGCGTGTTTTGAAGGTGTAATTATCTACAGCCTGGGAAATGTGTCCT -AATCCGCCACGGGTGCAACGCCCTGTAATATCACCATATGTACATGAAAGTTCGGTGTACCAGATGTCATGATCGTGACG -GGTATAATCACTAATATGATCCCAACCAACGGTGGTACGCAGTTTGGCCCATGCGAGCTGCGTATCCATATCCCATGCCA -GACCATAGGATTTATTACCCATTTCGCGATCAGACTGCGGGAAGGTGCTGGTATTATAATCACGGCTGGAGCCGGTATAT -TTTAAGGTTAAATCGTGGGTAAAGCGGTCGCTGGCAAACCAGGTAAATTTGCTTAATGCAGTATCGATAACGTTTTTATA -CTGTGCCCGACCGGCGACAATGCCGTCATTCGAAACATAATCCGCGCGGGTGATATCAGACTGGCGGCGCGATAAACCGG -CGGTAACGCCGAAGTTATCAGCGAGTTCCTGATTAAACGACAAGGTATAAAAGTTCTTTTTAAAATCTGGGGAGTAATAA -GTACTTCCTGAAGAGCCTTGATTAAATGCGCTCTTGTTATTCTCATCGATATGCGATGTTAACCAGTCCGAACGCGTAGT -GCGATAACCCAATTTCACCTTGCTATCATCAGCGTTGAAGCGTTTGATCTTTGCATCAATTACCCCGCCATTGAAGCGAC -CAAATTCAACCGGCACAAAACTGTCATAAAGCGTCACATTGTCCAGTAAGCTGACATCAAGATAATACCCCTGTGACATC -CCGCTAATATTGGTTGCACTACTGGCATCGGACTCATTCGCTGGGTTCAGGTTATTAGTTGCACTAATACCGTCAATCAA -ATAGGCATTCTGGTAGGGCGACGCACCGTGAATAGAGATTTTCTCAGGGCGAATATCTCCCTGGTTCAACGAGGTACTTT -GCGTTGAATCCATGCGTACCGCAGGGTTGGTTCTCAGCAGATCGCTGATATTGCCATTCCCGGTCGGTAAACGCTCGATG -CTTTCACTGGTGTAATGCGTGTTGCCGTTTACGGGTACAGGGACAGGAGCATAGACCGTCATCTCTTCAAAAAAATGCAT -GTACATGTTTTTGTCATCGACGGCCTGCGCCACATCAGCGCCACATAAAATGACGCCAGGAATAAGAACTCGCTTCATTT -ATTTATATCTCCGTACAGCAGGGCTTTTATTGTTTTTATAAAACCGCGCTAATGTCACAAATATCATCGGCCAGGTTCCA -GACACCGGGTTGATGTGTAACCATAATGACGCCGCTTGTGGGTAGTTTTTCACGCACTAAACGCAGTAAGCGGATAGCCT -CTTGTTCCTCAAGATGAGAGGTAGTTTCGTCAAGAAATATCCATTTCGGACGTCGTAAAATTAATCGTGCCAGGGCGATA -CGTTGTTTTTCGCCGCTGGAAAGAATATCTCCCCAGCGATCGTGGTCATGAATACGCGCAGCCAATTTCCCAAGACCAAC -CTGATGCAGTACTTCGCTCAACGATTTATCGTCTACGGGCAGGGGAAGTGCTTTACAAATAATCTCTTTCAGTAAGCCGG -TTTTGATTAACGGTGTTTGTGACACATACCAACTGTCAGCAGGAGAAGAAATATCACCTTTAAACCACGGCCAGCAGTGG -GATAATGTTTTAAGCAGTGTGGTTTTTCCCGCGCCAGAGTAGCCTTTCAGTAATAGCCATTTGCCTGGCGAAACATGAAA -GTTCAGGTTCTCTAATATGATCTTATTATCAGGCGTACGAATACTCGCATCAGCCACTTGTACCGCATGTTGGCAATTTT -TAGGCTTATTCGTAGGGCGCTGTTCAGTGAGTTGATGGAACTCATACAAGCGATCGATAACCGCAGCCAGTTCAGCAAGT -TCGTCATATTTATAAATAAACCAGCTTAAATTGTTCGATACCAGCATAAATGCCTGGCGCGATTTCATCAGTCCGCCCAG -ATTGATCTGCCCGCTAATAAACTGCGGCAATAACAGAAAGTAGGGAAGAACGCTAAGCGAGCGCGAATAAATATTCTGCC -AGTAATCAAGCCACCGCTGACGATTCATTAAACGATGCCAGTTCTCTTTAATGGTATGAAAATTGTCGCTCAACTCCTGG -CGTTGTAGAGACTCAGCATTGCTTAGCGCAATCAGTTCTGCCTGCTTATTATGCTGCACAAGATTTGTTCGAAATGTCGC -TTCGCTACGTTGTTTTTCCACATTAAGCGGACGAATACGTTTACCCACCTTATGGGTAAATAAAGTTCCACCGATCACAA -TGAGCACGACGGTATAGACCATATACCCCTGGATATTCCATTCTGTTCCACCAACAGTGAATGAGAGCGTACCCGCGCTT -TCCCAAAGAATAACGGTAAAGGTGATCAGCATGCTAAGTGACTGGATGAAGCCAAATGAAAGACTGAGCGTTTTGCTGAT -CAGTAAGAGAATGTCTTCAGCGATACGTTGGTCAGGGTTATCTGTATTTTTATGCTCGCCGTAGATCTGCGTGAAGTAGT -AGTTTTTATCTGCAAACCACCGATTAAGGTAGTAATCTGTTAACCATTCGCGCCAGCGAATAGTCAGTAGTTTAATTAAC -CATGTTTTGTTTACGGATATTAATACAAAGATCCCCAGCAGGGCAGGGAACCAAAGGACAAGCTGCCAAAGCTTATCGGT -TTCTTTCTGGCTTAGCGCATTGAAAAAATCATTATTCCAGTCGTTTAACCAGACCTGAATTTTAACCACGCCAAGGATCA -TGGCGAGGATAATAATGATTAACAACACTGAAGTTTTATTATTCTTACGCAGCCAAAAGGGCTTCAACAGACAGAGATAC -TTTGCTATCAACATACGAAGCGTAATGGGAATGGTTATCATTAGCGAAAATTGATTGTGCCATCCAATGATTATCTATGG -CAATGATTTACTGATGAAATTTATTTAAGTATCATTTAACAATATGAAATATAAAGGAATATTTCATTTTCAGTGGTTAT -GGTTATGCTATTGATAATCAAGGATATTGCTAATGCCCTGATGCATACCACGTAAGCCAGGATTTTCGCAAGGGAAGATG -ATGATGACGAAACACCCGACAGGAATTTATGTCGGGTGCCTTGTTAAGGTCATAAGAAGGAGGCTAAGAATGGAGTTAAA -AGAGAGCGTTATTAATTATTCTCCATTTGTTTTGCAACATCCATAATGTGGTAAAGCGGTACTCTGTTCTTAGCTAACTC -TACCATGGCGTTCATATAAGGTACCATGGTTGAAAAAAGGATTTTATAACCTTCGCAAAAATAAGAAACAGTCTCATTGT -TTACTTTAGTAATACGATGCTTAGGACAACCGCCATTGCAGATAGGTTTATATGCACATTGCTGACATTTCGCTGGAATC -CGTTTTTTTTGCGCTGTCAGTTGTACACTGTTCATCGTTTTGAGTTCAGATTTATTAATGTTTCCAATTTTGTACTGTGG -ATAGACAAAATGGTCGCATTCGTAAATGTCTCCATTACTTTCAACAACCAGATTATCCTTGCAGGACTCCTGGAAAATAC -AACTGGTATGCCCATTCCCCAAAAAACGGCTGACAAAGCTTTCAAACTGACGGATGAAAATTTCACCCACATCGTTTTTA -ACCCATTGCATAAAAATGGTTGACATAAACTTGCCATAAGCCGTGGGAGGCACAGAAAAATCAATGATACGGAATGTGTT -CTCACTATGACCACTGAAATCAATATTCGGCGTCCCGGTTTCTAGCAATTCGATAAATTGCATATGTTTACTGCCGATAG -ATTTTAAAAAATGATAAACCTCAAGAGGGTAATGGACATTAACGTTATTAATGACGGTTAACGTATTAAACTCTACTTGA -TATGATTTCAGACGCTCGATGGCTGCTATCACTTTTGCAAAAGTACCGTTACCTGAATTACTGCGTCTGTAACGGTCATG -TAACTCCTGGGGGCCATCGATCGAGATACCAACCAGAAATTCATGTTCTTTGAGAAAGGCACACCATTCATTATTCAATA -AAATGCCATTCGTTTGTAATGCATTAAAAATACGTTTTTGGCCTGCATAGCGTTGTTGATAGTGAATAACTTTACGGAAA -AAATCCAGGCCAGCCAGAGTGGGTTCACCGCCTTGCCAGGTAAAATAGACCTGATTGCCAGACGCTGCGATATATTGTTT -GATGAACTCTTTCAGAGTGCTGTCATCCATCCATTTTTCATGAGTAAACTGCGACTCTTTTTCAAGGTAAAAACAGTAAT -CACATTTGAGATTACATTGAAAACTGGAGGGCTTGGCTGTAACGTGCATCGCTATCTCGCTCAATAAGGCGGCGGAAAAA -TCCGCCGCATGAAGGTTTAGTTATTTCGCTTCGCTTAGTGCTTTCTTGATATTGTTAAACTTCTCCTGATTTACCTCGCT -AAGCGGTGGCTGGCTGCTGTCGATAAACTCTCTTACCACGCCTTGCATCTCTTTAACGACCTGCGGATTGGCGGCGGCAA -GGTTATCTTTTTGCTGTAGATCCGTCAGTTTGTAGAGACCTAACTGATTGTTTTCTACTGTATAGACAAGCGAATAATCG -TTATTTCTCACCGTATAAGAGAATTGGCTTAAGTCCTCAGTGTTGGGGTTATGCGGGTAATCGTCTGACTGATGGCGAAC -AAATTTGTGGTAATTATCCCAGAATGGAATATTTTCCTCGTCAAACCAGTGAGAATAAGAGGTTATCCAGGTCAGATTTT -TATGTGGCTCGCCTTGTTTCTTATCTTGCAACCAGGGCAGCAAGGAAACGCCATCCAGCTTAAGGTCTTTTGGAATGCTG -ATATCGGCTGCATCAAGAGCTGTCGGGTAGAAATCCATTGCGGAAATCAGCTTGTCATAATTACCGGGTTGAAGTTTTCC -TTTCCACCACATAAACATTGGGGTGTGAGTACCGCCAGGATAGGTCTGACTCTTATAGCCTTTTTGCGCCCCGTTCAGCG -GCAGAGGACCATCGATAACCGCACCATTATCGGAGGTAAAGAGAATAATTGTATTGTCATACTGTCCGTTTTTCTTCAGT -TGTTCGAGAATGCGTTTTACACCCTGATCAACAGAATAAACGGAAGCGTAGTAGTTATCTGCTGTTTGACTACCGGTATT -AAATTGCTTCTGATATTGATCCGGTGCAGGATTATCATTTGGCAGGTGCGGAGCATTATAAGCCAGGTAAAGCATAAAAG -GCTGGTCAAGTGTTTTGGCACGATCAACAACGCCAATTGCCTCATCGGTTAACTGATCGCTGATATAACCTTTTGCGGGG -ACACGTTCACGATTTTTGAACAGTGAAGGGGAGTTGTAATATGCCGTTCCTGCAGCGTGGAATCCCATAAAGTAATCAAA -GCCACGGTTTTGAGGTTGCCATTCTTCCGCAGAAAATGTGGTGAAGTTGTCATGATAGTCACGCGTTTGTTTATCTTCCG -GTACCGGCACATTACTGATTTTTGACAAGTGCCATTTACCTACTGCTGCAGTGTAATAACCATGATTCTGGAATAATTCA -GGCAAGAAAGTTTCTGTTAGCGGAATACCATCCTGAGCATCGGTATTGGAATAGACACCAAAGCGGGCGGGAGCTCGACC -GGTCATTATTGCGGCGCGGGAGGGGCCGGAAACACCGTGTGCCACATAGCCGTTAGTAAAACGTACGCCTTCATCCATTA -ATGAAAGGAGCGTCGGCGTTGATTTTTGTGCAGCTTCAATGGCTTTATCTATCCCTATTTTGTAGGTATCGACAACTTCA -CGATTTTCCATTGTTTTTGGGTCAAAAGATCCCTTATCAAAAGGAAGTTGTCCATAACCAAGATCATCCATGGTCAGTAC -GATAATATTTGGCTTTCCTTTGGTACTGTATTCTGTCGGCGTAAAGTCTGAGAAAGCAACGTTTGTTTTGGTTGCTTTCA -GCTTTACATCATCTGCCGCATGAGCAGCAAATGCAGCCATACCAGATGCCAGTATCAAAGATATCGAGGTACTTACGACA -CTTTTCTTTAATGCAGACTTCATAAATGTTCCTCTTCTTATTGTACTTAATTCCAAAGTAATTTTACGAAGAGAAATAAG -TGGATGTAAGTGAAGTTAGTCACATAAAGAGATAGCAGATTTAGCTAAAAAAAGGGAAAAAACAGTCCATAAAGCGTTGA -CATTACTTTCTGTTCTATTAAGTAATTTCTCGCCGATAAACAACTAATTTATTGATATTTAATAAATTATTGCATTTTAC -TGACAAAATGCAGAATTGAGATCATAAATAATCATGCAACAGGTTATGCAAGTGCATAAATATGTGATGGATGTCACTTA -TTTATTTCAATAAATATATCGCCTAAAAACAACGCGGGGCAGGGAATGGCTGCCCCATTTAATTCTTACGCAGCGTGTGT -GGTTGACTACTCGTTAGCAAATAATCAAATAGCTAAAGCATTCATCGTGTTGCCCGTATTCATACCCGTGTGACTTTGAC -AACGGTACTCCTTAGAAACTCTCTTCGGACTGTTGCCGAAATGTTTGCGGAACGCATAAATAAAATAAGATGTACTGGCA -TAACCACATTGTTCGGCAATTTTATTGACTGAACCTTCTACGCGTATCAAATTTTTTGCGTGCTGCATTCTTGCATCTAA -AAGAATCTGTGAGAATGTCGTTTGCTCTTGCTTAAGTTTTTTCTTCAACAGGCTTTCACTGATGTACAGGCAGTCACAAA -TATCTTTCAGCTTCCATGGGTGCGCCGGCTTCATGTTGACAATATTTCTCACTTTCCCAGAAACGGATAGCACACCGTTA -GTTAATAGTGTAATGAAACCTTTGCATGCGGCAAAAATAGACAGGCAAGAAAAAAGCAAAAGTTCTGAAAAATTATGATG -ATTGCGTTCTTCCGAGTTGAGATAAGCAATCATTTCATTAAGCAATCCAGTCGGTACATTTGAAGCACGTAAAAACTTCG -CAGGAACAGGCACCGTCACTGTCTGGATGTTAGTGCATTGTAGATATTTTTTAATGGTATTTTCAGTAAATCCGATCTCT -TTAAAATGCCGCTCATAAGGTTCAAAATGCGTACGAACAGCGTTATCTACCATCAGGATCTCGCCGTCAGAGAAGGCGTA -ATCTTTATCTAAAATGTTAGCGTTGAAGGCATGATGAATAAATATAACAGAACAAACGAGCGACATTTTATCTCCTTAAA -ACAATAAAGTTTTTATCGATACTTTTTTAACATTTCATATTTATAATTTGCTGTTTGTTTTCAGCCTTGCAAACTATTGA -TAATGAAATGTGTAAGATCTCTTGCAATGCGACCCATTTCTGAAATACTCAGCTGATCAATTGCCGAAAAAATGGCTATC -AACGTAAGTGTCAGTAATAAGACAACCACAATTGCAGACATGATTTCTTTATAGTTGTCTCTTTGCGTGATTTTGTTTTT -CACTGTGGTCGCATGCATTTCAAATATGTTTATTTAGCGGATAACGTTAAAAATCGTTAATCAGTATGCTTAATATAACA -GGCTGGAGAAAAGAGGAAATAGGACTGGTGCTTCAGTACTGAGCGGAGTTTCTTACAGCTGTAGGCAGAAGTTTATATCT -TATAGTATGTAGTTTAATTTAATCCATGTGAGCAAATTGCGAAATAATAGTCAATGAGGAATTCTTCTGCTGTGCGGATG -ACAGCAGAAGAAATGAGAAGAGGCATTAATTTGATGGTTCTAATTCAACCGGAATACTTTTATAGCCAGGAATGCCACTT -AATGGATCGTGGTTATCAAGTGTTAGCATGTGATTCGATTCTGGAAAATAGGTCACCAGTGAGCGGTCAGCCATAGGGTA -AATGACCACTTTTAATCTATCCATGCGGCGTGAGCTGCGCTTACCGTCTGGCGTAAGCGCAATAAGATTAACTCTTTCGC -CGTTTTTTACACGGCAAATTTTAGCTTGTTTAGCACTCATAAAGACCACATCTCGTTGACCGAATACCCCTCGATAGCGA -TCATCCATACCATAAATCGTCGTGTTGTACTGATCGTGGCTGCGTACTGTCGCCATGACCAGCTTACTGTTAAACGCTGA -AGAGGGATCTTCTAACAGCCCTTTGCTGGTAATGAAATTAGCCTTACCTGACGGCGTCATCCAGCGCCTTTCAGCAGCTG -CATTTATCAGGTGAAAACCACCGGGATGACGGATGCGCTGGTTATAGTCGGCGAACTCTGGCAGCACAGCTTCAATGTCA -TTGCGAATGCGATCATAATCTTCCACCAGATACTCCCAGGCTACCACGCTCTGGGGTAGTGCTGCCTGCGCGATTCCCGC -GACCACTGCACACTCTGATTTCAGCATTACACCGGCGGGTTTTAACACGCCACGCGAGGCATGAATCATCGACATTGAAT -CCTCAACGGTTACCGCCTGCGCACCGTTTTTTTGCATGTCAATCTCGCTACGTCCCAGGACCGGCAGAATATAGCTATGC -CGTGCGGTCAACAGATGAGAGCGGTTAAGCTTAGTGGCTACGTGTACCGCCAAATCTAATTGCGTTAACGGTACAGCGCT -CGCTTCCCGATCTGGCATTGCCAGCGCAAAATTGCCCCCCATGCAGATCAATGCTCGAGCCTGCCCCGTACATATTGCTT -GCATGCTGGCAATTGCAGCATGTCCAGGTGCATGAGGTGGGGTGAAGCCATAGCGCTCACCCAGACGAGCCAGAAACTCT -GCAGACGGTTTCTCGGTGATACCGACGGTTCGGTCGCCCTGTACATTAGAGTGTCCACGTAGTGGGCAGATACCCGCACC -AGGCTTGCCAATGTTACCTTTCATCAACAGCAGATTGACCAGTTGCTGTACGTTCTGGGTACCATGTTCGTGCTGAGTGA -TCCCCATTCCGTAACAGATAATGGTGCGTTCGGCAGCGGCATATGCGTCAGCCAGTTCGGCGATTTGTGTCTGACTTAGT -CCAGAAATACGTTCGATATCTTTCCACTCGGAATTGAGAACGTCACGGCGTAGCTCGTCAAAGCCGACGGTATGCGTTTG -AATAAACTCGTCATCAAGCAATGAAGGCCGACCTGCGGCGCTTGCAGCATCATCGCGCTCAATTAACAGGCGCATCATCC -CCTTGAGCAACGCCATATCGCCACCAATGCGCACGTTATAGTAGGCACTGGCCAACTGAGTCTCAGAGTTCGTCAGCATT -TCAAACGGGTTTTGCGGTGCGGTAAATCGCTCCAGGCCACGTTCCTGTAGAGGATTGATGGCGATCATTTTCGCTCCCCG -TTTCACTAAAGCGCGCAACGAAGTCAGCATGCGAGGGTGGTTTGTACCAGGGTTATGCCCAATGCAAATGACTAAATCGC -ACTTCTCAAAGTCTTCCAGCAACACGGTCCCTTTACCTACACCGATACTCGCTGCCAAACCCACGCTTGTCGGTTCATGG -CACATGTTGGAGCAGTCGGGAAAGTTATTGCTCCCGTATTCACGGGCAAAAAGCTGATAAAGAAAGGCAGCTTCATTGGA -AGTGCGGCCCGAAGTATAGAATTCAACCTGATTGGGATCACTATAGCTTTGAAGGCGTGCGCCAATTTCGTCGAAAGCTT -GTTGCCAGCTTAATGGCTTGTAACAGTCGCTGACGGCATCATATTTCAAAGGCTGAGTGAGTCGCCCCGCAGCCTCAAGC -TCGTGGTCTCCCCAGGTAAGTAATGATTGAACCGTATTCTCAGCAAAGAAAGAGGCGTTTACCTGCTTATCCGTGACTTC -CCAGGCGATTGCTTTTGCGCCGTTTTCACAAATGTCGAATGACGCACTGTGCTTAGGATCTGGCCATGCACAACCCGGAC -AGTCAAAGCCCTCTGGCTTATTCATGTCAAACATGGCAATAACATCCTGGCGTATATCCATCTGCTTACGTACTGCATTC -GCTACGGATTTAACAGCACCCCAACCACCTGCAGCACCCTGGTAGGATTCAATTTTTTTCTTCATCTACTTATCCTGTGT -GGAAATGAATTATTAGGATTTGTAATAGCGATGATGCACAGTACATACAAAGGGATTATCGCCAACATGGATATATAAGA -GTAGGGGACTACTCTCTTTCTATTTTTAATCTATTATCGTTAAACAATAGATTAAATACGATAAGTTAAGCATCATCTCT -CATAGTGTTTAAATTAACATATTTTTCAATATAAAAAATAAGACTCTGGCTTCAATTGTGCGCGGATTTTCTTACAGGTG -TAGGCTAATAGCCTTCACAAAATAATTATCCGCGCAATTTTCGTGAATGGAGCGCATAGACTAAGGTCAAAATCACAATT -ATTCATAGATAAAAGTGACACCAATGACTGACTGGACGGTTCCGGCTGAAACCTTGTTTCCTGTTTGTCCATAGGTTGCG -CTTAAACCCAGAGGTACTTTGCTTTTATTTACTGTCCCCAGGGAGACATTTTCTCCCGTAGCCAGTATTTTTCCATTACG -CATTAGAGTGACACCCACTCCCGATGCTTTTGTTGCATCAGGTGCTGTGTTAGCAAACACTTGTCGGCTACTGTCAGTGG -TGGCACCCGAAAGATAAAATGAGAGCTTTTGTTCGCTTGAGCAATATACGCCAAGGGGTATTTCTGCGCTTCCAGGAAAG -TCCGGGAGATCCACGGTGACATTTCGACTATCAACGGTGCAGCCGCCTGTTGGCATAACAACATTGTTATTTGAAATAAT -ATTCCACGTAAAATTACGCGGATTTCCGCTTCCTAATGTTGCAATTTTATACATATGAATACGGGCAATGACTTCCCCCG -CTTTTATGACAACTCCACCGGCCGCCCCAACTGGGGTAATATAGAGTTTTAACGGTAATGGCATCGGTGTCTTATCACCA -ATATCCAATACGTTGGTATTTGTCGTCAACGGGAAGGGGTAGGTCACATTATTCCAGTACAGCGATCCTTTATATGACTG -TAGGGAGCCTGCGAAAGCTGAGCCTTGTACCAGGTTTATATGATCAGTGTCGTACCAGCCGCCGTAATCATTCCAGCAAC -TTATATGCTGAGACAAGTCTACAACCAGATTCTGGCCCGGCTGTATTACAGGGTCGAGATTAACATAAACAGAGGTTGTA -CCTGCTCCAATACTTGACCCGCCATCGACATTACAACTGAAGGCAAAAACTTTGCCTGCCATTAATAGAAGATAAATACC -GAACAGGACCTTTATACTGATTGTTTTACCCATGATATATCCTAAGGTTAAAAATTGATTTAAAAAGAAGGCTAAGAAAA -TCGAATCGACGTTATTGCCAGGTGTAGATCACATTGATTAGCGCCTCGATCGTTCCCTGGCTTGCGTTTCCATTCACCGT -GATAGCTCTTGCCTTAAGTGGAAACTGTGCATTACGAGTGATCTCATCAACAATAACCGTTTTGCTATCGCCATTTTTTA -ACGCAGCATCCTGGTCATCCCTCAGCTCTATCTGAATATTTTCGGCAGTACCTTCATTTTTGTAATAACCCGTATTGTCA -GTTGAACCTGTCACGATTGCCGTCACTGCACTTGTTTCAACCGGACAATCGGTTAATGACAAAGTAATATTGTGCCAGCC -AGATGCAGAACCAGGTTGTTGCAGATTGCGCGTATAAAGATCCCCGAGATTAACGTTAGCTTCTTTGGTTTGAATAGTGC -AGGGTTTAGCGACTACCCGACCATTAACAGTGATAGTGACATCGGCGGCCTGGAGAGTTGCTGTGAATAACGCGCAAAAC -GTAGCTAACAGGAACCTCTTGTGAAGTCTTTTCATATCTGACTCTGATTATTGAAATTCAAGGGTAAAGGTTGCCGAAGC -CCTCACCAGTCCCGGATTGACGGACTTCTGAGTTGACTTCAGACGAGCGGAGTAAGGCAAAATATTGTTCTGTTCTGGTA -CCAGTGGGATCCACTGCATCCCGGCATGAAGATCATTCAGTTTCACCGGACGCATATTTGCGTCCAATATTTCTATACCC -AAACCGGAGGCCGTATTGCTTCCTTCATCCAGTTTCAACAAAGTATTATTTTCTGCATCCTCAATACCGTTAAATGCAAC -CCGAACCCCCGTTGTCCCTTTGCTGCATTCACTTAACGTAATCTGAAAAGGGACGGCTGGACTTGTGCTACCGGTCGTTG -GAAATTGTCTGGCACTGTTTTTTTGGAGATCTACGGTAAAATTAAGCGAATCCGATGAGACTGTGCAGCCATAATCGAGG -ACGCGCCCGCTAATGTTTTGCCATATATTATTGGAATAGCTGTAATTCAGCGAAGTCGTAATATCACCAAACGGCACATT -TAATCCAAATGATATTTGCTGGTCGCTGCGTGACGTGTTCCAGTAACTTTGGCGACTGGCACTGAAAAATGTCGTACCGT -AATTTCCAAGCTGCTGAGAGATGCTTATTTGTTCCTGACCACGCTTACTGTAGAACAGATTAAAATAATCAATAAATTGT -GTCTGCTCATTGGTGTCTCCGGTAGGAGGCTTGACGGTGTAACCACTCATTCGACTGTAGGCACTGTCGGATAAGTTATA -AAAACCTTGCGTAGAATAGCGATATCCTGCGACCTGGATATTGGTTCCACAACAAGTTTATTGCTGCACTTGTTGAAGAG -AGTATTTGCAAAAACATTTTATGTCGCTAAATAACATGACGATTTCATTATGCATGTTATTTATAAACCGTGACTAAACA -GAATATTATTGCGAACAAGGGAAGTGTCAGGAAAGGTCAAGAGCTACCAATGGTTAATATGGCTATAAATCATTAGCTAT -GGTTAATGTTTGCTTGCTGAAACTAACACCGAATTGCTCTAAACAGATAAGTGCAGGGTTTATTAAAGCTGTCCGACAGA -CTTTCTTAACCTGGTAATATCTCTCTTGGGTGACTCTCCAAACATCCGCGAATATTCCCGACTGAAATGGGATAGCTTTC -GTAACCGACAGCATAGGCTGCTGTGGTGACATCGTAATGTTCATTCAGCATCTGTCGCCTGACTTCATTGAGACGTAGCC -ATTTCTGATACCGGAGTGGACTCATTCCCGCTTGATCCGTCCTTAAATAAGTAACAGCACCCTCTGGTGTTTTCGTATGC -AGTGTCTATGCGACAGACACTGCGCTCTTAGCATGGGGCAGGGAATAACCAGGCTATTTCTCCATGCACAGGCCAATTAT -GAAAGAGGAGAGGCTTAAGTTCTTGAACCCTGAACGAATAACGACTACCAGAAAAGCACTTCGCATCACTCAGACATGAT -TTAACATAATATACATTATGCGCACCAATATAAACCAAGGAAGAATCCAGTCGTTGGCGGTCATGATTGTCATGCTCATT -AACAATGACCAAACCCCATATCTCACTTACTACCGTATTCTCGGCTTAACCGTCCATGCAACCTCAACACATTGCTTTCA -ACTGCCGTCACCACGTTCTCCGGAAAATCTGTCGGTAATGAAGTCTTCACGTTATCCAGTGCTGCTGGAATCATTCTGGC -AAAGTCACTCAGGATTTCATGCATCTGCACTTCCGGGAATCTCAGCACCTTTGCTGTCGCCAAAAAATGTCGCGGATAAA -TTTTATCGATTGCCGTTTTTTTGCCTTTGGATGCGTTAAGCCCCATTGCCAGTTTGAGATCGCTGATGTGTATTCCCGTA -CCGCCAAGGACCGGAAATGCTGAAATGATGTCGTAAAATGGCGTGAGTCGATAACTGCCGCCAGCCTGAATAAATACGGA -GAAGTTTTTTGCATGACCGTCCGTTGCGCCAATCAACCACTGGAAGACCTGGAATTTCATAAAATCATAGCGATCTTTCA -GCGCCTCGCTGGACCCCATCAAAAAAGCCATGATCCGCGCGATGCCTGGGCCTCCATCTGATTCATATTTCACCGATGAA -GGTAAACCGAATGTCTGACACATATCCTCCTGTGGCAAGCGAAGTAAAACCGTTCGCTCAGCATTCCAACGCCTGTCAAA -ACGTTCGACCGCTAACGCGCGCACATTTCCCGCTTTAATGATTTCTGCGTCCGGAACATTCAACCCAAGTTCTTTCGCCA -GCAGCAGACAGTAATACTCATTATCAACGCTTTGGCTGAGATCGAGCGTCGCATTGGGCTGCCTGATTTCGCCAATCGGT -AATTTAATGATGTGCGTCGTCGGCGTTATTCCTTTCGGAATGCACCAGTCATTGCCTATTCTGAGCAGTGCTGTCTTCTC -CTGTGCGCCAGCAACCGAGATGCGAAAGTCATTTTCTTCTCTAATCATGCCTAGCGGGATATCTGCTTTATAAGCCGTTA -ATACTTCTTCAAGTCTGGCTTCAGTAAGCTTTTCCCATGCCATTATCGGATGCGTTACGGTTTCGTCTTCGGGTATTAAC -GTCACGGCACCAACGCTGTCTCGCCCTATTTCTGACAATAAATCAAACGGTTGTCTGGATTTGGCATGATAACGTTTAAC -GATCCGGTCACGTACAATCGGGCTATCGGGTAACAGGTTATCGAAGAAGTTAAATACGGCATCAGAGGTGATATTCCCCC -TCTGCAATGGCAGCGAAAGTGACAACGGTCTGGCATAACGGCTTGCTAACCACTCCGGTGCATACTTAAAGGTGTGCGCG -CCGTTGGCTAACTTCGTTAACTCGCCTACCCGCTGGTTGTTCATCCAAGTGACAAGTTTAGGCATTACCACTCCAGATTT -TGCTGTTCTGTTGATTCTGGCGAGGCATTTTTCGCGTCGCATAGCGTCATTGAGAGTTCAAGCGACTGTAAAATCTTAAA -AAATGTCGTGAGCGTGGTATTGTCAGGGTTGTTTTCGAAATTGGAAATCGTCGCCTGCTTAATACCAATTTTTTTCGCCA -GCTCGCTCTGCGTCCAGCCATTTTGCTGGCGAACCAGTTTCATTGCATTCGCCAATTGCGTTGGGCTATAGATCTTCTGA -AAGCTCATCATGTCATACGTCCACAGCAAGTTTATCCGCTTAAGGGGATATTATAAGTTTTATCCTTTAGTGAGGATAAG -TCAATCTGGAAACACATCTTATCCGCTCTACGGGATAAACGCTGCGATATCCGCGATCGCGGATAAAAAGGAGGATTTAA -ATAAGGCGTTGATGCGCCGTTTGAAGTCGGCAATATTAAGCCGCATGCCATCTCGACATGCGGCTTATACGGTTTACCAG -CTATATTTCACTCCCAGCATGCCCTGAGTATCGCTATAGCCTTTATCACCTAGTTGCACACCGACATTCCCCCACAGGCT -AAGGTTGTTATTTACTTTCGCCTCAACCCCGGTACGTACTTCACCGAGATTACGCGCACCTTCACGGCCTACGGTTTGAC -CATTCATCTTCACGGCGTAGACTTTGCTATTGTTGATCCAGTTCGCTTCAATGTAAGGCTGGAACTCACGCTGTTTACCA -TCGTCACGCTGGTGATGGCTGTTCAGGTAGGTTTTCACCCCAAGTCGCGTTTGCACATTTCCGTCGCCTTCCGTTTCAAT -GCGCGTTCCGTCTTTCCGGGTATGGTCGGAATCTTTCACACCCATCCAGGTGATTTGCGCCTGTGGCTGGACGTACCAGG -TATTCAGCGTCCCTTCGCTGCCGCTAAATGTTCCCGCTTCAAAGGTATACCCACCCTCAACAGAGGCCGTCACACCGCGA -GAATCATAGTCGTCAGCAGAACGGTTATCGGAACTGACGCTGTTATCAAACCAGTTATACAGCGCCCAGCTGTCAACATA -AGCGCCGGTCTTATTCGCATCGTTCTGATACCAGGTCGCGTACAGCCCAGCGCTGTAACCGCTGATGCGCCCATCCGATT -TATAACCCACACGATTACTCTGAGTATTACTGTGCTGATTGGCGTAGCCTGCCATCACGCCAAGATGCCAGCGATCCTGC -GCGTTGCTACTCCACTGCGCCAAATCGCCGCCTAGCTGCAATACATAGCGGTTAGCCTGAGTATTTAGCTGACCGTCACC -GGCCCTTGAACGTTCGTGCCCTCCGACATGACGCATCCACATACTGCTTGCCGACCCCTGAGAATGCAGTGAATCTGTAT -ACTGCGGCTCACCCAGACGGTCGTGTAAACGATGGCTAAACAGCGAGTTGGCTGCGGCAATGTTGCTGATATAGCTTCCG -GCCTCCGGGCGATAAACTGATGGGCCTTCCGGATCCACAACAGGGGGATTATTGATGGGATCGGGTGTATCCGCTGGCGT -TACGCCGTCCCATTTACTGGTCAGATACCAGTTTTTCTCGTCATTCCCCTTCCCTTTAGCCAGCGTGTAGACGTAAGCCC -CAGCTTCGACAGTTCCGGTGGTCAGCGCGAAGTTACCTGCAGAATTACCGCCAACCTCAATGAGTTCAATACCGTTGACC -GTTTGTGCACCGACGCCGCCAATGTTATCAACCCGAACGCGAGTGTTCCCTTGGGTATCGCCTTTCACGTTCATCTTATC -GGTGGGCGAATTATCGCCGCCCAGCGTCGCGTTGAACGTCATCAGGCCATTGTTTCCGGTATAGTTGCCGTTAACGGTCA -GTACATTCCCCGGTTTCCCCCCTTCGCTATTCATTTGAACCGTGCCGCCATTCTCCAGGTTGCCGCCGATAGTGGTTTTA -GCGACACGCAGTGCCCCCCCCAGGCATAACGTTCATATCACCTGCAGTGGTGACATTTCCCGACATCACACCGCTGTTAT -GGATATTAATGTGTTGACTTGCCATATTAATGGCAGAGTCGGAACCGAAAGCAATTTCCCCCCCCACGATATCCGTCGTA -CCCTGATACGCCGCGGAATCGTTGTTAAGAGTCAGGATCCCGGTACCCAGTTTTGTCACATCACCGCTACCGCTGATACT -GTGCGTCATCGCCCAGCTACGCTCAGTGGAGATGGTGAGCAGGCCATTATTGATAACGGAAGCATCACCCAGGTTTTTCT -GCTCGTTGACGCTGAGCGCGCTGCCTGTATCAATGTTGAATTGCCCCACAAAGCGGCTATTATCGCCATCCAACTCTACA -TCTGTCCTGGCGGTTGCGCTCACGATACCCTTCCCGCTTATGCTATTACGCAGTTCGCCAGTCACGTTTTTTAGCGTTAA -CAGACCGTCATTGGCAATATTTCCTCTGCCTAACCCCTGAGTATTATCGAGGCTGACTTCCGCATTTGGGCTAATGCTGG -TTAACGCATTGTAGCGTGCATTAAGCCCCTCGATAGCCAGCGTTCCCCCTGTAACATTCAGGTTTCCGCCACCTGTCAGT -TCACCCTGACTGATCCCACCTTTATTTACCGTCAGCGCCCCCTCTTTGAACAAAACAGTCGAACCCATCTGCCCGGTGAA -TGTCTCTACCGTCTGCGTCGATCCATTAAGATCGACGATGGCCGCGTTGCTGATGTTCAGTTCCCGGGTGTTGCCAAGTG -CACCATCCGCATCGGTACGTAATGTCCCCATCTGAACGTAGGTTGCCCCCTGATAGTCGTTCTGACCGTTGGAAAGCGAA -ACCTGTCGCACCGTATTGATTGCCAGATCCCCTTCACCACCGATTTTTGCCGACATATCGGCCGTTGCGCCATAGGCTCC -GCCATGTTCGGCTAACGTCAGCTTTTGCCCACCATGGATGTTCAGCGCTTTCAGCCCATAGTTAACGTACAAACCATTAC -CTGGTGCGGTCGTGAGGCGGAATCCATAATCACCCTCGGCGACCACCGTTCCGTTTTGCGCAATGTGTAACGTTTTGTCC -GCTTCCACCTCGTCGCCCTGTAAATCACGTAACGTTAATGAGCCACCCGACCCAATAACCGTTTGCGCCTTCACCAGTTG -AACGCCGACATGGCTATCGTCGTGTTCCAGCAAATTGAGCGTCGTCAGAGGGTTATTCGCCATGGGATCATTCCACGGTT -TAGGCACGTCGATAAGCACGTCGCCCGTCCCGTTTACCTGATAGTTACGGCCTTTCCAGGTGTAGTCACCCGCGCCGACA -ACCAGCGTATCGACGCTGATATATCCCTCCGCGAGCGTCGCAGCAGGAATATCCGTATCGAAAATGATGGTACCTCCATT -CATGGCCAGTCCACCAATGGATTGCTCTCCAACTTTTACCGATGTGGTATTTTCACTGTCAGACTGCAACATCGCGTGAG -TAAGCGCAGCGGTGTTGTCGCGTTCCAGAGTGAAGGTACTGTCTTTCAGTTGGGCAACACCGGCGAATTCAGTCCCTGTT -GCATGGGTAAAGCCAAACATCTTGTCGGAGGATGACAGCTGCACTCGCATCAAGCCATCGCCTTTGAGCGCATTGGTCAG -CGTGTAATCTCCTGCACTGTTCGTTGATGCGAGAATGTCGAGCGTACCGGGGTTTGCAATGGTTACTTCACTCGACCCCA -TGCCCGTTACCCCATCTGCCGTATGAGACGCAATGGTCAGGAGGCCGTCATTGACCAGCGTTTTACCGCTATAAGTATTC -CCTGCATTGAACACCGTATGGCCTGCATCATGGATCACTTTTCCGTCTTTATCGTCACCTGTAATCAGCATATCGACCTG -GTAGCCGGCATCACTGTTATTGGTATGATTAAAGACAAAAACGCCTTCGCCAAGACCAAACTCCACTTTCGTCGCATTGG -TGATAAATCCGGCATCTGCCGCCGCCTCACCGTGAGCAGCACCAATGTTTAGCGTTCCTACAGCAGGCTCAAAAACACCT -AAGTAAACTTCTCCACCTTCGACATTCAGCGTACCGTTATTCGTCAGGGTTAACGTACCCGTACCAGATGTCCCTACGTA -CATATTGAATGTTTCAAGAAGAGAGTTCTGCCCATCCACCCTCACGTCGCCCTTACTTTTGTCATTGAGAGCTATCTGTG -TATCACGCGCTTTAACTATACCTCCGGTGGTAATATTCAGTTCACCCGTGCCTAATACACCGACCTGTAGCAATTGTGCG -TTAGTAGATGATGTCTTTAAATTCCAGAGACTGTCCGTTGAAATATTAACTATCCCCTTACCGGAGGCATTTCCTCCGAT -AAATCCATAGCCCGTTGAATTAAGGGTGGCACCATTACTGACATTTACGATACCGCTACCAAAATTACCGACATTGATAC -CCACAGTATCGAACGATGATGTCGCATCCATCAGGTTCAGTGTGCCGATACCGCTTGCTTTATCGCCCAAAAAAGTAATA -TTTTGCGATACGAACTTACCGCCATCGCTAATATTGAGGTTTCCGACGCCCGCAACACCAATGGTGGTATAGACATTCTT -ATTGACCTCCCACATTCCCCCCGTGGTGATGCTGACATTCCCGACGCCGGTTTCTCCATAACCGAGTGAACTTCCTCCGT -TGCTGACAACAAGCCCCTGATTACTGATATTCATTTCGCCGTGGCCGTCATAACCAAGATTAGTTCCGAGATTAGTGATA -ACGGAGTTCTTATCCTTAACAGTAATGTTGCCTGTGCCTGTTTCTTTCATCCCCGCAGTGATAATTCCCGAATCTACTTT -GCCTTCACTCGAGACATTAAGTTCACCGTCGCCAGCATCACCGATATAGATATAGCGGAAAGCTTCGCCCGTTCCGAGGA -AATTCCAATGCCCTTTATCGGTCACGTTGACGACACCGTGGGAACCGTCCTGAACGCCCACCAATGAATATTCTTTGTTA -TTAATCAGTCCATTATTGGAAATATTGACTGTGCCATTACCGAAATATCCATTATAGAGTCTGCGTACCGTGATGACAGA -GTCTTGATCCTGCACATTCAGGGTTCCGATACCGGTGGCATTGCCACCGATAATCGTATTTTCAGCCGTAACCAACCCCC -CCTCGCGAATAGTCGCCTCCCCAGTTCCTTGATTACCAATTTGAAATTCAATTGAGGAATCATTATTTTTTATTAGCCAC -TCGCCACCCTTTTCAACGACAACCTGGCCATTACTGCCCGCCTGATAGCCTAAAATGGCGACGATTGAACTCGTGACGTA -ACCCTTATCCGTAATATTTAATGAACCTGTGCCATAGCTACCTATTTCGAATAATTCGGTCGTCAGAACAGAGTCCTCTC -CCTCAACATTGACCGTCCCGACGCCTCCTGTCGAAGAACCTAATCTTAAATAGCCTCCATCGACGTGACCCTTCTGTTTA -ATATTCAGCGTCCCCGTTCCGGATTGACCCACATTTAAAGGCCTTGCATTATTTCCGCTATCATACAATCGCCAGGTGCC -ACCCAAAACATTAACGGTGCCCTCTGAGTCCTCATTAGCGCCAATGACGCTGGTAGTAATAGTGGTTAAGGAGGCATTAC -CGCCAGCCAAAATATTAAGCACTCCAGTGCCATACCAGCCAACCAGGTAGGCATCATAAGCAACATCAGTATCAATATTG -GTAATCTGATCATTATCAACTTCCAGACTTGCACCAGACGCTGAACCGCTTAGTGCCAGCAAAACACCCAGCGTCAATCT -ACTGAATTTCGTTGTCAGTCCAGAGGATTTACGCAAATTAACCGTCGATGTTTTACCTGCCCTGCGAGTTAATTCCGAGC -AGGCCTGAAATACCTGTAGAGTGCAATTCCATATCACGCGATAGATTCTATTCATATAAACGCTCCATATACAAACAATA -CAGCCACGAAAGAGATGAGTCGTCAGACATTAAAAATGAAACTTATTAAATTGTCAGAGGGCTGTATTGAGTGTTAGTTG -GAGGTGGGAAGGTGTCAATTTGGCTAATTTGCTAATGCTTTCGAATTGATAGATTAAAAATTGCATAGTTCTTATTTTAT -TTAAATATGAACTATGAGTTATTGTTGCTTAATAAGAAAACTGTTTCTTTCAATAGGAAAATTATCATCATCATATTTAA -CAAAGAATAGCACTAATTGCTAAAAATCGAAGTTTATTAAACCCCTTTTGCATCCATTAGTGTCTTTAGGAATATTCGCT -ATAAAATAAGGGTTGTGCTTAATGCTTTAAGAAAAATAGCAATTTTCCCTTGAATATCGTACTGGTGATGGAACGATGAA -TCTGCAAGCTGGCTTTTAACAAGCCAGCTCTAAAAGAAGGGAAATAAGAATAACTATACTCAAAAACTAACAGCCACGGT -CATCATGATGTGGCTGTCAATGAAACTATAACCCAGGCGCTTTCCATAACGACGTCGTCAGTCCATGATCAACCAGCCCC -AGCTGATCCTGATAAACTGCCTGCCACTTATCGCGTGAATCCTGATAAAGTTCATGCTTTTCCGGGTCTGGTGTGTGCGT -CCGTTCCCAGCGAACCAGGCGTTCTCCGGTTTCTGCCATTGATGAAAAAATTCCGGCACCGACGCCAGCTGCAATGGCAC -ATCCTAATGCAGTGGCTTCTTTGACCACCGGAATATTGACGGGTAATCCCGAGACATCAGCGAGAATTTGACTCCATAAT -TTCCCTTTTGAACCTCCGCCTGCAAAGACTAACGATGAAGGATGAATATTCGAGAAATCAGCAATTTGCTGCAAGTTACA -CGCTGATACAATCGCCGCATTTTCTTCCAGCGCACGGAACAATGTCGCTTTGTTACATTTATCCGGGTCAATGGACAAGT -TAATAAAGGAAGGCGCAGCGTGATACCAGGTTTTAAAGCGCATTCTGTCGGAGAAGATCGGCATTACGCCCCACGACCCA -GGCGGCACCCGACTGGCCATCTCTTCCAGCAGCGTATAGGTGTCGATGCCTAAACGTTCGGCAATCAGTTTTTCTTCGGC -ACAGAAAGCATCGCGGAACCAGCGCATGGTGAGTCCGGTAAAAAAGCTTATAGATTCAGCTTGTACCATGCCAGGAATAA -CATGAGGATTAACGCGCACGTTCATTTCTGGGTCTGTCACCGGCGCGGCTAAATTTACAACTTGCTGCCAGAATGTGCCG -CCAAGAACCGCGGTTTGTGCCGGACGCACAACGCCTAACCCAAGGCAACCAAGCTGCACGTCGCCTCCTCCAACGACCAC -CGGAGTGCCCGCCTTCAGACCGCAGAGTTCCGCCGCTTGTGAACTTACCACGCCCAGCAATGTGCCGGTTTCTTTGACAG -GAGAAAGAATATCGGCACGTAGGCCAGCCATATCCAGCAATGCAGGTTTCCAGTCACGGGTGGTTAGATCAAGAAGTCCC -GTGGTGCCAGCGTTAGAGGGATCCACCGCCAGTTCGCCGCTGAGCATATAGGCCAGCCAGTCGCTGATCATGGTGATGGT -TGATGCCTGACGGTAAATATCGGAACGATGGTGCGCCAGCCAAAGTAATCTGGGGATGGCACTTAAAGCCAGTGTTTGTC -CGGTCGCGCGATAAACTTCGTTTTCAAAGGTATTGTTGTGCAGTTCTTTAAGTTCGCTAACTTCGCGTGCCGCTCTGGCA -TCCACATTGGCGCAGGCCCAGATCGGGGCTCCTTCATTATTATATAAAACAATGCCTTCACGCATCGAACATGCCGAAAC -GGCAGCGATATACTCCGGGGCTATGCCGGCGTTGTGCAGCGCCTGGCGCATACACTCACACGCCAGTTGCCAGTTTTTGT -TGAGATCAAATTCCATAGAACCAGGAACGTCCGGTACTGCCAGATGCCGCCACTCCGCCTGTCCCACTGCTATTTGATTG -CCTTCCAGGTCGAATATCACAGCCCGAATACTTCCGGTGCCTGCATCCAGCGCCATCAGGTAGTACTTTGATTCTGAAAG -GGTAAAGAGTCGAGCCATTAGATTATCCTCGGCTTATGCGTTCTGTCTGTTCCTCTATACGTTCTCCATCATTCCCGGTA -ATAAGGTCATGCAAATTTAACTACGTAAAATCGCCGCTGCTGTGTCCTGATCGGTAACCAGTGCGTTGATATAACCGCCT -TTCATTGCAGCGGCAATTGCTTCGGCTTTATTTTCTCCCCCTGCCACGCCAACCCGGACGGGTATGGTCTTCAGCGCGCT -TAAAGGTAAGCCAATCAGTTCGTTATGTATTTTGATATTCGTGACAACGTCACCTTTTGCATCAAAAAAGTAGCCTAAAA -TGTCGCCAACCGCCCCTTTTCGGCCAATCATTAACTGTTCGCCCTGGCTGATATAACCGGAGCGAATGATTGTCGCATCG -TCCTGTTGACTCACAGCACCAATGCCGACAATCGCCACATCCGCTGCTTGCGCGGCTAACAGAACATCTTTGACGCAATT -TTCATTTTTTAGCGTACGGGCAATGTCAGCGGAGGATGCCCGCAACGGAGCCGGAATAATATTCACACTGCACGCCGCGT -TAAGCTGCCCGATTCCCGTCATATAAGAACCGACGCCACCGGAGAGCGTGACCAGGCGAATTTGCTGTGACGAAATAAAA -CCACTTAAGCGTTGCAGCGTATTCATGGTTGCCTCGCCAAAACCAATCGCCAGCATCTGTTGTGGTTGAAGTAAACTCAT -CAACATATGCGCCGCGCCTATCCCCAGTCGCCCACCGACATCAGCATCCGCAAGCCCAGGGATCACCCGGACATGTTGCA -GCGAAAACTGACGACGTAATTGAGTTTCATATTCCAGACAGCCTTCAAAGCGAGAATTAATCTGTACGCGAATAATGCCG -GACTGATGCCCTTTCTCCAGCAATCGCGACACTTTCAAACGTGTCAGGCCGAGACGATCGCTGATCTCGCTCTGGGTCAG -CCCGTCGTGATAGTAAAACCACGCGATCCGCGCGACCTGTTCTTCTTCACACATTCCCTGTTCTGAAATTGCCGAATCGT -TGATTGTCATAATTCATTCTTCACTTTGAACATATTTAAATCTTTAATGCAATTGTTCAGTTCTTGCTCATTTATATCTG -TGATGGCAACCACAGTTTGACTCTACGAGCATGAACAAACGCAACCGTGAAAATCAAAATAGCATAAATTGTGATCTATT -CGTCGGAAATATGTGCAATGTCCACCTAAGGTTATGAACAAATTAAAAGCAGAAATACATTTGTTCAAAACTCACCTGCA -AAACTGAACGGGGGAAATATGCAAACGAGTGATACCCGCGCGTTACCGCTACTTTGCGCCCGCTCGGTTTATAAACAGTA -TTCAGGGGTCAATGTCCTGAAAGGCATCGATTTTACGTTGCATCAGGGGGAGGTCCACGCCCTGCTCGGCGGCAATGGTG -CCGGTAAATCGACGTTAATGAAGATTATTGCCGGTATTACCCCTGCTGATAGCGGTACGCTGGAGATTGAGGGCAACAAC -TACGTCAGATTAACGCCAGTTCATGCTCATCAGCTGGGTATTTATCTCGTTCCCCAGGAACCGCTGCTTTTCCCAAGCCT -GTCGATAAAAGAAAACATCCTGTTTGGGCTGGCAAAAAAACAGCTCTCCATGCAGAAAATGAAGAACTTGCTGGCGGCGC -TGGGCTGCCAGTTTGATCTGCATAGTCTGGCAGGATCGCTGGATGTCGCCGATCGCCAAATGGTGGAAATCCTCCGCGGG -CTGATGCGCGACTCGCGGATTCTGATCCTCGATGAACCTACCGCCTCGCTTACCCCTGCGGAAACCGAACGCTTGTTTAG -TCGCTTGCAAGAGCTGCTTGCTACTGGCGTGGGTATTGTTTTTATCTCGCATAAGCTGCCGGAAATTCGCCAGATTGCCG -ATCGAATTAGCGTGATGCGCGACGGAACCATCGCCTTAAGCGGCAAAACCAGCGAACTGTCTACCGACGACATTATTCAG -GCCATCACCCCAGCGGTACGGGAAAAATCGCTCTCTGCCAGCCAAAAATTATGGCTGGAGTTACCTGGTAACCGCCCACA -ACATGCCGCCGGAACGCCGGTGCTGACACTGGAAAATCTGACCGGCGAAGGTTTCAGGAATGTCAGCCTGACGCTCAATG -CCGGAGAAATTCTGGGCCTGGCTGGGCTGGTGGGGGCCGGACGCACAGAACTGGCCGAGACGCTCTATGGTCTGCGTACT -TTGCGTGGCGGACGCATTATGCTGAATGGTAAAGAGATCAATAAATTATCCACTGGAGAACGTTTACTGCGCGGTCTGGT -TTATCTGCCGGAAGATCGCCAGTCATCCGGACTGAATCTCGATGCTTCGCTGGCCTGGAACGTCTGCGCCCTTACTCATA -ACCTTCGTGGATTCTGGGCGAAAACCGCGAAAGATAATGCCACCCTGGAACGTTATCGTCGGGCGCTGAATATTAAATTC -AACCAACCGGAACAAGCTGCACGGACATTATCCGGTGGCAACCAGCAAAAAATCCTCATTGCCAAATGCTTGGAAGCTTC -GCCGCAAGTATTGATTGTCGATGAGCCGACGCGCGGCGTGGATGTCTCGGCCCGTAATGATATCTACCAGCTGTTGCGCA -GCATCGCCGCACAAAATGTGGCTGTGCTGCTTATCTCCTCCGACCTGGAAGAGATCGAACTGATGGCAGATCGTGTGTAT -GTGATGCATCAGGGCGAAATTACCCACTCTGCACTGACCGAGCGCGATATTAATGTCGAGACTATTATGCGCGTTGCCTT -CGGCGATAGTCAGCGTCAGGAGGCGTCATGCTGAAGTTTATTCAGAACAACCGTGAAATCACGGCACTGCTGGCGGTGGT -GCTGCTGTTTGTATTACCCGGTTTTCTCGACCGCCAGTATTTAAGTGTGCAAACGCTGACCATGGTTTATAGCAGCGCGC -AAATCCTGATCCTGCTGGCAATGGGCGCGACGCTGGTAATGCTTACGCGCAATATTGATGTTTCAGTGGGTTCGATTACC -GGAATGTGCGCGGTGCTGTTGGGGATGTTACTGAACGCAGGATATTCACTACCTGTTGCTTGTGTCGCGACTTTACTGCT -TGGTTTGCTCGCGGGATTTTTCAACGGTGTCCTGGTCGCGTGGCTAAAGATCCCTGCCATTGTTGCCACCCTTGGCACGT -TAGGGTTGTACAGAGGCATCATGTTGCTGTGGACTGGCGGCAAATGGATTGAAGGGTTACCCGCCGAACTGAAACAGCTC -TCCGCCCCGCTGCTGCTTGGCGTTTCAGCAATTGGTTGGTTGACGATAATTCTGGTGGCATTTATGGCCTGGCTGCTGGC -AAAGACGGCGTTTGGACGCAGTTTTTATGCCACGGGCGATAATTTACAGGGCGCTCGTCAACTGGGCGTTCGTACTGAAG -CCATTCGCATTGTGGCATTTTCGTTGAACGGCTGCATGGCGGCACTGGCGGGAATTGTGTTTGCTTCGCAGATTGGTTTT -ATCCCCAACCAGACCGGTACCGGGCTGGAGATGAAAGCAATTGCAGCCTGCGTGCTGGGCGGCATTAGTTTGCTCGGTGG -TTCCGGTGCGATCATTGGTGCGGTACTCGGCGCATGGTTCCTGACGCAGATCGATAGCGTACTGGTGCTGTTGCGCATTC -CGGCATGGTGGAATGATTTTATCGCGGGTCTGGTTCTGCTGGCGGTGCTGGTGTTTGATGGACGCCTGCGTTGTGCGCTG -GAACGTAATCTACGGCGGCAAAAATATGCCCGCTTTATGACGCCACCGCCATCCGTTAAACCCGCTTCGTCAGGTAAAAA -ACGGGAGGCCGCATAATGCGTATTCGCTACGGTTGGGAACTGGCTCTTGCCGCACTGCTCGTTATTGAGATTGTCGCATT -TGGTGCAATTAACCCGCGAATGTTAGATCTCAATATGTTGCTGTTCAGCACCAGTGACTTTATCTGCATTGGCATTGTCG -CCCTACCGCTAACGATGGTGATTGTCAGTGGCGGGATCGATATTTCGTTTGGTTCGACCATCGGCCTCTGCGCCATTGCA -TTGGGCGTACTGTTTCAAAGTGGTGTGCCGATGCCGCTGGCGATACTCCTGACCTTACTGCTCGGCGCATTGTGCGGGCT -GATCAACGCCGGATTAATTATCTATACCAAAGTTAACCCGCTGGTGATTACGCTTGGCACGCTGTATCTGTTTGCCGGAA -GCGCTCTGCTGCTTTCCGGTATGGCCGGAGCGACGGGGTACGAAGGTATTGGTGGATTCCCGATGGCGTTTACAGATTTC -GCTAACCTGGATGTGCTGGGACTCCCCGTTCCGCTGATTATCTTCCTGATATGTCTCCTCGTTTTCTGGCTCTGGCTGCA -TAAAACCCATGCCGGACGTAATGTGTTTTTGATTGGGCAAAGCCCGCGCGTGGCGCTTTATAGCGCGATTCCAGTTAACC -GTACCTTATGTGCGCTCTATGCCATGACGGGGCTGGCGTCTGCGGTCGCCGCTGTGCTGCTGGTATCGTATTTTGGTTCA -GCACGTTCCGATCTCGGTGCGTCGTTTCTGATGCCCGCCATCACCGCCGTGGTGCTTGGCGGGGCCAATATTTATGGTGG -TTCCGGTTCCATTATCGGCACCGCCATTGCGGTTTTATTAGTGGGATATTTGCAACAAGGTTTGCAAATGGCAGGAGTGC -CAAATCAGGTGTCCAGCGCCCTTTCCGGTGCGCTACTTATCGTCGTTGTCGTAGGTCGTTCCGTTAGCCTGCATCGCCAG -CAAATTAAAGAGTGGCTGGCGCGTCGGGCCAATAACCCATTGCCATAAAGGATATCTTCATGACACTTCATCGCTTTAAG -AAAATCGCCTTACTTAGCGCTCTTGGCATTGCCGCAATCTCTATGAATGTGCAGGCCGCAGAGCGTATTGCATTTATTCC -CAAACTGGTTGGCGTGGGATTTTTTACCAGCGGTGGCAACGGCGCACAACAAGCGGGTAAAGAGCTGGGCGTTGATGTGA -CCTACGACGGGCCGACAGAACCCAGTGTTTCTGGTCAGGTACAGTTGATTAATAACTTCGTCAATCAAGGTTATAACGCC -ATTATCGTTTCTGCGGTTTCGCCTGATGGCTTGTGTCCGGCACTGAAACGCGCCATGCAACGTGGTGTGAGAGTGCTGAC -CTGGGACTCTGATACTAAACCGGAGTGCCGCTCTTACTACATTAATCAGGGAACGCCCGCCCAGTTAGGAGGTATGTTGG -TGGATATGGCGGCGCGTCAGGTGAATAAAGACAAAGCCAAAGTCGCGTTTTTCTACTCAAGCCCCACCGTTACGGACCAA -AACCAGTGGGTGAAAGAAGCGAAAGCGAAAATCGCCAAAGAGCATCCAGGCTGGGAAATTGTCACTACGCAGTTTGGCTA -TAACGATGCCACTAAATCGTTACAAACCGCAGAAGGAATATTAAAAGCGTATAGCGATCTCGACGCCATTATCGCCCCCG -ATGCCAACGCCCTGCCCGCTGCCGCACAAGCCGCAGAAAACTTGAAAAATGACAAAGTAGCGATTGTCGGATTCAGTACG -CCAAATGTGATGCGCCCGTATGTAGAGCGCGGCACGGTGAAAGAATTTGGCCTGTGGGATGTGGTTCAGCAAGGCAAAAT -TTCAGTGTATGTCGCGGATGCATTATTGAAAAAAGGATCAATGAAAACGGGCGACAAGCTGGATATCAAGGGCGTAGGTC -AGGTTGAAGTCTCGCCAAACAGCGTTCAGGGCTATGACTACGAAGCGGATGGTAATGGCATCGTACTGTTACCGGAGCGC -GTGATATTCAACAAAGAGAATATCGGCAAATACGATTTCTGATGTGCATTACTTAACCGGAGTAAGTTATGGCAGATTTA -GACGATATTAAAGATGGTAAAGATTTTCGTACCGATCAACCGCAAAAAAATATCCCTTTTACCCTGAAAGGTTGCGGTGC -GCTGGATTGGGGAATGCAGTCACGCTTATCGCGGATATTTAATCCGAAAACGGGTAAAACCGTGATGCTGGCTTTTGACC -ATGGTTATTTTCAGGGACCGACTACCGGACTTGAACGCATTGATATAAATATCGCCCCGCTGTTTGAACATGCCGATGTA -TTAATGTGTACGCGCGGCATTTTGCGCAGCGTAGTTCCCCCTGCGACCAATAGGCCGGTGGTACTGCGGGCGTCAGGTGC -GAACTCTATTCTGGCGGAATTAAGTAATGAAGCCGTGGCGTTATCGATGGATGACGCCGTGCGCCTGAACAGTTGCGCGG -TGGCGGCGCAGGTTTATATCGGCAGCGAATATGAACATCAGTCGATCAAAAATATTATTCAGCTGGTTGATGCCGGAATG -AAAGTGGGAATGCCGACCATGGCCGTGACTGGCGTGGGCAAAGATATGGTGCGCGATCAGCGTTATTTCTCGCTCGCGAC -TCGAATCGCCGCTGAAATGGGGGCGCAAATTATCAAAACCTATTATGTCGAAAAAGGTTTTGAACGGATTGTTGCCGGAT -GTCCGGTACCCATTGTTATTGCTGGCGGTAAAAAATTACCGGAGCGCGAGGCGCTGGAAATGTGCTGGCAGGCTATCGAT -CAGGGCGCTTCTGGTGTGGATATGGGGCGTAATATTTTCCAGTCTGACCATCCGGTGGCGATGATGAAAGCCGTACAGGC -GGTGGTTCACCATAACGAAACGGCTGATCGGGCATATGAACTCTATCTGAGTGAAAAACAGTAACTGCGGATCTAAGGAG -AAGAATTATGCACGTCACACTGGTTGAAATTAACGTTCATGAAGACAAGGTTGACGAGTTTATCGAAGTTTTTCGCCAGA -ACCACCTGGGCTCTGTACAGGAAGAAGGCAATTTGCGCTTCGATGTCTTACAGGACCCGGAAGTGAATTCGCGCTTTTAT -ATCTACGAAGCCTATAAAGATGAAGACGCAGTGGCGTTCCATAAAACCACGCCCCACTACAAAACCTGTGTCGCGAAACT -GGAATCTTTAATGACCGGGCCGCGTAAAAAACGTCTGTTCAATGGTTTGATGCCGTGAGGCGAATTTATCAATTTTATCT -ACAATTGGGGTAACGCGCTGACGGGAGTAAAAAAATGTCTGACTGGAACCCCTCTTTATATCTACACTTTTCCGCTGAAC -GATCGCGTCCGGCGGTGGAGCTGCTTGCCAGAGTGCCGCTGGAAAATGTCGAATATGTTGCCGATCTTGGCTGTGGCCCA -GGTAACAGCACCGCCCTTCTACAACAACGTTGGCCTGCGGCCAGGATAACAGGCATCGACTCGTCTCCGGCGATGATTGC -TGAAGCGCGCAGTGCTTTGCCAGACTGCCAGTTCGTGGAAGCAGACATCCGCAACTGGCAACCGGTACAGGCACTCGATC -TGATTTTTGCTAATGCCTCACTGCAATGGCTGCCCGACCACTACGAATTGTTTCCTCATCTGGTTTCTTTACTTAATCCG -CAGGGCGTGCTGGCAGTACAGATGCCAGATAACTGGCTGGAGCCGACCCATGTGCTCATGCGCGAAGTTGCCTGGGAACA -AAACTACCCGGATCGCGGGCGTGAGCCGTTGGCTGGCGTTCATGCTTACTACGATATTTTGAGCGAAGCCGGATGTGAGG -TCGATATCTGGCGAACCACCTACTATCACCAGATGCCGTCACACCAGGCGATTATCGATTGGGTGACTGCCACTGGATTA -CGTCCGTGGTTACAGGATCTGACCGAGAGCGAACAGCAGCTTTTTCTTAAGCGCTACCATCAGATGCTGGAAGAGCAGTA -TCCACTGCAAGAGAACGGACAGATACTGCTGGCATTTCCGCGTCTGTTTATTGTTGCCCGGCGTATGGAGTAAATATCAC -GTCAGCTGGTAATGACGATCGGGAAGAATTTTTGCTGGAATTTCGGCTTCATCGTTCATCTGTAACAGGTCAATTTCAAT -AGCGTTGCAGATGGCATCCAGTGGTAAATCATTGTTTTCAGTACCGAACGGATCTTCCAGTTCTTCCGCCAGACAATCCA -GCGAAATAAAAGTGTAGGAAATCAGCACAGAGATAAAAGGCGTCATGTAATGCAGGTCCACGACCAGCGCGAACGGCAGC -ATGATACAAAACAGATAAACGGTACGATGCAAAATCAGGGTGTAGGCAAAGGGAATTGGCGTATAGGCAATGCGCTCGCA -TCCTGCCAGGACCGCTGAAATATCATTAAGCCGATCGTTGAGGCTAATAAACAGGATATCTGAAAGCTGTCCATTGCGGC -GCTGAACCGCCAACCATTCTCCCATTATTAACAAGATACGGTTAGCTGGAGAGTTCGAAGCCAGTACACGCTGAAGATCT -TCAGTCTTGAGATAATGAGCCAGCACTTCCGCCTGTGGCTGTTTGCGTAATGTCATGCGTAAACAGTGGGCGAAAGCGAT -TTGCAGCCGGGCAAACTCCCTTACACTTGCCGAATCCGGCAATGTCGTTTTTACCTCGCGCAGTAACGACCGTGAGGCAA -TCATCAACTGCCCCCAAAGTTTTCGCGCTTCAACGTAACGGGCGTACCCGGCATTATTACGAAAACCAAGAAAAATGGCG -ATGGCGACACCGAGAATGCTGAACGGTGCGAGGGTGAATTTGATGCCCAGATGCGTGTACCAGGGCAGCATGAAAATAAC -AGCGATAGAAAAGAGAAAATTGAGTAGTAAGCGCGAGGATATCTTGGATAATACTGAGCCGTGCCAGACAAAAATACGGC -GCAGCCAGTGTTGTTGTGGACGAACAATCATGGTTATCTTCAGGCGTGGAAAAGTCGCCCTATTAAACGTGATTACGATC -ACATTCTCAAGACGCTACTTACAAATTACCTACAAGCTTACAACATTAGCAGGCGCTGCATGTGGCACCTGTTAATGATA -AAGGCATATAGGATGTTGTAACTAATATGGTGAAATAAGAAACCCGGTCGAAACCGGGTTCAGAAGTAACGGTGTTATTA -GCACAACGGACGTACAGCTTCGCGCATCCCTTTTTCGAGAATCGCATCCAGGTCATTAGCAACCTGCTCGACCAGACCAG -GCACTTGCGTCAGGTCCTGCTCCCAGTGGTCTTTTTCTGCCAAAACAATCGCTACCAGTTCCTGGGTGCCGATAACACGG -TCACGATGCTGGCTCCAGAGTTGCTGATAACGTTCCAGCCAGTGTGCATCGTCCTGTACCGGATATGTTTCGCCGTTACG -CTCACCACGATAGAACGCAATCAATGCCGCTAATGCGAAAGTAAGGCGCGCCGGAAGTGTGCCGTTTGCCTTCTGCCCTG -CCAGCAGCTGTGGCAGGATGCGGGTGCGGAACTTGGTCATACCGTTGAGCGCGATAGACAGCAGCTGATGCTTAATGTAC -GGGTTACGGAAACGCCCGGTGACTGCACTGGCGAAAGATTCCAGTTCATCACGAGGCAAATCCAGTACCGGAATAATTTC -TTCGTAGATAGCTTTTTCAACGAATGCGCAAATTTCAGCATCGTTCATCGCTTCACCTACGGTATCCAGCCCTGCCTGGA -ACGCCACCGGCACCAGCGCGGTGTGCGCACCGTTGAGGATTGCCACTTTGCGTTCTTTGTACGGTTTAATATCGTCAACA -ATCAGCACGTTGAGCGGATATTTGTCCAGACGCAGTTCAGTCGCTAAGGATTTCGGTCCCTGAATCACAAACAGGTAAAA -GTGTTCAGCGGTGTCGAGAAAACCATCGTGATAACCCAGTTCTTCTTCCAGTTTAGCCACTTCATCGCGCGGATAACCGG -TAACGATACGGTCCACCAGCGTAGAACAGAAGCTGTTAGCCTGAGCCAGCCATTGAATAAATGCTTCTGGCAGTGCCCAC -TCTTGCGCATAGCGCAGCACCAGTTCACGCAACGCGTCGCCATTGTAGTCAATCAACTCACACGGAATGATGATCCAACC -TTTATCCAGCGCACCGTTGAAATGGCTAAAGCGTTCGAACAGCAGACGGGTCAGTTTTGCCGGATAGCTTACCGCTGGCG -CGTCATCGAATTTATCGCCCGCATGGTAGCTGATACCCGCTTCGGTGGTGTTAGAGAAAACAAAGCGCATTTCCGGGTTG -TGCGCCAGTTTCAGGAATTCATCGTATTCACTGTAGACGCTGATTTCACGATTAACCGAGCGAATCAGACGCGCGTCGCT -GACCGCTTTCCCCTTCTCATTCAGGCCACGGATAATGGTGGTGTACAGACCATCCTGCGTGCTCAGTGACGGCGGGAATG -AAGTTTCAATCGGACGAACAACGACCACGCCAGAATTCAGATCGGTGTGCTCATTCAGGAGATCGATTTGCCAGTCAACA -AAGGCGCGCAGGAAGTTACCTTCACCAAACTGAATGATACGTTCTGGATACTGTGCACCGGGAAAATCGCGACGATTTAG -TGTTTTCACAATGGGTTCCCTTCTGATTAGTCATACAACCTGTTTGAATTGGTACGACAGGTTAGCAAACTTTAATACGC -CGAACCCCTGTTTTGATCAACTCCTGATGATTAATGAGCAGTTTTATGAGAAAAGTGTGGCGCGGATCATGGTTTAATCG -AGGAAAAACGCCTTTTCCTGGATCATAAAGTGGTAGAACACATTGCATTCAAATCGCGCGTAATGAATAAAGATGTCAGA -CAACTTCCTCACCGTAACGCATAGTGCTGGTACGGTTGCGCCCATCTTTCTTCGAGCGATACAGACACGTATCGGCTTCG -ACCATCAATTTATTAAAGTCATCGGTCAGCGTTAGGTACGATGCGCGACCACTACCGACGCCAATACTTACCGTGAGATA -AAGCGTTTTTTGTTGCCAGGTGAATGGTTGCAGTTCAACGCCTTTACGGATTTTTTCCGCCATTAGCAGACCATCGACAG -GATTCACCGACGGCACTGCAACAGCAAATTCTTCGCCGCCCATTCGCGCCACCAGCCCCTTATCACCGACAATCTTCTGA -ATATGCCGGGCAAACACGCTTAACACTTTATCGCCACATTCATGTCCATAGTTATCGTTAATGCTTTTGAAATAGTCGAT -ATCAAGCAGCATGACAGTCAGATGTTGTGTCTGTTTCAGCGATGGACTTTTCAGCGCCTCATAAAGACCGGACCGTGAGT -AAACCTGAGTCAGAAAATCAAAGTCGGCTCGCAGCGCAACTTGCTTCATTAGCGAATTGATCGCTGCCACGCTAAAAGAA -ACCATAATTGGGCATATCGCCATCGTGGCAATACCGAGACGTGCGGAGAACATTTGCGGAATGGAGAACGGCGAACCGAC -CGAGATATCAATCACCGAATTTGCCACCAGTACGATTTCCACCGCACCGGTGACAAAGGTCAACAGACATGTTACCTGCG -GCGTATAGCGCACTGCACACCAGATTAATGCAGGCAGCGGGAACGCCAGACTCCCCGCTCCGCCAATGACTACCGAGGCA -ATAACCGACACAATAAGCGCGATGGCGGGCATCATCTGTTCTGCTTTAAAGCGCGGCAGCACTCCAGGAATAGCCAACGT -CAGCATACAAGGCACGATCAACACGCCCGTTGAGAATTGCTCACTGAACCAGTCCGCAAGCAAAGGCCAGAAATCCAGAC -TATCAATACTGACCGAACCAAGATAGCATGTTCGCTGACAGCGGCGGCAAATAAAGGTACCCTGGGAATGCTATTTTGTC -GTTTTCCGCAATTCTCATGGCTGATTCATCTGTACAACCAGCCAGTGATAGATTACCGCCACGATATAACGTTGTTGTTC -TTCGCTTAACGAAACACCCTGCGGAATGTTATGCCACTTAGCCAGACAACCGCGACAGCAGGTCGCGGTGGCGTGCTGAG -CGATAAACACCGGATGCCCGCGCATGGGGGTTTGCTTACCGTCATTAGCCGGTAATGCCGGAGCAAGACGTTTAGCGACA -AAATCCGCCGCATGTTGTTCGATGACTGGCGCGCCTTTCTCCAGGCAATACTGACGCTCTTTCATGCCCAGACGAAAGCG -AGAGCGAAATTTTGAACGGGATAAACGCGCGAAGAGTGGATCGAGAGACTGCATTAATAAACCGAACGCCCTAACTGTTT -CGTCAATTGTTCAAGAACGGCAATACCCGCAAGCGAGTTACCTGCATCATCCAGTTCCGGACTCCAGACAGCGATGGCCA -TTTCATGCGGAACAATCGCCACAATACCGCCACCAACGCCAGATTTCGCCGGTAGCCCCACCCGCCAGGCAAACTCCCCC -GCGTTCTGGTACATACCACTGGTCGCCATCAGCGCGTTAATTTGCCGCGCCTGCATTGGCGTCACCACTGGTTCATCAAT -ATGAATAGCTTTCCCCTGATTAGCCAGAAAGACAAACGTCCGGGCCAGCTCTACACAGCTCATTTTCAGAGCGCAGTAAT -GAAAGTAGTTTTGCAGAACGGTTGTCACGTCATGATGGAAATTGCCAAACGACTTCATCAGCCAGGCGATAGCCGCATTT -CGCGCGGAATGTTCAAATTCGGAACGCGCTACCACCGTATCGTAGGAAATATCAGACACACCGCTTAAGCCGCGCACGAC -TTCCAGCATACGTTGCCGTGGTGCGCTTAATCGCCCTTGCAACATATCGCAGACCACCAGCGCACCGGCATTAATGAACG -GATTACGCGGTATACCCTGCTCCATTTCCAGTTGCACTAAGGAATTGAACGGTGATCCAGACGGATCTTTGCCGACGCGT -TGCCAGATTTCCTCTTCGGAGTAATGACGCATGGCGACAACGAGACTCAGCACTTTGGAAATAGACTGAATGGAAAAACG -TTCTTGCGCGTCTCCGGCCTGAAAAAGCTGTCCGTCAACGGTACAGATAGCAATCCCCAATCGGGAACCGTCTACTGTAG -CCAGCGCCGGAATATAATCCGCGACTTTACCCTGACCAATGAGCGGCCGCACTTGCCGCAAGATGTTTTCTAAAATTGCA -TTATCCATGGCGACTGCCACTTTCTACTCCTGGACCGCAGGTCTGAAAAGACCTGCGAGTATATCAGAGCTGAATATGTC -GCGTCAGATCCGGTCTTTCCACACCGTCTGGATATTACAGAATTCGTGTAAGCCGAAATGGGAAAGCTCACGACCAAAGC -CACTCTTTTTCACGCCACCAAAGGCCACTCGCGCGTCGCTGGCACAATAACCATTGATAAACACCCCACCGCATTCCAGA -CGTGCCGCCATCTGTCTGGCCTGTGTTTCGTCAGTGGTAAAAATGGTCGCTGAAAGGCCGAACTCACTATCATTAGCCAG -TTCCAGTGCATGTTCTGCATCTTTCGCAATGGTGATTGCCGCAACGGGGCCAAACATTTCTTCCCGAAACGCGGTCATTT -CTGGGGTAACATTCGCCAGAACCGTTGGCGGATAGTAGTTACCTGCCCCAGCCATCTTTTCCCCGCCCAGTAACAAACGC -GCACCCTGCGCCAGGGTTTTCTCCACCTGATGATGCAGCTCATCACGTAAATCAAAACGAGCCATTGGTCCGAGAGCGTT -CTCTTCGTCACGGGGATCGCCCATTTTCAAGGCTGCCGCAGCTGCCACAAAACGTTCGGTAAATGCCGAAGCAATTCCCT -CTTCGATAATAAAGCGTTTTGCCGCTGCACATACCTGTCCGGTATTCTGATAACGTCCGGCTACCGCCGCTTTCACCGCC -AGTTCCAGATCGGCATCGTTAAGCACAATAAACGGATCCGAACCGCCCAGTTCCAGTACGCATTTTTTCAGTGCCGCTCC -AGCCTGTGCGCCAATAGCCGCTCCCGCACGAACACTTCCGGTCACCGTGACAGCAGCAATGCGCGAGTCTTTAATCATCT -GACTGACACCGTCGTTGTCGGCATTCAGCCAGCCATATACGCCTTGTGGGATACCCGCATCTTTAAACACCTGGGCAATG -AGCTGTGCACAGCCCATCACATTCGGCGCATGTTTAAGTAAGTAGCCGTTACCTGCAAGAATGATGGGAACAGCGCCACG -CATCACCTGCCATAACGGAAAATTCCACGGCATAATCGCCAGAATCGTCCCCAACGGTCGATACTCAATAACCGCCTGCT -GATTTTCCACCAGCGTAGGTTCCGCCTTCAGCATTGCCGGACCATGTTCTGCATACCAGTCACACAAATTCGCCGATTTC -GCCACTTCAGCGCGCGCCTGGTTGATTGGTTTGCCCATTTCGCGGGTGATCATTTGCGCCATTTCTTCGCTACGAGCGCG -CAGAGCCTTACCGATATCACGCAGTTTTTCAGCACGATAATCTATATTTGTCTCGCGCCAGTCGCGAAAGCCTGCTGCCG -CCAGCTGAAGTGCGTTTTCGATATCGTCAGCGCCAGCCCACGGCAGCACAGAAAGTTGTTCACCCGTGGCAGGATTTATC -GAAATTGCATGAGTTGCCGGAGTAATGGTCATCGGGGTATCTCCTTTATGAGTCATGGTATGAAGATACGCAGATTTACT -CTTGCTTTAAAATGAATAATATTAAGCCACTTATTCACGAATCGAGAATGCTATGGATCTGACCCAACTGGAGATGTTCA -ACGCGGTTGCCGAAGCTGGCAGCATAACCCAGGCTGCAGCAAAAGTGCATCGCGTGCCGTCGAATCTCACTACCCGTCTG -CGCCAGCTGGAAACAGAACTGGGGGTTGATCTGTTTATTCGCGAGAATCAGCGTTTACGTCTCTCTCCTGCCGGGCATAA -CTTTTTACGCTATAGCCAACAAATTCTCGCGTTAGTGGATGAAGCGCGGAGCGTTGTCGCTGGCGATGAGCCGCAAGGTT -TATTTTCTCTTGGTTCGCTGGAAAGCACCGCTGCAGTGCGCATTCCAGCCACGCTGGCGGAATTCAACCGTCGTTATCCC -AAAATTCAGTTTTCACTTTCCACCGGCCCTTCCGGCACTATGCTGGATGGTGTACTGGAGGGAAAACTGAATGCGGCGTT -TATTGATGGACCCATTAACCATACTGCCATCGACGGGATACCGGTATACCGCGAGGAACTGATGATCGTCACGCCACAAG -GATATGCGCCAGTAACCCGTGCCAGTCAGGTTAATGGCAGTAACATTTATGCCTTCCGCGCCAATTGTTCGTATCGTCGC -CACTTCGAGAGCTGGTTTCATGCTGACGGTGCCGCTCCGGGAACTATCCATGAGATGGAGTCTTATCACGGAATGTTGGC -CTGTGTGATCGCAGGAGCAGGCATTGCGCTTATTCCGCGCTCTATGCTGGAAAGTATGCCGGGGCATCACCAGGTTGAAG -CGTGGCCGTTAGCTGAGCAATGGCGTTGGTTAACAACCTGGCTGGTCTGGCGTCGTGGTGCGAAAACACGTCCGCTCGAG -GCATTTATTCAACTGCTGGATGTGCCTGACTCGGCAAGACAGGGATATCAATGAGCTATTTTTGATAGTTCTTGCGGTTA -ATATGCTCTATATAGTGATGTTCCGATGACTTATGACTATATGGGGCAAATATGGTTACGCCAGTAAGCATCAGCAATTA -CATATCTCTTCCTGATGATTTTCCCGTACGTAATATTGCACCGCAGGTAAAAGAAGTTTTAAAGGATTTTATTGATGCAC -TTAGTACAATAATATGTAATGAAGAGTGGCGCACGTCTTTAAACATCAACTCAGCCACAAAAAAGATATTTAATAACCTT -GACAACTTATCATATATTCAGAGGACTTCTTTTCGGGGTAACGACACGCTATACAATGAAAAGGTTCAGTTTAAACTCAC -TTATCCCGCCAGGAATGGAAGACACAAAGAAAATATTGAATTTCAGGTAGTAATAAATTTAAGCCCTATTTATTTAGATA -ATTTTCGCCATGATGGAGAAATTAATATTTTTTGCGCTCCCAACCCAAAGCCTGTCACTATGGGGCGCGTATTTCAGACC -GGCGTCGAGCGTGTACTCTTTCTGTTTCTGAATGATTTTATTGAACAATTTCCAATGATCAACCCTGGTGTTCCCATCAA -AAGAGCGCATACACCACATATTGAACCCCTGCCTTCGGATCACCATACCGCTGCAGATTACTTACGCCAGTTTGATTTGC -TTGTCCTGAATTTTATCTCTCGCGGTAATTTTGTCATACTCCCCCGATTATGGAATAACTCTGAGGTTCACAGATGGTTC -GTCAATAAAGATCCTAACTTGATCACCGCCATTCTCGACATAACGGACAGCGAATTAAAAGAGGATTTGTTGCAAAGCCT -GATGGATTCATTAGGTTCTAACAAACATGTACTACCCGAAGTCTGCATCTGCTTTTTATCCCTTTTAGCAGAACAAGAAT -CTCCTCATTTTCAGAACTTGTTTTTATTTTTCGCCAATATGTTATTGCACTATCACCAATTTATGAATCCCAATGAAAGT -GATTTGAATGACGTGTTGATGCCAGCATCATTAAGTGATGATAAAATTATCAAACATATGGCGCGCAGGACCCTCAAACT -GTTTGTAAAAAATGAAACACCGCCAAAAGTTACTCACGAAGACCTGGTGAAAAACAGGCCTCGCTCCCCTGTCAGACCAC -CTATACCCGCAACCGCCAAAACGCCAGACCTCCCTGAACGTCATTAAACCGTGATGTTACCGACTCTCTGACGCGTGAAA -GAATCAGCGTCAGAGAAACGGAAAACGCGATCCAGATCACAAATGCATTGTATTCACATCATTAACCGTTTTAAGATCAT -TTCATCACTTTTTCGCAACTCACCCGATAATCTGTTATGACAACAAACACTGTTTCCCGCAAAGTGGCGTGGCTACGGGT -CGTTACGCTGGCAGTCGCCGCCTTCATCTTCAACACCACCGAATTTGTCCCTGTTGGCCTGCTCTCTGACATTGCGCAAA -GTTTTCACATGCAAACCGCTCAGGTCGGCATCATGTTGACCATTTACGCATGGGTAGTAGCGCTAATGTCATTGCCTTTT -ATGTTAATGACCAGTCAGGTTGAACGGCGCAAATTACTGATCTGCCTGTTTGTGGTGTTTATTGCCAGCCACGTACTGTC -GTTTTTGTCGTGGAGCTTTACCGTTCTGGTGATCAGTCGCATTGGTGTGGCTTTTGCACATGCGATTTTCTGGTCGATTA -CGGCGTCTCTGGCGATCCGTATGGCTCCGGCCGGGAAGCGAGCACAGGCATTGAGTTTAATTGCCACCGGTACAGCACTG -GCGATGGTCTTAGGTTTACCTCTCGGGCGCATTGTGGGCCAGTATTTCGGTTGGCGAATGACCTTCTTCGCGATTGGTAT -TGGGGCGCTTATCACCCTTTTGTGCCTGATTAAGTTACTTCCCTTACTGCCCAGTGAGCATTCCGGTTCACTGAAAAGCC -TCCCGCTATTGTTCCGCCGCCCGGCATTGATGAGCATTTATTTGTTAACTGTGGTGGTTGTCACCGCCCATTACACGGCA -TACAGCTATATCGAGCCTTTTGTACAAAACATTGCGGGATTCAGCGCCAACTTTGCCACGGCATTACTGTTATTACTCGG -TGGTGCGGGCATTATTGGCAGCGTGATTTTCGGTAAACTGGGTAATCAGTATGCGTCTGCGTTGGTGAGTACGGCGATTG -CGCTGTTGCTGGTGTGCCTGGCATTGCTGTTACCTGCGGCGAACAGTGAAATACACCTCGGGGTGCTGAGTATTTTCTGG -GGGATCGCGATGATGATCATCGGGCTTGGTATGCAGGTTAAAGTGCTGGCGCTGGCACCAGATGCTACCGACGTCGCGAT -GGCGCTATTCTCCGGCATATTTAATATTGGAATCGGGGCGGGTGCGTTGGTAGGTAATCAGGTGAGTTTGCACTGGTCAA -TGTCGATGATTGGTTATGTGGGCGCGGTGCCTGCTTTTGCCGCGTTAATTTGGTCAATCATTATATTTCGCCGCTGGCCA -GTGACACTCGAAGAACAGACGCAATAGTTGAAAGGCCCATTCGGGCCTTTTTTAATGGTACGTTTTAATGATTTCCAGGA -TGCCGTTAATAATAAACTGCACACCCATACATACCAGCAGGAATCCCATCAGACGGGAGATCGCTTCAATGCCACCCTTG -CCCACCAGCCGCATAATTGCGCCGGAGCTGCGTAGGCTTCCCCACAAAATAACCGCCACCAGGAAAAAGATCAGCGGCGG -CGCAACCATCAGTACCCAATCAGCGAAGGTTGAACTCTGACGCACTGTGGACGCCGAGCTAATAATCATCGCTATGGTTC -CCGGACCGGCAGTACTTGGCATTGCCAGCGGCACAAAGGCAATATTGGCACTGGGTTCATCTTCCAGCTCTTCCGACTTG -CTTTTCGCCTCCGGTGAATCAATCGCTTTCTGTTGCGGAAAGAGCATCCGAAAACCGATAAACGCGACGATTAAGCCGCC -TGCAATTCGCAGACCGGGAATCGAAATGCCAAATGTATCCATCACCAGTTGCCCGGCGTAATACGCCACCATCATGATGG -CAAATACGTACACCGAGGCCATCAACGACTGACGATTACGTTCGGCACTGTTCATGTTGCCTGCCAGGCCAAGAAATAAC -GCGACAGTTGTTAATGGGTTAGCTAACGGCAGCAACACCACCAGCCCCAGGCCAATTGCTTTAAACAAATCTAACATTGG -TGGTTGTTATCCTGTGTATCTGGGTTATCAGCGAAAAGTATAAGGGGTAAACAAGGATAAAGTGTCACTCTTTAGCTAGC -CTTGCATCGCATTGAACAAAACTTGAACCGATTTAGCAAAACGTGGCATCGGTCAATTCATTCATTTGACTTATACTTGC -CTGGGCAATATTATCCCCTGCAACTAATTACTTGCCAGGGCAACTAATGTGAAAAGTACCAGCGATCTGTTCAATGAAAT -TATTCCATTGGGTCGCTTAATCCATATGGTTAATCAGAAGAAAGATCGCCTGCTTAACGAGTATCTGTCTCCGCTGGATA -TTACCGCGGCACAGTTTAAGGTGCTCTGCTCTATCCGCTGCGCGGCGTGTATTACTCCGGTTGAACTGAAAAAGGTATTG -TCGGTCGACCTGGGAGCACTGACCCGTATGCTGGATCGCCTGGTCTGTAAAGGCTGGGTGGAAAGGTTGCCGAACCCGAA -TGACAAGCGCGGCGTACTGGTAAAACTTACCACCGGCGGCGCGGCAATATGTGAACAATGCCATCAATTAGTTGGCCAGG -ACCTGCACCAAGAATTAACAAAAAACCTGACGGCGGACGAAGTGGCAACACTTGAGTATTTGCTTAAGAAAGTCCTGCCG -TAAACAAAAAAGAGGTATGACGATGTCCAGACGCAATACTGACGCTATTACCATTCATAGCATTTTGGACTGGATCGAGG -ACAACCTGGAATCGCCACTGTCACTGGAGAAAGTGTCAGAGCGTTCGGGTTACTCCAAATGGCACCTGCAACGGATGTTT -AAAAAAGAAACCGGTCATTCATTAGGCCAATACATCCGCAGCCGTAAGATGACGGAAATCGCGCAAAAGCTGAAGGAAAG -TAACGAGCCGATACTCTATCTGGCAGAACGATATGGCTTCGAGTCGCAACAAACTCTGACCCGAACCTTCAAAAATTACT -TTGATGTTCCGCCGCATAAATACCGGATGACCAATATGCAGGGCGAATCGCGCTTTTTACATCCATTAAATCATTACAAC -AGCTAGTTGAAAACGTGACAACGTCACTGAGGCAATCATGAAACCACTTTCATCCGCAATAGCAGCTGCGCTTATTCTCT -TTTCCGCGCAGGGCGTTGCGGAACAAACCACGCAGCCAGTTGTTACTTCTTGTGCCAATGTCGTGGTTGTTCCCCCATCG -CAGGAACACCCACCGTTTGATTTAAATCACATGGGTACTGGCAGTGATAAGTCGGATGCGCTCGGCGTGCCCTATTATAA -TCAACACGCTATGTAGTTTGTTCTGGCCCCGACATCTCGGGGCTTATTAACTTCCCACCTTTACCGCTTTACGCCACCGC -AAGCCAAATACATTGATATACAGCCCGGTCATAATGAGCACCGCACCTAAAAATTGCAGACCCGTTAAGCGTTCATCCAA -CAATAGTGCCGCACTTGCCAGTCCTACTACGGGCACCAGTAACGATAACGGTGCAACCCGCCAGGTTTCATAGCGTCCCA -GTAACGTCCCCCAGATCCCATAACCAACAATTGTCGCCACAAACGCCAGATACATCAGAGACAAGATGGTGGTCATATCG -ATAGTAACCAGACTGTGAATCATGGTTGCGGAACCATCGAGAATCAGCGAGGCAACAAAGAAGGGAATGATTGGGATTAA -AGCGCTCCAGATTACCAGCGACATCACCGCCGGACGCGTTGAGTGCGACATGATCTTTTTATTGAAGATGTTGCCACACG -CCCAACTAAATGCTGCCGCCAGGGTCAACATAAAGCCGAGCATCGCCACATGCTGACCGTTCAGACTATCTTCGATTAAC -ACCAGTACGCCAAAAATCGCTAAGGCGATCCCCGCCAATTGTTTGCCATGCAGTCGCTCCCCGAAAGTAAACGCGCCAAG -CATGATAGTAAAAAACGCCTGTGCCTGTAACACCAGCGAAGCCAGTCCAGCAGGCATACCGAAGTTAATGGCACAAAAAA -GAAAAGCAAACTGCGCAAAACTGATGGTTAATCCATACCCCAGCAGCAAATTCAGTGGTACTTTCGGTCGTGCGACAAAA -AAGATAGCCGGAAAAGCGACCAGCATAAAGCGCAAACCGGCCAGCATCAGCGGTGGCATGTTATGAAGCCCCACTTTGAT -GACCACAAAATTTAGCCCCCATACGACCACTACCAGTAGCGCCAACACCCCATCTTTTCGCGACATTCTACCGCCTCTGA -ATTTCATCTTTTGTAAGCAATCAACTTAGCTGAATTTACTTTTCTTTAACAGTTGATTCGTTAGTCGCCGGTTACGACGG -CATTAATGCGCAAATAAGTCGCTATACTTCGGATTTTTGCCATGCTATTTCTTTACATCTCTAAAACAAAACATAACGAA -ACGCACTGCCGGACAGACAAATGAACTTATCCCTACGACGCTCTACCAGCGCCCTTCTTGCCTCGTCGTTGTTATTAACC -ATCGGACGCGGCGCTACGCTGCCATTTATGACCATTTACTTGAGTCGCCAGTACAGCCTGAGTGTCGATCTAATCGGTTA -TGCGATGACAATTGCGCTCACTATTGGCGTCGTTTTTAGCCTCGGTTTTGGTATCCTGGCGGATAAGTTCGACAAGAAAC -GCTATATGTTACTGGCAATTACCGCCTTCGCCAGCGGTTTTATTGCCATTACTTTAGTGAATAACGTGACGCTGGTTGTG -CTCTTTTTTGCCCTCATTAACTGCGCCTATTCTGTTTTTGCTACCGTGCTGAAAGCCTGGTTTGCCGACAATCTTTCGTC -CACCAGCAAAACGAAAATCTTCTCAATCAACTACACCATGCTAAACATTGGCTGGACCATCGGTCCGCCGCTCGGCACGC -TGTTGGTAATGCAGAGCATCAATCTGCCCTTCTGGCTGGCAGCTATCTGTTCCGCGTTTCCCATGCTTTTCATTCAAATT -TGGGTAAAGCGCAGCGAGAAAATCATCGCCACGGAAACAGGCAGTGTCTGGTCGCCGAAAGTTTTATTACAAGATAAAGC -ACTGTTGTGGTTTACCTGCTCTGGTTTTCTGGCTTCTTTTGTAAGCGGCGCATTTGCTTCATGCATTTCACAATATGTGA -TGGTGATTGCTGATGGGGATTTTGCCGAAAAGGTGGTCGCGGTTGTTCTTCCGGTGAATGCTGCCATGGTGGTTACGTTG -CAATATTCCGTGGGCCGCCGACTTAACCCGGCTAACATCCGCGCGCTGATGACAGCAGGCACCCTCTGTTTCGTCATCGG -TCTGGTCGGTTTTATTTTTTCCGGCAACAGCCTGCTATTGTGGGGTATGTCAGCTGCGGTATTTACTGTCGGTGAAATCA -TTTATGCGCCGGGCGAGTATATGTTGATTGACCATATTGCGCCGCCAGAAATGAAAGCCAGCTATTTTTCCGCCCAGTCT -TTAGGCTGGCTTGGTGCCGCGATTAACCCATTAGTGAGTGGCGTAGTGCTAACCAGCCTGCCGCCTTCCTCGCTGTTTGT -CATCTTAGCGTTGGTGATCATTGCTGCGTGGGTGCTGATGTTAAAAGGGATTCGAGCAAGACCGTGGGGGCAGCCCGCGC -TTTGTTGATTTAAGTCGAACACAATAAAGATTTAATTCAGCCTTCGTTTAGGTTACCTCTGCTAATATCTTTCTCATTGA -GATGAAAATTAAGGTAAGCGAGGAAACACACCACACCATAAACGGAGGCAAATAATGCTGGGTAATATGAATGTTTTTAT -GGCCGTACTGGGAATAATTTTATTTTCTGGTTTTCTGGCCGCGTATTTCAGCCACAAATGGGATGACTAATGAACGGAGA -TAATCCCTCACCTAACCGGCCCCTTGTTACAGTTGTGTACAAGGGGCCTGATTTTTATGACGGCGAAAAAAAACCGCCAG -TAAACCGGCGGTGAATGCTTGCATGGATAGATTTGTGTTTTGCTTTTACGCTAACAGGCATTTTCCTGCACTGATAACGA -ATCGTTGACACAGTAGCATCAGTTTTCTCAATGAATGTTAAACGGAGCTTAAACTCGGTTAATCACATTTTGTTCGTCAA -TAAACATGCAGCGATTTCTTCCGGTTTGCTTACCCTCATACATTGCCCGGTCCGCTCTTCCAATGACCACATCCAGAGGC -TCTTCAGGAAATGCGCGACTCACACCTGCTGTCACGGTAATGTTGATATGCCCTTCAGAATGTGTGATGGCATGGTTATC -GACTAACTGGCAAATTCTGACACCTGCACGACATGCTTCTTCATCATTAGCCGCTTTGACAATAATGATAAATTCTTCGC -CCCCGTAGCGATAAACCGTTTCGTAATCACGCGTCCAACTGGCTAAGTAAGTTGCCAGGGTGCGTAATACTACATCGCCG -ATTAAATGCCCGTAGGTATCATTAACCAATTTAAATCGGTCAATATCCAACAACATTAAATAAAGATTCAGAGGCTCAGC -GTTGCGTAACTGATGATCAAAGGATTCATCAAGAACCCGACGACCCGGCAATCCCGTCAAAACATCCATATTGCTACGGA -TCGTCAGCAAATAAATTTTGTAATCGGTTAATGCCGCAGTAAAAGAAAGCAACCCCTCCTGAAAGGCGTCGAAATGCGCG -TCCTGCCAGTGATTTTCAACAATAGCCAGCATTAATTCCCGACCACAGTTATGCATATGTTGATGGGCAGAATCCATTAG -CCGAACGTAAGGTAATTCATCGTTATCGAGTGGCCCCAGATGATCAATCCACCGACCAAACTGGCACAGTCCATAAGAAT -GGTTATCCGTTATTTCTGGCTTACTGGCATCTCTCGCGACCACGCTGTGAAACATACTCACCAGCCACTGGTAGTGGGCA -TCGATAGCCTTATTGAGATTTAACAAGATGGCATCAATTTCCGTTGTCTTCTTGATCATTGCCACTCCTTTTTCACAGTT -CCTTGTGCGCGCTATTCTAACGAGAGAAAAGCAAAATTACGTCAATATTTTCATAGAAATCCGAAGTTATGAGTCATCTC -TGAGATAACATTGTGATTTAAAACAAAATCAGCGGATAAAAAAGTGTTTAATTCTGTAAATTACCTCTGCATTATCGTAA -ATAAAAGGATGACAAATAGCATAACCCAATACCCTAATGGCCCAGTAGTTCAGGCCATCAGGCTAATTTATTTTTATTTC -TGCAAATGAGTGACCCGAACGACGGCCGGCGCGCTTTTCTTATCCAGACTGCCACTAATGTTGATCATCTGGTCCGGCTG -AACTTCTCGTCCATCAAAGACGGCCGCAGGAATAACGACATTAATTTCACCGCTCTTATCGCGAAAAACGTAACGGTCCT -CTCCTTTGTGAGAAATCAAATTACCGCGTAGTGAAACCGAAGCGCCATCGTGCATGGTTTTTGCGAAATCAACGGTCATT -TTTTTTGCATCATCGGTTCCGCGATAGCCATCTTCTATTGCATGAGGCGGCGGTGGCGCTGCATCCTGTTTTAAACCGCC -CTGGTCATCTGCCAACGCATAAGGCATGACAAGAAAACTTGCTAATACAATGGCCTGAAATTTCATACTAACTCCTTAAT -TGCGTTTGGTTTGACTTATTAAGTCTGGTTGCTATTTTTATAATTGCCAAATAAGAATATTGCCAATTGTTATAAGGCAT -TTAAAATCAGCCAACTAGCTGTCAAATATACAGAGAATTTAACTCACTAAAGTTAAGAAGATTGAAAAGTCTTAAACATA -TTTTCAGAATAATCGGATTTATATGTTTGAAAATTATTATATTGGACGAGCATACAGAAAAAGCAAATCACCTTTACATA -TAAAAGCGTGGACAAAAAACAGTGAACATTAATAGAGATAAAATTGTACAACTTGTAGATACCGATACTATTGAAAACCT -GACATCCGCGTTGAGTCAAAGACTTATCGCGGATCAATTACGCTTAACTACCGCCGAATCATGCACCGGCGGTAAGTTGG -CTAGCGCCCTGTGTGCAGCTGAAGATACACCCAAATTTTACGGTGCAGGCTTTGTTACTTTCACCGATCAGGCAAAGATG -AAAATCCTCAGCGTAAGCCAGCAATCTCTTGAACGATATTCTGCGGTGAGTGAGAAAGTGGCAGCAGAAATGGCAACCGG -TGCCATAGAGCGTGCGGATGCTGATGTCAGTATTGCCATTACCGGCTACGGCGGACCGGAGGGCGGTGAAGATGGTACGC -CAGCGGGTACCGTCTGGTTTGCGTGGCATATTAAAGGCCAGAACTACACTGCGGTTATGCATTTTGCTGGCGACTGCGAA -ACGGTATTAGCTTTAGCGGTGAGGTTTGCCCTCGCCCAGCTGCTGCAATTACTGCTATAACCAGGCTGGCCTGGCGATAT -CTCAGGCCAGCCATTGGTGGTGTTTATATGTTCAAGCCACGATGTTGCAGCATCGGCATAATCTTAGGTGCCTTACCGCG -CCATTGTCGATACAGGCGTTCCAGATCTTCGCTGTTACCTCTGGAAAGGATCGCCTCGCGAAAACGCAGCCCATTTTCAC -GCGTTAATCCGCCCTGCTCAACAAACCACTGATAACCATCATCGGCCAACATTTGCGTCCACAGATAAGCGTAATAACCT -GCAGCATATCCGCCACCAAAAATATGGGCGAAATAACTGCTGCGATAGCGTGGCGGTATAGCAGGAAGATCCATATTTTC -CGCCACCAGCGCCCGCAATTCAAAATCATCGACATCCTGCATTGCTTCGTTTTCTTCCAGGCAATGCCAGCGCATATCGA -GAAGTGCGGCGCTAAGCAGTTCGCTCATCTCATACCCTTTGTTGAACAGGCTGGCATTACGCATTTTCTGTTGCAGTTCG -TCAGGCATTGCTGCCCCGCTCTGATAATGCCGGGCGTAGCGAGCGAATACCTGCGGATGCGTTGCCCAGTGTTCGTTGAT -TTGCGACGGAAATTCGACAAAATCACGCGGCGTGTTGGTGCCGGAAAGCGTGGCATAACGCTGGCGGGCAAAAAGGCCGT -GCAGCGTATGACCAAATTCATGGAATAAGGTTATGACATCATCCCAGAGTAACAACGCAGGCTCACCGGCAGCGGGTTTC -TGATAATTGCAGACGTTATAAATTACCGGATGTGTTTTATTAAGCGTTGATTGCTCAACAAAATTGCCCATCCATGCACC -GCCGCTTTTTGAATCACGGGCGAAGAAATCACCGTAAAATAACGCCAGCCCCACGCCATTATGATCAAAAATTTCCCACA -CACGAACGTCAGGATGGTAGACAGGAATATCAAAACGTTCGACAAACTTAATACCGAAGAGCTGATTCGCGGTCCAGAAT -ACACCTTCATTTAACACCGTGTTTAATTCAAAATATGGCTTGAGCTGCGCCTCATCAAGATCAAATTTCTCCCGCCGTAC -CTGTTCCGCATAAAATGCCCAGTCCCACGGCTGCGCGCTAAACCCGCCCTGCTGCTTATCGATAACCGCCTGTATGGAGG -CTAATTCATCGCTCGCACGTTGACGCGCCGCTGGAACAATTTCCCGCATAAAGTTAAGTGCTGCTTCAGGTGTTTTTGCC -ATCTGATCGGCGATTTTCCATGCGGCATAATGAGGAAAACCAAGTAGTGTTGCCTGTTGTGCACGGATCTCCACCAGACG -TTGAATGATAGCGCGGGTATCATTGGCATCATTTTTTTCCGCTCGCGTCCAGCCCGCAATAAACAGTTTTTCACGCGTCG -CACGATCGCGCATTTCGGCAAGCGCCGGTTGTTGGGTGGTATTCAGCAGCGGAATCAGCCATTTGTTATCCAGACCTTTC -TCGCGAGCCGCCTCTGCCGCCAGCGCAATCTCTTGCTCACTCATTCCTGCCAGCTGCGCGATATCGTTCACAACCAGACC -GCCGGATTTATTTGCTGCCAGTAATCGCTGGTTAAACTGGCTGGTCAGGGTCGCAGCTTCTGTATTCAGTACTTTTAATT -TTGCTTTATCAGCTTGCGCAAGTTTGGCTCCGGCAAGGACAAAACGTTGATGAATCACCTCCACCAGGCGGATGGATTCA -CTATCAAGCCCCAGGGATTCACGGCGCTGCCAGACAGCATCTACCCGCGCGAATAATTCACCGTTCAGATAGATATCATT -AGCCAGTTCCGCCAGTTCAGCGGAAAACTGCTCGTCAAGACGCTGTAATTCATCATTGGTATGCGCCGCAGTCATCGCAA -AAAAGACGCTGGTAACGCGGGTAAGTAATTCTCCGCTTTGTTCCAGTGCCAGAATAGTATTGTTGAAATCAGGCATTTGC -GGGTTAAGCGCGATGGCAGCAATTTCTGCCCGCTTTTGCTGCATTCCCTCATCGAATGCCGGGCGATAGTGATGATTGGC -AATTTGATCAAAATGGGGAGCCAGATACGGCAGTGTGCTTTGCACAAGGAAAGGATTCATTGTTGTCATTTTCTTCTCCT -GAACGCGAGGTGTTCCATAGCGTAGGCTTACTGATAACGGAGTGCAATCTTGCAATCCAGTATTACCCGCTCTTAAGCAT -CCCGTGCTATGTTATTGACACACAAAAGCGTTGAGGAACAGTGAGATGATCGTTTTAGTAACTGGAGCAACGGCAGGTTT -TGGTGAATGCATTACTCGTCGTTTTATTCAACAAGGGCATAAAGTTATCGCCACTGGCCGTCGCCAGGAACGGTTGCAGG -AGTTAAAAGACGAACTGGGAGATAATCTGTATATCGCCCAACTGGACGTTCGCAACCGCGCCGCTATTGAAGAGATGCTG -GCATCGCTTCCTGCCGAGTGGTGCAATATTGATATCCTGGTAAATAATGCCGGCCTGGCGTTGGGCATGGAGCCTGCGCA -TAAAGCCAGCGTTGAAGACTGGGAAACGATGATTGATACCAACAACAAAGGCCTGGTATATATGACGCGCGCCGTCTTAC -CGGGTATGGTTGAACGTAATCATGGTCATATTATTAACATTGGCTCAACGGCAGGTAGCTGGCCGTATGCCGGTGGTAAC -GTTTACGGTGCGACGAAAGCGTTTGTTCGTCAGTTTAGCCTGAATCTGCGTACGGATCTGCATGGTACGGCGGTGCGCGT -CACCGACATCGAACCGGGTCTGGTGGGTGGTACCGAGTTTTCCAATGTCCGCTTTAAAGGCGATGACGGTAAAGCAGAAA -AAACCTATCAAAATACCGTTGCATTGACGCCAGAAGATGTCAGCGAAGCCGTCTGGTGGGTGTCAACGCTGCCTGCTCAC -GTCAATATCAATACCCTGGAAATGATGCCGGTTACCCAAAGCTATGCCGGACTGAATGTCCACCGTCAGTAATTTTTATA -CCCGGCGTAACTGCCGGGTTATTGCTTGTCACAAAAAAGTGGTAGACTCATGCAGTTAACTCACTCACAAGCAAGAACGA -ATGACCGTCGAAACGCAACTTAATCCCACACAGCCTGTCAATCAGCAGATTTATCGTATTCTTCGTCGCGACATTGTCCA -TTGCCTGATTGCTCCAGGCACACCGTTGTCGGAAAAAGAAGTTTCTGTTCGTTTCAATGTGTCACGCCAGCCGGTTCGTG -AAGCCTTTATTAAACTGGCGGAAAACGGCCTGATTCAAATTCGTCCGCAACGTGGCAGCTACGTCAACAAAATTTCCATG -GCCCAGGTGCGCAACGGCAGTTTTATCCGTCAGGCCATTGAGTGCGCGGTGGCGCGTCGGGCGGCGAGCATGATTACCGA -AAGCCAGTGCTATCAACTGGAACAAAATCTTCACCAGCAACGCATTGCCATTGAGCGCAAGCAACTGGATGATTTTTTTG -AACTTGATGACAACTTCCATCAACTCCTGACGCAGATTGCCGACTGTCAACTGGCGTGGGATACCATTGAGAACCTGAAA -GCGACCGTTGATCGCGTGCGCTATATGAGTTTCGACCACGTTTCTCCACCAGAAATGCTGTTACGCCAGCATCTTGATAT -TTTCTCTGCCCTGCAAAAACGTGATGGCGATGCGGTAGAACGTGCAATGACGCAACATTTGCAGGAAATCAGCGAATCCG -TGCGCCAGATCCGCCAGGAAAACAGCGACTGGTTTAGCGAAGAGTAATTCATTTCCTCTCATCCCATCCGGGGTGAGAGT -CTTTTCCCCCGCCTTATGGCTCATGCATGCATCAAAAAAGATGTGAGCTTGATCAAAAACAAAAAATATTTCACTCGACA -GGAGTATTTATATTGCGCCCGTTACGTGGGCTTCGACTGTAAATCAGAAAGGAGAAAACACCTATGACGACCTACGATCG -TAACCGTAACGCAATCACCACTGGCAGCCGTGTTATGGTTAGCGGCACCGGTCACACTGGCAAGATCCTGTCGATTGATA -CTGAAGGTCTGACCGCTGAGCAAATCCGCCGCGGAAAAACCGTAGTTGTTGAAGGTTGTGAAGAGAAACTGGCACCACTG -GACCTGATTCGTCTCGGCATGAACTAAGCGTGTGAATGCCGCCGATGGCGGCATTGCTTTTTTACTTCACGGAATATTTT -GCCACGGTCGCTTTCGCGCCATGCGCTAATAAAGACAAGTACGTTTCCGTCACTCTTGCAGTAAACAAACTATTGTCTGG -CAAATCATCACCAAAGATCGCCTTAATCGCCAGCAATGACTGGACGCGCGCTTTCCCTTCGGCACTACTTTGTACAGCCT -TCTGAATAACAGGTAACAGTGGGTCACTGATTTCTATCGGATTTCCCTGTTCATCAACACCACCGACATAACGCATCCAA -CCCGCGACGCCCAGCGCCAGCAGATCGAACTTGCTGTCATGCGCCAGATGCCAGCGAACAGAATCCAACATCCGCTGTGG -CAATTTCTGGCTACCATCCATCGCAATCTGCCAGGTTCGATGACGTAACGCCGGGTTGCTATAGCGTGCAATTAATCGGT -TAGCGTAATCTTGCAAATCAACGCCCTGCACTTTCAACGTCGGCGCTTGTTCCTGCAACATCAAGCCATACGCCGCATAA -CGATAATGTTCATCTTCCATACAGTCATTAATGTGCTGATATCCTGCAAGATACCCCAGATACGCCAGGAATGAATGACT -GCCGTTGAGCATGCGCAACTTCATCTCTTCATAAGGCAGCACATCGCTAACCAGTTCGGCTCCCGCTTTTTCCCATTCCG -GACGTCCGGCAACAAAGTTATCTTCTATTACCCACTGGCGGAAAGGTTCACAGGCAACGCCCGCAGGATCGCGCACACCG -GTAAGTTGTTCGATTTTCGCCAGCGTATCCTCTGTCACTGCGGGCACAATACGGTCCACCATTGTTGATGGGAAAGTCAC -GTTATCTTCGATCCATTGTGCCAGTTTTACATCAACGGCTTGTGCGTAGGAAGTGACAACGTCACGCATAACATGACCGT -TTTCTGGCATGTTGTCACATGACATGACGGTAAATGCGGGAAGTCCTGCCGCTTTACGGCGAGCCAGCGCCTCAACAATC -ACCCCTGTTGCTGTTTTCGGCTGGTGGGGATTTTGCACGTCGGCAGCTACCATCGGGTGATCGAGCATTAACTGTCCGGT -CGCCGGAGAGTGGAAATACCCTTTTTCGGTGATTGTCAGAGAGACAATCGCGATTTGCGGTTCACACATCGCTGCCAACA -CGGTTTCTAAGCCATCTATCTGTACGTGCAAGGCTTTTTTAACGACGCCAACGACGCGAGCCGTCCACACATCGGCCGAC -ATTTCCGCAACGGTATAAAGATTATCTTGCTGTTGTAAATCGGCAATTTGCTGTTCGCCGCCGATTAAGTTGACCTCATA -ATATCCCCAGTCACTGAAATGTTCCGTAGCAAGAATATCGGCATACACACCCTGATGCGCACGGTGAAATGCACCAAAGC -CTAAATGAACAATTCTTGGAGCCAGGTTATTAAGATCATAAACAGGGAGTGTCGCTTTTGCTGATAACAAATTATTTCCC -ATAACAATTCCTTAAATATAAATATGGCAAGCTATATGTTTTGTTATATGAATAAAAATCCCCTCTCCGGTAAGAGAAGG -GATTAAGGGTTTACAGACTTCTGGAAGGTTGCGCAGCTCTTACAACACGCGGTTGATCTTCCGCAGCGTCTTCCAGCGCA -CTTAAATCACGGTCTTTCACCTCTGGCATTTTCAGCGCAGAGATTAAACCAATCACTGAATATGCCATGATCATAATGGC -GATCGGATACCAGGATTCCGTCATGGTGCAGAAAATACCCGCCAGGATAGGACCAAAACCGGAAGCGATAAGACCACCAA -TTTCTTTAGAAATAGCCATCCGGGTAAAGCGGTTTTTACAGCCGAACATTTCTGCCATGGTAATGTTTTCCAGAGCAAAT -AATCCCAGCACCGCACAGTTATGAATCACAATCAGTGCAACCATAATGGTGCTCGGGGCATAGCTTTTATCTACAATGAT -AGAAAGCATTGGCCATGCCAGCACAATCGCGGAGGTATTCATAATAATATACGGGATCCGGCGACCAATTTTATCGGATA -ACCAACCAAGGAACGGAATGGTCATAAAGCCGAGAATCGAACTGATCATCAATGCATCTGTTGGAATTGCTTTGTTAAAC -AATAACGTCTGCACTAAATAGCCTGCAAGGAAAGTCTGAATTAACCCGGAGTTACCCGCCTGACCAAAACGCAGCCCTGT -TGCCAGCCAGAAGGATTTGCTCTGGAACATGCTACCAGCAGGTGCAGGTTTTGCTGTCGGTTGGTTACTGTCGTTAACCT -TCTCAAAGACCGGGCTTTCTTTCAGATTCATACGCAACCAGATAGCAAAGACCATCACGACAACACTCGCCAGGAACGGT -ATACGCCATCCCCACGCCAGCAGTTCCTCTTTACTGAGAATGAAGAACATAAAGGCCCAGATTGCCGTTGCGCTCAAGGT -TCCGCAGTTAGTTCCCATAGCCACAAATGAGGAGATAATTCCGCGCTTACCTTTTGGCGCATATTCCGCCAGCATCGTAC -CGGCACCGGAAATTTCCGCACCTGCACCCAACCCCTGAATAATACGCAACGTCACCAGCAAGATGGGTGCAAAAACACCA -ATCTGTGCATAGGTCGGTAACACACCAATTAAGGTGGTACAGATCCCCATCATGGTGATGGTAATAAAGAGCACTTTTTT -ACGCCCTATTCTGTCGCCCATTTTGCCGAAAATAAATGCTCCGACAATACGCGCCACATAACCTGCACCGTAGGTTCCCA -TTGCCAGAATTAACGCCATTGCCGTTGATGATTCAGGAAAAAATATTTCATGAAACACTAACGCTGCGCCGAGCGAATAT -AACTGGAAATCCATAATTCACAGGTGTTTTTTCCCATCCTGTGGTTTCCTTGGCGTTTTCTAGGTTTTTTCAGATAGTTG -CATTTTTTTAAAAAGCATCCTAAGTTCGATCTCAGTGTCTATCTGGGGCCTATTTCTGTCCCATATATGCCCCAAAAAAA -CTCCCCAACAGATAAGTAGTTTTTTCATGGATTTATGCGTAAAATCAAGAACGGCTGGAAATCATTCAATACTCACACTA -TCGAAAAATTTACCAGCCAATCGCAGCACGTTCTTGCATAAGGTGTGTCTGCGGTTTTTCAACTATTCAGATACATCACT -CCCATCACATTCATTCCTCCGCATCAAAGGCATATAGGCTATATCACCTTGATATTTTTCTTTTTCAGATAAAAACTGTT -ATCTATGTATACTTTTAAACCCAATCCGTGTAGAGTCTCTACATAAGATAGTTTGCAGTTGCCGCTTCAGCTTGCGCCAT -AAACCGCCTGATTTTTGCTGCCACCTGTTAGCATTCCTGTATACCTGAAACGACAATGTTTATCTACGAACTTTAAGAAC -ACCCAGGATAAAAATTGTCAACTATATCATATATAACACATTACTAATTCGAGGCTATATGAACAGCATACTGATAATCA -CATCTCTCCTTATCATATTCAGCATTTTTAGTCATGCCCTAATAAAATTAGGGATTGGCATATCCAATAACCCAGACAAA -ACCGATGTATAAGTCAACATATCCTGAATCAGACATACAATATCGCAATGAAAATCAATAATATTTTAAGGAATATCTTC -ATGAAATCAAAAGACACCCTAAAGTGGTTCCCTGCGCAGCTTCCTGAAGTAAGAATTATCCTAGGGGATGCTGTAGTGGA -AGTAGCAAAACAGGGAAGACCTATCAATACCAGAACATTGCTTGATTACATTGAAGGAAACATAAAGAAAAAATCATGGC -TGGATAACAAAGAATTATTACAAACAGCGATATCAGTTCTTAAAGACAACCAAAATTTAAATGGTAAAATGTAATATAAT -AAACTTACTTTTTTATCATTTTTCCACTTTAACAACATTTTGCTCCACTTTTCCACGACCAAACAACTTGAAATCTGGTT -AAAATAACACGCAACACTATTCTTCTTCCTTGAGTCCGCCCGGAACTCGAAAAACAAACCGAGTTAAAGCCATTTTTCAC -AAAATCGATTTTGGGTCTCACCAAAATTACGGGGTTGCATACGCATTCGTTTATTTTCGAACGTGTACATACAAATATGC -ACAAAAATAATCATAATTATTTTCTGAGATGCATTATGATATGAACACCAATTTCGTATAGAGTCTCACTATGTCTCAAA -TTTTTGCTTACTGTCGGATATCAACGCTGGATCAGACCACCGAAAATCAACGCCGGGAAATCGAAAGTGCAGGTTTTAAA -ATCAAACCTCAGCAAATAATCGAAGAACACATTAGCGGCTCAGCAGCAACCAGTGAGCGTCCTGGTTTTAACCGGTTGCT -TGCTCGCCTGAAATGTGGTGATCAATTGATTGTGACAAAACTGGATCGCCTTGGTTGTAATGCAATGGATATCAGGAAAA -CAGTGGAACAACTGACCGAAACAGGTATCAGAGTGCATTGCTTAGCATTGGGGGGCATTGACCTGACCAGTCCAACAGGA -AAAATGATGATGCAAGTAATTTCAGCAGTCGCTGAATTTGAACGAGACCTTTTACTTGAACGCACTCATTCCGGGATAGT -AAGAGCCCGCGGCGCAGGGAAACGTTTTGGTCGACCACCTGTGTTAAATGAAGAACAGAAACAGGCGGTATTCGAACGAA -TTAAGTCAGGTGTAAGTATAAGTGCCATTGCCCGGGAATTCAAAACCTCGCGGCAAACCATTTTAAGAGCCAAAGCAAAA -CTTCAGACACCTGACATATAAAAAATAATCTCGGTGTGAGATGCTTTACGTCTTCCAAGCCCCCTTCCTTGCCGTAAATG -GAAAGATACATCTAATTATAGAATTTATATGTTTTACCCTACGGCAGTGCTGGCCATTCAATATCCTGTGCAGTTGACGT -ATCAACACGGTTCAGCAATACCCGATACTTTTTCCATGCTTCCAGCAACGAGATTTCTTCCTCCGTTGCAATTTCCAGAT -CTGCAGCATCCTGAAGCGGCGCAATATGCTCACTGGCTACCTGCATCAGGTTGTTTTTTGTTTCTTCCGCCTCCCGGATC -CGGAACAGTTTTTCTGCTTCCGTATCCTTCACCCAGGCTGTGCCGTTCCACTTCTGAAACTCCCCTTCCGGCGATAACCA -GGTAACATTTTCCGGTAACGGACCGAGTTCAGAAATAAATAACGCGTCGCCGGAAGCCACGTCATAAACCGTTTTACCCC -GATGATCTTCAACGAGATGCCACGATGACTCATCACTGTTGAAAACAGCCACGAAGCCAGCCGGAATATCTGGCGGTGCA -ATATCGGTACTGTTTGCTGGCAGACCTGTATGAGGCGGAATATATGCATCACCTTCACCAATAAATTCATTAGTTCCGGC -CAGCAGATTATAAATTTTTATGGTCCGTGGTTGTTCACTCATTCTGAATGCCATTATGCAAGCCTCACAATATAGTTAAA -TGCGATGTTTTTGACGGTGTTTTCCGCGTTACCAGCAGCGTTAACGGTGATGGTGTGTCCATGTGAACCAATCGCAACGG -AGTGCGTATGAGCACCAATACCGACAGTATGTGCATGCGCGCCTGCGCTTGCAGCAGTGCCGGACAGCGAGTGGGTATGA -GCACCATCTGATGATGTCTTCCCTGCATTACGAGTCTGGCCACTACCGCTTGTTGTGCTCATAATCCCCGCGCTTAGATT -TGAAATCGCGGTATAACCATTAGGGAAAATGCTCGTGTTCGTGCCACCAAATGCACCGGAACTCTTGTGTTGGTGCGCAC -CGGCACTATTTGCGGTCCCGCTAATACTATGGGTATGCGCCCCGGTGTTATTCGTGGATTTGGTTCCGTAATCAAACGAC -GATGTGGTTTCCGTCCCCAAATCCGTACTGGATGCGCTGGCGCTGTGGGTGTGCGATTTAATGCCGTCCTGTTCCTGAGA -TAATACGGCCCGACCACTGGCGGGCTTGCCCTTAATCGTCCAGCCACGCATATCAGGGATCACGCCTGACGGATAAGCAA -CTGCAAGTTTCGGGTATGCAGATTTGTCAAAAGTCTGCCCCTGCATCAGGGCATAACCAGACGGAACGGTATCTGATGGC -CACGGGATTGGTGCACCGACTGGATAAAACTCTGCAGGAGGATGAGCCGAGGTGTAAAGCTGCGCCCACGGCGACCAGTT -TGCGTCGGTCGTATCCCGTCGTGAACGAATAAATGCCGGAGCATGAGCACCGCTTGTACCACTCCAGCCGATGAGTAACT -CACCTTCGCCAACGGCTGTCATCCCTTTCAGGTGAATGATATTTCCATACGCTGTTGGATATCCGTTGTTATACACCTCG -TATAACTCAAGACCTGCTGCCCCCTGCGTATTGTCTGTCAGCGCGGTTATATTCACTCAGCAACCCCGGTATCAGTTCAT -CCAGCGCGGCTGCTTTGTTCATGGCTTTGATGATATCCCGTTTCAGGAAATCAACATGTCGGTTTTCCAGTTCCGGAAAA -CGCCGCTGCACCGACAGGGGGATCCCGTCGAGAATACTGGCAATTTCACCTGCGATCCGCGACAGCACGAAAGTACAGAA -TGCGGTTTCCACCACTTCAGCGGAGTCTCTGGCATTTTTCAGCTCCTGTGCGTCGGCCTGCGCACGCGTAAGTCGATGGC -GTTCGTACTCAATAGTCCCTGGCTGGAGATCTGTCTCGCTGGCCTGCCGCAGTTCTTCAACTTCCCGGCGCAGCTTTTCG -TTCTCAATTTCAGCATCCCTTTCGGCATACCATCTTATAACGGCGGCAGAGTCATAAAGCACCTCATTACCCTTGCCACC -GCCTCGCAGAACGGGCATTCCCTGTTCCTGCCAGTTCTGAATGGTACGGATACTCGCACCGAAAATGTCAGCCAGCTGCT -TTTTGTTGACTTCCATTGTTCATTCCACGGCCAAAAACAGAGAAAGGAAACGACAGAGGCCCAAAAGCTCGTTTTCAGCA -CCTGTCGTTTCCTTTCTTTTCAGGGGGTATTTTAAATAAAAACATTAAGTTACGACGAAGAAGAACGGAAATGCCTTAAA -CCGGAAAATTTTCATAAATAGCGAAAACCCGCGAGGTCGCCGCCCCGTAACCTGTCGGATCACCGGAAAGGACCCGTAAA -GTGATAATGATTATCATCTACATATCACAACGTGCGTGGAGGCCATCAAACCACGTCAAATAATCAATTATGACGCAGGT -ATCGTATTAATTGATCTGCATCAACTTAACGTAAAAACAACTTCAGACAATACAAATCAGCGACACTGAATACGGGGCAA -CCTCATGTCAACGAAGAACAGAACCCGCAGAACAACAACCCGCAACATCCGCTTTCCTAACCAAATGATTGAACAAATTA -ACATCGCTCTTGAGCAAAAAGGGTCCGGGAATTTCTCAGCCTGGGTCATTGAAGCCTGCCGCCGGAGACTGTGCTCAGAA -AAAAGAGTTTCTTCTGAAGCAAACAAAGAAAAGAGTGACATTACTGAATTGCTCAGAAAACAGGTCAGACCAGATTGAAG -CAATTTAGATAATCGTGCAGACTACGCCCCCTCATATCACATGGAAGGTTTATCTATGGATCAGGTAGTCATTTTTAAAC -AAATATTTGATAAAGTTCGAAACGATTTAAACTATCAATGGTTTTATTCTGAGCTAAAACGTCACAATGTCTCACATTAC -ATTTACTATTTAGCCACAGAGAATGTTCATATTGTATTAAAAAATGATAATACAGTGTTATTAAAGGGCCTAAAAAACAT -TGTGTCTGTCAAATTTTCAAAGGATAGGCATCTTATAGAAACGACCTCTAATAAGCTGAAATCCAGAGAGATCACATTTC -AGGAATACAGAAGAAACCTTGCTAAAGCAGGAGTTTTTCGGTGGGTTACAAATATCCACGAACAAAAAAGATATTACTAT -ACCTTTGATAATTCATTACTATTTACTGAAAGCATCCAGAAAACTACACAGATCTTACCACGCTAAACCATAACGTCCGG -CTTCTCTCACTCCTGAGCCGGACTGCATTGGTTTAATAAAAACCATCAACAATTGTGATTTAGATATTCGGAACCATTCA -AATATAACAAAACCCCGTAAAAACGAGGTTTATGGATAAATTTTATTATTGAATACATCAGATTAAATTAATCTTGACAT -CATAGCTTTCAAGACCCGTCATTTTTTCCCGTGCGGTAAACTGAATACTGGTAACTTCTTTCCCGGTCTTTTTCTTAAGT -TCAATAATTTTTTTTGTTATATATTCAGAAATATCTGCTTCTGCTTTTGTTTTTAAGTTTTCAATATTCATCATTTCCTC -TTTTAGTCTGTTATGACTTTCCAGTTACACAGTAAGTCGATTATATGGTGCAAACGTGTAAAAGATAAGATGAAACATCG -CAATAATCAACATACGATAGTCTAAATTTTACACAAACAGACAAAGAGAATTTTCCTGAATTATCAATGCAATAGCATCA -AATCAACTCAAGAGCCTTATTGCTGCTTCCAGAATTTCTTCTGAAGTAACATGTCGATCCGCGGCTACATAAATGACTTT -ATGATCTCCGGTCAGAGATGGAAACCCTGCGGCCATTACAGTAAGGTGTGTTTTTTCGCCATTTGGATATTCACGCATGA -TGGTGTTAACTCCAGTCATCGCTGGCACTACCACTGCTGGTTCAGAGTTAAAAAAACTATGATTTTTTTCATGATGTTAC -CGTAGTATGTGAGTATCCATCGAATAGACACCAAGCAAAAAAGCTCCCGAAGGAGCCTTCATTTTCACTTTTTTAAATCC -AACGACAGACGGCTGGCATTTAAGTATTGTGAAATATTATCAAATGTAATCATCATTGATTTACAAAAGATACATTTTGC -CCCGAAAGGATTCATGTCAGAAACATCAAAAGATGATGTTCTATACTGGGAACCATGACAACACGGGCATCTAAAGTGAA -TATGGTTTGTAATATTGTCTACCTCAAAGCGCCACTACATGAACAGCGGCAGGACCTTTAGGTCCGTTCTCAATACCAAA -TTCAACTTCCTGATTCTCAGTTAATGTTTTGAAATCGTTGCTCTGAATTGCTGAGAAATGGACAAACACATCTTTGCTGC -CATCTTTCGGCGTGATGAAACCAAAACCTTTTTCAGGGTTAAACCATTTCACTAAACCAGTCATTTTGTTAGACATAATT -ATTACCTTTTGAAGAAATTAGCCCTTGGGCAGAATGGTCCGAAAAAAAATATCAGAGAGAAAAACCAACAAGGAAATCTC -AAGAGGTACAAATAATAAAATTATAACAATGACTGCTTCAGATAAATTTGTAACAAACCAGAACACCATTAACGCATGAT -TAACCACCCATAGCAAGGATTACTTTTGTAAAGAAAAACACAGCAATGAAAGAATAGCTTTATTTATTAATAAAACGTGT -CATTCTGATTAAGACCTTTTATCTTACCCTTAAGATTTCAGGAATTTTGGCTCATGGAAGAGTCCTTTTTATTTAAATTT -TACATTCCGCGATGTAAATGTTCCGATTTAATATTACCCTACATTTGATGCTTTTTATCTCTTAAAGATTCATAGATCTG -TTGACAAGTCACTCCTGCGATGTAGCGTTCGTCAGCAATTTCAGCATAAAGCTGAGCTTCTGCTGCAATATCTCCGAGCA -TGTTGGTGAGCATTCCTTCGGCGGTTTTGGTTGTTTTGCCTCTGACGGCAGCGGCAAGATCTGCGGTATGCTTCGCTGCG -TCAAGGCGTATGGCATATTTTTTTGCTTCGGCACGCAACTGGTTAACACTATCAGACAGATAAGCAGCCCTGGCAGAAAT -TTCAGCAGATTTCTGTTGCGCATCTTTAACAGCCTCATCACGGGCTATAGTTCGCCCCTGTTCAATTATTCGAGCAGCAA -ATTGAGCATTTACCTCTTGTGATAATGCGGCAGCATCACGTTCCGCCCATTTTTTTTGCCATCCTCGGTCGCTCCAGACA -TTTCCGACGATAAATCCTGACAACACGAGAAAAATCACCATGAATATCTGATTCACTGTTCTATCCCCCAGCAGGTTAAT -GCGCTCTCCTGGTCACGACGAATAACCTGACCGTAACAGTTATTTGAACGAATGCGGCAATCGCGTCCGCCATCCTTAAT -CCACCAGCGAATCGCTTCGCATGCACCTTTACGATCACCAGCATTCAGCCGCTTATAAAACGTCGACGGGAAACACTTAC -CGGGGCCAATGTTATAGGGACAAAATGACGCGATACCCGCTTTTTGTGGTTCGGTCAGTGGTACTTTAATATTGCGCTCC -ACCCATGCCAGCGCCTTATCACGCTCAATGGCGTTGACCTGGTCGCATTTTTCCTTCGACAGTTTCATATTGGGAAAAAC -GGTTTTTCCATCCACCACTGTGGCACCCCGACAGATGGTCCATATGCCAGAACCATCGCGGTATGCCATTGTGTGGTTAC -CTTCTTTTTCGTCCAGAAACTGGTCAAGTATCTGAGGAGCAGATGCGCCAGCACCAATCAGCGCCAGAACGGCAGCCGAC -AGGCCGTATCTGATTTTTGTGTTCATAGATATTTATGATGAGGACGCTCGTGCTTATTGGCAGGATTTTCAATCTTAAAG -GAGTACTGATGCTGCAGATAAGACTCAACTTTTTCTGACAATTTTTCTGCTACTTCCAGGAAGACTTGCCGGACGCTCCT -TCTGGCTGCTGCCTCATAAAACTCCAGCGCAGCTCCTTCAACACGGTCCATGGCGACATCCAGGTCAAAAATTTCACCGT -CAAAGCGTTCTTTGTCCTGTAAGGCTACAGTTACCGTAACTTTATTCTCAAAATTACGGACTCCTTTCACAACCAGTTCA -TAGTCTTGAGTCATTGGATTACTCTCCTCTCGCAGCCTTACGCCTGTCTTCTTTAATCTTGAAATAAAGATTTGTCAGAT -ACGTCAGCAGGCCAAAAACCAGGCTACCCAGCACACCGATTGCAGCCCACTGTGACGGAGTTACTTTATCGAGTAACTGC -AATGCCCAGAAACCAGCATTACCCGCCGATGTGCCATAGGCAACACCTGTTGTTAACTTATCCATTGATTTCATATCCTC -ACCCCGATGTACACGGATGGTGCAATATGTTTGAAAAGATCGGAGTCTACGGGGTAGTTTTGACAGCACACGTTGTTCTC -AACGGCGCTAAAAAAACATACACATTAAAAATGTGGGTAATTATTTTGAAAGAAAGTCATATATAAAATAATAATACGAG -AAATGTTTTCATATTTAGTGTACTGTATACGGCCATTTATACAGGAAAAGCCTATGTCAGAACGTAAAAACTCAAAATCA -CGCCGTAATTATCTCGTTAAATGTTCCTGCCCAAACTGCACCCAAGAGTCAGAACACAGTTTTTCAAGAGTACAAAAAGG -TGCCCTTTTGATCTGCCCTCATTGCAACAAAGTATTCCAGACAAATCTTAAAGCTGTAGCCTGATTGATTTTATTAGTAA -CAAGTATTTTTTATATTTTAATAATATATTTAAAGCAGATAATAAAAAACCCGCCTGAGCGGGTTTGAGATTGTGGTGCT -TTTTGTGGGAGTCATCCACTTACGCACTTTGTTTTGCCATGCCAGCAGTTAGCTTCTGCTGTAAAACTATTCATGCAGCA -AACCTGCACTTCACCACAATGGTTAGCATACTTTTCCTGATTAAGATTTTGCCAAATATGCTAGCCATTGTTTCATGTAT -TGGACCTCCTTACTTTTTATTAAAGAGATCCAATATTCACTACTCTGTCCGTATCTCTACTCAGGCATCAGCCTTCTTCG -TTATCGTATACAGACGAGCGATGAATTTTAATCAGTAATGATGACATTTGCTGCTGCAGGACCTTTAGCACCACTCTCTA -TAGAGAAGGTAACCTTTTGACCTTCAAATAAGGTTCGATAATTATCATTCTGAATCGCAGAAAAATGCACAAACACATCT -TTACTACCATCAACAGGAGAAATAAAGCCGAAACCTTTATCAGCGTTAAACCATTTTACTAAACCAGTCATTTTATTTGA -CATTCTACATTCCTTAACTTGAGCCTTTCGGCATAAATGGTTTGCATAACAGAAACGACTTCGTACTTAATTGGAGAGAC -TCAAAGAAGGAATAAGTGAATAACACCTGAAATGAGAACTGCTTTAGTAAACTACTTCGTATATCGTCTGTTCTTCAAAC -CGACGCAATCATTAACGCATAGTTGAACATATGAAGCAATGTTTATTTTAGACATCCAGCCATCTTCAACCCCATCAAAA -AACTATAGCTTTCTTCAGGAACGTGTGTATAGTGCGCCAAGTTATCAGTATTAAGGAATTTTTTTGTCCCGTAAAATGAC -AGGAATTGTCAAAACCTTTGACGGCAAAAGCGGCAAGGGTCTTATCACCCCATCCGATGGTCGTATCGATGTCCAGCTTC -ATGTTTCAGCGCTCAATCTCCGCGATGCAGAAGAAATTACCACCGGATTACGCGTGGAATTTTGCCGGATAAATGGTCTG -CGTGGCCCTTCAGCTGCCAATGTTTACCTTTCATGAGCTATATTAAAGCTTTAATTTCAGGCCCCATCGGATCACACATG -GAGAGTTTTTATGAATAACCCCGTCTGTCTTGATGACTGGTTGATTGGCTTTAAAAGCTTATGCTGTACTTTGGCCGTAA -TAGCTCTGCTAATAATATAATAAGCAGACTCATTGTGTTTAGGGACATTGTACTGGAAGAAAACATTTTAAACATCAGGC -AAATAACCAAGTCACCAGCTAAATAATAAGTTAACAGACATGAGTCCCGGGATGAGATTCAACATTACCATTGCCCCATT -TAAAGCACAAAACCCGCTCATCAGCGGGTTTTCTACTTTTTCTTAACGTCGGGTATACAAAGCCCATCGTTGAAAAAATT -TTATCCATATTTTTTGAAAAATGCAAACATCATGTCGCCATCTTCAGCAAAAATCATTTATCTCGTCACCTTCCTCAATT -GCGCTTCCGCGTATGCTTCTTCCTGCCAGCACTTTGTTACCAGTTTACCAATGACGTCCGCATACCCCTTATACCACTGA -TAATCGGTCAGGTCTGGTACCAGCTTCTGGACATGACGTCGTGCCAGCGTGGTCGGTAAACGACTAAACCGGTTTCCATT -ACAACGCCCACAAATCTTATATACCGGTACGCCATGAAACCGGGTTCTTTTTTCATCCAGAACAATCCCTTTACCCTTAC -ACCCTCTGCACGCTGTGCTGGCTTCGCCCTTACCATGGCAATGCTGACATAGTTCCTTCACCCATTCTTCCTTGATTACA -GATTCCCCGCGTCTGTAGTGTTTCACCACTTCGCGCAATACATTATAAAATCCCGTACCTGAACAATGCTCACAGCGAGC -CTTACTTGCCGCAGACCTGGAGTAATCAGCAAAGGCAAAACTCACGAGGTAAGGAATAATCTGTAACCGGATTTCTTCAC -TCAATTTGTTCAATGTCGGGTTATCCAGTGCCATCGCGTAATTTAGCAGGCCTTCAATCGCAAACTGAGGGTCCTGAACA -CCAACTTTTGCCAGAAATAAGGCCAACCCAAGTGGTGCTTTCGACTGCACCATCCCCTGCGCTGCCATTACATCCGTAAT -TGTTAAACAACCGGTGCCTGTCGCTGGAGCGTCATCGCTCAATTTTGGAGATTTTGGGGAGTAATATTTTGGTAAGGCTT -CAAGGTTCATGCTCGTTCTCCACTTACGCCAGTACGCCAATTGCCAGCGCGCGATCGATAAAACGAAATATCAGCTCCAG -TTGGGAGCCATACTTATCTTCAAATGCCACTGTATCCGTATGCAGCTCGTTGTGATGCTTTCTGCACAAAGGCAACACAA -AGAGATCATGTGCTTTTGTTCCCATTCCGCCCTGCCCGTGACCAATCAGATGATGCGGATCGTCGGCTGGCATACCGCAG -CAAGCACACGGCTGTGTCTTAACCCAACGTGTGTATTTCTCCTTAACCCAGCGGCGACGTTTAGGCAGCTTCATGAAAGA -TTCCGGAGACTCTGGATCAACGGTGATGCTTACCACCGTCTTTTCCTGTGGTGATTTTTGTTGCTGGTGGGCGTAAGGCA -ACGGTGCAAGATTTTTTGTGCGTTGTTTCAATATGCTGGTGGCGGTCTGCTCTCCCGGTACGATGTCGCTTTCGCGGTAC -ACCGAGCAGATTTTTTCCGCTGGTAATCCCAGCGAACGACGCGATACAGCCTCAGGTAGTGCATCCACCACCTGATTGCA -GACCGCCCACCAGGATAATTCAGCCAAAGATAATTCCCGCTCCTGCGTACCGCTTATTGCGTGACGGATGACGTCAATCA -CCCATGCTGTCAGATTTTGTTGAGCAAGCAGCTCCAGTGATTCCGATGTCTGGTCACGCAGTTGGTTGTCGCAGTGCCAG -CACAACACCATTGCGCCGGTACCATAACGGTGAATGACTGTTTCAGTGTGATGGTAATCGCCATTAGGCCACTGGCAGGA -TGTAACATGACGTAATAGCCAGTCGGACAATGCGCCAACGCCGCCAGCAGCACGAATCACCCGTTCGTTACTAAAAAACG -GCAGCAATGTTTTGTCTTCCGCCAGCGGCTGGCGAACGGCAGGAACGACTCCGGATGGCAGATTACGCATGCTTTTTGGT -TCCGGTTCCACCAGCACTCGAGGATTATGAAATATCTGTATGGATTCACGGCCCGGCTTAAGGACCACCAGCCCAAGCTC -AGGCACCAGAACAGGTCTAAGTAATACCCGCACGTTACCTCCAGATCCGTTGCTGGAAAGTGCGGGACGCACGTGGTGGG -CGTTCGGAATAAGGCAGCCTGACAGAGATTATCCAGTGCCGATAGTCGAGACTGAGAGCTTTCTTAACCTCGAACCCGCG -CCTGCGGTAAGAATGAATCAGCCATTCGGCCTGTTCTGCAGTGCATGGAGGGTGCTGGAACCATTCAGACTTGAATGCGT -GAGAATACCGCCCGTGCGTGCAGGCAAGAACGGGCGAATTATCAGAATTGTAATATTTTGCGTTGCGTGCCATCGGTTTT -CTCCGGTGGCACGGTGTTACTCAGCGGGAGTTCAGCCCCGCGCAAGATTGTAGATGAGTTTATTCTCCTGAAAAAGCAGA -AAAGCCAGCTTTTATTCCGATCTCTTTCAATGCCTGTAATGAAGTGACAAACTCACCTTCGCGCAAGATAAATCCGTCCG -TGACCCGAGCATCCACAAAATTAATTAACGCAGCCCCATTCTTTCGCAAACACATAATGCGGTAATGACTAACAAGATTT -CCATTTTCAACGCACACAGCATAGAGGCCATCTTCACAAAAAATTTTACGCAGTTCTTCGATGTTCATCATCAGAATCCT -TCCGGATAATTAGCTCTCCCCTTTAAGGGACCATCCCTCTTATCCCTGCGCGCTACTTAAGTATTTTTGATTCTATTCCG -GCACCGTCCAGAACTTCAAACGCGTTGAAAATAAAAACAAAAACCCGCCGAAGCGGGTTAAGTGCGGGTGCGTTGAGGAT -GCCTGCCACATCAGAGGTGGCGAGGGATTTCTCCCCCGCCGGGTCTCTTACTCCTCAGGTTCGTAAGCTGTGAAGACAGC -GACCTCCGTCTGGCCGGTTCGGATTCGTACCTCGCAGAGGTCTTTCCTCGTTACCAGTGCCGTCACTATGACGGTTAAAC -AGATGACGATCAGGGCGATTAACATCGCCTTTTGCTGCTTCATAGCCTGCTTCTCCTGTCAACGCAAAGCAGAAGTGTCA -CCTTCGGTGCGAAACAGAGATGTCATGCTTTGGTTCAGAGAATGCGTTTGACCGCCTCGCTATATACTTCCGAGCGTTCT -CTTTTCCCAACAGAAATCACGAAAACGACAACTTTCTCGTCTATAACCTGGTATACAAGGCGATAGCCTGAAGACCGGAG -CTTAATCTTGTAACAATCAGGCATACCACGGAGCTTGTTTGCTTCAATCCGGGGTGACTCAAGTACTTCAACCAGCTTCT -TTTTCAACTGTTCACGTACCGTCGAGCCCAGCTTTCGCCATTCCTTTAGTGCCCGCTCGTCAAAATCCAGAAAATACGCC -ATCAGAGTTCATCCAGCGTCACACGTACTGGCTTAGGATTACGAAGCCGTTCTTTCACTATCTCCACAAGTTCAGCATCT -TCATCACTCAGGAGTGTCTGTTTGAACGGCAAGCGTTCATTGTCAGCGATATACTCGAGCATGAGACGAAGCGCTTCAGA -AGGAGTTACACCCATTTTTTCAAGCGCGGCGTAAGAACGCGCTTTAAGTTCATCGTCAATACGCAGGTTAATGCTACCCA -TGTCTTACACCTCTTGTAATTACAAATGTCATTACAAGTATCGCACTACAACATGCTTAGGGCAAGTCACGAAGGAAGTC -AGAAAGTAGTCGTAAGAACGGTGATCACTGTCCGCTTTGTGCCAGGAGCAGCCATTGCTAAGTCCATCCTGTATTGTGCA -GGTCAGCTCGTTTTTAAAGAGTCCGGCCATCATCTTACTGGTACAGACACCATATACTTTGTGACGGTCAGGCTACATAT -GCACAACTCAACTTATTCATCTATTTTTTGCTTTAGCATGTCAGTGTTGCTTTCTCGTCGGCGGGTGAGCGGTGACCTGA -CCTGTCGATAAAGGAACGTAACACGTTTTATGCAACACCCGCATGCGGCAGAAAATTATTGCCGAACGTTTACCCCTGTC -AACAAGCTTTACTTTCTGAGGCGCGCCAGCCCGCGAGGAAAACAATCTGAACATCAAACAATTAATGACACAAGAAATAC -GATTAAAGATTTTTTTGTGCATGCCGATAGTGCTTTTTTAAAAGGAGAAATCTATGTCTGTCACAATTCAGGGAAATACC -TCAACCGTTATTTCAAACAACTCCGCCCCGGAAGGAACATCAGAAATAGCCAAAATCACAAGACAAATTCAGGTGCTGAC -TGAAAAGCTTGGGAAAATCTCATCGGAAGAGGGGATGACGACACAGCAGAAAAAAGAAATGGCTGCATTGGTACAGAAGC -AAATTGAAAGCCTCTGGGCTCAACTGGAGCAGTTGTTAAGGCAGCAGGCAGAGAAAAAGAATGAAGACGCGACAGTTCAG -CCTGATAAAAAAGAAGAGAAAAAAGACGATACAAATACCGCTGGCACCATTGATATTTACGTCTAAGTGACAGCCGTATT -GTGGCCCTCATCGGGCCACTTTTCGCCATCAGCCTTTTCTTTAAAGACATATTATCTTTGTATCATTTCTGATAGTTAAC -ATTACAAGATATAAGTAATGGACGCACTCCCAATTAGTCTATTTAAATCGCCACGAGTTTAACTGACAACCCATGATCAA -TTATGAATTGCAACTATTTCTGTAGTCACTTTTGTGGGGACAGTCCACAAAACTGCCAACTTCCGCTTCTTGCTCTTAGC -GGACATTAGCATAGGCTATTTACCATAACGCCTCATTACGCGCACCGCCCAGACTGACTCAGCGCGTTTCTGGCATATCC -CCGGTAAAACAAGTAACAAACCACCCGAAAATGAACACCAGAAACGCGACTTAAGAATCTACCCTATGAATGGATATGCA -CTCAACCGAATCGATCTTGGTTTCAATCTTTTTTATCGGGATCAGGCTTCTTTTTAGGTAACTTCGGGGGCTTAACTTGC -TGATGACTTTGCGTTCGGCGCGTAAGCCAGGGATGGTCAGCTTTAGGTTTAACATAGTATTTTGAGCGTAAATCAATACG -GGCATTATCCACTCGTTCATGGACACTCTTTTCATCATCCAGTGGTAGCCTCCATAATTGCAGGCACTAGCGCCGTGAAC -TTTTCACGCTTATCCCTGGTGTCGATAGCCTTCCAGCGTTCAAATATCTTCACTCGATTAACGCCAAGCGCTCGCTGATC -AATCGCGCCACCTTCATATGTGACACGCTGAACATCGATGTTCGGGCGCTCTTTCAAAGCCCAGAATGCTTCAGTGATTA -ATATCGTCGCCTGCTCCTGTGTCATTCCTGGTCGACATATCCAGGCATCCAGAGCCTCACGAGCCTGTTCAGGAGTGATT -TTCATTGTTCAACCGCCCCGCCCGCTTCGTCTTACGATATTCATCATAAACTTTGGGATCATACTGAAGCTCCCCGCCAG -ATGCCTCCTGTAGACGCATCGCGCGACCTTCGGGAACTAAATCCCCTTTCCAGCTATAAAGCGAAGCCAAACGAATACCT -GCTGCTTGTGCAAGTTTTGTTTTTGAACCGAAATACAAAAGAGCGTCAGTTTTAAGCATTTAAAACACCTTTATTGTTAG -TCATAACTAACAAGATAGATGTTAACAAAAACATAGTCAATACGATTTAGCATTAGCTAACTATGGAAACAAAAAATTTA -ACTATCGGCGAACGCATCAGGTATCGTCGGAAAAACCTCAAACACACCCAAAGGTCTCTTGCTAAAGCCCTGAAAATCTC -CCATGTGTCTGTATCACAATGGGAACGGGGTGATAGTGAACCTACAGGGAAGAACCTTTTTGCCCTCAGTAAAGTATTGC -AATGCTCACCAACATGGATTCTATTTGGCGATGAAGACAAGCAACCAACACCACCTGTTGAGAAGCCAGTTGCCTTATCC -CCCAAAGAACTAGAGCTCCTTGAGCTGTTTAATGCACTGCCAGAATCAGAACAGGATACCCAGCTCGCCGAAATGCGAGC -TCGAGTAAAAAACTTCAATAAACTCTTTGAAGAATTACTAAAAGCCCGTCAGCGGACAAATAAAAGATAACATCATCAAT -GAGTTATCTTTTACCACATCAATTATGTTAGCTATAGCATACAAAATCACTTGACCGATATGTTAGTCATGGCTAATCTT -GTTTGCATCAACACACCGCACGGTGTTCTCAGCAAACAGTTCCGCTACCCCAGCGTTAAGGGGAAATGAGGTCAGCATGG -ATACTATCGATCTTGGCAACAACGAATCTCTGGTGTACGGCGTGTTTCCAAACCAGGACGGCACGTTCACCGCAATGACG -TATACCAAAAGCAAAACGTTTAAAACCGAAAATGGTGCCCGTCGCTGGCTGGAAAGAAACTCAGGTGAGTGATATGGATT -TCGACACAATCATGGAAAAGGCTTACGAAGAATACTTCGAAGGCCTTGCCGAAGGCGAAGAAGCTCTCAGCTTCAGTGAG -TTTAAACAGGCGCTTTCCAGTTCGGCAAAATCTAACGGCTGATAAGCGAAACAGCACCGCGAGGAATCAGTATGCAGAAA -CGAGAACCCGTCATCATCGCGCCAGACTATACCGATGATGAACTTTATGAGTGGATGCGCCAGAAAATTAATGCAGCGCA -GGATCTGAAATGGGCTAATGAAGCCAGGGCTAAGCAGGCTGAAAATCTGTCCGCTCTGGAGCAGGATATCACCAATCTGG -AAAAAGCAGCGGCATTAAGCATTGCCAGAATGATTACATACCCGCGTTAGTAGCTAATCAACAAAGCTAAGGTTAGTAAT -TAAGGAGTTCTCCACGGGTGAGGTGGAGTGCGTGCGCCGGACACGGGTGCGCATCCGGAACTGACAGTTTACTGAAAGGA -TATTTCCCTGAAAAGTCAGACCATAACGCGAAAGCGCATGGCGAGGTAGCTGGTTCATAGATAGCCTGTCGTTAAATTTT -CGTCGACCGTGCGCTTCCGGTTGTGGCAACCCGCGAAATGGCGCGGCGGTAAGTATGGCGGGGTTATTCCTTCCCCGTTG -AGGACACCGGGTTGTCAGGTTGACCATACGCTTAAGTGACAACCCCGCTGCAACGCCCTCTGTTATCAATTTTCTGGTGA -CGTTTGGCGGTATCAGTTTTACTCCGTGACTGCTCTGCCGCCCTTTTTAAAGTGAATTTTGTGATGTGGTGAATGCGGCT -GAGCGCACGCGGAACAGTTAAAACCAAAAACAGTGTTATGGGTGGATTCTCTGTATCCGGCGTTAATTGTTAACTGGTTA -ACGTCACCTGGAGGCACCAGGCACTGCATCACAAAATTCATTGTTGAGGACGCGATAATGAAAACGTTATTACCAAACGT -TAATACGTCTGAAGGTTGTTTTGAAATTGGTGTCACTATCAGTAACCCAGTATTTACTGAAGATGCCATTAACAAGAGAA -AACAAGAACGGGAGCTATTAAATAAAATATGCATTGTTTCAATGCTGGCTCGTTTACGTCTGATGCCAAAAGGATGTGCA -CAATGAATTCAGCATTTGTGCTTGTTCTGACAGTTTTTCTTGTTTCCGGAGAGCCAGTTGATATTGCAGTCAGTGTTCAC -AGGACAATGCAGGAGTGTATGACTGCAGCAACCGAACAGAAAATTCCCGGTAACTGTTACCCGGTCGATAAAGTTATTCA -CCAGGATAATATCGAAATCCCGGCAGGTCTTTAAAACAGTTCCGTAATAAATATCCGGTTTCATTCTTATATGCCAGCAA -TGGCAGGGATTTGTTCATCCTTAAATCTGTCATGAGGTTAAAACAAATGAGTAAAGTCTTTATTTGCGCCGCTATTCCTG -ACGAACTGGCAACAAGGGAAGAAGGCGCTGTGGCTGTAGCCACAGCCATTGAAGCTGGCGACGAACGCCGTGCTCGAGCA -AAATTTCACTGGCAATTCCTGGAACATTATCCGGCTGCTCAGGACTGCGCTTATAAATTTATTGTCTGCGAGGATAAACC -TGGCATACCCCGCCCTGCCCTCGATTCATGGGATGCTGAATATATGCAGGAAAACCGCTGGGATGAGGAGTCTGCTTCTT -TTGTCCCGGTTGAGACTGAATCCGATCCGATGAACGTCACTTTTGACAAGCTGGCCCCTGAAGTACAGAACGCTGTCATG -GTTAAGTTCGACACATGTGAAAACATCACCGTTGATATGGTTATTAGCGCACAGGAATTGTTGCAGGAAGACATGGCAAC -ATTCGACGGACATATCGTTGAAGCGTTGATGAAAATGCCAGAAGTTAACGCCATGTATCCGGAGCTTAAGTTGCACGCCA -TTGGGTGGGTTAAGCATAAATGTATTCCTGGTGCTAAATGGCCCGAAATTCAGGCAGAGATGCGCATCTGGAAAAAACGT -CGCGAAGGTGAACGCAAGGAAACCGGAAAATACACGTCTGTTGTTGATCTCGCCCGCGCCAGAGCCAATCAACAGTACAC -TGAAAATTCAACAGGAAAAATCAGCCCGGTCATTGCTGCCATTCATCGCGAATACAAGCAGACATGGAAAACACTGGATG -ACGAACTGGCCTATGGGCGCTGCTTCGCAGACAGGCAGAACTTGATGGTATGCCTGCGATCAATGCCAAACGTGTTTACC -GGATCATGCGCCAGAATGCGCTGTTGCTTGAGCGAAAACCTGCTGTACCGCCATCGAAACGGGCACATACAGGCAGAGTG -GCCGTGAAAGAAAGCAATCAGCGATGGTGCTCTGACGGGTTCGAGTTCTGCTGTGATAACGGAGAGAGACTGCGTGTCAC -GTTCGCGCTGGACTGCTGTGATCGTGAGGCACTGCACTGGGCGGTCACTACCGGCGGCTTCAACAGTGAAACAGTACAGG -ACGTCATGCTGGGAGCGGTGGAACGCCGCTTCGGCAACGATCTTCCGTCGTCTCCAGTGGAGTGGCTGACGGATAATGGT -TCATGCTACCGGGCTAATGAAACACGCCAGTTCGCCCGGATGTTGGGACTTGAACCGAAGAACACGGCGGTGCGGAGTCC -GGAGAGTAACGGAATAGCAGAGAGCTTCGTGAAAACGATAAAGCGTGACTACATCAGTATCATGCCCAAACCAGACGGGT -TAACGGCAGCAAAGAACCTTGCAGAGGCGTTCGAGCATTATAACGAATGGCATCCGCATAGTGCGCTGGGTTATCGCTCG -CCACGGGAATATCTGCGGCAGCGGGCTTGTAATGGGTTAAGTGATAACAGATGTCTGGAAATATAGGGGCAAATCCACAG -GTGAACTACGCTCCTCTGTTTGTTACGCAATAAAAACTGGTGTTTTCGACTATGCAAAACAGTTTCCCTCCTCACGCAAT -CTGGAAAAATTTGGTGAGGCCCGACAAGATTTAACCATAAAAGAACTGGCTGAAAAATTTCTGGCACTGAAAGAAACTGA -AGTCGCCAAAACATCACTCAACACATACCGTGCCGTCATCAAAAATATCCTGAGCATAATCGGTGAAAAAAATCTTGCCT -CATCGATTAATAAAGAAAAATTACTGGAGGTTCGTAAAGAGTTACTGACTGGATACCAGATCCCTGGATTTGCCCCTATA -TTTCCAGACATCTGTTATCACTTAACCCATTACAAGCCCGCTGCCGCAGATATTCCCGTGGCGAGCGATAACCCAGCGCA -CTATGCGGATGCCATTCGTTATAATGCTCGAACGCCTCTGCAAGGTTCTTTGCTGCCGTTAACCCGTCTGGTTTGGGCAT -GATACTGATGTAGTCACGCTTTATCGTTTTCACGAAGCTCTCTGCTATTCCGTTACTCTCCGGACTCCGCACCGCCGTGT -TCTTCGGTTCAAGTCCCAACATCCGGGCGAACTGGCGTGTTTCATTAGCCCGGTAGCATGAACCATTATCCGTCAGCCAC -TCCACTGGAGACGACGGAAGATCGTTGCCGAAGCGGCGTTCCACCGCTCCCAGCATGACGTCCTGTACTGTTTCACTGTT -GAAGCCGCCGGTAGTGACCGCCCAGTGCAGTGCCTCACGATCACAGCAGTCCAGCGCGAACGTGACACGCAGTCTCTCTC -CGTTATCACAGCAGAACTCGAACCCGTCAGAGCACCATCGCTGATTGCTTTCTTTCACGGCCACTCTGCCTGTATGTGCC -CGTTTCGATGGCGGTACAGCAGGTTTTCGCTCAAGCAACAGCGCATTCTGGCGCATGATCCGGTAAACACGTTTGGCATT -GATCGCAGGCATACCATCAAGTTCTGCCTGTCTGCGAAGCAGCGCCCATACCCGACGATAACCATACGTTGGCAGCTCTC -CGATAACATGGTGTATACGGAGAAGCACATCCGTATCATCAGTGTGACGACTGCGGCGGCCATCCATCCAGTCATCGGTT -CGTCTGAGAATGACGTGCAACTGCGCACGCGACACCCGGAGACAACGGCTGACTAAGCTTACTCCCCATCCCCGGGCAAT -AAGGGCGCGTGCGCTATCCACTTTTTTGCCCGTCCATATTCAACGGCTTCTTTGAGGAGTTCATTTTCCATCGTTTTCTT -GCCGAGCAGGCGCTGGAGTTCTTTAATCTGCTTCATGGCGGCAGCAAGTTCAGAGGCAGGAACAACCTGTTCTCCGGCGG -CGACAGCAGTAAGACTTCCTTCCTGGTATTGCTTACGCCAGAGAAATAACTGGCTGGCTGCTACACCATGTTGCCGGGCA -ACGAGGGAGACCGTCATCCCCGGTTCAAAGCTCTGCTGAACAATTGCGATCTTTTCCTGTGTGGTACGCCGTCTGCGTTT -CTCCGGCCCTAAGACATCAATCATCTGTTCTCCAATGACTAGTCTAAAAACTAGTATTAAGACTATCACTTATTTAAGTG -ATATTGGTTGTCTGGAGATTCAGGGGGCCAGTCTAATCCCCAAAAGTAACTATATTGTTACACAACCAGGGAGATCGGCT -GTAACTGTAAATAATTACATGACAAATCTTAACGCCGTGTTCCAGTTTGGTGTTGATAACGGTTACCTGGCAGATAATCC -GTTTAAGGGGATCTCGCCATTAAAGGAATCAAGAACCATTCCGGATCCTCTTTCGCGGGAAGAATTTATCCGTCTTATCG -ATGCGTGCAGAAATCAGCAAGCAAAAAATTTATGGTGTGTTTCTGTTTATACTGGAGTTCGCCCTGGTGAGCTGTGTGCA -CTTGGATGGGAGGACATAGATCTGAAAAATGGAACAATGATGATCAGGAGAAATTTAGCAAAAGACCGTTTCACGGTACC -AAAAACACAGGCGGGAACCAATCGGGTCATTCATCTTATTAAGCCAGCAATCGACGCTCTCCGGAGTCAGATGACATTAA -CGAGACTGAGCAAAGAGCATATCATTGATGTTCACCTCAGAGAGTATGGCAGAACAGAAAAACAAAAATGCACCTTTGTT -TTTCAACCTGAAGTGTCAGCGAGAGTAAAAAATTATGGTGACCATTTTACCGTTGACTCAATAAGGCAGATGTGGGACGC -AGCGATAAAACGTGCCGGACTCCGCCATCGAAAATCATATCAGTCGAGACATACTTATGCCTGCTGGTCGCTGACAGCTG -GTGCTAACCCGGCATTTATAGCAAACCAGATGGGCCATGCAGATGCGCAAATGGTATTTCAGGTATACGGAAAATGGATG -TCTGAAAACAATAATGCACAGGTAGCTTTGTTAAATACACAGTTAAGCGAGTTTGCCCCAACCATGCCCCATAACGAAGC -AATGAAAAATTAATTTAATATTTATCAAATAGTTAACACGCATGACTCTTGAAATCCATAAATTCAAGCGCAGTGCCCAG -CCATCCCGATACTGCTGCTTTCACCAAATCCTTAGTGCTTCTTTCGTGTTTTTCTATTGTCATAATGGTTATCTCTAAAA -AAGAGGTAAGATGCGTACTACTTACTCGCCGTTATTGGTATTATTCAGAAAAAGTGAGTAAGACTTTGCAGCAATGTTTT -TGATCCTGTTCAAATAAACTAATGGCATCAGCAACATGCTGGAAATCAAACGTATGGGTAATTAATTTTTCTGGTTTAAT -TAACCCTTTACTTAACCAGTCGATAACGATCGGGAATTTATTTGCATTTAAGCGTGAAGAGAAAATAGAGAGTTCTTTTC -CGGTAATTCCTTGCTGAATCACTTCAGACGGTTCACTGGAGAACCCCATCAATACAATACGTGCCGCTGGAGAAGCCAGC -GTTACGGCCTCTTTCAGGATAGAAGGATGACAAGCCGCATCGATAATTAATGTCGGCTTGATGCCTTTTTCAGTGAAAAT -CTCGCCAAGCGGTGTCTGGCTGTTATTAATCGCCCAGTCAGCCCCGCTCTCTTTCGCTTTTTCCAGTCGTTCATCAATGC -GATCGGCAACAATCACATTTTTAACGTTATAGACGCCTTTTAATACCTGAACGATCGTCAGGCCGATTGGACCGGCACCA -TAAACCAGAACGGTATCATTTTCAGTCGGTTGACCATGTCCGGTTACGTTAGCCGCAATGGTAAAAGGTTCGATCATTAC -CGCATATTGATCGGCCACTGCTTCAGGAATTTTCCACGCATTTTTTGCCGGAACCACGGCATATTCACTGAAACCACCGT -CAGCGTGCACACCTAATACAGCCAGTGTCGTACAAACGTTCGGTTTACCTATAGAGCACGGATAGCAATGCCCACAGCTG -ACCACCGGATCGACAGCAACACGTTCACCGACTCTGGCGCTTTCCACGCCTTCACCCACTGCATCAATGACGCCAAAGAA -TTCATGACCAATGACGCGCGGATATTTCGCAAAAGGATTATGCCCACGATAAATATGGCTATCTGAACCACAAATTCCGG -CAAGTTTCACTTTTACTCGTACTTCACCCGCTGACGGGGTGGGTATTTCACGTTCGACAATCGCCAGTTGATTCGGTTTT -TCAATTAATATGCTTTTCATTATCTTACTCCTTACCAGTTCCACAGCGTGCCATCTTCCAGACGTGCGACTGGTAGATAA -GCAGGTTCATAGGGATATTTCGCCGCCAGCTTTTCATCGAATTCGATACCAAGACCCGGTTTGTCTCCCGGATGCATATA -GCCGTTATCGAAAGTCCAGTTGTGCGGGAAGACTTCGAGCATTTGTTCGGAATAACCCATGTATTCCTGGACACCGAAAT -TGGGGACCCACAGATCAAAGTGCAGCGCCGCAGCCATGCAGACTGGTGACAAATCGGAAGGACCGTGTGAGCCAGTACGT -ACCTGATACAGCGAAGCAAAATCGGCAATCCGGCGCATACCGGTAATTCCGCCTGCATGGGTCAGCGTGGTGCGGATATA -ATCGATGAGTTGCTCTTCAATCAGTTGTTTGCAGTCCCAGATGCTGTTGAAGACTTCACCCACTGCGATGGGTGTGACGG -TATGTTGGCGAATGAGACGGAAGCATTCCTGGTTTTCCGCAGGCGTCGGGTCTTCCATCCAGAACATGCGATAATCTTCA -ATGCTTTTACCAAAGCGCGCCGCTTCAATAGGCGTTAAGCGATGGTGCATGTCATGCAGCAAATGTTCATTAAAACCAAA -CTTGTTACGTACCGCGTCAAACAATTTCGGCATGAAATCGAGGTATTTCTCCGTCGACCACAGCTGCTCTTCCGGCCACT -GTCCTTTGGTTGCGGGTTCATAAGCCAGACCTTTACCTTTCGACATGCCGTAGGTGGTTTTCATACCAGGGATTCCGCAC -TGCACGCGGATGGCTTTGAATCCAAGCTCTTGATGACGGGCATAATCATCCAGAGCTTCATCAATACTGTGACCGGTGGT -ATGGCAATAAACCATCACCCCTTCACGAGACGCGCCGCCGAGTAACTGGTAAAGCGGCATGTTGGCAGCTTTGGCTTTAA -TATCCCACAGCGCCATATCAACCGCTGAAATGGCCGACATCGTAACCGGACCGCGACGCCAGTAAGCACCTTTATAGAAA -AACTGCCAGATATCTTCGATACGGTGCGCATCGCGACCAATAAGCTGCGGACAAAGGTGATCCTGCAAATAAGAGGCCAC -GGAAAGCTCACGTCCATTGAGGGTGGCATCCCCAAGGCCCGTAATACCGTCCTCAGTGGTGATTTTTAATGTGACGAAAT -TACGCCCCGGACAGGTAACAAAAACTTCAGCCTTTACGATCTTCATGTTCGATTCCTTGCATCGCTTGTCGTGATGCATG -AAATCTACGCAACTGAGCTACTACCATACAAGTATAAAGATCGAAAAAAGCCGGAGTGATCACAAAAAAAGGCGTATATT -TGCGCTGTGAATGGTTGACAAAAGATGAAATAGAATACCTTTTGTCAGCTGACACTTCCTCTTATCTTATTGATAAAATG -GATTTATGTTCCTACGTGCGCCCCCAGCCCGCAACAATGATCAACATGCCGCAAAGCGCAATCAACGCACCCGTCCAGTC -ATAAAGAGTCAGTTTCACGCCATCCACAACGCGCAGCCACATCAACGCCGTGCAGACATAAACGCCACCATAAGCCGCGT -AAACACGCCCACTCGCCGCTGGATGCAACGTTAACAACCAGACAAACAGCGCCAGTGAAATCCCCGCCGGAAGCAACAGC -CAGATACTGGCGTTTCGTTTTAACCACAACCAGGGCAGAAAGCATCCAATAATTTCACACAGCGCAGTAGCAAAAAATAG -TAACGTTGTTTTAATCATCTTTGTCTCTTATTGACATCATGTATAGTTATAGGGCGACATAATATCATCAATATAAACAC -CCTCCTGGTACGTTTTGCGTCCGCAGTGGATGGTGTAGAATCACCTTTAATCATTCATACAGGGAATGAATTATGAAAAT -CACTCTCAGCAAACGAATCGGCCTGCTCGCTATTCTGCTGCCTTGCGCACTGGCATTGAGCACAACTGTTCATGCCGAAA -CTAACAAACTGGTGATTGAGTCTGGCGACAGTGCACAAAGCCGCCAGCACGCCGCTATGGAAAAAGAGCAATGGAATGAC -ACGCGCAATCTGCGCCAGAAAGTGAATAAACGCACTGAAAAAGAGTGGGATAAAGCCGACGCCGCTTTTGATAACCGCGA -TAAATGTGAGCAAAGCGCCAACATCAATGCCTACTGGGAGCCCAATACTTTGCGCTGCCTGGACCGTCGAACTGGCCGCG -TTATTACCCCCTAACCTGTTATTGATTTAAGGAATGTAAGGACACGTTATGCCAAGCGCCCACAGTGTTAAGCTACGCCC -GCTGGAGCGTGAAGATTTACGCTATGTACATCAACTCGACAATAACGCCAGTGTGATGCGTTACTGGTTTGAGGAACCCT -ACGAAGCCTTTGTTGAACTCTCTGATCTGTATGATAAGCATATTCACGATCAGAGCGAACGGCGCTTTGTGGTGGAATGT -GACGGCGAAAAAGCCGGTCTGGTGGAGCTGGTGGAAATTAACCATGTTCATCGCCGCGCAGAATTTCAGATAATTATCTC -CCCGGAGTATCAGGGGAAAGGTCTGGCAACCCGTGCCGCCAAATTAGCAATGGACTATGGCTTTACCGTTCTCAATCTCT -ATAAGCTGTATCTGATCGTTGATAAAGAGAATGAAAAAGCGATTCACATTTACCGCAAGCTTGGCTTTTCGGTTGAAGGT -GAATTGATGCACGAGTTCTTTATTAATGGTCAATATCGTAATGCCATTCGCATGTGTATATTCCAGCATCAGTATCTGGC -AGAGCACAAAACACCGGGTCAGACTCTCCTGAAGCCGACCGCACAATAGCATTAATAATAATCGATCGTATTTTTGATGG -TGTAAACCCGTTCGACGGCGGGTTTTACTCCTTCATCAACAATGATTAGCTGACAGTCCACCGGATTAGCGTGACTGTCA -TATTCACAGCTCTGTTTTACATTACCAACCCGTTGATTATTCAGTAAAGTAACCGCTGTGTAATCTAATTTTTTGATCGG -ATCCGTTGATGGCGTGGCGCTGACAGATAATGTTTTGTCGTTACTTTTCGTGGTTTTACCCAGCGGATAACCCTGATCAT -CATAGCGATATTCCATCTGCATTTGTTTGCTGCTGGCTTTAATCACGAAGCCATTATCATCGGTTTCCCAACTCACCCCG -GCAGAAGGTAATTCTGCTAGCTGGCATTTTCCCTGTAAACGTACTCTCTTCTCCAGCGTCTCGGCATCACGGTAATAATT -GGCGTCCAGTACCAGAGCGACCACGGTATTATTTTCCAGATCCAGTAATTCGAGTGAATCAAAACAGCCTTCTTCCGACA -AAGTCCCAGAAACACGTTTCGTCACTTCACCTTGCTCATCCATTAATGTCTGAGTGAAATCTTTTACCGGACCACGCAGC -GGATCAAAATCGAATTCATTAGAGAAACTGGCCATCTCAGGGGTAAATGAAAGTGTTACCTCTGTGCGGTCACATCCTGT -GAGGAATATCGCGAGTAAGCATGGTAGTAATTTGTATTTCACAACAGTCACCAGAGAGTAGAGATGATTCTCAATCATAG -TAGCAAATACAGTACTTTACACGTTAAATGCTATGCTTAAAGAAGTTATCTTCGCGTAAGGAGCTTATGATGAAACTCTC -AACCTGCTGTGCCGCGCTTCTGCTCGCCCTCGCCTCACCCGCGGTACTCGCCGCGCCGGGATCCTGTGAGCGCATACAGA -GCGATATATCACAGCGCATTATCAATAATGGCGTACCCGAAAGCAGCTTCACGTTAAGTATTGTACCCAATGACCAGGTT -GATCAGCCTGATTCCCAGGTCGTCGGCCATTGCGCTAATGATACGCATAAAATTCTCTATACCCGCACCACCAGCGGTAA -CGTCTCTGCTCCCGCGCAGTCTAGCCAGGATGGCGCGCCTGCCGAACCGCAGTAACACATTATCGACTGAACGCCGGATA -TGACAAATCCGGCGATTTGAACATACAACATAATCCCACCTTATTACTCATACCCTTCTATTGATATGGATTAATAATTC -TTAACCCAAAATGGGTAGACTCCCTCTATTGTTAGCGCGCTAAATATTCAATATATAAACTTTTATATAACGATAAAGAA -CAGGGAGTGAGTTATGTCCAAAAATGAACGAATGGTGGGCATCAGCCGCAGAACACTCGTTAAATCTACCGCGATAGGTT -CTCTGGCGCTGGCTGCAGGCGGTTTTTCTTTGCCGTTTACCCTGCGCAATGCAGCAGCAGCGGTACAACAGGCCCGCGAA -AAAGTGGTCTGGGGTGCCTGTTCCGTCAACTGTGGTAGCCGCTGTGCACTTCGTCTACATGTTAAAGATAATGAAGTGAC -CTGGGTGGAAACTGACAATACCGGCAGCGATGAGTACGGCAACCATCAGGTACGCGCCTGTTTGCGCGGTCGCTCCATCC -GCCGGCGTATTAATCATCCCGATCGCTTGAATTACCCAATGAAACGCGTGGGCAAACGCGGCGAAGGCAAATTCGAACGG -ATTAGCTGGGATGAAGCCCTGGATACTATCGCCAGTAGCCTGAAGAAAACCGTCGAACAATATGGCAATGAGGCTGTATA -TATTCAGTACTCTTCGGGGATCGTTGGCGGCAATATGACCCGCTCTTCGCCATCAGCCTCGGCGGTCAAACGCCTGATGA -ACTGCTACGGCGGTTCACTCAACCAGTATGGCTCCTACAGCACTGCGCAAATTTCCTGTGCCATGCCCTACACCTACGGC -AGTAATGATGGCAACAGCACCACGGATATTGAAAACAGCAAGCTGGTCGTGATGTTTGGTAACAACCCGGCAGAAACCCG -CATGAGCGGTGGTGGCATCACTTATCTTCTTGAAAAAGCGCGCGAGAAATCGAACGCCAAAATGATTGTTATCGATCCGC -GATATACCGATACGGCTGCCGGTCGTGAAGACGAATGGCTCCCTATTCGCCCGGGCACCGATGCCGCGCTGGTTGCGGGT -ATTGCCTGGGTATTGATTAACGAAAATCTCGTTGATCAACCTTTTCTCGATAAATACTGCGTCGGCTATGACGAAAAAAC -CTTACCCGCAGATGCACCCAAAAATGGTCACTATAAAGCCTATATTCTTGGTGAAGGTGACGATAAAACAGCGAAAACGC -CGCAGTGGGCTTCGCAAATTACCGGTATCCCGGAGGACCGTATCATCAAACTGGCGCGTGAAATTGGCACAGCAAAACCC -GCTTATATCTGCCAGGGCTGGGGGCCACAACGCCAGGCAAACGGCGAACTGACTGCACGCGCTATTGCTATGTTACCTAT -TTTGACGGGCAATGTCGGCATCAGCGGCGGAAATAGTGGCGCGCGTGAATCGACCTATACCATTACCATAGAACGCCTGC -CGGTGCTGGATAATCCGGTCAAAACGTCAATCTCCTGCTTCAGCTGGACAGATGCTATCGATCATGGTCCGCAAATGACG -GCAATCCGCGACGGCGTCCGCGGCAAAGATAAACTGGATGTGCCCATTAAGTTCATCTGGAACTACGCGGGAAATACCCT -CGTTAATCAGCATTCTGACATCAACAAAACGCATGAAATTCTGCAGGACGAATCGAAATGCGAAATGATTGTGGTCATCG -AAAACTTTATGACCTCATCGGCAAAATATGCCGACATTCTGCTGCCAGACCTGATGACCGTTGAGCAGGAAGATATTATT -CCTAACGACTACGCCGGTAACATGGGATATCTCATTTTCCTCCAGCCTGTCACCAGCGAAAAATTCGAACGCAAACCGAT -TTACTGGATCCTGAGTGAAGTCGCGAAACGTCTTGGACCTGACGTCTATCAAAAGTTCACAGAAGGTCGCACGCAGGAAC -AATGGTTACAACATCTGTACGCCAAAATGCTTGCCAAAGATCCGGCGTTACCGTCTTACGACGAACTGAAAAAAATGGGT -ATCTATAAGCGTAAAGATCCCAATGGCCATTTTGTCGCCTACAAAGCATTTCGTGACGACCCCGAGGCAAATCCACTTAA -AACGCCTTCCGGTAAGATTGAAATTTATTCCAGCAGGCTGGCGGAAATTGCCCGTACCTGGGAACTGGAAAAAGATGAAG -TGATAAGCCCATTGCCAGTTTATGCCTCAACCTTTGAAGGCTGGAACTCCCCTGAACGTAGAACCTTCCCACTGCAACTG -TTTGGTTTCCATTACAAATCCCGTACTCACTCGACCTACGGCAATATTGATCTCCTGAAGGCTGCCTGCCGTCAGGAGGT -GTGGATCAACCCTATAGATGCGCAGAAACGTGGGATTGCCAACGGCGATATGGTGCGGGTGTTTAACCATCGTGGCGAAG -TTCGGCTACCAGCCAAAGTAACACCACGTATTCTCCCTGGAGTTAGCGCTATGGGCCAGGGAGCCTGGCACGAGGCCAAT -ATGTCTGGCGATAAAATCGACCATGGCGGCTGTGTGAATACGCTAACCACTCTGCGCCCTTCACCACTGGCGAAGGGAAA -CCCGCAGCACACTAATCTGGTCGAGATCGAAAAAATATAACCCACGACAACCATAAATTCTGGCATGACATTTTGTTTGA -AAAGCAATAAGTGAGTAATGATGAAAATCCATACCACAGAGGCGCTCATGAAGGCTGAAATCAGCCGTAGAAGTCTGATG -AAAACCTCCGCACTTGGCAGTCTTGCGCTGGCAAGCAGTGCTTTCACTCTGCCATTTTCCCAAATGGTCCGGGCGGCAGA -GGCTCCGGTAGAAGAGAAAGCGGTCTGGAGTTCCTGCACCGTTAACTGCGGGAGCCGCTGTCTGTTACGTTTGCATGTGA -AAGATGACACCGTGTACTGGGTGGAGTCTGATACGACAGGTGACGACGTCTACGGTAATCATCAGGTTCGAGCGTGTTTA -CGCGGGCGCTCTATCCGCCGACGGATGAATCATCCTGATAGGTTGAAATATCCCATGAAGCGCGTCGGCAAGCGCGGTGA -AGGTAAATTTGAACGGATAAGTTGGGACGAAGCCCTGGATACCATCAGTGATAATCTTCGGCGGATCCTGAAAGATTACG -GCAATGAGGCTGTACATGTCCTGTACGGAACAGGCGTAGATGGCGGAAACATCACCAACTCAAACGTCCCGTACCGTCTG -ATGAACTCTTGCGGTGGTTTTCTCAGTCGCTATGGCAGCTACAGTACCGCACAGATCAGTGCCGCAATGAGTTATATGTT -CGGTGCCAATGATGGCAACAGCCCGGATGATATCGCCAATACGAAACTGGTCGTTATGTTCGGAAATAACCCGGCAGAAA -CGCGGATGAGCGGCGGTGGTGTCACTTACTACGTCGAGCAAGCCCGCGAACGTTCAAACGCACGCATGATCGTCATCGAT -CCACGTTATAACGACACTGCTGCCGGGCGTGAAGATGAATGGCTGCCCATTCGCCCTGGCACCGATGGCGCACTGGCCTG -TGCGATTGCCTGGGTACTGATTACTGAAAACATGGTCGATCAGCCATTTCTCGACAAATATTGTGTTGGTTACGATGAAA -AAACGCTGCCCGCCAACGCACCACGTAACGCGCATTATAAAGCCTATATTCTGGGCGAAGGGCCTGACGGCATAGCTAAA -ACGCCGGAATGGGCAGCAAAAATCACCAGCATCCCGGCAGAAAAAATTATCCAGTTGGCACGAGAGATCGGTTCAGCAAA -ACCTGCTTATATTTGTCAGGGTTGGGGGCCACAACGACATTCCAACGGCGAGCAAACATCCCGCGCTATTGCCATGCTTT -CCGTTCTCACCGGCAACGTCGGCATAAACGGCGGCAACTCAGGCGTACGCGAAGGTAGCTGGGATCTGGGGGTAGAATGG -TTCCCGATGCTCGAGAATCCTGTTAAAACGCAGATTTCCGTCTTTACATGGACAGATGCCATCGACCATGGTACGGAAAT -GACCGCGACCCGTGATGGTGTTCGTGGAAAAGAAAAACTGGATGTCCCCATCAAGTTTTTATGGTGCTACGCCAGTAACA -CATTGATCAATCAACATGGCGACATCAATCACACCCATGAGGTGCTTCAGGATGACAGCAAGTGCGAGATGATTGTTGGC -ATTGACCACTTCATGACGGCCTCGGCTAAGTATTGCGATATCCTGTTGCCCGACCTGATGCCAACAGAGCAAGAAGACCT -TATCTCTCATGAATCTGCAGGGAATATGGGCTATGTGATCCTCGCCCAACCCGCAACCTCAGCAAAATTTGAACGCAAAC -CCATCTACTGGATGCTGAGTGAAGTCGCCAAACGCTTAGGACCAGACGTTTATCAAACCTTTACTGAAGGTCGCAGTCAG -CATGAATGGATCAAATATCTCCATGCGAAAACGAAGGAACGTAACCCTGAGATGCCCGACTACGAGGAGATGAAAACGAC -CGGGATCTTTAAGAAAAAATGCCCGGAAGAACACTACGTCGCTTTCCGCGCATTCCGTGAAGATCCACAGGCAAACCCGT -TGAAAACACCTTCGGGGAAAATCGAAATTTATTCTGAACGACTGGCGAAGATTGCAGATACCTGGGAATTGAAAAAAGAT -GAAATTATTCATCCCCTTCCTGCGTATACCCCAGGTTTTGATGGCTGGGACGATCCCCTGCGGAAAACCTATCCACTGCA -GTTAACGGGCTTCCATTACAAAGCGCGTACCCACTCCAGCTACGGCAATATTGATGTGTTACAGCAGGCCTGCCCACAAG -AGGTGTGGATCAACCCCATTGATGCTCAGGCACGCGGTATCCGTCATGGCGATACCGTGCGGGTATTTAACAATAATGGA -GAAATGCTGATTGCCGCAAAAGTGACTCCGCGTATTCTGCCTGGCGTTACCGCCATCGGGCAAGGTGCGTGGCTTAAAGC -GGATATGTTTGGTGACCGGGTCGATCACGGCGGCAGTATCAATATTCTGACCTCTCACCGCCCTTCACCGCTGGCAAAGG -GAAACCCGTCGCACAGCAATCTTGTCCAGATCGAAAAGGTTTAAGGAGTAGCCCATGACCACACAATATGGATTTTTTAT -CGATTCCAGCCGCTGTACTGGCTGTAAAACCTGCGAACTGGCGTGCAAAGATTTTAAAGATCTTGGCCCGGAAGTCAGTT -TCCGCCGTATTTATGAATACGCTGGCGGCGACTGGCAGGAAGATAATGGCGTCTGGCACCAGAACGTGTTCGCTTATTAT -CTCTCCATCTCCTGTAACCATTGCGATGACCCCGCATGTACAAAAGTCTGCCCCAGCGGCGCAATGCATAAGCGTGAAGA -TGGCTTTGTGGTGGTTGATGAAGATGTTTGTATCGGCTGCCGCTACTGCCACATGGCTTGTCCGTACGGCGCGCCACAGT -ACAATGCTGAAAAAGGGCACATGACGAAGTGCGATGGTTGTTATTCGCGCGTCGCCGAGGGGAAACAACCCATATGTGTC -GAATCCTGCCCGCTGCGTGCACTTGAGTTCGGTCCAATTGAAGAGCTGCGCCAGAAGCACGGCACTCTTGCTGCCGTCGC -GCCACTGCCGCGCGCGCATTTCACAAAACCCAATATCGTTATCAAACCTAACGCCAACAGCCGCCCGACCGGCGATACCA -CTGGTTATCTGGCTAATCCGGAGGAAGTGTAAAATGGGAAATGGATGGCATGAGTGGCCACTGGTTATCTTTACCGTATT -GGGTCAATGCGTAGTAGGCGCGCTGATTGTTAGCGGAATTGGCTGGTTCGCCGCCAAAAATGACGCAGACCGTCAGCGTA -TTGTCCGTGGCATGTTTTTCCTCTGGCTGTTGATGGGCGTCGGGTTTATTGCCTCTGTCATGCACCTGGGATCGCCACTG -CGGGCGTTTAACTCCCTGAATCGAATCGGAGCTTCTGGTCTGAGTAACGAGATTGCTGCCGGTTCCATATTTTTTGCCGT -TGGCGGATTATGGTGGCTGGTGGCAGTCATCGGTAAAATGCCGCAAGCGTTGGGGAAACTCTGGTTACTTTTCAGCATGG -CGCTCGGCGTCATTTTCGTCTGGATGATGACCTGCGTGTATCAAATCGACACCGTGCCAACCTGGCATAACGGTTACACT -ACGCTGGCTTTCTTCCTGACGGTATTGTTGAGCGGTCCAATACTTGCTGCCGCAATTCTGCGGGCAGCTCGCGTTACATT -TAATACCACACCATTTGCCATCATTAGCGTTCTGGCGCTGATCGCTTGTGCCGGGGTGATTGTGCTGCAAGGTTTGTCTC -TGGCGTCTATTCACTCATCCGTGCAACAAGCCAGCGCACTGGTACCAGATTACGCCTCCTTACAGGTCTGGCGTGTGGTA -TTGTTATGCGCAGGTCTTGGATGCTGGCTTTGCCCGCTCATTCGTCGCCGTGAACCTCACGTTGCCGGACTTATTCTGGG -GCTAATCCTCATACTTGGCGGTGAGATGATCGGGCGTGTGCTCTTTTATGGCCTGCACATGACAGTAGGAATGGCTATTG -CAGGTTAACAAATTGGTGCGGGGCAACCCGCACATTTCAGGATGTTAGGAATGACCCATTTTTCACAGCAAGATAATTTT -TCTGTCGCGGCGCGCGTGTTGGGCGCGCTGTTTTATTACGCTCCAGAGAGTGCGGAAGCCGCACCTCTGGTTGCGGTACT -CACCAGTGACGGCTGGGAAACTCAGTGGCCTCTACCAGAAGCGTCATTAGCGCCGCTGGTGACGGCTTTTCAGACACAGT -GTGAAGAGACTCACGCCCAGGCCTGGCAGCGTTTGTTTGTCGGCCCGTGGGCACTGCCGTCTCCGCCGTGGGGGTCGGTC -TGGCTGGATCGCGAATCTGTGCTGTTTGGCGATTCAACATTGGCACTTCGTCAGTGGATGCGCGAGAAAGGCATTCAGTT -TGAAATGAAGCAAAACGAACCGGAAGATCATTTTGGTTCACTGCTGTTGATGGCTGCGTGGTTGGCGGAGAATGGTCGCC -AGACAGAATGCGAAGAATTGCTGGCATGGCACCTTTTTCCGTGGTCAACACGTTTTCTTGATGTTTTTATCGAAAAAGCA -GAACACCCTTTCTACCGTGCACTGGGTGAACTGGCTCGCTTAACGCTGGCGCAATGGCAATCACAACTGTTAATTCCTGT -CGCGGTTAAACCGCTGTTTCGATAGGATCACCGTAATATTGCCGGATGGTGACGATTACGCGCAATCCGGCAATAATAGG -TTACAGTGTCACGTTTTTTTATCTCTTAAAGCACGCACTGCTTTTGCGGCTGGCCTCTTTTGCCGCAAAATAGTCGCCCG -TGTTTCATTGCCCATTTCTGCTCATGCATCATCTACACATCTATCCGGATCTGCGCACTATGTTCCACCGTCTGCTTATC -GCAACAGTCGTCGGTATTCTCGCGGCCTTTGCCGTTGCCGGGTTTCGTCATGCGATGCTGCTACTGGAGTGGTTGTTCCT -CAATAATGACTCCGGCAGTCTGGTCAATGCAGCGACAAACCTTTCCCCCTGGCGACGGTTGCTAACTCCGGCGCTCGGCG -GACTGGCGGCGGGTTTGTTGCTGATGGGCTGGCAGAAATTTACCCAACAACGCCCTCATGCGCCGACCGATTATATGGAA -GCGTTGCAAACCGATGGACAGTTCGATTACGCAGCAAGCCTGGTTAAATCGCTTGCCTCTCTGCTGGTAGTAACCAGCGG -CAGTGCAATTGGTCGCGAAGGTGCGATGATTCTTTTAGCTGCCCTTGCCGCCTCCTGTTTTGCCCAACGTTTTACGCCAC -GCCAGGAGTGGAAATTATGGATCGCCTGTGGGGCCGCGGCGGGAATGGCTGCGGCCTATCGTGCCCCGCTTGCTGGCAGT -TTATTTATAGCCGAAGTGCTGTTTGGCACTATGATGTTGGCCTCTCTCGGCCCGGTGATTATTTCCGCCGTCGTGGCATT -GCTGGTTAGCAATCTGATTAATCATAGCGACGCGTTACTCTACAACGTACAACTCTCAGTGACGGTTCAGGCTCGTGACT -ATGCGCTGATTATCAGTACAGGTGTGCTGGCAGGTCTGTGCGGACCACTGTTGTTAACGTTAATGAACGCCTGTCATCGT -GGATTTGTGAGTCTCAAACTTGCGCCGCCCTGGCAACTGGCACTAGGCGGGTTGATCGTGGGTCTGCTTTCCCTGTTCAC -ACCTGCAGTGTGGGGCAACGGCTATAGCACCGTACAATCCTTTTTAACCGCCCCACCACTGTTAATGATCATTGCCGGGA -TCTTCCTTTGTAAACTGTGTGCCGTGCTGGCGAGTAGCGGTTCCGGCGCACCCGGTGGGGTCTTTACACCGACGCTATTT -ATCGGTCTTGCCATTGGCATGTTGTATGGTCGTAGCCTGGGATTATGGTTCCCTGATGGCGAAGAAATTACACTTTTACT -CGGATTGACCGGGATGGCGACACTGTTGGCGGCGACCACGCACGCGCCGATTATGTCGACGTTGATGATATGTGAAATGA -CCGGGGAGTATCAGCTACTCCCCGGTTTATTGATTGCCTGCGTAATTGCGTCGGTAATTTCGCGGACGTTACACCGTGAC -TCTATCTACCGCCAGCACACTGCGCAGCATAGCTAAGCGGATGTATTGCCCCAGTTCACGCTGTTCGGCGCGCGGCAGAT -AAGGCAGTTCACCAATGAGCGGTGCCGGAAGTTTTTTACCCAGCACATCAATGATTTCCGCATAATGCGCCAGTCCTGGG -TTGATTCGGTTAGCCACCCAGCCAATGAGCGGCAGCCCGTCGTTGGCGATCGCCTGAGCTGTTAGCAGTGCATGGTTAAT -GCAACCTTCCTGAATACCGACAACCATCAACACCGGCAGTTGTTCCTGCACTACCCATTCAGAGAGTGGACGCAAATCAT -TCATCAGACTGCGCCAGCCGCCAGTCCCTTCTACCACGACATGATCGACTTTTTCGGTCAGGTTTGCCAGGCCGTTTGAA -ATGAGGGTGTAATTGATTGGGCAACTGTGCGCCACGCTACTTTCTTCTTCGCTTAACGCGATAGGATTAACTGCTTCATA -AGGCAGTTCGATGGTTGAAACACTCTGCAACACCAGGGCATCTTTATTACGCAGCCCTTCGGGTGTCTCTTTGCTCCCCT -TCGCTACGGGTTTATATCCCGCAACCGTTTTTCCCTGGGAGGCTAACGCTTGTAGCAATGCGCGGGAAACCACCGTTTTC -CCTACAGAAGTGTCTGTACCGGTAATAAAGAAACGCTTCAGCATCACTAACTCCACCGTTATGCTTCACAAATATAAACC -AGGAAAATAATTAACCTTGAAAGTCTAAGTTATGCTTTCCTGGCCCAAATTGAGATAGCGCAAATTTTGGTAGAACAGTT -AAAAAATGTTAACCCTGCAACAGACGAATCAACAAAGAACCGTTATACATCGCGTCTTTTACCAGTGCAGCGCCTGCCAT -CGTGCCCTGGTTAGAAAACTGAGTACTCTCAACGCTGATGTGCTGACTATACGCAGGAAGGGCCTGCTGACGGATGCTGT -CTGAGATGACCGGGAAGAGGATATCTGCCGCTTTACTTAACGGTGAGCCAATCAGTATTTTTTGTGGGTTAAATAAATTC -ACCATGATGGCAAGAATGCGCCCGACATGCGCGCCCACCCCGGTAATGATGTCTTTTGCCAGTAGATCGCCGCGCAATGC -CGCCTGACACAATGAGTCCACGGTTAACGGTTGTCCATGTAACATCGAGCTCATGGATTGATTAAGACGCAGCTGTGCCA -GCTCAAGAATACTGTCCACGCTGGCGATGGTTTCGAGGCAGCCGTGATTCCCGCAATAACAGCGTTTCCCATACGGGTCG -ACCTGTGTGTGGCCTATTTCCACGAGACTACTGCTGCCTGCGTGTAGCAGATGACCATCGGTAATGACGCCCGCCCCCAC -GTTGTGATCGATAACCACCTGAATCACATCGCGCGCCCCGCGTGAGGCACCAAACAAGGCCTCTGCCATCGTCCATGCGC -TGATATCATGCTGAATATAAACCGGAACGCCGGTATGCTGCTCCAGCGCCTCGCCGAGCGGCATCTCTTTTACATCCTCG -TAGAACGGCATGCGATGTACAATACCATTTTCCGTATCAATAATTCCCGGCAAGGTTATGGCAATCGAAGTTAGACGCTC -AAGTTTTTTCTGGTGGCGGATAAAAAACTGATCGATATGGGAAATAATACGATCCAGCAATGGCAAGTCATCTTTTAACG -CCAGTTCCTGCGACTCTTCCACCACCAGTTTGCTGCTCAGATCGCGCAGAGCAAGGAAAATCTCCCCGCGACTAATGCGC -AGAGAAAGATAGTGCCAGGCTTCAGTTTCAACCACCAGCCCCACCGCCGGACGGCCACGGTTCCCCGCTTCTTTGATTTC -CAGCTCTTGCACCAGGTGTGCTTCGAGCATCTCACGGACAATTTTAGTGATACTGGCAGGAGCCAGTTGCGCCAGACGGG -AAAGATCGATACGCGAGACTGGACCAAGCTGATCAATCAGGCGATAAACCGCGCCCGCGTTGGTCTGCTTTATTTGATCA -ATGTGCCCAGGCTGGTTTTCAGCAACCACCGCATACTCCCTATATTTTCGCGCTCCGAAATAATCTGTAGGCTATGGTGA -AGCACTTCAATACGTGTCGTCAAATTTTTACTTAGGCATGTGATTAACAGCACATTTTTCGGGCTTTTTCGCTGAAATTT -CCCTCACCTGAGAGCATTCAGCAGATGAATACGAAAGTTACGCGCAGCCGGACTTTGTTCATGATGTTTCGGCCAGACCA -ACCACATTTCAGAAACCGCATCCTCTTCAGCAATCGGCACCCAGCGCATTTCGTTGAGCTGAACACGTTTAAATGACGCA -GGCAAAATTGAAACACCCAGACCGGCGGAAACCAGACCGATGATGGTCATTGCCTCGCCCACCTCCTGAGTGATGACGGG -CGTCAAATGGTAACGTCGCATCAGCCCGAGAATATCGTCATACAGCCCTGTCCCGACGTGCGGATCAAAAAAGACAAAGG -GTTCTTTCGCCAGTTCAGCCAGCGTTACATTCGGGTTATTTGCCAGGGGATGATCGTGCGGGATCATCGCCATAAGCGGT -TCATGGACGATGACTGCGTGTTCAAGCGACTCCGGTAACGCTGTGTTACGCAGCAATCCCATATCCAGCGTTCCTTCAAT -GAGCGGAGCGATTTGCTCGCGAGTGTTCATTTCGCGGGTTTGTAAATGGACATCAGGATAATCACGGCGAAACAGCGATA -ACGTATCGGACACCGCCCGAATAAAAGGAGCCGACGAAGTAAAACCAATGCGCAACTCCCCCGCTTCACCCTGATGCAGC -CTTTCAGCGCGAGCGGCAGCGTCATCCACCATAGACAGGATTTGCCGACTATCTGCAAGAAACTGTTTTCCTGCTGCCGT -CAGCAATACACTGCGATTGGTTCGTGCCAGCAGTCGGGCACCAATTTGTTGCTCCAGCGCCTGAATCTGCTGACTTAGCG -GCGGTTGCGAAATATTCAGGCGGGCAGCGGCGCGCCCGAAATGCAGCTCTTCCGCAACAGCAACAAAGTAACGCAGATGA -CGAAGTTCAATATTCATATTTAAAACATCTTATTTGAGATTATTAATATATTAGACAGAACAATTCGATTTTCCTACCCT -ATGTATAAGCCTGATCTACAGGCATATTTAGCAAGGATTTCAAGTGAGCCGTACTACAACTGTTGATGGCGCTCCGGCAA -GCGACACTGACAAGCAAAGCATTTCTCAGCCAAATCAATTTATTAAACGCGGTACGCCGCAATTTATGCGCGTCACCCTG -GCGCTGTTCTCTGCCGGACTGGCAACATTTGCACTTCTCTATTGTGTGCAGCCTATCCTTCCGGTGCTTTCGCAGGAGTT -TGGCTTAACCCCCGCGAACAGTAGTATTTCACTGTCCATTTCCACGGCGATGTTGGCTATTGGTTTGCTGTTTACTGGCC -CGCTATCCGATGCCATTGGTCGCAAACCAGTGATGGTCACGGCGCTACTGTTGGCCTCCATTTGTACGTTACTTTCGACA -ATGATGACCAGCTGGCACGGCATTTTGATTATGCGCGCCTTGATTGGGCTTTCGTTAAGTGGCGTGGCAGCTGTTGGCAT -GACTTATCTTAGCGAGGAAATCCATCCCAGTTTCGTGGCCTTTTCAATGGGGTTGTATATCAGCGGCAACTCAATTGGCG -GCATGAGCGGACGCTTAATTAGCGGTGTCTTCACGGACTTTTTCAACTGGCGAATTGCTCTGGCGGCAATCGGTTGTTTC -GCGCTGGCCTCGGCGTTGATGTTCTGGAAAATCCTCCCTGAATCACGCCATTTTCGCCCGACTTCGCTGCGCCCTAAGAC -GTTGTTTATCAACTTTCGTCTGCACTGGCGTGACCGGGGATTACCGTTATTGTTCGCAGAAGGCTTTTTGCTGATGGGGT -CGTTCGTCACGCTGTTTAATTACATCGGCTATCGGTTGATGCTCTCCCCCTGGCATGTCAGTCAGGCCGTGGTTGGCTTA -TTATCGCTGGCTTATTTGACCGGTACATGGAGCTCACCCAAAGCCGGAACCATGACCACCCGCTATGGGCGTGGTCCAGT -GATGTTGTTTTCGACGGGGGTTATGCTGTTTGGTTTACTGATGACCTTATTCAGCTCGCTGTGGCTGATCTTTGCCGGAA -TGTTACTCTTCTCAGCAGGATTCTTCGCAGCCCACTCAGTAGCCAGCAGCTGGATCGGCCCCCGCGCAAAACGCGCTAAA -GGCCAGGCCTCCTCGCTGTATCTGTTCAGTTACTATCTGGGGTCGAGTATTGCCGGGACGCTGGGTGGTGTTTTCTGGCA -TAACTATGGCTGGAACGGCGTCGGCGCATTTATTGCTCTGATGCTGGTCATTGCTCTGCTGGTCGGGACGCGTTTGCATC -GTCGTCTGCACGCCTGAAAAATAAGTCCGGACTGCGGTAAATACCCGTCCGGACTTATTGCCAGCTCAAACCAACGTTAA -TAGCCATCCTAAAATAGACGAAGCGCCAGCCAATTCCCGCAGCGCGTCTAGCGTCATCAGGATTATAAGTACCCAAATAA -ACGGATTCATTTTGCTGTGTGTCATTTATTACTGATGCGCAGTTATTCTACTGCTTTGTAAGTAGTAAAATAGTTAACCC -GATCAAGACTACTATTATTGGTAGCTAAATTTCCCTTAAGTCACAATACGTTATTATCAACGCTGTAATTTATTCAGCGT -TTGTACATATCGTTACACGCTGAAACCAACCACTCACGGAAGTCTGCCATTCCCAGGGATATAGTTATTTCAACGGCCCC -GCAGTGGGGTTAAATGAAAAAACAAATTGAGGGTATGACAATGAAAAAAGTATTAGCTCTGGTTGTTGCCGCTGCTATGG -GTCTGTCTTCTGCCGCCTTTGCTGCAGAGACTACGACCACACCTGCTCCGACTGCGACGACCACCAAAGCAGCGCCGGCG -AAAACTACACATCATAAAAAACAGCATAAAGCAGCACCTGCCCAGAAAGCGCAGGCGGCTAAAAAGCATCATAAAAATAC -GAAAGCTGAACAGAAAGCCCCTGAACAAAAAGCGCAGGCAGCGAAGAAACACGCCAAGAAACACAGCCATCAGCAACCGG -CAAAACCTGCTGCACAACCCGCAGCGTAAGTTTTCAACAGTAATGCTGGCGCGCCCCCTCGCGCCTGAAAATTACGGTGC -TAAGCGGGTAACGTTTAGCACCGCCTTTAGCGGAGGGTAGTATGGTGGGCCGTTATCGCTTTGAGTTCATTCTGATCATC -CTTATTTTATGCGCACTGATTACCGCCCGTTTTTATCTTTCCTGATTGTAGTTATCTGATTTTACTCCCACTTTCATCCC -GTCCCGTCTATAGTATTTATGAGGGTTTGCTTTTAATAATCATAATTACCCACCAGAGTGTGATATGCGTACAACCATTG -CTGTAGTGTTGGGTGCAATTAGTTTGACGTCTGCTTTTGTGTTTGCAGATAAACCAGACGTTGCCAGATCGGCAAACGAT -GAGGTCAGCACCCTGTTTTTTGGTCATGATGATCGTGTGCCAGTGAATGACACGACCCAATCACCGTGGGATGCGGTTGG -GCAACTGGAAACGGCCAGCGGCAATTTATGTACGGCGACGCTGATTGCACCCAATCTGGCATTAACGGCAGGACACTGTT -TATTGACACCTCCAAAGGGTAAAGCCGATAAAGCAGTGGCGCTGCGTTTTGTGTCAAATAAAGGTCTTTGGCGCTATGAG -ATCCACGACATAGAAGGCCGCGTTGATCCGACACTGGGAAAGCGGTTAAAAGCAGATGGGGATGGTTGGATTGTACCTCC -CGCAGCCGCGCCGTGGGACTTCGGATTGATTGTGCTACGTAATCCCCCTTCTGGCATTACGCCGTTGCCGTTATTTGAGG -GAGATAAAGCCGCGCTTACCGCCGCATTAAAAGCGGCAGGTCGTAAAGTGACTCAGGCAGGCTACCCTGAAGATCATCTC -GATACGTTGTACAGTCATCAAAACTGTGAAGTGACTGGCTGGGCGCAAACGTCGGTGATGTCACATCAGTGCGATACCTT -GCCGGGTGACAGCGGTTCGCCTCTGATGTTGCATACCGATGACGGCTGGCAATTAATTGGGGTGCAAAGTTCGGCTCCTG -CCGCGAAAGATCGCTGGCGCGCCGATAACCGGGCCATTTCTGTTACCGGTTTTCGCGACAAGCTGGATCAACTGTCGCAA -AAATAATGTTCAAACGCTGCCCGACAGCGCGGGCAGCGTCTTCATCAGGCAAGTTTCACCATGATCATTCCAGCCAACAG -CAAGACCAGGCCAATCCAGCCTTTACGATTTAACCGTTGACCAAACAAGATCCAACCTGCGGCTAACGTGGCGGCAATAC -CAAACCCGCCCCACAATGCATAAGCGACAGACAAGTCGATCCCTTTAACGGCTTGAGAAAGCGCACTAAAGGCAGCCAGC -ACCGCCGCCAGGGAGAGCAAGCCAAATATTTTGCGACGAAAGCCGTCAGAAAATTTCAAAAAGACGTTAGCAACGATTTC -CAGCACGATTGCCAATGCCAGCCAGGCGGCGTGAACCCATTCAAACTGCGCCATGGTTCACCTCCAGTTCAGGTTTACGC -GCTTTACGGGTACCTGATTTTATCAACACAATCCCGGCGACCAGGGTGGTTAACCCGGCAATTTTCATCAGCGATAAACT -TTCGTCGAATAACAAAACGCTAAACAAGGTAATAAATAAAATACCGATACCTTCCCACAGCGCATAAGCTACGCCTAAGG -CGATTTTTTTAACGGCGAAAGAGAGAAATATATACGACAGAGAAATCATCACCAGCATTAAAATAAAGCCGCCATTTCCC -TCACTGACGCTCGCCCATTTCATTGACAGCGTACCGGTAATTTCTGTAGCAATAGCCAGACCTAATAAAATCCAATAAAT -ATACATTGTCCTTCTCCTGCAAGAGAATTATTTTAATTTTCGCTTAATTCAGCGAAACCAAAGTAAAGTGGTCAAGCCCC -GCGCATAGCGCAAGCTTTGGCAGAAGAAAGGACTAAAGCGCGTTGCGCCAGTGCTGCTCACCTACGAGCAAGATAGTGGA -TGAGGTACGAAGATGGGTAAATGTAGAAAATAACGTCCTGAACAAATTGTCCATAATATTACAATTATCCGCAGTGTTGC -TTCTCGTCATCGCGGATGATAATTGTCCTCGGTAGTTGAACACGCCTGATTTGTATCATAGCTTAAGAATTAACTCAAAA -TATTTTCACTTCTTTACCTGAGCGGTTTGATTTTCGTTATGATGACGGAGCGAAAAAGACATTATTATTAGCAAAGGAAG -AAAAAACGGGGACAAGCATGGCAAAGCCGATCATCACGCTCAATGGCCTAAAAATCGTCATTATGTTGGGAATGCTGGTC -ATTATTCTCTGCGGTATCCGTTTTGCCGCCGAGATCATCGTGCCGTTTATTCTCGCATTATTTATTGCTGTTATTCTTAA -CCCGCTGGTGCAACACATGGTCCGCTGGCGTGTGCCGCGTGTACTGGCGGTGTCGATTTTGATGACCATCATCGTGATGG -CGATGGTGTTGCTATTAGCTTATCTGGGTTCCGCGCTCAACGAGTTGACGCGGACGTTACCGCAATATCGCAACTCTATT -ATGACGCCGCTGCAAGCGCTTGAACCGTTGTTGCAACGCGTAGGGATTGACGTCTCAGTTGACCAGCTGGCGCATTATAT -TGATCCGAACGCGGCGATGACGTTGCTCACCAACTTATTGACGCAGTTATCTAATGCCATGTCATCAATATTTTTATTGC -TGCTGACGGTGCTGTTTATGCTGCTCGAAGTGCCACAATTGCCCGGAAAATTTCAGCAAATGATGGCGCGTCCGGTTGAA -GGGATGGCGGCGATTCAACGTGCGATTGACAGTGTTTCTCATTATCTGGTGCTGAAAACAGCCATCAGCATCATCACCGG -CCTGGTCGCCTGGGCGATGCTCGCCGCACTCGATGTTCGCTTCGCTTTTGTCTGGGGATTGCTGGCCTTTGCGCTTAATT -ACATCCCGAATATTGGTTCAGTCCTCGCGGCAATCCCCCCTATCGCTCAGGTACTGGTGTTTAATGGCTTCTACGAAGCG -TTGCTGGTGCTGGCGGGATATCTGCTGATTAATCTGGTCTTCGGCAATATTCTGGAGCCGCGTATCATGGGGCGTGGGCT -GGGGCTTTCCACATTGGTGGTATTTTTGTCGTTGATTTTTTGGGGATGGTTGTTAGGACCGGTGGGTATGCTGCTTTCCG -TGCCGTTGACAATTATTGTCAAAATTGCGCTTGAACAAACAGCGGGAGGTCAAAGCATCGCCGTTCTGTTAAGCGATCTC -AATAAAGAGTGACGGCCTCAGCAGAGGCCGTCAGGGTTACAGAGCTTTCAGGATTGCATCCACGCTGGCTTTGGCGTCAC -CAAACAGCATGTGGGTGTTTTCCTTGAAGAACAGCGGGTTTTGCACACCAGCATAGCCAGTGTTCATCGAACGTTTAAAG -ACAATCACGTTCTGCGCTTTCCACACTTCCAGCACAGGCATACCAGCAATCGGACTCTTCGGATCATCCTGCGCCGCCGG -GTTAACCGTATCGTTAGCACCAATCACCAGTACGGTATCGGTATCAGCAAAGTCATCATTGATCTCGTCCATTTCCAGCA -CGATGTCATACGGTACTTTTGCTTCAGCCAGCAATACGTTCATATGTCCAGGCAAACGCCCCGCGACCGGGTGGATACCG -AAACGCACATTAATACCACGAGCGCGCAATTTCTCAGTAATTTCAGCGACAGGATATTGCGCCTGCGCGACTGCCATGCC -GTACCCCGGAGTAATGATCACTGAATGGGAGTTTTTCAGCAGTTCCGCTGTCTCTTCTGCGGTGATTTCGCGGTGCTCAC -CCACTTCCTGATCATCGCCAGTAGAAGAGCCGTCGGTGCCGAAACCACCCGCAATAACGCTGATAAAGGAACGGTTCATC -GCCTTACACATAATGTAAGAAAGGATAGCCCCCGAAGAACCGACCAGCGCACCGGTCACAATCAGCAGGTCGTTGCTGAG -CATAAAGCCCGCAGCCGCAGCCGCCCAGCCGGAGTACGAGTTCAGCATCGACACCACCACTGGCATATCTGCACCACCGA -TGGAGGCGACTAAATGCCAGCCGAATACCAGCGCAATTGCGGTCATTATCAGCAATGCCAGCACTTGCAGGCCGACGCTG -TCCGTGCGAACAAATACAATCAGCAGCAGGAAGGAAACGACCAGAGCCGCCAGGTTCATTTTGTGACGGTTTGGCAGCAT -CAATGGTTTAGACGAAATCTTGCCACACAGTTTGCCGAACGCCACCACCGAACCCGTGAACGTTACCGCCCCGATGAAGA -TACCGAGGAACACTTCCGTCAGGTGAATATTGACCAGAATCGGTGCCATTCCCGCGTCATGATGCAGATAGCTGTTAAAG -CCAACCAGCACTGCCGCCAGACCCACGAAGCTATGCAGGATCGCCACCAGTTCTGGCATTTCGGTCATTTCAACTTTCTT -CGCCAGACGGATACCAATTGCCCCACCAATGACCATCGCCAGCAAGATCCAGCCAACATTACCCGTATCCGGTCCAAAAA -TGGTTGCGATTAACGCAATCGCCATCCCGGCGATACCGAAGTTGTTACCCTGGCGAGACGTTTCATGTTTCGAAAGACCG -GCCAGACTGAAGATAAACAGGATCGCGGCAACAATGTATGCAGCTGTAACTAATCCTCCAGACATATGTTACCCCTTAAT -TTTTGCGGAACATTTTCAGCATGCGCTGAGTCACGGTGAAGCCACCGAAAATATTAATGCTGGCTATAAGCACCGCGATA -AAACTAAGGAAGCTAACCCAGCCGCCCTGGCCAATCTGCAACAGTGCTCCGACAACAATAATCCCTGAAATCGCGTTGGT -GACCGACATCAACGGTGTATGCAGCGCGTGCGATACATTCCACACCACGTAATAACCGACAACGCAGGCCAGCGCGAAAA -CGGTGAAGTGCCCAAGGAATTCTTTCGGCGCAACGCTTGCCATCCAGCCAAAAAGAATGATTGCCAGCGCCATCAACGCG -TATTTACGCCACGGTGAGCAGGTACATTTTTCCTCAGTTTTCACTTCCGGTGCCGCTTTTTGTGCCGCCTGCGGCTGAGC -TGATACCTGAATCGGCGGTGCCGGCCAGGTAATTTCGCCCGCACGGATCACGGTCACGCCGCGAATCACCACATCATCAA -AATCAACAGTGATATTGCCGTCTTTCTCTTTGCACAACAGTTTCAGCAGATTAACGAGGTTTGTGCCGTAAAGCTGTGAG -GATTGCGTCGGCAGACGGCCCGGAAGATCGGTATAACCAATCACTTTGACACCATTTTCCGTAGTGAAGATTTCACCCGG -CACGGTGTATTCACAGTTGCCGCCGTTTTGGGCTGCCAGGTCGACAATCACACTGCCCGCCTTCATGGAGTCAACCATTT -CACGGGTAATTAGCTTCGGCGCTGGTTTGCCTGGAATAAGCGCGGTGGTGACAATGATATCGACCTCTTTTGCCTGGGCG -GCAAAGAGTTCCATTTCCGCTTTGATGAACGCGTCCGACATCACTTTGGCATAGCCATCGCCGCTGCCAGCTTCCTCTTT -AAAATCCAGCTCGAGGAATTCCGCGCCCATACTTTGAACTTGTTCTTTCACTTCCGGGCGGGTGTCGAATGCACGCACAA -TCGCGCCGAGACTGTTTGCTGCGCCAATGGCGGCCAGACCTGCAACACCCGCACCAATCACCATCACTTTTGCCGGTGGC -ACTTTCCCGGCCGCAGTAATTTGCCCGGTAAAGAAGCGCCCAAATTCATGTGCCGCTTCAACAATGGCGCGATAACCGGC -GATGTTCGCCATCGAGCTTAGTGCGTCCAGCGATTGTGCGCGTGAGATACGCGGCACAGAGTCCATCGCCATCACGGTCA -CGTTACGTTCCGCAAGTTTTTGCATTAATTCCGGATTCTGCGCAGGCCAGATAAAACTCACCAGCGTTGTCCCAGGATTC -AGTAACGCAATTTCATCATCTAACGGCGCATTGACCTTCAGAATGATCTCTGACTGCCAGACGCTATTCCCTTCTACAAT -TTCAGCGCCCGCTTGCACAAACGCTTTATCGTCAAAACTTGCCAGTTGACCCGCGCCGCTCTCTACCGCGACGGTAAAAC -CCAGTTTCAGCAGCTGTTCCACTGTTTTTGGCGTTGCTGCAACACGGGTTTCATTGGTTAACCGTTCTCTTGGTATGCCA -ATTCGCATGATATTCCCTTCCATCGGTTTTATTGATGATGGTTTGCCTGTGTCAGGAGCCACACAAGCTGCTCATGTACG -AGCTAAATGTTACTCCGTTAAAATAAATTAGTAACAAACGCCCTATAACGTACTGAAAATTATGCCTGTGATCTAGCGCC -AAAAATCAGTATTTCGGCGTGAACTCGCAAAATATTAACGATTCAGCCGTGATAGTGGGATAAACACCTTAGAACGCCGG -ATAAAGACTGATAATTGTCTTCGACGGTCGGGTAAAACGAGACATCGCCCCGGCACGAATCACTACTTAACATTAAATTA -ACTTATACAATTCAGTTGCTTCAGTAGTAATGATGCTGATACGGCTGTTTTTTAAGCATAGACGGTCATTTGAGCAGGAT -TAAAATTGGCTTAAGGAATGTGATATGAAAAATGACGCAGACAGTTACACCGTTTAAATGCAATAATCAGCCACGTTTCT -CGTTAATAACAATACCAGTACCTGGTTTGCGCAAGGCGAAGGATTATTTTTATGAAGCTTAAGAACACCCTCCTGGCGTC -GGCACTGCTTTCTGCTATGGCATTCTCCGTTAACGCAGCAACAGAACTGACACCGGAGCAAGCGGCAGCGGTTAAACCTT -TTGACCGTGTAGTGGTTACCGGTCGTTTTAATGCTATTGGCGAAGCGGTGAAAGCCGTTTCTCGTCGCGCAGATAAAGAA -GGTGCCGCCTCTTTTTATGTTGTCGACACTTCTGATTTTGGTAACAGCGGTAACTGGCGTGTGGTCGCTGACCTCTATAA -AGCCGATGCTGAAAAAGCAGAAGAAACAAGTAATCGCGTAATTAACGGTGTTGTCGAACTGCCGAAAGATCAGGCTGTTC -TGATTGAACCGTTTGACACGGTCACCGTCCAGGGCTTCTATCGTAGCCAGCCAGAAGTCAATGATGCCATCACCAAAGCG -GCAAAAGCGAAAGGTGCCTACTCTTTCTACATCGTTCGTCAAATCGATGCCAACCAGGGCGGCAACCAGCGTATTACTGC -ATTCATCTATAAAAAAGATGCTAAGAAACGTATCGTCCAGAGCCCGGATGTGATCCCGGCAGATTCCGAAGCAGGACGTG -CAGCTCTGGCTGCCGGTGGCGAAGCCGCGAAGAAAGTTGAGATCCCGGGTGTTGCGACTACCGCATCACCAAGTTCTGAA -GTCGGTCGCTTCTTTGAAACCCAGTCATCAAAAGGCGGGCGTTACACCGTCACGCTCCCGGATGGCACTAAAGTCGAAGA -ACTGAACAAAGCGACCGCAGCGATGATGGTCCCGTTCGACAGCATCAAATTCTCTGGCAACTACGGCAACATGACCGAAG -TCTCCTATCAGGTTGCGAAACGTGCCGCGAAGAAAGGTGCTAAGTATTACCACATCACCCGCCAGTGGCAGGAACGTGGT -AATAACCTGACCGTCAGCGCAGATCTGTATAAATAACTATTCAGTTACTCCTATAAGGCGGCTTGATGCCGCCTTTCGCA -TTTTTAGTCACAAATTTCCCCGCGACCATTGCATGCAGACACATCTCTTCGTAAAATCCCGCGCTTCAGTGGCAAACTCC -ATTTTTATGCGTTTTGCCCTAATATTTATTCTTCTTATCACGTTTTAATCACTGGATATCGATGGAAAAGAAACTGGGAC -TGAGCGCACTCACCGCGCTGGTATTAAGCTCAATGCTGGGCGCGGGTGTTTTCAGTCTGCCGCAAAATATGGCGGCAGTT -GCCAGCCCGGCAGCACTGCTCATCGGCTGGGGTATTACTGGCGCTGGCATTTTATTGCTGGCCTTTGCCATGCTGATCCT -CACGCGCATTCGTCCCGAACTTGACGGCGGTATCTTTACCTATGCCCGCGAAGGGTTTGGCGAGCTAATCGGCTTTTGTT -CCGCATGGGGATACTGGCTGTGCGCAGTCATCGCCAACGTCTCCTATCTGGTGATCGTTTTTTCCGCGTTAAGCTTTTTT -ACGGACACGCCGGAATTGCGCCTGTTTGGCGATGGTAATACCTGGCAATCGATAGTCGGTGCATCGGCTTTATTGTGGAT -TGTTCACTTTTTGATCCTGCGCGGGGTGCAAACCGCTGCCAGCATTAACCTGGTGGCGACACTGGCAAAATTGTTGCCGC -TGGGTCTGTTTGTTGTGCTGGCGATGATGATGTTCAAACTGGATACCTTCAAGCTCGACTTCACCGGACTTGCACTTGGC -GTACCCGTTTGGGAACAGGTGAAAAACACCATGCTGATCACCCTGTGGGTTTTCATTGGTGTGGAAGGTGCCGTGGTTGT -TTCTGCGCGTGCGCGTAATAAACGTGATGTTGGCAAAGCGACACTGCTGGCGGTTCTCTCCGCTCTGGGCGTTTACTTGC -TGGTAACGCTGCTTTCGCTGGGTGTGGTGGCACGTCCTGAACTGGCTGAAATTCGTAACCCGTCAATGGCCGGTCTGATG -GTGGAAATGATGGGACCATGGGGCGAAATCATCATCGCTGCCGGTTTGATCGTTTCCGTTTGCGGCGCGTACTTAAGCTG -GACCATCATGGCAGCAGAAGTACCGTTCCTGGCCGCCACTCATAAAGCATTCCCGCGCATTTTTGCGCGCCAGAACGCAC -AAGCTGCGCCATCCGCCTCACTGTGGTTGACCAACATCTGCGTGCAAATTTGTCTGGTACTCATCTGGCTGACCGGTTCC -GATTACAACACGTTGCTGACCATCGCCTCAGAAATGATTCTGGTGCCCTATTTCCTGGTCGGCGCGTTCTTGCTGAAAAT -CGCAACCCGTCCACTGCATAAAGCGGTAGGTGTCGGTGCCTGCATTTATGGCTTATGGTTATTGTACGCCTCTGGTCCAA -TGCACTTGCTGTTATCCGTTGTTCTGTATGCACCGGGGCTGCTGGTTTTCCTGTACGCGCGCAAAACGCATACCCATGAT -AATGTACTGAACCGTCAGGAAATGGTGCTGATTGGCATGCTGTTAATTGCCTCAGTTCCGGCGACCTGGATGCTGGTGGG -ATAACGTTCATCCCATCGTTGGATAGCAAAGGAGATAACGATGGGTAAAACCCAGCCCTTGCCAATATTAATTACTGGCG -GAGGTCGTCGCATCGGCCTCGCCCTCGCATGGCATTTCATTAATCAAAAGCAACCGGTGATTGTCAGCTATCGGACACAC -TATCCAGCCATTGATGGACTGATTAATGCAGGTGCGCAGTGTATTCAGGCTGATTTTTCGACCAACGACGGTGTGATGGC -GTTTGCCGATGAAGTACTAAAAAGCACCCATGGTCTGCGTGCTATTTTGCATAACGCCAGTGCGTGGATGGCGGAAAAAC -CGGGTGCGCCACTGGCCGACGTACTGGCTTGCATGATGCAGATCCACGTTAATACCCCATACCTGCTCAACCATGCGCTG -GAAAGATTACTGCGTGGGCACGGACACGCCGCCAGCGATATCATTCACTTTACCGATTATGTGGTGGAGCGCGGTAGCGA -CAAACATATTGCGTATGCTGCAAGCAAAGCGGCACTGGATAATATGACCCGCTCGTTTGCCCGCAAGCTGGCACCGGAAG -TGAAAGTGAATTCTATTGCGCCATCGCTGATCCTGTTTAATGAACATGATGATGCCGAATATCGACAACAGGCGCTGAAT -AAATCACTGATGAAAACCGCGCCTGGCGAGAAAGAAGTGATCGACCTGGTCGATTACTTACTTACCAGTTGCTTTGTCAC -CGGACGCAGTTTCCCACTTGATGGCGGTCGTCATCTGCGTTAATGCAGCTTTATCCAGCATATAATCAACACCCATGCGC -TTATCCCCCAACACGCAACAGAACCAACAAAAGCGGCGGGCAAGCGCATCATTCCGGTGAAATACCACAGCGACACCAGG -TAAACAAAATAGGGAATAATCGACCACATACTAAAAATGATGGTTGCGCGTAAGGCTTCAATGCCGCGTTCGCTGGCAAC -AATATAATGCGCGATAAGCGCAAAGGTCGGGAAAAGTGGAATCAGCCCGGCGATATAATAATTTTTCGTTTTTGCTAAAA -CACCAATCAACAGCACTACCAGCGCACCGAGCGCGGCTTTGATTACCAGCCCCATCTTTTTACCTTAACACTTCCATAAC -AAGTCATCAGTAGAATACCTGATGAAAACTTGTTTAGAAACGATTGATAGTAAGTAAAAACAGCGCGGTGTATTGTGACG -TTTTTATATCTACCGTGAATGTTATGAACACTATCGTATTTGTGGAAGATGATGCGGAAGTCGGTTCACTGATTGCCGCG -TACCTGGCAAAACATGATATGCAGGTTACCGTAGAGCCGCGCGGCGACCAGGCCGAAGAAACCATTTTGCGAGAAAATCC -GGATTTGGTGTTACTCGACATCATGCTACCAGGCAAGGACGGCATGACCATTTGTCGTGATTTACGCGCAAAGTGGTCTG -GACCGATTGTTCTTCTAACCTCTCTCGATAGCGATATGAACCACATCCTGGCACTGGAAATGGGTGCCTGCGACTATATT -CTCAAAACGACGCCCCCTGCTGTTTTGCTAGCGCGTTTACGTTTGCATTTGCGTCAGAATGAGCAAGCCACACTGACCAA -AGGTCTTCAGGAAACGTCTCTGACTCCCTACAAAGCCCTGCATTTCGGCACGTTGACCATCGATCCCATCAACCGCGTAG -TCACCCTGGCTAACACTGAAATCTCGCTCTCGACAGCTGATTTCGAATTATTGTGGGAATTAGCTACCCATGCCGGGCAA -ATCATGGACCGCGATGCATTGCTGAAAAATTTACGCGGCGTCAGTTATGACGGACTGGATCGTAGCGTGGACGTGGCTAT -TTCGCGGTTAAGAAAAAAACTGCTCGATAACGCCGCAGAACCTTATCGCATTAAAACTGTGCGTAACAAAGGCTATCTTT -TTGCGCCTCATGCATGGGAATAAGCGATGAAAAAACTGTTTATCCAGTTTTACCTGTTATTGTTTGTCTGCTTCCTTGTG -ATGTCTCTGCTGGTTGGGCTGGTGTACAAATTTACCGCCGAACGCGCGGGCAAACAGTCGCTGGATGATTTGATGAACAG -TTCGCTGTATCTGATGCGCAGCGAATTGCGTGAGATCCCCCCACACGACTGGGGTAAAACTCTGAAAGAGATGGATTTAA -ATCTCTCTTTCGATCTGCGTGTCGAGCCACTGAGTAAATACCATCTTGATGATATTTCCATGCACCGACTGCGTGGCGGC -GAAATTGTCGCCCTGGACGATCAGTACACGTTTTTGCAGCGTATCCCGCGCAGCCACTACGTGCTGGCAGTTGGTCCTGT -TCCTTATCTTTATTATCTCCATCAGATGCGATTGCTGGATATCGCCCTGATCGCTTTTATTGCTATTTCCCTCGCCTTTC -CGGTGTTTATCTGGATGCGTCCGCACTGGCAGGATATGTTAAAACTGGAAGCAGCGGCGCAACGATTTGGCGATGGGCAT -CTCAATGAACGTATCCACTTTGATGAGGGTTCGAGCTTTGAACGACTTGGCGTCGCATTTAACCAGATGGCGGACAATAT -CAACGCCTTAATTGCCAGCAAAAAACAGCTTATTGACGGTATCGCTCACGAACTGCGAACACCGTTAGTGCGCCTGCGTT -ATCGACTGGAGATGAGCGATAACCTGAGCGCCGCCGAATCCCAGGCGTTGAATCGTGATATCAGTCAACTTGAAGCTTTA -ATTGAAGAGCTGCTGACTTATGCCCGACTCGATCGCCCACAAAACGAGCTTCATCTTAGCGAACCAGACCTGCCGTTGTG -GCTGTCAACGCATCTGGCAGATATTCAGGCAGTAACGCCCGATAAAACGGTACGGATAAAAACGCTCGTGCAAGGCCATT -ATGCGGCGTTGGATATGCGCTTAATGGAGCGCGTGCTGGATAATTTGCTCAATAACGCCCTGCGGTACTGCCATTCAACG -GTTGAAACCAGCCTGCTACTGTCGGGGAATAGAGCGACATTAATTGTTGAGGATGATGGCCCAGGGATTGCCCCAGAAAA -CCGCGAACATATCTTTGAACCTTTTGTTCGCCTCGATCCCAGCCGGGATCGCTCAACCGGCGGCTGCGGGCTGGGGCTGG -CAATTGTCCACTCTATAGCACTGGCAATGGGCGGTACGGTTAATTGTGACACCAGCGAACTGGGTGGTGCCCGCTTCTCG -TTTAGCTGGCCGTTATGGCATAACATCCCGCAATTTACCTCTGCCTGACACTACGCGCACGATGGTCAAGTCACCACGAC -TGTGCTATAAAATAAGTATGTTGTAACTAAAGTGGTTAATATTATGGCGCGTTACGATCTCGTAGACCGACTCAACACTA -CCTTTCGCCAGATGGAACAAGAGCTGGCTATATTTGCCGCTCATCTTGAGCAACACAAGCTATTGGTTGCCCGCGTGTTC -TCTTTGCCGGAGGTAAAAAAAGAGGATGAGCATAATCCGCTTAATCGTATTGAGGTAAAACAACATCTCGGCAACGACGC -GCAGTCGCTGGCGTTGCGTCATTTCCGCCATTTATTTATTCAACAACAGTCCGAAAATCGCAGCAGCAAGGCCGCTGTCC -GTCTGCCTGGCGTGTTGTGTTACCAGGTCGATAACCTTTCGCAAGCAGCGTTGGTCAGTCATATTCAGCACATCAATAAA -CTCAAGACCACGTTCGAGCATATCGTCACGGTTGAATCAGAACTCCCCACCGCGGCACGTTTTGAATGGGTGCATCGTCA -TTTGCCGGGGCTGATCACCCTTAATGCTTACCGCACGCTCACCGTTCTGCACGACCCCGCCACTTTACGCTTTGGTTGGG -CTAATAAACATATCATTAAGAATTTACATCGTGATGAAGTCCTGGCACAGCTGGAAAAAAGCCTGAAATCACCACGCAGT -GTCGCACCGTGGACGCGCGAGGAGTGGCAAAGAAAACTGGAGCGAGAGTATCAGGATATCGCTGCCCTGCCACAGAACGC -GAAGTTAAAAATCAAACGTCCGGTGAAGGTGCAGCCGATTGCCCGCGTCTGGTACAAAGGAGATCAAAAACAAGTCCAAC -ACGCCTGCCCTACACCACTGATTGCACTGATTAATCGGGATAATGGCGCGGGCGTGCCGGACGTTGGTGAGTTGTTAAAT -TACGATGCCGACAATGTGCAGCACCGTTATAAACCTCAGGCGCAGCCGCTTCGTTTGATCATTCCACGGCTGCACCTGTA -TGTTGCAGATTAACGCCCGGCTTTCATACTGCCGACCATCTGTTCTGGCCGTACCCAGCTGTCAAACTCGGCTTCGCTAA -GATACCCCAGCGCAAGGGCCGCAGCTTTTAAGGTCAGCCCTTCTTTATGCGCTTTTTTGGCGATCTCGGCGGCTTTGTCA -TAACCAATGTGGGTGTTAAGCGCAGTCACCAGCATCAGCGATTCATTGAGTAATTGATTGATTCGCTCACGATTCGGTTC -AATACCCACTGCGCAGTGTTTGTTAAAACTTTCCATGCCATCTGCCAGCAAGCGCACCGATTGCAGGAAATTGTGGATCA -CCATTGGACGGAAGACGTTCAGTTCAAAGTTACCGGAAGCGCCCCCCATGTTGATCGCCACGTCGTTCCCCATCACCTGA -CAGCAGAGCATGGTTAATGCCTCACACTGTGTTGGGTTCACTTTCCCCGGCATGATTGAGCTGCCCGGCTCATTTTCCGG -GATTGAGATTTCACCAATTCCGCAGCGCGGGCCAGAGGCCAGCCAGCGGACATCATTGGCGATTTTCATCAGTGACGCAG -CCAACCCTTTCAACGCGCCGTGCGCCTGAACCAGGGCATCACAGGTCGCCAGCGCTTCAAATTTGTTCGGCGCGGTAACA -AACGGTGCACAGGTAATGACTGCCAGTTCATCTGCTACGCGACGCGCATACTCCGGATGGGTATTTAGTCCAGTACCCAC -CGCTGTACCGCCAAGAGCCAGTTCCGCTACGTGAGGCAGGCTGTATTCGATATGTTTGAGATTATGCTCGAGCATCGCTA -CCCAGCCGGAAATCTCCTGCCCCAGCGTTAACGGCGTGGCATCCTGCAAGTGAGTACGACCAATTTTGACGATATCGGCA -AAAGCACGGGATTTCTCATTCAGTGTCTGTGTCAGGGTTTTAAGCTGAGGAATGAGTTGCTTGCGCAGCGCCAGCAGCGC -CGCAACGTGCATCGCCGTCGGAAAGACATCGTTGGAACTTTGGCTTTTGTTCACGTCGTCGTTAGGGTGAACTTTACGTT -CCATCCCGCGCACACCGCCGAGTAATTCACTGGCCCGGTTAGCCAGCACTTCGTTCATGTTCATGTTACTTTGCGTGCCG -GAGCCGGTCTGCCAGATAGCCAGCGGGAATTCGTCGTCATGCTGTCCTGCCAGTACTTCATCCGCCGCCTGACGAATGGC -GCTCGCTTTCTCTTCAGACAACAAGCCTAAATCTTCATTAACTTTTGCCGCTGCACGCTTGGTTAGCGCCAGCGCATGAA -TCAGTGAGGTGGGCATTTTCTCCGTCGAAATGCGGAAATGCTCCAGCGAGCGTTGAGTTTGTGCGCCCCACAGCTTATCT -GCCGGGACATCAATCGCCCCCATCGAATCTTTTTCGCTGCGTACTGTATTCATGACCTGCTCCTCACCTGATTAATTTTT -TCTTTCTGTTTTGCTTTCGTTAAGCAACTTTTAGCTCACTTATTATTTACCATTTGATAACAAATGTTTGGTCTTTCGTG -CCATGTAAAAAAACCGCCCCGAAGGGCGGCTCTGTTTATTTCACACAGCGGGTGCATTGTGTGAGTTGTATCTGCTGGAA -GAAGTCATTTCCTTTATCATCCACAAGGATAAACGCCGGGAAATCTTCCACTTCAATTTTCCAGATGGCTTCCATTCCCA -GTTCCGGATATTCAACACATTCCAGGCTCTTAATACTTCCCTGCGCCAATACAGCGGCCGGACCACCGATACTGCCAAGG -TAGAAGCCGCCGTGTTTTTTACAGGCATCCGTCACCTGCTGGCTGCGGTTGCCTTTCGCCAGCATGATCATACTTCCGCC -CTGCGCTTGCAGTTGATCGACATAAGAATCCATCCGTCCGGCGGTCGTTGGGCCAAGAGAACCGGAGGCATAACCTTCCG -GCGTTTTGGCCGGACCCGCGTAGTAAATCGGATGATCTTTGATGTACTGCGGCAGCCCTTCACCGTTATCCATCCGCTCT -TTCAGTTTGGCGTGAGCAATATCACGACCGACGATAATCGTGCCGTTAAGCGATAAGCGTGTAGAAACGGGATACTGCGA -CAACTGTGCGAGGATCTCTTTCATCGGACGGTTAAGGTCAACGCGCACCGCTTCGCCTTCTCCCGCTTTGCGCAGCTCTT -CCGGGATATATTTGCCTGGATTATGTTCCAGTTTTTCGATCCAGATCCCCTGACGGTTGATCTTCGCTTTGATATTACGG -TCAGCAGAGCAGGAGACGCCCATACCGACCGGGCAGGATGCGCCGTGACGTGGCAGGCGAATCACGCGGATGTCGTGAGC -GAAGTATTTACCACCAAACTGCGCACCCAGACCAAGATTTTGCGCTTCGATCAGCAATTCTTTTTCCAGTTCCACATCGC -GGAACGCCTGACCGTGCTCATTCCCTTCCGTTGGCAGTTCATCATAGTATTTCGCGGAAGCCAGTTTCACCGTTTTAAGG -TTCGTTTCTGCAGAAGTTCCACCAATAACGAACGCAATATGATACGGAGGACAGGCCGCCGTACCCAGCGTGCGCATCTT -CTCAACCAGGTAATTTTTCAGTTTCCCCGGCGTCAGTAACGCTTTGGTTTCCTGATAGAGATACGTCTTGTTTGCCGAAC -CACCACCTTTGGCGATACAGAGGAATTTGTATTCGTCGCCATCAACGGCATAAAGATCGATCTGCGCTGGCAGATTGGTG -CCGGTATTCACTTCTTTATACATATCCAGCGGCGCGTTTTGCGAGTAGCGCAGATTATCTTCGATATAAGTGTTATAGAC -ACCGCGCGCCAGCGCCGCTTCATCACCACCACCGGTCCATACACGCTGCCCTTTTTTACCAACAATAATCGCGGTGCCGG -TATCCTGACAGGTTGGCAGAACGCCTTTCGCCGCGATGTCGGAGTTACGCAGGAATTGCAGCGCCACATATTTATCATTT -TCGCTGGCCTCCGGGTCACGCAGAATGTCGGCCACCTGTTGTTGGTGCGCCGGACGCAGCATGAACGACGCATCATGAAA -CGCCTGGCGCGCCAACAGAGTTAACGCTTCGGGTGCGACTTTCAAAATCTCCTGCCCTTCAAATTCAGATACGCTAACGT -GTTCGCTGGTTAGCAGGTAATACTCAGTATCATCTTTTTTGAGTGGAAAAGGAGCCTGATAATGAAAGGGTTTGTTTGAC -ATTGTTCTCTCACTTACTGCCTGGTTTGGTTATGCTCTGGGCGGGTGTTCCGTTGCCCTGTTAAAAGCGAGTAACAATAT -CCTACACACTTTTTTAACAAAAACTGAGACTAGTACGACTTTTTGCGGCTCCAGGTTACTTCCCGTAGGATTCTTGCTTT -AATAGTGGGATTAATTTCCACATTAAAACAGGGATTGATCATGCAAAAACTCATTAACTCAGTGCAAAACTATGCCTGGG -GCAGCAAAACGGCGTTGACTGAACTTTATGGTATGGAAAATCCGTCCAGCCAGCCGATGGCCGAGCTGTGGATGGGCGCA -CATCCGAAAAGCAGTTCACGAGTGCAGAATGCCGCCGGAGATATCGTTTCACTGCGTGATGTGATTGAGAGTGATAAATC -GACTCTGCTCGGAGAGGCCGTTGCCAAACGCTTTGGCGAACTGCCTTTCCTGTTCAAAGTATTATGCGCAGCACAGCCAC -TCTCCATTCAGGTTCATCCAAACAAACACAATTCTGAAATCGGTTTTGCCAAAGAAAATGCCGCAGGTATCCCGATGGAT -GCCGCCGAGCGTAACTATAAAGATCCTAACCACAAGCCGGAGCTGGTTTTTGCGCTGACGCCTTTCCTTGCGATGAACGC -GTTTCGTGAATTTTCCGAGATTGTCTCCCTACTCCAGCCGGTCGCAGGTGCACATCCGGCGATTGCTCACTTTTTACAAC -AGCCTGATGCCGAACGTTTAAGCGAACTGTTCGCCAGCCTGTTGAATATGCAGGGTGAAGAAAAATCCCGCGCGCTGGCG -ATTTTAAAATCGGCCCTCGATAGCCAGCAGGGTGAACCGTGGCAAACGATTCGTTTAATTTCTGAATTTTACCCGGAAGA -CAGCGGTCTGTTCTCCCCGCTATTGCTGAATGTGGTGAAATTGAACCCTGGCGAAGCGATGTTCCTGTTCGCTGAAACAC -CGCACGCTTACCTGCAAGGCGTGGCGCTGGAAGTGATGGCAAACTCCGATAACGTGCTGCGTGCGGGTCTGACGCCTAAA -TACATTGATATTCCGGAACTGGTTGCCAATGTGAAATTCGAAGCCAAACCGGCTAACCAGTTGTTGACCCAGCCGGTGAA -ACAAGGTGCAGAACTGGACTTCCCGATTCCAGTGGATGATTTTGCCTTCTCGCTGCATGACCTTAGTGATAAAGAAACCA -CCATTAGCCAGCAGAGTGCCGCCATTTTGTTCTGCGTCGAAGGCGATGCAACGTTGTGGAAAGGTTCTCAGCAGTTACAG -CTTAAACCGGGTGAATCAGCGTTTATTGCCGCCAACGAATCACCGGTGACTGTCAAAGGCCACGGCCGTTTAGCGCGTGT -TTACAACAAGCTGTAAGAGCTTACTGAAAAAATTAACATCTCTTGCTAAGCTTATTAAAGGCTTATAACACCTTCAGGCG -GCCAGTCCGCCTGATTTCATTTTATGGATAATCATTATGAATAAATCGCTGGTAGCGGTAGGCGTCATTGTTGCGCTAGG -CGTAGTCTGGACAGGCGGCGCATGGTATACAGGCAAGAAGATTGAAACCCATCTCGAAGACATGGTCGCGCAGGCGAACG -CGCAACTCAAACTGACAGCTCCTGAATCCAACCTGGAAGTGAGTTATCAAAACTATCATCGCGGCGTATTCAGCAGCCAG -TTGCAACTGTTGGTGAAACCCATTGCCGGGAAAGAAAATCCGTGGATTAAAAGCGGTCAGAGCGTCATCTTCAACGAATC -GGTTGATCATGGTCCCTTCCCGCTTGCCCAGCTTAAAAAACTGAACCTGATCCCGTCGATGGCATCAATTCAAACCACGC -TGGTTAATAACGAAGTAAGCAAACCACTGTTTGATATGGCAAAAGGTGAAACGCCTTTTGAGATTAACTCGCGCATTGGT -TACAGCGGTGATTCCAGTTCCGATATTTCGCTCAAGCCACTGAATTACGAGCAAAAGGATGAAAAAGTCGCCTTTAGCGG -CGGCGAGTTCCAGTTAAATGCTGACAGAGACGGCAAAGCCATCTCCCTTTCCGGGGAGGCGCAAAGTGGTCGGATAGACG -CAGTTAACGAATACAACCAGAAAGTGCAGTTGACCTTTAATAATCTGAAAACCGACGGTTCCAGCACGCTGGCAAGTTTT -GGTGAGCGTGTAGGAAATCAAAAACTGTCACTGGAAAAAATGACCATTTCAGTGGAAGGCAAAGAACTGGCACTGCTGGA -AGGCATGGAGATCAGCGGTAAATCGGATCTGGTCAATGACGGTAAAACGATCAATAGCCAACTGGATTACTCGCTAAACA -GCCTGAAGGTACAGAATCAGGATCTGGGCAGCGGCAAGCTGACTTTAAAAGTCGGCCAGATTGATGGTGAAGCCTGGCAT -CAGTTTAGCCAGCAATATAACGCGCAAACTCAGGCGCTGCTGGCACAGCCAGAAATTGCCAACAACCCCGAACTTTATCA -GGAGAAAGTGACGGAAGCCTTCTTTAGCGCCCTGCCGCTGATGCTGAAAGGCGATCCGGTGATTACTATCGCGCCGCTAA -GCTGGAAAAACAGTCAGGGTGAAAGTGCCCTGAATCTGTCGCTGTTCCTGAAAGATCCGGCAACGACTAAAGAAGCGCCG -CAAACGCTGGCGCAGGAAGTAGATCGTTCGGTTAAATCTCTGGATGCGAAACTGACCATTCCGGTGGATATGGCAACTGA -GTTTATGACTCAGGTAGCGAAGCTGGAAGGTTATCAGGAAGATCAAGCGAAAAAACTGGCGAAACAGCAAGTTGAAGGTG -CATCAGCAATGGGGCAGATGTTCCGTCTGACCACCTTGCAGGACAATACCATCACCACCAGCCTGCAATATGCTAACGGT -CAGATAACGTTAAATGGGCAGAAAATGTCGTTAGAAGATTTTGTTGGCATGTTTGCGATGCCAGCTCTTAACGTTCCGGC -TGTACCGGCAATTCCGCAGCAGTAATTCACGGCCAAAACGCCGGAGAATTTTCACTCCGGCGTTTTCATCTGAAAACAAA -CCAGAGATTGCCTGATGCGCTACGCTTATCAGGCCTACCTTTTCCTGCAACACTTTGAATTTATGAGTTTTTGTAGGCTG -GATAAGGCGTTTACGCCGCATCCGGCATAAAAAACGCGCACTTTGTCAACAATCTGAAACGCCGGAGATTTTTCTCTCCG -GCGTTATTTTTTACTTCAGCATAAAGTCATACTGAATACTCATTTTCACATCCCAGTAATTCAGGCGATCGCCCAGCGTA -CTGCCATCGCGCTTTTCCCGCCCTTTATCGGCAGCAAGAAAGAAATTCATCCCTTGTAACGGCCCTTCGCTGACCCGATA -GTTCATACCACCTAAGATACCCGTGCCTTCAATCCGCACATCTCGTTTACTGGATTCATAGCCGCGAGTCACAATCGGTG -CAAATGTCAGCGTAAATTGCGGCGTTAAACGATAGTTGACGCCCAATTGCCAGGACTGCATTCCTTCACGGTTACGATCA -AGACTTAATGAAAAGGGATAGCCAATGTCGGTATCCACCACGGCACCATTCATTGCATGGCGCAAATAACCACCACTGCC -AAATACACTTCCCCACGGCGCATTCCAGGTCAATTGTCCACTAACCAACGCCGTTTCATTGGGCTGGCTGGTATTACGAC -TTAAACCTTCGAGCTGCGCGTAAAAGCCGAGCAACTCCCCTTTCAACGTATAATTCGGGTCGAGCGGTATGCTTTTCTCG -AGAATACTTTGTATCTGATTGGAAACATCTTTCTGTACCGATGCCCCCAGAGAATAGCGACTGGTATCATCATGCCAACT -GGCGGCTAAAAAAGAACGTGCGCGATGTTTATCGTATTTTCCCGTCTGGCTGTTATACACCCCTTCATCACGAATACCGG -TTGTTGAATCAGTCCATAAAAATACTCGTGAACGCCACATTCCCCACAGATCAATATTTGGTGTTAAAGCCCAATAACCT -AATGCTCCTTCAGAAACTGTCGGTAATGTACGTTGCGAACTGCCAGCCATTAACGGAATACGATAAGGTAAGCTACCATA -ACTATAATCCGTCCCGAAGCGACCTAATTTAAGCAGGCTATTTTCACTGGGTTTTATTTTTACTGCCCCCAGGGCAAAGC -CAAAACTTTTATCACCATCAAGATACCACCGGGTACTCATATCAGCACGAGCACCTAATTTATAAACATAATACGCCCCG -CCTTCAACGCCAATAATATTGGAATAATAACCACTATTGAAATCGAGCAATCCTCCCTGTACCCATGCGTAAATATCTCT -TCCCGCGCCAGCACTGGGCTTATCCGCCCTGCGCAATTCGTTTTTCAGTCTGATGCGTAGTCCCGCTTCATCGTCAGCCA -GTTGCGCCGCATAAGCAGAGGTAAGGCCAGAGGCAGCCGTCAGGCAAATAACGGCCATGGCCACTATTTTTCTCATAGTT -GCACCTTTGATGTTCTGATTATTTTTATTGAATATTAATTAGTGATATCGCTGATTAATTGCTGCTGCACTTTTTTACGA -TTATCAATTTCAACCACGATTTCTTTGAATTTTTTATCCGTGAGCGGATAAAACCAGATAATAACGAATGCCAGTAGCAT -AAATCCGCAAGGTACTAAGGCAATTGATGTGCGGATGCCCATAATAACTTCCGGCGTTTGCACCTGATTGGCGATATATC -CGCTTAACCCCAAAATAAAGGCAGGAATTGAACCTCCGATTGCCTGACCGCATTTACGGGTAAATGAGAATAGTGAATAG -GTGAGCCCTTCAATTCGCACGCCGGTCAGGTATTCACCGTATTCTACGGTATCAGCTTCCAGCGCCCACATCACGGTCAT -GGTAACGCCCTGACCAATTGAAGCGATGGCCAACGCAACCAACGCCACCGGCAGTGACCAGACGGAAACCCAGAAGAACA -GCAGATAACCGCAGGTTCCCAGCAAAGCGCCAATCAGGAAGGTATTCTTTTTACCGATCCTCGCGACCATCCCCGGCACC -AGCGGTGCCGATGCCACAGTACCAACCAGGTTTTGCACCAGTACCAGCACAGTGAACAGCCCGGTATCATTTAACACATA -GCGCACGTAGAACAACGACGAGGCGCTGACCGCAAAGGTCGAAATCAGCACACACAGCGCACCGATGCACAACATAAACA -GCGGGCGATTCCGTTTCAGGGTTTGCAGACTGATATTCAATGACGGCTGCGCAACGATACGTACCACATTCTCACGCGTC -GATTTGAAGCAGATGAAGTAAAGCACCATTCCGGCAATCGCCAGCACAATTGTCCAGAAATGGTATACCGACACCATCTC -TTCCGGGCTGGAGTTCTTAATGCTCGGTCCTATCAGAAATGCCAGGCAGACAAAGGTCAATGAAGCGGCAATCCCACGAG -CCGCGCCCAGACGGGCGCGGGATTGTGGTTGTTGGGTCATCGCGGTAGCAAGTGAACCATAAGGAATATTCACCAGGCTG -TAGCAAAGCCCGAGGCCCATGTAGGTCAAATATGCATACACCACTTTGCTACCATGGCTCCAGTCGGTCAGCACCCAGAA -TACCAGCACGCTGAAGATCATTAACGGCGCAGTACCGAAGAGTAAAAACGGGCGGAATTTTCCCCAGCGGGTATTCACAC -TGTCCACCACTCGTCCGGCAAAGACGTCGGCGAAGGCATCGAATACCCGCACCAGTAACAGCATGGTGCCCGCCGCAGCG -GCACCGACGCCAGCGACGTCGGTGTAGTAACTCAACAGGAAGAGCGCCCCCATTGCGAAGGCGAAGTTATTGGCGACGTC -ACCGAGGCTGTAGCCGACGATGGTGCGCCAGGAGAGTTGTTGATTCATTGTTTGCCTCCCTGCTGCGGTTTTTCACCGAA -GTTCATGCCAGTCCAGCGTTTTTGCAGCAGAAAAGCCGCCGACTTCGGTTTGCGGTCGCGAGTGAAGATCCCTTTCTTGT -TACCGCCAACGCGCAATATGCCTTGCGAGGTCGCAAAATCGGCGAAATTCCATACCTGTTCACCGACGACGGCGCTGACG -CGATCAAAGACGCGGTGATACATATCCAGCCATGCACACTGATACTCTTCACTCCACATGTCGGTGTACATTGAGTGCAG -CCCGGCTAACGTATCCACGCCGTATTCGGTGATGATAATCGGCTGATGCAGTTTCTCCTGCCAGGCCAGAAGTTCTTTTT -CCAGTACCTTCTCTGCCGTTTCCAAATCGCCGCTTTGGACATACCATCCGTAATAACGGTTCAGGCACAGCACATCAAAG -AGATCGCTGATGGTATCGGTGTGAGCGTCGCAGAACATTACATTGACGCAGGTGATCGGACGCGTCGGGTCGAGTTTACG -CGTTGCTTCCGCCAGTGGCGCGAAATATTCCCGTGCACCTTGCGGACGGGTATCCGGTTCGTTGGCAATACTCCACATCA -CCACGCTTGGGTGGTTTTTGTCACGCGCTATCAGCTCTTTAATCGCCTGTAAGTGCGCTTGCTGAGTTTCCCCGTTGACT -GCCTCTTCGCTGTACAGTTCTTTCGGCTTGTTGCCCGCTTCGAAACCAATGCCTAAAGAGAGGTTAAAGCCGACAGCAGC -AGTTTCATCAATCACCACGATGCCATGTTCATCTGCCCAGTCGAGCATCTCTTCAGCGTAAGGGTAATGCGAGGTACGGT -AGGAGTTGGCCCCAATCCAGTCCATTAATGCGTGGTCGTGCACCATCAGCACGTTATCGAATCCTTTGCCACGCAAGTCC -GCATCTTCATGACGACCAAAGCCAGTAAAGTAGAACGGTTTGTGGTTAATCAGGAACTGTTCGCCCTTCACTGCCACTGA -CCGGATGCCGACGCGAAGCGGGTAGATATCACACTCTGTCTGGCTTTTGGCTGTGACGCACAGTTCATAGAGATAACCTT -CACCCGGTTGCCAGAGGTGCGGATTCACCACTTGCAAAGTCCCGCTAGTGCCTTGTCCAGTTGCAACCACCTGTTGATCC -GCATCACGCAGTTCAACGCTGACATCACCATTGGCCACCACCTGCCAGTCAACAGACGCGTGGTTACAGTCTTGCGCGAC -ATGCGTCACCACGGTGATATCGTCCACCCAGGTGTTCGGCGTGGTGTAGAGCATTACGCTGCGATGGATCCCGGCATAGT -TAAAGAAATCATGGAAGTAAGACTGCTTTTTCTTGCCGTTTTCGTCGGTAATCACCATTCCCGGCGGGATAGTCTGCCAG -TTCAGTTCGTTGTTCACACAAACGGTGATACGTACACTTTTCCCGGCAATAACATACGGCGTGACATCGGCTTCAAATGG -CGTATAGCCGCCCTGATGCTCCATCACTTCCTGATTATTGACCCACACTTTGCCGTAATGAGTGACCGCATCGAAACGCA -GCACGATACGCTGGCCTGCCCAACCTTTCGGTATAAAGACTTCGCGCTGATACCAGACGTTGCCCGCATAATTACGAATA -TCTGCATCGGCGAACTGATCGTTAAAACTGCCTGGCACAGCAATTGCCCGGCTTTCTTGTAACGCGCTTTCCCACCAACG -CTGATCAATTCCACAGTTTTCGCGATCCAGACTGAATGCCCACAGGCCGTCGAGTTTTTTGATTTCACGGGTTGGGGTTT -CTACAGGACGTAACATAAGGGACTCCTCATTAAGATAATAATACTGGTCAACCTTTAATCTGATTAGTTAACCAATTCTG -TGTTGCACACAGTTATCTGTGAGAAACCCATGGAAGAGAAATGGAAATAAAAAGAACTGACACCGCGATCAAAAAACCAA -AAACTGCAATACCCACAGCGTGATATAGATCGCATTAATCTTTAAAACAGCGTTGACAGAAGCCATAAAATAAGCAACCG -AACGTTCGTTCGAGCGTATTGGGAACGATAAACTCTCATGACATATGGCTACAGTGAATATTTTGGGGGGAATTCTCCGA -AGCCGGGAAGGATAATTTTTGCACAGAGAAATTACGATATGAAACGCGGGCACAGTTATCACCAGCCCGCCGAAAAAGAG -AGAGAATCAGGATGCGGTTAAGATACCGCCAATCATCGCGCGTAATCCCTGAGCAAACGACGCTTCACGCGCCAGGTCTT -CCGCTTCGATATCGGCCAGTACACCGTAGGTCAGATCCAGCAGTAAACGTGAAGTCATTGCCGTGTTGATGTCTGGGCTT -ATCTCGCCTTTTTGCTGGGCATCACGCATCCGCTGGGCAACAAATTCCGTGATCGTCATATGCTTATTTTTAAGCATGGC -GGCGACCTGTGGGTTACGCATCCCTTCCGCCATAATTTCAACCACCAGCGCCCGTTGTCCAAAGGCTTCATGGGTGAGAG -AGACAATGGACTCGACCATATAGTCAACGAAATGAATCCCTTCAATCGGTTCCCGGAAACGGGCCAGCGCCCTCTCCTGG -TCCTGTAAGATAATCGCCTGAATCAAGGCTTCTTTGGAGATGAAATGGTGATAGAGCGTCCCGGGACTAATGGCGCAAGA -TTTACAGATGGCTTTCATCGAGGCACTGTGAAATCCATTTTCTGAAAAAATCTCTCTGGCAGCATTGAGGATCCGGGTCC -GTGTCGGTTGTGCTTCAGTCTGCATGTTATCCATCATTAAACCATTATAGTTAGCGTGAATAACTAGTTTACCGCGTTGT -CAGGTGAGCGCCTATCATTGCTGTTGAATAGTGCGAAGGCACACTCTATTCGTATACTTTTCACTCTGAAATTGGTTAAC -CAATAGCCGTGATTTGGCTGCCAGTTATTTAGCAGAGACGTTGATGAGTTTATCCCGGTAAACAACACGCACGGTTGTTT -ACCGGTCCGTTAGTGTATTAATTGAGCTCCTGTACCCCACCACCGGAGACGGTGAGAATTTGTCCGCTTACCCAGCTCGC -AGCAGGCGAGCAAAGGAACAGCGCTGCGTTAGCAATATCTTGCGGTTGGCCCAGACGTCTGATCGGCGTGTGCTGTAACA -TTTTTTGTTCAATTTCTGGTGTAATAACGGATTTCAGGGCATCGGTTAATATTGCCCCCGGCGCAATGCCATTTACCCGA -ATATTTTTTTCACCCAGGTCAAACGCCATATTTCTGACCAGATGACTGGCCGCAGCTTTAGATGATGCATAGGAAGTCAT -GTTTATATTTTTATTTTCTGCCGCCATAGAAGTGATGGTCAGAATAACGCCACCGCCATTTTTTTCCATTTCTGGCGCAA -CAAGTTGTGACAGATGGAAAAAAGAAAACACATTCAGTTCATAAGCACGGCGAAAATCCGCCATTGGCATATCAAACGGT -TTAGGTCCACCGCCACCGGCGTTGTTAACCAGAATATCAACTTTACCCAGCTTACTGATAGCAAAGTCTGCCAGTGCAGA -GAGTTCCTGTTCGGAAGTAATATCACAACGGCAGGCAAATGCCTGACCACCCAGTTGTTGAATTTCGTCTACAACATGGT -TAGCTGCGTCGGCGTTAATATCACTGACCACCACAGATGCGCCAGCTGTCGCGAATGTAATGGCGATTTCTTTACCAATA -CCTGCACCCGCACCTGTGATGATGGCGCATTTTCCGTCGAGTCTCAGGTTGTCAGAATTAAACACATAAACCTCCTGTGA -ACTTCAGTAAAAATAAAAGGCACCGCCTGTGTGCCACATTTTTTATCATTAACCTTGAGGAAAGGACACTACCAGGTATA -GCAGATAAAGAGAGGATTATTTCGCTGCAATGAGCCGGGCGGGAATAATAAGATTGCGTGAATGCGTCTCTTCATGGGTG -ATTTTTTGCATCATGCGATCCGCAAGTGTGATACCAAGTTCCCGCGCTGGCGTGCTGGCCCAGGTAACAGGTATATCATC -AAGTGTGGTTGGTGTCGCATCGGTAAATGCCGCCAGCGAAACCTGTTGCTCAAAGTAACGATCGACTCCGCTTTCCCCGC -TTTGCCGCCCTGCTTTGAGCAAACCAAACCATGCCCCCATCGCAATAGTTTCGTTATAGCAAACCACGGCACTGATGGTC -GGGTTATGACGTAAAAGCGCCGTGATAGCTTCCGCGGCTTGCTTCTGGCTGGAAGTGCACTCCAACACCCAATCGCTATG -AAACGGCAGGCCAAATTTTAGTAGAGTTGCACAATAGCCCCCAACCCGTTCTGCACGGGTTAATGAGGAACTTTGCCCTC -CCAGCCAGGCGATCCGCTGATGCCCATTGCGAATGAGATGCTCCGTCAACAACTGTGCAGCCTGCATGTTGTCCGGGCGA -ACCGTATCAACATCATCAAGATAACTGGCACGGGAAGCGAAAATCACCGGGATAGCTTTTTCTTCTGCCATCCGTCGCAG -GTCATCGCTACTTCCTGCAGCTCCGGCAATTACCACACCATCGACACCCTGATTCAGTAACAGTGAAAACCGCTGTGCCA -GCTGCTCACCGTCTTTACCGCCGTGAAGCAAAAAAACCATCCGTCCCTGCGCTTCCAGAGCTTCCGTCAATCCGGCCGTC -AATTCGGCGTAAAACGGCGCAGATAAATCACGGACGATCAAACCAATGACGCCGCTTTGCCCGCCGCGCAGCGCCGACGC -CTGGCGATTGCGCACAAATCCCAGCTCTTCAATGGCGGCGTTAACGCGTTCTCCTGTGGCGGTAGAGATTCGCCCTTTGC -CACTAAGCACCAGCGAAACGGTACTTACCGACACGCCCGCAGCCAGCGCAACATCATGAATGGTTATTTTTTTGGCGGTA -GCCATGCAGATGACCTACTCCCTGATTATGTGACAGATAAAACGTTTTACCTTTTATTTATCTTATACCCGCTATTATCG -TTGCGTAATGTGATTTATGCCTCACTAAAATTTGATAAAACGTTTTATCTTCTCGCGCAATTTACTGAATCCAGATTGTT -CTCTACGAGGAGTCGTTTTATGACGGCGAAAACAGCACCGAAAGTCACGCTGTGGGAGTTCTTCCAGCAGTTAGGCAAAA -CCTTCATGTTACCCGTGGCATTATTGTCGTTCTGCGGCATTATGCTCGGCATTGGTAGTTCTCTTAGCAGCCATGATGTC -ATAACCCTGATCCCGGTCCTGGGCAACCCCGTGTTGCAGGCTATCTTTACCTGGATGAGTAAGATTGGCTCGTTTGCTTT -TAGTTTCCTGCCTGTCATGTTCTGTATCGCCATCCCGCTGGGCCTGGCACGCGAAAATAAAGGCGTAGCGGCATTCGCTG -GCTTCATCGGTTATGCGGTAATGAACCTCGCGGTAAACTTCTGGTTGACCAATAAAGGCATTCTGCCAACCACGGATGCC -GCGGTTCTGAAAGCCAATAACATCCAGAGCATTCTTGGGATCCAGTCGATCGATACCGGGATCCTCGGTGCGGTGATCGC -CGGTATTATCGTCTGGATGCTGCATGAGCGTTTCCATAATATCCGCCTGCCGGATGCGCTGGCATTCTTCGGCGGTACGC -GCTTCGTACCAATTATCTCCTCGCTGGTGATGGGCCTTGTCGGCCTGGTGATTCCATTAGTCTGGCCGATTTTCGCCATG -GGTATTAGCGGCTTGGGCCATATGATAAACAGCGCGGGTGATTTCGGACCGATGCTGTTTGGTACCGGTGAACGTCTGCT -GTTGCCGTTTGGTCTGCATCACATTCTGGTGGCATTAATTCGCTTTACCGACGCAGGCGGCACGCAGGAAGTCTGCGGTC -AAACCGTCAGCGGCGCACTGACCATCTTCCAGGCGCAATTGAGTTGCCCGACCACTCACGGTTTTTCTGAAAGCGCCACG -CGTTTCCTTTCGCAAGGTAAAATGCCTGCGTTTCTCGGCGGTCTGCCAGGTGCAGCGTTAGCTATGTATCACTGCGCGCG -CCCGGAAAATCGCCATAAAATTAAAGGTCTGCTGATTTCTGGCCTGATCGCCTGCGTCGTTGGCGGCACTACCGAACCGC -TGGAATTCCTGTTCCTGTTCGTAGCGCCAGTTCTGTATGTCATCCACGCGCTGTTAACCGGCCTCGGCTTCACCGTCATG -TCTGTGCTCGGCGTCACCATCGGTAATACCGACGGCAATATCATCGACTTCGTGGTGTTCGGTATTTTGCATGGTCTGTC -AACCAAGTGGTACATGGTGCCAGTGGTGGCGGCAATCTGGTTTGTCGTTTACTACGTCATCTTCCGTTTCGCTATCACCC -GCTTCAATCTGAAAACCCCGGGGCGCGATAGCGAAGTTGCCAGCTCAATCGAAAAAGCCGTTGCCGGTGCGCCGGGTAAA -TCAGGTTACAACGTTCCTGCAATCCTCGAAGCATTAGGCGGTGCCGACAATATTGTCAGCCTCGATAACTGCATTACCCG -TCTGCGTTTGTCTGTGAAAGATATGTCGCTTGTTAATGTGCAGGCACTGAAGGACAATCGGGCAATTGGCGTAGTACAAC -TTAATCAACATAACCTGCAGGTTGTTATCGGGCCACAAGTTCAGTCAGTAAAAGATGAAATGGCCGGTCTGATGCATACT -GTCCAGGCATAAGGATAAGATATGTTCGATTTTTCAAAGGTCGTGGATCGTCATGGCACATGGTGTACACAGTGGGATTA -TGTCGCTGACCGTTTCGGCACTGCTGACCTGTTACCGTTCACGATTTCAGACATGGATTTTGCCACTGCCCCCTGCATTA -TCGAGGCGCTGAATCAGCGCCTGATGCACGGCGTATTTGGCTACAGCCGCTGGAAAAACGATGAGTTTCTCGCGGCTATT -GCCCACTGGTTTTCCACCCAGCATTACACCGCCATCGATTCTCAGACGGTGGTGTATGGCCCTTCTGTCATCTATATGGT -TTCAGAACTGATTCGTCAGTGGTCTGAAACAGGTGAAGGCGTGGTGATCCACACACCCGCCTATGACGCATTTTACAAGG -CCATTGAAGGTAACCAGCGCACAGTAATGCCCGTTGCTTTAGAGAAGCAGGCTGATGGTTGGTTTTGCGATATGGGCAAG -TTGGAAGCCGTGTTGGCGAAACCAGAATGTAAAATTATGCTCCTGTGTAGCCCACAGAATCCTACCGGGAAAGTGTGGAC -GTGCGATGAGCTGGAGATCATGGCTGACCTGTGCGAGCGTCATGGTGTGCGGGTTATTTCCGATGAAATCCATATGGATA -TGGTTTGGGGCGAGCAGCCGCATATTCCCTGGAGTAATGTGGCTCGCGGAGACTGGGCGTTGCTAACGTCGGGCTCGAAA -AGTTTCAATATTCCCGCCCTGACCGGTGCTTACGGGATTATAGAAAATAGCAGTAGCCGCGATGCCTATTTATCGGCACT -GAAAGGCCGTGATGGGCTTTCTTCCCCTTCGGTACTGGCGTTAACTGCCCATATCGCCGCCTATCAGCAAGGCGCGCCGT -GGCTGGATGCCTTACGCATCTATCTGAAAGATAACCTGACGTATATCGCAGATAAAATGAACGCCGCGTTTCCTGAACTC -AACTGGCAGATCCCACAATCCACTTATCTGGCATGGCTTGATTTACGTCCGTTGAATATTGACGACAACGCGTTGCAAAA -AGCACTTATCGAACAAGAAAAAGTCGCGATCATGCCGGGGTATACCTACGGTGAAGAAGGTCGTGGTTTTGTCCGTCTCA -ATGCCGGCTGCCCACGTTCGAAACTGGAAAAAGGTGTGGCTGGATTAATTAACGCCATCCGCGCTGTTCGTTAACCCCAA -TTGCGCAACGTAAAAAATCGTTGCGCAATCGTGGATTTTTACCCTGCTTTGTTTTTATAATGGTGCGCACTTTTATATCC -AGAAAAAGAGTGCGACCATGATTGATACCACCCTGCCATTAACTGATATCCATCGCCACCTTGATGGCAACATTCGTCCC -CAGACCATTCTTGAACTTGGCCGCCAGTATAATATCTCGCTTCCTGCACAATCCCTGGAAACACTGATTCCCCACGTTCA -GGTCATTGCCAACGAACCCGATCTGGTGAGCTTTCTGACCAAACTTGACTGGGGCGTTAAAGTTCTCGCCTCTCTTGATG -CCTGTCGCCGCGTGGCATTTGAAAACATTGAAGATGCAGCCCGTCACGGCCTGCACTATGTCGAGCTGCGTTTTTCACCA -GGCTACATGGCAATGGCACATCAGCTGCCTGTAGCGGGTGTTGTCGAAGCGGTGATCGATGGCGTACGTGAAGGTTGCCG -CACCTTTGGTGTGCAGGCGAAGCTTATCGGCATTATGAGCCGGACCTTCGGCGAAGCCGCCTGTCAGCAAGAGCTGGAGG -CCTTTTTAGCCCACCGTGACCAGATTACCGCACTTGATTTAGCCGGTGATGAACTTGGTTTCCCGGGAAGTCTGTTCCTT -TCTCACTTCAACCGCGCGCGTGATGCGGGCTGGCATATTACCGTCCATGCAGGCGAAGCTGCCGGGCCGGAAAGCATCTG -GCAGGCGATTCGTGAACTGGGTGCGGAGCGTATTGGACATGGCGTAAAAGCCATTGAAGATCGGGCGCTGATGGATTTTC -TCGCCGAGCAACAAATTGGTATTGAATCCTGTCTGACCTCCAATATTCAGACCAGCACCGTAGCAGAGCTGGCTGCACAT -CCGCTGAAAACGTTCCTTGAGCATGGCATTCGTGCCAGCATTAACACTGACGATCCCGGCGTACAGGGAGTGGATATCAT -TCACGAATATACCGTTGCCGCGCCAGCTGCTGGGTTATCCCGCGAGCAAATCCGCCAGGCACAGATTAATGGTCTGGAAA -TGGCTTTCCTCAGCGCTGAGGAAAAACGCGCACTGCGAGAAAAAGTCGCCGCGAAGTAACAAAATGGATGGTGCAAATGC -ACCATCCATTTTTCATGCAAGGCACAAAGTCGCGCGATGTTTGGCGGATTCGATGCCCAGCTCAATCAACTCCATTACCT -GGATTGCCTGGCTTGCCGGAACCGGATTTTCACCATCGCCATTTAACGCATCACGAATAGCCGCATAGTAAGCCGGATAA -TTCCCAGGCACCGTCAACAGCGTTTCTTCGACACGTTCCTCACCTTCCACGCGGGTAAGTACGCCATCACGCATATCGTA -GCCCCAGTCTTCCTGCGGTAGACGCTCGCCATTTTTCAGACGTTCTTCCTGTGGATCGAGGCCATATTTCACATAACTGC -CTCGGGATCCATGCACGATATACCGTGCTGACTCAGCGGCTGCCAGCATGGTACCGTGTAAAATGACTCGCCGCTGTGGA -TAGGACAAGATGGCGTGGAAATAATCGGTCGACTGCGCTCCGGGCCGTAACTGTGCCAAATCTACCGTCATGCTGACCGG -TAAACCAAAAAGCGTAATGGCCTGATCAAGAAGATGTGGTGCTAAATCGTACCAGATACCGCTGCCTGGGCCGCCCTGTT -CACGCCAACGATCGCGCACCTGCGGACGGAAGCGGTCAAAATGAGACTCAAAGTAAGCAACTTCACCCAGCACGCCTTCC -GCGAGTAAACCTTTTAGCGTCAAGAAATCGCTATCCCAGCGACGGTTATGGAATACAGACAGCACACGCCCCAGGCTTTT -TGCCAGCGCATCCAGCTCTCGCGCTTGTGACAGTGTCACGGTAAAGGGTTTATCAACGACCACATGTTTACCCGCCTCAA -GCGCCGCTTTGGCTAACGGGAAATGGGTATCGTTGGGTGTAGGAATGACAATCAGGTCTATGTTGGGATCGTTAAACAGA -TGCTTCGGCTCAGAGACAACCGTAACCGTTGGCCAGTCGGCTTTTACTTTTGTTTCATCACTGCTGGAGATTACCGCCAG -TTCCTGCCCGGGCGTGCCCGCAATCAGGGGCGCATGGAAGGTTTTGCTCGCATAACCATACCCAATCAACCCAACACGGA -TGTTGTCGCTCATGTCATTGCCTCTCATTGAAGTATGATGGCTATTTGACACTAAACCAGGAATTTATTATCTTGTTCGA -TGTTGTTGGTGATTGTCAGGGATAGTAAAGCGCGTTACTCTTTTCAGAGCAGTTTTTCATCCCTGAATATTTGCCATCAG -CGCATTCTTATTATTGTAATAACACAAGCGTTCACTTTTGGTGAAATTTTATCATCACTAATAATACCTACCCCTTTGGT -ATTAATTATTTTATGGACCTTTTATGACTGTTCAGGACTACTTATTAAAATTTCGCAAAATCAGTTCACTCGAAAGTCTG -GAAAAACTCTACGACCATCTTAATTACACCCTGACGGACGATCAGGAACTGATCAATATGTATCGTGCTGCCGATCACCG -TCGCGCAGAGCTGGTTTCTGGCGGGCGTTTGTTTGACCTCGGCCAGGTACCGAAGTCCGTCTGGCACTATGTCCAATAAA -GAAAGTAGCGATCGGTTATAAAAGCCTTATAATAACGCCCCTAAAATTAGATTTGCCTGTTTGCGTCGCTATTCTGGAGA -ACCTATGACCACCACAACGCCACAACGTATTGGAGGCTGGTTGCTTGGCCCGTTGGCCTGGCTTTTAGTCGCTCTGTTGA -GTACGACGCTGGCGTTGTTGCTGTATACCGCTGCGTTATCTTCTCCGCAAACATTTCAAACGCTCGGCGGACAAGCACTG -ACGACACAAATCTTATGGGGCGTTTCTTTTATTACCGCTATCGCCTTGTGGTATTACACACTGTGGTTGACCATCGCTTT -CTTTAAACGTCGGCGTTGTGTTCCTAAACACTATATTATCTGGCTGCTTATTTCCGTATTGCTGGCAGTAAAAGCATTCG -CTTTTTCACCCGTGGAAGATGGCATAGCCGTTCGCCAGTTGCTGTTTACTTTGTTGGCAACCGCATTGATCGTCCCCTAT -TTCAAACGCTCGTCGCGGGTAAAAGCGACGTTTGTGAATCCGTAATAACCTTACAGTTAACCTGTTGTCGCCTGCTCTGG -ATTAACGGATAATAGGCGGCTTTTTTATTTCAGGCCGAAAAATGACTGACTACCTGTTACTGTTTGTCGGAACTGTACTG -GTCAATAACTTTGTACTGGTCAAGTTTCTCGGTCTCTGTCCGTTTATGGGGGTTTCCAAAAAACTGGAAACCGCGATGGG -CATGGGGCTGGCAACAACGTTTGTGATGACGCTGGCGTCTATTTGCGCCTGGCTTATCGATACGTGGATTTTGATCCCAC -TTAATCTGATTTACCTGCGCACCCTGGCATTTATTCTGGTGATTGCTGTGGTCGTGCAGTTCACCGAGATGGTGGTGCGC -AAAACCAGCCCGGTGCTTTACCGTCTGCTGGGGATTTTTTTGCCGCTTATCACCACCAACTGTGCAGTGCTCGGCGTGGC -GTTGCTGAATATCAATCTCGGGCACAATTTCTTGCAGTCGGCGCTGTACGGTTTTTCCGCCGCTGTCGGTTTCTCGCTGG -TGATGGTGCTCTTCGCCGCCATCCGCGAACGCCTTGCTGTGGCTGATGTCCCGGCACCTTTTCGCGGTAATGCCATTGCG -TTAATTACCGCAGGTCTTATGTCTCTGGCCTTTATGGGCTTTAGTGGTTTGGTGAAGTTGTAATGAATGCTATCTGGATT -GCCGTTGCCGCCGTGAGCCTGCTGGGCCTGGCGTTTGGCGCCATTCTGGGTTATGCCTCCCGCCGTTTTGCGGTGGAAGA -CGATCCGGTCGTTGAGAAAATTGACGAAATCTTACCGCAGAGCCAGTGTGGTCAGTGCGGTTATCCCGGCTGTCGCCCCT -ACGCGGAAGCCATCAGCTGTAACGGTGAAAAAATCAACCGTTGCGCCCCAGGTGGCGAAGCTGTGATGCTAAAAATTGCC -GAGTTGCTTAATGTCGAGCCGCAGCCGCTGGATGGCGAAGCGCAAGAGATAACGCCTGCGCGGATGGTGGCGGTTATTGA -TGAAAATAACTGTATTGGCTGCACTAAATGTATTCAGGCGTGTCCGGTAGACGCCATCGTTGGCGCTACCCGTGCCATGC -ATACGGTAATGAGTGATCTCTGTACGGGCTGCAATTTATGTGTTGATCCGTGCCCGACGCACTGCATCTCGTTGCAACCG -GTCGCAGAAACACCTGACTCCTGGAAATGGGATCTGAACACCATTCCCGTGCGTATCATTCCCGTGGAACACCATGCTTA -AGTTATTCTCTGCATTCAGAAAAAATAAAATCTGGGATTTCAACGGCGGCATCCATCCACCGGAGATGAAAACCCAGTCC -AACGGTACACCCCTGCGCCAGGTACCCCTGGCGCAGCGTTTTGTTATTCCACTGAAACAGCATATTGGCGCTGAAGGTGA -GTTGTGCGTTAGCGTCGGCGATAAAGTATTGCGCGGCCAGCCGCTTACCCGTGGTCGCGGCAAAATGCTGCCTGTTCACG -CGCCCACCTCGGGTACCGTTACGGCTATTGCGCCCCACTCTACGGCTCATCCTTCAGCTTTAGCTGAATTAAGCGTGATT -ATTGATGCCGATGGTGAAGACTGCTGGATCCCGCGCGACGGCTGGGCCGATTATCGCACTCGCAGTCGCGAAGAGTTAAT -CGAGCGCATACATCAGTTTGGTGTTGCCGGGCTGGGCGGTGCAGGATTCCCGACAGGCGTTAAATTGCAGGGTGGCGGAG -ATAAGATTGAAACGTTGATTATCAACGCGGCTGAGTGCGAGCCGTACATTACCGCCGATGACCGTTTGATGCAGGATTGC -GCGGCTCAGGTCGTAGAGGGTATTCGCATTCTTGCGCATATTCTGCAGCCACGCGAAATTCTTATCGGCATTGAAGATAA -CAAACCGCAGGCGATTTCCATGCTGCGCGCGGTGCTGGCGGACTCTAACGATATTTCTCTGCGGGTGATTCCAACCAAAT -ATCCTTCTGGCGGTGCTAAACAATTAACCTACATTCTGACCGGGAAGCAGGTTCCACATGGCGGGCGTTCATCCGATATC -GGCGTATTAATGCAAAACGTCGGCACTGCTTATGCAGTGAAACGTGCCGTTATTGATGGCGAGCCGATTACCGAGCGTGT -TGTAACCCTGACTGGCGAAGCAATCGCTCGCCCGGGCAACGTCTGGGCACGGCTGGGGACGCCAGTGCGTCATTTATTGA -ATGATGCCGGATTCTGCCCCTCTGCCGATCAAATGGTGATTATGGGTGGCCCGCTAATGGGCTTTACCTTGCCATGGCTG -GATGTCCCGGTCGTAAAGATTACCAACTGTCTGTTGGCTCCCTCTGCCAATGAACTTGGCGAACCACAGGAAGAACAAAG -CTGCATCCGGTGTAGCGCCTGTGCTGACGCCTGCCCTGCGGATCTTTTGCCGCAACAGTTGTACTGGTTCAGCAAAGGTC -AGCAACACGATAAAGCTACCACGCATAACATTGCTGATTGCATTGAATGTGGGGCTTGCGCGTGGGTTTGCCCGAGCAAT -ATTCCCCTGGTGCAATATTTCCGTCAGGAAAAAGCTGAAATTGCGGCTATTCGTCAGGAAGAAAAGCGCGCCGCAGAAGC -CAAAGCGCGTTTCGAAGCGCGCCAGGCTCGTCTGGAGCGCGAAAAAGCGGCTCGCCTTGAACGACATAAGAGCGCAGCCG -TTCAACCTGCAGCCAAAGATAAAGATGCGATTGCTGCCGCTCTGGCGCGGGTGAAAGAGAAACAGGCCCAGGCTACACAG -CCTATTGTGATTAAAGCGGGCGAACGCCCGGATAACAGTGCAATTATTGCAGCACGGGAAGCCCGTAAAGCGCAAGCCAG -AGCGAAACAGGCAGAACTGCAGCAAACTAACGACGCAGCAACCGTTGCTGATCCACGTAAAACTGCCGTTGAAGCAGCTA -TCGCCCGCGCCAAAGCGCGCAAGCTGGAACAGCAACAGGCTAATGCGGAACCAGAACAACAGGTCGATCCGCGCAAAGCC -GCCGTCGAAGCCGCTATTGCCCGTGCCAAAGCGCGCAAGCTGGAACAGCAACAGGCTAATGCGGAACCAGAAGAACAGGT -CGATCCGCGCAAAGCCGCCGTCGAAGCCGCTATTGCCCGTGCCAAAGCACGCAAGCTGGAACAGCAACAGGCTAATGCCG -AGCCAGAACAACAGGTCGATCCGCGCAAAGCCGCCGTCGAAGCCGCTATTGCCCGAGCCAAAGCGCGCAAACGGGAACAG -CAACCGGCTAATGCGGAGCCAGAAGAACAGGTTGATCCGCGCAAAGCTGCCGTCGAAGCGGCTATTGCACGCGCCAAAGC -ACGCAAGCTGGAACAGCAACAGGCTAATGCGGTACCAGAAGAACAGGTTGATCCGCGCAAAGCGGCAGTTGCCGCGGCTA -TTGCCCGCGCTCAGGCCAAAAAAGCCGCCCAGCAGAAGGTTGTAAACGAGGACTAAATGGTATTCAGAATAGCTAGCTCC -CCTTATACCCATAACCAGCGCCAGACATCGCGCATTATGCTGTTGGTGTTGCTCGCAGCCGTGCCAGGAATCGCAGCGCA -ACTGTGGTTTTTTGGTTGGGGTACTCTCGTTCAGATCCTGTTGGCATCGGTTAGTGCTCTGTTAGCCGAAGCTCTCGTAC -TCAAACTACGCAAGCAGTCGGTAGCCGCAACGTTGAAAGATAACTCAGCATTGCTGACAGGCTTATTGCTGGCGGTAAGT -ATTCCCCCCCTCGCGCCATGGTGGATGGTCGTGCTGGGTACGGTGTTTGCGGTGATCATCGCTAAACAGTTGTATGGCGG -TCTGGGACAAAACCCGTTTAATCCGGCAATGATTGGTTATGTGGTCTTACTGATCTCCTTCCCCGTGCAGATGACCAGCT -GGTTACCGCCACATGAAATTGCGGTCAACATCCCTGGTTTTATCGACGCCATCCAGGTTATTTTTAGCGGTCATACCGCC -AGTGGTGGTGATATGAACACACTACGCTTAGGTATTGATGGCATTAGTCAGGCGACACCGCTGGATACATTTAAAACCTC -TGTCCGTGCCGGTCATTCGGTTGAACAGATTATGCAATATCCGATCTACAGCGGTATTCTGGCGGGCGCTGGTTGGCAAT -GGGTAAATCTCGCCTGGCTGGCTGGCGGCGTATGGTTGCTATGGCAGAAAGCGATTCGCTGGCATATTCCCCTCAGCTTC -TTAGTAACGCTGGCGTTATGCGCAATGTTGGGCTGGTTGTTCTCACCAGAAACACTGGCAGCACCGCAAATTCATCTGCT -GTCTGGAGCGACCATGCTCGGCGCATTCTTTATTTTGACTGACCCGGTTACCGCTTCTACGACCAATCGTGGTCGTCTTA -TTTTCGGCGCGCTTGCGGGCTTATTAGTCTGGTTGATCCGCAGTTTCGGCGGCTATCCTGACGGCGTGGCTTTTGCCGTC -CTGCTGGCGAACATCACGGTTCCTCTGATCGATTACTACACGCGTCCGCGCGTCTACGGCCATCGCAAAGGGTAAACCAT -GCTGAAAACTATCCGAAAACACGGCATTACGTTGGCGCTATTTGCAGCGGGTTCAACAGGGTTAACTGCGGCCATCAACC -AGATGACCAAAACGACGATTGCTGAACAGGCCAGTCTGCAACAAAAGGCGTTATTTGATCAGGTGCTGCCAGCCGAACGC -TATAACAATGCGCTGGCACAGAGTTGCTATCTGGTAACTGCGCCAGAGTTAGGTAAAGGTGAGCATCGGGTTTACATCGC -CAAACAGGATGACAAACCGGTAGCCGCCGTTCTGGAAGCAACCGCGCCAGATGGCTATTCCGGTGCGATTCAGCTGCTGG -TGGGAGCCGATTTTAACGGCACGGTACTTGGCACGCGCGTGACAGAGCACCACGAAACGCCAGGGCTTGGCGATAAAATC -GAACTGCGCCTTTCTGACTGGATCACCCATTTTGCGGGTAAAAAAATCAGTGGTGCAGATGATGCGCACTGGGCGGTGAA -GAAAGATGGTGGTGATTTCGACCAGTTCACCGGCGCGACGATTACTCCCCGCGCGGTGGTTAATGCGGTAAAACGCGCCG -GATTGTACGCTCAGACGTTACCGGCACAACTTTCTCAACTTCCTGCCTGTGGAGAATAAAGCGTGAGCGAAATTAAAGAC -GTTATTGTTCAGGGGTTGTGGAAAAACAACTCTGCGCTGGTCCAGTTGCTCGGCCTTTGTCCTCTGTTGGCGGTCACGTC -CACTGCCACTAACGCTCTGGGTTTAGGACTTGCGACTACGCTGGTACTGACGCTGACCAACCTGACCATTTCGACGCTGC -GTCACTGGACGCCAGCCGAGATCCGCATTCCCATTTACGTGATGATCATCGCCTCGGTGGTCAGCGCTGTACAGATGCTG -ATCAACGCCTACGCCTTTGGCCTGTATCAATCATTAGGGATTTTTATTCCGCTGATTGTCACTAACTGTATCGTTGTGGG -CCGCGCTGAAGCCTTCGCCGCCAAAAAAGGTCCGGCGCTTTCGGCACTGGACGGCTTTTCAATTGGTATGGGCGCAACCT -GCGCCATGTTCGTGCTGGGTTCACTACGCGAAATTATCGGCAATGGCACATTGTTTGACGGTGCAGATGCGCTGTTAGGT -AGCTGGGCAAAAGTATTACGCGTGGAGATTTTCCACACCGACTCCCCTTTCCTGCTGGCGATGCTGCCACCAGGTGCATT -TATTGGCCTGGGACTGATGCTGGCAGGAAAATACCTGATTGATGAAAGAATGAAAAAGCGCCGTGCTGAAGCAGCTGCAG -AACGTGCATTGCCAAACGGTGAAACAGGGAATGTCTGATGAATAAAGCAAAACGCCTGGAGATCCTCACTCGCCTGCGTG -AGAACAATCCTCATCCCACCACCGAGCTTAATTTCAGTTCGCCTTTTGAATTGCTGATTGCCGTACTGCTTTCCGCTCAG -GCGACCGATGTCAGTGTTAATAAGGCGACGGCGAAACTCTACCCGGTGGCGAATACGCCTGCAGCGATGCTTGAACTGGG -CGTTGAAGGGGTGAAAACCTATATCAAAACGATTGGGCTTTATAACAGCAAAGCAGAAAATATCATCAAAACCTGCCGTA -TCTTGCTGGAGCAGCATAATGGCGAGGTTCCGGAAGATCGTGCTGCGCTTGAAGCCCTGCCCGGCGTAGGTCGTAAAACA -GCCAACGTCGTATTAAACACTGCATTCGGCTGGCCGACTATTGCTGTCGACACGCACATTTTCCGCGTTTGTAATCGTAC -TCAATTTGCGCCGGGGAAAAACGTCGAACAGGTAGAAGAAAAGCTACTGAAAGTGGTTCCAGCAGAGTTTAAAGTCGACT -GCCACCATTGGTTGATCCTGCACGGGCGTTATACCTGCATTGCCCGCAAGCCCCGCTGTGGCTCTTGTATTATTGAAGAT -CTTTGTGAATACAAAGAGAAAGTTGACATCTGAAGAAAAGGGGTAACACCGATTACCCCATTGATAACCTTTCTTTATCC -TCTTTTAAAACATCTTTTTAACGTCAATGATGCCATTGCTTAGCGTTATCATCAGGTAATCCGTTTGCGGATAACCAAAA -ATGCAGGTTAATTGTTTTTTTAATAGCGAAATTTTCTATTCATTCGTGATCAAGATCACGATGCTGTCGCAATGTAAAAA -CATTGCAAGAATCAGGTTAAAATCATTTAAATTTACACACGCAACAAATATTGACCTACAAAACATTACACTGGCTATTT -TTCAGAAACTGGACTATCTCACTAGTAAAAACGCTAAATAGCAGAACATATCGCCGTTAAGCCATCACCCCCCTCTCAGT -GCAGTGAAAAAATCTGCCGTTACGTTTTTTGAAAAATTTAACGCTGGATAACATTTCCCGGAATGGTTGAATTCCCCGCC -TCAGTTATATGTAACAGATTATTACAAAGGACTTGTCTGAAAGTGCAAGATAGTGAACATTACCTGCCGTTTCCCCTCCC -ACTATAACAATTGCGCGTATGTTTTTTATACATAACGCGAGAAAGCACCCCCGTTAATATGGGATGTAAAAAAAGAGGTA -AAAGTGTCCACTGCAAACCAAAAACCAACTGAAAGCGTCAGTTTGAACGCTTTCAAACAACCGAAGGCGTTCTATCTCAT -CTTCTCGATTGAGTTATGGGAACGTTTTGGTTATTACGGCCTACAAGGAATTATGGCTGTTTACCTGGTTAAACAACTGG -GTATGTCTGAAGCGGATTCAATCACCCTTTTCTCTTCCTTTAGTGCCCTGGTTTATGGTCTGGTCGCTATCGGCGGCTGG -TTAGGTGACAAGGTACTGGGTACTAAACGCGTAATTATGCTCGGCGCTATTGTGCTGGCGATTGGTTATGCTCTGGTTGC -CTGGTCTGGTCACGACGCCGGTATCGTTTATATGGGTATGGCGGCTATTGCGGTCGGTAACGGCCTGTTTAAAGCTAACC -CGTCTTCTCTGCTTTCTACATGCTATGAGAAAAACGACCCGCGTCTGGACGGTGCATTCACCATGTACTACATGTCCGTC -AACATCGGCTCTTTCTTCTCTATGATTGCTACGCCGTGGCTGGCCGCGAAATACGGCTGGAGTGTTGCGTTTGCGTTGAG -CGTTGTAGGCCTGCTGATCACTATCGTTAACTTCGCCTTCTGCCAACGCTGGGTTAAACAGTACGGTTCAAAACCAGACT -TCGAGCCTATCAACTACCGTAACCTGCTGCTGACCATTATTGGTGTTGTGGCACTGATCGCTATCGCCACCTGGCTGCTG -CACAATCAGGAAGTTGCGCGTATGGCGCTGGGCGTTGTTGCCTTCGGTATCGTGGTTATCTTCGGTAAAGAAGCCTTCGC -GATGAAAGGTGCTGCGCGTCGTAAAATGATCGTTGCCTTCATCCTGATGCTCGAAGCCATTATCTTCTTCGTGCTGTACA -GCCAGATGCCAACGTCACTGAACTTCTTTGCGATTCGTAACGTTGAGCACTCCATTCTGGGTCTGGCCGTAGAACCTGAG -CAGTATCAGGCACTGAACCCGTTCTGGATCATCATCGGTAGTCCGATTCTGGCCGCTATCTATAACAAGATGGGCGATAC -CCTGCCGATGCCAACCAAGTTTGCAATCGGCATGGTGATGTGTTCTGGTGCGTTCCTGATTCTGCCGCTGGGTGCGAAAT -TCGCGTCTGACGCTGGTATCGTGTCTGTAAGCTGGCTGGTCGCAAGCTATGGCCTGCAGAGCATCGGGGAACTGATGATC -TCTGGTCTGGGTCTGGCAATGGTTGCTCAACTCGTTCCGCAGCGTCTGATGGGCTTCATTATGGGTAGCTGGTTCCTGAC -CACTGCCGGTGCAAACCTGATTGGTGGTTATGTTGCGGGTATGATGGCTGTGCCGGATAACGTTACCGATCCGCTGATGT -CACTGGAAGTCTATGGTCGCGTATTCTTGCAGATTGGTGTCGCTACTGCCGTTATTGCAGTACTGATGCTGCTGACCGCG -CCGAAACTGCACCGCATGACGCAGGATGACGCTGCAGACAAAGCGGCGAAAGCAGCCGTAGCGTAAAATTCAGGGAAACT -CTTTTACAAGCCGCTAACTTTTCGTTAGCGGCTTTTTTTTTGTTCAGCAACGCACTACCATACTTTAAACCACAGACAAA -AGGAGTTACCGATGAAATTGTTCTACAAACCGGGTGCCTGCTCTCTCGCTTCCCATATCACCCTGCGTGAGAGCGGAAAG -GATTTTACCCTCGTCAGTGTGGATTTAATGAAAAAACGTCTCGAAAACGGTGACGATTACTTTGCCGTTAACCCTAAGGG -GCAGGTGCCTGCATTGCTGCTGGATGACGGTACTTTGCTGACGGAAGGCGTAGCGATTATGCAGTATCTTGCCGACAGCG -TCCCCGACCGCCAGTTGCTGGCACCGGTAAACAGTATTTCCCGCTATAAAACCATCGAATGGCTGAATTACATCGCCACC -GAGCTGCATAAAGGTTTCACACCTCTGTTTCGCCCTGATACACCGGAAGAGTACAAACCGACAGTTCGCGCGCAGCTGGA -GAAGAAGCTGCAATATGTGAACGAGGCACTGAAGGATGAGCACTGGATCTGCGGGCAAAGATTTACAATTGCTGATGCCT -ATCTGTTTACGGTTCTGCGCTGGGCATACGCGGTGAAACTGAATCTGGAAGGGTTAGAGCACATTGCAGCATTTATGCAA -CGTATGGCTGAACGTCCGGAAGTACAAGACGCGCTGTCAGCGGAAGGCTTAAAGTAATAGCCATCGGCCCACAGGTCGTT -GTGGGCCGAAATGAGATATTTCAGAGCTTTGTTGCGCTGAAGTAATGTTCTGGTTTGGCAATACGATCCTGAGCAGCCAC -CACTTGCAGCTCATATTCCTGCATTGCTTTGGTGGTCACCATGATTTCGTAGACTGCAGCGGTCACATGTTCCAGCGCCT -CCTGCAGCGTTGCCCCCTGAAGCAGTTTCACCAGCAGTAAACCGCTCGTCACATCACCAACACCTACCGGCTGGCGCATA -CCAAAATCCACCAGCGGACGGCTGATATGCCAGGCTTCATCGGCGGTGACCAGCAGCATTTCAAAACGGTCACGGCTGTA -GCCAGCTCGCGCCAGGTGTTTAACCAACACAATTTGTGGCCCTTGCGCAATGAGTTCGCGCGCTGCCAGAACCGCTTCTT -CGACGTTATTTACCGCATGCTCACAGAGTATTTCCAGCTCAACCAGATTTGGCGCAATGATATCGCTGGCAGGCAAACCG -TGCCGCACATGAAACTCTGCGACACCCGGTGCAACGATACAGCCTTTTTCCGGATGACCCATTACCGGATCGCAAAAATA -TTTCGCCTGCGGATTCGCGGCTTTCACCTGACGGACGATACCGAGGATATGTTCACCCTGCTCCGCCGATCCCAGATAGC -CACTTAATACGGCATCACAGGTGTGTAATTTATCAATGGCGGCAATGCCTTGCACAATTTCGGTTAAATGGCTGGGCGGC -ATCACGCAGCCAGTCCATTTGCCGTATTGGGTGTGATTAGAAAATTGAACGGTGTTCAGCGGCCAGACGTTCGCGCCCAG -GCGGCGCATCGGAAACTCTGCCGCACTGTTACCCGCATGACCATAAACAACGTGAGACTGGATAGCGAGAATATTTTTCA -TCATGTTCCCTGTATAAAAACCAGGGGGAGTGATTTCTCACTCCCCCTTTCCACTTAATGCATTATTTCCAGCAAATCAG -ACAGTAATTCTTTTTACCGCGACGCAGTAAGGTAAAACGACCAAACAGACGATCTTCTTCTTTAAAGAAGTATTCAGGAT -CGGACTGTTTTTCACCGTTAATGGTGATGGCATTGGAGGCGATAGTTTTACGTGCCTGACCACGGGAAGGTTGCAGTTCA -GAATCGACCAGTGCCTGCATCAGGTCTGCGCCCTTTTCCATCTCAACCATCGGTACGCCGTCCTGCGCCAGCTGTTCGAA -GTCCGCTTCACTCAGCGCACTCAAAGAACCGCTGAACAGGCATTCGGTAATACGTTTTGCCGCCTGTAAACCTTCTTCAC -CGTGAACCAGACGAGTCACCTGCTCCGCCAGTACATACTGGGCGCGCGGTGCTTTACCGCTGTTTTTATCTTCTTCTTCC -AGGGCGTTGATCTCTTCAATGCTCATAAAGGTGAAGAACTTCAGGAAGCGGTAAACGTCGGCATCCGCAGTGTTGATCCA -GAACTGGTAGAATTTGTACGGGCTGGTTTTCTTCGGATCCAACCAGACTGCGCCGCCTTCAGTTTTACCAAATTTGGTGC -CATCTGCTTTAGTGATCAGCGGAACGGTCAGGCCAAACACCTGATTCTGATGCAGACGACGGGTCAGGTCGATACCAGAA -GTGATGTTACCCCACTGGTCAGAACCACCAATTTGCAGCACCACACCGTACTGTTTGTTCAGACAGGCGAAGTCATAACC -CTGCAACAGGTTGTAGGAAAACTCAGTGAACGAAATCCCCTGATCTTCACGGTTGAGACGCTGCTTAACCGCTTCTTTGT -TGATCATCTGGTTAACGGAGAAGTGTTTGCCAATATCGCGCAGGAAGGTCAGCACATTCATATTGCCGAACCAGTCATAG -TTGTTCGCCGCGATAGCAGAGTTTTCTCCACAGTCGAAATCGAGGAACGGGGCAACCTGCTTACGGATTTTGTCCACCCA -CTCCTGAACAGTTTCTTCGGTGTTCAGCTTACGCTCGGCAGCTTTGAAGCTCGGGTCGCCAATCAGACCCGTCGCGCCGC -CTACCAGCGCAACCGGCTTGTGGCCCGCCTGCTGGAAGCGTTTCAGGCATAACAATGGAACAAGATGCCCCAAATGCAAG -CTGTCAGCGGTAGGATCGAAGCCGCAATAGAGCGCGATCGGGCCTTGCGCCAGTCGCTCTGCTAACGCTTCCTCGTCCGT -CACCTGGGCTACCAGCCCCCGCTCTTGCAATTGTTTAATCAAGTTACTGCTTGCCATCAAAATCTCCATGTATATAACGA -CTGCACCTTTGCCGGTACACGACTTTTCGCCAGATGCGAAAGAGACATAGAATAAAGTGCCAGAATCAGGAGTACCAGCG -ATTAAAGCAAGATTTTTGCATCTTTTCAGGGTGCAAGACGATCAATCTTCCACGCATCATTTTCACGCTGGTACAAAAAG -CGGTCATGCAGGCGATGCTCACCACCCTGCCAGAACTCAATCTGTTCAAGGCTGACGCGAAAACCGCCCCAAAAGCTCGG -CAATGGCACTTCGCCCTGTTGAAACTTCTGCTTCAGCTCCAGGAATTTACTTTCAAGGATACCGCGGGCAGAAATGCGAC -TGGACTGCTTCGAAACCCATGCACCAATCTGGCTATCACGCGGGCGGCTATGAAAATATTTCATCACTTCGAGAGTCGAA -AGTCGTTCTGCTTTACCGATCACCATCACCTGGCGCTCAAGGGTATGCCACGGGAACAGCAGGCTAACGCGCGGATTATT -TTCGATTTGATGTGCTTTACGGCTGCCGAGGTTGGTGTAAAACACCATGCCTTTTTCGTCGTAATGTTTGAGTAAAACGA -TGCGCTGATAAGGCTGACCATGTTCATCCACGGTAGCGACCACCATCGCGGTAGGGTCCGCCAGTTTGGCTTCACAAGCC -TGAGAGAGCCAACGTTCAAAAAGGGTTAATGGATCGGCGGGAAGATCGCGGCGGCGTAACCCGCCTTTGGTGTATTCACG -GCGCAGATGCGCGATTTGCTGCAATTCGTCGTTATCAGACATGGTTTTCTTTACGGATTGTCAGTGGGTGACGCTATTGT -GCGCCGCCCCTGGAAAAATCTCAACGCTGTGGATTTTGTAACTGACAGTTATTCAAGACGATGCGGTCGCGTTTATAGAC -AGTCGCTTCATCGCCTTTCGACCAGAAAACATAGATTCCGTCAGTGTAACGCGCGCCAGAGGCTGAAATGCCCTGTTTGA -GATGCAGTAGTTGATTATCGTAAACAAAACTGACCTCCTGGCGCGGATTATTCAGTTTGACCGTCAACGGTTTTTCATCA -CACTGGTATTCCAGCGTATCGGTTTGCATGCGCTCAACCAGCTGATTAAAGGCGCTACAGCCGGAGAGAAGGACCGGCAA -AATGATAATTAACAGTTTTTTCATAGTCATATCCCGAAGACTTTCCTGGTCTGGAGGGCAATACGCCCTCCCTAACGTTC -CAAGTGTAACGGCAGACGCGGTAAGAAAAATTCAGTTAACTCTGATATCACGGGTTAGCGGGGAAAATAGCCCCCAGTAC -CGTCTCCTGGCTTGCGCCAGTGACGGAAGGCAGATTTCCTGGTAATCCCGCCAGCGTCCGCCAGGCAAGCCAGGCGAAAG -CCAATGCTTCCATGTCATCGCCACTAATGCCAACGGCATCGGTGGTGGTGACTTCTGTGCCTGGCAGTAATGCCGCCAGA -CGCGCCATGAGTAGCGGATTACGACTACCTCCACCACATACCATCAATCGTTCGCAGCCACCGCTCAACAAAACTTGTTC -AGAAATGGTCACGGCGGTGAGTTCTGCCAGTGTCGCCTGCACATCTCGGGGATCAACACCCGGAAAATGGCGCAAATGGC -GCTCCAGCCAACCATAGTTAAAGTATTCGCGTCCGGTGCTTTTCGGTGCAGGTTGCGAGAAATACGGGTCGCTGAGCATA -TTTTGCAGCAGTGGGAGAATAACTTTACCCGCCCGTGCCCACTCGGCATCTTTATCGTAAGGTTTACCGGCCTGACGCCA -GATCCAGGCATCCATCAGCATGTTACCAGGACCGGTATCGTAGCCCCCAACCGGCTGCCCAGGAATGAGCAGTGACAGAT -TGGCGATGCCGCCAATATTGAGCACCATTCGTCGCTCGGTTGGGTGAGCCAGCAGCGCATGATGGAACGCAGGTACCAGC -GGTGCGCCTTGTCCTCCCAAGGCAATATCGCGACGGCGAAAATCACCGACAACCGTAATTCCGGTGCGTGCCACAATTTG -ATTGTTATCGCCAATCTGTAAAGTGTGTGGTGCCACGCCCGTCGGTTCATGCCAGACGGTTTGACCGTGACAACCGATCG -CAACTATATCTCTTGCCTGCAGATTTTGTTCCTTAAGCAAGGCATTGACCGCATCAGCAAAAAGTTGCCCGAGTTGAGTA -TCAAGCTGTCCAAACTGCGAAAGTGTAAGCTGCTGGCCCTGGCAAATATCCAGTACAGCCTGTTTCAGAGATACCGGGAT -CGGCCAACTCAAACTTGCCAGCTGTGCGACCCGGTGTTCATCAATTGTCGCCAACACAACATCAACACCATCAAGGCTGG -TGCCTGACATAACGCCAATAAAGCGGCCCGATTTCATAGTTCATCCTTTTTCAATCTGACGTTTGCGCACCACTCAAACA -TAAACTTTTCGTGAATACCATGCGGAATGACCGATTTTTACCGTTGGTAGTAAAACATTATCTTCAAATCAATAATCATC -ATGAATGTTTTGTTTATAATTGGTTGATCCTACTTTCATTATGATTTGCTCATATTTGGTAGAACATGTAACCATGGATT -CACATATGCCATATACTTTGACCATGAGGGATGCTTGCGTGGCGTTTCATGGTGAACAGGAGATTTTTCAATGATTAAAC -GCGTATTGGTTGTTTCAATGGTAGGTCTGTCTCTTGTCGGTTGTGTTAATAACGACACCCTGTCAGGGGATGTTTATACC -GCTTCTGAAGCGAAACAAGTACAGAATGTCAGCTATGGCACCATCGTTAACGTACGTCCGGTACAGATTCAGGGCGGTGA -TGATTCCAACGTTATCGGTGCAATTGGCGGTGCTGTTCTTGGTGGTTTCCTGGGGAATACTGTTGGTGGCGGAACCGGGC -GTTCTCTGGCTACTGCAGCAGGCGCTGTTGCAGGTGGCGTAGCTGGTCAGGGCGTACAGAGTGCAATGAACAAAACGCAG -GGTGTCGAGCTGGAAATTCGTAAAGACGATGGTAATACCATCATGGTGGTACAGAAACAAGGCAACACTCGTTTCTCTCC -GGGCCAACGTGTCGTACTGGCCAGCAATGGCAGTCAGGTGACCGTTTCTCCGCGCTAAATAAGTTTGCGTGTGGTCAGGT -TACTGACCACACGCCCCCTTCATTTCACCCTTTGGCCTGTAACTCAATGATATTATGCTCAAGTTTTGCGATGAGCGTAA -TCAGTTGCTCCAGTTCCTCTGCGGAGATGCCATGTAATATTTCCGCGCGGGTTTTGTTAATAACAGCTTCCATTTCGCTG -ATCAGCGGCTCTGCCTTTTCCGTCAGTTTAATACGTTTAGCCCGACGATCGCTGGCACAAGTTTGACGCGAAATTAACCC -TTTTTCTTCCAGTTGGTCCAGAGTACGGACCAGTGATGGCTGCTCGATGCCAATCGCTTTTGCCAGTTGAATTTGCGACT -GGTCTGGAGGTAACTGATGGATATTGTGTAACGTAACCCAATGGGTTTGTGTTAACTCCAGCGGTTTCAGGCGATGGTCT -ATCAGAGCACGCCATATGCGCACCAACCGTGCCAGATCAGAACCTAGTGGCGATTCCAATTTCATCTCCTTATAATTAGC -TTGCTAAGATATTATGCGGCTTTTAGAATAGTGTGCAGCAATTGTATTGCTAAAACAAATGTATTGCTGCATTTGGTTAC -CGTCAGACATATTTTTCAGAAATTGCGCGTAAATTTTTCGCACTTAAAGAATATTTATTAATCTAACGCAATATATTCGG -TCGTAAAGGAATCTACTTTGTGAAGTTTATGCTCAATGCAACAGGATTGCCCTTACAAGATCTGGTGTTCGGTGCGTCCG -TCTACTTTCCTCCGTTTTTCAAAGCATTCGCGTTTGGATTCGTCATCTGGTTTGTCGTACACCGCCTGCTTCGTGGCTGG -ATCTACGCCGGTGACATCTGGCATCCCTTGTTAATGGATTTATCGCTGTTTGCGATTTGCGTTTGCCTTGCTCTGGCAAT -ACTGATTGCGTGGTAACTATGTCAATTAAAACAATTAAGTATTTCTCAACAATCATTGTAGCGGTAGTTGCGGTTCTTGC -CGGATGGTGGCTGTGGAATTATTACATGCAATCTCCGTGGACACGCGACGGGAAAATACGCGCAGAACAGGTTTCTATCA -CCCCACAGGTGTCGGGACGTATTGTTGAGCTGAATATAAAAGACAACCAGCTGGTTAACGCGGGGGATCTTCTGCTCACG -ATCGATAAAACGCCCTTTCAGATCGCCGAGCTGAACGCACAGGCTCAGCTGGCGAAAGCGCAATCTGACCTCGCAAAAGC -CAATAACGAAGCGAATCGTCGTCGTCATCTCTCACAAAATTTTATTTCTGCCGAAGAACTCGATACCGCTAACCTCAATG -TTAAAGCGATGCAGGCCAGTGTTGATGCCGCACAGGCGACGCTGAAACAGGCACAATGGCAACTGGCGCAAACGGAAATT -CGCGCCCCGGTGAGTGGATGGGTGACTAACCTTACTACCCGCATCGGCGATTACGCTGATACCGGGAAACCGCTGTTTGC -CCTTGTCGACAGCCACTCGTTTTACGTCATTGGTTATTTTGAAGAAACCAAGTTGCGCCATATCCGCGAAGGTGCACCAG -CACAAATTACCCTCTATAGTGATAACAAAACGTTACAGGGTCACGTTTCCAGTATCGGTCGGGCGATTTATGATCAGAGC -GTTGAAAGTGACTCAAGCCTTATTCCGGATGTTAAACCTAACGTCCCCTGGGTTCGACTCGCCCAACGCGTTCCCGTCCG -CTTTGCGCTGGATAAAGTCCCAGGCGATGTCACGTTGGTGTCGGGCACCACCTGTAGCATTGCCGTAGGTCAATAATGAA -CGCATCGTCATGGTCCTTGCGCAATTTGCCCTGGTTCAGGGCCACGCTGGCGCAATGGCGTTATGCGTTACGCAATACCA -TTGCCATGTGTCTGGCGCTGACGGTTGCCTATTATTTAAATCTGGATGAACCCTATTGGGCGATGACCTCGGCTGCAGTG -GTTAGCTTTCCCACCGTTGGCGGTGTTATCAGCAAAAGCCTCGGACGCATCGCTGGCAGTTTGCTCGGAGCCATTGCGGC -ACTGCTTCTTGCCGGGCATACGCTCAATGAGCCGTGGTTTTTTCTATTGAGCATGTCGGCGTGGCTTGGCTTTTGTACCT -GGGCCTGTGCGCACTTCACGAATAACGTCGCGTATGCATTTCAACTGGCGGGCTACACGGCTGCCATCATCGCCTTTCCG -ATGGTTAATATTACTGAGGCCAGCCAGCTGTGGGATATCGCTCAGGCGCGCGTTTGCGAGGTAATAGTCGGTATTTTGTG -CGGCGGCATGATGATGATGATCCTGCCGAGCAGTTCCGATGCTACTGCCCTTTTAACCGCATTGAAAAACATGCACGCCC -GATTACTGGAACATGCCAGTTTACTCTGGCAGCCTGAAACAACCGATGCCATTCGTGCAGCACATGAAGGGGTGATTGGG -CAGATACTGACCATGAATTTGCTGCGTATCCAGGCTTTCTGGAGCCACTATCGTTTTCGCCAGCAAAACGCGCGCCTTAA -TGCGCTGCTCCACCAGCAATTACGTATGACCAGTGTCATCTCCAGCCTGCGACGTATGTTGCTCAACTGGCCCTCACCGC -CAGGTGCCACACGAGAAATTCTCGAACAGTTGCTGACGGCGCTCGCCAGTTCGCAAACAGATGTTTACACCGTCGCACGT -ATTATCGCCCCGCTACGCCCGACCAACGTCGCCGACTATCGGCACGTCGCCTTCTGGCAGCGACTACGTTATTTTTGCCG -CCTTTATCTGCAAAGTAGTCAGGAATTACATCGTCTGCAAAGCGGTGTAGATGATCATACCAGACTCCCACGGACATCCG -GCCTGGCTCGTCATACCGATAACGCCGAAGCTATGTGGAGCGGGCTGCGTACATTTTGTACGTTGATGATGATTGGCGCA -TGGAGTATTGCTTCGCAATGGGATGCCGGTGCCAATGCATTAACGCTGGCAGCAATTAGCTGCGTACTCTACTCCGCCGT -CGCAGCACCGTTTAAGTCGTTGTCACTTCTGATGCGCACGCTGGTGTTACTTTCGCTATTCAGCTTTGTGGTCAAATTTG -GTCTGATGGTCCAGATTAGCGATCTGTGGCAATTTTTACTGTTTCTCTTTCCACTGCTGGCGACAATGCAGCTTCTTAAA -TTGCAGATGCCAAAATTTGCCGCATTGTGGGGGCAACTGATTGTTTTTATGGGTTCTTTTATCGCTGTCACTAATCCCCC -GGTGTATGATTTTGCTGATTTTCTTAACGATAATCTGGCAAAAATCGTTGGCGTCGCGTTGGCGTGGTTAGCGTTCGCCA -TTCTGCGTCCAGGATCGGATGCTCGTAAAAGCCGCCGCCATATTCGCGCGCTGCGCCGGGATTTTGTCGATCAGCTAAGC -CGCCATCCAACACTGAGTGAAAGCGAATTTGAATCGCTCACTTATCATCACGTCAGTCAGTTGAGTAACAGCCAGGATGC -GCTGGCTCGCCGTTGGTTATTACGCTGGGGTGTAGTGCTGCTGAACTGTTCTCATGTTGTCTGGCAATTGCGCGACTGGG -AATCGCGTTCCGATCCGTTATCGCGAGTACGGGATAACTGTATTTCACTGTTGCGGGGAGTGATGAGTGAGCGTGGCGTT -CAGCAAAAATCACTGGCGGCCACACTTGAAGAATTACAGCGGATTTGCGACAGCCTTGCCCGTCATCATCAACCTGCCGC -CCGTGAGCTGGCGGCAATTGTCTGGCGGCTGTACTGCTCGCTTTCGCAACTTGAGCAAGCACCACCGCAAGGTACGCTGG -CCTCTTAATTACTTAATTACACCACAGGCATAGCGTTCACCGCCACCGCCCAGCGGTTTAGGTTGATCGGACATATTATC -GCCGCCAACGTGGACCATCAGCGCTTTGTCTTTGATTTCATCCAGTGATTTCAGACGAGGCGCGATGACGGCATCGGTAG -CTTTGCCGTCATTATTGACGACCAGTGCAGGCAGATCGCCTAAATGCCCGGCACCTTCTGGCCCTTCATGTTTACCGGTA -TTTTGTGGATCAAGATGCCCGCCTGCGGATTCCGCGGCGCTGGCTTTGCCATCTTTGGTGGCTGGCTGGCAGCTTCCTTT -GGCATGAATATGGAAGCCATGTTCACCGGGGGGTAATGCTTTCAGATCGGGCGAAAACTCCAGACCTTTATCGGTTTCAG -TAATGGTGACGCTACCAATTGACTGCCCTACCCCTTGCGACGTGACGAGGTTCATCTCGACTTTTTCACTGGCAGCTTGT -GCGCCGGTTGCAACAACCAGCGCCAGAATAGCCAGACTAAAACGTTTCATAGGACCTCCGTTCATTGTGCATTCCTGAAT -AAGTGTAAACCAGTGACACATTTTTGAACGGCGGCTATTCCTAAAAGTGCTTACGGTACGTCGTACCCCAGTGCCGCTTT -ACGGATACGAAACCATTGTTGACGGGTCATTTTCAGTGTTTCTGCTTCGACAGCTGCCCGTACGCGCTCAATTTTACCTG -AACCGATAATTGGCAGCGGCTGCGATGGTAAACGTAATACCCAGGCGTAAACCACCTGTTCAATCGAGCCCGCGTTTAAC -TCCTCTGCCACCACAGCCAGTTCATCACGCAGCGGCTGGAAATAATCATCATTAAACAGACGACCACCACCAAGGCAGGA -CCACGCCATCGGACGAACACGCAGTTGTTGTAGTTGGTCGAGCGTGCCATCCAGCAGTAACGGCTGATGCACCGGGGATA -TTTCCACCTGATTAGTGGCAAGGGTAAACGGCAGACGTGATTGCAACAGGGCAAATTGCGCAGGCGTAAAGTTCGATACG -CCAAAATGACGCACTTTGCCGCTCTGATGCAGATGTTTGAACGCGTCCGCCACTTCATCGGCATCCATTAACGGGTCTGG -TCGGTGGATTAACAGCAAATCCAGATGATCGGTCGCGAGATTAATTAGCGACTGTTCGGCGCTCTTAATGATGTGATCGC -GGTCAGTGATGTAATGACCAATGACGTTTTCTTCACGCGCGGTCGTCGCGATACCGCATTTACTGACGATTTCCATCCGT -TCACGCAGGTGAGGTGCCAGTTTCAGTGCCTCGCCAAACGCCGCTTCGCACTGATAGCCACCATAAATATCAGCATGGTC -CACGGTGGTCACGCCGAGATCCAGATGCTCTTCAATAAAACTGACCAGCTGGCGGGCGGACATATTCCAGTCCATCAATC -GCCAGTAGCCCATCACAAAACGGGAAAACTCCGGGCCTTGCGGCGCAATAGTAATACGCTGAACCATAATCGCTTCCTCT -TATCAGATATGAGAGGAGTATACGCAAGATTAGGTTCAAAAGAGTGATGGTTGCTCCGGTTCGTCTGATGACGCTGGCTT -ATTTGCGCGTAATTTGCGCATTAATCGCTGCCGACAAAGGCGCAGCACCTCTTGTTTTTCGCCATCGCTCATTTTATTCC -AGTTAAAACGCTCATCACGACTACGAAAACAGCCGCGACAAAACCCGCGTTCGTCAGACTGGCAAATTCCCCGGCACGGG -CTCTGGACGGGAAAGAACTCTAATTGCTCCGCCACTTCGCCCTCCTCAGATAAGATTATTACCATTATTGAAGCTGTTAA -TGTCCAAAGTAGCAACTTTGCTTGCACTAGACCGACTGGTCTACTACACTCCAACGCATGAACAAACACACCGAACATGA -TACTCGCGAACATCTCCTGGCGACGGGCGAGCAACTTTGCCTGCAACGTGGATTCACCGGGATGGGGCTAAGCGAATTAC -TAAAAACCGCTGAAGTGCCGAAAGGGTCCTTCTATCACTACTTTCGCTCTAAAGAAGCGTTTGGCGTTGCCATGCTTGAG -CGTCATTACGCCGCATATCACCAGCGACTGACTGAGTTGCTGCAATCCGGCGAAGGTAACTACCGCGACCGCATACTGGC -TTATTACCAGCAAACACTGAACCAGTTTTGCCAACATGGAACCATCAGTGGTTGCCTGACAGTAAAACTCTCTGCCGAAG -TGTGCGATCTGTCAGAAGATATGCGCAGCGCGATGGATAAAGGTGCTCGCGGCGTGATCGCCCTGCTCTCTCAGGCGCTG -GAAAATGGCCGTGAGAACCATTGTTTAACCTTTTGTGGCGAACCGCTGCAACAGGCACAAGTGCTTTACGCACTGTGGCT -TGGCGCGAATCTGCAGGCCAAAATTTCGCGCAGTTTCGAGCCACTGGAAAACGCGCTGGCCCATGTAAAAAACATTATTG -CGACGCCTGCCGTTTAGCAGGCATTTTTTATCACCAGACGACCGGGAGCCTTTATGTCATCTGAAAAACTGTATTCCCCA -CTGAAAGTGGGCGCGATCACGGCGGCAAACCGTATTTTTATGGCACCGCTGACGCGTCTGCGCAGTATTGAACCGGGTGA -CATTCCTACCCCGTTGATGGCGGAATACTATCGCCAACGTGCCAGTGCCGGTTTGATTATTAGTGAAGCCACGCAAATTT -CTGCCCAGGCAAAAGGATATGCAGGTGCGCCTGGCATCCATAGTCCGGAGCAAATTGCCGCATGGAAAAAAATCACCGCT -GGCGTTCATGCTGAAAATGGTCATATGGCCGTGCAGCTGTGGCACACCGGACGCATTTCTCACGCCAGCCTGCAACCTGG -CGGTCAGGCACCGGTAGCGCCTTCAGCACTTAGCGCGGGAACACGTACTTCTCTGCGCGATGAAAATGGTCAGGCGATCC -GTGTTGAAACATCCATGCCGCGTGCGCTTGAACTGGAAGAGATTCCAGGTATCGTCAATGATTTCCGTCAGGCCATTGCT -AACGCGCGTGAAGCCGGTTTTGATCTGGTAGAGCTCCACTCTGCTCACGGTTATTTGCTGCATCAGTTCCTTTCTCCTTC -TTCAAACCATCGTACCGATCAGTACGGCGGCAGCGTGGAAAATCGCGCACGTTTGGTACTGGAAGTGGTCGATGCCGGGA -TTGAAGAATGGGGTGCCGATCGCATTGGCATTCGCGTTTCACCAATCGGTACTTTCCAGAACACAGATAACGGCCCGAAT -GAAGAAGCCGATGCACTGTATCTGATTGAACAACTGGGTAAACGCGGCATTGCTTATCTGCATATGTCAGAACCAGATTG -GGCGGGGGGTGAACCGTATACTGATGCGTTCCGCGAAAAAGTACGCGCCCGTTTCCACGGTCCGATTATCGGCGCAGGTG -CATACACAGTAGAAAAAGCTGAAACGCTGATCGGCAAAGGGTTAATTGATGCGGTGGCATTTGGTCGTGACTGGATTGCG -AACCCGGATCTGGTCGCCCGCTTGCAGCGCAAAGCTGAGCTTAACCCACAGCGTGCCGAAAGTTTCTACGGTGGCGGCGC -GGAAGGCTATACCGATTACCCGACGTTGTAATCCAACATTGCGAGCGGCGTAAAGCCGCCGCTATACTAAAACAACATTT -TGAATCTGTTAGCCATTTTGAGGATAAAAAGATGCGTCTTCTTCATACCATGCTGCGCGTTGGCGATTTGCAACGCTCCA -TCGATTTTTATACCAAAGTGCTGGGCATGAAACTGCTGCGTACCAGCGAAAACCCGGAATACAAATACTCACTGGCGTTT -GTTGGCTACGGCCCGGAAACCGAAGAAGCGGTGATTGAACTGACCTACAACTGGGGCGTGGATAAATACGAACTCGGCAC -TGCTTATGGTCACATCGCGCTTAGCGTAGATAACGCCGCTGAAGCGTGCGAAAAAATCCGTCAAAACGGGGGTAACGTGA -CCCGTGAAGCGGGTCCGGTAAAAGGCGGTACTACGGTTATCGCGTTTGTGGAAGATCCGGACGGTTACAAAATTGAGTTA -ATCGAAGAGAAAGACGCCGGTCGCGGTCTGGGCAACTAATCTCCTGCCGGGCGTGAACTCATCGCGCCCGCATCTTTACT -GCATCGACAAGTAATATTTGTCATAATGCGCGCTGCAATTTATCCGTATTAAGAGAATCAGATGTCCGATAACGCTCAAC -TTACCGGTCTGTGCGACCGTTTTCGTGGTTTTTATCCTGTTGTGATCGATGTTGAAACAGCCGGATTTAACGCCAAAACC -GATGCGCTGCTTGAGATTGCCGCCATCACCCTGAAAATGGATGAACAAGGCTGGCTGATGCCGGACACCACATTACATTT -CCACGTCGAACCATTTGTCGGCGCAAATTTGCAACCAGAAGCCCTCGCCTTCAACGGCATTGACCCGAACGATCCCGATC -GCGGCGCGGTCAGCGAATACGAGGCGCTGCACGAAATTTTTAAAGTTGTACGTAAAGGTATTAAAGCGAGCGGCTGTAAC -CGCGCCATTATGGTGGCGCACAATGCCAATTTTGATCACAGCTTTATGATGGCCGCCGCAGAACGCGCCTCACTGAAACG -TAACCCGTTCCACCCTTTCGCCACTTTTGACACTGCTGCACTGGCCGGGCTGGCACTCGGACAAACCGTATTGTCAAAGG -CTTGCCAGACCGCTGGCATGGACTTCGACAGCACCCAGGCGCACTCCGCGCTGTACGACACCGAACGCACTGCTGTGCTG -TTTTGTGAAATCGTCAACCGCTGGAAACGTCTGGGAGGCTGGCCGCTATCTGCCGCCGAAGAGGTGTAATCGAGTCGATG -CCTGATGACATGCAATGATTCAGGCATCTATAGTGAGGCTATTCCACGCATCCTGCATGATATTCACGGGGAATAGCGTT -AATGGCAGATAATCCAGACCCTTCATCGCTCCTGCCGGACGTGTTTTCACCGGCGACCCGCGACTGGTTTCTTCGCGCCT -TTAAACAGCCGACCGCTGTCCAGCCGCAAACCTGGCATGTGGCGGCGCGAAGCGAACATGCGCTGGTGATTGCACCGACC -GGCTCCGGGAAAACGCTGGCAGCATTTCTCTACGCCCTCGATCGGCTCTTCCGCGAAGGCGGCGAAGATACCCGCGAGGC -GCATAAGCGTAAAACCTCACGCATCCTCTATATTTCACCGATAAAAGCCCTGGGCACCGACGTTCAGCGCAACTTGCAGA -TCCCGTTGAAGGGTATTGCCGATGAACGGCGGCGGCGCGGCGAAACGGAAGTCAATCTTCGCGTAGGGATCCGTACTGGC -GATACGCCTGCACAGGAACGCAGCAAACTCACCCGTAATCCGCCGGATATTCTGATCACCACACCCGAATCACTCTATCT -GATGCTGACCTCCCGCGCGCGCGAAACGCTACGCGGCGTCGAAACGGTAATTATTGATGAAGTCCACGCGGTAGCGGGCA -GTAAACGTGGTGCGCATCTGGCGTTAAGTCTGGAGCGGCTCGATGCGCTGCTCCACACCTCAGCACAGCGAATTGGCCTT -TCTGCCACTGTGCGCTCAGCCAGCGATGTGGCAGCATTTCTTGGTGGCGATCGCCCGGTTACGGTAGTCAACCCGCCCGC -AATGCGCCATCCGCAGATACGAATTGTCGTACCGGTCGCCAATATGGATGATGTCTCATCGGTCGCCAGCGGCACCGGCG -AAGACAGCCATGCCGGCCGGGAAGGCTCCATCTGGCCATATATTGAAACGGGTATCCTTGATGAAGTGTTGCGCCATCGC -TCGACCATTGTCTTTACTAATTCGCGGGGGCTGGCGGAAAAACTGACGGCACGATTAAATGAGCTTTACGCCGCACGCTT -ACAGCGTTCCCCGTCTATCGCCGTTGATGCGGCCCATTTCGAGTCGACCTCCGGCGCAACCTCTAACCGTGTACAAAGTA -GCGACGTTTTTATTGCCCGCTCACACCACGGCTCCGTCTCTAAAGAACAACGAGCAATCACCGAACAGGCGCTGAAATCG -GGTGAATTACGCTGCGTGGTCGCAACCTCCAGTCTTGAACTGGGGATTGATATGGGCGCGGTGGATCTGGTGATTCAGGT -GGCAACGCCGCTTTCTGTTGCCAGTGGGTTACAACGCATTGGTCGCGCCGGACATCAGGTTGGCGGTGTATCTAAAGGGC -TGTTTTTCCCCCGTACCCGGCGTGATTTAGTCGATTCCGCAGTCATTGTAGAGTGTATGTTCGCAGGCAGGCTGGAAAAC -CTGACACCACCGCATAATCCTCTCGACGTCCTTGCGCAGCAAACCGTTGCCGCCGCGGCGATGGATGCATTACAGGTAGA -CGAATGGTACTCCCGCGTACGCCGTGCCGCACCGTGGAAAGATCTGCCAAGACGTGTTTTTGACGCCACGCTGGATATGC -TTTCCGGGCGCTATCCCTCTGGCGATTTTTCTGCTTTTCGCCCCAAACTGGTCTGGAACAGGGAGACCGGGATATTGACC -GCCCGACCTGGCGCTCAATTGTTGGCGGTTACCAGCGGCGGCACCATTCCGGATCGTGGCATGTATAGCGTGTTATTACC -CGAAGGTGAAGAAAAGGCCGGTTCGCGGCGGGTGGGTGAACTGGATGAGGAGATGGTATATGAGTCGCGGGTGAACGACA -TTATCACTCTCGGCGCTACCTCATGGCGGATCCAGCAAATCACCCGCGATCAGGTGATTGTGACTCCTGCTCCGGGTCGT -TCTGCCCGGCTCCCCTTCTGGCGTGGTGAAGGTAACGGACGTCCGGCTGAATTAGGCGAGATGATCGGCGATTTTCTTCA -TTTGCTGGCGGATGGCGCGTTCTTTTCCGGGACTATTCCCCCGTGGCTGGCAGAAGAAAATACGATCGCCAATATTCAGG -GGTTGATTGAGGAGCAGCGCAACGCGACGGGCATCGTTCCGGGGAGTCGCCATCTGGTCCTCGAACGGTGCCGTGATGAA -ATTGGTGACTGGCGTATTATTTTGCACTCTCCCTATGGAAGACGGGTGCATGAACCCTGGGCGGTGGCGATTGCCGGGCG -AATACATGCGCTATGGGGCGCTGACGCGTCGGTGGTCGCCAGTGATGACGGCATTGTTGCACGTATTCCTGACACCGATG -GTAAATTGCCCGATGCCGCGATTTTTTTGTTTGAACCAGAAAAGTTGCTGCAAATTGTCCGCGAGGCGGTAGGCAGCTCG -GCACTTTTCGCCGCCCGTTTTCGCGAATGCGCCGCGCGGGCATTATTAATGCCGGGGCGCACTCCGGGCCATCGCACCCC -GCTTTGGCAACAACGGCTGCGCGCCAGTCAGTTGCTGGAAATCGCTCAGGGATATCCGGATTTTCCGGTCATTCTCGAAA -CCCTACGCGAATGTCTGCAAGATGTTTATGATCTTCCCGCACTGGAACGTTTGATGCGTCGCCTGAACGGTGGCGAAATT -CAAATATCCGATGTAACGACCACTACGCCCTCGCCTTTCGCCACAAGTTTATTGTTCGGCTATGTCGCGGAATTTATGTA -CCAGAGCGACGCCCCGCTGGCAGAGCGCCGGGCATCCGTACTGTCGCTGGACAGCGAGTTACTGCGCAATCTACTCGGAC -AGGTCGATCCGGGGGAATTACTCGACCCGCAGGTCATTCGCCAGGTGGAAGAAGAGTTGCAACGACTGGCTCCTGGCAGA -AGAGCGAAAGGTGAAGAAGGATTGTTCGACCTGCTGCGCGAACTGGGGCCAATGACCGTTGAAGACCTGGCGCAACGGCA -TACAGGCAGCAGTGAAGAGGTTGCGTCGTATCTGGAAAATCTTCTTGCAGTAAAACGAATCTTCCCAGCGATGATTAGCG -GACAGGAGCGTCTTGCCTGTATGGATGATGCCGCCAGGCTGCGTGATGCCCTCGGCGTACGACTACCAGAGTCATTGCCA -GAGATTTATTTACATAGAGTCAGTTACCCGCTTCGCGACCTCTTTCTGCGCTATCTCCGGGCTCATGCTCTGGTCACGGC -TGAACAACTGGCTCATGAGTTTAGTCTCGGTATTGCCATTGTCGAAGAGCAGCTTCAGCAACTGCGTGAACAGGGTCTGG -TGATGAATCTGCAACAAGACATCTGGGTGAGCGATGAAGTATTTCGTCGTCTGCGTTTGCGCTCGCTGCAAGCCGCCAGA -GAAGCGACGCGTCCCGTTGCAGCCACGACCTATGCGCGATTGCTGCTGGAACGTCAGGGCGTATTACCCGCCACCGATGG -TAGCCCGGCGCTCTTTGCCTCAACATCGCCAGGCGTTTATGAGGGCGTAGATGGCGTGATGCGGGTGATCGAACAGCTTG -CCGGAGTCGGTTTACCCGCCTCACTCTGGGAAAGCCAGATCCTGCCTGCCCGCGTACGCGACTATTCGTCAGAAATGCTC -GATGAATTACTGGCAACCGGTGCGGTTATCTGGTCGGGGCAAAAAAAACTGGGTGAAGATGACGGCCTGGTGGCACTGCA -TCTACAGGAATATGCTGCAGAATCGTTCACTCCCGCCGAAGCGGATCAGGCGAATCGTTCGGCGCTGCAACAAGCGATAG -TCGCTGTTCTGGCTGACGGAGGAGCCTGGTTTGCACAACAAATCAGCCAACGGATACGCGACAAAATCGGCGAATCGGTT -GATCTCTCTGCCCTGCAAGAGGCGTTATGGGCGCTGGTCTGGCAAGGCGTCATCACCAGCGACATTTGGGCACCGTTACG -CGCCCTCACCCGCAGCAGTTCCAACGCACGCACCTCAACTCGCCGCAGTCACCGGGCTCGTCGTGGACGTCCTGTCTATG -CGCAACCCGTCTCGCCGCGGGTATCTTACAACACACCAAATCTGGCTGGACGCTGGTCGTTATTGCAGGTGGAGCCACTA -AACGATACCGAAAGGATGCTGGCGCTGGCGGAAAATATGCTCGACCGCTACGGCATCATCAGTCGTCAGGCGGTGATAGC -CGAAAATATCCCTGGCGGGTTTCCATCGATGCAAACGCTTTGTCGAAGTATGGAAGACTCCGGGCGAATTATGCGAGGTC -GTTTTGTAGAAGGTCTGGGTGGCGCGCAATTCGCTGAACGTCTGACTATTGACCGATTGCGCGATCTGGCGACACAAGCC -ACGCAAACGCGCCACTATACACCAGTGGCGCTCTCTGCCAACGATCCGGCTAATGTGTGGGGAAATCTTCTGCCCTGGCC -TGCACATCCGGCAACGCTGGTTCCAACGCGTCGGGCGGGTGCGCTGGTGGTCGTTTCTGGCGGCAAATTGTTACTCTATC -TGGCGCAAGGTGGCAAAAAAATGCTGGTCTGGCAGGAAAAAGAGGAATTACTCGCCCCAGAGGTTTTCCACGCGCTGACT -ACCGCACTGCGTCGCGAACCACGGCTGCGCTTTACGCTAACAGAAGTGAATGATCTACCGGTCCGGCAAACGCCGATGTT -TACGCTGCTGCGTGAGGCGGGATTTTCAAGTTCGCCACAAGGGCTGGATTGGGGATAGAGAAAGGACTGACGGATGCCCG -TTCGCATCCGTCAGTATTGCAGGACGGATTATTCCGCGTCCGGCTCTTCAGACTTGTATTTAGCGGCAGTTTCTTTGATC -AGCTGCTGCAGTTCGCCACGCTGATACATTTCGATCACGATATCACAACCGCCGACCAGCTCGCCGTCAACCCACAGTTG -CGGGAAGGTCGGCCAGTTAGCATATTTCGGCAGTTCCGCACGAATGTCCGGATTCTGCAGAATATCAACATAGGCAAAAC -GTTCGCCACATGCGGCAAGCGCCTGGACTGCCTGGGCAGAGAAACCGCAGCTCGGCAGTTTCGGTGAACCTTTCATGTAC -AGCAGGATCGGGTTTTCAGCAATCTGGCGTTGGATTTTTTCGATAGTGGTGCTCATTGTCTTGCTTCCTCAAACTTCTTT -ACGGCAGTAATCTGACATTGTAGCGGGTCAGTGCGGCATCGGAAAATAACATTTTCATCACGCTTTTGCTATTTTATCCC -TTTGCTCTATTTGTTGCATTTCAAATATTCGTTTCTTCTCTGATGCCGGCAAACTGGCGTATTTATAACCATTTTTAGCT -TTCACTGCTGCATTTTTTTGCGCTCGCCAACGAAACGTATTTTTTAACAATAAAAGCTATTAACTTTCTCTTCTTCTATG -CATTAGAATCATCAAGTTTTGTAAATCAGACGCAGGCATGATAGACCTGCCTTTACAGAGGGACGCTCAGTGGCGCGGAT -AAACCGTATTTCGATCACGCTCTGTGCTTTACTTTTTACCACCCTGCCTTTAACGCCTATGGCCCATGCTTCAAAGCAAG -CCAGGGAGAGTTCTGCTACCACTCATATCACCAAAAAAGCAGATAAAAAGAAAAGCACGGCAACCACCAAAAAGACCCAG -AAAACAGCGAAAAAAGCCGCCAGTAAAAGTACGACCAAAAGCAAAACCGCTTCTTCCGTTAAAAAATCTTCCATTACCGC -TTCTAAAAACGCCAAAACTCGCAGCAAACACGCCGTCAATAAAACGGCCTCAGCCAGCTTTACCGAAAAGTGTACCAAAC -GTAAGGGCTATAAATCGCATTGTGTGAAAGTCAAAAATGCCGCGTCAGGAACTCTTGCCGACGCGCACAAAGCGAAGGTG -CAAAAAGCTACGAAAGTGGCAATGAATAAACTGATGCAGCAAATTGGTAAGCCATATCGTTGGGGTGGCAGCTCACCGCG -TACCGGTTTTGATTGCAGCGGCCTGGTTTATTACGCTTATAAAGATTTGGTGAAAATTCGTATTCCGCGTACGGCGAATG -AAATGTATCACCTGCGTGATGCAGCGCCAATCGAACGTAGTGAACTGAAAAACGGCGACCTGGTCTTTTTCCGTACTCAG -GGACGCGGCACAGCCGATCATGTCGGCGTGTATGTCGGCAACGGCAAATTTATTCAGTCACCGCGCACAGGTCAGGAAAT -TCAAATCACTTCTCTCAGTGAAGACTACTGGCAGCGCCACTATGTTGGCGCTCGTCGGGTAATGACCCCAAAAACACTTC -GCTAAAACTTTACCCTGTTGTTACGGCAACAGGGTAAGTTCATCTTTTGTCTCACCTTTTAATTTGCTACCCTATCCATA -CGCACAATAAGGCTATTGTACGTATGCAAATTAATAATAAAGGAGAGTAGCAATGTCATTCGAATTACCTGCACTACCAT -ATGCTAAAGATGCTCTGGCACCGCACATTTCTGCGGAAACCATCGAGTATCACTACGGCAAGCACCATCAGACTTATGTC -ACTAACCTGAACAACCTGATTAAAGGTACCGCGTTTGAAGGTAAATCACTGGAAGAGATTATTCGCAGCTCTGAAGGTGG -CGTATTCAACAACGCAGCTCAGGTCTGGAACCATACTTTCTACTGGAACTGCCTGGCACCGAACGCCGGTGGCGAACCGA -CTGGAAAAGTCGCTGAAGCTATCGCCGCATCTTTTGGCAGCTTTGCCGATTTCAAAGCGCAGTTTACTGATGCAGCGATC -AAAAACTTTGGTTCTGGCTGGACCTGGCTGGTGAAAAACAGCGATGGCAAACTGGCTATCGTTTCAACCTCTAACGCGGG -TACTCCGCTGACCACCGATGCGACTCCGCTGCTGACCGTTGATGTCTGGGAACACGCTTATTACATCGACTATCGCAATG -CACGTCCTGGCTATCTGGAGCACTTCTGGGCGCTGGTGAACTGGGAATTCGTAGCGAAAAATCTCGCTGCATAATAACTG -ATGGCAAATGCAGCATTGCCTGAAGCGCTACGCTTATCAGGCCTACGCGGATCATCGATGTAGGTCGGATAAGGCACTCG -CCGCATCCGGCAAGATAAATCGCACGTTGTCAGCAACTGTAACGCAGAAGGTTATCCTTCTGCGTTTTTGTTTAATTAGC -TGTTAGCAACGCAAACTGTTTCAGGTTGTTTTCTGGCTGACATAAACACCAGCAATAATGCCAGTCCCGCGACAATCGCT -CCCATCACCGGCACAAAGCTGTATCCCAGCCCAGCGGAAATTACCGCACCACCAGCAGCTGCTCCCAGCGCATTTCCAAG -ATTAAAGGCACCAATATTGACTGATGAAGACAGACCTGGCGCTTCACTGGCGACACGCATCACGCGCATCTGTAACGGCG -GTACGACCGCAAAGGTTGCTGCGCCCCACACCACCATGCTAATAGCTGCGCCGAACTCATTGCGGGCCAGGAACGGGATT -GCCAGCATAATCACCATCAACAACAACAAAAAGCCTTTCAACGTGCCGTTAACTGAACGATCTGCCAGTTTGCCGCCGAG -ATAGTTACCGATAGAGAATCCGACACCAATCAGCACCAGCATTGCCGTGACGAACACCGGTGTTGCGTGGGTAATACTTT -GCAGTACCGGAGAGATATAGGTGTAGAGAGTAAACATTGCACCAGCTCCCAGTACCGTCGTCAGCAATGCAGACAGCACC -TGCGGACGCATTAATACCGCCAGCTCTTTTTTCACTTCAGGTCGTGCCCCTGCACCACCTTTAGGTAATGAGAAGAACAG -ACTTACCATTGAAATCACTCCCAGCCCCGCCGTTGCCAGAAATGACATCCGCCAGCCGATGGTTTCACCCAACCAGGTCG -CCGCCGGCACGCCACCGATATTTGCCAGGGTTAACCCCATAAACATAGTGGCAACTGCGCTGGCCTGTTTATGTTTTGGC -ACCACGCTTGCGGCCACGACTGAACCCAAACCAAAAAATGCTCCGTGATTCAGGCTGGTCAAAATGCGTGAAAGCATCAG -GGTCATATAATCCGGCGCGATGGCGGAAAGTACGTTGCCGAGCGTGAAAATTGCCATCAGGAAAATCAACGCACTGCGGC -GGGCACGATGAGAAAGTAGAAGCGTCATCAGCGGCGCGCCAACCATTACGCCAACTGCATAGGCACTGATTAACATTCCG -GCAGCGGGAATCGAGACATCCACACCGCGCGCAATGACGGGCAACAAGCCCATTGGCGAGAACTCCGTTGTCCCGATACC -AAACGCGCCAATCGCCAGCGCCAGCAACGGATAGTTAATTTTCATGCCTTATCTCCACCTCTTCGCGTCATTACGCGATA -TTCATTAAAGTGGCGAAAGCATGACAGCAATCACAAAAAAATGAAAATAACAAAAAGAGAAAACACTTTTGCCATTTTGC -TAACAAACAGGAAGGAGATGCGAGGGAGAACGCGCTCCCTCGAGAGGAAATCAGTGCAGCGCGGCAGTCAAACCCACGGC -TACGATCAAACCGAGGACGATAATCGTTGTTACCAGTGAAAATTTAAGGTCGGTGCTCATCAAGTTTTCTCCTTTTTTAT -TACCACACAAAAAGTGATATTACGCATTTTTACACACTGTGATGAAAAAATCTCCCGTCATTTATAATGATAAGTGTTTT -TACCACTTCCCCTTTTCGTCAAGATCGGCCAAAATTCCACGCTTACACTATTTGCGTACTGGCCATTGACCCCTTCCTGA -CGCTCCGTGTCGTTTTTCCGGCGTACCGCAACACTTTTGTTGTGCGTAAGGTGTGTAAAGGCAAACGTTTACCTTGCGAT -TTTGCAGGAGCTGAAGTTAGGGTCTGGAGTGAAATGGAATGGCAACAATAAAAGATGTAGCGAAACGAGCAAACGTTTCC -ACTACAACTGTGTCACACGTGATCAACAAAACACGTTTCGTCGCTGAAGAAACGCGCAACGCCGTGTGGGCAGCGATTAA -AGAATTACACTACTCCCCTAGCGCGGTGGCGCGTAGCCTGAAGGTTAACCACACCAAGTCTATCGGTTTGCTGGCGACCA -GCAGCGAAGCGGCCTATTTTGCCGAGATCATTGAAGCAGTTGAAAAAAATTGCTTCCAGAAAGGTTACACCCTGATTCTG -GGCAATGCGTGGAACAATCTTGAGAAACAGCGGGCTTATCTGTCGATGATGGCGCAAAAACGCGTCGATGGTCTGCTGGT -GATGTGTTCTGAGTACCCAGAGCCGTTGCTGGCGATGCTGGAAGAGTATCGCCATATCCCAATGGTGGTCATGGACTGGG -GTGAAGCAAAAGCTGACTTCACCGATGCGGTCATTGATAACGCGTTCGAAGGCGGCTACATGGCCGGGCGTTATCTGATT -GAACGCGGTCATCGCGAAATCGGCGTCATCCCCGGCCCGCTGGAACGTAACACCGGCGCAGGCCGCCTTGCCGGTTTTAT -GAAGGCGATGGAAGAAGCGATGATCAAGGTGCCGGAAAGCTGGATTGTGCAGGGTGACTTTGAACCTGAATCCGGTTATC -GCGCCATGCAGCAAATCCTGTCGCAGCCGCATCGCCCTACTGCCGTCTTCTGTGGTGGCGATATCATGGCAATGGGCGCA -CTTTGTGCTGCTGATGAAATGGGCCTGCGCGTCCCGCAGGATGTTTCGCTGATCGGTTATGATAACGTGCGCAACGCGCG -CTATTTTACGCCGGCGCTGACCACGATCCATCAGCCAAAAGATTCGCTGGGTGAAACAGCGTTCAACATGCTGTTGGATC -GTATCGTCAACAAACGTGAAGAACCGCAGTCTATTGAAGTGCATCCGCGCTTGATTGAACGCCGCTCCGTGGCTGACGGC -CCGTTCCGCGACTATCGTCGTTAATCACCCGTTGCGGGAGTCTCTTCCGGCTCCCGCAGCCACTCCTTATTCAGCGTCTC -ACTATCGCCGAGATACTCAAGCAACCAGGTTAACGCAGGCGACATATCATTTTGCTGCCATGTCAGACAACATGCCGAAT -CCGGAAAGGGGTTTTCCAGTTCTAATGCTACCCACTTCCCCTCATTAAGCCACGGTTTGGCGAAATGTGTTGGCACCATC -CCTATGCATAATCCTGCCGAGATACAGGTTGCCGATGATTCCCAGTCAGGCACGACAACTCTTTTTTGGTTATCCAGCAA -CCAGGTAATACGTTTAGGTAGCGTTCGCGAGGTGTCTTCGCGCACCAACGACGGCCAGTTGCGCAACGTATCATCGCTGA -ACGGGCCATCCATCAACGCCAGCGGGTGGTGACTGGCAACAACGCAACTCCAGCTTAGCATCCCCATATCCCGGAAGGCA -TAACGACCGCCTACCGGAATCGCGCGTGTTGCGCCAATCGCCAGTTCCACGCGCCCGTCGGAAAGCGCATCCCAGACACC -GTTGAACACTTCCTGAAAGACAAGAAGTTCGACATCATCAAAATGGCGATAAAAATCAACGATCATCTGCCGTGTACGTT -CTGGCCTGACAATATTATCCACTGCGATAGCTAACTGACCGCGCCAGCCGTTCGCTATCTGCTGACATTGCTGGCGGGTG -ATCTGCATTTTTTTGACAACAGAGCGCCCTTCTTTGAGAAACCACGCTCCAGCAGCGGTCAGCTCCACATCACGGTGCCG -TCGTTCAAAGAGCGGCACCGCCAGCCACTCTTCCAGCTGACGCACGGTATAGCTGACCGCAGAAGGAACGCGATGCAGCT -CCTGTGCCGCAGCGCTAAAACTACCATTACGCGCTACCGCATCAACAACTTCGAGTGAATATTCTGACCACATAGTCTGC -CTGCAAAATTTTTGAAACCAGTCATCAAATATTACCGTTTCACAACACTAATTTCACTCCCTACACTTTGCGGCGGTGTT -TAATTGAGAGATTTAGAGAATATACATGCAACCTGGGAAAAGATTTTTAGTCTGGCTGGCGGGTTTGAGCGTACTCGGTT -TTCTGGCAACCGATATGTATCTGCCTGCTTTCGCCGCCATACAGGCCGACCTGCAAACGCCTGCGTCTGCTGTCAGTGCC -AGCCTTAGTCTGTTCCTTGCCGGTTTTGCCGCAGCCCAGCTTCTGTGGGGGCCGCTCTCCGACCGTTATGGTCGTAAACC -GGTATTATTAATCGGCCTGACAATTTTTGCGTTAGGTAGTCTGGGGATGCTGTGGGTAGAAAACGCCGCTACGCTGCTGG -TATTGCGTTTTGTACAGGCTGTGGGTGTCTGCGCCGCGGCGGTTATCTGGCAAGCATTAGTGACAGATTATTATCCTTCA -CAGAAAGTTAACCGTATTTTTGCGGCCATCATGCCGCTGGTGGGTCTATCTCCGGCACTGGCTCCTCTGTTAGGAAGCTG -GCTGCTGGTCCATTTTTCCTGGCAGGCGATTTTCGCCACCCTGTTTGCCATTACCGTGGTGCTGATTCTGCCTATTTTCT -GGCTCAAACCCACGACGAAGGCCCGTAACAATAGTCAGGATGGTCTGACCTTTACCGACCTGCTACGTTCTAAAACCTAT -CGCGGCAACGTGCTGATATACGCAGCCTGTTCAGCCAGTTTTTTTGCATGGCTGACCGGTTCACCGTTCATCCTTAGTGA -AATGGGCTACAGCCCGGCAGTTATTGGTTTAAGTTATGTCCCGCAAACTATCGCGTTTCTGATTGGTGGTTATGGCTGTC -GCGCCGCGCTGCAGAAATGGCAAGGCAAGCAGTTATTACCGTGGTTGCTGGTGCTGTTTGCTGTCAGCGTCATTGCGACC -TGGGCTGCGGGCTTCATTAGCCATGTGTCGCTGGTCGAAATCCTGATCCCATTCTGTGTGATGGCGATTGCCAATGGCGC -GATCTACCCTATTGTTGTCGCCCAGGCGCTGCGTCCCTTCCCACACGCAACTGGTCGCGCCGCAGCGTTGCAGAACACTC -TTCAACTGGGTCTGTGCTTCCTCGCAAGTCTGGTAGTTTCCTGGCTGATCAGTATCAGCACGCCATTGCTCACCACCACC -AGCGTGATGTTATCAACAGTAGTGCTGGTCGCGCTGGGTTACATGATGCAACGTTGTGAAGAAGTTGGCTGCCAGAATCA -TGGCAATGCCGAAGTCGCTCATAGCGAATCACACTGATCTATATCGATATACTTATACTTAGGCTGCTAACAAAATTTTG -TTGTATGATTGAAATTAGCGGCCTATACTAATTTCGAGTTGTTAAAGCTACGATAAATATTATGTTTTTACGGGGACAGG -ATCGTTCCCGACTCACTATGGATAGTCATTTCGGCAAGGGTTCCTCCTTTCCCTCTGTTCTACGTCGGATTATAGACTCG -CGGTTTTTTCTGCGAGATTTCTCACAAAGCCCAAAAAGCGTCTACGCTGTTTTAAGGTTCTGATCACCGACCAGTGATGG -AGAAACTATGAGTTCATCGTGTATAGAAGAAGTCAGTGTACCGGATGACAACTGGTACCGTATCGCCAACGAATTACTTA -GCCGTGCCGGTATAGCCATTAACGGTTCTGCCCCGGCGGATATTCGTGTGAAAAACCCCGATTTTTTTAAACGCGTTCTG -CAAGAAGGCTCTTTGGGGTTAGGCGAAAGTTATATGGATGGCTGGTGGGAATGTGACCGACTGGATATGTTTTTTAGCAA -AGTCTTACGCGCAGGTCTCGAGAACCAACTCCCCCATCATTTCAAAGACACGCTGCGTATTGCCGGCGCTCGTCTCTTCA -ATCTGCAGAGTAAAAAACGTGCCTGGATAGTCGGCAAAGAGCATTACGATTTGGGTAATGACTTGTTCAGCCGCATGCTT -GATCCCTTCATGCAATATTCCTGCGCTTACTGGAAAGATGCCGATAATCTGGAATCTGCCCAGCAGGCGAAGCTCAAAAT -GATTTGTGAAAAATTGCAGTTAAAACCAGGGATGCGCGTACTGGATATTGGCTGCGGCTGGGGCGGACTGGCACACTACA -TGGCATCTAATTATGACGTAAGCGTGGTGGGCGTCACCATTTCTGCCGAACAGCAAAAAATGGCTCAGGAACGCTGTGAA -GGCCTGGATGTCACCATTTTGCTGCAAGATTATCGTGACCTGAACGACCAGTTTGATCGTATTGTTTCTGTGGGGATGTT -CGAGCACGTCGGACCGAAAAATTACGATACCTATTTTGCGGTGGTGGATCGTAATTTGAAACCGGAAGGCATATTCCTGC -TCCATACTATCGGTTCGAAAAAAACCGATCTGAATGTTGATCCCTGGATTAATAAATATATTTTTCCGAACGGTTGCCTG -CCCTCTGTACGCCAGATTGCTCAGTCCAGCGAACCCCACTTTGTGATGGAAGACTGGCATAACTTCGGTGCTGATTACGA -TACTACGTTGATGGCGTGGTATGAACGATTCCTCGCCGCATGGCCAGAAATTGCGGATAACTATAGTGAACGCTTTAAAC -GAATGTTTACCTATTATCTGAATGCCTGTGCAGGTGCTTTCCGCGCCCGTGATATTCAGCTCTGGCAGGTCGTGTTCTCA -CGCGGTGTTGAAAACGGCCTTCGAGTGGCTCGCTAAAGGCTATTCTATCGCCCCCTCTCCGGGGGCGATTTCAGATCAGG -CTTCTGTGCCTGGTTGATTCATGGCATTTTCTCGTGCCGCCAGCACACGTTCTACCGTATCTACCACTGCCTGAGTTTGT -GGATCGATTTCAATGTTGACGCGTGCGCCAAGTTTTTTCTTCCCAAGAGTCGTGCGTTCCAGTGTTTCCGGAATTAAATG -GACGCAAAAACGCGTTGGCGTGACTTCGCCGACGGTCAGGCTAATACCGTCGATGCCAATAAATCCTTTGTACAGAATAT -ATTTCATCAACTGACTATCCTGGACTTTAAACCAGATCTGGCGATTATTTTCTGAGGTTAATATTTTCGCCACTTCAGCA -GTGGTCATAATATGACCTGACATTAAGTGTCCGCCAATTTCATCACTGAATTTCGCCGCACGCTCAACGTTTACCCAATC -CCCCACTTTTAAATCGCCAAGATTGGTAATGCGTAACGTTTCTTTCATCAGGTCAAAACTGACATGGTTGCCGTTAATTT -CCGTCACGGTCAGGCAGCAACCGTTATGCGCCACGGAAGCACCGGTTTCCAGGCCGTCCAGCATGTGGTCGGGTAACTCC -ACCACATGCGTACGAAAATTTGGTTTCTCGTCAATCGACACCAGTTTTGCGGTGCCCTGTACAATCCCCGTAAACATACT -TACAACTCCTGAAATCAGTTAAGACATTCTGTTCAGCACAATAGCAGGTGGAAAACGCCCTTACCAGTGAAGGGGTAAGA -ATGGCTATTTTTTCACTGGAGAATTAATAAATCCTCGCTACAATAGACTGAATTTCCCCTGCTTCTTCTTTTTGCTGCCC -ATTCAGGCGGCTTTTTAGTCTCTCATATAACTACAAATAAAAGGTGTTCACGTGCAGAAGTATATCAGTGAAGCGCGTCT -GTTATTAGCATTAGCAATCCCGGTGATTCTCGCGCAAATCGCCCAAACTGCGATGGGTTTTGTCGATACCGTGATGGCGG -GCGGCTATAGTGCCACCGACATGGCGGCGGTCGCTATCGGTACTTCTATCTGGCTTCCGGCGATCCTCTTTGGTCACGGA -CTGCTGCTGGCATTAACGCCGGTTATCGCGCAATTAAATGGTTCCGGTCGACGTGAGCGCATTGCGCATCAGGTGCGACA -AGGTTTCTGGCTGGCAGGTTTTGTTTCCGTTCTCATTATGCTGGTGCTGTGGAATGCAGGTTACATTATCCGCTCCATGG -AAAACATCGATCCGGCTCTGGCGGACAAAGCCGTGGGTTATCTGCGTGCGTTGTTGTGGGGCGCGCCGGGATATCTGTTC -TTCCAGGTTGCCCGTAACCAGTGTGAAGGTCTGGCAAAAACCAAGCCGGGTATGGTAATGGGCTTTATCGGCCTGCTGGT -GAACATCCCGGTGAACTATATCTTTATTTATGGTCATTTCGGTATGCCTGAGCTCGGTGGCGTTGGTTGTGGCGTGGCTA -CTGCGGCGGTGTATTGGGTCATGTTCCTTGCCATGGTTTCTTACATTAAACGCGCCCGCTCCATGCGCGATATTCGTAAC -GAAAAAGGCACCGCAAAACCCGATCCTGCGGTTATGAAACGACTGATTCAACTCGGTTTGCCGATTGCGCTGGCACTGTT -CTTTGAAGTGACACTGTTTGCCGTCGTGGCTCTGTTAGTGTCTCCGCTCGGTATTGTTGATGTCGCAGGACACCAGATTG -CCCTGAACTTTAGTTCACTAATGTTCGTGCTTCCAATGTCGCTGGCGGCAGCGGTAACTATCCGCGTAGGTTATCGTCTG -GGTCAGGGCTCAACGCTGGATGCGCAAACCGCTGCGCGGACCGGGCTTATGGTGGGTGTCTGTATGGCAACCCTGACGGC -CATTTTCACGGTTTCACTGCGGGAGCAAATCGCCCTGTTGTACAACGACAATCCCGAGGTTGTAACGCTGGCTGCGCATT -TGATGTTGCTGGCGGCGGTATATCAGATTTCTGACTCAATCCAGGTGATTGGCAGTGGGATTTTGCGTGGTTATAAAGAT -ACGCGTTCCATTTTCTATATTACCTTTACGGCTTACTGGGTGCTGGGCTTGCCAAGCGGCTATATTCTGGCACTGACCGA -TCTGGTCGTTGAACCTATGGGGCCAGCAGGCTTCTGGATAGGCTTTATTATTGGCCTGACGTCGGCAGCCATTATGATGA -TGTTGCGTATGCGGTTCCTGCAACGTCTGCCGTCAGCCATCATTCTGCAACGAGCATCCCGCTAATAAAGACAAGGCGCA -ACCTTCACGGGTTGCGCCTGTATTTTTACGCAGGCTGGAGCGTTGCGCCAATCCCGTCTTCGTCTGGCTGTAATTTCAGA -GCGTTACACAGAGTTTGCCGACTGGCATCTGTTATCTCAACGTGTATATCCCCGGTAACTTCCCCTTTCACATTGATGAA -GTCAGGTGAAATTTCTTTTGCACTGGTTTGCAGGCAAATCGCTCCCTCTCCGCGCAGGCGTTTCACTTTCAGTTGCACAT -GCGTTGCCGCATCAGTGATCAGCCACAGTTTTCCACCATTCAGATTGATGTTACCAACAATGAAAGTGACACTGTCACCT -TTTACCGTACTGCCGTCTAGAATCAACACACCGCCCTGCTGTACAGTAATCGTTGATTGTTGCAGCTCTGCGCCATAACC -AATAATCATTGAAGCGCCGTCCAGTAATGCAACACTCCCGGTCAGTTCAACCGGTGCGCGATCTTCCTCTACGACAAAAT -TTTCGTCCGCGCTGGTGGGTGACAACAGGATCACTGTCCCACCTTGTATTACCGCGTTTTCCAGCGTACCGGCATGCACT -TCAGCCCGACCACCCACATTCACGGACAGGTTTTGCGTCTTACCGGAACTGTAGAGCTGAAGGCCATCCGTCCCCAGACG -ATAAATGGATCCATTCTCAACAATAGTGTCAGAGTCTTCACCACCGAGATTATTCATGGTGCCACCAGCAAGCAACGTAT -CACTGGCTTTCCCGGCCAGCATAAAAACGCCGCCCTGATTAATCTCACAATTGCTGGCTTCCCCACCTGGATACACCAAC -AATTCACCACCTTCATCTACCACGACCGCTGAGGTTGTCCCATTAACCAACAGGCCGCCCTCTTGATCGAGAATGATTTT -TTCCGCGCGATGTCCTTCCAGTACACGCAGGTTACCGCCATTTTCCAGCAACAAACCGCAGGCATAACCTTTATCAACGC -TGAATTCACCTTCGGGATGGCGGCCATTAACCGTAGCGAGCGTAGAGAGACTAATTGCGCCTCCCTCGGACTGAACAATA -TCTGTGGCAATGGCACCATCGCTGACCGATAGCGTGCCATTGTTACCGTACTGTGTGCATTTGGCGATCCCACCGGTTGC -CACTTTCAACCAGCCAGCCCCCGTGACCACGGTATTTTCGGCTCTTCCGCCAGCTTCAACAATCAACTCGCCTTCAGTAA -GTTGCGTCGCGCCAATGACCTCGCCGGTCTTAACAATTTGCACGTTCCCGTCGCTCATCAAGTTTTTCGCATCAGATCCC -ATGATTTATTCCTTTGCTGCATCTGTGTGCCTTTATTGCTACCTAAGTGTAAAGGCTACGGAGGATTTATCCACGACAGA -TTTGAGATGGTGGCAAACAACTCTGTTTAAACTCTGATACACGAATTATTGGGTTGTATCAGATGTAAATGCGATCCTGA -ATAAAAATCACCCTTGCAAATCAACAAAATATAGCCAATTTGCTTAAAAGCTCTGCAAACGGTCGAAATAGCGCAGAAAA -TTACGTTTTGCCTCTTGCCACCTTCCCACTCTGCCGCTAATATTCGTCCCCGTTGTCACCTACAACGTTGCGTTCATAGC -TCAGTTGGTTAGAGCACCACCTTGACATGGTGGGGGTCGTTGGTTCGAGTCCAATTGAACGCACCATCCTGCGTCCGTAG -CTCAGTTGGTTAGAGCACCACCTTGACATGGTGGGGGTCGGTGGTTCGAGTCCACTCGGACGCACCAGATTTTCTTAATC -TGGTCTTCTCCTTTTTCCCTCTGTTTCTTCTCTGTATCCAATACGTTAAAAGATTTACACTGTCTTCGTATGCGTTATCA -GAAGGAGAATCGCTATGGCAACTTTGTTACAACTTCATTTTGCTTTTAATGGCCCATTTGGCGACGCAATGGCTGAGCAG -CTTAAACCACTTGCTGAGTCGATTAATCAGGAACCTGGTTTTCTGTGGAAGGTATGGACAGAAAGTGAAAAGAACCACGA -AGCCGGTGGGATCTACCTTTTCACTGATGAAAAAAGCGCCCTTGCCTATCTGGAAAAACATACTGCCCGACTGAAAAATC -TCGGCGTTGAGGAAGTTGTCGCCAAAGTTTTCGATGTCAATGAGCCACTTAGTCAAATCAATCAGGCAAAACTCGCCTGA -CAGAATTTAATCAAGGGCGGTTAGCGCCCTTTTCATCCCTGTCTGAAATTTCTCAAATTCTAAAAATCTCAACCAAACTT -ATCTGATAACACTAAATTCGAAAGAATGCGTACAGGTAAGTAACAATGAAAAAAATTGCTATTGTGGGTGCCGGGCCTAC -GGGGATCTACACCTTATTCTCGCTTCTACAGCAACAAACTCCACTTTCTATTTCTATCTTCGAGCAGGCTGACGAGGCCG -GTGTCGGGATGCCATACAGTGATGAGGAAAACTCAAAAATGATGCTGGCAAATATTGCCAGTATTGAAATACCGCCGATT -TATTGTACGTATCTCGAATGGCTACAAAAGCAAGAAGACAGCCATCTCCAGCGTTATGGCGTTAAAAAAGAAACCTTGCA -CGATCGTCAGTTTTTACCGCGAATTCTGCTGGGCGAATATTTCCGCGATCAATTTTTACGACTAGTAGACCAGGCACGAC -AGCAAAAATTTGCAGTGGCTGTTTATGAATCATGCCAGGTTACCGATCTGCAAATTACAAATGCTGGCGTCATGCTCGCT -ACAAATCAGGATTTACCCAGCGAGACGTTTGATTTAGCGGTGATCGCCACGGGTCACGTCTGGCCTGATGAAGAAGAAGC -AACCCGAACGTATTTTCCCAGCCCGTGGTCAGGCCTGATGGAAGCAAAGGTCGATGCGTGTAACGTGGGTATTATGGGAA -CATCCTTGAGCGGACTGGATGCGGCAATGGCAGTGGCTATTCAGCATGGTTCGTTCATTGAAGATGATAAACAACACGTC -GTTTTTCACCGCGATAACGCAAGTGAAAAGCTAAATATCACGTTGTTGTCGCGCACGGGTATTTTACCCGAAGCCGATTT -CTATTGCCCTATTCCCTACGAGCCCTTACACATCGTCACCGATCAGGCATTAAATGCTGAGATTCAAAAAGGCGAAGAGG -GCCTTTTGGATCGGGTATTTAGATTGATAGTAGAGGAAATCAAGTTTGCTGATCCAGACTGGAGTCAACGCATAGCCTTA -GAGAGCCTGAATGTCGATTCCTTTGCTCAAGCCTGGTTTGCCGAGCGCAAACAACGCGACCCATTTGACTGGGCAGAAAA -AAATCTCCAGGAAGTCGAACGCAATAAACGAGAAAAACATACTGTTCCCTGGCGTTATGTCATTCTGCGCCTGCATGAAG -CCGTACAGGAAATTGTTCCACATCTGAATGAACACGACCATAAACGGTTCAGTAAAGGCCTTGCCCGGGTTTTCATCGAT -AATTATGCGGCAATCCCTTCAGAGTCTATTCGTCGCCTACTTGCCTTACGTGAAGCGGGAATCATTCATATTCTCGCCCT -CGGTGAAGACTACAAAATGGAAATTAATGAGTCGCGCACCGTCCTGAAAACGGAAGACAACAGCTACTCGTTTGACGTTT -TTATTGATGCCCGCGGACAACGTCCGCTTAAAGTGAAAGATATCCCTTTCCCTGGGCTACGCGAGCAATTACAGAAAACA -GGGGATGAAATCCCTGATGTTGGCGAAGATTATACGTTACAGCAACCCGAAGATATTCGTGGGCGCGTAGCGTTCGGCGC -GTTGCCCTGGTTGATGCACGACCAGCCTTTCGTTCAGGGACTTACGGCATGTGCAGAAATTGGTGAGGCGATGGCTCGGG -CGGTCGTAAAGCCTGCATCCCGTGCTCGTCGGCGTCTTTCGTTTGATTAAAGGTAAAGCTATCAGCACTCAACAAACTGA -TGCTGTTCATTAAGACGATAGCGGACTCCGGCTCGAATATTGTTTTCACCTTCAATGGCGACGGCGAAGCGAACTCTTTC -GCCGTCATGATATGCCAGTGCGGCGCTTCCTCCTGGCCCGAGAATAATTGAGTCGACCACGCCCGTGCTCACTACCGTTG -AATTTTCACCGCTGGCAATGATGTGTACATTGTCGCCGCTGTTGGCAATTCTGGCGTTTGCGCCAAAGCTGGCGATTTGC -ACCAGGTCACCATTACTGGCGACATGACACCGTTCACCCAATGTACAAACGCGTACTCGCATTCCGGTATTCGCAATCCG -ACTGCTATCTCCAGCGCTGCTTATCCGCGAAGAATTACCGGTTACAGCAACCCGTGCGCGTTCACCGGAGCTGCCAATGT -GACTGTTAAAGCCGACACTTCCAATCCGCACGCTATAACCCATACTGGCAATTTGCGCGGCATACCCAGCGGTTGCGATT -CTGGCGTTATCCTCACAACAGCCGATGCGAGCATGATCGTCGCTGCGGGCAAACTGACTGCAAAATGGTCTCTCTCCGGG -GTCTGTGGCCAGTTTTTGCATAGAGGAAACTTCCTGATGCGCGAAGTTTTCATCCGCCAGCCATTTTTTCCACGCATACT -CAACCAGACTCTCCGCCCAGTCCGTATATCCTTCCTCAATCAGTGCATGATGAATATCGGCATAACTACCGCCGCGTGGG -AAATGGCGCAGGAACCAGCGATACATCACCGCTCCGATACGCCATTCTCGCAGGTCTGCTTGTGTAATGATCATTCGTTA -GTGCCGGTGATAGCCATCGACCATGCTTTTAAAGGTTTCGTGTGGCGTACGCCCCGTGGTGCAAAGATAAAGATGACCGA -AGATAAAAAAGAGGCTTATAAATGCCAGAGCAAAATGTGTCTGCAATAACCAGTATCTTACGCCAGGAAACACATCTCCC -ACGGCTTGCGGATAGAGACACAGCAGCCCCGTCAATAGTAACAACGGCAGCAATCCATACATGACACCAACATAGGCGAC -CTGCTGTAAGGGATTAAATTTAGACTGGGTTGTTGCCGGGAAAGGATGTTCTTCCCCCTGCATAATGCCAAACAAATAAA -ATCGCGTTTGTTTTGCCGCTCGTTCCAGCCACCCCTGACGACGAATGCGATAGTGGTGACCATTATCCCCAACGGCATTG -ATCAGCACAAAGCCGAGCCAGCATGCCAGTAACAAAAATCCGCAAACTTCATGCACCGCAACCAGACTTTTAACCGCAGT -TGCGCCCACCATCGCAAAGTGATTTATCAGCCCACTGGCCAGCAACAATACAAAGAGTAACGCATTCGACCAGTGCCATA -ATCTGACCGCTTTGCTGTAAAGATAAATCTTCTCACCATGATCGGTGGCTGATTTCTTCACGCCACGAGCACGAAGCAAG -GCATGCAGCCCCAGCACCAACCACATCCCAACCAGCAATACTCCGGCAATGATCAACCACACCGGCCAAAATTCGGGAGT -GAACTGTGGCACATAGTTCGCTAACTGGCTCTGAAACTGTTCAGCATGTTGCGACGGGTTCATACATTTTCCTTTTTAAT -CAAATGTTGACCGAACCGGCGATACAGATGCGGTTTCCCGGCACCAGGTAGCTGATATTGATAGTATTTATTTTGCTGCA -ACCACGCCTGAATTTCTGGGCTATCTTCGCGACCAAAGATCAATGCGTGTTCCGGGCAGGCGCTGACGCAAATGGGCGGA -AAGCCTTTTGCCAGTCGGGACTCAGCGCAGAAATCACATTTATCTGCCACTTTAGTGACAGGGTTAAGGTAGCGAACCTG -GTACGGACAAGCGCCAATGCAATAACTGCAGCCGATGCACTGCGATTTTTCTACCCGCACGATCCCCTGCTCATCACGCC -ACGACGCCCCCGTCGGGCAAACGTCGATGCACGGAGCATCTTCGCAGTGCTGACATGACTGGCGAAAAAAGTGATACTGC -GTTTCGTTGTCGTTATCGGTGACTGGAATGTGTGCTATCGATAAACGGCTTCCCTGAGCGGGGACGTGGTTAGTTTTACG -GCATGCGCGGGCGCAAATATTACAGCCATTGCACCGTGACTCGTCATGAATCATGGCATACCGAACTTCCTTTTCTTGCC -TCGTGTTCGCTAACAGAGAAGACGCAGAACCAGTAAAAAAGATTACTGTTCCCATCCCCAGAACAAATTTGCGTCGAGTG -AAGGACATCTGATTATCCCCTAATGCAGTGGCTGCAACTGTCCACCCTATCCATGACATCTCCCTGAAATTTCAGGGGTT -CTGAAACTGCTCTACCTCGAACCATTCGCATAAGCCATAAGCCTTGCCATAGGTCATAAATCGCTCGCTAAACAAGTACA -ACACCGCCGTCGATGACTCCACCTGCCGTATATCGGCATATTCAGGTGCAACATCCATCGCGGCGATCGCGGCTTCAATC -TGCGCTTCCTGGAAGTAATATGGCGCTTGCATCAGCATGGCGACTTTGTAAGGACGAGGATACGTCTGGCACTCAAAACG -AACGGCGTGTGCAATGGCGCGACAAATGTCCTGCTCCACAACTTGCAAAGACATCGCCGCGTAGTTTTCACTCATGGCCT -GCGTTGAGTAATAGTAATCATCCTTGCTTCCCGTCAAACAAGCGATATCCGCGTAGTCTCCGTTCTGCTTAATGCTTTCC -AGCAAAACTGACAGTTCCTCTTCTGCAACCAAATAGGGTGGCGAGAGAAACACGGCGCGCGCCACCAGCTGCCCAGCCGC -AGAATGCTGGCGAATGAACTCAGCCAGGATTTCAGCAGGTTCTGGTTCGGTTACCGTATCAACGGGGTGACGCATCCCCT -GCAACCATTGCCGCTTCGCCTCGTCAACTTCGCTGACTTTCGCTAACGGCAATTCATCCTGATGGTTCATCTTACCCATT -CCTTACGCAGGCAGTAGATTGTGTGCTGCCAGATCGGCGGCAATATCTTCCAGCCCCAGACGCTGCAATGTTTCGCGGGT -TGGACAACCAAGCTGTGGGTCCCAGCCCATTTCTTTGTAGAACATCGTGAGCGAAGCATGCATATCGTCACGATCCATTT -TGTCAGTACCTTCAGTAAAGACCGGGATCTGCGGATCCTTGTCGAATACCCAGGAACAGATAAGATCGTGTTCATTACGC -ATATCTTTGGTTTGCATCAGTTTTACCGTGTAGGCACGATGCAACGTAAAAATACGCTCTGCAGCTAAATCTAATTTTTC -CTGAGTCATCTCTTCGCCGGTGATCGCTTTGAAGAATTTGGCTTCAAGCGCCAGATCGCCCCGGTAATTACGGCTTTTCA -GCGGCGAAACGGTCATTGGCCAGACCCAGTTGCACAGGGTGACGGCGTTATGCAAACAGACCCGCAACAGCGACCACTTT -GCATATTTAATTTTTGCGTCATTGATTGGCGTGTAGTTTTTGGTTTCATCGTAAGCATCTTCAGAACCAAAAAGTTCTTT -CGCCACTTCACGTTGCAGTTTCAATGGCAAGCCGGAACCAATAAAGTTGATATGGGTATGCGTCATGCAGTCACGGTTGA -ACATACAGTTAACAATGGAACCGACCTGCGCTGACGCTTCATTGGCATGGTGAACCGGATAGCCAAACGGCGACCAGAGT -TTATTTTTCGCGTAGCCCCAGTACTCTTCACCCAAATTCCAGCGTTCTGCGATGGCATATGAACCATCAGCCAGGTGACT -CAGCTCACCCACACGATGCGCCAGACGGTAGTAAAAATCTTTAATGAAGTTAACGTCACCCGCTTCCAGTTGATCCCAGC -GAATTTCTGCATACTCTTCAGCTGGCAGAACACGCTTGAACACACCTTTGCTGTAACAATAAGTAAAGTCGCGATGCAAC -TGCCCGTAGTTACACCATAGGCCGTAGTCATCGAACAAATTCAGACCCACCAGGTTACCAATCACACGACCATCGTCTTT -ATCTTCAAAATCTTTCGGCCCGTTCGGGAAGATGGTGGTATGGACAAAGTTTGCTACACAAGTGTTACCACCTGTGCTGG -GCACGCCAAACTCTTTCACCCGAGGAATATTCATTTGGGTCATACAACGGATCGGGCAAGAGTGGCAGCCGCTCATTTTT -ACTGTGTATTTCTCTGCCGCCGGTCCTAAGTCAAAAACGGATTTATAGGTACGAAAGCCGACCGTATTCTGATTGCCTGG -CGGAATTTCACCCGTTTCAATCGGACCACCTTCAGCCGCGCCCCAAAACAGCCCTTTACGTGCTGTCCAGCGTGACTTGG -GATCTGAATACTCTGCCCACGATTGTGGCGTACTTGGCACGACATGGTTGTTATTCGCACCAATAAGTTCAGTCATCATG -TAATCATTGAGACGCTTCATCTCCTGACGATCGGCAATGTTGACCCCTTTCGTCCCTTCAACCGCAATCGCTTTCAGGTT -TTTCGAACCCATTATTGCGCCAGTTCCCGCACCGCCGCTGTGGTTACGGCTATTCAACATGCCAGAGAGAGGAACAAGGT -TTTCCCCAGCCTGACCAATAGCCGCCACACAGGTTTCCGGACTGGTCAATCGACAAATTTCTTCCGTCGTTGCGCGCGTC -CCTTTTCCCCATAAGAAATCGGCTTTTTCCAGGCTAACTTTGTCATCTTTAATCTTCAGCCATACCGGTGATTTCGCCTT -CCCTTCGATAATAATGACGTCGTATCCAGCGAATTTCATTTGCGCTGCAAAAAAGCCACCCATATGGGCATCGACGACTA -AATTTCCTTTGGTAAAAGTAGAAAGTGAGGTGATATTTACGCGAGAACTACAGGGGGCACCAGATCCAGTTAATGGGCCG -GTAGCAAAGACTAATTTATTCGCTTCATCGAAAGGTTTCGTGCCTGGCGGTACTTCGTCATACATAATTTTGTAGCCGAA -GCCCATGCCACCGACAAAACTTTTAAACTTACTGGAATCTTCGAGGGTAATATTTCCTGTCGTGAGATTGACTCTTAATA -TATTACCTGTCCAACCGTTAGCCATGATTTTTTCCTTTGCAAGATTCACACAGTAATATCTTTCCACTCGATAATTTTTA -ACGCCCCTGTTGGGCAGGCGTTTGCGCATTCACCGCATAACACACATTTCGAGGATTTTTTACTTTCGGTATTTACGGTG -GCCATCATCCACGGGCATGCCGTAGTACAGGCGCTACAGCCAATACAGCGTTTATGATCGACGGTAATACAGCCTTCTTT -CTGCTGCCAGGTAATCGCACCAATCGGGCAGACGTTCATGCATTGCGGCTCTTTGCATTGACGGCAGGTGTCCGCGGTAT -AGTTGAGATCGCCATACAGGCCGCCGCCAGAGCCAACCCCGTTGTCGCCAAAGAAATAATTGCGATGGATTTTGATACGG -GAGAAGAATGTCCCTACTGAGCCATCGTTGAAGTTGGTACAAGAGATTTCACAGCGGTGGCAACCCGTGCATCGCGCTCG -CTGGGTCACCAGCACCCCTTTGGGGGTATTTATCAACCCTACTGTGCCGCTATCAATATCTTCCTGTTTGCAACCCAAAA -GTGACAGTAACGCAGGGGCAATTGTTAGACCAGCAAGGCCTTTTCCTGATATACGCAAGAATTCTAATCGCGTTAAGCCA -ATATCTAATAGTGGACGATCAACCGGGTTCATTTATTTCGCATCCTCTTCGCAAACACAGTGCTGACAATTCAGCAGCCT -GATATTAAGCATTCAACTAATACGCTGCTGACTCTGTCCCCAACACCAGATATTTTCCCTAACCCGATAGTGTATGAGAA -AAGATTAACGCCGATAAACTAATCCTTTATGGTTAGGAGAAAAAATAATGTGATTATTCTGAGCCCTTAACATTGATCGT -TATCAATTAAAATTACAAAGCAAGAAATTATAAGTGAACTGATATTTATTATCATTTGAAATAAATTTAACTTAAGCGAC -AATTATTTGTGACTTTCATTGCAGAAAATAAAAATAACATTATCGCTATAAATTAAAATACATACCGAAATTCGTATAAT -TTCAGCAGTTGTTATTTAGAATGATTAACTGGACCGCAACTGAAGCAAGAATATCAGGATGAAGCTTACCGCCTCATCCT -GAATGGTCATTTTACCAGTGCGTTAATGACGGTTTCCATCGCCTGCTTTTCCAGCTCACTGCGCTGAATGCGTTTATTGG -CTAATGCTGTACGTAATACGCCTGCGATAACAATATGCTTTGGTTCCTGCCCCAGATCGCGCATTTCCAGCACAACTTTA -CCGACAACTCTGCACATTTCTCGGTACAGTTCATCCTCTTTTGTCCGATTTCCCATTCTTTATACCTATTTATCATGCCA -ACTATCAGCATATATCAATCTAACCAATTAAACAAAAATCAAACAAAATCAGACAAATAACGCGATAAATTATTTTAACT -GTAGCAATTGAGCGATGATATATTTATACACCGGATGAACTTTCACTTATCCTCACACTGACAACTTCGGCACCAGACGT -TGCGCAAACAGTGAAGTTTTTGCGTAACCTTTTCCCTGGAACGTTAAATCTTTGATAACAATTTATTGTCTAACAAGTTG -TATATTTTTTGAAACGCTGTTTTTGTTTTCCTTTTGGATTAATTTCAGCGTATAATGCGCGCCAATTGACTCTTGAATGG -TTTCAGCACTTTGGACTGTAGAACTCAACGACTCAAAAACAGGCACTCACGTTGGGCTGAGACACAAGCACACATTCCTC -TGCACGCTTTTTCGATGTCACCTATCCTTAGAGCGAGGCACCACCACTTTCGTAATACCGGATTCGCTTTCCGGCAGTGC -GCCCAGAAAGCAAGTTTCTCCCATCCTTCTCAACTTAAAGACTAAGACTGTCATGAAAAAGACCAAAATTGTTTGCACCA -TCGGACCGAAAACCGAATCTGAAGAGATGTTAGCTAAAATGCTGGACGCTGGCATGAACGTTATGCGTCTGAACTTCTCT -CATGGTGACTATGCAGAACACGGTCAGCGCATTCAGAATCTGCGCAACGTGATGAGCAAAACTGGTAAAACCGCCGCTAT -CCTGCTTGATACCAAAGGTCCGGAAATCCGCACCATGAAACTGGAAGGCGGTAACGACGTTTCTCTGAAAGCTGGTCAGA -CCTTTACTTTCACCACTGATAAATCTGTTATCGGCAACAGCGAAATGGTTGCGGTAACGTATGAAGGTTTCACTACTGAC -CTGTCTGTTGGCAACACCGTACTGGTTGACGATGGTCTGATCGGTATGGAAGTTACCGCCATTGAAGGTAACAAAGTTAT -CTGTAAAGTGCTGAACAACGGTGACCTGGGCGAAAACAAAGGTGTGAACCTGCCTGGCGTTTCCATTGCTCTGCCAGCAC -TGGCTGAAAAAGACAAACAGGACCTGATCTTTGGTTGCGAACAAGGCGTAGACTTTGTTGCTGCTTCCTTTATTCGTAAG -CGTTCTGACGTTATCGAAATCCGTGAGCACCTGAAAGCGCACGGCGGCGAAAACATCCACATCATCTCCAAAATCGAAAA -CCAGGAAGGCCTCAACAACTTCGACGAAATCCTCGAAGCCTCTGACGGCATCATGGTTGCGCGTGGCGACCTGGGTGTAG -AAATCCCGGTAGAAGAAGTTATCTTCGCCCAGAAGATGATGATCGAAAAATGTATCCGTGCACGTAAAGTCGTTATCACT -GCGACCCAGATGCTGGATTCCATGATCAAAAACCCACGCCCGACTCGCGCAGAAGCCGGTGACGTTGCAAACGCCATCCT -CGACGGTACTGACGCAGTGATGCTGTCTGGTGAATCCGCAAAAGGTAAATACCCGCTGGAAGCGGTTTCTATCATGGCGA -CCATCTGCGAACGTACCGACCGCGTGATGAACAGCCGTCTCGAGTTCAACAATGACAACCGTAAACTGCGCATTACCGAA -GCGGTATGCCGTGGTGCCGTTGAAACTGCTGAAAAACTGGATGCTCCGCTGATCGTGGTTGCTACTCAGGGCGGTAAATC -TGCTCGCGCAGTACGTAAATACTTCCCGGATGCCACCATCCTGGCACTGACCACCAACGAAAAAACGGCTCATCAGTTGG -TACTGAGCAAAGGCGTTGTGCCGCAGCTTGTTAAAGAGATCACTTCTACTGATGATTTCTACCGTCTGGGTAAAGAACTG -GCTCTGCAGAGCGGTCTGGCACACAAAGGTGACGTTGTAGTTATGGTTTCTGGTGCACTGGTACCGAGCGGCACTACTAA -CACCGCATCTGTTCACGTCCTGTAATATTGCTTTTGTGAATTAATTTGTATATCGAAGCGCCCTGATGGGCGCTTTTTTT -ATTTAATCGATAACCAGAAGCAATAAAAAATCAAATCGGATTTCACTATATAATCTCACTTTATCTAAGATGAATCCGAT -GGAAGCATCCTGTTTTCTCTCAATTTTTTTATCTAAAACCCAGCGTTCGATGCTTCTTTGAGCGAACGATCAAAAATAAG -TGCCTTCCCATCAAAAAAATATTCTCAACATAAAAAACTTTGTGTAATACTTGTAACGCTACATGGAGATTAACTCAATC -TAGAGGGTATTAATAATGAAAGCTACTAAACTGGTACTGGGCGCGGTAATCCTGGGTTCTACTCTGCTGGCAGGTTGCTC -CAGCAACGCTAAAATCGATCAGCTGTCTTCTGACGTTCAGACTCTGAACGCTAAAGTTGACCAGCTGAGCAACGACGTGA -ACGCAATGCGTTCCGACGTTCAGGCTGCTAAAGATGACGCAGCTCGTGCTAACCAGCGTCTGGACAACATGGCTACTAAA -TACCGCAAGTAATAGTACCTGTGAAGTGAAAAATGGCGCACATTGTGCGCCATTTTTTTTGTCTGCCGTTTACCGCTACT -GCGTCACGCGTAACATATTCCCTTGCTCTGGTTCACCATTCTGCGCTGACTCTACTGAAGGCGCATTGCTGGCTGCGGGA -GTTGCTCCACTGCTCACCGAAACCGGATACCCTGCCCGACGATACAACGCTTTATCGACTAACTTCTGATCTACAGCCTT -ATTGTCTTTAAATTGCGTAAAGCCTGCTGGCAGTGTGTATGGCATTGTCTGAACGTTCTGCTGTTCTTCTGCCGATAGTG -GTCGATGTACTTCAACATAACGCATCCCGTTAGGCTCCACGGAATATTTCACCGGTTCGTTGATCACTTTCACCGGCGTT -CCCGTCCGCACGCTGGAGAACAAGGCTTTAATATCCGGTGCATTCATGCGAATACACCCTGAACTGACGCGCAAACCGAC -GCTGTCCGGCGCACTGGTACCATGAATGAGGTATTCGCCATTACCATGCGCGAGGCGCAGTGCGTAACGTCCTAGCGGGT -TATTTGGTCCGGCAGGAACGACTGGCGGTAATTTAATGCCACGCTCCAGCGAACGCTGACGAATGCCTGCCGTAGGCGTC -CAGGTTGGGTTAGGGATTTTCTGCCCAACACGCGTTTCCATCACCGGCGTTTCCAGCCCCTGCAATCCAATACCTATTGG -ATAAACCTGCACAATATTTTCTCCCGGCGGATAATAATAAAGGCGCAGCTCTGCAAGGTTAACGATAATCCCCTGACGCG -GTGCATCAGGTAATAACAGTTGTGAAGGAATAGTTATCGTCGTACCAGGTTTTGGCACCGGGGCGATAGTGTTATTGGCT -TCAAGGATCAACATTGCCGCAGTATCAAAACGTCGGGCAATAGCCTGAAGGTTTTTATCCCCTTCTTGCACCGTATACGT -TTGATTTTGCCCAACCAGTCGGCTTCCGGTTGGTGGTAGCGGATAATCAACCGCCCAGGCAGCCTGGATGGCGCTAAAAG -CGCCGATAAGCGTGAGTGTAAGCAAAGACGCGCGTTTCATTGTAAACCTCCTGTATTTGCCGGAGACTCACGCTGAAACG -TCGGATGGCGCTTATGTTCACCTGAAACCAAAACACTCCTGTGCAGGTCAGTGTAAACATTGACCATCCGGCAATGTGAG -CCAACCGGATGAAAGCTGTCCTTTTAGTTTAGCTAAGTGCAGCGGCTTTGGCGCGAATTGCGCGAATCATCGCTTCCAGA -CCTTGTGAACGAGATGGGGTGAGATGTTGGGTGAGCGCCATTTTTTCAAACCACGGACGCACATCGAAATTGACAATATC -CTGCGGCGTCATCTGATCGTAGAGAATAAAGACGACCGCAATAAGCCCTTTCACAATCGCCGCATCGCTGTCGCCCTGTA -ATTCAATAATTCCCTGGGCATTCTGGCGCATGACAATCCACACCTGACTCTGACAGCCCTGAATGCTATTTTGTGGACTT -CTGTCTTCGTCGCGTAATTCTGGCAGACGCTGGCCCAGCTCAATAATGTAGAGATATTTCTCTTCCCAGTTGGCGCAGCG -TAAAAAATTACGCAGCAACTTTTCTTTATCCGGCAATAAAGCCATAGTGCCTCCCTGTTATCCCAGCAAACGGTGAATAC -GTTGCAGGCCGGTCACCAGACGATCCACTTCTTCATGGGTGTTATACATGGCCAGCGACGCCCGACACATCGCAGGGACG -TTGTAATAGGCCATCAATGGCATTGCGCAGTGATGTCCGGTACGCACAGCAATGCCGTAATTATCGAGAAAACTGCCAAC -ATCATAGGCGTGGTGTTTACCGAGATTAAAAGCAATAACGCCAAGCCTGTTTTGTGGGCCATAGAGAGTGAGATCCGGTA -CAGATTCCAGCTGTGATAGCGCATAATGCATCAGATTCTGTTCATACTCGGCTATGTTATTAAGCCCCAGCGCCGAAACA -TACTCCAGCGCCGCGCCAAGACCAATGATGCCCCCGGTATTGGGTGTACCGGCTTCAAACCGCCATGGTGCTTTGGTCCA -GGTAGTGCCTTCACTCAGGCTGACGGTGGCGATCATAGAACCGCCCCCTTCCCACGGCGGCATCTCCTGCAACAAGGCTT -CTTTCACATAAAGAATGCCAATTCCGGTGGGGCCATACAGTTTATGCCCGGAGAACACGTAAAAGTCGCAATCCAGCGCC -TGAACATCCACCGGATGATGCATCACCGCCTGAGCGCCATCCACCAGCACTTTTGCGCCATGCTGGTGCGCAAGCGTGAT -CATTTCCGCCAGTGGATTTTCTGTGCCAAGCACGTTGGAGACATGAGTAATTGCCAGCAGGCGAGTTTTCTCATCAAACA -GCGTAGGCAGCGTCTCCAGTTGCAACGTACCATCGGGATTGAGCGGGATCACACGCAGCTCTGCGCCAACGCGTGCGCAA -AGCATCTGCCAGGGAACAATGTTAGCGTGGTGCTCCATCTGACTGATGATGATGTTATCGCCCGCCCGCACGTTGCTGTT -GCCCCAGCTATTGGCGACCAGATTGATCCCTTCCGTCGTGCCGCGGACGAACACCAGCTCTTCCGCCGAACGGGCATTAA -TAAACAGCGATGCCCGCTTGCGCACGTTCTCCATTTTCTCGGTCGCCTGGGCGCTTAAGGTATGAATACCACGATGCACC -GCCGCGTAGCCATGACGATAAAACTCGGCCTCGGCGTCAATCACCTGGCTCGGTTTCTGCGCACTGGCGGCGCTGTCGAG -ATAAGCCAGCGGCAAACCGTTTACCTCACGCGAAAGCACCGGAAAGTCGGCCCGCACTTTGTCGACGGAAAAAATCATCT -TGCACCTCCTGGCAGCCGTTGACCGATTCGGGCCAGCACCTGCTGTTTAAGCCCCTCATCACGCAGTGCTTCCGTCAGTT -CGGCAGCGAAGGCGTAAATGATCATCTGCTGGGCATCCTGCTGATTGATCCCGCGCGAGCGCAGATAGAATATCTGTTCA -TCATCAATACGCCCCACCGTCGCGCCGTGGCTGCATTTCACATCATCTGCATAGATTTCCAGCTGCGGTTTCGTATCCAC -TTCCGCCAGTTTGCCCATCAGCAGATTGTTGTTGGTCATCTGACCATCCGTTTTGATGGCGTGCTGCGCGACGTTGATCA -AACCGTTAAATACCGCGCGGCCTTTGTCGCTGACGATAGTTTTGTGCAACTGTCGGCTGTTACAAAAACCTTTATTGTGT -TCCAGCCAGGTACGGGTATCACACACCTCGTTTTTCACCGGCATCGCCAGGCTATTGATCCGCAGCGTGCTGTTTTCGCC -ATTGAGTTGCGTACTGGTGTTGTGTCGTAACACTGCGCCACCCAGCAGGAAACTGTGGCTAAATGCGGTGGCATCCTCAG -CCAGCAACAAATCGTTATGAGCAAAGTGGTGACTGAGCGGGTTTTCAAACGCCAGCTTGATATGCTGCAAGTGGGCATTC -GCTGCGACGTTGATAGTGAACCGTGCCCCGGTAAAATGACGAGCATCATTCAGGCTGACAAAATGTTCGATCACCGTTGC -TTCGGCACCTTCCGCCAGATCCAGATGATGTCGGTAATGGGCAGTGTTCACCTCTTCACCTGCCACGCCCTGGGTGATAT -GCATTAACAGCAATGGCTTTGCCGGCCGTTGACCGCGCTTCACGGCGATATGCGTCACGCTTTGTGCCAGGCTTTCCGTC -AAATGCAGAAACACTTCCGCCTGAATAGCGTCGGGTAAACCCTGACGGTCGTCGTTAATGCTCACTTCATATCCGCTGCC -TTCAGTTGCATCGCTCAGTGCGGGCACGTAACGCCCATCGACAAACACCAGCCGCACGGAGTCTAACGTTAACGCTAAGG -CATCACGCTGCTGTGGGGATATCTCTCCCGCAATGCTGACAAACTGGCTATTGATCAGCCCTTCCAGCGGCGTATATTTC -CAGTTTTCATGTTTACGTGTCGGCAGTCCGGTACGCAGCAATTGTTGTAAATGCTGCTGTGCTTGCGGGGAGCGTTTTGT -CCCTTCAGCTTCAAACAAGTGATGCCACTGTTGCAGCGCGTTACTGCTGTTCGGTAAGCCAGCCATAACCCTGCTCCTCC -AGTTGTTTGACCAACGTGAAATCGCCGGATTTCACAATTCGTCCCTGATATAGCACATGAACGTAATCAGGCTTGATGTA -GTCGAGAATGCGTTGGTAGTGCGTAACAATGATGAATGAGCGCTTGCCATCACGCAGCGAGTTCACGCCATCGGCGACCA -CTTTTAATGCGTCAATATCCAGCCCGGAGTCCGACTCATCAAGAATGCATAACTCCGGTTCCAGCACCGCCATTTGCAAA -ATATCGTTGCGCTTTTTCTCGCCGCCGGAAAAACCAACGTTTACCGAACGGGTTAATAAATCTTCCGGCATCTTCAGGAG -AGCGATTTTCTCTTCCATCAAATCCTGAAAATCAAAGCGGTCGAGCGTTTCCTGGCCGCGATAGCTGCGCACCGCATTAA -GTGCCGTTTGCAGGAAAAACTGGTTACTGACACCTGGAATCTCCACCGGATACTGGAAGGCCATAAAGATGCCTTCGCCC -GCGCGATCTTCCGGCGACAGCGCAAGCAAATCTTTGCCTTTGAACTCAACCGTGCCGCCCGTCACTTCATAATCTTCTCG -CCCGGCAAGCGTTGCCGATAAGGTACTTTTGCCCGAACCGTTTGGCCCCATAATGGCGTGAACTTCGCCGGGATGAACGT -CGAGGCTTAATCCGCGCAGGATAGCTTTATCTTCCACGCTGACGTGTAAATCTTTAATACTTAACATGTTTATTCCTTAT -CCGACGCTGTGTTCAAGACTGATGGCGAGGAGTTTTTGTGCTTCAACGGCAAATTCCAACGGCAGCTCCGAGAACACGTC -TTTGCAGAAACCGTTAACAATCATCGAGATGGCGTCTTCTTCGCTGATCCCGCGTTGCAGGCAGTAAAACAGTTGATCTT -CACCAATACGTGATGTCGTTGCCTCGTGTTCCAGTTGCGCACTATTGTTACGACACTCAACATACGGGAAGGTATGCGCC -CCACAATTAGCGCCAATCAGCATTGAGTCGCACTGAGTGAAATTGCGCGCATTGGTTGCCGTCGGCATGATTTTCACTAA -GCCGCGATAACTGTTCTGACTATGTCCGGCAGAGATCCCTTTCGAGATAATGGTCGATTTGGTGTTTTTACCGATGTGGA -TCATCTTGGTGCCGGTATCCGCTTGCTGATGACCGCTGGTCAGCGCCACTGAGTAAAACTCACCAATGGAGTTATCGCCG -CGCAAAATGCAGCTGGGATATTTCCACGTAATCGCTGACCCGGTTTCTGATTGCGTCCATGACATTTTGCTGTTTTCGCC -TTCGCACAAAGCACGCTTGGTGACGAAGTTGAGAATACCGCCGGTGTTGTTATCGCCAGGAAACCAGTTTTGTACCGTGG -AATATTTCACCTCGGCGTTTTTATGGATGATGACTTCCACCACTGCCGCGTGTAACTGATAGCTGTCACGCACCGGAGCG -GAACAGCCTTCAATGTAGCTGACGTAGCTGTCTTCGTCGGCCACCAGAATGGTGCGCTCAAACTGCCCGGTTTTTTCTGC -GTTAATGCGAAAATAGGTGGAAAGTTCCATCGGGCAGCGCACGCCTTTAGGCACATAAATAAACGTACCATCAGAGGCTA -CCGCCGCATTAAGCGCGGCAAAGAAGTTGTCATTCCCCGGCACCACGGTGCCGAGATATTTACGCACCAGTTCCGGGTGA -TCGTGGATCGCCTCACCAAAGGAACAGAAAATAATTCCCTGCTCCGCCAGTTTTTCGCGATAAGTAGTGGCAACCGAAAC -TGAGTCGAAAATGGCATCCACCGCCACCTCTTTGCCTTCCCGCACGGGAACGCCCAACTGCTCAAACGCCGCCTCCACCT -CTTTACTTAAAAAGGCGTTCGCGCCAGTTTGCTGCACCGCGCCAGGTTCAGACGCGCAAGTGTCGTCACAATTACCGCAC -GATGGTGCTGAGTAGTAGCTGTAATCCTGATAATTCAGCTTGTCGTAGTGCGCTTTCAACCAGTGCGGTTCTTCCATCTC -CAGCCATGCGCGATAGGCGTTTAGACGAAACTCCAGCATCCACTCCGGCTCATTACGCTTCGCCGAAATTGCGCGCACCA -CCTCTTCGTTTATCCCCTTTGCCAGCTCATCGGTGGCTAACTGGGTGAAGAATCCTTCTTTATAATTCAGCGGGCCGCCG -GTCCAGGTTTTGACATCGTCAGTTGCTTCAGTATTACGAGACATAGTACCGCCTATACCCCAAAGCTTTCGCCACAGCCA -CATTCATTCTGGGCTTTAGGGTTGTGAAATTTGAATATCTGATTAAGTCCTTCACGAACGAAATCGACTTCCGTGCCATC -AATAAACGGCATCGCTTGCAGCGGGACAAACAGCTTCGCGCCGTCGTGTTCAAACAGCAGATCGTCTTTGTCCGGCTCGC -TAACACTGTCGAGCACATAGCCAAAGCCCGCGCAGCCCGTTTGCTTCACGCCTAAGCGCACGCCGACCATACCCGGCTGC -TTTGCCACCAGCTCACGGATGTGTATCGCCGCTGCGGGTGTCAGCGTTAAGCCTTGCCAGGCGAAATCTTGTGGGTTAAA -GGTTCCTGAATGCATGTCCATCGATTTACCTCACTTCATCGCTTTCAGCGTATAACAGCATGTTAGTGATAATGATTATC -AGTTCAACCCAGCAAACGCAGGGGCTTTACCGTAAAACATGCTTTTTGCCTGCTTTTAATAAGCATAGACCCTGATGTGT -GGGTTAACAGGCACGCTAAGAATTAGGTATCTCATTGTTAGATAATGGTTATTATCTAAGGAGCATTAAGGCTGTGATGA -AAAAGAAAAAGTTGTATTGAAAATGACTATTTAAGAGATAGGTAAAAAAGTGCAGCGTTCAGAAATAAGAAAACCCTTAA -GTCTGTGCGACACAGGCTTAAGGGTTTCTACCCCATCCGGCGCTTATCTCCGGCACTCTCAGTGGCTTAGCTCTTGAAGG -GGCGATAAGAATAATCTCATAAAGCTAACCCGCCGTTTTAACACAAACTGCGATTAGTATTATTTTTGAACAATATCAGG -CGGTAGATAAGCAGTATTAAGAAGGTCATCGAACCTGGACGGAGGTTAATCCAGGTCGATTTGGCGAACTTGCGGCATTA -AGTCAGGATCAATGCACGCCCAGACGCCAGGCAAAGTAGATTTCTTCTTTTAATTCAGCAGAAGAGAGAGTAAGCAGGTC -AGCAAATTCAAGTTCTAGTTGTTTCAGACGTTTGAGATATTGGGCAGGTGAAAGATTGCTCTGGTCACGGCGTAAAAATT -CAATGGCCAGCTGGGTGGGATCAAGTTGAGTAGACATAGCATCCTCGCTTTTAGACAAGACCTGCACAGTATACCACCGT -TTACTGTGCAGATAATGACCAAAAGCAATATGCGTCACACTTTTCTGGTGACAACGTCACAAAATGGCGGTCGTCAATCG -TGACGAACAGCACAAACGCCCTTTCTCATCGAAGATTTCAATCTGCCAGACCTGGTGACGCGAACCGAGATGCAACGGTT -TGCATACGCCGCGCACCCGCCCTTCTCGTGCCGAGCGGACGTGGTTAGCATTGATTTCCAGACCAACCACTTTTTGCTCA -CCTTCGGTACATAAATAACCGGCAACGGAACCGATACTTTCGGCCAGTACCACGGATGCTCCTCCATGCAGCAACCCGAA -AGGCTGCTTTGTCCGCGAGTCTACTGGCATTGTCGCTTCAAGGGTGTCATCACCAATATGTTCAAAGCGAATATCCAGGA -ACCCCACCATGTTTCCTTCACCCATAGCATTCAGTGCTTCCAGGGTGATTTTCCGTTTCCATATCATTTAATAATCTCCA -GTAAAGCCTGCACAGGATGGCGTACCCCCGTGCCTTCAACCCGTTTTACCTGGCTACGGCAGGAATATCCGGTCGCCAGA -CAGCGGTTACGCGGCAGTCGCTGCATAGCCTGATGCCAGGATAACTCATAGATCCCGAGCGAATTTTCATGGTTTTTCGC -TTCATGTCCGTAAGTCCCTGCCATGCCGCAGCAACCCACGCTGACATTTTCCAGTTTCGCGCCAAAACGGGCAAATATCG -CGGCCCATTGTGCTGGCGCACCCGGCAAGGCGGTAACTTCGGTACAGTGACCAAAGAAATACCATGATTCACCGCTGACT -GTAGCCACTGGCTGTGACTCAAGTGCGCTTGCCAGCCATTCATTCGCCAGTAAGACGTTAAACTCGCCACGCTCCTCGCC -CAGCGCCAGTTTATATTCATCGCGATAACAAAGTACCAGCGCCGGATCGACGCCCACCATTGGCATACCCAGCTTCGCCA -TACGGTTGAGGAAATCCGCCGTCTTTTTCGCCGTCTTCGCAAAACGATTAAGAAAACCTTTAATATGCTGGGCTTTGCCA -TTTGGCGAAAATGGCAGTAACACAGGCTGGAAACCTAATTTTTCGACCAGACGGACAAAATCCGCCACCACTTGCGCATC -GTAATAGCTGGTAAAGGGGTCCTGCACCACCAACACTGTGCGCGCTTTCTGCTCTGCATTGAGAGATTCAAGCTGTTCCA -GCGTCATGTTTGCCGAGCGATGCCCCACCATTTGTTGTTGTAGCGAGGGGACCGACAGCAGCGGCAAATCAACCATGCCG -ATATGTTTTTCCGAGAGTTTGCGCACCAGCGGCTGGTTAATGAAGAAGTTAAAGGTTTTCGGCGCGCGTGCCATCAGCGG -CGCGTAGCTCTCGACCGTAGCGACGAGGTGGTCGCGCAGCGGGCGTAAATAACGGGTGTGATAGAGCTGCAGAAAACGAG -AGCGAAACTCCGGCACATCAATTTTGATGGGGCACTGGGTCGAACACGCTTTACAGGCCAGACAGCCCGACATCGCCTCT -TTGACTTCGTGTGAGAAGTCATATTCGCCTTTATTCGCATGCCAGCTATTGCGCGTGCGGGCAATTAACGTCCGCAAACT -GACGCCGGATTCAGGCAGTTCTTGTTCCAGTTTGAGTGGATCAACGCCGCGATCCGCCAACAAACGCAGCCATTCACGCA -CCAGCGTTGCGCGCCCTTTCGGTGAATGAATCCGGTTCTGGGTGATCTTCATCGACGGACACATCGGACTACGGGCATCA -AAGTTGAAGCATAAACCGTTGCCGTTACACTCCATCGCACCGCGCCACTGCTGGCGTACCGCAATGGGGATCTGCCGATC -GAATGTACCGCGCTTCACCGCGTCCACTTTCATCATCGGCGCATCGAGACCTTCTGGCGGGCAAATCTTCCCTGGGTTGA -GTCGGTTATGCGGGTCAAATGCCGCTTTCACTTTGCGCAGTTCTGCAAAAAGTTCCTCACCGAAAAACGCCGGGCTGTAT -TCAGCGCGAAAACCTTTGCCGTGCTCGCCCCACAACAAACCACCGTATTTCGCAGTCAGCGCCACCACGTCATCAGAGAT -TTGCTTCATCAAAATCTCTTGTTGAGGATCGCACATATCCAGCGCTGGACGGACGTGCAAGACACCTGCGTCGACGTGAC -CGAACATACCGTAGCTTAAGCCGTGGCTGTCGAGCAGCGCGCGAAATTCAGCAATATAATCCGCCAGGTGTTCCGGCGGT -ACGCAGGTATCCTCAGCAAACGGAATTGGCTTAGCGGCACCTTTGGCATTGCCAAGCAGACCAACGGCTTTTTTGCGCAT -TGCATAGATACGTTCAACCCCCGCCAGCTCACGGCACACCTGCCAGCCGATGACACCTGCTTGATGACTGGCGATCAGCT -CATCCAACCGCGCACAGAGTGCATTTACCCGCTCATCAATCAGCGCCTCATCATCACCAGCAAATTCCACAATGTTCAGC -CCGAGCATCTCTTGGTCAGGCACATCGGTAATCAACTCGCTGACGGAATGCCAGACAATATCTTCCCGCGCCAGATTCAG -CACTTTTGAGTCCACCGTCTCTACCGAAAGCGCCCGCGCCTCAACCATAAACGGCGCGTTACGCAGCGCAGAGTCAAAAG -AGTCATATTTGACGTTCACCAGACGGCGCACTTTAGGCAAGCGTGTAATATCCAGCCGCGCTTCGGTAATAAAGGCCAGC -GTCCCTTCTGAACCCGTCAGAATGCGCGTCAGGTCGAACTCGGTCATCTCATCGTTAAAGACATGACGCAGATCGTAACC -GGTAAGAAAGCGGTTAAGTTTGGGGAAGTTGTCGATAATTAACTGGCGTTGCTGACGGCAACGTTGATAAACCGTGTTAT -AAATTCGCCCGATTGTGGTATTGGATTTACCCAGCGTTTCCGCCAATTCGACGGGTAAAGGTTGCGTATCGAGAATATCG -CCCCCCAACAACACCGCGCGTACGCCAAGTACGTGATCTGACGTTTTGCCATAGACCAGCGATCCCTGACCGGATGCATC -GGTATTGATCATCCCACCGAGCGTTGCCCGGTTGCTGGTCGAAAGTTCCGGCGCAAAAAAGTAGCCGAACGGTTTCAGGT -ACTGATTGAGTTGATCTTTTATCACCCCGGCCTCAACGCGCACCCAGCCCTCTTCAGGGTTAATTTCGATGATGCGGTTC -ATATGGCGGGACATATCAACAATAATCCCCTGGTTGAGCGCCTGACCGTTAGTGCCGGTGCCGCCGCCGCGGGGGGTAAA -GATCAGCGATGAATAGCGTTCCTGCGCGGCAAGACGGGCGATCAGCGCCACATCTGCGGTTGAACGCGGAAATACCACCG -CATCGGGGAGAAGTTGGTAAATACTGTTGTCGGTCGACATTGTCAGACGATCGGCATAACTTGTCGCCGTATCGCCGGTA -AAACCTTGTTGCTCCAGCTCTTGCAAAAAATTAAGCACCAGTTGAACGACGCCGGGTGCCTGGGAAATCTGTGGAATCAT -TATATTGACCCTTTCCTGCGGTCTGTGATGTAGGTCGATACACTATTCTTTCAGGCTGCTGCAATAGCGCACTGAAAGGT -GATGTTTGTTTACTCTATGGATTTCGTGTTGCAGGAAGGCGGCAAGCGAGTGAACTCCAGGAGCTTACAATAGTAAGTGA -CTGGGGTGAACGAACGTAGCCGCAGCACATGCAACTTGAAATACGACGAGTAAATCGTTTGCGTGTTGCCTGAGTTGTTG -TACCACATTTTTTTCTAACACGCCCATCAGAATTAAGGGCAGAATCGGCCTGTTAAAAACCGCTGAAATTGCTCATCATT -ATGCAGGTGAGTTTCGCGTGTTCACGTCGCGTCGACGATTTGACGCACAAAAAAGGTGAAAAGTAGTTATGGTAAATGTT -CGTCAGCCCAGGGATGTCGCACAAATTCTGCTTTCGGTGCTGTTTTTAGCCATCATGATTGTGGCATGTCTGTGGATTGT -TCAACCCTTTATTCTCGGCTTTGCATGGGCCGGTACGGTGGTTATCGCCACCTGGCCGGTATTGTTACGTTTGCAAAAGA -TCATGTTTGGCCGCCGCTCTCTCGCCGTTCTGGTGATGACGCTGTTATTAGTGATGGTGTTTATCATCCCTATTGCTTTG -CTGGTTAACAGTATCGTCGACGGCAGCGGCCCGCTAATTAAAGCCATTTCCAGCGGTGACATGACGTTACCCGATCTGGC -GTGGCTTAATACCATTCCGGTGATTGGCGCGAAGCTGTATGCAGGCTGGCACAACTTGCTGGATATGGGGGGGACGGCGA -TCATGGCGAAAGTCCGCCCTTATATTGGCACCACCACCACCTGGTTCGTTGGGCAGGCGGCGCATATCGGGCGCTTTATG -GTGCATTGTGCGCTGATGCTTCTCTTCAGTGCCCTGCTGTACTGGCGCGGTGAACAGGTGGCACAAGGCATTCGCCATTT -TGCAACCCGTCTGGCAGGCGTTCGCGGAGATGCCGCCGTGCTGCTGGCGGCACAGGCTATCCGCGCGGTGGCGCTGGGTG -TGGTGGTGACGGCGTTAGTACAGGCAGTGCTTGGCGGTATCGGCCTCGCCGTATCCGGCGTACCTTATGCAACGTTGCTA -ACGGTGTTAATGATCCTCTCCTGCCTTGTCCAGCTTGGCCCGTTGCCGGTACTGATTCCGGCGATTATCTGGCTCTACTG -GACTGGCGATACCACCTGGGGAACGGTATTGTTAGTGTGGAGCGGTGTGGTTGGCACGCTGGATAACGTCATCCGCCCAA -TGTTAATTCGCATGGGTGCCGATTTACCGCTGATCCTGATTCTCTCTGGCGTTATTGGTGGTTTGATTGCTTTCGGGATG -ATCGGTCTGTTTATTGGTCCGGTTCTGTTAGCCGTTTCCTGGCGTCTGTTTGCCGCGTGGGTGGAAGAAGTCCCGCCGCC -GACGGACCAACCGGAAGAAATTCTCGAAGAACTTGGCGAAATCGAGAAACCGAATAAGTAATTTCTCATCAGGCGGCTCT -GCCGCCTGATTGTTAACCACCGCTAATTGATATTTGCTTGCTCTTCCCCATATTTTCCTGCTTACCGCCATTCAGCTGGT -AGTACCTGTCGCAAATTCTTTACAGTTTTTAAACTAATGAGACGAATCTGATCGACGCAAAAAGTCCGTATGCCTACTAT -TAGCTCACGGTTATAAATCAACATATTGATTTATAAGCATGGAAATCCCCTGAGTGAAACAACGAATTGCTGTGTGTAGT -CTTTGCCCATCTCCCACGATGGGCTTTTTTTTAACATTTTTCCGCTTCGCTACCTCGCCCCTCACTCTTTCCAATAATGT -TGCACAAGATACTGTGACTCTCTTCAAGCCGTCAGCAGGCTGATAATGTTATTTATATTTTATTGTTTATTTCATGCAGC -CATTACACGATGAACGCTTATGAACTCCAGGCACTCCGCCATATTTTTGCCATGACTATTGATGAATGCGCGACCTGGAT -TGCCCAGACCGGTGACAGTGAAAGCTGGCGTCAGTGGGAAAATGGCAAGTGTGCCATTCCTGATCGTGTAGTCGAGCAAC -TGTTGGCTATGCGTCAGCAAAGAAAAAAACATCTTCATGCCATCATAGAGAAAATAAATAACCGCATCGGCAACAACACC -ATGCGTTTTTTCCCCGACTTAACCGCATTTCAACGAGTCTACCCTGATGGCAATTTTATTGACTGGAAGATCTATCAATC -GGTAGCTGCTGAATTATATGCACACGATCTGGAGCGGCTTTGTTAATTTTTCCACAGAAAGGAATTGTCGTTGTTACAAC -AATAATGAACGGATGCTGACACAACATCGCTTCACTTTTTAAAGCACCTTTGCTAAGTAGAACCTATGAAAAATCCCTAT -TTCCCTACCGCACTTGGGTTGTATTTTAATTACCTGGTGCATGGTATGGGCGTCCTTTTGATGAGCCTGAATATGGCCTC -GCTGGAGACACTTTGGCAGACTAATGCCGCGGGTGTCTCGATAGTTATCTCATCGCTGGGCATTGGTCGATTAAGTGTCT -TGCTTTTTGCAGGATTATTATCCGATCGCTTTGGTCGCCGCCCTTTTATCATGCTCGGGATGTGCTGCTATATGGCCTTC -TTTTTTGGCATCCTGCAGACCAATAACATCATTATCGCTTATGTTTTTGGCTTTCTGGCGGGAATGGCAAACAGTTTTCT -CGATGCAGGCACTTATCCCAGTTTGATGGAAGCTTTTCCACGCTCACCTGGGACAGCCAATATTTTAATTAAAGCATTTG -TTTCCAGCGGACAATTTTTATTACCGCTAATCATTAGCCTGTTAGTGTGGGCTGAACTGTGGTTCGGTTGGTCCTTTATG -ATTGCTGCAGGCATTATGTTTATTAACGCTCTGTTTTTATACCGTTGTACGTTCCCACCCCATCCGGGTCGTCGCTTACC -TGTCATAAAGAAAACCACCAGCTCTACGGAACATCGCTGTTCAATTATCGATTTAGCCAGTTATACCTTATATGGCTATA -TCTCAATGGCAACGTTTTATCTGGTTAGCCAGTGGCTGGCACAGTACGGACAATTTGTTGCAGGCATGTCATACACTATG -TCGATCAAACTACTCAGTATCTACACCGTGGGTTCGCTGCTTTGTGTATTTATTACCGCTCCACTCATTCGTAATACCGT -TCGCCCAACAACATTACTGATGCTGTACACCTTTATCTCATTTATTGCTCTGTTTACCGTCTGCCTGCATCCCACATTTT -ATGTGGTGATAATATTTGCTTTTGTCATTGGTTTTACCTCTGCTGGAGGTGTTGTGCAAATTGGCCTGACGTTAATGGCT -GAACGTTTCCCTTACGCTAAAGGTAAAGCTACAGGGATCTATTACAGTGCGGGCAGTATTGCGACCTTTACTATTCCGTT -GATTACGGCTCATCTGTCCCAAAGAAGTATTGCCGATATTATGTGGTTCGATACCGCCATCGCTGCCATCGGTTTTTTAC -TGGCACTGTTTATCGGCTTACGCAGCCGCAAAAAAACGCGGCATCACTCGCTAAAGGAAAATGTCGCTCCGGGTGGGTAA -TGCAATATTCTTTTCAGGTCATGCAAGATCTTACGGATAAATAACTCTTTCTGCGCTAACTAAGGAAAATCGCGATCAAA -AACAAACTATGACATGCAATATTCCTGGAAACATAAACTTTATGCCATGTACCCAGGGAAAATCATCTTCAGTATAGTAA -TTATGTAAACCGTCGGAGAACAATACGTACGGTAACGAAATTATCTTTCAGCAAGGAGCTGTGAAAATGTCTCAAAATAA -GGCTTTCAGCACGCCATTTATCCTGGCTGTTCTTTGTATTTACTTCAGCTACTTCCTGCACGGCATTAGTGTTATTACGC -TTGCCCAAAATATGTCATCTCTGGCGGAAAAGTTTTCCACTGACAACGCGGGCATTGCCTACTTAATTTCCGGTATCGGT -TTGGGGCGATTGATCAGTATTTTATTCTTCGGTGTGATCTCCGATAAGTTTGGTCGTCGGGCGGTGATATTAATGGCAGT -AATAATGTATCTGCTATTCTTCTTTGGTATTCCCGCTTGCCCGAATTTAACTCTCGCCTACGGTCTGGCAGTGTGCGTAG -GTATCGCTAACTCAGCGCTGGATACGGGTGGCTACCCCGCGCTCATGGAATGCTTTCCGAAAGCCTCTGGTTCGGCGGTC -ATACTGGTTAAAGCGATGGTGTCATTTGGGCAAATGTTCTACCCAATGCTGGTGAGCTATATGTTGCTCAATAATATCTG -GTACGGCTATGGGCTGATTATTCCGGGTATTCTATTTGTACTGATCACGCTGATGCTGTTGAAAAGCAAATTCCCCAGCC -AGTTGGTGGACGCCAGCGTAACTAATGAATTACCGCAAATGAACAGCAAACCGTTAGTCTGGCTGGAAGGTGTTTCATCG -GTACTGTTCGGTGTAGCCGCATTCTCGACCTTTTATGTGATTGTGGTGTGGATGCCCAAATATGCGATGGCTTTTGCTGG -TATGTCAGAAGCTGAGGCATTAAAAACCATCTCTTATTACAGTATGGGCTCGTTGGTCTGTGTCTTTATTTTTGCCGCAC -TACTGAAAAAAATGGTCCGGCCCATCTGGGCTAATGTATTTAACTCTGCACTGGCAACAATAACAGCAGCCATTATCTAC -CTGTACCCTTCTCCACTGGTGTGCAATGCCGGAGCCTTTGTTATCGGTTTCTCAGCAGCTGGCGGCATTTTACAGCTCGG -CGTTTCGGTCATGTCAGAGTTTTTTCCCAAAAGCAAAGCCAAAGTCACCAGTATTTATATGATGATGGGTGGACTGGCTA -ACTTTGTTATTCCACTGATTACCGGTTATCTGTCGAACATCGGCCTGCAATATATCATTGTTCTCGATTTTACTTTCGCG -CTGCTGGCCCTGATTACCGCAATTATTGTTTTTATCCGCTATTACCGCGTTTTCATTATTCCTGAAAATGATGTGCGGTT -TGGCGAGCGTAAATTTTGCACCCGGTTAAACACAATTAAGCATAGAGGTTAAAGGAGTTAATTATGGATGTTACCGCAAA -ATACGAATTGATTGGGTTGATGGCCTATCCTATCCGCCACAGTTTATCGCCCGAAATGCAGAATAAAGCCTTAGAAAAAG -CGGGATTGCCATTTACCTATATGGCCTTCGAAGTGGATAACGATAGCTTTCCTGGAGCAATTGAAGGATTAAAAGCCCTC -AAAATGCGCGGAACTGGTGTATCGATGCCGAACAAACAACTGGCGTGTGAATATGTTGATGAATTAACACCAGCTGCCAA -ACTGGTGGGGGCCATCAACACCATCGTTAATGATGATGGCTATCTGCGTGGCTATAACACCGACGGCACGGGCCATATTC -GCGCCATTAAAGAGAGCGGTTTTGATATCAAAGGCAAAACGATGGTGCTGTTAGGGGCCGGTGGTGCCTCAACGGCAATT -GGCGCGCAGGGGGCAATTGAAGGTTTAAAAGAAATTAAACTCTTTAACCGTCGGGATGAGTTCTTCGATAAAGCCCTCGC -CTTCGCGCAGCGGGTTAATGAAAACACCGATTGTGTCGTCACGGTCACCGATCTCGCCGATCAGCAAGCCTTTGCTGAAG -CCCTGGCTTCCGCCGACATTTTAACCAATGGCACAAAAGTGGGTATGAAACCCCTTGAGAATGAATCATTGGTTAATGAT -ATCAGTCTGTTACATCCGGGACTTCTGGTCACTGAATGCGTGTATAACCCGCATATGACGAAGTTATTGCAGCAGGCGCA -ACAAGCTGGTTGCAAAACGATTGATGGATACGGCATGTTGTTGTGGCAAGGGGCTGAACAGTTCACATTATGGACTGGCA -AAGATTTCCCTCTGGAATATGTTAAACAGGTCATGGGGTTCGGTGCCTGACAGGCTGACCGCGTGCAGAAAGGGTAAAAA -ATGAAAACCGTAACTGTAAAAGATCTCGTCATTGGTACGGGCGCACCTAAAATCATCGTCTCGCTGATGGCGAAAGATAT -CGCCAGCGTGAAATCCGAAGCTCTCGCCTATCGTGAAGCGGACTTTGATATTCTGGAATGGCGTGTGGACCACTATGCCG -ACCTCTCCAATGTGGAGTCTGTCATGGCGGCAGCAAAAATTCTCCGTGAGACCATGCCAGAAAAACCGCTGCTGTTTACC -TTCCGCAGTGCCAAAGAAGGCGGCGAGCAGGCGATTTCCACCGAGGCTTATATTGCACTCAATCGTGCAGCCATCGACAG -CGGCCTGGTTGATATGATCGATCTGGAGTTATTTACCGGTGATGATCAGGTTAAAGAAACCGTCGCCTACGCCCACGCGC -ATGATGTGAAAGTAGTCATGTCCAACCATGACTTCCATAAAACGCCGGAAGCCGAAGAAATCATTGCCCGTCTGCGCAAA -ATGCAATCCTTCGACGCCGATATTCCTAAGATTGCGCTGATGCCGCAAAGTACCAGCGATGTGCTGACGTTGCTTGCCGC -GACCCTGGAGATGCAGGAGCAGTATGCCGATCGTCCAATTATCACGATGTCGATGGCAAAAACTGGCGTAATTTCTCGTC -TGGCTGGTGAAGTATTTGGCTCGGCGGCAACTTTTGGTGCGGTAAAAAAAGCGTCTGCGCCAGGGCAAATCTCGGTAAAT -GATTTGCGCACGGTATTAACTATTTTACACCAGGCATAAGCAATAATATTTCGGCGGGAACACCCTCCCCGCCGAACTAA -AAAATATATTCAATCGTATTTAATAAAAATATTTCGTGAGTCTCTGTGCGCTAATTCTCCATTTGGCGTAGGGAAAATCA -CATCTGAATCAGGAATTAACAATGAAACCTGTAAAACCACCTCGTATTAATGGACGAGTGCCGGTCCTGTCGGCACAGGA -AGCGGTGAATTATATTCCCGACGAAGCAACACTTTGTGTGTTAGGCGCTGGCGGCGGTATTCTGGAAGCCACCACGTTAA -TTACTGCTCTTGCTGATAAATATAAACAGACTCAAACACCACGTAATTTATCGATTATTAGTCCAACAGGGCTTGGCGAT -CGCGCCGACCGTGGTATTAGTCCTCTGGCGCAAGAAGGTCTGGTGAAATGGGCATTATGTGGTCACTGGGGACAATCGCC -GCGTATTTCTGAACTCGCAGAACAAAATAAAATTATTGCTTATAACTACCCACAAGGTGTACTTACACAAACCTTACGCG -CCGCCGCAGCCCACCAGCCTGGTATTATTAGTGATATTGGCATCGGGACATTTGTCGATCCACGCCAGCAAGGCGGCAAA -CTGAATGAAGTCACTAAAGAAGACCTGATTAAACTGGTCGAGTTTGATAACAAAGAATATCTCTATTACAAAGCGATTGC -GCCAGATATTGCCTTCATTCGCGCTACCACCTGCGACAGTGAAGGCTACGCCACTTTTGAAGATGAGGTGATGTATCTCG -ACGCATTGGTTATTGCCCAGGCGGTGCACAATAACGGCGGTATTGTGATGATGCAGGTGCAGAAAATGGTTAAGAAAGCC -ACGCTGCATCCTAAATCTGTCCGTATTCCGGGTTATCTGGTGGATATTGTGGTGGTCGATCCGGATCAAACCCAACTGTA -TGGCGGTGCACCGGTTAACCGCTTTATTTCTGGTGACTTCACCCTTGATGACAGTACCAAACTTAGCCTGCCCCTAAACC -AACGTAAATTAGTTGCGCGGCGCGCATTATTCGAAATGCGTAAAGGCGCGGTGGGGAATGTCGGCGTCGGTATTGCTGAC -GGCATTGGCCTGGTCGCCCGAGAAGAAGGTTGTGCTGATGACTTTATTCTGACGGTAGAAACAGGTCCGATTGGCGGAAT -TACTTCACAGGGGATCGCCTTTGGCGCGAACGTGAATACCCGTGCCATTCTGGATATGACGTCCCAGTTTGATTTTTATC -ACGGTGGCGGTCTGGATGTTTGTTATTTGTGTTTTGCTGAAGTCGACCAGCACGGTAACGTCGGCGTGCATAAATTCAAT -GGTAAAATCATGGGCACCGGTGGATTTATTGATATCAGTGCCACTTCGAAGAAAATCATTTTCTGCGGCACATTAACTGC -GGGCAGTTTAAAAACAGAAATTACCGACGGCAAATTAAATATCGTCCAGGAAGGACGGGTGAAGAAATTTATTCGGGAAC -TACCGGAAATTACTTTCAGCGGAAAAATCGCTCTCGAGCGAGGGCTGGATGTTCGTTATATCACTGAGCGCGCAGTATTC -ACGCTGAAAGAAGACGGCCTGCATTTAATCGAAATCGCCCCTGGCGTCGATTTACAAAAAGATATTCTCGACAAAATGGA -TTTCACCCCAGTGATTTCGCCAGAACTCAAACTGATGGACGAAAGATTATTTATCGATGCGGCGATGGGTTTTGTCCTGC -CTGAAGCGGCTCATTAACAGGAGTATAATGATGGATTTTTCTTTAACTGAAGAACAAGAACTGCTGCTGGCCAGTATTCG -CGAACTGATTACGACTAACTTTCCGGAAGAGTATTTCCGCACCTGCGATCAAAACGGGACATATCCGCGTGAGTTTATGC -GGGCGCTGGCGGATAACGGTATTTCCATGCTTGGCGTGCCGGAAGAATTTGGTGGTATCCCTGCGGATTACGTCACCCAA -ATGCTGGCGCTGATGGAAGTGTCAAAATGCGGTGCTCCGGCATTTTTAATTACCAACGGTCAATGTATTCACAGTATGCG -CCGTTTCGGTTCTGCAGAGCAGCTACGTAAAACGGCAGAGAGCACCCTGGAAACGGGTGATCCCGCCTATGCCCTGGCGT -TGACGGAACCAGGTGCTGGCTCAGATAACAACAGTGCCACTACCACTTACACGCGTAAAAACGGCAAGGTCTACATCAAC -GGACAAAAAACCTTTATTACCGGTGCGAAAGAGTACCCGTATATGCTGGTGCTGGCGCGCGATCCGCAACCGAAAGATCC -CAAAAAAGCCTTCACCCTGTGGTGGGTCGACTCCAGTAAGCCCGGCATTAAGATTAACCCGCTGCATAAAATCGGCTGGC -ATATGCTCAGCACCTGCGAAGTCTATCTCGACAACGTGGAGGTTGAAGAGAGCGACATGGTGGGCGAAGAAGGAATGGGT -TTCCTCAATGTGATGTACAACTTTGAGATGGAGCGCCTGATCAACGCCGCGCGCAGCACCGGCTTTGCCGAATGCGCCTT -TGAAGATGCCGCCCGCTATGCCAACCAACGTATCGCTTTTGGTAAGCCCATTGGTCATAACCAGATGATCCAGGAAAAAC -TGGCGCTGATGGCGATTAAGATCGACAACATGCGCAACATGGTGCTGAAAGTGGCATGGCAAGCCGATCAGCATCAGTCA -CTGCGCACCAGCGCGGCGCTGGCAAAACTGTACTGTGCACGTACCGCAATGGAAGTCATTGATGATGCGATTCAAATCAT -GGGCGGTCTGGGCTATACCGATGAGGCGCGCGTCTCCCGCTTCTGGCGTGATGTCCGTTGTGAACGTATCGGCGGCGGTA -CAGACGAAATTATGATTTACGTAGCAGGTCGGCAGATCCTGAAAGACTATCAGAACAAATAATCTGCAGGCGGCGCAGCT -TCTTAACAAACTGCGCCGCCAGATTTATCCAACAAGACTTACCGGTTGAGGAAATTCAGATAGGATTTCTTGTTCCGCAA -AACAGTTTTTAAATTGTCTACGGTAATCGCTGGGCGAACAACCGACATGGCGCAAAAACAGTTTGGCAAAGTGATCGACA -TTTTCATAACCCACACGCCAGGAGATCTCTGCCTGTGATAATTCAGTATTAGTGAGTGACCATTTTGCTTCCGTCATACG -CCGTTGAATAACATAGTTAATAGGGGAAATACGATACTCTTTGGTAAATTCATGGCAAATATAACTGACGCTGGCACGAA -ATTTTTTCGATAACTGTTCTAAAGTGATTTTTTCGCGATAATTATTATTCAGATAGAAAAGAATATCTTTTATCAGAACA -TCTTTTTTAATATACCCCTGCTCCGAACGATAAGCATTTTTAAAATTTTCGTAGTAAAGAATGGCTAACGTATAGGCAAA -TGCATCCCATAACGAAGATGTTTGGCTATTTTTACTTTGCGGCAAAATCACACTTAGCTCATTAAATAAGGTTTTTATGA -CTTCTTTTCCCTGCCCCGCGGCAATTACCGGACAAGAATGCGGTTGCAGTAGCTGATTTTCCTCAGCCCCCTGAAACTGA -AAGCCGTACAGCGCACAGGTACACGTCGTTGCCGGATCGTTAACGTCAGAGGCCACCGCATGCAGCCTGCCGCGTTCTAT -CACCACAATGTCATCCGCATGTGCGACATATAACGAAGAATCGATGGTAAACCTTGCAACCCCTTTCTTGACGTAAATCA -ACTCGGTTTCATTGTCATGAACGTGATGTCCGGACTCCCATTTTGGATCATCGCTAAATGCAAAACGTGAAAGCCGTGGC -GTTTTACCGGCGACAAACAGCGTTTCACTGGCGTTATCAAAACAGCGTTGATACATGACAACCTCCCTATTCCATGAGCA -AGCAAAAACAATATATGCCGGATAAAATACGGCGTGTATTGCGGTTATACAACCGCGTTTAGCGAGAGCTAAACAAGATT -ATTTACACTGAATGCAAGATTGTACGGTCATGGAATAACTATATTGCCGCAAATTGCACTTTTGTTTTAGCGATCGCATT -TTTTTTGCAAGATTGTTGGCAAGGAAAACAGCTTGCTCCGTCGAAAACCCCGCACCGCTATCGCACACTATTTTCAGGCC -ATTTTTACCTTCCATCGGAGATGGTTCCGTATGCGACTCACAGGAGAAATCATGAAAATAATAACCTGCTTTAAGCTGGT -GCCTGAAGAACAGGACATTGTTGTCACTCCAGAATACACCCTGAATTTCGACAATGCCGACGCCAAAATCAGCCAGTTCG -ATCTCAATGCCATTGAAGCTGCAAGCCAGCTCGCAACAGATGACGATGAGATAGCCGCGCTGACCGTTGGCGGCTCATTG -TTGCAGAACTCGAAAGTGCGCAAAGACGTGCTATCCCGCGGGCCGCACAGCCTGTATTTGGTGCAGGATGCGCAACTTGA -ACATGCACTGCCTCTCGATACCGCAAAAGCGCTGGCGGCAGCAATTGAAAAGATCGGCTTCGATTTACTGATCTTTGGTG -AAGGTTCCGGCGACCTTTATGCCCAGCAGGTTGGCTTGCTGGTCGGAGAAATTCTGCAACTTCCGGTGATTAATGCAGTG -AGTGCTATTCAGCGTCAGGGCAATACACTGGTGATTGAACGCACGCTTGAAGATGATGTTGAAGTTATTGAACTCTCTGT -TCCAGCCGTGCTCTGCGTCACCTCCGATATTAACGTGCCACGCATTCCTTCGATGAAAGCCATTCTCGGCGCGGGTAAAA -AACCGGTAAATCAGTGGCAGGCAAGTGATATTGACTGGAGCCAGAGCGCGCCACTTGCTGAACTGGTCGGCATTCGCGTA -CCGCCGCAAACAGAACGTAAGCACATCATTATCGATAACGATTCGCCGGAGGCCATTGCCGAGCTGGCGGAACATCTGAA -GAAAGCCCTGAACTGAAGCCTACGGAGAAGAAACGATGAGTCAATTAAACAGCGTCTGGGTCTTTAGCGATAATCCTGAA -CGTTATGCTGAACTGTTTGGCGGCGCTCAGCAATGGGGCCAACAGGTGTATGCCATTGTACAAAATACCGACCAGGCGCA -GGCAGTTATGCCTTATGGTCCAAAATGTCTTTATGTTCTTGCGCAAAACGACGCGCTGCAACGCACTGAAAATTACGCCG -AAAGCATTGCTGCCCTGCTGAAAGATAAACACCCCGCTATGTTGCTGTTGGCCGCGACGAAACGTGGTAAAGCGCTGGCA -GCACGGTTAAGTGTGCAACTGAATGCGGCGCTGGTGAACGATGCCACGGCGGTGGATATTGTCGATGGTCACATTTGCGC -CGAACACCGGATGTATGGCGGGTTAGCGTTCGCTCAGGAAAAGATCAACAGCCCGCTGGCGATCATTACCCTTGCACCCG -GTGTTCAGGAACCGTGCACCAGTGATACCTCTCATCAGTGCCCGACAGAAACGGTACCTTATGTTGCTCCGCGTCATGAA -ATTCTCTGTCGCGAACGCCGTGCGAAAGCCGCAAGCAGCGTGGACCTGAGCAAAGCAAAACGTGTGGTTGGCGTCGGTCG -TGGACTGGCGGCGCAGGATGACCTAAAAATGGTCCACGAACTGGCGGCGGTGCTGAATGCTGAAGTCGGCTGTTCACGTC -CAATTGCCGAAGGCGAGAACTGGATGGAGCGTGAACGTTATATCGGTGTCTCCGGCGTGTTGCTGAAATCCGATCTCTAC -CTGACGCTGGGGATCTCCGGGCAGATCCAGCATATGGTTGGCGGCAACGGCGCAAAAGTGATTGTCGCCATCAATAAAGA -TAAAAATGCGCCAATCTTCAACTATGCCGACTACGGTCTGGTGGGCGATATCTACAAAGTCGTCCCTGCCCTGATTAGCC -AGTTGAGCCGCTAATTCCCCTTTCAACCACATCTCCCGCTGTAAACGCAGCGGGAAGGGAGCATAACGCATGTCGGATGA -CAAATTTGATGCCATTGTGGTCGGTGCGGGCGTTGCTGGTAGCGTTGCCGCACTGGTCATGGCACGAGCCGGGCTGGATG -TCCTGGTGATAGAACGCGGCGACAGTGCCGGATGTAAAAACATGACCGGCGGGCGTCTTTATGCCCACACACTTGAAGCA -ATCATTCCAGGCTTTGCAGTATCAGCGCCGGTAGAACGCAAGGTCACACGCGAGAAAATCTCCTTCTTAACCGAAGAAAG -CGCCGTTACCCTCGATTTTCACCGCGAGCAGCCAGATGTTCCGCAACACGCATCTTATACCGTATTGCGTAATCGTCTGG -ACCCGTGGTTGATGGAACAAGCCGAGCAGGCGGGCGCGCAGTTTATCCCAGGCGTTCGCGTCGACGCGCTGGTTCGTGAA -GGAAACAAGGTCACTGGCGTGCAGGCTGGGGATGATATTCTCGAAGCGAATGTGGTGATTCTGGCTGATGGCGTTAACTC -GATGCTTGGCCGCTCGCTGGGAATGGTTCCCGCTTCCGATCCGCATCATTACGCTGTTGGTGTTAAAGAGGTTATTGGCC -TCACACCAGAACAGATCAACGATCGCTTTAATATTACGGGCGAGGAAGGTGCCGCCTGGCTGTTTGCCGGTTCCCCTTCT -GACGGCCTGATGGGCGGGGGATTTCTCTATACCAACAAGGATTCCATATCCTTGGGGCTGGTTTGTGGATTGGGTGATAT -CGCCCATGCGCAAAAAAGCGTGCCGCAAATGCTGGAAGATTTTAAACAACACCCCGCCATTCGCCCGCTGATTAGCGGCG -GCAAACTGCTTGAATATTCCGCGCATATGGTGCCGGAAGGCGGTCTGGCAATGGTGCCGCAACTGGTTAACGAGGGCGTG -ATGATCGTTGGTGACGCCGCAGGCTTCTGCCTGAATTTGGGTTTTACGGTCCGCGGCATGGATTTAGCCATTGCATCGGC -TCAGGCTGCCGCCACAACGGTGATCGCCGCCAAAGAACGCGCGGATTTCTCCGCCAGCAGTCTGGCGCAATACAAACGTG -AGCTGGAACAAAGCTGCGTCATGCGTGATATGCAGCATTTTCGCAAGATCCCGGCGCTGATGGAAAACCCGCGCCTGTTT -AGCCAATACCCACGAATGGTAGCCGACATCATGAACGAGATGTTCACCATCGACGGCAAACCAAACCAGCCGGTACGAAA -AATGATCATGGGACATGCGAAGAAAATTGGGCTGATCAACTTGCTGAAAGATGGCATTAAGGGAGCAACCGCGCTATGAG -CCAGAACGCTACGGTTAACGTCGACATCAAATTAGGCGTCAATAAATTCCATGTTGATGAGGGCCACCCGCATATCATTC -TGGCGGAAAATCCCGATATCAATGAATTCCATAAATTAATGAAAGCCTGCCCTGCCGGACTTTATAAGCAGGATGACGCA -GGAAACATTCATTTTGATTCCGCCGGTTGTCTGGAGTGCGGCACCTGTCGGGTGCTGTGCGGTAACACTATTCTCGAACA -GTGGCAATATCCCGCAGGCACCTTCGGTATTGATTTTCGCTACGGCTAATCATGCATCCCACAGGCCCGCATCTCGGGCC -TGATGTTCTGTTTCGAGAGTCCAACATGAAAGTGACATTAACGTTTAACGAACAACGTCGTGCGGCGTATCGTCAGCAAG -GGTTATGGGGCGATGCTTCGCTGGCCGATTACTGGCAGCAGACCGCTCGTGCGATGCCAGACAAAATTGCCGTGGTCGAT -AATCATGGTGCATCGTACACCTATAGCGCGCTCGATCACGCCGCGAGCTGTCTGGCAAACTGGATGTTAGCGAAGGGTAT -TGAATCAGGCGATCGCATCGCATTTCAACTGCCTGGCTGGTGTGAATTTACCGTTATCTATCTTGCCTGCCTGAAAATCG -GTGCAGTTTCCGTGCCGCTGTTGCCTTCCTGGCGGGAAGCAGAACTGGTGTGGGTGCTCAATAAGTGTCAGGCAAAAATG -TTCTTTGCACCGACGTTGTTTAAACAAACGCGTCCGGTAGATTTAATCCTGCCGCTGCAAAATCAGCTTCCACAACTACA -ACAAATTGTCGGCGTGGACAAACTGGCTCCCGCCACCTCTTCCCTCTCATTAAGTCAGATTATCGCCGACAATACCTCAC -TGACCACGGCGATAACGACCCACGGCGATGAATTAGCTGCGGTGCTGTTTACCTCCGGAACCGAGGGTCTGCCAAAGGGC -GTGATGCTAACGCATAACAATATTCTCGCCAGTGAGCGGGCTTATTGCGCGCGACTGAATCTGACCTGGCAGGATGTCTT -TATGATGCCTGCGCCACTTGGTCACGCAACGGGCTTTCTGCATGGCGTAACGGCACCATTCTTAATTGGCGCTCGCAGCG -TGTTGTTAGATATTTTCACTCCTGATGCGTGTCTCGCGCTGCTTGAGCAGCAGCGTTGCACCTGTATGCTCGGCGCAACG -CCGTTTGTCTATGATCTTTTGAATGTACTAGAGAAACAACCCGCGGACCTTTCAGCGCTGCGTTTCTTTCTTTGCGGCGG -AACCACAATCCCCAAAAAAGTGGCGCGTGAATGCCAGCAGCGCGGCATTAAATTATTAAGTGTTTATGGTTCCACAGAAA -GTTCGCCGCATGCGGTGGTGAATCTCGATGATCCTTTGTCGCGCTTTATGCACACCGATGGTTACGCTGCCGCAGGTGTA -GAGATTAAAGTGGTCGATGACGCACGCAAGACCTTACCGCCAGGTTGCGAAGGTGAAGAAGCCTCGCGTGGCCCCAATGT -GTTTATGGGGTATTTTGATGAACCTGAATTAACCGCCCGTGCCCTGGATGAAGAAGGCTGGTATTACAGCGGCGATCTCT -GCCGTATGGATGAGGCTGGCTATATAAAAATTACCGGACGCAAAAAAGATATTATTGTCCGCGGCGGCGAAAATATTAGC -AGCCGTGAAGTGGAAGATATTTTATTGCAGCATCCTAAAATTCACGATGCCTGTGTGGTTGCAATGTCCGATGAACGTTT -AGGTGAACGATCATGCGCTTATGTCGTGCTGAAAGCGCCGCATCATTCATTATCGCTGGAAGAGGTAGTGGCTTTTTTTA -GCCGTAAACGGGTCGCAAAATATAAATATCCTGAACATATCGTGGTAATCGAAAAACTACCGCGAACTACCTCAGGTAAA -ATACAAAAGTTTTTGTTAAGAAAAGATATTATGCGGCGTTTAACGCAGGATGTCTGTGAAGAGATTGAATAAGTTTCATC -TTCGGGGATCACATAACCCCGGCGACTAAACGCCGCCGGGGATTTATTTTATTTCTTCAGTTCAGCCAGGCTTAACCAGG -TTTGCACCACGGTGTCCGGGTTCAGAGACAGGCTATCGATCCCCTCTTCCATCAACCATGCGGCAAAGTCTTCGTGGTCG -GACGGACCCTGACCGCAAATCCCGACATATTTGCCCTGTTTCTTCGCGGCACGGATAGCCATCGACAGCAGTGCTTTCAC -CGCATCGTTGCGCTCATCGAACAATTCAGACACCACGCCGGAGTCACGGTCCAGACCGAGCGCCAGCTGCGTCATATCGT -TTGAGCCAATTGAGAAGCCGTCGAAATATTCGAGGAACTGCTCGGCCAGCAAGGCGTTGGACGGGATTTCACACATCATG -ATGATTTTCAGCCCGTTCTCGCCACGTTTCAGCCCCTGACGCGCCAGTTCTTCAACCACCGCTTTCGCCTGATCTACGGT -ACGCACGAACGGGATCATGATCTCAACGTTGGTCAGTCCCATGTCGTTGCGCACACGTTTCACTGCTTCACACTCCAGCG -CGAAACAGTCGCGGAAGCTGTCGGAAACATAGCGGCCCGCGCCACGGAAGCCGAGCATCGGGTTCTCTTCATCTGGCTCG -TAACGCTCACCACCGACCAGGTTGGCATATTCGTTCGATTTAAAATCAGAGAGACGGACAATGACGCGCTTCGGATAAAA -CGCGGCACCCAGCGTCGCGATCCCTTCAGTCAGACGACCAACGTAAAATTCACGCGGAGAATCAAAACCTTTCATCATCT -CGCGGATTTCGTTTTGCAACTGCGGTTCCTGATCGTCAAACTCAAGCAGTGCGCGTGGGTGGACGCCAATCATACGGTTG -ATGATAAATTCCAGACGCGCAAGGCCCACGCCTTCGTTCGGTAGGCAGGCGAAGTCGAAAGCACGGTCCGGGTTACCGAC -GTTCATCATCACTTTCAACGGCAGATCCGGCATCGTTTCTACGCTGGAGCTTTTCACGCTAAATTCCAGCAACTCCGCAT -AGACGTAACCGGTATCACCTTCGGCACAAGAAACAGTGACGTTCTCACCGTCTTTCATCCGTTCTGTTGCATCTCCACAG -CCCACTACCGCCGGAATGCCCAGTTCACGAGCGATGATCGCCGCGTGACAGGTACGACCGCCACGGTTGGTGACGATGGC -AGATGCTTTCTTCATGATCGGTTCCCAGTCCGGGTCGGTCATGTCAGTAACCAGCACGTCGCCAGGTTCGATGCGGTTCA -TTTCGCTGATGTCATGGATGACTTTCACCGGACCCGCACCGATGCGATGACCGATAGCACGGCCTTCGGCGATAATCTTA -CCCTGTGAATGCAGCGTATAACGCTCCATGACCTGACCGCGTGAGCGCACGGTTTCCGGACGCGCCTGCACAATGAACAG -TTTACCGGTGTGGCCATCTTTCGCCCACTCAATATCCATCGGGCGACCGTAGTGTTTCTCAATTTGTACGGCCTGTTTTG -CCAGTTCCTGCACTTCTTCGTTGGTCAGCGAGAAGATGTCACGCTGTTCCTGCGGTACGTCTTCGATTTTAACCTGCTTG -CCGTGCTCCTGGGTCGGCGCGTAAACCATGCGGATTTTTTTCGACCCCATGGTGCGGCGCACGATAGCCGGGCGATTCGC -CGCCAGTGTCGGTTTATGCACGTAAAACTCATCCGGGTTAACCGCACCCTGCACGACCATCTCACCAAGGCCCCATGCGG -AAGTGATAAACACCACCTGGTCAAAGCCGGATTCGGTATCAATGGAGAACATCACGCCAGATGATGCGAGGTCAGAGCGC -ACCATCCGTTGAACACCGGCGGAGAGCGCCACACCACGGTGATCGTAACCCTGGTGCACACGATAAGAGATGGCGCGATC -GTTAAACAGAGAAGCAAATACATGTTTCACTGCCACGAGAACGGCGTCAAAACCCTGAACGTTGAGGAAGGTTTCCTGCT -GACCGGCAAAAGAAGCGTCCGGCATATCTTCTGCGGTGGCGGAGGAGCGCACCGCAAAAGAGGCGTTTTCGTCATCGGCG -GAAAGCTGTGCATAGGCTTCGCGGATGGCGTTTTCCAGCTCAGGCTGGAAGGGAGTGTCGATAATCCACTGGCGGATTTG -CGCGCCCGCTTTCGCAAGCTGAGTAACATCGTCAATATCCGTTTTATCCAGCAGTTCATAAATGCGCTGGTTTACGCCGC -TTTGGTCCAGAAACTGGTTAAACGCGTCGGCGGTTGTGGCGAAACCATTCGGAACGGAAACACCCATTCCGGAAAGATTA -GTAATCATTTCACCCAGGGAGGCATTTTTGCCCCCAACCCTGTCTACATCATTCATGCCGAGTTGGTTATACCAAAGCAC -CAGCGGTGACGAGCCATTGTTGGACATCGAACAATCCTTTTGTGATAAATGAACGGTTTGAGAAACACATTTCTGCGCAT -TTATCTTTGCATATTTAACCGGATGAAAAAAACGGTGAATCGTTCAAGCAAATATATTTTTTTACTTTTTAAGACTGATC -CCAGCGTTGCGCAAATCTGCTCTCTTCGACAATTTCCACATAAACCATCGGTATAAACGAAACCATAAAAATGAAATGCT -GTTTTCATAAAAAATAAAATTGAAGGTTCATTTTATAAACCAGACATAACGTTCTACGCTTCTGTGCGTTTTTAATTTAT -GCTTTCATAGAATTATGTCTGCATCACGGGAAGAACAAAATGGATAATGCTGTTGATCGCCACGTTTTTTATATTTCTGA -TGGTACGGCAATAACTGCGGAGGTATTAGGACACGCAGTAATGTCACAATTTCCCGTCACTATCAGCAGCATCACGCTGC -CGTTTGTCGAAAATGAGAGCCGTGCACGGGCAGTGAAGGATCAGATTGACGCAATTTATCACCAGACAGGCGTGCGCCCG -CTGGTCTTCTACTCCATCGTGTTGCCGGAGATTCGCGCCATCATCTTGCAAAGTGAAGGCTTTTGCCAGGATATCGTTCA -GGCGCTGGTTGCCCCGCTACAACAAGAGATGAAACTGGATCCAACGCCGATTGCTCATCGTACCCATGGCCTTAACCCTA -ATAATCTCAATAAATATGATGCGCGCATTGCGGCGATTGATTACACCCTCGCCCACGATGACGGCATTTCGTTGCGCAAT -CTGGACCAGGCTCAGGTGATCCTGCTCGGTGTTTCTCGCTGTGGTAAAACCCCCACCAGTCTGTATCTGGCAATGCAGTT -TGGTATCCGCGCGGCAAACTACCCCTTTATTGCCGACGATATGGATAATCTGGTGCTACCCGCGTCGCTCAAACCGCTTC -AGCATAAATTGTTCGGCCTGACTATCGACCCGGAACGTCTGGCGGCGATTCGCGAGGAACGTCGGGAGAACAGTCGCTAT -GCCTCGCTTCGTCAGTGCAGGATGGAAGTCGCGGAAGTGGAAGCCTTGTACCGTAAAAATCAGATCCCGTGGATTAACAG -TACCAATTATTCGGTAGAAGAGATTGCCACCAAGATCCTCGATATCATGGGCCTTAGTCGCCGAATGTACTAGAGAACTA -GTGCATTAGCTTATTTTTTTGTTATCATGCTAACCACCCGGCGAGGTGTGACACACCTCGCACTTGAAATCAGCAGCGAT -TGGTTTATCGTGATGCGCATCACTTCCCGGCAGTCCTGCCGTAGAAGCAACAAATTTCTGAGACTTGTAATGAACAGAAC -TGACGAACTCCGTACTGCGCGTATTGAGAGCCTGGTAACGCCCGCCGAACTCGCGCTACGGTATCCCGTAACGCCTGGCG -TCGCCACCCATGTCACCGACTCCCGCCGCAGAATTGAAAAAATACTGAATGGTGAAGATAAGCGACTGTTGGTCATTATT -GGCCCCTGCTCGATCCACGATCTCACCGCTGCAATGGAGTACGCCACCCGTCTGCAGTCGCTGCGCAACCAGTACCAGTC -ACGGCTGGAAATCGTAATGCGCACCTATTTTGAAAAACCACGAACTGTTGTCGGCTGGAAAGGACTAATCTCCGATCCAG -ATTTAAACGGCAGCTATCGGGTAAATCACGGTCTGGAGCTGGCGCGCAAATTACTTTTACAGGTAAATGAGCTGGGCGTC -CCAACCGCGACCGAGTTCCTCGATATGGTGACCGGTCAGTTTATTGCTGATTTAATCAGTTGGGGCGCGATTGGCGCACG -TACTACCGAAAGTCAGATCCACCGCGAAATGGCTTCGGCACTCTCCTGTCCGGTAGGTTTTAAAAATGGTACCGATGGCA -ATACGCGGATTGCTGTGGATGCTATCCGCGCAGCCCGCGCCAGCCATATGTTCCTCTCGCCAGACAAAAATGGTCAGATG -ACCATCTATCAGACCAGCGGCAACCCGTATGGCCACATTATTATGCGTGGCGGCAAAAAACCGAATTATCATGCCGATGA -TATCGCCGCAGCCTGCGATACGCTGCACGAGTTTGATTTACCTGAACATCTGGTGGTGGATTTCAGCCACGGTAACTGCC -AGAAGCAGCACCGTCGCCAGTTAGAAGTTTGTGAGGATATTTGTCAGCAAATCCGCAATGGCTCTACGGCGATTGCTGGA -ATTATGGCGGAAAGTTTCCTGCGCGAAGGAACGCAAAAAATCGTCGGCAGTCAGCCGCTCACTTACGGTCAATCCATTAC -CGACCCGTGTCTGGGCTGGGAGGATACCGAACGCCTGGTCGAAAAACTCGCCTCTGCGGTAGATACCCGCTTCTGAATGC -GTGCCCATTCCTGACGGAATGGGCATTTCTGCGCAACTTGTTGTCTTCTCAACAAATTACTGCTTGCTCTGGTCAGCCAT -AATATTGATAATAAGAATCATTGTTATATCAATTATTATTAATTTTTATGCGTTATACGGATAGCAGAAAACTCACGCCT -GAAACGGATGCCAATCACAAGACCGCTTCCCCGCAGCCTATTCGGCGAATTTCCAGCCAGACACTGTTAGGTCCGGATGG -CAAACTGATTATCGATCATGACGGGCAAGAATATCTGCTCCGTAAAACTCAGGCTGGCAAGCTGCTGTTGACCAAGTAGC -CTTTAACTCGAGCAGCTGACTTCCAGCCGTTTACCCCAGTCAGGTGGACGACTGACATAGTCATCATCTCTGTCGCTGAA -AGGATTTCGCAACGCCTCATGCAGGCGGTGCAATTCCGTCATATCACCCTTTTCTGCCGCTTCAATCGCCCGTTGCGCCA -ACCAGTTGCGCAATACCAGAGCGGGGTTAACGCTTTGCATCAGTTGCTGACGCTCACTATCGCTAACCTCGTCTTGTTGC -AAACGCCCCCGATAACGGGCAAACCAGTCATCAAATGCCGCACGATCAATAAACTCATCACGTAGCGGTGACGCCGCGCT -GTGCTGCTCGGTCAGACTCAGCATGCGGAATGTGCGGGTATAATCGCTGCGCTCTCGCGCCATCAGACTGAATAATTCAT -TCAGTAGCGCGTTATCCTCTTTTTGCTCCGTCATGAAGCCCAGTTTCTGCCGCATCCGTTCTCCATAATGCGTCAACAAA -ACCTGCTGATAGCTGTCCAGGGCCTCATTCAGGGCATCTACGGCAACAAATGGCGACAATGTCTGCGCCAGACGCTGTAA -ATTCCACAACGCGACGGCAGGTTGATTATCAAAGCTGTAACGCCCTTGATGATCCGAGTGATTACAAATAAAACCGGGTT -CGTAATCATCAAGAAAACCAAACGGCCCGTAATCAAGCGTCAGCCCCAGCAGCGACATGTTGTCGGTATTCATCACCCCA -TGAGCAAAGCCGACCGTCTGCCATTGGGCAATTAACGACGCGGTACGTGCGACAACATCGCTAAACCAGAGACGGTATTT -GTCCTCATCATCTGCAAGATGTGACCAGTAATGACGAATAGCAAAGTCAGCTAACTGACGAACCTTTTCCGACTCGCGGC -GGTAGTAAAAATGTTCGAAATGACCAAAGCGCAGATGACTTGGTGCCACACGCATCAGCATCGCGCCTGGCTCCGCCGTT -TCCCGATACACTGGCGAATCGCTGGTGACGATACTTAACGCGCGGGTCGTCGGAATGCCCAGATAATGCATCGCCTCACT -GGCGAGACTTTCTCGTATCGTCGAACGTAAAACCGCCCGTCCATCACCCATTCGCGAATAAGGCGTCAGGCCAGCACCTT -TCAGATGCCAGTCCATTGTAGTGCCATCAGCAAGCAGTTGTTCGCCGAGTAAAATGCCGCGCCCATCACCCAGTTGGCCC -GCCCAGACGCCGAACTGATGACCACTGTAAACCTGCGCCAGTGGTGACATACCAGGCAGTAGGGCTTCGCCGCCCCAGAC -ACCTGCGCCATTTTTAAACAGCGACGATGGAATACTCAGCGTGTTAGCCAGTTCGGTATTATGCCAAATCAGCCGGGCAT -TATTTAAAGGCGTAGGGGAAAGTGCTGTATAGGTTTCTGGCAATTCATCGCGCCAGCGGGTAACAAAAGACAGGGTCATA -GATCCTCCTGTTTGATAGTGTAGACGGTTACTCTCGTCTTAAACACCAGCAAACAGAAGGGTTATCGCTGAACCAACGTC -GTTATCTGATTTATGGGAACGGCAGGCCACAGGCATCCCTGGAGAGCATGGAAATCGAAGGGGGTAATCTGTGCCAATAT -TTCTGCCGTATCAATGCCTCCCGCAATGATGCAATTGCAACAAGGGGAAATTTGCGCCTGGATCGCACGAATAAACGGTT -CGAAGGAGCGGTGCGTGATTTGTTGCTGAATAAAACTTTTATCCAGCATGACGCGGGTGAAAAGACCATCAAAAACCGCT -TTCATTGTGCTATTGCCTGCTCCCAAATTACCTAACACAAGGGGATACACTTGCGATAAGGATAAAAGACCGCGATTATC -TTTTCCTTCATTGAGATGCGGGTAATTCTCATTAATCAACAGTTCAATAAACGGATATTTTAATAGTTCGCCTGCGTAAT -TATCCCTCTCTAATAATAATGTAGCCACTTGTGGCGTTAAATTAAGCCAGGCAAAGAGTTTATGTTGAATAAAAAAATGT -TGGCATGATTTTAGTAATTCCAACTGCTCTGAAAATAATTGCCAATGTTGCTCCTCGGTAAGTTGCGCTATAACCCGACT -CGTCGGGATACGAACCGTACCATCTTCACTGGAGAAATGGGTAATTAACTCAACGCCGACAAGGACTTGCTGGTTGTCTC -TTATCGGCAGGAAATAGCAATCAGAATGATAAAGATTCTCCAAAAAAATCTTCATGGTAACCGTCCCTCTCGAAGGATGT -TTTTCAGTATCCGGCTAAAAGGGATGAGGCCATAAGACATAACAATTACAGAAGGAGTAACTTTCATTTGTTCCATGTTA -ACCACTTTTTCAGGGGTCCTTTTTTTAGATTATCCTGATTATAAACGAATAATCCATTTACGGAATTTTTGTCTGCAAAA -TACTACTGTATTCAGGAGTAAATGGACGGCGATGTATCATCGCCGTCCATTTTTCGACATACTAGATTCGTCTCGCCTGC -CAGAAATTTTTCTGCCAATAGACATTATCAAGTGAGGAACGCATCACTCCCTTGCTGGTAGAGGCGTGGATAAATTGGTT -GTTGGTATCGTAAATACCTACATGCAAACCATTTTGTCCGGACCCCGTTTTGAAAAAGACCAGGTCACCTGGCAGCAACT -CGTCTTTATCAATTTGCGTGCCAATAGAGGCTTGTTGTTTGGTTTCACGGGGCAGCTGCAAATCGAAACGATCGCGCATC -GTCACAACCACAAATCCCGAACAGTCCACACCGCGCCGCGTCATGCCACCATAACGATACGGCGTGCCATGCCAGCTTTG -TAGCTGGTCGTTCAAACCGGCAATAACGGTAATCGAATCAGAAAGTCTGGCATTTGGCGGCGGTGCTTTATGGTGGCTAC -ACCCGGCCAGAAGCAGTGCTGTGATCAAAATAAGGCAGAAACGCATTCCGTACGGTTCCTCTGTTTTTTATTCTTGCATT -AATTTAGCGTCGTAATTACCCGATTTTCAAGATACTAATGAAATCAGATGGTCGAAATCAGCATTCTGTGACCTTCGATA -TCCAGACGGCGAAAATTCATCCCATAGGCCTGCGCCAGATTTGGCGGCGTGAGCACCTCTTCCCTGCGTCCACTGGCCAG -CATTTTTCCACCTTTTAGCAACCACGCCCGATGCGCATGACGCAATGTGTGGTTGAGATCGTGACTGCTCATCACAATCG -CCAGTCCTTGCTGACACAGCGCGCTCAGAATTTTGTCTAACGCACTTTGTTGCGCAACATCAAGACTGTTCATCGGCTCA -TCAAGAAGCAGCAATTGGCCTGCGGGATTGGCTTGTGGTGTGATTTGCAACACCACCGCAGCAAGACGTACGCGTTGCCA -TTCACCGCCGGAAAGTTGATTGGTGCTACGTCCGAGTTTGTCATCAAGAGCCAGCGCCCCTGCGACATCATTCAGTAGTT -CGGTACGCGTTTTATCGTGCTGATGCAGTGTCAGGTAGTGCCAGACCGGCGTTGCAAACGGCGGCGTCTGCTGTTGTGAA -AGATAGGCGCGATGCAGCGCGAGTTTTGTTGCGGACCATGCTTCCAGTGGTTGCCCCGCGAACTGAATGCTTCCCTTACC -GCTGGTCATTCCGGCCATTCGCGCCAGTAAGGTACTCTTACCCGCGCCATTCGGCCCCACCAGGTGCAGGATCTCCCCAG -CCCGAACCTCGCCAGAAAGCGGCCCCAGGCGGGTAGATTCCGCAACATCTTGTAACTGCATCACAATAGACATTATTTTG -CCAACGCCAGTTTAATGCTTTCCATCACAATGGGATCTTCCGGCGTCATATCCGGGGAAAAACGCTGGATGACTTTTCCG -TCCCTGCCAACCAGGAATTTTTCAAAATTCCATAAAATATCATCCGGGTACAGCGGTGCACGGCCTTTGCTGACCATACG -GGCATAGAATCCGCTCTCTTCCGGCGCGACTGCGGTCGGCGCTGCGGCAATCAATTTTTGATACAGCGGATGGCGTCCTT -CGCCATTAACTTCAATCTTACTGAACATCGGGAACGTCACCCCCCATGTGGTGGTACAGTAAGTTTTAATCTCTTCATCG -CTGCCCGGTTCTTGTTCCAGAAACTGGTTGCACGGGAATCCCAGCACCATAAAACCTCGATCGACCCAGGCTTTCTGAAT -ATTCTCCAACTGCTCATATTGCGGCGTTAAGCCACACTTTGAGGCGACATTGACAATCAACAGCACATTACCGGCGAACT -TCTCCAGCGTGGTCACTTCACCGTCGATATCTTTCACTACGGTCGTCAGAATGGAATCTTGCATCGTTTCTCCTGGGTGT -GGTCAGTAAAAATCTTAGCTTTTAATCATAGACCGTCTTTTTGCGGCTAACGTCCTGCTTTTAACAATAACCAGATAAAC -ACCGGCGCACCTAACGTTGCGGTGACCACGCCAATAGGCAGCTCTGCGGCAGCTAATGCCAGGCGCGCTACAATATCGGC -CAGCAGCAATGCGCTCGCCCCTGCCAGCGCGCAGCCGGGAAGTAATACGCGATGATCGGTTAAACCACACAACCGGAGAA -TATGGGGGATCACCAGACCAATAAAGCCGATAGCACCCGCCAGCGCCACACTGACGCCAACCATCCAGCCGGTCGCTGCC -ACCAGCACATTGCGCCAGAACCACAGGGGTAAACCCAGTTGCCGCGCCGAGATCTCGCCAAGTGCTAACATATTCATCGG -CCTGGACTGACAACAGATCCACAACAACACGGGGATCAATGCCAGCATCAGCCAGCTTTGCCGCCAGTCTACGCCGCCAA -AACCGCCCATCATCCAGTACATCAGCTGACGCAAATCAACTGAGGTGGAAAAGTAGATAGCCCACGTCATTAGTGCGCTA -CAGATAATCCCTAATGCAACGCCAGCCAGCAATAACCGACTGGTCGAAAGATGACGACGGGCGAAACGTAAGAGTATTAA -AGTGATGATAAGCGCGCCAGCAATCGCACACAGCCCTAGCGCCCAGTTGGGGAGTTGCCCTTGCCCAAGCAATACCGCGG -CGATAAGCCCCACGCCTGCGCCGTTAGAGACGCCAAGTAGTCCAGGTTCTGCCAGAGGATTTTCAAACAACGCCTGCATT -ACAGCGCCGGATATAGCCAGCGCCGCACCAACCAGCAATACAGCCAGCGTACGTGGCAGGCGAATTTGCCAGACGAACAG -TTCGCCACGAGGAGTAAACCAGTCACCTGGCGAGATCCATTGTTCACCGGCGCAAAGGCTTAAGAGAAGCGCCAGCAGCA -TCAAAACTGACAGGCATAATAACCAGCGAATATTTTGTCGCTGTTGTTGGCGGGCAAGTGTCAGCATGGTATCCGTTCTG -CTGAAGTGTCATGGCGTTGATTTTACGGTGACTCTTCGACAGTGAAAAGAAAAAAGGCCGCAGAGCGGCCTTTTTAGTTA -GATCAGATTACTCGTCTTTGGGCGAAGCGTTTTCGACCCGGCTTTTTAACTTCTGCCCGGGTCTGAAGGTCACCACGCGC -CGTGCTGTAATGGGAATATCCTCGCCCGTTTTCGGGTTACGTCCCGGGCGTTGATTCTTATCACGCAGATCGAAGTTACC -AAAACCAGAGAGTTTCACCTGTTCGCCGTTTTCCAGAGCGCGACGGATCTCTTCGAAAAACAGTTCAACCAGTTCTTTGG -CATCCCGCTTGCTAAGCCCAAGCTTATCAAACAGATATTCTGACATTTCAGCTTTTGTAAGCGCCATAGGTTCAATCCCT -CAATGATGCCTGGAATCGCTCTTTTAATGCCTCTACACATTTGGCGACGGTAGCGGCAATCTCCTCTTCTTCGAGTGTAC -GGCTGGTATCTTGCAGGATCAGGCTTATGGCGAGGCTCTTATACCCCTCCGCAACACCCTTACCGCGGTACACGTCAAAT -AAGTTTACGCCAACTACCTGATTTACGCCAACTTTCTTACATTCGGATAAAATATCCGCTGCGGGAACGTTTTCTGCGAC -CACCACCGCGATGTCACGACGGTTCGCCGGGAAGCGAGAAATCTCGCGCGCCTGAGGCACCACGCGGTCTGCGAGCTTGT -TCCACTCCAGTTCGAACACCAGAGTGCGACCGTTAAGATCCAGTTTACGTTCCAGTTCAGGATGAACAACCCCAACAAAA -CCAATACGTTCACCTTTCAGATAAATCGCTGCGGATTGCCCCGGATGCAGTGCCGGATTCGCTTCTGCACGGAACTCAAC -CTCATTCAGTTTACCGGTCAGGTCGAGAACGGATTCAAGATCGCCTTTCAAATCATAGAAATCAACGGTCTCTTTTGCCA -GGTTCCAGTGCTCTTCGTAACGGTTACCGCAAATCACACCGGCTAACATCAGATCCTGACGAATGCCCAACGGTGCCTGA -GTATCTGGTACGAAACGCAGACCGCTTTCGAAAATGCGCACACGGTTCTGCTGACGGTTCTGGTTGTACACCACGGTTGC -CAGCAGGCCAGTCCACAGAGAAAGACGCATTGCTGACATTTCAACAGAGATCGGGCTTGGCAGCAGTAAGGCTTCAACGC -CTGGATGGATCATCTGCTGCACTTTCGGATCAACGAAGCTGTAGGTGATCACTTCCTGATAGCCTTTGTCGTTGAGCAGC -GTTTTCACGCGCTTGAGCGACAGGTCAGCTTCACGGTGAGTACCCATAATCAGGCTTGCCTGTACCGGCTCATCCGGGAT -GTTGTTGTAGCCGTAAACACGCGCGACTTCTTCAACCAGATCTTCTTCAATCTCCATATCGAAACGCCAGCTCGGCGCAA -CTGCCTGCCATTCGTCTTTGCCTTCGGTCACTTCGCAGCCGAGACGACGCAGAATGTCAGTTACCTGCTCATCCGCAATA -TGATGGCCGATCAGGCGATCCAGTTTGCTACGACGTAGAGTGATGGTTGCACGCTTCGGCAGCGTTGCTTCGTTGGTGAT -ATCAATTACCGGGCCAGCCTCACCACCGCAGATGTCGATCAGCAGACGGGTCGCACGTTCCATCGCTTTGTGCTGCAGTG -CCGGATCAACGCCACGCTCATAACGGTGAGACGCATCGGTATGCAGGCCATGACGACGAGCACGACCGGTGATAGACAGC -GGGCTAAAGAACGCGCATTCCAGCAGCACGTTTTGTGTTTCGTCATTCACGCCAGAGTGTTCGCCACCGAAGATGCCGCC -CATCGCCAGCGCCTTGTTGTGGTCGGCGATGACCAGAGTGTCAGCATTCAGCTTCGCTTCAGTACCGTCGAGCAGCACCA -GCGTTTCGCCCTCTTTCGCCATCCGCACCACAATGCCGCCTTCAATGCGATCTTTATCGAAAGCGTGCATCGGCTGGCCC -AGTTCGAGCAGCACATAGTTGGTGACGTCAACAACTGCATCGATAGAACGGATCCCGCAACGACGCAGTTTTTCTTTCAT -CCACAGCGGAGTTGGCGCTTTAACGTTAATGCCTTTTACCACACGGCCAAGATAACGCGGGCAGGCTTCCGGCGCTTCGA -CTGTAATCGGCAGCGTGTCGTCGATGGTCGCACCAACCGGAACGATTTCCGGTTGAACCAGCGGCAGCTGGTTCAGCACG -GCAACGTCACGCGCAACACCAATGATGCCTAAGCAGTCGGCACGGTTTGGCGTCACGCTGATTTCGATGGTGTTGTCATC -AAGTTTCAGGTATTCACGGATATCGGTGCCAATCGGCGCATCCGCAGGCAGTTCGATAATGCCGCTGTGATCGTCAGAAA -TGCCCAGTTCAGAGAAGGAGCACAGCATCCCTTCAGACGGTTCGCCACGCAGTTTCGCCGCTTTAATTTTGAAATCACCC -GGCAGAACAGCACCAATGGTCGCTACCGCTACACGCAGGCCCTGACGGCAGTTTGGCGCACCGCAGACGATGTCCAGCAG -GCGATCGCCGCCGACATTCACTTTTGTCACACGCAGTTTGTCAGCGTTCGGATGCTGCGCACACTCAACCACTTCACCAA -CGACCACGCCGTGGAAGCTGCCGGCAACCGGTTCTACACCGTCAACTTCCAGGCCCGCCATAGTGATTTGATTTGCCAGC -GCATCGCTATCAATCGCCGGGTTCACCCATTCGCGTAACCACAGTTCACTGAATTTCATAATCTATTCCTGCCTTATTTA -AACTGTTTGAGGAAACGCAGATCGTTTTCGAAGAATGAACGCAGGTCGGTGACGCCGTAACGCAACATAGTCAGACGCTC -CATCCCCATCCCGAAGGCGAAACCAGAGTAAACTTCCGGGTCGATGCCAACGTTACGCAACACGTTCGGATGCACCATCC -CGCAGCCCAGCACTTCCAGCCATTTACCGTTTTTACCCATGACGTCCACTTCTGCAGAAGGTTCGGTAAACGGGAAGTAG -GAAGGACGGAAGCGAATCTGCAAATCTTCCTCAAAGAAGTTACGCAGGAAGTCGTGCAGCGTGCCTTTCAGGTTGGTAAA -GCTGATGTTGGTATCAACAATCAGACCTTCCATCTGATGGAACATCGGCGTGTGAGTCTGGTCGTAGTCGTTACGATAAA -CACGGCCAGGCGCGATGATACGAATCGGTGGCTGCTGGGCTTTCATGGTGCGGATCTGTACGCCAGAGGTCTGGGTACGC -AGCAGGCGGGTAGTGTCAAACCAGAAAGTGTCGTGGTCAGCGCGCGCCGGGTGGTGACCAGGAATGTTCAGAGCATCGAA -GTTATGATAATCGTCTTCGATTTCCGGCCCGGTTGCCACGGTAAAGCCAAGCTCACCGAAGAAACTTTCGATACGGTCGA -TGGTACGGGTAACCGGATGCAGACCGCCGTTTTCAATGCGACGACCTGGCAGAGAGACATCAATCGTTTCCGCCGCCAGA -CGCGCATTCAGTGCAGCGCTTTCCAGTTCCGCTTTACGCGCATTCAGCGCCTGCTGAACCTGCTCTTTCGCTTCGTTGAT -AACCGCACCAGCTGCCGGACGCTCTTCTGGCGGCAGCTCACGCAGGGTCGTCATCTGAAGGGTTAAGTGCCCTTTTTTAC -CCAAATATTCGACGCGCACATTATCTAACGCGGCAACATCTGACGCCTGGCTAATGGCCGCCTTCGCACTGGCAACCAGT -TCTGCGAGATGTGACATGGTTTTCCTCATTGTGTCAGTGGTGACACTGGTTCGTTGGACTTAGAGCCTATCCCATCAGGC -TATTTTACTTGCCATTTTGGTCCCGGGCTGTGCTCGAAATTCTCACGTACTTAAATACGCTCCGGTTTCTCCGCGCTGGC -CGTGTCCAGTCTGGCTGCGACAATTACACCTGATGAGACAGGCTTTTTATTTTTCAAAACGCGCATACAAAAAAAGCCTC -CACTGGGAGGCTTTCAGGCGCTGTTTTCCGTTTCTCTTCTCACGCGCTAGCCTCCTGGATTCAGGTGCTAAAGTAAAAAA -AGAAGCGGAAAATAGCAGCATTCATTGCTTGCGTTACCTTTTGGTACTCTTCAAAAGACCTTTATTGAAAAGGCTACGGC -GATAAAAGTCAATGTTTTGATGGCGTTGAAACGAAAAGAGGGAGACTAGCTCCCTCTTTCAACTGGCTTATGCCAGAGCT -GCTTTCGCTTTTTCAACCAGAGCGGTGAACGCTACTTTGTCGAATACTGCGATATCAGCCAGGATCTTACGGTCGATTTC -AACAGAGGCTTTTTTCAGGCCATTGATGAATTTGCTGTAAGAAATACCGTTCTGACGTGCTGCTGCGTTGATACGCGCAA -TCCACAGTTGACGGAACTGACGCTTACGTTGACGACGGTCACGGTAAGCATACTGACCAGCTTTGATAACAGCCTGGAAG -GCAACGCGGTATACGCGAGAACGCGCACCGTAGTAGCCTTTAGCTTGTTTCAAAATTTTCTTGTGACGTGCACGTGCAAT -AACACCACGTTTTACGCGAGCCATATGTGCTCTCCTGTATCTATATTCTAATTAAAAAGTTAAAAACGTTAACGGCTTAT -GCGTACGGCAGGCACGCGATTACCAGGCCCAGATCGCCTTTGGAAACCATGGCTTTCGGACGCAGGTGACGTTTACGTTT -GGTCGCTTTTTTGGTCAGAATGTGACGCAGGTTAGCGTGCTTGTGCTTAAAACCACCTTTACCGGTTTTTTTGAAGCGCT -TAGCAGCACCGCGTACGGTCTTAATTTTTGGCATTTTAATAACTTCCACTTCGCATTGTTAATAAACGAAACAAAGGCGA -ACAAAGCCTGTGAAGCCCGAAGGCTCCACAGACAGTGCTACTTGAAGGCCTTACTGTTTCTTCTTAGGAGCGAGCACCAT -GATCATCTGGCGGCCTTCGATCTTCGTTGGGAAGGATTCGACCACTGCCAGTTCTTGCAAATCGTCTTTCACGCGATTAA -GCACTTCCATACCGATTTGCTGGTGCGCCATCTCACGACCGCGGAAACGCAGCGTGATTTTGGCTTTATCACCCTCTTCG -AGAAAGCGAATCAGGCTGCGGAGTTTTACCTGATAGTCGCCTTCATCTGTACCAGGACGGAATTTAATTTCCTTAACCTG -GATAACTTTTTGCTTTTTCTTCTGTTCCTTAGAAGACTTGCTCTTTTCATAGAGGAATTTGCCGTAATCCATTATACGAC -AAACCGGCGGCTCGGCGTTAGGGCTGATCTCGACTAAGTCTACTCCGGCTTCTTCTGCTTTCTCCAGAGCTTCTCTCAGA -CTCACAATACCAAGCTGCTCGCCTTCCAGACCTGTTAAGCGAACTTCCTGGGCGCGAATTTCGCCATTGATACGGTTAGG -GCGCGCCGTTTGAACTCGTTTTCCGCCTTTAATACCTTATTCCTCCAATTGTTTAAGACTGCGGCTGCGAATCTCTTGTT -GCAGCTTCTCGATCACTTCATTTACGTCCATGCTTCCCAGGTCTTTACCACGGCGGGTGCGAACGGCAACTTTGCCTGAT -TCCACCTCTTTATCACCACAGACCAGCATATATGGGACGCGACGCAAAGTGTGCTCGCGGATTTTAAAGCCAATCTTCTC -ATTTCTCAAGTCTGCTTTAACACGAATGCCCGCATTTGATAGTTTTTGCGTCAATTCGTTAACGTATTCAGACTGTGAAT -CGGTAATATTCATGATAACAACCTGAACCGGCGCAAGCCAGGTCGGGAAGAAACCAGCGAACTCTTCGGTCAGGATACCG -ATGAAACGTTCCATCGACCCCAGAATTGCGCGGTGAATCATTACCGGTACTTTACGTTCATTGTCTTCGCCTACATAAGA -AGCGCTCAGACGAGACGGCAAAGAGAAGTCCAGCTGTACTGTACCGCACTGCCATGCACGATCGAGGCAGTCATACAGGG -TAAATTCAATTTTCGGACCGTAGAAAGCGCCTTCACCCAGTTGATATTCAAACGGGATGTTGTTTTCTTCCAGCGCAACC -GCCAGGTCCGCCTCAGCACGATCCCACATTTCGTCGCTGCCAATACGTTTTTCAGGACGAGTGGAGAGTTTGACGACGAT -CTTCTCGAAGCCAAAAGTGCTGTACATATCATAGACTAAACGGATACATCCGTTAACTTCATCGCGAATTTGTTCTTCAG -TACAGAAGATATGCGCGTCATCCTGGGTAAATCCACGCACGCGCATCAGGCCATGCAGCGAACCTGACGGCTCGTTACGG -TGGCAGCTACCAAACTCGGCCATACGCAGCGGCAGATCGCGATAAGACTTCAGCCCCTGGTTGAAAATTTGTACGTGACC -CGGGCAGTTCATCGGCTTAATGCAGTATTCACGGTTCTCAGAAGATGTGGTGAACATTGCATCTTTGTAGTTGTCCCAGT -GACCGGTTTTTTCCCACAGGACACGGTCCATCATGAACGGACCTTTAACTTCCTGATACTGGTACTCTTTCAGTTTAGAA -CGAACAAACACTTCCAGTTCACGGAAGATGGTCCAGCCGTCGTTGTGCCAGAATACCATACCCGGCGCTTCTTCCTGCAT -ATGGTACAGGTCGAGCTGTTTACCGATTTTACGGTGGTCGCGTTTCGCGGCTTCTTCCAGGCGCTGCAGGTAAGCGTTAA -GTGCTTTTTTGTCTGCCCACGCCGTACCGTAAATACGTTGCAACATTTTGTTGTTGCTGTCGCCACGCCAGTAAGCCCCT -GCCGTTTTCATTAGTTTGAAATGATGGCAGAAACGCATGTTCGGTACGTGCGGACCGCGGCACATATCGACATATTCTTC -ATGGAAGTACAGACCTGGCTTGTCATCATGGGCGATGTTTTCGTCAAGAATGGAGACTTTGTAGCTCTCCCCACGGTTGG -CGAAAGTTTCACGCGCTTCGTGCCAGCTGACTTTCTTCTTAATGACGTCGTAGTTTTTCTCAGCAAGCTCATGCATCCGC -TTCTCGAGTGCTTCGACATCTTCCTGGGTTAACGTGCGGTCAAGATCAACGTCGTAATAAAAACCGTTGTCAATAACCGG -GCCGATTGCCATTTTGGTATGCGGCCAAAGTTGTTTAATCGCGTGCCCTAACAGGTGCGCACAGGAGTGACGAATGATCT -CCAGACCTTCTTCGTCTTTGGCGGTAATGATCGACAGTTGTGCGTCGTTTTCAATCAGATCGCAAGCATCAACCAGTTCG -CCATTAACGCGCCCTGCGATACAGGCTTTCGCCAGACCTGGACCAATGTCCAGCGCAACATCCATGGGGCTTACAGCGTG -ATCGTAATGGCGTTGGCTGCCATCAGGAAGAGTTATAACAGGCATTTTATATCCTTATTTGCAGTGGTGACCCACACGAA -AGATCACATACAAAGAAAAATTTGTTTATTAACAGTTCATTGCGAAACCATCTAGCCAACAAATGCTAAATTGGTTCGCA -ATCAGGTACACAAATGAAAGACATTAACCTCTCACCTTCCACCCGGTTGAGCGATGTTAACACTAAAAAAAGGGAGATTG -TACCTTTCCGTTTCACATTGATTCGATTCGCAATTCGTTTGTAGTGAGTACACCAGCAAAACGCTTAAAGAACAACTGAT -AACATCACGGTGCGTCTGAAAGGTTTACTGCGAGCGGATTTACAGCAGCATAAACTGAATCCAGCAAAGTTCGTTGCGTG -ATTTGGCGGTAGTATTTTAAACGCTCATGAGATTAATGACGAAGTGGTCATATCACAATGATAAAAGTGACACAATTCTT -ATAACAATTTTTCGTGCACATTTCGTTCTGGCGATAATAATTAATCATCATCCTCAAAACCTCCAGATATATATAAGGCG -AACAGATTATGAGTCAAAACGATATCATTATCAGAACTCATTATAAGTCTCCTCATAGATTGCACATCGATAGCGACATA -CCAACACCTTCATCAGAGCCTATTAATCAATTTGCGCGCCAGCTCATCACCCTACTTGATACCTCTGACTTAAGTTCGAT -GCTGTCATACTGTGTTACTCAGGAATTTACCGCAAACTGTCGAAAAATATCACAAAATTGTTATTCCACTGCCCTTTTTA -CCATTAACTTTGCCACTTCACCCATCCATACAGAAAATATACTCATTACATTACACTATAAAAAAGAAATCATTTCCTTA -TTACTGGAAACCACGCCTATTAAAGCTAACCATTTGCGAAGCATACTGGATTATATTGAACAGGAACAGTTAACTGCTGA -AGATCGTAACCATTGTATGAAACTGTCTAAAAAAATCCATAGAGAAAAAAACTATACACCCAACAGTAAATCTCAATGGT -AGTGCATGTTTTTTGCAATCTCCTTCTGACGCTATTTTTTGTCGCCATCTGTCATTGCAATACGCCCTTGATTCATTGAG -AAATGGAAAAGGCAAAGTCAACCTGATTAAACATTACTCCTCCGTTGAATCCATACAGCAGCATGTCCCCTTAGTCCGGG -ACGCGGAGTTCAGAGCATTACTTCGCCATCCTCCTGCAGGGAGTCGCGTTATCGCGAGTAAGGATTTTGGCTTCGCTTTA -GATATTTTCTTTTGTCGAATGATGGCAAACAATGTCAGTCATATGTCCGCGATTTTATATATAGACAATCATACTTTGTC -AGTAAGGCTACGAATAAAGCAGTCAGTGTATGGACAATTAAATTATGTTGTGTCCGTTTACGACCCGAACGATACCAACG -TTGCCGTCAGAGACACCCACAGGACAGCACGGGGCTTTCTTTCGCTTGATAAGTTCATCAGTTCAGGTCCCGATGCTCAG -ACCTGGGCTGATAGATATGTTCGCAACTGTGCAATTGCTATTCTGCCCCTATTACCTGTGGGAGTTCCAGGGGCTATTTT -CGCGGGTATTGCATCACGAATGCCATTTGCCCCTATACATCCATCGGCAATGTTGTTAATAATGGCTACAGGCCAGTCTC -AACAGCTTATTACATTATTCAAACAGTTGCCCATACTCCCTGAAAAAGAAATCATTGAAATAATAACTGCGCAGAATAGC -GTTGGTACACCTGCTTTATTTTTGGCTATGATGAACGGACATACTGACAACGTGAAAATATTTATGCAAGAAATTCAGTC -ACTGGTAGATAATCACATCATTCATGAAGATAATCTGGTTAAATTACTGCAAACTAAAAGTGCTAACGAAACACCTGGAC -TTTATATCTCCATGTTGTATGGATTCGATGAAATAATCGATATCTTTCTGAATGCATTAACCACTCCAATAGCACAAGAG -CTTTTAAACAAAAAACTGGTGATGAGTATTTTAGCCATGAAAATACATGATGGTGAGCCAGGATTATACGCCGCAATGGA -AAATAATCACCCTTTGTGTGTCACACGGTTCCTCTCTAAAATTAATGGCATCGCCTTTAAATACAAGTTGAGCAAAGCTA -ACATCATGGATTTATTAAAAGGAGCTACAGCACAGGGAACCCCTGCATTATACATCGCCATGAGCAAGGGTAATGAAGAC -GTCGTGTTATCTTATATATCGACGCTGGGTGCTTTTGCAAAAAAACATTCTTTTAGTCAACATCAGTTATTTACACTATT -GGCCGCTAAAAATCATGACAACATGTCAGCTGTTCATATAGCCATTCATCATAAGCATTATAAAACTGTAGAAACATATT -ATGCTGCTATTAATGCAATCAGCCAAAGCCTGAGTTTTAGTGCTGATGAAATAAAGACGTATTTATAACCAGCTATTTAC -GATATATATCGATACATAATTTTATTTTTTTCATAAAACGCAGAAACAGTGACCATGTGCACAACGCCACCCGACGGCTG -TAATAACAAAAAATCCCTTGATGCCTGTCCCTTTTGTTACACTCCGTTATCACGCACAAGAGATATGCAGGACACTGGTA -TGCCGACTAAACGCTTTGATAAAAAACACTGGAAGATGGTGGTGGTGCTACTGGCAATCTGTGGCGCTATGTTGTTGCTA -CGTTGGGCAGCAATGATTTGGGGCTGAGCAGTGACAAACGAAGACAGCCAGACCGCATAACACGGTCCGGCAGATAATTT -TACATGCTGTAGCCCAGCGATAAGGTTGTCCGACGGTCGGTATGTTCCGGTGCAGACTCTGGAGGTTCAGAGTTCCATGT -GACGTTGTAAGCCACCTTCAGTCCAAAATGTTCATTAATAGCAACATTTAATGCGCTTTCGGAGTTCAGCGTTGTGTCTT -CCGCGCCAAAGACCGAAACACCCTGCGTAAATTTAGCGTTGTCAGTCAACTGCCATGCATAAGCCCCGGAGGCATAGCCC -AGCGGCTGGGTTTCACTGGCATTGTCGGTATATTTGTCGTAACGCACACCTGGACCGAATTCAAAGCGGAAACTGTGTAC -CGGGCCATTCAAAAACTGACGACCATAACCCGCGGTCAACACATCGCGCTCTCGATAGCCGTTATAACGGTCTGTCAGCC -AGCTTGCCTGACCAAATAAATAGTCATAATCAGTTAAATTAAAACGGCTACGCCCGCCCGCCGCATATTTTTCTGAAGAA -CGCTCATCATTAGAAGAAGTATTACTGGCGTTCCCCCACAGCGACCAGGCAGTGGTGTGTCCATACCAGGTCATGGTGGT -GTCAGCCGTAAGTGAGGAGCTTTTCGTATTGCCTGATTGTGCAAGATATCCTGCGTTCAGATTACCTTCGAAAGGTTTTT -TAGCGCTGGCAGGATCATCCATGACAGTAAAAACGGAATCATCGGCAGCTGCATTCAGTGACGCAAACATGCCCCCCGCC -AACATAACGATGGCAGGAACTGTCTTCAAAAGCTTCATTTATCAAGAGTCCGTACAACAAAAAAAGAGACCATCGCGGTC -CCGGAAACTTTCTTAAGGATCAAAGATTAGCGTCCCTGGAAAGGTAACGAATTATAAAAAGGCGCGAATAACTTAGCAAT -GTATTCTTATTTCATTTTTTGAATAAGCATGTGGCGAAAACAGATTTTTATTTATATATATTTATCTGCAAAATTTTAAA -TAAAGCTCCAATAAATCATATTGTTAATTTCTTCACTTTCCGCTGATTCGGTGCCAGACTGAAATCAGCCTATAGGAGGA -AATGATGGTACGTATCTATACGTTGACACTTGCGCCCTCTCTCGATAGCGCAACAATTACCCCGCAAATTTATCCCGAAG -GAAAACTGCGCTGTACCGCACCGGTGTTCGAACCCGGGGGCGGCGGCATCAACGTCGCCCGCGCCATTGCCCATCTTGGA -GGCAGTGCCACAGCGATCTTCCCGGCGGGTGGCGCGACCGGCGAACACCTGGTTTCACTGTTGGCGGATGAAAATGTCCC -CGTCGCTACTGTAGAAGCCAAAGACTGGACCCGGCAGAATTTACACGTACATGTGGAAGCAAGCGGTGAGCAGTATCGTT -TTGTTATGCCAGGCGCGGCATTAAATGAAGATGAGTTTCGCCAGCTTGAAGAGCAAGTTCTGGAAATTGAATCCGGGGCC -ATCCTGGTCATAAGCGGAAGCCTGCCGCCAGGTGTGAAGCTGGAAAAATTAACCCAACTGATTTCCGCTGCGCAAAAACA -AGGGATCCGCTGCATCGTCGACAGTTCTGGCGAAGCGTTAAGTGCAGCACTGGCAATTGGTAACATCGAGTTGGTTAAGC -CTAACCAAAAAGAACTCAGTGCGCTGGTGAATCGCGAACTCACCCAGCCGGACGATGTCCGCAAAGCCGCGCAGGAAATC -GTTAATAGCGGCAAGGCCAAACGGGTTGTCGTTTCCCTGGGTCCACAAGGAGCGCTGGGTGTTGATAGTGAAAACTGTAT -TCAGGTGGTGCCACCACCGGTGAAAAGCCAGAGTACCGTTGGCGCTGGTGACAGCATGGTCGGCGCGATGACACTGAAAC -TGGCAGAAAATGCCTCTCTTGAAGAGATGGTTCGTTTTGGCGTAGCTGCGGGGAGTGCAGCCACACTCAATCAGGGAACA -CGTCTGTGCTCCCATGACGATACGCAAAAAATTTACGCTTACCTTTCCCGCTAACAAAAACATTCCCCCAGCATTGGGGG -AATCATCACCAACCTGTCGGCAACGCGTTTCTCCGACTATGCTCAAAAGTCATGTGATAACAAAGGGGTGAACTATGGCC -AGTGGCGATCTTGTCCGTTATGTCATAACCGTCATGTTGCATGAGGATACATTGACTGAAATTAACGAGTTGAATAATTA -CCTGACTCGCGACGGTTTTTTGCTCACTATGACGGATGATGAGGGAAATATCCATGAGCTGGGAACTAACACTTTTGGAC -TTATCAGTACCCAAAGTGAAGAAGAAATTAGAGAACTGGTTTCGGGGCTTACCCAAAGTGCAACCGGCAAAGATCCTGAA -ATCACCATCACGACCTGGGAGGAATGGAATAGCAACAGAAAATAAATGGTTTTTGGGCAATAATCAGTCTGTGGTGTGCG -TTAGCTCGTGTTTTTACACCGCATTCTTGCGCTAACCTTATGATCTGGCAGACAACATGGGAGAGACATCATGTGGCAGG -CAATCAGTCGTCTTTTGAGCGAGCAGTTAGGTGAAGGCGAAATCGAACTGCGTAATGAACTGCCTGGCGGAGAAGTCCAT -GCCGCATGGCATTTGCGCTATGCAGGACATGATTTTTTCGTCAAATGTGATGAAAGGGAACTGCTTCCCGGTTTTACCGC -CGAAGCCGACCAACTGGAGTTACTGTCGCGTAGTAAAACCGTCACCGTGCCTAAGGTTTGGGCAGTTGGCGCTGACCGTG -ACTACAGTTTTCTGGTGATGGATTATCTCCCACCTCGTCCGCTGGATGCGCATAGCGCATTTATTCTTGGTCAGCAAATT -GCGCGTTTACATCAATGGAGCGACCAACCACAATTTGGCCTTGATTTCGATAACGCGCTCTCCACAACTCCACAGCCCAA -CACCTGGCAACGTCGCTGGTCAACGTTTTTTGCTGAACAACGGATTGGCTGGCAGTTGGAACTGGCTGCAGAAAAAGGGA -TCGCTTTCGGCAATATCGACGCCATCGTCGAGCATATTCAGCAGCGTCTGGCCTCACATCAACCGCAGCCTTCTCTGTTG -CACGGCGATTTATGGTCCGGCAACTGTGCACTGGGTCCGGATGGCCCGTACATTTTCGACCCGGCCTGCTACTGGGGTGA -CCGAGAGTGCGACCTGGCGATGTTACCGCTGCATACTGAACAGCCGCCACAAATCTATGACGGCTATCAGTCAGTATCCC -CGCTACCTGCCGATTTCCTTGAACGTCAACCGGTTTACCAACTCTACACGCTGTTAAATCGTGCAAGGTTATTTGGCGGT -CAGCATTTGGTTATTGCTCAGCAGTCATTGGATAGATTATTAGCAGCATGATATGGGTTGAGGATAATGGCCGCTCCGTG -CGGCCTTTTGATTAAATAAACCCAAGCAGAGAAAAGAACACATAACCTGCAGCAATACAAATAACCGGCAGGATATACAG -TGAGAAAAACTGCAGGAAAATAGTATGGTGCGGAACAACAATACGGGACTCAATTTGTTCACGCGTTAGCCCCTCTTCCC -CTTTGGCTTTTTCCAGAATGAGTTGATCTTCAACACCTTCCCGCAAGAAGCGCGCCTGGCGACTCATCCGGGCACCGGAA -TCCTGCAACGCCAGTCCGACAAAAATCAGGATGAAAATCACCCAGAACATAACGTTCACGCCACCATTAAAATTGGGCGT -CGGGGAGTTATACCAGAATAGATTCAAAAAAGGCGTATTCGCCTGCATCATATCGATCATGACATGAGTAAAGTCGAGCA -TGACCGCATTAATGCCTTCCTTGTTTTCCTGCCGGGTATTCATAAATTTCAGCAAAGAAATCAATGTAGAGATCAATGCA -GGTATAAAAATCACCCAACCCAAAATCCTTTTCAAAACAGCAATGCGTCCAGCTTGTTGATACGTCATGAGTTCTCCTTG -ATTAAGACGCGTCGTTTCACTTAGTTTACCTGTAGATATCTGTTTTCGCCCATTCTTTAAAGGCGATATGATAGGCGCTT -AATCATAAGCACGGCTTAATACCTTACACATAATGCTCTAAAGGAGAGGTTGTAATGTCAACCCCGCGTCAGATTCTTGC -TGCAATTTTTGATATGGATGGATTACTTATCGACTCAGAACCTTTATGGGATCGAGCCGAACTGGATGTGATGGCAAGCC -TGGGGGTGGATATCTCCCGTCGTAACGAGCTGCCGGACACCTTAGGTTTACGCATCGATATGGTGGTCGATCTTTGGTAC -GCCCGGCAACCGTGGAATGGGCCAAGCCGTCAGGAAGTAGTAGAACGGGTTATTGCCCGTGCCATTTCACTGGTTGAAGA -GACACGTCCATTATTACCAGGCGTGCGCGAAGCCGTTGCGTTATGCAAAGAACAAGGTTTATTGGTGGGACTGGCCTCCG -CGTCACCACTACATATGCTGGAAAAAGTGTTGACCATGTTTGACTTACGCGACAGTTTCGATGCCCTCGCCTCGGCCGAA -AAACTGCCTTACAGCAAGCCGCATCCGCAAGTATATCTCGACTGCGCAGCAAAACTGGGCGTTGACCCTCTGACCTGCGT -AGCGCTGGAAGATTCGGTAAATGGCATGATCGCCTCTAAAGCAGCCCGCATGCGTTCCATCGTCGTTCCTGCGCCAGAAG -CGCAAAATGATCCACGTTTTGTATTAGCAGACGTCAAACTTTCATCGCTGACAGAACTCACCGCAAAAGACCTTCTCGGT -TAATGACCAGGGGCAGTGATCTCGCTGCCCCTGGTTCTTTATCTGAAATTGCATTCAACTGACGGATTAATCGTCAATTT -AAGAGAAAGAGTTACACCGTCACCACTTCCGTGCACTGTATAAAAATCCTATACTGTACGTATCGACAGTTTAGTGAGTT -TTATCATGACGGCGGAAGGTCACCTTCTCTTTTCTATTGCTTGTGCGGTATTTGCCAAAAATGCCGAGCTGACGCCCGTG -CTGGCACAGGGTGACTGGTGGCATATTGTCCCTTCCGCAATCCTGACGTGTTTGTTACCGGACATCGATCACCCAAAGTC -GTTTCTTGGGCAGCGATTAAAATGGATATCAAAACCGATCGCCCGCGCTTTTGGGCATCGTGGTTTTACCCACAGTCTGC -TGGCGGTATTTGCGCTGCTGGCAACCTTTTACCTTAAGGTTCCGGAAGGCTGGTTCATTCCGGCTGATGCGCTACAAGGA -ATGGTGCTGGGTTATTTGAGCCACATACTTGCCGATATGCTGACACCCGCCGGTGTTCCCCTGCTCTGGCCATGCCGCTG -GCGTTTCCGCTTGCCTATCCTGGTTCCCCAAAAGGGCAACCAACTGGAACGTTTTATCTGCATGGCATTATTTGTCTGGT -CGGTATGGATGCCCCATTCATTACCCGAGAACAGCGCTGTTCGTTGGTCATCGCAAATGATCAATACCTTGCAGATCCAG -TTTCATCGGCTTATTAAGCATCAGGTTGAATACTAAAAAGGCAAAAATCACCTTTCTGGAATAAGCAATTCCATTTGAAT -ATAAGAGCCAGCTCACAGTTCTGTTAATCTTGCGCCAACACTATGACTGCTACGCAGTGATAGAAATAATAAGATCAGGA -GAACGGGGATGAACTTTCCATTAATTGCGAACATCGTGGTGTTCGTTGTACTGCTGTTTGCGCTGGCTCAGACCCGCCAT -AAACAGTGGAGTCTGGCGAAAAAAGTGCTGGTGGGTCTGGTGATGGGTGTGGTTTTTGGCCTTGCCCTGCATACCATTTA -TGGTTCTGACAGCCAGGTACTTAAAGATTCTGTACAGTGGTTTAACATCGTTGGTAACGGCTATGTTCAACTGCTGCAAA -TGATCGTTATGCCGTTAGTCTTCGCCTCTATTCTGAGCGCGGTTGCCCGTCTGCATAACGCATCTCAGTTAGGCAAAATC -AGTTTTCTGACCATCGGTACGCTTTTGTTTACCACGCTGATTGCGGCGCTGGTCGGTGTGCTGGTCACCAACCTGTTTGG -TTTGACGGCTGAAGGTCTGGTTCAGGGTGGTGCAGAAACTGCACGTCTGAACGCCATTGAAAGTAACTATGTTGGTAAAG -TCTCTGATCTGAGCGTTCCGCAGCTGGTCTTGTCCTTTATCCCGAAAAACCCGTTTGCCGATCTTACCGGAGCCAATCCG -ACGTCAATTATCAGCGTGGTAATTTTTGCCGCATTCCTCGGCGTAGCTGCATTGAAACTGCTGAAGGATGATGCGCCGAA -AGGTGAACGCGTCTTAGCCGCTATCGATACCCTACAAAGCTGGGTGATGAAACTGGTTCGCCTGGTCATGCAGTTGACCC -CTTACGGCGTTCTGGCTCTAATGACCAAAGTGGTTGCAGGTTCTAACTTGCAAGACATCATCAAACTGGGAAGTTTCGTT -GTCGCGTCCTACCTCGGTCTGCTGATTATGTTTGCAGTGCATGGCATTCTGCTGGGCATTAATGGCGTGAGTCCGCTGAA -GTACTTCCGTAAGGTATGGCCTGTGCTGACGTTTGCCTTTACCAGCCGTTCCAGTGCTGCGTCTATCCCACTGAATGTGG -AAGCACAAACGCGTCGTCTGGGCGTTCCTGAATCCATCGCCAGTTTCGCCGCCTCTTTCGGTGCAACCATTGGTCAGAAC -GGCTGCGCCGGTTTGTATCCGGCAATGCTGGCGGTGATGGTTGCGCCTACGGTTGGCATTAACCCGCTGGACCCGATGTG -GATTGCGACGCTGGTCGGTATTGTTACCGTTAGTTCCGCAGGCGTTGCCGGTGTCGGTGGTGGTGCAACTTTCGCCGCAC -TGATTGTACTGCCTGCGATGGGCCTGCCAGTAACCCTGGTGGCGCTGTTAATCTCCGTTGAACCGCTTATCGACATGGGC -CGTACGGCGTTAAACGTTAGTGGCTCGATGACAGCTGGCACGCTGACCAGCCAGTGGCTGAAGCAAACCGATAAAGCCAT -TCTGGATAGCGAAGACGACGCCGAACTGGCACACCATTAATTCTTATGCTGGCAACGGTCCGTTTTGTATAGGGGCCGTT -GCCTTACTTTTTAAATGTTCCATCGCGGCGATGCATACTGACTCATATTTAAACAGATCGTCAGCGAAAAAAATGTCCAA -CTTATCAATACATTCCTGGCTCAATGAATGTGCCTGTAGCGAGAAGCTTAAAACCTCATACCCGAGACGTTTTCTAAGTG -AACTATCTGGAATACTCATAATATCTTCAAGCACACCACTTCCCATTCCCGGAAGATTTAGTGGATTAAAAAGAAGATTG -ATATTAAGCATTGATATTATCGAAGGAAACTTTAGGAGACTCTCATTTTTTTGAATCGCAGCAAAAATGCTCCCGACAGG -ATGTATATAATTTTGTTCATAGTATATAGTCCTTAAATAGTGAATAACCAACCTGTTTTTTATACTGATCAAATTGGTCA -TTTTTTCTGGGCGAAATACAGAAGTGACATCCATTCCAATAAAATCTTTATTTATACCTCTTATCCGAATTTCACTACCA -TAAAGATTATTAATTATTACTCTATATTTAACATTGTCCTGCAGATATGTATCAAAACTAAGTGCTGGCGCTCCTGGCTT -TGAGGCATCATAGTTAATGTTAGACATATAGGCAATCATATAATTAAAGTTTGATTCTGCTATTTCATCGCAGTCACATT -GACCCGTTGATATAAAGAAAGTGAGTGCTGTCATAGTAGACTGCAGCCTTTCTTTAAAAGAGTCGAAAGCCAGGCTTTTA -ATATTTAAATCACCATAATTACTCTGTATTAAGTTTGTAGAAAACATCTCCCGCCTCATATTGTTAACAAAATTATTATC -TCATTTAAATCTAAGTCATTTACAATATAAGTTTAAGAGCGACGCCACAGGATGAACTATCAAAAATAGCTCATCATGAT -TAGCAAAACTTAACCATTTTAAAATAAATAAACAATTAAAGAAAAAAGATCACTTATTTATAGCAATAGATCGTCAAAGG -CAGCTTTTTGTTACAGGTGGTTTGAATGAATGTAGCAACGAAATACAGAATTTCAGGTCATGTAACTCCCGGCAAAACCG -GGAGGTATGTAATCCTTACTCAGTCACTTCCCCTTCCTGGCGGATCTGATTTGCCCAACGTTGGGCAGATTCAGGCACAG -TAAACGCCGGTGAGCGCAGAAATGACTCTCCCATCAGTACAAACGCAACATATTTGCCACGCAGCATCCAGACATCACGA -AACGAATCCATCTTTATCGCATGTTCTGGCGGCGCGGGTTCCGTGCGTGGGACATAGCTAATAATCTGGCGGTTTTGCTG -GCGGAGCGGTTTCTTCATTACTGGCTTCACTAAACGCATATTAAAAATCAGAAAAACTGTAGTTTAGCCGATTTAGCCCC -TGTACGTCCCGCTTTGCGTGTATTTCATAACACCGTTTCCAGAATAGTCTCCGAAGCGGGATCTGGCTGGTGGTCTATAG -TTAGAGAGTTTTTTGACCAAAACAGCGGCCCTTTCAGTAATAAATTAAGGAGACGAGTTCAATGTCGCAACATAACGAAA -AGAACCCACATCAGCACCAGTCACCACTACACGATTCCAGCGAAGCGAAACCGGGGATGGACTCACTGGCACCTGAGGAC -GGCTCTCATCGTCCAGCGGCTGAACCAACACCGCCAGGTGCACAACCTACCGCCCCAGGGAGCCTGAAAGCCCCTGATAC -GCGTAACGAAAAACTTAATTCTCTGGAAGACGTACGCAAAGGCAGTGAAAATTATGCGCTGACCACTAATCAGGGCGTGC -GCATCGCCGACGATCAAAACTCACTGCGTGCCGGTAGCCGTGGTCCAACGCTGCTGGAAGATTTTATTCTGCGCGAGAAA -ATCACCCACTTTGACCATGAGCGCATTCCGGAACGTATTGTTCATGCACGCGGATCAGCCGCTCACGGTTATTTCCAGCC -ATATAAAAGCTTAAGCGATATTACCAAAGCGGATTTCCTCTCAGATCCGAACAAAATCACCCCAGTATTTGTACGTTTCT -CTACCGTTCAGGGTGGTGCTGGCTCTGCTGATACCGTGCGTGATATCCGTGGCTTTGCCACCAAGTTCTATACCGAAGAG -GGTATTTTTGACCTCGTTGGCAATAACACGCCAATCTTCTTTATCCAGGATGCGCATAAATTCCCCGATTTTGTTCATGC -GGTAAAACCAGAACCGCACTGGGCAATTCCACAAGGGCAAAGTGCCCACGATACTTTCTGGGATTATGTTTCTCTGCAAC -CTGAAACTCTGCACAACGTGATGTGGGCGATGTCGGATCGCGGCATCCCCCGCAGTTACCGCACCATGGAAGGCTTCGGT -ATTCACACCTTCCGCCTGATTAATGCCGAAGGGAAGGCAACGTTTGTACGTTTCCACTGGAAACCACTGGCAGGTAAAGC -CTCACTCGTTTGGGATGAAGCACAAAAACTCACCGGACGTGACCCGGACTTCCACCGCCGCGAGTTGTGGGAAGCCATTG -AAGCAGGCGATTTTCCGGAATACGAACTGGGCTTCCAGTTGATTCCTGAAGAAGATGAATTCAAGTTCGACTTCGATCTT -CTCGATCCAACCAAACTTATCCCGGAAGAACTGGTGCCCGTTCAGCGTGTCGGCAAAATGGTGCTCAATCGCAACCCGGA -TAACTTCTTTGCTGAAAACGAACAGGCGGCTTTCCATCCTGGGCATATCGTGCCGGGACTGGACTTCACCAACGATCCGC -TGTTGCAGGGACGTTTGTTCTCCTATACCGATACACAAATCAGTCGTCTTGGTGGGCCGAATTTCCATGAGATTCCGATT -AACCGTCCGACCTGCCCTTACCATAATTTCCAGCGTGACGGCATGCATCGCATGGGGATCGACACTAACCCGGCGAATTA -CGAACCGAACTCGATTAACGATAACTGGCCGCGCGAAACACCGCCGGGGCCGAAACGCGGCGGTTTTGAATCATACCAGG -AGCGCGTGGAAGGCAATAAAGTTCGCGAGCGCAGCCCATCGTTTGGCGAATATTATTCCCATCCGCGTCTGTTCTGGCTA -AGTCAGACGCCATTTGAGCAGCGCCATATTGTCGATGGTTTCAGTTTTGAGTTAAGCAAAGTCGTTCGTCCGTATATTCG -TGAGCGCGTTGTTGACCAGCTGGCGCATATTGATCTCACTCTGGCCCAGGCGGTGGCGAAAAATCTCGGTATCGAACTGA -CTGACGACCAGCTGAATATCACCCCACCTCCGGACGTCAACGGTCTGAAAAAGGATCCATCCTTAAGTTTGTACGCCATT -CCTGACGGTGATGTGAAAGGTCGCGTGGTAGCGATTTTACTTAATGATGAAGTGAGATCGGCAGACCTTCTGGCCATTCT -CAAGGCGCTGAAGGCCAAAGGCGTTCATGCCAAACTGCTCTACTCCCGAATGGGTGAAGTGACTGCGGATGACGGTACGG -TGTTGCCTATAGCCGCTACCTTTGCCGGTGCACCTTCGCTGACGGTCGATGCGGTCATTGTCCCTTGCGGCAATATCGCG -GATATCGCTGACAACGGCGATGCCAACTACTACCTGATGGAAGCCTACAAACACCTTAAACCGATTGCGCTGGCGGGTGA -CGCGCGCAAGTTTAAAGCAACAATCAAGATCGCTGACCAGGGTGAAGAAGGGATTGTGGAAGCTGACAGCGCTGACGGTA -GTTTTATGGATGAACTGCTAACGCTGATGGCAGCACACCGCGTGTGGTCACGCATTCCTAAGATTGACAAAATTCCTGCC -TGATGGGAGGCGGCGCAATTGCGCCGCCTCAAATGATTTACATAGTGCGCTTTGTTTATGCCGGATGCGGCGTGAACGCC -TTATCCGGCCTACAAAACTGTGCAAATTCAATATATTGCAGGAAACACGTAGGCCTGATAAGCGAAGCGCATCAGGCAGT -TTTGCGTTTGTCAGCAGTCTCAAGCGGCGCAGTTACGCCGCCTTTGTAGGAATTAATCGCCGGATGCAAGGTTCACGCCG -CATCTGGCAAACATCCTCACTTACACATCCCGATAACTCCCCAACCGATAACCACGCTGAGCGATAGCACCTTTCAACGA -CGCTGATGTCAACACATCCAGCTCCGTTAAGCGTGGGAAACAGTAAGCACTCTGACGGATAGTATTATCGATAAACGCCG -GATGACACATCACCTCCAGCGAACGATCACCCCGATGGCCTGCGTCATCCAGCACTTGCAGGAACAGCGACTCACTGATC -TCTTCACCGTAGAATGCACTGCTGAATCCCTGGGTAGTGCGCAGGTTGACCGGCAAATCAAACGCCATCTGACGATCCGC -CCGCAACGCAATGCCCTGCTCTGCCGCAAACCTGGCAACAATCGGGAAAATCTGCGGGAACATATGCACATGATGATGGC -TATCAAGATGCGTAGGTTTGCGTCCAAATAGCTCAATGAAACGCAAATACTGACTGACAAGCTCCTGAGTAATTTCTTCC -AGCGGTAAAGCATCTTCTTCTGCCAACTGCCAGATCCATTTTCCCAGCACACCATCGCGGGTTAACCCCGGCATAGCTGT -CAGTGGCTTACCCATAGTAAGGACAAAGTGCATCCCTATGGCCAGACTCGGTTCATCACGACTCAACTGCACCGCATGGT -CAATAGCCTGCCCATTCACCAGCGCCGTCGTCGACGTGACAATCCCATTGCGACAGGCCTCGATAATGCCGTAGTTCTGA -CCTTTGCTTAAGCCAAAATCATCGGCATTAACAATCAGTAAGCGTTCCATAATCAGCCTCGGTTAATGTGCTTTTTTAAG -CTCTGCGATGCAGTCGGCAAAGTTTGGCAGCCATTTCTCGTGCGCCAGAATCATCTCGCGTGCCAGCAGCTCAGCATCGC -GATCGGAATGCACCAACGGACTAAGGTTTAGCGCCAGTAACACATCGTTAAATTCTCCGCTAAGTGCGGCGTTACTGGCA -GCAATCTCGAAGCCTTTAATGGTGTGAATCAGCCCCATTACTTTATCATCGAAATGCGTAATGCGCGGATGTGGCGTCGC -GCCATCGCGCCCCAGCTTACAGGTCATTTCTACTGCCCAGTCTGCCGGAATATTATCAATCTGCCCATGATGCGGGATAT -TAACGTAATGTTCTGCTTGCTTGTCGTTGTAGATAGCGTTGATCACTTCGCATGCTGCATCAGAGTAATAAGCCCCACCG -CGCTGTTCCAGTTCTTTCGGCTTAACTTTCAGCTCAGGATTTTTATACAGCTCAAAAAGTTGTTTCTCGACTTTCTGTAC -TACCTGCGCTCGTGCGCCGCCTTTGTAGTATTCGCCCATTTCAATAGCCAGCATCTCTTTCTGCTTGAAGTAATACAGCA -GATAAGAACATGGCAGCAGATTCAACGAACGAATTAAGCCCTCACTAAATGGCAGATCGAAAATATTTTTTACAGAGGAC -GCTTTTAACTGCCCTGACGCCACACCATCAAGCAATTCGGCAAAGCGCGACTTGCCATTTATCAGCACATCCTTAATGAA -CACCATATGGTTGAGGCCGAACAAATCGATAGATAAATCATCGCTGTCTTTCAGCATCAGAACATCGCGAATAAACATCT -TCATGCCGATCGGAATATTACACACGCCGATAAAGCGTTTAAATCCGGTATGACGATAAACGGCTTCAGTGACCATTCCC -GCCGGGTTAGTGAAGTTAATCACCCATGCATTCGGACAAAGTTCTTCGACATCTTTTACGATGTCAAAAATCACCGGAAT -GGTACGCAGACCTTTAAACAAACCGCCCGCGCCGTTGGTTTCCTGACCAAGATAACCATGACTTAATGGAATACGTTCAT -CCAGTTCACGCGCCGGTAATTGGCCAACGCGCAGTTGGGTAGTAACGAAATCAGCATCTTTCAATGCTTCGCGGCGATCC -AGCGTTTTATAAAGCTTCATCGGGACGCCAGCGTTATCAATCATCCGTTGGCAGAGATCGAAAATAATATCCAGTTTCGG -TTTACCACCTTCGACATCCACCAGCCATAATTCGCTGACCGGCAATTCGTGATAACGCTTAATAAATCCTTCCAGTAACT -CCGGGGTATAGCTGCTCCCGCCACCAATAGTGACGACTTTTAATTTCTGGCTCATAATTTCTCCCTTCAGTACAGAATAC -TGATATCTGGCATATCTGCCCCCCCGGACATAAATAATCCAGCAACAGGACAGATATGTGAATTGTCAGGTATAACGACT -TACTGATTAAATTCAGTCAATTTCTTACGATAGCTCTTAGGCGTAAAGGACGTTAATTTCTTAAACGTTTTAATAAACAA -ACTCGGGCTACTATAACCGGCCTCAAACGCAATATCCGTCACTGAATAGTTGGTCATTTCCAGTTGTTTTTTGGCAAAAT -TAATACGGATTTCATTAATAATCTGCATTGGCGTTTTGCCATAATATCGTTGAGTCGCTCGCGTCAAATATTCCTGTGAT -TTGGCTGACAACGCCACCATATTCTCCAGCGCCGATTCACTAAACTGCTCTTTATCATGCATCTTTTCTACCGTACTTTT -CAGCCACTGCGGTACATCATCAATCACCTGTTCTTCGCGGTAATGACGTAAACGGTTAATGACATAAAAAGTAACCATCT -CAACAAACTCTTCCAGCCCTGTTTCGCGGAAATTCAATGAAGAAATCACTGTTTCCACATAGGTGAGAAAAGCGTTATTG -GTCCGGTATACCTGCGAAGCGACAAAGCAATAAGGCAACAATGGCAGGTAATGCTGCTCAAAAAAGCGTTTACTGATCCC -AACGTTCAATATGCGCGTGGCACCAAACTCATAAAAACTTTGATGGTGCGAACCTAACGGAATAAAAACAAAATCGCCCC -GTTCCAGTAACACGCGCTTACCGTTAATCTCCTGGAAATAACGCCCGGTTAATACCAGAGTAAATTCATAATAGTCGTGC -TGATGCAGTCCGCTGATACTCTCAGTTTTGTTATAGATAAACACATGGAAGTTTTTGCCATTAAACAACTGCTGTTCTCG -GGCAGTGGCAATTTCCGGCGCGTTAATCACTGGCTGCATCATCGACTCCTTATGCCTTCAGTTTTTCATGAAGCTCAATT -AATTCAGTAATCAGTTCACGCGCAAGCATGGACGTCATTAAATGATCCTGAGCGTGGACCAGCACCAGACTCACTTTCAT -CTTACCTTCGCCCGCATCGCCTTCAATCAGTTTCGTCTGTACCAGATGCGCTTCATTCAATGCCATCCGTGACTGATCCA -TCATGGCTTTTGCTGCGGCAAAATCGCCCTGCTTCGCCTGTTTCAGTGCCGCATACGCCAGGCTGCGCGCTTGTCCGGAG -TTGATGATCAGCCCCATCACCACTTCTTCCAGCTCTTCAGCTTCCGTTTGCGTATCGGGAATGTTATCGAGATCCATCAT -ACATCGTTCCTCTCTTTTCTTACCGGCACGATTACCCGTACCGGCATCGATTAAAATTTCAGGGCGTTAGCGATATCTTC -TTCGCTCTCTTCTTTATCAATCGCATTTTGTGCTTTGTTAGCCACCACAACAAAGGGCAGATAAATTAACGTTGCGATGC -CAAGGTTGAAGAGTGCGACCAGCAATGCGGCGACGCTACCGTTGGTGTTAAAGAAGGCTCCCAGACCGGTTGGCATGGTC -CACGGTGCAATATTGGTCACCGGAGGAATAATGCCCATGTAGTACGCTGCGAGGGTGATTGCCGCCAGAATCGGTTGTAC -CAGTACAAACGGGATAAACATCACCGGGTTCATGATAATTGGCAGACCAAACAGAATCGGTTCGTTAATCTGGAAGATGC -CGGACGGCAGCGCCAGTTTTGCCACCTGACGATAATCAGCACGGCGAGAGGCGATAAAGATAGCCAGGATCAGGCCTAAA -GTCGCACCACTGCCCCCAAGGAAAATAAAGGAGTCCAGCATCGGCTTGGCCCAGATATGGAAGGTCTTACCGGCTGCCAG -CGCCGCTTCGACGGAACCATATTGCTGATAGGTCGCGATATTTTCCAGTGCCCACGGCGTCATAATGCCGTTGTCCAGTG -CGGTCAGCGCCAGCGCGCCATGAATACCGAAGAACCAGAGCAGTGGAACAAAGATCACATAGGCCCAGCCCACCACGCTA -CCCAACGATGCCAGTGGGGTTGAGATGGTATCCATAATGATCTGATGGAAGTTGGTGCCCCAGGTATTCAACGCCCAGGC -AATAATCCCCATCACGGAAAGAATAATAAAGCCGGGAATTAATGCCGAGAAGGAACGCGATACTGAAGCAGGTACGCTGT -CGGGCAGTTTAATGACCCAATTGCGGCGGACAATAAAGGTAAACATTTCTGCCACCACCAGGCCAATAATAATCCCGGAG -ATGATATTCGCCCCACCTAACCAGTTTGCACCAACCGCATAGGCCTCACCGACACTATATGGGGTGACGGTCATAAATGC -TGCAACGGATAACAACCCAGCCGCCAGCGCATCGACTTTACGCTCTTCTGCCAGCGCCATGCCAATAAAGAACGGTGCCA -TTAAAGACATTATTCCTAATGTTCCGTTATATACGTTGCCGCCAATACCTTTCAGACCATTAAGTGTTTCAATGGTTGAG -GCGTCGAGGCGAATACCTAAGGAATAAAAAAACGACCCCTCCCCAAAGCTTAGAAAAACGTTGTTAATTAATACAAACAT -GGCCCCCGCAAGGGTTAACGGCATTAAGCGAATAAAGCCATTTTTGATTGCATTAACGTGTGGCTGCTTTCCTATTTTAA -CTGCAAAAGGGAGGAGTACCTTTTCAAGCGATGCAATAACATTACTCATAGAAAAATACCCTTAAAAACCGCAATTTAAA -TATTGCGGTATTGATTTATGAAATAACTCTTTGACGGGAAAATTTAAAATAAATTAATTTGCTGCGGCTTTTTTAATCGC -TGCAACCGCAGCCTTAAGCACGCCTAAACCATCGACTTTGCCATAAAGCAGCGAGTCAATTACTTCAACCGGTTTGTTGG -GTAACAAACGCTGGATTTCGGGCAACATATAAGCAATCTGCGGCCCTAATAACACGACATCGGCATTCTGACCTTTTTCA -CCAGCCAGTGTTTCCGGAAATGCTTCAATAATGACCGGAACTTCATATTTTTCTGCCTGTGCGCGCATTTTTGATACCAG -TAAAGAGGTAGACATGCCCGCAGAACAAAACAGATAAATGTGTTTCTTTTCCATAAAACTGCCCTCATCGACGATTATCT -GTCAGCCAGACACTCCGCAAGCCTTAACCTGCTTCCATGCTCTGGGTAACTTGCGAAACCAACATGACTTTTTTTGTGGC -TGAAAGGAGTATACGGTATAGACCTGAGCAATAGTATTTCTTTGACCTTATAAATTGTTTCTCCTTGACCTGTGGTTATG -ACCCTCTTCACATTTCGGGCAAATAATTCGCGAAGATAATTAAGAACTCAGGCCAAAAAAAACCGGCGCAATGGCCGGTT -TCCGTTGTTACTCAAGCTTTCAGACGAATTGATTACTTCGCAGCCTGTGGATCAGTGTCGTATTCAGCACAGGTCTGATA -ACCGGAGTTGATGACATGTCCGGTATCATCTAACGCGACAAAGTAGGTTTCTGCTTTACCATCACGTTGACCCAGGATGT -AGGTCTGGCAAGTACCGCGAGCATGGATCATGCTCACTTCAGACGAAGGTTTACCCGCAATTTGTGCAACCTGCGCCCGG -CTCATGCCTTTTTTGACGTCTTTCACCACAGGCTGTACAAACTGGTCTTTGGTACGATCATAAGCCGTACAACCCGCCAG -CATGGTTAATACCGCCGCTGCACTCAGAATTCCTGCCATATTCTTGTTCATATTCCGTCCTCTTGTTTATCAGCGTGTTA -GATAAGCCTGGAATACATTGGGCGCTTTTTCAAGCCCGTGAACGAAACGGCTCCGCTTTCAGAGGATTCCTGTATGACGT -TTTAACCACCATTCAGCCCGCTGTCGCTTGTCGTTTCAGTAGCAACGGGTTAGCTTTAAGGAAGTTTTGTCTTTTCTGTC -TGGAGGGGTTCAATGACATTGCAACAACAAATAATAAAGGCGCTGGGCGCAAAACCGCAGATTAATGCTGAAGAGGAAAT -TCGTCGTAGTGTCGATTTTCTGAAAAGCTACCTGCAAACTTATCCGTTCATTAAATCACTGGTGCTCGGGATCAGCGGCG -GTCAGGACTCCACGCTTGCCGGAAAGCTGTGCCAGATGGCGATTAATGAGCTGCGCCTGGAAACCGGCAACGAATCACTG -CAATTTATTGCCGTACGCCTGCCCTATGGTGTTCAGGCCGACGAACAAGATTGCCAGGATGCCATTGCCTTTATTCAACC -GGATCGCGTATTAACCGTTAATATCAAGGGCGCGGTATTGGCCAGCGAACAGGCATTGCGGGAAGCAGGCATTGAACTGA -GCGATTTTGTCCGTGGCAATGAAAAAGCGCGTGAGCGGATGAAAGCACAATATAGCATTGCGGGTATGACCAGCGGTGTC -GTGGTGGGCACCGATCATGCAGCAGAAGCCATTACCGGATTCTTCACTAAATATGGTGACGGCGGTACGGACATTAATCC -GCTGTATCGTCTCAACAAACGTCAGGGTAAACAGTTACTGGCGGCATTAGCTTGCCCGGAACACCTTTATAAGAAAGCGC -CAACGGCCGATCTGGAAGATGATCGCCCTTCTCTGCCAGATGAAGTGGCACTCGGCGTGACCTATGACAATATCGACGAC -TATCTGGAAGGGAAAAACGTACCTCAACAGGTCGCCAGAACAATAGAGAACTGGTATCTGAAAACCGAACATAAACGCCG -TCCGCCAATTACCGTTTTCGATGATTTCTGGAAAAAGTAATAATTTGCACATATTGGATTGTGCGAAAAAGAGTAATTTG -TTCACGCCGGATGCGGCGTGAACGCCTTATTCGACCTATAAAACTATGCAAATTCAATACATTGCAGGAGTCGAATAGGC -CTGACAGGCGTAGCACGTCAGACGGTGTAACCTTTGTCATCGACCCGCCTCTTTTTTAATCGCTTCCCGCCTGTTACACT -GGATAGATAACCAGCATTCGGAGTCAACAGTGGTACGGCGTTTAACTTCTCCGCGGCTCGAATTTGAAGCTGCGGCAATT -TATGAATATCCCGAACATTTACGTTCATTCCTTAATGACTTACCCACCCGACCAGGGGTGTATCTGTTTCATGGTGAAAG -TGACACCATGCCGCTCTATATCGGCAAAAGCGTTAACATCCGCAGCCGCGTCCTTTCTCATTTACGTACCCCGGATGAAG -CCGCCATGCTACGGCAATCCCGACGGATCAGCTGGATATGTACCGCCGGTGAAATCGGCGCTCTGCTCCTTGAAGCGCGA -TTAATCAAAGAACAACAGCCGCTGTTTAATAAACGGTTGCGCCGCAATCGCCAGCTCTGTGCCCTGCAATTAAATGAAAA -GCGCGTCGATGTGGTGTATGCCAAAGAGGTGGATTTTTCACGAGCCCCCAACCTGTTTGGCCTGTTTGCCAATAGGCGCG -CAGCTTTGCAAGCATTGCAGACCATCGCTGATGAACAAAAACTTTGTTATGGCCTGCTGGGACTGGAACCGTTAAGTCGC -GGTCGTGCATGTTTTCGTTCAGCGCTAAAACGTTGCGCCGGAGCATGCTGCGGTAAAGAGAGCCATGAGGAACATGCGCT -ACGCTTGCGCCAGTCTCTGGAGCGTTTGCGGGTGGTGTGTTGGCCTTGGCAAGGGGCGGTGGCGCTGAAAGAACAGCACC -CGGAAATGACTCAATATCATATTATTCAAAACTGGCTGTGGCTGGGGGCGGTTAATTCGCTGGAAGAAGCGACAACGTTA -ATTCGGACACCCGCCGGGTTTGATCACGACGGTTATAAAATTCTTTGTAAGCCGCTGCTTTCCGGTAACTATGAAATTAC -TGAACTTGATCCGGCGAATGACCAGCGAGCCAGTTGATTTCACTGAACAACAGTTTACCTTGCGGTTGTAAAAGCCGCAG -GGTGTGCCTGCCATCGAACCAGCACGCGCCCTGGTCGGTAGTGAGCAATTTATCGCCCAGTTGCCACGCCCCGTTAATCA -CAAACACCACCCCGCCGCGTGAGCCAAAGGTAGTAAACGTACGTTCGGCAATTCTGACTTTCGCCTTACAGACATCCAGG -CGTGTCATGATGTTGAAATCCATCGACATCTGCCCTGCCGTCAGTTTCGCTTTTACCACCTGGTCCGCTGCAAAGGCAAA -AGGCTGGAACGGTTTTAAGGTATGGTTAAAGCGGTCTGCGCTTTCAAGGAGCATCTCGCCGCCTTCCAGCAACGTCACTA -TCCTTTCCATGCCGGGAAACAAAGAAAACTCCCCATTCGCCGCGATGGATGCAATGCTGGCACGCCAGTAAAAATCACGT -TTTGCCGGTGGGAACGTGCAAATTTCGCGCGTTTCACCGGCAGCATTTCGCCACAGATTCACCGACATTTTACGCATATC -AAAGTATTCCATACTCGCTCCCGGCCCGTTCTTTTCATTGTTATCGTTCAGGTAACCGTGGATGGTTATCGGCAACTCGG -GTGATTTACGTTAGTGGTGATCAGGCTTTTTTTACAACTGTTTGAGAAGAGAAAAGAAAACCGCCGATCCTGTCCACCGC -ATTACTGCAAGGTAGTGGACAAGACCGGCGGTCTTAAGTTTTTTGGCTGAAAGATTATTCAGCAGTTGCAGGCATTTTAC -CTTTTGCCGCTGGACGTTCTGTCAGACGCTTCTCAAAATTAGCATTAAATTGCTTTTTCTGTTCCGGCGTCAGGATGTTG -TAAATTTTGTTCTGGGTTTCCATGTGCGCCAGCATGTTAGCTTTGCGCTGTTCTTCCATTTTTGCGATCTGCGCTTCAGC -TTTTACTTTATCGAAGGTATCGCTGGCAATGATGTCATGCATTGCGCGGCGTTCTTCCAGCGGCGGACGTTTCATCTGGT -CACGCTGGCCTTTCATGATTTCGCGGATCTGCTGTTTCTGCGCGTCGGTCAGGTTCAGGTCTTTGAACATCATGTCCTGA -TGCGGACCGAACTTGCCTTTGTGGTGCATCATCGGCTTCGCGTCAGCCGGTGCTGCGGTAGTGGTGTCTGCGGCATGGGC -CAGGTTAGCCGCGCCAAGAGCCAGGGTAGAGGCAACAAACAGTGCAGTTAATTTACGCATATTCTATATCCTTCCTTTCA -GTTATTTATTACGGCTTTCTTAAGTAGCGTGCCGTGTTGACGAGATTAACTTTACTGACTTTAGCGTCAATTAATCAGAG -CAACGGTAAAACAATGAAAGTGTAAAAAACACTTTTGCGCCAATTATGGAGAAAAAAAGAAAATTTGATGGAGAGTGATG -AGAGAATATTACAACACGATGATTTTGCAGAGATTATGAAGAACTATACCGGATGACTGGTGATAAATAAAGCAAATAAC -CAGGATTAATCTGTATTAATTTATAAGAAAGCAACTTAATACCCGCAGAATGATTTCTGCGGGTAAGTATTAGCTTATTT -TTTCGAGCATTAATCCCGCGCGTAATCCCAACGCTACCAACGGATTAGGGAATAACACATACTCTACATCATGGGTTACG -GTAAAACGTTCCTCTCCGTCCTGCGCCAGCAATGTTCCTTTCTCAAACGGCATAAAATTCAGCGTGTCACTTGCCATATG -CATTTCGAAGGACGGCGAGTGGCGAGTAATTTGCGAAACCACCCGATAACGGAGCGGCGGTGTTCTCACGATACCGACAC -TCTCACCAGATAGCAGCGCAGCAATTGCGCTGGCAGTTACTGCAAACTGGCGAAGATCGTTTTGCCCAAAGGGCAACGCT -TTGCCAAGTTCCAGCGTACAGGCCAGCGCGCCAAAATGTCTGGCGCTGAAATGGGTAAACGTACCACCAGGTTCCTGATG -GAACACCAGCGCCTCCAGCCCCGCCGCACCCAGCCACGTCAGAAATTTCTCGTCCCAGGGAATGTCGCGTTGCGGTAATA -CACCGAACTGCGGATGCAAGGAGCCACGAATTGCGGTATGTAGATCAAGGTGCCAGCGCACAGATTCTTTGCCCTGGTCA -TAAAAATCTTCCAGGCACTGTTCCAGTTCGCGCGCCCGACAGGTTTCTCCGCTTTCAGCAAATAGCTGCCAACGACCGCC -AAACATTCGATTCATATCGCTATGGCAATAACGTTTCCCTTGCTTCAGCGCAGGAGGATTCCCGAGGATCACCAGCAACC -GCCAACGTAACGGGATCTCGCCGTGAGATATCGCGCCAAGCAACGCGTCCAGCATCTCCACAGGTGCCGTCTCATTACCG -TGTATTCCCGCTGAAATCACCAGTGCGCCTTGCGGTGGCGTTAATGGCGTCAGTTCCAGCACACCATCGCCCAGCCAGCG -CCAGCGAACGCCGTTGATTTCTCGCTCGGTGATAACCGGTTTTTTACCCGTTAAGGTCAGAGCAAGAAAATTATCCATTG -CCCCCTCCCTCGCGCTGGAACGGATAAACCGAACCGAGATTCAGTAATTGGCTCAATACATCCAGTGCTTCCCGCCCTTC -GCGCAGCAATTGCGGGTCGGCCAGATCGGCAGCAGTAAGGCGATCGCGGTAGTAACGATCCACCCAGTCATTGAGCGCAT -TAAACAGCGTATCGTTCATCATCACCGCCGGATTCACCGCCCGGCGTTCTTCTTCTGTCAATACCACCCGCAACCGCAGG -CACGCCGGGCCGCCGCCATTCGCCATGCTTTCACGTAAATCAAAGACTTTTAGTTCGCTAATCGGGTTGTCAGCGGCAAG -GAGTTCATTGAGATAACCCCATACTCCGGCGTGTTCCCGACACTCCTGAGGCAGCACCAACATCATGGAACCATCATCGC -GGCTCAGCAGTTGGCTGTTAAACAGATAGGTAGACACCGTATCAGACACGGAAACCTGAGTTGCCGGAACTTCTATCGCC -ATAAAACCATTGACCCGCGCACGCAGGTTTGCCAGTAACTGTGACTGGCGAGCGAACGCCTGTTGGTGGCAAAACAGCAC -CTGGCGGTTACTCACGGCAATCACGTCATTATGAAAAACGCCCTGGTCGATAACGTCCGGGTTTTGCTGGGCGAAAATCA -CCTGTTGGGGATTCACCTGATTCAGCCTTGCCACCGCCTCGCTGGCTTCGCGAGTCTGTCGCGCCGGATAACGGGAAGGC -CGGGTATCATTGCCTTCTTCTCGCCCGTAGACAAAAAGTTGCATACCCGGTTCACCGTAATGACCGCCGAGACGATTGTG -GTTTGCCGCCCCCTCATCACCGAGCAACGCTACCTGTGGCAACGCCGAATGGACGCTAAATTTCTCTTCGTCGTTAAAAA -TCGCTTTTAACAGCGATTCAGTGACGGGCGCTTCCAGCGAACGGTGAAATTTATTGTTCAGGTTGGCAACGGTGAGATGC -ACTTTGCCATCCAGCGTATCGGCAGATGGCGCGATCGTTGCCGCATTGGCTACCCACATTGGCGAAGCGGAACTGACGCT -GGAAAGCCAGTGCGGTGCCTGGCGTGCAACTTTTTCCAGTACCTGCTCATCGCTACCACTGAATCCCAACTGACGCAGCA -CCGGAATAAACGGACGCTCGTGCGGCGGGATCACGGCCTGGGGGAATCCCGCATCGGCAAGGGCTTTCATTTTCAGTAAG -CCCTGCTTCGCCGCCAGTCGCGGGTTAGACACCTGAAAACGGTGACGGGTAGAGGCTTCATTACCAAACGACAGGCCCGC -GTAATGATGCGTCAGCCCTACCAGCCCGTCGAAATTGACTTCCCAGGCGTTCATCGCACCACCTCATCGGAAAAATCCAG -CCCGGGGTTAAGCGTGGCGGGCAATGTTAACGAGTCCGACTCCAGGCTCGCCATCGGCCATGCGCAGTAATCTGCGGCAT -ACCAGGCGCTGGGGCGATGGTTACCGGAAGCACCAATGCCGCCGAATGGCGCGGTACTGGCAGCACCGGTAAGCGGTTTG -TTCCAGTTAACAATCCCCGCCCGCGCCTCCAGCAACAGTTGATCGAACTTTTCCCGCTCGGGGGAAACCAGACCGCAAGA -GAGTCCGAAGCGAGTGTTATTCGCCATTCGAATCGCTTCATCGAAAGTATCATAACGCCAGACGCGCAATAACGGTCCGA -ACACCTCTTCATCTGGTACGCCAGCAACGCCTGTCATTTCAATGATCCCCGGCGTCAGCAACGATGTCCCTGCTTGTAAT -AAGCGCGGCGCAAGCAGGGGTCGTCCGCCCATCGCTTCCAGTTGCTGCCATGCAGTAACCACCTGCTGTGCGGCCTGTTC -AGAAATCAGCCCGCCAATAAACGGCTGCGGTTCGTCATCCCAGTTGCCCGGCGTTAATCGCTGGCTGACGGCAACCAGAC -GAGCAAGAAACGCATCGCCCTGCGCCCCGCTTTTCAGCAATAAACGGCGGGCGCAGGTGCAGCGTTGACCGGCTGTGACA -AACGCCGACTGAATGGTCAGATGGACAGCCGCGTCGATATCCGCCACCTCATCGATAATTAGCGGATTATTACCGCCCAT -CTCAAGGGCGAGAATTTTCTCCGGCTGACCGGAGAGCTGGCGATGCAACTGGTAGCCTGTATTGGCGCTACCGGTAAACA -GCAAACCGTCGAGATCCTCCAGCGCACTCAGCGCCTGACCCGTTTCACGCCCGCCCTGCACCAGGTTCAGCACGCCTGGC -GGCAAGCCAGCCTGCTGCCATAAACGCATTACCGCTTCGCCACTCCACGGTGTCAGTTCGCTGGGTTTAAAGATAATGGT -GTTACCTGCCAGCAATGCCGGAACGATATGTCCGTTCGGCAAATGACCAGGGAAATTATACGGCCCAAACACCGCCAGCA -CGCCGTGCGGGCGATGTCGCAGGCTCGCCGCGCCGTCCGGCATTTCACTACGCTGCTCGCCGGTACGAACGTGATACGCC -TTAATTGATATCGCGATTTTATTGATCATCGCCGTCACTTCGGTTGCCGCTTCCCAGCGCGGCTTACCCGTTTCTCTGGC -AATAATCGCGGTTAATTCGGCTTTATTGCTTTCCAGCAGTGCGGCAAAGCGTTCGACAACGGCATGACGTTCAGCAAATG -AAAGCCGCGCCCAGCGCGGAAACGCCGCACGGGCTGCCCGACAAGCCTGCTCGACCTGAGCGGCATCGGCATCATTGCCT -TGCCATAACACCTCGCCCGATACCGGATTACGCTTCACACGCGATGCGCCCTGGCCCGTTATCCAGTCACCGTTAATCCA -TAAAGTCATGCTGTTTTCTCCTCTGCGCACAGGCGCACCAGACGAACGCGATCCCCGGCGTGGCATTTGAGGGCATCCAG -TTGTGCGGCGGTTAAAATCAAACGCTCGGTTGCCGGATCGGTACGCACCAGCACCACGCGGAAATGGTGATAATTTTCAT -TGGCGACCAGGCAGGCTGGGAAATCGCCCTGCGCAGGCTGCCCTTCTGCCACTTCCACCAGCCGACTTTTACGGATGGCG -CGCACGCGGTCGATGTCACACTCAAGCGTCGGCCCACCGTCAAAGATGTCGATATAGTTACGGTAGCGAAAACCTTCTTT -CTCCAGCACCGCGCGGGCAGGCGCGGTTTGCGGATGTACCTGACCGATGACGTCCTGGGCTTCCTGGGATAAAAAGTGGG -TATAGATCGGATGTTTCGGCATCAGTTCTGCAATAAATGCCTTTTGCCCGGTGCCGCAGAGAAAATCGGCGCGGCTAAAA -TCCATCGAAAAGAAGCGTTTACCGAGGCTTTGCCAGAACGGTGAATAGCCGTGTTCGTCAATCACCCCGCGCATTTCAGC -AACCACTTTGTCATTAAACTTGTCGCGAAAAGCCGCCATAAACATAAAGCGCGATTTCGACAGCAAATAGCCGTTGCCCT -CTTTGCGCCAGTCCGGGTCGAGAAACAGCGTGCACAGCTCGCTGCTGCCGGTGTGATCGTTACTGAGAAACAGCGTCGGC -AATGCGTTATAGACATTCAGCTCTTTTGAGGCGTGAACCAACGTGCCGACGCGATAGTTGTACCAGGGATCGTTCAGCCC -AACCGCCACCTCAATGGCACAAATCCCCGCCACGGTGCCTGTCTCGCTATCTTCCAGCACGAACACATAGCCCTGCTCAC -TTTTGGGCAGTTCGCCTTGCCAGGTTTTGATTGCCCTTTCGATACGCGCCGAAAGCGTGGCTTCATTGGCGGGAAGCGAC -GTCAGGCCGCCGCCCGTTTTGCTGGCAAGCTGCATCAGCGCCGAGACATCTGATCGCTCAACGGGACGGATGACCATCAT -GATGAACCTCGGCTAACAAAGTGTTCGCAAGCAGCTGCAAAGCGATCCAGTCCGGTCGTCACCTCTTCTTCGCTGACATT -GAGCGCAGGCGCAAAACGCACCACGTTGCCACCCGCAATCAGTACCATCACGCCTGCTTTCGCCGCTTCCTGAGAGATCT -GTTTCGCTTGCCCGGCGTAATCGGCATTCAGTACACAGCCAATCAGCAAACCTAAGCCGCGAACTTCACTGAACAAACCA -TAGCGGTGATTAATAGTATTAAGACGCTCAACAAACCAGTCGTGACGCTGTTTAACGCCATTAAGCATCTCTGGTGTGTT -GATGAGCTCCAGCACTTTGCCTGCCACCGCCGAGGCCAGCGGATTACCGCCATAGGTGGTGCCATGAGTGCCAACGGTCA -TCACGCGGGCGCACTCTTCGGTTGCCAACAACGCACCGACCGGGAAACCGCCGCCCAGCGCTTTGGCGGTAGTTAACAGA -TCAGGCGTCACGCCGTAGTGCATATAGGCATACAGTTCCCCGGTGCGCCCGACGCCGGTTTGTACTTCATCAAAAATCAA -CAGCGCATTGTGGCGGTTACACAATTCACGCAGACCTTGTAAAAACGCGTTGCTGGCTGGCACCACACCGCCTTCCCCCT -GGATGGGTTCGACAATCACCGCACAGGTAGAGTCGTCAATCAGCGCGCTGGCAGAGTTAATATCGTTATATGCAGCATGA -CGAATATCCGCCGGCAGTGGCGCAAAATCCTGTGAATAGGCTGGCTGCCCACCCGCACTGACAGTAAACAGCGTGCGACC -ATGAAACGCATTTTTGAACGCCACGATGCCGCTCTTATGGCTGCCGTAGCGGTCGTGAGCGAATTTACGCGCCAGTTTTA -GCGCCGCTTCGTTGGCTTCCGCACCGGAGTTACAAAAGAAGACGCGATCGGCAAACGTGGCGTCGATCAATTTTTTCGCC -AGTCGCAGTACCGGCTCGTTGGTGTAACCGTTGCCGGTATGCCAGAACTTACTCGCCTGTTCGTTCAGCGCTTCACGCAG -TTCCGGATGCGCATGGCCCAGCGCGTTCACCGCAATGCCACCCGCGAAGTCGATATACTCTTTCCCCTGCTGATCCCACA -AGCGCGAACCTTCGCCACGTACCGGTATAAAGGGTGCCGGAGCGTAAACAGGTATCATCCATTCATCAAAGTTTTCACGC -GTAATTGGCTGAGACATAGCGACCTCTACAGTAAATAATTCGTTATTTATATGTTAATAATAAGTAATGTTTGCGCTGTA -AATGTAGATTGCAGGGTTCGTGCCAGCCAGTGATAAAAGTGCATAAACGGCGGAGGCTAACTGGAAATCAAGGAGTTATA -ACCAAACCATATGCATTTAAAGTGCATATAAAGTGAATACGTTTGCGATGTGGGTGAATAAAAAGAATAAAAAACGCAAT -GTTATGCAGAAGTAAAATATAATTCTGGAATTGTGATCATTGACGAAATTTACTGGAAATTACTGCGCCATTCTGACGCA -GCGCGCACCAAAAGCGGGCATTTTTTGCGCCATCGTTGACATCATTAACAACCATCGATCAAATCACTTAACAACAGGCG -GTAAGCAACGCGAAATTCTGCTACCATCCACGCACTCTTTATCTGAATAAATGGCAGCGACTATGAAATTTGTCTCTTTT -AATATCAACGGCCTGCGCGCCAGACCTCACCAGCTTGAAGCCATCGTCGAAAAGCACCAACCGGATGTGATTGGCCTGCA -GGAGACAAAAGTTCATGACGATATGTTTCCGCTCGAAGAGGTGGCGAAGCTCGGCTACAACGTGTTTTATCACGGGCAGA -AAGGCCATTATGGCGTGGCGCTGCTGACCAAAGAGACGCCGATTGCCGTGCGTCGCGGCTTTCCCGGTGACGACGAAGAG -GCGCAGCGGCGGATTATTATGGCGGAAATCCCCTCACTGCTGGGTAATGTCACCGTGATCAACGGTTACTTCCCGCAGGG -TGAAAGCCGCGACCATCCGATAAAATTCCCGGCAAAAGCGCAGTTTTATCAGAATCTGCAAAACTACCTGGAAACCGAAC -TCAAACGTGATAATCCGGTACTGATTATGGGCGATATGAATATCAGCCCTACAGATCTGGATATCGGCATTGGCGAAGAA -AACCGTAAGCGCTGGCTGCGTACCGGTAAATGCTCTTTCCTGCCGGAAGAGCGCGAATGGATGGACAGGCTGATGAGCTG -GGGGTTGGTCGATACCTTCCGCCATGCGAATCCGCAAACAGCAGATCGTTTCTCATGGTTTGATTACCGCTCAAAAGGTT -TTGACGATAACCGTGGTCTGCGCATCGACCTGCTGCTCGCCAGCCAACCGCTGGCAGAATGTTGCGTAGAAACCGGCATC -GACTATGAAATCCGCAGCATGGAAAAACCGTCCGATCACGCCCCCGTCTGGGCGACCTTCCGCCGCTAATTTAGCAGCTC -TCCTGGCTCAAACTGGGTCAGGAGAATTAACCTTGAGAAAAATCAACAAACTGTCAGTAATGATTTGTTGCCTGCCGTCC -TTTGTTATACCGTCTCTGCGTTTTTAGTTGTCTGACCACTTCTCTATTATCAAGTTTGATATAGGAAACTCCACGATGAA -CGCTGAGCGTAAATTTCTTTTTGCCTGTCTTATTTTTGCGCTGGTCATTTACGCTATCCACGCTTTCGGTTTATTCGATC -TGCTCACCGATTTACCCCACTTACAGACACTCATCCGCCAGAGCGGATTTTTCGGCTATAGCCTCTATATTCTGTTATTC -ATCATTGCCACCCTCTTGCTGTTACCAGGAAGCATACTGGTGATCGCGGGAGGAATAGTTTTTGGCCCGCTCTTAGGGAC -ACTACTCTCATTAATTGCCGCCACGCTGGCCTCCTCGTGCTCATTCCTGCTGGCGCGCTGGCTGGGACGTGATTTACTGC -TGAAATACGTTGGCCATAGCAATACCTTCCAGGCCATTGAAAAAGGCATTGCGCGTAACGGTATTGATTTTCTTATTCTG -ACCCGCTTAATCCCGTTGTTTCCTTACAATATTCAAAATTACGCTTACGGATTAACCACAATCGCCTTCTGGCCTTATAC -CCTTATTTCGGCACTCACGACCCTACCCGGTATTGTTATTTATACCGTGATGGCAAGCGATCTCGCCAATGAAGGCATTA -CGCTGCGCTTTATTTTACAACTCTGTCTGGCGGGCCTGGCGCTGTTTATTCTCGTCCAGCTCGCAAAACTCTACGCCCGA -CACAAACATGTGGATCTGTCTGCTTCGCGCCGCAGCCCACTTACTCACCCAAAAAATGAAGGATAGAACGATGTTGCAAC -ATTATTCAGTGTCATGGAAAAAAGGACTGGCTGCACTCTGTTTACTGGCTGTTGCTGGGCTTAGCGGCTGCGATCAACAA -GAGAATGCGGCGGCAAAAGTGGAATACGACGGACTTTCGAACAGCCAACCGCTGCGTGTCGATGCCAATAACCATACGGT -AACCATGCTGGTGCAAATTAATGGTCGTTTCCTCACCGACGACACTCGTCACGGTATTGTGTTTAAAGATGGCTCCAACG -GACATAAATCGCTGTTTATGGGTTATGCGACCCCGAAAGCATTTTATGAAGCCCTGAAAGAGGCAGGTGGTACGCCGGGC -GAAAACATGACGATGGATAATAAAGAAACGACTCATGTCACAGGCAGCAAACTGGATATTTCGGTCAACTGGCAAGGGGC -GGCAAAAGCGTATTCCTTCGATGAAGTGATTGTTGACAGTAATGGCAAGAAACTGGACATGCGCTTTGGCGGTAATTTAA -CGGCAGCAGAAGAGAAGAAAACGGGTTGCCTGGTGTGTCTGGATAGCTGCCCGGTCGGCATCGTCAGCAATGCAACATAC -ACTTATGGTGCGGTTGAAAAACGTGGTGAAGTTAAATTCAAAGGCAATGCCTCAGTTCTCCCGGCGGATAACACGCTGGC -AACGGTTACCTTTAAAATCGCCGAATAAAGCCAGGATAAAGGATGATGATGATGCAATCGCGAAAAATCTGGTACTACCG -TATAACCCTCATCATCCTGTTGTTCGCTATGCTGCTGGCATGGGCGCTGCTTCCCGGCGTCCATGAGTTTATCAATCGCA -GCGTTGCGGCGTTTGCCGCCGTGGACCAACAGGGTATAGAACGCTTTATTCAGTCTTACGGCGCACTGGCGGCAGTTGTC -TCGTTCTTGTTGATGATTTTGCAGGCCATTGCTGCACCGCTACCTGCGTTTTTGATCACCTTTGCCAATGCGTCGCTGTT -TGGCGCGTTCTGGGGCGGCTTGCTGTCGTGGACCAGTTCGATGGCCGGCGCGGCGCTGTGCTTTTTTATCGCCAGAGTGA -TGGGCCGCGAAGTGGTGGAAAAATTAACCGGCAAAACCGTGCTTGACAGTATGGACGGCTTTTTCACTCGCTACGGCAAA -CACACCATTCTGGTCTGTCGGTTATTGCCTTTTGTCCCTTTCGATCCAATCAGCTATGCTGCCGGTTTGACTTCAATACG -TTTTCGCTCGTTTTTTATCGCCACCGGGCTTGGTCAGTTACCGGCAACTATTGTTTATTCCTGGGCGGGCAGCATGTTAA -CAGGCGGTACTTTCTGGTTTGTCACCGGACTGTTTATTCTGTTTGCCCTGACCGTGGTGATTTTTATGGCGAAGAAAATA -TGGCTTGAACGCCAGAAGAGGAATGCCTGATGGGTTTACCGCCGCTTAGCAAAATTCCTTTAATTTTACGTCCACAGGCG -TGGCTGCATCGTCGCCATTACGGCGAGGTGCTAAGCCCCATTCGCTGGTGGGGGCGGATCCCGTTTATCTTTTATCTGGT -GTCGATGTTTGTTGGCTGGCTGGAGCGCAAACGCTCACCGCTCGATCCGGTAGTACGATCGCTTGTCAGCGCGCGCATTG -CGCAAATGTGCCTGTGTGAGTTTTGTGTGGATATCACCAGTATGAAAGTCGCCGAGCGCACCGGCAGCAGCGATAAACTG -CTGGCAGTGGCTGACTGGCGGCAAAGCCCGCTCTTTAGCGATGAAGAACGGCTGGCGCTGGAGTACGCCGAAGCCGCAAG -CGTAACGCCGCCAACGGTCGATGATGCCCTGCGTACCCGACTGGCTGCGCATTTTGACGCTCAGGCGCTCACCGAACTGA -CGGCATTGATCGGCCTGCAAAATCTGTCAGCCCGTTTTAATTCTGCCATGGACATTCCCGCTCAGGGGCTGTGCCGTATT -CCTGAAAAACGTTCTTAAGGAGAGATGATGCGCCATTGTGGGTGGTTGCTGGGATTGTTATCGCTGTTTTCTCTGGCAAC -ACATGCCAGTGACTGGCAAGAAATTAAAAATGAGGCCAAAGGGCAAACCGTCTGGTTTAACGCCTGGGGCGGCGATACCG -CAATTAACCGCTATCTCGACTGGGTGAGCGGCGAGATGAAAACCCATTACGCTATAAACCTGAAGATTGTCCGTCTGGCG -GATGCCGCAGACGCGGTGAAGCGCATTCAGACCGAAGCCGCAGCCGGACGTAAAACGGGCGGCTCGGTGGATCTGCTCTG -GGTGAACGGCGAAAACTTCCGCACCTTAAAAGAGGCCAATTTATTACAAACGGGCTGGGCGGAGACTCTGCCCAACTGGC -GCTATGTCGACACACAGCTGCCGGTGCGGGAAGATTTTTCTGTGCCGACACAAGGTGCGGAATCGCCCTGGGGCGGCGCA -CAACTGACGTTTATCGCCCGCCGCGATGTTACGCCACAGCCACCACAAACGCCGCAAGCCTTACTGGAGTTTGCTAAAGC -CAATCCCGGCACGGTTACCTATCCGCGCCCACCGGACTTTACCGGCACGGCGTTTCTTGAACAGTTGCTGATTATGCTGA -CGCCCGATCCCGCCGCATTAAAAGAAGCGCCGGACGATGCGACTTTCGCCCGTGTCACTGCTCCCTTGTGGCAATATCTT -GATGTGCTGCATCCGTATTTGTGGCGCGAAGGAAAGGATTTCCCGCCTTCACCCGCGCGGATGGATGCTCTGCTGAAAGC -CGGCACATTGCGCCTGTCGCTGACCTTTAACCCCGCGCATGCGCAGCAAAAAATCGCCAGCGGCGATTTGCCTGCAAGCA -GTTACAGTTTTGGCTTTCGCGAGGGGATGATTGGCAACGTGCATTTCGTCACCATTCCTGCCAACGCGAATGCCAGTGCT -GCGGCGAAGGTAGTTGCCAATTTCCTGCTCTCACCCGATGCGCAACTGCGTAAAGCAGATCCCGCTGTCTGGGGCGATCC -TTCTGTTCTCGATCCGCAAAAACTGCCTGACGGGCAGCGCGAATCATTGCAATCAAGAATGCCGCAGGATCTGCCGCCGG -TACTGGCTGAACCGCACGCAGGTTGGGTAAATGCGCTGGAACAAGAATGGCTACACCGTTACGGTACGCATTAATCTTTT -TGCTGTGGGCGATGGTGGCGGTGATTTATGCACCGCTGATCCCGGCAGCTCTCACGCTGATATCGCCTGCTTTGTCGTTG -ACACACTGGCAGGCGTTATTTGCCGATCCACAGTTACCGCAGGCATTACTGGCAACGCTGGTGTCGACAACCATCGCGGC -GGTCGGGGCATTGTTGATTGCCCTGCTGGTGATTGTGGCGCTGTGGCCTGGGCCGAAATGGCAGCGTATGTGCGCCCGTC -TGCCGTGGCTGCTCGCCATTCCCCATGTGGCTTTTGCCACCAGCGCCCTTCTGCTCTTTGCTGACGGAGGGCTGCTTTAT -GACTATTTCCCGTATTTCACTCCGCCAATGGACCGATTTGGCATCGGTCTGGGCCTCACCCTTGCAGTGAAAGAAAGCGC -ATTTCTGCTGTGGATCTTAGCAGCAGTATTGAGCGAAAAATGGCTGTTGCAGCAGGTCATTGTGCTGGATTCGCTGGGCT -ACAGCCGCTGGCAATGCCTGAACTGGCTGCTGTTGCCCTCCGTCGCGCCTGCGCTGGCAATGGCGATGCTGGCGATTGTT -GCCTGGTCGCTGTCGGTCGTGGATGTGGCAATTATTCTCGGGCCAGGTAATCCCCCGACGCTGGCGGTAATTAGCTGGCA -GTGGTTAACCCAGGGCGACATTGACCAACAAACAAAAGGCGCGCTTGCCAGCCTGCTGTTGATGCTGTTACTCGCCGCCT -ACGTTTTGCTGAGCTATCTGCTATGGCGCAGCTGGCGGCGCACTATTCCCCGCGTAGATGGCGTTCGCAAGCCTGCCACG -CCTTTATTGCCGGGCAATACGCTGGCGATTTTTTTACCCTTAACCGGTGTGCTGTGTGTGGTTCTGCTGGCGATCCTCGC -GGATCAGTCGACGATCAATAGTGAAGCGCTCATCAACAGCCTGACAATGGGGCTGGTGGCGACATTCATCGCTTTGCTCC -TGTTACTGCTGTGGCTGGAATGGGGGCCACAGCGTCGCCAGTTGTGGCTATGGTTGCCCATTTTATTACCTGCTCTGCCA -CTGGTGGCGGGCCAGTACACGCTGGCGCTATGGCTGAAACTGGATGGAAGCTGGACGGCGGTGGTCTGGGGGCATCTGCT -GTGGGTGATGCCGTGGATGCTGTTTATCCTGCAACCCGCCTGGCAGCGCATTGATTCACGGTTAATTTTGATTGCGCAAA -CACTGGGCTGGTCGCGGGCCAAAATCTTCTTTTACGTGAAATGCCCACTCATGTTGCGCCCTGTGCTGATTGCCTTCGCG -GTGGGATTTGCAGTCGGTATTGCGCAGTATATGCCAACGCTGTGGCTGGGCGCGGGGCGTTTTCCGACGCTCACCACTGA -GGCGGTGGCATTAAGCAGCGGCGGCAGCAACGGTATTCTCGCCGCCCAGGCTTTATGGCAACTGCTATTACCGCTTATTA -TTTTTGCCCTGACCGCGTTAGTCGCAAAATGGGTAGGTTATGTCAGACAAGGACTCCGCTAATGCTCTGCGTGAAAAATG -TTTCGCTACGTTTACCAGAAAGCCGCTTGCTGACAAACGTTAACTTTACGGTGGATAAAGGTGACATTGTCACGTTAATG -GGGCCGTCTGGCTGTGGAAAATCCACTCTGTTTTCATGGATGATTGGTGCACTGGCCGAACAGTTTTCTTGTACAGGTGA -GCTATGGCTCAATGAGCAACGGATTGACATCCTACCCACCGCACAGCGTCAGATTGGCATTCTTTTTCAGGATGCACTGT -TATTTGACCAGTTCAGTGTCGGGCAAAATTTACTGCTGGCGCTACCGGCGACACTTAAAGGGAATGCCCGACGTAATGCC -GTGAATGATGCACTTGAGCGTTCAGGCCTTGAGGGAGCTTTCCATCAGGATCCTGCCACTTTGTCTGGCGGTCAGCGAGC -GCGCGTTGCTCTACTACGCGCCCTTCTCGCCCAACCAAAAGCGTTACTCCTGGATGAGCCATTCAGCCGTCTTGATGTGG -CTCTGCGCGATAATTTTCGCCAGTGGGTGTTCAGCGAAGTTCGCGCCCTGGCGATCCCCGTCGTTCAGGTAACGCACGAT -CTCCAGGATGTTCCTGCTGATAGTTCTGTTCTGGATATGGCGCAGTGGTCAGAAAATTACAACAAACTGCGATAACGCAA -AGTTTTTCTCAATGCGTCAGTTCAGAATGGCGCACTCAAAACTACAATGTCGGGATTTTCGATGAAACGTGTTTCTCAAA -TGACCGCGCTGGCAATGGCTTTAGGGCTGGCTTGCGCTTCTTCGTGGGCCGCTGAACTGGCGAAGCCTCTTACACTTGAC -CAGCTTCAACAACAAAATGGCAAAGCGATAGATACTCGCCCCAGCGCGTTTTATAACGGCTGGCCACAAACCTTAAATGG -CCCTTCTGGTCATGAACTTGCCGCCTTAAACCTCTCTGCCAGCTGGCTTGACAAAATGAGCACCGAACAGCTCAACGCGT -GGATCAAGCAACATAACCTGAAAACCGATGCTCCGGTGGCGCTGTACGGTAATGACAAAGATGTCGACGCCGTCAAAACG -CGACTGCAAAAAGCAGGTTTAACGCATATCTCCATCCTGAGTGACGCGCTAAGCGAACCTTCCCGTCTGCAAAAACTGCC -GCATTTTGAGCAGCTGGTTTATCCGCAATGGCTGCACGACCTGCAACAAGGTAAAGAGGTTACGGCGAAACCTGCCGGTG -ACTGGAAAGTCATTGAAGCGGCCTGGGGCGCTCCTAAGCTTTACCTTATCAGCCATATTCCCGGCGCTGACTACATCGAT -ACCAACGAAGTGGAAAGTGAACCGCTGTGGAACAAAGTTTCTGATGAACAACTAAAAGCGATGCTGGCAAAACACGGCAT -TCGCCATGACACCACGGTCATTCTGTATGGGCGTGACGTATACGCTGCAGCGCGTGTGGCGCAGATTATGCTTTATGCTG -GCGTGAAAGATGTGCGCCTGCTGGATGGCGGCTGGCAAACCTGGTCCGACGCGGGACTGCCTGTTGAGCGCGGAACGCCA -CCGAAAGTGAAAGCGGAACCGGATTTCGGCGTGAAGATCCCGGCACAACCGCAGTTGATGCTCGATATGGAACAGGCCCG -TGGACTGCTGCATCGCCAGGATGCATCGCTGGTGAGCATTCGTTCGTGGCCAGAATTTATCGGTACGACCAGCGGTTACA -GCTATATTAAACCAAAAGGTGAAATAGCCGGCGCACGTTGGGGACACGCTGGTAGCGACTCGACGCATATGGAAGATTTT -CATAACCCGGATGGCACCATGCGCAGCGCCGATGATATTACCGCTATGTGGAAAGCGTGGAATATCAAACCAGAGCAGCA -AGTTTCATTCTACTGCGGCACCGGCTGGCGCGCGTCCGAAACCTTTATGTACGCACGCGCCATGGGTTGGAAGAATGTTT -CCGTGTATGACGGCGGCTGGTACGAATGGAGCAGCGATCCAAAAAATCCGGTAGCAACCGGTGAACGCGGCCCGGACAGT -AGCAAATAACATTGCAATTACTGACGCTGGAGCGACTTCAGCGTCAGATACCCACTCCACACCCGCGTAAAGGTCGTCAT -CCAGCACAACGCACCGAAGATCCACGCAAACCACGCAAACCATGCAGGGAATAAACATCCCAGCACAAACAGTAAGATCG -TTTCTGTGCCTTCGGTTAATCCCCCCAGATAGTAAAACGACTTATGTGCATAACCGGGGTTATCAATCTGATGTTTTGCT -GCCAGTGCAGCAAAGGCGAGAAAACTGCTGCCCGTGCCGATAAACGCAAACAACAACCAGCCGCCTGCCAGCGCATTTTG -CTCCGGTGCAGCAAGAATAAAGCCAAACGGCACCAGCGCGTAAAAGAGAAAATCGAGAGAAATATCAAGAAAGCCGCCCG -CGTCGGTAAGCTCTCTGCGCCGCGCCAGCGCACCGTCCAGACCATCAAGCAGCCTGTTCAACAAAATGACGACTAGCGCC -GCCAGATACCAGCCCAGCGCCAGAAACGGCAGAGCCAGCACGCCGATGGCAAATCCCACTAATGTTAAACCATCTGGCGT -AATGCCCGGTTTATCAAGAACCCGCACGCACTGATGCAACAACGGTTTAATCCGGGGATGAAGATGGCGGTCTAGCACAG -GCACTCCTTAAATATAAAGCCTTTCTGATTGAGCAACAGTGCGGATATTATGGCATTTTTCGCTTATCTGCCCGTGTGTA -ATTTATGAAAATGATTGAAGTTGTTGCCGCCATCATTGAACGTGATGGCAAAATTTTACTCGCGCAACGCCCCGCCCAGA -GCGATCAGGCGGGATTATGGGAGTTTGCCGGTGGTAAAGTCGAGCCGGATGAAAGTCAGCGGCAGGCGCTGGTGCGTGAG -TTACGCGAAGAACTGGGCATCGAAGCAACTGTGGGTGAATATGTTGCCAGCCATCAGCGAGAAGTTTCGGGGCGGATTAT -CCATCTTCATGCCTGGCACGTACCCGACTTCCACGGGACGTTACAGGCACATGAACATCAGGCGCTGGTCTGGTGCTCAC -CTGAAGAGGCGCTGCAATATCCGCTGGCCCCTGCTGACATTCCATTATTAGAGGCGTTTATGGCTTTACGCGCCGCCAGA -CCAGCGGATTAGTGCTAAGGGTTTTGTCATCACGCTGGCATTGCAGCAGTATTCCTTCGGCTTTAATTACCGCCCCTTCA -GAATAATTTTGATCCTGATAAACGCAGCACTGAGTACAGGGCTGCGCTGACTGCCCGCCTGAACTGAACACTTCTGGCGG -TACGTTTACCTCCACGTCCGGACGATAATGCGGGTTAGCCAGTGCAATTAATGGAAATGCTAATACTACGGCGAACAATG -CTCGACTCACAGGGAACTCCTTAACGTTATTGTCTCTGCTACTGATAACGGTAGCCGGGTGGCAAAACTTTAGCGTCTGA -GTTATCGCATTTGGTTATGAGATTACTCTCGTTATTAATTTGCTTTCCTGGGTCATTTTTTTCTTGCTTACCGTCACATT -CTTGATGGTATAGTCGAAAACTGCAAAAGCACATGACATAAACAACATAAGCACAATCGTATTAATATATAAGGGTTTTA -TATCTATGGATCAGACATATTCTCTGGAGTCATTCCTCAACCATGTCCAAAAGCGCGACCCGAATCAAACCGAGTTCGCG -CAAGCCGTTCGTGAAGTAATGACCACACTCTGGCCTTTTCTTGAACAAAATCCAAAATATCGCCAGATGTCATTACTGGA -GCGTCTGGTTGAACCGGAGCGCGTGATCCAGTTTCGCGTGGTATGGGTTGATGATCGCAACCAGATACAGGTCAACCGTG -CATGGCGTGTGCAGTTCAGCTCTGCCATCGGCCCGTACAAAGGCGGTATGCGCTTCCATCCGTCAGTTAACCTTTCCATT -CTCAAATTCCTCGGCTTTGAACAAACCTTCAAAAATGCCCTGACTACTCTGCCGATGGGCGGTGGTAAAGGCGGCAGCGA -TTTCGATCCGAAAGGAAAAAGCGAAGGTGAAGTGATGCGTTTTTGCCAGGCGCTGATGACTGAACTGTATCGCCACCTGG -GCGCGGATACCGACGTTCCGGCAGGTGATATCGGGGTTGGTGGTCGTGAAGTCGGCTTTATGGCGGGGATGATGAAAAAG -CTCTCCAACAATACCGCCTGCGTCTTCACCGGTAAGGGCCTTTCATTTGGCGGCAGTCTTATTCGCCCGGAAGCTACCGG -CTACGGTCTGGTTTATTTCACAGAAGCAATGCTAAAACGCCACGGTATGGGTTTTGAAGGGATGCGCGTTTCCGTTTCTG -GCTCCGGCAACGTCGCCCAGTACGCTATCGAAAAAGCGATGGAATTTGGTGCTCGTGTGATCACTGCGTCAGACTCCAGC -GGCACTGTAGTTGATGAAAGCGGATTCACGAAAGAGAAACTGGCACGTCTTATCGAAATCAAAGCCAGCCGCGATGGTCG -AGTGGCAGATTACGCCAAAGAATTTGGTCTGGTCTATCTCGAAGGCCAACAGCCGTGGTCTCTACCGGTTGATATCGCCC -TGCCTTGCGCCACCCAGAATGAACTGGATGTTGACGCCGCGCATCAGCTTATCGCTAATGGCGTTAAAGCCGTCGCCGAA -GGGGCAAATATGCCGACCACCATCGAAGCGACTGAACTGTTCCAGCAGGCAGGCGTACTATTTGCACCGGGTAAAGCGGC -TAATGCTGGTGGCGTCGCTACATCGGGCCTGGAAATGGCACAAAACGCTGCGCGCCTGGGCTGGAAAGCCGAGAAAGTTG -ACGCACGTTTGCATCACATCATGCTGGATATCCACCATGCCTGTGTTGAGCATGGTGGTGAAGGTGAGCAAACCAACTAC -GTGCAGGGCGCGAACATTGCCGGTTTTGTGAAGGTTGCCGATGCGATGCTGGCGCAGGGTGTGATTTAAGTTGTAAATGC -CTGATGGCGCTACGCTTATCAGGCCTACAAATGGGCACAATTCATTGCAGTTACGCTCTAATGTAGGCCGGGCAAGCGCA -GCGCCCCCGGCAAAATTTCAGGCGTTTATGAGTATTTAACGGATGATGCTCCCCACGGAACATTTCTTATGGGCCAACGG -CATTTCTTACTGTAGTGCTCCCAAAACTGCTTGTCGTAACGATAACACGCTTCAAGTTCAGCATCCGTTAACTTTCTGCG -ATAGCAGCAGATATGCCAGTAAAGAAATCCCATTTGACTATTTTTTTGATAATCTTCTTCGCTTTCGAACAACTCGTGCG -CCTTTCGAGAAGCAAGCATTATATAATGCCAGGCCAGTTCTTCTTCAATTGTCCCGTTTTGAAAAGCTGTGCTTGATATC -GAGATCATCCATGATAATTCCGCCGCCCATATTAGCTTCGCCGAGGATTTACCGGAGCTATGATTAGCGCAATCAGAGAT -ATAGTCTGAGGGAAAAACAGCAAATTTATTCAACAAGGCGATAACCTGCTCTGGGGCTTCCTCCATGTTTGCTTTAAAGG -TATTGGCTCCATGGTCGCCAGAAAGAAAATGCTCCATTAAGGCACAATAACTTTCGCTATCTTCGATACCCCATTGATCC -TCTAAAGACTCGCGTCTTTTACTTATGATATCGATCGAGTCAAAAGGAAGCACATGATATTGGAAGGTATCTTTGCCAGG -TTCAGGCTTTCGCGGCCAGAACTCCAGCGTTTCAGACCATTGCTTATGATAGAATCGATAAGGTGCGATCAATTGTAGCG -CCTGTAACTTCTCGATACTGAGCGGCTCAATACCTTTAGCCTGATAATAATGCAGTTGTTCTTTTTTTGCTTTAAAACCG -GCCCGAACAATAAGCCCCATCATAATTAATAGATAAAGAAAAGAGCATCCCGCGGTAATCAGGCCTCTTTCATTCAAACC -GTTGGATGTTATCGCTGCGAACACAAACATTACAGCGACAACACATGTTAAATAAAACCCCCACTTACAAAGCAGCATGG -CCTTATTTTCTTTAATCATCCGTTCAAAATTACTATTAAATATTTCCCAGCCATTAAAAGAATACTTCTCGCTCCCAGGA -TGGTTTTGTAATAAAACTTTTTTCATCACATTCCCTGTTATTACATACTTTAGAGGCGATAATTTTATCCATGCAAAAAA -AATATCCAACGAATTTTCTTGATCCGCTGGATATTTCAGAATATGACTCGAATAGCACGAAAGATTCACTCGCTTACGCT -ATCGCCCCGCTTCCGACTTCATCTGCTGGCGGACTTTTTTTCGCACTACGTTTACGCGGTGCAGCCTTTTTCTTATCAGC -ACTGCCACCACTGCCCGGAGCCACAATGCCGCGAAACTGCCGCACCGGCGTACGTTTGGCTTGATCAATAAGCTGATATA -GCGTCCCCACCAGCGGCTGCATAAAGTCCTGATAGCGACACTGCTTTTCGCTGATTTGCGTCAGCACCGATTCCCAGTGC -GCGGTCATGTCCGGTCGCGTCGCCATCTCCGGCAGCGAATGGAATAGCGCTTTTCCGGCGTCGGTGGAGTGGATATAGCG -CCCTTTTTTGGTCAGGAAACCACGCTTGAACAACAGTTCAATAATCCCGGCACGCGTTGCCTCTGTCCCCAGACCATCGG -TCGCACGGAGGATCTTTTTCAGATCTTTATCCTGCACAAAGCGCGCGATCCCGGTCATCGCCGAAAGCAGTGTTGCATCG -GTAAAATGGCGCGGCGGCTGGGTTTGCCGCTCTACCACTTCACCTTTTTCACACAGCAACTCATCGCCTTTCGCCACCAC -AGGCAGTGGCGTGCCGTCGTTTTCTTCATCGCGCTCTTTGCTGCCTAACAGCGTGCGCCAGCCTGCTTCAGCAAGAAAAC -GCGCTTTAGCGACAAATTTGCCTTTGGCAATGTCCAGTTCGATAACACACTTGCGGAACACCGCATCCGGGCAGAATTGC -ATCAGATACTGACGGGCAATCAGGTTATAGACCTTCGCTTCGTTCTCCGTCAGGTTGATCGCAGAACTCCGTGCGGTCGG -AATGATGGCGTGGTGCGCATCGACCTTTTTGTCATCCCAACAGCGGTTGCGTATATCTGGATCTACCACTGGCTGCGGCA -ACAGATCCGGTGCATGAACACTGATGGCATTCATCACCGCGTGGCGTCCGGCAAAATGTTCTTCTGGCAAATAGCGACAA -TCAGAACGCGGATAAGTGATTAGCTTGTGCGTTTCGTACAGTTTCTGGCAGATATCAAGCACGTTCTGCGCACTCAGACC -AAAACGTTTTGCCGCTTCAATCTGCAACGCTGAAAGCGAAAAAGGCAGCGGCGCGGATTCTGATTCCCGTTTATCGTTAT -AGCTGGTGACAATAGCCGGTTGACCACTAATGCGGTTAACCACATGCTCCGCCAGTGGACGATGTAACAAGCGCCCTTCT -TCATCCTGGTACGGTTCACACGCTTCGCTCGGTTGCCAGATAGCGGTAAACCGCTCATCGGCAGGTGTCACGATATGTGC -TTTGACTTCAAAGAAGTCTTTCGCCACGAAGTTTTCAATCTCTTCATCGCGGCGCACCACCAGCCCAAGCACGGGCGTCT -GCACGCGTCCCACGGAAAGTACGCCCTGATAACCGGCATTGCGACCGAGAATGGTATACGCACGGGTCATATTGATGCCG -TACAGCCAGTCGGCACGCGCTCGCGCCAGCGCAGAAACGCACAGCGGTACAAACTCACTGTTGGAACGAAGACGGTCGAT -CGCCCGCTCAACCGCCTGCGGGTTCAGGTCGTTTATCAAGCAACGCTGTACCTGCTGGCGCTTTTCCGGTGCCAGTTGCA -GATAGTCCAGCACTTCATCCACCAGCAATTGCCCTTCACGATCCGGGTCCCCGGCGTGAACGATTTCGCTGGCTTCATGC -AGGAACCGTTTGATGACGTTAAGTTGTTTGGTCACGGAGGGTCGGGGCTGTAATTGCCACTTTTCCGGGACAATCGGCAA -ATCCGCAAGATTCCAGCGCGCATAGCGGCTGTCGTAGGCGTCTGGCTGCGCCTGCTCAAGCAGGTGACCGATACACCAGG -TCACCACCTGACCATTACCGCACTCGATAAAGCCATCGCCTTTCCGGTGCGGTTTGGGCAGGACATCAGCAATGGCGCGC -GCCAGACTCGGTTTTTCGGCAATAAACAACCGCATTGAATTAACGAATCTCAACCATGGCACGACCGCCGCGCGCTGGCA -CCAGTTCGCCAATTGCCGTCAGTTCAATGCCAAACTCGGCGGCTGTAGCTTTGACCTCATTTTCTGCTTCCGGCATGACC -GCCAGCAGCAAACCGCCAGAAGTTTGCGGATCACACAGCAGATCGCGCACTTCACGCGGCATTTCACCCATCAGATGACC -GTAGCTGGCAAAGTTACGTTCAGTGCCGCCAGGTACTGCGCCCAACTTAATGTACTCTTCAACACCGGGGAGTTTCGGGA -TCGCTTCATAGTCGACGCGTGCCTGCACACCAGCCCCCTGACACATTTCGCTCAAGTGGCCCAGCAGACCAAAGCCCGTA -ACGTCGGTCATCGCTTTTACGCCTTCGATGTTGGCAAAGGACGCGCCTGCGATGTTCATCCGGCACATCACTTCCGTCGC -CAGTCCCTGATGTTCTGGTTTCAACAGTGATTTTTTCTCAGCCGTGGTAAGAACGCCGATCCCCAGCGGTTTCGTCAGGA -ACAGTTTGCATCCGGCTTGTGCGGTACTGTTTTTCTTCACCCGCTCGGTCGGTACGATCCCCGTTACCGCCAGACCAAAA -ATCGGCTCCGGCGCATCGATGGAGTGACCGCCAGCCAGCGCAATACCCGCCTGACGACATGCATAGCGTCCACCTTCGGT -CACTTCGCGGGCAATTTCTGGGGAAAGTTTGTTAATCGGCCAGCCGAGGATCGCAATCGCCATAATCGGTTTGCCCCCCA -TCGCGAAGATATCGCTGATGGCGTTAGTCGCCGCAATGCGGCCAAAATCGAAAGGATTATCAACGATCGGCATAAAGAAG -TCGGTGGTACTGATAACGCTGGTGCCATTGCCCAGATCGTACACCGCCGCATCGTCGCGGGTTTCATTACCCACAAGCAA -ATTCGGATCAACAAACTTCGCCTGCTCACTATGCAGGATGGTTTCCAACACTTTTGGGGAAATTTTACAGCCGCAACCAG -CTCCGTGGCTGTATTGGGTCAAACGAATCGAGTTCTCGCTCATGGACATCTCCTGTCAATGCAATCCGGGTATGGTAACC -CTCATTCCGTGAAGTGATAAGTGAGAGTGTCTGAATTCCTGCGCCTTTGCTCACAATCCAGACAGTTTCGCGACAATTAT -CAGAAATAAGTTACAAACGGCGTCGGGTCCGGGACGTTAATCGACGTAGATGCTTTCAGCTGCGGCGTACCGAGGTAGAG -AAAACCGACAATTTTATCCTGCTCACGGCAACCGAATGCTTCACGCACTACCGGACTTTCAGTTAATGCGCCACTGCGCC -AGATGCCGCCAAACCCCTGGGCAACTGCTGCCATTTGCATCGCCATGACCGCGCATCCGGCAGACATTTCCTGTTCCCAG -CGCGGGACTTTATGATTCTCTTCGCATTTCGCCACCACCGTGATGATGAGCGGTGCGCGGAACGGCGCATTACGGGCTTT -GTCGATAGCTTTGTCATCACTACCGGCAGCAATCGCCCCCTGTTCCAGTACGGCGCTGAAACGCTCGCGCCCTTCCCCTT -CAATCACAAAAAAATGCCACGGTTGCATGGACTTATGGTCCGGCGCACGCATACCCGCACGCAGGATGTTTTGCAGTTGT -TCACCCGTTGGCGCGGGTTCAGCCAAGCGGGAGGCGCTACGGCGATTGATCAATAGTTCGAGTGCATCCATTTGATTAAC -TCCTGTCGTGATATTTATTCACAAAATTAACACGAGAGTGGATTTTGTTACAGCACAGTCCGCAATTCCTGCTGACAAGT -ACCGGTTGGGTCATTACGATAACCACATCTATTGCGCCTGTGACAGGTGTGACCTTAAGTTGGGAGAATACATGCGAACC -CTTTGGCGATTTATTGCCGGATTTTTTAAATGGACGTGGCGTCTGCTGAATTTCGTCCGTGAAATGGTACTTAACCTGTT -CTTTATTTTCCTCGTACTGGTTGGTGTGGGGATTTGGATGCAGGTCAGTGGTGGTGATTCGAAAGAAACGGCCAGTCGTG -GCGCACTGCTGCTGGACATTTCTGGTGTGATCGTCGATAAACCCGACAGTTCTCAGCGGTTTAGTAAATTAAGCCGCCAG -CTGCTTGGTGCCAGTTCCGATCGTCTGCAGGAAAACTCACTGTTTGATATCGTCAACACTATTCGCCAGGCGAAGGACGA -CCGCAATATCACCGGTATTGTGATGGATCTGAAAAACTTCGCAGGCGGCGACCAACCGTCTATGCAGTACATCGGCAAAG -CTCTGAAAGAGTTTCGTGACAGCGGGAAACCGGTTTATGCCGTTGGCGAGAACTACAGCCAGGGGCAATATTATCTCGCC -AGTTTCGCCAATAAAATTTGGCTGTCTCCGCAAGGCGTGGTTGATCTGCACGGCTTTGCCACCAACGGTCTGTACTACAA -ATCGTTGCTGGATAAGCTGAAAGTTTCCACCCATGTGTTCCGCGTGGGTACGTATAAATCTGCCGTTGAACCGTTTATTC -GTGATGATATGTCACCGGCAGCCCGCGAAGCTGACAGCCGCTGGATTGGTGAGCTGTGGCAAAACTATCTGAATACTGTT -GCCGCTAACCGGCAGATCCCTGCTGAGCAGGTATTCCCTGGCGCGCAAGGGTTGCTTGAGGGTTTAACCAAAACCGGTGG -CGATACCGCGAAATATGCACTGGAAAACAAGCTGGTCGATGCACTGGCATCGAGTGCGGAAATCGAAAAAGCACTGACCA -AAGAATTCGGCTGGAGTAAGACTGATAAAAATTATCGCGCCATCAGTTATTACGATTACGCATTGAAAACGCCGGCAGAT -ACCGGTGACAGCATCGGTGTCGTCTTTGCTAATGGCGCAATTATGGATGGCGAGGAAACTCAGGGGAATGTTGGCGGTGA -TACCACTGCGGCACAAATCCGCGACGCTCGCCTTGACCCGAAAGTGAAAGCGATTGTCCTGCGTGTTAATAGCCCAGGCG -GCAGCGTTACCGCGTCTGAAGTGATTCGCGCTGAACTGGCAGCAGCCCGGGCAGCGGGTAAGCCTGTGGTTGTATCGATG -GGCGGCATGGCGGCATCTGGTGGTTACTGGATTTCCACGCCAGCTAATTACATTGTGGCTAACCCCAGCACCCTGACCGG -TTCTATCGGTATCTTCGGCGTGATCACCACCGTAGAAAATAGTCTGGATTCGATTGGTGTTCATACTGATGGTGTCTCAA -CTTCACCGCTGGCGGATGTTTCTATCACCAGGGCACTGCCGCCGGAAGCGCAGCTGATGATGCAGTTAAGCATTGAGAAT -GGCTATAAACGCTTTATCACGCTGGTTGCTGATGCGCGTCATTCGACGCCGGAGCAGATTGATAAAATTGCCCAGGGCCA -CGTCTGGACCGGTCAGGATGCAAAAGCTAACGGGCTGGTCGATAGTCTCGGGGATTTCGATGATGCGGTCGCCAAAGCAG -CAGAGCTGGCAAAAGTGAAACAGTGGCATCTGGAATATTACGTTGATGAACCGACCTTCTTCGACAAAGTGATGGACAAC -ATGTCTGGTTCTGTCCGGGCAATGTTGCCAGATGCGTTCCAGGCCATGTTACCTGCACCGCTGGCCTCGGTAGCCTCTAC -CGTTAAAAGTGAAAGTGACAAGCTGGCCGCGTTTAATGACCCACAAAACCGTTATGCGTTTTGCCTGACCTGCGCCAACA -TGCGTTAAGTCTTGTACTGAGTGGCCGACAGATCGTCGGCCACATTATTTTTTACGTCGACGAATCCTCTTCCCGCTGTT -TCGCCCCATATTTCCTTATCCGCATAGTATCAGGTGCGCTCCCCCTGCCTCACGTATATACTTTTGCTCTTTCGATATCA -TTCATATCAATATCATGCAAAAGAAATCAATTTACGTTGCCTACACGGGCGGGACCATCGGGATGCAGCGTTCCGAGCAG -GGTTATATACCGGTGTCAGGTCATCTACAACGCCAACTGGCGCTGATGCCGGAATTCCATCGCCCGGAGATGCCAGATTT -CACCATTCATGAATATACGCCGCTGATGGATTCTTCAGATATGACGCCGGAAGACTGGCAGCATATTGCTGAAGATATTA -AAGCGCACTATGACGACTATGATGGTTTTGTCATTCTGCACGGCACCGACACGATGGCGTATACCGCCTCTGCGCTGTCG -TTCATGCTCGAGAATCTCGGTAAACCGGTCATTGTGACAGGGTCACAAATCCCGCTGGCTGAGTTACGCTCTGACGGACA -AATTAATCTGCTGAATGCGTTGTACGTTGCGGCGAATTATCCGATCAACGAAGTAACGCTCTTTTTCAATAACCGATTGT -ATCGCGGCAACCGCACTACCAAAGCCCATGCCGATGGTTTTGATGCGTTTGCCTCTCCAAACCTTCCTCCGTTACTGGAA -GCAGGTATCCATATTCGTCGTTTGAATACGCCACCCGCCCCGCACGGTGAAGGGGAATTAATCGTTCATCCAATCACCCC -ACAACCAATTGGCGTAGTGACGATTTATCCAGGGATTTCTGCTGACGTCGTGCGCAATTTTCTGCGCCAACCGGTGAAAG -CATTGATTCTGCGCTCCTATGGCGTGGGTAATGCGCCACAAAACAAAGCCTTCCTGCAGGAATTACAAGAAGCCAGCGAT -CGCGGTATTGTGGTGGTCAACCTGACACAATGTATGTCCGGTAAAGTGAACATGGGTGGTTATGCCACCGGTAACGCCCT -CGCCCATGCCGGCGTAATTGGCGGTGCAGATATGACTGTAGAAGCCACGCTAACCAAACTGCATTACCTGCTTAGCCAGG -AACTGGATACTGAAACCATTCGCAAGGCCATGAGCCAAAACCTGCGCGGCGAACTGACGCCGGATGATTAAGGAGACTGT -AATGCCCCCTCGCGCCCTGTTACTGGTCGATTTACAAAATGATTTCTGTGCTGGTGGCGCGCTCGCCGTGCCGGAAGGTG -ACAGTACGGTGGATGTCGCTAACCGCCTGATTGACTGGTGCCAGTCGCGCGGTGAAGCGGTTATCGCCAGTCAGGACTGG -CACCCGGCGAATCACGGCAGTTTTGCCAGTCAGCACGGTGTAGAGCCTTATACGCCAGGCCAACTCGACGGTTTGCCACA -AACCTTCTGGCCAGATCACTGTGTGCAGAACAGTGAAGGCGCACAATTACATCCGTTACTGCACCAAAAAGCGATCGCAG -CGGTGTTCCATAAAGGCGAAAATCCTTTAGTTGACAGTTACAGTGCCTTTTTTGATAACGGCCGTCGGCAGAAAACCTCT -CTCGATGACTGGTTACGCGATCATGAAATCGATGAATTGATCGTTATGGGCCTGGCTACTGACTATTGCGTGAAGTTTAC -CGTGCTGGACGCGTTACAGTTAGGTTATAAGGTAAACGTGATTACCGATGGTTGTCGTGGCGTGAATATCCAGCCCCAGG -ACAGTGCGCACGCGTTTATGGAGATGTCAGCAGCTGGGGCAACGCTATATACGCTGGCAGACTGGGAAGAGACACAGGGG -TAATTTTACGCTGGCCTACAATTCTGTACTGGCATTGTAGGCCAAATAAAACACGTCAGTGGCACATCTGGCAATTGATG -CCATCAACGAAAGATTTAATTCACCTCAGAAATCTCTTCCAACGACACCTTCCGCGTTTCGATGCCAAAAATGGAGAGAA -CCAGCGCACAGAGCAATAACATAACACCAAGTACCATAAACACCGTGATCGACCCATAATGTGTTAATAATGCCGCAACG -CCATAGGGCGTGAAGACTGCGACGATCCGTCCGACGGCATTAACGAAACCCGAACCGCGCAGGCGTAAATGCGTTGGCCA -AAGCTCCGGGATATAAACCGCCGACGCGAAGCAAACATACATGTATAAAAAGAAGATCATCACCAGTCCATAGATTAAAA -TCGCCCACTCTGTAGTCTGAATTGAATAGATATAGCCTAACACGGCAATAATAATAAGTAAGGTGGAGCCAAATAACCGA -CGAGGAAAATGATCAATAATTAATGCCGCAATAAATATTCCTACCGGAGCGCCAATCATAATAACAGCGGTCATTAATAT -TGATTTATCGACATCAATGCCGGAGTTAACAAATATGGTCGGTATCCATACGGTGATGGTATAAAGCGAAATGTTCATTG -CAATTAAAACAGTAATCGCGACTAATGTACGTCGTAACATTTCACCTTTAAACAGGAGCCAGAAAGTACCCTTGATTACT -TTAACCTTGCTGTTGCTCTGATACGAAGTAAGCGGGGGTAAACGAATACTCTTCTCTCTTTCAATTTGCTGCTCTACTTC -ACGAAGTTGGCATTCTGCACCTGCGATTTGCCCTTTCCCTGCCAGCCATCGTGGCGACTCGATAAAGTATTTACCTGAGA -GAAACCAGGCTAACAGTATGCCAATACCACCCAGCAGAAACATTATTCGCCAACTAAAAAAAGCGATAACCACCACGCCT -ATCGCCGCAGACAGCATGGGCGACCAGTTACCAACAAATGAGAGCCGCGCGGACCATTTTCCACGCACCGTCGCGGGGAT -AAACTCCGTAAATGAGGCATAGCCAACCATAATCAGCGCCCCCATTCCTGTTCCCATCAGGAAGCGAAAGAAGATGAGCC -AGTACATATCAGGGACAAAAGCGGCCCCTGTTGCAGCAATACCGACGATGAGAAGATTTATGCGAAACGCCCTGCGCCGC -CCAAAGTAGTCACCAATAAACCCACCAGTAAGTGAGCCGATGAAATAACCAAACATTAATGCCGAGGTAAAGGCGGCATT -GAGGAAATTATTTGACCATCCATTGCTTACCAGCTTTGCTAAGACGACATTACCGGAGTAACTCAAAAACCCTGTTAATA -ACAGACTAAAGCTTATAATACCAAATATACGATAATGAAACCGGGCCAAAGGCAAGCGGTCCAGTCTTGCGCCAATTTGA -TCATATTGTTCCATTAGGTGCCTCGGATTTGCTAAAAAGGTAGCAATTGCGGCAAATTCACTTGCCGCATCTTTATCATC -ATTTTATTTCAAGGCGCAGGAACAAATAATATTGACAACGTGTGCTTAAATTACCACACCAGCTGGATATTATTGTCTTT -GCAAAATGCTATCCACTCTGCACCCGGTGATTTATCAGTTATTATGTAATTAATATGACTAAAATCAGCTAACTGGACAA -AAGCTTTGCGATCAAACTTAGAGTGATCAACCAATAACGCAACTTCTGTCGCCTGACGGATCATTGTCTTTTTGATTTCA -GCTTCCGCTTCATTAGAGTCCAGCGCGCCGCTGTTAATATCAAGACCTTTACAACTCATTACCATGATATCGACATGATA -GCGCCTGATGATCTCTTTAGTAATTCTTCCTTGCAGTGAAAGTGTATTTTTGTTTAGTTCCCCACCCGTTGAAACGACTT -TAATTTCTGACTGAGCCAGAACATGAATCGCTTCCGCCGAGTTGGTTAGCAACGTCAGGCCACTACGGTCCTGTAACAAT -TTGAGCAATTCCATTACGGTACTACTGGAATCGGCTGCCATGGTGGTTTTATTGTCGATAAAGGGTAGTGCCTTGCGTGC -AATAAGCTGCTTCTCTTCATAAAACGATGAAGCGCGCTTATAAAAATGGATATTCTCCGTCAACATCGCTGTATTTAAAA -CAGCACCACCATAGGTTCTGGTCAAAAAGCCTTCATCTTCCAGCTTCTCAAGATCGCGGCGAATGGTTTCTTCGGTTACC -TGAAAAATCCCACTCAAATTTGAGACTGTCACCTTTTTATCGTTGGCAACCATTTGCTTAATTGCCTGAATCCTGTCTTT -TGCCGCCACGATTACACCCCTGTATCTTTTTACATCACATTAGCGCGATTATCGCATAACCGATGTTTACTTTCAAAATA -ACCTGTTTGAATCACAGATTTTCATCACAGTTTTCACAGAAACAGAGGTGAATCGTGTTGAGTATTTAACGCTCCAGGGC -CTCTGCCATTTCCCTCATCAATGTTGCGTCTGCATCCGATAAGTTGATATTCAGTGCCGCGACATTTTCGCGTACCTGTT -CCGGTGCAGTAGCCCCACTAAGAATGGAGATTAAATCACTCTGTTTTAATATCCACGCCAGTGCCAGAGTGGGAATTGTG -CACTGATAACGAGCACAAAGTGGCTGCCACTGTTCAAGCATATCAATCACTTTCAGCATGTTTTCACGCTGGAACCAGAC -TTTATTTGCCCGAGCGCCGCCCGGAACGTAATCACGAGTGATGGTGCCGGTCAACAATCCCTGCTCTAGCGGGGAATAAA -CCTGAACCACAATGCCATTATCACGACATAGTGGCAGCAGTTCGTTTTCCATTGCCCGGTCGAGGATACTGTATTTCGCC -TGAATAATATCCAGTTCACCATATTGCAGATACTCGCGGATATGGTCAGCATCGACGTTAGCAGCGCCTATAGCGCGAAT -TTTCCCTTCAGACTTTAACTCATTAAGCACTGCGACAGTTTCAGCGATCGGCGTAAAAAATGGCGGCACCGACTGCCAGT -GCGTCATGTAGATATCGATGTAATCAATACCCAGACGTTGCAAGCTCGCTGCTACCTCTTCGCGGATAGATTCCGGGGAA -AGGTTTTTATACAACTGCCGATCGCCAACTTTGTTGAATAAACTTCCTTTTCGTTCCCAGACAATGCCGCATTTGGTTTC -TACTACAACCTGTTCACGGGGCAGTTTTTTTAACGCCTGACCGACGATAACTTCACTATTGCCAAAGTTATATCCTGGCG -CAGTATCAATCAGATTAATGCCACAACGATGGGCTTCAAGAATCGTATCAATACATATTTGCCGATCGAGATCGCCATTC -CATGCAGGACCGCCGCCAATGGCCCATGTCCCCAACCCCATTCGCGAAAGCGTAATATCCGTTGTGCCTAAAGGTATCTT -TTTCATTTGCCTTCATTATCCTTCGTATTCTTCCAGCAATTGTTCGACCAGCTTTCTGTTTTTTACGCCGGTGGTGGCAC -CGACGCTTAGAACCGAGATAGCCGCCGTTGCATTGGCAAAGCGTGCGCATTCACGCAGATTTTTGCCTTCTAACAGTGCC -GCAATAAAACCTGAAGCAAAGTTATCGCCCGCGCCAATGGTGTCGATGGCGGTTATTCCTGCGACCGCCGGCACCTTCAT -CGTCATGTCACCACGCTTGATAAAGCAGCCGTCTTTACCCGTTTTAATCACCACCGTTTTTACGCCGCACGCAAGAAAGC -AGTCAGCAATTTCATCCAGTGTCTCTTTCCCGGTGAGTAATTTTGCCTCGGCAAAATTAGGAAACAGATAATCGACATAA -CTCAATGCTTCGCAAATATCATCCAGCGTTTCATTCAACCGCGGTTTGATCATATCGGCACAGATAATCATCTGCCGGGC -TTTAGCTTGCGTAAAAATTTCTGTTAGCGCTTTACCATCCAATAGTGGACTGTTGAAAATACTGGCCAGTGATAATAATT -TCGCCTGAGAAAACCGCGCAAAATCAACATCGTCAATATTCAATTTCCACAGACTGCCATTACGGTTTGTGACAAACGTC -CGCTCGCCATCCTCCGTCACCAGTCCAACGTTAATAGAGGTATCTATGCTGACGTCCTGCTTCAGGCTTTGAATATCAAT -ATTCTCTTTGCGGCAATGGTCGAGAATAAATTGCCCTGCGGCATCTTTACCAATACGACTCATTAATGCTGTGCGATGGC -CCAGACGAGAAATAATTGTTGCTTCATTTATTGCATCACCCCCGGTGGTCATTGCGATTCTTTCAAGAGGATAAGAATCC -ACATCAAAGATATTTTTACTGACCGGTTGCAATGGAATATCAACAATAGCGGCACCTATACAAATAACGTCGAGATTATC -CATATCATTATTCCGCTTTGCCATCAGAACCGAACAGTTTAAATTTTTCCAATGCCCGTTCTTTTACAGCTTTACGTACT -TCACGTTCTAAATGCAGGAAAGGCTGATCCTGGTTTTCTTTCACTGCAACCATTGCGGCCTGACAGAGCTCCGTATGAAT -GTTGATTTTCGCGATACCCAACGAAATTGCAGTTTTAATGTCGGCATCACTGATCCCCGATGCACCGTGCAAAACCAGCG -GAACAGAAACGGCATCGCGTACGCGTTTGACGACCTCAAAGTTCAATTGTGGCTCTGACGTATAAACCCCATGCTGGTTG -CCGATGGCGACAGCCAATGAATCACAGCCCGTACGTTCAACAAATTCAGCCGCCTGGTCAGGATCGGTATAGTGATAGCC -CGCCAGCGCTTCCTCATAAACGGTTTCATTACCGACATGCCCTAATTCCGCCTCTACCGGAATACCCAGCGGATGGAAGA -AATCGACAGCCTCTTTGGTTAAACGAATATTTTCTTCGAAATCAAACGCGGAAGCATCACGCATTAATGAATTCATACCA -TGAGTCCAGGCGTTATGAATAATCTCCATACTCCGACCATGATCCCAATGAGTTATTACCGGCACCGTTGCTTTTTGTGC -CATTGATACCATCATGTGAGAGAAATCTTCAAATGAGGTGTTACCGACAAAACCTGTACCAAAAGAAATAATAACCGGGG -ATTTCGCTTCTTCGGCTGCGTCGATAACGCCCATCAACATTTCTGCATTCCATACGTTAAAATGGGCAATTGCATAATGT -TTATTTGTGGCATCGTTTTCCCAATATCTGATATCTGCGAGCATGTTCTGTTCTCCCGTATTAATTAATCGCTAATTTTA -ATAACGCCTTTAATAATGTCGCGTTTGTTGTTAACTGACTCTTCAAATGCCTGTTGTACATCCCGATAATCGTAAATATG -CGTCACCATCGATTTCACATCGAATCGCCCTGAAGAAATAGCTTCAATCGTGACCGGATAACGATTGGCATAGCGGAATA -CCGTCTGGATAGTGACTTCGCGATTGATTTTGAGGAAATTGATTGCCGAATCGCCGGGTACAGTACCAACAATCATAATT -TTACCGCCGCGCATTACCAGATAAGGTGCCTGTTTAACGGTGACCGCAGAACCCGCTGTTTCGAAAACAATATCTGCGCC -CATGTCTTCGGTAAATTGCTGACAGCGTGCAATAGTGTCTTCTTTTGCGCCGTTAATAACCACTGTCGCACCAAGCTGTT -CCGCCATTGCCAGACGTTTTTCCAGCACATCAACGACGGCAATTTCCGTTGCTCCCAGGCATTTGCACGCTTGCAACGTC -ATCAAACCAATACAACCTGCTCCCAGAATAATTATCTTCTTACCCGGTTTAACATCTGCCAGCATCGCGGCATGCATCCC -GACTGCGGCAGGCTCCACCAGCGCCCCTTCCATCGTGTCCATATTGTCGGGCAGTTTGTAAGTAAAGCTCTCCGGATGAC -ACAGATAGTGCGTTAATGCGCCGCGGTAGTTGGGTTGTGTCGCCATAAAATCAACGTCCGGGCAGATGTTATATTTGCCT -TCCAGACAGTAACGACAGTGACCGCAAGGAACGCCAGGTTCGATATTTACCCGATCCCCCGGTTTAAATTTGCGCACGCG -GCTTCCCACAGCCACAACCGTCCCGGCGCATTCATGACCCAGGCCAATTTCTTGATTTGGGTCTTTAGGCGGAATAAACG -GGCCTGATTCAAAACCATGTACATCTGAACCACAAATACCGACATATTCTACTTTAATCAAAACTTCATCTTCTTTAGGC -ACTGGTATTTCTGCTGAAATAATTTTCATTGTGCCCGGCACCTGCAATATTGCTTTTGAATTTTTCATTTTGAATCCACC -CGTATTATTTATTGGCTACTGCATCAATACTTAAACTTTCAACGGAGACACCTTTGGTTTCGATTCCAATGGTGGCGATA -GCAATTGCGACAATAATTGAAACCGCCCCCAGAAGAATAAAGACTCCCGTAACGCCATAACTACTGAGCAGCACTGCAAC -GGCATAAGGTGCGGCAATACCACTGATTCGCCCTACCGCATTCGCCAGACCGGAGCCACGGAGTTTGGCCTCTGTCGGCC -AGATTTCAGGGACATACACTGCCGAGGCATAGCAAACGTACATATAGACGAAAGTAATCAGGAAGAAACCAATCAACGTT -ATGAGCAACATACTGGTTTGCAGTGAATAGATATATCCGAGCACCGCAATCAGGATTAATAGCCCCACACCCATTGTTTT -ACGCGGAATTTTATCCATCACCAGCATGGCAATAAAAATACCAAATGGCGCGCCAAACATACTCATGGTATTTAAAACAA -TCGAGTCTTTTAAATTAATCCCCTGGGTCATGAATATTGTTGGCAACCAGTTAATTAGTGTGTACTGCACAACGTTCATG -GCAATCAGCACACAAGAGCCTAATATCACGCGTTTCAGTAATACTCCTGTCAGTAAGGCTGAATACGGCACCGCTTGTGG -CGCTTTACCGTCATCAGCAATAACCACAGGCGGCAAAGGTTTACCCGTCTGGCGTATGACGCCTTCTTCTATACTCCGCA -TGACTTTCTCGGCTTCCTGATACCGTCCGCGCGATTCCAGCCAGCGCGGGGATTCAGGAAAGTAGCGCCAGGCCAGCGCC -GTAGCGATAAGCGACAATATTGCAGGGATAAGCAGTTGTACCCGCCAGTTCCACTCTGCACTAATCAGCGGCGTGAGTCC -CATCGCTATCAATGAACAGAGCGGATATGACCAGTTGCCAATAAAGGAAACCCGACTTGACCACGTTCCACGATTTCTAC -CGGGCATATATTCGGTGAAACCAGCAAACAGCGTAACCAGTAAAGCTCCCAGCCCAACTCCCATCACAAAACGGCAGGCA -ATAAGGAAATCCATATTCGGTGAGAAAGCACCGACAACCATCGAGGCAATATGAATGGCCTCATAGAGGATGAACGCATT -TCTGCGACCGGTTTTGTCGCCAATGATGCCGCCCACCAGCGCACCGAGAAACATTCCGGCGGTCGTGATTGCTGAGAATG -TGGCTGTGGTGGAATTATCTGTCCAGCCCAACGCTTTCAGCTGCGCGAGGATCAAGCCACCAACGGCATTACTCCAGCAG -ACAAGCAAGCCAAACGCGACGATGGCAAACATTGATGAATGCCAGCGGCAATCCGGTAAGCGATCCAGCCGTGCACCACA -ATGCGGTTTTGTTATCTGTTCCATGCGATAACGTTCCTTCAGGAGAGTGGTTATTCATCAAAGTCGTAAGTCATGATCAC -TTTGATTGCGGTTTTATCGACCATCGCATCAAACCCTTCGCGCCATTGCGACAGGCCGATACGATGCGTGATCATCGGTT -TGACTTTGATAGCGCCGCTGGCTAATAGCCTGATAGCGTTACGCCATGAGGTGGAGTCATAGGCCATATGCCCAATGATG -CTTTTGTTCCAGGCGGTAATGTCATTAATCGAGAAATCAAGAGGTTTGAAGCCCATTCCAACGCGTACCACTTCCCCGTT -CGGGCGGAGCATTTCGATGGCTTGTTTCAGTGCGATATTGGCACCGGAGCATTCAATCACCAGTCCCAGATTGTCTTTGC -CACAAATTTGCTGGCAGCGCGCCACCACATCTTCGGTAGAACCATTTACTACTGCCGTCGCACCCAGTTCTTTTGCAACC -GGGAAGCGGACCGCCACATCTTCTTGCAGACCAACGACGACGATATTTACCGCCCCCATAATTCGCGCCATTTGTACGGA -GAACAGCCCGAGTGGGCCAGTGCCGATGACGACCACATCCTGACCAGGAAGGAATTTCGATTGCTGCGCGATGGATTTGT -AGGCATTACAGATAGGGTCAAGTACGGCTGCGTCCTCATAATCAACACCATCAGGGATTTCCCACAACGCATGACGATGA -ATTTTGAGAATTTCACCAGGAACCAGACAATATTTGGAAAAACCACCGCCCCAGGTATTATTATCCAGACCAAGGTTTAC -TTTTTCTGTACAACACAGAAAATCACCTTGTTCACAGGCCGGACAAACACCGCAAACGTGACCGCTGTTATCCGATACGA -CGCGTTGCCCCACTTTCCAGTCTTTGACTTTTTCACCAACCTGCGCAATACAACCTGCGAACTCATGGCCGCGGATAGAG -TTAAACTCATCAGAACCGCTATCGACATTGTAGTGCTTCATGTCTGCGCCGCAGATTGCCGCGGCTTTAATTTCAATCAC -TACATCTTCCGGGCCACACATGGGTTGTGGGACATCAATCATCTTGTAGCCGCCAAAGGCCTTGCCAAACCGAGCCAGTG -CTTTCATTGCGTCATCCTCTGTGTTTAGTTTTGCTTAGATGGCCATCATACTTACCCACATGATTTTTGAGGTCAACATT -AAATCTGTAAAACACAGATAATGATCTGCGTTTTACAACTCAGATCACAATTACGCAGAAAATGGCTGGGTCTGTTACAG -GTTGATGGAAGGCGGGGCGCAAAAAGAGCAAATTCGAGAGGGATTACCGGCCAAATAGGTCTGAGACTTAAGTTCAGGAG -AAGTCATTCAGGTGTGAACGGGACGGCAAGAGATCGGACTGGGACTTAGCCAGGTCATGGCGAGATAATTGAGATGAGTC -GTGGGGTCATTGTTGGCTATCCCCTTCATAGCCGAGGCAAAAAGGGGATGAACCACTTACTTAAACATGGCAATAGGCTT -TGCTGAGATACCAAAATCTTCTTTTAACTGCTGTTTGCTCTTCATGACCATCTGACCATTTGTGTCAATTGTCATATGCT -GTGCTTCGATATTATGGCGGGCTTGCCACAGCATCACCAGTTGCAGGCAGTTCTCTTTTTGTTCCTCGGTCAACGCAACG -CCATCAGGCCATTTCCCCAGTTCAACGGCGGTCGACAAACGCTGGTATACCTCAGGCATCATGCTGTTGATAATGTCATC -AAGATTCATAATTTTTCCGCTCCTGTGGAATAAGTTGCTGAATCGTTTTTTCAACCGTTGATTTCTTCGCCGTTTTCGCC -ATCGGTAAAGCGTAAAGAGGCAGAGTTAACACAATAACGTTCGCCCGTTGGCTGCGGCCCGTCGGGGAAGACATGCCCCA -GATGGGCATCACAGTTACCGCAACGAATTTCTATGCGCTGCATTCCATGTGACAAGTCTTTGATATAACGAATGGATTCT -TCACTTACCGGTTCGTAGAAACTGGGCCAGCCACAGCCGGAATCATACTTGGTTTGGGAATGAAACAGCGGGGCATCGCA -GATCAAACAGTGATATACGCCGTCACGCTTGTTATGCAGTAAACGACCCGTAAATGGCGGCTCTGTCCCATGATTCTGCG -TCACGTAAAACTGCATCTCGGACAAATTTTTTTTCAGTTCTTCTGCCGAAGGTTTATTAGCCATTTGCTCACATCTCACT -TTAATCGTGCTCACATTACGTGACTGATTCTAACAAAACATTAACACCAACTGGCAAAATTTTGTCCTAAACTTGATCTC -GACGAAATGGCTGCACCTAAATCGTGATGAAAATCACATTTTTATCGTAATTGCCCTTTAAAATTCGGGGCGCCGACCCC -ATGTGGTCTCAAGCCCAAAGGAAGAGTGAGGCGAGTCAGTCGCGTAATGCTTAGGCACAGGATTGATTTGTCGCAATGAT -TGACACGATTCCGCTTGACGCTGCGTAAGGTTTTTGTAATTTTACAGGCAACCTTTTATTCACTAACAAATAGCTGGTGG -AATATATGACTATCAAAGTAGGTATCAACGGTTTTGGCCGTATCGGTCGCATTGTTTTCCGTGCTGCTCAGAAACGTTCT -GACATCGAGATCGTTGCAATCAACGACCTGTTAGACGCTGATTACATGGCATACATGCTGAAATATGACTCCACTCACGG -CCGTTTCGACGGTACCGTTGAAGTGAAAGACGGTCATCTGATCGTTAACGGTAAAAAAATCCGTGTTACCGCTGAACGTG -ATCCGGCTAACCTGAAATGGGACGAAGTTGGTGTTGACGTTGTCGCTGAAGCAACTGGTCTGTTCCTGACTGACGAAACT -GCTCGTAAACACATCACCGCTGGTGCGAAGAAAGTGGTTATGACTGGTCCGTCTAAAGACAACACTCCGATGTTCGTTAA -AGGCGCTAACTTCGACAAATATGCTGGCCAGGACATCGTTTCCAACGCTTCCTGCACCACCAACTGCCTGGCTCCGCTGG -CTAAAGTTATCAACGATAACTTCGGCATCATCGAAGGTCTGATGACCACCGTTCACGCTACTACCGCTACTCAGAAAACC -GTTGATGGCCCGTCTCACAAAGACTGGCGCGGCGGCCGCGGCGCTTCCCAGAACATCATCCCGTCCTCTACCGGTGCTGC -TAAAGCTGTAGGTAAAGTACTGCCAGAACTGAATGGCAAACTGACTGGTATGGCGTTCCGCGTTCCGACCCCGAACGTAT -CTGTAGTTGACCTGACCGTTCGTCTGGAAAAAGCTGCAACTTACGAGCAGATCAAAGCTGCCGTTAAAGCTGCTGCTGAA -GGCGAAATGAAAGGCGTTCTGGGCTACACCGAAGATGACGTAGTATCTACCGATTTCAACGGCGAAGTTTGCACTTCCGT -GTTCGATGCTAAAGCTGGTATCGCTCTGAACGACAACTTCGTGAAACTGGTATCCTGGTACGACAACGAAACCGGTTACT -CCAACAAAGTTCTGGACCTGATCGCTCACATCTCCAAATAAGTTGAGATGACACTGTGATCTAAAAAGAGCGACTTCGGT -CGCTCTTTTTTTTACCTGATAAAATGAAGTTAAAGGACTGCGTCATGATTAAGAAAATTTTTGCCCTTCCGGTCATCGAA -CAAATCTCCCCTGTCCTCTCCCGTCGTAAACTGGATGAACTGGACCTCATTGTGGTCGATCATCCCCAGGTAAAAGCCTC -TTTTGCATTACAGGGCGCACACCTTCTCTCGTGGAAACCTGCGGGTGAAGAAGAAGTTCTGTGGTTGAGCAACAACACAC -CGTTCAAAAATGGCGTCGCTATTCGCGGTGGCGTACCGGTTTGCTGGCCGTGGTTTGGTCCGGCGGCACAACAAGGTCTG -CCTGCGCACGGTTTTGCCCGCAACCTGCCGTGGACGCTGAAATCACATCATGAAGATGCTGATGGCGTAGCGCTGACTTT -TGAATTGACGCAAAGCGAAGAGACGAAAAAATTCTGGCCGCACGACTTTACGCTGTTAGCGCATTTCCGCGTGGGTAAAA -CTTGTGAAATCGATCTTGAATCACATGGCGAATTTGAAACCACCTCTGCCCTGCATACCTACTTTAACGTGGGTGATATC -GCTAAGGTAAGCGTCAGTGGGCTGGGCGATCGCTTCATTGATAAAGTGAATGACGCGAAAGAAAATGTACTGACCGATGG -TATTCAGACCTTCCCTGACCGTACCGATCGCGTGTATCTGAATCCACAAGATTGCAGCGTGATTAATGATGAAGCGCTGA -ATCGTATTATCGCCGTAGGCCACCAGCATCATCTGAACGTTGTCGGCTGGAACCCGGGACCGGCGCTTTCAATTAGCATG -GGCGATATGCCGGATGATGGCTACAAAACATTTGTTTGTGTAGAAACGGCTTACGCTTCAGAAACGCAAAAAGTGACCAA -AGAGAAACCTGCACATCTGGCGCAATCCATTCGCGTTGCGAAACGTTAATTTACGTTAATGTTGTGTGCCGGGTGCAATG -CATCCGGCACACAACATCACACCATATCCAGCGCAGTTTTTCCTTTTGGTGCCGGATATGCCTTATCCAGCATAGCTAAT -TCCGCTGAAGAAAGTTCGACCTCAAGCACAGCCGCATTTTGTTGGACATGGGCAATCGTGGCCGCTTTTGGAATCGCCAT -CACACCCTGATGACTGATCACCCACGCCAACAATACTTGTGCCGCGCTGATATTGTGAGCATGTGCAATTTCGTTGACTA -CCGCGTTTTTTAACAGTCCATTGCGCAACCGCCCGGCCTGGGCTAACGGACTGTAAGCCATCACCGGCATCTGCTGTTGC -TGGCACCAGGGGAGTAGATCGTACTCAATTCCTCGTGAACCGAGATGGTAAAGCACCTGATTAGTGGCACACTGATTTCC -CCCCGGCAGCTGCCAGAGTTCCTGCATATCAGCATAATCAAGGTTAGAAACGCCCCAGCGGCGGATTTTTCCCTGGGCGA -TCAATTTTTCCATCGCTGCGACAGTCTCTTCAAAAGCGAAACTGCCAGACCAGTGTAATAAGTAAAGATCGAGATAATCA -GTATTGAGACGGCGTAAACTGGCTTCGCATGCATTTATCGCTTTTTGCCCGCCAGCATTCCACGGATAGACTTTAGAGAC -GAGAAAGACCTTCTCTCGCAGACCGGTTAATGCTTCCCCAACCACCTTTTCGGCACCGCCATCGGCATACATTTCGGCGG -TATCAATGAGGGTTAAACCGAGTTCAATGCCCGCGCGTAGTGCAGCAACTTCTGTTTTGCGCTGACTGGCATCTTCGCCC -ATATACCATGTTCCCTGCCCTACGGCTGGCAGTGAGACATCGCCACTAAATTGAATCATTTTTTGTTGCATTGTTTCCTC -CCAGGTATTGCACCACCGTAATGCAAAACAGGGCGTGACGCCCTGTTTTTATGCACAAAATGCCCTGGAAAGATGCATTA -TCAGAATTTGTAGGTGATCCCGGTAGAAATCAGGCCAGTCCAGGATTTATCCACCATCGGGCTGTCAGTAACTTCATCAG -ACAGACGGGTGTAGCGTGCGGTACCGTAAACACTCCAGTCGCCGAGGAAGTTGTAGCTGGCGCTCAGCTCCAGGTAAGGG -CTCCAGCTGTCGTTCGGGTTATAGCCACGCAGACCGCTGCGAGCGGACTCTTTGCGCGATACGCCATAATAGTATTCGTT -CTGGTTTTCGCTGTTCCACTGCACACCAATACCCGGAGTCACGGTCAGGCCACCGTTGGTGTAACGATACAACCAGGCCA -TATCCCAGACGATGCCGTTGCTGTTATCCAGGGTATCGCCAGCCAGGGTGGTACGCAGGTAACCGTACTGGGTAAAGTGA -GCATAAGACAGACCAGCCATCATGGTGCTCTTACGGTCATCCAGGTGACGCATTTGGTGATCGCCACTGTCTTTCGCTTT -GAAGTAAAGCGGCGACCAGTAAGCGGTAATTGAAAGTTTATCCGTTGCGTCATTCCACAGGTAGTAACCACCACCTAAGC -CACGGAACCAGAAGTTATCGCCTTCATAGTTGATTACCGGTACTGGGTAAACATCGGTATCGTAATCTTTATATGGGTGT -TCAACGACACCTACGCCTGCGCCCAGGGAAAATTTACCTTCAGCGTGCGCTACGCCTGCAGACGTTGCGATAAGCACTCC -AAGTGCCAGAAGTTTGAGTTTGGTCACAATTAATCATTCCTTAAACAAATGTTTAGCGGGCGACAAAGTTTACCCGTCAA -TACATCGAAACCCAACCTTTTTACGTTTTCATTTTTTAAAGTAACTGTTTAATTTTCCTGACGCGGATGACACCGCGCTT -ACAGCCAAATGAATTTAGCGTTACTGGCGAGCCTGGTCTTTACATTAATTATGCAAAATTTATGGATGAGTTGTTGATAT -GCCATTGAAATTAAGAAAGCCGTGCAGGCAAGTTTTCCATTTGCCATCTACGCTTAATTTTGAAGGTGTATCACCGGGCA -CGTTGTTCTCATCGTCGATAAAATGGCATGAGAGTTGCTGTGTTTTAGCAAGAGACGTCGTTCAGTTTACCTCTTCCGGG -AGCCTCTACTATTCATATGAACGGCTCTTAACCTGTGCTAAAAAACGAAAGGACGGCATACCATGAATATATTCGATCAC -TATCGCCAGCGATATGAAGCTGCCAAGGACGAAGAGTTCACACTGCAGGAGTTTCTTACCACTTGTCGGCAAGATCGCAG -TGCTTATGCCAACGCGGCTGAGCGGCTATTGATGGCTATCGGTGAGCCTGTCATGGTCGATACAGCCCAGGAACCCAGAC -TTTCTCGACTCTTTTCTAACCGGGTCATTGCACGTTATCCGGCGTTTGAAGAGTTTTACGGCATGGAAGACGCGATTGAA -CAGATTGTCTCTTATCTGAAACACGCGGCTCAGGGGCTGGAAGAGAAGAAACAAATCCTGTATCTGCTGGGGCCTGTGGG -TGGGGGTAAATCATCGCTTGCTGAGCGACTGAAATCATTAATGCAGCTCGTACCGATTTATGTATTGAGCGCGAACGGTG -AGCGTAGCCCGGTCAACGATCATCCGTTCTGTCTTTTCAATCCGCAGGAAGATGCGCAGATTCTGGAAAAAGAGTATGGC -ATTCCTCGCCGTTATCTCGGCACCATCATGTCGCCGTGGGCGGCAAAACGCCTGCATGAATTTGGTGGCGATATCACTAA -GTTCCGGGTAGTGAAGGTCTGGCCGTCAATTCTGCAACAAATTGCTATCGCCAAAACGGAACCCGGCGATGAGAACAACC -AGGACATCTCCGCGCTGGTTGGGAAAGTCGATATTCGTAAACTCGAACACTACGCGCAGAATGACCCGGACGCCTACGGC -TATTCCGGTGCGCTGTGCCGCGCCAATCAGGGGATCATGGAATTCGTTGAGATGTTTAAAGCACCGATTAAAGTGCTGCA -TCCCTTGTTAACCGCCACTCAGGAAGGTAACTACAACGGGACGGAAGGTATCTCCGCCCTGCCGTTCAACGGGATTATTC -TCGCACACTCGAACGAGTCCGAATGGGTCACTTTCCGTAATAACAAAAACAACGAAGCCTTCCTCGATCGTGTTTACATC -GTGAAGGTGCCGTATTGCTTGCGCATTTCCGAAGAGATCAAAATCTACGAGAAATTGCTTAATCACAGTGAATTGACTCA -CGCCCCATGCGCCCCTGGCACGCTCGAAACACTGTCACGTTTTTCCATTCTTTCGCGCCTGAAAGAGCCAGAAAACTCCA -GCATTTATTCAAAGATGCGGGTTTATGATGGCGAAAGTCTGAAAGACACCGATCCCAAAGCCAAGTCGTATCAGGAATAT -CGTGACTACGCCGGTGTCGATGAAGGGATGAACGGTCTGTCGACGCGTTTTGCGTTTAAGATCCTCTCCCGCGTGTTCAA -CTTCGATCATGTAGAAGTGGCAGCAAACCCGGTCCATCTGTTCTACGTCCTGGAACAGCAGATTGAGCGCGAGCAGTTCC -CACAAGAGCAGGCAGAACGCTATCTGGAGTTCCTGAAAGGTTATCTGATCCCGAAATATGCCGAGTTTATCGGCAAAGAG -ATCCAGACGGCCTACCTTGAATCCTATTCCGAATATGGGCAAAACATTTTCGACCGTTATGTTACCTACGCGGATTTCTG -GATTCAGGATCAGGAGTATCGCGATCCGGATACCGGGCAGCTGTTTGACCGCGAGTCTCTTAACGCCGAGCTGGAGAAAA -TCGAGAAACCGGCGGGGATCAGTAATCCAAAAGATTTCCGCAACGAGATTGTTAACTTCGTACTGCGCGCCAGAGCGAAT -AACAGCGGACGCAATCCGAACTGGACCAGCTATGAAAAACTGCGCACGGTCATCGAGAAGAAAATGTTCTCCAATACCGA -GGAGCTGTTGCCGGTTATCTCGTTTAACGCCAAAACGTCAACCGACGAGCAGAAGAAACACGACGACTTTGTCGACCGTA -TGATGGAAAAAGGCTACACCCGTAAACAGGTGCGTTTACTGTGCGAATGGTATTTGCGCGTACGTAAATCGTCTTAACAA -CCCTGGCCCGGTACACATGTTACCGGGCCTACAACGACAGCGAACCGTGGGCCTGAGAAGCGGCAACACAGGCGTAGCAT -ACAGTTGGCAAATGTAGTACGGGGGGCATATGACCTGGTTTATTGACCGGCGTCTGAACGGCAAAAACAAAAGCATGGTG -AATCGCCAGCGTTTTTTACGCCGTTATAAAGCGCAAATTAAACAGTCGATCTCCGAGGCCATTAATAAGCGTTCGGTGAC -TGACGTCGACAGCGGCGAATCCGTATCCATTCCCACGGAAGATATTAGCGAACCGATGTTTCATCAGGGGCGTGGCGGTC -TGCGCCACCGCGTGCATCCGGGCAATGACCATTTCGTCCAGAACGACCGAATTGAACGTCCCCAGGGTGGCGGCGGAGGT -TCCGGCAGTGGTCAGGGCCAGGCCAGCCAGGATGGTGAAGGTCAGGATGAATTTGTCTTTCAGATTTCGAAAGATGAGTA -TCTTGATCTGCTCTTTGAAGATTTGGCCTTACCGAATCTGAAACAAAACCAACAACGCCAGCTGACCGAATATAAAACGC -ATCGGGCGGGTTATACCGCTAACGGCGTTCCGGCCAATATCAGCGTTGTGCGTTCATTGCAGAACTCACTGGCGCGACGC -ACAGCCATGACGGCAGGCAAGCGGCGGGAACTTCATGCACTGGAAGAGAATTTGGCCATCATCAGCAACAGTGAACCTGC -GCAACTGCTGGAAGAGGAACGTCTGCGCAAAGAAATTGCAGAATTACGTGCCAAAATTGAACGCGTCCCTTTTATTGACA -CCTTCGATTTACGTTACAAGAACTACGAGAAGCGGCCCGATCCCTCCAGCCAGGCAGTGATGTTTTGCCTGATGGACGTT -TCCGGTTCAATGGATCAATCCACTAAAGATATGGCTAAGCGTTTTTATATTCTGCTGTATCTGTTCCTCAGCAGAACGTA -TAAGAACGTGGAAGTCGTATACATCCGCCATCATACCCAGGCGAAAGAAGTCGATGAACATGAGTTTTTCTACTCGCAGG -AAACAGGCGGCACCATTGTTTCCAGCGCCCTGAAACTGATGGATGAGGTAGTGAAAGAGCGTTATAACCCGGCACAGTGG -AATATTTACGCTGCACAAGCATCGGACGGCGATAACTGGGCCGATGACTCTCCGCTTTGCCATGAAATCCTGGCGAAAAA -ATTATTACCTGTTGTTCGTTATTACAGCTATATCGAAATTACCCGTCGTGCACATCAGACATTGTGGCGAGAATATGAGC -ATCTGCAATCTACTTTCGACAACTTTGCGATGCAGCACATCCGCGACCAGGATGATATTTATCCGGTGTTCCGTGAACTG -TTTCATAAACAAAATGCAACAGCTAAAGGCTAAAACTATCAGCCAGGTCATTATCGCCTGGCTGATTTTTAGCTTACTGT -AAATTATCTCATTTATTACATACATTAGCTTACAATCGCTTTAAATATGACAGCATAACCTTTACATAATTTAGTTCCAG -AAAACAATCATTCGGAAAAATGATTCAGTCAACACGTATTTCCATGGGGTTATTCTTTAAATATTTTTTATCGTTAACGA -AAATTGATCCTGGTCAAAACTATATATCTCTGCCATCAATAAAATCCAGCACTCACATTGCTCTCCTTTTTATGGTTTCT -ATGGGTACACAAAAATTAAAAGCTCAAAGCTTTTTTATTTTCAGTTTATTGCTGACGTTAATTTTATTTTGCATTACTAC -CTTATATAACGAAAACACAAATGTAAAACTCATCCCACAGATGAATTACCTGATGGTTGTTGTGGCTTTGTTTTTCCTTA -ACGCCGTCATTTTTCTTTTCATGTTAATGAAATATTTCACTAACAAACAAATTTTACCAACACTCATTTTAAGCCTTGCA -TTTTTAAGTGGCCTTATCTATTTAGTTGAAACCATTGTAATTATCCATAAACCAATTAACGGCAGTACACTGATCCAGAC -AAAGTCGAATGATGTTTCTATTTTCTATATTTTCCGCCAACTCAGTTTTATTTGTTTAACCTCGCTGGCGCTCTTTTGTT -ATGGAAAAGACAACATCCTTGACAACAATAAGAAAAAAACGGGAATCCTGTTGCTGGCGCTGATCCCTTTTTTAGTTTTT -CCCCTTCTGGCACACAATCTGAGCAGTTATAACGCTGACTATTCTTTGTATGTCGTCGATTACTGTCCGGACAACCATAC -TGCGACCTGGGGAATCAACTATACAAAAATATTGGTTTGTCTGTGGGCATTTTTACTGTTCTTTATTATCATGCGCACAC -GATTAGCCAGCGAACTATGGCCGTTAATAGCATTATTATGTCTGGCATCGCTATGCTGCAACTTACTTCTACTGACTCTG -GATGAGTATAATTATACTATCTGGTATATCAGTCGCGGGATTGAAGTTTCCAGTAAACTGTTTGTTGTGTCTTTTCTGAT -TTATAACATTTTTCAGGAGCTGCAACTCTCCAGCAAACTGGCAGTTCATGATGTGCTGACCAATATTTATAATCGGCGCT -ACTTTTTCAACAGCGTAGAGTCATTATTGTCGCGACCTGTTGTTAAGGACTTCTGTGTCATGCTGGTTGATATTAATCAG -TTCAAACGCATCAATGCCCAATGGGGACATCGTGTGGGTGATAAAGTGCTGGTTTCAATTGTCGATATTATCCAGCAAAG -CATCCGCCCCGATGATATTTTAGCGCGACTGGAGGGTGAGGTGTTTGGCTTGCTATTTACCGAACTCAATAGTGCCCAGG -CAAAAATCATTGCGGAACGTATGCGTAAAAATGTCGAACTCCTGACCGGCTTTAGTAACAGATATGATGTTCCTGAACAA -ATGACCATCAGTATTGGCACGGTTTTTTCAACGGGTGACACGCGTAATATCTCGCTTGTCATGACGGAAGCAGATAAAGC -CTTACGCGAAGCGAAAAGCGAGGGGGGCAACAAAGTGATTATTCATCATATTTAAGTGCAAAAATATTCAGAGCCATGCT -TTTTGCGTGGCTTTTGCATACAATTTATTACTATTACCCCTAAATTTCCCCTCCCCAGCGGCGCAGAGATGAGTATAATT -AGCGCCCCTGTGCCAGGCCGCAATCGAACTTTATCTGGTTTTCTCGTTTCACTAACCGAAGGAGTGCCATTTATCATGAA -ATTGCACCATAGAATGCTCCGGCATTTTATCGCCGCAAGTGTCATTGTGCTGACATCTTCCTTCCTTATTTTTGAACTTG -TCGCCAGCGACAGAGCAATGAGTGCCTATCTGCGCTATATCGTGCAGAAAGCAGACTCCTCCTTTCTTTATGATAAGTAT -CAGAATCAGAGTATTGCCGCGCATGTGATGCGCGCTCTCGCTGCTGAGCAGTCGGAAGTGTCGCCAGAACAGCGGCGCGC -CATCTGCGAGGCTTTTGAGTCTGCCAATAACACCCATGGCTTAAACCTGACTGCCCATAAATACCCGGGCTTACGCGGCA -CACTACAAACCGCATCCACTGACTGCGACACAATTGTGGAAGCTGCAGCACTATTACCCGCTTTTGATCAGGCAGTGGAA -GGCAACCGCCACCAGGATGATTACGGTTCAGGTCTTGGGATGGCCGAAGAGAAATTTCACTATTATCTCGATCTCAATGA -CCGCTATGTCTATTTTTATGAGCCGGTTAATGTTGAATACTTTGCGATGAATAACTGGTCCTTCCTGCAGTCAGGAAGTA -TTGGCATCGATCGCAAAGATATTGAAAAGGTATTTACCGGGCGTACCGTATTGTCGAGCATTTACCAGGATCAGCGTACT -AAACAGAACGTGATGAGTTTGCTGACGCCGGTATATGTCGCAGGGCAGCTAAAAGGGATTGTGCTGCTGGATATTAACAA -AAACAATCTGCGGAATATCTTTTATACTCATGACCGCCCTCTCCTCTGGCGTTTTCTCAATGTCACGCTAACCGATACCG -ATTCGGGGCGCGACATTATCATCAACCAGAGCGAAGATAATCTGTTCCAGTATGTCAGTTACGTCCATGACTTACCGGGC -GGCATTCGTGTCTCGTTATCCATTGATATTCTTTACTTTATCACGTCTTCGTGGAAAAGCGTTCTGTTCTGGATTTTGAC -GGCGTTAATTTTGCTGAATATGGTGCGGATGCACTTCCGTTTATACCAAAATGTGTCGCGAGAAAATATTAGTGATGCGA -TGACTGGACTGTATAATCGCAAAATTTTAACCCCTGAACTGGAGCAGCGGTTGCAGAAACTGGTGCAATCCGGTTCTTCG -GTGATGTTTATTGCTATTGACATGGACAAGTTAAAGCAAATAAATGACACCCTCGGTCATCAGGAGGGGGATTTAGCGAT -TACGTTATTAGCTCAGGCGATTAAACAGTCGATTCGTAAAAGTGATTATGCCATCCGACTCGGTGGCGATGAATTCTGCA -TCATTCTTGTCGATTCGACGCCGCAAATTGCAGCACAACTGCCTGAACGTATCGAAAAACGTCTGCAACATATCGCGCCG -CAGAAAGAGATCGGCTTCTCTTCCGGTATTTACGCGATGAAAGAAAACGATACGTTACATGATGCGTATAAAGCTTCCGA -TGAGCGTTTATATGTCAATAAGCAGAACAAAAACAGCCGTTCATGATAACCTTCTGTGGTTGTTTGCTTGTAATCTCAGG -AGCGTGAAATGACTGAAATGGCTAAAGGAAGCGTGACGCATCAGCGGTTAATCGCTTTATTATCACAAGAAGGTGCTGAC -TTCCGCGTCGTTACCCATGAAGCGGTAGGTAAATGTGAAGCGGTGTCAGAAATTCGTGGCACCGCTCTAGGCCAGGGTGC -TAAGGCACTGGTATGTAAAGTCAAAGGCAATGGCGTAAATCAACATGTTCTGGCGATCCTCGCAGCCGATCAACAGGCCG -ATCTGAGCCAACTCGCCAGCCATATAGGCGGATTACGCGCTTCGTTGGCCAGCCCGGCGGAAGTCGATGAACTCACAGGC -TGTGTCTTCGGCGCGATCCCCCCTTTCAGCTTCCATCCAAAACTCAAACTGGTTGCCGACCCTCTACTCTTCGAACGATT -TGATGAAATCGCCTTCAATGCAGGCATGCTGGATAAATCCGTTATTTTGAAAACCGCGGATTATTTGCGCATTGCGCAAC -CAGAACTGGTCAATTTCCGCCGCACTGCGTAACTAGCCGGTCCGTTCGATAAGAAGAACGGACAAAACCAGTACAACAGC -AATGGCAAAAAACGATGACGTGATAATCAGTGTCTCGACAAACATTTGATCGTTCATAGCATGCCCCCGGGAGATAGCTG -TTTTCACGTTATTGTTAGCGTGCACAAATGGCAGTTTGATGACAGTTCGCCTGATTTTTTATGCAAAAAACGTAAAGATT -TTCTACTTCCTTCCTGCAGCAAGCGTAAAGTAAGCAGGCTTATTATTTTTTGGCAAGGAAACCACGATGTTTGATGTCAC -TTTGCTGATCCTGCTCGGGTTAGCTGCGCTGGGCTTTATCAGTCATAACACCACTGTCGCCGTTTCAATTCTGGTGTTAA -TCATTGTCCGCGTCACACCGTTAAGCACCTTTTTTCCGTGGATTGAAAAACAGGGGCTAAGTATCGGGATAATCATTCTG -ACGATTGGCGTTATGGCCCCCATCGCCAGCGGGACGCTACCGCCCTCAACCTTGATTCACTCGTTTCTGAACTGGAAATC -ACTGGTGGCGATTGCAGTAGGCGTGATTGTCTCCTGGCTGGGTGGGCGCGGCGTGACGTTAATGGGCAGCCAGCCGCAAC -TGGTCGCCGGGCTGCTGGTAGGCACTGTTTTAGGCGTAGCGCTGTTTCGCGGCGTACCGGTTGGGCCGCTTATTGCCGCG -GGTCTGGTTTCGCTGATTGTGGGGAAACAGTAGTTAATCTCGCAATATATCGGCCTGGCGTTTGCCCCAGGCCTTTCTTA -AACATAGTAATAAAGGCCGTTGTTGAATCATACCCCAGCGTATGAGCAACTTTCTGTACAGTATCGCCTTTCACTAATCC -CTGAAGCGCCATAATCAGCTGTAACTGCTGACGCCACTGGCGAAAACTCAACCCCGTCTCTTTTACTATCAGTCGGGCAA -GATTGCGTTCACTCATCGCAAAAAAGCCAGCCCATTGCCCCAATGCCCCCCACTCGACAGGCCCTTTCGCCATCATCTCC -ACCATCGTGCGGATTTTAGGATGAGAAGAAACGGGCAGGTGCAGCTGTTGTTGTGGCTGCTGAGGGAGTTCATCAAACAG -GACCTGAATTAATCTGCGGGTCATTGGCTCAGCACGCTGAGTCGTCGTCCTGTTTGCCAGGGTTAAAATTAATTCCCGGC -ATAAGGGCGATATTTTCAATGTGCAACATGTTGTCGGCATTGTCACTGCGCTGGGTTCGATAAACAGAAAACAGAGTTCA -GCATTAGCTGTTACTTGATTGCTATGTTCCACCCCGCCCGGTATCCAAACCGCATATTGTGGCGGCACCATCCACAAAGC -ATTTTCCACCGTACAGGTAATTGCACCATGTAGCGCCAGTATCAGCTGTCCTTTGCGGTGCTGATGTACAGGACTGGTTA -ACTCATCCGTTCCGGCGTGAATACAAAATGCGACCGCGGCTTCATGGTGTCGGTCGGGTTCATAGCCATTGAGATTCAAC -CTGTGCATCATTTTGTCCGAACTTAGCGATAATTTGTCATTTTAGCTTGATTCAACATAACAATAAAAACGGTAAGGTAC -AGCCTCGTTTGTAACAATGAGAAGCATATGACCTGTTCAACTTCATTAAGCGGCAAAAACAGGATTGTCCTTATCGCTGG -CATTCTGATGATTGCCACAACATTACGCGTCACCTTTACCGGCGCAGCACCGTTACTGGATACGATTCGTTCCGCTTACT -CGCTGACGACAGCGCAAACCGGCTTATTGACCACCCTGCCATTATTGGCCTTTGCGCTAATCTCACCTTTGGCTGCCCCG -GTAGCGCGACGTTTTGGTATGGAACGTAGCCTGTTTGCCGCGTTACTTTTGATCTGTGCTGGTATCGCAATTCGCTCTCT -CCCTTCGCCTTACTTATTATTTGGCGGTACAGCGGTCATTGGCGGTGGGATTGCATTAGGCAATGTCTTACTGCCAGGAT -TAATTAAACGCGATTTCCCTCATTCCGTCGCCAGACTTACCGGCGCATATTCCCTGACAATGGGAGCTGCAGCGGCACTG -GGATCGGCTATGGTCGTGCCGCTGGCTTTGAACGGTTTTGGCTGGCAAGGCGCGTTGCTCATGCTGATGTGTTTTCCTCT -GCTGGCTCTTTTTTTATGGCTGCCACAGTGGCGAAGTCAACAACATGCAAATTTGAGTACCTCGCGCGCCTTACATACTC -GGGGTATCTGGCGTTCACCGCTTGCCTGGCAGGTCACATTGTTTCTTGGGATCAACTCACTGGTCTATTACGTGATTATT -GGCTGGCTTCCGGCGATCCTCATCAGTCACGGCTATAGCGAAGCACAGGCGGGTTCACTGCATGGTTTGCTGCAACTAGC -CACAGCAGCACCCGGTTTGCTGATCCCACTTTTCTTACATCATGTGAAAGATCAGCGTGGTATTGCAGCGTTCGTTGCCT -TGATGTGCGCAGTGGGCGCGGTTGGGCTCTGCTTTATGCCAGCGCACGCGATCACCTGGACTCTGCTTTTCGGTTTTGGT -TCCGGCGCAACAATGATACTGGGGTTGACGTTCATTGGTCTGCGGGCTAGTTCTGCGCATCAGGCGGCGGCACTCTCGGG -GATGGCACAATCCGTCGGGTATTTGTTGGCAGCCTGTGGGCCGCCGCTGATGGGTAAAATACACGATGCTAACGGTAACT -GGTCTGTACCACTTATGGGTGTTGCCATACTTTCACTACTGATGGCGATTTTCGGACTTTGCGCCGGGAGAGACAAAGAA -ATTCGCTAATATCCGGTGCTATAGTGACGTAACAAATCATGCGTGAAAGGGAGAACAAACACGATGAATATTCAGTGCAA -ACGCGTTTATGATCCGGCTGAACAGAGCGATGGTTATCGCATACTGGTCGACCGCCTCTGGCCGCGCGGTATCAAAAAAA -CCGATTTAGCCCTTGATGAGTGGGATAAAGAAATCACGCCGTCAACGGAACTGCGCAAAGCCTTTCACGGCGAAGTCGTC -GATTATGCAACCTTTCGCGAGCAATATCTTGCAGAACTGGCGCAACACGAGCAAGAAGGAAAGCGGCTGGCGGACATCGC -CAAAAAACAGCCGCTGACCCTGCTCTACTCAGCAAAAAACACCACGCAGAACCATGCGCTGGTGCTGGCCGACTGGCTAC -GTAGCTTGTGATTTTAGTACAGCATCCGGCGGTTATTTTTCACCAGCCGGATGGTCACGCCGCCACAATGCCCATTCATC -AATCGTTTCACCGCCCGGTAATTTGCAATTGTTGCTGACCCCTTGCGCTGTCTGCACTGGAATGAGCGTCCCGCCCTTCT -GCTGGCAATAGACCGACGCCGGATTTGCCATACCAATCTGCGGCGGTTTAGGTGCTTCTGGCTGAGAAGGGGTTGAACAA -CCAGCCAGGACCAGCAAGCAAGGCAGAACAAAACTGATAATTTTCATTTATTGATCTCACATATTTATCCAAGATTAGAG -TATCGCGGTATCGTTTTGTTTTGCAGCACTATTTTTATTACATTCACTCAAAACATATTACGTCTTGTTTCATCTTTGTT -GATGATGTTTTATCATGCCTGCAAAGATTAAATAATCAGCATTTACCCGCCGTATCCTGGAGTTGTTCCGTGTCAGATCA -GATTATCGCCCGCGTCTCGCAATCCCTTGCCAAAGAACAGTCACTGGAAAGTCTGGTCCGACAGCTTCTGGAGATGCTGG -AAATGGTCACTGATATGGAATCAACCTACCTGACCAAAGTGGATGTCGAAGCGCGCCTGCAGCATATTATGTTTGCCCGT -AACAGCCAGAAAATGTACATCCCGGAGAATTTTACCGTCTCGTGGGATTACTCGTTATGCAAACGCGCCATTGATGAAAA -CTGCTTTTTCAGCGATGAAGTCCCCGACCGTTGGGGTGACTGTATTGCGGCACGCAATCTTGGCATCACCACATTTCTGA -GCACGCCAATTCACTTACCGGATGGATCATTCTATGGCACGCTTTGCGCCGCCAGCAGTGAGAAGCGCCAGTGGAGTGAA -CGCGCGGAACAGGTTTTACAGTTATTCGCCGGACTGATTGCACAATATATTCAAAAAGAGGCACTGGTTGAACAGCTGCG -CGAAGCCAATGCTGCGCTGATTGCGCAATCGTATACCGACTCGTTAACCGGGCTACCGAATCGGCGGGCGATTTTTGAAA -ATCTGACGACACTGTTTTCCCTCGCCCGGCATCTTAACCATAAGATAATGATCGCGTTTATCGATCTGGATAACTTCAAA -TTAATCAATGATCGTTTTGGTCATAATAGTGGCGATCTGTTTCTCATTCAGGTTGGCGAGCGCCTTAATACGCTCCAGCA -AAATGGCGAAGTTATTGGTCGTCTCGGCGGTGATGAGTTTTTAGTTGTTTCACTAAACAACGAGAATGCGGATATTTCGT -CGCTGCGAGAACGCATTCAGCAGCAAATACGTGGAGAATATCACTTAGGTGATGTTGATTTGTATTATCCCGGTGCCAGT -CTTGGCATAGTAGAAGTCGATCCTGAAACAACCGATGCAGACAGTGCCCTGCATGCTGCCGATATTGCGATGTATCAGGA -GAAAAAACACAAACAGAAAACACCTTTTGTCGCGCATCCAGCGCTACATTCCTGAGGCGTATTCACATCCTTTTGATTGG -TGATAACATGCGAATCGGTATTATTTTTCCGGTTGTAATCTTCATTACAGCGGTCGTATTTTTAGCATGGTTTTTTATTG -GCGGCTATGCTGCCCCGGGAGCATAAAGATGAAAAAAACAACGATTATTATGATGGGTGTGGCGATTATTGTCGTACTCG -GCACTGAGCTGGGATGGTGGTAACGTCACCTCTAAAAAATAGCAAAGGCTGCCTGTGTGCAGCCTTTGTGCAATTTAAGC -GTTAACTTTTAATCTTCCTGTAGATAAATAGCACGACAATCGCACCAATAACGGCAACCACGAAGCTGCCAAAATTGAAG -CCATCGACTTTACCAAAGCCAAACAGCGTGCTGATCCATCCGCCGACTACGGCACCGACTATCCCCAGCAGGATAGTCAT -AAAGAATCCACCTCCATCTTTACCTGGCATGATCCACTTCGCCAGAATACCGGCAATAAGCCCAAAAATAATCCATGACA -GAATGCCCATTGTTTCCTCACTTATCTGTTTTGCATTAGCGGGTTAGTCGCTGATAAAAAGCATAGCACAACATCGGGAG -GGCAAGATTTGTGACGAGCATCACGGAGGTTTTTTTTGCGATGGCGCAGAAATTGCGCCATCAACGATCAGTGATAATTA -CCAACCACAAACATCATGTTCGTTTTCCGTGTCATAAGAACGTACGGTATTCACCAGATCTTTTATCACTTCAGCCGCCA -CTTCTGGCACCAGCAAAGTCATCGGCGTCTCTGTTTCATAATCGACAGAAACGCCATTGCTGTTATTGGTGACGGTCACG -GTATACGTTGCTTTGCCCATGATTCATTTCCCGTTATGAATGACTTTCCGTTGTTGCGCACCTTCCATCAGGACTTCAGG -AGCCACGAAGAAGTCAATGTTGAAATAAGTATCGTCAGTCATGGCTTCAATGTTGTGCCACTTTTCTGGAGGGAACACCG -CAAACTGCCCCGCTTCGATAAGGATCACCTGATCAGGCTCTGCACTGTGTTCATCAGCGTAGCCGAGATATTTGACCGCC -CCATGCATAACGGAAAGGCGTGGGTAAACCCCCGGGCGCGTTCCTTTATCAAGATGACGTTCGAATATTCCGGCAGGTGC -AGTTTGTTTATTCCAGAAAGGCGTTGAGCGCGTATGAATATAATTCTGTGGGATTTGAAGCATCCTTTTCCCTCCTTCGG -TGAATGCGCTGAAAACGGTTTATTCCAGCCGTTTCAGGGTACGCCTGATAATTTGCATTTTAAATACCATTTATTGGTTA -CTTTTTAGCACCATATCAGCGAAGAATCAGGGAGGATTATAGATGGGAAGCCCGCGACAACGCGGGCTGAAAGCATCAGG -ATTGCAGCGTCGCCAGTCGGGCAGCGAAACCCACGAACATCAAACCAATCAGTGAGTTGCCAACTTTAGCCAGTTTCTTT -TTGGTACGTATGTACTGCGTGACAAAAGCACCAGATATAATCAGGAAGCTCAAATAGCAGAAACTCACCAGTTCCAGCGT -CGCCGCCAGAATAAAGAATGAAATTCCCGTATGTGGGGCATTAACATCGATAAACTGTACGAAAAACGACACATAGAACA -AAATGGCTTTCGGATTAGTCAGGCTCAAAATTAACGCGCGTTTAAAAATAGCACCGTATTGGGGCTCATCGGATTTGGCC -TCGCTATTTTTACCCTTCAGGGTCGCGTAAAGAATTTTACTCCCCAGATAGAGCAAATAAAACGCACCAAGATAACGTAC -AATGTTGAATAATATCGGGGTGGTCTTAATTAATGTCGCCACTCCAGCCCATGCCAGAAACATCAATACCGCATCGCCAA -TAAATACACCGCAGGCCGCAAGATAACCGCCTTTCATACCGCTACTGACGCTATTTTTGAGTACAAACAGGGTATTTGGC -CCTGGCACCAACACAATAAAAATGGCCCCAACCAGATAGGTCCAGTAATTCAGAACCCCGTATTCAGCGAACACATTAAC -CTCTTTAATTATCTTTCGATCATGCGCGATTAAAGGTGAATATGCTAACCAATCTGTAGCGGCTTAGAAAGGAGAAAATC -AGGTTTTAACCTGATATCAACCCGATAATTGAATCATTAATCAGGCATGCTCCAGTGAAAAATTCGGGTAGTGCTCGGCA -AAATACTGGCGTAAAAATTCTACCGTTATCCGCACTTTCGCTGACGTCGCCAGCCTTGAAACATAAACGGCCCAGACGTT -CGCTGGCTGGTAATATTCCGGTAGCACTTGCACTAAATGACCACTGGCAATGTTTTCGCTAACATCCCACCAGGAACGCA -GAGCAATCCCCTGCCCATCGAGACACCACTGATGGACAATTTCTCCATGATTAGACGACAGTGGGCCGGTGACTTTAATC -GCATGGGGGCCTTCTTTATTGCGTAATTGCCAGACACCAAAAGGATGATCGCGCTCTTTAATGACCAGGCACGGCAATGC -AGAAAGATCGGTTAAATGTTTCGGCGCGCCATGTTGCGCAATAAATTCCGGCGACGCGCAGAGAATACGGTAATTGGTCG -CCAGTTTGCGGGCGATTAAATTAGGGGCGATGTCATCGCCAATGCGAATATCGAGATCGACACCTTCATTGACCAAATCG -ACCAGTCGGTCTTCCACATCAAAACGTAATTCCAGTTGCGGATACGCCTTCGCCAGCGCTAATAACGCCGGAGCCACCAC -CTGTCGTCCAAAACCAAAGCTGCTGATAATACGCAGCATCCCCTGCGGCACCTGACGCACGTCAGAAAGTTCGTCCATCA -TCTGACCGACATCCTGCAAAATCCGCTGCGCCCATTCATAAATCCGCTCTCCTTCTTCGGTAATGGTGACGCGGCGGGTG -GTGCGGTGTAACAACACCACGTTTAGCGTTTGCTCCAGCAAGGCGATGCGCTTGCTGACGAACGCCGGTGAAACGCCCAG -TTCTTCCGCCACGGCGGCAAAACCAGCCCGGCGAGCCACCAGCATAAAGACGCGCAAATCATTCAGCAGCGGTAAATTAT -TCATGATTCGTGTTTTATGTTTCACCAGTTACGGGGATTAATTCCTTTTCAGTCAATTATAGGATGGTGATGTTGTCAAT -TTTGATGGTCAGGAAGTGAGAACCCAATGATGAAAACGATGCGTATTGCTGCGATCCCGGGAGACGGGATTGGCAAAGAA -GTCCTTCCTGAAGGGATTCGCGTGTTACAGGCTGCCGCTGAGCGCTGGGGCTTCGCCTTGAGTTTTGAGCAAATGGAGTG -GGCGAGCTGCGAGTATTACAGCCATCACGGTAAAATGATGCCGGACGACTGGCATGAGCAACTTAGCCGTTTCGACGCCA -TCTATTTTGGTGCCGTCGGCTGGCCGGATACCGTTCCGGACCATATTTCGTTGTGGGGTTCGCTGCTGAAATTTCGTCGT -GAATTCGACCAGTACGTCAACCTGCGCCCGGTTCGTCTCTTTCCTGGCGTTCCCTGCCCGCTGGCGGGAAAACAGCCTGG -CGACATCGATTTTTACGTGGTCAGGGAAAACACCGAAGGCGAATATTCCTCGCTCGGCGGTAGAGTGAATGAAGGTACAG -AGCATGAAGTCGTCATTCAGGAATCGGTATTTACCCGCCGTGGTGTCGATCGCATTTTGCGTTATGCCTTCGAACTTGCG -CAAAGCCGTCCACGTAAGACACTAACTTCTGCCACTAAATCGAACGGTTTAGCCATCAGCATGCCGTACTGGGATGAGCG -AGTGGAAGCAATGGCCGAGAATTACCCGGAGATCCGCTGGGACAAGCAGCATATTGATATTCTCTGCGCGCGTTTTGTGA -TGCAGCCGGAACGATTCGATGTGGTGGTGGCGTCCAATTTGTTTGGCGATATCCTTTCCGATCTTGGCCCGGCCTGCACC -GGCACCATTGGCATTGCCCCATCCGCCAACCTGAATCCGGAACGCACTTTCCCGTCGCTCTTCGAGCCTGTCCACGGTTC -CGCGCCGGATATCTACGGGAAAAATATTGCTAACCCTATCGCCACGATTTGGGCCGGGGCAATGATGCTCGATTTTCTCG -GCAATGGCGATGAGCGTTTCCAGCAAGCGCATAACGGTATTCTGGCAGCAATTGAAGAAGTGATTGCTCACGGGCCGAAA -ACACCTGATATGAAAGGCAATGCCACCACGCCACAGGTTGCCGACGCGATTTGCAAAATTATTTTGCGTTAAGGTCAAAC -CAGTTTATTTGAACCGCGTCACTGACGCGGTTTTTTTATTCGTTCTTTGCAGTAAATAACCTGCGTCATTTCACCTTTTA -TTGTTTCCGTTTCGTGTTTTATGGCTTTCCGTATTCTTAATTGTTTAATTTATGTAACATGCAAATTTTGTTACGCGTAC -GTTAGGTTCCGCCGTACAGGTATTGGTTTTGCTGGCAATGGGACTGGTGATTTATTTAGCCACCAGTAAATACGGCAATA -TTCGTCTTGGCGAAGGAAAACCGGAATACAGCACGCTCTCCTGGCTGTTTATGTTTATTTGTGCCGGTTTAGGTTCTTCT -ACGCTTTATTGGGGGGTTGCTGAATGGGCCTATTATTATCAAACACCTGGATTAAATATCGCACCGCGTTCACAACAGGC -ACTCGAATTTAGCGTTCCCTACTCTTTCTTCCACTGGGGCATCAGCGCCTGGGCAACTTATACGCTGGCCTCATTAATCA -TGGCTTATCACTTTCATGTGCGGAAAAACAAAGGTCTGAGCCTTTCCGGCATTATTGCTGCTATTACCGGCGTTCGCCCG -CAAGGCCCATGGGGAAAACTGGTCGATTTGATGTTCCTGATCGCCACTGTCGGCGCACTGACCATTTCCCTTGTTGTTAC -CGCAGCAACCTTTACCCGTGGGCTTTCCGCGCTGACCGGTTTACCCGATAACTTCACCGTGCAGGCATTTGTGATCCTGC -TTTCCGGCGGCATTTTTTGCCTAAGCTCGTGGATTGGTATCAACAACGGTTTGCAACGTCTGAGCAAAATGGTTGGCTGG -GGCGCGTTCCTGCTGCCATTACTGGTGCTGATTGTCGGCCCAACCGAATTTATTACCAACAGCATCATCAATGCCATCGG -CCTGACCACGCAAAACTTCCTGCAAATGAGCTTATTCACCGATCCGCTTGGCGATGGTTCATTTACCCGCAACTGGACCG -TTTTCTACTGGCTGTGGTGGATCTCATACACCCCTGGCGTAGCAATGTTTGTCACCCGCGTTTCCCGCGGTCGTAAGATT -AAAGAAGTTATCTGGGGACTGATCCTCGGCAGCACCGTCGGTTGCTGGTTCTTCTTTGGCGTAATGGAAAGCTATGCCAT -TCATCAGTTTATCAATGGCGTAATCAACGTCCCACAGGTGCTGGAAACACTGGGCGGCGAAACAGCTGTACAGCAAGTTC -TGATGTCGTTGCCAGCCGGTAAATTGTTCCTCGCCGCATACCTGGGCGTGATGATTATTTTCCTTGCCTCGCATATGGAT -GCAGTGGCCTACACCATGGCGGCGACCAGTACGCGTAATCTCCAGGAAGGTGACGATCCTGACCGTGGGCTGCGTCTTTT -CTGGTGCGTGGTGATCACTCTGATCCCGCTTTCCATCTTGTTTACCGGTGCTTCGCTGGAAACGATGAAAACCACCGTCG -TGCTCACAGCCCTTCCCTTCCTCGTCATTTTACTGGTGAAAGTCGGCGGGTTTATTCGCTGGCTGAAACAGGATTACGCC -GACATTCCGGCTCATCAAGTTGAACATTATCTCCCGCAGACACCGGTTGAAGCCCTGGAAAAAACGCCAGTGCTCCCTGC -GGGAACCGTATTCAAAGGCGACAACTGAGCGCCATCATCCTAACGATAAAGGTATCCCTATGAGCAATCTGAGCCCTGAC -TTTGTACTACCCGAAAATTTTTGCGCTAACCCGCAAGAGGCGTGGACCATTCCTGCCCGTTTTTATACCGATCAGAACGC -GTTTGAACACGAAAAAGAGAACGTCTTCGCCAAAAGCTGGATTTGCGTCGCTCACAGCAGCGAACTGGCGAATGCCAATG -ATTATGTGACGCGTGAGATCATTGGCGAAAGCATCGTGCTGGTACGCGGTCGTGATAAGGTTTTGCGCGCGTTCTATAAC -GTGTGTCCGCACCGTGGTCATCAGTTGTTGAGCGGTGAAGGAAAAGCAAAAAATGTGATTACCTGCCCGTATCACGCATG -GGCATTCAAACTCGATGGCAACCTGGCCCATGCACGTAACTGCGAAAACGTCGCCAATTTCGATAGCGACAAAGCGCAAC -TGGTTCCGGTGCGTCTGGAAGAATATGCCGGATTCGTCTTCATCAACATGGACCCCAACGCCACCAGCGTAGAAGATCAA -TTACCCGGCCTGGGCGCGAAAGTGCTGGAAGCCTGCCCGGAAGTCCACGATCTGAAACTGGCGGCCCGCTTTACCACCCG -CACGCCTGCCAACTGGAAGAACATTGTCGATAACTATCTCGAGTGCTATCACTGTGGTCCGGCGCATCCAGGTTTCTCCG -ACTCCGTACAGGTTGATCGTTACTGGCACACCATGCACGGTAACTGGACGCTGCAATACGGTTTCGCCAAACCGTCCGAA -CAGTCGTTTAAATTTGAAGAGGGTACGGATGCGGCATTCCACGGTTTCTGGCTGTGGCCGTGCACGATGCTGAACGTCAC -CCCGATCAAAGGGATGATGACGGTCATTTATGAATTCCCGGTGGATTCTGAAACTACCCTGCAAAACTACGATATTTACT -TCACCAATGAAGAGTTAACCGACGAGCAAAAATCGCTGATTGAGTGGTATCGCGATGTGTTCCGTCCGGAAGATTTACGT -CTGGTTGAAAGCGTACAGAAAGGGCTGAAATCGCGTGGCTATCGTGGTCAGGGGCGCATCATGGCCGACAGTAGCGGTAG -TGGCATTTCCGAACATGGTATCGCCCATTTCCATAATCTGCTGGCGCAGGTGTTTAAGGACTAATGACATCGGCGGCGGT -ATTTTCCGCCGCTGGGCTGATTTTTGATGGAGTACAGCAATGTCAGACTATCAAATGTTTGAAGTACAGGTGAGCCAGGT -TGAACCCCTTACCGAACAGGTGAAACGCTTCACGCTGGTGGCAACCGATGGCAAACCATTACCTGCGTTTACCGGAGGAA -GTCACGTCATTGTGCAGATGAGCGATGGTGATAACCAGTACAGCAATGCGTATTCACTACTGAGTTCGCCGCATGACACC -TCTTGTTATCAGATTGCCGTTCGGCTGGAGGAAAACTCGCGCGGCGGTTCCCGCTTTTTGCATCAGCAGGTAAAAGTGGG -CGATCGGTTAACGATTTCAACGCCTAATAACCTGTTTGCGCTAATTCCCTCAGCCAGAAAGCATCTGTTTATCGCGGGCG -GTATTGGTATCACCCCTTTCCTGTCGCACATGGCAGAGCTGCAACACAGCGACGTCGACTGGCAGCTACATTACTGCTCG -CGAAATCCAGAAAGTTGCGCATTTCGTGATGAGCTAGTCCAGCATCCGCAGGCTGAGAAAGTCCATTTGCATCATTCATC -AACCGGAACACGACTGGAATTAGCGCGATTATTGGCGGATATCGAACCTGGCACACACGTTTATACCTGTGGCCCCGAGG -CGCTAATTGAAGCGGTAAGAAGTGAAGCTGCGCGTCTGGACATCGCCGCCGATACGCTGCACTTTGAGCAATTTGCTATC -GAAGACAAAACCGGCGATGCATTTACCCTGGTGCTTGCCCGTTCCGGAAAAGAGTTTGTGGTGCCGGAAGAGATGACTAT -TTTGCAGGTTATTGAAAATAATAAAGCCGCGAAAGTGGAATGTTTATGTCGTGAAGGGGTATGCGGAACCTGCGAAACAG -CAATACTGGAAGGTGAAGCTGACCATCGGGATCAATATTTTAGCGATGAAGAGCGTGCCAGCCAGCAAAGTATGTTGATC -TGTTGTTCGCGTGCGAAGGGTAAACGCCTGGTGTTGGATTTGTAGTTTGCCGAAGCCGGATGTGGCGCTGAGCGCGCCCA -GTCCGGCTTCGGAAGATTTTACTGCGGATATTCCTGCAATAAATTGTGTAATGCTTCCGCCATCAGCTCACCACGCCAGC -CGGAAATCAGCTCCGGCAAATTGTTCTGCGGTTTCAGTTTCCAGTGCCAGTTCAGCAGTTGGTTGATTTGCCGACGCGAT -GCCAGCAATTCGGCGCTGATCTTATGCGTTTCGCTCACGTCAGTAATCAGCGACTTAATCGCTTTAAACGCTTTACGATA -ACCCGGCATGTCCATCAGGTTAAGCATCGGCTGCGGTAAGGCATCTTCCGGCAATGTCTGCGCTTTTTCCACCAGCGCTA -GCAGCGTTTTACCGTGAAAGCGGATTTCGCTACCGGATAAACCCAGGCTGTCCAGTTCGCCTAAACTTCCCGGCATATAA -CGCGCTACCGACCACAAATGCTCTTCACGCACGACAAAGTTCACCGCCAGATCGCGCTCTCGCGCCTTGCGCAGTCGCCA -GTCGGCTAACAGTTGCAGACAGGCCAGTTGGCGTGTGCGTAATTGCCAGGCATTGGTGATATCACGCCAGGCATCTTCCG -GCGCAACGACTTCCTGACGACGCATTTGCATCAGGCGGCATTCATCCAGCGCCGCAGGTAGCCAGCCGGAGGCCTCCGTT -TCTACCATAAGCTTGGCGGTGATCGGTAACAGATACCAGACATCCGCCGCTGCGTATTCACACTGACGTTCGGTCAGCGG -TCTGGCCAGCCAGTCGGTGCGCGATTCACTCTTGTCCAGCGTAACGCCGGAATACTCTTCCACCATGGAAGCGAAACCCC -ATGACATCGGGCGTCCGCAGAAGGCAGCAAGGATTTGCGTGTCAATCAAGGGTTGTGGTAATTCGCCAAAGACATTGAGG -AACACTTCCAGATCTTCACTGCCTGCATGGAGAAATTTTGTGATGGACGGATCGCGCAGGATCGCTTTCAGCGGTGACCA -GTCGGTGATCCCGAGTGGATCGATTAGCGCCAGATGCTCGCCATCGAAAAGTTGAATCAACCCCAGCTGCGGGTAATAAG -TGCGCGTACGAACAAATTCAGTATCCAGGGCTATCGCCGGAAAGGCACGGACGGCTTCACACAAAGAAGCCAGCGCATCG -TCCGTGGTAATCATTTGGTAATTCAAATTGTTTTCTCTTTAGTGGGCGTCAAAAAAAACGCCGGATTAACCGGCGTCTGA -CGACTGACTTAACGCTCAGGCTTTATTGTCCACTTTGCCGCGCGCTTCGTCACGTAATTCTCGTCGCAAAATTTTTCCGA -CGTTAGATTTCGGTAACTCATCACGAAACTCCACCAGCTTCGGTACTTTGTATCCCGTGAGCTGACGGCGGCAAAAAGTC -ACCAGTGACTCTTCGGTAAGCGATGGATCTTTTTTCACTACGAAGATTTTCACCGCTTCACCACTGGAGCCGGAAGGTAC -GCCAACAGCCGCGACTTCCTGTACGCCAGGATGCTGCATGACGACATCTTCAATCTCGTTGGGATAGACGTTAAAACCGG -AAACCAGAATCATGTCTTTTTTACGATCGACAATGCGCAGGAATCCTTCTTCATCCATTACCGCGATGTCGCCGGTGTGT -AACCAGCCATTTTTGATGATTTCATCGGTAGCATCGGGACGCTGCCAGTAACCCAGCATCACCTGCGGTCCTTTGACACA -AAGCTCACCCGGTTGACCTGGTGGTACTTCATTATCATCATCATCCACCAGTTTGGCTTCCGTCGACGGCACCGGCAAAC -CGATGCTACCACTATGATAATCAATATCATATGGGTTAACGCTGACCAGCGGCGCACACTCGGTAAGGCCATAGCCTTCC -AGCAGATACTGTCCGGTCAGTTTCACCCAACGCTCTGCCACCACTTGCTGCACTGGCATCCCACCGCCTGCGGAAAGATG -CAGACTGGAGAAATCCAGCTGCTGGAACTCTTTATTGTTCAGCAACGCATTGAACAAGGTGTTAACGCCCGTGATAGCGG -TAAACGGATATTTCGCTAACTCTTTTACCAACCCTGGAATATCGCGCGGGTTAGTGATAAGCAGGTTCTGCCCACCCAGT -TCGATAAACAGCAGGCAGTTAATGGTCAGGGCAAAAATGTGATACAGCGGCAGCGCCGTCACCACCAGCTCTTTGCCCGG -ATGCAACAGCGGACCATAGGTCGCGTTAACCTGTTCCAGGTTCGCCAGCATATTGCGGTGAGTCAGCATCGCGCCTTTCG -CCACACCAGTGGTGCCGCCGGTGTATTGCAGAAAAGCTAAATCTTCCGGCACCAGTTCGGGTTTGACGTACTGCATCCGG -TAGCCGTTATGCAGTGCGCTACGAAATGAAATGGCATCTGGCAGATGGTATTTCGGCACCAAACGCTTGATGTATTTAAC -AACGAAATTGACTACCGTGCCTTTTGCCGTAGATAGCTGATCGCCCATACGGGTCAGAATTACGTGCTGAACGGCGGTTT -TATCAACCACTTTTTCCAGTGTGTGAGCAAAGTTAGACACGATAACAATCGCCGATGCGCCGCTATCGTTAAGCTGATGC -TCAAGCTCACGCGGGGTATACAACGGGTTAACGTTTACGACGATCATCCCGGCACGCAAAATGCCAAACAGCGCCACCGG -ATATTGCAATAAATTAGGCATCATCAACGCAACGCGATCGCCTTTCTTCAGCCCCAACCCTTGTTGCAAATAAGCGGCAA -ACGCGCGACTGCGTTCTTCCAGCTTGCGGAAGGTCATTACCTCCCCCATATTCACAAACGCAGGTTGATCGGCGTAGCGC -GCGACCGACTGCTCAAACATATCTACCAGAGATTGATAACGGTCAGGGTTGATCTCCGTCGGAACGTCCGCGGGATAACG -GTTAAGCCAAACCTTCTTCAATTCTTCACCTCTAAAATGCGTGTTCGTCGTCATCGCAACCCCAAATGATATACATGCCG -TTAACATAATATTAACTCATCATACCAGCTTGATAATTACCCAACGAAAAGGTTGCGAAGCGCGTCACTATTTATTTTTA -TCTTTACCGTAAGAATGCAGAAACAGCGGACCAGCCGCTGTTTCTTTTTCTTTAAAAACAAGCAATTATTCAGTTACAAC -TGTTTGTACTCTCGCGGGGCCGGGATTATACCAGCCCCATCCGCCGTAGCCATAGGGCCAGCCACGACCGCCATAAAACC -ATGGATCAATCGGCTGAGGCGGCATAATCACCTGCTGGGTTAAATGCCAACGTTTGTAACCCGTTACTTGCATCACCATA -AATTTATAGGGCGTATTGCCGATTTTGCCGTCAACCGCACCAGTGATTGGCCCGACTACCGTAACCAGTTGTCCACGGAA -ATCCACCGGGTCCAGAAAACCGTTCACATCGGCATAAATGCGACCGCGAGAAGGTTCTCCCAGCGTCGGTCTGGCTCCGC -TGTCCAGCGGTACGGTAGCAATTTCCAGGCGAGTTTTCCCTTGCTGGTTTTGTACCGCAACCACTTTGCCACCAAAGCGT -GCCTCCTGACCAACGTACAGCTGCGGCGCACTCATCACCCGAACTAAATCTTGTTGCGGCGTGGGACTGCTGCCTTTAAT -GGCGTCCGGCACAGTGACACAACCGCTCAGCATTAGCGCAAACGTACCTGCCAGTATGCCTTTGATAACATTCTTTTGAA -CCGCCATGGTGCGACTCCTTTTTTTCTCAGGGCATACTCTTAAGATTCATTCTTTGCCCGGAAGTTTCTTCCATGCGACG -TTGTTACGTAAATAAACCGGTTCGGCATGTTCCACCGCCACCGTTTTACCCTCAGCAAACATCTGACACGCAATCGGCAG -CATATCTTCAGCAGCAGGCAGTAACACTTCGCCATCGCGCAAAACCAGCCCGCTCTCTTTACCGAGATCCGGCCAAGCTT -GCCAGCCCGTCCCTACCGTCACCCATTCGCCGGAAAGCTGTTGCATTCGTTCATGGACGATTTCGGGTTTGAGTACGGCT -TCGGTTTCTTCACCGTGCCAGATACCGTTTTCATCACGCTGATATTCGGCCCAGTAAACTTCGCCCATTCGCGCGTCAAT -GGCTGCCAGCACGCGGGTTGCGCCGTTTTTGCGCCACGCCCCTTGCGCCATCGTCATTAGCGTGGAGACGCCAATCATCG -GTAATTCCGCGCCAAGCGCCAGCCCTTGCGCGATGCCAATACCAATGCGCACGCCAGTAAAGCTACCGGGGCCGCGCCCG -TAAGCCAGAGCGTTAATATCAGTCAGGGAAGTTCCGCTGGTGGTCAGGATATCCTGCACCATCGGTAAGATTCGTTGAGT -ATGTTCACGAGGGCAAAGCTCAAAATGAGCGTTGACAGTACCGTCGTTCCACAGGGCGACAGAGCAGGCCTCTGTCGCGG -TATCGATAGCCAGAATTCGCATGGGTCTTCGTGCTTAGATCAATAAAAAGGCGCGCATCATACCATACTCCGTAACAAAT -TACCTGGAGGATGGTATCGCAAGGAAACGAACCGCACGGGCAATGTCACGGGTGCGTGGCGCGGGCGGCAGACTGGCGAG -AAACGTCGCGCCGTAAGGACGCATCACCAGCCGATTGTCACAAATCACCAGCACGCCACGATCGTCGGCGTCGCGAATCA -GTCGCCCTACCCCCTGTTTGAGAGTAATGACGGCATCTGGTAGTTGCACTTCATCGAACGGGTCGCCACCGCGCAAACGA -CAATCTTCCATGCGCGCTTTTAACAGTGGATCATCCGGCGAGGTAAACGGCAATTTGTCGATAATTACCAATGACAATGT -ATCGCCACGCACGTCCACCCCTTCCCAGAAACTGCTGGTTGCCACAAGAAGCGCATTACCGGCGCTGACAAATTGCTGCA -ACAGTTGCCCTTTGCTGGTTTCCCCCTGCAACAATACAGGAAGCGTCATGGTAGCGCGGAACTGCTCGGCCAGATCGCGC -ATCATGGCGTGCGAGGTACAAAGCATAAAACAACGACCGTTGTTAGCTTCGATGATCGGTCGCAGCATTGCCGCTAACTG -GCGAGCAGAACCTGGCTGGTTGGTTTGCGGCAGATTGCGCAGCACACAGAGTAACGCCTGGCGGCTGTAATCAAATGGGC -TGGGCAACAGCAACGACTCGGCCTGTTCGATGCCAAGCCGCGAGGTGAAATGATGCAGATCGTCGTTCACCGACAGCGTT -GCTGAGGTGAAGATCCAGCTACCGGGTTTTTGCGCCATTAACTCTTTGAATTTATCCGCCACGCTGAGCGGCGTGAGAGC -CAGAGTAAAATGGCGCGAAGTGCATTCGTACCAGTAGCTGTAGCCCGGCTGATTGATCTCTTTTAGCCGCTTCAGCCGTG -TGCGATACAACGTGGCGCGCTCAAATGCCGCATCCAGCAAGGCGGAACGCCCCAGTGACAGTTTCGCCACGTCATAACAA -AGTTCCAGGGTGTCATCGAGCAGTAAAAATGCCCGCTGAATTTGCGGATTAGCTAACAGCTCACGCAGGTTACCGCGATA -ACCTGGCTCACCGAGTTGCAGACGAAAATCCTGCGCACTCTGGGCAAGACGATCAGCGCACTTTTGTAACTGCTGGGTGT -CTTTTAATTCGGTGCGGTAGGCGATGGTGATGTCTTTTGCCAGGTCGAGCAGTTGTCGACTGGAGAGTGACTGACCAAAA -TACTGGCTGGCAATGTCCGGTAGCTGGTGGGCTTCGTCGAAGATCATGACGTCCGCTTCCGGGATCAGTTCGCCAAATCC -ACTCTCTTTAACCACCATATCCGCCAGAAAGAGATGATGGTTTACCACCACCACATCGGCGTCCATCGCTTTTTTACGTG -CTTTGACCACAAAGCAATCTTTATACATCGGGCAGTCGCTGCCAAGACAGTTGTCGTTGGTGCTGGTGACCAGCGGCCAC -GCCTGTGAATCTTCCGCCACGCTGACGCAGGTGCTGATATCACCATCGACTGTTTGATTAGACCAGGAGCGCAGCAGGAT -CACATCGCTTAAGATTTGTACCGGCAGATCGCCCCCCGCCAGCGCCTGCTGTTCGAGACGTTCGAGGCAGAGGTAGTTTG -AGCGCCCTTTCAGCAGCGCCACGTTGCCCGTATATTTCAATGCCTTTGAGACTGTTGGCAAATCGCGGCTGTAGAGCTGA -TCCTGCAACGCTTTTGAGCCGGTCGAGATAATGACTTTCTTTTTCGCCCGCAGCGCAGGAGCCAGGTAAGCGTAGGTTTT -GCCCGTACCGGTTCCTGCTTCCACCACCAGCGGCTGGCCTTTTTCTATCGCCTGGGTGACGGCTACCGCCATCTGTCGCT -GTGGTTCTCGCGGCTTAAAGCCTGGTATCGCTTTCGCCAGCTGACCGTCTGGTGCAAAATCGTCCGTCACACTACCCCCT -GTTGATTTGAACAGGGATTATGTCAGGATGAGGGCGCTTTCGCCAGTTGAAGTGGTGACGGCGACCTCACATTGTGGCAG -TCTTTGCAGCACGAAAATGGAAGTATAATGAGGACAAAATGATGACTATCGTTCGTATCGATGCTGAAGCCCGCTGGTCT -GATGTAGTAATCCACAACAACACGCTCTACTACACTGGTGTACCGGAAAACCTCGACGCCGATGCCTTTGAGCAAACCGC -CAACACGCTGGCACAGATTGACGCCGTGCTGGAAAAACAGGGCAGCAATAAATCGAGCATTCTGGATGCCACCATTTTCC -TGGCCGATAAAAACGACTTCGCGGCGATGAATAAAGCGTGGGATGCTTGGGTTGTCGCGGGTCATGCGCCGGTGCGCTGC -ACGGTACAAGCGGGTTTGATGAACCCGAAGTATAAAGTTGAAATTAAGATTGTGGCTGCGGTGTAAGCTTTATCGAAGCA -AAATAAGTCAGACGATAATTTATCGATAATACTGGTCGGTTTTACATAAATCGACCAGAGAATAAGATATTACTGTTGAT -GCTTCTGCTAATTCATTATTTATATTTATAATTTCAATTTTATCTATAAAACTAACTATATAAATAAACATAAACATGCC -GTTGTGTTCGCCCTTTGATTAGCAACTCTGGTTTTCTTTCTTAGCTGAACAATCTGGTTATAGCGTGCGGACTGACCGTT -AAATTTCTCCATCTTACTGGATAACACACCATGAGCTGCTACCTTTAAAACACCTGAATGTCAACAGGTTAACTCGTGCC -ATATCGTTATAATCCCTTTGATATTAGATGCAAATTAAGGTCATATATAGCCTTATCGATAACATGGTTAATTTTAAGGA -TAAGAATATGCCTGCTGTAATAGATAAAGCCCTGGATTTCATTGGTGCCATGGATGTATCAGCGCCAACACCAAGTTCGA -TGAATGAAAGCACGGCGAAGGGAATCTTTAAATATTTAAAAGAACTGGGAGTACCCGCGAGTGCCGCTGATATTACGGCG -CGAGCTGACCAGGAAGGCTGGAACCCTGGGTTCACGGAAAAAATGGTTGGATGGGCAAAAAAAATGGAGACAGGTGAACG -TTCTGTGATTAAAAATCCTGAATACTTTTCAACATATATGCAGGAAGAACTAAAAGCACTGGTCTGAGTTAAATTTATAT -CAGCATAAATGGGTCAGGACGCTTTTAATCACATATAAAAAGCGTCCTTTTTCTCACAATCAAATGATCATCGGCTTCTA -TAACGAAATCGATACGGATTAGTGTGTTACTCGTCTTCATCCTCAAAACGCGCCACGATTCGCTCGCCGGAGTGGTTGGC -ACGCAGCTCTTCTGCCACCAGCGCGATTGCCTGGCCGCTGCTCATCCCTTGTGCCATCAGTTCCTGGATCCGCTCGACAG -CTTTTTGCTGCTGTTCATGGGTGAGTGAAGGTAAACCTGCAAACATTGTTAACTCCTGCTAAATTGTTGGCGCTAATTAT -TTCATGCTACCCGGCACATAGCCAGTAGAGTCAGGACTGATGAAGACGTTATCTCCCGCTGTGATTACTTTACCCTGGCG -TCAGGACGCCGCTGAATTTTATTTCTCCCGCTTAAGCCACCTGCCGTGGGCGATGCTTTTACACTCCGGCTATGCCGATC -ATCCGTATAGCCGCTTTGATATTGTGGTCGCCGAGCCGATTTGCACTTTAACCACTTTCGGTAAAGAAACCGTTGTTAGT -GAAAGCGAAAAACGCACAACGACCACTGATGACCCGCTACAGGTGCTCCAGCAGGTGCTGGATCGCGCAGACATTCGCCC -AACGCATAACGAAGATTTGCCATTTCAGGGCGGCGCACTGGGGTTGTTTGGCTACGATCTGGGCCGCCGTTTTGAGTCAC -TGCCAGAAATTGCGGAACAAGATATCGTTCTGCCGGATATGGCAGTGGGTATCTACGATTGGGCGCTCATTGTCGACCAC -CAGCGTCATACAGTTTCTTTGCTGAGTCATAATGATGTCAATGCCCGTCGGGCCTGGCTGGAAAGCCAGCAATTCTCGCC -GCAGGAAGATTTCACGCTCACTTCCGACTGGCAATCCAATATGACCCGCGAGCAGTACGGCGAAAAATTTCGCCAGGTAC -AGGAATATCTGCACAGCGGTGATTGCTATCAGGTGAATCTCGCCCAACGTTTTCATGCGACCTATTCTGGCGATGAATGG -CAGGCATTCCTTCAGCTTAATCAGGCCAACCGCGCGCCATTTAGCGCTTTTTTACGTCTTGAACAGGGTGCAATTTTAAG -CCTTTCGCCAGAGCGGTTTATTCTTTGTGATAATAGTGAAATCCAGACCCGCCCGATTAAAGGCACGCTACCACGCCTGC -CCGATCCTCAGGAAGATAGCAAACAAGCAGTAAAACTGGCGAACTCAGCGAAAGATCGTGCCGAAAATCTGATGATTGTC -GATTTAATGCGTAATGATATCGGTCGTGTTGCCGTAGCAGGTTCGGTAAAAGTACCAGAGCTGTTCGTGGTGGAACCCTT -CCCTGCCGTGCATCATCTGGTCAGCACCATAACGGCGCAACTACCAGAACAGTTACACGCCAGCGATCTGCTGCGCGCAG -CTTTTCCTGGTGGCTCAATAACCGGGGCTCCGAAAGTACGGGCTATGGAAATTATCGACGAACTGGAACCGCAGCGACGC -AATGCCTGGTGCGGCAGCATTGGCTATTTGAGCTTTTGCGGCAACATGGATACCAGTATTACTATCCGCACGCTGACTGC -CATTAACGGACAAATTTTCTGCTCTGCGGGCGGTGGAATTGTCGCCGATAGCCAGGAAGAAGCGGAATATCAGGAAACTT -TTGATAAAGTTAATCGTATCCTGAAGCAACTGGAGAAGTAAGACGTGGAATACCGTAGCCTGACGCTTGATGATTTTTTA -TCGCGCTTTCAACTTTTGCGCCCGCAAATTAACCGGGAAACCCTAAATCATCGTCAGGCTGCTGTGTTAATCCCCATCGT -CCGTCGACCGCAACCGGGGTTGTTGCTGACTCAGCGTTCGATTCATCTGCGTAAACACGCTGGACAAGTGGCATTCCCTG -GAGGTGCAGTCGATGACACGGACGCATCAGCTATCGCCGCCGCGCTGCGCGAAGCTGAAGAAGAGGTCGCTATACCGCCT -TCCGCCGTTGAAGTTATCGGCGTGCTGCCGCCCGTCGATAGCGTCACTGGCTACCAGGTAACCCCAGTGGTCGGCATTAT -CCCGCCCGATCTGCCGTATCGCGCCAGTGAAGATGAAGTCTCGGCGGTGTTTGAAATGCCGCTCGCCCAGGCATTACATC -TGGGTCGTTATCACCCTTTAGATATCTACCGCCGTGGTGATTCACATCGGGTATGGCTGTCCTGGTACGAACAGTATTTT -GTATGGGGAATGACCGCAGGCATAATTCGTGAGCTGGCGCTGCAAATTGGTGTGAAACCCTGACTATACTTATCTTTACA -TCTACAAAACACTACTTGAGACAATCATCGCAATATTAGTTAAATCGCGGTTTTTGATTAGTTTAATTCATGTGAATAGT -TAAGCCAGTCGCCGCGTTCCCTCTTACACTATGCGCTGTTATTAGTTCGTTACTGGAAGTCCAGTCACCTTGTCAGGAGT -ATTATCGTGATTAGTCTATTCGACATGTTTAAGGTGGGGATTGGTCCCTCATCTTCCCATACCGTAGGGCCTATGAAGGC -AGGTAAACAGTTCGTCGATGATCTGGTCGAAAAAGGCTTACTGGATAGCGTTACTCGCGTTGCCGTGGACGTTTATGGTT -CACTGTCGCTGACGGGTAAAGGCCACCACACCGATATCGCCATTATTATGGGTCTTGCAGGTAACGAACCTGCCACCGTG -GATATCGACAGTATTCCCGGTTTTATTCGCGACGTAGAAGAGCGCGAACGTCTGCTGCTGGCACAGGGACGGCATGAAGT -GGATTTCCCGCGCGACAACGGGATGCGTTTTCATAACGGCAACCTGCCGCTGCATGAAAACGGTATGCAAATCCACGCCT -ATAACGGCGATGAAGTCGTCTACAGCAAAACTTATTATTCCATCGGCGGCGGTTTTATCGTCGATGAAGAACACTTTGGT -CAGGATGCTGCCAACGAAGTAAGCGTGCCGTATCCGTTCAAATCTGCCACCGAACTGCTCGCGTACTGTAATGAAACCGG -CTATTCGCTGTCTGGTCTCGCTATGCAGAACGAACTGGCGCTGCACAGCAAGAAAGAGATCGACGAGTATTTCGCGCATG -TCTGGCAAACCATGCAGGCATGTATCGATCGCGGGATGAACACCGAAGGTGTACTGCCAGGCCCGCTGCGCGTGCCACGT -CGTGCGTCTGCCCTGCGCCGGATGCTGGTTTCCAGCGATAAACTGTCTAACGATCCGATGAATGTCATTGACTGGGTAAA -CATGTTTGCGCTGGCAGTTAACGAAGAAAACGCCGCCGGTGGTCGTGTGGTAACTGCGCCAACCAACGGTGCCTGCGGTA -TCGTTCCGGCAGTGCTGGCTTACTATGACCACTTTATTGAATCGGTCAGCCCGGACATCTATACCCGTTACTTTATGGCA -GCGGGCGCGATTGGTGCATTGTATAAAATGAACGCCTCTATTTCCGGTGCGGAAGTTGGTTGCCAGGGCGAAGTGGGTGT -TGCCTGTTCAATGGCTGCTGCGGGTCTTGCAGAACTGCTGGGCGGTAGCCCGGAACAGGTTTGCGTGGCGGCGGAAATTG -GCATGGAACACAACCTTGGTTTAACCTGCGACCCGGTTGCAGGGCAGGTTCAGGTGCCGTGCATTGAGCGTAATGCCATT -GCCTCTGTGAAGGCGATTAACGCCGCGCGGATGGCTCTGCGCCGCACCAGTGCACCGCGCGTCTCGCTGGATAAGGTCAT -CGAAACGATGTACGAAACCGGTAAGGACATGAACGCCAAATACCGCGAAACCTCACGCGGTGGTCTGGCAATCAAAGTCC -AGTGTGACTAATACTTCTTACTCGCCCATCTGCAACGGATGGGCGAATTTATACCCGCTTTCTCGTCTGCTGTAATATTC -CCCACTACACTTCCACTGTTGCGTCAGGCGTTTGTCGCCATACGCTTACAGGGTGGCCCGCATGCAAAAAGCACAACGGA -TCATTAAAACCTATCGTCGTAATCGAATGATTGTTTGTACGATTTGCGCACTCGTTACGCTCGCTTCGACCCTGAGCGTG -CGATTTATTTCACAGCGTAACTTAAATCAACAACGGGTAGTACAATTCGCCAATCACGCTGTAGAGGAATTAGATAAAGT -ACTGCTTCCCCTACAGGCAGGTAGCGAAGTCTTGCTTCCGCTGATTGGTCTGCCCTGCTCTGTCGCCCATTTGCCATTAC -GTAAACAGGCGGCAAAACTCCAAACTGTGCGATCCATTGGCCTGGTGCAAGACGGCACACTTTATTGCTCCAGCATTTTT -GGTTATCGCAATGTGCCCGTCGTGGACATTCTGGCTGAACTTCCTGCACCGCAACCACTTTTACGCCTGACGATCGACCG -TGCCCTGATTAAAGGCAGTCCGGTTTTGATTCAATGGACGCCTGCAGCGGGCAGTAGCAATGCTGGGGTCATGGAGATGA -TTAACATCGACTTACTGACGGCAATGCTGCTTGAGCCACAACTGCCGCAAATCAGTAGCGCCAGCCTGACGGTGGACAAA -CGGCATTTGCTCTATGGTAATGGGCTGGTAGATTCCCTTCCGCAACCTGAAGACAATGAAAACTATCAGGTTTCTTCGCA -ACGCTTTCCTTTTACCATTAACGTTAATGGTCCGGGGGCTACGGCGCTGGCATGGCACTATCTTCCAACACAATTACCGC -TGGCGGTGCTGCTAAGTTTACTGGTGGGCTACATCGCCTGGCTGGCGACCGCTTACCGAATGAGCTTTTCCCGCGAAATC -AATCTGGGCCTGGCGCAACATGAGTTCGAATTGTTCTGTCAGCCTTTGCTTAATGCGCGCAGCCAGCAATGTATTGGTGT -AGAGATTTTGCTGCGCTGGAACAATCCGCGTCAGGGCTGGATTTCACCGGATGTGTTTATTCCTATCGCGGAAGAACATC -ATTTAATTGTGCCACTGACCCGCTATGTGATGGCAGAAACCATTCGTCAGCGCCATGTTTTCCCGATGAGTAGTCAGTTT -CATGTTGGCATTAACGTCGCACCCAGCCATTTTCGCCGTGGTGTGCTGATAAAAGATCTCAATCAGTACTGGTTTAGCGC -TCACCCGATTCAGCAACTGATCCTCGAAATCACCGAACGCGATGCCTTACTGGATGTTGATTATCGGATTGCCCGCGAGC -TGCATCGTAAAAACGTCAAACTGGCGATTGATGACTTCGGCACCGGCAACAGCTCGTTTTCCTGGCTTGAAACATTACGT -CCTGACGTGCTGAAAATTGATAAGTCATTTACCGCAGCTATAGGTTCTGACGCGGTTAACTCGACGGTGACCGATATCAT -CATCGCGCTGGGGCAAAGACTGAATATTGAACTGGTGGCGGAGGGCGTGGAAACGCAAGAACAGGCGAAGTATTTGCGCC -GTCATGGCGTGCATATTTTGCAAGGGTATTTGTACGCACAGCCGATGCCGCTACGTGATTTTCCCAAATGGCTGGCGGGC -AGCCAACCGCCGCCCGCCCGGCATAATGGACATATCACGCCCATTATGCCGTTACGTTAACGCTTACTCATCTTCATCGT -GCGCCGGTTGCTCTTTAACAATGCGAACCAGATCAACACGATAATCATTGGCTTCAATGATGGTGATATGCAGTGGCCCT -ACATCAATCACATCGCCCACACGGGGAATGTGACCATTTGCCGAGATCACGAGGCCCGCGACCGTCGCGATATCATCGTC -ATCGGCAAGGTGCTCAACATCAAGCGCCTGCTGCAAGGCATGCAAATCTGTACCGCCTTTTACCAGCCAGCCGTCACCAT -CAGTAATGATTTCCGGCGTTTCGTCAGCGTCCGGGAATTCACCCGCAATGGCTTCCAGCACATCCAGCGGCGTGACCAGA -CCTTGTACCACACCAAACTCGTTGGTCACGATAACAAAGCTCCCGCGAGCACGACGCAGCACGCCCAACAGGTTGATCGG -ATCGAGGGTTTCCGGGACGATAATCGCCGGAGACGCCGAAGCAATCGCCGCCACATCAACGCCCTCTTCCAGCGCCACCA -GCAGTTCTTTAGCACGTACAATACCGATGATTTCATCCAGTTCACCGCGACATACCGGGAACAGACTGTGCGGTGAAGAG -AGCAGTTGCTCGCGGATTTCATCGACCCCGAGATTAGCGTCAACCCAGCTTATTTCACCGCGCGGCGTCATGATCCCGCG -CAGAGAACGCGACGCCAGCGTCAGTACGCCGTTAATCATGTAACGTTCTTCTTCGGCAAATGCACCTTCCGGGATCGGCA -TCGGCATCGGGTTATCGGCATCGTGCTGAACATTGGCCTGACGTTTCCCGCCCATCAAACGCAGGATGGCATCGGCAGTA -CGCGCTCGCAGCGGCAAAGTCGACTGGTGGCGAATAAAGTTGCGACGCGCAATCTGGTTAAACACTTCGATGATGATCGA -GAAGCCAATCGCGGCATACAGGTAACCTTTCGGAATGTGGAAACCGAAACCTTCTGCCACCAGACTCAGACCAATCATTA -ACAGGAAGCTCAGACAGAGCACCACCACCGTGGGGTGCTGGTTAACGAATCGCGTCAGCGGTTTGGATGCCAGCAACATA -ACCGCCATCGCAATCACTACCGCCGCCATCATCACCGGCAGATGGTTAACCATCCCTACTGCAGTAATTACCGCATCCAA -CGAGAAGACGGCGTCAAGGATGACAATCTGTGTGACGACCACCCAGAAACTGGCGTAGCCTTTACCGTGGCCGGAATCAT -GATCGCGGTTTTCCAGCCGTTCATGCAGTTCGGTTGTTGCTTTGAACAGCAAGAATATCCCCCCGAACAACATAATCAGG -TCGCGTCCGGAGAAGGAGAAATCCATGACGGTAAATAGCGGTTTGGTCAGCGTGACCATCCATGAAATCAGCGACAGCAG -CCCCAGACGCATAATCAGCGCCAGTGATAACCCCAGCAAACGCGCTTTATCGCGTTGTTTTGGCGGCAGTTTGTCAGCAA -GAATGGCGATGAAGACCAGGTTATCGATACCCAGCACAATTTCGAGAACAACAAGCGTGAGTAGCCCCGCCCAAATTGAG -GGGTCCATTAAGAATTCCATGACAAGCTCCTGCTTAAGGAATAGCTATTCGACGCCAGAAATAATGCAGGCGTAACGACA -AAATGCAAACGAAAGGTGCGGCATAGAGTGCCAGAAAGGCAGGCGTTAAAAGGCCTGATGCTGAAATGACGTCGGTGACG -ATCCATACTGCGGGCTACTGCCCTATACTCCATGGTTGTTAAACGGGAGTTAAACATATCAGAGACGCCTCTGATTTGGC -AAAGATTTACCTTCCTTTGCAAACGAATGTGACAAGGATATTTTACCTTTCGAAATTTCTGCTAATCGAAAGTTAAATTA -CGGATCTTCATCACATAAAATAATTTTTTCGATATCTAAAATAAATCGCGAAACGCAGGGGTTTTTGGTTGTAGCCCTTA -TCTGAATCGATTCGATTGTGGACGACGATTCAAAAATACATCTGGCACGTTGAGGTGTTAACGATAATAAAGGAGGTAGC -AAGTGACCATTGCTATTGTTATAGGCACACATGGTTGGGCTGCAGAGCAGTTGCTTAAAACGGCAGAAATGCTGTTAGGC -GAGCAGGAAAACGTCGGCTGGATCGATTTCGTTCCAGGTGAAAATGCCGAAACGCTGATTGAAAAGTACAACGCTCAGTT -GGCAAAACTCGACACCACTAAAGGCGTGCTGTTTCTCGTTGATACATGGGGAGGCAGCCCGTTCAATGCTGCCAGCCGCA -TTGTCGTCGACAAAGAGCATTATGAAGTCATTGCAGGCGTTAACATTCCAATGCTCGTGGAAACGTTAATGGCCCGTGAT -GATGACCCAAGCTTTGATGAACTGGTGGCACTGGCAGTAGAAACAGGCCGTGAAGGCGTGAAAGCACTGAAAGCCAAACC -GGTTGAAAAAGCCGCGCCAGCACCCGCTGCCGCAGCACCAAAAGCGGCTCCAACTCCGGCAAAACCAATGGGGCCAAACG -ACTACATGGTTATTGGCCTTGCGCGTATCGACGACCGTCTGATTCACGGTCAGGTCGCCACCCGCTGGACCAAAGAAACC -AATGTCTCCCGTATTATTGTTGTTAGTGATGAAGTGGCTGCGGATACCGTTCGTAAGACACTGCTCACCCAGGTTGCACC -TCCGGGCGTAACAGCACACGTAGTTGATGTTGCCAAAATGATTCGCGTCTACAACAACCCGAAATATGCTGGCGAACGCG -TAATGCTGTTATTTACCAACCCAACAGATGTAGAGCGTCTCGTTGAAGGCGGCGTGAAAATCACCTCTGTTAACGTCGGT -GGTATGGCATTCCGTCAGGGTAAAACCCAGGTGAATAACGCGGTTTCGGTTGATGAAAAAGATATCGAGGCGTTCAAGAA -ACTGAATGCGCGCGGTATTGAGCTGGAAGTCCGTAAGGTTTCCACCGATCCGAAACTGAAAATGATGGATCTGATCAGCA -AAATCGATAAGTAACGTATTGTGTTGATTATCACTCAGTTTTCACACTTAAGTCTTACGTAAACAGGAGAAGTACAATGG -AGATTACCACTCTTCAAATTGTGCTGGTATTTATCGTAGCCTGTATCGCAGGTATGGGATCAATCCTCGATGAATTTCAG -TTTCACCGTCCGCTAATCGCGTGTACCCTGGTGGGTATCGTTCTTGGGGATATGAAAACCGGTATTATTATCGGTGGTAC -GCTGGAAATGATCGCGCTGGGCTGGATGAACATCGGTGCTGCAGTTGCGCCTGACGCCGCTCTGGCTTCTATCATTTCTA -CCATTCTGGTTATCGCAGGTCATCAGAGCATTGGTGCAGGTATCGCACTGGCAATCCCTCTGGCCGCTGCGGGCCAGGTA -CTGACCATCATCGTTCGTACTATTACCGTTGCTTTCCAGCACGCTGCGGATAAGGCTGCTGATAACGGCAACCTGACAGC -GATTTCCTGGATCCACGTTTCTTCTCTGTTCCTGCAAGCAATGCGTGTGGCTATTCCGGCCGTCATCGTTGCGCTGTCTG -TTGGTACCAGCGAAGTACAGAACATGCTGAATGCGATTCCGGAAGTGGTGACCAATGGTCTGAATATCGCCGGTGGCATG -ATCGTGGTGGTTGGTTATGCGATGGTTATCAACATGATGCGTGCTGGCTACCTGATGCCGTTCTTCTACCTCGGCTTCGT -AACCGCAGCATTCACCAACTTTAACCTGGTTGCTCTGGGTGTGATTGGTACTGTTATGGCAGTGCTCTACATCCAACTTA -GCCCGAAATACAACCGCGTAGCCGGTGCGCCTGCTCAGGCAGCTGGTAACAACGATCTCGATAACGAACTGGACTAACAG -GTGAGCGAAATGGTTGATACAACTCAAACTACCACCGAGAAAAAACTCACTCAAAGTGATATTCGTGGCGTCTTCCTGCG -TTCTAACCTCTTCCAGGGTTCATGGAACTTCGAACGTATGCAGGCACTGGGTTTCTGCTTCTCTATGGTACCGGCAATTC -GTCGCCTCTACCCTGAGAACAACGAAGCTCGTAAACAAGCTATTCGCCGTCACCTGGAGTTCTTTAACACCCAGCCGTTC -GTGGCTGCGCCGATTCTCGGCGTAACCCTGGCGCTGGAAGAACAGCGTGCTAATGGCGCAGAGATCGACGACGGTGCTAT -CAACGGTATCAAAGTCGGTTTGATGGGGCCACTGGCTGGTGTAGGCGACCCGATCTTCTGGGGAACCGTACGTCCGGTAT -TTGCAGCACTGGGTGCCGGTATCGCGATGAGCGGCAGCCTGTTAGGTCCGCTGCTGTTCTTCATCCTGTTTAACCTGGTG -CGTCTGGCAACCCGTTACTACGGCGTAGCGTATGGTTACTCCAAAGGTATCGATATCGTTAAAGATATGGGTGGTGGCTT -CCTGCAAAAACTGACGGAAGGGGCGTCTATCCTCGGCCTGTTTGTCATGGGGGCATTGGTTAACAAGTGGACACATGTCA -ACATCCCGCTGGTTGTCTCTCGCATTACTGACCAGACGGGCAAAGAACACGTTACTACTGTCCAGACTATTCTGGACCAG -TTAATGCCAGGCCTGGTACCACTGCTGCTGACCTTTGCTTGTATGTGGCTACTGCGCAAAAAAGTTAACCCGCTGTGGAT -CATCGTTGGCTTCTTCGTCATCGGTATCGCTGGTTACGCTTGCGGCCTGCTGGGACTGTAAGACTGTTGTACACTACCGG -GGCCTTTTGGCCCCGTTTTTTTATCTGGAGGATTAATGACAATCACGGACCTGGTACTGATTCTTTTCATCGCCGCACTC -CTGGCCTTCGCGATCTACGATCAGTTCATCATGCCCCGCCGTAACGGCCCCACCCTGCTGGCAATTCCTTTGCTCCGGCG -TGGTCGCATCGATAGCGTTATCTTCGTCGGATTGATTGTCATTCTTATCTATAACAACGTCACGAATCATGGTGCGTTAA -TAACGACATGGTTATTAAGCGCACTGGCTCTGATGGGTTTTTATATATTCTGGATCCGCGTTCCGAAGATCATCTTTAAA -CAAAAAGGTTTTTTCTTCGCCAATGTCTGGATTGAATATAGCCGAATCAAAGCGATGAACTTGTCGGAAGATGGCGTGTT -GGTGATGCAATTAGAACAGCGTCGGCTGTTAATCCGCGTTCGAAATATCGACGATCTGGAAAAAATTTATAAGCTTCTCG -TTTCAACTCAATAAGTTATGAATTTAGCCAAAGCTATGTTTAGTGTATTTTTAATAATCAGACATAGCTTAGGCTATATT -ACCTCTTCCCTTATTTGTTATTTATTTTAACGTTTCATTGATATATAAATCCAAATGAAAATCGTTATCAATAAAGCAAT -GAAATAATATATTCCAACAGTTGTTTTATATTCTCAAAATATGTTAAGGTTGCGCCCTCATTTGGGGAGTAGCCGATTTC -CAGATTCCGGAAATGTACGTGTCAACATACTCGTTGCAAAACGTGGCACGTACGGACTGAATACTTTCAGTCAGGCGAGA -CCATATGCACATCAATCGCTATGCCTGCATGAACGCGAAAACCATCACGGCTTGTTGTTCATGTATGCATGTTTGCTGGG -GGCGATGATGTGTTTTATGGATACCCCGGTCAGGACATTGTCATGAATATCACTGCTACTGTTCTTCTTGCGTTTGGTAT -GTCGATGGATGCATTTGCTGCATCAATCGGTAAAGGTGCCACCCTCCATAAACCGAAATTTTCTGAAGCATTGCGAACCG -GCCTTATTTTTGGTGCCGTCGAAACCCTGACGCCGCTGATCGGCTGGGGAATGGGCATGTTAGCCAGCCGGTTTGTCCTT -GAATGGAACCACTGGATTGCGTTTGTGCTGCTGATATTCCTCGGCGGGCGAATGATTATTGAGGGTTTTCGTGGCGCAGA -TGATGAAGATGAAGAGCCGCGCCGTCGACACGGTTTCTGGCTACTGGTAACCACCGCGATTGCCACCAGCCTGGATGCCA -TGGCTGTGGGTGTTGGTCTTGCTTTCCTGCAGGTCAACATTATCGCGACCGCATTGGCCATTGGTTGTGCAACCTTGATT -ATGTCAACATTAGGGATGATGGTTGGTCGCTTTATCGGCTCAATTATTGGGAAAAAAGCGGAAATTCTCGGCGGGCTGGT -GCTGATCGGCATCGGCGTCCAGATCCTCTGGACGCACTTCCACGGTTAATAAGAACGCTGCCAGAGGTGAATATTAAAGT -CCGTCTGGCAGTCGAACACTTCTTTTGCTGCCAGTGTTTGCCAGACTTCTGGCTTCGCACGCCAGGCAAACGGCGTCATC -TGCAATAATGCGACGGCTTCATCACCGCGAAGACGCATCGGATAACACAACTCCGCACTCTGCTGTAATGTAAAACCTTC -CAGTTGTTCTGCATGAGGTGCATGAAGATGTACTTCATTGTAAATCAGCCCCTTCAGCTCCATCAAATGTCGCGGTCCCG -GCGTGGCAGTAATGACCCAGCCGCCGGGCTTCACTACTCGTGCTAATTCTTCTGCTTTACACGGCGCGTAAATACGTATT -ATGGCGTCCATACTGGTATCGGAAAACGGCAAACGGTGGCTGGAAGCGACACAAAAAGTGACCTGCGGATAGCGTTTCGC -CGCCGCTTTTATCGCTACCTTCGAAACATCCAGACCAAACGTGGTGATTTCGGGCAACGCATCGGCAAATGCGTGTGTGT -AATACCCTTCACCACAGCCAATATCCAGCACCGCCGTGGCCTTATCATCAAGCCGTTCCCTCAGTTGGGCGACAATTGCA -TCACGCAGCGGCTGATAATGTCCGGCATCTAAGAATGCGCGGCGTGCTTGCATCATTTCCGCGCTGTCGCCCGGATCACG -AGACCGTTTATGCTGAACGGGCAGCAGATTGACATACCCTTCTTTCGCCATATCAAACTGATGTCGCTGGGGACAGATAT -AGCTGTTTTTTTCACGCGAAAGAGGCTGATGGCAAAGTGGACAGGAAAAAGACATGACAACTCCGGCAGGATACTAAAGG -CCGCAAGTGTAACGCGAATCACGCGGCGGGCAAATATCCGAACGCCAGGAGCGAAGATAAAGCATAGTAAAAAGCCTCGC -ATTCGACGAGGCTTTATAGCGAGATTGAAGCGTATTCACACTTCAGATCAGTGGATTCGATCAGATAGCTGTTACGTTAA -CAGCTGCCGGACCTTTCTGGCCGTCCTGAATTTCGAACTCAACGTTCTGACCTTCAGCCAGAGTTTTGAAGCCATTACCC -TGGATAGCGGAGAAGTGTACGAACACATCTTTGCTGCCATCAGCCGGAGTAATGAAGCCAAAACCTTTAGACTCGTTGAA -CCACTTAACCTGACCTTTAATCTTTGCCATTTGAAAAATTCCTTAGATTGTTTTCTTCGCCCGCAGGCATAACATAGATA -AAACTGACACATTACTGCATGAGGCACCAATATAAGGCTCGGCAGAGAAGCGGTATTCAACGTCAACGTGTTTACTCAGG -ACTTCTTTACTGAAAATGCCACACATAAACAGAACTGTACCTCGTTTAACCCGAAATCTGTTATCACATACAACGTTAAT -TATGGCAAGCCATTTTTAAACATGTCTCGATCAGACGCACAAATCTCGATACGTCTTCCACTTTTTTTGCACACTTATGC -AACGGAATACGCGCCGATATATCATTGTGCTTAACCTTGCCAGTTCAGGCAGATACTTAAACTGGCGTATTTTCTAACAT -AGTTCAATAAGTTCAGTTGTTCCAGGCCAGTGGGAGAAGTTATTACATAGTGCGTGCAATATCACATTTTTTGCTATGCA -ATGAATAAAAAGTTATATCACTTTTTCTCATAAAACAGTCAGTTAACGGCTATTAATTACCCTAAAGAGAAGTCAATCCC -CAAAGGGATTGTAAATTTAAAATAAGAAAAATTGATGAATGAGCAAAAAAATCAAGAGAGAAACGTTTCGCTAATAAATA -ATACCACGCTTAATCACAAATCCGATGTAAACATCCTAATAAATTAATGGGGTAAATATCTTTTTCTGATATCCCGTTAC -GCAAATAAATAATATGATAATTATTTGAAGTCAGACCAGAGTTTTAATTTGAAGCAGTTGCACCATGACAGTGCGTATAA -TCAGGATGAATTGAGTAACCCTTCAACGACGGGGTTACTCAAGATTGAGGAAGGATTATCGTTCGGCGACCAGACGAATA -ATATCTTCGTCTTCAACCGATTTTTGACTCTCAACGGTCTTTTTATCTGCTTTCTCTGGTTCGTTTGCTTCGCACAAACG -ACGTAACAGTGCATTTTGACGTTTTTGCTGATCCAGCAACGCCTCAAGCAGTTCAATCTGTTCGTTAGTCCGTGAACTGG -CACGATTGATAAAAAACCACAAGATGAGCCCGATAAGAAGAACCACCACCGATACAACCAAAGACGCAATGTTCATCACG -CCTGAATTTACAACTTCGTTCATTTCACCACCTCTGAGTAGAGGCGCTATTCTACCACTGCTGGAGAGGAAGAAAATCTA -GTGCTGAAAAAATGATATCACCACGGGATAAACTGGTTAATGGCACAAATTCCGCTGAAAAATTGTACATCCTGATCGCA -CATCATGTTGAATACCTGCGCCCAAAGCAGCAAGCAAGCCAACACCACGACAACCAGAACGACCCATCGAAACTTTTTCA -CTCCAATCTCCGTTTCACCTACCTTATGTCATTAAACTAGCATGCGTTAGTTAAACAGCGCCTAACTATGTCGATATTCG -TGCTTTTTCGGAATGAGTCGCTTGCTTCAGCGCATATTGCCGCTACGATTAAGCGAACATAAAAAGAGAAGAGGTTGTAA -TGCGATTCATCATTCGCACAGTTATGCTGATAGCACTGGTATGGATAGGATTATTACTCAGCGGATATGGCGTTTTGATT -GGAAGCAAAGAGAATGCCGCAGGATTAGGTTTGCAATGTACCTATCTGACTGCCAGAGGCACCAGCACGGTACAATACTT -GCACACTAAAAGTGGTTTTTTGGGGATAACAGATTGCCCGCTGTTACGCAAAAGCAATATCGTGGTCGATAATGGTTAAG -GGCAATAAATAACCAGATTCTCACTCCTGAGTAAAATACTCTTATAGCAAGCGCGTTTAATATAACGCCACCTTCAACTT -TATTTTTCTCATGCTAAATAAAGAACCTGTCTGTTTGATATTCCGACAGGTTCTTACTCTCATCAGAACGGATAGTCGTG -ATAACCCATTTGGGCAGAAATTTTGCGCGCTGCGGTATGCAACATTGCGACATATTCCTGTAAACGCTCTTCAGAGAAAC -GCAACGTCGGGAAGGAGATGCTCAAACCGGCAATGACCACGCCAAAGCGATCAAATACCGGTACCGCAATGCATCGCAGC -CCTTCTTCCTGCTCTTCATTATCTTCGCCATACCCCTGCTCGCGCACCTGGTCCAGAACGGGTAATAACGCTTCTGTACT -GGTGATGGTCCGCTCGGTACTGCGTTTATACTCCACGCCCTCAAGAATTTGCTTCACTTCATCGCGATCGCGCCATGCCA -GCAGTACCTTACCAATCGCGGTGCTGTACAGCGGATTACGACGCCCAATCCGTGAATACATGCGCAAATTGTACATAGAG -TCAATTTTGTGAATGTAAACAATACTGTCTTCGTCCAGTGCGCCGAGGTGGATAGTTTCTTTGGTCAGGCGGGAGAGCTC -ACGCATCTGGATATCTGCGCTACGAATTAAATCGACGTTTTGTAACGCGCGAGCGCCCAGTTCAAACAATTTCAGGGTCA -GGGAATATTTCTCCGACTCCCCTTCCTGCGCCACATAACCTAAGGTTTTCATGGTCTGTAAAAAGCGATAAACGGTGCTT -TTTGACATCATGACGCGCTGCGACAGCTCGGTTATCCCTATTTCGCGCTCTTCACCCAGCGCCTGCAAAATGCCAAAAAC -TTTTAGCACGGAAGATACAGAATCAGGCTGTTTATCCAGATCTGCGTTAGCCATTTATCACCTCATTGCGAGTGTTTTAT -AAAAATCAGAACTGTTTTTTATTATAATTTCGCACCAGGGTGGTCGCAATCCATCTTTTGCCGGTTAGTTACAATTCTGC -GACATCCACCGTGAATATCAGTGCTAGAATCATACCCCTGTTGATTATTCACCAAAGATATAAAATTCCTATGCCAAAAG -TTCAGGCCGACGGCCTGCCATTGCCCCAGCGATACGGTGCGATATTAACCATTGTGATTGGTATTTCGATGGCCGTCCTT -GACGGCGCAATCGCCAACGTCGCCCTGCCAACAATCGCCACGGACCTTCATGCCACGCCAGCCAGTTCCATCTGGGTAGT -GAACGCCTATCAAATCGCCATTGTCATCTCCCTGCTCTCGTTTTCGTTTCTGGGCGATATGTTTGGCTATCGACGTATTT -ATAAATGCGGTCTGGTCGTTTTTCTGTTGTCTTCACTGTTCTGCGCCCTTTCTGATTCGCTGCAAATGCTCACCCTTGCG -CGTGTCATACAAGGTTTCGGCGGTGCAGCGTTGATGAGCGTTAATACCGCACTTATCCGCCTGATCTATCCACAACGTTT -TCTGGGTAGAGGGATGGGCATAAACTCGTTTATTGTTGCCGTCTCTTCTGCTGCCGGGCCGACAATTGCTGCAGCAATCC -TCTCCATCGCATCCTGGAAATGGTTATTTTTAATCAACGTACCGTTAGGTATTATCGCCCTGCTTCTGGCGATGCGTTTT -CTGCCACCCAATGGTTCTCGCGCCAGTAAACCCCGTTTCGACCTGCCCAGCGCCGTGATGAACGCGTTAACCTTCGGCCT -GCTTATCACTGCGTTGAGTGGTTTCGCTCAGGGGCAATCGCTGACGTTAATTGCTGCGGAACTGGTGGTAATGGTTGTTG -TTGGTATTTTCTTTATTCGCCGCCAGCTTTCTCTTCCCGTACCGCTGCTACCGGTGGATTTACTGCGTATCCCGCTGTTT -TCACTTTCTATTTGCACATCTGTTTGCTCTTTCTGCGCACAAATGCTGGCAATGGTTTCCCTGCCCTTTTACCTGCAAAC -CGTGCTCGGGCGTAGTGAAGTCGAAACAGGTTTACTTCTGACACCGTGGCCGTTAGCAACGATGGTGATGGCTCCGCTGG -CAGGCTATTTGATTGAACGCGTACATGCAGGATTGCTGGGGGCTTTAGGGTTGTTCATCATGGCTGCGGGGCTTTTTTCC -CTGGTTCTGCTGCCCGCGTCACCTGCGGATATCAATATTATCTGGCCGATGATCTTATGTGGTGCTGGATTTGGCTTATT -CCAGTCACCCAATAACCACACCATTATTACCTCCGCGCCTCGCGAACGTAGCGGTGGAGCCAGTGGCATGTTAGGAACGG -CTCGTCTACTGGGTCAGAGTAGCGGCGCGGCGCTGGTGGCGCTGATGCTAAATCAGTTTGGAGATAATGGTACACACGTC -TCGCTGATGGCTGCGGCTATTCTGGCAGTGATTGCTGCCTGTGTCAGTGGTTTACGTATCACTCAGCCACGATCCAGGGC -ATAAAAAAAGCGCGTCGATCAGGACGCGCTTTTTAGTATTTACTTCATATTACTTCAGGTATTCACCCGTACGCAGAGCT -TCAATTCGTTTATCCAGCGGCGGGTGGGTCATGAACAACTCACTGAGCGATTTCGACTTACCGTTAATGCAGAGAGCCAT -CATGCTGGTTGCTTCTTGCGGTTCATAGCTGGTTTTCAGGCGCTGCAGCGCGGCAATCATTTTCTCGCGACCAACCAGTT -TTGCCGAACCGGCATCAGCATGGAATTCACGATGACGCGAGAACCACATGGTGATAATGCTCGCCAGAATACCAAACACC -AGTTCCAGAACCGTTGCAACCGCAAAGTAGATCAGCGGGTTGCCGTTGCTCTCTTCACCTTCATCACGATTTCCGCCCAT -AAAACCCGCGGCAAGCTGCGCCAGAATACGGGAAATAAAGATAACGAAGGTGTTCACCACGCCCTGAATCAGCGTCATGG -TGACCATATCACCATTGGCGATGTGGCTGATTTCGTGAGCAATTACCGCCTCGGCTTCATCCGGGCTCATGTTCTGCAGC -AAACCGGTGCTGACAGCAACCAGAGAGGCATCACGGCGCGCACCGGTTGCAAAAGCGTTGATGTCCGGCGCATGGTAGAT -AGCCACTTGCGGCATAGCGATCCCCGCCTGACGAGCCTGGGTTGCTACAGTATTGACCAGCCAACGTTCCCTTTCGTTAC -GCGGTTGCTCGATCACTTCCCCGCCAACAGATCGTAATGCCATCCATTTGGACATCAGAAGCGAAACGAAGGAACCACCA -AAACCGAACAGCAAGGCCATGATCATCAGCCCCTGAACGCTGCTCGACTGTATCCCTGTCAGGCTCAGTACCAGCCCGAA -AACGACCATTACGGCCAGGTTCGTTAGCAGGAAGAGCGCGATTCGCATCATAATTTTCTTTTTACCTCAGTTTAACAAAA -CGCAATATGCGATACCCACATCGTATGGGTTACGCGACTATTTTCAAGTCTGGATAGTGCGTAAGTCACCAGAAAGACAC -AACTTTACATTTTGTAGCATCTGATTTACGGCATCTTGTCGCTGTTAAAAAATCAGGCACAATTTCTTGTGCCTGATTGA -TATTACTTGACGGGAGCGGGTTGTTCCGCGGGTCTGGCTTTTTCAAGCTTCGCCAGATCGAGTGCGATATTCACCGTCTC -ATCCAGATAAGGATCCGGCTCCTGGTAATCTTTCGGTAGATCATCCAGTTTCTTCAACTCCGGTTTACCTTCGCGTTTAA -AGCGTTCGTTCAAACGCGCCAGACGCGTCGCATCATCTTCATTATTCTCTTTCTCACGCACAGCGTAATTCAGAGAAACG -ATATTGCGCTTGTCCTTCATAGCGTTGAAGCGCGCGATATCCTTCATGATGTTCTGGAACTCAGGATCTTTCGCGATACG -CGCATTATGTTCCTTCAGCAGCTCCGGTTCAAAGGCCGTTAAATCTCCTGATTTCACATAAGTCGCGGCATCAATGCTAT -CCCACGGCAGCGCGTTATCTTCGAATTTCTCACCCGTTTCCGTTTCTTCATTACCCGTCGGCATGATGATGTCTGGCGTT -ACGCCTTTACGTTGCGTACTGCCGCCGTTAACGCGATAGAATTTCTGGATCGTGTACTGCACAGAACCCAGCGCTGGCCA -TTCAGGACGTAACATCTGATCGTAAATACGGTTCAATGAACGGTATTGCTGAACGGTGCCTTTACCAAACGTCGGTTCAC -CCACAACCAGCGCACGACCGTAATCCTGCATTGCCGCGGCAAAGATTTCTGAAGCCGAAGCACTGAAGCGGTCAACCAGC -ACCACCAGCGGGCCTTTATAGAAAACCTGTCCGTCGGTATCGCTATCTTCACGAACCTTGCCGTTGTTATCGCGGACCTG -AACAATGGGACCCGCAGGAATAAACAGACCGGAGAGCGATACGGCTTCAGTTAACGCCCCACCGCCATTGCTACGCAGGT -CGATGATGACGCTGCTGACATTCTGTTTTTCCAGTTTCTGCAGTTGCACTTTGACATCGTCTGTCAAACCCACATAGAAG -CCCGGAATATCCAGCACGCCGACTTTCTCTTTACCGACGGTCTTCACCGACATTTTAACCGCGCGGTCTTCGAGACGAAT -ACGTTCACGGGTCAACGTTACAGTACGGGTCTTGGTCCCTTTACCAGCAGGTAAAATTTCCAGACGAACTTTACTGCCCT -TCGGCCCTTTAATTAAGGCAACCACATCATCAAGACGCCAGCCAATCACGTCAACCATCGGCTTGCCTGTTTGACCAACA -CCGACAATTTTGTCACCAACGCTGATAGCTTTACTCTTCGCTGCCGGACCACCTGCCACCATCGAATTGATAACGGTGTA -GTCATCATCCATTTGCAGCACTGCGCCAATACCTTCCAGCGACAAACTCATTTCAGTGTTGAACTGTTCGGTATTACGCG -GGGAAAGATAGTTGGTATGCGGGTCGATTTCACGCGCAAACGCCGTCATTGCCAGCGAGAAAACATCTTCGCTGTTGGTT -TGCGCCAGACGACGAATGGCAAATTTGTAGCGGCGAGTCAGGGTTTCACGAATTTCTTTATCCGTTTTTCCTGTCAGCTT -CAGGCTTAACTCGTCGAATTTGACTTTACTGTCCCACAGCGCGTTCAACTCAGCCTCGTTTTTCGGCCAGGGCGCTTTGC -TGCGGTCAAGGTTATAAGTGTCGTTGCCGGTGAAATCCATCGGCTTTTCCAGTACCGACAAAGCGTACTGGTAACGCTCA -AAACGGCGCTTTTGCGCCAGATTGTAGAGATCGTAGAAAACGTCGAGTTTGCCTGAACGCAGTTCATCGCCTAACTCGGT -TTTCTTTTTCGCGAACTGTTCAACATCGCTTGCCAGCAGCACGTTGTGGCTGTAATCGAGCAGATTCAGGTAGCGGTCAA -AGATTTTGGCCGAAAATGCCTGATCGAGGTCGAACTGGCGATAATGAGAACGGGTGAAGCGCGACGTTACGCGCTCACTT -ACCGTCGCATGCTGCGTCTCTTCCTTTAATACCGGAATTTGATCAGCACGCGTGATATCTTCTACAGCGAAGGTCTGGCC -TGCTATTGCAAGCAGGCCAGCTAACGCGGTAAGCCTAAAAAACATGTTCATGCCTGGCCCGGCCTCCGTTTCAGAACACC -AGGTGTTCTGCGCGCACAATCAAAGACATACCCGAATTCAGCTGGACGCGGACGCCGTCTTTGGTGATTTCTAATACGGT -GGCATCCATCGCGTTTTGACCCGCTTTCACCTTCAGGGCTTGTCCGACAGTCAGAGCTGAAATGTCAGAAACCGGGGTGT -GCTGTTCTTCGCGAGGTGCTTTTACTGTTTTTGGCGCTTTCTCTACCGGCTTTTGCGCACGAGGTTTACGTTCAGCGCCT -TCTTTGCGGCGTGGCGTAGTCGGACGTGGCTTGCGTTCGCGGCGCGGTGCGTCTTCTTTCTCACCAGCAGTTGCGGCAGC -TTCGCGTTTTTTCGCTTGCTGTTCAGCACGCTGTGCCTGAACACGCGCTTTCGCTTCTTCAAGCTGCTTGCGAGCATGCT -CTACATGTTGCTCGTCCAGCTCACCGCATGGGTTGCCGTCAAGATCGACACGCGTTGCGCCGGGTTTAACACCGTAAAGA -TAACGCCAGCTCGAAGTGTAGAGACGTAAAGCGGATCGCAATTGCGTTTTGCTCAGGTTCATTTCCCCAGCAACACGATC -GACCAAATCCTGAAAAATACCGATTTTCAGCGGACGCGCTTCACCTTCCGCACTGAAACAGTGGGGAAAACGTTCGGCCA -GAAACGCGATTACTTCTTTACTGCTATTCAACTTAGGTTGATTTTCCATGAAATTTCCTGATTACAACGGACGTAGCCAA -CAAGCGCAGGCATGAACAGGCGTCATTATAATGACGCTATCAGTAAATGCTACGTTATCCGTTGATTATCCTGCGACGCT -CGCAAAGAATTTTTTGTAATCCGTCGTTGCAAGCACTTTTTCAAGCTGTGCCACAAGCTGACGTAAGCCTTGCTCGTCCT -CGTCTGTAAAGCGACCGAAGACGGTACTATCGATGTCGAGAACACCAATAATCTGATTTTTCACCACCAGCGGCAGAACA -ATTTCAGAATTACTCGCCGCATCACAGGCAATATGCCCGTCAAACACATGAACATCCTCGATACGCTGCACTTGATTGCG -GGCAACCGCAGTGCCGCACACGCCGCGCCCGACGGGTATCCGGACACAGGCAATTTTGCCCTGAAATGGTCCGAGTACCA -GTGTATCGTCCTCAAGCAAATAAAAACCTGCCCAGTTTATGTCAGTGAGACGCTCATATAACAACGCACTGGTGTTCGCA -AGCGTTGCCAGAAAACTGGTTTCTCCCGCCATCAGCGCGTTAAAGTCGCGATTTAAATCCGCGTAAAATTCTGTTTTGTT -CATTATATAATCACTTGGTTGTCTTACCTGGATCTGCCAGCCTATTAAAATAAGCATTAAATGCGTTAATGCTCAAGATC -ATTCCCATCATGGGTTAAGATTAATGTTAATTCTTATTACATTTGGCACGTCATGGCTCTTAACACACCACAAATTACGC -CGACAAAAAAGATAACAGTGAGGGCAATCGGCGAGGAACTGCCGCGTGGTGATTACCAACGTTGCCCGCAATGTGACATG -CTGTTTAGCCTGCCCGAGATAAATTCTCATCAAAGTGCCTATTGTCCGCGCTGTCAGGCAAAAATTCGTGACGGGCGCGA -CTGGTCGCTAACGCGCCTGGCGGCAATGGCCTTCACCATGCTGTTGCTTATGCCGTTTGCCTGGGGCGAACCGCTGTTGC -ATATCTGGCTGTTAGGCATTCGTATTGACGCCAACGTTATGCAAGGCATCTGGCAAATGACCAAACAGGGCGATGCGATA -ACGGGGTCGATGGTCTTTTTCTGCGTTATTGGTGCCCCGCTCATTCTGGTGACCTCCATAGCTTATTTATGGTTTGGTAA -CCGACTGGGAATGAATTTACGTCCGGTACTGCTGATGCTTGAGCGACTTAAAGAGTGGGTAATGCTCGATATCTACCTGG -TCGGCATTGGCGTTGCTTCTATAAAGGTACAGGATTATGCCCATATCCAGGCTGGTGTCGGCTTGTTCTCTTTTGTGGCG -TTGGTGATTTTAACGACGGTGACGTTGTCACATCTTAATGTCGAAGAACTGTGGGAGCGATTTTATCCGCAGCGCCCCGC -TACGCGTAGGGACGAGAAACTTCGTGTCTGTCTTGGGTGCCATTTTACCGGCTATCCAGATCAGCGTGGTCGCTGCCCGC -GTTGCCATATCCCGCTACGCCTGCGTCGCCGTCATAGTCTGCAAAAATGCTGGGCGGCGCTGTTAGCGTCAATCGTTTTA -TTGTTACCTGCCAACCTGTTGCCTATTTCTATCATTTATCTGAACGGAGGACGGCAGGAAGATACAATTCTTTCCGGAAT -TATGTCGCTGGCAAGTAGCAACATTGCGGTTGCAGGAATCGTGTTTATCGCCAGTATTCTGGTACCGTTTACTAAAGTGA -TCGTCATGTTCACTTTACTGTTGAGCATTCATTTTAAATGCCAGCAAGGTTTACGCACACGCATTCTGTTACTGCGGATG -GTGACCTGGATTGGTCGCTGGTCGATGCTCGACCTGTTTGTCATATCTTTAACCATGTCGCTGATTAATCGCGATCAGAT -CCTCGCTTTTACTATGGGACCGGCTGCGTTTTATTTCGGCGCAGCGGTAATTTTGACTATTCTTGCTGTGGAATGGCTGG -ACAGCCGCTTACTTTGGGATGCACATGAGTCAGGAAACGCCCGCTTCGACGACTGAAGCGCAGATTAAAAATAAACGCCG -TATCTCACCTTTCTGGCTGCTGCCGTTCATCGCGCTAATGATTGCCAGTTGGCTGATTTGGGACAGTTATCAGGACCGGG -GTAATACCGTCACCATCGACTTTATGTCGGCGGATGGTATTGTTCCAGGCCGTACGCCTGTTCGTTATCAGGGCGTTGAA -GTCGGAACAGTGCAGGATATCAGCCTCAGCGACGATCTTCGTAAGATTGAAGTCAAGGTCAGCATCAAGTCCGATATGAA -AGATGCGCTGCGCGAAGAGACTCAGTTCTGGCTGGTGACGCCAAAAGCATCGTTGGCAGGTGTCTCCGGGCTGGACGCCC -TCGTCGGTGGGAACTATATCGGCATGATGCCGGGTAAAGGTAAAGAGCAGGATCACTTTGTCGCACTCGATACCCAACCG -AAATATCGGCTGGACAATGGCGATCTGATGATCCACCTGCAAGCCCCCGATCTCGGTTCGCTGAACAGCGGTTCATTGGT -CTATTTCCGCAAGATCCCGGTGGGAAAAGTCTACGACTATGCCATCAATCCCAACAAGCAAGGCGTGGTGATTGATGTCC -TGATCGAGCGGCGTTTTACCGATCTGGTGAAAAAAGGTAGCCGTTTCTGGAACGTTTCCGGCGTTGATGCCAACGTCAGT -ATCAGTGGCGCGAAGGTGAAACTGGAAAGCCTGGCGGCACTGGTTAACGGTGCGATTGCCTTCGATTCACCAGAAGAGTC -GAAACCTGCCGAGGCGGAAGATACCTTTGGTCTGTATGAAGATCTGGCCCACAGCCAGCGTGGCGTAATAATAAAACTGG -AACTGCCGAGTGGGGCCGGATTAACCGCCGACTCGACGCCGTTAATGTATCAGGGGCTGGAAGTCGGACAGCTGACTAAA -CTGGATTTAAATCCTGGTGGTAAAGTCACAGGGGAAATGACCGTTGATCCCAGCGTCGTTACCCTGCTTCGTGAAAATAC -CCGCATCGAATTACGCAACCCGAAATTATCCCTTAGCGATGCTAATCTCAGCGCCCTGCTGACCGGCAAAACCTTCGAGC -TGGTGCCCGGCGATGGCGAGCCACGCAAAGAGTTCGTTGTTGTGCCAGGCGAAAAAGCACTGCTGCATGAACCTGATGTT -CTGACGCTGACCCTGACCGCGCCGGAAAGTTACGGTATTGATGCGGGTCAGCCGCTCATTCTTCACGGCGTGCAGGTAGG -CCAGGTTATCGATCGTAAACTCACCAGCAAAGGCGTCACCTTTACCGTCGCCATCGAGCCTCAGCATCGCGAACTGGTAA -AAGGCGATAGCAAATTTGTCGTCAACAGCCGTGTCGATGTGAAGGTGGGGCTGGATGGCGTTGAGTTTCTCGGTGCCAGC -GCCTCAGAATGGATCAATGGCGGGATACGTATTCTGCCGGGCGATAAAGGTGAGATGAAAGCCAGCTATCCACTGTATGC -CAATTTGGAAAAAGCGCTGGAGAACAGCCTTAGCGATTTACCCACCACAACCGTGAGTTTGAGTGCAGAGACGCTGCCGG -ATGTGCAGGCAGGATCGGTAGTGCTGTACCGTAAATTTGAAGTTGGTGAAGTGATTACCGTGCGTCCGCGAGCTAACGCG -TTTGATATCGATCTGCATATTAAGCCGGAGTATCGCAACCTTCTGACCAGCAATAGCGTGTTCTGGGCAGAAGGCGGGGC -GAAAGTTCAGCTGAATGGTAGTGGTCTGACCGTACAGGCATCCCCGCTCTCCAGAGCATTAAAGGGAGCCATTAGCTTCG -ACAACCTCAGCGGTGCCAGCGCCAGTCAGCGTAAAGGCGATAAGCGTATTCTGTATGCTTCCGAAACAGCGGCCCGTGCG -GTTGGCGGGCAGATTACGCTTCACGCTTTCGATGCCGGAAAACTGGCGGTCGGGATGCCAATTCGCTATCTCGGTATTGA -TATCGGGCAAATCCAGACGCTGGATCTGATTACCGCACGCAATGAAGTACAGGCAAAGGCGGTACTTTACCCGGAATATG -TCCAGACCTTTGCTCGCGGTGGTACGCGCTTCTCAGTGGTCACACCGCAAATTTCGGCAGCTGGCGTTGAGCATCTTGAT -ACTATCCTCCAGCCGTATATCAACGTCGAACCAGGCCGGGGCAATCCTCGCCGCGACTTTGAATTACAAGAGGCCACCAT -TACTGATTCGCGTTACCTGGATGGCTTAAGCATTATTGTTGAAGCGCCGGAAGCCGGTTCGTTAGGCATCGGTACGCCTG -TGCTGTTCCGTGGTCTGGAAGTCGGTACGGTTACAGGAATGACGCTGGGGACATTGTCAGATCGCGTGATGATTGCGATG -CGCATCAGTAAACGCTATCAACACCTGGTGCGTAACAATTCCGTCTTCTGGTTGGCATCGGGTTACAGTCTGGACTTTGG -TCTGACGGGCGGCGTAGTGAAAACCGGCACCTTTAACCAGTTTATCCGTGGCGGCATCGCCTTCGCCACGCCTCCGGGTA -CGCCACTGGCACCGAAAGCCCAGGAAGGCAAACACTTCCTGTTGCAGGAAAGTGAACCGAAAGAGTGGCGTGAATGGGGA -ACTGCGCTTCCCAAATAATGCCCACTGCTCCGGCGTGCCTGCGCCGGAGCGTTTATGCTAAACTGCGCGCCTGTTTTTTT -GCCAGTGGTACATGCTCGTGGCCCAACACACCGTTTATTTCCCGGACGCCTTTCTGACACAAATGCGCGAAGCGATGCCT -TCGACGCTCTCATTTGATGATTTTCTTGCCGCCTGTCAGCGCCCGTTGCGCCGCAGCATTCGCGTTAATACGCTGAAAAT -CTCCGTTGCTGATTTCCTGCAATTAACCGCTCCTTATGGCTGGACGCTTACGCCAATTCCGTGGTGTGAAGAAGGTTTCT -GGATTGAACGCGACAATGAAGATGCATTGCCATTGGGTAGTACCGCCGAGCATTTAAGTGGCCTGTTTTATATTCAGGAA -GCCAGTTCAATGTTGCCTGTTGCCGCCTTGTTTGCTGACGGTAATGCACCACAGCGGGTGATGGATGTCGCTGCCGCGCC -TGGCTCCAAAACGACGCAAATTTCCGCGCGGATGAATAACGAAGGGGCAATCCTTGCCAATGAGTTTTCCGCCAGTCGGG -TAAAAGTGTTACATGCCAATATCAGCCGCTGTGGTATCAGTAATGTTGCGCTCACACATTTTGATGGCCGCGTGTTTGGT -GCGGCAGTGCCAGAAATGTTCGATGCCATTTTGCTGGACGCTCCCTGCTCTGGCGAAGGCGTGGTGCGTAAAGATCCCGA -TGCGCTAAAAAACTGGTCACCAGAAAGCAATCAGGAAATCGCAGCTACACAACGGGAGCTTATCGACAGCGCCTTTCATG -CATTACGTCCTGGTGGTACGCTGGTTTACTCGACCTGTACCTTAAACCAGGAAGAAAACGAAGCCGTTTGCCTGTGGCTG -AAAGAGACTTACCCCGACGCAGTAGAGTTTTTACCACTTGGCGATCTCTTCCCTGGTGCAAACAAAGCGCTGACCGAAGA -AGGCTTTTTGCATGTTTTCCCACAAATTTACGACTGCGAAGGCTTCTTCGTTGCTCGTCTGCGTAAAACTCAGGCGATTC -CCGCCTTACCCGCCCCCAAATACAAAGTCGGTAATTTTCCGTTCAGCCCGGTGAAAGATCGCGAAGCTGGACAAATTCGT -CAGGCGGCTACAGGTGTTGGCTTAAACTGGGATGAAAACCTGCGCCTCTGGCAGCGTGACAAAGAACTGTGGTTGTTCCC -GGTGGGCATTGAAGCCCTGATCGGTAAAGTCCGATTTTCTCGGTTGGGGATTAAACTTGCCGAGACGCACAACAAAGGTT -ATCGCTGGCAGCATGAAGCGGTTATTGCTCTTGCCTCACCCGATAATATGAATGCATTCGAGCTGACACCGCAGGAAGCG -GAGGAGTGGTATCGCGGGCGCGATGTTTACCCGCAAGCCGCGCCAGTGGCGGATGATGTATTGGTTACTTTCCAGCATCA -ACCGATTGGTTTAGCCAAACGGATTGGTTCGCGATTGAAAAACAGCTATCCGCGTGAACTGGTGCGCGATGGGAAACTTT -TTACCGGTAACGCCTGACAGCGCACAAAAAAAGCGCACTTTTTGACTGGCACATTCGGCTGCCTCAACTAGGCTGAAAAA -TGGTGCGATCGGACTGGTCGTACCACAATCGGCAGCTAAATGGAGAGCACGAAGATGAAAACCAGTGTGCGCATAGGCGC -TTTTGAAATCGACGACGGCGAATTACACGGTGAATCGCCAGGTGATCGAACGTTAACCATTCCTTGTAAATCTGACCCCG -ATTTATGTATGCAACTGGATGCCTGGGATGCTGAAACCAGTATCCCTGCCCTGCTAAATGGCGAACACTCTGTCCTTTAC -CGTACCCGTTACGATCAACAATCTGATGCCTGGATTATGCGTCTTGCCTGATCCAAAAAGAACCCGTCGGCATGGCGGGT -TATTTGTCCTGGTTATTCCCCCGTTGTAAAATCTCTCCTAAACTTAACGGTACGGCACCACACTTCGGGGATGAAATGTT -CGCGCTGGTACTTTTTGTTTGCTACCTGGATGGCGGTTGTGAAGATATTGTTGTGGATGTCTACAACACGGAACAGCAGT -GTCTTTATTCTATGAGCGATCAACGGATCCGCCAGGGCGGTTGTTTTCCGATTGAGGATTTTATAGATGGTTTCTGGCGA -CCTGCACAGGAGTACGGTGATTTTTAATTATTGCAATTGCACAAGAGTCAGTTCGCCCCCAAAGACAGCACCGGTATCAA -TATAATGCAGGTTGCCAATATCCACGCGATGTCGCAACGGTGTATGACCAAACCAGAAATGATCAGCACCTGTAATTCCC -TGCCCTTTTTGGCGTTCACCTAATCGCGAGCGGCTCCACAAGACCTGATGCAAATCAACGTCCTTTTGCCATTCATAAAC -ATCATCTGGATAATCGGCATGAGCAATAACATGCTTGCCGGTGCGACTGTGTACTTCAAGAATAAAGGGCAAATGCTGAC -ATTTTTCCAGCGCCGTTTTCGCTTGTTTCTGTTGATTATCTGCCAGCGCAATAAACCAGTCGCCGCCATTCATCAACCAC -AAAGACATCTGCTGGGATGCCAGCGCATCCATCGCCATCTGTTCATGATTGCCTCTTACCGCACAAACCCAATGTTGTTC -CAGTAACTGCAGACAACGTAAACTTTGCGGCCCACGATCGATAACGTCTCCCACTGAGATAAGTAAATCTCGCCACGGAT -CAAAACGACAATGCCATAATTTGCGGCGCAACTGCTCAAGACAACCGTGTATATCGCCAGAAAGCCAGATATGTCGCCAT -TGATGACCCGCAATTCTCTGATAAACGGGCGCAGGCTGTTTCATCAATATTTTCCTCCCGCGCTAAAGATCACATAATCT -TAACAAGAATGTTAAAAAACGCTGGACTCAGACAGTAGAGTGTGTGTTATGGTTGACTATAAAGTCAGCGAAGGAAATGC -TTCTGGCTTTTAACAGATAAAAAGAGACCGAACACGATTCCTGTATTCGGTCCAGGGAAATGGCTCTTGGGAGAGAGCCG -TGCGCTAAAAGTTGGCATTAATGCAGGCTTAGTTGCCTTGCCCTTTAAGAATAGATGACGACGCCAGGTTTTCCAGTTTG -CGTGCAAAATGGTCAATAAAAAGCGTGGTGGTCATCAGCTGAAATGTTAAAAACCGCCCGTTCTGGTGAAAGAACTGAGG -CGGTTTTTTTATTGGAAATCAAAAGGCTATTTTAGGTAATTAACAGAGTTTTTCAGCTCGTTCTATAAACGGTGCCAGAC -TCATTTTTTCGCCGGGATTGTTAGGATCATCAATCTGAATCACCGAAATGGGTTGGGCATTGGTCTTCCCACTGGCAACT -TCCTTTTGTGCGATATCGTTTAAAGGATACTGCACGAGGGTACTCGGATTAATAACATACAAAGCATTACCCGGTCGGCA -AGTCAGCATCACCTCTTCGCGATTAAACGCCCATTTGTCTTTACCCACTTCAAAACGACTGACGGTAATCACCTGCGGTG -CAGCCAGCGCCGCTGCAGAACTGGTGAGTAACAGAAACGCCAGAATACTTTTTTTCATCATTTTCGTAATCCATCAAAAA -GGTTCGAGAGTCGCAAGCAGGCTGATGATCACCAGCACTACCGCACCTATCGCCCATTCGAGTTTAGTCATCCACACAAA -CCAGGGTGCCGCACGATCTTCATCCTGCCTCATGCGCGGTACAAGAACATAACGATTAGCCAGCGCAATGACCACCATAA -TCATCACCAGGATGGCTTTGAGCAATAAGAGTTGGCCCCAGTAAGTCGTAAGCGTGGGGGGAAATCCGGTAATCAACAAT -GCATTAAGCACGCCGCTTGCCAGTACGCCGATCACCGCAAAATGCCCGCACCAGGAAAAACGCATCAGCGCCTGAATAGC -CTGGTGTCGCCAACGGCCTTTGATGAGTTGCATACACCAGAGCACCGGCAGTAATCCCCCAAACCACGCCGCCGCACAAA -TCAGGTGAATCGCGTGATTAGTCTGATGGATTTTCGCTGTTACCCCTTCATTCAGCGTCGCATGCCCCACTCCCGCCAGC -AGAATAAATTGCGCGGTAGTGAGCATAAACAGCAAACGTGGCATATTCCGCGGTTGCATAAGGGCGACGATCAACGTTAC -GAGGGCGAGAACAATTTGCCATAACCAGATGCCACCAAACTGCGTTTGCAAAACAGCCTGCCAAATGTTTGGCGAAAATA -CATCTGTCCATCCCGTTCCCATCAACCCGCCCTGAACGGCGAGCATTGCAGTGGCACTGATCAAACTCCAGACGGCAGCG -TGCTGTTGTAAACGCAGAAAACGCTTCGCCAGCAAGCGACGAATCGTCAAGGGGGCCAGCCAGGCACCGTACATTGCGAA -GCCAAAAACCAGCATCAGCGAGGTGAAATGGATAAATCGCAGCGCGATCCAGGTAAACGCCAGCATGATTTATTTCACGC -TAAAGGTGTAGTGTCCTTTCGTTTTATGCCCGTCCACCGAAACAACATGCCAGTCAACGGTGTAGGTTCCGGGTTTCAGC -GAATCGGCCAGTGGAACAATCAGTTGCTTTTGGTCCTGCTCATTTCGCTTCGCCGGTAATGTTTTAATATTTTCGTTTTT -TGGCCCCGTGATTTTTGCACCACTGAATCCTGTTTCAACACCTTCCGAGAAGTTTAAAGTGATTGCCTGCGGTGCAGCTG -TCACTTGCGCGTTTGCCGCAGGATACTGATGCGTTAAATGCGCATGTGCCCAGACGGAAGGTGTCACCAACGAAGTGGTC -AGGATTGCCAGCGCGTAGCGAAGGGAGCGTGCAGTTGAAGCCATATTATCTATTCCTTTTTGTAATAACTTTTTTACAGA -GCATAACCTTGTCTAATGTCTGAGTCGAGGATCATCAATTCCGGCTTGCCATCCTGGCTCACTCTTAGTAACTTTTGCCC -GCGAATGATGAGGAGATTAAGAATGCTGAAGAATCTGGCTAAACTGGATCAAACAGAAATGGATAAAGTGAATGTCGATT -TGGCGGCGGCCGGGGTGGCATTTAAAGAACGCTACAATATGCCGGTGATCGCTGAAGCGGTTGAACGTGAACAGCCTGAA -CATTTGCGCAGCTGGTTTCGCGAGCGGCTTATTGCCCACCGTTTGGCTTCGGTCAATCTGTCACGTTTACCTTACGAGCC -CAAACTTAAATAAAACTTATACAGAGTTACACTTTCTTACATAACGCCTGCTAAATTATGAGTATTTTCTAAACCGCACT -CATAATTTGCAGTCATTTTGAAAAGGAAGTCATTATGTCGTTCTGGAAAGTTGCAGCAGCGCAATATGAGCCTCGTAAAA -CCTCACTCACCGAACAGGTAGCTCATCATCTGGAGTTTGTGAGGGCCGCCGCCAGGCAACAATGTCAGCTGTTAGTTTTT -CCATCGCTTTCTTTACTGGGGTGTGATTATTCGCGACGTGCCCTTCCTGCCCCACCCGATCTCTCACTGTTAGACCCGCT -TTGTTATGCCGCAACGACCTGGCGAATGACCATCATTGCCGGCCTTCCCGTTGAATATAACGATCGCTTTATTCGTGGAA -TTGCGGTGTTCGCACCGTGGCGAAAAACGCCTGGGATCTACCATCAGAGTCATGGTGCATGTCTGGGCCGTCGTTCCAGA -ACCATCACGGTGGTCGATGAACAACCGCAAGGTATGGATATGGACCCGACCTGTTCACTGTTTACTACAGGGCAATGTCT -GGGAGAACCCGACCTGCTGGCGTCGGCCCGTCGCTTACAATTTTTTTCACATCAGTACTCGATTGCCGTGCTGATGGCAA -ATGCCCGTGGTAACAGTGCACTATGGGATGAATATGGTCGTCTCATCGTTCGCGCCGATCGTGGTTCATTATTGTTAGTC -GGTCAGCGTTCATCACAGGGTTGGCAAGGCGATATCATTCCATTACGCTAGGCTTTTTCGGCCTGGAGCATGCCATGTTG -CGCATTATCGATACAGAAACCTGCGGTTTGCAGGGAGGGATCGTTGAGATTGCCTCTGTTGATGTCATTGACGGAAAAAT -CGTCAACCCCATGAGCCACCTGGTGCGCCCCGATCGTCCTATTAGTCCACAAGCGATGGCGATTCATCGCATCACCGAAG -CCATGGTCGCCGATAAACCGTGGATTGAAGATGTGATCCCACACTATTACGGTAGTGAATGGTATGTCGCGCATAACGCC -AGCTTTGACCGCCGCGTACTGCCTGAGATGCCCGGTGAGTGGATTTGCACTATGAAACTGGCCCGTCGTTTGTGGCCTGG -GATCAAGTACAGCAATATGGCGTTATATAAAACACGCAAGCTCAATGTACAGACGCCGCCGGGCCTGCATCATCACCGCG -CGTTGTATGACTGTTATATCACCGCCGCGTTGCTTATCGATATTATGAACACCTCCGGCTGGACGGCAGAACAGATGGCC -GATATCACCGGACGTCCGTCGTTGATGACGACCTTCACCTTTGGCAAATACCGTGGCAAAGCGGTTTCCGACGTTGCCGA -ACGCGATCCGGGCTATCTGCGCTGGTTATTTAATAACCTGGACAGCATGAGCCCGGAGCTGCGTTTAACACTGAAACATT -ATCTGGAAAATACTTAGTCCGCAGGCGTAGCGGGTAATGTTCCCTGCGCCAGCGCGACCAGAAAAGCATATTCCATCGCT -ACGCCTTCGTACGATTTAAAGCGACCAGATTTACCGCCATGGCCTGAGTCCATGTCGGTACAGAGCAATAAAAGATGGTC -ATCGGTTTTCAGCTCGCGCAATTTAGCGACCCATTTTGCCGGTTCCCAATATTGCACCTGAGAATCGTGCAAACCGGTCG -TTACCAGTAAATGCGGATAAGCCTGTGCGGTGACGTTGTCATACGGGCTGTAGCTTTTCATGTACTCGTAATATTGCGGA -TCCTGCGGGTTACCCCACTCTTCAAACTCACCAGTGGTAAGAGGAATTGATTCATCAAGCATCGTTGTTACAACATCAAC -AAACGGTACCTGGGCGATAACGCCGTGGAATAATTCCGGGCGTTGATTAATTGCAACGCCCATCAACATGCCCCCCGCAC -TCCCGCCCATCGCATAACAAAGCGAAGGAGAGCCATAGCCCAGTTTTAACAATGCATCGCAGGCATCAAGATAATCATTA -AACGTATTTTTCTTCTTCAGAAATTTTCCGTCTTCGTACCATTGTTGCCCCAGCTCACCACCGCCGCGAACATGGACAAT -GGCGTAGACAAAGCCACGATCTAACAAACTCAAGCGGCTAAAACTGAAATCGGCATCAATACTTGCGCCGTAAGAACCAT -AGCCATACACCAGCAACGGGTTGTGTCCTTTGCGAAAATGTTTGCGATGGTAGACCAACGAAACCGGAACTTCGACGCCA -TCACGGGCGACTATCCACAGGTGTTCACTGCGGTAATTCGCCGCATAAAAACCAGGAACTTCCGTTTGTTTTAATACACG -ACGCTCACCGGTATCCATATCCAGTTCAAACAAAGTGTCTGGTGTAGTCATGGAAGAATAACCATAACGCAATCGCGCGG -TTTCAGGTTCTGGATTGTAGGCAATCCAGGTCACATAGGCCGGATCATCAAAGGCAATACCAATGACTTCCCGGGTCTTG -CGGTTAATTTGGCGCAAACTGGTTAACCCGCGCTGACGCTCTTCAACCACCAGCCAGTCGGTAAACAGCGTAAACCCTTC -CAGCATGATGTTTTCGCGTGGCGGAATTAACTCTTCCCACTGTTGCTCATCACGCATACGGGTACGGTATAAGCCAAAGT -TTTTGCCGTGGCGGTTGGAACGCAGATAAAAACGATGCTGGTAGTGATCAAGGCTGTATTCGTGATCTTTGCGGCGCGGC -AGAAAAACAAACGGCTCGGCATCGGCCATTTCCGCGTCCAGCAGGCGAACTTCACTGGTGGTGGCGCTGGCCAAATGAAT -GACTACATAGTGCTTCGAGGTCGTTTTATGCAGGCTGACGTAATAGGTATCGTCTTTTTCTTCGTAGATCAGTTTATCTT -GCGATGCTGGCGTACCGATGGCGTGACGCCAGACCTGATAAGGCAGCAGCGTCACCGGATGCTTGCGAACATAGTAGAAA -ATCCAGGAGTCATTTGCCCAGACAAAGCTGGGTTCAACGTTATCCAGCAGTTCCGGGTACCAGTTACCAGTTTCCAGATT -ACGAAAACGAATGCCGTACTGGCGTCGGGAAAGAAAATCTTCTGCCAGCGCCATAATGGTGTTATCGGGCGTAATCGCCA -TTCCGCCCATCGAATAAAACTCACTATGAGCTGCGCGCTTATTGGCATCGAGCAATGTTTCCCACTCATCCCACTCTTCA -CTGAATGCCGATTGACGCTGGTAGATAGCATATTCACAGCCTGGTTCATAAATATGCCGATAGCGGTAGCCATTTTTGAT -GTAGGGCGCAGAAACTTCTCGTTGCGGAATGCGGTCGATGATTTCCTTTAAGATGCGATCCTGCAAGGCTTGTTGTGAGG -CCATCACCCGATGACCGTAACTATTTTCTTGTTGCAGGTAGTCCAGGACTTCTGGCTGAGAACGCGTATCGTCCCGCAGC -CAGTAGTAATTATCGATGCGCGTATCGCCATGAAGCGTCATGGCGTGGGGAATGCGGGCGGCTTTTGGTAGCATGTTATT -GTTCTTTCTGGTTGAAACATCTTATAAGGGTGGCAAAACTCACCGGGGATGCAAGCGAAACAGGGGAGTCATTGCTTAGA -TGATGACAGGTAATGGCGCGGATATCGAATGTTATGCAGACAGAGAAAATCAGCCTGTTCAAATGGCTGTGCGATTCTGG -ATAGCCCGAAATAGTCAACTTCAGGCTATCCAGAGAGCGGAATTATTCCGCCAAAGTGCGTTTTTGCTGTTCGAGATCGC -GTTCAATGCCGTCACGAACATCCTGGGGGATTTTCAGCGCGTCACCCAGTGCATTCAGGTAACTGCGTTCCATAAAATGG -TCAATATCAATAGCCGCGCAACTCAGGAAATAGATTTCCAGCGCCTCTTCTTCATTGCGGACCCCGGTAGCCAGGCGTTG -TGGATCCAGCGGTTGTTCGATTGCCTGCTCAATGAGTACACGCCCCTGCTCTTCCACGCCGGCTCCACGCAATTGCTGGT -CGATTGCCGCACGTTCTTTGGCATCAATATGACCATCACTTTTAGCGGCAAAGACCAGCGCAAGGATCAAACGTGCTGTA -CGCTCATCCAGCGGCGTACTTTGCGCGCCAAACTGCGGTTCGTCCTGATGCGCCGCGCGAATTTTATCTTTGTATTTATT -CCACAGCACCGTACCCGCTACCGCTCCGCCGCCAACCAGTAACGCGTTGGTGCCATATTTCGTAAGAAGTTTACGTGCTG -ATTTATTTGCGACCAGCAGCCCAGCCAGTCCGCCTAATGCGCCTGGCACTAACAGTTTGACCAATCCCTGATCCGCAGAC -GAGGAGGTAGAAGAACTGCTTTGCCCAAGCAGGGATTGCAGTTGATTTAACCAGTTAGCCATATTTGCTCCTCAATAACC -ATTTTTAGTGCCTGTAGCATAGCGGATGAGGATGTCAGAAAATGTATATCGAGACAAAAGATGCGCAAATAAGCGGGGCG -GTAGGCCGTTATTCAAAGAAATTCGCGCCAGGTAAGGTATTTACTGTATATCAGGTGATAAGGGTATTTTAGGTGAAAGT -AGTTTGTCGTTTTGAGTGGCATTGTTTGATGCTGATTGCCCGATGCGACGCTGTTGCGTCTTCTCAGGCCTACGATTGTG -GTGCGTTCTGGGGCGGACAAGGCACTCGCGCCGCATCCGCCAACAGTCAATCGAATTATCAGAAGCCATTAACGCCGCTG -ATATTCCGCCATTCCCGCTTTGCAGTCCACGCTGACCTGGTAATGAATATCGGCACTTTTACCACGCACGGTTAGCGGTA -CTGACCATTTATCATCTTTACCCTGAATGTCCTGCAAACTGACCCAAGCCACGGGATCGGCCTGACCGACAATTTTTTGA -TCATCTGCCCAACGCGCCACGCGATTTTGTTGATAATCACGTTTTACGCTCGCGGCAATTCCGGCAGCATCCAGATCTTC -ACACTTTGGGAAAGTGACCGACTTGCTGGTTTCATTATTGGCAGCGAAAACTGATGCGCAGGCAGAAACCAACAACAGCC -CTAAAAACGCCCCTCTTTTTTTCATGTTTTTCTCCATAGCACAATGATTCAGGAGAAAGCATGGTACAAATTGTCAGGAG -CGCAAGTTGCTTCAGGCCGCGTGTGAGGCATCTTCCTCTTCGGATTCAGCACCGACGACCTGTGGGGACGGTAATTTGCC -GGTTTTCAGAATGGTGCTCAGCACATCTTTTTGTTCTGCCAGCCATAGCGAAAGGGCTTCACGTTGCTCGTCTTCCATTT -GCACTGGAGAATTTGTCAGCCAGGTGTCAAGCAGATCCGCCGTATCAAGCATTTTGTCATAAGCATCGGCTTCCTTTTTG -CTGGTAAACGACATTTTCTCTTCGCCCTCACGAATGACTACGTATTTAACTTCAACCGCCATTTGCAGCCTCTCATAATA -ACTGTGATTTTATACAGTATATTTCTTTTCGGTTGAGAAATCAACATCAGCAATAAAGACACACGCAAACGTTTTCGTTT -ATACTGCGCGCGGAATTAATCAGGGGATATTCGTTATGACGTTATTAGGCACTGCGCTGCGTCCGGCAGCAACTCGCGTG -ATGTTATTAGGCTCCGGTGAACTGGGTAAAGAAGTGGCAATCGAGTGTCAGCGTCTCGGCGTAGAGGTGATTGCCGTCGA -TCGCTATGCCGACGCACCAGCCATGCATGTCGCGCATCGCTCCCATGTCATTAATATGCTTGATGGTGATGCATTACGCC -GTGTGGTTGAACTGGAAAAACCACATTATATCGTGCCGGAGATCGAAGCTATTGCCACCGATATGCTGATCCAACTTGAA -GAGGAAGGACTGAATGTTGTCCCCTGCGCTCGCGCAACGAAATTAACGATGAATCGCGAGGGTATCCGTCGCCTGGCGGC -AGAAGAGCTGCAGCTGCCCACTTCCACTTATCGTTTTGCCGATAGCGAAAGCCTTTTCCGCGAGGCGGTTGCTGACATTG -GCTATCCCTGCATTGTAAAACCGGTGATGAGCTCTTCCGGCAAGGGGCAGACGTTTATTCGTTCTGCAGAGCAACTTGCT -CAGGCATGGAAGTACGCTCAGCAAGGCGGTCGCGCCGGAGCGGGCCGCGTAATTGTTGAAGGCGTCGTTAAGTTTGACTT -CGAAATTACCCTGCTAACCGTCAGCGCGGTGGATGGCGTCCATTTCTGTGCACCAGTAGGTCATCGCCAGGAAGATGGCG -ACTACCGTGAATCCTGGCAACCACAGCAAATGAGCCCGCTTGCCCTTGAACGTGCGCAGGAGATTGCCCGTAAAGTGGTG -CTGGCACTGGGCGGTTATGGGTTGTTTGGTGTCGAGCTATTTGTCTGTGGTGATGAGGTGATTTTCAGTGAGGTCTCCCC -TCGTCCACATGATACCGGGATGGTGACGTTAATTTCTCAAGATCTCTCAGAGTTTGCCCTGCATGTACGTGCCTTCCTCG -GACTTCCGGTTGGCGGGATCCGTCAGTATGGTCCTGCAGCTTCTGCCGTTATTCTGCCACAACTGACCAGTCAGAATGTC -ACGTTTGATAATGTGCAGAATGCCGTAGGCGCAGATTTGCAGATTCGTTTATTTGGTAAGCCGGAAATTGATGGCAGCCG -TCGTCTGGGGGTGGCACTGGCTACTGCAGAGAGTGTTGTTGACGCCATTGAACGCGCGAAGCACGCCGCCGGACAGGTAA -AAGTACAGGGTTAAACCCGGCAAAAAAACGCTACAAAAATGCCCGATCCTCGATCGGGCATTTTGACTTTTACAGCTTAG -CGCCTTCTACAGCTTCACGCGCCAGCTTAGTAATGCGGTCGTAATCGCCCGCTTCCAGCGCATCTGCCGGAACCAGCCAG -GAACCACCGATGCACAGCACGCTTTTCAGCGCCAGGTAGTCACGGTAGTTAGCCGGAGAAATACCACCCGTCGGGCAGAA -ACGGACCTGGGAGAACGGACCCGCGATCGCCTGCAGGGCTTTCACGCCGCCGTTAGCTTCAGCCGGGAAGAATTTGAACT -CTTTCAAACCGTAGTCCATACCCAGCATCAGTTCGGAAACAGTGCTGATCCCCGGAATCAGAGGAATAGTCCCTTCGGTA -GCAGCTTTCAGCAGCGGCTCGGTCAGACCCGGGCTAATTGCGAACTGTGCACCCGCTTCAGTGACTTCTGCCAGCTGCTG -TGGATTCAGCACCGTACCGGCACCCACAATCGCTTCAGGCACTTCTTTGGCGATAGCACGGATAGCGTCAACTGCACACT -CGGTACGCAGAGTCACTTCCAGAACGCGCACCCCACCAGCAACCAACGCTTTTGCCATCGGCACCGCGTGTTCCAGTTTT -TTTACCACGATAACCGGTACAACCGGGCCGGTGGTCAGGATTGATTCTGCACTTGTTTTCCAGTTTTTCATCAGAGTTTT -CTCTCGCCTGATTACAAATTTGTCGTCTTAAAAAGTGATACAGGTTGCGCCCTGTTCGGCACCGGACAGTTTTTCACGCA -AGGCGCTGAATAATTCACGTCCTGTTCCCACGCGTGACGCGCTCAGGTCAGGAATGTGCGGTTCGCGAGCAGCCAGTTCC -GCTTCGTCTACCAGCAGCGTCAGTTCGCCTGTCTGTCCATTCACACGAATGATGTCCCCGTCGCGCACTTTTGCCAGCAG -CCCGCCATCGTAGGCTTCTGGTGTTACGTGGATAGCTGACGGCACTTTACCTGAAGCGCCGGAGAGTCGTCCATCGGTAA -CTAACGCAATTTTGAAACACCGGTCCAATAATACACCAAGTGGCGGCATGAGTTTATGTAATTCTGGCATTCCGTTCGCT -TTTGGCCCCTGATGACGGACAACAACGACACAATCGCGGTCCAGCAAACCCGCTTCAAAGGCCGGCATAACGTCATGCTG -GCTTTCAAAAACAACCGCTGGCGCTTCAATCACCTGGTTCTCAACCGGCACGGCAGAGGTTTTCATAACCGCACGGCCCA -GGTTACCGCTTAACACTTTTGTCCCACCATGATGAGAGAAAGGTTGTTCGAAGGAAGCGATCACATTGCTGTCGAGTGAT -TTTTCCGCCCCTTCCCGCCAGTCCAGTTCACCATTATTCAGCCATGGTTCAAGGGTATAACGAGACAGACCAAAACCTGC -CACCGTATTGACATCTTCATGCAGCAGGCCTGCTTTGAGCAGTTCACGCACCAGAACCGGTACGCCACCTGCCGCCTGGA -AGTGGTTAATATCGGCCGGACCGTTCGGGTAGAGACGTGCCATCAGCGGTACAACATCAGAAAGGTCAGAGAAGTCATCC -CAGTTAATCTGAATACCGGCCGCGCGCGCCATCGCCACCAGGTGCATGGTGTGGTTAGTGGAACCACCGGTCGCCAGCAG -TGCAACGATACCGTTCACCACCACTTTCTCATCGATCATCTTACCGATCGGCATCCATTCATTACCATTACCGGTCATGC -GTGTAACCTGACGCGCAGCTGCGGCGGTCAAAGCATCGCGCAGCGGAGAATCCGGATGAACAAAAGAAGAGCCTGGCAAC -TGCATCCCCATAAACTCCACCACCATCTGGTTGGTGTTGGCAGTACCGTAGAAAGTACATGTTCCCGGCGCATGGTAAGA -CGCGGCTTCTGACTCCAGTAAGGCCATGCGGTCCACTTTACCTTCGGCATAAAGCTGGCGAATACGCACTTTTTCTTTAT -TTGGCAAACCGCTTGCCATCGGTCCAGACGGCACAAACACCGCAGGCAAATGACCAAACGACAGGGCTGCCATCGTCAGA -CCCGGGACAATCTTGTCGCACACACCGAGGAACAGAGCACCATCAAACATGTTATGGGACAGCCCCACCGCCGCAGACAT -CGCTATCACTTCGCGGCTTAGCAGCGACAATTCCATTCCATCCTGCCCCTGGGTGACACCATCACACATCGCCGGAACAC -CGCCCGCAACCTGACCAACCGCATTCGCTTCATGCAGGGCTTTACGAATGATTTCTGGATAGTGTTCATAAGGCTGGTGC -GCGGAGAGCATGTCGTTATAGGAGGTGATGATGGCGATATTGTTACGCAACATGCTTTTCAAAGAGGCTTTGTCTTCTGG -CTGGCAGGCAGCGAAACCGTGTGCCAGGTTACCGCATGCCAACTGCGAACGATGAACGGTCGAAGTTTTCGCTTGTTCTA -TCCGGGCGAGATAAGCAGAGCGAGTCTCGCGCGAACGTTCAATGATTCGATTTGTTACGCGTAACAATTGTGGATTCATA -AAGGCTCCTGAAATTGAGTTGTCAGAGCAGGATGATTCACAACGCGTTTCATTCAGAGGATTTATGACTGAAACGCCTGT -AACCGGAGCTCATAGGGCAAAAACGTTTCAGTCAGTGTAATAAAAAAAGCCTCGTGGGTGAATCCGCACGAGGCCTGAAA -GTGTAAAAATTGTTCTACAATCTGCGCAAGATCATGTTACCGGTAAAATAACCATAAAGGATAAGCGCAGATATTACTCA -AACTCATTCCAGGAACGACCATCACGGGTAATCATCGCCACCGAGGCAACGGGTCCCCAGGTTCCGGCCTGATACGGTTT -CGGCGCATCATTGTCCATCGCCCACGCCTCAGTAATGGAGTCTACCCATTTCCAGGCTTCTTCCACTTCGTCGCGACGTA -CAAACAGTGCCTGAATACCACGCATGGTTTCCAGCAGCAAACGTTCATAGGCATCCGCCAGATGCGTCTGATTAAAGGTT -TCTGAATAGCTCAGATCCAGCTTGGTGATTTGCAGGTTATGTTTGTGGTCAAGGCCAGGAACTTTATTCAGTACCTGGAT -ATCCACGCCTTCATCAGGTTGCAGACGGATAGTCAGTTTATTCTGCGGCAGATCCTGCCACGATTCTTTAAACAGATTCA -GTTCAGGTGTTTTGAAATAGACCACGACTTCAGAACATTTGGTCGGCAGACGTTTACCAGTACGCAGGTAGAATGGCACA -CCGGCCCAGCGCCAGTTATCAATGTCGACGCGGATCGCCACGAAAGTTTCTGTATTGCTGCTCTTGTTCGCGCCCTCTTC -TTCCAGATATCCCGGCACTTTTTTGCCCTGGGCGAAGCCCGCAGTATATTGCCCGCGTACGGTTTTTTCGCGTACGTTGG -AGCGGTCGATGCGGCGCAGAGACTTCAGTACTTTCACTTTTTCATCGCGGATGCTGTCTGCGCTCAGGTCAGACGGCGGA -GACATCGCAATCATGCAAAGAATTTGCAGCAGGTGGTTCTGGATCATGTCGCGCATCTGACCGGCTTTATCAAAATAGCC -CCAGCGCCCTTCGATCCCCACTTCTTCTGCCACGGTAATCTCAACATGATCAATGGTGCGATTGTCCCAGTTATTCACAA -ACAGGGAGTTAGCAAAACGCAGCGCCAACAGGTTCAGCACCGTTTCTTTACCAAGATAGTGGTCGATACGGTAAACCTGG -CACTCCTCGAAGTATTCGCCAACCTGATCATTGATTTCCTGCGAGGTCGCCAGCGACGTCCCCAGCGGTTTCTCCATGAC -TACGCGTGCCGGTTTAGCATTCAGTTTTGCCTCGCCAAGCCCTTTGCAAATTGCGCCAAAAGTGCTGGGCGGCATGGCAA -AGTAGTTAATGGTGATACGATTTTTTTGATCCAGCATCGCGCCGAGACGGCTGAATGCAGCAGTGTCATTGACATCGAGA -TTACAAAAATCCAGACGTGCACTCAGGGTGTCCCATAAACCTTCATCAATGGTTTCTTTCATGAAAGTTTCGAGCGCCTC -GCGGACAACTTTGGTATATGCCGCTTTATCCCAGTCAGCACGCCCTACGCCGATAATCCGGGTGTCCGGGTTGAGCTGAC -CGGCTTTTTCCAGTTGATACAGGGAAGGCAGCAATTTACGACGCGCAAGGTCGCCTTTCGCGCCGAAAATGACCAGGTCA -CAGGCCTGGGCTGTTTGCGTTACCGCCATGTCATTCTCCTTAAGTTAACTAACCCGGTACTTAAGCCAGGGTATACTTGT -AATTTTCTTACGGTGCACTGTACTGCTTTTACGAGCTTGCGAAAACTGTAAACGCTTATCCACCCGTGCGATTACGGGAA -AAGCGCGCAAAGTGCGGCAAAACTGATAAAAAAATCATCGTTTTCCATTGGGTAAAAATCTGACACTGATCATGTTATGA -AAAAAAATAACAACTTTTTTATCTGCTTTTGTCATTAACACGGCACACAGGCGTAATATCTGACAAAACTGCATTTCGAT -TTCTTTCAGTGCGGAAATCGTCATTACCCGTGAGTCTCTTTACATCATGAATATGCTGGAAAAAATCCAGTCTCAGCTGG -AACATTTGAGCAAATCAGAGCGCAAAGTTGCCGAGGTCATTCTGGCTTCGCCCGATAACGCGATCCATTCGAGTATTGCT -GCTATGGCACTGGAAGCCAATGTTAGCGAACCGACGGTGAATCGTTTCTGTCGCAGCATGGACACGCGCGGTTTTCCTGA -TTTTAAACTTCATCTGGCACAGAGTCTGGCGAATGGCACTCCCTATGTTAATCGCAATGTCAATGAAGATGACAGCGTTG -AATCATACACAGGGAAAATATTTGAGTCCGCAATGGCAACGCTTGATCATGTCCGTCATTCACTGGATAAATCTGCCATC -AACCGCGCCGTCGACTTGCTCACTCAGGCAAAAAAAATCGCCTTTTTCGGATTAGGCTCTTCAGCCGCCGTTGCCCACGA -TGCGATGAATAAGTTCTTTCGTTTTAATGTTCCGGTGGTGTACTCCGATGATATCGTGCTGCAACGCATGAGTTGTATGA -ATTGTAGCGACGGAGACGTGGTGGTGCTGATTTCTCACACTGGAAGAACAAAAAATCTGGTCGAGCTGGCGCAGCTGGCA -CGCGAAAACGACGCCATGGTGATTGCCCTCACCTCTGCGGGTACCCCGCTCGCCCGGGAAGCAACGCTGGCAATTACCCT -CGACGTACCGGAAGATACTGACATTTATATGCCCATGGTTTCTCGACTTGCACAGCTGACCGTGATAGATGTGCTGGCGA -CAGGATTTACTTTGCGACGCGGTGCAAAATTCAGAGATAACTTGAAGCGGGTCAAAGAAGCGCTGAAGGAATCGCGTTTT -GATAAGCAGTTACTTAATTTAAGTGACGATCGCTAAAAACGACTGTCACTGTCCTAATCTTATACGACATCCGAATGAGA -TTAATTTATCGCCATCGCGGCGTTATTTCATTCGGATTTCATGTTCAAGCAACACCTGGTTGTTTCAGTCAACGGAGTAT -TACATGTCCAGAAGGCTTCGCAGAACAAAAATCGTTACCACGTTAGGCCCAGCAACAGATCGCGATAATAATCTTGAAAA -AGTTATCGCGGCGGGTGCCAACGTTGTACGTATGAACTTTTCTCACGGCTCGCCTGAAGATCACAAAATGCGCGCGGATA -AAGTTCGTGAGATTGCCGCAAAACTGGGGCGTCATGTGGCTATTCTGGGTGACCTCCAGGGGCCCAAAATCCGTGTATCC -ACCTTTAAAGAAGGCAAAGTTTTCCTCAATATTGGGGATAAATTCCTGCTCGACGCCAACCTGGGTAAAGGTGAAGGCGA -CAAAGAAAAAGTCGGTATCGACTACAAAGGCCTGCCTGCTGACGTCGTGCCTGGTGACATCCTGCTGCTGGACGATGGTC -GCGTCCAGTTAAAAGTACTGGAAGTTCAGGGCATGAAAGTGTTCACCGAAGTCACCGTCGGTGGTCCCCTCTCCAACAAT -AAAGGTATCAACAAACTTGGCGGCGGTTTGTCGGCTGAAGCGCTGACCGAAAAAGACAAAGCAGACATTAAGACTGCGGC -GTTGATTGGCGTAGATTACCTGGCTGTCTCCTTCCCACGCTGTGGCGAAGATCTGAACTATGCCCGTCGCCTGGCACGCG -ATGCAGGATGTGATGCGAAAATTGTTGCCAAGGTTGAACGTGCGGAAGCCGTTTGCAGCCAGGATGCAATGGATGACATC -ATCCTCGCCTCTGACGTGGTAATGGTTGCACGTGGCGACCTCGGTGTGGAAATTGGCGACCCGGAACTGGTCGGCATTCA -GAAAGCGTTGATCCGTCGTGCGCGTCAGCTAAACCGAGCGGTAATCACGGCGACCCAGATGATGGAGTCAATGATTACTA -ACCCGATGCCGACGCGTGCAGAAGTCATGGACGTAGCAAACGCCGTTCTGGATGGTACTGACGCTGTGATGCTGTCTGCA -GAAACTGCCGCTGGGCAGTATCCGTCAGAAACCGTTGCAGCCATGGCGCGCGTTTGCCTGGGTGCGGAAAAAATCCCGAG -CATCAACGTTTCTAAACACCGTCTGGACGTTCAGTTCGACAATGTGGAAGAAGCTATTGCCATGTCAGCAATGTACGCAG -CTAACCACCTGAAAGGCGTTACGGCGATCATCACCATGACCGAATCGGGTCGTACCGCGCTGATGACCTCCCGTATCAGC -TCTGGTCTGCCAATTTTCGCCATGTCGCGCCATGAACGTACGCTGAACCTGACTGCTCTCTATCGTGGCGTTACGCCGGT -GCACTTTGATAGCGCTAATGACGGCGTAGCAGCTGCCAGCGAAGCGGTTAATCTGCTGCGCGATAAAGGTTACTTGATGT -CTGGTGACCTGGTGATTGTCACCCAGGGCGACGTGATGAGTACCGTGGGTTCTACTAATACCACGCGTATTTTAACGGTA -GAGTAAGTACGTTGCCGGATGCGGCGAAAACGCCACATCCGGCCTACAGTTCAATGATAGTTCAACAGATTTCGAATATT -CTGAAGCAAACTTGAACTTATCATCAGGCGAAGGCCTCTCCTCGCGAGAGGCTTTTTTATTTGATGGGATAAAGATCTTT -GCGCTTATACGGCTGGATTTCGCCCGGTTTGCGAGTTTTCAGCAATTTTAGTATCCAGGTGTATTGTTCTGGTCGCGGAC -CAACAAAAATCTCGACTTCTTCATTCATCCGCCGCGCAATCGTATGATCATCCGCCTCTAACAGATCATCCATCGGTGGG -CGCACCTGAATCGTCAGACGATGCGTCTTGCCATCATAAATCGGAAACAGCGGTACAACGCGCGCACGGCACACTTTCAT -CAAACGACCAATCGCGGGCAACGTCGCTTTATAGGTGGCAAAGAAATCCACAAATTCGCTGTGCTCTGGGCCATGATCCT -GATCGGGTAAATAATATCCCCAGTACCCCTGACGTACCGACTGGATGAATGGTTTAATACCGTCATTTCTCGCATGCAGA -CGACCGCCAAAGCGACGACGCACCGTGTTCCAGACATAATCAAAAACCGGGTTGCCCTGATTATGGAACATCGCTGCCAT -TTTCTGCCCTTGCGAGGCCATCAGCATGGCAGGAATATCGACGGCCCAACCGTGCGGCACCAGAAAGATAACTTTCTCGT -TATTACGCCGCATCTCTTCGATGATCTCCAGCCCTTGCCAGTCAACGCGCGGCTGAATTTTCTCCGGCCCGCGTATTGCC -AACTCAGCCATCATTGCCATCGCTTGCGGCGCGGTGGCAAACATCTCATCAACAATCGCTTCGCGTTCAGCTTCACTACG -TTCTGGAAAGCAGAGCGACAGATTGATTAACGCACGACGGCGTGAGCTTTTTCCCAGTCGTCCGGCAAAACGTCCCAGCC -GTGCCAGAATGGGATCACGGAACTTTGGCGGCGTTAAAGCGATACCCGCCATCGCTGCTACGCCCAGCCATGCTCCCCAG -TAGCGCGGGTGGCGAAAGGATTTATCAAACTCAGGAATGTATTCGCTATTATTTTTTTTCGTTTCCATGCTTTTCCAGTT -TCGGATAAGGCAAAAATCAATCTGGTGATAGTGTAGCGGCGCAACTTGCCCCGCACCAAATAAAAAAAGCCGGTACTGAC -TGCGTACCGGCTGCGAATGGATGTTAATTAATCAAACCGTAGCTGCGGCACAATCTCTTTGGCCTGCGCCAGGAATTCGC -GACGATCGGAGCCGGTCAGCCCTTCGGTACGCGGCAGTTTTGCCGTCAGCGGGTTTACGGCCTGCTGGTTTATCCATACT -TCATAGTGCAGATGCGGCCCGGTTGAACGTCCGGTATTACCGGAAAGCGCGATACGGTCGCCACGTTTCACCTTCTGTCC -CGGTTTCACCAGAATCTTGCGCAAGTGCATATAACGCGTGGTGTAGCTGCGACCATGACGAATAGCCACATAATAACCTG -CTGCGCCACTGCGTTTGGCAACCACCACTTCACCGTCACCCACTGAAAGCACTGGCGTACCCTGCGGCATGGCGAAATCA -ACACCTCTGTGTGGTGCAACGCGACCGGTCACCGGATTAGTACGACGCGGGTTAAAATTAGACGAGATACGGAACTGTTT -CGCCGTCGGGAATCGCAAGAATCCTTTCGCCAGACCAGTACCGTTACGATCGTAGAATTTGCCATCTTCAGCGCGGATAG -CGTAATAATCTTTACCTTCTGAACGCAAACGTACGCCCAGCAGCTGGCTTTGCTCACGTTTACCATCAAGCATTTCTCGA -GACATTAACACCGCAAATTCATCGCCTTTTTTCAGTTTGCGGAAATCCATTTGCCACTGCATGGCTTTAATCACTGCGCT -CACTTCGGCGCTGGTTAAACCGGCGTTTCTGGCGCTGGCAACAAAGCTTCCCCCGACGGTACCTTTCAGCAGATTGTTAA -CCCACTCTCCTTGCTGCATTTCGCTGGTCATTTTAAAACCGTTAGCGGCAGTACGGTCATAGGTTCGGGTTTCACGACGA -GACACTTCCCAGGTGAGGCGCTGCAGTTCGCCGTCCGCGGTTAATGTCCAGGAGAGTTGTTGACCGATTTTCAGGTTACG -CAATTCTTTGTCGGCCGCAGCCAGTTGGGTGATATCACCCATATCAATACCATACTGATTGAGAATGCTGCTTAGCGTAT -CGCCAGTGGAAACAACATATTCATGCACGCCCGCTTCACCGGCGATTTTGTCATCCAGTTCGTCCTGGGGAATGGCTTCA -TCTTCTTGTGCAGCTTGATCAATCGGCTCACTGGCTTCAGGTAAGAGCGAACGAATTTCGTTCTGTTCCAGCTCAATGGT -TTTGACAATTGGCGTGGCATCACGGTGATAAACATAAGGCCGCCAGACAGCGACGGCCAGAGTAAGAACGGTGAGCGACC -CCAACATAACGCGGTGTGGTCGCGGTAAATTATTAAACGCCAGGGCGACAGAGCGGGCTATCTGTTGCACGTAATCACTT -CCTCATTAATCTCCTTTCAGGCAGCTCGCATACTGGTTGGCTAATTGACTCAGGAATTCTGAATAGCTTGTTTTACCCAG -TTTGATATTCGTCCCCAGGGGATCCAACGTTCCCATACGAACGGATGTCCCTCGTGCGACGCTCTCAACGACCGCTGGCC -TGAACTGTGGCTCAGCAAAAACGCAGGTTGCTTTTTGCTCAACCAACTGTGTTCTTATTTCATGTAAACGCTGCGCGCCA -GGTTGAATCTCAGGGTTAACGGTAAAATGACCAAGCGGTGTCAGTCCAAACTGTTTTTCGAAATAGCCGTAAGCATCGTG -AAAAACGAAATAACCTTTCCCCTTGAGCGGCGCGAGCTCGTTACCAACCTGCGTTTCGGTTGAGGCTAATTGTGCCTCAA -AATCCTTCAGGTTGGCGTCAAGTTTGGCTCGACTTTGCGGCATAAGTTCCACTAATTTTCCATGGATTGCAACCGCTGTA -GCCCGCGCTATCTCTGGGGAAAGCCAAAGATGCATGTTGAAATCGCCGTGATGGTGATCTTCGTCACTTTTTTCCGCGTG -GTCGTGATCATCATCATCGCCGTGAATACTTTTCATCAGTAGCGGTTTCACATCTTCAAGCTGCGCAATCGTTACCTGCT -TCGCTCCTGGTAATTTGCTTACCGGTTTTTGCATAAACGCTTCCATCTCCGGGCCAACCCAAACGACTAAGTCCGCGTTC -TGTAAGCGTTTTACATCCGATGGGCGCAGTGAATAATCATGTTCTGAAGCGCCGTCAGGAAGTAAAACCTCTGTTTCTGT -TACCCCATCAGCAATGGCAGAAGCGATGAACCCAACGGGTTTAAGCGAAGCGACAACGGCGGCATCTGCGGCCTGTGTTG -CACCTCCCCAGAGAGCGGCGGATAATGCTGCGAAAAGAAGCGTTTTTTTATGTAACATAATGCGACCAATAATCGTAATG -AATATGAGAAGTGTGATATTATAACATTTCATGACTACTGCAAGACTAAAATTAACATGACAAGTCTGGTTTCCCTGGAA -AATGTCTCGGTTTCTTTTGGCCAACGCCGCGTCCTCTCTGATGTGTCGCTGGAACTTAAACCTGGAAAAATTTTGACTTT -ACTTGGGCCAAATGGCGCAGGTAAGTCGACACTGGTACGGGTAGTGCTCGGGCTGGTAACACCCGATGAAGGGGTTATCA -AGCGCAACGGAAAACTGCGCATCGGCTATGTACCGCAGAAGCTGTATCTCGACACCACGTTGCCACTGACCGTAAACCGT -TTTTTACGCTTACGCCCTGGTACACATAAAGAAGATATTTTGCCTGCACTGAAACGTGTCCAGGCCGGGCACCTGATTAA -CGCACCGATGCAAAAGCTCTCTGGTGGCGAAACGCAGCGTGTACTATTAGCGCGAGCATTGTTAAATCGCCCGCAATTAT -TAGTGCTGGATGAACCCACTCAAGGCGTGGATGTAAATGGCCAGGTGGCGTTATATGACCTTATTGACCAACTGCGTCGT -GAACTGGATTGTGGCGTTTTAATGGTTTCTCACGATCTGCATCTGGTGATGGCAAAAACCGATGAAGTGCTGTGCCTGAA -TCACCACATTTGTTGTTCCGGCACACCGGAAGTTGTTTCCCTGCATCCGGAGTTTATTTCAATGTTTGGTCCTCGTGGTG -CTGAACAACTGGGTATCTATCGCCATCATCATAACCATCGTCACGATTTACAGGGACGAATTGTTTTGCGTCGGGGAAAT -GATCGCTCATGATTGAATTATTATTTCCCGGTTGGTTAGCCGGGATCATGCTCGCCTGTGCCGCGGGTCCGCTGGGTTCG -TTTGTAGTCTGGCGTCGTATGTCTTATTTCGGTGATACGCTGGCTCATGCCTCATTACTTGGCGTCGCGTTTGGTTTGTT -GCTGGACGTGAATCCATTCTATGCGGTGATTGCCGTTACGCTGCTGCTGGCGGGCGGTCTGGTATGGCTGGAGAAGCGTC -CACAGCTGGCGATCGACACGTTATTAGGGATTATGGCGCACAGTGCCCTGTCGCTGGGCCTGGTGGTCGTGAGTCTGATG -TCTAATATTCGTGTTGATTTGATGGCTTACCTGTTCGGTGATTTGCTGGCAGTGACGCCAGAAGATCTCATCTCTATTGC -GATTGGCGTGGTCATCGTGGTGGCTATTTTGTTCTGGCAATGGCGCAATTTGCTGTCAATGACGATAAGCCCGGATCTGG -CGTTTGTTGATGGTGTGAAATTACAGCGAGTGAAATTGTTGTTGATGCTGGTGACGGCATTGACGATTGGTGTAGCGATG -AAATTTGTCGGTGCGTTGATTATTACTTCGTTGCTGATTATTCCTGCTGCTACTGCGCGTCGCTTTGCCCGCACGCCGGA -ACAGATGGCTGGTGTCGCTGTTTTGGTGGGGATGGTGGCAGTGACTGGCGGTTTAACCTTTTCCGCGGTTTACGATACGC -CGGCGGGTCCGTCGGTGGTGCTATGTGCGGCACTGTTATTTATTCTCAGTATGATGAAAAAGCAGGCCAGCTAATCTATC -GCTGAACACATTTGTCGGATGCGGCGCGAGCGCCTTATCCGACCTACGGTTCGGTATCTCTGGTAGTCCTGGTAAGACGC -GAACAGCGTCGCATCAGGCATATTGCCAGTGCCGGATGCGGCGCGAGCGACCAATCCGACTTACGGCATTTCTGGCGGCG -TTATGCCAAAGTGATTCCACGCCCGCGTCGTCGCCATACGCCCACGCGGTGTACGCTGCAAAAAGCCTTGCTGAATCAAA -TAAGGTTCCAGCACATCCTCAATGGTTTCACGTTCTTCGCCAATGGCTGCCGCCAGGTTATCCAGACCTACAGGTCCACC -AAAGAACTTATCGATTACCGCCAGCAACAATTTGCGGTCCATATAATCGAAACCTTCAGCATCGACATTCAACATATCCA -GCGCCTGAGCAGCGATATCTGCCGAGATGGTGCCATCGTGCTTCACTTCGGCGAAATCACGCACTCGACGCAGCAGACGG -TTGGCAATGCGCGGCGTACCGCGAGCGCGACGAGCAACTTCCAGCGCGCCGTCATCACTCATCTCAAGCCCCATAAAGCG -TGCGCTGCGACTGACGATATATTGCAGATCCGGCACCTGATAAAACTCCAGACGTTGCACAATACCAAAACGGTCGCGCA -ACGGTGATGTCAGCGAACCTGCGCGCGTGGTTGCACCAATCAGGGTAAACGGCGGCAAATCAATTTTAATGGAGCGTGCC -GCCGGACCTTCACCAATCATGATATCCAGTTGGTAGTCTTCCATTGCCGGGTACAGCACTTCTTCAACAACTGGCGATAG -ACGGTGGATCTCATCAATAAACAGCACGTCATGCGGTTCAAGGTTAGTGAGCATCGCAGCCAAATCGCCCGCCTTTTCCA -GCACCGGACCAGAAGTCGTGCGTAAATTAACGCCCATTTCATTGGCGACAATGTTGGCAAGCGTAGTTTTACCCAACCCC -GGAGGACCAAAAATCAACAAATGATCGAGGGCATCGCCGCGCAGTTTCGCTGCTTTGATGAAAATCTCCATCTGTGAACG -AACCTGCGGCTGACCAACATACTCTTCCAGTAATTTGGGGCGAATGGCGCGATCTGCTACATCTTCCGGCAAAGTGGTAC -CGGCAGAAATCAGACGGTCTGCTTCAATCATCCTTTACCTCATAACGCGGCGCGTAGGGCTTCGCGAATTAAAGTTTCAC -TGCTGGCGTCAGGGCGAGCGATTTTGCTCACCATGCGGCTTGCTTCTTGTGGTTTATAGCCCAGCGCCACCAGCGCGGCA -ACCGCTTCTTGTTCAGCATCGTCGGTCGCCGGGCTGGCAGGAGACGTGAGTACCAGGTCGGCGGCTGGCGTAAAGAGATC -GCCATGCAAACCTTTAAATCGGTCTTTCATTTCAACAATCAAGCGTTCGGCGGTTTTTTTGCCAATACCCGGCAGTTTCA -CCAGTGCCCCCACTTCTTCACGCTCAACGGCATTAACGAACTGCTGCGCTGACATTCCGGAGAGGATCGCCAGCGCCAAC -TTCGGGCCGACGCCGTTGGTTTTGATCAACTCTTTGAACAATGTGCGCTCTTGTTTATTGTTAAAACCGTACAGCAGTTG -CGCGTCTTCACGCACCACAAAGTGGGTGAAAACGATCGCTTCCTGACCCGCTTCAGGGAGTTCATAAAAACAGGTCATCG -GCATATGCACTTCATAGCCTACGCCGCCCACTTCAATTAACACCAGCGGGGGTTGTTTTTCAATGATGATGCCTCTGAGT -CTGCCTATCACATGACGCTCCTGCGTAATGAATCAAAGATAATGCTGTATGATAAAAAAATGCTGGATAGATATCCAGCG -AAGGATGAAGAAAACTTGCGAGGTGTCTCGATGAACTGAAAAATGGCACAGTATAATTTATTCTACAGGTTATATTGGAA -GCAAATATTTTAATATTACATATTCAGTGAAGAAATGCGTAATAAAAATATACATTGCGCCTCCTGAAAAAATAAATTTT -TTATGCTATTACGTATATTTGTATCTATTTCAATGGAATGACAACGTGAATATTAATTACCCTGCTGAATATGAAATTGG -AGATATCGTCTTTACATGTATAGGTGCTGCCTTATTTGGTCAAATATCAGCTGCATCAAATTGCTGGAGTAATCACGTCG -GGATCATTATCGGTCATAACGGTGAAGACTTCCTGGTTGCAGAAAGCCGGGTTCCCCTTTCAACCATCACCACGCTATCT -CGTTTTATTAAACGTTCGTCTAATCAACGCTATGCTATAAAGCGATTAGACGCTGGGCTGACAGAACGACAAAAACAACG -AATTGTTGAACAGGTTCCCTCCCGGCTACGCAAACTTTACCACACCGGTTTTAAATACGAATCTTCGCGCCAGTTCTGTT -CAAAATTTGTTTTTGATATTTATAAAGAAGCGCTATGTATTCCGGTGGGTGAAATAGAGACGTTTGGAGAATTGTTAAAT -AGCAATCCGAATGCAAAACTCACTTTCTGGAAATTCTGGTTCCTGGGTTCTATTCCGTGGGAGCGTAAAACCGTCACGCC -AGCCAGTTTGTGGCATCATCCGGGTTTGGTGTTGATTCATGCGGAGGGAGTGGAAACGCCTCAGCCGGAACTGACCGAGG -CGGTATAACTTAACGCAGTCGCCCTCTCGCCAGGTTCAGCCGCGATTCGCTCATCTGCATCGCATTCTGACTAACGTGGC -AGTGGGTGATAGCAATCGCCAGCGCATCGGCGGCATCCGCCTGTGGATTAGCGGGCAGTTTCAGCAAGGTGCGGACCATA -TGCTGCACCTGGCTTTTTTCGGCACTGCCAATACCTACCACCGTTTGCTTTACCTGACGTGCCGCGTATTCAAATACTGG -CAACTCCTGATTCACCGCCGCCACAATCGCCACGCCGCGCGCCTGGCCCAGTTTCAGGGCTGAGTCAGCGTTCTTTGCCA -TAAAGACTTGTTCAATGGCGAAATAATCAGGCTGGAACTGGGTGATGATTTCCGTCACGCCCGCATAGATGAGTTTCAGA -CGAGACGGTAAATCATCCACTTTGGTGCGGATGCATCCGCTACCCAGGTAGGACAGTTGCCTACCTACCTGGCGGATGAC -GCCGTAGCCGGTCACGCGCGAACCCGGATCAATGCCGAGAATAATAGCCATCACGCGTCTCCGTTTTGCTGTTTAGCAGG -CCTCATCAGAGAGTCGCTGCGACCTCATCAGAGATTTCACCGTTATGGTAAACTTCCTGCACGTCGTCGCAATCTTCCAG -CATATCGATCAGACGCATCAGTTTCGGTGCGGTTTCTGCATCCATATCAGCTTTGGTAGACGGGATCATGGAAACTTCCG -CGCTGTCTGCTTTCAGACCTGCCGCTTCCAGAGCGTCGCGCACTTTACCCATTTCTTCCCATGCAGTGTAGACATCAATC -GCGCCGTCATCATAGGTCACAACGTCTTCAGCACCTGCTTCCAGTGCTGCTTCCATGATGGTGTCTTCATCGCCTTTCTC -GAAGGAGATCACGCCTTTTTTGCTGAACAGATAGGCAACGGAACCATCAGTACCGAGGTTACCGCCACATTTGCTAAATG -CATGACGCACTTCAGCAACGGTACGGTTGCGGTTGTCAGACAGACATTCAATCATGATTGCCGTGCCGCCAGGACCGTAA -CCTTCGTAGATGATGGTTTCCATGTTTGCATCATCATCACCGCCCACACCACGTGCAATTGCGCGGTTCAGTGTGTCACG -GGTCATGTTGTTAGACAGTGCTTTATCCACCGCCGCACGCAGACGCGGGTTAGCGTCCGGATCGCCACCGCCCAGCTTAG -CCGCGGTTACCAGCTCACGAATGATTTTAGTGAAGATTTTACCGCGCTTAGCATCCTGCGCAGCTTTACGATGTCTGGTG -TTGGCCCATTTACTATGACCTGCCATAAAAATATCTCCAGATAGCCCTGCCTGTTCAGGCAGCGTTAATTACAAACTGTT -CAATCGCCTGCCGGTTGCTCCAGGACTTAGTGAGCGCCGCCGCAGCAGGCGCATCAAGCCACTTGTAAGCCAGATGTTCA -GTGAAAACGATCTGCCGCTCGTGCGGAAGCGCAAGACAGAACCATGATTCCGTATTACGCGTCACGCCCGGCGCATAGCG -ATGACGTAAATGTGAAAAAATTTCAAACTCTACCGTGCGCTGACAGTCAATTAAGGTCAGTTGTTCAGCGACAACATCAA -TGGTGACCTCTTCCTTTACTTCGCGCATGGCAGCTTGCGGCGCGGTTTCACCCTCTTCCACGCTGCCGGTTACCGACTGC -CAGAAATCGGGATCGTCACGCCGCTGCAACATCAGCACCCGTTTCGTATCTTGTGCGTAGATGACCACTAAGATCGAAAC -GGGACGCTTATACACTTTATCCTTCACGCTGCCTCTTCGTTGACTGCCTTCGCTCATCCCATTCACATAGTTATCTATGC -TCATGGGAGTTCACTCAGTTGCCGCCTCGATGCAACGCGAATGATTTCGTGTATTTGAGTCATATCAGTTATTCTCAGCC -TTCTTCACAACCTGAATGCTCAGCTCAGCCAGTGCAGTCGGGTTAGCAAAGCTCGGTGCTTCAGTCATCAGACACGCTGC -CGCCGTGGTTTTCGGGAAGGCGATAACGTCACGGATATTGTCGGTGCCGGTCAGCAGCATGGTCAGACGGTCAAGACCGA -ATGCCAGACCTGCGTGCGGCGGAGTACCGTATTTCAGAGCGTCGAGCAGGAAGCCGAATTTCTCGCGCTGTTCCTCTTCG -TTGATACCCAGAATACCAAACACCGTCTGCTGCATATCACCATTATGGATACGTACTGAACCACCGCCCACTTCGTAACC -ATTGATGACCATATCGTAAGCGTTCGCCACCGCATTTTCCGGTGCAGCTTTCAGTTCTGCAGCCGTCATATCTTTCGGTG -AGGTGAACGGATGGTGCATTGCCGTCAGGCCGCCTTCACCGTCGTCTTCAAACATCGGGAAGTCGATAACCCACAGCGGT -GCCCATTTGCTTTCGTCGGTCAGACCAAGGTCTTTACCCACTTTCAGGCGCAGTGCACCCATCGCGTCGGCAACAATTTT -CTTGTTGTCGGCACCGAAGAAAATCATATCGCCATCTTGCGCGGCAGTACGATCCAGGATGTCTTCGATGATTTCTGCAT -TAAGGAACTTCGCTACCGGGCTGTTGATACCTTCCAGACCTTTCGCGCGTTCGTTAACTTTGATGTAAGCCAGACCTTTC -GCGCCGTAGATTTTAACGAAGTTACCGTATTCGTCGATCTGCTTACGGGTCAGCGATGCGCCGCCCGGAACGCGCAGAGC -CGCTACGCGACCTTTCGGATCGTTCGCCGGACCTGCAAATACAGCAAACTCAACAGATTTCAGCAGATCAGCAACGTCAG -TCAGTTCCATCGGGTTACGCAGATCCGGTTTATCAGAACCATAACGGCGTTCTGCTTCCGCAAAGGTCATTACCGGGAAA -TCGCCCAGATCCACACCCTTCACTTCCAGCCACAGATGACGCACCAGCGCTTCCATCACTTCACGCACTTGCGGCGCGGT -CATGAAAGAAGTTTCCACATCGATCTGAGTAAATTCAGGCTGACGGTCAGCACGCAGGTCTTCGTCACGGAAGCATTTAA -CGATCTGATAGTAACGGTCAAAACCGGACATCATCAGCAGCTGTTTGAACAACTGCGGGGATTGCGGCAGTGCGTAGAAT -TTACCTTTGTGCACACGAGAAGGCACCAGGTAGTCACGCGCGCCTTCCGGCGTGGCTTTGGTCAGCATCGGAGTTTCGAT -GTCGAGGAAGCCGTGGTCATCCATAAAACGGCGCACCAGGCTGGTGATTTTAGCGCGGGTTTTCAGGCGCTGAGCCATTT -CCGGACGACGCAGGTCGAGGTAGCGGTATTTCAGACGCGCTTCTTCGGTGTTGACGTGGTTAGAGTCAAGCGGCAGAACA -TCTGCGCGGTTGATGATAGTCAGCGAGGACGCCAGCACTTCGATTTCGCCGGTCGCCATATCGCGGTTAATATTTTTTTC -GTCACGCGCACGTACGGTGCCCGTGACCTGAATGCAGAACTCATTACGCAGTTCAGAGGCCAGCTTTAACGCGTCCGCAC -GATCCGGATCGAAAAATACCTGCACGATACCTTCGCGGTCGCGCATATCGATGAAGATCAGGCTACCAAGATCACGACGA -CGGTTGACCCAACCACACAGAGTCACCTGCTGCCCCACGTGGGACAAACGGAGCTGTCCACAATATTCTGTACGCATGAG -ATATCCCTTAACTTAGCTGCCGGCGGATGCCCCCTGCTGCGCAGGTGACCAAGTCGCAGCGTTAGCTGTATGTCACAACT -GAATGAAAAAAGGCGGCTATTATACTGGAAATTCTGCCGCACCGTAAGAGCCTGGCCCGCGCTGGAACGCCTCGTTACCA -CTTTATATCGGGCCTGAAATCAGACTCTACGCCAGTTTGCTATAAAGGTGTTGCCCGAACTCATAAAAATTAACAAAATT -TGTCGTTCCGCCATCGGCTAATCGCATTAAGGTGTGAGGCACGATTTTGTTTTTTCAGGAGTCATTATGCTTGAACTTAA -TGCTAAAACCACTGCGCTGGTGGTGATCGATTTACAAGAAGGCATCTTACCTTTTGCCGGTGGTCCACATACTGCCGATG -AGGTAGTTAATCGCGCCGGGAAGCTGGCGGCGAAATTTCGCGCCAGCGGTCAGCCCGTGTTTCTGGTGCGCGTTGGCTGG -TCTGCCGATTACGCTGAAGCATTAAAACAGCCGGTCGATGCGCCCTCACCGGCTAAAGTGTTGCCCGAAAATTGGTGGCA -ACATCCTGCTGCATTAGGTGCAACCGACAGCGATATCGAAATCATCAAACGTCAATGGGGTGCGTTTTACGGTACGGATC -TGGAGTTGCAATTACGCCGCCGAGGTATCGATACAATAGTGTTATGTGGGATCTCGACCAATATCGGTGTTGAATCCACC -GCCCGCAATGCCTGGGAACTTGGCTTTAATCTGGTGATTGCCGAAGACGCCTGTAGTGCCGCCAGCGCCGAGCAGCACAA -TAACAGTATCAACCATATCTACCCGCGCATCGCCCGTGTGCGTAGCGTGGAAGAGATCCTCAACGCGTTATGATTTACAT -CGGTCTACCGCAATGGTCGCATCCTAAATGGGTGCGGTTGGGGATCACCAGCCTTGAAGAGTATGCCCGCCACTTTAACT -GCGTGGAGGGCAACACCACGCTTTACGCCCTGCCGAAACCCGAGGTTGTCCTGCGCTGGCGTGAGCAGACCACAGATGAC -TTCCGCTTCTGTTTTAAGTTTCCGGCGACCATTTCGCATCAGGCAGCATTACGGCATTGCGATGATTTAGTGACTGAATT -TTTGACCCGCATGTCACCGTTGGCTCCGCGCATTGGGCAATACTGGCTGCAACTGCCTGCCACATTCGGCCCACGGGAGC -TGCCTGCGCTTTGGCATTTTCTCGATTCTCTTCCTGGCGAATTTAATTATGGCGTGGAAGTCCGCCATCCACAGTTTTTC -GCCAAAGGAGAAGAGGAACAAACGCTTAATCGCGGTTTACATCAGCGCGGCGTTAATCGGGTGATTTTAGACAGCCGCCC -GGTTCATGCAGCACGTCCACACAGTGAAGCTATTCGCGACGCTCAACGAAAAAAACCTAAAGTTCCGGTACATGCTGTAC -TGACGGCGACAAATCCGCTGATCCGTTTTATCGGTAGTGATGATATGACGCAAAACCGGGAATTATTTCAGGTCTGGTTA -CAAAAATTAGCGCAGTGGCATCAGACCACTACGCCTTATCTTTTTTTACATACGCCAGACATTGCCCAGGCACCGGAACT -GGTACATACCCTGTGGGAAGACTTACGTAAAACGCTTCCAGAGATCGGAGCAGTTCCGGCTATTCCACAGCAATCTTCTC -TTTTCTGAATTTGCCACCTATCATAGACAGGTGCCATCGGCCATTTTAAAGGGAGTTTGTATGGTAAGCGCGCTGTACGC -CGTTTTAAGTGCGTTGTTATTAATGAAGTTCTCTTTTGATGTCGTTCGCCTGCGAATGCAGTACCGCGTTGCCTATGGCG -ACGGCGGTTTTAGCGAACTGCAAAGCGCTATTCGCATTCATGGTAACGCGGTGGAATATATTCCCATCGCGATTGTGCTG -ATGCTGTTTATGGAAATGAATGGCGCAGAAACCTGGATGGTGCATATTTGCGGCATCGTTTTGCTTGCTGGTCGTCTGAT -GCATTATTACGGTTTTCATCACCGTCTGTTCCGCTGGCGACGTTCCGGCATGAGCGCCACCTGGTGTGCGCTGTTGCTGA -TGGTGCTGGCGAATCTTTGGTATATGCCCTGGGAGTTGGTTTTCTCCCTGCGTTAGCGCACAATACGCCACTTTCTTTTT -CCCGGATTTTTACGTTATGTCTCACCGCGACACGCTATTTTCTGCCCCTATCGCCAGACTGGGCGACTGGACCTTTGATG -AACGGGTAGCTGAAGTCTTCCCGGATATGATCCAGCGTTCCGTACCCGGCTATTCCAATATTATTTCCATGATTGGTATG -TTAGCCGAGCGCTTCGTTCAACCTGGTACGCAGGTTTACGATCTGGGTTGTTCTCTGGGCGCGGCGACGCTCTCGGTGCG -TCGCAACATTCATCATGATAATTGCAAAATTATTGCCATCGACAACTCCCCGGCGATGATTGAACGCTGCCGTCGTCATA -TTGACGCCTATAAAGCCCCTACGCCAGTAGACGTCATTGAAGGTGATATTCGCGATATCGCCATTGAAAACGCATCGATG -GTGGTGCTGAATTTTACCCTGCAATTCCTGGAACCTTCCGAGCGCCAGGCGTTACTGGATAAAATTTATCAAGGGCTGAA -CCCCGGCGGCGCGCTGGTGCTTTCGGAAAAATTCAGTTTCGAAGATGCCAAAGTTGGTGAACTGTTGTTCAACATGCACC -ACGACTTTAAACGTGCCAACGGTTACAGCGAACTGGAGATCAGCCAGAAGCGCAGCATGCTGGAAAACGTGATGCTGACC -GATTCCGTGGAAACCCATAAAGCACGCCTGCATAACGCCGGTTTTGAGCATAGTGAGCTGTGGTTCCAGTGCTTTAACTT -TGGTTCACTGGTGGCATTAAAAGCAGAGGACGCTGCATGATCGACTTTGGTAACTTTTATTCTCTGATTGCCAAAAATCA -TCTTTCACACTGGCTCGAAACGCTGCCCGCGCAGATTGCTAACTGGCAGCGCGAGCAGCAGCACGGGTTGTTTAAGCAGT -GGTCAAATGCGGTGGAGTTTCTACCTGAAATTAAACCGTATCGTCTTGATTTATTGCATAGCGTTACGGCAGAAAGCGAA -GAGCCACTGAGCGCAGGGCAAATTAAACGCATTGAAACGCTGATGCGCAACCTGATGCCGTGGCGCAAAGGGCCGTTCTC -ACTGTATGGCGTCAACATCGATACCGAATGGCGTTCCGACTGGAAATGGGATCGTGTTCTGCCCCATCTTTCTGATTTAA -CCGGACGCACCATTCTGGATGTCGGCTGCGGCAGCGGTTATCACATGTGGCGCATGATTGGCGCAGGCGCGCACCTCGCG -GTGGGGATCGACCCTACGCAACTGTTTCTGTGCCAGTTTGAAGCGGTGCGTAAACTACTGGGTAATGATCAGCGCGCGCA -TTTGTTACCGTTAGGTATTGAACAACTTCCGGCACTGAAAGCCTTTGATACCGTCTTTTCGATGGGCGTGCTTTACCATC -GCCGTTCACCGCTGGAGCATCTATGGCAGTTGAAAGATCAACTGGTCAATGAAGGTGAACTGGTGCTGGAAACGCTGGTT -ATTGATGGTGATGAGAACACGGTGCTGGTACCAGGCGATCGTTACGCGCAAATGCGTAATGTCTATTTCATCCCTTCCGC -GCTGGCGCTGAAAAACTGGCTGAAGAAGTGTGGTTTTGTAGATATCCGCATTGCGGATGTGAGCGTTACCACCACAGAAG -AGCAGCGACGCACCGAATGGATGGTTACCGAATCGCTGGCCGATTTCCTCGACCCACATGATCCGGGTAAAACGGTGGAA -GGTTATCCGGCACCTAAACGCGCGGTGCTGATTGCGCGCAAGCCGTAAAGGTCTGGTATTACTGCCGGATGCGGCGTGAA -CGCCTTATCCGGCCTACAAAACCTTGCTAATTCAATATATTGCAGGGACTATGTAGGCCTGATAAGCATAGCGCATCAGG -CAGCTTTACGTTTGCATAACCTCAGCGCCCGTTTCCGGGCGCTATTCACGTCTTACGCCTGAACAGCTGGCTGATCAAAC -GCCGTTAACTTCGGTGCATTGCCCGTATATTTTTCGATATACACCAACGCTGAGTTACCGGCACAGGCATTTGCCAGCTG -CGAGCTGGGGATATCCGCCGTTAACACGTTCGCACTGCCGTTTTTACACAAGCCATTTTCCAGATCTGGCCATGCACCTT -CATGCACGCATACCACGCCTTTTTTGATCCCGTCAGTCACCACCGCGCCTGTCAAAATCTGACCACGTTTGTTCCAGACA -CGCACCAGATCGCCATTCGCAATACCAAAGCGTGCAGCATCTTCGGTGTGAATAGTGATTGGTTCACGATCGGCGATCGC -ATATTTTTTACGCAGTTCCGCATAGTTAAGCTGACTGTGTAAACGGTGTGCCGGATGTGCGGTCAGAAGCTGTAACTGCT -TCTCGTCGGCGGTACCTTTCCATTCATCAGGAGCCAGCCAGGTTGGGTGTGCCGGGCAATCCTTATAGCCAAATTTTTCC -AACGTTTTTGAATAGATTTCAATTTTGCCGCTTGGCGTACCCAGCGCATTTTTCACCGGATCGGCGCGGAAATCACCATA -ACGAACGTACTGTTCGTTCTTCTCGCTGTGGCGCATTTCGATCAGTTTATTTTGCTGCCAGAAGGCATTAAACATTGGCA -TAGTGACGCGTTGCGCACGGGCACCTTTCTGAGCGGCATCATAGAAAAATTTCAGCCACGCCATTTCATCTTTACCTTCG -GTATAGATCTCTTTTCCGCCAGGTTTGAGTAATTCCGCAAGATCGGCAAACACGTCAAAATCGTTACGCGCTTCAAATTG -CGGAGCAACAGCCTGCTTCATCGGCACAATATGCTGGTTGCTGTAATCACCGGTCATCGTCAAGTCATTGCGCTCAAACG -ATGTGGTGATCGGTAATACGATATCTGCGTGTTTGGCTGCTGCGGTCCAGTAGCATTCAGAAACGACGATCATCTCCGGT -TTCTGCCATGCTTTAATCAGACGATTAGTATCCTGGTGATGGGTAAAGTTACCGCCACCCGCCCACCAGATCATTTTGAT -ATTCGGATACGTTTGTTCTTTACCGTTATGCTGATATTTGCCGCCAGGATTTTCCAGCGCATCGACGATACGGGCAACAG -GAATCGCCGTCATTCCGCCATCATCAGCGGCCTCGCTGGCATGTCCGGCAATCGCCGCAGACATTTCCGGCAGCACGCCG -CCAACACGCGTCGGGTTGCCACCGTTGGAGTAATGATAAGAGAAACCAAAACCGCCGCCCGGTGTACCAATCTGCCCTAA -CATCGCCGCCAGCGTCACCAGCATCCAGTGTTTCTGTTCACCATATTGCTGGCGCTGAATTCCCCAGCCTGCCATCAGCA -TTGTGCGATTCGCCGCCATCAGTTCAGCGAGTTTGACTATCTGCGCTTCCGGTACGCCAGTAATTTCCGCCGCCCAGACC -GCGCTCTTCGGCGTATTATCGCTCTTACCTGTCAGATACTCTTCAAACTGCGGATACCCGGTAGTGTATTTTTCAAGGAA -CACTTTATCGTGTTTGCCTTGTGTCATCAGGGTATGCGCAATCCCTAACATCAGTGCCACGTCGGTGCCCATATTCGGCG -CGATCCAGGTGGCATTATCGTCAAAGAATTCGATGGTTTCGGAGCGGATAGGATCAATGGCAATCACTGGTTTGCCAGAT -TTTTTCAGCTGATGGAAGTATTCCAGCCCTTGCTCATCGGTACTGCTCCAGGCAATTTTTAAGGTATTCAGCGGGTTCAT -TCCCCACAGCACCACAACCTGGCTGTTTTCCAGAATCAGCGGCCAGGAGGTCTGCTGTTCATACACCTCTACAGAACCGA -CCACATGCGGCATGATCACCTGTGCTGCCCCGGTTGAATAATCGCCGCTATGCCCGGAATAACCGCCCGCCAGGTTCATA -TAACGTTGCAGTAAGGTTTGCGCTTTATGCAACACGCCAGAAGAGCGCCAGCCGTAAGATCCGGCAAAAATGGCCGATGG -TCCGTTAGCTTTACGAATACGATCATGTTGCTCATGAATCAGTTTTAATGCCTGTTCCCAGCTCACCTGTACATAGGTAT -CTTCGCCACGACCTTTCGCCGGTTGCAGTGGATTATCGAGATAGCTTTTTCTCACCATCGGATGCTGAATACGCGCCGTG -GTGTGTACCTGATCCGCCGCCGTAGACTGTAAGGAATTCGGTATGGTTTTCGCCAGCGCGCCTGTTGAAGAAACAATCTT -GCCGTCCTTCACTTCTACGTTCATCGCTCCCCAACGTCCCGCGGTGAGGATTTTACCGCCCTTCTCTTCTGCCCATGCGG -GGAGCGGTGCTGCCGATGTCACCACCAGCGCTCCAGCGGCAATACCGCTGTGTTTAATAAATTCACGTCTTGTTAATGTC -ATAACTTCCTCCCTGATCAACGAGGATCACTGTTTCTCGGTAATATCTTTGGCGTTGTACTGGAAATACCGCGTTAAAAT -GTCCAGTTCGTTTTCGCTCATGCTGGTTCGTGCCCCCATTCCTTTGGCAATGGACGGCCACGCATTGACGGTGTAATGGT -CGGCGGCAATAGGGGCATGACAACCAGCGCAATAGGTATCGTCAAGTTTTTCAGCGTATTGCCATAGCGGTTTACGGTCC -GCTAATGCGGGATCGGTAAGCGCACCCTGTAAAGACGCCTGACGCCATTGATTGCCGTATTCGTCAGCCTGCCATTCCCC -GTTTACAGTGAGCGCCTTGATACCTTCTTCACTTAATGTGGCTAGCGCCAGCCGTTGACCTGCCGCCAGGTAGAGCGTGT -TTTCACTGCCCTGCATTTGATAACCCTGCAACAGAACGATCGGCTGTTTGCCACTGGCATCAACGACGGTGAGATCGGTT -CCAGGATTCACGGTAGCCAGCTCGCCTATGTGAGAAGTTTTGAAAGGATAAATATGTGCGCCATTAGTAACTGAAGTAGC -GGCCTGACTTTCCAGCTCATGCGCCGCGTTGTCATCCATTTTTATTTCTGGCGGAAAATGGGCAATGCCTTTATGACAAT -CGATACAGGTTTCGCTGTCCTTTTGTGCTTTGTTATGCATTTTCTGCGCAGATTCACTTTGCGAGGCAATATCCATGGCA -TCAAAAGAATGGCAACTACGGCACGTTGCAGAGTCAGTGGCTTTTAATTCTTTCCATACTGTTTCGGCCATTTCCTGGCG -ATGAGCTTCGAACTTATCGTCACTGTCTATTTTGCCGCTAACAAATTCATGATAAATATCTTTAGATGCCTTTAATTTAG -CAAATAAATAATCCATCCCTGACTTTGGAATATGGCAATCGGCACATTCCGCACGTATCCCTTTCTGGTTCGAAAAGTGG -ACAGTTCCCTGATATTCCTCAAAAGGTTTACTCATCGAGTGGCAGGAAAGGCAAAATGCTGTATCCGACGTTTTATGTAA -GACTTTTTGCGCCAGCAATAACCCGCCGCCACCAACCACAACCGCTATCAGCAAAAACAATAACCCAATGCGTTTTTTCC -CTCGCATAGATTCCTCTAATTAAATTACTGGACACCGAAATCATTGTATAATTAAATATACAACGAATTAACCGCTTGCA -TAATTAGGCACAACACTGCCTGAAACAATCGATAAAGAATATGATTTATTACAATGTAATCATTAATTGCTAAGGAATAA -CCCAGTTGCTATTTAGAATATATATTTATCAGTTTTAGTAATTTAAATCCCATAATTAATGTGAATATATACAATATTTT -TAGCACAACGCTATGCGCACTGTCACCCGCTCAACAGATCACGGTTATCGTTCGTTTTTTATACTGTTCAGGGATAAAAA -AAGGCCCCTGTTGAAATTGCAGGGGCCTGGTACGAGCAAGCATCATATTGGGCGACATGATGCAACGGTAAAAATCATTT -GGCCTGATGGCGTTCAATGATTCCTTTCATTTCAGCAACCGCCGCCCCGTCTACGATATAACGCGAATACTCGTCCGCGT -GTTCATCTGATGACATGGACAATCCTTGATTACGATAACGCATCGGTGAGGCTTGCCACGCTCCCGCGGAGCTATGGACT -TCCAGCACTCCGGCATCGAGGAAGTGGTGCAGGTTTTCTGCACGGACTCCTGCTCCGGCCATAATGATTGGAGCATCACG -ATGGGCAATAAGTTCCATAATTTTTGATAAACCTTGCAGTGCGTCTGATTTTTGCCCTGATGTCAGTACCCGGGCAATGC -CCAATTCCGCAAGATTATTGAGTGTATATAAAGGGTTAGCGCACATATCGAAGGCGCGATGAAAAGTCACTGCCAGCGGA -CCGGCAGCAGCCATTATTTTTTCCATTCGTGGCATATCGACATTCCCGTCAACATCGAGAACGCCCGTCACCAGTCCAGG -AAAACCTAATTCGCGGACCGTGCGCACATCCTCAAGAATGGCGGCAAACTCACCGTCGCTGTAGCAAAAATCACCACCGC -GTGGGCGAATTATCGGATGCACAGGGATCGTCACCCGCTGGCGCACGGATTTCAGTACACCCAACGACGGCGTTAAGCCC -CCCTCTTTTGGGGCTGCGCATAATTCAACTCTGTCTGCGCCGTTTTGCTGCGCCGTTAGTGCACATTCCATGCTGTAACA -GCAAATTTCCAGTAATGCCATTTTTACTCCTTAATTACGCCGACTGCTCGCTGGCAACGATCTCTTCAATGGACCACGGA -TGAAACTTAATAGTTGTTTTGCCATCGGTGACCGCCAGCGTCGGATTCGGTAATCGCTCATGCTCACCTTTTGGCGAACT -GGTTTTCACTGAGATCCCCGGTAGGCTGAGTCCTTCATCAGAAAGCAATGCCAGCGCACGGGCATTCAGCGTTTCTGGAT -CACCCGGCAGAACGATTTCAATATGTTCCCAACCTTCGTGTGGGTAACGTTTTTCCCCGGGCCACGGTAGCTCCACAATA -GAAAACTGCCAGTGCGCAACCTGTACCGGTTCATGCAATTTAAACAGACAAATCGGTCTGCCATTGATCATATTTTCTGA -CAAAAGCTCGCCACACTGTTCAAACCCGCGACGCCAGCGTTCAGCAGTGGCGTTTTGATGGCAACGCAAAGAAATGTGAT -CGGCAGTCAGCGGAGTGATATTCAACCCCAGACGGCGGGAAAGTTCATCTAATGCGTGGATAAATCGCGGTAAATCCGAT -GCAATATCCTGCAGCTCGTCGATAGATTGCCAGTTCGCCATAATCACTCTTCGTCTTTCAGTAAAAGCGTTAATTTACCC -TGTTGCCCTGTGCCAACCAACCGCTGATTTCACGCCGCTTCTGATGCAATAGTGAAAACGGCAATACGCCACGCGCACGT -TGCTGACGAAAACAGCCATTTGCAGTATACTCCCGCCCTAATTTCTTTAACTGGTGCGGGCAATTTTTGCTCGCTTCATC -AATGTAAGGTATTCCGGTGAATATTCAGGCTCTTCTCTCAGAAAAAGTCCGTCAGGCCATGATTGCGGCAGGCGCGCCTG -CGGATTGCGAACCGCAGGTTCGTCAGTCAGCAAAAGTTCAGTTCGGCGACTATCAGGCTAACGGCATGATGGCAGTTGCT -AAAAAACTGGGTATGGCACCGCGACAATTAGCAGAGCAGGTGCTGACTCATCTGGATCTTAACGGTATCGCCAGCAAAGT -TGAGATCGCCGGTCCAGGCTTTATCAACATTTTCCTTGATCCGGCATTCCTGGCTGAACATGTTCAGCAGGCGCTGGCGT -CCGATCGTCTCGGTGTTGCTACGCCAGAAAAACAGACCATTGTGGTTGACTACTCTGCGCCAAACGTGGCGAAAGAGATG -CATGTCGGTCACCTGCGCTCTACCATTATTGGTGACGCAGCAGTGCGTACTCTGGAGTTCCTCGGTCACAAAGTGATTCG -CGCAAACCACGTCGGCGACTGGGGCACTCAGTTCGGTATGCTGATTGCATGGCTGGAAAAGCAGCAGCAGGAAAACGCCG -GTGAAATGGAGCTGGCTGACCTTGAAGGTTTCTACCGCGATGCGAAAAAGCATTACGATGAAGATGAAGAGTTCGCCGAG -CGCGCACGTAACTACGTGGTAAAACTGCAAAGCGGTGACGAATATTTCCGCGAGATGTGGCGCAAACTGGTCGACATCAC -CATGACGCAGAACCAGATCACCTACGATCGTCTCAACGTGACGCTGACCCGTGATGACGTGATGGGCGAAAGCCTCTACA -ACCCGATGCTGCCAGGAATTGTGGCGGATCTCAAAGCCAAAGGTCTGGCAGTAGAAAGCGAAGGGGCGACCGTCGTATTC -CTTGATGAGTTTAAAAACAAGGAAGGCGAACCGATGGGCGTGATCATTCAGAAGAAAGATGGCGGCTATCTCTACACCAC -CACTGATATCGCCTGTGCGAAATATCGTTATGAAACACTGCATGCCGATCGCGTGCTGTATTACATCGACTCCCGTCAGC -ATCAACACCTGATGCAGGCATGGGCGATCGTCCGTAAAGCAGGCTATGTACCGGAATCCGTACCGCTGGAACACCACATG -TTCGGCATGATGCTGGGTAAAGACGGCAAACCGTTCAAAACCCGCGCGGGTGGTACAGTGAAACTGGCCGATCTGCTGGA -TGAAGCCCTGGAACGTGCACGCCGTCTGGTGGCAGAAAAGAACCCGGATATGCCAGCCGACGAGCTGGAAAAACTGGCTA -ACGCGGTTGGTATTGGTGCGGTGAAATATGCGGATCTCTCCAAAAACCGCACCACGGACTACATCTTCGACTGGGACAAC -ATGCTGGCGTTTGAGGGTAATACCGCGCCATACATGCAGTATGCATACACGCGTGTATTGTCCGTGTTCCGTAAAGCAGA -AATTGACGAAGAGCAACTGGCTGCAGCTCCGGTTATCATCCGTGAAGATCGTGAAGCGCAACTGGCAGCTCGCCTGCTGC -AGTTTGAAGAAACCCTCACCGTGGTTGCCCGTGAAGGCACGCCGCATGTAATGTGTGCTTACCTGTACGATCTGGCCGGT -CTGTTCTCTGGCTTCTACGAGCACTGCCCGATCCTCAGCGCAGAAAACGAAGAAGTGCGTAACAGCCGTCTAAAACTGGC -ACAACTGACGGCGAAGACGCTGAAGCTGGGTCTGGATACGCTGGGTATTGAGACTGTAGAGCGTATGTAATCGATTTTTC -GTGAGAGTGAAGCCTGATCAGGGTTAGCCGATCAGGCTTTTTTATTGCCATCTAAATGTATTCTGAAAATGGACATGCCA -TTGTTTTCTCACTGTTGGATAAGAGGCCAGAAGCGTAATATCCGGCCCCAGGGAAACGATAACGGTTGAATTTAAGGAAT -ACCGCAGTGTTTAAATTTCTTGTATTAACATTAGGCATTATCTCTTGCCAGGCTTACGCAGAAGATACGGTTATAGTAAA -CGACCATGACATTTCAGCCATCAAAGATTGTTGGCAAAAAAATTCAGATGATGATACTGACGTTAACGTGATCAAATCAT -GCCTGCGACAAGAATACAATCTCGTCGATGCGCAATTAAATAAAGCCTATGGTGAAGCTTATCGTTATATAGAACAAGTG -CCACGCACAGGTGTAAAAAAACCTGATACCGAACAACTTAACTTGCTTAAAAAATCACAGCGAGCCTGGCTGGATTTTAG -GGACAAAGAATGTGAATTAATCCTTTCAAATGAGGACGTTCAGGATTTAAGTGACCCTTATTCTGAATCAGAATGGCTCT -CATGTATGATCATACAGACCAATACGCGAACTCGCCAGTTGCAGCTATACCGTAACTCTGAAGATTTTTATCCAAGCCCT -TTGACAAGAGGATAATTCACATCTTTTTGGCATGTTTTGTTGCAAGCTATTCCTGATAAATAATTGCAACAAGACATCGA -GCCTTTTTCACTGAGTTATTAAACATACTCGCGAGCGCGTAATTTTTTTGTCCTTCAGCGATAATTCACAATCACTTCAT -TACGTTGTACCTTTAGCGGTGGAATTAACCGCCCACCGCCTGGCACTTCCCAGATAAATCGCAACGGTTCTGCTGCCGCT -ATACCGGAAAAGGCCACGGTGGTTCCGCTCTGCCCCTCTAATTCGACACAACGAGATTGCGAACACAAGCGAACCCGCAG -TCCTGAAGGTGTCGGGCCGATAAGCTGATAACGCCACGCTACCAGCGTCATCAATCCTGAAGCAGGTTGTCGCGTAGAAA -GAGGCGCAGACGACATCGACTCACCGCGATGATTTAGCGTAATTCCTACACTACTTGCCTGCCACATCCCCTCCCCGGCG -GCTTGCACCAGCAGCGGAAACAATAATATTGCTAATAAGGTTCTCATTATTTGCCGCCAATTGTCGCCGTCATGCGGATA -TGTCGGTTATCAGACAGTTCCAGATTCGACAGGACCACTAACTGCGGCAAGCTGCGGCGCAGGAAGCGAGACAATAATGG -TCGCAGCGCGTGGTTCACCAACAATACTGGCGGCGCACCCAGCATCTCCTGACGGGATAGCGCTTCCTGAGTTTGCGCCA -GTAAACGATCCGCCAGCCCTGGCTCCAGTCCTCCCCCGCCCTGCAGCGCCTGTAGTAACAAACGTTCCAGCGGTGTATCG -AGGCCAATAACATGGACTTCATCTTTGCCAGGAAACCACTGCTGGGTAATCGCCCGTCCCAACGCCACGCGCACGACGGC -GGTTAATTCATGTGGATCGCTTTGGATGGGCGCATGTTCCGCCAGCGTTTCGAGAATGGTGCGCATATCGCGAATCGGTA -CTTTTTCATCGAGGAGATTTTGCAGCACTTTATGCAGTGTGGTGAGCGTGACGACGCCAGGAACGAGATCTTCCGTCAGC -TTTGGCATCTCCTGGGCGACGCGATCCAACAGCTGTTGCGCCTCCTGACGACCAAACAGCTCTGCGGCATGCTGGCTAAT -GAGGTGGTTAAGATGCGTTGCTACCACCGTGCTGGCCTCAACCACTGTGTACCCCTGAATCTGCGCCTGTTCTTTTAGCG -CACTTTCAATCCAGATAGCATTCAGGCCAAATGCCGGATCGACGGTCGCCTCACCAGGTAACGTCCCGGCAGCGGTTCCA -GGGTTAATCGCCAGCCAGCGCCCCGGATAAGCATCACCACTGCCAATCTCCACGCCTTTCATCAAAATGCGATAGCGGGC -AGGTTGCAGATCCATATTGTCGCGAATGTGCACCACTGGCGGCAGAAATCCCATCTCCTGGGCAAATTTCTTGCGGATAC -TGCGTATACGGCCCAACAACTCACCATCCTGCTGGAAATCGACCATCGGGATCAGTCGATAACCCACTTCCATTCCCAGA -GAATCTTCCAGTTGTACATCGTTCCACGTCGCTTCGACAACGGTATTATTCTCTGCCATTTTTACCGGTTTGGGTTCGGC -AGGCGCTTTTTGTTCGCGTCCGCGTATCCACCAGGCCAGCCCGAGCAATCCGGCAGTGAACAGCAAAAATACCAGGTTCG -GCATTCCAGGCACCAGGCCGAGTAAACCGAGCACGGCGGCGCTTAACAACATAACGCTTGGGTTACTGAAAAGCTGATTC -ACCATCTGCTCGCCAACATCCTGATCGGTGCTGACACGCGTAACGATGACCCCCGCGGCGGTAGAAATCACCAGCGCCGG -AATTTGTGCCACCAGACCGTCGCCAATGGTCAATAGCGTATAACTTTCCGCCGCGTGTCCCATGCTCATGCCATGTTGCA -GCACGCCGACCAGCAACCCGCCGACAATGTTAATGACCATGATGAGGATCCCGGCGATGGCATCGCCGCGAACAAACTTA -CTTGCCCCGTCCATTGAGCCGTAAAAATCGGCTTCCTGAGTCACTTCGGAGCGGCGTTTTTTCGCCTCATCTTCACCAAT -CAATCCGGCGTTAAGGTCGGCGTCAATCGCCATCTGCTTACCCGGCATACCATCGAGAACAAAGCGCGCACCCACTTCTG -CGATACGCCCGGCACCTTTGGTAATGACCATAAAGTTGATGATCACGAGAATGACAAACACCACGATACCGATAGCGAAA -TTGCCACCAACGAGGAAGTGACCGAACGCTTCGACCACCTTCCCTGCCGCCGCCGCGCCGGTATGCCCTTCCATTAAAAT -GATACGGGTTGAAGCCACGTTAAGTGCCAGACGCAACAGCGTGGTAAACAACAGAATGGTCGGAAACGCAGCAAACTCAA -GCGTGCGCTGGGTAAACATCGCCACCAGCAACACCATGATCGACAAGGCAATATTGAAGGTAAACAACAGGTCGAGTATG -AATGCGGGCAGTGGCAGCACCATCATCGACAAGATCAACAGGATCAAAATCGGTCCGGCAAGGATCTGCCATTGTGTCGA -TTTCAGGTTTGCGGGCAGGCGCAGCATCGCGGCCAGATTACTCATGGGTCGGTTTCTCGTTAATAAAATCCAGGGCTTCC -GGCACCGGAAGATGAGTAGGTTGTACAGGGCGCTGTCCACCAGCCAGACGCCAGCGTTTCAGTTGCCAGACCCAGGCCAG -CACTTCCGCCACCGCGGCGTACAGTTGACCCGGGATTTGTTGACCAATCTCCGCATGTCGATACAGCGCTCGCGCCAGCG -GCGGCGCTTCAAGCGTCGGGACGTTATTTTCAGCGCCAATTTCACGAATGCGCAGCGCGACCAGCCCTGCACCTTTAGCG -ACCACTTTCGGTGCGCTCATTTTGTTTTCGTCATACTGCAACGCTACCGAATAGTGGGTCGGGTTATTGACAATGACATC -CGCTTTCGGCACATCGGCCATCATCCGACGCCGTGCAGCAGCTCGCTGCATCTGACGGATCCGCCCTTTAACATGAGGGT -CACCTTCGCTTTGTTTGAACTCATCACGAATATCCTGCCGTGACATACGCAGCTTTTTCAGGTGGCTGAATATTTGGAAA -AAGACGTCAAATCCCACCATTGGAATGACACCAAGCACCACCAGCAGTGCGCATAGCCCTACCAAATCCATCGCATTACC -CATGGCGGTAATCGGAGACTCGGCCATCAAGCGCATCATCTGCGGCCAGTGATGCCAGAGAAAAAACCCCGTCACGCTGC -CAACCAGGATGGTTTTCAAAATTGCTTTAAGCAACTCCGCGCCAGTCTGAGCCGAGAACATCCGTTTAATGCCCGGTAGC -GGGTTGAGTTTGGAAAACTTCGGCTGCAAGGATTTGCCGCTAAATACCAGCCCTCCCAGCATGACCGGAGAAATGAGCGC -CACCAGCACCACGCCGCTAATCAGCGGCAGCAGCGCCAGCATGGCTTCTCTGATCAGCAGAATAATCTGCCCGAGGATCA -GATTCGGGTCATTGATAATACTGTGATCAAAATGCAGCCCAGCGGAGAGCATGCCCGACAATCGACGGGCCAGCGACACA -CCGCCAAACCAGATAACACTAACGCCCACCAGCAAAATCAGCAGTGAGGTCAGTTCACGGGAACGCGGGATTTGCCCCTC -TTCCCGCGCTTTTTCTAGTCGGTGAGGTGTGGGGGCTTCTGTTTTGTCGTCGCTCTCGTCAGACACGTCGCCAATCCTGG -AAAGAGTATTAAGCGTGAATGATGCCAGAGCGCAAAGCGTTCAATGGTTTGAGTAAGGGGCAAAACAGGCGGGATTTAGG -GCTTTTGCTGCCACACATCAAGCATAGTGTGCGTTTGTCGGATGCGGCGTCATCGCCTTATCAGACCGCCTGATATGACG -TGGTCACGCCACATCAGGCAATACAAATCAAAATCCAAGACTATCCAACAAATCGTCCACCTGATCCTGACTGGCTACCA -CACCGGCTTTGCTGGTATCGACCTGAGGTCCATTAAGCAAACTCTGGTTTTCACGTTTTGGACGCGACTCCTGTTCCGGG -ATGTTTTCCAACAGCACCATCAGCAACTGGCGTTCGATCTCCTGAATGACATCCATCATCCGCTTAATGACCTGCCCGGT -GAGATCCTGAAAATCCTGCGCCATCATGATTTCCAGCAGTTGCGCGTTAGTAAAGCTGGTATGCGCGGGTACATCTGCCA -GAAATTGTCGTGTATCTGTTACCAGTTCACGGGCGTCGGCAAGGTCAATCGGATCGGCAAACCAGTCATCCCAACGTTGG -GTTAACGCTTTTGCTGATTTCTCCATTTGATCCTGATGCGGTTGTGACGCCTCAACACTGTTCAGCGCCCGCTCCGCAGC -CTGGGCGGTCATCTGCACAACATAGTACAAACGATCGCGCGCATCGGGGATGGCTTCCGCCGCTTCGGCAATGGCCTGAT -CCAGCCCCAGTTCCCGCAAACTGTCGCGCAGCATACGCGTCAGGCTGCCGATGCGCGCAATGATATCGCCAGCTGAATGC -TCGTCAGCAGGTTTGATTGATGGTTGCATCATAGTCGCATCCTCACATGCCCAGTTTCTCAAAGATTTTGTTGAGTTTTT -CCTCCAGCGTCGCGGCGGTAAATGGCTTCACCACATAGCCACTGGCCCCCGCTTGCGCCGCAGCAATGATGTTCTCTTTC -TTCGCTTCTGCAGTCACCATTAACACTGGCAATGCCGACATCGCGCCATCCGCACGAATTGTTTTCAGCAATTCCAGGCC -ATCCATATTGGGCATGTTCCAGTCGGAGATAACAAATCCATAACCGCCTGCCTGCAACTTATTGAGAGCGTCGACGCCAT -CTTCCGCTTCCTCAACATTATTGAATCCCAGCTCTTTCAGCAGGTTACGCACTATGCGTCGCATGGTGGAAAAGTCATCC -ACAACCAAAAATTTAAGTTCTTTATCCGCCATTTCACACTCCTGATTTAAATACGTATCGCCTGTCCGGCACTAATTTTT -GCCAACATTTGCTGGCTTACCTGGCTAAGATCGACCACTTCGCAGACACCACCCATATTGATGGCCTCGCGCGGCATGCC -GAACACCACGCAACTTGCTTCGTTTTGCGCAAGGGTCCATGCCCCCGCCTGACGCATCGCCAACATTCCCGCCGCGCCGT -CGTTGCCCATACCGGTCAGGATCACCCCAACCGCATTACGCCCCGCCTGTTTGGCGACAGAATGGAACAACACATCTACC -GAAGGCCGATGACGGTTAACCGCCGGGCCATCGTGAATTTTGATTTGGTAATTTGCGCCACTACGCGACAGCTCCATATG -CCGATCGCCCGGCGCAATATAGGCATGCCCCGGCAAGACACGTTCTCCGTCTTCGGCTTCTTTAACCCCGATCTGGCAAA -GCTTATTAAGTCTGTCGGCAAAAGAGCGGGTGAAACCGGGCGGCATATGCTGGGTAATTAACAGTGCCGGGCTGGAAAGC -GGCAACGGTTGCAGTACGTGACGAATTGCCTCAGTTCCACCCGTTGAAGCACCAATCGCAATCAGTTTTTCAGAACTCAA -CAACGGCCCCGCCTTCAGCGTTGTCGGTGCCGACAATGGCTTATGTGCTGCAAGGCTCGCCTTTGCTGCCGTACGCACCT -TTTCAGCAATCATTTCGTTATACGCCAGCATACCTTCGCGAATACCCAGTTGCGGTTTGGTGACAAAATCTATCGCCCCC -AGCTCCAGCGCGCGCAGCGTGACTTCTGACCCTTTGCCGGTCAGGGAAGAAACCATCACAACGGGCATTGGACGCAAACG -CATTAATTTTTCGAGGAAATCCAGTCCGTCCATCCGCGGCATTTCAACATCCAGCGTCAGCACATCGGGATTGAATTTCT -TAATCAAGTCACGCGCGACCAGCGGATCAGGCGCGGTCGCCACCATTTCCATGTCGCTATGGCTGTTGATGATTTCTGTC -ATGATCTGGCGCATCAGTGCCGAATCATCGACAGATAACACCCTGATTTTGCTCATCGTTAATCCTTACTTAGCGCATAC -ACCGTCTGACCACGCAGCGTGAAGCGGCGCTCAAGGTGGCTAAAGTTTTCAGAGTGACCCGCAAACAGCAATCCGTCGGG -TTTAAGGAGCGGAACAAAGCGGCGCAAAATCTCCTGCTGGGTAGTTTGATCGAAGTAGATCATGACGTTACGACAGAAGA -TCGCATCAAACGGCCCCGGCACGGTGTACTGTTTCGCCAGTAGATTCAGCGGGGCAAAATCAACATAGTTCGCCAGCTCC -TGACGCACGCGTACCAGCCCTTCATGCGGCCCCGTCCCTCGCATGAAATACCGTTGCAGTTGCTGCGGCGTCAGGTTTTT -CAACTCTTCATGGCGATAGATACCGCTTCTGGCTTTTTCCAGCACTTCGGTGTCGATATCACTGGCAAACACTTTCCAGC -GTCCGGGCGCGGTGCCCAATGTGTCAGCCAGCGTCATCGCAATGCTGTACGGCTCTTCGCCGGTCGAAGCCGCCGCGCTC -CATACGCGATACTCGCCAGAACGGCGACGTGCGTGATCCGCGAGCAGAGGGAAATGATGTGCCTCACGGAAAAATGCCGT -CAGATTCGTGGTCAGCGAATTGATAAACGCCTGCCACTCACCGCTGTGCTGATTAGATTCCAGCAAGTTCAGATAATGAC -CGAAATCCGTCAGTCCCAGCGAACGCAAACGACGAACCAGTCGGTTGTAAACCATGTCGCGTTTATGGTCAGCCAGAACG -ATCCCGGCTCGTTGATAGATCAATTGACTTATCCGCCGAAAATGCGCGTCGGAAAGCGCCAGGCGCTCGGTCATCTGTAA -CAATAAAGACGTTTGCCCACAGGGCAGAGATGAAGTCATAGCGCCTTCTCAATCACTTCAGGATACCACTGGCGCAATTT -GTAACTGCACCGACTCATGTCGTGCTACTTCATGTTCTTCAAGGGTAAATACCGCCACACGCGACGAAAGATGGTCGGCC -TGATTCGCCAGTTGTTCCGTTGCCACCGCCGCTTCTTCTACCAGCGAGGCGTTCTGCTGAGTCACCTGATCCATCTGGCT -GACAGCCTGTGCAACCTGCTCAATCCCCCGCTGTTGTTCTTCCGACGCAGAGGCAATTTCTCCCATAATGTCGTTCACGC -GGGTCACCGAACTGACAATATCGATCATGGTCGCGGCGGCGTTATTCACCAGTTTCGAACCCTGCTGGACACGATTGACT -GACTCTTCGATCAGCCCTTTGATCTCTTTTGCTGCCTGCGCGCTACGGCTGGCAAGATTGCGCACTTCACCTGCCACTAC -CGCAAAACCACGCCCCTGCTCTCCGGCGCGAGCCGCTTCCACTGCCGCATTCAGGGCCAGAATATTGGTCTGGAAAGCAA -TTCCGTCGATAACGCTGATAATGTCGCCAATTTTTTGCGAGCTGGTGGCGATCTCCTGCATGGTGTGAGTCATGGTACTG -ACCTGAACACCGCCCGCCTGCGCCGTTGTCGCGGCATTTTTTGCCAGTTCCGACGCCTGTCGTGCGTTATCGGCGTTTTG -CCCTACCGTGGCGGTTAATTGCTCCATACTGGCGGCCGTTTGTGCCAGCGATGCCGCCTGCTGTTCGGTACGACTTGAGA -GATCGTTATTGCCTGCGACAATCTCCGCGATACCAATGTGCATCTCCTGGCTTCCCTTACGCACATCACTTACCGTCCCA -CGCAAAGCCTGCTGCATGGTCTTCAGACTGGCAAAAATGGCGGTGATCTCATTACGACCATATACCGCAATCGGACGCGC -CAGATTACCCGCAGCAATGCTGTCAAAATGGCTACCGATAATGGCCAGTGGTTGAACAATCATCTTGCGCGTCCACCACA -GCGCACTGCTGATGTAGATCGCCGCAACAATAATCATGCTGATAAACACCAGTGCCGAAATCTGATAGTTACGCTGGCTT -TGCGCACTGGCGGCTTCCAGCACATGGTTGATCTCCAGCTGCCAGGCCTCAAAGTTAACGTCAAACGCATTCTGTGATCC -CTGCACCGGCGCAGTGAGGAAATCCGAAAGTTGATTACTTTCAAGCCAGGTCGCCTGATGTTCGAGATCGTTGTGCCAGC -GGGCAAAACTTTTCTCCGTCTCTTTTTGCAATCCCCTGACGTGCTCGTTGCCCGCAGTCATCGCCATAAAACTTTTAAAC -AGCGTGGTGGATTGCGTCAGACTGGCGCGCGCCGTCGTCATCAACGTTTTAATGTCATCCGCCGGATAGCTAAGTGCCGT -CAGAGTGCCCGCTTTGTTCAGCGCGGTACTGGCCTGTAACATTACCGCCCGAGTTTGCGCTAATGCCGCACGTTGCTGAT -TGCTCTGCTCGACCTGATTCAGTCGTTGCAAATCGTCGCGAAATGCCCAAAAAGACATGCCGTTACTGCCAATCTGCAAG -ATCCCGCAGAGAATCAAAATTAAAAACAGCGTGGTCGAAATTCGAATACGATTAAACATCAACGCTCCCCATCAGGCGGC -AATGACCGCGTTAGTAAATACTCGTCAAAATGTTTCCCAGTTTGGATCTTGTTCAGCAATTCGCAGTCGTGGCTGAGCCG -GTGGTTGCTCACTGGCAGGACGGGATGGTGTTTGCGGTTTATTGGTGAGTGGGCTGGCTGCCAGACGGAACGCGGAAACT -GCTTGCGTTAAACGACTCGCCTGTTCTTCCAGCGCAGCGGCGGCGGCAGCTGATTCCTGCACCAGCGATGCGTTCTGTTG -CGTGACGCGATCCATTTCCGAAACCGCCAATGCGACTTGATCGATGCCACGGCTCTGTTCATCCGATGCCGATGCAATCT -CGCCCATAATGTCAGTCACGCGAGTGACAGCATTGACGATATTGTTCATTGTTTCCCCGGCGCTTTCGACCAGCACCGAA -CCGGTATCAACGCGTGAGACGGAGTCTTCAATGAGGGCTTTGATCTCTTTTGCCGCCTGGGCGCTGCGACTGGCAAGATT -ACGCACTTCACCCGCCACCACGGCAAAACCACGGCCCTGTTCACCCGCACGCGCGGCTTCAACCGCGGCATTCAGCGCGA -GGATATTAGTCTGGAAGGCAATACCGTCGATAACGCTGATAATGTCGGCAATTTTCTTCGAACTATCGGCGATCTCATGC -ATCGTTTTCACTACGCCATCCACCACTTTGCCGCCGTGCTGGGCGGTGTCGGAGGCACTTTGCGCCAGTTGCGAGGCCTG -GCGGGCGTTATCGGCGTTTTGCTTCACTGTCGCGGTGAGCTGCTCCATGCTGGCGGCAGTTTCTTCCAGCGCGGATGCCT -GCTGTTCAGTACGGGAGGAAAGATCGGTGTTGCCCGCCGCAATTTCACGGGTACCGGCATAGATGGCATCTGAACCTTCG -CGGACATGAGTGACGGTGTCAGTCAAAGAGCGTTGCATATGTGAAACGCTCTGCGCCAGGTCGCCCATTTCACTGCGCCC -GTCAATGGTCAGGGTATTCGCCAGGTTACCACCGGCGATTTCGCGAATGTGAGCAATAATTTTTGCCAGCGGAGTAAGCA -ACATACGGCGAATGCCGTACCACGCCACCAGCAGAATCAATACCACCACCAGCGCGATAACCGCCAGTTGCCACTGGGCA -AATCGGTAATCATCTGCGTTGTCAGTGACGATATCGCGATACAGTTTTTCACTGCTGAGGGCGTACTGAGCAAACGCTTC -GCCCATTGCATTTTGCATTCCCTGGGTTGGCTGAGCGAAATAAGCTCCAGTATTGCCATAATCTAGATAATCAATCAGTT -CAGTTAACGCTGTGTAATAGTTTTTATATTTTTCATCAATATTACGACTGGTAGCGACCATTTCAGGTAACGGTGCCATG -CTTTTGAATTTTTTATAATGCGTCGCTGCCTGCGCCAATGTTTTCCTGGCGCTATCGAGCAATTCAACTTTGGCGTTACT -TTGTTGATTGGAGGAATCCATCATCATCCGTACCGCTGAACGACTCAGGTTAATGCGCGTTTGCAGCATTAAATCCCAGG -TTGACGTCAGCTCGCCCTGCTGTTCCCGTAATTGATTGGAAACCACAAAGCTCTTCTGGCTATGGTGAAGGGAAGAAAAA -AACAGACTGCCGGAAATAAGCTGTAACAGTGCGAATACCCCCAGCACCATTACCAACAGCGTGACTACGCGGATACGGTT -AATCATAAGGCACCTTCCTGAAAACAAGTTGATCTCGTTATCGGCAAGGAGGGGGGAAACTTTATTGCTGATGCCACCCG -CCGCGAAATTGAAATAAAAAACCCGATGCGCAGATCATCGGGTTCATTTCAATTGAGGAAATCGGGAGAATTACGCCACT -TCTGACGCCGCGCTATCTAACAGCGCCATCTCTTCGCTGTTCAGCAGTTTTTCGATGTTCACCAGAATCAACATCCGGTC -GCCCAGTGCGCCCAGTCCAGTGAGATATTCTGTTGAAAGCGTCACGGCAAATTCCGGTGCCGGACGAATTTGCTCCGCCG -TCAATGAAAGCACGTCTGAGACGCCGTCAACCACGATGCCGACCACCCGCTGTCCGAGATTCAGGACGATAACTACCGTG -TTGTCGTTATAGTCCACATCCACCTGGCTGAACTTAATTCGTAAGTCAACAATCGGCACAATAACGCCGCGCAGATTCGT -GACGCCTTTGATAAACGCTGGCGTGTTCGCAATCCGTGTTACCTGATCGTAGCCACGGATCTCCTGCACTTTCAGGATAT -CAATACCGTACTCTTCATCACCAAGGGTAAATACCAGAAATTCCTGGCCTGACGGCTCGCTGGCCAGCTTTGTTACATTC -GTCATACCGGTCATATTGTTACCTTTTTACTCATTCAGGCGGCGGTGTTCGCCATACGTTGTTCGCGGTTTATCGCCTGC -AAGGCGGAGACATCAACAATCAGTGCCACGCTGCCGTCGCCAAGAATGGTCGCAGCAGAAATGCCGGGGACTTTGCGATA -GTTACTTTCAAGGTTTTTAACCACAACCTGGTGTTGACCAATTAATTGATCCACCAGCAAGGCGTAGCGGCGACCGCCAC -TTTGTAAGATCACCACAATTCCCTGGGTGGCTTCGGTTTTCGCGCCCGCGACGTTGAACACTTTCCACAGTTCGACGATG -GGCAGATATTCACCCCGCACTTCCAGCACCCGCTCGCCGCCGGCCAGTGGATGGAGATCGGCTTCACGGGGTTGCAGTGA -TTCCATAACAGCATTCAGCGGCAGAATGAAAACTTCATCCGCAACGCGTACGGACATGCCGTCGAGGATGGCCAGCGTCA -GCGGCAGTAAAATGCGGATCGTAGTGCCAGTACCCTGCTTCGACTGGATTTCGACATGACCGCCCATCTTCTGGATATTA -CGTTTAACGACGTCCATGCCGACGCCGCGCCCGGAGACGTCGGTGACCTGCTCTGCCGTGGAGAAGCCAGGTGCAAATAT -CAGCATCGCGACTTCGTCGTCGCTCATGTTTTCGCTGACAGTCAAACCTTGCGAGGCCGCTTTTGCCAGAATTCGCTCAC -GGTTTAGCCCCGCCCCATCGTCGGTCACTTCAATGCAAATGTTGCCGCCCTGATGTTCGGCAGACAGAATTAAATTTCCG -ACGCTGTTTTTACCTGCGGCGAGCCGTTTTTCTGGCAGTTCAATACCGTGATCGAGGCTATTGCGTACCAGGTGGGTCAG -CGGGTCGATAATGCGTTCTATCAGGCTTTTGTCGAGTTCAGTAGAACTGCCCACCAGCGTCAGTTCTACCTGCTTGCCGA -GTTTTCCCGCCAGATCACGCACCAGCCGGGGATAGCGACTAAAAACATATTCCATCGGCATCATGCGAATCGACATCACT -GATTCCTGCAAATCACGGGCGTTACGTTGTAACTGCCCCATGCTGGTTATCAAATCACCATGATTAACCGGGTCCAGTTC -GCTGGAACGCTGGGCAAGCATGGACTGGGTGATAACCAGCTCGCCGACGAGGTTAATTAATTGATCAACCTTTTCTACCG -CTACACGGATGCTGGTGGATTCATTGCTGCGCGTCGTTTTTTCCCGCTCCACGCGGCCGGTTGGCGCTTGTTCGGCTGCC -AGTTTAAGCACTGGTGGGGTGGATATTTTTGGCGAGACTTCTACTGTTTCAAAGGTAATCTGATCGGCTTCAATCACAAA -ACAGAGTACCGCTGTGATGTCATCTTCGGCGATGTCGCCCGGTAATATTGCCGAGAGCGAATCCGCCCCTTTCACCACGT -CAGTTAACGTTGTCAGATGTCCCAGTTCTTCTTCCAGCAGGTCGACTTCCCCGGCCTTCAGGCGCGAAAGGATAATTCGT -CGCGGCGACTGACTGCGACTCTGCTCATCTTGCGGTTCACTTTTGGCAACCACACTTAATCGGGTCACTGCGGATGGCGT -TTCGCCTTTCGCTTCTAATGCCAGTTGACGCAAGGCCTGGCAGATATAATCGAAGCTGGCGGCATCCGGCTCTTGCGACT -GTTTATAAGCGTCGAGCTGTTCTTGCATGATGTCCTTCGTTTCCAAAAACAGATTGATAATGTCGGTGTTGAGTTGCATC -TCACCTCGTCTGGCTTCATCGAGCAGGTTTTCCATCAGATGCGTGGTTTCCTGCAAAACGCTGAAGCCAAAAGTTCCTGC -CCCTCCTTTGATCGAGTGGGCAGCCCGAAAGATGGCATTCAATTGTTCGGCATCTGGCACTTCCGGCTGCAAAACCAGCA -AATGCTGCTCCATGTCAGCCAACAGTTCGTCCGCTTCATCAAAAAATGTCTGATAAAAATCGCTTATATCCATGCTCACG -CTGTCACCTCGGTTCGGCTGATGGCATTGTGGGAACACTGACCTGTGGTGCAACCTCAGGTTTTTCCAGGGCGCTTACTG -GCTCATTCTGGCTTTCGGCGTTTTCATGCAAAATGGCCTGTTCGGCTTGTTTGTTCAGTACCAGCAGGCTGATGCGACGG -TTGACGGCATCATCAGGTCCGCGATCGCTTAAGCGCATCGTTGCCGCCATGCCGACGACACGTAACACTTTGCCGCTATC -CAACCCTCCGACCATCAGTTCGCGGCGGGATGCATTGGCCCGATCGGCAGAAAGCTCCCAGTTGCTATATCCTTTCTCAC -CGCTGGCGTAGGGGAAATCATCGGTATGACCTGAAAGGCTAATACGGTTGGGAATACCGTTCAGTACAGGCGCAATGGCG -CGCAGAATGTCGCGCATATAGGGTTCGACATCGGCACTGCCGGTTCTAAACATCGGGCGATTCTGGCTATCGATGATCTG -AATACGTAGACCTTCCTGGACCAGATCGATTTTGAGATGGGGACGTAACGCCCGCAGTTTCGGATCGGACTCTATCAACT -GGTCGAGATCACCCCGCAATTTCCGCAATCGACTTTGCTCCATGCGTTTTTTCAGCTCTTCGATGTTCGGCTGCTTATTC -ACTTCCCCCTGGCTTTGGGTGTAATCATCACCACCGCCGGGAATTGGGCTTTCACTATTAGAAATGCGATCGCCGCCCGT -AACCGCAGTCGCCAGTGGAGTCCGGAAGTACTCCGCAATCTGAATCAGCTCTTTTGGGCTGGAGATGGAGATCAGCCACA -TCACCAGAAAAAAGGCCATCATCGCAGTCATAAAGTCGGCATAAGCAATCTTCCACGATCCATGTGCTGCCCCGTGGCTT -TTGGCTTTGCGTCGTTTGACGACAATAATCGGATGCGCTTGATTCTTCATGCTTCCTCGGTTGTCGTCTGTTGTTGCGGA -TTTTTCACCGCACGCACATGCTCTTCCAGTTCAATAAACGACGGACGTTCGCTGGAATAGAGCGTTTTGCGACCAAACTC -AACGGCGATAGGCGGTGCGTAACCGTTCAGATTAGAAAGCAGAGTGACTTTGACGCACTGCATCATTTTGCTGGTTTCGG -CGCTTTTCTGACGTAAAACAGTCGCTAATGGGGAAATAAATCCGTAAGCCAATAAAATGCCGAGGAAAGTCCCCACCATC -GCATGTGCGATAAGCGCACCCAGCTCGGCGGCAGGACGATCGGCTGAACCTAACGCGTGAACGACCCCCATTACAGCCGC -AACAATACCAAACGCCGGAAGTGAGTCCCCGACCAGCGCCAGACTGTTCGCCGGGACTTCTGCCTCGCTTTCGTGCGTCT -CAATCTCTTCATCCATCAGAGCTTCGATTTCGAAGGTGTTCATGTGACCGCTGATAATCAGGCGCAGATAATCGACGATA -AAATCAAGCATGACGCTATCCGCGAGGATGCGTGGGTAGCTGGCGAAGATCTCGCTCTCACGGGGATTTTCAATATCACG -TTCCAGCGAAAACATCCCCATCTGCCGCGATTTCGCCATCAACCGATAAAGCAGAGCCAGCAGATCCATATACATTGCTT -TGGTGTATTTGGAGCGACGAAACAGCAACGGCAGCGCCTTCAGCGTGCCTTTAATCGCTTTGCCATTATTGCCGACGATA -AACGACCCAATCCCTGCACCGGCAATAATCACCAGTTCAGCGGGTTGATAGAGTGCTCCAAGGCTTCCACCGGTCATCAA -ATAACCGCCGAAAACTGTACCGAGAACAACCAGGTAACCTAATAAGATAAGCACGACATCATCCTTCCACTGTTGACCAT -GACAGGATGTTCAGTCGTCAGGCGTTAACGCGCGATTGGGGCAAAAAAAAGCAGCGGTACGTCGTTACCGCTGCTGGAAT -GTTGCGCCTCACCGTATCAGTTAAACAGCCTGTACTCTCTGTTCATCCAGCAGTTGTGGGATAATATCGGCAGGATTCTG -GGAAAGTTTACGTCTTTTTACTGCCCGGGATGGCGGTTGACATAAGCTGCAGGCAAAGCTGCCAACAGGCTGGTGAGCGT -GGGTAATAAAATTGCCGCCGCAGCAGTTGCAGCTGGAAAGTTGCAGCTGGAAAGTTGCAGTAATCCACTTTCAACAAACC -GCACCAATGTCCAGGCACGGGTTAATGCCAGCAGTGGTCCTTCTTCTGCTTGTGGGCACTGTTCAAGGTATAAACGGTAG -GCTTTGATCACCGCATCGACGCCATTACACAAACCGGTTTTCAGTAAAAACTGCCATGCATTACAGAACATCGAAGCATG -AACGTTTTGTTCCCAGGTCATAAACCAGTCGGTTGAGAATGGCAGCATGCCTTTCGGCGGTGGGCTTCCGCGCAGTTCTT -TATAAAGTTTTATCAGGCGTCCGCGACTTAACTGTGTTTCGCTTTCCAGCATCTGCAAACGAGCGCCCAGGGTGATCAAT -TCCATTGCCAGCTGAATATCCCGCGCTTCCTGAACAATGCTTTTTTCACTCATGATCAGGCCCTTTTCTTGCGCAGCGCT -TCTTCAGGCTGATTAACATCATTCAGCAAGCGTGTTGAGAGCATGATGCCGGTATGAATTTGCTGGAGATCGTCAACGCG -GGAATCTTGCGTCAACTGAGTAATCGTCTGGTGGCTGTCAAAACGGAAGTGACAAACCAGTTGATTGGTTTCTGCCAGCT -TAACCATTTGCGGAAGAGTCAGTGCCGCTAACGTTGTCGCCATTTCTTCATTTATGCCGAGACGAAACATAGCGGACGCT -TTGTCCTGAACAATCAAACGCTGTGCAAGTAGTAAATATGACAAGTTGATGTCATAAATGTGTTTCAGCAACTCGGAGGT -ATGCATTATTCCCACCCAGAATAACCAACTTTATTTTTATGCGGTTTCACCGCACCCCGTGATGTCGCCGGGAAGCCCCG -GTAAAAAATAATTAGCATTAGAATAGTTGCGATAAGCTGCAATAAGCAGAACCACCTTTTTGGTTTAATATGTCCTTACA -AATAGAAATGGGTCTTTACACTTATCTAAGATTTTTCCTAAATCGACGCAACTGTACTCGTCACTACACGCACATACAAC -GGAGGGGGGCTGCGATTTTCAATAATGCGTGATGCAGATCACACAAAACACTCAATTACTTAAGGAAGGTGCGAATAAGC -GGGGAAATTCTTCTCGGCTGACTCAGTCATTTCATTTCTTCATGTTTGAGCCGATTTTTTCTCCCGTAAATGCCTTGAAT -CAGCCTATTTAGACCGTTTCTTCGCCATTTAAGGCGTTATCCCCAGTTTTTAGTGAGATCTCTCCCACTGACGTATCATT -TGGTCCGCCCGAAACAGGTTGGCCAGCGTGAATAACATCGCCAGTTGGTTATCGTTTTTCAGCAACCCCTTGTATCTGGC -TTTCACGAAGCCGAACTGTCGCTTGATGATGCGAAATGGGTGCTCCACCCTGGCCCGGATGCTGGCTTTCATGTATTCGA -TGTTGATGGCCGTTTTGTTCTTGCGTGGATGCTGTTTCAAGGTTCTTACCTTGCCGGGGCGCTCGGCGATCAGCCAGTCC -ACATCCACCTCGGCCAGCTCCTCGCGCTGTGGCGCCCCTTGGTAGCCGGCATCGGCTGAGACAAATTGCTCCTCTCCATG -CAGCAGATTACCCAGCTGATTGAGGTCATGCTCGTTGGCCGCGGTGGTGACCAGGCTGTGGGTCAGGCCACTCTTGGCAT -CGACACCAATGTGGGCCTTCATGCCAAAGTGCCACTGATTGCCTTTCTTGGTCTGATGCATCTCCGGATCGCGTTGCTGC -TCTTTGTTCTTGGTCGAGCTGGGTGCCTCAATGATGGTGGCATCGACCAAGGTGCCTTGAGTCATCATGACGCCTGCTTC -GGCCAGCCAGCGATTGATGGTCTTGAACAATTGGCGGGCCAGTTGATGCTGCTCCAGCAGGTGGCGGAAATTCATGATGG -TGGTGCGGTCCGGCAAGGCGCTATCCAGGGATAACCGGGCAAACAGACGCATGGAGGCGATTTCGTACAGAGCATCTTCC -ATCGCGCCATCGCTCAGGTTGTACCAATGCTGCATGCAGTGAATGCGTAGCATGGTTTCCAGCGGATAAGGTCGCCGGCC -ATTACCAGCCTTGGGGTAAAACGGCTCGATGACTTCCACCATGTTTTGCCATGGCAGAATCTGCTCCATGCGGGACAAGA -AAATCTCTTTTCTGGTCTGACGGCGCTTACTGCTGAATTCACTGTCGGCGAAGGTAAGTTGATGACTCATGATGAATCCT -GTTCTATGGCTCCAGATGACAAACATGATCTCATATCAGGGACTTGTTCGCACCTTCCTTAACATAAATGTATAAGTCAT -ACTTTTGTTTTGGGTGTATTTCAATCTGTTAAAAAGTTTTTCGCTACGCTAGCAAGCAAAAATGAAACAGGAATAATCGA -AATGGGATGTTGCGCACAGTCAAAATAACTCACCGTAAATAATCATCTGCTATAAATAATCACTTTCATGCAATACCAGA -TAAGCTATTTTTAAACAGACACTTACCGCACAACAAACTAATTAAATACAAAGAAAGGCAACAATCAACTTAATGTTAAT -GAAATGTTTTACATATATTAACCACTTGTTTAATGCGGAGAATCAGTACACTATTTTCTTATAATTACATTTGAAATTAT -ATGATCACCGGGAGTGATTGATTAATTATCTTTACTAATAATCAGACTAATATTTACCTGTTTGACCGAGTTGGGATTGC -GTCGTTTCTCCATTAGGAGTAAAGCTTTAATGTCACCTGAAGTTCACAGAATAAGGAACAGGTTATGAGCTATAGCAATA -TTCTTGTCGCTGTTGCGGTTACACCGGAAAGTCAGCAACTGCTGGCAAAAGCGGTATCTATCGCCAGGCCAGTAAAGGGA -CACATCAGTTTAATTACTCTCGCTTCCGACCCGGAAATGTACAATCAATTAGCTGCGCCGATGCTTGAAGATTTACGCAG -CGTGATGCATGAAGAAACGCAAAGCTTTCTTGATAAGTTAATTCAGGATGCGGGGTATCCCGTTGACAAGACGTTTATTG -CCTACGGTGAGTTAAGCGAACATATTCTGGAAGTATGTCACAAGCATCATTTCGATTTGGTGATTTGCGGTAATCACAAT -CACAGTTTCTTTTCGCGAGCATCCTGCTCGGCGAAAAGAGTTATTGCCTCAAGTGAGGTCGATGTGCTGTTAGTTCCACT -TACGGGAGATTAACCGCTCCTACGCAAGCTTTGGAAAGGTAGCAACTTTATCGCGCTGCTGGCTTTCCGCGCTTCGCGGA -ACTATCTGCTTTAGGTCGCTAATGAAGCACTCCTGCCAGTGGTTAATATCGTTTTTCACGATAACGTCCAGCATTTCTGC -ATGACGGGAAATACGTTCCGCCAGCGACATAGTCAATGCACGATCCAGCGCAGCTGCAACTTCGTCACGATCGTAGGGGT -TAACAATTAACGCCGACGTTAACTCGTTTGCCGCTCCCGCAAATTGCGAAAGAACAAGAACGCCCGGATTGGCTGGGTCC -TGAGCAGCAACATACTCTTTTGCTACCAGGTTCATCCCGTCACGCAGTGGCGTCACTAAGCCCACGTCAGAGTAGCGGAA -TATTTTCATCAGTAATTTACGGTCAAAATGCTGATTCAAATAATAAAGCGGCGTCCAGCCTAATTGCCCGTATTTACCAT -TAATTCGTCCAGCTTCATTTTCGAGCTGATGACGAATATCCTGATAGGCTTGCACATCACCACGCGACGTTGGTGCAATC -TGGGTATAACGAATTTTACCATGATGCTGCGGATATTTTTCCAGCAACGCTTCATAGGCGAGAAAACGCTCTGGCAAACC -TTTGGAATAATCCAGCCGTTCGACAGAAAAGATATTTTGTACGTTTTTCAGTTCCGCTTTAAGTTGCGCCAGTTTTGGCG -GCAGTGGCCCGGCAGCCTGTTTGGCTATTTCTTTCGGTTCAATGCCGATCGGGTAGACTTCTGTTCGAAATGCTTTGCCC -CAGGCTGTATGGCTTTTTGCGCTACGTGTCGTGACGCGGGTCAGGTTAGAAAGACAATCCAGGAACGCCAGACGATCGTT -TTCTGTCTGGAAACCCAGCAAATCATAATCACAAAGCTGTTCAAGCAAGGTGTCATATGTCGGCAGCGCGTTGAAGATTT -CCGGTGTCGGGAAAGGAATATGCAGAAAGAAACCAATGCGATTATTCACTCCCCGTTTGCGTAATTCATGCGCAAATGGC -AACAGGTGATAATCGTGGATCCAGATAATGTCATCGTCTTGCAACAGCGGCAGTAATTTATCTGCCAGCAACGCATTTAC -GCGTAGATAGCCGTCCCAGGCAGGACGCTGAAATTGCACCAGATCGAGCCGATAATGAAAAGCGGGCCAGAGAACGGCAT -TGGAGAATTGGTTGTAGTATTCGTCAAGGTCCTGTTCGCTGAGGTTAAAAGAGGCCCACGTAATGTTACCTTTTTTCACC -TTTTTTAGCGGCTGATCCTCATTCCCTGTTTCACCACTCCAGCCAAACCACAGTCCGCCTGCGGCTTTCAGTGCCCCCAG -TATGCCAACGGCAAGGCCACCGGCACTGGCGGCGTGCTCGTCTGGTGGTGCAATCCGGTTAGATACTACGACTAAACGAC -TCATAGTCATCACTCCTGTTATTTTCTCTTTTTTGTTGTAATGCGGTGGTTATCATTTCAAGCCAGCTCCAGACATCCGG -CACACCCGCCAGTCGCCATGATGCCTGAGTTGCACCTGTGCCAATTTTTACTGACATTCCGCCCAGTCGGTTAACGACTG -CGAAGCCAGATTCATCGGTTAAATCATCGCCCAGAAATACGGGCGTTCGCCCGATAAAGGGAGCTTCCTGCATAAAAGCT -GCAATTGCCTCACCTTTACTGGTACCTCTCGGTTTGATCTCGACAACACACTTTCCCTGCTGTAACGCCATTTGTGGCCA -GATCTGAGTAATACGTTGCGCTAATGTCATTAATGCGTCTTCATGCTGCGGAGCCTGACGATAATGCAGCGCAAAAGCCA -TCCCTTTCGCCTCCAGCTCCGCGCCGGGATACTGAGCGATGACTGTATGCAGTTGCACGCTAATATCACGCGCAATCGCA -TCCGGCAGATGAACGATATGTGTTTTACCATTGATGTCACGGCGCTCCGCCCCATGCACGCCCGCTAACGGGAAGCGATA -AGGTTTTGCCAGTGCGTCAAGCTCCACCATTGAGCGCCCTGATATCAATGCCAATGCACCATCACTTGCGGTTGCCAGTA -GCTGTAGTCCTTGCAGAATATTGTCAGGCACGACGACCTGATCGGGATGCGGTTTGATTTCCGCCAGCGTTCCATCAAGA -TCAAAAAACCAGGCATATTTCGCGGATAGTTCAGGGGTTTCGGTTAACGGTTCTGTCACCCGGTTCTCCTCCTTCTCTTT -TCTTATTGTGTTGCGCAGAACGCGCTTTACAGACATGTAAGTATAGACAGTGTGACGGGGGTCGCCATTTGCAACGAAGA -ACAGCCAACCGTTATGGCGGTTGGCTATGGTGGGAAAAAACGCTAAATTGTTGCAGAAAAAAGCATCAGACAGTGCGTTT -CGCTTTTTGCTTGTAACGGTCGAAGATCACCGCTGCCAGCAGGATTAAGCCGCGAACCACGTACTGCGCGAAAGGAGAAA -TATTAAGCAGGTTCATGGCGTTTTCCACGGTGCCTAAAATTAAGATACCCGCCACCACATATGAGATTTTTCCGATGCCA -CCTTTCAGAGAAACGCCACCTAAAACGCAGGCGGAGATAACAATCAGCTCATAACCAATCGACGTCATTGGCTGCCCACT -GGTCATACGTGAAGCCAGAATAATTCCGGCTATCGCTGATACCAGGCCTGAGAGAACAAAGATAATAATTTTGGTGCGAA -CAACCGGTACACCCGCCAGACGCGCGGCCTCTTCGTTCCCGCCAATCGCCAGGGTGTTACGACCAAAGGTGGTTTTATTC -AGCAGCAAACCAAAGATAATCAGACACGCGACGGTGAGCCAGATTGGCGCAGGCAGACCGAACCAGTTGGCGTAACCAAG -GGCAAAGAAGCTTTCATCTTCGATACCGACCGCTTTACCGTCTGAAATGATGTACGCCAGACCTCGAACAATCTGCATCG -TTGCCAATGTCGTGATCAGAGCATTTATTTTCAGTTTGGCGATAACAAAGCCATTGACCAGGCCACAGAGAACGCCCAGC -AACAACCCCGCTGCCACGCCAATCCACAGGCTTTCAGTCAGGTTAATAACCACCGCCGTGGTGACACCCGCACAGGCAAT -TACGGAGGCGACAGAAAGGTCAAAGTCACCGGAAGCGAGGCAGAACAACATGCCACAAGCCACCATCCCCGACATGGAAA -TTGCCAGGCCCAACCCTTTCATATTAATGAAGGTGGCAAAATTTGGGACAAAAATGGCACAGGCGATAAAGAGCACCGCA -AACACCACCAGCATGCCGTACTGATCCCAGATACGCCCGAAGCTGAATGACGACTTAGGTGCGCCAGACCCCGATGTAGA -AACAGAAGACATCATACTCTCCTTACTCAGGCAACAGCCTGGCTGACTTTAGGCATCGCAAGGCTCAGTGCCTGACGCTC -ATCTGCCTGCTCGTGTAACAATTCACCGGCGATTTCACCTTCCCGCATCACCACAATCCGGTCGGCAACGCCGAGGACTT -CAGGTAAGTCGCTGGAGGCAAACAGCACCGCCACGCCCTGCGCCGCCAGCGCATAAATTACGTTATATATTTCGTGCTTA -GCGCCAACATCAATGCCGCGCGTAGGTTCATCCAGCAAAATGACCTTCATCTCTTCCGATAACCAGCGGCCCAGAATGGC -TTTTTGCTGATTTCCGCCTGAGAGATTCATGATCAGTTGCTCCGCGCCCGGCGTTTTGATGTTGAGCGAACGAATGTGGT -GATCGGCATTGTTTTCTTCCCAACCGTTGTTGATTACACAACCGCCGAGCACATGTTTACGTCTGGCACTGATGTTGATA -TTGTCGCGAACGGAGTGCACGGGAATAATGCCTTCCGCTTTGCGATCTTCCGGGCAGAGCATCATGCCTGCGGCAATGGC -GTGGCTCGGTTTACGAATATCGATCGGCTGTTGGTCGATATAAACCTGACCGGCGGTGATTTGCGTCCCGCCAAACATGC -CTTTCATTAATTCGCTACGCCCCGCCCCTACCAGACCAAACAGCCCAACAATTTCACCACTGCGAACCGCCAGACTTATT -GGCGTACGCACGCCTGGTGCTTTCACAGCATCAAGACGTAGGCGCTCCTCGCCATAACTACGCGGTTGCCAGCCGTAGAT -ATCGCCAATGTCGCGCCCGACCATCGCCTGCACCAGCGCGTCGTGGTCAACCTGCTGCATATCGGTAAAGGTTTTGACAT -AACGTCCATCTTTAAAGACAGTAATGGCATCGCTGAGGGCAAATATTTCTTCCATACGGTGAGAAACGTATAAGATTACC -CGCCCCTCTTTTCGCAGTTCACGAATAACGCGGAAAAGATTGTCGATTTCACGGGCAGAGAGGGAGCTGGTTGGCTCATC -AAAGGCGATAATTTTGGCGTTACGCGCCAGCGCTTTGGCGATTTCAACCATCTGCCACTGACCAATGGAGAGATATTTCA -GCGGCGTGTCCGGGTCAATATCCATACCAAGATGTTTAAGTTGTAAACCCGCCTCATAATTCAGCAATGAGCGATTCACA -ATGCCGCCTTTATGCGGCAGCTGGCCGAGATAGATGTTTTCCGCGACGGTCATTTCCGGCACGAGATGCAGTTCCTGGTA -AATAATCGCCACGCCCGCGTTAAGTGCTGCGGTCGTGTCGGAAAAGGACATTTCCTGCCCATTAATCACTACAGAACCCG -TGGTTGGCGCATAGTTGCCGCTGAGGATTTTTAAGAGAGTTGATTTTCCTGCGCCATTTTCACCCATCAACGCATGAACC -TGACCGGCATAGCAGTCAAAACTAATATCCGTCAGCGCCTTAACGCCGGGAAACGTTTTACCGATGCCGCGAAATGAGAG -ATACGGGGTAGACTGTTGCATAACGTCTCCGTGAATCACTGGTCGTTCACACCCCCTCTGCATCATGCAGAGGGGAATTT -TTCCGGCAAATTACTTACCGCCTAAACCTTTTTTCTCCAGTTCTTCTTTAAAGTTGTCACGCGTGATCAGTACCACGTCG -GTAACTTCGGTAAATTTTGGCGGTTCAACGTCTTTTGCTACCCAGTTGTAAAGCATTTCGCTGGATTTATAGCCATGTAC -GTCCGGGCTTGGCAGCAGGGAACCGTAGAAGCCGGTTGCCTGTGCTTTAGACAGTTCGCTCACCGCATCCACACCGTTAA -TGCCAATGCCGATGATATCGGCCGCTTTAAAGCCCTGACCTTCCGTCGCGCGTACGCCGCCCAGCACGGTGCTGTCGTTC -ATACCGACGATCAGCCAATGTTTAACTTCCGGATGTTGAACCAGCATTGAGTTGGCAGCGTCAAATGCCCCCGGGATGTC -GTTAGATTTGGTAGGTACCTGATAAATTTGTTTTTCCGGGAATCCGGCCGCTTTCAGCGCATCCATAGATCCCGTAGTAC -GGCGGCGGGCGGTATCCAGTTCGTTGGCGGTAATCGCCATCACCGCGCTTTCTTTGACATCCCAGCCACGTTTCTGCATC -TCTTTATACAGTTCCTGGCCCTGACGTTCGCCAATTTTAGTCGCCGCCATCATCACCAGCGGAACGGTATCCATTGGCTT -ACCTTTGGCGTTAACAAACTGGTCATCCACGGCAATGACTTTCATATCGTAGCCACGCGCTTTCGCGACGATGGCAGAGC -CGAGTTTGGGGTCCGGAGTACAAATAACGAAACCTTTTGCGCCACTGGCAGCCAGGCTGTCGATCGCGTTCAATGTTTTT -TCGCCATCCGGCACGGCAATCTTAATAACCTCAAACCCTAAATCCTTCCCGGCTTTATCGGCAAACTTCCATTCGGTCTG -GAACCACGGCTCTTCCGGTTGCTTCACCAGAAAACCGAGCTTCAGGTTCTCCGCCATAGCGGATTGTGACATAACGGCTG -CCAGACCAATGGCTGCCAGGGCTTTAGTAAATTTGTGCATGGTTCTCTCCAGCTTTAGTGTCGTTTTGTGTAGGGCAAAA -ACGAATGACATTCGTTAAATTAATCGGAAAACAAAGCATTACCTTTTAACTAAAAGATAAGTGACTGTGTTGACATAGTT -TTAGCGAGAAATTAATTCTCCATAGGAGAGCAATATCACATCGCAGAATTACAGTGAGAACGTGCATAAATTTAGCGGGA -AAAGACATAAGGGAAAGCCAATTTGTCAGACAAATTGTCGAATGCACAGCAGATTAATCCATAAGATTAGCCTGGAAATC -CTTGTTGTCTTTGGTACCCATGCGGGATGTCTTCTTTTTAACCAGTCAATAGGCCGCATTACCTGGCGTTGAGTTTTTGA -AATGGTGTAATAACCGCAACTCAAAGATGTGGAAAATGCACGTCATTCATTTCGTCATTAATTATCACTGTGCTCATTAA -TTAACAGAACACGTATAATGAGAGCCATCTCGCAAAAATGAAAAAACGTTTTATAAAATCATCACTTCATCATGAATTCA -AATTCATTGATTAATATCAACAAGATACAAAAAGCACTATCATTAAAATTCATTGCAGTTACATTGATTTCATCAATGAA -ATGTAAAAATATATAAACTTGATGATTTAAGCATTTTCTTATACCCGTTCAGACGTTATTCTTATTTCAGATCATCGTCA -GAATTGACTCCACGATCACATTTCGGACCGGCAGAAAGGAATTATTCTGCAAACAGTAATTATGGTGTTTTGATTTATCT -TGCACCTCTCCACTTCTGGATATAAGGATATTAGGTATGGCAACCGCTGGAATGCTTCTCAAACTCAACTCTCAAATGAA -CCGCGAGTTTTACGCATCCAATCTCTACCTTCACCTGAGTAACTGGTGTTCTGAACAGAGTCTGAACGGCACCGCCACTT -TCCTTCGCGCCCAGGCACAGAGTAATGTGACCCAAATGATGCGCATGTTTAACTTTATGAAGAGTGTCGGCGCTACCCCC -ATCGTTAAAGCCATTGATGTTCCCGGTGAAAAACTGAACTCTCTGGAAGAACTGTTCCAAAAAACGATGGAAGAATACGA -GCAACGTTCTAGTACGTTGGCACAGTTAGCCGATGAAGCGAAAGAACTGAATGATGATTCAACCGTCAATTTCCTGCGCG -ATCTGGAAAAAGAACAGCAGCATGATGGTCTGTTGCTGCAAACCATTCTTGATGAAGTGCGCAGTGCGAAACTTGCGGGT -ATGTGCCCTGTGCAGACCGACCAACATGTTCTGAATGTCGTGTCACACCAGCTGCATTGATCATCATCGGCGCTAATGCA -TTGCGCCGATGAAGGTTTTGAGAAACCGCTGCCTCATCTGTTTGAAGCAGAGGTTTTTTTAATGGGATTCACCCTGTGGG -GTAAACTTGAGTTCAATAAGCGCGATGGCTTTTTGGATTGCCCGCATGGTGACCGGGTCTGCGGCGGCGGGATGGTTAGT -AAAGTCGATATTCTTCAGCTGACTGGACATTTTTTCACGAACTTCAACGGGCGCGATTACATCGAGAACATCCAGAATTT -GTTTGATAACCAACTGGCAAGCAACCACATCAGAAACCAATTCCTGATCGGCATTCAGCGGCTGGGACATCGTAAACTCC -TGATAGCATTTTGAAAGCCGTTATAGTAGCGACTTCACATCTTCAGCGATAGTCACATCCACCGTCATCAGGACACAAAA -AAACCTGCCGGAGCAGGTTTTTTGTTATCGGAACATATTGCCTGGCGGTACGTCTTTGAACGTCTTGCAATAGTTATTGA -ACATACTTTTCAGGATTTTGCGCAGTTTCATCGCGGCACTCCGACCATTTGTTATACAGGTGTTATTGTCTTTGCGCTTA -TAATATGACAACCATCACAAAAATCAATCTTTATGTGATACAAATCACATAAATACCCCTTTAATGTTATAAAAATGATA -ATCAAAAAACAGCCCCCCTATTTCTGACACCTACAGATGGCAAGAAATAGCGCCTGCCAGGCGTCTTTTCCGGCCATTGT -CGCAGCACTGTAACGCGTAAAATAGTGCTTTCTCTTACTCTTCTGGCTGGACCATGAGACTTCTGATTCTGACTCTTTCA -TTAATAACGCTGGCGGGGTGTACGGTTACTCGCCAAGCCCATGTGAGCGAAGTTGACGCGGCAACAGGTATTGTACGGTT -AGTTTATGACCAGGCTTTTTTGCAGCATGCCCATACCGATCGTTATGTCAGTCGCGGGATCGCCGATCGCGCATGCCAGC -AGGAAGGCTATACCCACGCGGTCCCCTTTGGTCAGCCAGTAGGCAACTGTAGCCTTTTTGCGGGTTCCTTATGTTTGAAT -ACGGAATTCACTTTGTCATATCAGTGCCATCATTCCGCCTTCCCTGTCTTTCTCTAAATATTTTAATCAGCGAGGGGATC -TTCGCTGATTAAAGAAATAGCGGTAATGCGTTTTATTCCCATTCGTATTTTTAATAATTGAAGTTTATATTTTACCTTTT -GCAAATAATAAAATAACAAATTATAGTGACGCCACAGCAACAAATATAACCTTTGTGGAGCACTATCATGCTGAAACCAG -AAATGATTGAAAAACTTAATGAGCAGATGAACCTGGAACTGTACTCTTCACTGCTTTATCAGCAAATGAGCGCCTGGTGC -AGCTATCATACCTTCGAAGGTGCTGCCGCGTTCCTGCGCCGTCACGCCCAGGAAGAGATGACGCATATGCAGCGTCTGTT -TGATTACCTGACTGATACCGGCAATTTACCGCGTATTAATACCGTTGAATCTCCGTTTGCTGAATATTCCTCACTTGATG -AATTATTCCAGGAAACCTATAAACACGAACAATTAATCACCCAGAAAATTAACGAACTGGCTCATGCTGCAATGACCAAT -CAGGACTACCCAACATTTAATTTCCTGCAATGGTATGTTTCTGAGCAGCATGAAGAAGAGAAACTGTTCAAATCGATTAT -TGATAAATTAAGCCTGGCAGGCAAAAGCGGCGAAGGTCTGTATTTTATCGACAAAGAACTCTCTACCCTCGACACACAAA -ACTAATGCTCTCCGGCGGCAGGTTTACTGCCGCCGTTTCAAATCAGTGACGGCAAATCTTACTCTGATCGGTCGAAAAAC -CGTCTTTCGAAGGTATAAATTTGCCTTTTGCTGCCAGAAACGCTACCAGCTCTCCCGCTGTCATCCCTTCTGCCGAGCAG -GTGTGAAAACGTGCCTGTTCACCAAAACGCGCTTTAATCGCAGCTTCCAGACTGGCATGCGTATATTGCTCGCCTGATTC -AATCATCATATTTAACACTTCATGACCGTGAATAGAGTCCATCGTCCCTCCTCAAAAAAAGCCTAGCGTAGCGATTGCCG -CTTATGAAGACTTTGCGCCAGCGCAGGACTGAATGCTTTTTATTGTACATTTATATTTACACCATATGTAACGTCGGTTT -GACGAAGCAGCCGTTATGCCTTAACCTGCGCCGCAGATATCACTCATAAAGATCGTCAGGACAGAAGAAAGCGTGAAAAA -CAGAACCCTGGGAAGTGTTTTTATCGTGGCGGGAACCACAATTGGCGCAGGCATGCTGGCAATGCCGCTGGCTGCGGCCG -GTGTTGGTTTTAGCGTTACGTTAATCTTGTTGATTGGGCTTTGGGCGTTGATGTGCTACACGGCGCTATTACTGCTGGAG -GTGTACCAGCATGTTCCGGCAGATACCGGTCTGGGCACGCTGGCAAAACGCTATCTGGGACGCTACGGTCAATGGCTGAC -GGGCTTCAGTATGATGTTCTTAATGTATGCTCTGACTGCGGCATACATCAGCGGTGCCGGTGAATTGTTGGCCTCCAGCA -TCAGCGACTGGACAGGTATTTCTATGTCGGCAACCGCTGGCGTGCTGTTGTTCACTTTTGTTGCCGGTGGCGTGGTTTGT -GTCGGAACTTCACTGGTCGATTTATTTAACCGTTTTCTGTTCAGCGCCAAGATTATTTTTCTGGTGGTAATGCTGGTACT -ACTGCTGCCGCATATTCACAAAGTGAATCTTTTAACCCTGCCGTTGCAACAGGGGCTGGCTCTGTCTGCAATCCCGGTGA -TTTTTACGTCGTTTGGTTTTCACGGTAGCGTGCCGAGTATTGTCAGCTATATGGATGGCAACATTCGTAAGCTACGCTGG -GTGTTTATAATCGGTAGTGCGATCCCCCTGGTGGCATATATTTTCTGGCAGGTGGCGACGCTTGGCAGCATTGATTCAAC -AACCTTTATGGGATTGCTGGCTAATCATGCTGGATTAAACGGGCTGTTACAGGCGTTACGCGAAATGGTGGCCTCTCCGC -ATGTTGAGCTGGCAGTGCATTTATTTGCTGATTTAGCCCTCGCCACGTCATTTCTCGGCGTTGCGTTAGGCTTATTTGAT -TATCTGGCTGATTTATTTCAGCGTTCAAATACCGTTGGTGGACGGTTGCAAACTGGTGCAATTACGTTTCTGCCGCCGTT -GGCGTTTGCACTGTTTTATCCACGAGGATTTGTGATGGCGCTGGGTTACGCCGGTGTGGCGCTGGCGGTACTGGCATTGA -TTATCCCTTCGCTGTTGACCTGGCAAAGCAGAAAGCACAATCCTCAGGCGGGTTACCGGGTCAAAGGTGGTCGTCCGGCG -CTGGTGGTGGTGTTTCTCTGTGGTATTGCTGTGATTGGCGTGCAATTTTTGATTGCGGCAGGGTTGTTACCAGAAGTGGG -GTGATCAGATAGCCTCAAATTCCTTATTGGGTGCCAGAATTAACGCTGACACCCAATTTGGCCTCTTAATGCAGGCAGCA -CTGCTTAAATTTCTTACCACTACCGCACGGGCAAGGATCGTTACGCCCCGGTTTCTCTTCTGCTTTGATCGGTTGCTGAA -CAGCTTTTTCCTGCGGATGCGCCATCCAGTACGCATGTAGATCAAGCGCCGCCAGTCGAATGGCATCTACGCTCTCTTCA -AACGCTTCTGGCGACATCTTTTCTACCCGCTCGAAGTTTTCCTCAGTACCGTGCAGCGCAATCGCCTCCAGCGCTGGTTT -TAACGAATCGGGCAACGTTGACCAGTCAGAAAGTGCCACGCCCCGCATATAGCCAAAGCACCACTCCTCAACAATCGTCA -GCTCGCTGCCATCAACTTCTCGCAAGCCGAATAACGGCTCAAACTGCTCCGGGAATTCGTTCAGACGCTCTGCGGTATCG -GCCATATGTTGAAAAGCCAGATTCATAAAGCGCGTCATCTCTTTCTCTGACGCCCAGCGCGGCACATAGTCAGCCCCACC -CCACACGGCAACCAGCCACTGTTCCGGTTCAATCTCTTGCGGAGAACTCAACACCGCCGTCAATAAACCGTCCAGCTCCG -CCACATCAAGGATGGCGTGGTCAGTGTTGTATTTGGTCAGAATATCGTCCAGCCATTCCAACTCACTTTCGTTTAACGGT -CCCGTTTTCATACGCTTTTCCTTGTGGATCTCAACTCGCCAGCACCTATCTTACATGCCGGTCCGTATCAGAGATACTTT -TTGAGTGGCTTTGCTGGTGATTAAAAATTAAGGAGGGTGTAACGACAAGTTGCAGGCACAAAAAAACCACCCGAAGGTGG -TTTCACGACACTGCTTATTGCTTTGATTTTATTCTTATCTTTCCCATGGTACCCGGAGCGGGACTTGAACCCGCACAGCG -CGAACGCCGAGGGATTTTAAATCCCTTGTGTCTACCGATTCCACCATCCGGGCTCGGGAAGAAAGTGGAGGCGCGTTCCG -GAGTCGAACCGGACTAGACGGATTTGCAATCCGCTACATAACCGCTTTGTTAACGCGCCAAATTCTTCAGGCCTTTCAGC -CAGACATCCGCTTGACGCCGATGTCTTTTAAACTGGAGCGGGAAACGAGACTCGAACTCGCGACCCCGACCTTGGCAAGG -TCGTGCTCTACCAACTGAGCTATTCCCGCATTCATCAAGCAATCAGTTAATCACTTGATTTTATTATCGTCTGGCAATCA -GTGCCGCCGTTCGATGCGTTGCATTCTACTTACCTGGCGCGATGAGTCAACGATATTTTTCACCACTTTTGATCGTTTGC -TGAAAATTACGCCGAAACGATCACTGATCAAGCAAATCTGCACGCGCAGCGCTCAAATATTGCAACATTGACCACAGAGT -CAGTACCGCAGCCACAAAGAAAAGTGCAATACCGGCGTACTCAACCCAAATGTTCGGACGCCACAGCAGCCATGCCAACG -CCACCATCTGGGCAGTGGTTTTCACTTTCCCAATCCAGGAGACGGCCACGCTACTGCGTTTACCCAACTCCGCCATCCAT -TCGCGTAGCGCAGAAATAATAATTTCACGGGCGATCATCGTTGCCGCCGGTAATGTCACCCACCAGCTGTGATAATGCTC -GGTTACCAGCACCATGGCGATAGCCACGAGAACTTTATCTGCCACAGGGTCAAGGAAAGCACCAAACCGGGTACTCTGGT -TCCAGCGGCGTGCCAGAAAACCATCGAACCAGTCAGTCACCGCCGCGACGCAGAAAATGAGCGCGGCGGCAAACGGCGAC -CAGGTGACAGGCAGATAAAAGACCAATACAAAGAATGGGATAAGGATGACACGGAACAGTGTAAGCAACGTAGGGATATT -AAATTGCATAATGACGGGTAACTATCTGTTGTCAGTAAGATTACCCCTATGTTGCTACAGAGACATCAATGTTTCAACGA -CCAGAAGATCTTTTCTGCCAGACCTTGCGAAATACCCGGCACTTTTGCAATTTCCTCGACGCTGGCGTTACGTAAACCTT -GCAAACCGCCCATATATTTCAACAACATTTGCCGACGTTTTGGCCCGACGCCTTCAATGGTTTCCAGGGAACTGGTATTT -TTGACCTTCGCCCGTTTTTTACGGTGCCCGCCAATCGCGTGATCATGTGATTCATCGCGAATATGCTGGATAACATGCAG -CGCGGGTGAATCTGGCGGCAAACTAAATCCCTCACCTTCCGGCTCAAAGAACAGCGTTTCCAGTCCAGCCTTACGATCTG -CTCCTTTGGCAACGCCAAGTAGCAGCGGATGATTTTTATCCCATGAGACATCCAGTTCGGCGAAGACATTTTTCGCCTGC -GCAAGCTGGCCTTTGCCGCCGTCGATAAGGATCACATCCGGGATCTTACTGTCGTCAATGGCTTTACCATAACGCCGACG -CAGCACCTGATTCATCGCCGCATAATCATCGCCCGGCGTGATGCCTGTAATGTTATAGCGCCGATACTCCGCACGCAGCG -GGCCGTTAGCATCAAACACCACACAGGAAGCGACGGTTTGTTCGCCCATGGTATGGCTGATGTCAAAGCACTCCATCCGC -TTCACTTCCGGCAATTTCAACACGCTGGCAAGCGCGGTCAGTCGCTGGTGAACGGTAGATTGCTGCGAAAGTTTGCTGGT -TAAGGCCGTCGCCGCATTGGTGCGCGCGAGTTTCAGATAACGCGCCCTATCGCCGCGAGGTTTGGTTTGAACATTAATCT -TGCGTCCCGCCAGTTCTGAAAGGGAATCGGCGAGCAGCGTTTTATCGCTAAGATTAAAATCGAGCAGGATCTCACCCGGT -AAGGTGCGCATCTGGCTGCCTTGTAAATAGAACTGGCCTACGAAGGTTTCTACCACCTCGCTCAGTTCCGTACCGCCAGG -CACTTTCGGGAAATAGCTGCGGCTGCCGAGCACTTTGCCCTGACGAATGAACAATACGTGGACACAAGCCATGCCCGCAT -CGAACGCCACACCAATAACGTCGAGGTCGTCGCCGGTATTGGAAACGAATTGTTTTTCGGTGACGCGTCGCACCGCCTGA -ATTTGGTCGCGAATACGTGCAGCTTCTTCAAACTCCAGATTCTGGCTGGCAGTTTCCATACGACTAATGAGTTGCGTAAG -CACCTGATCATCTTTGCCAGACAAAAACAGGCGCACATACTCGACCTGCTGAGCGTATTCTTCTTCACTCACCAGTCCTT -CAACGCACGGTCCCAGACAGCGCCCTATCTGGTATTGCAGACACGGACGCGAGCGATTGCGATAAACACTATTTTCGCAC -TGGCGAATGGGGAAAATCTTTTGCAGTAGCGCCAGTGTTTCACGTACGGCATAGCCATTCGGGAACGGGCCGAAATATTC -ACCTTTGGCATGCTTCGCACCACGATGCATCGCCAGACGCGGGTGGGTATCACCACTCAGGAAGATAAAAGGATATGATT -TATCATCGCGTAGCAAAACGTTGTAACGCGGCTGATAGAGTTTGATGTAGTTGTGTTCCAGCAACAGCGCTTCGGTTTCT -GTGTGAGTAACCGTTACATCAATTTGCTGGATCTGGGCGACCAGCGCTTCGGTTTTGCGCGAAGCGAGGTTGCTACGGAA -ATAGCTGGAAAGCCGTTTTTTCAGGTCTTTCGCTTTGCCGACATAGATAACCGTACCACCAGCATCGTACATGCGATAAA -CGCCTGGCTGGCTGGTTACGGTTTTTAAAAACGCTTTTGCGTCAAACTGATCACTCACTGACTTGATAATGTCTCCGCAT -TACACAGACCATGGCGAATTGCCAGGTGAGTCAGCTCAACATCGCCATGAATGTTTAGTTTACTGAACATACGATAGCGG -TAGCTGTTCACCGTTTTCGGACTGAGATTGAGCTGTTCTGAGATCTCATTGACCTTCTGGCCCTTGGTGATCATCAGCAT -AATCTGCAATTCACGTTCAGACAAACTGGCAAATGGGCTTTCTGTTTTTTCTGGTTCGATCTGGCTTAACGCCATTTGTT -GAGCGATGTCAGAAGCAATGTAACGCTGCCCTGAATAGACAGAACGAATCGCACTCACGACTTCCTGCGGAGCCGCGCCT -TTGCTGAGGTAGCCCGCAGCACCGGCCTGCATGACTTTCGCTGGTAAAGGGTTTTCTGTATGGACGGTAAGCATGATGAT -TTTGACATCAGCTGTGGAACGCGCGATTTTACGCGTCGCCTCAAGACCGCCAATGCCCGGCATACTCATGTCCATTAGCA -CCACGTCAACGGCATTTGTCCGGCACCACTTAACGGCGTCTTCACCGCACGATGCCTCACCGACGACTTTTATACCCTTT -ATATCTTCCAGAATGCGTCGTATCCCTGCGCGCACCAGTTCGTGGTCATCAACAAGTAGAACGTTGATCAAAGGAATATC -TCCAGAAATAGGGATAACGCTACTGATAGTTAGTCATTCGTATATTAGCGGTTTTTATTGCAACTTTGAAACGTTAAAAA -TGGTGGGTATTCGATTTTTCTCTCGTTTTTGTCAATTCGATTGTCCACAGTTATGGTCACGCCCGTCACCAACGGCTTAC -CGGATCGTTTCACAGTAAGCCCTACGATGAAATGTGACAAAAATTGACTTTATTCAGCAAAAATGAAAATCAGCCCGCTG -AATATGTAACATTAATTAACCCGAACAATACGGGCAAAAAACATTCATGATAAAAATATTTATTGGTCATTATATTAACG -TATTTTATAGCACTGCCGATATCACGCTCAAAAAACAACCACTGCTATTTTTAGCAAAGCTTATGGTATACTCCGCCGCC -TTAACATTTTTCACCGCAAATTTTCATTGCAACATGACGAGGAAAATAAATGAGTACGCCTGATTTTTCTACTGCCGAGA -ATAATCAAGAACTGGCAAATGAAGTCTCCTGCCTGAAAGCGATGCTGACGCTGATGCTGCAGGCGATGGGACAAGCTGAC -GCGGGCCGCGTGATGTTAAAGATGGAAAAACAGCTTGCGCTGATCGAAGACGAAACCCAGGCTGCAGTATTTTCCAAAAC -GGTTAAGCAAATTAAACAAGCCTACCGTCAGTAATATAAAACCGGCTGATAGCGTGCCTTTCAGCCGGTTTTTGCATCTG -GCACGCAGGACAGAAAAGAGATCAAATTAAGCCAGTAGCGGCCGCGTAACAGGCAACCTGGGTCTTATTTGGTGCATTAA -TTTTTTTCTGCATGTTTTTCTGGTGGAAATTGACCGTATTCTCAGAGATTGACAAAATCATCGCTATCTCTGCTGATGTT -TTCCCTTCCGCCGTCCACCTCAGAATTTCTTTTTCGCGCTTGCTGAAATTCATCTCTGGCGTCATCACTATTTCATCATT -TAAACGCATCAGAGCCATCAGACTTTCGCGCACCAGTAACTGCATTTTTAATTGCAGTTCATCACTAAGAATGGGTATTT -CGCGCGCGCTGCAACGGGAAAAGGACAAAAAGCCCAGCGCCCGGTTTGGCAGCATTAAATACTGAGTGACACCGCGGCGT -AAACCATGTGCGCGCGCGGCTTCCCATAACGGCTGTGCTTCGCTGAATAAGTCATCATTCCACATTAAATGGCCCTGACT -AAAGTTTTCAGGGTTCAGCACCGGATCAATTGCGAGAAAGTTTTTTGCCTGATAATAACTAACCCACGCCTCAGGGTAAT -TGGTGTAAAAAGCCACTTTAGGTCGAGTGAATGGTACCGGGTGGCGGACACATAACGAATAGTAATCGTACTCCAGCTGC -TGAGCCTGAAGCTCAATTTCATGGTAGACCTCTTCTGCGGTCTCCATCCTCTGAAAACGCAACAGCATCGTGCGACGCCA -GCTGAAAAAATCCTTATCCTGCATAGTAAACCGCAACGCCCCTGAGAGTGAGTATCATTTATAATGATAATTCAAACTAT -CACATAAATAAGATTTATATATAATTTATATTATTCAGGCAATGAATTACTTTTGCAAGCCATCGCATTCTCTTATGTTA -TTAATGAGTTATGCTGATTTGTTAAGCAGTTTTATCAGGCTTGAAATGGCGTCCAGCCCCGACAGGTGAATCGTCGGGGC -TGATTTTTTCTTATTATTGCAGCAGAAACTTCTCGAGGAACTGGCGGGTGCGAGGCTGCTCGGGGTCGGCAAATAACGCT -TTTGCGGCCCCCTGCTCGACTATCCGCCCCTGGTCCATAAAGATCGCCCGGTCCGCAACATCCCGGGCAAAGCTCATTTC -GTGCGTCACAATCACCATCGTGCGCTTTTCCTGCGCCAGCTGACGGATGGTGTTCAGGACTTCACCCACCAGCTCTGGAT -CCAGCGCTGACGTTGGCTCGTCAAACAAAATCACCTCAGGACGCATTGCCAGCGCACGCGCAATCGCAACACGCTGCTGT -TGACCGCCAGACAAACGACGTGGATAGCTGGTTTCTTTACCTGCCAGCCCAACTTTTGCCAGCAGCTCGCGAGCGCGCGC -CGTGGCCTCTTCTTTCGGTTCACCTTTGACGATCACCGGCCCTTCAATAATGTTCTCCAGCACCGTACGATGCGGAAACA -AATTAAAGTTCTGGAAGACAAACCCGACGTGCTGACGCAACTGGCGAATCAGAGATTTTTGCTGACTTAATGAACGTGCA -GTATCAATAGTGATATCGCCAACGGTGATCGTTCCCGCTTCGGGTTGTTCCAGCAGATTTATGCTGCGTAGCAACGTGGT -TTTGCCGGAACCACTCGGACCGATAATTGCCACCACTTCGCCAGGCTTTACCTCAAGGTCGATACCGTGCAGCACCGTCT -GACCGTGGAATTTTTTCACCAGGTTCTTAACTTCAATGGCACTCATTTTGGTTCTCTCTCCTGGCGATTAAGTTGATTCT -CAAAATGGTTCTGCAACGTCGATAACACAGTCGCCATGATCCAGTAGATGAGCGAAGCCGCCAGATACATGGTGAACACC -TCCAGCGTACGCGAGGTAATCAACTGCGCCTGACGGAACAGCTCCGGCACCTGGATTGTCGCGGCCAGCGACGTATCTTT -TACCAGGCTAATAAAGCTGTTCGACAGCGGCGGCAACGCCACACGCGCCGCCTGTGGCAAAATCGCGCGACGCATGGTCT -GCCACGGCGTCATACCAATACTGGCTGCCGCTTCCCACTGACCTTTATCAATAGAAGAAATGGCGGCGCGCAGCGTTTCG -GCAGCATAGGCGGCAGTGTTCAACGACAGACCAATCATTGCTGACGGAATGGGATCTAATTCGATACCAAACTGCGGCAG -GCCGTAATAGATCATAAACAGTTGTGCGATGAGCGGCGTACCACGAAAAATAGAGATATAAAAACGCGCCAGCCAGCGCA -CGGGCCAGATTGGCGACAGACGCATCAGCGCGAGAATAAACCCGAGCAGTAAGCCAAAAAACATGCCGCCGATACTGAGT -TGCAGCGTATACCCAGCCCCTTTCAGCAGGAACGGCAAGGAATCAATAACCAGTTGTATACTTTCTTGCATGAGCGTTTC -CGGAGCTAAACGTGGGGATGATAGGCGAACAGCGCAGGCGCACCGCCGGTATGAATAAACAGAATCGGCCCTTCATCTTT -GAAGCGTTTCTGACTGATACCGTCAATCAGCCCCGCCATCGCTTTTCCGGTATACACAGGATCAAGCAGAATGCCTTCCA -GCCGCGCCAGCAATTTCACTGCTTCCATGCCTTCGTCGTTCGGCACGCCGTAGCCAGGTGCAAAATAGTCATCCCAGAGT -AAAATTTCCGCTGATGCGGTCAGCTCCAGTTCTTTCGCAATCGCCTGTTGTAGGTTAACCACTTTCGGCAATTGATCGGC -AACGGAACGCGACACGGTCACGCCAATCAGTTCGCTTTCAGGCATCAGGTGTTCCAGCCCAACAGCCAGTCCGGCGTGAG -TTCCGGCACTGCCCGATGCGACTACCACCGATGAAATATTAACCGCCCCTTCACACTGTTGCGCGATTTCCAGCGCACTC -TCCACATAACCTAGCGCGCCAAGAGCATTAGAACCGCCAACCGGAATGACATACGGGCGAAAGCCTTGTGCTTCGACTCG -CGTCGCCAGCTCTTCCAGTTGGGCATTGGGATCGGTCAGTGCGTCGCACATTTCAATCTGGGTATTGAACAGATCCAGCA -ACAAGCGATTGCCGTTGGTTAAATAGTTTTCTGCGGTTGTGCCAATAGGATTTTCCAGCAGCGCCACGCAGTGCAGACCG -AGTTTGGCAGCGACTGCGGCAGTCTGCCGCACATGGTTAGACTGGATCGCCCCGGCAGTAATCAGCGTATCGGCACCTTC -ACGCAGAGCATCTGCCGCGAGAAATTCCAGCTTACGTAATTTATTGCCGCCCATTGCCATGGGGGTGACGTCATCCCGTT -TGATGAAAATTTCCCGTCCTAGATAATCAGAAAAGCGCGGCAGATATTCGAGCGGCGTTGGCGCGCCGATAAACTCCAGC -CGTGGAAAACGGGTTAAATTATGCAGTGGCATAACAGCCTCCGATGTGTGTTGTTGTGATTTTCTTATTATGCACGCTGA -AAACGCGTAAATAAAAAAGGCGCTAGTGAAAGCGCCCTTTTTTGTCATTATGCTGATTATTTGGTCACATCAGCACCAAA -CCATTTTTCGGAAAGGGCTTGCAGAGTGCCATCTTTTTGCATTTCCGCAATTGCATCATTCACTGCTTTCAGCAGGTCCT -CATTTCCTTTACGCAGCGCCACGCCAGACTCCTGACGGGAGAATGCTTCACCGGTTACTGCCAGCGTATCGTTGGTTTTC -TTCACCAGATCCAGCGCCGCCAGACGATCAACGAGGATCGCATCGATACGCCCTACGCGCAGATCCTGATATTTGGTCGG -GTCATCATCATAGGTACGCACATCGACGCCCTGAACATTCTGCCGCAGCCACTCTTCATAGTTGGTGCCCAGACCGACCC -CCACTTTTTTGCCTTTCAGATCATCGGCTGTTTTAATGGTGCCTTCGTTACCTTTTTTCACCAGCGCCTGAATACCAGAA -ATGGTGTACGGGGTTGAGAAATCGTATTTTTTCTTGCGCTCATCAGAAATGGTGACCTGATTAATCACCACATCAATACG -TTTAGAGTCCAGCGACGCCAGCATACCGTCCCATTTGGTCGGTTTTAGTGACGCCTCAACGCCAAGATGTTTTGCCAGCT -GTTGGGCAAATTCCACTTCAAAACCGGTTAATTTGCCGTCATCTCCCTGAAAACTGAACGGCGGATAAGTTCCTTCCAGC -CCTACCAGCAGCGTGCCGCGCTCTTTAACTTTATTAAGCAGACCTTCATCTGCAAAACTTTTAACGCTCATGCCCGCAAC -CAGCGCCACGGCCATCACACCCATCAATGCCTGACGTCCCAGATGTGCTAATTTCATATTCACCCCGAATGTTGTTATGT -CTGTTTGCAGTGTAGAGCCATTGTTTGTAAACACAAAAACAACTCCGCTACATCTTATTCTTATTTAATATATATCAGAA -GAAGGCAGGCTGGAGGATTTCTGCACAAGTCTGGTACAGGTTTGGCGCTGATAGTGTTGATACTTCCGTAACGCGATGCG -GTAATTGTTGGTGCTGGTGGTGGGCAGCCACGGGGCGAGGATTTCATCAAGGAAACCGTCCTGCAGCTGATCGAGGGAAA -TATTTTGCTCGTGTAGATGATTCCCCAAACGGCGCAAACGAACGACATATTCACGCACCGTACCTGGGCTCATTTCAGTT -TGCTCAAAAAGAAATTGCTTAAAGCCGATAATATCGAAAAAATCACTCTGCGTTTTGCAATGTAAATCACCGCAAAATCG -GCACAATGCCGCCCATGATTTTTGTTCCGTTTGCCAGCCATTTTCATCAAGCAGCGTGTCCAGGCGGGAAATCTCGATTT -TATTCACTATTTTGCCGTCGCGAACTAAGGTAATGCGATCGAGTAATTTACGGCAATGCGCGCAATGGGTCTGGCTGTGT -TTAAAGTCTTTAAGATAGCGGCTTAATGGCCGTCTTTTCAGGTGCTGCACCATCATTAAGAACTCCTGGTAGTCAAAGTT -AAAGTGCGGCATTTACTGACGTTATAACTTACCCAGTTTAGTGCGTAACCGTTTAATAGCCTGGCTGTGTAACTGACTGA -CCCGCGATTCCCCGACCTCCAGCACCGCGCCAATCTCTTTGAGATTCAGCTCTTCCTGGTAATAGAGGGTTAATACCAGT -TTTTCGCGCTCCGGCAACGTTTCGATGGCTTCCATCACCCGCTGGCGCAGATTACTGTCCAGTAGTTGTTGTAGCGGGTT -TTCTCGCTGATGATCATCAGTAACCAGTTCGATGCTATCGCCGTGCTCTTCGCGCCACTCATCGTAGGAGAAGAGCTGGC -TGTTATTGGTGTCGAGCAACATTTGGCGATAATCGGCAATATCGATCCCTAAACGTTCCGCTACCTCAGTTTCCGTGGCG -TTGCGGCCAAGTTCCTGCTCCAGTTGCCCTATTGCCTGTGCCACTTCACGCGCGTTGCGTCGCACGCTGCGCGGCACCCA -GTCACGGCTGCGAAGTTCATCCAGCATAGCGCCACGGATACGCTGCACTGCGTAAGTTGTAAATGCCGTTCCTTGTAGGG -CGTCATAGCGTTCGACGGCATTAAGTAACCCAATGCCGCCCGCCTGTAGCAGATCGTCAAGTTCCACGCTCGCGGGCAGT -CGAACCTGCAGGCGCAATGCTTCGTGACGCACCAGCGGGACATAACGCTGCCACAGCGAGTGTTTATCCATTACACCTTC -AGCGGTATAGAGTGAATTCACGATAAACAGCCCTGCGTTATATGAGTTATCGGCATGATTATCCGTTTCTGCAGGGTTTT -TAATCGGACGATTAGTGGGTGAAATGAGGGGTTATTTGGGGGTTACAGGTAAATTCCAGGCAGAAAAAAACCCCGCCGGT -GGCGGGGAAGCACGTTGCTGACAAATTGCGCTTTATGTTGCCGGATGCGGCGTAAACGCCTTATCCGGCCTACAAAAATG -TGCAAATTCAATAAATTGCAATTCAACTTGTAGGCCTGATAAGCGCAGCGCATCAGGCAATTTGGCGTTGCCGTCAGTCT -CAGTTAATCAGGTTACAACGATTAACCCTGCAGCAGAGACAGAACCTGCTGCGGTACCTGGTTAGCTTTTGCCAACACGG -AGTTACCGGCCTGCTGGATGATCTGCGCTTTCGACATATTGGACACTTCGGTCGCATAGTCGGCGTCCTGAATACGGGAC -TGCGCTTCAGACAGGTTGGTAGTGGTGTTGTTCAGGTTGGTAACCGCGGAATCCAGACGGTTTTGCACCGCACCGAGGGA -AGAACGGAATTTGTCTACAGATGCGATAGCATCGTCCAGCGCTTTCAGCGGATCCGTGGTTTTACCATTTGCAACAGCAG -TCAGAGCCTCACCACCAGCAGTCAAACCTGTTTGCAGATTACCGCCATTTAAATCGGCAGAATCGTATGTTTTACCATCA -ATATCGACCACTTCTGTTTTGCCATCATCTCCGCCCAGTTTGACCGCGGTTGGAGAACTGGCGGCACCGGAAGAGTCAGT -ATAGGTAATAGTTTTAACAGAAACAGCACCAGTAGTTTCATTCACATCCGCAGCGTAAAGATTGCCATTTGTATCTTTAA -GCGCATATGTATCGGTATCATTACCCTTGGAATCCTGCAGTTTTACTAAGCTAACAGCACCAAGGTTGGCAGTTGCGGAA -CCTGCAGTATTATCAATCTGAACAGGTGTACCGCCTGAAGTGATAGTTGTAGCTTTAGTAGTATTTGCATCAGTTACAGT -TGCATTTGCCGTTGCTCCAGTCGCCATTGTCACTGTACCATCATTAGCAACTGTTACTGCGTAATACTTCCCATCGTTAT -CACCACCGGTGATTTTCGCATAGTAATCATTACCATTATCAGTATAAACACCCTCAATTGAAGCTGGGTTAGTTCCGCCA -GTATCAGTGGCTGCTTCCGTAGAAAGGGTAATTCCAGTAAGTTTAATATTGTTTGTGGTGGTAGCACCAAAAGCAGTTAC -TGGAGCACTAGTGGTAACTGTATCGTTATTTTTAACGCTAAAACCATCAAGGCCAAGAGTTTTAGCATCAATCTGCTTCA -GATCGATAGTGATAGTCTGGTTATCATTTGCGCCAACCTGGATTTTCATGGAGCCATTTTTTGCCAGCACGTTCACGCCG -TTGAACTGGGTCTGACCAGATACGCGGTCAATTTCATCCAGACGGGATTTAATTTCGTCCTGGATAGCAGACAGATCAGA -CTCAGAGTTAGTACCGGTAGTGGCCTGTACCGTCAGTTCACGCACACGCTGTAAGTTGTTGTTGATTTCGGACAGCGCGC -CTTCGGTGGTCTGCGCAACGGAGATACCGTCGTTGGCGTTACGGGCCGCCTGAGTCAGGCCTTTAATGTTAGAGGTGAAA -CGGTTAGCAATCGACTGACCCGCTGCGTCATCCTTCGCGCTGTTAATACGCAAGCCAGAAGACAGACGCTCGATAGAACT -CGACAGCGCAGACTGGTTCTTGTTGATATTATTTTGAGTGATCAGCGAGAGGCTGTTGGTATTAATGACTTGTGCCATGA -TTCGTTATCCTATATTGCAAGTCGTTGATTACGTATTGGGTTTCCACCCGTCGGCTCAATCGCCGTCAACCCTGTTATCG -TCTGTCGTAAAACAACCTTTAGAATTTTTTTCAAAAACAGCCATTTTTTGTTAGTCGCCGAAATACTCTTTTCTCTGCCC -CTTATTCCCGCTATTAAAAAAAACAATTAAACGTAAACTTTGCGCAATTCAGACCGATAACCCCGGTATTCGTTTTACGT -GTCGAAAGATAAAAGGAAATCGCATGGCAAGTATTTCATCGCTGGGAGTCGGGTCAGGTCTGGATTTAAGTTCCATCCTT -GATAGCCTCACCGCCGCGCAAAAAGCGACGCTAACCCCCATTTCAAATCAGCAATCGTCGTTTACCGCTAAACTTAGCGC -CTACGGTACGCTGAAAAGCGCGCTGACGACTTTCCAGACCGCCAATACTGCATTGTCTAAAGCCGATCTTTTTTCCGCCA -CCAGCACCACCAGCAGCACCACCGCGTTCAGTGCCACCACTGCGGGTAACGCCATCGCCGGGAAATACACCATCAGCGTC -ACCCATCTGGCGCAGGCGCAAACCCTGACCACGCGCACCACCAGAGACGATACGAAAACGGCGATCGCCACCAGCGACAG -TAAACTCACCATTCAACAAGGCGGCGACAAAGATCCGATTACCATTGATATCAGCGCGGCTAACTCATCGTTAAGCGGGA -TCCGTGATGCCATCAACAACGCAAAAGCAGGCGTAAGCGCAAGCATCATTAACGTGGGTAACGGTGAATATCGTCTGTCA -GTCACATCAAATGACACCGGCCTTGATAATGCGATGACACTCTCGGTCAGCGGTGATGATGCGCTACAAAGTTTTATGGG -CTATGACGCCAGTGCCAGCAGCAACGGTATGGAGGTCTCGGTTGCCGCCCAGAATGCGCAGCTGACAGTCAACAACGTCG -CCATCGAGAACAGCAGCAACACCATCAGCGACGCGCTGGAAAACATCACCCTGAACCTGAACGATGTCACCACGGGCAAC -CAGACGCTAACCATCACTCAGGACACCTCCAAAGCGCAAACGGCGATTAAAGACTGGGTGAATGCCTACAACTCGCTAAT -AGATACCTTCAGCAGCCTGACCAAATACACCGCCGTAGATGCGGGAGCTGATAGCCAGAGTTCTAGCAATGGTGCACTGC -TCGGCGACTCCACGCTGCGGACGATTCAGACGCAGTTGAAATCGATGCTGAGTAATACCGTCAGTTCTTCCAGCTATAAA -ACGTTGGCGCAGATTGGTATCACGACCGATCCCAGCGATGGCAAACTGGAACTGGATGCCGACAAACTCACCGCTGCACT -GAAAAAAGATGCCAGCGGCGTAGGTGCATTGATTGTTGGCGATGGTAAAAAAACCGGCATCACGACCACCATCGGCAGCA -ACCTGACCAGTTGGCTTTCGACAACGGGCATTATTAAAGCCGCTACCGATGGCGTTAGTAAGACCCTGAATAAATTAACT -AAAGACTACAACGCCGCCAGCGATCGCATTGATGCGCAGGTCGCTCGCTACAAAGAACAATTTACCCAACTGGACGTTTT -AATGACCTCGTTAAACAGCACCAGCAGCTACTTAACGCAGCAGTTCGAAAACAACAGTAATTCCAAGTAAGCAATATTCA -TCGGGAGACAGGTCATGTACGCGGCAAAAGGCACCCAGGCCTATGCACAAATTGGCGTCGAAAGCGCCGTAATGAGCGCC -AGCCAGCAGCAGCTGGTCACCATGCTATTTGATGGAGTGCTGAGCGCACTGGTTAGAGCGAGCCTGTTTATGCAGGACAA -CAATCAGCAAGGCAAAGGCGTCTCTTTGTCAAAAGCGATCAACATCATTGAGAACGGACTGCGGGTGAGTCTTGATGAAG -AGAGCAAAGACGAACTAACCCAAAACTTGATTGCTCTTTATAGCTATATGGTCAGGCGCTTGCTGCAAGCCAATTTACGC -AACGATGTCTCCGCAGTCGAAGAAGTGGAAGCATTAATGCGCAATATTGCCGATGCCTGGAAAGAGTCGTTACTCTCCCC -TTCTTTGATTCAGGACCCAGTCTGATGAACCATGCACCGCATTTATATTTCGCCTGGCAACAACTCGTCGAAAAAAGCCA -GCTCATGTTACGCCTGGCAACGGAAGAACAATGGGACGAACTCATCGCCAGCGAAATGGCGTATGTGAATGCGGTGCAGG -AGATTGCACATTTGACTGAAGAGGTTGACCCGTCCACCACGATGCAGGAGCAGCTCCGCCCGATGCTGCGCCTGATTCTC -GACAACGAAAGCAAGGTAAAGCAGTTATTACAGATTCGGATGGATGAACTGGCGAAACTGGTCGGTCAGTCATCGGTGCA -AAAATCGGTGTTAAGTGCCTATGGCGATCAGGGCGGCTTTGTGCTGGCTCCGCAGGATAACCTCTTTTGAATCTGAATGA -GTCGATGGCTCGCGAATAATCCGATTACGGCTACGCTTCTAATGTTCCCCTTGAATGGAGTCGAAGAATGCGTAATCCCA -CGCTGTTACAATGTTTTCACTGGTATTACCCGGAAGGCGGTAAGCTCTGGCCTGAACTGGCCGAGCGCGCCGACGGTTTT -AATGATATTGGTATCAATATGGTCTGGTTGCCGCCCGCCTATAAAGGCGCATCGGGCGGGTATTCGGTCGGCTACGACTC -CTATGATTTATTTGATTTAGGCGAGTTTGATCAGAAAGGCAGCATCCCTACTAAATATGGCGATAAAGCACAACTGCTGG -CCGCCATTGATGCTCTGAAACGTAATGACATTGCGGTGCTGTTGGATGTGGTAGTCAACCACAAAATGGGCGCGGATGAA -AAAGAAGCTATTCGCGTGCAGCGTGTAAATGCTGATGACCGTACGCAAATTGACGAAGAAATCATTGAGTGTGAAGGCTG -GACGCGTTACACCTTCCCCGCCCGTGCCGGGCAATACTCGCAGTTTATCTGGGATTTCAAATGTTTTAGCGGTATCGACC -ATATCGAAAACCCTGACGAAGATGGCATTTTTAAAATTGTTAACGACTACACCGGCGAAGGCTGGAACGATCAGGTTGAT -GATGAATTAGGTAATTTCGATTATCTGATGGGCGAGAATATCGATTTTCGCAATCATGCCGTGACGGAAGAGATTAAATA -CTGGGCGCGCTGGGTGATGGAACAAACGCAATGCGACGGTTTTCGTCTTGATGCGGTCAAACATATTCCAGCCTGGTTTT -ATAAAGAGTGGATCGAACACGTACAGGAAGTTGCGCCAAAGCCGCTGTTTATTGTGGCGGAGTACTGGTCGCATGAAGTT -GATAAGCTGCAAACGTATATTGATCAGGTGGAAGGCAAAACCATGCTGTTTGATGCGCCGCTGCAGATGAAATTCCATGA -AGCATCGCGCATGGGGCGCGACTACGACATGACGCAGATTTTCACGGGTACATTAGTGGAAGCCGATCCTTTCCACGCCG -TGACGCTCGTTGCCAATCACGACACCCAACCGTTGCAAGCCCTCGAAGCGCCGGTCGAACCGTGGTTTAAACCGCTGGCG -TATGCCTTAATTTTGTTGCGGGAAAATGGCGTTCCTTCGGTATTCTATCCGGACCTCTACGGTGCGCATTACGAAGATGT -CGGTGGTGACGGGCAAACCTATCCGATAGATATGCCAATAATCGAACAGCTTGATGAGTTAATTCTCGCCCGTCAGCGTT -TCGCCCACGGTGTACAGACGTTATTTTTCGACCATCCGAACTGCATTGCCTTTAGCCGCAGTGGCACCGACGAATTTCCC -GGCTGCGTGGTGGTCATGTCGAACGGGGATGATGGCGAAAAAACCATTCATCTGGGAGAGAATTACGGCAATAAAACCTG -GCGTGATTTTCTGGGGAACCGGCAAGAGAGAGTAGTGACCGACGAAAACGGCGAAGCAACCTTCTTTTGCAACGGCGGCA -GCGTCAGCGTGTGGGTTATCGAAGAGGTGATTTAAATTCATCCCCGGCGGCAAGCCGGGGAGATTTCATTACGGCAGTGG -CGTCGGTAACGGCGCTTTATCCAGCGCGGCGGCACACTCTGCTGTCGGGCGATCCACACGCTCCATCGTCATACCATCGT -ACTCAATGGTGTTACCGTCACGCTCAACCTCGTACAGCTCACGTTTTACGGTAACGTTAGTGAGATCATCAGACATCAAT -GTCAACTTACCCGGCACGGCAATCACCCGCTGCCACTGACGGCAATCCAGGGTATCGCCCTCTTTAGTGACAATCAGGCT -GCCTATCGCTTCCGGGCTGACCAGCGCACGTTGCGGCCCTTTGGTCTGCCAGTAGCCCGCCAGCCAGTCCGGCGCGGGGG -TTTTCACGACATTGTTATAGTTTTCGACTTCGGCACAGCCCGCCAGCAACAAGAGCGCGCCTGCAATTGCGAGTTTTTTC -ATCATTCGTCCTGCATGAGAAGAAAAGAGGATTGTGGCATTAAAGCCCTGATGTCGCCAGCCTTTCAAGGTTCAGAGAGA -AATTTGATCTAACTATTATTTTTGTGAATTATTACCCCGAAAATAAATTTGCATGGTGTATGATTCGCGACTCTTGTTTC -AAACCTTCTGAGTTCAGAGGCTACATTCATGTCATGGCAGCAATTCAAACACGCCTGGTTGATTAAATTCTGGGCCCCCA -TCCCTGCGGTCATCGCGGCGGGTATTCTCTCTACTTACTATTTTGGCATTACTGGCACCTTTTGGGCTGTCACGGGTGAA -TTTACCCGTTGGGGCGGCCAGCTCCTGCAACTGTTCGGCGTCCATGCTGAAGAGTGGGGTTACTTTAAAATTATCCATCT -GGAAGGATCGCCATTAACCCGCATCGACGGGATGATGATCCTCGGTATGTTTGGCGGCTGCTTTGCCGCAGCGCTGTGGG -CCAACAATGTCAAACTGCGAATGCCGCGCAGCCGTATCCGCATTATGCAGGCCATCATTGGCGGCATTATCGCCGGTTTT -GGCGCGCGTCTGGCAATGGGCTGTAACCTGGCGGCGTTCTTTACCGGTATTCCTCAGTTCTCGCTGCATGCCTGGTTCTT -TGCCATCGCCACTGCCATTGGTTCATGGTTTGGCGCGCGCTTTACCCTGCTGCCCATCTTCCGTATTCCCGTGAAAATGC -AGAAAGTTTCTGCCGCCTCACCGCTGACGCAAAAACCGGATCAGGCGCGGCGTCGTTTTCGTCTCGGGATGCTGGTCTTT -TTCGGCATGCTGGGCTGGGCGCTGCTCACAGCGATGAACCAACCCAAACTGGGGCTGGCAATGCTGTTTGGCGTCGGCTT -TGGTTTACTGATTGAACGTGCGCAAATCTGCTTTACTTCAGCGTTCCGCGATATGTGGATCACCGGACGTACCCATATGG -CGAAAGCAATCATTATCGGTATGGCGGTGAGTGCCATCGGGATCTTCAGTTACGTACAGTTAGGCGTTGAACCCAAAATC -ATGTGGGCGGGACCAAACGCGGTAATTGGTGGTTTACTGTTTGGTTTTGGCATCGTGCTGGCTGGCGGCTGCGAAACCGG -CTGGATGTACCGCGCGGTAGAAGGCCAGGTGCACTACTGGTGGGTCGGTCTGGGCAATGTGATCGGCTCAACGATTCTGG -CGTATTACTGGGATGATTTCGCTCCGGCGCTGGCCACCGACTGGGACAAAATCAACCTGCTGAAAACCTTTGGTCCGATG -GGTGGCCTGCTGGTGACATATTTGCTGTTGTTTGCTGCGCTGATGTTGATTATCGGCTGGGAAAAACGCTTCTTCCGCCG -TGCGGCACCGCAGACTGCTAAGGAGATCGCATGAAAAATATCGTTCCTGATTACCGCCTTGATATGGTGGGTGAACCCTG -CCCTTATCCGGCAGTCGCAACCCTTGAGGCGATGCCGCAGTTAAAAAAAGGGGAAATCCTGGAAGTGGTGAGCGACTGTC -CGCAGTCGATCAATAATATTCCACTGGATGCGCGTAATCACGGCTATACGGTGCTGGATATTCAGCAAGACGGGCCGACC -ATTCGTTATTTAATTCAGAAGTAATCCCTCATTCCCGCTGTGACCCACAGCGGGAACATCGTTACCTTTGTATCACATAG -ATTTTACCCGCCCCCACTCCTATTCTTTTCAGTATGATCTCAGGAGGTTTCTATGTGTGGACGCTTTGCCCAATCCCAAA -CGCGTGAAGATTACCTTGCGCTTCTCGCGGAAGATATTGAACGCGATATTCCCTATGATCCCGAACCCATTGGCAGATAC -AACGTCGCGCCGGGAACCAAAGTCCTACTGCTCAGTGAACGTGATGAACACCTTCATCTGGATCCGGTTTTCTGGGGATA -TGCTCCCGGATGGTGGGATAAACCGCCGCTGATTAACGCCCGCGTAGAAACTGCGGCAACCAGTCGTATGTTTAAACCGC -TCTGGCAACATGGTCGGGCAATCTGTTTTGCCGATGGCTGGTTTGAGTGGAAAAAAGAAGGCGACAAAAAACAGCCTTTT -TTTATCTATCGTGCTGATGGACAACCTATTTTTATGGCCGCGATAGGTAGCACACCATTTGAGCGTGGTGACGAAGCCGA -AGGATTTTTGATCGTCACTGCTGCGGCAGATCAAGGTCTGGTAGATATTCATGACCGCCGCCCACTGGTACTGTCGCCAG -AAGCTGCGCGGGAATGGATGCGGCAAGAGATTAGCGGTAAAGAAGCCTCAGAAATCGCGGCCAGTGGCTGTGTTCCAGCA -AACCAGTTCTCCTGGCACCCGGTATCGCGCGCGGTGGGTAATGTTAAAAACCAGGGCGCGGAGTTAATTCAACCTGTTTG -ATAAGCCTGGAGATTATTGATCAACAATACTGCGTCATAAGAAATCTCTATTAGACAAAGATTTCATTACCTGTTGGCAT -ATTGCAAAAATAACACCAATACGGAATCGTCATGTTCACGATTAAAACAGATGATCTCACCCATCCAGCAGTGCAAGCAT -TAGTGGCTTACCATATTTCCGGCATGCTGCAGCAGTCTCCCCCCGAAAGCAGTCATGCTTTAGATGTGCAAAAATTACGT -AACCCGACAGTGACATTCTGGTCAGTATGGGAAGGCGAACAACTCGCAGGAATTGGTGCGCTGAAGTTGCTGGATGATAA -ACACGGCGAGCTGAAATCAATGCGTACCGCGCCAAATTATTTACGTCGTGGTGTCGCCAGTCTGATTTTACGCCACATTT -TGCAGGTCGCCCAGGACAGATGCCTTCATCGCCTGAGCTTAGAAACGGGTACACAGGCTGGATTTACGGCCTGCCATCAA -CTTTATTTGAAGCATGGTTTCGCTGATTGCGAACCGTTTGCTGATTATCGACTTGATCCACACAGTCGATTTTTATCATT -GACGCTATGCGAAAATAATGAATTGCCATGAGCCAGACGCAGCACATTCTTGCATTCGACGTGCTGCGCCTTTATTTATC -ACCAGCAGGAAACGCCTTGTCCATAGACGCCCCTTCCACATGCGCCACAAGAAACCTCTATTCCAGTGACACAATTGCGC -CTAATTAATTACATTTAATATTTAATTATGAGTTCCTCACCATCTATTACATACTTTTTAACCATATCGGAATATTTATC -ATAATCAGCGGGATTCGTAACAATATATTTTCGCTGCGATCTTTCATAGCAAATCCCTGTCAAAGTCCATGATATAAAAA -TGTCTCTTCAAAAGAATTACATTCTTTAAAAAGTAATTCTTTATTGCTATATATCGCAGAGACAACCTCAATATCACACT -CCATACGTGCTTTCTCCAGATGATTTGGGAAGTATTGAATTTCTTTTATCTTATTATCGCCACAATTAAACAGCTTAGTA -GTCTCAGGCATTGCTGGTATTTACCATATTTTATTGCGATAAATAGAAATTGTCATAGCCTTTGACGGAGATGAGTCAAC -ACGCGATATCAGATTATTATCTACGGAGACCTGGGTAATTCCATCGGATACTTTTGGAAATACCATATAATTATTGAAAT -CGAGCTCTAATTCTTTGCAGAATTTGGGAATTTGTATTGTGGCAAGGCCATTATGACGAAGATAAAGCACCTCAATCCAG -GATGGAAGAGGTGGCAAAGACCCCAAGTGAAGATCTGTTAAGTCAAGTTTACTATTGTGGAGTTCAACACATTTAAACAA -TCTCACCAATGCTATATCCACATTTTTTTTGAAGTCATTCGATGCGCCTTCTTTTACTGAATTAGCCCAGTCGCTGAAAC -CTTTGCAAAGTCTGGAATCTGTAATTTTCGTAAAGTTGTCTAGAAACTCTGCAATATTAGTCGATATAAACTCTAATTTA -TGCCGAATGGGTGGGTTACCAGTTCCCTGATTTTTTCTATCATGATAAAACCTATCTTATTATAAATCGAGAAATCTTGA -AACCAGAGACTATAATCACCCCATTCGAAATATTCTGAGTGCAATAACTTAAATTCTGACAGCATATTAAATAATTTGCT -GTCTTCACTAATTGGTGTAAACTTACCATTTCCAAGACAACTGACTAACTCACTTGATAATTCATTTATGATTGCATCAT -CAGATACTAACTCATGTTGTTTTATCGTAGATTCAGTATTAGATGTGACTTTATTTAATTGAACCGGCTGAGTTTTTAAC -GAAAGATCATTTAATGGAAACATTTACACTCCTGTTTAATAAATTATATTGCCCAGGGCGCATTCTAAAACACAATAAAA -TTACCACTATCAAAAATCGCTCATATCCATCGCCCGGAATATGAATAAAAACATCAACAAAGATTAAATTATCCAGAGGT -TACTGTTGCGTCTGTGGTCGTAACAACATCCGACGTGGTGATGTGTCAAATGAGACGCTCTGATGTTCAGGGGGGTTATC -GCGTATACGGATCGTGGATGGCAGAAAACGTTCAGGATCAGGTATCCATTTTAAACCAGAAATTGAGTGAGTTTGCCCCA -TCCATGCCCCACGCGGTGAGATCGGATGTAATTAACAACAGGTTACAAAACCTACACCTGCATGCTCATCACTTCCTGAT -ACGCCGCCACCAGCTTATTACGCACCTGAATCCCCATTTGCATAGAAACTGAGGCTTTTTGCATATCGGTCATCACATCG -TTTAACGCCACGCCGGGTTCACCGAGAGTGAATTTTTCTGCCTGCGTGCGGGCAGCTGTTTGTGTATCACTAATGCGATC -GAGCGCGGCGTGCAGCTGCCCGGCAAAACTAATGGTCGGTTGCGGCAGTGATTCCTGCGCACGCGCACTCATCGCCGTAG -CCTGTAACTGGCTGATAACCCCTTCAATCCCCTGTATCGCTGACATTCTCGTCTCCCGGATAATTTCTGGTAGCAAAGCC -TACCAGTAAGTCAATAAGACAAAGGCGCTAAATAGCAACAAAAAAACGGGTTTATTGGCGGATAGAAAAAAACGAAAGCA -CAAATAATGGGAGCGTCAATTTTTCGAGTTTGCTGACCCGGGAGTGAGTCTTGTTCCACTTTGCCAATAACGCCGTCCAT -AATCAGCCACGAGGTGCGCGATGAATGCGACTGCAGCCCAGACAAAATCTCTTGAGTGGCTTAATCGCCTGCGTGCGAAT -CCGAAAATTCCATTGATTGTTGCCGGTTCCGCGGCAGTGGCGGTCATGGTCGCACTGATCCTGTGGGCGAAAGCCCCCGA -CTACCGCACATTATTCAGCAATCTTTCCGATCAGGATGGTGGCGCAATTGTCAGCCAACTGACGCAAATGAATATTCCTT -ACCGCTTCAGCGAAGCCAGCGGCGCTATTGAAGTTCCGGCAGATAAAGTTCACGAACTGCGTCTGCGCCTGGCACAACAA -GGTTTGCCAAAAGGCGGCGCGGTCGGTTTCGAACTGCTTGATCAGGAAAAGTTTGGTATCAGCCAGTTCAGCGAACAGGT -GAATTATCAGCGGGCGCTGGAAGGCGAGCTTTCTCGTACCATCGAAACTATCGGCCCGGTAAAAGGGGCGCGCGTACATC -TGGCAATGCCGAAACCGTCTTTATTCGTCCGTGAACAAAAATCCCCTTCTGCATCGGTGACGGTAAATCTGTTACCCGGC -CGCGCACTCGATGAAGGGCAAATTAGCGCCATTGTGCATCTGGTTTCCAGCGCCGTTGCTGGTCTGCCGCCGGGAAACGT -CACGCTGGTGGATCAGGGCGGACATCTGTTAACCCAGTCCAATACCAGCGGGCGCGATCTTAATGACGCTCAGTTGAAAT -ATGCCAGCGATGTCGAAGGCCGTATTCAGCGGCGTATTGAAGCGATCCTGTCGCCTATTGTTGGTAACGGTAATATTCAC -GCCCAGGTTACGGCGCAGCTGGACTTCGCCAGTAAAGAACAAACGGAAGAACAGTATCGCCCTAACGGTGATGAATCTCA -TGCGGCGCTTCGTTCACGCCAGCTTAATGAGAGCGAGCAAAGCGGTTCCGGTTATCCGGGCGGCGTACCGGGGGCGTTGT -CGAATCAACCGGCACCTGCGAATAACGCGCCAATCAGCACGCCTCCGGCAAATCAAAATAACCGCCAGCAGCAGGCGAGC -ACCACCAGCAATAGTGGGCCGCGTAGCACACAGCGGAATGAAACCAGTAACTACGAAGTCGATCGCACCATTCGTCATAC -CAAAATGAACGTGGGCGATGTGCAACGTCTGTCAGTCGCGGTCGTGGTGAATTACAAAACCTTGCCAGATGGCAAACCGT -TGCCTCTCAGCAACGAACAGATGAAGCAAATTGAAGATCTGACCCGCGAGGCGATGGGCTTTTCTGAAAAACGCGGTGAC -TCGCTCAATGTCGTTAACTCGCCGTTCAATAGCAGTGACGAAAGCGGCGGAGAACTGCCATTCTGGCAACAGCAAGCGTT -TATCGATCAGTTACTTGCTGCCGGTCGCTGGTTGCTGGTACTGCTGGTGGCGTGGCTGCTGTGGCGGAAAGCGGTACGTC -CGCAGCTAACACGTCGCGCTGAGGCGATGAAAGCTGTACAGCAACAGGCGCAGGCCCGCGAGGAAGTGGAAGATGCGGTG -GAAGTCCGCCTGAGCAAAGACGAACAACTACAACAACGGCGCGCTAACCAACGTCTGGGGGCAGAAGTCATGAGCCAGCG -TATCCGTGAAATGTCTGATAACGATCCGCGCGTGGTGGCGCTGGTCATTCGCCAGTGGATAAATAACGATCATGAGTAAC -CTGACAGGCACCGATAAAAGCGTCATCCTGCTGATGACCATTGGCGAAGACCGGGCGGCAGAGGTGTTCAAGCACCTCTC -CCAGCGTGAAGTACAAACCCTGAGCGCTGCAATGGCGAACGTCACGCAGATCTCCAACAAGCAGCTAACCGATGTGCTGG -CGGAGTTTGAGCAAGAAGCTGAACAGTTTGCCGCACTGAATATCAACGCCAACGATTATCTGCGCTCGGTATTGGTCAAA -GCTCTGGGTGAAGAACGTGCCGCCAGCCTGCTGGAAGATATTCTCGAAACTCGCGATACCGCCAGCGGTATTGAAACGCT -CAACTTTATGGAGCCACAGAGCGCCGCCGATCTGATTCGCGATGAGCATCCGCAAATTATCGCCACCATTCTGGTGCATC -TGAAGCGCGCCCAAGCCGCCGATATTCTGGCGTTGTTCGATGAACGTCTGCGCCACGACGTGATGTTGCGTATCGCCACC -TTTGGCGGCGTGCAGCCAGCCGCGCTGGCGGAGCTGACCGAAGTACTGAATGGCTTGCTCGACGGTCAGAATCTCAAGCG -CAGCAAAATGGGCGGCGTGAGAACGGCAGCCGAAATTATCAACCTGATGAAAACTCAGCAGGAAGAAGCCGTTATTACCG -CCGTGCGTGAATTCGACGGCGAGCTGGCGCAGAAAATCATCGACGAGATGTTCCTGTTCGAGAATCTGGTGGATGTCGAC -GATCGCAGCATTCAGCGTCTGTTGCAGGAAGTGGATTCCGAATCGCTGTTGATCGCGCTGAAAGGAGCCGAGCAGCCACT -GCGCGAGAAATTCTTGCGCAATATGTCGCAGCGTGCCGCCGATATTCTGCGCGACGATCTCGCCAACCGTGGTCCGGTGC -GTCTGTCGCAGGTGGAAAACGAACAGAAAGCGATTCTGCTGATTGTGCGCCGCCTTGCCGAAACTGGCGAGATGGTAATT -GGCAGCGGCGAGGATACCTATGTCTGATAATCTGCCGTGGAAAACCTGGACGCCGGACGATCTCGCGCCACCACAGGCAG -AGTTTGTGCCCATAGTCGAGCCGGAAGAAACCATCATTGAAGAGGCTGAACCCAGCCTTGAGCAGCAACTGGCGCAACTG -CAAATGCAGGCCCATGAGCAAGGTTATCAGGCGGGTATTGCCGAAGGTCGCCAGCAAGGTCATAAGCAGGGCTATCAGGA -AGGACTGGCCCAGGGGCTGGAGCAAGGTCTGGCAGAGGCGAAGTCTCAACAAGCGCCAATTCATGCCCGGATGCAGCAAC -TGGTCAGCGAATTTCAAACTACCCTTGATGCACTTGATAGTGTGATAGCGTCGCGCCTGATGCAGATGGCGCTGGAGGCG -GCACGTCAGGTCATCGGTCAGACGCCAACGGTGGATAACTCGGCACTGATCAAACAGATCCAACAGTTGTTGCAGCAAGA -ACCGTTATTCAGCGGTAAACCACAGCTGCGCGTGCACCCGGATGATCTGCAACGTGTGGATGATATGCTCGGCGCTACCT -TAAGTTTGCATGGCTGGCGCTTGCGGGGCGATCCCACCCTCCATCCTGGCGGCTGTAAAGTCTCCGCCGATGAAGGCGAT -CTCGACGCCAGTGTCGCCACTCGCTGGCAAGAACTCTGCCGTCTGGCAGCACCAGGAGTGGTGTAATGACCACGCGCCTG -ACTCGCTGGCTAACCACGCTGGATAACTTTGAAGCCAAAATGGCGCAGTTGCCTGCGGTACGTCGCTACGGGCGATTAAC -CCGCGCTACCGGGCTGGTGCTGGAAGCCACCGGATTACAATTGCCGCTCGGCGCAACCTGTGTCATTGAGCGCCAGAACG -GCAGCGAAACGCACGAAGTAGAAAGCGAAGTCGTTGGCTTTAACGGTCAACGGCTGTTTTTAATGCCGCTGGAGGAAGTC -GAAGGTGTCCTGCCCGGCGCGCGTGTTTATGCCAAAAACATTTCGGCAGAAGGGCTGCAAAGCGGCAAGCAGTTGCCGCT -CGGTCCGGCGTTATTAGGTCGCGTTCTGGACGGCAGCGGTAAACCGCTCGATGGCCTGCCCTCCCCCGATACGACGGAAA -CCGGTGCGCTGATTACCCCGCCATTTAACCCGTTGCAACGTACACCGATTGAACATGTGCTGGACACCGGCGTGCGCCCA -ATCAATGCCCTGCTTACCGTTGGGCGTGGGCAGCGTATGGGGCTGTTTGCCGGGTCCGGCGTTGGTAAAAGTGTGCTGCT -GGGGATGATGGCACGTTACACCCGCGCCGATGTCATTGTCGTGGGTTTGATTGGTGAACGTGGGCGCGAAGTAAAAGATT -TTATTGAGAACATCCTCGGTGCCGAAGGGCGTGCACGCTCAGTGGTGATTGCCGCTCCGGCGGATGTTTCTCCGCTCCTG -CGAATGCAGGGTGCCGCCTATGCCACGCGCATTGCCGAAGATTTTCGCGATCGTGGTCAGCATGTGTTGCTGATTATGGA -CTCCCTCACCCGCTACGCGATGGCCCAGCGTGAAATTGCGCTGGCGATTGGCGAACCCCCCGCCACCAAAGGTTATCCAC -CGTCGGTGTTTGCCAAATTACCGGCACTGGTCGAGCGTGCCGGAAATGGCATTAGCGGCGGCGGCTCGATTACCGCGTTT -TATACCGTGCTCACTGAAGGCGATGACCAGCAGGATCCGATTGCCGACTCCGCGCGGGCGATCCTCGACGGTCACATTGT -GCTGTCTCGCCGACTGGCGGAAGCCGGGCACTATCCGGCTATCGATATTGAAGCGTCGATCAGCCGCGCAATGACGGCGT -TGATCAGTGAGCAACATTACGCGCGAGTGCGCACCTTCAAACAGCTGTTGTCGAGTTTTCAGCGTAACCGCGATCTGGTT -AGCGTCGGCGCGTATGCCAAAGGCAGCGATCCGATGCTCGATAAAGCCATCGCCCTGTGGCCGCAGCTGGAGGGCTATTT -GCAACAAGGCATTTTTGAACGCGCGGACTGGGAAGCGTCTCTCCAGGGGCTGGAGCGTATTTTCCCGACAGTGTCATAAC -CCAGGAGATAACGGCAGATGGCAGAACATGGTGCGCTGGCGACCCTGAAAGATCTGGCAGAAAAAGAGGTAGAGGATGCC -GCGCGCCTGCTGGGTGAAATGCGTCGCGGATGTCAGCAGGCGGAAGAACAGCTCAAAATGCTGATTGATTATCAGAATGA -ATATCGCAATAACCTCAACAGCGATATGAGTGCCGGGATAACCAGCAACCGCTGGATCAACTATCAGCAGTTTATCCAGA -CGCTGGAAAAAGCCATTACTCAGCATCGCCAGCAACTTAATCAGTGGACGCAGAAAGTTGACATTGCCCTGAACAGTTGG -CGAGAAAAAAAACAACGTTTGCAGGCCTGGCAGACACTGCAGGAACGGCAATCCACGGCGGCACTGCTTGCAGAAAACCG -CCTCGATCAGAAAAAGATGGATGAGTTCGCCCAGCGCGCCGCCATGAGGAAACCTGAATGATTCGCTTAGCGCCCTTGAT -TACCGCCGACGTTGACACCACCACATTGCCTGGCGGCAAAGCCAGCGATGCTGCACAAGATTTTCTCGCGTTGTTGAGCG -AAGCATTAGCAGGCGAGACAACTACCGACAAAGCGGCCCCCCAGTTGCTGGTGGCAACAGATAAGCCCACGACAAAAGGC -GAGCCGCTGATCAGCGATATTGTTTCCGACGCGCAACAAGCTAATTTACTGATCCCTGTGGATGAAACACCGCCTGTCAT -CAACGACGAACAATCCACATCAACACCGTTAACCACCGCTCAGACGATGGCGTTGGCTGCGGTGGCTGACAAAAATACGA -CAAAAGACGAAAAAGCGGATGATCTGAATGAAGACGTCACCGCAAGCCTGAGCGCCCTTTTTGCGATGTTGCCGGGTTTT -GACAATACGCCCAAAGTGACTGATGCGCCGTCAACCGTGTTACCGACAGAGAAACCAACGCTCTTCACAAAACTGACTTC -TGAGCAACTCACAACAGCACAGCCTGATGACGCCCCCGGCACACCAGCTCAGCCATTAACACCGCTGGTAGCAGAAGCCC -AGAGTAAAGCGGAAGTCATCAGCACACCTTCACCGGTGACCGCTGCCGCCAGCCCGCTAATCACTCCACACCAGACACAG -CCACTGCCCACCGTCGCCGCACCTGTTTTGAGTGCACCGCTGGGTTCTCACGAATGGCAACAATCATTAAGCCAGCATAT -TTCGCTGTTCACCCGCCAGGGGCAACAAAGTGCAGAGTTGCGTCTGCACCCGCAGGATTTAGGTGAAGTGCAAATCTCCC -TCAAAGTGGATGATAACCAGGCGCAAATCCAGATGGTTTCACCGCATCAGCATGTACGCGCCGCCCTGGAAGCAGCGCTG -CCGGTACTGCGCACGCAGCTGGCCGAAAGTGGCATTCAGTTAGGGCAAAGCAACATCAGTGGCGAAAGCTTTAGTGGTCA -GCAGCAGGCCGCTTCCCAGCAACAGCAAAGCCAACGCACAGCAAACCATGAACCTCTGGCGGGGGAAGACGACGATACGC -TTCCGGTTCCCGTCTCTTTACAAGGGCGTGTAACAGGCAACAGCGGCGTTGATATTTTCGCCTAACGTCAGAGGTAGCAC -CGTAATCCGCGTCTTTTCCCCGCTTTGTTGCGCTCAAGACGCAGGATAATTAGCCGATAAGCAGTAGCGACACAGGAAGA -CCGCAACACATGACTGATTACGCGATAAGCAAGAAAAGCAAGCGATCGCTTTGGATCCCGATTCTGGTATTCATTACCCT -CGCGGCCTGTGCCAGCGCAGGTTACAGCTACTGGCATTCGCATCAGGTTGCCGCTGACGACAAAGCGCAGCAACGCGTCG -TGCCCTCACCGGTCTTCTACGCGCTGGATACCTTCACGGTCAATTTGGGCGATGCGGATCGCGTACTTTATATCGGCATA -ACCCTGCGCCTGAAAGATGAAGCTACCCGCTCGCGGCTGAGTGAGTATTTGCCGGAAGTCCGTAGTCGCTTGCTGTTACT -GTTTTCGCGTCAGGATGCTGCCGTACTGGCGACAGAAGAAGGCAAGAAAAACCTGATTGCCGAGATTAAAACCACACTTT -CCACCCCGCTTGTTGCCGGGCAACCGAAACAGGATGTCACCGACGTGCTGTATACCGCTTTTATTCTGCGATAACGACAT -GGGCGATAGTATTCTTTCTCAAGCTGAAATTGATGCGCTGTTGAATGGTGACAGCGAAGTCAAAGACGAACCGACAGCCA -GTGTTAGCGGCGAAAGTGACATTCGTCCGTACGATCCGAATACCCAACGACGGGTTGTGCGCGAACGTTTGCAGGCGCTG -GAAATCATTAATGAGCGCTTTGCCCGCCATTTTCGTATGGGGCTGTTCAACCTGCTGCGTCGTAGCCCGGATATAACCGT -CGGGGCCATCCGCATTCAGCCGTACCATGAATTTGCCCGCAACCTGCCGGTGCCGACCAACCTGAACCTTATCCATCTGA -AACCGCTGCGCGGCACTGGGCTGGTGGTGTTCTCACCGAGTCTGGTGTTTATCGCCGTGGATAACCTGTTTGGCGGCGAT -GGACGCTTCCCGACCAAAGTGGAAGGTCGCGAGTTTACCCATACCGAACAGCGCGTCATCAACCGCATGTTGAAACTGGC -GCTTGAAGGCTATAGCGACGCCTGGAAGGCGATTAATCCGCTGGAAGTTGAGTACGTGCGTTCGGAAATGCAGGTGAAAT -TTACCAATATCACCACCTCGCCGAACGACATTGTGGTTAACACGCCGTTCCATGTGGAGATTGGCAACCTGACCGGCGAA -TTTAATATCTGCCTGCCATTCAGCATGATCGAGCCGCTACGGGAATTGTTGGTTAACCCGCCGCTGGAAAACTCGCGTAA -TGAAGATCAGAACTGGCGCGATAACCTGGTGCGCCAGGTGCAGCATTCACAGCTGGAGCTGGTCGCCAACTTTGCCGATA -TCTCGCTACGCCTGTCGCAGATTTTAAAACTGAACCCCGGCGACGTCCTGCCGATAGAAAAACCCGATCGCATCATCGCC -CATGTTGACGGCGTCCCGGTGCTGACCAGTCAGTATGGCACCCTCAACGGTCAGTATGCGTTACGGATAGAACATTTGAT -TAACCCGATTTTAAATTCTCTGAACGAGGAACAGCCCAAATGAGTGACATGAATAATCCGGCCGATGACAACAACGGCGC -AATGGACGATCTGTGGGCTGAAGCGTTGAGCGAACAAAAATCAACCAGCAGCAAAAGCGCTGCCGAGACGGTGTTCCAGC -AATTTGGCGGTGGTGATGTCAGCGGAACGTTGCAGGATATCGACCTGATTATGGATATTCCGGTCAAGCTGACCGTCGAG -CTGGGCCGTACGCGGATGACCATCAAAGAGCTGTTGCGTCTGACGCAAGGGTCCGTCGTGGCGCTGGACGGTCTGGCGGG -CGAACCACTGGATATTCTGATCAACGGTTATTTAATCGCCCAGGGCGAAGTGGTGGTCGTTGCCGATAAATATGGCGTGC -GGATCACCGATATCATTACTCCGTCTGAGCGAATGCGCCGCCTGAGCCGTTAGTGATGAATAACCACGCTACTGTGCAAT -CTTCCGCGCCGGTTTCTGCTGCGCCACTGCTGCAGGTGAGCGGCGCACTCATCGCCATTATTGCCCTGATCCTCGCTGCT -GCCTGGCTGGTAAAACGGTTGGGATTTGCCCCTAAACGCACTGGCGTTAACGGTCTGAAAATTAGCGCCAGTGCTTCACT -GGGCGCGCGTGAAAGGGTTGTGGTGGTCGATGTGGAAGATGCACGGCTGGTGCTCGGCGTTACCGCAGGTCAAATCAATC -TGCTGCATAAACTTCCCCCTTCTGCACCAACGGAAGAGATACCGCAGACCGATTTTCAGTCGGTCATGAAAAATTTGCTT -AAGCGTAGCGGGAGATCCTGATGCGTCGTTTATTGTCTGTCGCACCTGTCCTTCTCTGGCTGATTACGCCCCTCGCCTTC -GCGCAACTGCCGGGTATCACCAGCCAGCCGCTGCCTGGCGGTGGACAAAGCTGGTCGCTCCCGGTGCAGACGCTGGTGTT -CATCACCTCGTTGACGTTTATTCCGGCAATTTTACTGATGATGACCAGTTTCACCCGCATCATCATTGTTTTTGGTTTAT -TGCGTAACGCGCTGGGAACACCCTCCGCGCCACCTAACCAGGTATTGCTGGGGCTGGCACTGTTTTTGACCTTTTTTATT -ATGTCACCGGTGATCGACAAAATTTATGTAGATGCGTACCAGCCATTCAGCGAAGAGAAAATATCAATGCAGGAGGCGCT -GGAAAAAGGGGCGCAGCCGCTGCGTGAGTTTATGCTGCGTCAGACCCGTGAGGCAGATTTAGGGTTGTTTGCCAGACTGG -CGAATACCGGCCCGTTGCAGGGACCTGAAGCCGTGCCGATGCGCATTTTGCTCCCGGCCTACGTGACCAGCGAGTTGAAA -ACCGCATTTCAGATAGGCTTCACGATTTTCATCCCTTTTTTGATTATCGACCTGGTGATAGCCAGCGTGTTGATGGCATT -GGGGATGATGATGGTTCCCCCAGCCACCATTGCTCTGCCCTTTAAACTGATGCTGTTTGTACTGGTGGATGGCTGGCAAT -TGCTGGTCGGTTCGCTGGCGCAGAGCTTTTACAGCTAGAGAGGCAAAATGACACCTGAATCGGTCATGATGATGGGGACT -GAAGCGATGAAAGTCGCGCTGGCACTGGCTGCCCCGCTATTGTTGGTAGCGTTGGTCACGGGCCTTATCATCAGTATTTT -GCAGGCCGCCACGCAGATTAACGAAATGACGCTGTCGTTTATTCCGAAAATCATCGCCGTATTTATCGCCATTATTATTG -CCGGACCGTGGATGCTCAATCTGTTGCTGGATTACGTCCGCACCTTGTTCACTAACCTGCCGTATATCATCGGGTAGCCG -TACTATGTTGCAGGTGACAAGCGAACAATGGCTATCCTGGTTAAACCTGTACTTCTGGCCGTTACTGCGCGTGCTGGCGC -TGATCTCCACCGCGCCGATTCTGAGCGAACGCAGCGTACCGAAACGGGTAAAACTGGGTCTGGCAATGATGATCACGTTC -GCCATTGCCCCATCATTACCTGCCAACGATGTTCCTGTTTTTTCGTTCTTTGCTCTGTGGCTGGCCGTGCAGCAGATCCT -GATCGGCATTGCGCTTGGTTTTACCATGCAATTTGCCTTTGCCGCTGTGCGAACCGCTGGCGAAATTATCGGTCTGCAAA -TGGGGCTGTCATTTGCGACGTTTGTCGATCCGGCCAGCCATCTTAATATGCCCGTTTTAGCGCGTATCATGGATATGCTG -GCGTTACTGCTGTTCCTGACATTTAACGGTCATTTATGGTTGATTTCACTGCTGGTCGATACCTTTCACACCCTGCCGAT -TGGTGGCGAACCGTTGAACAGCAATGCGTTTCTGGCACTCACCAAAGCAGGGAGTTTGATTTTCCTTAACGGGCTGATGC -TGGCGTTACCGCTCATTACTCTGCTGCTGACACTGAATCTGGCATTAGGTTTACTTAATCGTATGGCCCCGCAATTATCC -ATTTTTGTTATTGGATTTCCATTAACTCTGACTGTCGGCATCTCTTTAATGGCGGCATTAATGCCGTTAATTGCACCTTT -TTGCGAACATTTATTCAGTGAAATTTTTAATTTGCTGGCTGATATTATTAGTGAATTGCCATTAATATAATTCCGTAACG -TTTATCATGTTATCCTAAGGATTATCCGAAAAATAATACCTACGAACATCTTCCAGGATACTCCTGCAGCGAAATATTTG -TTTTAAGCTCACTCACATATCGCAACATTTACTTTACTTTAAGACAATTCCAGGCAAATTATACAACACTTTACGGGATA -GTAAGTCCGCCTGAAAAATCGCGAGAGTGGCGCATTAGGTGACCCATGTTGTTCCGTTTAGTCATGATGAAATATTCAGG -TAAGGGGAATTATCGTTACGCATTGAGTGAGGGTATGCCATGTCAACGATTATTATGGATTTATGTAGTTACACCCGACT -AGGTTTAACCGGGTATCTGTTGAGTAGAGGGGTTAAAAAAAGAGAAATCAACGACATTGAAACCGTTGATGACCTTGCCA -TAGCTTGTGATTCACAGCGCCCTTCAGTGGTGTTTATTAATGAGGACTGTTTCATCCACGATGCTTCTAACAGTCAGCGT -ATCAAGCTCATCATTAATCAACATCCCAATACGTTATTTATCGTTTTTATGGCAATTGCCAATGTTCATTTTGATGAATA -TCTATTGGTCAGAAAAAATTTATTGATCAGTTCTAAATCGATTAAACCGGAATCTCTCGACGATATCCTTGGCGATATTC -TGAAAAAAGAGACAACGATAACCTCGTTTTTAAATATGCCGACGTTATCATTGAGCCGAACCGAATCGAGTATGTTGCGA -ATGTGGATGGCAGGTCAGGGAACCATTCAAATCTCTGACCAAATGAATATCAAAGCCAAGACCGTTTCATCGCATAAAGG -TAATATTAAACGTAAGATCAAAACGCATAATAAACAGGTTATCTACCATGTCGTCCGACTGACGGATAATGTGACTAATG -GTATTTTTGTCAACATGCGCTAACACATTCTGACTGGTGGTTTCCCACCAGTCAGGCTGAATAAGATTACTCTGCTTTCT -CCACAAAGATACCGTCCTGATGCCCTGCTTCATTAAAGAACCAGATGCCGAGCGGGTAGTCTTCCAGCGAAACCAGGTAC -ATTGTGCCTTCACTAAACTCCTCAACTGCCAGTACCACGCCAGGACGACGCGGACCGCCATCCGTTTTGACTGTTACCCG -ATCATTCACCTTCATCGTTTTCCTCCTGTGGCTTTGTGCCAGTGTAGAACAATTTCGTTTTTCTGGCAGCGCCAGGCGCG -CGCGAGTGCTGATTTTCTCGACGGTCTATACTTAAGAGATGCCAGGCGGACTTAACGACTGGCGGCAACAACAGAGTAAC -GGTTGCGAGGAAAGATGATGAAAACCGCAAAAGAGTACAGCGATACCGCAAAACGTGAGGTCAGCGTCGATGTCGATGCC -CTGCTGGCGGCGATCAATGAAATTAGCGAAAGCGAAGTTCATCGCAGCCAGAACGATTCTGAACACGTTAGCGTCGATGG -ACGTGAATATCATACATGGCGTGAATTGGCGGATGCCTTCGAACTGGATATTCATGACTTCAGCGTCTCTGAAGTGAATC -GTTGAATGCACAATAAAAAAATCCCGACCCTGAGGGGGTCGGGATGAAACTTGCTTAAGCAAGAAGCACTTAAAAAATTC -GTTACACCAGGAAATCTGATGTGTTCATCACCTTATCCGCAATTTTTTTCGCTGACAAGAAAATATTCGCCATATGAATG -ATTAACGCTACTTATGAATAGAAATGTGACGCACGTCACCCCTTGGTGGCTCTGGCGTCAGCGGGATCGCTCCCGAAAAA -ATCATCTTTGATAATTTGTGCGGTTTTGAGAATCATCCTGGTAAGAGGAGTACTGCGCGACTATGTTTTCAATTCAACAA -CCACTACTGGTTTTTAGCGATCTTGATGGCACCCTGCTGGACAGTCATAGTTATGACTGGCAACCGGCAGCCCCCTGGCT -CACCCGTTTACGCGAAGCAAATGTTCCCGTCATTCTCTGTAGCAGTAAAACATCAGCGGAAATGCTGTACTTGCAAAAAA -CGTTGGGGCTACAAGGTTTACCGCTGATTGCCGAAAATGGCGCAGTGATCCAGCTTGCTGAGCAATGGCAGGAGATAGAC -GGTTTTCCACGCATCATCTCAGGTATTAGCCATGGCGAAATCAGCCTGGTTTTAAATACGCTACGCGAGAAAGAACATTT -TAAATTCACGACTTTTGATGATGTCGACGATGCAACCATCGCCGAATGGACGGGATTAAGCCGTAGCCAGGCGGCGCTGA -CGCAGCTTCATGAGGCGTCGGTAACGCTAATCTGGCGCGACAGTGACGAGCGTATGGCACAATTTACCGCTCGTCTGAAC -GAACTGGGCTTACAGTTTATGCAGGGTGCGCGCTTCTGGCACGTACTGGATGCTTCTGCCGGAAAAGATCAGGCTGCCAA -CTGGATTATCGCGACCTATCAACAATTGTCAGGCAAACGCCCAACCACACTTGGCCTGGGCGATGGGCCAAACGATGCGC -CCTTACTGGAGGTAATGGATTACGCGGTGATTGTGAAAGGGCTAAATCGTGAAGGGGTGCATCTGCATGATGAGGATCCG -GCCCGCGTCTGGCGAACGCAGCGTGAAGGACCGGAAGGATGGCGTGAAGGGCTGGACCATTTTTTCTCCGCCCGTTAAGC -GTTATCGCTCGCGAATACCCGATTACGCCCAGCCTGTTTAGCGAGATAAAGCCGACGGTCGGCCAGTGACTGGAGTTGTT -CAAAATCATAATCACCGGTTTCCTCGCTGCTGCTTACCCCCAGCGAGGCACTGATGCGTATCGTCGTACTCTTGGCGATC -AACATCTCTTTTTCATTTAATTTCAGTCGAATACGTTCTGCGACCTCCGCAGCCTCCGTCAGACTCGCGCCTGGCAGAAT -CACACAAAACTCCTCACCACCGACCCGCCCGGCAACGTCCTGCGCACGCAAGGAACTGCTAATTAATCCGGCAGCATGAG -AAAGAACACGGTCGCCCGCCTGATGACCAAAGCGGTCATTAATCGCTTTAAAATGGTCAAGATCGACCTGAATGACAGAA -AAAGGATGTTGGTGCGTCTGACACAATTTAGCGAGCGGACGGGCTTTTTCGAACAGTGCGCCACGGTTATATAAACGCGT -TAAGGTGTCGTGCCACGCCTGCCACTGCAACGAGCTTTGCAGAACATACATGTTGCTAACCATCCGGCGAATCACATACC -AGGAGATGAGTAACATGGTGGTAAAGAGCGCCCACAGCAGGGTTAATGCAATGCTGATACTGCCGAAATCGCCGCGCACG -CCTTCGCTTAACGTATGGACACGCACCAGCACACCGTCGAAATGGTCCAGACGTTCCCAGCTAACATAGCGACTGTCCAT -ACGAATGCCGCCCCGCGTGTCATGTTCCATTGCCTGCGCCAGCAAGGCCAGTTCACGAGGATCAAAAATATTCCCTGTTG -GATGGTCAGGATTGGAAGAGGTCAAAAATCTCAGCTTACTGTCATAGAGCTGATACTCACCATCGAGGTTTTTATCGATG -GCGTTTCTTAAAAATTGCTGCATAGTACGCACGGGAATACTCATCCCCAGCACGCCATACCAGTAGTTATTACTGTCTAC -CGGAACACTGACGGTAACCTGCGGTTCAGTATTGCTGGCGTGTTCCGGTTGCGAAGTGAACCAGCGTACCGCGCGGTGAC -GATTTTCTCGTTGTGAATGGCCAATAAACCAGGGTTGGGTGACATAGCCGTAATAACGCGTTGGAACATTGCGCGTAAAC -AAGGTCGGCTGCGTCGAAACGTAAAATCCGGCACGCGAGACATACATCGCCTGTTCAACCATCGACGAGGAGTTGTGCGC -TAGTCGCAGCAAGTAACCAACTTCCAGTGCAGCGGTAATTTCATTGTCGAGGCTTTCATTTTCGCGAGACAGGAGATTCC -CCTCGCTGACTAATGCATCCGACACACCATTAACTGGCAGAGTGCGTCGTCGGTTGAGTTCGATTTTCCAGGCGTGCTCG -TCGCGATGCTGTTCGAACTCGGTTACAGCATCACGCAGAGAGGTGAAATCCAGTGGCGCTACGAGAGCTTCGCGCATGCC -ATTACGTAAAAAGATCAGTTTGTCGACGTTATACTGCAAATGCTTATCGAGCGCGTTGGCAACGTTTTCCAGATGATTAC -GCTGGCTGGAGATATAGGCATCTTCCAGCACCACCACTTCACGCCAGGTGAGCAAGGTGGAAAAAAGCAATACCACGATA -AAGCAGAGATTAACGACATGACCAGGCCCCAGGCGGCGTGCGAGTTTTTTCAACCAGCTCTGGTTTTCCATTTTTGTCTC -GTGCTGCACCCTGACGACTCCCAACCTGCTTTTTTATGATTCTGGCATAACCTGGCGATAGCGTACCGCAAAACAGCGAT -AATTTTATAATGGTGGCATGATAAGACGCGACTATCATTCATTGCAGGCATTAGCACACCAGGCCGGATGTGATCCGGCC -TGATGTTAATGATACCCTTTCACACTTCTTCCGCAGAACGACTCCCCTCCCCCGGAACAAGCTCGGTTTCATGAAAAGCT -TCCCGCTTGACCCCGTAACCGTCATACCAACGACACTCAACCATACCGCTGGAGTATCCAGTGACAATCATCCGCGGGCC -GCCCTCTTTAACCGTAACTTCCTCACTAACCATAAAGCTCATACTCGCCTCCTTTTTTCGAGTGAAACTTGTTCACCTTA -GTTGAAGATGGCGAATTTTGCATAATAGCCAGTGCGAGTATTAATGTGCCTGACCGCGCATTTTCTCTACGGCTTTCACT -CCCAGCACCACGATGCCGCCGATGATAAATCCAAGAATCAGATTTAAAACAGTCGGTAATATCATCGCCACTACTGCACT -TTGCTGCCCGGCGAAATGTTCAATGGCGTGATGCAGCGGCGCAATTCCATGTACCACAATCCCACCGCCGACGAGGAACA -TCGCCAGCGTGCCGACAATCGATAACGCTTTCATCAGCCAGGGCGCGATAATCAATAACCCTTTACCTAATGCCTGCATC -AGCGCGCTGGATTTTTCCGCCAGCCAATACCCCAGGTCATCAATCTTAACGATAACCCCTACCAGACCGTAGACGCCCAC -GGTCACTACCAGCGCGATGCCTGAAAGCACCAGCACCTGATTAAGCAACGGCGCTTCGGCCACAATCCCCAGCGTGATGG -CGACGATTTCCGCAGACAATATAAAATCGGTACGAATCGCCCCTTTTATTTTGTCCTTTTCAAACTTCAGCGGATCCTGC -GCCGCCAGCTTCTCCAGACGCTGCTGGCTCTGCGCCGGATCTTCTTTATGTTTACGCGCCTCCAGCATATGCAGCACTTT -CTCTACTCCTTCAAAGCAGAGAAACGCGCCACCAATCATCAACAGAGGCGTAATCGCCCACGGGATAAACGCACTGATGA -TCAGCGCCAGCGGCACCAGAATCACTTTATTAATCAGCGATCCTTTCGCCACGCCCCAGACCACGGGAAGTTCCCGGTTG -GCCCGCACGCCTGAAACTTGTTGCGCATTGAGCGATAAGTCATCCCCTAATACACCGGCGGTTTTCTTCGCCGCCAGTTT -GCCCATCACGGAGATATCGTCCAGTAGTGTGGCGATATCATCGAGCAACGTCAGTAAACTACTCCCGGCCAAAAGCATTC -CCTCTCATTTTTATTGTTGAAGGGTGTAAGTATGAAGCAAAAACGGCAGCTCTGATACTTGCTTCACAGGTCAACATTTT -TTTAACAATCAAGTGCAATTATATCTCTCGCCAGCAGAATGATTTTCACGTTTACTATGAACCACCTTTTTATTTCCACC -GTGAGGGATTATGCGTTTCCGCCAGTTGTTACCGCTTTTTGGCGCGCTGTTTGCGTTGTATATCATTTGGGGCTCAACCT -ATTTTGTCATTCGGATTGGCGTGGAAAGCTGGCCTCCGTTAATGATGGCGGGCGTTCGATTCCTGGCAGCCGGTATTTTA -TTGCTGGCATTTTTGCTACTGCGCGGACACAAACTCCCCCCGCTACGTCCGCTGCTCAATGCCGCGCTGATTGGCCTGTT -ATTGCTGGCTGTCGGTAATGGCATGGTGACGGTTGCCGAACATCAAAATGTTCCTTCCGGCATCGCCGCCGTAGTGGTTG -CAACCGTGCCCCTCTTTACCCTGTGCTTCAGCCGCCTGTTTGGCATTAAAACGCGCAAACTGGAATGGGTGGGTATTGCC -ATTGGGCTTGCCGGAATCATCATGCTCAATAGCGGTGGAAATTTAAGCGGCAATCCGTGGGGCGCGATTCTGATTTTAAT -CGGCTCGATTAGCTGGGCGTTTGGCTCAGTTTATGGCTCGCGCATTACCTTACCTGTAGGGATGATGGCGGGTGCGATTG -AGATGCTGGCGGCAGGCGTGGTGTTAATGATCGCGTCGATGATTGCGGGTGAAAAACTGACGGCGCTCCCTTCCCTTTCA -GGCTTCCTTGCGGTCGGCTATCTGGCGCTGTTTGGTTCGATTATCGCCATCAACGCTTATATGTATTTAATCCGTAATGT -CAGTCCGGCTCTCGCCACCAGCTACGCTTACGTTAACCCGGTGGTCGCGGTCTTGCTGGGTACGGGACTGGGTGGAGAAA -CACTGTCGAAGATTGAATGGCTGGCGCTCGGCGTAATTGTCTTCGCGGTGGTACTGGTCACGTTGGGAAAATATCTCTTC -CCGGCAAAACCCGTAGTTGCGCCAGTTATTCAGGACGCATCAAGCGAGTAAATGAATCCCCTGCGTGTCGATCTGCGCGC -TGGCACCTTCGCCGCAGATCCACTCTTCCAGACGCTCGGTAAGCGCTTCATCCGTCAGCTTCTCGCGCCCACGTAACGCG -CACTCCCAGACAATCAATACGCGCCAGCCGAGTTCCTGCAAGCGACTGATATCGCGGCGATCGCGCTCAACATTTTTACC -TATCTTCTCCAGCCAGAACTCGGTTCGAGTCGCAGGCACTTTAAACAGATAGCAGTGATGATGATGCCAGAAGCAGCCAT -GGGTAAATATCACGCAGCGATATTCATCAACGACAAAATCCGGACGTCCGGGCAGACTGGCGTCCTGAACGCGAAATGCC -AGGCCCTGCCCGGTTAACAGACTGGCGAGGCGCTTCTCTATCGCCGTATCACGCGTGGCAATCGCGCGCATATTTTTGCT -GCGAGTGGCCTTATCGTGAACGTCGGCCATGTTGTGCCTCTTGCTGACGCAACGCCACCGCCTGTTTGATTTTTGGCTCA -AGCAGTTTTGCCACCGCGGCAAAGACCGGCACGACCACCGAGTTACCGAACTGGCGATAGGCCTGAGTGTCCGAAACCGG -AATACGGAATTTCGCTTCTCCCGGCGCTTCAAAACCCATTAAGCGCGCGCATTCCCGAGGCGTTAACCGACGTGGACGAT -GTTGCTGATTCAGCGGATCGTCAAAGTCTTTCTCACCCGTGGCCATATCCCAGCCGCGATCGATTAAAATTTCCGCGCCA -TCTTTGTAATAACGCGCAGACAGCGTACGCGTGACGCTTTGCGGATTGTTCGGATAAACCATTCCATAACCGAAGCCGTT -ACCGCGCGCCTGATGTTTTTTCGCATATCGATAGAGGTACTTCCACAGCACCGGCGTCAGGATATATTTCGCCTCGACCA -TCGGGTCCAACAGCTGCGCCAGCGTCACTCGCTGCGCAGGGAAACATTCGCTGATATCACGCAGGGTAAAATCGGCTTTC -AGATTCAGATCGCGACGAAAACCCACCAGCACGATGCGTTCACGGTGCTGCGGCAGAAAATGTTTGCCGTCGATGATTTT -CGGATCGTCTGGCCCATTATCTTCTGCATCAGCCACGTCATAGCCCAGTTCGTCCAGCGTCTGCATGATGATGCGGAACG -TTTTACCCTGGTCGTGACTTTTCAGGTTTTTGACGTTTTCGAGCACAAACATCGCCGGACGACGCGCGTCGATAATGCGT -ACCACATCAAAAAACAGCGTGCCCTGGGTATCGCAGGCAAAACCGTGCGCCCGCCCGAGCGAGTTCTTTTTCGATACGCC -AGCCAGCGAAAATGGCTGACAAGGGAAACCGGCCAGTAAAACATCGTGTTCAGGAATGTGTTGACGAATATGTTCCGCCG -CCGCCTCATCACTCACGCCTTCTTTATGGCTGAGGGTGATGTCGCGGATATCTTCATTAAAATGATGCGTCGCCGGATCG -CAATAATGGTTGGCTTTATAAGTGCGTACCGCATGTTTGTTCCATTCGCTGGTAAACACGCACTGTCCGCCAATCGATTC -AAAACCGCGACGGATGCCGCCAATTCCGGCGAATAGATCGATAAAGCGAAACGCATAATGCGGATGATGTGCCGGTGGTT -TGGGTAATAACGTTTGCAGATGGGCGAACTCTTTCTCACTTAAACGGTGCCATGCCGAGTCATTCGCCAGCGCACGTTTT -AAAATTGCCGCGCTCCAGTGATTCTCACCTACACCATTAAGCTGCGCCACCAACGTTTTAACATCATAAATTTGCAGCAG -TTTCTCCAGCATTGCCTGTGCGGCATTCCCGGTGCTGTATGAATCGGTTACTGATATATTTTCCTGCATAGATTTCACCG -GCCATCTGAGATGGCCGACAGGTTAACATAATTACAGCCATTTAGGGCCACGCGCTCAGCCAGCGGATGAAAACGCATCT -ATCACCTTGTGATCGACACCTTCATTCTCCCCCGCCAGTTCGGCACTGAGCTTCGCCATAAACTCGACTAAAAAATGCGC -GTTGTGCTGCGCCAGCTGCTTGCCTCTTGCGGTTTGCATGGTTTGCGGTAGCTTCAGCAACTTAGTCTGGAAATGATCCA -GCGCGTAGCGTTTATCATCAAGCGGGCGATGCTGTGCGAACGGATCTTCACCATCAAACAGCGCCACGCCCAATGCCCCT -GAAACGGCAAACACGCGCGCCAGGCCAATCGCCCCCAGGGCTTCCAGCCGATCCGCATCCTGGACAATTTTAGCTTCCGT -TGTTAAGGGGGCGATTTGCGCGCTGAAACTGTGAGCGGCAATGGCATGACAAACGGCCTCGATTTTCTCCGCCGGAAATT -GCTCGAACTCTTCACGGAGCAGGCGACGCGTCTCTTCTGCCGCCAGGATTGAAGAACGCTGCCTTTGCGGATGATTTTTC -GCCAGGCTCACAATATCGTGAAAATAACAGGCGGTTAAAATCACCAGCATATCGACATCGTCATCTGCCGCCAGCTTCTG -TGCCGTAGCCCAGACGCGGCGAAAATGACACACGTCATGGGCCGCGTCCTGGTGCTGATGATGGTTTTTCAACCAGTTTT -CGAACTGTGCCTGCCAGTGTTGTAAGTCCATACGCGCTCCGTTGCCAAAGAGTCGCCACCTTAGCAGTTTTTATTCATAG -CGTCTGCTACGTGCGGGACGAGGTCGGGTGTACCAGGCAATGCTGCCTAACAATGCCCCGACCAGAGCCATAAATAAAAA -TCCGACCAGTGCCCCTAACCACTTTCCCGCGGTAGAGCCTAAATCGCTTTCAAATCCCGACACGGGGGCATCGGGAATCC -GGCTCATCACCCAGATGTAACGCGCCATTGCCCAGACGAAATAGCCACACCATGTATAGAAAGCCCACAAAGCCAGTTTG -CCGCCAGGGCTGCGAGAGAGTCTCTCTTCCATCTTTGTCGAACCGTATTCCATTTTGAGATAACCCGGAAAATTCAGACT -TAGTACTATTATGTGATAAAAGTCACATTTTTCCACATTGGATGAGCCAGTCAAGACTCAATCATTTTTTGAACAAATAG -ATAAATTTTGCGCAACGGCAGTGAATACAGGAAAAATCGTTTTGAGCGATTTTATTTATCTTTGATATCGGCTTTATTAA -TTCATTTAATCAATATATTAGCACTGATTACAATTATACCTTTTTATTATTCTGTGTCATGATGCTTCCGTTATTAGCCT -TTTATCGTCTTGTTTATATTTTTTGGGCCGGCATGATGCCGGCTTTTTTTTATGCCTTCATTAATGTGCGCCTGATCACA -CCAGCCGTTTGGCGCAACAATCATTGATACCCCCTATGTTTCCGCTCAACTCATAACATATTGATATACATTTATAATTT -TCATGAATATTTATATTTAGAATTCATAATTATGAATTATATTAAATAGATTAGAAACATTTTGATATCTTTTAAATACA -TTTGTTACATGTAATCCTTAAAATAAAATGAACTTCATAGAATAGTATCCAAATGTGCTTTTTTTTGGATAACGGCACTT -ATTGATATATTCATGAAGATTATAATCACAAGGGAATACATAATGAAAAGAAAAGTTCTGGCAATGCTGGTCCCGGCGTT -ATTAGTTGCTGGCGCAGCAAATGCGGCTGAAGTCTATAATAAAGATGGTAATAAACTGGATTTGTACGGAAAAGTAGTGG -GTCTGCACTACTTCTCTGATGATTCTGGCAGCGATGGCGACATGTCATATGCCCGTATCGGTTTCAAAGGTGAAACTCAG -ATCGCTGATCAATTCACTGGTTATGGTCAGTGGGAATTTAACATTGGCGCAAACGGTCCTGAAAGCGACAAGGGTAATAC -CGCAACGCGTCTGGCATTTGCAGGTTTAGGCTTTGGTCAGAATGGTACTTTCGACTATGGTCGTAACTACGGTGTCGTAT -ATGACGTAGAAGCATGGACCGATATGCTGCCAGAATTTGGTGGCGATACCTATGCTGGCGCTGACAACTTCATGAACGGT -CGTGCTAATGGTGTTGCAACCTACCGTAACAATGGCTTCTTTGGTTAGGTCGATGGCTTGAACTTTGCTTTGCAATATCA -GGGTAATAATGAAAGTGGTGGACCATTCGGGCAGGAAGGTTCCGGTAGTGGTGATGGCCGTAGCCTTTCCAAAGAAAATG -GTGATGGTTTCGGTATGTCAACATCCTACGACTTCGACTTCGGTTTAAGTCTGGGTGCTGCATATCAAACTCTGATCGTT -CAGATCGTCAGGTTGGAGTTGGTTTAAATGATCGTAACCATAGCAACAGAAATGCTGGTGGTGAAACCGCTGAAGCATGG -ACTGTTGGTGCAAAATATGATGCTAATAATGTGTATTTAGCAGCTATGTACGCTGAAACTCGCAATATGACCCCATATGG -TGGTGGCGAGTTTGATAATGGTGAATCAAGATCAGCCATCGCTAACAAAACCCAAAACTTTGAAGTTGTTGCTCAGTATC -AGTTCGACTTTGGCCTGCGCCCGTCCATCGCTTACCTGCAATCTAAAGGTAAGGATTTAGGCGGTTGGGCTCATGACGGC -AACGGCGACCCACGTTACACCAATAAAGATCTGGTTAAATACGTTGATATTGGTGCGACCTACTACTTCAACAAAAACAT -GTCCACCTATGTTGATTACAAAATCAACCTGCTGGACAACGACGATGACTTCTACGAAGCAAACGGCATCGCTACCGATG -ATATCGTTGCTGTGGGCTTAGTCTACCAGTTCTAATCAGTCAACTCGCTGCGGCGTGTTACTGTAAAACTGAACACTAGC -CTGAGTTCGTCCCTCATCGAACTCAGGCTTTTTTATTGGCATTTCATCTCCATCTGCGGCACACGCAATTGCCGAAGCAT -ATCGATACAGCACCTTACCCTGCCCCTCCTGGCACAATAACATCAACCAGCTACTCTTCAAGCTAACACCCAAATGCATT -TCTTTATGAATTAATCCGTAACAAACACGCTTCCCATATAGAAATATTTGCAAAAATAGTGCATGAAATAAGCTTTTTCT -CTACCAATCCGGGATATAAATATTCATCAGCACCACAATATTCCACAGCACTAAATCTCTCCCCGCCACCCCGTACCTCT -GATAATGGTCTAAAATCATTGAAGCCACTTGCGACGACGTTGCTCAATAAGGAAAATTTGGCGTGAATAATATTCAACAC -CAGTGCAGCATCATCATTACATACTTACAGCCGCCGACTACCGCTTTCGATATATTGACTCAATTTTCCAGCCTGGTTAA -AAATAGCGACCAGCTCAGTCGCAAATATAGTGACTACCCTAACTAAGCAACAATAAGGAATACACTATGACTGTTCAAAC -AAGTAAAAATCCGCAGGTCGATATTGCTGAAGATAATGCATTCTTCCCTTCAGAATATTCGCTTAGCCAATATACCAGTC -CTGTCTCTGATCTTGATGGCGTGGACTATCCAAAACCTTATCGCGGTAAACATAAAATTCTGGTGATCGCCGCGGACGAA -CGTTATTTGCCGACCGATAACGGAAAACTGTTCTCGACCGGTAACCATCCGATTGAAACGTTGCTGCCGTTGTATCATCT -CCATGCTGCAGGTTTCGAATTCGAAGTGGCGACCATTTCCGGTCTGATGACCAAGTTTGAATACTGGGCTATGCCGCACA -AAGATGAAAAAGTAATGCCATTCTTTGAGCAGCATAAATCGTTGTTCCGCAATCCGAAGAAACTCGCGGATGTTGTTGCC -AGCCTCAACGCTGATAGCGAATATGCAGCAATCTTTGTTCCTGGTGGTCATGGCGCACTTATTGGTTTACCTGAAAGCCA -GGACGTGGCTGCCGCTTTACAGTGGGCAATCAAAAATGACCGTTTTGTTATCTCCCTTTGCCACGGCCCGGCGGCTTTTC -TGGCGCTTCGCCACGGCGATAACCCACTGAATGGTTATTCCATTTGCGCATTCCCAGACGCCGCAGACAAACAAACGCCA -GAGATTGGCTATATGCCGGGTCATCTCACCTGGTACTTCGGCGAAGAACTGAAGAAAATGGGCATGAATATCATTAATGA -CGACATCACCGGGCGAGTACATAAGGACCGTAAACTTCTCACCGGCGACAGTCCTTTTGCAGCGAATGCGTTGGGTAAAC -TGGCGGCGCAGGAAATGCTGGCAGCTTACGCGGGTTAATCCCTGTTACGTTTGAATGTAAGCGCATAATCAATCGCGGCC -GCGTTAGTACTCACGACGTGGCTGCGTTTTTTCACGGTTAATTTATGGCGTACTGAAGCCCTATGTTAATTTCTTTGCGG -TAACGTAATCCGGAACACATTATGCTTATTGAGATAGTGATACGTAGCACTTCCCCCATGCAATTCGGCAATCGCTTTGA -CTAAAGAAAGGCCTAGTCCCTGACCTACGGAATGACGCGAATTATCTCCCCGCCAAAATCTACGGAAGAGTTTTTCAGGC -TCATTAATTTTCGTTCCAGGGCTGGCGATATCAATATTAAGATAGCTGTTGGTATCAAGAAAACTGGTTATATGAATACG -CGATTTTTCTGGCGAATATCTAATGGCATTAACAATAAGATTCGATAACATTCGTTGTAGTAAAATTTTATCCGCAAAGA -TTTGCTGATTGCACTCGACCTTAAAGCAAATCTCTTTCTCGTCTGAAAGGTATTCAAGATAGTCCAACAAATTTTCGACT -TCCTTATTGAGAGAAAGCGAGTCCAGTTTCACCAAAACATTGTTTTTATCTGCCCTGGCAAGAAACAGTATGTTCTCTGT -TAACCGCGAAATATTTTCCAGCTCTTCAATGTTTCCGGCAATTGTTTTTTGATATTCAGCGATACTTCTGGTTTGACTGA -GCGTAACCTGATTCTGACCCAGTAATGCATTAATTGGCGTTCTAAGTTCATGAGCGAGATCGTCAGCAAACTGACTTAGA -CGCTCAAAATCTTTGACTAAAGCATGATGCATTTTATTCAACGCCTGCCCAAGAGGTTTTAGTTCTCTCGGTAATGCGCT -AACCTCAACAGGCTCTCGGCTATCGTTATAATTCAGCGCTTCCGTTACACCACTCAACTTTTTGATCTCTCGTAATCCCG -TTCTGATTAACAGCGGACTTAATACTGAGCAAAGTACAATGGCGACAATGCAAATTATAATGCTATTAATTTTATACTGT -TCAAGCATGTTATGTCTGGCTGAAGCCAATTTAGCCACAGTAACCGTTAATGATGGCGAAACTTCATCAATATTAATTCG -TAAAGCATCTATCTCTGTATCATTAATAATGCTTCTGTAAATGCCAGCTGCGCTGATTGTCTCACTAGCAGGTATGTTAT -TTAACATGCCATCACTGACATTTGTCCGGTTAACAATTTTATTGATGCTATCACCATGAATAATCAAGATATCCTGACTA -ACATCCATCATCCGGTTAAAGTACACAGGTAACGTATCTGGATTTACCCCATCAATTAACAACTGCTTGATCTGCGCTGT -CCGGTTAATGAGTGTTGTATCATCGCGCCATTTCAACTCACTTGCCAGGCCATTATAGAGAGTCCAGACAATTCCGGCGC -CAGCAACAGACAGTAGCAATATAAAAAGCAAGGTTAAACGGACGGTTATAGATAGTCTTTTCATTATTTTTTTACCGCTA -CGAATGAATAGCCCATCCCCCGGATTGTGGCAATTAGCTTTTCAGGAAAAGGATCATCAACTTTTGCGCGGAGCCTGCGA -ATGGCGACGTCCACCGTATTGGTATCACTATCAAAGTTGATTCCCCAAATTTCACTCGCAATAACCGTTCTGGGTATAAT -TTCGCCAGCTCTGGAGGCCAGTAGCCAAAGTAACTGAAACTCCTTGCGCGTCAGTGTAATACTGATATTGTCCCTGCTCA -CACTATGACTAACAGAGTCCATTCTTAAGCCGCTGATTTCTAATGTTGAATTCAAAGCGTGATGTTGCCTTAATTGTGCC -CGAACCCTTGCCAGCAACTCAGAAAATGAAAAAGGTTTTACCAGATAATCATTTGCCCCACTGTCCAGCCCTCTGACTCT -GTCATCGACAGAATCCCTTGCAGTAAGGCAAATAACAGGGGTTTGCTTTGCTGTTCTTAACGTTTGTAAGATCTGCCAGC -CATCCATACCCGGAAGCATAATATCCAGAATGATCAATGCATAATCATCCTTCAGCGCAAGATAAAGCCCATCTCTGCCA -TCAGAAACGGCATCGATGACATAACCCGCTTCGGAAAGCCCCTGCGTTACCCATTCCTGGGTCCTTTGATTATCTTCAAT -AAGTAGAATCTTCATGAAAATAATATGCCATAAATCATATGTTATAGAAACAGCCTGGTTCATTACAAAATTGTAATGCT -GCTGTAAGGTTACCCTGGACGCTTTTTCGCTATCCTCAAAACTCATTCACATGACAAGGATATAAACATGTTAAAGCGTT -ATTTAGTACTCTCGGTAGCAACGGCAGCATTTTCATTACCTTCTTTGGTTAATGCCGCACAACAAAACATTCTTAGCGTG -CACATTTTGAACCAGCAAACAGGAAAACCCGCTGCTGACGTGACAGTCACTCTTGAAAAGAAGGCGGATAACGGCTGGTT -ACAACTTAATACCGCCAAAACAGATAAGGATGGACGAATTAAGGCACTGTGGCCCGAGCAAACTGCAACTACGGGCGATT -ACCGTGTCGTATTTAAAACCGGGGACTATTTCAAGAAACAAAATCTTGAAAGTTTCTTCCCTGAGATCCCCGTTGAATTT -CATATTAATAAAGTGAACGAGCATTATCATGTGCCTTTATTACTTAGCCAATATGGGTATTCAACCTATCGTGGCAGTTA -ATGCATAAATATGTAAAAGCAGATCTCTGCTACTGTTAGGGAGGACACTCCCTGACAGATTAACAGTAAACGGCTCTTGC -TGGCTAACGACAAAAAAGTGTGATGGCTTATGAAAAAGAATCAATTTTTAAAAGAATCAGATGTTACGGCCGAGTCGGTA -TTCTTTATGAAGCGTCGGCAGGTGTTAAAAGCACTGGGCATCAGTGCAACTGCACTTTCTTTGCCTCACGCTGCGCATGC -CGATCTGCTTAGCTGGTTTAAAGGGAACGATCGCCCGCCCGCCCCCGCCGGAAAAGCGCTGGAGTTCAGCAAGCCTGCCG -CCTGGCAAAATAACCTGCCACTGACGCCAGCAGATAAAGTTTCCGGTTATAATAACTTCTATGAATTCGGGCTGGATAAA -GCCGATCCCGCCGCTAATGCTGGTAGCCTGAAAACCGATCCATGGACACTGAAAATCAGCGGCGAAGTGGCAAAACCATT -GACCCTCGATCATGATGACTTAACCCGTCGCTTCCCGCTGGAAGAGCGTATTTATCGTATGCGCTGCGTGGAAGCGTGGT -CGATGGTGGTGCCGTGGATTGGTTTTCCGCTGCACAAATTGCTGGCGCTTGCCGAACCTACCAGCAATGCGAAGTATGTC -GCTTTCGAAACAATTTATGCACCGGAACAGATGCCAGGCCAGCAGGACCGCTTTATCGGCGGTGGGCTGAAATATCCTTA -TGTCGAAGGATTGCGTCTCGACGAAGCAATGCATCCGCTCACACTGATGACCGTAGGTGTTTATGGCAAGGCGTTACCGC -CACAAAATGGCGCGCCGGTGCGACTGATTGTGCCGTGGAAATATGGCTTTAAAGGGATTAAATCGATAGTCAGTATTAAG -CTGACCCGCGAGCGTCCGCCAACCACCTGGAATCTGGCAGCGCCTGACGAATACGGTTTTTACGCCAACGTTAATCCGTA -TGTTGATCACCCGCGCTGGTCACAGGCTACCGAACGATTTATTGGTTCAGGCGGCATCCTCGATGTACAGCGCCAGCCAA -CGCTACTGTTTAATGGTTACGCCGACCAGGTGGCATCGCTGTATCGTGGCCTGGATTTGCGGGAGAATTTCTAAATGCGT -CTGACAGCAAAACAGGTGACATGGCTGAAAGTTTGCCTGCATCTTGCCGGATTGTTGCCGTTTCTCTGGCTGGTCTGGGC -GATCAATCACGGTGGACTGGGTGCCGATCCGGTGAAAGATATTCAGCATTTTACTGGTCGCACTGCACTGAAATTTTTGC -TGGCGACCTTGTTAATCACCCCTCTGGCACGCTACGCAAAACAGCCGTTATTGATACGCACTCGCCGCCTGTTAGGATTA -TGGTGCTTTGCCTGGGCGACACTGCATTTAACAAGTTACGCATTGCTGGAGCTGGGCGTGAATAATCTGGCGTTATTAGG -TAAGGAGTTAATTACCCGGCCTTATTTAACGTTAGGTATTATCAGCTGGGTAATTTTGCTTGCTTTAGCGTTCACTTCAA -CCCAGGCGATGCAGCGAAAACTCGGCAAGCACTGGCAACAGTTGCATAATTTCGTCTATCTTGTCGCGATTCTGGCCCCA -ATACATTATCTGTGGTCCGTGAAGATTATTTCACCGCAGCCGCTCATCTACGCTGGGCTGGCTGTACTGCTTTTAGCCTT -ACGGTATAAGAAGTTGCGTTCCCTTTTTAACCGGTTACGCAAGCAGGTTCACAACAAATTATCTGTATAACTTCATATTG -CCGACAAAGTACGCGTTATCCCTGCCGGATGTGGCGCGAGCGCCCTATCCGGCATACACAGATCGCATCAGGTTATGTTT -CGTTTGTCATCAACCTCAAATCACCAAAATAATTTATTTTATTTCAATAAGATAGATAAGTAGAACTGAGAAAGCCATGC -TCTCGTTTCCTAAGAGTTGTTGCATTTTGCTATATGTTACAATATAACATTACACATCATATACATTAACTCTGGAGGAA -ACTGTTTTGGCGATTCGTCTTTACAAACTGGCTGTTGCTTTAGGTGTCTTTATTGTTAGCGCTCCTGCCTTTTCGCATGG -TCATCACTCACACGGCAAACCCTTAACAGAGGTCGAACAAAAAGCTGCTAATGGTGTTTTTGATGATGCCAATGTACAAA -ACCGAACGCTCAGTGACTGGGATGGAGTCTGGCAATCCGTTTATCCTTTACTGCAAAGTGGCAAACTTGACCCCGTCTTT -CAGAAGAAAGCGGATGCAGATAAAACTAAAACATTTGCTGAAATTAAAGATTATTATCACAAAGGTTATGCAACAGATAT -CGAGATGATTGGCATTGAGGACGGCATTGTTGAATTCCATAGAAATAATGAAACAACATCGTGTAAATATGATTACGATG -GATACAAAATACTCACCTATAAATCAGGCAAGAAAGGCGTTCGTTACTTATTCGAATGTAAAGATCCTGAAAGCAAAGCC -CCTAAATATATACAATTTAGCGATCATATAATTGCACCACGAAAATCATCTCATTTTCACATTTTTATGGGTAATGATTC -ACAGCAATCTTTATTAAATGAAATGGAAAACTGGCCAACGTATTATCCATATCAGTTGAGTAGCGAAGAAGTGGTCGAGG -AAATGATGTCTCATTGAGTATTCTCATGATAACGCCTCGATGCCGCTTTAGTAAGTTATCATAACTGCCACTGGTCCATC -CACAAACGCCACTGAACGCAAGCTAGCTACAGACACGCTCATCACTATGACGTGTCTGTATATTAATAAGCTAACCCGCA -TTGAGTTAACCAATAACGGATTCCATACACAATACGGCCAACAGAGAAAGATACCTGTGCTCACGCCATTGCTTATATTG -GCTGGTTACAATATGCACTATCAATTTTTTAAATAACAAATTATTAAAACCACATCTGTATAAGGAATTTTTAAGGTTCG -TGGGATAGCTTGACTGTGAAAATCACAGGAGCTACAAAAATGAACCGATTCTCAAAAACTCAAATTTATTTACATTGGAT -AACGCTGCTTTTCGTTGCAATAACCTATGCCGCGATGGAACTCCGTGGCTGGTTTCCTAAAGGTAGTAGTACTTATCTGC -TGATGCGAGAAACACATTACAATGCGGGTATATTCGTTTGGGTGTTAATGTTTTCACGCCTGATTATAAAACACCGTTAT -AGTGATCCTTCTATTGTGCCACCGCCACCTGCCTGGCAAATGAAAGCGGCTTCGCTAATGCACATCATGCTTTATATAAC -CTTCCTTGCACTTCCTCTGCTGGGGATTGCTTTGATGGCTTACAGTGGAAAATCGTGGAGTTTCCTTGGTTTCAATGTGT -CTCCCTTTGTTACCCCAAACAGCGAAATTAAAGCACTGATAAAAAATATTCACGAAACCTGGGCAAATATAGGCTACTTT -TTAATCGCAGCTCACGCTGGCGCAGCACTCTTTCATCACTACATTCAGAAAGATAATACTCTGTTACGAATGATGCCTCG -CCGCAAATAAGTCGATCCCCTTACAAGGAAATGTGAACCATGGACATCAACGCGTCATAAATGTTTACGCAAGTGCACAA -TGCACCCTTTCCACTATCAACAAGGAGGAGCAGAAACTGTGTAAATCGTACAATGGTAAGACTTATCAAAAATACAGGTT -AATTTTGGTATTTAAACCTTTTTTACTTGTTAGTATGATACAAAGGCTTTCAAAAAAGCTGCGAAATTCAACAACTCTTG -GAAATTATGGACTTTGTCCCGCGGCTTTAATCTGACGGCCGCGTTCCTTTTTTGACTCAATTATTGAACCCTTCTCTACG -CAACTTCAGTTCCCACCACCAACTTTGCGGCAGTTTCATAGGATGAATGTCTAAAAGAATAATGGTGAGCGATAAGAAAA -CGACTGAATAACTGCACATTTTCGCTCGAAAGCTTCCTGTCAGATCCATAGCGAATCAAGTGCTGAATGTCACAGTATCG -AACAGAAAACAGTGACGATCTAACCCTTCAAGAATATTCTACGATTGTTCTGTTTAGGAAAAGCAAGGCGGGAAGTCGGG -AGATAAGTCATTGATAAAGTGGCGGAGAGAGGGGGATTTGAACCCCCGGTAGAGTTGCCCCTACTCCGGTTTTCGAGACC -GGTCCGTTCAGCCGCTCCGGCATCTCTCCGTTCAGATGGTTGCCATGATGCCAGGAAATTTGGCATTTTAACAGTCCCTG -TCCGTGCAATTTTGTTCAAGTGACGAGTTTGCGAGCAAAACGATGATTAAGTGGCCCTGGAAAGTACAAGAATCAGCACA -TCAAACTGCCCTTCCCTGGCAGGAAGCACTATCGATCCCCCTTTTAACGTGTCTGACGGAACAGGAACAAAGCAAATTAG -TCACTCTTGCCGAACGTTTTTTACAGCAAAAGCGGCTTGTTCCTTTACAGGGCTTTGAACTGGATTCATTAAGAAGCTGC -CGGATAGCACTTCTATTTTGCCTACCCGTTCTGGAGTTAGGACTGGAATGGCTGGATGGTTTTCATGAAGTCTTAATTTA -TCCTGCGCCATTTGTGGTCGATGATGAATGGGAAGACGATATCGGTCTGGTGCATAACCAACGTATTGTTCAGTCAGGTC -AGAGCTGGCAGCAAGGGCCTATCGTTTTGAACTGGTTGGATATACAAGATTCTTTTGATGCTTCTGGTTTTAACCTGATT -ATTCATGAAGTCGCTCATAAGCTGGACACCCGTAACGGCGATCGCGCCAGCGGAGTTCCCTTTATTCCGTTGCGTGAGGT -TGCTGGCTGGGAACACGATCTTCATGCTGCAATGAACAACATTCAGGAAGAAATCGAATTGGTTGGCGAGAATGCGGCGA -GCATTGATGCTTATGCAGCCAGCGATCCTGCTGAATGTTTTGCCGTACTTTCTGAATATTTCTTTAGCGCCCCAGAACTT -TTTGCTCCTCGTTTCCCTTCATTGTGGCAACGTTTCTGCCAATTTTATCAACAAGATCCTTTGCAGAGACTGCATCACGC -TAATGATACAGACTCGTTTTCGGCGACGAATGTTCATTAATTAACAACTTTGCAGATTAATTAACCAATTGAAATGACTT -ATGAAATTTAGTGTTGACAGACAAGGTACCGCTAAGTAATATTCGCCCCGTTCACACGATTCCTCTGTAGTTCAGTCGGT -AGAACGGCGGACTGTTAATCCGTATGTCACTGGTTCGAGTCCAGTCAGAGGAGCCAAATTCTAAAAATTCGCTTTTTTAG -CGCAATGTCACTGACCTTAGTTGAACATTGTTTTTTAACGGATAGCGGGTTTTTAACATCTTAAGCGCCCTCGACCTTTA -TGGTTGAGGGCGTTTTGCTATGAACGCCATCACCATTTTCCCCTCGATTATAAAACTTGAGTTATTCAGTAGTCTCCCCT -CTTGCAACTCACACCCAAAACTGCCTAACGAAAAGTTATTAATTTTCAATCATATTGCTATCAGTATTTACATTTTTTCG -CTGTGCTAGAAAGGGCGCATTTATGTTAGCTCGTTCAGGGAAGGTAAGCATGGCTACGAAGAAGAGAAGTGGAGAAGAAA -TAAATGACCGACAAATATTATGCGGGATGGGAATTAAACTACGCCGCTTAACTGCGGGTATCTGTCTGATAACTCAACTT -GCGTTCCCTATGGCTGCGGCAGCACAAGGTGTGGTAAACGCCGCAACCCAACAACCAGTTCCTGCACAAATTGCCATTGC -AAATGCCAATACGGTGCCCTACACCCTTGGAGCGTTGGAATCGGCCCAAAGCGTTGCCGAACGTTTCGGTATTTCGGTGG -CTGAGTTACGCAAACTCAACCAGTTTCGTACGTTTGCTCGAGGTTTTGATAATGTCCGCCAGGGTGATGAACTGGATGTC -CCGGCACAAGTTAGTGAAAAAAAATTAACCCCGCCGCCGGGTAATAGCAGTGACAACCTCGAGCAACAGATAGCCAGTAC -TTCACAGCAAATCGGGTCTCTGCTCGCCGAAGATATGAACAGCGAGCAAGCGGCAAATATGGCGCGTGGATGGGCCTCTT -CTCAGGCTTCAGGCGCAATGACAGACTGGTTAAGCCGCTTCGGTACCGCAAGAATCACGCTGGGCGTGGATGAAGATTTT -AGCCTGAAGAACTCCCAGTTCGATTTTCTCCATCCGTGGTATGAAACGCCTGATAATCTCTTTTTCAGTCAGCATACTCT -CCATCGTACTGACGAGCGTACGCAGATTAACAACGGCTTAGGTTGGCGTCATTTCACTCCCACATGGATGTCGGGCATCA -ACTTCTTTTTCGACCACGATCTTAGCCGTTACCACTCCCGCGCCGGCATTGGCGCGGAGTACTGGCGCGACTATCTAAAA -TTAAGCAGTAACGGCTATTTGCGACTGACCAACTGGCGCAGCGCACCTGAACTGGACAACGATTATGAAGCACGCCCGGC -CAATGGCTGGGATGTACGCGCAGAAAGCTGGCTACCCGCCTGGCCGCACCTTGGCGGTAAACTGGTCTATGAACAGTATT -ATGGCGATGAAGTGGCCCTGTTCGATAAAGACGATCGGCAAAGTAATCCTCATGCCATAACCGCTGGACTTAACTATACC -CCCTTCCCGCTGATGACCTTCAGCGCGGAGCAACGCCAGGGTAAACAGGGCGAAAATGACACCCGTTTTGCCGTCGATTT -TACCTGGCAACCTGGCAGCGCAATGCAGAAACAGCTTGACCCGAATGAAGTCGCTGCACGGCGTAGCCTTGCAGGCAGCC -GTTATGATCTGGTGGATCGCAACAACAATATCGTTCTGGAATATCGCAAAAAAGAACTGGTTCGCCTGACCCTGACAGAC -CCCGTGACAGGGAAGTCAGGAGAAGTGAAATCACTGGTTTCGTCGCTACAAACCAAATATGCCCTGAAAGGCTATAACGT -CGAAGCCACCGCACTGGAAGCTGCCGGTGGCAAAGTGGTCACAACGGGTAAAGATATTCTGGTTACCCTGCCGGCTTACC -GGTTCACCAGTACGCCAGAAACCGATAACACCTGGCCGATTGAAGTCACCGCCGAAGATGTCAAAGGCAATTTGTCGAAT -CGTGAACAGAGCATGGTGGTCGTTCAGGCACCTACGCTAAGCCAGAAAGATTCCTCGGTATCGTTAAGTACCCAAACATT -GAACGCGGATTCCCATTCAACCGCCACACTGACTTTTATTGCGCATGATGCAGCAGGTAATCCTGTTGTCGGGCTGGTGC -TCTCGACGCGTCACGAAGGTGTTCAGGACATCACCCTTTCTGACTGGAAAGATAATGGTGACGGAAGCTATACCCAGATC -CTGACCACAGGAGCGATGTCTGGCACGCTGACGCTGATGCCACAGCTGAATGGTGTGGATGCGGCTAAAGCCCCCGCCGT -GGTGAATATCATTTCTGTTTCGTCATCCCGAACTCACTCGTCAATTAAGATTGATAAGGACCGTTATCTCTCCGGCAATC -CTATCGAGGTGACGGTAGAACTGAGAGATGAAAATGACAAACCTGTTAAGGAACAAAAACAGCAACTGAATAACGCAGTC -AGCATCGACAACGTGAAACCAGGAGTCACTACAGACTGGAAAGAAACCGCAGATGGCGTCTATAAGGCGACCTATACCGC -CTATACCAAAGGCAGTGGACTTACTGCGAAGCTATTAATGCAAAACTGGAATGAAGATTTGCATACCGCTGGATTTATCA -TCGACGCCAACCCGCAGTCAGCGAAAATTGCGACATTATCTGCCAGCAATAATGGTGTGCTCGCCAATGAGAATGCAGCA -AACACCGTCTCGGTCAATGTCGCTGATGAAGGAAGCAACCCAATCAATGATCATACCGTCACGTTTGCGGTATTAAGCGG -ATCGGCAACTTCCTTCAACAATCAAAACACCGCAAAAACGGATGTTAATGGTCTGGCGACTTTTGATCTGAAAAGTAGTA -AGCAGGAAGACAACACGGTTGAAGTCACCCTTGAAAATGGCGTGAAACAAACGTTAATCGTCAGTTTTGTCGGCGACTCG -AGTACTGCGCAGGTTGATCTGCAGAAGTCGAAAAATGAAGTGGTTGCTGACGGCAATGACAGCGTCACAATGACCGCGAC -CGTCCGGGATGCAAAAGGCAACCTGCTCAATGACGTCATGGTCACTTTCAATGTTAATTCAGCAGAGGCGAAACTGAGCC -AAACCGAAGTGAATAGCCACGACGGGATCGCCACAGCTACGCTGACCAGTTTGAAAAATGGTGATTATAGGGTTACGGCC -TCTGTGAGCTCTGGTTCCCAGGCTAATCAACAGGTGAATTTTATCGGTGATCAAAGTACTGCTGCCCTGACCCTCAGTGT -GCCTTCAGGTGATATCACCGTCACCAACACAGCTCCGCAATATATGACTGCAACCTTGCAGGATAAAAATGGCAACCCAC -TAAAAGATAAAGAAATCACCTTCTCTGTGCCAAACGACGTCGCAAGTAAGTTCTCGATTAGCAACGGAGGAAAAGGCATG -ACGGATAGTAACGGGGTTGCAATCGCCTCCCTGACCGGCACGTTAGCGGGCACGCATATGATCATGGCTCGTCTGGCTAA -CAGCAATGTCAGCGATGCACAGCCAATGACGTTTGTGGCGGATAAAGACAGAGCGGTTGTCGTTTTGCAAACATCGAAAG -CGGAAATCATTGGGAATGGCGTGGATGAGACAACTCTGACAGCAACAGTGAAAGATCCGTCGAATCATCCGGTGGCGGGG -ATAACGGTAAACTTCACCATGCCACAGGACGTTGCGGCAAACTTTACCCTTGAAAATAACGGTATTGCCATCACTCAGGC -CAATGGGGAAGCGCATGTCACGCTGAAAGGTAAAAAAGCGGGCACGCATACGGTTACCGCAACGCTGGGTAATAACAATA -CCAGTGATTCGCAGCCGGTAACATTTGTGGCGGACAAAGCCTCGGCTCAGGTTGTCCTGCAGATATCAAAAGATGAGATC -ACAGGTAATGGCGTCGATAGCGCAACGCTAACTGCAACGGTTAAAGATCAGTTCGACAATGAGGTGAATAATCTTCCGGT -AACATTCAGCTCAGCCTCTTCAGGACTCACCCTGACCCCGGGAGTAAGTAATACCAACGAGTCTGGCATCGCGCAGGCCA -CTCTCGCAGGCGTTGCCTTTGGTGAGAAGACGGTTACTGCATCACTGGCTAATAATGGTGCCAGCGACAACAAAACTGTG -CATTTTATTGGCGACACAGCGGCGGCAAAAATTATCGAGTTGGCGCCTGTCCCAGACAGCATAATCGCCGGTACCCCGCA -GAACAGCTCCGGCAGCGTCATCACCGCCACAGTCGTTGATAATAATGGCTTTCCGGTGAAAGGTGTGACTGTGAACTTCA -CCAGCAACGCAGCGACAGCCGAAATGACGAACGGCGGTCAAGCCGTGACGAACGAACAGGGTAAGGCTACCGTCACTTAT -ACCAATACCCGCTCCTCGATAGAATCAGGAGCGAGACCGGATACCGTTGAGGCCAGTCTGGAAAATGGTAGCTCCACGCT -TAGCACATCAATTAATGTCAACGCTGATGCGTCTACGGCACATCTCACCTTGCTACAGGCACTTTTTGATACAGTCTCCG -CAGGCGAGACAACCAGTCTGTATATTGAGGTGAAGGATAATTACGGCAACGGTGTCCCCCAGCAGGAGGTAACCCTCAGC -GTTTCACCAAGTGAAGGCGTGACCCCCAGTAATAACGCTATATATACTACCAACCACGACGGCAATTTTTACGCAAGCTT -TACCGCTACAAAAGCCGGGGTTTATCAATTGACGGCAACCCTCGAAAATGGCGATTCGATGCAACAAACAGTGACCTATG -TGCCGAACGTCGCGAATGCTGAAATCACGCTGGCAGCCTCGAAGGATCCGGTGATTGCCGACAATAACGATCTCACGACA -CTAACAGCAACAGTCGCTGATACAGAGGGCAATGCGATAGCCAACACTGAGGTAACATTTACTCTGCCGGAAGATGTGAA -GGCGAACTTCACGCTGAGCGATGGCGGTAAAGTGATTACTGATGCTGAAGGCAAAGCGAAAGTCACGCTGAAAGGTACAA -AAGCAGGCGCTCATACTGTTACAGCATCGATGACTGGCGGTAAGAGTGAGCAGTTGGTGGTGAACTTTATTGCGGATACG -CTCACTGCGCAGGTTAATCTTAACGTTACCGAGGACAATTTTATCGCTAATAACGTCGGGATGACCAGGCTGCAGGCAAC -AGTGACTGATGGAAACGGCAACCCGTTAGCCAATGAGGCGGTGACATTCACGCTACCGGCAGATGTGAGCGCAAGCTTTA -CTCTCGGACAAGGCGGTTCCGCCATTACTGATATCAACGGCAAGGCTGAAGTTACACTGAGCGGTACAAAATCCGGCACC -TACCCCGTGACAGTTAGCGTGAACAATTATGGTGTCAGTGATACGAAACAGGTGACTTTGATTGCCGATGCTGGTACCGC -AAAACTAGCCTCCTTAACCTCTGTATACTCATTCGTCGTCAGCACGACCGAGGGCGCAACCATGACGGCAAGCGTCACTG -ACGCTAACGGCAACCCGGTAGAAGGCATAAAAGTTAATTTCCGCGGAACCTCCGTCACGCTAAGCAGCACCAGCGTTGAA -ACGGATGATCGGGGTTTCGCTGAAATTCTTGTGACAAGCACCGAGGTCGGACTGAAAACAGTTTCAGCCTCTCTGGCAGA -TAAACCTACTGAAGTCATCTCGCGATTACTGAATGCCAGTGCAGATGTTAATTCTGCGACGATTACCAGTCTGGAGATAC -CGGAAGGTCAGGTAATGGTCGCACAAGACGTAGCAGTTAAAGCTCACGTTAACGACCAGTTTGGCAACCCGGTTGCGCAT -CAACCCGTGACATTCAGTGCAGAGCCATCCTCGCAAATGATCATCAGCCAGAATACGGTCTCTACTAATACGCAGGGTGT -AGCCGAGGTCACCATGACGCCCGAAAGAAACGGTTCGTATATGGTGAAAGCATCCCTGCCGAATGGAGCCTCACTTGAGA -AACAACTGGAGGCTATTGATGAAAAACTGACACTCACGGCGTCCAGTCCGCTTATCGGTGTCTATGCCCCTACAGGCGCT -ACTCTGACGGCAACGCTAACCTCTGCAAATGGCACTCCAGTGGAGGGTCAGGTCATCAACTTTAGCGTAACGCCAGAAGG -GGCGACGTTAAGTGGCGGAAAAGTGAGAACTAACTCTTCAGGTCAGGCTCCAGTCGTTTTGACCAGCAATAAAGTCGGTA -CATATACGGTGACTGCATCTTTCCATAACGGCGTAACAATACAGACACAGACAACCGTGAAAGTCACTGGCAACTCAAGC -ACCGCCCATGTTGCTAGCTTTATCGCTGATCCATCGACTATCGCCGCCACCAACACTGATTTAAGTACCTTAAAGGCAAC -GGTTGAGGATGGCAGTGGTAACCTGATCGAAGGTCTCACTGTGTACTTCGCCTTAAAAAGCGGCTCTGCCACATTAACGT -CATTAACAGCGGTGACCGATCAAAACGGAATCGCGACAACAAGCGTGAAAGGAGCGATGACAGGTAGCGTCACGGTAAGC -GCAGTCACGACCGCTGGTGGAATGCAAACAGTAGATATAACGCTGGTGGCTGGCCCGGCAGACACCTCGCAGTCCGTCCT -TAAGAGCAATCGGTCATCACTGAAAGGGGACTATACCGATAGTGCTGAATTACGTCTTGTTCTGCACGATATATCAGGCA -ATCCGATCAAAGTTTCTGAAGGGATGGAATTTGTGCAATCAGGTACTAACGTGCCCTATATAAAAATTAGCGCAATTGAT -TACAGTCTAAATATCAACGGTGATTACAAAGCCACTGTTACAGGAGGCGGAGAGGGTATCGCAACGCTGATCCCTGTATT -GAATGGTGTTCATCAAGCTGGTCTGAGTACCACAATACAATTCACTCGCGCAGAAGACAAAATAATGAGCGGTACAGTAT -CAGTCAATGGTACTGACCTACCGACAACTACATTCCCTTCGCAGGGGTTCACCGGGGCGTATTATCAGTTGAATAATGAC -AACTTTGCCCCAGGAAAAACGGCGGCTGATTATGAGTTTTCAAGCTCTGCCTCCTGGGTCGATGTTGATGCTACCGGTAA -AGTGACATTTAAAAATGTCGGCAGCAATTCGGAAAGGATTACGGCGACGCCAAAATCAGGAGGCCCTAGCTATGTATACG -AAATCCGTGTGAAGAGTTGGTGGGTGAACGCCGGCGAGGCTTTCATGATATACAGCCTTGCTGAAAATTTTTGCAGCAGC -AATGGCTACACGCTCCCCAGAGCAAACTATTTAAACCACTGTAGTTCCCGAGGCATCGGGTCACTGTACAGTGAATGGGG -AGATATGGGGCATTACACGACTGACGCTGGTTTTCAATCAAATATGTATTGGTCATCTAGTCCCGCAAACTCAAGCGAAC -AATACGTAGTTTCCCTGGCAACAGGTGATCAAAGCGTATTTGAAAAGCTTGGGTTTGCTTATGCGACATGTTATAAAAAC -CTGTGATTTTCCGTTATAATTTCTTAAAGAGTGTTCCATTCGGGGCACTCTTTTTTACATTCCCTCTACAGAACTAGCCC -TTCTCTCACAGAAAATGAATAAATAAAAATGCGGCACCGCCAGAATCGCGTTCGATGTGACTATGATCATTTTCGGTGAG -TACTGCTTTGATCTAAAGGCTGGTTTTCTGTGATGATTGACCAGCCTCAGAGTATTGATGACACCACCGTTCATAACAGA -TCGGCATTACTATGCATAAGTACTGTCTCATATTCTCGCCAAAACACTTTTTAATGCCTTTGCGAATTCATCCAGACTTA -TATTGTCAATTTTTTGCCCAACGACGACTGACTCCGAGACATCGGCCATTGCGGGCCATCGCGTTTTGTAATCAGCATAA -ATTGCAACAACAGGGGTATTATAGGCACTTGCCATATGTAATATTGAGGTGTCAGGAGTTATTGCGATATAAGCATCTTT -TATGATTGCTGCTGAACGTTTAATCGAGGGTGGTAAGGATAAACGGTAGACATTATTATAACAATCCACTAATGCCCTGG -CTTTATCTTCACCTTTGGGTCCATGAACGATCACTATTGGTATATCTGTTTCACTTTAAATTTTTGCTATTAGATTTTCT -GCAATCGATAATGAAAATGTACGTTCCTGCGAGCTACCTTCTAAATTGAACGCAATGTAAGATCCTAACGATCGCATTTC -CTCGCGCACCTCATCGAGTACATCCTCACTTAGTGGCAATTCATATATTGGCCTGACTGCTGGAAAACCCGCCTCACGCA -TCATAAATGCCCATGTCATAGGTACGGGAGCCCGGAGTTTCTGATCCATACTGGACGCGTTCTTGCACAAAGGGGAGAAG -CAATTCATGGTTATACCAACAACCTGAAAATTCGTTTTTGCTTTCAACTGACTGATAAATAACATCGTTTTCAGGTTCTT -TTTACGCATCCCCTCAATGCAAAGATCCGGCGTACCGTATTGCTGTGTTATGTTCTTTGCTAAATCTTTTATTTCTTTTA -ATGTTGCGTGATCCTGCATAGTCATTGTGACTAATGTTAATTTAGTCTGTTCAAGTTTAAGCGCATTAAAGACTTCTAAA -TTAATTGTCGACGTTACAATTAAAAGATGCTTAATTTTATGCAATTCAAGCGCCCGAATAACAGGAAAGATGGCCATAGC -ATCGCCAATCTGATCGGGAATATGGATGACAACAAAGTCTGTTTTTTCAATATTGAAATTATAAGCTTTATAATCGTAGT -AACTAAATGCAATACGTCTCAACAATGATGCTAAAAACATACCTAACCTCGCCTCCCTACTGGTTATAATGCAATGCAGT -CTATCAGACTCATCAGGGTGCCATTTTGTGCATATGCGGACTTTTATGTTTCATATCTCTAACCTGTGGGTCCTCTGCTT -AATCCTTAAACAACACCAGCAACTCCTGCGCTTTCATCTTCCATCGAATTTTTCATGTTGCCGCTAATCAGCCATAAAAT -CATTTGCAGATGCGCTCTGTCGAGGTAGTCTCATAAGGTTCGTTTATAGATCGACGGCAATGTGAGTTACCTTTTCCATA -CTAATTATAAAAAGACAGTACAAACAGGATCATTATGGACTCCACGCTCATCTCCACTCGTCCCGATGAAGGGACGCTTT -CGTTAAGTCGCGCCCGACGAGCTGCGTTAGGCAGCTTCGCTGGTGCCGTCGTCGACTGGTATGATTTTTTACTCTATGGC -ATCACCGCCGCACTGGTGTTTAATCGCGAGTTTTTCCCGCAAGTAAGCCCGGCGATGGGAACGCTCGCCGCATTTGCTAC -CTTTGGCGTCGGATTTCTTTTCCGTCCGCTCGGCGGTGTCATTTTCGGTCACTTTGGCGACCGACTGGGACGTAAGCGCA -TGTTAATGCTGACCGTCTGGATGATGGGCATCGCGACAGCCTTGATTGGTATTCTTCCTTCATTCTCGACCATTGGGTGG -TGGGCACCTATTTTGCTGGTGACACTGCGTGCCATTCAGGGATTTGCAGTCGGCGGCGAATGGGGAGGCGCGGCGTTGCT -TTCCGTTGAAAGTGCACCGAAAAATAAAAAAGCCTTTTACAGTAGCGGTGTACAAGTTGGCTACGGTGTAGGTTTACTGC -TTTCAACCGGACTGGTTTCATTGATCAGTATGATGACGACTGACGAACAGTTTTTAAGCTGGGGCTGGCGCATTCCTTTC -CTGTTTAGCATCGTACTGGTACTGGGAGCATTGTGGGTGCGCAATGGCATGGAGGAGTCCGCGGAATTTGAACAACAGCA -ACATTATCAAGCTGCCGCGAAAAAACGCATCCCGGTTATCGAAGCGCTGTTACGACATCCCGGTGCTTTCCTGAAGATTA -TTGCGCTACGACTGTGCGAATTGCTGACGATGTACATCGTTACTGCCTTTGCACTTAATTATTCAACCCAGAATATGGGG -CTACCGCGCGAACTTTTCCTTAATATTGGTTTGCTGGTAGGTGGATTAAGCTGCCTGACAATTCCCTGTTTTGCCTGGCT -TGCCGATCGTTTTGGTCGCCGTAGGGTTTATATCACAGGTACGTTAATCGGAACGTTGAGCGCATTTCCTTTCTTTATGG -CGCTTGAAGCACAATCTATTTTCTGGATAGTTTTCTTCTCCATAATGCTGGCAAACATTGCGCATGACATGGTGGTGTGT -GTGCAACAACCGATGTTTACCGAAATGTTTGGTGCCAGTTATCGCTATAGTGGCGCTGGAGTCGGTTATCAGGTTGCCAG -TGTGGTTGGCGGTGGATTTACACCTTTTATTGCCGCTGCACTCATCACTTACTTTGCCGGGAACTGGCATAGCGTCGCCA -TTTATTTGCTGGCTGGATGCCTGATTTCCGCAATGACCGCTTTGTTGATGAAAGACAGTCAACGCGCTTGATAGCCTGGC -GAAGATCATCCGATCTTCGCCTTACACTTTTGTTTCACATTTCTGTGACATACTATCGGATGTGCGGTAATTGTATGGAA -CAGGAGACACACATGAATAATAAGGGCTCCGGTCTGACCCCAGCTCAGGCACTGGATAAACTCGACGCGCTGTATGAGCA -ATCTGTAGTCGCATTACGCAACGCCATTGGCAACTATATTACAAGTGGCGAATTACCTGATGAAAACGCCCGCAAACAAG -GTCTTTTTGTCTATCCATCACTGACCGTAACCTGGGACGGTAGCACAACCAATCCCCCCAAAACGCGCGCATTTGGTCGC -TTTACCCACGCAGGCAGCTACACCACCACGATTACTCGCCCTACTCTCTTTCGTTCGTATCTTAATGAACAACTTACGTT -GCTGTATCAGGATTATGGTGCGCATATCTCAGTGCAACCCTCGCAGCATGAAATCCCTTATCCTTATGTCATCGATGGCT -CTGAATTGACACTTGATCGCTCAATGAGCGCTGGGTTAACTCGCTACTTCCCGACAACAGAACTGGCGCAAATTGGCGAT -GAAACTGCAGACGGCATTTATCATCCAACTGAATTCTCCCCGCTATCGCATTTTGATGCGCGCCGCGTCGATTTTTCCCT -CGCACGGTTGCGCCATTATACCGGTACGCCAGTTGAACATTTTCAGCCGTTCGTCTTGTTTACCAACTACACACGTTATG -TGGATGAATTCGTTCGTTGGGGATGCAGCCAGATCCTCGATCCTGATAGTCCCTACATTGCCCTTTCTTGTGCTGGCGGG -AACTGGATCACCGCCGAAACCGAAGCGCCAGAAGAAGCCATTTCCGACCTTGCATGGAAAAAACATCAGATGCCAGCATG -GCATTTAATTACCGCCGATGGTCAGGGTATTACTCTGGTGAATATTGGCGTGGGACCGTCAAATGCTAAAACCATCTGCG -ATCATCTGGCAGTGCTACGCCCGGATGTCTGGTTGATGATTGGTCACTGTGGCGGATTACGTGAAAGTCAGGCCATTGGC -GATTATGTACTTGCACACGCTTATTTACGCGATGACCACGTTCTTGATGCGGTTCTGCCGCCCGATATTCCTATTCCGAG -CATTGCTGAAGTGCAACGTGCGCTTTATGACGCCACCAAGCTGGTGAGCGGCAGGCCCGGTGAGGAAGTCAAACAGCGGC -TACGTACTGGTACTGTGGTAACCACAGATGACAGGAACTGGGAATTACGTTACTCAGCTTCTGCACTTCGTTTTAACTTA -AGCCGGGCCGTAGCAATTGATATGGAAAGTGCAACCATTGCCGCGCAAGGATATCGTTTCCGCGTGCCATACGGGACACT -ACTGTGTGTTTCAGATAAACCGTTGCATGGCGAGATTAAACTTCCCGGCCAGGCTAACCGTTTTTATGAAGGCGCTATTT -CCGAACATCTGCAAATTGGCATTCGGGCGATCGATTTGCTGCGCGCAGAAGGCGACCGACTGCATTCGCGTAAATTACGA -ACCTTTAATGAGCCGCCGTTCCGATAATAAGTTCTGAACCTTCTTATCAGAAATAGATGTGAAGGAGTAAGTAAGACACC -TGGCAAATAGCCTGCAATAATCGTGGGCTGTTTGCTTCCTTGGGCGGATACGAGTTTTATTATCGTCTTAATGATTTCCA -CATATTAAAAGCAAGTATGCTTTCAAAACACAATTATAAAAAATCCCGCCAACAATATAAGTTTTTATAAAATTAAATAT -AAGATTATGGCTTTAGAATATTTTTATTTCTAATAGACGAGATTTTTCCTGTTATGATATAATATGCTGAATTAACACAT -GTTAACGATTTACCAGTAATGTAAATAAATTTTCGAGGAGATCATTCCAGTGGGACGTAAATGGGCCAATATTGTTGCTA -AAAAAACGGCTAAAGACGGTGCAACGTCTAAAATTTATGCAAAATTCGGTGTAGAAATCTATGCTGCTGCTAAACAAGGT -GAACCCGATCCAGAATTAAACACATCTTTAAAATTCGTTATTGAACGTGCAAAGCAGGCACAAGTTCCAAAGCACGTTAT -TGATAAAGCAATTGATAAAGCCAAAGGCGGCGGAGATGAAACGTTCGTGCAGGGACGTTATGAAGGCTTTGGTCCTAATG -GCTCAATGATTATCGCCGAGACATTGACTTCAAATGTTAACCGTACGATTGCTAACGTTCGCACAATTTTCAATAAAAAA -GGCGGCAATATCGGAGCGGCAGGTTCTGTCAGCTATATGTTTGACAATACGGGTGTGATTGTATTTAAAGGGACAGACCC -TGACCATATTTTTGAAATTTTACTTGAAGCTGAAGTTGATGTTCGTGATGTGACTGAAGAAGAAGGTAACATTGTTATTT -ATACTGAACCTACTGACCTTCATAAAGGAATCGCGGCTCTAAAAGCAGCTGGAATCACTGAGTTCTCAACAACAGAATTA -GAAATGATTGCTCAATCTGAAGTTGAGCTTTCCCCAGAAGATTTAGAAATCTTTGAAGGGCTTGTTGATGCCCTTGAAGA -TGACGACGATGTACAAAAAGTTTATCATAACGTCGCAAATCTCTAATTATCTTTTAAAGAAATCTGTCTTTACGGCAGAT -TTCTTTAATCTCATATAATTCTTATAAAAAATATAATATTCAACTCGTCATATTGATTATACCCCCCCGTTCCCAGAGAA -ATAATATTTATTAAAATTCCAGTTCTTCTTTTTCTGATTACAGAAGGCAAAGTGGCAATTACGCATAGTTTCCCGATAAA -GACGCGATAGCGACATCCCGCATAAGGCATTTTTCTCTTTATCTTTGTACGGTACTTCATGGAACAGAGTTTTTGACCTT -GCGAATCGTGATGTCTGTTGGGGAGGGACAATTTGCTCACTGAAGCGTGAGACTCGATTAAGCGCACGAAACACAGAAAT -CAAAAAACCCGGTCACTTTTTTACAAGGTAACCGGGTAAAAATAATTTTTATTTTTTAACTGTTTTGAGACTCATAGAGA -TGTCTCAAAACTAAAATTTGGCTCCTCTGACTGGACTCGAACCAGTGACATACGGATTAACAGTCCGCCGTTCTACCGAC -TGAACTACAGAGGAATCGTGAGAACGAGGCGAATATTAGCGATGCCCACCCACAATGTCAAAGCCTGTTTTTTAAATTTG -AAATCGTTTGCTGAAATAATCTGCATTTTGTCGTTTATTCCGACACAACTGGCTTTTTTTCACACTTTTGCGGCTCGGGT -CGAGGGTATTTCCATAGCCAACGTCCAGTAACCATTCGCCAGTAAAACAGCACGGCCCGCACAGCCCAGTCGGCAAACAT -TCCCATCCAGACACCAACCACACCCCAGCCAAGCATGATTCCCAGCACATAACCGACTACAACCCGACAACCCCACATGC -TCAACATCGAAACCCACATGGCGTAACGGGCATCACGAGCACCTTTAAATCCAGCGGGTAGCACCCATGAGGCGGACCAA -ATAGGCATAAATAAAGCATTTAGCCAAATCAGAATCACAACGACATGTTTAACCTGTGGATCCTGGGTGTAAAACGATGC -CATAACCCCGGCAAAGGGAGCCGTTAGCCAGGCGATGGCCGTTAATCCAAGAGTGGAAAGCCAGAACACATGCCGCAACT -GAATCTCTGCTTGCGCTATCTGCCCTACCCCCAACCTTCGGCCTGTAATGATCGTAGAAGCAGAGCCGAGCGCACTTCCG -GGTAAGTTGATAAGAGCCGCAATTGAAAACGCGATAAAATTTCCGGCAATAACACTGGTCCCCATCCCGGCAACGAACAT -TTGGGTTAATAACCGACCACTGGTAAATAACACTGATTCGACACTCGCGGGAATACCAATCCCCATGACTTCCCAGATAA -TGCTAAAATTCAGCGGTTTAAAATAGCTCTTTAACGAAATCCTTAGCGCAGGATTAAAACCAATCGCCAGCACCCACAAA -ATTGCAACTGCGCCAATATAACGAGAAATGGTTAAACCCAGCCCTGCCCCGACAAATCCCAGTCCCGGCCAGGAGAAAAG -GCCGTAAATCAATATGCCGCTAATAATAATATTAAGAATATTCAGGCTACCGTTAATCAATAGCGGTATTTTCGTATTCC -CTGCACCACGAAGTGCCCCGCTACCAATAAGAGTGATGGCAGCTGCTGGATAACTGAGTACCGTCAGCTCCAGATAAGTC -AACGCCAGTGCTTTAACTTCTGTCGTGGCATCACCCGCGACGAAATCAATAATTTGTTCGCCAAAATGATGAATAAGCGT -TGCCAACAGTACGGCAAACAACGTCATGATCACCAATGACTGCCGCGTCGCCACCCTCGCTCGTCGTCGATCCCGCTTAC -CGAGACTAAATGCCACAACGACAGTAGTACCAAGATCGATAGCAGCAAAAAAAGCCATAATGACCATATTGAAGCTGTCC -GCCAATCCCACGCCGGCCATCGCATCTTTTCCCAGCCAGCTGACCAGAAAAGTGCTCAGAACCCCCATCAACAGGACACA -GGCATTCTCCATGAAGATAGGAACAGCAAGCGGGGTTATCTCGCGCCAGAACAACACTTTGTAGCTCTTGCGTTTAGCGT -GCCAGCGAGTGCCGTGAACAACCTGGCGTAAAGCAGAGGAGATATTCAAAGCCGACCTTAATTGCAGAAAGTGAAACCAC -ATTTCAAATAATGAGGGAGAATCAGCAAAGCTGCAAAGATTTTCGCCAACAAATTGTCTGCAAATGCAACAAACTGTTGA -TAGAAACGGCAAACAGTTGGGGAATTTAAAAATCGGGTTTGACAAAAGATTTTTCGCCGTTAAGATGTGCCTCAACAACG -ATTCCTCTGTAGTTCAGTCGGTAGAACGGCGGACTGTTAATCCGTATGTCACTGGTTCGAGTCCAGTCAGAGGAGCCAAA -TTCCTGAAAAGCCCGCTTTTATAGCGGGATTTTTGCTATATCTGATAATCAATTTCCTCTTCACTGCTTTCCATCACCTG -CCGCTTGATATCCTCAACTGACAGTCCTGCATTACAAAGTTCCAGAAAGCGCCAGACATAGTTACGCTGAAGTTGTCCTC -GCTTCAGTCCCAACCAGACAGTATTAGCATCAAAAAGATGCCGCGTATCCAGGCGGATTAAATTCTCTTCCTCTTGTTCG -CCACTGGATTGCTCGGCAACTAATCCGATCCCAAGCCCAAGAGCAACATAGGTTTTAATGACATCAGAATCCTGCGCACT -TAATACAATATCTGCCAGCAAACCTTTGCGGGCAAATGCGTCATCAATACGTGAGCGCCCCGTAATCCCCTGTCGGTAAG -TGATTAACGGCCACTTCGCTATTGATTCCAGCGTCAATGGTGAAATTTGCGTCAAGGGATGATCGTGTGGAACAAGCAAA -CTATGGTGCCAACGAAACCACGGGAAGGCGACGAGCTGCGGGTCATTACTCAAACGCTCGCTGGCGATACCAATATCAGC -TTCGCCATTTTGCAACAATGTCGCAATTTCCTGTGGCGTCCCCTGGATTAGCTCGAGCCGAACCTCCGGGAAAAGTTCGC -GAAAAGCTTTAATGACCTCTGGCAAGCTATAACGTGCCTGAGTATGCGTCGTTGCAATAGTGAGAACGCCAGACGTATCG -TTGGTAAACAGGTCTGCAAGCCGACGAACATTACTGGCTTCATTCAGAATACGTTCTGCAATGACCAGTAATGCTTTGCC -CGGTTCAGTCATGCCCAGCAGTCGCTTACCTCGTCGAACAAATATTTCGATGCCAAGTTCATCCTCCAGTTCCCGAATAT -GACGGCTGACGCCTGACTGTGAGGTAAAAAGCATATTCGCAACCTCTGTCAGGTTGTAATCCTGACGTGCAGCCTCGCGG -ATTATCTTTAGTTGTTGGAAATTCACGGTAAACTCCGGGCAGTTCAGATTTCCCGTTATTGTTAAAGTCTAATGCCCGGC -ATAACAAATAATAAAAACCCGCATCTTATTCCATCCCGATATAACACTTAGCTCACCAATTGCCACTGCCTTTTTTCCAT -CACTGGAGAACTAATCACTGACATTAACAACTCTTTCACTGCCTGTGCCTGTGGCGATAAGTTCGCTCTGGCGGGTAAAT -TTAATGACAAAGAGAGACTCATGGAAGGAGTGGTAATGCGTGACATCCACCCATTTACTGCGCCACATAACGAACGCGCG -GCCGATTCGGGTAATACTGCAACGCCCATGCCGCTGGCAATCGCTGCGGTAAGCGTGGCAATAGACTCAATTTCACCAAT -AACTTTTGCCGTGAGTCGCCGTAGGGAAAAAGCCTCATCAACACGAAGTCTAATAGCACTGTAATCACTGGGGAGAAAGA -GGTTCATTTGCGCAATAGCATTCACATCAACGCTTTGCCCCGGGCAATCTTGAGTTCCTACCAGAAAAAGATCTTCTTTC -AGCAAAGCCTGACTGGATACACCAGCCACAGGGGAATGCTCATAAATCACCGCCATATCGAGTTGGTGATTTATCAATTT -TTCGTTAAGCACTGCACCACTATTTTCATGAAGATAGATAACGATCTCCGGAAATTCAGCGCGAACCGCCTGTAATAAGG -GCATGGTGATGGATGACGCAGCGGTTCCTGGTGCAAAGCCAATCGAGACTTGCCCCGATAATGCCTGACCAACGTTATGC -ACCGCCAGTTGGGCCTGTTCACACTGACGTAAAATGGCCCGCGCATGGGTATAGAGAATTTTTCCGGCGTCTGTTGGTGT -AACGCCCCGCTTTGTACGGATCAAAAGTTGTTGATTTAACTCACCTTCCAGTGTGGCAACCTGCTGGCTGAGCGCTGGTT -GTGCGATATGCAATACTTCAGCAGCCTGGGTCAGGCTACCAATATCTACAATTTTTACGAAGTATTTCAGGCGTCTGAAG -TTCATGTTGCCTCCGGTTTTTAAGAATCGGCCCAAGTGCCGCCATTACTTACAACCAGATTGCAAGATGCTTGCCAGTTT -TATTTTGGTGTTGATGTACAAGCTAACCAACTGTCAAATAAGAGATTATGATAGATTCGTCATTTGCTCCTTTAATCAGC -TGTCGCGTTCCCCTGCCCTATAAAAGGAGGGTATGCACCACGATGGTTCATTACCCAATAAGATTGAAAGCTCACCACTT -TGTTGAAATTGACAGCAAACAAACAAAAAAATGCATTTCACCCTTTGACATCACCATGCACTGCCATTAATATGCGCCCC -GTTCACACGATTCCTCTGTAGTTCAGTCGGTAGAACGGCGGACTGTTAATCCGTATGTCACTGGTTCGAGTCCAGTCAGA -GGAGCCAAATTCAAAAAAGCCTGCTTTCTAGCAGGCTTTTTGCTTTCTAATTACCAACGCTCTTAAAACATCTGTCTTGA -ACCAGAACTAATTTGCACAGGCATTCCCGATCGACGTTGCAACGCAGCATTTGCGCGATTTACATCAACTTCTTGCCCGT -TGATAAACGCCCGCAAAGATGGGGTTACCGGCAATGGCACTTTTCGGTCAGACTCATATTCTGCACGATTGCGCGACAAT -GGCTCATGAACTTCCAGCCAGTTCGAGCCATCTGGTTCAGTGGTGTATTTTACTGGCTGGTCGATAATTTGCACACGCGT -CCCAACAGGAACATTATCAAACAGATATTTGATATCGTCATTGCGCAGACGAATACAGCCCTGACTTACCCGGAGCCCAA -TACCAAAATTGGCATTGGTACCATGGATGGCATACAACCTGCCAATATAAATCGCGTACAGCCCCATGGGATTATCGGGG -CCCGCAGGAACAAATGCGGGCAAACTCTCCCCTCGTTTCGCATATTCGCGCCGAGTGTTCGGCGTTGGCGTCCAGGTTGG -AGCTTCTTGTTTACGTTCAACGGTAGTCACCCAGTTACGCGGGGTTTCTCGCCCAGCCTGGCCGATACCAATAGGAAAGA -CTTCCACAGTATTACTGTCTGGTGGGTAGTAATAAAGACGCATCTCAGCGACGTTAACAACAATCCCTTTACGAACAGTG -TCGGGCAAAATCAGTTGCTGCGGAATGGTGAGTTGCGAGCCAGACTTCGGCAAAAAAACATCAGCGCCCGGGTTCGCTTC -CAGCATGTTACTTAACCCTTGCCCGTATTGTGCGGCAAAAGTCTCCAGCGGCTGGGTATTGTGATCAGGAACAGTTACAG -TAAACGACTGCCCCACTAAACGGCTACCCTCTGGAGGTAATGGATAAGTTACCGCCAGGCTAGTATGGCTGGCAAAAAGC -AGAGCAAATGAGCAAAGAATATTTACACGACGCATCATGTCCCTTTCCTATGTCGCGAAAGCTATCCGTTAAGTATAGCT -TTTATCAGACTTTTCGTTTTTAACTGTTCAAATCAGAAGTCGTATTCCCCGGTAGAACAATATTACTGGCAGCAAGTTCG -CCCATGTTGTTGTATATCGCACAGGCAGCTTCGATGATGGGCATCGCCAGAGCTGCGCCACTCCCCTCACCTAAACGCAT -CTCCATATTGAGATAAGGCTCCAGCCCCAAATGCGAGAGCGCTATACGCGCGCCTTTTTCTGCCGACAGGTGAGAAGGAA -TGAGATACGGTTTGATCGCAGGAGACATCTGGCAGGCTGCGAGCGCAGCAGCATAAGAAAGAAATCCATCCAGCAACACG -GGTAAACCGCAGGAAGCAGCACCTAACATCACTCCAGCTATTCCGACCAAATCAAATCCACCCACTTTTGCCAGGACATC -AACACCATCCTGAGGATTTGGTTGATTCAACGTAATCGCCCGACGCACAACATCAATTTTATTAGCCAGTTTATCTGTCG -GCAGGTTTGCGCCAATCCCAACCACTTCTTCAGGATCCCGGCCAGTGATTGTGCTGACTATTGCTGCTGCCGGTGTCGTG -TTTGCCATCCCCAGTTCACCTACACCAAACAGCGTGACACCGTTTTTTGCCAGCTCCTGCGTATAACATATGACGTCCAA -AAGCAACTTTTCAGCCTGACGGCGACTCATTGCCGGAGCTGAAGCAATATTGCCGCTACCTCGTGCGACACGCATGTTGA -TAAGCCCGGGGATAGGCTCAGCAGTATCAATACCAACATCAATTACGTGGACGTTAGCGCCCGCTTGTTCTGCCAGCACA -CACACGCCGGTTGTTCCACGGGTCATATTTTCAGCCTGTATGGCTGTCACTTCTTTTGGAGAAATAGCGACCCCTTCCTC -CCAGACGCCGTGATCGGCACACATAACCAGTACCGCTTTTTTGCCCACATGCGGTATGCCATTCAACCCCGGCATTCCTG -CCAGTTGTATGGCAAGCACCTCCAGCTTTCCCAGGCTACCAACAGGTTTGAGTAACCCGTCAATATGCCGTTGTGCACGC -GACATAGCGGTAGAATCGATGGCTGGGATCGTATTCAGTAAATCGGCAAGTATTTGCATCTCACGTCTCTTTATAGCAGT -GCCAGCAGGAAGACCAGTTCACCAAGCTCTATGGCTGCTCCCAGCGTATCGCCCGTTTGCCCGCCCAGCGTACGTTTGAG -AAGCTGACCGAGGATGAAAATCGCCACCATCGTCACCACCATAGCAGCCACACCATGCATACCCGGCAATAATACGGCAG -CAAAAATAGCGGCTAAGCCGAGTGTGACGCAGGTTTGTCGCCCATCAATTTTGCCAATGAACACATTGCCAAGCCCTTCT -TCCCGCGCATAACGATGACGATACATCAATAATGCGGCAGTCCCGCGGCTGACCGCACATGCTGCCGCCAGCGATGCAAG -GATCGATTCGCCACGCAGAGCCAACTCGCTTAACACCAGAATCTTTGCCAGTACCACAAAAATCAATGCCAGACCGCCGT -GGGTGCCTAAACGGCTATCACGCATGATTTCCAACATGCGATCGCGGCTACGTGCAGAAAATACGCCATCACAGGTATCA -GCGAGGCCGTCCAGATGGAATCCCCCGGTCATCAGCACCAGCACAAGTACGCTAAACAGTGCCGCCAGTGGTGCGCCACA -CCATGCCTGCAGCACCATGAAGACCAGCCCGCTAATCGCGCCAAGCAATAATCCAATCAAAGGAAAAGTAATAATACCGC -GAGAATAATGCTCGAAATCCAGTCCCTGGGACCAGCGACGCGGTACAGGCAGACGCGTAATAAATGAGAGCATCGCCCAA -AATAATTTACTCATTTGATTTTTACTCCAATACCCGAAACCACCAGCCATACTTCATTTGCCGCAGCGGCCAACTGCTGA -TTTACCCGCCCGGCAATATCACGAAAATGTCGTGCCAGACGACTCTCCGGCACAATCCCCATTCCCACTTCGTTAGTCAC -TAATACAACCTTTGCGGGGCAACGTTGGCAGGCAGCAATCAACGACTGAATCTCAGCATTAATCGCCTGTTCCATCGCCT -GATAATCCCATTCATCAGGGTCTTTATCGCCGCCATAATCAAACAACAGATTAGTCACCATTGTGGTAACGCATTCAAGC -AACACAACCTCATTCGGGTTAATGTCTGCATGAATTAATTCATCAAGATGTTGCCAGCGCTCCACTGTGCGCCAGTGCTC -CGGGCGGCCTTGCCGATGATGTTCTATCCGTGCAGCCATCTCATCATCAAGGATTTGCGAGGTAGCGATATACAGAACCT -GTGAAGAGTCCCCAATAAGCGCCTCTGCGTGGCGACTCTTCCCGCTCCGTGCGCCCCCCGTCACCAAAATCATCATACCG -ACTCCTGATTCAAATGTATGATGGTATTCATTGAACAGAACAATGGATCCCCCACCGTTGCTGACCGCAAAACATTTACG -CGATTAATACTGCGCGTAATATAATTAAAAATCCAGCATTCTCAATCCATTACGAAATAAGATGGCATTACGGAATAGCC -AGACTTTCTCGTGTTAACGTCCGACAAAATGCGTCATTGACAGCGGTTTCTGTGGATTGACACATTTCATTCAGATAATG -AATTAATGCTACTGCCGGAACAACCAGCAAACGGGCATTGTGTTCTGAAATCCAGGCTATTGATTCAACGTCAGCGACAG -ATCTGCGCTGTAAAAGAACTTGTAAAACAACGTAATAGAATTATCCGGAATGGTGGCGACTATGCACTAGGGAAGGTGCG -AATAAGTGGGGAAATTCTTCTCGGCTGACTCAGTCATTTCATTTCTTCATGTTTGAGCCGATTTTTTCTCCCGTAAATGC -CTTGAATCAGCCTATTTAGACCGTTTCTTCGCCATTTAAGGCGTTATCCCCAGTTTTTAGTGAGATCTCTCCCACTGACG -TATCATTTGGTCCGCCCGAAACAGGTTGGCCAGCGTGAATAACATCGCCAGTTGGTTATCGTTTTTCAGCAACCCCTTGT -ATCTGGCTTTCACGAAGCCGAACTGTCGCTTGATGATGCGAAATGGGTGCTCCACCTTGGCCCGGATGCTGGCTTTCATG -TATTCGATGTTGATGGCCGTTTTGTTCTTGCGTGGATGCTGTTTCAAGGTTCTTACCTTGCCGGGGCGCTCGGCGATCAG -CCAGTCCACATCCACCTCGGCCAGCTCCTCGCGCTGTGGCGCCCCTTGGTAGCCGGCATCGGCTGAGACAAATTGCTCCT -CTCCATGCAGCAGATTACCCAGCTGATTGAGGTCATGCTCGTTGGCCGCGGTGGTGACTAGGCTGTGGGTCAGGCCGCTC -TTGGCATCGACACCAATGTGGGCCTTCATGCCAAAGTGCCACTGATTGCCTTTCTTGGTCTGATGCATCTCCGGATCGCG -TTGCTGCTCTTTGTTCTTGGTCGAGCTGGGTGCCTCAATGATGGTGGCATCGACCAAGGTGCCTTGAGTCATCATGACGC -CTGCTTCGGCCAGCCAGCGATTGATGGTCTTGAACAATTGGCGGGCCAGTTGATGCTGCTCCAGCAGGTGGCGGAAATTC -ATGATGGTGGTGCGGTCCGGCAAGGCGCTATCCAGGGATAACCGGGCAAACAGACGCATGGAGGCGATTTCGTACAGAGC -ATCTTCCATCGCGCCATCGCTCAGGTTGTACCAATGCTGCATGCAGTGAATGCGTAGCATGGTTTCCAGCGGATAAGGTC -GCCGGCCATTACCAGCCTTGGGGTAAAACGGCTCGATGACTTCCACCATGTTTTGCCATGGCAGAATCTGCTCCATGCGG -GACAAGAAAATCTCTTTTCTGGTCTGACGGCGCTTACTGCTGAATTCACTGTCGGCGAAGGTAAGTTGATGACTCATGAT -GAACCCTGTTCCATGGCTCCAGATGACAAACATGATCTCATATCAGGGACTTGTTCGCACCTTCCCTAGAACACCACAAT -TTCGCTCTCTCGGTAAGGCACTGTCACAGCATTCAACAGAATGTGACTTGCCAGATTTATTAGCGCCACCAGATGTTTAA -CCGGGTAACCACGACCCAGTCGGGGATATATTCCATCTTCTCGCTGACATCATCAAGAATAAAAAGGTTTATCACACTCA -GAGCAACGTTCTTCAGCAGGCGGGATAATTCTTCAACATTTAGAAGATGTGTTATTAAAGGCATACAAACTGGACGTATT -GTATTTTCTTTTGGTGGTTGACCTAAGGTAGCAGTTTATCCTGATGCGCTGAGATTTCTGTAATATCTACGTCAACATTC -TCCTCGAATAGAAAATGCAGCCCCGGCAAGTGATTCACATTTTTTAACAAAACGTTGTTAGCGTGCCATTTTCAGAAGCT -CTCCAAGAAAGCGAATTCTTTTCTCAAATTCTGCATTCTCAGACACAGCTTTCTACTCCATGGTAATGGCCCAAATACGA -AGTTGCTCAGGATCATTAGTGGTGCTGAGAAGTTAAATAACCATGCGGAGTACCACTCGTCATCACGTATTTATATATCA -TGAAGCTATTGTTGTGTTTTGTACATCAGTAGATATATTCTGATATACTCCTTTTGCTAGACATAACCTTTCACCTGCTT -GCAAAGCTTCTGTGTTCTGACATTGCCAAATTGTTGCAATTCTGTATCCAGCCTTCTTTCAGTCATAGCTTCGGGCCGCG -ATAAGACTCACTGATCTGACCCTGATTCCTCTTGCAGACTTTATAGACCAATTAAAATGCAGTTTCTGCAGGTCAACGTC -TGACCATCATTGTCATCACTCTGGCCATTAGAGTAACCTTCTGCATTCATCCTTTTGTAAAAAGTTTATATTAGTATCAG -CAATTAACCGGACCTGATACTGATATGAGTCTTACCGCATATACGGTCAATTTCAGCAATTAATTACATTATCCACGCCA -AAGTATTTGTCATCACAATGATGGTACCTTCTTTCAGACACCATTTTTTCAACTCCGTTTTCCACGGACCGCACTCTTAT -GTCAAGAGTGCGGTCCGTGGATACAACCAGAGACCGACTGACACGAGTCAGAGGAAACGACGGATATGTTCAGTCGTAAA -ATATCTATCAAAAAACATGATTAAGGTCAAAAATGTTTGATATTTACAATTTATGAAGATGACAATAATTATAGATATAT -GAGAACATAAATGAAAATAATTATCATTACAGTAATCATTTGTACTTTGTATTAATGAGGGATGAAATGTTATATAATAT -ACCTTGTCGAATTTATATCCTTTCCACTCTGTCATTATGCATTTCTGGGATAGTTTCTACTGCAACCGCAACTTCTTCAG -AAACAAAAATCAGCAACGAAGAGACGCTCGTCGTGACCACGAATCGTTCGGCAAGCAACCTTTGGGAAAGCCCGGCGACT -ATACAGGTTATTGACCAACAAACATTGCAGAACTCCACCAATGCCTCCATAGCCGATAATTTGCAGGACATCCCCGGAGT -AGAGATAACAGACAACTCCTTGGCAGGCCGTAAACAAATCCGCATTCGTGGCTGGATTTGCCCCTATATTTCCAGACATC -TGTTATCACTTAACCCATTACAAGCCCGCTGCCGCAGATATTCCCGTGGCGAGCGATAACCCAGCGCACTATGCGGATGC -CATTCGTTATAATGCTCGAACGCCTCTGCAAGGTTCTTTGCTGCCGTTAACCCGTCTGGTTTGGGCATGATACTGATGTA -GTCACGCTTTATCGTTTTCACGAAGCTCTCTGCTATTCCGTTACTCTCCGGACTCCGCACCGCCGTGTTCTTCGGTTCAA -GTCCCAACATCCGGGCGAACTGGCGTGTTTCATTAGCCCGGTAGCATGAACCATTATCCGTCAGCCACTCCACTGGAGAC -GACGGAAGATCGTTGCCGAAGCGGCGTTCCACCGCTCCCAGCATGACGTCCTGTACTGTTTCACTGTTGAAGCCGCCGGT -AGTGACCGCCCAGTGCAGTGCCTCACGATCACAGCAGTCCAGCGCGAACGTGACACGCAGTCTCTCTCCGTTATCACAGC -AGAACTCGAACCCGTCAGAGCACCATCGCTGATTGCTTTCTTTCACGGCCACTCTGCCTGTATGTGCCCGTTTCGATGGC -GGTACAGCAGGTTTTCGCTCAAGCAACAGCGCATTCTGGCGCATGATCCGGTAAACACGTTTGGCATTGATCGCAGGCAT -ACCATCAAGTTCTGCCTGTCTGCGAAGCAGCGCCCATACCCGACGATAACCATACGTTGGCAGCTCTCCGATAACATGGT -GTATACGGAGAAGCACATCCGTATCATCAGTGTGACGACTGCGGCGGCCATCCATCCAGTCATCGGTTCGTCTGAGAATG -ACGTGCAACTGCGCACGCGACACCCGGAGACAACGGCTGACTAAGCTTACTCCCCATCCCCGGGCAATAAGGGCGCGTGC -GCTATCCACTTTTTTGCCCGTCCATATTCAACGGCTTCTTTGAGGAGTTCATTTTCCATCGTTTTCTTGCCGAGCAGGCG -CTGGAGTTCTTTAATCTGCTTCATGGCGGCAGCAAGTTCAGAGGCAGGAACAACCTGTTCTCCGGCGGCGACAGCAGTAA -GACTTCCTTCCTGGTATTGCTTACGCCAGAGAAATAACTGGCTGGCTGCTACACCATGTTGCCGGGCAACGAGGGAGACC -GTCATCCCCGGTTCAAAGCTCTGCTGAACAATTGCGATCTTTTCCTGTGTGGTACGCCGTCTGCGTTTCTCCGGCCCTAA -GACATCAATCATCTGTTCTCCAATGACTAGTCTAAAAACTAGTATTAAGACTATCACTTATTTAAGTGATATTGGTTGTC -TGGAGATTCAGGGGGCCAGTCTAGTGGCGAAGCATCCTCCCGTGTTTTAATTCTCATTGATGGTCAGGAGGTAACTTATC -AGCGCGCCGGAGATAATTATGGTGTGGGACTGTTGATAGATGAGTCTGCGCTGGAGCGTGTTGAGGTAGTGAAAGGTCCA -TATTCCGTACTGTACGGTTCACAGGCAATTGGCGGTATTGTTAACTTCATCACCAAAAAGGGTGAATCTCCGGACTCCCT -ATATCACTTAAATTGATACAACTTTTTAGAGTAGTCATTAGTGAACAGATAATTGATAACTCAGAACCAGTAAAATGCAA -AAGACGCACCACGCTGGGAAAATCGCTGCTATTCAGCAGAGTTTTGTATCGAGAATGGTGGCCAGCCACTTATTGCTCTC -GCGTAAGCGGGTACCGTGACATTCTGCCTGAACTTGACCTGGTACTGTGGCTGATTAAAGCCGATGACCGTGCCCTGTCT -GTGGATGAGTATTTCTGGCGACACATCCTGCAGTGCGGACATCAGCAGGTGCTGTTTGTGGTGACGCAGGCCGACAAAAC -GGAGCCCTGCCATGAATGGGATATGGCCGGTATTCAGCCTTCTCCTGCACAGGCACAGAATATTCGCGAAAAAACGGAGG -CGGTATTCCGTCTGTTCCGGCCCGTACATCCGGTTGTGGCCGTATCGGCCCGCACCGGCTGGGAACTGGATACGCTGGTC -AGTGCGCTCATGACAGCGCTTCCCGACCATGCCGCCAGTCCCCTGATGACCCGACTGCAGGACGAGCTGCGCACGGAATC -TGTCCGGTCTCAGGCCCGTGAACAGTTTACCGGTGCGGTGGACCGGATATTTGACACGGCGGAGAGCGTCTGTATTGCCT -CTGTTGCACGCACGGTTCTGCGTGCCGTCCGTGACACGGTGGTCTCTGTTGCCCGTGCGGTATGGAACTGGATTTTCTTC -TGAACCTGTCGTGACTGATGCCCTCCCTGACTCTGAGTCTGCTCACAAAAGCACTGTTTTCGTTACTGTCTCTCTTGTCC -GTGCAATAGCTCAATAATAGAATAAAACGATCAATATCTATTTTATCGATCGTTTATATCGATCGATAAGCTAATAATAA -CCTTTGTCAGTAACATGCACAGATACGTACAGAAAGACATTCAGGGAACAACAGAACCACAATTCAGAAACTCCCACAGC -CGGACCTCCGGCACTGTAACCCTTTACCTGCCGGTATCCACGTTTGTGGGTACCGGCTTTTTTATTCACCCTCAATCTAA -GGAAAAGCTGATGAAACGACATCTGAATACCTGCTACAGGCTGGTATGGAATCACATGACGGGCGCTTTCGTGGTTGCCT -CCGAACTGGCCCGCGCACGGGGTAAACGTGGCGGTGTGGCGGTTGCACTGTCTCTTGCCGCAGTCACGTCACTCCCGGTG -CTGGCTGCTGACATCGTTGTGCACCCGGGAGAAACCGTGAACGGCGGAACACTGGCAAATCATGACAACCAGATTGTCTT -CGGTACGACCAACGGAATGACCATCAGTACCGGGCTGGAGTATGGGCCGGATAACGAGGCCAATACCGGCGGGCAATGGG -TACAGGATGGCGGAACAGCCAACAAAACGACTGTCACCAGTGGTGGTCTTCAGAGAGTGAACCCCGGTGGAAGTGTCTCA -GACACGGTTATCAGTGCCGGAGGCGGACAGAGCCTTCAGGGACGGGCTGTGAACACCACGCTGAATGGTGGCGAACAGTG -GATGCATGAGGGGGCGATAGCCACAGGAACCGTCATTAATGATAAGGGCTGGCAGGTCGTCAAGCCCGGTACAGTGGCAA -CGGATACCGTTGTTAATACCGGGGCGGAAGGGGGACCGGATGCAGAAAACGGTGATACCGGGCAGTTTGTTCGCGGGGAT -GCCGTACGCACAACCATCAATAAAAACGGTCGCCAGATTGTGAGAGCTGAAGGAACGGCAAATACCACTGTGGTTTATGC -CGGCGGCGACCAGACTGTACATGGTCACGCACTGGATACCACGCTGAATGGGGGATACCAGTATGTGCACAACGGCGGTA -CAGCGTCTGACACTGTTGTGAACAGTGACGGCTGGCAGATTGTCAAAAACGGGGGTGTGGCCGGGAATACCACCGTTAAT -CAGAAGGGCAGACTGCAGGTGGACGCCGGTGGTACAGCCACGAATGTCACCCTGAAGCAGGGCGGCGCACTGGTTACCAG -TACGGCTGCAACCGTTACCGGCATAAACCGCCTGGGAGCATTCTCTGTTGTGGAGGGTAAAGCTGATAATGTCGTACTGG -AAAATGGCGGACGCCTGGATGTGCTGACCGGACACACAGCCACTAATACCCGCGTGGATGATGGCGGAACGCTGGATGTC -CGCAACGGTGGCACCGCCACCACCGTATCCATGGGAAATGGCGGTGTACTGCTGGCCGATTCCGGTGCCGCTGTCAGTGG -TACCCGGAGCGACGGAAAGGCATTCAGTATCGGAGGCGGTCAGGCGGATGCCCTGATGCTGGAAAAAGGCAGTTCATTCA -CGCTGAACGCCGGTGATACGGCCACGGATACCACGGTAAATGGCGGACTGTTCACCGCCAGGGGCGGCACACTGGCGGGC -ACCACCACGCTGAATAACGGCGCCATACTTACCCTTTCCGGGAAGACGGTGAACAACGATACCCTGACCATCCGTGAAGG -CGATGCACTCCTGCAGGGAGGCTCTCTCACCGGTAACGGCAGCGTGGAAAAATCAGGAAGTGGCACACTCACTGTCAGCA -ACACCACACTCACCCAGAAAGCCGTCAACCTGAATGAAGGCACGCTGACGCTGAACGACAGTACCGTCACCACGGATGTC -ATTGCTCAGCGCGGTACAGCCCTGAAGCTGACCGGCAGCACTGTGCTGAACGGTGCCATTGACCCCACGAATGTCACTCT -CGCCTCCGGTGCCACCTGGAATATCCCCGATAACGCCACGGTGCAGTCGGTGGTGGATGACCTCAGCCATGCCGGACAGA -TTCATTTCACCTCCACCCGCACAGGGAAGTTCGTACCGGCAACCCTGAAAGTGAAAAACCTGAACGGACAGAATGGCACC -ATCAGCCTGCGTGTACGCCCGGATATGGCACAGAACAATGCTGACAGACTGGTCATTGACGGCGGCAGGGCAACCGGAAA -AACCATCCTGAACCTGGTGAACGCCGGCAACAGTGCGTCGGGGCTGGCGACCAGCGGTAAGGGTATTCAGGTGGTGGAAG -CCATTAACGGTGCCACCACGGAGGAAGGGGCCTTTGTCCAGGGGAACAGGCTGCAGGCCGGTGCCTTTAACTACTCCCTC -AACCGGGACAGTGATGAGAGCTGGTATCTGCGCAGTGAAAATGCTTATCGTGCAGAAGTCCCCCTGTATGCCTCCATGCT -GACACAGGCAATGGACTATGACCGGATTGTGGCAGGCTCCCGCAGCCATCAGACCGGTGTAAATGGTGAAAACAACAGCG -TCCGTCTCAGCATTCAGGGCGGTCATCTCGGTCACGATAACAATGGCGGTATTGCCCGTGGGGCCACGCCGGAAAGCAGC -GGCAGCTATGGATTCGTCCGTCTGGAGGGTGACCTGATGAGAACAGAGGTTGCCGGTATGTCTGTGACCGCGGGGGTATA -TGGTGCTGCTGGCCATTCTTCCGTTGATGTTAAGGATGATGACGGCTCCCGTGCCGGCACGGTCCGGGATGATGCCGGCA -GCCTGGGCGGATACCTGAATCTGGTACACACGTCCTCCGGCCTGTGGGCTGACATTGTGGCACAGGGAACCCGCCACAGC -ATGAAAGCGTCATCGGACAATAACGACTTCCGCGCCCGGGGCTGGGGCTGGCTGGGCTCACTGGAAACCGGTCTGCCCTT -CAGTATCACTGACAACCTGATGCTGGAGCCACAACTGCAGTATACCTGGCAGGGACTTTCCCTGGATGACGGTAAGGACA -ACGCCGGTTATGTGAAGTTCGGGCATGGCAGTGCACAACATGTGCGTGCCGGTTTCCGTCTGGGCAGCCACAACGATATG -ACCTTTGGCGAAGGCACCTCATCCCGTGCCCCCCTGCGTGACAGTGCAAAACACAGTGTGAGTGAATTACCGGTGAACTG -GTGGGTACAGCCTTCTGTTATCCGCACCTTCAGCTCCCGGGGAGATATGCGTGTGGGGACTTCCACTGCAGGCAGCGGGA -TGACGTTCTCTCCCTCACAGAATGGCACATCACTGGACCTGCAGGCCGGACTGGAAGCCCGTGTCCGGGAAAATATCACC -CTGGGCGTTCAGGCCGGTTATGCCCACAGCGTCAGCGGCAGCAGCGCTGAAGGGTATAACGGTCAGGCCACACTGAATGT -GACCTTCTGACAGAACCATCGCCTCTCTGTGGTCCCGGTCATCATGACCGGGACCCGGACCGGCGCAACGGATCTTCAAC -GCCACATTCGCTGGCATTAACAATAACATGATATTCATCACGGAGTGACTATGTTACAGATAGTCGGCGCGCTGATCCTG -CTGATCGCAGGATTTGCCATTCTTCGCCTTTTGTTCAGAGCATTAATCAGCACGGCTTCTGCGCTGGCAGGGCTCATATT -GCTGTGTCTGTTCGGCCCGGCCTTACTGGCTGGCTATATCACCGAACGCATAACCCGGTTGTTCCATATTCGCTGGCTGG -CAGGCGTATTTCTGACGATTGCCGGAATGATCATCAGCTTCATGTGGGGACTTGATGGTAAACATATCGCGCTGGAGGCT -CACACCTTTGACTCTGTGAAATTTATTCTGACCACCGCTCTCGCCGGTGGTCTGCTGGCTGTTCCCCTGCAGATCAAAAA -CATTCAGCAGAACGGGATCACACCAGAAGATATCAGCAAGGAAATTAACGGGTATTACTGCTGTTTTTATACTGCCTTTT -TCCTTATGGCGTGTTCTGCATGCGCACCATTGATCGCGTTACAGTACGATATTTCACCGTCACTGATGTGGTGGGGCGGG -TTGTTGTACTGGCTGGCTGCATTAGTGACGCTGCTATGGGCGGCCAGCCAGATCCAGGCGCTGAAAAAACTGACCTGTGC -CATCAGCCAGACACTGGAAGAACAACCGGTGCTCAACAGTAAATCGTGGCTGACCAGTTTGCAAAACGATTACAGCCTTC -CTGACTCACTGACGGAGCGCATCTGGCTGACGCTCATTTCTCAACGGATTTCCCGGGGAGAGCTGAGGGAATTTGAACTG -GCAGACGGAAACTGGTTACTGAACAATGCCTGGTATGAAAGAAACATGGCAGGGTTTAACGAACAGTTGAAAGAGAACCT -GTCATTCACACCTGATGAACTGAAAACGCTCTTCCGGAACCGCCTGAATTTATCACCGGAAGCGAATGACGATTTTCTCG -ATCGTTGCCTGGACGGCGGTGACTGGTATCCCTTTTCAGAAGGTCGCCGTTTTGTATCATTCCATCACGTGGATGAGCTT -CGTATCTGTGCCTCCTGCGGGCTGACAGAAGTACATCATGCCCCGGAAAATCATAAGCCGGATCCGGAATGGTACTGCTC -CTCTCTTTGTCGCGAAACAGAAACACTGTGTCAGGAAATTTATGAACGCCCTTACAACAGCTTTATTTCCGATGCAACGG -CGAATGGTCTGATTCTCATGAAACTGCCGGAAACCTGGAGTACAAATGAGAAAATGTTTGCTTCCGGAGGGCAGGGACAT -GGGTTTGCCGCTGAACGGGGAAACCATATTGTCGACAGAGTCCGTCTGAAAAACGCACGGATCCTCGGTGATAATAATGC -CAGAAATGGAGCAGACAGACTGGTCAGCGGAACAGAAATCCAGACGAAATATTGTTCAACTGCAGCCCGTAGCGTCGGTG -CGGCATTCGACGGACAAAACGGACAGTATCGTTACATGGGAAATAATGGCCCCATGCAACTGGAAGTCCCCCGTGATCAG -TATGCCGGCGCTGTTGAAACCATGAGGAATAAGATCCGCGAAGGTAAAGTAGAGGAGAGATGACGCCCGGCGAGCGCAGC -CTCATTCAACGGGCCCTGAAAACCCTGGACCGCCATCTTCATGAACCCGGCGTGGCCTTCACCTCCACCCGTGCAGCACG -GGAATGGCTGATTCTGAACATGGCGGGACTGGAGCGTGAAGAATTCCGGGTGCTGTATCTGAACAACCAGAATCAGCTGA -TTGCCGGTGAAACCCTCTTCACCGGCACCATCAACCGCACGGAAGTCCATCCCCGGGAAGTGATTAAACGCGCCCTGTAC -CACAATGCCGCTGCCGTGGTACTGGCACACAATCACCCGTCCGGTGAAGTCACACCCAGTAAGGCAGACCGGCTTATCAC -CGAACGTCTGGTACAGGCACTGGGCCTGGTGGATATCCGGGTGCCGGACCATCTGATAGTCGGTGGCAACCAGGTTTTCT -CCTTTGCCGAACATGGTCTGCTTTAACCCTTCACAACCACATCACACCTGTTTTCACTTTTATCTTCTGTCTTCAGAGGT -ATCCCATTATGAAAATTATCACCCGTGGTGAAGCCATGCGTATTCACCAACAACATCCGACATCCCGTCTTTTTCCGTTC -TGTACCGGTAAATACCGCTGGCACGGCAGTGCTGAAGCGTATACCGGTCGTGAAGTGCAGGATATTCCCGGTGTGCTGGC -CGTGTTTGCTGAACGCCGTAAGGACAGTTTTGGTCCGTATGTCCGGCTGATGAGCGTCACCCTGAACTGAGTGGGAATTC -TGATGAGCAGAATTATCGCCACTACCGGACCATTCTTAGCCGATTTTCTGTAAGGATTTTATCGTGTCAGACACACTCCC -CGGGACAACACTTCCCGACGACAATCACGACCGCCCCTGGTGGGGGCTGCCCTGCACCGTGACGCCCTGTTTCGGGGCAC -GTCTGGTGCAGGAGGGTAACCGGTTGCATTACCTTGCCGACCGCGCCGGTATCAGAGGCCTGTTCAGCGATGCAGATGCG -TACCACCTGGACCAGGCCTTTCCGCTGCTGATGAAACAACTGGAACTCATGCTCACCAGCGGTGAACTGAATCCCCGCCA -TCAGCATACCGTCACGCTGTATGCAAAAGGGCTGACCTGCAAAGCCGATACCCTCAGCAGTTGTGATTACGTTTATCTGG -CTGTTTATCCGACGCCCGAAATGAAAAATTAACTCTCCAGAATAGCCTTCTGCTACGGCCTGGTGTTTTCACCACGCCAC -TTTTCCATTTTTATATCTGCATATCAGGAAAATCTTCAGTATGAAAACATTACCTGTATTACCCGGGCAGGCGGCCAGTT -CTCGCCCGTCTCCTGTTGAAATCTGGCAGATACTGCTGTCCCGACTGCTGGACCAGCACTATGGCCTCACACTGAATGAC -ACACCTTTTGCCGATGAACGTGTGATTGAGCAGCATATTGAGGCAGGCATTTCACTGTGTGATGCGGTGAACTTTCTCGT -GGAAAAATACGCGCTGGTGCGTACCGACCAGCCGGGATTCAGCGCCTGTACCCGCTCTCAGTTAATAAACAGCATCGATA -TCCTCCGGGCTCGCAGGGCGACCGGCCTGATGACCCGCGACAATTACAGAACGGTAAATAACATTACCCTGGGTAAGTAT -CCGGAGGCGAAATGATGACACTGGAAGCCGACAGCGTTAACGTACAGGCGCTGGATATGGGGCACATTGTCGTTGACATT -GATGGTGTTAATATCACTGAACTGATTAATAAGGCCGCTGAAAACGGTTATTCACTCCGCGTGGTGGATGACCGTGACTC -TACCGAAACACCGGCAACTTATGCCAGCCCTCACCAGTTGCTGTAAGACAATGCAGTGATACAGGGTATAGTGCCATTAA -CCACAGAAACAGCACTGTTGTCCTGTATTAAGCAGGCAAGAGAAGATGTCCTTACCCTGCGCCATCTGCAGCTTCTGCAC -CAGAACCGGTGAATCTCACTCAACAGGCTTCATTTCTCCTGACGCCAGCCTGAATACAGCTGGCGTTTTCATTTATAAAC -AGAAAGGAAAACCGATAATAATGGAATGGACGCCCCGACCATGAAGCAACGGTAGGATATTACTGATAAACCTTCCAGTG -GAGGTGCGTTATGGCCGTTTTAACGATTAGCATTGACCTGACAAAAAATGAATTCCAAATCCACGGTCTGGGTAGGAACA -GAAAAATCTAAGCTCAGAAAACGGATTAAAGTAAGCGTCAACGGAGCACCGTATTGACGCTTATTTATTGGTGAGAACTA -CGTTCCATGGCAGGAGTTCGTCAACACGGTTGGAGGGCCATTCCGGCAGTATGCTCAGAATATGGCGCAGATACGCTTCC -GGATCGATACCGTTCAGACGGCAGGTGCCTGCTTTTCTGGCAACAAGCAGGAATCTCAGCGCTGAAGCAGGAATTAGAGG -TAAAAACGCCCTACCGGGCCATGAATCACCCGGTCATTGGAGTAGTAACCAAAGCAGATTTAGCCAGCATGGAACAAATA -TCTTTGGTGAAAAGTTGGTTACGGGAAGCTGGAGCGCACAACGTGTTAGTAACCAGTGCAGTTAATAACAATGGAGTTAC -AGAACTTTTTGCCTTGCTGCATACAGAAGAAGGCTGTTGTTAATTTCGATTGGTTCTCGGATGAGAATGATGACGGTGAT -ACACAGATAAGAATCAATGAGCAATGAGGGTTGCCGGGCAACCCTCATTGAATAAAACGGGAATTACTTCGCTTCGCCGT -TTTTCATTTCGCCCATAGCTTTCAGCTTTTTGGAGATATCGCGGCGTTCTTTGGAGAGCTCGGCATTTTTGATGATGTAA -TCGTCAACGCGATCTTCATAGTCACCTTTCATGCTGGCGATGATGCCCTGGATTGCTTCAACGCTCATCCCCGGCTTGAT -GTAATCGCTCAGGTTGTCCAGCAGCAGGACGCGCTTCTGGTTGTCACGGATCTTTTTCTCAACGTCCTGAATTTCACGTT -GCAGTTTGTTCTTACGACGGAACAGACGAACAAATTCCAGTACGTCCTGGAATGAAGGCTTGGTAGTTTCCATTTTTATA -CCCCTGATAATGTGAGAGTCGGATTCGTTTAAGCAACCGCTATTCGTTAGGGCCAACATTACTCATAGCTGCCGCAGATG -ACAATGCTTTTATCCCTTTTCACTATCATACCCTTTATCCTTGCTGAATCGAAGCAGCAGCAAGATGATTCTGAAGTTCA -GGAATTATTTGCGCAAGGCCCGGCAAATCAGATTCGATAGCAACTCAAGCTGATGCGCCGTTTCCATGTTCAGCCACACA -TAACCATAGATTGGTGTTTCCACAACCTTCAGGTCATGGTGGTTATTGAGCAACTGACGCAGCTCTTCCACAGCATCGTT -CAATTTTTCCGTATTGGCAAAAACCGGCTGCGGATTACCTTCGTACAGCGCATGAACAAGGCTCAGCAGTATTTGCTGCA -TCATGTGCTGGGTATCACGAAGTTTTTGCGCGTTCAATAACACGAAATGGCTGGGGCGCGTGGCCCAGTATGCATTGATT -TGCAACTCCAGCATACAAACCAGATTGCGGTTAATGGTCTGGATACCTTCATATATCGATTTTGGAATACGGGTTTCTTT -GCTGGCGGGCGCAATCAGTCCACGCATTTTCACGGCATCGGTCAGGAGTTTTTGTAGATGGCTTTCCAGACGTGGGCGTT -CGAGTAAGTTCGGTGAGAATGCAGATTGATAGACCCGATTATACTCGGTCAGACTTTTCGCCAGTTGAATGCGCCAGTGG -ATGAACGCCCGTTGTGGCCAGATACCGGTAAACAACATTGCCAGTAAAGAGCCGAGGATCACATCGCCGCTTCGCCATAA -CGCCGTATCAATTTCACCTGTCGGGGAACCCACAACAATTGCCAGCGTCACCCCAATCAATAAACCTTGATACGGTTTCT -TGCCCAGCGCCAGCCAACCGCAAAGGAACATGGCCGCCGCGCACCAGACTAACATCAGCGGTAACGAGATTAACTCCAGT -TGCAGAGCGATAAGACCTAAAATCGAACCCAACACCGTACCGCCAATACGCTCAAAGGCGCGAGGGACAACGTTACCCCA -GAACGAGATTGGCCCCATAATCACCACCATGGTGACCAGCGGCCAGGTGCTTTCCGGGATAGTAAACAGGCGGATAATGA -GAAAAGTGAGCAGGAATGCCAGCGCGACCCGAGTACCATGCACAATGCGGTAATGGCGGTATACCCGGATTTCAAACGGG -CTTAATGACTTATCGGCACGCACGCAGAAACTCCGTAATGAGATTAAAAGCGCTCATAACTCATCTGTCGGCCAGAAGGC -GCGCCTCTGAATTATCCGACGGACAAACCGGGAACAGTGTAATTTCCCGGCAGGAGCGAAAAAATTGAAAGGCGCATCTT -ACTCTTTTCGCTTTCAAAAAAAAGAGTGGTCATCGCGTTAACACACCGCCCTGAGATGAATTAGTGATGTTTTGGCTGCA -CCGCAACATACATTTCGATATCCCAGTACCCATCTTCCGCGCCATTGTTCAAATAAACCTCGAAGCAGGGCTTTGGTAAC -ATTTCATAAGCACTGTCCTGCAAGAGACTATTAAAGAACTGATACCAGGGTTTAGCAAAATCATCACCGACTACACGAGC -TACCGCCACCGCATACTGACCACCTGTAATTTCTGTCAGAATGACGCCCTCACTGTTTTCGGGAAGCGTAAAGTAACCCG -GCACCGTCACGACGGTGTCGCAGCGTAATTTTTCGGCGGGTGTTTCATCTGGATTGTCGTAATAGACAGCAACCCACTCC -TTCGGCACAATATTTTTGCTATCTACCCACATCATCAACTGCTCAAAGCCTTTCTTTACCGTCTGTTCCCACGGGCCAAC -GAGATGGAAACCTGCAACGGTACGTTTCTCTTCCTGCTTAATCTCGTAGTTCATGACGCCTCCATTGATACTGTTTTTAT -ATACAGTATAGTTGCAAAATTAAAACCACAAGGAATGAGTGTTGATTATGCGAGCAGACTCGCACTCCTGCCAGTCTGCT -GCAAAAGAAAGGTCAGGCCTTATGGTGGAAATAATCACTCAGGCGAGAAAACATGCTGCCTTCCCCGACAGATTCCAGGG -TAACCAGCGGCCAGTGCGCCACCTGTTTATCACGGTCGTAAAGTTCAATTTCCCCTACCCGCTGATGGGCGCTAATTGGC -GCGGTGAGTTCTTTACCATCAAGGGTATATTTGGCTTTGATATGTGGAATTTCGGCTTTCGGTAGCACCATCCAGAACTC -TTGTTCCGTTCCCAGGTCGATATTTTCTTTATCGCCATACCAGATGCGTTCCGTTCCGACCTTTTTCCCACGGTGCAAAA -TTTGCACCGTAGTAAAGTTTTGTTGCCCCCAACGCAGTAATTTTCTTGCCTCTTCCTCACGACCTTTTGCACTGTCAGCC -CCCATTACCACTGCAATGAGACGACGCTGCCCATCTACAGCCGAAGCAATGAGATTAAACCCGGCACCAGAAGTATGACC -CGTTTTCAGGCCGTCAACATTCATGGTTTTATCCCACAACAACCCGTTACGGTTTTGCTGGGTGATACCGTTCCAGGTGA -GACTTTTCTCACTGTACATATGATAAAACTCGGGCTCGCCGTGGATGATAGCACGAGAAAGCACAGCTAAATCATAAGCC -GAGCTATGCTGGCCAGGTGCATCCAGACCATGCACTGTTTCAAAATGCGTATCCTTGAGATGCAGCTTCTCGGCATAGTT -GTTCATCATTTCAACAAACTGCCGTTGCCCACCGGCAATATAGTCAGCCAGAGCAACACAAGCGTCATTTCCGGAATCCA -CAATTAAACCACGGCTTAAATCACGTACCGATACGCGATCGCCCTCTTTCAAAAACATCAGTGAAGAACCGACAAACACC -GGATTATCTTTCGCCCACGCATCGCGCCCCACGGTGACAATATCGTCTGGCGTAATGCGATGACTATCGATAGCGCGATC -CACGACATAACCCGTCATCAGCTTTGTCAGGCTGGCGGGATTGCGCTGTTGATGCTCATTACCCGCGGTGAGGATCTGAC -CGGTGGTGTAATCCATCAATACCCAGGACCCGGCATGAATCTCTGGAGGCTGAGGTGAAAAAGGAATGTTTTCCGCCGCA -AAACCAGACGATAAGTTAAAAACGAACAAAGAAGCAGCAATAATAAGACGGCGTTTCAACAGCAAACCCTCAGGAGTTTC -AAATAGCTGTTCTTTTTACGGAAATACTTATGAACTGGCTGGAATAAAGTGCAAGAAAATGTGACTACCCTCTCATTTTT -ATCTGACATGATCTGTTGCCACTCGCTGCCAAATTGTGGCGCTAAAGCTGATTAGCACGGTGATATTTGATACTCTGGCA -GACAGCAGAAATAACGGATTTAACCTAATGATGAATGACGGTAAGCAACAATCTACCTTTTTGTTTCACGATTACGAAAC -CTTTGGCACGCACCCCGCGTTAGATCGCCCTGCACAGTTCGCAGCCATTCGCACCGATAGCGAATTCAATGTCATCGGCG -AACCCGAAGTCTTTTACTGCAAGCCCGCTGATGACTATTTACCCCAGCCAGGAGCCGTATTAATTACCGGTATTACCCCG -CAGGAAGCACGGGCGAAAGGAGAAAACGAAGCCGCGTTTGCCGCCCGTATTCACTCGCTTTTTACCGTACCGAAGACCTG -TATTCTGGGCTACAACAATGTGCGTTTCGACGACGAAGTCACACGCAACATTTTTTATCGTAATTTCTACGATCCTTACG -CCTGGAGCTGGCAGCATGATAACTCGCGCTGGGATTTACTGGATGTTATGCGTGCCTGTTATGCCCTGCGCCCGGAAGGA -ATAAACTGGCCTGAAAATGATGACGGTCTACCGAGCTTTCGCCTTGAGCATTTAACCAAAGCGAATGGTATTGAACATAG -CAACGCCCACGATGCGATGGCTGATGTGTACGCCACTATTGCGATGGCAAAGCTGGTAAAAACGCGTCAGCCACGCCTGT -TTGATTATCTCTTTACCCATCGTAATAAACACAAACTGATGGCGTTGATTGATGTTCCGCAGATGAAACCCCTGGTGCAC -GTTTCCGGAATGTTTGGAGCATGGCGCGGCAATACCAGCTGGGTGGCACCGCTGGCGTGGCATCCTGAAAATCGCAATGC -CGTAATTATGGTGGATTTGGCAGGAGACATTTCGCCATTACTGGAACTGGATAGCGACACATTGCGCGAGCGTTTATATA -CCGCAAAAACCGATCTTGGCGATAACGCCGCCGTTCCGGTTAAGCTGGTGCATATCAATAAATGTCCGGTGCTGGCCCAG -GCGAATACGCTACGCCCGGAAGATGCCGACCGACTGGGAATTAATCGTCAGCATTGCCTCGATAACCTGAAAATTCTGCG -TGAAAATCCGCAAGTGCGCGAAAAAGTGGTGGCGATATTCGCGGAAGCCGAACCGTTTACGCCTTCAGATAACGTGGATG -CACAGCTTTATAACGGCTTTTTCAGTGACGCAGATCGTGCAGCAATGAAAATTGTGCTGGAAACCGAGCCGCGTAATTTA -CCGGCACTGGATATCACTTTTGTTGATAAACGGATTGAAAAGCTGTTGTTCAATTATCGGGCACGCAACTTCCCGGGGAC -GCTGGATTATGCCGAGCAGCAACGCTGGCTGGAGCACCGTCGCCAGGTCTTCACGCCAGAGTTTTTGCAGGGTTATGCTG -ATGAATTGCAGATGCTGGTACAACAATATGCCGATGACAAAGAGAAAGTGGCGCTGTTAAAAGCACTTTGGCAGTACGCG -GAAGAGATTGTCTAATTTGAAGCCTCCGCCGCTGGTACGGCGGAGGACAATGTTGAGTCAGGCTTTTTGAACGGTGATGC -TCCACGCTGCATCGCCAATCTGCTGATAATCGGTGATGGCATGTCCTTCTTCTGCCGCCCACTGTGGGATTGCTTCAGTT -GCCTGGGTGCAATCAAACTCAATCACTAACTCATCGCCGCTGACCATTTCTGCCAGAGCTGCTTTTGCTTCTATGAGTGG -AAACGGACAGACCTGCGTCACCACATCCAGCTTTTTAATCACCATCTTTACACCTTACTTAATTTGCCGCAGCAGTTGCC -AGTCGCGCCTTACGCTGCGGTCGAACATACACAAGCCAGGACGCAGTCCAGACTCCGAGAATCATAAATACAAGGCCAAT -CCAGCCCTGCCAGGTCATCATTGCAGTCATAACCAGTCCATTACCGATAGAGCAACCACCTGCAATACTGGCACCGAAGC -CCATCAGTACACCACCTAACCCGCTACGTAATGTTGTTTGTGCATCAGCTGCGCGAACGCGGAACTCACGGCTCGCTTTG -GCTGCAATAAATGACCCCACGAAGATCCCTAACACCAGGAAAACGCCCCAGTTAATGTATTTCATGTCACCCGCGACCAG -AAATTGCAGAATATTGGCCGTTGGGGAAGTGATTCCTAACCCAAACATGCGTCCGGTTGCTTCACTCAGGGGCCAGGCTA -AAAGCGCAATCAAACCGATGAGTACAGCTGTGACAAAGGGATGCCAGCGTTTTTCAAACAGAATATGAGCGATCCCGGTT -CGGCGCGGCGGTAAGGTCGCGACTTTGAGTTTTGGCTTCTTCAACTCTTTCATCACCACCCAGAGCGTTATCACCAGCAA -AACGGCAACCAACGGCCACACAGACAAATTAAAAGTCTCAGCAATAGAGTTATGTTCAGTACTGTAGTGCTGCAAGGTTT -GATTTAAACCACTGGCATGTGGAGAACGCATCACCGCACTCATCACCATATAAGTGAAAAGCGCGATCCAACTGCCGATC -AATCCCTCACCCGCGCGATACCAGGTCCCGGTGGCACATCCACCCGCCAGAACAATTCCCAGCCCGAAGATATACCCACC -TATAACAGTACCAAGCCACGGGAACGCCCCGGCTTCGTAAGTCAGTAGGCCCGCCTGAATTAACGCAAAAACCCCCACGC -TTTGTACCGAAATTGCAATCAGCAAGGCGTAAAACATGCGATTATTTTTCACGATATACATATCGCGAAAACCACCTGTC -AGGCAAAAACGCCCACGCTGCATGACAAATCCCAGCAGAGCACCACAAATTAGCCCGCTTAATATCATTGAAAACATAAA -TTAATTAACCAGATGAATGTTAATGAGGAAATTATTCATGACTGGTGGAATGCAGACCAATAACCAAATTCTCTAAATTA -GAACAAATGGTTATTAATGAGGAGTTCGATACAAAAGAATAAAAAAACCGGAGCCAAATGTTCATTCGACTCCGGTTTAT -TATTAGAAAAGATGATTATGCTACGTCTTCGTACTGCGGAACCGGATTACGGAAGCTCTTGGTGACGCAAGCCAGGTAAA -TCAGACCGATAGCAGCCCAGATCAGACCCAGAACCATTGAGCTTTCTTCCAGGTTAACCCACAGCGCACCAACGGTCAGC -GCACCACACATCGGCAGGAACAGATACTGGAAGTGATCTTTCAGCGTCTTGTTACGCTTCTCACGGATCCAGAACTGCGA -GATGACCGACAGGTTAACGAAAGTGAACGCCACCAGCGCACCAAAGTTAATCAGCGCCGTTGCCATTACCAGGTCGAAGT -TGATTGCCAGCAGGGCAATCGCGCCAACCAGGATGATGTTCATCGCCGGAGTACGCCATTTCGGGTGTACATAACCGAAG -AAGCTTTTCGGGAATACGCCGTCACGACCCATTACGTACATCAGACGCGCTACGCCTGCATGCGCCGCCATACCGGACGC -CAGTACGGTAATGGTGGAGAAGATCAGCGCGCCAACCTGGAACGCTTTACCCGCAACGTACAGCATGATTTCAGGCTGTG -ACGCATCCGGATCTTTAAAGCGAGAGATATCCGGGAAGTACAGCTGCAGGAAGTAAGTTGCAAAGATGAAGATCATGCCG -CCGATCAGCGCGGTCAGGAAAATCGCACGCGGGATCACGCGCTCTGCATCTTTGGTTTCTTCCGACAGGTTGCTGATGCC -GTCAAAGCCGGTAAAGGAGAAGCACAGGATTGTCGCCCCGGTAATCATCGGGATAACATGCGCATCGCCAGACCAGAATG -GACGAGTGCTCGCCAGCGTACCAGCGCCTTCACCTTCAAATACGCCATAAACAACCATGCCCAGAATCACCGCGATCAGC -ACTACCTGCAACACGACGATTACAGTGTTGAAGTTCGCTACGGATTTCAGACTACGCAGGTTAAAGGCGGTCATAAAGGC -CACCAGCGCCACCACAAACATCCACGATGGGATGGAAGGCACCAGAGCTTCAAAATAGATTTTCGCCAGTAGAATGTTGA -TCATCGGCGCGAACAGATAGTCGAGCAGAGAAGACCAACCCACCATAAAGCCGACAGTCGGGCTAATGGATTTCTGGGCG -TAAGTGTATGCAGAGCCAGCAGAAGGATAGCGGCGAACCAGCTTCCCGTAGCTCAGAGCCGTAAACAGGATCGCAATCAA -TGCGAACGCATAGGCTGTCGGCACATGACCATCCGTGAGGCCTGAAACGATACCAAAAGTATCAAACAGCGTCATCGGCT -GCATATAGGCAAGACCCATCATTACAACCGGAACTAACGTAAGCGTTTTACGCAATTCCACGCGAGAGGTGTTTGGAGTA -ACGTTATGCGACATGGTCATTCTCCTTTACGGTGATAACCGTCGCGTAAGCAAAAAATTGCCCCATTTTTTTGGATTCCT -CAGCGACAACAACTGTCGATTTTTAGTAAATATCTATCCGGTACGAAGCCCGGCCTCTTGGTATGAATGATTGGTTTGAA -GCAAAAAATAACCGACGCTGATGAAACGTCGGTTTTTAGTCATTTTTTGACAGCGGCGCATTGTGCCTAAATGGGGGGGA -AATGACAAGAGAATGAGAGGCTTGTCAGAATAATTTTTCTTTAAATGGCTGATTTTCCGTCATCAGATTTTGCATAAACA -CCGGCGATCGCACTATTTGCTAAAATTTCATCCCGCCACCAGCCACTGGCAAGTCCTGCGGTCTGTTCGTTCCAGCCAAT -CCAGACGGGTTCAAAGAGAGTTTGGGCGACCACTTTCTTCTCGATTAACGCGCCACTATCGAGAAAACGTTGCGCCAGAT -AACGGGGTAAATAGCCGCAGCCGAGGCCGCTAATTTGCAGCTCCAGTTTGGTTTTAAAATCGAAAACGGTAATGGCTTCT -TGTTCGTCGAGAAGTTGTGATGCCGTAGAAGCGCCTGCCTGCGCAGTATCCCCCACCACAATCGCCCGATATCGCTTAAT -AATACGACGATTTAACGGCTCTTCTTCCAGGGCTAACGGATGATGAGGCGCGACCGCAAAGACTTGTTCCAGATCGCCCA -ACCGTGAAAAACCAAACTCACTGGAAGATGGTGGCTCATGCATCGCGCCAACAATAATATCCGCTCGCCCCTGAGTCAGG -GCATCCCATGAACCACCGAGTACGCCATTGATAAACTTCAGGCGCGTCACGCTATGATGTTGATAAAAAGCTTCAATGAG -TGGCGCAAGCAGAGAAAAAGGAAACGTGTCGTCCACGCCAATCACCAGCTCGTTTTCCCAGCCTTCATGCAGTTTGATCG -CCTGCTTTTCCAGTTCCCGCACGGTATGCAGAACTTCCCGCCCTTTCTCTAATAACATTTTTCCGGTGCGGGTGAATTTA -GCGCGGTGTCCGCTACGATCAAGCAATTGAATATTAAGGTCGCTTTCCAGCTTGTGAACGGTGTAACTCAGAGCGGACGG -CGTCTTGTAGAGTTTGGCCGACGCCGCCGCAAAACTGCCTTCTTTTTCTAAGGCATCGAGGATCATCAACACATCCAGCA -GTGGTTTCATACACGCCCCCTTGCAGTGCATGCGGCGTCCTGCTGGCGTGATCGTTTACTCCAGCGGCATTACCAGCGGA -TCGGGATACTGGTATTCAAATCCCAGTTCATTACAAATCCGACTGCCATCAATAATCTTACCTTTGCCGCTGTCCAGACT -ATTTCTGAACTGCGGAGGTTCCAGCCCCAGTAAACGGGCCATCTGCGGATAGAAAACATTACGCGCAGGGTGAGCTGGCG -CACATATATTATAGATGTGTCCGCCTTTAGGTGCCTGTAACAACAGAGTGATAGCGCCAATAACATCTTCTAAATGGACT -AAATTAACACCATGTTCACCATCAGGCGCGGTTTTTCCGGCAAAGAAGCGTCCGGGATGACGTCCCGGTCCGACCAGGCC -CGCAAGACGCAGAATATCGACCGAAGTACCGGGTAAATTGTGCAGCCAGTCTTCGAGTTCTTCTAATACTCGTCCACTGT -TGGTTACTGGATTACGCGGGGTGGTTTCTTTCACCGTGCCTTGCGCGTCGCCATAGACAGATGTTGAGCTGGTAAAAATA -ATGCGGGGAATACGATGGGCCAGCGCGCTATCCACTAACTCTTGTACCGCTTGTAAATAGAACTCATCGCCGGGGCCGCT -ACGACGTGCCGGAAGCGTAATGACCAGCGCATCGGCATCCATCAGGGCATCCAGATCGTCAGAATCGCAAACTAGCTCAG -GCTCCATGCGAAGCAGATAGCTATCAATGCCACTCATTCGGGCCGCTTCGACACCATCTTGTGTGGTTTTACTCCCGGTG -ACTTGCCAGCCTCGCGCTGAAAGTGACATCGCCAGCGGCATGCCTAACCACCCTAACCCGACAATTGCGACCTTTTTCAT -CCGTTATCTCCTGATACACCTTAGATCTATAAGGCTACGCTAGCGTATCAAAACTGACAATTCATTCTATGAATGAATCT -GTTCAATAATGATAACGACATGCTGCAATGAGCAGTGAATCGTCGGTAACCGCGTATACCAGACGGTGCTCCTCTGTAAT -GCGTCGGGACCAGAAACCTGACAAATTATGTTTCAGGGGTTCTGGCTTCCCCTTACCTTCAAATGGCGTTCTGCGGGTAT -CTTTGATAAGTTCATTGATCTTTTTAACAATTCGCTTATCTGTTTCCTGCCAGTACAGATAATCGTCCCATGATTCCTCA -GACCAGATTAGTTTCACTCAATGATGTCCTTTTCCGTTCCTTTGCCTGATTTCAGGCTATCGATTGAGTCCATCAATCTC -CGGGCGTTAGCGGGGGAGCGCAGTAGATAAGCCGTCTCTTCCAGCGAGTTGTATTCTTCGAGTGACATCAGAACACAAGC -CTCTCCATTCTGACGAGTAATAAGGATCGGGGCATGATCTTCAACGGCTTTCATCATTGTTGCCGACAAATTCTGACGCG -CTTCGCTGTAGCTAATTGTACGCATGTCAATCTCCTCTTTTGTACAGTTCATTGTACAATGATGAGCGTTAATTAACTAT -TTATTAATTAGTTTGTAGATCAAGGTATTGTCAGTGAGACGAAAATCCAGGCTTCGCTATTTTTGGTGCCATCAGCTAAG -AGGACAGTCCTCTTAGCCCCCTCCTTTCCCCGCTCATTCATTAAACAAATCCATTGCCATAAAATATATAAAAAAGCCCT -TGCTTTCTAACGTGAAAGTGGTTTAGGTTAAAAGACATCAGTTGAATAAACATTCACAGAGACTTTTATGACACGCGTTC -AATTTAAACACCACCATCATCACCATCATCCTGACTAGTCTTTCAGGCGATGTGTGCTGGAAGACATTCAGATCTTCCAG -TGGTGCATGAACGCATGAGAAAGCCCCCGGAAGATCACCTTCCGGGGGCTTTTTTATTGCGCGGTTGATAACGGTTCAGA -CAGGTTTAAAGAGGAATAACAAAATGACAGACAACACTCGTTTACGCATAGCTATGCAGAAATCCGGCCGTTTAAGTGAT -GACTCACGCGAATTGCTGGCGCGCTGTGGCATTAAAATTAATCTTCACACCCAGCGCCTGATCGCGATGGCAGAAAACAT -GCCGATTGATATTCTGCGCGTGCGTGACGACGACATTCCCGGTCTGGTAATGGATGGCGTGGTAGACCTTGGGATTATCG -GCGAAAACGTGCTGGAAGAAGAGCTGCTTAACCGCCGCGCCCAGGGTGAAGATCCACGCTACTTTACCCTGCGTCGTCTG -GATTTCGGCGGCTGTCGTCTTTCGCTGGCAACGCCGGTTGATGAAGCCTGGGACGGTCCGCTCTCCTTAAACGGTAAACG -TATCGCCACCTCTTATCCTCACCTGCTCAAGCGTTATCTCGACCAGAAAGGCATCTCTTTTAAATCCTGCTTACTGAACG -GTTCTGTTGAAGTCGCCCCGCGTGCCGGACTGGCGGATGCGATTTGCGATCTGGTTTCCACCGGTGCCACGCTGGAAGCT -AACGGCCTGCGCGAAGTCGAAGTTATCTATCGCTCGAAAGCCTGCCTGATTCAACGCGATGGCGAAATGGAAGAATCCAA -ACAGCAACTGATCGACAAACTGCTGACCCGTATTCAGGGTGTGATCCAGGCGCGCGAATCAAAATACATCATGATGCACG -CACCGACCGAACGTCTGGATGAAGTCATCGCCCTGCTGCCAGGTGCCGAACGCCCAACTATTCTGCCGCTGGCGGGTGAC -CAACAGCGCGTAGCGATGCACATGGTCAGCAGCGAAACCCTGTTCTGGGAAACCATGGAAAAACTGAAAGCGCTGGGTGC -CAGTTCAATTCTGGTCCTGCCGATTGAGAAGATGATGGAGTGATCGCCATGAGCTTTAACACAATCATTGACTGGAATAG -CTGTACTGCGGAGCAACAACGCCAGCTGTTAATGCGCCCGGCGATTTCCGCCTCTGAAAGCATTACCCGCACTGTTAACG -ATATTCTCGATAACGTGAAAGCACGCGGCGATGAGGCCCTGCGGGAATACAGCGCGAAGTTTGATAAAACCACGGTTACC -GCGCTGAAGGTGTCTGCAGAGGAGATCGCCGCCGCCAGCGAACGCCTGAGCGACGAGCTAAAACAGGCGATGGCGGTGGC -AGTAAAGAATATTGAAACCTTCCACACTGCGCAAAAACTGCCGCCGGTAGATGTAGAAACGCAGCCAGGCGTGCGTTGCC -AGCAGGTCACGCGTCCGGTAGCTTCAGTTGGGTTGTATATTCCTGGCGGCTCCGCCCCGCTCTTCTCAACGGTATTAATG -CTGGCGACTCCGGCGAGTATTGCGGGCTGTAAAAAAGTGGTGCTGTGCTCACCGCCGCCGATTGCCGATGAGATCCTTTA -TGCGGCGCAGCTGTGCGGTGTGCAGGACGTGTTTAACGTCGGCGGCGCACAGGCCATTGCCGCACTGGCGTTTGGTACGG -AATCTGTGCCAAAAGTGGACAAAATCTTCGGGCCGGGTAACGCCTTTGTCACCGAAGCGAAACGTCAGGTGAGCCAGCGT -CTGGACGGTGCGGCGATCGATATGCCCGCAGGCCCGTCGGAAGTGCTGGTGATTGCTGACAGCGGCGCTACGCCGGATTT -CGTGGCTTCTGATTTGCTCTCTCAGGCTGAACACGGCCCGGACTCACAGGTGATTTTACTGACGCCCGCTGCTGATATGG -CGCGTCGCGTTGCCGAGGCCGTCGAACGCCAACTGGCAGAACTGCCGCGTGCCGAAACCGCCCGCCAGGCACTGAACGCC -AGCCGCCTGATCGTGACTAAAGATTTAGCGCAGTGCGTGGAGATCTCCAACCAGTACGGCCCGGAGCACCTGATCATTCA -GACCCGCAACGCCCGTGAACTGGTCGATAGCATCACCAGCGCCGGTTCGGTATTTCTTGGTGACTGGTCACCGGAATCGG -CAGGTGATTACGCCTCCGGCACCAACCACGTTCTACCGACTTACGGTTACACCGCCACCTGTTCCAGCCTCGGGCTGGCA -GATTTCCAGAAGCGCATGACCGTACAGGAACTGTCGAAAGAGGGGTTCTCCGCGCTGGCTTCAACCATAGAAACACTGGC -CGCCGCCGAGCGCCTGACCGCCCACAAAAATGCCGTTACTTTGCGTGTTAACGCCCTTAAGGAGCAAGCATGAGCACCGT -GACTATTACCGATTTAGCGCGTGAAAACGTCCGCAACCTGACGCCGTATCAGTCGGCGCGTCGTCTGGGCGGTAACGGCG -ATGTCTGGCTGAACGCCAACGAATACCCCACTGCCGTGGAGTTTCAGCTTACTCAGCAAACGCTCAACCGCTACCCGGAA -TGCCAGCCGAAAGCGGTGATTGAAAATTACGCGCAATATGCAGGCGTAAAACCGGAGCAGGTGCTGGTCAGCCGTGGCGC -GGACGAAGGTATTGAACTGCTGATTCGCGCTTTTTGCGAACCGGGTAAAGACGCCATCCTCTACTGCCCGCCAACGTACG -GCATGTACAGCGTCAGCGCCGAAACGATTGGCGTCGAGTGCCGCACAGTGCCGACGCTGGACAACTGGCAACTGGACTTA -CAGGGCATTTCCGACAAGCTGGACGGCGTAAAAGTGGTTTATGTTTGCAGCCCCAATAACCCGACCGGGCAACTGATCAA -TCCGCAGGATTTTCGCACCCTGCTGGAGTTAACCCGCGGTAAGGCGATTGTGGTTGCCGATGAAGCCTATATCGAGTTTT -GCCCGCAGGCATCGCTGGCTGGCTGGCTGGCGGAATATCCGCACCTGGCTATTTTACGCACACTGTCGAAAGCTTTTGCT -CTGGCGGGGCTTCGTTGCGGATTTACGCTGGCAAACGAAGAAGTCATCAACCTGCTGATGAAAGTGATCGCCCCCTACCC -GCTCTCGACGCCGGTTGCCGACATTGCGGCCCAGGCGTTAAGCCCACAGGGAATCGTCGCCATGCGCGAACGGGTAGCGC -AAATTATTGCAGAACGCGAATACCTGATTGCCGCACTGAAAGAGATCCCCTGCGTAGAGCAGGTTTTCGACTCTGAAACC -AACTACATTCTGGCGCGCTTTAAAGCCTCCAGTGCGGTGTTTAAATCTTTGTGGGATCAGGGCATTATCTTACGTGATCA -GAATAAACAACCCTCTTTAAGCGGCTGCCTGCGAATTACCGTCGGAACCCGTGAAGAAAGCCAGCGCGTCATTGACGCCT -TACGTGCGGAGCAAGTTTGATGAGTCAGAAGTATCTTTTTATCGATCGCGATGGAACCCTGATTAGCGAACCGCCGAGTG -ATTTTCAGGTGGACCGTTTTGATAAACTCGCCTTTGAACCGGGCGTGATCCCGGAACTGCTGAAGCTGCAAAAAGCGGGC -TACAAGCTGGTGATGATCACTAATCAGGATGGTCTTGGAACACAAAGTTTCCCACAGGCGGATTTCGATGGCCCGCACAA -CCTGATGATGCAGATCTTCACCTCGCAAGGCGTACAGTTTGATGAAGTGCTGATTTGTCCGCACCTGCCCGCCGATGAGT -GCGACTGCCGTAAGCCGAAAGTAAAACTGGTGGAACGTTATCTGGCTGAGCAAGCGATGGATCGCGCTAACAGTTATGTG -ATTGGCGATCGCGCGACCGACATTCAACTGGCGGAAAACATGGGCATTACTGGTTTACGCTACGACCGCGAAACCCTGAA -CTGGCCAATGATTGGCGAGCAACTCACCAGACGTGACCGTTACGCTCACGTAGTGCGTAATACCAAAGAGACGCAGATTG -ACGTTCAGGTGTGGCTGGATCGTGAAGGTGGCAGCAAGATTAACACCGGCGTTGGCTTCTTTGATCATATGCTGGATCAG -ATCGCTACCCACGGCGGTTTCCGCATGGAAATCAACGTCAAAGGCGACCTCTATATCGACGATCACCACACCGTCGAAGA -TACCGGCCTGGCGCTGGGCGAAGCGCTAAAAATCGCCCTCGGAGACAAACGCGGTATTTGCCGCTTTGGTTTTGTGCTAC -CGATGGACGAATGCCTTGCCCGCTGCGCGCTGGATATCTCTGGTCGCCCGCACCTGGAATATAAAGCCGAGTTTACCTAC -CAGCGCGTGGGCGATCTCAGCACCGAAATGATCGAGCACTTCTTCCGTTCGCTCTCATACACCATGGGCGTGACGCTACA -CCTGAAAACCAAAGGTAAAAACGATCATCACCGTGTAGAGAGTCTGTTCAAAGCCTTTGGTCGCACCCTGCGCCAGGCCA -TCCGCGTGGAAGGCGATACCCTGCCCTCGTCGAAAGGAGTGCTGTAATGAACGTGGTGATCCTTGATACCGGCTGCGCCA -ACCTGAACTCGGTGAAGTCTGCCATTGCGCGTCACGGTTATGAACCCAAAGTCAGCCGTGACCCGGACGTCGTGTTGCTG -GCCGATAAACTGTTTTTACCCGGCGTTGGCACTGCGCAAGCGGCGATGGATCAGGTACGTGAGCGCGAGCTGTTTGATCT -CATCAAAGCCTGTACCCAACCGGTGCTGGGCATCTGCTTAGGGATGCAACTGCTGGGGCGGCGCAGCGAAGAGAGCAACG -GCGTCGACTTGCTGGGCATCATCGACGAAGACGTGCCGAAAATGACCGACTTTGGTCTGCCACTGCCACATATGGGCTGG -AACCGCGTTTACCCGCAGGCAGGCAACCGCCTGTTTCAGGGGATTGAAGACGGCGCGTACTTTTACTTTGTTCACAGCTA -CGCAATGCCGGTCAATCCGTGGACCATCGCCCAGTGTAATTACGGCGAACCGTTCACCGCGGCGGTACAAAAAGATAACT -TCTACGGCGTGCAGTTCCACCCGGAGCGTTCTGGTGCCGCTGGTGCTAAGTTGCTGAAAAACTTCCTGGAGATGTGATGA -TTATTCCGGCATTAGATTTAATCGACGGCACTGTGGTGCGTCTCCATCAGGGCGATTACGGCAAACAGCGCGATTACGGT -AACGACCCGCTGCCGCGATTGCAGGATTACGCCGCGCAGGGTGCCGAAGTGCTGCACCTGGTGGATCTGACCGGGGCAAA -AGATCCGGCTAAACGTCAAATCCCGCTGATTAAAACCCTGGTCGCGGGCGTTAACGTTCCGGTGCAGGTTGGCGGCGGCG -TGCGTAGCGAAGAAGATGTGGCGGCGTTACTGGAAGCGGGCGTTGCGCGCGTAGTGGTCGGCTCCACCGCGGTGAAATCA -CAAGATATGGTGAAAGGCTGGTTTGAACGCTTCGGTGCCGATGCCTTAGTGCTGGCGCTGGATGTCCGTATTGACGAGCA -AGGCAACAAGCAGGTGGCAGTCAGCGGCTGGCAAGAGAACTCGGGCGTTTCACTGGAACAACTGGTGGAAACCTATCTGC -CCGTCGGCCTGAAACATGTGCTGTGTACCGATATCTCGCGCGACGGCACGCTGGCAGGCTCTAACGTCTCTTTATATGAA -GAAGTGTGCGCCAGATATCCGCAGGTGGCATTTCAGTCCTCCGGCGGTATTGGCGACATTGATGATGTGGCGGCCCTGCG -TGGCACTGGTGTGCGCGGCGTAATAGTTGGTCGGGCATTACTGGAAGGTAAATTCACCGTGAAGGAGGCCATCGCATGCT -GGCAAAACGCATAATCCCATGTCTCGACGTTCGTGATGGTCAGGTGGTGAAAGGCGTACAGTTTCGCAACCATGAAATCA -TTGGCGATATCGTGCCGCTGGCAAAACGCTACGCTGAAGAAGGCGCTGACGAACTGGTGTTCTACGATATCACCGCTTCC -AGCGATGGCCGTGTGGTAGATAAAAGCTGGGTATCTCGCGTGGCGGAAGTGATCGACATTCCGTTTTGTGTGGCGGGTGG -GATTAAGTCTCTGGAAGATGCCGCGAAAATTCTTTCCTTTGGCGCGGATAAAATTTCCATCAACTCTCCTGCGCTGGCAG -ACCCAACATTAATTACTCGCCTGGCCGATCGCTTTGGCGTGCAGTGTATTGTGGTCGGTATTGATACCTGGTACGACGCC -GAAACCGGTAAATATCATGTGAATCAATATACCGGCGATGAAAGCCGCACCCGCGTCACTCAATGGGAAACGCTCGACTG -GGTACAGGAAGTGCAAAAACGCGGTGCCGGAGAAATCGTCCTCAATATGATGAATCAGGACGGCGTGCGTAACGGTTACG -ACCTCGAACAACTGAAAAAAGTGCGTGAAGTTTGCCACGTCCCGCTGATTGCCTCCGGTGGCGCGGGCACCATGGAACAC -TTCCTCGAAGCCTTCCGCGATGCCGACGTTGACGGCGCGCTGGCAGCTTCCGTATTCCACAAACAAATAATCAATATTGG -TGAATTAAAAGCGTACCTGGCAACACAGGGCGTGGAGATCAGGATATGTTAACAGAACAACAACGTCGCGAACTGGACTG -GGAAAAAACCGACGGACTTATGCCGGTGATTGTGCAACACGCGGTATCCGGCGAAGTGCTAATGCTGGGCTATATGAACC -CGGAAGCCTTAGACAAAACCCTCGAAAGCGGCAAAGTCACCTTCTTCTCGCGCACTAAACAGCGACTGTGGACCAAAGGC -GAAACGTCGGGCAATTTCCTCAACGTAGTGAGTATTGCCCCGGACTGCGACAACGACACGTTACTGGTGCTGGCGAATCC -CATCGGCCCGACCTGCCACAAAGGCACCAGCAGTTGCTTCGGCGACACCGCTCACCAGTGGCTGTTCCTGTATCAACTGG -AACAACTGCTCGCCGAGCGCAAATCTGCCGATCCGGAAACCTCCTACACCGCCAAACTGTATGCCAGCGGCACCAAACGC -ATTGCGCAGAAAGTGGGTGAAGAAGGCGTGGAAACCGCGCTGGCAGCAACGGTACATGACCGCTTTGAGCTGACCAACGA -GGCGTCTGATTTGATGTATCACCTGCTGGTGTTGTTGCAGGATCAGGGGCTGGATTTAACGACGGTAATTGAGAACCTGC -GTAAACGGCATCAGTGAGTTGCGGGGTAAGCGGATGCGATATTGTTGCCGCATCCGGCAAAAAAACGGGCAAGGTGTCAC -CACCCTGCCCTTTTTCTTTAAAACCGAAAAGATTACTTCGCGTTGTAATTGCGTAGAGCATTACGCCCCAGCACAATCCC -CGCGCCAACCATGCCACCCAGCAGCACCGCCAGAATCAAGGTAATTGCCTTTTTCGGGCTATCACGACGAATAGGTAACA -TCGGTTTCATCACATAACGGTAAGCATGAATATCAAGATCATCAACTTTTAAGCTTTCGATATCCAGCAGGTTTTGACGA -GTCTGATAGTAGTTTGGCGAGAACACCAACGGACGGGTCGCCTCATGCTTAATCATCGACTCCAGCGCTTCGCTCCCCAA -AAGGAACAACGTATCTTGTGTGATATCTTCGCCAGTCTGTTGAATCTGCGGTTTTGTCACCTGCGCCTGATTCGCATACT -GCAACGCTTCCTGAATCTGACGGATACGCAGATCTTTCTGCTCCTGCGCGACTACTTCCTGCGTTCTTAAAGAGTCCTGC -AAGTTTTTCCGTCCCAGAGCAATGTTGTCTTTGAGATCCTTTTCTAGCTCTTGATTCACTTTATCGTCAACTTGCTGAAT -GTATTGGGCCAACTTCATTTGTGCGCCCTCTGCAGTTTGCCCAACATAAGAAACAGTCAATGGTAATTGCTGGTTCTTAA -CAGAAGGTTCGATGGTAAGTTTTTCTCGTTCTTCCTGATTATCCAGCGTTTCTGCTAATGCAGAGAAGGCAGAACTGAAG -CGACCAATTAACGTCTCCTGCAAATCCGATACTTTCGGTGCAGCCTGACCATAGATAACATTCATGGCATTGTTATAGCC -AGCAATTTGCCCCACGTCGGGCTGAGTGATAATTGCTGTTGACGTCCATTTCTCCTTCGCTACTGCCAAATATCCAATAG -CCAGGGCAATAGCCACAATGACGGAAATGATGATTGTCATCTTGCCACGCCACAACTGCACTAGTAAATCAATCAAATCA -ATCTGTTCCGGGTCATGGTTTTGCCCAGAAACATTATTATTTTCTACTCTCATCATTACCCTAACTGACGGAAATTTCCA -AGTCCGCATAGTTTAGCGATAATCCTCGTGAATGCTATAGGATAAGTGATAAAAATAATGAATTGTTGTGTAAGTAACAA -AAGACAATCAGGGCGTAAATAGCCCTGATAACAAGATGTTAGTCGCTGCCAAAGAGATCGCGGGTGTATACCTTATCTGC -CACATCCTTAAGCTCTTCTGCCATTCGGTTAGAGATAATGACGTCGGCTTGTTGTTTGAAGGTGGCGAGATCACGTTCCA -GGCGAGAGTTGAAGAATGAGTCTTCTTTCATCACTGGCTCGTAGATGATCACTTCAACACCTTTCGCCTTGATACGTTTC -ATAATCCCCTGAATAGAAGACGCACGGAAGTTATCTGAACCGCTCTTCATAATCAGACGATAAATACCCACCACTTGCGG -CTTGCGTGACAAAATGGCATCGGCAATAAAATCTTTACGCGTGCGGTTAGCATCGACAATTGCCGAGATCAGGTTATTCG -GCACAGACTGGTAGTTCGCCAGTAACTGCTTGGTATCTTTCGGCAGACAATAACCACCATAACCAAACGACGGATTGTTG -TAATGGTTGCCAATACGTGGGTCGAGACAAACGCCTTCGATTATTTGACGGGAATTCAGACCTAAACTTTCTGCATAGCT -ATCCAGTTCGTTAAAGTACGCCACGCGCATCGCCAGGTAGGTGTTTGCAAAAAGTTTAATCGCTTCTGCTTCAGTGGAGT -CGGTAAACAGCATCGGGATATTTTGCTTAATCGCGCCTTCCTGTAACAGAGCAGCGAAACGTTCTGCGCGTTCTGAACGC -TCACCGATGACAATACGTGAAGGATGGAGATTATCGTAAAGGGCTTTACCCTCACGGAGAAATTCCGGGGAGAATATAAT -ATTTTCAGTGCGATATTTCTTATGCATCGCTGCGGTAAAACCAACGGGAACCGTTGATTTGATGACCATAACCGCATAAG -GATTTATCTCAACTACGTCTTTAATTACTGATTCTACACTGGATGTATTGAAATAATTAGTTTTAGGATCATAGTCGGTT -GGAGTGGCGATGATGACATAATCAGCATCCCGGTAGGCTTCATTTTTATCTAATGTGGCATTAAAGTGTATTTTATCTGA -TTGCAAAAACTGCTGAATTTCCTTATCAACAATAGGAGATATCCGATCATTCAGCATAGCAACGCGTGACGGTAAAATAT -CTAATGCCACAACCTCATGATTTTGTGCGATTAGAAGCCCGTTTGACAAGCCTACATAGCCAGTACCGGAAATGGTGATT -TTCATTTCATGCTCTCAGAATTAACTTAACTGTGAATCATGATGTTTTTAGCATCCTGATAAGAGCTAAAAGTTTTAACG -CTACGTTGTTCGATGGTCAACGCAACGAAAAACAATTCAGATTTTCTTTATAAGAATAGCTGATATTTATTAAGTTAATA -TTAAGCAGTGAAATTTAGTCTATAAGATATTTGGCAAAAAAAAGCCCGGTGCAATATACGCCGGGCCTCAATTTTATTGT -TGGTTAAATCAGATTAATCCAGCCATTCGGTATGGAACACACCTTCTTTATCAATACGCTTATAAGTATGCGCACCAAAA -TAGTCACGCTGTGCCTGGATCAGGTTCGCAGGCAGAACAGCAGCACGGTAGCTGTCGTAATAGGCAACCGCTGCGGAGAA -GGTCGGAACCGGAATACCGTTCTGTACTGCATAAGCAACGACATCACGCAGCGCCTGCTGGTAGTCATCGGCAATTTGCT -TGAAGTACGGAGCCAGCAACAGGTTAGCGATCTGTGGATTTTCGGCATAAGCATCGGTGATTTTCTGCAGGAACTGCGCA -CGGATGATGCAGCCAGCACGGAAAATCTTCGCGATTTCGCCGTAGTTCAGATCCCAGTTGTACTCTTCAGACGCAGCACG -CAGCTGAGAGAAGCCCTGGGCGTAAGAAACGATTTTGCCCAGATACAGCGCACGACGAACTTTTTCGATGAACTCAGCCT -TGTCGCCTGCTGGCTGTGCTTGCGGACCAGAGAGAACTTTAGATGCGGCAACACGCTGATCTTTCAGAGAAGAGATATAA -CGTGCAAACACAGACTCGGTAATCAGCGACAGCGGTTCGCCGAGATCCAGCGCGCTCTGGCTGGTCCATTTACCGGTACC -TTTGTTAGCCGCTTCATCCAGGATCACATCAACCAGGTAGTTACCGTCTTCATCTTTTTTGGTGAAGATATCTTTGGTGA -TGTCGATCAGGTAACTGCTCAGTTCACCGTTATTCCACTCGGTAAAGGTCTGCGCCAGTTCTTCGTTGGTGAGGTTCAGG -CCACCTTTAAGCAGAGAATAGGCTTCAGCAATCAGCTGCATATCGCCGTATTCAATACCGTTGTGAACCATCTTCACATA -GTGACCTGCGCCATCGGCACCAATATAGGTAACGCATGGTTCACCGTCTTCAGCTACGGCGGCGATTTTGGTCAGGATCG -GTGCTACCAATTCATAGGCTTCTTTCTGGCCACCAGGCATAATAGAAGGACCTTTCAGCGCCCCCTCTTCACCGCCAGAA -ACACCGGTACCGATGAAGTTAAAGCCCTCTGCTGAAAGCTCACGATTACGACGAATAGTGTCCTGGAAGAAGGTGTTACC -ACCATCAATGATGATGTCTCCTTTATCGAGATATGGTTTGAGGGAATCAATAGCAGCATCCGTGCCTGCACCTGCTTTCA -CCATTAACAGGATGCGACGAGGCGTTTCCAGAGATTCGACAAACTCTTTCACCGTATAGTAAGGAACCAGTTTCTTGCCT -GGATTTTCGGCAATCACTTCTTCCGTCTTCTCACGGGAACGGTTGAAAATAGAGACGGTATAACCACGGCTTTCGATGTT -GAGCGCAAGGTTGCGTCCCATCACTGCCATACCGACTACGCCGATCTGTTGCTTGGACATTACATACTCCTGTCAGGTGT -GATCACCGCGCTGAATGCTCGCGGCCTGGAATGTTCGCAAATAAGTATACAAAGTACTTATTAAAGTATAAATAGCTTAT -CCATGCTTATATGCTTACGGCTTTATATTACGGGTGAAAAACTGATGAAATTCGATCAAAGTTGCGATTTGATAAAATAC -GTTTTCTGGCTAAATATCTAAAAGTACTTTTTAAGTGCCATCTGAAGGCTTTTGAAAAAAAACTTCGATTGTCATGATGA -GCATAATGTATCGCATGAAAAGCGGGAACATAATGAAGTCTGACACCAGCCAGGCTAAGCCTCAAGCACAGGTCAATATC -TTCACAGTACATAAAGTAACCTTGATCGAAGCCATTTACACGCACAAAATCTGAAAAACGTACCAGCATAAATGATCCTG -CGCACCAATCAACAACCGTATCAGAATAGATACTTTCTTTAGGAATTTTTGTTTTATTAAGGAAGGTGCGAATAAGCGGG -GAAATTCTTCTCGGCTGACTCAGTCATTTCATTTCTTCATGTTTGAGCCGATTTTTTCTCCCGTAAATGCCTTGAATCAG -CCTATTTAGACCGTTTCTTCGCCATTTAAGGCGTTATCCCCAGTTTTTAGTGAGATCTCTCCCACTGACGTATCATTTGG -TCCGCCCGAAACAGGTTGGCCAGCGTGAATAACATCGCCAGTTGGTTATCGTTTTTCAGCAACCCCTTGTATCTGGCTTT -CACGAAGCCGAACTGTCGCTTGATGATGCGAAATGGGTGCTCCACCCTGGCCCGGATGCTGGCTTTCATGTATTCGATGT -TGATGGCCGTTTTGTTCTTGCGTGGATGCTGTTTCAAGGTTCTTACCTTGCCGGGGCGCTCGGCGATCAGCCAGTCCACA -TCCACCTCGGCCAGCTCCTCGCGCTGTGGCGCCCCTTGGTAGCCGGCATCGGCTGAGACAAATTGCTCCTCTCCATGCAG -CAGATTACCCAGCTGATTGAGGTCATGCTCGTTGGCCGCGGTGGTGACCAGGCTGTGGGTCAGGCCACTCTTGGCATCGA -CACCAATGTGGGCCTTCATGCCAAAGTGCCACTGATTGCCTTTCTTGGTCTGATGCATCTCCGGATCGCGTTGCTGCTCT -TTGTTCTTGGTCGAGCTGGGTGCCTCAATGATGGTGGCATCGACCAAGGTGCCTTGAGTCATCATGACGCCTGCTTCGGC -CAGCCAGCGATTGATGGTCTTGAACAATTGGCGGGCCAGTTGATGCTGCTCCAGCAGGTGGCGGAAATTCATGATGGTGG -TGCGGTCCGGCAAGGCGCTATCCAGGGATAACCGGGCAAACAGACGCATGGAGGCGATTTCGTACAGAGCATCTTCCATC -GCGCCATCGCTCAGGTTGTACCAATGCTGCATGCAGTGAATGCGTAGCATGGTTTCCAGCGGATAAGGTCGCCGGCCATT -ACCAGCCTTGGGGTAAAACGGCTCGATGACTTCCACCATGTTTTGCCATGGCAGAATCTGCTCCATGCGGGACAAGAAAA -TCTCTTTTCTGGTCTGACGGCGCTTACTGCTGAATTCACTGTCGGCGAAGGTAAGTTGATGACTCATGATGAACCCTGTT -CTATGGCTCCAGATGACAAACATGATCTCATATCAGGGACTTGTTCGCACCTTCCTTAATCCCTAACATAAATGACACAA -TAAAATCAGAAAGCACAGGAAATTTTCTTACGGAATAATCATGTAAAGATTTCGCTTCATCTCGGAACAGGCATAATGTA -CTAAAAGCATAACGCTTACTTTCGACATATTTAATATATGTCAGCAAATCATCATGCTTCATGATGATATCGGGATTCAA -AAACAAAATGTAATCATCATCTGCGGGTCTATATTTTTCCTTTACATACGCCACCGCAATATTATTATTATGACCAAAGC -CGTATACACCTCCACTAATATAGTCCAGGCCTGCATAATGCTGGCATATTTGTTTCAATAATAGAGAGTCTTTGTTGTCG -CGTACGATAATCTTGTAGTGCTCATCGTCAGCATTAAGATTTTCGAGTAATTTTTTGATGTAGTCTTCATGTCCGTGGGA -AACGATTATTATATATACCATTTCAATGTTCTTCAGTAATAAAATTAACTAGTTCATCAAACCCAACTAATACATTTTCA -TTACGATAAATGAAATTTGCATCAGAGATATCTTTTTTGAGGTTACCTTTTTTGAAGTCAATAATAAGTTTAACTAACAT -GTCATCGTTATTAGAATCAAAAAAAGCTTTCTTTTCATAACTACCAAGAGTTTCTCTAGTAAATGGGAAATCTGATGCTA -ATACCCACTTACCTCGCTCTTTAGCTTCAGACAACGGCAATCCCCATGTTTCTAACCTAGAGGGAAAACAAACTATATCT -GAAATATTATAACAATGATCGATTTTTTCTTTATCCAAGTACCCGAGGAAATGAACATTATCCAGTCCTTCTGCAAGACT -GATAATATATTTTGCATACGCATTTTCTGTACCACTGATAGTAAGCAGAAATTTAATATTGGATTGTTCTTTCAATTTCC -TTGCTGCACTAATAATAAGCTCGTAATTTTTAAATACTCGTGGAACAGCAGGGTAAAATATTGTCAACTCAGAAGGGTTA -TTCTTAAATTGAGAATCATCATCAGTAAGTTGGCTTTTATCAGATAATTTAATTTCTGGCCGACTGACAATGATGTTATT -TATAGAATATTTCTTGATAAATTTTTCTTTCATCCAGAATTGTTGAACAAACACTGCAGTATTTTTTTTAATGTTTATTT -TATATATCAGCCCGTATAGCATTTTAAATAAGAAAAAGCTAGGCTCCATAAGAATTTCACGGAATAAAATTCCTTTATAA -AAAGGTGCAGGGTTATGACAATACACATATCTTTTTTTAGTGACGACATTGGCCGTAATATCATGCAGACAAATCCAATG -CGTAGCATTCAGCTCTTTTGAAAGTTTTTTACAAACTACATATTCAAAGTGCAAACGTTTTAGCCACGACCCTTTAACCT -CAGGAAACTCAATGAATTTAACCCATGGATAACTTTCTTTTAACTCTTTAGCAGAATGGACTAATGCGATAAAACTGACA -TTTTCTTTATTATTAGTTGCTGCCAAAAATTTTTTCAAAATGGTAAATGGACCGCCAGTGGTAAAATTGACCGCAGAAAC -AACGACTATGCTTTTTCCCATAATTTGGTCTCATGATTGTATTTCTTTATGATTTTTGCTGGTACTCCCGCAATGACAGT -ATTTTCGGGAATAGAACCTCTAACAACAGAATTGGCGCCGACTACGACTCCATTACCAATAATTGTTCCAGGCAAAACCG -TCACATTCTCACCCAACCAAACCCTCTGGCCAATTACAACAGCTGAAGATTCCAACGTGCGCATGTCTGGAGGTATATTT -GGCGAACTCATTGGATCAGAGTGCTTAAAGGAACCGTGATTATGATCGGTAATAAATACTTTACTTGCAATAAGCGTATC -CCGACCTATCGTAACGCTCTCAATTGAGGCGATATGAACATAGTCGTTAACTTGCACATTATCGGAAAAAAAAATCACGC -CACGTCCAAATGCATCCAGCCTGAGACCGACTCCACTTGTGAAATTTTCACCAAAATTAATGCTACCATCATTGCGAATA -TAGCAGGGAAATCGAATAATTCTACAGTTCCGGTAAAATACACGAGTCAATAAGACATCTCTAACAAGCCGAATAAAACC -ACAGAGACCATATCGTTTAGCGAGTTTTAAGATCATCGATCACCTCTTCAAGAACATCCCTGAAGTAACTTCCTGTTCGA -ATTTTCTGAGAAATAATTTTTGTATTCTCACTAATTTGCTTATAAGTTTCTATTGTCATGGAGTCAACAATCTCTTGCAT -TTCTTTGATTGATCCCACTGCATATCCTATTCTATTATCTACAATGAAATCCGCAAGGGCGGCTTTATCCCATATAAATA -CTGGAAGTTCCATTGAAAGATAAAGAGATGTCTTATGAGGGTTATTAAACTTTAAATAGTCGCCAAAGGCACCACTACAG -GTTTCGACAGAATCTCCATCCCAAATGAGTCCAAATTGCATGCCTGGGAGGTTAATCTTTTCCGGAGATTGAGCATCAAA -ACTTCCAAGATATTTAGGATTATCTTTATTTTCATAGTTGACACCAAAGAGAGTAAAATCGCATCCTTCAGTATATATGA -AAGAACATTTATGCCTAGAAAGGTTGCCAGCATATATGACCCCTCGTTGCTTATCCGTAACATCTCGATGCTCCACATCA -GATGAGACGAGGTAATCAAATATTTTTATGTCTTTGATTTTATCCTGAGACATATATTTACTAAGGTACTTTGTCATTTG -TGGATTGTGACTTATGACCATATCACAGGTAGCAAGCCGCACAGAATCACTACCCCCTCCTCCTCTTAATTCATCAATAT -CATGAATCAGAGGTACTATTCTAAATTTTAGAAGGCGGTGAAAGAATGACAATATATGCCAAAATGGTTTGGCCATCGGG -AAATTGAAAATTAAAACATCTTTATTTTCAAGACCGCAGAGAAATGTACTAAGCTTAACAGAACTAATAATTCTCTGGAC -TACTCCACCCCATAGAGGAATGTTAACAACAGAAATGTTTTCATAATCTGAAGCAATGTCCAGTGCATCTTTTCTTGCTT -TAAATCCAGCATCGCGTCTAGAGAAATTTAAATCATTCAAAAAATACATTTTCACTTTATTTTCTGGGCCTTAAGAAATT -GAGAGAATACTATGATACAAAGAGTTATTTGTATCCAACTGCTAATATTAGTCATGAAGCTTTCATGATAAAAAATGAAA -GAAAAGGTATAAATAAAATATGAATAAAATATTTTCACAGATATGTAATTTCGAGACAATCTCCATAAAACACCTGAAAT -ACAGCCATGAATAACCATCATCAAATAGCTTAGCTCCGCGGAAATATAAACATAATCCGAAAAAGCAGTATAAACATTTG -TTGGCAAACCCACCCACACAAATTCTTTATGCAACGACATAGAGACTCCACCTGTTAATAGCCCCATCAGCCTTTCAAAA -AACCAAAAGACATGAGAACTGGCAGAGTTAGATACTTGCTGAAAATAAAACTCCTGAAACGCGATTATAGGGCTGACCAA -ATACATGGATAGATAATATGCCATCCCCCCAGGCAGTCCACGTAAAAAGAGCATATACAAGGAGAATAGAACACCTACAG -CTGTAATAAGATAAACATAATGTTTTACTCTATTAACACCTACGATGAATGCATAAGAGATGATAACCATAAAGACAATT -TGCTTACCAGTATTCAGTATAATTGCAAAGATGAATACAATAAAAACAAGTAAAGTAAATGTTTTACTTACCTTTGTATT -AGTAAATTTTTTAGACCAAATAAATAAAGCAAAAGTAGTTAGAATGATTGGCTGCATGTATGCTGAGAAATTTCTTGATG -TGTCTTCAACATCAGCATCTCTTATCAAATTCATATAGCTAAGTAAGCTAGTCCCGAACTGGTAGTTACTTAACCTCATG -CATATATATATCATCGAAAAAGAAATAACTAACAAGCCTACATTATGCACTTTCTTCGATGGTATGCTATAAATAGCATT -ATTGACTTTTCTGATATTTAGATCTAATACACTTTCCGTCAATAAACATGACAGGGTAAATGTCAAAACATTGCAAAGTA -GAAAAATCAACGTAGCGTCATTTAACTGAAAAGCATATATATCTGACGTTATTTCATATCCCAATAAGACCAGTGCGAAG -ATGATATTAACGCATACGGCTGGATAAAATATATCCTTCTTAAGATATAAACAGATAAATGCTGTAATGAGAAAGACACT -AATTACAAGATAGATCATTAATCCGTACTCATTATATTTTTCACTTGATAAAGAGCGGCAGATATCACTTGATGCATATC -ATAATATTTATACTCGGCCAAACGCCCGCCAAATATAACCTTGTCTTCTCTGCTAGCTAACTCTCTATATTTCTTAAAAA -GCTCCATGTTTTTATTATCATTAACTGGATAGTAGGGTTCGTCGCCAACTTTCCACTCTAATGGATATTCTTTTGTAACA -ACCGTATGCTTTGTCTCAACATAGTCAAAATGTTTATGCTCAATTATTCTGGTATATGGTACATTAGCATCAGTGAAATT -TATTACTGCATTCCCTTGGAAGTTTGGAAATTCATGGCGTTCCGTCTCAAATTTTAAAGAGCGATATTCTAACGCTCCAA -ACCTATAGTCGAAGTACTGATCAATGGGTCCAGTGTAGATGATTCTATGGGCTTTACTCGCTAGAGAATCTTTGTCTTTC -AAAAAATCAATGCCTAATTTTACGTCCACACCTTCAAGCATTTTTTCAATAAGCTTAGTGTAGCCTCCCACCGGAATACC -TTGATAGCGATCGGAAAAATAATTGTTATCAAACGTAAATCTCACTGGGATTCGCTTAATAATAAATGCAGGCAATTCTT -TTGCACTTCTTCCCCACTGCTTCTCCGTATAACCCTTTATCAATGCTTGGTATAAGTCCTCCCCAACTAATGAAATCGCC -TGCTCCTCCAAATTTTCAGGTACCTTGTCACCATACTTTTTTTTCTGAGCATTAATGATATTTTGAGCTTCTTGAGGATC -TTTAACTCCCCACATTTGGTGGAAAGTATTCATATTAAAAGGAAGGTTGAATAATTTGTCTTTATAAATCGCCAGTGGAG -AATTAGTAAAACGATTAAATTCTACTAAATCATTAACGTAATCCCATATATATTTATCATTGGTATGAAAAATATGTGCA -CCATATTTATGAATCTGGATACCCTCACAGTCCTCTGTGTACGCATTTCCACCGATATGATTTCTTTTCTCAATCACTAA -AACTTTTTTGTTTAGCTTTTTTAACTCATTCGCACAAACGGCACCAAACAAACCAGAACCAACAATGATATAATCGTACA -TAAAATCCTCAGCAAACCAGTAATTTATTATTTCTTACGAACATCAGCATGAGTGACGTAACTAAGCACTCTGTTGCAAG -CAATGTTATTGCTGCACCAATCTCTTTAAAAAGAGTTGTTAGCGGAAAAATCAACAACAAACTCAACAAACCCGCAGCGA -TTAAAATCTTACTGAATTCTTTCTTATAATTATGGGTCAGCATAACTTGAATGCCATAGACATTACTTAATGAAATAAGA -AAAGGCAGAGGCGATATAATCATTAGCACAATCACTGCATTATCATATCCCGGCCCTATACTTATTTTTACTAGTATAGA -TGCACCCAAGAGCAGAATTAATGAAAAAGCACCACCAATCAAACTCAAGCAGGTCAATGATTTTTTAATTAAAATCACAC -CCTTCACACGATTAAGAACAAGCGTACTTGATATTCTTGGGTATATTGCTTGGGTGATAGGATTTAATAGCCCTTGAAGC -GCGTTTCTTATAGTATTGGCCGCATTAAAATTCCCTACGGACGTTGGTCCAGATATAAATCCCAGGATAATAACTATTCC -CGTAGAATATAAACTAATAGCAGATGTGGAAATAAAAACATGAAAACCGTCTGCTAAAGATCGACGCACATTATGTAATG -ATAGCGTAACTTTACCAATCCAACCTTCATGAACAACGATAGCTAGTGCAATAATTCCAGCAACCAGATTTGCACTTGAC -TGAATAAAACCGGCAATTGCTATATCTGACTTTGTGTTCACAAAAATAAATGTTAGAGGGATAATAGCCAAGCGGGATAA -AATACTACTTAAAGTCAGCCATTTCATTTTTTCTTTTCCCTGAAACAGCCAGATAGGGTAGATTAAATTCCCGACTAATG -CAGGAACAAACGACCATATAATTACGGCATGCTTGTTATATTCAGGAACAAGCAAGGTCATCGACGTTAAGAAAATCAAT -GTAATGACGATAAGAACTATTTTTGAAAATATCACCGCCCAAAAAATAGACGTTACTTTATCTTTACTATCTGCTGCTTT -GGCAATACTCTGAGTTGCTGTGAGATTGAAACCATATTCAACAAACATTATCATATATAGCATAGTCGCTTGGCAAAAAC -CGAATATACCGAAATTTTCAGGACCAAGTGTTCTTACAAGATATGGAAATGTAAGCAATGGTAAAAGATAATTGCTACCT -TGAACGACAGCCAGATATATAACGTTTCTTCTTAAAGATAATTTATTCGTATTCATGCAATTAATTTTAATCTGATAAGC -TCATCTAACGTAAAGAGCCTTTCATCTTTTGGCGAAAGGATTAACCCTGATGTTTGGGGCCAATCAATTGCAATGCGTTC -ATCATTCCAACATATTCCACAATCGCTTTCAGGATGATAATAGTTTGTAGTTTTATATTGAAATTCAGCGATATCAGACA -GAACCAAAAAGCCATGAGCAAACCCTTTTGGTATCCACAACTGCTGCTTATTATCAGCTGAAAGCAGAACACCAACCCAT -TTACCAAAGGATACCGAATTGGGTCGAATATCAACAGCAACATCAAAAACTGCTCCATGAGTGCAGCGTACAAGTTTATC -TTGTGCGTACTCGCCGCGTTGAAAGTGAAGGCCTCTGAGTACATTTTTTGATGAACGTGAGTGATTGTCTTGAACAAAGC -TGACCGGATAGCCTAGAATATGTTCAAATGCTGATTGATTAAAGCTCTCATAAAAGAAACCTCTATCATCACCAAATACT -CTTGGCTCCAGAATTAGCACATCTTCAATTTCAGTTCTAATCACATTCATTAATTTGAATCCTTCGTCATTTTATAAAGA -TACTGCCCATAATTATTCTTTATTAGTGGTACAGCTAATTTTCTTACTTGCTCAACATCAATAAAACCTTTACGAAATGC -AATCTCTTCAGGACAGGAAACCTTCAATCCCTGGCGCTCTTCAATTGTCGCAATAAAATTACTTGCTTCTATCAGACTCT -GATGAGTCCCCGTGTCCAGCCACGCGTAGCCACGCCCCATCATCGCGACAGACAGACGTCCCTGCTCAAGATAAATACGG -TTAATATCTGTAATTTCTAACTCACCACGTGCAGACGGCTTCAAGTTTTTCGCCATCTGAACCACGTCGTTATCATAAAA -GTACAGACCTGTAACGGCGTAATTACTCTTTGGTTCTAACGGTTTTTCTTCCAGACTGATTGCCGTACCGTTTTTATCAA -ACTCAACGACACCATAGCGTTCTGGATCATTAACGTGATAGGCAAATACCGTTGCACCACTTTCTTTGTTAACAGCGGCC -TCCATTAGCTTCGGCAGATCGTGACCGTAAAAGATATTATCACCAAGAACCAAAGCACAATCATCACCACCAATAAACTC -TTCACCGATGATAAATGCCTGCGCGAGGCCATCTGGGCTAGGTTGCACTTTGTACTGAAGATTCAGGCCCCACTGGCTAC -CGTCACCCAGCAATTGTTGAAAACGAGGAGTATCCTGAGGTGTACTGATAATCAAAATATCGCGAATACCCGCCAACATC -AGTGTAGAGAGCGGGTAATAGATCATCGGTTTATCATAAATAGGTAATAGCTGTTTACTGACAGCCATAGTCACAGGATA -AAGACGTGTACCAGAACCACCCGCTAAAATAATACCTTTACGCATTTTCATTTCATCATTCCTTTTAATTCATCTTGCTC -CACCATCACGAACAAGATGCAAAAACTATTAAATTGCTGTAGTCGTAAATAATTCATTGAGCATTCGTTTCACGCCAACC -TGCCAGTCAGGCAAGACAAGCGCAAAGTTCTGCTGAAATTTTTCTGTATTAAGGCGAGAGTTATGTGGACGACGAGCTGG -TGTAGGATAGGCTGTTGTTGGTACTGCGTTGAGCTTGTTGAGTGCAAGGGGAATGCCTGCTTTGCGCGCCTCTTCAAAAA -CCAGCGCAGCATAATCGTACCAGGTTGTGGTACCACTGGCTACCAAATGGTACAAGCCTGCGACATCCGGTTTATTCAGT -GCGACACGAATGGCATGTGCTGTACAATCAGCCAGCAGTTCAGCACCTGTTGGCGCACCAAACTGATCGTTAATAACCGC -TAATTCTTCACGCTCTTTTGCCAGACGTAACATCGTTTTGGCGAAGTTATTTCCTTTTCCTGCATAGACCCAGCTGGTCC -GGAAAATAAGATGCTTCGCGCAATATTCCTGTAACGCTTTTTCTCCGGCTAACTTGGTTTCACCGTAAACATTTAGTGGT -GCGGTTGCATCCGTCTCCAGCCATGGCATATCGCCATTTCCAGGGAAGACGTAATCAGTCGAGTAATGGATAACCCAGGC -TCCAACTTCATTTGCTGCTTTCGCAATCGCTTCGACACTTGTTGCGTTAATTAATTGTGCAAACTCCGGTTCTGATTCTG -CTTTGTCTACTGCGGTGTGAGCGGCTGCATTGACAATAATATCCGGCCGAATGCTTCTTACGGTTTCAGCTACACCTTCA -GGATTACTAAAATCACCGCAATAATCAGTAGAGTGAACATCAAAAGCAATCAAATTACCCAAAGGTGCCAGAGCACGCTG -TAGTTCCCAACCTACCTGCCCTGTTTTGCCAAAAAGGAGGATATTCATTACTGGCGGCCCTCATAGTTCTGTTCAATCCA -CGATTGATAGGCACCACTTTTCACATTATCAACCCATTTTGTATTGGACAGGTACCATTCCACCGTTTTACGAATCCCGC -TCTCAAACGTTTCCTGTGGTTTCCATCCCAATGCGCGACCAATCTTCTCAGCATCAATAGCATAGCGGCGATCGTGTCCC -GGACGATCAGCAACATAAGTGATTTGCTCACGATAAGATTTCTCTTTCGGTACAATCTCATCCAGCAAATCACAAATAGT -GAGCACTACATCGATGTTTTTCTTTTCGTTGTGCCCACCAATGTTATAAGTTTCACCCGCTTTACCTTCGGTTACGACGG -TATATAACGCACGCGCATGATCTTCAACATACAACCAGTCGCGGATCTGATCTCCTTTGCCATAAATAGGTAATGCCTTA -CCTTCCAGTGCATTAAGAATAACCAGTGGAATAAGCTTTTCCGGGAAATGATAAGGACCATAGTTGTTCGAGCAATTAGT -CACAATTGTCGGTAAACCATATGTACGTTTCCACGCGCGGACTAAATGATCGCTGGATGCTTTGGATGCGGAATAAGGGC -TGCTTGGCGCGTAAGCTGTCGTCTCAGTAAATAAGGGTAATTCTTCTGTATTATTTACTTCATCTGGATGAGGCAAATCA -CCATAGACTTCGTCAGTAGAAATATGATGAAAACGGAAGCTATTTTTCTTGTCGCTATCAAGAGCAGACCAGTAATTGCG -AGCGGCTTCCAAAAGGACATAAGTACCAACAATATTGGTTTCAATAAATGCCGCAGGGCCTGTAATTGAACGGTCAACAT -GGCTTTCAGCAGCCAGGTGCATCACTGCATCCGGCTGATGCTGAGCAAAAATCCGTGCCATTGCAGGTGCATCGCAAATA -TCCGCATGTTCAAAAACATAGCGTTCAGAATCAGAAACATCAGCAAGTGATTCCCGGTTTCCGGCGTACGTTAATTTATC -GACATTAACAACACTATCCTGCGTATTATTTATAATGTGACGAACTACAGCTGAACCAATAAATCCTGCGCCACCAGTAA -CAAGTATTTTCACTTAATTTATTCCATATTACTTCAGAGCATGCTGTGAAATAAGCGGCTCTCAGTTTGATTAATAGAGG -TATTAATGCACGCTACCGCCCCTGGCTTTACAGCTACCAGAGCACTGCATGCATGCCTATGATGTGACGAGCGTTACCCA -CTCGCGCTAAACCCGAAAAATTCAAACGCTAATTGTCTTACCAATCCGCTCTGGAAACAAGGAAAATCCTGGAAAACTTT -GAATAAAACCCTACTGCTAACTCGTTGTTATTCTGATGGTTTATATAAAACAACGGCAGGAAGATTCGCAACAAATTACT -TTTGCTGCGAATTTTCACTGCCGTTATAATTTTCTTATCAACCGTTACATCCGGTCAGATTTTCATTATTCGCTTAACAG -CTTCTCAATACCTTTACGGAACTTCGCCCCTTCTTTCAGGTTGCGTAGGCCATACTTCACAAACGCCTGCATATAGCCCA -TTTTTTTGCCGCAGTCGTAACTGTCGCCGGTCATCAGCATTGCATCAACGGATTGTTTTTTCGCCAGCTCGGCAATAGCA -TCAGTCAGCTGAATACGTCCCCATGCACCAGGCTGAGTACGTTCCAGTTCCGGCCAAATATCGGCAGAAAGCACATAGCG -ACCTACGGCCATGATGTCTGAGTCCAGCGTCTGCGGCTGATCCGGTTTTTCGATAAATTCAACAATGCGGCTGACTTTAC -CCTCACGGTCCAGCGGCTCTTTAGTCTGGATGACGGAGTATTCAGAGAGGTCACCCGGCATACGTTTTGCCAGCACCTGG -CTGCGGCCCGTTTCGTTGAAACGTGCAATCATGGCAGCAAGGTTGTAACGTAGCGGGTCGGCGCTGGCATCGTCGATCAC -AACGTCTGGCAGTACCACGACAAATGGGTTGTCACCAATGGCAGGTCGCGCACACAAAATGGAGTGGCCTAAACCTAAAG -GTTCGCCCTGACGCACGTTCATAATGGTCACGCCCGGCGGACAGATGGACTGTACTTCCGCCAGCAGTTGACGCTTCACG -CGCTGCTCAAGGAGTGATTCTAACTCATAAGAGGTGTCGAAGTGGTTTTCGACCGCGTTCTTGGACGCGTGAGTTACCAG -GAGGATTTCTTTGATCCCTGCAGCCACAATCTCGTCAACAATGTACTGAATCATTGGCTTGTCGACGATTGGTAGCATCT -CTTTGGGTATCGCCTTAGTGGCAGGCAACATATGCATCCCGAGACCCGCTACAGGAATAACTGCTTTTAAATTCGTCATT -ATTTCATCCACCTGTAAAATGGTTGCTGAATTATAGCTTGTTCGATTTTTTTCGCCAGCATCAATTACCCTGAATTGATT -ACTGAATTACTTGTGATGTTACGCCGCTTCGTTGTGGATTGCAGTAGCATTGTTCCTAAGTATGACTCCATTTTTCCAGG -AATGGTCGCAAATCTACTCCCTCAGTTCCGGCAATCTAAAGTTAATCTTCTCCACATTAACAATATGGTGATTAATCCTG -TCGATATCGACGGAGCTTTGTCCTTTTTCATTCACCGCATGAACATTTGCAAGAGACAGCAGTGTTTCTTTTTTCGCCAT -AAAAACACCACGAACGTCTTTGCGCATGTCAAAGTTCATGCTCAATGCGGGTCCAACTGAGGATTCCTGCATCACATTGA -TATTTCGCATAAAAAAATGTTGCGGTTTGTTGTGTAACTCCAGCGACGCACGCTTCATCTCAATGTTAGTTAGCGCCACA -AAGGAAACAGCATTCCCGGCGGAGATTTGAATGCCGCGCAATTTATAAGCAAGATGAGTATTATCCAGTTGAATATCATT -CACCCGGAAATTTTGCGGTATCGAGAGATATTTGCCTTTAATTACCCCATAGCCGATTAACATCCCGGCGCTATTAATCA -TTTCAATATTATCAATCACGAAATTGTCACAACCGTAAATAGCGACTGTCGCGTTATCAATGCCCGCTTTCTTACTGAAA -TCCGGCGTGATATTGCGGGCTTTGATATTACGAATAACAAAATGTTTACCATTTTCAACATGTATCAACTGCCGACAATC -CGATCCCGTGATATTCGCCACGACAAAGTTTTTCACTGCCTGGTCTTCCGGGTAGTTGTTATCATAAGTGCTTCCCGCAA -GGCCTATGCCGATGCCCCAGTTGATTTTGCCGTTGGTACAGTTGATGCGCTCGATGACATGGTCAGATATCAAAATATCA -CGGTCGTTAATTGCCACGTTCCATTCAATGGCGTCGCCTTGTAAGTCGCTGAACTTACAATTGGTGATGTTGGCACCGAT -AATCTGGTTATGAAATCCCTGGCGTAAGATGGCGTAATTAGCGTGGCTAACGGTCAGGTTATCGATGATCAGGTTGCGCA -TGACCCGTTTGTTTTTGCCGCCGATATAAATCTGCGTCACCGGGCCAAAGCCGCTCATAGTCAGCCCTTTGATGGTGCAG -TCAGAACCACGCACATCCAGGGTGATGTTATGCATACTGCCGCCATCCTCCCCTGTCACCTGGCTGCCGTCCTGTAAGAC -AAATCGCCCTCTGCCGTTGCCGCGCAAGCTTCCAAGAATGTGTAACGTTTTACCGGGAGGGATAAAGATGCCGGTGTTGA -TATTGTCACAAACCAATCCGGCAGGCACGACGACTGTTTGCCCTTCGCTGAAGGCTTGTTTAAATGAGGCGATCCAGTCG -TGTGGGTTGTAGTCGTTAATGTTAACGCTTTGTCGGGCGGGAAGCGCGCGGGCGAAAGGGGTATGGAGGAAGGCAAGCGC -CGAGCTTGCCGTCAGGAACGTGCGTCGGGAGAGTTTTTTAAATGGCATGCGTTCTCCTCTATAAAGCCTGCAGCAAGCTG -GCGAGTTCTCGATTGATCACCTGCTGGTTAAAATCGTGTTCAACTTTTTCGCGCGCGCGTTTGACGACCGGAGCCAATTC -GTCGGTGTCCAGTTGGCTAAACGCCGCCAGTCGTTGCGCCAGTGCGCGAGCATCGTTCTCAGGCACCAGCCAGCCGGATT -TGTCAGCCTCCACCAGTTCCGGTATTCCACTATGCAGAGTAGAAACCACCGGAATACCGACCGCCATCGCTTCCATTAGC -GCCACCGGAATACCTTCCATATCACCATCCGCACCTGTAACCGATGGCAACAGGAAGACATCCGCGTCGTCGAGCATCGC -TTTCACTTCATGGCTCGGTTTAAAGCCCGGCATCTCCACCACATCTTCCAGTTGATATTGTTCGATGAGGGTGCGCAGGC -GTCTTTCCCACGGGCCAATGCCGAGGATGCGATAGCGAAATGCCACGCCCTGCTCTTTCAACTGACGGCAGGCTTCGATC -GCCACATGCAGGCCTTTTTTCTCGGTTAAGCGTGCGACGGAAATAATCTCCAGCGGCGTTGCGGGCGCTTTCACGGGACG -CGGGCTAAAGCGCGTCATATCTACGCCCATGCGCGATACGGCGATTTTTTCCCTCGGGCAGCCCATTTTTTGCAGCCTTC -CGGCCCACAGATCGCTTATCGGTAACATCAGGTCGCCACGGCGAAACAGTTGCTGATATTCGGGAGTGTAGTGGTTGAGC -ACTTCCCGACTGGAGATATCAATACCGTGGAAGATAGTGGCAATTTTGCCGCGAATGACACCCAGTTCGCGGAGTTTTGC -TGCGGTTACCCCCGCGGGACCAAAATGAGCGATGAACACATCGGCGCGAAACGGTGTTGCGACCTGGCCGCAAATGGCAG -ACAAAATCAGGTTCCGCGACTCGGCACCATAGCGTTTGAGGTTGAGCGCCTGCCAGGTATTTTTACGATGAATGCCGCGC -AAGGTCTGGCTGGCTCGGTGGCGCAGTTTCGCCACTTTGCCCGTAGGTTCGTCCTGTAACCAGCGGGTTCTGGCAGCAAG -GTTGTATTTCGTCCATGCCGCGTGGGTGTTTTGTGTGTCGCCTTTTTGCAGCGCGAGAATCTCTACCTCAAATCCCATAT -CAATAAACGCGGTAATTTGGTTAAGGACGAAGGTTTCTGACGACAGCGGGAATTTCAGTAAAAAGAAGCCGACCTTCATT -TCACCTCCCCGATGCGCTCAAGCACAGACTGCACCATCTGCATTCCTGTCTGACGCTCACGACTGACGGCTTCACTAAGT -CGCGCATTCAGCGCCGGAAGCTGGCCTAAGGTATCCGCAACCATCGCTTGCAGGCTGCCGTCTAATAAATGACGGATATC -AATTGCCATCTCCGGTAGTCCCAGCTGCTGCATAATCCCGGCGGATTTATGTTCGTAGTTGATGGCAATTGCCGGAGTGG -CAAAATTCATCGAGATAATGGCAGAGTGCAGGCGCGTACCGACGGTGAGTTCACAGGCCCCCAGAATTTTGCCCATTTCC -AGATCGTTGAGTTCATCCATCACTACGTGGTAACGGGCAGGATCGCTGATGTGCTGGCGCAGGTTGAGCGCCACCATGCG -GTCGTCTTTGTTATAGCTGTCAATGCCCGTACAGGTGGAGAGCGCAATCACCTGATACCCTTCATCGAGAATGCGATTGA -CCACCCCGGCAAAGGCTTTTTCATACGCTTGTTGAGTGGTGCCGAGACGTTTGTCAAACGGTGCCAGTTCGCGCAGGGTA -ATGGCCACCGTTTTCTGTTGTGCGGCAACGTCCAGCCAGTGTTGAACGGCATAGCTGGCGGTGAAGTCTTCTGTGTGGTG -ATCGACCAGCCACGCGGTATCGACGCCATGTTCCACTTTTGCGGTGGTGATATTGCTGCGTTTCATCAGATCAAAGCTGA -CCGATTCGCGCAGGATCAGCGCGTCGCAGTGACCAAAAACGTAGTTCGCCAGTTGGTTAAATTGCTCATCCTGGAACGGG -CCAACACTGTGACCAATCATAAACAGCGGCTTTTTCGCCATAAACGTGCAAAGTGCATGTTCAAACTGCGGCACGCCATA -GAGATCGACAAAAAACGATCCGCCGACCTGGATAATGGCGTCGTAACCTGACAGCAGGCGCACGAAGTCGGTGAATCCCT -GGGCGATGGCGATATTGCGCAGCTTGCCAGTGTCGGTGACGCGTGAGAGCAATACCTGATGCTGGTAGCGGCGACGGAGG -ACTTTTTTAACGCGCCCGACAACGCCCGCCGCGCTGTTGTGTTGTTTCATTTGCAGGAACAGCGGATCGCCCATTACCGG -GCGGTTGAGCAGCCAGGAAGAACTGACCGGATAGCGGCTCATCACATCCACTTCGGCGTGTGGATTGAGAATGTTGATGG -CATCAAGTAAGCCGCGCAGGATGGCGCTGTCGCCACGATTGCCGCAAGTGTGGTTGCCCAGAATAAGTAATTTCATTTTT -TCCTCATAAATTTGATGCCAGGTGAGGCTGCGTTTGTTTTGTTCGTTGCCGCTTTTTGCCTGATGCGACGCTGACGCGTC -TTATCAGGCCTACAAGACCCGAGCACAGAACCGTAGGACGGATAAGGCGTTCACGCCGCATCCGGCATTCAGTGCCTGAT -GCGACGCTGACGCGTCTTATCAGGCCTACAGGTCCCGAGCACAGAACCGTAGGACGGATAAGGCGTTTTACGCCGCATCC -GGCAACCGTTGTCGGAACCGAAAACAGCAACTCACCCCGCCCGTAAAAGCATTTTCATTTTTTCGCTGCGACAAAACTGA -CGCTTCACTTCCACCACCAGCGGATGGCGCGACAGCACAATCATCACCACAAACGCCAGCACCCCCGTGGCTATTTGCAC -CGCCAGCAGCATCCCCAGCGCCAGTTGCCCTTTCAGCACAATGCCCAGCGCATAACTGACCACCAGCGTCGGCAGCGAGA -GATAAAACGGCAGCCATAAACTCAGGATGTACTGGCGATAACTGGAACCAAGAACCGGTTTAATCATCACGAAGTAACTC -AGAATGGTGTTGATAATTTGCACCAGCAGGAAGCCAAGCGTGACGCCGATCGCGCCCGCCATCTGCCCACCTATAACAAT -CGCCGGAATAAACAGAAATGTTTTGAATACGTTGAATTTAAAGCTGATATCGACCCGCGCTTTCGCCATCAGCAGCGAAC -CAATCGGGTTACCTACGGAGCGCAGCAGACCCACCACACACAGCAATTGCAGCACCGGAATAATGCTGTTCCACTTCTCA -CCAAAGACCAGCGGTACAAAGTTATTCGACACCACCATTAGCCCGAGCAGCGCCGGAAAGTTGATAATCCCCACTACCGA -CAGCAGCTTGTAGAAGTTAACACGCAGCTTTTCGGTATCGTCCTGAATTTTGGCGAATGCCGGAAACAACACGCGGGTGA -TGATTGGGTTCAGCTTCATCGGTGGCACAACGGCCACGTTGTACGCCAGGTTGTATCCCCCTGCCACGCCCGCGCCGAGA -ATACGCGCCAGCACGAGCGTTGAAAGGTTGGTATTGAGATAGTTGATGATGCTGTCCGCCGTCAGCCAGGCACCAAAGCG -TAAGTTCGGTGCCACCGACGCCAGCGAGAAATGCAGACCGGGGCGATAAATTTTGCGGCCAAAGTAGCCAAACAGCAGCG -TTCTCACCGCACTATTGACCAGATAACCGAGGATCGCGGTCATCGCCAGCGGCCAGAAATGGGCGCTAACCACCGTACAA -GTGAAGCCCGCCAGCACCGCGCTGGTTTCGATCATGCCGATTTTGTTGAACTCCAGCTCTTTTTGCATCAACGCGCGGAA -CTGTTGCCCGTGGGGGATTACCACAAACGCCAGCGATAATGTTTTAATCAACGGTGCCAGGTCCGGGTTATTCAGCACGT -CGCCGATGAGATCACTCAACAAAAACACCGCCACGCACACCACGATCCCCAGCCCGACGTTCAGCCAGTACAACGTGGTG -AGTTCAAGGTGACTGATTTCTTTTCGCTGAATAATCGAGTTAGCGATACCGAAGTCAGAAAGCGTATCTGCCAGCGCGAT -AATCACCAGCGACACGGTAAGCAGGCCGAACTGGTGGTTGTCGATAATCCGCGCCAGCACGGTCATCTGCACCAGCCCGA -GGCCGATGATGATCACCGTGGCAATCGCCGACCACTTCGCGCCGCTGATGGTTTTTTCACGTAAGCTCATATCAATATGC -CGCTTTGTTAACGAAACCTTTGAACACCGTCAGGAAAACGATTTTGATATCGAACCAGACGCTCCATTCGCGGATGTACT -CAAGGTCGAACTCGACGCGTTTTTCCATTTTCTCCAGCGTGTCGGTTTCGCCGCGCCAGCCGTTAATCTGCGCCCAGCCG -GTAATGCCCGGTTTCACCTTATGGCGCAGCATGTAGCCTTCAATGAGCTGTCGATACTGTTCGTTATGCGCTACTGCGTG -CGGACGTGGACCGACAATCGACATCCCCCCGGTCAGCACATTGATAAACTGCGGCAATTCATCCAGCGAGGTACGGCGCA -GAAAGTTCCCCACTTTGGTGACGCGCGGATCGTTCTGCGTCGCCTGGGTCACCACTTTGTCGTTCTCCATCACTTTCATG -GAACGGAACTTCCACACTTTGATCGGCTTGCCATCCATGCCGTAGCGAGTCTGGCGGAAAATAACCGGCCCTGGTGAACT -GAGTTTCACCGCCAGCGCAATACAGCACAGCACCGGGGAGATCAGCAGCAGAATAAGCGTCGCCAGCACAATGTCTTCCG -CACGTTTGAGCAGGCGGTTAACCCCGGAAAGCGGCGTGTCGTAAAGCGGCACCACCGGTACGCCGTTCATCTCTTCGAGG -CGTGAATGGAGAATGTTGAAGGTAAAGACGTCGGGGATCAGCAGCACCGAACAGGTGGTGTCCGCCAGTTGATGGACCAG -TTTTTTCACTCGCGCGCCGTCGCACATTTGCATCGCGATATAGACGTTATGAATCTTGCCCGCTTTCGCGTCCTCGACCA -GCTGTTGCAGGTTACCCGCCCAGTCGTTAGAAACGCCGCCCGGTTTCGGGTCGTGGTAAACGCCCACCACTTCAAACCCT -AACCACGGCTGGTTACGGAAGCTCTCCATCAGCATTTGCCCGGCGGCTAAATCCCCCGCCACCGCGACCATGCGCTTGTT -ATAGCCATGATTACGCAGCCAGCCCGCCCCAATGCGAATACACGAACGGCAAACCACCAGTCCGATGCTGGTCAGCGCAT -ACCACGCCAGCCAGATTTTCAGTTGCGTGTCGAAATCATTGTTGAACGCCACCAGTCCGGCGCTGAAAATCACGCTTAAG -GTCCAGTTTTGTAGCAACAGGGCAAATTCTGTCGCTGCCCGAACACCGCGCCATGAGCGATAAAAATCGGTGATGCCGCC -CAGCATCTGGAACACCACCAGCGTAATCAGCGCCACCAACAGGTGCATGTAGAGGAATGACAGTCCGCTGACTTCGCAAA -CCAGCCATAGTCCGGCAAACATGATGGTGATATCTGAAAAGCGTTGCACCATAGAGATTAACGATGCATTGGTTTTCGCT -CGCTCGCGCTTTTTTAGATTTGTCATCGTTGTTCCTGTTATTAGCCCCTTACCCGCAGTGGGGTAAGGGAAGATCCGACA -TTACTCGTTCAGCAACGTCAGCAGAGTTCGCGTTCGCGCTTCCATCAGCGGCACATCACCGCGCGATTCCACATTCAGGC -GCACCACCGGTTCGGTATTGGAGGTGCGCAGGTTAAAGCGCCAGTCGGCAAAGGTCATGCTGATGCCATCGGTGCGATCC -ACCGCCAGCGCCTCACGGCTAAAATGCTGTTCCACGCGGTTAATCGCCTCAACGGGTTGCGCCAGTTTGCTGTTGATCTC -ACCGCTTGCCGGAAACGCCGCCATCCGGTCGCGTACCAGTTCGCCCAGCGTTTTATCTTTCAGGCACACCAGTTCGGCGA -CCAGCAGCCACGGGATCATGCCGCTGTCGCAGTAAGCGAAATCACGGAAGTAATGGTGGGCGCTCATTTCGCCACCATAG -ATGGCGTCTTCCTTGCGCATACGTTCTTTAATAAAGGCGTGTCCGGTTTTCGACATTACCGGCGTGCCACCTGCGGCAGT -CACCACATCAACGGTGTTCCAGGAGAGACGTGGATCGTGGATGATCTTCGCGCCGGGATTTTTTTCGAGGAATGCTTCTG -CCAACAGGCCGACAATGTAGTAGCCCTCAATAAACTGCCCTTTTTCGTCAAACAGGAAACAGCGGTCAAAATCGCCATCA -AAAGCAATGCCCATATCCGCGCCGTGTTTGATGACCGCATTGCGGGTGTCGTCGCGGCATTCCGGCAGTAGTGGGTTAGG -AATACCGTTGGGGAAATTGCCGTCCGGCGTGTTGTGCACTTTGATTAATTCCACGGGCGCGCCGAGGGCTTTAAAGCGGG -CTTCAATGGCGTCCACCACCGGACCCGCTGCGCCGTTCCCGGAGTTGATCACCAGCTTGAGCGGCGTGAGGTTTTTGACA -TTGATATAACCGAACAGGTGATCAACGTAAGCGTCACGCAGGTTGATTTGCTGATAGCGACCGCGTTTGGTTTCATCGAC -GGGAGGAAAGTCGTTGGCTTCAGCCAGACGCTGGACGTCGCGCAGTCCGGTATCTCCGCTGATCGGGCGAGCCCCCTCGC -GAACCAGCTTCATGCCGTTATAATCCATCGGATTATGGCTGGCGGTAACTTCAATGCCGCCATCCACGCCGAGATGGAAC -GTGGCGAAATAGATCTCTTCGGTGCCGGACATACCAATATCCAGCACGTCAACGCCCGCATCCTGTAAACCTTTCGCCAG -CGCCAGTTTTAAGGTTTCGCTGGTGAGGCGGACATCACCGCCTAACACAATGGTTTTCGGTTTGAGAAATTCGCCATAGG -CGCGACCAATGCGCCAGGCGATATCTTCATTCAGTTCTTCGCCTAATTTCCCGCGAATATCATAGGCTTTAAAGCAGGTT -AATTTTTTCATATCGTTACCCTTTTTCAGGCAATAGTTGGCCCTGACCGAAGCGGCCAATTTTATTTTTGTCGTTATTTA -CACCGCGGTTTCGCATTCATTGCCTGATGCGACGTTTACACCCGTCCGTAGCGATCCGCGAAACGCACCACATCATCCTC -TTCGAGATAAGAGCCGGAGCGCACTTCAATTAAATCGAGCGGAATTTTCCCCGGGTTTTCCAGGCAATGCGTCGCCCCCA -GCGGAATATAAATGGACTCGTTTTCACCAAGCAGTTTGATATCACCATCAATGGTGACTTTTGCCGTTCCCGCGACAACC -ACCCAGTGTTCCGCGCGGTGATGGTGCATCTGTACCGACAAGCCCTCGCCCGGTTTCACGGTGATGCGTTTCACCTGGTA -GCGGTCGCCCGCGTCGATAGAGTCATATTTGCCCCACGGACGATACACTTCGCGATGCACCCGATGCTCATGGCGACCAT -CGGCTTTGATCTGCTCGACCACTTTTTTCACATCCTGTACCGCGTTACGGTCGGCAATCAGCACCGCATCTTTGGTCTGC -ACCACTACCAGATCTTTCACCCCGACGGTGGTGACCAGGCCAGATTCAGCATACACATAGCTGTTTTCAGTTTTGTGATT -AATCACATCGCCGTGGCAAACGTTGCCCTCGGCGGTGTGGGCGCTGATCTCCCATAATGAAGACCAGGAGCCAACATCGC -TCCAGCCCGCATCCATCGGCACCACAACAGCATCTGCCGTACGTTCCATGACCGCGTAATCCACCGACTCTTCCGGGCAG -GCGAGAAACGCTTCTTCATCCACGCGAATAAAATTGAGATCCGGATCGACGGCGCTCATCGCTTTTTCACAGGCATCGAG -GATATCCGGGCGATATTTTTTCAGTTCTTCGAGATAGCGTCCGGCGCGGAACAGGAACATACCGCTGTTCCAGTAATATT -CGCCGCTTGCCACATAGGCCTGAGCGGTTTCCAGATTCGGTTTTTCGACAAACTGCGCCACTTCAAAGGCCACCATATCC -TGCTCACCCGCAGACACTTCACCGCGACGAATATAGCCATAACCGGTTTCTGGTAGATCCGGCACAATGCCGAAGGTCAC -CAGCTTGCCCGCTTCGGCATATGGCATGGCATTACGCACGGCGGCACGGAACGCGTCTTCATCGGCAATCACATGATCCG -CCGCCAATACCAGCATTAACGGGTCGCTCTCCGGGCTATGACGTTTTGCCGCCAGCGCCGCCAGCGCAATGGCAGGTGCC -GTGTTTCGCCCTGCCGGTTCGAGAATAATGTTCTCGGTAAGTTTGTTCAGTTGACGCAGCTGTTCCGCGACAATAAAGCG -GTGCTGCTCATTGCAAATCACCACCGGGCTTTCGCACTCCACGCCGTTCAGGCGGCAGATGGTGGTTTGCAGCATGGTGA -GATCGCCTTTCAGGCATAAAAACTGCTTGGGATAAAGTACGCGGGAAAGCGGCCATAAGCGGCTACCGGAGCCACCTGCC -ATCACAACTGGATAGAGTTTCGACTGCGCCATAATTATCCCCGAATATCATTTATAAATTGACGTAACACGTTCTCTTTA -TCGAGCGTGCGTTCGGCATATTCACGTGCCACCGTGTTGTGTTTGGGCAGCAGGAGCGCCTGACGGATCCCCGCCACCAG -CGCCTCGACCGATTCCGGTTCAACGCAAACCGCAATGCCCGGAAAGGTTTCGCAAAGCTGCCCCAGTTCTGTGTAGGCTT -CAGCAGTAATCACCGCGTTACCGCCTACTGCCAGAATATTGGTCAGTTTCGACGGCAATACGGCATCTGCCGCGCCGCGT -TTTTGCACCACCAGATGGCAATCGCCCATCTTCAGCAGTGCGGGTAAAGCGTCATACGATTGCAGCGGGAAAAATTGCAT -GTTGCGCAGTCCACGCTGCTGCGCCATTTTTTCCAGCCGCGCTTTGCCGCCGCCCTGCCCGACAATGGCAAAAATCAGCG -GTTCATCGCGCAGACGATCGGCAGCTTCAATAACGTTTTCCAGCCCCTGCTTTTCACCAATATTGCCGGAGTAAAGAATG -ATTTTTTTGTTATCCGGCAGGTCAAGCTGGTTACGAAGGGCATCAACATCGGCATCTGCAACATGCTGAAAACGGGCAAT -TTCCGACCAGTTGGGGAAGAAGATGACGTTTTCCGCCGCCACGCCTTTTTCGATGGCTTTATTCATCATCGAACGCGAAA -TCGTGGAGACGTTATCGACGTTATGCAGTCCGCTACGTTCGAACGCCGTTGCCAGCTGTGCCACTTTGCCGCCTTTGCCT -TTTCCGGCAAGGCCCAGCCCCAGCATGGCGTCCACTTCGTAATCCTGAATATGCAGCACGGTACGCGCACCAGAGAGTTT -CGCCAGCAGGCGCATTCCCGGCGCGCAAAACAGCGTTGGCACCACGCCAATAATGCGATCCGGCTTCCAGCGACGTTGCG -CCATCAGCGGAAAGAAACTGCTGACGGCAAAACTGCCCAGATGCAACAGGCGTTTCAGGGTGCTCGGCTGTTTTGGCACA -TACAGCGGGCAGCGCCACACCGTGGCGGCCCCCTCTTCTCGTTTGTAGCGCCAGGCGGAATAGTTCTCGCCCACCTGCCA -TTGCGGGTAGTAAGGCGGTGCGGTAATGACCCGCACCTCATGACCTTGTGCCGCCAGCCATTCCACCATCTCGCCGGTGT -ATTTGCCGATGCCGGTTAACTCCGGCGAGTAGTTAATGCCGTAGACCAGTATTTTCATAATCCGGGTACTCCGGTACGCT -TCTCAGCGAGAAAATAGGCGCGGCTGTTAGCATGAACATTATCACTGGCGAGCAGCGCGTCCGACGTCAGCCAGCGGTAA -TCGTCATGCTGCTCATCCGGCAGTAACAGCTCTTCTTCCGATACTCTGAAGCGAAAACCGAGCACCACATAGTGAGTGGT -GAAATCCGTGCCAGAGAAGTTATCGTCATAAAAGTGCTGCCAGACACCGTAAAACTGGCCTGCTGTTATCGGCAAACGCA -GCCCCAGTTCCGCCATCGTCAGCCGCTCAAATGCGGCTTCCAGCGTTTCGTCTTTCTGCACGCGCCCTCCCGGCACAAAC -CAGTAACCCTGCGCCGGGCGGTTGGTTCTTTTGCCAAGCAGAAACTCGCCGCGACTGTTCTCGACAATAAAGTCGAGAGA -GACAAGCGGAGTGGAGCGCACTACCGTGGCAAAGTCTTCCTGACGTAAAAACATCATTACCCCCGAAAGCGGTCTTGATT -CTCAAGGAACCACTGGTAAGTGCTGGCAAGCCCCGCTTCCAGTGAGATTTCGTGATACCAGCCAAGCTGATGCAGGCGCG -TCACATCCAGCAGTTTGCGCGGCGTGCCATCCGGTTTGCTGGCATCAAAAACCACCCGGCCTTTGTAACCCACCACTTTG -GCGATGGTTTGCGCCAGCTCGCGGATAGTGCAGTCAACGCCCGTGCCGACGTTAATGTGCGACAACATCGGCTGGGTGTT -CTCCAGCCAGACTTCATGCGCCAGCTCCATGACATGAATGCTCGCCGCCGCCATATCATCGACGTGCAGAAATTCGCGCA -TCGGTGTACCGCTGCCCCATACCACCACGTCCGGCGCATTCTGTGCCGTCGCCTCGTGGAAGCGACGCAGCAATGCTGGG -ATCACATGCGAATTACTCGGGTGGAAGTTGTCGTGTGGCCCGTACAGGTTGGTCGGCATGACTGAGCGGTAATCGCGTCC -GTACTGGCGGTTGTATGATTCGCACAGTTTGATCCCGGCGATTTTGGCAATAGCATAAGGCTCGTTAGTCGGCTCCAGCG -TGCCCTGCAACAACTCGCTTTCTGCCATCGGCTGTTTTGCCAGTTTCGGGTAGATGCAGGACGATCCGAGAAACAGCAGT -TTGTTCACGTCGTTCTGATGCGCGGCGTGAATGATGTTGCTCTCAATCATCATGTTCTGGTAGATGAAATCCGCCGGATA -GGTGTTGTTGGCAACAATGCCGCCCACTTTCGCCGCCGCCAGATAGACCTGGTCAATACGTTCGCTGGCAAAGAAATCAT -GCACGGCGCGGCTGTCCAGCAGGTTCAGCTCGTCGCGGGTGCGTAATACCAGTTCCACATCACCGCGCTGTTCGAGCTGC -CGCCTGATGGCGGAACCGACCATCCCGCGATGACCAGCAATAAAAACTCGTTGTTTACTCATGCTTATGACTCCAGCGCG -ATCGCCACGTCGTAGCCGTGAGATTTCAGCAGAGAGTGTTTTTTCGCCGCTTCGAGGTCATTAGCCACCATTTCAGACAC -CATCTCTCTGAGGGTGATTTCCGGTTTCCAGCCCAGTTTTTCGTGCGCTTTGGTCGGGTCGCCGAGCAGCGTTTCAACTT -CAGCCGGACGGAAGTAACGCGGGTCAACAGCGATAATCACATCACCCGGTTTAACGCCCGGCGCGTCATGCCCGGTGACG -GAAACCACAATGCCCTTCTCTTCAACGCCCGTGCCTTCAAAGCGCAGTTTGATGCCCAGCTGTGCTGCCGCCATTTCCAC -GAACTGACGCACGGAGTACTGAACGCCGGTCGCGATAACGAAATCTTCCGGCTGTTCCTGCTGCAGCATCATCCACTGCA -TTTTTACGTAGTCTTTGGCGTGGCCCCAGTCACGCAGGGAATCCATATTGCCGAGGTACAGGCACGACTCCAGCCCCTGG -GCGATGTTGGCGATTGCGCGGGTGATTTTGCGGGTAACGAAGGTTTCGCCGCGGCGCGGGGATTCATGGTTGAAGAGAAT -TCCGTTACAGGCGTACATGCCGTAGGATTCACGGTAGTTAACGGTGATCCAGTAGGCGTACAGTTTGGCGACCGCATACG -GAGATCGCGGGTAGAACGGCGTGGTCTCTTTCTGCGGAATTTCCTGCACCAGACCATACAGTTCAGAGGTGGAAGCCTGA -TAGAAACGAGTTTTCTTTTCCAGACCGAGGAAGCGGATCGCCTCCAGCAGGCGCAGCGTACCCATCGCGTCGACGTCAGC -GGTATATTCTGGTGACTCAAAAGAGACCGCAACGTGGCTCATTGCGCCCAGGTTGTACACTTCATCCGGCTGTACTTCAC -GCAAAATGCGCGTCAGGTTAGAGGTATCACTCAGGTCGCCATAATGCAGATGGAATTTCGGGTTGCAGGTGTGCGGATCC -TGATAAATGTGATCCACGCGCTCGGTGTTGAATGACGATGCGCGACGCTTAATACCATGCACCTCGTAACCTTTTTCCAG -CAGAAACTCTGCCAGGTAAGAACCGTCTTGTCCGGTTACACCGGTGATGAGAGCGACTTTTGACATGTATTATTCCTCTG -TATTTTTGAATTTATTCAGTTTCAACGCGTTCGCGTATCACCACTGCGGGATTCCCCCGGCAAACCACATTTGCCGGAAG -CGATTTAAAAACACTGCTTCGTGCACCCACGACGGTGCCGTCGCCGATTGTGACGCCTGGGGCAACAAAGACATCGGTTG -CCAGCCAGCATTTCTCGCCAATCACAATAGGCGTGGCGTTAATGGTGAAATGTTGACTTGCATGGTCGTGGCTACCGGTG -CATAAATAACTTTTTTGCGATATCACCGAATGTGCGCCAATGGTTATTTCACCGAGGGTATATAAATTGACGTCATCGCC -GACCCACGCGTAATCACCTAAGGTTAATTTCCACGGATAGGTAATTTTTACTGACGGACGAATAACTACGTTTTTTCCTA -TTTTTGCTCCGAATAAACGTAATAAAAAAGCCCGCCAGCGATACAATACTTGTGGCGACCAGGCAAATATTGTTGCCTGT -ACTGCCCACCATAATTGCACTTTAATAGCGTTGCCGCCCCGGAACCCTTTCGGCACCGAGAAACCGCTTAAATCTTGCAT -TGGTTTTCCTTATATTCAGACTTTGTTATATAAGGCTTTCGTCTTTGAGGTAGTACGTTGGCGTAAATGCCAGGATAATT -CAGCCCAAAAGCCAGGCACATGTAATATTTGTCGTTGGACTTTTTTCGCGTCAGCACACAATTCCATATTATTGGTGGTA -GATACCCCACCCATGGAAAATTCAGACACCAGGCCATTGAGTTTTTTAAATGCATAACCGGCTTTATACATTTTGGCTGC -CAGCGCGTAGTCGGAAGAAACTTTATATTCCAGGTCATAACGCCATTTTTTCAAGCCGGATACAGGGAAAAATATCGCCT -GATGACTGGCGGGCAGGCTGTGATAAATATACCAGCCCGGTTTGGCGCTACGTTTAATTTTATGCCCGTCGCCAAAATCC -AGCAGCGCATCGCCGGTGATCATCACGTTATCTTTTTGCATTTTTAACTTACGGACAAAATTTGCGGCATTCTGATGAAA -AATATCGCCCGAATTGAGAAACAACGCGAACTTGCCTTGTGCCATCGCAATGCCTTTGTTCATGGCGTCGTAGATACCGT -TATCTGGCTCGCTGACAAAGCGTAGGTTAAAGATACCATTGAGATTTTCCAGATACTCACGGGTGCCGTCGTTGGAACCG -CCATCGACAACAATCCATTCGAAGCTGATATCTTCCACCTGCGCCAGATGCGCCAGCGAGGCATGTGTTTTGACTATCCC -TTCGAGGTTACGAAACGCGACAGTGATTATGCTAAGCAACATGTTCTTATTCTTACCTCGTAATATTTAACGCTTTTCGC -AAAATAAACGGACAGACGATTAAAAATGCATATTCCGGGCTAAATATCGAACCGGTAAAAAACAGCGATACCGGAGTAAA -AAGATATAATTGCACGCGAAAATTGCGGTTATCACCAAAAGCGTTGATCATCATTTTTATCACTTTCCCCATGTACCACA -GTGATAAAAACACCGCGAACCAGGAAAAATAAATAATCAGCAGATACAAACCATTGTCTATGGTTTTTCCGACATCCGCA -CCGTTAAATATTCCGAATGATGCGACATATTCATAAAGTGAGCCAAATCTGACTACACCGTCAATATGGGTCAAAGAATA -ACCGACCATCACCAGCGGACCGACAATACGATAATATGATGACGATCCTTCCGTACCTAAATCGCCCAGACGGGTGGAAA -TATAAGGAAACGCGATTACCACACCAACCAGGAATACAGCCAGAGAAATCAATGCTAACGGTAACTTTTTCTTAATCGCC -TCTTTATTCAGATATTGAAATGCCCACTCCAGCAAATAAAACAGGATAAAGGTCATAACCCCTGAAAACGATCCGGATAA -TATTATCCCTGCGAGAATCATAGCATCTGTTTTAGGCGTTTTGATACCAAACTGTTTGATGCTGAGCCAAATTGAGATTA -ATGCCAGAGCGAAAAATGCCGGTTCGAAATAAAGTGCTGTCGTGCGCTTGCCGCCGAATTTAATGAAATTCAGCACATAG -CTGTTGCTGTAAATCAGATATTTCGAAATCGACTCCATAATACTGCTGCCACCGGTGAGGATAATTTGTGCCATCTCCAC -CGCCGCCAGCGCCACCACCAGCCCGACCACCAGATAAAAGAAACGTAATATCTTGCGATGGTTGTGTGGCGAAATTGTTT -TAAAACGAATACTCCACACCATGCCAATAATGATCACAATATAGACAAACAGCATAGTTGAAGTGACGTATTTACTGGCA -TCCAGCGACTGACCAAACAGATAGTTAAACGCCGTGAGTCCCGCGCCAATCCCTAAGGCAATCATCAATTTTTTAACGCT -GATGCGTTCTAAAAACAGCAGTAACAAGACAGGTAAAAAAGTGACGATGGTGATGGGGAAACTTTCGCCAAGCTGGGCGA -TTTTGACGTTAACCAGCAGATAAATCAGCGGCAGCAACAGGTAGCTACAGATTCTGATAGAAGTTGACATACTCCTCCAG -CATCTGTTGTCCACTGTAGGCGGCGCGGCTGCGTTGGCTGAACTCAGCCAGCGTGGTACCAAATATCGCCTGCGCGATTT -CCGGTTTGCTTAACTGCACCAGTTGCAGCACCTCTTCTTCGCTGACGGTTTTACCGCCGGATTTTTGCAACACTTCCCGC -GCCGCATCGCTATGGGTGGCAATCACCGGCACGCCAATCGATAGCGCCTCACACAAAATCAGCGGGTAGTTATCGACGCG -AGAACTGAATACCAGCGCATCCATCTGATTGAGCGCGCTCATCAGCTTACGTTTGTCGGTTTCAAAGCCGTGATTAACCA -CGTTGCCAGCGGTGAACGGCGAGAACTTACCAAAGGTATGCAGTTCAATTTTGTCGCCCAGCGCCATCATCTCGCGTACC -AGTTGCTGGTTAGTTTTGCCGTCGTAACGCAGATCATGCGCCACCACCGCGATTTTCGGCTTGCCCTGGGTTTCGCGCAC -CGGAGGCAAGTCCGCCAGAATCGCTTCAGTTGCCATATCAATGCCATTATTGATAATCCGGCAACGCCCTGGACCGTACA -GGCTATTGAAAGCGTCAGCCACATGCTGGCTGGGGGAAATAAACTGACAGCCCAGCGCCAGCATCTCACGGAATAACTGG -CGTTTGCCCGCCACCAGTTGGTGTGCGCGATCAATCTTCACCGGCGGATAGTTATTTAAGGTCGGGCATTTCTGGCAGCC -TGTTTTCCAGCCTTCGCAACCGTCGGTAAAGGCGCAGCGTCCGGTAACACTCCAGTGGTCGTGCAGCGTCCAGACCAGAG -TGACGTCCGGTTTATGGTTTTTCACTTTTTCGCAAAAGCGCACCACGCTCTTAAGATTTAGCCAGTAGCTGTGCAGCACA -TGAAAATGCAGGACCACCGGACCCGCTGTGCGAGTAATGGTGCGATATAACTCATTGAAATTGCCAAACAGATCGCGATT -AAACAGACGAAACAGAGCAATATTCGCCATCGCGGTCATCCGCGGCGTATGTTTGATGACCTGCGGATAGTTCTGATGGC -TGACGCTCTCTTTGCCGCCTTTGCCGTAACCGTAGACAAAATGTGACGCCAGCCCCTGTTGCAGCGCACGCTGGTGGAGA -TCTAACGCCACACCTGCTGCCCCGCCTTCCGCCAGTCGCACATTAAATTGCAAAATATTCATTTAATTACCTTCACTCGC -GCTTTTTCTCCCACCACCAGCGCGTTGTCCGGGACAGAGTCGAGCACCACGCTGCCCGCGCCCACGGTGACGTTGTTACC -AAGCGTGATATCACCAAGAATAATGACGTTGGCACCGAGTTCGACGCCGTTGCCAATGTGTGGACATGCCATGTTATCGG -CACCACGATTGCCGATAGTGACGCCGTGGCGAATGGTAAAATCATCCCCCGCTACCACGTTTTTATTGATCACGACGGCG -TAACCGTGATGGATAGTAAAGCGGCGGCCAATGGTCGCGGCAGCCTGGATTTCATAACCGAAAAAGCATTCGGTGATAAT -GCGATACAGCACCAGCAGCGGGGCCGCCCACAGATTGTTGAGGACGTTCTTTTTGCGCCACACCGAACAAAAATGAGCAA -CACGATAGGCAAGAACCATGCAGCACGGGCGTAAACTCCAGCTGTTGGCGCGCAGATCTTCCAGCATCTTTAGCGCCCCC -GAATACCATCAGCCAGACGTTTGCCGTTACGCACCGACAGCAGCGTCAGCAAAGTGCGCCAGGTCATACGTTTATTGCGG -ATCTGGTAGAGGGTAAACAGCTGATATTTTTTGCTGGCGCGGTCGAATTTGTCTTTGTGCTTGCGGTAAAAGTGGAAGTA -CCCGGAGAATTTTTTCGGTGACGAGGTGATCTGCATTTCACCGTGATTGATATGCAGGATCTGCGTCGCCTCTTCTACTT -TCCACGGTTCGCCGTACTCCACCACCATCCGCAGGAAGATGTCGTAATCCTGTGCCGCTTTCAGTTCGGTATCGAACAAA -CACTCTTTGAAACGCCATGCCCAGGTAAAGACCTGGTTGCCAATGATATTGCGTTTGTAGAACAGGCGGCGTGAATACGG -CGATTTGGGATACAGCGGCAAGCTTGCCGGTTGGGAATAGACTTCGCCCTGGCAAACGTAGTCGTTAGCGTACAAAAAGG -CGTGTGTGACCAGTTGCTGTTTATGGGCGAGGAAGACGCTCAGACGGTTGGGTGTCCATTCGTCATCGTCATCAATCCCG -GTGATATATTCCCCTTGCGCCAGCATAATCGCCTGGTTACGTACCGCGCACGCCCCGCTGTTAATGTCGTTGTGAATGTA -AGTGATACGCGGATCGTTGAGGGCGGTGACGTACTGTTGCAGTTGTTCCCAGGAGGTGGAGCAATCATCCACGATGATCA -TCTCCCAGTTGCTGTAGTCCTGGCGCAAAACCGATTTTATTGCCCGAATCGCCAGTTGTTGGCGGTTCCAGGTCGGCATA -TAGATTGAGATCAGCGGATTGTTTTTCATAGGTTGTTCTCCCGGCTTATGAGCTGGTTTGCTTGCCGGATGCGGCGTGAA -CGCCTTATCCGGCCTACGGGGCGGTGCGAATGCAGGCGTCGTTATTTCGCATCCGACTTATATTCGTATTCGTAATAGCC -ATAATCCTGATACGCGCTGGCGCGGCGGAAGATGGAGTTCAGAATCACCCCTTTCACCGGAATACCGTTTTGCTCAAAGC -GGCTCAGACTGGTTTCCACTTCTTTCAATGTGTTGACCGCATAACGCGCCACCATTAACGTGGTTCCGACATGACGACCA -ACAATTGCCGCATCGGTCACTGCCAGAATCGGCGGCGTATCAATCAACACCAGGTCATAGTTTTTACTCGCCCAGTTCAC -CAGTTCGGCAAAGCGTTCGCTCATCAACAGTTCAGAAGGATTTGGCGGCACCTGACCGCGCGGGATCAGGTCAAATTTGG -CAATAGAGGTCGGTTTAGCAGCGGTAGTAATATCGCCCTGACCAATCAGAATTTCCGACAGGCCATTAACGTTATTAGTG -CCCAACAGCTCGTGGGTGTAGCCTTTGCGCATATCGCAGTCGATCAACAACACGCGTTTATTGGTCTGGCTGATCACCGC -CGCCAGGTTGGCGCAGACAAAGGTTTTACCAATTGACGGGCTAACCCCGGTCATCATCAACACATTGTTCTGTGCCTGCA -TCATCGCGAAGTGCAAACTGGTACGCAGACTACGGATGGCTTCAATCGCCAGATCGGTTGGATTCCCCACCGCCAGTAGC -TGGCTCTGTTTATAGCGTTTAATCCCTTTGATGGTTTTGACGCTATCACGCGCTTTCTGCCATTCCGACAGCGGGATGCT -GGCATAGACGCTAATACCGTGTTCTTCCAGTACTTGCGGGCTTTCAATGCCGCGATTAAACAACGAGCGCAGCAGCACAC -CCACGATAGAAAGCATCAGGCCAAGGATAATCGCGCCGAGGATAATCAGCCCTTTCTTCGGTTTCAGCACGCCAGGCTGA -GTGATTGCCGGGTCAACAATGCGCACATCGCCGACGGTGCTGGCCTCGGTGATTTTCAGCTCCTGCTCTTTATTCAGCAG -TTGCATATAGACCTGCTGACCAGACTCGACATCGCGGGTCAGACGGACAATCTCCTGCTGGGTTTTCGGCATCGCCGTTA -CGCGACCGTTAAGTTTGGCTTTTTCGTCTTCCAGCGCCTGACGTTTCTCCAGCAGCGTGCGGTACGCCGGGTGAACTTTG -GTGTACAGCTTGGAGATTTCCGCCTCTTTAAAGGTCAGTTCGTTCAACTGCGCATCGATGTTCACCATCGAATCGAGCAC -CGCTTTTGCTTCCAGCGGCAGATCAACAGAATCTTTATCCTGACGGAAGGCATTCAGTTTGTTTTCGGCAACATCCAAGC -GGCTACGTACTTCCGGTAACTGTTGCGCGAGGAAGGCGAGGCTTTTCGACGCTTCCGCCGATTTGCGCTCAATATTTTGT -TCCTGATAGTTACGGGCGATGCTGTTAAGAATGTCGCGGATCTGTTCACGATCTTCACCGGTATAAGTCAGGCTCAAAAC -GCCAGCGTCTTTGCCGTTCTCCGTTACCGTCAGGCTGTTTTGCAGTTGGTTGATCATCCCCAGCGTGGAGTATTTGGTGA -CGGTAAACTCACTGCCCGGGCTGGCGTGAATGGCTTCAACCATCAGCGTGACGCCTTCTTTTTTCAGCATCTGGCCCGCT -TGCCCCCGGGCGCTAAAGCCGCCGTCGCTGCTCAGGGTGTAGTTTTTGTTGTCCAGCACATTAAGCGTAAACACCTGATC -CGCCATCTCTTTCGGGCGGTTAAAGGTGGTCACTTTCACCGTCTCGTTCTGACGTCCCATCAGGCGATCCCAGCCCGCAC -CGAAAATCGGGAACGTGTTTTTGCTCACTGCAATATCGAGGTCGAGATCGTCCACCGTTTTACCAAGCACCAGACGCGAA -CGAATCAACTGGATCTCGGCGTCCGATGCAGGCGGTTTGTTGGCTAATGCCGAACCAATGTCCTGCACTAACGAATTGCC -GCTGTTTTGCTCGATTTGTACCAGTGCGTCGGCACTATAAATCGGCGTGGCGAAGAAGGTGTAAACCACGGCACAGAGGG -CGAATACGGTGGTGATGCCAATCACCCACCAGCGCGCTTCAATGACGGTGCCGACCAGGCGACCAATATCGATTTCATCA -CTGCCCGTTACCGGAGCGGCATGTTGTTTTACTTTTTCTGTCATTCTTATACCTGCTCTGCGTTCAATGCCTGCGCCCAC -TGGCGGGCAGACCGTTCAAGTAATGTGTACACCGCTGCAAACGTTTCCCGGCTTTTGCGATACGGATCGGGGATTTCACA -TTCGTTATCCCAGTGACCAAACAGCATCACTTTGCCGCGCATCTCCGGTGCCATCTCGCATAAGCGTTCGATATGGCGCT -TTTCCATGGTCAAAATCAGGTCGTAGTTGCGACACAGACGGCGGCTGATTTGACGGGCACAGTGACCTTCCAGAGACAGT -TGATGTTCTGCGGCGACGCTGATAGCGGTAGGATCAGCGCCCTTACCGACCAGCGCGCCGAGTCCAGCGGACTCCACTTT -CAGCTCCGGGTGATAACGTTGCAGTAAGCGTTCCGCCGTCGGGGAACGGCAAATATTGCCGACACAGACAACTAAGATGT -TGTTAAACATGACGATTACCAGTTATGAATGTCGCTGGCTGTATCCGTCATGTAACGGACACCGCTAATAGTTGGCAGCA -ACTGATTGATCAGACGGTTCCAGCGGGAAACCGGGGCGGTGGTGACATACACCACGTCATAAGGTTGCAGGCGGAATTCT -GTCGCCATCACCAGCGACGTGGCATCGGACATATCCAGCTGGTAGATATTGGCAATCTTGCCGTTACGCCCGCCCTCGCC -TTTCAGCGGACGAATGACAAAGATGCCGCTGGCGTTGGAGGTGGTCATGTCGATGCCTTCAGCATTGCCCAGGGCTTCAG -TCAGGGTCATGCCGCTAAAGTCCATTTTCAGGGTGCTCTGTTTCTTCACTTCACCCATCACAAATACTTTCAGATCATCA -TTACGTGGCACGTAGAGAATATCGCCGGGGTAAAGCAGGCGATTCTGGTTGAGGTCGCCGTTTTGCATCAGCGCCTGCAA -AGAAATGCGCTCTTCACGACCATTGTGTGTTAGCACCACGTTGCGCCAGTCAGCGGTGTCGGTCAGGCCACCTGCGGCGT -TGATGGCGTCGAGAATAGTCAGTGGCACGTTGGTGATCGCCTGTTGACCGGATTTATTCACCTGACCGGAGATATAGGCC -TTTTGTGAGCGGAAGGCGGCGATATTAACGTCCACCTGCGGGTCAGCGATGTACGTCGCTAAGCGCCCGGTAATATCACT -GCGGATTTCAGCGAGCGTTTTCCCGACTACGTGGACCTTGCCGATATACGGGTAAAACATAGTGCCGTCAGGCTGTACCC -AGTTGCCGGTGTCGCTGGAGCTGCGGTACTGACCGGCTGGCGTGGTGAGTTCCGGGTGATCCCAGACGGTGACATTAAGA -ACGTCCCCCGGCCCGACGCGATACTGGTAATTCGCGATCTCACTTTCCAGCGTCATATTGGGGCGCGCTACATTCGGGCG -TGGGCGTAATTGGTCAATCAGGCGCGGGGTCAGCGGATAAACATTCACCATTTTGTCGAGATCGAAATCAGCGTCCTGCT -GTTTGATGACGTCTTTGCCCATCGTCGACATATTGCTGCCCGGAAGTACTGTGCAACCGCTTATCAAGGTTACTGACACC -AATAATGGCATCAATTTCATTTTGGATTTCATCATTGTTTATTTATCACTTTGGCAGAGTAATTATCCTGTGCACTATTA -ATAGCAATGTCGCCATGCACATTTACCTTGCAGTTAATTGAATAAAAATTTAACTGGCATCAGTCCTAAAAAAATTGATT -TCATCCGCAGGCTATTGACAGAATAATTCAGACTGGTCTTTCAGGCATCCAGACACGCTACCGCCCCTGGCTTTTTAGCT -ACCAATACACTGATTTAGTTTAATTTTTCACACCCTCTCAGCATGCAGTCGTTGATGAGAAAGGGTTATTACGGAAATTA -ACTTCCGAATATAAGGTGACATTATGGTAATTGAATATTGGCTTTCCAATAATGCAGGAGGAAGTGTTACAGCTAACGGA -ATAGCAGGCAAGATAACAATTCGGTAATTGGCTATTTTTAAGAATTATATTAAGTGTCATTCAATATGGTTTTTAGGAGT -TTCTTTAGGTTGACAATATTTAATATAGTGTCTCCACATGCGATATTTCTTAAATAATGTTTTATTATTACCACTTTTAA -TTCAGGGATAATGTGAGGTTATTACCCTCAAATAATATGAGATAAATAGTGCTGCAACATTGCATTTTTGCCCCGATTTA -TCCATGATCGAATTGTGACATTTGTCATACAACGAATAGGTTTTGTACTTACTATGGAATGGATTGCCGATCCGTCTATC -TGGGCCGGGTTAATCACGCTGATTGTGATCGAACTGGTCCTCGGCATTGATAACCTGGTCTTTATTGCCATCCTCGCCGA -AAAACTACCGCCGAAGCAGCGTGACCGCGCACGGGTTACCGGGCTGCTGCTGGCAATGTTAATGCGCCTGTTACTGCTGG -CGTCAATCTCCTGGCTGGTCACCCTGACTCAACCGCTGTTCAGCTTCCGCTCGTTTACCTTTAGCGCCCGCGACTTAATC -ATGCTGTTTGGTGGTTTCTTCCTGTTGTTCAAAGCCACGATGGAGCTGAACGAACGGCTGGAAGGGAAAGACAGCAATAA -TCCCACACAACGCAAAGGTGCGAAGTTCTGGGGCGTGGTGACGCAAATTGTGGTACTGGACGCCATTTTCTCACTCGACT -CAGTGATTACCGCCGTCGGGATGGTCGACCATTTACTGGTCATGATGGCCGCCGTGGTTATCGCTATCAGCCTGATGTTG -ATGGCCAGCAAGCCGTTAACGCAATTTGTTAACAGTCACCCGACGATCGTTATTCTCTGCTTAAGCTTCCTGTTGATGAT -TGGCTTTAGCCTGGTGGCAGAAGGTTTCGGCTTCGTCATTCCGAAAGGCTACCTGTACGCTGCCATTGGTTTCTCGGTGA -TGATCGAGGCGCTCAATCAGTTGGCTATCTTTAACCGGCGACGTTTTCTTTCCGCTAACCAGACGCTGCGCCAGCGGACT -ACCGAAGCGGTAATGCGCCTGCTTAGCGGGCAAAAAGAAGATGCGGAACTGGACGCCGAAACCGCGTCCATGCTGGTGGA -TCATGGTAACCAGCAGATCTTTAATCCGCAGGAACGGCGGATGATTGAGCGGGTACTTAATCTTAACCAGCGTACCGTCA -GCAGCATTATGACGTCGCGCCACGATATTGAGCATATCGATCTCAACGCGCCGGAAGAAGAAATCCGCCAGTTGCTGGAG -CGAAATCAGCATACGCGGCTGGTGGTTACCGACGGTGATGACGCAGAAGATTTGCTCGGTGTTGTTCACGTTATCGACCT -GCTACAACAGTCTCTGCGCGGCGAACCGCTCAACCTGCGGGTGTTGATTCGCCAGCCGCTGGTGTTCCCGGAAACCTTGC -CGTTGTTACCTGCCCTGGAGCAGTTCCGTAATGCCCGCACGCACTTTGCTTTTGTGGTGGATGAGTTTGGCTCGGTGGAA -GGGATTGTGACATTAAGTGACGTCACTGAAACCATTGCCGGTAACTTACCGAACGAAGTGGAAGAGATCGACGCCCGCCA -TGATATTCAGAAGAATGCGGACGGTTCCTGGACGGCGAATGGTCATATGCCGCTGGAGGATCTGGTGCAATATGTGCCGC -TGCCGCTGGATGAAAAACGTGAATATCACACCATTGCCGGGCTGTTGATGGAGTATTTGCAGCGTATTCCAAAACCTGGC -GAAGAAGTTCAGGTGGGGGATTATTTGCTTAAAACGTTGCAGGTAGAAAGCCATCGCGTGCAGAAGGTGCAGATTATACC -GCTGCGTAAGGATGGCGAGATGGAGTACGAGGTGTGATGGTATCGGTCATTTTACCCAATAGCCGAAAGGAATAAGATGA -GGGAACCGCGCCATCGGCGATTTACCGCCGGGAGCCCGGGTTGCCAGGGTGGTGGAGATTGAGCCACCCTGGCACGTTCA -CCGGCTTGAGCGTTCCATAGTAGCGAGGAACATCAAGTGAACGGAACAGCCTTCGATCTTACATATTCAGAATATAATGA -TGCCGCCACGAACGCCTGATGCGACGCTTTACGCGTCTTATCAGGCCTACAGGACTGGTCACCTGGTAACCTACATCTTC -TCCAGCAACTTCTTCACATCTTTGCCATTACGGGAATCTTTATTCCGCTCGGCCCAGTCATTCAGGCGACGTTTCGCTTC -GTCCTGTAGATGTTTGCGCAGTAACTGATCCACTTGCAGGCTGTAATTGAGTTGCTGCCAGTTGCCATAAACCCGCAGCG -GTACTGGCGTTTCTTTCAGGAAATCAATCAGTTTGCTTTCCCCGTTCCAGCCACCCACGACCCGAATATCAAACTGGGTG -TCGCAGGTTTGATCTGCCAGATTCAACATGCCTTCCCCTGTCAGCGCCAGCACAGGCGATTGACCTTGCATGTCGTTTAA -CGTCACGACGCCATCCTTCAACGTCAAATCGGTGGTAAAGCGGTCAAGCCGCGTCACGTTATCAAAGTTTTCAGCGGCCT -TCACATCACCGCCATTACGCTCTACCGCTTGCTGAATCATCTGCTGGAAGTTCATCCCTTCCATGCGCGTGTCGGTCATT -TCGACATGTGCCTGTCCTTGCCAGTTGTGGCGGAATGCGTCGGCATCTATGTCAGCACCGGAGAAATCACCAGCCAGTGA -CATTTTTCCGGTCAACGAAATCGGATAGTTAAACGCCTTCAGAATGGTACCAATCTCAACGTTTTCCAGCCGTGGCTGGA -AGTTTATCCGCGGATTTATTGATGTCGCGTCCAGCGTGCCCGGCAGTGAAACCTGTCCACCGTTAAGTTTGCCCTGCAGT -TGAGTAATTTCCAGCAAACCCGACTTGTTGGTCATTTGCGTGGCAACATCTGTAAAATTCATTCCGCGCCAGCGCACGTT -ACTGGCCTGCAACAAAATATCAGCCGTAAAGCCTTGCAGTCCCTGATAGGCCGGTTCATCAATACGCGAAGAAATGACCG -GGCGCGGCAACGTTGATTGGCTCTGCCCCTGCTGCGCGGCACCGTTTTCACCATTCGCGGTTTCATTAAGCGGGATGAGG -TTGTCAAGATTCAGTTGCGGGAATTGCAGCCTCAGCTGCCATTCCGGTTTCTCTGTCAGCGTAACCTGTGCTTGCCCGCT -TAGCGTACTATCATTGGCGGTCAAACTAATTTGGTTAAATGAAAGGCGTTTATGTGACTCCTGCCACTGGGCCTGGAAAC -TCCCCTGCCCCTGAATACCTTGTTTTGGTAAATCGGCACCCTGCAACTGCCAGTTAATTTGTTCAATAGCCGCCGTTAAA -TCATGCGGATAATCAGAAGCATCTACCGTACCGTTAAGGGATATCGTGAGATCGCGCTGATCGCGATTAACCCGCCCGGA -GAACTCAAATGAACCACGATGTTGGGGATCTTGTTCCATTTGCAGGCGAATATTGCGGATTGTCACCTGCTCGTCATCTT -CATGCTGGAACACCAGCACGCTGTCCGCCACCTTAAGACTGGATATATCAAACGACCATCCGCGATCGTCTGACAGATCC -GGCAAGGTATTGTCGCGCGGTGCAACCGGAGCGTCTTCACTGCGCACCGCTTCCGTCTGCGGCGTCAGTTGGATCACTGC -CCCTTTTAGCATCACCTGCTTAACGCTCAGTTGATGACTCAGTAGTGGTAAAAGCGCCACGTCCAGACGCATGTTGTCGG -CGCGAACCAGTGGCTGGCTTGCGCCCTGGGCGGTGAGAGACATTCGCCCGGAGAGGATACTAAGCTGCGGCCAGACGTGC -CAACGCAGTGGCCCGTCGAGCTGCAATTGATAACCGCTACGTGCAGCAACTTGCTTGACCATATAGTCGCGGAAATCATT -CGGATTCACCAGCAACACTAACGCAGATAACCCGGCCACCAGCACGACCAGGAGTATCATCAGCGTCGTCAGAAATCGTC -TCATGGTATCCTCAATGGGCCTGAATTAGTCTTTATCGATTCGGCTGGCTACCGCGCCCTGCTGGTTGCGATATTTCGCA -TCTTCACGGCGGTTGTAAGGTCGCACCGCCGGGCCGGAAAGCGGCTCAAAGCTCAGCGCACCAATTAACATGCCCGGACG -CAGCGCCAGCGGCAGCTTACCGGAGTTGTAGAACTCCAGCACAATGCAACCAGACCAGCCCGGATCGATGCGGTGCGCGG -TGACGTGCACCATCAGCCCCAGACGCGCCAGTGAGGAACGCCCGTCCAGCCAGCCCACCAGATCGGCTGGCAGCGTCACC -GACTCCAGCGTCACCGCCAGCGCCAGCTCTCCTGGGTGAAGATAGAACGCCTCGCCCTCGTCGAGAACGATCTCATCGCT -CATCACGCGGTCAAGCGCGGCGCTCACTTCATCTTTGGGACCGCTCAGATCGATAAACGCTGCCGTGTGACCACGGAAGG -TACGAAATTTATTGCCCAGGCGTACATCCACCGTCGCGCCGTTAATACGCTCCACTGGCGGACGTGGGTTGATCGACAAA -CGGCCTTCATCAAGCCAGGCTTCAATATCTCGGTCACACAGACGCATGGCATTTTCTCCTTTCGCGCATCACTCCCTTAA -CGCCAATTACGTCAAGGGCATACTAGGTTATCACTGAACGGTACACAATTTATCAAGCTTATTCAAAGAACTGACTTATT -TTCGCTTTCAATATATCGATCGCGATGCGGTTTTTCCCGCCGCGCGGCACGATAATGTCCGCATATTGTTTAGAAGGCTC -AATGAATTGCAGGAACATCGGGCGCACGGTTTTTTGATATTGCGCCATCACTGAATCCATTGAACGCCCACGCTCGTTAA -CGTCACGCTTGATGCGGCGCATCAGGCAGATATCCAGCGGGGTATCAACGAAAATGGAGAAGTTAAGTTCGTCACGCAAA -CGCGCATCCGTCAGCAACAAAATGCCTTCGAGAATGATGACCTTCTTCGGCTCAACCGTCACCGTTTCTTTCATACGCGT -ATGTTCAACATAGCTGTAAACCGGCAGGTCAATTGCCGAGCCGCGTTTCAACGCTTGTAAATGCTCAAGCAGCAGACTGT -GATCCATCGCGCTGGGATGGTCGTAGTTGGTCTTAACGCGTTCTTCCATCGACAGATGGCTTTGATCTTTGTAATAGCAG -TCTTCGGGAATTACGCCGATGTGTTCATCACCGACTTGCTCACGCAATTCACGATAAAGGGTACTGGCAATAAGACTCTT -GCCGGAAGCCGATGCGCCAGCGATACCGATAATGACGCACTGATGAGACTGATCAGTCATATATTTAGCGACCTGATTAA -CCTGGATGTTAGGAAGGGGGCGACGAAGCGCCAAACGCGGCAATTATAGGGATTTCATCCGTCTGATACCAGTCGAATAG -CGTTGCCGCGCGCTCAGAGTTAATTGTTGACAAAGAATTCCCGGGGGCAAATTACGTTGATCAGTTTTATGTAAGGTAAA -AAATGTTAAACGCAGTTGCGCAAATTATCCGCCTTTACGTCACTTTATGAGCAATTCGCATATAAAATGTAAAACTTTTG -TACTAGCATAAACACAGAAACGAATACTGGCGACCAGGTCTTGCGGATAAAGCGGTAATGAGCAAACAATCACAGCATGT -ATTAATTGCCCTGCCCCACCCGCTGCTTCACCTGGTCAGTTTAGGTTTAGTCTCGTTTATCTTTACCCTTTTCTCGCTTG -AGCTTTCGCAGTTTGGCACCCAACTCGCCCCACTGTGGTTCCCGACGTCCATCATGATGGTGGCGTTTTATCGCCATGCC -GGGCGCATGTGGCCGGGAATTGCGCTGAGCTGTTCGCTGGGAAATATCGCCGCATCCATCCTGCTTTTTTCCACCAGCTC -GCTGAACATGACCTGGACGACCATCAATATTGTTGAAGCCGTGGTCGGGGCAGTGCTGCTACGTAAATTGCTGCCGTGGT -ATAACCCCTTGCAAAATCTGGCTGACTGGCTGCGTCTGGCACTCGGCAGCGCCATTGTTCCGCCTCTGTTGGGGGGTGTT -CTGGTTGTCCTGCTGACGCCCGGAGACGATCCTCTCAGGGCATTTTTGATATGGGTACTGTCAGAATCCATCGGCGCTCT -GGCACTGGTGCCGCTGGGATTGTTATTTAAACCACACTATCTGCTGCGCCATCGCAACCCACGGTTGCTTTTTGAGTCGC -TGCTCACGTTAGCCATCACACTGACGTTAAGCTGGCTTTCGATGCTGTATCTGCCGTGGCCTTTTACTTTCATTATTGTG -CTGTTGATGTGGAGCGCCGTGCGTCTGCCACGAATGGAAGCCTTTTTGATCTTCCTTACCACGGTGATGATGGTGTCGCT -GATGATGGCCGCGGATCCCTCCCTGCTTGCTACGCCGCGTACGTACCTGATGAGCCATATGCCGTGGCTACCGTTTTTGC -TGATCCTGCTGCCCGCCAACATCATGACCATGGTGATGTATGCCTTTCGTGCGGAACGCAAACACATTTCCGAAAGCGAA -ACCCACTTTCGGAACGCGATGGAATATTCCGCTATCGGTATGGCGTTAGTGGGCACCGAGGGACAATGGCTGCAAACCAA -CAAAGCGCTCTGCCAGTTTCTCGGGTACAGTCAGGAAGAGCTGCGCGGACTCACCTTTCAGCAACTGACCTGGCCGGAGG -ATCTCAATAAAGATCTCCAACAGGTTGAAAAGCTGATAAGCGGTGAAATAAACACCTATTCAATGGAAAAACGCTACTAC -AACCGCAATGGCGATGTTGTCTGGGCGTTGCTTGCCGTCTCACTGGTGCGCCACACGGATGGCACGCCGCTCTATTTTAT -CGCTCAGATTGAAGACATTAACGAGCTAAAACGCACCGAACAGGTCAATCAGCAACTGATGGAGCGCATCACTCTGGCTA -ACGAAGCGGGCGGGATTGGCATCTGGGAGTGGGAGTTGAAGCCGAATATTTTTAGCTGGGATAAGCGGATGTTCGAGCTG -TATGAAATTCCTCCACATATCAAACCGAACTGGCAGGTGTGGTACGAGTGCGTGCTGCCGGAAGATCGCCAGCATGCCGA -AAAAGTGATTCGTGATTCGTTGCAATCACGCTCGCCCTTTAAACTGGAATTTCGCATTACCGTAAAAGACGGTATTCGCC -ATATCCGCGCCCTCGCCAACCGGGTACTGAATAAAGAAGGCGAAGTCGAACGTCTCCTCGGCATCAATATGGATATGACC -GAAGTGAAACAGCTTAACGAGGCATTGTTTCAGGAAAAAGAGCGCCTGCACATTACGCTTGATTCCATCGGTGAAGCCGT -GGTCTGTATTGATATGGCGATGAAAATTACCTTTATGAATCCAGTGGCGGAGAAGATGAGCGGCTGGACGCAGGAAGAAG -CGTTAGGTGTTCCGCTCCTGACGGTGTTGCATATTACTTTTGGCGACAACGGACCATTAATGGAGAACATTTACAGTGCC -GACACCTCACGTTCCGCGATCGAGCAAGATGTGGTGTTGCACTGTCGGAGCGGCGGCAGTTACGACGTGCATTACAGTAT -TACGCCGTTAAGTACTCTGGACGGCAGCAATATTGGTTCGGTTCTGGTGATTCAGGACGTTACCGAATCACGCAAAATGC -TGCGCCAGCTGAGCTACAGCGCCTCCCATGATGCACTGACGCATCTCGCCAACCGCGCCAGTTTTGAGAAACAACTGCGT -ATCCTGCTGCAAACGGTAAACAGTACACATCAGCGACATGCCCTGGTGTTTATCGATCTTGATCGCTTTAAAGCGGTGAA -TGACAGCGCCGGGCATGCGGCGGGTGACGCTTTGCTGCGCGAACTGGCGTCGTTAATGCTGAGTATGCTGCGTTCCAGCG -ACGTGCTGGCGCGACTCGGTGGGGATGAATTTGGTCTGCTGCTACCAGACTGTAATGTTGAAAGCGCGCGTTTTATCGCT -ACACGCATTATCAGTGCCGTGAATGACTATCACTTTATATGGGAAGGCCGTGTGCATCGGGTAGGTGCCAGTGCCGGGAT -TACCTTGATTGATGACAACAATCATCAGGCGGCAGAAGTGATGTCGCAGGCTGATATCGCCTGTTATGCCTCCAAAAATG -GTGGCCGGGGCCGGGTGACGGTTTACGAACCGCAGCAAGCTGCCGCACATAGCGAACGGGCGGCGATGTCGCTTGATGAA -CAGTGGCGGATGATTAAAGAGAATCAGTTGATGATGCTCGCCCACGGTGTCGCTTCGCCACGGATCCCGGAAGCGCGTAA -TTTGTGGCTGATTTCACTTAAGCTCTGGAGTTGCGAAGGCGAGATTATTGATGAACAAACATTTCGTCGTAGCTTCAGCG -ATCCGGCGCTTAGCCATGCTCTTGACCGCCGGGTATTCCACGAATTTTTCCAGCAGGCCGCAAAAGCGGTTGCCAGTAAA -GGCATAAGCATCTCCCTCCCCCTTTCCGTTGCCGGTTTGAGTAGCGCCACGCTGGTGAATGATCTGCTTGAGCAGCTGGA -AAATAGCCCTCTACCACCACGGTTATTACATCTGATTATTCCGGCTGAAGCGATTTTAGATCACGCAGAAAGCGTGCAAA -AACTGCGGCTGGCGGGATGTCGGATAGTGCTCAGCCAGGTGGGCCGCGATCTGCAAATCTTCAACTCGCTGAAAGCGAAT -ATGGCAGATTACCTGCTACTTGATGGTGAGTTATGCGCCAACGTGCAGGGTAATTTGATGGATGAGATGCTGATTACGAT -TATTCAGGGGCACGCTCAGCGACTCGGGATGAAAACCATCGCCGGGCCAGTCGTTTTACCCTTAGTGATGGATACGCTTT -CTGGCATCGGCGTCGATCTGATTTATGGTGAGGTGATTGCCGATGCCCAACCGCTGGATTTGCTGGTGAATAGTAGTTAT -TTCGCGATTAACTGAGGCGTGCTTCCCCATCGCCTGATGCGACGCTAACGCGTCTTATCATGCCTACAAATCGCTCATTC -CCCAGGCCGGATAAGGCGCTCGCACCGCATCCGGCGACCAACGTCATGCTTCGTCTGGTTGCCAGCCTTCCGTATACCAG -ATATGCAACAGCGCATAAGAACGCCAGGGCTTCCAGCGCTCGGCATAACGGCGGATTTGCGCCGGTGTCATTCCCGGAAA -TCGCTGTTTAATCAGATAATCATCCGGCAGGAAAACATCTTTCGCCTGCCAGCCACGCAAAGCAAAATAATTCGCCGTCC -AGCGCCCGATACCCGGAAAAGTTTGCAGCGTTTTCATCGCCTGCTCCACATCGCCCGGTATTGTCATTGGTAAGGTGCCC -TCCAGCGCCGCATTTGCCAGATGAATCAGCGCCTCTGCCCGTTTCAACGGCATACCTAACGCTTTTAATGCCTGCGGGTC -TGCTGCTGCCAGCCGCTGAGGCGTCGGGAAGCAGATATACTCCGGAAAATCATCCAGCCGTTCGCCATAAAGCTGTGCCA -CTCTGGCGGTCAATTTTGCCGCCATCGCCACGCTCACCAGTTGGCCTAAAATCGCCCGCACGCCCTGCTCAAAAGCATCA -ACACAGCCGGGTAAACGCAATCCGGGCCGCGCCGCGCCTAACCTGCCCAACGCACCGTTAACAATTTGTGGGTTACATTG -CAGATCAAACAGGCGGCTCATTTTCGCCAGACACTCTGCGGCAACAGGTTCTAAACCTGCACTTAAATTTATGTGCAGAG -TATGGCGGGCTATATCCGGAATAGCAGTCACCACGCCGCGATATTCGCCCACCGCCAGACTACGGGCATAATAACTGTCC -GCGACCGTTTCCACACTGCTCACCGCACGGGCGGCGAGAAATCCCAACATCCACGACCAGTCATACGGCGGCTGCCAGTT -CAGGGTATACATCGCATCTCCTTATTCATCCGCTTTCAGCATAAACGTTATTCAGACGCTGCGCTTTGCTTTCATATTCC -GGTTGTCGCGACGGCAACATTTCGCTAAAGTCACGCCCCTTCTTCACCGGCATGGGGATTATTTCGTGTTTATTGGTTTT -GATTACGGTACAGCAAACTGTTCAGTGGCGGTCATGCGTGACGGTAAACCGCATTTGCTAAAAATGGAAAACGACAGCAC -GCTGCTGCCTTCAATGCTTTGCGCGCCAACGCGTGAAGCGGTAAGCGAATGGCTGTACCGCCATCATGATGTTCCGGCAG -ACGACGATGAAACGCAGGCGCTGTTACGTCGGGCGATTCGTTATAACCGCGAAGAAGATATCGATGTTACGGCGAAAAGC -GTGCAGTTCGGTCTTTCCTCACTGGCACAGTACATTGATGATCCAGAAGAAGTGTGGTTTGTGAAATCACCAAAATCGTT -CCTCGGTGCCAGCGGCTTAAAACCGCAGCAGGTAGCGCTGTTTGAGGATCTGGTCTGCGCAATGATGTTGCACATTCGCC -AGCAGGCGCAGGCACAGCTGCCAGAAGCGATTACTCAGGCGGTGATTGGTCGTCCGATCAACTTCCAGGGGCTGGGCGGT -GATGAAGCAAACACCCAGGCGCAAGGGATTCTGGAACGCGCGGCGAAGCGTGCCGGATTCAGGGACGTGGTATTCCAGTA -CGAGCCGGTCGCGGCTGGGCTGGATTACGAAGCCACCTTGCAGGAAGAAAAACGGGTGCTGGTGGTGGATATCGGCGGTG -GTACGACTGACTGTTCATTGCTGCTGATGGGGCCGCAGTGGCGTTCGCGTCTCGATCGTGAAGCCAGCCTGCTGGGTCAC -AGTGGTTGCCGTATTGGCGGTAACGATCTGGATATCGCGCTGGCGTTTAAAAACCTGATGCCACTGCTGGGTATGGGTGG -CGAAACCGAAAAAGGCATCGCCCTGCCGATCCTGCCGTGGTGGAATGCGGTTGCCATCAACGACGTACCTGCGCAGAGTG -ATTTCTACAGTAGTGCCAACGGTCGTCTGCTTAACGATCTGGTACGCGATGCCCGCGAACCGGAAAAAGTGGCCCTGTTA -CAGAAAGTCTGGCGTCAGCGTTTAAGCTATCGCCTGGTGCGTAGCGCAGAAGAGTGCAAAATTGCTCTTTCAAGCGTAGC -GGAAACCCGCGCCTCACTGCCGTTTATCAGCAATGAACTGGCTACGCTGATTAGCCAGCGAGGGCTGGAAAGCGCCCTCA -GCCAGCCACTGACGCGGATTCTGGAACAGGTGCAACTGGCCCTGGATAACGCCCAGGAAAAACCGGACGTTATCTACCTG -ACCGGCGGTAGCGCCCGTTCTCCGCTGATTAAAAAAGCGCTGGCAGAACAGTTGCCGGGCATTCCGATTGCAGGCGGCGA -TGACTTTGGCTCCGTCACCGCCGGGCTGGCACGCTGGGCGGAAGTGGTGTTTCGTTAATTGAAAAATGGCTCAGCAGCGG -CTTAAATCTGCCTGCGCCTGAGCCAGTTTTTCTGCTGCCTGACGTAACGGTTCCATCAACGGCATGGTCCGTGCTGGAGC -ATGAAGGCGGAATCGCTGCAACTCTGTCGCGCCGACTGTCAACGCCGATTCCAGCCGATGTCGTTTGGCGGTCATTTTCG -CCATTACCGCTTGTCTGTCTGCTGGCGTTATCGCTTCATTCGGCCTGAACACAAAACGGCGTTCACAGCTCGCTTTCCAG -TCGATAACCGCCTGGGTCAGATGGTCGCCAAACCCTTTCACTTGCTTAACGCCACGACGGGTAACATCTGCGGCTGTTTC -AATACCAAAAGACCGTAACGCCGCTTTACGCGCAGGGCCAACGCCGGGAATAGAGGCAACATCAATAAAAAATCCCTCCA -GAAACTTCTGCTTCTGCCGTTCCCTTGCAGTGTCATGAAGTGCTGCCAGAGCGCGTTTCTCTTCTTCCGGTAACCCGAGA -ATTTCGTCCTTCATTTTTTCGAGCATCGTCCGTTTGGCGATAAAACCTTCCAGGCCGCCTACCTGCTGGATCTGGCGGAC -TAAATGGTCATAGTCCATTTTCGCACGATTAAATGCCTCACGGCGTTGCTGAACTTCTGCTTTGTACGCTTTGCTTGTCA -GACTGCCAATAATCCAGATAGCCGCCAGCACAGGAACCAAAATAATATAACGCGGTTCTGCCTGAAGGCCGCAAAGCAGC -AGCGATAATGCTGACAGTGCGATCTCAAGCAGAATGATGTATTCGCGCCGTAACAGGCCTAAAGGAAGCGGCCTGCCAGT -CGGTTGGAAATGATCGGGTAATGGCAGTTGCAATGCTGGCGGTGCTACTGACGCCATCACCATCGCCCAGACTTTCGCCA -GCACAAAATTCCCGCCGGTGGTAATGACCTCTTCGCCGAGATCAATAAAATAGATAACACCTTGATTATCCAGCGCACAC -CACGGGCAGTCAGTCAAATGAGCGGGGTAAACATGCATTGCTGAAACGATACATTTCTTTAACTGTTGGCGTAGAGAGTC -CAGTGCCGCTACCCACGCTTTAGCCGTCGGACGCCCGGTTGCCACGCCACTTTCCGTGAATGCCTGCTGAAACATGGCTT -CAACATCACTCGGTAACATCGATAGCGGAATAGATCGTGGCGGCGGTTTTAAACCACGTCGCTGATTATCTGACGCGTAG -GCATAACGGAAATGGGTAATATCCGTCTCCAGCGCATTACCCGCATCAGAGATAAGCGGCACACCAGAATAAGGATGCCG -CCCACCAAACAAGACGTGAAAAATTAGCAACGCAAGGCCAAAATTATCGTGATTTTCTGTGCGTTCAAAACCGACAAATG -ATGGCAAGGTTTGTAGCTCTGGCGGCGTAAAATGCGACACGCCGACTTCGCATAAATGCAGTGTGCCATTGGCGTTAATT -TGAAAGGAGTCGCTATCAATCAGTACCACTTTGCTGTCGCGACCTACCATAAAACTGTTCTGGTTTACGTCACCCACGAC -GTGCCCGTGCTCGTGAACCGTAGCAAAAGATGAAGCAATATTGCGCGCAACATAGAGTAGAAAATCCCACGCACAATGAG -GGTAACTCTGGCGACGATGTGCCGGGCTATAGATCATATGAATCGGTTCTTTACCAGAAACTTTTGGCATCATAAAACCG -ATAACTTTTCCGCCTCGTCCACCGTGAAGCGTTGCCTGCGGCCAGGCGACATAATTCAACAACTGCGCGTCAGCTGTCGC -AGCCATAAAGGCAAGTTTGTCCTGTTTTAAGGCGGGTGGCGGCGTGTGATAAATCTTGGCGACGCTATCGACAAACTCCT -CGATATCATAAACCGCGCCTTCACCACCTTTGCCCAGTTCACGGCCAAGAGTGGTCAATTCACCTGTCGATGTAAATACT -TTTATATTTGTTTTCATAATATTTCGCGGGTAGTTATATTATATTTCAATGAATAATAACAACTAACCATTAAAATTATT -TCTATATGGGGAAAACCCACTCAAGAATAAAAATGATAATGCAATTTTATCAGGATACAATTCAATTTCGGCCTGATAAT -GATTAACTTCCACAGGTTTTTGCTAACTTTGACTACAAAGGGATTCTGGAGAAAAAATGAAAAAGATATTACTTATGTTG -AGTCTGCTATTTTTTACTACCGCGGGCTTTAGTGAAGTTTCGGATACGTTAGTGACGGGAGGTTATGATAAACAAGCGAT -GTCTGACGCGATTAAACATGCGCGGAAAGAAACCGATAAATTCATCGAGGTTATGAATAAAAAAGATGCCGATACTTTCG -CAGTCAAAGCCCCGATAACCGATCACGGAAGAACCGAGCATTTCTGGCTTACGGATGTCACTTATTCTAACGGCATGTTT -ATTGGCGTAATCAGCAATGACCCTGGTATTGTTACAAACGTAGAATATGGCCAGGAGTGGAAAATCAAGAAAGAAGATAT -TTCAGACTGGATGTATACGCGCGGGGATAAAATTTACGGCGGTTATACCATTGATCCTTTATTGGTCACCTATCCAAAAG -AAGAAGCCGACGAGCTAAGAGCAAAATTAGTTCGCTAATCAGCCGTTATATTTATTGTTTAAACTGGCGGTTGAATTGTT -GTCTTCAACCGCCATGAGAAACTCACTCTGCCCACAGCGCCAGTGCCAACGTTTTATCATCATCCGTACGCTCGTTTACC -GCCGGGCTGGACAAAAACTGCTTTAACAATTCAGGTAATAAATCGAGTTGTTCCTGCGTTGCTGCCGCCAGTCCATTGAA -AAACGGGGTAAAGAAAGGCACATGAGGAGAATTATCCAGCATATTTAACGCCAGTCGCTGGATACCATCCGTAAATGCTG -CAACTTTGTGCGCACGCCCAGTGCTGGTGAAAGTTTCCAGTCTGGAAACGGCATCTTCGTCGGTAATGAAGTGCGTCATG -TTGGCATATTCACCCGCCATCGGCGTGAGAGGCAATTGCAGACCGTGACCCAAATCTACCACCACGCCGCCATCGCCAAT -CTGCATAATCAAGGTGCCGTCAGGCGATGAAATCAGTCCCAGAAATGTGCAGGCAAAATCGCGAACCGCTAATTCTTTGG -CTTCCGCCTCGGCAAAAAGTCGTTGACGAATGGTCAGTACCATATTTGTGGCGAGGACATCATTAAGCCCCAATTCCCCG -CCCTGCACTTTTTGCGACATATAAGCCATCGCTTCATTGACGGCGAGCATCGCGCCTTCGCCACCCTGCGAGACACTGCC -TGCGCCATCAGCGACAAATACCGACAATAATGGCTGCTGGTCATTTAACCAGGCAATCTGCATCTGGCAGGCATCCTGAC -AAGGCAAGTCCGCGCTGATGTGCGACGTTCCAACGGTTGATGCATAGACCAGACGCCAGCTCACACTGACGTCCAGCCTT -TTGGCGCTTCCAGCACAACTTCCGTTCCCGGCGTGGAGCGGGAAACCGAACGCAGCGAACTGGATAACCAGCTAAACAGT -TCACGGAATTGTAATCCTTGCAGAGGCAAAGGCTGACGAACGCTAATTTGTGCCAGCGTCTTCATATCCGCCCCCTGAAC -ACCGATGGAAAAGAAAGCAAACCTTTTATCTTCTTCCCCCCGAAACACTTTGTTGGCTGCAGCCTGCCACTCATCGGTTG -GTGCACCATCGGTAATCAGGAAAATCCACGGGCGATAATACGAAATACCATTTGCACGATACTCACGTTTCCGCTCCTCT -ACCATATCCAGGGCTTTGGTAATGGCCGCACCCATTGGTGTATCGCCCTGGGCAAACAGGATGGGCGGAAAAAAATTAGC -GGCGCTGGTAAAGGGTTGTTCCACATGCACCGGGCCGAACGTCACAATGCCGAGTTCCACTCTTTTTAAAGCCAGCGGAT -CAGCAAGCAGTTCATCACGAAAGGTAACCAATCCGGCGTTAAGTTCATTAATAGGTCTACCGTTCATAGAACCAGAAACA -TCCAGCAGCAAAATGCAGGGGCAACGTGGTTCCGGGTTACTGGCAAAATCGCTGGTGGCAAACGTGATTTGTTCGCTCAT -AAGAAATCCTTTCTTAGAGAATTATCGAGGTCCGGTATCATACCGACTGCAATAATGAAATAAGAGCAAACGAAGAAACT -TTCAGAATTAGGCCCGGCGGCGCAGAAAATTTTGCTATTCGCCTCGCAAGAACGGAGAGCCGTCGATTGACACTAAGGGC -GGAGTGACATAATTTCAGGAGTGAGGGTTAGGGAGAGGTTTCCCCCTCCCCCTGGTGTTCTTAGTAAGCCTGGAAGCTAA -TCACTAAGAGTATCACCAGTATGATGACGTGCTTCATCATAACCCTTTCCTTATTAAAAGCCCTCTTCTCCGGGAGAGGC -TTTCCCGTTTCAGCGTCCCGCTGAAATCATCGGCTTACCTCCTTTCGCCCTGAATGCAGTCTATCGCTAACGCGTGAATA -AAATAGTTTCCTCTGTGATTATTGCGTAACGACTCGCAAAGAATATTTGCTGGCAGGATCGCAGACTACAAAGCCTGCGG -ATTGACAATCTTATCGTGAAGGCATACTTTCAGGAGTGAGGGTAGAGCGGGGTTTCCCCCGCCCTGGTAGTCTTAGTAAG -CGGGGAAGCTTATGACTAAGAGCACCACGATGATGAGTAGCTTCATCATGACCCTTTCCTTATTTATGGCCCCTTCCTCG -GGAGGGGCTTTCCCGTTTCAGCGTCCCGCTGAAATCGTCGGCTTACCTCCTTTCGCCATGCAAGCAGTCTATCGCTAACG -CGTAGATAAAATAGTTTCCTGTGTTATTACTGGATGCGTGCTCGCAAATGTGCCCGTCATTCAGACGATTCCAGACAGTG -TTTCATAATTCCTCCATTTTTCTCCCTTATTGGCTGGCTACACTAGTATCATTCCGCGAAACGTTTCAGGAAGAGAAACT -CTTAACGATGAAAGGTAGTTATAAATCCCGTTGGGTAATCGTAATCGTGGTGGTTATCGCCGCCATCGCCGCATTCTGGT -TCTGGCAAGGCCGCAATGACTCCCGGAGTGCAGCCCCAGGGGCGACGAAACAAGCGCAGCAATCGCCAGCGGGTGGTCGA -CGTGGTATGCGTTCCGGCCCATTAGCCCCGGTTCAGGCGGCGACCGCCGTAGAACAGGCAGTTCCGCGTTACCTCACCGG -GCTTGGCACCATTACCGCCGCTAATACCGTTACGGTGCGCAGCCGCGTGGACGGCCAACTGATAGCGTTACATTTCCAGG -AAGGCCAGCAGGTCAAAGCAGGCGATTTACTGGCAGAAATTGACCCCAGCCAGTTCAAAGTTGCATTAGCACAAGCCCAG -GGCCAACTGGCAAAAGATAAAGCCACGCTTGCCAACGCCCGCCGTGACCTGGCGCGTTATCAACAACTGGCAAAAACCAA -TCTCGTTTCCCGCCAGGAGCTGGATGCCCAACAGGCGCTGGTCAGTGAAACCGAAGGCACCATTAAGGCTGATGAAGCAA -GCGTTGCCAGCGCGCAGCTGCAACTCGACTGGAGCCGGATTACCGCACCAGTCGATGGTCGCGTTGGTCTCAAGCAGGTT -GATGTTGGTAACCAAATCTCCAGTGGTGATACCACCGGGATCGTGGTGATCACCCAGACGCATCCTATCGATTTAGTCTT -TACCCTGCCGGAAAGCGATATCGCTACCGTAGTGCAGGCGCAGAAAGCCGGAAAACCGCTGGTGGTAGAAGCCTGGGATC -GCACCAACTCGAAGAAATTAAGTGAAGGCACGCTGTTAAGTCTAGATAACCAAATCGATGCCACTACCGGTACGATTAAA -GTGAAAGCACGCTTTAATAATCAGGATGATGCGCTGTTTCCCAATCAGTTTGTTAACGCGCGCATGTTAGTCGACACCGA -ACAAAACGCCGTAGTGATCCCAACAGCCGCCCTGCAAATGGGCAATGAAGGCCATTTTGTCTGGGTGCTGAATAGCGAAA -ACAAGGTCAGCAAACATCTGGTGACGCCGGGCATTCAGGACAGTCAGAAAGTGGTGATCCGTGCAGGTATTTCTGCGGGC -GATCGCGTGGTGACAGACGGCATTGATCGCCTGACCGAAGGGGCGAAAGTGGAAGTGGTGGAAGCCCAGAGCGCCACTAC -TCCGGAAGAGAAAGCCACCAGCCGCGAATACGCGAAAAAAGGAGCACGCTCCTGATGCAGGTGTTACCCCCGAGCAGCAC -AGGCGGCCCGTCGCGCCTGTTTATTATGCGTCCTGTGGCCACCACGCTGCTGATGGTGGCGATCTTACTCGCCGGGATTA -TCGGTTATCGCGCCCTGCCCGTTTCGGCGCTGCCGGAAGTGGACTATCCGACCATTCAGGTGGTCACGCTCTACCCAGGT -GCCAGCCCGGATGTCATGACCTCTGCCGTTACCGCGCCGCTAGAACGCCAGTTCGGGCAGATGTCTGGCCTGAAACAGAT -GTCGTCGCAAAGTTCCGGCGGTGCGTCAGTTATCACTTTGCAGTTCCAGCTAACATTACCGCTCGATGTCGCCGAGCAGG -AAGTGCAGGCCGCGATTAACGCTGCGACCAACTTGTTGCCGAGCGATCTGCCTAACCCGCCGGTTTACAGCAAAGTGAAC -CCGGCAGATCCGCCGATCATGACGCTCGCCGTCACCTCAACCGCCATGCCGATGACGCAAGTGGAAGATATGGTGGAAAC -CCGCGTCGCGCAGAAAATCTCGCAGATTTCCGGCGTCGGCCTGGTGACGCTTTCCGGCGGTCAGCGTCCGGCTGTTCGCG -TCAAACTTAACGCTCAGGCGATTGCCGCCCTCGGCCTGACCAGCGAAACCGTGCGCACCGCCATTACCGGCGCTAACGTT -AACTCGGCAAAAGGTAGCCTCGACGGCCCTTCCCGTGCGGTCACGCTTTCCGCGAACGACCAGATGCAATCCGCCGAAGA -GTATCGCCAGCTAATCATCGCCTACCAGAACGGCGCGCCAATTCGTCTGGGCGATGTCGCAACTGTAGAGCAAGGTGCAG -AAAACAGCTGGCTCGGCGCGTGGGCGAACAAAGAACAGGCCATTGTGATGAATGTTCAGCGCCAGCCCGGTGCTAACATT -ATCTCCACCGCCGACAGCATTCGGCAGATGCTGCCACAGCTCACTGAGAGTCTGCCGAAATCGGTGAAGGTGACAGTGCT -TTCCGATCGCACCACCAATATCCGCGCATCCGTCGATGATACTCAGTTTGAATTGATGATGGCTATCGCGCTGGTAGTCA -TGATTATCTACCTGTTTTTGCGCAATATTCCGGCGACCATCATTCCCGGTGTTGCTGTACCGCTGTCGTTAATCGGCACT -TTCGCGGTTATGGTGTTTCTCGATTTTTCAATCAATAACCTGACACTGATGGCGTTAACTATCGCCACCGGATTCGTGGT -CGATGACGCCATCGTGGTGATCGAAAACATTTCCCGCTATATCGAAAAAGGCGAAAAACCGTTGGCGGCGGCGCTCAAGG -GCGCAGGTGAAATCGGCTTTACCATTATCTCGCTGACCTTCTCACTGATTGCGGTGTTGATCCCACTGCTGTTTATGGGC -GATATCGTCGGGCGACTGTTCCGCGAATTTGCTATTACCCTGGCGGTAGCGATTTTGATCTCAGCGGTGGTGTCGCTGAC -CCTGACACCGATGATGTGCGCGCGGATGCTCAGCCAGGAGTCGTTGCGTAAACAGAACCGCTTCTCCCGTGCCTCGGAAA -AAATGTTCGACAGGATAATCGCCGCCTATGGTCGTGGACTGGCGAAAGTGCTGAATCATCCGTGGCTGACCTTAAGCGTG -GCACTCAGCACGCTGCTGCTTAGCGTGCTGCTGTGGGTGTTCATTCCGAAAGGTTTCTTCCCGGTACAGGACAATGGCAT -TATTCAGGGCACTTTGCAGGCACCGCAATCCAGCTCCTTTGCCAATATGGCCCAGCGACAACGCCAGGTCGCGGACGTGA -TTTTGCAGGATCCGGCAGTGCAAAGCCTGACCTCATTTGTTGGCGTTGATGGCACTAACCCGTCGCTGAACAGTGCACGT -TTACAAATCAACCTCAAACCGTTGGATGAACGTGATGATCGGGTGCAAAAAGTCATCGCCCGTCTGCAAACGGCGGTAGA -TAAAGTGCCGGGCGTCGATCTCTTCCTGCAACCAACGCAGGATCTGACTATTGATACTCAGGTCAGCCGCACCCAGTACC -AGTTTACCTTGCAGGCCACGTCACTGGATGCGCTCAGTACCTGGGTGCCACAGTTGATGGAAAAACTCCAGCAACTGCCA -CAGCTTTCTGATGTCTCCAGCGACTGGCAGGACAAAGGGCTGGTGGCGTATGTCAATGTTGATCGCGACAGCGCCAGCCG -TCTGGGGATCAGCATGGCGGATGTCGATAACGCCCTGTACAACGCGTTTGGTCAGCGGCTGATTTCCACTATTTATACTC -AGGCCAACCAGTATCGCGTGGTGCTGGAGCACAACACCGAAAATACCCCAGGCCTCGCGGCGCTGGATACCATTCGCCTG -ACCAGCAGCGACGGCGGCGTGGTGCCGCTAAGCTCAATTGCCAAAATTGAGCAGCGTTTTGCGCCGCTCTCCATCAACCA -TCTGGATCAGTTCCCGGTAACGACCATCTCCTTTAACGTGCCGGATAACTATTCGCTGGGCGATGCGGTGCAGGCGATTA -TGGACACCGAAAAGACGCTGAATCTGCCGGTGGATATCACCACGCAGTTCCAGGGCAGCACCCTCGCCTTCCAGTCGGCG -CTGGGCAGCACTGTCTGGCTGATTGTCGCGGCGGTGGTGGCGATGTATATCGTGCTCGGCATTCTGTACGAGAGCTTTAT -TCACCCGATCACCATTCTCTCGACGCTACCCACCGCAGGGGTTGGCGCACTGCTGGCGTTGCTGATTGCTGGTAGCGAAC -TGGATGTGATTGCGATTATCGGCATTATTTTGCTGATCGGTATCGTGAAGAAGAACGCCATCATGATGATCGACTTCGCG -CTGGCTGCTGAGCGCGAGCAAGGCATGTCGCCGCGCGAGGCAATCTACCAGGCTTGTCTGTTGCGTTTTCGTCCGATCCT -GATGACCACTCTGGCGGCTCTGCTTGGCGCGCTGCCGCTGATGTTGAGTACCGGGGTCGGCGCGGAACTGCGTCGTCCGT -TAGGTATCGGCATGGTCGGCGGTCTGATTGTCAGCCAGGTGCTGACGCTGTTTACCACGCCGGTGATTTATTTGCTGTTC -GACCGCCTGGCATTGTGGACCAAAAGCCGCTTTGCCCGTCATGAAGAGGAGGCGTAAGTGAAGTTTTTTGCCCTCTTCAT -TTACCGCCCGGTGGCGACGATTTTACTGTCGGTTGCCATTACCCTGTGCGGCATACTGGGCTTCCGTATGCTGCCGGTCG -CCCCGCTGCCGCAGGTCGATTTTCCGGTGATTATCGTCAGCGCCTCGCTGCCCGGTGCGTCACCAGAAACAATGGCGTCT -TCCGTTGCCACGCCGCTGGAGCGCTCACTTGGGCGCATTGCCGGAGTCAGTGAAATGACCTCCAGCAGTTCGCTCGGCAG -CACGCGTATTATTTTGCAGTTTGATTTTGACCGGGATATCAACGGCGCAGCGCGTGATGTGCAGGCGGCGATCAACGCTG -CACAAAGTTTGCTGCCCAGTGGGATGCCCAGCCGCCCGACCTATCGCAAAGCGAACCCGTCGGATGCGCCAATTATGATC -CTCACGCTGACGTCCGATACTTATTCGCAGGGTGAACTGTACGATTTCGCCTCGACGCAGCTGGCTCCGACGATTTCGCA -AATCGACGGTGTTGGTGATGTCGATGTCGGAGGCAGCTCACTGCCCGCCGTACGCGTCGGGCTGAATCCGCAGGCGCTGT -TTAATCAGGGCGTGTCGCTGGACGACGTACGCACCGCCGTCAGCAATGCCAACGTGCGTAAACCGCAGGGCGCGCTGGAA -GATGGCACTCACCGCTGGCAGATCCAGACCAATGATGAGCTAAAAACCGCCGCTGAATATCAGCCGTTGATTATTCACTA -CAACAACGGCGGCGCGGTTCGTCTGGGCGATGTGGCGACGGTGACCGACTCAGTGCAGGATGTGCGCAACGCCGGGATGA -CCAACGCCAAACCGGCTATTTTACTGATGATCCGCAAACTGCCGGAAGCCAATATTATCCAGACGGTTGACAGCATCCGG -GCAAAATTACCGGAGTTGCAGGAAACCATTCCGGCGGCGATTGATCTGCAAATTGCCCAGGATCGCTCCCCCACCATTCG -CGCCTCGCTGGAAGAAGTCGAGCAAACGCTGATTATCTCGGTGGCGCTGGTGATTCTGGTGGTGTTTTTATTCCTGCGCT -CGGGTCGCGCCACTATTATTCCCGCCGTTTCGGTGCCGGTTTCGCTGATTGGTACGTTTGCGGCGATGTACCTGTGCGGA -TTCAGTCTCAATAACCTTTCGTTAATGGCGCTCACCATCGCTACTGGTTTCGTGGTGGATGACGCCATCGTGGTGCTGGA -AAACATTGCACGTCATCTGGAAGCGGGAATGAAACCGTTGCAAGCCGCACTGCAAGGTACTCGCGAAGTCGGTTTTACGG -TGCTGTCGATGAGTCTGTCACTGGTGGCGGTGTTCCTGCCGCTGCTGTTGATGGGCGGATTGCCGGGCCGACTGTTACGC -GAATTTGCCGTGACGCTTTCTGTCGCCATTGGTATATCGTTGCTGGTTTCTCTGACATTAACGCCAATGATGTGTGGCTG -GATGCTGAAAGCCAGCAAGCCGCGCGAGCAAAAGCGACTGCGTGGTTTTGGTCGCATGTTGGTAGCCCTGCAACAAGGCT -ACGGCAAGTCACTAAAATGGGTGCTCAATCATACCCGTCTGGTGGGCGTGGTGCTGCTTGGCACCATTGCGCTGAATATC -TGGCTGTATATCTCGATCCCGAAAACCTTCTTCCCGGAGCAGGACACTGGCGTGTTGATGGGCGGGATTCAGGCGGATCA -GAGTATTTCGTTTCAGGCGATGCGCGGTAAGTTGCAGGATTTCATGAAAATTATCCGTGACGATCCGGCAGTGGATAATG -TCACCGGCTTTACAGGCGGTTCGCGAGTGAACAGCGGGATGATGTTTATCACCCTCAAGCCACGCGACGAACGCAGCGAA -ACGGCGCAGCAAATTATCGACCGTCTGCGCGTAAAACTGGCGAAAGAACCGGGGGCGAATCTGTTCCTGATGGCGGTACA -GGATATTCGCGTTGGTGGGCGTCAGTCGAACGCCAGCTACCAGTACACGTTGTTATCCGACGACCTGGCGGCACTGCGAG -AATGGGAGCCGAAAATCCGCAAAAAACTGGCGACGTTGCCGGAACTGGCGGACGTGAACTCCGATCAGCAGGATAACGGC -GCGGAGATGAATCTGGTTTACGACCGCGACACCATGGCACGGCTGGGAATCGACGTACAAGCCGCCAACAGTCTGTTAAA -TAACGCCTTCGGTCAGCGGCAAATCTCGACCATTTACCAGCCGATGAACCAGTATAAAGTGGTGATGGAAGTGGATCCGC -GCTATACCCAGGACATCAGTGCGCTGGAAAAAATGTTCGTTATCAATAACGAAGGCAAAGCGATCCCGCTGTCGTATTTC -GCTAAATGGCAACCGGCGAATGCCCCACTATCGGTGAATCATCAGGGATTATCGGCGGCCTCGACCATTTCGTTTAACCT -GCCGACCGGAAAATCGCTCTCGGACGCCAGTGCGGCGATCGATCGCGCAATGACCCAGCTTGGTGTGCCTTCGACGGTGC -GCGGCAGTTTTGCCGGCACGGCGCAGGTGTTCCAGGAGACGATGAACTCGCAGGTGATCCTGATTATCGCCGCCATCGCC -ACGGTGTATATCGTGCTGGGTATCCTTTACGAGAGTTACGTACATCCGCTGACGATTCTCTCCACCCTGCCCTCGGCGGG -CGTTGGAGCGCTGTTGGCGCTGGAGCTGTTCAATGCCCCGTTCAGCCTAATCGCCCTGATAGGGATCATGCTATTAATCG -GCATCGTGAAGAAAAACGCCATTATGATGGTCGATTTTGCGCTTGAAGCCCAACGGCACGGTAACCTGACGCCGCAGGAA -GCTATTTTCCAGGCCTGTCTGCTGCGTTTTCGCCCGATTATGATGACTACCCTGGCGGCGCTGTTTGGTGCGCTGCCGCT -GGTATTGTCGGGCGGCGACGGCTCGGAGCTGCGGCAACCCCTGGGGATCACCATTGTCGGCGGACTGGTAATGAGCCAGC -TCCTTACGCTGTATACCACGCCGGTGGTGTATCTCTTTTTCGACCGTCTGCGGCTGCGTTTTTCGCGTAAACCTAAACAA -ACGGTAACCGAGTAAATGACAGATCTTCCCGACAGCACCCGTTGGCAATTGTGGATTGTGGCTTTCGGCTTCTTTATGCA -GTCGCTGGACACCACCATCGTAAACACCGCCCTTCCCTCAATGGCGCAAAGCCTCGGGGAAAGTCCGTTGCATATGCACA -TGGTCATTGTCTCTTATGTGCTGACCGTGGCGGTGATGCTGCCCGCCAGCGGCTGGCTGGCGGACAAAGTCGGCGTGCGC -AATATTTTCTTTACCGCCATCGTGCTGTTTACTCTCGGTTCACTGTTTTGCGCGCTTTCCGGCACGCTGAACGAACTGTT -GCTGGCACGCGCGTTACAGGGCGTTGGCGGCGCGATGATGGTGCCGGTCGGCAGATTGACGGTGATGAAAATCGTACCGC -GCGAGCAATATATGGCGGCGATGACCTTTGTCACGTTACCCGGTCAGGTCGGTCCGCTGCTCGGTCCGGCGCTCGGCGGT -CTGCTGGTGGAGTACGCATCGTGGCACTGGATCTTTTTGATCAACATTCCGGTGGGGATTATCGGTGCGATCGCCACATT -GCTGTTAATGCCGAACTACACCATGCAGACGCGGCGCTTTGATCTCTCCGGATTTTTATTGCTGGCGGTTGGCATGGCGG -TATTAACCCTGGCGCTGGACGGCAGTAAAGGTACAGGTTTATCGCCGCTGACGATTGCAGGCCTGGTCGCAGTTGGCGTG -GTGGCACTGGTGCTTTATCTGCTGCACGCCAGAAATAACAACCGTGCCCTGTTCAGTCTGAAACTGTTCCGTACTCGTAC -CTTTTCGCTGGGCCTGGCGGGGAGCTTTGCCGGACGTATTGGCAGTGGCATGTTGCCCTTTATGACACCGGTTTTCCTGC -AAATTGGCCTCGGTTTCTCGCCGTTTCATGCCGGACTGATGATGATCCCGATGGTGCTTGGCAGCATGGGAATGAAGCGA -ATTGTGGTACAGGTGGTGAATCGCTTTGGTTATCGTCGGGTACTGGTAGCGACCACGCTGGGTCTGTCGCTGGTCACCCT -GTTGTTTATGACTACCGCCCTGCTGGGCTGGTACTACGTTTTGCCGTTCGTCCTGTTTTTACAAGGGATGGTCAACTCGA -CGCGTTTCTCCTCCATGAACACCCTGACGCTGAAAGATCTCCCGGACAATCTGGCGAGCAGCGGCAACAGCCTGCTGTCG -ATGATTATGCAATTGTCGATGAGTATCGGCGTCACTATCGCCGGGCTGTTGCTGGGACTTTTTGGTTCACAGCATGTCAG -CGTCGACAGCGGCACCACACAAACCGTCTTTATGTACACCTGGCTTAGCATGGCGTTGATCATCGCCCTTCCGGCGTTCA -TCTTTGCCAGAGTGCCGAACGATACGCATCAAAATGTAGCTATTTCGCGGCGAAAAAGGAGCGCGCAATGAAGTTCTGGC -GACCCGGTATTACCGGCAAACTGTTTCTGGCGATTTTCGCCACCTGCATTGTCTTGCTGATCAGTATGCACTGGGCGGTG -CGTATCAGTTTTGAGCGTGGCTTTATTGATTACATCAAGCATGGTAATGAACAGCGATTACAACTGTTAAGTGATGCGCT -TGGCGAGCAGTATGCGCAGCATGGCAACTGGCGCTTCCTGCGCAACAATGATCGCTTTGTCTTTCAGATCCTGCGTTCAT -TTGAACACGATAATTCGGAAGATAAACCCGGCCCGGGTATGCCACCGCACGGCTGGCGTACCCAGTTCTGGGTGGTTGAT -CAAAACAACAAAGTGCTGGTTGGTCCGCGAGCGCCGATTCCACCTGACGGTACACGGCGACCCATTCTGGTCAACGGTGC -GGAAGTTGGCGCGGTGATCGCCTCCCCCGTTGAGCGGTTAACGCGCAATACTGATATCAATTTCGATAAACAACAGCGGC -AAACCAGCTGGTTGATTGTCGCCCTGGCAACGTTACTCGCGGCACTTGCCACTTTTCTGCTGGCGCGCGGTTTACTGGCA -CCGGTAAAACGACTTGTCGATGGCACGCACAAACTGGCGGCGGGCGATTTCACTACCCGCGTAACGCCCACCAGTGAAGA -TGAACTGGGCAAACTGGCGCAAGACTTCAACCAGCTTGCCAGCACACTGGAGAAAAACCAGCAAATGCGGCGCGATTTTA -TGGCCGATATTTCTCACGAACTGCGTACGCCATTAGCGGTGCTGCGCGGTGAACTGGAAGCCATTCAGGATGGCGTGCGT -AAATTCACGCCGGAGACGGTGGCGTCTTTACAGGCGGAGGTCGGTACACTGACCAAACTGGTTGACGATCTCCATCAGTT -GTCGATGTCTGATGAAGGCGCTCTCGCCTATCAAAAAGCACCGGTAGATTTGATCCCACTGCTGGAAGTGGCGGGCGGCG -CATTTCGCGAACGATTCGCCAGTCGTGGCCTGAAACTGCAATTTTCCCTGCCAGACAGTATTACCGTATTTGGCGATCGC -GACCGTTTAATGCAGTTATTCAATAACTTACTGGAAAACAGCCTGCGCTACACTGACAGCGGCGGCAGCCTGCAAATCTC -TGCCGGGCAGCGCGACAAAACGGTGCGCCTGACCTTTGCCGACAGTGCGCCAGGTGTCAGTGACGATCAGCTACAAAAAT -TGTTTGAACGTTTTTATCGCACCGAAGGTTCCCGCAACCGTGCCAGCGGCGGTTCCGGGCTGGGGCTGGCGATTTGCCTG -AACATTGTTGAAGCACATAATGGTCGCATTATTGCTGCCCATTCGCCTTTTGGCGGGGTAAGCATTACAGTAGAGTTACC -GCTGGAACGGGATTTACAGAGAGAAGTATGACCGAGTTACCAATCGACGAAAACACACCGCGTATTTTGATCGTGGAAGA -TGAACCGAAGCTGGGGCAGTTGCTCATTGATTATCTGCGTGCTGCGAGCTATGCGCCGACGCTTATCAGCCACGGCGATC -AGGTACTGCCGTATGTGCGCCAGACACCACCGGATCTGATCCTGTTAGATCTGATGCTCCCTGGCACCGATGGCCTGACG -CTGTGCCGGGAAATTCGTCGTTTTTCTGACATTCCGATCGTGATGGTGACGGCAAAAATCGAAGAGATCGATCGCCTGCT -GGGGCTGGAGATTGGCGCAGATGATTATATCTGTAAGCCGTACAGCCCACGGGAAGTGGTAGCGCGCGTCAAAACCATTT -TGCGCCGTTGCAAACCGCAGCGCGAGTTGCAGCAACAGGATGCTGAAAGCCCGTTGATTATCGACGAAGGTCGTTTTCAG -GCTTCATGGCGCGGTAAAATGCTTGACCTGACGCCTGCGGAATTTCGTCTGCTGAAAACGCTCTCTCACGAACCAGGAAA -AGTGTTCTCCCGCGAGCAATTGCTCAATCATCTTTATGACGACTACCGCGTAGTAACCGACCGCACCATCGACAGCCACA -TTAAAAACCTGCGCCGCAAGCTGGAATCTCTCGACGCCGAACAGTCATTTATCCGCGCCGTTTATGGCGTCGGTTACCGC -TGGGAAGCCGACGCCTGCCGCATCGTTTAGTTTTAGCGACATTATTTTGTTAGCCGGAGATGGCGTTCAGACCAGATCCG -GCAACATTATCCCACGCATGGTCAGCAAACTGACATTATCTCTCCGCCCTGGCAGGCATCAGAAAATCGCTCATACTTTA -ATCGGTAAACAGCACCTTTAGATGCTGTTTTCGATACACAATTTCAATCAAGGAGTCATTATGGCTGGTTGGTTTGAACT -CAGTAAGAGCAGTGATAATCAGTTCCGGTTTGTGCTAAAAGCGGGCAATGGTGAGACTATCCTCACCAGCGAGCTTTATA -CCTCAAAAACCTCTGCGGAAAAGGGCATCGCGTCGGTGCGTAGCAACAGCCCGCAAGAAGAACGCTATGAGAAAAAAACG -GCAAGTAACGGCAAATTCTATTTCAATCTGAAAGCCGCTAATCATCAAATTATCGGCTCCAGCCAGATGTACGCCACCGC -GCAATCTCGTGAAACCGGAATTGCCTCCGTTAAAGCCAATGGCACAAGCCAGACGGTGAAAGACAATACGTAATTACGAT -GCCGGGCGTGGGTTGTTGGCGTCCGGCGCTTTACCAGAGCCCCCCACAGCGCTACAATGCCCGCCCTTAAAGTGGGGGCA -CTCCCCTAACCGCTTCATCAGGTGAAGCGGATCTGACCTGTCATCAGAACGAGAGAATTATGTTTAAACCGGAACTCCTT -TCCCCGGCGGGAACGCTGAAAAATATGCGTTACGCTTTCGCTTATGGCGCAGATGCTGTTTATGCGGGCCAGCCGCGTTA -TTCCCTGCGTGTGCGCAACAACGAATTCAACCACGAAAATCTTCAGCTCGGCATCAATGAAGCCCACGCGCTGGGGAAAA -AGTTTTATGTCGTGGTCAACATTGCACCGCACAACGCCAAGCTGAAAACCTTTATCCGTGACCTGAAACCGGTGGTGGAA -ATGGGGCCGGATGCGCTGATTATGTCCGATCCAGGGCTGATTATGCTGGTGCGTGAGCACTTCCCTGAAATGCCGATCCA -CCTTTCGGTGCAGGCTAACGCCGTGAACTGGGCGACGGTGAAATTCTGGCAGCAAATGGGCCTGACCCGCGTGATCCTCT -CTCGCGAGCTGTCGCTGGAAGAGATTGAAGAGATCCGCAATCAGGTGCCGGATATGGAGATCGAGATCTTCGTTCACGGC -GCGCTGTGCATGGCCTACTCCGGTCGCTGCCTGCTCTCTGGCTATATCAACAAGCGCGACCCGAACCAGGGCACCTGCAC -CAACGCCTGCCGCTGGGAGTACAACGTCCAGGAAGGGAAAGAAGATGATGTTGGCAACATCGTACACAAGTACGAGCCGA -TTCCGGTGCAAAATGTTGAGCCGACGCTGGGTATCGGCGCACCAACCGACAAAGTGTTTATGATCGAAGAGGCCCAGCGT -CCGGGCGAGTATATGACCGCGTTTGAAGATGAGCACGGCACTTACATCATGAACTCGAAAGATCTGCGCGCCATCGCCCA -TGTAGAACGCCTGACCAAAATGGGCGTGCATTCGCTGAAAATCGAAGGTCGTACCAAATCTTTCTACTATTGTGCACGCA -CCGCACAGGTTTACCGCAAAGCTATCGATGACGCCGCTGCGGGAAAACCGTTCGATACCAGCCTGCTGGAAACTCTGGAA -GGTCTGGCGCATCGTGGCTATACCGAAGGTTTCCTGCGTCGTCATACTCACGACGATTATCAGAACTACGAATACGGTTA -TTCAGTTTCTGACCGCCAGCAGTTTGTTGGTGAGTTTACCGGTGAGCGCAAGGGGGACCTCGCGGCGGTAGCGGTGAAAA -ATAAATTCTCCGTTGGCGACAGCCTTGAGCTGATGACGCCGCAAGGCAACATTAATTTTACCCTTGAGCACATGGAAAAC -GCCAAAGGCGAAGCTATGCCGATAGCACCAGGCGATGGTTATACTGTGTGGCTCCCGGTCCCGCAGGATCTTGAGCTCAA -TTACGCGCTGCTGATGCGTAATTTCTCCGGGGAAACCACGCGTAATCCCCACGGTAAGTGATTAATTTCGATTATTTTTC -CCGGATGGAAAATTCTTAGAAACCGATCACATACAGCTGCATTTATTAAGGTTATCATCCGTTTCGCTGAAAAACATAAC -CCATAAAATGCTAGCTGTACCAGGAACCACCTCCTTAGCCTGTGTAATCTCCCTTACACGGGCTTATTTTTTACGCGTAA -TACAATGAAATAAAAGGATTTATTTCTGGTCACGTCCACACATTGACCACATCGACAAAAAAGCCCCTCGACTGAGGGGC -TTCCTGTTTCTAATTACATCCACATAATTTGCTGCCCTGACGGCAACGGGTGCGGCCTTACGACGTGGACTTCTCCCGGC -TTCACAATGTATCGCTGTACCGACTCATAAGTGATGAACGTGGCGCTGCAATTCACGTTCTGACACTGGTGATAACGCTC -TTTTGTCGTGTCAGTGATATAGCGGCTTGTACGCGCATGTGCGGCATGCTGGCATAAAGGACAATGAAACATCGCGAGCA -CCTCTTCCGGTTTTGTTGATGGTGCCATTTTAGTTAATTTACCCTTACAAAACAAACAGATAAAATAAAAACATCACTCA -TTATCTTCTGTTTCGTACCCCACATCAGAAAGCCTGACCTCAAGCTCTAATGACGTCGTGAAGCCGCTATTATTCAGAAA -ATGTGTCACCTTAGTGATTGTCCAGTCCTGCTCGTCTATGACGCGCTTAAAGCCAGACACTTTGACCGGTGTTTCCGTGT -AAATATCTGCCCGACCGGTAGCCAGGCTGATGGAGAACTCTGCTACACGGGCTTATTTTTTTATGCATAAGCCCTATCTC -TGGTAACCGTCTTCCATTGACCACATCGATAGAATCCTCCTTCATAGCACGATGCCTTTCACTTATCGGCATCGTGCTCC -CACAGGTTCCGGCTACGCACAGCCAGAACGCGCATATTTGACGCTTACCAAAAAATATTCTCACTCTCCACATTTGAATG -TCAGACGAGCGACACCATGTAATCCTACACCTTCTGTCTTCAGCTCAACTATTTGCATTTTTTTGCCCTGAGTAACACAG -AAATGAGTTGCATCATTTTTTACTATATTTTCTGCACCAGATATTCTACCCCTGGCTAAAGAAGCTTCGGCTTCGGTGTA -GTATTGGTTATCGAGTTTACGCTGAATATTACTTTTATATGCAAGACCAAATTTACCGATACTTGTCTCATCATTATGCA -CAGCACAACCAGACATAATAAAAATACTAATTAATGATATAGCAGCTATCTTTTTCATCTCACCTTCCCCCATTAAATAC -CAACGACACTCTCTAGTGTTTAAATATAATAATGGCATGATTATTATAATTGAATAGGATTATAATAAATGTTCTGTACA -ACATTTCCTACATAAGTAGGAATTACGGACATTGAGGCCCTTCAGGGTAACTCCATGGGGGCTTTAATATATTATATTGA -AGATGCCACTGTTTAGTTGAATATTAGGTATATGCTCTTTTTTGAAATTTATCGGTGGCAGCCGTTAGTATTCGCTGTCC -CCATTGCAAGCTCCTGGTGGTAACCACTGAATCCTCCATACTTGAACTGACTTTTTATCCTCCGACTTTCATCCTGTTCT -GACTCCACCTTTTGTTTTCTGCTCTACACTATCTACAGACCAATCATAAAGGCACATACGATCATGGCAGAATTTCCCGC -CAGCTTACTGATTCTTAATGGCAAAAGTACTGACAATCTACCCTTGCGCGAAGCAATTATGCTGTTGCGTGAGGAAGGAA -TGACGATCCATGTGCGGGTCACCTGGGAGAAAGGCGATGCCGCACGATATGTAGAGGAGGCCCGGAAGTTTGGCGTCGCA -ACGGTGATTGCCGGTGGTGGCGATGGCACCATTAATGAAGTTTCTACGGCGTTGATTCAGTGTGAGGGGGATGACATACC -CGCGCTGGGAATTTTGCCATTAGGAACCGCCAATGATTTTGCCACCAGTGTAGGGATTCCTGAGGCACTGGATAAGGCGC -TGAAACTGGCAATTGCCGGTGACGCCATTGCGATAGATATGGCGCAGGTCAACAAACAAACCTGTTTTATTAATATGGCG -ACAGGCGGATTTGGGACGCGTATTACCACAGAAACGCCGGAAAAATTAAAAGCCGCGCTGGGTAGCGTCTCTTACATCAT -TCATGGCTTAATGCGTATGGATACTCTGCAACCGGACCGTTGTGAAATCCGCGGTGAAAACTTTCACTGGCAAGGTGACG -CCCTGGTCATTGGTATTGGTAACGGGCGTCAGGCCGGTGGCGGTCAGCAATTGTGTCCGAACGCGTTAATTAACGATGGC -TTGCTGCAACTGCGCATTTTTACCGGCGATGAAATACTTCCGGCTCTCGTATCAACCTTAAAATCTGACGAAGATAACCC -GAATATTATCGAAGGCGCTTCGTCGTGGTTTGATATTCAGGCACCACACGACATCACCTTTAATCTTGATGGCGAACCGT -TGAGTGGGCAAAATTTTCATATTGAAATACTTCCGGCAGCGTTGCGTTGTCGATTACCACCAGATTGTCCACTGTTGCGT -TAATCAAACTATTCTCTCTTGAACCAGGGAGAATCCGTAATGCCGGATGCGGTGTAAACACCTTATCCGGCATACAGAAC -AATACTACACCGTAATTAATTTTACCCGCGTCTTCTGCAATGCCAGTTTATCCACCTCTGACACAGCATCATCGGTAATA -ATAATGTCAATTTTTTCGATTGGTAGTACCTGATTAAAACCGCGACGGTTAAATTTCGATGAATCGAGAACGGCAATCAC -TTTATTAGCGGCTGTGACCATCGCACCGCTAATAGAATAACCTTCATTAAAGGTCGTAATACCATTAACCGCATCAATAC -CATCAGCACCGACAAACATTAAATCGGCATTAATATCCTGTAATGAACGCTCGGCAATGGAACCATGCATCGAGCGCGTT -TTATGGCGGACCGTGCCACCACAGACGACCAGAGTAATGTCTTTATTTTCGGAAAGGGCAAACGCTGCCGGGAGACTGTT -GGTAATCACCGTGATATTTTTGGCGGTCATTAATCCTTCGGCGATAAGCATTGTCGTACTTCCGCTGTCGAGAATAACGG -TCTGATCTTACCCAGCAATAGTGGACACGCGGCTAAGTGAGTAAACTCTCAGTCAGAGGTGACTCACATGACAAAAACAG -TATCAACCAGTAAAAAACCCCGTAAACAGCATTCGCCTGAATTTCGCAGTGAAGCCCTGAAGCTTGCTGAACGCATCGGT -GTTACTGCCGCAGCCCGTGAACTCAGCCTGTATGAATCACAACTCTACAACTGGCGCAGTAAACAGCAAAATCAGCAGAC -GTCTTCTGAACGTGAACTGGAGATGTCTACCGAGATTGCACGTCTCAAACGCCAGCTGGCAGAACGGGATGAAGAGCTGG -CTATCCTCCAAAAGGCCGCGACATACTTCGCGAAGCGCCTGAAATGAAGTATGTCTTTATTGAAAAACATCAGGCTGAGT -TCAGCATCAAAGCAATGTGCCGCGTGCTCCGGGTGGCCCGCAGCGGCTGGTATACGTGGTGTCAGCGGCGGACAAGGATA -AGCACGCGTCAGCAGTTCCGCCAACACTGCGACAGCGTTGTCCTCGCGGCTTTTACCCGGTCAAAACAGCGTTACGGTGC -CCCACGCCTGACGGATGAACTGCGTGCTCAGGGTTACCCCTTTAACGTAAAAACCGTGGCGGCAAGCCTGCGCCGTCAGG -GACTGAGGGCAAAGGCCTCCCGGAAGTTCAGCCCGGTCAGCTACCGCGCACACGGCCTGCCTGTGTCAGAAAATCTGTTG -GAGCAGGATTTTTACGCCAGTGGCCCGAACCAGAAGTGGGCAGGAGACATCACGTACTTACGTACAGATGAAGGCTGGCT -GTATCTGGCAGTGGTCATTGACCTGTGGTCACGTGCCGTTATTGGCTGGTCAATGTCGCCACGCATGACGGCGCAACTGG -CCTGCGATGCCCTGCAGATGGCGCTGTGGCGGCGTAAGAGGCCCCGGAACGTTATCGTTCACACGGACCGTGGAGGCCAG -TACTGTTCAGCAGATTATCAGGCGCAACTGAAGCGGCATAATCTGCGTGGAAGTATGAGCGCAAAAGGTTGCTGCTACGA -TAATGCCTGCGTGGAAAGCTTCTTTCATTCGCTGAAAGTGGAATGTATCCATGGAGAACACTTTATCAGCCGGGAAATAA -TGCGGGCAACGGTGTTTAATTATATCGAATGTGATTACAATCGGTGGCGGCGGCACAGTTGGTGTGGCGGCCTCAGTCCG -GAACAATTTGAAAACAAGAACCTCGCTTAGGCCTGTGTCCATATTACGTGGGTAGGATCAGTCATCCCTTCGTGGATCAT -TTTGACTGCCGCCTGCGCTATTCTGTTTTTTGGCGCGCTGGCGAGCTGAAATCGCTCTTTAAACCCGACTTCCTGGGTCT -CGGTTTCACTATTACCAGACATTATTTTCGCCGCACCGCCATGAAAGCGCGTAACCACGCCTTTTTGTTCGAGAAAGCGC -AAATCGGCACGGATTGTCGCTTCCGAGGCAGCAAATACTCCCGCCAGATCCTGAACAAGCACGGTTCCCTGTTCATTCAC -TAATTGGATGATCTTATTCCTTCGCTCGAATGAATTCATCGTCATTTACCCATATTCAATTGTGGCTAGTGTAAACGAAG -GGGGACCATTGGTGAATGATCTGTTTTGCACAATACCGGGCCAGCATCACGCTGGCCCGCGGTTTCAGGGAATGAGCAAC -ACTTTGCCCGGCATAGCATTACGAGCGATGTCACGCACCGCCTGGGCGAAGCTTTCAAAGCTTCCACGGTGAGCGATTAA -TGGCTCCAGGCTTAACTTACGTTCTGTCAGCAACCGGCTCGCCGTTTCCCACTCCTGCCCCGGCCAAGGGCTGGAGTAGT -TCATCCAACTGCCGATAACCGTCAGCTCTTTACGCAATATTTTGCCAAACGTTGCCGATGTTAAATGCAGATCCTGATGC -AACGTGCCCACCAGCGCCAGTTGGGCATGAGGACCGGCAATCTCTACCGCCAGTTCGACAGTTTGCGGTACGCCAGCCGT -CTCGAGGATAAGCTGATTAAAGCGCAGTTCGCGTAAAACGCTCTGCATTTGCGGCGCGCTCATTTCGCTACTGTTAAATG -TTTGCATCGCACCGAAAGATTTTGCCAGTGCCAGTTTTTCTGAACTAATGTCGATCGCCGTCACACTCTTTGCTCCCAGC -GCGACAGCGCACTGAATGGCCAGCAGGCCAATGGTTCCGGCACCAATAATAATAACGTTTTTATTCTCACAACCTTGCGC -TAAATGAAAAGCATGCAGACCAACGGTAATCGGCTCAATAAAAGCCCCATCCTCAATAGGCATATCCGTGGGTAGAGCAA -AGACATTTTTTCGCTTAACGACAATATATTCAGCAAATCCACCATCACGCCGCGAGCCAATAAAATCATATTTTGCGCAC -TGGGAATAAAACCCTTTCAGACACTCTGGACAAGTAAAACAGGGTAATAACGGCACACAGGCAACCGCATCGCCAGGGTG -TAAATCATCAACACCGGATCCCACCGCATCAATATAGCCGCTAAATTCATGGCCTAACGTTATTGGATAATAATGTGCAC -CATTTTTAAATATCCTGGGTAAATCGGAACCACATAAGCCCGAGCTGGCAATTTTTACCCGCACCTCATCCTGATGTTTA -ATTTCAGGAATGACGCTTTCTGCAACGCGCACGATACCATCAGTATCATTCACCACTGATTTCATAAAAACTCCTGATTG -TTAAGGGGGATAACCTCCCCCTCAGGTAAAAATTATTCTGCGAGAACGACTTTCTCTTGTTTAATAAAGCCACGCGCTCT -ACGCCAGGTCATGAAAATACCGGTCAGATAAATTGCACCGATAATAATGAAACCGGGAATATTTTGCGGGGAGAAAACCT -GAATCAGTAACCAGGTAATGGGAGAACCGCCCTGATCCATTGAAGCCACCATACCCCCGGCTTTTAACGCCCCAGCATTA -GCCGCCAGTTGGGTGTGCAAACCAATAGTTTGCGTCGCGATCCACAGGGTGATGCTCATAATGATGACACCCGAGATTAA -GGTGCGGAACAGATTTCCACGATGCACGGCGACCGCCATCGCCACGAAGAAGCCGATGGTGGCAAGATCGCCAAACGGCA -GCACCTGATTACCCGGCACACAAACAGCAATTAAAATGGTGAGTGGGATAAAAATCAGGCTTGCCGATACCACCGCCGTA -TGTCCCAGCAGCAACGCCGGATCAAGGCCAATCAGGAACTCCTGACCGCCGAACTTCGCCTGTAAACGACTACGAGCCTG -CTTAGCGATGGGCGTTAAACCATCCATGATGGGTTTAATCACCCGTGGCATTAGCAGCATCACTGCCGCCGTTTTTACCG -CCAGCTGCAATACACCTTTGACATCGTAACCCGCGAGGATGCCGATAATCAGCCCCATCACAAAACCCACGGTGACAGGC -TCGCCAAATGGACCAAATTTGCGCTGAATATCGTCGGCGCTAAATTTAATTCGGTTAACGCCTGGGATTTTCTCGATGAT -AGCATCGACCAGCACCGCAATCGGCCCCATATACGCCGACGTACCGTGCGGAATAGCAATACCTTCCAGCTCAAAGAAAT -TTCGGGTATCGCGGGCAAACCAGTCGCCGAGCTTATAAACAAACGCCGCGTGAATTACCACACCTGCCATCCCTATCATC -CATGAACCGGTTGCCAGATGCAGCAACGCGCCGGTGAAGGTCATATGCCAGATATTCCAGATATCAACATTTACCACCCG -CGTCATACGGGTCAGTAACATCGCCACGTTAACCAGAATCGCAATCGGAATCGCCACCAGCGCAATTTGCGACGCCCAGG -TCATTGGTGAAGAGCCCGGCCAGCCAACATCGACCACATGCAGATTCAGGTCGAAATTTTCCGCCATCGCTTTCGCCGCC -GGGCCAATGGAATCCAGCATTAAGCCAATCACAAGGCCAATGCCAACAAAGCCAATCCCGATATGCAGACCCGCTTTAAA -GCAATCGCCTGCCTTCATGCCTAATATTTTAGAAAAAATAATGATGACAATCGGCAGCATCACCGTAGGGCCGAGGTCGA -GAATATAACGCATGACTTCTGAAAACATAGGTCACCCCTGTAAGATAGTCAGAATTTTATTTTGTAATGCTTCGATACCG -ATACCAGAAATAAAAGGCATGCCGTGAACTAACGGAATATCGCCAAAACTACGATCCACTTTGGCAGTGGTGCATATCAA -ATGCACACCATCCATATAGGTTTCTATTTCATTAACCCGACACTGGATTAATTCAACAGGAATATTATGATTCTGACACA -ACTCTTTAATTTCTTCCGCCGCCATCGTAGAGGTCGCAACCGCGCCTCCGCAAGCGACAATAATCTTGCGTTTCATAAAT -AGTCCTTTTTATTGTTACAGAGGGATTTATTCGTCTGAATCTAAAACATACTTTGTGAAGTATTCCTTTAACTGGGTTTC -AGGAAGAGTGATTAGTGTCTCGACGATATCGGGCTGTTGTAACTTGCCAAATAAACAGCGTAAAAGTTTCAATTGCTGCT -GCGGATTTTCCACAATCAACGCAATAACCAACGATACCGCCACGTCGTTATCATCATCCGCTTGCTGAAAATGAACTTTA -TTTGTTGGCCTTAACAGATAAATGGCTGACGACTTAGCATGAATCGCCTCACAATGCGGTATTGCAATAGCGTGCTGCTC -AAGCATTATCCCGGTAGGGAATTCTGCTTCTCTGGCAATTAATGCCTGTGGCCAGGTATCATGAACCACACCTTTGGCGA -GCATCTCATTACCGATATGGGTTAAAACTTCGCTACGATCGACAAAAGAAATTCCGCTACGAACAAACAGGTTAGTCATA -TACCGTCCTTATTCCGCACAGCCGTAGCGATAGGCGCGCAAAACATCATAAATTTTATCCATAATCAGCTGATGCGGTAT -TGCTGATAATTCCCCGGACTGAATGCGTTCAAATTGTTTGGGAAGATACTGACTAATCATGCCCAGTGGGATGTCCACGC -CTTCAAGATTCACCATCATCGTTTCGACGCTATTTTTAATCCGACTATGCGGCCAGTAATAACGAATACGATCCGACAGG -CTGTAACGAATATCCAGTAATGAATCGTTAAAACCCGTACGATAATATTTTTTCCAGTATTGCGGTTCGTCGAGCATCAC -TTCTTCAATTACCGCCAGGCAACCGCTGCGATTTTCAGGGGCGATAAGTTCCTGCTCAATTTGTGCCAGTGCAAATATCG -CCTCGCGTAAAGCAAAGGTTAATGCGGGACCGACTTTCAATATTGCAAAGTGATCGCGGACTAATTCCCAATAAGCCGTC -CGGGTCTGGTAATCGGTAGAATGTGCTTCATAAACCATTCGGGTGTTTTCTATCCATTGCGCCAGCGGCTGCGCTTCCTG -CGGCTGATAATGGATAATATTGCTGTGATCAAATTCCACACCCGGCTGCACCACGATGGCAATCACACGTGTTAACGCCT -CTGTCAGCCCACGGGCAATAAAGGCCTTTTGATGCGTACGTAAAGTATTGGCGGCATCTTCAACATGGGTGATGTGTACT -GACTGAATGGCGCTGGCCTCACCGCCCGGAACCGGAACTTCGGTGCCAATGACATAGCTCAGTTGCTCACGCTGGCAATC -TGTCGCCACACTTTCCGCAGCAAAGCAAAGCACAGCAGCTCGTTCCGCAACCGTTTCTGGTGCTAACGGTATGGGATCCC -CCGCGCAGGACATTGACGCATCAAGATGAATTTTACTGAAGCCGGCACGAACATATTCCTATACCAGCTCGACGGATTTT -TCCATCGCCGCATCCGCATTTTCTTGCTGCCAGCAGTTTGGCCCCAGATGATCGCCGCCGAGAATAATGCGTTCGCGTGC -AAACCCAACTTTATCGGCAATCGTAAAAACAAATTCGCGAAAGTCTGCCGGTGTCATTCCGGTATAACCGCCAAATTGAT -TGACCTGGTTTGACGTTGCTTCAATCAGCACTTTGCGCGTGCTGTTGCGATCAAATGCCAGCGCCGCTTCGATAACCAAC -GGATGGGCAGAACAGACTGAACATATGCCGATATGTTCACCAGCTTTATGCCGGGCAATTAACGTTTTCATGTTTTTTCC -TTGTTAAATGGCAGGTGCGTTATGCCCTGCCCTCGCAGCCACAATCGGCAATCACTTTGCTCACCACATCGCGCATTGCG -GATTTAGCCGACTGCAAATAATCCCGGGGATCGGTCGCTTCAGGGTGCTCGGTCAGGTAATTTTTTAACGCCTGCGAGAA -GGCATTTTTCAGCTCCGTTGCAACGTTGATTTTGCATATCCCCAGTTTGATGGTTTGCTGAATATCCTTAGTCGATAACC -CTGACGCGCCATGCAGCACCAGCGGTAAGTTCACCCACTGGCGAATGTTCTCCAGTCTAGAAAAATCAAGCGCCGGTGCG -CTGGCATACATCCCATGAGCCGTGCCGATGGCGACCGCCAGGGAATCAATTCCGGTTGCCTCGGCAAATTCACGCGCCTG -AGCGGGGTTGGTGTACAACGCATCGGCTTCATTGACTTGCACATCATCTTCCTGGCCGCCAAGTTGCCCCAGCTCCGCCT -CGACGCTGACATCAAAGCGATGGCAAAAATCCACCACCTCTTTGACCCGTGAAATATTTTGCGCAAAAGGCAAATGCGAG -GCGTCAATCATGACTGAGCGCACGCCAGAACGAACCTTCTGAGCGATATCGTCAAATTTCGTGTGATGGTCGAGATGAAT -TGCCAGTGGATGGTGATATTGCTTCGCCATCGCGCTGACCAGCGCCAACAGATTTTCTGTACCAGCATGAGTAAATGTGC -CAGGCGTTCCGGCGATGATGACCGGCGCATGCAGGTTGGCAGCGGTTTCTACCACCACTTGCATCGTTTCGAGATTGTGA -ATATTGAATGCCGGAACCGCATAACCGCCGCGCTGTGCGTTGTTCAGCATCTGCTTTGTCGATACCACGTACATTTTCAT -ATCCTGTCGTTTGTTTTCGATTTCAAAATATAATGAAATTATTTGTTTTTAAATATCGAGATAACGATCACAAAAACGAC -AATATGAAAATTATTCGAGGAGTGAAAGGCAAAAAAACGGCCTCCCGATAGGGAAGCCGTAGCAAAGTGCGCGTGTTTTT -ATGCCGGATGCGGTGTAAACATACGTGGCAGTGCTATGTAGGCATGATAAGACGCTTCAGCGTCGCATCAGGCATAGGTT -GCCGGATGCAGCGTAAACGCCTTATCCGTCCTACGGGGTGGTGTTGTTCGTATAAGGCGTATCAGGCGATAGTAATTTTG -CTATCGAGATAAACGTCCTGCACGGCGTTAATCAGTTTCACGCCGTCAGCCATCGATTTCTTGAACGCTTTACGTCCAAG -AATCAGCCCCATTCCGCCTGCGCGTTTGTTGATAACCGCAGTACGCACTGCATCGCTGAGGTCAGTTTCACCGCCCGCAG -CACCGCCGGAGTTTATCAACCCAGCCCGACCCATATAGCAGTTAGCTAACTGATAACGCACCAGATCAATCGGGTTTTCG -CTGGTCAATTTGCTGTAAACACGATCGTCGGTGTAACCGTAATTAATTGCTTTATAGCCGCCGTTATTTTCCGCCATTTT -TTGTTTGACGATATCTGCACCGATGGTTGCCGCCAGATGGTTTGCCTGACCGGTCAGGTCGGCGGAAACATGGTAATCAA -CGCCATCTTTCTTAAAGGCGGAGTTACGCAAATAGGCCCACAGCACTGTCACCATACCCAGCTCGTGCGCACGTTCAAAA -GCCGCAGAAATTTCTTCAATCTGGCGACGTGACTCTTCCGAGCCAAAATAGATAGTCGCACCAACCGCAACCGCGCCCAT -GTTGAACGCCTGCTCCACGCTGGCATACAGCGTTTGATCGTAGGTATTCGGGTAACTTAGCGTCTCGTTGTGATTAAGTT -TGACGAGGAATGGAATGCGATGCGCATAACGCCGCGATACCGACGCCAGCACGCCGTAAGTTGACGCCACACAGTTACAG -CCCGCTTCGATCGCCAGTTCAACAATGTTTTTCGGGTCAAAGTAGAGCGGGTTAGCAGCAAATGAAGCTCCGGCAGAGTG -CTCAACGCCCTGGTCAACCGGCAGAATAGAAAGATATCCTGTGCCAGCCAGACGCCCGGTGTTGTACAACGTCTGCATAT -TACGTAACACCGCTGGCGGGCGATTATTGTCAATCATTACGCGGTCTACGTAGTCATGTCCGGGGAGATAAAGCTGGTCA -GAAGGAATTGTCATACAACGGTGCTGTAAAAGGTTGTCGGCGTCTTTGCCAAGCAACTGCGCAATATCTGTCATTACTAT -GCTCCCGTAAATTCCGATTGGATATCGGCTATGGATTGTCCTGGCCCGCCTTTTGCGGGCAATCATAATCCTGGTCGTTA -CGGGCGAGTTTTTCCATCTTTTGGATGTTTTTTCAGCGTTTTCTGTTGGCTCGATTCATCAGAAAAAATGTTAGCGCGGT -CAAGTTTTCACCGCAAAGGTATTTAAAACGTATTATTAAGTGGTATTGTCATCGCGTACCTTACATTACCTGTCATGAAG -GAATTAAAAGATGAAAACAACAGCAAAGCTGTCGTTCATGATGTTTGTTGAATGGTTTATCTGGGGCGCGTGGTTTGTGC -CATTGTGGTTGTGGTTAAGTAAAAGCGGTTTTAGTGCCGGAGAAATTGGCTGGTCGTATGCCTGTACCGCCATTGCGGCG -ATCCTGTCGCCAATTCTGGTTGGCTCCATCACTGACCGCTTTTTCTCGGCGCAAAAAGTGCTGGCGGTATTGATGTTCGC -AGGCGCGCTGCTGATGTATTTCGCTGCGCAACAGACCACTTTTGCCGGGTTCTTCCCGTTACTGCTGGCCTACTCGCTAA -CCTATATGCCGACCATTGCGCTGACTAACAGCATCGCTTTTGCCAACGTGCCGGATGTTGAGCGTGATTTCCCGCGCATT -CGTGTGATGGGCACTATCGGCTGGATTGCCTCCGGTCTGGCATGTGGTTTCTTGCCGCAAATACTGGGGTATGCCGATAT -CTCACCGACTAACATCCCGCTGCTGATTACCGCCGGAAGTTCTGCTCTGCTCGGTGTGTTTGCGTTTTTCCTGCCCGACA -CGCCACCAAAAAGCACCGGCAAAATGGATATTAAAGTCATGCTCGGCCTGGATGCGCTGATCCTGCTGCGCGATAAAAAC -TTCCTCGTCTTTTTCTTCTGTTCATTCCTGTTTGCGATGCCACTAGCGTTCTATTACATCTTTGCCAACGGTTATCTGAC -CGAAGTTGGCATGAAAAACGCCACCGGCTGGATGACGCTCGGCCAGTTCTCTGAAATCTTCTTTATGCTGGCATTGCCGT -TTTTCACTAAACGCTTTGGTATCAAAAAGGTATTATTGCTTGGTCTGGTCACCGCTGCGATCCGCTATGGCTTCTTTATT -TACGGTAGTGCGGATGAATATTTCACCTACGCGTTACTGTTCCTCGGTATTTTGCTTCACGGCGTAAGTTACGATTTTTA -CTACGTTACCGCTTACATCTATGTCGATAAAAAAGCCCCCGTGCATATGCGTACCGCTGCGCAGGGGCTGATCACGCTCT -GCTGCCAGGGCTTCGGCAGTTTGCTCGGCTATCGTCTTGGCGGTGTGATGATGGAAAAGATGTTCGCTTATCAGGAACCG -GTAAACGGACTGACTTTCAACTGGTCCGGGATGTGGACTTTCGGCGCGGTGATGATTGCCATTATCGCCGTGCTGTTCAT -GATTTTTTTCCGCGAATCCGACAACGAAATTACGGCTATCAAGGTCGATGATCGCGATATTGCGTTGACACAAGGGGAAG -TTAAATGAAAACAGAACGTATTCTCGGTGCTCTTTATGGGCAGGCGTTAGGGGATGCGATGGGGATGCCCTCCGAGCTTT -GGCCACGCAGCCGCGTTAAAGCACACTTTGGCTGGATTGACCGTTTTCTTCCTGGACCAAAGGAGAATAACGCGGCCTGT -TATTTTAACCGCGCCGAATTCACCGACGATACCTCGATGGCGCTGTGTCTGGCGGATGCGTTACTGGAACGTGAAGGCAA -GATCGATCCGGATCTGATTGGGCGTAATATTCTCGACTGGGCGCTGCGTTTCGACGCCTTTAACAAAAACGTACTAGGTC -CGACCTCGAAGATTGCGCTTAACGCCATTCGCGACGGTAAACCCGTTGCTGAACTGGAAAACAACGGCGTGACCAACGGC -GCAGCGATGCGCGTCTCGCCATTAGGTTGTTTGCTTCCGGCGCGTGATGTTGATTCCTTTATTGATGATGTAGCGCTGGC -GTCCAGCCCGACCCATAAATCCGATCTGGCGGTTGCAGGCGCGGTAGTCATCGCATGGGCGATTTCTCGTGCCATTGACG -GAGAAAGCTGGTCAGCGATTGTTGATTCCCTGCCTTCAATTGCGCGACATGCACAGCAAAAACGCATCACTACGTTCAGC -GCCTCACTGGCGGCGCGGCTGGAGATTGCGCTGAAAATTGTGCGCAATGCCGACGGCACCGAATCCGCCAGCGAACAGCT -TTACCAGGTCGTTGGCGCAGGTACCAGCACTATTGAGTCCGTTCCGTGCGCCATTGCGCTGGTTGAACTGGCACAAACCG -ACCCGAATCGCTGCGCCGTCCTGTGCGCTAACCTTGGCGGCGACACAGACACCATCGGTGCTATGGCGACGGCAATTTGC -GGCGCGTTGCATGGCGTTAACGCTATCGATCCTGCGTTAAAGGCGGAACTGGATGCGGTAAATCAGCTTGATTTCAACCG -CTATGCCACAGCGCTGGCGAAATATCGTCAACAACGGGAGGCGGTATGAGCGGCGCTCGATTACACACGCTGCTGCCTGA -ATTAACCACGCGTCAGTCGGTGATGGTCGTCGGCGCGGCGGTCATTGACGTGATCGCCGACGCTTATGCCCTCCCCTGGC -GTGGGTGCGATATCGAACTGAAACAGCAGAGCGTTAACGTTGGCGGCTGCGCACTGAATATTGCCGTGGCGTTAAAGCGC -CTCGGCATCGAAGCGGGTAATGCCTTGCCGCTCGGTCAGGGCGTGTGGGCGGAGATGATTCGCAACCGGATGGCAAAAGA -GGGCTTAATCAGCCTGATCGATAACGCCGAAGGTGATAACGGCTGGTGTCTGGCGCTGGTTGAGCCGGATGGCGAACGCA -CTTTTATGTCATTCAGCGGTGTTGAAAATCAGTGGAATCGCCAGTGGCTGGCGCGATTAACCGTTGCGCCTGGCAGCCTG -CTCTATTTTTCCGGTTATCAACTGGCCTCGCCCTGCGGCGAATTGTTAGTGGAATGGCTGGAAGAGCTGCAAGACGTGAC -GCCGTTTATCGATTTTGGCCCACGTATTGGCGATATCCCGGATGCATTACTGGCGCGGATCATGGCCTGTCGACCTTTAG -TGTCGCTCAATCGTCAAGAGGCTGAGATTGCCGCCGAACGTTTTGCTTTATCCGCAGAGATAACAACACTTGGCAAGCAA -TGGCAGGAGAAATTTGCCGCGCCGTTGATCGTTCGTCTCGATAAAGAAGGCGCATGGTATTTCAGCAACGACGCTTCTGG -CTGCATTCCGGCATTTCCAACGCAAGTTGTCGACACCATTGGGGCGGGCGACAGTCATGCCGGTGGCGTACTTGCCGGGC -TGGCCTCTGGTCTGCCACTGGCGGATGCCGTATTACTGGGCAATGCAGTGGCGTCGTGGGTTGTCGGGCATCGGGGCGGT -GATTGTGCGCCAACGCGCGAGGAACTACTCCTCGCACACAAAAACGTATAGATCGCTGCGACAGTGGCTAATGCTGTACT -CAATAGGCCGTTGCTGTTGGTCAAGCGCCACTTGCTTGATCACCAGCACCGGTATTTTGCTATCTAACTGAATATGTGAC -TGAAACTCGGCATCCGGCATCCGGGCGCTAACGCGGGAACGCGTACGTTGTGGGTAAATGTGCTGGCTGCGGAAATAGTC -ATAAAGTGAAATCCCGATGGCATCAACATCATGAATTAAATGCGCCGGAACCCACGATTCCTCAATCGATACCGCTTCTT -CATCGACATAGCGAATACGCTTAAGCAAAAAGACATCACTTCCTGCTTCGACCGCCAGCTGCTGCGCGACTTCTTCGGGA -CATTTCACGACACGCTTGTTAACCCATAGCGTATCGGGCTTTTTCCCGCGCAATACCACCTGCTGAGAAAAACCTCGCGC -TTCTTTCAACGAGTATTCGAAGATGTTGTTGATCTGCGTGCCGTAACCGCGCGAACGCGTCACCACACCCTCTTCTTCCA -GCGCCTGCATCGCCTTGCGCACCGTAATGCGCGAAACGCCGGTTAACTGACTTAAATCACGCTCACCGGGCAAAATATTG -CCATGCTCCAGCACCCCGCTGCGCACGGCATTTTTTACCGTTTCGGCAAACTTAATATAAAGCGGCGTGTTATCCGCCGC -TAAAATACGCTCGTTCAGTTGGGCAATCAGCTGGGTATGCGCTTGTTCCATTTGTCTTTTTCCTGCCGGGGAGTCTGGTG -GGAGTATATCACTGCTTCTTATTTAAGGCGTTTCTTTAATCCCATCAACGAATGCCTGCAACTCCTCCACCGTGCCATTA -AATACATTAAAATCCACCGGACCATTGATGCCATCTACCTGTCCACGGTCGGAATGCTGCCAGAAGCGCCAGGCCATTCC -GTCATTGTCCGGACGACGTTGATAGTAGTGAGCCACCCACCACGGATATTCATTGAAATAGCCCGCCAGATTGGTGTGAT -AAAAAACGGCTCCTGAGTAAATAATCGGCTTTTTCCCCGTACTTTTTTCGACCATTTTTAGCCACTGACTTACCCGCTTG -CGTAATTCTTTTGCCGATAATTTTCCCCGTTCTTCTACGTCCAGCACGGCAGGGAAATCGCCTTGTGAGAAATCCACCGT -TTGCAGAAATAATCTCGCCTGAACTGAAGCGGATACCGACGGGGAGAAATAATGATACGCCCCACGCAGCAGGCCATTTT -CGCGGCTTAGTTGCCAGTTACGCGAAAAATAGGGGTCCACCAGCTTTTCGCCTTCCGTCGCCTTAATAAAAGCAAACTGT -AAGCGGATACCATTGTCGCGCATTTTTGCCACCCGCTGCCAGTCGATCCGCTCCTGCCAGCGCGAAACATCTATTCCGTG -AATGGTGTAACTGGCAGGAATGCGAATAGCGAAAGATTTAACCGGGCGATAACCGTAGAAGTGGATGTAGTCTGTAATCT -GAACTGCTGTCGAATAGAAAAAATTCACCGTCTGACGCGGATAAATTGCAACGATGGAAATTAGCCCAAGAGCGCATAAT -AGAGAGGTGAGTTTTTTTCGACTGGTAATTCTTAGCTGCATTGGTTTCATCCCTGAATGTCAGTGCCAAAGGCTGACAAT -AACCAAAGCAGCTATAGTACGGTGCTCACCACCAGGCGTGGAAGTGGTGAACCGGACCAATACCGTGACCAACTTCCAGC -GTGTCGGCCTGGGCTAACGCCGATGAAAGCCAGCTTTTTGCCTCCTGTACGGTGTCAGCCCAGTTTGTATGGCGCGGGCG -TAGTGCAGCCAACGCCGCAGAGAGTGTACAACCAGTGCCGTGGGTGTTTTTGGTCATAATGCGCGGTGCGGTAAACCGTT -GTTCACCCTCGCGGGTAAACAGCCAGTCCGGGCTTTGCTCATCATCCAGATGACCACCTTTCATTAGCACTGCGCCACAG -CCCATCGCCAACAGCGATCGCCCTTGTTCCAGCATTTCCTGTTCGGTGCGCGCGTGTGGCGCGTCGAGCAAGGCGGCAGC -TTCGGGCAAGTTTGGCGTTATTAATGAAACCTGTGGCAATAATCGACTGCGCAGCGTAGCAACCGCCGAAGGTGAAAGCA -GCGGGTCGCCGCTTTTTGCCAGCATAACGGTGTCGAGTACCACGTTTTGGATCTGATAACGTTGCAACCGTTCTGCCACC -GCTTCAACAATATCGGTTTCCGCCAGCATACCGATTTTAGTGGTATCGATTCGCACATCGCTGAACACCGAATCGAGCTG -GGCGGCGACAAAATCAGGCTCAATGCGATACACCGACTGTACGCCACGGGTATTTTGCGCCACCAGTGCAGTAATAACTG -AGCAACCATAAGCGCCAAGTGCCGAGAAGGTTTTAAGATCGGCCTGAATCCCCGCACCACCACTCGGATCAGTACCGGCA -ATCGTCAGAGCGTTAATTCGTTTCATGCCTGCACCTCCTGCGTCAATTGCCAGAGCGCATCAAGGAAATGTGGAACAAAA -CTGCCTGGCCCCTCGCTTCTGGCGACTGCGCGTTCTCCGGCTTGTTTCATCCAGTGACAGGCAGATGCGACATTTTCCAG -CGTATCGCCTGGTAACGCACAGCAGGCAGCGACAACCGCCGATAATGCACAGCCAGTTCCTACCACTTTGGTCATTAACG -GATCACCACCGTGAATACCAATGATACGATGTCCATCGGTAACATAATCCATCTCGCCAGTGACCACGACGATTGCGCCA -GTTTCCCGTGCCAGTGTTTGTGCAGCGGGTATCGCGTTAGCTGCGGCGTCAGTGGTATCCACTCCCCGTCCGCCATTAGC -AATGCCAGCTAATGCCATGATTTCCGAAGCATTACCACGTATCGCTGCCGGTTTAAAAGATAAAAGTTCATGACAAAAAT -GGCGGCGATAATCGAGCGCACCCACCGCTACTGGATCAAGCGTCCAGGGTGTTTGAGAGCTTTTTGCTTGCTCAACGGCA -GCACGCATCGCCTGAGCGCGTGGCTGCGTCAGTGTGCCAACGTTAATCAACAAGGCACTGGCGATAGCCGCAAACTGACT -GGCCTCTTCGGTTTCGATAACCATCGCTGGCGATGCACCGAGCGCCAGCAAGGTATTGGCGGTAAAGGTTTGCACCACAT -CATTGGTCATGCAGTGCACAAGAGGGGAATGTTGGTGAAAAAGGTGTAACGCGTGCGCAGATTGCGCTGAACCCAGCAGG -TCGACTTGCATAGTTTGCTCCTGCCATAACGTGAAGAAGCAATGACCTGGTGGTCCGTGACTTCCCTACGCTGGCATTAT -CCAGATCAGGTGATACGGGTATTTCTCAGCCTTCACGCAGAAGGGCACCCCGAGTCGTTTGGTTGCGATGATAAATCGCA -GAGGAGGATGGTAATGTCCAGCGCACGCGTTGTAAACGAGGAAAAACGGCAGTTTTACAATCGCGTTAATAAATTATTTG -ATATATGAATCCAGCACCTTCAGAACGACATCCAGATCTTCTTCACGTTTTAGCTCATCCCCCTGGTGAACGATGTGTTC -CGTCAGATGACCTTTAATCACTTCCCGCATCAGACCGTTTACCGCGCCACGGATAGCAGCAATCTGTTGTAAAACTGCAG -CGCATTCGTGCGGCTCGTCGAGCATTTTCTTGAGCGCCACGACCTGGCCCTGAATCTTACTGGCACGCGCTTTCAGTTTC -TGTTTATCACGGATTGTATGAGACATGGCAACACCTGGTTAACAAGAATATGAAAAATCATAGCACTATTAATCTACTGG -GGGGTAGTATCAGGTACTGGGGGGGAGTAGAATCAGATTGCCGAATTAATACTAAGAATTATTATCATGACCGAATTTAC -AACTCTTCTTCAGCAAGGAAACGCCTGGTTCTTCATCCCCAGCGCCATCTTACTTGGTGCGCTTCATGGCCTGGAACCAG -GGCACTCAAAAACGATGATGGCGGCGTTTATCATCGCCATCAAAGGCACCATTAAACAAGCGGTGATGCTCGGACTGGCA -GCAACTATTTCGCATACCGCAGTGGTCTGGTTAATTGCCTTTGGCGGGATGGTGATCAGCAAGCGCTTTACTGCTCAATC -AGCAGAACCGTGGCTCCAGCTGATTTCCGCAGTGATCATTATTAGCACCGCGTTCTGGATGTTCTGGCGTACCTGGCGCG -GCGAACGCAACTGGCTGGAGAATATGCACGGGCATGATTATGAGCATCATCATCACGATCACGAACATCACCACGACCAT -GGACATCATCACCATCACGAACATGGCGAGTATCAGGATGCCCATGCACGAGCCCATGCCAATGACATTAAACGACGCTT -TGATGGTAGAGAGGTCACCAACTGGCAAATTTTGTTATTTGGCTTAACCGGTGGCCTTATCCCCTGCCCGGCAGCAATTA -CCGTGCTGTTGATATGCATTCAGTTGAAAGCCCTGACACTGGGCGCAACACTGGTCGTCAGTTTCAGCATTGGCCTGGCG -TTAACGCTTGTCACCGTAGGCGTTGGCGCAGCAATCAGCGTTCAGCAGGTCGCAAAACGCTGGAGCGGATTTAACACTCT -CGCTAAACGCGCCCCCTATTTTTCCAGTCTGTTGATTGGCTTAGTCGGTGTGTATATGGGCGTACATGGCTTCATGGGCA -TAATGCGATAACTCAATCCTTTAGGCTTGCATGTTATCTTCAGCCCAGGATGATTCTTAAATCAGCTATTTCCGCTGACT -CTCTGCTCGCTAAGGATGCTTTTAGGGCATCCTTTCATTTACACTTTTTACGAAATCATGGGATCACTAACAAAATATCG -CTTGTCAGTTATATTGTATGGCAGGAAAGATATGCGACTGATATTACAGATCCCCAAAGTGGAGAGTTTATGACCATTAA -AAATAAGATGTTGCTGGGTGCGCTTTTGCTGGTTACCAGTGCCGCCTGGGCCGCACCAGCCACCGCGGGTTCGACCAATA -CCTCGGGAATTTCTAAGTATGAGTTAAGTAGTTTCATTGCTGACTTTAAGCATTTCAAACCAGGGGACACCGTACCAGAA -ATGTACCGTACCGATGAGTACAACATTAAGCAGTGGCAGTTGCGTAACCTGCCCGCGCCTGATGCCGGGACGCACTGGAC -CTATATGGGTGGCGCGTACGTGTTGATCAGCGACACCGACGGTAAAATCATTAAAGCCTACGACGGTGAGATTTTTTATC -ATCGCTAAAAAAAGCCCCCTCATCATGAGGGGGAAATGCAGACACCTTGTTATTTTTTATTATTAGCCACTTGCTCGTCT -TGCTTGTTATTAGTCGTATTTCACGTTGATTAATGCGGTTGCCTCCAGTGCGCCAGATTTAACTTTGTTTGTATCGTAGA -CGTAGTAACTGGCTGTTATCGGAATTGAAACCGTTGTATCTGTAAGTTTTGACTTCGCCGCAACTTCCTTTAAATTTGTA -TATCCTTTACTGCTGTTAGTGATATTTAAAAGTGTGACTGGCGAACCATTACTTTCAAGAATAAATCCTACGCCATTATC -TTCCGCACCTTTCAGTATTGTGTTGCTGTTGGTTAACAAGTCAGAACTTGATAAATACACCTGCATTTTCCGTGATGTTT -GATTTTGTTGACCTAATAAATTTTTACAACGCAGAATAATATCCCCTTGTTTACTATTTATTGTTGCTTTGTTACCTGTG -GCTGGTAATTGTGAAACGGGAATACTGTCTAAAGTAATTAATAAATCGTCCGGTTTGCAGGTTGTGGTTATCGGGTTGTA -TGACAATGTCAGATTAAAGGAATAGACACCTGCATTTTGTGCCAATGCATTTCTGTAGCTATTTACACATGCATCCCATG -ACTTGCCACCTAATAAACACAGTAGAAATTGTACTGCGGCACTCCCGCGTGTCGATGATGAAGCACTGGATAATGTCGCA -ACACCATTAATCATCACTGAACCGCCGCCCCCCGCAGAAACATTCACTTTTGCATTACTGGCCGCAGGTGTCACCGCAAC -TGAATAACCACTGGTGAAACTGGTCTGATTATTTGACAACGTGATGTTGTTTTTATTGGTCCATTCAAAATGTAAATTTA -ATTTTATGGTATCGTTATAAAGTCCAACAATAATATCCGACGGGCTCATAGGGGTGATAGTATTTGTACTTACGCATGAC -GAATCATTAAAATTATGCTCATATGTCGCCATTTGTGTTTGAGTAAGTGCAAAATCCCCCTGAACAACCAAGTTGTGCTG -AACAGATAACTCACTATAACATGCCGCATAGCTCACAGGCATAACCATCATCATTAATATAAATAGCATTATGCGAATTT -CCATAGAACCACCTGACTATTACTGGCAAATATAATTTCTACTTTCATCAATCTCTTTACCGAAGGTGATTGTGCATGAA -AGTCCTTGTTGCTTATCAATTGCCACATTAACCGATGGCGGTACTTCATTGGTGCGAATAAATAACTGACTTCCCTGGCC -GACAACGCCAATATTATGACCATGGATATCATTGACTTCATAACCAAACGTTAATGATTGCCCATCTGCTCTTAACGCTT -TTATAAACCATGGCTTGCGCTGATCGGTATCAAAATTAACCAGTACAACCGCGCCGCGATAAGGGGCGGCAATTTTCCGG -TTGCCACGTAATTCTGCTTCGCTATCGCTTTGCGACACATCCAGCATCAGGTGATTTTCCCGATAAGGTGTCATTCCGTC -GTATATCACCACTCCATTACGGTTTGTTGTGCGATATTTTTGCCCATTGACATAAGCATCTTTAATTCCTGGCGCATTCA -TCACAGCAAACGTTTCGGAAAGACGGTTCGCCAGATTAACGCCACCCGACCAGGCGACAATGCCCCCTGAAACACTGGCT -CCAGCCTGTCGATAAGTACTCGACTGACTATAACTGCCATTCACTGTCGCAACCGGCGCGTTCCAGGTCAAATTCGCCCC -AGCTGTCGTTTCATTTCCCTGATGTTGATGACTCAGGTTGACACCATAATTGAACTGATCCCGACTCCCTACTGTTCCTG -ATAATCCCGTATTATTTGAGGCAAACCCCTGATCATCAAACGTCGTTGAGTTAGACATATATATTTGCCGACGAGGCGTC -GAAACGTCATCACCCCAATCAAAGGGAATCGATATAAAAATATTAAAACGTTTCTCTTCATGATGATTCTCGTCATAAGC -CTGGCTTGCCGCGAGGGTATAGCTTATCCGTCGCAGGTTGTTGGAATAACTCAACTGATAATCCTTACTACTGCCGCTAC -GCCCCCAGTAATCTCGCCATAACGTACTTAATGACACAGACCCCCAACCTTCTGGCAATGACTGGCTCATATTGGCGGAA -AAGCTATTTTTGCGGCCAAAATCGTTCTGGTAATAATCGGCAATGTCATAGACATCGTTTTCATCACGGCGATAATTATC -TTTATTGTTTGCCCAAACGTGATCGTTAAATGTCCGGTAATCACGCGACGAATAACGCCAGGCCGCCAGACCAAAACGCG -TCGACGTTTGGCTCACAAATTTGTTGTAGGCAATTTGATAACTTTGCCCGTCAAACACATCGCCGTTGTCTTGTTTACTA -TGCGACTTAGTGGCATCGACGGAAATGGCACCAATGCGTGTATTCCAGCCAGCCCCCAAAGTAAACGCGTAATAATTATT -CGCGACCATCGAGCCACCATACAGCGTCAATAAATTATTAAAACCATACTGATAACCCGCCTGGACAAAATCACTTTGTT -TGCTCGCCCCTTCAATATGGCTACGACCCGCCGCTAAATCATATTTCGACACGCCGGGTTGCAGCATATTTGGCACCGCT -GCATAAGGCACCAGATAGGTGGTTACCGAGCCGTCCGCCTCTTTCACGCTGACATCAAGATCTGCTCCACCACCGGCCAA -CTGCAAATCTGTAATCGCGAACGGGCCAGGAGGAACCTCTTTCTGATAAACCACAAAACCATTCTGTTCAATAGTTACCA -GCGCGTTACTCTGAGCAATCCCCTGCACCCGTGGCGTAAAATTTTGTTTCGAGTTAGGCAACATCTGCATATCACGAAAC -AACCGCACACCTCTGAAGCGAACAGAATCAAAAATATCGCTTGATGTGTACATATCACCCACGCGAAGCGTGCCGAGAAG -TTGGGCAAATCCACGTTCCAGATACAGGGTATTGCTTTTCCACACCCCTGGATTGTTATTTGTTTTACTGAAACTGGCAT -CAGAATGCAGTTGCCACCCCAGTAAATTTAACCCGCTGTTAAAACGTACATATGTACTCTTGTTATTACCCGACGCTTTA -TAGTCGCTGTAATACTGACTCAGATAATAAGAGGTATAAAACGCATTAATACCCCGCTCCCAGTTTTCCGGTGGAACATA -GCCACTTTCCAGTTCTTCCACCCAGGCCTGCGGGACACTGAAATCGAGACGAAAAACCCCGATATCCCAGGTATAGCTCC -CACCCTGAACAAGTTGCTCAAATGTTAAACATTGCTTACCGCTGGCGAAGTTATCGCTATTAATGCCTAACCGCTTGATA -ACTTCTCTTGATAAACATGTTTCTTGCGGGTTGTCTTTAACAATAATCTCATATTTCCCGCGCCATTGCTTATTGACATA -AATATCGATGTCATACTGCCCCGGTAAGGGTTGATTATCATCAAGACGAATATTTGCAACCTGCTGGTCTTTCATTCCAC -CTATCATAAAATGGGTATCAAAGGTTTCTTCAGCTGCATAAGCTTCAATGCCGAGCAATAACGCTACGATTGCTGATGCA -AGTGGGGTCATTCTCAACATAGGCAGCTCCTGCAATTAAATTTTGTCACTAATATAGTTGCCATGGTCATCGATAATGGT -CAGATGCCAGTTATTTGCATTATTACTTTTGACATTAACACTCTGACTTTCTAAGGGGGCAATCATAATAGTTTCATAAT -TGACTTTGACATTATTAGCTTTGACATCCGAAATCGTCACCCAATTAGCTGAGTCATTTTTTATCACCAAACCATTGCCA -CTGCGATTTACCAGCAATTTTTTAAATGTCGCTTTATTTACCGGAGCAATACCCGCTGGCCGGTAAAACAACTTAATTCT -GTTTTGCATCGCAAACTTCAGTGCATTCTTACCTTCTTGCTCTGGACTATTTGGTGGAATATCCAGAACATTCAGATAAA -AAATGCTTTCTTTATTAGTGGGCAGTTTATTCGGCATAATTTTGATTTTTACTTGCTGCCCGGAATTTGCCCCTATTTTT -GCCACTGGTGGCGTTAACATGAAAGGAACCTGAATTTTTTCTGGTGGTAATGACGTATCGCCATCATCAATCCACGCCTG -CAGCAGCGAAGAACGGTTTCCCTGGTTCATCAACTGCACCATCACTTCTTTATTTTCTGCCGGGTAAATAATGCGCGTCC -CGTAGATAACAATTCCGGCATGTGCAGGAAGGACCATAGAAAAAATGAGTAAAGATAATAATCCTTTCATTTTAATGCCT -CTTAAATTAAAAGGCCGCCATGGGATAGCGGCCATGTTTATTACCTGGAGAAACTTACAATTTTATTTATTAATCCTGCG -CCACACGCATAACCAGAGAAGATAACACATCACCTGATTGCACTGAGTTATCTGTCAGTTTCAGGTATTTTGCTTTAAAC -GGAATAGCATATTGACCTTCCGCTGTTTTATAACTCTCAATGTTAAAAGGTGCAGAAACATCCAGGACATCGCTGTTATC -ACCTAAATAGAGATAGTAACCCACGGTATCGTTGCTACTGGCTATCGCCTTATCGTTACCGGTTATTTTATCGTTGGTAA -TCAACGAGAGTTTTACACCAGCAACTTCTTTCGGGCAGCTAATTTTTAACATGCTGCTGGTTACACCGACTGCATCATCA -TAGGTAGAATATTTAGCTTTACCTTCAAAGACACTGGTTGGTACAGTCGGCATATTAATACTTACTGAATCACCACCCGC -TTCGAATTTACACGGAGATTCTGCAATATTCCCCTTAATAGTTAATGTTCCGGTATCAACGTCTGCAGCAAATACTCCAG -CGCTCATAAAAAAAGAAGAAAAGACAGCGGCAGCAATAATTGAACGTTTCATAATATGTTCCTTAATAAAATTTATTTTT -GGTTGTTAAGAGTCTGTATCTCTTGGAAACAAATTTCTCACATCAAAAAAGTTGCCGCAATGTAAACACATTGTTTTATT -GATTTAAAACAAATTAACCATTGCAATATAAATACAAAAAATATTTAAGAGTATTAACTATTTATCGCATCTATCAATTA -ATGTAGATTTATGTAAATGGTATTGTTGATATCAATAAAAAAGCCGAAATCATTTATATAAATGATTTCGGCTTTCTAAA -TGCAATTAAAATCAGGTTGCCAAATTAATCGTAGCGATTTAACACGATTCGACGTTTGCTATCGCTACCTGCAACAACCA -CTTCTGTCGTTACACCTTTGACGGGCGAAGAAAACAGATGACGGGTGTCAACATTATACGTTAACTGACCACAATGCTGT -TGAGGTTGACCATTAACCATAGCCATACTGCATGTTGGGGGACTGATCCTGCCATTAATCGCTAATGTGGCAGTCTCTGA -AGAGAATGCGGGAGAAGCCAATCCATAGGCAAGAAAAATAATTCCTGACAGCCAATACTTATTCATTGAACGTTATCCCT -GTAGTAAAGGTTATGCCTGGATAGAATGAGTGCATAACAAACTATAGCTGTACATCCACTACACAGCCACGAAGGATGAT -AATGAAGCATTGCCTGTATGATCAATCGACTTTGTAGAGTTTCGGACGAAGGTCCGCAGAATATTCGCAGTATTAAATAA -GTGTTCATTAATGCGGCAAAAACTAATACACCGCATCAATGTAACATCTCTGCGGTGTATGAAGAATAACCAGAATGGTT -AATAGGCGTTAGACCGCGCGGAAGGAAATCTCGCCTGGAATGACTTCACCCTGCCAGTAGAGCTGAGCTGCAACGCGGTC -AGCCAGCTGGCGGTAGATAGCGGTAAATTCGCTCTCCGGACGGCTGATAACCGTTGGCGTACCTTTATCGAGATCCTCAC -GTAAGGAGATGTGTAACGGCATCTGCCCCAGCAGCTGTGTATGGTATTTTTCAGCCAGTTTCTCTGCACCACCGGTACCG -AAAATCGGTTCATGGTGACCACAGTTACTGCAAATATGCACACTCATGTTCTCGACAATACCGAGCACCGGAACCTCGAC -TTTCTCGAACATCACAATGCCTTTTTTCGCATCGATCAGCGCGATGTCCTGCGGGGTGGTGACCACGACTGCACCGGTTA -CTGGAATGTTTTGCGCCAGCGTCAATTGAATGTCACCGGTGCCTGGCGGCATATCAAGCACCAGATAGTCGAGATCCGGC -CACAAGGTTTCCTGCAACATCTGCATTAACGCCTTGCTCGCCATCGGTCCACGCCACACCATCGCATTGTCGTCAGTGAC -CAGATAACCAATTGAATTGGTTGCCAGGCCATGAGACATAATCGGTGCCATATGGGTACCGTCCGGCGAAGTTGGACGCT -GATTTTCTGCGCCCAACATTGTTGGGATTGATGGGCCGTAGATATCGGCGTCCAGAATGCCGACTTTCGCCCCTTCTGCC -GCCAGCGCCAGTGCCAGGTTTACCGCCGTGGACGATTTACCCACGCCGCCTTTACCGGAACTCACCGCGATAATGTTCTT -CACACCGTTAATTCCCGGCTGATTCTTCACGCGTTTCAGAGTGGCTATGTTATGCGACAGTTTCCAGTCGATAGCTTTCG -CCCCGGTGATGCGCAGCAGTTCGGCGCTACATTGCTCTTTTAACTCTTCGAACGCGCTATGCCAGACAAACGGCATAACC -AGTTCCACATGCAACGTGTCGTCCATCCAGGCGACATGGTGCAACGCTTTCAGCGTGGTGAGGTTATGCTTCAGGGTTGG -GTGCTGAAAATTGGCCAGTGTCCCGGCGACCATTGCGCGCAAGGCTTCTGGTGATTTGGCCTGGGATTGTTCGTTCATCC -CGACTCCTTTTTTGTATAGATAAACCATCAGCTGATAGTTTACCTGAAGAATATAGAGAAGTACTTACTTAACATTTTCC -CATTTGGTACTATCTAACCCCTTTTCACTATTAAGAAGTAATGCCTACTATGACTCAAGTCGCGAAGAAAATTCTGGTGA -CGTGCGCACTGCCGTACGCTAACGGCTCAATCCACCTCGGCCATATGCTGGAGCACATCCAGGCTGATGTCTGGGTCCGT -TACCAGCGAATGCGCGGCCACGAGGTCAACTTCATCTGCGCCGACGATGCCCACGGTACACCGATCATGCTGAAAGCTCA -GCAGCTTGGTATCACCCCGGAGCAGATGATTGGCGAAATGAGTCAGGAGCATCAGACTGATTTCGCAGGCTTTAACATCA -GCTATGACAACTATCACTCGACGCACAGCGAAGAGAACCGCCAGTTGTCAGAACTTATCTACTCTCGCCTGAAAGAAAAC -GGTTTTATTAAAAACCGCACCATCTCTCAGCTGTACGATCCGGAAAAAGGCATGTTCCTGCCGGACCGTTTTGTGAAAGG -CACCTGCCCGAAATGTAAATCCCCGGATCAATACGGCGATAACTGCGAAGTCTGCGGCGCGACCTACAGCCCGACTGAAC -TGATCGAGCCGAAATCGGTGGTTTCTGGCGCTACGCCGGTAATGCGTGATTCTGAACACTTCTTCTTTGATCTGCCCTCT -TTCAGCGAAATGTTGCAGGCATGGACCCGCAGCGGTGCGTTGCAGGAGCAGGTGGCAAATAAAATGCAGGAGTGGTTTGA -ATCTGGCCTGCAACAGTGGGATATCTCCCGCGACGCCCCTTACTTCGGTTTTGAAATTCCGAACGCGCCGGGCAAATATT -TCTACGTCTGGCTGGACGCACCGATTGGCTACATGGGTTCTTTCAAGAATCTGTGCGACAAGCGCGGCGACAGCGTAAGC -TTCGATGAATACTGGAAGAAAGACTCCACCGCCGAGCTGTACCACTTCATCGGTAAAGATATTGTTTACTTCCACAGCCT -GTTCTGGCCTGCCATGCTGGAAGGCAGCAACTTCCGCAAGCCGTCCAACCTGTTTGTTCATGGCTATGTGACGGTGAACG -GCGCAAAGATGTCCAAGTCTCGCGGCACCTTTATTAAAGCCAGCACCTGGCTGAATCATTTTGACGCAGACAGCCTGCGT -TACTACTACACTGCGAAACTCTCTTCGCGCATTGATGATATCGATCTCAACCTGGAAGATTTCGTTCAGCGTGTGAATGC -CGATATCGTTAACAAAGTGGTTAACCTGGCCTCCCGTAATGCGGGCTTTATCAACAAGCGTTTTGACGGCGTGCTGGCAA -GCGAACTGGCTGACCCGCAGTTGTACAAAACCTTCACTGATGCCGCTGAAGTGATTGGTGAAGCGTGGGAAAGCCGTGAA -TTTGGTAAAGCCGTGCGCGAAATCATGGCGCTGGCTGATCTGGCTAACCGCTATGTCGATGAACAGGCTCCGTGGGTGGT -GGCGAAACAGGAAGGCCGCGATGCCGACCTGCAGGCAATTTGCTCAATGGGCATCAACCTGTTCCGCGTGCTGATGACTT -ACCTGAAGCCGGTACTGCCGAAACTGACCGAGCGTGCAGAAGCATTCCTCAATACGGAACTGACCTGGGATGGTATCCAG -CAACCGCTGCTGGGCCACAAAGTGAATCCGTTCAAGGCGCTGTATAACCGCATCGATATGAGGCAGGTTGAAGCACTGGT -GGAAGCCTCTAAAGAAGAAGTAAAAGCCGCTGCCGCGCCGGTAACTGGCCCGCTGGCAGATGATCCGATTCAGGAAACCA -TCACCTTTGACGACTTCGCTAAAGTTGACCTGCGCGTGGCGCTGATTGAAAACGCAGAGTTTGTTGAAGGTTCTGACAAA -CTGCTGCGCCTGACGCTGGATCTCGGCGGTGAAAAACGCAATGTCTTCTCCGGTATTCGTTCTGCTTACCCGGATCCGCA -GGCACTGATTGGTCGTCACACCATTATGGTGGCTAACCTGGCACCACGTAAAATGCGCTTCGGTATCTCTGAAGGCATGG -TGATGGCTGCCGGTCCTGGCGGGAAAGATATTTTCCTGCTAAGCCCGGATGCCGGTGCTAAACCGGGTCATCAGGTGAAA -TAATCCCCCTTCAAGGCGCTGCATCGACAGCGCCTTTTCTTTATAAATTCCTAAAGTTGTTTTCTTGCGATTTTGTCTCT -CTCTAACCCGCATAAATACTGGTAGCATCTGCATTCAACTGGATAAAATTACAGGGATGCAGAATGAGACACTTTATCTA -TCAGGACGAAAAATCACATAAATTCAGGGCAGTTGAGCAACAGGGAAACGAGTTGCATATCAGTTGGGGAAAAGTTGGCA -CCAAAGGGCAAAGCCAGATAAAAAGTTTTTCAGATGCTGCGGCAGCGGCAAAAGCGGAGCTTAAGCTGATTGCGGAGAAG -GTGAAGAAGGGGTATGTGGAGCAAGCGAAGGATAATTCTTTGCAACCTTCCCAAACGGTAACGGGCTCTCTCAAGGTAGC -GGACTTATCCACCATTATTCAGGAACAACCCTCTTTCGTAGCAGAAACCCGTGCGCCTGACAAAAATACAGATGCTGTTT -TACCGTGGCTGGCGAAAGATATTGCTGTCGTTTTTCCGCCCGAAGTTGTACACACCACGTTAAGTCATCGCCGCTTTCCC -GGAGTTCCTGTTCAGCAAGCAGACAAATTGCCCCAATTACGTCGCTTAGCCTGTAGTGTGTCGCAACGGGATAATAAAAC -AGCCACATTTGACTTCAGCGCCTGTTCTTTAGAATGGCAAAACACCGTCGCCCAGGCGATCAGTCAGATCGACGGCCTGA -AAACAACACAGTTACCATCACCAGTAATGGCTGTACTCACGGCACTTGAAATGAAATGCACAAGATATAAAGTGCGTGAG -GATGTTATGGATCAGATCGTCCAGGAAGGCGGTCTGGAATATGCTACTGATGTAATAATACACCTTCAACAGATTGATAT -TGAATGGGATTATGCGAATAATGTCATTATTATTCTGCCGTCTGGCATTGCACCTAGCTACTTGGAGCAATATTCCAGAT -TTGAATGACGCCTACGTAAACATTTATCACTGACGGAAGAGTCTCTCTGGCAAAAATGTGCACAAAAACTTATTGCCGCA -ATTCCACATATTCCAGAATGGCGGCAACCATTAATTGCTTTGTTATTACCCGAAAAACCAGAAATTGCACATGAAATTGC -CCAGCGTCTACTGGGGCAAAAAAAATTACCCTCGCTTGAGTGGTTAAAAATAGTGGCGACTGATGAGCACATTCTTGCCT -CATTAGAAAAATATCACGAACCATATGCCATTTTTGATGATTACTATTGTGGTGCGATATGGTCAGCCACCGTATTACAG -GAGCAAGGTGTTGCAGCCCTGCCCCGATTTGCTCCCTATGCCGCAAGTGACTACTGCGCCGATGTGTTGCGTCATATCAA -TCATCCGTTCGCATTGACACTGCTTATACGTGTAGCCGGGCAAACTAAACGCTGTCACGATCGGATGACGAAAGCCATTG -CTGCGTTCCCACATGCAGCAATGGCGGCACTGACGGAACTTCTTGGGCAAAAAGAAGAGAACAGTTGGCGCATTATGCTA -ATGACAATGCTTATCTCACAACCAGCACTGGCAGAACAGGTCATTCCCTGGCTCTCGACACCCGCAGTTGCCGTACTGAA -ATCATGCCAGCAACAACTGACACAGCCCTCAAACCATGCCAGCGCCGATCTACTGCCAGCCGTAGTAGTCTCCCCTCCCT -GGCTTTCGAAAAAGAAAAAATCGCCGATTCCGGTGCTGGATTTAGCGCCATTAGGCATTGAGCCAATCTGTTATCTGACA -GAAGAAATCAGTAATCAACTTTTGGCGAAATATATCTGGTATTCAAAACACATCACGGTTAGCCATGAAGAAAGTACTAC -CAACCTGTTGGCAAGGATGGGTTTTCAACGACGGATCGCTGGTACATATATTAAAGCTCCCGAAGCGGTAGTTGAGGCAT -GGCTAAATGAAGATTATTCAACCTTACTAAGTGAATTTAAGGTGTTTCATTCACCTACCGGGCATTATTGGCAGTTGGGG -ATTTTGACAACATTGCCGCTGGAGAAAGCAGTAAAAGCATGGAATGCCCTTACCCTATCTCCACATACCGATACCGAATA -CTCCATGTTACATTTTGGACTCAAAGGGTTACCTGGGTTAGTAAACTCACTTGCACGCTATCCACAAGAAGCCTTGCCCA -TCACGAATTACTTCGCAGCGAGTGAGCTGGCTCCTGCCGTCGCCCGTGCCTTCAACAAACTGAAAACGCTACGCGAAAAC -GCCCGTAGCTGGCTGTTGAAATACCCGGAACATGCCCTTACCGGCCTGCTGCCTGCGGCGCTCGGCAAAGCCGGTGAAGC -ACAGGATAACGCCCGCGCTGCCTTGCGTATGCTTACCGAAAACGGTCATCAGCCATTACTGCAAGAAATCGCCCGACGTT -ATAACCAGCCGGAAGTAACCGATGCGGTGAACGCTCTGCTTGCGCTCGATCCCTTAGATAATCACCCGACAAAAATCCCC -ACTCTTCCGGCCTTTTATCAGCCATCGCTCTGGACGCGCCCGGTATTAAAAGCAAATGCCCAATCACTGCCAGATAGCGC -CCTCCTCCACCTCGGTGAAATGCTCCGCTTCCCTCAGGAAGAGGCTCTGTATCCGGGATTATTGCAGGTGAAAGACGTCT -GTTCCGCCGACTCACTGGCGGGATTTGCCTGGGATCTGTTTACCGCCTGGCAGACCGCTGGCGCGCCGTCGAAAGAGAGT -TGGGCGTTCACTGCGTTAGGCGTTCTCGGTAACGATGACACCGCCCGCAAACTGACGCCATTAATACGCGCCTGGCCTGG -TGAATCCCAGCATAAACGCGCCACCGTTGGGTTGGATATTCTCGCTGCTATCGGTAGTGATATCGCCCTTATGCAGCTTA -ACGGCATCGCCCAGAAACTGAAATTCAAAGCATTACAGGAGCGGGCAAAAGAAAAAATTGCCGACATTGCCGAGAGCCGC -GAACTCACGGTGGCGGAGCTTGAAGATCGGGTTAGCACCGGATCTCGGTCTGGATGATAACGGTTCGCTGCTGCTGGATT -TTGGCCCACGGCAGTTCACCGTCAGCTTTGATGAAACCTTAAAACCGTTTGTGCGTGATGTTTCCGGCAGCCGCCTGAAA -GACCTGCCCAAACCGAACAAAAGCGATGATGAAACGCGGGCGAACGATGCGGTTAACCGCTACAAATTGCTGAAAAAAGA -TGCGCGTACCATCGCCGCCCAGCAGGTAGCAAGGCTGGAATCCGCCATGTGCCTGCGCCGCCGCTGGTCGCTGGAAAACT -TCCAGCTCTTCCTGGTTGAGCATCCGCTGGTTCGTCACTTAACCCGCCGTCTGATTTGGGGCGTTTATAGCGCCGAAAAC -CAGCTACTGGCTTGCTTTCGCGTAGCAGAAGATAACAGCTCCAGCACCGCTGACGATGATCTTTTCACCCTGCCGGAAGG -CGATATCTCTATCGGCACTCCTCACGTTCTGGAAATATCACCAACGGATGCTGCCGCCTTTGGTCAGCTTTTTGCCGACT -ACGAACTGCTACCACCGTTCCGCCAGCTCGACCGTAACAGCTACGCCCTGACAGAAGCCGAGCGCAATGCCAGTGAACTG -ACCCGCTGGGCAGGCAGAAAATGCCCGAGTGGTCGGGTCATGGGGCTGGCGAATAAAGGCTGGATAAAGGGCGAACCACA -GGATGGAGGCTGGATCGGATGGATGATCAAACCTTTGGGTCGCTGGTCGTTAATCATGGAAATCGATGAAGGCTTTGCGG -TAGGCATGTCGCCAGCCGAACTCAGCGCTGAGCAGCTCTTAAGCAAGCTGTGGCTATGGGAAGGCAAAGCAGAAAGATAT -GGCTGGGGGAGTAATTCAACACAGGAAGCGCAGTTCTCCGTAATCGATGCCATCACCGCCAGCGAGCTAATTAACGATAT -TGAAGCCCTGTTTGAATAAGGAAAGAGCATGGACAAGGAATTACCGTGGCTGGCGGATAACGCCCAACTGGAACTGAAAT -ATAAAAAAGGCAAAACGCCGCTCAGTCATCGTCGCTGGCCGGGCGAACCAGTGTCCGTTATCACTGGAAGTCTCATCCAG -ACATTGGGTGATGAATTGCTACAAAAAGCTGAGAAGAAAAAAAACATTGTCTGGCGTTATGAGAATTTTTCACTGGAGTG -GCAGTCCGCCATCACGCAGGCCATCAACTTGATCGGCGAACACAAACCCTCAATCCCGGCCCGGACAATGGCGGCGCTAG -CCTGTATCGCGCAAAATGACAGCCAACAGTTGCTCGACGAAATCGTCCAACAAGAGGGGCTGGAATATGCGACTGAGGTG -GTGATTGCACGCCAGTTTATTGCGCGGTGTTATGAGAGTGATCCTCTGGTAGTGACATTGCAGTATCAGGACGAGGATTA -TGGCTATGGTTATCGCTCAGAAACCTATAACGAATTCGATCTCCGACTGCGTAAGCATCTCTCTCTGGCAGAGGAAAGCT -GCTGGCAGCGTTGCGCCGACAAACTCATTGCCGCACTACCAGGAATAAACAAAGTTCGCCGCCCTTTTATTGCGCTGATC -CTCCCGGAAAAACCAGAAATAGCCAATGAGTTGGTAGGCCTTGAATGCCCGCGAACTCATTTTCATTCTAAGGAGTGGTT -AAAAGTTGTTGCTAATGACCCCACAGCGGTGAGAAAACTCGAACACTACTGGAGCCAGGATATATTTAGCGATCGAGAAG -CCAGCTACATGTCGCATGAAAACCACTTCGGCTACGCGGCCTGCGCCGCCCTTTTGCGCGAACAAGGACTGGCAGCCATT -CCGCGCCTCGCGATGTATGCCCATAAAGAAGATTGCGGCAGTCTGCTGGTACAAATTAACCATCCGCAAGTCATCCGCAC -CTTGCTACTGGTGGCTGATAAAAACAAACCCAGCCTGCAACGTGTAGCTAAATACCATAAAAACTTCCCCCATGCGACGC -TCGCCGCACTGGCAGAACTGCTGGCGTTAACAGAACCACCAGCCCGCCCTGGTTATCCAATCATCGAAGACAAAAAGCTG -CCTGCACAGCAAAAAGCACGCGATGAATACTGGCGTACGCTGTTACAAACGCTGATGGCATCGCAGCCACAACTGGCAGC -AGAAGTGATGCCGTGGTTAAGTACTCAACCCCAGTCAGTGCTGAAGAGTTATTTATCGGCACCGCCCAAACCGGTTATTG -ATGGCACCGATAACAGCAATCTGCCAGAAATCCTCGTTTCACCACCGTGGCGTAGTAAGAAAAAAATGACAGCTCCACGT -CTTGATTTGGCACCGCTCGAATTAACTCCGCAAGTTTACTGGCAACCAGGCGAACAAGAGAGGCTTGCCGCCACTGAGCC -TGCCCGTTATTTCAGCACGGAATCTCTTGCGCAACGCATGGAACAAAAAAGTGGACGAGTTGTATTACAGGAACTGGGTT -TTGGGGATGATGTATGGCTGTTTCTGAATTATATACTCCCCGGAAAACTGGATGCTGCACGCAATTCACTCTTTGTTCAG -TGGCATTACTACCAGGGGCGGGTTGAAGAGATCCTGAATGGCTGGAACTCCCCGGAAGCACAATTAGCAGAACAGGCGCT -CCGCAGCGGTCACATAGAAGCGTTAATTAACATATGGGAAAATGACAACTACTCACATTATCGTCCGGAAAAGAGTGTCT -GGAACCTGTATTTATTGGCACAGTTGCCGCGTGAGATGGCTTTGACCTTCTGGCTGCGTATCAATGAGAAAAAGCATCTG -TTCGCGGGTGAGGACTATTTTCTCAGTATCCTCGGATTGGATGCGCTACCAGGTCTGCTGTTGGCTTTTTCACATCGTCC -AAAAGAAACATTTCCGTTAATTTTAAATTTTGGCGCAACAGAACTGGCGCTGCCTGTTGCCCACGTCTGGCGACGTTTCG -CGGCGCAGCGTGATCTGGCTCGCCAGTGGATTTTACAATGGCCGGAACATACGGCTAGTGCACTTATCCCTCTTGTCTTT -ACCAAACCCAGCGATAATAGCGAAGCCGCATTACTTGCCCTGCGTTTACTGTACGAACAGGGACATGGCGAATTGCTACA -AACCGTGGCAAACCGCTGGCAGCGTACAGATGTATGGTCTGCCCTGGAGCAGTTGCTTAAACAGGGTCCAATGGACATTT -ACCCGGCACGCATTCCAAAAGCCCCTGATTTCTGGCATCCGCAAATGTGGTCCAGGCCGCGCCTTATCACTAATAATCAA -ACTGTTACCAATGACGCTCTGGAAATTATCGGCGAAATGCTGCGCTTTACCCAGGGGGGACGTTTTTATAGCGGGCTGGA -ACAACTGAAAACGTTCTGCCAGCCACAAACGCTGGCAGCTTTTGCCTGGGATCTCTTCACTGCGTGGCAACAAGCTGGTG -CCCCCGCAAAAGACAACTGGGCATTTCTGGCGTTAAGTCTCTTTGGTGACGAAAGCACGGCACGGGATCTGACGACACAG -ATCCTCGCCTGGCCACAAGAAGGCAAATCTGCCCGTGCTGTCAGCGGCCTGAACATCCTTACCCTGATGAATAATGATAT -GGCGCTGATACAGCTGCATCATATATCGCAACGGGCTAAATCCCGCCCCTTACGTGATAACGCGGCGGAATTTCTTCAGG -TGGTCGCAGAAAATCGCGGGCTAAGCCAGGAAGAGCTAGCGGACAGATTAGTCCCAACCCTGGGCCTTGATGATCCGCAG -GCGTTGAGTTTTGATTTTGGTCCCCGGCAGTTTACCGTTCGCTTCGATGAAAATCTCAACCCGGTTATCTTTGATCAGCA -AAACGTTCGCCAGAAAAGCGTTCCCCGTTTGCGCGCCGATGACGATCAACTGAAAGCGCCCGAGGCACTGGCCCGACTAA -AAGGGCTAAAAAAAGATGCTACTCAGGTGAGCAAAAACCTGCTCCCGCGTCTTGAAACGGCCCTACGTACCACCCGACGC -TGGTCGCTGGCAGATTTTCATTCTCTGTTTGTTAATCATCCCTTTACCCGTCTGGTTACCCAGCGATTAATATGGGGGGT -TTATCCGGCAAATGAACCGCGTTGTTTACTCAAAGCCTTTCGTGTGGCCGCAGAGGGGGAGTTCTGCAATGCGCAAGATG -AGCCAATTGACCTGCCTGCGGACGCTCTGATTGGCATTGCCCACCCGTTAGAAATGACAGCAGAAATGCGCAGTGAATTT -GCACAGCTTTTTGCCGATTACGAAATTATGCCGCCTTTTCGCCAGTTGTCGCGCCGCACGGTGCTGCTCACACCTGACGA -GTCAACCAGTAACAGCCTGACTCGCTGGGAAGGTAAATCCGCTACCGTTGGGCAACTTATGGGAATGCGATACAAAGGCT -GGGAGTCAGGCTATGAGGACGCATTTGTCTATAACCTGGGTGAGTACCGGCTGGTCCTTAAGTTTTCACCCGGTTTTAAC -CACTACAATGTTGATAGCAAAGCGCTAATGAGCTTCCGTTCTCTTCGAGTGTACCGTGACAATAAATCCGTCACTTTTGC -CGAACTTGATGTGTTTGATTTGAGTGAGGCGTTAAGCGCACCTGACGTCATTTTCCATTAAAACACAGCGGGCAGTGATG -CAACTGCCCGTTATCAACACGACTTACCAGCGGGGAAAGCGATGATCGTGCAAAAAGAGCTGGTTGCTATTTACGATTAT -GAGGTCCCTGTACCTGAAGATCCGTTTTCCTTCAGACTTGAGATCCATAAATGCTCTGAATTATTTACAGGTTCCGTCTA -TCGACTGGAGCGATTCCGGCTACGTCCAACATTTCATCAACGTGATCGAGAAGATGCTGACCCGCTAATAAATGATGCGT -TGATTTATATAAGAGATGAGTGTATTGATGAGCGGAAATTACGAGGTGAATCACCTGAAACTGTAATAGCAATTTTTAAT -CGTGAACTACAGAATATATTCAACCAAGAAATAGAATAATATACTCTAAATAATTCAAATTGGTCCGATCCGGCGCAACG -TCCCAATGGCCTGGATTATAAATCTCATTATCTTAATTGCAACGGGGTCCAGCCGTGGTTATAATTCGTTCGTTGGAACA -CGATGTTGCACAGGCTGTGGTGTTAGGCCTGAAAATAGTAAATAAAAGAACCTGCCTCACCAGCAGGTTTTTTTATTTAC -TGTGATCTGCTTTCCAGATATTTTTCGCTCAAACAACTAATGCGCCAAACATTTATTGCGCGTAAAATATCGTTTATTTC -ATTAATACATTTCAGGGATGAATATATGTCACCGCAGAATAATCATCTGCAGCGTCCGCCTGCTGCTGTGTTATACGCCG -ATGAACTGGCAAAATTAAAACAAAATGATAACGCACCTTGCCCGCCCGGTTGGCAGTTAAGTTTGCCTGCGGCCCGTGCT -TTTATCCTTGGCGACGAAGCGCAAAATATCAGCCGTAAAGTGGTGATTAGCCCCTCCGCTGTCGAACGTATGTTAGTCAC -TCTTGCTACCGGCCGCGGTTTGATGTTGGTGGGGGAACCGGGTACCGCAAAATCTCTTCTTTCTGAATTACTGGCAACCG -CTATTAGCGGCGATGCCGGGTTAACCATCCAGGGCGGGGCATCTACCACCGAAGATCAAATCAAGTATGGCTGGAACTAC -GCCCTGCTTATCAATCATGGTCCGTCAACGGAAGCGCTGGTCCCTGCCCCGCTTTATCAGGGAATGCGCGACGGCAAAAT -CGTCCGTTTCGAAGAGATAACGCGTACACCGCTGGAAGTGCAGGACTGTCTGTTAGGTATGCTTTCTGACAGGGTGATGA -CGGGGCCGGAACTCACTGGTGAAGCCAGTCAGCTCTATGCGCGAGAAGGCTTTAATATTATTGCCACTGCCAATACCCGC -GATCGCGGCGTCAATGAAATGAGTGCTGCGCTAAAGCGTCGCTTCGATTTTGAAACGGTTTTTCCGATTATGGATTTCGC -CCAGGAGTTGGAACTGGTCGCCAGTGCTTCGGCGCGTTTGCTGGCCCATAGCGGTATTCCGCATAAAGTGCCTGACGCGG -TACTGGAATTACTGGTCCGCACCTTCCGCGATCTGCGTGCCAACGGCGAAAAGAAAACGTCAATGGATACACTGACAGCG -ATTATGTCCACCGCTGAAGCCGTGAACGTGGCCCATGCTGTGGGCGTCCGCGCCTGGTTTTTAGCGAATCGCGCGGGGGA -GCCTGCCGACCTGGTGGAATGTATTGCCGGAACCATCGTCAAAGATAACGAAGAAGATCGCGCGCGTCTGCGCCGTTACT -TCGAACAGCGTGTCGCCACACATAAAGAAGCTCACTGGCAGGCTTATTATCAAGCCCGCCACCGCCTGCCGTGAGGAAAG -ATGCATGAGCGAGCCGTTAATTGTCGGCATCCGGCATCATAGTCCGGCCTGCGCCCGGCTGGTGAAATCGTTAATCGAAA -GCCAGCGGCCACGATACGTGTTGATTGAAGGCCCGGCTGATTTTAATGACCGGGTAGACGAACTGTTTTTAGCCCACCAG -CTTCCGGTAGCTATTTACAGTTATTGCCAGTATCAGGACGGTGCAGCCCCCGGGCGTGGTGCCTGGACGCCATTTGCTGA -ATTTTCGCCGGAGTGGCAGGCGCTACAAGCCGCACGTCGCATTCAGGCACAAACTTACTTCATCGATTTGCCTTGCTGGG -CGCAGAGTGAAGAAGAGGACGATTCGCCTGATACGCAAGATGAAAGCCAGGCCTTACTGCTGCGTGCCACCCGCATGGAT -AACAGCGATACCCTGTGGGATCACTTGTTCGAAGATGAAAGCCAGCAAACTGCATTACCCTCTGCGCTGGCGCACTATTT -TGCCCAACTGCGGGGCGACGCCTCCGGCGATGCGCTCAATCGTCAGCGCGAAGCCTTTATGGCCCGCTGGATTGGATGGG -CGATGCAGCAAAATAATGGCGACGTGTTAGTTGTCTGCGGTGGCTGGCACGCTCCGGCACTGGCAAAGATGTGGCGCGAA -TGCCCTCAGAAAATTAACAAGCCAGAATTGCCCTCGCTGGCAGATGCCGTTACAGGTTGTTATCTCACACCCTACAGTGA -AAAGCGCCTTGATGTGCTGGCAGGATACCTTTCAGGAATGCCTGCCCCGGTATGGCAAAACTGGTGCTGGCAGTGGGGCT -TGCAGAAGGCCGGTGAACAACTGCTAAAAACTATCCTTACCCGTTTGCGCCAGCACAAATTGCCCGCTTCTACCGCGGAT -ATGGCTGCCGCTCATCTGCATGCGATGGCGCTGGCACAGTTGCGCGGTCATACACTACCGTTACGCACTGACTGGCTGGA -TGCCATAGCAGGCTCGCTGATTAAAGAAGCCCTGAACGCGCCGTTGCCGTGGAGCTATCGCGGCGTTATTCATCCCGATA -CCGATCCGATTCTGCTAACGTTGATAGACACATTAGCGGGTGACGGATTCGGTAAACTTGCCCCTTCTACGCCACAACCG -CCTCTGCCAAAAGATGTCACCTGCGAACTGGAACGTACCGCAATCTCCCTTCCGGCGGAGCTTACCTTAAATCGCTTTAC -CCCCGATGGGCTGGCGCAAAGTCAGGTGTTACATCGGCTGGCAATACTGGAGATCCCTGGGATTGTACGCCAGCAGGGAA -GTACACTGACACTTGCAGGCAACGGTGAAGAACGCTGGAAATTAACCCGCCCGCTTAGCCAGCATGCGGCATTGATTGAG -GCCGCCTGTTTTGGTGCCACACTCCAGGAAGCCGCACGCAATAAATTAGAAGCCGATATGCTGGACGCGGGCGGAATCGG -CAGTATCACCACATGTCTTAGCCAGGCGGCGTTAGCGGGTCTGGCGTCCTTCAGTCAACAATTACTGGAGCAACTCACAC -TATTAATCGCCCAGGAAAATCAATTTGCCGAAATGGGCCAGGCGCTGGAAGTGCTTTATGCCTTATGGCGGCTGGATGAA -ATTAGCGGTATGCAAGGCGCGCAGATATTACAAACGACGTTATGCGCGACTATCGATCGCACGCTGTGGCTGTGTGAATC -TAACGGCAGACCGGATGAAAAGGAGTTTCACGCTCACCTGCATAGCTGGCAAGCGCTTTGCCATATTCTGCGCGATCTAC -ATAGCGGCGTTAATTTACCCGGCGTTTCTCTTTCTGCGGCGGTAGCCTTACTGGAGCGACGCAGTCAGGCAATTCATGCC -CCGGCGCTGGATCGCGGCGCGGCTCTTGGCGCACTAATGCGTCTGGAACATCCCAACGCCAGTGCCGAAGCGGCGCTGAC -GATGCTGGCGCAGTTATCCCCGGCACAATCTGGTGAGGCGCTGCACGGTTTGCTGGCGCTGGCCCGCCATCAACTGGCCT -GTCAGCCGGCATTTATCGCCGGTTTCAGCAGTCATTTAAATCAACTGAGTGAAGCCGATTTTATTAACGCCCTGCCCGAT -TTACGCGCGGCGATGGCCTGGCTACCACCACGAGAACGCGGGACGCTGGCGCATCAGGTGCTTGAGCATTATCAACTGGC -GCAACTTCCCGTTTCGGCGCTGCAAATGCCGTTGCATTGTCCACCACAGGCCATTGCACATCATCAACAACTCGAACAGC -AGGCACTGGCATCGCTGCAAAACTGGGGAGTTTTCCATGTCTGAACTGAACGATCTTCTGACCACCCGTGAGCTACAACG -CTGGCGATTAATTCTTGGCGAAGCGGCAGAAACGACGCTTTGTGGGCTGGATGACAACGCCCGGCAGATAGACCACGCGC -TGGAGTGGCTGTATGGGCGCGATCCTGAACGGCTCCAGCGTGGTGAACGTTCCGGTGGATTAGGTGGCTCAAATCTCACC -ACCCCTGAGTGGATCAACAGTATTCACACGCTGTTTCCGCAGCAGGTGATTGAGCGGCTGGAAAGCGATGCCGTGCTGCG -CTACGGCATTGAAGATGTGGTGACGAATCTCGACGTGCTGGAACGTATGCAGCCTTCTGAAAGCCTGCTACGCGCTGTTT -TGCACACCAAACATCTGATGAACCCCGAAGTACTGGCTGCCGCCCGCCGGATAGTGTGCCAGGTTGTTGAAGAAATTATG -GCTCGACTGGCAAAGGAAGTTCGTCAGGCTTTTTCTGGTGTCCGCGATCGCCGTCGCCGTTCATTTATTCCACTGGCGCG -AAACTTTGATTTCAAAAGTACTCTGCGCGCCAACCTGCAACACTGGCACCCGCAACACGGCAAGTTGTATATCGAATCCC -CCCGCTTTAACAGCCGCATTAAACGCCAAAGCGAACAATGGCAACTGGTCTTACTGGTTGATCAAAGCGGATCGATGGTC -GATTCGGTGATCCACTCTGCGGTGATGGCGGCCTGTTTGTGGCAGTTACCCGGCATTCGTACCCATCTGGTGGCGTTTGA -CACAAGCGTCGTTGATCTCACGGCAGACGTTGCCGATCCGGTAGAGTTATTAATGAAAGTACAGTTGGGCGGCGGGACCA -ATATCGCCAGTGCCGTGGAGTATGGTCGGCAACTTATTGAACAACCAGCGAAAAGCGTCATTATCCTCGTGAGCGATTTT -TACGAAGGGGGTTCATCATCATTACTGACGCATCAGGTGAAAAAGTGTGTCCAGAGCGGCATCAAAGTGCTGGGACTGGC -AGCGCTCGATAGCACCGCAACACCTTGCTATGACCGCGATACGGCCCAGGCGCTGGTTAATGTCGGCGCACAAATAGCCG -CCATGACGCCGGGCGAGCTGGCATCATGGCTTGCGGAGAATCTTCAGTCATGAATTCACTACGTCCGGAATTATTAGAAC -TGACACCGCAGGCCCTGACGGCGTTAAGCAATGCCGGTTTTGTTAAGCGCAGTCTTAAGGAACTGGAAAATGGCAACGTC -CCGGAGATCAGCCATGAGAACGACGCTTTAATCGCCACCTTCAGTGACGGTGTCCGTACCCAGCTGGCGAACGGCCAGGC -ACTGAAAGAGGCTCAGTGCAGTTGCGGGGCCAACGGTATGTGCCGTCATCGCGTGATGCTGGTGTTAAGTTATCAACGAC -TTTGTGCCACCACTCAGTCTACGGAAAAAGAAGAAGAGTGGGATCCGGCAATCTGGCTGGAAGAACTGGCTACCCTTCCC -GATGCTACCCGCAAACGCGCACAGGCGCTGGTCGCTAAAGGCATCACCATTGAGTTGTTCTGTGCGCCGGGTGAAATTCC -CTCTGCCCGCTTACCGATGAGCGATGTGCGTTTTTATTCCCGCAGCAGTATTCGTTTCGCCCGTTGTGATTGTATTGAAG -GCACACTTTGCGAACATGTCGTACTGGCGGTACAGGCCTTCGTCGAGGCCAAAGCGCAGCAAGCAGAATTTAACCATTTA -ATCTGGCAGATGCGCAGCGAACACGTCACATCATCTGACGATCCGTTTGCCAGCGAAGAAGGCAACGCGTGTCGTCAATA -TGTTCAGCAATTAAGCCAGACATTATGGCTTGGCGGCATCAGCCAGCCGCTCATCCATTACGAGGCAGCATTCAACCGCG -CATTGCAGGCGGCAGAGACCTGCAACTGGCGCTGGGTGAGTGAATCGCTACGGCAACTGCGCGCCAGCGTTGATGCCTTC -CACGCCCGCGCCAGCCACTATAATGCCGGAGAATGCTTACATCAGCTTGCGGCATTAAACAGTCGATTAAATTGCGCACA -AGAGATGGCCCGGCGCGACAGTATTGGTGAAGTTCCTCCTGTGCCGTGGCGCACGGTCGTTGGCTCTGGCATTGCCGGAG -AAGCAAAGCTTGATCATCTGCGGCTGGTGTCTTTAGGTATGCGTTGCTGGCAGGATATTGAGCATTATGGTTTACGCATC -TGGTTTACCGATCCCGACACCGGCAGTATTTTGCACCTTTCGCGCAGTTGGCCGCGAAGTGAACAGGAAAACTCACCGGC -AGCTACGCGTCGGCTGTTTAGTTTTCAGGCTGGCGCACTGGCGGGCGGGCAAATTGTTTCACAAGCAGCAAAACGCAGTG -CCGATGGCGAGCTGCTGTTAGCTACCCGCAACCGCTTAAGCAGCGTTGTGCCGCTGTCGCCTGATGCCTGGCAAATGTTG -AGCGCGCCGTTACGCCAGCCGGGCATTGTGGCTTTGCGGGAATATTTACGCCAGCGTCCCCCCGCCTGCATACGGCCTCT -TAATCAGGTCGATAACTTATTTATTCTGCCGGTCGCTGAGTGTATTTCGCTCGGTTGGGACAGCAGCCGCCAGACGCTGG -ATGCGCAGGTCATTAGCGGCGAAGGGGAAGATAATGTGCTGACGTTATCATTACCAGCCTCAGCCAGCGCACCTTATGCC -GTTGAACGCATGGCGGCGCTTTTGCAACAAACAGACGACCCCGTGTGTCTGGTTTCTGGCTTTGTCAGTTTTGTTGAAGG -GCAATTGACACTGGAACCACGGGTGATGATGACAAAAACCCGTGCCTGGGCGCTGGACGCAGAAACTACGCCTGTGGCAC -CGCTACCTTCTGCCAGCGTTTTGCCTGTGCCGTCTACTGCTCATCAGTTGCTGATACGCTGCCAGGCGTTACTTATTCAA -CTGCTCCATAACGGCTGGCGCTATCAGGAACAGAGTGCTATTGGTCAGGCATAGTTGCTGGCGAATGACCTCACCGCGGT -GGGTTTTTATCGGCTGGCACATGTGTTGGGACAATTTCGTAATACAGAAAGCGAGGCACGGGTAGAAGCAATGAATAACG -GTGTTTTGCTTTGCGAACAATTATTCCCCATGCTTCAGCAACAAGGATGAAATAGTGCTTTTTACTAAGAGTTCTACTCC -AGTTCCGGACTGCTCACGCCACGGTATTAGGCATATCCTATATAGCCCCTGGTGAGAGTCACCAGTTCCTTGATTAAATA -AAATGGAGTTTTACATGAAGGCTTTCAATAAGCTGTTTTCCCTCGTTGTTGCATCTGTTCTGGTTTTCTCTCTTGCTGGC -TGCGGTGACAAAGAAGAATCGAAGAAATTCAGCGCCAATCTGAACGGCACTGAAATTGCCATTACCTATGTCTACAAAGG -TGACAAGGTGCTTAAGCAATCTTCTGAAACCAAAATTCAATTTGCCTCCATTGGTGCAACCACCAAAGAAGATGCTGCCA -AGACACTTGAGCCGTTAAGCGCCAAATACAAAAACATCGCGGGTGTTGAAGAAAAATTAACCTATACCGATACCTACGCG -CAGGAAAACGTGACTATCGATATGGAAAAAGTGGATTTTAAAGCCCTGCAGGGTATTTCAGGAATCAACGTTTCTGCTGA -AGATGCCAAAAAAGGTATCACTATGGCGCAAATGGAACTGGTGATGAAAGCCGCTGGTTTTAAAGAAGTGAAATAATCGG -TTGGCGGTCATGCTCTAAACATGACCGCCAATTTTTTAGCCTTTTTTCACATGCTGGCGCGCTGCCAGTCCACGCAGAAA -ATAACGTAAAAATTGATCGCCGCATTCGCGGAAGTTTTTATGATCCGGTGCGCGCATCATCGCTGTAATTTCCGGCATCG -AAACGCGGAACTGCTGTTCGGTGAGGATAGCCAGAATGTCATCGGTTTTCAGCGAAAACGCGATGCGTAATTTTTTCAGC -ACGATGTTGTTATTAATGCGACGTTCCGGCTCCAGTGCCGGAGCAGACTCATCCTTGCCGCGTTTTTCATAAATCAGGCC -ATTGAGGAATGACGACAAAACAATGTCCGGACAACGCTGAAAACCCTCTTCGTCTTCTTTACGTAGCCAGACGGCGATCT -GTTCCGCGGTGGCTTCGACATTACCCAGCGCCAGAATACGCACCAGGTCATTATTATTGGCTTTCAAAATGTAGCGCACG -CTGCGCAGAATATCGTTACTTAGCATGAGGCCTTCAGGTGTTGATGAGGCAAAAAGCCATTTTAGCAGTCTTTTACAGGC -CAATCGCCTCTTTTAAGCTTTTCAGATAACGGCGGCTGACCGGCACGGTTAAGCCATTACGCAAAATCAACTCGGCCTGG -CCGTTATCTTCCAGACGAATCTCCTGTAAATGCGCGAGGTTAACCAGATACTGACGATGGCAGCGCAGTAGTGGTGTACG -ACTTTCCAGGGTACGTAATGTCAATTCGGTAAAGCCCTCTTTCCCTTCGTGGCTGGTAACGTAGACACCGCTCATCCGAC -TGCTGACAAATGCCACATCTTTCATTTGCAGCAAATAAATCCGACTATGCCCCGTACAAGGGATAAATTTCAGCGCCTGT -TGATTTTCCGGTAACAGCGAAACATCCTGCTTGCTGCGCTCCTGACGCAATCGCGCCAGCGTTTTCTCCAGTCGCGCTTC -ATCAATTGGCTTCAGCAGATAATCAAAGGCATGTTCTTCAAAGGCTTTAATTGCGTATTCGTCAAACGCAGTGAGAAAAA -CAATATACGGGCGATGTTCCGGGTCAAGCATCCCCACCATTTCCAGACCACTGATGCGCGGCATCTGGATATCGAGAAAC -AGCACATCCGGGCGCAGTTTATGCACCGCGCCGATCCCTTCCACGGCGTTTGAACACTCTCCAACGATTTCAATATCGCT -CTGCTCCTGCAAAAATACACGCAGGTTCTCCCGTGCTAACGGTTCATCATCGACAATTAAGACTTTAATCATGCCTCGTC -CCTCCATGGTAGTCGTAACGTTATTCGGGTGTAACTATCAGGCTCACAGGCGACGCTTATTCCATAGTCATCGCCAAACC -GTTCACGTAAACGCTTATCCACCAGATTCATCCCCAGCCCACTGGCATTGGTTACCGGTTGATACAAACCGGCATTGTCT -TCGATCTCCAGCATCAAATGTTGCCCCTCACGTCGGGCGCTGATTGCCACTCGCCCTGTATCCAGCAGTTGTGATGTCCC -ATGTTTAATGGCGTTTTCCACTATCGGTTGCAGGGTAAACGCGGGCAATTGCTGCTGGGATAATTCTTGCGGAATAGCAA -TGTTGACCTGCAACCGCGACTGGAAGCGCGCCTTTTCAATTTGCAGATAAGCATTCACATGTTCAATTTCGTCGGCGAGA -GTAACAAACTCCGAAGGCCGCTTTAAGTTTTTGCGGAAAAAAGTGGAAAGATACTGCACCAGCTGGCTGGCCTGTTCGCT -GTCGCGGCGGATCACCGCTTTAATGGTGTTAAGCGCATTAAACAAAAAATGGGGATTCACCTGGGCGTGAAGCAGTTTGA -TCTCTGACTGGGTGAGCATCGCTTTTTGCCGCTCATATTGCCCGGCAAGGATCTGCGCCGAAAGCAATTGCGCAATCCCC -TCACCCAACGTGCGGTTGATTGAACTGAATAAACGGTTTTTGGCTTCATACAATTTGATGGTGCCCATCACCCGCTGATT -TTCACCACGCAACGGAATTACCAGCGTCGACCCCAGTTTGCATTGCGGATGCAAAGAGCAACGGTAAGGTACTTCGTTGC -CATCAGCGTAGACCACTTCACCGGTTTCAATCGCTTTTAAAGTATAAGTTGAAGAAATCGGTTTGCCGGGTAAATGGTGG -TCGTCACCAATTCCGGTAAAGGCCAGCAATTTCTCTCGATCGGTAATCGCGACTGCACCAATATCCAGTTCCTGATACAG -CACCTGAGCCACTTTCATGCTGTTCACTTCGTTAAACCCCTGGCGCAAAATGCCTTCCGTCGAGGCTGCCACTTTCAGCG -CAGTGGCAGAAAAAGCCGAAGTGTATTTTTCAAACATCGCGCGTTTATCGAGCAATATACGCATAAACAGCGCCGCGCCG -ACGGTATTGGTGACCATCATTGGCGCAGCAATATTACTCACCAGACGCACCGCATCTTCATAAGGTCGGGCGATCGCAAG -GATGATCAGCATTTGCACCATTTCAGCGACGAACGTGACGGCACCGGCGGTAATGGGGTTAAAGACTTTATCAGTGCGCC -CGCGGCGGATCAGGATGCTGTGTACCAGGCCACCGAGTAATCCTTCAACGATGGTCGAGATCATGCAACTTAACGCGGTC -ATGCCCCCCATCGAATATCGATGTAAGCCGCCGGTCAGCCCAACCAGCCCACCGACGACCGGACCGCCGAGTAAGCCGCC -CATTACCGCGCCTATCGCACGGGTATTGGCAATAGAATCGTCAATGTGCAACCCAAACCAGGTGCCCATGATGCAGAAGA -TGGAAAAGACGATGTAGCAGAGAAATTTATGCGGCAGACGAACCGTGACCTGCATTAACGGTATGAATAATGGCGTTTTA -CTCATTAACCATGCAATGACTAAAAAAACGCACATCTGCTGAAGCAGCAGCAACACCAGATTAAAATCGTACATACCCGC -AAACCACACTTCCCTTTAAAACGCGTAACATACATTGCCTGCGTTTAACTTTCTTTGAACTCTTGCAGAAAAATGAGAAT -TCGTGAGTACGATCACTCAAAATCGCCTGGCAAAAATAAAATCACCCTATAGATGCACAAAAAACGGGCAAAACTACCTG -GTTCGCAAAACTGCGTCTAAAGTTAAACCGGGACCTCGCGAGCAAGGGTGAGACGATGGCGCTTTACACAATTGGTGAAG -TGGCGTTGCTTTGTGATATTAATCCTGTCACGTTACGCGCGTGGCAGAGGCGTTACGGATTGCTGAAACCGCAACGGACA -GACGGCGGTCATCGGCTGTTCAACGATGCCGATATTGACCGGATCCGCGAGATCAAACGCTGGATCGACAACGGCGTGCA -GGTCAGCAAAGTTAAAATGCTGCTCAGTAATGAAAATGTTGATGTGCAGAACGGCTGGCGCGATCAGCAAGAAACATTAC -TGACTTACCTGCAAAGCGGCAATCTACATAGCCTGCGAACGTGGATCAAAGAGCGCGGTCAGGATTACCCCGCCCAGACA -CTCACCACACATCTGTTTATTCCTCTGCGCCGACGGCTTCAGTGCCAACAACCGACTCTCCAGGCGCTGCTGGCGATCCT -CGACGGCGTACTGATCAACTACATCGCCATTTGTCTGGCTTCGGCACGTAAAAAACAGGGTAAAGATGCGCTGGTGGTTG -GCTGGAATATTCAGGATACCACCCGTCTGTGGCTGGAGGGCTGGATTGCCAGTCAACAAGGATGGCGCATTGATGTCCTC -GCCCACTCGCTCAATCAACTACGCCCTGAACTATTCGAAGGCCGTACATTGCTGGTGTGGTGCGGTGAAAATCGAACCTC -CGCCCAACAGCAGCAACTCACCAGTTGGCAAGAACAAGGCCATGATATTTTCCCACTCGGCATTTAATGATTCGTTAACA -AATGCGCTTTACTGTACAATCCTTTCGTTAACATAAGGAGTGCATTATGCGCATAGCTAAAATTGGGGTCATCGCCCTGT -TCCTGTTTATGGCGTTAGGCGGAATTGGTGGCGTCATGCTCGCAGGTTATACCTTTATTTTGCGTGCTGGCTAAGCGCCT -GCACCAGCCTTTCAAACAGGCGGTCTGCGATGATCGCCGCCAGTGCCACCAGTAACGCCCCCTGGATCACATACGCGGTA -TTAAATCCGCTAAGCCCGATGATGATGGGCGTACCCAGCGTGCTGGCCCCTACCGTTGAGGCGATCGTCGCCGTACCAAT -GTTGATAATCACCGAAGTTCGCACGCCCGCCAGAATCACCGGAGCCGCCAGCGGTAGCTCGACCTTACGCACTCGCTGAC -CACGACTCATTCCCATACCTTTCGCAACTTCTGTCACGCTGGCATCAATCGCTCCCAGCCCGGCAAGTGTCGCCTGCAGG -ACGGGCAGCACACCGTAAAGGATCAAGGCGATAATCGCTGGTTGCAGACCAAAGCCGATCACCGGAACGGCGATCGCCAG -CACTGCGACGGGCGGAAAAGTCTGTCCAACGGCGGCAATAGTTTCCACCAGTGGGCGAAATTCCGCGCCCCACGGGCGAG -TGACAGCAATTCCGGCACCAGTGCCAATGATCACCGCAAACAAACTCGAAATTCCCACCAGCCAGAAATGAGCCAGTGCC -AGAGCTGCAAAACTTTCTTGCTGATAAACGGGTCGTGGCAGTTGTGGGAACAAGGCAGCAAACAGCGGCTGGCTGTAAGG -CAGCCAGAAAATCAGCGCCACAAACAGAGCAATGAGCCAGAACAGCGGATCGCGCAACATCTTCATACGCTTACGCCTCC -ACCAGCAGATCCTGAAAATGCAGCGTGCCGCAAGGCTGGCCCTGCATGTTCACCACCGGCAGCACCTCGCATCCCCGCGC -AACAAACAGAGAGAGCGCATCGCGTAGCGTCATCTCTTCTGCCAGTGCCTCACCATCTGCTCGTTCTTCGCGACGCACGT -AATCCGCCACACTACGTAACGAAAGCAGGCGCACACCCAGTTCACTACGTCCAAAAAACTGGCGGACAAAATCATTCGCC -GGACGAGTCAGCATCGTCAGCGGATTGCCCTGCTGCACTACTTCACCGTGATCCATCAATACCAGATGTTCTGCCAGCCG -TAGCGCCTCATCAATATCATGAGTGACCAGCACAATGGTACGCCCCAGCAAACGGTGAATGCGCGTCATCTCTTGTTGCA -ACGCGCCGCGCGTTACCGGGTCCAGTGCGCCAAAAGGTTCATCCATTAGTAAGACTTGCGGATCGGCAGCCAGTGCACGC -GCCACTCCCACACGTTGCTGCTGACCACCGGAAAGCTGATGCGGATAACGCTCACGCAAATTTGACTCCAGCCCCAGTAG -CGCCATTAATTCGTCGATACGATCGTCAATCCGCGCCCGCGACCATTTTTGTAATTGCGGCACGGTAGCGATGTTTTGCG -CCACGCTCCAGTGGGGGAACAGGCCAATAGATTGAATGGCATAGCCCATCCGGCGGCGCAACTCCAGTACTGGCAGCGAG -CGAATTTCTTCTCCGGCAAAGCGGATCTCTCCGCTGTCATGCTCCACCAGGCGGTTAATCATTTTCAGGGTGGTGGATTT -GCCGGAGCCAGATGTGCCAATCAGCACCGAAAAACTCCCTTCCTGAAAATTGAGATTGAGATCGTTAACGGCTTTTTGTG -CGCCGAACAGTTTGCTGACATGGCTAAATTCAATCATTACGTTTCACCTTCAGCAGTGCGATAAGCAAATCGAACAGCGC -GTCGGTAAGCACCGCCAGAACAATTACCGGGATCACCCCCAGCAACACTAAATCAATGGCGCTGCTTAGCAGCCCCTGGA -AAACCAGCGCACCAAAACCGCCTGCGCCGATTAACGCCGCAATCACCGCCATACCTACAGTTTGCACCATCACCACCCGC -AGGCTGCGCAGAAATACCGGTAACGCCAGCGGTAACTGAACATGCAGGAAACGCTGCGCCCCGCTCATCCCCATCGCTCT -GGCGCTTTCCAGCACATCGCGCGGGATCTGGTTCAAACCGACTACCACGCCGCGCACCAGCGGCAGCAAGGCATAGAGCA -CCAGCGCAATCAGTGCGGGTGTCATTCCGGTTCCTGCTATGCCGAGCGTCCCCAGCCACGGAAAGGCCGTAACCAGCGCG -GCAAGCGGCGCAATCAACAGGCCAAAGAGCGCCACCGAAGGCACGGTCTGAATCACATTGAGCAGAGAAAAAATTGCCCC -CTGCCGAGCAGTGGAAAAGTAGCACCAGATGCCCAACGGCACACCAATCACTAACGCAGGCAGCACCGCACCAAACAGCA -ACGTCAGATGTTGTGCCAGCGCGTCGTCAAACACATCCTGACGGTTGGCGTATTCTTTCATTAGTGAGAGATCGTTAAGC -GTGCCGGAGTACAGCAACCACAGCGGAATAATGGCAATCTGCATATGCAACAACCAGCGCCACAGCGGATGCGTGGAGAT -TCGGCGGATGGCATCGCTACAGGCCAGCAATGCCAGCGCCGCAGCCAGCCAGAAACCACTGCCGAGGCTGGTACGCGCCA -GCGCACTGCCATTTTGCGCCAGTTGGGTCGCCGCCTTTCCAGCTCCCCACACCAGCAATACGAAGACGAATTGCGCCAGA -ATGAGTGCACAAATGCTGCCTTTTTTACCGGGAATAAAACAGGCCGTCAGCCAGGCGCAACCAACGCCCACCAGCATCCA -GATCGTTTGCGGCCACAGCTGCCAGAGATGACGCCCCTCACCCGAAACTAAACGATTAGGCGCGTAACTGATAAACGGCA -GCGCCGCTGCGATTGCCGTCAGCAACAGCAGCAGCGCCAGAACAGGATTAATACGGAAATAAGTCACGGGAAATTACTTC -GTCCACCCTTTTTGTTTCAGGTAGTCGGCAGCCACTTTTTTGGCATCCAGTCCTTCCACAGCAATGCTGGCATTCAGTTG -CTGCAATGTTTTTGCATCGAGGCTGGCGAAGACTGGCTGTAGCCACTGTGCCATTTGCGGATACTCCCTCAACACCGACT -CACGCACCACTGGTGCAGGCGCGTAGATAGGTTGCACACCTTGCGGATCGCTTAAGGTTTGCAGCCCCAGCGCCGCTACC -GGGCCGTCAGTGCCGTAAGCCATTGCAGCATTAACGCCAGAGGTTTGCTGGGCAGCGGCTTTGATCGTCACCGCCGTGTC -GCCACCAGCCAGTGACAGCAACTGATCCTGACCGAGCTTAAAGCCATAGGCTTTTTCAAACGCGGGTAACGCATCGGCGC -GTTCGATAAACTCTGCCGAGGCTGCCAGTTTGAAGGTGCCGCCCTCTTGCAGATAACGACTCAGGTCGGCAAGCGAAGTG -AGTTTATTTTTCTCTGCCACATCCTGACGCACGGCGATAGTCCAGGTGTTATTTGCAGGCGCGGGCGTCAGCCAGATTAA -CTTGTTGTGCTCCGAATCGAGCTTTTTGACTTTCTCGTAACCTTGCTGCGCGTTTTTCCACGCTGCATCGTTTTCATCTT -TAAAGAAGAAAGCGCCATTGCCGGTATATTCCGGATAGATATCCAGTTCACCGGAAGTAATCGCCCCGCGCACCACAGGA -GTCGTTCCGAGTTGCACTTTATTCACCGTCGGTACGCCGTGGCTTTCCAGCACCTGCAAAATGATATTGCCGAGTAGCGC -ACCTTCGGTATCGATTTTTGAACCGACTTTAACGGGGGAAGCCGCCTGTAGCGGCAGGCTCACGGCTGCCAACATAACCA -GTGAACCTGCCCAGAGCTTTAAGAGTGGCATGATGCTTTCCTCATTCTTTTACTGTTGTTTTCAGCGAATTAAGAGAAAA -GCATAGTTGATAATGGCGGGGTTAGCTTGAGCGGAAGGATTCAGTTGCAGAATCAGATAAATACTTAAGAGGCATATTCG -GTCCGGCGTTTCCTGCCGGATGCGGCGCGAGCGCCTTATCCGGCCTACAAAGGGCGCAAACGTCGCGCCCTTACTAAAGC -ATTACAGCAACTCAAACTCGCCTTTCTTAACGCGTGCGGAATCAGTGCCGATAAAGACATTGAACTTGCCAGGCTCGGCG -TCATATTTCATCTGTTGATTCCAGAACTTCAGCGCCTCAATATCGATCGGGAAGCTGACAGTCTGAGTTTCGCCCGGTTT -CAGGGTGATTTTCTCAAAGCCTTTCAGCTGTTTCACAGGGCGACTCATGGAAGCCGTCACATCCTGCAAGTACATCTGCA -CTACCGTGGCACCCTCGCGCTTACCGGTGTTCGTCACCTGCACGCTGGCAGTCACTTTGCCGTCACGCTTCATGGTCGGC -GCAGAAAGTTTCACATCAGAGACGGTGAAAGTGGTGTAGCTCAGCCCATAGCCGAACGGATACAACGCCCCGTTAGCTTC -ATCAAAATAACGCGAAGTGTATTTGTTCGGCTTGTCGGCATTATACGGGCGACCGGTATTCAGATGGCTGTAGTACACCG -GGATCTGCCCGACAGAACGCGGGAAGGACATTGGCAGCTTGCCGGACGGGTTGTAATCGCCAAACAATACATCGGCAATT -GCATTACCGCCTTCAGTCCCCGCAAACCAGGTTTCCAGAATCGCATCAGCCTGCTGATCTTCTTTCACCAGCGCCAGCGG -ACGCCCGTTCATCAGCACCAGCACCAGCGGTTTACCGGTGGCTTTCAGCGCCGCAATCAAGTCACGTTGGCTTTGCGGAA -TAGTGATATCGGTCCGGCTGGAGGCTTCGTGCGCCATCCCCTGTGCTTCACCGACTACAGCCACCACCACATCAGATTGT -TTCGCCGTCTGCACCGCTTCATCAATCATCTCTTGCGGCGAACGCGGATCGACTTTGACCGCTTCTTCATACTGATTCAG -GAAATCGATAATGCCTTTGTCACTGGTAACGTTCGCCCCTTTGGCATACAGCACTTTACCGTTTTCACCGACGGCATTTT -TAATCCCGGTCAGTACGGTCACGGATTGATCGGCAACACCGGCTGCGGACCAGCTGCCCATCACGTCACGTTTACTGTCC -GCCAGTGGCCCAACCACCGCAATGGTGGCCGATTTTTTCAGCGGTAACGTTTCGAGACGGTTTTTCAGCAACACCAAGCT -TTCGCGCGCCACTTCACGCGCTTCTTTACGGTGCAGGCGGCTTTCGGCATTGGTATCCACCGGGTCAGACTCTTTCGGCC -CCAAATGGCTGTATGGGTCGTTAAACAACCCCATATCATATTTAACGTTCAGTACATGGCGGGCAGCATCGTCCAGCTCT -GCCATCGTCACTTTGCCGGATTTAATCAACCCAGGCAGATACTTCGAGTAGTACTCGTCGCTCATGCTCATGTTGATTCC -GGATTTCAGCGCCACGCGCACCGCATCTTCCGGGTCTGCCGCCGTGCCATGTTTAATCAGCTCTTTGATTGCACCGTGAT -CGGAAACGGTGATGCCTTTAAAGCCCCACTGGTCGCGCAGAACATCTTTCAGCAGCCAGGAATCGGAGGTGGCTGGCGTG -CCGTTCAGCGAGTTCAGCGCCACCATCACCGCGCCGCTGCCTGCGTCCAGCCCCGCTTTGTACGGCGGCATATAATCATT -AAACAGGCGCTGCGGACTCATATCGACGGTGTTGTACTCTTTACCGCCTTCTACCGCGCCGTATGCGGCAAAGTGTTTGA -CGCTGGTCATCACCGAGTAGCGATCTGCCGGGCTTTTACCCTGCATCGCTTCCACCATGGTTTTACCCATTGTTGAGGTG -AGATACGTATCTTCGCCAAAACCTTCGGAAGCACGTCCCCAGCGCGGATCGCGCGAGACATCGACCATCGGTGCCCAGGT -CATATTCAGGCCATCATCTGCCGCTTCATAAGCAGAGACACGTCCGACCGTTTTCACTGCATCGAGGTTAAAAGACGAGG -CCAGACCGAGGCTAATCGGGAACACCGTGCGCTGACCGTGCAGCACGTCGTAAGCAAAGAAAAGAGGAATTTTCAGGCGG -CTTAATTCCATCACCTGATCCTGCATGGCGCGGATATCCTGACGGGTTACGGTGTTGAAAATCGCCCCAACCTGACCGTC -TTTGATCATCTCGCGGATCGCCTCTTTCGGGTTATCCGGGCCGACGCTGATTAAGCGCAGCTGACCAATTTTCTCATCAA -CTGTCATTTTCTTAAGCAGTTCGGTGACGAACGCATCCCGCGCTTCGGGCGTTAATGGATGGTTGCCGAATAAATCATCC -GCCAGTGCTGGCTGCAGGGCCAGACTCACCGCGATTCCTACTGAACATAGCCATTTCATATGGATTTTTCTTCCTTTGTT -GCCCGACGTGGCAGCGAAAATGGTGCAAAAACCGTAGTTTGCCATAAGCATGATGGAGAGAGAAAAAGAATGCTCAGTTT -ATTGTCTGAATTTTCAAAATATTCACTCGCTGAATTGTTATACAAGGCGCTATTCTAGTTTGTGATATTTTTTCGCCACC -ACAAGGAGTGGAAAATGTCTTCCATGACAACAACTGATAATAAAGCCTTTTTGAATGAACTTGCTCGTCTGGTGGGTTCT -TCACACCTGCTCACCGATCCCGCAAAAACGGCCCGCTATCGCAAGGGCTTCCGTTCTGGTCAGGGCGACGCGCTGGCTGT -CGTTTTCCCTGGCTCACTACTAGAATTGTGGCGGGTGCTGAAAGCCTGCGTCACCGCCGACAAAATTATTCTGATGCAGG -CCGCCAATACAGGCCTGACCGAAGGATCGACGCCAAACGGTAACGATTATGATCGCGATGTCGTTATCATCAGCACCCTG -CGTCTCGACAAGCTGCACGTTCTTGGCAAGGGCGAACAGGTGCTGGCCTATCCGGGCACCACGCTCTATTCGCTGGAAAA -AGCCCTCAAACCGCTGGGACGCGAACCGCACTCAGTGATTGGATCATCGTGTATAGGCGCATCGGTCATCGGCGGTATTT -GTAACAACTCCGGCGGCTCGCTGGTGCAACGTGGCCCGGCGTATACCGAAATGTCGTTATTCGCGCGTATAAATGAAGAC -GGCAAACTGACGCTGGTGAACCATCTGGGGATTGATCTGGGCGAAACGCCGGAGCAGATCCTTAGCAAGCTGGATGATGA -TCGCATCAAAGATGACGATGTGCGTCACGATGGTCGTCACGCCCACGATTATGACTATGTCCACCGCGTTCGTGATATTG -AAGCCGACACGCCCGCACGTTATAACGCCGATCCTGATCGGTTATTTGAATCTTCTGGTTGCGCCGGGAAGCTGGCGGTC -TTTGCAGTACGTCTTGATACCTTCGAAGCGGAAAAAAATCAGCAGGTGTTTTATATCGGCACCAACCAGCCGGAAGTGCT -GACCGAAATCCGCCGTCATATTCTGGCTAACTTCGAAAATCTGCCGGTTGCCGGGGAATATATGCACCGGGATATCTACG -ATATTGCGGAAAAATACGGCAAAGACACCTTCCTGATGATTGATAAGTTAGGCACCGACAAGATGCCGTTCTTCTTTAAT -CTCAAGGGACGCACCGATGCGATGCTGGAGAAAGTGAAATTCTTCCGTCCGCATTTTACTGACCGTGCGATGCAAAAATT -CGGTCACCTGTTCCCCAGCCATTTACCGCCGCGCATGAAAAACTGGCGCGATAAATACGAGCATCATCTGCTGTTAAAAA -TGGCGGGCGATGGCGTGGGCGAAGCCAAATCGTGGCTGGTGGATTATTTCAAACAGGCCGAAGGCGATTTCTTTGTCTGT -ACGCCGGAGGAAGGCAGCAAAGCGTTTTTACACCGTTTCGCCGCTGCGGGCGCAGCAATTCGTTATCAGGCGGTGCATTC -CGATGAAGTCGAAGACATTCTGGCGTTGGATATCGCTCTGCGGCGTAACGACACCGAGTGGTATGAGCATTTACCGCCGG -AGATCGACAGCCAGCTGGTGCACAAGCTCTATTACGGCCATTTTATGTGCTATGTCTTCCATCAGGATTACATAGTGAAA -AAAGGCGTGGATGTGCATGCGTTAAAAGAACAGATGCTGGAACTGCTACAGCAGCGCGGCGCGCAGTACCCTGCCGAGCA -TAACGTCGGTCATTTGTATAAAGCACCGGAGACGTTGCAGAAGTTCTATCGCGAGAACGATCCGACCAACAGCATGAATC -CGGGGATCGGTAAAACCAGTAAACGGAAAAACTGGCAGGAAGTGGAGTAAAAATTACGGATGGCAGAGTATCGCCATCCG -AATTCACTTAATCGTTCTGTGCCGTCTGCCCCGCCGCCGCCATTTGGGCGGCTTTTTGTTTTTTATAGCTCAACGCTGCT -GCCGGCACAGGCATCACTTTACCGGTTTCAATCCAGGTACGCAGGCGGCTGGCATCGGCAAAATGGGTATATTTGCCAAA -CGCGTCCATCACTACCAGCGCCACCGGTTTATTATTGATAACCGTACGCATCACCAGACAATGGCCCGCCGCATTGGTAA -AGCCGGTTTTGGTTAACTGAATATTCCAGTTATCGCGATACACCAGATGATTAGTATTGCGGAACGGCAGCGTATACGTC -GGATTAGAGAAGGTTGCCATATCTTCCCGGGTAGTACTTAACTGCCCGATCAACGGATATTGTTTGCTGGCAATGAGCAG -TTTGGTTAAGTCACGGGCAGTTGAAACGTTATGCACCGACAATCCGGTAGGTTCAACAAAGCGCGTGTTGTTCATTCCGA -GCGATTTCGCTTTCGCATTCATTGCCTTAATAAAGGCTTTGTAACCACCGGGATAATGGTGCGCAAGGCTTGCCGCCGCG -CGGTTTTCTGAAGACATCAGCGCCAGCAACAGCATATCTTTACGGCTGATTTCGCTATTCAGTCGTACGCGCGAATAGAC -CCCTTTCATCTCCGGCGTCTGGCTGATATCCACTTTTAGTTTTTCATCCAGCGGCAGTCGTGCATCCAGCACAACCATCG -CGGTCATTAATTTGCTGATAGACGCAATCGGACGCACCAGATCCGGGTGGTTCGAATAGATCACTTTGTTGGTATTCAGA -TCAACAATCATCGCGCTACCGGAGGCAATTTCCGGTTGTGAAGCGGTGGTAGCGGCTGCCGTTTTCGCAACGGCCTGCGG -TGCAAAAGGCACAGCCAGCATCAGGGCCAGGCTAAATAAAGAAACTCGAAATTTCGGCATGATGAGCATTCAGATAGTGG -TTCACGCGCACGGGTTGCGCACCGCCGGAGTAAGGATTTACTGAGGCTAGCGACGCCATCATAACGAGCAAAAAGTGCGA -TCGTCAAAGGAGAATCGTGAGGAAATGCTGCATTGCTGACATTTACGCCAGCAATGCAACGTCAAAGAACTTTCTAGAAC -AAACGATAACCGTAGCCCCATAGTATAACGGTTAGGGCGAGCAGCACTTCCAGTACCAGCACGCCAATCGCCAGCGTCGA -ACTAGAGAAGCTAAGGCCTTCCTCTTTGTTGATATTCAGGAAGCTCGGAATACCAAGGTAAAGCAGGTAGCCGGTGTAAA -ACAGCGCCACCGTGCCGACCAGCGCACACAACCAGACCAGTGGATAAAGCGCCACCAGACCGCTTAAAAACAGCGGAGTT -GCAACGTAGCCCGCGAAGACCATGCAGTGCGCAAGTGACGGACGCTGCGGATAATTACGCGCCATCCACCAGATGACCCG -CCCCATCACCGCGACCCCAGCCAGCATAACGCCGTAAAACAAGACAGCCAGCGCCAGTCCGGTAAACCAGGATAACTTCA -GGATAGTGCCATCGCCAAAATTCCAGCCAATCTGTGTAGTGCCAATGAAGGCGCAAATCACCGGAATCGCCGCCATCAGC -AAAACGTGGTGGGTGTAATGGTGAGAAATCGTTTCGTTTTCGCGATTAATCACCTGCATTTCACGATCGGGATGGGAAAA -CAGTCCCCAGACATGGCTCATACCGCCCCCTTGTTGTGAGTTCATGAACCTGACAGTTCAAGTATAAGTCAGCTTGTGAT -TATTTTTTGTTCGCCCATGTAATTTTCACTGTCTGATGAACGTCCTTTTTCAGCGTGAATGATTCACAGGGTGTATGCTT -ACTGGCAACCAAAGGGAGACAGACTGGCCTATGGATCTCAATACACTTATCTCACAATATGGTTATGCCGCGCTGGTGAT -CGGTAGCCTGGCGGAAGGTGAAACCGTGACTTTGCTGGGAGGCGTTGCGGCGCATCAGGGGCTATTAAAGTTCCCGCTGG -TGGTACTTTCTGTGGCGCTTGGCGGCATGATTGGCGACCAGGTGCTCTATCTGTGCGGGCGGCGGTTTGGCGGCAAGCTG -TTACGCCGTTTCTCGAAACATCAGGATAAAATTGAGCGGGCGCAGAAACTTATCCAACGCCATCCGTATCTGTTTGTCAT -TGGTACGCGCTTTATGTATGGCTTTCGGGTGATTGGCCCGACGCTGATTGGTGCCAGCCAGCTGCCGCCGAAAATCTTTC -TGCCGCTGAATATTCTCGGCGCATTTGCCTGGGCGTTGATTTTTACCACTATTGGTTACGCTGGTGGTCAGGTGATTGCG -CCGTGGTTGCACAATCTCGACCAGCATTTGAAGCACTGGGTCTGGTTGATTCTGGTCGTGGTTCTGGTGGTGGGCGTGCG -CTGGTGGCTGAAACGACGCGGGAAGAAAAAGCCGGATCATCAGGCGTAAAACCATTGCCCTGGATAAGGCGTTCGCGCCG -CATCCGACATCCGGAGTACCATGCCTGATACGACGCTTGTGCGTCTTTTCATGCCGACCAAAATATTACCCAATGAAATA -TCCACGCACCTCACTGCGCTATTCTGGGTTGAACTGTGGATTCGCCAACATAAAGCCGCCATCCACTATCAACGACTGCC -CGGTGGTGTAATTTGCGCCCTCCGAACAAAGCCACACCACCAGGCTGGCAATCTCATGCGTTGCGCCAAAACGCCGCAAG -GGAATCGAAGGCTCCGCGTCGGGCTTCACGTCGCTGTCATCCATGCCATTCATTGGCGTGGCGATCGCCCCAGGCGCGAC -TGCGTTCACCAAAATCTTATGCCTGACCAGCTCCAGCGCCATCGCTTTGGTTAACCCACCGAGCGCATGTTTAGCGGCTG -TGTAGGCGCTGGCATCCGGCAGCGGCGTATGTTCATGTACCGACGTAATGTTGATGATGCGACCGCCCTGCCCTTGTTTC -ACCATCTGACGAGCCGCAATTTGCGAGCATAAGAATGCACCATCGACATCAACGGTAAAAATCTTGCGCCACTCATCAAA -AGCCATATCAAGAAACGGCGCTTTGGTCATTGCACCCGCATTATTCACCAGCACATCAATGCGCCCCAGCCGTTGAATGA -GTTTCTCCAGCGCCAGTGCCCCTTCTGGTAGATTGCCGAGATCCAGCTGCACGATCTCCGCACGTACGCCGTGGCTAACT -ACCTCACGCGCGGTATCTTTTGCCCCTTCTTCATCTGAGTGCCAGGTAATACCAATATCAAACCCCTGCTGCGCCAGTAA -TAACGCGCACTCTTTGCCGATCCCCGAATCGGAGGCGGTAATAATCGCAACCTGTGCCATCGAGTTCTCCACTTAACGCT -GAATAAACGTTAAGTATAGAAGGCGCATATCATCAGCGTTTGTACCCCCCGCCCAACGCACCAGTGAGTTGAATGGAGGC -ATCCAGCCACTGCCCTTGCAATAACAGGCCATTGGCCCGCTCACGCAGCGCGGGGATTCTGGCTTCGCTGACGCGGGAAC -CAGCAATGATGCCCGCGTTAAAGCGCGCCTGCGCAAGACCTACCACACGCAAGGCATCGCGCTCAATTTGCGCCTGATGC -TGGTTTTTCTCCGCCAGTGTCTGAACCTGACTGGCTGCCCGCGCCACGTCATTCACCGCTTCAACCACCGCTTTGTTGTA -GCTGGCGATAGACAAGTTGCTTTCGGCTTTTGCGATATCGAGATTGGCGTTAAGACGACCACTATCGAAAATGGGTAGCG -TCAGGCCTGCCGTAACGCCCATTTGCTGCGCGGAATGACGGAACAGATCGCTTAAGTGCAACGCATCCTGTTGCAGGAAG -GCCATCAGGTTGATGTCAGGATAAAATGCCGCTTTTGCCGCATCAATGGTGCTTAGCGATGACTCAACGTACCAGTGCGC -CGCCTGCAAATCTGCCCGCCGGGCCAGTAAGGAGTACCCCAGTTCATCAGGAAGCTGGCTTGCCACTTTCGGCAACGCGA -CCGGTTTAAGCTTCAATGACTTTGTCTGGTTATTTGTAAGTGCGCTTAACCGTGCCTCAATAATTTTCATTTTCCCCGCG -ACATCGTTGAGCTGCTGCCGGGTTTTGCTGGCATTAATATCGGTTTCCACACCTTCAACTGAAGAAGTAATCCCGTTCTG -ATATAGCTGGCGATCGGTCGCGATAATGGTGTTCTGCTCTTTTTCTATTTGCTGCAAGACCGTGTTTAACGCCGCCTGGG -TTTGCCACTCCCAGTACAGGCGGGCTACGCTGCCAGCCAGCAATTGGCGGGTTTGCTCGCGTTCCGCCGCCCGTGCTTTA -ACCGTACCCAGGCGGGCAGTAACCTCCGCCCGATTCTTTCCCCAGATATCGAGATGCCAGCCCGCCGTTAAGCCAAAAGT -ACCGTTGGTGTACCACGGGCCGGTCGTACCTGCGGCCGGATCGTTCAGAGCAAACGGCCCCATTAAGCCTTCTGCCGACA -TTTTTTGCCGCTCCATATCCGCCGAAAAGTCGATCTGCGGACCATCCTGAGTGGCAACTGCCTTCGCCTGGGCTTCAGCT -AGCTGAATGCGCTGTTCAGCCACCTGCATATCCGGTGCGTTCTGTAGTGCATTGTTAATTAAGGAAGTGAGTTGATTATC -GTGATACTCCAGCCACCATTGGCTGTCTGGCCAACCATTTTCAGCGCCGTGGGTAATGCGGTGTCAACTTGTGCAGCGGG -CGTTTGCTGGCTTAACGCCTGGCGGGTTTCATGCATAGGCGCACACCCGGCCAGCATCAGTAACAGCGGAAAACAGGCGA -TGGCTGGATAAAAGGAATCACGATTCATGGGGGAATAATCAGGTAAGAAAAGGTGCGCGGAGATTACCGTGTGTTGCGAT -ATATTTTTTAGTTTCGCGTGGCAATACATCAGTGGCAATAAAACGACATATCCAGAAAAATATACACTAAGTGAATGATA -TCTTCCGATTTATCTTAATCGTTTATGGATAACGGCAAAGGGCTTCGTTTTTTCCTATACTTATTCAGCACTCACAAATA -AAGGAACGCCAATGAAAATTATACTCTGGGCTGTATTGATTATTTTCCTGATTGGGCTACTGGTGGTGACTGGCGTATTT -AAGATGATATTTTAAAATTAATTAATGTCATCAGGTCCGAAAATAACGAGAATATTTCAGTCTCTCATCCTGTTGCGCTC -CTGTCATGTGCATTGCTTCATATAATCACTGGCGCAAGGAGCGCGCAGGGGGCGGCCAATCGCCGCCGCCCCCTGCACCC -CCGGGCTCTGGCGAACAAAATCGCCGCTGCGCGGTGCCCTCGGCTTATCCCTTACGGCTACCGGGTCGGGCGCGAGGTAA -CATCCCTGTAAAACGCGCCCTCAGCCCACATCCATGTGGGCTGCCCCGGCCTTCAGGGAACGCCTCGGCAATTTTGACGC -CACCAAACAACCGTGCGGCCTATTGATAAAGAGCTAACACATTGTCAAAAAACATCACTATGGTTTTTTAGAGTTTCTCG -ATATCAATTGCCTGAATAGCCCTTGCAATATCAGGGGAATTATTCAACACCCGAACATGCTGAAATAATTCCGTTGCTTC -ATCGTATTCTTTACGCAAATAACTCAACCACTGTTTAATCCGCGCAACGTGATATAACCCGGTATCGCCCTGCTTTTCCA -GACGGGTATATTTTTGCAGCAAAGCAACCACCTCCGGCCACGGCATTCGCGGTTCGTTATATTTTACCACCCGGCTCAGG -TTGGGAATATTGAGCGCCCCGCGACCAATCATCACTGCGTCGCAGCCGCTGATCGCCATGCATTGTTGCGCGCTCTGCCA -GTCCCAGATTTCACCGTTGGCAATCACCGGAATATTCAGCCGCTGGCGAATATCGCCAATCGCCTGCCAGTCAATATGCT -CCGCGCGGTAACCCTGCTCTTTCGTCCGCCCATGCACCACCAGCTCCGTAGCGCCAGCCTGTTGAACCGCATCGGCGATT -TCAAATTTCTTCTCACCGCTGTCCCAGCCCAGACGCACTTTCACGCTGACGGGCAAATGCGCCGGTACAGCTTCACGCAT -CGCTTTTGCACCCTGGTAGATGAGTTCAGGATCTTTGAGTAACGTCGCCCCGCCGCCGCTACCGTTAACCGTTTTCGACG -GGCAGCCGCAATTGAGATCCACGCCCCAGGAACCTAACTCCACCGCACGGGCGGCGTTCTCTGCCAGCCATTGTGGGAAC -TGACCTAACAACTGCACGCGCACCAGCGTACCAGATGGTGTCCGGCTGGCGTTTTGTAGCTCAGGGCAAATGCGATGAAA -GACTTTTACCGGCAGCAGTTGATCCACCACGCGGACAAACTCGGTGATGCACAGATCGTAGTCGTTAACTTCGGTCAGCA -ATTCACGCACCAGAGAGTCAAGCACTCCCTCCATCGGTGCCAGTAACACACGCATATCATCACCCGCAAAAAAATGAGGC -GCTATGTTAGCGCCTATGGTCAGCGGATTAAAGGTCTGCAAAGAGGGATTGCTGCAAACTGCAATCCCTCTCTATGCTTG -ATGTATGCCTGAGTTCGCTGCGCATTGCGTAATGCCGGGGAGCGAAAAAATAAGCGCTGATTTCTTAATGTGATCGGTAG -CACGTTTTACGAATTAATTGTATGATGAATCCATCTCATCTGGGGTGTTGATTATGAGTAAGACACTGAACATTATCTGG -CAATATTTACGCGCTTTCGTCCTGATTTATGCCTGCCTGTATGCAGGCATTTTCATTGCTTCCCTGCTACCGGTAACCAT -TCCGGGCAGCATCATCGGGATGCTGATCCTGTTTGTCCTGCTGGCCTTGCAAATTCTTCCGGCAAAATGGGTCAATCCGG -GGTGCTACGTACTGATTCGCTATATGGCGCTATTGTTTGTGCCGATTGGCGTAGGCGTCATGCAATATTTTGATTTGCTC -CGCGCACAGTTTGGCCCGGTAGTGGTTTCCTGTGCAGTCAGTACGCTGGTGGTTTTTCTGGTGGTGAGCTGGAGTTCGCA -ACTGGTACACGGTGAACGTAAAGTCGTAGGTCAGAAAGGATCAGAAGAATGATGGCGAATATCTGGTGGTCATTACCGCT -GACATTGATTGTCTTTTTTGCCGCCCGCAAACTGGCGGCACGGTATAAGTTTCCCTTGCTTAACCCGTTGCTGGTAGCAA -TGGTGGTGATCATTCCTTTTTTAATGCTGACTGGCATCTCTTACGACAGCTACTTTAAAGGTAGCGAAGTGCTAAACGAT -CTGCTGCAACCGGCGGTCGTCGCGCTGGCCTATCCTTTATATGAGCAGCTACACCAGATCCGCGCGCGCTGGAAATCGAT -CATCACCATCTGTTTTATCGGCAGCGTGGTTGCGATGGTGACGGGGACTTCCGTGGCATTGTTGATGGGCGCTTCACCGG -AAATCGCCGCGTCAATCCTGCCGAAATCAGTCACCACGCCTATTGCAATGGCGGTTGGCGGCAGTATTGGCGGTATTCCG -GCAATCAGCGCAGTTTGCGTGATTTTCGTCGGCATCCTCGGCGCGGTATTTGGCCATACATTGCTTAATGCGATGCGTAT -TCGTACCAAAGCTGCGCGCGGTCTGGCAATGGGGACTGCCTCGCACGCCCTCGGTACGGCGCGCTGCGCCGAGCTGGATT -ATCAGGAAGGTGCATTTAGTTCGCTAGCGCTGGTGTTATGCGGGATAATTACTTCGCTGATCGCACCGTTCCTTTTCCCG -ATTATTCTGGCAGTAATGGGCTAAAATTTGCGATGCGTCGCGCATTTTTGATGTATGTTTCACGCGTTGCATAATTAATG -AGATTCAGATCACATATAAAGCCACAACGGGTTCGTAAACTGTTATCCCATTACATGATTATGAGGCAACGCCATGCATC -CACGTTTTCAAACCGCTTTTGCCCAACTTGCGGATAACTTGCAATCTGCACTGGAACCTATTCTGGCAGACAAGTACTTC -CCCGCTTTGTTGACCGGGGAGCAAGTCTCATCGCTGAAGAGCGCAACGGGGCTGGACGAAGACGCGCTGGCATTCGCACT -ACTTCCGCTGGCGGCGGCCTGTGCGCGTACGCCATTGTCGAATTTTAATGTTGGCGCAATTGCGCGCGGTGTGAGCGGAA -CCTGGTATTTCGGTGCCAATATGGAATTTATTGGTGCGACAATGCAGCAAACCGTTCATGCCGAACAAAGCGCGATCAGC -CACGCCTGGTTGAGTGGTGAAAAAGCGCTTGCAGCCATCACCGTTAACTACACGCCTTGTGGTCACTGCCGTCAGTTTAT -GAATGAACTGAACAGCGGTCTGGATCTGCGTATTCATCTGCCGGGCCGCGAGGCACACGCGCTGCGTGACTATCTGCCAG -ATGCCTTTGGGCCGAAAGATCTGGAGATTAAAACGCTGCTGATGGACGAACAGGATCACGGCTATGCGCTGACGGGTGAT -GCGCTTTCTCAGGCAGCGATTGCGGCGGCAAACCGTTCGCACATGCCTTACAGTAAGTCGCCAAGCGGTGTCGCGCTGGA -ATGTAAAGACGGTCGTATTTTCAGTGGCAGCTACGCTGAAAACGCCGCATTCAACCCGACTCTGCCACCGTTGCAGGGAG -CGTTAATTCTGTTGAATCTCAAGGGTTATGATTACCCGGATATCCAGCGCGCGGTTCTGGCAGAAAAAGCCGATGCGCCG -TTGATTCAGTGGGATGCCACCTCCGCAACGCTGAAAGCTCTCGGCTGTCACAGTATCGACCGAGTGCTTCTCGCTTAAGC -CTGGTGCCGGATGCGGCGTGAACGCCTTGTCCGGCTTGCCAGCCCTCTCCTGGTGTCGAAATTCCCGGCAAACAGTTTGC -CGTTTCTTGCGCAAAACCAGCGGGTAAAGTAGCCTGATGGAAATTTTCCTTAGATCGAGTCTCCTGCATGTTAAAGCGCG -TGTTCCTCAGCCTGTTAGTCCTGATCGGCTTGCTGCTGTTGACTGTGCTCGGCCTCGATCGCTGGATGAGCTGGAAAACC -GCGCCTTATATCTACGACGAATTGCAGGATCTCCCCTACCGCCAGGTCGGTGTGGTGCTCGGAACAGCAAAATATTATCG -TACTGGCGTAATTAATCAGTATTATCGCTACCGCATTCAAGGAGCGATTAATGCCTATAACAGCGGTAAGGTAAATTATC -TATTACTGAGCGGCGATAACGCATTGCAAAGTTATAATGAGCCGATGACCATGCGCAAAGATTTAATCGCTGCTGGTGTC -GACCCATCAGATATTGTTCTCGATTACGCAGGCTTTCGTACGCTGGATTCCATCGTGCGTACACGCAAAGTTTTCGATAC -TAATGATTTCATTATTATCACCCAACGTTTCCACTGTGAGCGAGCATTATTTATTGCGCTGCATATGGGGATTCAGGCTC -AGTGTTATGCCGTACCGTCACCGAAAGATATGCTGTCAGTACGTATTCGTGAATTTGCCGCCCGTTTCGGTGCGCTGGCT -GACCTTTATATTTTTAAACGTGAACCGCGTTTTTTAGGGCCGCTGGTCCCTATTCCGGCTATGCACCAGGTACCGGAAGA -TGCGCAGGGGTATCCCGCCGTCACACCCGAACAGTTACTTGAATTACAAAAGAAACAAGGAAAGTAGTTATGGATGTACA -GCAGTTTTTTGTCGTTGCCGTTTTTTTCCTTATCCCGATATTTTGTTTCCGCGAAGCATGGAAAGGCTGGCGCGCAGGCG -CGATTGATAAACGGGTTAAAAATGCACCGGAACCGGTGTATGTCTGGCGAGCAAAAAATCCCGGACTCTTTTTCGCTTAT -ATGGTGGCATATATCGGCTTCGGAATTTTATCTATCGGCATGATTGTTTATCTTATTTTCTATCGTTAATATTCCCCTCT -CCAGTTAATTATTGAGAATAATTATTACTTCACCTGATAAGCTGCGGATATCACATTCCTAACCGCAGCTATTTGTGAAT -CTTTTCACAGTTTAAATTCCCCCGCACGCTTAGCCTTAATATCAGTACATTATTATTTACTAAACGCTCGCCTTAATTAC -CTATAGCATTAAGGAAGATCACATGCCGCAACAAAATTATCTGGATGAACTCACTCCGGCTTTTACGTCTTTACTGGCGA -TTAAAGAAGCCTCTCGCTGTTTATTATGTCACGACGCTCCCTGTAGTCAGGCTTGCCCGGCACAGACCGATCCGGGGAAA -TTTATTCGCTCAATCTACTTTCGTAATTTTAAAGGCGCTGCCGAGACAATTCGCGAAAATAATGCCCTCGGTGCCGTTTG -TGCCAGAGTGTGCCCGACGGAGAAATTATGCCAAAGCGGTTGTACCCGTGCCGGTGTTGATGCTCCCATTGATATCGGCC -GCTTACAGCGTTTTGTTACTGATTTTGAACAACAAACCGGAATGGAAATTTATCAGCCCGGTACTAAAACGCTCGGCAAA -GTCGCGATTATTGGCGCAGGTCCTGCCGGATTGCAGGCCAGTGTGACACTGACAAACCAGGGTTATGACGTCACGATTTA -TGAGAAAGAAGCGCACCCCGGTGGCTGGTTGCGTAACGGTATTCCGCAATTCCGGTTACCGCAATCAGTGCTGGATGCAG -AGATCGCCCGTATTGAAAAAATGGGCGTGACCATTAAGTGCAACAACGAAGTCGGTAACACACTCACCCTTGAGCAGCTG -AAAGCAGAAAACCGCGCGGTACTGGTCACCGTGGGGTTATCAAGCGGTTCCGGGCTACCGCTGTTTGAGCATAGTGACGT -TGAGATTGCCGTCGACTTCTTGCAACGTGCACGACAGGCGCAAGGCGATATCAGCATTCCACAAAGCGCATTAATTATCG -GCGGCGGTGATGTCGCGATGGACGTAGCCAGCACGCTGAAAGTTCTCGGCTGTCAGGCGGTAACTTGCGTAGCGCGTGAA -GAGTTAGATGAGTTTCCGGCAAGCGAAAAAGAGTTTACCAGCGCCCGGGAGCTGGGCGTTTCGATCATCGATGGATTCAC -GCCAGTAGCCGTGGAAGGCAATAAAGTCACGTTTAAGCATGTACGGTTATCGGGCGAACTGACGATGGCGGCAGATAAAA -TTATTCTCGCCGTCGGTCAGCATGCCAGACTAGATGCCTTTGCGGAGTTAGAGCCGCAGCGTAACACCATCAAAACACAA -AATTACCAGACCCGCGACCCGCAAGTCTTTGCTGCTGGCGATATTGTTGAGGGTGACAAAACCGTGGTCTATGCCGTGAA -AACCGGGAAAGAAGCCGCCGAGGCGATTCATCACTATTTAGAGGGAGCTTGCTCATGTTAACGAAAGATCTTTCGATTAC -TTTTTGCGGCGTGAAGTTTCCCAACCCGTTCTGCCTCTCTTCTTCGCCGGTAGGCAACTGCTATGAGATGTGTGCCAAAG -CCTACGACACAGGTTGGGGCGGTGTGGTGTTTAAAACGATCGGCTTTTTTATCGCCAACGAAGTCTCGCCGCGTTTTGAT -CATCTGGTGAAAGAAGATACCGGTTTTATCGGCTTCAAAAATATGGAGCAGATTGCTGAACATCCGTTGGAAGAGAATCT -GGCCGCCCTGCGTCGGCTGAAGGAAGATTACCCGGACAAAGTATTGATCGCTTCGATCATGGGGGAAAATGAGCAGCAAT -GGGAGGAGCTGGCGCGCCTGGTGCAAGAAGCTGGCGCGGATATGATCGAGTGTAACTTCTCCTGTCCGCAAATGACTTCT -CATGCGATGGGTAGCGATGTCGGGCAAAGCCCGGAGCTGGTAGAAAAATATTGTCGGGCAGTGAAACGGGGTTCCACGCT -GCCAATGCTGGCGAAGATGACGCCGAATATCGGTGATATGTGCGAAGTGGCGCTGGCGGCGAAGCGCGGCGGCGCAGATG -GCATTGCGGCGATTAACACCGTTAAATCCATCACCAATATCGATCTTAATCAGAAAATCGGTATGCCGATCGTTAACGGA -AAATCGAGTATTTCCGGATATTCCGGTAAAGCGGTAAAACCGATCGCCCTGCGCTTCATTCAGCAAATGCGCACCCATCC -AGAACTGCGCGATTTCCCAATCAGCGGTATCGGCGGCATTGAAACCTGGGAGGATGCGGCTGAGTTTTTATTGCTCGGCG -CAGCAACGTTACAGGTGACCACCGGCATCATGCAGTACGGGTATCGGATAGTGGAAGATATGGCAAGCGGGTTGTCGCAT -TATCTCGCCGATCAGGGATTTGATTCGCTGCAGGAGATGGTAGGTCTGGCGAATAACAATATTGTCCCGGCGGAAGATTT -AGACCGCAGTTATATTGTCTATCCCCGTATCAATCTTGATAAATGTGTTGGCTGTGGACGCTGTTATATTTCCTGTTACG -ACGGCGGTCACCAGGCGATGGAATGGAGCGAGAAAACCCGCACACCGCATTGTAATACCGAGAAATGTGTGGGTTGTCTG -CTTTGTGGTCACGTCTGCCCGGTGGGTTGTATTGAGCTCGGGGAAGTGAAGTTTAAGAAAGGCGAGAAAGAACACCCGGT -AACGTTGTAAAACCAGAGACGCATCCGGCATTTGGTTCCTGTCGCCGGATGCGGCTTGAACGCCTTATCCGGCCTACAAA -ACCATACAAATCAGTATGTTGAGCTTATTGTAGGCCGGATAAAACGCGCCAGCGTTGCATCCGGCATTTGGCTCCTGTTG -CCGGATGCGGCGTGAACGCCTTATCCGGCCTACAAAACCACACAGATCATGATGTTATGTGCGTTTATGACCGAATGCGG -ACCACATTCACATCATTTCTTACGCGCGTATTTCAGTGAATCCAGCGCTACGGCGAAGATAATAATCGCCCCTTTGATGA -TGTACTGCCAGTATGGGTTTACGCCGATATACGTCAGGCCATAGTTGATGACGGTAAAAATAATTACCCCGGTCACCACG -CCAATCACCGTCCCCACACCGCCGCTGAACGATACACCGCCTACCACGCACGCCGCGATAGCATCCAGCTCATACATAAA -GCCGAGGTTGTTGGTGGCAGAGCCGATACGTCCGGCTTCTAACATCCCGCCAAAGGCATAGAACACGCCAGACAACGCGT -AGATCATCAGCAGGTTCAGGCCGACGTTGACACCAGATACTTTTGCCGCTTCCGGGTTACCGCCAATGGCAAAAATGTTC -TTACCGAAGCGGGTTTTGTTCCACAACACCCAGACGAACGCCACCGCAATCAACGCGTAGAAGGTGATGTAAGAGAGACG -GAAACTCCCCAGCGCGACAAAGCCCTGAGCAAAGGTAGAGAAGCCACTGTCAAAACCAGAAATTGGCGACGCCCCGACAA -AGTCGTAATAGAGCGAGTTGATGCCATAGACGATGATCATCGTGCCGAGCGTGGTAATGAACGGCGTCACGTTGAGATAA -GCGATAATCAGACCGTTGATCAAACCGATCACCGCACCAATGGCACAGACAATCAGAATAACCAGCGCAATCGGCATCGT -CGCCATTTCCGGGAACACTTTGTTGGCGTTATCCATGGACTGCAATAATGTCGCAGCCACCACTGCCGCCAGCCCTACCT -GACGACCAGCAGAAAGATCGGTCCCCTGGGTGACAATTAACCCTGCCACACCGAGCGCGATAATAATACGCACCGATGAC -TGGGTGAGAATATTACTTAAGTTCAACAGACTTAAAAATGTTGGGTCCTGGAAAATAATAATCGCCAGCAAAACTAAAAG -AACGACGTAAATACCGCCCTCTTTCAGGTAAGTAAGAAAACTTTTCTTATTTAACGCACTCATGGGAAGCCCCTAATCTT -AAAGGTGCAAAGACGCAAGACGCAGAATTTCGTTTTGCGTTGTTGTTTTTGTATCGACAATTCCGGAAACGAGACCATTG -CTCATGACCAGAATACGGTCTGTTATCCCTAACAACTCAGGCATTTCAGAGGAGATAATAATAATCCCCTTGCCTTTCTT -CGCCAGTTCGGCAATTAACTGATAAATTTCAAACTTCGCCCCGACATCAATACCGCGCGTCGGTTCATCGAGCATTAATA -TTTCTGGTTGCGTTAGTAGCCAGCGACCAATAATCACCTTTTGCTGATTACCACCGGAGAGCGAACCAATTTGCGTCCGA -TGACCCGGCGTTTTTACCCGCATCGAATCAATCACCCACTGGGTATCGCTTTTCATCCGCGAGTTATCCAGTAAACCAAC -TTTATTTTTGTAGTTGCGAATATTGGAAATTAACGAGTTAAAACCAATATCCAGATAGGCATAAATTCCCGTTGAGCGGC -GCTCCTCAGTTACCAGTGCAAATCCATGGTTTATGGCTTCGTTGGCATTATGGTTATTGATCTGTTTGCCGTGCAACGTT -ATGGTGCCAGCCGATTTCTCGCGAATACCAAATAACGTCTCAACAATATCGGTACGTTTCGCCCCCACCAGACCGGCAAT -ACCGAATCAAACGAGACATCGCGAATCGACGGCTGGCGCAGTGACGTCAGGTTACGTACCTCGAGGATGACTTCGCCCGG -TTTGTTTTCTTTGTCAGGGAAACGCTGGTTAAGAGAACGCCCAACCATCATGGCGATGATCTTGTCCATCGTCAGTCCTG -CCAGCGGTTCGGTGGCGATCCACTGACCGTCGCGCAATACGGTAACTTCATCACATAACTGGAAGATTTCTTCCATTTTA -TGCGAGATATAAACAATACCGCAGCCGCGCTCTTTTAATTTACGAATAATAGTGAACAGATGATTGACCTCTTTTTCGGT -TAACGAAGAAGTCGGTTCATCCATAATCACAATTTTCGCGTTATAGGAAAACGCTTTGGCGATTTCGATCATCTGCATTT -GCGAAACGGATAATGTGCCGACGCGCGCACGCGGATCGATATCAATATCCAGTTCGTCAAAAATCGCTTTGGTTTCGCGG -TACATTTTGTCCTGATCGACAAACATGCCTTTGGTGGGATATCGCCCCAGCCACATGTTATCCATCACCGAACGTTGTAA -TACCAGGTTTAACTCCTGGTGTACCATCGAAATACCATTTTCCAGGGCTTCTTTTGCAGAATGGAAATCGATCTCTTTAC -CCTGGAATAAAATGGTGCCGGAGTCTTTTTGATAAATACCAAACAGGCATTTTAATAATGTCGATTTTCCTGCACCGTTT -TCCCCCATTAATGCATGGATAGAATGTGGCCGGACTTTTAAATTAACGTTATCAAGTGCCTTAACACCAGGAAAGGACTT -GTTGATACCGCTCATTTCCAACAAGTATTCCCCGGAGGACGGAGTCGTTGAGCTGACCATATAATTTTACCTTGTTGGCC -ATACAATAAGGGCGCAGTAATAGACTGCGCCCAATCAGTCTTATTTCTTGCTGAATTCAGCCAGGTTGTCTTTATCTACG -CCAACATAAGGTACGCGGACCACTTTGTTGTCGATTTTCCAGTTGGTGCCATCAGCCGCACCTTTACCATCGGCCAGGTT -TTTCGCCAGATCAAAGGTCGCTTTCGCCTGGTTGTTAGCATCGTTCAGTACGGTGCCCGCCAGTGCACCGGATTTCACCA -GCGCCAGCGCTTCTGGCAGCGCATCGACGCCAAACACCGGAATGCTGGACTTGTTGTGTGCTTTCAGCGCTTCAACCGCG -CCCATTGCCATCGCATCGTTGTTGGCGATAACCACTTCGATTTTGTTGGCGTTCGGGCCAGACAGCCAGGCGTCCATCTT -ATCTTTCGCCTGAGCGGTGTCCCACATTGCGGTATCTAACTGTAACTGTTCAGTTTTGATGCCTTTATCGTTCAATTCTT -TAATCACGTAAGTGGTACGTGCTTCTGCATCCGGATGGCCCGGTTCACCTTTCAGCAGTACGAACTGAATCTGACCGTCT -TTGTTCAGATCCCAACCCTGATTCGCCGCCCAGTGTTTAGCAATCAAATCGCCTTGAATAATGCCGGACTCTTTGGAGTC -AGTGCCAACGTAGTAGGCTTTGTCGTAGCTATCCAGCGCCTTACGAGACGGTTCTTTGTTGAAGAAAACCACCGGCACGT -TTTGCCCACGCGCTTTCTCAATCACCGTACCCGCAGCTGCCGGGTCAACCAGGTTGATTGCCAGTGCCTTCACCCCTTTC -GCCAGCAATACGTCGATCTGATCGTTCTGCTTGGACTGGTCATTCTGAGAATCATTCATCAGCAGCTGAACATCTGGCGC -GGCTTTCGCATCTTGCTCAATAGCCTTGCGCACTACAGACATAAAGTTATCGTCGTACTTATAGATTGTTACACCAATGC -GAGTATCAGCAGCGTGTGCAGCGGCACCGAATAACATGCTGGCCATCACAGCAGACAGGGTTAACACCTTCTTATTCATG -GTATCTCCGGTTTTTCTTATGCAGGGTAGTGCTTGAGATAAATGCTCGGCGGGGCAGTAGAGTTAATGAAGTGTTACTGA -ACGCCGAAGCTCACTTTTTAAAATTCGTTCTTCCATGCCCGGTAACGCTCCAGAAAACGGCTTTAATTGTTGTTATGACG -CTGTTACCTCGGCAAAAGTGATTATTCACTGTTACATACGGGTTACAACGTTAAAACGGTGCAATCATAGCTATCACATT -GTTAAGATACTGTGAAATCACTCACAGATTGAAAGCGGTTACATCGCCTGATTTGTTGAGTTAGTGATCGCCGCCGCATT -CTGGCGTGTTGCGACAGAATGGCGACGCACTAACGTCGGCATAAAACAGTGGCTGGCACGAGGATCAATATTGCCTGCTG -CCCCCTGCAAGGCCAGTTCGGTGGCTAATTTCGCCATTGAAGCAATGGGATAACGCACGGTCGTTAATTGCGGGTCGGTG -TAACGGGCGATGGGAATATCATCGAAACCGATGATTGAGAGATGTAACGGAATCGCAATGCCATTATCTTTTAATGCTGT -CAGTGCGCCAGCGGCCATATTGTCGTTATAAGCAAATACAGCGGTAAGTTGTAGATTGCGCCCCAGCAGTTCAACCATCG -CCGCCTCACCGCCCGGCATGTCCGGCGTACCAGCGCCAATCCAGCTTTCCGGCGGAATAATATCCTGCTCTTTCAACGCA -CTCATCCAGCCTGCTTTACGCATGGCGTCATCTTCAATGCCGTGGCTGGAAGAAAGATAACCAATACGTTGATGACCGTT -ATTCAGCAACATGCGCGTCGCCATTCGGGCACCGCTGAGATTATCCAGGCAAACGCAACGATGGGCGTACCCCGGCACAA -CGCGGTTGATTAACACCATACCGGGAATGTTATCCATAAATTGCGCCAGTTCATCGTCACTCAATGCTTTTGAGTGAACA -ATCAACGCATTACAACGCTGGCGAATTAACACCTCAATGGCGTGACGCTCTTTTTCCGCTTCATGATAGCTATTGCCGAT -TAGCACGTATTTCTGATGCTGCTGAGCGACCAGATCCACCGCTTTTACCAGCGCGCCGAAAAACGCATCAGAAACGTCCA -TCACCACCACGCCAATGGTGTCGCTAACCTGAGTTGCCAGCGCCTGGGCATTGGCGTTTGGCCGATAATCCAGCTCACTC -ACGGCTTTCATTACTGCTTCACGCGTGTCGGCACTGACCAGCGTGCTGTTATTGAGCACCCGGGAAACCGTTGCCACAGA -GACGCCAGCCTGACGCGCTACATCACGAATGGTGATCATATTCACTACCTGTTATGAGATTGCAGTAAATGACTGCTTGC -TGGCGGCTATTTTGTCAGCACTGAATACAGGACTTCGTGAATCGAGTCACAGCAATGGAAACGGTTACAGCCGTTTTGTT -AACGAATGTGATCCAGATCGTTATCTTGATGTTTTAGATATTGCCGGTCCGGCAGCACGCAAAGTTAACTGACGCCAGAG -CCATTCCACCGGCCCCTGGCGGAAGTAACGCAGCCAGATAACAGAGAAGAGGATATTCGCCAGCCATACCGGAATAACAA -ACGCCAGCAGCTCCAGGCGGTCAAAATGCATAAACAAACCGAGGTGGTAAAAAAGCGTGGTACAAATCAGCGTTTGCAAT -AGATAGTTGGTCAGCGCCATCCGTCCGACGCAGGCGATCGCAAGCACCAGCTTAAAGCGGCTCAATTGCGGCCAGAAGCC -ATAAAACAGCGACGCATAGCCAATCGCCTGAAACGGCGCACTCAGTTCCCGCGGCATTTGAAGTAAGAAGGCACACCAGC -GATACGCCCAGTCCAGCTGCCATTGCAGGGCGATGGCAGGAAGGTTAATGGTCACCCCAATCGCCACCAGCACAAAACCA -GTACGACGATAGTGACGTAAGCTGAACTGCCCTTTCAGCCAGCCGCTGCGCATCAGCGCCGCACCAATGAGCATCATCCC -TGCCAGTTGCCAGCCATACTGTGCGCCCAGTGCCAGTAAACTGTTGCCAACACCATCGGCACGATTACTGATCGCTTCAA -CGCCGCCGTGAAGCTTCCAGTATTTTTCATACAAAATAGCCGATGCATCCGGCGTCCAGGCGCGGCTGGTCTGGCTGTCG -GAAATCAGCCCCAATAACAGCAAAACGCCAAGCCCCACCAGATAAAGCATGACGCCTGTATTAAACAGGCTTTTTACCGA -TGGCGCATCGCGCACCAGCCGCCAGCAGATTAAGCCCACCAGCCCGTAAGCCAGCAAAATATCGCCGTCCCAGAACAATA -AACCGTGAATAAAGCCCAACAAGACTAACAGCGTTAACCGCGACTGGATCCAGCGTCTGCCACGGGGCAGCAACATTTGC -AGGCCCGCACCAAACAGTAGCGCAAAAAGCGTGAGGAATTTCACCTGGCCGATGAGATCAAGAAATGCCCAAGTCCATGC -ATCCCGCGGCGTAATAGCACCGTACCAGGCGGGATTGAGATAAGCCGCCTTTGGTAGCCCAAAGGCGCTGATGTTTAATA -GCAGGATCCCCAGAATGGCGACGCCGCGAACAAAATCGAGCGTGACGTTGCGCTCCATGGTTCCTGCCTTTTAATCAGTT -GTGATGACGCACAGCGCGCAGAAACTCGTGGCGCGTATTCTGACTGGATTTGAACAATCCACCAAGAGAGGTCGTTGTCG -TGGCACTGGTTGCATCGCGGATGCCACGCGCCTTCACGCAGTAATGCACCGCGTCGATCGAGACAGCCACGTTATTGGTG -CCCAGCAGCGTTTGTAGCGCAATAAGAATTTGCTGCGTCAGACGTTCCTGCACCTGCGGACGCTGGGCAAAGAACTGCAC -AATGCGGTTAATTTTTGACAGACCGATCACCGAATCTTTCGGGATATAGGCCACCGTCGCTTTGCCATCGATGGTAACAA -AATGGTGTTCACAGGTGCTGGTCAGAGTGATATCGCGCACGGTGACCATTTCATCGACCTTCATTTTGTTTTCAATGAGG -GTGATTTTCGGGAAATTGGCGTAATCCAGACCGGAGAAAATTTCATCGACATACATTTTAGCGATGCGATGCGGCGTTTC -CATCAAACTGTCATCAGCCAGGTCGAGATTCAGCAGCTGCATGATTTCGGTCATATGACCAGCAATAAGGCTTTTGCGCG -TTTCGTTATCCATTTCATGCACGGGCGGGCGCAGCGGTGTTTCCAGTCCTCGCGCAACTAACGCTTCATGAACCAGGGCC -GCTTCTTTACTGAGTGATGGCATTTATGATTTCTCCTGCAGGTGTGACGCCTCCGCCCTGCGTGGGGGCAAAGTTATTAA -GCTGATTTACAGCCTGATTATTGTGCGTGAGGCGGCGCACATAATCCAGTATTCACAGCGATAATTATTGTAATTGCCGC -TGCCTTTCATCAGCAGATGTTAAAACATCGTTATGCAAATACGGAAGTGAAAGTTACTCACAGCACATTGAATAAACGGT -ATGATGAAGAAATTGCAAACAACACAACAAGGAGCCACGCATGGAAATGCTCGAAGAGCACCGCTGTTTTGAAGGCTGGC -AGCAACGCTGGCGACACGACTCCAGTACCTTAAACTGCCCGATGACGTTCAGTATCTTTCTCCCTCCACCTCGTGATCAC -ACTCCGCCACCAGTGCTGTACTGGCTTTCCGGATTAACCTGCAATGACGAGAACTTCACCACCAAGGCGGGTGCCCAGCG -GGTAGCGGCGGAACTGGGGATTGTACTGGTGATGCCAGACACCAGCCCGCGCGGCGAAAAGGTTGCCAACGACGATGGCT -ACGATTTAGGCCAGGGCGCAGGCTTTTATCTTAATGCCACGCAACCGCCGTGGGCGACGCATTACCGGATGTATGATTAT -CTGCGCGATGAATTACCGGCGCTGGTTCAGTCGCAATTTAATGTCAGCGACCGCTGCGCCATTAGCGGTCACTCAATGGG -TGGTCACGGTGCGCTGATTATGGCGCTGAAAAATCCGGGTAAATACACCAGCGTTTCGGCCTTTGCGCCAATTGTGAATC -CGTGCAGCGTCCCGTGGGGAATCAAAGCGTTTAGCAGCTATTTAGGTGAGGACAAAAATGCATGGCTGGAATGGGACAGT -TGCGCACTGATGTATGCCAGTAACGCGCAGGATGCGATCCCGACGCTTATCGATCAGGGCGATAATGATCAGTTTCTTGC -CGACCAGTTGCAACCTGCGGTACTGGCAGAAGCCGCGCGCCAGAAAGCGTGGCCGATGACGCTGCGTATTCAGCCGGGAT -ATGATCACAGTTACTACTTCATCGCCTCTTTTATAGAGGATCACCTGCGCTTCCATGCGCAGTATTTACTGAAGTGAAAG -TCCGCCCGGTTCGCCGGGCATCTTCTCATCAGAAGCGATAATCCACTGCCATAAAGTAACGACGTCCGTCTTCGTTATAG -CTGTAGTCGTCACGACTGAGATCCTTGTCGCCAAGGTTCAGCACGCCTGCGCGCAGTTTGACGTCTTTAGTCACCTGCCA -GGCCGCGCCGGTATTCCAGATGGTATAACCGCCCGGTGTTTTAGCCGTCGCGCTGTCGGCGCGTTTCTGCCCGGTATAGT -GCCCAGAAACATAGAATGACCAGTCTTCCAGCGCCAGCGGTTTCCAGTCCAGCGTACCGTTAGCAGTATGGAACGGCAGA -TCGGATAGCGGTTTGTTTTCGCCGTTGCTGACATCACGACCATCGTTGTAGGTGTAGTTGATCGACAGTTTCCATTCATC -GTTGAACGGAATTTTCAGTTCGGTTTCCACGCCCTGAATACGAGCTTTGTTAACGTTGTAGTAGCTAAATACCGGTATGC -GCCGTCCGTTAGCGCCCGTCTCAAAACCAACAAAGTTTTGGTAGCCCGGTGCAGCGTTGACGTCAGACGTACGGCTGATG -CTGATACGATCTTTCACATCGTTACGGAAAACGGTAACGCTGGATTCAACCCCTTCCAGCCAGCCTTCTTCACCCATGTA -GTAAAGCCCCAGCTCCCAACTTTCGCTGGTTTCTGGTTTCAGATCCGGGCTACCCACAATCTTACATGCGCCACGGCAGG -AATTGCTCGTCCAGTCAGGGCTAAGTTGCAACAGAGAAGGTGCTTTAAATGCCGTCGCCCAGCCCCCTTTCACCGTTACG -GTGTCGGTGGCGTTATAAACCAGGTAGGCACGCGGACTCCAGTGTTCACCGTAGGTTTCGTGATCGTCCATACGCACGCC -GGTCGTCAGCGCCAGCGGCTCGAAGATCCGCCATTCATCTTCCACAAACAGCGCGTACTGGCTGGCAGACGTTTTGGAGC -TGGTTCCCCCGGTCAGGTTCACCGCATCGCTAAGTTTGTCGTGACGCCATTCACCGCCAACCGTGAGAAACTGATTAATC -GCCGTCAGCGGCAACGTGTATTTGCCGTCGACCGTATTGCTTTCGGAAGTTATCGGGCTGCTGTTGCCAGGGTTTTTGTT -CTCGACTTTCTCACCGTAGTATTTCAGTTCGCTGGTGCCGTAATCCCAACGCCCATTATGGCTGACGGAGTAGTTCTGGC -GTTCCAGGCGGTTTTTGTCCAGCGAGTCGGAATCACGATCCTGACGGTCGAAACCGTATCCGGCAGTAAAATCGTGATTT -TGATTCGGTGTCCAGGCAAATTCGACATTGCCGTCGCGGCTGGAGAATCCTTCAATACGCGGCGTTTCTCCGGTATCGGT -GGTCGTTGAGTTTTGCGGGTCATCCTTTTCACGTTTTGCCAGGCTGCCGTAAGCTTTCATTCCCAGCACACCATCAATTA -ATGGTCCACTGGTAAAGAACTGACCGTTATAGGTGTCACCGCGATCGCGATGTTCCTGAATGGTGGTATCGACGGTAACG -GTACCCGACCATTTCTGACCGATTTTTTTGGTGATGATATTCACTACACCGCCGAGCGCATCGGAACCGTACAGCGACGA -CATCGGGCCACGGACCACTTCAATACGTTCGATGGAATCGACCGGGATCCAGTTCAGATCGAAATCATTGTGGCGGAAGA -CGGCATTGCGGGAGTTCACGCGTTTACCGTCGACGAGAATCAGGGTATAGCTGCTGTCCAGACCACGAATACTAACGCCC -TTACGGTTATCCCCTTCGTTCGTCAGTTGTACGCCAGGCACTTCTTTGAGGACATCCTTCAGATTCTGTACCGGTTTTCG -CTGCAGGTCTTCCTGGGTAATGACGCTGATACTGGCAGGTGCATCTTTAAGATTTTGTTCCACGGAAGATGCAGTGACAA -CCATCGTTTCGCCATCATCATCGACCGCTAACACAGGCCATGCACAAGAAATAGCGGACAAACACAGCCCGACCCGTACG -AAAGGGTTCAACCTAAACATTCCATATCTCCATGAGGTAACTACGAAAATAAAATGGGTTATCGCTCACATCTTCTTCAC -GTCCCCTTGCGTACGGCAGCATCGCGGTGGACTTATTTTTTATGCAGGTGATCATCCCAGAAAGCCGGAACAGCCTCTGA -TTTGTCAGCCTTTTTTGATTGCGGCGTAACGATAATGCAAACGATAACAATTATCAATCCAAATGTTAAATTTTATATCC -GCATGATTTGTCAGGGAAATGGAATTGAAAAAGCCCTCTCGGTTGAGAGGGCTTAGCAAGGAAGGGAGGAAACTTATTTC -TTATCGTTCTGCGGGAACTTCATTTCGCTGTAGCGTACGAAGTGAGTTCCTTTAATCAGCTTGTAGCCGAACCAAATAAT -CAGGAACAGCGGGATACCAATATACGTTGCCGCTACGCCGCCCCAGTCAATAGTATCTTTCAGGAACGCTTCGTAGTTCT -GGCCCAAAGTGATAATCAGACACAGAATGAATGCGAAGATCGGCCCCAGTGGGAAGAAACCTGAACGGTACGGCAGATCG -TTAATGTCGTGTCCCTGCAATACGTAACCGCGACGGAAGCGATAGTGGCTAATGGCAATCCCCAGCCAGGCGATAAAACC -CGTCATCCCGGAGGTGTTCAGCAGCCACAGGTATACCGTCTGGTTGCCAAACATGGAGGTCAGGAAGCACAGACCGGCAA -TCACCGTCGTCGCATACAGCGCATTACGCGGCACGCCACCACGCGACAGTTTAGCGAAAATGCGCGGCGCTTTACCGTCA -CACGCCAGGGTGTACAGCATACGAGTAGACGCATACATACCGGAGTTACCCGCTGACAGCACCGCCGTCAGAATAACTGC -GTTCATCACCGCCGCCGCAGAGAGCAGACCCGCGTGCTGGAACACCAGGGTGAACGGACTAACGCTGATGTCTTTAACAT -CGTTACGCAGCAGGCTCGGATCGGTGTACGGAATAATCAGGCTGATAATCAGGATCGCGAACACATAGAACAACAGGATT -CGCCAGAACACCTGACGTACCGCGCGTGGAATGTTTTTCGCCGGATCTTCGGACTCGCCTGCAGCAATACCGATCAGCTC -GGTTCCCTGGAAAGAGAAGCCGACAATCATAGCTACGCCGATCATCGCCGCAAAACCACCAGCAAACGGCGCTTCGCCGA -TTGTCCAGTTGCTCCAGCCCGCAGGCTGCGCGCCTTTGAAGATACCGATAATCATCAGCACGCCAACGATGATAAAGACA -ATAACTGTCGTGACTTTGATCAGTGAGAACCAGTATTCCGCTTCACCAAAGCCACGAACTGAGATGTAGTTCAGCAGGAA -GATAACGCCGAGGAACAACGCACTCCAGATCCAGCCCGGTGTATCCGGGAACCACCAGCTCATGACCAGCTGAGCTGCAA -CCAGGTCAACGGCGATAGTCACCGCCCAGTTGTACCAGTAGTTCCAGCCCAGCGCGAAGCCAAAGCCTTCTTCAACATAG -TTCTGACCGTAAGTGGCAAACGAACCGGAAACCGGCATATATGCAGCCAGTTCACCGAGACTGGTCATCAGGAAGTAAAC -CATCAGGCCAATCAGCATATACGAGAGCAATGCCCCGCCCGGACCTGCCTGAGAAATCGTTGCGCCAGAGGCAACAAAAA -GACCTGTACCGATGGAACCGCCAATGGCAATCATCGTCAGGTGACGCGCCTTTAATTCACGGCGTAAGCCCGGCGCTTCT -GTGGTTTTAGTTTCGGAAACCATACAAAAATGCTATCCATCTTAAAAATGAGGCGCGATTGTAGCAGACGATTGGCAATC -CTTCCGGCAGAAATACACGGTTATAAGACACCTTCATGATCGCCCAGGGATTATAAGTAAAGCAGCCAATCTCTTTTCTG -GCGAATGCATGCTGAAGGCGCTGCGTCACGAAATCGACACAGCACCAGCATGTTCTTGTACAGCAACTTAACGCGGCACA -TTTGCGGGATCGCAATAGTCCAGAAAGCGCCGTAGCGCGTTGGAAAGGTGTTTTTGCCGATGATGTATACGCCACAACGT -ACGCATCAGGCGCGGCAGAGGGACCGCAACTTCACTTAATGTGCCTGCCTGCAATTGATCTTCAATCACACGTCGCGACA -GGCAACTAATTCCCAACCCATGACGCACCGCATGTTTGATTGCCTCGGAGTTACCTAATTCCATCGCCATCTCAAACTTC -GGTAAATGTGACAGCAACAGATAATCGACAATCTCCCGCGTGCCGGAACCGCGTTCACGCAGGATCCACGGCGCAGCGGC -CAGCTGTTCTAAGGTGACCGGACCACGGGCCAACGGCGAAGTCGGCGCGGCGAAAACCACCAGCTCGTCTTCCAGCCACG -GTTCAGAAATGATTTCAGTGCTGTGGCACGGTCCTTCAATAAAGCCAATATCAACGCGGAAATCCAGCACCGCTTGCATC -ACGTCCTGGCTATTCCCAACGCTAAGTTCAATCGGCAACTGCGGATAATCATGGCGATAACGGGCGATAACTGCAGGCAG -AATGTAGTTACCGATGGTACTACTGGCATAGATACGAATCGCGCCGTTGTCTTCGCGAAACAGTTGTTCGATTTCAACCG -CCTGTTCAAGCAATGCCAACGCACGCGGATAGAGCAGCCGCCCGTGTTCATTAACAACCAGTCTTTTCCCCACGCGATCA -AACAGTTGCACGCCAAGCTGCCCTTCCAGGTCGGTCAAGGCTGCGCTCACTGCTGATTGCGACAACGCCAGCATCACCGA -CGCCTGGGTGGTTGATCCACTTTTCAATACTTCTGCAAAAACTTCCAACTGCCGGAGGGTGATGTGCATAGTCGCTTACC -ACTTATAAAGATTAATTATAAATATATAATCAATTTTATTTTTAAACCAGTTAGTCGTAACCTTATGCCCGGTTAAAGGA -GAGGGTTATGACGAATATCACCTTACAGAAACAACATCGTACACTGTGGCATTTTATTCCGGGGTTAGCCCTGAGTGCAG -TTATCACCGGGGTCGCCCTGTGGGGTGGTTCCATTCCCGCGGTTGCGGGTGCCGGGTTTAGTGCCCTCACCCTCGCAATC -TTGTTGGGGATGGTTTTAGGCAACACCATCTATCCGCACATCTGGAAAAGCTGTGACGGTGGTGTGCTGTTTGCCAAGCA -ATATTTATTACGTCTGGGTATCATTCTTTATGGCTTCCGTCTGACGTTCTCGCAAATTGCCGATGTCGGTATCAGTGGGA -TCATCATTGACGTGTTGACGCTGTCCAGTACCTTCCTGCTGGCTTGCTTCCTGGGGCAGAAAGTGTTTGGTCTGGATAAG -CACACCAGCTGGTTGATCGGTGCCGGTAGCAGTATCTGTGGTGCTGCCGCGGTACTGGCGACTGAGCCGGTAGTGAAAGC -GGAAGCCAGTAAAGTAACCGTGGCTGTTGCAACCGTTGTTATCTTCGGGACCGTCGCGATTTTCCTCTACCCGGCGATAT -ATCCGCTGATGTCTCAATGGTTTAGTCCGGAAACTTTCGGTATCTACATTGGTTCTACTGTGCACGAAGTGGCGCAGGTG -GTGGCGGCAGGTCATGCCATCAGCCCGGATGCGGAAAACGCAGCAGTTATTTCCAAAATGCTGCGCGTGATGATGCTGGC -TCCGTTCCTCATCCTGCTGGCGGCGCGTGTTAAACAGCTGTCTGGGGCGAACAGCGGCGAGAAAAGCAAAATCACTATTC -CGTGGTTTGCCATCTTGTTCATCGTAGTTGCCATCTTTAACTCGTTCCACCTGTTACCGCAGAGCGTGGTGAACATGCTG -GTAACGCTGGATACCTTCCTGCTGGCAATGGCGATGGCGGCGCTGGGTCTGACCACTCACGTCAGCGCGCTGAAAAAAGC -TGGGGCGAAACCTCTGCTGATGGCACTGGTACTGTTTGCCTGGCTGATTGTTGGTGGTGGTGCGATTAACTATGTGATTC -AAAGCGTCATCGCATAAACCACTACATCTTGCTCCTGTTAACCCGCTATCATTACCGTTTTCCTCCAGCGGGTTTAACAG -GAGTCCTCGCATGAAATACATTGGAGCGCACGTTAGTGCTGCTGGCGGTCTGGCAAATGCCGCAATTCGCGCCGCCGAAA -TCGACGCAACCGCGTTTGCCTTGTTCACCAAAAACCAACGTCAGTGGCGTGCCGCACCGCTCACGACGCAAACCATCGAT -GAATTCAAAGCCGCCTGTGAAAAATATCACTACACATCGGCGCAAATTCTTCCCCACGACAGTTATCTGATTAACCTCGG -ACATCCGGTCACTGAAGCTCTGGAAAAATCGCGCGATGCCTTTATAGATGAAATGCAGCGTTGCGAACAGCTGGGGCTTT -CTTTGCTCAACTTCCACCCTGGCAGCCATCTGATGCAGATTTCAGAAGAGGATTGCCTTGCGCGTATTGCCGAATCCATC -AACATTGCGCTGGATAAAACTCAAGGTGTGACAGCGGTGATAGAAAACACCGCCGGTCAGGGCAGTAACTTAGGGTTTAA -ATTCGAACATCTCGCGGCGATTATCGACGGCGTGGAAGATAAATCCCGCGTCGGCGTCTGCATTGATACCTGCCATGCTT -TCGCTGCCGGGTATGATTTGCGTACTCCAGCCGAATGCGAGAAAACATTCGCGGATTTTGCCCGTACTGTCGGCTTTAAG -TATCTGCGCGGGATGCACCTTAACGATGCGAAAAGCACCTTTGGCAGCCGCGTTGACCGCCATCATAGCCTCGGTGAAGG -CAATATCGGTCATGATGCGTTCCGCTGGATCATGCAGGACGACCGTTTCGACGGCATTCCGCTGATCCTCGAAACCATCA -ACCCGGATATCTGGGCAGAAGAGATCGCCTGGCTGAAAGCGCAACAAACTGAAAAAGCGGTAGCCTGAAGATGAATAACC -GGGAAAAGGAGATCCTTGCAATTTTACGGCGTAACCCGCTGATTCAGCAGAACGAAATTGCGGACATGCTGCAAATCAGC -CGTTCGCGCGTTGCGGCGCATATTATGGATTTAATGCGCAAAGGCCGGATTAAAGGCAAAGGTTACATTCTCACCGAGCA -GGAATACTGCGTAGTGGTGGGGACAATCAATATGGATATTCGCGGGATGGCGGATATCCGTTACCCGCAATCGGCTTCTC -ATCCCGGTACAATTCATTGCTCAGCGGGCGGCGTGGGACGCAACATCGCCCACAATCTGGCGCTGTTAGGCCGTGACGTC -CATTTGCTTTCAGTGATTGGCGATGACTTTTATGGCGAAATGCTCCTGGAAGAAACGCGCCGTGCCGGCGTGAATGTCTC -CGGCTGCGTTCGTTTGCATGGTCAAAGCACATCGACGTATCTGGCAATTGCCAATCGAGACGATCAAACCGTGCTGGCGA -TTAACGATACCCATCTGCTGGAACAGTTGACACCGCAACTACTGAACGGGTCGCGCGATTTACTTCGTCATGCGGGCGTG -GTACTGGCTGATTGCAACCTGACAGCCGAGGCGCTGGAATGGGTCTTTACCCTCGCTGATGAAATCCCGGTGTTTGTCGA -TACCGTTTCAGAATTCAAAGCGGGCAAAATCAAACACTGGCTGGCGCATATTCACACCCTGAAACCCACTTTACCGGAGC -TGGAAATTTTATGGGGACAGGCGATCACCAGCGATGCTGACCGTAATACCGCAGTGAATGCATTGCATCAGCAAGGTGTT -CAGCAACTGTTTGTTTATTTGCCCGATGAGTCAGTTTATTGCAGCGAAAAGGATGGAGAACAATTTTTGCTGACCGCGCC -AGCGCATACGACAGTAGACAGTTTTGGTGCTGACGATGGTTTTATGGCGGGCCTGGTATATAGCTTTCTTGAAGGATACA -GTTTCCGCGACAGCGCCCGTTTTGCGGTAGCCTGCGCGGCAATTTCGCGCGCCAGCGGCAGCTTAAACAACCCTACCCTG -TCTGCCGATAACGCGCTTTCATTAGTGCCAATGGTGTAACAATGTTGCCGGATGCGACGCTTAACGCGTCTTATCCGGCC -TACAAATCAGGCAATTTCAGCAAGTAAATGTAGGCCTGATAAGCTTGCGCATCAGGCAATGACACTCAAGCTAAACCAAT -AAAGAACCCGGCAATGGTCGCACTCATCAAGTTGGAAAGCGTCGCCGCCGCCAGCGCCCGTAAACCAAGCTGGGCGATTT -CCGGCGCACGGTGTGGCGCAACCGCAGAAAACGCCCCCACCACCACCCCGATAGAACCAAAGTTAGCGAAACCGCACAAC -GCGAAGGAAATAATCGCCACAGTTTTAGCATCGAGAGTGCCAGCCGTTTGCAGATAGGGTGAGAAATTGAGATAAGCGAC -AAATTCATTTATTGCCAGTTTCTGTCCAATCAAACTCCCGGCAAGATTCGCATCACTCCAGTCCACACCCATCACCCACG -CCAGTGGAGCCAGCAGGTAACCTAAAATGGACTCCAGCGAGGCATGTTCAAAACCAAACCAGCCACCAACGCCGCCGATA -ATACCGTTAATCAACGCAATTATTGCAACAAATGCCATCACCACTGTTGCCACACCTGCGGCGATTTTCAGCCCGGTCAT -TGCCCCTGTCGCAGCGGCTTCAATAATGCTTTTTGGCGGTGTTTCGGTGAAAGAGAGGTTATTAAAGGAAACCTGCGAAG -ATTCCGTTGCCGGGCTTAACAGGCGGGCAAACAAGATCCCGCCAGGGATCGCCATTAATGATGCCGCCAGCAGATATTCC -ACAGGCACGCCCAGTGCGGCGTAACCAATCATTGTCGAACCAGCAATCGAGGCCATGCCACTACAAATCGCTGTAAATAA -TTCATTGCGATTCAGACGATCGATAAAGGGTTTGACGATTGCCGGAATTTCGTTTTGCCCGAGGAAAATGGTGGTGACCG -CGACGAATGACTCGATCTTGCTGATATTTAATGCTTTCTGGAAGATACCGCCGAGAATTCGAATTAAAATCCCCATCACA -CCGATGTAGTAGAGAATACTCACCAGCGCGGTGACGAAGATAATTGCCGGTAACACCCTGAAACCAAAGATAAATCCTGC -ACCATCAAATAAGGTATCCATTTTCGGTCCGACCAGAGAACCGAAGATAAATGCGCTACCCGCGTCGCTGTACGCCATCA -CTTTATGCACGCCAAAAGCGACTTTTTCAGCGACCCAACGCCCTGGCGGTAACCAAAGCATAATGCCGCCAATCACGACC -TGTAACACTAACGCCGCGCCAACGGTACGCAGGCTGATCTTCTTCTTGTTTACTGACAGTAAAAACGCAATCGTCAGCAA -TACCACCATTCCCAGAACACTTCTCATGACATCCATAGTGATTATCTCTTCATGTCATATTGGGCGACGGCTTTCTGCCC -ATCAGAAATAGCCAGGCCTGCATCTTGCGATACCGGCCCGGCTTGTTATCAACACTTAATGGGTTTTGATGTAGCCGCGC -ACGCACTCTTCGACTAATCCCCAGAACCAGTCTGTATCAATAGTGATGCCGACTTTGGTATTGGCGGGCTTGCCAAGAAC -GCCCAGCTCGTCGCAGACGGTACGCCCATAGCAAGGGCCACTGTTGACGTCCACTTCGACGTACATCTCCTGGGTTTTAA -TGCCATCAGGGTTAATCAGATAACCGATGCAGGTGGCGTCGTGCACCGGGCCGCCAGCAAGGCCGTAGTTTTCGAACTGC -GTTTTGAGAGTGAAGTTCATGATGTCGCTGAACAGCTCTCCGGCGGGGCCGCCTGCCCTTTCCATCCGAGCAATCACGTC -CGGGGTGCAAACGGTCTGGTTGGTGAGATCGAGGCCCATCATCACTAATGGAACGCCGGAGGTGAACACTACGCGTGCGG -CTTCCGGGTCGGCAAAGATGTTGAACTCGGCAGATGGCGTGAAGTTGCCTGTACCGTAAGCGCCGCCCATTAGCACAATT -TCACGGATTTTGGGCAGGATCGCGGGTTGCATACGCATTGCCACCGCGATATTTGAAAGCGGACCAACCGGCACCAGAGT -GATATCGCCATCGCTTGCCATCAGGGTATCAATGATATATTTCACCGCATGAGTGCTTTCTGCCTGGCGGGTCAGCGGCT -CGAATACCGGGCCATCCAGTCCGGTTTCACCGTGAATATTATCGGCAACGATTTGTTGACGCATAATGGGCTGCGGCATC -CCCGCATAAACCGGAACATTAATCTCCAGTTTCTGGCAAACATTCAGGCCATTAATTAATGTTTTATCAAGCGTCTGATT -ACCCGCTACAATAGTGATGCCTAATAAATCTATTGCCGGATGTTTCGCCGCCATCATTATAGCAATAGCATCATCATGAC -CCGGATCACAATCCAGAATAATTTTTCTCTTTTCCATTGTTTATTTCCTCTGTTTCCAGTTGCGTTATTTTTTCTACAGC -AAAGAAAATTCGACCGGGCCGATGATTGAATCTTAACAACAGCGTACGTATGCTAAATATGAGAAATCTCATAGCGGATA -AACATCGTGAAAGAAATCCACAATAATGATCTTAAGCAGCAATTGATGAGTGAATCCGCGTTTAAGGATTGCTTTTTAAC -GGATGTTTCAGCCGATACGCGGCTGTTTCATTTTTTAGCGCGTGACTACATTGTGCAGGAAGGGCAACAGCCGTCCTGGC -TGTTTTACCTGACGCGAGGCCGCGCCAGGCTTTACGCCACGCTAGCTAATGGTCGCGTGTCGCTGATCGATTTCTTTGCC -GCCCCCTGTTTTATTGGCGAGATTGAGTTAATCGATAAAGACCATGAACCGCGTGCGGTGCAGGCTATTGAAGAGTGTTG -GTGCCTTGCGCTCCCTATGAAACATTACCGTCCGCTGTTATTAAACGACACGCTATTTTTACGAAAACTCTGCGTCACCT -TAAGTCATAAAAATTATCGTAATATTGTTTCTTTAACTCAGAATCAATCATTTCCGTTAGTGAATCGCCTGGCAGCATTT -ATATTACTCTCGCAGGAAGGTGATCTTTATCACGAAAAGCATACGCAAGCGGCAGAGTATTTAGGCGTTTCTTATCGACA -TCTTTTATATGTTCTCGCGCAGTTCATTCACGACGGTTTATTAATTAAAAGCAAGAAAGGGTATCTCATTAAAAACAGAA -AGCAGTTGTCAGGACTGGCGCTGGAGATGGACCCGGAGAATAAATTCTCCGGGATGATGCAGTAAAAATTATTTTCAATA -GCGCGATTGCCGGATGCAACGCTTAATACGTTTTATCCGGTCTACAAATCGAGCATTACGCCAGACCAATAAAGAACCCG -GCAATAGTCGCACTCATCAGGTTGGAAAGCGTTGCTGCTGCCAGCGCCCGTAAACCAAGCTGGGCGATTTCCGGCGCGCG -TTTTGGCGAAATAGCCGAAAATGCGCCAACGACAACACCGATAGAACCAAAGTTAGCAAAACCACAAAGCGCAAAGGAGA -TAATCGCAATGGTTTTCACTTCCAGCGTGCCGCCCGTTTGCAGGTATGGGGAGAAACTCAGGTAAGCGACGAATTCGTTA -ATCGCCAGTTTCTGCCCAATCAGGCTACCCGCAAGATTGGCATCACTCCAGTCCACACCCATGATCCACGCCAGCGGTGC -CAGCACATAGCCAAAAATACTTTCCAGAGAGGCATTGGCGAAACCAAACCAGCCGCCAATTCCGCCGATAATGCCGTTGA -TCAGCGCAATAATTGCGACAAACGCCATTACCACCGTCGCCACACCAGCGGCGATTTTTAGCCCGGTCATCGCACCGCTC -GCCGCCGCTTCGATAAAGCTTTTTGGCGGCGTTTCGCTGAACGACAGATTTTCAAATGTGACCTGCGAAGGCTCGGTTGC -CGGGCTAAGAATACGTGCAAACAAAATCCCGCCAGGGATCGCCATCAGCGATGCCGCTAACAGGTAGTCAATTGGTACGC -CCATTCCGGCATAACCAATCATCATCGAACCAGCAATGGACGCCATCCCGCTACAAATTGCGGTAAACAACTCGTTGCGA -TTCATGCGATCGATAAACGGTTTAACGATCGCCGGGATCTCATTTTGCCCGAGGAAAATAGTAGTAACCGCAACAAAAGA -TTCGATTTTGCTGATGTTGAGGGCTTTCTGGAAAATGCTGCCAAGGATGCGAATCAGCAGCCCCATCACGCCAATGTAGT -ACAGCAGACTGATGAGCGCAGTAACGAAAATAATCGCCGGAAGTACGCGAAAGGCGAAGATAAAACCCGCACCGTCAAAC -AGGACATCCATTTTCGGCCCAACCAGCGAACCAAAAATGAAGGCGCTACCGGCATCACTGTAAGACATCACTTTATGAAC -GCCTAATGCCGCCTGTTCTACTGCCCATTTTCCCGGTGGGAAGTAGAGCATGATGCCACCAATAGCGATTTGCAGCAGCA -GTGCGGCTCCAACCGTGCGCAAACTGATGCTCTTTTTATTCACTGACAACAGAAATGCTATTGCCAGTAACACCACCATC -CCCACAACACTTCTCATTATATCCATAATGATTTTCCCTTCATGCCGGTAAACCCGGCGTCAGCGCCAGGTTTTGGTATG -CTTGATGAGTACGGGCGACGGCTTTCTGCCCGTCAGAAATTAACCCGCGAGACGCTGATATTCTTTGGCAATTTCGCTCG -CCAGAATGGCGTTGTTGAACACCAGCTGGATGTTGGATTTCAGGCTGTCACCGCCGGTCAGTTCAGCAACGCGCGCCAGC -AGGAATGGCGTACTTTCTTTACCAATGACTCCCTGAGCTTCAGCTTCAGCTACCGCCTGATCGATCGCCGCATTGATAGT -GTGTTCCGGCATAGCAAACTGTTCCGGGATCGGGTTCGCTACCACGAGGCCACCGTTCAGACCGCTTTGCCATTTCACCA -CCATTGCACGGGCAATTTCGCTGGCGCTGTCGAGACGAATGCTGACGTCAAACGGGCTGGTGCGGCAGAAAAACGCAGGC -AGCGCTTTAGTCTGATAGCCAATTAACGGCACACCGAAGGTTTCTAAATACTCAGTGGTTAATCCTAAATCGAGAATAGA -TTTCGCCCCGGCACAAACAACGGTGACATTAGTATTTGCCAGTTCTTGCAAATCGGCAGAAATATCGAAGGTATGTTCCG -CCCCGCGATGCACACCACCAATTCCCCCGGTGGCAAATACTTTAATTCCGGCAAGCGCCGCAATAATCATCGTTGAAGCC -ACAGTGGTTGCGCCATTTTTTCCGGCGGCAACAACAAAAGGTAAATCGCGACGACTAACTTTGGTCACGTTATGCCCTTC -ACGACCCAGTAATTCAATTTCTTCTTTGCTTAACCCCACTTTCATCACGCCGCCAATAATGGCGATCGTGGCAGGTACAG -CGCCCTGTTTACGAATAGTTTCTTCAACTTCAATTGCGGTCTGGGCATTTTGTGGGAACGGCATCCCGTGAGAAATAATG -GTCGATTCCAGCGCCACAACCGGTTTTTTGTTTTTTAAAGCGTCCTGCACTTCCGGGGAAATTTGTAATAATTCAGGGGA -AATTTTTAATTCAGACATTCTGCGTTCTCCACTAACGATATAACGTTGGCAATCGATAAATCGGGGTTATTGGTGTATTC -ACAGGAGAGCGCCATTGACGAACATCCCTGTGCGAAACGAACAGATTCGGCAAACGGCATTCCGTCTACCCAACACGAAG -CAAGTCCCGCCATCATGGCATCGCCCGCTCCGGTAACATTAATAACATTGGTTTTGATCGGCGCAGACCAGCCACTTTCA -CCGCTGATATCGCTGTAATAAACGCCGTCGCCGCCCATGCTCAATACCAGTCGGTTCAGGCCATGTTGATGGAACCAGGC -AGCAACTTTTGCCACATCTTCACGCCCTGACAGCGCAATCCCACTCAGGGTTTCCGCTTCAAGGCGGTTTGGCTTGAGAG -TGTGGATCTGATTTAGACGGTCGCGCACTTTGACACATTTCCATGCCGAAACCGGATCGACAAATACGGGTACGTTGGCG -GCATTATCCAGAATCCATGCCAGTGCCTCTTCACTGATATTACAGTCCGCGACAATGACCTTTGCCCTCTGAATAAATTC -ACCGTGCTGTGCGAGATATTCAGCTGTAATAGCGTTGCTAATATTCATGTCATTTATAGCAACCAGCATTTCACCGGTAT -TATCGAGTAATGATAAATAACTCGACGTATTTTCTCCCGGCACAATCAGGCATTTATCGACATAAACGCCAGATTGATTG -GTTTGCGTTAGCAGCGATTGACCATAAAAATCACTGCCTACGGCGCTCAGTAGCCAGGCTTTGTTACCCAGCAACGCCAG -GTTTTGTGCAATATTGCGCCCTACTCCACCAGGCGTAAATTTTATTTTACCTGGATTTGAATCCGCATAATTTAATGATT -CATGTGAATATCCGGCGACATCAATATTCGCCGAACCTATAATTACGACATAATCCTTTTCGCGCATAGCACGTCCTCTG -GTAAAAAATTACCAACCCTGTCAATCCACAAGAATATAGATACTGCAAAGACGGTTTAAACATGTGTTCATATTTAAACA -TGTGCTCATAGTATGCATGTTTTACGTAAAGTAAATTACCGCCAGAGAGGCAAAATGGGCAGATTTGAGCAGGCTCACAA -AATGCGATTAAATGCCTGAATTACAAAAGCGAGGAATTTGTGACGGGATGCACAGAACAGAACAATAAAAAAGGGCAGAA -AATAATCTGCCCTTGAGGAAATAACCTGAGTGTTTGATGAACGTTTGAAGTTTCTACTGAAAGATAAAACCATTTAAATT -CATAAAATTACATTCACAAACCGGTCATTCTCTTTGCGCTCATCAAATGTTACAGGACAGGAAATTTCTGCCCTGTAACA -CACCTTTTATTACGCTGCTTTCGCTACTGCGTCCACTTCCGGACGTTTCAGGAAGGCATAGGCCAAACCCGCCACCAGCG -TACCGGCAATAATTGCTACCAGGTAACCCAATACCGGCGTAATAGCGCCAGGGATCAGCAGAACAAACAGACCACCGTGC -GGTGCCATCAGTTTCGCACCAATCGCCATTGAGATTGCGCCAGTCAGCGCCCCACCCACGATACAGCACGGCAGCACACG -CATCGGATCACGAGCAGCAAACGGAATTGCACCTTCCGAAATGAAGCACAGTCCCAATACCAGAGCGGCTTTGCCACCTT -CCTGCTGCGCTTTGTCGAATTTGCGACGCGCCACCATTGTTGCCAGACCCATTGCCAGCGGTGGCACCATACCTGCCGCC -ATAATCGCCGCCATCGGGCCATAGGTTTGAGTACTCAGCAGACCCACACCGAATGCGTACGCTGCTTTGTTTACCGGACC -GCCCATGTCAGTACACATCATGCCACCGAGGATCGCCCCCAGCAGAACCGCATTCGCAGTCCCCATGGTCTGCAGCCAGT -GAGTCAGCCCTTCGAGAATGCCAGCAACTGGTTTACCGATCAGGTAGATCATCGCCAGACCGACCACCAGACTGGAAATT -AGCGGAATGATCAGGATCGGTTTCAGCGCCTCCATACTCTGTGGCAGTTTCAATTGCGTACTGATTAACTTCGCAATGTA -ACCAGCCAGGAAGCCCGCAATAATACCACCAATGAAGCCAGAACCGGTGCTGACCGCCAGCATACCGCCAATCAGACCCG -GAGTGAGGCCCGGACGATCGGCAATGGAAAAGGCAATATAACCTGCCAGTACCGGCACCATCAGCGCAAAGGCTGAACCA -CCACCAATCTGCATCAGCGCCGCAGCCAACGTACCCGGCTCTTTAAACGCTTCGATACCAAAAGCAAAAGAAAGCGCGAT -ACACAGACCACCTGCAACGACCATCGGCAGCATGTAAGAAACGCCCGTCAGCAAGTGACGGTATGCGCCTGCACTCTCTT -TCTTACTTTCAGTGGTCGCCGTTTGAGCTTTGCCCGCCGGTTCATACGGCGTTGCTTCAGCAACCGCTTTATCCAGTTCC -TGCGCGGTTTTCTTCAGCGCCAGACCGGTAGAGGTACGATACATCGGTTTACCAGCAAATTTCGCCAGATCCACTTCGAT -ATCTGCCGCCACAATCACCAGATCCGCTGCTGCGACTTCTTCGGGAGTGATTGCATTACCCGCGCCAACAGAACCACGGG -TTTCAACTTTCACCCACCAGCCACGTTTTTTCGCTTCGGTTTCAATGGCTTCAGCCGCCATAAAGGTGTGTGCTACGCCA -GTCGGGCAAGCAGTCACCGCAACTACGCGTTTCGGACCGCTGGCGGCAACTGGTGCTGTCGCAGCGACCGGCGCAGTGTA -AGGTTTCGCATGGCCTTTGGCTTCACTCAGGAACAGCTCAGGGTGCGCAACTGCCCGGGAAATATCGCCCAGCCAGACAT -TTTTACCGTTCAGCGCGCTGTCGTTCGGGATGGAATCACCGAGAACAATCGCCATTTCAGCGTCGTTCGGATTGTCGATG -ATTTCCAGTTTTGCTTTTCGCGCCGCCGCGCCCAGCAGGGTCTTCGCCATATAGGCGCGTGCCTGACCGAGATTAGCGTC -AATAATCAGCAGCGTTTTCATTATGCCTCTCCTGCTGTCAGTTAAAAGGTTGTAAGTCGACGCGCGCCATCATTGCGGCC -AACTGCGGACGATCGGTAATACCCACATTGCTTTGACTTACCGCCAGGGCTGCAACAGCTGTCGCCAGACGCAGTGTGTG -TTCACTGGATTCACGCATCAGCAAGCCATAAATCAGGCCACCAACCATAGAATCCCCTGCGCCAACGGTGCTTACGACAT -CGACTGACGGTGGTTTGGCGATCCATTCGCCGGAGGCATTAACCCAAAGCGCGCCTTCGGCACCCAGTGAAATAACAACA -TGCGCGATGCCTTGTTCACGTAGCGCATGTGCAGCTTCAATCACATCTTTCATTTCAGGCAGTTTACGGCCTGCCCAGAT -TTCCAGCTCGCGGCGGTTAGGTTTCACCAGCCACGGTGCCGCTTTCAAACCTGCTACTAACGCTTCACGGCTACTATCAA -AGATAATGCAAGGACACTGACTACGCAGGCGAGTCATCCAGTCGGTGAACGCTTCCGGGCTGACGCCTGACGGTAAGCTT -CCGCTGACACAGACCATATCGAACTGACCGAGCCAGCTCAGAGAATCAGTCACAAAGCGTTCCCAGTCGGCGGGGGTGAC -TTCAAAACCCGAGAAGTTGAAGTCGGTCACTTCGCCGTCTTTTTCCGTCAGCTTAACGTTAATTCGGGTGCGCCCCTGTA -CAACCTGGAAACGGTTGGCAATGCCCAGCTCGCTGAACAGTTGCTGAAAACCATCCTGATTGTCTTTACCCAGGAAGCCG -CCAACGGTGACATCAATTCCCAGGTCTTTTAATACTTTGGCCACGTTGATGCCTTTACCCGCCGCATGCAGACCGGTGGT -TTTCACCAGGTTCACTTCGCCGCGTTCAATTTCCGGGCAGAAACCAACAAGGTCATAAGCCGGATTAAGGGTGATAGTAG -CAACACGTCTGCTCATTATGCGCCCTCCCCAAGACCAGCAGCGATAGCGTCGCCGATTGCTTTCAGCGCCTGTTCAGCAT -CTGCACCCTGGGCGGTAAAGCGTAGGCGATGACCTTTCTTAACGCCAAGTGCCACAACTTTCATCAGACTACGTCCGTTT -GCCGGTTTGCCGGTACCATCAAGGTTTGTCACGGTAATATCACTGTTAAATTGTTTAATGGTATTGACCAGCATGGTACC -TGGACGAGCATGCAGGCCGTGTTCATTGCGCACCACAAACTCCGCGCTTAACACGTCGTCGGTCGGCGCATCATCGCTGG -TCAGCAGCGCCAGCAACGTTGCCGCATCCGCTTTCAGCAAGCGGTCAGCTTTATTGTCGAGCAATAAATCAGCGAGACGC -TTAAGAACCGCGATGGGCTGATCGTCATTCATCGCCACACTCACCAGCATGGCTGCCGTTTCGCCGTCCACATCAAAAGC -ATTTGCCGCACGGCTTACCGCAATCGCGCTACGCAGATTGCCTTCGGCGCTATCGCTCAGCCAGATACCCTGTCCGAGAT -TCAGCGGTTGTTCATTGATGGCTTTGGTGACGAAAGTGGCGTCAACTGCCCCCGCCTCTTTCAGACGCGCAGCGTTCAGC -GCCTGAAGAGTCAGCAGATCGCTGGCGACGATATCCAGTGTCAGCATTTCGTTGTCGAGCTTCAGCTGCTCACTCTGCTT -TTCGCCCATCAGTAATGCGCGAAGTTCTTCTGCTGTTGTTGCTGACTTCAGTTGTTCAGCAACGGAATCATCGCTCAGTA -CGTGGGTCAGCTGGCGTAGCAGGCCCAGATGTTCATCCGAGCTGGCAGCAATACCGATTGCCACGTACGCTACCTGACCG -TCACCCCAGGTGACGCCTTCCGGGAACTGAAATACCTGAACGCCGGTTTTCAGCACCTGATCGCGGGTGTCGGTAGTGCC -GTGTGGAATAGCAATACCATTGCCGAGGAACGTTGAGGTTTGCTGTTCGCGCGCCAGCATGCCATTGACGTAGCCTTCTG -CTACATTACCGGCCTGCACCAGCGCCGCAGCGACCTGGCGAATCGCCTCTTTTTGTCTCCGGCCTTTTCGCCCGGATGGA -TGTCCTGTACGGATAACTGGAACATAGTTCTCCTCTCTTGCTGAATTGAAACGATTCAGCCTCTATGAGAAAAAAAGCGC -CAACCTGGCTTAGGGTTAAAGACAAGATCGCGCTGAAACGTTTCAAGAAAGCATAATACTTCTGTTTCAGCACGCAAGGA -AAGCCGTAAAGTTATGAGCAAAAGTTTGATGTGCTGCACAATTTTTTGCCATTTTTCCTAATTGCTGATGGGAAAATCCG -TTATCAGCAATTTCATTTCAGCAGCGTCAGCAGCCAATCAGCAACAGTGAAATGGCATTTTGACTATTCGTGGCGCTTTT -GATTTCGCTGTCTGTTTATTTTCTGACAAGCAGCGTAAACTCCGCGTCTTCCTCTTCCAGTGATCGACCAGCATGCATAA -CTCCCCCGCAGTCTCCAGCGCGAAATCGTTTGACCTGACCTCGACGGCGTTTTTAATCGTTGCCTTTCTCACCGGTATTG -CGGGCGCTCTGCAAACCCCGACACTCAGTATTTTTCTTACCGATGAAGTACATGCCCGTCCGGCGATGGTGGGATTCTTC -TTTACCGGCAGCGCTGTCATTGGGATTCTGGTAAGTCAGTTTCTCGCCGGGCGCTCTGATAAGCGCGGCGATCGCAAATC -GCTGATTGTCTTTTGCTGCCTGTTAGGCGTGCTGGCCTGCACCCTTTTTGCCTGGAATCGCAACTACTTTGTTTTGCTAT -TCGTTGGCGTCTTTCTTAGCAGCTTTGGCTCGACCGCTAACCCGCAAATGTTTGCCCTTGCCCGTGAACATGCCGACAAA -ACCGGACGTGAGGCGGTGATGTTCAGCTCTTTTTTACGCGCTCAGGTTTCACTGGCATGGGTCATTGGCCCACCGCTGGC -TTATGCCTTAGCGATGGGTTTCAGCTTTACGGTAATGTATCTGAGCGCAGCGGTAGCGTTTATTGTTTGCGGTGTGATGG -TGTGGCTGTTTTTACCGTCGATGCGAAAAGAGCTTCCGCTGGCGACCGGCACGATCGAAGCGCCGCGCCGTAACCGTCGC -GATACGCTGCTGCTGTTTGTCATTTGTACATTGATGTGGGGCTCGAACAGCCTGTACATCATCAACATGCCGCTATTTAT -TATCAACGAACTGCATCTTCCCGAGAAACTGGCCGGTGTGATGATGGGGACCGCCGCCGGGCTGGAAATCCCGACGATGT -TGATTGCCGGATATTTCGCCAAACGTCTGGGTAAGCGTTTCTTAATGCGCGTTGCTGCCGTGGGTGGCGTCTGTTTTTAC -GCAGGAATGCTGATGGCGCATTCACCTGTCATTCTGTTGGGCTTGCAGCTGCTAAATGCTATTTTTATTGGCATTCTGGG -CGGCATCGGGATGCTCTATTTTCAGGATCTGATGCCCGGTCAGGCGGGTTCAGCCACCACGCTCTATACCAACACTTCGC -GCGTGGGCTGGATCATCGCAGGATCAGTGGCGGGCATCGTCGCCGAGATCTGGAATTATCACGCTGTGTTCTGGTTTGCG -ATGGTGATGATTATCGCCACTCTGTTTTGCTTACTGCGGATTAAAGATGTTTAAGGCGCGGTCAGCATTTCCAGATCGAT -AAGCCAGGTCATGGCCTGCTGACGCGAGTTACCGCACATTTCAGCGCTGGCTTGTAAGCCTGCACAGACTTTCGGTCGCA -GTGGCGAGGTGAAAATTTTACAGCGTTGCTGTTCATCAAGCTGAATGCAGGGCGTATTGGCGGGCTTGCCATCTGGCATA -CCGGGAATAGGGCTGGAAATTGAAGGGGCAGTGCAACACGCCCCGCAACCCGGACGGCATTCCATACGTTGTTCTCTTAA -GGTTAACCACCGGATTGATGAGCGCGCACAGTACCACCTTTTTTGCACCAGCAAAAGTGCGAATACCACTTGCCCGAAAG -GCCCGTCGCGAGTACTTTGTCGCGATATTTTTGACATTTTCGACTACAGGAATTTTTCGATGCCAAGAGCGAACGAAATT -AAAAAAGGTATGGTACTGAATTACAACGGCAAACTGCTGCTGGTTAAGGATATTGATATTCAGTCGCCCACTGCCCGCGG -TGCCGCTACGCTGTACAAAATGCGTTTTTCTGATGTCCGTACCGGGCTGAAAGTAGAAGAGCGTTTCAAAGGTGATGATA -TCGTTGACACCGTGACGCTGACCCGCCGTTACGTTGACTTCTCCTATGTCGATGGCAACGAATATGTCTTTATGGATAAA -GAAGACTATACCCCGTATACCTTCACCAAAGATCAGATTGAAGAAGAGTTGCTGTTTATGCCAGAGGGCGGCATGCCGGA -CATGCAGGTGCTGACCTGGGACGGTCAACTGCTGGCGCTTGAGCTGCCGCAGACCGTTGATCTGGAAATCGTTGAAACCG -CACCAGGCATCAAAGGGGCATCTGCCAGCGCCCGTAACAAACCGGCGACATTGAGCACTGGTCTGGTGATTCAGGTACCA -GAATACTTAAGCCCGGGCGAAAAAATTCGTATCCATATCGAAGAACGCCGTTATATGGGGCGTGCTGACTAACTTCAGCC -GCATGCAGAAAAGGGATAGCTCAGGCTGTCCCTTTTTTAATTTATTATACCAATCTTCTATTTTGCGCTTCCTGAACACC -TTACGCCCTCAATTTTCACTCGTTGATTGATCGCCCTCACACTTCATCGCATTAACAATCCAGACCAATTTCAATTGCTG -TCATATAACTTTACACTGTCGTTGTTAATTAATCGTTACTAAGACGTGACTCCTATGAATACAATCGCCTCCGTTACGCT -CCCGCATCATGTACACGCTCCACGCTATGATCGCCAGCAGTTGCAATCACGTATCGTTCATTTTGGCTTTGGAGCCTTTC -ACCGCGCTCATCAGGCGTTACTGACCGATCGTGTGCTGAATGCCCAGGGCGGCGACTGGGGGATCTGTGAAATCAGCTTG -TTCAGCGGTGATCAACTGATGAGCCAGCTCCGCGCACAGAACCATTTATATACCGTGCTGGAGAAAGGTGCGGACGGCAA -TCAGGTGATAATTGTCGGTGCCGTTCACGAATGCCTTAATGCAAAACTGGATTCCTTAGCGGCAATTATTGAGAAATTTT -GCGAGCCACAGGTGGCAATTGTTTCCCTGACGATTACCGAAAAAGGCTATTGTATTGACCCGGCCACCGGTGCACTCGAC -ACCAGTAATCCGCGGATTATTCACGATCTACAAACCCCTGAAGAACCTCACTCCGCACCGGGTATTCTCGTCGAAGCACT -GAAACGCCGCCGTGAGCGCGGCCTTACACCGTTTACCGTGCTCTCCTGCGACAATATTCCCGACAATGGTCATGTGGTGA -AAAACGCGGTGCTGGGAATGGCAGAAAAACGTTCGCCAGAACTCGCCGGGTGGATAAAAGAGCACGTCAGTTTTCCGGGA -ACCATGGTCGACCGCATTGTTCCGGCTGCAACCGACGAATCACTGGTGGAAATCAGCCAGCATCTGGGGGTGAATGATCC -CTGCGCGATTAGCTGCGAACCGTTTATCCAGTGGGTGGTGGAAGATAACTTCGTCGCTGGGCGTCCTGCCTGGGAAGTCG -CAGGTGTACAAATGGTGAATGATGTCCTGCCATGGGAAGAGATGAAACTGCGGATGCTTAATGGCAGCCACTCTTTTCTC -GCTTATCTGGGTTACCTCTCAGGATTCGCCCATATCAGTGATTGCATGCAGGATCGCGCATTTCGCCATGCCGCCAGAAC -ATTAATGCTGGATGAGCAAGCGCCGACACTGCAAATTAAAGATGTCGATTTAACACAATATGCGGATAAGTTAATTGCAC -GTTTTGCTAATCCGGCGCTGAAACATAAGACCTGGCAAATCGCGATGGATGGCAGCCAGAAATTACCGCAACGCATGCTG -GCAGGTATTCGCATACATCAGGGGCGCGAAACGGACTGGTCGTTGCTGGCATTAGGCGTTGCAGGCTGGATGCGTTACGT -CAGCGGCGTTGATGATGCCGGAAATGCCATTGATGTTCGCGATCCGCTTAGCGATAAAATTCGCGAACTTGTTGCGGGCA -GCAGCAGTGAACAACGCGTAACCGCCCTGCTTTCCCTGCGTGAAGTTTTCGGTGATGATCTGCCAGATAACCCGCATTTT -GTGCAGGCCATCGAACAAGCCTGGCAACAAATCGTACAATTCGGCGCACATCAGGCGCTATTAAACACCCTCAAAATTTA -ACGATTTCTGCGGTTAAAGCGGATGAAGCTCACCTTCGTCCGCTCTCCCCTTCTCTTTTCTGCCTTTTTTAGCCAGGATT -AACGCTCAGTTAACTTACCAGAGTATTGCGGAGCCGTTGTGACCAGGACCAACCTCATCACCGGTTTTCTCGGCAGCGGG -AAAACCACGTCGATTCTTCATCTGTTAGCCCATAAAGATCCCAACGAAAAATGGGCGGTACTGGTTAATGAATTTGGGGA -AGTCGGAATTGATGGTGCTTTGCTCGCCGATAGCGGCGCATTGCTGAAAGAGATCCCCGGCGGCTGCATGTGCTGCGTTA -ATGGTTTACCCATGCAGGTAGGGTTGAATACCTTACTGCGTCAGGGAAAACCAGACCGCTTGTTGATAGAGCCGACCGGG -CTGGGCCATCCGAAACAGATCCTCGATCTGTTAACCGCACCAGTCTATGAACCGTGGATAGATCTGCGCGCCACCTTGTG -CATTCTCGATCCGCGCTTGCTGCTGGACGAAAAAAGCGCCAGCAATGAAAACTTCCGTGACCAGCTGGCTGCCGCAGACA -TCATTGTCGCCAATAAATCCGACCGTACGACGCCCGAAAGTGAGCAAGCGCTACAGCGTTGGTGGCAGCAAAATGGTGGC -GATCGACAATTAATTCACAGTGAGCATGGGAAAGTTGACGGTCATCTTCTGGATTTGCCGCGTCGCAATTTAGCCGAGTT -GCCCGCCAGCGCCGCGCATTCTCATCAGCATGTCGTGAAAAAAGGGTTAGCAGCGTTAAGCCTGCCAGAGCATCAACGCT -GGCGTCGCAGTCTGAACAGCGGGCAAGGATATCAGGCCTGCGGCTGGATATTCGACGCTGATACGGTATTCGACACCATT -GGCATTCTGGAATGGGCGCGACTTGCACCGGTGGAACGCGTCAAAGGCGTGCTGCGTATTCCCGAAGGGCTGGTGCGAAT -CAACCGTCAGGGCGATGACCTGCACATTGAAACGCAAAACGTTGCGCCACCGGACAGCCGTATTGAGCTGATTTCCAGCA -GCGAAGCTGACTGGAATGCCTTGCAGAGCGCGCTGTTGAAGCTTCGTTTAGCGACTACCGCGTAAGGTTGCCTGCGTTTT -TCAGTAAGATAATTAGAGAAAATATGATTAAAAATTTGCCGCAAATAGTGTTGTTGAATATTGTCGGCCTCGCGCTGTTT -CTTTCCTGGTATATCCCCGTTAATCATGGATTCTGGTTGCCGATTGATGCGGATATTTTTTATTTCTTTAATCAGAAACT -GGTCGAAAGTAAGGCCTTTTTGTGGCTGGTTGCATTGACCAACAATCGCGCCTTCGACGGTTGTTCACTGCTGGCGATGG -GTATGTTGATGCTGAGTTTCTGGCTGAAAGAAAACGCCCCTGGCAGACGACGTATCGTGATTATTGGTCTGGTCATGCTA -TTAACTGCAGTGGTATTAAACCAGCTGGGTCAGGCATTAATTCCTGTAAAACGGGCCAGCCCAACATTGACTTTTACCGA -TATTAACCGCGTCAGCGAACTGCTCTCTGTTCCCACGAAAGATGCCTCACGAGATAGCTTTCCCGGCGATCACGGCATGA -TGCTGCTTATTTTTTCGGCATTCATGTGGCGTTATTTCGGCAAAGTTGCAGGCCTTATCGCCCTTATTATTTTTGTGGTT -TTTGCATTTCCCAGAGTAATGATTGGCGCACACTGGTTTACTGACATCATTGTCGGTTCGATGACCGTGATATTGATCGG -TTTGCCCTGGGTGTTGCTGACGCCATTAAGTGATCGATTAATCACCTTTTTTGACAAATCACTACCAGGAAAAAACAAAC -ATTTCCAAAACAAATAACTCACAGTAATTAACATCATCAGGGTTATTTTTATAGTGAGGATAATCCTGATGATGCGCACC -GTGCTTTCATCTATCGAACGCAAAAATCATTCTCTAAGTAAATGAATGGATTGCATGCGTTTCACTCAATTGTACTTTAA -TTGACCAACCCCGCTTATTAACTTTCTGTATCACTTTTTCTTATAAAAAATCATGTAAAACCGCTCGCCAAGACCGCACC -AATCGGGTAATCTCGAACTCGTTTTGCCTCGGCGGTAGATTATCCTCACAGCATATAATTTTGTGCGTTAGTCCACAGAT -TTGGCCTTAAGGAATTGTTTCAACATGCCCAGGTAATTAGTCTCGTGTCGCTTGGCATTTTTTTATAACGATATTTGTCG -TTAAGGACTTCAAGGGAAAACAAACAACATGGTCAAATCTCAACCGATTTTGAGATATATCTTGCGCGGGATTCCCGCGA -TTGCAGTAGCGGTTCTGCTTTCTGCATGTAGTGCAAATAACACCGCAAAGAATATGCATCCTGAGACACGTGCAGTGGGT -AGTGAAACATCATCACTGCAAGCTTCTCAGGATGAATTTGAAAACCTGGTTCGTAATGTCGACGTAAAATCGCGAATTAT -GGATCAGTATGCTGACTGGAAAGGCGTACGTTATCGTCTGGGCGGCAGCACTAAAAAAGGTATCGATTGTTCTGGTTTCG -TACAGCGTACATTCCGTGAGCAATTTGGCTTAGAACTTCCGCGTTCGACTTACGAACAGCAGGAAATGGGTAAATCTGTT -TCCCGCAGTAATTTGCGTACGGGTGATTTAGTTCTGTTCCGTGCCGGTTCAACGGGACGCCATGTCGGTATTTATATCGG -CAACAATCAGTTTGTCCATGCTTCCACCAGCAGTGGTGTTATTATTTCCAGCATGAATGAACCGTACTGGAAGAAGCGTT -ACAACGAAGCACGCCGGGTTCTCAGCCGCAGCTAATAAACCGTTTGGATGCAATCCCTTGGCTATCCTGACGAGTTAACT -GAAAGCACTGCTTAGGCAGTGCTTTTTTGTTTTCATTCATCAGAGAAAATGATGTTTCCGCGTCTTGATCCAGGCTATAG -TCCGGTCATTGTTATCTTTTAAATGTTGTCGTAATTTCAGGAAATTAACGGAATCATGTTCATACGCGCTCCCAATTTTG -GACGTAAGCTCCTGCTTACCTGCATTGTTGCAGGCGTAATGATTGCGATACTGGTGAGTTGCCTTCAGTTTTTAGTGGCC -TGGCATAAGCACGAAGTCAAATACGACACACTGATTACCGACGTACAAAAGTATCTCGATACCTATTTTGCCGACCTGAA -ATCCACTACTGACCGGCTCCAGCCGCTGACCTTAGATACCTGCCAGCAAGCTAACCCCGAACTGACCGCCCGCGCAGCGT -TTAGCATGAATGTCCGAACGTTTGTGCTGGTGAAAGATAAAAAAACATTCTGTTCATCTGCGACCGGTGAGATGGACATT -CCACTCAATGAATTGATTCCGGCGCTCGACATTAATAAAAACGTCGATATGGCGATCTTACCCGGCACGCCGATGGTGCC -GAACAAACCCGCAATCGTCATCTGGTATCGCAACCCTTTGCTGAAAAATAGCGGCGTCTTTGCCGCTCTGAATCTCAACC -TGACGCCTTCACTCTTTTATAGTTCACGGCAGGAAGATTACGATGGCGTCGCCCTCATTATTGGCAATACTGCGCTATCT -ACCTTTTCTTCACGTTTGATGAACGTTAACGAATTAACCGACATGCCAGTCCGTGAAACTAAAATTGCGGGCATTCCTCT -GACCGTTCGGCTTTATGCAGATGACTGGACATGGAACGATGTGTGGTACGCATTTTTACTGGGCGGCATGAGTGGAACTG -TCGTTGGCCTGCTCTGCTATTACCTGATGAGCGTACGTATGCGCCCCGGCAGAGAAATCATGACCGCCATCAAGCGCGAA -CAATTTTACGTGGCGTATCAACCGGTGGTGGATACACAAGCTTTGCGAGTAACGGGCCTGGAAGTACTGCTACGCTGGCG -GCATCCTGTCGCGGGAGAAATTCCCCCGGATGCCTTCATTAACTTTGCCGAATCGCAAAAGATGATTGTGCCGCTGACTC -AGCACCTGTTTGAGTTAATTGCCCGCGATGCCGCAGAATTAGAAAAAGTGCTGCCGGTAGGCGTCAAATTTGGTATTAAC -ATTGCGCCGGACCATCTGCACAGCGAAAGCTTTAAAGCAGATATCCAGAAACTGCTCACTTCCCTGCCCGCACACCATTT -CCAGATTGTGCTGGAAATTACCGAGCGCGATATGTTGAAAGAGCAAGAAGCCACACAACTCTTCGCCTGGCTGCACTCGG -TCGGCGTAGAAATTGCTATTGATGACTTCGGCACCGGGCACAGCGCGCTTATCTATCTTGAGCGTTTTACGCTCGATTAT -CTGAAAATTGACCGTGGATTTATCAACGCCATCGGTACGGAAACGATCACTTCCCCCGTACTTGACGCGGTGCTGACGCT -GGCGAAACGCCTCAATATGCTGACGGTTGCTGAAGGGGTCGAAACGCCGGAACAGGCGCGATGGCTAAGCGAACGCGGCG -TTAATTTCATGCAAGGCTACTGGATTAGCCGCCCGTTACCGCTGGACGATTTTGTTCGCTGGCTAAAGAAACCGTATACG -CCGCAGTGGTAAGGTGTGCTTACGTCCCTTATTATTCATAGTGAAAGCATGCCGGATTGCGGCTAATGATGAGTAAAAGG -AAATCCGTTGCAGATGATTGTGCGCATACTGCTGCTGTTTATCGCTCTGTTCACCTTTGGTGTGCAGGCGCAGGCTATCA -AGGAAAGCTATGCCTTTGCCGTGCTGGGCGAACCCCGGTACGCGTTTAATTTCAACCATTTTGATTATGTGAACCCCGCC -GCGCCAAAAGGTGGGCAGATAACGTTGTCAGCCCTCGGCACCTTCGATAATTTCAACCGCTATGCACTGCGCGGCAACCC -GGGCGCACGCACCGAGCAGCTGTACGACACGCTATTTACGACTTCCGATGACGAACCAGGCAGTTATTACCCGCTGATTG -CTGAAAGCGCACGCTATGCTGACGATTATTCCTGGGTGGAGGTCGCTATTAATCCGCGCGCCCGTTTTCATGATGGTTCG -CCCATTACTGCCCGCGATGTAGAGTTTACTTTTCAAAAATTTATGACCGAAGGCGTGCCGCAATTTCGTCTGGTCTACAA -AGGCACCACCGTCAAAGCCATTGCACCGTTAACCGTGCGCATTGAGTTAGCTAAACCCGGCAAAGAAGATATGCTGAGTC -TGTTTTCGCTGCCGGTATTTCCAGAAAAGTACTGGAAGGATCACAAACTTAGCGACCCGCTCGCCACGCCTCCGCTTGCC -AGTGGTCCGTACCGCGTTACGTCCTGGAAAATGGGGCAAAATATTGTCTATTCCCGTGTGAAAGATTACTGGGCAGCAAA -CTTACCGGTAAACCGTGGACGCTGGAATTTCGACACCATTCGCTACGATTATTACCTCGATGATAATGTCGCCTTTGAAG -CGTTTAAAGCAGGTGCCTTTGATTTGCGTATGGAAAACGACGCCAAAAACTGGGCCACGCGTTATACCGGTAAAAATTTC -GATAAAAAATACATCATCAAAGATGAGCAAAAGAACGAATCAGCCCAGGATACGCGTTGGCTGGCGTTTAATATCCAACG -TCCGGTATTCAGCGATCGCCGGGTCCGGGAAGCTATCACTCTCGCCTTTGACTTTGAATGGATGAACAAGGCGTTGTTTT -ACAATGCCTGGAGTCGCACGAACAGTTATTTTCAGAATACCGAATACGCGGCCAGAAATTACCCCGACGCCGCGGAGCTG -GTGCTTCTGGCACCAATGAAAAAAGATCTACCGTCAGAAGTCTTCACACAAATCTACCAGCCGCCGGTATCCAAAGGCGA -TGGCTACGATCGTGACAACCTGTTAAAAGCCGACAAACTTCTCAACGAAGCGGGCTGGGTGCTGAAGGGTCAGCAACGCG -TTAATGCCACAACGGGTCAGCCACTCAGCTTTGAATTATTGCTTCCCGCAAGCAGCAATAGTCAGTGGGTATTGCCGTTC -CAGCACAGCCTGCAACGGCTGGGTATCAACATGGACATTCGCAAGGTGGATAACTCGCAAATCACTAACCGCATGCGCAG -TCGCGACTATGACATGATGCCGCGCGTATGGCGGGCGATGCCGTGGCCCAGTTCCGATTTACAGATTTCCTGGTCATCGG -AATATATCAATTCCACTTATAATGCCCCCGGCGTGCAAAGCCCGGTTATCGACTCGCTGATCAACCAAATTATTGCCGCG -CAGGGAAATAAAGAAAAATTACTGCCGTTGGGGCGAGCACTGGATCGCGTATTAACGTGGAATTATTACATGCTGCCAAT -GTGGTACATGGCGGAAGACCGTCTCGCCTGGTGGGATAAATTCTCCCAGCCGGCCGTGCGCCCCATCTATAGCCTCGGTA -TCGATACCTGGTGGTATGACGTCAATAAAGCGGCCAAACTGCCGTCCGCCAGCAAACAGGGAGAGTAGATGGGCGCTTAC -CTGATTCGCCGTCTGTTGCTGGTGATCCCAACATTATGGGCGATTATCACCATCAACTTTTTCATCGTGCAAATTGCGCC -TGGCGGTCCGGTCGACCAGGCCATCGCCGCCATTGAGTTTGGTAATGCCGGAGTATTACCCGGCGCAGGCGGTGAAGGTG -TTCGTGCCAGCCATGCGCAAACGGGTGTCGGCAATATCAGCGACAGTAATTACCGTGGCGGACGCGGATTAGATCCAGAA -GTGATCGCTGAGATCACTCATCGCTACGGTTTTGATAAGCCGATCCACGAACGTTACTTCAAAATGCTCTGGGACTACAT -CCGCTTTGATTTTGGCGATAGCCTGTTTCGCAGCGCCTCGGTGCTGACGCTGATTAAAGACAGTCTGCCGGTTTCCATCA -CCCTCGGATTGTGGAGCACGCTGATTATCTATCTGGTGTCGATTCCGTTAGGCATTCGCAAAGCTGTTTATAATGGGAGC -CGCTTTGACGTCTGGAGTAGCGCATTTATCATCATCGGCTACGCCATTCCGGCCTTTTTGTTTGCCATCCTGCTGATTGT -CTTCTTCGCGGGCGGCAGCTATTTCGACCTGTTCCCTCTACGCGGCCTGGTTTCCGCTAACTTTGATTCGCTGCCGTGGT -ATCAGAAAATCACCGATTATCTGTGGCATATCACGCTGCCGGTGCTGGCGACAGTGATTGGTGGCTTTGCGGCGCTGACC -ATGCTGACAAAAAACTCATTCCTTGATGAAGTGCGCAAGCAATACGTGGTGACCGCGCGTGCGAAAGGGGTAAGTGAAAA -AAATATTCTCTGGAAACATGTGTTCCGCAACGCCATGCTGCTGGTGATTGCCGGTTTTCCGGCGACGTTTATCAGCATGT -TTTTTACCGGCTCGCTGCTGATTGAGGTGATGTTTTCACTCAATGGTCTGGGCTTACTGGGCTACGAAGCGACCGTCTCG -CGCGATTATCCTGTAATGTTTGGTACCTTGTATATTTTCACCCTGATTGGCCTGCTGCTGAATATTGTCAGTGATATCAG -CTATACGCTGGTTGATCCGCGTATTGATTTTGAGGGACGTTAATGTCGCGACTCAGCCCCGTCAATCAGGCCCGTTGGGC -GCGTTTTCGTCATAACCGTCGCGGCTACTGGTCGTTATGGATTTTCCTCGTCTTGTTTGGTTTGAGTTTGTGTTCTGAAC -TTATCGCCAACGATAAACCGTTGCTGGTGCGTTATGACGGCAGTTGGTATTTCCCGTTATTGAAAAACTACAGCGAAAGC -GATTTTGGCGGCCCGCTGGCAAGTCAGGCTGATTATCAGGACCCGTGGCTGAAACAACGGCTGGAAAATAACGGCTGGGT -ACTGTGGGCACCGATTCGCTTTGGTGCTACCAGTATCAACTTTGCTACCAATAAGCCCTTCCCTTCTCCACCCTCCCGGC -AAAACTGGCTGGGAACGGATGCCAACGGCGGCGATGTGCTGGCACGCATTCTCTATGGCACGCGGATCTCGGTTCTGTTT -GGCCTGATGCTGACTCTCTGTTCCAGCGTGATGGGCGTGCTGGCGGGGGCGCTACAAGGCTATTACGGCGGTAAAGTCGA -TCTCTGGGGACAACGCTTTATTGAAGTATGGTCGGGGATGCCGACGCTGTTTTTGATTATTTTACTTTCCAGCGTCGTAC -AGCCTAACTTCTGGTGGCTGCTGGCAATTACTGTCTTGTTTGGCTGGATGAGTCTGGTCGGCGTGGTGCGGGCGGAGTTT -TTACGTACTCGTAATTTCGACTACATTCGTGCGGCACAGGCGCTTGGCGTCAGCGATCGCAGTATCATCCTGCGTCATAT -GTTGCCTAATGCCATGGTCGCGACCCTCACCTTTTTACCGTTTATTTTATGTAGTTCGATAACCACCCTGACCTCGCTCG -ATTTCCTCGGCTTCGGTCTACCGCTCGGTTCACCGTCACTCGGTGAACTGCTGTTACAAGGGAAAAATAACCTTCAGGCC -CCGTGGCTTGGGATCACCGCCTTCTTGTCGGTGGCGATATTATTGTCTTTGCTGATCTTTATTGGTGAAGCCGTCCGCGA -CGCATTTGATCCTAATAAGGCGGTGTAGCATGACGCAAACTCTGTTAGCGATTGAAAATTTGTCGGTGGGTTTTCGCCAT -CAGCAAACCGTACGTACAGTAGTCAATGATGTTTCACTACAGATTGAGGCTGGCGAAACGCTGGCGCTGGTGGGTGAGTC -AGGTTCAGGCAAAAGCGTTACCGCGCTGTCAATTTTACGCCTGCTCCCTTCCCCGCCGGTTGAATATCTCTCCGGCGATA -TTCGTTTTCATGGCGAATCGCTGCTTCACGCCAGCGATCAAACGTTGCGCGGTGTACGCGGTAATAAGATCGCCATGATT -TTTCAGGAACCGATGGTGTCGTTAAATCCATTGCATACCCTGGAAAAACAGCTTTATGAAGTGCTTTCACTCCACCGCGG -GATGCGTCGGGAAGCGGCTCGTGGCGAAATTCTTAACTGCCTTGATCGCGTTGGTATCCGCCAGGCGGCAAAACGGCTGA -CAGATTATCCGCATCAGCTCTCCGGCGGCGAACGGCAGCGGGTGATGATTGCGATGGCGCTGTTAACGCGACCGGAATTA -TTAATTGCCGATGAACCGACCACCGCACTGGACGTCTCTGTCCAGGCGCAGATTTTACAGCTGTTGCGCGAACTGCAAGG -CGAGCTGAATATGGGCATGCTGTTTATTACTCATAACCTCAGCATTGTCAGAAAACTGGCCCACCGCGTGGCGGTAATGC -AAAACGGTCGCTGTGTCGAGCAAAATTACGCCGCTACGCTATTTGCATCACCCACTCATCCTTACACACAAAAGCTACTC -AACAGTGAACCGTCAGGCGATCCAGTGCCGTTGCCAGAACCTGCCTCAACGTTGCTGGATGTTGAACAGCTTCAGGTTGC -CTTCCCCATTCGCAAAGGGATTTTGAAGCGCATTGTGGATCATAATGTGGTGGTGAAAAACATCAGTTTTACGCTACGAG -CGGGTGAAACACTGGGTTTAGTGGGCGAGTCCGGTTCCGGGAAAAGTACGACGGGACTGGCGCTGCTGCGACTGATTAAT -TCTCAGGGCAGCATCATCTTTGACGGTCAGCCACTGCAAAATTTAAATCGCCGCCAGCTGTTACCTATTCGTCATCGCAT -TCAGGTGGTATTTCAGGATCCAAACTCCTCGCTCAACCCACGACTCAACGTTTTGCAGATTATTGAGGAAGGCTTACGGG -TTCACCAGCCGACGCTTTCTGCCGCACAACGCGAACAACAAGTGATAGCCGTGATGCATGAAGTGGGATTAGATCCTGAA -ACACGCCACCGTTATCCGGCGGAGTTCTCTGGTGGTCAGCGACAACGTATTGCGATTGCCAGGGCATTAATTCTTAAGCC -CTCGCTGATCATACTTGATGAACCGACATCATCACTCGACAAAACGGTACAGGCGCAAATATTGACGCTATTGAAATCAT -TGCAACAAAAGCATCAACTGGCCTATTTGTTTATCAGCCACGATTTGCACGTTGTCCGCGCGTTATGTCATCAGGTTATC -ATACTGCGACAAGGGGAAGTAGTGGAACAAGGACCGTGCGCGCGCGTGTTTGCCACACCGCAGCAGGAGTATACGCGTCA -GCTACTGGCGTTGAGCTGACGCTTAAAAAGGATTGTAGTTTGAAAAGGGTTCGGCAATTGCCACACCAAAATTTTTCAAT -CGGCATGTTGCAGCAAACTCGTCCTGGCGATTTACAAACAGGCACGGCTCACCTTCACACTCCAGCACCGAACATGGAAC -TTCGATGTCGCTTAACGCCTGGCTTAGTTTATACATCACCGACCATGCATTATCACCATCCGGGCTAAGCAATTTAAGCG -CCACCAGGCTGTTGTCACCGCACGGTCCATTTTGCGGAATCGGTTCAACCTTCGAACCTGCGAAACCAGCAGACCAGCGA -TAGTTCTGCGGCAGTCGATGGACGATTGAGAGTTGTAATGAAGTCACTTATTTTCCCCGGAAGCACATTCACTTCACAAT -TTGTTTACATCAATTTTAACACATCATCAACAATCCGTCTTTATACAGATCGTAAAGATTGATGCCTCGCCTGCGTGGCC -TCTATGGCTCTGATTTAAGTAATATCTGCGGGCGTGGTCACGTTTGCGGGGCTATATGTACCCGTTTCTGCGATCTAACT -CAACCTTTTTAACTACAATGATGTGACTTTTTACATAAATTGATTTTACATAAAATAAACATATATCGGGGGAATGATAG -ATTTGTGGTTGACATGCATCAACAAAGGAAGCCTTTTAGCTTCCTCGTTGTGCAATAGATCACCGTTTTTTCGGCCGACT -GGCGTACAGACAGAAGAGAATGGAGCTGGTTGCGCAGAATGCAATTGACCAAATCATCGGCCATGCAGAGTTAAAGGTCG -CAAGAGAAAGCAATGCGCCAACAATTGCCCCTATGCCAAAACGGAAGGTTCCTGCCAGCGAAGATGCCGTTCCCGCCATA -TGGGGAAACTCATCAAGAATGACCGCCATCGCATTGGATGACACCATCGACACGCAGCCCACAAACGCCGCAACGCCAAC -CACCAGCGACCAAAATCCCAGCCCCAGCAGCGCACTGATGACCATCCACGCTGCCATAATAAATTGTATCCACAACCCCG -AGCGGAACATATTTAACGCGCCAATGCGGCGGACGAAGCGGCTGTTAAAGATGGTCATCACGAACAGAAAAACAATGTTT -AGCGCAAAGTAATAACCAAAGTTTTCCGGCGCGACGTGGTTAATTTCAATATAAACAAACGGTCCGGCGCTTAAGAATGA -GAACATCCCGGCAAAGCTGAAACCACTGGCAAGCATGTAGCTCAGGACACGTTTATGGCGGAACAGCGCCGCAAAGTTAC -CAATAGTGGTACGAATGTGAAATGGCTGACGACGCTCCGGTGGTAAGGTTTCTTTAATCAGGAAGAAAATCATTGCCGAA -GCCAGAATCGCCGCTAATGCCAGGATCCAGAAGATGTAATGCCAGCTCAGCCACACCAGCACCCAGCCGCCAACTATCGG -TGCCATCAGCGGTGCAATGGTTGTCACCAGCATGACAAACGACATCATCCGCGAGAACTCTTCTTTCGGGTAAATATCGC -GCATCAGGGCGTTAATGACCACGCTGGCCGCAGCCGCAGCCAGCCCGTGGAAGAAACGCATCACAATCAGCTGATCGATG -GTGTTTGCCAACGCACACGCCACCGCGGCGGCGGCAAACACCAGCGTACCGCCGAGCACCACCGGCTTACGCCCGAAGCT -GTCTGCCATCGGCCCGTAGATTAACTGCCCCAACGCAAAGCCCAGAATATAAGTACTGAGGGTCATCTGCGTACTGCCCG -CCGGTACGCCAAACTGCGCTGAAATTACCGGTAGCGCGGGCAGATACATATCAATCGACAGCGGCATCAACATGGCCAGC -AGGCCAAGGATAAAAACAATAGCAAACGACGAATGCTGTCGGGTGGTCACAACGGGCTCCTGAAAGTCATTGAAAAGTTA -GACGACGCTGGCAATTTCTTCTTCAGTTAACGGACGATATTCACCGGGGGCTAAATCAGCATCCAGCGTAATACCGCCAA -TACGTTCACGATGCAGCTCAACCACGTGGTTACCCACGGCGGCGAACATGCGTTTCACCTGATGATAACGCCCTTCGCTG -ATGGTCAGACGAACCTGCGTTGGGGTAATCACTTCCAGCACCGCAGGCTTAGTGAGATCTTTTTCGTTATGCAGCTGCAC -GCCTTTAGCAAATTGCTCTGCCGTATCGTCAGCTACAGGTGATTCCAGTGTCACCAGATAGGTCTTCTCGCAATGATGGC -GCGGAGAAGTAATGCGGTGCGACCACTGACCATCATCAGTCATCAGCACCAGACCGGTGGTATCAATATCCAACCGCCCC -GCCGCATGCAGTTTCCACGCTACCGGTTCATCAAGAAAATAGAGCACCGTTGGGTGATCAGGGTCGTCCGTGGAGCAAAC -ATAGCCCTGAGGCTTATTGAGCATGAAGTAACGTGGACCGTGTTGCTGCGCCAGCGGGTTGCCATCGTAAGCGACATCAT -GTTCAGGAAGCAGTTTGAACGCTGCATTACGGACGATTTCGCCATCGACGGTGACACGATTGCCGCGGATTTCACGCCCG -GCAATAGCACGGCTAACGCCGAGTTGCTGTGCGATAAATTTATCAAGTCGCATGTGTGTGATTTTGCCTGTAAAAACGGA -GGTCGGGCATTGACCCGAAAATCTGAACTGTTGTCTGCCCAGTATAGCGGTCTAATAACATCCCTCAAGGGAAAAAGATC -CATGGCATACTATTAGCAGAATAATCTACCTACGCGAGACCATGATTTTTACACTTCGCCCATATCAGCAAGAAGCCGTG -GATGCCACGCTCAACCATTTTCGTCGTCATAAAACCCCTGCCGTTATCGTGCTGCCCACCGGCGCAGGTAAAAGCCTGGT -GATAGCGGAACTGGCACGGCTGGCTCGTGGTCGCGTGCTGGTGCTGGCACACGTTAAAGAACTGGTGGCGCAAAACCATG -CAAAGTATCAGGCGCTGGGGCTGGAAGCCGATATTTTTGCCGCCGGGCTAAAGCGCAAAGAGAGCCACGGTAAAGTGGTA -TTTGGCAGCGTGCAGTCTGTCGCCCGTAATCTTGATGCCTTTCAGGGTGAATTTTCGCTGTTGATTGTCGATGAATGTCA -CCGTATTGGTGACGATGAAGAGAGCCAGTATCAGCAAATCCTCACTCACCTGACAAAAGTGAATCCCCACTTACGCCTGC -TGGGGCTGACTGCCACGCCTTTTCGATTGGGCAAAGGCTGGATCTACCAGTTTCATTATCACGGCATGGTACGCGGCGAT -GAGAAAGCCCTTTTCCGTGACTGCATTTATGAGCTGCCGCTGCGTTATATGATTAAACACGGCTATCTGACGCCGCCAGA -ACGACTGGATATGCCAGTAGTGCAATACGATTTCAGCCGCTTGCAGGCACAGAGTAACGGGCTGTTCAGCGAAGCCGATC -TCAACCGTGAGCTGAAAAAACAACAACGTATTACCCCGCACATCATCAGCCAGATTATGGAGTTTGCTGCAACGCGCAAA -GGGGTGATGATTTTTGCCGCGACGGTTGAACACGCAAAAGAGATTGTGGGATTACTGCCTGCCGAAGATGCAGCACTGAT -TACTGGCGACACCCCCGGCGCTGAGCGCGATGTGTTAATTGAAAATTTTAAAGCCCAGCGTTTTCGCTATCTGGTCAACG -TCGCGGTACTGACCACCGGATTTGACGCCCCGCACGTCGATCTTATCGCCATTCTGCGCCCTACCGAATCAGTGAGTCTT -TACCAACAAATTGTCGGGCGCGGTCTGCGTCTCGCTCCGGGCAAGACTGATTGCTTAATTCTTGATTATGCGGGTAATCC -TCACGATCTCTACGCGCCGGAAGTTGGTACACCAAAAGGCAAAAGTGACAACGTTCCGGTACAGGTTTTCTGCCCTGCCT -GCGGTTTTGCCAACACCTTTTGGGGGAAAACGACCGCCGACGGGACATTGATTGAACACTTTGGTCGTCGCTGTCAGGGA -TGGTTTGAAGATGACGACGGTCATCGCGAACAATGTGACTTCCGTTTCCGTTTTAAAAATTGCCCGCAATGTAACGCGGA -AAACGATATTGCCGCCCGCCGCTGCCGCGAATGTGACACCGTACTGGTTGATCCGGACGATATGTTAAAAGCGGCGCTAC -GACTGAAAGACGCGCTGGTATTACGCTGTAGCGGCATGTCTTTGCAACATGGGCACGACGAGAAAGGCGAATGGTTGAAA -ATCACCTATTACGATGAAGACGGCGCGGATGTGAGTGAGCGTTTCCGTCTGCAAACACCTGCCCAGCGTACCGCCTTCGA -GCAGCTTTTTATCCGCCCGCATACGCGCACACCGGGCATCCCGCTGCGCTGGATCACCGCCGCCGATATCCTCGCCCAGC -AAGCCTTATTGCGACACCCGGATTTTGTCGTCGCCCGCATGAAAGGCCAGTACTGGCAGGTGCGTGAAAAAGTGTTCGAT -TACGAAGGTCGTTTTCGTCTGGCGCACGAATTACGCGGTTAATGGTAGTTTTGATTGATGTATAAGGCGATTGAGTATAG -AATCTCGCCCGCTTTTGCATACGCAAAGCAGATCACTTACCTGTTGCTGGGTCGCCTGTAGCAGGATTAATTTAAGAGAG -AAAGAAATGTTTACTATCAACGCAGAAGTACGTAAAGAGCAGGGTAAGGGTGCGAGCCGCCGCCTGCGTGCCGCTAACAA -GTTCCCGGCAATCATCTACGGTGGCAAAGAAGCGCCGCTGGCTATCGAGCTGGATCACGACAAAGTCATGAACATGCAAG -CTAAAGCTGAATTCTACAGCGAAGTTCTGACCATCGTTGTTGACGGTAAAGAAATCAAAGTTAAAGCTCAGGACGTACAG -CGTCACCCGTACAAACCGAAGCTGCAGCACATCGACTTCGTTCGCGCTTAATTGCTGAATAAGTTGTAAAAAACCCCGCT -CCGGCGGGGTTTTTTGTATCTGCAGATTATGCCTGATTACGGTATTGCTATTTTTTGCAGGCCAGATAAGGCGTTCACGC -CGCATCTGGCATTCAGAACACAAAACCGATTAATTGCCGCCAGACGTCCGGCGCTGCAATTGGTCGCGCAAATTCGGCGG -CGTGCCTTTAATGGTCAAGGTATCGGTTGCTGGATCCCAGAAGATGCGTTCACCTAACAGCATCGCATCAAAGTTAATAG -TCAAGCCACCGCCGCTACCGGCAAACTTCGTCAACTGACGCAGTGTGCTACGGTCTGCCGGGAAGCTCTCTTCCAGTTCG -TAGCCTTTTTCAGCCGCAAACTCCGTGAAGCTCACTTCGCTTACGCCTGCCAGCTCTTTCGACAGCGATTTCAGTTCGAT -CTCTTCGCCTGCCTGCAGCTGCTCATTACAGTAGCTATAAACCTGCTGGCGCACGTTCTGTCGCTCTGCTTTATCCAGTT -GTGCTTCGGCAGTGAAATCATCAACCGCTTGCAACAGCCCACGGTTTTGCGCTTTCGCGTTTAACCCTTCGCTGGCCCCG -AGGAAATCCATAAAGAAATCCGCCACTTTGCGCCCTACTCGCCCTTTCAGGAAAGTGAGATAGCGGGTGGACTCTGGATT -GGTTTCCCATTCGGTTAAATCGATACGCGCAACAATATCCGCATGATTGATATCAAGATAATGGGTTGGGTTGATGTCGA -GATTTTCGTTAACGCGCATACTGCTCAGGTTGCTCAGAACTGCCACCAGCAAATACTCCACCGCCAGATAGCGATAGTGG -CAAAACAGCACGAATCCACCGTCAGCAAAAGGATATTTCGCTAATTCGTCACGCAGGCGGCCGGTTGCCGCGCGGCTAAA -TGCCAGGAAGTCCTCTTCGCCCTGACGCTGTAAGCGCAGCGTCTGCGCCAGTTCACTCTCTTCGCTAAACAAGCCGTAAG -CTTTATTTTTGGCGCTATAGACCCGATGCAGTTCTGCCACCATCTCAACGACGGTTTCTGTCGGTTCCAGCAATGAATCG -CGCAACACCAGCTCAAGGTTCTGCTCATCACGCTTGATAAGCTGGTGCAGAGCAATCTGGTTGATATCCAGACTCATGAT -AAACTCTCCTTTAAGACCGGGCGGTATTCAACCACCGCCGGTTAAGCGACGCAATAAAAGATGGCGGTCATTTTACAGAA -GGCAGCGTAACGAGAATGATTTAACGCATAAAAAAGCAGAAAAAAAACCGTTGCTACGGTAATATGTTGCCCTTTCATCA -ACTAACTGATTTCGATTTATGCCACAAATTTCCCGCTACAGTGATGAACAGGTTGAACAATTGCTCGCAGAGCTGCTCAA -CGTACTGGAAAAACATAAGGCTCCGACCGACCTTTCCCTGATGGTGTTAGGCAACATGGTCACTAACCTTATCAACACCA -GCATTGCCCCGGCCCAACGCCAGGCAATTGCCAACTCTTTTGCCCGCGCCTTACAGTCCTCTATCAACGAAGACAAAGCG -CACTAAGGGAAACAGATAACAGGTTATGGTAACTCATCGTCAGCGCTACCGTGAAAAAGTCTCCCAGATGGTCAGTTGGG -GGCACTGGTTTGCACTGTTCAATATTCTGCTTTCGCTCGTCATTGGCAGCCGTTACCTGTTTATCGCCGACTGGCCGACA -ACGCTTGCTGGTCGCATTTATTCCTACGTAAGCATTATCGGCCATTTCAGCTTCCTGGTGTTCGCCACCTACTTGCTGAT -CCTCTTCCCGCTGACCTTTATCGTCGGCTCCCAGAGGCTGATGAGGTTTTTGTCCGTCATTCTGGCAACGGCGGGAATGA -CGCTATTACTGATCGATAGCGAAGTCTTTACTCGTTTCCATCTCCATCTTAATCCCATCGTCTGGCAACTGGTTATCAAC -CCAGACGAAAATGAGATGGCGCGCGACTGGCAGCTGATGTTCATCAGCGTGCCGGTTATTTTATTGCTTGAACTGGTGTT -TGCGACGTGGAGCTGGCAAAAGCTGCGCAGCCTGACGCGTCGTCGACGCTTCGCGCGCCCGCTGGCCGCATTCTTATTTA -TCGCCTTTATCGCCTCGCATGTGGTGTATATCTGGGCCGATGCCAACTTCTATCGCCCGATCACCATGCAGCGCGCTAAC -CTGCCGCTTTCGTACCCGATGACGGCGCGACGTTTTCTTGAGAAGCATGGTCTGCTTGATGCGCAGGAGTATCAACGCCG -TCTTATTGAGCAAGGTAATCCAGACGCCGTTTCCGTTCAGTATCCGTTAAGCGAACTGCGCTATCGCGATATGGGCACCG -GGCAGAATGTGCTGTTGATTACTGTCGATGGCCTGAACTACTCACGCTTCGAGAAGCAGATGCCTGCGCTGGCAGGTTTT -GCTGAGCAAAATATTTCGTTCACGCGCCATATGAGCTCCGGCAACACTACAGACAACGGCATCTTTGGCCTGTTCTATGG -CATCTCGCCGAGCTATATGGACGGCATTCTGTCGACCCGTACGCCTGCGGCATTAATTACTGCGCTTAATCAGCAAGGCT -ATCAGCTGGGGTTATTCTCATCAGATGGCTTTACCAGCCCGCTGTATCGCCAGGCATTGTTGTCAGATTTCTCGATGCCG -AGCGTACGCACCCAATCCGACGAGCAGACCGCCACGCAGTGGATCAACTGGCTGGGACGCTACGCACAAGAAGATAACCG -CTGGTTCTCGTGGGTTTCTTTCAATGGTACTAACATTGACGACAGCAATCAGCAGGCATTTGCACGGAAATATAGCCGGG -CGGCAGGCAATGTCGATGACCAGATCAACCGCGTGCTCAATGCACTGCGTGATTCTGGCAAACTGGACAATACGGTGGTG -ATTATCACTGCCGGTCGGGGTATTCCACTGAGCGAAGAGGAAGAAACCTTTGACTGGTCCCACGGTCATCTGCAGGTGCC -ATTAGTGATTCACTGGCCAGGCACGCCGGCGCAGCGTATTAATGCTCTGACTGATCATACCGATCTGATGACGACGCTGA -TGCAACGCCTGCTACATGTCAGCACACCTGCCAGCGAATATTCGCAAGGTCAGGATTTGTTCAACCCTCAACGCCGTCAT -TACTGGGTTACCGCAGCGGATAACGATACGCTGGCAATTACCACCCCGAAAAAGACGCTGGTACTGAACAATAACGGTAA -ATACCGCACTTACAACTTACGTGGTGAAAGAGTGAAAGATGAAAAACCACAGTTAAGTTTGTTATTGCAAGTGCTGACAG -ACGAGAAGCGTTTTATCGCTAACTGATTAATTATAAATCAGTTAGCGAAATATCTTACTTGCAATCGGTGTGGAAAACGG -TAGTATTAGCAGCCACGAGTCGGCACGTAGCGCAGCCTGGTAGCGCACCGTCATGGGGTGTCGGGGGTCGGAGGTTCAAA -TCCTCTCGTGCCGACCAAAAATCCCAAGAAAAAACCAACCCTTACGGTTGGTTTTTTTATATCTGCAATTAATTCGATAA -ACAGACCGTGACACATCACAGCCTGTTTATTTTCTGTTATCAGAACGTCCAGACCACACCCGCCTGAGTATTCCACGGCG -ATTCTACCCCTGCGCCATTGCCATAGCTGACTGACAAATGACCGCTTAACGTCGGGGTAAACGATGACCTTATACCAGCC -TGATAAACGCCACTGGTTCCAGCCACATCATTATTAAATTTGCCATCGTCATTAACTTTCACCTGGTTAGAATCGGCGTA -TTCCTGACGCACGGCCGCTTTCAGCCAGGGTTCCAGCGTCGTACCGTTTTGCAGGTCCATGTGATAGCTTACCGCCGTTC -CCGCTTCAGCGCGTAATATCCGGGTATTTCCCACATCCGCGCGCATGCCGTTTGATAACGTGTAGTCCTGACCATCTGTG -GTAAAGCCGGTAAAGGCCAGATAGGGTCTAACACTCCACAATCCGTCAACCCAACGGAACCCGCTCTCAACATGAGCACC -CGCGCCGTTACTATTGTAATCGCCAAACGCTGTTGCCCCATTACTCATCTTGCCATGGATGGTGTTGGCAAAACGGTCAA -CTTTCACCACCCCATCAACATAGGCACCGTTCTGATGCTCCCAACCGGCATAAGCCCCCAGGGTATAGCTATCGATATTA -CCTTTGCCGCCGCGATCAAAACCAATATCAGAATGAGAGTAACCAAAGATCAAGCCGCGAATTGTACTGCTTTCTTCACG -GGAGAAACGGCTATCGATACCGAGCGTCAGGCCCGTCAATGTTTGCTCAAAACCAGCTCCCGCATCAGTGGTCACGTTGT -TGCGGGTGTTAATTGCCGAACTCCACATCGCCGTATCGTAACTAACGCCTTTTACGCTACCAAGACGCTCACGCACGGTG -TCCAGTTCTGCATCAAATACCAGCGGTTGTGCGGCCGCCATATTCAGCACATCAGTGGTTGAAGGGGTAATTTGCGCGCG -ATTCTCTGCCAGACTCCAGCTATGGTTGCCATTATCCAGCAAGGTATATTCATACGTACCGATATCAACAACGCCTCCGG -CATTGCCCAACGTAAATGCAGCATCACCGCCGCCCGTTGTTACCAGTGTAAGGCTATCTCCTGCTGCCGGGCTGGCACCG -GTGTCCGTCACGAATATTTTGAAATCACCTGTTGCCTGACCGGTGACGTTGAGCTGATCGCTCTGATGATTAGCCATATC -GGTACGCATATAAAAATTGCCGTTTCCCGACAGGGTATTGGTGGTCAACGTAATGAAATTTTCCGCACTTGCCGTCACTG -ATGAACGAGTCACTGGCTCATCCATCATAATCACATTTGCGTCAGACATCGCAAGGTTGGCTAAGTTGAGGAGGGTGTTT -TGGTTCGTCGTAGTGATATCGGCAATGATGGTCCATACGCTATTTTCGAGCGAAACGTCCGCTTTGCTGGTATCCACGGC -ACCATGCGTTCTAAAAGAAGCGCCCTCAGAAACCACTACCTTACCCACCAACATTGCGGGTGCATAATTTATTTGCGGCT -TCATGACCTCAAGAATGCCATCATTCCCTCTGACTGAAACGTTAACCATTGTGCCAGCCCAGACGTTAGCGCGGCCATTG -TTGATAACCATATTTTCAGAGATGGCTTTTGAGGAATACGTGATACTTCCATTCTGATATGATCGACCGAGATCATATAC -CGCATTTGCCTGCACTTTCGTACCAGTATCCTTTCCCAGCGATTGCATAGTGGCATGCTTATCAAGGATAGTATCAATGG -CCTGCGTGTCCTCCATAACAATGAGCCCGGAACCATCATCCAGTTCATAATTTTTTGACACACCATCTTTTATACTAAAT -TGGCCTTTACTGTTTGGACCACTCACTTCCAGCGCATTCGTTGAGACAATTAATTTTCCGCCTGCTTTTTTATCAACGCC -AGTTACAGTCCCGCCATCCATAACCTCCAGTAAGCCGCCACTATCTACAGTGGTATTATAAGCGAAGTCATTTTCTTCAA -CTCGCAAACTTCCGCCGTTTTCCAACAACATATTATTAGCAATACCATTCTTGATATCGAACTGACCGAGACGGTTTGTT -CCGAATACCTCCATGGCCCGCGTGGTTGTTTTAATAGCACCGCCTGCTTTCTGATCTACCGCAAATGCAAATCCCCCCTC -TTTAACCTCCAGTAGTCCTCCCTTTTCGATAGCGACAAAGACGGCCCCCCCATCTTTTTCAACGATTAAGCGCCCGCCTT -TAATCGTGGTATCATTCGCTGCGCCATAAACCTGTAGCACACCATTATTGAGCGTAGTCTGGTTTGCCGCGCCACCCATT -TGAACAATTTGATAACCGTCATTTAATACTGAGTATTCTGCGGCGCCATTCATTTCAATGTACTGATACCCTCCGTTAAT -TTCAGTATTATTACTTACACCAAATTCTTTTATATGCTGTTCTCCGCCAGGATTGATTTTCGTATTATTGGCGGTCCCAT -AAACCAGCTGGATATCTTTTTCCAGGACAACACCATCAACTGTCTCACCATACTCAACAGTTGATGCCAATGCTATGGGT -GAATATAAGGAAGGTGCGAATAAGCGGGGAAATTCTTCTCGGCTGACTCAGTCATTTCATTTCTTCATGTTTGAGCCGAT -TTTTTCTCCCGTAAATGCCTTGAATCAGCCTATTTAGACCGTTTCTTCGCCATTTAAGGCGTTATCCCCAGTTTTTAGTG -AGATCTCTCCCACTGACGTATCATTTGGTCCGCCCGAAACAGGTTGGCCAGCGTGAATAACATCGCCAGTTGGTTATCGT -TTTTCAGCAACCCCTTGTATCTGGCTTTCACGAAGCCGAACTGTCGCTTGATGATGCGAAATGGGTGCTCCACCCTGGCC -CGGATGCTGGCTTTCATGTATTCGATGTTGATGGCCGTTTTGTTCTTGCGTGGATGCTGTTTCAAGGTTCTTACCTTGCC -GGGGCGCTCGGCGATCAGCCAGTCCACATCCACCTCGGCCAGCTCCTCGCGCTGTGGCGCCCCTTGGTAGCCGGCATCGG -CTGAGACAAATTGCTCCTCTCCATGCAGCAGATTACCCAGCTGATTGAGGTCATGCTCGTTGGCCGCGGTGGTGACCAGG -CTGTGGGTCAGGCCACTCTTGGCATCGACACCAATGTGGGCCTTCATGCCAAAGTGCCACTGATTGCCTTTCTTGGTCTG -ATGCATCTCCGGATCGCGTTGCTGCTCTTTGTTCTTGGTCGAGCTGGGTGCCTCAATGATGGTGGCATCGACCAAGGTGC -CTTGAGTCATCATGACGCCTGCTTCGGCCAGCCAGCGATTGATGGTCTTGAACAATTGGCGGGCCAGTTGATGCTGCTCC -AGCAGGTGGCGGAAATTCATGATGGTGGTGCGGTCCGGCAAGGCGCTATCCAGGGATAACCGGGCAAACAGACGCATGGA -GGCGATTTCGTACAGAGCATCTTCCATCGCGCCATCGCTCAGGTTGTACCAATGCTGCATGCAGTGAATGCGTAGCATGG -TTTCCAGCGGATAAGGTCGCCGGCCATTACCAGCCTTGGGGTAAAACGGCTCGATGACTTCCACCATGTTTTGCCATGGC -AGAATCTGCTCCATGCGGGACAAGAAAATCTCTTTTCTGGTCTGACGGCGCTTACTGCTGAATTCACTGTCGGCGAAGGT -AAGTTGATGACTCATGATGAACCCTGTTCTATGGCTCCAGATGACAAACATGATCTCATATCAGGGACTTGTTCGCACCT -TCCATAACGCTGTAGCCACCAGAACAGATATTGCGGAACGACAAAGAGAAACAGAACCAGATTGATGCATTGAGCTTTCA -TCCTATGAAATTAATTGCTGTTAAAAGCATTGGGTACAGAAAATACCCATAGCTCCATACCCGGAGTCAGTTTTTAAAAA -CTGTTTAAAGAAATGCACAAGTATTGTGATTGATTTTTTAGTTGTTTTTCTTGATGAGAAGCTGATGCAAAATTCCGTCT -TTATAATGAAAATGATGCCAAAGCGAACGACAAGGTTGTAGTTTTCACTACATGTCCATACATAAAATGGGGTAACATTC -ACGCGCCTGGTAGCGTTACCAACGCTACGCTCAAACATAATGATTCTAATAAAACCTCAGGAGACTACTATGCCTGAAGC -AACACCTTTTCAGGTGATGATTGTGGATGATCATCCACTTATGCGACGCGGTGTTCGTCAGTTACTGGAGCTTGATCCTG -GCTCTGAAGTGGTCGCCGAAGCGGGCGACGGCGCGAGCGCTATCGATCTGGCGAATAGACTGGATATCGACGTGATCTTG -CTGGATCTCAATATGAAAGGTATGAGTGGCCTGGATACTCTCAATGCCTTGCGCAGGGATGGCGTTACCGCGCAAATTAT -TATCCTGACCGTATCCGATGCCTCCAGCGATGTCTTTGCGCTGATAGACGCAGGCGCAGACGGTTATCTGTTGAAAGACA -GCGACCCGGAAGTATTGCTGGAAGCGATTCGTGCCGGAGCGAAAGGCAGCAAAGTCTTTAGCGAACGCGTCAATCAGTAC -TTACGTGAACGTGAAATGTTTGGCGCGGAAGAAGATCCCTTCAGCGTGCTGACGGAGCGCGAGCTGGATGTTCTGCACGA -GCTGGCACAGGGGCTGTCAAATAAACAGATTGCCTCGGTGTTGAATATTTCCGAGCAGACAGTAAAAGTACATATTCGCA -ATCTGCTGCGTAAACTCAATGTCCGCTCACGCGTGGCGGCCACCATTCTGTTCCTGCAACAACGCGGGGCACAATAAAAA -TAGCCCGATGGATTTATCATCGGGCTGAGATTTATGACAAACGCAAAACTGCCTGATGCGCTACGCTTATCAGGCCTACG -TGGATCGATCAATTTATTGAATTTACACAATTTTGTAGGCCGGATAAGGCGTTCACGCCGCATCCGGCATAAACTAAGCG -CACTTTGTCAACAGTCTAGCCCGATGGCATCACCATCGGGCCTCTTTTTATTTACTCTCCTGCGGCGACAAATGTTGCAT -CGCCTGCGCGATACTACGTTCAATCACCGCACGGCGAGTATCGTTGGCAGGTAAGAGTTTCAACATCATCTCCCACGCGG -CAACGGCTTCGCCAAATCGCTGCTGCTCAAAGGCATTAAACGCATACATGCTTAGCACACGGATATTGCTATGGTCCGTT -CTCACCAGCTGACGTAGCAGTTCACCGCCGAGGCGGTTGTCGTTGGGATCAGATGAACGAGTCAACGCTTCAGCGTATCC -CAGTGCAGCATCACTGTTTTTCGGATCGAGGCGATACGCAGTGGCGTATGCATCGGTGGCGATACTGGCGTTACCCAGCG -CCATGCCAACGCGGCCCAACATAATCCAGCCTTCTATATCTCCCGGATTTTTTTGCAGTTGAGTACGCATCCCCAGCGCA -AGACGCGACATCTCTTCTTCGTTGAGCGGATCGGCTTTCGGATCCAGCGCCCTGTCCAGCAACGCCGGAGCCTGTGCCGT -GGCCTGCTGCCAGATTTTCACCTGCTGATAATTGCCAGTCTGGTAGTAGCTGACGCCAGCCACAATTAACGCCACCACAA -TACCCGGCAGATAAACAACATATCCGGCACGCTTACCTTCCGGCACGCTTTGTTCAGGAAACGCTTCCGGCACCACGCGT -ACCCGACGCCGCGAGCGGGCGTATATGACCCAACCGCCAATGCCAATAGCCACTACTGGCAGCACCCACAGCAGCACGGT -CAGCGGCGTTAACGGCGGATCGTAAGTGACGAAGTTGCCGTAACGCGCCACCATATAATCGACAATCTCTTTTTTACTTT -TACCTTCCTGCATCAGTTCATACACTTTCTGACGCAGGTCGGTGGCAATCATCGAGTTGGAATCGGCAATGCTGTTGTTC -TGGCATTTCGGGCAGCGCAGTTCTTCAGTGAGCTGACGGAACTGTTGTTCCTGTGCTTCATCTTTAAACTGCAACACATC -GATGGTCGCCAGCGCTGAGCCGGAGATCATCAGCATCAGCACGCCCAATAAAAACCTCATTGTGCGGCCTCCTTACTGTA -TTTCTCCCACAGCGGCTTGATCTCTTCTTCCCAGACGCGAGGATTCAGATCGCCCGCATGGCGATAGCGAATGATGCCGT -TGCCGTCAATAAGAAACGTTTCTGGCGCGCCATAGACACCGAGATCCAGCCCTAACATGCCATCGCCATCAAACAGGCTT -AGCGCGTAAGGATTGCCCAGCTCTTTCAGCCAGCTGATTGCCTTCTGGCGATCGTCTTTATAGTTCATGCCGACCACGCG -GATGCCCTGCGCAGAAAGCTGATTCAGATATTGATGTTCCGCACGGCAGGTCGGACACCAGGTCGCCCAGACGTTAAGCA -GTACTGGTTTGCCCTGAGTCAGCACATCCGCCTGATAAAACTGCCCCGGATTGTCCAGTGATTCGAGACGAAACTTCGGC -ACAGGCTTGCCAATGAGCGCCGATTCCAGATTGGTCGGATCATCCCCTTCGGCATTACGCGCCAGCTGCCACAGCAGCGC -CGCGGCAATCGCCAGGAAGATAATCAACGGAATTAACAATACTTTGCGCTTCATACGGCCTCCGGCGCAGTTTTTTGCGG -ACTCACGCGCTTACGATAGCGAGGATCAAACAGACACAGCAGTCCGCCCAACGCCATCATCAGCCCGCCCGCCCAAATCC -AGCGAACAAATGGTTTGTAGTAAAGACGCACGGCCCACGCGCCGTTTTCCAGCTCTTCACCGAGGGCCGCGTACAGGTCA -CGCGTGATGCCGCCGTCAATTGCCGCTTCGGTCATCATCGACCCGGCAGTGTTGTAATAACGTTTTTCCGCATACAGCAC -CGTTTCCGGCTTGCCATCGCGCGTTACGCCGATAGTCGCCACACCGCCACGCCAGTTCGGGCCAGTCACCTCTTTGACAT -CACGGAAGGTGAAGCGATATTCATGAATATCGACGCTATCGCCGGACTTCATGCGCACATCACGCTCAACGCTATAGTTC -TGGCTAAAGGCAATGCCAACAATTGTCACTGCCAGCCCAAGGTGAGCCGCCACCATCCCCCAATAACTGAAGGTGGTTTT -CGTGCCGCGTGAAATACGTAGCGCAGCTTCCGCAATTGCCAGCACCGCAATCCAGCAGGCCATTGCCAGGCCGAGCACCG -TCATCGCCACAACTTTGCTTTCGAACAGCCACGGCAACAGCAGCGACAGCACCAGCGTAGAGATGAAGGCGATAATCAAT -AAATTGCGGATCTTACGCGGGCGATCCCGCCCCCAGCGCACCAGAGGACCGACACCAAGCAGTAGCGCAAACGGCACCAT -CAGCCAGGTAAACATGGTGTTGAAGAACGGTTCGCCAATCGAAATACTGCCCAGTCCCAGTTGCTTATGCACCAACGGCA -GCAGCGTCCCCAGCAACACCACCAGCATCGCAGCGACCAGCAAAACATTGTTCGCTAACAGCAAAGATTCCCGCGACCAC -AGCGCATTGTTTACGCGTGAGCGAACTTTGTGTCCACGCGCGGCAAACAGCAGCAGCGAACCGCCAATCACCAGCACCAT -AAAGGCGAGGATAAACATACCGCGCGCCGGATCAGACGCAAACGCGTGTACCGATACCAGCACGCCGGAACGCACGAGGA -AAGTCCCCAACAGACACAACGAGAAGGCACTGATTGCCAGCAGTAATGTCCACGCTTTGAAGCTGGCGCGTTGTTCAGTG -ACCGCCAGTGAGTGCATCAGCGCAGTCCCCACCAGCCACGGCATAAACGAGGCGTTTTCTACCGGATCCCAGAACCACCA -GCCACCCCAGCCGAGTTCGTAATAGGCCCATGCGGAACCGAGCACGATGCCGAGCGTCAGGAAGATCCACGCTGCCAGCG -TCCACGGACGAGTAAAACGCGCATAAGTGCTGTCCAGACGCCCGCTCAGCAAAGAAGCAATGGCAAAAGCAAACGCCACC -GAGAAACCCACGTACCCCATATAAAGCAGAGGCGGATGGAAGATCAGCCCCGGATCCTGCAATAGCGGGTTAAGATCGCG -ACCTTCAATCGGGAAGTTCGGCAACGTGCGAGAGAACGGGTTAGAGGTAAAGAGAATGAACAGCAAAAAGCCGACACTGA -CCATCCCCATTATCGCCAGTACACGGGCCACAATATCCAGCGGAATACGCTGACTAAAAATCGCCACCGCAAAGGTCCAG -CCGCTCATCAGCAGCACCCACAGCAGTAGCGAGCCTTCATGCGCGCCCCAGGTAGCCGCCACGCGATACCACACCGGAAG -CTGGGTATTGGAGTTGCTGGCAACATAGGTGACGGTGAAGTCGTTGACCACGAAAGCATTGACCAGCACCAGAAATGCGC -CAGCCACAGACATAAACAGCAGCCAGGCAAACAAGCGGGAAGACGCCATCATGCGCGCATCTCCGCGCGCCACGCCCCAT -AGCGGATACACGGACAGCAGCAGCGCAATTCCCAGCGCCAGGCACAGCAGTCCGTTACCAATTTCTGGCATCATGATGCT -GGGTCCTTATAAACACTCGCCGGGCGACGGTGGTTAGCTTCCATCGCTTTCTCAACTTCTGGCGGCGTATAGTTTTCATC -GTGTTTCGCCAGCACTTCTTTCGCGAGGATATGATTGCCTTTTTCCAGTTCGCCCTGCACCACAACGCCCTGCCCTTCAC -GGAACAGATCCGGCAAAATGCCTTCGTAAGAGACATCCACTGAGCCTTCAGCATCGTAAATGGTGAAGGTCACTTTCAGC -GAATTGGGATCGCGCTGCACACTACCCGGCATCACCATCCCGCCAACGCGCAGACGCTGACCGACTTCCGGCATTTGCTG -AGTTTCACGCTTGCCGTAGAGAATTTCCCCCGGCGTATAAAAGAGATCGATATTCGAGCGCAGCGCATATAGCACCAGAC -CGATAGTCAGCGCCAGCCCTGCCAACACGGCACAGGCAATCCACAAGCGGTTTTTACGGCGAATATTCATGCAGCCTCCT -GCTGTTGCGCAGCACGTAAACGCGCCTCACGCGCCCGCTGTTGCGCCACGCCACGCAGAATTGCGCGATGTTGCATCACC -GAGTGCACGACCAAAACCACCAGCGGAATAACGGTCATCACCACCGCCAGCCAGACAAAAAAGGCGTAACCGCCCATTGC -GAAAAATTCATTCCAGGAAGCAAATGCAGGGGTCATTTACGGCCTCTTTTCAGTATCAGTTCACTCACCCACGGACGGCG -TTTTTCCATCAGCAAAATCAAATTACGCATCCGCATCAGCGTCAGCGTGGCAGACAGGAGCAGGAAGCCAAAAATCGACC -AGCGCAGCGGCGAACGCATCGCCGGATCGATACTTTGCTGCATCCGCGTTGATCCCTGATGCAGGGTGTTCCACCACTCC -ACGGAGTAATGAATAATCGGCAGATTCACCACGCCAATCAGCACCAGGATACCTGCCGCACGGCCCGCCAGACGGCGGTC -GTCGAAGGCGTGCCACAGGGCAATCACACCCACATACAAAAACAGCAGCACCAGTTCAGAAGTCAGACGTGCATCCCATA -CCCACCAGGTGCCCCACATCGGTTTTCCCCATGCAGAGCCGGTAACCAGGGCAATAAAGGTAAACACGGCACCAATGGGG -GCCATCGCCGCCACCGCCAGGTTGGCCATTTTCATCTGCCAGACAAGGCCAATAAACGCTGCCACTGCCATTGATGCATA -AATGCCCATCGACCAGATCGCCGCAGGCACATGCAGGTAGATAATGCGGTAGCTATTTCCCTGCTGATAATCAGCCGGAG -CAAAGCCGAATCCCCAGATCCAGCCGACGGTAAGCACGACCACACTGGCAATTGCCAGCCACGGTATAAACCAGCCACAG -ATTTGATACAGCCGTGGTGGGATCGCCAGTTGATGCAGTGTTTTCCACATAGTTTCGATACCAGACTCGAACAAAAATCA -GTAATCCAGCGTTATTGAATGCTGATTCGTAACGCTGCCGCCGTCGCAAAAGGACTTAATGTCGCGGTGCCTGCCAGCAA -CGCGCCTAAAATTGCCAGATACCCGTCAACGGGCAAATGCATAGAAGCCGCGTCCATCGCGGCGGTGGCAAAGATGAGTA -ATGGGATAGTCAGCGGTAACACCAGTATGCTGAGCAGCACACCACCGCGCTTAAGTCCCACTGTCAGCGCCACGCCCGGT -GCACCGAGAAAGCCAAGCGTAGGCGTTCCCAGCAGCAGCGTCAGCGCCATCACTTGCCAGCCATAAACATCCATTCCCAG -TAGCATTGCTACCAGTGGCGAAAGGATGAGTAACGGCAGACCGGTTACCATCCAGTGCGCCATCACCTTCGCCAGCACAA -CGGCGGGCAAGGGTAACGGCAACAACATCAATTGTTCAAGACTGCCGTCCTGCAAATCGTCACGGAACAGTCGTTCCAGC -GCCAGCAAGGATGAAAGCAGCGCAGCAACCCAGATAATGCCCGGTGCAATACGCGCCAGCAGTTGCGGCTCCGGACCGAT -ACTGAGCGGAAAAAGGGTAATTACAATCAGGAAGAACCACAGCGGGTTGGCGATTTCGGCGCTATGGCGAAACGCTACAC -GCAGCTCAAGACGGAAAATGCGCCAGAACATCATGCGGCCCTCGTTTGCGTCAGTGAAATGCGGCGAATTTTACTTTCAG -CAACGTTGAGCGGCTGGTGGGTAGTCAGAATCACAATCCCCCCCTGCTCCGTATGCTGCGCCATACGCTGGGTCAGACGA -TCGACACCGTTAACGTCAATCGCGGTAAAAGGCTCGTCGAGGATCCATAACGTGGCACGGGTCAGCCACAGACGCGCTAA -AGCGACGCGGCGTTGTTGCCCGGCCGAGAGCTGATTTACAGGAATATCTTCGAATCCGGCAAGCCCGGCCTGCGCCAGGG -CTTCCAGACATTGTGCGGTATCGCCATCGCGATGATAAAAGTGCAGATTTTCTAACGCCGTCAGCCGGGTTTTGATCCCC -GGCTGATGGCCTATCCATAACAGGTTTTGATGGTAGCTGTCGCGTACCTGATGCAAGGGCTGCCCTTGCCAGAGAACCTC -GCCTGCGTCAGGGCGAGACAACCCCGTCAGCAAACGGAGAAGCGTTGTCTTCCCCGCGCCGTTGCTACCGGTGATTTGTA -CCCACTCTCCTGCGTTCAGCGTAAATGACAAGCCACTAAATAAGGTTCGTTCATCCCGCTCACAAAGTAACTCTCTGGCT -TCAAGCATACCCACGCAATAACCCTGTTAAAAACCTGGCTCGACTTCACGCATATCGGGCAGCTTGTGCGCTATCCCTTT -ATGGCAATCAATACAGGTTTGCCCATCTTTCACCGCCTGGTCATGCATCTTCGCGGCAACCGATTTCTGGGCGGTTGTAT -CCATATACTCGAAGTTGTGACAGTTACGGCACTCCTGCGAGTTATTGTCCTTCATGCGCCGCCACTCATTCTGTGCCATC -GTCAGACGATGAGCTTCAAATTTCTGCGGCGTGTCAATAACGCCAAAAATTTTACCATACAGCTCTTTACTTGCTTTGAG -CTTGCGTATCATCTTCGGCACAAACTCGTGCGGAACGTGACAATCCGGACAGGTCGCACGGACGCCGCTACGGTTGTTGT -AGTGCACGGAATCCATGTATTCCTGATACACCGTGTTGCGCATTTCGTGGCAGCTAATGCAGAACTCTTCGGTATTGGCT -TTTTCCATCCCGGTGTTAAAGCCACCCCAGAAGACGATGCCGCCAACAAAACCGATCAACAGCAGCGTCCCCAGCGCCAG -ACGGCTGGGGGTACGCCACCATTTCCACAGGCGCTTAATCAGACCAGGCTTACGGTCAGAATTTCCCATAATAACCTCTT -ATTTCCCGTAACCTTTTGATGGGGTAAAGGTATTCCCCACGATTGGCGCGGTATCGGCCTGCGGTACGTGACATTGCAGA -CAGAAATAACGACGCGGAGCCACTTCCGCGCCCACTTTGCCGTCGCTGTCCATAAAGTGAGTAGGACTGATACGCGGCGC -GCCAGTGGTGCGATAGCTTTCGACACCGTGGCACTGCAAGCAGCGATTGGTATTGGTCGTTACCTGATAACCTTCAACGC -TATGCGGGATCATTGGCGGCTGATTCACATAGTTCAGCGGCATCCGATCCTGCTCTTTTGGCATCCGAATGGCCCCTTCC -TGTGTCCCGGATACTTCCGGCGACTGGCTAAAATCGACGCCATTAGCCGCCCAAACCGCGCCGCTTACCACCAGGGCCAG -CATCGCCGTCCATTGACACAGCGCTTTCTTCAGGTCATGGCTTTTCATGATTTCGCTCCCGAACTCCATCGTGTAGTTAT -TGTAAATACATCCTCAGAACAGACATCCACGCAGCGACCGCACGTCATGCAATCGCGGCTGGTGACCTGCACCGGGCTTT -GTTCATCCAGCACCGGGGCACGTAGCACATGCGGTTCCGGGCAAACATGAAAACAATCCATACAGCGGTTACATTTCTGC -CGATCGGTGGCCGCAACGGTAATCACACCTTTGCTACCCAGCACGCCATACAGCGCGCCAACCGGACAAATGTGCCCGCA -CCAGCCGTGTTCAACGACCAGTAGATCAAATAAAAACAGCGCGAGAATAAGCAGCGCGCCGCTGCCGAAGCCCATTACCA -GGCTACGCCCCATCAGAGAAACGGGGTTGATCCATTCCCAAATGAGCGTGCCAGTTAAGGCTGATCCCACCAGAATGACC -ACCAACAGCACGTAGCGAATGTGGCGAGGGATCGTCGCAGACTGATTGAGGTCAAAGCGCCTGCGTAACCAGTTCGCTAA -GTCGGTAATCGGGTTCAGCGGGCAGACCCAGCTGCAAAATAATCGCTTTCCCGCCAGGGCGTAGAGCACGGTGATAATCA -CCGCACCGGTCAACGCCACCGTGGCAGGCAGATGACCACTGGCAAGACTTTGCAGCGTCATCAGCGGATCGGTCAGCGGA -ACGGTGTCGAATAACAGGCTACTGCTGTAGTTGCCGTGCAAGATCCACACACCAAACCATGGACCGCTCAAAAACATCCC -CAGCACGAAGAACTGACAAAGGCGACGTAACACCAGCCAACGGTGACTGCGCCACCAGCCTTTTTTCTCCAGCGCCTCGC -GCCCGGCGTCACGTTTACGATTTGCCATTGTTCCCCTCCAGCCAGCCGAAGCGGTAATGGTGACCTAACTCCCCTTTCGC -CAGTGACAGCGGTAACACCTTGATTGCCGGTTGTTCCAGCACGCATACTTTTTCGCACTTACCGCAACCGGTACAGGCGT -CGCTGTGAACCGTCGGCAGAAAGCGGGCGTGCTTACCGGTACGCGTGTTGCGCTCCAGCTCCAGGGTGATGGCCTCATCA -ATTTTCGGGCATTCGCGATAACAAACATCGCAGCGCAGCCCCTGAAAGTTGAGACAGTTTTCCTGGTCCACCAGTACCGC -CAGCCCCATCCGCGCGTCGTCGATCGATTCAATCTCACGATCCAGCGCACCGCTTGGGCACACTTTGGCGCACGGAATGT -CCTCACACATTTCGCAAGGAATATCCCGTGCGACAAAATATGGCGTGCCCGCCGACAGACCAGAGGCCAGCGTCGCCAGT -TTTAAGGTGTCGTAAGGGCAAGCCTGAACACACTGACCGCAACGCACACAGGCACTGGCAAAGGCGTTCTCGTTTATGGC -TCCGGGCGGGCGCAACCGCACGCCAGATGCGCGTGCGGTTTGCTGTTGTAACCCCAGCGCCACACCCACGGCAGCCAGCC -CGCCTGCTGTGCGAACGACATCGCGCAGAAAGCGGCGGCGACCATTTTGAGGTTTCGCTGACCGGGACATAATGGCTTAC -ACCTTCTCCAGTTTGACCGCGCACTTCTTGAAGTCCGTCTCTTTCGAGAGCGGATCGGTCGCATCCAGCGTCAGTTTGTT -AACCAACTGTGCGGCGTCGAAGAACGGCATGTACACCAGGCCCTGTGGCGGACGGTTACGACCGCGCGTTTCAACAATCG -AGATCACTTCGCCACGGCGAGAAACCACTTTCACTTTGTCGCCACGGCGCAGATCGCGCGCTTTCGCATCCAGCGGGTGA -ATAAACAGGACCGCTTCCGGGAAGGCGCGGTGCAGTTCTGGTACACGGCGAGTCATACTGCCGGTGTGCCAGTGCTCCAG -AACGCGTCCGGTAGAGAGCCACAGGTCGTACTCTTCATCCGGTGCTTCCGCCGCCGGTTCGAATGGCAGTGCGAAGATCA -CCGCTTTGCCATCCGGTTTACCGTAGAACTTATAGCCTTCGCCCGCTTTCACGTACGGGTCGTTACCTTCGCTGTAACGC -CACTGCGTTTCTTTACCGTTCACCACCGGCCAGCGCAGACCGCGCGCTTTGTGGTAGTCATCGAACGGTGCCAGATCGTG -ACCGTGACCGCGACCAAACCATGCGTACTCTTCGAACAGCCCTTTTTGCAGATAGAAGCCCAGCTCGCGGGATTCATCGT -TCAGCTGATCTTCCGCCAGTTCGGATACCGGGAATTTGCTCACTTCCGGTGTGGCATACAGCACTTCGTACAGCGTTTTG -CCACGCAGTTCCGGTTTCTTCGCCAGCAGATCTTCCGGCCATACTTCTTCAGTTTTGAAGCGGCGGGAGAACTGGACTAA -CTGCCAGAGATCCGATTTCGCTTCGCCCGGTGCCTGTACCTGTTGACGCCAGAACTGAGTACGGCGTTCGGCGTTACCGT -AAGCGCCCTCTTTCTCTACCCACATTGCGGTCGGCAGGATCAAGTCGGCGGCCAGCGCACTGACTGTCGGATACGGATCG -GAGACGATGATGAAGTTGCGCGGATCGCGCCAGCCCGGCATACGCTCTTCATTGATGTTCGGCCCGGCCTGCATGTTGTT -GGTACACATGGTCCAGTAAACATTCAGTTTGCCGTCTTTCAGCGCACGGTCTTGTGCCACCGCGTGCAGACCGATTTTCG -CCGGAATGGTGCCGCTCGGGATATTCCACTTCTTCTCGCAGATATCACGGTGTTTCTCGTTGGTCACCACCATGTCCGCA -GGCAGACGGTGAGCAAAGGTGCCCACTTCACGCGCAGTACCACACGCAGAAGGTTGCCCGGTCAGGGAGAACGGACCGCA -ACCCGGCTGGGAAATTTTGCCGGTCAGCAGGTGCAGGTTGTAGACCAGGTTGTTAGCCCACACGCCACGAGTATGCTGGT -TGAAGCCCATCGTCCAGTAGGAGATGACTTTCTTGTTCGGATCGGCATACAGCTGCGCCAGTTGTTCTAACTGGTCTTTC -GGCACGCCGGTCATTTCGGCAGTTTTTTCCAGCGTATACTCGGCAACGAAGGCTTTGTAATCTTCAAAGCTCATCGGTTC -GGAGGCGTCAGAACCCGGATTCTTCGCTGCTTTTTCCAGCGGATGGGTCGGACGTAAACCGTAGCCGATGTCCGTCGCCC -CTTTGCGCAGGTTAACGTGCTTGCTGAAGAAGTCCTGATTTATCGCATTGTTTTGAATGATATAGTTGGCGATGTAGTTC -AGGATCACCAGGTCAGATTGCGGCGTAAAGATGATGCCGTTATCCGCCAGCTCGAAGCTACGATGCTGGTAGGTAGAAAG -CACCGCCACGGTGACGTTCTGGTTAGAGAGACGACGGTTAGTGATGCGCGACCAGAGGATCGGGTGCATTTCCGCCATGT -TTGCGCCCCACAGCACAAACGCGTCAGCCTGCTCGATGTCGTCATAGCAGCCCATCGGCTCATCCATACCAAAGGTACGC -ATAAAGCCAACTACTGCCGACGCCATACAGTGACGCGCGTTCGGGTCGATGTTGTTCGAACGGAAGCCCGCTTTAAACAG -CTTGGACGCGGCATAACCTTCCCAGATAGTCCACTGACCAGAACCGAACATACCGATCGATTCCGGCCCTTTTTCTTTCA -GGGCGGTTTTGAATTTCTCTTCCATCACATCGAAGGCCTGATCCCAGGTGATTGGGGTAAATTCGCCTTCTTTGTCATAT -TTACCGTTTTTCATACGCAGCAGCGGCTGCGTCAAACGGTCTTTACCGTACATGATTTTGGGCAGGAAATAGCCCTTAAT -GCAGTTCAGGCCACGGTTAACCGGTGCGTCCGGGTCGCCCTGACAGGCCACCACACGTCCCTGCTGCGTTCCGACCAGAA -CGCCGCAACCAGTACCGCAGAAACGGCACGGCGCTTTATCCCATTTGATGGCTTCCTGCTGACCAACAACGGCGCGGGCA -ACGCCCGGCACGCTGAGACCGGCAGCCGCCGCAGCGGCCGCAACGGCGTTAGCTTTCATAAAGCTACGACGACTGAGTTT -CATGGTGTTTCCTCACCTTGCTCTTCCTGCTGGTGATAAACCAGCGACACCGCCAGCACGCCCTCTACGTTGCGTACTGA -CTCAATGGTTTGGATCAGCGTTTCGCTGTCTTCTGCTTCCACCACCACAATCAACTGACCGCTCGGCGCGTCGCTGACAG -CAACTTCACAGCCGGGAAAGGCGTTCAGTTGGGTGCTGATGTCTGAAATTCGTTCGCTTTTGGCCTGCACGACCAGGCTG -CAAACTTGCCAGTTAGTGTGCATGGAGATACTCCGCAGTTATGGCTGATACCGGACAGCTGGCTGCACATGCTCCACATC -CGTTGCAAAGTTGGCTATTAAGTTGCGGCTGGTAGATCCCGGAGAGCGTCGGGCGAAAGATAATTGCCATTGGCTCACAG -CTATCCTGACAGCGGCGGCATTCAACTGACTGATACGCCAGGCACGCGTCCCCGATGGTGAACTGCAAATCCCAGGCCCT -GGTGTGGCGCGGAGAAAATAGCGATTCGGGGCAAGCCTGCGCGCAGGCGTAACAGAAGCTGCACTCGTTATTTTTGAAAT -TAACGCTCGGATAGCCGCCCGCGCCGCGTTGCAGAATGTTGTTTTCACAAGCATTAATACAGGCGTCGCAGCGGGTGCAA -TGGGTCAGAAAATGAGATTCATCACCGGACCAGGGCGGACGGATACCGTTACTGGCTTTGCGCCAGCGACCAGTGAGTAT -GCCCCGACGGGATGCATCAATCTTCACATTGACCTTCCATCATTAACGCGCTCTGAAAATTGAGAGCGACCAAATAAACC -GCATAATTAATAAGCCATTTTTATAGCCGCTAAGATATTAAAGGATGTGTCAAAGATGCATACCCCGATCGGGGTAAAAC -CTGTAGCAGGATCAAAAGAGTGGCGGGAAGCGTGGCAAAAACGGGCTTTTGCTCACATTTCAAATGGTTATAAATATATT -TATATAGCGATTGATTCACCAGAGATATTTCTGCTGGTTTGCTCTCTCATTAGAATTTAACACTAAAAGAGCAGGTAAAA -TTGTCTGAATGTTCTTTAAGTTATTCATAAAGCAAATTAATAAATCTGATGAATATGTTAACCTTCAGCGACATCATCGG -TGAAAACCTATAAATGAAGAAGGAAAGCAAAAAAATGAAGACCATTCTACCTGCAGTATTGTTTGCCGCTTTCGCTACCA -CTTCCGCCTGGGCGGCAGAAAGCGTCCAGCCACTGGAAAAAATCGCGCCTTATCCACAAGCTGAAAAAGGGATGAAGCGT -CAGGTGATTCAGTTAACCCCGCAAGAAGATGAATCTACCCTGAAAGTAGAACTGTTAATCGGTCAGACGCTGGAAGTCGA -TTGCAATTTGCATCGTCTCGGCGGGAAGCTGGAAAACAAAACGCTGGAAGGCTGGGGCTATGATTATTATGTCTTTGATA -AAGTCAGTTCCCCGGTTTCAACGATGATGGCCTGCCCGGATGGCAAGAAAGAGAAGAAATTTGTCACCGCGTATCTGGGC -GATGCTGGAATGCTGCGTTACAACAGCAAGCTGCCGATCGTGGTGTATACGCCAGACAATGTAGATGTGAAGTACCGCGT -CTGGAAGGCGGAAGAGAAAATTGACAACGCGGTAGTTCGCTAAACTGCCGTGAAGTGCGGCACCCCGTAGGTCAGACAAG -GCGGTCACGCCGCATCCGACATCCAACGCCCGAGCCGGTTGCCTGATGCGACGCTGGCGCGTCTTATCAGGCCTACACCG -CTGTGAAGTGCGGCACCCCGTAGGTCAGACAAGGCGGTCACGCCGCATCCGACATCCAACGCCCGAGCCGGTTGCCTGAT -GCGACGCTGGCGCGTCTTATCAGGCCTACACCGCTGTGAAGTGCTCCACCCCGTAGGTCGGATAAGGCGGTTACGCCGCA -TCCGACATCTAACGCCCAAGCCGGTTGCCTGATGCGACGCTGGCGCGTCTTATCAGGCCTACACCGCTGTGAAGTGCTCC -ACCCCGTAGGTTGGATAAGGCGGTTACGCCGCATCCGACATCCAACGTCCGAGCCGGTTGCCTGATGCGACGCTGGCGCG -TCTTATCAGGCCTACACCGCTGTGAAGTGCTCCACCCCGTAGGTCGGATAAGGCGGTTACGCCGCATCCGACATCTAACG -CCCAAGCCGGTTGCCTGATGCGACGCTGGCGCGTCTTATCAGGCCTACACCGCTGTGAAGTGCTCCACCCCGTAGGTTGG -ATAAGGCGGTTACGCCGCATCCAACATCTAACGCCCGAGCCGGTTGCCTGATGCGACGCTGGCGCGTCTTATCAGCATAC -GCCACATCCGGCATACCATGCCGGATGTGGCGTATCATTACAACGCAATATCCGCCACTTCTTTTTGAACGGGTTGCGGT -TTCAACTGCGGTTTCGGCGTACTATCTGCTGCCTGCGGCTTGTCGTAGTTCAACCCCAGCACTTCGCTGGTGTACTGCAA -CTCGCGTTCTGTTGCCGCTACATCACCGTTCAGCTTGCGTCCATAAGACGGAACGATCGCTTTCAACGTAGCCTGCCATT -GCGGGCTGGAAACACGATCGCCAAATACTTTTTCCAGCAGATTCAACATAATCGGCGCGGCGGTTGACGCCCCTGGCGAT -GCCCCCAGGAGCGCGGCAATGGTTCCTTGCTGGTCACTGACGACTTCAGTACCCAGACGCAGTACGCCACCTTTCTCGGC -ATCACGCTTGATAATCTGCACGCGCTGCCCCGCTTGCCACAAACGCCAGTCCTCTTTTTTCGCCTGCGGATAGTACTCTT -TCAACGCTTCAAAACGATCCTCTTCACTCAACATCACCTGACTCACCAGATATTTCACCAGATCGAAATTATCCAGCCCG -ACGTGCATCATCGGCATCACGTTAGAGGTGGTGGTGGAACTCATTAGATCCCACAATGAACCGTTTTTGAGGAATTTGGT -TGAGAAGGTGGCAAATGGCCCAAACAGCACTACGCGTTTACCGTCCAGAACGCGGGTATCGATATGCGGAACCGACATCG -GTGGTGCGCCAACGGATGCTTTACCGTAAACCTTCGCCAGATGGTGATTAACCACGTCCGGGTTTTCCGAAACAAGGAAC -TGTCCGCCCACCGGGAAACCGGCGTAGTCTTTCGCTTCCGGAATCCCCGATTCCTGTAACAGCTTCAGCGCCGCACCGCC -CGCGCCGATAAAGACAAATTTGGCACGAATGTTCTGTGCAGTGCCATTTTTCAGATCGGCAACGGTAACGGTCCAGGTGT -TATCGTCATTACGCTTTAGGGCGCGGACTTCGCTGCTGAGTTGCAGCGAGAAGTTAGATTTCTTCTGCAAGGAAGCAATT -AACTGGCGGGTGATCTCGCCGTAGTTCACATCGGTACCAATTTCCGTACGCGTGGCTGCCACTTTCTGTTGCGGATCGCG -CCCTTCCATCACTAACGGTGCCCACTCTTTGATCTGCGCGTGATCTTCAGAGTAACGCATACCGCGAAACAGCGAGCTTT -GTTGCAACGCGGCGTAACGGGCGCGCAGGAAATTGACGTTATCCTCGCCCCAGACAAAGCTCATATGCGGAACGGTATTG -ATAAATGAACGCGGAGTACGCAGCACGCCGCGCTCAACCTGGTGCGCCCAGAACTGGCGGGAAATCTGAAATGCTTCGTT -AATGGCGACTGCTTTTTCAATACTGATGCTGCCATCGGCGTTTTGCGGGGTGTAGTTCAGTTCCATCAGTGCAGAATGCC -CGGTTCCGGCGTTATTCCAGCCGTTCGAACTCTCCTGCGCGACACCCTCCAGGCGCTCCACCATGGTCATCGACCATTCA -GGCTCCAGCTCGCGTAAATAGGTCCCCAACGTGGCGCTCATAATGCCGCCGCCAATCAACAGTACATCAGTTTCCTGCTC -CTCGGACGCTTTCGCTTTTGCCGCCATCGAAACGGCATTAAGCCCCACGGCCATCGAGAAGAGCATGGCAGTCACTTTTT -TCATCTTGTTAATGCCTTACTTTTAGTCGCTTTATTGCAGGTGAGATTTGCGCGGCATCAACGGTAACACTTAAGTAACA -ACATTTAAATAATGTTTATAAATTATATTCTAATTTTAGAAACATTATAATTTCGTTGATTAATTATAGGGTTATTAGAA -ATGAAGGGATTTTTAGCATATTGACCTGACGGCAGCAGTCCGCCAGGTCAGCGTCGTAATATTATGCCGTCCGGGCAACG -GCATCACGCGAAGCGGCATCGCGCTCTTCGCCCGTCAGCTCGCTAAGTTGCCCATTGCGCATTTCCAGCAGGCGGTCGGC -GTGGATAAAGTAATGATCATCATGACTGATAGCGAAAATAGTTTTACCCATCTCCTGCATCAGCGGCAGCAACACCTGAT -AAAACTCACGACGGAAGTGTGGATCCTGATCCGCCGCCCATTCATCCAGCAGGATAATATCGCGTTCTTCTGCCAGCGCC -AGCAACAGCGCCACGCGTTTTTTCTGCCCTTTTGATAACTTCAGGTTAACAATACGCCCGTTGCTTAACTCAAGCTTATG -AGCCATTTTCAGCTGCGCCAGCCACTTCTCAACCAGTTGCGGGTTAGCGGGTTTACCCTCCGGCCCCAGCAGTTGATCAA -ACAGCCAGACATCGGTAAACACTGCCGAAAACAGTTTGCGATAATCTTCCGGTTGTTCGCCGCTGACAGGTTTGCCATCC -AGCAAGATTTCGCCGCTTTGTGGCTGATACAAGCCCGTCAACAACATCGCCAGCGTCGATTTTCCGCTACCGTTGCCGCC -AATCAGAAACAGCAGCTCGCCACGTTTGATGGTGAGATTAATCGGACCAACGGAAAACGCGTTATCCTGATAAGCAAACG -TCACGTTACGCAGCTCCAGCGTTTGCCAGTTGGGAAACGCCTGCGGGCGCGGAAACTCTGCTTTGAAAGGCGCGAGCGCG -AATTTGTTCAGCTTGTTAAACGCCACCTGCGCCGTCAGCAGCGTCGGCAATGCGCCAACCGCCGAAAGCAGCGGCGTACG -CAGGAATAAAAGCGTCAACGAATAGGTCGCGGCAACGTTGGTATCAGCCCAACCGAGGCTGTTCGCCATCCAGAACACCA -GGCCGATTGCGCCCAGCATCATGATGTTTGACCAGTTCACGGCACTAAGATGGAAGGTGTCTGCGCGAATAATATGGTGG -CGATACTCTTGCGCATCAGGAATGTAGAGGTTGTTAAACACATACTCGGCGCGTTCCCGGTTCAGAGTCAGCTCTTTGCG -CCCTTCAAGTACAGTTTGAAAATCCGTGTACAGCTTGTCTTCGGTTTCACGCAGGGTCGCCATATGTTTGTACACCCGCG -CCACCAGCACAAAACCGCCCCAGATGGTGATCGCCATCCAGATAGCCGTTACCAGCAACATTTTGCCCGACAGCATCCAC -AGATACGCCGCTGAACCGATAGTGAGAATGATCCCCTGCACCAGTTCCGGCAGACGCACAAAAGCAATGGTGATATTGCG -CACATCGCTGGTTAACCCCGCCAGCAACGAGGCGCTACCGAGTTGTTCAATGCGCTCGACGTGAGTATCCAGAATCCGCT -TGATAAATTCACTACGCAGTCGGTAAACGAAGTGATGCCCCAAAGTGGTGAGCGCCAGTTGCGATCCGAGAGTGACTGCC -ATCAACAGCAGCAATAATCCCAGAAACTCCGGCAACACCAGCAGACTGGTATCCGCCGTTTCGATAAGGCGCTGATTGAT -AAAAGCAATTAAGCCAATGCCTAATGCCGCACTGGCGAGGCTTAGCGCCATCACACTGATAAATGGCCAGCGATACTGCC -GCCAGACAAGTACAAGAAGTTCCATGCAGAAAACCCGGACAATGAATTACAGCCCGCAGTTTAAACATCTTCGCGCGCAC -AGCAATAATAATTCTTATTTTTATTCTTTTTTACCTGCCTGACGGAATGTCAGGTTGTAGCGGCAGTCGATGGTGAGTGG -ATGAAACCCCGCTTTCAACGGTTGAATACCGTGATAAAACAGCCGCGATTCACCGCCCCATACCACCACATCGCCATGTT -CCAACAACAAACGTTTGAGCGGATCATTTCGTTTCAGGCCGCCAAATTGAAAAATCGCGGGTAAGCCCAGAGAAACAGAA -ACAATTGGCGCGCGCAGATCCGGTTCGTCTTTATCCTGATGCAGCGACAGTTTCGCGCCAGGAGCGTAGCGGTTGATAAG -ACAAGCATCTGGCTGGAAATCTGGATAGCCCGCCGCCGTAGCCGCACGTTGACATAAATTATGAAAACTCTGTGGCATGG -CGGGCCACGGTTTATTTGTTTGCGGATCAATGGGCGAATAGAGATAACCTTGCCGATGGGTCGTCCAGCCCAGATGCCCA -CAGTTGGTCATCGCCACCGACATGGTATATCCCCCGGGGGTGACCATCTGGCGAAACGGCGACTGGCTGGCAACGTCATT -AATATCGCGGATCAGTTGCTCCGCAGCGTTAAAAGCAAAACGCCGTAAAATTACCGCACCAGCCGCCAGTGGCTCTTGCC -ACGGTTCAGCATCGGCAAACAGATCCAACATTACCTCTCCTCATTTTCAGCTTCGCGGCGCAGCAGTTGCGCTTTACGCG -ACACGCCCCAGCGGTAACCGGAAAGTGTGCCATCACCACGGACCACCCGATGACAGGGTATTATGATAGCCAGCTTGTTG -GCGGCACAGGCGCTGGCAACGGCCCGTACCGCTTTCGGTTTGCCGATGGCGTTAGCCAGTTGCTGATAACTGACGGTTTC -ACCGCAAGGTATCGTGCGCAGTGCCTGCCAGACTTGTTGCTGAAAAGCAGTGCCGCGAATGTCCAGCGGTAACGTCAGCG -GCGTATCGCGTTGATTGAGGCTGGCGATCACTTCACGCACATGTTGCTGAAACATCAGATCGGCAGGCGCGTTGTCGGCA -GCGGGAAACATCTGCTGCAACTCGCTGATTAGTGTCGCGTCATCATCGCCCAGCAATATCGCGCAAATCCCCCGCTCGCT -TTCTGCCACCAGGCAACGACCCAGCTCACAATCAGCCAGCGCGTAACGCACCGCCAGATTTTCGCCACCGTGACGGAATT -GTTTAGCCGTCATGCCCAGCGTTTCGTCAGCTTTGCGATAGTAACTGCTGCTGTCGGGGAATCCGGCGTTAAGAATAGAC -GTCGTCACGCTCTCCCCTTTCGCCAGCGATTCGCGCAAACGGCGAGCGCGCCAGGCCTGTTGCCAGGCTTTAGGCGTCAT -TCCGGTAGTCGCTTTAAACAACCGATGTAGATGAAATGGACTCATCGCCACCTGGTCGGCTAAGGCTTCCAGCGTTACAG -GCGTTTCCTGTTCCAGCAGTCGACACGCGTGGGTGATTTTATCCAACCGATGTTGCTGGGCATTGGCTTTTTCTGGCTGA -CAACGTTTGCAGGGGCGAAAGCCAGCGGCGAGTGCCTCGCTGGCATTTGCGTAGAAGGAGACGTTTTCCCGCAAAGCATG -TCTGGCGCGGCAAGACGGACGGCAAAAGATGCCTGTGGTACGCACGGCGAAAACGAATTCGCCGTCGGCATTCGGGTCGC -GGGCTAAGACAGATTGCCAGCGTTGATCGTCAGTTAAGCATGTGGCTTTTTTCATAATCAGCTCCCTGGTTAAGGATAGC -CTTTAGGCTGCCCGGTCACCATCACGCAAAAACCAACAATCTTGCGCTTTAATTTTTTTCGCTGACAAGGAAGCTTTTAA -ACTGTGGTGACATCCAGGTTTTAAAGCTATCGCCTTCTTTGGTGATCATATAAACCGCCAGCCCTTCCCGGCGAACAACC -TCTTTAGCTTTCTCCGGCCCGAGTACCATCAAGCCAGTATCCCAGGCATCGGCTTCCAGCGCCGTCGGAGCAATCACCGT -CACGGATACCAGATTGTGTTCGATGGGACGCCCGGTTTGCGGATCGATAACATGGGAAAGACGTTTGCCGTCCAGTTCGT -AATAGTTACGGTAGCTGCCAGAGGTGCTAATCCCATGACCGTTGATATCCACCACAGCCTGAACCGCGTTTTCTTTATCG -GTTGGTTTTTGAATCGCTACCCGCCACGGCAGGCCTTCACCGTTCATACCACGGCTGTTCAGCGCGCCGCCCACCGACAC -CAGATAGCGGGAAATCCCTTCCTGCTCCATCAAGCGTGCCAAATGATCGGCCGCATAGCCTTCGCCGACGGTGGAGAGAT -CGACATATAAATCCGGCAGGTCTTTTTGCAGATATTGCTGATGCGACTGATTGATGACCGTCAGGTGCTGTAAGCCGGTT -TTGGCTTTCATCGCATCGATCTGTTCCTGGCTCGGAATTTGAACCGGCTGTTGTTCCGGGCCAAAGCCCCACAGATTCAC -CAGCGGCCCGACGGTTATATCCATCGCGCCATCGGTCTTCGCGCCAATGCGCAGCGAGGTGGTGACGATATCGGCCATCG -CTTCACTTACCGGCCACGGCGATAAACTTTGCGAGTCGTTAAAGCGCATCAGCGCGGAATCTTTTTTATAGGTCGAAAGC -AGCTGATCGTCGGCGTCCAGTTGGGTCTGAATCTTTTCTTTAAGTTCGGCGCTGCGTTTGGCGTCAATGCCCGGGATGCT -GGCACGCCAGAAGGTACCCATAGTTTTGCCTTCAAGAACGGTAACTTCAGTAGCGTGGGTTTTGGCGGGTTGTGGTTTTT -GATCGCAACCAACAAAGAAGAGCGCGGCAGCCAGCAGTGCCACGCGGGTAAAGCTTATTTCCATACGTGATTATCCTCAT -GCGAACGGTCGCAAGAGTACACCAAAAAACTGAGTTTGTACGCTGAAAACAATGAAAAAAGGGCCCGCAGGCCCTTTGTT -CGATATCAATCGAGATTAGAACTGGTAAACCAGACCCAGAGCTACGATGTTATCAGTGTTGATGCCAGCGTCACGAGTGA -ACTGGTTGTCGTCCAGCAGGTTGATTTTGTAGTCAACGTAGGTGGACATGTTTTTGTTGAAGTAGTAGGTAGCACCAACA -TCAACATATTTCAGGATATCTTCGTCGTCGTAGCCACGACCCAGGTTTTTACCTTTAGACTGCAGGTAAGCCAGGGACGG -ACGCAGACCGAAGTCGAACTGGTACTGAGCAACAGCTTCGAAGTTCTGTGCTTTGTTCGCCCAACCCAGGGAACCTACGC -GAGTTGCGTTGTAGGTCTGGGTGTACTGAGCAGCCAGGTAGATGTTGTTAGCGTCGTATTTCAGACCACCAGTGTAGGTT -TCAGCACGGTCGCCGTTACCGATGTAAGCAGCGGTGTTCTGAGCATCAGTACGTTTGGAGCTGGAGATCGCACCACCGAT -ACCGAAACCTTCGTAATCATAAGTGATAGAACCGCCGACGCCGTCGCCGTTTTGACGCAGTGCGTCACGACCGTTGTTAG -TTACGCCACTAGTAAAGCCTTCACCAGATGGGTTGCCGTTTTTACCCTGGTACTGAACAGCAAAGTTCAGGCCGTCAACC -AGACCGAAGAAGTCAGTGTTACGGTAGGTCGCGAAGCCGTTACCACGCTGCTGCATGAAGTTGTCAGAACCGTAGGTGTC -ACCACCGAATTCTGGCAGTACGTCGGTCCAGGAAGTTACGTCATAAACAACGCCGTAGTTACGACCGTAGTCGAAAGAAC -CCACATCCTGGAATTTCAGACCTGCGAATGCCACACGGGTCCAGGAGTTGTTTTCGTTTTCAGCGCTGTTGCCCTGGATC -TGATATTCCCACTGGCCGTAACCGGTCAGCTGGTCAGTAACCTGAGTTTCACCTTTGAAGCCAAGACGCATGTAGGTCTG -GTCGCCATCTACATCTTTGTTGTCAGAGAAATAGTGCAGGCCGTCTACTTTACCGTACAGATCTAATTTGTTGCCGTCTT -TGTTGTAAACTTCAGCAGCGTTTGCTGCGCCTGCTACCAGCAGAGCTGGGACCAGGAGGGACAGTACTTTAACTTTCATG -TTATTAACCCTCTGTTATATGCCTTTATTTGCTTTTTTATGCCACTGCATACTGATTAACCCTCATTAATCAGTCGGCAA -GTCCATTCTCCCCAAAAATGCAGAATAATCCAACACGAATATGATACTAAAACTTTTAAGATGTTTCATTTATCGCTATA -GATGTTTCAAAATGTAAATGCAAGGGAACTTTTTAAGATTATTGCGGAATGGCGAAATAAGCACCTAACATCAAGCAATA -ATAATTCAAGGTTAAAATCAATAACTTATTCTTAAGTATTTGACAGCACTGAATGTCAAAACAAAACCTTCACTCGCAAC -TAGAATAACTCCCGCTATCATCATTAACTTTATTTATTACCGTCATTCATTTCTGAATGTCTGTTTACCCCTATTTCAAC -CGGATGCCTCGCATTCGGTTTTTTTTACCCTTCTTTACACACTTTTCATTATTCTGTGCTACCACAGAAAAACTATAACG -CTTGTTAACTATTTCACAAATAATTAACATCCGCATAATTTCCAGCAATCTTTGTTTATTTGCAATTATTTTTGTTGGGC -TTTTTGTAGGTTATTTGTACAGCAAAATGGCGCTTGTACATCTATTTCCCCCAATGCAGGATGATAAATATCACGGGAGA -ATAGAGAATCATCAATCAGGTAAGAGTCTGGAATTTCACACTGTACCCTTTATACTGCCCTATCACTTCGCGAAGTTTTA -ACAGGTCATAAACACGAATGCGTCAGAAAGAGACAACGGCCACGACCCGCTTTTCACTCCTACCGGGGAGCATTACCCGC -TTCTTTTTACTGTTGATCATTGTGTTACTGGTGACGATGGGTGTAATGGTACAAAGCGCCGTTAACGCCTGGCTGAAAGA -TAAAAGTTACCAGATTGTCGACATTACCCATGCTATCCAAAAGCGCGTCGATAACTGGCGTTACGTGACCTGGCAGATCT -ACGACAACATTGCCGCGACGACCTCCCCCTCCTCCGGCGAAGGTTTACAAGAGACGCGCCTGAAACAGGATGTCTACTAT -CTGGAGAAACCACGCCGCAAAACGGAAGCGTTAATCTTTGGCTCTCACGACAACTCAACGCTTGAGATGACTCAGCGGAT -GTCCACTTATCTGGATACATTGTGGGGCGCAGAAAATGTACCGTGGTCGATGTATTACCTGAATGGTCAGGATAACAGTC -TGGTGCTGATCTCAACCCTACCCCTTAAAGATCTCACCTCCGGATTTAAAGAATCGACCGTCAGCGACATTGTTGATTCA -CGTCGTGCAGAGATGTTGCAACAGGCCAACGCCCTCGATGAACGCGAAAGCTTTTCTAACATGCGCCGCCTGGCCTGGCA -GAACGGTCATTACTTTACATTGCGTACTACCTTTAACCAGCCAGGACATCTGGCAACGGTCGTGGCTTTTGATCTGCCGA -TTAATGATTTGATCCCACCGGGTATGCCGCTGGACAGTTTCCGCCTTGAGCCAGACGCGACGGCAACGGGAAACAATGAT -AATGAGAAAGAAGGGACGGATAGCGTCAGTATCCACTTTAACAGTACGAAGATTGAAATCTCCTCGGCACTCAACTCTAC -CGATATGCGCCTGGTCTGGCAGGTTCCTTATGGCACCTTATTGCTGGATACGTTGCAAAACATTCTGCTGCCACTGCTGC -TGAACATCGGTTTGCTGGCGCTGGCGTTATTTGGCTATACCACATTCCGCCATTTCTCCAGCCGCAGTACAGAAAACGTC -CCCAGCACGGCGGTCAATAACGAATTGCGCATTTTACGGGCAATCAATGAAGAGATAGTCTCACTGCTGCCGCTCGGCCT -GCTGGTTCACGATCAGGAATCGAACCGCACTGTCATAAGTAACAAAATTGCCGATCATTTGCTGCCGCATTTGAATCTGC -AAAACATCACCACCATGGCGGAACAGCATCAGGGGATTATTCAGGCGACGATCAATAACGAGCTGTATGAGATCCGCATG -TTCCGCAGCCAGGTCGCGCCGCGCACACAAATTTTCATTATTCGCGATCAGGATCGCGAAGTGCTGGTAAACAAGAAACT -CAAGCAGGCGCAGCGTCTGTATGAGAAAAACCAGCAGGGGCGGATGATCTTTATGAAAAACATTGGCGATGCGCTGAAAG -AACCCGCACAGTCCCTGGCGGAGAGCGCGGCTAAACTCAACGCCCCGGAAAGCAAACAACTGGCGAATCAGGCAGATGTG -CTGGTGCGGCTGGTTGATGAAATACAGTTAGCGAACATGCTTGCGGATGATAGCTGGAAAAGTGAGACGGTGCTGTTCTC -CGTGCAGGATTTAATTGATGAAGTTGTGCCTTCAGTGTTGCCTGCCATCAAGCGTAAAGGTCTGCAACTGCTGATTAACA -ATCATCTGAAAGCACACGATATGCGCCGCGGCGATCGCGATGCCTTACGACGTATTTTGCTGCTACTGATGCAATATGCC -GTGACCTCAACGCAATTGGGAAAAATCACCCTTGAGGTTGATCAGGATGAGTCCTCCGAAGACCGCCTGACGTTCCGCAT -TCTGGACACGGGAGAAGGCGTAAGTATTCATGAAATGGATAATTTGCACTTCCCGTTTATCAACCAGACCCAAAACGATC -GCTATGGCAAGGCGGACCCGCTGGCATTCTGGCTGAGCGATCAACTGGCACGTAAACTGGGCGGTCATTTAAACATCAAA -ACGCGGGATGGGCTTGGTACACGCTACTCTGTGCATATCAAAATGCTCGCAGCTGACCCGGAAGTTGAAGAGGAAGAAGA -GCGTTTACTGGATGATGTCTGCGTAATGGTGGATGTTACTTCGGCAGAAATTCGGAATATTGTCACTCGCCAGTTAGAAA -ATTGGGGTGCAACCTGTATCACACCCGATGAAAGATTAATTAGTCAAGATTATGATATCTTTTTAACGGATAATCCGTCT -AATCTTACTGCCTCTGGCTTGCTTTTAAGCGATGATGAGTCTGGCGTACGGGAAATTGGGCCTGGTCAATTGTGCGTCAA -CTTCAATATGAGCAACGCTATGCAGGAAGCGGTCTTACAATTAATTGAAGTGCAACTGGCGCAGGAAGAGGTGACAGAAT -CGCCTCTGGGCGGAGATGAAAATGCGCAACTCCATGCCAGCGGCTATTATGCGCTCTTTGTAGACACAGTACCGGATGAT -GTTAAGAGGCTGTATACTGAAGCAGCAACCAGTGACTTTGCTGCGTTAGCCCAAACGGCTCATCGTCTTAAAGGCGTATT -TGCCATGCTAAATCTGGTACCCGGCAAGCAGTTATGTGAAACGCTGGAACATCTGATTCGTGAGAAGGATGTTCCAGGAA -TAGAAAAATACATCAGCGACATTGACAGTTATGTCAAGAGCTTGCTGTAGCAAGGTAGCCTATTACATGAACAATATGAA -CGTAATTATTGCCGATGACCATCCGATAGTCTTGTTCGGTATTCGCAAATCACTTGAGCAAATTGAGTGGGTGAATGTTG -TCGGCGAATTTGAAGACTCTACAGCACTGATCAACAACCTGCCGAAACTGGATGCGCATGTGTTGATTACCGATCTCTCC -ATGCCTGGCGATAAGTACGGCGATGGCATTACCTTAATCAAGTACATCAAGCGCCATTTCCCAAGCCTGTCGATCATTGT -TCTGACTATGAACAACAACCCGGCGATTCTTAGTGCGGTATTGGATCTGGATATCGAAGGGATCGTGCTGAAACAAGGTG -CACCGACCGATCTGCCGAAAGCTCTCGCCGCGCTGCAGAAAGGGAAGAAATTTACCCCGGAAAGCGTTTCTCGCCTGTTG -GAAAAAATCAGTGCTGGTGGTTACGGTGACAAGCGTCTCTCGCCAAAAGAGAGTGAAGTTCTGCGCCTGTTTGCGGAAGG -CTTCCTGGTGACCGAGATCGCTAAAAAGCTGAACCGCAGTATTAAAACCATCAGTAGCCAGAAGAAATCTGCGATGATGA -AGCTGGGTGTCGAGAACGATATCGCCCTGCTGAATTATCTCTCTTCAGTGACCTTAAGTCCGGCAGATAAAGACTAATCA -CCTGTAGGCCAGATAAGACGCGTTAGTGTCTTATCTGGCATTTGCACCGATTGCCGGATGCGGCGTAAACGCCTTATCCG -GCCTACGATTCCCATTATTTCAACAAATTACATTAAAGTAGGCCAGATAAGACGCGTCAGCGTCGCATCTGGCATTTGCA -CTGAATGCCGGATGCGGCGTAAACGCCTTATCCGTCCTACGAATCCCGCGATTTCCTGACCCTCTCGGCATATAACGTCA -GCGTCTGTTTTATCACATCCAGCGTTACCGGCTTCGACAGGCAGCTGTCCATACCGGACTCCAGACACCGCTGCTTCTCT -TCAGCCAACGCATTAGCAGTTACTCCGATTACCGGCAACGTCAGTCCCAACTGACGAATGCGTTGCGTCAAGCGGTAACC -ATCCATATTTGGCATGTTGACGTCGCTAAGCACGATATCAATATGATTCTTGCTAAGTACATTAAGCGCATCGACGCCAT -CATTCGCGGTTTTACATTGATAGCCCAACGATCCCAACTGATCTGCCAGCAAACGCCGGTTAATCGGATGATCATCCACG -ACCAGAATCATCATATCGTCATTATCGCTGACCGCTTTGTCCGTTGACGGCAGAGCGTTAGCAGGATCGTCGCTCTCCAT -CTCGATCAAATAAATACGCGCCAACAATGCCGGTAGCTCATGCGGAGCAGCCACACTGTGTACCCACTCCCCTGGCGCTT -TCTCCAGCGGAATACCAATATGGCGACGACAGAAGGTCACTACCGCTCTGCCCTGCCATTTTTTACTCACTACCTCGTCA -GTGATCAACACATCTTCGGGAGTCGGTTCCTGCCCTTCGTATGTTGTAACGACGATGCCGCTGCGCTGCAAACTGGTTTC -CAGGAACTGACAGAGCGACGCATTGCGGACCGCCAGCCAGCAGCGTTTACCACTCAACCCTTCCACGCCTTTTTTCTGCG -GGTACTGAGCGCCGTACAACGGAATACGCACGGTAAACTGGCTGCCCATTCCCGGTTCTGAATCTACCGAGATATCGCCG -TCCATCATGCTGATCAGTTTTTCACAAATCGCCAGACCCAGACCGGTCCCCTGGAAATTACGCTGTACGCCCGTTCCGAC -CTGGAAGAAGGGATCAAACAAGCGCACCACTTCTTTCGCCGGTATCCCCACGCCGGTATCGCGAACACGGATAGAGAGAT -AATCGCCATCCGCGCGAACATGCAAAACTATACAGCCGGTATCGGTGAATTTTATGGCGTTACTCAACAGGTTGGAGATG -ACCTGCTGTAAACGCATCGGGTCGCCATTTAAGGCCACTGGCACATCCGGTTCAATAAAGCAGTACAAGCCTAACTGCTT -GCGTACCACCAGCGGTAAATAGTTGGCGGTGATGTGGTTCATCACTTCACGCGGTGAAAACTCACGCGGTTCGATCTTCA -ACTGTTCCGATTCAATCTTCGAGAAATCGAGAATATCGCTGATAATTTTCAACAACAGGCTGGAAGAGTTGTTCATTGCC -GTCACCAGCCGATCGACGCCTTTCGGTAACTCTTTGGTTTGCAACAGATCCAGGTTACCGATAATGCCATACAGCGGCGT -TCGCAGCTCATGACTGACGGTGGCAAGGAACATCGATTTTGACTGGCTCGCCTGTTCCGCTGCTTGTGCCATCTCCTGCA -ACGACTCTTCCATCTTCACGCGCGAAGAAACATCCACCAGCACACAAATGGCCACGTTTTCATTACGATAGCGCGAATGG -ACGAAGCTGATTTGCAGATTGGTATTGTTGCTGGTCAGGACATCAACAAAATTGACCTGCTGCCCACAGATAATTTGCGT -CAGTCGTTGGCGGTCCTCATGCGTAAGCATATTGAGATAGGTATGCGCCAGTTCGTTACTTAAAATATTGACGCCATCAG -CGGTACGCAAAATGCAGATACCCACTGGCGCGGAGGCGACAATCTTGCGATTGAACTGCTCATGTTCTTCCAGTCGCAGG -GCGTCGCTTTCCGCCGGAATGAAAATACGTCGCTCGTACATCCGTGCGAGAGTAAACAATGCAGCTCCGGCAAGCACATT -CAGCAAAATTGCGTTAAGGATCAACATGCGAATGCGTTCCAGCACCTTATCAACCGGCACCGAATACACGATGCTTAGCG -ATGAGGGTGGCAGATTTTTCTTCAGCACCAGCTCCCGGAACCCTTCCGTATAGCCAAACCAGGAGCGTTCCTGCATCCAG -CGAGGATCGCCCTTAATTTTACTTTCTGGTCCGGTAAGCGAAATCAGGGTATGACCATTTTCATCAAGAATGGTAACCCC -CATCGGCAACGTACCCGGTAAGAAAAAGTTCTCCATCCGGATGGTCTGCTCGACACCCAAAAGCGCCTGCAACCGGTTCG -CCAGATAAACTGGCGTCAACGCGTAAAAATACCCGACGCCAGGGCGCGGACCTTCGCTGATCCAGTAGAGGTTACTGCCG -CTATCATCTTGTGGTGCATTTCGATATTTATTGATGCGTTCATGCAAAGCTTTCAACGCGGTATCGCGTTCCACTGGCAT -ATCACGCAGACCGAAATTGGCCATGCAGAGGTTATCGCTGCCGATTAAAAATACCCGGTTTAGATCGTAAGCCGCAGAAA -AATTATCGCGCCAGTAGCGCATAAACCACGCCAATGACTCCAGAGAACCTCGCCAGGTGTTACTCATTGCGGAACAATCG -GAGTCGGCAAACAGCGGTTCAAACGCAGGCACATCCGCCTGCGTTTCTCGTCCACGCGGGGAAAGCACACCGTTTTCTGC -CGATAAGCGATTTTCGGCGATGTACTTCAGCTCTTTCATCACATCAGAGGTGCGTTGAATAAAGCGCTGAGCCTGATCGG -AACTCAGATTAAATTCCTGACGAATTTCCGATTCTCGCTGATGTAACGCATTAACGATGTAAAAAACGGATGAAAAAGCA -ATCAACAGCCAGAGCACTAACGCCAATGCTCTGAACATGTAGCGCGAGGCTTTCAGGGTTGTACGAAAAGAAGCAAGGTA -TTTCAAAGGGGCGAAGCTCCGCCTCAGGTGACCGATGGAGTGTGGTTAAGGTAGCGGTAAAAGCGTGTTACCGCAATGTT -CTCTCTTCTCTGGAATATGATACACCGCCGAGAAATCATCACCTTAACCTCTGATAATCGTCATATACCGGACAAGACTA -GTGGATTTCAGCATGCATTATATGAAGTGGATTTATCCACGCCGCTTACGCAATCAAATGATCCTGATGGCAATCCTGAT -GGTCATTGTCCCAACGCTTACTATTGGTTATATCGTAGAAACGGAAGGACGTTCAGCAGTCTTATCTGAAAAAGAGAAAA -AACTTTCTGCCGTGGTCAACCTGCTTAATCAGGCACTAGGCGATCGCTATGATCTCTACATCGACTTACCACGTGAGGAG -CGTATCCGCGCATTAAATGCAGAACTTGCCCCCATTACCGAAAATATCACTCACGCCTTCCCTGGCATCGGTGCTGGTTA -TTACAACAAAATGCTGGATGCGATAATCACCTACGCGCCTTCAGCGCTATATCAGAATAATGTCGGCGTTACCATTGCCG -CAGATCACCCTGGTCGCGAAGTGATGCGTACAAATACCCCTTTAGTTTATTCAGGCAGGCAGGTGCGCGGCGATATTTTG -AATTCAATGCTCCCCATTGAGCGTAATGGTGAAATCCTCGGCTATATCTGGGCCAATGAATTAACCGAAGATATTCGCCG -CCAGGCCTGGAAAATGGATGTGAGGATTATCATTGTGCTCACCGCTGGTTTGCTGATAAGCCTGCTGTTGATTGTCCTTT -TCTCCCGTCGCCTGAGCGCCAATATTGATATCATCACCGATGGCCTCTCGACTCTGGCACAAAATATTCCCACTCGATTA -CCACAATTGCCCGGTGAAATGGGGCAAATCAGTCAGAGTGTTAATAACCTCGCCCAGGCACTGCGTGAAACGCGGACACT -TAACGATCTGATTATTGAAAACGCTGCCGATGGCGTCATTGCCATTGACCGCCAGGGTGATGTAACCACCATGAACCCAG -CAGCAGAAGTTATCACTGGCTATCAACGCCATGAACTGGTAGGGCAGCCTTACTCCATGTTGTTCGACAATACTCAGTTC -TACAGTCCAGTACTGGATACGCTGGAACATGGCACCGAACATGTGGCGCTGGAGATCAGTTTTCCAGGTCGTGACCGCAC -CATTGAACTCAGTGTCACTACCAGTCGTATTCATAACACGCACGGTGAAATGATAGGTGCTTTGGTGATTTTCTCTGATT -TAACTGCCCGCAAAGAAACCCAGCGCCGCATGGCGCAAGCAGAACGCCTCGCCACACTGGGTGAGCTGATGGCTGGCGTC -GCGCATGAAGTACGTAATCCGTTAACGGCTATTCGTGGTTATGTACAGATCTTGCGCCAACAAACCAGTGACCCAATACA -TCAGGAATATCTGTCCGTAGTACTCAAAGAAATCGATTCAATTAACAAAGTTATTCAGCAATTGCTCGAATTTTCACGTC -CACGCCACAGTCAATGGCAACAAGTCAGCCTCAATGCATTGGTTGAAGAAACTCTGGTACTGGTACAAACCGCCGGCGTA -CAAGCGCGGGTCGACTTCATAAGCGAACTGGATAATGAATTAAGCCCGATTAACGCCGATCGTGAACTGCTCAAACAGGT -ACTACTGAATATCCTGATCAATGCCGTCCAGGCTATCAGCGCACGAGGGAAAATTCGCATTCAAACCTGGCAATACAGCG -ACTCACAACAGGCCATTTCGATAGAGGACAACGGCTGTGGCATTGATCTCTCGCTGCAAAAAAAGATCTTCGATCCCTTT -TTCACCACCAAAGCCTCAGGAACCGGGCTTGGTCTGGCGTTAAGTCAACGCATCATTAATGCCCATCAGGGTGATATTCG -CGTCGCCAGTTTGCCGGGCTACGGCGCAACCTTCACGCTTATTTTACCGATCAACCCGCAGGGAAATCAGACTGTATGAC -TGCTATTAATCGCATCCTTATTGTGGATGATGAAGATAATGTTCGCCGTATGCTGAGCACCGCTTTTGCACTACAAGGAT -TCGAAACACATTGTGCGAACAACGGACGCACAGCATTACACCTGTTTGCCGATATTCACCCTGATGTGGTGTTGATGGAT -ATCCGCATGCCAGAGATGGACGGCATCAAGGCACTAAAGGAGATGCGCAGCCATGAGACCCGGACACCCGTTATTCTGAT -GACGGCCTATGCGGAAGTGGAAACCGCCGTCGAAGCGCTACGCTGCGGAGCCTTCGACTATGTTATTAAACCGTTTGATC -TCGATGAGTTGAATTTAATCGTTCAGCGCGCTTTACAACTCCAGTCAATGAAAAAAGAGATCCGTCATCTGCACCAGGCA -CTGAGCACCAGCTGGCAATGGGGGCACATTCTCACCAACAGCCCGGCGATGATGGACATCTGCAAAGACACCGCCAAAAT -TGCCCTTTCTCAGGCCAGCGTCTTGATTAGCGGTGAAAGCGGCACCGGGAAAGAGTTGATTGCCAGAGCGATTCACTACA -ATTCGCGGCGGGCAAAGGGGCCGTTCATTAAAGTCAACTGCGCGGCGCTGCCGGAATCGTTGCTCGAAAGTGAACTGTTT -GGTCATGAAAAAGGTGCATTTACTGGTGCACAAACCTTGCGTCAGGGATTATTTGAACGAGCCAACGAAGGTACTCTGCT -CCTCGACGAAATTGGCGAAATGCCGCTGGTACTACAAGCCAAATTACTACGCATTCTACAGGAACGGGAATTTGAACGGA -TTGGCGGCCATCAGACCATAAAAGTTGATATCCGCATCATTGCTGCCACCAACCGCGACTTGCAGGCAATGGTAAAAGAA -GGCACCTTCCGTGAAGATCTCTTTTATCGCCTTAACGTTATTCATTTAATACTGCCGCCTCTGCGCGATCGCCGGGAAGA -TATTTCCCTGTTAGCTAATCACTTTTTGCAAAAATTCAGTAGTGAGAATCAGCGCGATATTATCGACATCGATCCGATGG -CAATGTCACTGCTTACCGCCTGGTCATGGCCGGGAAATATTCGAGAGCTTTCCAACGTTATTGAACGCGCCGTCGTGATG -AATTCAGGCCCGATCATTTTTTCTGAGGATCTTCCGCCACAGATTCGTCAGCCAGTCTGTAATGCTGGCGAGGTAAAAAC -AGCCCCTGTCGGTGAGCGTAATTTAAAAGAGGAAATTAAACGCGTCGAAAAACGCATCATTATGGAAGTGCTGGAACAAC -AAGAAGGAAACCGAACCCGCACTGCTTTAATGCTGGGCATCAGTCGCCGTGCATTGATGTATAAACTCCAGGAATACGGT -ATCGATCCGGCGGATGTATAACACCAAAACTTGCTATGCAGAAATTTGCACAGTGCGCAATTTTCTGCATAGCCGCTCAT -TCTCCTTATAAATCCCCATCCAATTTATCCCTTCATATTCAATTAGTTAAATAACTAAATCCAATAATCTCATTCTGGCA -CTCCCCTTGCTATTGCCTGACTGTACCCACAACGGTGTATGCAAGAGGGATAAAAAATGAAAACAAAATTGATGACATTA -CAAGACGCCACCGGCTTCTTTCGTGACGGCATGACCATCATGGTGGGCGGATTTATGGGGATTGGCACTCCATCCCGCCT -GGTTGAAGCATTACTGGAATCTGGTGTTCGCGACCTGACATTGATAGCCAATGATACCGCGTTTGTTGATACCGGCATCG -GTCCGCTCATCGTCAATGGTCGAGTCCGCAAAGTGATTGCTTCACATATCGGCACCAACCCGGAAACAGGTCGGCGCATG -ATATCTGGTGAGATGGACGTCGTTCTGGTGCCGCAAGGTACGCTAATCGAGCAAATTCGCTGTGGTGGAGCTGGACTTGG -TGGTTTTCTCACCCCAACGGGTGTCGGCACCGTCGTAGAGGAAGGCAAACAGACACTGACACTCGACGGTAAAACCTGGC -TGCTCGAACGCCCACTGCGCGCCGACCTGGCGCTAATTCGCGCTCATCGTTGCGACACACTTGGCAACCTGACCTATCAA -CTTAGCGCCCGCAACTTTAACCCCCTGATAGCCCTTGCGGCTGATATCACGCTGGTAGAGCCAGATGAACTGGTCGAAAC -CGGCGAGCTGCAACCTGACCATATTGTCACCCCTGGTGCCGTTATCGACCACATCATCGTTTCACAGGAGAGCAAATAAT -GGATGCGAAACAACGTATTGCGCGCCGTGTGGCGCAAGAGCTTCGTGATGGTGACATCGTTAACTTAGGGATCGGTTTAC -CCACAATGGTCGCCAATTATTTACCGGAGGGTATTCATATCACTCTGCAATCGGAAAACGGCTTCCTCGGTTTAGGCCCG -GTCACGACAGCGCATCCAGATCTGGTGAACGCTGGCGGGCAACCGTGCGGTGTTTTACCCGGTGCAGCCATGTTTGATAG -CGCCATGTCATTTGCGCTAATCCGTGGCGGTCATATTGATGCCTGCGTGCTCGGCGGTTTGCAAGTAGACGAAGAAGCAA -ACCTCGCGAACTGGGTAGTGCCTGGGAAAATGGTGCCCGGTATGGGTGGCGCGATGGATCTGGTGACCGGGTCGCGCAAA -GTGATCATCGCCATGGAACATTGCGCCAAAGATGGTTCAGCAAAAATTTTGCGCCGCTGCACCATGCCACTCACTGCGCA -ACATGCGGTGCATATGCTGGTTACTGAACTGGCTGTCTTTCGTTTTATTGACGGCAAAATGTGGCTCACCGAAATTGCCG -ACGGGTGTGATTTAGCCACCGTGCGTGCCAAAACAGAAGCTCGGTTTGAAGTCGCCGCCGATCTGAATACGCAACGGGGT -GATTTATGATTGGTCGCATATCGCGTTTTATGACGCGTTTTGTCAGCCGGTGGCTTCCCGATCCACTGATCTTTGCCATG -TTGCTGACATTGCTAACATTCGTGATCGCGCTTTGGTTAACACCACAAACGCCGATCAGCATGGTGAAAATGTGGGGTGA -CGGTTTCTGGAACTTGCTGGCGTTTGGTATGCAGATGGCGCTTATCATCGTTACCGGTCATGCCCTTGCCAGCTCTGCTC -CGGTGAAAAGTTTGCTGCGTACTGCCGCCTCCGCCGCAAAGACGCCCGTACAGGGCGTCATGCTGGTCACTTTCTTCGGT -TCAGTCGCTTGTGTCATCAACTGGGGATTTGGTTTGGTTGTCGGCGCAATGTTTGCCCGTGAAGTCGCCCGGCGAGTCCC -CGGTTCTGATTATCCGTTGCTCATTGCCTGCGCCTACATTGGTTTTCTCACCTGGGGTGGCGGCTTCTCTGGATCAATGC -CTCTGTTGGCTGCAACACCGGGCAACCCGGTTGAGCATATCGCCGGGCTGATCCCGGTGGGCGATACTCTGTTCAGTGGT -TTTAACATTTTCATCACTGTGGCGTTGATTGTGGTGATGCCATTTATCACCCGCATGATGATGCCAAAACCGTCTGACGT -GGTGAGTATCGATCCAAAACTACTCATGGAAGAGGCTGATTTTCAAAAGCAGCTACCGAAAGATGCCCCACCATCCGAGC -GACTGGAAGAAAGCCGCATTCTGACGTTGATCATCGGCGCACTCGGTATCGCTTACCTTGCGATGTACTTCAGCGAACAT -GGCTTCAACATCACCATCAATACCGTCAACCTGATGTTTATGATTGCGGGTCTGCTGCTACATAAAACGCCAATGGCTTA -TATGCGTGCTATCAGCGCGGCAGCACGCAGTACTGCCGGTATTCTGGTGCAATTCCCCTTCTACGCTGGGATCCAACTGA -TGATGGAGCATTCCGGTCTGGGCGGACTCATTACCGAATTCTTCATCAATGTTGCGAACAAAGACACCTTCCCGGTAATG -ACCTTTTTTAGTTCTGCACTGATTAACTTCGCCGTTCCGTCTGGCGGCGGTCACTGGGTTATTCAGGGACCTTTCGTGAT -ACCCGCAGCCCAGGCGCTGGGCGCTGATCTCGGTAAATCGGTAATGGCGATCGCCTACGGCGAGCAATGGATGAACATGG -CACAACCATTCTGGGCGCTGCCAGCACTGGCAATCGCCGGACTCGGTGTCCGCGACATCATGGGCTACTGCATCACTGCC -CTGCTCTTCTCCGGTGTCATTTTCGTCATTGGTTTAACGCTGTTCTGACGGCACCCCTACAAACAGAAGGAATATAAAAT -GAAAAATTGTGTCATCGTCAGTGCGGTACGTACTGCTATCGGTAGTTTTAACGGTTCACTCGCTTCCACCAGCGCCATCG -ACCTGGGGGCGACAGTAATTAAAGCCGCCATTGAACGTGCAAAAATCGATTCACAACACGTTGATGAAGTGATTATGGGT -AACGTGTTACAAGCCGGGCTGGGGCAAAATCCGGCGCGTCAGGCACTGTTAAAAAGCGGGCTGGCAGAAACGGTGTGCGG -ATTCACGGTCAATAAAGTATGTGGTTCGGGTCTTAAAAGTGTGGCGCTTGCCGCCCAGGCCATTCAGGCAGGTCAGGCGC -AGAGCATTGTGGCGGGGGGTATGGAAAATATGAGTTTAGCCCCCTACTTACTCGATGCAAAAGCACGCTCTGGTTATCGT -CTTGGAGACGGACAGGTTTATGACGTAATCCTGCGCGATGGCCTGATGTGCGCCACCCATGGTTATCATATGGGGATTAC -CGCCGAAAACGTGGCTAAAGAGTACGGAATTACCCGTGAAATGCAGGATGAACTGGCGCTACATTCACAGCGTAAAGCGG -CAGCCGCAATTGAGTCCGGTGCTTTTACAGCCGAAATCGTCCCGGTAAATGTTGTCACTCGAAAGAAAACCTTCGTCTTC -AGTCAAGACGAATTCCCGAAAGCGAATTCAACGGCTGAAGCGTTAGGTGCATTGCGCCCGGCCTTCGATAAAGCAGGAAC -AGTCACCGCTGGGAACGCGTCTGGTATTAACGACGGTGCTGCCGCTCTGGTGATTATGGAAGAATCTGCGGCGCTGGCAG -CAGGCCTTACCCCCCTGGCTCGCATTAAAAGTTATGCCAGCGGTGGCGTGCCCCCCGCATTGATGGGTATGGGGCCAGTA -CCTGCCACGCAAAAAGCGTTACAACTGGCGGGGCTGCAACTGGCGGATATTGATCTCATTGAGGCTAATGAAGCATTTGC -TGCACAGTTCCTTGCCGTTGGGAAAAACCTGGGCTTTGATTCTGAGAAAGTGAATGTCAACGGCGGGGCCATCGCGCTCG -GGCATCCTATCGGTGCCAGTGGTGCTCGTATTCTGGTCACACTATTACATGCCATGCAGGCACGCGATAAAACGCTGGGG -CTGGCAACACTGTGCATTGGCGGCGGTCAGGGAATTGCGATGGTGATTGAACGGTTGAATTAATCAATAAAAACACCCGA -TAGCGAAAGTTATCGGGTGTTTTCTTGAACATCGACGGCGAAGGTAACCCCATTAATCACCAGTCAAAACTTTTCACCAG -CGTCAGCTCGCCAGCATTACGCATCGGTACAATAAATGTTTCCTGTTTCTCATTGACCGATCCTTCATCGGTGATCAGCG -TCAGTTGGGCGGTGGTTAATTCCGTTTCGCTGCGCCCACCATAGTAGTTGATATACACCTGATAGCGCCCGTGAATTGGC -GCGGGCATGGCGAAAATCTCGGGTCCGTACCCCGTCGTGACATCCATATCCAGTGCACCACTGTTTTTCAGCACGGTGTT -ACCGTACCAGGCGTGTTCGCCATCGGGCGTAACAACGTGAAGGTCGAGGTCGGTATTGTCCGTATCCCACGAGAGAACCA -GCCGTAAACGTGCACGAATCGTTCCTGTACCCGGCGTTGAGTAAAACTGCATTTTTTGTCGGCTTTGCCCATCCGGGCTG -ATGACCTGCACGCTGTTGCTGCCTTCAGTGAAAATATAAGGGCGTGCAAATGAACCATCGGATTCAATTCTCTGCGGCAT -ACTGGCACCGTTGACCACCAGCCGGCCCTGCTGAACTTTACCCGCCGCAGCATAATTCTTTATTTTGCCGCGGATCTGCG -CTGAGATATTTTGATCATCTGCCATGTTGACGGACGACGCCGGGTAATTGATCGATTGTGAAAAACTGGCATCTTCGCCC -TCTGCCGGATGCCAGCCTGAGAGCGGTGCATCAATCTCGACTTCCTGCACACCTTCACTGTGAGCGACAGGCGAAAGCGC -CACCAGTAACAACGGAAGAAAAATCTTTCGCATAGCATTAGTCCATTAATAATTGTCGGGTCAGCGTTTCGATATAGTTC -TCATCAAGCCCGGTGGGATAACCATCAAAGGCCAGGTGCAGATACTCATGGGTTAAATCCAGCCGATCCTGAAGCGTAAA -GAAGTTACGAATAAACAGCCGTTTCTGCTGCCGATCGGTATAGGGGAAACCTGAGACTAAACGGCAAACCGCAAACACGT -CTGGTTCGTTGTACCCCGTCTCAGCTTGTAATATACGCCGCCACTGCGGCATTTTTTTCGCCAGCCAGGCTTTCGCTTTG -GGTAATAACTGGCAGGTTGAGCGTGGCGCTCCCCAGCGGCTAAGACTGTTGTCGGGATAAGCAAACGCGAGTATCTGATC -GTAACGCTCTCCCTGCCCCGCCTGGGCCGTGGCTTGCCGCCAGGAAAGTGTCCCTTCGGTAGCGCGACTGCCATGATAAT -GAACCGGATCGCCTGCATAGATGAGATCCTGCGTCCAGGCGGTCATCGTTCGCGCCCCCGTGGTCGCTGGCGAAGCAGAA -ACACGCTGCGTGGCGCTGCTGTCGGGGATGGTCAGGCAATCGCCTTCCCGATTGGCGTTTTGCTGTAAAAAAGTGCGAAT -CGCCACGGTCATGGCTTTCGCTGCCTCAGGGGGCGTACTTTTCGCCTCGCGATCCAGAACTCTGGCAACGTACTCTTCAC -GATCGAGATGCGACTGCAATTTCAGTTTGCCCTTTTCGCTCAGTAAGGTCGTCTCACCGTGGCTGACAAACGTAATGTGG -TTACCATTAGTAAACGTCACACGATAGCGCCCATTAAGTACGCCGGGATTTACTGCCGTCGTACTCTTTTCCGCTGTGAT -TTTCTTCAGCGGATAGCGGGCAAACAGCTCCACCTCTACACATTGCCCACTGGCAACCTGCGTCGGCACTGGCAAAACCC -GATTAAGCACCGTCGCATAACGGGTTAGTACCGTTTTGCTGGTGCCACTGCCAGTAACCCACAGCGGTGTACCATCGGTT -AACCAGCCAGCAAAACCACCCTGACGGATTTCCTGTTTATCATCGGCAAACCAGCTCCAGGTTTTCACCCGTACCCGACT -ACCGAGCATGGATGCGACACCGATTTTCGCCTCGTCCAGCACCACATCCAGTAAGACTTCCTGAGCTTTGTTTTGCGCGG -GTAACGTCGCTAATGAATCAAGCAGCGATTTAACCGTTACCGAGGTTTCTGGCTTCAGCGTAGTCAGAGACGCTAACCAC -GCAGGTGCCTGACGCTGTTGCCAGTATTGCCCCCACACATCTGCGCCAATATGCAACCGCTGCGGCGCAAAATAGAGCCC -ACAGGAACGTACCAGCGCGGTATCGCGCGTTATGCTCTCCCCAGCCTGACAACAATAAACCTCTTCCGGGGAGTTTCCGC -GACACTGGTAGGGCTGCTCCGGTTGATGGGTATCCTCCAGCCAGGCGTAAACATACAGTTTCCACAAACTCCCTAACGGC -GTGGTGAGCGAGTCAGGTAATGCTGAGACTTTGGTCACGCCTGATGACGACAGCTGATACAGTTGATCGTGCTGCGCACC -GCGCAGCACCAGTTGTAACGGCGTCTCCTCCGCAAGTGTTGGCAGAGTAACCAACGCCAATAGCCAGACGATTCTGCGCC -AGTTCACTTATTTCACCTGCATCCCGGTCCATTCACTCCCTGCCGCAACACTTTGCTGCGCAGGTGCATAGGAACGCACA -TAACGAGCAGGAGGCAGAACGAATTGCCCTTTTTGCGAGAAGCGCAGCAAATGGCGGAAAGTGACCGTTCCCGTCAGTTC -TTTCACCGGCACCATATAGGCCAGTTCGCCCATTTCATTTCGCGCTTTTTCCAGCAATTGCCCCTGCTGTTTCGCGGCGT -TGGGTTTATTGACCGAAATGCCCCATGTTGTGCGCTCAACGTCGGCTCCCGGTGGCAGCGGTACTTCCACCTGACCGTAG -CGCAGAACTGCATCCTGCTCGCTGGTAAGCGTGATTTCATCGAGATACAGCGCATCGCTGTCAATCTCATTGCTGGTCAC -CGGTTGCAGAATAAAGCTCATCTCTTCTTCACCAGGGATAAGCCGATACAACTGGCGTTCAACGGTCACCGGAATGTTAC -TTTGTTGAGCCATTTTTGCCGGCTCACGTCAGCGGACCTGCACATTTTGCGGCGATAATTCGTCACCAAAAGAGAGAATG -TCCGGCACGCCCTGACCAACCCAACGCCAGTCTTCGCCCCCTCCAGTTAACTTATGTTTAGCCCATGCGCCCGCAGGCGC -AGGCAAAACAACTGGAGGCATTGTCGCCATATATTTCGCCAGCCAGTTCATGGCCAGCGCGCGCTCAATAGTGGATTGCT -CAGCGGTCAAACCACTTAAAATAGCGGCCGTCTGGGTAGCGTCGCCACCGCTATTAAGCAGCACAACCGTGTGCGCCAGC -GGCTGATTGCTGTTTGCCGCTTTATCCCACGCATATTGCTGAACCTGTGGCATCACCGTGGACTTCAACTGCGCTTTTTT -CAGCAACGTCATGGTTAAGACGTTTGCCACCGCATCTGCCAGTGGAGACTCCGGTGTATCGAGGATCAGGCTATCATTGA -TATCGCGGGTGTCTTCCTCAGAGAAATCTTCAGTTTTAGTTCCGCGCCGGGCGATAGCTTCATCCAACCCTTTCAACAAC -GTTTTGCACGGCAAATTCATCTCCTGCGCCCATGCCAGCACCAGCGCCCGATGCAATAACGGCATGTTATCTGCCTGCTC -CGCGTAGCTGTCGAGCATATGCTGCCAGTATTCCGGTTGTTGCGTTACGCCGATCGCCTGGCTGGCCTGCCAGTCGGCGT -ACCATGCCCATGCCGTAAGGAAGGCGTCACCATTGCCATCTTCACCCCACCAGGTAAAGCGCGCTCCGGGCCCCGCCAGT -TGCATCAGCCGCAGACGGTTATCCTGAATCATCTGACGAATGTCGTTAGCGGCGGCACTTTGATGATCGGCAAGCGAACG -CCAGGCGAGACTGAGCGGGATCAGACGGCTACCGGTGTTGATTACGCCACCCCACGGTTCATCGACTAACGCATCAAGAT -TGTTGCGGAAAATCTCCTGCGGCGTTTCACTACTTTGTAGCCGGATATTGCTCGCCTGCTCGGGCAACATCAGCGCGTTA -TCGCCACCACCGAGCATGACATTTTTCTGCTGTTCAACGGGCCAGCTGTTATCCACAAAAGACAGTTTTGTGCTAATGCT -GTCCTGCACTTGCCCATTTTGTTGCAGTTCTGCACTTAACAAGCCAGATTGCTGAATATTCTGCGTCAGCGAAATATAAT -TCGCCCCTTTGTGCAGCGTCAGCGTCTGGCGCATCTCAGCGCCTGCAAATTTAGTCACCAGCGCCACCGGTTCGTTATCC -TGCTGACTGAAGATAAACAGTCCTGCCGCCGGTTTGTCGCCCACGCGATACACCGTTGGCATACTCCACTTCATGTAGAG -ATTTTTTTCCGAACGCAGATAAGCACGCCCCTGCCCGACCAGCCCGTCGCCGTTCATCCCACGCGCGGTGATACGCCAGC -GGGTTAACGAATCAGGCATCAGGAACGTGAAATACGCTTTGCCTTGTTTATCGGTTGTGAGTGACGGCATCCATGCCGCG -GTATCCACCTCTTCACGCCGTGGACGTTCAAGCATTTTTACTCGCCGCTCGCTGCGGTTAGTTGCGCCAGGCGCAACCGG -CTCGCTGGAGAGCGCCTGGTCGTAGCTGATAAACGACAGACTGGAGCTGGTACGCACATTGTTACGCCCCAGCGGATAGA -AAAATTTGCCGATATTCGGCGCGATTTCTGGTTGCAGCGCGTAGATCATTTCATCGACCACGCCTACCGTTAGCTGCGCA -GAAACAGGTTTACCTTTCAGCGACGAGGTTAATTCGACATTGACCAGTTCACCAGGCTGGTAATGGGTTTTGTCCGTTTT -CACCCGGATATCCAGCTGGGGAACGGCAACTTTGATCCCGGCGTTCTGAAAACTGTACTGACCGTTACGGGTATACAGCA -CCGAAAAAGTGATGTTAGGCGCAAAGGAATTGCTCACTGGAACCCGGGCTTCATACTGGGTATCGTTTAAACGTTGTAGC -GTTAGCCAGTTTGCCGGATGCGAAAGCAGCGACTGCTGTTCCACGCGATCGCGTTCCAGCGTCAATAATGCTTCATCAAT -TGGCTCCGGAAAGGTAATCAGCATCTTCGCGGTTTCGCCTGGCTGGTACAGCGTTTTATCCGCCACGATATCTACCGTAC -CAGTATGCGCCGTGCTGCCCTTACCGCTGACGGCATGACTTAACCCAGCGAGAATTAAGCCGTCTTTATCGCGTAATGTC -AGATTGTAGTTGCCAGGTTTAGCGAAATTGACGGTAAAGGATTTGCCGCCTGACGGTAGCTCTCCGCTATGGCTCGTGCG -GTCTTCGAGACGCAACCATTCATACGTAACAGGAACCTGTTTTGAAGATTCCAGCGCGGCATAACGGAACACAACCGACT -CGCCGCTATTACTGTATTGTGCGGCAGTACTTAATGAGTAATGCGCCAGACCGCGTTCAATGAGGATCTCTTTGGTGGTG -GTGACGCGATACGCCGCGCCGTCACTGGCGGAGACGGTTAACAAATAGCGGCTCGGTTTATCGGCGGCGGGGAGATTTAA -CGCCACATGACCGCTGGCGTCGGACACCGTTTCGCTGCCTTCCAGCGACACGGGGAAACGTCCGGCATAACGCAAATCGT -TACCGACCATTGATAATTGCTGAGCGCGCAAACTTAACTGCACGCGGGCATTTTTTACCGGCTCGCCATCCGGGTAGAGC -AGTTGCAGTTTGCCGCTGACCGCTTCGCCAGTTTTGAACTCTTTTTTGGCGAGAGCTAAACCAATCTCGAAATGTGGCTT -GATGTAGTTTGCCACGCGAAAACTGCTGCTATAGACCTGATTGCGGTAAGCAAGACGTAACTCATAACCTCCGGCTACGG -CATTTTCTGGCAGGCGGAAACTTCCCTGCCCGCCATTGCGCGCATCCAGCGTGACATTGACGGTTTGCAACAGACTGCCG -TTGGCGTCCAGCACCGAAAGCTTCGCCGGGGCGCTGACGATGGGGGATGAATGCAACGGATCGTGGAACTCGCGGCCGAT -CACTTTAACATCGACACGATCGCCTGCGCGATATAGCGGGCGATCGGTAAAAATATACAAGCGGGTGTTGTAGATTTCGC -TTTCGTAGAAGAAGTTCTCGGAGACAAAAACGCCGCCTTCAGCATCCTTACCCAGAATGTATGAACGTTCTGGCGATATA -TGTTGTAACTGCAAGGTACCGCTGTCATCGGTCACACCGCGGGTCATCACGCCAAGACCGTCAGTCCACAAGATCTCTGA -GCCGGGCTTCGCTTCACCCTGTTTTTTACCCGCGGTCCACACCAGAAGCTCTTTGCCTGACACTTTGCTAAGCGCCACGG -TATCGGAAACAAACACCACCGTCGTCGCCCGATACCCACCAACCATCGCCTCGACGAGGTACAGTCCCGGCTCTTGTTGG -CCGAGAGGAATATAAATGTTACCCGGCTGCGGCGAGATGAAATTGCTGGATGCGCCTTCCAGTTTTACCCCTTGCTGCGG -CTCGAACGGTTTAGCCTGCCATAGTGGATAACGGAACTGTTTCACCAGGGGATATTTTTTCAGCGGGGAAAACTGGTTGT -TCTGTACATAACGGGAAGGTTTAATAATGGCATTGCCGAGCTGTAATTCGGGTAACGCCTGAGTCACATTCTGCCGTGAC -TGAGAAGAGAAAGTACGCTGCATCACGCGGCGAGATTTGCCGTACCAGTTATCCCACAGCCAGGTTAGCGTATTGTTCAG -CCCGTCGCCCAGATATTGCGGTTGCACCACAATGCGATGCAGGTTTTTCTGCTGGCGCAAAAATGCCATCGGGTCAGGAA -TACGATACAGGCGAACGTCCACGCCGCCGTACTCTTCCATCTGATAGCGCCGATAATCACGCCCCGGCGCTTCCAGTCGC -ACTTTCGCCTCTTCACTGCTGCTAAAACTGCTGTCAGCAAGCAAAAAGAATGTTCCCCCGGCAGGCGGCGCATAGTTGCT -GGAAGGAAGCGAATCATCAGCATTAGCAAGCCCTGTTCCCACAAGAGACAGGGACAAGCACGCTGCTATCGCGCCAGAAA -ATTTAAACGATAAATGCCAATGAAATTGGGATTGGAATCGTTGGGTATCCATCGGGTGTCCTTCCATGTCATAAGTTGTT -GCAGACTGACTGCGCGCATTCCGTTGTCAGTTTTCGTGGCGCTTCCGGTGTGGTAGATGACGTAACGCCCCATCCAGACC -ATTAAGTGCTGGGCATCGCCCTGATCGAAAAAAATCATATCGCCAGGCAGCGCCTGGTTTATGTCCTGGCCAATAAACTG -GCTGTTGTACTGAATCAAATTAATCGCGGTCACATAGGGGCCGGTTTTCCCGTTCCCCTGATTCCAGTTTTGCGCCAGTT -GACGCTGTTCAGGTGTTAGCGTCATCTCTGGCGGCAAATACTGGCTAGATAAACCGTTACTTTTTAGCCATTTACTGTCG -TGAACTTTCAGCGTCTCGTTCGCCGCAAATCGCACCAGGCCCGCACAATCCTGCTGATACCAGCGTGGACTTGGCCCCTG -GCGGAGCTGTTCTTGTGCAATGCGTACAAACCAGGCGCGAAACAGCCCGGATTGTTCGACATTCAGCATTTCGCTATGGG -CAACAACACAACACAGCCAGCAAATCAGCGCCAGCAGCCCGTGCCTCATAGCGGCTGCCAGGTTATGGGTAGCCACTGCC -AGGCGGCACCGGGTTCCATCTGGGCCAGCTTCATGACATAACGCGGTTGTTGAGATAAAGCGTCCAGCTTCGGCATTAAT -AAAGTTTGTGCGGCGTTATAAAAAACCGGTTCGAGATTCTTCGGCAGACTGGTCAACGTTTCGTTACGCAGCAGTTTCGC -TATTCCTTGTGGATTGATATAGAGCGGAACGATGCCATCAGTGGGTATTACATCCACCATTGCCGGGCGGGTTTTATTCA -GTGTTTGCAGCGCGTTATTAACCAGCGTGTCATCGAGGGAGAAAAGCAGCGTTTTGTTTTGCATCGCCAGCGACACACGG -AAAAAATAATCCGACATTAATTGATCGGGTTGCGCCGCCTGCGCTTTCGGATACTGGCCGTATCGGGAACTCACTTCGCG -ACGCCAGATTTGCGCTTCGCCCTGCTGAGTCTGGCTTACCGGCAAAACACCTTCTGGCGCTTTGCTTTCGTGCGCACCAA -TATTTTGCGTAAACAGTTTCCCTGGCAATTGCGCCTGTTCGGCAGTGCCATCAAACTGACCGACAAACAGCGGGGTTTGC -AATTTTGAGTCTTCATACCAGCACAGCCCCGCGGCACCGTCTAACGCCCCATTCAGCTTGTCGTTTTCCTGGCTGATGTG -CGAAAGCATCTCTTCGGCAATACCGTGTGAATACGGCACCGCCACACAGAAGCTGGCTCCGGCAGGCATACTGTTCCATA -CCGGCGTAAAATCGAAACTGGCATCTACGCTGGCGGATTCATCATTTAACGCCACAAAACTGTGCCAGCCGTCGTTACCC -ATTTCGAAGCGTACGCCAGCAAAAGAAGGCATTAACCGCTGGTAGCCAAACCCCAGCCACCTGGCGCTGACTACGATGCG -CTGGCGTACTGGCGTTTTTTCGGCAGTACGCTCTTCCAGGCCAAAGCTTGCTTGCCAGCGTTTTTTGCCGCTCAACAAAT -CACCTGCGATCGCCGTGGCTTCGGTATCCTGCTGATCATCTTTAAACAACATATCCGTGCTGGAAAACACCAGCATCTTG -TCCTGATAAGTCGCGAACATCAGGGCGTTATTGCCGTTATAGCGCAACTGATAAACAGGAACAGTTTCACTATTTATCTT -GATGCTACTGATTTCCGTTTTGCTTAACTGGCTGTCGCTGGTAGCGGCAAACAACAATGGCTCCAGCAGTTTGCTTAAAC -CACTGCGCTGGATCAGCACCATATAATGTGAAAGATGGCCTTGTTTATCGTGCCACAGCGCTGCCTGCGCGGGCTGATCT -AAGAGTGACGAAAAGAGCTTATCTTTCAGCGTGAGATCGTGTTCATAGACAATACGACGAATGCTGCCTTCAATGCCCAG -ACGATCGGCATGATTCTGATAATAGAAAACGAAATCTTCGCTCAGAACATCGTGGAGAAACGGAATGGTGAGGAGATCTT -TGGGAAGCTGGCTCAGAGAGTCGCTGTCGAGAAAGAGGTCCGGCTCATTGAGATCGATTTGCAGATTGTTGTGCACCACC -AGCGGCGACAACGTTTTTTCTGGCCCACTGCCAGCATATTGCAACGCCCAGACGCCAGCGGAAAGCAGTGCTATTGCGCC -AAAACCTACAAGACCATAGAACCGCCAGCCTTTCGCCTTTTTTTCACCACTCATTGCCACATTCCTTGTGTATAGCCAGC -CATTTTTTACGGGCACAGCCAAACTTTACCGTGCCCTAATACGACAAAAGCCCAGACTTTGCAGCCTGGACTTTTCAATT -CAAACAAGGGAGATAGCTCCCTTTTGGCATGAAGAAGTAAAATTATTCTTCTTCTGGCTCGTCGTCAACGTCCACTTCCG -GAGCGATTTCATCGTCCCCTTCCGCGGCACTGCCGTCGATGGTATCCAGATCTTCCTCGTCAACCGGTTCAGCAACACGT -TGCAGACCCACTACGTTTTCATCTTCCGCAGTACGGATGAGGATCACGCCCTGGGTGTTACGGCCCACGATGCTGATTTC -CGAAACGCGAGTACGTACCAGCGTACCGGCATCGGTGATCATCATGATCTGGTCGCAGTCATCTACCTGTACCGCGCCAA -CAACTAAACCGTTACGTTCGGTAACCTTGATGGAGATAACCCCTTTCGTCGCACGCGACTTGGTTGGGTATTCCGCCACT -GCGGTACGTTTACCGTAACCGTTTTGCGTTGCGGTGAGGATTGCGCCATCGCCACGAGGCACGATCAGAGAGACGACTTT -ATCGCCTTCACCTAAGCGAATACCGCGAACACCGGTGGTGTTGCAGCCCATCGCACGGACAGAAGACTCTTTAAAGCGCA -CCACTTTACCTTCAGCGGAGAACAGCATTACTTCGTCTTCGCCGCTGGTCAGGTCAACGCCGATCAGCTCATCGCCGTCA -ACCAGTTTGATCGCCACTTTACCGGCGGTACGCAGACGGTTGAACTCGGTGAGGACAGTTTTCTTCACGGTACCGTTAGC -GGTCGCCATGAAGACTTTCACGCCTTCTTCAAACTCGGTCACTGGCAGGATCGCAGTGATACGTTCGTCCTGCTCCAGCG -GCAGCAGGTTGACGATCGGACGACCGCGCGCGCCACGAGTGGCTTCCGGCAACTGATAAACTTTCATCGAATAGACGCGA -CCACGGCTGGAGAAGCACAGAATATGGTCGTGAGTGTTCGCCACCAGCAGTCGGTCGATAAAGTCTTCTTCTTTAATACG -TGCGGCAGATTTACCTTTCCCGCCACGACGCTGCGCTTCGTATTCAGAAAGCGGCTGATACTTAACGTAGCCCTGGTGAG -AGAGCGTCACGACCACATCTTCCTGGGTGATCAGATCTTCCAGGTTGATGTCTGCGCTGTTGGCGGTGATTTCAGTACGA -CGTTTGTCACCGAACTGTTCACGAACCAGCTCCAGCTCTTCACGGATCACTTCCATCAGACGATCGGCGCTACCAAGAAT -ACGCAACAGTTCCGCGATCTGATCCAGCAGCTCTTTGTATTCGTCGAGCAGTTTTTCGTGCTCAAGACCGGTCAGTTTCT -GCAAACGCAGATCCAGAATCGCCTGAGCTTGCTGTTCGGTCAGGTAGTACAGACCATCACGCACGCCGAACTCTGGCTCC -AGCCATTCCGGACGCGCAGCATCGTCGCCAGCACGTTCGAGCATCGCGGCAACGTTGCCCAGCTGCCACGGATTAGCAAC -CAGCGCAGTTTTCGCTTCTGCAGGCGTCGGCGCATGACGGATCAGTTCGATGATCGGGTCGATGTTCGCCAGCGCCACGG -CTAATGCTTCAAGGATATGAGCACGATCGCGAGCTTTACGCAGTTCGAAAATAGTACGACGGGTCACCACTTCACGGCGG -TGACGAACAAACGCCGCGATGATGTCTTTCAGGTTCATGATCTTCGGCTGACCATGGTGCAATGCCACCATGTTGATACC -GAAAGAAACCTGCAACTGGGTCTGGGAGTAGAGGTTGTTGAGCACAACTTCACCGACCGCATCGCGTTTCACTTCAATCA -CGATGCGCATACCGTCTTTGTCAGACTCGTCACGCAGCGCGCTGATGCCTTCCACGCGTTTTTCTTTTACCAGTTCCGCA -ATCTTCTCGATCAGGCGCGCTTTGTTTACCTGATACGGAATTTCGTGGACGATAATGGTTTCACGACCGGTTTTGGCGTC -AACTTCCACTTCTGCGCGAGCGCGGATATACACCTTGCCGCGACCGGTACGGTAAGCTTCTTCAATACCGCGACGACCGT -TAATGATTGCCGCCGTCGGGAAGTCCGGCCCCGGGATGTGTTCCATCAGCCCTTCAATGCTGATGTCTTCATCATCAATA -TACGCCAGACAACCGTTGATGACTTCCGTCAGGTTGTGCGGCGGGATGTTGGTTGCCATACCTACGGCGATACCGGAAGA -ACCGTTCACCAGCAGGTTAGGAATTTTGGTTGGCATGACGTCCGGAATTTTTTCCGTGCCGTCATAGTTATCAACGAAAT -CGACCGTCTCTTTTTCGAGATCGGCCATCAGTTCATGGGCAATTTTCGCCAGACGGATTTCCGTATAACGCATTGCCGCC -GCAGAGTCGCCGTCGATAGAACCGAAGTTACCCTGACCGTCTACCAGCATATAACGCAGCGAGAATGGCTGCGCCATGCG -GACGATCGTGTCATAGACCGCCGAGTCACCATGGGGATGGTATTTACCGATTACGTCACCAACGACACGGGCAGATTTTT -TATAGGCTTTGTTCCAGTCATTGCCTAGTACGTTCATGGCGTAAAGTACGCGACGGTGTACCGGCTTCAGGCCATCTCGG -ACATCTGGCAGCGCACGGCCAACAATGACCGACATCGCATAATCCAGATAGGAGCTCTTCAGCTCTTCCTCAATGTTGAC -CGGTGTAATTTCTCTCGCAAGGTCGCTCATCTAACCGCTATCCCTCTACTGTATCCCGGATTCAAAGGTCGCAAATTATA -ACACAGCCGCGCAGTTTGAGGTAAACCTATACGCTTTATTCACATCCAATGCCTGATATACTCGTTTGTCTTGCCAATTA -CGGAGTAGAAGTGCCAATGAATGCCGAAAAATCGCCGGTAAACCATAACGTAGACCACGAAGAGATCGCTAAATTTGAAG -CCGTCGCCTCCCGCTGGTGGGATCTGGAAGGTGAGTTCAAACCGCTGCACCGCATTAACCCGCTGCGTCTGGGCTATATT -GCCGAGCGTGCTGGCGGTTTATTTGGCAAAAAGGTGCTCGATGTCGGTTGTGGCGGCGGCATTCTGGCCGAGAGTATGGC -GCGCGAAGGCGCGACGGTGACCGGTCTGGATATGGGCTTTGAGCCATTGCAGGTGGCAAAACTGCACGCACTGGAAAGCG -GCATTCAGGTGGATTACGTGCAGGAAACCGTGGAAGAGCACGCGGCAAAACATGCCGGGCAGTATGATGTGGTGACCTGC -ATGGAGATGCTGGAGCACGTCCCCGATCCGCAGTCAGTGGTCAGAGCCTGTGCGCAACTGGTGAAACCAGGCGGCGATGT -CTTTTTCTCGACACTTAACCGCAACGGCAAGTCATGGCTGATGGCGGTGGTTGGTGCGGAATATATTTTGCGCATGGTGC -CCAAAGGCACGCATGATGTGAAGAAGTTTATTAAACCGGCAGAATTGCTGGGCTGGGTGGATCAGACCAGTTTAAAAGAG -CGGCATATCACTGGGCTGCATTACAACCCGATCACTAATACTTTTAAACTCGGCCCCGGCGTGGATGTGAACTATATGCT -GCACACGCAGAATAAGTGAGGTTGATGTTTGGCCGCGCCAATGCCTGATGCGACGCTTGCCGCGTCTTATCAGGCCTACA -AATGCTCCCCGTAGGCCGGATAAGGCGTTTACGCCGCATCCGGCAACCGTGCCGACTAGACAGTGATTACCATTTCACCG -TCATCGACAAAAACCCTGCCGTCTGGGCAAAATCATCACTCCCTTTCTGCCACGCCACGCTGCCGCGCAGGGACACTCGC -TGACTGATATTGCCCGTGACTCCCACTTTTATTTCACCCCGTTGCTTCACCGCATCGTCACTGATAGTGCTGCCATCCTC -TTCAATTTCCGTCGAATGGGGATCGTGATAATAATTCAGATCTAATGTTGGTATGACATGAACAGCGGTACGCCATTCGC -TGTGTAAACCCAGCCGCGTCTGAATATCATCACCCTGCGATTGTGACACGCGCGCACGGTTAGCGGCGGTAAAATCATCC -TGCTGCACGCCCTGATAAATCACCTGCGCCTGCGGTTCAATCACCACACCACGCCCCGGTAACCACTGATACCCCGCCTC -CAGCGAGGCGATAATCCCCGACGAGTGGTAATGATCTGTGCCATCTTCTTGTTCGGAAACATCATTGCTAAACCACGCGT -ATTGCAGCCAGCTATCCAGCCAGGCCCCTTGCTTCTGATTACCGTGCTGAAACCAGCTTGATGTCAGCCCAACGGCATAA -CCGTGGTTCTGGTTATCGGCGCGAGTTCCGGTCATATTCGAGCGGCTGTCGCCCTGGTTATCGCTGTAGCCACCAACAAT -CCCAAGCATCCACTCGCCATCCGTGCCCCAGCGCCCGCTAAACAGATCGCCGCTAAGTTGCACCGTAGAAGTGTCTTCAT -GTTGAGCCAGTTGCCCCGCTGCTGTGTAATGATAATCTCCGCCGATAACACGTAAATTCAGCGTCTGACCATCGCCACCT -GCGTGATCGCGTCGCTCCATCATAAACGCCTGATTTGCCGCCCGCAGGTTATTAAGATAACCGCCAACTTTGGCATTCAA -CACCGGCTGGTAAGCAGGCGTAGGTTCCGGGTCGGGTGTTGGATCAGGATCCGGCGTGGGATCAGGATCGGGAGTCGGGT -CTGGATCAGGTGGCGATGGCGGCGTTACTTCTTGCGATCGCAGATACCAGTCGTTGTTATCTTCCACCAGCGTGTAGTCA -TACGCTCCCATATTGACGTAGCCGCTGCCTGCCAGACTGAACTGCGCATTGTTTTGAAACTGCGTGGGATCAGCTGCGAA -ATCAACCACTTTAATGCCTGTCGATGTCGGCTCACCAATCCCTGTAATGGAGTTAACCACCACAGTTGTGTTGCCAGCAG -TATTACCGTTCATCACCAATTGATCGCTTACCGAGTCATCGCCGTTTAATTCGCTATCGAGCAGTAGCGTACCGCCGCCG -GTATAATCACCGTTTACCGTCAGCGTATCGCCAGCGACGCCATTTTGCAGGCTAACCGCACCGGACGTATTGGTCAGATT -GCCATTAACCGTCACGTTGGAAAGATAAGTCAGGCTGTCAGTTTCAAGGTTGGTATTAAGCTCACCTGTCAACGTCACAC -CATCGGTGGCATTCACCAGCGTCCCATCGCCGTTAAATAGTGAGGCATTAAGGGCGACGGAAGTATCCTGCCCGGTCAGG -CGCAAAACCGTACCATCGCTGATGTCGATAGTGCCGCTGGAAATAGCATCAATTGACTGAATATCCTGATCCGCGCCAGT -AACGAACGTTGCCCCATCACCAACCCACAGTGACGAAGCATAAGGAAGGATATCAGCAACATCACCTTTCAGGGTGCCTT -CTTCGACACGTACCGCCGACTGCGTTGTACCGCTGGCGGTCAGCTCCAGTGTACCAGCCCCCGTTTTAGTCAATGTGCTA -CCCTCATCCTGATGCTGCCCGCTGCTGTCAGCCATCAGTGCGCCCCACTGCGTGTCTACCCCCGCATCAACTGCCACTTC -ACCGTCGGCGCGCATTTCAATATCACGTCCGTGGCCTGCCGCATCTGAACGCGTGTCAACGTCGGAGGTAATCTCCATCA -CGCTTTCTTGTTGCTTATCGGTAAAGATAACCTGGCGGTTATAGTGGGTATCTCCAAGCTGCGAGTTGTCGCTCACCATC -AGCGTACCGGAGGCGATTTGTGTTGTGCCCAAATAACTATTATTGTTTGCCAGACTTACCTGCCCGTCGCTCGCATCGAC -CACCACGTAGACGCCATCTTTCCCGTCGCCGCCGATATGCAAATTGTCGCCACCTGCAAGATCTACCACATCCTGACTGC -CGATAACCGTTCCGCTGCTGCCACTGACTTCAAGGCCATCGTTGTATGATGTGCCGCTCTGCCAGGTGGAGAAATCAGAG -AGATCGAGCACACCGCCGTTTAACACGATCGACTGCGGATCGTCCTGGAGAGCGGTAAGATCTGCCGCGTCGCCTTCCAG -CGAAAGCACCGCACCATCATCAACGACTATATCGCCGGTTAGCGCCATCGACTGCGCCCCTGCCAGCACGTAGCTGCCGT -TTTGCGCAATGGTGAGCTGACCAGCACCTTCGATGATGCCAGCAAAACTGCCCTGATTAACAGTAACGTTGCCACCAGCA -TCGATATTTAAAGTGCCATTCTGAAAGCCCGTCAATGCGTGCACAAAAGTTTGTTGGGTCGAGCCAACGTTTAGCTCAGC -CTGATTCTGATACTGATCAATACTCCCTATCGTCAGACCGTAGCAGTCTTGCGGATCGTCCTGGCAATGCGTATCGCCGA -CATTCATCAGGGAGTTGCTGCGGCCCAGGGTAACTTCACCGTTTTCAATCTGCATCTCACCAGTAAAGTCATTGTTATCT -GCATTAAGTACCAGATCGCCGGAACCTGTTTTGGTGATTAACCCGGTACCAGCAATAGAGTCAACAGCTCCGTCATTCTC -TGTATTGCCAATAACCAGCGTTTTTCCGTCGGCAATATCAAAGGTAACTTCACTTAAGCCGAGATACATAAAGCCACCCG -CCGCAGAGGAAGGACCATCTCCATAGCCTGCTGCGCTATTGTTCTCATCGACTAACACGCCTCCGTTCTGGCTGTAGCTG -TCATCAACAGAAATATCAATAAGATAGGGAGCCGTCACGCTATTGGTATATATCGCCCCGCCATAACCTTCGGCAGTGTT -ATTTGTAAAGGCAGTGTTATTTACTATCGTATAACCTGAAGGATGCTTGCTGTCGCTATTATTATCGGTAACATCGATTG -CCCCGCCATCGCCATCACTGTAACTTGTTGATGTATATGCCTGGTTGTTATCAAAAATAACATCACTTAAATAAACGTCA -TTATTAATGGTATAAATTGCGCCACCTTTGCCATCATTAGCGATGTTATTGCGAAACATGGCGTTAGTGACACGTAAATC -GACGGCACCAGTATCGTTAGTACCAGAAGAATAGATTGCGCCACCATAGCCGCCTGCGACGTTACCGGAAAAAATAACAT -CAGTAAGATTCAGCGTTGAGTTTTCTTTAGCAAATATGGCCCCGCCGTTATTATATTCTCCTGTAACGGTGTTATTGGCA -AACAGAGTCATTCCAGTTTCATTTTCTGGTAATAGTGAAAATTCCGCTCCTTGTTGCAAAAATACGGCCCCACCGCTGGC -GTTATTGGTCATATCCGAAAAAACCAGCCATTGCCCATCAGCGATACTCCAGTCCTGCGTAATGCCTGAAAGGCTTTGCC -TGCTGGCCTGACAACTCGCTTTGACATCATATCCCTGGCATGAATCAGTGACCGCCGCGACACCGTTAGCAGAGAAAAGA -GATGCAATCATTGACGGGAGTAAAGATAAATACTCCTTGCGTAGAAAGATAATCCGCATATTAATCTAACCATCATTTTC -TATAAGACGGCGTATTTAATCGCATTATACGATATGGAATATCTTTCTTTTGTAAATTGTTCAACCCGGTGCAATGGCTA -TTTTGTTATTATTTGATGAATAATATCAGTGCGTCATAATTCAAGTTAATAACCTTCAGGGATATCAGTTATATTTAAAC -TAAATTAAAGTCATGAATAATTTTCTTATAATATAAGGTAAATTAACAAAATGGCTTAGCATTTAACAATAACCGAATAG -AAAACAACCATTTCGCCATCAACAATCTCTTACATTCGCTTATATATTGACCACAACTGATACATCAGATTATGTGATGA -CTCGTGCTTAGATCAATTTTTGCAATCATTAGCAAAAAGATTAATAAGCCATCTATATCAATTTATCTAACCTATTATGC -CGTTCAAGAAATCGCCGAACAGTTATTTTTAACAAATTTTTCTCTTCCCATTGACTTTCCCGGACACCTTGTCTGACCTA -AGGTGCGCGAAAGCCACTTTTTCCTTCCTGAGTTATCCACAAAGTTATGCACTTGCAAGAGGGTCATTTTCACACTATCT -TGCAGTGAATCCCAAACATACCCCCTATATATAGTGTTCTAAGCAGCTTCCCGTACTACAGGTAGTCTGCATGAAACTAT -TGCGGAAAGAATTCCAAAAACAGGTACGACATACATGAATCAGAATCTGCTGGTGACAAAGCGCGACGGTAGCACAGAGC -GCATCAATCTCGACAAAATCCATCGCGTTCTGGATTGGGCGGCAGAAGGACTGCATAACGTTTCGATTTCCCAGGTCGAG -CTGCGCTCCCACATTCAGTTTTATGACGGTATCAAGACCTCTGACATCCACGAAACCATTATCAAGGCTGCCGCAGACCT -GATCTCCCGTGATGCGCCGGATTATCAGTATCTCGCCGCGCGCCTGGCGATCTTCCACCTGCGTAAAAAAGCCTACGGCC -AGTTTGAGCCGCCTGCGCTGTACGACCACGTGGTGAAAATGGTCGAGATGGGCAAATACGATAATCATCTGCTGGAAGAC -TACACGGAAGAAGAGTTCAAGCAGATGGACACCTTTATCGATCACGACCGTGATATGACCTTCTCTTATGCTGCCGTTAA -GCAGCTGGAAGGCAAATATCTGGTACAGAACCGCGTGACCGGCGAAATCTATGAGAGCGCCCAGTTCCTTTATATTCTAG -TTGCCGCGTGCTTGTTCTCGAACTACCCGCGTGAAACGCGCCTGCAATATGTGAAGCGTTTTTACGACGCGGTTTCCACA -TTTAAAATTTCGCTGCCGACGCCAATCATGTCCGGCGTGCGTACCCCGACTCGTCAGTTCAGCTCCTGCGTACTGATCGA -GTGCGGTGACAGCCTGGATTCCATCAACGCCACCTCCAGCGCGATTGTTAAATACGTTTCCCAGCGTGCCGGGATCGGCA -TCAACGCCGGGCGTATTCGTGCGCTGGGTAGCCCGATTCGCGGTGGTGAAGCGTTCCATACCGGCTGCATTCCGTTCTAC -AAACATTTCCAGACAGCGGTGAAATCCTGCTCTCAGGGCGGTGTGCGCGGCGGTGCGGCAACGCTGTTCTACCCGATGTG -GCATCTGGAAGTGGAAAGCCTGCTGGTGTTGAAAAACAACCGTGGTGTGGAAGGCAACCGCGTGCGTCATATGGACTACG -GGGTACAAATCAACAAACTGATGTATACCCGTCTGCTGAAAGGTGAAGATATCACCCTGTTCAGCCCGTCCGACGTACCG -GGGCTGTACGACGCGTTCTTCGCCGATCAGGAAGAGTTTGAACGTCTGTATACCAAATATGAGAAAGACGACAGCATCCG -CAAGCAGCGTGTGAAAGCCGTTGAGCTGTTCTCGCTGATGATGCAGGAACGTGCGTCTACCGGTCGTATCTATATTCAGA -ACGTTGACCACTGCAATACCCATAGCCCGTTTGATCCGGCCATCGCGCCAGTGCGTCAGTCTAACCTGTGCCTGGAGATA -GCCCTGCCGACCAAACCGCTGAACGACGTCAACGACGAGAACGGTGAAATCGCGCTGTGTACGCTGTCTGCTTTCAACCT -GGGCGCAATTAATAACCTGGATGAACTGGAAGAGCTGGCAATTCTGGCGGTTCGTGCACTTGACGCGCTGCTGGATTATC -AGGATTACCCGATCCCGGCCGCCAAACGTGGAGCGATGGGTCGTCGTACGCTGGGTATTGGTGTGATCAACTTCGCTTAC -TACCTGGCGAAGCACGGTAAACGCTACTCCGACGGCAGCGCCAACAACCTGACGCATAAAACCTTCGAAGCCATTCAGTA -TTACCTGCTGAAAGCCTCTAATGAGCTGGCGAAAGAGCAAGGCGCGTGCCCGTGGTTTAACGAAACCACTTACGCGAAAG -GGATCCTGCCGATCGATACCTATAAGAAAGATCTGGATACCATCGCTAATGAGCCGCTGCATTACGACTGGGAAGCTCTG -CGTGAGTCAATCAAAACGCACGGTCTGCGTAACTCCACGCTTTCTGCTCTGATGCCGTCCGAGACTTCTTCGCAGATCTC -TAACGCCACTAACGGTATTGAACCGCCGCGCGGTTACGTCAGCATCAAAGCGTCGAAAGACGGTATTTTGCGCCAGGTGG -TGCCGGACTACGAGCACCTGCACGACGCCTATGAGCTGCTGTGGGAAATGCCGGGTAACGATGGTTATCTGCAACTGGTG -GGTATCATGCAGAAATTTATCGATCAGTCGATCTCTGCCAACACCAACTACGATCCGTCACGCTTCCCGTCAGGAAAAGT -GCCGATGCAGCAGTTGCTGAAAGACCTGCTCACCGCCTACAAATTCGGGGTCAAAACACTGTATTATCAGAACACCCGTG -ACGGCGCTGAAGACGCACAAGACGATCTGGTGCCGTCAATCCAGGACGATGGCTGCGAAAGCGGCGCATGTAAGATCTGA -TATTGAGATGCCGGATGCGGCGTAAACGCCTTATCCGGCCTACGGCTCGGTTTGTAGGCCTGATAAGACGCGCCAGCGTC -GCATCAGGCTCCGGGTGCCGGATGCAGCGTGAACGCCTTATCCGGCCTACGGCTCGGATTTGTAGGCCTGATAAGACGCG -CCAGCGTCGCATCAGGCACAGGATGCGGCGTAAAATGCCTTATCCGGCATTAAACTCCCAACAGGACACACTCATGGCAT -ATACCACCTTTTCACAGACGAAAAATGATCAGCTCAAAGAACCGATGTTCTTTGGTCAGCCGGTCAACGTGGCTCGCTAC -GATCAGCAAAAATATGACATCTTCGAAAAGCTGATCGAAAAGCAGCTCTCTTTCTTCTGGCGTCCGGAAGAAGTTGACGT -CTCCCGCGACCGTATAGATTACCAGGCGCTGCCGGAGCACGAAAAACACATCTTTATCAGCAACCTGAAATATCAGACGC -TGCTGGATTCCATTCAGGGTCGTAGCCCGAACGTGGCGCTATTGCCGCTTATTTCTATTCCGGAACTGGAAACCTGGGTC -GAAACCTGGGCGTTCTCAGAAACGATTCATTCCCGTTCCTATACTCATATCATTCGTAATATCGTTAACGATCCGTCTGT -TGTGTTTGACGATATCGTCACCAACGAGCAGATCCAGAAACGTGCGGAAGGGATCTCCAGCTATTACGATGAGCTGATCG -AAATGACCAGCTACTGGCATCTGCTGGGCGAAGGTACCCACACCGTTAACGGTAAAACTGTGACCGTTAGCCTGCGCGAG -CTGAAGAAAAAACTGTATCTCTGCCTGATGAGCGTTAACGCGCTGGAAGCGATTCGTTTCTACGTCAGCTTTGCTTGTTC -CTTCGCATTTGCAGAACGCGAATTGATGGAAGGCAACGCCAAAATTATTCGCCTGATTGCCCGCGACGAAGCCCTGCACC -TGACCGGCACCCAGCATATGCTGAATCTGCTGCGCAGCGGCGCGGACGATCCTGAGATGGCGGAAATTGCCGAAGAGTGT -AAGCAGGAGTGCTATGACCTGTTTGTTCAGGCAGCTCAACAGGAGAAAGACTGGGCGGATTATCTGTTCCGCGACGGTTC -GATGATTGGTCTGAATAAAGACATTCTCTGCCAGTACGTTGAATACATCACCAATATCCGTATGCAGGCAGTCGGTTTGG -ATCTGCCGTTCCAGACGCGCTCCAACCCGATCCCGTGGATCAACACTTGGCTGGTGTCTGATAACGTGCAGGTTGCTCCG -CAGGAAGTGGAAGTCAGTTCTTATCTGGTCGGGCAGATTGACTCGGAAGTGGACACCGACGATTTGAGTAACTTCCAGCT -CTGATGGCCCGCGTTACCCTGCGCATCACTGGCACACAACTGCTGTGCCAGGATGAACACCCTTCCCTTCTGGCGGCGCT -GGAATCCCACAATGTGGCGGTTGAGTACCAGTGTCGCGAAGGTTACTGCGGCTCCTGTCGCACACGCCTGGTTGCAGGTC -AAGTTGACTGGATTGCCGAACCGTTAGCCTTTATTCAGCCGGGGGAAATTTTGCCCTGTTGTTGCCGGGCAAAAGGCGAT -ATTGAAATCGAGATGTGAATTGGTTGTAGTGCCAGATACAACGCTTATGCGTCTTATCTGGCCTACAACGATTACATGGC -GTAGTAATACGCTTTCACCTGCTCCCAGTCCGCTTTGGGGATTGGCTCCAGATATTTTTCCAGCTGGCGGAAGTCATGAT -TAATCGCTTTATCGCGACGCAAGCGGCGACGACTTTTCTCCAGGTCAAGAAAACCAGCTTCTGCATTACCTTCTGTTTTC -ACATAGATATGGCGAACATAACAACAGCCATGCTGACGATTAATGCTATGCATTTTCTTAAACGCCAGCGCCACTGCTTT -CAACATGGCTTGCCGTACTTCGTCAGAATAAGGCGATACTGCATGCTGGGCATACCAGTCAGCAATGCTGATGAACCCCG -CCATATCTTCAGTCACCAGCAACGCTCGCCATTCACCCTCAATTTTCACCGCTTCACCAAAAACGATCTTCGGCACGATG -ACACCGGCCCGTTCCAGTTCTTTAATTACCGCAACCTCACGGACAATCGTTGGTCGGCCGAACGGATAACGTACGGAATG -AAACAGATGATGCGTCATGCGCTTTACATACAGCTTTTTGCCGTTGCGCTCGACGCATTGCACCCCGCTCATACCATTAC -GGCGATAGTTAGGCTCTTCAACCCAGTCGCCCTCTGTTGCCCACCAGTGATTAAATTCGTCGTACTTTGCTGAAACTGCC -ATACCCTATCGCCTGTCATTTTTATTAACGACAATGACTATAGGTGGTTACCTGAGGAAAATCTTAATGAAACGTGTCGT -ATTAATGAATTTCTTTTGCCACTACTAGCTTGACACCGCTTTTACCCTTCATTTGCAGCGCATAGATTCCACCAGCCACT -ACCACTAATAGTGCGCCCAGCAGATAAAATGTGAATTTAATCAGGCGGATACAGCGATGAATTTTATTCGACAGGGATTA -GGCATCGCCTTACAACCAGAGTTAACGCTGAAAAGCATTGCAGGTGAATTGTGTTCCGTTCCTCTCGAACCAACTTTCTA -TCGACAGATTTCGTTGCTGGCTAAAGAAAAGCCGGTAGAAGGCAGTCCACTGTTTTTACTACAAATGTGCATGGAACAAT -TAGTGGCGATTGGAAAAATTTGATATGAGACAGGATGGCGCATGAACGCCATCCTGCAGTAACATTACTCTTTATTAAGA -AATTTTACTGCCTTATCAGGGAAATCAGTAAACAGCCCATTTACACCCGCTTTGTTATACAGAGCATCATATAACTGATT -CACATCAGGAGTGTATTCAGGCAGTTTATCTGACCGCACGGTATAAGGATGCACTACCAGTTTATTCTGCTGAGCATCTT -GCACCATGCCAGTGAGTTTGATATTACCCGGCTGCGATGTCTCCTCAATCAACATATGGTAATCCGGACCAATACCATCT -GCATATTCCGCCACCTGTTTCATGGCACCCGGCTTAAACATCCAGTCGTAGTTGTAATTAACCCAGCTTCCATCCGGCTG -TTTCTGCTGCGTTTCATTCCAGTCGGTATAGGCAATCAGCTGTACCAGATTGAGCTCCATGCCCATTTTGGGTTCCAGCT -CATTCTTAATACGCTTCAGCTCATCAGCATCAAAACATTGCAAATAAACTTTATCGTCTTTACCGGTGTAACCATATTTC -TTCAGCACTTCCAGCGTTTTTGCCGCAATATCCTTCCCTTCCTGATGATGGAACCACGGCGCTTTGATTTCTGGATAAAT -ACCGATATTTTTCCCGGTAGAGTGATTTAACCCCTGAACAAATTCAATCTCTTCTTCAAAGGTGTGCACCCGGAAGTCGG -ACTTACCCATTGGGAAACGCCCCGGATAAGTCTGCACTTTTTTACCGTTTTCAATATCGAAACCTTCGGTAAATTTCAAC -GACTTAATTTCATCCAGCGTGAAATCTATCGCGTAGTAACGACCGTCTTTGCGCGCCCGATCCGGGAAACGATCGGCAAC -ATCAGTAACACGATCGAGGTAATGGTCATGCAGAACAACCAGATTGTCGTCTTTGGTCATCACCAAATCCTGTTCCAGAT -AATCCGCTCCCTGCGCATACGCCATCGCTTTTGCTGGCAGCGTATGCTCCGGCAAATATCCACTGGCACCGCGATGGGCG -ATGACTATTTTTTCGTTGCTGTCCGCCGCCATTGCACTGCTTCCCATGACTATAGTGCTCATCATGATCGCCATGCTAAG -GTTTTTCAGCGTCAATTTCATGCCATTAGCCTCCGTTGCGTTCTTGCAGTAATTGTTCATGGCGACGTTTTTCGCCAATC -ATCACAACAATCAACAAGATAACCGCCAGAATGCTGCCGCCAATCATTACCATAAAGCCGCCATCCCAGCCGAAGAAGTC -CACGGTGTAGCCAACAATCGCGCTCGCCGCCACCGAACCGCCCAGGTAACCAAACAGCCCGGTAAAGCCCGCTGCCGTAC -CTGCCGCTTTTTTCGGTGCCAGTTCCAGCGCATGCAGACCGATCAGCATCACAGGACCGTAGATCAGGAAGCCGATAACA -ATCATACAAATCATATCGACGGTTGGGTTACCTGCCGGGTTCATCCAGTAAACGATAGTCGCGATGGTCACCAGTGTCAT -AAAGAAAACGCCGGTTGCCCCACGGTTGCCACGGAAGACTTTATCCGACATCCAGCCGCACAGCAGAGTGCCCGGAATAC -CTGCATATTCATAAAGGAAGTAGGCCCAGGAGGATTTATCTAGCGCGAAATGCTTAACCTCTTTCAGATAAGTCGGTGAC -CAGTCGAGGATGCCGTAACGCAGCAGATAAACGAACACGTTGGCGATGGCGATATACCACAGCAGTTTGTTCGGCAGTAC -GTACTGCATGAAGATTTGCTTCGCCGTCAGCTCCTGTTCCGCTTTTTCGTTATAGTCGTCCGGATAATCATTTTTGTACT -CTTCGATCGGCGGCAAGCCACAGGATTGCGGGGTATCGCGCATCATCGCAAAGGCGAATAATGCCACCAGAATGGCGCAG -AAAGCAGGCATATAGAGCGCCGCATGCCAGTCATTGAACCAGGCCATCCCCAGCAGGAACAGCAGCGGCGGAATACCACC -ACCGACGTTGTGCGCACAGTTCCACACTGACACAATGCCGCCACGTTCTTTCTGCGACCACCAGTGCACCATAGTACGAC -CACACGGCGGCCACCCCATCCCCTGGAACCAACCGCAGAGGAACAACAGTACAAACATCACCGCAATGCTCGACGTCGCC -CATGGCACAAAGCCCATAAACAACATCACTGCCGCCGCCAGAATCAAACCTGCGGGCAGGAAAACGCGCGGATTCGAGCG -ATCCGATACCGAACCCATGATGAATTTCGAAAATCCATAAGCAATCGAGATCCCCGAAAGGGCAAAACCTAAATCACCGC -GTGAGAATCCCTGCTCAACCAGATAAGGCATAGCAAGCGCAAAGTTCTTACGAACCAAATAGTAAGCCGCATAGCCAAAG -AATATCCCCAGGAAAATTTGCCAGCGCAATCGACGATAAGTCGGATCGATCTCCGCGGCAGGTAAGCGCGCTTTGTGTGG -CGCTGGTTTAAAAATACTCAACATTGATAGCCTCCGTGGCCCGTGGTCTTATTTATGATTAACAGCCTGATTCAGTGAGA -GAACCTGCCGTTTCTTGAGTTGCCGCGATGTTAAGAAAACATTCATAAATTAAATGTGAATTGCCGCACACATTATTAAA -TAAGATTTACAAAATGTTCAAAATGACGCATGAAATCACGTTTCACTTTCGAATTATGAGCGAATATGCGCGAAATCAAA -CAATTCATGTTTTTACTATGGCTAAATGGTAAAAAACGAACTTCAGAGGGATAACAATGAAAACTCGCGACTCGCAATCA -AGTGACGTGATTATCATTGGCGGCGGCGCAACGGGAGCCGGGATTGCCCGCGACTGTGCCCTGCGCGGGCTGCGCGTGAT -TTTGGTTGAGCGCCACGACATCGCAACCGGTGCCACCGGGCGTAACCACGGCCTGCTGCACAGCGGTGCGCGCTATGCGG -TAACCGATGCGGAATCGGCCCGCGAATGCATTAGTGAAAACCAGATCCTGAAACGCATTGCACGTCACTGCGTTGAACCA -ACCAACGGCCTGTTTATCACCCTGCCGGAAGATGACCTCTCCTTCCAGGCCACTTTTATTCGCGCCTGCGAAGAAGCAGG -GATCAGCGCAGAAGCTATAGACCCGCAGCAAGCGCGCATTATCGAACCTGCCGTTAACCCGGCACTGATTGGCGCGGTGA -AAGTTCCGGATGGCACCGTTGATCCATTTCGTCTGACCGCAGCAAACATGCTGGATGCCAAAGAACACGGTGCCGTTATC -CTTACCGCTCATGAAGTCACGGGGCTGATTCGTGAAGGCGCGACGGTGTGCGGTGTTCGTGTACGTAACCATCTCACCGG -CGAAACTCAGGCCCTTCATGCACCTGTCGTGGTTAATGCCGCTGGGATCTGGGGGCAACACATTGCCGAATATGCCGATC -TGCGCATTCGCATGTTCCCGGCGAAAGGATCGCTGCTGATCATGGATCACCGCATTAACCAGCATGTGATCAACCGCTGC -CGTAAACCTTCCGACGCCGATATTCTGGTGCCTGGCGATACCATTTCGCTGATTGGTACCACCTCTTTACGTATTGATTA -CAACGAGATTGACGATAATCGAGTGACGGCAGAAGAGGTTGATATTCTGCTGCGTGAAGGGGAAAAACTGGCCCCCGTGA -TGGCGAAAACGCGCATTTTGCGGGCCTATTCTGGCGTGCGCCCGCTGGTTGCCAGCGATGACGACCCGAGCGGACGTAAC -GTCAGCCGTGGCATCGTGCTGCTCGACCATGCTGAACGCGATGGTCTGGACGGATTTATCACCATCACCGGTGGCAAACT -GATGACCTATCGGCTGATGGCTGAATGGGCTACCGACGCGGTATGCCGCAAACTGGGCAACACGCGCCCCTGTACGACTG -CCGATCTGGCACTGCCTGGTTCACAAGAACCCGCTGAAGTTACCTTGCGTAAAGTCATCTCCCTGCCTGCCCCGCTGCGC -GGTTCTGCGGTTTATCGTCATGGCGATCGCACGCCTGCCTGGCTGAGCGAAGGCCGTCTGCACCGTAGCCTGGTATGTGA -GTGCGAAGCGGTAACTGCGGGTGAAGTGCAGTACGCGGTAGAAAATTTAAACGTTAATAGCCTGCTGGATTTACGCCGTC -GTACCCGTGTGGGGATGGGCACCTGCCAGGGCGAACTCTGCGCCTGCCGCGCTGCCGGACTGCTGCAACGTTTTAACGTC -ACGACGTCCGCGCAATCTATCGAGCAACTTTCCACCTTCCTTAACGAACGCTGGAAAGGCGTGCAACCCATCGCCTGGGG -AGATGCACTGCGCGAAAGCGAATTTACCCGCTGGGTTTATCAGGGATTGTGTGGTCTGGAGAAGGAGCAGAAAGATGCGC -TTTGATACTGTCATTATGGGCGGCGGCCTCGCCGGATTACTCTGTGGCCTGCAACTGCAAAAACACGGCCTGCGCTGTGC -CATTGTCACTCGTGGTCAAAGCGCACTGCATTTCTCATCCGGATCGCTGGATTTGCTGAGCCATCTGCCAGATGGTCAAC -CGGTGACAGACATTCACAGTGGACTGGAATCTTTGCGTCAGCAGGCACCAGCCCATCCTTACTCCCTTCTCGAGCCACAA -CGCGTGCTCGATCTCGCTTGCCAGGCGCAGGCATTAATCGCTGAAAGCGGTGCGCAATTGCAGGGCAGCGTAGAACTTGC -TCACCAGCGGGTTACGCCGCTCGGCACTCTGCGCTCTACCTGGCTAAGTTCGCCAGAAGTCCCCGTCTGGCCGCTGCCCG -CGAAGAAAATATGTGTAGTGGGAATTAGCGGCCTGATGGATTTTCAGGCGCACCTTGCGGCAGCTTCGTTGCGTGAACTC -GGCCTTGCCGTTGAAACCGCAGAAATAGAGCTGCCGGAACTGGATGTGCTGCGCAATAACGCCACCGAATTTCGCGCGGT -GAATATCGCCCGTTTCCTTGATAATGAAGAAAACTGGCCGCTGTTACTTGATGCGCTTATTCCTGTCGCCAATACCTGCG -AAATGATCCTGATGCCCGCCTGCTTCGGTCTGGCCGATGACAAACTGTGGCGTTGGTTGAATGAAAAACTACCTTGTTCA -CTGATGCTTTTGCCAACGCTGCCGCCTTCCGTGCTGGGCATTCGTCTGCAAAACCAGTTACAGCGCCAGTTTGTGCGCCA -GGGTGGCGTGTGGATGCCGGGCGATGAAGTGAAAAAAGTGACCTGTAAAAATGGCGTAGTGAACGAAATCTGGACCCGCA -ATCACGCCGATATTCCGCTACGTCCACGTTTCGCGGTTCTCGCCAGCGGCAGTTTCTTTAGTGGCGGACTGGTAGCGGAA -CGTAACGGCATTCGAGAGCCGATTCTCGGCCTTGATGTGCTACAAACCGCCACGCGGGGTGAATGGTATAAGGGAGATTT -TTTTGCGCCGCAACCGTGGCAGCAGTTCGGTGTAACCACTGATGAGACGCTACGCCCGTCACAGGCAGGGCAAACCATTG -AAAACCTGTTTGCCATCGGTTCGGTGCTGGGCGGATTTGATCCCATCGCCCAGGGATGCGGCGGCGGTGTTTGTGCCGTC -AGTGCTTTACATGCCGCTCAACAGATTGCCCAACGCGCAGGAGGCCAACAATGAATGACACCAGCTTCGAAAACTGCATT -AAGTGCACCGTCTGCACCACCGCCTGCCCGGTGAGCCGGGTGAATCCCGGTTATCCAGGGCCAAAACAAGCCGGGCCGGA -TGGCGAGCGTCTGCGTTTGAAAGATGGCGCACTGTATGACGAGGCGCTGAAATATTGCATCAACTGCAAACGTTGTGAAG -TCGCCTGCCCGTCCGATGTGAAGATTGGCGATATTATCCAGCGCGCGCGGGCGAAATATGACACCACGCGCCCGTCGCTG -CGTAATTTTGTGTTGAGTCATACCGACCTGATGGGTAGCGTTTCCACGCCGTTCGCACCAATCGTCAACACCGCTACCTC -GCTGAAACCGGTGCGGCAGCTGCTTGATGCGGCGTTAAAAATCGATCATCGCCGCACGCTACCGAAATACTCCTTCGGCA -CGTTCCGTCGCTGGTATCGCAGCGTGGCGGCTCAGCAAGCACAATATAAAGACCAGGTCGCTTTCTTTCACGGCTGCTTC -GTTAACTACAACCATCCGCAGTTAGGTAAAGATTTAATTAAAGTGCTCAACGCAATGGGTACCGGTGTACAACTGCTCAG -CAAAGAAAAATGCTGCGGCGTACCGCTAATCGCCAACGGCTTTACCGATAAAGCACGCAAACAGGCAATTACGAATGTAG -AGTCGATCCGCGAAGCTGTGGGAGTAAAAGGCATTCCGGTGATTGCCACCTCCTCAACCTGTACATTTGCCCTGCGCGAC -GAATACCCGGAAGTGCTGAATGTCGACAACAAAGGCTTGCGCGATCATATCGAACTGGCAACCCGCTGGCTGTGGCGCAA -GCTGGACGAAGGCAAAACGTTACCGCTGAAACCGCTGCCGCTGAAAGTGGTTTATCACACTCCGTGCCATATGGAAAAAA -TGGGCTGGACGCTCTACACCCTGGAGCTGTTGCGTAACATCCCGGGGCTTGAGTTAACGGTGCTGGATTCCCAGTGCTGC -GGTATTGCGGGTACTTACGGTTTCAAAAAAGAGAACTACCCCACCTCACAAGCCATCGGCGCACCACTGTTCCGCCAGAT -AGAAGAAAGCGGCGCAGATCTGGTGGTCACCGACTGCGAAACCTGTAAATGGCAGATTGAGATGTCCACAAGTCTTCGCT -GCGAACATCCGATTACGCTACTGGCCCAGGCGCTGGCTTAAACTCCTTTCTGATGCCCGGTAAGCATGTGGTTACCGGGC -ATTTTTGCGTACACGATTCCGTGCCCAATGTATGCGTTGCAACGCAGTGAAAATTCCTCTGAAAACGTCTCGCAAAGGCT -GAAACTGGCAGATGTCAAAGGCCTGGGATAACCGTAATGTCGCGTCATCATAAATATCAGGTGACGGACAACCATGACCG -AATCAACAACCTCCTCCCCGCATGATGCGGTATTTAAAACCTTTATGTTCACACCCGAAACCGCACGGGATTTTCTCGAA -ATACATTTACCAGAACCACTGCGCAAGCTTTGCAACCTGCAAACCTTACGCCTGGAACCCACTAGTTTTATTGAAAAAAG -TTTACGCGCTTACTACTCGGATGTTTTGTGGTCCGTGGAAACCAGCGACGGTGACGGCTATATCTACTGCGTGATTGAAC -ATCAAAGCTCTGCAGAAAAGAATATGGCTTTTCGGCTAATGCGCTATGCCACTGCCGCCATGCAGCGTCACCAGGACAAA -GGCTATGACAGAGTCCCGCTGGTGGTGCCGTTGCTGTTTTATCATGGCGAAACCTCGCCTTACCCGTACTCACTCAACTG -GCTGGATGAGTTTGACGATCCGCAACTTGCCCGGCAGTTGTACACCGAAGCTTTTCTGTTGGTGGATATCACCATCGTAC -CTGACGATGAGATCATGCAACATCGGCGTATAGCTCTGCTGGAACTGATTCAAAAGCATATTCGCGACCGCGATTTAATC -GGCATGGTCGACAGGATCACCACGCTTTTGGTTAGAGGCTTCACTAATGACAGCCAGCTACAAACACTGTTTAATTATCT -GCTGCAATGCGGCGATACCTCCCGTTTCACCCGTTTTATTGAGGAGATTGCCGAACGTTCACCACTACAAAAGGAGAGAT -TAATGACTATTGCTGAACGGCTACGGCAGGAAGGGCATCAAATTGGCTGGCAGGAAGGTATGCATGAACAAGCCATTAAA -ATTGCTTTGCGCATGCTGGAGCAGGGCTTTGAACGTGAGATTGTGCTGGCGACAACCCAACTCACTGATGCTGATATTCC -GAACTGTCATTAAAAGGAGAGATTAATGACTATTGCTGAACGGCTGCGGCAGGAAGGACATCAAATTGGCTGGCAGGAAG -GTAAATTAGAAGGTTTGCATGAACAAGCCATTAAAATTGCTTTGCGCATGCTGGAACAGGGCTTTGATCGTGACCAGGTG -CTCGCGGCCACCCAGCTAAGCGAAGCCGATCTGGCAGCGAATAACCACTAATTAACACAGGCCCACAGCCGATCCCCATG -GGCCTTTGATATCAATAACTACCTTTTATGCGTGGCCCATTTTTGCCTGATTTAAACATCGCCAGTCGTTGATCCAGGGC -ATCGCTGTAGAGCATCGTGTCAACGCCAACAGCGACAAAGTTCGCTCCCCACGCCAGGCATTGCTGCGCCATATCAGGAG -CCACAGCCAGAAAACCAGCCGCTTTACCCGCAGCACGGATCCGCCGAATACTGGTTTCAATAATTCGCTGCACTTCCGGG -TGCCCGGCGTTATCCGGGTAGCCCAACGACGCAGAAAGATCCGCAGGTCCAATAAACACGCCATCAATCCCTTCGACGTC -GAGGATTTCGTCCAGGTTATCCAGTGCCGTTTTACTTTCCACCTGCACCAACAGACAAAGCGAATCGTTAACTTGCGCCA -TGTAATTCTCAATGCGTCCCCAGCGCGCAGCCCGTGCCACACTGGCCCCGACACCACGCTCACCGTAGGGAGGATAGCGC -GTGGCAGACACCACCTGACGTGCCTGTTCGGCAGTATCGACCATCGGGATCAGTAGAGTTTGCGCGCCAATATCCAGGAC -TTGTTTAATCAGCGGTTTACTGCCTTCCACCGGACGGATCACGGGTTGGCTGGCATAGGGCGCTACCGCCTGTAGCTGAT -GATAAAGATCCTGAATGGTGTTTGGCGCGTGCTCCCCGTCAATCAGCAACCAGTCATAACCAGAAGTGGCGGCAATTTCT -GCCATATAGGCAGTCGTTGAGCTTAACCACAGACCAATTTGCACTTCGCCCTTGCGTAAACGTTCTTTAAAGGGATTGCT -TAATAATGCGTTCATCGTGTTCCTTAACCTATTTAATGATGTGCCACGTCGGTCTGCGCAACAGTGCGATTTACACGCAG -AGTGAAAATAATCAGCGAACCGATGACCGCCACCGCTGCCAGCGTCAGTAATCCCGCCGCATCGCTGGCAAATAACGTTT -CTGCTTTCACGCGCAGGATCGGGGCAATAAACCCGCCCACTGCACCAAACAGGTTTACAAAACCAATTCCCGCAGCCAGC -GCCGTACCGGAAAGCAGTTGTGTCGGCATCGTCCAGAACACTGGCTGCACGGCAATAAACCCGATAGCTGCAACACACAG -CGCTACGATCGCCATTACTGGAGAAAGCAGCCCGGACAGACCAATACCAATGCCCGCCGCCAGTAATGTCAGCGCTGCGA -CATTACGCCGTTCGCCGGTTTTATCGGAATAGCGCGGAATAAGCCAGGTCCCAAACAAGGCCGCAACCCACGGAATGGCG -GTGACCACCGACGCTGTAAAGCCCACTTTTGTTCCCAGCAATGCCGCAACCTGGGTCGGCAGGAAGAAAATTAATCCGTA -AACCGCCACCTGAATGGTCAGGTAGATAATCGCTAGTTGCCAGACTCGGCCATTACGCAGCGCATCGCTCAGCCGAGAAG -TCACTTTCTGTTGTTCTTCACTTGCCAGTTGATTGATAAGCAACGTTTTTTCTTGTTTACTCAGAAAACGTGCCTGCTCC -GGTGTGTCATCAAGCCAAAAGAATGTGAATACCCCAGCACCGACTGCCAACAATCCTTCAATCACAAACATCCAGAACCA -GCCGGGATGCCCCATAAATCCATGCATCTCCAACAGCGCGCCGGAAAGCGGTGATCCCAGTGTTAACGCCAGCGGTGCGC -CCATATAGAACAGCCCCATAATGCTGGCGCGATTACGCTGCGGAAACCATTGCGAGGTGAGATAAATCATACCAGGGAAA -AATCCGGCCTCCGCAGCACGAAGCAGAGTGCGAACTATCAGAAATTTCGCTTCAGTATCGGCCCATGCCATGGCTGCCGA -AAGAAATCCCCACAGCAGTGTTGTCGTACCAATCCAGGTTCTGGCCCCCAGTTTGCGCATCAAAAGATTCGCCGGAACAC -CCAGAAACGCATATACCACAAAGAAAATGCCTGCTCCCAGCGCATAAGCTTCATTACTCAACCCGGTATCAATCTGGTAG -GTCTGTTTGGCAAAACCGATATTCGAACGGTCGAGAAACGCCAGCACATACAGCGCCAACATAAACGGAATTAAACGCAC -ACGGTTTTTCTTCACCACGGCGTCAAGCAAAGCGGTGCTCATAAAAAGCTCCTTAGAATATGTGGGCGTTACCGTTGTCA -CAGCAACGCCCGGAGTGATTAGTGGCTGTAGGGGCGTTTCAAATTGCAGTCACGATTGAGTTCGACGCCAAAACCGGGTT -TATCAAGCACTGATTTATGAATACGACCATTCACCGGAACCGGCTCATTGAGCAGAATCGGGTCAAACTGCGGACGCATC -GTTGAACAATCCGGGCTGGTCATCAGGAATTCGCTGAATGGCGTATTGGTGAAGGTGATCACCGCATGGTGAGAGTAAAC -AGACGAACCGTGCGGCACCACCAGTTGCCCCCTGGATTTGGCGATTGCGGCAATTTCCACCAGCGTGGTTAAACCACCGC -ACCAGCCAACATCCGGCTGCATAATGTCGATACCGGTTTCTGAAAGCGTACGAAAAGATTGCAGTGTGCCGTGGTGCTCA -CCGCTGGTGACCATCATTCCGACTGGCGCGTTGCGTTTCAGTTCGCGATAACTTTCATACTGCTGTGGCGGCAGGCACTC -TTCGATCCATTTCAGGTTATAGGGCGCGCAAGCGTGGGCCAGTTTGGTCGCATAGTTCACGTCCTGACTCATCCAGCAGT -CGAGCATTAACCAGAAATCCTCACCGCATTTTTCACGCATATCCGCGACCATAGCGGCATCTTTGCGGATCCCCGCATCG -CCATCATGTGGCCCCCAGTGCGTCGGCATTTTGCCACCGATAAAGCCCATCTCTTTTGCCAGATCCGGACGCGCACCTGT -GGCGTAGAACTGAATCTCATCACGAACAGCGCCGCCTAAAAGTTTATAAACCGGAAGCCCGACCACTTTGCCGAACAGAT -CCCACAGAGCCAGATCGACACAAGAAATCGTATTCATCACCAGGCCACCAGAGCCGGAGTAATACAGGGTGGCACTGAGC -ATTTGATCGTGGATCAGTTTGATATCACTGACACATTTACCCTCAATGAAACGGTTAAGATGTTTTTCGACAATAAAACA -GCCCATTTCACCGGCTGTCGAAACGGCGAATCCGGTCTGGCCGTTTTCTGCTTCGACTTCAACAACCAACGTGCCAAGAA -CGTTAATGCCAAATGACTGGCGTGACTGCTCGTAATCGCGGTATTTACTCATCGGGGTGGCAATATGATCGTCTATCCAG -TGATTCGCCCCCTGGTCGTGATAATCACCGCCGCCAGCGCCTTTTTCTGCTGTCGCACCGCCAGTAAACCAGGCGCGAAC -CTGTTTAATTTTTGGTAGGGTCATGATGTTCTCCATTGTTATGAGGCTTGTAAGTCAAAGGGACTTTTCCATCCCAACAG -ACGTGAAATATCCCTGGCGCAGGCAATGGCCTTGCCCGCCAGATAATCACGGTATTCTTCATTGATTTGTAAGCGGGTAC -CGACCACCGAGATCGCAGCGGTAAGCTCGTTATTGGCGTTAAACACCGGCGCAGCGACACAACGGACATCGGCGTAATCT -TCGCCGTTGTCATAGCTCCAGCCCTGACGGCGAATACGCGCCAGTTCTTCGTGAAGTTGCTGTGGATGAGTAATCGTTGT -GGGTGTCGCCTGCTCCCAGACCAGCCCTTCGATAATACTTTGCTGTACCGCTGCAGGTTGCCAGGCAAGCAGGCATTTAC -CTATTCCGGAGCGATAAAGCGAAAGGCTTTTTCCTTCATGGGAACGCACGCTGATAGTGGCTGATGACTCCACTTTCAAA -ATGTAATAAGCGCTGCCGTTATCAATAATCCCCAGGTGACATAACAGCCCGGTGGTATCCATCAGTTGCGTCAAACGCGG -TCGAGCCAGTTCCCGGAGATCCATCTTGCTTAACGCATGACCGGAAAGCTCCACCAGCCTGGTCCACAAACAAAAATTTT -CCTGGTGATCAAGGCTAAGAAAACGCTGACGCCTGAGTTCATTAAGCAGCAAATAGGCCGTGCTTTTAGGGATTCCCAAT -GTGTCAATGATCGTCGCAGCACTACAGGGGCCAATGCGGGCAATCAAATTGAGAATATCAATAGCCCGTGTCAGGGCGGG -AACTTTGCTTGATTCCAACATACTGGACTCCAGTCTTAGATACTGGAATCAGTCTCGTTGCTCAGGGGGAGTAAAATTGT -GAAGCGCATCAAATCCCGCTCCTCGTCCAGCAGACTGGAGAAATTACGCACAAATTTGTGAATCAGCGCACGGATTTTTT -CTTATTGAGTACAACAGGTTGGACAAATTTTGCCGGAGGGGGAATGTGCCGGTGCAGTAAACCGGCACAGAGTGGCGGAA -TCAGACAGATAAGGTCATGGACTCAACAACCTCAATCCAGCCATGCTCACTGGCGATATCCTGGCCGTTTAACCAACGGC -GCAGCATATTCAGTGCCATCATTGCGCACACTTCCTGACGGATAGCCAGGCTGTAGCGCGTAGTGCTGAAACGCACACGC -AGAGCGAAAGTGCCGTCTGGCGTGGCTAGCGCAAAGTTGAGATGCTCGTTCTCGAAACCCGAAACAGCCAGTGCCAGCCC -GGCAAAATGGTTGGCCCGCCGTTCTGTAATCCAGTGCGCAGTTTGCGCCAGGGTTTCCTCCTGTGAAGGAACCACTTCAC -ACGCCAGCAATGGAGCACCTGCGCGAGAAAGTTGCAAAGCCAATAAACCACCGGTGAATTGCTCGCTCAACGTCAGGCTG -AACTGGCGGTTTTGCAATTCGCGACTGATCTGCGCGGGCAGTCCTTCAGTGCCTTCGAAAATCACGCTCTGTCCGGCAAC -ACGTTTAACATCCAGCCACAGTTTTTCCATCGCCTGTTGCTCGCTTGCCGGTCCGGTGAGTTTCAGTTCGATGATAGGCA -TTGAGGAGCGATAGCCCATTGTTACGCCCGGCGGCAGTTGTAGAGTGTCCAGGCTTTGTGCCAGATCGCTTTCCGAACGA -CCAAAAGTAGTCAAACGCAGACAAACCGGCGGCTGCGGTAAAGAAAAACGCTCGCGCAGGCGCGGCAGGATTTCGTGCTC -GACCATCACCTTAAATTCTGACGGTACGCCGGGAGTAAAGAACATCAGGCAACGATTAAGCTGCACGGCAAAACCACAGG -CGGTGCCTACCGGGTTATTGATAAATTCAGCACTGGCAGGCAGCTCCGCTTGTTTACGGTTGCTCGGTGCCATTACTCGT -CCACGTTCGTGGAAATAGCGTTCCATCTCTTTGAGCCAGGCTTCATGCAGCACCAGGCCTTCACCTTTTGCTGTCGCAGC -GGCGAGTGCGCTTAAATCATCGCTGGTCGGTCCCAGCCCGCCGTTAACGATCAGCACATCGGCGTGCTGACTACGTTCGC -GAAGAATGGTGACTAAGTCATCAAGGTTATCCCCCACCGTATTGCGGCGAGATAATGGCAACCCCTGATGAAAGAAAAAA -TCGGCCAGCCAGGCAGCGTTAGTGTCAACGATTTGCCCGTGTAACACTTCATCCCCGGTGGATAACATTTCCACTTTTAA -CATGGTTATCTCCTGCTTTTGTTATCGAATCACTATAACGCAAAGGGAGATAAGGCGTAGTAAGAAACTGAATGGCGCGA -CAGAATGCCGCGCCGGAAGGGATCAGAAACTGGCGTTAACCCCAACATACGGGCCGTCAGCCACGGCGTTGTCGCGGTTA -CCGTCTTTACCCGACAGATTCAGGTAGCGATAACCCGCCTCAATACTGACTGGACGCATAATGGTGTAACGCGCGCCAGC -ATTCGCTTCTTCATAACTTTGAATACCGCTGGAGAGCGAATCCGGAGAGTAGTAATACTCGCCAAACAAACGGAAGCTGT -TGCCAATTTTCCACTGCAAACCACCTCCTACCGCTGCGGCATAACCTTCATCGCCGTAATTCGGGTTGGTGTAAACGCCT -TTTCCGCCAACGGTCGCCATTAACGGCCCGAGAGGCAGATTCAACCCCAGCCCCACGCCAGCGACATCACCGTCGTCGTC -GTTATGTGTCCAGTTACCGCTTAACGCCAGGCCCGTCGTTTCAGTCCCAAAACCGACACCAATATTGGTGTATTCTTTAC -CCGCCTGACCGCTGATGCTCATTGCATTGACCGATGCAGAAACCAACAGCATTCCGGCCAGACCTGCTAGCGCAATTTTT -TTCATTATCCCCTTTCCCACAAGCAATTAATCAAAATTCCCAAAGCTGCGGGATTGTACTGCCTGGCACAGAGGATTCAA -TGAGCGAAAAAAAGGATCTAGTCACTTATTGTAACTAAATACTTCTTAAATAATTAAATGCCGAAAAAATAAACACACTT -TATCGATACACACAAAAATAATAATAAGTACAGTTATCATCGCAAAAGAGATTACTGTCACTTTCACATATTTGTGAGTT -ACCGTATTCTCATGGTTTCTTTTTATTTATAAGGAATATCCCTGTGCGACAACGGACTATTGTATGCCCTTTGATTCAAA -ATGATGGTGCTTATTTGCTGTGTAAAATGGCCGACGATCGCGGCGTTTTCCCCGGTCAATGGGCGATTTCGGGTGGCGGC -GTGGAGCCTGGCGAACGAATTGAAGAGGCACTACGCCGCGAAATTCGCGAAGAACTGGGAGAACAGCTGCTTTTGACAGA -AATCACGCCGTGGACCTTCAGCGATGATATTCGCACCAAGACGTATGCAGATGGTCGCAAGGAAGAGATTTATATGATTT -ACCTGATTTTTGACTGCGTTTCTGCCAACCGAGAAGTGAAAATAAACGAAGAGTTTCAGGACTACGCGTGGGTAAAACCT -GAAGATCTGGTGCATTATGATTTGAATGTCGCCACCCGAAAAACGTTACGTTTGAAAGGTCTTCTGTAACAATGATGACA -GCCATTACTGGCTGTCAGATTGAAAATTTAGTGGTTAACGAATTCCCCATCCAGATAAACTTTGCCTTTTTCCACATGCA -TGACTAAACCATCCAGATAATCAGGTTTAAATGTCGCGTCACGCTTATCTTTAGCAATATATGTCAGGCAATGATTATGG -GTGAAAATAACGATATTTTTATCAGGCGCTTTGCTTTGTAAGTCCTTAATTGCACTATAAATCTCATTACCGCACTGAAG -AAGTCGTTTATCTACCGTCAATTTTTTACCCGCTGAAAACCAGGTAGCCGACTGAATGGTCCGGACGGTATTACTGGAAT -AAAGATCGAAATCAGGGATATCAGCACTAAAAGCGTTGCCCAGTTCACGGGCATCCTGGGTACCTTTAACCGTAATACCT -GTTTTATCTGACAAGCATTGATTGGTTGAACGGTCGCAACGTTCAGCATGACGAAACAAAACGACAACCGGGTGCTGCTG -TGCCAGTCTGGCCAGTGTTTTATTGTCGATACGTGGCAAACCATTGCTACTCCAGGCGGCATGAGTACCCAGTCCGGCAA -TTGCAGCGAGCGCCAGTAAAATGATGATATATTTTTTTGACTTCAACGAAGAGCGGCAAAAAGCTAACACGTAAACTCCA -CCTATAGACAAGCGCAACCAGACAATTACCGTGAAATTGAGCTACATTTCTGGCGATAATTCGCAGTTGGTGTAATATTA -AAAATCCTACGATGTCGGCAAAATGCCTCAAAATTTTGCCAAATGCAAAGCCTAAATAAGAAAAAATATAAAAATTTCAA -TATTTACGTCTAATATTAGTTTCTTAAGGTTAAGTTAATATTCTATCCTTAAAATTTCGCTCCAAATGGCAAAATATACA -CAACACTCTTTATAGCAAATATAAGTGGACAGGTATTCAATGGCGGAAGGAAAAGCAATGTCAGAATTTTTGCCTTTTTC -GCGACCAGCAATGGGCGTGGAGGAACTCGCTGCAGTTAAAGAGGTTCTCGAATCCGGTTGGATCACAACCGGTCCGAAGA -ATCAGGCGCTTGAGCAAGCTTTTTGCCAGTTGACGGGAAATCAGCATGCCATCGCGGTCAGTTCAGCCACCGCCGGAATG -CATATCACGCTAATGGCGTTGAAAATTGGCAAGGGCGATGAAGTGATTACGCCTTCCCTGACCTGGGTTTCAACCCTCAA -TATGATTTCCTTGTTGGGTGCAACGCCGGTAATGGTGGATGTCGACCGCGATACGCTGATGGTCACGCCTGAAGCTATCG -AGTCAGCCATTACGCCACGCACTAAAGCCATCATTCCGGTGCATTATGCCGGTGCGCCAGCAGATATTGACGCCATTCGC -GCCATTGGCGAACGTTACGGCATCGCAGTTATCGAAGATGCTGCCCATGCCGTCGGTACGTATTACAAAGGGCGACATAT -TGGCGCAAAAGGTACCGCTATTTTTTCATTTCATGCCATTAAAAATATTACCTGTGCTGAAGGTGGCCTGATTGTAACTG -ATAATGAAAACCTTGCCCGCCAGCTACGGATGCTGAAATTTCACGGTCTGGGTGTCGATGCCTATGACAGACAAACCTGG -GGCCGTGCACCGCAGGCTGAAGTCTTAACACCGGGCTATAAGTACAATCTGACCGATATTAACGCCGCGATTGCCCTGAC -ACAGTTAGTCAAATTAGAGCACCTCAACACCCGTCGGCGCGAAATTGCCCAGCAATATCAGCAAGCACTGGCAGCTCTCC -CCTTTCAGCCATTAAGCCTTCCCGCCTGGCCGCACGTTCACGCCTGGCATCTGTTTATTATTCGTGTCGATGAACAACGT -TGTGGTATCAGTCGCGATGCGTTGATGGAAGCGTTAAAAGAAAGAGGCATTGGTACCGGGTTACATTTCCGCGCCGCTCA -CACACAAAAATATTATCGCGAGCGTTTTCCCACGCTGTCGTTACCGAATACCGAATGGAATAGCGAACGCATCTGTTCTT -TGCCGCTGTTCCCGGATATGACTACCGCCGATGCCGACCATGTCATCACAGCCCTTCAGCAACTCGCAGGACAATAAGCC -ATGTTTGAAATCCACCCTGTTAAGAAAGTCTCGGTGGTTATTCCCGTTTATAACGAGCAGGAAAGCTTACCGGAATTAAT -CAGGCGCACCACCACAGCCTGTGAATCGTTGGGGAAAGAGTATGAGATCCTGCTGATTGATGACGGCAGTAGCGATAATT -CCGCGCATATGCTGGTCGAAGCCTCACAAGCGGAGAACAGCCATATTGTGTCTATTTTGCTTAACCGCAATTACGGGCAA -CATTCAGCGATTATGGCGGGATTCAGTCACGTTACTGGCGACTTAATTATTACCCTTGATGCCGATCTCCAGAATCCGCC -AGAAGAAATCCCCCGCCTGGTGGCAAAAGCCGATGAAGGTTACGACGTGGTAGGGACTGTACGCCAGAACCGCCAGGACA -GCTGGTTTCGTAAAACCGCTTCGAAGATGATTAACCGGCTTATTCAGCGCACCACTGGCAAAGCGATGGGTGATTACGGT -TGTATGCTGCGCGCCTATCGCCGTCATATTGTCGATGCGATGTTGCACTGCCATGAACGCAGCACCTTTATCCCGATTCT -GGCGAATATCTTCGCCCGCCGTGCCATTGAAATTCCAGTACATCATGCCGAGCGTGAGTTTGGTGAATCCAAATACAGTT -TTATGCGCCTGATTAATTTGATGTACGACCTGGTGACCTGCCTTACCACAACGCCGCTACGTATGCTGAGTCTGCTCGGC -AGCATTATTGCGATTGGAGGTTTTAGCATTGCGGTGCTGCTGGTGATTTTACGCCTGACCTTCGGACCACAATGGGCGGC -AGAAGGCGTCTTTATGCTATTTGCCGTGCTGTTTACTTTTATTGGCGCTCAGTTTATCGGCATGGGATTACTCGGTGAAT -ATATCGGCAGGATCTACACCGATGTCCGCGCCCGCCCCCGCTATTTTGTTCAGCAAGTTATCCGTCCATCCAGCAAGGAA -AATGAATAATGAAAACCGTCGTTTTTGCCTACCACGATATGGGATGCCTCGGTATTGAAGCCCTGCTGGCTGCCGGTTAC -GAAATTAGCGCCATTTTTACCCATACTGATAATCCCGGTGAAAAAGCCTTTTATGGTTCGGTGGCTCGTCTGGCGGCGGA -AAGAGGCATTCCGGTTTATGCGCCGGATAACGTTAATCATCCGCTGTGGGTGGAACGCATTGCCCAACTGTCGCCAGATG -TGATTTTCTCTTTTTATTATCGCCATCTTATTTACGACGAAATTTTGCAGCTCGCTCCCGCAGGTGCATTTAATCTGCAT -GGTTCGCTGTTACCAAAATATCGTGGTCGCGCGCCGCTGAACTGGGTGCTGGTCAACGGTGAAACGGAAACTGGCGTTAC -ATTGCACCGAATGGTGAAACGTGCCGATGCCGGGGCCATTGTGGCGCAACTGCGCATTGCCATTGCGCCAGACGATATCG -CTATTACGCTGCATCATAAATTGTGCCATGCCGCGCGCCAGCTACTGGAACAGACATTACCCGCCATTAAACACGGTAAT -ATTCTGGAAATCGCCCAGCGCGAAAACGAAGCCACCTGTTTTGGTCGCAGAACGCCGGATGACAGTTTCCTTGAATGGCA -TAAACCGGCATCCGTACTGCACAACATGGTACGTGCCGTTGCCGATCCGTGGCCGGGTGCCTTCAGCTATGTTGGCAATC -AGAAATTCACCGTCTGGTCGTCGCGTGTTCATCCTCATGCCAGCAAAGCACAGCCGGGGAGCGTGATTTCTGTTGCGCCA -CTGCTGATTGCCTGTGGCGATGGCGCGCTGGAAATCGTCACCGGACAGGCGGGCGACGGCATTACTATGCAGGGCTCGCA -ATTAGCGCAGACGCTGGGCCTGGTGCAAGGTTCACGCTTGAATAGCCAGCCTGCCTGCACCGCCCGACGCCGTACCCGGG -TACTCATCCTCGGGGTGAATGGCTTTATTGGCAACCATCTGACAGAACGCCTGCTGCGCGAAGATCATTATGAAGTTTAC -GGTCTGGATATTGGCAGCGATGCGATAAGCCGTTTTCTGAATCATCCGCATTTTCACTTTGTTGAAGGCGATATCAGTAT -TCATTCCGAATGGATTGAGTATCATGTCAAAAAATGTGATGTCGTCTTGCCGCTGGTGGCGATAGCCACGCCGATTGAAT -ATACCCGCAACCCGCTGCGCGTATTTGAACTCGATTTTGAAGAGAATCTGCGCATTATCCGCTACTGCGTGAAGTACCGT -AAGCGAATCATCTTCCCGTCAACTTCAGAAGTTTATGGGATGTGTAGCGATAAATACTTCGATGAGGACCATTCTAATTT -AATCGTCGGCCCGGTGAATAAACCACGCTGGATTTATTCGGTATCAAAACAATTACTTGATCGGGTGATCTGGGCCTATG -GCGAAAAAGAGGGTTTACAGTTCACCCTCTTCCGCCCGTTTAACTGGATGGGACCACGACTGGATAACCTTAATGCAGCG -CGAATTGGCAGCTCCCGCGCTATTACGCAACTCATTCTCAATCTGGTAGAAGGTTCACCGATTAAGCTGATTGATGGCGG -AAAACAAAAACGCTGCTTTACTGATATTCGCGATGGTATCGAGGCGTTATACCGCATTATCGAAAATGCGGGAAATCGCT -GCGACGGTGAAATTATCAACATTGGCAATCCTGAGAACGAAGCGAGCATTGAGGAACTGGGCGAGATGCTGCTGGCGAGC -TTCGAAAAACATCCGCTGCGCCATCATTTCCCACCGTTTGCGGGCTTTCGCGTTGTCGAAAGTAGCAGCTACTACGGCAA -AGGATATCAGGACGTAGAGCATCGTAAACCGAGCATCCGCAATGCCCACCGCTGCCTGGACTGGGAGCCGAAAATTGATA -TGCAGGAAACCATCGACGAAACGCTGGATTTCTTCCTGCGCACCGTTGATCTTACGGATAAACCATCATGACCAAAGTAG -GCTTACGCATTGATGTCGATACCTTTCGTGGCACCCGTGAAGGCGTGCCGCGTCTGCTGGAAATCTTGAGTAAGCATAAT -ATTCAGGCCAGCATTTTTTTCAGCGTCGGCCCGGACAATATGGGCCGCCATCTCTGGCGACTGGTGAAGCCACAGTTTTT -GTGGAAGATGCTGCGCTCAAACGCGGCATCGCTTTATGGCTGGGATATTTTACTGGCAGGTACGGCCTGGCCAGGTAAAG -AGATTGGTCATGCCAATGCCGATATCATTCGTGAAGCGGCTAAACATCACGAAGTCGGCCTGCACGCCTGGGATCACCAT -GCCTGGCAAGCCCGTAGCGGTAACTGGGATCGGCAAACAATGATCGACGATATTGCACGCGGTCTTCGCACTCTGGAAGA -GATTATCGGTCAACCGGTAACCTGTTCTGCCGCTGCGGGCTGGCGTGCCGACCAGAAGGTGATCGAAGCAAAAGAAGCGT -TCCATTTGCGCTACAACAGCGATTGTCGTGGGGCCATGCCGTTCCGTCCATTGCTCGAATCAGGAAACCCTGGCACTGCG -CAAATTCCGGTGACCTTACCCACCTGGGATGAAGTGATTGGTCGGGATGTGAAAGCAGAAGATTTTAACGGTTGGTTACT -CAACCGCATCCTGCGAGATAAAGGCACGCCGGTTTATACCATTCATGCAGAAGTTGAAGGCTGCGCTTATCAGCATAATT -TTGTGGATCTCCTCAAACGCGCAGCTCAGGAAGGCGTGACATTTTGCCCTTTAAGCGAACTGTTATCAGAGACGTTGCCG -CTCGGACAAGTTGTTCGCGGAAATATTGCCGGACGTGAAGGCTGGCTGGGTTGCCAACAAATTGCGGGTAGTCGCTGATG -AAATCGGTACGTTACCTTATCGGCCTCTTCGCGTTTATTGCCTGCTATTACCTGTTACCGATCAGCACGCGTCTGCTCTG -GCAACCCGATGAAACGCGTTATGCGGAAATCAGTCGAGAAATGCTGGCATCCGGCGACTGGATTGTGCCCCATCTGTTAG -GGCTACGTTATTTCGAAAAACCCATTGCCGGATACTGGATTAACAGCATTGGGCAATGGCTATTTGGCGCGAATAACTTT -GGTGTGCGGGCAGGCGTTATCTTTGCGACCCTGTTAACTGCCGCGCTGGTGACCTGGTTTACTCTGCGCTTATGGCGCGA -TAAACGTCTGGCTCTACTCGCCACAGTAATTTATCTCTCATTGTTTATTGTCTATGCCATCGGCACTTATGCCGTGCTCG -ATCCGTTTATTGCATTCTGGCTGGTGGCGGGAATGTGCAGCTTCTGGCTGGCAATGCAGGCACAGACGTGGAAAGGCAAA -AGCGCAGGATTTTTACTGCTGGGAATCACCTGCGGCATGGGGGTGATGACCAAAGGTTTTCTCGCCCTTGCCGTGCCGGT -ATTAAGCGTGCTGCCATGGGTAGCGACGCAAAAACGCTGGAAAGATCTCTTTATTTACGGCTGGCTGGCGGTTATCAGTT -GCGTACTGACGGTTCTCCCTTGGGGACTGGCGATAGCGCAGCGGGAGCCTAACTTCTGGCACTATTTTTTCTGGGTTGAG -CATATTCAACGCTTTGCACTGGATGATGCCCAACATAGAGCTCCGTTCTGGTACTACGTGCCGGTCATCATTGCCGGTAG -CCTGCCGTGGCTGGGATTACTCCCCGGTGCACTGTACACAGGCTGGAAAAACCGCAAGCATTCCGCAACCGTCTATTTGT -TGAGCTGGACGATAATGCCGCTGCTGTTTTTCTCCGTCGCTAAAGGTAAATTGCCCACCTATATTCTTTCCTGCTTTGCA -TCTCTGGCAATGCTGATGGCGCATTACGCTTTGCTGGCAGCAAAAAATAATCCTCTGGCGCTGCGGATTAATGGCTGGAT -TAACATCGCTTTTGGCGTCACTGGCATTATTGCCACATTTGTGGTCTCCCCGTGGGGACCAATGAACACGCCGGTGTGGC -AAACCTTCGAGAGCTATAAAGTCTTTTGTGCCTGGTCGATTTTTTCGCTATGGGCATTTTTCGGCTGGTACACCTTAACA -AACGTCGAAAAGACCTGGCCTTTTGCCGCGCTTTGCCCGCTGGGGCTGGCGTTGCTGGTAGGATTTTCAATTCCTGACAG -AGTTATGGAAGGAAAACATCCGCAATTTTTTGTCGAGATGACACAAGAATCACTTCAGCCAAGCCGCTATATTCTTACTG -ATAGCGTCGGTGTTGCCGCAGGTCTGGCATGGAGCCTGCAACGCGATGACATCATCATGTATCGCCAGACAGGTGAGTTG -AAATACGGCCTTAATTATCCGGATGCGAAAGGGAGATTTGTCAGCGGTGATGAGTTCGCAAACTGGCTTAATCAACATCG -TCAGGAGGGGATTATTACTCTCGTGCTTTCGGTTGACCGCGATGAAGATATCAACAGTCTCGCCATTCCGCCCGCAGATG -CCATCGATCGTCAGGAGCGTCTGGTGCTGATTCAGTATCGTCCCAAATGATCTGGCTAACATTAGTCTTTGCCAGCTTGC -TTAGCGTTGCCGGGCAGTTGTGTCAGAAACAGGCAACCTGCTTTGTGGCGATAAACAAACGGCGCAAACATATCGTGCTG -TGGCTGGGACTGGCGCTGGCTTGTCTTGGTCTTGCCATGGTGCTCTGGCTGCTGGTCTTGCAGAACGTACCGGTAGGCAT -TGCTTACCCGATGTTAAGTCTGAATTTTGTCTGGGTGACGCTGGCTGCAGTAAAACTGTGGCACGAACCGGTATCGCCGC -GTCACTGGTGTGGGGTGGCGTTCATTATTGGCGGCATTGTGATCCTCGGGAGTACGGTGTAATGGGCCTGATGTGGGGAT -TATTCAGCGTCATTATTGCCTCAGTTGCGCAATTAAGCCTGGGTTTTGCGGCGAGTCATCTGCCGCCGATGACGCACTTA -TGGGATTTTATCGCGGCTCTGTTAGCTTTTGGCCTGGATGCCCGGATACTGTTACTCGGGCTGCTGGGTTATCTGCTTTC -CGTTTTTTGTTGGTATAAAACGCTTCATAAACTTGCGCTAAGCAAAGCCTATGCCTTGCTCAGTATGAGTTATGTGCTGG -TATGGATTGCTTCAATGGTACTTCCCGGCTGGGAAGGGACTTTTTCGCTGAAAGCACTACTGGGAGTAGCCTGTATTATG -AGCGGGTTGATGCTGATTTTCCTGCCCACGACAAAACAACGTTACTGAGTTTTCCCTGCCACTTTACACTGCCGTTCCCA -CTCATCGGGGCTATAACTGCTTGCCGAGAGGACTTTCACCGTATGCAGCTTTTCACGATTAATACAATAAAGCGCATTCT -GCAAAGGCGAGAGTAAATCCCCCACTTTCACGGCGAAGTCACTCTTCACTTCGGCGATCATTTTTATCGCGCCGCCAGCA -TCGCAGAGCATAAGTACATGTCTGTTATCTTGTTTATTGCAGCACGATTTTTTGACCAGCCATTCCATTGCATTATCCTG -TTTGCTAAGAGTTTTCACATCAATTTACAGATTAACAGATAAACTCTTTATCAACGGCAATGGAATGGCAGAAATGAGAA -GTGAAACGGAGGGTTAATTATTGCTGACGTTGCACCCACTCTTTTAGCGCCTGACGTGAAATTTTAATACCGCCGTTTTT -CAGCTCCGGCGGCAGAGTTAGCCAGCGCACCGGTTGTTGAAAACGGGCCAGCTTATCTTTCACCCATTCACTAAGATCAA -CGCTCTCGTGGTCATACTCCATCACCGCCACCGGTCGATGACCAAACTCCTTGTCGGCAACGGGGACGATAAACACCTGC -AAAACCGCAGGATGTGCAGCAATTACGCGCTCGACTTCTTCCGGCTGAATACCCTCTCCGCCACTGAAGAATAGATTGTC -TAAACGTCCGACAATGGTCAGCTTGCCATTATGCATCTCACCGCGATCGCGCGTAGCGTACCAGCCTTCGTCATTAACCA -GTGAAACCAGTTGCCCGTTACGCCAGTAACCTTCTGCCATACTGGCAGCCCGCAGCCACACTTCATTATTAACGATTTTC -ACTTCCCGACCCGGCAGCGGCGAACCAACGTCTGCCAGGCCGTCGGCTTCTTTCGCACACACCGTGGAGGCAAACTCGGT -CAGACCATAGCCGCAAAAGCAACGAATCCCCTGCTCGCGCGCCTGTTCCGTCAACTCGACCGGGATAGCCGCGCCGCCAA -GTAACACCGCTTTCAGGGAAACGGAACTACGGTTAACCAGCAAACGCCAGAGTTGTGTTGGCACCAGTGAAGCGTGAGTA -CAGCCTGCCAGCATTTGCTCCAATGGCTGTTTATCACGTACCGTCATCCGCGCACCAGCGTATAACCAGCGCCACATAAT -TCCCTGACCGGAGACGTGAAACAGCGGTAAAGAGAGCAACCAATCATCGTGATCGCCAAACGGAATCAGCGATAACACAC -CTTGCGCACTGGCAAGATGGGCCTGATAAGTATGGACAGCGGCTTTCGGCAAACCGGTAGAACCCGAGGTCAACGTCATT -GAGCACAGACGCGTCGGCTGCCACGTAGCGGCATGTGCGCCTTCAACCAGCTGAATGTGCAGCGACGTTAATGCCGGAAA -CGTGTTTTCCCCATCCGGCACCAGAGCAAATTGCAGCGTCAGATTGGGCAGCAATTCTTCAAGCAACGGTTGCGGCAGCT -GAGGGTTCACGGGCAACACCCGCGCCCCGCATTGCAGTAACGCCAGCCAGGCGAGCAGCGTTTGCGGCGTATTCCACGCC -CGCAACATCACGCCGCTGCCCTCAACCACCCCCTGCACCGCAAATCCGGAGGCTAATTCATCGACGCGAGCACAAAGCTC -GCGCCAGTTGAGTTGCTCGTCATTAAGACGTAAGGCGATGGTTTCTCCCCGCACTTGCCGCCAGTGACGCCACGGCCAGT -CAGAGAAGATCATAACAACCGCTCCAGTGCATCAACTTCCACGACAGGCAGCGTGCTACCCGGCCAGCGACGTACCTGCT -GCGCCTGCATCAGATCCAGCGTGTCCAGCCCTGGAATGGTGTCCGGCGTTAACCAGGCGGCAATCCGCGCCAGTTGCGTT -AAGCCTAAGCTCGATTCAATGGAAGAACTGATCACCGCCGTCAGCCCCAGCGCGTGCGCCGCCTGTACCTGCTCGCGTAC -TTTTTCCAGACTGCCCGTGAGCGTGGGTTTGATAACTACCGCGCGCACGCCCTCTTCAGCCACAAAGGCAAAATCCGGCT -CGCGCAGGCTTTCATCCCAGGCAATGGCAATGCCGGTTTCACGGGCAAACGCTCGCGAATCATCGCGGGTTTTGCACGGC -TCTTCGAGAAACGCGATGCGGTCGCGATAATCCGGGTTAACGTATTTGGCAAACTGCTGACCTTTCAGCGGTGTCCAGGC -GCGATTTGCGTCAAGACGCAAATGCAGATCCGGAATTGCCTCCAGCAACAGATTCACCACCATGCCGTCGCGCACCGCTT -CGTACAATCCCACTTTGACCTTCGCCACTTTCTCGCCTGGCATATCTGCAAGTTTGAGGATCAGATCGTCCGGATCGCCA -TTACACAGCGGTGCCGCACGGTAGTTGGCTGCTTGCGGCAACGTATCTGTCAGTTCTGCCAATGCACAGCTTACGCCAAA -GGCCACGGAAGGCATCTGCGGTAGCTCGCAATCGCCTGCCAGCCAGTTATTTACCCAGGCAAGCAGCACACTTTGCGCCT -CTTCCCAGGTTTCCTGACTGAAGCCCGGCAGTGGGGAGATCTCCCCCCACCCTTCGCGCTCGCCTTCACGCAGGCAAACA -TACAGCCCGTCGCGGGTTTTTAACCGCCTGTCGCGCAGAACCACCCCCGCGTCCATGGGGATCTGCCAGCGGTATACCTG -CGCGCTACGCATTACGGATTCCGTTTGAATTTGCTGAAGTCAGGCTGACGTTTCTGGTTGAAGGCGTTGCGACCTTCCTG -ACCTTCTTCCGTCATGTAGAACAGCATGGTGGCGTTGCCCGCCAGCTCCTGCAGCCCCGCCTGCCCGTCACAGTCGGCGT -TCAGTGCAGCTTTCAGGCAGCGCAGCGCCATCGGGCTGTTTTGCAGCATTTCGCGGCACCAACGGACGGTTTCTTTTTCC -AGATCCGCCAGCGGTACCACGGTGTTCACAAGGCCCATATCCAGCGCCTGTTTTGCGTCGTACTGACGGCACAGGAACCA -GATTTCACGCGCTTTTTTCTGCCCGACGATGCGAGCCATGTAGGAAGCGCCCCAGCCGCCGTCGAAGGAACCGACTTTCG -GGCCAGTCTGACCGAAGATGGCATTATCTGCCGCGATAGTCAGGTCGCACATCATGTGCAGAACGTGACCGCCGCCGATG -GAGTAGCCAGCCACCATCGCGACAACCGGTTTCGGACAGGTACGGATCTGACGCTGGAAGTCCAGCACATTCAGGTGATG -TACGCCGGAATCATCTTTATAGCCGCCGTAATCACCACGCACTTTCTGGTCACCACCGGAGCAGAACGCTTTATCGCCTG -CACCAGTCAGAATGATCACGCCGATGTTGTCGTCATAACGCGCATCTGCCAGCGCCTGGATCATCTCTTTTACCGTCAGA -GGACGGAAGGCATTGCGCACCTGCGGACGATTAATGGTGATTTTTGCGATACCGTCGGTGGATTTTTCATAACGAATGTC -CTCGAAACCTTCGGAGCAGTCGTGCCATTCAACCGGTGCGTAAAGCATTGCTTCATCAGGATAAATCATATTGTGTCCTT -TAGTCAGAAACGCAAGATCTGCGCCAGACTTGCGATTACGCCAGCGGGATTTTCCCGATGCGCGTTATGTCCGGCGCGAG -GAATGACATGGCAGTCGGCAGCCAGTTCCGCCGCCAGGGCGCGGAATTTGCTGTCACGTTCACCACATAAATAATAAAAC -GCAAATGTGCGGGCGCTAAGGTTAGCACGTAAATCAGGCTGGACGGCGAGAGAAGTCGCCTCCAGCATGGCGGCAAGCGT -TGCGCCATTATTGTTGCTGCGCAGCGCCACCAGCTCCCGGCGTTGATCGTCATTGAGTGAGGCAAAAACAGGCTGTTGAT -ACCAGTCGGCAAATACCGCCGTTAACGGTTCTGTGAGAAAACGCTGCACCCATTGGCGATCGGAACGCTGACGTTCCGCA -CGTTGTTCAGCATTTTGCAGCCCCGGATGCCCGCCTTCGACAATAACCCCACAAAGCCCCGCCAGCCCCTGGCAAGCCGC -CATCATCGCCACCCGTCCACCAAGCGAGTACCCCACCAGCCAGAAGTCAAGGATGTTGTAACTAACCAAGGTTTTACGCA -GTAAGTCGGTGACATCATCAAATCCATCGACGCTAATCGCCGCCGAACCACCGTGACCTGGGAGATCAACATACAACCGT -GAGTAGTCGGCAAACGCCTCGCCCACTTCTTGCCATTCGTGGCAATCGCCGGAAAAACCGTGCAAAAACACCAGCCAGGG -TAAACCTGGTTTTCCGTGTTTTGCCTGCGCGTGCAGGATCATAAATGGCTTACCTGCGCCAGAAGTTGCTGGAGCGTTTG -CGCACCATCGGTGTCGTTAACCACCATTTCAATCACCGTGGTGGTTGGCGTGCGCCAGGCGTCGGCAAATGCCGTTTCAA -GTTCCTGCCAGTTTTGCGGACGATGATATTTCAGCTCGAACATCGCGGCGGCGTGCTCAAAATGGACGTTTTGCGGCATC -AGATAGAAACGCTCACGCTCGCTTTGCGGCGTTGGCAACAGCGAGAAAATTTGCCCGCCGTTGTTGTTCACCACAATTAA -TACCAGCGGCGCAGAAACCTGACGCAATAACGCCAGCGCGTTGAGATCGTAAAGTGCGGAGAGATCGCCCACAATCGCCA -GCGTCGGTTTGCCGCTTGCCCGCTGAACGCCGGCGGCGGTCGAAAGCAGCCCGTCGATACCGCTGGCCCCACGGTTGCTG -TACACCGGGTAACCTGCCGGAAGTTGCGAAAGCGCATCAATCAGACGTACCACCAGGCTGTTACCAACAAACAATTGCCC -CTGTTCAGGCAGATAGTCGCAGATGCGATGCGCCAGTTGCGCTTCGCCAAACGCATCACGGCGGGCAATAACCGCCTGCA -TTGCCTGTTCCGCCAGGCGCGGGATTTCAACGCACCAGGGCTGGCGTTTTTCTGCCGGATGCAGCTCCAGCCAGTCGGCA -ATATTGGCAATTAAGCGACGTCCGCGATGGTGTGCCGGATCAAGTCGCCCTTCAATGTCATCAACAATCCAGTACTCTTC -TGGTTCACAGCTTGCCTGCCATTGCAGGAGCCGTTTCCCCGTCAGGCTGCTTCCCAGTTGCACCACAATTTGCGCCTGCT -GCAGCTCGCTGGTCGCTTTGGCATTGCCTAACCAAAGATCGGCACACGGCAGCGGCTGCCCGGTTTGTGACAGCACATCG -CCAATCAGCGGCCAGCCAAGAGTTTGCGCCCACAGGGCAACTTTTTTGCCCTCTTCCGCACTCATGCGCCCGGCAACCAC -CACGCCGCGCTTTTGTCGCCAGAAGAACCAGTCGCGCTGTTTTTCACTTTCCAGACGAGGCGCTTCACGCAGCCACGGTT -TGTCGTCCTGCCACCAGTCACCCAGACGCTGTTGCCAGCTAAGCCCGGTATCGTCCATTTCGCCATACAGCGGTTCAGCA -AACGGGCAGTTGATATGGACTCCCCCCGCATGAAGCGTACCGAGAGCGTGGTCGATGGTAGAAACCAGCCAACGTGCGGG -GATATCCTGGGTCGGGCGCGGCAATGAAATACTGTGCGTGGGGTGAGAGGCGAACATTCCCGGCTGGCGAATTGCCTGAT -TCGCGCCGCAGTCAATTAGCTCCGGCGGGCGATCGGCGGTTAAGAGAATCAGTTTTTCTCCGGTTAACCCGGCTTCAATC -AGTGCCGGATAGAGATTTGCCACCGCCGTGCCGGAGGTCACAATCACCGCCACCGGCTGCTTGCTGACTTTCGCCAGCCC -CAGCGCCAGATGCCCCAACCCACGCTCATCGAAATGGGTGTGGTGAATGAATGCGGAATTCTCCGCCGCCGCTAACGTTA -ACGGTGTAGAACGCGAGCCTGGGGCGATACAGATGTGTCTGACGCCGTGACGCGTTAATGCTTCCAGAATGACCGCCGCC -CAGCGTCGGTTAAATGCGCTTACTGACATGAGTTTGTCCGGTATCAATATTGCGGCTAAGTATAAGGAGCTACAAAAATA -GATTATTGATATGAATCGGTAATGATGCGACTCATTACTATTCCATTTGTAATAAAGTACGCAGCCCTGCCGCTTTGTTG -TCGATTTCCTGCCACTCTTGCTCGGGGTCGGAACCACGGACAATGCCCGCGCCAGCATATAATCGCACGACATTGCCGCT -AATTTTTGCTGAGCGCAGGGAAACGCAGAATTCGCTTTGTTGTAATGAGAGATAGCCCGCAGAACCGGCGTACCATTCTC -GGGTGAACGGTTCGTGACGGGCGATAAACTGTCGCGCCAGATCGCGCGGTAAGCCAGCAACTGCTGCCGTTGGCTGCAAC -TGATGTAAACAGATCACATCATCCGCTTTGTTGAGTGAAGTCCAGATACAGCGGCGAAGATGCTGCACTTTACGCAGACG -CAGTACCTGCGGCGGTAAAACATCCAGCGTCTGGGTATCGGCCTGTAATCGTTGACAGATATCTTCCACCACCAGCATGT -TCTCGCGCTGGTTTTTATCATCCGCCATCAGCCACTCTCCTAACTGCTGCGCCTGCTTATCATCAGGATTATTTGCTACT -GTTCCCGCCAGCGCTTCAGTACGCAGCGCTTTGTCACGCCGCCGCCATAACCGTTCCGGTGAAGAGCCAAGAAAAGCATT -TTCGCCATCAAAGGCCATGTAAAAATGGTAGCAATTCAGATTCAGTCGACGACTGGCAGCCATCATCGCCGCCGCGTTGA -CCGGACTTGCGAAATGCAGGTCAGTTGCCCGAGCGAGCACCACTTTGTCGAGCTCACCTTCGGCGATGGTTTTCGTTGCC -AGTTCGATTAATTGCGTCCAGCCCGTTTTGTCCGGCCAGTGTTGTTCTCGCGTGGTGGTTAAATGTAACCCAGGCAAGGG -CTTGATACTCACCAGTGTGGCGATAAATTCTTTTGCCTGAATCGCATCGTGCTGAAGGGAGCTTTCGCTGAATAGCGTCA -GCCGCAGCGTGGCTTTACCGCCACAGCGTCGCCATTCCAGGCGGGGTAAAAGTAAATTGCCCTGCGACGGGTCAAAAGCA -TTCAGCCCCCAAATGCGTAAGTCGGCGTGTTCCGGGTGCTGGCGAAGAAAACGTTGTGCCTGGTCCAACGACGTAAAACG -GGTAATCGCGCCCAGGACGACAGCTTCTTCATCACCATTACGTTGTTGCCAGTAGAATTGCGGGTATGTTTGCTGACTGG -CCAGCCAGCTCAAGGCATCAAAAGCGTCTTTGAGAGGGAAAGGAATATCGATAACCCGAATGCCGGGTGTCGCCGGAATC -TCTTGCGACAAATGGCGCAGTAGATTTTCCAGCGCCGTAGTAAGTGATTGCACGCGGACCTCTCCCTGTTAAAAGCCTCA -CATTATACGGGGTACTACAAAAAAAATGCAGTACCCCGGTGTAGGGAGGTTTTAACGGCGTGCCAGCAACAGTCCTAGTA -CCAGCCCAACGGCCGCGCCCACACCAATTCCTTGCCAGGGTTTTTCGTGGACGTAGTCATCAGCACGATAAACTGCCTGC -TTCGCCCGATAGTAATAACTGTCTGAAGCCTGGCTAACCCGTTTTTTCACATCATCCAGCGCTTTTTCTGCACGCGCTTT -CAGCTCAACATATTTCTGATCGGCGGGATCGCCAGAGGAGCGGAGCACCTCTTCCAGTGTTTCACTAAGCAGCGTCAGGT -CGTCATCGATACGTGTATCACCAAACTGATTAGACATTCTCGTTCTCCATTTGCGTAAAACCTGTCACTAACTATAGACA -AGGGTTGTTGATTACGCCTGAATTACCTCGCGTGCCATCCCAATGTGTGGGATACCATCTTCTTCATAGACCTCCGTCAC -AGGGATAAAACCGAAACTCTGGTAGAAGTTTTGCAGATGCGCCTGCGCCCCGAGGTAAACAGGCTTATCAGGCCAGTGAT -GCGTACATGTTTCGAGTGTTTTACTCATCAGCTGCTGCCCCACTTTTTCGCCACGCAACGCTTCACTGACAATCACCCGA -CCTATAACGACCGGCTCAAGATCATCATCACTTTTCAGAATCCTCGCATACGCCACCAGTTCATCATTTTTCCAACCGAG -AATATGGCGATTATCCCCCGTCAAATCATCACCATCGATATCCTGATAAGGGCAATTCTGCTCGACAACAAACACCGCGC -AACGCAGTTGTAATAAGGCATAAAGCTGGGAAACCGATAATTCAGAGTGATGCAGATCTTGCCATTCAATCATAATGCTC -TCCTTTTAGATGTATGCCTTATACTAGCCGGAATATTTTTTGAAACGTGATGAACTCATGGAATTAATTTTTTTAGGTAC -TTCAGCCGGTGTGCCAACCCGCACGCGCAATGTCACGGCAATATTGCTTAACCTGCAACATCCGACCCAGAGCGGACTTT -GGTTGTTTGACTGCGGTGAAGGCACCCAGCATCAGCTACTGCATACCGCCTTTAACCCTGGAAAACTGGACAAGATTTTT -ATCAGTCACCTTCATGGCGATCATCTTTTTGGTTTACCCGGCTTGCTGTGCAGTCGTTCTATGTCAGGCATTATCCAACC -CTTAACGATTTATGGTCCGCAAGGTATCCGTGAATTTGTGGAAACCGCGCTGCGGATTAGCGGCTCATGGACCGATTATC -CGCTGGAAATTGTCGAAATTGGCGCTGGCGAAATTCTCGATGATGGCCTGCGCAAAGTAACCGCTTATCCGCTGGAACAC -CCACTGGAATGTTATGGCTATCGTATTGAAGAACATGATAAACCGGGTGCATTAAATGCCCAGGCATTAAAAGCTGCTGG -CGTGCCGCCTGGCCCACTGTTTCAGGAATTAAAAGCGGGCAAAACAATCACGCTGGAAGATGGAAGGCAGATTAACGGCG -CAGATTACTTAGCTGCTCCAGTGCCAGGTAAAGCGCTCGCTATTTTCGGCGATACCGGCCCCTGCGATGCCGCACTTGAC -CTGGCTAAAGGTGTCGATGTCATGGTGCACGAAGCGACGCTGGATATAACCATGGAAGCCAAAGCCAATAGTCGCGGCCA -TAGCTCTACACGCCAGGCTGCGACACTAGCCCGTGAGGCTGGAGTCGGCAAGCTAATCATTACCCACGTCAGCTCGCGCT -ATGATGACAAAGGTTGTCAGCACCTGTTACGTGAATGCAGGTCAATTTTCCCGGCGACTGAACTGGCGAATGATTTCACC -GTGTTGGTGATGCTGCCAACTTACTGATTTAGTGTATGATGGTGTTTTTGAGGTGCTCCAGTGGCTTCTGTTTCTATCAG -CTGTCCCTCCTGTTCAGCTACTGACGGGGTGGTGCGTAACGGCAAAAGCACCGCCGGACATCAGCGCTATCTCTGCTCTC -ACTGCCGTAAAACATGGCAACTGCAGTTCACTTACACCGCTTCTCAACCCGGTACGCACCAGAAAATCATTGATATGGCC -ATGAATGGCGTTGGATGCCGGGCAACAGCCCGCATTATGGGCGTTGGCCTCAACACGATTTTACGTCACTTAAAAAACTC -AGGCCGCAGTCGGTAACCTCGCGCATACAGCCGGGCAGTGACGTCATCGTCTGCGCGGAAATGGACGAACAGTGGGGCTA -TGTCGGGGCTAAATCGCGCCAGCGCTGGCTGTTTTACGCGTATGACAGTCTCCGGAAGACGGTTGTTGCGCACGTATTCG -GTGAACGCACTATGGCGACGCTGGGGCGTCTTATGAGCCTGCTGTCACCCTTTGACGTGGTGATATGGATGACGGATGGC -TGGCCGCTGTATGAATCCCGCCTGAAGGGAAAGCTGCACGTAATCAGCAAGCGATATACGCAGCGAATTGAGCGGCATAA -CCTGAATCTGAGGCAGCACCTGGCACGGCTGGGACGGAAGTCGCTGTCGTTCTCAAAATCGGTGGAGCTGCATGACAAAG -TCATCGGGCATTATCTGAACATAAAACACTATCAATAAGTTGGAGTCATTACCCACCGTGTTTAACGTTTAACTCTGCTT -ATTATTAAAAACAGGGCGAAACTTGCCCTGTTATCGCAACCCGCGCTACATATATCCACCCACACAGGCATATTGAGCGA -TTTTTGATATTTATTCATCTCCTTACGCACTATATTCAGAGCAATAAGTTGCCTCTTTTCATCTTGATTCAGCACAACCT -TTGCAACTAAAAGGAGCCCATGATGGTTACAGTTGTCAGCAATTATTGTCAATTATCTCAAACGCAACTCAGTCAGACAT -TTGCAGAAAAATTTACTGTGACCGAGGAATTACTGCAGTCTTTAAAAAAAACAGCGTTATCCGGAGATGAAGAAAGCATT -GAGTTACTGCATAATATTGCGTTAGGTTATGATAAATTTGGGAAAGAAGCTGAAGATATTCTTTACCATATTGTTAGAAC -CCCAACAAATGAGACCCTATCGATTATCCGACTTATCAAAAATGCTTGTTTAAAATTATATAATCTGGCACATATCGCAA -CCAACTCCCCCCTCAAATCACATGATTCAGATGATCTCCTGTTCAAAAAACTATTCTCCCCTTCGAAATTAATGACAATT -ATCGGTGATGAAATTCCTCTTATATCTGAAAAACAGTCGCTTTCAAAGGTGCTTTTAAATGATGAGAATAATGAACTGAG -TGATGGTACAAACTTCTGGGATAAAAATCGTCAATTAACCACAGATGAAATAGCTTGCTATCTTCAGAAGATCGCCGCTA -ATGCAAAAAATACTCAAGTCAATTATCCTACTGGTCTCTACGTCCCCTACTCCACCAGAACTCACCTGGAAGACGCTCTC -AATGAAAATATTAAGAGCGATCCATCATGGCCGAATGAAGTCCAGTTATTCCCCATAAATACTGGCGGACACTGGATATT -AGTTTCGCTACAGAAAATAGTAAATAAAAAAAATAATAAACTACAAATAAAATGCGTCATATTCAACTCATTGCGTGCAC -TAGGCTATGATAAAGAAAATTCACTTAAGCGTGTCATTAATAGTTTTAATTCTGAACTCATGGGAGAAATGTCGAATAAT -AATATAAAAGTTCATTTAAATGAACCAGAGATAATATTTTTACATGCCGATCTTCAGCAATACTTAAGCCAAAGTTGCGG -TGCATTTGTGTGCATGGCAGCCCAGGAAGTGATTGAACAAAGGGAAAGCAATTCTGACAGCGCCCCCTATACGTTATTAA -AAAACCATGCTGACAGATTTAAAAAATATTCAGCAGAAGAGCAGTACGAAATTGATTTTCAACATCGACTGGCAAACAGA -AATTGTTATTTAGATAAATATGGCGATGCAAATATCAATCATTATTATAGAAACTTAGAAATAAAACACTCACAACCCAA -AAATAGAGCATCCGGCAAAAGAGTGAGTTAACATCATTGTTAATTAATTCGACCAGTCAGCAAATATGCTGACTGGTCGA -ACATAGTTTGCTAAACAGTCATCACTGACTGATGTCAGTCACACCATCCGCCAGTTCAATCAGGCGAATAAATTCCGCCC -TGTAACCCTGTGGATCTTCCCCTTTTGCCTGCTGAGCCCACTGTTTGATCTGCTGCCAGGAGGTATTGTTCAGGTATTCA -GAACCGCGTAACTTTTGCCCATATGCAGCTACTGCTGCGCGAAAACGCATATCTTCAGAGGGCGCGTTTATTGTTGGCCC -CAGCGGGAATTCAACTAACTGACTTTCTTTTCCCTGCGGGTATTTCCAGCGAATTTTTAACCAGGCCAGTTCTTTCGTTT -TGTCCGATTTCGCTAATTTGTTATCCGGGGCATAGCGTAACTTATCAATTGATGCTTTTTGCCCGTTCAGCGTTAATTCG -AATAACAACGTTATATGTTTGCCTGCGCCTATATCCCCTGCATCAACGTTGTCGTTATTAAAATGTTCCACCCGAAGTTG -GCGCTTTTCATAACCAATCTGACGGTATTCCGTTACCCACGCGGGGTTAAACTCAATTTGCGCTTTGACATCTTTTGCTA -CGGTAATCAACATCTGCCGCATTTCACTATTCAATACTTTCTGCGCTTCAGAGAGGGTATCAATGTAGCTGTAGTTGCCG -TTACCAACATCGGCAATTCGCACCATCATTGCCTCGTTGTAATTGCTATTCCCCACGCCAAACGTCGACAGAGTAACACC -AGACTCCCGCTGTTTTTTGACCATTGATTCAATCGATTTTGGATCGTCAATGCCAACGTTAAAGTCACCGTCAGTGGCTA -ATAAAATGCGATTGATGCCGCCCTTAATAAACCCTTTCGTCGCCTGCTGATAAGCCAGTTCCAGCCCGGCACCGCCATTG -GTACTGCCTTCGGCATCCAGCGAATCAATTGCGGCATTAATTTCCGCCTTATGACTCCCGGAGATAGAAGGCAATGCAAT -ACGGGAGTCGCCAGCGTAGGTCACGATGGCAATGTTATCCTGCTCACGAAGTTCTTTGACCAATAATTTCAACGAAGACT -GGATAAGTGGCAAACGTTCATCAGAAATCATTGAACCAGAAGTGTCGATAAGAAAGACCAGATTAGAAGCTGGTAACTCT -TCACTTTTGCGATCTTTCGCCAGGATATCAACTTTCAGCAATGTTCGCTGTTCATTCCATGGTGCAGGTGCCAATTCGTA -GCGCATAGCGAAAGGTATTGGCTTAGAGGCCGGAATAGATTGTTTGTCTTTGATATCCCAATCAGACGGGAAATAATTGA -CTATCTCCTCCACCCGCACAGCGTCTGGCGGAGGTAACAGCCCTTGATTGAGGAAACGCCTTACATTCGCATAACTGCCA -GTGTCAACGTCAAGACTAAACGTCGCCAACGGATTTTGCGCTACCTGCTTAACCGGATTATCATCGAACTGCTGGTAGCG -AGCGGTTCCTGGATTTGCGATATGTGTAGCTTTTGCTTTAGCCGCTCTTGCAAATGTTGGCGCTTCCTGCAATCGCCCCT -GTAAAGCCTGTTTGTCTGAATATTGTTGCACTTCTTGCTGGGCCAAGGCTTTCGCGGCGGCGGCGCTTTGCTCAGCCTCT -TTTATTGCAGCTTGCTGCGCGGCAAGCACTTGCTGCTCTGTGGGAGTACTGGGTTGTTGTTGCTGACTTTCCTTATTCTC -AGGTTGCGGCCCACATCCTGACAAAATCAAACTACTCATAAGCAACATGATTATATTTTTATTTCGCATATAAAATCCTT -TTAAATAAACTCAGGCACCAGACATAAAATATACTCTTTGTATAATCCTGCTAATCTTAATAAAATACAATATCGAAACC -CATAGCAAATAATGATTCAACAACGCAACCCATTAATAATTTGCATATGAAAAAAATAATCTTTGCTTTTATTATATTAT -TTGTGTTTTTACTCCCTATGATTATTTTTTACCAACCCTGGGTCAATGCATTACCGTCAACGCCCCGACACGCAAGTCCT -GAGCAATTAGAAAAAACAGTTCGTTATCTTACACAAACTGTGCATCCACGTAGTGCCGACAATATTGATAATCTGAATAG -GTCCGCAGAATATATAAAAGAGGTCTTTGTCAGTAGCGGTGCCAGAGTTACCTCGCAGGACGTCCCCATTACGGGTGGCC -CCTACAAAAACATTGTTGCTGATTATGGTCCTGCCGATGGACCGCTGATTATTATTGGTGCGCATTATGACTCTGCCAGC -AGTTATGAAAACGATCAATTGACCTATACGCCGGGCGCGGATGATAACGCCAGCGGTGTGGCAGGATTACTCGAACTGGC -ACGTTTGTTACATCAGCAAGTACCGAAAACAGGCGTGCAGCTGGTCGCCTATGCGTCGGAAGAACCGCCCTTCTTTCGTA -GCGATGAAATGGGGAGCGCGGTGCATGCAGCTTCGCTTGAGCGTCCAGTGAAATTAATGATAGCACTGGAGATGATTGGC -TATTACGACTCTGCGCCTGGAAGCCAGAATTACCCTTACCCGGCAATGTCCTGGCTTTATCCCGATCGGGGAGACTTTAT -TGCCGTGGTCGGCAGAATACAGGATATCAACGCCGTTCGTCAGGTAAAAGCGGCATTGTTGTCATCTCAGGATTTATCTG -TTTATTCTATGAATACCCCAGGGTTTATTCCCGGTATTGATTTCTCTGACCACCTGAATTATTGGCAACACGATATTCCC -GCCATAATGATTACTGACACCGCTTTTTATCGTAATAAACAATACCACTTGCCCGGTGATACCGCAGACAGATTGAATTA -TCAGAAAATGGCTCAGGTAGTGGATGGTGTTATAACTTTGTTATACAACAGTAAATAATAAAAATTTCTCGAGGCGGGTC -CAGAAAAAGCGACATGCACATTTTATTTTCCCTCATCTGTTTTAAGATGCGAAACATGAAATTCAACGGAGGAAAAATAA -ATGGGAATGATTGGCTATTTTGCAGAAATTGACTCAGAAAAGATTAACCAACTGCTTGAGTCTACTGAAAAACCTTTGAT -GGATAATATACATGACACGCTTTCAGGATTACGCCGACTGGATATTGATAAACGCTGGGATTTTTTACACTTTGGGCTGA -CAGGCACCTCTGCTTTTGATCCCGCGAAGAATGATCCGCTGAGTCGTGCCGTGCTTGGTGAACACAGCCTCGAAGATGGC -ATAGATGGCTTCCTTGGATTGACCTGGAATCAGGAGTTAGCCGCGACAATCGACCGACTGGAATCACTGGATCGAAATGA -ACTGCGTAAACAGTTTTCCATTAAGCGACTCAATGAAATGGAGATTTATCCGGGAGTGACCTTTTCAGAAGAGTTAGAGG -GGCAACTCTTTGCCTCGATCATGCTTGATATGGAAAAGCTGATTAGCGCGTATCGACGTATGCTGCGACAAGGGAATCAT -GCGCTGACGGTTATTGTTGGGTGATATAGCTTGATGCCTGGGGGAGAAAGACCCATTAGTTAAGATTTACGCCAGGATCA -TCTTGAAAAAATCTTTAACCATGGTCCGGTTTTTATCCCCTTGTATAAATATTACTAAATGCTTGCTTAGTCGCATTGTT -AAATGCAATACCGTATATTCGGTATGTAACAGCGATATCCTCTGTGCTGGCAACGATCTGTCATGCTTGATGAAAACGGA -ATTGAACCTGTCATTACCAGGTAGATAAAAAGCCTGTTCAATTTTGGGATTATTTTTTATAACTCGTGTCTGTTATGGCG -ACACGGGAAAACATCAATATTGTCCTTCACAAATTGCAGTAATATAGAATCAACCTCTCTTGCAAGTTGGTCACAATGTA -TTATAAGCATTTTGAATATGTCATCCTCTGTAATCTCGTGAAAATTTTCGGCCTTGTCTTTTAGCTCATCATATCGGATT -CTTGCAGTAACCATTTTTTGGGCGAGTTCTAATAACCCCAAAGCTTGCAATTGCTGGTGAGTATGATCACTTTCAAAAAA -TATCCCACACTCCATTCCTTCCCAACCAACATATTCATGCCATTCATAAACCAGCATAAATGTTTGTAAAACTGGCGGTA -ATAATTGGATATCTGCAAAACCAAACCAAAACTTACGCTTGAGATCCCACTCATATTCAATCGCCAATGCTATATTGTTT -AAGGCATCTCCGGCATCCTTATTTTTACGCAAAATCAATTCCGTCAGTGTATAGCGTTGTTCATCAATACGCCGAAGAGC -TTCTGCAATATCATAGTTTGTAGCCAACAAAACATTCTCTGCTTCCTGATGAGTGACGTCTGCTTTTGCCGTCAATATAT -TGATTTGGTCAATATGAAACAACTTGATGGCTTCATCAACATCACCGCCAGTCCTCTCTAACAAACGTCTGGCAACCTGG -ATACCGACAGGTACGTTCTTCCGAAGTTTACGAATTTCACTTAACCATTCCATGTCAAACCCCTTTAAATATTTATGATA -TTAAATATAACAACGTCTGGATAACGACCCGGCCTGACTGAATATCTCACGTTTTCCTGCTTAACATTCATGTTATGATG -CTCTTGAAACTAATAATACGTATGGAATTGTCACTATTTATCTGCTAATGAATTCAAACAATGTCATTCGTTTGATGAAT -ATATTATTTCAGGGAATAATTATGACACCTTTAGAACGCATTACCCAACTTGTTAATATCAATGGTGATGTTAATAATCC -TGATACTCCTCGTCCATTGTTATCTCTTGAGGATTTTTTTATTGACAATAATATCCATGGTTCAATATGTTGCAATGTGA -TTCCAGAACAATCTCCGCAAGCTATCTATCACCATTTTCTGAAAATACGTGAGCGTAACAATGTTAGTGATGTTTTGGTA -GAAATTACGATGTTCGATGACCCAGACTGGCCCTTTAGTGAAAGTATTTTAGTTATCACCACTGCTTCACCAGAAGAAGT -TCAGAGCTGGTTTGTAGAAGAAATTGCCCCTGATGAGTGCTGGGAAGGATGGTCAGAAGATACGGAGCATGGATGGGTTG -AAGTCCCTGTGGGTATGCATCCGGTTACTTGTTGGTGGGATTAAAACATTTATATAAACAGATAAGCGGATGTTTACATA -AATTTTTATGTGAAGGAACATGATGAAACTTATTCCTCGCAGTAGTGATATTTCACCTGGCATTGATGGAATTTGCCCGG -GGCCTTTTCCTCCGAACGGATTTACCGTACTTACAGATGCAGCATATGGTAACGGAGACTGTTTCGGTTTGTACTGGCCT -ATTGGTCAGGAGCATAAACTACCTATAGTGTGCGAAACGTACCATGACGAATGGCGAATCGTACCTGCCTTTTCCAGCAT -TAAGAAGTTCGAAGAATGGCTGGAAGTGAATGATGATGATCCCCATGAAAATGGCATCAGCATCGAAGATCAAGACTTTG -CAGCAAATCTCTTCCGTGTTGCTCGGAAATGTCTTTCAACGGGAAGGCTTGATGACGCACTGCCACTGTTACAGCGAGCA -ACAGAACAATTGCCTGAAGTCAGCGAATATTGGTTAGCACTGGCAATCCAGTATCGCCGATGTAAAAAAACAGAAGCTGC -AGCACAGGCTGCGCTTAATGCTTATCTTGGCAATTGGGCATTTGGTGTTCCTGACAATAAAGTCATTCATTTGCTGTCAC -AGGCCGCAGATGTCCCGAATTTCCAGGATGATCCTGTGATTCAGTGCATTAAAGAACAAGGATTAGATCTTAGCTTTGGA -GGAACAAAGGAAAATAATAATTACCCCTTGATGCAGATGTGTGTTGATACTTATTTTGCGCAGAGAAAACCGCTTCAGGC -ATTAACCCTGTTACATAATTATGCCTGGATAATGTCCAGTGAAACGACTGCATTTCAGGAACGCTATGATTTTAATATCG -ATGAATGGCGGGCAAAATTCAGGCAGTTATGTTTAGAGTATTTTGGCGATAGTCGTACACAGTTCACTTAACGCTCTGCG -TCTATCTACTATCCCTTCTTTTTCAGAAAAACCGCCGAGCATGTCGGCGGCTTTCTGACTTACAAAGTAACAGATTACAT -CAGCGGCATTGCCAAACGCACAATGCTAATCAGCGGTTGTGGCCATACACCCAGCACCAGTACCAACAGTGCAGAGATCA -GCACAACGATACCGCCCGCGCTGTACTGCCAGTTTGATGGTGCATCGCGACCCGGTTGTTCCGGGGCGTGAAGATACAGG -CTCACCGCCACGCGCAGGTAGTAGTAGAGGCCGATTGCCGAACCGACAACCACGGCACCCACCAGCCACCACAAGTGTGC -CTGGACACCGACCGCCAGCACGTAGAACTTACCGATAAAGCCCAGCGTCATCGGGATACCGGCCAGAGACAGCATCATCA -CCGTCATCACTGCCGCGAGGATCGGACGATGCCAGAACAGACCGCGGTAAGAGAACAGGGAATCAGCATCCGGGCCACGA -TACGGGCTGGACATCAGGCTGACCACGCCGAACGCGCCGAGGCTGCTGAACAGATAACCGGCCAGGTAAACCCCTACCGC -TTCCATCGACATCTCGCCGGTTTGCAGCGCAATCAGCGCTACCAGCAGATAGCCGAGGTGAGAGATAGATGAGTAACCGA -GCAGACGTTTGATATTGGTCTGGCTCAGCGCCATCAGGTTACCGAAGATGATGGAGGCAAAGGCGATAATCGCCAGCACC -ACGCGAATCGCTTCGCTGTCACCCACCGGTGCGTAGAGGAACAGACGCATCACCACACCGAAGATAGCGATTTTGCTCGC -CGTCGCCAGGAAAGTGGAAACCGGCGCAGGCGCGCCCTGGTATACGTCTGGCGTCCACAGGTGGAACGGCACCAGAGAGA -GTTTGAAGCCGAGGCCAACAATCATCAGGCCGAAACCTGCCAGCAACAGCGGCTCGTTGAGCATACCGTCGCCAAGGTTT -TTACCCAACGCGACAAACGACAGGTCGCCAGACTGCGCATACACCAGCGCCATACCAAACAGCAGGAAAGAAGACGCTGC -GGCAGAAAGGATGGTGTATTTGATACTGGCTTCCAGTGAACGTTTCTGGCGGAAAGCGTAACCGACCAGGCCAAACAGCG -GCAAAGAGATCAGTTCGATACCGAGGAACAGAGACGCCAGATGGTTGGCATTCGCCAGCAGGATCCCGCCCAGCGCGGCA -ATTAACACCAACAGGTAGAACTCATCCTTGTTGTCGTTATAGCCTTCAAGCCACGGGTAGGCGAAAGTACAGGTGGCGAG -GCTCGCCAACAATACCAGCCCGGTGTAAAGCATGGCGAAACCATCAACGCGCATCAGCGGCGTAACGTCCATAGCGCCCG -CCTGGCCAACAAACCAGAGCGAAACCAGCGCCGCGTTAAGCCCAATAACCGAGAGCGTAGCGTTGAGGAAATGATTGCGT -CGCCACGCAATGGAGAGCATCACAACCACCACCGTCAAGCCGACGATCAGCAACGGTAGCAGTGCGATCAGGTTTTGTGG -AGTTATTGTCATGGCGATTTACGGCCTTGTAGTAGTAACGGAATTAACAAACCACTGCTGGATATTGCCAATCGCGGAGT -GCGAGGTATCCAGAATCGGCTGCGGATAGAAGCCCAGCAGTACCAGCAGCACCACCAGCAACAGGATCATAAACAGCTCA -CGCAGCGACATCCCTGGCAGTTCCTGGCTGGCAATCTGGCTTTTCGCTTTACCGAAGTAAGCGCGATGTAACATCGCCAG -CGAATAAACAGATGCAAAGACCAGCCCAAAGGTAGAGATAACGGTAATCACCGGTACAACCTGGAAGCTGCCGAACAGAA -TCATAAATTCGCCGACGAAGTTACCGGTGCCAGGCATCCCAAGCGTTGCCACCGCAAAGAACAGCGACAGTGCTGGCAGC -CATTTCATCTTGCTCCACAGACCGCCCATCATGCGCATGTCGCGGGTATGGATACGTTCATAAAGCTGACCACAAAGAAT -AAACAGACCCGCCGCCGACAAACCGTGCGCAATCATCTGGATTACCGCGCCCTGGTAGGCCAACTGGCTGCCGGTGTAGA -TAGCAATCAGCACGAAGCCCATGTGGGAAACCGAGGTGTAGGCGATCAGACGTTTGATATCGGTCTGGGCGAAGGCCATC -CACGCACCGTAGAAGATGCCGATAACACCCAGCCACATAGCAATTGGCGCGAACTCTGCCGACGCGTTCGGGAACAGCGG -CAGGGAGAAACGCAGCAAACCGTAAGCGGCAGTTTTCAGCAAGATCCCCGCGAGGTCAACGGAACCGGCGGTCGGAGCCT -GGGAGTGCGCATCCGGCAGCCAGCCATGCAGCGGAACCACCGGCATTTTGACTGCGAAGGCGATGAAGAAGCCCAGCATT -AACAGGTATTCCACACCACTGGACATTGGCGTATTCAGCAGCTCTTCATAGTTGAAGGTCCAGACGCCGGTCGCATTGTA -GTGAACAAAAACCAGCGCCAGGATGGCAATCAACATCACCAGGCCACTCGCCTGGGTGTAAATGAAGAACTTGGTTGCCG -CCGTGATACGCGTTTTACCGTCAGAGGCTTTATGCCCCCACAGTGCGATCAGGAAGTACATCGGCACCAGCATCATTTCC -CAGAAGAAGAAGAACAGGAACATGTCGATGGCAAGGAACACGCCGATAACGCCGCCCAGGATCCACATCAGGTTGAGGTG -GAAGAAGCCCTGATATTTTTCGATCTCTTTCCACGAACATAGTACCGCCAGCACACCGAGCAGACCGGTCAGCACGACCA -TCAGCAGCGACAGCCCGTCAATGGCGAGATGAATAGAGATACCAAAACGCGGGATCCACGGCATGTCGAATTCAGACTGC -CACTGCGGAATTCCGGCGGATTGCGTCAGTGAATAACCGCCCTGCAACCACAGTTGCAGCGACAGCGCCAGCGTCAATCC -CATGGTGATCAGCGCGATCCAGCGTGGCACCTTGACGCCAAAGCGTTCGGTCTGCCAGCACAGGAAGCCGCCAATAAAGG -GAATTAATATTAGCCAGGGTAGTAACATGGCGATCTTTATTCCTTGTAAAAGTCCCGTCAGGACCGGATTTTCAACGAAT -TCTCACGACAGAAAATTCTCTTCGGACTGGGGGTAGTGTCGGATGCACCGCGAAGGCGGCTTATCCGACCTACGTTCTTA -TATGCCCAGGGGCAATCCCACAATCCTTAACTCAACGCAGTACCATCAACAGTGCCAGCACCACGACCGCACCGATGCTC -ATGGATGCCACATACCAGCGCAGATAGCCGTTCTCACTTAACAGCAGACCTTTACCTGCAAAGCGGGAAAGGACAGCCGG -GATGTTCATCATTGAGTTCAGCGGATCGCGTTTCAGCAACCAGGCAATACCCAGGAACGGCTTGACGAACACTTTGTCAT -ACAGCCAGTCAAATCCCCAGGCGTTGTACCACCAGGTGCCCAGCAGACGGCCCGGCGCACTGTTGGCGATGGAGGTCACC -AGAGTACGTTTACCCAGCCACAGCCAGGCTGCCAGCAGAATGCCGACCACCGCGACCACGCCAGAGGTAATTTCCAGGGT -CAACATGCTGCCGTGCGCCAGTTCCGTCGTTTGCGGAAGCACGCCCTGCAGCGGCGGTACAATCAGTGCGCCAACGAAGG -TGGAAAGGATCAGCAGCACAATCAGCGGCAGGCTGTGAGTTACCCCTTTCACGGCGTGAGCGTGAATTTGTTCTTTTCCG -TGGAAGACGATGAAAATCATACGGAAGGTGTAGAGCGAGGTCATAAACGCACCGACCAGACCTGCCACCATCAGATTGAT -ATGACCATTCGCCATCGCACCCGCGAGGATCTCATCCTTACTGAAGAAGCCCGCAGTGACCAGCGGTAGTGCCGACAGTG -CTGCGCCGCCCACCAGGAAGCAGAGATAAACCAGCGGAATAGATTTACGCAGACCGCCCATCTTGAAGATGTTCTGTTCG -TGATGGCAGGCCAGAATGACGGAACCGGATGCCAGGAACAGCAGCGCTTTAAAGAACGCGTGGGTCATCAAGTGGAAAAT -CGCCGCATCCCATGCCTGCACGCCAAGCGCGAGGAACATGTAGCCAATCTGGCTCATGGTAGAGTAAGCGAGAACACGTT -TGATGTCGGTCTGTACCAGCGCGGCAAAACCGGCCAGCAGCAGCGTAACCGCCCCGACAATACCCACCAGATGCAGAACT -TCCGGCGTCATCAGGAACAGGCCGTGGGTACGGGCGATCAGGTAGACACCCGCGGTTACCATGGTTGCGGCGTGGATCAG -CGCGGAGACAGGCGTCGGGCCCGCCATCGCGTCGGCAAGCCATGTCTGCAACGGCAACTGCGCAGATTTACCGACCGCAC -CGCCCAGCAGCATCAGCGTCGCCCACATCAGCATGTTATTGCCGTCAGCAAAGTGCGCTGGTGCCAGTTCCACCATTTCG -CGGAAGTTCAGGGTGCCCAGTTCGTTGTAAAGAATGAACAGTGCGAAAGCGAGGAACACGTCACCCACACGGGTCACGAC -GAACGCTTTCATTGCCGCTGCGCCATTCTTCGGATCGGTGTAATAGAACCCGATCAGCAGATAGGAGCACAGGCCCACGC -CTTCCCAGCCGAGGTACATCAGCAGCAGGTTGTCGGCAAGCACCAGAACCACCATGCTGGCGATGAACAGGTTGGTGTAA -GCGAAGAAGCGAGAGTAGCCCTCTTCACCGCGCATATACCAGGAGGCGTACATGTGAATAAGGAAACCCACACCAGTGAC -CACCGAGAGCATGGTCAGCGACAGGCCGTCCAGCACCAGGTTAAAACCGATGTTAAAGTCGCCTACCGACATCCACGTCC -ACAGCGGCTGGCTGTATGTCTGCTCGCCGTTAGCGAAGAAATCAACGCCGATAAAGGCGGTTACCAGCGCCGCCAGGCCC -ACAGAGCCTACGCCGACGATCGCCGAGACGTTTTCAGACCAGCGCCCACGGGAGAATGCCAGCAGGACGAAGCCAATCAA -TGGCAAAATAATGGTTAAGGCAAGCATGTTCATCCGCGCATCTCACTTACTGAATCGATGTTCAGGTTCTGGCGACGACG -GTGAAGTTGCAGCAGCAGCGCAAGGCCGATACTCGCTTCTGCCGCCGCGAGGCTGATGGCGAGAATGTACATCACCTGAC -CGTCGGTCTGGCCCCAGTAGCTTCCGGCGACCACGAAGGCCAGCGCGGAGGCGTTAATCATGATTTCCAGACCAATCAAC -ATAAACAGCAGATTGCGACGGATAACCAGACCGGTTAAGCCAAGAACGAATAAGATTGCCGCGAGGATCAGTCCATGTTG -TAAGGGGATCATGCGTGCTCCTCCGTTTTTCTTTTCGCGCTGTCGTCTTTACGATTGCTCAGCACTTCACCCGCACGCTC -TTCACGACCGACGTGGAAGGCCACAACCAGACCTGCGAGCAGCAGCATAGAAGCCAGTTCCACCGCCAGTACGTAAGGCC -CGAACAGCGTAATACCCACTGCTTTAGCACTGATTGGCGTACCGTCGATACCCTGATCGTTAACACCGAGGATGGCGTAA -ACAATCACCACCAGCATGATGGCCGACAAAATTGCCGGACCAATCCACACCTGCGGTTTCAGCCACTGGCGTTCCTGTTC -GATTTCTGAACCGCCCAGGTTGAGCATCATCACCACGAACACGAACAGCACCATAATGGCACCCGCGTAGACGATAATTT -CCAGCGCACCGGCGAAGTAAGCGCCCAGTGAGAAGAACACCCCGGAAATCGCCAGCAGCGAAATAATCAGGTACAGCAGT -GCGTGTACCGGATTGGTATGGGTGATCACTCGCAAGGTCGCAAGTATGGCTATCAGGCCACAGATATAAAAAGCGAACTC -CATTGCCCCTCTCCTTACGGTAACAGGCTCTTGACGTCGATAGGCTTGGCTTCGTTCTCTGCTTCGCCCTTATCTTTGCC -GTCGATTGCCATACCTGCCATCCGGTAGAAGTTATATTCCGGGTATTTGCCCGGACCGGAGATCAGCAGATCCTCTTTCT -CGTAAACCAGATCCTGGCGCTTGTATTCCCCCATTTCGAAATCCGGGGTTAACTGAATCGCCGTGGTCGGACAGGCTTCT -TCGCACAGACCACAGAAAATGCAGCGTGAGAAGTTGATGCGGAAAAATTCCGGGTACCAGCGACCGTCTTTGGTTTCTGC -TTTTTGCAGCGAGATACAGCCGACCGGGCAGGCTACCGCGCAGAGGTTACAGGCTACGCAACGCTCTTCGCCGTCCGGGT -CGCGGGTCAGAACGATACGACCACGATAACGGGGCGGCAGATAGACCGGCTCTTCCGGGTACATTCGCGTTTCGCGTTTG -GCGAACGCGTGCAGGCCGATCATCCAGATACTACGAACCTGGGTGCCGAAACCTACTAACAATTCTTTTAAGGTCATGGT -CTTATTGCCCCTTATTGCGCCTGCCAGAGAATGACAGCCGCCGTTACCAGCAAGTTGATCAGCGTCAGCGGCAGGCAGAT -TTTCCAGCCGAAGGACATTACCTGGTCATAACGCGGACGCGGTAACGACGCACGAATCAAAATGAACATCATCATAAAGA -ACGCGGTTTTCAGCGCGAACCAGATGAATGGCGGTAACAACGGGCCTTGCCAGCCACCGAAGAACAGCGTCACCATCAAT -GCAGAGATGGTCACAATCCCGATGTACTCACCCACGAAGAACAGACCGAACTTCATACCGGAATATTCAATGTGGTAACC -ATCCGCCAGTTCCTGCTCGGCTTCCGGCTGGTCAAACGGGTGACGGTGACATACCGCCACGCCCGCGATGGCAAAGGTAA -TAAAACCAAAGAATTGCGGGATAACGTTCCACACATGCGCCTGGCTGTTGACGATGTCGGTCATGTTGAATGAACCGGCC -TGCGCCACCACGCCCATCAAGGAAAGCCCGAGGAACACTTCGTAGCTCAGGGTCTGCGCAGAAGCACGCATCGCACCCAG -CAACGAGTATTTGTTGTTACTTGACCAGCCCGCAAACAGCACCGCGTAAACCGCCAGACCTGCCATCATCAGGAAGAACA -AAATCCCGATGTTCAGGTCGGCAACCACCCAACCCGGACTGACTGGCACAATCGCAAAGGCCAGCAGCAGCGAGGTAAAG -GCAATCATCGGTGCCAGGGTAAAGATGACGCGATCCGAGAATTTCGGGATCCAGTCTTCTTTAAAGAACATTTTGATCAT -GTCCGCAACCAGCTGGAGCGAACCGCCCCAGCCAACACGGTTAGGTCCGTAACGGTTCTGGAACAGACCCAGCAGGCGAC -GTTCGCCAAAGCTCATGAATGCCCCGCAGGTGACAACCACCAGCAGGATCACCACCGCTTTGAGGATGGTCAGCAGGATC -TCAATCAGTTCCGGTGATATCCAACTCATTGTTGTGCCTCCTTGAGATCCTCAAGATGCGCGCCAGCCAGCACCGGAGCA -ATGCCGGACATACCCATCGGCAAGCCCACCTGCCCTGCCGTCAGTCCTTCGGCGATTTCAACCGGCAGCGTGACCGTGTT -GCCATCGTAACTAAAGGAGACGCGTGTACCTGCGTTCACACCCAACTTCGCGGCATCCGCTGGGTTGAGTTTGATGTACG -GCTGCGGCATACGGCTCTGGAAGACCGGAGCACGCTGTGACAATTCATCGCTGCCAAACAGGTGGTAATACGGCGCGATA -CGCCATTTCCCGTCCTGCGGCTGGAAGCGTGCCGGTACGCTGGTGAAGTAATCCAGACCATTTTCGCTGGTTTCAAACAG -ACGCACGCCCGGATCGCCAAAGCGCAGTTTGCCGCCCACTTCGTCCTGGAATTTGTTCCACGCCTGCGGGGAGTTCCAGC -CCGGCGCCCAGGCAAACGGCACTTGCGAACGGTGCGCAGTCGGCTGGTTGTTACCTTCCATCGAGAAGGTGAACATGGTG -TCAATATCCTGCGGCTGACGCGGCTCATGAACGCTGATATTGGCGCGCATGGCGGTACGACCGCTGTAACGGTGCGGTTC -ACGGGCCAGTTTCTGCCCACGAATACGGAATGTCGCATCCGGCGCAGCATCTTTGATACCTGCCAGTTCCGGGATTTTCG -CCACAACAGCGTCAATCACATGGTCGAGCTGCGTCCAGTCCACTTCACGGCTCAGCAGGGTGCTGTGCAGCGAGTGTAAC -CAGCGCCAGCTTTCCAGCATGACAGTTTTGCTGTCGTAATAAGCAGGATCGTAAACCTGGAAGAAACGTTGGGCGCGGCC -TTCGTTGTTGATCACCGTACCGTCGCTTTCAGCAAAGCTGGCAGCAGAAAGTACCAGATGGGCGTTTTCCATAATCGCTG -TGCGTTGATGATCAACCACCATCACCAGCGGTGCTTTAGCCAGCGCAGCATTCACGCGGATAGCAGAAGCGTGACGATGC -AGATCGTTTTCCAACACCACCACCGCGTCGGCGCGTCCGGTTTCCAGTTCGGTTAACGCTTCTTCAAGCGAACCGCCACC -CATAATGCCCAGCCCCATGCTGTTGACGGAACGGGCAATCATGGTGATACCGACGTCAGCGCCGCGACCTTTCAGGGCTT -TCGCGACGTTAGCCGCCGCCTGAATCACCTCTAAGCTACCGGCGTTCGTCCCGGAGATAATCAACGGTTTCTTCGCACCT -GCCAGTGCCTGCACGATGACGTCGATTTTGCTTTGCAGCTCAGGTTCGATACCGTCAACCGCTGGTGCAGAGTTATCCAG -CGCATGGGCGATGGCAAAACCTAAACGCGCCTGATCTTCAACCGGTGCGCGGTAAGTCCACGCCGCGATATCATCCAGAC -GGGTGTCATCAACGTTGGTAACAAACAGCGGATGCTTCGCACGTTGACCGATGTTGAGGATTGCCGCAATCTGCCAGTCA -GCCACTTTCTGTGCTGCCGCCATTTCGCGCGCTTTACCTTTCACAGCCTGACGCACTGCCAGCGCGACGCGCGCGCCGGT -CTGGGTAACGTCTTCGCCCAGCACCAGTACCGCATCGTAAGATTCGATTTCGCGCAGAGCCGGAGTATAAATGCCGCCTT -CACGCAGCACTTTCAGCGCCAGTTGCAGACGTTCCTGCTCACCGTGAGCGATACCGGTGTAGAAGTTTTCTTCGCCCACC -AGTTCACGCAGCGCAAAGTTGCTTTCCACGCTGGCACGCGGAGAACCAATACCGATCACTTTCTTCGACTGACGCAGAAT -ATCTGCCGCGCCCTGCATTGCCTGTTCGGCGTTGAGGGTAATGAAATCATCGCCACGACGCTGTACTGGCTGACGCGGAC -GATCCTTCAGGTTGACGTAACCGTAACCGAAACGACCACGGTCGCAGAGGAAGTAGTGGTTTACCGTACCGTTGTAACGG -TTTTCGATACGACGCAGTTCGCCGTAACGTTCACCGGGGCTGATGTTACAGCCGATGGAACATTGCTGGCAGATGCTCGG -CGCAAACTGCATATCCCATTTACGGTTGTAACGCTCGGAGTGCGTTTTGTCGGTAAATACGCCGGTCGGGCAAATTTCGA -CCAGGTTACCGGAAAATTCGCTTTCCAGCGTGCCGTCTTCCGGGCGACCGAAGTAGACGTTGTCGTGCGCACCGTAAACG -CCCAGATCTGTACCGTCAGCGTAATCTTTGTAGTAACGCACACAGCGGTAGCAGGCGATGCAGCGGTTCATTTCGTGAGA -GATGAATGGCCCCAAATCCTGATTACGGTGGGTACGTTTGGTGAAACGGTAGCGACGGAAGCTGTGTCCGGTCATCACAG -TCATATCCTGAAGATGGCAGTTACCGCCCTCTTCACATACCGGACAGTCGTGCGGGTGGTTGGTCATCAACCACTCGACC -ACGCTTTCACGGAACTGTTTCGCTTCTTCGTCGTCAATGGAAATAAAGGTGCCATCGGAAGCCGGTGTCATACAGGACAT -CACCAGGCGACCACGCGTGTCTTCCGCGTTTTGGTATTGCTTCACCGCACACTGGCGGCAAGCACCGACACTTCCCAGCG -CCGGATGCCAGCAAAAGTAAGGAATATCAAGGCCCAGAGACAGACAAGCTTCCAGCAGGTTGTCCGCTCCGTTGACCTCG -TATTCTTTGCCGTCTACATGAATTGTAGCCATTAGCATGCTTCCAGTTTTCTCAGTCAGAGACTGAGCGTTAATCGAAAT -TCGGTTACCAGCGCTCTTTCAGCAGGTTCGGCTGAATCCCATTAATCAAATGGGTATTGCTGAACGGCTGTTTGATTCCC -GCCTCAAATTCTTCGCGGAAATATTTGATGGCGCTCTGTAACGGCTCCACTGCACCAGGTGCGTGGGCACAGAAAGTTTT -ACCCGGGCCTAAGAATCGACACAGTTGCTCAAGTGTTTCGATATCGCCCGGCTGACCTTCACCACGCTCCAGCGCACGCA -GAATTTTCACGCTCCACGGCAGACCGTCGCGGCACGGCGTACACCAGCCGCAGGACTCACGGGCGAAAAACTCTTCCAGG -TTACGCACCAGCGACACCATGTTGATCTCATGGTCAACCGCCATCGCCAGCGCCGTACCCAGACGGCTGCCCGCTTTACC -GATACTTTCGAATTCCATCGGCAGATCAAGGTGCGCTTCGGTCAGGAAGTCAGTCCCCGCGCCGCCTGGCTGCCAGGCTT -TAAATTTCAGACCATCACGCATACCACCGGCGTAATCTTCGAGGATCTCGCGTGCGGTGGTGCCGAACGGCAGTTCCCAC -AGTCCCGGATTTTTCACCCGACCGGAGAAGCCCATCAGCTTGGTGCCAGCATCTTTACTTTTCGAGATGTTCTGATACCA -CTCCACGCCGTTAGCGAGGATCGCCGGAACGTTACACAGGGTTTCGACGTTGTTGACACAGGTCGGTTTACCCCATGCGC -CGGAGGTTGCCGGGAAGGGTGGCTTCGAGCGTGGGTTAGCACGACGTCCTTCCAGGGAGTTGATTAACGCTGTTTCTTCC -CCGCAGATGTAGCGCCCTGCCCCGGTATGGACGAACAGTTCGAAATCGAAACCTGTTCCCATAATGTTTTTGCCAAGCAG -ACCCGCTTCGGTGGCTTCGGCAATGGCACGGCGCAGATTAACTGCCGCTTCGATATATTCGCCACGCAGGAAGATGTAGC -CACGGTAAGCTTTCAGCGCAAACGCGGAGATGAGCATACCTTCCACCAGCAGGTGCGGCAGTTGCTCCATCAACAGGCGG -TCTTTATAGGTGCCCGGCTCCATTTCATCGGCATTACACAGCAGGTAACGGATGTTCATGGATTCGTCTTTCGGCATCAG -GCTCCATTTCAGGCCAGTCGAGAAGCCCGCGCCGCCGCGCCCTTTCAGACCAGCGTCTTTTACCTGATTAACGATTTCGT -CCGGAGACAGCCCGGTCAGCGCCTTACGCGCGCCTTCGTAACCGTTTTTGCTGCGGTATTCGTCCAGCCACACTGGCTGT -TTGTCATCGCGCAGACGCCAGGTCAGCGGATGCGTTTCGGGAGTACGGATAATGTTTTTCATTTATACCGCTCCAGCAGT -TCAGGGATCGCTTCCGGGGTCAGATGCGCGTGAGTGTCCTCATCGATCATCATGTTTGGCCCTTTATCACAGTTCCCCAG -GCAGCAAGTTGGCAGCAGCGTAAAGCGGCCATCAAATGTCGTTTGCCCTGGTTTGATGTTCAGCTTTTTCTCGAGCGCCG -CCTGAATACCCTGATAACCGTTGATATGACAGACCACGCTGTCACAATAACGGATCACATGGCGACCAACCGGCTGGCGG -AAGATCTGACTGTAGAACGTTGCCACACCTTCGACGTCGCTTGCCGGAATACCCAGCACATCGGCGATCGCGTGGATCGC -ACCATCCGGCACCCAGCCACGCTGCTTCTGAACGATTTTCAGCGCTTCAATGGACGCCGCACGCGGGTCTTCGTAGTGGT -GCATCTCGTGCTCGATCGCTTCACGCTCTGCCGCACTCAGCTCAAAAGCCTCGGTTTGTGGTTGTTGATTCTCGTGCATA -ATTAGCGGTCCACATCTGACATAACAAAATCGATACTGCCCAGATAAACAATCAGGTCAGACACCAGGCTGCCGCGGATC -GCCGCCGGAATTTGCTGCAAATGCGCAAAGCTCGGGGTACGAACACGGGTGCGGTAACTCATGGTGCTGCCGTCGCTGGT -CAGGTAGTAACTGTTGATCCCTTTGGTCGCCTCAATCATCTGGAAAGATTCATTGGCAGGCATCACCGGACCCCACGACA -CTTGCAGGAAGTGGGTGATCAGGGTTTCGATATGTTGCAGCGTGCGCTCTTTCGGCGGCGGCGTGGTCAGCGGGTGATCC -GCTTTGAACGGGCCTTCCGGCATGTTGTTGAGGCACTGCTCAAGAATGCGCAGACTCTGGCGCAGCTCTTCCACTTTAAG -CATTACGCGGGTGTAGCAGTCAGAAACGCCACCACCCACCGGGATTTCAAAGTCGAAGTTTTCATAGCCAGAATAAGGAC -GCGCCTTACGCACGTCGAAGTCGATCCCGGTAGCACGCAGGCCCGCGCCAGTGGTGCCCCACTCCAGCGCCTCTTTCGCG -CCATAGGCGGCAACGCCCTGGGAACGACCTTTCAGAATGGTGTTTTGCAGCGCCGCTTTCTCGTAAGACGCCAGACGTTT -CGGCATCCAGTCGAGGAACTCACGCAGCAGGCGATCCCAGCCGCGCGGCAGGTCGTGCGCTACGCCGCCAATACGGAACC -ACGCCGGGTGCATACGGAAACCAGTGATTGCTTCCACCAGATCGTAAATTTTCTGACGATCGGTAAAGGCGAAGAACACT -GGCGTCATTGCGCCGACGTCCTGAATAAAGGTCGAGATATACAGCAGGTGACTGTTGATGCGGAACAGTTCGGAGAGCAT -AACGCGAATGACGTTAACGCGATCCGGCACGGTGATCCCGGCCAGTTTCTCTACCGCCAGCACGTAAGGCATTTCGTTAA -CGCAGCCGCCGAGGTATTCGATACGGTCAGTATACGGAATGTAGCTGTGCCAGGACTGGCGTTCGCCCATTTTCTCCGCA -CCACGGTGGTGGTAACCGATGTCTGGTACGCAGTCGACAATCTCTTCGCCATCGAGTTGCAAAACGATACGGAAAGCCCC -GTGCGCCGACGGGTGGTTCGGACCGAGGTTGAGGAACATGAAGTCCTCGTTTTCGGTGCCGCGCTTCATCCCCCACTCTT -CCGGTTTGAAGGTCAGGGCTTCCATCTCCAGATCCTGTTTGGCTTTGGTCAGCTCAAACGGCGAGAATTCGGTAGCGCGC -GCCGGATAATCTTTACGCAGCGGGTGACCTTTCCAGGTTTGCGGCATCATGATGCGTCGCAGGTTCGGGTGACCGTCGAA -AGTAATGCCAAACAGATCCCAGGTTTCACGCTCATACCAGTTAGCGTTCGGGAACAGTTTGGTGAAGGTCGGTACGTGCA -GGTCGTTTTCTGCCAGCGCCACCTTCAGCATGATGTCGCGGTTACGATCGATAGAAATCAGATGGTAGAAAACGGAAAAA -TCCGCGGCAGGTAACCCTTCGCGGTGTGTGCGCAGACGTTCGTCCATGCCGTGTAAGTCAAACAGCATGACGTAAGGTTT -CGGCAGTTTCTTTAAGAAATCGCCAACTTCCAGTAATTGTTCACGCTTGATCCACACAACGGGAACCCCGGTGCGAGTCG -CCTGAACAGTAAAGGCATCCGGCCCAAAACGGTTGCGCAGTTCGCCAATCACCGGATCATCAAGATGATCGCGGGTCTGC -CAGGCGGGTTCTTGCGCGGTTAAGTCGGTCATATTGTTCACCATTGCAAATGGTCCGTGGTGACTGTCGGCGCAGTAAGC -TTCGCGAAATAGATTTAGGAATAAGCGAAGAAAAATCCCTTTGCCGACAGGCGCAAATTAAATCTCGTCAGGTGTACGCA -GGTTAGTTACGGCAATGCGTTCACCGCGCTTGCGTTCGCGCTCTGATTGCATATTGGCGCGATAAACGCCCTGATCGCCA -ACCACCCAGGAGAGCGGACGACGTTCTTTGCCGATAGATTCCTGCAACAGCATCAGTGCCTGCATGTACGCTTCAGGACG -CGGCGGGCAGCCCGGGATATACACATCAACCGGGATGAATTTATCGACGCCCTGCACAACGGAATAAATATCGTACATAC -CACCAGAGTTGGCACAGGCACCCATTGAGATAACCCATTTTGGTTCCAGCATCTGGTCATACAGACGCTGAATAACCGGT -GCCATTTTGGTAAAGCAGGTTCCTGCAACCACCATCAGGTCAGCCTGACGCGGCGAAGCACGCAATACTTCTGCGCCAAA -ACGCGCCACGTCATGCACCGCGGTAAACGAAGTCACCATCTCAACGTAACAGCAGGAAAGACCGAAGTTATACGGCCAAA -TTGAGTTTTTACGACCCCAGTTAACCATGTCATTGAGCTTGCCCATAAACACGTTTTTGTTAACTTCTTGCTCCAGAGGG -TCGGTTACGATCTCCTGCTTTTGCAGGGGGTAACGGTCGTTCTCACCGTTGGGATCTATGCGGGTGAGCGTATAATCCAT -CTTAATGCCTCGCGGTTAGCGTTGACGATTAGCGATACTGTTCGTTTCCGGGTTCATACGCTCGCGGCGTGAACGCGCGG -GCGTCCAGTCCAGCGCGCCAATACGCACCAGATAAACCAGACCTGCCAGTAACACAAAAATAAAAATTGCAGCTTCCACA -AAGCCTACCCAGCCGCTTTCGCGGATAGAGGTTGACCATGCGAACAGATACAGCGCTTCAACGTCGAAGATAACGAAGAA -CATGGCCACCAGATAAAACTTGGCGGACAGGCGTAAGCGGGCGGAGCCGACCGAGTCGATACCGGATTCAAACGGCACGT -TTTTCGACCTCGCGCGTGCGCGACCGCCTAAAAACCAACCGCCTACCAGCATCAGGCAACACAGGCCAATGGCAACGATA -AGAAAGATAGCGAATGCCCAGTGATGAGCGATGACTTCAGTGGATGTTGACATACTCATTGCTTACTCATCAAAAGTAGC -GCCAGATTCACTGCTCTTCACGGCAGATGGACGCCACATCGATTCATGGGGAGGAATAAAAAAAACCTTACAATCACTGT -AGAAATTCTTTTATACAGCTAATTGATGTGGTTTTTTACTCCTTTCTATAACCTTTTGTCAACTTTAACAAAAGTTTCTT -CACATTAGTTTACATAATATCAACACCATTAGCATTTAATGCCCTTTCACCCCAGATCCTTGACGACTCCAGGATAATTA -GATGTTGTTGAATCGTGTCCGTTGTGAAGCAATGGAAAAAATACGGGTCTATTTTGACAGGAATTTGTGTCGATTCCTCC -CCCCAAAAGAGAGTATTTTCTTGATCTGTGACACGCTTTTGTCATTCCATAACAAAAACGCAGCAACAAATTTACGTATT -TTTTAACATCATTGTAGCAGGTGATTTTTTTCAGGCGATTATTTGTGCGTTCGGGACGTGAATCTCTGGTGGTTGAAAAA -TGAACAGTTTTGTACGTTCTGCACTATGCGATGAAGGATTTTTACTAAAAAAAAGCCGCTGGGGTTTAAAACACCCCCAG -CGGCTCGTTTTTTACACTATTGTCTCAGGAATTATCTATCGTCCGTCGATTACTCGATATCCCTTTCAATCAACAATGAA -TCATCCCCTTCCGGAGCAGACATTGGGCTGTATTGCCACGGATTATGGTAGCTCTCCATCGCCTGATAGATCACCTGGGC -CAGCTCATTATTACTGGACGGATCATAGCACAGCAAATATTCGGTATCAGGTAGCGGCGGTAAGCCATCTACTCCACTCA -GCACACGCAGGTCCGGGCTCATCATCTCAACCGGCCTTGCCGTCACGCCAAGACCGGCTTTCACTGCCGCACGAACGGCC -GGAAGCGTCGAGGCGACATAAGCCAGTCGCCATGGAATATCTGCTTTATTAAGCGTCGCCAGCACCATATCGCGAAACGG -GCTAGGATCATCCAGCAATACAAGAGGGATCGGCTCGCCTTTTTGCAATATGTATTCCGCTGCGCAGTACCAGTGTGTTG -GCGAGGTACGCAGGTTCAATGCCTTAAACGCTGAAGGACGATGGGTGGTTACCATCAAATCCACTTCCTGGGATTCCAGC -ATTTCTGCCATATAGGCATTACGTTTAACGCGGACATCCAGCGCTAATTTCGGATAAACCGAACTCACGCGATTTAACAG -GAAAGGTAAGATCGTATCGGCAGATTCATCTGAAGCACCGATAGTTAATACGCCCTGAAGATTACTGAACATTAATGATG -AGCAGGCCTCATCATTAAAACGCAGGATTTTCCTGGCGTAACCAAGAAGTTGAATGCCATGTTCAGTTAACAGTTTGTTG -CGACCGTGACGAGCGAACAGTTCTTTCCCAACGAGTTGTTCCAGACGCTGCATTTGCTGACTTACGGCGGACTGAGTACG -ACACACAGCGGCAGCTGCGGCAGCAAAAGTGTTCAGATCGGCAACAGCAACAAATGTTCTCAGCAGATCGAGGTCGAGGT -TAATTATCGGACGATTTGCACTTATCATATATTATCACTTACTGGCGGCTCATACTGAGCTGGTTAATGCTGTGCACACA -CAAACAAGCAATTCCATTTGTAATGTGCCTCCCTGGCAGTTTCATCCGGAACCCGGACGAAAGTAAAAATGCATATGAGT -TGCACTAAAAAAGCGACTCACATTGTTCCGTTATAATGCCTGAAGTAGATCACAGAATATATCTTCAGGGATCGCATATC -TATTAAGTTACTCACTCTTTTCTATTTATGACATGCGCGTGTTTGTATAAATGTAAATGTGAGTCCTTGTTCCACTCTCG -TGCAGCATCGCTGGTCATACGCGAACACGTACCAACAGCAATGGTGAGGCGGCATCAAGAGCAGGGATCCGTCATTTATC -CGAGCATTTTACCCCAAAAACCTTTTATTTATAAGGGTCATTGCGAATTATCTGATGCAAAGTTATGTTATGTTAGGCAA -AGTAATCTTCTATTATTAATAAGCACATCAAAACCTTTTTGAATATTAAATAATAATTAATTAGCATCATCCTCATTCAT -TAATTCCGCTTAACAATAGTTTCACACCTTGCCCCCATTGCGACACCTCGGAAATCATCACGCAGTTAAACTCTCCGTAA -TGAGGAAATATCATCATCGCGTTTCATTAGTGAATTCTTAAATGAGGCATTTTCACACAATTATCTTACAGATAAAAAAA -CCAGACTTACAATTAAGAATCAGAACAATTCACTATATAACATTGCATGTAAAGCATATACACCTCATTATTTTGTCATT -ATTAAGTTATTAACAGCACAATCGAGCCTTCCCCTCTGGCAAAATCTTATTCTGCAGACCTTCAAAACACCGTCCTGGGG -GAGTACATTGTTCTAAGCTGACTTCCACGGCAGGGAGTGGCGATAACAGCAAAAAAGGTCAAGATTCATGTCCCCCATTG -AAAAATCCAGCAAATTAGAGAATGTCTGTTATGACATCCGTGGTCCGGTGCTGAAAGAAGCAAAACGCCTGGAAGAAGAA -GGTAACAAGGTACTGAAACTGAACATCGGCAACCCAGCCCCGTTCGGTTTTGACGCGCCAGATGAAATCCTCGTTGACGT -GATACGCAACCTGCCTACCGCTCAAGGGTATTGCGATTCCAAAGGTCTTTACTCCGCGCGTAAAGCCATCATGCAGCACT -ACCAGGCTCGTGGCATGCGTGATGTTACCGTGGAAGATATTTACATCGGCAATGGTGTATCGGAGCTTATCGTTCAGGCA -ATGCAGGCATTGCTGAACAGCGGGGACGAAATGTTGGTTCCTGCACCAGATTACCCACTCTGGACCGCGGCGGTTTCGCT -TTCCAGCGGTAAAGCGGTGCATTATCTTTGCGATGAATCCTCTGACTGGTTCCCGGACCTCGATGATATTCGCGCTAAAA -TTACGCCTCGTACGCGTGGGATCGTTATTATCAACCCAAATAACCCAACCGGCGCGGTATATTCCAAAGAGCTTTTAATG -GAGATTGTGGAGATTGCACGTCAGCATAATCTCATTATCTTCGCCGATGAAATTTATGACAAAATTCTCTACGACGACGC -TGAGCATCACTCAATTGCGCCGCTGGCACCTGACCTGCTGACCATTACCTTTAACGGACTGTCGAAAACGTACCGCGTTG -CAGGCTTCCGTCAGGGGTGGATGGTGTTGAACGGGCCGAAAAAACACGCCAAAGGCTACATCGAAGGTCTGGAAATGCTG -GCTTCAATGCGCCTGTGTGCTAACGTTCCTGCGCAACACGCCATTCAGACCGCGCTAGGTGGTTATCAGAGCATCAGTGA -ATTTATTACCCCTGGCGGTCGTCTTTATGAGCAGCGTAACCGCGCGTGGGAACTGATCAACGATATTCCGGGCGTTTCCT -GCGTGAAACCTCGTGGTGCGCTGTATATGTTCCCGAAAATCGACGCCAAACGCTTTAACATTCACGACGATCAGAAAATG -GTGTTGGATTTCCTGTTGCAGGAAAAAGTTCTGTTGGTGCAAGGGACGGCATTCAACTGGCCGTGGCCGGATCACTTCCG -CATTGTCACGCTACCGCGTGTCGATGATATCGAGCTGTCTTTGAGCAAGTTCGCGCGTTTCCTTTCTGGTTATCATCAGC -TGTAATCTTAATTTCACTGCCGGAGATTGCATCCGGCAGCGTTATCCCGCCACAATGACCTGATGATGTCATCATACGTA -AGGTCACTATGAAACAGAGCCATTTTTTTGCCCATCTCTCCCGCCTGAAACTCATTAACCGCTGGCCGCTCATGCGCAAC -GTGCGGACGGAAAATGTGTCCGAACACAGTTTGCAGGTAGCGATGGTCGCCCATGCGCTGGCAGCTATCAAAAATCGAAA -ATTTGGCGGTAATGTCAACGCCGAACGTATCGCTTTACTGGCGATGTACCACGATGCCTCAGAAGTGCTCACCGGCGATC -TCCCTACTCCGGTGAAATACTTCAATTCGCAAATCGCTCAGGAGTACAAGGCTATTGAAAAAATCGCTCAGCAAAAACTG -GTCGATATGGTTCCGGAAGAGCTGCGGGATATCTTTGCGCCGTTAATTGACGAGCATGCATATAGCGATGAAGAAAAATC -GCTGGTGAAACAGGCAGATGCACTGTGTGCATATCTGAAATGTCTGGAAGAACTCGCGGCCGGAAATAATGAATTCTTGC -TGGCAAAAACGCGACTGGAAGCGACGCTTGAAGCGCGTCGCAGCCAGGAGATGGACTACTTCATGGAAATATTTGTTCCC -AGCTTCCATCTTTCGCTCGATGAGATTAGCCAGGATTCACCGCTGTAAGCAGCCGGAGTCTGCGTCGCATCAGGCAATAA -GCGCCGGATGCGACATCAGGCTCTTGTCAAAACGGAAACAGCATCGGGATCATCACCACACAAACCGCCATCACGATAAT -GGTGAACGGTACCCCCAACTTCACAAAGTCACTGAAGCTGTAATTTCCCGGACCTAAAACCAGTGTGTTAACAGGTGAAG -AAACCGGTGTCATAAAGGCGGCGGATGCTGCCATCGCCACGACCATCGCGAATGGATAAGGCGACACCCCCATCGTTTTG -GCAGCAGCCAGCGCAATCGGAGCCATCAACACCGCCGTCGCGGTATTAGAGATAAATAGCCCAATAACCGCCGACAAGAC -AAACAAACACCCCAGCATCATATGTGGCCCGTAACCACCGCCAATGTCCATCAGCCCTTTCACCGCCAGCGCGACACCTC -CCGTTTTCTGTAATGCCACAGCAAACGGCATCATCCCAACGATCAAAATAATGCTCGGCCAGTGAATGGATTTATAGGCG -CTTTCAGCATCTATACAGCGGAATTTCCCCATCAGCAGGCAGGCGATGATAGCGGCAACAGGATTAGGAATTTCATCTGT -CAGCATTAACGCCACCATTAGCACCAGACAGAAAATGGCATGGGGTGCCTGGCTGTGCGCGGGTGATGCTTCACTCACCT -CTTCCGGTAAGTTCAGCGCTACGAAGTCGCGGCCCTGTTTGGCCAGCATACCGATCAGTTTCCAGTTACCCACAACCAGG -ATGATATCGCCCAGCAGCAGAGGCTCATCCGCCAGCGAACCTTCCAGCGCCACGCCATTGCGCTTTAGCCCCACCACATT -CAGTCCGTAGCGGGTACGAAAACCAATTTCGCGCACCGATTTACCAATCAGTTCTGACTCAGGAATTAATGAAATCTCTG -CCATGCCCACATCAAGGGCCTGGTCAGAAAAATACTCGCCGCGCAATACCATCGGCTCCAGCAATTGCTCACTACAAAAT -TGCCGGAGATCGACATCAGCCGCAGACATATCAATAAGCAAAACGTCACGCGCGCGAAATTCAGAAACCCCATTAACGTT -CACGATAACGCGACGAAAACGCCGCCAGCGTTCAACACCGATGACGTTAGCGCCATAACGCTCACGTAATTTGAGATCAT -CCAGCCGTTGACCAATCATTGGCGATCCGGGGCGAATAGCCAGACGTCGCGCACGCCCGGTCAGTCGATATTCACGGATA -AGATCGCGAAAGGTTCGACGCGTCCAGCCTTCGCGCTGCGGGGTCTGGGTATCCCCTTTCAGCATGAAACGCATCACTAA -CATATACAAAATACCCAGCACCAGCACGACCAGGCCAATAGGTGTTACGCTAAAGAAACTGAAGCCGTGATAGCCTTCAC -GCAGCAATTCACTGTTGACTACCAGGTTCGGCGGCGTCGCCACCAGCGTCATCATGCCGCTAATCAGCCCGGCAAAACTT -AACGGCATCATCAGACGTGACGGCGACGTTTGCATACGCATGGCAACGCTTAACACCACGGGAATAAAGATAGCGACAAC -GCCGGTTGAACTCATAAACGCGCCAAGCCCCGCGACGGTCAGCATCAACAAAACCAACATTTTGATTTCACTATTGCCCG -CAACTTTGACCAGCCATGTTCCCATTACGGTGGCAACACCGGTACGGACCAAACCATCGCCAATAATAAACAAGGCGGCA -ATCAGGACAACGTTAGGATCAGAAAAGCCGGAAAATACTTCTGGGACTGTCAGCGTTCCGCTTAATGCAAACGCGACAAT -AACAAACAAAGCGACCGCATCCATACGCACTCTGCCCGTCGCAAACAAGACGATGGCAACGGCCAGTAATGAAAGAACCC -AAATCAATTCACCGTTCACAACTTATCCTTGTTAATTGAGGGGGATGACTTGATTCTGCCATAAAAAAGCCCCGACGAGA -CGGGGCTAAATCATGATCAGGTGTTTCACTGAATAATAACATCGCCATTTGGCTGTTTGGTCACAGTAATTTGCTCCAGA -CTGTGGAGGACCAAATCGACCTCATTCAGGCGCGGGGTATCTGCCGGAGCGTTAACCGCAATGACATGACAACCCGCCGC -CAGGCCAGAAAGCACGCCAGCGGGAGCATCTTCCACCACCACACACTCCTGCGGCGCAAGCCCCAGCAGCTGCGCGCCTA -ACAGATACGCATCAGGTTCTGGTTTTCCGCGCTTCACTCGCTCAGCGGTTACAAACACCTCTGGTGCGGGAAGCCCAGCT -ATTTTATGGCGCGCTCGCGCTACCGGCATGGAGCCAGAAGTCACAATGGCCCACGGAATACCTGCTTTATTCAAATGACT -GAGTAAGGCGATTGCCCCCGGAAGCGCGGTAATACCTTCGGTTTCCGTGGCCTCGATGTGCTCCAGACGCGTAAACTCGG -CGGCAATATCAGCCTCGGATTTGCCCGCCATAAAATGGCGCAGAGAGGTGATCGCCTGTTTACCGTGAATGAAAGCCAGC -ACCTCTTCCGGCGCTAACCCATGACGTCTGGCCCAGTTGCTCCACGCCCGTTCTACCGCAGGCAGGGAATCCACCAGCGT -TCCATCAAGATCAAACAGAAAACCTTTGCACCGCACGCGGGCCTCCTCAGGCATTGATAATTTGATTAATTTCGTTGGCG -CTCAAATGGTACTGACGCGGGCAGGCATGCCACACATTAAGCATGCGCTGATATTTTTCCCACATTGGCGTCTGGGCGTT -AAAACCGTGAGTTCCGGCGTCAAAATGGGTATAGCGCCCTTCCACATTAACCATAAAGCGGACATAACCGAGGTAACGTG -CTTCAGTGGCGGCGTCAAAGCCGAGGAAGGTGACACGACGTTCATCGATGGATTGCTGGTCCTGCAAATTAGACCAGGAA -ACATGCAACGCATGATACATCTCCATAATGTCGATGATAGTGCGGCAGGTTTCTTCTTTCAGCTCGCCAAACTCGCGATC -CAATTCACGCATCTGTAATCCGTAACCACGCTCAATAATTGTTTGCAGGCGACGGTAACGTTCAGCATTTGCCGGATCGA -GCATAGTCATCATCTTGTACTGATTAGACAAAATAAGACGTTGCGCGTTGGTCATTTCCATTGTTGACTCCTGTATCACT -CTACTACGGTGAAAAAAAAGAAGGCTGAGTATGCCTTCTTTTATATGCGTAATCAGGGGTCAATTACAAATCATCAAGGA -AAGTTTTATCCAGTTGTTTGAAGGCGCGCTTAAGCGTGTCAGCTAATGCCTGGTAATCAGGCTTGCCTTCAACGGGTGCC -AACACCTGTCCAGACTCCTGCAATTTACCGCGAACTTCATAAAACCAGTTAAGGATTGCAGGGGGTAATGGCGTGACAGA -ACGCTTGCCCAGCCACCACAATCCCTGCATGGGTAAACTTAAGGCGAACAGGGCAGTGGCAACTGCCGGCCCAAGCTGAC -CGCCCAGGGCAATCTGCCAGCAGAGAGTAAATACGGCGATCGGCGGCATAAAACGGATCGCATAACGCGTCATCTTGATA -ACGCGATTTTCGACAAAGACCGGGGCAAGGCGTTTTTCCAGCGGCCACGTCTTTGAGTAATGCTGTCCCCGGCGAAACAA -GCTAAAAAAATTAACAGAACGATTATCCGGCGTTGACATGCTTCACCTCAACTTCACATATAAAGATTCAAAAATTTGTG -CAAATTCACAACTCAGCGGGACAACGTTCAAAACATTTTGTCTTCCATACCCACTATCAGGTATCCTTTAGCAGCCTGAA -GGCCTAAGTAGTACATATTCATTGAGTCGTCAAATTCATATACATTATGCCATTGGCTGAAAATTACGCAAAATGGCATA -GACTCAAGATATTTCTTCCATCATGCAAAAAAAATTTGCAGTGCATGATGTTAATCATAAATGTCGGTGTCATCATGCGC -TACGCTCTATGGCTCCCTGACGTTTTTTTAGCCACGTATCAATTATAGGTACTTCCATGTCGAGTAAGTTAGTACTGGTT -CTGAACTGCGGTAGTTCTTCACTGAAATTTGCCATCATCGATGCAGTAAATGGTGAAGAGTACCTTTCTGGTTTAGCCGA -ATGTTTCCACCTGCCCGAAGCACGTATCAAATGGAAAATGGACGGCAATAAACAGGAAGCGGCTTTAGGTGCAGGCGCCG -CTCACAGCGAAGCGCTCAACTTTATCGTTAATACTATTCTGGCACAAAAACCAGAACTGTCTGCGCAGCTGACTGCTATC -GGTCACCGTATCGTACACGGCGGCGAAAAGTATACCAGCTCCGTAGTGATCGATGAGTCTGTTATTCAGGGTATCAAAGA -TGCAGCTTCTTTTGCACCGCTGCACAACCCGGCTCACCTGATCGGTATCGAAGAAGCTCTGAAATCTTTCCCACAGCTGA -AAGACAAAAACGTTGCTGTATTTGACACCGCGTTCCACCAGACTATGCCGGAAGAGTCTTACCTCTACGCCCTGCCTTAC -AACCTGTACAAAGAGCACGGCATCCGTCGTTACGGCGCGCACGGCACCAGCCACTTCTATGTAACCCAGGAAGCGGCAAA -AATGCTGAACAAACCGGTAGAAGAACTGAACATCATCACCTGCCACCTGGGCAACGGTGGTTCCGTTTCTGCTATCCGCA -ACGGTAAATGCGTTGACACCTCTATGGGCCTGACCCCGCTGGAAGGTCTGGTCATGGGTACCCGTTCTGGTGATATCGAT -CCGGCGATCATCTTCCACCTGCACGACACCCTGGGCATGAGCGTTGACGCAATCAACAAACTGCTGACCAAAGAGTCTGG -CCTGCTGGGTCTGACCGAAGTGACCAGCGACTGCCGCTATGTTGAAGACAACTACGCGACGAAAGAAGACGCGAAGCGCG -CAATGGACGTTTACTGCCACCGCCTGGCGAAATACATCGGTGCCTACACTGCGCTGATGGATGGTCGTCTGGACGCTGTT -GTATTCACTGGTGGTATCGGTGAAAATGCCGCAATGGTTCGTGAACTGTCTCTGGGCAAACTGGGCGTGCTGGGCTTTGA -AGTTGATCATGAACGCAACCTGGCTGCACGTTTCGGCAAATCTGGTTTCATCAACAAAGAAGGTACCCGTCCTGCGGTGG -TTATCCCAACCAACGAAGAACTGGTTATCGCGCAAGACGCGAGCCGCCTGACTGCCTGATTTCACACCGCCAGCTCAGCT -GGCGGTGCTGTTTTGTAACCCGCCAAATCGGCGGTAACGAAAGAGGATAAACCGTGTCCCGTATTATTATGCTGATCCCT -ACCGGAACCAGCGTCGGTCTGACCAGCGTCAGCCTTGGCGTGATCCGTGCAATGGAACGCAAAGGCGTTCGTCTGAGCGT -TTTCAAACCTATCGCTCAGCCGCGTACCGGTGGCGATGCGCCCGATCAGACTACGACTATCGTGCGTGCGAACTCTTCCA -CCACGACGGCCGCTGAACCGCTGAAAATGAGCTACGTTGAAGGTCTGCTTTCCAGCAATCAGAAAGATGTGCTGATGGAA -GAGATCGTCGCAAACTACCACGCTAACACCAAAGACGCTGAAGTCGTTCTGGTTGAAGGTCTGGTCCCGACACGTAAGCA -CCAGTTTGCCCAGTCTCTGAACTACGAAATCGCTAAAACGCTGAATGCGGAAATCGTCTTCGTTATGTCTCAGGGCACTG -ACACCCCGGAACAGCTGAAAGAGCGTATCGAACTGACCCGCAACAGCTTCGGCGGTGCCAAAAACACCAACATCACCGGC -GTTATCGTTAACAAACTGAACGCACCGGTTGATGAACAGGGTCGTACTCGCCCGGATCTGTCCGAGATTTTCGACGACTC -TTCCAAAGCTAAAGTAAACAATGTTGATCCGGCGAAGCTGCAAGAATCCAGCCCGCTGCCGGTTCTCGGCGCTGTGCCGT -GGAGCTTTGACCTGATCGCGACTCGTGCGATCGATATGGCTCGCCACCTGAATGCGACCATCATCAACGAAGGCGACATC -AATACTCGCCGCGTTAAATCCGTCACTTTCTGCGCACGCAGCATTCCGCACATGCTGGAGCACTTCCGTGCCGGTTCTCT -GCTGGTGACTTCCGCAGACCGTCCTGACGTGCTGGTGGCCGCTTGCCTGGCAGCCATGAACGGCGTAGAAATCGGTGCCC -TGCTGCTGACTGGCGGTTACGAAATGGACGCGCGCATTTCTAAACTGTGCGAACGTGCTTTCGCTACCGGCCTGCCGGTA -TTTATGGTGAACACCAACACCTGGCAGACCTCTCTGAGCCTGCAGAGCTTCAACCTGGAAGTTCCGGTTGACGATCACGA -ACGTATCGAGAAAGTTCAGGAATACGTTGCTAACTACATCAACGCTGACTGGATCGAATCTCTGACTGCCACTTCTGAGC -GCAGCCGTCGTCTGTCTCCGCCTGCGTTCCGTTATCAGCTGACTGAACTTGCGCGCAAAGCGGGCAAACGTATCGTACTG -CCGGAAGGTGACGAACCGCGTACCGTTAAAGCAGCCGCTATCTGTGCTGAACGTGGTATCGCAACTTGCGTACTGCTGGG -TAATCCGGCAGAGATCAACCGTGTTGCAGCGTCTCAGGGTGTAGAACTGGGTGCAGGGATTGAAATCGTTGATCCAGAAG -TGGTTCGCGAAAGCTATGTTGGTCGTCTGGTCGAACTGCGTAAGAACAAAGGCATGACCGAAACCGTTGCCCGCGAACAG -CTGGAAGACAACGTGGTGCTCGGTACGCTGATGCTGGAACAGGATGAAGTTGATGGTCTGGTTTCCGGTGCTGTTCACAC -TACCGCAAACACCATCCGTCCGCCGCTGCAGCTGATCAAAACTGCACCGGGCAGCTCCCTGGTATCTTCCGTGTTCTTCA -TGCTGCTGCCGGAACAGGTTTACGTTTACGGTGACTGTGCGATCAACCCGGATCCGACCGCTGAACAGCTGGCAGAAATC -GCGATTCAGTCCGCTGATTCCGCTGCGGCCTTCGGTATCGAACCGCGCGTTGCTATGCTCTCCTACTCCACCGGTACTTC -TGGTGCAGGTAGCGACGTAGAAAAAGTTCGCGAAGCAACTCGTCTGGCGCAGGAAAAACGTCCTGACCTGATGATCGACG -GTCCGCTGCAGTACGACGCTGCGGTAATGGCTGACGTTGCGAAATCCAAAGCGCCGAACTCTCCGGTTGCAGGTCGCGCT -ACCGTGTTCATCTTCCCGGATCTGAACACCGGTAACACCACCTACAAAGCGGTACAGCGTTCTGCCGACCTGATCTCCAT -CGGGCCGATGCTGCAGGGTATGCGCAAGCCGGTTAACGACCTGTCCCGTGGCGCACTGGTTGACGATATCGTCTACACCA -TCGCGCTGACTGCGATTCAGTCTGCACAGCAGCAGTAATCTCGTCATCATCCGCAGCTTTGCGCTGCGGATATCTGAACC -GGAAATAATCACTATTTCCGGTTTTTTATTCTCTTAATTTGCATTAATCCTTTCTGATTATCTTGCTTAACTGCGCTGCA -TCAATGAATTGCGCCATCCCACTTTGCATACTTACCACTTTGTTTTGTGCAAGGGAATATTTGCGCTATGTCCGCAATCA -CTGAATCCAAACCAACAAGAAGATGGGCAATGCCCGATACGTTGGTGATTATCTTTTTTGTTGCTATTTTAACCAGCCTT -GCCACCTGGGTAGTTCCGGTGGGGATGTTTGACAGTCAGGAAGTGCAGTATCAGGTTGATGGTCAAACAAAAACACGCAA -AGTCGTAGATCCACACTCATTTCGCATTCTGACTAACGAAGCAGGCGAACCTGAGTATCACCGCGTACAGCTGTTCACGA -CGGGCGATGAACGCCCGGGCCTGATGAACTTCCCGTTTGAAGGATTAACCTCAGGATCGAAATACGGGACAGCCGTTGGC -ATCATCATGTTTATGCTGGTGATTGGCGGCGCGTTTGGCATTGTGATGCGTACAGGAACCATTGATAACGGTATCCTGGC -GCTTATTCGCCATACCCGCGGGAATGAAATTCTCTTTATTCCTGCGCTGTTTATTCTGTTTTCACTTGGCGGCGCGGTAT -TTGGTATGGGAGAAGAGGCCGTCGCCTTTGCCATTATCATCGCACCGCTAATGGTCCGGCTGGGCTATGACAGTATTACC -ACCGTCCTGGTGACCTATATTGCCACGCAAATCGGTTTTGCCAGTTCGTGGATGAACCCGTTTTGTGTGGTCGTTGCTCA -GGGGATTGCCGGCGTTCCGGTGCTTTCTGGCTCCGGGTTGCGCATCGTGGTGTGGGTTATCGCCACTCTGATTGGCCTGA -TCTTTACCATGGTGTACGCCTCACGAGTGAAAAAGAATCCTCTTCTGTCACGCGTGCATGAGTCCGACCGCTTCTTTCGT -GAAAAGCAGGCTGATGTTGAACAACGTCCGTTTACCTTTGGTGACTGGCTGGTATTGATTGTCCTGACCGCCGTAATGGT -CTGGGTGATTTGGGGCGTGATCGTTAATGCCTGGTTTATTCCAGAAATTGCCAGCCAGTTCTTCACCATGGGTCTGGTGA -TTGGCATCATCGGCGTTGTTTTCCGCCTTAACGGCATGACGGTTAATACCATGGCTTCATCCTTTACCGAAGGGGCGCGA -ATGATGATCGCCCCTGCCCTGCTGGTGGGTTTCGCCAAAGGGATTTTGCTGCTGGTCGGTAATGGTGAAGCGGGTGATGC -CAGCGTGTTAAATACCATCCTCAACAGCATTGCCAATGCCATTAGCGGTCTGGACAACGCGGTCGCGGCCTGGTTTATGT -TGCTCTTCCAGGCGGTATTTAATTTCTTCGTGACGTCCGGTTCTGGTCAGGCGGCGTTAACCATGCCGTTACTGGCACCG -CTTGGCGATCTGGTCGGTGTTAACCGTCAGGTTACCGTGCTGGCGTTCCAGTTTGGTGATGGCTTCAGTCACATCATTTA -CCCAACCTCAGCGTCGTTAATGGCAACGCTCGGTGTGTGCAGGGTGGACTTCCGTAACTGGCTGAAGGTGGGCGCGACCC -TACTTGGACTGCTGTTTATTATGTCCAGCGTCGTAGTGATCGGCGCTCAGTTGATGGGCTACCACTAAAAATGTTAAGAG -CCGCAATTGCGGCTCTTTTTTCATTCTGCCGTTTCAGTCTCTACGGCTTCATTTTTGGCATTGCGCTTCATCCACAACGC -TAGCGCTTTCAGCGAGTCTGGAGTGAACTCATCGCAGCGTGCGGTGATTTCTTCCGGCGTCAGCCAGCAAACTTCACTGA -CTTCATCTTCCTGTAGTGCGAAGGGACCGTGAGAGACGCAGCTGAACAATGCGCCCCAGACACGGCAATTTTTATCTTCG -AAATAGAACTGCCCGTGCTCGGCAAAGGGGACACCGGCAATGCCCAACTCTTCTTCCGCTTCGCGACGCGCGGATTCCAG -CAGTTGCTCATCGGCCTGGACTACACCGCCTGCGGTCGCATCTAACATGCCGGGTAAAAAGTCTTTTGTCTCGGTACGAC -GCTGGACCAGAATTTTGCCCATGCCATCATGCACGACGATGTAAGTTGCACGATGACGCAGACACTGTGCCCGCATTTGT -TCCCGGCTGGCTTGTGCAATGACTTCGTTCTCTTCATTGACAATATCCACCCATTCAGTACTTGCCAAACGACGCTGTTC -CATTATCAGGAAACCTTCTTTTTCTGGCGCTCTTACGGCGCATTTTGAGTTGTGGGTAAATTACGGATTAATCGCGACCT -GCGCAATGATACTTTGATCATTGAGTGCGATTACACTAAGTACGTCATTATCCAGCATGCCATAACTCGCCGGATTACCG -CCTTTCGGAATACTCACCGAGCCGGGGTTGAAGTGGAAAATCTCCCCCCGCTGTTCTGCCACTGGCAGATGGGTATGACC -GTACACCAGCACATCGTTCTGGTTTAAAGCAGGCAGATTTTCCGGGCCAAAAAGATGACCATGCGTCAAAAACAGACGTT -GTTTTTCCAGTAATACCTGTTGCCACGGCGCGGTTATCGGGAAATGCAGCAGCATTTGATCCACTTCGCTGTCGCAGTTG -CCGCGCACAGCGATAACCTTATGTGCCACTTCATTAAGCCGTTCAGCGACTTTGGCTGGCGCGTAACCCTCCGGTAAAGC -ATTACGCGGGCCGTGATTCAACACGTCGCCAAGGATCACCAGCCACTGGGCACCGCTTTGGGCAAACAACTCCAGAACAC -GTTCCGTCGCCGGTAACGACCCATGAATGTCCGATGCAAACATCAGTTTCATCACTCACTCCTCGTCGAAAAAACGTAAG -CTATGATACTGGATTCTGTCGTTGCTATCAGCCAGATTGCTTCGCCGAAAGTGCAATAAAACGCTGGACAGACGCTCGCT -GCCACTGGAATGTTGCATAATCCACCAGGCGTTCTGGCACCTCATCGCCATGTAGTACCAGGCGGTTAATCATTAGCGCC -AGATCAGTATCAGCAATGCACCATTCACCAAATAAATTCGGCTGACCCAGTACTAACAAATGTTCTGCCATCGCGAACAG -TTTCTCTGCACTGGCTTTTCCCTCGGCCGTTAGTGGCGCTTTTTTCGCCCCCGCAAAGACAACATCCGTCGGACGCTCTT -CGCGGATGGGCATCAGATCGCTGCGCAGCCAGGCCTGAATCTGTCGTGCACGCGCACGATTTTCTAAATCAAGCGGATAA -ATACGTTCCCAGGTCGGTGGCGCAAATCGATCTTCCAGATACTCCGCAATGGCAGAAGATTCACTCAACTCAAAATCATC -GATTTGTAATAACGGCACACGGCGTGTCTGACCGTAACCTTGCCACGTCGGCTGCAAATGTTCACCGCTGTCGAGGTCGA -TGGTCTTGATATGAAACGACAGGCCTTTTTCCTGCAACGCCACCCAGGCGGATAACACATAAGGGGAGAAAAAGTGGGCA -TCTGACCAAAGCGTGATAGCGGGTTTACTCATTATGTCCTCGGCAATAAAGGGGGCTGGCTATCAAACTATAGAGCCTTT -TTGTCACTGTCACGTGACGAATACTCACGTAAGTCGCCGCGCTTTCTATACTTGTGGTGTTCAGATGATTAAACAACCGG -AGCTGCAATGATCGATCTCTATTTCGCCCCGACACCCAATGGTCACAAAATTACGCTGTTTCTCGAAGAAGCAGAGCTGG -ATTATCGCTTGATTAAGGTAGACCTGGGGAAAGGCGGTCAGTTTCGTCCGGAATTTTTGCGCATTTCGCCCAACAACAAA -ATTCCGGCAATTGTTGATCATTCTCCTGCCGATGGCGGCGAACCGCTAAGCCTCTTTGAGTCTGGTGCCATTTTGTTGTA -TCTGGCTGAGAAAACAGGACTCTTTTTGAGTCATGAAACGCGTGAGCGCGCCGCCACATTACAGTGGTTATTCTGGCAGG -TAGGCGGACTGGGGCCGATGCTTGGGCAAAATCATCATTTTAATCACGCAGCCCCCCAAACCATTCCTTACGCTATTGAA -CGTTATCAGGTTGAAACTCAGCGTCTTTACCATGTACTGAACAAGCGGCTGGAAAACTCGCCCTGGCTGGGAGGCGAGAA -CTACAGCATTGCGGATATTGCCTGCTGGCCGTGGGTTAATGCCTGGACTCGCCAGCGAATTGACCTAGCAATGTATCCGG -CAGTCAAGAACTGGCATGAGCGGATCCGTTCGCGCCCTGCCACCGGGCAGGCACTGCTAAAAGCACAACTCGGTGATGAG -CGTTCGGATAGTTAACAGAAACAGGTTCTCGTGTATTATTTCATCCTAAGTAAAACAACGGAGAACCTGCAATGGCACAA -CCTGCCGCTATTATTCGTATAAAGAACCTTCGTTTGCGTACGTTTATCGGAATTAAGGAAGAAGAAATTAACAACCGTCA -GGATATTGTTATCAATGTGACGATCCACTACCCCGCCGATAAAGCGCGCACTAGCGAAGATATCAACGATGCGCTGAATT -ATCGCACCGTAACGAAAAACATTATTCAGCATGTAGAGAATAACCGTTTCTCTTTGCTGGAAAAATTAACTCAGGATGTG -CTCGATATCGCACGTGAACATCACTGGGTGACGTATGCTGAAGTGGAGATCGATAAACTGCACGCGCTGCGCTACGCCGA -TTCGGTATCCATGACCTTAAGCTGGCAGCGTTAATCGCCATATCGGGAGGCTGCATGAACATAGTGATCACCGGAGGGAC -AGGATTAATTGGTCGCCATTTGATTCCGCGTTTGCTGGAGCTGGGCCATCAAATTACGGTAGTGACGCGTAACCCGCAGA -AAGCCAGTTCCGTTCTCGGCCCTCGGGTGACACTATGGCAAGGGCTTGCCGATCAAAGCAACCTCAACGGCGTTGATGCG -GTAATCAACCTGGCCGGAGAACCGATTGCTGATAAACGCTGGACTCACGAGCAAAAAGAGCGTCTCTGCCAAAGCCGCTG -GAATATCACGCAAAAACTGGTCGATTTGATTAATGCCAGCGACACGCCACCGTCGGTACTCATTTCCGGCTCGGCAACGG -GCTATTATGGTGACTTAGGTGAAGTGGTGGTTACCGAAGAGGAACCGCCGCATAACGAATTTACCCATAAACTCTGCGCT -CGCTGGGAAGAAATTGCCTGCCGGGCGCAAAGTGACAAAACGCGAGTGTGCCTGCTGCGTACCGGTGTAGTGCTGGCACC -GGATGGCGGTATTCTCGGTAAAATGCTGCCGCCGTTTCGTCTTGGCCTGGGCGGGCCGATTGGCTCTGGTCGGCAGTATC -TGGCCTGGATTCATATTGATGATATGGTCAACGGTATTCTCTGGCTGCTGGATAACGAGCTGCGCGGGCCATTTAATATG -GTTTCGCCCTACCCGGTACGCAATGAACAATTTGCCCATGCGCTCGGTCATGCGCTGCATCGCCCGGCCATTTTGCGCGT -CCCCGCGACCGCCATTCGACTGTTAATGGGCGAATCTTCAGTACTGGTATTAGGTGGACAACGCGCGCTGCCTAAACGGC -TGGAAGAAGCGGGTTTTGCGTTTCGCTGGTACGATTTAGAAGAGGCGCTGGCGGATGTCGTTCGCTGATGTGGTTTACAG -CAAACATCCGCCAGTTAACTCCCGGTGTTACAGGATTAGTGGCTTTGCGCGATAAGATCGTCTGGTGAAAGTCGGGTCAC -CATCATAACTAACTCTCTGTCTAAACCTCTATCCAGCATCTCCTGAGCAATACGCAGGGCTTCTTCGTGTTTGCCCTGCA -TTGCGCCTTCTTCACGTAATCTGTCAGCAATGGTCATCAGTTTCTCCTTTTCTTGTGGTGCGCGTTCCGCTATCTCACCA -ATAAATGCACGAAAACGCTGGGCATCCCCTGTTTGTAATACGTAATTAAACAGGGCTTTTAGCTGTCTGTCATTAGTGTT -CCCTGTAACTAGCAGCGAAACAATTTGGTCGACTAATCCCAACAGATCGCGCTGACGAATATGTTTCTGAATTAACTCCA -ACAGCGCCATTTTGCGGTGTTGCATAATCTCGTCATCCGGCACCACGGTAATATCCACCAACGGAAAAGCCGATGAATAT -ATTTTGCGGGCTATAGCAGGCTCGGCAAATTCATCAAGCCAGCAGAGTGAATAAGGATAAGGACTTCTGCAACCATGATA -AAACAGCATCGGGAGCACCAATGGAAGCTCTTTATAGCCCGCATCAAGATGGTTTTGCATTGCCGCAATGGAATAACGCA -TCATGCGAAAAGCCATTAATTCTTCCGGCTTACTTTGGTGCTCTATCACTACATAAATATAACCCACTCCCTCCTGCGTT -TTCACAGACCACAAGAGGTCGGAATAATATTGCCGCAGGTCTTCATCAATAAAACTGTTTGGTTCCAGTTTAAGCGTCGT -TAAATCACACAGTTTGCGCAGCGGCGCGGGAAGATGAATATCAATAAAATCCCGCGCGGTGTCTGGATGGCGTAAAAAAG -ATTTAAATACCGCATCATGCGGCGTGGAAGTTGTCGATATTGTCATGGCGTTCCGTCACCCCTCAAATTTAAGATGACGC -GACAATAACCACGATTAACACCCAATGCAGCAGGCAGTTTTTATCTTTGGACAGCGAATTCAGAAGTATTTTTAGCGGAC -TGTAACTTTTACATTTCAGCGGAAGCTGACTCGCAAATTCCCCATGAAAATACTCCGGCAGCGTTAGCCACCGGAGAGGA -AATTATTTCAGCGATCCCTTAAGGAACCGTTGCAGACGAGGGCTTTGCGGGTTGCCAAATAACTGCTCCGGCGCGCCCTC -TTCTTCTATTTTCCCCTGATGGAGGAAAATGACATGAGTAGAAACATGGCGAGCAAAGCCCATTTCGTGAGTCACTACCA -CCATGGTTTTCCCCTCTTCTGCCAGTTGCTGCATAATACGCAACACTTCGCCTACCAGTTCAGGATCGAGCGCCGAGGTA -GGTTCATCAAACAGTAAAACTTCCGGTTCCATCGCCAGCGCCCGCGCGATAGAAACACGCTGTTGCTGACCGCCGGAAAG -ATGCACCGGATATTTCCCCTGCGCACGTTCGTCTATCCCGACTTTTGCCAGATACTTCACCGCCCGCTCGCGCGCTTCCT -GCTTGCTCAGGCCCAACACCTGAATCGGCGCTTCCATGACGTTTTCCAGCACCGTCATATGGCTCCAGAGATTGAAGTGC -TGGAATACCATCGTCAGGCGTGTGCGCAGTAAGCGCAGTTGATTTTTATCGGCGACTTTGAGTTGACCGTCTTTGTCGCG -CACCAGATTGATCGTCTGGCCATTGACCACGATCGACCCTTCACTCGGTTTTTCGAGGAAGTTAATGCAGCGCAGAAAGG -TACTTTTCCCCGATCCCGACGATCCGATGATGCTTATTACATCTCCGGCATTCGCTTGCAGTGATACCCCTTTCAGCACT -TCATGTTCGCCGTAGCGTTTGTGCAAATCGATAACGTTTAATTTATTCTCGGACATCGTATTCTCAGTGCGTTGAAGAAG -GTTTCACATGCTGCAACCAGCGTTTTTCCGCTCTGCGAAAGAGGCTGATCAGGACATAAGAGATGATTAAATAGAGCACC -GCGGCAATGCCGAAGGCGGTAAAAGGTTGATACGTGGCGGCGTTAATATCGCGGGCTATTTTCAGCAGATCCGGCACCGT -GGCAGTAAATGCCAACGCAGTAGAGTGCAGCATCAGGATCACTTCGTTGCTGTATGCCGGTAACGCAATACGCAGCGCAG -AAGGCAAAATAATGCAGCGATACATTTTAAAAGTCGAGAAGCCATAGGCTCTGGCGGCTTCAATTTCCCCATGCGGAACC -GAACGGATTGCCCCAGCAAAAATCTCGGTAGTGTAAGCGCAGGTGTTAAGCGTCAGCGCCAGCACGGTACAGTTCAGGCC -ACTGCGGAAGAAAGCGTTAAGGAATTCGGTTCCCTTAACAATCTCAAGCGTGTACATGCCGGAATAGAACACCAGCAACT -GAACATACAGCGGCGTACCGCGAAAAATATAGGTAAATAACCAGATTGGAAACTGGATGTATTTATTACTGGAGACACGA -CCAATCGCCAGAAACAGCGCCAGGACTCCGCCTATCACTACCGACAAAATAAGCAGCCACAGAGTGATCGCCACACCAGT -AAAGCGATAACCGTCGGTCCACAGCAGCGGTTTCCAGTATTCATGTAAGATTTCGATCACAGGTCAGCCCTCTTCACACC -CACGGAGTAGCGGCGCTCAAGGAACAGCAGCACACCATTGGAAACAGTGGTGAAAACCAGGTAAATCACGCCACAGACGA -TGGCGAAATAGAACGGTTCCCAGGTACTTTTGCCTGCCAGTTGGGTGGCTTTGACCACATCTTCCAGGCCGAGTAACGAA -ACCAGTGCGGTAGATTTGAGGATCACCTGCCAGTTGTTGCCAATGCCTGGCAGGGCGTAACGCATCATCGACGGAAACAT -GATCCGCCGAAACACTTGCCCACGAGTAAAACCGAACGCCGTCGCCGCCTCTATATGTCCTTTCGGCACTGCCATAAAAG -CACCACGGAACGTTTCGGTAAAATAAGCACCGTAGATAAAACCGAGAGTGATAATACCAGCGACCATCGGATCGATATCA -ATCTGCCCGACGCCCATCGCCTCCGTCACCGTGTTTAGCGCAATCTGCAAACCGTAGAAAATCAGCAGCATCAACACTAA -GTCCGGCACGCCACGAATCAGCGTGGTGTACCCTTCGAAAATCAGCCCCGAAAGCCGATTTTGCGAGAGCTTACCGCCAG -CGCCAATTAAACCGATGATTACAGCGAGCACTACAGAGCTGATAGCCAGCTCCAGCGTGACGAGCGCACCCTGTAAAATA -ACACCTGAAAACCCATACAACATGCTGCCTGTCCTGTCGTGTGTGGTGAATTACCGCCTCTTGTCTCCCTCCGGTTACCC -GAAGGGAGCGGGCTTTCTTTCACCGATGGCGATTAGCCACCATAAACATCAAAATCGAAGTACTTTTTCGCTAATTTCTC -GTAAGTACCGTCAGCGCGCATTTCGGCAAAGGCTTTGTTCAGTGCTTCGCGCAGTTCGTTATCTTCTTTACGCAGGCCCA -TGCCGGTCCCTACGCCAAACAGTTTTTCATCTTTAACAGACGGGCCACCGAATTTGTAATCTTTACCGACAGGTTGTTTG -AGGAAACCTTCGCTGGCAGCGACCTCATCCTGGAACGCGGCATCAATACGTCCGGCAGTCAGGTCAGAATAAATGTTGTC -CTGCCCCTGATACGAGACGATTTCAATGCCTTTTGGTGCCCAATGTTCATTACCGAACGTCTCCTGGGTGGTGCCCTGCA -ATACGCCTACCCGTTTGCCTTTCAGCGACTCGACTGTCGGCTGAATGTCAGAATTTTTCGCCACCACCAAACGAGAATCG -GCAGCGTACAGTTTGTCGGTGAAGGCTATTTCTTGCTGACGTTTTTCCGTAATGGAAAGCGATGACATGATGGCGTCAAT -CTTCTTCGCTTTTAAGGACGGGATTAACGCATCCAGCGGATTTTCGACAAACGTACATTGCGTATTGATGCGTTTGCATA -ATTCCTTTGCCAGATCGATATCGAAGCCAACCAGTTCGCCTTGTGAATTTTTTGATTCAAATGGCGCATAGGTCGGGTCG -GTACCGATGCGGATGTTTTGCGGAATCGCAGCAAACGCCGCAGTTGCGCTGGAGAAGGCCAGAACCAGAGAGAGCGATAG -CACCAGTTTTTTCATAATGTCCTCAACTGACAGTCTTTTTATAGGGAATATTTACAGGTTTGTTACACTTATCGTGCCAT -AAAATTGACCATCAAGGCAAAATATCCCGCCCCGTTAGACGTATTATTTTTCATTAAAAATGCTTAAGTATGCATTTCAA -TGCACCACGATAGTGCAACAAACCTGGCGTGCACCATGATGATCATTCCATCAGGTACAGCTTCCCAGCGACGTATCAGT -CACCGTAGACATTAAAGTCGAAATACTTTTTCGCCATCTTGTCGTAGGTGCCGTCCTGACGCAGCTCGCCAAGCGCCTTA -TTGAAGGCAGCCGTCAGTTCAGCATCATCTTTACGTAGCCCTACACCGGTGCCATCACCGAAGTATTTTTTGTCTTTTAC -TGATGAGCCAGCAAAGGCGAAATCTTTACCAGCAGGTTGCTTGAGGAATCCTTCGCTGGCAGCAACTTCATCTTGTAACG -CAGCATCCAGACGTCCTGCAGCCAGATCGGAATAGACCAAATCCTGGTTGGCATAGGCCACCACATCCACGCCTTTACTA -CGCCAGGTCTCGTTAGCGTAAGCTTCCTGGGTTGATCCCTGCAGCACACCAACATGTTTACCTTTCAGTGAATCCAGCGT -TGGCTGAATCGGTGAACCTTTGGCCGCAATCAAACGAGAATCTGCGGCGTACAGCTTGTCGGAGAAGGCAATCTCCTGCT -GACGTTTATCGGTAATGGAAAGCGACGAAATAATAGCGTCGATTTTTTTCGCTTTCAGTGAGGGGATCAGCGCGTCAAAG -TCACTGGCAACCCAGGTACATTTCACCTGCATCCGTTTGCACATCTCGTTACCGAGATCGATATCAAAGCCAACAAAATC -ACCTTTAGCATCTTTCGATGAGAACGGTGCGTAGGTGGTATCGGTTCCGATACGTACCGTCTCCGGTAGCGCCGCATAGC -TGGAAGCCGCTGTGGAGAGACCGACTAACAAAGACAGAGCGAGAATCGACTTCTTCATACATAACCCTCAAGTGAAAATG -GCTTTTTTATGTTGTGTATTGTGTTGTGTGTTTGCAGGCTCTTTCATGCAGGTCTTATGCCATCTTGACGACAACAGTAA -CATTCAACGTTAAATATGTTAATAAGACGTTGCATTATTGTCCTGAAGTTGAAGATAGCAGGTATAGCGGTTGAATCGCA -GCGTTTCGATTGAATGGCAGAAACAAAATGTCGAGGATTTGATCGCGGTTGCAAAATTGCCCTGAAACAGGGCAACAGCG -GAGTTATGCGCCCTGCCAGCGGGCAAAGAGATCTTCAGGAAGGGTTATCGCAAACTGGTCAAGAACACGATTAACCGTCT -GATTTATCACATCATCAAGGGATTGCGGGCGATGATAAAACGCCGGAACGGGAGGCATAATCACCGCACCGATTTCTGCC -GCCTGAGTCATTAAACGCAGATGGCCTAAGTGCAATGGTGTTTCACGCACGCAGAGCACCAACGGGCGACGCTCTTTCAG -CACCACATCTGCCGCACGGGTCAGTAAGCCATCAGTATAGCTATGGACAATGCCGGAAAGGGTTTTGATTGAACAGGGTA -AAATCACCATCCCCAGCGTCTGGAAAGAACCGGAAGAGATGCTGGCGGCAATATCGCGCGCATCGTGCGTGACATCGGCT -AATGCCTGCACTTCGCGCAGAGAAAAATCCGTTTCGAGGGATAAGGTCTGGCGCGCTGCCTGGCTCATCACCAGATGCGT -TTCGATATCTGTGACATCGCGCAGAACCTGTAATAAGCGCACGCCATAAATCGCGCCGCTGGCACCGCTGATGCCTACAA -TGAGTCGTTTCATAAATAGTTGCCCTGTCAGACTTGCAGGCAGACTTTGCAGGATTTCGGCGGGAGTTGCAAGTCAGGGT -GCCAGACCGGCACCCTCAGCGAAGGCATCATCCTTCGTTATGCATTTCGAGATTTTCCACTTCGTTCTGACGTTGCACTG -CTTTGGCGTCATCATTACGTAACGTATCGAGGAAATCGAGGTAGCCCTGATCAACATCTTTGGTGACGTAGACGCCGTTG -AACACCGAGCATTCAAACTGCTGGATATCCGGATTTTCAGCGCGAACGGCGTCGATCAGATCGTTCAGATCCTGGAAAAT -CAACCCGTCAGCACCGATGATCTGGCGAATTTCATCAACTTCGCGACCGTGAGCGATCAGTTCCGTGGCGCTCGGCATAT -CAATACCATAAACGTTCGGGAAGCGAATTTCCGGTGCCGCAGAAGCGAGGTACACTTTCTTCGCTCCGGCTTCGCGTGCC -ATCTCGATAATCTGCTCAGAAGTGGTGCCACGGACGATGGAGTCGTCGACCAGCAGGACGTTTTTATCGCGGAACTCGGC -GCGGTTGGCATTCAGTTTACGGCGCACGGACTTACGACGCAGCTGCTGGCCCGGCATGATAAAGGTGCGGCCAACATAGC -GGTTTTTAACGAAGCCCTGGCGGTACGGTTTGCCCAGAATACGAGCAATTTCCAGCGCGATATCACACGAGGTTTCTGGG -ATCGGGATCACCACGTCGATATCCAGATCTTCCCATTCGCGGGCAATTTTCTCGCCCAGTTTCGTGCCCATATTCACACG -CGCGCTGTAAACGGAAATTTTGTCGATAAACGAGTCCGGGCGGGCAAAGTATACATACTCAAACAGGCACGGATTGCTGA -CCGGATTGTCAGCACATTGACGGGTAAACAACTGCCCTTCTTCAGTGATGTAAATCGCTTCGCCCGGCGCGACGTCACGC -AGGAAATCAAAGCCCAGCGTATCGAGCGCTACGCTTTCGGAAGCGACCATATATTCTGTACGGTTCTCGTCAATATCACG -TTTTCCCAGTACCAGCGGACGAATCCCGTTTGGATCGCGGAAAGCAACCATACCGTGGCCGATAATCATCGCCACACAGG -CATACGCGCCGCGGATTAAGCGGTTTGTGGCAGCAATGGCAGCGAAAATATTGTCGGCTTCCAGCGGGTAGTGGCGGAAG -TTGTCCAGCTCGCTGGCGAAGATATTAAGCAGAATTTCCGAGTCGGAAGTGGTGTTGATGTGGCGGCGTTTTTCTTCAAA -CAGTTTTTTACGCAACTCGTGAGCGTTGGTCAGATTGCCGTTGTGGGCAAGCGTAATGCCATACGGGGAGTTAACGTAAA -ACGGCTGCGCTTCAGAGGCGCTGGAGCTGCCAGCCGTGGGGTAACGCACATGACCAATGCCCATATTGCCCTGCAAACGC -TGCATATGGCGAGCTTCAAATACATCGCTCACCAGCCCGTTCGCTTTACGCAAACGGAAGCAGTTATTGGCATCTATGGT -GATGATGCCGGCGGCATCCTGACCGCGATGCTGAAGCACCGTTAAGGCATCATAAATCGACTGGTTAACCGGCATAACAC -CGGCGATACCGACAATACCGCACATACGTCTTTTTCCTCGTTAAGCCACATCTCAGAGCACTTACGCTCTGGGCAAGAAA -CTTGACGAGCTTTGCAGATAATCAAAAAAACATCTGATGATAAAACTGAATTGCGGGATCAGCTGTGATTTGCTCCAGTC -TTCGCTTTTCGACACCCCGGTAAAGGAGTCGAGAAAGAAGAGAATGGCAGCAACAATCAACACACCGCGCAACGCACCGA -AACAGACGCCCAGCACCCGATCGGTGCCTGACAACCCCGTTTTCTCCACCAACTGGCCTATCACGAAGTTCACGATAGCA -CCAACGATCAGGGTAGCGATAAACAGTACCGCGATGGCAATCCCATTTCGAACCAGTTCGTCTTCAAAGCCCGTAAACCA -GACTGACAGGTAAGTGTAGTAATGACTGGCAACAAAGAAAGCACAACCCCATGTCACCAGCGATAACGCTTCACGAACAA -AGCCGCGGATCAGGCTAACCAGAGAGGAAAAAGCAATCACCGCGATTATGGCGTAATCAATCCAGACCATATGTGTCCCA -CGATTTTACGCCCTGTCATCCTGTTCGGGGCGCATTCTAACAGAAAAAGAAAACGTTTGCGTAGGGATTTCCTTCCCGCG -CATCAATAAAAATGGCGCTGAAAAAATATTCAACGCCATCGACTTTTTATGCCTTTGCGGCATCGGGCAATGCGTGTCGG -ATGCGGCGTAAACGCCTTATCCGACCTACGGTTCTACCCCTGCGTAGGCCTGATAAGACGCGCCAGCGTCGCATCAGGCA -AGACCGTATTAATTCGGCGTATAGCCCATTACCACGCCACTTAAGCCAGAAAGTTGCTTCAACTCACCCAGCGAACCTTT -CAGCTTATCTTTCGAGGCATCCGGCCCAACCAGAATACGGGTAATTTTACCCTGCACTGGCGTGGATGGCGACGTATAAA -CCCGATAACCGGCACCGCGCAGCTTACCGACAATCTCATTCACTTTATCGGCATTTTTCAGCGCACCCAGTTGCACAACA -TAGGCTTTACCCGTCGGTGCAGCTTTTTCTTCCACGACCGGCTTCGGTTCTGGCTTCGGCGCAGGTGGTGCTTCAACCTT -TGGTTTAGGCGGCTCCACCGGTTTCGGCTTCGGTGGGGCGACCGGTGCAGGTTCCGGTTCAAACTCGGTGTTATTGGCTG -CAATAGTGGCCGGATCGAGCGACGGTGCTGCGGCATCACCTGCCCGCACCTCTTCCGCTGCGCCTTCCGGCGGCTGCGTC -GGTAACGCCTGGGTGGCGGCTGGCATCATATCAGGCTCATCACGATCGCCCGCTTTCGGCACCAGCGGGATAGCCGCGAA -CTCATCCTGATAATGTTTTTTCTGCCCGTCCAGCAGCCCTGGAAGTACAATCACCCCCAGCGCCACCAGCACGATCGTGC -CCACTAACCGATTCTGAAACTTACTTGCCACCGCTTCTCCTCGCGTCAATCACTTCCATGACATGTGCGACCGTGTGGAA -AGAACCACACACCAGCACGGTGTCTTCCGCTTTAGCGTCCGCCATTGCGGCATCCCATGCCTGCGCAACGCTATCAAATG -ATTTGCCGTTACCCAAATGCTCAAGCAGTTGTTCTGCCGTGGCACCGCGCGGCCCTTCCAGTGGCGCACAATACCAGTCA -TCAACCACGCTTTTCAACCAGGCCAGAGTTCCGGCAATATCTTTATCATGTAGCATACCGATAACCGCCAGCACGCGCCC -GTTTTTCGGTAGCGCTTTCATACGCCCGGTGAGATATTCCGCCGCATGTGGATTATGCGCGACATCAAAAATAACGCGTG -GCGACTCGCTCACAATCTGGAAACGTCCCGGCAAAATTGCGCTGGCAATCCCGTCGCGAATGGCATTTTCACTGACTTCC -AGCCCGCTGGCACGCAGTGCCGCCAGCGCTGTTGCGGCATTCGGTTGCGGGACAAGCGGCAACGGCAGATTTTCCAGCGT -GCCGTGAGCATCGCTAAACGCCCAGTCATGATCGGTGACGGAATAGTTCCACTCAACGCCCCGACGTTGTAACAGTGCAC -CTTTTTCCTGCGCCACATCAGCAATGGTAGAAGGCATTTCCGGCTCACCGACAATTGCCGGTTTTTCGCTGCGGAAGATG -CCTGCTTTCTCGCGACCAATACTTTCGCGATCTGGACCCAGCCAGTCGGTATGATCCAGCGCAATACTGGTTACTACCGC -GACATCGGCGTCGACAATATTGGTTGCGTCCAGACGACCGCCCAGCCCTACTTCCAGAATCACCACGTCAAGTTGTGCCT -GCTTGAACAGCCACAACGCCGACAGCGTACCGTACTCGAAATAGGTCAGGGAAATATCACCGCGTGCCGATTCAATCTCC -GCAAAAGAGGCGGTGTGGGCCGATTCCGGCAATTCCTGGCCCTGCACACGTACGCGCTCGGTATAACGCACCAGATGAGG -CGAACTGTAGACGCCCACTTTGTACCCTGCCGCCATCAGAATCGACTCCAGCGTACGGCAGGTGGTGCCTTTGCCATTCG -TACCCGCAACGGTAAACACAAATGGCGCTGGTTTCAGGACGCCAAGACGCGCCGCGACCAGGCTCACGCGCTCAAGGCCG -AGATCGATAGTTTTACTGTGCAGGTTTTCCAGATAAGAAAGCCACGAAGCCAGAGGCGACGCGGCTTGAGGAGTGCGTTT -GATAATCATGGTATCCGCTGATTCGTTACGGTGAGAATAGCAAAAGGGCAGAGCCAGTGGCCCTGCCCTTATCAGTTATC -AGGCCTCAGGTTCCTGATCCGGTACCGGGGGTACCACTACGCCTTCACGCGGCGCTTCAGGATTCGGCGCTGGCAGATTC -ATCAACTTCGCCAGAATGCTCGCCAGTTTCAGGCGCATTTCCGGACGACGGACGATCATGTCGATCGCGCCTTTCTCGAT -CAGGAATTCACTGCGCTGGAATCCAGGCGGCAGTTTTTCGCGAACGGTCTGTTCGATAACACGCGGACCGGCAAAGCCGA -TTAACGCTTTCGGTTCAGCGATGTTGAGATCGCCCAGCATGGCGAAACTTGCAGAAACACCGCCCATCGTCGGGTCGGTC -AGCACGGAGATGTACGGCAAGCCGCGCTCCTGCATTTTTGCCAGTGCCGCAGAGGTTTTCGCCATCTGCATCAGCGACAT -CAGTGCTTCCTGCATACGTGCGCCACCAGAGGCGGAGAAGCAGATCAGCGGGCAGTTATCTTCCAGCGCCTGCTCAACGG -CACGCACGAAACGTGCACCCACAACAGACCCCATTGAACCGCCCATAAAGGCGAACTCGAATGCCGCAGCGACAACCGGC -ATTCCATACAGAGTGCCTTTCATCACCACCAGCGCATCTTTTTCGCCGGTTTCTTTCTGCGCAGATGCCAGACGGTCTTT -ATACTTCTTGGAGTCACGAAACTTCAGCACATCTTTCGGCTCAAGCTCGCTACCCAGCTCCACAAGGCTTCCTTCATCTA -ACAGGCTATGCAGGCGATTACGCGCTGTCATACGCATGTGATGGTCACACTTCGGACAGACCTCAAGATTACGTTCCAGC -TCAGCGCGGTATAAAACCTGACCGCAGCTATCACACTTAGTCCACACCCCTTCAGGAATGCTCGCCTTGCGGGTGGGAGT -AATGTTGCTTTTAATTCGTTCAATCCAGCTCATTAGGGACCTTTCTGTCTGAACCTGGTTCGATGCCAGTTTTATCTTTG -GGGACGCATAATGCCATTTTTGCCCCCAACAGACCATGAATGTTGCACATTAAAACATAACAGCCCGAAACTTTGGATAA -AAAAGTGGTCGAACCGCGGAGTTACTTTTTATTTTGCGGCGCGTGCCGCAGCGCGTTTGTGACGGATTATTTCGATGACG -CCCGGCAAAATAGAAACCACAATAATCCCGACGATCAGCAGCTTAAGGTTATCCTGAACCATCGGGATTGTACCGAAGAA -ATAGCCTGCGTAGGTAAAAAGCAGTACCCACAACAGTGCGCCGATCACGTTATAAGCGGCGAAATGACGGTACGACATGT -GGCCCATTCCCGCAACAAACGGGGCGAACGTTCTGACGATCGGCACAAAACGGGCGAGAATAATCGTTTTGCCGCCATGT -TTCTCATAAAACTGATGGGTTTTGTCGAGATAACTGCGACGGAAAATTTTCGAATTGGGATTACTGAACAACTTTTCACC -GAACAACCGCCCGATAGTGTAATTGACCGCGTCACCCACAATCGCGGCGATCAGCATCAGCACCACCATCATATGGACGT -TGAGATCGTTGGTTTCCAGTGATGCCAACGCTCCGGCAACAAACAGCAATGAATCACCCGGTAAAAACGGCGTTACCACC -AGACCGGTTTCACAGAACAAAATTAAGAACAAAATGGCATAAACCCAGACGCCGTACTCCGCGACCAGCTCTGCCAGATG -CACGTCAATGTGCAGGATAAAATCGATGAGGAAATAAATCAGGTCCATATTTGCCTATGCCTTGTACTCGTCATCTTTCA -GGCTGTAACTACGTTGGCTACAGCCTGAAATGTTCCGAGCATTATTCTCGTTAGTCCGCCAGAAATAGCGGGCCCATTGG -CGGTTTTGGAAGATCATACCGGTCAGGGTAATCCACCGCGACCAGATACAGCCCTTCCGCTTTTGCCGTTGCTGCCGCCA -GCGTTCTGTCCTTTGCCGCCAGCAACTCTGCTATCCAGCTCTCCGGCTGGTTGTGGGCACCGACTTCCATCAGGCTGCCG -ACAATATTCCTGACCATATGATGTACAAAAGCATTCGCTTTAATATCTACCACCACATAAGGACCGTGACGCGTGACATT -AATATGCATAACGTTGCGCCACGGGGTTCGGGACTGGCACTGCACCGCACGGAACGAGGTGAAATCATTCTCGCCCAGCA -AGCATTGCGCAGCCCGATGCATCCGTTCAGCGTCCAGCGGTTCGTAAAAATGGGTTACCCCTTTACTCAGTACCGCCGGG -CGCAGCCGATGATTGTAGATGATGTAGCGATAACGGCGAGCCGTGGCGCTAAATCGGGCATGAAAATCATCAGGTACAGT -TTTAACCCAACGCACAGCGATGTCACCAGGTAAATTCGCATTTACGCCCAAGGTCCACGCCGCGTCTTTGCGCAGCGCGG -TTGTTTCGAAATGCACAACCTGCCCGGTACCGTGTACCCCTGCGTCAGTACGCCCGGCGCAGAAGACGGTGATGGGTTCG -TTCGCCACCTGGGAGAGCGCCTTTTCCAGCTTCTCCTGCACACTGCGGACTTCGTTCTGCCGTTGCCAGCCGTAATACTT -ACTGCCGTCGTACTCAATGCCCAGCGCAATTTTATAAACTGGCGGTTGTTGCTGGTCGGACATTAGTACAGATACTCCTG -CACCAGTTTCTCGGCGATTTTTACTGCCATCAGCGCGCCGCCAAAGCGAACGTTATCGGCCACCGACCAGAACTGGACTT -GCTCCGGCATACCGTAGTCATTACGCACGCAGCCAACAGAAAGATGCGGCGTACCCGAAGCATCACCTACCTGAGTTGGG -AATTCGTTCTCTTCAGAGAGCACAATATCTTCGCCTTGAACAAACGCATCACGCGCTTCTTCTGCTGCCAGTGGACGCAG -AGCTTCAAAGTTGACCATCTGGGCATGACCGTAGAATACCGGTGCCTGGACGACGCTAGCCGAAATCATCAGCCCTTCGT -CCTGCAGGATTTTGCGTACTTCGTCAACGATACGACGTTCTTCACGCACGCTACCTTCGCTATCCGGCAGTAACGGCAGC -ATGTTGAACGCCAGCTGACGCCCGAAGAAATCTTCTTCGTCAATCGGAATGCCGTTGAGCAATTTCGCACTCTGCCCCGC -TAACGCATCGACCGCTTTTTTGCCCTGGGCGGAGGCTGAAATCAGGCTGGTAACGCTGATACGTGATAAACCGCCCTGAT -CGATTAACGGTTTCAGTGCCGCCAGCAGCTGGCTGGTCAGACTGTCTGGTACGGCGATGACATTCCGGTTCCGGTAATCT -GTCAGTACAAACGGGTTTACTTCCGGCACCACCAGCGGTACGTCGGGTTCGAGAGCAAACAATCCACTGCTGTCGATCAC -CAGGCAACCTGAGTTGGTCGCTTCTTCAACCCAGGCAGCGGTAGCTTCTTTGCCTGCGACAAAAAATGCCAGCTGCGCCT -GCGTCCAGTCGAATTCAGCGGCATCCTGCACGGTGATTGTCTTACCACCAAAGCGCAGTTGTTCGCCTGCGCTTTCGTTA -CGTGCCAGTGCATAAATTTCCCCAACCGGGAACTGACGTTCAGCCAGCGTTTCAAGCAGGGCTTCGCCCACAGCGCCAGT -TGCGCCCAGGACGGCAATGTTCCAGCCTTCAGACATGGTGGTTTACTCCAGAAATAGCAAAGCTCCCTGCCAATGTTACA -GCAGAGAGCATGAAGAAGAGATTAACGTGCCGGATGATGAACGGCGTTAAAACCCAGTTTACACAGCAATGATGCCGCAC -TGGCGTCATCACAAATTACATACAGAGATGACCATTCACGGCGCTCAAGATAGTTTTTGCGCAGTTTATCGAACTCACCC -GGTATCCCGGCGACTTTACGCAGCGGTGCGTCATCGCGGCGCACATCATACACCAAATGCACCAGCCTTTTCAGCGTCGG -TTGATCGAGCGGGCCATGCAGCGTAATGCGACCAAACTCTGGCGCAGGCAGTAATGTATCCAGCGCAACGTGCTGTTCAT -GCCCAATAAACTTGCTATAAGCTTCAAACACTTGCGTAGTACCGCGTGCTTTACCTTCCAGGGTATAGCCTGCGATATGC -GACGTGCCGATATCCACTTTTTTCAGCAGCTCGACGTTGAGTTCCGGTTCGCCTTCCCAGACATCCAGCACTACGCTTAA -CTTCTGGCCTTCATTCAGGCAGGTCAGCAACGCAGTATTATCGACGACTGCGCCACGGCAGGCGTTAATCAGAATCGCTC -CGGGCTTCAGGCTACGGATCAGTTTTTCATCCGCCAGATGTAGCGTTTTGTACGGACCATCTTTAAAGAGTGGCGTATGG -AAAGTCAGAATATCCGCGCGCTGGACTAACTCATCCAGCGAGCGGAAATCACCCTCATCCCCACGGTCGGCGCGAGGCGG -ATCGCAAAGTAAGGTTTTAATCCCTAACGCTTCCAGTCGCGCCTGCAATCGACGTCCAACGTTACCAACGCCCACGATCC -CCACCGTACGGTCGTACAGTGAAAATCCATCGCGTTCGGCAAGCATCAGCAGGGAGGAGAAAACATATTCCACCACCGCA -ATCGCATTACAGCCAGGTGCAGCGGAAAAACCAATTCCCGCCTGCTTCAACCATGCTTCATCGACATGGTCGGTCCCCGC -AGTGGCAGTGCCAACAAATTTAATGGGTTTTCCTGCCAGCAAAGATTCATTCACTTTCGTGACCGAACGCACCATCAGCG -CATCCGCGTCTGCCAGTTGAGCGACGGGGATTGGACGCCCGGGAACCGCGGTCACCTCACCCAAACGGCTAAATAAGTCG -CGGGCATAAGGCATATTTTCATCAACAAGGATTTTCACGTTTGTGTTACCTGTATGAGACGAGAGTTAACCGGACAAGTG -TGCCATAATCTCGCGGCCAGGCATACTTGCGAAGATTTCAGGTATAAGGATACGTAATGATACAACCTATTTCCGGCCCT -CCTCCTGGGCAACCACCAGGTCAGGGAGATAATCTGCCGTCTGGCACGGGCAATCAGCCTTTATCCAGTCAGCAACGTAC -TTCGCTGGAAAGCTTAATGACGAAAGTGACCTCACTGACGCAACAGCAAAGAGCAGAACTGTGGGCGGGTATCAGGCACG -ATATTGGTCTGTCGGGAGATTCACCGCTGCTTTCGCGTCACTTCCCTGCCGCTGAGCATAATCTGGCGCAACGTCTGCTG -GCCGCGCAAAAAAGCCATTCTGCCCGCCAGCTTTTAGCGCAATTAGGGGAGTATTTACGTCTGGGGAATAATCGTCAGGC -GGTCACGGATTATATCCGTCATAACTTTGGTCAGACGCCGCTGAATCAGCTCTCACCGGAGCAATTAAAAACCATTCTCA -CCCTGTTGCAGGAAGGGAAGATGGTTATTCCGCAACCACAGCAGCGCGAGGCGACCGACCGTCCTTTATTACCGGCGGAG -CACAATGCGCTAAAACAGCTGGTGACCAAACTTGCGGCGGCAACGGGGGAACCCAGCAAACAGATCTGGCAATCGATGCT -GGAACTTTCCGGGGTGAAAGATGGCGAGTTAATTCCAGCGAAACTGTTTAACCATCTGGTGACCTGGCTACAGGCGCGTC -AGACGCTAAGCCAGCAAAATACGCCGACGCTGGAATCACTACAGATGACGCTAAAACAACCTTTAGATGCCAGTGAACTG -GCGGCGTTATCGGCATATATCCAGCAAAAATATGGTCTTTCTGCGCAATCATCGCTTTCTTCTGCCCAGGCCGAGGATAT -TCTTAATCAGCTTTATCAACGGCGGGTTAAAGGGATTGATCCGCGTGTTATGCAACCGCTGCTTAATCCTTTTCCACCGA -TGATGGACACGTTGCAAAATATGGCAACGCGTCCCGCGCTGTGGATACTGTTAGTCGCGATTATCCTGATGCTGGTCTGG -CTGGTTCGTTAACCCCGACGAAATGACAGTATCGTGACAATAATACCCAGCACCGCAGAGATCGCCCCGGCAAGAAATAC -CGAAGAGTAACCAAACGTGGTCGCCAGCATTCCCGCCAGCGGCCCGGAGACGCCGAGGGCGATATCCTGAAACGCGGCGT -AACCGCCCAGTGCGGTGCCGCGAACTTGTGAGGGGACGCGTTTAACCACCTCCACGCCCAGCGCAGGAAAGATAAGCGAA -CATCCGGCTCCGGTTAACGCCGCGCCCGCTAATGCGACCCATGCACCTGGGGCTTGCCAGAGCAGCAACAAGCCCACCGT -TTCTACAAGCAGAGAGACAATCGCCACTTTCACGCCGCCAAAACGGTCCGGCATCCAGCCAAACATGACGCGCATCACGA -CAAATGCGCCGCCAAACGCGGTAAGAGTAAAGCCCGCCATCGCCCATCCTTTGCTGGCAAAGTAGAGCGAAACGAAAGTC -CCGATAACAGCAAAACCAACGCCTTGTAGTGCCAGACCTAACCCTGGTTTCCAGATAAGCCCGACAACGCTCCACAGCGA -TGGACGTTCTCCCGCCAGGGCCGGTACTTTGCGCACTGTGCCGTTACAGGCCCACGCCAGTACGGGTAATACCATTGTGG -TGATCGCCAGTGCGGCAAAACCGTAATGGCTATGAATCAACAGGCCAAGCGGAGCACCAACAGCGAGGGCACCGTAAATC -GCCATTCCGTTCCATGACATCACTTTGCCAGAGTGTTTTGGCCCTACGATGCCTAGTCCCCAGGTCAGAGCGCCTGTCAG -TAACTGGCTTTCACCAAAGCCAAGAATCAAACGCCCGACGACCAACAGAGCAAATTTGAACGGTGCGGAGACAGGCAAAA -TCGCCGCCAGCAGCAACGCGCCGCCAGCCAGACCACAAGCTAACATTCCCTGAAGCGCCGAACGTTTTGCACCATATTGA -TCGGCCAGTCGCCCGGCGTAACCACGCGTCAGCACCGTAGCCAGAAACTGAATCCCGACGGCAATGCCGACCATGGTATT -GCCATAGCCCAGTTCATGATGAACAAACAGCGGGATAACCGGCAACGGCAACCCTACGGTCATGTAGGTGAGAAAAACCG -CAAAAGCGATGCGGAAGAGCGAAAAATTGGCAGAAGATCGTGTTTCGGTTTGGCTTACAGCAGTCATGCATTACTCCAGA -ATGCAGCGCAAGGCGAGGAGTATCCCCGTCTCATCTCTCTGGTTTCAGGGTTACGGTGCGTTGGCAGGATTTAACGCGTA -CGTCTTTTCAGAAGGAAATCGACAAAGCGGGAAGTTTGCCTGGAACTGGCGGCGATTGTCAATGATGTGAAAAAGGGAAC -CATCAGGTTCCCTTTTGCGTTAGTGCCGGAGGCCGCATTGGCGCGTAACGTCGGATGCGACGCTGGCGCGTCTACTCCGA -CCTACTGCGAATTAATCTTTCAGCTTGCGCATTACCAGCGTGGCGTTGGTGCCGCCGAAGCCGAAGCTGTTAGACATAAC -GGTGGTCAGTTCGCGATCGGTCGTTTCGGTCACGATGTTCAGACCCGCAGCCTGCTCGTCCAGCTCTTCAATGTTGATGC -TCGGGGCGATAAAGCCGTGTTCCAGCATCAGCAGAGAGTAGATAGCTTCCTGTACGCCAGCAGCGCCCAGAGAGTGACCG -GTCATGGCTTTGGTTGCAGAAATCGCCGGGCTCTTATCGCCGAACACTTCACGGATAGCTGCCAGCTCTTTCACGTCGCC -AACCGGAGTCGAAGTACCGTGGGAGTTCAGGTAATCGATTGGGGTATCAACGCCATGCATCGCCATCTTCATGCAGCGTA -CTGCGCCTTCGCCAGACGGAGCAACCATGTCTGCACCATCAGAGGTTGCGCCGTAGCCAACGATTTCAGCATAGATGTGA -GCACCACGCGCCAGCGCGTGTTCCAGCTCTTCAACCACTACCATACCGCCGCCGCCAGCGATAACGAAACCGTCACGGTG -AGCGTCGTAAGTACGGGAGGCTTTTTCCGGGGTGTCGTTGTATTTAGTAGACAGCGCACCCATTGCGTCGAATTCGCAAG -CCATTTCCCAGCACAGCTCTTCGCCGCCGCCAGCAAACACGATGTCCTGTTTGCCCAGTTGGATCTGCTCTACTGCGTTA -CCGATACAGTGTGCGGAAGTCGCACACGCGGAGCTGATGGAGTAGTTAACGCCATGAATTTTAAACGGGGTGGCGAGGCA -GGCAGAAACGCCGGATGCCATCGCTTTGGTGACCACATACGGGCCAACCGCTTTCAGGCCGCGCGGGCCGCGCATTGCGT -CAGCGCCGAACACCTGGAAACGCGGGGAGCCGCCGCCGGAACCTGCAATCAGGCCAACGCGCGGGTTATTCTGGTAAGCT -TCCGGAGAGAGGCCCGCATCAGCGATTGCCTGCTCCATAGAAAGGAATGCATAAATGGATGCGTCGCTCATAAAGCGCAC -AACTTTGCGGTCAATGAGGCCAGTGGTATCCAGTTTTACGTTGCCCCAGACGTGGCTACGCATGCCGGAATCCTTCAGCT -CCTGAGAGAAAGTGATCCCTGAACGTCCTTCACGCAGAGATGCCAGGACTTCCTGCTGGTTATTACCGATGCTGGAAACA -ATGCCCAGGCCAGTAATCACTGCACGTTTCATTCAATACCTCTGTAAGTCGCACATAGAGTAAGTTTCGAATGCACAATA -GCGTACACTTGTACGCCGAACAAGTCCGATCAGCCATTTAATAGAGAAATTTGCGCAGCCTTACACACATCGCTAAGATC -GAGCCACCGCCTGTAAGACGAGTAACTTACGTGAAACACTACTCCATACAACCTGCCAACCTCGAATTTAATGCTGAGGG -TACACCTGTTTCCCGAGATTTTGACGATGTCTATTTTTCCAACGATAACGGGCTGGAAGAGACGCGTTATGTTTTTCTGG -GAGGCAACCAATTAGAGGTACGCTTTCCTGAGCATCCACATCCTCTGTTTGTGGTAGCAGAGAGCGGCTTCGGCACCGGA -TTAAACTTCCTGACGCTATGGCAGGCATTTGATCAGTTTCGCGAAGCGCATCCGCAAGCGCAATTACAACGCTTACATTT -CATTAGTTTTGAGAAATTTCCCCTCACCCGTGCGGATTTAGCCTTAGCGCATCAACACTGGCCGGAACTGGCTCCGTGGG -CAGAACAACTTCAGGCGCAGTGGCCAATGCCCTTGCCCGGTTGCCATCGTTTATTGCTCGATGAAGGCCGCGTGACGCTG -GATTTATGGTTTGGCGATATTAACGAACTGACCAGCCAACTGGACGATTCGCTAAATCAAAAAGTAGATGCCTGGTTTCT -GGACGGCTTTGCGCCAGCGAAAAACCCGGATATGTGGACGCAAAATCTGTTTAACGCCATGGCAAGGTTGGCGCGTCCGG -GCGGCACGCTGGCGACATTTACGTCTGCCGGTTTTGTCCGCCGCGGTTTGCAGGACGCCGGATTCACGATGCAAAAACGT -AAGGGCTTTGGGCGCAAACGGGAAATGCTTTGCGGGGTGATGGAACAGACATTACCGCTCCCCTGCTCCGCGCCGTGGTT -TAACCGCACGGGCAGCAGCAAACGGGAAGCGGCGATTATCGGCGGTGGTATTGCCAGCGCGTTGTTGTCGCTGGCGCTAT -TACGGCGCGGCTGGCAGGTAACGCTTTATTGCGCGGATGAGGCCCCCGCACTGGGTGCTTCCGGCAATCGCCAGGGGGCG -CTGTATCCGTTATTAAGCAAACACGATGAGGCGCTAAACCGCTTTTTCTCTAATGCGTTTACTTTTGCTCGTCGGTTTTA -CGACCAATTACCCGTTAAATTTGATCATGACTGGTGCGGCGTCACGCAGTTAGGCTGGGATGAGAAAAGCCAGCATAAAA -TCGCACAGATGTTGTCAATGGATTTACCCGCAGAACTGGCTGTAGCCGTTGAGGCAAATGCGGTTGAACAAATTACGGGC -GTTGCGACAAATTGCAGCGGCATTACTTATCCGCAAGGTGGTTGGCTGTGCCCAGCAGAACTGACCCGTAATGTGCTGGA -ACTGGCGCAACAGCAGGGTTTGCAGATTTATTATCAATATCAGTTACAGAATTTATCCCGTAAGGATGACTGTTGGTTGT -TGAATTTTGCAGGAGATCAGCAAGCAACACACAGCGTAGTGGTACTGGCGAACGGGCATCAAATCAGCCGATTCAGCCAA -ACGTCGACTCTCCCGGTGTATTCGGTTGCCGGGCAGGTCAGCCATATTCCGACAACGCCGGAATTGGCAGAGCTGAAGCA -GGTGCTGTGCTATGACGGTTATCTCACGCCACAAAATCCGGCGAATCAACATCATTGTATTGGTGCCAGTTATCATCGCG -GCAGCGAAGATACGGCGTACAGTGAGGACGATCAGCAGCAGAATCGCCAGCGGTTGATTGATTGTTTCCCGCAGGCACAG -TGGGCAAAAGAGGTTGATGTCAGTGATAAAGAGGCGCGCTGCGGTGTGCGTTGTGCCACCCGCGATCATCTGCCAATGGT -AGGCAATGTTCCCGATTATGAGGCAACACTCGTGGAATATGCGTCGTTGGCGGAGCAGAAAGATGAGGCGGTAAGCGCGC -CGGTTTTTGACGATCTCTTTATGTTTGCGGCTTTAGGTTCTCGCGGTTTGTGTTCTGCCCCGCTGTGTGCCGAGATTCTG -GCGGCGCAGATGAGCGACGAACCGATTCCGATGGATGCCAGTACGCTGGCGGCGTTAAACCCGAATCGGTTATGGGTGCG -GAAATTGTTGAAGGGTAAAGCGGTTAAGGCGGGGTAATCTGCTCTCGCAGTGTTTGCCGGATGCGGCGTGAACGCCTTAT -CCGACCTACGTGTGACGTGTAGGCCTGATAAGACGCGATAAGCGTCGCATCAGGCATGCTGCTCCAGACGCCGCAACTTA -CTGCTGTGACGCCTGCTGAAACAGGTTTTCCCACATATCGGTCACCAGCGCCTGGTCACGCGGCGACAATTCACCAGCAC -CAATGGCTTTTTCCAGACTCTGGCTAACGGTCGTATGCACCGCCTGAGCGGAGTGGTCATCACCACTTTCCAGTTCTGCG -ATGGCTAATGTCAGGTGGCCACGCAAATACCCACTGGCAAACAACTCATCATCACTGGCATGGTCAACCATACCGTCGAT -TAATGCCAGAATGCGTGATTCAAACTCCGCGATCATCTTCTTTCCTCATTGTAAAACGTGGCGCTGGCTTCAGTTGAGCG -CTTCCGGCCACGGGAACTGTTCCGCCGTAAGTTCCGGCGTGTGATAATAATTTTGTAGTGCTTTAATGAAGCGTGCCGGA -CGTTCCGGAATGCCATTTGTCAGATAATCCATCACCTGCGCATGTACTCGCCGTTGAAACACCACACGATCCGGTTCGAA -ATCCCCTTCCAGATTGTCGCAACTGACGTTAAACGGATATCCCGCCGCCACACAGAACAACCAGTCGAGCGCCTGCGGCT -TCACTTCAACATCTTCAAACTGGCTTTGCGTTTGGGCATCGCGTCCGTCCGGGCAATACCAGTAGCCGAAATCAACCAGC -TCACGGCGCGCTTTCCCGGCAATACACCAGTGCGAAATCTCATGAATTGCGCTGGCATAAAAGCCATGAGCAAAGACGAT -TCGGTTATACGGTACTTCCGCATCAGCAGGAAGATAGATCGGTTCGTCGTCGCCTTTAATCAGACGGGTATTAAAATCAT -CGGCAAAGCAGCTATTAAAAATTTCAATCAACTGCTCGTAGTGGTGTGTACTGTTCATTAGTTCATCCCCAACCAGTGGA -GGATCTCCTGTCCGTGGCTGTCGTAAAGTAATTTGGCACTCATCACCGCCGAGACGATAACAATCATCGGGCGGATCAGC -TTTTGTCCTTTGCTCAACACCAGTCGTGAACCCATGCGCGCGCCGAGGAACTGCCCCACCAGCATGACAAAGCCCGTCGC -CCAAATCACTTTGCCGCCGAGAATAAACAGCAGTAAACCGCCGATGTTTGACGTTGCGTTGAGTAATTTGGCGTGAGCCG -TGGCTTTGGCGAGGTTAAATCCGCACAGCGTAACGAAGGCCAGCGCGTAAAACGACCCGGCAGCCGGGCCAAAGAATCCA -TCATAAAAACCGACGCAGCCACCGGCTATTAACGCGAAGGGTAAACCGTACATCCGGCGCTGGCGGTCTTCTTCACCTAG -CTTTGGCATCAGCAAGAAATAGAGGCCGATACAAATTACCAGAATGGGCAAAATCTGCCGTAAGACATCAGCCTGAACGT -ATTGCACCAGCAGTGCGCCGCTCATTGAGCCGACAAAGGTCATGGCGATATTGAGTTTCTGATCGCTTAAACTAACCACT -TTGCGGCGAATAAAGTAGATAGTAGCGGAAATAGAGCCGCCGCAGGCTTGCAGTTTATTGGTTGCCAGCGCATTAGCGGG -AGACATCCCCGCTGCCATCAATGCCGGAATGGTGAGTAACCCACCGCCACCGGCAATCGAGTCGATAAATCCCGCCAGCA -TGGCGACAAAAAAGAGAACTCCCAGCAACAGCGGGGAAACCATAAACAGGCTATTAAACGTTTCCATTAGATCACGTGCT -CATCCAGTAGCGCCTGGCAGGAAGGCGGCAACGGAGGCGGTGTCTTCTTCTCAGGCTTTGTTGTTCCCGGTTTTGGAGGT -TCAAACCAGCTTTGCAGTTCTGCCCCGCAACCATCGCCTGATGGCGGTAAAGGTTGATCTTCACACTCCAGACTATCGGC -AGGGCAACGTAATCGTACATGCATATGCGCGCGATGCTGGAACCAGGGTCGCACTTTGCGCAACCAGTCGCGATCGGTGC -CCGCATCAAGGCAAAGTTGTTGTTTAATCGCCGGATTAACAAAAATGCGCGTGACGTCTTTGTCCTGGGCGGCGAGTTTG -ATCAAGCTGAAAATTTCTGGCTTCCACAGCGTGGAGACAACGTGTTTACCGTCGCGGGAAACTAAGTCCAGTGCTTGCGG -GCGCAAGAGCTGCGCGGAGGTCCAGCGAGTTTTCGGCAGTTGCAGAAAGATATCGACATCCAGTCCGGTCTGGTGGCTGG -CATGACCGCCGTTGAAACGCCCACCAGCGGGCATCCCCATATCGCCAATCAGCACCGTACCCATGCCCAGATTGCTCACC -TGGCTACTCAGACGCTGGATAAACATCACCAGATCCGGGTGACCGAAATAGCGACGCTGATCGGTACGCATGACCTGATA -ATGTTCGGACTGTATCGGCAGCGTGTCAGCGCCGACAATACAGCCATTAGAAAAACTGCCTATCGATTGTGCGCTACCCG -GCACAGGTTGGGTTATTTTTTGCCACGGCGTCGCTGCCAGGCTGGCGCTACTGGCAAGCAGAGCCAGCAGCGCAATCGCG -GTTTTATTCATTTTTTACCAGCGTGGAATATCAGTCTTCACATCGGCATTTTGCGCCCGTTGCCGTAACAGGTGATCCAT -TAAAACGATCGCCAGCATCGCTTCTGCGATCGGCACTGCGCGGATCCCGACACAGGGATCGTGACGGCCTTTGGTGATCA -TCTCAACTTCTTCGCCAAAGCGGTTAATGGTACGACCCGGCACGGTAATGCTGGAGGTCGGTTTCAGCGCCATATGGGCA -ATGATTTGCTGCCCGCTGCTGATACCGCCGAGAATGCCGCCCGCATGGTTGCTCTGGAAACCGTCTTTGGTGATTTCATC -GCGGTTCTGGCTGCCGCGCAGCGCCACCACGTCAAAGCCGTCGCCAATTTCCACGCCTTTCACCGCGTTGATGCTCATCA -GCGCATGGGCGATGTCAGCATCCAGGCGGTCAAAGACCGGCTCGCCAAGTCCGGCAGGAACGCCACTGGCAACAACGGTG -ACTTTAGCGCCGATGGAGTCGCCCTCTTTTTTCAGCGCACGCATCAACTCGTCTAACGCGTCGATTTTGTCGGGGTCCGG -GCAAAAAAACGGATTTTGCTCGACCTGCGACCAGTCTTTGATATCCAGCGGAATGTCGCCCATCTGGGTCAGGCAGCCAC -GGATTTCAATACCAAATTTCTCGGCGAGATATTTTTTGGCAATAGCTCCTGCCGCCACGCGCATGGCGGTTTCGCGGGCG -GAAGAACGTCCACCGCCGCGATAATCGCGCAGACCGTATTTTTGTTCGTAGGTGTAATCGGCATGGCCTGGACGGAAAAC -GTCCTTAATCGCACTGTAATCCTGAGAGCGCTGGTCAGTGTTTTCGATCAACAAGCCAATGCTGGTGCCGGTAGTAACGC -CTTCAAAAACACCGGAGAGAATTTTGACCTGATCCGGCTCGCGGCGCTGGGTGGTATAGCGCGATGTCCCAGGGCGACGA -CGGTCGAGGTCATGTTGCAGGTCCGCTTCCGTCAGCGGAATGCCTGGCGGAACACCATCGACGATGCAGCCGAGCGCCAG -CCCGTGCGATTCGCCGAAGGTGGTTACGCGAAAGAGTTGTCCAATTGTGTTTCCAGCCATCACGGCTCCGTTATTGTTGT -GTTTGCGTGTTTACTTAATCTTTATAAATCGCGAAATGTTCTCGTGCGGCAATAAGCTGCTCTTTGGTGAGCATAAACAC -ACCATCGCCGCCGTTATCAAACTCCAGCCAGGTGAACGGAACATCCGGATATTGTTCCATAAGATGTACCATGCTGTTGC -CGACTTCACAAATCAACACGCCATCATCAGCAAGGTAATCTGCCGCGTTACCGAGAATGCGACGCGTCAGTTTCAGGCCG -TCAGTGCCAGATGCCAGGCCCAGTTCCGGCTCGTGGCGGTATTCGTTTGGCAGGTCGGACATATCTTCCGCATCGACATA -CGGCGGGTTAGTGACAATCAGGTCGTACTGCACTTTCGGCAAGTCGCGGAACAGATCGGAACGAATCGGAATGACGTTGT -GGATCAGACCGTGTTCTTCGATGTTCTGTTCAGCAACCGCCAGCGCGTCTGGAGAGATATCCACCGCGTCGACTTCTGCA -TCCGGGAAGGCATAAGCACAGGCAATGGCGATGCAGCCGCTACCAGTACACATATCTAAAATATGCTGCGGTTGCTTGCT -GATAAGTCCGGCAAATTTATTGTTGATCAGTTCACCAATCGGCGAGCGCGGCACCAGCACGCGTTCATCGACGTAAAATT -CATGGCCGCAGAACCACGCTTTGTTGGTCAGGTAAGCCACCGGAATGCGTTCATTGACGCGGCGGATCACGCGTTCAACA -ATACGGTGTTTTTCGCTGGAGGTCAGACGCGCGGTGCGCATATCTTCCGGAATATCCAGCGGCAGGTAGAGCGAAGGCAA -CACCAGCTGTACGGCTTCATCCCACGGGTTATCGGTACCGTGACCGTACCAGATATTTGCCGCGCTGAAGCGGCTCACCG -ACCAGCGCAACATGTCCTGAATGGTTTGCAGCTCATTTACTGCTTCATCAACGAAAATTTTATCCACGTATTCCTCCAGG -GCATGATCGCAATAATTTCGGCGGCTAGTTTGCCATGAAGATGACGATAAATCAGCATTCACGCGCGGTGAGTGAGGAAA -AATACGTTTAAAACGATCGATTGCGCTACGAGTCGGGTAAACTGTAGGAAAATTAGAAATAGAGACAGATAAATGAAAAA -GAAAACAACACTTAGCGAGGAGGACCAGGCTCTGTTTCGCCAGTTGATGGCGGGGACTCGCAAGATTAAGCAGGACACGA -TTGTCCACCGACCGCAGCGTAAAAAAATCAGCGAAGTGCCGGTGAAACGCTTGATCCAGGAGCAGGCTGATGCCAGCCAT -TATTTCTCCGATGAGTTTCAGCCGTTATTAAATACCGAAGGTCCGGTGAAATATGTTCGCCCGGATGTCAGCCATTTTGA -GGCGAAGAAACTGCGCCGTGGCGATTATTCGCCGGAGTTGTTTTTGGATTTACACGGTCTGACGCAGCTGCAGGCCAAGC -AGGAACTGGGGGCGTTGATTGCCGCCTGCCGCCGTGAACATGTGTTTTGCGCCTGCGTGATGCATGGGCACGGGAAGCAT -ATTTTGAAGCAACAAACACCGCTGTGGCTGGCACAACATCCGCATGTGATGGCCTTTCATCAGGCACCAAAAGAGTATGG -CGGTGATGCGGCGTTGTTGGTGTTGATTGAAGTCGAAGAGTGGCTGCCGCCGGAGTTGCCCTGAGGAGTTGAGCGCGTTG -CGCCAGGTACGGGTAATGGCAGGGGCGAATGCCCCTGCCTGGTGTATCTAAGGGCTACAACTCATTCAGTATGTACTGGA -ACCGGCAAGTAGAATCGATTGGCTGCATACTGCTGGTATCAACACGCACGACCATATCGTGTAACTGTTTGTCCGTTATA -GGGTGTCGATTTGGCGTGACCGAGACTTCCGCCTTGTCACATCCCGACGCGGTAAAAGTTATCATCTGTGCAACCCAGCG -GCAGTAACCACCTGTTTCATTCATCTGCGTACTGTCGCACAACTTCCCATCTTTCATCAAATACGTTGAAAGCGTTTTCT -CAACCACACCGCCCGTCGACTGCAGGGTGAGCAGTTTTGACTTACTGACATAATTCTCATTCCATGAAACGTCATAAGGT -TGAACAGAAACGGATGGACAAATCGTGTCGTGACTATCAGGCCCCTGATACGTCACGCCCCCTGGAGAGGCTTCAGAGTC -ATTCATAATAACCAACCATGGACAAGAAAAGTAAGATTCAATCTCTGCAGAGACAATAACCTCAAATGTATAATACCCGC -AGTTCCACCCAGACGGTAATCCAGGACAACTTGCTTTGTTGATATTTTGATGGTAGCCAATCAGCTTAACCGAAGGGGCA -GGAGGAGGACCACTCCAGCTCACATTTTGCAATATTTCCCCAGTCATGAGCCATTGACTACTTTTATATTCACCAACGTA -CACTGCGGATGGCATCATTATTTTTAAATTAAAAGTCGCAATATTACGCGAATCACCGTTGTAACCGTAGTAAACGTCAA -CGCTATGCCCGGCAGCCATAGCTTCTGTAGTAGCAATAAGCATGACCAGAGCGAACAACCATCGTAGTATTTTCATTTTA -AATATACTCAAATGTCGCAGTTAAAGAGGCGGTAAATTCACCGATCGTCACATCACGGCCGCTTTTCGCCTGTAGCCAGG -CTCTGAAATTGATATCGTTATTGCCATTGGTTAGCGCAAAGGTCGCCCCATTTGTATTGTTGATGGCAACCTGCATTCCG -TCGGTTTTTTCCATGCCAATTCCCACTCCCTGAGCGGTTGATGACGTATCCAGTGCCAGAAAACCGGGTTGTTCGCTGTC -TTCTACCCCCGTGAGCGTGACTTTTACGTTGTATCCCGCCGGCCCTTTGCAATCTTTCAGCTTAAAGACTACGGGTACAC -GAGCGGACTGGCCTGCAACGTTCAAATCCTGACGACTGACCGTGGGAAAGCGCACCTCTGCCAGATATTGGCCATCCACC -ACCAGCGCACAGGATTTACTTAATAAATTACCGGAGAAATGCAGATTATTATCTGCCGCGAATAACGTGCTACTCATTGC -CAATATCAGCCCCGCTAACAGGACGTAACCACCGGACTGAATCATTGATTTATTCATTGATAATCCACCCGTAATGTTGC -GTAAGCCGAAAAATTCGTATCGCTTAACACAGCATCACTCGCTTTTACCGGTACGGCCTCCAGCTTCGGCTTTTGCGTAA -AATCAGTGGCGTTGATAGCAAGCGGAGTATTGAGTTTAAAACGCTGACCATCGTGCTGAAGCTCGATACCAAAACCGGGT -ACATCAGTTTCAATTGCTGCATCATTAAAACTGGTTTGTGTACCAGTCCAGGTGAGGGTCATCTCCCAATCTGGATGACG -GGTCGTCGAGTCACAAGTGAGTTCATATGGCACCTCTTTACGACCATAGTTGCCGTTGATGTCGTCGATAATGAGATCGC -GAAATTCGACTTCAATGGTTTTACCACCGCTGATGCTACAGGTTGGCGGTGACAATAATGTCCCGTGAAAGGTGATGTCT -TCATCAGCAGCATGAGCTATGGCGCTACTGACACAAAGCAGGGTTAAGAAAGTCTTTCTCATTGATAGTCCACCACCATG -GTCAAACTGGCGTTAAACTCGCCCGCAGCAAGTTGCGCCCCGCTTGCCTTCACAGGTACAGCCTTCAACTGTGGCTGGTT -ATTGATATTAAATGGCGTCCAGCTATTTTCACCGACGGCAAACAATGAGTTATCGGCGCTATTTTCTATCCGAATGCCCA -GCCCGGTGATATTGGTACTGAGTACCGTTTCGCCGTTAATCGTTGAGGTATTGCCCTTAAGTTGCATCCGCAAGTCGTTA -GCAAGACTGTTTGTGCAGTTCAACGTGTATTTCGCATCTTGCCGATAATTGGTGCCATCAACGTTATCAGCAATCATATT -GCCGAACTCTACCTGGCTGCCCTTGATTGAACAGGGTGGCGGAGCATCGACCAACACGCGCAGAATTAAATCCACGGGTT -TACTACCAGCCATAGCAGATAAACTACAGACACTGCATACCAGCAGCCCTGCGCCCACTACAAACTTTTGACTCATAACT -CCCCCCGTCATCAGCCTTTGCGGCTCTGCTCTTCATCCACCTGGCAGCTGTTGCCATTGCACTGGAAGAACAGCGGCATC -CGTGCGCCAAAGTCGTTGACGTAAGTCAGCACCGGTACGCTATCCATTTTCACATTCAGCGGTACCGTGGTTTTCGGCTC -AATGACCAGAGGCGAGAACCCTGCAGCTGGATTACCGTTTTTCTGCGCACTGGCGTTGCTGATAATCACGTAGTACGGCG -TTGGGTTATTGACGGTAAATGCCTGACCGCTGCGGGTGAGCGTCACCTTGTGCTGCCACGGACTTTTCATACTGACCTTT -TCCAGCGCCTTTGGTCGCCAGAACAACTTGATACGCGTTTGCAGCGCGATTTGCAGGGTATTGGGTTTGTTTGATTTTGG -CGGGATCTCGCGCACGTTAAAGTAGAACATGCTTTCACGATCGGCTGGCAATTTGTTGATATCCGGCATTCCCTGCACTT -TTACCTGCCCGTTCATCATTGAATCGATGCGTTGCACTGGCGGCAGCACAGTTAACGGCGAGGTGATCTTGTTACCCTTT -TCATCTTCAATCCAGCTTTGAGCCAGATAAGGGAGTTTCGGATCGTTATTACGCAGCGTCACGCTGATTGATTTGTCGCT -TTCATTAAATATCAAACGGGTACGATCTGGCGTTACAGACGCCAGGGCAGACAAACTGGTAGCGCTAAGCAGTAACGCCA -GCGTCATAGCACCCAATTTGGCAGAGCAAAGTAAATCAGACATGGATCATTCCTTAATCACGTTATTGGTTAGCTGAAAC -AGAAACAGGGGGATCGGTGGGTGTCACCTGTTGCGTCTGCTCCTGAATGACAGGCTTTATGTCATCAGGAACAACCGGCG -CGACGTTGCCTTTATGCTGGCATGGCAGTAACAAGCCGTTAAACAGATCGGCAGGCAGCGGGTCCGGCAGGTTGATATCG -CAATGCGCAACACCACTCCAGAACACACTCATATGTTCGCCAGGTTTCACCCCAGCCAGATAGACACTACCGTCATCATC -GACAAGGCCCACTGTCTGCTCGTTATCATTTTTTACTTCTGCGCCAAACGGTGGATGGCTGCCATCTTGTAAACGCAGCA -CCGCCATCGCTTTTTGACCACTGATGACGGCAAATTTGCGGTAGCCAATGGCTCCTTCAGTTAGCGTGGCTTGCACCACC -GACTGGGTTGCTTCGGCGTTTTCCGGCAATTTGTTGAGGTCGATATACGCCTGATTGCGATAATAATTGTTAACGTCAGA -AACGACGGCTTTACCAAACATATTGGTATAAACAGCAGCCCCGTTACCTTCCACCGGAACATCGGCAACGCCATCGGCAT -CAATCAGCAGGCGTGTCCCGCCCATATTCTGGGTACGGTGAAGTGCGCCGCCGTGGGTAGTAAGCGTTGCGCCGCCCTGT -AACGACAAGCCCGCAGAGGTGTATTGCCCTTCATGGTAGTTCGCACTGAGGTCAACCTGCGCCAGCGAACCATCATGGCT -GTAGTAGCCATCAACGCTGGTGTGTTTGTCACTGGTGCCGATGTTCAACTGATAGTGAGTCGCGTCATCGACACGGCTAA -AATAACCGACCTGGCTGCTGTCCGTCCCACTGCCATAGTTGCCGTTATAGCTAACGGTACTGTTGTCGCCCCACGGCATA -CTGAGCGAAATCTACATGCCCTTATCCGCCCGGTTGTCATACTCGTAGCGGTAGCCAGTCAGGGAAACGCTCATATTACG -AATGCTGCCCATATTGAAATAGTGGGAGAGCATGATGTTGTAGTTTGTCTGCTCCTCACGATCCCAGTAGGTATGGCGGG -TATAGTTGAGATAAACCGAAACACCCGCATCGCGGAAGTTCTGGTTATAAGTGGCGGTGTACATCTCTTTGTCGTTGCCC -GTACGGACCATTTCGCTGTCACTGGCATCCAGATACTCGCTCATGGTCATAAAGTTCTCTTCCGAGAAGCGATATCCAGC -GAAAGTGACGCGGCTGTTGAGCTGGTCAAAGTCTTTGGAATAACTCACACGGAAGGAGTTACCGTCCAGCGAACCTTTGC -CATAAGCGGTGTCTTTATCCAGTTTGGTATGCGAATGAGTAACATCAAACGCGACCGCGCCGAAGGTAGACAAATCGCGA -CCGACGCCCAGCGCCGCAGACTGATAGTTTTCATCACCCAGCGCACCGCCATATAACGACCAGCCGTTAGCGATGCCCCA -GGAGGCTTCAGCACCAGAGAAAAATCCCCCCTCGACATGGTGGCCCCACTCTTGCGGACGTCCCATCATGATCTTATAGC -GAACCTGGCCTGGGCGAGTGAGGTATGGCATCGAGGCGGTGCTGATGTCATATTCCTGCACCTGGCCGTTCTGTTCTTCA -ATGCGAATATGCAACGTACCGGAGACGGAATCACCAAGATCCTGAATACGAAACGGTCCAGCCGGAACCTGCGTTTCGTA -AATCACACGCCCCATCTGGCTGACGGTCACTTTTGCTGTGGTGTGTGCCACGCCGGAAATGTCTGGCGCGTAGCCGCGCA -GATTGGGAGGCAACATTTGATCGTCAGTGCTGACACTGCCACCAACATAATTAAAACCGTCGAAAATATCGGAATTGAGG -TAATCTTCGCCCAGCGCCAGTTTGGCTTTTAATGACGGTAACGCCCGCCAGGCATAATAGCGACTCCACTCCCATTTTTT -TTGTGTGTCATCGCCGCCAAATTCATCGTCATCATCATTACTGCGCGTATGTTGATAGTTGGTCTGCCAGTCAGCGCGCA -TACGCCATGGCCCCAGGTTAACCCCGACCGTCCCGTTGCCGCTGATCTCGTTACTGTCATCGCCGCCATTTTCTTCGTGT -CGTGTTTGCGCAGTGATGCTGTAGTCCGCAATGATCCCGGAGATGCCATCATCCCAACGAGAAGGTGGATCCCAGTCGGG -CCAGGTATATTCGAGGTAAGCCTGCGGTAGTGAAATGACTAATGCGGACTGGCTTAAATCAGCCTTAATTTCCACGCCTT -CCAGTTGACCGGGCTTCAGGCATTTACCATCGTGGCTCCATTGCAGATTTTTCGCCACGTCTTCTTTTAAACCAAACTGC -GCCACCAGTTCCGGTGTCAGACAAGCATAGCTTTTGCTAACGTCATCTTCACCAGCATACCAGTAAATATCGTACTCTTC -CGCCAATGGCTGTTTATTTAGTTGAACCTGTAAATTGTATTTTCCGGGCTCAACATACCCCTGGCTGGAAAAACGCTTCA -GATCAATTTTTGTGTCGCCTTTTAATTCCAGAAAACGGGAATCAAACTGAATGTCGTCTTCAGCCCAGACACTGCTATAA -CTCCCTGACATTGCCAGCGCAATGCACCACGGAAGAATCCGTAATCGAAAAAGAGAATGGTCAGGCATACACGTTTTTAT -CCGTTTTTATTCTTGTTCGGTCAAAATCCATTTAAATACCCCATAGCAGTGTCGCTATGGGGGTATGCCTTACAGGTAAG -TAATCTGGAAGGTGGTATTTGCTTCGAAATTACCCAGATCTGGCGCATCAGCTGCGCCGACCAGCCAGGCTTTAAAGTTC -AGAGTCTGCTTCGCTTTGCCTTTATTAGTGGCAGTATCTTTCACGATTTTCTGGTCAATACCCATGCCGCTTTTGTAAGA -GGTACCCAGAGAGTCACCGATCGCCAGGCTAACATTGTTAAATGCCGCACCGGTATCGGTATTGAAAATGGTGTAATAAT -TGCCGCTATTTGCAGAAGAAACGGTACCAGTAAAGGTAGTGGTCATTGTTTCCTGAGTATCAAATACGCAATCTTGCAGG -CGAATCTGGAAATTTTTCGGCGTGGTGGTGCCGTTATTTTTCAGTTTTTCGGCACCGATATCACCCATATCAACTTCCAG -TTTGTGATCGTCCGGAACGATAGAACACACTGAGTCTTCAATGGTGCCGTAAAAACGTGCAGTACCGTTGTTACCCGCAG -CGATTGTTGCCGTAGAGGTGAACGCGCCCATCACCATTGCCGCAGCAATAGCTGTTTTAACAAACTTACTCATTATTTGT -CCTTAAACTATAAATAATTAAAATATAAACATTGCAATACATTGATTCAGTCAATAGCCAATGTTTATACCCAGCCATTG -AATACGGCATGCGATCCAAAAAAACAGGTCGTAAAAAATGTATTCGTTGGTGTGGGGTCGAATAGTGATGTTTTCACTCC -CCTGATTCAATTTAATTTTACTAATGAGTAAATGTAGATTTAATTAATATATTGATAGGGGAAAGATTATCTTAAGGATC -TTCTAAAAAAACACGAAATATATATTTAGAAAAAACAGGAAGCATATCAACAATGAATGCCAATAGCTTAAAAAACAAAC -AATGAACATATAATGCGATTGGCATTAACCCGCTTTTGTCGATATAATATATAAACACTATAGCCAGAATTTAATCAAGT -TTCAATTACGTCCTGCCTGATTATTCAACTCTATTTTCTCCATTATCTGTATTAATAAATGATAATGAGTGTCAAACAGA -CATTATTCATTTCAACATGTAACTTTGGGCAAAATCAAGATACGCGCAGAAGAATACTTTCCGAATGAAAGTTAAAGGTG -TTTTATTTATAGATGGGGAGAGTCTTCGATAGTAGTGAGGTTGACAGATATCCGCTGCCTGATGAGCAATTATGCCCAAT -GAATCTACCTCATTGGGCATAATTTGGAACTCATCAGATAGCTTTTGCCATCTTCAGATTACACGGGCTCATCTGCCAGT -TGAATGTGCCGTTTCCGCTTTCATCAAGCGTTACGCTGGCAATGGCCGAGGTGGTAAACATAGGCGGCGTTTCGCCCGGA -CATAACTCGGCAACCAGATACCCGACTAACGGTAAGTGAGAGATCACCAGTACCGAAGCAACACCTTCATTGGTCAACGC -CTGCAAATAGGCACTGACCAGACCAACATCGCCGCAGGGCGTTAACTCCGGCAGAACTTCTGCACTGGAAGGCAGGTTCA -GACAATCCCCTACTTCTTCCAGTGTTTGCTCGGCTCGCAGGAACGGGCTCACCAGAACGCGTTCGATTTCCACTTTTTGA -CCTTTCAGCCAGTTCGCCATCAGGCGAGATTCGTCACAACCATTAGTGGTCAGAGGACGAACGGAATCACTGGCGGCATC -GAGGGCTGCGTCGCCGTGACGCATGATAAAAACTTGCATATTGCACCGCTTTTGTTAACCAGATTCGCCCGTTTTCTTTC -ATCTGAAACCAGAGAAAGAAAACGGTGGCCGGCATTGTGCCTTATCCATTCACCGAATGAAACGCTGTTTTTTACCTCAA -TGGCGTAAGTATAGTCAATATGCGTTTACATTTTGACCAACACTCCGCCATTCAGCGCGGATTCATATAGCTTTGACCTT -CTTATTGCAGGTCAGTTGCAGTTGTTTTCCAAAAACTTTCCCCACGCGCGCCCATCTCGACCAAACGCTCGCAAGGGGTA -AAACGGGAACCATACTGCGTGGCAAGTCGTTGCATTATTGCAACCACTTCGCCCGCGCCGAGAGAATCGATATAGCGGAA -CGGTCCACCGAGAAATGGCGGAAAACCAATGCCAAATACCGCGCCAATATCCCCGTCACGCACGCTACGGATAACCTGCT -CATCAACACAACGTACTGCTTCATTCAGCATCAACATCACACACCGTTCAGCAACCTGCGGTGCGGAGATTCGCCCCTGC -CCTTGTGTGCCAATCAGCGGGTAAATGGCGGGATCGACCTGTTTTTTGCTTTTACGCCCTTTCTGACCATAAAGATAGAA -ACCCCGGCCATTTTTTCTGCCTTTGCGATCGTCGTTCAAAATTGAAGAAACAACATTTGCAGGCGCGCTAAAACGTTCTC -CATAAGCGGCTTCCAGTACAGGAATAATTTTAGTCCCGGTGTCGATTCCTACCTCATCCAAAAGTTGGATTGGGCCTACC -GGAAAACCAAATTTCACTAGCGCGGCATCAATGTGCTCTACCCGTTCACCTTGGGTCAACATGCGGATAGCTTCATTAAT -GTAAGGCGCTAAGATGCGATTGACGTAAAAACCGGCTTTGTCACGCACGACAATTGGCGTTTTACCCTGTTTTTTCGCCA -GTTTTACTGTGGTAGCGATGGTTTGCGCCGATGTCCCCGCATGAGGAATAATCTCCACCAGCGGCATTTTTTCCACCGGA -CTGAAGAAATGCAGGCCGATAACTTGCTCAGGTCGCGTGGCGTGAGCGGCGATATCACCAATCGGTAAAGATGACGTATT -CGAAGCAAAGATGGTATGAGCGGCGCAATTTTGCTCAACTTCCGCCACCATCTGTTGTTTCAATTCGAGATTTTCAAACA -CCGCTTCAATAATCAGATCGCGATGGGCAAAGCCGCGATAGTCCGTCGTTCCGGAGATTAATGCCAGCTGTTTGTCACGT -TCGCTGGCTTTGAGATGACGACGGCGAACTTTGCCCTCCAGCTGATCCCAACTGTACTTCAGCGCATGATTTATGCCCTG -CGGGTTGATATCTTTAATTCTGACCGGAATCCCCGCTTTACAAGCAGTGACATAAGCAATACCGCCGCCCATCAAGCCAC -CACCTAAAATCCCCACGCTGTTTAATGGCGCAGGCGGCGCATCACTGCCGGGATCTTTCTTCACGTCCGTACTGGCAAAA -AAGATACTACGCAGCGCCTGCGATTGTGGCGTCATCGCCAGTTCGCCAAACGCCCGAGCTTCGGCGTCATAACCGCTGCT -GGTGCCCTGCGCTAATCCCGTTTCAACAACCTCCAGGATGCGTTCTGTCGCCGGATAATTGCCTTGAGTTTTGTGTTCTG -TTTTCTTGCCGACCATTTTGAACAGCAGCGCACGACCTAACGGCCCCGCCAGAATACGCTCGCGTACAGGTAGAGGGCGG -GAAGATGGGCGCTCCTTCTTTGCCAGCTCAACAGCGGCTTCCAGCAGAATGGAGTGCGGAACAACGTCATCCACCAGCCC -CAGCTTTAATGCCTGTTTCGCCCGAAGTTGTTTTCCGGTGAGGATCATCTCTAATGCTGTGCTGACGCCTATCAGACGCG -GTAAACGCTGGGTGCCGCCTGAACCGGGTAACAATCCAAGTTGTACTTCAGGCAAACCGAGCACCGTTTTAGGATCGTCA -GTACAAACGCGACCGTGGCACGCCAGCGCCAACTCCAGCCCACCACCCAGGCAAGCGCCATGAATAGCCGCGATAACCTG -AATGGGCAAAGCATGAATCTCCGCCATCAACTGTTGGCCCTGCCGCGCCAGAGCTTCCGCTTCTTGCGCCGTTTTGCAGT -TGCCGATCATGTTGATGTCTGCGCCAGCAATGAAGTTGTCCGGTTTAGCGGAGACAAACACCACGCCTCGCAACTCTTTG -TTTTCACGGAGTTGCTTAATAATGGCGCGCACCTGCGAGGCAAACTCCGCCTTCAGGGTATTCATTTTCTCACCCGGTAC -GTCGATGGTGATAACGGCAATGTTGTCCAGACGAACATTAAGGGTAAACGCTGATGTCATTTCCATTATTCCGCCTCCAG -AACCATTGCCGCGCCAAGCCCACCGGCAGCACAGGCGGTAACTAAACCAAATCCACCGCCGCGACGGCGAAGTTCATGCA -ATGTCTGGGTAATCATCCGCGCGCCGGTCGCCGCGAAGGGATGCCCGTAAGCAATCGAACCGCCAAGCACGTTAAATTTG -CTATCGTCCACTTCGCCAGTGGCATGTGCACGCCCCAGTGCTTCACGAGCAAAACGTTCACTACCCAGCAACTGAATATT -CGCCAGCGTCTGAGCTGCAAAGGCTTCGTGCATATCGATCAATGTCAGATCGCTCATCGTCAAACCGGCACGCTCCAGCG -CCAGCGGTGTTGACCAGGCTGGACCGAGCAACATGTCCTGCCAGACATCAATCGCAGTAAATGCGTAGCTGCGCAGATAC -CCCAGCGGCACCAGCCCTAATTCTTTCGCCCGGGATTCAGTCATCAGGATCACCGCTGCCGCGCCATCGGTCAGCGGCGT -ACTGTTTGCCGCCGTTACCGTTCCGTGTTTGCGATCAAACGCCGGGCGCAGCTTTGCGTAATCGGCAAGCGAGGAATTAC -CGCGAATATTGTTGTCTTCGACAAGCGGTTGTTTATAAGGAGGGATAAAGGCAGTCATCACCTCTTCTTTGAGTTTTCCG -TCTGACCATGCCTGAGCGGCACGCTGATGCGAACGGTGCGCTAATGCATCTTGCTGTTCTCGGGTGATGCCGTAGGTTTT -CGCCATTTGCTCTGCGGTGTCGCCCATCCGCAAGCCGGTAGAATATTCTGCTACCGCAGGTGGTACGGGCATTAAGTCGC -GCAAACGCAGGCGAGAGAAGAGTTTCAGTCGCTGGCTCATGGTACGAGCTTTGTTGACATCAACCAGCACGCGCGCCAGT -TTTTTACTGACGCCAATTGGCAATACCGAAGAGGAATCTGCCCCACCGGCAATCCCCGCTCGAATAGTTCCCGCCATCAG -GCTTTCTGCGACGTTTGCAACTGCCTGGAAACTGGTAGCGCAAGCGCGGCTGACGCTGTAAGCATCGGTATGTACATTCA -TTCCCGTACCGAGAACAATTTCACGCGCAATGTTGGGGGCTTCAGGCATTTGTACGACCTGACCAAAGACCAGTTGTTCA -ATCACTTCGGCGGGGATCTCGCTGCGTGCCAGCAGTTCGCCTACCACCATCTTCCCTAAATCAACCGCGGGAATGCCATG -AAAAGCCGTCGCCTGACGGGCAAAAGGCGTACGTAAACCGCTAACAATGGCGATACGATCGCCCTGGCGGGTAACCAGCG -GTAAAACCTGACCCATAACACTCCCCTGTAAAAAAATAAATAAAGTGGTCTGACCTGATCATAGTCTTAACCATTTTTTT -ACATTTAGCCAAGTGGAGAAAAGGGAAAGTGGGAGCTATGACACAGAGAGAAAAGAAGAAGAGAAAAGAAAACGCCCCTG -CCAGCAACTGACAGGGGCGTACGTACCCGAGAGGAATTAACGCAGACCCAGCTGGAAAATCAGCATTTCAGCTTCGCAGG -CAAAAGTGAAATCGATATCCAGGCGCACACCGTCAGACTCTTCAGTGAAAGTCGGGGTGATTTTGCAAGGTTCAGATTCC -ACGCTACGGGCTTTTTCAGTCAGCGCCGCCAGCGTTTGCTCTGCTTCTGCGCGGTTTGCAAACACGCGGCTGTAAGACGC -GGTGCAGTCGGAGTTGTCCATAATGGTGCCAACATCCATACAGCAGCAAACCGGGGTTTCATCAGCACTACATTTACTCA -TCGTTGATTTCCTCTGTATGTGCACCCAAGGTGCCAGATAAACGTTGTGGATATTTTACGCTTCCGGAAAGTGCTGCTCC -AGTTGTTAATTCTGCAAAATCGGATAAGTGACCGAAATCACACTTAAAAATGATCTAAAACAAAATTCACCCGAATCCAT -GAGTGCGCCACCTCCAAATTTTGCCAGCTGGATCGCGTTTCTTAGATCATATTTGAAAAAAGATAGAAACATACTTGCAA -CATTCCAGCTGGTCCGACCTATACTCTCGCCACTGGTCTGATTTCTAAGATGTACCTCAGACCCTACACTTCGCGCTCCT -GTTACAGCACGTAACATAGTTTGTATAAAAATAAATCATTGAGGTTATGGTCATGAGCCAGAAAACCCTGTTTACAAAGT -CTGCTCTCGCAGTCGCAGTGGCACTTATCTCCACCCAGGCCTGGTCGGCAGGCTTTCAGTTAAACGAATTTTCTTCCTCT -GGCCTGGGCCGGGCTTATTCAGGGGAAGGCGCAATTGCCGATGATGCAGGTAACGTCAGCCGTAACCCCGCATTGATTAC -TATGTTTGACCGCCCGACATTTTCTGCGGGTGCGGTTTATATTGACCCGGATGTAAATATCAGCGGAACGTCTCCATCTG -GTCGTAGCCTGAAAGCCGATAACATCGCGCCTACGGCATGGGTTCCGAACATGCACTTTGTTGCACCGATTAACGACCAA -TTTGGTTGGGGCGCTTCTATTACCTCTAACTATGGTCTGGCTACAGAGTTTAACGATACTTATGCAGGCGGCTCTGTCGG -GGGTACAACCGACCTTGAAACCATGAACCTGAACTTAAGCGGTGCGTATCGCTTAAATAATGCATGGAGCTTTGGTCTTG -GTTTCAACGCCGTCTACGCTCGCGCGAAAATTGAACGTTTCGCAGGCGATCTGGGGCAGTTGGTTGCTGGCCAAATTATG -CAATCTCCTGCTGGCCAAACTCAGCAAGGGCAAGCATTGGCAGCTACCGCCAACGGTATTGACAGTAATACCAAAATCGC -TCATCTGAACGGTAACCAGTGGGGCTTTGGCTGGAACGCCGGAATCCTGTATGAACTGGATAAAAATAACCGCTATGCAC -TGACCTACCGTTCTGAAGTGAAAATTGACTTCAAAGGTAACTACAGCAGCGATCTTAATCGTGCGTTTAATAACTACGGT -TTGCCAATTCCTACCGCGACAGGTGGCGCAACGCAATCGGGTTATCTGACGCTGAACCTGCCTGAAATGTGGGAAGTGTC -AGGTTATAACCGTGTTGATCCACAGTGGGCGATTCACTATAGCCTGGCTTACACCAGCTGGAGTCAGTTCCAGCAGCTGA -AAGCGACCTCAACCAGTGGCGACACGCTGTTCCAGAAACATGAAGGCTTTAAAGATGCTTACCGCATCGCGTTGGGTACC -ACTTATTACTACGATGATAACTGGACCTTCCGTACCGGTATCGCCTTTGATGACAGCCCAGTTCCTGCACAGAATCGTTC -TATCTCCATTCCGGACCAGGACCGTTTCTGGCTGAGTGCAGGTACGACTTACGCATTTAATAAAGATGCTTCAGTCGACG -TTGGTGTTTCTTATATGCACGGTCAGAGCGTGAAAATTAACGAAGGCCCATACCAGTTCGAGTCTGAAGGTAAAGCCTGG -CTGTTCGGTACTAACTTTAACTACGCGTTCTGATAACGCGTTCGCCTGGATAAAGTCACCTGCATAGCAGGTGACTTTAA -CTCCCCCACTTCACCGAAAGTAGTGTCCTCATTGCTTACCTCCTGAGTTTTGCAAACAGCCTGTTGGCAGCTTGCCCTTT -CAAATCAATAAGCGGTATCCACAGACAAACCTGAAGGGAAAGGCATATTTTCAGGCGTTCTGCTCGTCCTTCTCAAAGAG -TTTACTTTTCTGCATTTCCAGGATACTCCCCCCCCCTGGCTATTGTGCGCTCATACACTCAAATTAAAGATAGGTTCTAA -ATAAATGAGCGTTTTTTGATAGTCTATTTCATTAGGTAATATATATTTGTAACAAATCAATCAAAATGGAATAAAATCAT -GCTACCATCTATTTCAATCAACAATACCAGCGCAGCTTACCCAGAATCCATCAATGAAAATAACAATGATGAAGTTAATG -GATTAGTACAAGAGTTCAAAAACCTTTTTAATGGTAAGGAAGGAATAAGCACCTGTATTAAACATCTACTTGAGCTTATA -AAAAACGCCATACGAGTAAACGACGATCCTTATAGATTTAATATTAATAATTCCTCAGTTACTTATATTGATATTGACTC -CAATGATACAGACCATATTACTATTGGTATCGACAACCAAGAACCAATAGAATTACCTGCGAACTATAAAGACAAAGAAC -TCGTCCGTACTATCATTAATGACAACATAGTTGAGAAGACTCATGATATCAATAACAAGGAAATGATCTTCAGCGCATTA -AAAGAAATATATGATGGAGATCCTGGTTTTATCTTCGATAAGATATCACACAAACTCAGACATACGGTAACGGAATTTGA -TGAGAGCGGGAAAAGCGAACCAACGGACTTATTTACCTGGTACGGTAAAGATAAAAAAGGCGACTCTCTCGCTATTGTAA -TTAAAAATAAAAACGGAAATGATTACTTATCTCTCGGTTACTACGATCAGGACGACTACCACATTCAAAGAGGAATTCGT -ATTAATGGTGATAGTCTCACCCAATATTGTAGTGAAAACGCCAGGAGTGCTTCAGCGTGGTTTGAAAGCAGTAAAGCTAT -CATGGCAGAATCATTTGCAACTGGTTCCGATCATCAGGTTGTAAACGAGCTCAACGGGGAAAGACTGAGAGAACCAAACG -ACGTTTTTAAACGTTATGGTCGAGCAATAAGATATGATTTTCAAGTGGACGATGCAAAATATAAATGCGACCATCTAAAA -GAAATAGTTTCTACTTTAGTCGGTAACAAAATTAACGTTGGCCATTCTCAAAAAATATATAAGCATTTTAAGGATCTCGA -AGGTAAAATTGAAGAAAGGCTTCAAAATCGCCAGGCTGAATATCAAAATGAAATTAATCAACCATCTGCGCCAGGTGTTA -ATTTTGATGATATTTAAAATTATTTTTCCAGTTTTTTGATTTTTCAACAGCTGAATATCGGAAATAGTCAGTGACGAACA -TCAGTATTTTTACATAATTACGTCTAGGTCATTGTCGGTTTATCTCCTTTTACTTGTGGTAATTGAGGGATAACAACAAA -AAAGGTGAGTTTTGCGACTCACCTTTTTTATTTGTTTCTTATTCAGAATCAATATCTTTTAAATCATCCTGAATCGCTTG -TGCGTTCGGATTTTCCTGCGGTTTGAGTTCGCCGCCATTAGCGATGAAATCATGACGCTGGAAGTACGCTTCGCGCACCA -TAATATAAGGATCGGACGACTGACGCAGCAGACCATCGGAATCCAGCAGCTGAGCGCGGGTTTCGATCCCTTCAAGCGTC -CATTTACCCACAGACATCGGCCAGGTCAGCCAGGAAAGAACCGGGTAAAAACCATCCGCCATATCACCACCGTCATCACG -CAGCGTGAAGCTACCGTAGAACGGTAACTGAACGTAAGGCCCATAACCCACGCCATAATGACCAAGCGTACTACCGAAGC -GGTGAGGTTCAGTCCGTTGCAGTTTCGGGTTCGCCATCCCTGCAACATCAATAAAACCGCCCATCCCCAAAATGGTGTTC -AGGAAAAAGCGGGTAAAGTGGACCATCCCCTGATAAGGGTCGCCCTGCAAGAAGTAGTTAACCATCACCGCAGGTTCTTC -AAGGTTGCCAGTAAAGTTGCTCAAACCGTTACGCGCCGGTTGCGGAACATAATCACGCCAGGCGACAGCGACCGGTCGAA -CAATATACGGGTCTAATACATTGAAGTTGAAGTTGTACATGGTGCGGTTGAACCCTTCTAACGGGTCAGAACGCCCTTGC -TGATCTGTACCGGAACTCGCACACCCCACCAGAAGCGTAGTTCCCAGAGCAAGCGCCGACAGGCGAAGCTTCATAAATGT -CTCCCTGTTTTTTTATGGCTTATGCAGTTTGCCATCCATGACGGAACGATACCGTATCCGCCTGTTTAGGTGTGGGCGAT -TGTAACAGCACGTCAACTGATGTCCAGACGCCCTGATTTGCTGATTTGATCATAGCCTGGTAATCGCCGCCCTGTAGGCT -ACTTGATTCTATAGAAACAGAAAAAGGCAAACGCAGCCTTTTCTACATTTTCAGAGTAACTCCCGTCAGTTGCGAGCAAA -AAAGCCGCTACGCTTTAGCTATACGTGCTAATTCAAGAGAAGAGACCATGGACAACGACAAAATTGATCAACACAGCGAC -GAAATTGAAGTTGAGAGCGAAGAAAAAGAGCGCGGCAAAAAAATAGAAATAGATGAAGACCGACTCCCCTCCCGGGCGAT -GGCAATTCATGAGCATATCCGCCAGGATGGTGAAAAAGAGCTGGAACGCGACGCAATGGCGCTACTGTGGTCAGCCATTG -CGGCGGGTCTGTCGATGGGCGCTTCGTTACTGGCAAAAGGGATATTTCAAGTCGAACTGGAAGGTGTGCCGGGCAGCTTC -TTGCTGGAGAATCTCGGTTATACCTTTGGTTTTATTATCGTCATTATGGCCCGCCAGCAATTATTTACCGAAAATACCGT -GACTGCGGTACTACCCGTCATGCAAAAACCGACAATGAGCAACGTCGGCTTACTTATACGGTTATGGGGCGTCGTGCTGC -TGGGTAATATTCTCGGGACAGGTATTGCGGCGTGGGCATTTGAATATATGCCTATCTTCAATGAAGAAACTCGCGATGCA -TTTGTCAAAATCGGCATGGATGTGATGAAGAACACCCCCAGCGAGATGTTTGCCAACGCGATCATTTCCGGCTGGCTGAT -CGCCACTATGGTTTGGATGTTTCCTGCAGCGGGTGCGGCAAAGATTGTGGTGATTATATTGATGACCTGGCTTATTGCCC -TGGGTGACACCACCCATATCGTGGTCGGTTCTGTTGAAATCCTCTATCTGGTGTTTAACGGTACGCTGCACTGGAGCGAT -TTCATCTGGCCCTTCGCACTACCTACTTTAGCGGGGAACATCTGCGGCGGCACCTTTATCTTCGCGTTAATGAGTCATGC -ACAGATTCGTAACGACATGAGCAATAAGCGTAAAGCAGAAGCACGCCAAAAAGCAGAACGTGCGGAAAACATTAAGAAAA -ATTATAAAAACCCGGCATAAATGGCGAGGGTTTAAGCAATCGAGCGGCAGCGTACTTACCCCGCACTCCATTAGCGGGTA -TACTCATGCCGCATTGTCCTCTTAGTTAAATGGATATAACGAGCCCCTCCTAAGGGCTAATTGCAGGTTCGATTCCTGCA -GGGGACACCATTTATCAGTTCGCTCCCATCCGTACCAGTCCGCAAAATCCCCTGAATATCAAGCATTCCGTAGATTTACA -GTTCGTCATGGTTCGCTTCAGATCGTTGACAGCCGCACTCCATGACGGGTAAAAAGTGGATAAAATAATTTTACCCACCG -GATTTTTACCCATGCTCACCGTTAAGCAGATTGAAGCAGCAAAGCCGAAAGAAAAACCATACCGCCTTCTCGATGGTAAT -GGCCTGTACCTTTATGTCCCTGTGTCAGGGAAAAAGGTATGGCAGCTTCGCTACAAGATTGACGGTAAGGAGAAAATCCT -GACCGTCGGAAAATATCCGCTTATGACTTTGCAGGAGGCAAGGGATAAAGCATGGACTGCGAGGAAAGACATCTCGGTTG -GCATCGATCCTGTAAAGGCGAAAAAGGCTTCGTCTAACAACAATTCCTTTAGTGCGATTTACAAGGAATGGTACGAGCAC -AAGAAGCAAGTATGGTCAGTAGGGTATGCAACTGAACTTGCCAAAATGTTTGACGACGACATTTTACCTATCATTGGCGG -CCTTGAAATTCAGGATATTGAGCCGATGCAACTGCTGGAAGTAATCCGCAGGTTTGAAGATCGCGGTGCAATGGAACGAG -CCAACAAAGCACGCAGAAGATGCGGCGAGGTTTTCCGTTACGCTATTGTCACCGGAAGGGCTAAATATAACCCGGCACCT -GACCTTGCTGACGCCATGAAGGGATACCGCAAGAAGAACTTCCCGTTTCTTCCTGCAGACCAGATCCCGGCATTCAACAA -AGCACTGGCAACATTTTCAGGAAGTATCGTATCGCTCATTGCGACCAAAGTTTTACGCTACACAGCCCTAAGAACGAAAG -AGCTTCGTTCCATGCTATGGAAGAACGTCGATTTTGAAAATAGGATTATCACCATCGACGCCAGTGTGATGAAAGGACGC -AAAATTCATGTGGTTCCTATGTCAGACCAGGTAGTTGAACTTCTCACTACGCTAAGCTCCATCACCAAACCAGTCTCAGA -GTTTGTTTTTGCCGGGCGCAACGATAAGAAGAAGCCAATCTGCGAGAACGCGGTACTGCTTGTGATCAAACAAATCGGCT -ATGAGGGTCTGGAAAGCGGTCACGGATTCAGGCATGAATTCAGCACGATTATGAACGAGCACGAATGGCCTGCTGACGCT -ATTGAAGTGCAACTGGCACATGCAAACGGCGGATCTGTGCGTGGGATTTACAACCATGCTCAGTATCTCGATAAACGCAG -AGAAATGATGCAATGGTGGGCGGACTGGCTTGATGAGAAGGTGGAGTGAGCGACCTTAACAACTATCGAATAGCACAAAG -TCTTGCAATCCAGTGCAAAGCTTTGTGTGTATAAGTTTTGTCTCATCAACCACAGCAAGTATCGATCGATTAAGACTTGG -ATGATAGACTTCATTCCTTTGATTATTAGCTGATAGAAGAAATGTTAAAGCTATTTGCAAAGTACACCTCTATTGGTGTG -CTGAACACCCTTATACACTGGGTGGTTTTTGGTGTTTGTATCTATGTCGCGCATACAAACCAAGCTCTTGCAAACTTCGC -AGGTTTCGTTGTGGCTGTGAGCTTTAGCTTCTTCGCGAATGCAAAATTCACATTCAAGGCATCGACTACAACGATGCGCT -ACATGCTATATGTTGGGTTCATGGGGACACTGAGTGCTACTGTTGGATGGGCTGCTGATAGATGCGCACTTCCCCCGATG -ATAACTCTTGTCACCTTCTCCGCCATCAGCCTGGTGTGCGGTTTCGTCTATTCAAAGTTCATTGTCTTTAGGGATGCGAA -ATGAAGATATCTCTTGTAGTTCCTGTCTTCAATGAAGAAGAAGCGATACCAATTTTTTATAAAACGGTACGTGAATTCGA -AGAATTGAAGTCATATGAAGTGGAAATCGTTTTCATAAATGACGGCAGCAAAGACGCTACGGAGTCAATCATTAATGCTC -TGGCTGTTTCAGATCCTCTAGTTGTTCCGCTGTCATTTACACGCAACTTTGGTAAAGAACCAGCATTGTTTGCAGGGTTA -GACCATGCAACCGGGGATGCGATAATCCCAATTGATGTTGACCTGCAAGACCCGATTGAGGTTATTCCTCATCTTATTGA -AAAATGGCAAGCAGGTGCTGATATGGTTCTTGCTAAAAGATCTGACCGCTCAACTGATGGACGCCTGAAGCGAAAAACGG -CTGAGTGGTTCTATAAGCTCCACAATAAAATAAGCAATCCTAAAATTGAAGAGAATGTTGGTGATTTCAGGCTGATGAGC -CGTGATGTTGTCGAAAATATTAAACTTATGCCAGAACGAAACCTTTTCATGAAAGGTATTCTGAGCTGGGTAGGAGGAAA -GACAGATATTGTTGAATACGTGCGAGCGGAAAGAATTGCTGGAGATACAAAATTTAATGGATGGAAACTTTGGAATTTAG -CACTTGAGGGTATTACAAGCTTTTCCACATTCCCTCTTCGCATCTGGACATACATAGGGTTAGTGGTAGCCAGTGTAGCA -TTTATTTATGGGGCGTGGATGATTTTAGATACTATCATATTTGGAAATGCTGTTAGGGGATATCCTTCACTACTTGTTTC -AATACTGTTTTTAGGTGGAATTCAGATGATTGGAATAGGAGTATTAGGTGAATATATTGGACGCACATACATTGAAACCA -AAAAACGCCCGAAATACATCATCAAGAGAGTCAAAAAATGAATAAAGCAATAAAAGTATCATTGTATATATCTTTTGTTT -TGATTATTTGCGCCTTATCTAAAAACATAATGATGTTAAATACATCTGATTTCGGAAGAGCCATTAAGCCATTAATTGAA -GACATACCAGCATTTACATATGACTTACCTTTATTGTATAAATTGAAAGGTCATATTGATTCAATTGATAGCTATGAGTA -TATAAGTTCATATAGTTATATTTTGTATACATACGTCCTGTTTATTAGCATTTTTACTGAATATCTTGATGCTAGGGTGT -TATCGTTATTTCTAAAAGTAATATATATTTATTCATTATATGCGATATTTACTTCATATATAAAAACAGAAAGGTATGTA -ACTTTATTTACATTCTTTATTTTAGCTTTTCTTATGTGTTCTTCATCAACACTGTCAATGTTTGCATCATTCTATCAAGA -GCAAATAGTTATAATTTTCCTTCCATTTTTGGTGTATTCATTAACATGCAAAAACAATAAATCTATGCTTTTGCTATTTT -TTTCGTTGCTAATAATATCTACTGCTAAAAATCAATTTATATTAACCCCACTAATAGTGTATTCATATTATATTTTTTTT -GATAGACACAAACTAATTATTAAATCTGTAATATGCGTGGTGTGCTTGCTTGCGTCAATATTTGCAATATCTTATTCAAA -AGGTGTTGTTGAATTAAATAAGTACCATGCAACATACTTCGGTAGTTATCTTTATATGAAAAACAACGGGTATAAAATGC -CATCGTATGTTGATGATAAGTGTGTTGGGTTAGATGCCTGGGGTAATAAATTCGACATATCATTTGGCGCAACCCCAACA -GAAGTTGGAACGGAATGTTTCGAATCTCATAAAGATGAAACGTTTTCGAATGCACTCTTTTTATTGGTTAGCAAACCAAG -CACCATCTTCAAACTTCCATTTGATGATGGTGTGATGTCTCAGTATAAAGAAAATTATTTCCATGTATATAAAAAACTAC -ACGTAATATATGGAGAATCAAACATACTAACGACTATTACTAACATAAAAGACAATATATTTAAAAACATTAGATTTATA -TCATTGTTATTATTTTTTATTGCTTCTATTTTTATTAGAAATAATAAAATAAAGGCATCTTTATTTGTAGTATCTCTTTT -TGGAATATCTCAATTTTATGTGTCATTTTTCGGGGAAGGATATAGAGATTTAAGCAAGCATTTATTTGGAATGTATTTTT -CGTTCGACCTTTGCTTATACATAACAGTCGTTTTTTTAATTTATAAAATAATTCAAAGAAATCAAGACAATAGCGATGTA -AAGCACTAAGTTTAAATTGCGCGCCAATCATGGCGCGCACAAGCTATAATACCAACCTAATTTCTCCTCCTCTTAGAGTG -ACTATATCTCCTGATAGAATTGCGGTATTGACTATCAAATGCCCTGATTCGTTGTTTATTGTAATATCTCCTCTATCTGC -AGACGATAACTTAAATGCATCATTGCCCACAACAAACCCCCTCCAGAACCAAGTGCTGATATTATCATCAACAGTGATAG -ATACATATACTAACTGATTATCGTTATAAGTGATTCCTGTCTTATACTTAACATAAGGACTTCCACTTTGATTCTCGATA -GACACATAACATCCAGGGGTTATGTTTGTATGCGTCCCGCGACTATCGCCCCATTAACGCCATACGATAAATGGGATGGT -GAGAAATGGGTGACGGATACCGAGGCACAGCATAGCGTCGCAGTAGATGCAGCAGAAGCACAGCGCCAGTCGCTGATTGA -TACTGCAATGGCTTCCATTAGTCTGATTCAACTGAAATTACAGGCTGGGCGGAAGCTGATGCAGGCAGAGACCTCCCGAC -TTAACACTGTGCTGGATTACATTGACGCGGTGACGGCAACAGATACCAGCACCGCGCCGGATGTCATCTGGCCTGAACTG -CCGGAGGAGTAGGCCATTCAATATCTGGCGCACTGGAAGTATCGACCAGCTCCAGTGCGTCCAGATAATCCAGCCACAAA -TTATATTGCGCCAGTTCCTCACCTTTCAGACGACCAATAGCCGCTTTACCAGCCCATTGTTTACTGTTCATATAATCGTT -GGCCTGATTAATCAATTGCTGCTTTTTCAGTTCGGCTGCAGCAATCTGTTCCTCATGTGTTGGTGGTGGAATTTCAGACC -ATGCAGGAAAACCATTTTCTCCAGCGATACGGATTTTTCCTTTCGGCGGTAATCCGGAAAACTCAATATACACTTGCTCA -TCAACTTCAACAGCATCATCTGGCCATGAGCCAGCTTGCGTGTAATCCTCTTTCATCTCCAAGGGATAGAAAGAGTTTGT -AGTCGCGGAATATATGTAATTCATTTTTCACTCCATAAAGTTAAAAGAAATTAACACCCTAATGCGAAAAATGAAGCACC -GATACCGGGTACGCCTGCTCTGGAAATAAATTTCACCGGGTCCTGGTTATAACCGGCACAAGCTATATAGCCAACATTTG -CACTGCCGGGAGTGTAATCCTGAGTCGCAAATACCCGCAGACATCTATTCGGAAATGCAATCGGAAAATAGGTTACTGTG -TCCTGAGACGTCAGCGGAACATCAATTGGCCCCCATTGAATAATTAAACCGGATGGCAATTTTTGATATCCAGGAACTGA -AGCAGAAAGCATAAAACTACCCATATCAGGTATCTGATTCGCCCCTGTCCCTACATTTCTTTTAGCCGCTTCTCCCAAAC -CAAGGTTTTCGAGAGCCTTTTGCACCGTGCCGTCCAATTTGATATCGCCAAACGGATTCTTGCGGCTTAACAGCAGCGCA -CGAAGCGCGGTAAGCAGCTGGTCATGCCGCCCCTTCTCCAGGCTGGCACCGGAGGCCTCCACAACGCTGCAAAGCTCCTC -CTGCAACATGTCAAAGTAGTCATCATCCAGATCGGTGGCAGGCGTGCCGGTCTGGGGGTTACCACGGGTACGGGGGATTA -CCAAAGGCAGCACCTTTAAGCTCCGCAAGACGTTCTGACCAGTCATGCGCCAGCGCGTTGTCTTCCGCAGTGTAATACGC -GGCACATTTGGCGTTATCACCATCAGTAAACAGATCCAGAACAAACGGGCCAAACAGGGTGTTAATTCCCCAGAAAATGT -TGTCCGGCGTGCGCCACTGATCGCCCACTTCCTTCAGTTCATGGGCTGGTTTGTTCCGCAGCTCCACCAGCGCCTGGCAA -TATTTATTACTCATTAAGCCCCCACGTAATTCCCTGAGAGATACCACTCTTCACCTGATGCAGCCCGCTTACTGCTTTTC -CGTAAACACCGTTCACGACGCGCCAGAAAATTGTTTCGTTCTGGCTGGGAGTGGCTTTCACGGAATGCCGCCATCCACAC -CGTTGCAGCACGACGGTATAAGCCCCTGGACTCCAGTTCTTCCGCCTGGCGGGTCAGGCACAAAATCACCCGCGGGTCGT -TAGTGCCGACATAGAAATTGCGCACAGGTCTGGTTTCACGAACTGGTTGTGGTTCCGGATCCTGCGCTCTCTCAGTCAGG -CGCGGGAAATGTCTGTGTGTATCTCCTTCACAACGGTGAGCCACACGCCCACTCTGACGTAACTTGCTTGCTGACTGCAG -AACGCGCTGCCGTGAGTAACCTGCAAAAGCATCCGCAATGTCTCCGGAAGTACAGCCCGGATGGGCTTCAATGAATTTCT -GAACGTCATTCAAAAGACTCATGCTCACCCCCTGAATCCTGCCGGGATCTGGCTGTAGTCCACATTGTCGTAACTGGCTT -TGAAGTACGGGTCTTCGCGTTTTTCTGTGTACGTGCTGACGGACGGCGATAAGCGCAGGGAAAGCTCATCCCATTTTTCC -CGCAGCTTCGACGGGCTGAGCACGTTACGGCACCAGAACGGATCGCGGCTGACGCGGCTGTACATCTCGCAGATTTGTTT -GTGAGTACGACCATCCTGCACACACATCAGGCGAATTTCGTTTGCCCAGGCTGTCCAGTTCGGTTCTTTGGGACGAACCA -CCTCGCCGTCACATTCGGCGGCCTGCTCGTACAGGGCGATGATTTTTTTCCAGAGCCACTGTGCGCAGGTCAAATCATCC -TGCGTTCCCCACTGGCGCTTTTTAGGGCTGAATACAACCGCATCAGGATGGCGAGTTAAAAAATCCTGTTCATCCGTCTG -CGTGTCCGGTTGCGAAGCGTCCGGACGAGAAGGTTTTTTATCTGACGGATCATGTTTTGATTTTACTGACGGATCCCCGC -CAGATTCTGACGGGTGAAAACCCGATTTTTTGCCAGATTTCGACGCATCAAATTTTGACGGGTCAGATTTTGATGCGTCA -GATTTTGACGGGTCAGAGTCTGACAGTTGAGAAAATGCCGCTGCCTGAAGCTTCGCAACGTTAAGCTGATAAACATTCGA -CGCATTGCGGTTATGATGAGGAGCAGCAAAATGGCTAGCGAACGCAGTACTGATGTGCAGGCATTTATCGGGGAGCTGGA -CGGCGGCGTATTTGAAACCAAAATCGGCGCAGTTCTCAGTGAAGTCGCTTCCGGTGTGATGAACACGAAAACCAAAGGTA -AGGTCTCACTCAACCTGGAAATCGAACCATTTGATGAGAACCGTCTGAAAATCAAACACAAACTCTCATATGTTCGCCCG -ACTAACCGTGGGAAAATTTCCGAAGAAGACACCACCGAAACGCCGATGTATGTCAATCGCGGTGGTCGCCTGACTATTCT -GCAGGAAGACCAGGGACAATTACTGACTCTTGCCGGTGAGCCTGACGGAAAACTCCGCGCAGCAGGTCATTAATATCATT -CTTAATTAACTAATTATTTATCTCATCACTGAATATCTTAATATAGTGAGGACTTATTATGTCTCAGAACTTAGACGCAA -CCGCAATTAATCAAATCCATGCCCTTATTTCTGCTCAGGGTGTTAATGAAATTATCAGTAAGATTGGTGCCGATGCTGTG -GCATTGCCTGAGAATTTCCGCATTCATGATCTGGAAAAATTTAATTTAAATCGCTTCCGTTTCCGTGGTGCGCTTTCCAC -TGCCAGCATCGATGACTTTACCCGTTATTCTAAAGATCTTGCAGATGAAGGCACCCGCTGCTTTATCGATGCTGATAATA -TGCGTGCCGTCAGTGTGCTTAACCTGGGTACTATTGATGAACCAGGTCACGCAGATAACACCGCCACTCTCAAACTGAAA -AAGACAGCACCGTTCTCTGCCCTGTTGTCTGTTAACGGCGAGCGTAACTCCCAGAAATCACTGGCAGAATGGATTGAAGA -CTGGGCCGACTACCTTGTGGGCTTTGATGCTAATGGTGACGCCATTCAGGCAACAAAAGCGGCTGCGGCAATCCGTAAAA -TCACGATTGAAGCAAACCAGACCGCTGATTTTGAAGATAATGACTTCAGCGGCAAACGCTCCCTGATGGAATCTGTCGAA -GCGAAGACCAAAGACATTATGCCAGTGGCATTTGAATTTAAATGCGTTCCGTTTGAAGGTCTGAAAGAACGTCCGTTTAA -ATTACGCCTCAGCATTATCACTGGCGATCGTCCTGTACTGGTTCTGCGCATTATTCAGCTGGAAGCGGTGCAGGAAGATA -TGGCTAACGAATTTCGTGATCTGCTTGTTGAGAAATTCAAAGACAGCAAAGTAGAAACCTTTATTGGTACTTTCACCGCC -TGATTTCATTACTGCAAATGCCCCTGCGGGGGCATTTATGGAAACGTAATTAACTCAATAATCACCGGATGGTGAGGGCT -TCCTTTTACCCAAACTCAGCGCGGTGCAGCGCATATACGTGGAGAACAAAATGTCATTTATTAAAACTTTTTCCGGGAAG -CATTTTTATTATGACAAGATAAATAAAGACGACATCGTGATTAACGATATCGCGGTTTCCCTTTCAAATATCTGCCGCTT -TGCCGGTCATCTTTCTCACTTCTACAGTGTCGCCCAACATGCGGTGCTTTGCAGCCAGCTGGTGCCGCAGGAATTTGCTT -TTGAAGCATTAATGCATGATGCAACAGAAGCGTATTGCCAGGACATCCCCGCACCACTGAAACGCCTTCTTCCTGACTAT -AAACGGATGGAAGAAAAAATAGATGCAGTAATCCGTGAGAAATACGGGTTACCTCCTGTTATGAGCACGCCAGTGAAATA -TGCCGATCTCATTATGCTGGCAACCGAACGCCGTGATCTCGGGCTTGATGATGGCTCTTTCTGGCCTGTACTGGAAGGCA -TCCCGGCAACAGAGATGTTCAACGTGATTCCACTGGCACCGGGTCATGCCTACGGGATGTTTATGGAACGTTTTAACGAT -TTATCGGAGTTACGCAAATGCGCATGAATGTTTTCGAAATGGAAGGGTTTCTTCGCGGGAAATGTGTACCGCGAGATCTG -AAAGTGAACGAAACAAATGCTGAGTACCTGGTACGTAAATTCGACGCGCTTGAAGCTAAATGTGCGGCACTGGAAAACAA -AATAATACCAGTGTCAGCTGAACTGCCACCAGCAAATGAAAGTGTTCTGTTATTTGATGCTAACGGAGAAGGCTGGCTGA -TTGGCTGGCGTTCTCTCTGGTACACCTGGGGACAAAAAGAAACCGGAGAATGGCAGTGGACATTTCAGGTTGGGGACCTT -GAAAACGTCAATATCACTCACTGGGCAGTAATGCCAAAAGCACCGGAGGCTGGAGCATAATGACCACATTTACCAATAAA -GAACTGATTAAAGAAATCAAAGAACGAATCAGCAGCCTAGAGGTTCGAGACGATATTGAGCGCCGTGCTTATGAAATCGC -ACTCGTATCTCTGGAAGTAGAGCCAGATGAACGCGAAGCCTATGAATTATTCATGGAAAAGCGTTTCGGTGACTTAGTAG -ATCGTCGGAGAGCAAAAAACGGCGATAACGAATACATGGCATGGGATATGACTCTCGGTTGGATCATCTGGCAGCAACGA -GCTGGTATCCATTTTTCAACAATGTCACAACAAGAGGTGAAATAATAGAGCCATACAGCCTCACACTCGATGAGGCCTGT -CAGTTTCTTAAAATATCCTGATCTACCATCGCCGTCATAGAGCGTATTTTTATTACCTGATTTGCAGGTTCGATTCCCTA -TTCGGAGATAGCACTCATGCAACACGAACTACAGCCTGATTCACTGGTTGATTTGAAATTCATCATGGCTGATACTGGCT -TTGGTAAAACCTTCATCTATGACCGGATTAAGTCAGGCGACCTGCCAAAAGCCAAAGTTATCCACGGGCGAGCAAGATGG -TTATATCGTGACCATTGTGAATTCAAAAATAAGCTCTTAAGCCGCGCCAATGGGTAAAATAGCGGGTAAAATATTTCTCA -CATCTAAAAAACACCATTCCAATCAATCCCCTGCTGCTTCAAGTAGATGTCTGCAGGGGACACCATCCTTGTGTTTATCC -CTAAAACCACATAAAAACCGTAAATTAAATTCGAACTAGCAGGCCGAATAAGGCACACCAGGAACTCGTGGTTTTATTCA -TTATGAAGTGGTTTTTACCTGTTCTCTTAGCCAGATAATAAACGCTTCAATTTTTGGCCACTGCCTGCCCGGTAATGTGG -TGATGTAATAATGCTGATGGCATTTCACCGTCATATCGCCAAACGGCGCGACGAGCTCACCACTGGCAAGCCTTTTTTGT -ACCAGGCGTTTTCTTCCCATCGCCACCCCAATATGATTCATCGCGGCAATAACAGCTAAATCAGAACGATCAAAGCCAAT -TCCAGAAGATGTCGGCAAATTAACCGCATAATGTTGCGCCCAACTATGCCATTCATCCGTACCGGAGTCGTTGCTCCATG -CCTGTCTGTCATGGAGCAACGTACAGTGACACAGGTTAATTACCGTGTTGGTTAAAGCATGTCTTTGAGCGTATTCCGGG -CTACATACTGGCAGGATTTCTTCATCCATCAGAAAGTGATGAGTGAGTTGCGCTGACGGCGCATCATCAAAGTAGATCGC -CAAATCGATTCCGGCACGTTGCAGATTGACGTTGTCATTACCAGTGAGCACGGTGAGCGAAATAGACGGATACCGGCGTG -TAAAGTCACCTAATGCGGGCACCAACCAGCATTGGGCGATAGAGGGCCGGGAATACAGAGTTAACGTTCCCGATAACTCC -TGATTTTTGATATCAAGAATTTCCTGGTTCAGGGTATCCAGCGACGATTTTAGCGCCCAATAAACACGTTTCCCCTCGTG -CGTTAATTCCACTTTGCGATGGGAACGAACAAACAACTGAATGCCCAATTCTTCTTCCAGCTGATTGATACGGTGACTTA -CCGCACTGGGGCTCAGCGACAATTCCTCTGCCGCCAGGGCGAAGGACTGATGCCTGGCAGCCACTTCAAAAGTATGCATT -TTTGATAATTGCCAGCCGTTAAGCAGCCGATTTCTTATTTCACGAAGGGGTTCCATAATCACCTCATTTTTCGCTTAAGT -GTAAAAAAATAGCGGCAAAATTTCAGCTATGAGATGAGCTAAAGTGAACCATATCTCAATTCACCTTCATTTTTAGATGT -AAATCACTCCATTGATGCAATTTACCTCATGTGAAAGGCAAATTTTATCGTTTGTCAGCCTGCGTTGTTTTTTTGTCCAA -TATCATCAGGTTAATCACAGGGGAAGGTGAGATATGCACTCTCAAATCTGGGTTGTGAGCACGCTGCTTATCAGCATCGT -GTTAATTGTACTGACCATCGTGAAGTTCAAATTCCACCCGTTTCTGGCGCTGTTGCTGGCCAGCTTCTTCGTGGGAACGA -TGATGGGCATGGGGCCACTGGATATGGTAAATGCTATTGAAAGTGGAATTGGCGGAACGCTGGGGTTCCTCGCAGCGGTT -ATCGGCCTTGGCACGATACTGGGAAAAATGATGGAAGTATCCGGGGCCGCAGAAAGAATTGGTCTGACACTTCAACGCTG -CCGCTGGCTTTCAGTTGATGTCATTATGGTGCTGGTTGGCCTGATTTGTGGCATCACGCTGTTTGTTGAAGTGGGCGTCG -TGCTATTGATTCCTCTGGCTTTTTCAATTGCCAAAAAAACCAATACCTCATTATTAAAGCTTGCCATTCCGCTATGTACC -GCATTGATGGCAGTGCACTGCGTGGTTCCTCCACATCCGGCTGCTTTATATGTTGCCAATAAGCTGGGCGCAGATATCGG -TTCGGTGATCGTCTACGGTTTGCTGGTTGGGCTGATGGCATCACTGATCGGTGGCCCACTTTTCCTTAAATTTCTGGGTC -AACGACTGCCCTTTAAACCTGTACCCACAGAGTTTGCAGATCTCAAAGTTCGCGATGAAAAAACACTACCGTCATTAGGC -GCAACGTTATTCACCATACTGCTACCCATTGCGCTGATGTTGGTTAAAACGATTGCCGAATTGAATATGGCGCGTGAGAG -TGGTTTGTATATCTTGGTTGAGTTTATTGGCAACCCTATCACTGCCATGTTTATCGCCGTGTTTGTCGCCTATTATGTGT -TGGGTATACGCCAGCATATGAGCATGGGGACGATGCTCACACATACGGAAAATGGCTTCGGTTCTATTGCTAATATTTTG -CTGATTATCGGGGCCGGAGGCGCATTCAACGCCATTTTAAAAAGCAGCAGTCTCGCTGATACGCTGGCAGTTATTCTCTC -CAATATGCATATGCACCCGATTCTTCTGGCCTGGTTAGTGGCTCTTATTCTGCATGCGGCAGTGGGCTCCGCTACCGTGG -CAATGATGGGGGCAACGGCAATTGTTGCACCCATGCTGCCGCTGTATCCCGACATCAGCCCGGAAATTATTGCGATTGCT -ATCGGTTCAGGTGCAATTGGCTGCACTATCGTTACGGACTCGCTTTTCTGGCTAGTGAAGCAATATTGCGGCGCTACGCT -CAATGAAACATTTAAATACTATACGACAGCGACATTTATCGCTTCAGTCGTCGCTCTGGCGGGCACATTCCTGCTGTCAT -TTATCATCTAAGCGCAAAGAGACGTACTATGGAAAACGCTAAAATGAACTCGCTCATCGCCCAGTATCCGTTGGTAAAGG -ATCTGGTTGCTCTTAAAGAAACCACCTGGTTTAATCCTGGCACGACCTCATTGGCTGAAGGTTTACCTTATGTTGGCCTG -ACCGAACAGGATGTTCAGGACGCCCATGCGCGCTTATCCCGTTTTGCACCCTATCTGGCAAAAGCATTTCCTGAAACTGC -TGCCACTGGGGGGATTATTGAATCAGAACTGGTTGCCATTCCAGCTATGCAAAAACGGCTGGAAAAAGAATATCAGCAAC -CGATCAGCGGGCAACTGTTACTGAAAAAAGATAGCCATTTGCCCATTTCCGGCTCCATAAAAGCACGCGGCGGGATTTAT -GAAGTCCTGGCACACGCAGAAAAACTGGCTCTGGAAGCGGGGTTGCTGACGCTTGATGATGACTACAGCAAACTGCTTTC -TCCGGAGTTTAAACAGTTCTTTAGCCAATACAGCATTGCTGTGGGCTCAACCGGAAATCTGGGGTTATCAATCGGCATTA -TGAGCGCCCGCATTGGCTTTAAGGTGACAGTTCATATGTCTGCTGATGCCCGGGCATGGAAAAAAGCGAAACTGCGCAGC -CATGGCGTTACGGTCGTGGAATATGAGCAAGATTATGGTGTTGCCGTCGAGGAAGGACGTAAAGCAGCGCAGTCTGACCC -GAACTGTTTCTTTATTGATGACGAAAATTCCCGCACGTTGTTCCTTGGGTATTCCGTCGCTGGCCAGCGTCTTAAAGCGC -AATTTGCCCAGCAAGGCCGTATCGTCGATGCTGATAACCCTCTGTTTGTCTATCTGCCGTGTGGTGTTGGCGGTGGTCCT -GGTGGCGTCGCATTCGGGCTTAAACTGGCGTTTGGCGATCATGTTCACTGCTTTTTTGCCGAACCAACGCACTCCCCTTG -TATGTTGTTAGGCGTCCATACAGGATTACACGATCAGATTTCTGTTCAGGATATTGGTATCGACAACCTTACCGCAGCGG -ATGGCCTTGCAGTTGGTCGCGCATCAGGCTTTGTCGGGCGGGCAATGGAGCGTCTGCTGGATGGCTTCTATACCCTTAGC -GATCAAACCATGTATGACATGCTTGGCTGGCTGGCGCAGGAAGAAGGTATTCGTCTTGAACCTTCGGCACTGGCGGGTAT -GGCCGGACCTCAGCGCGTGTGTGCATCAGTAAGTTACCAACAGATGCACGGTTTCAGCGCAGAACAACTGCGTAATACCA -CTCATCTGGTGTGGGCGACGGGAGGTGGAATGGTGCCGGAAGAAGAGATGAATCAATATCTGGCAAAAGGCCGTTAATAA -CGTTTCAACGCAGCATCGCAATCCTTTCCCTGGGTGAGCGATGCTGCCGATGGCGCAGACTTAAGATCCCCGGTCTTACC -CGCTATAACCCCCTCCTTTTATCATCACCCAACGCCTTTCGCTGTAAACGGCGGTTTCGCAAACCAAACCAAAACCGTAA -GTAAGATAAAAGCAATAGCCGCCATACGGAAAATCTCATTTGCAGAAATAGAAAGTGACTGCTGGGTTATTTCATTATTA -ATTTCATTAAGAACTCCTGAAAGCGAACCATAATATTTATCCATAATTTGTGACGATGAATTAAACACGGGGTTAAATTG -ATCGATGGTTGCTGTCAACTGACTATGGTGTAACGATTCGCGTCGTCCCCACAGCGTCATTGTCAACGACGTACCAACTG -ATCCTGACAAGGTACGAAAAAAATTACTCATACTCGAGGCATTGGCAAATTTATTATCTGGCAAGCCTGAAAACGAAATC -GTTGTTAAGGGTAAAAAGAAACAGGCAACGGCGAATCCCTGAAAAAACTGCGGCAAAATGATGCCTGTAAAATCAATCGT -TGGCATAAATGTCACAGAACGCCAGTAATAGCAAACCGCATACATCAAAAAACTAAATGTCACTAACAACCGCATGTCTA -TTTTGTTGCCATAACGTCCTATCAAAGGTGAAATTAATAGTGGCATGATGCCGATGGGCGCATAAGCAAGTCCGGCCCAT -ATCGCATTATACCCCATCGTTTCCTGGAGTAACTGCGGCATAAGGACGATCGCTCCAGAGTAAAATAAATACGCGCATGT -GATACTCACAATACCAATGGTGAAGTTACGGGACTTAAACAAACTGAGATCAAGAATCGGGTTCTCTGAGGTCGACTCCC -AAATGACTAAAGAGATCAGAGAAATAACTGATACTACTGTTAATATTATTATTGTACTCGAGTTGAACCAATCCAGATCG -CGCCCTTTATCAAGCATAATTTGCAAGCCACCAACACCGAGCACTAACAGGGTCAGTCCTGGTAGATTCATTTTGACCGG -TGAAGTCTCAGTTTCTCTTCCTTTAAGTAAGGTTAAGCATAATGTCAGGACGATAATCCCCATAGGGACATTGATTAAAA -ATATCCAACCCCAGCTAAAGTTATCACAAATATAACCGCCCAATATCGGCCCACATATCGGAGCGATAATCACGGTCATT -GACCATAATGCCAGAGCAAATGTTCTTTTTTCTGGCGGATAATTCCTTAATAATAAACTCTGTGACAGTGGAATTAACGG -CCCCGCCATTAACCCCTGAACGACTCTAAAAAATATCAGCACATCAAGATTGGTCGATAGGCTACACATTAATGAAGACA -GCGAAAAAAAAGTGACTGAAAGTAAAAATAATCTTAATTCGCCTATTCTTTGTGCCAACCTGCCAGTAACAGGGATCGCA -ATGGCATTTGCTACACCAAACGAGGTGATAACCCAGGTGCCTTCGTCTGTTGATGCTCCCAGAAAGCCAGATATTGTCGG -TATTGCGACGTTAGAAATAGTGGAATCCAACATTTGCATAAATGTCGCTAATGACAATGCAATAGTGACGCACCATAACG -TCCCACCGGTTAATGGTGCCGGAGTTGATTTAGTGATTGCCATTAAAGTTGTCCATTATGCGAAATAATGTTGCTAATTT -CTTTTTCTATCGGACTGGTATCGATAACTAAAGCCTTACTGGTATAAGCCGGCATGGAGGTCACGGTTGAAGCCAGCTCA -GGCATCTCGGCAATGTCTTCGTTCTTCGTATCAATAGTTGCTGTCATCGATAAACCAATACGCAAGGGGTGTTCCATGAG -TTCTTTTGGATCAAGAGAAACTTCAACCGGTACACGCTGAACGATTTTGATCCAGTTCCCTGTCGCATTTTGTGCAGGTA -ATAAGGAGAACGCATTGCCGGTTCCCATATTGATCCCTGTCACCCGACCATGAAACACAACATTTTCACCATAAAGATCG -CTGATAATATTGACCGATTGACCAATCCGTACATCCGTGAGTTGTGTTTCTTTAAAGTTGGCATTAACCCACATTTGACG -TGCCGGTACGACAGCCATTAACGATTGTCCGGGGCTCACTGTTTCGCCGACCTGAACACTTCTCTGGGCAATATAGCCGG -TAACCGGACTCTTAATATCCGTACGTTTAAGCGCCAACCAGGCTTCTTTAGTTGCATCCGCCGCTTCAACGACTTGTGGC -TGACGGTTTAATGGTGTGTTCATTACTAAAGCTTTATTCGCTTTATAAGCCTGGATAGCGGCATTCAATGCCGCTTTGCT -ACTTATTAACGTATCTTTGGTATGCTCCAGCGTTTCTTTTGAAATAACCCCCTGCTTCGCTAACGGCACTCGACGGTTAT -AATCTTCTAAAGATTGTTGATACTGAATACGTGCTGAAGCGACTTCGGCACTGTATTGTTTATCCTGTAAGTATAGTTTA -TTCGTTTGCCGAACAATATTTGCCAGATTATTTTTAGCTTTATTGAGTGCGATAGTGGCATCAGTTTTATCCAGTGAAAC -TAAAATGTCACCTTGTCGAACGTAGTTCGTATCTTTATGATTAACGACAGTGACACTACCTGAGACTTGTGCAGAAATTG -GATCTGCATTCCCCGTGACATAGGCGTCATCTGTACTAATCATGTCTTCTAATTCCATTGACCAATAGGCATAGGCACCT -GAAAACGCAATAAATAAAACTACCGCCAATAAAGAAAAGTATTTTCTTCTGTTAGAATGTTTTTTATTTGAATTAATCTG -TTCCACTATTATCTCTCATTTCTCATAGATGAAATTTATGAATTGAATGAAAAGAGCATTCATTCTTCATATCAAACACA -GTGCATGTGTTGCACATTATCCCAGGAACGTTGGAGGCCTAATTTAAATGAGGTGCAAAAAAAACAACAGAGGACTAAAC -CGTGGCTTTTGCAATACAATTCTTACGCCTGTAGGATTAGTAAGAAGACTTATAGTGCCAACTTGAAACTATAAATCATC -GGTACAATCCCTGATTTTATTGTTGACATTTCATTTATGCCGACTATTTATATGGTATACTTGTCGAATTATCTTAAAGG -AAGCTCAGATTTTCTTATTTTTATTGAGAAAATGAGATGACGCCTTATGTCTGTATTACTACAGGGAGAAGGGAGATGCT -TCATTGCAAAGGGAATAATCTATGAACGCAATAATTATTGATGACCATCCTCTTGCTATCGCAGCAATTCGTAATTTATT -GATCAAAAACGATATTGAAATCTTAGCAGAGTTGACTGAAGGCGGAAGTGCCGTTCAGCGGGTGGAAACACTTAAGCCTG -ATATCGTCATCATTGATGTCGATATCCCCGGAGTTAACGGTATCCAGGTGTTAGAAACGCTGAGGAAGCGCCAATATAGC -GGAATTATTATTATCGTCTCCGCTAAAAATGACCATTTTTACGGGAAACATTGTGCTGATGCTGGCGCTAATGGTTTCGT -GAGTAAAAAAGAAGGCATGAACAATATCATTGCGGCTATTGAAGCTGCAAAAAATGGCTACTGCTATTTCCCCTTCTCTC -TCAACCGGTTTGTTGGAAGTTTAACGTCCGACCAGCAAAAACTCGACTCCTTATCGAAACAAGAAATTAGTGTCATGCGG -TATATTCTTGATGGCAAGGATAATAATGACATTGCTGAAAAAATGTTCATCAGCAACAAAACTGTCAGCACTTATAAAAG -TCGCCTGATGGAAAAATTAGAATGTAAATCACTGATGGATCTTTACACATTCGCACAACGTAACAAAATCGGCTAACCAC -ATGAAGTTTTTACCCTATATTTTTCTTCTCTGTTGTGGTCTTTGGTCGACCATAAGTTTCGCAGACGAAGATTACATCGA -ATATCGTGGCATCAGTAGTAACAACCGTGTCACACTTGATCCACTACGTCTGAGCAACAAGGAATTACGTTGGTTAGCGA -GCAAAAAAAATCTTGTGATTGCAGTACATAAGTCCCAAACGGCTACGTTGTTGCATACCGATTCGCAGCAACGGGTTCGT -GGTATTAATGCTGATTATTTAAATCTTTTAAAAAGAGCGTTAAATATCAAATTAACACTCCGGGAATACGCAGATCATCA -AAAAGCAATGGACGCGCTTGCAGAAGGTGAAGTCGATATAGTGTTATCACATTTAGTTACTTCGCCGCCTCTTAATAATG -ACATTGCTGCAACCAAACCATTGATAATTACCTTTCCGGCGCTGGTAACCACCTTTCACGACTCAATGCGACCGCTTACC -TCACCAAAACCAGTAAATATTGCTCGGGTAGCAAATTACCCCCCAGACGAGGTAATTCATCAATCATTTCCAAAAGCAAC -AATTATCTCTTTTACAAATTTATATCAGGCATTAGCATCCGTCTCAGCTGGGCACAATGATTACTTTATTGGTAGTAACA -TCATTACCAGCAGTATGATTTCCCGCTATTTCACTCACTCCTTAAATGTAGTGAAATATTATAACTCGCCGCGTCAATAT -AATTTTTTCTTGACCAGAAAAGAATCTGTCATTCTTAATGAAGTACTCAATAGATTTGTTGATGCTTTAACAAATGAAGT -TCGCTATGAAGTATCACAAAATTGGCTTGATACAGGAAACCTGGCCTTTCTGAACAAACCATTAGAACTCACTGAACATG -AAAAACAGTGGATTAAGCAGCATCCCAATTTAAAGGTGCTGGAAAATCCTTACTCGCCCCCCTATTCTATGACGGATGAA -AATGGCTCGGTTCGGGGCGTTATGGGGGACATTCTTAATATTATTACCTTGCAAACAGGTTTAAATTTTTCTCCGATCAC -CGTTTCACACAATATCCATGCTGGAACACAGCTTAGCCCCGGAGGATGGGATATAATACCTGGCGCTATTTATAGTGAAG -ATCGAGAAAATAATGTTTTATTTGCTGAAGCCTTCATAACAACGCCTTACGTTTTTGTCATGCAAAAAGCGCCTGACAGT -GAACAAACATTAAAAAAAGGAATGAAAGTTGCCATTCCATATTATTATGAGCTGCATTCGCAATTAAAAGAGATGTATCC -GGAGGTTGAATGGATACAGGTCGATAATGCCAGCGCTGCATTTCACAAGGTTAAGGAAGGTGAACTTGATGCTCTGGTCG -CGACACAGCTAAATTCGCGTTACATGATCGATCATTACTATCCTAATGAACTTTATCATTTTCTTATTCCTGGCGTTCCG -AATGCATCGCTTTCGTTCGCTTTTCCTCGCGGAGAACCGGAACTTAAGGATATTATTAATAAAGCACTGAATGCAATTCC -CCCAAGCGAAGTTCTGCGCCTGACGGAAAAATGGATTAAAATGCCCAATGTGACCATTGACACATGGGACCTATATAGCG -AGCAATTTTATATTGTTACGACATTATCCGTTTTATTAGTTGGCAGTAGCCTTTTATGGGGATTCTACCTGTTACGCTCA -GTTCGTCGTCGTAAAGTCATTCAGGGTGATTTAGAAAACCAAATATCATTCCGAAAAGCACTCTCGGATTCCTTACCGAA -TCCAACTTATGTTGTAAACTGGCAAGGTAATGTCATTAGTCATAATAGTGCTTTTGAACATTATTTCACTGCGGATTACT -ACAAAAATGCAATGTTACCATTAGAAAACAGTGACTCACCCTTTAAAGATGTTTTTTCTAATGCGCATGAAGTCACAGCA -GAAACGAAAGAAAATCGAACAATATACACACAGGTATTTGAAATTGATAATGGCATCGAGAAAAGATGCATTAATCACTG -GCATACATTATGCAATCTTCCTGCAAGTGACAATGCAGTATATATTTGTGGTTGGCAAGATATTACTGAAACGCGTGATC -TAATTAATGCACTCGAGGTAGAAAAAAATAAAGCGATAAAGGCTACCGTAGCAAAAAGTCAGTTTCTGGCAACGATGAGT -CACGAAATAAGAACACCAATAAGCTCTATTATGGGCTTCCTGGAACTTCTGTCGGGTTCTGGTCTTAGCAAGGAGCAACG -GGTGGAGGCGATTTCACTTGCCTACGCCACCGGACAATCACTCCTCGGCTTAATTGGTGAAATCCTTGATGTCGACAAAA -TTGAATCGGGTAACTATCAACTTCAACCACAATGGGTCGATATCCCTACTTTAGTCCAGAACACTTGTCACTCTTTCGGT -GCGATTGCTGCAAGCAAATCGATCGCATTAAGTTGCAGCAGTACGTTTCCTGAACATTACCTGGTTAAGATCGACCCTCA -GGCGTTTAAGCAGGTCTTATCAAATTTACTGAGTAATGCTCTCAAATTTACCACCGAGGGGGCAGTAAAAATTACGACCT -CCCTGGGTCACATTGATGACAACCACGCTGTTATCAAAATGACGATTATGGATTCTGGAAGTGGATTATCGCAGGAAGAA -CAACAACAACTGTTTAAACGCTACAGCCAAACAAGTGCAGGTCGTCAGCAAACAGGTTCTGGTTTAGGCTTAATGATCTG -CAAAGAATTAATTAAAAATATGCAGGGCGATTTGTCATTAGAAAGTCATCCAGGCATAGGAACAACATTTACGATCACAA -TCCCGGTAGAAATTAGCCAGCAAGTGGCGACTGTCGAGGCAAAAGCAGAACAACCCATCACACTACCTGAAAAGTTGAGC -ATATTAATCGCGGATGATCATCCGACCAACAGGCTATTACTCAAACGCCAGCTAAATCTATTAGGATATGATGTTGATGA -AGCCACTGATGGTGTGCAAGCGCTACACAAAGTCAGTATGCAACATTATGATCTGCTTATTACTGACGTTAATATGCCGA -ATATGGATGGTTTTGAGTTGACTCGCAAACTCCGTGAGCAAAATTCTTCCTTACCCATCTGGGGGCTTACAGCCAACGCA -CAGGCTAACGAACGTGAAAAAGGGTTAAGTTGCGGCATGAACTTATGTTTGTTCAAACCGTTGACCCTGGATGTACTGAA -AACACATTTAAGTCAGTTACACCAAGTTGCGCATATTGCACCTCAGTATCGCCACCTTGATATCGAAGCCCTGAAAAATA -ATACGGCGAACGATCTACAACTGATGCAGGAGATTCTCATGACTTTCCAGCATGAAACGCATAAAGATCTACCCGCTGCG -TTTCAAGCACTAGAAGCTGGCGATAACAGAACTTTCCATCAGTGTATTCATCGCATCCACGGTGCGGCTAACATCCTGAA -TTTGCAAAAGTTGATTAATATTAGCCATCAGTTAGAAATAACACCTGTTTCAGATGACAGTAAGCCTGAAATTCTTCAGT -TGCTGAACTCTGTAAAAGAACACATTGCAGAGCTGGACCAGGAGATTGCTGTTTTCTGTCAGAAAAATGACTAAATAGCG -GCTCCCACAATGTTCAAATGTGGGAGCTATTTACCAGCACATCTTACATTTATGATGAGAACTCCTGGCGAATTTGTTCC -CCATGCTGGTCGAGCGTTGCCGCTCCCGGCATAACATGCGGGTCCGCGCAGCCGCTGATTTTTATCGGATTACCCGGCAT -CATTATTCCCCCGGCTTCAATCAACATATTTCTCGCCTGAGTTTGTGGCAATTTAATGGCCTCAGCCACACTTAATAACG -GCGCGACGGGTACACCAACTTCATGTATTCTGGCTAACCAAACTTCAGCTGCCTGCGTTTTTAACGTCCGCTCAATATAT -TGTTTAAGAATAGCCTGGTTTTGTACGCGTAAAATATTGCTGCTAAATCGGGGATCATTAACCAGTTCCGTAAGCTCCAG -TGCCTGGCATAACGCAGAAAAAAGCTTGTCATTACCACAACAAATCGTAATCGGCTTATCCTGAGTATTGAAAACATCAA -AAGGTGCCATGTAGGGATGGCGATTTCCCAGACGTTGTGGTGACTTCCCAGTTGCGATATATGCCATCAGACCATGCTCC -AGAAAACTCAGCGTGGCATCAAACATCGCTATATCGACATGCGCCCCTCTCTGGCTCTTTTCGCGGCCATAAAGTGCACT -CACTATTCCGCTGAATAAATAGACACCGCCGCATAGATCCGCAAGAGATGTACCAACGCGCACTGGCGGAGCATCAGGAT -ATCCTGTTTCCATCATTATCCCGCTCATTGCCTGAATGATGGTATCGTAGGCAGGAGCATCTTTTAGCGGACCGGTATGT -CCGAAACCTGACGATGAAGCATATATGAGGCGCGGGTTGATTTCTTGAAGCGTTTCCCATGAAAACCCCAGTTTTTCCAT -TGTACCTGGGCGAAAATTCTCAGCTAATACATCAGCTTGTTTGAGCATATTTATAAATATACTTTTATCGTGATCATTCT -TTAAATCAAGAACCACACTCTCTTTGCCATGATTAATAAAACTGTAATAGAGTGACTGTCCATCCACATAGGGACCAAAT -GTGCGGGTATCATCACCATGACCCGGCGGCTCAACTTTAATTACCCTTGCGCCCATATTACAAAGAAGTTGAGTTCCGAA -AGGTCCATTAAGGACATGTGTCATATCGATAACTAATAAGCCTTCAAACGGCCCTTTGCTTTCATTATTTGTCATTTGCT -TATGCCTTGAAAAAAGCCGAAGGTGAAAAGACACTTCGGCATTTATGTAAAATCAATAACATGATTAATTATGAAACCAG -TCGACTGACATAAATCCACAAGGGAGCCGTGACGACAAAGCCCAGTACGCTCACAGCCAATGACGCTGTACCAGTACGGG -TGTAGACATTAAACCGGCTGGCAATAATGATTCCGGAGAATGCCGGCGGTAATGCGCCTGCCAGTACCATCATCTGCAGA -TGTTCGCTGTTCAAATGACATGCCATACCAACGAGAAGCAGTGCCAGTGGCATCAGAATCAGCTTCAGGAAGGTGTTATA -AGCAATTTCGGCACTGAACTCGAATTTATGTGCAGCCAGAGTCAACCCCGCAGCGAATACCGCTACCCCTGAGTTAGCCT -TCGCAATCAGATTAAAGGTTGGGTCCCATGCTGCCGGAATTTTTACCCCAACCAACACCAGGATCGTTGCCAGAACAGGT -GCCCATACTACTGGCTCCTTTGCCGCAGAAATTAATGCGCTCAGATTACTATTCTTCTTACCATCCGCTCCTGAAGAAGG -ATTCAGCAAATACAGACCAATAGGAATAGTAATTGCGTTAACAATAATAGAAATAATTGCTACCACTAAACCTGTTGATA -CGGAATCACCATAAATAGGATCGAGAACTGCAAACCCCAGGAATCCAATGGTAGGTGAACCTGCAATTAATGCACATACA -GCTGCTTCTGCATGGGTACGTTTAAAAAATTTGTAGCAACCGAACCAGGAGAAAAAGAAACATCCGACAATAACCACAAG -TGATACAAGGGTCAGACGAGTGTCCGCAAAAATCATTTCCCTGTTTGCCCGAGTAATAGATACAAATAGAGCCGCAGGAA -GCGCGTAGTTTAATACCAGTTTATTAAATGCCCGAGCTTGATCTTCTGAAAATGTTTCTCGTCTGCCGCTAAAATAACCC -AACAGCATGATTACGATAATAGGCAATAAATCGCCAATAAAAAATGTTAGCATAATAGTATTTCCGATAAGGGTCCCCTC -ACCATCGCATAATGAGTTGGCAAGAGGAGACGATGTCAGTATTTAATTACCAGCGACTTGTTTTGGGTTAAGTTTGGTAA -TATGGCCACTTTCAGTTCCTGCTGCAGGGTCGATGACCACATTAATAATGGTCGGTTTGCGCGACTGAATACCGGTGGTT -AAAGCATGACGAAGTTCATCTGTCGTGGTGACGTTATAGCCAACGCCACGAAACGCATCCATTAATTTGTCATACCTTGC -ATGGTGCAACAGATCCGTTGGTGATGGTGCACCAGCGCCACTGAGATCAACACCGTCTCCTCTGTAGATGCCGCCATTAT -TAAAAATAACGATCGTCACCGGCAGGTTATATCGACAAATCGTTTCAATTTCCATCCCACTGAAACCAAAAGCACTATCA -CCTTCAATGGCGACAACCGGAGAACCAGAAGTCACGCTAGCACCGATGGCATAGCCCATACCGATGCCCATGACACCCCA -GGTACCACAATCCAGACGACGACGTGGTTTATACATATCAATAATATTTCGTGCATTATCCAGGGTATTTGCACCTTCAT -TAACTAAATAAATATCCTGGTTCTCGCGCAATACGTCGCGCACAGCACTTAATGCATTAAAGTAATTTAATGGTTGAGTA -TCTGTACTTAATTTTTCATGCATTTTTTGTGCATTTTGCTGCTTGTGGATATTTAAAATATCGCGCCATACCAGTGGAGT -CGTAAATGTGTTTTGTTTCAGTTCTGCCAGCATACCTTGCATACTGGATGCAATATCACCAACGACTGGCACAGCAATGG -GGCGGTTGCTGTCAATTTCCTGCGGTTCAATATCCAGTTGAATAAACTGTGTATCTGCCGCCCATCCTTTTTTACCGTGT -GCCAATAACCAATTCAGTCGTGCACCAACAAGCATGACAACGTCAGCATTTGCCAGGGCAAACGAACGCGCAGCTGCCGC -AGAAAGTGGATGCGTATCTTCAAGGATCCCTTTCGCCATAGACATTGGCAGGAATGGAATCTGAGCACTTTCAATAAATT -CACGAAGCTGTTCATCAGCTTGTGAATACGCCGCGCCTTTGCCAAGGATAATTAATGGCCGTTCAGCTTTTGCTAAAAGC -GAAATTGCGCTAGTGACTGACTTCGGGCATGGCAATAATGCTGGCGACGGATTTTCAACTTTAACAATCGTGGTTAACGC -TTCGTCTTTTTCCATCGTCGCGGCCAGGACATTTGCTGGCAAATCAAGATAAACTCCGCCAGGGCGACCCGATACAGAGA -CCCGGATAGCGCGTGCCAATGCAATGCCAAGATCCTGCGGCTGATTAACGCGAAATGCTGCTTTGGCATACGGTTTTGCC -GCATTCATTTGGTCCAGCTCTTCATAATCACCTTGCTGTAGGTCGACGATCGCGCGGTCGCTGGAGCCGCTAATCATGAT -CATCGGAAAACCATTTACCGTTGCGTTGGCCAATGCGGTCAAACCATTGAGGAATCCTGGCGCAGAAACTGTCAGGCAGA -TCCCCGGTTTTTGGGTAAGAAAACCGCTTGCCGCAGCGGCATAGCCTGCCGACTGCTCATGACGAAAACCAATATAACGA -ATGCCTTCCGCCTGGGCATGGCGTGCCATATCCGTCACAGGAATACCTACAACACCATAAATAGTGTCAATATTATTCTG -TTTTAATGCTTCAACGATGATATGCATACCATCTGTCATTTGAAGTTGATCTGACATGATTAATAACCTCGAAATTTTTA -TAAATTGGGAGCCAGAAGCCCCCGTTAATATCAGATGGCGTGGTTTTGCTTCATTGCAGCAATTTCATCGTCGCTATAAC -CCAGCTCCTGCAATACAGCAGCGGTATGTTCACCTAATAGCGGCGCAGCTTTAATATCCGGCGTAAAGGCAGAGAATTTC -ATTGGACAACCAACGGTCAGATATTTTCCACGCAACGGTTGTTCCACTTCAACAACACTGCCACTTTGGCGCAAAGAGGG -ATCAAGTGAAATTTCTTTCATACTTAAAACCGGTGCACAAGGAATATCAAACTGAGTCAAATAGGCCACCGCTTCATGTT -TATCAATAGTGACAGTGTATTTTTCGATTTCAGCAAAAATATCGAAAATATGTGGCTGTCGTGCATGGGCTGTACTGTAT -GCCGGATCGGTAATCCATTCTGGTTTGCCGATGGCTTTACAGGTGTTTTCCCAGTTTTGCTCCTGAATAGTGAAATAAAT -ATAGGCGTTAGGATCGGTTTCCCAGCCTTTACATTTCAGGATCCAGCCAGGCTGACCGCCACCACCTGCATTACCACCGC -GGGGAACTGCATCACCAAATGTACCATTCGGATACTGCGGGTATTCTTCCAGATAACCCAATTTATCGAGACGCTGCTGG -TCACGTAATTTCACGCGGCAAAGGTTCAATACGGCATCCTGCATTGACATGGTGACTCGTTGCCCACGCCCCGTTTTTTC -GCGATGCAGCAAAGCAGCAAGTAAACCGATCAGCAAATGCATTCCGGTGTTGCTGTCACCCAACGCTGCAGCGCTTACCA -GCGGCGGACCATCCCAAAAACCCGTAGTGGATGCCGCGCCACCCGCTGCCTGAGCAACGTTTTCATAGGCTTTTACATTC -ACATAAGGCGAACACTCATCAAACCCTTTGATCGAACCAAAAATCAGACGTGGATTGATTTCTTGAATATGCTCCCAGGT -GAAGCCCATGTGATCAATGGCCCCTGGATGAAAGTTCTCGACTAAGATATCAGCTTCGCGGATCAGCTTTTCCATTACCT -CTTTGCCTTCCGCTGTTTTGGTATTTAACTCAATAGAACGTTTGTTACTGTTAAGCATGGTGAAGTAAAGCGCATCGATA -TCAGGAATATCTCGCAGCTGGTGACGCGTTACGTCACCAACGCCGGGACGTTCAATTTTAATAACGTCAGCGCCAAACCA -GGCCAGCATTTGAGTACAAGATGGGCCAGATTGCACACCGGTGAAATCGAGAACTTTAATTCCTTGAAGTGGAGTTGACA -TAGCAATACCTATTAGTTAATTAAATATGTGTTAATTTAGCGTTTATTTAAGGCGTAATATCTTCTATAAATAACCCGCA -AAATATCGTCGTAGCTGCACTCGATATTTTTAAAATCCTGTATCAAGTGCTGAAAATCATTTCATCGCCACTTCCAATTC -CTTTCTGCATGGTAAGTAGTGAGGACGAAAAGAAGAATATGATAAATATTGATTCGTGGTAATCAGAGAGAGTCGCGACA -TTTGTGATGTTATTCTTACAACTGTAAGAAGCGCCGGTGATTTACAAGCAAGGGTATGATTACGCTTTTTAAAGCGTACC -ATAAAACATAACATAATAAATGATTTGTGATGACACGGGATTATTGCGGTTTACTTTGAGGAATATAAAATGCGAGTTTA -TAGCACCGCGAGCGCCAAATAATTTTATGACCACAACCTGTCGTATTGTGGTCATAAAAAATTGTCGGCTGGAGGGAGTT -AAATCCTTTACCTCAATATACTGCCTGTCAGCATTAGTTCACAAACAGTGCTTCGCTATCGACGATGATTCCATCTTCCG -CACCTTTAAGCGCCAGGTTTGCCTCGTAGTATTGCTTTTTATCAAGCAGTTTCTGCGCATCAGCAAGTGCATTACGAGTC -TGTTTAAGTGGCATCAGATATTGGTTTTCCATTACGCCAACACCGGCCAGGCGAAGCTCTTCCATTGCGCCCTTTTTATC -CCCTTTCGCCATTTTTTCATTGGCAATTTTTATCGCGGCTTCTTTTTCGGGAGTTGCTACATAACTCTCAGAAATTCCGA -CAGATGCATTAATGACAATATATTGGTCATCATTGAGATTGGTCTTTTTACCTGGCTTAGCGAACTTTGCCCATTCGGTA -CTGTCATCTGACAGCAAAGCGGAAGCTTCATTGGTCAGTTCTTTTGCCTTTTCTGGATCGCCATGAAACAGAGCCAGGCG -CGCTACCTGCACGTCACGCATCGCATATAAACCTTGTTCAGAGATACGCTCTGCTGCCGCTGCCGTTTTCTGGGTTTGCT -GAACTTGCTGAGTTTGCTGTTGTGCCGCTACCGGAGCATTATCAGCAGCCCATACAGTTGAAGATGCCAGAATTGCTGTG -ACCATCGTGGCCATAATTAAACGTTTCATACTTACCTCATTCTTTAACAGTTTTAGAAAACGCCGCCATCATATTGGGTG -AGCATGAAATGAGAAATCAGAGAGCAACGGTCATTTTGAAAGGGTTATCTTACAGTTGTAGTTATTATCGCAAGAAGTAT -TTTAGTCTTACAATTGTAGGAATATGCTTCCTGTCGCAGAGAACTATTCTTATATACCACAAAGAGATGTCATTTATTAT -ATCGATGTAAATACTGATTAATTAAATGTAAATACAGCCATAACATCGTAGGTTCTCAGTGAACCATTTTCAGGATAACT -TTCTATGAAAGTAAACTTAATACTTTTCAGCTTATTTTTATTGGTCTCTATTATGGCATGCAATGTTTTTGCATTTTCCA -TTTCGGGTGGTGGAAGTGAGAGGAGCTATAAAGAGACTGAAAAAACATCAGCGATGACGACCACACACTCTACAAAACTT -CAGCCATCACAGGCGATTTTGTTTAAGATGAGAGAAGATGCGCCACCATTAAACCTCACAGAAGAAATGCCGCCCCCTTT -TCCGACAAAGGCGAATTATCTTATTCATCCTGTGCGATAGCGTCTTTCACATGGCAGGTGAACAATCATGTCTGATGCTG -ATGTGAACACCTGCCCAAATGAGCCATCCTGACCCACTACCGCCTGCCATACCCCACCATAAAGCGAATCATCAAGCCAC -AAGCCGGGGCAAGAAACATAAATATCCCCGTCACTAGTTCATTACCGCCAGTTAACCACATGGTGAAGTAATAAATGAGT -GCAGCGAGGATCACCATGCCGAAGAAAGAAGAGACCGCCGATACCACGTTCAGTACCTGACCGATGTAGCCGCTTACGCA -GACAATACACAGGGCGAGAAACATCCATAAATTAATCATAGCTCAACCTCCTGCCGCGCTAAAAAACCTGTAACTTCAGT -CACTTTAATAGTAAGACAATCCTTAACCTCTGGCAATTTTTGCTAAGCATCAATGAAAACAGCATGTTAAATGCAAGACT -GTTGTGTACGGAAAAATATTTACTTTGCACGATTAATAATCAGTAGCTGAAAGCAGTCAGCGAGTGATAAAGTACAGATA -CCGCATTCATGCTCCTCGTGGTTATGTCCTGACTAGTCTTTACACTCTTTACAGGAACCATTGTCGTACATGATGGCCCA -ACCAATTGAGTGTACCGCTGTCGACATGGAATCTTCTGCGATACAACAATTCGTATCTACAGAAGGTAACTATGTTTCCA -CAATGCAAATTTTCCCGCGAGTTTCTACATCCTCGCTACTGGCTCACATGGTTTGGGCTTGGTGTACTCTGGCTTTGGGT -ACAGCTTCCTTATCCTGTTCTCTGCTTTCTCGGCACGCGTATTGGCGCAATGGCGCGACCATTCCTGAAACGTCGTGAAT -CTATCGCCCGTAAAAACCTGGAACTTTGTTTCCCGCAGCATTCTGCGGAAGAACGCGAGAAGATGATTGCCGAAAACTTT -CGTTCACTCGGCATGGCGCTGGTAGAAACCGGCATGGCATGGTTCTGGCCCGACAGTCGCGTACGTAAATGGTTTGATGT -TGAAGGGTTGGATAACCTTAAACGCGCACAAATGCAAAATCGCGGCGTAATGGTTGTCGGCGTCCATTTTATGTCGCTGG -AACTGGGCGGCCGCGTGATGGGACTGTGCCAACCAATGATGGCTACCTATCGTCCACATAATAATCAGCTGATGGAATGG -GTGCAGACCCGTGGGCGCATGCGCTCTAACAAAGCGATGATCGGCAGAAATAATCTGCGCGGCATTGTCGGTGCACTGAA -GAAAGGTGAAGCGGTATGGTTTGCTCCCGATCAGGATTATGGTCGTAAAGGCAGCTCCTTCGCGCCGTTCTTTGCGGTGG -AAAATGTCGCCACAACCAATGGCACCTATGTTCTCTCCCGTCTCTCTGGCGCAGCCATGTTGACCGTAACGATGGTAAGA -AAAGCGGATTACAGCGGATATCGTTTGTTCATCACCCCAGAGATGGAAGGCTACCCGACAGATGAAAATCAAGCCGCTGC -CTATATGAACAAGATTATCGAGAAAGAGATCATGCGCGCACCGGAGCAGTACCTCTGGATCCACCGTCGCTTTAAAACGC -GCCCGGTGGGAGAATCGTCGTTGTACATTTAACAAACTGCTCTTACTCTTTCCCTCCTCAAATCGGCCATAATAACCTCA -TGGTTTTTATGGCTTTTTTCTTAAGGTTTTTTCCTTCGCTGAATATCTAATTATTACCGTCAGAAATTAAACTGTCGCCG -ATATGAGACACTTGTAAGTTACTAAAAGTAAATAAGAAAATGCCTCTTGTCTCGTTTCAGTTTTAGGCGTACATTAGCGC -CGTCTCGAGCAGTTTAGCTCAGAATTCTGGGGTGATGCCCACGGTAAAATACAGGGCTTTTAAGGTCGCTTTGCCCGGTG -TCAACTCACTGTATCAGGTGTAATGAAGTCATTCAGGCGTAACAGTAATTACGCGGAGAGATGTAAAGTGAAATATTTCT -TTATGGGCATTTCTTTTATGGTCATCGTTTGGGCCGGTACTTTTGCCCTGATGATCTAAAAGCAAACTGTGCAATGAAAA -ACAGGAGCCATCAGGCTCCTGTTTGCATTTCTGACGACGGTGTTTATTCCGCGTTTTCGTGAATATGTTTGCTGCTGGCG -GGTAGTAAACCGTCGGCACGGAACATCGCTTTAATCCCTCTGATGGCCTGACGAATACGGTCGCGGTTTTCAATCAGTGC -AAAGCGAACATGCGTATCACCATAGTCGCCAAAGCCAATCCCCGGCGAGACACAAACCTTCGCTTCGTTAAGGAGCTTCT -TGGCAAATTCCAGCGATCCCATGGCCGCATATGGTTCCGGGATTTTCGCCCAGACATACATCGAAGCCTTCGGCATTTCA -ACCATCCAGCCCGCTTCATGCAGCCCTTTAACCAATACATCACGGCGGCGTTTGTACTGTTCGGCAATGTCGCGCACGCA -CTGTTGATCGCCCTCCAGCGCCGCAATCGCCGCCACCTGCAACGGCGTAAAGGTGCCGTAATCGTGATAGCTTTTAATAC -GAGCCAGGGCGCTGACCAGCGTTTTGTTGCCAACCATAAAGCCGATACGCCAGCCCGCCATGTTGTAGCTTTTCGACAGC -GTAAAGAACTCGACTGCCACATCGCGTGCACCCGGTACCTGCATAATTGACGGCGCTTTCCAGCCATCGTAGACGATATC -GGCATAGGCCAGGTCATGGACCACCAGCACATCGTAGCGTTTCGCCAGCGCCACTACTTTTTCGAAGAACTCCAGTTCCA -CGCATTGCGCGGTTGGGTTTGACGGGAAGCCGAGGATCATCATCTTCGGTTTCGGATAACTTTCACGAATGGCTCGCTCC -AGTTCGTTGAAGAAATCGACACCTTCCACCAGCGGCACTGAGCGTACCTGCGCCCCGGCAATCACCGCGCCATAAATATG -GATCGGGTAACTTGGATTCGGCACCAGCACCGTGTCACCATGATCCAGCGTCGCCAGCATCAGATGCGCCAGGCCCTCTT -TCGAACCAATAGTGACGATGGCTTCTGATTCCGGGTCGATTTCAACGTCGTAGCGATCCTGATACCAGCGGGAAATGGCG -CGACGTAACCGCGGAATGCCGCGTGAAGTGGAGTAACCATGCGTGTCCGGGCGCTGGGCCACAGTACATAATTTTTCGAC -GATATGCGGCGGAGTCGCACCGTCCGGGTTACCCATGCTGAAATCGATAATATCTTCGCCGCGCCGACGCGCAGCCATTT -TCAGTTCAGCGGTGATGTTAAAAACGTAGGGCGGGAGACGATCAATGCGCGTAAAGCGACGTTCAGGGCGAGTGTCAGCC -ATAATTTCCTCAGATTAACGTTAGCGCCCGGACCGTCCGAGCGACGCTGCCACGATGGTGGCTGTTTTGAAAATAGCCTG -ATTAATTTCTGTCTGTCCAGCGTTTTAGAACATTTTATTAATGACGTTAAATGAGGAACTCTGCTTTAAAAACAGGAAAT -TTATCTGCGCTAACAAGAAAATTACCACTCATTTTATTAACATAATAATTTCAATAAATTTACTAACCAGAAGTGCATTA -TCAAGAGATGCATTGCTAATACACCATTTATCTATCAATCCCCTTTTAAAATTGTGGTTTTTCCTCAAAAACGGCCTGCT -GGTCATCAGCCTTCAGGTTACCTATCATAGAGGTTTAATCCTTATTCAGAGTCACCCGTGCACGAAATATTCAACATGCT -GCTGGCGGTCTTCGATCGGGCAGCGTTAATGCTTATCTGCCTGTTCTTTCTCATCCGTATCCGCCTGTTTCGCGAACTGT -TGCACAAGTCGGCGCACTCCCCAAAAGAATTGCTCGCCGTTACCGCCATTTTCTCGCTGTTCGCCCTGTTCAGCACCTGG -TCCGGCGTTCCCGTAGAAGGCTCGCTGGTGAACGTACGTATTATCGCGGTGATGTCCGGCGGGATTCTGTTTGGCCCGTG -GGTAGGCATCATTACCGGCGTGATTGCGGGTATTCACCGGTATTTAATTGATATCGGCGGCGTGACGGCGATCCCCTGCT -TTATCACCAGCATTCTGGCGGGTTGTATATCGGGCTGGATCAACCTGAAAATCCCCAAAGCACAGCGCTGGCGCGTCGGT -ATTCTCGGCGGCATGTTGTGTGAGACGTTGACCATGATTCTGGTAATTGTCTGGGCACCAACTACCGCGTTGGGGATCGA -TATCGTCTCTAAAATCGGCATTCCAATGATCCTCGGTAGCGTCTGTATCGGCTTTATTGTGCTTCTGGTGCAAAGCGTTG -AGGGCGAAAAAGAGGCCAGCGCCGCGCGGCAGGCCAAGCTGGCGCTGGATATCGCCAACAAAACGCTACCGCTGTTTCGC -CATGTCAATAGCGAGTCATTACGCAAGGTCTGCGAAATTATCCGCGATGACATTCACGCCGATGCGGTGGCGATTACTAA -TACCGATCATGTGCTGGCCTATGTTGGCGTGGGTGAACATAACTATCAGAATGGCGATGACTTCATTAGCCCGACTACCC -GTCAGGCGATGAATTACGGAAAAATCATCATTAAAAACAATGATGAAGCCCACCGCACACCAGAGATTCATTCCATGCTG -GTGATCCCATTGTGGGAGAAAGGGGTCGTGACCGGAACGCTGAAAATTTACTACTGCCACGCGCATCAGATCACCTCGTC -ATTACAGGAAATGGCGGTCGGTCTGTCGCAAATCATCTCCACGCAACTGGAGGTTTCACGCGCCGAGCAGCTACGTGAAA -TGGCAAATAAGGCAGAGCTTCGCGCCCTGCAAAGCAAAATTAATCCCCATTTTCTGTTTAACGCTCTGAACGCTATTTCA -TCGTCAATCCGTCTGAATCCGGATACCGCTCGCCAGTTGATCTTTAATCTGTCGCGTTATCTGCGCTATAACATTGAATT -AAAAGACGATGAGCAAATCGATATCAAAAAAGAGCTGTATCAAATTAAAGACTATATTGCCATTGAGCAGGCCCGCTTTG -GTGACAAGCTGACGGTTATCTATGATATTGATGAAGAGGTGAATTGCTGCATTCCCAGCCTGCTGATCCAGCCGTTGGTG -GAGAACGCCATTGTCCACGGTATTCAGCCTTGCAAAGGTAAAGGCGTTGTCACCATCAGCGTTGCAGAGTGCGGAAATCG -GGTACGCATTGCGGTGCGAGATACCGGGCACGGCATCGATCCAAAGGTGATTGAGCGGGTCGAAGCGAATGAAATGCCGG -GCAATAAAATTGGCCTGCTGAATGTCCATCATCGCGTGAAGTTATTGTATGGCGAGGGGCTGCATATCCGCCGCCTGGAG -CCGGGGACGGAAATTGCGTTTTACATTCCTAACCAACGCACCCCAGTCGCCTCACAGGCTACGTTATTGCTTTGAGCCGG -AGTGATATTGTGAAAGTCATCATTGTTGAAGACGAATTCCTGGCACAACAGGAACTGAGCTGGCTAATTAAAGAGCACAG -CCAGATGGAGATTGTCGGCACCTTTGACGACGGTCTGGACGTGTTGAAGTTTTTGCAGCATAACCGCGTCGACGCCATTT -TTCTGGATATCAATATTCCGTCGCTGGATGGCGTGTTGCTGGCGCAAAACATCAGCCAGTTCGCCCATAAACCGTTTATT -GTGTTCATCACCGCGTGGAAAGAACATGCGGTAGAAGCGTTTGAACTGGAGGCGTTTGACTACATTCTCAAACCGTATCA -GGAGTCACGTATTACCGGGATGCTGCAAAAACTGGAAGCGGCCTGGCAACAACAGCAGACCAGCAGTACGCCTGCCGCGA -CGGTAACGCGTGAGAATGACACCATTAATCTGGTGAAAGATGAGCGAATAATCGTCACGCCAATTAACGATATCTATTAC -GCCGAAGCGCACGAGAAAATGACCTTTGTCTATACGCGGCGTGAATCCTACGTAATGCCGATGAACATTACCGAATTTTG -CAGCAAACTGCCGCCGTCGCATTTTTTCCGCTGCCATCGCTCATTTTGTGTCAATCTGAACAAAATACGCGAAATCGAAC -CGTGGTTTAATAACACCTACATTCTGCGACTGAAAGATCTGGATTTTGAAGTGCCGGTCAGCCGCAGCAAAGTGAAAGAA -TTTCGCCAGTTAATGCATCTTTAATCGGGAACTTTCATGAAAGCACCAGGCTTGCCCGCCGATCAACAATTTTTCGCCGA -TCTGTTCAGCGGCCTGGTGCTTAACCCGCAACTACTGGGGCGCGTCTGGTTTGCCAGCCAGCCTGCCTCGTTGCCGGTGG -GCAGTTTATGTATTGATTTTCCCCGTCTGGATATCGTGCTGCGCGGCGAATACGGCAATCTGCTGGAAGCAAAGCAGCAA -CGTTTGGTGGAAGGAGAAATGCTGTTTATTCCGGCGCGCGCGGCTAATTTACCGGTCAACAACAAACCGGTGATGCTGTT -AAGCCTGGTGTTCGCTCCGACCTGGCTTGGGTTATCGTTTTACGATAGCCGCACCACGTCGTTGTTGCATCCTGCTCGCC -AGATCCAGCTTCCCAGCCTGCAACGCGGTGAAGGTGAAGCGATGCTTACCGCCCTCACCCATCTTAGCCGTTCGCCGCTG -GAGCAAAATATCATTCAGCCGCTGGTGTTAAGTTTGCTGCATCTTTGCCGTAGCGTGGTGAATATGCCGCCGGGCAATTC -GCAGCCGCGCGGCGATTTTCTCTATCACAGCATTTGTAACTGGGTTCAGGATAATTATGCCCAGCCGCTCACCCGCGAGA -GCGTGGCGCAGTTTTTTAATATCACGCCCAATCATCTGTCAAAACTGTTTGCTCAGCATGGAACGATGCGTTTTATCGAG -TATGTGCGTTGGGTGCGAATGGCGAAGGCGAGGATGATTTTGCAGAAATATCATCTGTCAATTCATGAAGTGGCACAGCG -TTGCGGTTTTCCGGATAGCGACTATTTTTGTCGCGTTTTCCGGCGTCAGTTTGGTCTGACGCCGGGAGAGTACAGCGCCC -GTTTTCAGGGCTAACGTCAGAAGGTTAATTCTGTTTCCAGCAGCGTCAGGATACTTTGTGCATCTTGCGCGGCAAACAAC -GACTGGCGGAAGTTTTTATTCACCAGTTTACGCGCCAGCTGCGAGAAGACTTTCACATGATTCATCCCTTCGTTAGCACC -CAGCGTCAGCATGATCACCAGTTCGACTTCGCCCATTTCTGACTGCCAGCCAATCGGTTTCGCCAGCCGGGCAATGCTGA -TACTGGAATGACGGATCCACTGAGATTTGGTGTGCGGGATCGCTACGCCAAAACCAACGCCGGTGGTAACAATCTCTTCC -CGCTGCCAGACATCTTCTTCCAGCTCAAACGGATGTTCAGTGCGCCCGTTAACGCCGAGGTTGCCGCACAGGAACTGGAT -CGCCTGCTCTTTATTGCTAAAATCCTGATCAACAAAGATATTCTCCAGCGCCAGCAGTGGGCGAACGTCTTCTTCCGGCG -TAAAGGCGGTGAGTAACGCTTCAATTTCCTGCGCACTGCGGCATTCACATGCCTGACGCGCCAGTTCCCGACACGCCTCG -CTATCCAGTTGACGAAGCTGGCTTTTCACCGCCGGAATACGCGGGCTACTCATACTCAGCTCATCCAGGCCCAGCCCAAG -CAGTAGCGGCAGATAACGGCTTTCACCGCCCAGTTCACCGCAAATGCCTACCCATTTGCCCCGCTGATGCGCAGTGGTAA -CTATTTGCTGCAACATGCGCAGGAACGATGGCGTAATCGGGTTATATAGCGGCGATACGCGCGGGTTATTACGATCGACC -GCATACAGATACTGGGTCATATCGTTGGAGCCGATACTGAAGAAATCGACCTCATCGCAGAAGTGGTCGATGATGTAGCA -CACCGACGGAACTTCCACCATGATCCCAAGCGTAATCGTCTCTGCATGACGCAGGCCATCGCGCTTAAGCTCAACGATCG -CTTTTTGGATCTCGCCTTTCACCCATAAGATCTGATCGAGGCTGTGAACCATCGGGATCATCAACTGGGCGTTGCCGAAA -CTGGCGGCGCGCAAAATGGCCCGCAGTTGAGTGCGGAACAGGCCAGCAAATTCCGGGTAAATACGTACCGCGCGATAGCC -GAGGAACGGGTTCTCTTCCTGGGGAATATTCAGATAAGGAATGCTTTTATCGCCGCCGATGTCCATCGTGCGGAAGATAA -TCGGCTTGTCGCCCGCCGCCAGTAGCACCTGCTGGTAGGCTTCAAATTGCTCCTGCTCGTCCGGCGCGCTGTCGCGATCC -ATATAGAGCATTTCGGTACGGAACAGCCCGACACCTTCCGCGCCGTTGGCAAACGCGCCTGGCGCTTCCAGAGCGGTGCC -GATATTCGCCGCAATATCAATACGCTTGTTATCACGGGAATAGGCCAGCTGCGCGGCAGCCTGCGCCTGTTGTTTTTGGC -GTTTATCCGCCAGCGTCTGCGCGACCTGATAATAACCGCTCACCGCGTCATTCGGGTTAATCGCCAGCACGCCGCACTGG -GCGTCAAGCACTGCAGGTTGCCCGGCATAACGGGCAATCGCATCCAGCGGCAAGCCACTCAGTACCGGGATCGCCGAGGC -ACGGGCCAGAATCAGTGTATGCGAGGTGCGCCCGGTTTTCTCCAGAATCATGCCCGCAAGATTTTTCAAATCAAGGCTCA -AAAACTGGCTTGGGGTTAAATCTTCAGCCACCAGAATGGTCGGTTTTTCAAGCACCAGCTTGTTGCGCGGCTTCAGTTCC -GGCCAGGTGATATGCAGCAACTGTTCGCTGATATCGCGAATGTCGCTAACACGTTCGCGCAGATAATCGCTGGCAGAGGC -AGAAAGTTTGGCGCAAACCTGCTCCATATTGCTGATGATCGCCGCCCCCAGCCCCTGATGCTGTTCTGTCATCAGGCGAC -GGATATTGCCTGCAAATTCATCATCCTGAATCAGCGACAAATGGGCGCTGAGGATAGTTTTGCTTTCGCCGTCACGCTCA -CGCAATTGCTGGTTCAGTTGCTCGGCAAGCGTTGCCAGGCTGTGCTCCAGCCGGGTGGAATCTTGCGCACTGGCGGGGAT -TGCCCGATAACTGTCGAGGCTGTCGCTTTGTAACAGGGTCAGCGTACCCACGCCGACGCCGCTTGCCAGCACATTGCCGT -ACAGTAAATCCGGGTTAAGGCGGCTTAATGAACGCGGCAGCGGATGCGCCGTCAGTTCTGCCTGCGTAGGCTGAACGCTG -TCGCTGTCGATAAAGCGCACCTGGATGTACTCTTCCAGCACGCGCCGCGCCTGCTCTTCATCGCTGCCGCTAATGTTCAG -GCTGCAACTGTCATTAAATAGGGTGCCGGTGCCAATCAGCGCCAGCGAGCTTTTCGCATCTGCCTTTGCGTTCTGGCGAT -GGTTAATAAAAGTGATTTCGCTTTGCCACTGGCTGCACTGTTCTTTAAGTTCCCACGCCGGACGAGCATGTAGACCGTTA -GGCAAAGGACAGAGAAATTGAATCGTTAACATAACCGCTCCGGGTTAATCAGGAGATCATCTGAAATCCGTCAGTTGAAC -AACCGTCTCACGCGTAAGACGTTGAATAAGGGCAGATAAAAGTTGCTGCATCTGCAAAATGTCGCGGCAATCGGCAATCG -ATGCGGCGCAATGTCCATGGCGGGTTGCTGGCCCCATCACCACTGTGGGCACGCCGGTGCCGGTTAAGTGCACCGCCCCG -CCGTCCGTGCCGCCGTTGCTGAACATATCTGCCTGCAACGGCACGCCAATTTCTGCCGCCACGGTTTCGACCCAGGCGGT -AAGTTTTGGCGGCGCAATCAGCGACTTGTCGCTTAACACCAGCATCGGCCCGTTACCAATCTGGCGATGGTTAGCCGCGC -CATAATCAAAGTTTTTCGCCCAGCAGGCGGTATCAAGCACAATGGCGACGTCCGGCGACACCGCGCGGGTGGCAGTTTGC -CCGCCGCGTAATCCCACCTCTTCGCTGGAACTTGCCACCAGCCACACTTCCGCAGGTAGTTCGGCGTCGTGCAGTTCGCG -CAGTAACGTCACCAGCAGATAGCAACCGAGGCGGTCATCAAAGGCTTTCCCCATCACTCGCTGGTGAGGGAGAACCTGAA -AAGTGGTATCAAACGTGACGCGATCGCCGGGACGAATTCCCGCCTGCATCACTTCGTCATAGGAGCGCGCACCAATGTCC -ACGCGCATGGCGCTGACGTCATTCCCCTGCCGGTCGCCGTCAAGCAGGCCTGGAATTTTGCACTCTTCACGGGTGGTGAT -GCGCACCGGCTGCAGCTGGCGGGCAGCCATGCGTACGTTGCCAACCGGCAGCACATCAATCGCCCCTTCGCGGGAGATGC -TGCGCACCATAAATCCCACTTCGTCCATATGCGCACAGATCATCACCTTCGGACCTGTCGATTCATTCAGGCGGATCAGC -ACCGATCCCAGACCATCAAATCGCACTTCTTTTTGCAGGCGATCCGCTTCTTCCAGCAGGATCTGCCGCACTTCCTGTTC -CGAGGAGGCGATCGCATCTGCCTCGCTCAACGCTTTTAATAGCGATAAATCCATTATGCCTCTCCCGTGAGCAACACTGT -TTTCGGCATGGCGTAGAGCACTTCTGCGCCTTGCGGGGTAACCAGCACAACATCTTCGATGCGCACGCCCCCTTGCCCTG -GCAAATAAATCCCCGGCTCCACGGTCAGTAACATGCCTGGCTGTAGCGTCGTGGTGTCCCGCGGTGAAAAACGCGGATCT -TCATGAACTTCAATGCCGATAGCGTGACCGGTGTTATGACCGAAATAGTCGCCATAACCTGCTTCTGTAATGACCCGGCG -CGCGGCATCGTCAACCTGCTGGCAGCGCACGCCGGGGCGAATCGCGGAGATTGCTGCGAGCTGTGCCTGCAGGACAATTT -GATAGACGTTAAACAGCAGGTGAGATTCGGCGCTCACCCCTTCGCCATTCACCAGCAAGGTGCGCGTCATATCAGAGCAG -TAGCCCTGATACAGCGCACCGAAATCGAGAGTGACAAACTCGCCCGCTGCAACAATCTTGTCGCTGGCTTTGCCGTGCGG -CAGCGCCCCACGCCAGCCACTGGCGACAATGGTGTCAAAAGAGGCTTTTTCTGCGCCCTGCTGGCGCATAAACCACTCCA -GTTCAGCGGCTATCTCGCGCTCGCTCATCCCCGCCTGAATAAAGCGGCGAATATGCTCTGCACCGCGATCAGCAATCCCA -CAGGCGAGGCGGATTTTCTCCACCTCCTCTGGCGTTTTGATTTGCCGCAGCACATCCGGCGTGGCGCTAACCAGTTTCGC -ATTGAGTTCAGACTGCCAGCGGTGCGCGGTTTCCCAACTCACCTGCTGGCCCTCAAAACCGAGCGTTTGCAACTGTTCAT -CGGCAATGATTTGATTGACGATAGTGGTAAGCGTGTTCGTCGCGTCAAGCAAATGCAGCTGGTAGCCTTGCGCACGGGCT -TCCACCTCAACGTAATAGCGCGAATCCACCAGAATGTGCGCACTTTCACGGCTAATCACCACATAACCTGATCCGGTGGA -GATCCCCAGATGCGGCTGTTTGTTCTGCCGTGAGGAGAGAAGCACTGCATCCAGTTGTTGCGCCTTAAGCCAGTCGCGCA -GCGAAGCGAGTAATGTCATCTGGATTTTCCTTCTTACAGGCTATCGATTAACAATTTGCCTTTACGGAACATCATCAGAC -GCAGGAACACCACCATCAGCGCAGTTATGACTGCCCCCAGCGCGATCCCCGCCATATAGACGCCCAGGTTAGTGACCAGC -GGCCATGCCCAGATAGCGGACTCCGGGAACCATTGCACTGCGCCCAGCCAGACAGCGGCGGTTGAGCCGACAATAGCGCC -GACCATATACGACGGAATGGCGGTGATGGGGCTTTCCAGCGCAAACGGAATCGCACCCTCACTGATCCCCATAAACGCCA -GGAACATGGCGGTCTTACCCTGCGGATAAAGTTGAGCGTTGAACAGGCGTTTGCCGGTTAAACGACGGTCGATAATGGTC -GCCAGCCCCAGACCAATCGGCGGAATAACGATAGCGATAGAACGAGCGGTGACCGGTAATACGTGGTCAGTGGTAAAGCT -GAAGGCAACAAAACCTGCGGCTTTGTTGATCGGGCCACCAAGGTCGATTGCTGTCGCCGCGGCGATCCCCATTGCGTACA -TCAGCGCGCCCTTCTCACCTGCGGCAGTCAGCACAGTACGGATACCGCCGTTGATCCAGCCACCAAAGGGGGTGATGACG -TAGTACATCGCCAGCATGACAAAAATGGCGGAAAGAATCGGGAGCAAAAATGTGGTTTTGAACGCTAACAGGAAATCCGG -TAACTGGATTTTCTGGTTCATCCACTTCACAAGGTAACCGGCAACGATAGAAATAATCAGCGCACCAATGAAGGTGGACG -GCACCGGCGAAGAGGTCGCCCATTGCATAGTGCTGGGATCGAAGTTCAGCAGTTGCGTCGGCTGGGTAGACATCAACCCG -CCGATAAAACCAGCCGGGAACGCCAGTTTGCCACCGATAGAGTTCGCCACAAAAGCAGCAAACATCGGAATGGCAAAACC -AAACAACACGCCGCCGAAGGACTGCGACAGCCAGGCAAATTTAAGTAAGGAGAGGTCGAAACCGGAGAATTTCCCGCTAT -TAAGAGCATCCATGATGCCGATCTCAGCAGGAATTTTAAGCCAGCTATAAGCAATCAGCTGGCTGAAAGCGAGGATCACA -CCGCCCATAATTAAGGTCGGCACCATGCGTGAAATCCCTGACATCACATGCTGCGGGAGTTCACCCCAGAAGCTGGTTTT -AGAGGCCTGCGGATTCTTAACTGCCGCTGCCGCACCGGATGCGCCAGGCACAACGGTTGCACTGCGTTTTTTAATGGCCA -TAACAATTATCCCTGTCGAATATTACTGTTGTTCAGAGGCAATCATCTCTTCGATTTCTTTGATGATGCCCGCAGCGTTT -TTAATTGCGTCCTGCAAAGTGATTTCATAAACGTCGCGTGATTCGAAACGTTCGTTATCTTCCGGGGTAACTGCCACGGA -GTGGATGATGATGGTCGCTTCGGCGATATCCTGCGCCGTCAGGCGATTCTGGATACCGTCCGCGCCCTGGGTTTCAATTT -TCACTTCATAACCGGCTTCTACCGCCGCTTCTTCCAGCGCCTGAGCGGCCATAAAGGTGTGAGCCAGGCCCATCGGGCAG -GCACATAAGGCAATCAGTTTCTTACTCATCGTTAATTCCTCGTTCAGTGATAGTTGACGAGTGAAATTATGAACGTGCAA -AACAAATCGCCGTTACCAGACAAATAATGCATTTACTGGAGAATTAATCCCGCTGTACGGAAGTGTGACGCAGGTCGACC -TTGTGAGGGGACACAAAGAAAAATTGAATAAACTGTATGATTTAAAAGATTATCGGGAGAGTTACCTCCCGATATAAAAG -GAAGGATTTACAGAATGTGACCTAAGGTCTGGCGTAAATGTGCACCGGAACCGAGAAGGCCCGGATTGTCATGGACGATG -AGATACACCGGAATATCATGGACATATTCTTTAAAGCGCCCTTTATCTTCAAATGCGGCACGGAAACCGGAGGCTTTGAA -GAACTCAAGGAAGCGCGGCACGATACCGCCCGCAATAAACACGCCGCCAAATGTCCCGAGATTGAGCGCCAGATTGCCGC -CAAAACGGCCCATAATGACGCAAAACAGCGACAATGCGCGGCGGCAATCGGTGCAGCTGTCAGCCAGCGCGCGTTCGGTA -ATATCTTTTGGCTTGAGATTTTCTGGCAGGCGGTTGTCAGCTTTCACAATTGCGCGATACAAATTCACCAGCCCAGGGCC -AGAAAGCACGCGCTCCGCCGAAACATGACCAATTTCCGCACGCAATATTTCGAGGATAATGGCCTCTTCTTCACTATTCG -GCGCAAAATCAACGTGACCGCCTTCGCCTGGCAAGCTTACCCAACGCTTATCGACATGGACCAGATGCGCAACCCCAAGC -CCCGTTCCGGCACCGTAAACCGCAATAGGCTTACCTTCGACCGGTTCTGCGCCACCAAACTGAATCAGATGCTCTTTTTT -CAGCATCGGGATCGCCATCGATACAGCGGTAAAATCGTTAATAATTTCCAGATGGCTAAAACCGAGATTCTTTTTCATTT -CGGCAATTGAGAACGCCCAGGTATGGTTGGTCATCGCCACCCAGTCACCGGTAATTGGGCAAGCGATGGCAATACAGCCG -TCTTTCACCTCGACCTTATGTTCTTCAAGATAAACGCGAATGACCGCTTCGAGGCTGGGGTAATCAAGCCCTGAATAGGT -CTTAGCCTGCGAGATTTCACCACTGGCAATATCACACAGAGCAAGACGTGCGTTGGTGCCGCCCACATCACCGACTAATG -CATACTTTGTCATTCTTCAACTGCTCCGCTAAAGTCAAAATAATTCTTTCTCACACTGTAAATACCTGGGGGCATAACAA -CAACGCCGGAAAGGCAGGCTCCCTGTAAATATCGATCTGGGTCACACAATTACTTTATCGTTTCAGCACCAATTGCAGCG -ATGCCTTTTTGCAAGCTGGGCAAACTAAGTATCTGACCCCGCATAAGGAATAGAACATGCTCCATCCGCGAGCCAGAACC -ATGTTGTTATTATCGCTCCCCGCCGTGGCAATTGGGATTGCGTCCAGTCTTATTCTGATTGTGGTGATGAAAATCGCCTC -GGTATTACAGAATTTGCTCTGGCAACGACTGCCGGGAACTCTGGGGATAGCCCAGGATTCACCCCTCTGGATCATCGGTG -TATTAACGCTAACGGGTATTGCGGTGGGGTTGGTTATCCGTTTCAGCCAGGGTCATGCCGGACCAGACCCCGCCTGTGAA -CCGCTGATCGGCGCACCGGTTCCGCCCTCTGCGCTACCTGGACTTATCGTAGCATTAATTCTCGGTCTTGCTGGCGGCGT -CAGCCTGGGGCCGGAACATCCGATCATGACCGTCAATATCGCCCTTGCGGTTGCCATTGGCGCTCGTCTGTTACCGCGCG -TCAACCGAATGGAGTGGACTATTTTAGCCTCTGCCGGAACCATCGGCGCACTGTTTGGCACTCCTGTTGCGGCGGCGTTG -ATATTTTCGCAAACCTTAAATGGCAGTAGTGAAGTTCCGCTATGGGATCGTCTCTTTGCGCCGTTAATGGCGGCAGCAGC -TGGTGCACTTACTACCGGATTATTTTTCCATCCTCATTTTTCACTGCCCATTGCTCATTACGGACAGATGGAAATGACCG -ATATTCTCAGCGGTGCAATTGTCGCGGCGATTGCCATCGCAGCAGGGATGGTCGCCGTATGGTGCTTACCACGGTTGCAC -GCGATGATGCATCAAATGAAAAATCCGGTGCTCGTGCTGGGTATTGGCGGATTTATTCTCGGTATTCTGGGGGTTATTGG -TGGACCAGTTTCGCTGTTTAAAGGGCTGGATGAGATGCAGCAGATGGTGGCAAATCAGGCTTTCAGCACCAGCGATTACT -TTTTGCTGGCGGTAATTAAACTTGCCGCCCTGGTCGTTGCTGCCGCCAGTGGCTTTCGCGGTGGGCGAATCTTCCCGGCA -GTGTTTGTCGGCGTGGCATTAGGGTTGATGCTGCATGAGCACGTTCCCGCCGTACCAGCGGCAATAACCGTTTCTTGCGC -TATTCTCGGCATCGTGCTGGTGGTAACACGCGATGGCTGGTTAAGTCTTTTTATGGCGGCAGTCGTTGTACCCAATACCA -CATTGCTACCGCTGCTCTGTATCGTCATGCTTCCGGCATGGCTGTTATTAGCAGGTAAGCCGATGATGATGGTCAATCGT -CCGAAGCAACAGCCACCCCACGATAACGTTTAGCAAAAAATGCTCTCCTTTATGATTTAAGAGTTATGGCGATGATACGG -GGCTTTACCTCCCCGTAATATTGCGTTAACAGGCCGCTGACGGCTTCGAGCGTGAAGGAGAATAACAATGTTCAGGTCAC -TGTTTCTGGCGGCCGCCCTGATGGCATTTACCCCGCTTGCAGCAAACGCAGGTGAAATCACCCTACTGCCATCAATCAAA -TTACAAATTGGCGATCGCGATCATTACGGTAATTACTGGGACGGTGGTCACTGGCGCGACCGTGACTACTGGCATCGCAA -TTATGAGTGGCGCAAAAACCGTTGGTGGCGTCATGATAATGGCTACCACCGTGGCTGGGATAAGCGTAAAGCGTATGAGC -GTGGCTATCGTGAAGGCTGGCGCGATCGTGACGATCATCGCGGAAAAGGCCGGGGTCATGGGCACCGCCATTAAACGCGT -CCGCCAATGGAGCACAATGCCTGATGCGACGCTAGTGCGTCTTATCAGGCCTACAAACCGGCTCTTTAACGCGTAGGGCG -GATAAGGCGTTTACGCCGCATCCGCCAATAGTGCCAGATGCGACGCTCATTCAACTACAATCCCAGCGCCGTCCCCACCA -ACAACCAGATATTCAGCGCCACGACCAGCACCACAATCACCCAGCCTGTCTGTTTTACGCGTTTGCTGTTCACCAGATCG -CCCATCAACTTGCTGTCACTGGTGAAAATCAGCAGTGGAACCAGCGCCAGAGCGATACCAAAACTTAACAGTACCTGACT -CATAACCAGAATCCGTGTCGGATCTAATCCCATCAGAATGACAATAAATGACGGCAACATGGTGACTGTACGACGCACCC -ACAGCGGGATATGAAAGCGAATGAAGCCCTGCATCACCACCTGCCCCGCCAGTGTCCCCACCACCGTTGAAGACAGCCCC -GCAGCAACCAGGCTTAATCCAAAGACCGTTGCCGCAGCGTGGCTTAACAGCGGTTGCAGCGTCAGATAAGCCTCATCAAG -ATCGGCAACACCAGTATGACCGGAAAAGTGGAACGCCGCCGCAGCTGTAGCCATCATCGCCAGATTGACAAAACCGGCAA -TAGTCATGGCGATAGCCACATCCCATTTGGTGGCGGAATAACGTTGTTGACGCGAACCGCCATGTAAATGCTGAGTGAGC -GAGGAGTGCAAATAAATCACATGCGGCATAATCGTCGCCCCTAACACGCCTGCTGCCAGGAAGACCGCTTCCGAAGTAGG -TAAACTCGGGATCACCATTCCTTTACCCAGCTGCGCCAGGTTAGGCTGGGAGAAAATCAACTCGACAATGTAAGCCGCGG -CAACAAACAACAGTAACCCGCCAATCACTTTCTCCAGCGGTTTTTGCCCGCGACGTTGCAGCATTAAAATCAGGAAAGTC -GCGATCCCCGTCAGCACCGCGCCCTGCAACAACGAAACACCAAGAATGAGTTTAAAACCGATCGCCGCACCAATAAATTC -CGCCAGGTCGGTTGCCATCGCAATAATTTCTGCCTGAACCCAATAGAACCACACTACGGGACGCGGATAGTGATCGCGAA -TCTGCTCCGCCAGATTTTTACCGGTGGCAATCCCTAGTTTGGCAGAGAGGATCTGAATCAGCATCGCCATCAGGTTGGCC -CAAACGACAACCCACAGTAGCTGATAGCCGAAGCTAGCACCCGCCTGAATATTGGTCGCAAAGTTACCGGGATCGATATA -ACCAATCGCCGCAATGAACGCAGGTCCCATTAATGCGAGCCTCATCTTGCGCGCCGCCCGTCCGCTGCTACTCTCAACGC -GATAGTTCGTCATCTTGTGCCTCTAAAACATAGCCTTTGCTATGTTTCATGCTATGCCAAACGAGAATGATTATCAAATT -CATTTAAATGGATTGTGGTGATTTCTCTGATAGACCAGGATTATGACTACGAAAAGATTGATGACTTGAATGTTATGGTT -ATGTTTAATGTTAGCACATTTACATAACTTTCAGCTTCCATACACAACATAGCAGAAATGTATGACAGATCACTATTTTT -GAAGCCTGTCACAGGACGTCATTATAGTGTGTGTCAGATCTCGTTTTCCTTAACCATGTTACATAGAATGTGCACGGAAA -TTTAACCTGCCTCATATTTGGAGCAAATATGGACCGCGTCCTTCATTTTGTACTGGCACTTGCCGTTGTTGCGATTCTCG -CACTGCTGGTAAGCAGCGACCGCAAAAAAATTCGTATCCGTTATGTTATTCAACTGCTTGTTATCGAAGTGTTACTGGCG -TGGTTCTTCCTGAACTCCGACGTTGGTTTAGGCTTCGTGAAAGGCTTCTCCGAAATGTTCGAAAAACTGCTCGGATTTGC -CAACGAAGGGACTAACTTCGTCTTTGGTAGCATGAATGATCAAGGCCTGGCATTCTTCTTCCTGAAAGTGCTGTGCCCAA -TCGTCTTTATCTCTGCACTGATCGGTATTCTCCAGCACATTCGCGTGTTGCCGGTGATCATCCGCGCAATTGGTTTCCTG -CTCTCCAAAGTCAACGGCATGGGCAAACTGGAATCCTTTAACGCCGTCAGCTCCCTGATTCTGGGTCAGTCTGAAAACTT -TATTGCCTATAAAGATATCCTCGGCAAAATCTCCCGTAATCGTATGTACACCATGGCTGCCACGGCAATGTCCACCGTGT -CGATGTCCATCGTTGGTGCATACATGACCATGCTGGAACCGAAATACGTCGTTGCTGCGCTGGTACTGAACATGTTCAGC -ACCTTTATCGTGCTGTCGCTGATCAATCCTTACCGTGTTGATGCCAGTGAAGAAAACATCCAGATGTCCAACCTGCACGA -AGGTCAGAGCTTCTTCGAAATGCTGGGTGAATACATTCTGGCAGGTTTCAAAGTTGCCATTATCGTTGCCGCGATGCTGA -TTGGCTTTATCGCCCTGATCGCCGCGCTGAACGCACTGTTTGCCACCGTTACTGGCTGGTTTGGCTACAGCATCTCCTTC -CAGGGCATCCTGGGCTACATCTTCTATCCGATTGCATGGGTGATGGGTGTTCCTTCCAGTGAAGCACTGCAAGTGGGCAG -TATCATGGCGACCAAACTGGTTTCCAACGAGTTCGTTGCGATGATGGATCTGCAGAAAATTGCTTCCACGCTCTCTCCGC -GTGCTGAAGGCATCATCTCTGTGTTCCTGGTTTCCTTCGCTAACTTCTCTTCAATCGGGATTATCGCAGGTGCAGTTAAA -GGCCTGAATGAAGAGCAAGGTAACGTGGTTTCTCGCTTCGGTCTGAAGCTGGTTTACGGCTCTACCCTGGTGAGTGTGCT -GTCTGCGTCAATCGCAGCACTGGTGCTGTAAGACCATACATAAAAAAGCCGGGGATAATTCCCATAAGCGCTAACTTAAG -GGTTGTGGTATTACGCCTGATATGATTTAACGTGCCGATGAATTACTCTCACGATAACTGGTCAGCAATTCTGGCCCATA -TTGGTAAGCCCGAAGAACTGGATACTTCGGCACGTAATGCCGGGGCTCTAACCCGCCGCCGCGAAATTCGTGATGCTGCA -ACTCTGCTACGTCTGGGGCTGGCTTACGGCCCCGGGGGGATGTCATTACGTGAAGTCACTGCATGGGCTCAGCTCCATGA -CGTTGCAACATTATCTGACGTGGCTCTCCTGAAGCGGCTGCGGAATGCCGCCGACTGGTTTGGCATACTTGCCGCACAAA -CACTTGCTGTACGCGCCGCAGTTACGGGTTGTACAAGCGGAAAGAGATTGCGTCTTGTCGATGGAACAGCAATCAGTGCG -CCCGGGGGCGGCAGCGCTGAATGGCGACTACATATGGGATATGATCCTCATACCTGTCAGTTCACTGATTTTGAGCTAAC -CGACAGCAGAGACGCTGAACGGCTGGACCGATTTGCGCAAACGGCAGACGAGATACGCATTGCTGACCGGGGATTCGGTT -CGCGTCCCGAATGTATCCGCTCACTTGCTTTTGGAGAAGCTGATTATATCGTCCGGGTTCACTGGCGAGGATTGCGCTGG -TTAACTGCAGAAGGAATGCGCTTTGACATGATGGGTTTTCTGCGCGGGCTGGATTGCGGTAAGAACGGTGAAACCACTGT -AATGATAGGCAATTCAGGTAATAAAAAAGCCGGAGCTCCCTTTCCGGCACGTCTCATTGCCGTATCACTTCCTCCCGAAA -AAGCATTAATCAGTAAAACCCGACTGCTCAGCGAGAATCGTCGAAAAGGACGAGTAGTTCAGGCGGAAACGCTGGAAGCA -GCGGGCCATGTGCTATTGCTAACATCATTACCGGAAGATGAATATTCAGCAGAGCAAGTGGCTGATTGTTACCGTCTGCG -ATGGCAAATTGAACTGGCTTTTAAGCGGCTCAAAAGTTTGCTGCACCTGGATGCTTTGCGTGCAAAGGAACCTGAACTCG -CGAAAGCGTGGATATTTGCTAATCTACTCGCCGCATTTTTAATTGACGACATAATCCAGCCATCGCTGGATTTCCCCCCC -AGAAGTGCCGGATCCGAAAAGAAGAACTAACTCGTTGTGGAGAATAACAAAAATGGTCATCTGGAGCTTACAGGTGGCCA -TTCGTGGGACAGTATCCCTGACAGCCTACAAAACGCAATTGAAGAACGCGAGGCATCGTCTTAACGAGGCACCGAGGCGT -CGCATTCTTCAGATGGTTCAACCCTTAAGTTAGCGCTTATGGGATAATTCCCCGGTTTTTTTACGCCTGTTAATCAGCTA -ATGGCTGCGGGCGACCAATCAAATACCCTTGCAGATATTGCACCCCGAGCTTATGCAATAGCGCCTGCTGCTGTTGCGTC -TCGACAAACTCCGCGACCACACTCAATGACTTCGCTTTCGCCAGATCGGTAATTGATCTCACAATCATCGCATCCAGCGT -GTTCGTGACAATATCTTTCACAAAGACGCCATCAATTTTGATGATATCAGCCTGCAAACGCTTTAACCGTTCGTAGTTGG -CATATCCGGTGCCAAAGTCATCAATCGCAATCCGGAAACCAAACTTATGCAGCTGCTCGATGTTGTACATGCTGCTTTCT -GCGTTAGAAAACGCCTGCTCCTCGGTGATCTCAAGAATGACCGCCTGCGGGGAGATGTGATAACGCTTAAACAGACGAAT -AATCCGCCCGGCAATATTCTTTTGCAGCAGCGTGAGCGGCATTAAATTGACTGAAAAGCGCGGTCCTTTTTTGTCGCAAG -GGTGTGTTGCCAGCCACTTCAACAAGGATTCCAGCACTTGCAAATCAAAACGCGCGCTAAGGTTAAACTGAGCAATAAGG -GGCAGAAACTTATCCGGGGTCATAATGCCGCCGTCATATTTCAGTCGCGCGAGGATCTCATCATAACCTTCACCCTCTTT -GTTGCGAATTGGCTGGGCGTAGAGCAGCAAATCACCCTGATCTAACGCCGTGCGAATGGTATTCAGCAATAGCACCTGTT -TAGTGGTCTGCCCGGAAACCATCTCCTCTCTGCTATCCAGCGCCAGCACATGATGATGTGCGCAGGATTGCTCCGCCAGC -CAGCTTAACTGCCCCAACAAGGGTTGCAGGGTTTCCTGATTTCCATCAAAACGCCCCCAGGCAGCACCATAGCCCATATC -CAGCCCGGTATTGTTCCAGTGAATTTGCCGACTATTCAGGATGTTAACCATATGCTGGAGTCGCCCTTCCGTTTCCGGCC -CGCTCAGCACTAACAGCAGTTCACTACCCGGCAATTGATACAACTTTTCGTTTTCCTGCATCAACGGCAGCAGCGTACGG -CAAATTGAGCGGATACAGTGAACGCGCATCATTAAGCCGTAATGACGACTCATAAACTCAAGATTATCAATGCGCAGGCA -GCAAAAACTCTTGCCCGCCTCTTGCTCCGGCGCTTGTTCCAACGCACGAAAGTTGGGTAGGAGCGTTAACGGATCTGTCA -GCGCCTGCAAATGCCAGCGGCGATTAAGCCATTCACTGCGATGATAAATGCGCACCATATAGAGCAGGCAAACGCTAAAG -GAAATCAGCACCGCAAGAATAAATGCCAGCGAATATTCGGTTTCCACCCCTTGCAAAAAGTTCTGGTTGTAATTCAGAAG -GCAAAGCGTTGAAACAGCCCAGGTGAGATTTAAAAACGGATAGCGAAGCTTACCGACCCCGAGGGTAAAGATGATGAAGA -AAACGGGTACCAGGTAACCGGCAATAAAGTCGTTTTCATAAGGTGTGCACAACAGAAGTAGCAGCACGCTTAACGCTGCC -AGCCAGCTTAAGGTAAATGCGCGTTTCTCTTTGCCCAACGACGGAGCGATATCCCTGCGCCACAATATCTGCGCAAAGTG -GGGACTTACAATCATGCGAGTGAGATAGTAGAAAAGCATGTTGTAAATCAGCACAGCGGTGAAAAGGCTTAGCAAATCAA -CGACCGTGAAAATGGCATCCGCATCGCCGAAAAAGGTGGATATCTTTAGCGGGAAATCAAAGAAGCTCCCCACAAGATAC -ATGCTGCATTTGATGCCGATCGGCGTCACCAAACCAAGCCAGAACAGACGTTGCCAGACATATCGGCTGGTCAATCCATA -ACGCCAACGCGTCCCCAGCTGCCAGCGTAATATTGCGCAGGCACACAACACGACAAACGTCTGGCTACCGAGCATGACCG -CAGTCTGTAAAAAAGAGAGATGAAAGTTCCACAGATTGGTGCAAAACATCCCGCATAAAACGGGAACGACACCGCGCCAG -CCAAAGATAAACAAGATTGACAGCATTACGCACAGTGGCATCCACGCCAGAAAGATATAACTGGAATGGATAATGGCAAG -TGGCGAAATAAAACGGGATAGCTGAATAAGTACCACGGTGAGCGTAAACGCTAGTGTGAATATCTTGATATTTTTTATCA -GGTTATGCTCCACAAACATGAGTACACTACTCTCACTGATCGGGGTTTTCAGGCACACAAATAATAAGTTTATTCGCATC -GCGAAGCAAACAGGGGGCCAGCCTGTTGCCGATTTTTCATCCAATGATGCTTTCACCAGGCGGCACTAACCCGGACGTAG -ACTGTATTACAAAAGCGGCAAAAAGCAGAGACAAAAAACCCCCGCTTTGCAGCGAGGGTTGGAAATTTGGTGGAGCTAAG -CGGGATCGAACCGCTGACCTCTTGCATGCCATGCAAGCGCTCTCCCAGCTGAGCTATAGCCCCACGATGCGTTTACGTAC -CAAGTTTGCTGGGTGCAAAATTTGGTGGAGCTAAGCGGGATCGAACCGCTGACCTCTTGCATGCCATGCAAGCGCTCTCC -CAGCTGAGCTATAGCCCCGTCACGTAAAGCTTGTCGAGTTGACGGGCGGCATCATATGAATTCCGCCCGAATGTGTCAAC -GGCAAATTGCAACGTGTAGTTTCAATCGCTGAAAAATCAGGCAAATGAACAATTTTGGAAAACCGCTCGCATTCAGTAGT -TATTCATGTCACGGTTTCCTGTAAAGTGGTGTTATAAAATGAACTACTAATAGACCCACATACATTCAGGGAATTGTTAT -GTTCAAGGAGAGGATGACACCAGATGAACTTGCCAGACTGACCGGCTATAGCCGCCAGACCATTAATAAATGGGTACGCA -AGGAAGGCTGGACAACGTCACCAAAACCTGGCGTCCAGGGTGGCAAAGCCCGACTGGTTCACGTCAATGAACAGGTTCGT -GAATATATTCGCAATGCTGAACGTCCAGAAGGTCAGGGAGAAGCGCCTGCCCTTTCTGGTGATGCGCCGCTTGAAGTATT -GCTGGTGACACTGGCGAAAGAGATGACGCCAGTTGAACAAAAACAGTTTACATCCTTGCTTCTGCGGGAAGGGATTATCG -GATTGTTACAACGCTTAGGGATTCGCGATAGCAAATAATATGAAAAGATTACGCAATAAAATGACCACCGAAGAACTGGC -TGAATGCCTCGGTGTGGCTAAACAAACTGTTAACCGTTGGATCAGAGAAAAAGGCTGGAAAACGGAAAAATTTCCCGGCG -TGAAAGGCGGTCGTGCCAGACTTATTCTGGTCGATACGCAAGTTTGCGAGTTTATTCAGAACACGCCAGCCTTCCATAAC -ACACCAATGTTGATGGAAGCTGAAGAGAGAATTGCTGAATACGCTCCTGGAGCACGCGCCCCGGCGTATCGACAAATCAT -CAACGCGATAGATAATATGACAGACATTGAGCAGGAAAAAGTCGCGCAATTTTTGTCACGTGAAGGAATTCGCAATTTCC -TCGCCCGTCTCGATATTGACGAATCAGCATAAATAAAAAACGGCAGGATATTATCTCCTGCCGTTTATCTTTTTACACGC -TAATTACTGCTGATTTTCGCGTTCAGCAATAAAATCCAGCGCTTTGTTGATACGCTCGATACTGCGGGTCTTACCAATTG -CGTGAACGGTAACATCCAGTGCTGGAGACTGCCCCGCACCGGTTACGGCGACACGCAGCGGCATACCAACTTTACCCATA -CCCACTTCCAGCTCATCCGCCGTCGCCTGAATAGCGTGATGAACGTTTTCAGCGGTCCAGTCAGTAATCGCGGCCAGTTT -GTCACGAACCACTTCCAGCGGCTGACGCGCTACCGGACGCAGATGTTTTTTCGCGGCGTCGGCATCGAACTCAGCAAAAT -CTTCGTAGAAATAACGGCAGCTCTGTGCCATCTCTTTCAGCGTCTTGCAGCGTTCGCCCAGCAGTTTCACCAGATCAGCC -AGCTGCGGGCCGTTACGGGTATCGATATTTTCCTGCTCAATGTGCCACTGTAAGTGAGTAGCAACATACTCCGGCGGCAG -CGCGTTAATGTAGTGATGGTTCAGCCACAGCAGCTTGTCGGTGTTGAACGCACTGGCAGATTTGCTGACGGCATTCAAAG -TGAAGTATTTGATCATCTCTTCACGAGTGAAGATTTCCTGATCGCCGTGGGACCAGCCCAGACGCACCAGATAGTTCAGC -AGTGCTTCTGGCAAATAACCGTCATCACGATACTGCATTACGCTGACTGCCCCGTGACGTTTGGACAGTTTTTTACCGTC -ATCGCCATTGATCATAGAAACGTGCGCGTAAACCGGCACCGGCGCTTTCAGGGCCTTAAGAATGTTGATCTGGCGTGGCG -TGTTGTTGATATGGTCTTCGCCACGGATAACGTGGGTGATTTCCATATCCCAGTCATCGACAACCACACAGAAGTTATAG -GTTGGGGAACCATCGGTACGGCGGATAATAAGATCGTCCAGTTCCTGGTTGCTGAACTCGATCGGACCACGGATCTGATC -GTCAAAAACAACAGAACCTTCCTGCGGGTTAGCAAAACGTACAACACACGGTTCATCATCAGCATGATGCTCATGGCTGT -GGCGGCAGCGACCGTCATAACGCGGCTTCTCACCTTTCGCCATTTGCTCTTCGCGCAGCGCTTCCAGGCGCTCTTTAGAG -CAATAGCATTTATAAGCAGTGCCCTCTTCCAGCATCTGATCGATCACCGCGTTGTAGCGATCAAAACGTTTGGTCTGGTA -GTACGGACCTTCATCCCACTCCAGGCTCAGCCAGTTCATGCCATCCATAATGGCTTCGATAGCTTCCGGCGTGGAACGCT -CAAGATCGGTGTCTTCAATACGCAGCACGAACTCACCGCCGTGGTTACGTGCAAAAAGCCAGGAGTAAAGAGCAGTACGC -GCGCCGCCAACGTGCAGATAGCCTGTTGGGCTTGGCGCGAAGCGAGTTTTGATTTTCATGAAATGGCCTTACGTTTAGAA -AGATGCCGACAACCGGCAAATCCTGGAAAAATTAAGTGGGCGATATTCTATCACTCCCGCCTGATTCCTCAATGTAGTTC -GGGTTTCTACCTTACGCATTATTGTTTTCGTTGACAAATTGCGCAACACGGTCTGTTTTGCGATCATCTTGCTTAAATTT -ACGACGAACGAACAATTTCTTTAGAAAATGCGTTGACTCATTTTGAACTCTCCCTATAATGCGACTCCACACAGCGGGGG -TGATTAGCTCAGCTGGGAGAGCACCTCCCTTACAAGGAGGGGGTCGGCGGTTCGATCCCGTCATCACCCACCAACTACTT -TATGTAGTCTCCGCCGTGTAGCAAGAAATTGAGAAGTGGGTGATTAGCTCAGCTGGGAGAGCACCTCCCTTACAAGGAGG -GGGTCGGCGGTTCGATCCCGTCATCACCCACCACTTTCTCGCCAGCTAAATTTCTTGTAAAAATGTGAAGTACCGAAGTG -GGTGATTAGCTCAGCTGGGAGAGCACCTCCCTTACAAGGAGGGGGTCGGCGGTTCGATCCCGTCATCACCCACCACTTCG -GGTCGTTAGCTCAGTTGGTAGAGCAGTTGACTTTTAATCAATTGGTCGCAGGTTCGAATCCTGCACGACCCACCAATGTA -AAAAAGCGCCCTAAAGGCGCTTTTTTACTATCTGCGATACTCAAAGATTCGAACCTGCAGCAGGTTTGAGTTGAGCGCAG -CGAAACAACGGAGCCGCTCGCGGCGACGGCCCGAAGGGCGAGCGAAGCGAGTCATCCTGCACGACCCACCAATGTAAAAA -AGCGCCCTAAAGGCGCTTTTTTGCTATCTGCGATTTGCGAAATTGCCTGATGCGCTTCACTTAGCAGACTACTATTTCCG -GCAATTCCTGTCTCCTCACCTACTGTGTCAATGCAGCCAACAGCTTAACCATCGCGGGCGTCACCTGCTGTGTTTCATAA -ACAATATATAAATCTGCAGGGATGCGCTGTTTGAGCGGACGGAAAATGACACCTGGCCAGTTCATTTGTGCGTAGCTGTC -CGCTATCAATGTGATACCAATGCCCATACTGACCATAGCGAGTACCGTTTGCGGTTCATTAACTTCGCGAATAACAACCG -GTGAAAATCCCACCTGCTGGCAAACTCGCTGCAAAAAATCCCAGTCAGTGTAAACGGGCGGCATTGTAACAAAATACTCG -TCACGTAGCGCTTCCAGCGGGACGGTGGAAAATGATGAGAGATGATGCTCTTCAGGCATCGCCACCAGAAACGCCGATTC -ATGCAACCGTAAGCTGGTAAAACCAGTCGGTGGTTCTGTCGCCATTCGCCAGATCCCGGCATCAAGTTCGCGGCGTTCCA -GCAAGGCCATTTGCATCGCGGGCATCTTTTCGCGAAAAAGAACGTCAACGTTAGGATTTTCCCTGAGGAATCGCCGCATA -ACCGGGCGCATCCGTCCCCACATTGCCGTTCCCACTACGCCGAGTTCAATCCGCCCTGCTTCTCCCCGACCTATTTGTTC -AATCCGAGCCAATACATTATTAGCATTCACCAGCAATCGACGCGATTCTTCCATCAAGATTTTGCCCGCGTGTGTCAGTA -CGACGCTGCGCGAATGGCGAATAAAAAGCTGCGTGCCGAGTTGATTTTCCAGCTCTTTAATATGAATGCTGAGCGGAGGC -TGAGACATATTTAAACGCGCTGCTGCGCGGCCAAAATGCAACTCTTCCGCTACGGCAAGAAAATAACGGAGCAACTTAAG -ATCTGTTCTGTATACGCGTTCCATAATTAAGTGCTCCATATAATAAATACATCGTATTAAATTATCATGGCATAAAGTAT -TTCACCACCAGATATCCGACATACATAAACACAATGGATAATATACCCGGTAATACATTTGGTACAGGAATAGGCAAGCG -CACGATTGTAAACAAAGCACCAATACCAAAACCAACGCCGGAAGAAAATAAAATATCTTTCACTAATTAACCTTTATCAT -AAAAGCAGCTCTGAAGAGCAGAGCCGCGAATCCTTTTAATGAGTCACCGCTCGATGCTTTATCTTTTCAGGGTCATGATT -ATATTTAAACCCAAAGAAAAATATCACTGCGAGAAAAAGAGCATATCCTGCAAACACCAGCCAGATAGTTTGCCAGTCTT -TTACGCCATCCACCGAAAAGTAATCTACTGCCATGCCACTCAGAATCGAGCCAACCCATGCGCCGACACCATTTACCATG -GTCATAAAGAGCCCCTGCGCGCTGGCACGAATGCTGGAATCAACTTCCTGTTCGACAAATACCGAACCAGAAATATTGAA -GAAATCGAATGCACAGCCATAAACAATCATCGACAGCAGCAGCAAAATAAATCCGGTTGTTGACGGATCGCCATAGGCGA -AGAAGCCAAAGCGCAGCGTCCAGGCCACCATACTCATCAGCATGACGGTTTTAATGCCAAATCGCTTTAAAAAGAATGGG -ATAGTCAGTATAAAGCCCACTTCTGCCATCTGTGAAACTGACAGTAAAATGGAGGGATATTTCACCACAAAACTGTCAGC -AAACTCCGGGTTACGGGCGAAATCATGTAGGAACGGATTACCAAAAACGTTGGTAATTTGCAGTACCGCACCCAGCATCA -TGGCAAAGAGGAAAAAGATGGCCATGCGTGGATTTTTAAACAGCACGAAGGCATCCAGACCCAGCTTGCTGGCAAGCGAT -GTGGTCGCTTTTTTCTCCGCAACCGGAATCTTCGGCAAAGTCAGCGCATAAGCCGACAGCAGCAATGACGCACCGGACGC -GATATACAGCTGCAGACTACTCAATTCCAGATGCAGCAGGCTTACTGCCCACATCGCGACAATGAACCCCACCGTACCAA -AAACGCGAATGGGCGGGAAAGCGGTCACCGGGTCAAGCCCTGCCTGGGCAAGACAGGAATAAGAGACGCTGTTCGATAAC -GCAATAGTCGGCATAAACGCCATCGCATTGACTAACATCACCCAAAACATCATATCCGGATCAGTTACGGATGCCGCATA -AAAAAGTACGCCCGCACACACCAGGTGACACAGCATGTATGCACGTTCTGCGCGCAGCCATTTGTCTGCGATGATCCCCA -TTATACCAGGCATAATAATCGCGGCGATCCCTTTGGAACTGTAAACCATGCCAACATTAGCGCCGGTGAAATGAAGAGTA -TTAATCATGTAAGAGCCGAGGGTAACCAGCCAGCTCCCCCAGATAAAATATTGCAAAAAGGACATTACCTTTAAGCGCAT -CGCGATGCTCATAATCGTTTCCTTGTCGCATCATTTGGCCTCACCCGCGAGGCCGTTTCTTATTGTTTTTCTCAGGCAAT -TTTGCGCAGAAAGCCACAAATAAGGTTGATGAAGTTCTGCTTAGAGAGCTCCGCAGCCGCCAGCGTTTGCGCATGTGACA -ATTTCACATCGCTTAAACCTTCCGCCATATTGGTAATCGCAGAGACCGCAACGACTTTAAGGTCGCAATGGCGAGCTGAA -ATAACCTCAGGCACCACAGACATACCAACAACATCCCCACCAATAATTTGCATCATGCGAATTTCCGCCGCAGTCTCGAA -ATTCGGCCCCGGATACGAGACGAACACGCCCTCCGTCAGAGGGAAACCCTCTTCTTTCGCCACTTTTTGTAACAGTGCGC -GGTATTCCGCATCGTAGGCATTTGCCAGTGAGAAGAAGCGCTCTCCAAAACGATCATCGTTAAGACCCACCATCGGCGTA -CCGGGCATGGTGTTGATATGATCTTTCAATGCGACCAGGCTGCCTGCCCCCACTTCCGGACGCAGCGAGCCTGCCGCATT -GGTGCAGAACAGTAGCTCGCAGCCCAGCAGCTTAAAGGTACGAATTGCGTCAGTCATAATGGTCATTCCACGACCTTCGT -AGAAATGTCCGCGACCTTTCATACATACCACCGGTACGCCCTGGAGATGGCCCAGCACTAACTCCCCCGCATGACCATGT -ACCGTACTTACCGGGAAGCCCGGCAGCTTTTCGTAGGAAATTGCGACAGCGTTCTCAATCTGATCGGCCAGCGCGCCGAG -CCCGGAACCTAAAATAAAGGCCACTCGTGGCGTGAAATCAGGTTTATAAGTCTTGATAATATCTATGCAAAACAGCGGGT -TATGAGAAAATTGAACCTGAGACATACATATCCTTTTTCTGTAGGGTGGAATCTAACGCCTTTTTATAGCGAGGTTGTCC -CGGCTCTTACCAATACACTTTTCTCACGCATTCAATAGCGATTCGATATCGATGGATTTATATCTTTTCTCTATTAATCC -ACGGTAAAAACTGTATTGGCGATATTAATTCCTTTGCATTAACAATATGTCGTTTTTAGCAAACCACTTTATTAAGCAAT -CTACTAATAACGATCGGCATAGGGAATTATGCTATGAAAAAACATCTTTTAACTCTGACACTTTCCTCTATATTAGCGAT -ACCTGTTGTATCTCATGCAGAATTTAAAGGCGGTTTTGCAGATATCGGCGTGCATTATCTGGACTGGACCAGCCGGACTA -CCGAAAAATCGTCGACCAAATCACACAAAGATGATTTTGGTTATCTTGAATTTGAAGGTGGCGCTAACTTTAGTTGGGGA -GAAATGTACGGGTTCTTCGACTGGGAAAACTTCTATAACGGTCGCCATAATAAACCAGGTAGCGAGCAGCGTTATACCTT -TAAAAATACCAACCGTATTTACCTGGGTGACACCGGATTTAATCTCTACTTGCATGCGTATGGCACCTACGGTTCTGCGA -ATCGCGTGAATTTCCACGACGATATGTTCCTGTACGGTATCGGCTACAATTTCACCGGCAGCGGTTGGTGGTTCAAACCG -TTCTTTGCTAAGCGTTATACAGATCAAACCTATTACACTGGCGACAACGGCTATGTCGCCGGCTGGGTTGCAGGTTACAA -CTTTATGCTGGGCAGCGAGAAATTCACTCTTACCAACTGGAACGAGTACGAGTTTGACCGTGACGCTACCTATGCAGCGG -GTAATGGCGGTAAAGAAGGGCTGAATGGCGCAGTTGCACTGTGGTGGAATGCAACATCACACATTACTACGGGGATTCAG -TATCGATATGCGGATGACAAACTGGGCGAAGATTTTTACCAGGATGCGATAATCTACTCCATCAAATTTAACTTCTGATT -GATTACTGCCGGGGCTCCCGGCAGTATGAATTCACTCTATATCTGATACAACGGATCCCCTTCCCGCCCAGCCATTAGCG -CATTGCCCTGGTCTCGTACCACGTCCCATAAAGCTTCAGCGGCGGTGGAAAGTGAACGGTTCTTCCTGCGCACCAGCATC -AACTGGCGTTCAACAACCGGCGTAATGCGCTTTACCACCAGTGGGCTACCTTCAGGCAATGGTAGCGCCAGTGCGGGAAG -AATACTGATGCCGATGCCTGCGGCTACCATCGGGAACAGCGTCGCCGGATGTCCAATCTCCTGCACAATATTCGCCTGAA -TACCATTGCGCGCCAGCGCTGCGTCAATCAGCGGTCGGCTGCCTGACGCGTAATCCTGCAACACCAATTTCGCTCCCTGT -AATGCCTGCCAGGGTACATAATCTTCCACGGCCAAAGCGCTATCGCGATGGCAAAGCAGAAAGAAAGGCTCGGAAAGAAT -CGCTTCACATTGCAGATCGCCCACTGGGCCTGGATCGATGACGATGCCAAAATCGACATCTCCCTGGCGAATACTTTCCA -TTACCCACTGCTGCGGACGATCGTGCAGGACAAACTGAATATCTGGATAGCGGCGATGGCTTTCAGCAATGCATTGCGGA -ATAAGATGCGCGGAAATGGTCTGGCTGGCAGCGACCCGAACTTTTCCGCTCAGTTGTTGCCCCATACGCCCGGTATCGCG -CAACGTGCTGTTCAGTTCATCCAGCAGTCGCTCAAGACGCAAAGCCAGCTGCTGCCCTGCATCTGTAAGCACCACTTCAC -GCGTGGTTCTGTCCAGCAGGCGAACACCAGTATGATTTTCCAGTTCCTTCACACTGTGACTCACTGCCGACTGGCTCAGG -CCGATACGCTCTCCTGCACGACTAAAACTTTTCTCCTGCGCTACTGTGACGAAAACCTTTAATTGTTTTAAAGAATAATT -CATCTGTTTTCTTCATGAATGGATGCAATAAATCAATTTTATTTCTCAAACTGGAAGAAGCACAATAGAACCATCGATCA -TCTGGAGTCTTTATGAAACTTTTTCGTATCCTCGATCCTTTCACCTTAACCCTGATCACGGTGGTGTTGCTGGCCTCTTT -CTTTCCGGCCAGAGGCGATTTCGTCCCCTTCTTTGAAAATCTGACCACCGCAGCTATTGCCCTGCTGTTCTTTATGCACG -GCGCGAAGTTGTCGCGTGAGGCGATTATTGCTGGCGGTGGTCACTGGCGACTGCATTTGTGGGTAATGTGCAGCACCTTC -GTGCTGTTTCCGATTCTGGGTGTACTGTTTGCCTGGTGGAAACCGGTAAATGTCGACCCGATGCTCTACTCCGGTTTTCT -CTACTTGTGCATTCTCCCGGCTACCGTGCAGTCTGCAATCGCCTTCACGTCAATGGCGGGCGGTAACGTCGCGGCAGCGG -TTTGTTCTGCGTCGGCATCCAGCCTGCTGGGGATTTTCCTTTCACCATTGCTGGTTGGTCTGGTGATGAATGTTCACGGT -GCAGGGGGCAGCCTTGAGCAGGTCGGTAAAATTATGCTGCAACTGCTGCTGCCGTTTGTGTTGGGGCATCTTTCCCGGCC -GTGGATTGGTGACTGGGTGTCGCGCAATAAAAAATGGATTGCGAAAACTGACCAGACGTCCATTCTGTTGGTGGTTTATA -CAGCGTTCAGCGAAGCCGTCGTTAATGGTATCTGGCATAAAGTTGGCTGGGGATCATTGCTGTTTATCGTGGTGGTCAGC -TGCGTTCTTCTGGCTATCGTGATTGTAGTTAACGTCTTTATGGCACGCCGACTGAGCTTCAATAAGGCAGATGAAATTAC -TATCGTCTTTTGTGGTTCGAAAAAGAGTCTGGCAAATGGCATCCCGATGGCAAACATTCTGTTCCCCACATCGGTGATCG -GTATGATGGTGCTGCCCCTGATGATTTTCCATCAGATCCAATTGATGGTCTGTGCGGTGCTGGCGCGTCGATACAAACGC -CAGACCGAACAGTTACAGGCGCAGCAGGAAAGCAGCGCCGATAAAGCTTAAAGCGGACGCTTCAGGGGCTGGACCAGTTG -CGTCAGCCCCTCGGTTTTAATCAGCAGCGTGATTTGCATTAGCTCACCGAGCTTCCCTGCCGGGAACTCATCTTTGCGGG -CAAACCACAGCAGATACTCCTCCGGCAGGTCGATTAAGCGACGCCCTTTGTATTTGCCAAACGGCATTATCGTATTGGCT -ATTTCAATCAGCTGCTCTTTTTCCATCTCAGCTACCCAGCAAACGCAGCATTTCCGCTTCGTCGATGACTTCAATGCCCA -GTTCCTGCGCCTTCGCCAGTTTAGATCCTGCAGCTTCACCCGCTATCACCAGATCGGTTTTCTTCGACACGCTGCCCGCG -ACTTTCGCGCCCAGTTCGACCAGTCGAGCTTTAGCGTCATCACGCGACATCTGGCTTAAGCTGCCCGTAAGCACCACGGT -TTTACCAGCAAACGGGCTGTCAATCTCTTCCGCGTTGATAACGATCGGCGCAGGCCAGTGAACACCTTCCGCCAACAGCT -CGCTGATGACATTGCGGTTGCTTTCTTCGGCAAAGAAGTTGTGAACGTGGGATGCAACGACAATGCCAACATCAGGCACC -TTTTGCAGCTCTTCAATCGAAGCGGCTTCCAGCGCTTCCAGCGTGCCGAAATATGCCGCCAGACCTGCTGCGGTGGCCTC -GCCGACTTCACGGATGCCAAGTGCATAGAGGAAGCGAGCAAAGGTGGTTTCTTTCGCTTTTTCCAGCGCGTTAACCACGT -TTTGTGCCGATTTTGGCCCCATACGCTCCAGTCCGGTCAGTTTGCCTGCGGTGAGTTTGAACAGATCTGCCGGAGTATGG -ACATATTCTTTTTCAACCAGCTGATCGATGATTTTGTCGCCCATTCCGTCAACATCCATCGCACGGCGGGAAACAAAGTG -TTTCAGCGACTCTTTACGCTGCGCACCGCAAATCAGGCCACCGGTACAGCGGGCAACCGCTTCACCTTCCACACGCTCAA -CGTCAGAACCACATACCGGACAATGCGTCGGGAATACAACCTCACGGGTATCTTCCGGGCGTTCAGAAAGCACGACGTTA -ACCACCTGCGGGATCACGTCGCCAGCGCGGCGAATCACCACTTTATCGCCAATGCGTAAACCAAGACGTTCGATTTCATC -CGCATTGTGTAAGGTTGCGTTACTCACCAGCACGCCTGCAACATGGACAGGTTCCAGACGCGCAACAGGCGTAATCGCGC -CAGTACGCCCAACCTGAAACTCGACGTCACGCACAAAGGTCATCTGCTCCTGCGCCGGGAATTTAAACGCTACCGCCCAG -CGCGGGGCACGCGCGACAAAGCCAAGCTGCTCCTGCTGTGCCAGTGAGTTGACCTTAATCACCACGCCGTCGATATCAAA -GCCCAGCGTCGGGCGGTCTTCTTCCACTTTGTGATAGAACGCCAGCACTTCTTCCGCCGATTCACAAAGCGTTACCCGAT -CGCTGACCGGCAACCCCCACTTTTTAAATTGCAGTAAACGGCCAAGATGAGTATCCGGCAGCTCGCCACCTTCCAGAACA -CCAACGCCATAGCAGAAAAAAGTGAGCGGTCGCTTCGCTGTAATACGCGGATCAAGCTGACGCAGTGAACCAGCTGCCGC -ATTACGTGGGTTAGCAAACACTTTCCCGCCCGTGCGTCGCGCATCTTCGTTAATCTTTTCGAACCCCGCCTGCGGCAGGA -ACACTTCACCACGCACTTCCAGACGCGCCGGGATATTCTCTCCGTGCAGCTTCAGCGGAATGGCGCGAATAGTACGCACA -TTAGACGTGATATCTTCCCCGGTGGTGCCATCGCCACGGGTCGCGGCACTGACTAAAACGCCATTTTCATACAGAATACT -GACGGCAAGACCATCCAGCTTCAGCTCACAGCACCAGGTGACTTTCTCGTTGTTTTTCAGACGGTCCTGCACACGTTTGT -TGAAAGCAAGAAAGCTTTCTTCATCAAAAACGTTATCCAGTGACAGCATTGGTACTTCATGGCGTATCTGGCTGAAAGCC -GCCAGCGGCGCAGCGCCTACACGTTGAGTAGGCGAATCAGGCGTAATCAGTTCTGGATGTTTGGTTTCCAGCTCGCGCAG -TTCGCGCATCAGCCTGTCGTATTCAGCGTCGGGAATTTCCGGCGCATCCATCACATGATAAAGATATTCATGATGGCGAA -GCGTCGTTCGCAGTTCTGTCAGTTGTTGTTCGATTGATTCCATATCGCACCATCAATGCTAAAAACCCCCGACAAGCGGG -GGTTCGAAGAGGAGTTAATTTGCCTTAAGTGTATCAGGCGTTGGCGTCTTTGACTTCGCGGATGATGTCCTGGTACTCGC -GCAATTTCTGCGGAGTCATCATACGGCGCTGATCGTCAAGCACGACACCGCCCACTTCATCGGCAATATGCTGCGCAGAT -TGCAGCATCAGCTTGAAGTTCTGCAGCTCGTCACCGTAAGACGGTACCTGCATAAAGATAGTGACACCCGGAGTAGTGAA -ATCCTTCATTTCAGGATCAAAGGTTCCCGGTTTCACCATATTCGCCAGGCTGAATAACGCCGGGCCGCTGCCATCCGGGC -TAAGATGACGATGGTAAATATTCATATCGCCAAAAATGAAGCCCGCTTGTTGAATGCTGTTAAGAAGCAGTTCACCGTTT -AGCTCGCTACCGTGATGCGCCGCGACGTTCATGATAATCACCGCTTCTTTGCGCTTCGGTTTATCCATAACTGGAGCAGG -TTCCGCTACAGGCTCAGGCTGTGGTGCCGCTACGGGTTCTGCAGGCTGGAAAGCCTGTTGTGCCGGTTGCGGTGCTGAAT -GCACAGGCTGCGGCGCTGGCGCGACCTGTGGCGAAACTGGCTGCTGCAACGGCTGTTCAGGCTGCGGCTGATAGGCAGGC -TGCTGCACCGGCTGCGCTGGATGCGGAGCATGTTGCGGCGGTACCTGCGCTTCAGGCGGCTGCTGGACCGGTTGACGCGG -CTGCGCAGACGCATAAGGCGGTTGGTACTGGTGTTGCGGCGACGGACGAGCAGCCTCATGCTCCTGAGCGTTAGCCGGGG -CATGATTCACGCGGTGAACACGAACCTCACCAACGCCCTCATCATCTTCGACATCCTCGTCATAAGAATCGTCGTCACGT -TTTGACTTCATTCGTTTTAATGGCCGATCGCGGAACATAGAAGATCGTTCTTTACGGCTGGTCCAGAAACCATGTACCAG -TAAAGCGATTATGGCGATCGCGCCAACAATGATTAATATCAGACGCAAATCCTGCATCATTATATTCTCTGTTGTTCTAA -CACCTTGCCACCACGGCAAACATTTACTCACTAAGAGTATTTGCCGATTACCTCAAGTGCAAGTGCACTATTAACTTTCA -CAGCACAAAGATAGATGAAATCGTGCTTTTTGCTGTTTTTTCGAACATATCCTAACTGTCCATTGCGCAATTACCCGGTA -AAATACGCAGAATTTTCCTGGGATTGGTCAAAAGGAGCTCATCCTGATTATGGTTTCATCATTCACATCTGCCCCACGCA -GCGGTTTTTACTATTTTGCGCAAGGCTGGAAGCTCGTCTCGCAACCTGGGATTCGGCGTTTCGTTATTTTACCGCTGCTG -GTCAATATTTTGTTGATGGGGGGCGCATTCTGGTGGCTCTTTACACAGCTCGATGTCTGGATCCCGACTCTCATGAGTTA -CGTTCCGGACTGGCTACAATGGCTGAGTTATCTGTTGTGGCCTCTGGCTGTCATCTCTGTGCTGTTAGTGTTTGGCTATT -TCTTCTCCACGATTGCTAACTGGATTGCCGCTCCGTTTAACGGTTTATTGGCTGAACAACTGGAAGCACGATTGACTGGC -GCTACACCGCCAGATACCGGGATTTTCGGTATCATGAAAGATGTGCCGCGAATCATGAAACGCGAATGGCAAAAATTTGC -CTGGTATCTGCCGCGCGCAATTGTATTACTAATTCTTTACTTCATCCCTGGTATTGGGCAAACCGTCGCGCCGGTACTGT -GGTTCCTGTTTAGCGCCTGGATGTTAGCCATCCAGTATTGCGATTACCCCTTCGATAACCACAAAGTGCCGTTTAAAGAG -ATGCGCACCGCCCTGCGCACACGCAAAATCACCAATATGCAGTTTGGTGCTTTAACCAGCCTGTTTACGATGATCCCGCT -GCTTAATCTGTTCATCATGCCCGTTGCCGTTTGTGGCGCGACGGCGATGTGGGTCGATTGCTATCGCGATAAACACGCGA -TGTGGCGGTAACAATCTACCGGTTATTTTGTAAACCGTTTGTGTGAAACAGGGGTGGCTTATGCCGCCCCTTATTCCATC -TTGCATGTCATTATTTCCCTTCTGTATATAGATATGCTAAATCCTTACTTCCGCATATTCTCTGAGCGGGTATGCTACCT -GTTGTATCCCAATTTCATACAGTTAAGGACAGGCCATGAGTAAGATTTTTGAAGATAACTCGCTGACTATCGGTCACACG -CCGCTGGTTCGCCTGAATCGCATCGGTAACGGACGCATTCTGGCGAAGGTGGAATCTCGTAACCCCAGCTTCAGCGTTAA -GTGCCGTATCGGTGCCAACATGATTTGGGATGCCGAAAAGCGCGGCGTGCTGAAACCAGGCGTTGAACTGGTTGAACCGA -CCAGCGGTAATACCGGGATTGCACTGGCCTATGTAGCTGCCGCTCGCGGTTACAAACTCACCCTGACCATGCCAGAAACC -ATGAGTATTGAACGCCGCAAGCTGCTGAAAGCGTTAGGTGCAAACCTGGTGCTGACGGAAGGTGCTAAAGGCATGAAAGG -CGCAATCCAAAAAGCAGAAGAAATTGTCGCCAGCAATCCAGAGAAATACCTGCTGCTGCAACAATTCAGCAATCCGGCAA -ACCCTGAAATTCACGAAAAGACCACCGGTCCGGAGATATGGGAAGATACCGACGGTCAGGTTGATGTATTTATTGCTGGC -GTTGGGACTGGCGGTACGCTGACTGGCGTCAGCCGCTACATTAAAGGCACCAAAGGCAAGACCGATCTTATCTCTGTCGC -CGTTGAGCCAACCGATTCTCCAGTTATCGCCCAGGCGCTGGCAGGTGAAGAGATTAAACCTGGCCCGCATAAAATTCAGG -GTATTGGCGCTGGTTTTATCCCGGCTAACCTCGATCTCAAGCTGGTCGATAAAGTCATTGGCATCACCAATGAAGAAGCG -ATTTCTACCGCGCGTCGTCTGATGGAAGAAGAAGGTATTCTTGCAGGTATCTCTTCTGGAGCAGCTGTTGCCGCGGCGTT -GAAACTACAAGAAGATGAAAGCTTTACCAACAAGAATATTGTGGTTATTCTACCATCATCGGGTGAGCGTTATTTAAGCA -CCGCATTGTTTGCCGATCTCTTCACTGAGAAAGAATTGCAACAGTAATGCCAGCTTGTTAAAAATGCGTAAAAAAGCACC -TTTTTAGGTGCTTTTTTGTGGCCTGCTTCAAACTTTCGCCCCTCCTGGCATTGATTCAGCCTGTCGGAACTGGTATTTAA -CCAGACTAATTATTTTGATGCGCGAAATTAATCGTTACAGGAAAAGCCAAAGCTGAATCGATTTTATGATTTGGTTCAAT -TCTTCCTTTAGCGGCATAATGTTTAATGACGTACGAAACGTCAGCGGTCAACACCCGCCAGCAATGGACTGTATTGCGCT -CTTCGTGCGTCGCGTCTGTTAAAAACTGGCGCTAACAATACAGGCTAAAGTCGAACCGCCAGGCTAGACTTTAGTTCCAC -AACACTAAACCTATAAGTTGGGGAAATACAATGTTCCAGCAAGAAGTTACCATTACCGCTCCGAACGGTCTGCACACCCG -CCCTGCTGCCCAGTTTGTAAAAGAAGCTAAGGGCTTCACTTCTGAAATTACTGTGACTTCCAACGGCAAAAGCGCCAGCG -CGAAAAGCCTGTTTAAACTGCAGACTCTGGGCCTGACTCAAGGTACCGTTGTGACTATCTCCGCAGAAGGCGAAGACGAG -CAGAAAGCGGTTGAACATCTGGTTAAACTGATGGCGGAACTCGAGTAATTTCCCGGGTTCTTTTAAAAATCAGTCACAAG -TAAGGTAGGGTTATGATTTCAGGCATTTTAGCATCCCCGGGTATCGCTTTCGGTAAAGCTCTGCTTCTGAAAGAAGACGA -AATTGTCATTGACCGGAAAAAAATTTCTGCCGACCAGGTTGATCAGGAAGTTGAACGTTTTCTGAGCGGTCGTGCCAAGG -CATCAGCCCAGCTGGAAACGATCAAAACGAAAGCTGGTGAAACGTTCGGTGAAGAAAAAGAAGCCATCTTTGAAGGGCAT -ATTATGCTGCTCGAAGATGAGGAGCTGGAGCAGGAAATCATAGCCCTGATTAAAGATAAGCACATGACAGCTGACGCAGC -TGCTCATGAAGTTATCGAAGGTCAGGCTTCTGCCCTGGAAGAGCTGGATGATGAATACCTGAAAGAACGTGCGGCTGACG -TACGTGATATCGGTAAGCGCCTGCTGCGCAACATCCTGGGCCTGAAGATTATCGACCTGAGCGCCATTCAGGATGAAGTC -ATTCTGGTTGCCGCTGACCTGACGCCGTCCGAAACCGCACAGCTGAACCTGAAGAAGGTGCTGGGTTTCATCACCGACGC -GGGTGGCCGTACTTCCCACACCTCTATCATGGCGCGTTCTCTGGAACTACCTGCTATCGTGGGTACCGGTAGCGTCACCT -CTCAGGTGAAAAATGACGACTATCTGATTCTGGATGCCGTAAATAATCAGGTTTACGTCAATCCAACCAACGAAGTTATT -GATAAAATGCGCGCTGTTCAGGAGCAAGTGGCTTCTGAAAAAGCAGAGCTTGCTAAACTGAAAGATCTGCCAGCTATTAC -GCTGGACGGTCACCAGGTAGAAGTATGCGCTAACATTGGTACGGTTCGTGACGTTGAAGGTGCAGAGCGTAACGGCGCTG -AAGGCGTTGGTCTGTATCGTACTGAGTTCCTGTTCATGGACCGCGACGCACTGCCCACTGAAGAAGAACAGTTTGCTGCT -TACAAAGCAGTGGCTGAAGCGTGTGGCTCGCAAGCGGTTATCGTTCGTACCATGGACATCGGCGGCGACAAAGAGCTGCC -ATACATGAACTTCCCGAAAGAAGAGAACCCGTTCCTCGGCTGGCGCGCTATCCGTATCGCGATGGATCGTAGAGAGATCC -TGCGCGATCAGCTCCGCGCTATCCTGCGTGCCTCGGCTTTCGGTAAATTGCGCATTATGTTCCCGATGATCATCTCTGTT -GAAGAAGTGCGTGCACTGCGCAAAGAGATCGAAATCTACAAACAGGAACTGCGCGACGAAGGTAAAGCGTTTGACGAGTC -AATTGAAATCGGCGTAATGGTGGAAACACCGGCTGCCGCAACAATTGCACGTCATTTAGCCAAAGAAGTTGATTTCTTTA -GTATCGGCACCAATGATTTAACGCAGTACACTCTGGCAGTTGACCGTGGTAATGATATGATTTCACACCTTTACCAGCCA -ATGTCACCGTCCGTGCTGAACTTGATCAAGCAAGTTATTGATGCTTCTCATGCTGAAGGCAAATGGACTGGCATGTGTGG -TGAGCTTGCTGGCGATGAACGTGCTACACTTCTGTTGCTGGGGATGGGTCTGGACGAATTCTCTATGAGCGCCATTTCTA -TCCCGCGCATTAAGAAGATTATCCGTAACACGAACTTCGAAGATGCGAAGGTGTTAGCAGAGCAGGCTCTTGCTCAACCG -ACAACGGACGAGTTAATGACGCTGGTTAACAAGTTCATTGAAGAAAAAACAATCTGCTAATCCACGAGATGCGGCCCAAT -TTACTGCTTAGGAGAAGATCATGGGTTTGTTCGATAAACTGAAATCTCTGGTTTCCGACGACAAGAAGGATACCGGAACT -ATTGAGATCATTGCTCCGCTCTCTGGCGAGATCGTCAATATCGAAGACGTGCCGGATGTCGTTTTTGCGGAAAAAATCGT -TGGTGATGGTATTGCTATCAAACCAACGGGTAACAAAATGGTCGCGCCAGTAGACGGCACCATTGGTAAAATCTTTGAAA -CCAACCACGCATTCTCTATCGAATCTGATAGCGGCGTTGAACTGTTCGTCCACTTCGGTATCGACACCGTTGAACTGAAA -GGCGAAGGCTTCAAGCGTATTGCTGAAGAAGGTCAGCGCGTGAAAGTTGGCGATACTGTCATTGAATTTGATCTGCCGCT -GCTGGAAGAGAAAGCCAAGTCTACCCTGACTCCGGTTGTTATCTCCAACATGGACGAAATCAAAGAACTGATCAAACTGT -CCGGTAGCGTAACCGTGGGTGAAACCCCGGTTATCCGCATCAAGAAGTAATTCTTGCCGCAGTGAAAAATGGCGCCCATC -GGCGCCATTTTTTTATGCTTCCGCCAGCGGCGGCAAAATCAATTCATCGCTCTCATGCTGCTGGGTGTAGCGCATCACTT -CCAGTACGCGCAACCCCGCTCGGTGCACTGCATCGGTTAACGCCTTCCCTTTCAGCAAGCCACTGATGAGCTGAGCACAA -AACAGGTCGCCAGTCCCTTTCAGGTCGGTTTTTACCCGTGAATGGGAAATGACATTCACGCTGTCGGCAGTGACCACCAC -AACCTGCATCTCCTGATTTTCTTCATTACCGGAGGCGCTGGTAACCACCACCCATTTTAATGTGTCTGAAAGCAGACTTT -TTGCGGCAGCAATGGCACTGTCGAGATCGCGGCAATTTTTACCGGTCAGGATTTCCAACTCAAAGATATTGGGGGTAATT -CCCTGCGCCAGCGGCAGTAAATATTGTCGATACGCTTCGGGAAGGTCAGGTTTGACATAAATTCCGCTATCAATATCGCC -AATCACCGGATCGACCATGATCAATAGGTCAGGATGGTCTTTGCGTAGCGCAGTCAGCCACTCGGCAAGGATTTTGATTT -GCGATGCCGTTCCCATATAGCCCGTGGTTACAGCACGAAGTTGGCGCAGCGCATCACGCTCCTGAAGCGCACGCAAATAG -CCGCTAAACCATTCGTCCGGAATCGCACCACCGTAGAAAGTGTCATAATGCGGCGTATTGCTCAGCAATACCGTCGGCAC -GGCAAAGACATTCAGGCCGTTCTGTTTGATAGCAGGCACGGCAATGCTGTTGCCCACGCTGCCGTAAACCACCTGCGACT -GCACGGCGACGATATCCGCCTGCAGTGCCCTACTCTTATCGTTAAACAACAACAAACTACTCATTTAATTTTTTCTCCTT -GCCGATGATCCTCATCGTAATCCAACCGAAACTTTACCTGATTCTGGCAGTCAAATCGGCTATCACAAAACAAGGATAAG -GTAATTCAATGAAGAAAATCATTTGTCTGGTCATTACACTACTAATGACACTCCCCGTTTACGCGAAGTTAACTGCCCAT -GAAGAAGCCCGCATCAACGCCATGCTGGAGGGATTAGCACAGAAAAAGGATTTGATATTTGTGCGCAACGGTGATGAACA -TACCTGCTATGAAGCGGTTTCTCATCTGCGTCTGAAGCTCGGCAATACCCGTAACCGCATTGACACTGCCGAGCAGTTTA -TTGATAAGGTTGCTTCGTCGTCATCGATTACTGGGAAGCCGTATATTGTGAAGATCCCCGGTAAGAGCGATGAGAACGCA -CAGCCTTTTTTACATGCGTTAATTGCGCAGACGGATAAAACGGTGCCTGCGGAAGGAAATTAATCCGCTTTGGGAAGGCA -TTTACAGGAGGTAACATGAAAAAACGCTTTATTTATCACGATGAAAAATCGAATAAATTTTGGTGGATAGATTACGAAGG -GGATAGTTTAGCTGTCAACTATGGCAAGGTAGGTAGTATTGGTAAATTCCAGACAAAAGAGTTCGATAATGAAGAACAGT -GTCTGAAAGAAGCCAGTAAATTGATTGCCGCAAAAATGAAGAAAGGCTATCAAGAAGATCCAAAGTTTAACTTCATGGAT -CGCTACTATTTTGATGATGAAGAAATTGGGTTACATGTTAAAACGTCACACCCAAACTTCCAGTGCCATTTTACTGATCC -ACTTTATATGTGTTGCTGGGATGAAGAATCTCCTTTTGGCAGCGATGAAGGTGCTGATGCTCTAAACGTTCTTGAAAATA -GCCTCCGTAAAGAGCCGGATCTGGACTGTGCTGATTTCCCTCAAATGTTAATTGAAACTATGTGGGGTATGAAATACATC -GCTATGGACAGTATTCTTGAAGAGGATGTTCGTGCGCAATTACTAGTCGATGAAATGAGCACTATCCAGAGCAATATGAT -TACCTACGCAACTGCATTCGGTCAGATTAAAGTCATGGGTAAAATCTCCCATAAACTTAAAAAGATGGGACTCAATGCAC -TAGCGCGTCATCAGCTTACCGCAAAAATTCTTCAATGGGGTGACGGTCAGGACTCACCAATACTTCAAAAAATGATTGAT -GACCTTACGGCGTTTCCTCACGAAAATTAAATACTGCATTTGTCGGCAGCAACAACTGTTAAAAAAGTGCGCTTTGTTTA -TGCCGGATGCGGCGTAAACGCCTTATCCGGCCTACAAAATCGTGCTAATTCAATATATTGCAGAAACCTTGTAGGCCTGA -TAAGCGTAGCGCATCAGGCAGTTTTGCGTTTGTCATCAGTCTCCGATGCTATTAATCCTTAAATCCCCGCCCCCTGGCTA -AAATGCTCTTCCCCAAACACCCCGGTAGAAAGGTAGCGATCGCCACGATCGCAGATGATCGCCACCACCACCGCGTCAGG -GTTAGCTTTTGCCACCCGCAGTGCTCCGGCAACCGCGCCGCCGGAGCTGACGCCACAGAATATTCCTTCCCGCACCGCCA -GTTCGCGCATGGTGTTTTCCGCATCGCGCTGATGAATATCCAGCACCTCATCCACCAGAGAAGCGTTGAAAATCCCCGGC -AGATATTCCGTAGGCCAGCGGCGAATGCCGGGAATGCTGCTGCCCTCTTCCGGTTGCAGGCCGACAATGGTCACCGGTTT -GGATTGTTCGCGCATAAAGCGTGAGACGCCGGTGATAGTGCCGGTCGTCCCCATGCTGGAGACAAAATGAGTGATGCGCC -CGCCGGTTTGCTGCCAGATTTCCGGCCCAGTGGTGGTGTAATGCGCATAAGGGTTATCGGGATTATTGAACTGATCGAGC -AGCTTTCCTTCGCCACGATTCGCCATCTCCAGCGCCAGATCGCGCGCACCTTCCATGCCCTGCTCTTTGGTGACAAGAAT -CAGTTCCGCACCATAAGCACGCATCGCCGCACGGCGTTCCTGGCTCATGTTGTCGGGCATCAGCAATTTCATGCGATAGC -CTTTCAGCGCGGCAATCATTGCCAGCGCAATGCCGGTGTTACCACTGGTGGCTTCGATTAAGACATCACCCGGTTTAATT -TCCCCGCGCTTTTCCGCCTCGACGATCATCGAAAGTGCCGCACGATCTTTCACCGAACCTGCCGGGTTATTGCCTTCCAG -TTTTAACCACACTTCACTGCCGTTATCCGGCCCCATTCGCTGCAACTTCACCAGAGGCGTATTGCCTATTGTTTGTTCTA -ATGTACTCACGATCTCTATCCATACGTGGTGTTGCCTGATGCGACGCTTGCGCGTCTTATCAGGTCTACAGGTTACAAAC -CTTGCCATTAAAAAGCCCGGATCGCGGGAAGCGCCTCCGGGCGTTTAACATTCACTCAACCTATCAGGCGCTTTGTGCGA -GAGCAAGTTCCTCATCGCGGGTTTCGATACGCTCGTCGCCGTTATACAGCCGCGCATGTTGCAGACCAACGAATAAACGC -TCGCCACGCTGCGGGGCATCGTCGCCATGCATCACGACCGTCAGCGGTTCGTTGTACCACCCCAGCGGCTGCACCACTAA -TTGGGTGTAGTGACCTTTCGGGCTGGCTTCCAGTACCTGTACCGGCAGCGGCGAATCGAGGCTGGTACGGCGGCTGATAT -CCACTTCCCAAGGGCGCAGGAAGAGATCCACCGGCCCCTGATACGCAGGTGTGTAGCCCAGCGGCCAGCGATGCGCGCCA -ACATGGAACTGCCCGCCGCGAATGGTTCCCTGCAGGCGGTTCACTTCGCCCATAAATTCGAGCACAAAACGGGTCGCCGG -TTCGCGCCATACCTGATCCGGCGCGTCAGCCTGTTCAATATTGCCCTGGCTCATCACAACTACACGATCAGCTACTTCGG -TCGCTTCTTCCTGATCGTGGGTCACAAAAACGCTGGTGAATTTTAGTTCTTCATGGAGTTGACGCAGCCAGCGACGCAGC -TCTTTACGCACCTGCGCATCCAGCGCGCCAAACGGTTCATCAAGCAGCAGAATTTGCGGTTCCACAGCCAGCGCGCGCGC -CAGCGCCACGCGCTGTTTCTGGCCGCCGGAAAGCTGCGCCGGATAACGATCCGCCAGATGGGCAAGCTGGACCATTTCCA -GCAATTTTGTCACTTTCGCTTTGATGGCTGCGGCATTCGGGCGCTCGCGACGCGGCAGCACCGTCAGGCCAAAAGCGATA -TTGTCGAACACCGTCATATGGCGGAACAGCGCGTAATGCTGGAACACGAAACCGACTTTACGATCACGTGCGTGCAGGCG -GCTCACGTCGGTGCCGTGGAAGCGAATATGCCCGCTGGTTTGATGCTCCAGCCCGGCGATAATGCGCAGCAGCGTGGTTT -TCCCGGAACCGGACGGCCCCAGCAACGCGACCATCTGACCTGAAGGAATATCCAGTGAGATATCGTTCAGCACCTGGGTG -CGACCAAACGACTTCTTAATATTGGCAATCTCAATGCTCATGATGTTCCTCCTGCTGTGCGCGTTTTTCCTGATTCTCCA -GGCGCCACTGCAACATACTTTTTAAAAACAGGGTGATAATCGCCATCAGCGTTAACAGCGCCGCAGCGGTAAAGGAGCCG -ACGGTGTTGTAGTCCTGCTCCAGCAATTCAATCTGTAACGGCAGCGACAGGGTTTCGCCGCGAATCGAGCCGGAAACCAC -CGACACCGCGCCAAACTCGCCAATTGCGCGGGCGTTGGTCAACACCACGCCATAAAGCAGCGCCCAGCGGATGTTCGGTA -ATGTGACGCGACGGAACATCTGCCAGCCGGACGCGCCAAGCAAAATCGCCGCTTCGTCTTCCTGGCTGCCCTGGCTTAAC -ATCACCGGCACCAGTTCGCGCACCACAAACGGACACGTCACGAAGATGGTGACCAGCACCATTCCCGGCCAGGAGAACAT -AATTTGCAGGTTATGCTCGTCGAGCCAACCGCCGAGCGGGCCGTTAGAGCCGTAGAACAGCAAATACACCAGACCGGCAA -CCACCGGCGATACGGCAAACGGAATGTCCAGTAGCGTCAGCAGTAACTGGCGTCCAGGGAAGTTAAAGCGCGTCACCAGC -CAGGCCAGCAGAATGCCGAACACCAGGTTTACCGGTACGGCAATCAGCGCGATCATCACCGTCAGCCAGATGGCGTGCAG -CATGTCCGGATCGGCCAGATTCTGTAAAACCGGCATCAGCCCCTTGCTGAATGCCTGCACGAAGATGTAAATCATCGGCA -CCAGCAGGATGAACGCCGAAACCAGCATCCCGATGCCAATCAGAAACCATTTGCCCCAGTTAATCGGGCGCGCGTCATAA -CGCTTCAATTGGGTAACTTCCGCCATTAATGACCTACCACACGCCGACCAAAGCGACTTTGCAGAGTGTTAATTGAGAAC -AGCAGCAGCAGAGATGCCGCGAGGATCACCGAAGCAATCGCGCTCGCTGCCGGGTAATCAAACTCCTGTAAGCGCACAAA -AATCATCAGCGACGTCACTTCCGTCTTCCACGCGATATTTCCGGCGATAAAAATCACCGCGCCAAATTCACCAAGACTAC -GGGTAAACGACAGCGCCACGCCCGCCACCAGCGCCGGAGAAAGCTCCGGCAGCACCACTTTGCAGAAACTCTGCCAGCGC -GTTGCACCAAGCGTTTCCGCCGCTTCTTCATATTCCGGGCCTAACTCTTCCAGCACCGGCTGCACGGTACGCACCACAAA -CGGAATGCTGGTAAAGGCCATAGCCACCGCAATCCCCAGCCATGTATAGGTGACTTTGATATCAAACTTCGCCAGCCATT -CACCGTAAAAACCGTTTACGGAAAAGAGCGAGGCCAGCGTTAAACCGGCGACAGCCGTTGGCAGCGCAAAGGGTAAATCC -ATCAGCGCATCAAGCAGCGTGCGGCCTGGGAAGCGATAGCGGGTTAGGATCCACGCCATCAGCAGACCGAAAACGCCGTT -AAAAATCGATGCCACAAACGCCGACAGCAGCGTTACTTTGTAGGCCGCGACCACCTGCGGGTTGGTGATCACCTCCCAGT -ACTGCGCCCAGCTCATCTGGGCCAGTTGCATCACCAGCGCGGAGAGCGGCAGCAGCAAAATCAGGCACACAAACAGCAGA -CTGGTGCCGAGGCTTAAGGTAAAGCCCGGCAGCACGCGTCTGGAGGAGACAGCAAACATCAGTTACGCCCCGCCGCTAAC -AGCTTGTCTAACTCGCCGCCGCTGGTGAAGTGGGTTTTCATCACTTCCGGCCAGGAGCCAAATTTGTCTTCCACGCGGAA -CAGCTCGGTCTGCGGGAATTTGTCTTTCAGTTTGTCCATCACCTCCGGGTTATTCACGCGGTAGTAATAGTCGGTGATGA -TGGTTTGCGCCTGCGGGCTATAGAGCCAGTTCAGATAGGCTTTGGCGGCTTTTTCCGTACCGTTGGCCTGCACGTTTTTA -TCAACCCACGCCACCGGGAATTCCGCCAGAATGTTGGTTTTCGGAATCACCACTTCAAAGCCCTGCGCTTCATACTGTTT -ACGGATGTTGTTCACTTCCGATTCGAAGCTAATCAGCACATCGCCCAGGCCGCGCTCGGCAAAAGTGGTGGTCGCGCCAC -GACCGCCAGTATCGAACACTTCAACGTTTTTCAGGAACTGGGTCATAAACTGTTCGGTTTTGCCTTTGTCACCACCGTCA -GCTTTATCCGCTGCGCCCCATGCCGCCAGATAGGTATAACGCGCGTTACCCGACGTTTTCGGGTTCGGGAAAATCAGCTT -CACGTCGGAGCGCACCAGGTCGTTCCAATCGTGGATATTCTTCGGGTTACCCTTACGCACCAGGAAGCCCATGGTGGAGT -AGAACGGCGAGCTATTATTCGGCAGGCGCGACTGCCAGTCGGCCGGGATCAGCTTGCCTTTATCGTGCAGGATTTGTACG -TCGGTCACCTGGTTATAAGTGACAACGTCGGCTTTTAAGCCCTGTAAAATCGCCAGCGCCTGTTTTGATGACCCGGCATG -AGATTGTTTTATCGTCAGTTTGTCGCCGCCGTTATCTTTTGCCCATTGTTGCTCAAACGGCGGATTCAGGGCGGCAAACA -GCTCGCGGGAGACGTCATAAGAACTGTTCAGCAGTTCCGTTGCCTGTACATGGCCCGCCAGCAGCAGAGAAGCGACCAGC -GCGAGTGAGTTCTTTTTCAGTAAGTTAACGGCCATTGCGCACCCTTATAAATTTAATGACTTTCTAATAGCCATCATATT -TATAACGGACGTGAAAGGAGTAACGGTTTTATATACCGTTTGGTGATTTGGAAGTTGAAAAGGGAATAAGAACTTGGTTC -AACAGGCGTAATTGTTGCAGTCAGTTTGGACACGAACAGCGCGGAGAAACCGGAGCGTACACATAGTACGTGAGGATTTC -GAGCACTGCCCGGGGCCAAAATGACAAATAAAATAGCCTGGTGAACTTAGTTCAAGACGAAATCCTCCCCACAAATGCAG -GGAGGAAACAGAGGTGAATCAGATACCGACGCTAACCGTCTCCGGCAGTGTGCTGCCGCCATCAATCACATTCTGTGTAC -CGGTTAAATAGCTGGATTCATCCGATGCGAGGAAGGCCGCCAGTTCGCCGACTTCCAGCGGATCGGCGAGGCGACGCATC -GGGATTGCTTTCGCCATTTCAGTCAGCACCGACTCTGGATCTTCCGGGTTCGACTGGCGGGCAATGCTTTCCGCCATTGG -TGTGCGCACGTATCCCGGGCAAATGGCGTTAACGCGAATACCAGACTGCGCGTACTCCACCGCCAGCGATTTTGTCAGGC -CAACAATCGCCGCTTTCGTTAAGGCGTACGCCGTTTCGCCAGGATCGGCCACCATATCACCAGTGACTGAAGACATCATC -ACAATGCGACCATCTTTGCGGGCAATCATCTCCGGCAGCACCGCCTTCGTGACGTTCCATACGCCTTTAATATTGATGTC -AATATGGAAATCGCGATCGTCATCGCTCATATCGAGGAAACTGCCCAGACGACAAACGCCTGCGTTATTCACCAGGATAT -CAATGCGCCCTTCTTTTTCCTTCGCGCGTTTGATAGCTGCGGCTACCGACGCCGGGTCACGCACATCGGCGACAACCGCC -GTACAGCGATGACCACGACCACACAGTTCGTCCGCCAGCTTTTCGATCTCAGGGGAGATATCCAGCAAGATTAGGTTCGC -GCCATGACGTGCAAAAGTTCTGGCAATTCCTTCGCCAATTCCCTGCAATGCGCCCGTAATCAGTGCTGTCTTGCCCGTGA -GTTTACCCATTTTAATGCTCTCCTTGTTAATACAGAGCGTTACACTCCATTCCCTCTGAAAATACAGGATAAACAAAATA -TTGCTGCGGATCAGCTCACTAATTCAGGAAAATCTCAATCCAGTCGCTGCTTTATGCATCATTTCAGGCGTTGTGTTAGC -TCACTGCTGCGCTGAATCATTTTCAATGACTCCACATCATTGAGTTGCACAAGGCCAACAAACAGTAAATCGGTAACAGA -ATTTTGCGCCGTGCGGGTAGACATCGACGAGCTACGCCATTCGGTTTCTCCGGAAACGGTATCGAGGGTGAAATGCGCCA -GCCGCCGCAGCGGAGAGTCAGTCAGAGAAGTAATGGCAATCACCGTTGCCCCCTGCTTTCGTGCCGCTTCTGCGCACAAG -ACAATCTCTTTTTTACTGCCGCTGTAAGAGATAGCGATTTGTACATCGCCTTTTTTCAACGCCTGAGAAACGGTGGCTTG -TACGTGCGTGTCGGCTTCGCAGGCCACGCGATAGCCAATTTTCATCAGTTTGAACGACAGATCGCGCCCCACCAGCGCCG -ATCCGCCCAGGCCCGTTATCTGGATAAACGGTGCTTTACTGATGACCTCAATGATTTTTTGCAGCCGCGCGTAATCGAGC -AACGCGCAGGTTTGCTCCAGCGCCAGCTCTTTTTCGCGATTCAGTTTGCGCGCGATCACTTCCAGCGAATCATCACTGGT -AATCGAACTGTGCAGGTGCAGTGCCGTGGCATTCGTTTTCTCCCGGCTGGCACTGTATTCGCCTATTAACGCCATACGCA -ATTCAGTAAATCCTTGCGCGCCGAGTTTTTGGGCAAATTTCACTATGCTCGACTGGCTAATGCCGAGCTGTTTCGCCATC -TGCCGTGAAGAAACGGATTGCAGCTCACTCACGTTGGCCTGCAGAAAGTCAGCGATTTTTTGCTCGTTTTCGGTGAATTC -ACTCCCCGCATTGCTTATTTTCGTCAGGTACAACATCTTCCACTCTCCTGGGCTGGCAGCATAAATTCCGCTTAAGTTCT -TATGACGCTCTTCACACTCTGCGAGTGTAGACTCAATGATTCCTTTAAGCCTGTCAATTCGGGATATATGATTCCATACA -TCTGCAATTATTTGATCGTAAATAGTAAGGTCACCACCGATGCAATTTGAAAAGATGATTACTGAAGGCTCGAACACCGC -CTCGGCTGAAATTGACCGCGTATCGACGCTGGAAATGTGCCGGATTATCAACGATGAAGATAAAACCGTACCGCTTGCCG -TTGAGCGCGTACTGCCGGATATCGCCGCGGCGATCGATGTTATCCACGCCCAGGTAAGCGGCGGCGGGCGTCTGATTTAC -CTCGGTGCGGGAACATCCGGTCGTCTGGGGATTCTGGATGCCAGCGAATGTCCGCCCACCTACGGCGTGAAACCGGGTCT -GGTGGTTGGTTTGATTGCTGGCGGCGAATATGCCATTCAGCACGCGGTGGAAGGCGCGGAAGATAGCCGGGAAGGCGGTG -TTAATGATCTGAAAAATATTAATTTAACGGCACAGGATGTGGTGGTTGGCATTGCTGCCAGCGGTCGCACGCCGTATGTG -ATTGCCGGACTGGAATACGCACGCCAGCTCGGCTGCCGCACAGTGGGAATTTCCTGTAATCCGGGGAGCGCCGTTTCAAC -CACCGCTGAGTTTGCCATTACACCGATTGTAGGTGCCGAAGTTGTTACCGGTTCTTCGCGGATGAAAGCAGGTACAGCGC -AGAAACTGGTGCTCAATATGCTTTCCACCGGGCTGATGATTAAATCCGGCAAAGTGTTCGGCAACCTGATGGTCGATGTG -GTCGCCACCAACGAAAAACTGCATGTGCGACAGGTCAATATTGTTAAAAACGCCACCGGATGTAGCGCAGAGCAAGCGGA -AGCGGCGTTAATTGCTTGCGAGCGCAACTGTAAAACGGCCATTGTGATGGTGCTGAAAAATCTCGATGCCGCAGAAGCTA -AAAAACGCCTGGATCAACACGGCGGCTTTATTCGTCAGGTTTTAGACAAGGAATAACCCATGGCCAAAGAGATCAGCAGT -GAACTTCTGAACACCATTCTTACCCGTGTCGGCGGACCGGGAAATATCGCCAGTTGTGGTAACTGTATGACGCGCCTGCG -TCTGGGTGTACATGACAGTTCACTGGTTGATCCCAATATCAAAACGCTGGAAGGCGTGAAGGGCGTCATTTTGACCAGCG -ACCAGGTGCAGGTCGTTTTTGGGCCTGGTAAAGCGCATCGTGCCGCAAAAGCGATGAGCGAGCTGCTGGGAGAAGCACCG -GTACAGGATGCCGCAGAAATCGCCGCCCAGAACAAACGTCAGTTAAAAGCCAAACAAACCTCCGGCGTGCAACAATTTCT -CGCCAAATTCGCCACCATCTTCACGCCGCTGATCCCCGGTTTTATTGCCGCCGGTCTGCTGCTGGGGATAGCGACGTTAA -TTGCCACGGTGATGCACGTTCCGGCAGATGCTCAGGGAACACTACCCGATGCGCTGAATTTTATGAAGGTGTTCAGCAAA -GGTTTGTTCACTTTCCTGGTGATTCTGGTGGGCTATAACGCCGCCCAGGCATTTGGCGGCACGGGCGTAAATGGCGCAAT -TATCGCCGCGCTCTTTTTGCTCGGTTATAACCCCGCAGCGACCACCGGTTACTACGCCGGTTTTCACGATTTCTTTGGTC -TGCCCATCGATCCGCGCGGCAATATTATCGGCGTGCTGATTGCCGCGTGGGCCTGCGCCCGCATTGAAGGCATGGTGCGC -CGCTTTATGCCGGACGATCTCGACATGCTGCTGACCTCGTTAATCACCCTGCTGATCACCGCTACGCTTGCGTACCTGAT -CATTATGCCGCTGGGTGGCTGGTTATTCGAAGGTATGTCATGGCTGTTTATGCACCTGAACAGTAATCCGTTCGGTTGTG -CGGTTTTAGCCGGGCTGTTCCTGATCGCCGTGGTATTTGGCGTGCATCAGGGCTTTATTCCTGTTTACCTCGCGTTAATG -GACAGCCAGGGATTCAACAGCTTATTTCCCATCCTTTCAATGGCAGGCGCGGGCCAGGTGGGCGCGGCGCTGGCACTCTA -CTGGCGGGCGCAACCGCACAGTGCGCTACGCAGTCAGGTACGCGGGGCGATTATTCCCGGCCTGCTGGGCGTTGGTGAAC -CGCTGATTTACGGTGTCACCCTGCCCCGCATGAAGCCGTTTGTTACCGCCTGTTTAGGCGGCGCGGCGGGCGGTTTGTTT -ATCGGCCTGATAGCCTGGTGGGGTCTGCCGATGGGCTTAAACAGCGCCTTTGGGCCGTCTGGTCTGGTAGCGCTGCCGCT -GATGACTTCCGCACAAGGCATCCTTCCGGCCATGGCGGTTTATGCTGGCGGGATTCTGGTGGCATGGGTTTGCGGGTTTA -TTTTCACCACGCTCTTTGGCTGCCGTAACGTCAATCTGGACTGATATCATGAAACGGACAATGCTCTATCTTTCTCTGCT -GGCTGTTAGTTGTAGCGTCAGCGCCGCAAAATACCCTGTTCTGACAGAAAGCTCGCCAGAGAAAGCAGGGTTTAACGTCG -AACGGCTTAACCAGATGGATCGCTGGATTAGCCAGCAAGTTGATGTCGGTTATCCCAGCGTAAACCTGCTGATCATTAAA -GATAATCAGATTGTGTATCGCAAAGCCTGGGGAGCGGCGAAAAAGTACGATGGCAGCGTGTTGATGGAACAGCCTGTCAA -AGCCACCACCGGGACGCTGTATGACCTGGCCTCAAACACCAAAATGTACGCCACGAACTTCGCCCTGCAAAAGCTGATGA -GCGAAGGCAAACTGCATCCTGACGATCGGATTGCGAAATATATTCCGGGGTTTGCCGATAGTCCAAATGACACCATTAAA -GGCAAAAACACCCTGCGGATTTCTGACCTGCTGCATCACAGCGGCGGTTTCCCGGCAGATCCGCAATACCCGAATAAAGC -GGTCGCGGGCGCGTTATATTCCCAGGATAAAGGCCAGACGCTGGAGATGATCAAGCGCACGCCGCTGGAATATCAGCCCG -GCAGCAAACATATCTACAGCGATGTCGATTATATGCTGCTTGGATTTATCGTCGAGTCGGTTACCGGTCAGCCGCTTGAC -CGCTATGTTGAAGAGTCGATTTATCGCCCGCTCGGCCTGACACATACGGTATTTAACCCGCTGCTGAAAGGCTTTAAACC -GCAACAAATTGCCGCCACGGAATTGAACGGCAATACCCGCGATGGCGTGATCCATTTCCCGAATATCCGCACCTCCACTC -TCTGGGGTCAGGTGCACGATGAAAAAGCCTTTTATTCGATGGGCGGCGTTTCCGGGCACGCAGGTTTGTTTTCCAATACC -GGCGATATTGCGGTGTTAATGCAAACGATGCTGAACGGCGGGGGCTATGGTGATGTGCAGCTGTTCAATGCGGAAACGGT -GAAGATGTTCACCACCAGCTCTAAGGAAGATGCCACTTTTGGCCTCGGCTGGCGCGTGAATGGTAATGCCACCATGACGC -CGACGTTTGGCACGCTGGCAAGCCCGCAAACCTACGGTCACACTGGCTGGACCGGAACGGTGACCGTTATCGATCCGGTG -AATCATATGACGATTGTGATGTTAAGCAACAAGCCACATTCGCCGGTTGCCGATCCGCAAAAGAATCCCAATATGTTCGA -AAGCGGTCAGTTGCCGATTGCAACTTATGGTTGGGTAGTTGATCAGGTGTATGCGGCGTTAAAGCAGAAGTAATAAAAAG -GCCAGTCAGTAATGTTACTGGCTGGTCTGAGAGTGCTGACAAACGCAAAACTGCCTGATGCGCTACGCTTATCAGGCCTA -CGTGGAGCCCACAATATATTGAATTAGCACGATTTCGTAGGCCGGATAAGGCGTTCACGCCGCATCCGGCGTGTACAACG -CGCACTTGGTCAACAATCTGAGGCCAGTCAGTAATGTTACTGCCTGGCCTTTAATCAATGAATCAGAAACGCTTACAGCG -CCATCAACTTGTCCAGCGACGGTGCGAAATAATAGCCGCCGGTTACCGGTTTGGTGAAACGCAACATCGCATCACGCTTA -CCATCGGTATCGCCAAACATGCTCAGCAGTTGCTGCTCAATGTTATGCAGACGCGCGCAGTAGGCGCAGAAGTACAGACC -GTGAGTGCCACTGGCAGTGCCGTACGGCAGGCTCTGGCGAACAATCTTCAGCCCTTTGCCATCTTCTTTCAGATCAACGC -GGGTGAGGTGAGAGGTTTCCGGACGTTCGTCGCCGTCGATCTCTTCGTTGGCCTCTTTGGTGCGCCCGATCACCATCTCC -TGATCGTGAACGCTCATCCGGTTGAGCTGCTTCAGGTTGTGTTCCCAACGCTGGACAAACACATAGCTGCCGCCCGCATC -CACGCCGTCTTTGATAACCGCCACTTCGCGACGCGTCTCTTCACCCGCCGGGTTTTCCGTACCGTCAACAAAGCCGCTCA -GGTCACGCTCTTCAACCCAACGGAAGCCGTGGATCTCTTCTTTCACTTCAATGCAGTCACCAAAGGCTTCCATCGCCGCC -TGGGCGACAGAGAAGTTTACGTCGTGACGCAGAGAAAGAATGTGGATCAACACATCGAACTGGGTCGTCGGCGCAAGGCC -TTTACCGTAGCCCGGAAAATCTTTCAGCTCTTCTGCCCCAACGCCGCCGCTCAGAGCGCGCCAGGTGTTGTTACCAAAGG -CAACCACCGCACCAAGATGCGCGTCCGGGAATTTCGCTTCAAAAGTTGCCAGTTTGTCGGCAAATGTTTTACTGGCCGCA -CGCAGGGCGTCAACTTCCCCTTTCACGTTGGCTTCGATCCAAATCGCCGCGCGGCAATGTTCTGGCAAAATGCCACTCTG -AACCTGAGACATTGTTCCTCCTGAAAATAATAATGCCACGCAATCCGTGGCATTGTTGAGCGCTATTTTACGTGTTTTTT -CGCGGCGGCGGTTTGTTCAGACGCAAATTAACGCCGCCAGATAATTTTACTGACTTTCCAGTTTTTCAGGGTATCGTCCG -AAGGCATTAACCCTTCAGGACCACGCCATTCCCCGCTGAACTGGTAGCTAATATGTTGACTGCCTTCGGCTTTACATTCG -ACGGCACGATTATCATCACCATCAGCTTTTTGGCAATTGCCAAATGCTTTGCTGTAAAGGTCGCTAAACGGTGTACCGAT -TTTAACACCGGTGTCAGCAGGAATATCGCTATCCAGCACGTCAATGCGACTGATCGTGCCTTGATCGCCGTTAATCACCA -TCGCCACGTTGTCGCCCTTCATCACTTCAAAAAAGCGCACCACGTTGCCGTTCGCGGTTTTCATTCCGCTGCGCAGGCGA -TAATCGCCATCAAGCGCATCGGCAATGGCTTGTTCTTGCAGTGGTGTGGACGCCGTTAATTCACCCACGCCCTGCTCGCT -CACTTTGGTGGACGACCCAAACCAGTTCCACGGGTTAGCGGCAGACCAGTTAACTGACGACATCGTGGAACAGCCGGTCA -GCATCAATGGCATAGCGCATAACATTAAACGCAGCGATTTCATGTCACTTCCTTTGGTTATTCAATAACGTTGCTTGGAG -TGCAAATTCACCAAAAAGTGCCGTTATTCTTTTACTTCATAAAAACAAGCGCGTAAACGTCGATTGGTCAGCAGCCAGAT -TAACGCCACAATATCCGCCACTACCAGCGCCAGACCGATACCGCTAACGGATTCACCGTTCAGCCACAGCCACGGTTGCC -AGCAAAGTAAAACCACCTGCGCCAACAGCAACAGAAAATAGAGTACACGCCAGGTGCGAGGAAACGTAGCCCGCCGACCG -CTCAACAAAAACGCCAGCACCGCCGGAATGCCAGGAATCAGCCCCAGCCAGAAATTATCGTGATCGGGATAAAACAGATT -TAGCAGCGCAGTACCCTGCTCGCGCGACGCACCGGCAATGACAAACAGCACCCAGGTTCGCGCCTGAAGCAATAGCACAA -GCCAGAAGAGCAAGGGTAAACGCAGGCGACCGTGCGCATCATAATGGACAGGATGAAACTCAGTACTCTTCATCTTCAAT -CAAACGCTTACCCAGACTCAGCACGTCGGCGTGTTCATATCCCAGGCGTTCATACATTCCGAGCACCATGTCGTTATCTT -CCGGCACATTGATCTGAATTTTCGGGCAGCCACGAGCAATCAGCTTTTTCTCCAGCCGATTAAGCAACGCATTGGCAATC -CCACGCCCACGAAACTCTGGATGCACGCCAAGATAATAAGCAGACCCGCGATGCCCGTCATAACCGCCCATCACCGTTCC -GACCACGTCACCGTTTACCTCAGCGACCAAAAACAAACTGACGTCATGGTTCATCTTACGCTCGATGTCCATTTCCGGAT -CGTTCCACGGACGCAGCAAGTCGCAACGCTCCCAAAGGGTGATGACCTCTTCGAAATCTTCCTGGCGAAATACGCGTATC -TCCATGGTATTCGTTACCTTTTTGCGGGTTAAAAGGCTGATTATGGCGTGAACGGTCGAATTAGCCAATATCTGACGAAA -ATCGGTTGAAAAAGTGGCATAATGGGGAGTTGTCAACTATTGAAATGAAAAGTAAAACAATTCTCAACAGCAAACCGTCG -TAACGGATTACGCGATACGATATAACATCTGGAACTTTATTATTACAACTCAGGCCGTATGAGCACTTTTAAACCACTAA -AAACACTCACTTCGCGCCGCCAGGTGCTGAAAGCCGGTTTGGCTGCCCTGACGTTGTCAGGAATGTCGCAAGCCATCGCC -AAAGACGAACTTTTAAAAACCAGCAACGGACACAGCAAGCCGAAAGCCAAAAAATCTGGCGGCAAACGTGTCGTTGTTCT -CGATCCAGGTCACGGCGGAATTGATACCGGAGCGATCGGACGCAACGGTTCGAAAGAAAAACATGTGGTGCTGGCGATTG -CTAAAAACGTCCGTTCCATTTTGCGTAATCATGGGATTGATGCGCGTTTAACGCGTTCTGGCGATACGTTTATCCCACTT -TACGATCGCGTTGAAATCGCCCATAAACATGGCGCAGATCTGTTTATGTCAATTCATGCCGATGGCTTTACCAACCCGAA -AGCTGCCGGTGCTTCGGTATTTGCCCTCTCTAACCGTGGGGCAAGTAGCGCAATGGCGAAATACCTGTCTGAACGCGAAA -ACCGCGCCGATGAAGTTGCCGGTAAAAAGGCGACTGACAAGGATCACCTATTGCAACAAGTGCTGTTTGATCTGGTGCAA -ACAGATACCATTAAAAATAGTCTGACGCTCGGCTCGCATATTCTGAAGAAGATTAAGCCGGTGCATAAACTGCACAGCCG -CAACACCGAACAAGCGGCATTTGTGGTGTTGAAATCACCGTCGGTTCCTTCGGTGCTGGTGGAAACCTCGTTTATCACCA -ACCCGGAAGAAGAACGGCTGTTAGGCACGGCGGCGTTTCGTCAGAAAATCGCCACAGCGATTGCTGAAGGCGTGATCAGT -TATTTCCACTGGTTCGACAACCAGAAAGCACATTCGAAAAAGCGATAAGTTATGAAACCCGACGCACACCAGGTTAAACA -GTTTCTGCTCAACCTTCAGGATACGATTTGTCAGCAGCTGACCGCCGTCGATGGCGCAGAATTTGTCGAAGATAGTTGGC -AGCGCGAAGCTGGCGGCGGCGGGCGTAGTCGGGTGTTGCGTAATGGTGGTGTTTTCGAACAGGCAGGCGTCAACTTTTCG -CATGTCCACGGTGAGGCGATGCCTGCTTCCGCCACCGCTCATCGCCCGGAACTTGCCGGGCGCAGTTTCGAGGCGATGGG -CGTTTCACTGGTAGTGCATCCGCATAACCCGTATGTTCCCACCAGCCACGCGAATGTGCGGTTTTTTATTGCCGAAAAAC -CGGGTGCCGATCCCGTCTGGTGGTTTGGCGGTGGCTTCGACTTAACCCCATTCTATGGTTTTGAAGAAGATGCTATTCAC -TGGCATCGCACCGCCCGTGACCTGTGCCTGCCATTTGGCGAAGACGTTTATCCCCGTTACAAAAAGTGGTGCGACGAATA -CTTCTACCTCAAACATCGCAACGAACAGCGCGGTATTGGCGGGCTGTTCTTTGATGACCTGAACACGCCAGATTTCGACC -GCTGTTTTGCCTTTATGCAGGCGGTAGGCAAAGGCTACACCGACGCTTATTTACCAATTGTCGAGCGACGGAAAGCGATG -GCCTACGGCGAGCGCGAGCGCAATTTCCAGTTATATCGTCGCGGTCGTTATGTCGAGTTCAATCTGGTCTGGGATCGCGG -CACGCTGTTTGGCCTGCAAACTGGCGGGCGCACCGAGTCTATCCTGATGTCAATGCCGCCACTGGTACGCTGGGAATATG -ATTATCAGCCAAAAGATGGCAGCCCAGAAGCGGCGTTAAGTGAGTTTATTAAGGTCAGGGATTGGGTGTAACTCCCTCAC -CCCCACTCCCGCATCCGCTGATGCAGCGTCAGTGACGGCTTCTCGGAAAACAGCTGCTGGTAATCCGTGGCAAATTGCCC -CAGATGCCAGAATCCCCACTGCATGGCGGCGTCTTTTACCGTCATACTTTGCGACCACGGACTTATCAGTTCGCGGCGTA -CGGCGTTCAGGCGAATGCGTTTCAGCCACGCGTTCGGGCCAATGCCTAAAATAGCGTGAAACGCGTTTTGTAGCGTGCGG -CGGCTGACATGCAGTTGATTACACAAATCCAGCACCGTCACCGGTTCGGACATGTTTTCCAGCACATATTCACGGGCGCG -GGAAAGCAATCGACGGTAACTCTGATGACTGATGCTTTCCGCCGTCACCATTGGTTGCGCTTCTTCCAGCATGGCCCCCA -TCGCCATTAGCAAATTATCCCCCAGCACTTTTCGCACTGCAGGCTGATGGAGATTTTCCGGATTCTCGCAAAACGTCGCC -AGCGCCTGTTGGACAAAGCCCCACAGCGCGGCTTTATGCTGCTCTTTCACTTCCAGCGCCGACTGGTTACGCAACATATG -TAATACCCGATCCGGGTTATGCAAAAAGTTAGCCTGCCGGGTGATGACATCTTCAGAAAGCACCACGCCCAGGATCGTGT -AATCATCCGGCGTGCTCAGTTCAAATTCAGTGCCACCAGGGCGGGTGGCGATTTCCGCGCTTCCCAGACATTGCGAACCG -ATAAATCCCTGCTCACCGCGCGTCGCCGGAATGCCAAACCAGAACGAGTTCGGCCAGACCAGGCACGACTGACGCAGCGC -CAGACCGGTGTATTCACGAAAAACCTGAATATCATCGAGTAGAATTTCCGTAAATTCACCATGAAACTTGCCCGGATGCA -GCTGATCGTAAATCTGCTGCCAGGCGGTAATCGTTAAAGCATGTTCATAGACATCCGTTGTCTGTCGTTGATGAACATTA -TCCACTTCGACCTTCGGCGTGAGCTTCAGGTTTTCGGGTAAGGGTTCATGATAAAGATGGTGCAAATTGGCTGTACGGGT -CTTTTTCATGATGTTAATGCCGGGTGTTGTAGGACACCCGGCACCTCCGACAGGTTAATGGGGCTTGAGACGATAACGAC -TACTGCGTTTACGTAACGTCCCGGCAGAAAAGAGCTGTTCGAGCGCATTTCTGGCTTTTTCCAGCGGCCAGCCAAAGTGG -GCAGCCACTTCTCCTGCCGTCATTCCCTGACGTACTGATGTTAACAGCGCCAACAACTCGTCAGCAGATTCCGCGACGAT -AACTGGCGCGTCGGGTTCCCTTACGGGTTGCTTCGGCTGGCGGTTAAAGCCAGTAACCAGCCACTGGGTGTCATCGTCTG -GCCGACCGATCTCCTTGCGGCTGATGACACGCCCGGTACGCATCGCGGCAGCACAACCTGCGTCCAGCGCCGCACGACAC -GCCGCCAGATCGCCTTCCACCACCAGCGTTAAGCGACCAGGGTCAAGCACTTCGTGACTGAGCAGACGAACGTTAGCTGC -TTTGAGCATGGCATCCGCTGCATCTATCGCGGCGACCATGCCGTCCACTTCCAGCAATCCCAGTGCATTGATCATCGGCA -ACCTCCGTTACGCACGCTGGATTGGATTACGCGCGATTTCCAGCACTGCATCGGTAAAGGCGTTACAGGCTGCTTTACAC -GCTGCCTGGCTACCGGTTAAAAATGCTGCCGAGTAGTTGGTTTCAGACGGTGGCGGGACATAGGTCGCCAGCTGTACGTC -GGCAGACTTCAGGGCTGCATCAATGCCATAGGTCGCTTCCAGCGGCGGTGCCACCAGATACGCCATCGGATCGCCAAGCG -TGATCCCGGCGGTTGATGAGAGATAAGAACCGGTACGCGAAACTACATGTGCCAGGAATGCCGTATCTTGCGCGTCATTA -GCCCACTGGAAAGCTGCGCCATTTTCAATATGCGCAATCATCGCATCCAGACCTGCACGCACTTCCGCCGGGTTTGGCCC -ACCAAGCATAATCAGCACTTCACCGGCAGTCGGTGACGGGCCGTGTGCAGCGCCCGCATATAGCGAGCGGCCATACACCA -CTTCCACCATCGCCTGCTTGGTCGCTTCATCAGCGGCAATGTAGGTGACGTCATCGGAGTCGGCAGAAATCAGACCGAGG -CTACGAATATGCGGCGGCAATTTCAGTTCACGCGCAAAATCGGCGTTAACGGAGGCAATCACCCGCATAGCGGTGACAGA -CGGTCGAATCAAATCTAAAGCTGGCATGATGCCTCCTTATCGGGTCATGTTGATGCCGGATGCTTTCTGCTCCAGCATAC -GTTTCGCCAAATCCACAATGACGGCTGCGGCTTCAACCGGCGGCGTGCCGCCCTGGTGAATGTTAGAGATACAGGTGCGA -TCGGCCTCAACGGTGGTCGCCATACGCGGCGAGTAAACGGCGTAGCAGGAGAGGCTTTCTGACTGACCCAACCCCGGACG -TTCGCCCACCAGCAGGATCACTACTTTCGCGCCGAGGATCTCACCGATCTGATCTTCAATCTTCACGCGACCATAACGAA -CAAAGAATGGTGTACCGACTTTCAGCCCGGCCTGTTTCAGGCCCGCCATCAGCGGTGGCAGGATCTCTTCGTAGTTCACG -GTGATCGCATCAGTTGACAGGCCATCAGAAATAACGACCTGTACGTCCGGATTGGCAACACACTGCGCTTTCAGCGCTTC -AACAGCTTCTGCACACAGGCGGCGGCCCATATCCGGGCGAGTCAGGTAGAGATTTTTGTCGCTAATTTCAGAGCGTACTT -CCAGCAAGCCCTGCGCTTTCACCCACTCTTCCGGCACTTCTTTCAGTACGGTATCTTTCGAACGAGAGTGATCGGCCAGG -AAACGCAGCAGCGCCTGCGTACGTGGACGCGGACCGGCACGACCGGTACAAACGCGGGCCACGGTGCTGCGGCGCAGTTC -TGTTAATACGTCTGCGCGATGCGGATTTTCAACACCAATCCACGCTTTTGCTTCAGCGGAACCTAAATCCAGCGCACAGC -TTTCCGAGGTCACCGGTGCCGCACAGTTGGTGGTGGCGCACTTTGCTTCTGACGGCGCGGGGGCCGCTTGTCCCATTGAC -GCCATCACGCTGCGTACAATTTCTTCAATCTGTTTTTGATCCATGATATGTTATCTCCGCGTCATCAGAAGAACAGTGAC -GGATCGCCCGCCCGTTTGGTCAGGCGACCGTTTGCCATAATGCCCATGCTTTCCAGCCAGCGTTCAAACTCCGGTGACGG -GCGCAGGTTGAGTAACTGACGCACAGTGGCGGTATCGTGGAATGCGGTGGTCTGGTAGTTGAGCATGATGTCATCACCCA -GCGGCATCCCCATGATGTAGTTGCAGCCTGCGGTGGCGAGCAGGATCATCAGGTTTTCGTTGAGGTTCTGGTCAGCGTCA -GCGTGGTTGGTATAACAGCAGTCACAGCCCATAGAGATGCCGCTCAGCTTGCCCATAAAGTGATCTTCTAAGCCAGCACG -GATAATCTGGCGGTCGTTGTAGAGATACTCCGGCCCAATAAAGCCGACCACGGTGTTGACGATAAACGGATCGTAATGAC -GCGCCAGCCCGTAGTTACGTGCTTCCATCGTTACCTGGTCTGCGCCGAAGTTAGCGCCAGCGGATAGCGCAGAGCCTTGT -CCGGTTTCGAAGTAGAGGCAGTTTTCCCCGGCGATACGGTTGAACTCCGCGCCCACTGCGCGCGCTTCGTCGAGCATCGC -CAGCTCCACGCCAAACTCTTTCAGCCCTTTTTCGCTGCCACAGATACTCTGGAAAATCAGCCCGCCCGGTGCGCCACGAC -GGATCGCTTCGATCTGGGTGGTGACGTGCGCCAGTACACAGCCCTGAGTTGGGATGTTGAATTTGTCGATCACGCCATAG -ATGGTATCCAACACGCGGCTTAAGTTTTCCACGTCGTCAGTCACCGGGTTAACGCCGATCACCGCATCGCCCACCCCGAA -GGAAAGCCCTTCGTAGATTTGCGCGGCGATACTTTGCACGTCGTCACGGGTGTCATTTGGCTGCAAACGGGCGCTAAAGG -TGCCCGGAATACCGATGGTGGTATTGGCCTTTTTGATTACCGGCATTTTCTTCGCGCCGTAGATCAGGTCCGCGTTGGAG -CAAATCTTCGCTACCGCCGCGACCACTTCCGAGGTCAGCCCTTTGCGGGTAAAGGCAATGTCGTCCACGCTGGTTTCATC -GCTCAGCACATACTCACGCAGTTCGCTGATGCTCCAGTTTTTAATCTGGTTGTAGGCCGTTTCGTTAACATCGTCCTGAA -TCAGCCGCGTCACGCAGTCATCTTCATAGGCAATCACCGGATTATTGCGGATGTCCGCTACGGTCATTTCCGACAACACC -TGCTTTGCCGCCACGCGCTCCTGTGAGCTTGCCGCTGCGACGCCCGCCAGCACATCCCCCGAACGCAGTTCGTTGGCTTT -AGCCAGCACCTCTTTTACATCCTTAAACTGATATACATTGCCGAACAATGTGGTCTTTAGTTTCATAAGTCGTTCCCTCA -GGAAGAATCGATGATTGGCATTTTTCACAGCATTCTAACAATCACGTTTCATCGTCAGCCCTTGTCGTGTAAGGTGGTTG -CCTAAACACGCCCGTTATTCATCACGCCGAACGCGCCGGATACATGATCGGGGTTATCCAGTCGTTAAATCAAGGTATCC -GGTTTTGAGCAAGACACCACTCACAGCAAAGGCCATAGACGCCGCACAGCCGCAGGACAAGCCCTATAAACTCACCGATT -CACTGACGCCGGGGCTGTTTTTGCTGGTGCATCCCAACGGTTCGAAATACTGGCGATTCAGGTATTGGCTGAATAAACGA -GAGTTTTTGCAGGCCATTGGAGTTTACCCGCTAATCACACTCAAAGAAGCACGCAGGCGCGCCACGGAGAGCAGATCCCT -TATTGCCAATGGAATTAACCCAGTGGAACAAGCCCGCAAGGAAAAAGCCATTGATGCGCTCAACATGGCGGCAGGATTTA -AGAAGGTGGCGGAAGACTGGTTTGCTACCAGGGTTGGAGGGTGGTCGGAATCCTATGCAAAACAGGTCAGATCGGCACTA -GAAAAAGACGTCTATCCGGTACTTGGCAAGCGGTCGATTGTCGATATAACCGCCCGTGACGTGCTGGCATTACTCCAGAA -GAAAGAACGTACCGCACCGGAGCAGGCCCGCAAGCTACGCCGGCGCATCGGTGAGATCTTCAAGTTTGCCGTTATCACCG -AACTGGTAACGAGGAATCCGGTTGCAGATCTTGATACGGCACTGAAGGCCCGCCGACCTGGTCACAACGCGTGGATACCG -ATTAGTGAAATTCCGGCCTTCTACAAAGCCCTTGAGAGGGCCGGGAGCGTCCAGATTCAGACGGCAATACGTTTGCTTAT -ATTAACGGCATTAAGGACCGCAGAACTGCGTTTGTGCCGTTGGGAATGGATAAACCTGGAGGACGCAACAATCACATTGC -CCGCTGAAGTCATGAAGGCCCGCCGCCCGCATGTGGTCCCGCTATCACGGCAGGCGGTCGAGCTATTGCAGGACCAGTTC -ACACGCAGCGGATACAGTGCTTTCGTCTTTCCAGGCCGATTCATGGATAAACCCTTGTCAGCCAGCGCGATACTTAAAGC -GCTTGAGCGTATCGGGTACAAGTCGATAGCCACAGGCCACGGCTGGCGCACAACGTTCAGCACCGCACTTAACGAATCAG -GCAGATACTCGCCGGATTGGATTGAGATCCAACTAGCCCACGTCCCGAAGGGAATAAGGGGCGTTTATAACCAGGCTGCC -TACCTGAAGCAACGGCGAGCAATGATGCAGGATTACGCCGACGCTATTGATTCAATATTGGCAGGTAACGGCAATCCTCT -AGAACCGGAATGAATAATTAAGCGGCTTTTTTGCAAAGCGCAATTTTGCATTTTGTATAAGTATTTGTTTTGTGTGGTTT -AACTATCACCTGATAAGAAACCTGTATTCAATTTGCCGGATTCGTCCGGCTTTTCTTTTTCGCTAATTATTCCATTATTC -CAATTAAGTGGAATAAATTATTCAATATCAAGAACTTAAATCCATGTTTGCAACGAAAGATCCAGAGTTCGAAAATAGGA -TCAACACAAATAAAAGCCCCCGGAATGCTGCAACATGCCGGGGGCGGTATGAGAAACAAGCTAAAGGAGAATTTCTCATG -TCTGATATGCTAGCAGTAGAACAAGAAACAAACAATGATGTTCGTCAATTTTTAAACAAAATTAACGAGTTACGGAATAA -AGCACCCAAAAACGAAGAGACTAAACACGAAGAACACACGCCAGATAATCACGAGGAAACAGATCATCACGAGGCAAAAC -AGCAGGAGCAAGCCTGGCGTGGCAACCTGCGCTACCTGGACACATTAAACCGACTTGATGAAGTATTGCCCCGCAAACTG -TACGAAAGATGGGAGAAAGAACATACAGTCAACGACGAGGCTGTGCTACGTGCTCTTTGTTACTTCGCTGGTACTGGCAA -AAACTCACAGTTGGGATGGTGCAGGGTTGGTAGGGGAACAATCGACAAACGAGCCAGGCTATCAAAAAACACGGTTAAAA -AATGCCTCGATCGTCTGGTCAACCACTTCAAACTTGTTGAGCGTACTGAAGGCTATATACCAGGATCGGCAGAAAGGGAG -TGCAACGAATACCAGTTATTATTCAAGCCGTACAACATGAAATAACGGAATCAGGCGGGCAATGTTCCCGCCTTTTCTTT -GCCTTAATTCCATGAATTCAGGTGGGTCAAAAGTTGCCGTTAGTGGTGGGTCAAAAGTTGCCGTTAAGGTGGGTCAAAAG -TTGCCGTTAAGGTGGGTCAAAAGTTGCCGAGTAAGAATTCTACTATTAAGAATTCTAGGCGACGGGAGTTTTTTAGCCTC -CCGGTCGGTCATAGAGAGTCGCCTAGAGTTAAACAGAAGAATTATTTCGCCGCCTGATAGGTCGGCTGGTTGCGAGCATT -AACCATGCTGATTAGCGCAATCATTTCCAGCAAGCTGGAAACGCCCATTCACTCACGCACAACCTGAACAGCAGACCAAC -AAACCATCATGGCATTCGTTCATGGGGAGCGCGGTATATCTCAAAGGGTGATTTCTTATTGGTGGGCCTTCGGAAGGCTT -CGAGCAATTGCCAGCTTAAAAGACGGGCTTAGCAGTGATGGTTATCCGCCACGAATGTCCGTCATATTGCATTGCGCAGA -AACGCGTGGCACTGAGGGAGTTTTCCGAATTAGTTTTGGGGACCCTTTCCCTGCTTCTGGAGCAAAAGACGAACGGCAAA -TGCAGTGCTTCCTTGTACGACTGCAGCGAAGAAGAAAAGCTGTTTGTTAAGCGCCTGAAGTTAATCAAAGCGGATATCCA -CGCCCAGCTGAAGGCCTGTGATTGCGATATTTCTGAATGACAGGTGGAATCATGAAACACGTTTTTAAATATCTTGATTT -TGCAGAAGACCGCGAACACGCAGAATCAGTGGCGACCAAAGAGTTAAAACTGGACCACGTAGAAAAATTCGCTATCCGCG -ATCTAGCCAATGATATCAAAGAGCGTGGGTGTGTTGAGCTTGTCCAGCCTGGTGGATTCGATGAGCTGGTTCAGATCTAT -GAGGCCGGAGGCGATGGAATAGAGCCACTCAATTGTGGAATCGAATCAAGGAAGGTGGCAATTGCTGCCCTGCTTCGCGT -CATGCGTGAACCAGACTTTCAATGCCTGGAAATGGTTCACGAAATCATAAGAATTGCTAGAGATTTGGAAGCGCCAGTTG -ACGCTCCGTTAGATTGCTAACGCCAAAATTAGCGCTGAATTAATGGGTAATTATTGCGGTTTTTGTCAATTTTCAACCTC -AATTCTTGCGAAAAATGGCAAAAATAACGGTATTTTTCATCATTTATTGGGGGTTTTATGGAAGGCGAACTGATAGAAAA -CAATGGGTTAGACATTTATGACACCAGCGAAACACCGAAAAAGCGCGGTCGGCCAGCTAAATATAATGAAAAAATAGCAA -CGCAAATCGTCCTATTGGTAAGCGAAGGTTATAGTTTGCGCAAGATCAGCATGATGCCAGGGATGCCGAGCCACCGTCAG -ATGATGCGCTGGCAACTGGAGCATATGGACTTCAGGGAAGGGATAGCCTGGATGTCGTGGCTATGGTGCGCTGAAGCTGG -CCGACGTGCCGTCGAGATAATCGACGAGGTTGATATAAACGCAGAGGATGGGCCGAAGCAGTTGCGCAAAGCAGAAGCAA -AGGCAAAGGCACTACTGGCAGCAGCCAAGCTGAATAGTTTGAAACATTCACCATTTGGAGATGACAAACAATGAGCCTGA -TCCGCACTGAAACCAGAGACACAAAACGCGCAGCTGACCCACTGCACGACCTGCGTAGCAAGCCGTTTTCTGAGTGGGGC -GAAGATGAAATCAGGCGTTTTAATCTGATAGACGCGCTTCTTGAGTTTGTCTACACAGACACATCCAGCCCGTTCGGTAT -CGGCATGACCTTCGATTACACGGAGTGCTGGGAAATTGGTGTTCGTGACGACTGCCTGGTAATGACACGCGTTAAGCCGG -TGCATCCAGAATATGCGAAGCACTGGAACATGAAAGGCGTCATGAATGACAAAACCCGCTTCCACGCCGACAAGTGGGTA -GGGTACAGCAAGGTGCTTGCCTGGGTGAGCTTATCGCACAAAGACACCTTCACGGGTGCGAAACGGTTTCAATACTTCCA -AACGATGTACGACATGGAACGGCAAATCAACGCAAACCTGCCGGTTGGCGGCCTTCCCAACGTTGACACAGAGCGAACTG -GCAAACTGTTCCAACGCGATGACTTTTCTGAGGATAGCCATGCCAACGATCCGAAGTTGGTTGGTGATGATTACGTCCCC -CAGGCACCGGAGCAAATCAACTGAATTTTCGGACAAACGCGCGCGTAGCCGACGTCAGCGGCAAGACTGGCGGTCATTTC -CCCGCTCCTACGCGAAAAATCCCTCACAACTACCCTGCAAATTTTCCAGATTTCACGTACACGCGCCAAAAATAAAGGCC -CAGGCAGTTAGCAACCTACCCGGGCCTTTCTCACAATCCCCGCTGACATTATATCACCCATCTTTCCGTTTTCAGGTGGG -AGACTGATGGCCGCCGACGTTGCACAATTGATTAATTTCTGAACATTCAAATCAACTCCCACCAAAGCCAACAAGATGGG -AGGTGAATTTTGTGATGCAGATCGCTTTTTCCCTTCAGGCATTTTTGTTTAATTCAATCAACGAAAGGCAGTTCCCAACA -ACAAAATAAAGATGGGAGGTAAAAATGAAACGGTGGGAAGTGGCTTTACTGGTGATGGTAATGTTGGTTTGCTGTATTGA -ACTGTGAAGGAGGACGCCATGAAACTTTTAATCGCAATCATCCTGATGGTGCTGACTGGTGTTTGCTTTGCAGATGTTGG -TGATTACAGGCTGAACGGGGAGGATAACGCAAGAATTGAATCAGTCGTTACTGATAACTGTGAAAAAACAGCCGTATTGG -TAGGCGGTGACAGGCTTGCGAGGGTTGAGATCGAATATATAGCGACATTGTGCAAGCCGGTGGCTTTGGTGATTATTTAC -GACAGATTTGACGATATAGCGGCAATCCCTCTTAAGGTGACGTTGAAAAAGGTATTGAAAGAGAATAGCGATGAAAAGAT -TAACCTATTGAACAAGATGGGGGATCTGGCTGGTCGTATCGTTGCAGAGCAGTATTTAGGCATGAGTTTTGAGTAAGGAG -GCAATCATGAAAGTGTTAGGTAATATTTTATGGTGGGCTTTTGTTGGTTTCATGGCTTACGCCACTTTGATTAAGCCGGA -CAACACTGATCCAGCTGTTGTGAACTATGAAGAGCCTTTGCCTATGGAGCTTGCCAACTATGGCGAACCAGGTGAAGGGG -CGAAAATCATGAATGCCGCAAAAATAATGGGTCGCGACTACGCATGGAAACATGTAAAAGAAGACAGGTTGCCATGTCTG -TTTGCCGCCGGGGTTGTTGCTGATAACATCCTGGTAAAATACCATTTCAGCAATGAAACTGAGTTCAAACTTAAAGCGGC -AGCGGTCAGAGAATGCGCCAACGTAGCAGAAAACAACGGCTTTGTTTTGGTAGGTAGAGTATTTGAAAAACGTAATTGAT -TGCGAATAGCAACAACTAAACAACCAATACACCCGGCCCCTCGCCGGGTTTTTTGTGATCTGCGTCAATATTCCCTTCCG -TTACGCTTACCCTCCACCAATACGCGTGTTAACCTCCCAATGGATTCTATGAGATGGGAGATAAAAATCATGAGTTACGA -AATCAAAATTTGCGACATCCTCAAAGGCGCTGCGATGGAAGGACAATATAAGGGCGCTCAACGTGGGGCCAAATGCGAGG -AGATCGCAAACGAGTTAACTCGCCGGGGAGTTAAAAACAACAAGGGAGAGGTTATTACTAAGGGCGGCGTTAGCCATTGG -CTGGAAGGTAGACGGGAGCCAAATTTCGACACTCTGGCTGAACTGTGCGACATGTTCGGCGTTTATGCCCTGATGCCGAT -GCGTGGCGGTAAATGGATTCGAGTTCACCCGGAAGACCGTGGAGAAATGGAATTACGCGAGGCTGTAGCTGAACGAGATG -CTATTATCGACGACCTGAAGGCCCGTATCGCTGAGCTTGAGGCGGCACTAGCAAATAAACAAGTCCCAGCAGAAGCGGAA -GAGATGGGAGGTGAAAAAGTGGAAGAAGTGGCAGCAGAGCAAGCGCCCAACGATGAAAAAGAGATGGGAGCTAAGGAGTG -GGTTAACCCGAACCCGAAAAAATACAGCGTCGGCATGTTGTGTCAGGTACTGGCTGCAATGGGCGGCGAATACCTGGGCA -ACAACGCAGGGTTACAGCAGAAGATCACTGTGTTGGATAACGACGGCAACCGGAAGCCAATCAGTAACGGCGCGTTTTAT -CGACTGATTGAGCAGGCCAAAGGGAGAGGATTGATTAGCGTTGAACAGGAAATCAAACACAAGAAAGACGAAAACGGCAA -CCAGATCGGCAAAGGCAAGAAAGGTGACAAGCTGATAACTTTGCTTCCCAACTGGATTGATAAGCTGGGAGACGAATAAA -CCAGCCTTCAACCCCATCTCATCAATCAACGCCCGGCCCCGCTGCCGGGTTTTTGCTATGCACCACAATTACCCCAACCG -GATACACAGCCGGATACAATTCCACCAGCACCCAGCCACCCAGCGCCACCGCTGGCGAATACCGCATTCAGGAAGGAAAT -GCGAGTGATTTCACCGTCACCGGCACAACCGATCCGCCAAAAAGAGGCGTACCAATGTCGATATAGTCCCCCGCGCGGAC -AATCACTTCGTCAATGACTGCCAACGGGAGTTGTTGTAGCTGTGGGCGCAACAACATGCCCAGAGCTTTACCAAAGTCCT -GCCCGGCCACCACCAGCAGGGGATGCGGATTCGGAAAACGCGCGACGAAATCGACCAACGCGTTGATGACCGTCAGTACC -GCGGCGTAACGCACAGGCAGCGAGGCGGGAAGCGCCAGCACGTACGCGTCAGTTTTGGGATCAAGATCCAGCTGAATCAG -CGCCTGTTGCCAGGCCCCCACCAGATCCGTTTCATCAATCGGGATCGCCACCGGCAAATTGCGCAGCGGCAGTTGTACGC -CCTCAAGCCAGATTGTGCTGCCAGAGAGCGAAAGGGTATGCGCGCCCGCGCCAATCACCGTGGCGCGCACGGTTTGCGCC -GGAAACTGTACGTTCATCTCACGCAGGCGCGGATGGTCATGCAGCGCAGTTGCCAGCAGCGGGCCAATATCGGCAAAACA -GAACGGGTCGGCGGGCTGGTGGCGATAACATTCGCCCACGCCGCCAGAAAGCGTAATGATTTCGGGCGTAACACCTGCGG -GCAGCAAACCGGTTTGCATCAATGCCTGCGCGAGCGGTGAGAGCGTTCCGTCAATCACTTCGACAATCAGTTCTGCCATC -CGCCGGGTCACCTGCACCAGCTGCGCGCCGGTCAGCGAACGGGCGTCGGTGCCTGCACCGAAGCACTCATCCACAATCAT -CTGCCCCGGTTTATGAGCGTAAACCACGCGCCCGTGGCTGTCGGTTTCCAGCAGGCGACCACCGACGTTGAGGCAGGCAG -TGCCGCTGATTTTTCCGGCATCGAACAGGGCGTAGTTCGCGGTGCCACCGCCGATGTCGATATTCAGTACCCGACACAGC -CGTTGTTCAGAAAGGGTTTGTGCCCCGGCTCCGTGACCGGCGATCACGGATTCGAGGTGCGGCCCGGCGCTGGCAACGAC -AAAATCGCCCAGCGACTGAGAGAGCGCCATCACCGCCGGGCGAGCATTGCGGGTTTTCGCGCTTTCACCGGTGATGATGA -TGGCACCAGAATCAACGCTTTCCGGCTCAATACCCGCAGCATGATATTGCTCGAGTATTAAGGTTTTCAGTTCCGCTTCT -TTTAAACCGCCCTGTTTATCGACAGGGGTAAAGAACACCGGACTTTGCCAGCTAATTTCGCGTTTAATGAATTCGTAGCG -CGGCACCTGCGACACCGCCGCACGGTTAACCAGCTCCAGCCGGGAGAAAATCACCTGGGTGGTGGTGGTGCCGATATCGA -TACCGACGCTCAATAGCTGGCGAGTGTTCACGATTGTGCCTCCGCTTCGGTTTTAGTCGCGGTCGCGTCTTCTTTTGGCA -CCAGCATCATCGCCACGCCAATCGCCGTTACGCCGCCGATCAACTTGCCGACAATCATCGGGAAGATCATGGCGTTCATG -TTGGCAGCGGCGAAGCCTAAGTGGTCGCCCAGGGCGAAAGCAGCGGAAACGGCGAAGGCGCAGTTGATGACTTTGCCGCG -GGTATCCATCTGCTTCATCATGCCGAACATCGGGATGTTGTTGGCAAGCGTTGCCACCATGCCGGCTGCCGCGATGTTGT -TCATATTCAGTACTTTACCGACGCTCATCAGCGGTTTTTCAAACCAGCGAGTCAGCAGCAGCACCATCGGATACGCCCCT -AACAGAACGCAGGAGATAGAACCGATAACTTCAATGGCGCGCATCACCTCACCGGGTTTATCGCCAGGGGCCATAAAGAT -AGGATCCAGACCGGGGATCAGTTCCCAGCCAAGCAGGAATTTCACTACCGCAGCGGCAAGACCGAGGGTGATCAATGCAA -CGAGGAATTTGGCGAAGATCTGGAAGCCGTTGATCATTTTTTCCGGGATGAATTTCAGCCCCAGCGCCACCAGAATCGCA -ACAATGATCACCGGGATCATGTTCATCAGGATCAGGGCGAAAGTGAATTCCACCGGCTGGCCGTTGATCTGCACACCGGA -GTACATAGCAACCAGACCACCAGCGATACAACCAATCGGAATGGTCACAATGCCCGCCAGCACGCCGAGCGCCAGATAAC -GACGGTCAGAAGGTTCGATAATGCCGAGCGCCACCGGAATGGAAAACACAATCGTTGGCCCCATCATCGACCCGAGAATT -AACCCAGAGTATAGCCACGCGGCTACGTCGCCGCCCGCCAGCTCTTTGGCGAGGAAGAAGCCGCCCATATCGCACGCCAG -CAGTGTTCCGGCGAACATCGATGGGTTAGCGCCGAGCATTTCGTAAACCGGAATAATTACCGGCCCGAGAACGTGAGCCA -GTACCGGTGCCAGCGCGGTCATACCGACCATCGCCAGGCCCAGTGCGCCCATTGCCATAAAGCCTTCTTCGAACTGACCG -CCTGATCCTTCGATACTTTTACCGAACTTACCGAGGAAACGAGCAGAACCGCCGAACTGCGACAGGATCCTGTCTACGGC -AGCTATCAGCATAAAGAACATCATGATGTACATGATGATTTCGTTAATTCCCATCGCCTTTACTCCCTGTTAGTTGTTAT -TTATTGGCGGATGCGGCGTAAACGCCTTATCCGCCCTACATGTGCAATCCCGTAGGCTGGATAAGACGCGGCAAGCGTCG -CATCCGGCAATTGCACCGCGCCACTGGCGGATGCGGCGTGAACGCCTTATCCGCCCTACATGTGCAATCCCGTAGGCTGG -ATAAGATGCGGCAAGCGTCGCATCCGGCATTTATTGCGCCGCTGCGTACAGGCCGACAATCTGCTCCAGGCTGGCGGTAC -GCGGGTTACTGCGCAGACAAATATCTTCCAGCGCGGCCTGCGCCCATGCGCCGTAATGCGCAGATGTCGCACCAACATCG -CCCAGTCGTTTACCAATCCCAACTTCCGCAATCAGCTCACTTACCGCGTTAATAGCGTCACGATCGTCGGATTTTTTAGT -TCGCAGTGCCCGACCAATCTGACTAAAGCGTTCACGACAAACCATCCGGTTAAATTCCATCACCGTTGGCAGCAACATGG -CGTTCGCGAGACCGTGCGGAATATGCAGCGCCGCGCCCGGCTGATGCGCCATCGCGTGGCACAACCCAAGACCCGCACTG -GAAAACGCCATTCCCGCCATACATGAAGCCAGCAACATGCTCTCGCGCGCGGCAAGGTCGTGACCGTAGCCCACCGCTTT -CGGCAGCGATTTGCCAATCATCGCAATGGCACCAATCGCCAGACTGTCGGTAAACGGTGTAGCGTTCAGGGCGCTGTATG -CTTCAATGGCATGGGTTAACGCATCAATGCCGGTCATCGCCGTGACATGCGACGGCACACCTTCGGTCAATGCGGCGTCG -AGGATCGCCACATCCGGCATCAGCGAGGCATGGGCTAACACCTGCTTGCGCCCGCTCACCGCGTCGATAATCACCGTTAC -ATTGGTGGTTTCAGAGCCGGTTCCGGCGGTAGTTGGAATGGCAATCAGCGGCAAGCGCGGTTGCAGAACGCTGGTTTCTG -ACATCTCTGCCAGCGTGCTATCCGGGTTCGTCACCAGCAACGTCACGGCTTTCGCCGCATCCAGCACCGAGCCGCCGCCA -AACGCGATCACCCCATCACAGCCTGACTCACGCAACTGCGCCACGGCTGCACACACGTCGGTAATGCACGGTTCGCCCAC -CGGACATGGCCAGAGCGTCATGGCGATACCTTTAACGGTCAGGCTACGCGTCAGCCCGGCGGTCATCCCTGCCTGATGCA -AAAAGCTGTCTGCCATCACGAACAGATGTTTCAGCCCACGCGTTTGCGCTTGCTGTCCGCAACTGCTCACCGAGCCCGGA -CCGCAAAGCGTCACCGGTGGAACGCTAAATGTTTTTACCCGTTGCAGATTCAGGGTATCGAACGCCTGAAAGAGCGCGGT -CTGCAATTCATTTTGCATATAGCCCCTCCGCTTTCTCTCGCCCACTACTGGCGATCGCCAGCGGGGTCATAAACAAACTG -TGCTGCGGTAAATGCACCTGTAACGCCGGGAATTGTTTGCGAAACAGTTCCGCCACGCCCGGTTGCATACAAGAGCCGCC -CGCCAGCCATAAATCAGTAATGCCCTGCCCTTCAATATGCCGGGCGACAATGTCCGCCATTTTTTCGTACACCGGTTTCA -CCGCAGGCCAAATCTCTTCACCGTGACCGCGCTTGTACTGCTCCGCCTCTTCCAGCGAAATACGGCGATTTCCGGCGAGA -GTCAGAGAGATGTGATGTCCGCCGGTGGCTTCATCCGCCGAGTACGTCACCTTGCCCTTTTTCACGATGGCAATGCCGGT -AGTGCCGCCGCCGATATCCACTACACCGGCGTTGTCCAGTTGCAGCAGATCCGCAACTGCGGTTGGCTCATCCAGCACAT -GGCTCACTTCCAGTCCGGCAGATTCCAGCACGTTGATGGAAATACGCGGGTCCGTACCTGGAGGAAATGAAGTCGCCGCA -TGGCTAAAACGACGACCGAATTGCTGCTCGAGCGTGTCGAGATGGCGACGAACAATGGTGACAGCGCCGAAGAAATCCCA -GACGATGCCGTCGCGAACCACATCGGCCCAGTCGAGGCATACCGCCACTGGCTGACCGTCGCGGTCGACAACCATCGACA -CCACATCGCAGGTGCCCAGATCCACCCCCAGCCACAGCGGAGATTCCGTCGCGGCGGGCGTCTGGTTACACAGCGTTGCC -GCCGTTTGCAGACGTGGGGTGAGCCATTGTTCGTCGTGCGCCATCTGTTACTCCTTAAACAATGCGAAACGCATCGACTA -ATACACAGCGACGCAGACGGACAAACGTACGCGCGCTGGTTACCCCTTCACCGGTTGGCGTGGTGATGGTCATGGTGGTC -CAGCCTTCCCCGCCCAGCCCCAGCCCGGCAATGCACGGTCCGTTCTTAACGAAAATGCTGGTATCAATAGCATTCGCCAT -CTGGTTCATGTTTTCGATGTTGCGCGAGTGCATTGCCGCCGTGTGGTGGCAACCGCCTTCCAGTTTCACCGCTAGCGCAA -TGGCATCCGCCACGTTGGCGACGCGCACGACGGGCAACACCGGCATCATCAGTTCAGTCACGGCAAACGGATGTTCTGCG -GTGGTTTCCACAAACAGCAGGCGCGTTTCTTGCGGAACTTTAAGGCCGATTGCCGCCGCGATTTTGCCTGCGTCGCGACC -AACCCAGTCACGGCTGACGGTGCCTTTTCCGCGCTCGTCGATATTTTTCAGCAACACCGGTTGCAGCTGCTGCGCCTGTT -CTGCGGTCAGTTTCACCGCGTGCTGGCCTTCCATCAGACGCATCAGTTCATCGGCTACGCTATCAACAACAATCAGTACC -TTTTCGTCGGCACAAATGATGTTGTTATCGAAAGAAGCGCCTTTGACGATGGACTGAGCGGCACGGGCGAGGTCGGCGGT -TTCATCCACCACTACCGGCGGGTTGCCAGCGCCTGCGGCAATCAGACGTTTATTGGTGTGTTTACGCGCCGCTTCTACTA -CCGCTTCGCCGCCGGTTACCACCAGCAGGCCGATACCCGGAAACTTGAACAAGCGTTGCGCGGTTTCGATATCCGGATTT -GCCACAGTAACCAGTAAGTTTTCCGGCCCACCTGCGGCAACAATCGCCTGGTTGAGCAGCGTAATCGCCCGCTGGGAGAC -TTTTTTCGCCGCCGGATGCGGGGCAAAAATGACGCTGTTGCCCGCGGCAATCAGGCTGATGGCGTTGTTAATTACGGTTG -CCGCCGGGTTAGTGGAAGGCGTCACCGAAGCCACCACGCCCCAGGGTGCGTTTTCAATTAGGGTCAGGCCGTTGTCGCCA -GTCAGCACTTGCGGAGAGAGGCACTCAACGCCTGGTGTGCCGCGCGCCTGAGCGACGTTTTTTGCAAATTTATCTTCAAC -GCGCCCCATGCCGGTTTCACTGACGGCAAGTTCCGCTAAATCTCTGGCGTGTTTTTCGCCTGCTTCACGAATGGCAGCAA -TGGCTAACTGGCGCATTGCCACGCTTTTTAACCCTTGCTGGGCGACTTTGGCTGCCGCAACGGCGTCATCCAGGGACGCG -AAAACGCCCATCTCATGAACGGCGGCGGACGGCGTGTCACTGCTTTGCATTTTCAGCAGTACCGCTTTCACCACCTGTTC -AATATCCTGTTGATTCATGATGTTCTGCCTTATTTGTGGAAAATTACCTGACCGCCAGACACCACCTCATCGACAATGCC -AATCACGCACAGATCGACCGGTGACGTTTCGCTTTTATGCGCCTGGCGGGCGGAACTGCCACTCACCAGTAACACCCACT -CCCCGGTTCCCGCGCCAATATTGTCGATGGCGACGGCGCATTGCCCGTCAGGATTACCTTGTGGATCAATCATTTCCACC -ATCAGCAATTTGTCATGCGCCAGTCCGTGATGGCGTACGGTACAAACAATTTGTCCAGTGACGACTGCCAGTTTCATACC -CGCCTCCGTGGCGTATTTCAGGTAAAAGCTCCCCCTACCCTCCGCAGAAGGTAAAATGAAAAAGGAGAGAGCGTGACGCC -CGAATCGACGTCACACAGGGTGATTACAGGTTGCTGCTATCGCCTTTCAGGCCGATCGGGAAGACTTCTTCCAGGTCGCC -GTGCGGACGCGGGATAACGTGTACAGATACCAGCTCGCCGATACGCTGTGCCGCTGCGGCACCTGCATCGGTCGCGGCTT -TACAGGCTGCAACATCACCACGAACCATGGCAGTACACAGGCCGCCGCCAATCTGCTTAACACCAACCAGCTTGACGCGC -GCAGCTTTCACCATCGCGTCAGAAGCCTCAATCAGTGCAACCAGGCCCCGGGTTTCGATCATTCCTAATGCTTCCATTGT -GCTTTCCTCTTTATCAGGGTCCAGAACGGGACCGTTCATTCAACCAGTGTTTGTAAACTGCTTTCGCGGTTCACTTCTGT -CTGACGCGGCACAGCTGCCACCAGCGCCAGCTCGATAATTTCCTGCACGCTACAACCACGAGAGAGATCGTGCATCGGCG -CGGCAAGTCCTTGTATCAGTGGCCCGACGGCACGATATCCGCCGAGTCGTTGTGCGATTTTGTAACCAATATTTCCGGCT -TCCAGCGACGGAAAAACCATCACATTGGCCTTGCCCTGTAGCGGGCTGGCAGGCGCTTTTTGCGCCGCCACTTCCGGCAC -GAAGGCGGCGTCAAACTGTAACTCGCCATCCACCACCAGCTTTGGTGCGCGCTCACGGACGATTTCTGTCGCCTGCTGGA -CGTTAGCAACACAGGGGTGACGGGCGCTACCATTGCTGGAAAACGACAGCATCGCCACGCGCGGCTCTTCTCCGGTGATG -GCGCGCCAGGTTTCGGCACTGGCAAGCGCGATATCCGCCAGCTGCGCCGCCGTCGGCTGTGGCACCACGCTGCAATCGGC -AAAGCCCAACGCCGGGCCGCTGTACTGTGGCAACATCAGGAAAATGGAAGAGAGCGTTTTACAGCCTGGCTGCAAGCCGA -TAATGCGTAATCCGGCACGCAGCACATTTGCCGTGGAAGAGAGGTTGCCCGCGATACAGACATCCGCTTTACCGGCGCTG -ACCATTGCTGCGGCGAACATCAGAGGGTCGGTAAGTTTTTCCAGCGCATCCGGCGGCGTTTTTTCGCCCGCGCGGGCCAG -CCAGCGATGAGCAAATTCTTCCCGCATTGCGAGGTTGCCATGCGGATCAATCACCTGTAGCCCGTCCATCGCCACGCCGT -GACTGAGCGCAAACTGACGAAGTTCAAACGGATTGGCGACCAGAATGGGCGTTGCCAGACCTTGTTGATGTAAATATTGC -GCGGCTTTCAGCACACGTTGGTCTAACGCATCCGGAAAAACCACTCTGGCGGGCGCTCGCAACGCCAGTTCACGACAACG -TTCAATAATCATTGCGTTTCCCCCAGTCGTTGTTGGATCTGCTTCACCGTTAGCGGCTGCTTCGTTACGCTCAGGATCAT -CATCACGTAGACCGTGCTCGAAAGGCGGTTCAGCGCCTGCAAAATGTCCGGGCGTAATACTTCAAAGCTGCGGGTGATAA -AGACCTGCGCCGCTACGGTTTCGGTTTCCCGCACTTTGGTGCGTAGCAGATTGAGCAACGCAGCATCGCGCCCGTGGCTG -GCTTCCGGCACCAGATGATCGTGGTCGAGATAGCGCAGCGGCTGATGAGAAAGCCGATGCAGATCTTCGTCAGAAAGCCC -GACAATCGCCTGGCAGCCCAGCGGTTCCCCCAGCGCATCGGCGCGCATAATGTTGCCAAGACGCGAACGGATATCCGCCA -GCCACGGCTGCCACGGTTCCGCCAGTTCAATTTGCAGCCACACTGCCAGCGCAATGGTGCTGTCGAGAACCGCGCGAAAA -CCCAGACGCGGATCGCTTTTGGCGACCATTTTTTCCGCCGACAGGTGAGTCAGCGTATCCGGCTTTTTTGCCACCGGCTG -GCGACACAGTTCGCAGCACGCCTGCGGATGTTCATCGCTACTGGTCAGCCCATGAACGGGCTGCGGCTGCTGCTGTTCAT -CGTCAACAAACAGGCGGCCCTGCTCGTCAATAAACTTGATGCGCAGATGGCGGCTTTCCAGCAACTCCCGGGCAGAGGGC -GTCAGGCGACTGTCCGCAGGGAGATGGATCTCTGCGCCTTCGCTGAGCGTATGGTTCGCTCTTAGCCATGCTTCGGTGAT -GAAATCTTTCATAGGGATTGCCAGTTAGCCGGCCAGGCGACATACAGGAATTTCACGCTGGATGTCGTACCAAATTCGAT -GCTGGAGCCTTTCGGGATAAACATCACGTCGCCTGCTTTGGCGATCATGGTTTGGCCTTCGTGGCGAACATGCAGCTCCC -CTTCCAGCACCATGTCGATTTCGTCGTAGTTCAGGGTCCACGGGAAGAATGCGTTCTCCCACTGCATAAAACCGGCGGCC -ATGCTGCTGCCGTCGTCTCCGGTCACAAGATCAGTCAAGCCCACGCAATGCGGCTCTGCGCCGTCGAAACGACCAAACTT -GACGCTACTGCCATCAATCACTTTGATGCCGCCTTTGCCGGTCACCGATTTGAAGCTCGGCTGCATTGCGCCCTGCTCCA -GCGACTGTTTTTCCTTCATCACTTTTTCCATCAGCTGTGCGACCAGGCTTTCGGTAAACTGGCCTTCCGGCAGCTGGGCA -ATGATGGTTTCGCGGATGCGCTGGCTTTCGGTTTTGTCGGCTGGCACGCTGGCGGGCACGGACGCCGTTACCGGGATCGA -TTCATCACATTCGGTGATGGTAAAACCCAGTAGATCCGCCACTTCACGGGCTTCCGGGGTAATAATGCTGGCGCGCAGAA -CCACGGACATTGCCTGTTCGCCGCGCGCGTGTGCTTCACGAATATCATTCGCTGTGATGAGTTTTTTCACCTGCTTCCTC -CTGTTTGGTGAGAGATGCCAGATAATCCACCAGTTGCTGCACGCTTTGCGGGTCGTGGCTGTTTAGCTCGAACATCGGCT -CTTCGAAACCCGTCTCAAGCAATAACTTTCGCGTTGCGGCGACGTCAGCATCTGGCATGTCCGTTTTACTGATGACGGCG -ATTTGCCGTTTGCTGACGCCAATATCCAGCAACCCGGCAGGCAACCGACTTTCCGGGTCATTTGCGCCATGGACATAGAT -CAGCATGTCTACATCCTGTAGCGTGGTAATTAAGGCGTGATACCAGCGGGGATGGTTAAAATATTCACCCGGCGTATCAA -TATCGCCCTTATCATTAAATTCCACGGCCTGTGTTTTTCTGGCGAGGGTATAATTCCCCTGCAACGCATTAAATAACGTT -GTTTTTCCTGCCCCGACGCTACCCACAAACGCAATTCGTTTCATGAATGCCTCGTATTAACTTTTGGTCATTTCACAAAG -CGTATAATTTAATAAGCGACCTAAACCGCTGACGGTTTGTGATAACGCTTCTTCTACTGCGCCCACCGAGCCATAAATCA -CCAATGCACCGCTGAATCGGTCGAGAAAACCGATATGCACATCAGCGGCTTTCAGCGCTAAATCACCGGCGATCATCGCC -GTTTCGCCGGGAGTTAGCGTCATAATGCCAATTGCGCCCGCATCCGGAACGCCGATTTTCTTCGCCAGTTCCTCACCGGG -ATGCGCGATGAGATGCGCCAGTGTGACCTGTTTGCCGGGCACAAATTCCTGAATGATGCGTTCTTTATCCATGAGTCGCC -GCCTGTGAAAAACTTTCGTGTATCGTGACAATTTTTCGTCAGAGTAAATAACAAAATTCGGCAAGCGCGTTTAAAAGGTG -AGGTAGATCACTAAGAATGGAGAGATATTCGCTGTGGTGCATAAACTTTCATATGCAACGCATGAATATAAATAAAATAA -TATCGAGATATTATATAGACTGCTTTTTTTTATTATTCGCAAACTCAGTAATAAGCTTTACTAATATATTGCAGCTAAAC -TGCTTACCCTGAATATTCAGGGTAAGCGTGAGAGTTAAAAAAAATTACAGCGGTTGGGTTTGCGCTTCTACCACGGCCAG -CGCCACCATGTTGACGATACGACGCACCGATGCGATCGGCGTTAACACGTGAACCGGTTTCGCCACACCCATCAGCACCG -GGCCGACAGTCACACCTTCCGAGCTGGAAACACGCAGTAAGTTGTAACTAATGCGGGCAGCTTCCATGTTCGGCATCACC -AGAATATTGGCGGAACCTTTCAAAGAGCTGTCCGGCATACGGTCGTTGCGAATCGCTTCCACCAGCGCTGCATCGCCGTG -CATTTCACCATCAATCATCAGTTCTGGTGCACGTTCCCTGACCAGTTCCAGCGCCTGACGCATTTTGCTCGACGACGGGC -AGTCAGAAGAACCAAAGTTGGAGTGCGACAACAAAGCAACGCGCGGCTCAATACCAAAACGACGGACAGTTTCTGCCGCC -ATCAAGGTGATCTCCGCCAGCTCTTCTGCATCCGGTTCATCATTAACATATGTATCGGCAATAAAGGTGTTACCACTCGG -CAGCAGCAGCGCGTTCATGGCACCTGCGGTGTGAACGCCATCGCGATAACCAAAGACATTTTTCACCACGCTAAAATGTT -CATGATAATCACCCACCGTACCGCAAATCATTGCATCGGCTTCCCCACGCTGAACCATGATCGCGCCGATCACTGTCGGG -TTACTGATCAGCGCCCGCTGCGCCTGTTCCTGAGTGACGCCGCGACGCTTCATGATCTGGAAGTATTCGGTCCAGTACTC -TTTAAAGCGCGGATCGGATTCGTTATTGACGATCTCAAAATCAACGCCCGCTTTGATCTGCAAGCCCAGTTTCTGAATGC -GCATTTCGATCACGTTCGGACGACCGATAAGGATCGGTTTCGCCAGTCCCAGCGTTACCAGTTCCTGAGTGGCATGCAGA -ACGCGCGCCTCTTCCCCTTCCGGCAGAACAACGCGCTTCGGCGCTTTGCGAGCCTGGGAGAAAATCGGCTTCATAAACAG -GTTGGTTTTGTAAACGAACTCAGTCAGCTTGTCGATGTAGACGTCGAAATCAGCAATCGGACGAGTCGCCACGCCCGACT -CCATCGCGGCTTTAGCGACCGCAGGAGCGATCTTAACGATCAAGCGCGGATCAAACGGTTTTGGAATGATGTATTCCGGA -CCAAAGCTCAGATCCTGATCGCCATACGCTGAAGCCACCACTTCGCTCTGTTCCGCATGGGCGAGTTCTGCAATCGCACG -TACCGCCGCCAGTTTCATCTCTTCGTTGATGGCGGTTGCGCCAACGTCCAGCGCGCCACGGAAGATGAACGGGAAGCACA -GGACGTTGTTCACCTGGTTCGGATAGTCAGAACGACCGGTGCAAATGATGGCATCCGGACGCACTTCTTTCGCCAGCGGC -GGCAGAATTTCCGGTTCCGGGTTCGCCAGCGCCAGGATCATTGGCGCACGAGCCATTTTCTTCACCATTTCCTGGGTCAG -CACTTTCGGGCCGGAACAGCCCAGGAAAATATCCGCGCCTTCAATCACATCATCGAGGGTACGTTTGCCGTCATCCACCA -CCGCATATGCGGCTTTGGTTTCCGCCATGTTTGGCTCACGGCCCTGATAGATAACGCCTTTTGAATCGCAAACCACGATG -TTATGTTTTTGCAGACCCAGCGCTACCAGCAGGTTCATACAGGCGATTGCTGCGGCACCCGCGCCGGAAACCACCATCCG -CACGTCGGAGATGTTTTTCTCCACCACGCGCAAGCCGTTGAGGATGGCGGCAGTGCTGATAATTGCCGTGCCGTGCTGAT -CGTCGTGGAATACCGGAATATTCATCCGCTCGCGCAGTTTCTGTTCAATATAGAAACATTCTGGCGCTTTAATGTCTTCG -AGGTTGATGCCGCCGAAGGTTGGTTCGAGCGCGGCGACAACTTCAATAAATTTGTCCGGGTCGAGTTCGTCAACTTCAAT -GTCAAATACATCAATCCCGGCGAATTTCTTAAACAGAACGCCCTTGCCTTCCATCACCGGTTTGCCTGCCAGCGCGCCAA -TGTTGCCTAACCCCAGCACCGCCGTACCGTTAGAGATCACCGCCACCAGGTTACCTCGGGCGGTATATTTGTAGGCTTTT -AACGGGTCTTTTTCGATTTCAAGACAAGGTGCGGCAACGCCTGGTGAGTAGGCCAGCGCCAGATCGCGCTGTGTTGCCAG -AGGCTTGGTTGGAGAAACCTGGATTTTCCCTGGAACTGGAAATTCATGGAAATCAAGTGCACTTTGTTTTAACTGGTCAT -CCATTTGGTTGTTCCTTTCACGTAACGTTCACAAATAAAGTGTGTGGGCAACAGCCCCTGCCCACAACGTGGCGCACATT -ATTACCCTGCCGGAGTCTACAGACTTTGAGCAAGTCCAAACTCTCACCATTAATATAATGTTTTGGTAATAATCCTATAA -CACTGATGTTACCTGCTTAATCCAGCAATACCATGCCTGTCTGCTATGCTTTTTTGATGCGTTTAGCGAAATTTCTCAGA -AGTGTGAATTAACGCACTCATCTAACACTTTACTTTTCAAGGAGTATTTCCTATGAACGAGTTAGACGGCATCAAACAGT -TCACCACTGTCGTGGCAGACAGCGGCGATATTGAGTCCATTCGCCATTATCATCCCCAGGATGCCACCACCAATCCTTCG -CTGTTACTCAAAGCTGCCGGATTATCACAATATGAGCATTTAATAGACGATGCTATCGCCTGGGGTAAAAAAAATGGCAA -GACCCAGGAACAACAGGTGGTCGCAGCGTGTGACAAACTGGCGGTCAATTTCGGTGCTGAAATCCTCAAAATCGTACCCG -GTCGCGTGTCAACAGAAGTTGATGCACGCCTCTCTTTTGATAAAGAAAAGAGTATTGAGAAGGCGCGCCATCTGGTGGAC -TTGTATCAGCAACAAGGCGTTGAGAAATCACGCATTCTGATCAAGCTGGCTTCGACCTGGGAAGGAATTCGCGCGGCAGA -AGAGCTGGAAAAAGAAGGTATTAACTGCAACCTGACGCTGCTGTTTTCTTTTGCACAGGCACGGGCCTGTGCGGAAGCAG -GCGTTTTTCTGATTTCGCCGTTTGTCGGGCGTATTTATGACTGGTATCAGGCACGCAAGCCGATGGACCCGTATGTGGTG -GAAGAAGATCCGGGCGTTAAATCGGTGCGCAATATCTACGACTACTATAAGCAACACCACTATGAAACCATTGTGATGGG -CGCGAGCTTCCGTCGCACCGAACAAATCCTCGCCTTAACCGGCTGCGATCGACTGACTATCGCACCGAATTTACTGAAGG -AGCTGCAGGAAAAAGTTTCGCCAGTGGTACGTAAATTAATCCCACCTTCTCAGACGTTCCCACGCCCAGCTCCCATGAGC -GAAGCGGAGTTCCGTTGGGAGCACAATCAGGATGCGATGGCGGTAGAAAAACTGTCTGAAGGCATTCGTCTGTTCGCCGT -TGATCAACGCAAACTGGAAGATCTTCTTGCCGCCAAACTATAAACCAGCCACGGAGTGTTATATGTCCCGAAAAGACCTT -GCCAATGCGATTCGCGCACTCAGTATGGATGCGGTACAAAAAGCCAACTCTGGTCATCCCGGCGCGCCGATGGGCATGGC -TGATATTGCCGAAGTGCTGTGGAACGATTTTCTTAAACATAACCCTACCGACCCAACCTGGTATGATCGCGACCGCTTTA -TTCTTTCCAACGGTCACGCGTCGATGCTGCTCTACAGTTTGCTACATCTGACCGGTTACGACCTGCCGCTGGAAGAACTG -AAGAACTTCCGTCAGTTGCATTCGAAAACCCCAGGCCACCCGGAGATTGGCTATACGCCAGGCGTTGAAACCACCACCGG -CCCGCTTGGACAAGGTTTGGCGAACGCCGTCGGGCTGGCGATAGCAGAGCGTACACTGGCGGCGCAGTTTAACCAGCCAG -ACCATGAGATCGTCGATCACTTCACCTATGTGTTTATGGGCGACGGCTGCCTGATGGAAGGTATTTCCCACGAAGTCTGT -TCGCTGGCAGGCACGCTGGGACTGGGCAAGCTGATTGGTTTTTACGATCACAACGGTATTTCCATCGACGGTGAAACAGA -AGGCTGGTTTACCGACGATACGGCAAAACGTTTTGAAGCCTATCACTGGCATGTGATCCATGAAATCGACGGTCACGATC -CGCAGGCGGTGAAGGAAGCGATCCTTGAAGCGCAAAGCGTGAAAGATAAGCCGTCGCTGATTATCTGCCGTACGGTGATT -GGCTTTGGTTCGCCGAATAAAGCAGGTAAGGAAGAGGCGCACGGCGCACCACTGGGGGAAGAAGAAGTGGCGCTGGCACG -GCAAAAACTGGGCTGGCACCATCCGCCATTTGAGATCCCTAAAGAGATTTATCACGCCTGGGATGCCCGTGAAAAAGGCG -AAAAAGCGCAGCAGAGCTGGAATGAGAAGTTTGCCGCCTATAAAAAGGCTCATCCGCAACTGGCAGAAGAGTTTACCCGA -CGGATGAGCGGTGGTTTACCGAAGGACTGGGAGAAAACGACTCAGAAATATATCAATGAGTTACAGGCAAATCCGGCGAA -AATCGCTACCCGTAAGGCTTCGCAAAATACGCTTAACGCTTACGGGCCGATGCTGCCTGAGTTGCTCGGCGGTTCGGCGG -ATCTGGCTCCCAGCAACCTGACCATCTGGAAAGGTTCTGTTTCGCTGAAGGAAGATCCAGCGGGCAACTACATTCACTAC -GGGGTGCGTGAATTTGGCATGACCGCTATCGCCAACGGCATCGCGCACCACGGCGGCTTTGTGCCGTATACCGCGACGTT -CCTGATGTTTGTTGAATACGCCCGTAACGCCGCGCGGATGGCGGCACTGATGAAAGCGCGGCAGATTATGGTTTATACCC -ACGACTCAATTGGCCTGGGCGAAGATGGTCCGACGCACCAGGCTGTTGAGCAACTGGCCAGCCTGCGCTTAACGCCAAAT -TTCAGCACCTGGCGACCGTGCGATCAGGTGGAAGCGGCGGTGGGCTGGAAGCTGGCGGTTGAGCGCCACAACGGACCGAC -GGCACTGATCCTCTCAAGGCAGAATCTGGCCCAGGTGGAACGTACGCCGGATCAGGTTAAAGAGATTGCTCGTGGCGGTT -ATGTGCTGAAAGACAGCGGCGGTAAGCCAGATATTATTCTGATTGCCACCGGTTCAGAGATGGAAATTACCCTGCAAGCG -GCAGAGAAATTAGCAGGAGAAGGTCGCAATGTACGCGTAGTTTCCCTGCCCTCGACCGATATTTTCGACGCCCAGGATGA -GGAATATCGGGAGTCGGTGTTGCCTTCTAACGTTGCGGCTCGCGTGGCGGTGGAAGCAGGTATTGCCGATTACTGGTACA -AGTATGTTGGTCTGAAAGGGGCAATTGTCGGGATGACGGGTTACGGGGAATCTGCTCCGGCGGATAAGCTGTTCCCGTTC -TTTGGCTTTACCGCCGAGAATATTGTGGCAAAAGCGCATAAGGTGCTGGGAGTGAAAGGTGCCTGATGGTGATTGCCGGA -TGCTGATTGCCGGATGCGACGCTGACGCGTCTTATCCGGCCTACAGCGTCTTATCCGGCCTACATGTCCCGCCATTTTGT -TTAACGGGTGATCCACAACGTGGGCCAGGCGTCTGGCCCATGCCAGTTATCGCAGGTGGGTTCTGCGGCGTAACGCACCA -GGCGAAAACGCTGACCGTCAAAGCGCCAGCGCGCCTGAATGCCACAATCGCTTAATCCGCGCCCTTTCGCTAAGGTCACC -AGTTCACGCGATTTCTCATCAAATGTTGCGTTCATCAGTTCCAGTTCATTCGTCTCCTGACCGTTGTTGAACGGCAAACG -CAACCGAACCGGGCGCGAAGCTAGTGGCTTTTTACGCGACACAATCCATGCCAAATCAATGGTGTTATAGGCCCCTGCCT -CACAGCTAATCATCATCAGCGCTTTATCATCAGTCAGCGCAGTGACATTCACCTCACGACGCAATGGATCAAGCGAGCAG -CGCAGACCATTCATCCGCCAGTTTCCATAATCCAGCAAATCGTTGCGTTCTTCGAGTGAGAGTGGCGTCGGCGTTGGGTT -AACCACCGCGACCTCTTTCAGCGCAGGCGCGGGCGGTACGCTGAGCGGCGGTTCGTCCCCTTTCTTGATCCACGCGGTTT -CACTGCCAACGCGCTTTTGCTGAGCATCAATAAACAACAACGCTGCTTTTAAGCCACTCAGAGAAATGGTCTGATCGCCA -TCGCGTAAGGTGATTGCCTTCCCTTCCTGAATCATCTGCAAAAACGCGGTGATGGTTGCCGTATCATCGGTTACTAATAA -CCATGGTGAAATCCGCCACTTGTCACCACTTAACGCCAACGGCTCGCCATCTAACAGCAGCCGTGGCGCTATCTCCCCTT -CTGACGCCTCCGGCGACTTCAATCCGCCGCGCTCAATACGTAAAACGGCATCGGTATGCGCCCCGGCGCTGCGGCTCAGG -GTCATCACCAGTCCATTATGATCGCCCGTATTACGCGCCACGCAGAAATTTTGGTTATTACAGGTGACCTGCCAGTCGGA -AAACGCCCGTTGCGCTGGTGCCGCCCACACCAAAGACGTCGGCAACAAAGCGAAAAAAAAGAGAAGGAAAATGCGATAGC -GCATGGACGGTACGACCCCAGAAGTTCAAACAAACAGCACAAGTCGTATCTTCGTTGCGCAGGTAGCGCGGCTCAATCGG -ATTTGTCGGATTGAGCCAATAATAAACAACGAAATATTATTGTTATTTTTCAGTCCATTAAATGTGACGTTTGCAAATAG -TTAAGCAATAACACCGTCTTACCGTCACGTATCTCGCCGGTTTTGATCATCTCCAGCGCCTGGCTGAACGGCAGCTCGAG -CACTTCAATATCTTCATCTTCGACACCGCCACCGGCGTTAGCGCGCTGATTGTCACTGTATTCGGCGATAAAAAAGTGGA -TTAGCTCAGTCACACCGCCTGGCGACATATACAGTTCAAATAATTTGCGCACTTCACCCACTTCATAGCCCGTCTCTTCA -ATCGCTTCTTTGCGAATACACACTTCCGGTTCGTCGTTATCCAGCAGCCCGGCGCAGCTTTCAATCAGCTGCCCGCTTTC -ATTGCCATTAACCCAGGTAGCGACACGGAACTGACGAATCAGAACCACGGTCTTTTTCTTCGTGTTGTACAGGAGGATCG -TCGCACCATTGCCGCGATCGTACACTTCACGTTTATGGCGGATAACTTCGCCGTCTTTGCGCGTGAGATCGTAAGTAATG -TTGTGCAGGGTGAAATAGTTATCGGAGAGAATTTTGTCTTTAATGAGGGTGATTTGTTGCGTCATACCGACTCCACAGCG -CGAAATGAACAATTATCTTACGCTGTGAAGTCGGGTTTGTCTGCGCAGGCTATCAGTGAGATTTGACTGATTTTACCCCC -AGCCAGTCAATAATCCCCTGTGCCGCATGACGTCCTTCTGCCATTGCGGTAACCACCAGATCCGCACCACGCACGGCGTC -ACCACCAGCGAAGATTTTCGGATTGGTGGTCTGGTAACGGTACTGGCTTTCCACATCCGCGATGATGCGGCCCCATTTGT -CTACCGTTACACCGTGCGACTCCAGCCACGGCATCCCGTGCGGATTGAAGCCAAACGCCATAATCACCGCGTCGGCTGGC -ATGACAAATTCACTGCCTTCCACCGGCACTGGACGCCGACGCCCCTGGGCATCCGGCTCTCCAAGACGCGTGCGCAGGAA -ACGAATCCCGCAGACGTGACCTTGTTCATTCAGCTCAAGCGCCACCGGCTGGACGTTAAATTCGAAGTTGGCCCCCTCTT -CGCGGGCGTTCTTCACTTCTTTCTTCGAGCCTGGCATGTTAGCTTCATCACGACGATAAGCGCAGGTGACGTTACTCGCG -CCGTGGCGCAGTGCGGTACGCACACAGTCCATCGCGGTGTCGCCGCCGCCCAGTACCACGACGTTAAGTCCGGCGGTATT -GATAAACGGCTCTTCCGGTAGCTCTTCGAGCCCCATCACCTGTTTAGTGTTGGCAATGAGGAACGGCAGCGCGTCATAAA -CGCCCGGCGCATCTTCATTGGGTAAACCCGCTTTCATGGAACGGTAAGTGCCTACGCCAACGAAGACCGCGTCGTATTGT -TCCAAAAGCGAATCCAAAGAGACATCTTTACCCACTTCACAATTGAGTTCGAAGTGAATCCCCATCGCGCTGAAGATTTC -CCGACGGCGTGCCAGCAGGGATTTATCCAGTTTGAAAGAAGGAATGCCGAAAGTGAGCAAGCCACCGATTTCTGGATGGC -GATCGTACACCGTCACCCCCACGCCATTGCGGGTCAGAACATCCGCACAGGCCAGCCCTGCCGGACCTGCACCGATAATC -GCCACCCGCTTGTCCACTTTGGTGACATGGCTTAAGTCAGGACGCCAACCTTTCGCCAACGCCTGATCTGAAATGTAGCG -TTCAATGTTGCCGATAGTTACCGCGCCGTGCTCATCGCGAATAGTACAGGCACCTTCACACAAACGGTCTTGCGGACAAA -CGCGTCCGGTAATTTCCGGCAGGGTGTTGGTCTGGTGAGAAAGCTCGACGGCGGCGTCGATGTTTCCGGCTTTCACCAGT -TCAATCCACTGCGGTATATGGTTATGCAGCGGGCAGGTCCATTCACAAACGCTGTGCTCGCCGCACTTAAGGCAGCGCGA -GGCTTCCCGTTGTGCCTGGTCGGCGCGAAATGGCAGATAAATTTCATCAAAACCGGTTTTGCGCGCTTCAATCGCCAGTT -TATCCGGCTCGCCACGCGCGGGCGTTGCCTGCATTTGTTCGACTTTACTCATTACCGGCATTTCTTGCGCCGCGGTACTG -GCATGCCACGGTTGATGTTCCTGACGCGCGGTGCGCAAGCGGCGGGATTTCGCCATGCCGGAGAGTGCGACGTCAGTGAC -CAGTTGCAGCGCGTCCGCCGGGCAATTCTCAACACAGGCAGGACCGTTTTCGCGCCCCGCACAAAGGTCGCATTTATGCG -CCGTGGCTTTTACTTTTCCTGCCGCGACGGGTGTCAGGACGATTTGCATCGTACCAAAAGGACAGGCCACCACGCAGGAT -TTACAGCCAATACACTTTTGCTGATTGACCTGAATGCTGTCATCAACGTGGCTGATTGCGCCATTAGGGCAGCTACGGGC -GCAGGGCGCATCTTCACAATGGTGACAGGTCACTGCACTACGTTGCTGTTGATGTTTGATAACCGTAATTCGGGGATGAA -AATGGTGTTGGCTCAGGACATGTTGCTCATCATTGTGAGCCATGACACAGGCGATTTCACAAGCATGACAACCCAGACAT -TGCTGACTGTTGGCCATAATAAAACGATTCATAACGACCTTCTTTTTTGGTTGTAAAAACCTTATTCTTTATATGAGTGT -TGTTATTACCCGACTTACAGGGGAATCGGCAATGTTCATGTGCCCAGAATAAGTAACTATTTCGCTATAAACTGTGGCAG -ATCAAATAATCCCATCACTGACTAAATTGCGTTTCAGCGAACTGGAACATTAATGATTTTTTGTGGAGAAGACGCGTGTG -ATTGTTAAACGACCCGTCTCGGCCAGTCTGGCCCGGGCCTTTTTTTACATTGTGCTGCTGTCGATTCTTTCCACGGGTAT -CGCTCTGCTAACTCTGGCGAGCAGTTTGCGCGACGCTGAGGCTATCAATATTGCCGGATCGCTGCGTATGCAGAGTTACC -GCCTGGGCTACGACTTGCAAAGTGGCAGTCCACAACTCAATGCACATCGCCAGTTATTTCAGCAGGCACTGCATTCACCG -GTATTAACCAACCTCAACGTCTGGTATGTGCCAGAAGCAGTAAAAACTCGCTATGCGCATCTGAATGCCAACTGGCTGGA -GATGAATAATCGGCTCAGCAAGGGCGATTTGCCGTGGTATCAGGCCAATATTAATAATTATGTTAATCAGATAGACCTGT -TCGTACTGGCTTTACAGCACTACGCTGAACGCAAAATGCTGCTGGTGGTGGCGATTTCCCTGGCTGGCGGCATCGGTATT -TTCACGCTGGTCTTTTTTACTTTGCGCCGCATACGCCATCAGGTGGTTGCCCCGCTGAATCAGCTGGTTACCGCCAGTCA -GCGTATTGAACACGGGCAGTTCGACTCGCCGCCGCTGGATACCAACCTGCCGAATGAGCTTGGTCTGCTTGCAAAAACCT -TTAACCAGATGTCGAGCGAGCTGCATAAATTGTACCGTTCGCTGGAAGCGTCAGTAGAAGAAAAGACCCGCGATCTCCAC -GAGGCCAAGCGTCGTCTGGAGGTGTTGTATCAGTGTTCGCAGGCGCTGAACACTAGCCAGATTGATGTGCATTGTTTCCG -CCATATTTTGCAGATTGTTCGCGACAATGAAGCGGCTGAATATCTGGAGTTAAATGTCGGTGAAAACTGGCGGATTAGCG -AAGGGCAACCAAACCCGGAATTGCCGATGCAGATTTTACCGGTGACAATGCAAGAGACGGTTTACGGCGAACTGCACTGG -CAAAATAGTCACGTTTCATCATCAGAACCGCTGCTTAACAGCGTTTCGTCGATGCTGGGACGCGGTTTGTACTTTAATCA -GGCGCAGAAGCATTTTCAGCAATTATTGTTGATGGAAGAACGTGCGACCATCGCCCGCGAATTGCACGACTCGCTGGCTC -AGGTACTTTCTTACTTACGTATCCAGTTGACGTTACTGAAGCGTTCGATACCGGAAGATAACGCCACCGCACAAAGTATC -ATGGCCGATTTTTCCCAGGCGTTGAATGATGCTTATCGGCAGTTACGCGAGCTGTTGACTACTTTCCGCCTGACGCTGCA -GCAGGCGGATCTCCCCTCCGCATTGAGGGAAATGCTGGATACGTTACAAAATCAAACCAGCGCCAAACTGACCCTCGACT -GCCGTCTGCCAACCCTGGCACTGGATGCGCAAATGCAGGTGCATTTGTTGCAAATTATTCGCGAAGCGGTGCTGAATGCG -ATGAAGCACGCCAACGCCAGCGAAATCGCCGTCAGTTGCGTCACCGCGCCGGACGGCAATCACACGGTTTATATCCGTGA -TAACGGGATTGGTATCGGTGAACCGAAAGAACCCGAAGGTCATTATGGTCTGAATATCATGCGCGAACGCGCGGAACGGC -TAGGTGGGACGCTGACTTTTTCACAACCTTCCGGCGGCGGCACGTTAGTGAGTATTAGCTTTCGCTCTGCGGAGGGTGAG -GAAAGTCAGTTAATGTAATGCCTCCTACTGACCAAAGAATACTTGCACTTAAGGTTCAGTATAAAAGGGCATGATAATTT -ACATTAACTCCTTTTTTTCTCCACGATTGGCTCGTACCTTGCCGCTACAGTGAAGCAAGTCAAGCCTACAACGATACGCA -GAAACACGAGGTCCTCTTTTAATGGCGAATTTCTTTATTGATCGCCCCATTTTTGCCTGGGTGCTGGCAATCCTGTTGTG -TCTGACAGGTACCCTGGCGATTTTTTCATTGCCCGTTGAACAATACCCCGATCTCGCGCCACCGAATGTGCGAGTGACCG -CTAACTATCCCGGCGCATCGGCCCAGACGCTGGAAAACACCGTGACCCAGGTTATCGAGCAAAATATGACCGGCCTCGAT -AATCTCATGTATATGTCATCTCAGAGCAGTGGCACCGGTCAGGCATCTGTCACTTTAAGTTTTAAAGCAGGCACCGATCC -GGACGAAGCCGTGCAGCAAGTACAAAACCAGCTGCAATCAGCCATGCGAAAGTTACCGCAGGCGGTGCAAAATCAGGGCG -TGACGGTGCGTAAAACCGGCGATACCAACATTCTGACCATTGCCTTCGTCTCTACCGATGGTTCGATGGATAAACAGGAT -ATTGCTGATTATGTTGCCAGTAATATTCAGGACCCGTTAAGCCGCGTGAATGGCGTCGGGGATATCGATGCCTATGGTTC -GCAATATTCCATGCGTATCTGGCTGGACCCGGCGAAACTCAACAGTTTCCAGATGACGGCTAAAGATGTCACTGATGCCA -TTGAGTCACAGAACGCGCAGATTGCGGTTGGGCAACTTGGTGGTACACCTTCCGTCGATAAGCAGGCGCTCAACGCCACC -ATTAACGCCCAGTCACTGCTGCAAACACCAGAACAGTTCCGCGATATCACCTTGCGGGTCAATCAGGACGGCTCAGAGGT -AAGGCTGGGCGATGTCGCCACCGTCGAAATGGGGGCGGAGAAATACGATTATCTTAGCCGCTTCAATGGTAAGCCAGCCT -CCGGGCTGGGGGTAAAACTGGCCTCCGGCGCTAACGAAATGGCGACAGCGGAGCTGGTGCTCAATCGTCTCGACGAGCTG -GCGCAGTATTTCCCGCATGGACTGGAATACAAGGTGGCGTATGAAACCACCTCGTTTGTTAAAGCCTCCATTGAAGACGT -GGTGAAAACGCTGCTGGAAGCTATCGCTCTGGTTTTCCTCGTTATGTATCTGTTCCTGCAAAACTTCCGCGCCACGCTGA -TACCCACTATCGCCGTGCCGGTGGTGTTGATGGGAACCTTCTCCGTACTTTACGCCTTCGGTTACAGCGTCAACACCTTA -ACCATGTTCGCGATGGTGCTGGCGATCGGTCTGCTGGTGGATGACGCCATCGTGGTGGTGGAAAACGTCGAACGTATTAT -GAGTGAGGAAGGACTCACTCCTCGCGAAGCCACACGTAAATCGATGGGGCAGATCCAGGGGGCACTGGTCGGGATTGCGA -TGGTTCTTTCGGCGGTATTTGTACCAATGGCCTTCTTCGGCGGCACCACCGGTGCCATCTATCGCCAGTTCTCTATTACC -ATTGTTGCGGCGATGGTGCTGTCAGTACTGGTAGCGATGATCCTCACTCCGGCTCTGTGTGCCACACTACTTAAGCCACT -GAAAAAAGGTGAGCATCATGGGCAAAAAGGCTTTTTTGCCTGGTTTAACCAGATGTTTAACCGCAACGCCGAACGCTACG -AAAAAGGGGTGGCGAAAATTCTCCACCGTAGCCTGCGCTGGATTGTGATTTATGTCCTGCTGCTTGGCGGCATGGTGTTC -CTGTTCCTGCGTTTGCCGACGTCGTTCTTACCGCTGGAAGACCGTGGCATGTTTACTACCTCGGTACAGTTGCCCAGCGG -TTCAACGCAACAACAGACCCTGAAAGTCGTTGAGCAAATCGAGAAATACTACTTCACCCATGAAAAAGACAACATCATGT -CGGTGTTTGCCACCGTTGGTTCTGGCCCTGGGGGTAACGGGCAAAACGTGGCGCGAATGTTTATCCGCCTGAAAGACTGG -AGCGAACGCGACAGTAAGACCGGCACCTCGTTTGCCATTATCGAGCGTGCAACGAAGGCGTTTAACCAAATTAAAGAAGC -TCGCGTTATCGCCAGCAGCCCGCCAGCAATTAGCGGTCTTGGTAGTTCTGCAGGTTTTGATATGGAGTTGCAGGACCACG -CTGGAGCGGGTCACGATGCGCTGATGGCAGCACGTAATCAGTTGCTGGCGCTGGCGGCGGAAAACCCGGAGCTAACCCGT -GTGCGCCATAACGGCCTCGACGACAGTCCGCAGTTGCAGATTGATATCGACCAGCGTAAAGCTCAGGCGCTGGGCGTTGC -TATCGACGATATTAACGACACACTGCAAACCGCCTGGGGTTCGAGCTATGTGAATGACTTTATGGATCGCGGTCGCGTGA -AGAAAGTCTATGTGCAGGCAGCTGCGCCGTATCGCATGCTGCCAGATGACATCAATCTCTGGTATGTCCGAAATAAAGAT -GGCGGCATGGTGCCCTTCTCTGCTTTCGCGACCTCACGCTGGGAAACAGGCTCGCCGCGTCTGGAACGCTATAACGGTTA -TTCTGCGGTTGAGATTGTTGGGGAAGCCGCACCGGGGGTCAGTACCGGTACGGCGATGGATATTATGGAATCGTTAGTGA -AGCAGCTGCCAAACGGCTTTGGTCTGGAGTGGACGGCGATGTCGTATCAGGAGCGGCTTTCCGGCGCGCAGGCTCCGGCG -CTGTACGCCATTTCCTTGCTGGTGGTATTCCTGTGTCTGGCTGCGTTGTATGAAAGCTGGTCGGTGCCGTTCTCGGTAAT -GCTGGTCGTGCCGCTGGGGGTAATCGGCGCGCTGCTGGCAACCTGGATGCGCGGGCTGGAAAACGACGTTTACTTCCAGG -TGGGCCTGTTAACGGTCATTGGTTTATCGGCGAAAAACGCCATCCTGATCGTCGAGTTTGCTAACGAGATGAACCAAAAA -GGCCACGACCTGTTTGAAGCGACGCTCCACGCCTGCCGTCAGCGTTTACGCCCGATTCTGATGACCTCGCTGGCATTTAT -CTTCGGCGTATTGCCAATGGCAACCAGCACGGGTGCCGGTTCCGGTGGTCAGCATGCGGTGGGTACTGGCGTAATGGGCG -GGATGATTTCGGCCACTATTCTGGCTATTTACTTCGTGCCGCTGTTCTTTGTGCTGGTGCGCCGCCGCTTCCCGCTGAAG -CCGCGCCCGGAATAAGCAATAAAAAAGGCGACATGCCAATGTGTCGCCTTTTTCAACTTTCCGATTAAGAACCTGCTCAG -CGGGTTCTTGCTGTTTGTACTTTGTCTCAGGAATTACTTACGAAGCATAACTTCGATAAAGTCTTTCCAGTTCCCCAGTT -CACGTTCAATCATAACAACCTCTCTTATAATTATGGGTATTCTACGGAAACAATATACCGTGGTGAAGCTAATTTACTCG -ATTGCTGCGATGACTACCTCCGGGGGACAAATCTTATGTAAATACTATGGTCCTGCGGTGATGATTTGTATGTGATACAC -AGCAACATTTCGAGATATTCATACGGCATCTAATACTGATTTAATTCTGGTTAAAATACAGACAGATAACAAGATGAATA -TTCTTAATGTTTACGTTAAAAATGTTTAATATTATTTAATAGTTGTTAATTTGAATACTTCGATAATGTTATATTTCCTG -ATAATCATTTGCAGGCAAAATGTTTTCACCCTTAAATGAGTATTTATTCTCATAAATCGAAAAAGGATTCATTATGGTTA -CACTTTACGGTATCAAAAATTGTGACACCATTAAAAAGGCTCGCCGTTGGCTGGAAGCCAATAACATCGACTATCGTTTT -CATGATTACCGCGTCGATGGGCTGGACAGCGAATTATTGAACGATTTTATCAACGAATTAGGCTGGGAAGCGTTACTCAA -CACCCGTGGTACAACCTGGCGTAAACTGGACGAAACCACCCGCAATAAAATCACCGATGCGGCCTCTGCGGCGGCATTAA -TGACTGAAATGCCTGCAATTATCAAACGTCCATTGCTCTGCGTGCCCGGTAAGCCTATGCTGCTGGGTTTCAGTGATTCC -AGTTATCAGCAATTTTTCCATGAGGTGTAGTCTATGTCGTGCCCGGTTATTGAGCTGACACAACAGCTTATTCGCCGCCC -TTCCCTGAGTCCTGATGATGCAGGATGCCAGGCTTTGTTGATTGAACGTTTGCAGGCGATCGGTTTTACCGTTGAACGCA -TGGACTTTGCCGATACGCAGAATTTTTGGGCATGGCGTGGGCAGGGTGAAACGTTAGCCTTTGCCGGGCATACCGACGTG -GTGCCGCCTGGCGACGCCGATCGTTGGATCAATCCCCCGTTTGAACCCACCATTCGTGACGGCATGTTATTCGGGCGCGG -TGCGGCAGATATGAAAGGCTCGCTGGCGGCGATGGTGGTGGCGGCAGAACGTTTTGTCGCACAACATCCCAACCATACGG -GGCGACTGGCATTTCTGATCACCTCTGATGAAGAAGCCAGTGCCCACAACGGTACGGTAAAAGTCGTCGAAGCGTTAATG -GCACGTAATGAGCGTCTCGATTACTGCCTGGTTGGCGAACCGTCGAGTATCGAAGTGGTAGGTGATGTGGTGAAAAATGG -TCGTCGCGGATCATTAACCTGCAACCTTACCATTCATGGCGTTCAGGGGCATGTTGCCTACCCACATCTGGCTGACAATC -CGGTACATCGCGCAGCACCTTTCCTTAATGAATTAGTGGCTATTGAGTGGGATCAGGGCAATGAATTCTTCCCGGCGACC -AGTATGCAGATTGCCAATATTCAGGCGGGAACGGGCAGTAACAACGTTATTCCGGGTGAACTGTTTGTGCAGTTTAACTT -CCGCTTCAGCACCGAACTGACTGATGAGATGATCAAAGCGCAGGTGCTTGCCCTGCTTGAAAAACATCAACTGCGCTATA -CGGTGGATTGGTGGCTTTCCGGGCAGCCATTTTTGACCGCGCGCGGTAAACTGGTGGATGCGGTCGTTAACGCGGTTGAG -CACTATAATGAAATTAAACCGCAGCTACTGACCACAGGCGGAACGTCCGACGGGCGCTTTATTGCCCGCATGGGGGCGCA -GGTGGTGGAACTCGGGCCGGTCAATGCCACTATTCATAAAATTAATGAATGTGTGAACGCTGCCGACCTGCAGCTACTTG -CCCGTATGTATCAACGTATCATGGAACAGCTCGTCGCCTGATGAGTGGTTCTGCAAGAGGAAATAAGCATGGACTGGCTG -GCTAAATATTGGTGGATTCTGGTGATTGTCTTTTTGGTAGGCGTCCTGCTGAACGTGATTAAAGATCTCAAGCGCGTCGA -CCATAAGAAATTTCTCGCCAACAAGCCGGAGCTTCCCCCGCATCGTGATTTCAACGATAAGTGGGACGATGACGACGACT -GGCCGAAAAAGGATCAACCGAAGAAGTAAGCTGAGTGCTCAACCGTAGGCCGGATAAGGCGTTAACGCCGCATCCGGCAA -TGGTGAACGATGCCTGATGCGACGCTCACGCGTCTTATCAGGCCAGGTAATCTGTCTTTTACATCATTTCAATCACATCA -TCATCGCCAGGCTTACCGCCACTTAGCGCTTCGTCGAAATAATGTTTCGGAATGGTATAACGCAAGTGATCCAGGGCAAA -TTGCATACTGCGATTGTCGATCGCATGGCCTAAATCCTCCACGATATCCAGCGTCACGTCACCACCGGCACTGATTAACG -CTTCCTGCGCCGCAACCGCATGCGCCAGATCGATAACCGGATCTTCACCGCCATGAATCAGGTGAATTGTCGTGGCTGTA -GACGCAGTTTCCGGCAGGCTCGCATAGCGTCCGTTAAAAGCAATGACGCGTGAAGCAAGGCCCGGTTCGGCTTTAATGCT -CTCCAGCACCATAATCGCGCCTTGAGAGAAACCGATGAGCGCCGTGGCGTTAGCCCCTACTCCGCTCTGTTTCTGCCAGT -AGCGCACCGTTTCAATAAACGTCGGCATGATCGCATCCACACGCGCCTGGCGATTATCTTCCGTAATACCCTGCACCGAA -AACCACTGACGCCCCGCCGGATTACCGCTCGGCTCCGCGCCACCGACACTCACCACCAGCGCATCAGGAAACAGCGGTGC -AAACCAGTTGCCTATTTCCCCCATTGCCACCGGGTTATCCCCGACACCGTGGAAAAGCAGTAACAACTGTTGCGCAGGTT -TATCCGGGCTTTGAACAACAAAATGGTCATGTTTCATGGCGAACTCCTTAACTGATGTCATTAATTTTACGCCGCTGACT -CACAATGACCATGAGATAAAATTGAAGGAGTCAGTGAAATAATTGCCATTGCGTTATGCGATCGCGCAGACGCTCAGTGC -GAACATCATTAAGTGCGAACAGCGCCTGCGCGGCCTCTTCCCGCTGACGGACCAGTAACATCTTGCGGCCTGAAAGTTTA -AGTGTGGTACATAACTGCGCATCACTGGCGTTTTTCTGTAAACGCCCACGCAGCGCCGGTAATGCCAGTTCACTGGTTTG -TAACAGACGCAATAAGCAACCTAACGACGTTAATAGCGGACGATGAGCGAAAGCAAAACCGGCCAGTTCAAGCCAGTCGT -CGTCAGAAAGGACGGCATCGTTTAGTGGATCAACAGGAAGCGTTTCGCCATTCCACTGCGCGAGAGCTTGCGCATCGCGA -CGTAAACGGTAATGCTCACGTTCAGCCAGCTGTTTACCCGCATCACTCATCGGTAACAGCGCCATCGCCGTATAGCAACC -GCTGCTGGCTTCCCGATGATTACCCATCCGCACCAGCACAAAACCGCAGCGTTGCCAGAAACGCCATAACTCCCCGGTGT -AACCAAAACTCACCGAAAGATAGTCGAGGTCTTGCGTATATTGCAAAGCACCAGCAATAAGTTGCCGCCCTGTGCCTTCC -CGCTGACGAGCCGGATGAACTGCTATCCGGCTGACCCGCCGTCCACGCAATGTCGCCGCCAGTGGATTGTTGCCGTGCGC -CGCCAGCGACTGGGCCACCAGATTACCCCGCGGGCGACGAAAACCTGCCCATACCGCCTGACTGAGTTGTTGAGATAATC -CACCCTCATCCACCAGCCACAGCGCCCCGGCAATCTCGTTTTCGCCAGCCGCCTGTAAAAAATGTTGCCCTGGTGCATCC -ATCATCCGGCGTAAATCCAGCGGCGAAGTCCGATAGTGCGCACCAGACAAGAGCTGATAAACCTTTAACGGCGTTTCTGG -ATCGCTTTGCCATAACGTCTGTTCAAATGCGGAAATGACAATATTGCCTTGTGGTGTATGGGTGAAGTTTTCATCGTCAA -AAACCAGTGCCTCGCTGACCATTTTTTCCAGCGGGCATCCCTGCGCCCAGCGGATCGGCTGTTGCAGTTCAAAACGGTGT -AAATGCGGAAAGCGAGCGCAAAATTTCAGCAAAAAACCACGTCCGGTGCCTTCGTAGCCCTGCACCGTAGTGGTTAACAA -CGTTCGAGGAAAACGCGATACCAGTTGATGCAACAATGGCGCAGGTATGGCTGCGGCTTCATCGACCACCAGCCAGTCGG -CTTGCTCATCGCTGGCTAACAAGGCATCCGGCGCAATAAAGCGAAACTTCTCGCCCGCAAATTGTGCCAGTACATCCGTT -GACGCTTTTGCGGGCGCGGTGACAATCGCTCTGCCCGCAATACGAGAAATGAGTTGCCCTGCCAACGCCGACTTACCGCG -CCCACGCGCAGCCGTTACCGCTGCCACGCCCGGCGGCATGGTCATTAGCTGCTTTAAGAGTTGCTGTTGTTCTGGTTGTG -GTGCGCCAGTCGCGGGGTACCAGTCAGTACGGGGAGTAAAATGCGCCAACGAGAATGGCTGGTTTTGCCGCCAGAGGATA -GCCTCGTTATCCGCCGTAAGTACGCGTTTGAGATGCTGGACAAAATGCGGCGTCGCAATAGGGTCAGGGCAATCACTCCA -GCGCAGCGAGTCGGCATCAGGTTGGTTTTCCCACTCTTCCCATACAGGGAGTAACAAAACCAGCCAGCTTCCCGCTTTCA -ACGTTCCGCTAAGTGCGGCAAAGGCAGCGGCATCAAAGCCGTGGCGGGCGTCGAATACCGCATGCCGGAACTCGCGCCCA -AGTAAAGTTTGTAGTGCCGAGGGAGAACAGTGGTTTTCAGCATCTGGCCGCGGCGAAATCCACAGCCAGTCGCCAGGTAA -GGCATCACGCAACTTAAGAGTATGCTCAAAACACCAACCCTCTTCCCCGCTCAACACCAGCAAGCGGCGGATCCCTTCAC -GTTTCATTTGCGCTGTTAATGTGTGAAGCGCAGTCAGTTCAGCCATCCCTGCCCCGGAAGTTAAATGCTTTTACCAAAAG -TATTGCATTGTGCCGGATCGCCGCTGTCGAAACCACGTTTAAACCAGCTGTAGCGTTGCTGAGAAGTGCCATGAGTGAAA -CTGTCTGGTACTACTCGCCCCTGACTTTGCTGTTGTAAACGGTCATCGCCGATGGCCTGCGCCGCGTTCAGCGCCTCTTC -CAGATCGCCGGTTTCCAGAACGCCTTGCTGCTGCATACTATGCCCCCAGACACCGGCAAAACAGTCGGCCTGGAGTTCCA -TACGCACAGATAAGCGGTTTACTTCCGCCTGCGTCGCGTTTTGTTGCAGTTGACGAACTTTCGGCTCGATGCCTAACAGT -TTCTGCACATGATGACCGACTTCATGGGCGATAACGTACCCCTGGGCAAAATCGCCATCCGCGCCAAGTTTGTCTTTCAT -GTCATCATAGAAGGAGAGATCGATATAAACCGTGCCATCCGCCGGGCAATAGAACGGCCCCATTATGGACTGGCCCGCCC -CGCAGCCGGTACGCGTCATTCCACGGTACATGACCAGCTTCGGTTGCTGATAGGTCTTACCCATCTTCTCGAACTGTTGT -CCCCAGGTGTCTTCCGTGGTTGCCAGAATCACCGAGGTGAATTTTGCGGCTTCGTCTTCATTTGGGCTAATTGACCGCGT -TGATTGTTGTTGGGAAACCGGCTGCCCGGTCATCAACCCGGTTAAATCAACACCATAGTAGCCTGCAACCAGCACGACTA -TCAGTAAAATCAGCCCGCCTTTACCGCTTGGCAGGCGAAAACCGGGACCGCCCATAGATGGACCACCAGAGCTGTTGCGC -CTGTCTTCAACATTGTCACTTTCACGTCGCCCTTGCCAACGCATAGATACCTCAACAATATATTCATTATAGAAATGATC -GTAGGTGGTTCAGAGGAAGATTACCACAGGAAAGCGGGATGAAATGGCGGAGGAATGAGCGTTCAATGCATATATTCCGA -GAGCGGTTGTCTTGCCGTGCCAGCTGCACGGCAAGATGATGAACAGAAAAATCAGTCCAGCTGTACACCCAGGCGGCGGG -CGACGGCTTCATAGGCTTCGATCAGGCCACCGAGGCTCTGGCGGAAACGGTCTTTGTCCATTTTCTCCAGCGTTTCTTTG -TCCCACAGGCGGCTACCGTCCGGGGAGAACTCATCACCCAGTACCACTTCGCCTTTGTACAGACCAAATTCCAGCTTGAA -GTCGACCAGAATCAGACCAGCATCATCGAACAGTTTTTTCAGCACGTCGTTCGCTTTGTAGGTCAGCTCTTTCATACGCG -CCAGGTTCTCTTTGCTCACCCAGCCAAAGGTTTCGCAGTAAGATTCGTTGACCATCGGATCGTGCATGGCGTCGTTTTTC -AGGAACAGATCGAACAGCGGCGGGTTCAGCTCAATACCTTCTTCGATTCCAAGACGTTTCACCAGAGAGCCAGCAGCACG -GTTACGCACGACACACTCAACCGGCACCATATCCAGCTTTTTCACCAGACATTCGGTATCGGAGAGCAGACGCTCCATTT -GAGTCGGGATACCCGCTTCAGCCAGTTTGCTCATAATGAAGTAGTTGAACTTGTTGTTCACCATACCTTTGCGATCAAAC -TGCTCAATGCGCGCGCCATCCCCTGCTGACGTATCATTGCGGAATTCGAGCACCAACAGGTCCGGGTTTTCCGTGCTGTA -TACGGTTTTCGCTTTACCACGATACAACTCAGCTTGCTTTTGCATCTTTATCACTCCTGGGTGTGAATTAACGTTTTAAA -ATCTTTTGCTGTCTGGTGTGCCGGATGTTTTGTCGGATGCGGCGTGAACGCCTTATCCGAACTACGTCCGACAAACAAAT -TTCGTGCGAATTACCGCTAAAATCGCGTTTTCCTGCAGACGCACACGTTTGCGTATCATATCAGAAAAAAGGGCCGGATG -ATTCCAGCCCTGTATTTTTACTTGCTAAACGCAGCCTGGAAGACAGCTACCAGCGCGTCGTTCTGACTCTGAGTCAGAGT -ATGACCTTTCGGATCGATGAACTGTAGGCTGCTGCGGTTATCTAAATCGCCAACCTGCAGTTTATAGTCACCGGATGCCA -GGCCTGGATCGCTCGCGCCCAGTTCCTGCCAGTCGCTGTCAGACAGCGGCTTATAAGTTACGGCCATGTTGCCCTGCGAA -CGGGTGCTGTCGGTCACTTTCATGCCCACTTTTTCCAGCGCCGCTGGCAGACGTTGCCAAACCACATTGAACGGCCCGCG -TACGACCAGCATTGGTAAACCGGTGTCATCAGCTGCACTTTGTACGTCCATAGTGGTGGAGGCACGATTTTGCGCAGCGT -TCGCGGCGTCAGTGGCAGATTTATCCAGACCGGCGGAAATAACGTTCATCATCTCCGTGCTGTAACGCTGCATGGAAGCC -GCGTCTGCAACCGGTTTGCCCGCCTGTTCCAGGTTCAGCAGTTTAACCGTAACCGCCTGCTGATAACCCTGCGGCTTAAC -AGAGATTTGATAACGACCACGATACTGCTCGTCTTCGTCCAGACGGTTCCATTGTACCCAATCGGTGGTCAGTGTCTGAC -CAGCATCATCACGTTGGGTGATGGTGTAGTTTTTCGCCTGCAGCACGCTAACCACCTGCGGCCACAGAGTATTGCCACGA -CCATTTTCCACCAGCAATGAAGCGGTATCGCCCGTGAACTGGGTACGCGCGCCAGAAACCAGTGCCAGCGGCTGGGCTGG -TGGACGAATGTCCAGCGCCTTACCGACAGCACCACTACCGTTGGTCACCGGGATTGCATAATCACCGGAGGTCACCGGCA -AAATCATTCCAGCCGGGGCATGAAGCTCCGCAAGCGGTGCCGCTTCCAGGTAGGCTTCATCACCACTGACCTGACGCTTA -TAGCGTGAGTCAGAACTACAGGCAGCGAGTAATAAAACAAGCGAAACACCCGCAACCTTTGCCAGGCGCGACTTTTGAAC -AGAGTAAGCCATCAAATCTCCCTAAACTTTACAGCAAACCGGCATGCTTAAGCGCCGCTCTGACCGTCTCACGACCACTG -TCGGTGATTGGTGTCATTGGCAGGCGCAGCGTATCGGTCGCCACAAGACCCAGTTCCTTACATGCCCATTTCACCGGGAT -TGGATTGGGTTCGACAAATAGTTTGTTGTGTAATGGCATCAGACGCTGATTAATAACGCGTGCCTCGGCAAAATGCCCTT -CTGCTGCCAGTTTGCACATCTGGGCCATATCACGCGCTGCGACGTTAGCCGTAACGGAAATAACCCCATGACCGCCCAAT -TGCATGAAGTCCAGCGCGCTCGCATCATCGCCGCTCAGCAGAACAAAATCATCTGAAACCAGCTCTTTGATCTGGTTTAC -ACGCGTTAAGTTCCCTGTTGCCTCTTTGATTCCGATAATATTTTTTACTTTCGCCAGACGGCCCACCGTTTCCGGGAGCA -GATCGCAGCCAGTACGGGACGGCACATTATACAGAATTTGCGGCAGGTCAGTATGCTCAGCGATGGCTTTGAAATGCTGA -TACAAACCTTCTTGCGACGGACGATTGTAGTAAGGGGTTACCGTCAGGCAGCCGACGATACCACTGTCATTGAAGCGCTG -CGTCAGGCTAATGGCTTCCGCAGTAGCGTTAGCGCCGGTCCCGGCAATTACCGGAATGCGCCCATCAGCCAGATCCAGCG -TCATCATCACCACATCAGCATGTTCGTCATGATTTAAGGTAGCGGACTCGCCAGTGGTGCCAACAGAAACGATCGCCGAA -GTACCGCTGGCGACATGATAATCAATCAGTTTTTTCAAGCTAGCCCGACAGACATTACCTTTTTCATCCATCGGAGTAAC -AATCGCGACAATACTTCCCGTGAACATGGGCCATCCTCTGTGCAAACAAGTGTCTCAATGGTACGTTTGGTATGGCATTA -AAAGCAAGCAGACAGAACCGTTCTGATTGTTGTATGCATGTTTTTTTTATGCTTTCCTTAAGAACAACTCACCCCTTAAA -GGAATAACCAGTTTGACACTGTCATCGCAACATTATCTGGTGATCACTGCGTTGGGTGCCGATCGCCCTGGAATTGTGAA -CACCATCACCCGTCATGTCAGTAGTTGCGGCTGTAATATTGAAGACAGTCGCCTGGCGATGCTGGGAGAAGAGTTCACGT -TTATTATGCTGCTTTCCGGTTCATGGAATGCCATTACTCTGATTGAATCAACGTTACCGTTGAAAGGTGCCGAACTGGAT -CTTTTAATCGTGATGAAGCGCACGACGGCGCGTCCGCGTCCGCCAATGCCAGCATCTGTCTGGGTTCAGGTCGATGTGGC -AGACTCCCCGCATTTAATTGAACGCTTCACAGCACTTTTCGACGCGCATCATATGAACATTGCGGAGCTGGTGTCGCGCA -CGCAACCTGCTGAAAATGAACGGGCTGCGCAGTTGCATATTCAGATAACCGCCCACAGCCCCGCATCTGCGGACGCAGCA -AATATTGAGCAAGCGTTCAAAGCCCTATGTACAGAACTCAATGCACAAGGCAGTATTAACGTCGTCAATTATTCCCAACA -TGATGAACAGGATGGAGTTAAGTAATGAATCCACTGAAAGCCGGTGATATCGCACCGAAATTTAGCTTGCCGGATCAAGA -CGGAGAACAAGTTAATTTGACCGACTTCCAGGGACAGCGTGTTCTGGTTTATTTCTACCCGAAAGCCATGACCCCCGGCT -GTACCGTACAGGCCTGCGGCTTACGCGATAACATGGATGAGTTGAAAAAAGCGGGCGTTGATGTGCTGGGTATCAGCACC -GATAAACCCGAAAAACTCTCCCGTTTTGCGGAAAAAGAGCTGCTTAACTTTACGCTCCTGTCTGATGAGGACCACCAGGT -GTGCGAACAATTCGGCGTCTGGGGTGAAAAGTCCTTCATGGGCAAAACCTACGATGGCATTCATCGCATCAGCTTCCTGA -TTGACGCTGATGGCAAAATCGAACATGTCTTTGACGATTTCAAAACCAGCAATCACCACGACGTTGTGCTGAACTGGCTG -AAAGAACACGCCTGATTACTTTGCTCCATTCCGTGCTGGCTGCGCTTGCGGCCAGCATACCTCACTTCTCGTGATCAAGA -TCACATTCTCGCTTTCCCCTGCGACACGGGTGTCGAATCCATTTTTTGCTGAACGTTAATGACCATCATTTTTGTACCGT -TCAGAATCCAGTTAATACATAACTTATTGAATATATTGAGTTAATCAGAATGGCATCCTTTATGCAATATGAAATGCAAT -GTTTCATATCATTTTCAAGGAGCCGACATGAACCGCTTTGTGGTGGCCGAACCACTGTGGTGTACAGGATGTAATACCTG -TCTCGCTGCCTGTTCGGACGTGCATAAAACGCAAGGTTTACAGCAACACCCGCGCCTGGCCCTGGCGAAGACGTCAACAA -TCACTGCCCCTGTCGTGTGTCATCACTGTGAGGAAGCCCCTTGCCTGCAGGTCTGCCCGGTCAATGCCATCTCTCAGAGG -GATGATGCGATCCAACTCAACGAAAGCCTCTGTATTGGCTGCAAGCTTTGCGCCGTGGTCTGCCCATTTGGCGCAATCAG -CGCTTCAGGAAGCCGTCCGGTGAATGCCCATGCGCAATATGTTTTTCAGGCTGAAGGCTCACTCAAAGACGGCGAAGAAA -ACGCGCCAACACAACATGCTTTGCTGCGCTGGGAACCTGGTGTCCAGACCGTCGCGGTGAAATGCGACCTGTGTGATTTC -TTGCCAGAAGGTCCGGCCTGCGTTCGCGCTTGCCCGAATCAGGCGTTACGGCTGATCACCGGTGATAGCCTGCAACGTCA -GATGAAAGAAAAACAGCGCCTTGCCGCAAGCTGGTTTGCCAATGGCGGGGAGGATCCCCTTTCCCTCACTCAGGAGCAAC -GCTAATGGATGCCCTGCAATTATTAACCTGGTCGCTGATTCTCTATCTGTTTGCTAGTCTGGCTTCGCTGTTTTTACTCG -GTCTGGACAGACTGGCTATTAAGCTTTCCGGCATCACATCGCTGGTGGGCGGCGTGATTGGCATCATCAGCGGAATTACG -CAATTACATGCTGGTGTAACTTTAGTCGCCCGTTTTGCCCCCCCTTTTGAATTTGCCGATTTAACCCTGCGAATGGATAG -CCTCTCGGCATTTATGGTGCTGGTTATCTCCTTGCTGGTGGTGGTTTGTTCTCTCTATTCATTGACTTATATGCGCGAAT -ACGAGGGCAAAGGCGCGGCGGCGATGGGCTTCTTTATGAATATTTTCATCGCATCGATGGTTGCCCTGCTGGTGATGGAC -AACGCTTTTTGGTTCATCGTGCTGTTTGAAATGATGTCGCTGTCTTCCTGGTTTCTGGTCATTGCCAGGCAGGATAAAAC -GTCGATCAACGCTGGCATGCTCTACTTTTTTATCGCCCACGCCGGATCGGTGCTGATAATGATCGCCTTCTTGCTGATGG -GGCGCGAAAGCGGCAGCCTCGATTTTGCCAGTTTCCGCACGCTTTCACTTTCTCCGGGGCTGGCGTCGGCGGTGTTCCTG -CTGGCCTTTTTCGGTTTTGGCGCGAAAGCCGGGATGATGCCGTTGCACAGCTGGTTGCCGCGCGCTCACCCTGCCGCACC -ATCGCACGCTTCGGCGTTGATGTCTGGCGTAATGGTCAAAATAGGTATTTTCGGCATCCTGAAAGTAGCGATGGATCTGC -TGGCGCAAACGGGTTTGCCTCTGTGGTGGGGCATTCTGGTGATGGCGATCGGCGCAATCTCCGCGCTCCTGGGCGTGCTA -TATGCGCTGGCGGAACAGGATATCAAACGGCTGCTGGCCTGGAGTACCGTCGAAAACGTCGGCATTATTTTGCTGGCAGT -CGGTGTGGCGATGGTCGGTCTGTCACTGCACGACCCGCTGCTCACCGTGGTTGGACTGCTCGGCGCACTGTTTCATCTGC -TCAACCATGCGCTGTTCAAAGGGCTGCTATTTCTCGGCGCGGGAGCGATTATTTCGCGTTTGCATACCCACGACATGGAA -AAAATGGGGGCACTAGCGAAACGGATGCCGTGGACAGCCGCAGCATGCCTGATTGGTTGCCTCGCGATATCAGCCATTCC -TCCGCTGAATGGTTTTATCAGCGAATGGTACACCTGGCAGTCGCTGTTCTCACTAAGTCGTGTGGAAGCCGTAGCGCTAC -AACTTGCGGGTCCTATTGCTATGGTAATGCTGGCAGTCACTGGTGGGCTGGCAGTAATGTGCTTCGTAAAAATGTACGGT -ATTACTTTCTGTGGTGCGCCGCGCAGTACACACGCTGAAGAGGCACAGGAAGTGCCAAATACGATGATCGTCGCCATGCT -ACTGCTCGCGGCACTCTGCGTATTAATTGCGCTTAGTGCCAGTTGGCTGGCACCGAAGATAATGCATATTGCCCATGCGT -TTACCAATACCCCTCCCGCCACTGTCGCCAGCGGAATAGCACTTGTACCCGGCACGTTTCATACACAGGTCACCCCCTCA -TTACTGTTGCTGTTACTACTGGCGATGCCTTTGCTGCCTGGCCTTTACTGGCTGTGGTGTCGTTCGCGCCGCGCAGCGTT -TCGTCGCACAGGAGATGCCTGGGCATGCGGCTACGGCTGGGAAAATGCGATGGCCCCGTCAGGCAATGGCGTGATGCAGC -CGCTGCGTGTGGTCTTTTCTGCGCTATTTCGTCTACGACAACAGCTCGACCCTACGCTGAGGCTAAATAAAGGTCTTGCG -CACGTCACCGCCAGGGCTCAGAGCACAGAACCCTTCTGGGATGAGCGGGTGATCCGCCCCATCGTGAGCGCCACCCAACG -GCTGGCCAAAGAAATACAGCATCTGCAAAGCGGCGACTTTCGTCTCTATTGCCTGTATGTGGTCGCCGCACTGGTTGTGC -TGCTAATCGCTATTGCCGTCTAAGGAAATCACCATGAGACAAACTCTTTGCGACGGATATCTGGTCATTTTTGCGTTAGC -ACAGGCCGTGATTCTGCTGATGCTAACCCCACTTTTTACGGGTATTTCCCGGCAGATACGCGCGCGTATGCACTCCCGCC -GCGGGCCGGGGATCTGGCAGGATTATCGCGATATCCACAAACTGTTTAAACGCCAGGAAGTTGCGCCGACATCTTCAGGT -CTGATGTTCCGCCTGATGCCGTGGGTATTAATCAGCAGCATGCTGGTGCTGGCGATGGCCTTACCACTGTTTATTACCGT -TTCCCCTTTTGCGGGCGGCGGCGATCTGATCACCCTTATCTATCTTCTTGCCCTGTTTCGTTTTTTCTTTGCTCTTTCCG -GGCTGGATACCGGAAGTCCGTTTGCGGGAGTCGGTGCCAGTCGCGAGTTGACGCTCGGCATTCTGGTCGAACCAATGCTT -ATTCTCTCACTGCTGGTATTGGCGCTGATAGCAGGTTCCACGCATATCGAGATGATCAGCAATACGCTGGCGATGGGCTG -GAACTCGCCGCTAACCACCGTACTGGCGTTACTGGCCTGTGGTTTTGCCTGCTTCATTGAGATGGGAAAAATTCCCTTTG -ATGTTGCTGAAGCAGAACAGGAATTACAGGAAGGCCCGCTGACCGAATATTCCGGTGCCGGGCTGGCGCTAGCGAAATGG -GGGCTGGGGCTGAAACAGGTCGTGATGGCATCACTGTTTGTGGCCCTGTTTCTGCCCTTTGGGCGCGCGCAAGAACTTTC -TCTCGCCTGCCTGCTGACTTCACTTGTCGTTACGCTGCTCAAGGTTTTGCTGATTTTTGTACTGGCCTCAATCGCAGAAA -ACACGCTGGCACGCGGGCGTTTTTTACTCATTCACCATGTGACCTGGCTTGGCTTCAGCCTTGCTGCGCTTGCATGGGTC -TTCTGGTTAACCGGTCTGTAAGGAGCACTGACGGAATATGGAAAATCTTGCTCTGACGACGTTATTGCTGCCTTTTATCG -GCGCACTGGTCGTTTCGTTTTCGCCACAACGTCGGGCCGCCGAATGGGGGGTTTTGTTCGCCGCGCTGACCACGCTGTGC -ATGTTGTCACTGATCTCCGCGTTTTATCAGGCCGATAAAGTTGCCGTCACGTTGACGTTGGTCAACGTGGGGGATGTGGC -GTTGTTTGGCCTGGTCATTGATCGCGTGAGTACGCTGATTCTGTTTGTGGTGGTGTTTCTCGGTTTGCTGGTCACGATCT -ACTCCACGGGTTATCTGACGGATAAAAATCGCGAACACCCGCATAACGGCACGAATCGTTATTACGCATTTTTACTGGTG -TTTATCGGCGCGATGGCGGGACTGGTACTCTCCTCGACGCTGCTCGGTCAGTTGTTGTTTTTTGAAATTACAGGCGGCTG -CTCCTGGGCGTTGATCAGTTATTACCAGAGCGATAAAGCGCAGCGTTCAGCACTAAAAGCGTTACTTATCACTCATATCG -GCTCGTTGGGGTTGTATCTTGCCGCCGCCACGCTGTTTTTGCAGACCGGAACGTTTGCGCTTAGCGCGATGAGCGAGTTA -CACGGCGACGCACGTTATCTGGTTTATGGCGGCATCCTGTTTGCCGCGTGGGGGAAATCGGCCCAGCTACCGATGCAAGC -GTGGCTACCGGACGCAATGGAAGCGCCAACACCGATCAGCGCCTATCTCCACGCCGCATCGATGGTGAAAGTGGGCGTTT -ACATTTTTGCCCGCGCTATTATCGACGGCGGCAATATCCCGCATGTGATTGGCGGCGTTGGCATGGTCATGGCACTGGTC -ACCATTCTTTATGGCTTTCTGATGTATTTGCCACAGCAGGATATGAAGCGGTTGCTAGCCTGGTCGACCATCACTCAACT -TGGCTGGATGTTCTTCGGCTTGTCGCTCTCCATCTTCGGCTCGCGGCTGGCGCTGGAGGGCAGCATCGCCTACATCGTCA -ACCACGCGTTCGCTAAAAGCCTGTTTTTCCTTGTAGCAGGTGCGCTGAGTTACAGCTGCGGCACGCGCTTGTTGCCGCGT -CTGCGTGGCGTATTGCACACCCTGCCGTTGCCAGGCGTGGGTTTCTGCGTGGCAGCGCTGGCGATTACCGGCGTGCCGCC -GTTCAACGGCTTCTTCAGTAAATTCCCGCTGTTTGCTGCCGGTTTTGCGTTGTCAGTGGAGTACTGGATCCTGCTGCCCG -CCATGATTCTTCTGATGATTGAATCGGTCGCCAGTTTCGCCTGGTTTATTCGCTGGTTTGGTCGCGTTGTGCCTGGCAAA -CCGAGCGAGGCCGTCGCCGATGCCGCACCGCTGCCAGGATCAATGCGCCTGGTGTTGATTGTACTGATTGTGATGTCGCT -GATTTCCAGCGTAATCGCCGCGACCTGGTTGCAGTAAGGAGATGATGAATGACCGGTTCTATGATCGTAAATAATCTGGC -GGGACTGATGATGCTGACATCGCTGTTTGTGATTAGCGTCAAAAGCTATCGCCTGTCATGCGGATTTTACGCCTGCCAGT -CACTGGTGCTGGTGTCTATTTTCGCCACTCTCTCGTGCCTGTTCGCCGCAGAGCAACTGCTGATCTGGTCCGCCAGCGCC -TTTATCACCAAAGTGCTGCTGGTACCGTTAATCATGACTTACGCTGCACGAAATATTCCCCAGAACATCCCGGAAAAAGC -GTTATTCGGTCCGGCAATGATGGCACTGCTCGCGGCGTTAATTGTCCTGCTTTGCGCATTTGTCGTTCAGCCCGTGAAGC -TACCGATGGCTACCGGGCTGAAACCGGCGCTGGCGGTAGCGTTAGGTCATTTTCTGCTTGGCCTGCTGTGCATTGTCAGC -CAGCGCAATATCCTGCGGCAAATTTTTGGTTACTGCCTGATGGAAAACGGCTCCCATCTGGTGCTGGCGCTTCTTGCCTG -GCGAGCACCGGAACTGGTGGAAATAGGTATCGCTACCGACGCCATCTTCGCCGTCATTGTGATGGTGTTACTGGCAAGAA -AAATATGGCGTACCCACGGCACGCTGGACGTGAACAACTTGACCGCGCTGAAGGGATAATGAGATGAGTTATTCTGTGAT -GTTCGCTTTACTCCTGCTCACGCCGCTGCTTTTTTCGCTGCTCTGTTTTGCCTGCCGGAAACGGAGACTTTCTGCGACTC -GCACGGTGACCGTATTACATAGCTTAGGGATCACACTGCTGCTGATTCTGGCACTCTGGGTGGTCCAAACTGCCGCTGAT -GCAGGAGAAATATTCGCTGCGGGACTGTGGCTTCATATTGATGGTCTGGGCGGTTTGTTCCTCGCCATTCTTGGTGTGAT -TGGCTTTCTCACCGGTATTTACTCGATTGGCTACATGCGTCATGAAGTGGCACACGGCGAGCTTTCACCCGTTACGCTGT -GCGATTACTACGGTTTCTTCCATCTGTTTTTGTTCACCATGCTGCTGGTTGTTACCAGCAATAACCTGATTGTGATGTGG -GCGGCGATCGAAGCCACCACCTTAAGCTCGGCGTTTCTGGTAGGCATTTACGGTCAGCGTTCATCGCTGGAAGCTGCATG -GAAGTACATCATTATTTGTACTGTTGGTGTCGCTTTTGGTCTGTTCGGTACCGTGCTGGTATACGCCAACGCCGCCAGCG -TTATGCCGCAGGCAGAAATGGCGATATTCTGGAGCGAGGTTCTTAAGCAATCGTCCTTGCTTGACCCAACATTAATGCTG -TTGGCCTTTGTGTTTTTGCTAATTGGCTTTGGTACCAAAACCGGGCTATTTCCCATGCACGCCTGGCTGCCGGATGCTCA -CAGTGAAGCGCCGAGTCCGGTCAGCGCCCTGCTCTCCGCCGTATTGCTGAACTGCGCGCTGTTGGTGCTGATTCGCTATT -ACATCATTATTTGCCAAGCCATCGGCAGCGATTTCCCCAACCGGTTGTTGCTCATCTTCGGCATGTTGTCGGTTGCCGTG -GCGGCATTTTTCATTCTGGTACAGCGGGACATTAAGCGTCTGCTGGCGTACTCCAGCGTGGAGAACATGGGGCTGGTCGC -GGTGGAGCTAGGCATTGGCGGGCCGCTGGGAATTTTTGCCGCGCTGCTGCACATCTTAAACCACAGTCTGGCAAAAACGC -TGCTGTTCTGCGGTTCCGGCAATGTACTGCTCAAGTACGGCACGCGCGATCTCAACGTCGTCTGTGGGATGCTCAAAATC -ATGCCATTTACCGCCGTGCTGTTTGGCGGCGGTGCGCTGGCGCTGGCAGGGATGCCGCCCTTCAACATTTTTCTTAGCGA -ATTTATGACCATTACCGCCGGACTGGCACGTAATCACCTGCTGATTATCGTCCTGCTGTTATTGCTGTTAACGCTGGTGC -TGGCGGGCCTGGTACGGATGGCTGCGCGGGTGTTAATGGCGAAACCGCCGCAGGCCGTTAACCGGGGTGATCTCGGCTGG -TTGACCACCTCGCCAATGGTGATTCTGCTGGTCATGATGCTGGCGATGGGAACGCATATTCCACAACCTGTCATCAGGAT -CCTGGCGGGCGCTTCCACTATAGTCCTCTCAGGGACGCACGATCTGCCTGCACAACGTAGCACCTGGCATGATTTTTTGC -CTTCAGGCACCGCATCTGTTTCGGAGAAACACAGTGAACGTTAATTCATCGTCAAATCGTGGCGAAGCGATTCTCGCCGC -CCTGAAAACGCAGTTCCCCGGCGCGGTGCTGGATGAAGAGCGACAAACGCCTGAACAGGTCACCATTACGGTGAAAATCA -ATCTGCTGCCTGACGTTGTACAGTATCTTTATTATCAACATGATGGCTGGCTTCCGGTCCTGTTTGGCAACGACGAGCGG -ACACTTAACGGTCATTACGCGGTTTATTATGCCCTTTCAATGGAAGGGGCCGAAAAATGCTGGATTGTGGTGAAGGCGCT -GGTCGATGCCGACAGTCGGGAGTTTCCGTCAGTCACACCGCGCGTCCCTGCCGCGGTCTGGGGCGAGCGAGAAATTCGCG -ATATGTACGGGCTGATTCCGGTTGGCCTGCCGGATCAGCGTCGCCTGGTGTTGCCCGATGACTGGCCGGAAGATATGCAT -CCGCTGCGCAAAGATGCGATGGATTATCGACTGCGCCCTGAACCGACGACTGATTCCGAAACGTATCCGTTTATCAATGA -GGGCAACAGCGATGCGCGGGTGATCCCTGTCGGCCCGCTGCATATCACCTCCGATGAACCGGGTCACTTCCGCTTGTTTG -TGGATGGCGAGCAAATTGTCGATGCTGATTACCGCCTGTTTTATGTCCATCGCGGCATGGAGAAACTGGCAGAAACGCGG -ATGGGCTACAACGAAGTGACCTTCTTATCGGACCGCGTGTGTGGGATTTGCGGTTTTGCCCACAGTGTGGCCTATACCAA -TTCGGTTGAAAATGCACTGGGGATTGAGGTGCCGCAACGAGCACATACTATTCGCTCGATTCTGCTGGAAGTCGAACGGC -TACACAGTCATTTGCTTAACCTTGGCCTCTCCTGCCATTTCGTTGGTTTTGATACCGGCTTTATGCAATTTTTCCGCGTG -CGGGAAAAGTCGATGACGATGGCGGAATTGCTGATCGGGTCGCGTAAAACCTACGGTCTGAATCTGATTGGTGGTGTTCG -CCGCGATATTCTCAAAGAGCAACGTCTGCAAACGCTGAAACTGGTGCGCGAGATGCGCGCCGACGTGTCGGAGCTGGTAG -AGATGCTGCTTGCTACGCCGAATATGGAACAACGCACTCAGGGCATTGGCATTCTCGACCGACAAATCGCCCGTGATTTG -CGCTTTGATCACCCCTACGCCGACTACGGCAATATTCCAAAAACACTGTTTACCTTTACCGGCGGCGATGTTTTCTCCCG -CGTGATGGTCCGTGTCAAAGAGACGTTTGATTCGCTGGCAATGCTGGAATTTGCCCTCGACAACATGCCGGATACCCCAC -TGCTGACCGAAGGCTTTAGCTATAAACCTCACGCATTCGCGCTGGGCTTTGTTGAAGCGCCACGCGGTGAAGACGTGCAC -TGGAGCATGCTCGGTGATAACCAAAAATTGTTCCGCTGGCGCTGCCGTGCCGCCACCTACGCCAACTGGCCGGTGTTGCG -TTACATGCTGCGCGGCAATACCGTTTCTGACGCACCGCTGATTATCGGTAGCCTTGATCCCTGCTACTCCTGTACCGACC -GTGTGACGCTGGTAGATGTGCGCAAGCGCCAGTCAAAAACCGTGCCGTATAAAGAGATCGAACGCTACGGCATTGATCGT -AACCGTTCGCCGCTGAAGTAAGGACAGAAGATGCTGAAGTTACTGAAAACTATTATGCGCGCCGGAACCGCGACGGTGAA -ATATCCCTTCGCGCCACTGGAGGTCAGCCCTGGCTTTCGCGGAAAACCGGACCTGATGCCCAGCCAATGTATTGCCTGCG -GTGCCTGCGCCTGTGCTTGTCCGGCAAATGCGCTGACTATCCAGACCGACGACCAGCAAAATTCGCGCACCTGGCAGCTC -TATCTGGGGCGTTGTATTTACTGCGGACGTTGTGAAGAAGTGTGCCCGACCAGAGCCATCCAGCTTACCAATAACTTTGA -ACTGACCGTCACCAATAAAGCCGATCTCTATACCCGCGCGACGTTCCATCTACAACGTTGCAGCCGTTGCGAACGCCCGT -TTGCCCCGCAAAAAACCATCGCACTGGCTGCTGAATTGTTAGCACAGCAACAAAATGCGCCACAAAACCGCGAAATGTTG -TGGGCGCAAGCGAGCGTCTGCCCGGAATGCAAACAACGCGCGACGCTGATCAACGACGATACAGATGTACTGCTGGTGGC -TAAGGAGCAGCTATGAGTCCAGTGCTTACACAACATGTCAGCCAGCCCATCACGCTGGACGAGCAAACGCAAAAGATGAA -GCGGCATTTGCTACAGGATATCCGTCGCTCGGCTTACGTTTATCGCGTCGATTGCGGCGGCTGCAACGCCTGTGAAATCG -AAATTTTTGCTGCCATTACACCAGTATTCGACGCAGAACGTTTTGGCATTAAGGTTGTTTCATCACCGCGTCACGCCGAT -ATTTTGTTATTTACTGGCGCAGTCACCCGGGCGATGCGTATGCCTGCACTTCGGGCGTATGAGTCTGCCCCCGATCATAA -AATTTGTGTTTCCTACGGCGCGTGCGGTGTCGGCGGCGGTATTTTCCACGATCTCTACAGCGTCTGGGGCGGTAGCGACA -CCATTGTCCCCATTGATGTTTGGATCCCCGGCTGCCCGCCAACACCGGCCGCCACCATTCACGGTTTCGCCGTGGCGCTC -GGTTTGCTGCAACAGAAGATTCACGCTGTGGATTATCGCGATCCCACCGGGGTGACTATGCAACCGTTGTGGCCGCAGAT -CCCGCCATCACAGCGTATCGCCATTGAGCGAGAAGCGCGGCGGCTGGCGGGCTATCGTCAGGGGCGAGAAATTTGCGATC -GGCTCCTGCGCCATTTAAGCGACGATCCTACAGGAAATCGGGTTAACACCTGGTTGCGCGATGCCGACGATCCACGTCTC -AATAGTATCGTTCAGCAACTCTTTCGCGTACTCCGGGGGTTACATGACTGAAGAGTGCGGGGAAATTGTTTTCTGGACGC -TGCGAAAAAAGTTTGTCGCCAGTAGCGACGAGATGCCGGAACACAGCTCTCAGGTAATGTATTACTCGCTAGCTATCGGC -CATCACGTTGGCGTGATTGATTGTCTGAATGTCGCCTTCCGCTGCCCACTGACGGAATACGAAGATTGGCTTGCACTGGT -CGAAGAGGAGCAAGCCCGACGTAAGATGCTGGGGGTGATGACTTTTGGTGAGATTGTTATTGACGCCAGCCACACCGCCC -TGTTGACCCGGGCATTCGCGCCACTGGCGGATGACGCGACGTCTGTGTGGCAGGCGCGTAGCATTCAATTCATTCATCTG -TTGGATGAAATTGTGCAGGAACCGGCCATCTATCTGATGGCCAGAAAAATTGCGTGAGAAGGATTTCTCATTAATAAGGA -CTGTTGATGGCTATGTCAGACGAGGCGATGTTTGCCCCGCCACAAGGAATAACAATTGAAGCGGTAAACGGAATGCTCGC -GGAGCGGTTAGCACAGAAACACGGCAAGGCGTCTTTATTACGCGCCTTCATCCCGCTGCCGCCGCCGTTCAGCCCGGTAC -AACTTATTGAACTGCATGTTCTCAAAAGCAACTTCTATTACCGCTACCATGATGATGGCAGCGATGTGACGGCAACAACA -GAGTATCAGGGCGAGATGGTCGATTATTCGCGTCACGCCGTCCTTCTCGGCAGTAGTGGAATGGCGGAGCTACGCTTTAT -TCGCACCCACGGCAGTCGTTTTACTTCCCAGGATTGCACACTGTTTAACTGGCTGGCGCGGATAATCACCCCGGTTCTGC -AATCATGGCTCAATGATGAAGAACAGCAGGTGGCGCTGCGTTTGCTGGAGAAAGATCGCGATCATCATCGGGTACTGGTT -GATATTACTAATGCAGTGCTGTCACATCTTGATCTCGACGATCTGATCGCTGACGTCGCTCGTGAGATCCATCATTTTTT -CGGTCTGGCTTCAGTCAGTATGGTACTGGGCGATCATCGAAAGAACGAGAAGTTCAGCCTGTGGTGCAGCGATCTTTCTG -CCTCACATTGTGCGTGTCTGCCACGCTGTATGCCTGGCGAAAGTGTATTGCTGACACAAACGCTACAAACCCGACAACCG -ACCTTGACGCACCGTGCAGATGATCTGTTTCTCTGGCAACGCGACCCGTTATTACTCTTACTTGCATCTAACGGCTGCGA -ATCTGCGCTCCTTATACCGCTTACCTTTGGCAACCATACACCGGGTGCATTGTTGCTGGCGCATACCTCTTCCACTCTCT -TTAGTGAGGAAAACTGCCAGCTACTACAACACATAGCCGATCGCATCGCTATTGCCGTTGGCAATGCCGATGCCTGGCGT -AGCATGACCGATTTGCAGGAAAGTTTGCAGCAAGAAAACCACCAGCTTAGCGAGCAGCTCCTTTCGAATCTGGGCATCGG -TGACATTATCTATCAAAGCCAGGCAATGGAAGACCTGCTCCAGCAGGTAGATATTGTGGCGAAGAGCGACAGTACGGTGT -TGATTTGTGGTGAAACCGGAACTGGCAAAGAGGTGATCGCCAGAGCGATCCATCAACTTAGCCCGCGACGCGACAAGCCG -CTGGTCAAAATCAACTGCGCTGCCATCCCCGCCAGTCTTCTGGAAAGTGAGTTATTCGGTCATGACAAAGGGGCGTTTAC -TGGTGCGATTAATACCCATCGTGGTCGTTTTGAAATTGCCGATGGCGGCACGTTGTTTCTCGATGAAATTGGCGATCTGC -CGTTAGAACTTCAGCCTAAACTGCTGCGCGTATTGCAGGAGCGGGAGATTGAGCGTCTCGGCGGGAGTAGAACGATCCCG -GTGAATGTCAGAGTCATTGCCGCCACCAACCGTGATTTGTGGCAAATGGTTGAAGATCGCCAGTTTCGCAGCGATCTCTT -TTATCGCCTGAATGTCTTCCCACTGGAATTGCCGCCGCTACGCGACCGTCCGGAAGATATCCCTCTTTTAGCAAAACATT -TCACGCAAAAAATGGCGCGCCATATGAATCGCGCAATTGACGCCATCCCGACCGAGGCACTACGCCAGTTGATGTCGTGG -GATTGGCCGGGCAACGTGCGCGAGCTGGAAAACGTGATTGAGCGGGCGGTACTGTTGACTCGTGGTAACAGTCTGAATTT -ACATCTAAATGTCCGACAAAGCCGTTTACTGCCGACGCTAAATGAAGATTCAGCGCTTCGCAGTTCAATGGCGCAGTTAC -TGCACCCGACGACGCCAGAGAATGACGAAGAAGAACGTCAGCGCATTGTTCAGGTATTGCGAGAAACCAATGGCATTGTT -GCCGGGCCCCGTGGCGCAGCGACGCGATTAGGGATGAAGCGCACCACGCTGCTGTCACGAATGCAGCGGCTGGGGATCTC -GGTTCGCGAGGTGTTGTAATCTGCTTTTGCAGGAGTATGCATGAGAAACAAACTCTCTTTCGACTTGCAGTTGAGCGCCA -GAAAAGCGGCAATCGCTGAACGGATTGCCGCCCATAAAATTGCCCGCAGTAAAGTGTCGGTCTTTTTAATGGCGATGTCC -GCTGGCGTGTTTATGGCGATCGGATTTACTTTTTACCTTTCCGTTATCGCCGATGCCCCGTCTTCACAGGCATTAACCCA -TCTGGTGGGCGGCCTTTGCTTTACACTCGGCTTTATTTTGCTGGCGGTTTGCGGCACCAGCCTGTTCACCTCGTCGGTAA -TGACGGTGATGGCAAAAAGTCGGGGCGTTATTAGTTGGCGAACTTGGCTGATTAACGCACTTCTGGTGGCCTGCGGTAAT -CTGGCAGGTATTGCCTGTTTCAGTTTGTTAATCTGGTTTTCCGGGCTGGTGATGAGTGAAAACGCGATGTGGGGAGTCGC -GGTTTTACACTGCGCCGAGGGCAAAATGCATCATACATTTACTGAATCTGTCAGCCTCGGCATTATGTGCAATCTGATGG -TTTGCCTGGCGCTGTGGATGAGTTATTGCGGGCGTTCGTTATGCGACAAAATCGTCGCCATGATTTTGCCCATCACCCTG -TTTGTCGCCAGTGGCTTTGAGCACTGTATCGCCAATTTGTTTGTGATTCCGTTCGCCATTGCCATTCGCCATTTCGCCCC -TCCCCCCTTCTGGCAGCTGGCGCACAGTAGCGCAGACAATTTTCCGGCACTGACGGTCAGCCATTTTATTACCGCCAATC -TGCTCCCGGTGATGCTGGGTAATATTATCGGCGGTGCGGTGCTGGTGAGTATGTGTTATCGGGCTATTTATTTACGTCAG -GAACCCTGAAAAATCAGCCCGGCGAAACAGTTCGTCGGGCTGAAGATTATTCTTGCGCGATTTGCCCATCGGGCCAGGCA -TGAATCACGGCTTTGATCAGCGTCGCCAACGGAATGGCGAAGAATACGCCCCAGAATCCCCACAAACCACCGAAGATCAC -CACCGATAAAATAATCACCAGCGGATGCAGGTTAACCGCTTCGGAGAACAACACCGGCACTAACAGGTTGCCGTCCAGCG -CCTGAATAATCAGATACACCGCGAAGCAGCTCCAGAATTCAGTACCTGCGCCAAACTGGAATAGCGCCACGCCAACCACC -GGAATGGTCACCACAAATGCGCCAATGTACGGAATAAGAACCGAGAAGCCGACCAGCACTGCCAGCAGCAGCGAATAGTT -CAGCCCGAAGAGCAAGAACCCCAGCCAGGTGGCGATCCCCACCACGATCATCTCCAGCACTTTGCCGCGGATATAGTTGG -TGATTTGTTGATTCATCTCCTTCCACACCTGTCCTGCCAGCCCACGGTTACGCGGCAGCACCCGGCGAACGGCGTTCAGC -ATCTGCTCTTTGTCTTTCAGCAGGAAGAAGACCATCAATGGCACCAGCACCAGATAGACGGCTATGGTCAGCAAACCGAC -CAGCGAGGCGAGGGAAATTTTCACCACCGAATCGCCCATGGTCAGCATCCGACTGCGCATATTTTCGGCCATTGCATCAA -TAATGCCCGCGTCCATTAACGCCGGATAGCGGCGCGGCAACGTGGCGGCAAAGTCAGAAAGCTTATTGAGCATCCCCGGC -ATATCGCGGATTAAGTAGATGCCCTGTTGCCAGGCGATAGGCAGTACCACGAACGCCATCAGTAGCAATATACCGACGAA -AACCACCAATACAATCGACGTCGCCCAGCGGCGGGAGCAGCCAATAGATTGCAGACGCACGGTTGGCCATTCCAGCAAAT -AGGCCAGCACAATAGCCACCAGCAACGGAGCAAGCAGGCCACTAAAGAAAAAGATAATGCCAAATCCGGCAACTAAAATA -ACCAGCAAGGCAATCGCTTCCGGGTCGCTAAAACGGCGGCGATACCATTGCATCAACATTTCGAGCATAAAGACCTTCCC -TGAACCTCAAGAGCGGGATTGCGATCCGCAATTGTATCGAAATGTCACAAAAAAGACTTCGCTTTTTATGACGGATTCAG -GAAACTGAAAAGTCATTTGAGTGGGCTAATCTTCGCCGTTACACTCAAAGGCGGCGCGGTGGGAACGATATTTCACAGTA -TCGGTCAAATGACTATCTCCAGAAATACAGGATAGAGGTTATGTTCAGGCAGTTGAAAAAAAACCTGGTTGCAACCCTCA -TTGCTGCTATGACCATTGGTCAGGTAGCCCCGGCGTTTGCCGACAGCGCAGACACCTTGCCGGATATGGGAACCTCCGCA -GGAAGCACGCTTTCCATTGGTCAGGAAATGCAGATGGGCGACTATTATGTCCGCCAGCTACGCGGCAGCGCGCCGTTAAT -TAATGACCCGCTGTTAACGCAATATATTAATTCGCTGGGGATGCGTCTGGTTTCGCATGCCAATTCGGTTAAGACACCGT -TTCATTTTTTTCTGATCAACAACGACGAAATTAACGCCTTTGCTTTCTTTGGCGGCAACGTGGTGCTGCACTCTGCCCTG -TTCCGTTATTCCGATAACGAAAGTCAACTGGCTTCAGTTATGGCGCACGAAATCTCCCACGTCACCCAACGTCACCTGGC -GCGAGCGATGGAAGATCAGCAGCGCAGCGCGCCGCTGACCTGGGTCGGCGCGTTAGGTTCTATTTTACTGGCGATGGCCA -GTCCGCAGGCGGGGATGGCGGCGCTGACCGGTACACTGGCGGGAACGCGTCAGGGGATGATCAGTTTCACCCAGCAAAAT -GAACAGGAAGCGGACCGCATTGGTATTCAGGTGCTGCAACGCTCGGGATTCGATCCGCAGGCGATGCCAACCTTCCTCGA -AAAATTACTCGATCAGGCGCGTTACTCCTCGCGCCCGCCGGAAATTTTATTGACTCACCCGTTGCCGGAAAGTCGTCTGG -CAGATGCCCGCAACCGTGCTAATCAGATGCGCCCGATGGTGGTGCAGTCGTCGGAAGATTTCTATCTGGCGAAAGCGCGC -ACACTGGGGATGTATAATTCCGGACGTAACCAGCTCACCAGTGATTTGCTGGATGAATGGGCGAAAGGAAACGTTCGTCA -GCAACGAGCAGCACAATATGGTCGTGCTTTACAGGCGATGGAAGCCAATAAATACGACGAGGCGCGTAAAACGCTGCAAC -CGTTACTGGCGGCAGAACCTGGCAACGCATGGTATCTCGATCTGGCTACTGATATCGATCTTGGGCAAAACAAAGCCAAT -GAGGCGATCAATCGTCTGAAAAATGCCCGCGATTTACGCACCAATCCGGTGTTGCAGCTCAACCTGGCGAACGCTTATTT -GCAAGGCGGTCAACCACAAGAAGCGGCCAATATTCTGAATCGCTACACCTTTAATAATAAAGATGACAGCAACGGCTGGG -ATTTGCTGGCACAGGCGGAAGCCGCGCTAAATAACCGCGATCAGGAGCTGGCTGCGCGAGCAGAAGGTTATGCGCTCGCC -GGACGACTCGATCAGGCCATTTCGCTGTTGAGTAGCGCCAGTTCGCAGGTGAAATTAGGCAGCCTGCAACAAGCGCGTTA -CGATGCGCGCATCGACCAGTTGCGCCAGCTGCAGGAACGCTTTAAGCCTTATACCAAGATGTAATTCGCATTAAAGGAAG -AACAATGACCAAACAGGTAAAAATCTACCATAACCCACGCTGTTCAAAGAGCCGGGAAACGCTGAACCTGCTGAAAGAAA -ACGGCGTGGAGCCAGAAGTGGTGCTCTACCTTGAGACACCCGCCGATGCGGCAACGCTGCGCGATTTGCTGAAAATACTG -GGGATGAATAGCGCCCGTGAATTGATGCGCCAGAAAGAGGATCTTTATAAAGAACTGAACCTGGCTGACAGTTCGCTTAG -CGAAGAGGCGCTGATTCAGGCAATGGTGGATAATCCGAAGCTGATGGAGCGCCCGATTGTGGTCGCGAATGGCAAAGCGC -GGATTGGTCGTCCACCGGAGCAGGTACTGGAAATCGTGGGTTAAGATGTGCTCCATCGCTAGTTGAAGCACATTGCCGGA -TGCGACGCTTGCCACGTCTTATCCGGCCTACGAATACTATGGATTAACTTCGCGTAGTTCGGATAAGGCGTTCGCGCCGC -ATCCGACAATAAACACCTTATCTACAACTTCAGAATTTCTTTCACAAACGGAATGGTCAGCTTACGTTGCGCGGTAATCG -ACGCACGATCCAACTGATCCAACGTCATAAATAGCGTGCGCATTTCTCTGTCGAGCCGCTTCAGCAAGAAACGCCCCACA -TCTTCCGGCAGTTCAAAACCACGCAAACGCGCGCGTAACTGTAGCGCCTGCAACTTATCTTCATCAGAAAGTGGCTGCAA -TTTGTAGATCTGCCCCCAGTCGAGTCGCGACGCGAGATCCGGTAATCCCAGATTCAACTGCCGCGGTGGACGATCGCCGG -TGATCAACAACCGTGTTTTGCCCGATTCCAGAATTCGATTGTAGAGATCGAAAATCGCCATCTCCCACAACTCATCGCCT -GCAATACACTCAATGTTGTCGATACAGACCAGCGACAAATGCTCCATACCGTCGAGCACTTCCGGAACAAACCAGGTGCG -TTTATCCAGCGGGACATAGCCCACCGCATCGCCACGCTGCGACAATTCCGCGCAAGCCGCGTGCAGCAGATGGCTGCGCC -CCGCGCCTTCGCGTGCCCAGAGATAGATGTAACCGCTATGTTCCTGACGCAGCACGTTTTGCAGCGCGGCCAGTAAAGAG -GAGTTATCCCCCGGCCAGAAACTTGCAAAGGTTTCGTCGTCAGGAAGATAAAGTGGCAAAGAGAGCTGTGCCGGTGTGTT -CAGAGATACCTCAACCAGGATTTCACAAAATCGCGAGAAGTTTACCACAGAATCCCATGATGTTTGAACCGGGCAGCAAC -ACTGCCCGGTCGGTACATTATTTGTCTGTTATATCCGCGTCTTCTGCGTCCAGCACCACTTCTTCAGGGCGCAGCACACT -GATCAGTTTGAAGATCAAACTTAAGCCGATACCGACGATGGTCGCCAGCGCCATACCTTTTAACTCCGCCGCGCCGATGT -TTACCTTCGCGCCACTGACGCCGATGATCAAAATCACGGAAGTCAGGATCAGGTTCTGTGCTTTGTTGTAATCCACTTTC -GATTCGATCAAAACACGAATACCGGAAGCACCGATGACACCATAAAGCAGCAGCGAAACGCCGCCCATCACCGGCAATGG -GATCATCTGGATAGCGGCAGCCAGTTTACCGACGCAGGAAAGCAGGATAGCGAAAATCGCCGCCCCGCCGATAACCCAGG -TACTGTAAACACGGGTGATCGCCATCACGCCAATGTTTTCTCCGTAAGTAGTATTTGGCGTAGAGCCAAAGAAGCCGGAA -ATCACGGTCGACAAGCCATTAGCAAACATCGAACGGTGCAGACCTGGATCGCGCAGCAGATCTTTTTTGACGATATTAGC -CGTTACTACCAGGTGCCCTACGTGTTCGGCAATAACCACTAACGCCGCTGGCAGAATAGTCAGAATGGCAAACCACTCGA -AGCGCGGCGTATAGAGGGTTGGCAGCGCAAACCAGTGAGCATTAATAATCGGCGTGGTATCGACAATTCCCATTGCGAAA -GAGAGCGCGTACCCCACCAGCACGCCAATTAAAATCGGGATAATTGCCAGGAAACCACGAAACAGCACGGAACCTAAAAC -CGTGACCGCCAGGGTGGTAATAGAGATGATGATGGTTTTGGAGTCTGGCGTTTGCCCTTCAGCCGGGAGTAAACCCGCCA -TACCGGCAGCTACGCCCGCCAGCTCCAGACCGATGACGGCAACGATTGCGCCCATTGCCGCAGGTGGAAACAGCACGTCC -AGCCAGCCGGTCCCCGCTTTCTTCACGATAAAAGAAACCAGGCAGAACAGCACGCCGCACATAATAAAGCCGCCCAGCGC -GACTTCATACCCTAACGGCAACAGTAACAATACCGGTGAAATAAAGGCAAAGCTGGAACCAAGATAAGCCGGAATTTTCC -CTTTACAGATGAAGAGATACAGCAGCGTTCCAATACCGTTAAATAACAGTACAGTCGCCGGGTTAATATGAAATAAGACG -GGCACCAGGACGGTTGCACCAAACATGGCGAACAAATGTTGCAAACTAAGCGGGATTGTCTGTAAAAGTGGCGGTCTTTC -ACTCACCCCGATAGCACGGCGCGTCATAGTATTATCCTCTGTATTATGTGTTATAGGCGCTTTACTCAAAAAAAAGCCGA -CTCTTAAAGTCGGCTTTAATTATTTTTATTCTTTATTTCGTACCAAAGATTTTGTCACCGGCATCGCCGAGGCCCGGAAT -AATGTATCCGTGCTCGTTCAGTCCCTGATCAATCGATGCGGTATACAGTTCGACGTCCGGGTGCGCTTTTTCCAGCGCAG -CGATACCTTCTGGCGCAGCTACCAGCACCAGAACTTTGATGCTGCTGCAGCCCGCTTTTTTCAGCAGGTCGATGGTCGCG -ATAACGGAACCACCGGTTGCCAGCATTGGGTCAACGATCAGCGCCATACGCTCATCGATGTTAGAAACCAGTTTCTGGAA -GTACGGTACCGGCTCCAGCGTTTCTTCATTACGGTACATACCGACAACGCTGATGCGCGCGCTCGGAACGTTTTCCAGCA -CACCGTCCATCATACCAAGACCCGCACGCAGAATTGGCACAACGGTAATTTTCTTACCTTTGATCTGGTCGATTTCTACC -GGGCCGTTCCAGCCTTCGATAGTTACTTTTTCCGTTTCGAGGTCGGCGGTCGCTTCGTAAGTCAGCAGGCTACCCACTTC -GGAAGCGAGTTCGCGAAAGCGCTTGGTGCTGATATCTTGCTCACGCATCAGTCCCAGCTTGTGTTTGACGAGTGGGTGTT -TGACTTCCACGATCTTCATACTCTTTCTCCTTTGAGGGGCAGCCACAAAAAAAATCGACGGATTATACCTCCTTTCTTCA -AGGCGGCAATATTCTTTTCGTTGACTTTAGTCAAAATGATAACGGTTTGAGATAAAGTTATTTTATATTCAGATGGTTAT -GAAAGAAGATTATTCCATCCGAAAACTAACCTTTACCCTGGCACAAGTCTTCTTTCGCCGCGCGCCTGGGGAAAAGACGT -GCAAAAAGGTTGTGTAAAGCAGTCTCGCAAACGTTTGCTTTCCCTGTTAGAATTGCGCCGAATTTTATTTTTCTACCGCA -AGTAACGCGTGGGGACCCAAGCAGTGACCGATAAAACCTCTCTTAGCTACAAAGATGCCGGTGTTGATATTGACGCGGGT -AATGCTCTGGTTGGAAGAATCAAAGGCGTAGTGAAGAAAACGCGTCGTCCGGAAGTGATGGGCGGTCTGGGCGGCTTCGG -TGCGCTGTGTGCATTGCCGCAAAAATATCGTGAACCCGTGCTGGTTTCTGGCACTGACGGCGTAGGTACCAAGCTGCGTC -TGGCAATGGACTTAAAACGTCACGACACCATTGGTATTGATCTGGTCGCCATGTGCGTTAATGACCTGGTGGTGCAAGGT -GCAGAGCCGCTGTTTTTCCTCGACTATTACGCAACCGGAAAACTGGATGTTGATACCGCTTCAGCGGTGATCAGCGGCAT -TGCGGAAGGTTGTCTGCAATCAGGCTGTTCACTGGTGGGTGGCGAAACGGCAGAAATGCCGGGGATGTATCACGGTGAGG -ATTACGATGTCGCGGGTTTCTGCGTTGGCGTGGTAGAAAAATCAGAAATCATCGACGGCTCTAAAGTCAGCGACGGCGAT -GTGCTGATTGCACTCGGTTCCAGCGGTCCACACTCGAACGGCTATTCGCTGGTGCGCAAAATTCTTGAAGTCAGCGGTTG -TGATCCGCAAACCACCGAACTTGATGGTAAGCCATTAGCCGATCATCTGCTGGCACCGACCCGCATTTACGTGAAGTCAG -TGCTGGAGTTGATTGAAAAGGTCGATGTGCATGCCATTGCGCACCTGACCGGCGGCGGCTTCTGGGAAAACATTCCGCGC -GTATTGCCAGATAATACTCAGGCAGTGATTGATGAATCTTCCTGGCAGTGGCCGGAAGTGTTCAACTGGCTGCAAACGGC -AGGTAACGTTGAGCACCATGAAATGTATCGCACCTTCAACTGCGGCGTCGGGATGATTATTGCCCTGCCTGCTCCGGAAG -TGGACAAAGCCCTCGCCCTGCTCAATGCCAACGGTGAAAACGCGTGGAAAATCGGTATCATCAAAGCCTCTGATTCCGAA -CAACGCGTGGTTATCGAATAATGAATATTGTGGTGCTTATTTCCGGCAACGGAAGTAATTTACAGGCAATTATTGACGCC -TGTAAAACCAACAAAATTAAAGGCACCGTACGGGCAGTTTTCAGCAATAAGGCCGACGCGTTCGGCCTTGAACGCGCCCG -CCAGGCGGGTATTGCAACGCATACGCTCATCGCCAGCGCGTTTGACAGTCGTGAAGCCTATGACCGGGAGTTGATTCATG -AAATCGACATGTACGCACCCGATGTGGTCGTGCTGGCTGGTTTTATGCGCATTCTCAGCCCGGCGTTTGTCTCCCACTAT -GCCGGGCGTTTGCTGAACATTCACCCTTCTCTGCTGCCGAAATATCCCGGATTACACACCCATCGTCAGGCGCTGGAAAA -TGGCGATGAAGAGCACGGTACATCGGTGCATTTCGTCACCGATGAACTGGACGGTGGCCCGGTTATTTTACAGGCGAAAG -TCCCGGTATTTGCTGGTGATTCGGAAGATGACATCACCGCCCGCGTGCAAACCCAGGAACACGCCATTTATCCACTGGTG -ATTAGCTGGTTTGCCGATGGTCGTCTGAAAATGCACGAAAACGCCGCGTGGCTGGATGGTCAACGTCTGCCGCCGCAGGG -CTACGCTGCCGACGAGTAATACCCCCGTAATTAAAGCGCCAGCTCTGCCGCTGGCGTTTTTCAATTCACCTGTAAATCGC -AAGCTCCAGCAGTTTTTTTCCCCCTTTTCTGGCATAGTTGGACATCTGCCAATATTGCTCGCCATAATATCCAGGCAGTG -TCCCGTGAATAAAACGGAGTAAAAGTGGTAATGGGTCAGGAAAAGCTATACATCGAAAAAGAGCTCAGTTGGTTATCGTT -CAATGAACGCGTGCTTCAGGAAGCGGCGGACAAATCTAACCCGCTGATTGAAAGGATGCGTTTCCTGGGGATCTATTCCA -ATAACCTTGATGAGTTCTATAAAGTCCGCTTCGCTGAACTGAAGCGACGCATCATTATTAGCGAAGAACAAGGCTCCAAC -TCTCATTCCCGCCATTTACTGGGCAAAATTCAGTCCCGGGTGCTGAAAGCCGATCAGGAATTCGACGGCCTCTACAACGA -GCTATTGCTGGAGATGGCGCGCAACCAGATCTTCCTGATTAATGAACGCCAGCTCTCCGTCAATCAACAAAACTGGCTGC -GTCATTATTTTAAGCAGTATCTGCGTCAGCACATTACGCCGATTTTAATCAATCCTGACACTGACTTAGTGCAGTTCCTG -AAAGATGATTACACCTATCTGGCGGTGGAAATTATCCGTGGCGATACCATCCGTTACGCGCTGCTGGAGATCCCATCAGA -TAAAGTGCCGCGCTTTGTGAATTTACCGCCAGAAGCGCCGCGTCGACGCAAGCCGATGATTCTTCTGGATAACATTCTGC -GTTACTGCCTTGATGATATTTTCAAAGGCTTCTTTGATTATGACGCGCTGAATGCCTATTCAATGAAGATGACCCGCGAT -GCCGAATACGATTTAGTGCATGAGATGGAAGCCAGCCTGATGGAGTTGATGTCTTCCAGTCTCAAGCAGCGTTTAACTGC -TGAGCCGGTGCGTTTTGTTTATCAGCGCGATATGCCCAATGCGCTGGTTGAAGTGTTACGCGAAAAACTGACTATTTCCC -GCTACGACTCCATCGTCCCCGGCGGTCGTTATCATAATTTTAAAGACTTTATTAATTTCCCCAATGTCGGCAAAGCCAAT -CTGGTGAACAAACCACTGCCGCGTTTACGCCATATTTGGTTTGATAAAGCCCAGTTCCGCAATGGTTTTGATGCCATTCG -CGAACGCGATGTGTTGCTCTATTATCCTTATCACACCTTTGAGCATGTGCTGGAACTGCTGCGTCAGGCTTCGTTCGACC -CGAGCGTACTGGCGATTAAAATTAACATTTACCGCGTGGCGAAAGATTCACGCATCATCGACTCGATGATCCACGCCGCA -CATAACGGTAAGAAAGTCACCGTGGTGGTTGAGTTACAGGCGCGTTTCGACGAAGAAGCCAACATTCACTGGGCGAAGCG -CCTGACCGAAGCAGGCGTGCACGTTATCTTCTCTGCGCCGGGGCTGAAAATTCACGCCAAACTGTTCCTGATTTCACGTA -AAGAAAACGGTGAAGTGGTGCGTTATGCACACATCGGGACCGGGAACTTTAACGAAAAAACCGCGCGTCTTTATACTGAC -TATTCGTTGCTGACCGCCGATGCGCGCATCACCAACGAAGTACGGCGGGTATTTAACTTTATTGAAAACCCATACCGTCC -GGTGACATTTGATTATTTAATGGTATCGCCGCAAAACTCCCGCCGCCTATTGTATGAAATGGTGGACCGCGAGATCGCCA -ACGCGCAGCAAGGGCTGCCCAGTGGTATCACCCTGAAGCTAAATAACCTTGTCGATAAAGGCCTGGTTGATCGTCTGTAT -GCGGCCTCCAGCTCCGGCGTACCGGTTAATCTGCTGGTTCGCGGAATGTGTTCGCTGATCCCCAATCTGGAAGGCATTAG -CGACAACATTCGTGCCATCAGTATTGTTGACCGTTACCTTGAACATGACCGGGTTTATATTTTTGAAAATGGCGGCGATA -AAAAGGTCTACCTTTCTTCCGCCGACTGGATGACGCGCAATATTGATTATCGTATTGAAGTGGCGACGCCGCTGCTCGAT -CCGCGCCTGAAGCAGCGGGTACTGGACATCATCGACATATTGTTCAGCGATACGGTCAAAGCACGTTATATCGATAAAGA -ACTCAGTAATCGCTACGTTCCCCGCGGCAATCGCCGCAAAGTACGGGCGCAGTTGGCGATTTATGACTACATCAAATCAC -TCGAACAACCTGAATAACCCTATGCCAATACACGATAAATCCCCTCGTCCGCAGGAGTTTGCTGCGGTCGATCTTGGTTC -AAACAGTTTTCACATGGTCATAGCCCGTGTGGTAGATGGTGCCATGCAGATTATTGGCCGCCTGAAACAGCGGGTGCATC -TGGCGGACGGCCTGGGGCCAGATAATATGTTGAGTGAAGAGGCAATGACGCGCGGTTTAAACTGTCTGTCGCTGTTTGCC -GAACGGCTACAAGGGTTTTCTCCTGCCAGCGTCTGTATAGTTGGTACCCATACGCTGCGTCAGGCGCTGAACGCCACTGA -CTTTCTGAAACGCGCGGAAAAGGTCATTCCCTACCCGATTGAAATTATTTCCGGTAATGAAGAAGCCCGTCTGATTTTTA -TGGGCGTGGAACATACCCAACCGGAAAAAGGTCGCAAACTGGTTATTGATATTGGCGGCGGATCTACGGAACTGGTGATT -GGTGAAAATTTCGAACCTATTCTCGTTGAAAGCCGCCGGATGGGTTGTGTCAGCTTTGCCCAGCTTTATTTTCCTGGCGG -GGTCATCAATAAAGAGAATTTTCAGCGCGCTCGCATGGCGGCAGCACAAAAACTGGAAACTTTAACCTGGCAATTCCGTA -TTCAGGGCTGGAACGTTGCAATGGGCGCTTCCGGTACCATAAAAGCCGCCCATGAAGTGTTAATGGAAATGGGCGAGAAA -GACGGGATAATTACCCCGGAACGTCTGGAAAAACTGGTAAAAGAAGTTTTACGTCACCGTAATTTCGCATCGCTGAGTTT -ACCGGGTCTTTCCGAAGAGCGGAAAACAGTCTTCGTTCCGGGACTGGCGATTTTATGCGGTGTGTTTGATGCTTTAGCCA -TCCGTGAACTGCGCCTTTCTGACGGGGCGTTACGCGAAGGCGTACTGTATGAAATGGAAGGACGTTTCCGTCATCAGGAT -GTGCGTAGTCGCACCGCCAGCAGCCTCGCCAACCAGTATCACATCGACAGCGAACAGGCCCGACGGGTGCTGGATACCAC -TATGCAAATGTACGAACAGTGGCGGGAACAGCAACCGAAGCTGGCGCATCCGCAACTGGAGGCGCTACTGCGATGGGCCG -CCATGCTGCATGAGGTCGGGTTGAATATCAACCACAGCGGTTTGCATCGCCACTCCGCTTATATTCTGCAAAACAGTGAC -TTGCCGGGTTTTAATCAGGAACAGCAGCTGATGATGGCGACACTGGTGCGCTATCACCGTAAAGCGATTAAGCTCGACGA -TCTACCGCGCTTTACCTTGTTTAAGAAGAAACAGTTCCTGCCACTGATACAGCTATTGCGCCTTGGCGTATTACTCAACA -ATCAACGTCAGGCAACCACCACACCGCCAACATTGACGCTGATTACTGATGACAGTCACTGGACACTGCGTTTCCCGCAT -GACTGGTTTAGTCAGAATGCGCTGGTACTGCTTGATCTGGAAAAGGAGCAAGAATACTGGGAAGGCGTGGCTGGCTGGCG -GTTGAAAATTGAAGAAGAAAGTACACCAGAAATCGCCGCTTAATACTTTGCGGGCCGACGAGAAATGTCGGCCCGCATTA -TTCAGGCACTTTCGCGAATGGGTTCGATTTCATTCAGCGTATCAATTAACGGCTGCGGCTTACCAATAAGATAACCCTGC -ATATAATCGATCCCCAAAGAGAGCACCGCCTCGCGGATCTCTTCGTTTTCAACGTACTCTGCCACTACCAGCATTTTCTT -CATTCGCGCCAGGTGGCAAATCGATGCCACTATCTGATAATCCAGACTATTTGACACAATATTGCGGATAAAACTGCCGT -CAATTTTAAGCAGATCGGCATTCACATTTTTAAGCCGCGCATAGCTGGCGTAGCCGGTGCCGAAATCATCAATCGCAATC -TGGCAGCCTAATTCCTGAAGATGCTGCAAGGTGATTTGCGCCTGCTTAACATTGGTCAGAGCATTACTTTCGGTGACTTC -AAAAATAAGTTGCCACGCTTCAATCTGATATTTAGCCAGCAACTGACTGACTTCAACAGGAAAACGAGCCTGACATACCG -AGGTTGGAGACAGATTAATAGCAAAACGGTGAGCGGGCATCTTCGCTCTGTTTTCAGCCATAAATTGCAGCGTATGCTCA -ATGACCCACATGTCGATACTCGACGATAAACCAAATTCGTGCGCGACCGGCAAGAAGCTATCGGGGCTGATCAGTTCATC -ATTCTCACCTTTCATGCGCAGAAGAATTTCATGGTAAACATCACCACGCATACCGGTAATCGGCTGGGCCATCAGGAAAA -AATGGTTGTGTTCCAGCGCCTGCTGTAGTCGATTCATCATCGCGACTTTATCTTTCAATTCGCGTTGCAAATACATTGCC -CCGCGACGCTGCATATTTTCCGGGGCGTTGGTCACGATGGAAAGTTCGGCGACCGTATTTAGCTCTCCCAGCAGCAGGTA -GATATGATTCACTGGCGAGCGCACATAGCAGTAACTGACGCCAATCTGCGGTTGCATCGGCATGCCATCCCAAAAGAAAC -GAAATTGCTTGAGATGGCTATCCAGTGCGGTAATGCGCTCCTGGTGCGATTCTGTATTCAGTCGCAGCGCGAGATCGTTA -CCCGAAAGCTGATAAACATCTTCACCCGGTTCCAGCAAGGGTGACAGCCAGTGAGAAAGTTTTTGCTTGTATTGAATCCG -CAGCATGATGCCATAGTTCTTAACCAGCATTTCCATGCCAGGGATGCGTAAATAACAAAGCGCAGACCAGGGGGCATCAC -GCAACGCGCGATTCAGGGCGCGAACATTTGGCAGATGAACCACCGGGTCCACATACGCAAGCCGCTGAATGCGTCTGACT -ACCGCTCTCTGACGGGTTGCCAGTACAGCCATATAATTGACAATAAAAGAGAATACCAGATAACTGGAGGAGGTTATGGT -CAGCTGCGTGGTATAGCCAGGATAAATGGGAATGTAATTTTGATAGCTGTGGATGCTGATCATCAACACGACCGCCCAGA -GCAGCGAAATCAGCTTATAACCATAGCGCATCGCTCCCCACATCATCAGGGGCAGCAATAATGACAAGGTATAATTGGTG -CTAAAAATTGTGCTTTTTTCATTTAACGGCATGCATAACAGCAACAATAAAGCACCTAATGCCAGTAGCCAGAGCGCGAA -CTCTTTTTTGGTGACTTTGGCATCAACCTGCTGTTTTAATTGCGAATAATAGCTACGTAAATAAAATGGATTTCGCACTA -CCCGAATGATGAAGTAGCACAGCGGGACACCGATCAGATTACCCACCAGTAAGGCCTGATAATTGATTAAAGTCCCGAGG -TTAAAAGGCATGACACCGACCAGATTTTCTCTGCTCGCCAGTAATCCTACAAATGCAGCAAACTGGAAAAGTATCAGAAA -CAGCGTTGCAGGAAACACAATCTGCCAGAATATACGCTGGGAAATTAAACGGGTATCACCATGTGAAACGTTGTTACGCC -GGGGAGTAAAGACCCTGTAACCGCCCCAACAGAGAATGATAATGATAATAAAATTAGCCGTTAATGATAGCGTTTCGTAA -AAACCCAGCTCTGCATATTTGCGGACAAAAATCCCTAAGGCGATCCCTGGCAATGCCGCCCAGCTGAAAAACATCATCAT -GCTGATCATCAGTGCCAGAGGCAGATAAAAGAGAAAAACCTCACCGGAAGAAATATGCGCGAAAGTATTAATGTGGGCGA -AAATGGGCAAGATTAAAGAAGGCAGGAACAGCGGAAGCCCCCACCATTTATCACGTATTTTTATATAAGTTGCATTCAGT -TTCATAGATGCTCAGCAGAATCCCCCACATCCTGAAGGAGGTGTATTCAGACAGGCATCCCACCTGACTTCGAATGATGA -TTATTCATCACTATAGAGAGCATTGATTCTAAGTGTCATATGAAAGTACCAATTGATATATATCAAACAAAATAACCCTG -ATTAATGAATTATTACGTTTATCATGTTAATTCATCATTATTACATCATCATTGTAAATAATTAAATTAACTTCCATAAC -ATTAAAATATGTATCCACTGACGCTTTTTTACATAACGAAGAATTGACCATTTTGTCCTGTTGTGCCTTAATGTAAGTAC -CGTCCACAGCGTGGGACATACTTCAAGGAACCTTTTGTGAGTCAGGCAACCAGTATGCGAAAACGACACCGATTTAACAG -TCGCATGACCCGTATCGTACTGCTCATCAGCTTTATCTTCTTCTTTGGCCGTTTTATCTACTCGTCCGTCGGTGCCTGGC -AGCACCATCAGAGCAAAAAAGAAGCTCAGCAATCCACACTCTCCGTCGAATCACCGGTACAACGTTAGCGGTTACCTTCT -CCACTTTCACAGAACATAACGGCACTTCGCTGTCGGATGCTTTTGCTGTTTGGGATTATCAAAGCGGCAGATATTCTTTC -ATCTTAAATTTTACGTCTTTATCCTGACTGATGTTTATCCTGTTTGGCTGCGAAATAAATATAAAATTAATATATATGTT -GTAATGATATATTTTTATAAATTATTCCCTGCGTGAATTTTAATAAATTTAATCTATCCCTTTATACGCAATACATTTAC -TTTCCTCTTTTGATGATCTTAAATGTCTTATTTTTCGTAATGTGTATAACAAGGAATAGTGATGAAATTTAAAAAATGTC -TTCTGCCTGTGGCAATGTTAGCGTCATTCACTCTGGCAGGATGCCAGTCAAATGCTGACGATCATGCTGCCGATGTTTAT -CAAACCGATCAACTGAATACCAAACAAGAAACTAAAACCGTTAATATTATTTCCATTCTTCCCGCAAAAGTTGCCGTAGA -CAACTCCCAAAATAAACGGAACGCACAAGCCTTCGGCGCGCTTATTGGCGCAGTCGCTGGCGGTGTTATCGGCCACAACG -TCGGGTCTGGCAGCAATTCCGGAACGACGGCAGGTGCAGTTGGCGGCGGAGCTGTAGGCGCGGCAGCGGGTTCTATGGTG -AATGATAAAACCTTAGTGGAAGGTGTTTCTTTAACCTATAAGGAAGGCACCAAAGTGTATACCTCTACCCAGGTGGGTAA -AGAGTGCCAGTTTACGACAGGTTTAGCCGTTGTTATTACCACGACGTATAACGAAACGCGTATTCAGCCAAATACCAAAT -GTCCTGAAAAGAGCTAATAATCAGGAGGAGTCATGAAGAAAGTTTTTCTTTGCGCCATCTTAGCCTCCTTAAGCTATCCG -GCTATCGCCTCATCATTGCAGGATCAACTCTCTGCTGTCGCAGAAGCGGAACAGCAAGGTAAAAATGAAGAGCAAAGGCA -GCATGACGAATGGGTCGCGGAGCGCAACAGGGAAATCCAGCAAGAGAAGCAACGTCGCGCAAATGCCCAGGCCGCCGCTA -ACAAAAGAGCGGCAACGGCAGCGGCAAATAAGAAAGCTCGTCAGGATAAACTGGACGCCGAAGCCTCTGCGGACAAAAAA -CGCGATCAAAGTTATGAAGATGAGCTACGCAGCTTAGAGATTCAGAAACAAAAACTGGCGCTGGCGAAAGAAGAAGCCCG -CGTTAAGCGAGAAAACGAATTTATCGATCAGGAACTGAAGCACAAAGCTGCGCAAACCGATGTGGTGCAATCTGAAGCTG -ACGCCAACAGAAATATGACTGAAGGCGGTCGCGATCTGATGAAAAGCGTGGGCAAAGCAGAAGAGAACAAATCGGACAGC -TGGTTTAATTAATCGATGTTAGTAACTTCAATCCTATAATTCTTGAAGATAAAAAACCCTCTGTAGTAACAGAGGGTTTT -GTTCATTCATAGTGCAGGGTCAAATCATTCCCACTCAATGGTAGCTGGCGGCTTGCCGCTGATGTCATACACCACGCGGG -AAATACCGTTCACTTCATTGATAATGCGGTTGGAAACGCGACCGAGGAAATCGTACGGCAGATGCGCCCAGTGTGCGGTC -ATAAAGTCGATGGTTTCGACAGCACGCAGAGAGACAACCCAGTCATACTTACGACCATCGCCCATTACGCCAACGGAACG -TACCGGCAGGAACACAGTGAACGCCTGGCTGACTTTGTCGTACAGGTCCGCTTTACGCAGTTCTTCAATGAAGATGGCGT -CAGCACGGCGCAGCAGGTCACAGTACTCTTTCTTCACTTCACCCAGAACACGAACGCCAAGGCCTGGTCCCGGGAACGGG -TGACGGTACAGCATGTCGTACGGCAGGCCCAGCTCCAGACCAATCTTACGCACTTCGTCTTTGAACAGCTCTTTCAGCGG -TTCAACCAGGCCCATCTTCATCTCTTTCGGCAGGCCGCCCACGTTGTGGTGAGATTTGATGACGTGTGCTTTACCGGTTG -CAGACGCCGCAGATTCGATAACGTCAGGGTAGATGGTGCCCTGCGCCAGCCACTTCACGTCTTCCAGTTTCAGCGCTTCT -TCATCGAATACTTCAACGAAAACGCGACCGATGATTTTACGTTTTGCTTCCGGATCGTTTTCGCCAGCCAGCGCTGACAG -GAAGCGATCTTCTGCCGGTACGTGAACAATGTTAAGACCAAAGTGATCGCCAAACATATCCAGAACCTGCTCTGCTTCGT -TGAGGCGCAGCAGGCCGTTGTCGACGAATACGCAAGTCAGGTTTTTACCGATAGCGCGGTGCAGCAGCATTGCGGTTACG -GAGGAATCCACACCACCAGAGAGGCCGAGGATGACTTTATCGTCGCCTACCTGCTCGCGGATGCGAGCTACAGCATCGTC -GATAATTTTCGCTGGCGTCCACAGGGCTTCACACTGGCAGATATCACGCACAAAACGCTCCAGCATGCGCATACCCTGGC -GGGTATGAGTCACTTCCGGGTGGAACTGTACGCCATAGAAGCGTTTTTCTTCGTTAGCCATAATGGCAAACGGGCAGCTT -TCGGTGCTGGCTACGGTGATGAAGTCGGACGGAATAGCGGTAACTTTATCGCCGTGGCTCATCCAGACATCGAGCAGCGG -TTTACCGTCTGCGGTCAGCGCATCTTCGATACCGCGAACCAGTGCGCTGTCGTTTACGACTTCAACCTGCGCGTAGCCAA -ATTCACGTTCGTTAGAGGCTTCAACGTGACCGCCCAACTGCATTGCCATGGTCTGCATGCCATAGCAAACGCCGAATACC -GGTACGCCTGCTTCAAAGACATACTGCGGCGCACGCGGACTGTTTTCTTCAGTAGTACTTTCCGGGCCGCCGGAAAGAAT -AATGCCGCTTGGATTGAAGTCACGAATTTGTGCTTCTGTCACATCCCACGCCCACAGTTCGCAGTAAACACCCAGCTCAC -GCACGCGGCGCGCAACCAGTTGAGTGTACTGAGAACCGAAGTCCAGAATGAGGATGCGATGCTTATGAATGTTTTCCGTC -ATTGACGCTTATTCCGAGGCAAGTGAAACAGATAATATAAATCGCCCGACATGAAGTCGGGCGAAGAGAATCAGGAGCCC -AGACGGTAGTTCGGGGACTCTTTAGTAATGGTCACGTCGTGAACGTGGCTTTCCTGAATGCCCGCACCGCTGATACGTAC -AAACTCCGCTTTAGTACGCAGTTCGTCGATAGTACCACAGCCGGTCAGACCCATACAGGAGCGCAGGCCGCCCATCTGCT -GGTGAATGATCTCTTTCAGGCGACCTTTATAGGCTACGCGACCTTCGATACCTTCCGGCACCAGTTTGTCGGCAGCGTTA -TCGCTCTGGAAATAACGGTCAGAGGAACCTTTGGACATCGCGCCCAGGGAACCCATACCACGGTAAGATTTGTAAGAACG -GCCCTGGTAGAGTTCGATTTCACCCGGAGATTCTTCAGTACCCGCCAGCATGGAACCTACCATCACCGCGCTTGCGCCAG -CGGCGATAGCTTTGGCGATGTCGCCGGAGAAGCGAATACCGCCATCAGCGATAACCGGAATACCGGTGCCTTCCAGGGCT -TCTACTGCGTCAGCAACAGCGGTAATCTGCGGAACACCGACGCCAGTCACGATACGAGTTGTACAGATAGAGCCAGGGCC -AATGCCGACTTTAACCGCACTGCAACCAGCTTCTGCCAGAGCGCGTGCACCTGCAGCTGTTGCCACGTTGCCGCCGATAA -TTTGCAGATCCGGATATTTAGCACGGGTTTCACGGATACGTTGCAGTACACCTTCTGAGTGACCGTGGGAGGAGTCGATC -AGCAGAACGTCAACGCCTGCGGCAACCAGCGCGTCAACACGCTCTTCGTTACCCGCACCTGCGCCAACCGCTGCACCAAC -ACGCAGACGGCCTTGCTCGTCTTTACAGGCGTTCGGTTTACGTTCCGCTTTCTGGAAGTCTTTCACGGTGATCATGCCGA -TCAGGTGGAATTCGTCATCAACCACCAGCGCTTTTTCAACGCGTTTTTCGTGCATTTTTGCCAGCACCACTTCACGGGCT -TCACCTTCACGCACGGTGACCAGACGCTCTTTCGGCGTCATGTAAACGCTAACCGGCTGGTTCAGGTCGGTAACAAAACG -CACGTCACGACCGGTGATAATACCCACCAGTTCGTTTTCTTCGGTAACGACCGGATAGCCCGCAAAACCGTTACGCTCGG -TCAGTTCTTTCACTTCGCGCAGCGTCGTGGTTGGCAGAACAGTCTGCGGATCAGTCACCACACCAGATTCGTGTTTTTTC -ACACGGCGAACTTCTTCTGCCTGGCGTTCAATGGACATGTTTTTGTGGATAAAGCCGATACCGCCTTCCTGAGCCAGAGC -AATAGCCAGGCGCGCTTCCGTTACGGTATCCATTGCTGCGGAAAGCATAGGGATATTCAGACGAATAGTTTTCGTCAGCT -GGGTGCTGAGGTCAGCAGTATTCGGCAGAACGGTAGAGTGAGCAGGAACGAGGAGAACGTCGTCAAACGTCAGAGCTTCT -TTAGCGATACGTAGCATGGGCAATATCTCGACCAGAGTGGTTAATAAATATTGCCGCGGCATTATACAGAGCGTAACCGA -TTGCATCTACCCCTTTTTGCAAAAAATGCTTGCTATCCCCGAAGGGCGGGTTACTATCGACTGAATAACCTGCTGATTTA -GAATTTGATCTCGCTCACATGTTACCTTCTCAATCCCCTGCAATTTTTACCGTTAGTCGCCTGAATCAAACGGTTCGTCT -GCTGCTTGAGCATGAGATGGGACAGGTTTGGATCAGCGGCGAAATTTCTAATTTCACGCAACCAGCTTCCGGTCACTGGT -ACTTTACACTCAAAGACGACACCGCCCAGGTACGCTGCGCGATGTTCCGCAACAGCAACCGCCGGGTGACCTTCCGCCCA -CAGCATGGGCAACAAGTTTTAGTTCGCGCCAATATTACGCTCTACGAGCCGCGCGGCGACTACCAGATAATCGTTGAGAG -TATGCAGCCGGCCGGTGAAGGGCTGCTGCAACAGAAGTACGAACAGCTCAAAGCGAAGTTGCAGGCTGAAGGTTTGTTCG -ATCAGCAATACAAAAAACCACTTCCCTCCCCTGCGCATTGCGTTGGTGTGATCACCTCAAAAACCGGTGCTGCGCTACAT -GATATTTTGCATGTGTTAAAACGTCGCGATCCTTCTCTGCCGGTGATCATCTACCCTGCCGCCGTTCAGGGCGATGACGC -GCCGGGGCAAATTGTTCGCGCCATTGAACTGGCGAATCAGCGCAATGAGTGCGACGTATTGATCGTCGGGCGCGGCGGCG -GTTCGCTGGAAGATTTATGGAGTTTTAACGACGAACGCGTAGCGCGGGCGATTTTTACCAGCCGCATTCCGGTTGTCAGC -GCCGTCGGGCATGAGACGGATGTGACCATTGCCGATTTTGTTGCCGATCTGCGTGCGCCAACGCCGTCTGCCGCCGCTGA -AGTAGTGAGCCGTAATCAGCAAGAGTTACTGCGCCAGGTGCAATCGACCCGTCAACGGCTGGAGATGGCGATGGATTATT -ATCTCGCCAACCGCACACGTCGCTTTACGCAAATTCATCACCGATTACAGCAACAGCATCCGCAGCTCCGGCTGGCACGC -CAGCAAACCATGCTTGAGCGCCTGCAAAAGCGAATGAGCTTTGCGCTGGAAAATCAACTTAAGCGTACCGGGCAACAGCA -GCAGCGGTTAACACAGCGGCTGAATCAGCAAAATCCACAGCCGAAGATTCATCGCGCGCAAACGCGCATTCAGCAACTGG -AATATCGTTTAGCAGAAACCCTGCGCGCACAGCTTAGCGCCACGCGTGAACGTTTCGGTAATGCAGTAACGCACCTCGAA -GCCGTAAGCCCACTGTCAACGCTGGCGCGTGGATACAGCGTTACTACTGCTACTGACGGCAATGTACTGAAAAAAGTGAA -GCAAGTTAAAGCGGGTGAAATGCTAACCACACGTCTGGAAGACGGCTGGATAGAAAGTGAAGTAAAAAACATCCAGCCAG -TAAAAAAATCGCGTAAAAAGGTGCATTAAGCCAGCACGAATTCAACGCGTTTTTTCGATATCAAGCCATGCCCGTGCTGA -CAGAAGTAATCTACTGCACCACAGGCTTTTAACACCTGCAACGGTTGATGGCAGTCTGGACAAAGAGCTTTCATTTCAAT -AAATTCCCCGCAGGATCGGCAACGCGCATGGCCGTTATCCTGATCAAGCACATGCTGACATTGTGGACAATGCAGTTCCA -TATGAATTCCTCCGGTAGCCATTCCCTCTACATTCATAGAGGGAATGGCAGATAAAATACTTACGGATAATTATTTATTT -TTCTTGATGTGCTTCATCAGACGCTTACGTTTACGCATCTGGGTTGGCGTCAGGGTGTTACGCTTATTCGCATACGGGTT -TTCCCCTTCTTTGAACTGAATACGAATCGGCGATCCCATTACGTCCAGCGATTTGCGGAAGTAGTTCATCAAGTAGCGCT -TGTAGGAATCAGGCAGGTCTTTCACCTGATTACCGTGAATCACCACAATCGGCGGGTTATAACCACCGGCGTGGGCATAT -TTCAGCTTCACACGACGACCGCGTACCAGCGGCGGTTGGTGATCTTCAACAGCCATCGTCATGATGCGCGTCAGCATAGA -GGTCCCCACACGACGGGTGGAGCTGTCATACGCTTCACGTACTGATTCAAACAAGTTACCAACACCACTGCCGTGCAAGG -CAGAGATAAAGTGCACACGAGCAAAATCGATAAAGCCCAGACGGAAGTCCAGCGTTTCTTTCACCTGCTCTTTCACTTCC -TGACTCAGGCCATCCCACTTATTCACCACAATGACAAGTGAGCGCCCACTATTGAGAATAAAGCCCAGCAGCGAGAGATC -CTGATCGGAAATACCTTCGCGCGCATCAATCACTAACATCACCACGTTGGCGTCTTCAATGGCCTGCAACGTTTTGATTA -CGGAGAATTTCTCTACAGCATCGGTGATTTTGCCGCGTTTACGTACGCCAGCGGTGTCAATGAGCACATACTCACGTCCA -TCGCGTTCCATTGGGATGTAGATGCTGTCACGCGTCGTGCCAGGCATGTCGTAAACAACAACGCGCTCTTCACCAAGAAT -ACGGTTAGTGAGTGTAGACTTACCTACGTTCGGACGACCCACAATCGCCAGTTTGATCGGCAGACTTTGCGGGTCGAAGT -CGTCTTCCTCTTCTTCTTCGCCGTTCTCTTCCGCTTCAAATTGCGCCCAGTATTCAGCGTCTTCGTCGACTTCCTCTTGC -GGTGCGAGATCTTCCATCCACGGCAGCAGCACATGCTCCAGCAGACTTAATACGCCACGACCGTGAGACGCGGCGATCGG -GTAGATTTCACCTAAACCAAGCGAGTAGAAATCAACCACTGCCTGATCGGGATCCAGACCGTCAGTTTTGTTTGCCACCA -GGAAGGTCGGTTTTTCACGGGAGCGCAGATGTTTGGCAATCGCTTCATCTGCCGGCATCAGGCCCGCGCGCGCATCCACC -ATAAACAGTACGACGTCCGCTTCTTCAATCGCCAGCAGCGACTGTTCCGCCATGCGGGTTTCTACACCGTCTTCTGTGCC -ATCAATCCCGCCGGTATCAATACAGATAAACTCACGGCCTTCAATTTCCGCACGACCGTACTTACGGTCACGAGTCAGAC -CCGGGAAATCCGCAACCAGCGCATCTCGGGTGCGAGTTAGACGGTTAAATAACGTGGATTTTCCTACGTTAGGGCGCCCG -ACAAGCGCGACCACAGGTACCATGTTTAAAGCCTCATTTTTATAAATCATCAGACAACGCACGCTATATTCGCGTCGTTG -TTAAAAACAGGAAAACGGCCCCTGTCCAGGAGCCGTTTTCAAAGTGAACGACAGAGACGATTAACGTGTAATAGAGTACA -CGGTTCCGTCTTTTGCCTGGATCAGCAGTTTGCCGTCAGCGGCAACCGGTTCAGTCTGGAAACCGGAACTATCAACTTTT -TGCTGGGCAACGAAACGACCATCTTCGACGTTAATCCAGTGCAGATAACCTTCACTGTCACCGACCACCAGGTTGCCATT -ATACAGCACCGGAGAAGTCAGCAGGCGATGCAGCAGATCGCTTTGTGTCCACAGCGTAACGCCGCCATCAATGGTCAACG -CCATCACCCGGTCATTTTGATCGACCAGATAGATGCGATTGCCGTCGACGATGAAATCATTCACCGAACCCAGTTCGCGT -TTCCACATAATCTGACCACTGCGCAGATCAAGCGCCGTCAGGTTACCATTATAGGCCAGCGCGAAAACAACGCCGTTAAC -AACGACGGGAGTCGTGTCAACATCGCTCAGACGGTCAATTTCGGTAGAACCGGTCGCCTGGGAAATACGCTGCTGCCAAA -TCATCTGGCCCTGTTCCATCAGCACTGCGCTGACGCGACCATTATCGCCCCCCACGACGGCCGCACCAAAAGCCGTTGTC -GGCGCAGACTCGCCACGCAAAGAGAGCGAAGGCATATCGAGGTTAACTGTCCATTTGACAGCGCCGTCAGCTTCGTTCAG -CGCTTGTAACTGACCGTTACTGGTGTGGATTAACACCAGACCGTCGCTGACCACCGGGCGCGAAAGTGCTTCACCCGCGA -CTTTAGTTTGCCATGCCACAGTACCATCGCTGGTATTCAGCGCGTAAACCTGCGCCTTTTCGCTGCCAATGTAGACATGC -CCACCAGACACGGTCACACCGCCAGAAAGTAATGCAGGCTCTTTAGAGAACCAGCCATCTTTCTCGGCCAGGCTGACAGA -CCAGATTTCTTTGCCATCATCCGCATTCAGCGCTTTTACTAAACCAGCGCGGTCCGCTGCATAGACAACGTTGTCCGCCA -GTGCCGGATGAAGATTGGAATAGAAGTTGCCAATGCCGCTACCAACGGAAGTGCTCCACGCCGTGGTCGGCGTAAACTGG -TTTTCAACGGTTGGCAATGGGGACATCTTTACCACATCTTCTTCGCTGTTAAACAGCGAACAGCCGCTTAAAAGGGTAAC -GGAAAGCAGTCCTGGCAGCAGTAATTTACGCAATTGCATCGGGTCCCTCTCAGATGGACAAATTATTAATTTTCATCTGC -ATCATTTCGCTCAGTGCCGGAGTAACATCGCTTTTCACGCCTGCTTCCCATGCACTACGCGCACCTTGCTTATCACCTTT -GCTCAGCAATGCTTCACCACGCAGGTCGGCAACAATGGCAGCCCACCCTTCACCTTTGATGGTATCAAGGGTTTTCAGCG -CGGCATCAGCCTGCTTGAGCTGTACCTGAACGCGAGCAAGACGCAGATTTATCACGGCTTTGAGATTTTCATCGCTCGTG -TCTGCCAGCCCCTGTTGTAACTGGGCGGCAGCTTTCTCTAGTTCATTTTTGTCAACAAATTGCTGCGCAAGTTCCAAAGA -AGCCAGCGCACCATAAGTATTTTTATTTTCAGCAGCAAATTTTTCCGCCGCCGGGATGCTATCCGGTTTGCCTTCGCTCA -CTGCGGTAACCGCATTTTGATAGGCAAGAGAAGCGGAGCGTGCAGAATCAACCTGATGGCTGTTCCAGTAGCGCCAGCCA -ATCAGTGCGCCAACGCCCAAAATCACCCCAACAGCCAGTGCTTTGCCATTTTCAGCAAAAAAGCGTTTAACCGCTTCTAC -CTGGTCGTTTTCGTTCTCGTAAATTTCCACGCTGTCCTTCTCCTTCCTTAACCCAGTAACGTGCGCAAATGCGCGGCTAC -GCTATCCTGCGCAACTGCCGTTTGCTCACCAGAGCGCAAATCCTTCACTACTGCTGTGCCGTTAGCCACTTCAGACTCAC -CCAGCACCACAGCAACGCGGGCACCCCATTTATCAGCACGGGCAAACTGTTTCTTAAAGTTGCCGCCGCCGTGGTTGGTC -ATCAATTTCACGCCCGGTAATTCATCACGCAGACGCTCAGCTAATGCCATAGCCGCAGATTGTGTATCAGCACCTGAAGC -CACCAGGTATATATCGACAACAGGATCGGCTTTAAATTCCGGATTAACGGCCTGTACTAACAATACAAGACGTTCGAGGC -CCATAGCAAAACCGACAGCCGGTGTTGCACGACCGCCCAGTTGTTCCACAAGACCGTCATAACGACCGCCTGCACACACG -GTGCCCTGGGAGCCGAGACTGTTAGTCACCCACTCGAAAACGGTACGGTTGTAGTAATCCAGACCACGCACCAGACGCTG -GTTTACGGTGTAAGCGATCCCCGCGCTCTCCAGCAGTTTGCACAGACCGGCAAAATGCTCACGAGATTCCTCGTCCAGAT -AGTCACCTAATGCCGGAGCGTCGTTGAGAAGCGCCTGCACTTCCGGATTTTTTGAATCCAGCACGCGCAGCGGGTTAGTG -TACATGCGGCGTTTGCAGTCTTCGTCCAGCTTTTCTTTATGCTGCTCAAGGAATGCCACCAGCGCATCGCGGTAATTGGC -GCGTGCTTCCAGCGAACCGATAGAGTTCAGCTCAAGAGTTACGTGCTCGGAAATACCCAGCGCGCGCCACCAGCGGGCAG -TGAGCATAATCAGTTCAGCGTCGATATCCGGACCTTGCAGACCGAAAACTTCGCAGCCCAACTGATGGAACTGACGATAA -CGCCCTTTCTGCGGACGCTCGTGACGGAACATCGGCCCGATATACCACAGACGCTGTTCCTGATTGTACAGAAGACCATG -CTCGATGCCGGCGCGTACACAGCCCGCCGTCCCTTCAGGGCGCAGAGTCAGGCTGTCGCCATTGCGATCCTCAAAGGTGT -ACATCTCTTTTTCAACCACGTCGGTGACTTCACCAATCGCACGTTTGAATAGCGGGGTCTGCTCTACAATCGGCAAGCGG -ATTTCACTGTAACCGTAGCTGCCGAGCACGTTTTTCAGTGTGCCTTCAATGCGCTGCCAGATGGCCGTTTCGCCAGGCAG -GTAATCGTTCATGCCGCGAATGGCTTGAATGTTTTTTGCCACGTTTATTCTCTTTCTGAATATAAAAATGAACCCTCAAC -GCTTCCCTCAATGTTTCGGGAGCCATGCGGGTTCAATCATACACGGGAAGCGAGGCGCTTCCCATCACGTTATTATTTTT -CAACCTGCTGAACGTCAATTCGACGCGCTTCGTCCAGCTGACTGGCTTTCGCACGAATGCGTGCTTCCAGCTGGTCGATC -ATATCGTTGTTGTCCAGACGGTCTTTGCGCACGCCATCTTCATAGAGGCCGCTTTTCTTGTTGCCGCCGGTGACGCCGAG -TGTAGAAACCAGCGCCTCACCTGGGCCATTCACCACGCAGCCGATAATCGAAACGTCCATCGGAGTGATGATATCTTCCA -GGCGTTGCTCCAGCGCGTTAACCGTACCGATAACATCAAATTCCTGACGCGAACAGGTCGGGCAGGCGATGAAGTTGATC -CCTCGCGAACGGATACGCAGCGATTTCAAAATATCGAAACCGACTTTGATCTCTTCGACCGGATCGGCCGCCAGCGATAC -GCGCAGCGTGTCGCCGATGCCTTCAGACAGCAGCAGACCTAAACCAATGGCGGATTTTACTGCCCCGCTGCGCGCACCAC -CGGCTTCGGTGATCCCCAGATGCAACGGCTGATCGATCTGTTTTGCCAGCAAACGATAAGACTCAACAGCGAGGAAGACG -TCAGACGCTTTCACGCTGACTTTGAACTGATCGAAGTTCAGGCGATCGAGATGATCAACATGACGCATGGCAGATTCCAG -CAACGCCTGCGGCGTCGGTTCGCCATACTTTTCTTGCAGATCTTTTTCCAGCGATCCGGCGTTAACGCCAATACGGATCG -GAATGTTTTTATCGCGCGCACAGTCAACCACCATGCGAATACGCTCTTCATTACCGATATTGCCAGGGTTAATACGCAGA -CAATCGACGCCGTATTCCGCTACTTTCAGCGCAATGCGATAGTCGAAGTGGATGTCAGCCACCAGCGGCACGTTAACCTG -CTGTTTGATGAGTTTGAACGCTTCTGCCGCGTCCATCGTCGGTACGGATACACGGACGATATCAGCGCCAACGCGTTCCA -GCGCCTTGATTTGATTGACCGTTGCTTCGACGTCTGTCGTACGCGTATTGGTCATGGACTGTACGGCGATGGGAGCACCA -TCGCCAATCGGCACATTCCCAACGTAAATACGTGTTGATTTTCTACGTTGAATTGGAGCCTGGTTATGCATGAAAAATCT -CCCGCGTTACCCGTCTGTTACTGCGCCGGTGATTGTTCGGCATTGAGGGTCAGACGCGCAACCTGGTTAGTTCTGATAAA -ACGACTCAGATCGACAGGTTTCCCTTGATACTGGATCTGTACTGCGGCTGGCGCACCAATTTTCAGTTTGTACGGTGCCT -GGCCGGTTAAGTTCAAATTACCGTCTTTACGCTGCATACCGCTAAACAATTTTTTACCGGTAGCATCAGTGACCTCCAGC -CAGCAATCGGCAGTAAAGTTCATCACCAGCGCATTCGGATCAGCCACCGGCGTGGTCACGCCAGCCTGATCGGTTGGCAA -CGGCGCAGCACCATCTGGCGTTGTTGCTGCCGTTGGTGCCGGGGTCGCGGCGGTATCAACATTTGCCTGCGAAGGCGAAA -CAACCGCATTCTGTTGCGGATCAACAGCTGGTGCTGGCGCAGTTACGGCAGGTGTTTGCGTGTTGGTTGCGGTAGTATCC -ACAGACGCTGGCGGCGTGGACGTTGTAGCCGGGTCTGTAGTTGTCGACGTATTTAATGGAACACTCTGCCCCTGCTCGCT -ATTACTGCTCAGTTCCGCCGAAGATTGATCGGCCATAGTGGTGATCTCTTCCTGCTGAGCTTTGCGGTCTTGCCACCACC -AGGCACCGCTCAGGCCGATAACCACAAACAACACCAGCCAAGTGAAGGTCATCAGCCAGCCGTCGCGTTTTTTGCGGCGT -TTACCGAGGGAAAAACTCTGCATCGGCGCAACTTTTGCAGCCCGAAGTGGAGCCTGCTTTTCCAGCCCTGGCAGCAGTTC -TTCTTCTGGAATATGTACCAGACGCGCATAAGAGCGGATATATCCGCGCAGGAATGTTGAAGCAAGATCGGCGGGTGCCT -TATCTTCTTCAATGTCGCGTACCGTGGAAACCTTCAGGCAAAGTCGCTCGGCAACGGCCTGCTGACTAAGTCCTAGTTGT -TCGCGAGCATTACGCAGGCGAGCGCCGGTAGTAAGTGCTTCATTTTGGTCGTGCGTGGCTTCAGTATTCATTCGCTGCAG -GTACGTTTAAATGAGAATTGAGATGCCGGTGAACCATCATGCTCACCCACACCGCGAAACATCCGTTAAGTTAACCGTTA -TCATACAGTATAAGACCGTCTGTGTGCTCGTGACAAAGCCCACATTCACTAAGGCTAACTTACTGTTGCATCGTTACATA -CTGCCTTAAAGTCAGCAAAAACGCACCGTTAATATTGACCAGACAATTGCAACTTAATACTTCATTCATAAAACATTACG -CCACGGTACATAAAGTAACCGTGGCGTAATGGCTATCAGACCGCTTTAATGTCGATGGCTTCACCCTGCATCCGTTTACG -CAGGGTACGTTTCGTACGGTCGATAACATCGCCCGCCAACTGACCACAGGCAGCATCGATATCATCACCACGAGTTTTAC -GCACAATAGTGGTGAAACCGTAGCTCATCAGCACTTTTGAGAAACGGTCGATACGGCTGTTCGAGCTGCGTCCATACGGC -GCACCCGGGAACGGGTTCCACGGGATCAGGTTGATCTTACACGGCGTATCTTTCAGCAGTTCCGCCAGTTGGTGCGCGTG -TTCAGTGCCGTCGTTAACGTGGTCAAGCATCACGTATTCAATAGTGACTCGGCCCTGATTGGCGTTGGATTTCTCCAGAT -AACGGCGCACCGCAGCAAGGAACGTTTCGATATTGTACTTTTTGTTGATCGGCACAATTTCGTCACGAATTTCGTCGTTC -GGCGCGTGCAGGGAAATTGCCAGTGCAACGTCGATCATATCGCCCAGTTTATCCAGCGCCGGAACTACACCGGAAGTGGA -AAGCGTGACGCGACGTTTAGACAGGCCAAAACCGAAATCATCAAGCATGATTTCCATCGCCGGAACGACGTTGTTCAGGT -TGAGCAGCGGCTCGCCCATGCCCATCATCACTACGTTAGTGATCGGACGCTGACCGGTGACTTTTGCTGCGCCGACGATT -TTCGCCGCACGCCACACCTGGCCGATAATTTCCGACACCCGCAGGTTGCGGTTAAAGCCCTGCTGGGCGGTGGAACAGAA -TTTACACTCCAGCGCACACCCCACCTGCGAAGAGACGCAGAGCGTGGCACGGTCGTCTTCCGGGATATACACCGTTTCGA -CGCGCTGATCGCCAACGGCGATCGCCCATTTAATGGTGCCGTCAGATGAACGCTGTTCTTCAACCACTTCCGGTGCGCGG -ATTTCCGCCACCTCTTTCAGTTTGCCGCGCAACACTTTGTTGATGTCGGTCATCTCATCAAAGTTGTCGCAGCAATAGTG -ATACATCCACTTCATCACCTGATCGGCGCGGAAGGGTTTTTCACCTAAATCTTTAAAAAACTCCCGCATCTGCTGACGGT -TGAGATCCAGCAGGTTGATTTTTCCATCTTTCGTGGTGACGTTTTCAGGTGTGACTAATTGTTCAGACATATGCTATTCC -GGCCTCGTTATTACACGTTATGGCCCCTGGAGGGTTGAAAAAAGAAACGCCCCGGTGAGCGGCTGCTCGTCCGGGGGCGC -TGCATTGTACAAATTCTGGCGCACGGATGCCACGTTTGCACGCGGCATTTACGAAATTATTAACGGGTGCGCGGGCACAC -TTCGCCTTCGCCAAAGAAATAAGCGATTTCGCGAGCGGCAGATTCGACGGAATCAGAACCGTGGGTACCGTTTTCGGTCA -GGCTGTCAGCGTAATCAGCGCGCAGAGTACCAGCCAGTGCGTTTGCCGGATTGGTCGCGCCCAGCAGATCGCGGTGACGC -TGAACGGCGTTTTCACCTTCCAGCACGGAAACCACGATCGGGCCAGAGGTCATGAATTCAACCAGACCATCAAAGAACGG -TTTTCCATCGTGTTCAGCATAAAAGCCACGTGCCTGTTCAACGGTCAGGTGCAGCATTTTGGTGCCAACAATTTTGAACC -CTGCAGCTTCAAAGCGCGCAAAGATATTACCAATGACGTTTTTTGCTACCGCGTTCGGTTTGATGATGGAAAAAGTACGT -TCAATAGCCATTTTTACCTCTGTAAATTGTTCTGTTGTTGTCTGTACCAGCGTACGAGATGGCGCGGATTATAATGAGCA -ACAGGGCCGTTGACTATTGATGAAGGTAACATTTTTTTAAAATAAAATGAGTTTTAGCAACAATCAGGGACAAAACAGAC -TATTGCATGACAAATTTCACTGTCGCGATTTGCCCCACGTCATCCATCACCAGCAATTGATAATCACCTTTATCCGTCAA -ATGCAGGGTCACGTTGCGCCCGCGTTCAGTTAACGGTTCGCCATTCAGAAACCACCAGCGTTCACCTGCCCCTCCACTTG -ATTGCAACGGCAAAGTCGCTTCCGCTGCGCCCGGTAAACGTTTAATAATCGCGCCATCGCGAACGCCTGTCAGCTGCAGC -GGGAGCTGGGCATCGTGACCGTATGGCGGGCAACTTGTCGAGGCCGGTGGTAAGCGCACAGCGCGACGTTCTGATGCGGG -CAGCCAGGGTTCCAGCGGTAGCGGCCAGACATTTATCATTTCTTGTCGCGCTTGCGGGCAATCAGCGGCAACACGTTTGC -CATTTTCATCCAGCCAGATGGGGAAACGAATGCCATTAATGCCTTCCTGCTCCGGCAGTAATAGAGTTGGCGGCTGACTC -CCGTCCAGCAGCCAGGTTGCCAGGCGGCGGCGACAGTTACCGTCACCTTCCGGCAAAGACTGTCCGCCCGGCCAGCAGAT -AACGCCACGAGTGACTGAGTTCGGGCGCGGGTCTTCCGGCAGATTCGCACTGCGCGACAGTAAGATATTATTGACCTGAT -TCAACAATGGTACGGCACTGGCAAAGCCAAACTGACCAACAACGGGCGTGCCGTCCGGTCTGCCAGTCCAGATCCCAATG -ACATAGCGAGCGTTAACCCCAATCGCCCAGGCGTCACGATAGCCATAGCTGGTGCCCGTTTTCCATGCCAGTGGGGCGAC -GCGCGGCAAGGCACTATCCGGCAAGGGTTGCGCTTCATCAGCCATAATCCGGCGAATGATCCACGCCGCCCCCGACGACA -TTAAAGGCCGTTCAAGCAGCGGATCGTCAGGCTGTAAGCGCAATTTGCCTGCCTTGCCGTGGCGAGCAAACGCGGTATAC -GCTGCCGCCATATCTTCCAGTTTTGCACCAGCGCCGCCGAGAATGAGTGAAAGATTCGGCGCAGCACCGTTGGGCAAATA -TAACGGCAATCCAACATTGCGTAACTTTGCCGCAAACCGTTTCGGTCCATAGGCTTCCAGCACCTGCACAGCAGGTAAGT -TCAGCGAGCGCACCAGCGCCTCGCTCATGCTGATCGGGCCATGAAAACCGCTATCAAAGTTACCTGGTCGATAATCACCG -GTGCGCCGGGGGACGTCTTGCAGCAGTGATGCCGGGTGGATCAAGCCTTCATCCAGCGCCAGACCATAAACAAACGGTTT -GAGCACTGATCCTGGCGATCGGATCGAATTGACCATATCAACATGACCAAAGCGTGAATCATCGTTGAGATCAACCGATC -CCACCCAGCCGCGAACACGCATATCGGTATGATCAACCACGATCATCGCCAGTGAGCTGCGCGGTGGCAACCGCCCTTTC -CAGTTTTGCGCCAGTTCTTCCAGACGTCGTTGAAGACCGGCATCCAACGTAGTAGTGATTTTGTCGCTTTTGCTTTTACC -GAGCATCATGCGCGAAAACAGCGGTGCCAGTTGCGGCATTTGTCGGGGGGCCAGCCAGATGGGTTCTTCCCTTGACTCTT -TTACCTGCTCACGGGACCACACACCTTGCACGGCCATCCGTTCGAGCACTTTATTACGCGCGGCTTCGGCACGCTCCGGC -CAACGATCCGGGCGAAGACGGCTGGGCGCTTGCGGCAAAACCGCCAGCATTGCCGCCTCGGAATAGCTTAAATTCGCAGG -CGATTTTCCGAGATAAGCCCAACTTGCCGCACCGATCCCCTGCAACGTACCGCCAAACGGAGCGCGGTTAAGATACAAGG -TCAGAATTTCACGCTTAGACAGATGCCATTCCAGTTGCAACGCGCGCCAGAGCTGGCGAATTTTGCCGCCAAATGTTTTG -GGGTGAGGATCAAGCAGACGAGCAACCTGCATAGTGAGCGTGCTGCCACCGGAAATAACCCGTCCCGAAGTGAGATCTTG -CCATGCTGCGCGCGCCACCGAGAATGGATTCACCCCCGGATGCTTCCAGAACCAGCGATCTTCATAATTGATCAGCGCTT -CAAGGTAACGTGGAGAAACATCTTCGATTGTTACCGGATAACGCCAGATGCCGTCAGCATCGGCGAAGCGCCAGAGCGGC -GTACCATCCTGCGCCACGACCACTCGTGCGGGATTGACTTCATGCAGCGGTAGAGGCCAGAGTTTATCTGCTCCCCACGC -TGCAAGAAAAAGGAGAAAGGGCGCGGCTGCCAACGTTATCCAGCAGCCGCGTTTGGTTAACAAGCGAGGCATTTACGGTC -TGACAATCAGCAGATCTTCAGCCGCGCCGGTCGCCCGCCATTGGGGAACATACATTGATTCCACCATCGGTTGCGGTACC -TGATACGTTCCCGGCGTCACCGCCCGCGCCAGATACACCAGCGTTACCGGTTGGTATTCATCAACGGCAACCGCCGCCAC -AAAGCGATCGTCACGGAACTCAATGTGCTTAATGCTCGCCTGCTGCATCTGGTTCAGTAAGTTCTGCACTTCGCCACCAC -TTTGCTCCAGGCTGGCGCTACCGTTCGCCAGATTCTGGTTTTCCAGTTCCAGACCCGCAGGCAGCAGATCCACGACTAAC -GCATCCGGCACGCTGTTACTGGCTTTTACCTGCAACCACACCAGCACCAGATCGCCGCTACGTAACGAGTCCAGCGATTT -GCTCTTACCATCAGTACCAAGAATATGACGCTCGATTTGCAGCACATTGTTCGCCGGTAAAGGTGCGGATTGCGGATAAC -CGCTGGCATCCATACGCAACCATAACGGCTGATCGCCACTGTTGCTCACCTGCAAGGTGACAAGTTGATCGCTATTCAGA -TTGCTGTTTTGCGCTTTCTCGCCTGTCAGCTGCTCAGCTGAGAAAGAGGTTTGCGCCTGCCATTTACCGGGTAAATCCTG -AATCGTACGGGCAGCCAGGAACAACGCGTTACTTTCCTGCGTCGATAGCCAGCGTTCACCAAACGCCTGCTGCGAAAGTG -TGTTCAGCAAAGTGTACTGCTCATCGGGTAGCAGTTTATTTTCTTCCAGCAAGGAGAGCATTAACGCGTTGTCGCGCAGT -GAACTACCGTAATCACCCAGCCATATCCGCTCATCACTATTACGCGGCGTTTTCAGCGCCAGCGCAATCGCTTCTTCACC -ACGCGTCGCATCACCCATGGTTTTCAGCGCAACGCCAAGTTGCAGCAGCGGTAAACCAGAAGCGGCATCTGCACGATGCT -CCCAGATTTCACGCAGCGCACCCAGCGGAGCCTTTTGCTGACGGGCCAACACCAGCGCAGCGTAAGACTGTACGGCGAAT -TTACTGGCTTTGAGATTATCCGCGTACGGGATCGACATCATGCCCGGATCTTGTAAATAGCGCAGCAGACGCTCATTACC -CCGGTTAATGGCGTCTGTCGGCACGCTGTAACCCTGTTCGCCTGCGCGGACCAGGAAATCCATCACGTAAGCCGTCAGCC -AGTACTCTTCGTCACCGTTTTTATCCCACAGCGCAAAGCCGCCGTTATCACGTTGCATTTGCAGCAAACGGGAAATGCCG -ATATCGACCGATGCACGGCGTTTCTCATCACTGTCGCCTTTGATGCCCAACGCCTGCAGTTGGGCTGCGTTGGTATAAAG -TGACGGAAACAGGCCGCTGGCGGTTTGCTCAAGACAGCCGTACGGATACGCTTTTAACTCTTTGATATAACGTGCGATGT -TCAGCGGTGGTTTGCCGCTCAACAACAATTGCCCTTCCAGCGTAACAGGCGAGAAGTTTTGCAATCCATCCGCCGGAATC -GCCCATGTCTCACCAGGCTGTAACGCCGTACCGTAATTAACCGTTTGTGCCGGGAACGCCGGACGGACGCCGATTTTCCA -CTGCTTATGCTGATCGGCAACGGTTTCACCCGGTAACGCTAACCCGCTAATGGTGGCCTGAATTTCTCCATCGCCATAAC -CCGGCAATGCTCGCACCGGGATAAACAGCGTAGTACGCACACCTGGCGCTAATTCAACGGCTGCGGGTGAATCGCTGACC -AGTTCAAGCAAACCACTGGCGGTCAGGGCAACGTTCAGTTTTTGCGGTTTATCGGTAAGATTAGTGATATCCAGCGTCAG -ACGCGAGGTATCGCCACTCGCCATAAAGCGCGGCATGTTCAGTTCAGCAATCACCGGTGCGGCAACTATCACTTTACTTT -CGTTGCTACCGAAGTCATCTGCCGTCCAGGCTTGCGCCATGACGCGCAATTCACCGTTAAAATCGCCAATCGGCAGTGTA -ACCGAGCCTTCGCCCTGTTCGTTGAGCGTTACCGGCAGCGCCTGCTGCACGACAATATTGACGTGATTGACCGGCGGTTT -ACCACCACGTTTCAGCTCATCACCATCGCCACCGAAACGCAGAGCTGCCAGACGCCCCTGACCTTCAATAACCTGACCGT -AAATATCGTAAATGTCTGCGCCATAGCGTTTCTGACCAAAGAACGCCTGCCACGGATCTGGCGTGACGTAGTCAGTAATA -TTCAGCACACCACTATCAACGGCAGACACCAGCACATTCACCTGTTTAGGCTTCTCGCCATTTTTAGTGCTGGCTTTAAT -TTTCACGGTTAATGGTTGATTGGGACGCATTTTTGCTGGTGTTTCCAGCGCCAGATCGAGGCGACGGTTTTCATCGCCAA -GCGGCAGATGCAACACACCAACCGCGCGTTTTGGCGTCGCGGAGCGAGATTTATCGCCAGGACGTACCACCAGCGTACTT -AAATACAGATCATGACGATTCCAGGTTTTATCGACCGGAATCGTCAGATCCAGCCCTTGAGCCCGAACATCAATCTCTTG -CCACCACAGCGGCCCTTCACTGGACTCGACCATCGCATAACCTTTACCCGCCGTTGGCGCGGCGATATGCAACTTAATGG -TGTCGCCAGGGCGATAACTGGCTTTATCCAGTTTCAGCGTGACACGGTCGGGTCGCACTGCGCCGCTACCGTCGCTGTTG -TCCTGCCAGCTATAGCCAGCCCAGAAACGAACACTACTGACCGCTTCATTCGGCGCTTTGACTTCCAGACGATAAGCGCC -CCACTCTACCGGAAAACTGACCTTGCCGGTTTCGTCCGCTTTCAGATCCAGAGTTTGTTCATTTTCGATCAGATCTTTTT -GATCAAACTGTGACTGCCAGCCTTCATCTTCTGACCAGTTCCAGTAGTAATCGCGGCGTTCGCGAATCAGGCGCACCTGC -AAGCCCGACACGGCTTTTTTCACGCCTTGCGCATCGCTATAAACGATGTCAAAAGCGGCGTTACTGCCTTCATCAACAAT -GGGCTGTTTCACCGTGCTGTCAGTACGATAATCGTAAACCGATTTCGAGGCGAACTGCGGACGGATCCCCGGCAATGCAT -CGGCAGGCCAGATAGCCTGCTCAGCGCGGCGCGTCACCGGGCGACCGCCCGATTCCAGCAAACTACCCTGGAAAATAACC -TGTAATGGGGAATGCGTTTCCTTCCACTGGCTTTCTGTAGAAACTTCGCCGCGCCCTTTATCATCCAGCGTCAACTGAAC -TTCATCCAGCGTGCGGGAAAGATTTTCGGCAGCTATATCGCCGAATTCAAAACCAGGTAAGGCTGACACAGCTTCACGCA -GTGGGCGCAGGAAAAGTTGCCCTTGCAAAGTATTACCATTAGCAGGTGCACCATACAGGTAGTACCCCACCACGGAGAAT -TTCACTTCATCTTTCGGCGTTAGCGGGGTTTTCTCACCGGTCAGATTCAGCGCCATGCGCTCTGGCATAAAATCTTCGAC -GTGGAAATCCCACATCCGATACTGATTATCGCCCGTGTTAGCGCGAATATGCCACATACCGGTTGCCGCATTGCTATCGA -GTGGCCAGGTAAAGTGGTAGAGGCCATTCTCCGGCTGACTAACGACGCTCCTGAGTACCTGCCCATCGGGTTTAATCACG -TCTAACTTGATGGGTTGATTGGGCAACGCTTTACCGTCTGCATCACGCAGCAAACCATTGAGGATTACCGTTTCACCTGG -GCGATAAAGATCGCGTGGGCCAAACATGAAAAACTGTTTGCTATAGCCTGGCGCGCCAGCAATGTTAAATTCTGCTAAGT -CCAGCGCCGGAAGTTTTAAATCGAGTAGCGTTGTCTGACCGTCTTTACGCGCCAACAGTAATGCCGCGTTTTTATCATTT -TCCAGCTGCACATGCCCCTGAGCGTCACTGGTTGCCTGAGTCAGAGTCTGCCCTTTCTCATTTAATAAAGAGACTTCAAT -TCCTTGCTGGGCCGCGCCGTTTTCCAGACTTTGGGTAAAGATATCCAGACGATTGTGATAACGGTGAGCTGAAACGCCGA -TATCACTTAACGTAAACAGCGTCGCGGGATTACTGTAATCGTAACGTCCAGCCTGATTCATCACAGCCAGATACACGCCC -GCCTGCTGAAGCGGTTTGATATCGCCCAGCGGCAGCAATAATTTTTCACGGGTGTTACGCGCAGGATTGAGATCAAACCG -TCCGGTGTAGACCAGATCCGCCATCTGCAGCAGTTTGTCTGACTGCCAGTTCGCCAGCGAATTGCGGTATTCCCATTGGC -TAATGAATGCTGGCAGAGATTCTGGCTTAACGCGGAAGAAGTTAACATCGACATTATTAACGTTGAGCGCCATTACCGGC -AGCCCTTCAACGACTTTGCCAGGCAGCAGCGAACCACGGCTGGCAAAACCGACGCTGGGTTGGATGTCGCGGGTAGTTAT -AGTTTTTTCGTAATCTTTACTGAAGGTTGCGTTGTTGAGTGCTTTGACCTCCTTGCCAATAGTAACGATCAAATCACGTT -TCGGTTCGAGGTGGCGTAAACGTAACTCTTTAAGATTATCTGACAGCTCCCAGGCACCATCCACTTTGCCGCTTTTTTTA -TCGACGACATGAATAACGCGTGAGAAATCCTGATCCGGGTCGAGAGGGATGGAGAACGTCAGCACCAGCGTGGCTGCACC -ATCAAGTTGGACTTCAGAGAGATCCAGCAATGTCAGCACCTTACCGGCACTCTGTTGGGCCAGTTTTTGTCTCTCCGGCA -CGGAGAGTTTTGCTGAACTCGCGTTTTCTGAAGAGGCCGCTTTAGTAACTTCAGAAGGCGCATCTTTTTTCACCGCTGTT -GGCGCGTTATCGTTGTTGTCGCACCCTGCCAGCGCCAGCATTAGCATGCAGGCGGCTACGCGTAACTTTTTCATTTTTCA -TCCCTGCCACAATGGCCCGTTAGCAACGTCGAATAATTATTATGCGTGAGAATTTACGTTATGTAATTCAGTATCACGCC -CATACAATCCGAATTTTAGTGAGAATTGTGGCTCAGACAGCCAAATCAGCCTCTTTTGCTTGTCGCTTTTCACTAAACAT -CCGACAATTTAGCCTAACCCCGGCAAAAATGGAGATGCCTATGTCCACGACATGGTTTGTAGGAGCCGACTGGCTCGCCG -AACATATTGATGACCCGGAAATTCAGATTATCGATGCCCGCATGGCGTCGCCTGGACAGGAGGATCGTAACGTTGCTCAG -GAGTATCTGAATGGACATATTCCCGGCGCAGTGTTTTTTGATATCGAAGCGCTTTCTGATCACACTTCCCCGCTTCCGCA -CATGCTGCCGCGCCCGGAAACGTTCGCCGTGGCGATGCGTGAATTAGGCGTTAACCAGGATAAGCACCTGATTGTCTATG -ACGAAGGTAATCTTTTCTCAGCCCCACGAGCATGGTGGATGCTGCGCACCTTTGGTGTAGAGAAAGTGTCGATTCTGGGG -GGTGGACTTGCAGGCTGGCAGCGCGATGATCTGCTGTTAGAAGAAGGTGCAGTAGAGCTGCCGGAAGGAGAGTTTAACGC -CGCGTTTAATCCTGAAGCCGTGGTGAAAGTAACCGATGTATTATTGGCAAGCCATGAAAATACGGCGCAAATTATTGATG -CCCGCCCGGCTGCACGTTTTAACGCAGAAGTTGATGAACCTCGCCCAGGTTTACGTCGCGGACATATTCCCGGAGCACTG -AATGTTCCGTGGACGGAACTGGTGCGCGAAGGCGAACTAAAAACGACCGATGAACTGGATGCGATATTTTTTGGTCGCGG -CGTCAGCTACGACAAACCAATTATCGTCAGCTGCGGCTCTGGTGTAACGGCAGCCGTGGTTTTGTTAGCACTCGCGACGC -TGGATGTGCCAAACGTGAAACTGTACGACGGCGCATGGAGTGAATGGGGCGCGCGGGCAGATTTACCGGTTGAGCCAGTG -AAATAAGTATTTTACAGGCAATAAAAAACCGCCGAATTTGGCGGTTTTTTATTGCTAGTCTGGTTCGCGGCCTTTCCAGC -AGGTTGACTTGTGTTACATGAGCAACGCAGGTGCTTCACAGCAAAACAATACTCACCAGTAACTCTCTTTTTGTCAAGCA -AAAGAGAGTAATTATTGTTTATTTAGCGTATTATCGACACCGGCCCTTTCCGCCGTGTTCGGTAATAAAATAACCTGGCT -TATTAGTCCGAATTCAGACAAATATAAATAAATCCTGCTCAAAATTAAAAATTCTAACCGGTAAAAGATATTACTTAAAC -ATGTAAATTCACTTTCCTTTAAAAAACAAAAAACCGCCAAAATCAGGCGGTTTTTTGTTGCTGGTCCGGTTCGCGGCCTT -TCCAGCAGGTTGTATTACCGTAGTAATGCAAGCGCGTCTCAGCGGAGACAATACTCGCCAGTAACTCTCTTTTTGTCAAG -CAAAAGAGAGTTATTATTGTTCTGTTAGTGTATTATCCACTGCGGCCCTTTCCGCCGTCTCGCAAACGGGCGCTGGCTTT -AGGAAAGGATGTTCCGTGGCCGTAAATGCAGGTGTTTCACAGCGCTTGCTATCGCGGCAATATCGCCAGTGGTGCTGTCG -TGATGCGGTCTTCGCATGGACCGCACAATGAAGATACGGTGCTTTTGTATCGTACTTATTGTTTCTGGTGCGCTGTTAAC -CGAGGTAAATAATAACCGGAGTCTCTCCGGCGACAATTTACTGGTGGTTAACAACCTTCAGAGCAGCAAGTAAGCCCGAA -TGCCGCCCTTTGGGCGGCATATTTTAGATTATCCGATTCTGTTTAAAGTCACGCAAAAAACCACCCCAGCGACGTTCATA -GAATGGCGCAATATGTTCGGTAATAAAGTGGCTAATTCCTTTTTCCCCTTTTTTCACCTGACAAATATCGATTGGTTCAT -CGCCAGGTAATGTATCGGTCGCTACACTTCCCGTCGCCTGAATAATTTCTTCGATATCACCATCGGCTTCAATGCCAATA -AGTAAATTAGGCTGTGCCTCTTCGTTCTCTTTAATTGAACAAATAAAAGCACGCTTCACCGGCTTAATGGTTTTAAATAA -GGTGGTGAGTGAATCAATCATTTGTGCTGGCGGCTCTGCGACTTCCGATAATATCAGCGATTCACCGCCTTCCAGGATTT -CCTGGCTGCTCAGCGGATTTCCCTCTTCACCAATCAACAAACTGATTTCACGCGGCATAAATTCTTTACCGGTTGGCAGT -TTGGCATTAAGGAAGAGCGTTTCGCCAAGTGTCATCTCAAACAGCGTGCGAACGGGCATTACGACAAATGCCTGTTCGTC -TTCAACCGCCTGTTGAAGTGCTTCTAACGAGGTGAAAAAAGGAATGACGCTGGTGCCGTCTTCTTTTTCCCAGTGCTGTA -AATCAAGCGCGCTATCTTCAACCACAGCCTCGCCCTGCGCCGCCGTACCAGGCACCCAGACGGTGGATTCCAGTAGAGTA -CGGAAAAAGGCCGGGCGGTGCGCCGGTTCAGTTGCTGCTTTTTCCAGCAGGTCTTCAAGTTCGTTTTTTGTTTCGGACAT -AAGAACCACAATTCATTCAACGTTCGGGGCGCAAATGCCTGATGCGCTACGCTTATCAGGCCTACAAGGGATTCGCAATT -TGTTGAATTTGCAGAATTTGTAGGCCGGATAAGGCGTTTACGCCGCATCCGGCATATTAGTTTACGCCGTTAACAGATTA -GCTATCGTGCGCACACCAAGTCCCGTAGCGCCCGCAGACCACTGTTCAACCGGCGCTTTACGGTAAGTCGCCGAGCAGTC -GATATGCAGCCAGCCTTGCTGATAGTTCTCAACAAAGTGCGACAGGAAGCCCGCCGCCGTGCTCGCGCCTGCCGGATACG -CCGCGCTTCCGGTATTGTTCAGTTCGGCAAAGTTAGACGGCAGCTGGCTGCGGTGGAACTCCGCCAGCGGCAGACGCCAG -AACGGTTCGTTCTCCTGCGCGGCACTCGCCAGCAAGCGACCGGCCAGCGCATCGTCAAAACTGAACAGCGCGTGATAATC -ATTACCCAGCGCAGTTTTCGCCGCCCCGGTGAGGGTCGCCGCATCAATGATCATTTCCGGTTTCTGCGCACTGGCATCAA -TCAGACCATCGGCAAGCACCAGACGCCCTTCGGCATCAGTGTTCATCACTTCAACTTTTTTACCGTTGCGATAGGTGATG -ATATCGCCCAGCTTGAACGCATTGCCGCTAATCAGGTTATCCGCACAGCAGAGGAACAGCTTCACGCGCTTGTTCAGTCC -GCGCGTAATGGCAAATGCCAGCGCCCCGGTAACCGTTGCCGCGCCGCCCATGTCCGACTTCATCGAGTCCATAAACGCAG -TCTGTTTGATGCTGTAGCCGCCGGAGTCAAAAGTGATACCTTTACCTACCAGGCACGCGTACACTGGCGCTTCTTTATCG -CCAGTTGGGTTGTAATCCAGCGCCAGCAATACCGGAGAACGTTCTGAACCGCGTCCGACTGTGTGCAGCCCCATATAACC -TTGCTCACGCAGATCTTCGCCTTTGGTGATCCGATAAGTCACACGATCGCCCGCGACGTTGCTGATCAGATCAACAGCAC -GCTGTGCCAGTTGCGATGGTCCCAATTCTTCTGCCGGTGCGTTGATGGTGTCACGCACCCAGTCGATGATCATCAGGCGG -TTATCCAGTTCCTGGCGCTGGGCATCGTCCAGATCCGGCCACACCACTTTACGCGTGCCTTTCGGGGCTTTGTAACCTTG -CCAGAATGCCCAGCAGCGATCCGCATCCCAGCCTTCACCGCTTAACTGAACATGCTTGATGCCCAGACCGTCAATCTTGC -GCGCCGCACGCTGGATCAGCCCCAGATCGTCTGCCCCGTTCAAATGCAGGGTAATGCCGTCATTATTAATGCTGTAAGTT -GCTTTTTCTCCCCAGCGCGCGTCGGCAGGTTGGGTAGAGAGGGTAATCTTCATCGCTTCTGTCATTTTAGTTATCCTTCT -TTGTAAAAGGGCCGCCAGTTGGCAGCCCCAGGATTTTTCCGCTAAATGATTCGCGTTGCAGGAAGGCGGCAAGTGAGTGA -AGCCCCAGGAGCATAGATAACTATGTGACTGGGGTGAACGAGCGCAGCCAACGCATCTGCGGCGTGAAGCATGACGCGGA -AATTATTCGGCCTCGTCCAGCCAGACTAACAAAATCGCTTCGAGGATTTTCTCGTTGGATGCCTGCGGGTCGTCGTCGAA -ATCTTCCAGATCGCAAATCCACTGATGCATATCGGTGAATCGAACCGTTTTCGGATCAAGATCGGGATACGCATCGTACA -GTGCTTCGCCAATTTCGCGGCTATCGGTCCACTTAAGTCCCATACTAACCTCTGTTAATGCTCACGCGCATGGTTGATAG -TGTAACGCGGGATTTCGACTACTAAATCTTCGTCGGTAACGCGCGCCTGGCAGCTTAAACGGCTTTCCGGCTCCAGTCCC -CAGGCTTTGTCCAGCATGTCGTCTTCCTGCTCTGAGCTTTCCGGCAGTGAGTCAAAACCTTCACGAACGATGCAGTGGCA -GGTGGTGCAAGCACAGGATTTTTCACAGGCGTGTTCAATCTCGATACCGTTACGCAGAGCTGCGTCGAGAATGGTTTCAC -CGCTATTAGCTTCCAGAACAGCGCCATCAGGGCAGAGATCCTGATGAGGCAAAATAACAATCTTTGGCATATTAAACCTC -GTCCACGGAATGGCCTTTCAGCGCACGACGAACCGACTGGTCCATGCGGCGAGCGGCGAAATCCTGGGTTTGTTTGTCTA -CGTTTTTAATCGCTTGTTCGATGGCGTCAACATCATCGCCCTGCGCCACTTCACTCAGGTGAGCGGCAGCATCGTCAATG -ACCTGACGTTCTGCGGCGCTTAACAGCGCGGCATCAGCAGCCAGCGCGCCGTGCAGACTTTCCAGCACACGCGCCGCTTC -TACTTTTTGTTCTGCCAGCATTCGGGCTTTTACGTCCTGCTCGGCATAGCTCATTGAGTCTTTGATCATCGAAGCGATTT -CGCTATCGGTCAGACCGTAAGACGGTTTGACCTGAATAGACGCCTCAACGCCGGTGGATTTCTCCATCGCCGTCACGCTC -AAAAGACCGTCGGCATCGACCTGGAACGTCACGCGAATATGCGCACCGCCAGCCGGTAGCGCCGGAATACCACGCAGCGC -AAAACGCGCCAGTGAGCGGCAGTCCTGCACCAGTTCGCGCTCACCCTGCATTACATGGATAGACATCGCCGTCTGACCAT -CTTTAAAGGTGGTGAAATCCTGAGCGCGGGCCACCGGAATAGTGGTATTACGCGGAATCACTTTCTCCACCAGGCCGCCC -ATCGTTTCGAGGCCCAGCGACAGTGGGATCACATCAAGCAACAGCATTTCGCTGTCTGGCTTGTTACCCACCAGAATATC -CGCCTGAATCGCCGCGCCAATAGCGACGACTTTATCCGGGTCGATGGAAGTCAGCGGTGGACGACCGAAAAATTCGCCTA -CCCGTTCACGCACCAGCGGCACGCGAGTAGAACCGCCCACCATCACCACTTCCAGCACTTCATCAGCTTCTACACCCGCG -TCTTTCAGCGCGCGACGACAAGCCAGTAAGGTTCGTTTTACCAGTGGCGCGATCAGTTCATTGAATTGTTCACGGCTGAT -TTCGCCCTGCCAGCCCGCAACGTTAACGGTCACGGAGTCCGCATCGCTCAGCGCGATTTTGGCTGCAATGGCGGCATCCA -GCAGTTCACGCTGAACGCGGTTATCGCTACGATCAGGAATGCCCGCCTGCTCGCGAATGTAATCCGCCAGCAGATGGTCG -AAATCATCGCCGCCGAGCGCGGAATCACCGCCGGTTGCCAGCACTTCAAACACGCCGCGACTTAAGCGCAGAATGGAAAT -ATCAAACGTCCCGCCACCGAGGTCATAAACGGCGATCACGCCTTCCTGACCGGAATCCAGCCCGTAGGCGATAGCCGCAG -CGGTCGGTTCGTTAAGTAAGCGCAGGACGTGAAGGCCCGCCAGACGCGCCGCGTCTTTGGTGCCCTGACGCTGGGCATCG -TCAAAGTACGCCGGAACGGTGATAACTACACCATCCAGCTCGCCTGCCAGGGCTTCAGTTGCCCGCGCCGCCAGTGCTTT -GAGGATGTCCGCAGAAACGCGCACCGGGTTCAGCAGCCCCGCCGCCGTTTCAATCATCGGCAGGCCGTTTTCGCTGGCCT -GGAATTGATAAGGCAGATGCGGATAGCGTTGCTGGATATCAGCCAGCGAGCGTCCCATCAGGCGTTTAACAGAACTAATT -GTGTTGGCGGTATCGAGCGCTGCATTAGTACGCGCGTCATAACCCACCGAATGCCCTTGCTGTTGATAGTGAACAACAGA -TGGCAGCAGGTGACGGCCTTCATGATCGGCTAACGTTTCGGCCTGACCGCTGCGCACTGTCGCCACCAGCGAGTTGGTTG -TGCCCAGGTCAATACCGGCCGCCAGACGACGCTGATGCGGCGCAGCACTCAAACCAGGTTCACTAATTTGTAATAAGGCC -ATGTTTAGCTTCCAGAAATTAAAAATCGAGCAGTTTTTCTTCGAGTTGTTCGGCACTGCTTCGCAGTTTATCGAGAAAAC -GCAGCTTACGCACGGTATCCGCCGCCGCGTCCCACGTCTCGTTGTCTAACTGTTCAACCATCAACTGATGGCGGGTATCA -AACATCTTTTTCACACGTTTGATAAAGCTTTCCAGCCGCGCTTCATCTTTCGCCTGTTCGATCTCGTCCAGCTCTTCGCG -CAGCTCCAACTGTTCCATCAGGAACGCGGTGTCGCGCACAGTATGCTGCTCGCTGGCGAGATCAAAGCCGTGCAAAGAAA -GCAAATATTCCGCGCGCATTAACGGATGACGCAGCGTTTGCCAGGCCTGGTTAATGGTTGCAGATTGCTGTACGGCGGCG -AGTTGTTCCGCCTGGCTTCCGCTGGCGAATTTATCAGGATGATACTGACGTTGTAGATCCTGAAAACGCAGGCTCAGCGC -CTGGGTATCGAGTTGATAGCGGGCAGGCAAGCCAAAGAGGGTGAAGTAATCCATAACATTCTCAGGGCTGCGATCCGCCG -CGATAACGGCGAATCAGGTAAAACAAACCCCACGCGCAGGCGACCACGGTGGGGTTATCGGTATGCGCATCAAACGTGGA -AGCTTTCGCCGCAACCACACTCATCTTTGACGTTCGGGTTGGTGAATTTAAACCCTTCGTTCAGGCCTTCTTTTACGAAG -TCCAGCTGCGTACCGTCCAGAAATTGCAGGCTCTTGCCATCGACCACGACTTTCACGCCTTTGTCTTCAAACACGATGTC -TTCCGGCGTCGGTTCGTCAACAAATTCCAGTACATAAGCCATACCTGAACACCCGGAGGTTCTCACGCCCAGACGCAGGC -CAAACCCTTTACCGCGGTTAGCCAGAAAGGTATTTACTCGCGCTGCTGCACTGTCGCTCAGTGTAATCGACATAACCAAA -CCTCAACTCTTATTTTGCTTCACGTTTGCTTTTATAGTCCGCAATGGCGGCTTTGATCGCGTCTTCTGCCAGAATAGAAC -AGTGAATTTTCACCGGCGGCAGTTCAAGTTCTTCAGCAATATCGGTGTTTTTGATCGCCTGCGCTTCGTCGAGAGACTTC -CCTTTCACCCATTCGGTGACCAGGGAGCTGGAAGCGATAGCGGAACCGCAGCCGTAAGTTTTAAAACGCGCGTCTTCAAT -GATACCTTCATCGTTGACTTTAATCTGCAACTTCATCACGTCGCCACAGGCCGGTGCCCCCACCATGCCGCTGCCGACGT -TCTCGTCGTTGTTGTCAAAGGAACCCACGTTACGCGGATTCTCGTAATGGTCGATAACTTTTTCGCTGTAAGCCATTATA -AATTCTCCTGATTCCGATACCGATTAATGATGAGCCCATTCGATGCTGTTCAGATCCACGCCCTGCTTGTACATTTCCCA -CAGCGGAGAAAGGTCACGCAGACGACCGATGGATTTACGAACTAACTCGATGGTGTAGTCGATCTCTTCTTCAGTAGTAA -AACGACCTAAAGAGAAACGGATAGAGCTATGTGCCAGCTCGTCGTTCAGCCCCAGCGCGCGCAGCACGTAGGACGGTTCG -AGGCTTGCTGACGTACAGGCGGAACCTGAAGAAACTGCGAGGTCTTTCAGCGCCATAATCAGCGACTCACCTTCAACGTA -GTTGAAGCTGACGTTGAGAATGTTCGGCGCACCGTGTTCCAGGTCACCGTTCAGGTAAACTTCTTCGATATCTTTGATGC -CGTTCCACAGACGGTTACGCAGGCCGCGCAGACGTTCCATCTCGGTCGCCATCTCTTCTTTTGCGATGCGATAGGCCTCG -CCCATTCCGACGATCTGGTGAACAGGCAGAGTGCCGGAACGCATACCGCGCTCGTGACCGCCGCCGTGCATTTGCGCTTC -GATGCGTACGCGCGGTTTACGACGTACATACAGCGCACCGATACCTTTCGGGCCATAGATTTTGTGACCGGAGAAAGACA -TCAGGTCAACTTTCAACTGGCTCAGGTCGATAGGCAGTTTACCCACGCTCTGGGTTGCATCAACGTGATAGATAATGCCA -CGAGCACGGCACATTTCGCCGATAGCCGCGATATCCTGCACCACGCCGATTTCGTTATTTACGTGCATGATGGACACGAG -GATGGTGTCGTCACGCATCGCTGCTTCAAGTTCTTTCAGGTCGATAATGCCGTTACGCTGCGGTGCCAGGTAGGTGACTT -CAAAACCTTCGCGCTCCAGCTGACGGCAGGTATCCAGTACCGCTTTGTGTTCGGTTTTGCTGGTGATGATGTGCTTGCCT -TTTTTCTGATAAAAGTTGGCTGCACCTTTGATCGCCAGGTTGTCAGATTCGGTTGCACCAGAGGTAAAGACGATTTCACG -CGGATCAGCGCCGACCAGATCGGCAATCTGATTACGGGCGATATCTACCGCTTCTTCAGCCTGCCAGCCGAAACGGTGAG -AACGGGAGGCCGGGTTACCAAAGGTTCCGTCCATCGTCATAAACTGCATCATTTTCTCGGCAACACGCGGGTCCACCGGC -GTGGTTGCGGAGTAGTCGAGATAAATCGGTAATTTCATTGCTCTATAAACTCCGTACATCACTCAATGCAAGGAATCAGG -CTACCGGCTGGATGTACGACCGTGTTTACGGAGTATTTAGCACTCCGGCCTGATTCTGAATTCTTTTTATTAAGCGCGTA -ACTTAACGTCGATCGCGTCTTGTGTGCGGGTGCGTGGCGCGTCGTGAGTATGCTGACGACCAGACACATCCAGCACTTCC -TGGTTATTAACCAGTTCGCCTAAAGTAATGTTGTTGAGAAAACCGGTGAGACGGTCGCTCAAATCACGCCACAGCGCGTG -GGTCAGGCATTTATCGCCGCCCTGGCAGCCGCCTTTACCCTGACAACGGGTGGCATCTACAGATTCGTCAACGGCGCTAA -TTACTTCGCCAACGGCGATGCTGCTGGCATCTTTGCCTAACAGATAACCACCGCCTGGTCCACGTACGCTGGAAACCAGA -CCATTTTTACGCAGACGGGAAAACAGTTGTTCCAGATAAGAAAGGGAAATTCCCTGACGTTCGGAAATATCAGCCAACGG -TACCGGGCCCGCTTCAGAGTTGAGCGCAACGTCAAGCATTGCGGTCACGGCATAGCGCCCTTTAGATGTCAGTCTCATGT -CTTACTTCACCTCAAACTCGCCCCTGCCCGGGGTTTTTTATTGTAAAAGTGGGGGTATTGCATAGCAGGGTCAAGTCTGA -CATTCCCGAGTAAATTGGTCAACTATTTACTTGACTGATTTAGTCGGGTATTTAACCTTCAGTGCCATTTTTTTATCGTG -GCGTTTGTACCTGTTGTCGGATGCGGCGTGAACGCCATATCCGCCCTGGGGTTCTGTACACTGTAGGCCTGATAAGACGC -ATTACGCGTCGCATCAGGCAACGGCTGTCGGATGCGGCGTGAACGCCTTATCCGACCTACGGTTCTGTTCACTGTAGGCC -TGATAAGACGCATTACGCGTCGCATCAGGCAACGGCTGTCGGATGCGGCGTGAACGCCTTATCCGACCTACGGTTCTGTT -CACTGTAGGCCTGATAAGACGCATTACGCGTCGCATCAGGCAACGGCTGTTATTCGGCCTTGTTACCTTTATTCTGCTGC -TCAATAGAAGCCAGAATCCCGCGCAGGATATTCAACTCCTGGCTTTCCGGGCGCGCACGGGTAAACAGACGGCGCAATTT -ATTCATCACCTGCCCCGGATGGTTTTCACGGATAAAACCGGTTGCCAGCAGCGTTTGTTCCAGATGACCATAAAAACGCT -CCAGATCATCGACCAGCGGATACGGCGTCTCTTCATGCTCGACCTGCTCGCCGTTTTCCTGAGTTGCCAGCCAGGCCATG -CGCACTTCATAGGCAATAACCTGAACCGCCATCGCCAGGTTCAGCGAGCTGTATTCCGGGTTAGCCGCAATCGCGACATG -ATAATGGCATTTCTGCAACTCTTCATTGGTCAAGCCGACGCGCTCGCGACCAAACACCAGCGCCACCGGGGTATTTGCCG -CTTCAGCGACGCTTTTCAGGCCGCATTCGCGCGGGTCGAGCATCGGCCATGGCAGCGTGCGGGAACGTGCGCTGGTGCCC -ACCACCAGGCTACAACCGGCTAACGCTTCGTCGAGCGTATCGACGATGTGAGCATTACCAATCACATCGCTGGCCCCTGC -TGCCAGGGCAATCGCCTGGGAGTCGGGTTTCACCAGTGGATTAACCAGCCACAGATTGGTTAATCCCATTGTTTTCATGG -CACGGGCAACAGAACCCATATTGCCGGTGTGTGACGTCTCCACCAGCACAATTCGAATATTTTGCAGCATTGTCTTTCTT -CATCTAAAGATTATTCACGCATCTTATCATAAAACGAAGACAGATGCCGATCTCGCTGCTATACTCTGCGCCGTTTTCCC -GTTCTTTAACATCCAGTGAGAGAGACCGATGCATCCGATGCTGAACATCGCCGTGCGCGCAGCGCGCAAGGCGGGTAATT -TAATTGCCAAAAACTATGAAACCCCGGACGCTGTAGAAGCGAGCCAGAAAGGCAGTAACGATTTCGTGACCAACGTAGAT -AAAGCTGCCGAAGCGGTGATTATCGACACGATTCGTAAATCTTACCCACAGCACACCATCATCACCGAAGAAAGCGGTGA -ACTTGAAGGTACTGATCAGGATGTTCAATGGGTTATCGATCCACTGGATGGCACTACCAACTTTATCAAACGTCTGCCGC -ACTTCGCGGTATCTATCGCTGTTCGTATCAAAGGCCGCACCGAAGTTGCTGTGGTATACGATCCTATGCGTAACGAACTG -TTCACCGCCACTCGCGGTCAGGGCGCACAGCTGAACGGCTACCGACTGCGCGGCAGCACCGCTCGCGATCTCGACGGTAC -TATTCTGGCGACCGGCTTCCCGTTCAAAGCAAAACAGTACGCCACTACCTACATCAACATCGTCGGCAAACTGTTCAACG -AATGTGCAGACTTCCGTCGTACCGGTTCTGCGGCGCTGGATCTGGCTTACGTCGCTGCGGGTCGTGTTGACGGTTTCTTT -GAAATCGGTCTGCGCCCGTGGGACTTCGCCGCAGGCGAGCTGCTGGTTCGTGAAGCGGGCGGCATCGTCAGCGACTTCAC -CGGTGGTCATAACTACATGCTGACCGGTAACATCGTTGCTGGTAACCCGCGCGTTGTTAAAGCCATGCTGGCGAACATGC -GTGACGAGTTAAGCGACGCTCTGAAGCGTTAATGACTCAGGCGGGTGATATCACTCACCCGCCCTCGCCTTTCAGGCGCT -ATTCCGAAATACTTCCTCACTGCTTTACTTTCTTTCGTCACTCTCCCACCATCTTTCCCCGATTAATGGATGATAAAGAA -GTCGCAAGGAAAGGTTATGGCACTGCCAGTGAACAAACGCGTTCCCAAAATTCTGTTTATTCTCTTTGTTGTTGCCTTCT -GCGTTTATTTAGTGCCGCGCGTTGCCATCAACTTCTTCTATTATCCCGACGATAAAATTTACGGTCCCGATCCCTGGTCG -GCGGAATCCGTCGAATTTACGGCTAAGGACGGTACTCGTCTGCAAGGCTGGTTTATCCCTTCTTCGACGGGCCCTGCTGA -CAACGCCATCGCAACCATCATTCATGCTCACGGCAATGCCGGAAATATGTCCGCCCACTGGCCGCTGGTCAGTTGGTTAC -CCGAGCGTAATTTCAACGTTTTTATGTTTGATTATCGCGGGTTTGGTAAATCAAAAGGCACGCCGTCCCAGGCCGGATTG -CTGGACGATACGCAAAGTGCCATCAATGTGGTGCGCCATCGCAGTGATGTAAACCCACAACGTCTGGTGCTGTTCGGGCA -GAGTATTGGCGGGGCGAATATTCTGGATGTTATTGGTCGGGGTGATCGTGAAGGCATACGTGCGGTGATCCTCGACTCCA -CATTTGCCTCTTATGCAACCATCGCCAACCAAATGATCCCCGGCAGTGGCTACTTACTTGATGAGAGTTACAGCGGCGAA -AATTATATCGCCAGCGTCAGCCCGATCCCGCTTTTACTCATTCACGGTAAAGCTGATCACGTTATCCCATGGCAGCACAG -CGAAAAGTTGTATAGCCTGGCAAAAGAGCCAAAACGGTTGATCCTAATCCCGGATGGCGAACACATTGATGCTTTTTCCG -ATCGTCACGGCGATGTTTATCGCGAACAGATGGTGGACTTTATCCTTAGCGCGTTGAATCCGCAGAACTAACCCATGATC -GCTAGCACGATAATCATTCACAAAACCACCTTAAGACATGCTAATCCACTGGTCAGAACAGTTTAAGATGAGAAAAATTC -TGTGACGCTTGCCAACATTTCTGATGATTAGCATTCCCTTCGCCATTTCCTTGAGCAAACTTTAGCTATTCTTATCAATT -ATGCTTATGGGAGATCTACAGATGATGCCTACGCTTGCTCCACCATCTGTCCTTTCGGCTCCCCAGCGCCGCTGCCAGAT -CTTGCTGACGCTCTTTCAGCCGGGGTTGACCGCCACCATGGCAACCTTCAGCGAGCTTAATGGTGTGGATGATGATATTG -CCAGTCTTGATATCAGCGAAACAGGACGGGAGATCCTGCGCTATCATCAACTCACACTGACGACTGGTTATGACGGTAGC -TACCGGGTTGAAGGTACAGTGCTTAACCAACGTTTGTGTTTATTTCACTGGCTACGACGTGGTTTCCGTCTGTGTCCGTC -ATTTATTACCAGCCAATTCACCCCCGCCCTGAAGAGTGAACTGAAGCGGCGCGGAATTGCGCGTAACTTTTACGACGATA -CCAATCTACAAGCGTTAGTGAATCTCTGCTCCCGACGGCTGCAAAAACGCTTTGAATCGCGCGATATTCATTTCCTGTGT -CTGTATCTGCAATATTGTTTGCTGCAGCACCACGCTGGAATTACGCCTCAGTTTAATCCGCTCCAACGTCGCTGGGCGGA -ATCCTGCCTTGAATTTCAGGTAGCGCAGGAAATTGGACGCCACTGGCAGCGTCGGGCGCTCCAGCCTGTACCACCTGATG -AGCCACTGTTTATGGCACTACTTTTTTCCATGTTGCGGGTTCCCGATCCATTGCGGGATGCGCATCAGCGGGACAGACAA -TTGCGTCAGTCTATCAAACGTCTGGTAAACCATTTTCGTGAGCTGGGAAATGTTCGTTTTTATGATGAACAGGGGTTATG -TGATCAGCTTTATACCCACCTCGCCCAGGCGTTAAATCGCAGTTTGTTTGCCATCGGTATTGATAATACCCTGCCGGAAG -AGTTCGCCAGACTGTACCCACGCCTGGTGCGCACCACCCGCGCGGCGCTGGCCGGATTTGAAAGTGAATACGGCGTCCAT -CTTTCTGATGAGGAAAGTGGTCTGGTCGCGGTGATTTTCGGTGCCTGGCTAATGCAGGAAAACGATCTGCATGAAAAACA -GATTATTCTTCTTACCGGGAATGATAGCGAGCGAGAAGCGCAGATTGAGCAGCAGTTACGCGAACTAACGTTACTGCCGC -TCAACATTAAGCATATGTCGGTAAAGGCATTTTTGCAGACAGGCGCTCCGCGTGGCGCGGCACTGATTATTGCGCCTTAT -ACCATGCCATTACCGCTCTTTTCACCACCGCTGATCTATACGGACCTGACGCTGACAACACATCAACAGGAGCAGATCCG -CAAAATGCTCGAATCAGCATGAGGGAACAACTTTCGGGCGCAAAAACATTGCCGGAAGCGCCACCAGCGCCATTACCCAG -AACACGCCGTGGCCCAGATATTGATACAGGAAACCGGCGAAAACGGTCATGATAGCGATACTGCCGCCCATCGCGACGGC -AGAGTAAACCGCCTGTAAACGGATGACTTCGCTACCCTGGCGAGCAGCAATATAACGCATGGCGGCCAGGTGGCAGACCG -TGAAGGTGCCGCAATGCAGAATTTGCACCACTATCAACCACGGCAACGCCGTAGTTGCTCCCATAATGCCCCAGCGCACT -ACGCCGCAAATCGCCGAGATCAACAGCATATCGCGTGCACTACAACGGCGGAAAAGTTTATTACTCAGCGCAAAGATAAT -GACTTCCGCCACCACGCCCAGCGACCACAAATACCCCACCGCCGAGGCCGAGTAGCCAGCTGCCTGCCAGTAAATGGCGC -TAAAACCGTAATAGGCCGCATGTGCCCCCTGCAATAAACAAACGCAGGCCAGAAAGCGCCAGTTCTGGCGAACCAGCGCC -AACCACGCAGACCAACCGGTGCTCTCCTGCTGGCGACTTGCCCCTTGTGGCTGAATCGTCGGACGGATGAGAAAGCCGAG -CAGCATGGATGCCACGCCCAACGTCAACAGCGCGAGGATCACCCGATAATCAAACATAGTGACCAGTTTGCCCGTCAGCG -CCGAGCCAATGACAAACGCCACCGAGCCCCACAGTCGCACTTTGCCGTAATCAAGCGGGAACTGCTTTTGCCACGTATTC -GCCAGTGCATCGGTCAACGGTACCAGTGGTGAGAAAAAGAGGTTAAAGCCAATCATCACCAGCATCAGCCACGCTACGTG -CGCCCCCGCCCAGAAGGCGACAGCAAAGAGAAGTGTCAGCAGTGCCAGCACGCGCAAGGCGGAAATCAGGCGGGAAGGAT -CGCTGACGCGGGGCGCGATGAGCAAACTCCCGAGGAAACGGGCAACCAGACCTGCCCCCAATAACAGGCCGATGGTTTCT -GGCGTTAAACCAATCCCTTTAAGCCAGACGCTCCAGAAAGGTAGAAAAATGCCGTAACTAAAAAAGTATGTGAAATAGCC -GAGCGCCAACCAGCGCGTGGATTGCAAAACCATGAGTCCCTCCCGTCAGGAGGCGTTAGTCTGGGGTTAATCGAATGTTG -GTGCAAGTTGAAAAATAAGAATATTCGAGCCTGCTTCCCGATGTCTGTAACGCCAGTTCACAAGCACTAAAAAACTGAGA -TCCGCGACGCATGTTGCAAAAATAATGCGTAATTATGCCGTTACGCTTGCCAAACGTTCCTGCACAATGGCGATGAAATC -GCGTAATGCCGGCTTCATCTCCCCTTTCTTCCACGCCATCAGTAAAGCAATGGAAGGCACATTTCCGGCAATGGGACGAA -AAACAACCTGTCCGGTATTAAAATTATTCATATAACCGGGTATCAAAGTGACGCCCAGCCCCATGCCCACCAGATTCATG -GTCACCAGAATATTCGTTGCCACCTGGACGATATTTGGCTGGCTGTTTTCTTGCGCAAACCACGCTTTAACGATCGGCGC -AAGCGAACCGGAATACACCGGATCGGTACTGACGAAATTCACGCCATCCAGTTGCGCGGCGGTGATCTCTTTTTCATGTG -CTAAAGGGTGATCAACCGGTAACACAACCACTAATGGTTCGTCAAAAAGCTCCAGATAATCAATCTCCGGGCTATAAACA -GGATGGCGCATTAAGCCGACGTCGAGTTCACCACGGCGAATTTTTTCCTCCTGTTGCGTGGTGATTAAACTCACCAGCTC -AATCAAGGTGTCTGGCTGTCTGAGACGAAACATCGGTAATACTTTTGGCAGTAAATTCACTTCCGCCGATGGCACAAAGC -CAATGGTTAATTGTCTGTCTTCCTGAACAATTTTCCGCGCCCGTAATTTGGCATTTTCCGCTTGTTCGAGGATTGCCAGC -GCGTCCTGGAGAAAACATTCTCCCGCCGCCGTCAACGCGACTTTGCGCTTATCCCTCACCAGTAACGGAACACCGACACA -GTTTTCAAGATCGCGGATCTGGCTGCTTAACGAAGGCTGTGAGGTATGCAGTTTTTCCGCCGCACGGGTAAAGTTCAGTG -CCTGCGCCACTGCGACGAAATAGCGTAAATGCCGTAGTTCCATCACCTTCCCCTTGTTATCGAAAAAACGTCTCAGCTGG -TAGAAATTAACTATTTCACATATTAGCAACCAACCAGCAACATCCTTATGGCACAAAAATAGAAGGTCAATACATCTTAT -CTTTCAGGATTAAAAAATATGACCACACCCTCAGATTTGAACATTTACCAACTGATTGACACCCAAAATGGTCGGGTCAC -TCCGCGTATTTATACCGACCCGGATATTTACCAACTGGAGCTTGAGCGTATTTTCGGTCGTTGCTGGCTATTTCTCGCCC -ACGAAAGCCAGATCCCAAAACCCGGTGATTTCTTTAACACCTACATGGGAGAAGATGCGGTTGTCGTAGTGCGTCAGAAA -GACGGCAGCATCAAGGCGTTTCTCAACCAATGCCGCCACCGGGCCATGCGTGTGAGTTATGCAGATTGCGGCAACACTCG -CGCCTTTACCTGCCCGTATCACGGCTGGTCTTATGGCATTAACGGCGAGTTGATCGATGTACCGCTGGAACCTCGCGCCT -ACCCACAAGGGTTGTGTAAATCCCACTGGGGACTAAACGAAGTTCCTTGTGTGGAGAGTTATAAAGGGCTAATTTTTGGC -AACTGGGATACCAGCGCACCGGGCCTGCGTGATTACCTGGGTGACATTGCCTGGTATCTGGATGGCATGCTGGATCGTCG -CGAAGGCGGCACCGAAATTGTCGGCGGCGTACAAAAGTGGGTGATCAACTGTAACTGGAAATTCCCGGCAGAGCAGTTCG -CCAGTGACCAGTATCATGCTCTGTTCAGCCATGCTTCTGCCGTTCAGGTATTAGGGGCGAAAGATGATGGCAGCGATAAG -CGCCTCGGTGATGGACAAACCGCCCGCCCGGTGTGGGAAACCGCCAAAGATGCGCTGCAATTTGGTCAGGACGGTCACGG -TAGCGGTTTCTTCTTTACTGAAAAACCGGATGCTAATGTCTGGGTCGATGGCGCAGTTTCAAGCTATTACCGCGAAACCT -ATGCCGAAGCAGAACAACGTTTAGGTGAAGTTCGCGCCCTGCGCCTGGCGGGTCATAACAATATTTTCCCCACGCTTTCA -TGGCTAAACGGCACTGCCACACTCCGCGTCTGGCATCCGCGCGGCCCTGATCAAGTTGAAGTGTGGGCGTTCTGTATTAC -TGACAAAGCCGCCTCCGATGAAGTTAAAGCCGCTTTTGAAAACAGCGCCACTCGTGCTTTTGGTCCTGCTGGTTTTCTCG -AGCAGGATGACTCGGAGAACTGGTGTGAAATCCAGAAATTGCTTAAAGGCCACCGCGCCCGCAACAGCAAACTGTGTCTG -GAAATGGGGCTTGGTCAGGAAAAGCGCCGCGACGACGGCATTCCTGGCATTACTAACTATATCTTTTCAGAAACTGCCGC -TCGTGGAATGTACCAACGCTGGGCCGATCTTCTGAGTAGCGAAAGCTGGCAGGAAGTGCTCGATAAAACCGCCGCTTACC -AGCAGGAGGTGATGAAATGAGTGCGCAAGTTTCACTAGAGTTACATCACCGCATTAGCCAGTTTCTCTTTCACGAAGCCA -GCTTACTGGACGACTGGAAATTTCGTGACTGGCTGGCGCAGCTCGACGAAGAGATTCGTTACACCATGCGCACCACAGTT -AACGCGCAAACACGCGACCGCCGCAAAGGCGTCCAGCCACCGACAACCTGGATTTTTAATGACACCAAAGACCAGCTGGA -GCGGCGAATCGCCCGTCTGGAAACGGGCATGGCCTGGGCAGAAGAGCCGCCGTCACGCACCCGTCACTTAATCAGCAACT -GCCAGATAAGCGAAACCGACATCCCAAACGTATTTGCTGTGCGGGTAAATTATCTGCTTTATCGGGCACAAAAAGAGCGC -GATGAAACATTCTATGTTGGAACGCGTTTCGACAAAGTTCGCCGTCTGGAAGATGACAACTGGCGCTTGCTGGAACGGGA -TATCGTCCTGGATCAAGCGGTAATCACTTCCCATAACCTGAGTGTACTGTTCTGATGAATCGAATTTATGCGTGTCCCGT -TGCGGATGTGCCGGAGGGTGAGGCTCTCCGGATCGATACCTCGCCCGTCATCGCCCTGTTCAACGTTGGCGGCGAGTTTT -ATGCCATTAACGATCGTTGCAGCCATGGTAATGCGTCAATGTCAGAAGGGTATCTGGAAGATGACGCCACGGTGGAGTGC -CCGCTACACGCCGCCAGTTTTTGCCTGAAAACGGGGAAAGCGTTATGCCTGCCCGCCACCGATCCGCTCACCACTTATCC -AGTACACGTTGAAGGTGGTGACATTTTCATCGACTTACCGGAGGCGCAGCCATGAGCGATCTGCATAACGAGTCCATTTT -TATTACCGGCGGCGGATCGGGATTAGGGCTGGCGCTGGTCGAGCGATTTATCGAAGAAGGCGCGCAGGTTGCCACGCTGG -AACTGTCGGCGGCAAAAGTCGCCAGTCTGCGTCAGCGATTTGGCGAACATATTCTGGCGGTGGAAGGTAACGTGACCTGT -TATGCCGATTATCAACGCGCGGTCGATCAGATCCTGACTCGTTCCGGCAAGCTGGATTGTTTTATCGGCAATGCAGGCAT -CTGGGATCACAATGCCTCACTGGTTAATACTCCCGCAGAGACGCTCGAAACCGGCTTCCACGAGCTGTTTAACGTCAATG -TTCTCGGTTACCTGCTGGGCGCAAAAGCCTGCGCTCCGGCGTTAATCGCCAGTGAAGGCAGCATGATTTTCACACTGTCA -AATGCCGCCTGGTATCCTGGCGGCGGTGGCCCGCTGTACACCGCCAGTAAACATGCCGCAACCGGACTTATTCGCCAACT -GGCTTATGAACTGGCACCGAAAGTGCGGGTGAATGGCGTCGGCCCGTGTGGTATGGCCAGCGACCTGCGCGGCCCACAGG -CGCTCGGGCAAAGTGAAACCTCGATAATGCAGTCTCTGACGCCGGAGAAAATTGCCGCCATTTTACCGCTGCAATTTTTC -CCGCAACCGGCGGATTTTACGGGGCCGTATGTGATGTTGACATCGCGGCGCAATAATCGCGCATTAAGCGGTGTGATGAT -CAACGCTGATGCGGGTTTAGCGATTCGCGGCATTCGCCACGTAGCGGCTGGGCTGGATCTTTAAGGAAGCACGATGAAAG -AAAAAACGATCATTATTGTCGGTGGCGGGCAAGCGGCGGCAATGGCTGCGGCCTCGCTACGCCAGCAAGGGTTCACCGGT -GAGCTGCATCTGTTTTCCGATGAGCGACATCTTCCTTATGAACGACCTCCACTCTCGAAATCCATGTTGCTGGAAGATTC -CCCGCAGTTACAGCAGGTGTTACCCGCTAACTGGTGGCAGGAAAACAATGTTCATCTGCATTCCGGTGTAACCATCAAAA -CGCTGGGTCGCGACACACGAGAGTTAGTGTTAACCAACGGCGAAAGCTGGCACTGGGATCAGCTTTTTATAGCAACCGGC -GCGGCAGCTCGACCGCTGCCGTTGCTTGATGCACTGGGAGAACGCTGCTTTACCCTACGCCATGCCGGTGATGCCGCCAG -ACTGCGAGAAGTTCTGCAGCCCGAACGGTCAGTCGTGATTATCGGTGCCGGAACTATTGGTCTGGAACTGGCTGCCAGCG -CCACGCAGCGCAGATGTAAGGTGACAGTGATTGAACTGGCGGCAACCGTCATGGGCCGTAATGCACCACCGCCCGTGCAA -CGCTATCTTTTACAGCGCCACCAGCAGGCTGGTGTGCGCATTCTGCTCAATAATGCCATTGAACATGTGGTCGATGGTGA -AAAAGTAGAACTGACGCTGCAAAGTGGGGAAACGCTTCAGGCTGATGTGGTGATTTACGGTATTGGTATCAGCGCCAACG -AGCAACTGGCTCGCGAGGCCAACCTTGATACTGCCAATGGCATTGTCATTGATGAGGCTTGCCGCACCTGCGATCCCGCG -ATCTTTGCCGGTGGCGATGTGGCAATCACTCGTCTTGATAATGGTGCACTACACCGCTGCGAAAGCTGGGAAAACGCCAA -TAACCAGGCGCAAATTGCCGCTGCCGCAATGTTAGGGCTACCGCTACCGCTACTGCCGCCGCCGTGGTTCTGGAGCGATC -AGTACAGTGATAACTTACAGTTTATTGGCGATATGCGTGGCGATGACTGGCTTTGTCGTGGCAACCCGGAAACTCAGAAG -GCGATTTGGTTTAATCTGCAAAACGGCGTGCTTATCGGTGCGGTCACGCTGAATCAGGGGCGTGAGATTCGCCCAATTCG -CAAATGGATCCAGAGCGGCAAAACGTTTGATGCGAAACTGCTGATAGATGAGAACATCGCGCTTAAATCACTGTAACCAG -GATAATTAGCGAATATCTCAATGCCTGGGGCGTGGCGAGGTGCAAGAGTGTGTATTACGTTTAAATCACATTATCTTGCA -AAGGGATTGGTTATGAACACACTACGTTATTTTGATTTTGGAGCTGCCCGCCCCGTTTTGTTATTAATTGCCCGTATCGC -CGTGGTCTTAATTTTCATTATTTTTGGTTTTCCCAAAATGATGGGCTTTGACGGTACGGTCCAATATATGGCCTCGTTGG -GCGCGCCAATGCCGATGCTGGCAGCGATTATTGCGGTAGTTATGGAAGTGCCCGCCGCGATATTAATCGTGCTTGGCTTT -TTCACCCGTCCGCTGGCGGTGCTGTTTATTTTCTACACGCTGGGTACGGCGGTGATTGGTCACCATTACTGGGATATGAC -CGGCGATGCGGTTGGGCCAAATATGATTAATTTCTGGAAGAATGTCAGTATCGCTGGCGCGTTCTTGCTATTGGCAATTA -CCGGGCCGGGGGCAATTTCTCTCGATCGGCGTTAGGAAAGATGCCGGATGCGGCGTGAACGCCTTATCCGGCATTTAATA -AATTACAGCCACTCTACCCGCAACGACATCTCTGAAGTTGTTGATTCCCCTGGTGCTAGCGCAATGAGATCACCCCCTTC -CGGGCGATGATGATCATCCGGCGCATGGCTCATCGGTTCCAGACAGAAGAAATCAAACGCATATCCTTTATCAAACGCAG -GGTCGGAAACAAAGATGAAATAACACGGTGCAGGTGGCGTCGTTTCCATGATGATGGCATAACCTTCCTGCGGCTGCTCG -ATGCGGGCCTGACCATTCCATCCGGCAAAACCATTGTTCACCCACTGGCGCGGCAACGGCGCGGGCTGGTTAAAATCCAG -TTCCTGCGGTAGCTGCTCGCAAAACTCACCCGCCAGCCACTGCTCCCGCTCCAGCCAGTAACCGCTCGCCTGTGCCTGAA -TCCGCGTTTGCGGCGACAACGGAAAATAAGGATGCCAGCCGGTACCAAATGGCAGCGTCTCTGCCCCTTGATTGGTGACA -GAGAGCGTCACCGTCAGCGTATCCGCCGTTAAATGAAACGCCTGACTTACCCGATAGTGATAGACACCGCTGCGATGTTC -ATACACCAGACACAAACTATCATCGCTGTGCGAGACACATTGCCACTCGCCCAGCCAGCCATCGCCGTGTAGATAGTGCG -CATCCCACTCAACATTCGGTTGCAGTTGATACTCACGCCCCTGCCAGACAAAACGATTGCCGCTCACCCGGTTTGCAAAT -GGCACCAGCGGAAAACATGAGGCATCGGTTGCCACACCGCTTTTTTTACCAGGACGTAAGAGCGGCGTCGTATCGCGCCA -GAAGCCTTCGATTACGCCGCCCTGGTCAGAAACGTCCAGCTTTAGCGACCCGTGGGATAAGGTATAGATGGTCATCCGCT -AACTCCTTAATCCGGGAAGTTAATCACAACTTTCCCGCATTTGCCGCTCGCCATCAGCGCATAGGCATCACCTGCCTGTT -CCAGCGAGAAGCGATGGGTAATGGCGTTACGCGGCCACAGCTTCCAGTCCGTCAGATCATGGGCGCATTTTTCCATATGG -AACAGACTGGTCACCCAGGAGCCGATAATCCGCCGTTGATGGTGCATCAGATCGGCGCTGACCTCGAATTCCACTTTTCC -GGTTTCACCAATGTAAACCACCCGTCCCCAGTCAGCGGTGGATTGCAGTGCCAGCAAGCGACCTGCGGCATTACCGGAAC -AATCGAGCGCAACATCCGCGCCACCGTGGGTGAGTTCGGCGATAATCTGCGGCAGACCTTCGGTGGTTGCTAAATAGCCG -TGATCCATCACCCCTAACTGTTTTGCCATCGCCAGACGTTCCGGCAGCATATCAACGCCGATGATCCGTTTTGCACCGCG -ACCTTTCGCCAGCATCATCGCCATCATGCCGACTGGCCCCAGACCGACCACCAGCACGTTATCACTGCCGGAAACTTCGC -CGCGCAAAATTCCTTCATACGCTGTACCAACGCCGCAACTGATAAACGCACCATCTTCGTAGCTCAGCGCATCCGGCAGG -AGGATCAGATCTTTTTCTTCCGCCAGCAAGTATTCGGCATGACCGCCGTCACGCTGCCAGCCGTAAGCCGCTTTTCCTTC -GCCAGTACAAGAAATAGGAAAACCGCGACGGCAGTTCGGGCAAAAACCACAGCCAGAAATGTGATACACCAGCACGCGGT -CGCCCTCTTTAAAATGGCGGCAGCCTTGCCCCATCGCCACAATCTGCCCGCACGGTTCATGACCGTTGATAAAGCCCTGG -TATAACGGTTTATCGGGTGCCGCCGCTGTGGCACGGTGTTGATGATAGATATAGTGGACATCGCTTCCGCAAATCCCGGA -GGATTTCATTTTGATCAGTACCTGGTTAATCCCCGGCGTCGGCACCGCAACTTCCCGCAGATCGACGGTCGAATTTCCTG -GTAAATAAGCTGCCAGCATCGTTTTCATAAATCCCTCATTAACAATACGATTAATTTTCATCCCTGCCGCACCCGCGCCA -GGGGCGTTAAGGTTTAGCGTTTCGCTTTACTGCTTCGCTGGGTCAGCAAGATATTCGCCAGCACCGCCACCACGATGATG -ACGCCGCGTACCACCTGCTGGAAAAAGGAGTTAATACCGAGCAGCACCAGACCGTTACCGATTAGCGTAATCACCAGCAC -ACCAAGCAATGTACCGAACAGGGAACCGCGACCGCCGGAAAGTGCCGTACCGCCGACCACGACCGCGGCGATGACGTCAA -ACTCCAGACCGTTTGCGGCACCTGCGTTACCAGAACCGAGGCGCGCCGCCAACAAAATGCCGGTCACCGCCGCTAATAAT -CCCGAAAGGGTAAAGATAAGAATGCGCACCCGACGAACGTTGATGCCGCACAACTGCGCCGCCGTAGCATTACCGCCAAC -GGCAAAAACCGAGCGCCCGAAGGCGGTTTTGCGGCTGATGAACACAAACAGCGCAAACAACACAATCATGATCAGCGCGG -ATACCGGCACACCGAGAAATTGTCCGCCCAGCCAGTCCAGCACCTCGTTTTCATCAATCGGCACTGGCAGTGCGTTCGTC -ATAAACAGCCCCATTCCGCGCAGGGCGCTCCACAGCCCCAGTGTGGCAACGAAACTTGGTACATTAAACACGCCGCGCAG -CACCCCGGCCAGCGTTCCCATCAGCGCGCCTAACAGCAACACCAGCAGGCACGCCACCGCCAGCGGAACTTCAAATTGCA -GCAAAAATGCCAGGCACACCGAGACAAAAGCCACCATCGGCCCAACGCTGACATCAATTTCACCGGAGATAATAATCAGC -GTCATCGCCCAGGCGGCAATCCCAATGGTGGCGGCATCGCGCAGCACGTTCATCTGGTTATTCAATGAGATAAAGCCAGG -CGCGTTCAGGGAGAAGACCAGATAAAGAATGGCAATCACCACCAGCAAACCGATCTCATTAATATGGCGACTGACAAATT -GTTTGAGCGAGACGCTCTTGCCCTGCGGCAATGGTAATGACGAAGCAGACATCTTCAGGTTCCTCGGTAAAATTCATCAG -TGCACAGACAGAATGGCGGACATCAGCTCATCCACATTGACCGGAGCGTGAAACTCCTGCGAGAACGTGCCGTGCTGTAA -TAACAGGATGCGGTCACACACCAGCGGCAACTCCTCCACTTCACTGGAGATAAACACCACGCTTTTTCCTTCGGCAGCCA -GCTCACGGACAATACGGTAAATCTGCTGTTTGGCTTCGATATCGACGCCGCGCGTTGGCTCGTCGAGCAACAAAATCTGG -CTGGCAGCATAGACCCAACGACCGATCACCACTTTTTGCTGATTGCCACCAGAAAGCGTGCCGATGGGTGTTTCGCTACT -GGCGGCCTTGACCGTCATCCGCTGCATCACCTCTTCGGTCAGGCGGCGGATGGTGGACCATTGCAGCACACCGTTGGCGC -TGATTTTTTGCCGATTGGTCAGCACTGTATTTTCGTCAACGCCCAACCAGGGAATGATCCCCGCTTCTTTGCGGTTTTCT -GGCGTATAGCCAATGCCGCGTTTCAGCATGTCGCCGTAATCGGGGCGCGTGATTTTCTCGCCGTTGATAACAATTTCGCC -CTGTTCATACTCCTCCAGCCCAACAATCGCCTTCAGCAATTCACTGCGCCCTGCCCCCAGCAGACCAGCAATGCCGAGCA -CTTCGCCACGACGTAGCGTAAAACTGATATCCTCCAGCTTGGGCTTATGGCGTAACGCACGGACTTCCAGCACGGCCTGA -TCCACAATTTCCTGAGGGGCTACCGGCGCAATATCAACGTGATCGCGCCCGAGCATCAGCGACACAATATGATGCGTGGA -GGTGTTTTCGAGCATCACATCGCCCGCCACCTGACCATCGCGCATAACGGTGGCACAGGAGGCAATGCGGCGAATTTCTT -CCATCCGGTGGCTGACATAAATCACCGCCACGCCCAGTGCCGACATCTTTTTCACCGCGCTGATCACCAGTTCAACTTCC -GCACTCGCAAGCGAACTGGTAGGTTCATCAAGAATGACCACGCGCGGCTCGCCCTTCATCACCCGCGCAATTTCCACCAG -CTGCTTTTGCGCCGGGCTTAGCGTTGAAACAAGTTGTTCAGGACTAACGTCAACGCCCAGCGCCTGTAAGCAACGTTGGG -CATCCTGCGCCATTTGCAGGTAATCAATCATGCCGTTGCGGCGGGGCCACTGACCGAGGCAGAGGTTTTCCGCCACTGTC -AGCCCTTCCACCAGACTTAACTCCTGATAAACCGCGCGCACCCCCAGTTCAGCGGCACGGCGAGTCAGCGTAGCTTCGTC -ACCTTCCAGTCGCGTCTCGCCAATCCAGATATCACCGCTATCCGGGCGTTCGCTGCCGGTAAGCATTCGAATGAGAGTCG -ATTTGCCCGCGCCGTTTTTACCTAACAGCGCACGAACTTCGCCTTTATTGAGCGTGAAGTTAACGTTATCCAGCGCAACG -ACGCCGGGATAACGCTTATTTCCTGCCACCACTTTTGCTACCGGGACTGCCTCTGTTGCCGTGAACATAGGGACCTCTGC -GAATCAGCGATTAGGGCAGACCATCAACGTGCGTTGCCAGCCACTGTTTACCGTCTTCCGTTTTGGTATAGAGATCGATA -GGCACCTGAATCACTTTTTCACCGTCGGCTTGTTTATTGATAACCTTCAATGTTTGCGCGAAAACAGCATTGCCCATTTT -CTTACCGGAAATATCCACTACCGCTTTCAGCACCTGATTGTTTTCCAGCTCCTGAGCAATTTCGGTTGTCATATCCGAAC -CGAAAACAGCAATTTTTCCGGCCTGATTTTGATTACGTACCGCTTTTACCGCGCCGAGTGTCGCACCGCCCGATTCCCCC -ATAATGGCGTTGAGATCCGGCGTGGAGATAATTAGTTTTTCACCAACGGAAATCGCTTTATCTAAAACAGTCCCTTCCTG -ATTAGCGACAATTTGCGCGCCGGGAACGCGGGATTTTAAAACTTCTTCAAATCCTTTACGTCGCTGCACACAAACTTCAA -AGGCTTCGCAATTGATGACGGCAATTTTCGGCTGGTCAATTTTATTGGCAATAAAATAATCAGCGGCAGCGTTACCCAGT -TTTTTACCAAATTCCAGCGGATCGCCGACCAGATACGCCGAGACATATTTATCGACCCCCTTTTGATTAATACAGGTGTT -GTAGCAAATCACCGGAATGCCCGCTTCACTGGCGCGACGAACGGTACGGCTACTGCCATTTTCAGACACTGCCGATAAAA -TAATGGCATCGACATTACGCGCCACGAGGGTATCAACAAAGGTACTTTCTTTCGAAATATCACCCTGGGCGTTAGTTTCT -ATTAACTGAACTTGTACTGAGGAATCTTTTGCCGCATCCTGAACGCCCTGACGCACTCCAGCGTAGTATCCCTGAGTATC -AAGGTATATTGCGCCAATGGTCATTTCTTTTTCCGCAGCCCTGGCAAATAGTGCGCTACCTAATAGCGTAGCCATTAATA -ATAGATTACGGGTTGTTCTCATTTTTGTAGGCATAGAGCCTCCTGTAGGGTTTTTATTAACAACGGCTTATTCTAATTAT -TTTGTGATGAGCGGCAGCGCGTGCCGCTCAAATATTACAGTTAATAGGGTTTAGTGAACGCGGTTAAAAATAAAAGGCAT -CACGGTGGTGAATAATGCCGCTTTCGGCCAAGCCGGATTAATCGCCGTCAATTCAGCGCGAGCAGACTCATATTGCGCAA -CCTCCCCGAGTCCCGCGGACGCCAGCATCGCCACCATCAGGCATTTTTCTTTATGCTGCTGTTGTAAATCGCCATACAGC -GACAACAAGTCAGGTTGCGAGACGGCAAAGAAATCCGCTTCGATACTGGTTTTCGCCATCTCTTGCGCCCACTGTTTCAT -TTCACTAAACAGTTGCTGTGCGGTTTGTTGTTCGCCCAGCAGTCGCAGCGCCATCCCTTGCCAGAAGAGATAATCAACCG -GCTGATCGTTGTAATAACTGTGAATGTTAATAGTGCGATCGCCGGTCGCCGCCAGACGTAAACAACGCGTCGCTTCAGTT -TCATCGCCCTGCGCGTTGGCGCATATCGCCTGCCAGAACCAGATGTCGTTATCAGTTTGCCCCGGTAAACGGCCTTCGCT -TAAATTCTCCGGATAATGCAGCGCGGCATGAAGCAGTTCGCAGGCCTGCTGCGGCTGTCTGGCATCAAGATGCTGCCAGG -CGCGTAATAACTGGTTGAGGATAAACTGACTGGTGACCTTCCCTTCCCCGCCTTCCCACGGGTGGAATTTGCGCGTGGCG -AGAATGTCCGCCGCTTTGTCTGCCTGACCCGTGAGATGCCACAAATTGAGCAGTTCTGCGGTCATGTCGTCGCGTTTCAG -CGCAATTTCCAGATTATTTTCCAGACGCGCCAGTCGTTTCTCCGGTGTGGCTCCACTTAACTTATCCAGCAAATCCCGTT -CGAAAAGCAGACGTGCATCCTGCGGCGCAAGCTGATAAGCATTATCAAGATAACGCGCGGCCAGCTCATAATCGTGTTGC -TTATTCCACGCATGGATCGCTAACCCGCGCCAGCCGTCGGCAAACTCCGGCGACATCTCTACGCAACGTTGCCAAAAGGC -AATGGCTTTGTTGTAGCTACGTTTGTTGTAGTAGAAGCAAGCTAGTAAATGGCGAGCAAACCAGCACTCTTCAATACTCT -CCAGCGCCGCCACTTCTTCCAGCGTATTCGGGAAACGGACAAACTGCGGGAAGACATCAATGGCTTTTGCGACCAGTTCG -CCACGTTCGGCTTTCGGCAGCAAGCTGGCTTGCAGGTAAAGCGGCAGCGTGCGCTGGCAGTCCAGTGCGTTCAGCATCTC -TGCCGCCAGGGTGGGCATTCCCCAGTTAATCAGTTGCCCGGCGGTCATCAGGGCGTTAACGTCGCGTCCCTGACACAGAC -CGCGCCACTGCGCGAGAGCTGATTCGCTACGACCATCGAACCAGTTCAGCCACCACAGAGTGGCGTTCAGCGGATAATCG -CGCAGCAGTTTCTCGCGCTGCACACGCGCGTTGTCCTGACGACCACTTAACACCAGCAGCAGATTATGCAGGCAAAGCAC -TTCCTGATTGGTTGGGCAGGCGCGAAGACTTTGTTGGCAAAAATCCAGACCAGCGTCGAAGTTACCATTACGCGCCGCCA -GTCGTGCCAGGCCATAATAGCCACCGGCTTTGCTGTTGCCGCTCCAGACCGCACGCCAGAAATCCTCTTCGGCTTGTTGA -TATTGTCCCTGACGTTCGTAAGCACTGGCGCGAATCAAACTCGCCTGTCCGCACTGCGGATTTTTGTTCAGCGCATGTGC -GCGTTTCAGAGCCTGAGTGGCATACGCCACCGCTTGCGGGAAATCTGCGCGGTTATATTCCAGCATCGCCAGCGCCAGGT -TACAGCGATAATCCAGCGGGTCCAGCGCCACGCCGCGCAGGTAGTAATCGAACGGTGAACGGCTGGCGTGATGATATTGC -TCCAGATGCTGACCGATAAACCAGGCTTCATCTGTACTGGTAATGTCTTGTGCTGCCAGTGGCGCTTTGGCGACGTCCGG -TAACGGCAACGCTTGCGGCTGATGTTCCTGATAACTCAGTACAATATTGCCGTCGGCATCGGAGAGCTCAATGGTCAGCC -TTTCAGGATTGATACCGTGCAACACGCCCTGGATGGCGGTCGCAGGCATCAGTGCCACGGCATCATCAAGTAACGCGTTG -CATTTACCGATTTCGCGGATCGCCAGGCGGTATCCGTTCAACGGAGAGATGGCATACAGCCCCCACTCAATCCCCCGCTT -ACTACGCTGGAGTTTTATCACCGCATCGCGGGAGGCATTTTGCACCATGCCCAAAGAATGATAAGGCAGGAAATACTGCT -CAAAACGCTTCTCTTCGTAAGCATCAAGCCAGGTAAAATCGGGCTGGTTATCGGCAAAAATACCGGTCATCAGTTCGATA -TACGGGCCGTTATTGTCGGTCAGACTCTTATCCCACGCCTGGCCAAATTCACTGTGTCCCCAACTCCACTGTTTTTTACC -TGGCGCAATATGGTGGTTGGCAACGTGCAGCAAACCGCCATCTTCATCGTGACACCACGCGCCGACAAAATCGTACTGCG -ATTTTTCGGCCATATATGAGGTTGGAACAGGCACATTTTTATAGCGAGAAATGTCCACTCCAGCGGAGTAGTCCACTTTG -TAGTAAGTGCCGGTAGCGATGGGGAAAGCGGAGACGGCCCGTTTGCCGTGATCAAACACCGCCGTTACATCCGGCGGGAA -GACGCTCTGATGCCCTTCCCCCCCTTTCACTGCCGGGTTGGCCCACCACAAGAAATGACGCGGCGTGGCGTTCCCGTTAT -AGACGCGGCTGGCGATTTCCAGCGCCGCCCGGTCAGGGCGCAGGGTGAAACCTGTCATCACCTGTAAACCATGCATCGGC -TCCGTTTCGCCTACCCACACCGTCTGTGCACCGTCTTCATGGGCTTCGAGGGTGAAATCAACGGGCATAAAGGTGGTCGG -GCGATGATGTTGCGGCCAGTTAAACTCAATCCCACCGGAAATCCACGGCCCCAGCAGCCCCACCAGCGCAGGTTTAATGA -CTTCATTGTGATAAACAAAATCGCGCTGTTTCACTTTATCCCACGCGCGATGCACCCGACCGCCCAGTTCCGGCAGGATC -ATCACTTTGATGTAGTCGTTTTCCAGCCACACCGCCTGCCAGGATTTCAGGGTTTTCTGCTCGCTCAGCGTATCGGTCAC -GCCGTAGGGATAAACCGCGCCGGACGATCCCTGATAAACGCGATTTTCCAGGAACATGGGATGTATATCCTGCGGCCCGG -TTTCATAGGTCGGGATCTCAACGCGCTCTTGCCACACTTTTACTGGAGTCATGGTGCCCTCAATATTAACAAGACATACT -GAATTAAAAGATTTGTGGCAGTGTATTGAACAATCTGGCAATGTTTTCGCGGAATAATCACGCAATTAACTAAACAAGGT -TTAGTGAAGATGAGAGCCTGCATTAATAATCAACAGATTCGCCACCATAACAAATGCGTGATTCTGGAACTGCTGTACCG -GCAAAAGCGCGCCAATAAATCAACGCTGGCCCGGCTGGCGCAAATTTCGATTCCGGCAGTCAGTAATATTTTGCAGGAAC -TGGAAAGCGAAAAACGGGTGGTGAATATTGACGATGAAAGCCAGACGCGCGGGCATAGTAGCGGTACATGGCTGATTGCG -CCGGAAGGTGACTGGACGCTGTGCCTGAACGTGACGCCCACCAGTATTGAGTGTCAGGTTGCTAATGCTTGTTTAAGTCC -GAAAGGTGAATTTGAGTATTTACAGATTGATGCACCGACGCCGCAGGCGCTGCTGTCCGAAATCGAAAAATGCTGGCATC -GCCACCGTAAATTGTGGCCGGACCATACCATCAACCTGGCGTTGGCAATCCACGGTCAGGTTGATCCTGTGACCGGCGTG -TCGCAAACCATGCCGCAAGCGCCGTGGACAACGCCGGTGGAGGTGAAATATCTGCTGGAAGAGAAGCTCGGCATTCGGGT -GATGGTCGATAATGACTGCGTGATGCTGGCGCTGGCGGAGAAATGGCAAAATAATTCGCAGGAACGGGATTTCTGCGTGA -TCAACGTTGATTACGGCATTGGCTCGTCGTTCGTGATTAACGAGCAAATTTATCGCGGCAGTTTGTATGGTAGCGGACAG -ATTGGTCACACCATCGTTAATCCGGATGGCGTCGTCTGCGACTGTGGACGTTATGGCTGCCTGGAAACTGTCGCCTCGTT -AAGCGCATTAAAAAAACAGGCGCGGGTATGGCTAAAATCACAACCGGTTAGTACTCAACTTGATCCTGAAAAACTGACTA -CAGCGCAGTTAATCGCTGCCTGGCAAAGTGGAGAACCGTGGATCACCAGCTGGGTTGATCGCTCTGCCAATGCCATTGGT -TTGAGTCTGTATAACTTCCTCAACATCCTCAATATTAATCAGATTTGGTTGTACGGTCGCAGTTGTGCCTTTGGTGAGAA -CTGGCTTAATACTATTATTCGCCAGACAGGATTTAACCCGTTCGACCGCGACGAAGGACCGAGCGTGAAAGCGACGCAAA -TTGGCTTTGGGCAATTAAGCCGCGCACAACAGGTGCTGGGAATTGGCTATTTGTATGTTGAGGCGCAGTTACGACAGATT -TGATGGCGCGATAACGTAGAAAGGCTTCCCGAAGGAAGCCTTGATGATCATAAACGAAAAATTGCCTGATGCGCTACGCT -TATCAGGCCTACACGGAGATTGCAATATATTGAATTTGCAAAGTTTTGTAGGCCGGATAAGGCGTTCACGCCGCATCCGG -CATGAACAACGAGCACATTGACAGCAAATCACCGTTTCGCTTATGCGTAAACCGGGTAACGTGCGCAGATGTCGAGAACT -TTACCTTTGATGCGCTCGATAACGGCTTCATCATTGATGCTGTCCAGCACGTCACACATCCAGCCAGCCAGTTCTTTCGC -TTCGGCTTCTTTAAAGCCGCGACGGGTAATCGCCGGAGTACCTACACGAATACCGGAGGTCACAAACGGGCTCTTCGGAT -CGTTCGGTACGCTGTTTTTGTTGACGGTGATGTTAGCACGGCCCAGAGCGGCGTCTGCTTCTTTACCGGTCAGGTTTTTA -TCAACCAGATCAACCAGGAACAGGTGGTTATCAGTGCCGCCGGAAACCACTTTGTAGCCGCGCTCGAGGAACACTTCTAC -CATCGCTTTAGCGTTTTTAGCGACCTGCTGCTGGTAAGTTTTGAACTCAGGCTCCATCGCTTCTTTCAGAGCAACCGCTT -TACCGGCGATTACGTGCATCAACGGACCGCCCTGACCACCAGGGAAAACGGCAGAGTTCAGTTTTTTGTACAGCTCTTCG -CTACCACCTTTCGCCAGGATCAGGCCGCCGCGCGGACCCGCCAGGGTTTTGTGAGTGGTGGTAGTAACAACGTGAGCATG -AGGAACCGGGTTCGGGTAGACGCCAGCAGCAACCAGGCCCGCAACGTGCGCCATATCAACGAACAGGTAAGCACCGATGC -TGTCAGCGATTTCACGCATTTTCGCCCAGTCCACCACGCCGGAATATGCAGAGAAACCACCGATAATCATTTTCGGCTTG -TGTTCTTTGGCTTGTTTTTCCAGATCGGCGTAGTCGATATGACCGGTAGCATCGATACCGTAAGGAACGATGTTGTACAG -TTTACCGGAGAAGTTAACCGGAGAACCGTGAGTCAGGTGACCGCCATGCGCCAGGTTCATACCCAGAACGGTATCACCTG -GTTCCAGCAGCGCGGTGTAGACCGCAAAGTTAGCCTGGGAGCCGGAGTGCGGCTGGACGTTAGCGTAGTCAGCGCCGAAC -AGTTCTTTCGCACGATCGATCGCCAGTTGTTCAACGATATCAACATACTCGCAACCGCCGTAGTAGCGTTTGCCCGGATA -ACCTTCAGCATATTTGTTGGTCAGCTGAGAACCCTGCGCCTGCATTACGCGCGGGCTGGTGTAGTTTTCGGAGGCGATCA -GTTCGATGTGCTCTTCCTGACGTACTTTTTCCTGCTCCATAGCCTGCCACAGTTCGGCATCATAATCGGCAATGTTCATT -TCACGCTTTAACATCCGCATCTCCTGACTCAGCTAACAATAAAATTTTTGGCCTTTATAGGCGGTCCTGTTGGACAACGG -CGAACAGTATAACCGAATCATTGTGCGATAACAGGTCTTGACAAAGGAATTTACGCAAACGATTACCTTCAGGCTACGCA -AGGCTTTGGAGAATAAAGAGCTTGCAACCGGAAACGGATTTCTTTTCAGGTTTGTGATGCAAATTTTTCACTTCATCACA -TTCTTTCTGAAAAACACCAAAGAACCATTTACATTGCAGGGCTATTTTTTATAAGATGCATTTGAGATACATCAATTAAG -ATGCAAAAAAAGGAAGACCATATGCTTGACGCTCAAACCATCGCTACAGTAAAAGCCACCATCCCTTTACTGGTGGAAAC -GGGGCCAAAGTTAACCGCCCATTTCTACGACCGTATGTTTACTCATAACCCAGAACTCAAAGAAATTTTTAACATGAGTA -ACCAGCGTAATGGCGATCAACGTGAAGCCCTGTTTAACGCTATTGCCGCCTACGCCAGTAATATTGAAAACCTGCCTGCG -CTGCTGCCAGCGGTAGAAAAAATCGCGCAGAAGCACACCAGCTTCCAGATCAAACCGGAACAGTACAACATCGTCGGTGA -ACACCTGTTGGCAACGCTGGACGAAATGTTCAGCCCGGGGCAGGAAGTGCTGGACGCGTGGGGTAAAGCCTATGGTGTAC -TGGCTAATGTATTTATCAATCGCGAGGCGGAAATCTATAACGAAAACGCCAGCAAAGCCGGTGGTTGGGAAGGTACTCGC -GATTTCCGCATTGTGGCTAAAACACCGCGCAGCGCGCTTATCACCAGCTTCGAACTGGAGCCGGTCGACGGTGGCGCAGT -GGCAGAATACCGTCCGGGGCAATATCTCGGCGTCTGGCTGAAGCCGGAAGGTTTCCCACATCAGGAAATTCGTCAGTACT -CTTTGACTCGCAAACCGGATGGCAAAGGCTATCGTATTGCGGTGAAACGCGAAGAGGGTGGGCAGGTATCCAACTGGTTG -CACAATCACGCCAATGTTGGCGATGTCGTGAAACTGGTCGCTCCGGCAGGTGATTTCTTTATGGCTGTCGCAGATGACAC -ACCAGTGACGTTAATCTCTGCCGGTGTTGGTCAAACGCCAATGCTGGCAATGCTCGACACGCTGGCAAAAGCAGGCCACA -CAGCACAAGTGAACTGGTTCCATGCGGCAGAAAATGGCGATGTTCACGCCTTTGCCGATGAAGTTAAGGAACTGGGGCAG -TCACTGCCGCGCTTTACCGCGCACACCTGGTATCGTCAGCCGAGCGAAGCCGATCGCGCTAAAGGTCAGTTTGATAGCGA -AGGTCTGATGGATTTGAGCAAACTGGAAGGTGCGTTCAGCGATCCGACAATGCAGTTCTATCTCTGCGGCCCGGTTGGCT -TCATGCAGTTTACCGCGAAACAGTTAGTGGATCTGGGCGTGAAGCAGGAAAACATTCATTACGAATGCTTTGGCCCGCAT -AAGGTGCTGTAATTTGATGTTGCCGGATGGAAACATCCGGCAACCCTTGACGCGGTTTAAATTGCCGCGTCGTCCTCTTC -ACCGGTACGGATGCGAATGACCCGTGCCACGTCAAAGACGAAGATTTTACCGTCACCGATTTTGCCGGTTTGCGCCGTGC -GAATAATGGTATCGACACAGGTATCGACAATGTCGTCCGGTACGACAATCTCAATTTTCACTTTCGGCAGAAAATCCACC -ATATACTCCGCGCCGCGGTACAGCTCGGTATGGCCTTTCTGGCGACCAAAGCCTTTCACTTCGGTCACCGTCATGCCGGT -AATACCGACTTCGGCCAGTGCTTCGCGGACATCGTCCAGCTTGAAGGGTTTTATAATCGCATCAATCTTTTTCATGCTAT -TCCTTGAAAAGGTCGCCTGTCTTTTGATCTGCTAAACGTAACACATAACGCCAATTCATTCCTTGAAATCGTTTGCATCC -AGCTCGTGTCGGGAAAGCAGTTTATAAAATTCTGTCCGGTTGCGCCCCGCCATTCTCGCCGCGTGGGTGACGTTGCCTTT -GGTGATTTGCAGCAGCTTACGCAAATAGTTGAGTTCAAACTGATTACGTGCCTCAACAAAGGTTGGCAGCGCCGTATTTT -CACCCTCCAGCGCCTGCTCCACCAGCGCATCACTAATCACCGGAGATGAGGTCAGCGCCACGCACTGTTCAATCACGTTG -ACCAACTGGCGCACATTACCCGGCCAGCTCGCGGTCATCAGGCGTTTCATCGCATCGGTAGAGAACGCGCGGACAAACGG -TTTATGTCGCTCTGCCGCCTGGCGCAACAGGTGATTTGCCAGTAGCGGAATGTCTTCTGTGCGCTCCGCCAGTGCCGGAA -TTTTCAGGCTGACAACGTTGAGGCGGTAATAGAGATCTTCGCGGAATTCCCCGCGCGCCATCGCTTTTGGCAGATCACGG -TGAGTGGCAGAAATAATCCGCACATTGATATCAATATCGCGGTTACTGCCCAGCGGGCGCACTTTACGCTCCTGCAACAC -GCGCAGCAGTTTGACCTGTAACGGCGCAGGCATATCGCCAATTTCATCGAGAAATAGCGTTCCGCCTTCCGCCGCCTGGA -ATAAACCTTCGCGATTGCTGACAGCGCCAGTAAACGCGCCACGCGCATGACCAAACAGCTCCGACTCCAGCAATTGCTCG -GGCAATGCGCCACAGTTAATAGCAATAAATGGTTTGCTGTTGCGCGGGCTGGCGTTGTGGATAGCCTGGGCGAAAATCTC -TTTCCCGGTGCCGCTCTGACCGTTAATCAAAACGCTGACGTCTGATTGCGCCACCAGCCGCGCCTGTTCCAGCAAACGCA -GCATCAGCGGGCTGCGGGTGACAATTGCCTCGCGCCAGCGTTCATCGGTGGCTGGCGCGGATTGCTCCAGCGCATCGTCA -ATTGCCTGATATAGCGCGTCTTTGTCGACAGGCTTGGTGAGGAAACTAAAAACGCCCTGCTGTGTTGCAGCAACGGCATC -GGGAATAGAACCATGCGCGGTAAGAATAATTACCGGCATTCCCGGCTGCACTTTCTGGATTTCAGCAAACAGCTGCATAC -CGTCCATTTCATCCATCCGCAGGTCGCTGATGACTAAATCTACTTTTTCGCGATTCAGTACCCGTAATCCTTCAGCGCCA -CTTTCCGCCGTGACCACACTGTAGCCTTCGCTGGTCAGGCGCAGGCCAAGCAGTTTCAGCAATCCCGGATCGTCATCGAC -CAATAATAAATGCGCAGGTTTATGGCTCATCAGGAGTGACCTCATGGGTGGATGGCGCGGGCTTTTCACTCTCGTGCGGC -GTATCCGGCGAGAAATTTCCAGCCGGTTTGCGGGTCGAGAGCTGGCGTTCAATATCGGTCAGGTTTTCCAGCTTGCGGGT -GGTGAGTTCCAGTTGCTGCTGTAGAACGTGATGTTGCTGGCGCAATGTATCCAGCTCGCTGTCGCTGGACTGCTGGAGTT -TACTGTAACGTTGGCGCTCTTCCGCCAGTTGCAGTTGCAGCGCCTGACCATCGCGCCAGAGTTGATACAGTGGGCGAACC -TGTGCCGGGATCTCGGTACTTAACGCTTCAATACGCGCGACCAGCTGGCGGCGCTCATACGGCGTAATTTTGGCGTCGGC -GAGCAAAATCCCTTGTTTAAAGGTATTTTGCCAGCTGCCGTCGTCATATTGGCGAGCTTGCTGACGCGACTGCGCAGGCA -TTAAACGATCAGCACAATCCATCGCCCGCAGCCAGTAAAGCGGATTGGTTTCGGTTGATTTACCTTGCAGCGCCCAGATG -TCGCTACATTCAGTAGAAAGATAGTCAGCCAGTTGATAAACCGGAATTTTTTCTTCTGCTGGCGTATCAATGGCTGGCTT -ATTGTGATTCTGCACGCAACCCAGCAATGCCAGACATGGCAGCCCTGCCAGCCACAGCCGTCGGGGCAATAATCGTTGAA -AAATGTGTCGCATATTCACCAGACTTAAAGCCTATCCCAGTGGGCGTAATTGTTGCAGACAGTCTGGACATGGACAGCGC -GGAGAAACCGGAGCGTACATATCGTACGTGAAGATTTCGAGCACTGCCCGGGGCCGAACTGACAAATAAAATAGCCTGAT -AGGATAGGCTGTTAGCATTATTTCGTGTTTTTCGACGACGGTAATTCAATGCGGAAACAAACGTCTTGCCCGCTCTCGTC -GACCAGATACAGTTCCCCTTGCATACGGCGAATACAATCCCTGGCAATGCTTAATCCCAGACCGCTGCCCTTCACCGCCC -CTTTTCGCTGGTGGCTTCCCTGAAAAAAGGGTTCGAAGATCATGGCGCGTTCCTCTTGCGGAATGGGCGTGCCTGTATTG -ATGACATCAATATAAACCCGCGCACCATGTAAACTGCTGCGAAGGCAAATGTTACCGGATTCAGCCCCGTAGTGCACCGC -ATTGGAGTAAAGATTATCCAGTACGCTCATCAGCAGCATTGGCTCCGCCAGGCAAGCTGTTGCTTTGAGATCGACGTCGG -TATGCATCATTTTAGCCCGTGCGGGCAGGCTATGAGCAGAAACCACTGTCTCCACCAGCGGTGCTAACTCAACATTCTCC -AGTTCCACCGCACTGTCCGCCTGTTTACGGTTGTAATCAAGCAGTTGTTCGATCAGTTTTTGCAAATTGCGGCTGCTGCT -ATCAAGAATGCTCACCACCTCTTTTTGCTCTGGCGTAAGCGGCCCGACAACCTGGTCAGCCAGTAATTCAGTGCCCTCGC -GCATACTCGCCAGTGGCGTTTTTAATTCATGAGATAAATGTCTTAAAAATTGATGGCGTTGGGATTCCAGCCATGACAGG -CGCTCACTTAACCAAAGAATACGTTGCCCAACCGAGCGTAACTCGCTCGGTCCACTGAACGAGACGCTATTGCCCAGAGA -ACGCCCTTCCCCCAGACGGTTGATCATGCGCTCGATATTTTTCACCGGCCCGATAATCATCCGCGTGAAAAGCAGTACCA -TTACCAGACTCACCAGAAATAGCACCAGCGATTGCCAACCAAAATATTGCCCACGTTCGGCGATTTCACGCTGAAGCTGC -TGCCCACGAGAGAACACCACTGTGCGCGTGGCCTGTACCATTTCGGTATTGGCACTGGCAAAGGCTTCAAGACGTGCGGC -GGCGGCAGCATCGGGACCGCTGTTGTTACACTGAAGTTGAGCCAGATTGTGCAAATCCTGACGTAATGCCTGGTAGAGTT -TATCGTCCGGCAGCACGCCTGCGTGGGCATCGAGCATTTCGCTGTAACGCTTGCGCTGGCTTTGATAAACCTTCGCCAGG -GTTGGGTCGTCCAGCACGCAATACTGACGGTAACTACGCTCCATCTCCAGCGCCGCGTTGGTCATCGCTTCACTGCGCCG -GGCATCAATAAGCGTAGTGCGGTTAACCAGCGCCGCCTGATCGCTAAGCGCATTCAGGCTTTGCCAGGCTTGCCATGCCA -GCACCAACAGGGGCAGCAGAATCAGCAAAAATGCCAGCATTACCAGTTGTCGTAATGAGCGGGGAAAAACGGGCCAGCGT -TTCAAGGTGTTACTCTCGTCAGACGCGAATAGCCTGATGCTAACCGAGGGGAAGTTCAGATACAACAAAGCCGGGAATTA -CCCGGCTTTGTTATGGAATAAGGCGGTGCCTAACTCGACGTTTCGCCCGATGGTTGATATAGCTACGCTGATATCAGAAG -TTGGACGGCAGGCACCTTGTTGTGCGTCATTCGTATTTTATGTAGCACGTCCCGAAGGGGCTGACATAAGTCGGTGAATG -AGCCACTGGTTACTATTATGCAGTAACTGTGCCAATAAAGAAAATAGTTTGGTAACGTACTGATTATACGTTGCTTTGAG -GGGTTTATGTCTCCTCCGCTGTTTGAATGTAAATCAGCCACTGTGTCGCTAAAAAGAGACAACTTAAGATAAACTTATTA -GATAATATTAAAATCAATGAGTTAAGTGTCGCCAGAAAGCGACACGGCAAACCACCCATTGTCGTGATTTACAGACACAA -AAAAGCTCCCGGAGTTGGGAGCTTATGATAGTGGTTGGTGCTTAATGCCGCATCCGGGCTGCAAAACCAATGGGCTGACG -ACTTACCCCAACTGCTTACGCGCATTGCGGAAAATGCGCATCCATGGGCCATCCTCGCCCCAGTTTTCCGGATGCCAGGA -GTTGCTGACAGTACGGAAAACACGTTCCGGGTGCGGCATCATAATGGTGACTCGACCACTTTCAGTCGTGACTGCCGTAA -TACCGTTCGGTGAACCGTTCGGGTTAGCCGGGTAGGTTTCAGTGACTTTGCCGAAGTTATCGACATAGCGCAGTGCCACC -AGCCCTTTGCTTTCCAGTGCCGCCAGATGCGCCGCATCACGCACTTCCACGCGCCCTTCACCATGAGAGACAGCAATCGG -CATTTGCGAGCCCACCATCCCCTGCAACAGCAGAGACGGGCTTTGGGTTACTTCAACCAGGCTGAAACGCGCTTCAAAGC -GATCGGAGGTATTGCGCACAAAACGTGGCCACAACTCACTACCTGGGATCAGTTCACGCAGATTAGACATCATCTGGCAA -CCGTTACATACCCCCAGCGCCAGCGTTTGCGGACGGTGGAAGAAGGTTGCAAACTCATCGCGTACACGGTCATTGAACAG -GATTGACTTCGCCCAACCTTCACCGGCACCCAGCACATCACCGTAGGAGAAACCACCGCACGCGACCAGGGCGTGGAAAT -CTTCCAGGCCCGTGCGTCCGGTCAGCAGGTCACTCATATGCACGTCGATAGCATCAAAGCCTGCACGGTGGAAAGCTGCC -GCCATTTCAACATGCGAGTTCACGCCCTGCTCACGCAGTACGGCAACTTTCGGACGTGCGCCAGTGGCAATATACGGTGC -TGCCACATCTTCGTTGATATCGAACGACAGTTTTACATTCAGGCCCGGATCGGCGTCGTTAGATTTCGCCTGATGCTCCT -GATCGGCACACTCCGGGTTGTCACGCAGGCGCTGCATCTGCCAGGTAGTTTCTGCCCACCAGACACGCAACGTGGTGCGG -CTTTCGCTGAATACAGTCTGCCCGTTGGCGGTAATCACAAAACGGTCACCGGAAACCGCCTGCCCTACATAATGGACACA -ATCAGCAAGCCCATGCTGTGCCAGTACGGACTCGACCGCTTCACGGTCAGCGGCACGAACCTGAATCACCGCACCCAGTT -CTTCGTTAAACAACGCCGCCAGGCGATCGTCACCCAGAGTGGCGATATCCGCGTCAATGCCACAATGACCAGCAAAGGCC -ATTTCCGCCAGCGTTACCAGCAGGCCGCCATCAGAGCGGTCGTGATACGCCAGCAGCTTACGCTGTGCAACCAGCGCCTG -AATCGCGTCATAGAAGCCTTTCAGTTGCGCGACATCGCGTACATCTGCCGGTTTGTCGCCAAGCTGACGATAAACCTGCG -CCAGCGCCGTTGCGCCCAGCGCGTTATTGCCTTTGCCCAAATCAATCAGCAGCAGTGCGTTATCTTCGGTAGAAAGCTGC -GGCGTGATGGTGTGACGTACATCTTCCACGCGGGCAAATGCAGAAATCACCAGCGACAGCGGCGACGTCATTTCGCGCTC -TTCGTTACCTTCCTGCCAGCGGGTTTTCATCGACATGGAGTCTTTACCCACCGGGATCGTCAGGCCCAGCGCCGGACAAA -GCTCTTCGCCCACGGCTTTAACGGCTTCATACAGGCCCGCATCTTCACCAGGGTGGCCTGCCGCCGCCATCCAGTTGGCG -GAAAGTTTGATGCGTTTGATATCGCCAATTTGTGTTGCGGCGATGTTGGTTAACGCTTCACCGACCGCCAGACGGGCAGA -GGCGGCGAAATCCAGCAGCGCAACCGGCGCACGCTCGCCAATCGCCATCGCTTCACCGTAGTAGCTGTCGAGGCTGGCGG -TAGTGACCGCGCAGTTAGCGACCGGCACCTGCCACGGCCCCACCATCTGATCGCGCGCTACCATGCCGGTTACGCTGCGG -TCGCCAATGGTCACCAGGAAGGTTTTTTCCGCCACAGTCGGCAGATGCAGCACACGTTTCACCGCGTCTGCAATGGTGAT -CCCTTCACGGGCCAGCGCGTCGCCTTTCGCTTTCAGCGTTTGTACATCGCGGGTCATCTTCGGCGTTTTACCAAGCAGGA -CGTCCAGCGGCAGATCGATCGGCTGATTATCAAAATGACGATCGTGCAGAGAAAGATGCAGTTCTTCGGTCGCTTCACCA -ATCACCGCGTAGGGTGCGCGCTCACGCTTACACAGTTCGTCAAACAGCGGTAATTGATCGGCAGCAACCGCCAGCACGTA -GCGTTCCTGGGATTCGTTACACCAGATTTCCAGCGGGCTCATGCCCGGTTCGTCGCTTAGAATCTCGCGCAGTTCAAATT -TACCGCCGCGCCCGCCGTCGCTCACCAGTTCCGGCATGGCGTTAGAAAGACCGCCAGCGCCAACGTCGTGGATAAACAGG -ATTGGGTTGGCATCACCAAGCTGCCAGCAACGGTCGATCACTTCCTGGCAGCGACGCTCCATCTCCGGGTTGTCGCGCTG -TACGGAAGCAAAGTCGAGGTCGGCATCAGACTGACCAGACGCCATAGAAGACGCTGCACCACCGCCAAGACCGATGTTCA -TTGCCGGGCCGCCGAGAACGACCAGCTTCGCACCGACGTTGATCTCGCCTTTTTGTACGTGATCGGCGCGAATGTTGCCG -ATCCCGCCCGCCAGCATGATCGGTTTGTGATAACCGCGCAGCTCTTCGCCGTTGTGGCTGTTCACTTTTTCTTCATAAGT -ACGGAAGTAGCCGTTCAGTGCCGGACGACCAAATTCGTTGTTAAACGCCGCGCCGCCCAGCGGGCCTTCGGTCATGATGT -CCAGCGCGGTGACAATGCGCTCAGGCTTACCGAAATCTTCTTCCCACGGCTGTTCGAAGCCAGGAATTCGCAGGTTGGAA -ACGGAGAAACCAACCAGACCCGCTTTCGGCTTTGCGCCGCGCCCGGTGGCACCTTCATCGCGGATTTCACCGCCGGAACC -GGTCGCCGCGCCCGGCCACGGAGAAATCGCCGTCGGGTGGTTGTGAGTTTCGACTTTCATCAGAATATGCGCCGGTTCCT -GATGGAAATCGTAGCGGCCCGTTTCGTGGTCAGCAAAGTAGCGGCCCACTTCAGAACCTTCCATTACGGCGGCGTTATCT -TTATAAGCAGAGAGAACGTGATCTGGCGTGGTTTCGAAAGTATTTTTGATCATCTTGAACAGCGATTTCGGCTGCTGTTC -ACCATCGATAACCCAGTCGGCGTTAAAAATTTTGTGGCGGCAGTGCTCGGAGTTCGCCTGGGCAAACATATACAGTTCGA -TGTCGTTCGGGTTACGACCAAGCTTTGTGAAAGCATCCTGCAGATAGTCAATTTCATCTTCCGCCAGAGCCAAGCCAAGA -CGCAGGTTAGCGTCGATCAGCGCCTGACGGCCCTGCCCCAGCAAATCAACGCTGGTAACCGGAGTCGGTTGATGGTGGGC -AAACAACTGCTCTGCATCATCTAAAGCAAAAAAGACCGTTTCCATCATGCGGTCGTGCAGTTCAGCGGTAACCTGCTGCC -ATTGTTCATTGGTCAGCGTACCGGCTTCTATATAGTAAGCAACGCCGCGCTCAAGGCGGTTTACCTGTTGTAGCCCGCAG -TTATGGGCAATATCGGTCGCTTTCGAAGACCAGGGAGAGATGGTGCCAGGACGCGGGGTCACCAGCAGGAGTTTGCCTTG -CGGGGCGTGGCTGGCGAGTGCCGGGCCATATTTCAGCAGGCGTTCAAGTTGTGCGTGCTCATCATCGTTTAACGGCGCAT -TGAGGTCAGCAAAATGGACATACTCGGCGTAAATATTGTGAACCGGGAGCCTGGCAGCCTGAAAACGTGCCAGCAGTTTG -TTGATTCGGAATGCCGACAGTGCAGGCGAACCACGCAGAATTTCCATCATAAGTCTCTCGTCTTCTAAGCTTTCGGTGTA -CCCAAGGGGGGGAAACGGGCGTCATTATAAAGAATCTGATGCGCTGACGAAACCGTTTGCGTGGAAATAAAATCACCATC -GTGAATTAGCAACGCGTGCCGCCAATGGCTGTAATAAGTTGCCATCTGGCGCAGGTTTACGCAAAATGCCGCTCATTTAT -GAGTAAACCTTTCACTATTATTACGTTTTTTCAAGCTGGGACGCGCACGACACAGAGAATTAACTAATTGAAAAAATTAA -AGATTAATTATCTGTTCATCGGCATTCTGGCACTGCTGCTCGCGGTCGCTCTCTGGCCATCCATTCCCTGGTTTGGTAAA -GCCGACAACCGTATCGCCGCCATTCAAGCGCGGGGAGAGTTGCGTGTGAGCACCATTCATACTCCCCTGACTTATAACGA -AATCAACGGGAAACCTTTTGGCCTGGATTACGAACTGGCGAAACAGTTTGCCGATTACCTCGGCGTAAAACTGAAAGTGA -CCGTGCGGCAGAATATCAGCCAGCTGTTTGACGACCTTGATAATGGTAACGCCGACCTGCTGGCGGCAGGACTTGTCTAT -AACAGTGAGCGGGTAAAAAATTATCAGCCTGGCCCTACCTATTATTCCGTGTCACAACAACTGGTTTATAAAGTGGGTCA -GTATCGCCCACGTACGCTGGGCAACCTGACGGCGGAGCAACTCACCGTTGCACCGGGTCATGTGGTGGTTAACGATCTCC -AGACCCTGAAAGAAACAAAATTCCCGGAATTAAGCTGGAAGGTAGACGACAAAAAAGGCTCTGCGGAATTAATGGAAGAT -GTCATCGAAGGAAAACTCGATTACACCATTGCTGATTCTGTCGCCATCAGCCTGTTTCAGCGCGTTCACCCGGAGCTCGC -CGTAGCGCTCGATATCACCGATGAACAACCGGTGACTTGGTTTAGCCCGTTAGATGGCGATAATACCCTTTCCGCCGCCC -TGCTCGACTTCTTCAACGAAATGAATGAAGACGGTACGCTGGCACGCATTGAAGAGAAATACCTGGGGCATGGCGATGAT -TTTGATTACGTCGATACGCGCACATTTTTACGCGCCGTCGATGCGGTACTGCCGCAGTTAAAGCCCCTGTTTGAGAAATA -CGCCGAAGAAATTGACTGGCGTTTGCTGGCCGCTATTGCTTATCAGGAATCGCACTGGGATGCACAGGCCACTTCACCGA -CGGGTGTGCGCGGCATGATGATGTTAACCAAAAATACCGCGCAAAGCCTCGGCATTACGGATCGTACCGATGCCGAACAG -AGCATCAGCGGTGGCGTGCGTTATTTGCAGGATATGATGAGTAAAGTGCCGGAAAGTGTGCCGGAGAACGAGCGGATCTG -GTTTGCCCTCGCTGCGTACAATATGGGCTATGCGCATATGCTGGATGCCCGCGCCCTGACGGCAAAAACCAAAGGGAATC -CTGACAGTTGGGCTGACGTAAAACAGCGTCTGCCTTTACTTAGCCAGAAACCCTATTACAGCAAGCTGACTTACGGCTAC -GCTCGTGGACATGAAGCCTACGCTTATGTCGAAAATATTCGTAAGTATCAGATTAGCCTGGTGGGTTATCTGCAAGAGAA -AGAGAAGCAGGCTACAGAAGCGGCGATGCAACTGGCGCAGGATTATCCGGCGGTATCGCCTACGGAGTTGGGCAAAGAGA -AATTTCCTTTTCTCTCGTTTCTTTCCCAGTCGTCATCAAACTATTTGACCCATTCTCCCTCTCTGCTGTTTTCCAGGAAA -GGGAGTGAAGAGAAACAAAATTAATCCGTCGAGGATTGCGCTTTTTTCTGCGCTTTAATTTCCTGGCGGCGCATGCGAAA -GAAGTCACTGAGCAACGCCGCGCACTCATCCGCCAGTATTCCTTCCGTAATTTCCACTCGGTGATTCATACCCGGATGAT -GCAGCACATCCATTAAAGATCCCGCAGCGCCAGTTTTCGCGTCACGCGCACCAAAGACCACGCGACCAATGCGACTGTGG -ATCATCGCTCCGGCACACATTACACATGGTTCAAGCGTGACATACAACGTGGCGTCGATCAGACGATAATTTTGCATCAC -CAGACCACCCTGCCGCAGGGCCATGATTTCTGCATGTGCGGTGGGATCATGGCGACCAATCGGGCGGTTCCAGCCTTCGC -CGATTACCCGATTGTTATGCACTAATACCGCGCCGACCGGCACTTCCCGCTCATCCCAGGCACGTTTCGCCAGCGTCAGC -GCGTGACGCATCCAGTATTCGTGGCTAAATTCGACTTCAGACAAAAAGAAAACTCCGGTTATAAAAGCGCGGCGCATTAT -ACACGGACGCTATGCTTTACTCTATTCCAGTTGCTGGAGTTCACCGCGCGGGGTTACTCGCCAACGATGCTGACAGAAAT -AAAGCAGCGGATTGTCCTGATTACTGTCGCTATAGCCACTGTACAGCCGCAGCGGAGTGCCGATTTTGCGCTCCAGTTGT -GCGACCTTTTCATGTCCCAGACAACGCATCGTCAATACCCAACCACCATAGCCACGCTGAATTTGGCTGGCGATAAGATT -AACCCGCGGCAGCCAGGGCGTATCGAAATAAACCGCTTCAACCAGCGGCTGCGGAGAGCCGGTAATCAACCAGATATCAG -CATCGGAACTTAACAGGTAGGTGGTTAATCGCTCCTGAACCAGCGGAAAGGCGGTAACATTGTCGCGAAACCAGCGCACG -AAATCGGCCTGCAACGTCTGTAAACGTGCTTCGCTGTGACCAAAAGTGCACCCCCACAGAAGCAGACTCATCGGCCAGCG -TGCCGCACGACCTTTTATCAATAACGCAATGGCTATAATCGGTAACAACGGCAGGACAAGTAACGCATTCAGCGGTTGGC -GACGTAGTAAATAGCGCAGAAAACTGCCGAACATATCCTGCTGATGCAATGTTCCATCTAAGTCAAAAAACACCACACGA -CGCTCGTGAGTTGCCAAACCATACTCCTCTGGACTGAAACATCCTGATTAATTTTCGCTACTACATAGCCTAACAGATAG -ATCATCACTTTTCCGGCAACAATCGACCGCATCATGGCTAACTGGAATTTTTAATTCATGGCAATTAGCGGCAATGGAAT -ATAAAATTCACTCGCGTGTGTCTCATATTGCCTGTTGTCGCCACTATTTCATCGCGAGGAAAGATATGAACGGCTTACTT -CGTATCCGTCAGCGTTACCAGGGGCTTGCCCAGAGTGATAAAAAACTGGCGGATTATCTGCTGCTACAACCTGATACGGC -GCGCCATTTAAGCTCTCAGCAACTGGCCAACGAAGCCGGAGTCAGTCAGTCCAGCGTCGTGAAGTTCGCGCAAAAACTCG -GCTATAAAGGTTTTCCGGCGCTTAAGTTGGCGTTGAGTGAAGCGCTGGCAAGCCAGCCGGAATCACCCTCCGTGCCCATT -CATAACCAAATCCGCGGTGATGATCCGTTACGGCTGGTCGGCGAAAAACTGATTAAAGAAAATACTGCCGCTATGTACGC -AACGCTAAACGTTAATAGTGAAGAGAAACTGCATGAATGCGTAACAATGTTGCGCTCTGCGCGGCGGATAATTCTGACCG -GTATTGGCGCTTCGGGTCTGGTGGCGCAAAACTTTGCCTGGAAGCTGATGAAGATTGGCTTCAATGCTGCCGCAGTGCGC -GATATGCATGCGCTACTCGCAACAGTACAGGCGTCGTCCCCTGACGATCTGTTATTAGCCATTTCCTACACCGGTGTACG -ACGCGAGTTAAACCTGGCGGCAGATGAGATGCTGCGAGTGGGCGGAAAAGTGCTGGCGATTACCGGCTTTACTCCGAATG -CCCTGCAACAGCGTGCTTCTCATTGCCTGTATACCATTGCCGAAGAACAAGCGACAAACAGTGCTTCAATCTCTGCTTGT -CACGCTCAGGGAATGTTAACGGATTTGCTGTTCATTGCGCTGATTCAGCAGGATCTGGAACTGGCACCAGAACGTATTCG -TCATAGTGAAGCGCTGGTGAAAAAACTGGTCTGAGTAAAGAATGCGCGTATAATGCCCGCCCGGTTTGTGTTGTTTTGAG -AGTTTCCTTATGGCGTTGTTAATCACTAAAAAATGCATCAATTGTGATATGTGTGAACCCGAATGCCCGAATGAGGCGAT -TTCAATGGGAGATCATATCTACGAGATTAACAGCGATAAGTGTACCGAATGCGTAGGGCACTACGAGACACCAACCTGCC -AGAAGGTGTGCCCGATCCCCAATACTATTGTGAAAGATCCGGCGCATGTCGAGACAGAAGAACAGTTGTGGGATAAATTT -GTGCTGATGCACCACGCGGATAAAATTTAATATTCTACTCTGGAAGTAGAGTATTAATTATATTACTGGGAAGCCTTAAC -GCCATTATATTTATTTAATTGATGACATTAGCATAATCATTCACTAAGTTAATTTATATAGTATCTGCCCAGACACTTAT -TTATAGTTATTAAAGGTGCGTCCGACTGGTTCACCGGACGCACCTTAAGTACGTTTCCTTGTGTTATAAGAACAGAAGGA -TCAGCTGTAAAACAGCAATGATGATTTTGATGACCCGTTTAATCAGGTATCGGCAATCAGTCATTCGTTTTTCCTTAAAC -AAGGAATGCAGCCATTCAGATTAGCCCTTACATCTCCCCAAAACTGAACGTGCGAGTTATTGAGGGTGCATGCTGCACTC -CACACCAGAGCTTTGACGACACCACTCGTTTCAATGGGGGAATTCTGTGGCATGGTGTAAAGCACAGCAAAATCTTCAAT -AACGAAGCCAATTTTAATGTACTTACGAATTGGCGGTCACGTTAATCTTTCCATCAATATTGCTTTCTTCGTAAAGGCTC -GAGTTTTTATGCTAAAGATTGCAAGTTGCTTGTAAAAGATAAGTACACTGATCCATAATCGCTGTTGTTGAGGGTGCATG -CTGCACAAAATTAAAGTTAAAAAGTAAAACCCCCGTTCCTTACCAGTTCGGGGGTTTTACTTTTTAAAGAGAACGGTATT -ATTTTTAACTTTCAATAATTACCGTGGCACAAGCATAGTGCCGCTCATCTGCCAGCGTTACATGCATATTTGCAACGCCC -AGCTTTTCCGCCAGTTTTAATGCCTCGCCCCATAGCCGTAGCCGTGGTTTGCCAAGCTCATCATTGAATACTTCAAATTG -ATTAAACGCCAGACCATTGCGGATCCCGGTGCCAAACGCTTTTGCTGCGGCTTCTTTCACAGCAAAACGCTTCGCCAGAA -AACGCACCGGCTGGTGGTGCGTTTTCCAGATAGCCCATTCGTTATCGCTTAATACGCGGCGTGCCAGGCGATCACCGGAT -CGGGCGATCACCGCTTCGATGCGAGCGATCTCCACAATATCCGTGCCTAAACCTAATATTGCCATTAGCCACGCGCTTCC -AGCATCAGACGCTTCATTTCTGCCACCGCATCTTTCAGTCCGGTCATCACTGCACGACCAATAATGGCATGACCGATATT -CAGTTCATGCATCTCAGGGATGGCGGCAATGGCTTTCACGTTGTGATAGGTCAGACCGTGTCCGGCGTTAACTTTCAGAC -CGAGGCTTGCGGCAAAGGTCGCGGCTTTGGCGATACGCGCCAGCTCTTGCGCCTGTTCGGCGTCAGTTTTGGCATCAGCA -TAGCAACCGGTGTGGATCTCGATAAACGGTGCGCCAACCTCTGCCGCAGCTTTGATCTGCTCTTCATCGGCGTCAATAAA -CAGAGAAACCTGAATCCCGGCATCTGCCAGACGTTTGCAGGCATCGCGCATTTTGTCACGCTGCCCTGCGACATCCAGGC -CGCCTTCGGTTGTTACTTCCTGACGCTTTTCCGGTACCAGGCAGCAAAAATGTGGCTTCGTCTCAACGGCGATCGCCAGC -ATCTCTTCGGTCACCGCCATCTCCAGATTCATGCGGGTATCCAGCGTCTGACGCAGGATGCGCACGTCGCGGTCAGTAAT -GTGACGGCGATCTTCACGTAAATGCACGGTAATGCCGTCCGCTCCCGCCTGCTCGGCAATAAACGCGGCCTGCACCGGAT -CCGGGTAAGCGGTACCGCGCGCGTTGCGCAGCGTAGCGATATGGTCAATGTTGACGCCTAACAGTAATTCAGCCATGACA -ATCCTCATCATTCATAATGTGTTTTCACCGTTCGCTTAGGCATAAACTGCCGGAACAGTTCCCTGCTCTTTAAAGGTTTA -CCGCCAAGATACGGCTTAAGCGCCATGCGGGTAAAGCGTTTCGCGGCGCGCAGTGTGTCTGCGTCAGGAAATTCCCGTGC -GTTTAACGCTTTTAACTGCCTTCCGGTGAACGTTTTATTGTCGATAACGACGCTTGCGATAAACCCTTTTTCTTCGCGAT -AACGATACGTCATGGTGTCATCTACCGGCTCGCCGCTACCCGCACAATGGGTAAAATTGACGCCATAACCCAGATGCCCG -AGCAGTGCCAGTTCAAAGCGGCGCAGCGCGGGTTCTGGCGTACCAGTGACCCCTGCAAGAGACTGAATGCAGTGCAAGTA -ATCGAAAAAAAGTTCAGAGAAGCGCGTCTCGTATTCCAGTACGCGGGAGAGAAGTTCGTTGATGTACAGACCGCTGTAAA -GCGTGATACCGCTTAATGGCAGCGCCAGCGAGACGGCTTCAGCACTGCGCAGCGTTTTGACTTCGCCACGCCCGCCAAAA -CGTAGCAAGAGAGGGGTGAAAGGCTGTAATGCACCTTTCAGGGTAGAGCGTTTAGAGCGTGCGCCTTTGGCAACCAGACG -CACGCGCCCCGATTCCTCCGTGAAGACGTCCAGCATCAGGCTGGTTTCGCTCCACGGGCGACTATGCAGGACAAATGCGC -GCTGCCAGCCTTCCATCGGAGTTACTCTTAAAGATCGTCAACGTAACCGAGACTGCGCAGTGCGCGTTCGTCGTCGGCCC -AACCGGATTTCACTTTTACCCACAGTTCAAGGTGAACAGGCGCTTCGAACATTTCCTGCATGTCTTTACGCGCTTCAATC -CCGATGGTTTTGATCTTGGCCCCTTTGTTGCCAATGACCATCTTCTTCTGCCCTTCACGCTCAACGAGAATCAAACCGTT -GATGTCATAACCACCGCGTTCGTTAGAGACGAAACGTTCGATCTCCACGGTCACGGAGTACGGCAGTTCAGCGCCGAGGA -AACGCATCAGTTTTTCGCGGATGATTTCAGACGCCATAAAACGCTGTGAGCGATCGGTGATGTAATCTTCCGGGAAGTGA -TGAGTCGCTTCAGGTAGATGCTTACGCACGATTGCCGCAATAGTGTCAACATTCAGCCCGGTTTCGGCAGAGATTGGCAC -GATATCGAGGAAGTTCATCTGGCTTGCCAGGAACTGCAGGTGCGGCAGCAGATCGGCTTTCTCCTGCACGTTGTCCACTT -TGTTCACCGCGAGGATTACCGGCGCTTTGCCTTCGCGCAGTTTGTTGAGCACCATTTCGTCGTCCGGCGTCCAGCGGGTG -CCTTCAACGACAAAAATCACCAGCTCAACATCGCCAATAGAGCTGCTCGCCGCTTTGTTCATCAGGCGGTTAATGGCGCG -TTTTTCTTCCATATGCAGGCCCGGTGTATCGACGTAGATCGCCTGATACGCGCCTTCAGTATGGATCCCCACAATGCGGT -GACGAGTTGTCTGCGCCTTGCGGGAAGTGATGGAGATTTTCTGCCCCAGCAGTTTGTTCAACAATGTGGATTTGCCAACG -TTCGGACGTCCGACGATGGCAATAAATCCGCAGTAACTTTTATCGATGCTCATTCCAGCTCCAGTTTTTTCAACGCCTGT -TCGGCGGCAGCCTGCTCAGCCTTACGACGGCTTGAACCTGTGCCAACCACCGGTTCACTCAGGCCGCTGACCTGGCAGTG -GATAGTAAATTCCTGATCGTGCGCTTCGCCACGTACCTGGACTACCAGATAAGTCGGCAGCGGCAGATGGCGACCCTGCA -AATATTCTTGCAAGCGCGTTTTCGGATCTTTTTGTTTATCGCCTGGGCTAATTTCGTCCAAACGAGTTTGATACCAGTTG -AGGATTAATTTCTCGACGGTTTGAATATCACTGTCGAGGAATACGCCACCAATTAATGCTTCGACGGTGTCGGCGAGAAT -TGACTCACGACGAAATCCACCGCTTTTAAGTTCACCTGGCCCTAAACGTAAGCACTCGCCTAACTCAAATTCGCGCGCCA -GTTCCGCCAGCGTATTGCCACGGACCAGCGTGGCGCGCATCCGGCTCATATCGCCTTCATCCACACGAGGGAAACGGTGA -TAAAGCGCATTGGCGATAACGTAGCTCAGAATAGAGTCGCCTAAAAATTCTAAACGCTCGTTATGTTTACTGCTGGCACT -ACGATGAGTTAATGCCTGCTGCAACAGTTCCTGATGATTAAAAGTGTAGCCCAGCTTCCGTTGAAGCCGATTAATTACGA -TGGGGTTCATGCGATACCAATAAATAAATGCGTCAACAATTCAGCACACGAAACAGACCTGATATACATGGTTCTGCTAA -CTGCTTCGCTGCAGTTTCAGTTTACCGGTATATGGGGACCAACGCTGTTTCGTGTGCCGTGGCAACCTGGAGGTGCCAAC -CTTAAACTTCGGGGGAATATTCTATACACAACGACGGGGGATGTCGTTAGCCACGGGAGATTTATCTCATAAATAATTCA -CGTTGTCGCCATAACGGCGACAACGTGAACGAAGATGGCTATTAATGGATGCCGCCAATGCGACTTAAGCGCAGACCAGT -CGGCCATTCGCCTTCTTGCTTATCGAAGCTCATCCAGATAGCCGTTGCCCGACCGACCAGATTCGCTTCCGGCACAAAGC -CCCAGTAACGGCTGTCCGCGCTGTTGTCGCGGTTGTCGCCCATCATGAAGTATTGTCCCGGAGGAACAATCCAGGTTGCC -AGTTGTTGCCCTGGCTGCTGGTAATACATCCCCACCTGATCCTGCGCAATCGGCACTGTCAGAATGCGGTGCGTCACATC -ACCCAGTGTCTCTTTACGCTCGGAAAGACGAATTCCATTTTCTTTGGTTTCGTTTTTCGGCACTTCAAAGAATCCGCTGG -TCGCTTCCCCACCATTACGGCGTGAGAAGGTCTGAACGAAATCGCTCGGTTCCACGTTTGAGTAGGTGACCGGCAGCGCG -TTTTCACACGCCTGGCCGGAACTGCATCCCGGTTGAATCGTCAGCTCTTTTGAGACCGGATCGTAAGTGACTTTATCGCC -CGGTAAACCCACCGCGCGCTTGATGTAATCAAGCTTTGGATCTTCCGGATATTTAAAGACCACGATATCGCCGCGTTTCG -GATGACCGGTTTCGATCAGCGTTTTCTGGTAGATAGGATCTTTAATGCCATAAGCAAACTTCTCTACCAGAATAAAATCA -CCAATTAACAGAGTCGGCATCATCGAACCTGACGGGATCTGGAACGGTTCATAAATAAACGAACGCACAATCAATACGAT -AGCCAGTACCGGAAAAACAGAAGCACCGGTTTCCAGCCAGCCAGGCTTCGGCGCAACCTTTTTCAACGTTGCTTTATCCA -GTGAGTCCCCGGCAGCCGCCTGCGCCGCTGCCTGACGTTCCCGCCGTTTAGGTGCGAAAAAGAATTTATCCACGCACCAT -AAAATGCCCGTCACCAGTGTGGCAATCACCAGAATCAGGGCAAACATATTCGCCATGCCAACTCCTAAGGGTTATTTGTT -GTCTTTGCCGACGTGCAGAATGGCGAGGAACGCTTCCTGCGGCAGCTCGACGTTACCGATCTGCTTCATGCGTTTCTTAC -CTTCTTTCTGCTTCTGCAGCAGCTTTTTCTTACGGCTGATATCGCCGCCATAACATTTAGCCAGTACGTTTTTACGCAGC -TGTTTCACGGTGGATCGCGCAATGATGTGCGTACCAATCGCTGCCTGAATGGCGATATCAAACTGCTGGCGTGGGATCAG -ATCTTTCATCTTCTCCACCAACTCGCGACCGCGGTTTTGCGAATTATCACGGTGGGTGATCAACGCCAGCGCATCAACAC -GTTCACCGTTGATTAATACGTCTACACGTACCATGTCGGACGCCTGGAAGCGCTTGAAGTTGTAATCCAGAGACGCATAA -CCACGCGAGGTAGATTTCAGGCGATCGAAGAAGTCGAGCACCACTTCCGCCATCGGGATCTCGTACGTCAGCGCCACCTG -ATTACCGTGGTAAACCATATTGGTCTGCACGCCGCGTTTTTCTACGCACAACGTAATAACGTTGCCGAGATATGCCTGCG -GCAGCAGCATGTGACACTCTGCAATCGGCTCGCGCAGTTCGTAGATGTTATTTACCGCAGGCAGCTTGGATGGGCTGTCG -ACGTAGATAACTTCTCTTGACGTGGTTTCAACTTCATACACTACGGTCGGCGCAGTGGTGATCAGATCCAGATCGTATTC -ACGTTCCAGACGTTCCTGGATGATCTCCATGTGCAGCAGGCCGAGGAAGCCGCAGCGGAAACCAAAGCCCAGCGCGCTGG -AGCTTTCCGGCTCATAGAACAGTGAGGCATCGTTCAGGCTGAGTTTACCCAGCGCGTCACGGAAGGCTTCATAGTCGTCG -GAACTTACCGGGAACAGACCGGCGTATACCTGCGGTTTGACTTTCTTAAAGCCAGGCAGCGCCTTTTCTGCCGGATTACG -CGCCAGCGTTAAGGTATCGCCGACTGGAGCGCCGTGGATATCTTTAATCGCACATACGAGCCAGCCTACTTCGCCACATT -TCAGTTCAGTGCGGTCAACCTGTTTCGGCGTGAAGATGCCCAGACGGTCGGCGTTATAGGTCTGCCCGGTACTCATGACT -TTCACTTTGTCGCCCTTACGCAGGGTGCCGTTTTTAATACGGATAAGTGAAACAACGCCCAGGTAGTTGTCGAACCATGA -GTCGATAATTAGTGCCTGCAACGGGCCTTCCGGATCGCCTTCCGGCGGCGGAATGTCGCGCACCAGACGTTCGAGAACGT -CCTGCACACCAACGCCGGTTTTCGCTGAACAGCGCACCGCGTCGGTGGCGTCGATGCCGACGATATCTTCAATTTCTTCC -GCCACGCGTTCAGGATCGGCTGCCGGCAGGTCAATCTTGTTCAGTACCGGCACAACTTCGAGATCCATTTCCATGGCGGT -GTAGCAGTTTGCCAGGGTTTGCGCTTCTACGCCCTGCCCGGCGTCGACCACCAGCAATGCACCTTCACAGGCAGCCAGCG -AACGGGAAACTTCATAGGAGAAGTCTACGTGGCCCGGGGTGTCGATAAAGTTAAGCTGATAGGTTTCGCCGTCAGACGCT -TTGTAGTCCAGCGTCACGCTTTGCGCTTTGATGGTAATGCCACGCTCACGCTCAAGATCCATGGAATCGAGAACCTGCGC -CTCCATTTCACGGTCAGACAGGCCACCGCAGATCTGGATAATACGGTCAGACAGCGTCGATTTACCGTGGTCAATGTGAG -CTATGATCGAAAAGTTACGTATATTCTTCATAAAGTATGATTATTGTGCCTTAATGCCCGGTTAACCAGGCTTTTAGAAG -TCGCTGTTCTGAGCTTAACGTCTGTATTAATAGAAACGCCGCATTCTACACTACAACATTGAGGCGAGGAAATGTTCATA -CCGTATGGATTGTGGTATCTGGAAACGTCCTCGCATTTGTTATGCAAAATGCAACAAAGCCAGTGAAATCACTGGCTCGC -GTCTTCCGAAGATGTTTCAAATCGCACAAGGCCAGGCGGCAATGCCACGCTTAAGATGATCGGTTGCCATTCTGCCCGGG -CAGCAAACTTACGCGAGTAGCCGCGCGCAATCAGGAACCCGCCAATACCACCGAGGATCGCACCACATAATGCTGCGACG -TCAGAAGCAAAGAGTAGCTGAAATAGCGAAGCGATAAGGAATAATCCCACCAGCGGCGACATATAAACCAGTAATGCGGA -GCTAAGCAGGCTGCCTTCGGCGATCCCCAATTCCACTTTTTGCCCCGGCACTAACGGCTCATCACAGGGTACGACAATGG -TATGCGTGGTTTGCGGGCCAAGTTTATTTAACACGCGGCTACCGCAACCGGCGCGTGAAGCGCAGCTGCTGCATGAAGCT -TTAACATCACAACTGACCAGCGCCTGCCCGTTTTGCCAGGAGACGACGGTAGCCCACTCTTTGATCATTGCGCTGCCCCG -AACTTAATATTCTCGGCAATGCGTTTCGCCGTTTGCGGCGGCAGTTCACCGACAATGGTGATTTCGGCGTTATCACGTAC -GCTTGTACTGACGGTTCTGCGTCCGGTGCGCAACATCTGATCGGTGCTCGATGGCGTAGCGCGGTTAACGTTTACCGAGA -AGCTGAATAATCCGTCGGAATAGAGACGTGATTCGATAGGCATGTTGTCCATCGTCGGTAGCGGACGTCGACTACTGGAA -ACTTCGCTAAAACCCTGTGGCAACCAGGTTGGCGTCCAGCTGAATTTAGCTTTTTCACCTACAGGAACAGAAAGCAACGG -CGGCAAATTTGCCTTCGCCAGCGTCTGCATACTGCTGCTGATATCCTGATTGACGTTAAAAGCAATCACGCGAAATTGTT -CCAGCGTTTCACCATCGCGATCAAGGAGATCAACCCGCATCGGTAATTTCGATTCGGTGTCCATCCACACGATGTAGCTG -TAGCGTGTACCATCTCGGGCAACCACGCGAATGACTTCGCAAAGACGATCAGCAATACGCGTGCGCCCGACGGAGATAAA -GTCGTAGTAAGGAGAAAGGCGTTTGAAATCGGTATAGATAAGCGATGGCAGAGAATCAACAATGTAATCGCCATTAAGCG -TGAACGGTTCAAGTCCCGGTTCAAAATAGCTGATTTCATTGCCGCGCTGTACCACTTCCCGGCGCGGGCCATCCATTTGC -AACAATTGTGCAAGAGGACGGTTATCGAGGCGTGCATGTCGATAACGCAGAGACTCAACACCCTGTTTATTGATGCTGAT -GAATGACAGCTCGTAATTCAGTGACTGACTGGCCAGGTTCATCTGCTGTAATAACGCCCCGGACGCGGGAGTGGCCGAGG -CGTTAGCAGAGAATAACAGGCTACCTGTCACTAATGACATGGCAAACCAAAGTTGCTTCATTACTGCGATTGCGTTCCTA -AAGTTTGAATTCCTGGCACCTGTACAGCGGCTTGCTGGGTTTGCGCCTGCTCAAACTGAAGCTGTTCAGAGTGGAGTCGG -CGTTGCAGTTCGTAATCCTGCAACATTGCATTAATGCGACGACGCTGCTCCTGTACCTGCTGCTGTTGACCATTGTTTGC -GGTCGCTTCAGAAGGTACTCCCAGGCTTACCGGGCTGGCTTTACCCATCATCGGCAGTGTATTAAATACCGGCGTTTCGG -GCTGCTGGGACGTTTCAGATTGTCCATTATAGTGCTGGACGCCAACGATAACTGCAAGCGATACGCATGCGGCTACGCCC -ATTTGGGTAAGCTGTGCCGCCCACGGACGTACTTTCTGCCAGAATGGCATTTTCTGCCATTGATGCGGCGCAGGCTGGGC -TTCCGGGATCAATGTCGCCGGTTGACGTACTGGCTCTTCTTCAATGGCGGCCATCACGCGTGAAGAGATATCGAAATGGA -GCACCTCGGGAGTATCACCCCGCATTGAGTCACGGATTAAGTGATAGCTTTCCCAGGTTTTCTGCATTTCTGGGTTATGA -GCCAGTTCGTTAAGCAGCTCACTATCCAGCGTTTCGCCATCCATTAAAGCGGAAAGTTGTTCTTTCTGCATGCCTAATAC -CCTTATCCAGTATCCCGCTATCGTCAACGCCTGATAAGCGGTTGAACTTTGTTATCAATAGCTTCCCTCGCTCGGAAGAT -ACGTGAACGCACCGTACCTACCGGACAATCCATGATAGCGGCTATCTCTTCATAGCTCAGGCCATCCAGCTCCCGCAAGG -TTATTGCCATGCGTAAATCTTCCGGGAGGGACTCAATAGTTCGGAAAACTATCTGTCTCAGTTCTTCTGACAACATTAAG -TTCTCAGGGTTCGAAATTTCTTTCAACGCGCCGCCACTTTCGAAGTTTTCAGCTTCAATGGCATCCACATCACTGGAAGG -TGGACGACGCCCCTGAGCAACCAGGTAATTTTTCGCTGTATTTACAGCAATCCGATACAGCCATGTATAAAAAGCGCTAT -CTCCCCGGAACGAATCCAGCGCACGATAGGCTTTAATAAAAGCTTCTTGTACCACATCGGGAACATCACCCGACGGCACA -TAGCGGGAAACCAGACTCGCCACTTTATGCTGATAGCGCACTACCAGTAAGTTAAAGGCTTTCTGATCTCCCTTCTGGAC -CCGTTCAACCAGGACCTGGTCCGTTAACTGCTCGCTCATCCGAGGTAAAGTCTCCCCAAACCAAATTTCCACGCGCTATC -GAAACGCCACTCCATTAGCTGCAATTTGAGCAAGCAAAGGGTTAGAGTGTCTCGTTTTTGTAAAGTTCCGTAACGCATCT -GTTTTTGTTTGTCATGCTGTAGACGGATCATTATCTATCATTATAAGTCTACAGAATCTGAACATCGCATTATCTGTGTA -GAAATGCCCATTTAACTGCCTGAAGAGTAACCCAACGGCCTTTTTATTTCACCACCTAATCCTCCACCAGCCAGTAACTT -CTCTTTTTCTCGCCGCCCTGCGTCAGCGTGTTTAGCAACTGTAACAAATATTAAAATAGCAGGTGTTTATCCGCACAACA -TGATGCTATGCTGACCAAACCATGTTTAGTAAATTAAACAAAGAAAATGAATACTCTCCCTGAACATTCATGTGACGTGT -TGATTATCGGTAGCGGCGCAGCCGGACTTTCACTGGCGCTACGCCTGGCTGACCAGCATCAGGTCATCGTTCTAAGTAAA -GGCCCGGTAACGGAAGGTTCAACATTTTATGCCCAGGGCGGTATTGCCGCCGTGTTTGATGAAACTGACAGCATTGACTC -GCATGTGGAAGACACATTGATTGCCGGGGCTGGTATTTGCGATCGCCATGCAGTTGAATTTGTCGCCAGCAATGCACGAT -CCTGTGTGCAATGGCTAATCGACCAGGGGGTGTTGTTTGATACCCACATTCAACCGAATGGCGAAGAAAGTTACCATCTG -ACCCGTGAAGGTGGACATAGTCACCGTCGTATTCTTCATGCCGCCGACGCCACCGGTAGAGAAGTAGAAACCACGCTGGT -GAGCAAGGCGCTGAACCATCCGAATATTCGCGTGCTGGAGCGCAGCAACGCGGTTGATCTGATTGTTTCTGACAAAATTG -GCCTGCCGGGCACGCGACGGGTTGTTGGCGCGTGGGTATGGAACCGTAATAAAGAAACGGTGGAAACCTGCCACGCAAAA -GCGGTGGTGCTGGCAACCGGCGGTGCGTCGAAGGTTTATCAGTACACCACCAATCCGGATATTTCTTCTGGCGATGGCAT -TGCTATGGCGTGGCGCGCAGGCTGCCGGGTTGCCAATCTCGAATTTAATCAGTTCCACCCTACCGCGCTATATCACCCAC -AGGCACGCAATTTCCTGTTAACAGAAGCACTGCGCGGCGAAGGCGCTTATCTCAAGCGCCCGGATGGTACGCGTTTTATG -CCCGATTTTGATGAGCGCGGCGAACTGGCCCCGCGCGATATTGTCGCCCGCGCCATTGACCATGAAATGAAACGCCTCGG -CGCAGATTGTATGTTCCTTGATATCAGCCATAAGCCCGCCGATTTTATTCGCCAGCATTTCCCGATGATTTATGAAAAGC -TGCTCGGGCTGGGGATTGATCTCACACAAGAACCGGTACCGATTGTGCCTGCTGCACATTATACCTGCGGTGGTGTAATG -GTTGATGATCATGGGCGTACGGACGTCGAGGGCTTGTATGCCATTGGCGAGGTGAGTTATACCGGCTTACACGGCGCTAA -CCGCATGGCCTCGAATTCATTGCTGGAGTGTCTGGTCTATGGCTGGTCGGCGGCGGAAGATATCACCAGACGTATGCCTT -ATGCCCACGACATCAGTACGTTACCGCCGTGGGATGAAAGCCGCGTTGAGAACCCTGACGAACGGGTAGTAATTCAGCAT -AACTGGCACGAGCTACGTCTGTTTATGTGGGATTACGTTGGCATTGTGCGCACAACGAAGCGCCTGGAACGCGCCCTGCG -GCGGATAACCATGCTCCAACAAGAAATAGACGAATATTACGCCCATTTCCGCGTCTCAAATAATTTGCTGGAGCTGCGTA -ATCTGGTACAGGTTGCCGAGTTGATTGTTCGCTGTGCAATGATGCGTAAAGAGAGTCGGGGGTTGCATTTCACGCTGGAT -TATCCGGAACTGCTCACCCATTCCGGTCCGTCGATCCTTTCCCCCGGCAATCATTACATAAACAGATAAAAAGCCTGGGT -CAGCGCCGTATACGCTTCGGAATAGTTCTGGTCTGGCCCACGAATGACTAAGCGATCGCTAAAGCATTCTCCCGCCTGCG -GGGAGAATGCCAGCAGCACCCGATGCGGCAGTCGCGCTTCGTTTTCCGCCACATCCGTCCGCAAACGTAAATGCCAGCCC -ATGCTTAATGCCAGCTCCGTAAAACCATTACCAATCTGCTCTGGCAGCACTACGCAGAAAAATCCCTCTTCGGTAATGCA -CTCCGCCGCACAGGTCAGCAACGATGGGTGATCAAGCGTAGTGGTATAGCGAGCCTGTTCCCGTTGAGGTGTCGAGCACT -CTACTCCCTGCTGATAGTAAGGTGGGTTACTGATGATTAAATCGAAGCGTACTGTCTGCTGTGTGATCCACTGCTGAATA -TCCGCCGTATGGACGTTAATCCGCTCTGCCCACGGGGACTGGTTGATATTTTCCTGCGCCTGCGCGGCAGCTTCACTTTC -CAGTTCAACTGCATCAATCATCACGCTGTCATCGGTTCGCTGCGCCAGCATTAATGCCAGCAACCCGCTACCCGCGCCGA -TATCAAGGCAACGTTTTACCCCAGCCACCGGTGCCCATGCGCCCAATAAAATACCATCCGTTCCCACTTTCATCGCACAG -CGATCGTGAGCAACAAAAAACTGTTTAAAAGTAAATCCATTACGACGAAGCACGGATGTAGACTGTGACATGAAAATAAA -ACCTTGCAGGAAAAACGGCGATAGCACCGGGTGAGAACAATACCCGAGAAGCGATATCCATACAAACAGATGAAGATTGC -AGCCGTAACGTCTATAATCAGCGCCCCACACAGAGGTAGAACATGACTGTAACGACTTTTTCCGAACTTGAACTCGACGA -AAGCCTGCTGGAAGCCCTCCAGGATAAAGGTTTCACTCGCCCGACCGCCATTCAGGCTGCCGCCATTCCGCCTGCGCTCG -ATGGCCGTGATGTACTCGGTTCTGCGCCGACAGGCACCGGTAAAACGGCGGCGTATCTGCTGCCAGCGTTGCAGCACCTG -CTCGATTTCCCGCGTAAGAAATCCGGTCCGCCGCGTATTTTGATCCTCACCCCAACTCGCGAGCTGGCGATGCAGGTGTC -CGATCATGCCCGCGAACTGGCGAAACATACGCATCTGGATATCGCCACCATCACCGGCGGCGTAGCCTATATGAACCACG -CGGAAGTGTTCAGCGAAAATCAGGACATCGTGGTCGCCACGACCGGACGTCTGCTGCAATACATAAAAGAAGAGAACTTC -GATTGCCGCGCGGTTGAAACGCTGATCCTCGACGAAGCAGACCGTATGCTGGATATGGGCTTCGCTCAGGATATCGAACA -TATTGCTGGCGAAACGCGCTGGCGTAAACAGACCCTGCTCTTTTCGGCAACGCTGGAAGGCGATGCGATTCAGGACTTTG -CCGAGCGTCTGCTGGAAGATCCGGTGGAAGTTTCTGCCAATCCCTCCACCCGTGAGCGCAAAAAAATTCATCAGTGGTAT -TACCGCGCCGATGATCTTGAGCATAAAACCGCGTTGCTGGTGCATCTGTTAAAACAGCCGGAAGCGACCCGCTCAATTGT -GTTTGTGCGTAAGCGTGAGCGTGTGCATGAGCTGGCAAACTGGCTGCGCGAAGCGGGCATCAACAACTGCTATCTCGAAG -GTGAGATGGTACAGGGCAAGCGTAACGAAGCGATCAAGCGTTTGACCGAAGGTCGCGTAAACGTACTGGTCGCAACCGAT -GTTGCCGCGCGCGGTATCGACATTCCTGACGTCAGCCACGTCTTTAACTTCGATATGCCGCGCAGTGGCGATACTTATTT -GCACCGTATCGGACGTACCGCGCGCGCCGGTCGTAAAGGCACCGCAATTTCGCTGGTGGAAGCCCATGACCATCTGCTGC -TGGGTAAAGTAGGCCGCTATATTGAAGAGCCAATTAAAGCTCGCGTTATTGATGAGTTACGCCCGAAAACGCGTGCGCCA -AGCGAAAAGCAGACCGGCAAGCCATCGAAGAAAGTACTGGCTAAACGTGCTGAGAAGAAAAAAGCTAAAGAGAAAGAGAA -GCCGCGGGTGAAAAAACGCCATCGCGACACCAAAAATATTGGTAAGCGCCGTAAACCAAGCGGAACGGGCGTGCCACCGC -AAACGACAGAAGAGTAATCTCAATGCCAGGTTTAAGCCTGGTATTAAAAGTGCTGGCAAACGCAAAACTGCCTGATGCGC -TACGCTTATCAGGCCTACGTGGCTCATGCAATATATTGAATTTGCACGATCTTGTAGGCCGGATAAGGCGTTCACGCCGC -ATCCGGCATGAATAAAGCGCACTTTGTCGACAAGTTAAATGCCGGGTTTAATCCCGACATTATTTTTATCCAGCCACAAA -ACTCTCTTCAACACACTGAATAAAAGTGTGCATCGCCGGGCTAACCGCTTTTCCAGCATGATGTGCGCACATGGCCGTAA -TGGTCTGCGACTGTTCGCCAAAAGGCAATTCAATTAATTCTCCGCACTCCAACTCTTTTGCCACCGCAAAGCGCGGTAGG -TAGCTGACCCCGATATTCGCCGCGACACAACGCTTGATGCTTTCGATACTTATAAGCTCAATGGTGTTTTCCACCGTGAT -CCGCCGCTGACGCAGCGTGCTCTCAAATATCTGCCGGAAGACACATTGCGGTTCGTTGATAATAAAGCTACAGGCGTTAT -GTCTTCCCGGCTCAGTAAAATCGACATCTGCAATTTGCGGTGAAGCCACCAGCACCAGTGATTGTTCACCCAACTCTCGT -CGATTCAGAGCATCATCATTCCCTACACGATAAAAGACGCCAACATCGGCCTCATCATTCAGTAGCGCATCACGGATCAC -GTAACAGTTCAGCGACTGCAACGATAAACGCACTTTTGGGGCGCGTTGCCGAAAACGCTGCAACACCTGCGGCATTCGGT -AAGAGAGCAACGTTTCGCCCGAAACAACGCGTAGTTCCCCGTCCGGATCTGACTCCTTTTTGGCAGCCTCACGAAGCGTA -TCCATCACTCGGGTAAGTTCATAAATGTGCGGCAGCAACTTTTTTCCTTCGCGGGTAAGGCACATCCGTCGGCCAATTTT -CTCAAATAACTGGACTGAAAACTCCTGCTCAAGCTGCTGAATATGAAAAGTCACCGTCGATTGTGTACAGCACAATTTTT -GCGAAGCTCGCAAAAAGGAACCCTCTTCCACCACGGTTTTAAGCGTAATAAAACGGCGCAGATCCATAACCCCAAACCTA -TCGAAAATATCGAATCTAGAATATAAAAACATTCATTTTTTTAAATGTTCCGTGTCGGGTACTGTCTACCAAAACAGAGG -AGATAACAAGTGACACCGACCCTTTTAAGTGCTTTTTGGACTTACACCCTGATTACCGCTATGACGCCAGGACCGAACAA -TATTCTCGCCCTTAGCTCTGCTACGTCGCATGGATTTCGTCAAAGTACCCGCGTGCTGGCAGGGATGAGTCTGGGATTTT -TGATTGTGATGTTACTGTGTGCGGGCATTTCATTTTCACTGGCAGTGATTGACCCGGCAGCGGTACACCTTTTGAGTTGG -GCGGGGGCGGCATATATTGTCTGGCTGGCGTGGAAAATCGCCACCAGCCCAACAAAGGAAGACGGACTTCAGGCAAAACC -AATCAGCTTTTGGGCCAGCTTTGCTTTGCAGTTTGTGAACGTCAAAATCATTTTGTACGGTGTTACGGCACTGTCGACGT -TTGTTCTGCCGCAAACACAGGCGTTAAGCTGGGTAGTTGGCGTCAGCGTTTTGCTGGCGATGATTGGGACGTTTGGCAAT -GTGTGCTGGGCGCTGGCGGGGCATCTGTTTCAGCGATTGTTTCGCCAGTATGGTCGCCAGTTAAATATCGTGCTTGCCCT -GTTGCTGGTCTATTGCGCGGTACGCATTTTCTATTAACGAAAAAAAGCGGAAGAGGTCGCCCTCTTCCGCTTAGTAACTT -GCTACTTAAGCCTTACAGGCTTTCAGTAAAGGTACGAGCGATAACGTCGCGCTGCTGTTCCGGAGTCAGAGAGTTAAAGC -GAACTGCATAACCGGATACACGGATGGTCAGCTGCGGATATTTTTCCGGATGCTTAACTGCATCTTCCAGAGTTTCGCGA -CGCAGAACGTTAACGTTCAGGTGTTGACCACCTTCAACGCGAACTTCTGGTTTCACTTCTACTGGAACTTCACGGTATTC -AATGTCACCCAGTTTGCTTACTGCAACCACTTCATCTTCTGCATAACCTGCTTTTGCAACGATGCAACGCGCTTCGCCTT -TTTCGCTGTCCAGCAGCCAGAAAGAGTTCAGCAGATCGTCGTTAGCGGCTTTAGTAATCTGGATACCTGTAATCATGTGA -TGCCTCCCCGGCAAAATTATTTGATTTGTTCAGCCTGTCGCGGCCAATTGGTAAAACCATTGTTGCTTGAGTGTATATAT -ACTCCTCAAACACCCTTGAATCTTTGATTTAAATCAATAAAAACCACACATCAAGTATGGTCGCAAATGGATTTTATTGT -TTTACATCAACTTATGCGGGTGTGAAATTTTACCAATTTACATTTTTTTGCACTCGTTTAAGTCTAAAAAATGAGCATGA -TTTTGTTCTGTAGAAAGAAGCAGTTAAGCTAGGCGGATTGAAGATTCGCAGGAGAGCGAGATGGCTAACGAATTAACCTG -GCATGACGTGCTGGCTGAAGAGAAGCAGCAACCCTATTTTCTTAATACCCTTCAGACCGTCGCCAGCGAGCGGCAGTCCG -GCGTCACTATCTACCCACCACAAAAAGATGTCTTTAACGCGTTCCGCTTTACAGAGTTGGGTGACGTTAAAGTGGTGATT -CTCGGCCAGGATCCTTATCACGGACCGGGACAGGCGCATGGTCTGGCATTTTCCGTTCGTCCCGGCATTGCCATTCCTCC -GTCATTATTGAATATGTATAAAGAGCTGGAAAATACTATTCCGGGCTTCACCCGCCCTAATCATGGTTATCTTGAAAGCT -GGGCGCGTCAGGGCGTTCTGCTACTCAATACTGTGTTGACGGTACGCGCAGGTCAGGCGCATTCCCACGCCAGCCTCGGC -TGGGAAACCTTCACCGATAAAGTGATCAGCCTGATTAACCAGCATCGCGAAGGCGTGGTGTTTTTGTTGTGGGGATCGCA -TGCGCAAAAGAAAGGGGCGATTATAGATAAGCAACGCCATCATGTACTGAAAGCACCGCATCCGTCGCCGCTTTCGGCGC -ATCGTGGATTCTTTGGCTGCAACCATTTTGTGCTGGCAAATCAGTGGCTGGAACAACGTGGCGAGACGCCGATTGACTGG -ATGCCAGTATTACCGGCAGAGAGTGAGTAAATTTGCGGGGAAATGCCGGATGGCAGAGTTGCCACCCGGCTGATTTATCA -GGCTTTATTCTGACGCCACCATTCACCAAGCAAAACGCCGGTTGCGACAGAGATATTCAGCCCGGCAACGTTGCCCGTAC -CGTCAATCTTCACGCGCAGATCGTTCGGATCGCGTGCGGCATCCGGTAACCCTTCATATTCCTGACCCAGCACCAGTACC -ATTTTCGCTGGCAGACTAGTTTTGAACAGCGGTTTACCCTGCTCGCTGGAAGTGGTCACTACGGTGTAACCTGCCTGACG -GAAATCATCCAGCACGTTAACAATGTTGTCGCCAGTAATCGGCTGAACGTGCTCTGCGCCGCCTTCTGCGGTACGGATAG -CCGCCCCCGACTCCAGCAGTGCCGCATCCTGCACCACGACACCTTTCACGCCGAAGTGCGCGCAGCTGCGCATCATGCCA -CCCAGGTTATGCGGGTTAGATTCGTTTTCCAGTGCCAGAACGCAATCCTGCGCGCCTGCCTGGCTTACCCACTGCTGCAC -GGTTGTACCGTTACGCTTTTTGATCAAGAAGCAAACGCCGCCGTGATGTTCCGTGCCTGACGCTTTTGTCAATTCCGCTT -CATCCACCACATGGTACGCTTTGCGGTTTGCTGCCATCCAGCGCAAAGCTTCTTTAAAACGCGGCGTTACACTCTGGATA -AACCAGGCGCGAACAATCGCTTCCGGACGGCTCTGGAAAAGTGCCTGACATGCATTTTCGCCGTAGACGCGGGTTTCTTC -CGCACGCTGACGACGCAACACTTCCGGATCAATAAAACTTTTACCACTGATGCCACCGTGATCGGCCTTTTCCGGCGTCT -CATCACCCGGCGCGCGGGAAACCGTGCGCCACGGCGAATCTTCCCACTTGCGGTCACGGGGCTGACTCTGTTTGTCATCG -CGGGCGGGGCGACGGCCACCGTCAGCACGAGATTTTCCTGGACGCCCGCCCCCTTTCCCGGTACGCGGGTTGTGGGTACG -TTTATCAGAATCATCATCACTGCGGACATACATCACTTTGACCTTGCCGCTTTTACCTTTCATTTCATCGTTCATGCTTT -TCTCCACCAGCGCTGCGCGAAGCGCGCAGATTACCCGAAGTCCGCGCGGTTCGCCATGATTTCGTACCAAAGCCTGCGAC -TATCATACCTATTGAATAAAACAGATTGTTGTCTGGAACAATGTCCCCGATAATATGTAACATATTAGAAACATACCGGC -GTCGTTGCCGATAAGTCTCCTTACTCATCCCGAGGTTAGTTATGAATACCGTTTGTACCCATTGTCAGGCCATCAATCGC -ATTCCCGACGATCGGATCGAAGATGCGGCAAAATGCGGACGCTGCGGTCACGACTTGTTTGACGGAGAGGTGATTAATGC -GACCGGTGAAACACTCGACAAATTGCTGAAGGATGATCTACCTGTGGTGATCGACTTCTGGGCACCGTGGTGCGGCCCCT -GCCGTAATTTCGCACCAATTTTTGAAGATGTCGCGCAAGAGCGTAGCGGTAAAGTGCGCTTTGTGAAAGTGAATACCGAA -GCTGAACGTGAATTGAGCAGTCGCTTTGGAATTCGTAGTATACCGACGATCATGATTTTCAAAAACGGTCAGGTTGTCGA -CATGCTTAATGGCGCAGTACCGAAAGCGCCGTTCGATAGCTGGCTGAACGAATCTCTTTAATCTTACCGGGGCGCATCTT -GTGCCCCGTTTTCTCCTCTGCGACAATGGCGTTTTTTCGACGCTCTCTTATGACCGAAAACGCTGTTCTCCAGTTACGCG -CCGAGCGTATTGCGCGCGCAACACGTCCTTTTCTTGCCCGCGGTAATCGCGTTCGTCGCTGCCAACGCTGTCTTTTGCCA -GAGAAATTATGTCTCTGTTCGACAATTACCCCAGCACAAGCAAAAAGTCGCTTCTGTTTGCTGATGTTCGACACCGAGCC -AATGAAGCCCAGTAATACCGGGCGTCTCATTGCTGATATTTTGCCTGATACCGTTGCGTTTCAATGGTCGCGTACCGAAC -CCTCGCAGGATTTGCTGGAGTTGGTGCAAAACCCGGACTATCAGCCAATGGTGGTCTTTCCCGCTTCGTATGCTGATGAG -CAACGGGAAGTGATCTTCACACCACCTGCCGGTAAGCCACCGCTGTTTATCATGCTCGATGGTACCTGGCCGGAAGCTCG -CAAGATGTTTCGTAAAAGTCCGTATCTGGATAATCTTCCCGTCATTTCCGTCGATCTTTCCCGGCTTTCTGCCTATCGCC -TGCGTGAAGCCCAGGCTGAAGGCCAATATTGTACTGCCGAGGTAGCCATCGCACTGTTAGATATGGCCGGCGATACCGGG -GCGGCGGCAGGGTTAGGCGAGCATTTTACCCGCTTTAAAACACGCTATCTGGCAGGAAAAACGCAACATCTGGGTAGCAT -CACAGCAGAACAGTTAGAAAGCGTTTAAAATCATTCGGTCACTTCTGCGGGAGACCGGTATGAGTCAGCGAGGACTGGAA -GCACTACTGCGACCAAAATCGATAGCGGTAATTGGCGCGTCGATGAAACCCAATCGCGCAGGTTACCTGATGATGCGTAA -CCTGCTGGCGGGAGGCTTTAACGGACCGGTACTCCCGGTGACGCCAGCCTGGAAAGCGGTGTTGGGTGTGTTGGCCTGGC -CGGATATTGCCAGCTTGCCCTTTACACCCGACCTTGCGGTTTTATGTACCAATGCCAGCCGTAATCTTGCTCTTCTGGAA -GAGCTCGGCGAGAAAGGCTGTAAAACCTGCATTATTCTTTCCGCCCCGGCATCGCAACACGAAGATCTCCGCGCCTGCGC -CCTGCGCCATAACATGCGCCTGCTTGGACCAAACAGTCTGGGTTTACTGGCTCCCTGGCAAGGTCTGAATGCCAGCTTTT -CGCCTGTGCCGATTAAACGCGGCAAGCTGGCGTTTATTTCGCAATCGGCTGCCGTCTCCAACACCATCCTCGACTGGGCG -CAACAGCGTAAGATGGGCTTTTCCTACTTTATTGCGCTCGGCGACAGCCTGGATATCGACGTTGATGAATTGCTTGACTA -TCTGGCACGCGACAGTAAAACCAGCGCCATCCTGCTCTATCTCGAACAGTTAAGCGACGCGCGACGCTTTGTTTCGGCGG -CCCGTAGTGCCTCGCGTAATAAACCGATTCTGGTGATTAAAAGCGGACGTAGCCCGGCGGCACAGCGACTGCTCAACACG -ACGGCAGGAATGGACCCGGCATGGGATGCGGCTATTCAGCGTGCCGGTTTGTTGCGGGTACAGGACACCCACGAGCTGTT -TTCGGCGGTGGAAACCCTTAGCCATATGCGCCCGCTACGTGGCGACCGGCTGATGATTATCAGCAACGGTGCTGCGCCTG -CCGCGCTGGCGCTGGATGCCTTATGGTCACGCAATGGCAAGCTGGCAACGCTAAGCGAAGAAACCTGCCAGAAACTGCGC -GATGCACTGCCAGAACATGTGGCAATATCTAACCCGCTCGATCTACGCGATGACGCCAGCAGTGAGCACTATATTAAAAC -GCTGGATATTCTGCTCCACAGCCAGGATTTTGACGCGCTGATGGTTATTCATTCGCCCAGCGCCGCTGCTCCCGCAACAG -AAAGCGCGCAAGTATTAATTGAAGCGGTAAAGCATCATCCCCGCAGCAAATATGTCTCTTTGCTGACGAACTGGTGCGGC -GAGCACTCCTCGCAAGAGGCACGACGTTTATTCAGCGAAGCCGGGCTGCCGACCTACCGTACCCCGGAAGGAACCATCAC -TGCTTTTATGCATATGGTGGAGTACCGGCGTAATCAGAAGCAACTACGCGAAACGCCGGCGTTGCCCAGCAATCTGACTT -CCAATACCGCAGAAGCGCATCTTCTGTTGCAACAGGCGATTGCCGAAGGGGCTACGTCGCTCGATACCCATGAAGTTCAG -CCCATCCTGCAAGCGTATGGCATGAACACGCTCCCTACCTGGATTGCCAGCGATAGCACCGAAGCGGTGCATATTGCCGA -ACAGATTGGTTATCCGGTGGCGCTGAAATTGCGTTCGCCGGATATTCCACATAAATCGGAAGTTCAGGGCGTCATGCTTT -ACCTGCGTACAGCCAATGAAGTCCAGCAAGCGGCGAACGCTATTTTCGATCGCGTAAAAATGGCCTGGCCACAGGCGCGG -GTCCACGGCCTGTTGGTGCAAAGTATGGCTAACCGTGCTGGCGCTCAGGAGTTGCGGGTTGTGGTTGAGCACGATCCGGT -TTTCGGGCCGTTGATCATGCTGGGTGAAGGCGGTGTGGAGTGGCGTCCTGAAGATCAAGCCGTCGTCGCACTGCCGCCGC -TGAACATGAACCTGGCCCGCTATCTGGTTATTCAGGGGATCAAAAGTAAAAAGATTCGTGCGCGCAGTGCGCTACGCCCA -TTGGATGTTGCAGGCTTGAGCCAGCTTCTGGTGCAGGTTTCCAACTTGATTGTCGATTGCCCGGAAATTCAGCGTCTGGA -TATTCATCCTTTGCTGGCTTCTGGCAGTGAATTTACCGCGCTGGATGTCACGCTGGATATCTCGCCGTTTGAAGGCGATA -ACGAGAGTCGGCTGGCAGTGCGCCCTTATCCGCATCAGCTGGAAGAATGGGTAGAATTGAAAAACGGTGAACGCTGCTTG -TTCCGCCCGATTTTGCCAGAAGATGAGCCACAACTTCAGCAATTCATTTCGCGAGTCACCAAAGAAGATCTTTATTACCG -CTACTTTAGCGAGATCAACGAATTTACCCATGAAGATTTAGCCAACATGACACAGATCGACTACGATCGGGAAATGGCGT -TTGTAGCGGTACGACGTATTGATCAAACGGAAGAGATCCTCGGCGTCACGCGTGCGATTTCCGATCCTGATAACATCGAT -GCCGAATTTGCTGTACTGGTTCGCTCGGATCTCAAAGGGTTAGGCTTAGGTCGACGCTTAATGGAAAAGTTGATTACCTA -TACGCGAGATCACGGACTACAACGTCTGAATGGTATTACGATGCCAAACAATCGTGGCATGGTGGCGCTAGCCCGCAAGC -TCGGGTTTAACGTTGATATCCAGCTCGAAGAGGGGATCGTTGGGCTTACGCTAAATCTTGCCCAGCGCGAGGAATCATGA -GTAAGGTACTGGAAATGTTGACCACTTAATCGGGACTGGTGTTATTATTGCCCGCTTATGTCGTCTGCATTGCACAGAGG -ACCCTTCAATGAACAGAGAAGAAATGCACTGTGATGTTGTCAAAATTTAAGCGTAATAAACATCAACAACACCTTGCCCA -ACTACCCAAGATTTCTCAATCAGTTGATGATGTCGATTTCTTTTACGCTCCCGCCGACTTCCGGGAGACGCTGCTGGAAA -AAATAGCCAGCGCGAAGCAGCGCATTTGCATTGTCGCCCTGTATCTCGAACAGGATGACGGTGGCAAAGGCATTCTGAAC -GCGTTGTATGAGGCTAAAAGGCAGCGTCCGGAACTGGATGTGCGGGTGCTGGTCGACTGGCATCGTGCACAACGTGGACG -CATTGGCGCTGCGGCATCTAACACTAACGCTGACTGGTACTGCCGCATGGCGCAGGAAAATCCGGGCGTAGATGTTCCGG -TTTATGGCGTTCCAATCAATACTCGTGAAGCCCTTGGTGTTCTGCACTTTAAAGGCTTTATCATCGACGATAGCGTACTT -TATAGCGGTGCCAGCCTGAACGATGTTTACCTGCATCAGCACGATAAATATCGCTACGACCGTTATCATCTGATCCGTAA -CCGTAAGATGTCAGACATTATGTTTGAATGGGTTACACAGAATATTATGAATGGCCGCGGCGTTAATCGTCTGGATGATG -TTAATCGGCCAAAAAGCCCGGAAATCAAGAACGATATTCGTCTGTTCCGCCAGGAGCTGCGTGATGCCGCTTATCATTTC -CAGGGCGATGCCGACAACGATCAGCTTTCTGTAACGCCGCTAGTGGGGCTGGGGAAATCGAGTCTGTTGAACAAGACCAT -TTTCCATCTTATGCCTTGTGCCGAGCAGAAACTAACCATCTGTACGCCATACTTCAACCTGCCAGCAATCCTTGTGCGCA -ATATTATCCAGTTGCTGCGCGAAGGGAAAAAGGTCGAAATTATTGTTGGTGATAAAACCGCGAATGACTTCTACATTCCG -GAAGATGAACCTTTCAAGATAATTGGCGCATTGCCTTATCTCTATGAGATCAATCTGCGTCGTTTCCTGAGCCGTTTGCA -GTATTACGTCAATACTGACCAGCTAGTGGTTCGGTTATGGAAAGATGACGACAACACCTATCACCTGAAAGGGATGTGGG -TTGATGATAAGTGGATGTTGATCACCGGTAATAACCTGAACCCGCGCGCCTGGCGTCTGGATCTGGAAAACGCCATTTTG -ATCCACGATCCGCAACTTGAGCTGGCGCCACAGCGAGAGAAAGAACTGGAGCTGATCCGCGAGCATACCACCATCGTTAA -GCACTATCGCGATCTGCAAAGTATTGCCGATTATCCGGTGAAGGTTCGTAAACTCATCCGCCGTTTGCGCCGTATCCGCA -TCGACCGATTAATTAGCCGCATCCTGTAATCACAACCCCGTCCTGTACGGGGTTTGTTTTTTGGAGGCCACGTTTTGCGT -ATTCTTTTTGTCTGTTCGCTATTGTTACTTTCTGGATGCAGCCATATGGCTAACGATAGCTGGAGCGGGCAGGATAAAGC -TCAACACTTTATCGCCTCGGCGATGCTTTCCGCCGCCGGAAATGAATATTCACAGCATCAGGGGATGAGCCGGGATCGCA -GTGCCATGTTTGGATTGATGTTCTCTGTCAGTTTGGGGGCGTCAAAAGAGCTTTGGGATAGCCGCCCCGAAGGGAGCGGC -TGGAGCTGGAAGGATTTGGCCTGGGATGTCGCCGGTGCAAGCACCGGCTATACCGTCTGGCAACTGACCCGTCACTAAAG -ACGCATCCCCTTCCCTTTGCGATGTAGCATCAAAGAAACCAGAAACGCCACCACGGCCATCAAGGTCACATACCAGAAGA -AGGCTGTTTCCATTCCTATTGATTTCAGCGACAACGCTACGTACTCCGCCGAACCACCAAATATAGCATTAGCGACCGCA -TATGACAGACCAACGCCTAATGCGCGAACCTGTGCCGGGAACATCTCAGCCTTCAGTATTCCACTGATTGATGTATAAAA -ACTCACTATCAGCAGGGCACACATCACCAGACCAAAAGCGGCATAAGGCGAGGAAACGTTTTGCAATGCTGAGAGAATAG -GAACGGTAAAAATGGCTGCCAGCGAACCGAAACATAACATTGAGGTACGGCGACCAATCTTATCCGACAGCGCGCCAATG -AGTGGTTGAATAAGCATGAATACAAACAATGCGGCAGTCATAATGCCACTCGCCACGTTGGCATGCATTCCCGCAGTATT -TACCAGATACTTCTGCATATAAGTAGTGAAGGTATAGAAACAAAGGGAGCCCGCAGCGGTAAAACCGAGAACCATGATGA -ATGCACGGCGATTGCGCCATAATCCTTTCAGAGATCCAGCTTCTTTTAAAGCGCGCGTTTCTTGTTGCGAAGTTTCATCT -AACTGACGACGTAACCACAACGCCACAACAGCTAACACAGCTCCTAACGCGAAAGGAATACGCCATCCCCACTCTCTGAG -TGCAGCGTCTTCCATGGTGTGTTGTAAAACCACGACAACCAGTAGGGCTAGCAGTTGTCCGCCGATCAACGTCACATACT -GAAATGATGCGTAAAAACCTTTGCGCCCTTCAACGGCAACTTCACTCATATAGGTGGCGCTGGTGCCATATTCTCCGCCA -ACAGATAATCCCTGAAATAAACGAGCGAGAAGCAATAATGCCGGAGCCCACGTACCTATAGTTTCATAACCTGGGAGGCA -GGCGATAACCAGCGATCCGAAACACATCATACACACCGATAACAGCATCGATTTTTTGCGACCATGTTTATCGGCTATGC -GGCCAAATAGCCAACCGCCTATTGGGCGCATCAGGAATCCCGCAGCAAAAACACCTGCTGTTTGTAGTAGTTGAGTCGTC -GTGTTCCCGGAAGGGAAGAAGATGTGGGCAAAGTAGAGTGAACAGAACGAGTAGACATAGAAATCGAACCACTCGACCAG -ATTACCTGAAGAGGCCCCCACAATCGCCCAAATGCGGCGACGAGTATCACTACTTGTCAGTTTGCTGTCTGCCGTTACAG -TACTTTCAGCCATGCCATTATGTCTCCTGCCGTAATCCGATGCTTTTGTCGGTCGCTTTTGTTTATTTTTTTTGTAAAGG -AAATATTATACATTTGTTGCATATCATTATGCAACCTTAACCATGAATTTAGTTAGCAGGAAAATGGTTATTGAGGAGCT -TAAGGATAAATTTCTGGTAAGGAGGACACGTATGGAAGTGGGCAAGTTGGGGAAGCCGTATCCGTTGCTGAATCTGGCAT -ATGTGGGAGTATAAGACGCGCAGCGTCGCATCAGGCATTTTTTTCTGCGCCAATGCAAAAAGGCCATCCGTCAGGATGGC -CTTTCGCATAATTTGATGCCTGGCAGTTCCCTACTCTCGCATGGGGAGACCCCACACTACCATCGGCGCTACGGCGTTTC -ACTTCTGAGTTCGGCATGGGGTCAGGTGGGACCACCGCGCTACGGCCGCCAGGCAAATTCTGTTTTATCAGACCGCTTCT -GCGTTCTGATTTAATCTGTATCAGGCTGAAAATCTTCTCTCATCCGCCAAAACAGCTTCGGCGTTGTAAGGTTAAGCCTC -ACGGTTCATTAGTACCGGTTAGCTCAACGCATCGCTGCGCTTACACACCCGGCCTATCAACGTCGTCGTCTTCAACGTTC -CTTCAGGACCCTTAAAGGGTCAGGGAGAACTCATCTCGGGGCAAGTTTCGTGCTTAGATGCTTTCAGCACTTATCTCTTC -CGCATTTAGCTACCGGGCAGTGCCATTGGCATGACAACCCGAACACCAGTGATGCGTCCACTCCGGTCCTCTCGTACTAG -GAGCAGCCCCCCTCAGTTCTCCAGCGCCCACGGCAGATAGGGACCGAACTGTCTCACGACGTTCTAAACCCAGCTCGCGT -ACCACTTTAAATGGCGAACAGCCATACCCTTGGGACCTACTTCAGCCCCAGGATGTGATGAGCCGACATCGAGGTGCCAA -ACACCGCCGTCGATATGAACTCTTGGGCGGTATCAGCCTGTTATCCCCGGAGTACCTTTTATCCGTTGAGCGATGGCCCT -TCCATTCAGAACCACCGGATCACTATGACCTGCTTTCGCACCTGCTCGCGCCGTCACGCTCGCAGTCAAGCTGGCTTATG -CCATTGCACTAACCTCCTGATGTCCGACCAGGATTAGCCAACCTTCGTGCTCCTCCGTTACTCTTTAGGAGGAGACCGCC -CCAGTCAAACTACCCACCAGACACTGTCCGCAACCCGGATTACGGGTCAACGTTAGAACATCAAACATTAAAGGGTGGTA -TTTCAAGGTCGGCTCCATGCAGACTGGCGTCCACACTTCAAAGCCTCCCACCTATCCTACACATCAAGGCTCAATGTTCA -GTGTCAAGCTATAGTAAAGGTTCACGGGGTCTTTCCGTCTTGCCGCGGGTACACTGCATCTTCACAGCGAGTTCAATTTC -ACTGAGTCTCGGGTGGAGACAGCCTGGCCATCATTACGCCATTCGTGCAGGTCGGAACTTACCCGACAAGGAATTTCGCT -ACCTTAGGACCGTTATAGTTACGGCCGCCGTTTACCGGGGCTTCGATCAAGAGCTTCGCTTGCGCTAACCCCATCAATTA -ACCTTCCGGCACCGGGCAGGCGTCACACCGTATACGTCCACTTTCGTGTTTGCACAGTGCTGTGTTTTTAATAAACAGTT -GCAGCCAGCTGGTATCTTCGACTGATTTCAGCTCCATCCGCGAGGGACCTCACCTACATATCAGCGTGCCTTCTCCCGAA -GTTACGGCACCATTTTGCCTAGTTCCTTCACCCGAGTTCTCTCAAGCGCCTTGGTATTCTCTACCTGACCACCTGTGTCG -GTTTGGGGTACGATTTGATGTTACCTGATGCTTAGAGGCTTTTCCTGGAAGCAGGGCATTTGTTGCTTCAGCACCGTAGT -GCCTCGTCATCACGCCTCAGCCTTGATTTTCCGGATTTGCCTGGAAAACCAGCCTACACGCTTAAACCGGGACAACCGTC -GCCCGGCCAACATAGCCTTCTCCGTCCCCCCTTCGCAGTAACACCAAGTACAGGAATATTAACCTGTTTCCCATCGACTA -CGCCTTTCGGCCTCGCCTTAGGGGTCGACTCACCCTGCCCCGATTAACGTTGGACAGGAACCCTTGGTCTTCCGGCGAGC -GGGCTTTTCACCCGCTTTATCGTTACTTATGTCAGCATTCGCACTTCTGATACCTCCAGCATGCCTCACAGCACACCTTC -GCAGGCTTACAGAACGCTCCCCTACCCAACAACGCATAAGCGTCGCTGCCGCAGCTTCGGTGCATGGTTTAGCCCCGTTA -CATCTTCCGCGCAGGCCGACTCGACCAGTGAGCTATTACGCTTTCTTTAAATGATGGCTGCTTCTAAGCCAACATCCTGG -CTGTCTGGGCCTTCCCACATCGTTTCCCACTTAACCATGACTTTGGGACCTTAGCTGGCGGTCTGGGTTGTTTCCCTCTT -CACGACGGACGTTAGCACCCGCCGTGTGTCTCCCGTGATAACATTCTCCGGTATTCGCAGTTTGCATCGGGTTGGTAAGT -CGGGATGACCCCCTTGCCGAAACAGTGCTCTACCCCCGGAGATGAATTCACGAGGCGCTACCTAAATAGCTTTCGGGGAG -AACCAGCTATCTCCCGGTTTGATTGGCCTTTCACCCCCAGCCACAAGTCATCCGCTAATTTTTCAACATTAGTCGGTTCG -GTCCTCCAGTTAGTGTTACCCAACCTTCAACCTGCCCATGGCTAGATCACCGGGTTTCGGGTCTATACCCTGCAACTTAA -CGCCCAGTTAAGACTCGGTTTCCCTTCGGCTCCCCTATTCGGTTAACCTTGCTACAGAATATAAGTCGCTGACCCATTAT -ACAAAAGGTACGCAGTCACACGCCTAAGCGTGCTCCCACTGCTTGTACGTACACGGTTTCAGGTTCTTTTTCACTCCCCT -CGCCGGGGTTCTTTTCGCCTTTCCCTCACGGTACTGGTTCACTATCGGTCAGTCAGGAGTATTTAGCCTTGGAGGATGGT -CCCCCCATATTCAGACAGGATACCACGTGTCCCGCCCTACTCATCGAGCTCACAGCATGTGCATTTTTGTGTACGGGGCT -GTCACCCTGTATCGCGCGCCTTTCCAGACGCTTCCACTAACACACACACTGATTCAGGCTCTGGGCTGCTCCCCGTTCGC -TCGCCGCTACTGGGGGAATCTCGGTTGATTTCTTTTCCTCGGGGTACTTAGATGTTTCAGTTCCCCCGGTTCGCCTCATT -AACCTATGGATTCAGTTAATGATAGTGTGTCGAAACACACTGGGTTTCCCCATTCGGAAATCGCCGGTTATAACGGTTCA -TATCACCTTACCGACGCTTATCGCAGATTAGCACGTCCTTCATCGCCTCTGACTGCCAGGGCATCCACCGTGTACGCTTA -GTCGCTTAACCTCACAACCCGAAGATGTTTCACTTCAGAGTTGCGAAAATTTGAGAGACTCACGAACAACTTTCATTGTT -CAGTGTTTCAATTTTCAGCTTGATCCAGATTTTTAAAGAGCAAATATATCAAACAAGACTTAACAGTCTGTTTTGAGATA -TTGAGGTCGGCGACTTTCACTCACAAACCAGCAAGTGGCGTCCCCTAGGGGATTCGAACCCCTGTTACCGCCGTGAAAGG -GCGGTGTCCTGGGCCTCTAGACGAAGGGGACACGAAAATTGCTTATCACGCGTTGCGTGATATTTTCGTGTAGGGTGAGC -TTTCATTAATAGAAAGCGAACGGCCTTATTCTCTTCAGCCTCACTCCCAACGCGTAAACGCCTTGCTATTCACTTTTCAT -CAGACAATCTGTGTGAGCACTGCAAAGTACGCTTCTTTAAGGTAAGGAGGTGATCCAACCGCAGGTTCCCCTACGGTTAC -CTTGTTACGACTTCACCCCAGTCATGAATCACAAAGTGGTAAGCGCCCTCCCGAAGGTTAAGCTACCTACTTCTTTTGCA -ACCCACTCCCATGGTGTGACGGGCGGTGTGTACAAGGCCCGGGAACGTATTCACCGTGGCATTCTGATCCACGATTACTA -GCGATTCCGACTTCATGGAGTCGAGTTGCAGACTCCAATCCGGACTACGACGCACTTTATGAGGTCCGCTTGCTCTCGCG -AGGTCGCTTCTCTTTGTATGCGCCATTGTAGCACGTGTGTAGCCCTGGTCGTAAGGGCCATGATGACTTGACGTCATCCC -CACCTTCCTCCAGTTTATCACTGGCAGTCTCCTTTGAGTTCCCGGCCGGACCGCTGGCAACAAAGGATAAGGGTTGCGCT -CGTTGCGGGACTTAACCCAACATTTCACAACACGAGCTGACGACAGCCATGCAGCACCTGTCTCACGGTTCCCGAAGGCA -CATTCTCATCTCTGAAAACTTCCGTGGATGTCAAGACCAGGTAAGGTTCTTCGCGTTGCATCGAATTAAACCACATGCTC -CACCGCTTGTGCGGGCCCCCGTCAATTCATTTGAGTTTTAACCTTGCGGCCGTACTCCCCAGGCGGTCGACTTAACGCGT -TAGCTCCGGAAGCCACGCCTCAAGGGCACAACCTCCAAGTCGACATCGTTTACGGCGTGGACTACCAGGGTATCTAATCC -TGTTTGCTCCCCACGCTTTCGCACCTGAGCGTCAGTCTTCGTCCAGGGGGCCGCCTTCGCCACCGGTATTCCTCCAGATC -TCTACGCATTTCACCGCTACACCTGGAATTCTACCCCCCTCTACGAGACTCAAGCTTGCCAGTATCAGATGCAGTTCCCA -GGTTGAGCCCGGGGATTTCACATCTGACTTAACAAACCGCCTGCGTGCGCTTTACGCCCAGTAATTCCGATTAACGCTTG -CACCCTCCGTATTACCGCGGCTGCTGGCACGGAGTTAGCCGGTGCTTCTTCTGCGGGTAACGTCAATGAGCAAAGGTATT -AACTTTACTCCCTTCCTCCCCGCTGAAAGTACTTTACAACCCGAAGGCCTTCTTCATACACGCGGCATGGCTGCATCAGG -CTTGCGCCCATTGTGCAATATTCCCCACTGCTGCCTCCCGTAGGAGTCTGGACCGTGTCTCAGTTCCAGTGTGGCTGGTC -ATCCTCTCAGACCAGCTAGGGATCGTCGCCTTGGTGAGCCGTTACCCCACCAACAAGCTAATCCCATCTGGGCACATCCG -ATGGCAAGAGGCCCGAAGGTCCCCCTCTTTGGTCTTGCGACATTATGCGGTATTAGCTACCGTTTCCAGTAGTTATCCCC -CTCCATCAGGCAGCTTCCCAGACATTACTCACCCGTCCGCCACTCGTCAGCGAAGCAGCAAGCTGCTTCCTGTTACCGTT -CGACTTGCATGTGTTAGGCCTGCCGCCAGCGTTCAATCTGAGCCATGATCAAACTCTTCAATTTAAAAGTTTGATGCTCA -AAGAATTAAACTTCGTAATGAATTACGTGTTCACTCTTGAGACTTGGTATTCATTTTTCGTCTTGCGACGTTAAGAATCC -GTATCTTCGAGTGCCCACACAGATTGTCTGATAAATTGTTAAAGAGCAGTGCCGCTTCGCTTTTTCTCAGCGGCGCGGGG -TGTGCATAATACGCCTTCCCGCTACAGAGTCAAGCATTTCTTTGCTTTTCTCTGTTGAGATTCTCAGGAGAACCCCGCCG -ACCCGGCGGCGTGTTTGCCGTTGTTCCGTGTCAGTGGTGGCGCATTATAGGGAGTTATTCCGGCCTGACAAGCGAAAAAT -ATAAAAACTTTATCGTTCGCTCACTTTTCAGGCAAAACATCTTAAATATAGTCTTTTCCGTCTAACTTATAGACAAAAAC -GAGCCCCGAAGGGCTCGTTTTATCATTTACTGGACGGCGACAATCCGGTCTTCATTAACTTCCAGGCGAATCACTTTACC -CGGAACCAATTCACCAGACAGTATTTGCTGTGCCAGCGGGTTTTCGATCTGCTGCTGAATTGCACGTTTCAGAGGACGTG -CACCATAGACCGGATCGTAACCGTTCTCGCTCAGCAGTTTCAGCGCCTCGTCAGAAATGTGGATTTCATAACCACGTTCT -TCCAGACGTTTGTACAGACGTTTCAACTGAATCTGCGCAATCGAGGCAATGTGCTGTTCACCCAGCGGATGGAAGACCAC -CACTTCATCGATACGGTTAATGAATTCCGGACGGAAGTTATGGCTTACCACACCGAGCACCAGCTCTTTCATGTGCGCAT -AATCCAGTTCACCGAAGCGTTCCTGAATCAGATCGGAACCGAGGTTAGAGGTCATAATGACGACCGTATTACGGAAGTCG -ACCGTTCTCCCTTGCCCGTCAGTCAGACGCCCATCATCCAGTACCTGCAACAGAATGTTGAAGACATCCGGATGCGCTTT -TTCCACTTCATCCAGCAGGATGACGGAATACGGACGACGACGCACCGCTTCGGTCAGGTAGCCACCTTCTTCATAACCGA -CATATCCCGGAGGCGCACCAACCAAACGAGACACCGAGTGTTTCTCCATAAACTCGGACATATCGATACGGACCATCGCC -TCGTCGCTATCAAACATAAAGTTCGCCAGCGCCTTACAAAGCTCTGTTTTCCCCACACCAGTTGGGCCGAGGAACAGGAA -TGAACCAATCGGGCGATTTGGATCCGCCAGCCCCGCACGGCTACGACGAATAGCGTTAGATACCGCATCAACCGCTTCGT -TCTGACCAATTACGCGATGGTGCAGTTCTTGCTCCATACGCAGCAGTTTTTCGCGCTCGCTTTCCATCATGCGAGAAACC -GGAATCCCCGTCCAACGCGCCAGCACTTCAGCAATTTCGGCGTCGGTCACTTTATTACGCAACAGACGCATAGTTTTGCC -TTCGAGCTGCGTTGCGGCTTCCAGTTGCTTTTCCAGTTCCGGGATTTTGCCGTATTGCAGTTCAGACATCCGCGCCAGGT -CCCCCACACGGCGAGCCTGTTCAATAGCGATTTTCGCCTGTTCCAGTTCCGCTTTAATGGTCTGCGTACCAGAAAGCGAT -GCCTTCTCTGCTTTCCACTCTTCTTCTAACTCGGAGTACTGACGTTCTTTGTCGCTCAGTTCTTCGTTGAGCATATCCAG -ACGTTTTTTACTGGCTTCATCAGACTCTTTCATTAACGCCTGTTGTTCCAGTTTGAGCTGGATGATACGACGATCGAGTC -GGTCGAGTTCTTCTGGTTTTGAGTCAATCTGCATACGAATGCTGGATGCTGCTTCATCGATCAGGTCGATGGCTTTATCC -GGCAGCTGACGGTCAGCAATGTAGCGATGAGACAACGTCGCCGCTGCAACAATTGCCGGGTCAGTAATTTGCACATGGTG -GTGCAATTCGTAACGTTCTTTCAGGCCACGCAGAATCGCAATGGTATCTTCAACAGAAGGCTCGGCAACAAACACTTTCT -GGAAACGACGTTCCAGCGCAGCATCTTTTTCAATGTACTGGCGATATTCGTCAAGCGTCGTGGCACCTACGCAGTGCAAT -TCACCACGCGCCAGCGCCGGTTTCAGCATGTTTCCGGCGTCCATTGCGCCATCGGCTTTACCCGCGCCGACCATGGTATG -TAATTCGTCGATAAATAGGATGACGTTGCCTTCCTGTTTGGCAAGATCGTTAAGCACGCCTTTTAAACGTTCTTCAAACT -CACCGCGATATTTCGCCCCAGCCACCAGCGCGCCCATATCCAGCGCCAGTACCCGGCGGCCTTTCAACCCTTCCGGCACT -TCGCCGTTGATAATACGCTGCGCCAGACCTTCAACGATGGCAGTTTTACCGACGCCGGGTTCACCAATCAGTACCGGGTT -ATTTTTAGTACGACGTTGCAGCACCTGAATGGTACGGCGAATTTCTTCATCACGACCAATCACCGGATCGAGTTTGCCCT -GTTCGGCTCGTTCGGTAAGGTCGATGGTATATTTTTTCAAAGCCTGACGTTGGTCTTCAGCACCTTGATCGTTCACGCTT -TCACCTCCACGCATTTGTTCAATCGCTTGAGTAATGTTGGCGGTGGTCGCCCCTGCTGCTTTCAGGATGTCGGCCAGCGT -GCCGCGAGACTCAAGTGCCGCCAGAACGAACAGTTCTGACGAGATAAAGTTATCACCACGTTTTTGCGCCAGCTTGTCGC -AAAGATTAAGAACGCGCACCAGATCCTGTGATGGCTGGACATCACCACCAGTACCTTCAACCTGCGGTAAACGATTTAAT -GCCTGATTGATATCTGTGCGCAACTGGCCAGCATTTATGCCAGCGGATGTTAATAAAGGACTAACCGAACCCCCTTCCTG -ATTCAGCAGGGCGCTCATTAAATGAAGTGGTTCGATAAATTGGTTGTCGTGCCCGAGTGCAAGTGATTGGGCATCGGCAA -GAGCAAGCTGGAATTTATTAGTAAGACGATCCAGACGCATAACTCCTCCCATAACGGATCAAAGTTGCTACTGGAGATTA -AATGAGGTCATCCCTCAATTATTCAAGGTTATTGACCAGATTAATGTGAAAAGAAAATCACGCGTACCGGATCGTCTTGA -TTCTTTAGGTTATATCAGCCAAATGAAACTTGCCATACGACCGGTGGTCTTGTCGCGACGATAAGAGAAGAAAGTCTCAT -TTTCCGTATATGTACAACGGTCGCCGCCGAAAATTTGCTCAACACCCACGTTCGCCAGACGCTGCCGGGCAAGCTGATAA -ATATCCGCCAGATACTTATCACCATGCTGAATGAAAGCTGCACTTGCTTTAGCGTCTACTGCCATAAACGCCTCGCGAAC -CTCCCCCCCCACTTCGAACGCGCGTGGACCAATTGCCGGCCCTAACCAGGCGAGAATATTTTCCGGATTATCAGCAAAAC -AGGAAACCGTCTCTTCCAGCACGCCTGCGCACAGTCCACGCCAGCCAGCATGAGCGGCGGCGACTTCCGTTCCCGCTCGA -TTGCAAAACAGCACAGGGAGGCAGTCGGCAGTCATCACTGCGCAAACCGTGCCGGGCGTATTGCTATAAGAGGCATCCGC -CCGTTTTGAGGCATAAGGTTCGCCAGTGAGCTTAAGCACATCTTTGCCGTGTACCTGCTCAAGCCAGACCGGTTTAGAAG -GCAAATTGCCCGCAGCAAAAAGTCGCTTGCGATTCTCCTCAACGTGATCCGGGTTATCGCCACAATGGGCACCGAGGTTG -AGTGAGTCATACGGGGGCAAGCTCACGCCGCCGATACGAGTGGAGCTACAGGCCGCAACACCTTTTGGCTGCGGCCACTG -CGGGACAATCAGCTTACTCATAACCAGTCCACTTCATCCTTATGTTCTTCGAAATCGGCGCGCATCACCTCAATCAGCTC -CACCATATCTTGTGGAATAGGCGCATGCCATTCCATTTCGATGCCGGAGATCGGGTGATAAAGACGCAGCATGGTTGCAT -GTAGCGCCTGGCGGTCAAACTTACGCAGCGTGGAGATAAATGCTTCCGAAGCACCTTTTGGCGGACGCGGACGGCCACCA -TAAACCGGATCGCCCACCAGCGGATGAGTGATATGGGCCATATGCACGCGGATCTGGTGCGTACGTCCAGTTTCCAGACG -CAACCGCAGACGCGTGTGCACACGGAAGTGTTCCATGATGCGATAGTGAGTCACCGCTGGTTTGCCCATCGGATGCACCG -CCATATGGGTACGTTTGGTCGGGTGGCGACTGATTGGCTCGTCCACCGTGCCACCTGCGGTCATATGACCAATCGCCACC -GCTTCATACTCACGAGTAATTTCACGCCGTTGCAAAGATTCGACTAAACGCGTCTGAGCCGGAACGGTTTTTGCCACAAC -CATCAGGCCAGTGGTGTCTTTATCCAGACGATGGACGATGCCCGCACGCGGTACATCGGCAATGGGTGGATAGTAATGAA -GCAACGCATTCAGTACCGTGCCATCCGGGTTACCCGCGCCAGGATGTACCACCAGGTCGCGCGGTTTATTAATGATAATA -ATGTCTTCATCTTCATAGACGATATCCAGCGGGATATCCTGCGGTTCAAAACGCGCTTCTTCTTCAATCTCAGCGTTGAT -GGCAACCTGCTCGCCACCCAATACTTTTTCTTTCGGCTTATCACAAACTTTGCCGTTAACCAGCACTCGCTGGTCGAGGA -TCCATTCTTTTATTCGCGAACGTGAATAATCCGGGAACATTTCGGCCAAAGCCTGATCTAAGCGTTGACCGAGTTGGTTT -TCGGACACCGTTGCAGTGAGCTGTACTCGTTGTGCCATATATACTGCTTCTTCGTTTATCGTTGGGGTTTTACGGCTTTG -CCGTTTAATATAGTGTGCTATTGTAGCTGGTCTTAACCGGGAGCAGGAACAGAGAATCTCCCGTATTACATTTTGAGGAA -AGTCAAAACGTCATGACGCGCATGAAATATCTGGTGGCAGCCGCCACACTAAGCCTGTTTTTGGCGGGTTGCTCGGGGTC -AAAGGAAGAAGTACCTGATAATCCGCCAAATGAAATTTACGCGACTGCACAACAAAAGCTGCAGGACGGTAACTGGAGAC -AGGCAATAACGCAACTGGAAGCGTTAGATAATCGCTATCCGTTTGGTCCGTATTCGCAGCAGGTGCAGCTGGATCTCATC -TACGCCTACTATAAAAACGCCGATTTGCCGTTAGCACAGGCTGCCATCGATCGTTTTATTCGCCTTAACCCGACCCATCC -GAATATCGATTATGTCATGTACATGCGTGGCCTGACCAATATGGCGCTGGATGACAGTGCGCTGCAAGGGTTCTTTGGCG -TCGATCGTAGCGATCGCGATCCTCAACATGCACGAGCTGCGTTTAGTGACTTTTCCAAACTGGTGCGCGGCTATCCGAAC -AGTCAGTACACCACCGATGCCACCAAACGTCTGGTATTCCTGAAAGATCGTCTGGCGAAATATGAATACTCCGTGGCCGA -GTACTATACAGAACGTGGCGCATGGGTTGCCGTCGTTAACCGCGTAGAAGGCATGTTGCGCGACTACCCGGATACCCAGG -CTACGCGTGATGCGCTGCCGCTGATGGAAAATGCATACCGTCAGATGCAGATGAATGCGCAAGCTGAAAAAGTAGCGAAA -ATCATCGCCGCAAACAGCAGCAATACATAACAGAAACCTGAAACACAAAACGGCAGCCCTTGAGCTGCCGTTTTTTTATT -CTGTCAGTTGTGAAACTGAAGCGATTTAGTCGCTATCGATCTCATCAAATATGGCTCGCTTTGAGATATTCCTCAAGTAA -AAAAACATCTCTTCCTGCGATTTCTCACAAAAAAGATTCGTTGACAAAAAGTGACAAAATTATGAGATTTTCATCACACA -TTTTGACATCAGGAACGGTATGCTGAATTCACCAAGACGGGAAGACAAGAGGTAAAATTTATGACAATGAACATTACCAG -CAAACAAATGGAAATTACTCCGGCCATCCGCCAACATGTCGCAGACCGTCTCGCCAAACTGGAAAAATGGCAAACACATC -TGATTAATCCACATATCATTCTGTCCAAAGAGCCACAAGGGTTTGTTGCTGACGCCACAATCAATACACCTAACGGCGTT -CTGGTTGCCAGTGGTAAACATGAAGATATGTACACCGCAATTAACGAATTGATCAACAAGCTGGAACGGCAGCTCAATAA -ACTGCAGCACAAAGGCGAAGCACGTCGTGCCGCAACATCGGTGAAAGACGCCAACTTCGTCGAAGAAGTTGAAGAAGAGT -AGTCCTTTATATTGAGTGTATCGCCAACGCGCCTTCGGGCGCGTTTTTTGTTGACAGCGTGAAAACAGTACGGGTACTGT -ACTAAAGTCACTTAAGGAAACAAACATGAAACACATACCGTTTTTCTTCGCATTCTTTTTTACCTTCCCCTGAATGGGAG -GCGTTTCGTCGTGTGAAACAGAATGCGAAGACGAACAATAAGGCCTCCCAAATCGGGGGGCCTTTTTTATTGATAACAAA -AAGGCAACACTATGACATCGGAAAACCCGTTACTGGCGCTGCGAGAGAAAATCAGCGCGCTGGATGAAAAATTATTAGCG -TTACTGGCAGAACGGCGCGAACTGGCCGTCGAGGTGGGAAAAGCCAAACTGCTCTCGCATCGCCCGGTACGTGATATTGA -TCGTGAACGCGATTTGCTGGAAAGATTAATTACGCTCGGTAAAGCGCACCATCTGGACGCCCATTACATTACTCGCCTGT -TCCAGCTCATCATTGAAGATTCCGTATTAACTCAGCAGGCTTTGCTCCAACAACATCTCAATAAAATTAATCCGCACTCA -GCACGCATCGCTTTTCTCGGCCCCAAAGGTTCTTATTCCCATCTTGCGGCGCGCCAGTATGCTGCCCGTCACTTTGAGCA -ATTCATTGAAAGTGGCTGCGCCAAATTTGCCGATATTTTTAATCAGGTGGAAACCGGCCAGGCCGACTATGCCGTCGTAC -CGATTGAAAATACCAGCTCCGGTGCCATAAACGACGTTTACGATCTGCTGCAACATACCAGCTTGTCGATTGTTGGCGAG -ATGACGTTAACTATCGACCATTGTTTGTTGGTCTCCGGCACTACTGATTTATCCACCATCAATACGGTCTACAGCCATCC -GCAGCCATTCCAGCAATGCAGCAAATTCCTTAATCGTTATCCGCACTGGAAGATTGAATATACCGAAAGTACGTCTGCGG -CAATGGAAAAGGTTGCACAGGCAAAATCACCGCATGTTGCTGCGTTGGGAAGCGAAGCTGGCGGCACTTTGTACGGTTTG -CAGGTACTGGAGCGTATTGAAGCAAATCAGCGACAAAACTTCACCCGATTTGTGGTGTTGGCGCGTAAAGCCATTAACGT -GTCTGATCAGGTTCCGGCGAAAACCACGTTGTTAATGGCGACCGGGCAACAAGCCGGTGCGCTGGTTGAAGCGTTGCTGG -TACTGCGCAACCACAATCTGATTATGACCCGTCTGGAATCACGCCCGATTCACGGTAATCCATGGGAAGAGATGTTCTAT -CTGGATATTCAGGCCAATCTTGAATCAGCGGAAATGCAAAAAGCATTGAAAGAGTTAGGGGAAATCACCCGTTCAATGAA -GGTATTGGGCTGTTACCCAAGTGAGAACGTAGTGCCTGTTGATCCAACCTGATGAAAAGGTGCCGGATGATGTGAATCAT -CCGGCACTGGATTATTACTGGCGATTGTCATTCGCCTGACGCAATAACACGCGGCTTTCACTCTGAAAACGCTGTGCGTA -ATCGCCGAACCAGTGCTCCACCTTGCGGAAACTGTCAATAAACGCCTGCTTATCGCCCTGCTCCAGCAACTCAATCGCCT -CGCCGAAACGCTTATAGTAACGTTTGATTAACGCCAGATTACGCTCTGACGACATAATGATGTCGGCATAAAGCTGCGGA -TCCTGAGCAAACAGTCGCCCGACCATCGCCAGCTCAAGGCGGTAAATCGGCGAAGAGAGCGCCAGAAGTTGCTCAAGCTG -AACATTTTCTTCTGCCAGGTGCAGCCCGTAAGCAAAAGTAGCAAAGTGGCGCAGTGCCTGAATAAACGCCATATTCTGAT -CGTGCTCGACGGCGCTAATACGATGCAGCCGAGCGCCCCAGACCTGAATTTGCTCCAGAAACCATTGGTATGCTTCCGGT -TTACGTCCATCACACCAGACCACAACTTGCTTTGCCAGGCTACCGCTGTCCGGACCGAACATCGGGTGTAGCCCCAGCAC -CGGACCATCATGCGCCACCAGCATGGCCTGTAATGGCCCATTTTTCACTGATGCCAGATCGACCAGAATACAATCTTTCG -GTAAAGGCGGTAATTTGCCAATAACTTGCTCAGTAACGTGGATTGGCACACTAACAATCACCATTCCGGCATCGGCAACA -ATATCAGCCGCTCGATCCCAGTCATGTTGCTCCAGAATCCGCACCTGATAACCCGAGAGGGTCAGCATCTTCTCGAACAG -GCGTCCCATCTGACCGCCACCGCCGACGATAACCACCGGACGCAGTGACGGACAAAGTGTTTTAAATCCTTTGTCGTTTT -CACTGGAGTAAGATTCACGCATCACCCGACGCAAAACATCCTCAATCAGATCTGGCGGTACACCCAGAGCTTCCGCCTCT -GCACGACGCGAGGCCAACATAGATGCCTCGCGCTCCGGAACATAAATAGGCAGTCCAAAGCGGCTTTTCACCTCGCCCAC -TTCAGCAACCAGTTCCAGACGCTTCGCTAATAAATTCAGCAGCGCTTTATCGACTTCATCAATTTGATCGCGTAATGCGG -TCAATTCAGCAACCATAATAAACCTCTTAAGCCACGCGAGCCGTCAGCTGCCCGTTCAGATCCTGATGAATTTCACGCAG -CAAGGCATCGGTCATTTCCCAGCTAATGCAGGCATCGGTTACGGATACACCGTATTTCATTTCACTGCGCGGTTGCTCGG -AAGACTGATTGCCCTCGTGGATATTACTTTCGATCATCAGACCAATAATTGAGCGATTGCCATCTTTGATTTGAGCAACC -ACGGATTCTGCCACCGCAGGCTGACGGCGATAATCTTTATTGGAATTACCGTGGCTGCAATCTACCATCAGAGACGGGCG -CAGTCCCGCCTGTTCCATCTCTTTTTCACATTGCGCAACATCCGCAGGGCTATAGTTCGGCGCTTTACCACCGCGCAGGA -TCACATGGCCGTCCGGATTCCCCTGAGTTTGTAGCAACGCAACCTGCCCTGCCTGGTTAATGCCAACAAAACGGTGCGGC -TGGGCGGCGGCGCGCATAGCGTTAATTGCTGTTGCCAGACTGCCGTCGGTGCCGTTTTTAAAACCAACCGGCATGGAAAG -CCCGGAGGCCATTTCACGGTGAGTTTGCGATTCCGTTGTACGAGCACCAATTGCTGACCAGCTAAACAGATCGCCCAGGT -ATTGCGGGCTATTCGGATCTAACGCTTCCGTCGCCAGTGGCAGTCCCATATTCACCAGCTCAAGCAGCAATTTACGCGCG -ATCTGCAGCCCGGCTTCTACATCAAAAGAGCCATCCATATGGGGATCGTTAATTAACCCTTTCCAGCCGACAGTGGTACG -GGGTTTTTCAAAATAGACGCGCATTACCAGATAGAGGCTATCGCTGACCTCTGCGGCAAGGGCTTTAAATCGACGAGCAT -ATTCCAGAGCAGTTTCCGGATCATGAATGGAACAAGGACCACATACTACCAGCAGACGAGGATCGCGCCCGGCGATAATA -TCTGAAATGCTTTTACGCGAGTCAGCAATCTGGGCTTCTTGTTGCAGGCTCAATGGAAAAGCGGCCTTCAGTTGTTCCGG -AGTCATTAAAACCTGTTCGTCGGTAATATGTACGTTATTCAGCGCGTCTTTTTGCATGATGGCGATCCTGTTTATGCTCG -TTTGCGATAGTTGATCCTCAGCGAGGATGACGTAACGATAACACATAAAGTAAAGTTTTCAATCCATATTTCGTACATTT -TTATTTACACAGGCAATTTAGTCGCGCTTTCAACCCTTACCTCTGTATAGATAAATTTACACTCCCTTTGAAAACAATCC -GCTATGCTTTGAAAAAGGAGAAAGAAATGATGAAAAAGTTTATCGCCCCCTTGTTGGCTTTACTGGTTAGCGGATGTCAG -ATTGATCCTTATACTCACGCGCCAACCTTGACCAGCACCGACTGGTATGATGTCGGTATGGAAGATGCGATATCGGGCAG -CGCCATAAAAGATGACGATGCATTTAGCGATTCACAGGCGGATCGCGGTCTATACCTTAAAGGATATGCCGAAGGACAAA -AGAAAACTTGCCAGACCGATTTTACTTATGCCCGAGGACTTTCCGGTAAAAGCTTTCCTGCCAGCTGCAACAATGTTGAA -AATGCCAGCCAACTGCATGAAGTATGGCAAAAAGGGGCTGATGAAAATGCCAGCACAATACGATTAAATTAATTAAAACC -CCACAAATAAATTAAACATAAGATTTTACTCATTGTGTTTTATTTCTCACATTGATGACGGTCGCATGAAAAAATGATAT -TTTAATGAGCATTCTGAAAAAATATCGATGCATTTCGAGCGAAGATGGTGGGGATCCCTGAATGCGTTTTTCTCACCGAC -TGTTCTTACTTCTGATTCTCCTGCTGACGGGAGCACCAATACTCGCTCAGGAGCCTTCTGACGTTGCGAAAAACGTGCGT -ATGATGGTTTCCGGTATTGTCAGTTACACCCGCTGGCCTGCGCTATCAGGGCCACCAAAGTTATGTATCTTTTCATCTTC -ACGTTTTAGTACCGCCCTACAAGAGAATGCCGCGACATCTTTGCCTTATCTGCCTGTCATCATTCACACTCAACAAGAGG -CGATGATTTCAGGCTGCAATGGTTTTTATTTTGGCAACGAGTCACCGACATTCCAGATGGAATTAACCGAACAATATCCG -TCAAAGGCGTTATTATTAATTGCCGAACAAAATACCGAGTGCATTATTGGTAGCGCCTTTTGTCTGATCATCCACAATAA -TGACGTCAGATTTGCCGTAAACCTGGATGCCTTATCGCGTAGCGGTGTAAAGGTCAACCCGGATGTCTTAATGCTCGCAC -GGAAGAAAAATGATGGATAACGATAATTCTCTTAATAAGCGCCCCACGTTTAAAAGAGCATTACGCAACATCAGTATGAC -CAGCATATTTATCACTATGATGCTGATCTGGTTGCTGCTTTCCGTGACCTCGGTGCTGACCCTGAAACAGTACGCGCAAA -AAAACCTGGCACTGACAGCAGCAACAATGACTTACAGTCTGGAAGCAGCTGTCGTTTTTGCCGATGGCCCTGCAGCAACT -GAAACACTGGCAGCGCTGGGCCAGCAAGGGCAATTTTCAACTGCAGAAGTACGTGATAAGCAGCAAAATATTCTGGCATC -CTGGCATTACACCCGTAAGGATCCAGGCGATACTTTCAGTAATTTCATAAGCCACTGGCTCTTCCCTGCCCCCATCATTC -AGCCGATTCGTCACAATGGTGAAACCATTGGCGAAGTACGCTTAACCGCTCGCGACAGTTCAATCAGCCATTTTATCTGG -TTTTCGCTCGCCGTACTGACCGGTTGTATTCTGCTGGCATCAGGCATCGCAATTACCCTCACCCGCCATTTGCACAATGG -CCTGGTAGAAGCGCTGAAAAATATCACCGATGTCGTACATGATGTGCGTTCCAACCGCAATTTTTCCCGACGAGTTTCGG -AAGAACGTATCGCTGAGTTTCACCGCTTCGCTCTCGACTTCAACAGTCTGCTGGATGAAATGGAAGAGTGGCAGCTTCGT -TTACAGGCTAAAAATGCGCAGCTTCTACGTACCGCGCTACATGACCCATTAACCGGGCTGGCTAACCGCGCAGCGTTTCG -TAGCGGCATCAACACGTTGATGAACAATTCCGATGCCCGAAAAACGTCGGCGTTACTATTTCTTGATGGCGATAATTTCA -AATACATCAATGATACCTGGGGTCATGCGACGGGCGATAGAGTCTTGATTGAAATCGCAAAACGGTTAGCTGAATTTGGC -GGGCTGCGACATAAAGCATACCGCCTGGGCGGCGATGAATTCGCTATGGTGCTCTATGATGTACAGTCGGAATCTGAAGT -GCAGCAGATATGTTCAGCACTGACACAAATCTTTAATCTCCCGTTTGATCTTCATAATGGCCATCAGACCACCATGACAT -TAAGCATTGGTTACGCGATGACCATTGAGCACGCCTCTGCGGAAAAATTACAAGAGCTTGCCGATCACAATATGTATCAG -GCCAAACACCAGCGTGCCGAAAAGCTGGTGAGATAACAAGGATATATCGATATGATAAAGCACCTGGTAGCACCCCTGGT -TTTCACCTCACTAATACTGACTGGCTGCCAGTCCCCTCAGGGAAAGTTTACTCCTGAGCAAGTCGCCGCTATGCAATCTT -ATGGATTTACTGAATCCGCCGGCGACTGGTCGCTGGGCTTATCAGATGCCATTCTGTTCGCAAAAAATGACTACAAATTG -CTCCCGGAAAGCCAGCAACAGATCCAAACCATGGCAGCTAAATTGGCCTCGACAGGGCTAACACATGCCCGTATGGATGG -ACACACCGATAACTATGGTGAAGACAGTTACAACGAAGGCTTATCATTGAAACGGGCGAATGTCGTGGCCGATGCATGGG -CTATGGGTGGACAAATTCCACGCAGCAATCTCACCACACAGGGTTTAGGAAAAAAATATCCCATAGCCAGTAACAAGACC -GCCCAGGGCCGCGCCGAGAACCGCCGCGTCGCAGTGGTGATTACTACCCCTTAAAACACCAGCAAACAGATAAAAAAGGG -CCAGCCAATTGGCCAGCCCTTCTTAACAGGATGTCGCTTAAGCGAAATCTTAGTTAAGACGCTCTTTGATACGAGCAGCC -TTACCAGTACGCTCACGCAGGTAGTACAGTTTAGCTTTACGAACAGCACCACGACGTTTGACAGAAATGCTGTCAACTAC -CGGAGAGTGAGTCTGGAAGACACGCTCAACGCCTTCGCCGTTGGAAATTTTACGAACAGTGAATGCAGAGTGCAGACCGC -GGTTACGAATAGCGATAACCACGCCCTCGAATGCCTGCAGACGTTTTTTGGAACCTTCAACAACCCATACTTTCACTTCC -ACGGTATCACCCGGACGGAAGGAAGGTACGTCCTGCTTCATCTGCTCTTGTTCAAGTTGCTTAATAATGTTGCTCATAAT -TTAATCTCTTATCCTGGGTAAACTGATATCTCGGGGGCTTACGCCATCCCATCATGTTTATGTTGCTGTTGTGCGTGTTC -CGTTTTGAACTCCGCCAGCAACCTTGCTTGCTCTTCAGTCAGAGCCAGGTTTTCCAGAAGTTCAGGTCTTCTAAGCCAGG -TACGGCCCAGCGACTGTTTCAAACGCCAGCGACGTATCTCGGCATGGTTGCCCGACAGTAACACTGGCGGAACTTCCATC -CCTTCTAACACCTCAGGCCGCGTATAGTGCGGGCAATCCAGCAATCCTTCAGCAAAGGAATCTTCCGTTGCCGAGGCTTC -ATGTCCCAGTACTCCCGGAATAAACCGGGAAACGGAGTCAATCAGCGTCATTGCTGGTAACTCACCACCACTGAGAACGT -AATCGCCGATTGACCATTCTTCGTCAATTTCGGTTTGGATCACGCGCTCATCTATACCTTCGTAGCGACCGCACACCAGA -ATCAATTTTTGATTCGTTGCCAGTTCGCTGACGCCCGCTTGATCAAGCTTGCGTCCCTGTGGTGACAGATAAATCACCTT -TGCGCCTTCACCCGCCGCGGCTTTTGCTGCATGAATGGCGTCCCGCAAGGGTTGCACCATCATTAACATCCCCGGTCCGC -CGCCGTAAGGACGATCGTCCACGGTACGGTGCCGGTCATGCGTGAAGTCGCGAGGACTCCAGCTCTGGATGCTCAGCAGG -CCATTTTTAACTGCCCGGCCAGTTACCCCGTAATCGGTAATTGCGCGGAACATTTCAGGAAACAGGCTAATTATGCCAAT -CCACATAGCGCCGTCTTTTACCGTTTATCCGGTGGTTTAAAAACCAGGATCCCAATCTACTTCGATTGAACGAGTAGTGA -GATCGACTTTCTTGATAACCTGCCCATCGAGGAACGGTACGAGACGTTCCTTGATACCAAACGCATCTTTCAGGTTTGCC -TTAATGACGAGAACGTCATTAGATCCGGTTTCCATCATATCGACGACTTTACCGAGATCGTAGCCTTCAGTGGTTACTAC -CTGGCAGCCCATCAGGTCTTTCCAGTAGTAGTCCCCCTCTTCAAGCTGAGGCAGCTGCGATGAATCCACGACAATTTCAC -AATTCGTCAGCAGGTTCGCCGCATCACGATCGTCAACGCCTTTCAGCTTGATGATCATGTCCTGATTGTGGTGCTTCCAG -CTTTCCAGCTGGACTTGCTGCCACTGACCCGCCTTCTGGATAAACCAGGGCTGATAGTCAAAAATGCTTTCGGCGTCTTC -GGTGGAAGAAAACACTCTGAGCCACCCACGAATACCGTAAGACGAACCCATTTTTCCCAAAACGATGGGATCAACAGGTG -CTTGCGCGGTGAGTTGTTTGCTCATCATGACCACCGTGACAGATTAAGCTGCTTTGTTTACTTCTTTGATCAGCGCAGCA -ACGCGATCAGAAATAGTTGCGCCCTGGCCAACCCAGTGAGCGATGCGATCCAGATCCAGGCGAGTGCCTTCTTCTTTTTC -GCTAGCGATTGGGTTGAAGAAACCAACGCGCTCGATGAAGCGACCGTTGCGTGCATTACGGCTGTCAGCGACAACAACCT -GGTAGAACGGACGCTTTTTAGCGCCGTGACGTGCTAAACGAATAGTTACCATAACATCCTCTTGTGTGAATAAAACAACC -GGACCCCATCGAGGAACGGAGTCCGGTGTCATATTAAAAGCCCGAAAATTTTACTCATTTTTGCGGGAATTGCAATCAAC -AGTTGCTAACTCTGCTGTAAAAGGCCGTCGGCGGTGCAGCCAGTTTGGTGCCGGAGTGCGCGCAGTCACCGGAGCGTACA -CGCAGTACGTGAGGATGACGAGCACATCCCGGTGCCAAAATGGCAAACAAGCCAGGCCGATTAGCGACCAGGGAAGCCTG -GGGGCATCATACCCTTCATGCTTCTCATCATCTTCGCCATTCCGCCCTTCTTCATTTTCTTCATCATGCGCTGCATGTCG -TCGAACTGTTTCAGAAGACGGTTAACGTCCTGCACCTGCATACCGCAACCGGCAGCAATACGGCGTTTACGCGAACCTTT -GATGATTTCTGGCTTAGCGCGCTCTTTCATCGTCATCGAGTTGATGATGGCTTCCATACGCACCAGCACTTTATCGTCCA -TCTGTGACTTGACGTTATCCGGGATCTGCCCCATGCCCGGCAGCTTGCCCATCAGACTAGCCATGCCGCCCATATTTTTC -ATCTGGCGCAGCTGCTCAAGAAAGTCGTTGAGATCGAAGCCGTCACCTTTTTTCAGCTTGCTGGCTAATTTCTCTGCCTG -CGCGCGGTCAACTTTGCTTTCGATATCTTCGATCAGCGACAGTACGTCGCCCATGCCGAGAATACGCGACGCGATGCGGT -CCGGATGGAACGGCTCCAGCGCCTCAGTTTTCTCGCCAACACCGAGGAACTTGATCGGTTTGCCAGTGATGTGACGAATA -GAGAGCGCCGCACCGCCGCGGGCATCGCCGTCCACTTTGGTCAACACTACGCCGGTAAGCGGTAACGCTTCATTGAATGC -TTTTGCCGTATTGGCCGCATCCTGACCGGTCATGGCGTCAACCACAAACAGGGTTTCAACCGGGTTAATCGACGCATGGA -CTTGTTTGATCTCGTCCATCATCGCTTCGTCAACGTGCAGACGACCAGCGGTATCCACCAGCAGCACGTCGTAGAATTTC -AGTTTGGCTTCTTTCAGCGCCGCGTTAACGATATCTACCGGCTTCTGACCAACATCAGAAGGGAAGAAATCAACGCCCAC -CTGCTCTGCCAGCGTCTCAAGCTGTTTGATTGCCGCCGGGCGATAAACGTCGGCAGAAACCACCAGCACTTTCTTCTTGT -GCTTCTCGCGCAGGAACTTACCGAGTTTACCAACGCTGGTTGTTTTACCGGCACCTTGCAGGCCCGCCATCAGTACGACC -GCAGGCGGTTGCGCAGCCAGGTTCAGGGTCTGGTTCTCTTCGCCCATCGCCGCAACCAGTTCGTTACGGACTATTTTGAC -GAACTCCTGCCCCGGCGTCAGGCTCTTATTAACTTCATGACCAACCGCTTTCTCTTTTACGCGATTGATAAACTCACGCA -CTACCGGCAGAGCTACGTCCGCCTCCAGCAGCGCCATGCGCACTTCGCGCAGCGTATCTTTTACGTTGTCTTCAGTGAGG -CGTCCACGGCCACTGATATTGCGCAGCGTGCGCGACAAACGATCGGTTAAATTATCAAACATTGTCTCTCGCCTGGGGTG -GAAACGGTTGGCCGCAATCGCGACACATCATCAGTATTTTGCCGCAGTATAACATGAAGGCGTCTTTGTTGTTATGCAAC -GGTTGGAGCAGCGTTCACCTGACGCTATACTGCTTCTCTTTCTTATTGCTCAAACTGTCGACATCACTATGCCCGTTTTT -GCTCTGCTCGCGCTTGTCGCCTACTCCGTCAGTCTTGCGCTGATTGTTCCCGGTCTGCTGCAAAAAAACGGCGGCTGGCG -GCGCATGGCTATTATTTCTGCGGTCATTGCGCTGGTCTGCCACGCAATCGCTCTGGAAGCCCGCATCCTGCCCGACGGTG -ATAGCGGACAAAACCTCAGCCTGCTGAACGTTGGTTCATTGGTCAGTTTGATGATCTGTACGGTAATGACCATTGTGGCT -TCTCGCAATCGTGGCTGGCTGCTGCTACCCATTGTCTATGCCTTTGCGCTTATCAACCTGGCGCTGGCAACCTTCATGCC -CAATGAATACATCACCCATCTGGAAGCTACGCCTGGGATGCTGGTGCACATTGGCTTATCGCTCTTTTCCTATGCCACGC -TAATTATCGCCGCCCTGTACGCACTGCAACTGGCGTGGATTGATTACCAACTGAAGAACAAGAAGCTGGCGTTTAACCAG -GAAATGCCGCCATTGATGAGTATCGAGCGTAAAATGTTCCACATCACGCAGATTGGCGTGGTGCTGCTAACGCTCACGCT -TTGCACTGGCCTGTTCTACATGCACAACTTATTTAGCATGGAAAATATCGACAAGGCTGTGCTCTCTATCGTGGCGTGGT -TTGTCTATATTGTGCTGCTGTGGGGACATTATCATGAAGGATGGCGTGGACGCCGCGTCGTCTGGTTTAACGTTGCGGGC -GCGGTAATTCTGACACTGGCCTACTTCGGCAGCCGAATTGTCCAGCAGTTAATCAGCTAAACCCAGAAAAGGAGTTTCCC -CTGGAACACATTTCTACTACTACGTTGATCATTATTCTGATCATCATGGTGGTCATTTCAGCCTATTTTTCCGGGTCCGA -AACCGGAATGATGACCCTCAACCGCTATCGTCTGCGACATATGGCGAAACAGGGTAATCGCTCGGCCAAACGCGTCGAAA -AATTGCTGCGTAAGCCAGACCGCCTGATAAGCCTGGTGTTAATCGGCAATAACCTGGTCAATATTCTTGCCTCCGCGCTC -GGCACTATTGTTGGGATGCGTTTGTACGGCGATGCGGGCGTGGCAATTGCGACTGGTGTGCTGACTTTTGTCGTACTGGT -ATTTGCTGAGGTATTGCCGAAAACCATTGCCGCGCTGTACCCGGAAAAAGTCGCTTATCCGAGTAGTTTTCTGCTGGCTC -CGCTGCAAATTTTGATGATGCCGCTGGTCTGGTTGCTGAATGCTATCACCCGTATGCTGATGCGCATGATGGGTATCAAA -ACCGATATCGTGGTTAGCGGCTCTTTGAGCAAAGAAGAGTTGCGCACTATCGTGCACGAATCACGCTCACAAATTTCCCG -TCGCAATCAGGATATGCTGCTGTCGGTGCTCGATCTGGAAAAAATGACCGTTGATGACATCATGGTGCCGCGCAGTGAAA -TTATCGGTATTGATATCAACGATGACTGGAAATCGATTCTGCGCCAACTCTCCCACTCACCTCACGGGCGCATCGTGCTC -TACCGTGATTCGCTGGACGACGCCATCAGTATGCTGCGAGTACGTGAAGCCTGGCGGTTGATGTCGGAGAAAAAAGAGTT -CACCAAAGAAACCATGCTGCGCGCCGCGGACGAGATCTATTTTGTGCCGGAAGGTACGCCGCTCAGCACGCAGTTGGTAA -AGTTTCAGCGCAACAAAAAGAAAGTCGGCCTGGTCGTCAACGAGTATGGAGACATTCAGGGGCTGGTGACGGTTGAAGAT -ATTCTGGAAGAGATTGTCGGCGATTTCACTACGTCGATGTCGCCAACACTTGCCGAAGAGGTCACGCCGCAAAACGACGG -TTCGGTGATTATCGATGGCACCGCCAACGTGCGGGAAATCAACAAAGCCTTTAACTGGCATCTACCGGAAGATGATGCCC -GCACGGTTAATGGCGTCATTCTTGAGGCACTGGAAGAGATCCCTGTCGCAGGCACCCGCGTGCGTATTGGCGAGTACGAT -ATCGATATTCTCGACGTACAGGACAATATGATTAAGCAGGTAAAAGTTTTTCCTGTGAAACCGCTGCGCGAGAGTGTGGC -GGAGTAACGAAAACGGCCCGGCATTCGCATGCAGGGCCGTGAATTATTACGAAAGCAGAAATTAAGCTTTTGCTTTCGCT -ACAGTAACCATCGCCGCACGAATCGTACGACCATTCAGCGTATAACCCTTCTGCATAATGCCCAGTACGTTACCTGGCGC -AACGTCATCAGATTCCACCATTGCGATGGCCTGATGCACATTCGGGTCCAGTGGGACGTTAGTTTCGGCGATCACTTCAA -CGCCAAACTTACGCACAACATCCAGCATCGACTTCAGCGTCAGCTCAATGCCTTCAACCATCGCAGACATATCCGGGTTA -GCTTTATCAGCCACTTCCAGCGCACGATCCAGGCTATCAATCACCGGCAGCAATTCGTTGATGAATTTCTCCAGCGCGAA -TTTGTGGGCTTTTTCAATATCCAGTTCAGTACGACGACGCAGGTTTTCCATTTCGGCTTTTACACGCAAAATGCCGTCAC -GTTCACGGGTCTGGGCTTCAGCCAGCTGAGCTTCGAGATTCGCAACTTTTTCATCGCGCGGATCCACCTGCTCAGCAGAA -GCTTCTGGCTCAACTGCCTCAATCTCTTCGTGCTGATCCATGATAATTTCTTCCGGGGCTTGCCCCTCAGGCGTTTTCTG -TTCTTTACTACTCATGAATTTCTCCGCGTTTTTTTCGCATTCATCTCGCTAACTTCGCTTATTATGGGGATCAGTTTCAG -GGTTTCAAGGGAAGCACTCACATTGTCATCAATCTTCGCAACAAGGACCTCGGAAAAATGAATAATCATTTCAAGTGTAT -TGGCATTGTGGGACACCCACGGCACCCCACTGCACTGACAACACATGAAATGCTCTACCGCTGGCTGTGCACAAAAGGTT -ACGAGGTCATCGTTGAGCAACAAATCGCTCACGAACTGCAACTGAAGAATGTGAAAACTGGCACGCTCGCGGAGATTGGG -CAACTAGCTGATCTCGCGGTAGTCGTTGGTGGCGACGGTAATATGCTGGGCGCGGCACGCACACTCGCCCGTTACGATAT -TAAAGTTATTGGAATCAACCGTGGCAACCTGGGTTTCCTGACTGACCTTGACCCCGATAACGCCCAGCAACAGTTAGCCG -ATGTGCTGGAAGGCCACTACATCAGCGAGAAACGTTTTTTGCTGGAAGCGCAAGTCTGTCAGCAAGATTGCCAGAAACGC -ATCAGCACCGCGATAAATGAAGTGGTGCTTCATCCAGGCAAAGTGGCGCATATGATTGAGTTCGAAGTGTATATCGACGA -GATCTTTGCGTTTTCTCAGCGATCTGATGGACTAATTATTTCGACGCCAACAGGCTCCACCGCCTATTCCCTCTCTGCAG -GCGGTCCTATTCTGACCCCCTCTCTGGATGCGATTACCCTGGTGCCCATGTTCCCGCATACGTTGTCAGCACGACCACTG -GTCATAAACAGCAGCAGCACGATCCGTCTGCGTTTTTCGCATCGCCGTAACGACCTGGAAATCAGTTGCGACAGCCAGAT -AGCACTGCCGATTCAGGAAGGTGAAGATGTCCTGATTCGTCGCTGTGATTACCATCTGAATCTGATTCATCCGAAAGATT -ACAGTTATTTCAACACATTAAGCACCAAGCTCGGCTGGTCAAAAAAATTATTCTAATTTTACGCCAGCCTCTTTACTGTA -TATAAAACCAGTTTATACTGTACACAATAACAGTAATGGTTTTTCATACAGGAAAACGACTATGTTGGCACAACTGACCA -TCAGCAACTTTGCTATCGTTCGTGAGCTTGAGATTGATTTTCATAGCGGCATGACCGTAATAACTGGCGAGACCGGCGCG -GGTAAATCTATTGCAATAGATGCCCTCGGTCTTTGTCTCGGTGGTCGCGCTGAAGCCGACATGGTGCGTACCGGCGCTGC -TCGCGCTGACCTGTGCGCCCGTTTTTCTCTGAAAGATACGCCAGCGGCTCTGCGCTGGCTGGAAGAAAACCAGCTTGAAG -ACGGGCATGAATGTTTGCTTCGTCGCGTGATCAGCAGCGATGGTCGCTCCCGTGGTTTCATCAACGGTACAGCTGTTCCT -CTGTCACAACTGCGCGAACTGGGTCAGTTGCTGATTCAGATCCATGGTCAGCACGCTCATCAATTACTCACCAAACCTGA -GCACCAAAAATTCCTGCTTGATGGCTATGCCAATGAAACCTCTCTACTGCAGGAAATGACCGCACGTTATCAGTTGTGGC -ATCAAAGCTGCCGTGACCTCGCGCATCATCAACAGTTAAGTCAGGAACGCGCCGCCCGTGCGGAACTGCTGCAATACCAA -TTAAAAGAACTTAACGAATTTAATCCGCAGCCCGGAGAGTTTGAACAAATCGACGAAGAGTACAAACGTCTGGCGAACAG -CGGTCAATTGCTGACCACCAGCCAGAATGCATTGGCATTAATGGCCGACGGTGAAGACGCAAACCTGCAAAGTCAGCTTT -ACACGGCTAAACAACTGGTGAGCGAATTGATTGGCATGGACAGCAAACTGTCCGGCGTACTTGATATGCTGGAAGAAGCT -ACCATCCAGATTGCTGAAGCCAGCGATGAACTGCGCCACTACTGCGATCGTCTGGATCTCGATCCCAACCGACTATTTGA -ACTTGAACAGCGCATCTCAAAACAGATTTCGCTGGCACGTAAACATCACGTCAGCCCTGAGGCATTGCCACAGTATTACC -AGTCGCTACTGGAAGAACAGCAGCAACTGGACGATCAGGCCGACTCACAAGAAACGCTTGCGCTGGCGGTAACGAAACAT -CATCAGCAGGCACTGGAAATCGCGCGCGCATTACACCAACAACGCCAGCAATATGCAGAAGAACTTGCACAGCTGATCAC -CGACAGTATGCATGCGCTCTCAATGCCGCATGGGCAGTTTACGATCGATGTTAAATTTGACGAGCATCACCTGGGCGCTG -ACGGTGCCGATCGTATTGAGTTTCGGGTAACCACCAACCCAGGTCAGCCAATGCAGCCTATTGCCAAAGTCGCATCCGGT -GGTGAATTGTCCCGCATCGCACTGGCAATCCAGGTCATCACGGCGCGTAAAATGGAAACCCCGGCACTGATTTTTGATGA -AGTGGATGTAGGGATTAGCGGTCCAACAGCGGCAGTTGTCGGCAAACTGCTGCGTCAACTCGGCGAATCAACTCAGGTGA -TGTGTGTTACCCACCTGCCACAAGTCGCGGGATGTGGTCATCAACACTATTTTGTCAGCAAAGAAACCGATGGTGCGATG -ACAGAAACGCATATGCAATCCCTGAATAAAAAAGCGCGGTTACAAGAGCTGGCGCGCCTGCTTGGTGGCAGTGAAGTCAC -ACGTAATACACTGGCGAATGCGAAAGAACTGCTTGCAGCGTAAACTTTTTTCCTGCTTCACGGTCAGAGTAAACAGCAAA -ACGCCGTAAGACCGGAAAGCAAAAGGTTTTAAAGTGATGAAAGGTCTATTATCATCGGCATATTACAGATGAGCCACGTA -CTGCTCGGGCCCGAAAAGGAATCAAATCACTATGCGCTGTAAAACGCTGACTGCTGCAGCAGCAGTACTATTGATGTTGA -CCGCAGGCTGTTCCACTCTGGAGCGAGTGGTTTACCGTCCTGACATCAACCAGGGGAACTATCTGACCGCTAACGACGTA -TCCAAAATACGTGTTGGCATGACGCAACAACAAGTTGCGTACGCATTGGGTACACCGCTGATGTCCGATCCATTTGGTAC -GAATACCTGGTTCTATGTCTTCCGCCAGCAACCAGGTCATGAAGGTGTAACTCAGCAAACGCTGACGCTGACCTTTAACA -GTAGCGGTGTGTTGACCAATATTGATAACAAACCTGCGCTGAGTGGTAACTAATAATAAAGTTGCTCTCAAAGACGTTAA -AAAAGGTGCTCAATGAGCACCTTTTTTCTGTCTGTTATTTATTCGCTGATTTTTCTGCTCGTTGCCTGCGAAGCTCTTTC -GGATCGGCAATGAGAGGGCGATAAATCTCCACCCGATCGCCATCATGCACACTATCGCTTAGTTTTGCCGGACGGCTGTA -AATGCCGACTTTGTTTTTAGTTAAATCGATATCGGTACGCAATTCCAGCAAGCCACTGGCGCGAATAGCTTCTTCAACCG -TCGCGCCCTCCTGCAGCGTCACTCGCTGCAGGTACTGCTTCTCAGGTAGCGCATAAGCCACCTCAACGGCAATTTTACCT -GGCACTGTAAACCTCTTTCGCACGAACCGTAAAAGCCTGGACCATATTAGCCGCCAGCTCTTTAAACACGCGACCAAAGG -CGAGTTCAATCAACTTATTGGTAAACTCAAAGTCGAGATGAAACTCGATACGACACGCCTCCTGGCTCAGCGGCGTAAAC -TTCCATCCACCAATCAATTTCTTGAACGGCCCATCCACCAGATTCATAAGAATACTTTGGTTACTGGTCAACTGGTTGCG -GGTAGTAAACGTTTTGCTGATCCCAGCCTTAGAGACATCTACCGCCGCAGTCATCTGCCCAGGAGTGGACTCCAGAATCC -GACTTCCGGTACAACCCGGCAAAAACTGAGGATAAGACTGAACGTCATTCACTAACTGATACATTTGCTCCGCGCTGTAG -GGTACCAGTGCGGTCCGGCTAATCTGAGGCATAACAATTTCCATCAACAAAAATCCAACAAATAATATCATTTATCCTGC -TGTAAAAAAAACGCTATCCCGGCGCTGGGTAACATCGGGTTCATGCTAAGATAGAGCCTTGTCCCCCGCAGGATTGATAT -GGGGTGTTTTCGATTTCAGATTACCGATGATTCACGACGCTTATGACGAAGAAAAAAGCACATAAACCTGGTTCAGCGAC -CATCGCGCTTAACAAGCGCGCCCGTCACGAATACTTTATCGAAGAAGAGTTCGAAGCGGGACTTGCCCTGCAAGGCTGGG -AAGTTAAATCCCTGCGCGCAGGAAAAGCCAATATCAGCGACAGCTACGTCCTTCTGCGTGACGGAGAGGCATTTCTGTTT -GGCGCTAACATCACGCCAATGGCCGTGGCCTCCACGCATGTGGTGTGCGATCCTACCCGTACCCGCAAGTTACTTCTCAA -CCAGCGCGAACTGGACTCATTGTACGGTCGCGTCAATCGAGAAGGCTATACCGTAGTGGCGCTCTCCCTGTACTGGAAAA -ATGCCTGGTGCAAAGTGAAAATCGGCGTCGCCAAAGGTAAGAAACAGCACGATAAACGTTCAGATATCAAAGAGCGCGAA -TGGCAGGTGGATAAAGCACGTATCATGAAAAACGCCCACCGTTAAACCTGCACTCCAATTATTGACCAGTTCCTCACCGC -GCCTCCCTCTCCGGCGGCGCGAATGAACATCTTATTGGCTATCACATCCGACACAAATGTTGCCATCCCATTGCTTAATC -GAATAAAAATCAGGCTACATGGGTGCTAAATCTTTAACGATAACGCCATTGAGGCTGGTCATGGCGCTCATAAATCTGGT -ATACTTACCTTTACACATTGGGGCTGATTCTGGATTCGACGGGATTTGCGAAACCCAAGGTGCATGCCGAGGGGCGGTTG -GCCTCGTAAAAAGCCGCAAAAAATAGTCGCAAACGACGAAAACTACGCTTTAGCAGCTTAATAACCTGCTTAGAGCCCTC -TCTCCCTAGCCTCCGCTCTTAGGACGGGGATCAAGAGAGGTCAAACCCAAAAGAGATCGCGTGGAAGCCCTGCCTGGGGT -TGAAGCGTTAAAACTTAATCAGGCTAGTTTGTTAGTGGCGTGTCCGTCCGCAGCTGGCAAGCGAATGTAAAGACTGACTA -AGCATGTAGTACCGAGGATGTAGGAATTTCGGACGCGGGTTCAACTCCCGCCAGCTCCACCAAAATTCTCCATCGGTGAT -TACCAGAGTCATCCGATGAAGTCCTAAGAGCCCGCACGGCGCAAGCCCTGCGGGCTTTTTTGTGCCCTCAATTTGTCCCG -CGAAGTCCGAAGAGAACTAATTAAATCCGAACCTTTTAGGCCCATTGATAGGCCCAACGAAAAGCTCTATTGTTTACGTT -GGGCCTAAACGCAGGGAGACTCCCCATGGCAAGAAAAACCAAGCCGTTAACTGATACGGAAATCAAAGCCGCCAAACCTA -AAGATGCCGATTACCAGCTTTATGACGGTGACGGGCTTACTCTGTTAATCAAGTCCAGTGGCAGTAAGCTTTGGCAATTC -CGTTACTATCGGCCTTTGACCAAGCAGCGAACCAAACAGAGCTTCGGTGCCTATCCTGCCGTCTCGCTTTCTGATGCACG -TAAACTCAGAGCCGAATCTAAAGTTTTATTGGCGAAAGACATTGATCCTCAGGAACATCAGAAAGAACAGGTGAGGAATT -CTCAAGAGGCCAAAACCAATACCTTCTTGTTAGTTGCCGAGCGTTGGTGGAATGTGAAGAAAACCAGCGTAACAGAGGAC -TATGCCGACGATATCTGGCGCTCGCTTGAGAGAGATATTTTCCCGGCAATCGGTGATATCAGTATCACTGAGATTAAGGC -TCATACTCTGGTTAAAGCAGTTCAGCCGGTTCAGGCCAGAGGTGCATTAGAGACTGTTCGCCGCCTTTGTCAGCGTATTA -ACGAAGTCATGATTTATGCGCAGAACACAGGCCTGATTGATGCTGTTCCTAGTGTAAATATCGGAAAAGCTTTCGAGAAA -CCGCAAAAGAAAAACATGCCAAGCATCCGGCCGGATCAACTTCCGCAGCTAATGCACACCATGCGTACGGCAAGTATCAG -CATGTCCACAAGATGCCTGTTCATGTGGCAACTTCTAACCATCACCCGCCCTGCCGAAGCTGCTGAGGCTCGATGGGATG -AGATCGATTTCAATGCTAGCGAATGGAAAATTCCTGCAGCTCAAATGAAGATGAACCGGGACCATACGGTTCCACTATCT -GATGGGGCTCTTGCTATTCTGGAAATGATGAAGCCTCTCAGTGGTGGCCGAGAATTTATCTTTCCTAGCCGTATCAAGCC -CAACCAACCAATGAATAGCCAAACAGTGAATGCAGCACTCAAGCGTGCTGGCTTAGGAGGTGTACTTGTTTCACACGGCT -TGCGTTCTATCGCCAGTACGGCACTCAATGAGGAAGGATTTCCACCTGATGTCATTGAAGCAGCGCTTGCTCATGTAGAC -AAAAATGAGGTGCGTCGCGCTTATAACCGCAGTGATTATCTTGAGCAACGTCGTCCGATGATGCAATGGTGGGCTGATCT -CGTAAAAGCAGCAGATAGTGGTAGCATCGTTTTAACTCATTTGAGCAAAATTCGTCTTGTCGGATAAAATATTTATCAGC -CCAGCTCTCTGGGCTGATATTTCTAAAAGATCGCACTAAATAGCTACGCGGAATAGTGCTCTACTTTCGTTTAGCCCTTT -CAGAGGTAAGACATTAGGGCAATTTCACTGTATGACTGCGCAGTCATCGAGTCTGTGGGGTGTTGCTCCTTTTGCAACGT -ATCACTTGTCAATAAATAGAAAGTGTAGATGTATTAGGCGCAGCTATTTAGTCTATATGGCAAGTAGTAATTATTTACTT -CTTTTTTTTCTACGAACAGCGCTATCGAAAGCTTGTTTTACATCTTCATTTTTTAAAGACCATTGATTTAAAATAGTATC -AACCAAAGCATCTTGACTCATTGTTGCTACACGATATTTTTTATTTTGATTATTTATCTCAAACTCTGACATTTGAATAA -AATCCCATAGCGGTTCGATAAGTTCATTAACTGCTACAACCTTATTTTTCCACCCATCATTCGGAACAGAGTCATTAATT -AGCTCAACCAACTTCAGTTGAATGATATGGTACACTTCCGCTTTGCTTTTGCCACCCTTCTTTCCTGCACTCCGCCTGAC -TTCTGATAATTTTTTTTGATTACAAACAGAGATGTTAAACCAAGTCATACCTATGCACTTATCAAATAACTCCGCAGCCC -GATGAAATGCTTTAAAGGCAACGTTTTCATTTTCAGACATGATAGATTTTCCCCAGAAAAAAGAGATTGAGGCGAACATA -AGGTGTGCCTTGAAAATGTCATTAATGGAAAATGGCTCGATAACAAGAGGTAAAAACGTTTCCTTGGTAAGGTTTGAACT -TAGATTTTTCCAGCATTCTTGAGCTGGATCATATAATTCAGTGTATTCTTCCTTTATCTCCAGTTGCCCATTCACTGTAT -GGTGCCTTGTTTCCCATGGTACATCGCAGGAATATAACCTCACACGAGTACCTATTTTCTCAGAGCTCCAGAATTGCTCT -CGCATTCTGCCTAGCTCAATCCGTATTTCCGGATGATCTTCCTCTAGAACATCAGTATCCACCGCCCATTCGCATTCGGA -CATGTGATAGGCGAGATCACGTCGTTTTCTACAAATTTGTTCATAAAAATCATTCAGAGAAATCATAAAACCACCATAAA -TCAATGTATTAGAGGTTGTAAAAATTGTATTTTTGGTACATGGGTTTTTTGCCTTAAAGATACCCATTAATCTCTCTGCA -ACCAAAGTGAACCAATGAGAGGCAACAAGAATGAACAATCGATCGGCCGTTAGAATACTACGGTTACCAGCGGTTATCCA -AAAAACAGGTATGGCACGGGCCACCATCTATGACTGGTTGAACCCCAAATCACCACGATACGATGCCACCTTTCCCAAAA -AGCGAATGCTCGGCGTGAAATCTGTCGGATGGATTGAGGCCGAGATTGATGAGTGGTTATCACAACGCTGTAAACTTATT -TGAGGGTGTTACATGAATTCATACTCAATTGCTGTCATCGGAGTGTAAACATCCTGCTATTTCCGCCATTAATAGCGGAA -TAGCCATATTTGCTAAACAATTTCTTAATTTAATTAAATAAGAGGCATTGCATGTTCAATGGTCGTCCTTTCCCTGTAGA -TGCATTTCCTAAAATTATCAGGAATGCAATTTATGAAGTGGAACAGCATACGCAGGCCCCTCAAGGTTTGATTGCTGCTT -CTGCTCTTGGGGTAATTTCTCTTGCCTGTCAGAACCGGATTGATGTTTGCCGATTGAATAATCTACGTGGCCCGGTATCA -CTTTTCTTAATGACTCTGGCTGAATCAGGTGAACGTAAGAGTACGGTTGATAAACTGCTGATGAAGCCATTATATCAACT -GGAAGAGGATTTATTTGAAAAATACACCCACGATCTTACCGCATGGAGAAATGATGAAGCAATTTTTAATATTGAAAAAA -AAGCACTGATGTCAAAACTTAAATCAGATATTCGACGTAACAAAGATCACTTGGCAACAAATGAAAGACTTAAAGAACTA -CTTACGACAAACCCGAAAGCTCCAGTGAGATTCAAATTTTTATTTAACGATGCCACACCTGCAGCTATTAAAGCTCATCT -CTGTGGGCACTGGCGATCAGTCGGCATCATGTCTGATGAAGCTGGGATCATTTTTAATGGTTACACACTTAACGAGCTGC -CGTTTATCAATAAGATGTGGGATGGTTCAATATTTACGGTGGAAAGGAAAAACGAGCCCGAGAAATTAATTAGAGATGCA -AGAATAACACTGTCGCTGATGGTCCAGCCTAATGTTTTTAAGGGTTATATCGACAGGAAAGGAGATATGGCAAAGGGGAT -TGGATTTTTTGCACGGTGCCTCATGTGCCAGCCTGCTTCAACACAAGGTAACAGAAAAATTTCCAACCCAATTTTTTCAA -ATGAACATTTGCCGGTATTTCACCAACGTCTTATGGAAATTGTTAATGAGAGCATCATTAAAATTAATGAAAATAATCGC -ATCTGCCTCCGATTCTCTGCAGAAGCAGAAAGACATTGGATCGAATTCTACAACCAGGTCGAGTCAGAAATGAGAATGAT -TGGCCTTCTTTATGATTTTAAGGATTATGCTTCTAAAATGGCGGAGAACATGGCGAGGCTTGCTGCCTTACTTCATTACT -TCAGCGGTGATGGAGGCGATATATCTGTTACCGCAGTAAAAGCAGCAGTGGAGATAGTGGCTTGGTATATTGAAGAATAC -ATCCGCTTGTTCTCTAAAAAAGAAGAGTTTTCTTTAGATGTTTCAGAAGCAGATGAGCTTTATTGTTGGATAAAAGATTA -CTGCACGCAAAAATTTTCTTCCTGCATCAAGAAAAATATTATCTTACAATTTGGGCCAAATAAATTTAGAAATCGTGACA -AGGCAAATGAATTAATTAGAATCTTAATTTCACAAAACAAAATATTTATATCTTCATGGGGTAAAACAAAAATAATAAAC -ATAACTCATTGTGTTTTTTGATTTTAATGACAATCTAAAAGGACTTAATTTAAGAGTAAAAACAAACTCTAAACCCAGTT -CGGATAAAAGCTTGTCATCTTGATAGGTAATATATAGGTACATAGACACATCAGAACGATCACTTACTCCAATATCATTG -GCCAGGATACTATATGACATACGATAGTGAATTCGGATCACATGTATCCCTATATCGGGATAGAATCAAACAGGTTATTG -ATGACTCCCTAAACGAACATCTTAACTCAATGATTCTACGTGTTGATCTGCATGACCCAATTGATACAGAAAATATGGAT -AACCCATTCTTTCAACCCAGGGTTGACTCTGGTGCTATATCTCGCTTTACCAGTGCGTTAAAAGCAAAGCTTAAACATGA -TAAGCATATTAAAACTCAACGGAAAGACTGGCCTGATAGTCGACATTCCACTTTACGTTACGCATGGGTCAGAGAATATA -CCAAAAATAGAAAGCGGCATTACCATTTGATACTGTGTTTCAATCAGGATGCTTATTATCATTTAGGTGATTACGACTTA -AACCGTAACACGTTACGTACAATGATAACGACAGCTTGGTACAGTGCACTTGGCATCCCTATAGATAGCTCGGGGAAGTT -AGTTAATTACCCGCCAAATGGCAAATACCTTCTCAATCGTAAAAGGGACAACTTTGAGCAGACTTATAGCGATTTGATGA -ATAGGGTGGATTACATGACCAAAGTAAGGACTAAAATAGTCGGTGACGGAGACCGTAATTTCGGCTGCAGTCGCGGGTAA -TTTATTTTTTACAACAATGGCCTTTCTTATGGCTGGAAAGGCCTGATTTGTTTGTATTAAGATATCGGTAATCTTTTGAT -GGTTGGAAGCCCGTCCTGGTAGACGACCTAGCCTACCGAAGATGTGAGTTATTCAAAAATGTCGCTTTCCCGCGTTCCGT -AGACAAACGTACCTAAATCAATGTCGTCTAATACCGAGCGCGCGCCTGATAAACATCTGATCAACGTACCCAATCGATCT -ACTCCAAATGTCCTGAGTATCCCGAAGATACTGGCTCAACTCATCCACATCAGCCTCGTCGGAAAATTCCAGCAAGTCTA -CCAGTCGGTGTAACGTCTGAATGGGAATGCCAATCTCTTCTAAGGCATTGACACCTGGTGGTAGATGGAAACTTTCGAAC -GCCAATTTGACATGTGTGTAATCGACTTTGCTGCGTATACCACGCTTTACAGCGTGGTGTTTAACTACATCCTCCATCAA -GCTGAGCACCTTAGGTAGGGTATAGCCGAAGGTATTGGTTATGAGCTTCAAATCATTGTTGAGGGCAATGGAAAGAGTAC -GTTTCTCCCCTTCAGAAATCCACTGTCGTGCATAATCGATCTGATTTTTCAGATATTCCGAATAACTTTCAGCACTTAAA -TAGCCGGCAAGTTTTGCGATCATGACATCCGTAGGCTTAACAGGGACCCCATTGCGACTGAACGTATGGGGAACCAGTCT -GGCAATGATCTTTGCAAAGGTCTTGAGGAAGTTTGTCGCGGGAGTCCAGTGAAACACTAACGAGGAAAATTCGTTATCGT -CCATCATCTCGAACATGCTTTGCAGCATTTCGAACTGCTCGACACGGAAGTACGAATGCTTCTTCACAAGGTCGATGGAA -ACACGGTCGTTTATGAAAACCTCATCAAAGCGATCCTGTGAAAACTCGGACAAGTGGTCTGGTTGAACGCTGGCTAACAG -GTTGATTGGGGTATCAATGCCCTGAATACCGAGCGGAATATCCACCTCTTGATTGAGATTGTCTTCCGGGATTTCCTCCA -GGCAAAAGATTTTGCCGACGAAGTGAACGCCCATGCGCCCGGCGCGACCTTTGATGTTCCCATGGGTGAATTTGTCAATG -CTGCGAGTTCCATCGCGGTTGTCGTAGATCACAACGTTCTTAGCGATAGTGTTGACTCCTTCAATGATCGTGGAGGTGCA -GAGCAAAAAGCGCAGTTTTCCAGCATTGAATTGGTCGGCAGTGTATTGCTGCAGTGCCCTCGGTAGCGCGCCAAAATGCA -AGCCAATACCGTTTCTAAGGGCGACTGTGTAATCCCAGTCGGCATCGAACTCTTCGCTGACCCAGTCGACATGGGGATTC -TCAGTCGGAGTGCCATGCCCAAGCCTGATCAGCTCGCGCGCCACCAGGCCCGCAACAGTTGGTGACTTGCAATAAATGAT -CGTTGCGTCGACACATGCGTGCGCGATTTCCCCCAGCGCTTTGAGCTTGGCTTTGTCGTCATTCGCTTTGATGCCGAACG -TCTTAACATCTAGCGCGACTGTATTGAAGTCGGTAGAAACGAAAGTATGCGGATATCCAAGTTTTTCGAGACCGCGAATG -CTGTTAACGAACGGTCCCGTCAGGTAAAACTGCCTGGAGACCTTAAGCAGTTTGCTTAACGCAATGTTGAGCTCGATGAC -TCGTTCGTCTTGATGATCAATGTCCCCGCTTTTCAGTTGTCGGAACGCCAACTTGTAAAACTCGTCAATGACGAAGAGGT -CAATGTCGACGATGTCGTCACGCTCGTTCACTCGCTCCTGAGTTAACACATAAACAGCCTGATCGGAATGGCACACTTGG -GAACTGTGGTGGATGATCTGATATCGGTCACCGAATCGCTCTTGCAGTCGGCGACGGGTTTCGTCGGCAAGAGCCACGGT -TGGAACAACCAGAACAAGCCGTTTCAAAGTTCCCATGCCGAGCAATGAATCGACGATTGCACTTTTGCCCATGCTTGTAG -GTGCACTCAGCACCACGTTTTGACCAGACTTGAGCAGATCGAATATGTGGAACTGCATTGAGTGGAAAACATAACCATCC -GAGAATGGCGTCCGGTATAGCTCAAGCACCCTCAGGTCATCCGGTGTCAGGCTGGTGAACTCCTTTTTGAGATACGGGAA -CAAACCTGATTTTCTCACCATATTTTTCAAAATTGTGGTGTGCTCGGAAAACCGCTCGCGCGAATCGAGAGCTCGCACGA -TCAAGTCCCGTCCCAAGTCATACGAAACAGGGTTAGACAACAGCTTGTTAACCGCAAACAGATAATTGAACGATGAGAAG -TCCTCACCCTGCAGGCTATGTTTCGCCTGTTCATAGATCTCTGTCATACGACCTCTCTCACCTTCTCATCAACTAATTGG -GTTAACCGCTCAAGACTCGGGGCTGGATAAATGAATACGTGGATGCAAAGATTCGCAAACGGCGAATCCTCGATGAGGTC -AGCCGCGAATTTTTCGAACAGCACCGCTGTTTCTTTCTCCAGGTCATCCTCGAACCCCGGCGTTTCAGGCTCGGTTAGTA -GATTAGAGTCGTAGCCCACGAACAGAACAAACGTGAAACGATCGAGGTGAGCATCGAAAGGTTGGCTGCCATCAAGAATT -TCGTCAATGTCGTGGCGAAGCAGGTAGTTATCGTCTTTAATGTCGAGGATTTTTTTGCGCGCGGTATCGATGCAATCCGA -AATGTCCTCGTACAACTGATCCCGTATCTCCGGCAATCTGACGGCAATGTTAATATCAGTCACCAACTCGCTGAAGCCAA -TCCAAAGCTGATCACCTTCTGGATCGCGGCGAACGATATGCACGTTTTCAAGAATTTTTTCGGCCCCTGCTTTTTCCACG -TATAGCATGCAAGGAATAGGCTGGCTTTCGTGGTGCTGCCGGATCGTTGCGTGCAACAGCACTCGACCCAAAAATTCGCT -GACGTCATGGAGCGATTTGAAGACGGAATTCTTTAGTCGTTCTCGCTTTTCAATGAATGTCAGTTTATGAATATCAGACA -TTTCTTTTGGTCGGAGAAAAACCTCATCCAACCATTGACAGACGTTATCCGCGATGTGCTTGTAGCGGTATTTCTTAAGT -GAGTACTGCTGATGTAGAACCTGGCCTTTACGCTTAGCGCAGACCGAAGCCATAGGCGCTCTAAATGGCGTAAGGATGTG -GGGTAAGTCCCGTTTGACGTAGATTTTGCGGCCTGACCGAGATTGGTCATCTTCGACACGCTGCTTGAACCACTCAAGTA -GGTCTGGTCGTAAGTAGGACTTGTCATCAGCACTGTGAATGCGTCGAGAATGCTCGCCCTTGCGCGTCACAGTATCAAGG -ATGCGGCACCAAATGTCTTCGGCGACGGTTTCGGAACTGAGAATGACCCCATGTAGATCTTGGGAGGCCAGCCGTATGTT -CTTGATCCCTAGAAGTTCCAGTTCGCGCAGGGATGAAAACACTTCCCATGTAGCCGCATCGATCCAATCTGAAACGCTTA -TACCTGAGTCTGTTAAAAAATTGTCTGTGCGTTTGTTGAGGTCATCGATGAGTTCCTGTCGACCTGGCTTATCTAGTCGG -GCGTTTGGGCTGATCGTCAAGTACTCAAGGGTTTTGTTGACCTTTTCCTCTGTGACGATGGAGTACCTACGTCCAAGGGA -CAGGTCAGACTCACACTGCATTGATTTGTGCAAAATTGAACTGCAGGGGATCGTCTTTTTATCAGCACCTTTTGAATTCT -GAACGATGTCCGAAATGTTCCAACGTGTTTTGCCGGTGCTTTTTACCTGAACGAAGTCGATGTATCCATCAGATACAATG -TCGATATCGTCTGTGACCTCGCAGCGCACACTGCGGATAGTCTTGTCACGAAGCATTCGGGTGACATGGTAAGCGGCTAC -GCAGTCCTGAAATAAGAAACCGTGCTTGGCGGCTACTCCGCCTGAATCGTTCGACTCCATTTAGACATCCGTGACAATTT -TGCGAAAATTAAGGAGATGTTATGACACAGTCCAATCGGATCACTGCATCATCACCAGTGATCTAAATACTTCACAGCCA -TTCTCGGTCGCAGGTATCAAGCTTTTCAGGATTCCACAAATATTGTAACCCTGACGTCTAATTTGGTTATATAACATACT -GCCCCAACTAACGTAAGGTAGGCACAGCCTTAATCAAGGTTTTGGTTTTCAAATAGTTCAGAGCTGAGACCGCCAACCGC -ACTATGGCACTATGGCACTATGGCACTATGGCACTATGGCACTATGGCACCGCCAGCGATTGTAATCACACTTGATATTA -TAAAACACAGTTGCACGCATTATTTCCTGGTTGGTAGGGTCATATCTCGATGCTCTTTGAGCAATGTCAACATCGCGTGT -TCATGGCTTTCTATATTGTTGATGCCTTGCCCATCCGGACCCCACTCCTTATAGCTCATCATGATGGCTTGTTTTGGGCT -CTCTGCTCGTTCTGTTTCGACGTAGAATTTTTTCTTGTCTGCTGGCGAATAATTACTAAGTATCGAGTTGCTGCTTGGTG -AGATCAGGAAGAGGTTACCGAAACGATGGACATCATCCCCCATTTTGTGGACTGCCCCCCCGGTAGACGATCCTGCCCTA -TAGTTGGAGTGCCCCCTATTCAGGTGGCTAAATTTAGCAAATCAATACACTTCAGGGGGGTATTATTGTAGAGTTTCCCC -ATATGTTTCTATGGGATCCAGGAAATGACAATCAGGAGTTACAAAAACTTAAATCTGGTCAGGGCAAATATCGAGACTGA -ATCCAGACAATTCATTGAAAATAAAAACTATTCAATCCAATCAATTGGTCCTATGCCAGGGTCAAGGGCTGGGCTTCGGG -TCGTATTTACCAGACCAGGGGTTAACTTGGCAACTGTGGACATTTTTTATAACGGGGACGGTTCGACTACAATTCAATAT -CTCACTGGAGCCAATCGTTCTCTGGGCCAAGAGTTAGCGGATCATCTTTTTGAAACCATCAATCCTGCTGAATTTGAGCA -GGTAAATATGGTACTGCAAGGATTTGTAGAGACAAGCGTTCTACCTGTACTTGAGCTATCAGCAGATGAATCGCATATAG -AGTTCAGAGAACACTCTCGTAACGCTCATACCGTAGTGTGGAAAATTATTTCCACCAGCTATCAGGACGAATTGACTGTG -AGCCTGCATATCACAACAGGTAAGCTCCAGATTCAGGGCCGACCGCTGTCATGTTACAGAGTTTTCACGTTTAACTTGGC -AGCCCTGCTTGATTTACAGGGTTTGGAGAAAGTGCTAATCCGCCAGGAGGATGGTAAAGCTAATATTGTTCAACAGGAGG -TTGCCCGCACTTACTTGCAGACTGTAATGGCCGATGCTTACCCGCATCTCCACGTGACTGCCGAAAAATTGCTCGTTTCA -GGGCTATGTGTTAAACTCGCCGCCCCTGATTTGCCTGACTACTGTATGTTACTTTATCCTGAACTACGCACCATTGAAGG -TGTCTTAAAAAGTAAGATGAGTGGGTTAGGCATGCCAGTACAGCAGCCGGCAGGTTTTGGAACTTACTTTGATAAACCTG -CTGCTCATTACATTCTGAAACCGCAATTTGCAGCTACTCTTAGACCGGAACAGATTAACATCATCAGCACAGCCTATACT -TTTTTTAATGTGGAACGTCATTCTCTGTTCCACATGGAAACTGTGGTCGATGCCAGCCGTATGATTTCTGATATGGCCCG -GTTGATGGGTAAAGCCACTAGAGCGTGGGGAATAATCAAGGACTTATATATTGTTTGAAATCACCGGAATTAACGTCTCA -GGGGCTCTAAAAGCTGTCGTTATGGCGACCGGCTTCGAGAACCCTTTGTCCTCAGTTAATGAAATTGAGACGAAACTTTC -TGCCCTACTGGGTAGTGAGACCACTGGTGAAATCCTTTTTGACCTCTTGTGCGCTAACGGTCCAGAGTGGAACCGCTTCG -TTACGCTGGAAATGAAATATGGCCGGATCATGCTGGATACGGCCAAAATTATTGATGAGCAGGACGTTCCGACACATATC -CTGAGCAAACTGACTTTTACTTTACGTAATCATCCTGAGTACCTAGAAGCCTCTGTTTTGTCTCCCGATGATGTACGCCA -AGTCCTGTCAATGGATTTTTGAAACTCTTCTTTCTAAACGAACCAGTATAGAATTCGCCCTTTTGGCATGATATTAACTT -GTCCAATATGATCAAATAGCATTAACCCCCCCTCACAACGTCCTGCATAGGGAACACGTTTTCCCCTGTGCACCCACGAC -TAAATTTCCCCCCCTTTAAACTTCTCAATAATGTCACCAATTTTCTGGAAATCCTATGATGCCTTTCCCGGTAAATGGTG -CTGTGAGTTCAGAAAGATTCTGCAATCTATGTGCATTGAAAAAATCTTCAGATAGATATCATTCTCCTGAACAATCCGAT -GAACGGCAGAACCTCGCGGTTCTGCCGTTTTTGTTTTACTTTTCAGAGGAGTGGTGATGAAAAATTTTGAAGTTCTGCAG -CCACTACAGAACTCCCTTTCCGGTCTACCGCTATGGGTATCTGAACGTATATTGCAGCAGATAAATCAGTTAACCCACTA -CGAGCCAGTGATCGGCATCATGGGTAAAACTGGGGCGGGAAAGAGTAGCCTTTGCAATGCCCTGTTTGCCGGTGAAGTAT -CGCCGGTCAGCGATGTAGCGGCCTGTACACGTGATCCTTTACGCTTTCGCCTGCAGATTGGAGAACACTTTATGACCATC -GTGGATCTGCCCGGCGTGGGCGAAAGTGGCGTTCGCGATACCGAGTATGCTGCGCTGTACCGCGAACAACTTCCCCGGCT -CGACCTGATTCTGTGGCTGATTAAGGCTGATGATCGGGCACTGGCGACTGATGAGCATTTTTACCGTCAGGTGATTGGCG -AAGCATACCGGCATAAGATGCTGTTTGTTATCAGCCAGTCAGACAAAGCTGAACCCACCAGCGGTGGAAATATCCTTTCC -ACAGAGCAGAAACAAAATATCAGCCGCAAAATCTGCCTGCTGCATGAGCTATTCCAGCCCGTGCATCCGGTGTGTGCCGT -GTCGGTTCGCCTGCAGTGGGGACTAAGGGTGATGGCAGAGCGGATGATTAAGTGTCTGCCGCGTGAGGCCAGCAGCCCGG -TAGTAGCGCTACTGCAACATCCCTTTCGAACAACGGTAGCCCGGGAGCAGGCACGTGACGATTTCGGTGAAACCGTAGGT -GCCATACTCGATACGGTAAGCACCTTTCCCCTTATTCCCGCCCCGGTGCGGACCATTATTCAGGCCGTGCGTTCCTCGGT -GGTGTCAGTGGCCCGCGCTGTCTGGGATTTCTTCTTCTGAGTGTTTAATTCTGCCCTATTATTCTCCGAGCCCTGTCGCA -AGTGCGGCAGGGCTTTCTTTATTTGTTTTACCCATACTGAGGAGTCTGCTTATGACCCGTCTGGCTTCGCGCTTTGGCGC -TGCAAATCTTATTCGCCGTGACCGTCCGTTAACCCGTGAAGAGTTATTTCGCGTGGTGCCCAGCGTATTCAGTGAGGATA -AACACGAATCCCGCAGTGAACGCTACACGTATATACCCACAATTTCCCTGCTGGACAGCCTGCAGCGGGAAGGCTTCCAG -CCATTCTTTGCCTGTCAGACACGGGTACGTGACCCCCGTCGTCGTGAGCATACTAAGCATATGCTGCGCCTACGTCGGGA -GGGGCAAATTACCGGTAAACAGGTTCCGGAAATTATCCTGCTTAACTCTCACGATGGCACCAGTTCGTACCAGATGCTGC -CGGGCATGTTCAGGGCGGTGTGCCAGAACGGTCTGGTCTGCGGCGAGTCGTTTGGCGAGGTGCGGGTGCCACACAAGGGG -GATGTGGTGAGTCAGGTTATTGAGGGGGCGTATGAAGTGCTGGGGATTTTTGAGCGTGTGGAAGAAAAGAGGGATGCCAT -GCAGTCGTTGCTTTTACCGCCACCTGTGCAGCAGGCACTGGCAAAAGCAGCGCTTACGTATCGCTTTGGTGAGGACCACC -AGCCGGTTACTGAATCGCAGATACTCTCCCCACGCCGCTGGCAGGATGAGAGCAATGACCTTTGGACCACCTATCAGCGG -ATTCAAGAAAACCTGATTAAGGGCGGACTCAGTGGGCGTAATGCTAAAGGCGGACGAACTCATACTCGTGCCGTGCGTGG -CATTGACGGGGATGTGAAGCTTAACCGTGCGCTGTGGGTGATGGCAGAAACACTGCTCACGCAACTGCAGTAGACGTTTC -ATGTTGCCACGTTGTTAATATCGGACACCACCTGTCCGCATCGCTATGTGCTCGTGTGCCTCAATCCCCCGGTTATAGCT -TTTAACCCCCGTTACATCTGGCTTTTGCAGAAATAAAAAATAGTTTCTGCGTTGTCCATACCCTGTCCGCCCCCCTCTTT -AAAGTAATCACATCATTTTCAGTCAGTTAACTTTCCTGGAGAATCTCTCATGACACAGGCAGAACGCCGCCATGACCGGC -TGGCTGTCAGGCTGTCACTGATAATCAGCCGTCTGGTTGCGGGTGAAACGTTGAGCGTGCGCAAACTGGCGGCTGAGTTT -GGCGTGTCAGTGCGCACGCTGCGGCGTGATTTTCGTGAACGACTGATGTATCTGGACCTGGAGTATCAGTCCGGATACTG -CCGCTTACGCACTGCTGGCAGTGAGATGCAGATGGTGCCCGACGTGCTTATCTTTGCCCACCGCAGCGGGCTGGCCGGGC -TTTTTCCCGGCCTTGACCGCCGTCTGGTGAATGCACTGCTGATGTGCGATGAGTCTCCCTGCGTGATAGCACCAGCCAAT -CCGGTTCCTTCGCCTTCAGGAGCATTGTCTTTCTGGAGACTGATTCAGGCCATTACCGGGCGCAGGCGGGTGACGCTGAT -TGCAGAGGGGCGACGCTGTGAGCGCCTAGCTCCCTGCCGGTTACTCATCCACCAGCAGACCTGGTATCTGGTGGCTGAAC -ACGAAGGGCATATCGCCGTATTCACACTTGATGAAATCCATCTGATTCAGCCTTTGCAGGAGACTTTTCGCCGCAATGAC -AGTCTGTGTCGCCTGGTTGAAGACCCGGTCTTCATTCAGGCCTTACCCCATTTTCGCTTTATCCAGCATTCACTGCTTAC -GTTTGTTCCGGCCGACAGCCCACCGGAATAGCGCAGGCGTTGTTATCAACCCGGCAACATGGAGGAGCCCAGTGCCCGTT -ATTGCCATTATCGCCATTGTTATCATCGTCATCATTCTGAACAAAACCGGAGTGTCCGACAGCCTCACGGCCCTGACACT -TGCAACCGTTGCCGCACTACTGACGGGAGGTGGTGCAGCCGGTGCTGCCAGTGTCGCGCTGACGCCGTTCGTCGGCGTGC -CGGTGGGTATTTTTGTGGGAATTTATGTCTTTGCCAAAGTGGTTCGTCTGATTTCAGGGAAAAAATAATGAAACGTAAAA -CACTACCTCTGCTGGCGCTGGTTGCCACCTCTCTGTTTCTGAGCGCCTGCGATGACAGGAGTGATGACCTCAAAGCTATC -AGTAAATTTAAGGACCTCACGCCCCCGCGCTTCAGCGATGTGGTCAGCCGTCAGGATGATGTCAGCGAAGAATGGTCACA -GGTTGGCTTCTCATCCGGTCTCACCCTGCAGGTCTTACGTACCCGTGAGTCGCCCGATGGTTGCGAGGGTGGCAGTTACT -ACTATCTGGTAGATATGGAGGAGAAAACCGTCCAGCCGCTGATGAATGCGCTTTGTATTGCCGACAATATCAAACTGGAA -TACCACGAAGTTACGGACCCGTATACGAAAGAAAAATACTTCGAATATTCCCATGACGGCAAACTGATGGGACGGCTGCT -GATACCGTCAAACCCTGATAACCGGGAATAAAAACAACGAGAAAGGAGACATAAATGAAAATACGTTCACTAAGCCGGTT -TGTACTGGCAAGTACAATGTTCGCCAGCTTTACAGCCTCTGCGGTCCCCGGACTCTGGCAACAGGGGTACGGTCAGGGCA -ATGCGGAATACAGTGTGACGGATGCCAGCGGAAAGATGTTTACCATCAACTGCACGGGAAATCCGGACCAGAACGGTATT -TACCAGCACTCGGTTTTTCTGATCCTCGCCGGGGATAAAACGGTCAGCTCGCATGATGACAGTACCGGCATCACAGTGGT -GATGGACCATAAGCAATATGCCATTCCCTCAACCCTTGGCTGGCGTAACGGAGATAATGCCTGGTTCAGCTTCATCATGG -ATATCCGTAAGGCCCGGCAGTTCGACGTCTACGTCAATGACCAGAAAGTTGGATCGTTTAACCCTGATGTTCGGAATGCA -CAAAAGGTCCTGCCAACATTAGCGGACTGCACTAACGACTGACGGCTGCGCCTTCCCTACCATAACAACCCTGATTGCCT -CCGGCGGTCGGGGGTTTCTTTTTTCTCCTTAATCTCCAGAGGTAGGCCACGTACTTTCGAACGATGAGCGCAGTGGTCAG -TTTTTTTCAGATATATTTATCTTTTTTTGGCTGTAAGCTCCGCTGTGAGCGCAGGCTGTGTTAAAACTCCTGATCACTTT -TTGGTCTAAGCGATGGTTTCATATGATCAACCATTCTTGATAAACCCATGAGACGGACTAACTTTTTCATTAAAATTAAA -AAGATATGAATGAATACTGCGGATATCAACATGGCCAATCACATTCAAGGACAAGGCAGGCATCAGGTGACATTGCTCCC -TGATGCACTCGATGATTTTGTCACTGAAGATATCTGAAATAAGTTTAATCAGTTCATCACGGGTCGGTGGCATATCGAGA -TAATTAATTATTGTCGGTTCGTTGCCGTTGTTATGAAGCATCTCCAGCGTGTTGCGTGAGGTGCCACAGGCCGGGTTGTG -ATAGATGGTAATGTTGCTCATATCAGTATCTAATTACAAAGTGACAGAGAGCCGCCACGCCAGCGCGGCCAGAGTGACAA -ACAGCACCGGCACAGTCATGACAATGCCGGTACGGAAGTAATATCCCCAAGTGATTGTCATATTTTTCTGGGCAAGCACA -TGCAGCCACAGCAGAGTTGCCAGACTGCCAATCGGGGTGATTTTCGGGCCTAAATCACAGCCAATCACATTGGCATAAAT -CATTGCCTCTTTGACGACGCCAGTCGCCGTACTCCCGTCAATCGACAGCGCACCAATCAGCACCGTCGGCATATTGTTCA -TCACTGATGAGAGAAATGCCGTCAAGAAGCCGGTGCCGAACGTCGCTGCCCATAACCCCTTGTCTGCCAGCAGATTCAGC -ACGCCAGACAGGTACTCCGTGAACCCTGCATTGCGCAGGCCATAGACCACGATGTACATGCCCAGTGAGAAAATAACGAT -CTGCCATGGCGCACCGCGCAGGACTTTTCCGGTGTTGATCGAATGACCTCTTTTCGCCACCACAAACAGCACTGCTGCGC -CAGCGGCCGCTATCGCACTGACCAGGATTCCCTGCGGCTCCAGAAAGAAGAAACCGACAAGCAGCAATAACAGGACAATC -CAGCCCGCCCTGAAGGTTGCCAGATCCTTGATCGCACTGGCAGGCGTCTTCAGCAGCGAAACTTAATACGTTGCCGGAAT -AACTCTGCGAAAGAAGAGATACAGCATAATCAGCGTGGCCGCAATCGCTGCCGCATCCACGGAGATCATAACGGAGGCGT -ACTGCGCAAAGCTCAGACCGAAGAAGTCCGCCGAGACGATATTCACCAGGTTAGAAACAATGAGCGGCAGGCTGGCCGTA -TCTGCAATAAATCCTGCAGCCATGACAAAGGCCAGTGTCGTGCCCTGGCTGAACCCAGTGCGATCAGCATCGCAATCACA -ATCGGCGTCAGGATCAGCGCGGCGCCGTCATTGGCAAACAACGCATCAACAGCGGCACCGAGCAAGACTTTCCAGGTGAA -CAGCGCTCTAGGTAGGAACTTTGTCGTTGATAGAGTCTTCAGCCATCAACACTGTATCGAGTAATGAAATTGGTTGCTAG -AAAGTCGATGATTTGTTGCGTATGATTAAAAATCAACCTTAAAGGCTTTATACATGGATTTGCTATGGCTTTTGTATCAG -AAAGAGAAATTGTAAGAAAGATATTTAGCAAAAAAATTGACTTTACGATCTTGGCATTTTTCTATATTTCCTCTATTTTT -TTTCTTCTTTGTAGTGGCGTTCTCTTTCAATATTTTACCGCTGCCTTCACAAAAGGTAATTGTTATGAATGCTCAATGAA -ACTTGATTACATAAAACAATTTTATTTTTCACTGGAAACCGCATGGTACCTCATATCTGCTGTTGCAGTATTTATTGCAT -CTGTTTTTATACAGCATAGAATTAAAGCTTATTTAACATTATTAGCTATTACATGGATTGTACTAACAATAACAGATGTG -GCGTTAATACACGCCTTAGACAATATAGCCATGAATAATATTTTGTTAAATATACTATATAATCTTTTTGGGGCGATTTT -ATTGTCACTGTTTATGTGTTTATCAAATTCCCTCCTTTTCCACCTTAATAAGATAAAACATATTCCAATGATTTTATCGG -CAATGATTCCATTAGTTTCCGCAATAATAATAGCCATACTCATAACCGCTGTTATATATTTATTGTTTGCCCGGCAGGCG -GTAGAGATTGAGATGGATATATCTGAAGGTTCAGACATCGCATATGTAGGTGTAAAAGATAATGAGGAATCATTTGGGTT -TTTAAATGATAAAAAAACAGACACACCAACGTATCTGGATGTAATCAAAAATGGTAGTTTGATATATAATGATACACAGG -GTTTAAGTGGTGCTGATATTTATATTGTCTCCGGTTGTTATGCCCTTCCAGATTTACTTCGCAATGTACCGCTTGATGCT -AAAAAATCTTTTCTGAATGTAAAAAAGCTAGAAATCACACAGAAACTTCCAATGATGGGGTTCATACAAGGTGAATCCGC -TGATGTGATGCCTAAAGCAGCATCCAGGTTAAGTTTGAGCAAGCAAGATGATAAATTTATGCTAGCCTCAAGTGTTACTG -ACTCTCAAATAAAATTTAAATCAAACAATGCACAATTGATGGTTGCTTTCGCATTTATGCCAATAACAACGAATGGTATT -TTACATGATTATACATACGATATAATAATAAATGATAAAAAATATAAAATTGAAAATCATGTTGCACCTCTATCTAGGCT -TGATAAAAATAAGAAGATGAAGTGTGAATACCAGCAAATATCGGATTTAACAAATACGTATAACATTAATGCAAATTACT -TAACGGGTTTTTTACTTGTCCTAAAACCAGATGATATTATTAATTACAACAATAGCCCTTCCGTACTACTCAAGACTGAT -TTTGCGTTCTATAAAAAAACATACCAGAAGCTTGATAAAATATATGATGACATAAGCAATGGAAAATTATCTTCACTGAG -AGCAACAGGTATCTCCCAGTTTAGTATCAACGGGAAACATTTGTCGTTAAGGCCAGAATCGGAGATTATTATTTCTGAAG -GGAGTTTGTATGGACTAGTTAATAAAAGCAAAAAAATCAAAATATATGGCACAGCAGATCTTGTTTTTGTTGATAACAAG -ATAATGAACCTTCGTAAAATAACTTATTTGCAATCTAAGCTAGAAATTTTTGGTTCTTCTATTATGGATATATTAAAGTA -TATATTTGGTTTAGGTCTGCTAGCAATTTCTATAAAATTCATTCATTCTTACTTTAAGAATGATGTGAATGAAAATTTAT -TCTTGTAACGCATTTGGCTCCAATTGGAGCCTTTTTATGACTATTTATTAAAATATCCTAAGTTAAGCCTGTTTTTAAAG -CAGGCTTGAGCGTGAAGCGGACACTCATACCTGCTTTAAAGTGGCGTTTTTGTCGTTACCCATACCTATATTTTCTGTTG -TTTAACTGCCAGAACTGAGCGGTTGAAAAGCCAGAAATATGCCGAGCCAGCGGCATGGAAGCGCCAGCAGCTGTTGAATG -GAGTACTGTAGGCAAATGGTGCCGTAACCGGCTTTCGTACTGAAAGGTTCTGTCTATCCCATCCCTTCTCTTGTATCTAA -CATTTAGTTGTGAATAGCTACTGTAAATGCCCCTACAAAATGAACCATTATTTTTAGAGGGCGTCTGGCACTCCAACTTC -CGCTTTTGGCACAGAACGGCCTATCAGCAATATAAAAGCATTCAGATATATATCATTTCTACAAACATACCCGATTAACG -GCAGAATCTCAGGATTCTGCCGCTTTTTTATTATTTTTCAGGGGAGTAGTAATGAGCAACTCTGAAGGTTGGTAGTCATT -TTAGCAAACGCTTTCTGGTCTGCCGCAGTGGGCATCGGCTGATTGCGTAGCAGGGCCACTGGTATCTGCCGGTATCACCG -ACATTAACATTGAAGACGACCAGGGCATTCACGTCCGCCTGATAGTTCGTGATGCCGAAGGTCGGATGGTTGGCGGGCAT -GGAACTTTGAACCGGACGCCGGTGAAGGTTTTAACCGCTATATCCACAGGTCAGGCATCCGCACCGACACCTTCCCCCGC -TGACTCCGAATCATTTACCAGCAACATTTCACCTTCCCAAACGCGCTTTATTACCTCATACGCCAGCCATCGCCGCTGGC -GTTTTTTATTCACGGAGACATACCCATGACAACACAGACACAGTACGACCTCGTACCCGCTAACGGATCCGAATTTGAGT -TGAGCGTAACGCAGGTACCCGATGAACAGCATATCCGCTTCTGGCCGCAGCACTTTGGCACCATCCCGCAGTGGATAACG -CTGGAACCGCGCATTTTCGCCTGGATGGACCGCTTCTGTGATGAGTACTGCGGGGGTATCTGGTCCTTTTACACGCTCAG -CAATGGCGGAGCGTTTATGGCTCCTGATGCTGACGGTGACGATAAATGGCATTTGCTCAACGGCATGAATGGCAATGGTG -CGGAAATGAGCGCGGAAGCCGCAGGTATCGCTGTCTGCCTGATTGAATATAGCCATCACGCCTGCCTCACCGAATGCGAT -GCCATGACGGAGCACTATTACCGCCTGCGGGATTACGCTCTGCAGCACCCTGAATCCAGCGCCATTATGCGCATTATTGA -TTAAGGATACTCATGATGGAACAGTCACTCATCCCACAGACACCGGTACTTCCACTGACCGCACAACGCACGGTAAAACG -CGCCTTAACGCTGCTTGACCGACACCTGCGCGAAACAGGCGTGGCATTCACCTCCACTCAGGCTGCTCGTGACTGGCTGA -AGCTGAAAATGGCGGGGCTGGAGCGTGAAGAATTTATGATGCTGTATCTGAACCAGCAGAACCAGTTGATTGCCCACGAA -ACCCTGTTTGCCGGTTCTATTAGCAGTACCGAGGTACATCCCCGTGAGGTGGTCAAACGCGCCCTGTATTTCAATGCAGC -AGCAGTGATACTGGCGCATAACCACCCCTCCGGCGACACTACTCCCAGCCAGGCAGATAAGACTATAACGCAGCGTCTGG -TGCAGGCGCTTCAGCTCGTTGATATCCGTGTCCCTGACCATCTGATTGTTGGTGGCAGGCAAATCTATTCGTTCGCAGAA -CACGGTCTGCTTTGAGGTATTACATGAGAATTATCAGTAAACGCCGGGCAATGACGATATACCGCCAGCATCCTGAGTCC -CGAATCTTTCGCTACTGCACCGGAAAATATCAGTGGCACGGTAGCGTCTGTCATTACACCGGCAGGGATGTTCCGGATAT -CACAGGAGTCCTGGCTGTGTACGCCGAACGCCGCAGGACCGCAGCGGACCGTATGCTTGACTGATGAGTATCACCCTGAA -CTGACAATAAAGAGGTTATGAATGAGCAACACCACATGGGGCCTGCAGCGAGATATCACGCCGCGCCTGGGAGCACGTCT -GGTGCAGGAGGGCAACCAGCTGCACTATCTGGCTGACCGGGCCAGTATCACCGGTAAGTTTAGTGACGCCGAATGTCCTA -AGCTGGATGTGGTATTTCCACATTTTATCAGCCAGATAGAGTCGATGCTGACCACTGGTGAACTGAATCCCCGCCATGCC -CAATGCGTCACCCTGTACCACAACGGTTTTACCTGCGAAGCCGATACTCTTGGTAGTTGCGGCTACGTATACATCGCTGT -TTACCCCACTCAACGCTAACTAATTTCACGAGAGCAAGCATGAACACTCTACCTGCTACAATTTCGCAGGCGGCGAAGCC -CTGCCTGTCGCCAGTGGCTGTCTGGCAAATGCTACTGACACGCCTGCTGGAACAACACTATGGCCTGACACTGAACGACA -CGCCGTTCAGTGATGAAACTGTTATTAAGGAACATATCGATGCTGGTATCACTCTGGCCGATGCAGTCAATTTTCTGGTG -GAAAAGTACGAACTGGTACGTATCGATCACAGAGGATTTTCGTGGCAACAACAGTCTCCATATATTTCCGTAGTAGATAT -TCTGCGAGCAAGGCGCTCTACCGGCTTGCTAAAAACTAATGTGAAATAAACGCTTAAATACAGAGCAGACTGAAGGAAAG -CAAAATGCTAATCTCATAGACGAAGAGACTCCCGCTGTAACCTCCCCTCCCCCGAAAAAACCTGACATTTTCTTTTAGGA -CCAACAATGGGACCAAAATGAAAATTGAACTGAAGATTACAATCAATTTAACAACAAGTTACACAACCAATTCAGACTCC -GCCAGCCCACCAATCATGATTGGACGGTGTAAGGACAACACCAACAAAAACAGGAAGTTAGAAGTCTCAGCAAAACACCG -ACCAGACGGTGAGGAGACATAAAAGGATACGCAAAGGAGCCGCGGCTCCTGGTAACATGAAAGCCCACAGATGTGGGCTT -TTTCGTTGATGGTCAGAACGACCAGTTCACACCAGCTACCGCGTTCCACGGGGATTCCACACCGGCACTATGGCTATACC -CCACCCCAAGATGCCCGCTTAACGTACTGCTGAATGAGGCTTTAATACCTGCCTGGTATATTCCACGTCTGCCCGACAAA -TAATTGACGAAATTACCGTCACTATTCACTTTCACCCGGTTATCATCGACAAATTCTTTGCGCACAGCCGCCTTCAGCCA -CGGCTCAACTTCCATACCGTTCCCCAGACGCATGTTGTAACTCAGCGTTGCGCCCAGTTCACGATATATACTGCGGGTAT -CGACTGATTTCGATTTCATGCCATTGGATAAATGATATTCGGGGTTATCAGCGGTGAACCCCGTTAACGATGCATACGGC -GTCAGGTTCCAGTTACCATCGGTAAATCGCATCCCGGTTTCAATGTGACCGCCCAGCCCGTTGCTGTGGTAACTGCCATT -GGCGGCTCCACCGCTGCTCATTTTACCTGCTACGTTACTTTTAAAACGGTTCAGCTTCACGACACCGTCCAGATAGAAAC -CACTTTCATGTTCCCAACTGGCATAGCCGCCCAGAGAATAACTGCCCACACTGCCATGTCCTCCGCGATCAAAACCGATA -TGTGAATGGGAATAGCCCATAAAAGCGCCTAGCGTGGTAATTCCTTCAGGAATATCATTACGGCTGTCGATCCCCACTGT -CATTCCGGTCAGCGTCTGCTCAAACCCGGCACCCGCATCGGTGGTGACATTATTACGGGTGTTATACGTCGCCCCCCAGA -CATTATTGTTGTGTGGACTCGCTTTCATTATGTTCAACCGCTCGCGAATACTGTTTAGCTCAGCATCAAATACCAACGGT -AATGTTGCTGCCATATTGAGTACGGCTGCCGTAGAAGGCGTAATGCGTTTCTCCGGAACGGGTGTCGGCGTTGGATCGGG -AGTAGGGTCTGGTTTTGGATTTGGGTCTGGCTTTGGATCGGGTTTTGGGTCTGGCTTTGGATTTGGGATGGGGTCCGGGT -TGGGTTTGACATCATTGGTCAGGTTCCAGTTGCTGTTGCCGTCACTTTTCAGGACATACTCATAGGTCCCAAGATCAACG -AAACCGCCGGTATTGCCCAGCGTAAACGAAGCATCCCCTCCCCCTGTTTTCACCAGCGTCATCGCGTCGTCAGACTGTGG -GCTGACGCCGGTATCCTGAACAAAGATTTTAAAATTACCAGTGGCGTTGTTGTTGACGACCAGTTGATCGCCCCGGGAGC -CTGCAACGTTGGTATGCAGGTAGAAATTACCGCTACCGGAAAGTTCATTGGTTGTCAGCGTATTGTAGATACCGTTAGTT -GTGGCAGGCGCTGCTGTTTGTGCTGACAAATAAACATCACCGTCGTTGAGTAGCAAACTGTTTACTCTATATTCGCAGTT -GCTGGTACCTGCACAGGAATTATTGCTGTTAAGCCAGACACTGCCCCGGCTGGCAGCCGTCAGGTCGGCAAGCGTGGTAT -CGACGCCATTTCCCAGAGTCAATGTCGCGCTATCGGTAATCCGGACCGCCCCTTCGAGTTTAACTGGCGTAACATTATCC -CGTGGCGTCATTAACGACAGGCTTCCTGTCGCGCCACTGACCGATGCATCCGCCAGCGTACCTGCGTAGACGATTGCCGT -ACCGCCAGCGACCTGGAGATCTTCTGCCCGGGCCAGAGCCTGAAACTCATCTTTTGACCGCCCAAGGGTATATTGCCCGC -CAGAGTTAACCTTTGTGGCGGAGTCCTGACCCAGGTTTTGCATTGCCCCACCCTTGCCAACCGTGGAGTCGCGAGCTTCG -GTACCTGCTAATACCAATAAATTACCGCCATTTTCCAGCAACATATTGGTCGCTAAATTGCCGGAAATGGAAAAAGTACC -GTACTGATGAGTACCGCTGATTTCAATACCGTTAGCCGTGCTCGTCTGGAGAGCGGCACCGCTGTTCTGGACGATATCTG -TCGCTTTGCCATTATCGTTGACTGTCAGCGTACCGCCTTCATTGATCTTTGTTTTTATTGCCTCTCCGTTAGCTGAAACT -GTTTGTATTCCGCCGTCGTTAATTGTTGTCTCATTCGCCACACCCTCGACAATTTGTTCACCGCCGGTGAGCGTCGTGCC -TGTCGCAGTGGCTTTTGTTTTGACGATCTCCCGTCCGCCCATATTGACCTGTGTTTTGTCAGAAGAGGTGTCTGACTCCA -CGGTTAACACGCCGCCATTTGCCAGCAGGATATTGTTCGCCGCACCCTGCTCGATGCTGAACGCGACGCCATCCGCGCGT -GTTCCTGTGACCCGCGTCGCCCTGGTGGTTGCAACCAAAGCGCCCTGGCTACTCTGCTGTATCCCCGTTGCGCTGCCTTT -CTCCCGCACATCGAGTGTGCCGCCGTCATTAAGCACCGAGTTTTCAGCCAGGCCGCCCTCATTAACTACCTGTGAACCCC -CATTAATAATGGAACCTTCCGCTGTCCCGTTTGCCATAATTTGTTGTAGGCCAGAGACGATATCGGTATTGATTGCCTTA -CCATAATTCTGAACGGTTTGCGTGCCACCATTGATGTGTGTTTTCTCTGTTGACCCACCATCAACAATTTGTTCACCACT -TTCGATATTTGCTTCAGTGGCTAAACCATATACCGTTTGCTTGCCACCTTTGATATTTGCTTTATCAGAAGTGGCACTGG -CATATATTGTTTGGGTGCCAGCACTATTGAGTACAGTGCCAACATCTTTTCCATAAACATCCATTTTGCCGTTGGCATTA -ATAATCGTGTCAACTGCGCGGGAACCAGTGACGACTGTTAATGAGCCAGCGTTTTCCAGCACTACATTTTTAGCTTCTGA -ATTCCTGATGTAGAAAGCATCACCATAACTGTTGGTTCCTTCGATAAGTGTTCCGGAGGTCGTGGAAGCAATTAATGCGC -CGCCGGATTGTTGCTCAACATGCTTAGCCTCACCACCGTCCTGAACCTCCAGAACGCCGCCATTATTAAGTCTGGTGCTA -TCTGTTTTAGCCTCCTTCTGGACAATCAGCTTACCGCCAGTATCAATGGTAGTATTTTTCGCCGAGGTTTTAGCCACTAC -CGTCAGTTCGCCGGTATTTTCCAGCACAACATAATTAGCCTCCCCTCCGGTAATAGTGAAGTGAGAGAGCTTGTTGTATC -CTTCGATATCAGTCCCTGCACCCGTGTTGGCAACTAAAGCACTGCCCGTCTCCTGGTTAACCCCATGTGCAATACCGCCG -GTATAGACAATCAGCGAGCCTCCGGCGCTAATATTGCTGCCAATTGCCGTACCATCTTTCTCAACAACCTGCCGGCTCCC -GGAGGATATAATTGTTGTGTCAGCTTTCCCGCCGCTTTTGATATTTTGCGTTCCGCTGTTGATATTGGTGCCTGTGGCTA -TGCCATAATTATTAATATTCTGTGTGCCACCATTAATTATGGTATTTGTCGCGTTTCCTGCAACATCCATAACCCCGCCA -TTATCTATTCGGGTCGCATCAGCTTTAGCATTGGTTAAAACTGACATTGTTCCTTTATCTTTAATAATCGTCTTGTTTGC -CGAACCATATGCGTTTATGTCTAAATGACCACCGTTTTCCAGCAACACATTGTCTGCCACGTGATTGTGGATGGAGAATG -CACCTTCACTATTCGTACCGCTCACCGTCGTACCGTTAGTGTTAGTTTTTAAAATTGCACCATCGTGCTGGGTAACATTT -GTTGCCGTACCACCCCTAACATCAAGCACGCCACCAGAATAAACTTCAATAACATCCGAGGTGCTGGTGTTATCAACAAT -TTGCGTGCCACCAGAATAGATATGCGTATTTTTTGCCGTTGACTTACTATTCAGAGACTGAGTTCCGCCTTCAATCGTCG -TGTCCAGCGCACGGCTCTCATATACTCTTTGCTCACCGCCATTTTTAATGGTTGTTGTTTCTACTGTGCTCTGTTCAACA -TACTGTCGACCACCATTTATGGTTGTGTTCGTTGCCAGACTTCCTTGTACTACGTCCTGAGAGCCAGACTTATTTATCGT -TGTACCATCAGCATGCCCTTGAACTTTTACTATCTGGCTACCACCATCAATGAGTATTCCATTCGCACTCCCTCCCTCTA -CGCGTGAAGCACCGCCCTTAATTGTCGTTCCATTGCTGATACCCCCTTTATAAACGTCCTGATTGCCACTCTCGATTGTC -GTACCTGTGGAAATACCCCCGTCATGAATTGACTGTCTGCCACCGTTAATGGTTGTATTATTAGCCTGCCCCACAAAATT -GTTATGACTTCCTATATCTTGATATCCACCAGATTCAATAAGACTTCCATTAGATACCCCGCCATGAACATTCTGCTGGC -CATGGTTGATAATATGAGTGTTATTTGTTGTACCTCGTTCATCCACTTTTTGGTTGCCATCTACAGTCTCATCGTTTACC -ACACCAATAACATTAGTAGTGAAGGCAGCCATCCCGGGCGGGGCATATATCAAGGCAGATATCAATAAGGAAAGTACTGA -GCGGCGACAATAATAGGGACTGGTCCTGTTCATAAATTTCATCCTCTGAAAAGTGAATACTGAGTAGCGTTTAAGCGACC -TTAGCTTTGCTGCAACATCAGCCCACAGGCACCAGACCAGGGGATTCATCCTGAAGAGACAGCGCAAGTGTATTGTGTTC -ACCGCTCATCAAAGACATCATGATGAAATGATGATATTCCGCATAAGAATGAGGCATTTTTTAAACGCAGTGCGCTGAAG -TGTGGTTGGATAAAAAAGTCAATCCATTCAGGAAATACGGGCGTATTCTTTTCTTTCGACAATGAGGCCGTTGGCAAAAT -AAAATGATTTACATAATCGTTTCTGATGAATATCTTCTGCTCACATAAAAATCACACAATAACTTTGAGATCGCAGATTG -TTTTACTTTTACAGCATTCGTCCCCCCATTGTTGGGCAAATATAGATTGGGCCAGAGCACGAAAGTTAATACCACGTTCG -CACAGCTCCTCCAACAGCACGACAAGATGCCACATACTGCGCCCCAGTCGGTTCAGTTTACAGACTAGCAGTGCGTTCCC -TGCCGATGATGTCCTGACCAGTTTTTTCAGTCCGGACCTCCTGCCACGGTTTTACGTTGAAGTGGTAACCCTGAGCACGC -AGTTCTTCAGTCAGGCGTGGTGCACCGTAACGCTGTTATTGCTGGGTAAGATCAAAAAACTTTCAGGCAGCTAAGGAAAG -TTGAACCAGACATTAGATGAAATATTTCAACCAATTACAGCACCAATTCAGTCACTGCCAGCCCACCAAATAAATCAAGG -GGTTACATGAAAACGTAGCCCCTTTTTCTTTGGTAGTGACACTAAAATGGATGTAGTGTGAAGAATAATCCCGTTTACTC -AATCAATAATACATATTGTTTCAATCTACGTTATTATCTCTTTGTAAAAATTGCCATTTATTAATCATTGAAAACTGCTT -TTAGAACTTGATACAACGGGACTAGTCACAACAGGACTATTCTCAACGGGATCATCCTCAGAGGAACTATCATCAAAGTC -ATCATCCATAAATAAAATATCATCGAATGGTGCCACGCCCGTGATGAGTTTTATTTTATTATTACGATCAGTCAATACTC -CACTTAAACCGTTTTCGCTCACAGGTTTTAATGATTTTTCATTACTCTTGTTGTAAGCAGGCGCATTAAAAATACACGGA -GTATCAACATCAAACAATGACGTTCCCCAGTTCACATATTGAATATCATAGTTACTGAAGTTCTGTCCAGAAAAGAAGCA -CCCCTTAAAATCCAATCCACGTAAATTATATAAACCACCCTCTTCTTTTTGGAGAGTAATGTTAATTTTGGCTATCTCCC -GGACATCATCGCCATTTTTGTATTTGAATACCGTTTCAAGATGTTCTCCAGACAGCTTGACTTCAGGAAATAATTTGAAA -TCAAAGCCTATATTATTATGTGTCAACGTAGATGAACAAAAAATGGAAAAAGCTTGCAGTGCTGAATTATAGCTATCGAT -TTTATCTTGAGGCTGAGCTCTTGGTAAAAACTTATAGCAACACTCATAAAAATTAAACAGAAGCTCTGAAGACCTTGTAT -TTTTATCAAATAATACCCCCTTGAACTCATTCACAAACGCATCTTTTTTTTCTTGAATATCTATGGGGTGTTCCTTTGAC -TCTGACAAAGATGAAATCTCATCTATTTTGTTTTCATATGAATTACGTGATTCCATACAGACATTTGGCGGCGTTTCTAA -AATAACACTACGCGTACTACTTGGCTTAAGTAAACCAACATGAAAATCACTTTTTCTTATATTATCGAAAAGGTTCTATT -CATTTCTTTTAGCGCATTCAAAAAACTGATCGGCATTATTTTTATTCGATAATTTTTTAGTTTCAGAAAACACATTTTCA -TTGTTTTCCAGCTTTAGTTTAATGAGAAGATTTTCCCAGACCTGCTTGCTTAAACATATTACGTCAGGCTCACCAGAACT -AACTAACTCGTGATTATTATTAAAGTGTACGTTGAATACCTTTAAGTTATTTTCACCAACTTCATATTTAATACGTTTTA -ATTGTTCTCCAGCTCCCATAATGACAAAGGCGTTGCCTTCTTGATATATACATTCAGACATCATTTTTTGTAAAGTTTCA -AGAGCACCGCGATACGTCTCTGATGCAGCTTCCTTACAAATTAATTTTAAAATACTATGAGCTAGTAGCTCCATGTGTTT -AGAAGATTTATTTTCATTATAACTTCCACTACCCAAAACTGCGCTAGCGTTAAATCCGTTGCTTTTACTAACTAACATTG -TCTATTCCTCAATTAATGTCTACATGGCTATTTTTAATGTTATTACTGTTTGTCACTATAAAAAAACGCTCATTTGAGAC -AATTACTGACATTAACTGCTTCACTTGCTACGCATGGAACTTTTAATTAAATTAGCACAGGAATGTTAAATTTAATAAAC -AAAAGGTTATTTCGCTGTATGATAAAAAAAACCGTTATAATTTATTAGTGAAAATCGTTTTTCAAGTGTTAGAAATTTAT -ATCTCAATAGCGTTGGTTAATGAGCATAGCCACGCTCCTGTAACGCTCACAAAACTCATCTGCCTGCGGCGGGTGTTCTG -GTCAGTAGTAGATGTTTAAGGCGTGGCAGAGACATTTCATCCTTACTCTACGGCATTGTTCTACATACATTGGTTGTGGT -ACTCACTTATCATCAGTGAGCGAACAGAGAATAGTTCAGTGATTTGAGTAATTAACCTGATTAAATGAAGGGGTATAATA -AATGATAATACTCTGGCTTTATCGTTAATTACTTAATTCCACATGTAAGCAATTTGCCCGCTTGGCATAGCAGGCATTTT -TTCCAGGTACTTTTGAATGAGTACTGATGGATAAATACATTGCAGTGGCGTGCCACGTACCAAAACACCAGCCCTCATTC -GAAACCACCCACCGCACTTCTTCCTTGAAATGGCGTTAGTCATGAAATATAGACCGCCATCGAGTACCCCTTGTACCCTT -AACTCTTCCTGATACGTAAATAATGATTTGGTGGCCCTTGCTGGACTTGAACCAGCGACCAAGCGATTATGAGTCGCCTG -CTCTAACCACTGAGCTAAAGGGCCTTGAGTGTGCAATAACAATACTTATAAACCACGCAATAAACATGATGATCATATGA -TGTAAATAACAGATTTTTATGCGTTCCCATTCACCTTGGGTCGTGATTACACGCGACATAAAACCCGACACCGCCTCCAT -TCGCAAAGTCGATACTCGCAGTCAACAAGCAAATGTTAATAATTAGCACTATCTATAGTTATCATCGATTCAATGATACT -TTGTAATGATTTTGTATCTAATAATATAACTTTATTACATTAGCTGAAGAGTTTTCGCATCATTATGATATCTGTTACTT -TTCACTCCATAAAAATAAACTTCGTATAGCAATATATTCTTTCATAGATCTTATTCTGCTAATCATTAGTTTCGTATGAG -CGATTTTTGACAGTTGCCTCTCCAGACCACATCGATAATTAATAAAACAGATTTAAGCATTATCCTTTTCCATATAAATA -TTGGATAAAAGTAGGACATCTGTTTGCAATTACTTTCACAACAATTAAACATTTTTATGTTTCCGTATACATCATATTAC -TCTACCATTAGAGGAACTTTATTATGTTTTCTATAAAACCAGGACCCAGAAATTTACCTATCGACAACCCCACATTGTTA -TCATGGAACATTACTGACGGGGATCTAAATTCCAAATTAAATACATTAGAATATCTAAACTGTATAACAAATATTATTAA -TTCTTGTGGAGTTTACCCTCAAGGATTAAAAGACAGAGAAATTATATCAACTTTTCACGCAGAAAAAGTTATTAATGATC -TGTTAAAAAACGATTATAAAATTTCCCTTTCTCCAGATACAACTTACCGAGAGTTGAATAAAGCAGCACAGCGTAGCATT -ACAGCGCCAGACAGGATAGGAGAAAGAAAAACATAGGTTTATCAACGAGATACAATGATTGAAAGAGGTGATAACAGCGG -TGTTTATCAGTATGGTCGTGCTGAACATTTCACCCACATTATATCTGACAAACCTTCCCCAAAAGATAAATATGTTGCAT -ATGCTATTAACATTCCTGACTATGAGCTGGCAGCCGATGTATATAATATTAACGTGACGTCACCTTCCGGACAGCAAGAA -ACATTTAAAATATTAATCAATCTAGAACATCTACGGCAAACACTTGAACGTAAATCTCTTACTGCTGTTCAGAAATCACA -ATGTGAAATCATCACCCCCAAAAAACCTGGCGAAGCGATTCTTCATGCTTTTAATGCCACCTACCAGCAGATCAGAGAAA -ATATGTCTGAATTTGCACGTTGCCATTATGGGTATATACAAATCCCTCCAGTGACAACTTTCCGCGCCGACGGACCAGAA -ACTCCCGAAGAAGAAAAGGGTTACTGGTTTCATGCTTATCAACCCGAAGATCTTTGTACCATCCATAATCCAATGGGAGA -TTTGCAGGATTTTATTGCATTGGTTAAAGATGCTAAAAAATTTGGTATCGATATCATTCCTGATTATACCTTTAACTTTA -TGGGAATTGGGGGTAGTGGTAAAAATGACCTGGATTATCCCTCTGCTGATATACGAGCGAAGATCAGTAAAGATATAGAA -GGTGGTATCCCTGGCTATTAGCAAGGTCAGGTTTTGATTCCATTCATTAAAGATCCAGTAACAAAAGAACGTAAACAAAT -CCATCCAGAAGATATACATCTCACTGCAAAAGACTTCGAAGCAAGTAAAGATAACATCTCTAAGGATGAATGGGAAAACC -TCCATGCATTAAAAGAAAAGCGTTTAAATGGAATGCCTAAAACAACACCCAAAAGTGACCAGGTTATTATGTTGCAAAAT -CAATACGTTCGTGAAATGCGAAAATATGGCGTACGAGGTTTACGTTATGATGCGGCAAAACACTCAAAACATGAACAAAT -AGAAAGATCAATAACCCCACCGCTTAAAAATTATAATGAGCGGTTACACAATACTAACTTATTTAACCCAAAATATCATA -AAAAAGCCGTTATGAATTACATGGAATATCTGGTAACTTGTCAGTTGGATGAACAACAAATGTCATCACTGCTTTATGAA -AGAGATGATTTAAGCGCCATTGATTTTTCATTGCTCATGAAAACGATAAAAGCCTTTTCATTTGGTGGAGATCTTCAAAC -CCTTGCATCAAAACCGGGTTCCACAATCTCAAGTATCCCATCAGAAAGACGGATATTGATTAACATTAACCACGATTTTC -CTAACAATGGTAATCTTTTCAATGACTTTCTATTTAACCATCAACAAGATGAACAATTAGCAATGGCATATATAGCCGCT -CTGCCGTTCAGCAGGCCTTTAGTTTACTGGGATGGCCAAGTATTAAAATCAACGACTGAAATTAAAAATTATGATGGGTC -CACGCGTGTCGGCGGTGAGGCGTAGCTTAATAAAGGTTGCTCTACCTATCAGCAGCTCTACAATGAATTCCACGCATTAT -ATATAGATAAAGCAGGAATATGGAGCGCATTTGAGGGTGTATCTGCAACTAAAAACGTTCTGGCCTTTAGTCGTGGGGAT -TCTGTGAACATTAATCACTCTCCTCATGATGGACTAGTTATAATAAATAAAGGAAACGAAGAAGTTGAAGGTACCTGGCC -TAACAAATTGCAACCTGGAATATACAAAAACATGGGGAGTAATAGCGTTAACATTATTATTAATAATACCCGAAAAATTA -TCCCCCCTGGTAAAGTATTTACGCTTAGAGGCGGAACTCTAAATATCAATATTCCTGGGCGTAGCGCTCTTCTTTTAGGG -AAAACAGGAGAACCGCCGAACTATCTCTATTTATAATTTAATGTTATATCTGCCCCGATAAAACGGGGCAGATAATATGT -TTAGTTTACTAACGGTCATTTTGCAGTGAAGCCATTTACTGTTTTTTATCGACCAGATAATCTGTTCTCTAATGTTAACT -CCCCCTAACCTGTTGCTTTAGTTATTCATTTCCTGTCTCACTTTGCCTTAATACCCTACGTTAAATGTTACTAATTTGTT -GCTTTTGATCACAATAAGAAAACAATATGTCGCTTTTGTGCGCATTTTTCAGAAATGTAGATATTTTTAGATTATGGCTA -CGAAATGAGCATCGCCATGTCACCCTACATCTCATAAGAGGATCGCTTCTGATGAATGCACTGACCGCCGTACAAAATAA -CGCTGTCGATTCAGGCCAGGACTATAGCGGATTCACCCTCACCCCGTCGGCGCAATCCCCGCGTCTGCTGGAACTCACCT -TCACCGAACAGACGACCAAACAGTTTCTTGAGCAGGTTGCCGAGTGGCCCGTGCAGGCGCTGGAGTACAAATCGTTTCTG -CGTTTTCGGGTAGCCAAAATTCTTGACGATCTATGTGCGAACCAGCTGCAACCATTGCTGTTGAAGACGTTGCTAAACCG -CGCTGAAGGTGCGTTGTTGATCAATGCGGTGGGTGTCGATGATGTGAAGCAAGCGGATGAGATGGTGAAGCTGGCGACGG -CGGTGGCGCATCTGATTGGCCGTTCCAATTTCGATGCGATGAGCGGTCAGTATTACGCGCGTTTTGTAGTGAAAAATGTC -GATAACTCAGACAGCTATCTGCGCCAGCCGCACCGCGTGATGGAGCTACACAACGACGGCACGTATGTCGAAGAGATAAC -CGATTACGTGCTGATGATGAAAATCGACGAGCAAAACATGCAGGGCGGAAATTCGCTGCTGCTGCATCTCGATGACTGGG -AACATCTCGACAACTATTTCCGCCACCCGCTGGCGCGTCGCCCGATGCGCTTTGCCGCGCCGCCGAGTAAAAACGTCAGC -AAAGATGTTTTTCATCCGGTGTTCGACGTCGATCAACAGGGTCGCCCGGTGATGCGCTATATCGACCAGTTCGTCCAGCC -GAAAGACTTCGAAGAAGGCGTGTGGTTGAGCGAGCTTTCCGACGCCATTGAAACCAGCAAAGGCATTCTTTCTGTGCCCG -TTCCCGTTGGCAAATTCCTGTTGATTAACAACCTGTTCTGGCTGCACGGTCGCGACCGCTTTACTCCGCACCCGGATCTG -CGCCGTGAACTGATGCGCCAGCGTGGCTATTTCGCTTACGCCTCTAACCACTACCAGACGCATCAGTAAGCGCAAAGGAA -TTGAGCGGATGTATGATTTTGTGATTATTGGCGGCGGCATCATCGGCATGTCGACCGCCATGCAACTGATTGATGTCTAT -CCGGACGCCCGCATTGCGTTGCTGGAAAAAGAGTCCGCCCCGGCCTGTCACCAGACGGGCCACAACAGCGGCGTGATCCA -TGCCGGGGTCTATTACACGCCCGGCAGCCTGAAGGCGCAGTTTTGCCTGGCGGGAAACCGCGCCACCAAAGCCTTTTGCG -ATCAAAACGGCATTCGCTACGACAACTGCGGCAAGATGCTGGTTGCCACGTCCGATCTCGAAATGGAACGGATGCGCGCC -TTATGGGAACGCACAGCGGCGAACGGTATCGAGCGCGAATGGCTTAACGCCGACGAACTGCGCGAGCGCGAACCGAATAT -CACCGGGCTCGGCGGCATTTTTGTGCCGTCCAGCGGCATTGTCAGCTACCGCGACGTGACGGCGGCGATGGCAAAAATCT -TCCAGTCCAGAGGCGGTGAAATTATCTATAACGCCGAAGTCAGCGGGCTTAATGAGCATAAAAACGGCGTGGTGATACGT -ACCCGTCAGGGCGGCGAATATGAAGCATCAACGCTGATTAGCTGTTCCGGGCTGATGGCTGACCGGCTGGTGAAAATGCT -CGGACTCGAACCGGGCTTTATCATCTGCCCGTTCCGTGGCGAGTATTTCCGCCTTGCGCCGGAGCATAACCAGATTGTTA -ACCACCTGATTTACCCCATTCCCGACCCGGCAATGCCGTTTTTGGGCGTTCATCTCACCCGCATGATCGACGGCAGCGTG -ACCGTCGGGCCAAACGCGGTGCTGGCTTTCAAACGCGAAGGCTATCGCAAGCGCGACTTCTCATTTAGCGACACGCTGGA -GATTTTGGGCTCGTCGGGGATTCGCCGGGTGCTGCAAAACCATCTACGCTCAGGACTGGGCGAGATGAAAAACTCGCTGT -GCAAAAGCGGCTATCTGCGGCTGGTGCAAAAGTATTGTCCCCGGCTTTCGTTAAGCGATCTCCAGCCCTGGCCCGCCGGT -GTGCGGGCGCAGGCGGTATCGCCGGACGGCAAGCTGATTGACGATTTTCTGTTTGTCACCACCCCGCGCACGATCCACAC -CTGCAATGCGCCCTCCCCGGCAGCGACATCAGCAATTCCTATTGGTGCGCATATTGTCAGCAAGGTACAAACGCTGTTGG -CAAGCCAGAGTAACCCCGGACGCACGCTGCGAGCGGCACGTAGTGTGGATGCCTTACACGCCGCATTTAATCAATAACCT -TTGAAAACAGGATGTAGCGATGAAACTTAACGACAGTAACTTATTCCGCCAGCAGGCGTTGATTAACGGGGAATGGCTGG -ACGCCAACAATGGTGAAGCCATCGACGTCACCAATCCGGCGAACGGCGACAAGCTGGGTAGCGTGCCGAAAATGGGCGCG -GATGAAACCCGCGCCGCTATCGACGCCGCCAACCGCGCCCTGCCCGCCTGGCGCGCGCTCACCGCCAAAGAACGCGCCAC -CATTCTGCGCAACTGGTTCAATTTGATGATGGAGCATCAGGACGATTTAGCGCGCCTGATGACCCTCGAACAGGGTAAAC -CACTGGCCGAAGCGAAAGGCGAAATCAGCTACGCCGCCTCCTTTATTGAGTGGTTTGCCGAAGAAGGCAAACGCATTTAT -GGCGACACCATTCCTGGTCATCAGGCCGATAAACGCCTGATTGTTATCAAGCAGCCGATTGGCGTCACCGCGGCTATCAC -GCCGTGGAACTTCCCGGCGGCGATGATTACCCGCAAAGCCGGTCCGGCGCTGGCAGCAGGCTGCACCATGGTGCTGAAGC -CCGCCAGTCAGACGCCGTTCTCTGCGCTGGCGCTGGCGGAGCTGGCGATCCGCGCGGGCGTTCCGGCTGGGGTATTTAAC -GTGGTCACCGGTTCGGCGGGCGCGGTCGGTAACGAACTGACCAGTAACCCGCTGGTGCGCAAACTGTCGTTTACCGGTTC -GACCGAAATTGGCCGCCAGTTAATGGAACAGTGCGCGAAAGACATCAAGAAAGTGTCGCTGGAGCTGGGCGGTAACGCGC -CGTTTATCGTCTTTGACGATGCCGACCTCGACAAAGCCGTGGAAGGCGCGCTGGCCTCGAAATTCCGCAACGCCGGGCAA -ACCTGCGTCTGCGCCAACCGCCTGTATGTGCAGGACGGCGTGTATGACCGTTTTGCCGAAAAATTGCAGCAGGCAATGAG -CAAACTGCACATCGGCGACGGGCTGGATAACGGCGTCACCATCGGGCCGCTGATCGATGAAAAAGCGGTAGCAAAAGTGG -AAGAGCATATTGCCGATGCGCTGGAGAAAGGCGCGCGCGTGGTTTGCGGCGGTAAAGCGCACGAACGCGGCGGCAACTTC -TTCCAGCCGACCATTCTGGTGGACGTTCCGGCCAACGCCAAAGTGTCGAAAGAAGAGACGTTCGGCCCCCTCGCCCCGCT -GTTCCGCTTTAAAGATGAAGCTGATGTGATTGCGCAAGCCAATGACACCGAGTTTGGCCTTGCCGCCTATTTCTACGCCC -GTGATTTAAGCCGCGTCTTCCGCGTGGGCGAAGCGCTGGAGTACGGCATCGTCGGCATCAATACCGGCATTATTTCCAAT -GAAGTGGCCCCGTTCGGCGGCATCAAAGCCTCGGGTCTGGGTCGTGAAGGTTCGAAGTATGGCATCGAAGATTACTTAGA -AATCAAATATATGTGCATCGGTCTTTAACTGGAGAATGCGAATGAACAGCAATAAAGAGTTAATGCAGCGCCGCAGTCAG -GCGATTCCCCGTGGCGTTGGGCAAATTCACCCGATTTTCGCTGACCGCGCGGAAAACTGCCGGGTGTGGGACGTTGAAGG -CCGTGAGTATCTTGATTTCGCGGGCGGGATTGCGGTGCTCAATACCGGGCACCTGCATCCGAAGGTGGTGGCCGCGGTGG -AAGCGCAGTTGAAAAAACTGTCGCACACCTGCTTCCAGGTGCTGGCTTACGAGCCGTATCTGGAGCTGTGCGAGATTATG -AATCAGAAGGTGCCGGGCGATTTCGCCAAGAAAACGCTGCTGGTTACGACCGGTTCCGAAGCGGTGGAAAACGCGGTAAA -AATCGCCCGCGCCGCCACCAAACGTAGCGGCACCATCGCTTTTAGCGGCGCGTATCACGGGCGCACGCATTACACGCTGG -CGCTGACCGGCAAGGTGAATCCGTACTCTGCGGGCATGGGGCTGATGCCGGGTCATGTTTATCGCGCGCTTTATCCTTGC -CCGCTGCACGGCATAAGCGAGGATGACGCTATCGCCAGCATCCACCGGATCTTCAAAAATGATGCCGCGCCGGAAGATAT -CGCCGCCATCGTGATTGAGCCGGTTCAGGGCGAAGGCGGTTTCTACGCCTCGTCGCCAGCCTTTATGCAGCGTTTACGCG -CTCTGTGTGACGAGCACGGGATCATGCTGATTGCCGATGAAGTGCAGAGCGGCGCGGGGCGTACCGGCACGCTGTTTGCG -ATGGAGCAGATGGGCGTTGCGCCGGATCTTACCACCTTTGCGAAATCGATCGCGGGCGGCTTCCCGCTGGCGGGCGTCAC -CGGGCGCGCGGAAGTAATGGATGCCGTCGCTCCAGGCGGTCTGGGCGGCACCTATGCGGGTAACCCGATTGCCTGCGTGG -CTGCGCTGGAAGTGTTGAAGGTGTTTGAGCAGGAAAATCTGCTGCAAAAAGCCAACGATCTGGGGCAGAAGTTGAAAGAC -GGATTGCTGGCGATAGCCGAAAAACACCCGGAGATCGGCGACGTACGCGGGCTGGGGGCGATGATCGCCATTGAGCTGTT -TGAAGACGGCGATCACAACAAGCCGGACGCCAAACTCACCGCCGAGATCGTGGCTCGCGCCCGCGATAAAGGCCTGATTC -TTCTCTCCTGCGGCCCGTATTACAACGTGCTGCGCATCCTTGTACCGCTCACCATTGAAGACGCTCAGATCCGTCAGGGT -CTGGAGATCATCAGCCAGTGTTTTGATGAGGCGAAGCAGTAGCGCCGCTCCTATGCCGGAGGCGACGCTGCGCGTCTTGT -CCGGCCTACGGGGATCCAGGTCGGATAAGGCGTTTACGCCGCATCCGACAATCTGTACGTGAACAGGAAGAAATCTATGT -TGGCCGGGTAAGGCGGAGCCGCTCTCCGGCAAAAAGAATCAATAACAATTATACGCGTGACCCGGCGCGGGAAATGTCGG -GGCGCTCTCCCAAGTGACACACTTTCGAGAGGATTCAGGATGGGGCAATCATCGCAACCACATGAGTTAGGCGGCGGGCT -GAAGTCACGCCACGTCACCATGTTGTCTATTGCCGGTGTTATCGGCGCAAGTCTGTTTGTCGGTTCCAGCGTCGCCATCG -CCGAAGCGGGCCCGGCGGTATTACTGGCCTATCTGTTCGCCGGGCTACTGGTGGTTATGATTATGCGGATGTTGGCGGAA -ATGGCGGTTGCCACGCCCGATACCGGTTCGTTTTCCACCTATGCCGATAAAGCCATTGGTCGCTGGGCGGGCTATACCAT -CGGCTGGTTGTACTGGTGGTTTTGGGTACTGGTTATCCCGCTGGAAGCCAACATCGCCGCCATGATCCTGCACTCATGGG -TTCCAGGCATTCCCATCTGGTTATTTTCCCTCGTCATTACCCTCGCCTTAACTGGCAGTAACTTATTAAGCGTTAAAAAC -TACGGCGAATTTGAGTTCTGGCTGGCGCTGTGCAAAGTCATCGCTATCCTGGCCTTTATTTTCCTTGGTGCAGTCGCAAT -TAGCGGTTTTTACCCGTATGCCGAAGTGAGCGGGATCTCAAGATTGTGGGATAGCGGCGGCTTTATGCCCAACGGTTTCG -GTGCGGTATTAAGCGCGATGTTGATCACCATGTTCTCGTTTATGGGCGCAGAAATTGTCACCATTGCCGCCGCGGAATCC -GACACGCCGGAAAAACATATTGTCCGCGCCACCAACTCGGTTATCTGGCGTATTTCTATCTTCTATTTATGTTCTATTTT -TGTCGTCGTGGCATTAATTCCGTGGAATATGCCCGGACTAAAAGCCGTCGGTTCTTATCGCTCGGTACTGGAATTGCTCA -ATATTCCCCATGCGAAATTAATCATGGACTGCGTGATATTACTTTCCGTAACCAGTTGCCTGAACTCGGCGCTGTATACC -GCGTCAAGGATGCTCTACTCCTTAAGTCGTCGCGGTGATGCTCCCGCGGTAATGGGTAAAATCAACCGCAGTAAAACCCC -GTACGTGGCGGTGTTACTCTCCACCGGCGCGGCATTCTTAACGGTGGTGGTGAACTATTACGCGCCTGCGAAGGTATTTA -AATTTCTGATCGACAGCTCCGGCGCTATCGCCCTGCTGGTTTATTTAGTCATCGCCGTTTCACAGTTGCGGATGCGCAAA -ATTCTGCGAGCAGAAGGAAGCGAAATTCGCTTGCGAATGTGGCTTTATCCGTGGCTCACCTGGCTAGTCATCGGCTTTAT -TACCTTTGTGTTGGTAGTGATGCTATTCCGTCCGGCGCAACAGTTAGAAGTGATCTCCACCGGCTTATTAGCGATAGGGA -TTATCTGTACCGTGCCAATTATGGCTCGCTGGAAAAAGCTGGTATTGTGGCAAAAAACACCCGTTCATAATACGCGCTGA -TCATGATCAGGAGTCACACCATGACCATTACGTCTCTGGATGGCTATCGCTGGCTGAAGAACGATATTATTCGCGGTAAT -TTTCAACCGGATGAAAAATTACGAATGAGTTTGCTGACATCGCGTTATGCACTTGGCGTTGGGCCGTTACGGGAAGCTCT -TTCGCAACTGGTGGCGGAACGGCTGGTCACGGTGGTGAATCAAAAAGGGTATCGGGTGGCGTCTATGTCAGAGCAGGAGC -TGCTCGATATTTTCGACGCCCGCGCCAATATGGAAGCGATGTTAGTGAGTCTGGCGATTGCCCGCGGTGGCGATGAGTGG -GAGGCAGACGTTCTCGCAAAAGCGCATCTGCTGAGTAAGCTTGAGGCCTGTGACGCCAGCGAGAAAATGCTTGATGAGTG -GGATCTGCGTCATCAGGCGTTTCATACGGCAATTGTGGCGGGCTGTGGTTCTCACTATTTGCTGCAAATGCGTGAACGGT -TGTTTGATCTGGCGGCGCGTTATCGATTTATCTGGCTGCGGCGAACGGTGCTTTCGGTGGAAATGCTGGAGGATAAACAC -GATCAGCACCAGACCCTGACTGCGGCGGTACTGGCGCGAGATACCGCGCGCGCCAGTGAGTTAATGCGCCAGCATTTACT -GACGCCAATTCCCATTATCCAGCAGGCGATGGCTGGCAATTAACTACTCTTCCGGAATACGCAACACTTGCCCCGGATAA -ATTTTATCCGGGCTTTTTAGCATCGGTTTATTCGCTTCGAAGATTTTATTGTACAGATTAGCGTTACCGTAGACCTGTTT -GGAAATGGCACTCAGAGTGTCGCCAGACTTAACGGTATAAAACTGGCTGGCAGTGGCTGGTGTCGCCGTTTTCACCTGAT -CATCGACACTGGCAATACCGGAAATATTCCCCACCGCAACAAGGATTTTCTCCTTCGCCTCCTGACTCAGGCCGTCACCA -GTGACCGTCGCTTTGCCGTCGGCAATTTGAATATTCACTTTATCGGCATCCGGTATACCGGTTTTGTTCAGATGCTCCTG -CACCTTCTTCGCCTGATCGTCTTTATCGTGCTGACCTGTAACCGCGTCCCAGAGTTTTTCTCCGGCATCTTTCACAAAAT -TGAACAGACCCATAGCTACCTCATTCGTTAACGGAAACACTCAGAAAGTGTAGCAGAGGAACGCGGCGCGTTAACGCCGC -GGGGATGAGCACAGGTTTAATCGCGGGTTTGCACCCAGAACGCGTGAATCAAACCGGGGATATACCCAAGCAGTGTCAAC -AGAATATTAATAATGAACGCCCAACCGAACCCTTTACCGAGCAGCACGCCGAGCGGCGGCAGAATGATGGTGATGACGAT -TCTCCAGAAACCCATATGTACTCCCTATAAGAAAATTACTCATTGTTTAAAAAGAGATTTTATCTCTTAAGCGTAGTAAT -TTTAGCGGAGCCTGCCAGTTTCAGCTTACGCTTTTACTCTCATTTACGCTGCTGAGGCTGGTATATGTTGCATTTTTAGT -TTAGAGTTTACTTAATTTAGAAAATACTTAAATAAATATGACTGAACTCGCGCAATTACAGGCCAGTGCCGAACAGGCAG -CGGCCTTATTGAAAGCAATGAGCCACCCTAAACGATTGCTGATTCTGTGCATGCTTAGCGGTTCCCCCGGCACCAGCGCG -GGAGAGCTGACGCGCATTACCGGACTGAGTGCCTCTGCGACATCACAGCATCTCGCTCGTATGCGGGACGAAGGGCTTAT -CGACAGCCAACGGGATGCCCAACGCATTCTATATTCCATTAAAAATGAGGCGGTAAATGCCATTATCGCCACCCTGAAAA -ATGTCTATTGTCCGTAAGGAGTCACTATGGCTTTGACAACCATTTCGCCGCATGATGCACAAGAATTAATCGCACGCGGC -GCAAAGTTAATCGATATTCGTGATGCTGATGAATATCTTCGTGAACATATTCCTGAAGCAGATCTGGCTCCATTATCCGT -GCTGGAACAGTCAGGTCTTCCGGCTAAATTACGTCACGAGCAAATTATATTCCACTGCCAGGCAGGTAAACGCACCAGTA -ATAATGCCGATAAATTAGCAGCGATTGCCGCCCCCGCAGAAATCTTTTTACTCGAAGATGGGATTGATGGCTGGAAAAAA -GCAGGATTGCCAGTAGCGGTAAATAAATCTCAACCCTTGCCGTTAATGCGCCAGGTGCAGATCGCTGCGGGTGGTTTAAT -ATTAATCGGCGTTGTACTGGGTTATACCGTAAATAGCGGTTTCTTCTTATTAAGTGGCTTTGTTGGTGCCGGGTTACTGT -TTGCAGGAATCAGCGGTTTTTGTGGAATGGCAAGGTTGTTAGATAAGATGCCGTGGAACCAACGAGCTTGAGAAGCGACG -CCGGACGCGCCCTAGCAGCGACATCCGGCCTCAGTAATTAGATCAGGAAATCGTCGAGAGATTTACCTTCTGCCAGCGCC -TGAGCAATTGGCTTCGGTGTACGGCCCTGACCGGTCCAGGTTTTAGTTTCACCGTTAACATCGGTGAATTTATATTTCGC -CGGACGCGGCTGGCGTTTTTTACCAGCGCGTGGTGCAGCAGCAGAGCTATTACCCAATAACTCTTCCGGGTTAATTCCGT -CAGCTTTCATCAGCTCCAGCCAGGTGCTAATTTTTTCCTGGCGCTCTGCCAGTTCACGCTGCTGCTGTTCTTCTTCTTCA -CGTCTTTCTTTAGTGACAACCCTGAATTTTTCGAGCATTTCTTCAAGAACGTCAATGGAGAATTCGCGAGCCATCGCACG -GAGGGTGCGAATGTTATTTAAACTTTGTAACATTACGGACATAATAAAGAAAACCTTTTAACGCCAAAACAAAAAAAGTA -TTTCGTCGCGTAGTGTAAGCGATCACTTATTATATTTCCACAAAATTTAATCTATTTACAGTCCTGCGCGAGATTATTTC -AGCTGTTATTTTCTGAAACTCTCAGAATAATTTCAAGATTATATATTAGCCATTTTGATGAGTAATTTAGATTATTGGTG -AACAGAGCGGCGCTCTCTGCTCGCTAATTCCGCAAGCCTGACAAAATCAAAGTGAATAAAAATGCAATATAACAGAATAA -AAGAAAACATCCATCACTGGTGCTTTCTGCTGTTAATGTACATTGTCTGGCATAAAAAATGCTGAAAATGACCCAGCTAC -TACATACACCGAATTCTCTACGCTTATAGCGTTACCTCACCCCCAAACTTTCATTAGTGATATTAAAGGTAAGGCCATAT -CTAATTGATTTAATTAAAAATAAATCATATCGGCATGTAAAAATCCACAATGTACAAAAAACGAGCCGTTACGGAATATT -TTATCTACAAAAACTGACTAAATAAAAATTTTTCACTAATTGATTAGTCATAGCCAGCGATATACGCTATGCGAAAATGC -AGATGGCAATGAGATCCACTGCTTTCATCTCCATTAACATCCCATTACGCTTTTATTAAGGAGCATTAGCATGTTCTCAC -CGCAGTCACGCTTGCGTCATGCAGTTGCAGATACGTTCGCGATGGTTGTTTACTGTTCTGTCGTGAACATGTGTATTGAA -GTTTTCCTCTCCGGAATGAGCTTCGAACAGTCTTTTTATTCCAGATTGGTAGCGATTCCGGTGAACATCTTAATTGCATG -GCCATACGGTATGTACCGTGATCTGTTTATGCGCGCGGCACGCAAAGTTAGCCCGTCGGGCTGGATAAAAAATCTGGCGG -ATATCCTGGCTTATGTGACGTTCCAGTCACCGGTGTATGTGGCGATCTTGTTAGTGGTGGGCGCAGACTGGCATCAGATT -ATGGCGGCGGTCAGTTCAAACATCGTTGTTTCGATGTTGATGGGGGCGGTTTATGGCTACTTCCTCGATTATTGCCGCCG -ACTGTTTAAAGTCAGCCGTTACCAGCAGGTAAAAGCCTGACTCTTCTTTTCGCGACTGGCATCGCCAGTCGCGTCTTTAA -CTGGCTTCGCCAAATAAACCATTCAAATAACGTTCAAGCGCAACACGCGAACTAAAGCCATGCGGGATACCGTAATGCTC -GTGTCGCTCGCCTGCTAAATAGAGCGGAAATTGCTGGTAATGATCGCAAGTTTTAATATCGGAAGCGGGTTCAGCCAGTG -TCGAACTGCGTTCTTTTAATGTTGGATGAATTACCAGAGCGGTACGTCCCATTCGCGCTTCGCGATTAACATAGACATAA -TTTTCCCCACGGCGGTAACCATACGCTTTCTGGGTTACCACATCGACAGTAAAACCGACTTTTTCAAGTACGCGCGCCAC -CTCGTCTGGTCGTAAATACATATTTGATCCTCGTTATTATCAACCGCGGGCCTACCTTACCTGATTGCGCATTCACAACG -CTTTCAGAAAAGTCCATAAAGCCGCGATGAACCTCAGTTAAGAAAATTATGGTCTACACTGAAAATTACATCGAATTCTA -ATGGGGGATCATATGTTTAACCGACCGAACCGCAACGACGTTGATGATGGCGTGCAGGATATCCAGAATGATGTCAATCA -ATTAGCTGACAGCCTCGAATCTGTATTGAAGTCCTGGGGCAGCGACGCCAAAGGGGAAGCTGAAGCCGCACGCAGTAAAG -CTCAGGCATTGCTGAAAGAAACCAGGGCGCGAATGCATGGTCGTACTCGCGTCCAGCAAGCCGCGCGCGATGCCGTTGGC -TGCGCGGATTCTTTTGTTCGTGAAAGACCCTGGTGTAGCGTGGGTACAGCAGCTGCGGTAGATATTTTTATCGGCGCACT -GTTAAGCATGCGCAAATCGTAGTGCAAAAATGATAATAAATACGCGTCTTTGACCCCGAAGCCTGTCTTCGGGGTTTCTT -TTTGCCTGGTGAATCACAAAAATCCCCCTACCCCGTCACGCTCATATCCAGGGTAATTTCGACCACTATTTGCTATATAT -TGTGTGGTTGAATCTTTTTTCAACTACATCTAGTATCTCTGTATCAACAGAGAGACAACCCGACGCGTATCATCGCGCCG -TATCTTCATTTTAAACGGAAATACGAATCATGCGCATTACTATTTACACTCGTAACGATTGCGTTCAGTGCCACGCCACC -AAACGGGCGATGGAAAACCGGGGCTTTGATTTTGAAATGATTAATGTCGATCGCGTTCCTGAAGCGGCAGAAGCGTTGCG -TGCTCAGGGCTTTCGTCAGTTGCCGGTAGTGATTGCTGGCGATCTTAGCTGGTCTGGTTTCCGTCCGGACATGATTAACC -GTCTGCATCCAGCGCCACACGCGGCCAGTGCATGAGCCAGCTCGTCTACTTCTCCAGCAGCTCCGAAAACACGCAGCGTT -TTATCGAACGTTTAGGTCTGCCCGCGGTGCGCATCCCGCTCAATGAGCGGGAACGGATTCAGGTAGACGAGCCTTACATC -CTGATCGTGCCCTCTTACGGCGGCGGCGGTACGGCTGGCGCGGTGCCACGACAGGTAATTCGCTTTTTAAACGACGAGCA -CAACCGGGCGTTGCTTCGCGGCGTTATTGCTTCTGGTAATCGCAACTTTGGTGAGGCGTATGGCCGCGCCGGAGATGTGA -TTGCCCGGAAATGCGGCGTGCCGTGGCTGTACCGTTTTGAACTCATGGGTACGCAAAGCGATATCGAAAACGTTCGTAAA -GGAGTAACCGAATTTTGGCAACGACAACCGCAGAATGCCTGACGCAGGAAACGATGGATTACCACGCGCTGAATGCGATG -CTTAACCTCTACGATAGCGCAGGTCGCATTCAGTTCGATAAAGACCGCCAGGCCGTTGACGCCTTTATTGCGACGCATGT -GCGTCCGAACAGTGTGACCTTCAGTAGCCAGCAGCAGCGCCTGAACTGGCTGGTCAACGAAGGTTACTATGATGAAAGCG -TTCTTAATCGCTACTCTCGCGACTTTGTCATTACGCTGTTTACCCACGCACACACCAGCGGTTTTCGTTTCCAGACATTC -CTCGGGGCATGGAAGTTTTACACCAGCTATACGTTGAAGACATTCGACGGTAAACGTTATCTGGAAGATTTTGCCGATCG -AGTAACGATGGTGGCGCTGACGCTGGCACAAGGCGATGAGACGCTGGCGTTGCAACTGACCGATGAAATGCTGTCAGGAC -GCTTTCAGCCAGCCACGCCAACATTCCTCAACTGCGGTAAGCAGCAGCGCGGCGAACTGGTTTCCTGTTTTTTGCTGCGT -ATTGAAGACAATATGGAGTCGATTGGTCGGGCGGTAAATTCCGCACTGCAGCTGTCGAAACGCGGCGGCGGCGTAGCATT -TTTGCTGTCGAATCTGCGAGAAGCGGGCGCGCCAATTAAACGTATTGAAAATCAATCTTCTGGCGTAATTCCGGTGATGA -AAATGCTGGAAGACGCATTTTCCTATGCCAACCAACTCGGCGCTCGTCAGGGGGCTGGTGCAGTCTATTTACATGCTCAT -CATCCCGATATTCTGCGTTTTCTCGACACGAAACGGGAAAATGCCGACGAAAAAATCCGCATTAAAACACTGTCGCTTGG -CGTGGTGATCCCGGATATCACTTTCCATCTGGCAAAAGAGAATGCGCAGATGGCGCTGTTTTCGCCTTATGACGTAGAGC -GAGTTTATGGCAAGCCGTTTGCCGATGTGGCCATCAGCCAACACTATGACGAACTGGTTGCCGATGAACGCATTCGCAAA -AAATACCTCAACGCCCGTGATTTCTTCCAGCGACTGGCAGAAATCCAGTTTGAGTCCGGCTATCCCTACATCATGTATGA -AGACACGGTAAACCGTGCTAACCCTATCGCCGGGCGCATAAATATGAGTAATCTCTGCTCAGAAATTTTGCAGGTTAACA -GCGCCTCAGAGTATGACGAGAATCTCGACTATACCCGCACAGGCCATGATATTTCCTGCAATTTAGGTTCGTTGAATATT -GCGCACACCATGGATTCCCCCGATTTTGCCCGCACGGTAGAGACTGCCGTGCGCGGTTTAACGGCAGTATCAGATATGAG -TCATATCCGCAGCGTGCCGTCCATCGAAGCCGGAAATGCCGCCTCGCACGCCATCGGACTGGGGCAGATGAATTTACACG -GCTATCTGGCGCGAGAAGGCATCGCTTATGGTTCGCCGGAAGCACTGGATTTCACCAATCTCTATTTCTATGCCATCACC -TGGCATGCACTGCGTACCTCGATGTTGCTGGCACGCGAACGCGGTGAAACCTTCGCCGGGTTCAAACAGTCACGCTATGC -CAGTGGTGAATATTTTAGCCAATATCTGCAAGGGAACTGGCAGCCGAAAACGGCGAAAGTTGGCGAACTGTTTACCCGTA -GCGGTATTACGTTACCTACCCGTGAGATGTGGGCGCAGCTGCGCGACGACGTGATGCGCTACGGCATATACAACCAGAAT -CTTCAGGCGGTGCCGCCAACCGGTTCTATCTCTTATATCAACCATGCTACGTCGAGTATTCATCCGATTGTGGCGAAAGT -AGAGATACGCAAAGAGGGCAAAACAGGACGCGTTTACTACCCTGCCCCGTTTATGACTAACGAGAATCTGGCGCTGTATC -AGGACGCTTACGAAATTGGCGCAGAAAAGATCATCGACACCTACGCGGAAGCGACTCGCCATGTCGATCAGGGGCTGTCG -CTGACGCTTTTTTTCCCCGATACCGCCACCACTCGCGATATCAACAAAGCGCAGATTTACGCCTGGCGCAAGGGTATCAA -AACGCTCTATTACATCCGCCTGCGTCAGATGGCGCTGGAAGGCACTGAAATTGAAGGCTGCGTCTCCTGTGCACTTTAAG -GAATATCTATGAAACTCTCACGTATCAGCGCCATCAACTGGAACAAGATATCTGACGATAAAGATCTGGAGGTGTGGAAT -CGCCTGACCAGCAATTTCTGGCTACCAGAAAAGGTGCCGCTGTCGAACGATATTCCTGCCTGGCAGACATTAACTGTCGT -AGAACAACAACTGACGATGCGCGTTTTTACTGGCCTGACGCTGCTCGACACGCTGCAAAATGTTATCGGCGCGCCTTCTC -TGATGCCCGATGCACTCACGCCTCATGAAGAAGCGGTATTATCGAATATCAGCTTTATGGAAGCGGTTCATGCCCGCTCT -TACAGTTCGATTTTCTCGACGCTATGCCAGACCAAAGATGTCGATGCCGCCTACGCCTGGAGTGAAGAAAACGCACCGTT -GCAGCGAAAAGCTCAGATTATTCAGCAACATTATCGCGGTGATGATCCGCTGAAAAAGAAAATCGCCAGTGTGTTTCTTG -AATCTTTTTTGTTCTATTCCGGTTTCTGGCTGCCGATGTATTTTTCCAGCCGCGGAAAGCTGACCAATACCGCGGACCTG -ATCCGTCTGATTATCCGCGATGAAGCAGTCCACGGTTACTACATAGGCTATAAATATCAGAAAAACATGGAAAAGATATC -TCTGGGACAACGTGAAGAGTTGAAGAGTTTCGCCTTCGATTTGTTGCTGGAACTCTACGACAACGAGTTGCAATACACCG -ATGAGCTGTACGCCGAAACCCCGTGGGCTGACGATGTGAAAGCGTTTCTCTGTTACAACGCCAATAAGGCTTTGATGAAT -CTGGGCTACGAACCGTTATTTCCCGCAGAAATGGCGGAAGTGAATCCGGCAATCCTCGCCGCGCTTTCGCCGAATGCCGA -TGAAAATCACGATTTCTTTTCCGGTTCAGGCTCCTCTTATGTGATGGGGAAAGCGGTTGAAACAGAAGATGAAGACTGGA -ATTTCTGAGGGTGTTATTTTCAAAAATATCACTACCCGCAGCAGGGAAATAATTCCCGCCAAATAGCTTTTTATCACGCA -AATAATTTGTGGTGATCTACACTGATACTCTGTTGCATTATTCGCCTGAAACCACAATATTCAGGCGTTTTTTCGCTATC -TTTGACAAAAAATATCAACTTTCTCGATTTGCTCTCAGCCCTTATATCACGGGAAATTCCGGCGATTTGCTCGCATCAAT -ATTCATGCCACATTTGCCATCAGGGGTTGCCTCAGATTCTCAGTATGTTAGGGTAGAAAAAAGTGACTATTTCCATTGGG -TAATATATCGACATAGACAAATAAAGGAATCTTTCTATTGCATGGCAATTAAATTAGAAATTAAAAATCTTTATAAAATA -TTTGGCGAGCATCCACAGCGAGCGTTCAAATATATCGAACAAGGACTTTCAAAAGAACAAATTCTGGAAAAAACTGGGCT -ATCGCTTGGCGTAAAAGACGCCAGTCTGGCCATTGAAGAAGGCGAGATATTTGTCATCATGGGATTATCCGGCTCGGGTA -AATCCACAATGGTACGCCTTCTCAATCGCCTGATTGAACCCACCCGCGGGCAAGTGCTGATTGATGGTGTGGATATTGCC -AAAATATCCGACGCCGAACTCCGTGAGGTGCGCAGAAAAAAGATTGCGATGGTCTTCCAGTCCTTTGCCTTAATGCCGCA -TATGACCGTGCTGGACAATACTGCGTTCGGTATGGAATTGGCCGGAATTAATGCCGAAGAACGCCGGGAAAAAGCCCTTG -ATGCACTGCGTCAGGTCGGGCTGGAAAATTATGCCCACAGCTACCCGGATGAACTCTCTGGCGGGATGCGTCAACGTGTG -GGATTAGCCCGCGCGTTAGCGATTAATCCGGATATATTATTAATGGACGAAGCCTTCTCGGCGCTCGATCCATTAATTCG -CACCGAGATGCAGGATGAGCTGGTAAAATTACAGGCGAAACATCAGCGCACCATTGTCTTTATTTCCCACGATCTTGATG -AAGCCATGCGTATTGGCGACCGAATTGCCATTATGCAAAATGGTGAAGTGGTACAGGTCGGCACACCGGATGAAATTCTC -AATAATCCGGCGAATGATTATGTCCGTACCTTCTTCCGTGGCGTTGATATTAGTCAGGTATTCAGTGCGAAAGATATTGC -CCGCCGGACACCGAATGGCTTAATTCGTAAAACCCCTGGCTTCGGCCCACGTTCGGCACTGAAATTATTGCAGGATGAAG -ATCGCGAATATGGCTACGTTATCGAACGCGGTAATAAGTTTGTCGGCGCAGTCTCCATCGATTCGCTTAAAACCGCGGGT -GATGCTGCCAACTTACTGATTTAGTGTATGATGGTGTTTTTGAGGTGCTCCAGTGGCTTCTGTTTCTATCAGCTGTCCCT -CCTGTTCAGCTACTGACGGGGTGGTGCGTAACGGCAAAAGCACCGCCGGACATCAGCGCTATCTCTGCTCTCACTGCCGT -AAAACATGGCAACTGCAGTTCACTTACACCGCTTCTCAACCCGGTACGCACCAGAAAATCATTGATATGGCCATGAATGG -CGTTGGATGCCGGGCAACAGCCCGCATTATGGGCGTTGGCCTCAACACGATTTTACGTCACTTAAAAAACTCAGGCCGCA -GTCGGTAACCTCGCGCATACAGCCGGGCAGTGACGTCATCGTCTGCGCGGAAATGGACGAACAGTGGGGCTATGTCGGGG -CTAAATCGCGCCAGCGCTGGCTGTTTTACGCGTATGACAGTCTCCGGAAGACGGTTGTTGCGCACGTATTCGGTGAACGC -ACTATGGCGACGCTGGGGCGTCTTATGAGCCTGCTGTCACCCTTTGACGTGGTGATATGGATGACGGATGGCTGGCCGCT -GTATGAATCCCGCCTGAAGGGAAAGCTGCACGTAATCAGCAAGCGATATACGCAGCGAATTGAGCGGCATAACCTGAATC -TGAGGCAGCACCTGGCACGGCTGGGACGGAAGTCGCTGTCGTTCTCAAAATCGGTGGAGCTGCATGACAAAGTCATCGGG -CATTATCTGAACATAAAACACTATCAATAAGTTGGAGTCATTACCAAAACCGCGTTAACGCAGCAGCAAGGTCTTGATGC -GGCGCTGATTGATGCGCCGTTAGCAGTCGATGCACAAACGCCTCTTAGCGAGTTGCTCTCTCATGTCGGACAGGCACCCT -GTGCGGTGCCCGTGGTCGACGAGGACCAACAGTATGTCGGCATCATTTCGAAAGGAATGCTGCTGCGCGCTTTAGATCGT -GAGGGGGTAAATAATGGCTGATCAAAATAATCCGTGGGATACCACGCCAGCGGCGGACAGTGCCGCGCAATCCGCAGACG -CCTGGGGTACACCGACGACTGCACCGACTGACGGCGGTGGTGCTGACTGGCTGACCAGTACGCCTGCGCCAAACGTCGAG -CATTTTAATATTCTCGATCCGTTCCATAAAACGCTGATCCCGCTCGACAGTTGGGTCACTGAAGGGATCGACTGGGTCGT -TACCCATTTCCGTCCCGTCTTCCAGGGCGTGCGCGTTCCGGTTGATTATATCCTCAACGGTTTCCAGCAATTGCTGCTGG -GTATGCCCGCACCGGTGGCGATTATCGTTTTCGCTCTCATCGCCTGGCAGATTTCCGGGGTCGGAATGGGTGTGGCGACG -CTGGTTTCGCTGATTGCCATCGGCGCAATCGGTGCCTGGTCGCAGGCAATGGTGACTCTGGCGCTGGTGTTAACCGCCCT -GCTGTTCTGTATCGTCATCGGTTTGCCGTTGGGGATATGGCTGGCGAGAAGTCCGCGAGCGGCGAAAATTATTCGTCCAC -TGCTTGATGCCATGCAGACCACGCCAGCGTTTGTTTATCTGGTGCCAATCGTCATGCTATTTGGTATCGGTAACGTGCCG -GGCGTGGTGGTGACGATCATCTTTGCTCTGCCGCCGATTATCCGTCTGACCATTCTGGGGATTAACCAGGTTCCGGCGGA -TCTGATTGAAGCCTCGCGCTCATTCGGTGCCAGCCCGCGCCAGATGCTGTTCAAAGTTCAGTTACCGCTGGCGATGCCGA -CCATTATGGCGGGCGTTAACCAGACGCTGATGCTGGCCCTTTCTATGGTGGTCATCGCCTCGATGATTGCCGTCGGCGGG -TTGGGTCAGATGGTACTTCGCGGTATCGGTCGTCTGGATATGGGGCTTGCCACCGTTGGCGGCGTCGGGATTGTGATCCT -CGCCATTATCCTCGATCGTCTGACGCAGGCCGTTGGGCGCGACTCACGCAGTCGCGGCAACCGTCGCTGGTACACCACTG -GCCCTGTTGGTCTGCTGACCCGCCCATTCATTAAGTAACTCTGCACTTGCCCGGTGACGCCGGGCATTATCACCCTGCCA -AAAAAAGGAATAACAATGCGACATAGCGTACTTTTTGCGACAGCGTTTGCCACGCTTATCTCTACACAAACTTTTGCTGC -CGATCTGCCGGGCAAAGGCATTACTGTTAATCCAGTTCAGAGCACCATCACTGAAGAAACCTTCCAGACGCTGCTGGTCA -GTCGTGCGCTGGAGAAATTAGGTTATACCGTCAACAAACCCAGCGAAGTAGATTACAACGTTGGCTACACCTCGCTTGCT -TCCGGCGATGCAACCTTCACCGCCGTGAACTGGACGCCACTGCATGACAACATGTACGAAGCTGCCGGTGGCGATAAGAA -ATTTTATCGTGAAGGGGTATTTGTTAACGGCGCGGCACAGGGTTACCTGATCGATAAGAAAACCGCCGACCAGTACAAAA -TCACCAACATCGCACAACTGAAAGATCCGAAGATCGCCAAACTGTTCGATACCAACGGCGACGGAAAAGCGGATTTAACC -GGTTGTAACCCTGGCTGGGGCTGCGAAGGTGCGATCAACCACCAGCTTGCCGCGTATGAACTGACCAACACCGTGACGCA -TAATCAGGGGAACTACGCAGCGATGATGGCCGACACCATCAGTCGCTACAAAGAGGGCAAACCGGTGTTTTATTACACCT -GGACGCCGTACTGGGTGAGTAACGAACTGAAGCCGGGCAAAGATGTCGTCTGGTTGCAGGTGCCGTTCTCCGCACTGCCG -GGCGATAAAAACGCCGATACCAAACTGCCGAATGGTGCGAATTATGGCTTCCCGGTCAGCACCATGCATATCGTTGCCAA -CAAAGCCTGGGCCGAGAAAAACCCGGCAGCAGCGAAACTGTTTGCCATTATGCAGTTGCCAGTGGCAGATATTAACGCCC -AGAACGCCATTATGCATGACGGCAAAGCCTCAGAAGGCGATATTCAGGGACACGTTGATGGTTGGATCAAAGCCCACCAG -CAGCAGTTCGATGGCTGGGTGAATGAGGCGCTGGCAGCGCAGAAGTAATTTTTATTCGGGCGGATAAGGCGTTTTTGCCG -CATCCGCCGTTCTGTGCACAATGCCTGATGCGACGCTGGCGCGTCTTATCATGCCTACAAACCACATCGCACATTTCAAC -AATCTATCTTTCATCCCATATTCATCAACATCCGCTATTATTGATTTCCAGCTTAATCATCACCTGATGAACAAAAATAA -TGACTAAACCTAATCATGAGCTTAGCCCGGCGCTGATCGTGCTGATGTCTATCGCCACCGGTCTGGCGGTAGCCAGTAAC -TATTACGCCCAGCCATTGCTCGACACCATCGCGCGTAACTTTTCCCTTTCCGCCAGTTCGGCAGGCTTTATTGTTACCGC -CGCGCAGTTGGGCTATGCCGCAGGTCTACTGTTTCTTGTTCCCCTCGGTGATATGTTTGAACGCCGCCGCCTGATTGTCT -CGATGACCTTACTGGCGGCATGTTGATTACCGCCAGCAGTCAGTCGCTGGCGATGATGATCCTCGGTACGGCATTAACCG -GTTTATTCTCAGTCGTGGCACAAATTCTGGTTCCGCTGGCAGCGACGCTGGCTTCACCGGATAAACGCGGCAAAGTGGTT -GGCACTATTATGAGCGGTCTGCTGTTGGGGATCTTGCTGGCACGGACAGTTGCCGGATTGCTGGCGAATCTCGGCGGCTG -GCGCACCGTCTTTTGGGTTGCTTCGGTGTTAATGGCACTGATGGCGCTGGCATTATGGCGTGGTCTGCCACAAATGAAAT -CAGAAACCCACCTCAACTACCCACAGTTGTTGGGTTCCGTTTTCAGTATGTTTATCAGCGATAAAATTCTGCGTACCCGC -GCGTTGCTGGGCTGCCTGACCTTTGCCAATTTCAGCATTCTCTGGACCTCAATGGCCTTTTTGCTTGCCGCTCCACCTTT -TAACTACAGCGATGGTGTCATTGGTCTGTTTGGACTTGCGGGAGCTGCCGGAGCGTTGGGCGCTCGTCCGGCGGGCGGTT -TTGCCGATAAGGGCAAATCGCACCACACCACAACTTTCGGTCTGCTGCTGCTATTACTTTCATGGCTGGCGATCTGGTTT -GGTCACACTTCCGTACTGGCGTTGATTATCGGAATCCTGGTGCTGGATCTCACCGTGCAGGGCGTGCATATCACTAACCA -GACGGTAATTTATCGGATACATCCTGATGCGCGCAATCGCCTGACCGCAGGTTACATGACTAGCTACTTTATTGGCGGTG -CCGCCGGTTCGCTAATTTCAGCCTCAGCCTGGCAACATGGCGGTTGGGCTGGCGTTTGTCTGGCTGGCGCGACGATTGCC -CTGGTTAACTTACTGGTCTGGTGGCGAGGTTTTCATCGTCAGGAAGCCGCAAATTAAGCAATCAGCAACCGTTTTCGTGG -CTTTACACTTATAAGGGTGTTAAGAAGCCCATCAGTCTGATAAGGTTAAGATATTCATTCAGTCTATTTATAATATTAAC -AATCGTTAAGCGTACACTCTATGGAAAGCCCTACTCCACAGCCTGCTCCTGGTTCGGCGACCTTCATGGAAGGATGCAAA -GACAGTTTACCGATTGTTATTAGTTATATTCCGGTGGCCTTTGCGTTCGGTCTGAATGCGACCCGTCTGGGATTCTCTCC -TCTCGAAAGCGTTTTTTTCTCCTGCATCATTTATGCAGGCGCGAGCCAGTTCGTCATTACCGCGATGCTGGCAGCCGGGA -GTAGTTTGTGGATTGCTGCACTGACCGTCATGGCAATGGATGTTCGCCATGTGTTGTATGGCCCGTCACTGCGTAGCCGT -ATTATTCAGCGTCTGCAAAAATCGAAAACCGCCCTGTGGGCGTTTGGCCTGACGGATGAGGTTTTTGCCGCCGCAACCGC -AAAACTGGTACGCAATAATCGCCGCTGGAGCGAGAACTGGATGATCGGCATTGCCTTCAGTTCATGGTCATCGTGGGTAT -TTGGTACGGTAATAGGGGCATTCTCCGGCAGCGGCTTGCTGCAAGGTTATCCCGCCGTTGAAGCTGCATTAGGTTTTATG -CTTCCGGCACTCTTTATGAGTTTCCTGCTCGCCTCTTTCCAGCGCAAACAATCTCTTTGCGTTACCGCAGCGTTAGTTGG -TGCCCTTGCAGGCGTAACGCTATTTTCTATTCCCGTCGCCATTCTGGCAGGCATTGTCTGTGGCTGCCTCACTGCGTTAA -TCCAGGCATTCTGGCAAGGAGCGCCCGATGAGCTATGAGGTTCTGCTGCTTGGGTTACTAGTTGGCGTGGCGAATTATTG -CTTCCGCTATTTGCCGCTGCGCCTGCGTGTGGGTAATGCCCGCCCAACCAAACGTGGCGCGGTAGGTATTTTGCTCGACA -CCATTGGCATCGCCTCGATATGCGCTCTGCTGGTTGTCTCTACCGCACCAGAAGTGATGCACGATACACGCCGTTTCGTG -CCCACGCTGGTCGGCTTCGCGGTACTGGGTGCCAGTTTCTATAAAACACGCAGCATTATCATCCCAACACTGCTTAGTGC -GCTGGCCTATGGGCTCGCCTGGAAAGTGATGGCGATTATATAACCCACAAGAATCATTTTTCTAAAACAATACATTTACT -TTATTTGTCACTGTCGTTACTATATCGGCTGAAATTAATGAGGTCATACCCAAATGGATAGTTCGTTTACGCCCATTGAA -CAAATGCTAAAATTTCGCGCCAGCCGCCACGAAGATTTTCCTTATCAGGAGATCCTTCTGACTCGTCTTTGCATGCACAT -GCAAAGCAAGCTGCTGGAGAACCGCAATAAAATGCTGAAGGCTCAGGGAATTAACGAGACGTTGTTTATGGCGTTGATTA -CGCTGGAGTCTCAGGAAAACCACAGTATTCAGCCTTCTGAATTAAGTTGTGCTCTTGGATCATCCCGTACCAACGCGACG -CGTATTGCCGATGAACTGGAAAAACGCGGTTGGATCGAACGTCGTGAAAGCGATAACGATCGCCGCTGCCTGCATCTGCA -ATTAACGGAAAAAGGTCACGAGTTTTTGCGCGAGGTTTTACCACCGCAGCATAACTGCCTGCATCAACTCTGGTCCGCGC -TCAGCACAACAGAAAAAGATCAGCTCGAGCAAATCACCCGCAAATTGCTCTCCCGTCTCGACCAGATGGAACAAGACGGT -GTGGTTCTCGAAGCGATGAGCTAACGCGTCATCTCGCTCAAAAATCCAGATTTATAAAAGAAAAAATGACTGGCCAGCAT -CGCAACATGCTGGCCTTTTTGGCAAGCAGGTCGGCTCAGCCGATGAGTTAAGAAGATCGTGGAGAACAATATGAGCGCAA -ATGCGGAGACTCAAACCCCGCAGCAACCGGTAAAGAAGAGCGGCAAACGTAAGCGTCTGCTCCTCCTTCTCACCTTGCTC -TTTATAATTATTGCCGTAGCGATAGGGATTTATTGGTTTTTGGTACTGCGTCACTTCGAAGAAACCGATGACGCATACGT -GGCAGGGAATCAAATTCAAATTATGTCTCAGGTGTCTGGCAGCGTGACGAAAGTCTGGGCCGATAACACCGATTTTGTAA -AAGAAGGCGACGTGCTGGTCACTCTCGACCCGACAGATGCTCGCCAGGCGTTTGAAAAAGCCAAAACTGCACTGGCTTCC -AGCGTTCGCCAAACCCACCAGCTGATGATTAACAGCAAGCAGTTGCAGGCGAATATTGAGGTGCAGAAAATCGCCCTCGC -GAAAGCACAAAGCGACTACAACCGCCGTGTGCCGCTGGGCAATGCCAACCTGATTGGTCGCGAAGAGCTGCAACACGCCC -GCGACGCCGTCACCAGTGCCCAGGCGCAACTGGACGTCGCGATTCAACAATACAATGCCAATCAGGCGATGATTCTGGGG -ACTAAACTGGAAGATCAGCCAGCCGTGCAACAGGCTGCCACCGAAGTACGTAACGCCTGGCTGGCGCTGGAGCGTACTCG -TATTATCAGTCCGATGACCGGTTATGTCTCCCGCCGCGCGGTACAGCCTGGGGCGCAAATTAGCCCAACGACGCCGCTGA -TGGCGGTCGTTCCAGCCACCAATATGTGGGTGGATGCCAACTTTAAAGAGACGCAGATTGCCAATATGCGTATCGGTCAG -CCGGTCACTATCACCACGGATATTTACGGCGATGATGTGAAATACACCGGTAAAGTGGTTGGTCTGGATATGGGCACAGG -TAGCGCGTTCTCACTGCTTCCAGCGCAAAATGCGACCGGTAACTGGATCAAAGTCGTTCAGCGTCTGCCTGTGCGTATCG -AACTGGACCAGAAACAGCTGGAGCAATATCCGCTGCGTATCGGTTTGTCCACGCTGGTGAGCGTCAATACCACTAACCGT -GACGGTCAGGTACTGGCAAATAAAGTACGTTCCACTCCGGTAGCGGTAAGCACCGCGCGTGAAATCAGCCTGGCACCTGT -CAATAAACTGATCGACGATATCGTAAAAGCTAACGCTGGCTAATCCAGAGGTGCGTGTGATGCAACAGCAAAAACCGCTG -GAAGGCGCGCAACTGGTCATTATGACGATTGCGCTGTCACTGGCGACATTCATGCAGGTGCTGGACTCCACCATTGCTAA -CGTGGCGATCCCCACTATCGCCGGGAATCTGGGCTCATCGCTCAGCCAGGGAACGTGGGTAATCACTTCTTTCGGGGTGG -CGAATGCCATCTCGATCCCGCTTACCGGCTGGCTGGCAAAGCGCGTCGGGGAAGTGAAACTGTTCCTTTGGTCCACCATC -GCCTTTGCTATTGCGTCGTGGGCGTGTGGTGTCTCCAGCAGCCTGAATATGCTGATCTTCTTCCGCGTGATTCAGGGGAT -TGTCGCCGGGCCGTTGATCCCGCTTTCGCAAAGTCTATTGCTGAATAACTACCCGCCAGCCAAACGCTCGATCGCGCTGG -CGTTGTGGTCGATGACGGTGATTGTCGCGCCAATTTGCGGCCCGATCCTCGGCGGTTATATCAGCGATAATTACCACTGG -GGCTGGATATTCTTCATCAACGTGCCGATTGGCGTGGCGGTGGTGTTGATGACACTGCAAACTCTGCGCGGACGTGAAAC -CCGCACCGAACGGCGGCGGATTGATGCCGTGGGGCTGGCACTGCTGGTTATTGGTATCGGCAGCCTGCAGATTATGCTCG -ACCGCGGTAAAGAGCTGGACTGGTTTTCATCACAGGAAATTATCATCCTTACCGTGGTGGCGGTGGTGGCTATCTGCTTC -CTGATTGTCTGGGAGCTGACCGACGATAACCCGATAGTCGATCTGTCGTTGTTTAAGTCGCGCAACTTCACCATCGGCTG -CTTGTGTATCAGCCTCGCGTATATGCTCTACTTCGGCGCTATTGTTCTGCTGCCGCAGTTGTTGCAGGAGGTCTACGGTT -ACACGGCGACCTGGGCAGGTTTGGCCTCTGCGCCGGTAGGGATTATTCCGGTGATCCTGTCGCCGATTATCGGCCGCTTC -GCGCATAAACTGGATATGCGGCGGCTGGTAACCTTCAGCTTTATTATGTATGCCGTCTGCTTCTACTGGCGTGCCTATAC -CTTTGAACCAGGTATGGATTTTGGCGCGTCGGCCTGGCCGCAGTTTATCCAGGGGTTTGCGGTGGCCTGCTTCTTTATGC -CGCTGACCACCATTACGCTGTCTGGTTTGCCACCGGAACGACTGGCGGCGGCATCGAGCCTCTCTAACTTTACGCGAACG -CTGGCGGGGTCTATCGGCACGTCGATAACCACGACCATGTGGACCAACCGCGAGTCGATGCACCATGCGCAGTTGACTGA -GTCGGTAAACCCGTTCAACCCGAATGCCCAGGCGATGTACAGTCAACTGGAAGGGCTTGGGATGACGCAACAGCAGGCAT -CAGGCTGGATTGCCCAGCAGATCACCAATCAGGGGCTGATTATTTCCGCCAATGAGATCTTCTGGATGTCAGCCGGGATA -TTCCTCGTCCTGCTGGGGCTGGTGTGGTTTGCTAAACCGCCATTTGGCGCAGGTGGCGGCGGAGGCGGTGCGCACTAAGT -ACAACTAAGCCAGTTCATTTGAACTGGCTTTTTTCAATTAATTGTGAAGATAGTTTACTGACTAGATGTGCAGTTCCTGC -AACTTCTCTTTCGGCAGTGCCAGTTCTTCGTTGCTGTTGATGCGTACGTCACGTTCCAGAATGCTACGCGCAATATCCTG -CGCTTCCTGCAACGAGTGCATCTGGTAAGTGCCACACTGGTAGACGTTCAGTTCCGGGATCTGATTCTGATCCTGCACTT -TCAGCACGTCTTCCATTGCCGCTTTCCAGGCATCAGCAACACGCTGCTCATCTGGCGTACCAATCAGACTCATATAAAAA -CCGGTGCGGCAGCCCATTGGCGAGATATCGATAATCTCTACACCATTACCGTTAAGATGGTTACGCATAAAACCAGCAAA -CAGGTGCTCCAGGGTATGGATCCCTCTTTCTGGCATCACTTCTTTGTTCGGCACGCAGAAGCGCAGATCGAACACGGTGA -TTGCGTCGCCATGCGGGGTGTTCATTGTTTTCGCCACCCGAACTGCAGGCGCTTCCATCCGGGTATGATCGACTGTGAAG -CTATCTAACAACGGCATTTAGCCACCTCCGGTAATTTTTTTAAAAATTTTCTGAACTCTTTCTTCCCAGGCGAGTCTGAG -TATATGAAAGACGCGCATTTGTTATCATCATCCCTGAATTCAGAGATGAAATTTTGGCCACTCACGAGTGGCCTTTTTCT -TTTCTGTCAGGCGTGTTTTTCCAGCCACACCGCAAACGGTTCGGTATCAGCGGCTTCCATTTCCTGCTGACGGCGTTCAG -ACGCCTCGCGCTCGGCTACAAAATCCTCTTCGCGCAGAATTTCCAGCGGCTCTTCACGCAGCAGATTACGGTAGGCTTCT -GCAAATGCTTTGCCTGTTCCGCCAATACCAGTATCAATCATAGACCTTAAGATACGGGCAGAGAAAGTCAGATCGGGATT -ATCGAAGCAGGCAACCAGTTCATCACACACTTTCTGATACGCTTCGCCGCCGTTAATACTATCCAGCGTTTGCGCGACGC -GTTTCAGATCGCGGAACAGATCTTTACCCACCTGCGGTAACGGGAACTGTGCGGTTTCGCAGCCGATACCCAGCGTCAGA -CCCGGTTTGCGACCTTCGAGGATCACCCGGTTCCAGTTAACGCGTGTACAGGCAAGTTCGCTACTGCTCATTTCCGGTGC -ATCAGCCAGCGCACACCAGACCATAAACAGGTCGAGGAATCGCACCTGCTGTTCATCTACACCAATCGGCGAGAACGGGT -TGATGTCCAGCGAACGCACTTCAATATATTCAATGCCGCCACGTAACAGCGCATCAGAAGGCGACTCGCCGCTGCGGGTA -ACGCGTTTTGGACGAATCGGCGCGTACAGTTCGTTTTCAATCTGCAACACGTTGCTGTTGATTTGCAGCCTCTTACCGTC -TTTCTCAATACCAATCTTCGCGTACTCTTCCGATGGCGTTTTGATTGCCTGTTTAAGGCCCGCTACGTACTCGTAAAGAT -CGTTGAAGGTAATACCAAGATTGCTTTGCGATTTATTGGTATAGCCGAGATCGCTCAAACGAAGAGAGGTCGCATACGGC -AGGTAATACATACCGCACTCGGTTTTCTCAAACGGCAGCGACGTTGGTTTTCCTTGCAGGAAAGAAGAACAAATCGCCGG -AGATGCACCAAACAGATAAGGAATGACCCAACCGAAACGATAGTAATTGCGGATAACGCGGAAATAGCCCGCAGAAATTT -TCTCTTTGGCATCAGCGCCCGAGATATCACCGCACTTCGCTTGCCAGAATGCCATTGGCAAAGAGAAATTGTAGTGCACG -CCGGAAATGGTTTGCATCAGCGCGCCGTAGCGATTTTTCAGCCCTTCACGATACAGCGTTTTAAAGCGTCCGGTGTTAGA -AGTGCCGTACTGTGCCAGTTCGATGTCCTGACCTTCTGCGATGTAGCATGGCATACTTAACGGCCACATCCGCTCATCGC -CCATATTGCGCGCCGTATAACGATGCAGATCGCGCATAAAGGTCAGCATATGTTCAATATCACCATCCACTGGTGTAATG -AATTCCAGCAATGCTTCCGCAAAATCGGTAGTAATCCATTTGTGCGTCAGTGCGGAACCTAATGCTTCAGGATGACCTGT -TGTTGCCAGTGTGCCATCAGCATTAACACGCAAAGTTTCGCGCTCCAGCCCACGCTGTATCCCCTTTAACGCCTGAGGAT -GTTTTTCCAGCCAGGCCAGCGCCTGTGATACGTCCGGGATCAAATTGACCTCCCGCCTGTCAAAATCGTTTTAATTAGCA -TAACTGTAATGGTGACCATATGTGCAGGCCTACAATTAGTGCCACCACATCATGCCCTGAACGGTCGCTGCTGCAACTGC -AACATAGCGTAACGCTTTACCAAGGCACAAAAAAAAGATTACCGGTCCCCACGAGATGCGCATCCATCCCGCTAACAGAC -ACAGTAAATCGCCAACCACGGGCATCCAGCTTAATAATAGCGTGACTGCACCATAGCGTTTCAGCCAGCCGGTAGCTTTC -TCTTGCCAGCGCGATGTTTTACGCAATGGAAAGAAACGCCCAAGGATAACGTTAGTTAACCCTCCAAGGCTATTACCCAT -TGTTGCTGTTAAAACTAAAACCCAGGGATGACTGATCCCGGAAAGCAACATTGCCACCAGCACGACTTCGGAGTTGCCGG -GTAATAGTGTAGCGCTGAGAAAACTACTGGCAAACAACGAGAAAAGCGATAACGCTTCACTCACAGCAAGCGAACATCCA -CGGCGTCCATGCCTGCTGCACGGGCCGCCTGAATACCGAAATCGGCATCTTCAAAGACCACACACTGCGTCGGTTGCACG -CCCATACGCTGCGCGCACAACAAAAATGTGTCTGGCGCGGGTTTATGGTGTTTGACGTGATCGGCAGCGACGACGGCGTC -AAAATAATGGCGTAATCCCAGGTGCGCCAGCAATGCCTCAGCGATGGCGCTTTCACTCCCCGTTCCTACAGCCATTGGGC -GACGACCATGCCAACTTTTCACCACATCAACAAGAGGAAGCGGTTCGACGCTATCCAGCAGCATACTTCTTACTGCTTCT -GTTTTTTCACGCGCTAACGCATGCGGGTCGAGATCGGCCTGATTCAGCTCAATAATTGCCTGAGCAATACGCCAGGTGGG -CGATCCATTAAGCGCAATCATCGCCTGAATATCGTACTGAAGACCGTAGTGCCCTAATACTTCGCGCCACGCTTTACGGT -GCGTAGGCTCCGTATCCAGGATTGTGCCATCCATATCAAAAATTAAACCTGCATAACGCTCGTACATGGTCTTCTCGCAA -GTCGAAAAATATGACGCTACTTTAGCGTAATTGCTTGATTTTGTCGCTGATGGCGAAGGAGAAGAAAATTCAGGAAATGG -ATAAAGGAGTTATTTAGAAATGAGATATTTTTGAAGGAAATTTTTTGGAGAAGATGGTGCATCCGGGAGGATGACTCACT -GACGTTCGCCCTTCGGGCCGTTGCTGGCGCAACGTTATCCTTCCTGGTGCCTGCGGTTAATACCGCTATCTCTTCGATAC -CTTCATTGCTGAAGGTTACGGAGAATATGGTGCATCCGGGAGGATTCGAACCTCCGACCGCTCGGTTCGTAGCCGAGTAC -TCTATCCAGCTGAACTACGGATGCATCGGGAAAACTTATTCTACTGCTGATATTGATACCGCTACTAAAGCCATATCAAT -TAAGAGATGGTGCATCCGGGAGGATTACTCGCCTTGCGGCTCGCCCTTCGGGCCGTTGCTAAAGCAACGTTATCATCCCT -AGTGCCTGCGGTTAATTCCGCTACCTCTTCGATACCTTCATTGCTGAAGATTTCGGAGAATATGGTGCATCCGGGAGGAT -TCGAACCTCCGACCGCTCGGTTCGTAGCCGAGTACTCTATCCAGCTGAGCTACGGATGCATCGGGAAATTTATTTTACTG -CTGATATTGATACCGCTACTAAAGCCATATCAAGTAAGAGATGGTGCATCCGGGAGGATTCGAACCTCCGACCGCTCGGT -TCGTAGCCGAGTACTCTATCCAGCTGAGCTACGGATGCATCGGGAAACTTACTTTACTGCAGATTTTTTGATACCGCTAC -TAAAGCCGTATCAAGTAAGAGATGGTGCATCCGGGAGGATTACTCGCCTTGCGGCTCGCCCTTCGGGCCGTTGCTAAAGC -AACGTTATCCTCCCTGGTGCCTGCGGTTATTACCGCCACCTCTTCCATACCTTCATCGCTGAAAGTACGTAGAATATGGT -GCATCCGGGAGGATTCGAACCTCCGACCGCTCGGTTCGTAGCCGAGTACTCTATCCAGCTGAGCTACGGATGCAAATGGC -GGTGAGGCGGGGATTCGAACCCCGGATGCAGCTTTTGACCGCATACTCCCTTAGCAGGGGAGCGCCTTCAGCCTCTCGGC -CACCTCACCACACGCCTCTTACGAGTGCTTCGAAGAACTTGTTTATCGCTCATCGTCGCTGCGTGGCGCACATATTACTT -TCTGAGACTTATAAGTCAAACAATTTTTCCTACACTTTTATCGTTTGCACACTTCACGTTCAATTAGTCTGTAAAAACGT -CAAAAAGAGTGTTTTATCAACAGAAGAATGGAGGTCTGACAGATAGTAGTAATGCAAAAAAATGGAGACTTAAGTTGAAT -GAACGGGAGTAAAGCGAAAAGACTATAGAGTGAAGGAGAAATTTTGAGGGTGCGTCTCACCGATAAAGATGAGACGCGGA -AAGATTAGTAACTGGACTGCTGGGATTTTTCAGCCTGGATACGCTGGTAGATCTCTTCACGGTGAACAGAAACTTCCTTC -GGGGCATTTACGCCAATACGTACCTGGTTGCCCTTTACCCCTAAAACTGTCACGGTGACCTCATCCCCAATCATGAGGGT -CTCACCAACTCGACGAGTCAGAATCAGCATTCTTTGCTCCTTGAAAGATTAAAAGAGTCGGGTCTCTCTGTATCCCGGCA -TTATCCATCATATAACGCCAAAAAGTAAGCAATGACAAACACATTACATCTAAGCAGTCATGGCATTACATTCTGTTAAA -CCTAAGTTTAGCCGATATACACAACTTCAACCTGACTTTATCGTTGTCGATAGCGTTAATGCGAATGCCGTGAAGCGAGT -CCACGGCATTGCCTGACGCTTATATTATTGCAATTTCGCGCTGACCCAGCCTTTCACACTGGCTAACGCTGCAGGTAAGG -CCGCAGCATCCGTACCACCGGCTTGCGCCATGTCAGGACGTCCACCACCCTTGCCGCCCACCTGCTGAGCGACCATACCA -ATCAGTTCCCCTGCTTTCACACGATCTGTGACGTCCTTAGATACGCCTGCAATCAGAGAAACCTTACCTTCGACTACCGT -TGCCAGCACGATAATTGTCGACCCCAGCTGATTTTTTAAATCGTCAACCATGGTACGCAACATTTTCGGCTCAACACCGC -TAAGCTCGCTAACCAACAGCTTAACACCATTAACATCAATTGCCTTACTGGAAAGATTTGCGCTCTCCTGTGCGGCAGCT -TGTTCTTTAAGCTGTTGTAACTCTTTTTCCAGCTGACGCGTACGTTCCAGTACTGAGCGCACTTTATCAGCCAGATTATT -GCTATCGCCTTTCAGCAGATGCGCGACTTCGCTTAAGCGATCGCTGTCTGCATGAACGGTGGCGATAGCACCTTCTCCGG -TTACCGCTTCGATACGACGAACGCCTGCAGCAGTACCCGATTCAGAGATGATGCGGAACAGACCAATATCACCAGTGCGG -CTGGCGTGAGTACCGCCACACAACTCGGTAGAGAAATCGCCCATGCTCAGCACGCGTACGCGCTCATCATACTTCTCGCC -GAACAGCGCCATCGCACCTTTCGCTTTCGCCGCTTCGAGATCCATGATGTTGGTTTCGATCGGCAAATTGCGACGAATCT -GTGTGTTCACCAGGTCTTCGACCGCACGAATCTCTTCTGGTTTCATCGCTTCGTTGTGTGAGAAGTCGAAGCGCAGCACC -TTGTCGTTAACCAGTGAACCTTTCTGCGATACATGAGTACCCAGAACCTGGCGCAGCGCAGCGTGCATCAGGTGCGTTGC -GGAGTGATTCAGACGAATACGGGCGCGACGAGCCTCATCAACATCAGCCTGCACCGCGTCGCCCACTTTCAGAGAACCCG -CAGCAAGTTTACCGATGTGACCAATCGCCTGGCCGTATTTCTGCGTATCTTCCACCGCAAAGGAGAAGTTAGCGCCTTTC -AGTTCGCCTTTATCGCCAACCTGACCGCCGGATTCCGCATAGAATGGCGTTTGATCCAGCACGACCACAGCTTCCTGGCC -TGCATTGATGGCATCAACCGCTTTACCATCAACAAACAGCGCAGTCACTTTGCCGTTCAGTTCCAGATGGTCATAGCCTT -TAAATTCAGATGCACTGTCAACACGGATCATTGCGTTGTAATCGGCACCAAAGCCGCTGGCTTCGCGCGCGCGACGACGC -TGCTCTTCCATTGCAGCTTCAAAACCAGCTTCGTCAACTTTGATGTTGCGCTCACGACAAACATCAGCCGTCAGGTCAAC -CGGGAAGCCATAGGTGTCGTACAGACGGAAAGCAGTTTCACCATCCAGCGTATCACCAGAAAGTTTTGCCAGCTCTTCAT -CCAGCAACGCCAGACCGCGCTCCAGAGTACGAGCAAACTGCTCTTCTTCAGTCTTCAGCACCTGCTCAACCTGCGCCTGC -TGGCGTTTCAGGTCTTCACCCGCAGAGCCCATAACGTCGATCAGCGGACCAACCAGTTTGTAGAAGAAGGTTTCTTTCGC -GCCGAGCATATTACCGTGACGCACTGCGCGACGAATGATACGACGCAGTACATAACCACGGTTTTCATTGGACGGCATTA -CGCCATCCGCGATCAGGAACGCACAAGAACGAATGTGGTCAGCGATTACGCGCAGCGATTTATTGCTCAGATCGGTTGCG -CCAGTGACTTTCGCTACCGCCTGGATCAGCGTGCGGAACAGGTCGATGTCATAGTTAGAGTTAACGTGTTGCAGCACCGC -AGCAATACGCTCCAGACCCATACCGGTATCTACAGACGGCTTCGGCAGCGGTTCCATCGTGCCATCGGCCTGGCGGTTGA -ACTGCATGAAGACGATGTTCCAGATCTCAATGTAGCGGTCGCCGTCTTCTTCCGGGCTTCCCGGAGGGCCCCCCCAAATG -TGGTCGCCGTGATCGTAGAAGATTTCGGTGCACGGGCCGCACGGACCAGTGTCACCCATCTGCCAGAAGTTGTCAGATGC -GTATGGCGCACCTTTGTTATCGCCGATGCGAATAATACGTTCGCGCGGGATCCCTACTTCTTTTTCCCAGATTTCGTAGG -CTTCGTCGTCGCTTTCATAGACGGTAACCCACAGACGCTCTTTCGGCAGGGCAAACCATTTTTCGCTGGTCAGCAGTTCC -CATGCAAACTGAATGGCATCGTGTTTGAAATAGTCGCCGAAGCTGAAGTTGCCCAGCATTTCGAAGAAGGTATGGTGACG -CGCGGTGTAACCGACGTTTTCCAGGTCGTTGTGTTTACCACCCGCACGCACGCAGCGTTGGGAAGTGGTAGCGCGGGAAT -AATTACGCTTGTCGAGCCCAAGGAACACATCCTTGAACTGGTTCATCCCGGCGTTGGTAAACAACAAAGTTGGGTCGTTA -TGGGGTACCAGGGAGCTGCTGGCAACTACCTGATGTCCCTTACTATGGAAAAAGTCGAGAAACGCCTGACGGATCTCAGC -GGTGCTCTTGCTCATAATTATCCTGAAATCAAGCTAACGAAATATCGCCACCAGCTCCAGCGTGTCTTAACCGCCGGGCT -GGTAACTGAAAAGTGGGAATAAGATAAGTTTTCTTGACTGGGAAGTAAAATACCGTATGCGTTCAGTCGGCAAAATTTCG -CCAAATCTCCTGGATATCTTCCATCAGATAGCCACGATAGAGCAGAAAACGCTGGATCTTAACTTTTTCTGAAAAGACAG -TTGGCAAAGGTTCGCCATATTTTCGCGTCGCCTGATCGCGCGCCAGTGCGCACCAGTCGATGTCACATTCACGCATCGCT -TTTTCTGTCGCTTCGCGGGAAATACCTTTCTGATTCAGTTCCTGGCGAATACGCGCAGGTCCATAACCTTTGCGGCTACG -GCTGGCGATAAAGCGCGCAACAAATCGGCTGTCATCGAGATAGCCATGTTCATGGCACCAGGCAATAACGCGCTCGTAAT -CTTCTGCCGTAGCATCAATCTCTTCTGGGCCATTTTTGCCCATAATCGGTGCCGCGAGTTTACGTCGCAGTTCTTGCTCA -CTGTGATCGCGCACCGCCAGAATGCGTACCGCACGATCCAACAGGCGAGCATATGCCGGGCGACGGGATGTTGATTCTGT -CATGGCATATCCTTACAACTTAAAAAAGCAAAAGGGCCGCAGATGCGACCCTTGTGTATCAAACAAGACGATTAAAAATC -TTCGTTAGTTTCTGCTACGCCTTCGCTATCATCTACAGAGAAATCCGGCGTTGAGTTCGGGTTGCTCAGCAGCAACTCAC -GTACTTTCTTCTCGATCTCTTTCGCGGTTTCCGGGTTATCTTTCAGCCAGGCAGTCGCATTCGCTTTACCCTGACCGATC -TTCTCACCTTTGTAGCTGTACCACGCGCCTGCTTTCTCGATCAGCTTCTCTTTTACGCCCAGGTCAACCAGTTCGCCGTA -GAAGTTGATACCTTCGCCGTAGAGGATCTGGAATTCAGCCTGTTTAAACGGCGCAGCGATTTTGTTCTTCACCACTTTCA -CGCGGGTTTCGCTACCCACCACGTTTTCGCCCTCTTTCACCGCGCCGATACGACGGATGTCGAGACGAACAGAGGCGTAG -AATTTCAGCGCGTTACCACCGGTAGTGGTTTCCGGGTTACCGAACATCACACCAATTTTCATACGGATCTGGTTGATGAA -GATCAGCAGCGTGTTGGACTGCTTCAGGTTACCCGCCAGCTTACGCATCGCCTGGCTCATCATACGTGCCGCAAGGCCCA -TGTGAGAGTCGTCGATTTCGCCTTCGATTTCCGCTTTCGGCGTCAGTGCCGCCACGGAGTCAACGACGATAACGTCTACT -GCGCCAGAACGCGCCAGGGCGTCACAGATTTCCAGTGCCTGCTCGCCGGTGTCCGGCTGGGAGCACAGCAGGTTGTCGAT -ATCGACGCCCAGTTTACGTGCGTAGATTGGGTCCAGCGCGTGTTCAGCATCGATAAACGCACAGGTTTTACCTTCACGCT -GCGCTGCGGCGATCACCTGCAGCGTCAGCGTGGTTTTACCGGAAGATTCCGGTCCGTAGATTTCGACGATACGGCCCATC -GGCAGACCACCTGCCCCAAGCGCGATATCCAGTGAAAGCGAACCGGTAGAGATGGTTTCCACATCCATGGAACGGTCTTC -ACCCAGGCGCATGATGGAGCCTTTACCAAATTGTTTCTCAATCTGGCCCAGTGCTGCCGCCAACGCTTTCTGTTTGTTTT -CGTCGATAGCCATTTTTACTCCTGTCATGCCGGGTAATACCGGATAGTCAATATGTTCTGTTGAAGCAATTATACTGTAT -GCTCATACAGTATCAAGTGTTTTGTAGAAATTGTTGCCACAAGGTCTGCAATGCATACGCAGTAGCCTGACGACGCACCG -CATCACGGTCGCCGCTGAAGCATTCCCGCCGGGTAATGCCTTCACCGCGGGCAGTGGCAAAAGCAAACCAGACGGTGCCG -ACAGGCTTCTCTTCACTGCCGCCATCCGGCCCGGCGATACCACTAATAGACACGGCATAATCAGCACGAGCCGCTTTCAG -TGCGCCTATCGCCATTTCCACCACGACGGGTTCACTCACCGCGCCATGCTGCGCCAGCGTCTCTTCGCGTACGCCGATCA -TCTGCGCTTTGGCTTCGTTACTGTAGGTGACAAATCCGCGTTCAAACCAGGCGGAGCTACCGGCAATATCGGTAATCACT -TTCGCTACCCAACCACCGGTACAAGACTCGGCAGTTGTTACGGTTGCGCCACGGGCTTTCAGCGCCTGCCCAACCTGTTC -ACTTAACTGCATCAGTTCACTGTCAGTCATCACAACCTCTGTCAGTCAAAAATTTATGCCGGACAAGATAGCACTTTCGT -CAGGAAGATGGTGTTGGCGTTGCAATTTTACGAGGAGGATTCAGAAAAAAGCTGATTAGCCAGAGGGAAGCTCACGCCCC -CCTCTTGTAAATAGCTACTGTACTCGCGCCAGCGCCACGGCTTGTCCTAACTGCCAGACCGCCATTGCGTAATGGGTGCT -GTGGTTGTAACGGGTGATGGTGTAGAAGTTCGGCAGACCGTACCAGTACTGGTAGCCGGTGCCAACATCCAGACGCAGCA -GGCTGGCTTGTTGATGGTTGCCCAGCGGCTGCTGTGGCGTTAAACCTGCGGCGGCAAGCTGCGAAATGCTGTACTTAGTT -TTGAAGCCATTTGGCAAGCCTGGAGCCTGACCGTTTGCCATTACCGCGACCTGATCGCCTTTCACCCAGCCGTGCGCTTT -GAAATAGTTCGCCACGCTACCGATCGCATCAACCGGATCCCACAGGTTGATATGCCCGTCGCCGCTGAAATCTACCGCAT -ATTGTTTGTAAGACGACGGCATAAACTGTCCGTAGCCCATCGCCCCGGCAAAGGAACCTTTCAGATTGAGCGGATCGTCC -TGCTCGTCGCGCGCCATCAACAGGAAGGTTTCCAGCTCGCCAGAGAAATACTCCGCGCGGCGTGGGTAGTTAAATGACAG -CGTTGCCAGCGCATCGAGGATGCGAGTTTTCCCCATCACGCGCCCCCAGCGGGTTTCAACGCCGATAATCCCGACGATAA -TTTCCGGCGGTACTCCATACACCTGCCACGCGCGATTCAACGCATCTTCATACTGATTCCAGAAAACCACACCGTTCTGC -ACGTTGTCCGGCGTAATAAATTTTTTGCGATAACGGAGCCATGCGCCGTTCGGACCTGATGGCGGTTTCACCGATGTGGT -TGGTGCCTGGTTATCCATCAGCCGCAGTACCGAATCCAGACGCTTCGCCTGGGAGAGAATTTCCTGCAACTGCTGACGAT -CGAAACCGTGTTTGTTCACCATTTTGTCGATGAACTGCTGGGCATTCGGGTTATTAGCGAAATCGCCGCCCATCTGCATC -ACATTGTGCTGCGGCTCAAGCAGGAAGCCGCCAGACGGCGTTCCGGTGGTCGTATCAGTCTCAGTAGGTTTTGGCTTGCT -GCTACAGGCGGCAAGCAACACAAAAAGGGGAAGCAATGTTACATAACGACGCTTGAACATGAGGGGTCCATTTAACAGAT -TCAACCAGGGGCAAGTATGGTAAAGCATCACGCCCCGCACAAGGAAGCGGTAGTCACTGCCCGATACGGACTTTACATAA -CTCAACTCATTCCCCTCGCTATCCTTTTATTCAAACTTTCAAATTAAAATATTTATCTTTCATTTTGCGATCAAAATAAC -ACTTTTAAATCTTTCAATCTGATTAGATTAGGTTGCCGTTTGGTAATAAAACAATAAATCCTGAAGGAGAGAACAATGAT -AGAAACCATTACTCATGGTGCAGAGTGGTTTATCGGGCTGTTCCAAAAGGGCGGAGAGGTGTTTACCGGGATGGTGACCG -GCATTCTTCCGCTGTTGATTAGCCTGCTGGTTATCATGAACGCACTGATTAATTTTATCGGTCAGCATCGTATTGAACGT -TTTGCTCAACGTTGCGCCGGTAACCCTGTTTCCCGTTACCTACTGTTACCGTGCATTGGCACGTTTGTCTTTTGCAATCC -GATGACCCTAAGCCTGGGTCGCTTTATGCCGGAAAAGTACAAACCCAGCTACTACGCGGCGGCCTCTTATAGCTGCCACT -CAATGAATGGCCTCTTCCCCCATATCAACCCTGGCGAACTGTTTGTTTATCTTGGCATTGCCAGCGGTCTGACAACGCTG -AACCTGCCACTTGGCCCACTGGCGGTGAGTTATCTGCTGGTTGGTCTGGTCACCAATTTCTTCCGCGGCTGGGTGACCGA -TCTGACCACCGCCATTTTTGAGAAAAAGATGGGCATTCAACTTGAACAAAAAGTTCACCTGGCAGGAGCAACATCATGAC -GCATATTCGGATCGAAAAAGGAACGGGTGGCTGGGGCGGCCCGCTTGAGCTGAAAGCCACGCCGGGAAAAAAAATCGTCT -ATATCACCGCCGGTACCCGGCCTGCGATTGTTGACAAACTGGCACAGCTTACTGGCTGGCAGGCTATTGACGGATTTAAA -GAAGGTGAACCCGCGGAGGCGGAAATTGGTGTCGCGGTAATCGACTGTGGCGGCACATTACGCTGCGGCATCTATCCGAA -ACGACGTATTCCCACCATTAATATCCACTCGACGGGCAAGTCCGGTCCGCTGGCGCAGTACATTGTGGAAGATATTTATG -TCTCTGGCGTAAAAGAAGAAAACATCACTGTAGTAGGTGATGCGACACCACAACCCTCTTCCGTGGGCCGTGACTATGAC -ACCAGTAAGAAAATCACCGAACAAAGCGATGGTTTACTGGCGAAGGTGGGAATGGGCATGGGGTCCACCGTTGCGGTGCT -GTTTCAATCTGGTCGTGACACCATCGACACTGTATTAAAAACCATTCTGCCGTTTATGGCATTCGTCTCGGCGCTCATTG -GCATCATTATGGCTTCTGGCCTTGGTGACTGGATTGCCCACGGTCTTGCTCCGCTGGCGAGCCATCCACTGGGTCTGGTC -ATGCTGGCGCTCATCTGTTCCTTCCCACTGCTTTCACCTTTCCTCGGCCCAGGCGCAGTTATCGCACAGGTTATCGGCGT -ATTGATTGGCGTGCAGATTGGTCTCGGCAATATTCCGCCGCATCTGGCTTTACCGGCACTGTTTGCCATCAACGCGCAGG -CGGCCTGCGACTTCATCCCGGTCGGTTTGTCGCTGGCGGAAGCCCGTCAGGACACGGTTCGCGTCGGTGTCCCTTCTGTA -CTGGTGAGCCGCTTTTTAACCGGCGCGCCGACTGTACTGATCGCCTGGTTTGTCTCCGGTTTTATCTATCAATAGAGGCT -GAAACATGACCGTTATTTATCAGACCACCATCACCCGTATCGGCGCGAGTGCCATTGACGCCCTCAGTGACCAGATGCTC -ATCACCTTTCGTGAAGGCGCGCCTGCGGACCTCGAAGAGTATTGCTTCATTCATTGCCACGGCGAGTTGAAAGGTGCACT -CCATCCCGGTTTGCAATTTTCACTCGGGCAGCATCGCTATCCGGTGACCGCTGTTGGCAGCGTGGCGGAAGACAACCTTC -GCGAACTGGGTCATGTCACCCTGCGCTTCGATGGTTTAAACGAAGCGGAATTTCCGGGCACTGTCCATGTGGCAGGCCCT -GTCCCCGACGATATCGCGCCGGGATCGGTTTTGAAGTTTGAATCTGTTAAGGAGTAAAAAATGAATCAGGTTGCCGTTGT -CATCGGTGGTGGGCAAACCTTAGGCGCGTTCCTGTGCCACGGTCTGGCTGCCGAGGGGTATCGCGTCGCGGTTGTCGATA -TTCAGAGCGACAAAGCCGCAAATGTGGCACAAGAAATTAACGCCGAATATGGTGAAAGTATGGCGTACGGTTTTGGTGCT -GACGCCACTAGCGAGCAAAGCGTTCTGGCGCTCTCTCGTGGGGTAGATGAAATCTTTGGTCGCGTGGATTTGCTGGTCTA -CAGCGCCGGAATAGCAAAAGCAGCCTTTATCAGCGACTTCCAGCTCGGCGATTTTGACCGTTCGCTACAGGTGAATCTGG -TGGGTTATTTCCTGTGTGCGCGTGAATTTTCGCGTTTGATGATCCGCGACGGGATTCAGGGGCGCATTATTCAGATCAAC -TCGAAATCCGGCAAAGTGGGCAGCAAACACAACTCTGGCTACAGCGCAGCGAAATTTGGTGGCGTCGGGCTGACTCAATC -ACTGGCGCTGGATCTGGCGGAGTACGGCATTACGGTGCATTCACTGATGCTCGGTAACCTGCTGAAATCGCCGATGTTCC -AGTCACTGTTGCCACAATACGCGACCAAGCTGGGTATCAAACCGGATCAAGTCGAGCAGTATTACATCGACAAAGTACCG -CTCAAACGCGGCTGCGATTATCAAGATGTGCTGAATATGCTGCTGTTCTACGCCAGTCCTAAGGCGTCGTACTGCACCGG -ACAGTCGATCAATGTCACCGGCGGTCAGGTGATGTTCTGATCAACAGCGGAGATCCATTAAGGATCTCCGTGAGACTATA -GAATGCCTGATGCGCTACGCTCATCAGGCATACAGGACTTCCGCCACTACATTAAGGAAAAGTTATGGTATCCGCACTCA -TCACCGTCGCCGTTATCGCCTGGTGTGCGCAACTGGCCTTAGGCGGCTGGCAAATTTCTCGTTTTAACCGTGCCTTCGAC -ACACTATGCCAGCAAGGGCGGGTTGGCGTGGGCCGTTCCAGCGGGCGCTTTAAACCGCGGGTCGTGGTCGCCATCGCGCT -GGACGATCAGCAGCGCATCGTCGACACCTTGTTTATGAAAGGACTGACCGTCTTCGCCCGACCGCAAAAAATTCCCGCAA -TTACCGGTATGCATGCGGGTGATTTACAGCCCGATGTGATCTTTCCCCATGATCCACTATCACAGAATGCTCTATCATTG -GCGCTTAAACTGAAACGTGGATAATTTCGTTGTGAATGTTACTTGCTTGCGAAGTTATCATTTTGAAACCTAAATCAGGT -AATCACGCCCATGAAACCTCGTCAGCGTCAGGCCGCCATTCTGGAGTATCTGCAAAAGCAGGGTAAATGCTCGGTTGAAG -AATTGGCGCAATACTTTGACACCACAGGCACAACCATTCGCAAAGATCTGGTCATTCTGGAACATGCCGGAACCGTCATT -CGTACTTATGGCGGAGTGGTGTTGAATAAAGAGGAATCCGATCCGCCTATCGATCATAAAACACTCATCAACACCCACAA -GAAAGAGCTGATTGCAGAAGCTGCCGTTAGTTTTATCCATGATGGCGATTCGATCATTCTTGATGCTGGCAGTACCGTTT -TGCAGATGGTTCCCCTGCTCTCGCGCTTTAATAACATCACGGTGATGACCAACAGCCTGCATATCGTCAATGCGCTATCC -GAACTGGATAACGAACAAACTATCCTGATGCCAGGCGGAACGTTTCGCAAAAAATCGGCCTCATTTCACGGGCAACTGGC -AGAGAATGCCTTCGAGCATTTCACCTTCGATAAATTGTTTATGGGCACCGACGGCATCGATCTCAATGCGGGCGTAACCA -CCTTTAACGAGGTTTATACCGTCAGTAAGGCAATGTGCAATGCCGCGCGCGAAGTGATTTTGATGGCGGACTCATCAAAG -TTTGGCCGTAAAAGCCCCAACGTAGTTTGCAGTCTTGAAAGCGTCGATAAGCTGATTACCGACGCAGGTATCGATCCGGC -GTTTCGTCAGGCGCTGGAAGAGAAAGGGATCGATGTGATCATAACCGGAGAGAGCAATGAGTGAAGCACTACTGAACGCG -GGACGTCAGACGTTAATGCTGGAGTTGCAGGAAGCAAGCCGTTTACCGGAACGTCTGGGCGATGATTTTGTTCGCGCCGC -CAATATCATCCTGCACTGTGAAGGCAAAGTGGTGGTTTCGGGAATTGGCAAATCGGGCCACATTGGTAAGAAAATCGCCG -CAACGCTTGCCAGTACCGGCACTCCGGCTTTTTTTGTCCATCCGGCAGAAGCGCTGCACGGCGATCTGGGGATGATCGAA -AGCCGCGATGTGATGCTGTTTATCTCTTACTCCGGTGGCGCGAAGGAACTGGATCTGATTATTCCGCGTCTGGAAGATAA -ATCTATCGCGCTGCTGGCGATGACCGGCAAACCGACGTCACCGCTGGGCCTGGCGGCAAAAGCGGTGCTGGATATCTCCG -TAGAACGCGAAGCCTGCCCGATGCACCTTGCGCCGACCTCCAGCACCGTCAATACCCTGATGATGGGTGACGCGCTGGCG -ATGGCGGTCATGCAGGCGCGCGGATTTAATGAAGAAGATTTTGCCCGCTCCCACCCAGCCGGGGCACTGGGCGCTCGCTT -GCTGAATAAAGTGCATCATCTGATGCGCCGTGACGATGCCATCCCACAGGTGGCGTTAACCGCCAGCGTGATGGATGCGA -TGCTGGAACTCAGCCGCACCGGTCTGGGGCTGGTGGCGGTATGTGACGCTCAACAACAGGTACAAGGCGTCTTTACCGAC -GGCGATTTACGTCGCTGGCTGGTTGGCGGCGGCGCACTCACCACGCCAGTCAATGAAGCGATGACGGTCGGCGGCACCAC -GTTGCAATCGCAAAGTCGCGCCATCGACGCCAAAGAGATCCTGATGAAGCGCAAAATCACTGCCGCACCGGTGGTGGATG -AAAACGGCAAACTCACCGGCGCAATAAACCTGCAGGATTTCTATCAGGCCGGGATTATTTAATCCTTCAATCCCAGACGT -TTCGCCAGCCGATGCAGGTTGGCGACGTCGGTTTCCAGCATCCGCGCGCAGGCAGCCCAGTTGTGATGATTTTGTGCCAG -TGCCTGACGAATAGTTTCACGCTGGAACGCTTCTGTCGCTTCACGCAGGTTTTGCTTAACAACGGGCACCGCCGCCACTT -CTGGCGTCGGCAACGTCACCTCAGGAAAAGCAAAATGTTGCGCCTCAAGAATCACTTCATCGCCGCTGCGGGTGGCTCTC -GCCAGAACTACCGCCCGATGAATAGCATGTTCCAGTTCGCGCACGTTTCCCGGAAAACTGTAGTGTTGCAGTAAATTTCG -CGCTCCGGCACTTAATACCACGCGGGAGAGCCCCTGCCGCAAACGACACTGCTCGCAGAAATACCCCGCCAGCAGAATGA -CATCATCGCCCCGCTCACGCAGCGGCGGCACCGAAAGTGGAAACACGCTCAGGCGATGAAACAAATCGGCGCGGAATCGC -CCTGCCAGCACCTCTTCGCGTAAATCGCGGTTAGTCGCCGCCAGCACGCGCACATCGACCCGCAAACAACGGTCATCGCC -AACGCGCTGAATATCGCCATACTGCAACACCCTCAGCAGCTTGGCCTGCAATGCCAACGACAACTCGCCGATCTCATCCA -GAAACAGCGTGCCGTTATCCGCCATTTCAAACTTCCCGCTGCGATTACTGATAGCGCCAGTAAACGCTCCTTTCACATGC -CCGAACAACTCACTTTCCGCCACACTTTCCGGCAGTGCAGCACAGTTGAGATAGACCAGCGGATTCACCGCCCGTGGCGA -GGCTTCATGAATCGCTTTCGCCACCAGCTCCTTACCGGTTCCAGTCTCACCGCTGATCAGGACGTTGAGATCGGACGCCG -CCACAATCTCAATCTCTTTTTTCAGTTGCGTCATGCCAGGGGACAAGCCAATCATCTGCGTCTGTTTCACCGCTTCAAAC -GGCGTGGCATCGCCTGGCAGCATATTCTGGCTTTCCAGTTGTTCAATCAGCAACGCATTGCTTAACGCTCCCGCCGCCAG -CGCAGCAATCAGCCGTAGCTCTTCGTCGCTGAAAACATCGAACTGATCGGGCTGCATCCCGTCGAGCGTCAGTGCGCCGA -TCAGGTTTTGCCCGGCAAACAATGGCAGACCAACGCAGGCGTGAACCTTCAGACTCTCCTGCCCAGGAATCAAACCGTCA -TAGGGATCGGGCAATTCGCTGTCTGCGGGAAAGCGCACCACATCCCCGGCGCGGGCAATCGCTTCCAGCCGTGGATGCCC -TTCCAGCGCAAAGCGTCTACCGAGTACATCCTTTGCCAGACCGTCGATGGCAAGCGGAATAAACTGCCGCGAATCGTAAC -GTAGCAACGCAGACGCATCGCACTCCAGCACCTGACGTAGCGTGGTGATCAGGCGCTGAAAACGATCCTGGTGACCAATC -CCACGCTGCAATTCGATGGCGATATTCGCCAGCACATCAACGGAAAAACTCATCTTTGCCTCACTGTCAATTTGACTATA -GATATTGTCATATCGACCATTTGATTGATAGTCATTTTGACTACTCATTAATGGGCATAATTTTATTTATAGAGTAAAAA -CAATCAGATAAAAAACTGGCACGCAATCTGCAATTAGCAAGACATCTTTTTAGAACACGCTGAATAAATTGAGGTTGCTA -TGTCTATTGTGGTGAAAAATAACATTCATTGGGTTGGTCAACGTGACTGGGAAGTGCGTGATTTTCACGGCACGGAATAT -AAAACGCTGCGCGGCAGCAGCTACAATAGCTACCTCATCCGCGAAGAAAAAAACGTGCTGATCGACACCGTCGACCATAA -ATTCAGCCGCGAATTTGTGCAGAACCTGCGTAATGAAATCGATCTGGCGGATATCGATTACATCGTGATTAACCATGCAG -AAGAGGACCACGCTGGGGCGCTGACCGAACTGATGGCACAAATTCCCGATACGCCGATCTACTGTACAGCCAACGCTATC -GACTCGATAAATGGTCATCACCATCATCCGGAGTGGAATTTTAATGTGGTGAAAACTGGCGACACGCTGGATATCGGCAA -CGGCAAACAGCTCATTTTTGTCGAAACACCAATGCTGCACTGGCCGGACAGCATGATGACTTACCTGACAGGCGACGCGG -TGCTGTTCAGTAACGATGCTTTCGGTCAACACTACTGCGACGAGCATCTGTTCAACGATGAAGTGGATCAGACGGAGCTT -TTCGAGCAGTGCCAGCGTTACTACGCCAATATCCTGACGCCGTTCAGCCGCCTGGTAACACCGAAAATTACCGAGATCCT -GGGCTTTAACTTACCAGTCGATATGATAGCCACTTCCCACGGCGTGGTATGGCGCGATAACCCGACGCAAATTGTCGAGC -TGTACCTGAAATGGGCGGCTGATTATCAGGAAGACAGAATCACCATTTTCTACGACACCATGTCGAATAACACCCGCATG -ATGGCTGACGCTATCGCCCAGGGGATTGCGGAAACCGACCCACGCGTGGCGGTGAAAATTTTCAACGTCGCCCGAAGCGA -TAAAAACGAAATCCTGACTAATGTCTTCCGCTCAAAAGGCGTGCTGGTCGGCACTTCGACGATGAATAACGTGATGATGC -CGAAAATCGCCGGGCTGGTGGAGGAGATGACTGGTTTACGCTTCCGTAACAAACGCGCCAGTGCTTTCGGCTCTCACGGC -TGGAGCGGCGGTGCGGTGGATCGTCTTTCCACGCGCCTGCAGGATGCGGGTTTCGAAATGTCGCTTAGCCTGAAAGCGAA -ATGGCGACCAGACCAGGACGCTCTGAAGTTATGCCGTGAACACGGTCGCGAAATCGCCCGTCAGTGGGCGCTCGCGCCGC -TGCCGCAGAGCACGGTGAATACGGTAGTTAAAGAAGAAACCTCTGCCACCACGACGGCTGACCTCGGCCCACGGATGCAG -TGCAGCGTCTGCCAGTGGATTTACGATCCGGCAAAAGGCGAGCCAATGCAGGACGTTGCGCCAGGAACGCCGTGGAGTGA -AGTCCCGGATAACTTCCTCTGCCCGGAATGCTCCCTCGGCAAAGACGTCTTTGAAGAACTGGCATCGGAGGCAAAATGAG -TAACGGCATTGTGATCATCGGTTCGGGCTTCGCCGCCCGCCAACTGGTGAAAAATATTCGCAAACAGGACGCCACTATTC -CATTAACCCTGATTGCCGCCGACAGCATGGATGAGTACAACAAACCTGACCTCAGCCATGTTATCAGTCAGGGGCAACGT -GCCGATGACCTTACCCGCCAGACGGCGGGTGAATTTGCCGAGCAGTTTAATCTGCACCTGTTTCCACAAACCTGGGTGAC -GGATATCGATGCCGAAGCCCGTGTGGTGAAAAGCCAGAATAATCAGTGGCAATACGACAAGCTAGTACTGGCAACCGGTG -CCAGTGCCTTTGTCCCGCCTGTGCCTGGGCGTGAGTTAATGCTGACGTTAAATAGTCAGCAAGAGTATCGCGCCTGTGAA -ACGCAACTGCGGGATGCCCGACGCGTGTTGATTGTTGGCGGTGGTTTGATTGGTAGCGAACTGGCGATGGATTTTTGTCG -TGCAGGCAAAGCGGTCACGCTAATCGACAACGCTGCCAGTATTCTGGCGTCGTTAATGCCACCGGAAGTAAGCAGCCGCT -TGCAGCATCGGTTGACGGAGATGGGCGTTCATCTGCTGTTGAAATCTCAGTTACAGGGGCTGGAAAAAACGGATTCTGGC -ATTCAGGCAACGCTGGACCGCCAGCGCAATATCGAAGTGGATGCGGTAATTGCCGCCACCGGACTGCGCCCGGAAACCGC -CCTGGCACGACGCGCCGGGCTGACGATTAATCGCGGCGTTTGCGTCGATAGTTATCTGCAAACCAGTAATACCGATATTT -ACGCGCTGGGCGATTGCGCGGAAATTAACGGTCAGGTATTGCCGTTCCTCCAGCCGATTCAACTTAGCGCGATGGTGCTG -GCAAAAAATCTTCTCGGCAATAACACGCCGCTGAAACTCCCGGCGATGCTGGTGAAAATCAAAACGCCGGAATTACCGCT -GCATCTGGCAGGCGAAACCCAGCGTCAGGATTTACGCTGGCAAATTAATACCGAACGCCAGGGAATGGTGGCGCGCGGCG -TTGACGATGCTGACCAGCTTCGCGCCTTTGTGGTCAGTGAGGATCGGATGAAAGAGGCATTTGGATTGTTGAAAACATTG -CCGATGTAGGTGGGCTACTGTGCCTAAAATGTCGGATGCGACGCTGGCGCGTCTTATCCGACCTACGGGGACGCATGTGT -AGGCCGGATAAGGCGTTTACGCCGCATCCGGCAATGGTGTCCAAATGCAACACGTTTTATCCGTTCTGGACTTCACCCGC -TAACCAACGCGCCGCAGCAATAACCCCCTGCCCCAGAGACAAACCGCCATCACCCGCCGGTAAACTCTGTGGAAAGAGCA -ATGTGAAATCAGCGAGATAATGCGCCAGACGTGCACGCAGCAAACGGTTATGAATAACCCCGCCGCTAAATACCAGCGTA -GTGATACCACGCATCGTGGCCTGCTCACGCATCAACGCGGCAAAACCCTGCGCCAGCGCATCATGAAACGCCCACGCGCG -TTGATTAACCGGTGCCTGCCAGTTCAGCCACTGCTGCCAGAAAGTGGCGAGATCCAGTTGATTGTCCACCCGCGGCATTG -TCACCGGATGCGTCACTCCGTGGCATGAGGCTGCGAGCGCCTCCAGAGCACAAGCCGCTTCACCTTCATAACTTAACGTG -GCTGGCGCACAGCCCAGTGCCGCCGCCACTGCATCGAAAAAACGCCCACACGATGACGCCAGCGGCGCGTTAATTCCACG -CTCAATGGCCCGCGCCAGCACGCTCCAGTTTTGCTGTTGCACACTTGCTGTTTCAGAGTAATTCTGCCACTCCGGCACAA -AGCGCAGGCACTGCGCCAGCAGGTTTCGCCACGGCTGCTTCGCTGCCAAATCGCCACCCGGAAGCGCCACTGCAGGCAAG -CCGCCCAGGTGCTCACATTCGCGATAGTTCACCCGCAGGCACTCGCCGCCCCACAAAGCGCCGTTCTCCCCCATACCGAT -ACCGTCGAGCGTCAAAGCAATGACATCACCGCCATCCAGCGGCCACTGATGCTCTGCCAGACACGCCGCTGCATGGGCAT -GATGATGCAGTACCGTTTGCGTCGGCAGATTCATTTCACGCGCCCACTGGCTGGAGACATAGCCCGGATGCGCGTCATGC -ACAACGTATTGCGGGGTAAAATCGTAGATGTTTTGCATCAGGCGTAACGCTTCGCGCCACTGCATCTGGATGCCATCGTC -ACTTAAATCGCCCAGATGCTGACTCAACACCGCTTGTTCACCGCGCACCAGGCAGAAGGTATTTTTCAGATCCGCGCCGA -GACACAGCACAGGCGGAACATTTTTAAAGCCCGGAGGCAAAGCCAGCGCATCCGGCACATACCCCCGCGAACGGCGCAGC -ATTTCGCCGCTTTCGCGCACCACCGAATCATCCATCCGCTGCACGATGTCGCGGTTATGTATCAAGAATCCGTCGGCAAT -GCCCTGCAAATCCGCCAGCGCCTGTTCGTTGCTGATAGCTGGTGGTTTACCGCTCAGGTTGCCGGAGGTCATCACCAGCG -GGCATTGCAGTTCCTGTAACAGCAAATGCTGGAGCGGGTTCGCAGGCAACATTACCCCGACTTCGTTAAGGTCAGGGGCG -ATATCATCACAAAGCTCAGGAACGTATTTTTTATCCACCAGCACAATCGGCGCGGCGGGCGTGGTAAGCAACTGGCGCGC -AGCGTCTGGTAAACCGTCAGCCACTGGCAACATGACCGCCAGCGGTTTCGCCGGGCGATGTTTGCGCGCCCGAAGTGTCG -CCACCGCGTTACTGTTACGTGCATCGCAGGCAAGATGAAATCCGCCAATCCCTTTGATGGCGACAATTTTGCCCATTTTT -AACTGTGCGATAGCTGCCTGTAATGCCGCCTCTTGTTCCGCATGTTCACCATGACTTACCCATTCAAGATGCGGGCCACA -CTCCGGGCAGGCCACCGGCTGGGCGTGGAAGCGACGATCGAGCGGGTCACGGTACTCTTTGTCACAGGCCGGACATAGCG -GAAACGCCGCCATCACGGTAAACGGGCGGTCGTAAGGCATGGCGCGAATAATGGTGAAACGCGGGCCGCAGTGGGTACAG -TTGATAAACGGATAACGATAACGCCGTTCGCCTGGGGTATTCATTTCGGCAAGGCAAGCAGGGCAAGTAGCGGCATCGGG -AACAATTTGCGTATTCATGGTGCCGCCTGTGCTCTGGCGTATAGTGAACTCGGTGGGCAGTTGTGACCAGATAAACGGCT -CACGCTCGACGCTATCAATACGCGCCAGCGGCGGGCAGTGCTGATACAATTGAACAAGAAACGTTTCCGGGTCTTCCCGC -AGCCGGACTTCTACGCCATCGCCGTCATTACAGACATCGCCGTGAAGATTTAATTGCTGTGCCAGCTGCCAGACAAACGG -ACGAAAACCGACGCCCTGCACTTTGCCACGAATACGCAGTTGGACACCGCAAGATGTGTTTTTTGCCATTGAGTTATTCC -CGCCATCATGAATTGCGTAACCCGCCCTGCCGGACACGACAGCGTCGCATCCGGCAGTCACAGGTCGGCGATACCGCCCG -CTCCGTATTCTACGAATATTTCCGGGAATTCCTTTGATGCCAGAACAGTTCTGTAAGATTTTTAGAACATCAGCGCCGTA -CGGCGGCGTTTTTCTGCGCTCAGTTGTTCAAGTTTATTACGATCGACACAAATCAGCGCATGAGTCGGGCAAGCCGCCAT -ACACGCCGGGCCGTCTTCACGATGGTTGCACAGGTCGCATTTATTGGCTTCGGCTTTGTCAGCCCGTACATTCAGACCCG -CGCCGCTGTTGCGGATCACCGGACGTACCACCACTTCCATCGCACCATACGGGCAAGCCACAACGCAGGTTTTGCAACCA -ATGCAACGTTCCTGCATCACATGAACAAACCCTTTATCACGGCTGATAGCACCATTCGGGCAGACGTTAGCGCACGGTGC -ATCTTCACACTGACGGCAAACTGTCGCCGTGGAAATGTTCACACCTTTAATGACATGGATACGCGGTAAAAAAGTTTCCG -GGGTCAGCGATGCACAGTCCTGATTTTCCTGATGAGAAACCACGCACGCTACTTCACAGGTACGGCAACCAATACATTTA -CTCGCGTCAGCAATGATGAAACGGTTCATCAAATTCTCCAGCAATGACAGTTAATGCGCCGATACATTCACAAATCATGC -CAGTTTTTAATTTACTGTTATTTAAGGAAATTAATTTCTGTAATGCAGGAAAAACGATGTCATCGACACTAGTGACGATG -ACATGTGATGACAATGTTTATCGCGAAGGAGCAATGAGTGAGTCGCGGCGGATCAGTTTTCCGCTGAAGGTTTTCGGCGG -TGAGAAATCCCCGCCATCGAGCATAAAAATCAGCCGTCCAATAATTTCCTGAATCATCTCAGTCACCGGAATTTTTACGC -TGGAGAGCGCCGGAACGGTGTAGGGGGCAATAGCGATATCATCGAATCCGATAACTGACACCTGCTCTGGCACCGCTACG -CCGCGCTCGTGTAACGCTTTCATCGCACCTATCGCCATATCGTCGTTACTGGCAACTAACGCGCTAAATTTAGCCCCACG -TTCGAGCAACATTTCTACCCCTTCGGCCCCGCTGGCAGGCGTCCATTTACCGTTAGCGATAAGTTTTTCATTGAGCGCAA -TACCATGCTGCGCCAGCGCGTCTTTATACCCGGCAAGACGTTCAATGCTGGTGGGGGAATCCATCGAGCCGGTAAGGAAA -GCAATCTCCTGATGCCCGGCGTTTATCAACTCTGCCACGGCGTTAAAACTGGTCTGTTTATGATCGCACCAGACGCTATG -GCTGCTGTTTTTGCGCAGGCGGCGATTAAGCACCATTATCGGCTGACTGTGCGCGTCAATGATGTCATCGATCTCATCCA -CGCTTAAAAAACGCGGGTAAATCATGATCGCGTCGCAGCGCAGATCCAGCAGATACTGAATCGCCTGGCGCTCTTCTTCT -GCGCTGTGTTTACCATCTGCCAATAGCAACTGCCGCCCTTTCTCTTCCGCCATTCGCGCGGCATGAAAGAGTAATTCACT -AAAATAAATGCCGTGGTAAAGCGTGTTGGTCACTACCAGCCCCAGCGTCTGAGTACTCTTCGCCGACAGATTGCGCGCCA -GCAAGTTTGGACGGTAACCGCTCTCTTCTACCGCCTGAAACACGCGATCTTTAGTCTCCTGGCTGACGTAGCCATTACCT -GAAAGCACGCGGGAAACGGTCGCTTTTGAAACCCCGGCGCGCTTCGCCACTTCCAGCATCGTCGTCATCATTTTCATCCC -TTTACACGCAATCAACGCAGTGTACTGCACCGTTTGCCGATTGTCCTTGCACAATCGGCGGGAAAAATATTCAGGTGACC -GGTTTCACAAATATAAAAAATGAACAATTCACTCTCTTGCTTATTTAGTGACAACTATTCATGATTTTGTGAAACCGGTT -TCTTAATTCCGTTTCAGCATCGGCATTTTTCCGTCACGTCGACTGATAACAACTACATCTACCCTACTGATAACAGGATA -AAATCCGATGGCCAAAAATTATGCGGCGCTGGCACGCTCGGTGATAGCGGCACTGGGCGGCGTTGATAACATCTCGGCGG -TCACGCACTGTATGACGCGGTTGCGCTTTGTTATCAAAGATGATGCACTTATCGACAGCCCGACGTTAAAAACCATCCCC -GGCGTGCTCGGCGTGGTACGTAGTGACAACCAGTGTCAGGTGATTATCGGCAATACCGTTTCACAAGCCTTTCAGGAAGT -CGTCAGCCTGCTGCCGGGAGATATGCAGCCCGCACAGCCCGTGGGTAAACCCAAACTCACGCTACGTCGCATTGGTGCGG -GGATCCTCGATGCGCTGATCGGCACCATGTCACCGCTGATCCCGGCGATTATCGGCGGATCGATGGTCAAACTGCTGGCA -ATGATCCTCGAGATGAGCGGCGTGCTGACAAAAGGATCGCCGACCTTAACCATTCTGAATGTGATTGGTGACGGTGCTTT -CTTCTTCCTGCCGCTGATGGTCGCGGCATCTGCCGCCATCAAATTTAAAACCAATATGTCGCTGGCGATTGCCATCGCGG -GTGTGCTGGTACATCCGAGTTTTATTGAACTGATGGCGAAAGCGGCCCAGGGTGAACATGTCGAATTTGCCCTGATTCCG -GTCACCGCGGTGAAATACACCTACACGGTGATCCCGGCGCTGGTGATGACCTGGTGCCTGTCATATATCGAACGCTGGGT -GGACAGCATTACACCGGCGGTGACCAAAAACTTCCTCAAACCAATGCTGATTGTGTTGATTGCCGCACCGCTGGCAATCC -TGCTGATTGGCCCGATTGGTATCTGGATCGGTAGCGCCATTTCGGCGCTGGTTTACACCATTCATGGTTATCTGGGCTGG -CTTTCAGTCGCCATTATGGGCGCGCTGTGGCCTCTGCTGGTAATGACCGGGATGCACCGCGTCTTTACGCCAACCATCAT -TCAGACCATTGCCGAAACCGGCAAAGAAGGGATGGTCATGCCGTCAGAGATCGGCGCTAACCTGTCGCTGGGCGGTTCAT -CACTGGCAGTGGCGTGGAAAACGAAAAACCCGGAACTGCGTCAGACGGCGCTGGCTGCGGCGGCATCAGCCATTATGGCG -GGGATTTCCGAACCGGCGTTATATGGCGTGGCGATCCGCCTGAAACGTCCGCTTATCGCCAGTCTTATCAGCGGTTTTAT -TTGCGGCGCGGTTGCCGGTATGGCGGGGCTTGCCAGCCACTCAATGGCAGCGCCGGGGCTATTTACCAGCGTGCAGTTCT -TCGATCCGGCGAATCCAATGAGCATCGTCTGGGTGTTCGCGGTCATGGCGCTGGCGGTGGTGCTGTCGTTTATCCTCACA -CTGTTGCTCGGCTTTGAGGATATTCCTGTTGAGGAAGCGGCTGCCCAGGCGCGAAAGTATCAGAGCGTACAACCGACCGT -CGCCAAAGAAGTAAGTCTTAATTGAGGATGAAAATGTCAGTATTTCCAGAAAGTTTTTTATGGGGCGGCGCGCTTGCCGC -CAACCAGTCTGAAGGTGCGTTCCGTGAAGGTGACAAAGGTCTGACCACTGTCGATATGATCCCACACGGCGAGCATCGAA -TGGCGGTGAAACTGGGGCTGGAAAAACGTTTTCAGTTGCGAGATGACGAGTTTTATCCCAGCCATGAGGCGACGGATTTT -TATCATCGTTATAAAGAAGATATCGCCCTGATGGCAGAGATGGGATTCAAGGTTTTCCGTACCTCAATTGCCTGGAGCCG -TCTCTTTCCGCAGGGCGATGAAATCACGCCCAATCAGCAGGGCATTGCTTTTTATCGTTCTGTCTTTGAAGAGTGTAAAA -AGTACGGTATCGAACCGCTGGTCACGTTGTGCCACTTCGATGTGCCGATGCATCTGGTCACCGAATATGGCTCCTGGCGT -AACCGCAAGCTGGTGGAGTTTTTCAGCCGCTACGCCAGAACCTGCTTTGAAGCATTTGATGGTCTGGTGAAATACTGGCT -AACCTTCAATGAAATCAACATTATGTTGCATAGCCCGTTCTCCGGCGCGGGTCTGGTGTTTGAAGAAGGTGAAAATCAGG -ATCAGGTGAAATATCAGGCCGCGCATCACCAGCTGGTTGCCAGTGCGCTAGCCACCAAAATCGCCCATGAGGTTAACCCG -CAAAATCAGGTGGGCTGTATGCTGGCGGGCGGTAACTTCTACCCTTACAGTTGCAAGCCGGAAGATGTCTGGGCGGCGCT -GGAGAAAGACCGGGAAAACCTGTTTTTTATCGATGTGCAGGCGCGGGGCACGTATCCGGCTTACTCTGCCCGCGTATTCC -GCGAAAAAGGGGTAACCATCAACAAAGCACCGGGCGATGATGAAATCCTGAAAAACACCGTCGATTTTGTCTCTTTCAGC -TATTACGCCTCGCGCTGCGCCTCGGCGGAGATGAACGCCAACAACAGCAGTGCGGCGAACGTGGTGAAATCGCTGCGTAA -TCCGTATCTACAGGTGAGCGACTGGGGCTGGGGAATTGATCCACTCGGTCTGCGTATCACCATGAATATGATGTACGATC -GTTATCAGAAGCCGCTGTTTCTGGTGGAAAACGGCCTGGGCGCAAAAGATGAATTTGCTGCCAATGGCGAGATTAACGAC -GACTATCGCATCAGCTACTTACGCGAACATATCCGCGCAATGGGCGAAGCGATTGCAGACGGCATTCCGCTGATGGGCTA -CACCACATGGGGCTGTATTGATTTAGTTTCCGCCTCTACGGGTGAAATGAGCAAACGCTACGGCTTTGTCTTTGTTGACC -GTGACGACGCAGGCAACGGTACGCTGACGCGCACGCGTAAGAAATCATTCTGGTGGTATAAAAAAGTGATTGCCAGTAAT -GGGGAAGATTTAGAGTAGGTAACAGTGCCGGATGCGGCGTGAACGCCTTATCCGGCCTACATGTCGCACGAACCATGAAG -GCCCGATAAGCGCAGCGCATCGGGCAATTTAGCATTTGGCATCAGAGCTGGTTCACCCCATCAAGAACATCCCTGTCCTG -ATTCCTTAATGAAAAACTACTCTTCTTCCACCGCTAACTGCGCGAAGCCGCCATTTCCTTCCCAGCCTTCCAGTCGTTGA -TAAACGGTTTCTACCGCATCTTTAATCGGCTGGGTCATCGGGTAGTAAAAGCCGACGATATCCGGCTGAATGCCGAGGAA -AATCACTTCGCCAATATCTTCTTTCAACTGGTCGATAAGGTAATTCAACGGCATGTTATGGGTAGTCATCATAAACATCT -CGGCGATATCATCCGGGTCGATGATGCGGATCTCGCCGGGGTTTAGCCCCATATCCGTGGCGTCGACAATCAGCAGTCGT -GTCGGGCGCAGTTCACGGATAGCGACGATGTCGTTTTCCGGTGCGCTACCGCCGTCAATCACCACCCAGTTACCTTTCGG -CGCGGCGGCGCACTTTTCCGCCAGCAGCGGACCTGCGCCATCATCGCCCATCATGCTATTGCCAACACAGAGTAAAACGT -CAGTCACGCAGTCTCCTCACCATCAAATAGATGGCGTTTTCCTGATGAATATCATGCAGCATACTTAACAGCATTGTACT -CCATTCCTGCTGCTGCGAAGTTTGCGCTGCCCGGGCTTTATCGAATGCGTTGGCCAGCATCGGCACATGGTTAATGTCGA -TGACGATCTCACCATATTTCGGCACGCCTTCCATTTTGCGGCGGGCTTCACTGCCTGCCTCCAGAGTGGCAATCCATGCC -AGATATTCATCCCACGGGCAGGTGAGCGCCGCTTCCAGGCAATCGATAACCCCAAGGTGGTGACCAATCGCCAGGCTGTA -ATAGACCACCTGCTGCGCCTCGGCGGGCGTGGCATCGTTCTCATCAATAAATTTACGGCTCAGTTGACTGAACACCACCT -TTTCACTCATCGGATACGCGCCTCTTCAACAACATGATTCAGATGGCTGACAATCTCGTTCAGACGCGGATCGTTTTCCG -CTTCCAGCCAGCGTGCAACCTGTTCTTCGCCCTGCCCTAACTGTGTAAGGTAATCATCGGCAATCTGACGACCGTAACGA -TAACCCGCCAGGCGACGTGCTTCGCGATCCACTTTCACGCGCAGCGGCTGCACCATATCACCATGCAGGATCTCCGCCGG -TTGTTCATCCAGTTCACCCGGCCCACGGGCGTGAATTTTCTGCTCCAGCAGGCCGAGCGCCATTGCAAAGCCGTACAGCG -TGGCGGCAGGCGTTGGCGGGCAGCCAGGGATATAAACATCCACAGGGACAATTTTATCCGTACCGCCCCACACGCAGTAG -AGATCGTGGAAGATCCCGCCACTGTTACCGCAGGCACCGTAGGAGATACAAATTTTCGGGTCCGGCGCGGACTGCCACGC -ACGCAGCGCAGGGGATCGCATTGCACGGGTGACCGCGCCGGTAAACAGTAAAATATCCGCATGACGCGGTGAAGGAACGA -CTTTAATGCCGAAGCGTTCTGCATCAAACAGCGGCGAAAGCGTGGCGAAAATTTCGATTTCGCAACCGTTGCAGCCGCCG -CAGTCCACGCGGTAAACATAGGCAGAACGTTTGATTTTTTTCAGTAACGACGCCTTCATGCTGGCGATGGATTCATCCAC -CGTCATGGGGACCGGAATGCCGTTGGCGTCACGGGGGCCTAATAAATTGCTCATCAGATGGCCTCTTTCATATGGCGAGT -CAGTTCAATACGGTCGGACGGCACCAGGCATTTCTGGCGCTTACATTCCGGGCAAGTCTCAAAGCTTTCGCGGTGGTTTT -CCGCGCGGCTGTCGCCGTTGTGCTTAAGCAGCGCAATGGCGTAGTCGATCTCTTTCTGGACGGCGAAAGGACGATTGCAG -ACGCGGCAGTTGCACAGCGCGAAGCGGGACTGTTGCAGGAAGTCTTCTTTCTTCCACACCGCCAGTTCGTACTCTTGCGA -CAGTTTGATCGCCGCCGTCGGGCAGACTTCTTCGCAGCGTCCACAGAAGATGCAGTGCCCAAGATTAAACTCCCAGGCAA -GCTCTCCTGTGGCGAGGTCAGTTTCAACCGTTAAGGCGTTTGACGGGCAGGCATTGACGCAGGCCGCGCAGCCGATGCAC -TGCTGCGGGTTCTGCTCTGGCTTACCACGGAAGTTTTTATCAACCGCAATCGGCTCCAGCGGATAAGACGAGGTCGCCGT -GCCGGTTTTGATGACTTTTTTGATAAAGGTAAACATGGCGATTCCTTATTTCAGCGGCGAGTTTTTACGCTCAATGCTGT -AACGCTCGAGTTCTTTGTACGGCACCACTTTGCTCTTCTTCTTACGCACATCGACCACGGTCATGCGGTCGGTACAGGAG -TAGCAAGGGTCGAGGCTACCGATAATCAGCGGCGCATCGGAAACGGTGTTGCCGCGCAGCATGTAGCGCAGGGTCGGCCA -GTTCGCGTAGGTCGCGGCACGGCAGCGCCAGCGGTACAGCTTCTGGTTGTCGCCGGTCATGCTCCAGTGGATATCATCGC -CGCGCGGCGCTTCGGCAAAGCCCAGCGCAAAGCGGTGCGGAATGTAGGTAAAGCCTTCCACCATCAGTGGGCCACCCGGC -AGGTTATCCAGACCGTAGTCGATCATGTTCAGCGCGGTATAGACTTCGTTGATACGCACTTTCAGACGGGAAATAACGTC -GCAGCCCTGCTCGCTGTGGACTTCCATTGGCAGCAGGCCATAGCCGACAAACGGGTGATCGGCGCGGGTATCACGGGCGT -GACCGCTGGCACGGACCATCGGGCCGACGTTACTGAAGTCGCGAGCGATTTCCGGGTCCAGACGACCAATGCCGACAGTG -CGCTGTTCCATGTTCGGAGTGCTCAGCAGCACATCCACCAGCTCCTGCACTTCACGACGCATCTGTTGTGCCAGCTGGCG -GGTCTGGATCATGTCGTCTTTCAGCAGATCGCGACGAATCCCGCCGATCAAGTTCAGGCCGTAGGTTTTACGCGCACCGG -TAAGGATCTCTGCCATTTTCATGGAGGTTTCACGCACGCGGAAGAACTGCATAAAGCCGGAGTCGAAGCCGGTAAAGTGA -CAGGCCAGGCCAAGGTTGAGCAGATGCGAGTGCAAGCGTTCTACCTCCAGCAGAATGGCGCGGATCATCTGCGCACGTTC -TGGCACCTGAATACCCATCGCGTTTTCCACCGACGTGGTGTAGGCGGTGCTGTGGGCAAAGCCGCAGATCCCGCACACAC -GGTCAGAGAGGAAGGTCACTTCGTTATAACCCATACGGGTTTCCGCCAGTTTTTCCATGCCGCGATGGACGTAGAACAGA -CGGTAGTCGGCGTCGATAATGTTTTCGCCATCGACGAACAGACGGAAGTGGCCCGGTTCATCAGAAGTGACGTGCAGCGG -ACCAATCGGCACGACGTTGTTTTTCTTGTCGCCCAGTTCGTTGATGAACTCGTAGGTTTCAGCATCGGTGGTCGGTGCCG -GACGCTGACGATAATCCATGCTGTCTTTACGCAGCGGATAAAGTTCATCCGGCCAGTCATCCGGCAGCACCAGACGACGT -TCATCCGGCAGACCAACCGGAATCAAACCGTACATATCGCGCACTTCACGCTCGCCCCACACCGCCGCCGGAACGCGCGG -CGTCACGGACGGATATTCCGGTTTGTTGGCGTCAACTTCGACGCGAACCGTAATCCAACACTTAGTGCCCTTCTCCATCG -ACAGCACGTAGTAAACGGCGTAATGACCATTCAGTTTGCGTTCGTCGTTACCAAACAGCACCGACAGCCAGCCACCCTGT -TTGTAGTAAAGAAACTCCACCACTTCCGGCAGGTAGTTCACCTTTACGGTGACAGTCAGCTGATCTTTGGTCTGCCAGGC -GTGGTCCAGCACGACGCCCGGAAATGCCTCATTCAGCGCGGCGAGATAATGTTGACCTAATTTTTCTTCAGACATGCTCA -AACTCTCTTTAATCACGCCGCCAGCAAGGAGACGAACGCTAAAAATGCAAAGCCAAACCCAGCCCAGGTAATGCGCGGAG -TAATATCAAGACGCAGACGGGCCATGCTGTTTTCGAACAGCGCGATAACCAGGACGCCGACCACCAGTTTTACGATGGCA -ATCACCAGCGCCAGCAGCAGTCCACCGGCGGTGAAGGTTTCCATTTGTCCCCACGGAATAAACACCCCGACGAACATCTG -CAACACCACCAGCTGTTTCAGGCTGATACCCCATTTCATGACGCCAAAGCCGCTGCCGCTGTATTCAGAGAGCGGGCCTT -CCTGCAGCTCCTGCTCGGCTTCCGCCAGGTCGAACGGCAGTTTGCCCATTTCGATAAAGGTGGCGAACGCACAGGCACAA -AGCGCCAGTACCAGCGGGATGCTCTGGCTCAGCGGCCAGTGATAAACGGTGTCGGTGATGTTGCTGATGTTGGTGGAACC -GGCAACCTGTGCGGCAACCCACAGACCAAGCAGCAGCATCGGTTCGACCAGCACGCCAAGCATCGCTTCACGGCTCGCGC -CGATAGCGGTAAACGGGCTACCGGTATCCAGACCAGAAATGGCAAAGAAGAAACGCGCGATGGCAAAGAGATACAGTAAG -GTGATCAAATCACCCAGTTGCGGCAGCGGAGAACCGACGGTCACCACCGGCAGCGCAGTAGCGATAGTCAGCATGACGCC -CACCATCACATACGGCGTCAGGCGGAACACCCAGCCGGAGGCATCCGGGCCGACGCTCTGACGCCCCAGCAGTTTGATAA -TGTCGCGATACTCCTGCAACACGCCCGGCCCGCGACGGTTATGCAAGCGGGCGCGCGCCACGCGGGTTATACCGGAGAGC -AGCGGCGCAACGGCAAATAACACCAGCGCCTGAATTAACGGATATAAAACACTCATTCTCAGGCTCCTCGTGAAACAATA -ATCACCACCAGTACCGCCAGTTCAACCAGCGCCATCCGGCGGAACAGCAACGCACTCCCCTCGCACTGCCAGCCCGGCAC -CAGAGACACCGGATTCAGCCATTTGCGTAGTTTCAGCACCGGCGCAAACGCCTGTTTCACCGGCATGGCAAAACCGTGAG -CGGTAATCACCATTGATTTTTCGTGGTCGTAACCGCACACCCAGGCCGCACCGCGGGAACGCGATGGCAAACGATCGCCT -TTGCAAATCGCCATAATGATGAATGGCAGCAGCGGGCAGGCAATCAGCAGCAACGTGATCATCGGTTGAGAAACGGTGGT -GTTAGCAGGCTCCAGCGGCAGAGGTACAGCAGCAGAGAGCATCGGCAGTAGCCACGGCGCAGCAACACCGCCAATTACGC -AGCAAATCGCCAGTGCCACTACGCTTACGCTCATCAGGAGCGGCGCACAGGTGGCGTTTTCGGCTTCTTTGGTGCGCGGC -GCGCCGAGGAACGTGACGCCATAGACTTTCGCCATACACATCACCGCCAGCGCACCGGTAATTGCCAGCCCCACAGCGAG -CAGCGGCCCCAGCAGACGGGCAACAAACGCGCCACTATTGCTCAGTTTGAAAAATGATTGATAGATAACCCATTCCCCGG -CAAAACCATTCAGCGGCGGCAGCGCAGCCATTGCCATCAGCCCGACTAACATGGCGATGGAGATAACCGGCATTTTCTTG -CCAATACCACCGAGTTTTTCGATATCGCGATGACCGGTACGGAACCAGACGCTCCCCGCCCCGAGGAACAGTACGCTTTT -GAACAGGCTATGGTTAAGCAGATGGTACAGACCACCGACCAGGCCAAGAGCAATCAGCGCCGGTTGTTCGAGCGCGATAC -CCGTTACGCCAGCGCCCAGCCCCAGCAGGATGATGCCGATATTTTCCAGGGTGTGGTAAGCCAGCAGGCGCTGGATGTTG -TGCTCCACCAGCGCATACAGACCACCGACAAACGCGGTGATCATGCCGAGCACCAGCAGCGCGATCCCCCACCACAGCGG -TGCATTACCGCCCAGCAGTGACAGGGTTAAAATGCCCAGCAGGCCAATTTTCATGACTACCGTAGAAAACAACGCGGCAG -CTGGCGCAGAGGCGTTCGCATGTGCCTGCGGCACCCAGCCGTGCAGCGGAATAATCCCGGCCAGCAGGCCAAAGCCAATC -ACTCCGAGCAGCCAGATATCGGAACCGAGCGGCAGCTGTTGCATACGCATATCCAGCAGGCGCAGATCCAGCGTGCCGTA -ACGCTGCCACAGCAGCCAGCAAGCAATCGCCAGCAGCAGAGTGCCAAGACGCCCCAGCGCAAACCACAGTTTGCCCTCTT -TGCTGTTGCTGGTGAGGAACACCGCGCACAGGGCCATGATTTCGGCCATTACCACGAACATGCCGAGGTTGCTGGCAATG -ACGGCGCAGACGGCGGCAGCCATCAACATATTGATCTGCAAGCCGTTGCACTTCACCTGCGCGTGGCGATGCCAGTCAAT -GTTGTAGAGGCTGACAAACAGACCGCACAGACCGAGCGTAATCAGCCAAATCGCGTTAAGCGGAGAGATTTGCACATCGT -AGCTTACCAGCGACAGCGCACCGCTCACGCCAACCGCGCCAGTCAGTACAGTGAAGCCCGCGGCTGCCGTATACAGACTA -CCAACCGCGCCGCCAATTCCAGCTATCCAGCCACTTAACGCTTTTTGAAAAGAAAAGAGAAATGCCAGAACAGCGGCGGC -GACAAACCACGCCACGCCGCTATTGATCAGGGAAATTGCGCTCATTTAGCCTCTCCACTTTGAGCCTGCTGAAACAAGGT -GAGATCGCCAAAGTCCGTGTTAAAGGTCAGCTCACGCTTACGTTTGCTGACGCGGGCGATATCGGTGTTATCCACCAGAT -GCAGGGCTTTAGTCGGGCACATCCGCACGCAGGCCGGACCTTGTTCATCAAAGCTACAAAGGTCACATTTGACGGCGATC -GCGCGAATACCTGGCACCCAGTCAAGCAATGTGCTGACACGCGCCGGAGCAGGCGGTGCCGGTGGCGCTTTCGGGGTATT -GGCGTTTGCCGGAATATCCAGCGGACGGCTGCCGGAAAATTCAATTGCGCCAAACGGGCAGGCGATGCCGCACAGCTTGC -AGCTTACGCACAGGCTTTCATTCAACTGCACGGCCCCATCGACGCGGGTGATGGCGTTAACCGGGCAGACCACCGCGCAG -GGTGCATCTTCACAGTGGTGACAGAGCTGCGGCGCAGATTCTTTTTCATTCAGCATCACTCTCAGGCGCGGCATTGATTG -CAGGCCGTGCTGGCGATGCGTCTCTGAACAGGCGGCCTCACAAGTGTGGCAGCCGATACAGAGCGTGGAGTCAGCAATTA -CAAAACGATTCACCAGGCATTCCTCAGGTGATTGTCATTTTTGACGAAAACATGCCGATGAAATGTCATTTTCGACACTC -ATCGACACGCCCATCCCCAAACAGGCGTAACGCCTGCAAAACGGGCAAAGCCTCAGCTCATGCTGCCGGGCTTTGTCCCT -TTACCAGTTGGCTTAAATTCACCGGCACATTGTTTTCAATAGCGGTGTATAAGCTGTCGTAAACGCCAGCGATTTTTTCG -AGATAGTGTTCCAGAACCTGTTCGCGATCGCGGATGTTGACCTTGCCATCAATCATGCCGTCAATGCTCAGTTGCGCCTG -CGCAATCCGCTGTTTGTCTTCGCCATCTTTTGTTTCGACGTAATACTCGATGGTGTGGCTGTTAAAGCCATCCGCCAGGG -TGACGTAAATGCGAAAATGTTCAAAAAGGACGAAACAGAGTTCTTTGTCCGGCGCGCAGCTCATGGCGTGATGCAGGCGC -GCTTTCGATAACGTGATCCCCTGAACCAGCGAATTGCAGTAGATGTGCCACTGGTCCTGTAGGCGACGATGCCGCTGTGC -GATGTAATCGGCTTTCTCGCTTATTTCCCAAATAGTCATTGTCAGGTTACCCGTTTAACAGAGATGCCAGCTTTAAGCAT -TTTTTGTGCCAACTTTTAATTTATTGTTATTAAAGAGATTTTTAAGCTAAAGATGAATTTCGTCGCCGTGTCGACGTGTC -ATTTCGACATCATCGACATTATTCACCGCAGGGATAATCAACACTGGCACAATTATTGCTTGTAGCTGGCAATAGTTAAT -GGGAGGCGATATGCACGAAATAACCCTCTGCCAACGGGCACTGGAATTGATCGAACAGCAGGCCGCAAAACACGGCGCAA -AACGCGTAACTGGGGTCTGGCTCAAAATTGGCGCATTTTCTTGTGTCGAAACCAGCTCTCTTGCCTTTTGTTTTGATCTG -GTTTGCCGCGGCAGCGTGGCGGAAGGTTGTAAACTGCACCTCGAAGAACAAGAGGCCGAATGCTGGTGTGAAACATGCCA -ACAGTATGTGACGCTACTGACCCAGCGCGTCCGCCGCTGTCCACAGTGTCATGGTGACATGCTGCAGATTGTGGCAGACG -ACGGTTTACAGATTCGGCGGATAGAAATAGACCAGGAGTGAGCGATGTGTACAACATGCGGTTGCGGTGAAGGCAACCTG -TATATCGAGGGTGATGAACATAACCCTCATTCCGCGTTTCGTAGCGCGCCATTTGCCCCGGCGGCACGCCCGAAGATGAA -AATCACCGGCATTAAAGCGCCTGAATTTACCCCCAGCCAGACTGAAGAAGGCGACCTGCATTACGGTCATGGCGAAGCGG -GCACTCACGCACCGGGCATGAGCCAGCGTCGGATGCTGGAAGTCGAAATTGACGTGCTGGACAAAAATAACCGTCTGGCT -GAACGCAACCGCGCGCGCTTTGCTGCCCGCAAGCAACTGGTGCTCAACCTGGTTTCCAGCCCTGGTTCCGGTAAAACCAC -CCTGCTGACGGAAACCCTAATGCGCCTGAAAGACAGCGTTCCGTGCGCAGTTATTGAAGGCGACCAGCAAACCGTGAACG -ATGCCGCACGCATTCGCGCTACCGGCACACCAGCGATTCAGGTGAACACCGGTAAAGGCTGCCATCTTGACGCACAGATG -ATTGCCGACGCCGCACCGCGTCTGCCACTGGACGATAACGGTATTCTGTTTATCGAAAACGTTGGCAACCTCGTATGCCC -GGCCAGCTTCGATCTCGGTGAAAAACACAAAGTGGCGGTGCTTTCCGTTACCGAAGGTGAAGACAAACCACTGAAATATC -CGCATATGTTTGCCGCCGCCTCGCTGATGCTGCTCAACAAAGTTGACCTGTTGCCGTATCTCAACTTTGACGTTGAAAAG -TGCATCGCCTGCGCCCGCGAAGTCAATCCAGAAATTGAAATCATCCTTATTTCCGCCACCAGCGGCGAAGGGATGGACCA -GTGGCTGAACTGGCTGGAGACACAGCGATGTGCATAGGCGTTCCCGGCCAGATCCGCACCATTGACGGCAACCAGGCGAA -AGTCGACGTCTGCGGCATTCAGCGCGATGTCGATTTAACGTTAGTCGGCAGCTGCGATGAAAACGGTCAGCCGCGCGTGG -GCCAGTGGGTACTGGTACACGTTGGCTTTGCCATGAGCGTAATTAATGAAGCCGAAGCACGCGACACTCTCGACGCCTTA -CAAAACATGTTTGACGTTGAGCCGGATGTCGGCGCGCTGTTGTATGGCGAGGAAAAATAATGCGTTTTGTTGATGAATAT -CGCGCGCCGGAACAGGTGATGCAGTTAATTGAGCATCTGCGCGAACGTGCTTCACATCTCTCTTACACCGCCGAACGCCC -TCTGCGGATTATGGAAGTGTGTGGCGGTCATACCCACGCTATCTTTAAATTCGGCCTCGACCAGTTACTGCCGGAAAACG -TTGAGTTTATCCACGGTCCGGGGTGCCCGGTGTGCGTACTGCCGATGGGTAGAATCGACACCTGCGTGGAGATTGCCAGC -CATCCGGAAGTCATCTTCTGTACCTTTGGCGACGCCATGCGCGTGCCGGGGAAACAGGGATCGCTGTTGCAGGCAAAAGC -ACGCGGTGCCGATGTGCGCATCGTTTACTCGCCGATGGATGCGTTGAAACTGGCGCAGGAGAATCCAACCCGCAAAGTGG -TGTTCTTCGGCTTAGGTTTTGAAACCACTATGCCGACCACCGCTATCACTCTGCAACAGGCGAAAGCGCGTGATGTGCAG -AATTTTTACTTCTTCTGCCAGCACATTACGCTTATCCCGACGTTGCGCAGTTTGCTGGAACAGCCGGATAACGGTATCGA -TGCGTTCCTCGCGCCGGGTCACGTCAGTATGGTTATCGGCACCGACGCCTATAATTTTATCGCCAGCGATTTTCATCGTC -CGCTGGTGGTTGCTGGATTCGAACCCCTTGATCTACTACAAGGCGTGGTCATGCTGGTGCAGCAGAAAATAGCGGCCCAC -AGCAAGGTAGAGAATCAGTATCGTCGAGTGGTACCGGATGCCGGTAACCTGCTGGCGCAACAGGCGATTGCCGATGTGTT -CTGTGTCAACGGCGACAGCGAATGGCGCGGCTTAGGCGTGATTGAATCTTCTGGCGTGCACCTGACGCCGGATTATCAAC -GATTCGATGCCGAAGCACATTTCCGCCCGGCACCGCAGCAGGTCTGCGATGACCCGCGCGCGCGTTGTGGTGAGGTATTA -ACGGGCAAATGTAAGCCGCATCAATGCCCGCTGTTTGGTAACACCTGTAATCCTCAAACCGCGTTTGGTGCGCTGATGGT -TTCCTCCGAAGGAGCGTGCGCCGCGTGGTATCAGTATCGTCAGCAGGAGAGTGAAGCGTGAATAATATCCAACTCGCCCA -CGGTAGCGGCGGCCAGGCGATGCAGCAATTAATCAACAGCCTGTTTATGGAAGCCTTTGCCAACCCGTGGCTGGCAGAGC -AGGAAGATCAGGCACGTCTTGATCTGGCGCAGCTGGTAGCGGAAGGCGACCGTCTGGCGTTCTCCACCGACAGTTACGTT -ATTGACCCGCTGTTCTTCCCTGGCGGTAATATCGGCAAGCTGGCGATTTGCGGCACAGCCAATGACGTTGCGGTCAGTGG -CGCTATTCCGCGCTATCTCTCCTGTGGCTTTATCCTCGAAGAAGGATTGCCGATGGAGACACTGAAAGCCGTAGTGACCA -GCATGGCAGAAACCGCCCGCGCGGCAGGCATTGCCATCGTTACTGGCGATACTAAAGTGGTGCAGCGCGGCGCGGTAGAT -AAACTGTTTATCAACACCGCTGGCATGGGCGCAATTCCGGCGAATATTCACTGGGGCGCACAGACGCTAACCGCAGGCGA -TGTATTGCTGGTGAGCGGTACACTCGGCGACCACGGGGCGACTATCCTTAACCTGCGTGAGCAGCTGGGGCTGGATGGCG -AACTGGTCAGCGACTGCGCGGTGCTGACGCCGCTTATTCAGACGCTGCGTGACATTCCCGGCGTGAAAGCGCTGCGTGAT -GCCACCCGTGGTGGTGTAAACGCGGTGGTTCATGAGTTCGCGGCAGCCTGCGGTTGTGGTATTGAACTTTCAGAAGCGGC -ACTGCCTGTTAAACCTGCCGTGCGTGGCGTTTGCGAATTGCTGGGACTGGACGCCCTGAACTTTGCCAACGAAGGCAAAC -TAGTAATAGCTGTTGAACGCAACGCGGCAGAGCAAGTGCTGGCAGCGTTACATTCCCATCCACTGGGGAAAGACGCGGCG -CTGATTGGTGAAGTGGTGGAACGTAAAGGTGTTCGTCTTGCCGGTCTGTATGGCGTGAAACGAACCCTCGATTTACCACA -CGCCGAACCGCTTCCGCGTATATGCTAATAAAATTCTAAATCTCCTATAGTTAGTCAATGACCTTTTGCACCGCTTTGCG -GTGCTTTCCTGGAAGAACAAAATGTCATATACACCGATGAGTGATCTCGGACAACAAGGGTTGTTCGACATCACTCGGAC -ACTATTGCAGCAGCCCGATCTGGCCTCGCTGTGTGAGGCTCTTTCGCAACTGGTAAAGCGTTCTGCGCTCGCCGACAACG -CGGCTATTGTGTTGTGGCAAGCGCAGACTCAACGTGCGTCTTATTACGCGTCGCGTGAAAAAGACACCCCCATTAAATAT -GAAGACGAAACTGTTCTGGCACACGGTCCGGTACGCAGCATTTTGTCGCGCCCTGATACGCTGCATTGCAGTTACGAAGA -ATTTTGTGAAACCTGGCCGCAGCTGGACGCAGGTGGGCTATACCCAAAATTTGGTCACTATTGCCTGATGCCACTGGCGG -CGGAAGGGCATATTTTTGGTGGCTGTGAATTTATTCGTTATGACGATCGCCCCTGGAGCGAAAAAGAGTTCAATCGTCTG -CAAACATTTACGCAGATCGTTTCTGTCGTCACCGAACAAATCCAGAGCCGCGTCGTTAACAATGTCGACTATGAGTTGTT -ATGCCGGGAACGCGATAACTTCCGCATCCTGGTCGCCATCACCAACGCGGTGCTTTCCCGCCTGGATATGGACGAACTGG -TCAGCGAAGTCGCCAAAGAAATCCATTACTATTTCGACATTGACGATATCAGTATCGTCTTACGCAGCCACCGTAAAAAC -AAACTCAACATCTACTCCACTCACTATCTTGATAAACAGCATCCCGCCCACGAACAGAGCGAAGTCGATGAAGCCGGAAC -CCTCACCGAACGCGTGTTCAAAAGTAAAGAGATGCTGCTGATCAATCTCCACGAGCGGGACGATTTAGCCCCCTATGAAC -GCATGTTGTTCGACACCTGGGGCAACCAGATTCAAACCTTGTGCCTGTTACCGCTGATGTCTGGCGACACCATGCTGGGC -GTGCTGAAACTGGCGCAATGCGAAGAGAAAGTGTTTACCACTACCAATCTGAATTTACTGCGCCAGATTGCCGAACGTGT -GGCAATCGCTGTCGATAACGCCCTCGCCTATCAGGAAATCCATCGTCTGAAAGAACGGCTGGTTGATGAAAACCTCGCCC -TGACCGAGCAGCTCAACAATGTTGATAGTGAATTTGGCGAGATTATTGGCCGCAGCGAAGCCATGTACAGCGTGCTTAAA -CAAGTTGAAATGGTGGCGCAAAGTGACAGTACCGTGCTGATCCTCGGTGAAACTGGCACGGGTAAAGAGCTGATTGCCCG -TGCGATCCATAATCTCAGTGGGCGTAATAATCGCCGCATGGTCAAAATGAACTGCGCGGCGATGCCTGCCGGATTGCTGG -AAAGCGATCTGTTTGGTCATGAGCGTGGGGCTTTTACCGGTGCCAGCGCCCAGCGTATCGGTCGTTTTGAACTGGCGGAT -AAAAGCTCCCTGTTCCTCGACGAAGTGGGCGATATGCCACTGGAGTTACAGCCGAAGTTGCTGCGTGTATTGCAGGAACA -GGAGTTTGAACGTCTCGGCAGCAACAAAATCATTCAGACGGACGTGCGTCTAATCGCCGCGACTAACCGCGATCTGAAAA -AAATGGTCGCCGACCGTGAGTTCCGTAGCGATCTCTATTACCGCCTGAACGTATTCCCGATTCACCTGCCGCCACTACGC -GAGCGTCCGGAAGATATTCCGCTGCTGGCGAAAGCCTTTACCTTCAAAATTGCCCGTCGTCTGGGGCGCAATATCGACAG -CATTCCTGCCGAGACGCTGCGCACCTTGAGCAACATGGAGTGGCCGGGTAACGTACGCGAACTGGAAAACGTCATTGAGC -GCGCGGTATTGCTAACACGCGGTAACGTGCTGCAGCTGTCATTGCCAGATATTGTTTTACCGGAACCTGAAACGCCGCCT -GCCGCAACGGTTGTCGCCCTGGAGGGCGAAGATGAATATCAGTTGATTGTGCGCGTGCTGAAAGAAACCAACGGCGTGGT -TGCCGGGCCTAAAGGCGCTGCGCAACGTCTGGGGCTGAAACGCACGACCCTGCTGTCACGGATGAAGCGGCTGGGAATTG -ATAAATCGGCATTGATTTAACTGCAAATTGCCGGACAGATCTGCCTGTCCGGCATACTATTCATGAGGTTTTTTCGGACG -ATATTTTTCCGGCAGTTCTGGCACCGGACGCTTGTCATCGATGAGATGACGCACGGTTAAGATCGGATGACGCCACAGCA -TTCTCGGCCCGGCCCAACGCATAATCTGTTTCATCTCTTCACGCTTTGCAGGCTGGTAACAGTGCACCGGACACTGCTTA -CAGGCTGGTTTCTCTTCGCCGAACACACATTTATCCAGCCGCTTTTGCGCGTAAACAAACAACGCCTCGTAATGCTCCGG -CTCCGCTGACGCCTGCGGGCATTTCGCTTGATAAAGATCGATCATTTTTTTAATCGTCAGTTTTTCACGAGAGATACGCT -TGCCGGACATGCTGCCTCCACCTCATTAAGATGTATTTATATTACATCTTAATCTTAAAGGGCACTATGACTCCAAAGAA -GAAGGGTTAGCCAACCGATACAATTTTGCGTACTTGCTTCATAAGCATCACGCAAAAGCTGCAAAACAGCATCTTTCCCG -GAACCAGCATCAAGAACTCGCCGTTCGCTTCTTCCCCTGAAATGATTAACTCCGGTATCATGTGCGCCTTATGTGATTAC -AACGAAAATAAAAACCATCACACCCCATTTAATATCAGGGAACCGGACATAACCCCATGAGTGCAATAGAAAATTTCGAC -GCCCATACGCCCATGATGCAGCAGTATCTCAGGCTGAAAGCCCAGCATCCCGAGATCCTGCTGTTTTACCGGATGGGTGA -TTTTTATGAACTGTTTTATGACGACGCAAAACGCGCGTCGCAACTGCTGGATATTTCACTGACCAAACGCGGTGCTTCGG -CGGGAGAGCCGATCCCGATGGCGGGGATTCCCTACCATGCGGTGGAAAACTATCTCGCCAAACTGGTGAATCAGGGAGAG -TCCGTTGCCATCTGCGAACAAATTGGCGATCCGGCGACCAGCAAAGGTCCGGTTGAGCGCAAAGTTGTGCGTATCGTTAC -GCCAGGCACCATCAGCGATGAAGCCCTGTTGCAGGAGCGTCAGGACAACCTGCTGGCGGCTATCTGGCAGGACAGCAAAG -GTTTCGGCTACGCGACGCTGGATATCAGTTCCGGGCGTTTTCGCCTGAGCGAACCGGCTGACCGCGAAACGATGGCGGCA -GAACTGCAACGCACTAATCCTGCGGAACTGCTGTATGCAGAAGATTTTGCTGAAATGTCGTTAATTGAAGGCCGTCGCGG -CCTGCGCCGTCGCCCGCTGTGGGAGTTTGAAATCGACACCGCGCGCCAGCAGTTGAATCTGCAATTTGGGACCCGCGATC -TGGTCGGTTTTGGCGTCGAGAACGCGCCGCGCGGACTTTGTGCTGCCGGTTGTCTGTTGCAGTATGCGAAAGATACCCAA -CGTACGACTCTGCCGCATATTCGTTCCATCACCATGGAACGTGAGCAGGACAGCATCATTATGGATGCCGCGACGCGTCG -TAATCTGGAAATCACCCAGAACCTGGCGGGTGGTGCGGAAAATACGCTGGCTTCTGTGCTCGACTGCACCGTCACGCCGA -TGGGCAGCCGTATGCTGAAACGCTGGCTGCATATGCCAGTGCGCGATACCCGCGTGTTGCTTGAGCGCCAGCAAACTATT -GGCGCATTGCAGGATTTCACCGCCGGGCTACAGCCGGTACTGCGTCAGGTCGGCGACCTGGAACGTATTCTGGCACGTCT -GGCTTTACGAACTGCTCGCCCACGCGATCTGGCCCGTATGCGCCACGCTTTCCAGCAACTGCCGGAGCTGCGTGCGCAGT -TAGAAACTGTCGATAGTGCACCGGTACAGGCGCTACGTGAGAAGATGGGCGAGTTTGCCGAGCTGCGCGATCTGCTGGAG -CGAGCAATCATCGACACACCGCCGGTGCTGGTACGCGACGGTGGTGTTATCGCATCGGGCTATAACGAAGAGCTGGATGA -GTGGCGCGCGCTGGCTGACGGCGCGACCGATTATCTGGAGCGTCTGGAAGTCCGCGAGCGTGAACGTACCGGCCTGGACA -CGCTGAAAGTTGGCTTTAATGCGGTGCACGGCTACTACATTCAAATCAGCCGTGGGCAAAGCCATCTGGCACCCATCAAC -TACATGCGTCGCCAGACGCTGAAAAACGCCGAGCGCTACATCATTCCAGAGCTAAAAGAGTACGAAGATAAAGTTCTCAC -CTCAAAAGGCAAAGCACTGGCACTGGAAAAACAGCTTTATGAAGAGCTGTTCGACCTGCTGTTGCCGCATCTGGAAGCGT -TGCAACAGAGCGCGAGCGCGCTGGCGGAACTCGACGTGCTGGTTAACCTGGCGGAACGGGCCTATACCCTGAACTACACC -TGCCCGACCTTCATTGATAAACCGGGCATTCGCATTACCGAAGGTCGCCATCCGGTAGTTGAACAAGTACTGAATGAGCC -ATTTATCGCCAACCCGCTGAATCTGTCGCCGCAGCGCCGCATGTTGATCATCACCGGTCCGAACATGGGCGGTAAAAGTA -CCTATATGCGCCAGACCGCACTGATTGCGCTGATGGCCTACATCGGCAGCTATGTACCGGCACAAAAAGTCGAGATTGGA -CCTATCGATCGCATCTTTACCCGCGTAGGCGCGGCAGATGACCTGGCGTCCGGGCGCTCAACCTTTATGGTGGAGATGAC -TGAAACCGCCAATATTTTACATAACGCCACCGAATACAGTCTGGTGTTAATGGATGAGATCGGGCGTGGAACGTCCACCT -ACGATGGTCTGTCGCTGGCGTGGGCGTGCGCGGAAAATCTGGCGAATAAGATTAAGGCATTGACGTTATTTGCTACCCAC -TATTTCGAGCTGACCCAGTTACCGGAGAAAATGGAAGGCGTCGCTAACGTGCATCTCGATGCACTGGAGCACGGCGACAC -CATTGCCTTTATGCACAGCGTGCAGGATGGCGCGGCGAGCAAAAGCTACGGCCTGGCGGTTGCAGCTCTGGCAGGCGTGC -CAAAAGAGGTTATTAAGCGCGCACGGCAAAAGCTGCGTGAGCTGGAAAGCATTTCGCCGAACGCCGCCGCTACGCAAGTG -GATGGTACGCAAATGTCTTTGCTGTCAGTACCAGAAGAAACTTCGCCTGCGGTCGAAGCTCTGGAAAATCTTGATCCGGA -TTCACTCACCCCGCGTCAGGCGCTGGAGTGGATTTATCGCTTGAAGAGCCTGGTGTAATAACAATTCCCGATAGTCTTTT -GCTATCGGGAATATTAACGACAACTGACGAATAAAATAAAAACACCCTGTATAATAGGAAAGCTTATTTTACAGGGTAAA -ACCATGCCATCTACACGCTATCAAAAAATCAATGCCCATCACTATCGCCATATATGGGTCGTTGGTGATATTCATGGTGA -ATATCAGTTATTACAATCCCGCTTACATCAACTCTCTTTTTTCCCCAAAATCGACTTACTTATTTCTGTCGGCGATAATA -TTGATCGTGGACCGGAGAGTCTTGACGTCCTGCGCCTGCTAAACCAACCCTGGTTTACGTCGGTTAAAGGCAACCACGAA -GCGATGGCGCTTGAGGCATTCGAAACTGGCGATGGCAATATGTGGCTTGCCAGCGGTGGTGACTGGTTTTTCGATTTAAA -TGATTCAGAGCAACAAGAGGCAATAGATCTGTTGCTGAAATTCCATCACCTTCCACATATTATTGAAATCACTAACGACA -ACATAAAATATGCCATCGCACATGCAGATTATCCGGGGAGTGAATATCTCTTTGGTAAAGAAATAGCGGAGAGCGAATTA -CTCTGGCCTGTTGATCGTGTGCAGAAATCGCTTAATGGCGAGTTACAACAAATAAACGGCGCTGATTATTTTATATTTGG -ACATATGATGTTTGATAACATTCAGACGTTCGCTAACCAGATTTATATTGATACCGGATCGCCGAACAGCGGGCGGCTGT -CATTTTATAAAATAAAGTAGTCTCATGCTTCTTCTGTGAAGCATGAGTAACCCGGTGTTATTGCAGGCCATTATTCATTT -TTCGCTACCAGCAAAGAGAGATCCTGCTTCACCAGCGCGCGACTGGCACTCTCCGGCAAACCGTCGTCTGTAATAATCTG -ATCAAACTCGCTTAATGGTAACGCCAGCCATGTCGCCACCTGACCATATTTCGTCGCATCACAGACCAAAACTCGCTGGC -GGCTGGCACTGGCAATCGCCCGTTTCACCGTGACTTTATCTTCCGCTGGCGTAGAAATCCCCCGCACACTCCATGACGAT -GCAGAAATAAAAGCCTGATCAATCATCAGGCTGCGCAGCATGGTCGCAGCGGCTTCCCCGACACAGGAACGGTTTTCCCG -ACACACTGCACCGCCAGTGTGAATAATTGTGCAATTACTGTTGTCGAGCAAGTAGTCCGCAATAACGAAATCGTTTGTGA -CCACAGTCAGTGACTCCATGTGAATCAGATGCTGTGCTATCGCTAACGTGGTCGTTCCCGCATCCAGATAGATACAACTT -CCCGGCTGAACAAGACTTGCCGCCAGCTTGCCAATAGCCGCTTTTTGCGTCATTGCCAGCGCAGTTTTTACCTGATGAGA -AGGTTCATGCGCCACGCGTCCCGGAGACTGGACGCCTCCGGACACCAGCACAACGGCTCCCTGCTGCTCCAGTTTTTGTA -AATCCCGACGAATGGTCATATGTGACACATTCATTCTGTCCGTTAGTTCAGCAATACTGACAATGCCTTTTTCAGCTACC -ATCTCAAGGATGATTTGGCGACGCTCTACGGGTATCAACTTTTGCTCCTTCCTTTGTCCTGCTGACATTCTACGCTATTT -GCCTGCGAAACGTGCGCGGCGCAACTAACGCTTAGTTCACATAAAATAACACACAATGTTAATTTATGTGAATCAGATCA -CCATACCGTTATCTTCCAGCGCTTATATTCACAATATCAAACAAAATATCACTTAAATTAACAAGGAGAGCAGATGAAAA -CGGGATCTGAGTTTCATGTCGGTATCGTTGGCTTAGGGTCAATGGGAATGGGAGCAGCACTGTCATATGTCCGCGCAGGT -CTTTCTACCTGGGGCGCAGACCTGAACAGCAATGCCTGCGCTACGTTGAAAGAGGCAGGTGCTTGCGGGGTTTCTGATAA -CGCCGCGACGTTTGCCGAAAAACTGGACGCACTGCTGGTGCTGGTGGTCAATGCGGCCCAGGTTAAACAGGTGCTGTTTG -GTGAAACAGGCGTTGCACAACATCTGAAACCCGGTACGGCAGTAATGGTTTCTTCCACTATCGCTAGTGCTGATGCGCAA -GAAATTGCTACCGCTCTGGCTGGATTCGATCTGGAAATGCTGGATGCGCCAGTTTCTGGTGGTGCAGTAAAAGCCGCTAA -CGGTGAAATGACTGTCATGGCCTCCGGTAGCGATATTGCCTTTGAACGACTGGCACCCGTGCTGGAAGCCGTTGCCGGAA -AAGTTTATCGCATAGGTGCAGAACCGGGACTAGGTTCGACCGTAAAAATTATTCACCAGTTGTTAGCGGGCGTACATATT -GCTGCCGGAGCCGAAGCGATGGCACTTGCAGCCCGTGCGGGGATCCCGCTGGATGTGATGTATGACGTCGTGACCAATGC -CGCCGGAAATTCCTGGATGTTCGAAAACCGGATGCGTCATGTGGTGGATGGCGATTACACCCCGCATTCAGCCGTCGATA -TTTTTGTTAAGGATCTTGGTCTGGTTGCCGATACAGCCAAAGCCCTGCACTTCCCGCTGCCATTGGCCTCAACAGCATTG -AATATGTTCACCAGCGCCAGTAACGCGGGTTACGGGAAAGAAGACGATAGCGCAGTTATCAAGATTTTCTCTGGCATCAC -TCTACCGGGAGCGAAATCATGATCAAGATTGGCGTTATCGCCGATGATTTTACCGGCGCGACGGATATCGCCAGTTTTCT -GGTGGAAAACGGTCTACCAACGGTACAAATTAACGGTGTTCCAACAGGTAAAATGCCGGAAGCAATCGACGCACTGGTGA -TCAGCCTGAAAACGCGCTCCTGTCCAGTGGTTGAAGCCACACAGCAATCGCTGGCGGCTCTGAGCTGGTTGCAACAGCAA -GGTTGCAAACAGATCTATTTCAAATACTGCTCTACTTTCGACAGTACGGCGAAAGGTAATATTGGCCCGGTTACCGATGC -CTTAATGGATGCTCTCGACACGCCGTTTACGGTCTTCTCTCCGGCCCTGCCGGTCAACGGACGTACGGTTTATCAGGGGT -ATTTGTTCGTAATGAATCAACTGCTGGCCGAATCCGGGATGCGCCATCACCCGGTAAATCCCATGACCGACAGCTATCTT -CCCCGTCTGGTTGAAGCGCAATCCACAGGGCGCTGCGGCGTCGTTTCGGCACATGTTTTCGAACAAGGTGTGGATGCCGT -TCGTCAAGAGCTGGCTCGCTTACAGCAAGAGGGCTACCGCTACGCGGTGCTTGATGCGCTGACCGAACACCATCTGGAAA -TTCAGGGAGAAGCCTTGCGCGATGCCCCACTGGTAACGGGCGGTTCTGGTCTGGCGATTGGCCTGGCCCGGCAGTGGGCG -CAAGAAAACGGTAACCAGGCTCGCAAAGCAGGGCGTCCGCTCGCTGGGCGCGGCGTAGTGCTCTCCGGTTCATGCTCTCA -AATGACCAACCGCCAGGTAGCACATTACCGTCAAATTGCACCAGCCCGTGAAGTTGATGTGGCACGCTGCCTCTCAATTG -AAACTCTGGCCGCTTATGCACACGAACTGGCAGAGTGGGTTCTGGGCCAGGAAAGTGTACTTGCTCCACTGGTTTTTGCC -ACCGCCAGCACTGACGCATTGGCAGCAATTCAACAGCAATACGGTGCACAAAAAGCCAGTCAGGCAGTAGAAACACTGTT -TTCTCAACTAGCGGCGCGGTTAGCAGCGGAAGGCGTGACACGCTTTATTGTCGCAGGCGGTGAGACCTCCGGCGTAGTCA -CACAGAGCCTGGGAATAAAAGGGTTTCATATTGGCCCAACCATTTCCCCGGCGTGCCGTGGGTAAACGCACTGGATAAGC -CTGTCTCACTCGCCCTTAAATCTGGCAACTTCGGTGATGACGCCTTTTTTTCACGAGCCCAAAGAGAGTTTTTATCATGA -GCGATTTCGCAAAAGTAGAGCAGTCTTTGCGAGAGGAGATGACGCGGATTGCCAGTTCATTCTTTCAGCGCGGCTATGCA -ACCGGTTCGGCTGGCAATCTGTCGCTGCTTTTACCTGACGGGAATTTACTGGCGACACCGACAGGTTCATGCCTGGGCAA -TCTCGATCCGCAGCGGTTTTCCAAAGTCGCCGCGGATGGCGAATGGTTAAGTGGTGACAAACCCTCGAAAGAGGTGCTCT -TTCATCTGGCGCTGTATCGCAACAATCCGCGCTGTAAAGCGGTGGTGCATTTGCACAGCACATGGTCGACGGCGCTTTCC -TGCCTGCAAGGGCTGGACAGCAGCAACGTTATTCGTCCGTTCACACCATACGTGGTGATGCGGATGGGAAATGTCCCGCT -GGTGCCTTATTACCGACCGGGCGATAAACGCATCGCACAGGATCTGGCGGAACTGGCAGCAGACAATCAGGCTTTTTTAC -TGGCAAATCATGGCCCAGTGGTTTGCGGTGAAAGCCTGCAAGAAGCCGCCAACAATATGGAAGAGCTGGAGGAAACGGCA -AAGCTGATTTTTATTCTCGGTGACCGCCCGATCCGTTATCTGACCGCAGGTGAAATTGCGGAATTAAGGAGTTAATGCAA -TGCCTCGTTTTGCAGCTAATTTATCCATGATGTTCACCGAAGTGCCTTTTATTGAACGCTTCGCCGCAGCGCGAAAAGCC -GGGTTCGATGCTGTGGAATTTCTGTTTCCCTATAACTACTCCACCCTGCAAATCCAAAAGCAACTGGAGCAAAACCATCT -GACACTGGCGCTGTTCAATACCGCTCCCGGAGATATTAATGCGGGGGAATGGGGATTATCCGCCCTTCCCGGACGTGAGC -ACGAAGCACACGCAGACATCGACCTGGCACTGGAATATGCATTGGCGCTCAATTGTGAACAAGTCCATGTGATGGCAGGC -GTCGTGCCCGCTGGCGAAGATGCTGAACGGTACCGGGCAGTATTTATCGATAATATCCGCTACGCTGCCGACCGCTTTGC -GCCACACGGCAAGCGAATATTAGTTGAAGCACTCAGCCCCGGCGTTAAGCCTCATTATCTCTTCTCCAGCCAGTATCAGG -CACTGGCTATTGTTGAAGAGGTTGCGCGAGATAACGTGTTTATTCAACTAGATACTTTTCATGCGCAAAAAGTAGATGGC -AACCTGACGCATTTAATCCGCGACTACGCCGGGAAATATGCGCACGTACAAATTGCCGGACTACCTGATCGACATGAACC -GGACGATGGAGAAATCAACTATCCGTGGCTGTTCCGCCTGTTCGATGAGGTGGGATATCAGGGCTGGATCGGTTGTGAAT -ATAAACCTCGTGGCCTCACCGAAGAAGGGCTTGGCTGGTTTGACGCCTGGCGCTAATTCGTTAAATCCCTAATTACAACG -TACCCATACATCCCCCCATCTACGGATGGGGTAGGTTAACTATAACTTTCAGACAGGGTTTCCCATGTCCACAATTACAT -TGTTATGCATTGCGTTAGCTGGCGTAATCATGCTGTTGCTGCTGGTCATCAAGGCAAAGGTACAACCATTCGTTGCTTTG -CTCCTCGTCAGCCTGTTAGTCGCACTTGCGGCAGGTATACCGGCGGGCGAAGTGGGTAAAGTGATGATCGCCGGGATGGG -CGGTGTGCTTGGTTCCGTCACTATTATTATTGGTCTGGGCGCTATGCTGGGGCGTATGATCGAACACTCTGGTGGTGCAG -AGTCACTGGCTAATTATTTCAGTCGCAAGTTAGGTGACAAACGAACTATCGCTGCGCTGACTCTGGCAGCGTTCTTCCTC -GGTATTCCCGTCTTCTTTGATGTCGGCTTTATTATTCTTGCGCCAATCATTTACGGTTTTGCCAAGGTTGCCAAAATATC -GCCACTCAAATTTGGCCTGCCTGTCGCTGGGATCATGCTCACTGTTCACGTGGCGGTACCGCCGCATCCAGGCCCTGTCG -CCGCAGCGGGGTTACTCCACGCAGACATCGGCTGGCTAACCATCATCGGTATTGCGATTTCTATTCCCGTAGGGGTTGTT -GGCTACTTTGCAGCGAAAATAATCAATAAGCGCCAATATGCGATGTCAGTAGAAGTACTGGAACAGATGCAACTGGCTCC -GGCCAGTGAGGAAGGCGCGACAAAATTAAGCGATAAAATAAATCCACCGGGCGTCGCGCTGGTCACCTCGCTAATTGTTA -TTCCTATCGCGATTATCATGGCGGGTACGGTTTCCGCAACACTGATGCCGCCTTCGCATCCCCTGCTTGGTACGCTACAG -CTGATCGGCTCACCAATGGTAGCTCTAATGATTGCGCTGGTGCTGGCATTCTGGTTATTGGCTTTACGTCGCGGCTGGAG -CTTACAACACACCAGCGACATTATGGGCTCAGCGCTTCCTACTGCGGCGGTAGTGATTTTGGTTACTGGTGCTGGAGGGG -TATTTGGCAAAGTGCTGGTGGAATCGGGCGTCGGCAAAGCCCTTGCCAACATGCTACAAATGATTGACCTGCCTCTGTTA -CCAGCCGCATTTATTATTTCACTGGCGCTGCGTGCATCGCAGGGGTCAGCAACCGTAGCAATACTGACAACCGGCGGGTT -ACTCTCAGAAGCGGTGATGGGATTGAATCCGATTCAGTGCGTATTGGTGACGCTGGCAGCCTGCTTTGGTGGGCTTGGTG -CGTCACATATTAATGACTCAGGGTTCTGGATTGTGACCAAATATCTGGGGTTGTCGGTAGCAGACGGTCTGAAAACCTGG -ACAGTGTTAACGACCATTCTCGGTTTTACCGGATTCTTAATTACCTGGTGCGTATGGGCGGTAATTTGACCTTAATAAAA -AGGTCCGATGGGCATCGGACCTTTTATTGTGCACAGAAAAGGCCAGCCTCGCTTGAGACTGGCCTTTCTGACAGATGCTT -ACTTACTCGCGGAACAGCGCTTCGATATTCAGCCCCTGCGTTTGCAGGATTTCGCGCAAACGGCGCAGGCCTTCAACCTG -AATCTGGCGAACACGTTCACGGGTGAGGCCAATTTCACGACCTACATCTTCCAGTGTTGCCGCTTCGTACCCCAGCAAAC -CGAATCGACGTGCCAGCACTTCACGCTGTTTGGCGTTCAGCTCGAACAGCCATTTGACGATGCTCTGCTTCATATCGTCA -TCTTGCGTGGTATCTTCCGGACCGTTCTCTTTTTCATCGGCCAGGATGTCCAGCAACGCTTTTTCGGAATCACCACCCAG -CGGGGTGTCTACCGAGGTAATGCGCTCGTTAAGACGAAGCATACGGCTGACGTCATCAACTGGCTTATCCAGTTGCTCTG -CGATCTCTTCCGCACTTGGTTCATGGTCCAGCTTATGGGACAACTCACGTGCGGTTCGCAGGTAAACGTTCAGCTCCTTT -ACGATGTGAATCGGCAAACGAATAGTACGGGTTTGGTTCATAATCGCCCGTTCAATCGTCTGGCGAATCCACCAGGTTGC -GTATGTTGAGAAGCGGAAACCACGTTCCGGGTCAAACTTCTCTACCGCGCGGATCAGCCCCAGGTTGCCCTCTTCGATAA -GGTCCAGCAACGCCAGACCACGATTGCCATAACGGCGGGCAATTTTTACCACCAGACGCAAGTTACTCTCGATCATCCGG -CGGCGAGAGGCGACATCTCCACGCAGTGCGCGACGCGCAAAATAAACTTCTTCTTCGGCCGTTAACAGTGGTGAATAACC -AATCTCACCAAGGTAAAGCTGAGTCGCGTCCAACACACGCTGTGTGGCTCCCTGCGATAACAGTTCCTCTTCGGCCAAAT -CGTTATCACTGGGTTCCTGTTCTACTAAGGCCTTTTCGTCAAAAACCTCAACTCCGTTCTCATCAAATTCCGCATCTTCA -TTTAAATCATGAACTTTCAGCGTATTCTGACTCATAAGGTGGCTCCTACCCGTGATCCCTTGACGGAACATTCAAGCAAA -AGCCTGGTTCCGCCGATTTATCGCTGCGGCAAATAACGCAGCGGGTTTACGGATTTCCCCTTGTAACGAATTTCAAAATG -CAAGCGTGTTGAACTGGTTCCGGTGCTACCCATGGTCGCTATTTTTTGCCCCGCCTTAACTTCTTGTTGTTCCCGGACCA -GCATTGTGTCGTTATGGGCGTAGGCACTCAGGTAATCATCATTATGTTTGATGATAATCAGATTACCGTAGCCGCGCAGC -GCGTTACCAGCATAAACAACGCGGCCATCTGCGGTCGCGATAATTGCCTGTCCTTTGCTGCCTGCGATATCAATCCCCTT -GTTGCCCCCCTCAGAAGCGCCAAAGGTTTCGATCACTTTGCCCTCAGTCGGCCAGCGCCAGGTGGAGATAGGCGTACTGG -TTGATGTACTGCTGACAGTCGGCTCGGTTGTGCTTGCTGTTGGTACCGTTACAGGCGCTGTGACCGTGGTCGCAGTTGGC -TTGTTGTTCGGCAACATTTTGTTAGCACTCTGTTCACCCGAAGACTCAGAATACGTAATTGTCGGTTGCGACGCAACAGC -AACGGTGGAATTTTGTGCAGGCTTGATCACAACTCCTTGCTCTGCTGCGTCGGCCTGGGTAATGGCATTTCCGCCAGTGA -TTGGCGTACCGGAAGCATTACCCACCTGCAAGGTCTGACCAACGTTCAGCGCGTATGGTGCCTGAATATTGTTGCGCTGA -GCAAGGTCACGGAAATCGTTGCCAGTAATCCAGGCGATATAGAAAAGTGTGTCGCCTTTTTTCACGGTATAGGTACTGCC -GCTATAACTGCCTTTCGGAATGTTCCCATACTGACGGTTATAGACGATGCGTCCGTTTTCCATCTGTACCGGCTGCTGAG -CTACTGGCTGCACTGGCTGGATTTGCGGTTGTTGAGTAGCCTGAATTTGTGGCTGCTGCACCGGCTGAATTTGCGGTTGC -TGCGCTGTAGACGTCGTCCCCATTTTCGGCGGCGGCGTAATCAACATACCAGAATTAGTATTTGCAGGCGCATTGCCATT -AACGGAGCTGACCGGTGCCGGTGGATTTGAAGTGTCAGAACAGCCTGCCAGCCATAGCGAAACCAGTGACAAAGCCGCAA -TGCGGCGAACGGTGAATTTTGGGCTTCCCGCGCTCATTTATCCCCCAGGAAAAATTGGTTAATAACCAGTGACATAATTA -CCGTGCAAGGCACCCTACTGAACACTGGAAAAGATGTTCACGATACGCTGACCTGCGGCAAAATAACCAGGAAAAATCCA -GGTATTTCCTCACGTTTTAAGCCAGCTCACCCTTCACTAAAGGGACAAAGCGCACGGCCTCCACGGTATCGATAATAAAT -TCGCCTCCCCGACGACGCACCCGTTTCAAATACTGGTGCTCCTCCCCTACGGGTAAGACGAGAATCCCGCCTTCGTCCAG -CTGCGTCATTAGCGCAGTTGGAATTTCCGGCGGTGCCGCCGTAACAATGATAGCGTCAAACGGCGCACGTGCCTGCCAAC -CTTGCCATCCATCGCCATGACGGGTTGAAACATTATGTAAATCAAGATTTTTCAGGCGGCGACGTGCCTGCCACTGCAAG -CCTTTAATCCGTTCAACCGAGCAAACATGCTGGACAAGATGCGCCAGGATTGCCGTTTGATATCCCGAACCGGTGCCAAT -TTCCAGCACCCGCGACTGCGGCGTCAGCTCGAGTAATTCGGTCATTCGCGCCACCATATATGGCTGCGAAATTGTCTGCC -CCTGACCTATCGGCAAAGCGATATTGTCCCAGGCTTTTTGTTCAAACGCTTCATCAACGAATTTTTCACGCGGCACGGCG -GCAAGTGCATTCAGCACCTGCTCATCCTGAATACCTTGCGCACGTAATTGATCCAGAAGTGCTTGTACGCGTCTGCTTAC -CATTGCGTGCCAACTCCCACGCTGTTTAACCAGTCTGAAACCACATCTTGCGCGCTATGCGCAGTTAAATCCACATGCAG -CGGCGTGATGGAGACATAGCCCTCATCTACCGCAGCAAAATCGGTCCCCGGACCAGCATCACATTTACCGCCCGGCGGGC -CAATCCAGTACAGCGTATTGCCGCGCGGATCTTGCTGCGGGATCACCTGATCTGCCGGATGTCGTGTACCGCAGCGCGTC -ACGCGAATACCTTTGATTTGATCCAAGGGTAAATCCGGAACGTTAATATTAAGAATACGCCCGGTGCGCAGCGGCTCTTT -ACACAGTGCGCGCAAAATTGAACAGGTTACCGCCGCGGCAGTGTCGTAATGTTTATGCCCGTCAAGCGAGACGGCAAGCG -CCGGAAAACCTAAATGACGGCCTTCCATCGCGGCGGCTACCGTACCGGAATAAATAACATCATCCCCCAGATTCGGCCCG -GCGTTAATTCCGGACACAACAATGTCCGGGCGCGGACGCATCAGAGCATTCACGCCAAGATAGACGCAATCGGTCGGGGT -TCCCATTTGCACAGCAATATCACCATTTTCAAAGGTAAACGTGCGCAGGGAGGATTCCAGTGTCAGAGAATTTGAAGCGC -CGCTGCGGTTACGATCGGGGGCGACCACCTGAACGTCAGCAAACTCACGCAAGGCTTTCGCCAGCGTTTGTATACCGGGT -GCATGTACCCCGTCATCATTACTCAGCAATATGCGCATAATCACCTGTTGTGTTGATAAGTTCCCTGACAACGCTGGTTG -CAAAACTACCCGCCGGAAGCCAGAAACGGATCTCTACGGTGACGTCATCCCACCAATTCCAGCTTAATTGTTGCGGATAC -AGCAGCATCGCTCTGCGCGCGGCTTCAACTTTTTCGCGCACCAGTAAAGCTTGTAATTCAGTTTCTGCGGCGACAGCTGC -TTGTTCGAATGCCAGCGCTTCACGCTGAGTTCCCCATTCGCCACTGCCTGGCAATGCGGCGGTTATCATCAACTCTTTAT -CGTTGACGCGACGCTGTAATTCCGCCAGTTCTTCGGTGGTTGCGACAAACCAGCTACCACGTCCGGCTAATTGTAGCGCA -TCGCCGTCAACAACTTGATTAACGTCTGCTTTTTTGAGGCGCTCAGCAACAATCTGATTAAACAACGCACTGCGGGCTGC -CGACAACCAAAAACTCCGTTTATTGCGATCGCGCACCGGAGTATTGGTTTGCGCCCAGCGCTGCGCCCCCTGCAAGTTGC -TACCGCCAATCCCAAAACGTTGGGCACCGAAGTAGTTCGGTACACCTTTTACGCAAATATCGATCAGACGTTGTTCAACG -TCATCGCGATTGCTCACTTCGCGCAGAACCAGGGTAAAGGCGTTACCTTTCAGCGCGCCTAAACGCAGCTTGCGCTTGTG -CCGCGCATACTCCAGCACCTGGCAGCCTTCCAGTTGAAAGGCGCTCAGATCGGGCATTTCCTTGCCCGGCACGCGAGCGC -ATAACCACTGTTCCGTAACAGCATGTTTGTCTTTTTGCCCAGCGAAGCTGACTTCACGGGCATGAATTTTCAGGAATTTC -GCCAGTGCATCCGCCACAAAACGGGTATTGCAGCCGTTTTTGAGGATTCTAACCAGAATATGCTCACCTTCACCATCAGG -CTCAAAGCCCAAATCTTCCACCACCACAAAGTCTTCCGGATTGGCTTTCAGCAGCCCGGTGCCTTGCGGTTTACCGTGGA -GGTAAGTGAGATTATCAAACTCAATCATTTTGTTGCCTTAATGAGTAGCGCCACCGCTTCACAGGCAATCCCTTCCCCAC -GTCCGGTAAATCCCAGTTTTTCCGTAGTAGTGGCTTTCACGTTAACATCATCCATATGGCAGCCGAGATCTTCGGCAATA -AACACGCGCATTTGTGGAATGTGCGGCAACATCTTCGGTGCCTGAGCGATGATAGTGACATCGACGTTGCCAAGGGTATA -ACCCTTCGCCTGAATACGACGCCAGGCTTCGCGTAGCAGCTCGCGGCTATCGGCACCTTTAAATGCCGGATCGGTATCCG -GGAACAGCTTGCCGATATCCCCCAGCGCCGCCGCGCCAAGCAATGCATCGGTCAACGCATGGAGCGCCACGTCGCCATCA -GAATGCGCCAGCAATCCTTTTTCGTAAGGAATGCGTACGCCACCAATGATAATTGGGCCTTCACCGCCAAAGGCATGTAC -GTCAAAACCGTGTCCAATTCGCATTATGTATTCTCCTGATGGATGGTTCGGGTGAGGTAAAACTCGGCCAGTGCCAAATC -TTCCGGGCGCGTGACTTTAATGTTATCCGCACGGCCTTCGACCAACTGAGGATGGAATCCGCAATATTCCAGCGCCGAGG -CTTCGTCGGTAATAGTCGCGCCTTCATTTAGAGCGCGCGTCAGACAGTCATGTAACAGCTCACGAGGGAAAAATTGCGGC -GTCAGCGCGTGCCATAAGCCGTTGCGATCAACGGTATGAGCAATGGCATTTTTGCCCGGTTCGGCACGTTTCATAGTATC -GCGCACTGGTGCGGCGAGGATCCCCCCCGTGCGGCTGGTTTCGCTCAACGCCAACAATCGCGCGAGGTCATCCTGATGCA -AACAAGGACGAGCGGCGTCATGCACCAATACCCACTGCGCGTCGCCAGCGGCTTTCAGACCTGCCAGCACGGAATCGGCA -CGCTCATCACCGCCATCTACAACGGTGATTTGCGGATGATTCGCCAGAGGAAGTTGTGCAAAACGGCTATCGCCAGGACT -TATGGCAATGACGACACGTTTCACCCGGGGATGCGCCAGCAGCGCATGCACCGAGTGTTCAAGAATGGTTTGATTACCGA -TTGAGAGATATTGCTTAGGACATTCCGTTTGCATTCGACGGCCAAATCCGGCCGCCGGAACCACGGCGCAAACATCCAAA -TGAGTGGTTGCCATGTTAATTCCCGGGCTGATTTATCGATTGTTTTGCCCCGCAGACTGTGCGCGCTTCGACGCGTCAGG -CACCAGACGATAAAAAGTTTCGCCCGGCCTGGTCATGCTGAGTTCATTACGCGCACGCTCTTCGAGCGCCTCCTGGCCGC -CATTGAGATCGTCAATTTCGGCAAAAAGTTGATCGTTTCGCGCTTTAAGTTTCGCGTTTGTAGCTTGCTGTGCCGCCACA -TCATCATTGACGCGGGTATAGTCATGTATACCGTTCTTACCGAACCACAGCGAATACTGTAGCCAGACCAGAATAGCCAG -CAACAGCAGCGTTAGTTTACCCATCCTGCCCCCTGAAAAACGGCATCATCATCCCATGCATCCGAAGACGACTCTACATC -CTCTGTTGGGGATACCGCGACAACGCGGGCAAATGTACCACATTTGTCCATTGTTACGTATACCCAGGGCGTGCAGAACA -TAATCTCATTATTAGTTACGGTTTGAATTATGAACAGAGGAGACGGGAAAGTACAAATTAGCCCAGTAGCCACATAAACA -GTGCGCCAAACATAATGCCTACTGTCACCAGGGTGAAAACAATACTGTAGCGTAGCTTTCCGTCCATCAATGAATGCAGC -GCAATCCCCACCACTACCGCGACGGGCATCAGCGCCAGAAAGAAAGGCCAGGTGTAGATAAAGAAGAACAGCGTGTTAGA -GCCATAAATCAACATCGGCATCGCCAGCGCAAATAACCAGGAGATAAAACCGACCACGGCACCAGGCAGTGACCATGTGG -TTTCTTCATCCTCAGTAAGGCTGTCGTTATTTGTTAGTGTAATGTTATGGCTATTACGCATATTTGATCCTGTTACTTTG -ACGAACCGGGCATGGAAACCCGGTGGTGTCTCAGGATCTGATAATATCGTTCTGTCTCAACAGATCTAATAATTGCTGTA -CCAAATTTGTTACTAATTGTTCACCATTGAGATGAATTTCTGCCGATTCAGGCGCTTCGTAAACGGAATCTATTCCCGTA -AAGTTGCGCAGTTCACCGGCACGCGCTTTCTTATATAAGCCTTTGGGATCGCGGGCTTCGCAAATCGCCAGCGGCGTATC -GACAAACACTTCGATAAAGCGCCCTTCTCCTACGCGTTCGCGAACCATCTGGCGTTCGGCGCGGTGTGGCGAGATAAATG -CGGTCAGCACCACCAGTCCGGCTTCAACCATCAAATTCGCCACTTCACCGACGCGACGGATATTCTCTTTACGATCGGCA -TCGCTAAAACCGAGATCGCTGCATAATCCGTGGCGAACATTGTCGCCATCCAGCAGATACGTACTGACGCCGAGTTTATG -TAACGCCTCCTCCAGCGCCCCGGCGACCGTTGATTTACCGGACCCGGAGAGGCCGGTAAACCACAGCACTACACCACGAT -GACCGTGGTGTAGCTCGCGTTGTTGCACAGTGACCGGATGGCTATGCCAGACGACGTTTTCGTCATGCAGCGCCATTATT -TATCCCCCAGCAAATCGCGCGCGCCCCAGTGCGGAAAGTGGCGACGAACCAGAGCATTCAATTCCAGTTCGAATGCACTG -AATTCAGATGGCGCAGCAGTTGCCTGGCTAACTGGCTCGTGCACCATACCGGCACCCACGGTCACATTGCTCAGGCGATC -GATAAAAATCAGCCCACCCGTCACCGGATTTTGTTGATAACGATCTAACACCAGCGGCTCGTCAAAAGTGAGATCCACGA -GGCCGATCCCATTCAGTGGCAGGTTTTCAACTTCACGCTGGGTAAGGTTATTAATATCAACCTGATAGCGAATGCCATCA -ACACGCGCGCGCGTCTTCTTACCGGCAATTTTGATGTCGTAACTCTGCCCTGGAGAAAGCGGCTGTTCCGCCATCCATAC -CACATCCACCGACGCGCTCTGCACCGCCGGTAACGCTTCGTCTGCCGCCAGCAGCAGATCGCCACGGCTGATGTCGATCT -CATCCGTCAGCACCAGGGTGATCGCTTCTCCGGCAAAGGCTTCTTCGCGATCACCATCAAAAGTCACGATCCGCGCGACG -TTTGATTCCACACCAGAGGGCAGCACTTTGACACGTTGCCCGACTTCCACGCGACCGGATGCCAGCGTTCCGGCGTAACC -ACGAAAATCGAGATTCGGGCGATTAACGTACTGCACCGGGAAGCGCATTGGCTGAGCATCCACCACTCGCTGGATCTCCA -CGGTTTCCAGCACTTCGAGCAGTGTCGGACCGCTGTACCACGGCATACTTTCACTTTGCGATGCCACGTTGTCGCCTTCC -AGTGCAGAGAGCGGCACAAAGCGGATATCCAGATTACCCGGCAGCTGCCCGGCAAAGGTCAAATAATCTTCACGAATACG -GGTGAACGTCTCTTCACTGTAATCCACCAGATCCATTTTGTTGATCGCCACGACCAGATGTTTGATCCCCAACAGTGTGG -AGATAAAACTGTGACGACGGGTTTGATCGAGCACGCCTTTACGGGCATCGATCAGTAAGATCGCCAGTTCACATGTCGAT -GCGCCAGTCGCCATATTGCGGGTGTACTGCTCGTGCCCTGGGGTGTCGGCGATAATAAATTTACGCTTCTCGGTAGAGAA -ATAGCGGTAGGCCACGTCAATGGTGATGCCCTGTTCGCGCTCAGCTTGCAGGCCGTCCACCAGCAGAGCCAGATCCAGCT -TTTCGCCCTGGGTGCCGTGACGCTTACTGTCGTTATGCAGCGATGAGAGCTGATCTTCGTAGATTTGGCGGGTATCGTGC -AGCAGACGACCAATCAGAGTACTTTTGCCGTCATCGACGCTACCACAGGTCAGAAAACGCAGCAGGCTTTTATGTTGTTG -CGCAATCATCCAGGCTTCGACGCCGCCTTCATTGGCGATTTGTTGTGCAAGTGCGGTGTTCATCTTAAAAATACCCCTGA -CGTTTTTTCAGCTCCATAGACCCCGCCTGGTCGCGGTCAATCACGCGGCCCTGACGTTCACTGGTGGTGGAAACCAGCAT -CTCTTCGATGATTTCCGGCAGTGTTTGTGCATTTGACTCCACCGCACCGGTCAGCGGCCAGCAGCCCAGCGTACGGAAAC -GCACCATCCGTTTTTTAATCACTTCGCCCGGTTGCAGGTCGATACGGTTGTCATCAATCATCATCAACATACCGTCGCGT -TCCAGAACCGGACGTTCCGCAGCGAGATATAGCGGAACAATGTCGATATTTTCCAGCCAGATGTATTGCCAGATATCCTG -CTCGGTCCAGTTAGAGAGCGGGAAGACGCGGATGCTTTCGCCTTTGTTAATTTGCCCGTTGTAGTTGTGCCACAGCTCCG -GGCGCTGATTTTTCGGATCCCAGCGATGGAAGCGGTCACGGAAAGAGTAAATTCGCTCTTTAGCGCGGGATTTCTCTTCG -TCACGGCGCGCACCACCGAAGGCGGCATCAAAACCGTATTTGTTCAGCGCCTGTTTCAGGCCTTCAGTTTTCATAATATC -GGTATGTTTCGCGCTGCCGTGCACGAATGGATTAATCCCCATCGCCACGCCTTCCGGGTTTTTATGCACCAGCAGTTCGC -AGCCGTAGGCTTTAGCAGTACGATCGCGGAACTCATACATCTCGCGGAATTTCCAGCCGGTATCGACATGCAGCAACGGG -AAAGGCAGCGTACCTGGATAAAACGCCTTGCGCGCCAGATGCAGCATGACGCTGGAATCTTTACCGATAGAGTAGAGCAT -CACCGGATTTGAGAATTCTGCCGCCACCTCGCGAATAATGTGGATGCTTTCCGCCTCCAGTTGCCGCAGGTGAGTAAGTC -GTATTTGATCCATAACCGTTCCTTTGCAATACCGCTATTTTCTTGCCATCAGATGTTTCGACTATAGGGAGCGTAAGAGA -ACGAATGAAATTACCAATTAGAATGAGTAGTTCCTTAACGGAATAACGATTTGGCAAAGCTAATATCAAAAAGTGCTTAA -GGCACCGGATTTCGGGCGTTTAGGAAGATTTGAAATTGTTTTAGCGCAGCGGCAGTTTCATACTATGGCGGTAAAAAAAT -TTGCATGGTATTTAAGGACTCACTATGTTTTCCGCATTGCGCCACCGTACCGCTGCCCTGGCGCTCGGCGTATGCTTTAT -TCTCCCCGTACACGCCTCGTCACCTAAACCTGGCGATTTTGCTAATACTCAGGCACGACATATTGCTACTTTCTTTCCGG -GACGCATGACCGGAACTCCTGCAGAAATGTTATCTGCCGATTATATTCGCCAACAGTTTCAGCAAATGGGTTATCGCAGT -GATATTCGGACATTTAATAGTCGGTATATTTATACCGCCCGCGATAATCGTAAGAGCTGGCATAACGTGACGGGAAGTAC -GGTGATTGCCGCTCATGAAGGCAAAGCGCCGCAGCAGATCATCATTATGGCGCATCTGGATACTTACGCCCCGCTGAGCG -ATGCTGACGCCGATGCCAATCTCGGCGGGCTGACGTTACAAGGAATGGATGATAACGCCGCAGGTTTAGGTGTCATGCTG -GAATTGGCAGAACGCCTGAAAAATACGCCTACCGAGTATGGTATTCGATTTGTGGCGACCAGCGGCGAAGAGGAAGGGAA -ATTAGGCGCTGAGAATTTACTCAAGCGGATGAGTGACACCGAAAAGAAAAATACGCTGCTGGTGATTAATCTCGATAACT -TAATTGTTGGCGATAAATTGTATTTCAACAGCGGTGTAAAAACCCCTGAGGCAGTAAGGAAATTAACGCGCGACAGGGCG -CTGGCAATTGCGCGCAGTCACGGAATAGCCGCAACGACCAATCCGGGTTTGAATAAAAATTATCCGAAAGGCACTGGGTG -TTGTAATGACGCAGAAATATTCGACAAAGCGGGCATTGCTGTACTTTCGGTGGAAGCGACTAACTGGAATCTTGGGAATA -AGGATGGTTATCAGCAACGCGCAAAAACACCTGCCTTCCCGGCGGGAAATAGCTGGCATGACGTAAGACTGGATAATCAC -CAACATATTGATAAGGCTCTTCCTGGAAGAATAGAACGTCGCTGCCGTGACGTTATGCGGATAATGCTACCTCTGGTGAA -GGAGTTGGCGAAGGCGTCTTGATGGGTTTGAAAATGGGAGCTGGGAGTTCTACCGCAGAGGCGGGGGAACTCCAAGTGAT -ATCCATCATCGCATCCAGTGCGCCCGGTTTATCCCCGCTGATGCGGGGAACACCAGCGTCAGGCGTGAAATCTCACCGTC -GTTGCCGGTTTATCCCTGCTGGCGCGGGGAACTCTCGGTTCAGGCGTTGCAAACCTGGCTACCGGGCGGTTTATCCCCGC -TAACGCGGGGAACTCGTAGTCCATCATTCCACCTATGTCTGAACTCCCGGTTTATCCCCGCTGGCGCGGGGAACTCCCGG -GGGATAATGTTTACGGTCATGCGCCCCCCGGTTTATCCCCGCTGGCGCGGGGAACTCTGGGCGGCTTGCCTTGCAGCCAG -CTCCAGCAGCGGTTTATCCCCGCTGGCGCGGGGAACTCAAGCTGGCTGGCAATCTCTTTCGGGGTGAGTCCGGTTTATCC -TCGCTGGCGCGGGGAACTCTAGTTTCCGTATCTCCGGATTTATAAAGCTGACGGTTTATCCCCGCTGGCGCGGGGAACTC -GCAGGCGGCGACGCGCAGGGTATGCGCGATTCGCGGTTTATCCCCGCTGGCGCGGGGAACTCGCGACCGCTCAGAAATTC -CAGACCCGATCCAAACGGTTTATCCCCGCTGGCGCGGGGAACTCTCAACATTATCAATTACAACCGACAGGGAGCCCGGT -TTATCCCCGCTGGCGCGGGGAACTCAGCGTGTTCGGCATCACCTTTGGCTTCGGCTGCGGTTTATCCCCGCTGGCGCGGG -GAACTCTGCGTGAGCGTATCGCCGCGCGTCTGCGAAAGCGGTTTATCCCCGCTGGCGCGGGGAACTCTCTAAAAGTATAC -ATTTGTTCTTAAAGCATTTTTTCCCATAAAAACAACCCACCAACCTTAATGTAACATTTCCTTATTATTAAAGATCAGCT -AATTCTTTGTTTTCAAACAGGTAAAAAAGACACCAACCTTAAACCATCCAAATCTACCGGGGTACGCCTGTTTAACCCAA -ATGTCTGGAACTCAAATCCCGTTTCCGTATTCGTTGCCCATGCCATCACTACATTGCCTTCTTCCGCCAGTCCAGCTATT -TGTTCCCAGATCATTTCACGAATTTTTGCGGATACATCACCTACATATACCCCTGCACGTACCTCCAACAACCAGATGGC -TAATCTGCCTCGTAAGCGCGGAGGTACATTTTCAGTGACCACGACCAACATACTCATTTCAGCTACTCCGATGGCCTGCA -TCTCCCAGTGAAACAGGAAGCGGAATGGCAACAGGCTGTGCATCTTCAGGTGGGGCCGGCGGTTGTATTTCTCCAGCGGC -AAGCACGTCCTCTATAAGCGGAATCAATTTGGCTAATGTTTTACTACTGCGAAAAATATCCCTGCACGCCAAACGGACTT -CCCGGTCCGGCTCACCAGGGTTACGACGCGCTATCTCAAAAGCTTTCGGTACAACAGTGTCAAATTTAATGATGTCTGCA -ATATCGTAAACAAAGGAAAGAGGCTTTCCTGTATGCACAAACCCAATAGCTGGTGCATAACCAGCTGCAAGTATCGCCGC -TTCAGTTACGCCGTATAAACAGGAAGTTGCAGCGCTAATGCATTGGTTGATCGTATCGCCCTTTTCCCAGTCTTTCGGAT -CGTAGCGACGTCCATTCCATGTCACGCCGTATTGCTTCGCCAGAAGTGCGTAGGTTGCCCGCACGCGACTGCCTTCTATA -CCTCTGAGTTGCTCTACGGAGCGCCGGGCAGGCGCAGGTTCTCCAAACCGAAGTTCAAACATTTTACGTACGACCTTCAG -ACGCAAATCTTCATCCAGAGCAAGTTTTGCCTGATAGAGCAGCTTATCTGAACGCGCACCTCCAGGCTGACCAGAAGCAT -AAACACGAACGCCCGCTTCCCCCACCCATACCAACAATGTTCCAACTTGCGCAGCCAGGCGTACAGCTGCATGCGAAACC -CGTGTACCAGGTTCCAGCATGATGCAGGCAACCGAGCCAACAGGAATATGAGTGCGGATCCCTGTCTTGTCGATAAGTAC -AAACGCGCCATCTATTACATCGATCTGCCCATATTGCAGAAAGATCATGGAGACGCGATCTTTGAGTGGAATGGGATTAA -GGGGAAGCCAGGTCATTTTATTACACCTCAATCACAGTGGAGCCAAAGATAGCAAGCCACATCCCATCGATTTAGCTGGC -CCAATACCTTGCTGTACAAGATCTATTAACGCTGGCGCGTCGTTGATGGTGAGCACACCTTCAAAGCAAACCGTTTGGAT -CTTTCCACTTTTACCATCACCAGAAAAATACTGTGGCCGTTCCGATATGGGATGCACATCTTCAACGCGCGCCGCATTGC -CCAATTTACGTTGCAACCACGCGATTTGTTCTGCTTCTTTTATTAACGGAACCCGACAGCGTTTAATATTCCCTTTACTG -TCCAGGCGCTTTTGATTGTCGAGAATAGTTTTGATCGGATTTGCCCGAAGCCGAAAATAGAGTGGAACACCAACCTGAAG -TTGAAATTCAACCTGTTTAGTTTTAATGACTGTCGCAACGGCAGTTGAAACAGGCATTTGCGCTGACTGCAATAAAACAT -GACAGCCTTCTGGTGTGTTTCGCTTCTCAACATGAAAAAGAAAATCACGAGCAGCATCCGGTCTGTTTGGAAATAAATGC -CATAATCCCTGGTGAAGTTGGTAAAGATCCCTGCTCCAGGCCCTGGCAATGATGACTTTACTGAGATACATCCATACCTC -CTTTAATCACATACCATTCTCGGGAAGCAAATTGTCGAGGCAAGGTGATCATCGGTTCGTCGCGCGCCGTAAATTTTAAA -TGATGCCCTGTAACTGATTCCTCACTATATATATCGCCGCCAACGGGCTCATAATTTAATAGCGCCTTCTGAGGATCCGA -TGCCTGACATGTCCCCAAAAAAAGCGGGTGTGTTAGTGGGCAACTTCTCCGCCCCAGGTAAGGTGTATACCGAGGCTTTA -ATACTGCTTTTTCAAGTTCTGAGATAACCATCGTTGCATGGGGTGTTAACCAGAGAGCGACGGTAAAGGAGGCATCACAT -AAATATTCGCGCCATGTTTGAATCGTTTCATGACTTTTCAAACCACGGTAATCTTCTCGCGCTCCAAGGACTGTATGGTA -ATCACGCAACCCCGTTACAGACACACGACGATCGTCAAGAATGAGTTCATCGCAGCGCACTGCAAATTGCACACTCTCTG -ATAACGCCTGTAATGAAGAAGTATCATCACGTTGGATCCCAAGACAAGCCCCGAGTAGCCCTAATAACCCGCTTCGGGTC -GGAAATCTTCCGGTAGGTCGCGTTCCTTCAAAGGTCGGCTGCCCCCAGGCTTGCATTGGCCCAGCAAGCCGCAAGATCAA -ATAAGATCTCATGTTCACGCCTCGCCATTATTACGAACCCAGGATTTTAACTGTTCTAAAGTAGGCATTTGTTTAACTTG -AGCAGTAATTGGGTCTACATCAGATAAGCTGAATTGCGCAGCAGCTCCGTTCAGACCATATCCATTGGCAACGCGATCCC -AATATTGATTAAACGCCTGTATAGACGGTTGCAAAAAGCCATCTTTCGCTTTAACCGCTTTTTCAAAAGCATTTGCCATA -GAAAGTGGCATATCGGAGAAATTAACCATTACCATATCCGCAGGGTTAAAAGCGGCATAAGTACGCTGTTTTGCTCCAGG -GACCTCTGTTGCCAGCATATGAACAACATGGGTTGCAATTTCCAGAGCCTGCTCCCTGGAGGCACCACCTAAATTTTCCT -GAAGTTGAGCGAGGTTAATGTTGGCATAACGATAAAAAACACCCGATGAAAATTCCTGAGTTCCCAGATGTGCAGAACCT -TGTTCCTGTAAATCATCTACAGCGGTGAACCAGTCAATATCAGAATCAACCTGATGAGTAGTGATCGCATGCGCAATGGA -CATTGCACCATCAACTTTTCCCAACTCAGTCATCATGCCGCTGGTTGCCATTCTTCCACTAAGCGCAATATCAACACCCT -GCTGTAAATTCACACGTATGGCGGCAATATCTTCCTTAAGAACTTTGAGCAGCTTTTTATCATCCAGATTATCAGCCTCT -GCTTTTGCAACCTGCTCACAGAACCAGGCTATTTCTCCCACAACCCAGGGAGTAACCGCATCGGCAGAAATCTTTTCGGC -TTCATCAACTGATTTACCGGAGAGCAGCGCTAATGTCTTATCGATGATTTTTTGGTCAAAACGTTCACCAAGTTTTTGCC -GAAGAACATCACGTAATTGTGCAAGATGAATGGTTCTGAGACTGGATTCACCAATATTTTGTGCGTAATAACCACTTTTA -CGCATCGCACGTTTAAGGCTTTGACTTGAAATTCTTACTCGTCTTTTGCCGCCGAAAATAGCGTCTTTCTGCATGTTCAT -ATCGTCGCGGTTCAGACATGAAGGGCTGTGAGAGATCAGAACATGAATATTGATAAAGTTAGACATAGAAAGGTTTCCTT -ACGCATTTTTGTTTGTGGTCAATACAAAATCTTCCAGAAGTTGCTGGCGTTCGCGCTTTCCCCACCAGGTCAACATCCTG -GCCATTAATGGCCAGTCAAGTACGGGTTCGGCGTGAGTAAGTAATCGACGTAACTGGACCATATCGGCTGTTCTGTCAGC -CCGAATTAATTGAAAGATACGGCGCTCGTTAATTCTTCCACTATTGGCTAAAGCTCTTCCCAACGAGATACCTGTTGTTT -GCTCCGATTTTTTGTCCTGATGTCGGATGACATTCTTTCCTGCGCTCAGGCAAAACACCATGCGCAAAAGAGCCTGCTGG -TGACGTGGGTTTTCCCAACCAAAAGGTTGCACCAGCCTATAAAACGCAGGGATATCGCGTAATTCATCAGGTTCTGAAAC -ACGTCTAATTTGCGCACATGATCCATTATCCAGTTGTTGCCAGGCTCGATATAAAGCCATTGCATCAATTTCATCAGCCA -TTTGATGGCCCTCCTTGCGGTTTTAACTCCCGTAAATGTTTGTATAGCGTGGCGCGGGCAAGCGCTAATGTGCTTATTAA -TTTAGGATGATGTGCATAGGGAGCTACAGATTGATTAAATAGCATTTCACACAATTGATGAAGTTTGTCTCGTAAATCAG -CTATTACCTCATCAGCCTGGGAAAAATTAACATTCGCCAGTACATCGGGAATTAATAATTCACTCTGTCGATAGAAATGC -CTTTCTGCAGTCTCATGAACAGAGACTCCGGCCCCTTTGAAGTCTTTATTTTTAAACCCTTCTGCAAAGGTATATAACGC -CTTGCGTAAGGCTGTTTTATATCCCAAACCAACAGTCACTATTTCGTTTATCACATTGCCGTATTGTTGCCACCCCTGAT -TAAACATCAACACATCATGACGCCGTTCAAGAATAGATGCTTGATTATTACGATATCCCCCCATAATCAATTCAAGAGGA -CTTTGCGGCGCAATATTTCTGAATTGATTCACAACCGCCGCCACGCGATTTCCATTTTCATTTTGAATAATCTTATCTAC -CACAACTCGGCTGATTTGTGTCCATGATGGTGCGGAGGTGGTGAAAGCAAGAAATTTTTCCTCAACCTCCCCTTTCTTGA -CTGTTACCAGACAAGGGGAATGCGGATGGGGCCATAGCCCATTAACTGTAAAGGTAAATTTTTCCTTAAGAAAACCGGTA -TAACGCAAATTGCTTTCCTGTCCACAGCAAGAACATTTACCAATCCCAATGGGATCGCATAATTCAATATGCGCTGGTTG -CCAGAATAGACCACGGACAAACCCAATTGACGAAGCAGGTATAGACTCATTGGACTTGATAGGTTTAATCCAGGTAGGTT -GGTTTTCCGTATGTGATTCATTAGGAAATTGTTTTTGAAGACGAGGTAATGTGAGGACATTGAGTAACACCGTTGAACGA -AGATCGATCCCACGTACGAACGTTGTTACAGGTGTTCCTCCACGTAAACCGCTTTTAAAACCACCACCAAAACCTGGTGC -CTGATTCGCCTGGTTGAATAACGCAATCGCAGTGCATCCACCACATAATGCTTCACCCTGCCCCGGTTGATTGACAAATG -CACAATTCGTCGCGCCGCTTACCCCAGCCAACAGTTTTTCCATTGGAGTCACATCATTTGCTTTGACACCTTTGGTCTGC -ATAAAGGGATGTTCTGCGTGATTAAGGTAGAACATATCTATCCACGGCGCGATGAGTTGTTGAAACTCATCTTCAGTGAG -CGGATTCATTATGCGATGTCGAAATTCAACGTCATCTTTTGCCGGGGCGATAATTTGCCCAATGCAAACCAGCAGTGCTA -AAGCGGCCAGTTCCATATCGTCACGGGGCAAACTTAATCGCCACTGATCTCTACTGCAGTATAGCGATTGCAGATTTATG -ATTTGGACTTTCCCCCCGTTTCGCGGGCGTACAGGGATCCAGTTATCAATAAGCAAATTCATTTGTTCTCCTTCATATGC -TCCGACATTTCTCCTGCATTTCTATACGTCGGCACACTTCCGTTATCGGTAAAAACAAAGAAAAAATACGGCGTAATTAA -TTCAATAATCACATTCACTGCAAAAATATATTCATTGGTTTAATACAATTAACCTATACATATATTAAGATGTGTTGAAT -TGTTTAAAGACAATAATGCATGCATTTCAAATCTGCAAGTTATTCGTTTTATTATTAAAGAAACTTTTAGTTATAATAAT -TACCATGAATTTTATTACATAAAATATTCATACTGTGAATATAAAATCTCATACCGGGAAATTAAAAGAAGATGTACATT -GTGCACCTTCCCTACTTAAGTAGGGATAAACCGTTATTGGTCTTATTATCGTCATTGATAACAATCATTCCCGAAGTTAT -TTGGGATTTGCAGGGATGACTCTGGTCATCCCTTCATCCCCTGTATAGGTAATAACAATACTGTTACCCTGCCAGACCCA -TCCATCCAGATTCTGTTTCCCTTCCAGCCAAAGTAACCCATCTTCATCTACTACTTCAGAAAAACTACGTTTCCAGGTGA -AGGGTACATTGACGCGATTAAGTGCAAGCGCCTCATACTGCTGTTCATGACTTAGGTCCTCGTAGACCTGGCCATCGAGC -AGTTGTTTACCTGAAGACGTTTGTACATAAGGCAATAATGGCAGGCTCATTTCCCCATCCCTCGTTACCGCAAGAATGGT -TTCATCGTTATCCTGCAAGCTATATTCTTCAGCCCACTGCAGGACCTTGCGAGCCTTGAACCTTTTTTCACACTCGGCGC -TTTCAAATTTATCCATGCCATTGCCGACCCATTCTGGCTCATCCATTTCCGCATCATCGTAAATGCTATCCAGCCATTGC -CGGTAAGCATCAGGGAAAAATAAGGATGCTCCATTAAGCTCCTCAATATGTTGCTGCGTCCGCCACATGACTCTAACGTT -GCTATAAATATGCTCATGTCGTCCGTAACCCTCGCCATCAGGCAGCAAAATGGTGGCAACAGGAATCTCAAAACCAGCGG -GACGATATTTGCGATGATGGCGATGTAAACGGCCCAATCGTTGGAAAAGCAAATCTGCAGGACAATGCTGAGTAATTAAC -CAATCAAAATCAACGTCGAGTGATTGTTCCACGACCTGGGTTGCGACAAGTATCCGTCCAACATTTCGCTTCCCATTTTT -GCCGAAATTGCTAATAACTCGATTCTCTTTTTCACGACGATCGTTCAGCGTAAAGCGCGCATGAAACAAATCTATATCTA -CTTGCGTGTTATTTAGCTCCTTTAGCCGTTGGTAGCATACTTGTGCAACGTCAACCAAATTGCAAATAAGACAGACCTGT -GCACCCGCGTTTGCCGCTGCGATCATTCGCTCTAACATCGTAAGGTCAGGTAACATGTCAGCTAAACAAATAGGTTCTGG -CTGAATCGAAAAGCGGGGCGGGAGTTGTTCTGGATGAGCTAGCAGATCAAAACGTTGCGCACCATTCACACCTCGCCAGT -TAATGAGTGGATATGCGGAGTTATTTTCCACTGGATCTGTATGCAGACCATAAGTATCCAGAAGTTTCTGTTTTTGTTTC -ATTGGTAGGGTTGCGGAAAGAAGAATAACACTCCCTCCCACATCAGCCTGAGCCTTGAGCACTGCCTCCAGCAAGCCGTT -CATATAGGTGTCGTAAGCATGAACTTCATCAACAATTAAAACACTTCGACCAATTCCCAAACCACGGATAAAGCGGTGTT -TAACTGGCAATACCGATATCAACACCTGATCAATCGTGCAAACGCCGATTTGCCCAAGAAACACTTTCTTATTGCTTTGT -GACAACCACTGACAACACTGAACCCACGCTTCTTCTTGCCCCTGTTCAGTAATCGCGCGTGATTTTATTGATTGAAAGAG -GTGGTTAAACCGTGAATTGCCATGAGCAAGAATAAGATTTGGGGATGAAAATAAGTGGCTCGCGCTCGCTTCCATTCTCG -TAAGCATAGCATTCGCGGTAGCTTGTGTTGGGAGGGCAAAAATAACACTATCCGCAATTTGTTGATCAATAAGTTTCCAA -GCATAGGCCAGCGCTGTTTCCGTTTTACCGGAGCCTGTAGGTGCCTCTATTACCGTCAGCCCGGGAGCTACTGGAAGAGC -ATCAACTAACACCTGTAATTGTCTGGGTTGATAGCCATTGTCCAGTAGTGCATGAACACCTTCATAACATCGCTTATTTG -ATACAAGTCCACTCAACTCCAATACCCGGCTCGCATCCTGCTGTCGGTCCTGGAAATACGTTCTCAGAGCATTTATGTCG -GAAGGCGCATCCTCATTAAACAGAAAGGTATTCGTTGTAGTCCAGGAGCCTAACCAGTCAGCAAGCGAGCAAAAACCTGC -TAACAGTGATGAACAATCAGGTGGTATATCGTTTATAGATAACCCCGCTGGCGTTAAAAATAATGCTTCCAGTACAGATA -TCCACTCCTCACGAGCCTGTTTATCTTGCGCAGCATAAGATGCCAGAGAAGCTGGCATTTCCCAACGCGACTTATCTTGA -TCCTGGGAATGTAATATAAAACCATGATGTCCTGTAACGGCCTCTACCCATGGAAACCAGGACTCATAAGGATGAGGAGC -GGCATCAAAAAAACTGAAAAAATCCCCGAGAGATTGCTCTGAAAGTGAATCCTGGTTAAACCAATACAGACCGGCTGCAC -CATGATTAAATTTACGGCACATTTGTGTTGATGGACCATTAAGTGATGGCGTTGCAGGATTTAATTTCAGCCAACTTTCT -GCTGATTTATATTGGAATCGTATATCAAACTTTCCAATATCATGAAGAGCAATGAAAAATAACAGCCAGGCCTTCACCCT -CTGTTTTGATAGCATTTCATTTCGGCAAAAAGTATTTTGCAGTACGACTGATTGATCCCACCAGCAATCTGCAACAGCAG -CAACATCAAGGCAATGATAAATTAACAGATGAATATCATTTCCTTTCGTCAAGCTTTTTGAGGATTTTCCCCAGTAATGG -CATATATATTTAAAAGGTTCCATTAATAGCCTCCCTGTTTTTTTAGTATTATCGATGATATCAGCGGGCTATTTTTCGAT -GCTGCTCATAAATATCGAATTACAGTGATATACACATGTCTTGCCTCCCTGCAAAGAAGAGACTAACATTCGAATTGTTT -GGGTTCGAACGCTGGCCTCAGGTTGATAGAAATATCGCCTGGGGCTTTTGTCCATCTGGAACCTCGCGAATGCTTAACGC -CAGACAGCCTCAAGCACCCGACGCCATTCTATACCTGATAATTCTTCCCGCGGCGTTCACGTTTAAAATCAGGAATGCTG -CTCGCAAAATAAAAACGCCCCCATCATTTCTGACAGAGGCGTTTAATTTGTCCGGCAATATTTACCCTTCGTGTAACCCA -CATTCCCTTTTTAAGCCAAAGAAACGCGTTTCTTCTTCCGCCATGCCGGGTTCCCATTTACGGGTTGTATGGGTATCGCC -CACCGATAAATATCCTTCATCCCATAATGGGTGATATTTCAGGCCATGTTTTTGCAGGTACTGATAAATAGTTCGGTTAT -CCCAGTCGATAATCGGCAGCACTTTAAATACGCCACGCTGAATTGCCAGCACCGGTAAATTGGCACGACTGCCGGATTGT -TCACGGCGCAGGCCAGCAAACCAGGTTTGCGCATTCAGTTCTTTCAGAGCCCGGTTCATCGGTTCGACTTTGTTGATGTC -ATTGTACTTTTCAATGCCTTCAACGCCCTGCTCCCACAGTTTTCCGTAGCGTGCTTCCTGCCAGGCTGCGCTTTCGGTAG -CACGGTACACTTTCAGGTTGAGCTTGAGTTTGTCCGTTAACTCGTCAATAAAGCGGTAGGTTTCCGGGAACAAGTAACCC -GTATCGGTGAGGATCACCGGAATATCCGGGCGAATTTGATTCACCAGATGCAGGCTCACCGCCGCCTGAATGCCAAAGCT -GGAAGAAAGTACATATTCACCGGGCAGATTATCCAGCGCCCAGGCTACGCGGCCTTCAGCGTCCAGTTTTTCCAGTTCGG -CGTTAGTTTCCGCCAGCGCCAGAATGCGATCTACCTTCGGCAGTTCGTTCAGGGCGTTTAGATCGAGTTTGGACATAGAT -TCCTCACTGTTTGCCTTGCCTGATGCGACGCTCACGCGTTCTTATCAGGCCTACAAGACCGGGCTGATGGTTAATCCCAC -AAATCACGCGCCGGATCGAGCACCGGGCGAATGATGCCCGCACGCACCGTAAAGTCGCCGAAGCCTTCACCCGCTTCGCG -CTCTTTCGCCCAGCGCCCTATCAGTTCATCAAGCGACGCCAGGATTTCCGGCTCGGTGATGTTTTCTTTATACATCCGTG -GGATACGTGTCCCAATGCGGTTGCCGCCAAGATGCAGGTTGTAGCGACCCGGCGCTTTACCCACCAGGCCCACTTCCGCC -AGCATCGCGCGACCACAACCGTTCGGGCAGCCTGTTACACGCATCACGATATGCTCATCGCTGACACCATGTTTCGCCAT -TAAATTATCGATGTTGTCGATAAAAGACGGCAGGAAACGCTCTGCTTCCGCCATCGCCAGCGGGCAAGTCGGGAATGACA -CGCAAGCCATCGAGTTTTCACGCTGCGGCGTGACGGCATTCATTAACCCGCTCTCTTTGGCGATCTTCTCGATCTTCGCT -TTCTCGCTTTCCGGTACACCGGCGATGATCAGATTCTGGTTCGCCGTAATGCGGAAATCGCCTTTGTGGATCTTCGCGAT -CTCCAGCAGGCCGGTTTTCAGCGGACGCGCCGGATAATCAAGGATGCGACCATTTTCGATAAACAGCGTCAGGTGCCAGT -TATCATCAATGCCCTTAACCCAGCCAATACGATCGCCTCGTCCGGTGAACTCATATGGACGGATCGGTTCAAATTTGATC -CCCGCGCGACGCTCCACTTCCGCTTTAAACGTCTCAACCCCCACGCGCTCCAGCGTGTATTTGGTTTTGGCATTTTTACG -ATCGGTTCGGTTACCCCAGTCACGCTGAGTTGTCACGACGGCTTCGGCCACCGCCAGCGTATGCTCCAGCGGCAGATAGC -CAAACTCACTCGCGGTGCGGGCGTAGGTTTTCTTGTTGCCGTGTTCGATGGAAAGCCCACCGCCCACCAACAGGTTAAAG -CCCACCAGTTTGCCGTTTTCGGCGATCGCCACGAAGTTCATGTCGTTGGCGTGCAGATCGATATCGTTCTGTGGCGGGAT -CACTACCGTGGTTTTGAATTTACGCGGCAGGTAGGTCTGGCCGAGGATCGGTTCTTCATCAGTAGTGGCGACTTTTTCCT -GGTCGAGCCAGATCTCCGCATACGCGCGGGTACGAGGCAACAGATGCTCAGAAATCTTCTTCGCCCACTCGTACGCTTCC -GCGTGCAGCTGCGACTCGTAAGGGTTCGAGGTGCAGAGTACGTTACGGTTCATGTCGTTAGCTGTCGCCAGCGCATCAAG -ACCGACCGAGTGCAGCATCTGGTGCACCGGTTTGACGTTCTTTTTCAGAATGCCGTGGAACTGAAACGTCTGGCGGTTGG -TCAGGCGAATGCTGCCATAGATGGTGTTTTCACCGGCAAATTTGTCGATCGCCTGCCACTGTTTAGTGGTAATCACCCCA -CCCGGCAGACGACAGCGAAGCAGCATCGCGTGGCGCGGCTCCAGCTTCTGTTCAGCACGTTCGGCGCGGATGTCGCGGTC -ATCCTGCTGATACATGCCGTGGAAGCGAATCAGCAGGAAGTTGTCGCCCTTAAAGCCGCCGGTCAGACCGTCGTTTAAAT -CTTCCGCAATGGTGCCGCGCAGGTAGTTGCTTTCATGCTTCATGCGCTCGGCGTCTGTCAGTTTTCCTTCGACCACTAAA -GGCCCTGGATGTTTTTCGCTCATTAGTAGACATCTCGCTGATAACGGCGCTCTACGCGCAGCTCACTTAAAAATTCATCC -GCCGCTTCGGTGTCCATGCCACCAAATTCGGCAATCACTTCCAGAAGTGCCTGCTCAACGTCTTTCGCCATGCGATTAGC -GTCGCCGCAGACATAAATGTGGGCACCATCATTGATCCAGCGCCACAGCTCCGCGCCCTGTTCGCGCAGTTTGTCTTGTA -CGTAAACTTTTTCTTTTTGATCGCGCGACCAGGCAAGATCGATACGTGTCAGCACGCCATCTTTGACGTAGCGCTGCCAC -TCCACCTGGTACAGGAAGTCTTCCGTAAAGTGCGGATTACCAAAGAACAGCCAGTTTTTACCTGGCGCTTCGTCGGCGGC -GCGTTGCTGCATAAAGGCGCGGAACGGCGCAATACCGGTGCCTGGGCCAATCATAATCACCGGGGTTTCTGGATTGGCTG -GCAGGCGGAAGTTATCGTTATGTTCGATAAATACGCGGACTTCGCCCTCTTCTTCCACGCGGTCAGCGAGGAAGCTGGAG -GCACCACCGGCACGGGCGCGGCCTTCCACGTCGTAACGCACCACACCAACGGTGACGTGTACTTCGTTCTCGACTTCCGC -CTGCGAGGAGGCGATGGAATACAGACGCGGCGTCAGCGGGCGCAGCAGATTAATTAGCGCTTCGGCATCAAGCTGTGCCG -GGGAGAAACGCACCATGTCAACAATCGGCGTCGTCGCGGCGTAATGCTGTAACTTCGCTTTATCGCCCACCAGCGGCAGC -AGTGTTTCACTGCGGGTAAGCGTGGCGTAATTCTCAACAATGTTGGCGGTGTTGACGGTCAGTTCGAAGTGCCACTGTAG -CGCTTCGTTCAGAGGCAACGTTTTGCCCTCGACGGTGACAGGTTCATCGCCTTTCAGCCACAGCAGTTCGACAAGTTCTT -TCACCAGTGCCGGATCGTTCTGATACCAGACGCCCAGCGCGTCACCCGGCTGGTAACGCATGCCCGAGTCACCTAAGTCA -ATTTCGATATGGCGAACGTCTTTTTCAGAGTTACGCCCGGTAATTTTCTGGTTAACAGAGAGGCTAGCCACCAGCGGCGC -GTCTTTGCTGTACGGGCTGGTGTGGATTTCATTTACCGCGCCAGTAGCGACGGATTGCGAAGGTGCCGCGACAGGCGCAC -GCGATTTAAGCGCATCAACCACGCGGGCGCGCCACTCGCTGGCAGCAGCCTGGTATTCAACATCGGCATCGACACGGTCG -AGCAGGCGTTCACCACCCAGTTCCGCCAGCTTGCTGTCGAAATCTTTCCCGGACTGGCAGAAAAATTCATAAGAGCTATC -GCCGAGGCTAAACACGGCAAACGCGGTGTTTTCCAGCTTTGGCGCTTTTTTGGAGAACAGGAACTTATGCAGCGCGACGG -CTTCTTCCGGCGGTTCCCCTTCCCCTTGCGTTGACGTCACTACGATGAGCAGTTTTTCGCTGGCGATTTGTTTGAATTTA -TAGTCGCCCGCGTTCACCAGCTTAACGTTCAGTTTTGCTGCTAATAAATCATCACGTAATGCTTCAGCAACCCGGCGCGC -ATTGCCGGTTTGCGAGGCGGAGATAATAGTTATACCCGGCATTTCTGCGGCTGGCGCTGGCGTCGCTGCAAGCGCAGCAG -GCTGCTGATTGAGTACGCCCCAGAAATAGCCAGAAACCCAGGCAAGCTGGGTGGGAGTTAAATCGGTCGTGGCCGCCTGA -AGGCGTGCCAGTTGCTCCGGGTTCAACGGAAGCAACGCGGAAGGTGGGACCTGTGTCGTCATGCGTCGTTATGTTCCAGT -AAGCAAAGCTGTTTCTGCGCCCTGTCAGCGCCCATAAAACAGAAGAGAAGGTAAGGTTAACGGGGCAAACGGTGTGGATT -AAAGACGGGATAGCGATAACTAATAACCAAATCGACTAACCTGTTTTAGCAATAGTCTTTAACAACAAAATAGATTAACC -AACCTAATGAAAAACAAATGAATTTAGCCAATCATTAAGATAAATCAGCGATTTTGCGCAACAAAGTCGTTTTAGATAAT -GCGAAAAAACAGCCTTTCCGGTACTCTACGGCGGTTTTATCGTCCTGTAGAGAAATTATGATGTCCACCACGTTATTTAA -AGATTTCACCTTCGAAGCCGCTCACCGCTTACCACACGTCCCGGAAGGGCATAAATGTGGTCGCCTGCACGGGCATTCCT -TTATGGTGCGACTGGAAATTACCGGGGAAGTCGATCCGCATACGGGCTGGATTATCGATTTCGCTGAACTAAAAGCGGCG -TTTAAACCAACCTACGAGCGCCTCGATCACCATTATCTCAATGATATTCCAGGTCTGGAAAACCCAACCAGCGAGGTTTT -AGCAAAATGGATTTGGGATCAGGTTAAACCCGTTGTGCCGCTGTTAAGTGCGGTGATGGTAAAAGAAACCTGCACCGCAG -GTTGTATCTATCGCGGCGAATGATAAGAGTGTGTCGGCGGTCAATTTCCCTTAAGTAACGCTATGTTAGGGTGTTGTGTT -CTGGATATCTGGGGCATGACATGGAAGACGACTGCGACATTATTATTATTGGTGCCGGTATTGCAGGCACCGCTTGCGCG -TTACGCTGCGCGCGAGCGGGTTTATCCGTTTTGTTACTGGAACGCGCTGAAATCCCCGGCAGCAAAAATCTTTCCGGCGG -GCGGTTATATACCCATGCACTCGCGGAACTCCTCCCGCAATTTCATCTGACCGCGCCTCTTGAACGACGCATCACTCACG -AAAGCCTTTCCCTGTTAACGCCCGATGGCGTAACGACGTTTTCCAGCTTACAGCCCGGCGGTGAATCCTGGAGTGTATTA -CGTGCACGATTCGATCCGTGGCTGGTTGCCGAAGCCGAAAAAGAAGGTGTCGAATGCATCCCCGGAGCGACGGTGGATGC -ACTGTATGAAGAAAACGGCAGAGTCTGTGGCGTTATTTGTGGTGACGATATTCTCCGCGCCCGTTATGTGGTGCTGGCAG -AAGGTGCCAACAGCGTCCTGGCTGAACGTCACGGGTTAGTGACTCGTCCTGCTGGCGAAGCGATGGCGTTGGGGATCAAA -GAAGTGCTGTCGCTGGAAACATCCGCTATTGAAGAACGTTTTCATCTGGAGAATAACGAAGGCGCAGCGTTGCTGTTCAG -CGGCAGGATCTGTGATGACTTACCCGGCGGCGCATTTCTTTATACTAATCAACAAACGCTCTCGTTAGGGATTGTTTGCC -CGCTCTCTTCCCTTACGCAAAGTCGTGTTCCGGCAAGCGAGCTGCTGACTCGCTTTAAAGCGCATCCGGCAGTGCGCCCG -CTTATCAAAAACACGGAATCACTGGAGTATGGTGCGCATCTGGTGCCAGAAGGTGGCTTGCACAGTATGCCGGTGCAATA -CGCCGGTAACGGCTGGCTGCTGGTGGGCGATGCGTTGCGCAGTTGCGTCAATACCGGAATTTCCGTGCGCGGCATGGATA -TGGCGCTGACTGGCGCGCAGGCGGCGGCACAAACGCTGATAAGCGCCTGCCAGCACCGCGAGCCGCAAAATCTGTTTCCG -CTTTATCATCACAACGTAGAGCGCAGCCTGCTGTGGGATGTTCTACAGCGTTATCAGCATGTTCCGGCGCTTTTGCAACG -CCCGGGATGGTACCGTACGTGGCCTGCGTTAATGCAGGATATTTCCCGCGATTTATGGGATCAGGGTGATAAACCTGTTC -CACCGCTGCGCCAGTTATTCTGGCATCATTTACGTCGTCACGGCCTGTGGCATCTGGCGGGCGATGTTATCAGGAGTCTG -CGATGTCTGTAGCCCGTAATCTCTGGCGCGTTGCTGATGCGCCGCACATTGTTCCGGCTGACTCCGTTGAGCGCCAGACG -GCAGAACGGTTGATTAACGCCTGTCCGGCAGGTCTTTTTTCGCTCACACCGGAAGGTAACTTACGTATTGACTATCGCAG -TTGCCTGGAGTGTGGCACCTGCCGTTTGCTGTGCGACGAATCAACACTACAACAGTGGCGCTATCCGCCTTCCGGATTCG -GCATCACCTACCGCTTTGGATAAATAATAAGGATAATTTATGCCCCTCTTACACCTGCTCCGCCAGAATCCGGTGATTGC -TGCCGTTAAAGATAATGCCAGCCTGCAACTGGCAATCGATTCTGAATGCCAATTTATTTCCGTGTTGTACGGCAATATCT -GCACCATCAGTAATATCGTTAAAAAGATTAAGAACGCCGGGAAATATGCTTTTATTCATGTTGATTTGCTGGAAGGCGCG -TCAAATAAAGAAGTCGTTATTCAGTTTTTGAAACTGGTGACCGAGGCGGACGGCATTATCAGTACCAAAGCCTCAATGTT -GAAAGCGGCAAGAGCGGAAGGTTTTTTCTGTATTCATCGCCTGTTTATTGTTGATTCAATTTCGTTTCACAACATTGATA -AGCAAGTTGCGCAATCGAATCCGGATTGTATTGAGATCCTGCCAGGCTGTATGCCCAAAGTGCTGGGCTGGGTGACAGAG -AAAATCCGCCAACCGCTGATTGCCGGTGGGCTGGTGTGCGATGAAGAAGATGCGCGTAATGCGATTAACGCGGGTGTCGT -GGCGCTTTCCACCACGAATACCGGGGTCTGGACGTTAGCGAAAAAATTACTTTGACGGGATAATCGTAACCAATTGAATT -TGGTTTGATTTGTAGGCCGCACGCCACATCCGACATTCAGCGCCTGATGCGACGCTTGACGCGTCTTATCAGGCCTACAA -GTCCCCAGGCCAGAACCGTAGGCAGGATCATCCGGCAACACGTTATTGGCAATCTGCGTGAATGTTTGTCACCAGTGCCT -CCAGCACCACTTTCCAGTCATCAACCACGCCAACATCTGCCTGTGAAAATACCGCAGCGCTGGCGTCATGATTAATCGCC -ACCACAAACTTGCTATTGCGTACGCCCGCCATTAACGCTGCTGCGCCAGAAGCGCCAACAACAATACACACCTCAGGTGC -CAGCAGATGTCCGGAAATACCAATCACTTTTTCAGCATCAACGCCACCGTTCATCACTCGCGCCCGACTGTAGCCCACTT -CGGCTCCCAGCTTTTCTGCCAGCATAGCGATTTCCTGGTTATCTGCCTCTCCGCCCTGCCCCACCACCAGCACCCGTCTG -GCCTCAGCTAATGGGTCGCGGGTAACATTTTTCAGATCCTCTGTGCTAACCAGCCAGTCCGGAAGCGCACCCGGGACAAT -GTTCAGTTGTTGCATTCCAGAGGGCAACGTGGCGTTTTTCGCTGCTCCCGCCTGACGCGCCAGGGAAAGGCATAGCGGGC -GTTTTTCTGTTTGCAGCGTCGCCGTTAGCGCATTTCCCCAGTGGGATTTGCGCACGCTTACGGTTGGAATATCTAACGAA -GTCACCTGGCAGATGCTTGCACCATGTAAACGCCAGGCCAGCCGGGTCGACAGTTCATCGCCAAACGTTCCCGGCGGAAA -GAGAACAACGTCCGCAGGCGTTCGCTGCCACTGTTCCACCAACGCATCCAGCACCTGTTCCGCCACTACAGGCTGAGGTT -CAATCTGCCAGTGCGCCAGGGTACAACCGCTGAAATCCTGCGCCGCCAGCCAGCTTGCTATTGCGGCATTCTCCTGATTT -ATTGTCACAATTGCGATATTCATGGCTGCATCCTTTGGCGTAAATAGTCCTGCCATAGCTTTTGAGCTTTTTCTGCTACC -GTTTGCCCATCAATCAGCGTCGCTCCGCGTCGTTGCTCTGCTCTTGCCAGTTGCAGACACTGCATCGCTGGCATTTCGGC -AGCAACAGTTTTACGGATAATTTCTGCTTTCCCCGCAGCCATTCGCTGGCGCATTCCCGGTACTGGCAAGGCCACTTCAC -CGCACTGACGCACGGCAATCACCGCAGGCAAGCGAACCCGGCAACAACGCAACCCATGTTCAGTACGCTGTTCGAGGGTG -ATAAACAGCGCGTCGAGAGTGAAACGCTCCACCTGGGTGAAGCAGGGCCAGCCCAGCATTTCCGCCAGCAAAAATGGCGT -TTGCCCATTCTGCCCTTCGCTGCTTTGGCAGCCGGTAATTATCAGATCCAGCGGATTCTGATGCTGCCATTCGGCAATAT -GGCGAGCGACAAATTCCGGCGCAAAGCGCAGATCTGCCGCCGTCTCCAGCAATACAGCTTCCTCAAACCCAAGAGCCATG -AGATAGCGCAGCCAGTGCAATGCCCGTTCATCCCCCATGCTCAACGCGGTTAAAGACATCGGCGTACCGTTTTTTCTCTG -CGCCAACAGCAGCGCGGCAGCGGCCTGTTCATCAGCACCGAGTAAACTTCGCAGTAGCGAAATATCCGGTCCGCTTTTAC -CCTGAGCCGCCGCCTGCCACTCTTTTTCCGCCAGCATTCCGGCATCCGGTTCGGCTTTAAACGCTAACAGAATGTTCATT -CGCACCTCCTACATTTCCCGCCGCCACCAGCGGGAGGGCTTTAGTTTCTGGTGCCCATAGCCAGGTCACAACAAAACCAA -CCAACAACACTGTCGCCAGGAGCAATAAGGTGACTTGCATTCCCCACTGCGCCAGCACCCACGGCAGCAGGCCAGTACTT -ACCGCCGCGCCAAGTCGACTCATGGCAGTGGCAAAACCGACGCCCAGCGAGCGAATGTCAGTAGGAAAACTTTCCGCAGG -CAAAATGCCCACCAGATTACTGACTGCCGAAATGGTGGTGCTGAAGAGAACAAAAAGCAGCAGCGTTAATGAACTGCCGG -AAGGCAAACAGGCCATGACTACCAGCGTTGCCGCCAGCAGCAAAAAACTTCCCAGCAAAAATTTGCGATGTGCCAGCAGG -TGCGTCAGAACTAATCCCAGCAGCGCGCCCACAATTAACAACGCATTAAGCATCAGGCTGGCAGTCAGCGCATCTTCCAG -ACCAATAGTCTGGGCGATAGTTGGCAGCCAGGTATAAATCACAAACCATGGGATTACGAGGCAGACAAAGAAGACGCTGT -TAAACGCCGTGCGCCGCCAGTAACGCGAAGAGAACAAGGTTTTGATGTGTTTATGGGTCGCCGTTACCACTTCATCGCCC -AGTAAAACATGGGGACCAAAATAGCGATGCACGATAGCGTGAGCTTCTGCAAAACGCCCCTGGCGCAGTAGCCAGCGTGG -TGATTCTGGCGTTCCCCAGCGTAATAACGTAATCAACAACGCGGGCAGAGCTGCCGATGCCAGTAGCCAGCGCCAGGCCT -CCGGGTTTTCGGAAATAAAGTGATGTCCGGCAATACTTGCCAGCACATAGCCTACGGTCCACACCACGCTGAATGCGCCC -AGCAAAATACCGCGATGGCGGCGCGGGGAAAATTCAGCCAGCAAGGTGTGACCTACTGAATAATCGCCTCCCAGACCAAT -GCCAATCAAAATGCGCAGTCCAATAAGATGCTCTGGCGTGGTGGCAAAAAATTGTAAAAACGAAGCAAGCGTAATCAGCA -AAAAGCTGAAGGTGAAGATTTTTTGCCGACCAATATGGTCGGAGATCCACCCAAGAACCAGGCTGCCAAGGAACAAACCA -AGGAGCGCCGAGCCGCCGATCATTCCCGCCATAAACGGCGTCAGTTGCATGGCGGGCGTAAGCTGAATAATGGCGTAACC -AATGACGCCGAGAACATAACCGTCGGTCAGGTGTGCGCCGAAAGTGAGCGCAGCAATGCGGCAGTGAAAACGGTTAAGCG -GTAAATCATCCATTCGCACCGGTGAAGTGTTCATCTTTACCCCTTCATTGTCCGGTAATAAGAACGGCTTCTCGCCTGAG -AAGCCGAAAAGGCAACGCCCCGTCATCGCGGAACGCTGCCTGACACATTATTTTTCAATCGGATAGATAGTACCCGTATT -CATAATGCCATTAGGATCGAACTGCTTTTTCAGCCCTTCCAGCAACGCCCACGCGCTGCCGTGTTCCAGTTTGCTCCAGT -GAACGCGATGTTTACCGATACCGTGGTGGTGCACCATCGAACCGCCGAGGCGAATGGTTTCTTCACAGATGATCTTGTTG -AGCGGATTGTGGTACTTGTCGATTTCCTCTTCCGGCTTACAGTCAACGACGTTGTAATCGTAGACGAAGTACATGTTGGT -GCCGTTCTGATAGCTATGAGAGGAATGACCGCCCAGCATGGTGATGTCGTCGGCGTGCGGGAACTCAGTACGAATACGGT -TAATAACGCTTTCGTAGATTTCGTGGATGCAGCTCCAGCAGCCGGATACTTCGGTGGTAAAGCCCATGTTGCCGGTTTTG -AGGATCTGCACACGTTCGGCAGCCACTTTATCCGGTCCCCAGTTCAGGTTGTTAAACCAGGTTTCGATCAGCTTGCTGTC -CACGCGCTGGCATTGCGGGTAGCGGGCAACGATTTCCGCAATCCCTTCGCCCGTCACCTTCGCAATGCGAGGGTTACCTT -CAGCCATAAAGATCAGCACGCATTTTCCGTCGGCAAAATGGGTGAAGTGTTGGGTGCCATCTTCAGCGTCATACAAACGA -GCGATTGACGGACGATACCCTTCCACCATGATTTCACGCAGGATGTTGAAGCCGGTTTTCATGTCTTCCAGGATATAGCC -GTAGAAGAGGTTGTTTTCCGGGGTGAATTTAAAGATTTTCACTGTTACTTCAGTGATATAGCACAATGCACCTTCGTTGC -CGATGATGATGTGACGAATGTCCGGGCCAGCCGCGCGGCGTGGCACGTTTTTAATGCGTGTGACGGTGCCATCAGCCAAT -ACTGCTTCCAGACCAACGACCATATCTTCGATTGCGCCGTAGAGTGTGGAGAACTGCCCGATACTTCGGGTTGCTACCAG -GCCGCCCATCTGCGCCAGCGGCTTTGACTGCGGAGAATGCCCCGTGGTGTAACCTTTTTCACGCAACGCGTTTTCCAGCA -CTTCCAGCGGAACACCACATTGCGCCGTCGCCTGCATATTCTCAATATCAATATTAATGATTTGATTCATGGCGGAGCCG -TCGAGCACCACCGAGTTTTCTACAACAGTTTCCAGCCCACCTTCGGTGGCGGAAGCACCGGTACGCGGCACACCGTTAAT -TTTGTGCGCATTCATAAAATTCAGCACACGGGATACTTGCTCTGTGGAACCGAGTTTTACGACCGCTGCCGGAATCGGCA -AAGTATAAATGCCATGAATATCCGGAAATTTACGAAAACGGTCAATACTGTTTTTCTTTAATACTGTTTCATCGGTAATT -ACGCGATCTGCACCAACAATTTCCTTTAGCTGGTCGACAATCGCTGCGCGAGATAAAGACATAGTAATTCCTTCCTGATA -ATAAAAATGGAATAATCATTAATAAGAGAAAACAGAAACCACCGTTATGGGTTAGCGCACTAAATAACCGCCATCAACCA -CTAATAAATGCCCGTTGACATAATTCGATGCCGGACTTGCGAGGAATACGGCTGCGCCCATTAAATCCTGAGTATCGCCC -CAACGGTTTGCCGGAATATGATCAAGAACGCGCTGATTGGTTTCTGGATTACTGCGTGTCGCCAGCGTAATATCTGTTGC -ATAATAGCCAGGGGCGATACCATTTACCTGAATATTATATTGACCTAGTTCATCACAATAAGCTTTGGTGAACCCGGCAA -GAGCATGTTTAGTGGCAGAATATGCAGGTGACCATTGTCCACCTAAGTAAGAGAACAATGAACAGATATTAATAATTTTG -CCGCTTTTCTGCGGGATCATAATTTTTGCAGCTTCATAGCTTAACTCGAATGCGGCGGTCAGGTTCACATCAATCATCGG -ATCCCAGTCGGCACGACCGAAGTCCAGCACCTTATTCAGCTTACAAATACCGGCATTGTTAACCAGAATATCAACTGTAC -CGAAACGCTCACAGCAAGCAGCGATAATCTTCTGCGGCGCGCCTTCTGCGGTGATACCCACCTGCATGAAGTCCACCTCA -ACACCCTGTTTTTCAATCATTTCCTTTGTTTCGCCGTTATCTTTGACGAAACTAGGAATAAAGATATTTGCGCCAGCTTT -GGCCAACGCCATGGCAAATGCCTGGCCTAAACCGCTATTCCCACCGGTAACAATTGCGGTTTTACCTTTCAGGGAGAAAA -AATCCATTGAGAACGCATTGAGAGATTCGATTGACATAGTTAGCTCCAATTTCCGTAAGGCAAAAAAAAAGAAAGGTAAC -TTCCCCCGCGAGAGGGAAGTTACCTTTCTCATTATCTCTGGTAACTGGAGATAATTTTTAGCATAAGGGCATAACTGCTA -ATGTGATCGTAATCACAGTGTGATATTCGTATTGTCAAATAATTTTAAAAAGCAGAAGCGTGATTACTCTCACACAACAC -CTCTGCTTTCCATGTTATTTATTATTTCAATTACTAGAGACCTGAGAAAAGTAATCCACCTGAAAGGGCGGCTTACTTTT -CTCTTTTTTTTGTCTATTACAAATGGGAATACGATATGCAACACAACTCATATCGCCGTTGGATAACCCTCGCGATAATT -AGTTTTAGCGGCGGCGTTAGTTTCGACCTGGCTTATTTACGTTATATTTATCAAATTCCCATGGCGAAATTTATGGGATT -CAGCAATACCGAGATAGGTTTAATAATGAGTACCTTTGGTATTGCGGCCATTATTCTTTATGCCCCCAGCGGCGTTATTG -CCGATAAATTTTCACACCGCAAAATGATTACTTCCGCGATGATCATTACCGGATTACTGGGTCTGTTAATGGCAACGTAT -CCACCGCTGTGGGTAATGCTCTGTATTCAGATCGCCTTTGCGATAACGACGATTTTAATGCTGTGGTCGGTGTCGATTAA -AGCTGCATCGTTGCTTGGCGATCATAGCGAGCAAGGGAAAATTATGGGCTGGATGGAAGGGCTGCGCGGCGTCGGTGTAA -TGTCGCTGGCGGTGTTTACCATGTGGGTCTTTTCTCGCTTTGCACCGGATGACAGCACCAGCCTGAAAACGGTCATTATC -ATCTATAGTGTGGTTTACATCTTGTTGGGGATTCTGTGCTGGTTTTTTGTTAGCGATAACAACAACCTGCGCAGTGCCAA -TAACGAAGAAAAACAGTCATTCCAGCTTAGCGACATCCTGGCCGTTTTGCGTATCAGCACCACCTGGTATTGCAGCATGG -TGATTTTTGGCGTCTTCACCATCTACGCCATTCTGAGTTACTCCACCAACTATCTGACCGAAATGTATGGCATGTCGCTG -GTGGCGGCGAGCTACATGGGGATTGTGATCAACAAAATATTCCGCGCGCTGTGCGGCCCACTTGGCGGCATAATCACCAC -CTACAGCAAAGTGAAATCCCCTACCCGCGTGATCCAAATCCTTTCCGTACTCGGCCTGCTGACGTTAACTGCCCTGCTCG -TCACGAACTCTAACCCGCAATCGGTCGCGATGGGGATTGGCCTGATTTTACTGCTGGGATTCACCTGTTACGCCTCACGC -GGGCTGTACTGGGCCTGCCCTGGCGAAGCGAGAACACCGTCTTACATTATGGGCACCACGGTAGGTATTTGTTCGGTGAT -TGGATTCCTGCCGGATGTCTTCGTTTACCCAATTATCGGCCACTGGCAAGACACCCTGCCCGCTGCAGAAGCCTACCGCA -ATATGTGGCTGATGGGCATGGCGGCGCTTGGCATGGTGATTGTCTTTACCTTTTTGCTGTTCCAAAAAATTCGTACTGCT -GATAGCGCCCCCGCAATGGCTAGCAGCAAGTAAGCCAGGAAAATTACAGGAGAAAAATCATGTCGAAAAAATACATCATA -GGGATTGATGGCGGAAGTCAGAGCACAAAAGTGGTGATGTACGATCTGGAAGGTAACGTGGTTTGCGAAGGCAAAGGCTT -ATTACAGCCGATGCACACGCCAGATGCCGATACTGCAGAACATCCTGACGACGATTTATGGGCATCATTATGTTTTGCCG -GTCACGATTTGATGAGTCAGTTTGCCGGGAATAAAGAAGATATTGTCGGTATTGGTCTGGGATCCATCCGTTGCTGCCGT -GCGTTATTGAAAGCCGATGGCACGCCTGCTGCGCCGTTGATTAGCTGGCAGGATGCACGCGTTACACGCCCTTACGAACA -CACTAACCCTGACGTGGCATATGTCACCTCTTTTTCGGGTTATCTGACGCATCGCTTAACCGGCGAGTTTAAAGACAATA -TCGCCAACTATTTTGGTCAGTGGCCGGTGGATTATAAGAGCTGGGCATGGAGCGAAGATGCTGCGGTAATGGATAAGTTT -AATATCCCCCGTCATATGCTGTTTGATGTGCAAATGCCTGGCACCGTCCTCGGACATATCACACCACAAGCCGCACTGGC -GACACATTTCCCGGCAGGACTGCCGGTTGTTTGTACCACCAGTGATAAACCGGTAGAAGCTCTGGGGGCCGGATTACTGG -ATGATGAAACGGCGGTAATTTCTCTTGGCACTTACATCGCATTGATGATGAACGGCAAAGCACTGCCGAAAGATCCAGTA -GCGTACTGGCCGATTATGTCTTCTATTCCGCAAACATTGCTGTATGAAGGTTACGGTATTCGCAAAGGCATGTGGACGGT -GAGCTGGCTGCGCGACATGCTAGGCGAGTCGTTAATTCAGGATGCCAGGGCGCAGGATCTTTCACCGGAAGATTTACTCA -ACAAAAAAGCTTCTTGTGTGCCGCCAGGCTGTAATGGTCTGATGACGGTGCTGGACTGGCTGACCAATCCGTGGGAACCG -TACAAACGCGGGATTATGATCGGCTTTGATTCCAGCATGGATTACGCATGGATATATCGTTCGATACTGGAAAGCGTGGC -GCTGACGCTGAAGAACAATTACGACAATATGTGTAATGAAATGAATCACTTTGCGAAGCATGTGATCATTACTGGCGGCG -GTTCGAACAGCGATCTGTTTATGCAGATTTTTGCCGACGTGTTCAACCTTCCGGCACGACGTAACGCCATTAACGGTTGT -GCAAGCCTGGGGGCAGCGATTAATACAGCGGTAGGTCTGGGGCTATACCCGGATTACGCAACGGCTGTCGATAACATGGT -TCGCGTGAAAGATATCTTTATACCGATTGAGAGCAATGCCAAACGCTACGACGCGATGAATAAAGGCATTTTCAAAGACC -TAACCAAACATACTGATGTGATCCTGAAAAAATCGTATGAAGTGATGCATGGGGAATTGGGGAATGTGGATTCGATCCAG -AGCTGGTCGAATGCGTAAGTGAGGAAGGCCGGGCGGGAAACTGCCCGGCCTGAACATACCTGAATGGTTATCCCCGCTGA -CGCGGGGAACATAAGTTCGACAACTTAAAAAATGATAACAAGTCCGGTTTATCCCCGCTGATGCAGGGAACATAATAAAA -ACTTTAACTAGTTCGGTTTATCCCTGTTTTTACAAGGAATATTAACTACACTCGATGTCTTTAGAATAAAAGACAATACG -AATCGCACTTTATCAATTTTCACTTAAAGTATGAACTGGATATCTTTATTCATAAGAACTATTCATCAACAGCGTATAGA -GGCGGTTATGTAAAACCACTCATTAGCCTCAAAACAAAGACAAACTTCCAGATTTATTACTTAACCAATGAATAACAAGC -TTAAAAAATATACTGTTATTCTAAAGAAAAAATTAACAGGCATTAATTCAATATTAAAAAAATAATAGATTAAAATTTCT -TAACGATTTAAGAATCATACAAATAACACTTTGATTAAATTTAATTTTTTGTATCGATAATTGTGAACCTCTCTGGCATG -GAGAACTATTTTGAACATGAGGTGTTACGTGGATATGTTGCTTATTACAAGTACTGCTAATATAAAAACTTGAGAAAGAG -ATAACGGGTTATATGGTGGTTTATCCCCGCTGGCGCGGGGAACTCGACAGAACGGCCTCAGTAGTCTCGTCAGGCTCCGG -TTTATCCCCGCTGGCGCGGGGAACACCTGTTTTCGCAAATCTATGGACTATTGCTATTCGGTTTATCCCCGCTGGCGCGG -GGAACACGGGCGCACGGAATACAAAGCCGTGTATCTGCTCGGTTTATCCCCGCTGGCGCGGGGAACACTGGCTCTGCAAC -AGCAGCACCCATGACCACGTCGGTTTATCCCCGCTGGCGCGGGGAACACGAAATGCTGGTGAGCGTTAATGCCGCAAACA -CAGGTTTATCCCCGCTGGCGCGGGGAACACATTACGCCTTTTTGCGATTGCCCGGTTTTTGCCGGTTTATCCCCGCTGGC -GCGGGGAACACTCTAAACATAACCTATTATTAATTAATGATTTTTTAAGCCAGTCACAATCTACCAACTTTATAGTATCA -CACAAACAACACATCCATTATGTTAAAGAGCACTTAATCCATTGATTAAAAAGGTAAATATTTAAAATAACTCTATACAA -ACTAAAATCTACCAAACTTTACCGCAATAATTTTCACTCCAGCGAAAAATTAATGCCACAGAATTTGTAGAGAATGCTAA -TGATTAGCCCTGGATGGGTAAAATGGAGGAGTTTTCAGAGGCGACAAACAATATAAATGAGTAGAAGTCTTTACAGGTTC -CACCCATTTATAACGCTTATAAATGTTTAATCAGGCAATATTTAGATATTTATGTGTTTGCATCGACAAACGCCAATTAC -GCGCAATGCAGGTTTCAATGCACAAACGTGTGGCATCATCCTTTTGGCTAATCGGCTGCAGTGCAATGACTCGCGGTTTA -TCATCGGTCAGCGTTGCCAGTAGTTCATCCAGTGCTTCAATATCGCGTACGCGCCCCACTGGATGCTTGATTTCGTTGGC -TCGCTCCAGTGCCTGTGACAACACTTCATAGCCGCCGCGCATGTTCAGCTTTGGCGATACGGTAACCCAGGTATTCGGTG -TGCAGCGTACCTCATGAGTACCACTGGTTTCGATCTGGCAGCTAAAACCGTTCTTTTCGAGCAGATCAGTCAGTGGCAGC -AAATCATGAATGCAAGGCTCACCACCCGTAATCACCACATGCCGCGCGGTGTATCCCTGGCGACCAATGACAGCCAGCAA -ATCTTCACTGCTCGCAGCCCCCCACTTATCACTCTCTTTGGTCTTCGCCAGAATGCTGAAAAGGGAGACTTCCCGATCCT -CAAGCTTTTCCCAGGTGTGTTTGGTGTCGCACCAGGCACAGCCAACCGGGCATCCCTGTAAACGAATAAAAATGGCGGGA -ACGCCGGTAAAGTAACCCTCACCTTGCAGGGTCTGGAACATCTCGTTAATCGGGTACTGCATAGCATTCTCTGTGAAGTG -GATAATTGTTAATTATTGCAGATCCTGCCACAACAATCATGTCTTATTAACATTCTGTTACAGGCAGGTTTAAAGAAAAA -TGCGAAACATATCGTTAATAATTAAAGGGAGTAACGTATTATGTCAGAAGAAAATAAAGAAAATGGATTTAATCATGTCA -AAACATTCACCAAAATTATATTTATTTTTTCTGTATTAGTTTTTAATGATAACGAATATAAAATTACCGATGCCGCCGTC -AATTTATTTATCCAGATTTAATGAGAAATTTATAATGCGCTATTTCATACTAATGTTCACTTTCGTATGTTCCTTTGTTG -CAGCCCAACCAACTATTGTCCCACAATTACAGCAACAAGTTACGGATCTTACGAGTAGCTTAAACTCATAAGAAAAGAAA -GAACTGACGCACAAGTTAGAATCTATTTTCAATAATACCCAAGTGCAAATTGCCGTATTAATTGTTCCCACAACCAAAGA -CGAGACAATTGAACAATATGCTACAAGAGTTTTTGACAATTGGCGTTTAGGAGATGCCAAACGTAATGATGGGATACTGA -TCGTTGTTGCCTGGTCGGATCGCACTGTCCGCATCCAGGTAGGTTATGGGCTGGAAGAAAAGGTAACCGATGCTCTGGCT -GGAGATATCATCCGTAGCAACATGATACCCGCATTTAAACAACAAAAATTAGCTAAGGGATTAGAGCTAGCTATAAACGC -TTTGAATAACCAACTCACTTCACAACACCAATATCCGACTAATCCTTCAGAAAGTGAATCAGCGTCTTCCAGTGATCATT -ATTACTTTGCTATTTTTTGGGTATTTGCAGTGATGTTCTTCCCTTTCTGGTTTTTTCATCAAGGCAGTAATTTTTGTCGC -GCATGTAAAAGTGGAGTCTGTATTTCAGCAATCTATCTTTTAGATTTATTCCTGTTCTCCGATAAAATTTTTTCCATTGC -TGTATTTTCCTTCTTTTTTACTTTCACCATATTTATGGTCTTTACCTGTTTATGTGTACTTCAGAAAAGAGCATCTGGTA -GAAGTTATCATTCAGACAACAGCGGTTCCGCTGGAGGCTCAGATAGCGGCGGATTTAGCGGCGGGGGCGGTTCTTCTGGA -GGTGGCGGCGCATCCGGCCGCTGGTAACTCAACCATAAAAAATGCCAGCCCGGAGGCTGGCATTTTTAAATCAGATAAAG -TCAGTCTTATGCCTGGCCTTTGATCTCTTTACGACCGTTGTACGGTGCTTTTTCGCCCAGAGCTTCTTCGATACGAATCA -GCTGGTTGTATTTAGCAACACGGTCAGAACGGCTCATAGAACCAGTTTTGATCTGGCCTGCAGCAGTACCAACAGCCAGG -TCAGCGATGGTAGCGTCTTCAGTTTCGCCAGAACGGTGAGAGATAACTGCAGTGTAGCCAGCATCTTTCGCCATCTTGAT -TGCAGCCAGAGTTTCGGTCAGAGAACCGATCTGGTTGAATTTGATCAGGATGGAGTTAGCGATACCTTTTTCGATACCTT -CTTTCAGGATCTTGGTGTTGGTTACGAACAGGTCGTCACCAACCAGCTGGATTTTGTCGCCCAGAACTTTGGTCTGGTAT -GCGAAACCGTCCCAGTCAGATTCGTCCAGACCGTCTTCGATAGAAACGATCGGGTACTGTTTGGTCAGTTCTTCCAGGAA -GTGAGTGAATTCTTCAGAGGTGAACGCTTTGTTGCCTTCGCCAGCCAGAACGTATTTACCATCTTTGTAGAATTCAGAAG -CTGCGCAGTCCATCGCCAAAGTGATGTCTTTGCCCAGTTCATAACCAGCAGCTTTAACAGCTTCAGCGATAACAGCCAGA -GCTTCAGCGTTGGAACCCAGGTTCGGCGCATAGCCACCTTCGTCACCAACAGCAGTGTTCATGCCTTTCGCTTTCAGAAC -TTTTGCCAGGTGATGGAAAACTTCAGAACCCATGCGGATGGCTTCTTTCACAGTTTTCGCGCCAACCGGCTGAATCATGA -ATTCCTGGATATCAACGTTGTTGTCAGCGTGCTCACCACCGTTGATGATGTTCATCATCGGAACCGGCATAGAGTATTTG -CCCGGAGTACCGTTCAGTTCAGCGATGTGCTCGTACAGCGGCATACCTTTAGCAGCTGCAGCAGCTTTGGCGTTAGCCAG -AGATACAGCCAGGATTGCGTTCGCGCCGAATTTGGATTTGTTTTCGGTGCCGTCCAGGTCGATCATGATCTTGTCAATGC -CAGCCTGATCTTTAGCATCTTTGCCAATCAGCGCCTGAGCGATCGGGCCGTTTACCGCAGCAACAGCTTTGGTTACGCCT -TTACCCAGGAAACGGGATTTGTCGCCATCGCGCAGTTCCAGAGCTTCACGGGAACCAGTAGAAGCACCTGACGGAGCAGC -TGCCATACCGACGAAACCACCCTCCAGATGTACTTCGGCTTCAACAGTCGGGTTACCACGGGAGTCGATGATTTCACGAC -CGATGATTTTTACGATTTTGGACATTAGGTTTTCCTCAAGTCACTAGTTAAACTGAAACTCCAGACAAACAACGCGTACC -CAGGGTACGCGTTGCCGCTCTAACTTTTTTACTTACTTCGCCTGACGTTTCTGGAACTCGCTGGCGGCTTTCACAAAGCC -TGCAAACAGCGGGTGACCATCACGTGGAGTAGAAGTAAACTCCGGATGGAACTGGCAAGCCACGAACCACGGGTGATTCG -GAACTTCGATGATCTCGACCAACTGATCATCCCCGGAACGGCCCGCAACGCGCAGACCTGCATCTTCAATCTGTTTCAAC -AGCATGTTGTTGACTTCGTAACGGTGACGATGACGCTCAACAATTGTCGGCGCATTGTACAGCTGGCGAACCAGGCTATC -GTCAACCAACTGGCACTGCTGTGCGCCGAGACGCATGGTACCGCCGAGATCGCTCTTCTCGCTACGAACTTCAACGTTGC -CGTTTTCATCGCGCCACTCGGTAATCAGCGCCACAACCGGGTACTTACAGTCTGGCACAAATTCCGTAGAGTTGGCGTTC -TCCATGTTGGCAACATGGCGAGCGTAATCAATTAACGCCACCTGCATACCCAGGCAAATGCCCAGATAAGGAATATTGTT -CTCACGCGCAAAACGCGCGGTCGTAATCATGCCTTCTACGCCACGATAGCCGAAACCGCCAGGTACGAGGATTGCGTCCA -GACCTTTAAGGATTTCAACGCCGCGCGTTTCAACATCTTGTGAATCGATCAGTTTGATGTTGACGCTGACACGATTCTTC -AGCCCACCGTGTTTCAGTGCTTCGATCACTGATTTATAAGCATCCGGCAGTTCAATGTACTTGCCGACCATACCGATGGT -GACTTCACTTACCGGGTTCGCTTCTTCGAAGATAACCTGTTCCCATTCGGACAGATTCGCTTCCGGGCAGTTTAAGCTGA -ATCGTTTACAAATATAATCGTCCAGCCCCTGAGATTTCAACAGGCCCGGAATTTTATAGATGGAATCGACGTCTTTCAGA -GAAATAACCGCTTTTTCCGGAACATTACAGAACAATGCAATCTTCGCACGTTCGTTCGCCGGAACAGCGCGATCTGAACG -ACAAATCAGGATGTCAGGCTGGATACCGATGGAGAGCAGCTCTTTTACAGAGTGCTGAGTCGGTTTGGTTTTGACTTCAC -CAGACGCTGCCATGTACGGCACCAGCGTCAGGTGCATAAACAGAGTGTGCTCACGGCCAATTTCAACAGCCATCTGGCGA -ATCGCTTCGAGGAACGGCAAGGATTCGATATCACCTACTGTACCGCCGATTTCTACCAGTACTACGTCATGACCTTCGCC -ACCTTCCAGCACGCGCTCTTTGATTGCGTTAGTGATGTGCGGAATAACCTGCACGGTTGCGCCGAGGTAGTCACCGCGGC -GTTCTTTACGCAGAACGTCAGAGTAGATACGACCCGTGGTGAAGTTGTTGCGGCGGCTCATTTTGGTACGAATGAAACGC -TCGTAGTGCCCCAGGTCCAGGTCGGTTTCAGCGCCGTCTTCAGTAACGAACACTTCCCCGTGTTGGATTGGGCTCATAGT -ACCTGGATCGACGTTGATGTACGGATCCAGTTTCATGATGGTCACATTGAGGCCACGGGCTTCAAGAATGGCTGCGAGGG -AGGCTGCGGCAATGCCTTTACCCAGAGAGGATACGACCCCGCCGGTCACAAAAATATAGTTCGTTGTCATGCTGAACCTG -AGAAGTTAGGTTGAAAAGACGATGGAATAACCAAGACGGGAAAGCAGTATACCCGAACATGACCTGTGCCACAAACTTTC -ATTATCCCTCCTCTTCGCCAGCGCACTATTGAAATCAGGAGTGAGAAAATAGCCCCTTTGGGGTAAATGTTTTTGACGCA -AATCAAGCGCTTGTCATTTAAAAAATGACACAAATGGCGCTTGACCGCGTAATTCCCTTAGAGATCAATTTCCTGCCGTT -TTACCTGTTGCCAGACTTCTTCCATTGTTTCGAGGTCAACACCTGTCATTTCCAGTCCACGCGCGGCAACAATACGCTCC -ACTTCGCGAAAACGACGCTCGAATTTTTCGTTCGCTTTTTGCAATGCGATTTCTGCTTTCGTCCCTAAATGGCGAGCCAG -ATTAACCGTGGCAAACAGCAGGTCCCCCATTTCCTCCTCCAGTTTAGCCTGGTCGACAACAGCCTGCCGCGCTTCGTACA -TCACCTCGTCGATCTCTTCGTAGACTTTATCGACTACCGGACCAAGCGTCGTCCAATCGAAGCCAACGTTGGCGCAACGT -TTCTGGATTTTTTGCGCACGCATTAAAGCCGGTAAACTACGAGGAATATCGTCCAGCGCCGAATGCTGCGCTTTCTGCGC -GCGCTCTTCGGTTTTGATTTGCTCCCAACGGGCAAGCACTTCACTACTGTTTTCGGCAGAACTATCAGCAAAAACATGCG -GATGGCGACGCTCTAATTTATCGCTAATAGCAGCGCAAATATCATTAAAGTCAAAGCGCCCTTCTTCCTGAGCCATTTGC -GCGTAAAACACCACCTGGAATAGCAGATCGCCCAGTTCACCGCGAAGATCGTCAAAATCTTCACGGGCGATGGCGTCCAG -CACTTCGTAGGTTTCTTCAAGGGTGTAAGGCGCAATGGTGGCAAATGTCTGCTCTTTATCCCACGGGCAGCCGTTTTCCG -GATCGCGCAGGCGCTGCATAATAGTGAGCAAACGGTCGATTTGATTCATTGAATTGTCCTGAAAATTGCGGGTCTGTCAG -GTGGAAACCTGTGACCAGAATAGAAGTGAGTTAGTAACACTACCCAATCAGTACGTTAATTTTGGCTTTAATGAGTTGTA -ATTCCTCTGGGGCAACTGTTCCTTTCTTCGTTGCTCCTCTTGCCCGCCAGGCGATACTTTTTACCTGATCAGCTAACGCT -ACGCCATCACGTTCCTGACCGGATAAAACAACTTCGAACGGATATCCTTTTGATTGCGTTGTACAAGGAACACACAGACA -CATACCTGTTTTGTTGTTGTACATGAAAGGACTCAGGACAACAGCTGGACGATGTCCAGCTTGCTCGCTACCTTTTGTCG -GGTCAAAATCAACCCAAATCAGATCGCCCATATCGGGTACGTATCGGCTTACCATTACCAGACTTCCTTATCTTTCGGCT -CTCCCCAGTCGATATTCTCGTGGAGGTTTTCCGGCGTGATGTCGTTGACCAGTTCAGCAAGCGTAAATACGGGCTCTTTA -CGCACTGGCTCAATAATTAATTTGCCATCCACCAGGTCAATCTTCACTTCATCATCAATATTCAGATTGAGCGCCTGCAT -TAACGTAGCCGGGATCCGCACCGCCGGTGAATTTCCCCAACGCTTTACGCTACTGTGGATCATAACCCTTTCCTCAAACC -GCTATCATATGTAGATACAGTATATATCAATCTACATTGTAGATACGAGCAAATTTCGGCCTAACTCCCGTGCAACCGAC -GCGCGTCGATAACATCCGGCACCTGGTTGAGTTTACCCAGCACGCGCCCCAGCACTTGCAGGTTGTAAATCTCAATGGTC -ATGTCGATGGTCGCCAGTTGCTGTTTGGTGTCGCTACGGCTGGCAACGCCAAGCACGTTCACCTTCTCGTTGGCGAGAAT -GGTCGTGATATCACGTAACAACCCACTACGATCATTAGCTACCACGCGGACCACCAGCGAATATCCGGCGGAGTAGCTCT -CACCCCATACCGCGTCAACAATGCGTTCTGGCGCATGGGAGCGCAGTTCCGCCAGTTGTTCGCAATCGGCGCGGTGTACT -GAAATACCGCGCCCCTGGGTAATGAAGCCGACAATCTCATCTCCAGGAATCGGCTGGCAGCAGCGCGCGATGTGGTGCAT -CAGGTTGCCAACACCTTCGACTACCACGCGACCGTTATCTTTACTGCGGTTTTGCGGCGTGTAGCTTTTTTGCTGAAGTT -GCTTCAGCGCGGCGGCGTCCTGCTCTTCGGCACTCGGCTTATTAAATTGCGATTGCAGGAAGTTCACCATCTGATTGAGA -CGGATATCCCCGCCACCAATCGCCGCCAGCAACTCGTCGACATCATTGAAGTTGTAACGCGGCAGCAGATGTTTTTCTGC -TTCTTTCAGGCTGATCCCCAGATGTTCCAGCTCGTCGTCAAGGATTTGCCGCCCAGCCAGAATGTTTTTGTCACGGTCCT -GTTTACGGAACCAGGCGTGAATTTTCGAACGCCCACGGCTGGTTGTGACGTAACCGAGGTTTGGGTTTAACCAGTCACGG -CTGGGGTTCGGCTGTTTCTGGGTGATAATTTCAATCTGGTCGCCCATCTGCAGCTGGTAGGTGAACGGCACAATGCGCCC -GCCAATTTTTGCCCCGATGCAGCGGTGTCCGACATCACTGTGGATGTGGTAAGCGAAGTCCAGCGGCGTTGATCCCGCAG -GCAAATCAACGACATCACCTTTCGGCGTAAAGACGTACACCCGGTCGTCAAAGACCTGACTACGTACTTCGTCGAGCATT -TCGCCGGAATCAGCCATCTCTTCCTGCCACGCAATCAGTTTACGCAGCCAGGCAATCCGGTCTTCATGTCCCGAACGTGC -GCCGCCAGCAGCCGCGCCCTCTTTATATTTCCAGTGCGCAGCAACACCCAACTCTGCATCTTCATGCATCTGTTTGGTGC -GGATTTGGATCTCAACGGTTTTTCCACCCGGCCCCAGAACCACGGTATGAATAGACTGATAACCGTTTGGTTTCGGGTTA -GCGACGTAATCGTCAAACTCATCCGGCAGGTGGCGATAGTGAGTGTGCACTATCCCCAGTGCGGCATAGCAATCCTGTAA -ACGCTCGGCGACAATACGTACCGCACGCACATCAAACAGCTCATCAAAGGCGAGGTTCTTTTTCTGCATTTTACGCCAGA -TGCTGTAGATGTGTTTCGGACGACCATACACTTCCGCTTTAACGCCTTCAGCTTTCATCTCAGCGCGCAGATGACCAACG -AACTCTTCGATGTAGTGTTCGCGGTCGAGACGCCGTTCATGCAGCAGTTTGGCAATTCGTTTGTATTCGGTTGGATGGAG -GTAACGGAAGCAGTAATCTTCCAGTTCCCATTTCAGTTGTCCGATTCCGAGACGGTTAGCCAGCGGTGCGTAGATGTTGG -TACACTCTTTTGCCGCCAGTACACGTTCATCTTCCGGCGCATCTTTTACTTCGCGCAGATGAGCAATACGCTCCGCCAGT -TTGATGACTACGCAGCGAAAATCATCGACCATCGCCAATAACATCCGGCGAACGTTATCGACCTGTTCGGAGGAAACAGA -ATCAGTGTGCGTCGCTTTCAGCTGGCGGATCGCCGCCATATCACGCACGCCGTGAATAAGGTTAACGACCGACTTACCGA -CGCTCTCACGCAGCACATCTTCGCTGACTACGTTGGCATCTGGATTTGCCCCTATATTTCCAGACATCTGTTATCACTTA -ACCCATTACAAGCCCGCTGCCGCAGATATTCCCGTGGCGAGCGATAACCCAGCGCACTATGCGGATGCCATTCGTTATAA -TGCTCGAACGCCTCTGCAAGGTTCTTTGCTGCCGTTAACCCGTCTGGTTTGGGCATGATACTGATGTAGTCACGCTTTAT -CGTTTTCACGAAGCTCTCTGCTATTCCGTTACTCTCCGGACTCCGCACCGCCGTGTTCTTCGGTTCAAGTCCCAACATCC -GGGCGAACTGGCGTGTTTCATTAGCCCGGTAGCATGAACCATTATCCGTCAGCCACTCCACTGGAGACGACGGAAGATCG -TTGCCGAAGCGGCGTTCCACCGCTCCCAGCATGACGTCCTGTACTGTTTCACTGTTGAAGCCGCCGGTAGTGACCGCCCA -GTGCAGTGCCTCACGATCACAGCAGTCCAGCGCGAACGTGACACGCAGTCTCTCTCCGTTATCACAGCAGAACTCGAACC -CGTCAGAGCACCATCGCTGATTGCTTTCTTTCACGGCCACTCTGCCTGTATGTGCCCGTTTCGATGGCGGTACAGCAGGT -TTTCGCTCAAGCAACAGCGCATTCTGGCGCATGATCCGGTAAACACGTTTGGCATTGATCGCAGGCATACCATCAAGTTC -TGCCTGTCTGCGAAGCAGCGCCCATACCCGACGATAACCATACGTTGGCAGCTCTCCGATAACATGGTGTATACGGAGAA -GCACATCCGTATCATCAGTGTGACGACTGCGGCGGCCATCCATCCAGTCATCGGTTCGTCTGAGAATGACGTGCAACTGC -GCACGCGACACCCGGAGACAACGGCTGACTAAGCTTACTCCCCATCCCCGGGCAATAAGGGCGCGTGCGCTATCCACTTT -TTTGCCCGTCCATATTCAACGGCTTCTTTGAGGAGTTCATTTTCCATCGTTTTCTTGCCGAGCAGGCGCTGGAGTTCTTT -AATCTGCTTCATGGCGGCAGCAAGTTCAGAGGCAGGAACAACCTGTTCTCCGGCGGCGACAGCAGTAAGACTTCCTTCCT -GGTATTGCTTACGCCAGAGAAATAACTGGCTGGCTGCTACACCATGTTGCCGGGCAACGAGGGAGACCGTCATCCCCGGT -TCAAAGCTCTGCTGAACAATTGCGATCTTTTCCTGTGTGGTACGCCGTCTGCGTTTCTCCGGCCCTAAGACATCAATCAT -CTGTTCTCCAATGACTAGTCTAAAAACTAGTATTAAGACTATCACTTATTTAAGTGATATTGGTTGTCTGGAGATTCAGG -GGGCCAGTCTAGCATCCGCCAGAGGGAAAAGCAGCGCCGCCCGCAGCGTGTCAATGTCCATACTTAATGTCGAGAGGATC -TCCACCATCTCAACACCACGCCACAATAACAGACTGGCATCCGGATGCCCCTGCGTCTGTTGCAGACAATACGCCCAGGT -TTCGGCTAAGCACTCACACGACTTCTGGCTGGTAATACCCAGACTTGCGATCCATTTTTCCGGATCAAATTCACCAGCCT -TATTGATATGTGCACTTCTTACCGCAACCATCGTCCTCTCCTTTAGGGACCAGACCTGCCGAAATCGGCAAATCGCAACT -ATTTAACGCGCGAGAAAAGTACCATCGATTCCAGATGTCCCGTGTGTGGGAACATATCCAGCATCGCCAGTCGCGCAATG -GTATATCCTGCTTTTAATAACGCTTCGCTATCCCGAGCCAGCGTTGCAGGGTTACAGGATACATAAACTATACGAATAGG -TTCCAGTTTTATAATTTGCTGCATAACACCTGCGGCACCTGCTCGCGCCGGGTCCAGCAACACTTTATCGAAGCCGTTTT -TCGCCCACGGCTGCTTTGTGACATCTTCTTCAAGATTTTCGTGATAAAACGTCACATTCTGTAAGCCATTAAGACGCGCA -TTCTGCTGGCCTTTTTCCACCAGCGCCGGAACACCTTCTACACCGACCACACTGGCAGCTTGTGTCGCCAATGGCAGTGT -AAAGTTGCCCATACCGCAGAACAGATCCAGTACGCGATCTTCAGGTTGCACATCCAGCCATTCCAACGCACGCGCTACCA -TTTTTTGGTTCACACCCGCATTGACCTGAATAAAATCGCGCGGGCTAAAAGTTAAGCGCAACCCGTTTGAGTCATACCAG -GGCATCTCACCAGAGACGGTTTCGAGTATCTCACTATCGGGGGCGAGATACAGATCCAGGCCTTCAGAATGCGAAAAGCG -TTCCAGTTTTTCGCGATCTGCCGAACTTAGCGGTGCGGTATGGCGCAAAATCATCAGCGTGCCGCTGGTTGCCTGTACCA -GTTCAACATGACCAAGATGGCGCATAGCTTGTAAGCTGCCCAGACATGCCCTGACTTTGGGCAGCAATGCTTCAAGTTGG -GGCGCTAAAATGGGGCATTGTTTGACGTCGACAATGTCACTGGAGCCCGCTTTGCGAAACCCCATCTGAAGTTGCTGTGT -TTTCGGTAAGTAGTTCAGACTTAAACGCGCGCGACGGCGATAGCCCCAGGGAACATCGGCGATCACTTCAGAGACATCGT -GTTTCATTAATCGGGCGAGTGCCGCACTTTTGCTTCGCTGCTGTAAATCCACGCTGGCGTGTTGTTGCTGACAGCCACCG -CATACGCCAAAATGAGGACAGCGTGGCGTTTCGCGTTCCGGGCTATCGCTTAACCGGCGTACGACTTTAGCGCGGGCATA -CTGTTTTTTATCTTCAGTAACAGTAACTTCCGCGTTTTCCTGCGGCAATAATCCGGGGATAAATAGCGTTTTGCCGTTAT -GTCGCGCCACGCCCTGACCAAAAGAGTCGAGGTCGTTGACTGAAACGGTTATGATCTGACGCGTCGTCGTGCGTCGTTTT -GCAGAGTAGAATTGCGCCATTGGCGAGACTTTCTCAATTTAACAGTGTGACCTTAATTGTCCCATAACGGAACTCCATGA -CCAACTACAGCCTGCGCGCACGCATGATGATTCTGATCCTGGCACCGACCGTCCTTATTGGTTTATTGCTGAGTATCTTT -TTCGTCGTGCATCGCTATAACGACTTGCAGCGTCAACTGGAAGATGCCGGTGCCAGCATTATTGAGCCGCTTGCAGTTTC -TACTGAATATGGCATGAGCCTGCAAAATCGCGAATCTATCGGTCAGTTAATAAGCGTACTGCATCGTCGCCATTCCGATA -TTGTTCGCGCGATTTCGGTTTATGATGAAAATAACCGACTCTTTGTCACCTCCAATTTTCATCTTGATCCCTCATCAATG -CAGCTCGGCAGCAACGTGCCGTTTCCTCGCCAGCTCACTGTCACTCGTGACGGCGATATTATGATCCTCCGCACGCCGAT -TATTTCTGAGAGTTACTCCCCCGACGAATCGCCCAGTAGCGATGCCAAAAATAGTCAAAATATGTTGGGATATATTGCGC -TGGAGCTGGATCTTAAATCGGTTCGCTTGCAGCAATATAAAGAGATCTTTATTTCCAGCGTGATGATGCTGTTTTGTATC -GGTATTGCGCTTATTTTTGGCTGGCGCTTAATGCGCGATGTAACCGGTCCGATTCGCAACATGGTGAATACCGTCGACCG -CATCCGTCGCGGGCAACTCGACAGCCGGGTGGAAGGATTTATGCTCGGCGAGCTGGATATGCTGAAAAACGGTATCAACT -CGATGGCAATGTCGCTGGCTGCTTATCACGAAGAGATGCAGCACAATATCGACCAGGCGACGTCCGATCTGCGTGAAACG -CTGGAGCAGATGGAAATTCAGAACGTTGAGTTAGATCTGGCGAAAAAGCGCGCCCAGGAAGCGGCGCGTATTAAATCCGA -GTTTCTGGCAAATATGTCACACGAGCTGCGTACACCACTGAATGGTGTTATTGGCTTTACCCGCCTGACGCTGAAAACAG -AATTAACACCAACGCAGCGCGATCACCTGAATACGATTGAACGTTCGGCAAATAATTTGCTGGCAATTATTAATGATGTT -CTCGACTTCTCGAAACTGGAAGCAGGTAAGCTGATTCTGGAAAGTATTCCATTCCCACTACGCAGCACGCTGGATGAAGT -CGTTACTCTGCTGGCACATTCTTCTCACGATAAAGGGTTAGAACTGACGCTCAATATTAAAAGCGACGTGCCTGATAACG -TGATCGGCGACCCGCTGCGATTACAGCAAATCATCACTAACCTGGTGGGGAATGCAATTAAATTCACCGAGAATGGCAAC -ATTGATATTCTGGTAGAAAAACGTGCGCTGAGTAATACCAAAGTGCAGATTGAAGTGCAGATTCGGGATACCGGCATTGG -TATTCCTGAACGCGATCAATCGCGCTTATTCCAGGCCTTCCGACAGGCTGATGCCAGTATTTCCCGCCGTCATGGTGGCA -CCGGGCTGGGGCTGGTGATTACACAAAAACTGGTTAATGAAATGGGCGGCGATATTTCGTTCCATAGCCAGCCGAATCGC -GGTTCAACTTTCTGGTTCCACATTAATCTCGATCTGAACCCGAACATTATTATCGAAGGGCCATCCACCCAGTGCCTCGC -AGGTAAGCGCCTGGCCTATGTCGAACCAAACTCCGCAGCAGCGCAATGCACGCTGGATATTTTAAGTGAAACGCCGCTGG -AAGTGGTTTATAGCCCAACGTTCTCCGCGCTGCCTCCCGCGCATTACGACATGATGTTGTTAGGCATCGCGGTGACCTTC -CGCGAGCCGCTAACAATGCAACATGAGCGATTAGCGAAAGCGGTATCGATGACCGATTTCCTGATGCTGGCACTTCCTTG -CCATGCACAAGTCAATGCTGAAAAACTCAAGCAAGATGGTATCGGCGCGTGTCTGCTGAAACCATTAACACCTACACGCC -TGTTGCCTGCCCTGACGGAATTTTGTCATCACAAACAAAACACGCTTTTGCCTGTAACCGATGAAAGTAAGCTGGCAATG -ACAGTCATGGCGGTTGATGACAACCCCGCTAACCTGAAACTTATCGGCGCATTGCTGGAAGATATGGTGCAACATGTGGA -ACTTTGCGATAGCGGGCATCAGGCGGTTGAACGGGCGAAACAGATGCCGTTCGATTTGATCTTAATGGATATTCAAATGC -CGGACATGGATGGCATTCGGGCCTGCGAACTCATCCACCAACTCCCGCATCAGCAACAAACGCCGGTTATCGCGGTAACG -GCGCATGCAATGGCCGGGCAAAAAGAGAAGCTGCTTGGCGCAGGGATGAGCGATTATCTGGCGAAACCGATTGAAGAAGA -GCGATTGCATAATTTGTTGTTGCGCTACAAGCCTGGCAGCGGTATTTCCTCTCGCGTCGTGACGCCCGAAGTCAACGAAA -TTGTGGTGAACCCGAATGCGACCCTCGACTGGCAACTGGCACTACGCCAGGCAGCAGGAAAAACCGATTTAGCGCGCGAT -ATGCTGCAAATGTTACTCGATTTCCTGCCTGAAGTTCGCAACAAAGTTGAGGAACAGCTGGTTGGAGAAAACCCGGAAGG -CCTGGTTGATTTGATTCATAAACTGCATGGCAGTTGCGGCTATAGCGGTGTGCCACGTATGAAGAATCTCTGCCAACTGA -TCGAACAACAGCTACGTAGCGGTACTAAAGAAGAAGATTTGGAACCGGAGCTGCTGGAACTGTTGGACGAGATGGATAAT -GTCGCGCGCGAAGCCAGCAAAATTCTCGGGTAATGGATGTCTTGTCGAGTAGCAATCGGCTTTTTATGACGCTGGTTTCA -GATTGGTGACAAAGTGCCTGTGTTTATGCCGGATGCGGCGTTAACGCCTTATCCGGCCTACAAAACCAATTAAATTCAAT -GAATTAAAAAATGATGTAGACCTGATACATAGCACAACAGGCTATTTTGCGTTTAGCATCAGTCTCAAACCGGCTCCAGA -TAGAGCCGGTTTTGGTTTTCTGTCTTAACGCACCATGCACGGGCGCTTGTTATCGAACGTCCAGCCAGGAATCAGATACT -GCATTCCCATCGCATCGTCACGCGCGCCAAGCCCGTGTTTCTGATACAGCTCATGGGCTTTCATCACTTGATCCATATCG -ATTTCTACACCCAGCCCCGGTTTTTCTGGCACCTGTACCAGCCCGCCTTTGATCTCAAACGGTTCTTTGGTCAGGCGCTG -ATTGCCTTCCTGCCAAATCCAGTGCGTATCAATAGCAGTAATTTTACCCGGTGCAGCGGCGGCAACATGGGTAAACATCG -CCAGGGAAATATCGAAGTGGTTGTTAGAGTGTGAACCCCAGGTCAGGCCAAATTCATGGCACATTTGCGCCACACGTACC -GAACCTTGCATTGTCCAGAAATGCGGATCCGCCAGCGGGATATCAACGGATTGCAGGGAGAGCGTATGGCCCATTTGCCG -CCAGTCGGTGGCGATCATATTGGTTGCAGTCGGTAGACCTGTCGCGCGACGGAACTCTGCCATCACTTCACGCCCGGAGA -AACCTTGCTCCGCACCACACGGATCTTCTGCATAAGCCAGCGAACCTTTCAGGTATTTACCGATTTTAATCGCTTCGTTC -AGCGACCAGGCACCGTTAGGATCGAGCGTAATACGCGCCTGCGGGAAGCGTTGCGCCAGTGCCACAATAGACTCGGCCTC -TTCTTCCCCGGCCAGTACACCGCCCTTCAGTTTGAAATCGTTGAAGCCATATTTTTCATATGCCGCTTCCGCCAGGCGCA -CCACCGCATCCGGCGTCATCGCTTCTTCATGACGCAGGCGATACCAGTCGCATGAGTCATCCGGCTGGCTTTGATACGGC -AGCGGCGTGGCTTTGCGATTACCGACGAAGAACAGATAACCGAGCATTTCGACTTCGCTACGCTGTTGACCATCGCCCAG -CAGCGATGCCACGTTTACCCCCAGATGCTGCCCCAGCAGATCCAGCATTGCCGCTTCTATCCCGGTAACTACATGAATAG -TGGTACGTAGGTCAAATGTCTGCAAACCGCGCCCACCAGCATCACGATCGGCAAAAGTATTACGCACCAGCGTCAGAACG -TTTTTGTATTCACCCAGCGTTTTACCTACCACCAGCGGAATCGCATCTTCCAGCGTTTTACGGATTTTCTCGCCGCCGGG -AATTTCCCCTACGCCAGTGTGACCAGAATTATCTTTGATAATCACAATATTACGCGTAAAGAACGGTGCGTGTGCACCAC -TCAGATTCATCAGCATACTGTCATGACCCGCCACCGGGATAACCTGCATTTCAGTAACAACAGGCGTCGTAAATTGAGAA -CTCATATTTATGTCCTTTTTCAGAATCAATGACGGCCGAAAACGGGACGTTTACGGTCAAAGGTCCAGCCGGGGATCAGG -TACTGCATCGGACCTGCGTCGTTACGCGCACCGCCAGGCAGACGTTTATAGGCCTCATGTGCCTTTTGTACCTGTTCCCA -GTCCAGTTCCACGCCCAGACCGGGCGCATCAGGAACGGCAATTTTTCCGTTTTTAATCTCCAGCGGATTTTGGGTCAGGC -GACAATCGCCCTCCTGCCAAATCCAGTGGGTATCGATAGCGGTAGGATTACCCGGTGCCGCCGCGCCCACATGGGTAAAC -ATCGCCAGAGAGATATCGAAATGGTTATTAGAATGGCAGCCCCAGGTCAGCCCCCAGTCGTCGCAAAGCTGCGCCACACG -GACTGCACCGGAAAGCGTCCAGAAGTGCGGATCGGCAAGTGGAATATCTACCGCATTGAGCATCACCGCATGACCCATTT -CGCGCCAGTTGGTGGCGATCATGTTAGTCGCGACGGGCAAGCCGGTCGCCCGTCGAAATTCCGCCATCACTTCACGTCCG -GAGAAGCCCTGTTCTGCGCCGCATGGATCTTCGGCATAGGTAAGAACATCATTCAGCCCTTTGCATAAAGAAATGGCTTC -ATCAAGCAGCCATGCACCGTTGGGATCAACGGTAATCCGCGCATCCGGGAAGCGTTTCTTCAATGCACGAACAGTGTCGA -TTTCTTGCTCGCCAGGTAACACGCCGCCCTTAAGTTTGAAATCTTTAAAGCCGTAGCGATCCTGTGAGGCTTCCGCCAGA -CGCACAACGGCTTCGCTGTTCATTGCTTTCTGATGCCGCAACTGATACCACTCATGGTTGCCCGGCGTATTTTCCACATA -AGGAAGATCGGTTTTGGTCCGATCACCGATATAAAACAGATAACCGAGGACGGTAATAGCCTCGCGTTGCTTGCCTGGCC -CTAACAGTTCGCAGACCGGAACATTCAGCGCCTTACCTAGCAGGTCAAGCAAAGCGGCTTCCAGCGCCGCCACGGCGTTA -ACGCGTAATTCAAAGGTCCAGGCACCTTTACCGAAGGTATCAAAATCGGCGGCCTGATTACCTTTATGCACCTGCTGGAC -CACTTTATTCAGTCGCGCAACTTCCTGGCCCAGAACCATCGGAATAGCATCGACAAGCGTCTGATAAATCACATCTCCGC -CCGGCGCTTCACCAATGCCGGTATGCCCGGCGTTATCGGTGAGTACCACAATATTGCGGGTGAAATATGCGTTATGTGCC -CCACCAATATTAAGCAACATGCTGTCATGCCCGGCCACCGGAATGACTTTCATATCAGTAATAACAGGACTGGATTGTGT -CGCCATCTTATTGCCCCGCAACAGGTTTCAACTCGATACGCTTGATATCGCCCACCAGCACCAGGTAGCTCAGTACCGCG -ATTAAGGCATGAACACCAACATAAATCAGCGCCCCATTAAACGAGCCAGTCGTGCCAACGATATAACCAATTGCGATTGG -CGTGACGATGCCAGAAATGTTACCGAACATGTTGAACAGGCCACCGGAAAGACCGCTGATCTCTTTTGGCGCGGTATCTG -CCATTACTGCCCAACCCAGCGCCCCGATGCCCTTACCGAAGAAGGCCAGCGCCATAAAGCCGATGATCATCCACTCAACG -TTGACGTAGTTGCAGAACACCATCACCATCGACAGCAACATGCCCATTACGATCGGTGTTTTACGCGCAATGTTCAGCGA -TCCCGTGCGGCGCATCAGCCAGTCGGAAATAATCCCACCCAGCACACCGCCGATAAAACCGCAAACCGCCGGAACGGAAG -CCACAAAGCCCGCTTTCAGAATCGACATCCCGCGTGCCTGCACCAGATAAACCGGGAACCAGGTAATAAAGAAGTAAGTC -AGGGCGTTGATACAGTACTGACCGATATAAACGCCGATCATCATCCGTGACCCTAGCAGCTGTTTGATCTGCCCCCACTT -CACGCTGAACGGCACTTTAACTTTGGTGTTTTGCTGATCCATATTGATCAGCGCACCACCCGCGGCGATGTACTCCAGCT -CTTTCTTATTTACCCCCGGATGTTGATTTGGCTCGTGGATGACTTTCAACCAGATAAAGCTGATGACAATCCCCAGACCG -CCCATAAAGAAGAAGACGTGTGACCAGCCCACTTCATGCGTCAGCCAGCCCATAATCGGCGCGAAGATCACCGTTGCGAA -GTATTGAGCGGAGTTAAAAATCGACACCGCCGTTCCCCTTTCCTGCGCCGGAAACCAGGCCGCAACAATGCGACTGTTGC -CGGGGAAAGATGGCGCTTCAGCAAGCCCGACCAGGAAGCGCAGCGTAAACAGGGCAACGATAATGCCGAATCCACTAAAG -ATATCGACGAAGCCTTGCAGCAAGGTAAACATCGACCAGATAAAGATCGACCAGAAGTAGACGCGTTTTGAACCAAAACG -GTCCAGCAACCAGCCACCAGGGATCTGCCCGATAACATAAGCCCATGAGAAAGCAGAGAACACATAGCCCATTCCCACGG -GATCAAGGCCGATATCTTTGGCCATTTCCGAACCGGCGATAGAGAGCGTAGCGCGGTCGCCGTAGTTGAAGGATGTGACG -ATAAACAACATCACCACTATCCAGTAACGAGCATTTGTGCGTTTTTCCACACTGCTCGCAGCCTGACTTAAAGAACTCAT -TGTTGCACTCCTGAAAATTCGCGTTAGCCACGCTCACTCTGGACTGCGACATCGCCAGGAAATCAGAGGTGACGTAGGGT -GTTTTTTGCCGTTTTTATAGGTCGTTCGCCGAATACGGCGCGTGTTTATATCTGGCAATAGCAGTATAAAAAGCGCGCCA -TAGCGGCTCACCGTGCAACAACACAACATTAATGCGTTCAATGAGGCCCGATTTTGGCATTAGCCCTGGACGGTGGAATC -CACTTCACGGAAATGAAAACAAGAACAAGAAAGGAAGGGTTAAAACGAAGAAATAAAGAAGAGTATGAAATGGATCGCTT -GACTCCAGGCAAACGCCAGTAAAAATCCGCGCTATGAAGCAGTTTTTACTGGCATTTGCCTGAAAAGATTCGATTCAGCA -CCGCTAAAACGACATTTACCGCTCGCTGAACATATCAGGACAACAGCGTGCCCCACTGTTCGACCCACGGATTTGATTCC -GTTTCCGGTTCCGGGTTCTCACTGGCGTCAATCAACAGCATTTCGCCAACCCGCTGAGCGCTCTGTTCCTGCAACAAGGC -ATCGAACTGTTTGCCGCCATTGCAGAAATTCACATAACTACTGTCGCCGAGCGCAATCACGCCATAACGCAGATTCGGCT -GGAAGCCCAGACTATCTTTGATTCCCTGAAAGAGTGGCACAATGCTATCAGGAAGGTCGCCCTGCCCGGTCGTGGACGTA -ACCACCAGAACATACTTATCCTGATAGGGCAGCCAGTCGCTTAATTCAGGATCTTCAAATACCGTTGCTTTGTGGCCCTG -CGCGGTCAGAATCGCTTCCGCTTCTTCGGCCACTAACAGTGAATTCCCGTACATGGTGCCGACAAAAATACCAATTTCCG -CCATACCGTTTTCTCCCTGGATTAGGAACTTATCTCTCCATCCTGACCCGATGGCGCACTGAACTCAACCCTTTCATTTT -CAGGAAGCAGACCGCGCCAGCCAAATTGTGATAACGCCTGCATCCAGGTGTCGTCCAGGCCCGCGTGAATAGTCAGCGGC -TCGCCAGTAAAAGGATGCGTCAATGACAACTGACTGGCATGTAGCATTAACCGCTGGAGGCCAAAATGCTCAGCACCGCT -GCGATTCTGGCGTAAATCGCCATGTTTGCTATCGCCAATAATCGGATGACGCAAATGGGCAAGATGTCGGCGAAGCTGAT -GTTTGCGTCCGGTTTTCGGCTCCAGTTCCACCAGGCCGTAGCGCGTGGTCGGGTAACGTCCGGTCGCTACCGGCATTTCT -ACGGTCGCCAGACCGCGATAATGCGTCACTGCTGGCTGCGGGCCTTTATCTTCGCGGGCAAATTTATCAGCGATTTTGTC -CAGTTCTTCCACCAGTGGATAATCCAGCACCGCTTCTTCCATCAACCAGCCGCGCACAATCGCATGGTAACGTTTCTGGA -TTTGGTGCTGTTCAAACTGTTGTGCCAGCAGCCGTCCGGCCTCGCTGGATAATCCCATCAACAACACACCAGAAGTGGGT -CGGTCCAGACGATGAGCAGTAAAAACATGCTGGCCTATCTGGTCACGCACGGTTTGCATGACCACTACTTTCTCGTCGCG -ATCCAGCCAGCTGCGGTGAACCAGCCAGCCGGAGGGTTTATTTACCGCAACCAGCCATTCATCCTGATAGAGTATTTCCA -GCATTAGCTCGCATCATCCGCAAAAAGAGCATCCAGTTTTTCCAGCTCAGCCAGAATAAGCGCGCGTTGCGGATGGTCCG -TCGCCAGCGCCATTTCATAATAGGGTGCAACGGCAAAAGCGCCCGGTAACGGCTGTTTGTTATCTAACAAATCGTGCATT -CGCGGGATCAGCACCCACTGCAACCACTCCAGTGGTTCCATGGTGTCCATAAAGAACGGTTGGGTACTATTAAATTGATG -CGGCTGGGGTTCATCGTTTCGCCAGTGCTGATGTTCACGCAGTAACGCTTCAAGCGCCTGCAACTGGAGACGAACGCGGT -CATGAGTGGTCATAAAGCAACCTCAATAAGAAAAACTGCCGCGAAGGATAGCAGGAATAAAAAAAGGGAGCACTGTATTC -ACAGCGCTCCCGGTTCGTTTCGCAGCATTCCAGCTACTTTTGTTGCTCCCTGCTCATCCTTGACAACTTTTCCTCTGGCC -TTGCGGCCAATCGTTCATCCTGAACTATTGCTTCCTGCTCACACCACCCCGATGTGATACTTCATCCTGAAGTGTCCCTG -GCCTTCCTGACCCACCGAATCATCCTGACCGGTTCTCATTCTCCATCCTGGAGGTGTCCTTTAACGCGTCCTGCGTCATC -CTCTTCGCTTCATCCAGAAGCCTTTCCCTGAAACACCATCCTGGTGTGTCCTGCAGAAGTGTCATCATCCTGATGTTCAC -TTCGTTGTCTGACTCCCTGTCGACGAAGATAGAATCGTCTTTTTCGCGAAGTCTTACAAGGCGCTTACAGACAATGCCTT -AAGGAAAATTTCATATGAAAGTTAAGAATTAACAATCAACATTTTGATTTTAAATGAAAATAACGATTCTTATCTTTTTA -AGTATTCGCTTATTTCCTGGCGATCTCCTACAGAGTCTGTAAGAGATCTCTCACAACCAGATGGGGTATTTGGATTACAG -AAGAGGCTTAAGTTGATTAAGGAATTCCGCAAGATTTGAGGCTAAATGCGTCCGTTTACGTGTTCCCAGCGTCTCTTTGC -ACACTTCACCGGAGAGATTACACACCGAGATGACCTCTAACTCTTCTTCCAGCGTCGCGATAAATAGTGTGGGCGGCAGT -TTTAGCCTTTTCTGAGTCACCAGATGACCAATCAGATTTTCCTGCACCCGACGGAAGTCGTCTTCACTCCAGGTTTGCAG -CAATGTCAGTTTGATATCGCCAAACTGCGCGTGCATATCCCCGGCAAACTGAGTCGTATAAAAGGTATGAATTGTGGGTT -GTATCACAATATCAAAAGCGCGTTCAACCGCGTTTACATTTTGTTCCCCGGTAAACGGCTGGGGTTGCCAGTATACGGCA -TCTTCGGTAGTTGAAATAATGCACGGTGAAGGAACACCGTACAGTTCCTCACTTAACGGCCAGCTTTTATGCTCTTCATG -CCACGCATCGCAGTAGCGTGCAGTAAAATCTTTCAGGGCTTGTGCGGTCAAATCGTCCACTAATTTCTCTCTTCACTTAA -ACCAGATACACTTGTCGTTTAGTTTATCTGGTTTATGACGGTGAAACATGTCTTCTTATGCAAACCATCAGGCACTTGCG -GGCCTGACTCTTGGAAAATCAACCGATTACCGGGATACCTATGACGCCAGCCTACTGCAAGGCGTTCCACGCAGCCTGAA -TCGCGACCCGCTGGGTCTGAAAGCGGATAACCTGCCTTTTCACGGTACGGATATCTGGACGCTGTATGAACTTTCCTGGC -TGAATGCGAAAGGTTTGCCGCAGGTCGCTGTCGGTCATGTTGAACTTGATTACACCAGCGTAAATCTGATTGAGTCGAAG -AGTTTTAAGCTCTATCTCAACAGTTTTAACCAGACGCGTTTTAATAACTGGGATGAGGTGCGCCAGACGCTGGAGCGCGA -CTTAAGCACTTGCGCTCAGGGTAAGATTAGCGTGGCGTTATATCGTCTTGATGAACTGGAAGGCCAGCCGATAGGTCATT -TTAATGGCACTTGCATTGATGACCAGGATATCACTATCGATAACTATGAATTCACTACTGACTATCTGGAGAATGCCACC -TGTGGTGAAAAAGTAGTGGAAGAGACGCTTGTCAGCCACCTGCTGAAATCAAACTGCCTGATCACCCATCAACCAGATTG -GGGTTCGCTCCAAATTCAGTATCGTGGACGCCAAATTGACAGAGAAAAACTGCTGCGTTACCTGGTCTCATTCCGTCATC -ACAACGAGTTCCACGAACAGTGCGTGGAACGCATCTTTAATGACCTGTTACGCTTCTGCCAGCCAGAAAAATTGAGCGTT -TACGCACGTTATACCCGTCGTGGCGGTCTGGACATTAACCCGTGGCGCAGTAATAGCGATTTTGTCCCATCGACCACAAG -ACTGGTTCGGCAATAAATTTTTTCTCAATTTTGCGTGCTGGATTCACGCAGAAGGTTGTGAAAGGTCATCAGGCAGGGCT -ATTGTAATCAAAGGGAATGACGATATTCGTCTCATAAGGAGTTTTTCTTGATTACACATATTAGCCCGCTTGGCTCCATG -GATATGTTGTCGCAGCTGGAAGTGGATATGCTTAAACGCACCGCCAGCAGCGACCTCTATCAACTGTTTCGCAACTGTTC -ACTTGCCGTACTGAACTCCGGTAGTTTGACCGATAACAGCAAAGAATTGCTGTCTCGTTTTGAAAATTTCGATATTAACG -TCTTGCGCCGTGAACGCGGCGTAAAGCTGGAACTGATTAATCCCCCGGAAGAGGCTTTTGTCGATGGGCGAATTATTCGC -GCTTTGCAGGCCAACTTGTTCGCGGTCCTGCGTGACATTCTCTTCGTTTACGGGCAAATCCATAACACCGTTCGTTTTCC -CAACCTGAATCTCGACAACTCCGTCCACATCACTAACCTGGTCTTTTCCATCTTGCGTAACGCTCGCGCGCTGCATGTGG -GTGAAGCGCCAAATATGGTGGTCTGCTGGGGCGGTCACTCAATTAACGAAAACGAGTATTTGTATGCCCGTCGCGTCGGA -AACCAGCTGGGCCTGCGTGAGCTGAATATCTGCACCGGCTGTGGTCCGGGAGCGATGGAAGCGCCGATGAAAGGTGCTGC -GGTCGGACACGCGCAGCAGCGTTACAAAGACAGTCGTTTTATTGGTATGACAGAGCCGTCGATTATCGCCGCTGAACCGC -CTAACCCGCTGGTCAACGAATTGATCATCATGCCAGATATCGAAAAACGTCTGGAAGCGTTTGTCCGTATCGCTCACGGT -ATCATTATCTTCCCTGGCGGTGTGGGTACGGCAGAAGAGTTGCTCTATTTGCTGGGAATTTTAATGAACCCGGCCAACAA -AGATCAGGTTTTACCATTGATCCTCACCGGCCCGAAAGAGAGCGCCGACTACTTCCGCGTACTGGACGAGTTTGTCGTGC -ATACGCTGGGTGAAAACGCGCGCCGCCATTACCGCATCATCATTGATGACGCCGCTGAAGTCGCTCGTCAGATGAAAAAA -TCGATGCCGCTGGTGAAAGAAAATCGCCGTGATACAGGCGATGCCTACAGCTTTAACTGGTCAATGCGCATTGCGCCAGA -TTTGCAAATGCCGTTTGAGCCGTCTCACGAGAATATGGCTAATCTGAAGCTTTACCCGGATCAACCTGTTGAAGTGCTGG -CTGCCGACCTGCGCCGTGCGTTCTCCGGTATTGTGGCGGGTAACGTAAAAGAAGTCGGTATTCGCGCCATTGAAGAGTTT -GGTCCTTACAAAATCAACGGCGATAAAGAGATTATGCGTCGTATGGACGACCTGCTACAGGGTTTTGTTGCCCAGCATCG -TATGAAGTTGCCAGGCTCAGCCTACATCCCTTGCTACGAAATCTGCACGTAATCTCCGCTCCCCCGGTGACGTTTGTTGC -CGGGTTTTCTCGTTTTTGGTCACTTACTCATCAACTCATTTCATTTGTTATATGAATGTTTCTTACCACCCTCACGCGAC -AAATATCATCACAGTTAATATGTCATACAATTTATGTTGCAACGCAAACGTTTCCCTATTTTCATAAACCGTATTTTATC -GCTATGAAAAAGAAATTATCGCCATGATTAACTAAAAGTATTGATTTTTTCAGTTCAACCTACATATATTGCGCGCCCCG -GAAGAAGTCAGATGTCGTTTAATGGGCAAATATTGCCCTTAAATTCTCTTTTACTTTTGATTTACAGAGTAAAGCGTTGG -GATAATCTATCTTCCAAGTAGATTATTGTATTTGAGATCAAGATCACTGATAGATACATAACTTGTGTGTATCTTTCCGC -CCTCAAATTATTACGGCGGTAAATGATTAAGCCATCGCCGATAGACAGATTTCATTTTTACGGTCAGGCACCTTCCCGGG -CTGAACTGGCTAAAAGCTGAATTATTTGCATTCCTCCAGGAGAAATAGATGGAAACGACTCAAACCAGCACGATTGCGTC -GAAAGACTCTCGTAGTGCCTGGCGCAAGACAGACACCATGTGGATGCTGGGCCTTTACGGCACGGCAATCGGCGCGGGCG -TGCTGTTCCTGCCAATCAACGCCGGTGTTGGCGGTATGATCCCGCTGATCATCATGGCTATCCTTGCGTTCCCGATGACG -TTTTTTGCTCACCGCGGCCTGACTCGCTTCGTACTGTCTGGTAAAAACCCGGGCGAAGACATCACCGAGGTTGTAGAAGA -ACACTTTGGTATTGGCGCAGGTAAACTGATTACCCTGCTCTACTTCTTCGCTATCTACCCGATCCTGCTGGTTTATAGCG -TGGCAATCACCAATACCGTTGAAAGCTTCATGTCTCACCAGCTGGGTATGACGCCACCGCCGCGTGCGATTCTGTCGCTG -ATCCTGATCGTGGGTATGATGACCATCGTTCGCTTCGGTGAGCAGATGATCGTTAAAGCGATGAGTATTCTGGTATTCCC -GTTTGTTGGCGTACTGATGCTGCTGGCTCTGTACCTGATCCCGCAGTGGAACGGCGCTGCACTGGAAACGCTGTCTCTGG -ACACTGCATCTGCAACCGGAAACGGTCTGTGGATGACCCTGTGGCTGGCAATTCCGGTAATGGTGTTCTCGTTCAACCAC -TCTCCGATCATCTCTTCTTTCGCCGTTGCGAAGCGTGAAGAGTACGGCGATATGGCAGAACAGAAATGCTCGAAGATCCT -GGCATTCGCACACATCATGATGGTGCTGACCGTAATGTTCTTCGTCTTCAGCTGTGTACTGAGCCTGACTCCGGCAGACC -TGGCTGCGGCTAAAGAGCAGAACATCTCGATTCTGTCTTACCTGGCTAACCACTTTAACGCACCGGTTATCGCGTGGATG -GCTCCGATTATCGCGATTATCGCTATCACCAAATCCTTCCTCGGTCACTACCTGGGCGCACGTGAAGGCTTCAACGGTAT -GGTGATTAAATCTCTGCGTGGTAAAGGTAAGTCTATCGAAATCAACAAGCTGAACCGTATCACTGCGCTGTTCATGCTGG -TAACGACCTGGATTGTTGCCACCCTGAACCCGAGCATCCTGGGTATGATTGAAACCCTGGGCGGTCCAATCATCGCGATG -ATCCTGTTCCTGATGCCGATGTACGCAATTCAGAAAGTACCGGCAATGCGTAAGTACAGCGGTCACATCAGCAACGTATT -CGTTGTCGTGATGGGTCTGATTGCAATCTCCGCAATCTTCTACTCTCTGTTCAGCTAAGTCCTTTCGCGCCGCTTTCGGG -CGGCGCTTCCTCCGTTTTAACGCGATGTATTTCCTATGATTAGCGTATTCGATATTTTCAAAATCGGCATTGGCCCTTCC -AGTTCTCATACCGTTGGACCAATGAAAGCGGGTAAACAATTTACCGACGATCTGATTGCCCGTAACCTGCTTAAAGACGT -GACCCGCGTGGTGGTTGACGTGTACGGCTCGCTCTCTCTGACCGGTAAAGGCCACCACACTGATATCGCCATTATTATGG -GCCTGGCGGGTAACCTGCCGGATACCGTGGATATCGATTCCATCCCCAGTTTTATTCAGGATGTGAATACTCATGGTCGC -CTGATGCTGGCAAACGGTCAGCATGAAGTGGAGTTCCCGGTTGATCAGTGCATGAACTTCCACGCCGACAACCTTTCTCT -GCATGAAAACGGTATGCGCATTACCGCGCTGGCGGGCGATAAAGTCGTTTACAGCCAGACTTACTACTCTATTGGCGGTG -GCTTTATCGTTGATGAAGAGCATTTTGGCCAGCAGGATAGCGCACCGGTTGAAGTTCCTTATCCGTACAGTTCAGCAGCC -GATCTGCAAAAACATTGTCAGGAAACCGGGCTGTCACTCTCTGGCCTGATGATGAAAAACGAGCTGGCGCTGCACAGCAA -AGAAGAGCTGGAACAGCACCTGGCGAACGTCTGGGAAGTCATGCGCGGCGGTATTGAGCGCGGTATTTCCACCGAAGGCG -TGTTGCCTGGCAAACTGCGCGTTCCACGCCGTGCTGCGGCACTACGCCGGATGCTGGTCAGCCAGGATAAAACCACCACT -GACCCGATGGCGGTTGTTGACTGGATCAACATGTTTGCACTGGCAGTGAACGAAGAGAACGCTGCTGGCGGTCGCGTGGT -GACTGCGCCGACTAACGGTGCGTGCGGGATTATCCCGGCAGTTCTGGCGTACTACGACAAGTTTATCCGCGAAGTGAACG -CTAACTCACTGGCTCGTTACCTGCTGGTAGCCAGCGCCATTGGTTCTCTTTATAAGATGAACGCGTCGATTTCTGGTGCT -GAAGTGGGTTGCCAGGGTGAAGTTGGCGTGGCGTGCTCAATGGCGGCGGCTGGTCTGGCAGAACTATTAGGCGCAAGCCC -GGCGCAGGTGTGCATCGCGGCGGAAATCGCCATGGAGCACAACCTCGGTCTGACGTGTGACCCGGTCGCCGGACAGGTAC -AGGTGCCATGCATCGAGCGTAACGCCATTGCGGCAGTAAAAGCGGTGAACGCCGCACGTATGGCGCTGCGCCGTACCAGC -GAGCCGCGCGTCTGCCTCGATAAAGTTATCGAAACCATGTACGAAACAGGTAAAGATATGAACGCCAAGTACCGCGAAAC -CTCTCGCGGCGGCCTGGCAATGAAGATCGTTGCCTGCGATTAATCGCTCTCCAAAGGCCTCGTTTTGCGAGGCCTCTTCC -CGATTTCTCATCCAGCCGTAGCCTGTTCCGGCATCGAATGTTACCCTTATCGCCTGATCTTTAAGGGGGTTATCGTGGCT -GTTCATTTGCTTATTGTCGATGCACTGAATCTTATTCGTCGCATTCATGCCGTTCAGGGGTCGCCCTGTGTCGAAACCTG -CCAGCATGCGCTCGATCAGCTCATTATGCACAGCCAGCCAACCCACGCGGTCGCCGTTTTTGATGATGAAAACCGCAGTA -GCGGCTGGCGTCATCAGCGTTTACCAGATTACAAAGCGGGTCGACCGCCAATGCCGGAAGAGTTGCACGACGAGATGCCT -GCATTACGCGCCGCCTTTGAGCAACGCGGCGTCCCGTGCTGGTCAACCAGCGGCAACGAAGCCGATGACTTAGCCGCCAC -GCTGGCGGTCAAAGTGACACAGGCCGGGCATCAGGCAACGATTGTTTCGACAGATAAAGGCTACTGTCAGTTACTTTCAC -CGACATTACGTATTCGTGATTACTTCCAGAAACGTTGGCTGGATGCGCCATTTATCGATAAAGAATTTGGCGTTCAACCG -CAGCAGTTGCCCGATTACTGGGGACTTGCGGGGATCAGCAGTTCAAAGGTACCGGGTGTTGCGGGAATCGGACCAAAAAG -CGCCACGCAGCTGCTGGTCGAGTTTCAGAGTCTGGAAGGGATATATGAGAATCTGGATGCGGTTGCCGAAAAGTGGCGCA -AAAAATTAGAAACCCATAAAGAGATGGCGTTTCTGTGCCGCGATATTGCCCGCTTACAAACCGATTTGCATATCGACGGC -AATTTACAGCAATTGCGGTTGGTACGGTAACGGCGAGCCGGATACGCCGCAAACGTCGTATCCGGCATTATCACATCAGC -GCATTTACCAGGCGGTATGGTAAAGCTCTACAATATCCTCAAGCGTTGCTTCACGCGGGTTGCCACCGGTACAAACATCA -TCCAGTGCCGCCTGCGCCAGTGCCGGAATGTCTTCCTTGCGTACACCAACATCACGCAAATGTGGCGGAATACCGACATC -ACGGTTGAGAGCAAACACCGCTTCAACAGCGGCATTACGCGCCTCTTCCAGGCTCATACCTTCCACTTTCACGCCCATAA -CGCGCGCGATATCGCGGTACTTCTCACCGGTAAAGTCAGCGTTATAACGCATGACATGCGGTAACAGGATGGCGTTCGCA -ACACCGTGTGGAGTGTTATAAAACGCGCCCAGTGGATGCGCCATACCATGCACCAACCCTAACCCAACATTCGAGAAGCC -CATACCCGCAACATACTGCCCGAGCGCCATTTCTTCTCCGGCATCCTTATCACCAGCAACCGATCCTCGCAGCGCCCCAG -CAATGATTTCAATCGCTTTAATGTGCAGTGCATCGGTTAGCGCCCACGCGCCACGGGTAATATACCCCTCAATAGCATGA -GTGAGCGCATCGACACCCGTCGCAGCTTTCAGCGCTGGAGGCATACCATCCATCATGTCAGCGTCAATAAACGCCACCTG -CGGGATATCATGCGGATCAACGCAAACAAACTTGCGCCGTTTCTCTTCGTCAGTGATCACGTAGTTAATGGTCACTTCTG -CCGCAGTACCTGCTGTGGTAGGAATTGCCAGAATCGGTACACTGGGTTTATTGGTCGGGGAAAGCCCTTCCAGGCTACGC -ACATCGGCAAACTCCGGGTTGTTGCTGATAATGCCAATCGCTTTACAAGTATCCTGTGGAGAACCACCACCAATAGCGAT -CAGGTAATCCGCGCCGCTATTCTGGAATACACCGAGCCCTTCTTTGACGACAGTAATTGTTGGGTTGGGCACTACGCCGT -CGTAAATCGCCCATGCCAGCCCTGCAGCATCCATCTTATCGGTCACTTTCGCCACCACGCCGCATTGCACCAGCGTTTTA -TCGGTGACGATCAGCGCCTTCTGATAACCACGGCGTTTCACCTCATCGGTTAAAGCCCCAACAGCACCCCGACCAAACCA -TGCCGTTTCGTTCAGAATCATTCTGTTAGCCATCATCCTTCTCCTTGTTGCTTTACGAAATTACTCTTCAATTCGTAACC -CATAGGTTTTGAATTTCTCCAGCACTACGGCAATCTCTTCATCGCTCAGCACTGGCACCGGGTCCGTAATCGCCAGGGTC -GTCAGGTAAAGTTGCGCCAGCACTTCAACTTCATGCGCCAGCCATAACGCTTTTTCCAGATTCACCTCACAAGCGATAAG -CCCATGATGTTGTAACAAAGTTGCCTTACGATTTTTGAGAGCCAGCGCAACATGTTCAGAAAGTTCGCGTGTTCCAAAGG -TCGCATAAGGCGCGCAAGGAATAGAATTACCGCCAGCCGCCGCAATCATGTAGTGAATAGCGGGGATCGATCGGTTAAGA -ATGGAAACTGCCGTGCAATGAACGGCATGATTGTGAACAACCGCGTTGGCATCCGGTCTGCTTTGATAGGCTGCCATATG -GAAACGCCATTCGCTTGAGGGGAGCTTTCCTTCCTCATGTTTACCGTTGCCATCAATAAAGACAATATGCGACTCCGTCA -GTTTTTCATATGGAATGCCTGTAGGCGTAATCAGCATCCCATCCTGATAACGTACACTGACGTTCCCCGCTGTCCCCTGG -TTCAGTCCCAGGCGGGTCATTTCCAGGCAAGTGTCAATAATCTGACGAGCAAGTTTATTTCGTTCCATTAGCTACCTCTC -TCTGATTCAAAACAGGGCAATAATGTTGTTCCTTTCACACTATTGAATTAGCCGTTTAATTACCCACCATCTTCTTCCTG -ATTAACAAGAAAGAAATTCACAAGCTTATATTTTGTGACCTGGTTCAACTAATCACAGTAAATAACTGCAAGTTCTCTTT -TTATAACCCCATTAAAAATGACCGCTCTTAAAAATATTTATCAAAACGGTCATTTTTCTATTCCTCCAAGCCCGGAATGA -CCGTTTTCGGCACAAACAATTAATACGGTCATCTGATTTGTGTTTTTTATGATTTATTTTCTGAAACGGGCATGAAATTT -CGATTATTAAAGTGATGGTAGTCACATAAAGTCACCTTCTAGCTAATAAGTGTGACCGCCGTCATATTACAGAGCGTTTT -TTATTTGAAAATGAATCCATGAGTTCATTTCAGACAGGCAAATATTCACTGATATGAAGCCCGAACTCGCTGGTTTTGCA -CTTTTGAAAACATAACCGATTACGTGCTTAAGCTTCTGAACCTAAGAGGATGCTATGGGAAACACATCAATACAAACGCA -GAGTTACCGTGCGGTAGATAAAGATGCAGGGCAAAGCAGAAGTTACATTATTCCATTCGCGCTGCTGTGCTCACTGTTTT -TTCTTTGGGCGGTAGCCAATAACCTTAACGACATTTTATTACCTCAATTCCAGCAGGCTTTTACGCTGACAAATTTCCAG -GCTGGCCTGATCCAATCGGCCTTTTACTTTGGTTATTTCATTATCCCAATCCCTGCTGGGATATTGATGAAAAAACTCAG -TTATAAAGCAGGGATTATTACCGGGTTATTTTTATATGCCTTGGGTGCTGCATTATTCTGGCCCGCCGCAGAAATAATGA -ACTACACCTTGTTTTTAGTTGGCCTATTTATTATTGCAGCCGGATTAGGTTGTCTGGAAACTGCCGCAAACCCTTTTGTT -ACGGTATTAGGGCCGGAAAGTAGTGGTCACTTCCGCTTAAATCTTGCGCAAACATTTAACTCGTTTGGCGCAATTATCGC -GGTTGTCTTTGGGCAAAGTCTTATTTTGTCTAACGTGCCACATCAATCGCAAGACGTTCTCGATAAAATGTCTCCAGAGC -AATTGAGTGCGTATAAACACAGCCTGGTATTATCGGTACAGACACCTTATATGATCATCGTGGCTATCGTGTTACTGGTC -GCCCTGCTGATCATGCTGACGAAATTCCCGGCATTGCAGAGTGATAATCACAGTGACGCCAAACAAGGATCGTTCTCCGC -ATCGCTTTCTCGCCTGGCGCGTATTCGCCACTGGCGCTGGGCGGTATTAGCGCAATTCTGCTATGTCGGCGCACAAACGG -CCTGCTGGAGCTATTTGATTCGCTACGCTGTAGAAGAAATTCCAGGTATGACTGCAGGCTTTGCCGCTAACTATTTAACC -GGAACCATGGTGTGCTTCTTTATTGGTCGTTTCACCGGTACCTGGCTCATCAGTCGCTTCGCACCACACAAAGTCCTGGC -CGCCTACGCATTAATCGCTATGGCACTGTGCCTGATCTCAGCCTTCGCTGGCGGTCATGTGGGCTTAATAGCCCTGACTT -TATGCAGCGCCTTTATGTCGATTCAGTACCCAACAATCTTCTCGCTGGGCATTAAGAATCTCGGCCAGGACACCAAATAT -GGTTCGTCCTTCATCGTTATGACCATTATTGGCGGCGGTATTGTCACTCCGGTCATGGGTTTTGTCAGTGACGCGGCGGG -CAACATCCCCACTGCTGAACTGATCCCCGCACTCTGCTTCGCGGTCATCTTTATCTTTGCCCGTTTCCGTTCTCAAACGG -CAACTAACTGAACATATTTTCCGAATAAAGTGAGGAATCTGTAATGAAAAAAATCAGCTTACCGAAAATTGGTATCCGCC -CGGTTATTGACGGTCGTCGCATGGGTGTTCGTGAGTCGCTTGAAGAACAAACAATGAATATGGCGAAAGCTACGGCCGCA -CTGCTGACCGAGAAACTGCGCCATGCCTGCGGAGCTGCCGTCGAGTGTGTCATTTCCGATACCTGTATCGCGGGTATGGC -TGAAGCCGCTGCTTGCGAAGAAAAATTCAGCAGTCAGAATGTAGGCCTCACCATTACGGTAACGCCTTGCTGGTGCTATG -GCAGTGAAACCATCGACATGGATCCAACCCGCCCGAAGGCCATTTGGGGCTTTAACGGCACTGAACGCCCCGGCGCTGTT -TACCTGGCAGCGGCTCTGGCAGCTCACAGCCAGAAAGGCATCCCAGCATTCTCCATTTACGGTCATGACGTTCAGGATGC -CGATGACACATCGATTCCTGCCGATGTTGAAGAAAAACTGCTGCGCTTTGCCCGCGCCGGTTTGGCCGTCGCCAGCATGA -AAGGTAAAAGCTATCTGTCGCTGGGCGGCGTTTCGATGGGTATCGCCGGTTCCATTGTTGATCACAACTTCTTTGAATCC -TGGCTGGGAATGAAAGTCCAGGCGGTGGATATGACCGAACTGCGTCGCCGTATCGATCAGAAGATTTACGACGAAGCCGA -ATTGGAAATGGCACTGGCCTGGGCTGATAAAAACTTCCGCTATGGCGAAGATGAAAATAACAAACAGTATCAACGTAATG -CCGAGCAAAGCCGCGCAGTTCTGCGCGAAAGTTTACTGATGGCGATGTGTATCCGCGACATGATGCAAGGCAACAGCAAA -CTGGCCGATATTGGTCGCGTGGAAGAATCACTTGGCTACAACGCCATCGCTGCGGGCTTCCAGGGGCAACGTCACTGGAC -CGATCAATATCCCAATGGTGACACCGCCGAAGCGATCCTCAACAGTTCATTTGACTGGAATGGCGTGCGCGAACCCTTTG -TCGTGGCGACCGAAAACGACAGTCTTAACGGCGTGGCAATGCTAATGGGTCACCAGCTCACCGGCACCGCTCAGGTATTT -GCCGATGTGCGTACCTACTGGTCACCAGAAGCAATTGAGCGTGTAACGGGGCATAAACTGGATGGACTGGCAGAACACGG -CATCATCCATTTGATCAACTCCGGTTCTGCTGCGCTGGACGGTTCCTGTAAACAACGCGACAGCGAAGGTAACCCGACGA -TGAAGCCACACTGGGAAATCTCTCAGCAAGAGGCTGACGCTTGCCTCGCCGCTACCGAATGGTGCCCGGCGATCCACGAA -TACTTCCGTGGCGGCGGTTACTCTTCCCGCTTCCTTACCGAAGGCGGCGTCCCGTTCACCATGACTCGTGTCAACATCAT -CAAAGGCCTGGGACCGGTACTGCAAATCGCGGAAGGCTGGAGCGTGGAATTGCCGAAGGATGTGCATGACATCCTCAACA -AACGCACCAACTCAACCTGGCCAACCACCTGGTTTGCACCGCGCCTCACCGGTAAAGGGCCGTTTACGGATGTGTACTCG -GTAATGGCGAACTGGGGCGCTAACCATGGGGTTCTGACCATCGGCCACGTTGGCGCAGACTTTATCACTCTCGCCTCCAT -GCTGCGTATCCCGGTATGTATGCACAACGTTGAAGAGACCAAAGTGTATCGTCCTTCTGCCTGGGCTGCGCACGGCATGG -ATATTGAAGGCCAGGATTACCGCGCTTGCCAGAACTACGGTCCGTTGTACAAGCGTTAATACATTACTCCCTGATGTGAT -GCCCGGTCGCTCCGGCTACCGGGCCTGAACAAGCAAGAGTGGTTAGCCGGATAAGCAATGTTATCCGGCTATATTGCAGG -AGCGATTATGAAACAAGAAGTTATCCTGGTACTCGACTGTGGCGCGACCAATGTCAGGGCCATCGCGGTTAATCGGCAGG -GCAAAATTGTTGCCCGCGCCTCAACGCCTAATGCCAGCGATATCGCGATGGAAAACAACACCTGGCACCAGTGGTCTTTA -GACGCCATTTTGCAACGCTTTGCTGATTGCTGTCGGCAAATCAATAGTGAACTGACTGAATGCCACATCCGCGGTATCGC -CGTCACCACCTTTGGTGTGGATGGCGCTCTGGTAGATAAGCAAGGCAATCTGCTCTATCCGATTATTAGCTGGAAATGTC -CGCGAACAGCAGCGGTTATGGACAATATTGAACGGTTAATCTCCGCACAGCGGTTGCAGGCTATTTCTGGCGTCGGAGCC -TTTAGTTTCAATACGTTATATAAGTTGGTGTGGTTGAAAGAAAATCATCCACAACTGCTGGAACGCGCGCACGCCTGGCT -CTTTATTTCGTCGCTGATTAACCACCGTTTAACCGGCGAATTCACTACTGATATCACGATGGCCGGAACCAGCCAGATGC -TGGATATCCAGCAACGCGATTTCAGTCCGCAAATTTTACAAGCCACCGGTATTCCACGCCGACTCTTCCCTCGTCTGGTG -GAAGCGGGTGAACAGATTGGTACGCTACAGAACAGCGCCGCAGCAATGCTCGGCTTACCCGTTGGCATACCGGTGATTTC -CGCAGGTCACGATACCCAGTTCGCCCTTTTTGGCGCTGGTGCTGAACAAAATGAACCCGTGCTCTCTTCCGGTACATGGG -AAATTTTAATGGTTCGCAGCGCCCAGGTTGATACTTCGCTGTTAAGTCAGTACGCCGGTTCCACCTGCGAACTGGATAGC -CAGGCAGGGTTGTATAACCCAGGTATGCAATGGCTGGCATCCGGCGTGCTGGAATGGGTGAGAAAACTGTTCTGGACGGC -TGAAACACCCTGGCAAATGTTGATTGAAGAAGCTCGTCTGATCGCGCCTGGCGCGGATGGCGTAAAAATGCAGTGTGATT -TATTGTCGTGTCAGAACGCTGGCTGGCAAGGAGTGACGCTTAATACCACGCGGGGGCATTTCTATCGCGCGGCGCTGGAA -GGGTTAACTGCGCAATTACAGCGCAATCTACAGATGCTGGAAAAAATCGGGCACTTTAAGGCCTCTGAATTATTGTTAGT -CGGTGGAGGAAGTCGCAACACATTGTGGAATCAGATTAAAGCCAATATGCTTGATATTCCGGTAAAAGTTCTCGACGACG -CCGAAACGACCGTCGCAGGAGCTGCGCTGTTCGGTTGGTATGGCGTAGGGGAATTTAACAGCCCGGAAGAAGCCCGCGCA -CAGATTCATTATCAGTACCGTTATTTCTACCCGCAAACTGAACCTGAATTTATAGAGGAAGTGTGAAATGCTGAAAACAA -TTTCGCCGTTAATTTCTCCCGAACTATTGAAAGTGCTGGCAGAGATGGGACATGGAGATGAAATTATTTTTTCCGATGCT -CACTTTCCCGCCCATTCGATGGGACCGCAGGTGATCCGCGCTGATGGCCTGTTGGTGAGCGACTTGCTCCAGGCGATTAT -CCCGTTATTTGAACTGGACAGTTATGCACCGCCGCTGGTGATGATGGCGGCGGTAGAAGGTGACACTCTCGATCCTGAAG -TAGAACGACGTTACCGTAATGCGCTTTCACTACAAGCCCCGTGTCCTGACATCATCCGCATCAATCGTTTTGCGTTTTAT -GAACGGGCGCAAAAAGCCTTTGCGATCGTTATCACAGGCGAACGAGCGAAGTACGGGAATATTCTTTTAAAAAAAGGGGT -AACACCGTAATCTCATACCGGTACGCCCGCATGACGCGGGCGGTTATCGAATGATGGGGTGAAAAATATGAAAGCGGCAC -GCCAGCAAGCGATAGTCGACCTGCTGCTGAACCATACCAGCCTGACCACGGAAGCTCTCTCTGAACAGCTAAAGGTCAGT -AAAGAAACCATTCGTCGCGATCTCAATGAATTACAGACGCAGGGTAAAATTCTGCGCAATCATGGACGCGCTAAATATAT -CCACCGTCAAAATCAAGACAGTGGCGATCCCTTTCACATCAGGCTGAAAAGCCATTATGCGCATAAAGCAGATATCGCGC -GCGAGGCGCTCGCGTGGATTGAAGAAGGGATGGTGATAGCCTTAGACGCCAGTTCAACTTGCTGGTATCTGGCACGCCAG -TTGCCTGACATCAACATTCAGGTCTTCACCAATAGCCATCCGATTTGCCATGAACTCGGTAAACGCGAACGCATTCAACT -GATCAGTTCCGGCGGCACACTTGAGCGCAAATATGGCTGTTACGTCAATCCCTCGCTGATTTCCCAACTTAAATCGCTGG -AAATCGATCTGTTTATTTTTTCTTGTGAAGGGATCGATAGCAGCGGCGCACTGTGGGACTCCAATGCGATCAACGCTGAT -TACAAATCGATGCTATTAAAACGTGCCGCGCAATCGTTGTTATTGATTGATAAAAGTAAATTTAATCGTTCAGGGGAAGC -CCGCATCGGGCATCTGGATGAGGTAACGCACATTATTTCTGATGAGCGCCAGGTTGCAACTTCTTTGGTAACAGCCTGAC -GGAAAGGGTAGCAGGCCGGAGACGACGCCCCGGCCTTGCCTGTTATCGCTCGTCGCGACGACCACCCACCGCAGCCCAGA -TGCGGCGGACGTGCACCGTCACTTCTTCGCGATCGTGATACAACTGCCGCGCCTGAATCTGAGCATTTATGCCATGTTCA -TCAAGCTGTGCCTGAATATACGCCAGATTGTGTGACACTTCTTCGTAGCGTTTTTTCATCGGCAGTTTGAGGTTGAAAAT -GGTTTCACGGCACCAGCCATTAACCAGCCACTGCGCCATCAATGCCGCAACTTTCGCCGGTTTTTCAACCATATCGCATA -CCATCCAGGAGATATTGCTGCGCGTCGGACGGAATTTGAAACCGTCTTCCCGCAGCCACGTCACCTGTCCGGTATCCATC -AGACTTTGCGCCATCGGGCCGTTGTCGACGGAATAAACCCACATGTTGCGCTTCACCAGTTGGTAGGTCCAGCCGCCAGG -GCAAGCGCCTAAATCCACCGCCCACATCCCGTTCGCCAGGCGTTCATCCCACTCATCCGCAGGAATAAACACATGAAATG -CCTCTTCCAGTTTGAGCGTGGAACGACTCGGCGCATCTGCCGGAAATTTCAGGCGCGGAATGCCCATATAGAACGGCGAA -TTATTGTTGCTGTATGAGTAACCGGTATAGCAGCAGCCTGGTGCAATAAAGAATACATGCACAACCGGACGCTTCGGCGT -TTCATAGTTCGCCAGCACCCCGGCATCGCGCAAGGCAGCGCGTAGCGGAACAGTAAATTTACGGCAGAATTTCAGTAACT -CTTTGCTTTCGTTGGTATCGGCAACTTCAACACGCAGTTCACCGCCCTTCTCTACTACGCCCTGTAACATGCCGACAATG -GGGGTAATACGATCTTCTGGCGGCAAATGCTGCAGGAGTTCCCCCACCACAAACCACTGGCGGGCAAAAATTAATGAACT -GAACGGCAGCTCACGGATTAACTTATCGCCATCATCAGGTTGATAACATTCATAAATGACATAACCCGCATTCTCTTTCA -CGCGGGCAAAACCGAAAATTTCCCGCTGGCCGGCTTTATCGGTAATTTCTGCGGCGCACTCTTTTTCAAAGCCCGGACGG -CACAGCAATACAACCTTATTCATGACTTACGCCCTTGCGCTTTAAACGGATAGCACCAACTAACATTAACGCCCAGCCCG -CGAGGAAGCTCACGCCGCCAACCGGAGTGACAAACGCCCACAAACGCAGATGGGACAGCGCCAGGCAATAAAGGCTGCCG -CTGAACAACACCGTGCCTAACGCGAGGAAAACGCTACTCCAGTAAAACCAGATACTGATGCGACGCTGCATTGCCACCGC -CAGACCTAAGATCGCCAGCGTATGAAACGCCTGGTATTCGAGGCCGGTCTGGATCCAGCCCATCTCAACGGCCCCCATGG -TTTTACTTAACACATGCGCGCCAAAAGCGCCCAGAGCCACAAAAATGAAGCCGCTAATGGCGGCGAAAATCAGCATAAAA -CGGCTGGTCATGGTCGTACCCTACGTAAATTATTGTTCATAACGAAAGCGGAATTTTTCTTGTTCAGCAGCGGCTTTCGC -CAGGATCCATTGGCGAAAGGCGGCTATTTTACCCAGTTCTGCCTGACTGTCATGACAAACCAGATAAAAAGCATTTTTAC -TGACCAGAACATCATTAAACGGGCAAACAAGACGTCCGGCCTCGATTTCAGATTGCGCCATCACGTTATTTGCCAGCGCC -ACTCCCTGCCCGTGGATAGCCGCTTGCAGCACCATGGCGCTATGGCTAAAAATTGGCCCTTGCTGAACGTTGATATGATT -TAACCCCAACTGTCGGGTATATGTCTGCCAGTCACGGCGCGAAGCATCATGTAATAACGTATGTTTAGCCAGATCTTCCG -GTGTCTTCAAGGGTTTTTCGCCAGTCAGCAGTAGCGGCGAACACACCGGCAATAAATATTCGGCGTACAGTTTTTCCACC -CGTAGCCCCGGCCAGTTGCCCCGACCATAAAATATCGCCACATCAACATCATCCGCCAGCTTATCTTCCTGACGATCAAC -CGCCTGGATTCGAACGTCAATTCCCGGATAAGCTGAATTAAAGCTGGAAAGTCGCGGAACCAACCAATGAATGGCGAAAC -TGGGGAGTAAACTGACCGTCAACGCCCCCTTGGCGCTACGGGCCTGGAGTTTACGCGTCGCTTCGGTTAATTGCGAAAAT -ATCTCTTTGATATCGAGGAAATAGCTTTGCCCTTCCTCGGTCAGCAGGAGTGAACGATTACGGCGGCGGAACAGTTTTAG -CCCCAAAAAATCCTCAAGAGACTTGATTTGATGACTTACTGCGGCTTGGGTCACAAAAAGCTCTTCTGCTGCGCGAGTGA -AACTTAAATGGCGTGCTGCGGCATCAAAAACTCGTAAGGCATTTAGCGGTGGTAATCGTTTAGACATGGCTATTAAACTT -TGATGTTAAATGAATTTAACAATTAGATCACACTATGTAACCTATTAGTTTTTTTAATCTGAGCCATTATAAATTGTCCG -TTGAGCTTCTACCAGCAAATACCTATAGTGGCGGCACTTCCTGAGCCGGAACGAAAAGTTTTATCGGAATGCGTGTTCTG -GTGAACTTTTGGCTTACGGTTGTGTTGTTGTGTTTGCAATTGGTCTGCGATTCAGACCATGGTAGCAAAGCTACCTTTTT -TCACTTCCTGTACATTTACCCTGTCTGTCCATAGTGATTAATGTAGCACCGCCTAATTGCGGTGCTTTTTTTTACCTTGC -GATCGCGAATTACTGATCCAGTTCGACCATCTCTTTCACGTCAGTACGGTTGATCTGCTGTTTGTTGCCATTAGCGTCTT -TATACGAAATCATACCGGTATCGTTATCAGTCTGTGGTTTGCCGTCAGAGACGATGGTACGTCCGTCATTGGTGTGCATC -ACATAGTTCGAACCGGAACAGGCGCTCAGGGCAAAAGTCAGCATACAGGCAGAAATAATTGCGGCAGTCTTTTTCATCAT -CTTCTCCTTAAAGCGATTAATAAATCTTAATAGTATTGATTAACAGGCTAAAATTAACGCCTAACACTATTCAGCATATG -TTACTTACGCGGCTTCGCCAGGATATCCAGATAATTCTGATGGTTAGCACTCTCCTTGTATCAAAGTGAATTTTGCGTCA -CGATCGGTGCATCAAGCCGAGGAGTACCATGAACGTTTTTAATCCCGCGCAGTTTCGCGCCCAGTTTCCCGCACTACAGG -ATGCGGGCGTCTATCTCGACAGCGCCGCGACCGCGCTTAAACCTGAAGCCGTGGTTGAAGCCACCCAACAGTTTTACAGT -CTGAGCGCCGGAAACGTCCATCGCAGCCAGTTTGCCGAAGCCCAACGCCTGACCGCGCGTTATGAAGCTGCACGAGAGAA -AGTGGCGCAATTACTGAATGCACCGGATGATAAAACTATCGTCTGGACGCGCGGCACCACTGAATCCATCAACATGGTGG -CACAATGCTATGCGCGTCCGCGTCTGCAACCGGGCGATGAGATTATTGTCAGCGTGGCAGAACACCACGCCAACCTCGTC -CCCTGGCTGATGGTCGCCCAACAAACTGGAGCCAAAGTGGTGAAATTGCCGCTTAATGCGCAGCGACTGCCGGATGTCGA -TTTGTTGCCAGAACTGATTACTCCCCGTAGTCGGATTCTGGCGTTGGGTCAGATGTCGAACGTTACTGGCGGTTGCCCGG -ATCTGGCGCGAGCGATTACCTTTGCTCATTCAGCCGGGATGGTGGTGATGGTTGATGGTGCTCAGGGGGCAGTGCATTTC -CCCGCGGATGTTCAGCAACTGGATATTGATTTCTATGCTTTTTCAGGTCACAAACTGTATGGCCCGACAGGTATCGGCGT -GCTGTATGGTAAATCAGAACTGCTGGAGGCGATGTCGCCCTGGCTGGGCGGCGGCAAAATGGTTCACGAAGTGAGTTTTG -ACGGCTTCACGACTCAATCTGCGCCGTGGAAACTGGAAGCTGGAACGCCAAATGTCGCTGGTGTCATAGGATTAAGCGCG -GCGCTGGAATGGCTGGCAGATTACGATATCAACCAGGCCGAAAGCTGGAGCCGTAGCTTAGCAACGCTGGCGGAAGATGC -GCTGGCGAAACGTCCCGGCTTTCGTTCATTCCGCTGCCAGGATTCCAGCCTGCTGGCCTTTGATTTTGCTGGCGTTCATC -ATAGCGATATGGTGACGCTGCTGGCGGAGTACGGTATTGCCCTGCGGGCCGGGCAGCATTGCGCTCAGCCGCTACTGGCA -GAATTAGGCGTAACCGGCACACTGCGCGCCTCTTTTGCGCCATATAATACAAAGAGTGATGTGGATGCGCTGGTGAATGC -CGTTGACCGCGCGCTGGAATTATTGGTGGATTAATGACAAACCCGCAATTCGCCGGACATCCGTTCGGCACAACCGTAAC -CGCAGAAACGTTACGCAATACCTTCGCACCGTTGACGCAATGGGAAGATAAATATCGCCAGTTGATCATGCTGGGGAAAC -AGCTTCCGGCATTGCCAGACGAGTTAAAAGCGCAGGCTAAAGAGATTGCCGGATGCGAAAACCGCGTCTGGCTGGGATAT -ACAGTGGCTGAAAACGGCAAAATGCATTTCTTTGGCGACAGCGAAGGGCGCATTGTGCGCGGCCTGCTGGCGGTGTTGTT -GACTGCCGTTGAGGGGAAAACCGCCGCCGAGTTGCAGGCACAGTCACCACTGGCATTGTTTGATGAGCTGGGATTACGTG -CGCAGCTTAGCGCCTCACGCAGCCAGGGGTTAAATGCGTTAAGCGAGGCGATTATCGCTGCGACGAAGCAGGTTTAAGCA -CAGAACCGGGTCGGATAAGACGTTCGCGTCTCATCCGACCTGATTGTTTAACCCTGACGCGCCGCTTTCGCCATCATCTT -CTTCAGCGCATGAGAAACCGCAACAAACCCAAAGGTGGCGGTCACCATCGTTGCCGCGCCAAATCCAGATGCACAATCCA -TCCGCTTCGGCCCTTCTGCCGTGGCTTTCATCGCACACACCGTACCGTCTGACTGCGGGTACACCAGCGCTTCAGTAGAA -AACACGCAATCCACGCCGAGCTTACCTTTACTGTTTTTCACTACGCCAAAATCGCTTTTCAGGCGCTCGCGCAACTTCGC -CGCCAGCGGGTCCTGAATCGTTTTCGCCAGATCGGTAACCTGAATCTGCGTCGGATCAATCTGCCCACCCGCGCCACCGG -TTGTGACCAGTGGGATTTTATTGCGCCGACAATAAGCAATCAGCGCCGCTTTGGGCCGTACACTATCAATGGCATCAATC -ACGTACGAATAACCCACGCTCATATACTGCGCTACGTTATCCGGCGTCACGAAATCATCCACCACCGTTACACGGCACTC -CGGGTTAATCTGGCGAATACGCTCCGCCATAACTTCCGCTTTTGCCAGCCCAACGTTATCGCGCAGGGCATGAATTTGCC -GATTGGTATTGGTGACGCACACATCATCCATATCGATAAGCGTGATTGCGCCAATCCCCGTGCGCGCCAGCGCTTCCGCC -GCCCAGGAACCGACACCACCGATACCAACCACACAAATATGCGCGTCAGCAAACAGTTGCAACGCTTTTTCACCATACAG -ACGCGCTGTGCCACCAAAACGCTGACGCCATGCATCACTAATTACCACAGACATAGCACCTCAGAATTAAAAAGGGCGAG -GTTATCCCTCACCCTAAACGCATAAATGCCTGATGCGCTACGCTTATCAGGCCTACATAACTCCTGCAATATTTTGGATT -TGCATGATTTGTAGGCCGGATAAGGCGTTCACGCCGCATCCGGCATGAACAACGCGCACTTAGTCAATAATCAGGATGTG -AGGTTACCCCTCACCCTGTCATATCCGTAAAAACGGCATACAGAATATCACATCAGCCGCTAAAGACGTTACCTGCGCCC -GGGGCGGTTTTCAGCACCCAGACACGTCCATAGTGGTTGTACCAACCTGCGCGGTGTCCGGCTTCCGGCCCGATCCCTTG -ATAGATATCGAAGTGTTGGCCTTTGATTGCACCACCGACATCCAGCGCCACCATCAGACGCAGTTCGTACTGACCATTAA -ATTTGCCGTTATTATCCAGCAACGGCACTTCTGCCAGCAAGGTAGTACCTGGCGGAATAATGGAACGATCAGAGGCAACT -GACGCGCGACCAACCAGCGGCACCGCACTTGCCCCTTTCACCGGAGCAAAAGATTGCGGTTTAAAGAAGACGAAAGACGG -GTTCTGTTCCAGCAGCTCGCGAACCTCGGCTTCACTGTGTGTTTCGCCCCAGTGACGAATCGCCTGCATCGACATATCTT -CTTTTTTCACTTCGCCACGGTCGATCAGCACCTTACCAATGCTGCGATAGGCATGACCGTTTTTCCCTGCATAGCTGAAA -AAGTTAAGCGGACTGCCATCACCAAAGTCGATATACCCACTACCCTGCACATCCATAATGAAGTTATCCATCAGGGAGTT -ACTGTAAGCGAGAATATATTTATCACTCAATGCCCCCGCGTAGATCTCCGCACGAGACGGCAGACGACCACGTTTTGGCG -GCATACGGTAAATAGGATACTGGAACTCGCCCTGGCGGGTATGGCGCGCCTGAATTACCGGCGTGTAATAACCGGTAAAC -TGCACGTTACCATAGTTGTCGGCACCTTCCATCTGCCAGGCATCAATGCCGAACTGGCGCATATTGCGGGTATCACCGCC -TGCGCGCAGCCACTCTTGCACCGCGTTATAAACATTACTCTGGTTGCCATACAGACGCGGTGACGAATTACGGATATGGT -TAATTTGCTCGGCAAAATCACCGGCGTTAATCGGCGCGCCAACGGCATCTGGCTGGTTCACCAGAGAGAAAGGCTGGGTA -AATTTCCCGTCTTTATATTGCTGTCCGCGATCGGTTGGTTTGGAAGAGCAGGCGGCAAGCATTGCCACAACCGTGCCCAT -AAGAAGGTACTTTACCCAACGTCCTTTCATTGTTCTCTTCTTCAGGTTAAAAAATAAGGCGCAACGAAGATAACAAACCG -CCGCGTTTAATGAAATGAGCAGCCTCTCCCTGACGCAAATTTTGCACAAAAAATAGGCTTTAGTGATTTGTTTTTGTTCA -AAATCATGCCAAATCCGTGATCGGGGTAAAAAAAAGGTTGCATGAAAACGCGAGCGGAGTATAGTGCGCATCCACGGACG -CGGGGTGGAGCAGCCTGGTAGCTCGTCGGGCTCATAACCCGAAGGTCGTCGGTTCAAATCCGGCCCCCGCAACCAATTAA -AATTTGATGAAGTAAAGCAGTACGGTGACGCGGGGTGGAGCAGCCTGGTAGCTCGTCGGGCTCATAACCCGAAGGTCGTC -GGTTCAAATCCGGCCCCCGCAACCAATCAAATTTGATGAAGTAAAAGCAGTACGGTGACGCGGGGTGGAGCAGCCTGGTA -GCTCGTCGGGCTCATAACCCGAAGGTCGTCGGTTCAAATCCGGCCCCCGCAACCAATTATTGAACACCCTAACGGGTGTT -TTTTTGTTTCTGGTCTCCCATAAAAAAGCGCCATTCAGCGCCTTTTTATCATCCCCTTCTCGCCAGCGTCGCCCCATCGG -CAAAATACGCTTTAATCCCCGCAAGAATAGACTCCGCAACTTCCTGCTGGAAAGTCGCCGTTTTCAGTTTACGCTCTTCC -TCAACGTTACTGATAAACGCCGTTTCGACCAGAATGGAGGGAATATCTGGTGCCTTTAGTACGGCAAACCCGGCCTGTTC -AACTTGATTTTTATGCAGCTTGTTGATTTTACCGAGCTTATTCAGTACCGCTTTACCAAACTTCAGGCTGTCGGCAATGG -TCAGCGACTGTACCATATCGAACATGGTGTGGTCGACATAGCGGTCACCGCTTTTGCTCACGCCACCAATCAAGTCCGAG -GCGTTCTGGGTTTGTGCCAGATATTTTGCCGCAGTACTGGTTGCACCTTTGGTTGAGAGCGCAAACACAGAGGAACCGCT -CGGCTGACGACTGGTAAAGGCGTCGGCATGGATAGAGACAAACAGGTCAGCACGCTGTTTCTGGGCTTTTGCTACGCGCA -CTTGCAATGGAATGAAGATGTCTTCATTGCGCGTCATGTACACCTTCATATTGCCCTCTTTCTCGATCAGAGAGCGCAAA -CGGCGAGCTATTTGCAATACCACATCTTTTTCGCGCGTTTTGTATTTCCCCACCGCACCGGAGTCTTCGCCACCGTGGCC -AGGGTCAAGCATAATGACAATCGGACGATCGCGCCCTGCTTTACCCGGTTGTGGACCACTTTGCGCTGGCGGCACCTGCT -TTTCGAGGTCGCCTTTGTTGTAATCCTCCAGCAGCGCCAGCAGCGGGTCCTGCATATCCTGTGCATTGGCCGGATAGAGG -TCCATCACCAGACGCTCTTTAAACCCGGCGACCGGCGCAAGGGCAAACAGCTGCGGTTTTACGTTTTGCTTTAATTCAAA -AACCATCCGTACGGTTTGCGGGTCAAATTGCCCGACGCGCGCCGACTTGATGAACGGGTCGTCTGCACGAATTTGTGCCG -CCATCCCCTTGAGTACCGAGTTCAGGTTTACATCTTCGATATCCACCACCACGCGTTCAGGGTTACTCAACGCGAACTGC -TTATATTTCAGCTGACGATTTGATTCCACCGTCACGCGGGTGTAGCTGGACGCAGGCCAGACGCGCACCGCCACGACCTG -GCTGACCGCAGCCAGACTGACCTGACTTACGCTCAATAGCCACATGGCACCCGCGCCTTGCAGTAAACGACGACGGCTGA -TTGCAGTGTTGGATCCTGACATGCCTCTCCCGAGCAAAAGAAATCTAAGCTGTGTAACAAGTAAACGACTAATTTGACCG -GAAACTTTAGCGAAAGACGCATAATCTGTCATCTAATAAACGGTAAACATTCTTTTTATATTCACGGCATTACTGATAAA -AAAGTCGCTCTCGCATAAAATTTACACTTGCACCCTGCGAAAAAACAGAATAAAAATACACTAATTTCGAATAATCATGC -AAAGAGGTGTGCCGTGGTAAAGGAACGTAAAACCGAGTTGGTCGAGGGATTCCGCCATTCGGTTCCCTATATCAATACCC -ACCGGGGAAAAACGTTTGTCATCATGCTCGGCGGTGAAGCCATTGAGCATGAGAATTTCTCCAGTATCGTTAATGATATC -GGGTTGTTGCACAGCCTCGGCATCCGTCTGGTGGTGGTCTATGGCGCACGTCCGCAGATCGACGCAAATCTGGCTGCGCA -TCACCACGAACCGCTGTATCACAAGAATATACGTGTGACCGACGCCAAAACACTGGAACTGGTGAAGCAGGCTGCGGGAA -CATTGCAACTGGATATTACTGCTCGCCTGTCGATGAGTCTCAATAACACGCCGCTGCAGGGCGCGCATATCAACGTCGTC -AGTGGCAATTTTATTATTGCCCAGCCGCTGGGCGTCGATGACGGCGTGGATTACTGCCATAGCGGGCGTATCCGGCGGAT -TGATGAAGACGCGATCCATCGTCAACTGGACAGCGGTGCAATAGTGCTAATGGGGCCGGTCGCTGTTTCAGTCACTGGCG -AGAGCTTTAACCTGACCTCGGAAGAGATTGCCACTCAACTGGCCATCAAACTGAAAGCTGAAAAGATGATTGGTTTTTGC -TCTTCCCAGGGCGTCACTAATGACGACGGTGATATTGTCTCCGAACTTTTCCCTAACGAAGCGCAAGCGCGGGTAGAAGC -CCAGGAAGAGAAAGGCGATTACAACTCCGGTACGGTGCGCTTTTTGCGTGGCGCAGTGAAAGCCTGCCGCAGCGGCGTGC -GTCGCTGTCATTTAATCAGTTATCAGGAAGATGGCGCGCTGTTGCAAGAGTTGTTCTCACGCGACGGTATCGGTACGCAG -ATTGTGATGGAAAGCGCCGAGCAGATTCGTCGCGCAACAATCAACGATATTGGCGGTATTCTGGAGTTGATTCGCCCACT -GGAGCAGCAAGGTATTCTGGTACGCCGTTCTCGCGAGCAGCTGGAGATGGAAATCGACAAATTCACCATTATTCAGCGCG -ATAACACGACTATTGCCTGCGCCGCGCTCTATCCGTTCCCGGAAGAGAAGATTGGGGAAATGGCCTGTGTGGCAGTTCAC -CCGGATTACCGCAGTTCATCAAGGGGTGAAGTTCTGCTGGAACGCATTGCCGCTCAGGCGAAGCAGAGCGGCTTAAGCAA -ATTGTTTGTGCTGACCACGCGCAGTATTCACTGGTTCCAGGAACGTGGATTTACCCCAGTGGATATTGATTTACTGCCCG -AGAGCAAAAAGCAGTTGTACAACTACCAGCGTAAATCCAAAGTGTTGATGGCGGATTTAGGGTAAGCGATGAAAATCGTC -GGATGCGACATGCGTAACACTCGTACGTCGCATCCGGCAATTACGTTTATTCCCGTGAACTAAACAACGCCGCCAGACCA -CTGCGCCGCTCAGTACGAGTGGCGATTGCCGCACTTAATATGCGCTCATCGGCATACAGCGACAGACGGCGACGCGCGCG -GGTCACCGCGGTATAAACCAGCTCTCGCGTTACTACCGGCGTGCGTTGGCTCGGCAAAATCAACGCCGCATGGTCGAACT -CCGATCCCTGCGATTTATGTACCGTCATCGCCCACGTAGTTTCGTGCTCTGGCAAGCGACTCGGTTGCACAGACTTAATA -TTGCCGTCCGGCATCGCAAACCAGACGCGCGTCCCCTGCCCGCGATCCAGCGCAATACCGATATCGCCATTAAACAACCC -AAGCGCGCTGTCATTACGGGCAATCATCACCGGTCGACCTTCGTACCAACGAGAGTGCGGATGACGATGAATTTTGCGCT -TCTGTTGCATAAACTGCTCAATTCGCTCATTCAGTCCAGCCACGCCAAACGGCCCTTCCCGCAGGGCGCACAAAAGCTGG -TACTCATTGAACGCCTGAATGATTAAATCCGGCTCGGCACGCGCTTGCAGCAGATCCAGATAACGTCCGTAACCCGCAAG -AGCTTCCTCAAGCATCGCAATATAATCTTCGCCGCTCTGTAAAAGCCGTTTTTCGATATCAGTAAAATCCTGCTGAAAAA -CGGTTTTCACTGCCGTTTTATCACCACGGTTGATCGCCGCAGCTAACTGACCAATGCCAGAATCGCTGCCGAAACGATAG -CTTTTTTGCAGCAGGCAGAGACTGTCGCGCAAAGATGCCGCTTCTGTGCCGGTTCCTGCCGGAACGTGAGTCCCCGTCAG -GCGGCTTAGCTGCCTGGCACGCTCGGCGGTAAAGCCCGCGTTGGCATAAGCGCAGATATCGCCCAGCACAGCCCCAGCCT -CAACCGAGGCCAGTTGATCACGATCGCCGAGAAAGATCACTCGCGCATGATCGGGCAAGGCGTCGATCAGTCTCGACATC -ATAGGCAGATCGATCATTGACGCTTCATCTACCACCAGCACATCAAGATGCAGCGGGTTACCGGCATGATGACGTAAACG -CTGGCTACCCGGCTGCGCGCCCAGCAATCGGTGCAAAGTGCTGGCATCTTCCGGAATGCGTTTCTTTTGTTCATCGGTCA -GCGGTAACTGTCGCAAAGCCTTGCCGAGAGATTCGGTTAAGCGCGCGGCAGCTTTACCCGTTGGTGCAGCCAGACGGATA -CGGCAGCGTTCGCCGTCGGCCATTTGAATTAACGCTGCCAGCAACTTCGCTACGGTGGTCGTTTTACCGGTGCCAGGGCC -GCCGGAAATCACCGAGATCCGCCGCGTCAGCGCCACTGCCGCCGCAACTTTTTGCCAGTTAATTTCATCGCTTACTGGAA -AAAGTTTGTCCAGGGTTTGCGCCAGTAGAGCTTCATCAACCTCAATGGCATGATTCACTTCGTTGAAAAAGCGTGCCACT -GTGCGCTCGTTACACCACATGCGATTCAAATAAAGACGATCGCCACAGAGGATCATCGGCGTGGGTTCATCTCCCCTGCT -GACCGCTTGAGAAGCCAGCAAGCATTCTTCCCAATTTTGTAGCTCACCGATTTCACTGACACAGGTCGCCAACAGCGGAT -GCGACGCCTCGTTATTTTCCAGTCGTGAAAGCGGCAAACAAACGTGTCCCTCTCCGGCATCATGACTTAACAGTGCCGCC -GCGAGGGTGACGGCAGGATGTTCATCTCCCGCCACGGTCAGGGCAAATTGCACATCCAGCGGGCGTAGCTGTTTGTGCTC -CACAGCTTCCAGTAATTGCTTTTGCAATTTCATTACGCCTCCTCCAGGGTCATACCGGCAAACATCTCATCCATCAGGGC -AATCAACCCGGCGTTGGGTCGGGTTGTGTAAATCCCCTGTTGCGGATGTTCTTTATCAACGCCACGCAGGAACAGATAAA -TAACGCCGCCAAAGTGGTGCTCATAGTCGTAATCAGCAATGCGATGGCGCAGATAACGATGCAGCGCCAGGGTATAAAGC -TGATATTGCAGATCATAGCGGTGTGCCTGCATTGCCGCTGCCATAGCCTGTTGGGTGTAAGCCGAACTGTCTTCACCCAA -CCAGTTGGATTTATAGTCGAGCAGGTAATAACGCCCTTCGTGGCGGAACACCAGGTCGATAAAGCCTTTTAACATGCCAC -GTACCTGCATGAACTCCAGCGGCGGGCAGCCTGCGGATAGCGGGTCAAACTGGCGGATTAACGTATCAAGCTGACTGGCG -ATAAGCGGTTCACTAATCGGCAGATAAAACTCCATCTCCACCTGTTTATTGCGGGCGGAAAGTTGACTCAGGCTTACGCC -GGTTTCATTGAGAGGTGCCTGGAGGACAGCCGTGATCCACTCGGTCAATACCGGTTCCCACTGCGATTCAAAGCCGCCGA -GTTCCAGTTTTTCCCGCACCCAGTTCGGGTCAACCGGCTGGGTAAAATCCAGGTCTTCAAACAAACTGTGCAAGAACGTC -CCCGGTGACGCACCGCGCGGAAACTGATGTGGTGTTAACGTCGGTTCTTCAACGACGCTGGCAACGCCTGCAGCATCGAC -ATCCAGCCGAGGCATCAAATCCTGGGCGATACCGTGACCACGCTGTTGCAAACCAGAGTAGCTGGTGACGCGCCAGTTAT -CGCCGGGCAATCGTTGTAACGTCTTCGCATTCAGCTCTGCTGTAGAAACATCATTAACCTGCCAGGGTTGGTTATCACCA -GTTTGTGCCGTTTGCCAGGCAATATCATCATCGCATAACGCTTCAATACAGGTGCGAAGCCCTGCCGCATCTTGCGGTTC -CCCTTTTTGCAGCAAACGCCCGAGCGCACTTTGGTGGACGTCGGTGTCACCTTTTTTATCGCCACGACGGCGCACCAGCG -GTGCAACGCCGAGACTGCAATGCCAAACCGAACGTGTCAGCGCCACGTAAAGCAAACGCAGATCTTCCGCCAGACGTTCG -GCCTCCGCGAGGTCGACGCTTTCTGGCGCAGCATTAAGATCCAGAACTGCCTCAAACGAGTGGCGATCGTGATAAAACGC -CTGCTCCTGGACGCGGAAATTGGTGATAAACGGCAGCCAGACCAATGGATATTCCAGCCCTTTCGATTTGTGGATCGTGA -CAATCTGCACCAGATGTTTATCACTTTCGAGACGCATTTGTTGGCTGGAGGCATTACTGTCTGGCTCGAGGATATGTTGC -GATAACCAGCGTACCAGCGCATGTTCACTTTCCAGCTGCGTTCCGGCTTCTTGTAGCAGTTCGCTGATATGCAAGATATC -GGTAAGACGCCGCTCACCGCCTGCCGTTGCCAGCAAGTTTTCAGCAATGTTACGCGCCGACATCAGCGCCCGCAGCATCG -GCATAACGCCACGTTTGCGCCAGATTTGCCGATAACCATCGAACTCTTCGACTACCACATCCCACGCATGTTCGTCATTG -TTCAGCGTTTCGATATCCAGCGCGTTCAGCCCCATCATTGACGTTGCCAGCGCACTACGCAGGGTGTTCTCACGTTCGGG -CGTCATCACCGCCTGCAACAACCAAAGCATTTCCTGCGCTTCCAGAGTTTCAAAAACACTGTCGCGGTTCGAAAGGTAAA -CGGAAGGGATTTCCAGCAACGTTAAGGCATCGCGCACCTGGGCGGCCTCCTGGCGGCTGCGCACCAGCACACTGATGTCC -GAAGCACGCACCGGACGCGCGTCGTCGCCGTTCATCAGCAACGCTTCGCCCCGCTGTCCGGCTTGTAGCCAGTCGCGGAT -TTGCGCAGCACATACCTGCGCCATGGTACTTTGATAATCGCCAACGCCGCAGCTTTCGCCTTCCATCAGCCACATTTTCA -TCGCAGGCTGTGTTTCACCTTTAAATACAAAACGTAACGCCTGATTTTTCCCGGCTGATTTCACTGGAATAAACGGTATT -TCGCGAAACATGAACGCGTCATCAGTCTGGCTGAAAAGCTTATTCACGCTGTTCACCATTCCTGGTGCGGAACGCCAGTT -GGTGTCTAAAGTGTAGTGGGCGTGAACTTCGCTACGCGCCTTCATATAAGTGAAGATATCCGCACCCCGGAATGCATATA -TGGCCTGCTTCGGGTCGCCAATTAGCAACAATGCGGTTTCCGGCTGATGGTGCCAGATACGGCGAAAAATTCGGTACTGC -TGGGGGTCGGTATCCTGAAATTCATCGATCATTGCCACCGGGAATCGCGTACGGATCGCCGCTGCCAACACCTCACCGCT -TTCGCTACGCAGCGCGGAATCGAGCCGACTTAACATGTCATCAAAACCCAATTCGCCACGGCGGCGTTTTTCACGCGCTA -CTGTTTCGCGGATCTCAGCCAATGCGCGGGTGATCACCAGATCGCGGATCGACAATGGTTCTGCAAGCAGTTGATCGATC -GCCTCAAACAGTGGATGTCGCGGGGTTTCCCCCCCGGCCTTCGTGCGATCTTCTAAGAAACGCTGGGAGAATTTTTCCAG -CGACTCCGGCAACTGATAACTGTTTGTCTCTTCTTCTGCCCAGGCGCTGATCTTGTCGATCCATTTAGCCTGATTGCTAC -GGTTAAACTTGCGTCGATCAATACCAGAAGATTCGATCAGCGCATCCAGTTCACCCACTGCGTCGCGCCACTGCTGTTTT -ACCGTATCAATACGCGCCACAATTTGCGCGTGACGGGAAGCCAGCGTTTCATCATCGGGCGGCGGTGCTTTGATAACCGG -CGCTTCGCCTTGCAGATAACGATTAATATCGCGCAGCAACGCCTGCGGCCCTTTCCAGGTTTCAAAGACGACCTGGGCTA -TTTCACGCGGCAGCGGGTAGCAGTGGCGACGCCAGAAATCGGCGCAGGCCTGGTAGCGTAGCAGAGACTCATCTTCAATC -AGCTGCTGCTCAAACAGCATGCCGGATTCAAAGGCATTCAGGTTGAGCATGCGCTGGCAAAAGCCGTGAATAGTAAAGAC -TGCCGCTTCATCCATCTGCCGTTCGGCTAACAACAACCACTGCGCGGCTTGCGCTTTATCGTCGATCTCTTCCAGCAGGC -GTTCGTACAGTGGATTGTCGGTGGTTTCACGCAGACAGGCGATGCGCAACTCGTGGATATTGCTACGGATACGACCGCGC -AATTCTGCCGTGGCAGCCTCGGTAAAGGTGACCACCAGCAGTTCTTCAACGGTCAGCGGGCGGGGAAAGGCGGCGGAACC -GCCTAGTCCAAGTAACAGGCGCAAATAGAGCGCCGCAATCGTAAAGGTTTTGCCTGTGCCGGCAGAGGCTTCAATCAGGC -GCTCACCCTGTAAGGGCAAGCGCAAAGGATCTAGTGTCTCGGCGACATCACTCATTCTTTTCACTCATCAGGGGCATTGT -TTGCTGCAACGCGCTGACGTTCTCCCACACTTTCCAGCCTTCAGGGTGTACATATTCGGCTTTCCCGTTCTGGCTGCCGG -AAATCTGCGACAGAATAGCCATGCCTTGCGGCTCGACCACCGCCTGATGGAAGAAATCAGCAAGTTTTTGCGGCGTCAGC -AGTTTTATCTGGGCCACGATTTTATCACGCGAATCGAAGCGCATATTGCCGCGATCGAAATCTTTACTTAACTTCGATGC -TTCTTCGCCGAGCGTTTGCGGTGCCTGCAGCATCTGGGTAATTACCGCCTGCTGGATTTGCGCAAACTCATCTGGCTTCA -TCGCTCGCAATTTTGCCTCTGCGGTTGGGAAAAACGCCTTGTAACGCTCCCACAAGAATGAAGGCTGTTTATCATTGCTT -TGCAAAAGGAAGCCCATGCCCCACTGACGCCCCACGCTCATTGGAAACGCAAACACGGCATAGCCCAATTGTTCTTCGGT -ACGCAACTGATTGTAGAACCACGGCTGTACGATCTGCCCCAACAGAGAGCTATAGGCTGAGCTGGTGTATTCATCGTAGC -CAGTCGGTACAAATACCGCTGCCAGTGCGGAGTCGGTGCTGTTACCGGCTTTTTCAAAGATGACGGATTGTTTTTTATCG -ACCACTACATCTTTGTTTCGACACCACTCTGAACCATCAGCGCCCAACTGTTTTTGCACATCGCGTGCCAGCGTTGTTGC -CTGGGCCTCGGTCATGTTGCCGATAACCATAAACTCTGGTCGAGCCCCTGATTTTAAGGCGTCGCGATAGGCCAGCACCT -CTTTCAACGTAATGGAGGGCAAAATTTTACGCCGTTCATCTCGCGAGAAGTACGGCACTTGCGAGAGCATCTGCGCGGGC -ATAATCGCCTGCTCAAACGCTTTACCCTTTTCTGCGGAATCCATCATCTGGTTATACCAGGACTTCGCCTGCTCAAGCTG -ATCTTCCGTAGCGGTATAGCTAAAGTACCCCTCGAGCAATGCCTGGAACAGCTGCGGCAGACGCTGGGTGTAACCATTAG -CATTAACCATAAGGCCGTTGTTAGCGTTGGTGGAAAAACTTATGCCACCAACCGACGCCTGGTTGCTTAACTGATCAAGC -GCCAGCCCTGCGAGATAATCATTGAGCGCAAACATCACCTGATTGCGGGCGCTGTCCATGGCTTTCGGATTACGCAAAAT -CAGGCTGACATCAGCTTTGGGCTCGCTGGCAAAATAACGGCTTGGCGCATACACCACGCGCAGATTCGACTCATCAACAA -TCAGCTCTGGATGGTCGTATTTCTTCTCTGACTTAATCAGCGAGAAATCATCAGGAATATAAGGGTTAAGCTCTGGCAAA -GAGAGCGCAATGTCGGCGGCTTTTTTCTGCCAGTCGGCGAAAGTTTGTGCGCTGATTTTATCGACCTGATACGGCGCATC -GACAAAGTAAGCCGTTTTGTTGTGCGGCTCTTTCGGGCTGATATACCAGATACGCGCATTCTGCGGCGTCATCATCGCCA -GACGTTCCTTTACTGCTTTAGCATCGTACCGATCGGCAATATTGACTGCATCCAGCGTATGCTCAACAGGAACGCGAATC -ATGGTATCTGCCAGCCATTCGACGTAATCCATATCACGGGTGATCGACGGATAACGGAAGTCGATATCCAGCACATTCGC -CAGTTCATCGAAGTATTGTTTATCAATGCCTTTTTCACGTAACAGATTGAGATAGCTAAAAATTGCCGCCACAACCTGAT -CGCGATTAGCCAGGCCTTTATCGGTTAAAGACGCAGAGATCGCTAATACGCCGCTGTTGCCGTTGACGATAGGATCGGAG -TTGGCGCTAATGCCCTCAACTAATCCCTGCTTTTGCAGCCAGTCAGAAAGTGTACCTGGGCTGCGATTGCCAATCAGATA -GGTAATCAATTCATCGGTTTTACTACGGAACTTCGCTGAGTTGTTATCGATGCGAAACTCAACGCGCAACACTTTACGCG -GCAGCGCAGGGACGTAATGAATGATAATGCCCTTTTGCGCGTCGGTGACTACCGGCACGGTGATTTCCGGTTTTTTGCTC -TCTTTGTTCGGCACGCGACCAAAGGTGTCCGCCGCCATTTTTGCCAACTCCGGCAGCGGTTTATTACTGTAAATAACCGC -CTTCATCAAATTGGCGGAATAGTACTTCTCGTGGAAATCTTTCAGCGCCTGCTGCACCGGATTACCAGGTTTGTCGCTTA -AAGTTTCGAGGTTACCACCAGAAAACTTTGAACCGGGGTGTGCCGGGTTAATGGTTTCTGCGCTGACCTGTGCCATGCGC -ATCCCGTCACGCGTACGCGCCATGGTTAATTCAGCGTTCACCGCATTACGCTCACGTTCGGCATATTTCTTGTCGAGCAA -AGGTTCAGCAATAGCATCGGCCAGGCGGTCTACCGCACCAGGCAAGGCGTCGTTCTCAACTTCCAGATAGAAAGCCGTGC -GATACGGCGCAGTGCTGGCATTGTGACTACCGCCGTGCATTTTGAGATATTCGGCCAGACTGTCAGCCTGCGGGTACTTT -TTCGACCCCATCAGACTCATATGTTCAAGGTAATGTGCCAGCCCCTGGTACGCCTCGGGATCTTCCAGCGACCCAACGGG -CACCACCAGCGCCGAGAGCGATTTAACTGCCTGCGGATCAGAAACCAGCAAGACCACCATACCGTTATCCAGACGTATAG -CCTGATACTGGCGGTTATCTTTATCACTTTTACGGATGGTTTCCTGAATCGGCTGCCATCCCGTTTCTGCCTGACTTAAG -GGTGCCCAAAGGGCAACTAACAACAATAATGCTTTGAACCAGGTGCTGCGGGGCATTCACGGACCTCATAATCAACTTAA -TTTTCTGTCCAGATTCAACACGTTAACGCAAATCATCTGCCAGAATTTAATCTTGTGCTGCACGAGTCAGCCTATGTTTA -TATAACCATCAGTCCGTGACTGGTGCGCATCATAAAGTAAGCGGATAGATTGCGCAATTTTTATACAGCACTCATGACTG -ATTAAAGCGAAACAGCGGTAACAGGAAACGTTGCGACTGTTCAACGATGGCCTCCATTGTCTCTGGTGTTAATTGCCGCC -AGAGCCTTTGATACCAGATATCATCACCTTCGCCACGCACCATCATGTTGCCTTCGTAAGCCTGAAGGAATTTCGTACGG -GCTTTTTGCAACGTGGAATCGTCATCCAGCATGGCATCGTTTTGCGCGTCATAACAGGTTTTTAGCCACGCGCCGCCACT -TTCAGGTAACACCAGCAATGGCGCGGACATTCCTTCACGATACCCCTCAATCAGTTGTGAGAGGTAATGCAAAGCCTGTT -CGGCTGCAAGCGGCGGAAAACGCCACTCGCCGTCTTTGCGTAGAAAAAGGCGACTTTCACCATTACCACCGCTGGCACAG -TAGACAAGGTGTTCCAGCCAAAGTTGCATTCCCTGGGCCACACTTAATAAAGAGGGACGCCAGCGCAACAGGCCATCCGG -CTGCACCTGCGGCAACCAGCCAGTTATCTGCACACCGTTGCAGGCGAGATCAATTTCCATACTCTGCCCCGGCTGGCGAC -AGGCAATGACTCTGTCGGCAAGCTGCTGCATCTCCTGGCACTGTGTTTCCCAGAAAATTTCACCAAAAGCGCCATACGGT -AAATCCCCTGCCGCTCGGAAGCGGCGGAACAAGCGTTCGGCATCATCCTGCTCAACCAGTGCATTCAATAACTGCTGATT -GATTTGATAACGGCTAAGTCCTTCCAGAATAAATGGCTCGGTGTCGGGGATTTCGCTGTCTTCAGTACGGAAGTTCACCT -GCAAACGCATCTGGAAAAATGCCCGCACCGGATGTGCCCAGAATCGTTGTAGCGTTTCCAGCGGCACGGTTTCCGGTAAG -GTAAACGGCAGCGGCTGAACAAATTCAGAATGTGCTTTACCAGCCTGGCTGGCCGCAGGTAGCCATTCACGAGCATAGCT -TTGTCGTTCGCCTGGCTGGTAGTTTTGTGGATCAAACGGCATCCGGGTATGGAGGCAAGTAAGATGCGCTTTTACCCTTG -CCTCGCTTTCATCACAGTTGAGCGCTTCATCGCCCGGTAGATAATGACTTTGCCCGATGTAGTCGATCAGTTCCTGCACC -AGTACCGACGGGAAACGCTCACTGTTATCCTGAATGGAACGACCGATATAGCTGATATAGAGTTTTTGCTGCGCGGAAAT -TAACGCTTCCAGGAACAGATAGCGGTCGTCATCGCGACGGCTACGGTCGCCACGCTTCGGTTTCTGGCTCATCAGGTCAA -AGCCCAATGGCGCAAGCTGACGTGGATAAACGCCGTCGTTCATTCCCAGCAGGCAAACCACTTTGAACGGAATTGAACGC -ATTGGCATCAGAGTACAAATGTTAACCGGTCCGGCGAGAAAACGCTGGCTGATACGTTCTTGATCCAGACGCTGTGCCAG -TTCATCACGCAATAGTGACAGCGGCACCGCGTCGCCATACTGCGCACCTAAACCTTCGGCGATAATCGCCTGCCATTGTT -GTTCGATCAGCGTCATCGCCGCTTCGGTTTCCGCATCCGGCAGGAAGAAGGCGTTGAGCATATCGCGACAAACCGGCAAC -CACTCTTCCAGCGGACGCTCCTGTGCCAGCCCGCGACGCCAGATGTTTAGCTGCATTAGCAGTGAAGCCAGATGCCCCAC -CAGTTCTGCAATTAAGCCGCTCGATTCATCATAAGGTAGAACCGATTGCCACTCGCCCTGCGCGCTCTCCATCGCGTAGC -CCAACAACATACGCGTCAGGCCAAATCGCCAGGTGTGTTGTCCGGTGGCGGGGAGTTCCAGCTCGCGAACGTTGTCGTCA -TCTATGCCCCAACGAATGCCGGATTCGTTGACCCACTGGCGTAAATAACGCAGCCCTTCTTCGGTGATGTCAAACCGCGC -CGCCAGCACCGGCACATCCAGCAACGCCAGCACATCCTCTGACACAAAACGACTGTCAGGCAGTGATAACAGGCTGATAA -ACGCTTCCAGTACCGGATGTGACTGCCGCGCACGACGGTCGGAAATGGCGTAAGGTAGGTAACGATCCGCAGGTGCGCTA -CCAAACACAGCCTGAATAAACGGACTGTAGCTGTCGATATCAGCCACCATCACGATGATGTCGCGCGGAGTAAGTGTCGG -GTCTTCCTCCAGCATCGCCAGCAGGCGATCGTGTAAAACTTCAACTTCACGCTGCGGGCTATGGCAAACGTGGAAGGTGA -TACTGCTATCCAGTGGATCAAGCGGGCGTTTGTTATCGCTACGGGAAAACTCTTCGATGTTCACACCAGCAACGGCGCGG -TTTTCCAGTTCCAGAATGTCAGACTGAATGTTATGCAGCAGGTTATCTGGCGTGACATCGACAAAGGCGTCCAGCTCCTG -GCTGCTCTCCAGGTCAGAAAGGAGATAAATGTAGTCGCGCCCAAGCTTACCCCATGAAGCCAGCAGCGGGTTGCCGACAT -CCTGTTCACCATCGCTGTTAAAGAGCTGCCCGGCATTTTCGCTATCACGAAATAGCGGCAATTCGCGATCTTCAAAACTG -TGTCGACGCTGACGGGTCAGCAGTTTCGCCAGATAAGCAGGATCTTTAATATCGCCCCAGTAATAACGGCAGGGGTTGGT -AAACAGGAGATGGATTTCAATATGTTTACCCAGCGCCTGTAGCGCCTGGAGATAAACAGGCGGTAACGCGGAAATACCGC -ATATAAAGACGCGCGAAGGTAACCCCGGCGGGCAGGTCGTCGCGGACTCCAGCGTTTCGATAAAGCGCTGATAGAGATTG -GCGCGGTGCCAGCGCGGTTGCCCGAGTTGATGGGTATATTCCACCAGCGCCTTCCACAACGGGGCTTGCCAGGCCTGTGC -TTCTCCCAGCCCTTCAACCAAATGTCCTGTTTCCCACTGTGCCAGCCAGTCCGGACGATAGACCAGATACTGGTCAAACA -GGTCCGCCGCTTTTGAGGAAAGCTGGAACAGTTTTCGCTTGTCGCTATCGTCAGTCAGATAATGCCGCAACAGGGTAAAG -TCTTCGCGCTCCAGCAATTGCGGCAGCAGAGTCATCAGTTTCCAGCTCATGCTCTGTTTGTTAAAGGCGCTCTCTTTGGG -GATTTCCGGTAACACCCGGACGAACATATCCCAGATAAAGCTCGCTGGCAGCGGAAAATCAATGTTTGCCGCAATACCAA -ACTTTTGCGACAGGGTCATTTGCAGCCACTGTGCCATACCGGTACTTTGCACCAGAATCATCTCTGGTTCGAAAGGATCG -TCCAGCCGTTCGCGTTCGACAATAAACTCCATCAACGCTTCCAGCACGTCCAGACGATTGGAATGGTAGACCCTTAACAT -AGCGGCTCCTGACTACTGACGATTCGGGCAATGCAGGCGGGTCATCTCGCCTTCTCTGCCCCCGGGTGAAACTAGCGTAA -CGCTGATGCTGACACATCCCGCCTGCGATGTCTGCATTCGGTTGACCTGCCAGTTGGCAGGTGGCGAAATCGCGCGCAGT -TGCGTTTGCTGCCAGCCATGCCGCCAGAGCTGTTGGTACTGGTTTCTGCTGGCAAGACTGTTCATTAATGTTCGCTGGAA -ACCCGATAACGCAGTGACAATCATCACCATCAACACCATCGCCAACATTACCTCCGGCAGGCTAAAGCCTTGTTGATTCT -TCAGGGAAGCTGACATAACGCCCTCTCTTTCAGCGGACAAAAATCGCTCCAGCCGCGTGGCGAAAAAACAATGTTTCCAT -CAATGACTTCGCCTGTTCGCCACAACGAAACGCCTTCATAACCGGCAATCAATAAGGCTTCATTATCTGCCAGTAAACGC -AAACAAACCTGGGCATCGGTTTCAGCGTACTGCGAGCACTGAACTGCTGGCTGCGTCTGCCAGCAGTGCATTTTTCCCCA -CGCCAGCGCCGACTGAACGATGGCCTGGCGGCGCAATGACTGACTTTCCATGCTCACGCGAGAGGCAAAACTGCGATCCT -GTTGGCTCATTCCTTGTAATAGCAAACTACCCAAAACCAGCAGCATCAGGACCAGAGCCAGTGACGAAACACCCTTTTCG -CGGTTCACAGGTTGAATCCTGTCACGCTATAGCTGGCATTCACCACGGTTTGCGGTTCAGACTTACTGGCAGCACGCATA -TTAACCGTCAACACCGGCGAGAAGCCGCTGACATCCTGACGTACGACCTGAAAAGTGTCGATAATGATGGCATCCGGATT -AGTGACTTTATCCCAGCCCTTACCTTCACAGGATGTCGCACCGCGTAGCGTTTCCAGCACATGCTCCTTCAGACGAAATC -CAATCTGGTCGGACTCTTTTACCGGTTCGCGATCCCAGATACCGTTACTGTTCGCATCCCACTGCACAATGACACAGTCA -CCCTGTCCGACAATTTCCAGCCCTTCGCCGGTACAGATGCCATGACAATAACCCGCCCTCTGGAGATGCTTCGCGACGGT -AAATACCCGCAGCCAGATTTCATCTTCCAGCGCCAGCTTACGGGTGCTCGTTAAACTTTCACGCTGTAACGCAGGCAGAA -AGCGTGCCGCCCCCAGCAACAATACGCTACTGATCGCCATAGCAATCAACACTTCCAGCAGAGAAAAACCTTGCTCTTTT -ACAGGCATCCTTCTGTTTCTCCTTGCTGACAAAGCCGGAGTCTTCCCCACGGCGAAACCACCAGCCACCACTCGCCCGTT -GAGTTTTTGAAGCGAATATGCCCGGCCCATGCGGTATTGCGCAGGCCAAAGAAAGCAAGCGAAGGTGTCAGGTCGCTCAT -TTCGACTTCGGGCCAGCGTGGCACAAAGACCAATGGTGAACTGCCATGACAGGTATTGGCCCCAGCAGCGGAACTCACAA -GGCACCATAACGTCCCCTCCCTGATAACGCTGATACTGTGGTCGCGGTTATGCCAGTTGGCATCTTCACGTAAATAGAGC -AAATAGTCCCGCGCCTGGCTGGCGGTTTGCCATAGCCGTTGCGACTGCTGCCAGTATTGCCAGCCATAGAGTCCACTTGC -GCTTAGCATGACCAAAATCAGCATCGCGACCAGCGTTTCAATCAGCGTATAACCACGTTGTGTTTTCATGCCGGCAGTAT -GGAGCGAGGAGAAAAAAAGACGAGGGCCAGTTTCTATTTCTTCGGCGCATCTTCCGGACTATTTACGCCGTTGCAGGACG -TTGCAAAATTTCGGGAAGGCGTCTCGAAGAATTTAACGGAGGGTAAAAAAACCGACGCACACTGGCGTCGGCTCTGGCAG -GATGTTTCGTAATTAGATAGCCACCGGCGCTTTAATGCCCGGATGCGGATCGTAGCCTTCAATCTCAAAGTCTTCGAAAC -GGTAGTCGAAGATGGATTCGGGTTTACGTTTGATAATCAACTTCGGCAGCGGACGCGGTTCGCGGCTTAATTGCAGATGA -GTTTGATCCATATGGTTGCTGTACAGATGCGTGTCGCCACCGGTCCAGACAAAATCACCCACTTCCAGATCGCACTGCTG -CGCCATCATATGCACCAATAACGCGTAGCTGGCAATGTTGAACGGCAGGCCGAGGAAGACGTCACAGGAGCGCTGATAAA -GCTGGCAAGAGAGTTTGCCGTCTGCCACATAGAACTGGAAGAATGCATGGCACGGTGCCAGCGCCATTTTATCCAGTTCG -CCTACGTTCCACGCTGAAACAATAATGCGGCGCGAATCCGGGTCGTTTTTCAGCTGGTTCAGTACCGTAGTGATCTGGTC -AATATGACGACCATCTGGCGTTGGCCAGGCGCGCCACTGTTTACCATACACTGGCCCGAGGTCGCCGTTTTCATCGGCCC -ATTCGTCCCAGATGGTGACATTGTTTTCGTGTAGATAAGCAATGTTAGTGTCGCCCTGCAGAAACCACAGCAGTTCATGG -ATGATGGAACGCAGGTGGCAACGTTTAGTTGTCACCAGCGGGAATCCATCTTGCAGGTTAAAACGCATCTGATGACCAAA -AATGGAAAGCGTTCCGGTTCCGGTACGGTCGTTTTTCTGTGTGCCTTCGTCGAGCACTTTTTGCATCAGTTCTAAATACT -GTTTCATGGTTCCTCAGGAAACGTGTTGCTGTGGGCTGCGACGATATGCCCAGACCATCATGATCACACCCGCGACAATC -ATCGGGATGGAAAGAATTTGCCCCATGCTGATGTACTGCACCCAGGCACCGGTAAACTGCGCGTCGGGCTGGCGGAAAAA -CTCAACAATGATGCGAAACGCGCCGTAACCAATCAGGAACAAACCTGAGACAGCTCCCATTGGGCGTGGTTTACGAATAT -ACAGGTTGAGGATAATAAACAGCACCACACCTTCCAGCAGCAGCTCGTAAAGCTGTGATGGGTGGCGCGGCAGCACACCG -TAAGTGTCGAAAATGGATTGCCACTGCGGGTTGGTTTGCAGCAGCAAAATATCTTCTGTACGGGAGCCAGGGAACAGCAT -GGCAAACGGGAAGTTCGGGTCAACGCGGCCCCACAATTCACCGTTAATAAAGTTGCCCAGACGCCCGGCACCAAGACCAA -ACGGAATGAGTGGTGCGATAAAATCAGAGACCTGGAAGAAGGAACGTTTAGTACGGCGGGCGAAGATAATCATCACCACG -ATAACGCCAATCAGGCCGCCGTGGAAAGACATGCCGCCGTCCCAGACACGGAACAGATACAGCGGATCGGCCATAAACTG -CGGGAAATTGTAGAACAGAACATAACCAATACGTCCCCCGAGGAAGACGCCGAGGAAGCCCGCATAGAGTAAGTTTTCAA -CTTCATTTTTGGTCCAGCCGCTGCCCGGACGATTCGCCCGTCGTGTTGCCAGCCACATTGCAAAAATGAAACCCACCAGA -TACATCAGGCCGTACCAGTGAAGCGCCACGGGTCCTATTGAGAAAATGACCGGATCAAACTCCGGAAAATGCAGATAGCT -ACTGGTCATCTGTCACCACAAGTTCTTGTTATTTCGCTGAAAGAGAACAGCGATTGAAATGCGCGCCGCAGGTTTCAGGC -GCTCCAAAGGTGCGAATAATAGCACAAGGGGACCTGGCTGGTTGCCGGATACCGTTAAAAGATATGTATATGATCCGCGC -TATAACCCTCCGCGAATCAGCCCGCCCATGCCGCGACGCTCCATAAAGGCTGCAACCTGATGGCGAACTTCGGTCGCCAG -TTGCGCTTCCAGACTACGCTGCGCAAGATTTTCTGCTTCGGCATAATCAATGCGCCGCAGCAGGTATTTTGCCCGCGCTA -CAGAACGTCCGTTCATAGACAGATGGCGATACCCAAGCCCAATGAGGATTGCCACGCACATGGGATCGCCCGCCATTTCA -CCGCACAAACGGAGATCGATTCCATGTATTTCCGCTTCCCGGGCGATCATCGCCAGAGCTCGTAACATTGCAGGATGAAG -ACTGTCATAAATGTTCGCCACCCGGGTATTGTTGCGATCAACGGCCAGAATGTATTGAGTCAGATCGTTGGTGCCAACAG -AGATGAAATCGACCCGCTTTGCCAGATGCGGCAGCATAAATACCATTGACGGCACTTCCAGCATGATGCCGATACGTGGT -TTGGGAATTTCGTAACCGATCATCTCCTCGACTTCACGTCCGGCACGTTCAATCAGGCGGCGTGCTTCATCAACTTCATC -GAGGCTTGTGACCATCGGCAACAGAATATTCAGGTTGCCCGTAGCGGCATTAGCACGCAGCATCGCCCGCACCTGGATCA -AGAAGATCTCCGGCTGATCGAGCGTAATGCGAATCCCACGCCAACCCAGGCATGGATTCTCTTCGCTGATCGGCATGTAA -GGCAGCTGCTTATCTGCTCCGACATCCAGCGTACGCAAGGTGACGGGTTTATCATTGAACATTTGCAGCATCCCCTGATA -CTGCGCCACCTGTTCTTCTTCCGACGGGAAACCACTTTGCAGCATGAATGGGATTTCAGTGCGATAAAGACCGATGCCAT -CAATACGGCTGCCCAGTTTTTCTTCATGTTCCGGGCTTAAACCAGCATTGAGCATGACTTTTATACGCTCACCGCTTTTT -AACTGCGCGGGTAAATTGACGTCATCTTCCGCCAGACGGCTAAGCTCAATCTCTTCACTAATTAGCCGCTGATATTCTTG -CAGCAGTACCGGCTCCGGATCGACCAGCAATTCACCGCGATAGCCATCAACGATCAGCGTCCTACGATGCAGCACCGAAG -GCTGAATATCCGCGCCCATCACGGTAGGGATCCCCAGCGCACGTACCATGATCGCAGCATGGGAGTTGGCTGCGCCATCT -CGCACGACAACACCGACTAAGCGATCCTGGGGCAGCTCAGCAAGCGTTGTCGCTGACAGTTCATCTGCCACCAGAATGAA -ACGTTCCGGCCAGGCGTTCGGCCCTTGATTAGCGTCATCAAGATGAAACAGCAATCGCTGACCCAGCGCACGTAAATCGC -CAGCCCGCTCTTTGAGATAGTTATCACTTAGCGCGGCAAACTGTTCGGCAAATTTTTCAATGACCGTTTTTACCGCCCAC -TCTGCCACCGAGCCTTTATCAACCTCGGCAAACAATTCGCGACGCAGCCGGGTGTCCGAAAGCAGGTGCGAGTAAAGATC -GAAAATAGCCGCCGTTTCTTTTTGTGCACCGGCGGCAAAGCGTTTGCTGTAGCGGCGAAACTCGTTTGCCGCTTCTTCCA -GCGCCCCGGTCAGTCGTTCGCGTTCCAGAGCCGGATCCAGCGTTGATGCCTGATACACCTGTTCCATTAAAGGTAACGTG -GCATCCTGCCAGCCTTCGGCAATCGCCACACCAGGTGCTGCCGGTAATGCGCGGATTCGCGTCTGGCGATATTGCCCAAA -CAAGGCAGTCAACTGCGACTGAGAAAGAATAGCTGCCATCTGGGTGGCAAGCGTCACCAGGAAGGATTCTTCACTTTCGT -CATACTGGCGCAACTCTCGTTGCTGTACCACCAGTACACCAAGCAACTGGCGACGTTGAATAATTGGTACGCCTAAAAAC -GCGCGGAAACGTTCTTCTTTTACGGAGGGGATGTATTTGAAGCTGGGGTGCTTTTGCGCATCTGCAAGGTTTATCGGTTC -CGCCAGCCTGCCAACCAGGCCGACGATCCCTTCATCAAACGCGAGCGTTACAGTGCGACCGCGTGGTTTTTTCAGCCCCC -GGGTCGCCATCAGGTAGTAACAACGTCGATCATGATCGGCCAGGTAGACCGAACAGACCTCGGTATCCATCGCAAGACAG -ATGTCGGTAACCAGAATATTTAACGCCTCATTCAGGCGTGGTGCGCTGGCTACCTTTTCGACTATTTCGCGCAGGCGAGT -GAGCATAATTGGCGTGACTTAACCTCTTTTACGTCGATAAGCAGATGCGTTTTGTGGTTTTGGCGTATTTTCCTGCAGTG -ACATCACCACACTCGCGAACTCTTTCATTACCCTACGGTAGACATCACGTTTAAATGACACCACCTGTCTGACCGGATAC -CAGTAACTTACCCATCGCCAGCCGTCAAACTCTGGTGTACTGCTGGTTTGCATATTGATTTCTGCATCGCCGCTCACCAG -CTGCAAGAGAAACCATTTTTGTTTTTGGCCGATACAAACCGGCTTCGTGTCCCAACGCACCAAACGTTTCGGTAATTTGT -AGCGCAACCAGTTACGCGTTGAAGCAAGGATTCGAACGTCTTTGCGGCTTAATCCTACTTCTTCAAACAATTCACGGTAC -ATCGCCTGCTCTGCGGATTCTCCGGGGTTGATTCCGCCTTGCGGAAATTGCCAGGAGTGCTGACCAAATCGCCGGGCCCA -CATTACCTGCCCCTGGCGATTACAAATCACGATACCTACGTTTGGGCGGTAGCCATCGTCATCAATCACCGGACTACCTC -AAAATAAAGCTTTATATACGAATGATTGTTTCATACTCCAGGAAGACGGTAAACCACTCTCTGCAGGGCATTACACACTA -ATAACAATTGAATAACTCACAGTTATGTGCAGAGTTATAAACAGAGGAAGGGGTGGATAGCCGTTTTTATTCACCTTTTC -TGTGGATAGAGTTGTGAAGAACTACGGAATTACTACGGGAAAACCCGGAGCATTCTGAATAAGCCCGATATAGACATTTT -AAAATATTCATTATCAGTCAATGCATTACATGTAATTTTAGTAATGAAAAAGAGTAATTCGTGACCCAGGTCACACCTCT -CATTTACGGGTTGGCGAAAGATCAACCAATGCCGTATTTATCCACAGAATGTGCCACTAAGTTAAGCACTGAACCACTAA -AAACTGGAGTTTCGTCGCACGTCAAGGCTGTAAATGGAAACAGTAGTGGAGGTTTTTCACAGTTATCCCAGCTTTCTGTG -GATAACATGGTGTAAGATCCTGTTTATTTTCAGTGACCAGATTTGGAAAACCCGTTGCAGTGTTGCGCAACTCGATTACC -GGCAACCTAAAAAGCAATATAAATCAGAGAATTGAACAACGCATGTGGAAAAAGTTACACTGCGAATATTCGGCACATAA -TTGCTGTTTGTTTTTTAATCAAGGTATCATGACATGTCCCAACCTCGCCCACTGCTCTCTCCTCCCGAAACTGAAGAACA -GTTGTTAGCGCAAGCACAGCAACTTTCTGGTTATACATTGGGAGAACTGGCGGCACTTGTCGGGCTGGTTACGCCAGAGA -ATTTAAAACGCGATAAAGGCTGGATTGGCGTGTTACTGGAGATCTGGCTAGGTGCCAGCGCAGGGAGTAAACCTGAGCAA -GATTTTGCTGCTCTGGGCGTGGAACTTAAAACTATCCCTGTGGATAGTCTTGGTCGTCCGCTGGAAACAACATTCGTTTG -TGTTGCCCCGTTAACGGGCAATAGCGGGGTGACCTGGGAAACCAGCCACGTGCGCCACAAACTCAAACGCGTACTGTGGA -TACCGGTTGAAGGCGAGCGCAGCATCCCGCTGGCGCAGCGTCGCGTTGGATCACCGTTGCTGTGGAGCCCGAATGAAGAG -GAAGACCGGCAGCTACGCGAAGACTGGGAAGAATTAATGGATATGATTGTTCTCGGTCAGGTTGAGCGGATTACCGCTCG -TCACGGGGAGTATTTACAGATACGACCGAAAGCAGCGAATGCGAAAGCGCTTACCGAAGCCATTGGTGCCCGGGGCGAAC -GGATTCTGACGCTGCCACGCGGCTTTTATTTGAAGAAGAATTTCACCAGTGCACTACTGGCCCGTCATTTTCTGATCCAG -TAGCCATCGCTTTGACCTGCCGCTTTCCGGGCATATAATTACCGCTTCATTTTTTTGGCAGGGCTTTTTAGATGTTATTT -GCATGGATAACCGATCCTAACGCCTGGCTTGCGCTCGGTACGCTGACGCTGCTGGAGATCGTTCTTGGGATCGACAATAT -TATTTTCCTTTCTCTGGTGGTGGCAAAGCTTCCCACAGCACAACGTGCTCATGCGCGCCGTCTGGGGTTGGCGGGAGCCA -TGGTTATGCGTCTGGCGCTGCTGGCATCAATCGCCTGGGTTACGCGCCTGACAAATCCGCTTTTTACAATATTCAGTCAG -GAAATTTCTGCCCGTGATTTGATTCTGCTTCTGGGTGGCTTGTTCCTTATCTGGAAAGCCAGCAAGGAAATCCACGAATC -CATTGAAGGTGAAGAAGAAGGGCTGAAAACACGCGTTTCATCATTCCTCGGCGCTATCGTGCAGATTATGCTGCTGGATA -TTATCTTTAGCCTCGACTCGGTGATTACGGCTGTGGGTCTGTCAGATCACCTGTTTATTATGATGGCAGCCGTGGTGATT -GCCGTAGGCGTGATGATGTTCGCCGCGCGCTCGATTGGTGATTTTGTCGAACGCCATCCTTCGGTAAAAATGCTGGCGCT -CTCTTTCCTGATTCTGGTGGGCTTTACCCTGATTCTGGAAAGTTTCGACATCCACGTACCGAAAGGTTACATCTACTTCG -CGATGTTCTTCTCTATTGCGGTTGAAAGCCTCAACTTGATTCGCAACAAAAAGAATCCGCTCTGATACTCCGTACGCTCT -CCTGCGGGAGGGCGTACTCACTCCTTTTACCCTCACAGTTTAAGATTTTCCTGCTTTCAAGATATATAACGTCGGTTTAT -AAACAGACTATTATCATAGGTAGGCCAAATGAGGATAACCGGATGAAAAAATGGGCAGTAATAATTTCTGCAGTCGGACT -GGCGTTTGCTGTTTCCGGGTGTTCCAGTGATTACGTCATGGCGACCAAAGATGGCCGTATGATTTTGACCGATGGAAAAC -CTGAAATTGATGATGATACCGGGCTGGTGAGTTATCACGATCAGCAAGGTAACGCGATGCAAATTAACCGTGATGATGTT -TCGCAAATTATTGAACGTTAACAAATAAGGTCAGCATCCGGCTGGCCTTAAGATTTTTCTCTTTCCCTTTTCCCTTCCCT -CTGCCATTTTTATATTCCTTATGTCGTGATTATAAAAAGGAAACGGCTATGCAATATCACCGTATACCCCACAGTTCGCT -GGAAGTCAGCACGCTGGGGCTTGGCACGATGACGTTTGGTGAACAGAACAGCGAAGCCGACGCCCACGCACAACTCGACT -ATGCCGTCGCTCAGGGCATTAACCTTATCGACGTTGCCGAAATGTACCCAGTACCTCCGCGCCCCGAAACGCAAGGGTTA -ACCGAAACCTACGTCGGCAACTGGCTGGCGAAACATGGCAGCCGCGAAAAGTTAATTATCGCCTCCAAAGTGAGCGGACC -GTCGCGCAATAATGACAAGGGCATCCGCCCGGATCAGGCGCTGGATCGGAAGAATATCCGCGAAGCGCTGCATGACAGCC -TCAAGCGCCTACAGACTGATTACCTCGATCTTTATCAGGTGCACTGGCCGCAGCGCCCGACCAACTGCTTCGGCAAACTC -GGTTATAGCTGGACGGATTCTGCGCCTGCGGTTTCGCTGCTGGATACGCTGGACGCACTGGCAGAGTACCAACGCGCGGG -AAAAATTCGTTATATCGGCGTGTCGAACGAAACTGCATTTGGCGTAATGCGCTACCTGCATCTGGCGGACAAACACGATC -TGCCGCGTATTGTCACCATTCAGAACCCTTACAGTCTGTTAAACCGCAGTTTTGAAGTAGGTCTGGCAGAAGTCAGCCAG -TATGAAGGGGTCGAACTGCTGGCCTATTCGTGCCTGGGTTTCGGCACGCTGACCGGGAAATATCTCAATGGTGCAAAACC -CGCTGGCGCACGTAATACGCTCTTTAGTCGGTTCACCCGCTATAGCGGTGAGCAAACGCAAAAAGCCGTCGCGGCGTATG -TTGATATCGCCAGACGTCATGGCCTGGACCCTGCTCAGATGGCGCTCGCGTTTGTACGCCGTCAACCGTTTGTTGCCAGC -ACTCTGCTGGGCGCAACCACGATGGATCAGCTGAAAACTAACATCGAAAGTTTGCATCTGGAGTTAAGCGAAGACGTATT -AGCTGAAATTGAAGCGGTGCATCAGGTTTATACTTATCCGGCACCATAAGATTAACGCCGGTTAAAACCGGCGTTAAATA -TTAATGACGGCGCTGCCAGATCCACAGCGCCGTTATTGCCAGCGCAAACAGCGCACCGAAGCCAATGCCAATGGGCACGA -CCGGGATGCCTATCATTACCGCCAGCGAGTAAATGCCCAGCATCAACAACATGGCGCTGTTTTCGCCAAGGTTTTGTACT -GCAATCGCATTCCCCGCCCCGACGCTTTTTTTACCCCGCTCCTGTAGCAACGCATTGAGCGGAACGACAAAAAAGCCCCC -CATCACGCCAATCAGCATCAACAAGGCATAGGCTGGCAGCAGCTCGTGTTGCAGGGAAAAAATCAGTACCACCACGCCAA -TCAAAATCCCGGCTGGCATACAGCGTGACACGGTTTCCAGCGTAACTAACTTCGCTGCCGCACCTGCGCCAACCACGATA -CCAATCGCTACCATCGCGTTGAGATAGGTGGGCGTAGCGTTATCGGTAATGCCCAGCGCCACCGGTACCCACAGCACCAA -CAGGAAACGCAGCGTGACACCCGCTCCCCAGAATAAACTGGTGCCCACCAGCGAAAAACGCGTTTCACCATTGCGCCATA -GCGAGGTGCAGGCATTCAGGAAACTGCGGGTCATGTTGATGAGATTCCAGGACTGCCCCGGACGCGCCGCCGCCAGTTTG -GGAATGTAGATATTGGCAACGACCGCACCACCGTAGGCCAGTGCGCATGCGGCCAGGGCGACGAGGACATGCCAGTCAGC -CAGCACACCACCGGCTACGGAACCGAGCAAAATCGCCGCTATGGTAGAAGCTTCCATTAAACCGTTAGCTTTCACTAACT -TACTACCCGTGGTTAATTCGCCGAGAATACCGTATTTCGCCGGTGAATAGGCTGCAGCACCAACACCCACCAGCGTATAG -CCGAGAAACGGATTGATACCAAAGCAGATACTGGCTGCGCCCAGCAGCTTCAGGCCGTTGGCAAACATCATCACCCGGCC -TTTGGCGAAGCTATCCGCCACCTGCCCGACAAACGGCGCAAAAAGAATGTAAGCACCTACAAACACCATTTGCAGGATGG -GCTGGCTCCACTCCGGATAGAACTGCGCTTTCAGTAACGCCAGAGTGGCAAACAGTAGGGCATTATCGCCAAACGCAGAG -AGAAACTGCGCCACGATAACCGCTTTCATCCCCTTCGACCACAACGAAGTGTTAGTGTGCACTGACTCACTCATCGTGTT -GTTCCGCTTCGTCTACCCAGCTTTTCAACGTGACAAAGTCAGGTTTGCCGCTGCCAAGTAATGGCATCTGTTTCAGATAG -CGAATATCGCGCGGTACAGCAAGCTCCGGCACGCCGTGCTCGCGGGCATACTGTTGCAACTTATCGCGCGTCAGTTCGTT -ATCTGTGGTGAAAAGCACCAGTGCCTCGCCTTTGCTGGCATCGCTCTTAATCGCAGTGGCATGGACTTTATCTGGCGAAA -CACCAAGTGCCAGTTGTTCCACCATTTCCAGCGACACCATTTCGCCTGCAATTTTGGCAAAGCGTTTTGCGCGGCCCTGA -ATCTGCACAAAGCCCTGCTCGTCAAAACGCACAATATCGCCAGTGTCATACCAGCCGCGCTCCATTTCGCCGCGAACATT -CTCGGCGGTGGGCACTTCCAGTACACCTGGCTTCTCCACCCGCAGATAGCCGTTCATTATGTTCGGCCCTTTCAGTTGCA -GGCGTCCGCCCTCTTCGATACCAGGGACCGACAACAGGCGCGCATCCATTCCTGGTAGAATACGCCCTACCGTACCGGGT -TTCGCCGCCATCGGTACGTTGATAGAAACGACAGGCGCGCATTCGGTCACGCCGTAGCCTTCAAGGATGCGCAGGCCAAA -TTTATCCTGCCAAAGCTGTTTGGTACTTTCTTGTAATTTTTCTGCGCCTGCCACCACATAGCGTAGACGATAGAAGTCAT -ACGGGTTGGCGAAACGCGCGTAGTGACCGAGGAAAGTCGAGGTGCCGAACAACACGGTGCAACTGCGGTCATACACCAAC -TCCGGCACAATGCGGTAATGCAGCGGGCTTGGATAAAGGAACACTTCTGCACCTGTAAGCAGTGGCGTAAACAGGCCTAC -CGTCAGCCCAAAGGAGTGAAACAGCGGTAACGCCGACATAAAGCGATCGTTGGTGGTGAAGTCGGCAATCGTTTTAATCT -GCTCGACATTCGCCAGAATGCTTTTATGGCTATGGACGACGCCTTTCGGATGGCCTTCAGAACCGGAGGTAAAAAGGATC -AGCGCCTCTTCTTCCGGCTGCTGTTTAACCTGTGCCAGACGCGGCATCAGCAAATGAGCGAAGATCCATACTTTGTCGGC -AGTGGTGACATCTGCTTTTAAATCTTCCAGATAGACCCAGCGCACCTGAGTAAGTTGCTCCGGCAGATGCCAGAGTTTGC -CTTTATCGAGAAACTGGCGGGAAGTGAAGATGGTTTTGATTTCAGCCGCCGTAATAGCACTGGTCAGCCCTTTTACCCCG -GCAGTGTAGTTCATCATTGCGGGCATGCGGCGACGGGCGATGGCCCCAAAAATCACTGCCGCACTGATGCCTGCATTGGG -CAGCATTAAGCCGATGCGTTCGCCTTCAACACTGTATTTTTCAAGGATGCGTCCAACAAACAGCGTTTTCGTAAGCAATT -TGCGATAGGAGTCTGGGGTAAAGTTGACGTCTTCGACACATTTCTTCCCGGCTCCGAAGCGGTACATTGCACTCAGTAAA -GATTCGTACAGCGTTTCACGCGGGCGCACCGCCATTCGCGCTTCCATCATTATTTGATGCAGCATTTCGCCAGCGATTTT -GCGACGGTCACGGGCACGCGGCGCATCCGGCATCGCCACCTGCGTTGGTGGCAAAATATGCAGAGTAATTTGCGGGAACA -AGCGACGTTTAACCAGACCTTTCAGGCGGCTGAAGTGCGTAAGTTCCGCCCCTTCAATACGCACAGGAATAACCGTTGCA -CCAGACTTCGCCGCGACAAAACCCGCGCCATCGTAGATTTTCATCAGCGAGCCTGTCGTGGTGATGCGTCCTTCAGGGAA -AATCACCACTGGTCGGCCCTGTTCCACCAGACGTACCAGATGTTTAATAGCCATAGGTTGCGTCGGGTCGAGAGGAACAA -AGTCGATAAATGATTTCAGCCAACGCATATACCACTGTTGGCTTATTGAGGTGTAAACGGCAAACACTGGACGCACAGGT -AAAAACAGTCCAAGCAAAATGCCATCAATAAAAGAGACGTGATTAGGCGTAATTAGAACGCGCTCGCCCTTCAGTGCCTG -GGTGTCACCCGTAACGCGAACGCGATACAAAACACGGCACAAATTTCGAAAAAAGCTAAAAAGCATTCCAACTCCCTTTG -CTCTGATTCAGTAAAAGCGAATGGAGGGAGATTACACGAGATAAAGAACGCGAGCGACAGTAAATTAGGTGCGAAAAAAA -ACCTGCGCATCCGCGCAGGTTGGTGCAAGAGACAGGGTACGAAGAGCGTACCGAATAATCTCACCAATCAATACCTCTGG -GATCTTGATTGTGGTCTGCACGACGACTCTTCGCCAGCGAGAAAACGCAAAGGAATGAAGGGAAATGCAACGAGGTGTGT -AAATTGTCGGTTACTGTTACAGATTGATGACCGGCAAAAAAAACCTGCGCATCTGCGCAGGCTGGTGTAATTCATGTGCT -CAACCCGAAGTTGACTTCACCTATCAATACCTCTGGGATCACCACTTTAGCAACCTGAAGCCAAACGCCACCAGCGGTCA -ATCGCAACAGCGTTTCGCAAAGTGTAACCAAAGGTTTGCAATCTCTTTTTTTGTCTTACTTATTTGCGTTTGGCTCACAT -TCCCACGATGAAAACACGCCACCCCTTGAACCAACGGGCGTTTTCCGTAACACTGAAAGAATGTAAGCGTTTACCCACTA -AGGTATTTTCATGGCGACCATAAAGGATGTAGCCCGACTGGCAGGCGTTTCAGTCGCCACCGTTTCCCGCGTCATTAATA -ATTCACCCAAAGCCAGCGAAGCTTCCCGGCTGGCTGTGCATAGTGCAATGGAGTCTCTTAGCTATCACCCGAACGCCAAC -GCCCGTGCGCTGGCGCAGCAGACCACTGAAACGGTCGGTCTGGTCGTTGGTGATGTTTCCGATCCGTTTTTCGGTGCAAT -GGTGAAAGCGGTCGAACAGGTGGCTTATCACACCGGTAATTTTTTATTGATTGGCAACGGTTACCACAACGAACAAAAAG -AGCGTCAGGCCATTGAGCAACTGATCCGCCATCGCTGTGCTGCGTTGGTCGTCCATGCCAAAATGATCCCGGATGCTGAT -TTAGCCTCATTAATGAAACAAATGCCCGGTATGGTGCTGATCAACCGTATCCTGCCTGGCTTTGAAAACCGTTGTATTGC -TCTGGACGATCGTTACGGTGCCTGGCTGGCAACGCGTCATTTAATTCAGCAAGGTCATACCCGCATTGGTTATCTGTGCT -CTAACCACTCTATTTCTGACGCCGAAGATCGTCTGCAAGGGTATTACGATGCCCTTGCTGAAAGTGGTATTGCGGCCAAT -GACCGGCTGGTGACATTTGGCGAACCAGACGAAAGCGGCGGCGAACAGGCAATGACCGAGCTTTTGGGACGAGGAAGAAA -TTTCACTGCGGTAGCCTGTTATAACGATTCAATGGCGGCGGGTGCGATGGGCGTTCTCAATGATAATGGTATTGATGTAC -CGGGTGAGATTTCGTTAATTGGCTTTGATGATGTGCTGGTGTCACGCTATGTGCGTCCGCGCCTGACCACCGTGCGTTAC -CCAATCGTGACGATGGCGACCCAGGCTGCCGAACTGGCTTTGGCGCTGGCGGATAATCGCCCTCTCCCGGAAATCACTAA -TGTCTTTAGTCCGACGCTGGTACGTCGTCATTCAGTGTCAACTCCGTCGCTGGAGGCAAGTCATCATGCAACCAGCGACT -AACCGCAGTTAAAGCAATTCCAGCGCCAGTAATTCTTCGATGGTCTGGCGACGGCGAATCAACCGCGCCTGACCATTATC -AAACAGAACTTCTGGTAACAGCGGACGGCTATTGTAGTTGGATGACATTGATGCGCCATATGCCCCTGTATCATGCAGTA -CCAGATAATCACCTGCCTTCACTTCCGGCAAGGCGCGGGTTTCAACATTTCCCCCTTCCTGCTGGGTAAAGACATCGCCC -GATTCACATAACGGTCCGGCGACGACGGTTTCCACCGTTGGCGCGTGTTCCAGAGAACGACCATCAGCTGCCAGGGCACT -GATATGGTGGTAACTACCGTACATTGCCGGGCGCATCAGATCGTTGAACCCGGCATCAACCAGCACAAAGTGGCGGCTCC -CCATTTGTTTGACGCTCCGCACCTGAGTAATTAATACGCCAGACTGCGCTACCAGGAAGCGACCCGGTTCAATTTCCAGT -TTCACAGGGTGGCCCAAATGGCGGGCGATTTGCTCACGCGCGGCATTCCACAGACCATAATAATGTTCGGTATCAACCGC -CTCTTCACCCTGTTGATAAGGAACAGAAAGCCCACCGCCCGCAGAAATAGCCTGTAAATCCTGACCGAATTCGATGACCT -GACGCACCATAGCACCACACACCTGTTCCAGATGGGCATAATCAACGCCAGAACCAATGTGCATGTGAATGCCGACCAGC -TGCAGATGATGACGTTGTATCACGTCCAGTGCGGCGGGCAGATCGGTGTACCAGATACCGTGCTTGCTGTTTTCGCCACC -GGTATTGGTTTTTTGGCTATGTCCGTGACCAAACCCCGGATTAACGCGCAGCCATACCCGATGCCCTGGCGAAACCTGGC -CCAGTTGGTCGAGCATATCAACAGAACCCGCATTCACCGGAATTTGCAATTCACTGACGCGTTCAAGCGTCGCCTGATCG -ATAACATCTGCCGTAAAAACAATATCATCGGGGTGCGTTTGCGGATTGTAACCCGCCGCCAACGCACGCTCTATTTCGCC -TAACGAGACGGAATCCACTTTCACGCCCTGCTCACGCATTAAGCGCAAAATATGAATATTGGAACAGGCTTTCTGTGCAA -AGCGCACCACATCAAACTGTTTCAGCGCTGCAATCTGCCGACGAATAATTTGCGCATCGTAGACCCACACCGGGCAGCCA -AATTCAGCGGGCAAACGCAGCAGATTTTCGGCGGTGAGATCGGTATCGGTGCTGAACAGTGAATGTGGCATAACAAACTC -CAGATAAGTGCTTTTTTATGATTACGCCACATCATAAAAAGAATAAAAAATATCGATTTATGTCGAGTCTATGCAAAAAT -GATATGGATTACCGGATTGCGAGAGAGCGCTAATGGCCGCCGTTAACTTACGTCATATTGAAATTTTTCATGCGGTAATG -ACCGCCGGAAGCCTGACTGAGGCGGCACACCTGCTACACACCTCACAGCCAACCGTCAGCCGCGAACTTGCGCGCTTTGA -GAAGGTGATCGGGCTGAAATTGTTTGAGCGCGTACGTGGGCGATTACATCCTACCGTGCAAGGACTGCGTCTGTTTGAAG -AAGTGCAACGATCCTGGTACGGACTGGATCGCATTGTCAGCGCCGCAGAAAGTCTGCGCGAGTTTCGCCAGGGAGAACTG -TCTATTGCCTGCCTGCCGGTCTTTTCGCAATCTTTTTTACCGCAGCTCCTGCAACCCTTTCTGGCACGTTATCCCGATGT -CAGCTTAAATATCGTGCCCCAGGAATCACCGCTACTTGAAGAGTGGCTCTCGGCCCAGCGTCATGATTTAGGACTCACTG -AAACGCTCCATACGCCTGCGGGAACAGAACGTACCGAATTACTCTCTTTAGATGAAGTGTGTGTGTTACCTCCGGGTCAT -CCGCTGGCGGTAAAAAAGGTATTAACGCCGGATGATTTTCAGGGTGAGAACTACATCAGCCTTTCCCGTACTGACAGCTA -TCGCCAGTTGCTGGATCAGCTATTTACTGAACATCAGGTTAAACGACGCATGATCGTAGAAACCCACAGCGCCGCGTCAG -TCTGCGCAATGGTACGGGCGGGGGTAGGTATTTCGGTGGTTAACCCGCTCACCGCACTAGATTATGCGGCAAGCGGTTTA -GTGGTGCGGCGGTTCAGTATTGCGGTTCCGTTCACCGTCAGCCTGATCCGCCCCCTGCACCGCCCGTCATCAGCGCTGGT -TCAGGCGTTTAGTGGGCATTTACAAGCGGGGTTACCGAAACTGGTCACTTCTCTTGACGCTATTTTGTCGTCAGCTACGA -CAGCATAAAAGCGACAGCATCCTCGGCATGGATCGCCGCGGTATCAAACACAGGCAAAACACTGCGCTCTTCTGGCACCA -GTAAACCAATTTCTGTGCAGCCAAAAATGACGCCCTGTGCGCCCTGTTCTGCAAGGCGAGCAATCACTTGCGCACAATAA -GCGCGTGACGCTTCGGTAAATTGCCCCAGACACAGTTCTTCAAAAATAATCTGATTAATTTTCGCCCGTTCATCCGCTTC -AGGAATAAGACAATTGATGGAAAATTGTTCCGTCAGCCGCCCGCGATAAAAATCCTGTTCCATGGTGTAACGCGTACCCA -GCAGCGCCACACGAGTCATTCCGGCCCCGGTAATTGCACGTCCGGTGGCATCCGCAATGTGTAAGAAAGGCAGAGTGCAA -CGTGACTCAATGGCATCCGCCACTTTATGCATCGTATTGGTACATAGCACAATACCTTCTGCGCCCGCCCGCTGTAAGCC -AAGCGCCGCCTCAGCCAGAATGTCCCCGGTTTTATCCCATTCCCCGCGACGCTGGCACTCTTCTATTTCATGAAAATCGA -CGCTATGTAGCAGCACTTGCGCAGAGTGAAGCCCACCAAGCCGCTGTTTAATGCCTTCATTTATCAAACGATAGTAAGGA -ATGGTGGATTCCCAGCTCATTCCTCCCAGCAAACCAATTGTTTTCATTCCTCTCTCCTGATGTGTGTTACCGCAACAAGG -CTGAATAAGGAACGAGACAAACGCCTCAACGGCCAAGTGCCCAATCTCTATTAACGAAAAAAGGGCCGGATGTACAGCAC -ATCCGGCCCGTGAAATCAGACGCCGATATTTCTCAACTTCTCGCCTGCCATCAGTTTGCGTTCGATATGTTCCAGCGTGA -CATTTTTGGTTTCCGGAATGAGCCAGAAAGTAATGCCCACAAACGCAATGTTCAGCGCAGTGTAGAGCCAGAACGTACCG -GCAGCGCCAATGCTATCAAGCAGTGTCAGGAAGGTCGCGCCGATAATCATATTCGACACCCAGTTCGTGGTGGTCGAACA -GGTAATACCGAAATCGCGGCATTTCAGCGGCTGAATTTCAGAGCACAGGATCCACACCACTGGCGCGGCGCTCATCGCAT -AACCGGCAATACACATCATCGTCATGCCAACAGAGAGCCAGGACAAGCCACTGGAAGCCGTACCGTTATCAAACTGCATC -AGGCAATAGCCCAGCACCAGAGTGCCTAACGCCATCACGCTGAAACCAATTTTCAGAGCCGGTTTACGCCCTGCTTTATC -TACCGTAAACACCGCAATAAAGGTGGCGAACATAAAGGTCAGCCCTACGACCAGAGTCGCAATCATCTGTTGTTCTGTGG -TCGTAAAGCCCGCCATTTTGAAGATACGCGGCGCGTAGTACATGATGATGTTCATACCGGTAAACTGCTGCATCGCCTGC -AACAACATACCGAGAAACACAGCACGACGGACGTTACGGTTGATCTTAAACAGTGCCCAACCGCCCTGTTTTAACTTCAG -GCTTTCACGAATTTCGTTGAGTTCTTCTCGCGCTTTTTCCGACGTATCGCGCAGCATACGCAATACTTCTTCCGCCTCAA -TATGACGCCCCTTTTCCGCCAGCCAGCGCGGGCTATTTGGCAGGAAGACTACCAGAATAATCAGCAGAACTGCTGGTAAA -GCAAGAACCCCCAACATTGCGCGCCAGTTACCGCTATAACTGAACGCTGTATCGGATAAAAACGCCAGCACGATGCCGAG -TGTGACCATCAACTGGTACATACTGATCATCTTACCGCGAACGTTTTCACTTGCCATTTCAGAAAGATACAGAGGAGCGG -TGTAAGACGCGATCCCGACAGCAATGCCCAGCACCACACGAGCGGCGATTAACATCTCTACGCTGGTCGCAAAAGCGGAC -CCTATAGAACCGAGTACAAACAGGATGGCCCCCGCCATCAGGCTGTATTTACGCCCCAGGCGGAACGACAGCCAACCATT -AAACAGCGCACCAATTGCTGCACCGAGCATCATGCTACTAACCACCCATTCCTGCAAACGACTGGTCAGCACAAAGTGAT -CGGTAATGAACGGCAACGCTCCGGCGATTACGCCGATATCAAGACCAAATAACAATCCTGCGACCGCAGCAGCTACCGAA -ACAAACATATTCATACGCCGCGTATCCCGCAAAGAACGTGGCGTTAAAGCAGATTCCGTATTGATAGTAACCATTTTTTC -CTGCCAGCAGAGAGTAAGACATAGTGAAAAAATACGTGAACAACTCACGCAGGTGTCAGGTCGGAAACAGCATAAATATG -GATTAAATTGCTGCGACATGTCGTTATGTGATGGATATTCCAATTTTCAAATTAAGTTGAATTATTGAGATTATTATTAA -CCACCTAATTTTACAGCAGATAAAATTCATAAAGTTCATTAATTGATAATTAATATGGATTATTTCATAACCATGATATG -GATTATGATGATCTACAGGTATAAAAAACCCTGCCATGCGGCAGGGTCATAAAAGTAAGAAGAATGAATTAACGCGCCAG -CCAACCGCCATCCACGGCAATGGTATAACCATTCACATAATCTGAAGCGCTGGAGGCAAGGAACACTATCGGCCCCATCA -GGTCACTCGGCAGTCCCCAACGACCAGCTGGAATGCGGTCGAGAATTTCCGCGCTACGTTGTTCATCTGCCCGTAGTTGT -TGAGTATTGTTGGTCGCCATGTAACCCGGGGCTATCGCATTAACATTAATGTTGTGTTTAGCCCATTCGTTCGCCATCAA -TCGCGTCACACCCATCACGCCGCTTTTTGATGCGGTATAAGAAGGCACACGGATCCCGCCCTGGAAGGAGAGCATTGACG -CGATATTGATAATCTTGCCGCCATTGCCTTGCGCGATAAAGTGTTTCGCCGCTGCCTGAGACATGAAGAATACGCTCTTG -ATATTCAGGTTCATGACATCGTCCCAGTCCTTTTCGCTGAACTCGAGAGCATCTTCGCGGCGAATCAATCCGGCGTTATT -CACCAGGATATCAATATGACCAAACTCCGCTACCGCGCGATCCAGCAGTGCTGGAATACCATCAATCTTTCGCAGATCGG -CGGTCAGGCTTAAAAAACGACGCCCCAGCGCTGTGACCTGCTCGATGGTTTCAGTCGGTTCAACGATGTTAATGCCAACA -ATGTCACAGCCCGCTTGCGCCAGCCCCAACGCCATCCCCTGACCCAGTCCAGTATCACAACCAGTGACGACCGCAACTTT -ACCTTCGAGAGAAAATGCACTTAAAATCATAACAATACCTTATTCGTTTATGCCCACAACTAGCGCAAATCTTTAACGGC -CACATGGTCCATATCATCAAAGACCTGGTTTTCACCGACCATGCCCCAGATAAAGGTATAAGCTTTGGTTCCGACACCGG -AATGGATCGACCAGCTCGGGGAGATCACCGCCTGCTCGTTATGCATCACAATATGACGCGTTTCTTGCGGCTGCCCCATC -ATGTGGAAAACGCAGGCGTCATCATCCATATTGAAATAGAAATAAACTTCCATCCGGCGCTCGTGGGTGTGACACGGCAT -GGTGTTCCACAAGTTACCCGGAGCCAGCTCCGTCAGCCCCATACTCAATTGGCAGGTTTCCAGTACATCCGGGACAAAAT -ATTTGTTAATCGTGCGACGGTTACTGGTGAGGTTATCGCCTAACGTGACTGGAGATACTTCGTCCGGTGTGACTTTTTTG -GTGGGATACGTCGTATGCGCGGGTGCGCAATTGTAATAAAACTTCGCCGGAGTGCCGGTATCAATACTGGCAAAGACAAC -TTCTTTTGCACCTTTACCAACATACAGGGCGTCGCGGTGACCGATTTCATAGCATTGGCCATCGACAGTAATCGTACCGG -CACCGCCAATATTGATAACACCTAACTCGCGACGTTCAAGGAAATAGCTTACGCCGAGTTGTTTACCAACTTCCCCGCCA -ACGGAAACCGTTTTAGTTATCGGCATAATGCCGCCAACAATAATTCGGTCAATGTGGCTGTAAACCATGGTGTACTCATC -GGCGACAAATACCTTTTCAACCAAAAATTCATTGCGCAGCCCTTGGGTATCCAGCGTTTTTGCGTGCGCACTGTGGATGC -TCTGTCTTACGTCCACATCAACCTCCGATAATCAGTGAAGCGTGAAAATAGAAAACGATAGTGAAACACTGTTTCGTTTT -CTCTATAAAGGGATGATATGCCCATGGGCTAGGGTTTTCAATTAAAAATAAAACAATGTTTCATTTTTAAGTTAAGGATT -AAAAAAAGTGCAGTGTCGATCACGAATATGTCATGAGAATGGAAAAATGAGGGAGCCCAGAAAATGTATGTCGACTTGCC -AGCCATCATTATTCAACAGATTAATGACGGCAGATATTTATCGGTAAGGAGGAAATGCAGAGCTATTCGTCACGTTCAAT -GGTCAATGCCACACCCTGGCCCCCGCCGATACAAAGCGTTGCCAGTCCTTTGCGGGCATTACGTTTCACCATTTCATGAA -CCAGAGAAACCAGGATTCGGCAACCGGAAGCGCCTATCGGGTGACCGAGTGCGATCGCGCCACCATTGACATTGACCCGA -CGCTCATCCCACTCAAGCATCTTGCCAACCGAAAGCGCCTGTGCAGCAAACGCTTCATTAGCCTCGATAAGATCGACTTC -AGCCAACTGCCAGCCTACACGCTCCAGGCAACGGCGGGTCGCATACACCGGCGCAATTCCCATCAATGCCGGATCTACAC -CAACGCTGGCAAATGCGCGAATGCGGGCCAGCACGGGTAAATTCAACGCTCGTGCTTTGGCTTCGCTCATCATCATTACC -GCAGCTGCGCCATCGTTTATGGATGATGCATTACCCGCTGTCACAGAACCGAGACTATCAAATGAAGGATTTAAACGGGC -TAAGCCTTCTGCGCTGGCGTCAGTGCGTGGCTGTTCATCGGTATCAACAACCAACGTCTGCCCGTTACTTTGGGTCATTA -CCGGGACGATCTCATCTTTAAATCGTCCGGCGTCAATCGCCGCTCGCGCTTTTTGTTGCGAGCTAAGTGCGTAAGCATCC -TGCAACTGACGGCTGATGCCATATTCGCGAGCCAGATTTTCGGCGGTGACACCAATATGATAATCATTGAAGGCATCCCA -CAACCCATCATGCACAAGACTGTCAACCAACTGGCTATTGCCAAGCTGTGCACCGGTGCGGCTATCAGTCAGAACATGTG -GTGCGCGGCTCATGTTTTCCTGGCCACCGGCGATGACAATATCAGCCTCGCCACACTGTATCGCCTGAGTAGCCAGATGC -AGTGCTTTAAGCCCGGAACCGCAAACGTCATTAATAGTGATTGCAGAAACGCTATTAGGCAGACCACCTTTAATAGCCGA -TTGCCTTGCCGGATTCTGCCCTGCCCCTGCAGTCAACACCTGACCAAGAATTACTTCATCCACCGCATATGCAGGAACGC -CGGTACGTTCTATTAACGCTTTCACGACCAGACTACCAAGTTCCACGGCGGAATGACCCGCTAACGCACCACGAAAGCAG -CCGATAGGTGTCCGTAACGCCCCGACAATCACAACGTCTTTCATCACAACCTCGCACCAATTAACAGTGCAATAGTAAAT -GATTGTTAATTACAGTTATCTTAATTGTTTAAAAAAAGTGATTTTTATCACAAAGGAAATATGCCTGAGCAGCAGTCAGA -GACATAACTGGCACGTAAGGTTTGCAACCACTAACCCACCAATAGAGGGGTAGATAGGGCGTTAATCTCCCATACTTAAC -CTGGTTTATGGTAAATTGCCCTCCATTTTGTTTAATTTGTAGATGATACGTTCAGATAATGTCTAATATTTGGTCTAAAG -AAGAAACTCTGTGGAGTTTCGCGCTCTACGGCACAGCCGTTGGTGCAGGCACGCTCTTCCTTCCTATTCAGTTAGGTTCG -GCAGGGGCTGTGGTCCTGTTTATTACTGCTCTGGTCGCCTGGCCTTTAACATATTGGCCACATAAAGCCTTGTGCCAGTT -CATCCTCTCATCAAAAACATCAGCAGGTGAAGGGATAACGGGCGCGGTAACACACTACTATGGCAAGAAGATTGGTAATC -TGATTACCACGCTGTACTTCATCGCCTTTTTTGTCGTCGTGTTGATATATGCAGTGGCAATTACCAACTCACTTACGGAA -CAGCTGGCAAAGCATATGGTTATTGATCTTCGCATCCGTATGTTGGTGAGTCTGGGTGTTGTATTAATTCTGAATCTCAT -TTTTCTGATGGGACGTCATGCCACTATTCGGGTAATGGGATTTTTGGTATTCCCATTGATTGCCTATTTCTTATTTCTTT -CCATTTACCTTGTCGGTAGTTGGCAACCTGATCTATTAACAACCCAGGTAGAGTTCAATCAGAATACCCTTCACCAGATA -TGGATATCGATTCCCGTGATGGTTTTCGCCTTTAGCCATACGCCCATTATTTCTACGTTTGCCATAGACAGACGTGAAAA -ATATGGCGAACACGCTATGGATAAATGCAAAAAAATTATGAAAGTCGCTTATCTCATCATCTGCATAAGTGTACTGTTCT -TTGTCTTTAGCTGCCTGCTTTCTATTCCACCTTCGTATATTGAAGCTGCTAAAGAAGAAGGGGTCACCATTTTATCGGCG -CTTTCTATGCTGCCGAACGCCCCAGCATGGTTGTCAATTTCCGGGATTATTGTCGCAGTAGTTGCGATGTCGAAATCATT -CCTGGGTACGTACTTTGGCGTTATTGAAGGTGCCACAGAGGTCGTCAAAACAACACTACAGCAGGTTGGTGTAAAGAAAA -GTCGTGCATTTAACCGCGCACTATCAATTATGTTGGTATCGCTGATTACCTTCATTGTTTGTTGCATTAACCCGAACGCG -ATTTCGATGATTTACGCGATCAGCGGCCCGCTCATTGCCATGATACTTTTCATCATGCCTACGCTGTCAACGTATCTCAT -CCCGGCGCTTAAACCCTGGCGTTCCATCGGAAATCTGATTACGCTGATCGTGGGTATCCTGTGCGTATCGGTAATGTTCT -TTAGCTAATATCAGTTGTGGATGGTTCAAAATTGCTACAATTTTGAACCATTCCATTTTTCATAATATTCATTTGTTATT -ATTCCACCCTATCACTTCTCTCGTCATATCCTAGTATTATCAGTTAGTTAAACACACAAAGAGATCTGAACATCTTAAAT -AAGACTATTTAAGATGCATAACTTAGATTCGCAAGATATCTTCTGGTCATTCAAAAACAATTTGCGATATAGATATTCTT -ATACCATGAGATAGTTATCTGGACCGCTCTCAACCATGCAAGATTAAATCAGTGAAACATAATCATATTTGATAACGAGA -AATGCATTTTTAAATGCCTTACTCAGAATTATAGCAAATACAGATTAATCGCAATTTTTCCCGGCAAAATTACAAAATCA -TGGTGTATTGACATCATCAATAACCAATGAAATTATGCAATTATATACGGATAGGGAGGTTCTTAACATGGGGCTTTGTA -GTCGTTATAAAAGTCTTACATGCAATAGTTGCTCAATGCATTGCCAAATAATGCCAGAAGAGTCACCGCGTTTGCAGTAT -TGCGCAAACTCGTGTTTTTGTATGTGGCCCGAAGAAAGTTCATATTTTAATCGTGGTGTGGTAGAAGGTATCTTAACAAA -AAACCACAATGCGAGATTAAGCGGATATATTTTTGTCGATTTTTCAGTAAGTTTTTTACGTCTATTCCTTGAAAAAGACT -GGATTGACTATCTTGCAAGTACTGACATGGGGATTGTTTTAGTCAGCGACCGCAATATGCAATCGTTAGCTAATTACTGG -CGAAAACACAACTCAGCAATATCTGCTGTCATATATAATGATGATGGTCTTGATGTTGCCAATGAAAAGATCAGACAACT -ATTTATTGGTCGTTATTTATCATTTACCGGAGGTAACACATTAACTCAGATGGAATTCACCATAATGGGGTATATGGTTT -CTGGTTATAATCCATATCAGATTGCTGAAGTTCTGGATATGGATATCCGTAGCATCTACGCGTACAAGCAACGAATCGAA -AAGAGAATGGGTGGTAAAATAAACGAATTATTTATTCGTTCACATTCGGTCCAACATTGATACTCAACGACCAGCCAGAA -TCATACTCTGTTTATACGGGCATTTATTGAAATGTCCGTATTTTATAAATAGGCCGTCCCCTCAAGAGTAAACACCATAG -TATTTAAAACCATCACACGAAAAATTCAGAAGCATTACGAAATATGAATTTACAAACAATAGTGGCATAAATGTTAACCA -TGTTAATTTACGTAAAGTTTTACGTTGCAACATTAAAGCCTCATTTCAATCATCATGATAAATATAAAATTAATATATAT -TTATGCCGTAAATACCAATATACTTAGCAAACTATGTGATCTCCATTTCGATTGATTTAGTGTTTATTGACGTATGTACT -GGATTATTAACGATAATATCGAGTTCTGGCCTGAGCACCGAAAATTAATATCGGTACATAACGCCGATCTTAACGTCGTT -CTGACAACGCCAGCCAGTCGATGTTTATCACTTCTACTTGAAGCTTTTCCTGATGTGGTTGCACAACAAGATTTTTTCAC -CAGAGTCTGGGAAGAAGAAGGTATGCGTGTGCCTACTAACACGTTATATCAGAACATATCCATTATCAGACGCGGATTTC -GCGCTGTTGGTGATACTACCCACTCGCTAATTGCAACCGTGCCGAGAAGAGGATTCAAGATCCATAATGACATTAACATA -CAAAATCATGTAATAAACTCGTCAACAGACGCACATACACACAATGCCCCACCTGCCATAAAAGTTAATGCGGGATACAA -AGAGAGCATTGGTGGCGCAAAGAATTTCAATAACAAAATCCTCAAACATATAAAAAGTCATCTAATTATGTTGAGCGCAT -TTGTCATAGGCGCATATTCTGCATATTGGCTATGGAATAATAATCAACCGAAGCCATTTTTCAAGGATTACAAGACTGTT -GCGGAAATTAATGGCTGCCATTTTAATGTAACAGAAGATACAATTGATGGGTTGAAAGAGTTCGATAAATATAAAACACG -GATACTGGATTCGGGGATTAACTGTAAAAAACATCCGTGGTTATACTTCCCTCTTGCAAAATCCTCACCGGGGATGATTG -TTATGGCATGCAATAAAAACTATAACCAACATGAAGTGGCAAACTGTTTAACCCTGTCTTACCGTGAGGTTAATCGTGAT -TGATTATAAAAAAAACTTATTATTTATTTTAGTTTTTATCAGTGGGTTTATTCTCTTCACTGTCTATTCTTACACTGCAG -AAAAAATGATATATAACGAAACATGCACTGCAAATTGGGTAATTTTTAATGACCAGGGACGAGCAAATCTTACCATCGAC -TTTATGTATAACAAAAAAAATAAAACAGGAACTGTTGCGTTGAGTGGAACCTGGCAACAAGGTAACAGAGAAAGTAAATC -AATACGGCGAAATATTGAATACACATGGATTGAAAACTATGACACAGCCCATTTAACATCAAAGAAAGTTAATAAGTTTG -AGATTATGGATCAAGTTGATGATGATAGACTTGCACAACTTATTCCTGATTTTTATGTCTTTCCAGAAAAAAGTGTAAGC -TATAATATACTAAAGCAAGGTAAGCATGCTTTTATTTTGAGCATTGGTAACAGAGCAATAATGCATTGTGCAAGGTAAAC -TAAAATAGATAACAAAAAGATGGAACCTCGTTAATCATAAAACAATAAAATTAAATATTCTCGCAGTATATGGCAGTCTA -AAGCATCAAAGATTTGATCAACATCTTTCATTTTAGACATCTCCTTGCAATGTAAAATATCATGTATCAACAACATCTGG -TGCAAATCCATGAGTCGAACTCGACATTCATCTTAGCTCGATTATTATTCCTTCGTACAGTCGATGTAAACAATACAGAA -AGAGGATTATTAAGAACCAGTTTACTCAGTGAATCAATAGAGGAAAGGACTAACGTTTCTTTAAAAGAATTGATTTCATC -ATCTGTTAAACTAAACTCATCATTGACAGATCGTGAGATATAACTGTTTTTAACTTTACTCTTTACGTTGACTTTATTGA -CAGAATTAACATTCACATATCTTGAATTTAATGTCCATGATGTTGTTTGCGTGAGAACATTCTCAGCATTAAGGAATTTT -TTTAACGGAATCCTTGGTTTCTTTTTCGAGTCCGAATTTACAATATCATGCATATAGACCATTTCATGAATCTGCGAAAA -TTCAATGTCCATTGTATACCTCACATTTTTACCGTGACTCGATGTTACTGTTCAATAATCACCTTCCATCAATACTAAAA -TTAATACCCCTAATGTGCCGATAACAAATATAGTCATTCTACGTAACGTCTCCATAAGGTGATATTTGACATTATCAGAA -GCTGCGAATTCGGATTTTGCTCTAATCAAATGAGAGAAATGTAAAATGAAGCCACGAAATATTAATAATAGCCTACCACT -GCAACCATTAGTTCCTGATCAGGAGAACAAAAATAAGAAAAATGAAGAGAAATCCGTTAATCCAGTTAAAATCACAATGG -GGTCTGGTTTAAATTATATTGAACAAGAATCTCTTGGAGGAAAATATCTAACACATGATTTGTCAATAAAGATAGCGGAT -ATTTCTGAAGAGATAATTCAGCAAGCAATATTATCTGCTATGAGCATATATAAATTTTCGATAACAGATGATTTAATGAG -TATGGCTGTAAATGAACTCATAAAACTGACCAAAATAGAGAATAATGTAGACCTGAATAAATTCACTACTATATGCACAG -ACGTTCTATCCCCCCGCGTCACCAGACATAATAAAGAAAAAAACAAACGACATTCTACCCTTCTCAAAAATCCCCTTTTT -AATTTTCATTGAAAAAATGGCAATTGATACTATGAATCCAGGTCATACACATTAAGGCATTTATGTAATGTCGTAATTAA -GATAACTAATAAGGTGAATATTAGTAAAACAACTAATGATGTTATTAGTTTGTAGTGAACAGTACTTTTACCAATAATGA -AAAATATACCATAAGCAATGCAAGCTTAAAACTCATAATTTAAAAAAGATAAATATAAAAATATCAATGAGTCAATCAAT -AATAATTTGGCATCACGAGACACATCACAGAGGAATATTATGAGCACAGAAACAATTGAAATATTCAATAATAGTGATGA -ATGGGCAAATCAACTAAAACACGCATTATCGAAAGGAGAAAATCTGGCATTACTACATGGTTTAACTCCTGATATCCTTG -ATAGAATATATGCATATGCATTCGACTACCATGAAAAGGGTAATATAACGGACGCAGAAATTTATTATAAATTCTTGTGC -ATTTATGCGTTCGAAAATCATGAGTATCTAAAAGATTTTGCATCAGTATGTCAGCCCAAAAAGAAATATCAACAAGCATA -TGACCTTTACAAACTAAGTTACAATTACTTCCCGTATGATGACTATTCAGTTATTTATCGTATGGGTCAATGTCAGATTG -GGGCTAAAAATATCGATAACGCAATGCAATGTTTCTATCACATTATTAACAATTGTGAGGATGATAGTGTTAAGAGTAAA -GCGCAGGCATATATTGAACTCTTAAACGATAATTCAGAAGATAATGGCTAAGCATTACAATCATTTGGTTAAATTTGCTG -GTTATAGTGCAGTTAACCACTATAACCAGCACCTCTTATGTTTTCTTAAATCAGCATCTTAAAACAGTTAAGAGCATACT -ATAAATCATTATTTTTCAATGCGTTAGAGAACAATCTACTTTATCAAAATTGAATAAGGCTATTTCAGATTACATCACTG -AATTCCTAAGATAAATTAGTGAACACAACCATAGATATGTCAAATGTAATTTCCTGTAGCGTTAATGACACATAAATATG -AATAGCCATAATTTCTATTGCTTAAGCAGGATGCAAGAAACCAATTTTTTCATAGAGGTTAACTAATGGACTTAGAAAAT -AAATTCTCATATCATTTTCTTGAGGGATTAACGCTCACGGAAGATGGAATTCTTACTCAAGGAAATGAGCAAGTTTATAT -TCCACAGAAAGAGTTAGGTGTATTAATAGTATTACTTGAATCCGCTGGTCATGTTGTACTGAAAGATATGATCATCGAAT -CAGTATGGAAAAATATTATTGTTAGTGACGAGTCCCTGACAAGATGTATCTATTCTTTGCGCTGCATTTTTGAAAAAATT -GGCTATGATCGTTGCATAGAAACAATCTACCGGAAAGGTTATCGTTTCAGCGGGCAGGTTTTCAAAACTAAAATTAATGA -AGATAATACTTCAGACTATTCCATAGCTATATTCCCTTTCACTACTTCATTGAATACACTGGATCCATTAATACTTAATC -AGGAATTAGTGCAAATCATTTCAAATAAAAAAATCGATGGTCTCTATACCTATCCGATGGCTGCGACAAATTTTTGTAAT -GATCACATATCTCAAAATTCATTCTTGAGCAGATTCAAGCCAGATTATTTCGTTACAGGAAGAATAAACCAGAATAATGC -AGTGAACACTTTATACATTGAGTTGATCGACGCTAAAAACCTTTTCCTCATCGCCAGTAATCATCTCCCTGTTGATGAAC -TACATAATACATCACAATTTATTATAGATAATATCCTTCAAACGGTACATAAACCAGAACGATCTGTAAGATTAGCTAAG -CAGGACCAAGGATATAAGAATCATTATTTATCAGATGAAATGTTAGCCGGAAAGAAAGAACTTTACGACTTCACCCCTGA -AAGCATTTACAGGGCCATGACTATATTTGATAGATTACAAAATAAAAGTGATATACAGACGCTAAAAACAGAATGTTATT -GCCTTCTAGCGGAATGCCATATGTCTTTGGCACTTCATGGAAAAAGTGAACTTGAACTTGCTGCTCAAAAAGCATTAGAG -CTTTTAGATTATGTATCAGACATAACCACTGTCGATGGAAAAATTTTAGCTATTATGGGACTGATAACTGGTCTGTCTGG -ACAAGCAAAAGTATCTCATATCTTATTTGAACAGGCTAAGATACACTCAACTGATATAGCCTCTCTCTACTACTATAGGG -CACTAGTCCACTTTCATAATGAAAAAATTGAAGAGGCAAGGATTTGTATAGACAAATCACTACAACTCGAACCCAGAAGA -CGAAAAGCAGTTGTGATAAAAGAATGTGTAGATATGTATGTGCCTAACCCGCTCAAAAACAACATTAAACTCTACTATAA -AGAAACTGAGAGTGAAAGCCATCGAGTTATAATTGACAACATTTTGAAATTAAAGCAGCTGACGAGAATTTGTATGCGAT -AAATTTTTATTGACGCAATTTTATTATTTAGATGTATGCAACTTGTTATTTAAACAACAGAGATAAAAATATCTAAGATA -TTCACCTTATTGCAAGATATTTAAAATGCTCTAGAGTTAAAAGTATGATGTAAAGACCATTGGCCTGGACAATTAAAAAA -GGGAGCTTTATGACTAATCCAATCGGTATCAATAATTTATCTCAAAGTTCAAATATAGCGAATGCAACGGGTGATGAAGT -CGTATCATTAGATAAACACATCAACACCAGTGCTACTGATACAGATCAAATACAAGCATTTATAGTTTCAACATGGATGG -CGCCTTTTCAAAATGATATGTATTCAGAAGATAATCCTATCTCACCTTACTATAAAATTGAGTGGTAGACGATTGACCAA -ATAAATCATAACGAGATACTTTTATAATAGTATCTCGTTCCTTTCATTCAATCCTCACACATGAAAAAATATGCGCTCAC -CAAAAGTTAAATTCTTAACCATCTTCACGTTTTGTATATTTATTACAAAAATGTCTTTCGCCAGCAACTCTTGCTCTAAT -GAAGCAGGAACAATGTTCAGAATCGAACCAAATTTAATTAAAGCTATCGCTCTTGTTGAAAGCAATCTAAAAAAGGATAG -CATAGGCAAGAACAGAGATAAGAATAACAATATAAAGAGTTTAGATTATTGGTTAATGCAGATAAACCAGATGCATATTC -CCCTGTTAAAAAAACGTGGAATAATAAAAGATGAACGAGATTTGTTAGATAACCCTTGTCTGAACATTAAAATAGGAACC -GAGATTTTATATAACCATTTTTCACGTTGTGGAGTAACGTGGCAATGCCTGGGGACTTATAATGCGGGTTTTGCAATGGA -TAACCAAAAAAAGAGACAGCAATATGCCCCAAAATATATATTGTATATACCAGGCTTAATGAACTAGACAATCGTAAGGC -TTCAGCAAAATGAGCCTAAAGCCTCTTTTTTTTATATAGTGCAAACACCCATACGTAAAGCTGTTTTGATCAACTCGATA -CCACTGTGAACATCTAATTTCTTCATGATATTGAGTCTATGAGTTTCGACTGTTTTCCTGCTTAACTGCAAGAAATTAGC -GATTTCTTTGTTTGTTTTACCATCAGCTATGAGTTGTAATATTTCTGACTCACGATTTGTAAGTTGATTATCAGAGGAAT -ACCTGGAAGATATTTTTTCACAATCCATATGTACACTATCAAAATAAGTGTAACCATTACTAATCGAATCAATAGCACGA -TTTAGTTTCGCCGGGTGACTGGTTTTCCATACGCATCCTTTCGCACCTGCTTCAAGCAATTTTATTGAATCAATATACGG -CATCTTTGCTACAAATGTAATAATATGAGCATCTATCTTATGCGATTTAACCCATTTTACGAGTTCGGCCCCCATCATTC -CACCTGCAAATTCTCCTAAAATAAATATTTAGGCTGTAGATTTGTTACACTCCGCTATAGCTTTCTTCAGATCTTTATAG -CCCCCAACAACCTCATATAAATCAGGATAATGTCCGAGAAATCCAATTATCCCATCAATCATAAACGGCTGCTGATCTGA -AACTACAATTTTAATTTTTCCCATATATTCATCCTGAGTGTAAATGCTTTAACGCATTCATTTATAATCATCCCTTCCAT -TATTATTATAAGCAAAATCCAAAGAATACATTGATGAAATAATAATGAAATATAATTAAAAATAAAATTTTTGCGTAAAA -AAATACCACAGGCATTAAAAAATCATGAGATGATTAAAATATTACAATTAGATTATATTCAAATCATTAAACTTGAGCCA -GGGAGCTATAAGTCCTCAGGGCTTGCCAAAACAGAATTATTCATATCCAAAGAATGTGTTTCAAACATTTTTTCAACTAA -ATAATGTCTGGCTTGTTCGCAGATTTCGTTAACCTTGTCAGGGGAGAAACAATGATTATTAATTAAATATTGCTCACAAT -TATCCACAAATTCCTGCGGACTAAATTCAGCAATAAATTGATCGGTAAAAAACACAAAACGCTTATCATCATGAAATGTA -ATATGGACATTCCATATTGATTTGTCGACAAAATATGACTCTACTTCAAGAGACTTATCTTTGAAACTGGTAGGTATATG -GAGATTTACAGGACCTGATATTGATGGTAATTTTGTTACCCAACTTTCAAAAATTTTGATAAAAACATCAACTTCTTCTG -AAGGTTTTAACAATATACTCTTCAGATCGTTTATCATGTTTATTCTTTTTTTTCAAGTTCTGAGCATAGCAAGCTTATCA -AGGGTATAAAATTATCCATCTCATCAATAATGCCTTTTGTATAGCCATCATAATAACCTTGAATAAATTTTTCTTCTCTC -TTTTCCTCAATACTCTGAATTTTTGCGGTGGTTTCAAGAAGGATTTTTTCTTTAAGAGAAACTATTTCTTTCAATCCATC -AGAAATTTTTCTTTTAATCACAACACCATTTGCAGGAGATTTTATCAAGCTCATCTCTATTTTTTTTCGCATAAAATGTA -ATTCTCTCTAAAAGTGTTGATGCAAGTGGTAACGGCGATTGTATGTGGTCAACAAAATCAGGAAATAATAAATTAAATCG -TTGCTGCATTGCCAATGGTTGTTGCCTTATATAGGGTAACAACGTTGAAAAACCACATGTGATGATATTGTGATAGTTAG -CGATGCCGGGTTTGTATCGTGCCTTTTCATTTATTTCCAGCGGTATAGCTGATAAATAATCCCTTAGTACATCAGGAACC -TTATAAAAAAACCCGCGTTCTGCAAACCTTTCTCGATAAAAGTGACAACCACTGAGTAAACAGATCAATGGAAGTAAATT -CCAATTGTTTATTGGATTTGCCCCTATATTTCCAGACATCTGTTATCACTTAACCCATTACAAGCCCGCTGCCGCAGATA -TTCCCGTGGCGAGCGATAACCCAGCGCACTATGCGGATGCCATTCGTTATAATGCTCGAACGCCTCTGCAAGGTTCTTTG -CTGCCGTTAACCCGTCTGGTTTGGGCATGATACTGATGTAGTCACGCTTTATCGTTTTCACGAAGCTCTCTGCTATTCCG -TTACTCTCCGGACTCCGCACCGCCGTGTTCTTCGGTTCAAGTCCCAACATCCGGGCGAACTGGCGTGTTTCATTAGCCCG -GTAGCATGAACCATTATCCGTCAGCCACTCCACTGGAGACGACGGAAGATCGTTGCCGAAGCGGCGTTCCACCGCTCCCA -GCATGACGTCCTGTACTGTTTCACTGTTGAAGCCGCCGGTAGTGACCGCCCAGTGCAGTGCCTCACGATCACAGCAGTCC -AGCGCGAACGTGACACGCAGTCTCTCTCCGTTATCACAGCAGAACTCGAACCCGTCAGAGCACCATCGCTGATTGCTTTC -TTTCACGGCCACTCTGCCTGTATGTGCCCGTTTCGATGGCGGTACAGCAGGTTTTCGCTCAAGCAACAGCGCATTCTGGC -GCATGATCCGGTAAACACGTTTGGCATTGATCGCAGGCATACCATCAAGTTCTGCCTGTCTGCGAAGCAGCGCCCATACC -CGACGATAACCATACGTTGGCAGCTCTCCGATAACATGGTGTATACGGAGAAGCACATCCGTATCATCAGTGTGACGACT -GCGGCGGCCATCCATCCAGTCATCGGTTCGTCTGAGAATGACGTGCAACTGCGCACGCGACACCCGGAGACAACGGCTGA -CTAAGCTTACTCCCCATCCCCGGGCAATAAGGGCGCGTGCGCTATCCACTTTTTTGCCCGTCCATATTCAACGGCTTCTT -TGAGGAGTTCATTTTCCATCGTTTTCTTGCCGAGCAGGCGCTGGAGTTCTTTAATCTGCTTCATGGCGGCAGCAAGTTCA -GAGGCAGGAACAACCTGTTCTCCGGCGGCGACAGCAGTAAGACTTCCTTCCTGGTATTGCTTACGCCAGAGAAATAACTG -GCTGGCTGCTACACCATGTTGCCGGGCAACGAGGGAGACCGTCATCCCCGGTTCAAAGCTCTGCTGAACAATTGCGATCT -TTTCCTGTGTGGTACGCCGTCTGCGTTTCTCCGGCCCTAAGACATCAATCATCTGTTCTCCAATGACTAGTCTAAAAACT -AGTATTAAGACTATCACTTATTTAAGTGATATTGGTTGTCTGGAGATTCAGGGGGCCAGTCTAAACTTGCTCTTTTCTTC -TGGTGTTTATCTTTGAAAGATTTGTAGGATAAATAACATTAAGTAAAGCCGCATCGGCTTCTCTGTAATGTTTATCTTTT -TCCAGATAACCTGGGGATTCTCCCCCTAAATCAAGCTGTAACGTTATTCTTTCATAACCTTTATCTATGAGGTGGTTCAA -CCTCGTTGTTGAAAGAGTTTCATCCAGTTCATTGACTTTAGCTTCGCGTAGTAAATCAGAGACAAAAACAGAGTCTTTCT -TCGAGAGTAGGTTTGACAAACGTTCCAGTCCAGAGGTCACCAGTGCAACGGAAGATGTGTTTAATCGGGCATCTTCTTCC -CATGCTCAGGAATCTTCCATAACATAGAAATTGGCTTTATCCAGATAAGCAATCAGCAGCGCAACCGACTTTAATCGGTC -ACCTTTTTGCCAATCTTCAGCGTTAATAGTACCAGTGTTGATTGCTTGTATAAGGAGATCAAGGTAAAGACCTAAAGCAT -CATTTTGTTTATGGTTCCACAGCTGCGGCTTGCCTTCTTCCTGCACATCTGCCATCACGGGGGAGTTGCTGTCAAATCGG -ATATGCACAGCATTCATTTGCACGGGAATTCCATCCAGTCGTTTTGGGTTGCTAATGACGTCCTGCATCCGCTTAATCTG -GTCGGGCGTAGACATATAATCCCACAGGGTGAGCAGAACCTTTTTTGCGGCTACACTATTTCCCTGATCTGATACTAATG -CCATATAGCCCCATAAACTATCCCTCAACCAGACAGCATCATAGTGGGTTTCTGCCGCTGTTTTGTCATCTTCGAAAGTA -GAAGCAAGAATAAACGTTCCCCAGGGTTTCTCCGTCAACGTTAACTTTCGTGTGTTTTCTGTTAATGTTAGCAATCCTTG -AATTTCGTCTTTGGTATAGTGGCTCTTTATTTCATTTTGTAATTTGGCTGAGTGAATCAGAAGACGATAATTAGGATACT -TATCTGGATTTAACGATAAATAACTTTTATCTGTTGCTGCCCCCGTGGAATTAAGAATGTTAAATACAGATTCACTCGTC -ACTTCTGCCCCTGTCGCCTGGCATGTGCCGCACGAAAATATACCAGCGAGCAGAAGAGTTAATGCAGATTTCCCTTTCAT -AAAATATTCCATCAATCGTTTGTTAAAAGCGTAGATAACCACTTATTTAACAACTTGAAAATAAGGTGTTTTACCTGGGT -TGTTACAAAAGGATTGCATTGCGTAAACGCTTTTTATTTACAACAAAATGGGGAAGTATTACGGCGAAGATAAATTGGAG -CGGGCGAAGGGAATCGAACCCTCGTATAGAGCTTGGGAAGCTCTCGTTCTACCATTGAACTACGCCCGCTTCGAGATGCG -TAAGGCATTATAAACCTTACGCTCTCCTTAGCAAGTGCCACGCTGCTGACTGCTGATTAATTCGCCATCAGCATTTTGGC -TTGCTGCCCTGAGGCGGCAAGTAACGTAGCGGATCAATTGCCGTTGCACGGTAACGAATCTGGAAATGCAGGCGAACAGA -TGCCGCATCCGTGCTCCCCATAGTGGCGATTTTTTGCCCAGCCTTCACGCTTTGCCCATTATTTACCAGCATCGTGTCAT -TATGGGCGTAAGCCGTAATGTAATCTTCACTGTGTTTAATCATGATGAGATTACCGTAGCCACGCAGCTGGTTGCCCACA -TACACCACCTTTCCTGCACCCGCGGCGTAAATAGGTGTACCCCGTGGAGCTGAGATATCAATCCCTTTATTGCCGCCATC -TGCTGTCGAATACGGCATGATAACTTTCCCTGTCGTTGGCCATAACCAACAACGTTGCCCTACTGGCGGCCAGGATGATT -TCGGTACCGCTGATGACGGTGTAACCGATGCGGTTTTGGTCGTTGATTTGGCGGTTGATTTACGTGTAATACTGCTACTT -TTCGCCCCACCCAGTTTTAGTTTCTGACCAACTTCAATGGTGTAAGGGGGGGAAATGCCGTTCAGTCGCGCCAGTTCTTT -TACGCTGGTTCCCGTGGTGCGCGAAATACGATATAGCGTATCCCCCCGTTTCACGGTGTAAACGGAGCCGGAATACGTTC -CTGTATCGGATGATTTGCTACCCGAACAGCCCGCCAAAAGCAGTCCAACCGATAACAACATCACGATACCCAGAGATTTT -TTATTCAGGCGTCCCGCACTCAAAATCTTTCCTCGCTTAAAAAACAAGACGCCTTATCATAGCAGCCAGCCTCTTGATAC -CCAATCTCTTGCTTCTGGAAAAACGTGGTAATAGAGAAAGAGGTTAATTTCATTTGGCAAAGGGAAGTATCATCAGCAAA -ATATTCGCTGTAGAGGTATCGAACTTCCTGACTTTTTACCCTATTTCCCATCCTGATGCGTAATAATCCCAATTTATCAC -ATTGATTTTATCGCCACTCATATTGATACGTATCACTGCCCCTATTCAGAGTCCTGTTTCGTATCATATCTGTGTTTTTT -TAACGTCATCACACTTCCTACCTCCCCTAACGCTTATCGTCGTTTCTGGCGTAAATCTTGCCTGCTTAGACTAAATCTTT -GCCATAAGAACCAAATGTTCAAATCGAGGGGATTTCTATGGAAGCGCGGGAAGCAACCGCTACGGGTGAATCATGCATGC -GCGTCGATGCCATTGCTAAGGTCACCGGGCGGGCACGATATACTGACGATTATGTTATGGCGGGCATGTGTTATGCGAAA -TATGTACGTAGCCCTATCGCACATGGTTATGCCGTAAGTATTAATGATGAACAAGCCAGAAGTTTGCCGGGCGTACTGGC -GATTTTTACCTGGGAAGATGTGCCTGATATTCCATTCGCTACAGCTGGGCATGCCTGGACACTTGACGAAAACAAGCGCG -ATACCGCCGATCGCGCACTGCTAACTCGCCATGTTCGTCATCATGGTGACGCCGTTGCCATCGTCGTGGCCCGCGATGAA -CTCACGGCAGAAAAAGCGGCGCAATTGGTCAGCATTGAGTGGCAAGAATTACCCGTTATCACCACGCCAGAAGCGGCGCT -GGCAGAAGACGCTGCACCAATCCATAACGGTGGCAATTTACTGAAACAAAGCACGATGTCGACGGGTAATGTCCAACAAA -CAATCGATGCCGCCGACTACCAGGTACAGGGGCACTATCAGACCCCCGTTATTCAACATTGTCACATGGAAAGCGTAACA -TCGCTGGCGTGGATGGAGGATGACTCGCGAATTACCATCGTTTCCAGCACCCAGATCCCGCACATTGTTCGCCGCGTGGT -TGGTCAGGCGCTGGATATTCCCTGGTCATGCGTACGAGTCATCAAACCATTTGTCGGTGGCGGTTTTGGTAATAAACAGG -ATGTACTGGAAGAGCCAATGGCGGCATTCCTGACCAGCAAGCTTGGCGGCATTCCGGTGAAAGTTTCCCTTAGCCGTGAA -GAGTGTTTCCTCGCAACCCGTACCCGCCACGCTTTTACCATTGACGGGCAAATGGGCGTGAACCGCGACGGAACATTGAA -AGGTTATAGTCTGGATGTTCTGTCTAACACCGGCGCTTATGCATCTCACGGGCACTCCATCGCTTCTGCGGGGGGGAATA -AAGTCGCTTACCTTTATCCTCGTTGTGCCTACGCTTACAGTTCAAAGACCTGCTATACCAACCTCCCCTCGGCTGGTGCG -ATGCGTGGTTATGGCGCGCCACAAGTCGTATTTGCCGTTGAGTCTATGCTTGATGACGCCGCGACAGCGTTAGGTATTGA -TCCTGTTGAAATTCGTTTACGCAACGCCGCCCGCGAAGGAGATGCTAATCCGCTCACGGGCAAACGTATTTACAGCGCAG -GGTTGCCGGAGTGTCTTGAAAAAGGCCGGAAAATCTTTGAATGGGAAAAACGCCGTGCAGAATGCCAGAACCAGCAAGGC -AATTTGCGCCGCGGCGTTGGCGTCGCCTGTTTTAGCTACACCTCTAACACCTGGCCTGTCGGCGTAGAAATAGCAGGCGC -GCGCCTTCTGATGAATCAGGATGGAACCATCAACGTGCAAAGCGGCGCGACGGAAATCGGTCAGGGTGCCGACACCGTCT -TCTCGCAAATGGTGGCAGAAACCGTGGGGGTTCCGGTCAGCGACGTTCGCGTTATTTCAACTCAAGATACCGACGTTACG -CCGTTCGATCCCGGCGCATTTGCCTCACGCCAGAGCTATGTTGCCGCGCCTGCGCTGCGCAGTGCGGCACTATTATTAAA -AGAGAAAATCATCGCTCACGCCGCAGTCATGCTACATCAGTCAGCGATGAATCTGACCCTGATAAAAGGCCATATCGTGC -TGGTTGAACGACCGGAAGAGCCGTTAATGTCGTTAAAAGATTTGGCGATGGACGCTTTCTACCACCCTGAACGCGGCGGG -CAGCTCTCTGCTGAAAGCTCCATCAAAACCACCACTAACCCACCGGCGTTTGGCTGTACCTTTGTTGATCTGACGGTCGA -TATTGCGCTGTGCAAAGTCACCATCAACCGCATCCTCAACGTTCATGATTCAGGGCATATTCTTAATCCACTGCTGGCAG -AAGGTCAGGTACACGGCGGAATGGGAATGGGCATTGGCTGGGCGCTATTTGAAGAGATGATCATCGATGCTAAAAGCGGC -GTGGTCCGTAACCCCAATCTGCTGGATTACAAAATGCCGACCATGCCGGATCTGCCACAACTGGAAAGCGCGTTCGTCGA -AATCAATGAGCCGCAATCCGCATACGGACATAAGTCACTGGGTGAGCCACCAATAATTCCTGTTGCCGCTGCTATTCGTA -ACGCGGTGAAGATGGCTACCGGTGTTGCAATCAATACACTGCCGCTGACGCCAAAACGGTTATATGAAGAGTTCCATCTG -GCAGGATTGATTTGAGGATAACATCATGTTTGATTTTGCTTCTTACCATCGCGCAGCAACCCTTGCCGATGCCATCAACC -TGCTGGCTGACAACCCGCAGGCCAAACTGCTCGCCGGTGGCACTGACGTACTGATTCAGCTCCACCATCACAATGACCGT -TATCGCCATATTGTTGATATTCATAATCTGGCGGAGCTGCGGGGAATTACGCTGGCGGAAGATGGCTCGCTACGTATCGG -CTCTGCAACGACATTTACCCAGCTAATAGAAGATCCTATAACTCAACGTCATCTCCCGGCGTTATGTGCTGCGGCCACGT -CCATTGCTGGACCGCAGATCCGTAACGTCGCTACCTACGGTGGAAATATTTGCAACGGTGCCACCAGCGCAGATTCTGCC -ACGCCAACGCTAATTTATGACGCGAAACTGGAGATCCACTCCCCGCGCGGTGTTCGTTTCGTCCCGATTAATGGCTTTCA -CACCGGGCCGGGCAAAGTGTCTCTTGAGCATGACGAAATCCTCGTCGCCTTTCATTTTCCGCCACAGCCGAAAGAACACG -CGGGCAGCGCGCATTTTAAATATGCCATGCGCGACGCAATGGATATTTCAACGATTGGCTGCGCCGCACATTGCCGACTG -GATAACGGCAATTTCAGCGAATTACGCCTGGCATTTGGTGTTGCCGCGCCAACGCCGATTCGCTGCCAACATGCCGAACA -GACTGCACAAAATGCGCCATTAAACCTGCAAACGCTGGAAGCTATCAGCGAATCTGTCCTGCAAGATGTCGCCCCGCGTT -CTTCATGGCGGGCCAGTAAAGAGTTTCGTCTGCATCTCATCCAGACGATGACCAAAAAAGTGATTAGCGAAGCCGTCGCC -GCGGCGGGGGGAAAATTGCAATGAATCACAGCGAAACAATTACCATCGAATGCACCATTAACGGGATGCCTTTTCAGCTT -CACGCCGCACCAGGCACGCCGCTCTCGGAATTACTCCGCGAACAAGGACTGCTAAGTGTCAAACAAGGGTGCTGCGTGGG -TGAATGTGGTGCCTGTACGGTGTTGGTCGACGGCACAGCAATAGACAGTTGCTTATACCTTGCCGCCTGGGCTGAAGGAA -AAGAGATCCGCACGCTGGAAGGTGAAGCGAAAGGCGGAAAACTTTCTCATGTTCAGCAGGCTTATGCGAAATCCGGCGCA -GTGCAGTGCGGGTTTTGTACGCCTGGCCTGATTATGGCTACCACGGCAATGCTGGCGAAACCACGCGAGAAGCCATTAAC -CATTACGGAAATTCGTCGCGGACTGGCGGGAAATCTTTGTCGCTGCACGGGGTATCAGATGATTGTAAATACAGTTCTGG -ATTGCGAGAAAACGAAGTAAAAGGATATCCGGCCTGAATTCAGGCCGGATTCACTGAGGTTATGTGTTTAACAACTCATA -TTTCTTAATCTTGCGATAGAGCGTAGCAATGCCGATGCCCAGTTCATCAGCAACTTGCTTCTTGCTGTTATGACGTGAAA -GCGCCTCGCGGATCATTTGCTTTTCCATCTCCTCCAGCGCCGTGCCGCCCGCATCATCGAGTGACAGGTGCGCCTCACTG -ACCTCTGTTACATCACTTTGCTCCGTTGTGCCATTATTCAGCAGATTTGGCGGCAATAGCGTGCTGTCGATAACTTCACC -TGAAGGAACCACGTTAACCAGATATTCCATCAAATTGCTTAACTCGCGCAGGTTTCCGGGCCAACGATGCTTACGCAATA -TTTCGACGACATCGGGAGCAATGCCAGGATAAACCGATCCCAGACGACGGGTATGCAGATGTAAAAAGTAATGCACCAAT -AGTTCAATATCTTCCTGACGTTCACGCAGCGGTGGCAGAGTTATCGGGATAACATTAAGTCGGTAGAAGAGATCTTCGCG -GAATTTACCTTCGGCAATGAACTGGGCCAAATTCTGATTAGTTGCAGAAATGATGCGAATGTCGACTTGTATTGGGCTAC -TGGCACCAATCGGCAGAATTTCACGTGCCTCAATAGCGCGCAGTAATTTAGCCTGCAACATTAATGGCATATCACCTATT -TCATCGAGAAACAGCGTGCCCGTATTCGCCGCCTGAATCAACCCTGTTTTACCGTTGGCAGAAGCGCCAGTAAATGCACC -TTTAACATAACCGAACAGTTCGCTCTCCAGAAGCTGCTCCGGAATCGCGGCACAGTTGATAGCAATAAAGGGTTTATTCC -GTCTTCCGCTCAACTTATGGATTGCACGGGCGACGACTTCTTTACCCGTGCCGCTTTCACCAACCACCATAACGCTGGAT -GGGCTGGGTGCAATACGGCTAATGAGTCGTTTTAATTGCCGCATAACACGGCACTCGCCAACCAATTGTTCAATATGCGG -TTCATCAGGTGCATTTGCTACAGAAAAACTGGTATGCGATTGGTGAAACGCCATTAAAAATAATTGTCGGCCCTGAATGT -TATGCAATTGACCAATGATTAATTCACTTTTATCGTCCCATGAAACAATATGCTGCATATGTCCATGGGTAAAATTACTC -TCAAATGTTAATGGTCTGAAACGGATAGGTTTCCCAATAATATTATTTTGCACAACACCAAGTGTTTTTAAGGCAGTCTG -ATTAACAAACTGAACCCGATTTTCATCATCTACAACTAATACGCCCTGATCCATATTATCGATCATGGTCGCAAATATTT -TACTGATGTTATCTCCTGGCCCCTGATCCTCCAGAAGTTTCGAAACAAAAATGGTGGATATATGGCGAACATAATCAGAA -AATTCGCGTAAATTATCACTGATATGCTCTTGTTGCTCGTGGGTAACGGCAATCAAACTTATCACCCCAACACAACGATC -CTGTAAAATGACAGGCGTACCCAGAAATGCTTTTTCGCGGCAATTTTCTTTACTATCGCAACCTTCGCAAAGGGGATCGA -AGCGAGACTGTGTCACAACTTTTTCAGTTTTCGTTTCCAGGACGTGGCGGAGCAGGCGTGAGTTGCCGCTCAACTGGCGA -CCAAGAAACTTCCCATACGCGCCCGTTCCGGCAACGCGACACAAGTTTTCATCAACGATCTCAACCTCAAGCTGCAAAAC -GCTGGCAAGCATTCTGGCAAAACGCTGAATTGTCGGTTGAATTTGCATCAATACTGACTGCGTAGTAGCAAGCTCCATAG -CTTTACCTTCCAGACTTACTTAAAAGTCGATCATTGAAGACGTTGATGGTTCACAGATCATGATGATATTAACTCAGGCG -AAATTGGCTTTGATAAAAACATAAGATTTTTATCATTTTCTAATGAAATTATGGAAGAGATATCACATTTCTATATCAAT -ATGAGAATTACGGCGGTGAGTTTATCAAACTGAAGAGAGATAGCCTGCCCCTTTATCTTATTTCTGATACTTAGCAGCAA -ATAAATAACGCGATAAAAAAAGCCAAACGTTTTCGTATTTTACAAACAACCAGAAGCTGGCATCAATTTGTGATCAACCC -CACACATTATCCGTCAAATTAGTCTTTTGCAGCCGCGCGGATAATTCTGGCACACTTATTGTTAGTCCCAGGTATAGCTG -TGAAAACACCAATCACTTTGGCAAGTCACAGTGAAATAAACCACTTTGCCTGTCATTCCACTACCGGGACTTTATGATGA -AAACTGTTAATGAGCTGATTAAGGATATCAATTCGCTGACCTCTCACCTTCACGAGAAAGATTTTTTGTTAACGTGGGAA -CAGACGCCAGATGAACTGAAACAAGTACTGGACGTTGCCGCAGCATTAAAAGCACTGCGTGCTGAAAACATCTCAACCAA -AGTCTTTAATAGTGGATTAGGTATTTCCGTATTCCGCGACAACTCCACCCGTACCCGCTTCTCTTATGCTTCCGCGCTTA -ACCTGCTCGGCCTTGCACAACAAGATCTCGACGAAGGCAAATCACAAATCGCTCACGGCGAAACCGTGCGTGAAACCGCC -AATATGATCTCCTTCTGCGCCGACGCTATTGGTATTCGCGACGATATGTATCTGGGCGCAGGCAACGCCTATATGCGTGA -AGTTGGCGCTGCACTTGATGACGGTTACAAGCAGGGTGTACTGCCACAGCGTCCGGCTTTAGTGAACCTGCAATGCGATA -TTGACCACCCGACTCAGTCAATGGCTGACCTCGCGTGGTTACGTGAACACTTTGGTTCACTGGAAAACCTGAAAGGTAAA -AAAATCGCCATGACCTGGGCCTACTCTCCAAGCTATGGCAAACCGCTCTCTGTACCACAAGGCATCATCGGTCTGATGAC -TCGCTTCGGTATGGATGTCACCCTGGCCCATCCGGAAGGCTACGACCTGATCCCGGATGTGGTTGAAGTGGCGAAAAACA -ATGCTAAAGCCTCCGGTGGTAGCTTCCGTCAGGTCACCAGCATGGAAGAAGCCTTCAAAGACGCAGACATCGTTTATCCG -AAGTCATGGGCACCTTACAAAGTGATGGAAGAGCGTACTGAATTGCTGCGTGCGAACGATCACGAAGGCTTAAAAGCACT -GGAAAAACAGTGTCTGGCACAGAACGCGCAACACAAAGACTGGCATTGTACTGAAGAGATGATGGAACTGACCCGTGATG -GCGAAGCCCTGTACATGCACTGCCTGCCAGCTGATATCAGCGGCGTATCCTGTAAAGAAGGTGAAGTGACTGAAGGCGTA -TTCGAAAAATACCGTATCGCTACCTACAAAGAAGCCAGCTGGAAGCCTTATATCATCGCCGCGATGATCCTGTCCCGTAA -ATACGCCAAACCAGGTGCACTGCTCGAGCAACTGCTGAAAGAAGCGCAAGAACGCGTGAAATAACCCCTCGGGCCGATCA -GCTGGTCGGCCCTCTATTTCCAGAGGCCAAAAGGATAGGATATGTCCGTTTTCTCATTGAAGATTGATATCGCCGATAAC -AAATTTTTCAACGGCGAAACATCACCGCTCTTTTCGCAAAGCCAGGCCAAACTGGCGCGCCAGTTCCACCAGAAAATAGC -TGGTTATCGCCCAACACCGCTTTGTGCGCTGGACGATCTCGCAAACCTTTTTGGTGTGAAGAAAATTCTCGTCAAAGACG -AATCAAAACGATTCGGTCTGAACGCCTTCAAAATGCTTGGCGGTGCGTACGCCATCGCTCAATTATTGTGTGAAAAATAT -CATCTTGATATCGAAACGCTGTCATTTGAGCACCTGAAAAATGCCATCGGCGAAAAAATGACTTTCGCGACCACCACCGA -CGGCAACCACGGGCGCGGTGTGGCGTGGGCAGCACAGCAACTCGGACAGAATGCGGTGATTTACATGCCGAAAGGTTCTG -CTCAGGAACGCGTTGACGCCATTCTGAACCTCGGTGCCGAGTGCATCGTCACGGATATGAACTATGACGATACCGTTCGC -CTGACCATGCAACACGCGCAGCAGCACGGCTGGGAAGTGGTACAGGACACGGCATGGGAAGGTTACACCAAAATCCCAAC -CTGGATCATGCAAGGCTACGCAACCCTGGCAGATGAAGCCGTCGAGCAAATGCGTGAAATGGGCGTAACCCCGACGCACG -TTCTGCTGCAAGCCGGTGTCGGAGCAATGGCCGGTGGTGTGCTGGGTTATCTGGTCGACGTCTATAGCCCGCAAAATCTG -CACAGCATTATTGTTGAACCTGACAAAGCTGACTGTATTTATCGCTCCGGCGTCAAAGGCGACATCGTCAACGTTGGCGG -TGATATGGCCACCATCATGGCAGGCCTGGCCTGTGGCGAACCTAACCCGCTGGGCTGGGAAATCCTACGTAACTGCGCCA -CCCAATTCATCTCCTGCCAGGACAGCGTTGCCGCATTAGGTATGCGCGTGCTGGGTAATCCGTACGGCAACGACCCGCGC -ATCATCTCCGGTGAATCCGGCGCTGTCGGTTTGGGCGTTCTCGCAGCGGTTCATTATCACCCGCAACGTCAAAGCCTGAT -GGAAAAACTGGCGCTGAACAAAGATGCCGTGGTGCTGGTTATCAGCACTGAAGGCGACACCGACGTGAAGCACTACCGCG -AAGTTGTCTGGGAAGGCAAACACGCTGTAGCACCTTAATCACCCTATTGGAACTGCTCCCTGCAAAACGGGGAGTAAAAA -ATCTGGAGAAAAATAATGGCTAAGAATATTCCATTCAAACTGATTCTTGAAAAAGCAAAAGATTACCAGGCGGATATGAC -TCGCTTCCTGCGCGACATGGTTGCTATTCCCAGTGAAAGCTGCGACGAGAAACGCGTAGTACATCGTATTAAAGAAGAGA -TGGAAAAAGTCGGCTTCGATAAAGTTGAAATCGACCCGATGGGCAACGTTCTCGGTTATATCGGCCACGGCCCGCGTCTG -GTGGCAATGGACGCTCATATCGATACCGTCGGCATTGGCAACATCAAAAACTGGGACTTCGATCCGTACGAAGGCATGGA -AACTGATGAACTGATTGGTGGTCGCGGTACTTCCGACCAGGAAGGTGGCATGGCCTCTATGGTTTATGCCGGTAAAATCA -TTAAAGACCTCGGTCTGGAAGATGAATATACCCTGCTGGTTACCGGTACGGTGCAGGAAGAAGACTGCGACGGTCTGTGC -TGGCAGTACATTATTGAACAATCCGGCATTCGCCCGGAATTTGTGGTCAGTACCGAACCAACCGACTGCCAGGTATACCG -TGGTCAGCGCGGTCGTATGGAAATTCGTATTGATGTTCAGGGTGTTAGCTGCCACGGTTCTGCACCAGAACGCGGTGATA -ACGCCATTTTCAAAATGGGTCCGATTCTTGGCGAATTACAAGAACTCTCCCAACGTCTGGGTTATGACGAATTCCTCGGC -AAAGGCACCCTCACCGTTTCTGAAATCTTCTTCACATCCCCAAGCCGTTGCGCTGTAGCAGACAGCTGCGCAGTTTCAAT -CGACCGTCGTCTGACCTGGGGCGAAACCTGGGAAGGCGCGCTGGACGAAATCCGCGCCCTGCCTGCAGTACAGAAAGCTA -ACGCGGTTGTTTCTATGTACAACTACGACCGTCCGTCCTGGACTGGCCTGGTTTACCCAACCGAATGCTACTTCCCGACC -TGGAAAGTGGAAGAAGATCACTTCACCGTTAAAGCACTGGTGAATGCCTACGAAGGGCTGTTTGGCAAAGCGCCGGTTGT -TGATAAGTGGACCTTCTCAACTAACGGCGTATCTATCATGGGCCGTCACGGCATTCCGGTGATCGGCTTTGGCCCGGGTA -AAGAACCTGAAGCGCATGCACCTAACGAAAAAACCTGGAAATCTCACCTGGTGACCTGTGCCGCGATGTACGCTGCAATC -CCGTTAAGCTGGCTGGCAACAGAGTAATTACTCTTCACTTATTCCCCTCCGGTTCGCCGGAGGGTTTTTGGAGTTTGCTA -TGCGCGTATTGATCAAAAACGGCACTGTCGTTAACGCAGATGGACAAGCCAAACAGGATTTGCTGATTGAAAGCGGGATT -GTTCGCCAGTTGGGCAACAATATTTCGCCGCAGCTCCCGTATGAAGAAATTGATGCCACTGGCTGTTACGTTTTCCCTGG -CGGCGTGGATGTCCATACGCATTTCAATATTGATGTCGGCATCGCGCGCAGTTGTGATGATTTTTTTACCGGTACCCGCG -CAGCTGCGTGTGGCGGTACAACAACCATTATTGACCATATGGGATTTGGCCCAAACGGCTGTCGGTTACGCCATCAACTG -GAGGTTTATCGTGGTTATGCCGCCCATAAAGCGGTCATCGATTACAGCTTTCACGGTGTGATCCAGCACATTAATCACGC -AATCCTCGACGAAATCCCGATGATAGTCGAGGAAGGACTGAGCAGTTTTAAACTCTATTTAACCTATCAATACAAACTCA -ACGATGACGAGGTTTTGCAGGCATTACGCCGCTTGCATGAATCCGGCGCGCTGACCACCGTGCACCCGGAAAATGATGCG -GCTATCGCCAGCAAGCGGGCGGAATTTATCGCCGCAGGGTTAACCGCGCCGCGCTATCATGCCTTGAGTCGCCCTCTGGA -ATGCGAAGCGGAAGCCATCGCCCGCATGATTAACCTGGCACAAATTGCCGGTAACGCCCCGCTCTATATCGTGCACCTGT -CTAACGGCTTAGGTCTGGATTATCTGCGTCTTGCCCGTGCGAATCACCAGCCAGTCTGGGTTGAAACCTGCCCACAATAT -CTCCTGTTGGACGAACGCAGTTACGATACAGAAGATGGCATGAAGTTCATTCTTAGCCCACCGCTGCGTAACGTACGCGA -GCAGGACAAACTGTGGTGTGGCATCAGCGATGGTGCGATTGACGTGGTGGCAACCGATCACTGCACCTTCTCGATGGCTC -AACGCCTGCAAATTTCTAAAGGCGATTTCAGTCGCTGCCCAAATGGCTTACCCGGTGTGGAAAACCGCATGCAGTTACTG -TTTTCCAGTGGCGTGATGACGGGACGTATAACACCGGAACGCTTTGTTGAATTAACCAGCGCAATGCCCGCCAGGTTGTT -TGGCCTGTGGCCGCAAAAAGGATTATTAGCGCCCGGTTCCGACGGCGACGTGGTGATTATCGACCCACGTCAGAGCCAAC -AAATTCAGCATCGCCATCTCCACGACAACGCCGACTACTCGCCATGGGAGGGTTTTACCTGTCAGGGCGCGATTGTCAGA -ACCTTATCCCGTGGTGAAACGATTTTCTGTGACGGCACCTTTACAGGCAAAGCCGGGCGAGGTCGTTTCCTGCGACGCAA -ACCGTTTGTCCCTCCCGTGCTCTAACCACTGCCAGGGATCTATACACAATCAAGAATGATGAGTGAGGAAAAATGAGTAA -GAAAATTGTTCTCGCCCTGGGCGGGAATGCGCTGGGCGATGACCTGGCCGGGCAAATGAAAGCGGTAAAAATTACTTCTC -AGGCAATTGTTGATTTAATTGCCCAGGGACATGAAGTTATCGTCACTCATGGTAACGGGCCGCAGGTGGGCATGATTAAC -CAGGCCTTTGAAGCTGCCGCAAAAACTGAAGCGCACTCGCCAATGCTGCCGATGTCTGTCTGTGTTGCATTAAGCCAGGG -TTATATTGGTTACGATCTACAAAACGCTTTAAGAGAAGAACTGCTTTCTCGGGGCATTAATAAACCTGTAGCAACGCTGG -TTACTCAGGTCGAAGTCGACGCTAACGATCCGGCATTCCTCAACCCGACCAAGCCGATCGGTTCGTTCTTTACCGAGCAA -GAAGCAGAGCAACTGACAAAACAGGGTTACACTCTGAAAGAAGATGCTGGTCGCGGCTATCGCCGTGTTGTTGCCTCGCC -AAAACCGGTTGATATCATTGAAAAAGAAACGGTTAAAGCTCTGGTAGATGCAGGTCAGGTGGTGATCACCGTTGGCGGTG -GTGGTATCCCTGTTATTCGTGAAGGTAACCATCTGCGTGGTGCCAGCGCGGTTATCGATAAAGACTGGGCCAGCGCCCGT -TTAGCAGAAATGATTGATGCCGATATGCTGATCATTCTGACTGCGGTAGAAAAAGTGGCCATTAACTTCGGTAAAGAGAA -TGAACAGTGGCTCGATCGCCTGTCATTAAGTGATGCTGAACGCTTTATCGAAGAAGGTCATTTTGCGAAAGGTTCTATGC -TGCCTAAAGTGGAAGCTGCCGCCTCGTTTGCTCGCTCTCGCGCAGGTCGTGAAGCACTGATTACCGTATTGAGCAAAGCG -AAAGAAGGGATTGAAGGCAAAACAGGAACGGTGATTTGTCAGTAATTTAAAGGCCGGGTGGGTAATACCATCCGGCCAAA -GATTGTCAAGTAAGTGCGCTTTGTTGATGCCGGATGCGGCGCGAGCGCCTTATCCGTCCTACAAAACATCGCAAATTCAA -TAGATTGCAATGCACTTGTAGGCCTGATAAGCGTAGCGCATCAGGCAATTTGGCGTTTGTCATCAGTCTCAGGCCGGGTG -GGTAATACCATCCGGCCATTTTCATTTAAGCCACTTCCAGCACTTCTTTTGTCGCTTTCACGCCCTGATGCATCAACATC -ATTAACGCCTCAAGTACGCCGCCGCCAATCGCCCGGGCTTTATCAGAAACGCTGGTGAAATCAGCGGTTTCACCACGAGG -ATCGATATCACCAATTTTAAAACCACCAACCACTGCCAGGCCGTCGTTCAACAAGCCACGCACCATCCCCGTCAACGGTG -CTTTAATTTCATGCTCACCAATCCAGGCAATCACATCGCCCTCTTTCACCAGATCGCCTAATTTCACGTTGGATCGCATA -ATGCCTGCAGCAGGAGCACGGATCACCCGTCGGGTGGTATGCCCCATAATATTGCCAGGAACACCGGTATTCTCCTGCGC -ACAACCAGAGTAAATCACCTGACCGAGCCAGTGCCCGCGATTTGTTTCAATTACCGCATGACAATCCTTCCCAGCAGTAA -AGCCCGGCCCAAGCGCGATTGTTACTGGTGCCATATCTGCCCGCGTTCCCAAATTCTGTTTCGCCAGAATAGCGTCCACC -ACGCAAAGCGGTTTCAGTTCATCAAGCAATGAACAGGCGGGATCTACCATCACAGGAATGAATCCGCGTTCGGTAAGTTT -CATCGCTTCCGCAGAGCTGGTTGCCAGGCGAGCAGTGACGCCTTCGACCGTCATTTCGCCATCGAACACGGCCTGGGCAA -ACGCCACGGTACAACGAATCACTGTCGGTTTTTCCACTTCCAGCATGATCACTTTAAAACCCGCATGATACAGACGTAGC -GCCACACCACTGGCGATATCTCCCGCACCGCGAATCACCACCAGCTGGTGTCCGGAAGGATGAGAAGGTTTCATCATCAG -CCCACCCGGCGCGTTATTTTTCACCTGTAATATTTCTGCCAGCACGCTGATGGCGATCTCCTGCGGCGTTTCCGCACCTA -TGTTGTAACCAACGGGCGCATGTAAACGGGCAATATGTTCTTCAGCCACGCCTTTCTCACGCAATTGACGCAGGAAAAGC -TGAACCTTGCGACGACTTGCCAGCAACCCCAACCATGCAATGGGCTGTTCAATGAGTTTGTCGAGGGCTTCACGATCCTG -ATTATTCGTGGCAATCAGGACAAAATTATCAGGGCGAATATCCAGTGCTTCCACTGCCGCACCAAACGACTCAGCATGGA -GAAGCGTGGTTGATGGTGGGAATAGTTCAGGATTGAGGCTTTCGCGATAAATATCAGCAACGGCAATATCAAATCCTAAT -AGCGCCGCACTCTGGGCTATCGCCCGGTTGACATGCCCCGCGCCAATCAACACCAGACGTGGACGCATACCATGGACGCT -GATAAATACTGACATTGCACCTCCACAATCTGACCCGACAGCATCCGCACCGTTACGAGCCATACGTCCATGGAATAATC -GCGGCTTACGTTCCTGCAATGCCTGAAGCGACTCTTCAATCACCTTCCGCTCAACCATTCCGCCACCAATTGTACCGACG -ATAGAACCATCGGCGCGCACTAACATTTGTGCAGAATGGCGGGGAGTCGAGCCTCGGCTATCAACAATTTGCGCCATAGC -AAACGGACAATTTTGCTCTTCGAGTTTTGCAGCCTCTGTGAAAATATTCATACCAACCTCAATGGATATCCTTTCAGTAA -CCCGGAATACCCGGGCCGCTAATTCACAAATCTGCGCGCGATTGCAGGATGTTCTTGTATATCGCCCAGCCAGATTGCCT -CTACGTCGTGTTGTTGCAGCGGTTGAAGGAGCTCGCTTTGTGCAATCGCATTCTCACATTGAGAAAAACGGTTAATGAAC -CAGACTCGCCGACAACCTTGCGGTACGTTTTTAAACGCCCCCTGAGGGTGGCGAACCAGCGCAACGAGATCGCTCAGTTG -CAAGGTTGCATCAGGTGTTAACCCGGTAATATCAGCAAACTGCGACCAGCGATGGACATTTTCTGTGCTCACTTTCGCGC -CCAAAGTATGTCCTCCCATCACAGCAATCACGCAGCAACTGCTTTTGGGTATGCAAGGTTCGTGCTCATCAGGCGCTTTT -AACGGCATTCCACGCGAGCCATCTGCTTCAATGAGAATTACGTCACACTCTGGTCGTTGCACCAGTGCATCAATCGCTTC -TGGCGTAAATCCCTGCACTTTTCCCTGGTTCGCTTTCCAGCTGTGAAAACAAAATGAAATGGGGGATGTAAGAGACGCAT -GAGGAAGCATGGCGGGATCACGACAGAAAACCACGGGCCAGTGAGACGTTGGCATAAACATATGTGTCGTCGTCGTGATT -AACACACGCCTGCCGCTAGCCTGGAGCAGTTCTGCCAGCCAAAAAAGCAAGCTGGTTTTCCCCCCAGCACCAACAACAGA -AATCACAGTGGGACGTTTCTGCGCACCTAAATCAATGACTAATGCCGATGGGTCAACTATACTTTTCACGAGTCTTTATG -ACCTCTCTGGGATAAATTATCCCCAACTTAATCCATCAGGAAGTAACGCAATTATCAGGCGTTATTAGCCCCTATAAATA -ATGGAACCACTATGTCAGCCATCGACTGTATAATTACCGCTGCCGGATTATCATCAAGAATGGGGCAATGGAAAATGATG -TTACCCTGGGAACAGGGAACAATTCTTGATACAAGTATCAAAAATGCGTTGCAGTTTTGTAGCCGAATTATTTTAGTCAC -CGGCTATCGTGGTAATGAACTGCACGAACGTTATGCGAACCAGAGCAATATCACTATTATTCACAACCCAGATTATGCGC -AGGGTTTACTAACATCCGTCAAGGCCGCAGTACCCGCAGTGCAAACAGAACATTGTTTTCTCACCCACGGTGACATGCCA -ACCCTCACCATCGATATTTTTAGAAAAATCTGGTCGTTACGAAATGATGGCGCAATACTGCCACTCCATAATGGCATCCC -CGGCCATCCGATTTTAGTGTCAAAACCATGCCTGATGCAGGCAATCCAACGACCCAATGTCACCAATATGCGTCAGGCAC -TCCTTATGGGAGATCATTATTCCGTCGAAATAGAAAATGCAGAAATAATTTTAGATATTGATACTCCGGACGACTTTATT -ACAGCGAAGGAAAGGTATACTGAAATTTAGAAAACGTAGTTAAACGATTGCGTTCAAATATTTAATCCTTCCGGCACTCA -TTATCATAATGATAAGGAATCACTGATTTTGAGAAAAGAGAAAAATTGATAAATGGGCTGGCAATAATAATTTTCAGGAG -TGATTTTAATTCTCATTTAGCACCTGTGAGTTCATTCACAAAAAGCCCTTAAGTTTCGAGCCGCCTCACATTTTTTTATA -TTTCCCGCCAAACCTGGCAAGAGTGGTGCGATTGTTGCTCTATCCCCCTAAACCACCGGATTTCTCAACACCGGTCACTC -AATGATATCTGTATAAGCTAAGGAGAGGGTTATGGGGGATATTATGCGTCCCATTCCGTTTGAGGAACTTTTGACGCGCA -TATTTGATGAATACCAACAACAACGCTCAATCTTTGGTATTCCCGAGCAACAGTTTTACTCACCTGTAAAAGGTAAAACT -GTTAGCGTCTTCGGTGAAACCTGTGCCACTCCCGTCGGCCCTGCCGCTGGCCCGCACACGCAGCTCGCGCAAAATATTGT -CACTTCCTGGCTGACTGGCGGACGCTTCATCGAACTAAAAACCGTCCAAATTCTTGACCGCCTGGAGCTGGAAAAGCCCT -GTATCGATGCCGAAGACGAGTGCTTTAACACCGAATGGTCTACCGAGTTTACCCTGCTTAAAGCCTGGGATGAATACCTC -AAAGCCTGGTTTGCCCTGCACCTTCTCGAAGCGATGTTCCAGCCTTCTGATTCCGGTAAATCGTTCATCTTTAATATGAG -CGTCGGTTACAACCTCGAAGGTATTAAGCAACCGCCGATGCAACAGTTCATCGACAATATGATGGACGCATCTGACCATC -CGAAATTCGCTCAATATCGCGATACGCTGAATAAATTACTCCAGGATGACGCATTTTTAGCTCGCCACGGATTGCAGGAA -AAACGCGAAAGCTTGCAAGCCTTACCCGCTCGCATCCCCACCAGTATGGTGCATGGCGTCACCCTCTCCACCATGCACGG -CTGTCCTCCGCATGAAATCGAAGCCATTTGCCGCTACATGCTGGAAGAAAAAGGGCTCAACACCTTTGTGAAACTTAACC -CGACCTTACTGGGGTACGCGCGTGTTCGTGAGATCCTCGATGTCTGCGGTTTCGGTTACATAGGCTTAAAAGAAGAGTCA -TTTGATCACGACCTCAAGCTGACGCAAGCACTGGAAATGCTGGAACGCCTGATGGCACTGGCAAAAGAAAAATCACTCGG -CTTTGGCGTAAAACTGACTAACACTCTCGGCACCATCAACAATAAAGGCGCACTGCCTGGTGAAGAGATGTATATGTCAG -GCCGTGCGCTGTTCCCGCTCTCCATCAATGTTGCAGCAGTTCTCTCTCGCGCCTTTGACGGCAAACTGCCCATTTCTTAT -TCCGGTGGTGCCAGTCAGCTGACTATCCGCGATATTTTTGATACAGGTATTCGCCCTATTACTATGGCAACCGACCTGCT -GAAACCTGGCGGCTATCTGCGCTTAAGTGCCTGCATGCGCGAGCTGGAAGGCTCCGACGCCTGGGGACTTGACCATGTTG -ACGTCGAACGACTGAACAGACTGGCAGCAGATGCGTTAACCATGGAATACACCCAGAAACACTGGAAGCCAGAAGAGCGT -ATTGAAGTGGCAGAAGACCTGCCGCTGACCGACTGCTACGTTGCCCCCTGTGTTACTGCCTGCGCTATCAAGCAAGATAT -TCCGGAATACATCCGTCTGCTTGGCGAACACCGCTATGCCGACGCGCTGGAACTCATCTACCAACGCAACGCTCTGCCCG -CCATTACCGGTCATATTTGCGATCACCAGTGCCAATACAACTGTACCCGCCTGGATTACGACAGTGCGCTGAATATCCGC -GAACTGAAAAAAGTCGCGCTGGAAAAAGGTTGGGATGAATATAAGCAACGCTGGCACAAACCAGCCGGTTCTGGTTCACG -CCATCCGGTTGCCGTGATTGGTGCAGGTCCGGCGGGTCTGGCAGCAGGTTACTTCCTTGCCAGAGCGGGCCATCCGGTTA -CGCTGTTTGAACGCGAAGCCAATGCGGGCGGCGTGGTGAAAAATATCATTCCTCAGTTCCGTATTCCTGCAGAGTTAATT -CAGCACGATATCGATTTTGTTGCCGCTCACGGCGTGAAATTTGAGTATGGCTGCTCACCCGATTTAACCATTGAGCAGTT -AAAAAATCAGGGCTTCCACTATGTTCTGATTGCCACCGGCACTGATAAAAATAGCGGTGTGAAACTGGCGGGCGACAACC -AAAATGTCTGGAAATCACTCCCCTTCCTGCGTGAATACAACAAGGGTACAGCGCTCAAGCTGGGCAAACATGTGGTCGTT -GTCGGGGCGGGTAACACCGCAATGGACTGCGCTCGTGCGGCGTTACGCGTTCCAGGCGTAGAAAAAGCAACGATCGTTTA -CCGTCGTTCACTACAAGAGATGCCCGCATGGCGCGAAGAGTATGAAGAAGCGTTGCACGACGGCGTAGAGTTCCGTTTCC -TGAATAATCCGGAACGTTTCGATGCTGATGGCACCTTAACCTTGCGCGTTATGTCGCTTGGCGAACCGGATGAGAAAGGT -CGTCGTCGTCCGGTTGAAACCAATGAAACAGTAACACTGCTTGTAGACAGCCTGATCACCGCCATTGGTGAACAGCAGGA -TACTGAAGCCCTGAATGCGATGGGCGTGCCGCTGGACAAAAACGGCTGGCCAGACGTCGACCATAATGGCGAAACTCGTC -TGACTGACGTCTTTATGATCGGCGACGTACAGCGCGGACCATCCTCCATTGTCGCTGCTGTCGGAACCGCGCGTCGGGCG -ACCGATGCCATCCTTAGTCGGGAAAATATCCGTTCCCACCAGAACGATAAATACTGGAACAACGTCAATCCAGCGGAAAT -CTATCAACGTAAAGGCGATATCTCTATCACGCTGGTGAACAGTGACGATCGTGACGCGTTTGTCGCCCAGGAAGCCGCTC -GCTGCCTCGAATGTAACTACGTTTGCAGCAAGTGTGTGGATGTCTGCCCGAACCGCGCCAACGTCTCCATTGCGGTCCCA -GGCTTCCAGAACCGTTTCCAGACGCTGCACCTCGACGCTTACTGTAACGAATGCGGCAACTGCGCTCAGTTCTGTCCGTG -GAACGGTAAACCGTACAAAGACAAAATCACCGTCTTCAGCCTGGCGCAAGACTTTGATAACAGCAGCAACCCAGGCTTCC -TTGTGGAAGATTGCCGGGTACGAGTACGTCTGAATAACCAAAGCTGGGTGTTAAACATCGACAGCAAAGGTCAGTTTAAC -AACGTACCACCGGAGCTGAACGATATGTGCCGCATCATCAGCCATGTCCACCAGCATCATCATTATCTGCTGGGCCGCGT -GGAGGTGTAATCATGTTGATTCTGAAGAATGTCACTGCGGTACAGCTACACCCGGCAAAAGTGCAGGAAGGCGTTGATAT -CGCCATCGAAAACGATGTGATTGTCGCTATCGGCGATGCCCTGACGCAACGCTACCCCGACGCCAGCTTCAAAGAGATGC -ATGGCCGGATTGTGATGCCAGGGATTGTCTGCTCGCACAACCATTTTTACTCGGGGCTTTCCCGCGGAATTATGGCAAAC -ATCGCCCCTTGCCCGGATTTCATCTCAACGCTGAAAAATCTCTGGTGGCGGCTCGATCGCGCCCTTGATGAAGAGTCGCT -CTATTACAGCGGACTGATTTGTTCCCTGGAAGCGATTAAGAGCGGATGTACATCGGTTATCGATCACCATGCCTCTCCGG -CGTATATCGGCGGGTCGCTCTCCACATTGCGCGACGCATTTTTAAAAGTTGGCCTGCGCGCGATGACCTGTTTTGAAACT -ACTGACCGTAACAACGGCATCAAAGAGTTGCAGGAAGGTGTAGAAGAAAACATCCGTTTCGCCCGTTTGATTGATGAGGC -GAAGAAAGCGACAAGCGAGCCGTATCTGGTGGAAGCACATATCGGTGCTCACGCGCCGTTTACCGTGCCGGATGCCGGTC -TGGAGATGCTGCGTGAAGCCGTGAAAGCCACAGGCCGTGGTTTGCATATTCACGCTGCGGAAGACCTTTACGACGTTTCC -TACAGTCACCACTGGTACGGCAAAGACCTGCTGGCACGACTGGCGCAATTCGATCTCATCGACAGCAAAACGCTGGTCGC -TCATGGGCTGTACTTGTCGAAAGATGACATCACCCTACTCAATCAGCGCGATGCGTTCCTGGTGCATAACGCCCGTTCAA -ACATGAACAACCATGTCGGCTACAACCATCACCTTAGCGACATCCGCAATCTGGCGTTGGGAACGGACGGCATTGGTTCG -GACATGTTTGAAGAGATGAAATTTGCCTTCTTTAAACATCGCGATGCGGGTGGTCCGCTGTGGCCTGACAGTTTTGCCAA -AGCCCTGACTAACGGTAACGAACTGATGAGCCGCAACTTTGGCGCGAAATTTGGGCTTCTGGAAGCCGGTTACAAAGCTG -ATTTAACCATTTGCGATTACAACTCGCCGACGCCGCTGCTGGCAGACAATATCGCCGGGCATATCGCTTTCGGTATGGGC -TCAGGCAGCGTTCACAGCGTGATGGTCAATGGTGTGATGGTCTATGAAGACCGTCAGTTTAACTTCGATTGCGATTCCAT -TTATGCACAAGCCAGAAAAGCCGCTGCCAGTATGTGGCGTCGGATGGATGCGCTGGCATAAATGACAGATGCCCTCTTCC -CGCAGGGAAGAGGGTTAAATAAGGAAAGAAGATGATTGAACAATTTTTCAGGCCCGACTCTGTCGAACAGGCGCTGGAAC -TGAAGCGCCGCTACCAGGATGAAGCCGTCTGGTTCGCCGGGGGCAGCAAACTCAATGCTACACCAACCCGTACCGATAAA -AAGATTGCCATTTCCTTACAGGATCTGGAACTGGACTGGGTTGACTGGGATAACGGTGCACTGCGGATTGGCGCAATGTC -TCGCTTGCAGCCACTGCGTGATGCGCGATTTATTCCTGCAGCGCTGCGTGAAGCCCTCGGTTTTGTTTACTCACGCCATG -TTCGTAATCAGTCGACCATTGGTGGTGAAATCGCCGCCCGCCAGGAAGAGTCGGTGCTGCTTCCCGTCCTGTTGGCACTG -GATGCTGAACTGGTTTTTGGCAACGGCGAAACGCTGTCAATCGAGGACTACCTGGCCTGCCCATGCGATCGCCTGCTAAC -CGAAATTATCATTAAAGATCCGTATCGCACCTGTGCGACCCGCAAAATTAGCCGTTCTCAGGCAGGTTTAACCGTCGTGA -CGGCAGCCGTTGCAATGACAGACCACGACGGTATGCGAATTGCGCTGGATGGCGTCGCCAGTAAAGCACTGCGTCTGCAT -GATGTCGAAAAACAAAATCTGGAAGGCAATGCACTTGAACAGGCTGTCGCCAACGCCATTTTCCCGCAGGAAGATTTGCG -GGGCAGCGTGGCCTATAAACGCTATATCACGGGAGTTCTGGTAGCCGACCTGTATGCCGACTGCCAACAGGCTGGGGAGG -AAGCCGTATGATCATCCACTTTACTTTAAATGGCGCGCCTCAGGAGCTAACCGTTAATCCAGGCGAAAACGTGCAAAAGC -TGTTGTTTAACATGGGAATGCACTCTGTACGCAACAGTGATGATGGTTTCGGGTTTGCCGGTTCTGACGCAATAATCTTT -AACGGTAATATCGTTAACGCGTCCTTGCTTATTGCCGCACAGTTAGAGAAGGCAGATATTCGTACCGCAGAATCTCTGGG -CAAATGGAACGAGTTAAGTCTGGTTCAACAGGCAATGGTTGATGTTGGCGTGGTGCAGTCTGGTTATAACGATCCAGCTG -CAGCTCTGATTATCACCGATCTTCTCGATCGCATCGCCGCACCTACCCGCGAAGAGATCGACGACGCGCTTTCTGGTTTG -TTCAGCCGCGATGCTGGCTGGCAGCAATACTATCAGGTCATTGAACTGGCGGTTGCACGTAAAAATAATCCGCAGGCCAC -CATTGATATCGCTCCGACTTTCCGTGACGACCTAGAAGTCATTGGTAAGCATTATCCTAAAACTGATGCCGCGAAAATGG -TGCAGGCGAAACCCTGCTATGTTGAAGACCGCGTAACGGCTGACGCCTGCGTCATTAAAATGTTACGTAGCCCACACGCT -CACGCACTGATTACTCATCTGGATGTCAGCAAAGCTGAAGCCTTACCGGGCGTCGTTCACGTTATTACTCACCTGAATTG -CCCGGATATCTACTATACCCCGGGTGGTCAGAGCGCACCGGAACCGTCACCGCTTGACCGCCGTATGTTCGGCAAGAAAA -TGCGTCACGTCGGCGATCGTGTTGCTGCGGTCGTCGCAGAAAGTGAAGAAATTGCGCTCGAAGCACTGAAGCTCATCGAC -GTTGAATATGAAGTGCTTAAGCCGGTAATGTCGATCGACGAAGCAATGGCGGAAGATGCGCCTGTCGTGCACGATGAACC -GGTGGTGTATGTTGCTGGTGCGCCAGATACTCTGGAAGACGATAACAGCCATGCAGCCCAGCGCGGCGAGCATATGATCA -TCAACTTCCCGATCGGTTCTCGCCCTCGCAAAAATATCGCCGCCAGTATTCATGGTCATATTGGCGATATGGACAAAGGC -TTTGCCGATGCCGATGTGATCATTGAGCGAACCTATAACTCAACGCAAGCGCAGCAGTGCCCGACTGAAACACATATCTG -CTTTACTCGTATGGACGGCGATCGTCTGGTTATCCACGCCTCCACCCAGGTACCATGGCACTTACGCCGCCAGGTCGCGC -GCCTCGTGGGCATGAAACAGCATAAAGTTCATGTCATTAAAGAGCGAGTTGGCGGCGGTTTTGGTTCCAAACAGGACATC -CTGCTGGAAGAAGTGTGCGCCTGGGCAACCTGCGTGACCGGGCGTCCGGTACTGTTCCGCTACACCCGTGAAGAAGAGTT -TATTGCTAACACCTCTCGTCACGTCGCGAAAGTCACCGTCAAACTGGGAGCGAAAAAAGATGGTCGCCTGACGGCAGTGA -AGATGGATTTCCGCGCCAACACTGGCCCTTACGGCAACCACTCACTCACCGTACCGTGTAACGGACCGGCGCTGTCGCTG -CCGTTATATCCGTGCGATAACGTCGATTTCCAGGTCACCACCTACTACAGCAACATTTGCCCAAATGGTGCTTATCAGGG -TTATGGCGCACCGAAAGGTAACTTCGCTATCACCATGGCATTAGCGGAACTGGCTGAACAGTTACAGATCGACCAACTGG -AAATTATCGAACGTAACCGGGTACACGAAGGGCAAGAGCTGAAAATTCTCGGTGCAATCGGTGAAGGTAAAGCGCCGACC -TCCGTTCCTTCCGCCGCCAGCTGTGCACTGGAAGAGATCCTGCGTCAGGGTCGCGAGATGATCCAATGGTCGTCACCGAA -ACCGCAAAATGGTGACTGGCACATCGGTCGCGGCGTCGCCATTATCATGCAGAAATCGGGTATCCCGGATATCGATCAGG -CTAACTGCATGATCAAACTGGAATCGGACGGCACCTTTATCGTTCATTCTGGCGGTGCGGATATTGGTACTGGTCTGGAT -ACTGTAGTGACGAAACTGGCAGCAGAAGTGCTGCACTGCCCACCGCAGGACGTGCATGTTATCTCCGGTGATACCGATCA -TGCGTTGTTTGATAAAGGCGCATATGCCTCGTCCGGTACTTGCTTCTCGGGTAACGCGGCGCGTTTGGCAGCGGAAAATC -TACGGGAGAAAATTCTGTTCCACGGCGCGCAAATGTTGGGTGAGCCAGTGGCAGATGTTCAACTGGCAACGCCGGGCGTC -GTGCGCGGCAAGAAAGGCGAAGTTAGTTTCGGGGATATTGCCCATAAAGGCGAAACCGGCACCGGCTTTGGTTCACTGGT -GGGAACTGGCAGTTATATCACGCCTGATTTCGCCTTCCCGTATGGCGCAAACTTCGCTGAAGTTGCCGTCAACACGCGTA -CGGGTGAAATCCGCCTGGATAAATTCTACGCCTTGCTGGACTGCGGTACACCGGTCAATCCAGAGTTAGCGTTGGGACAA -ATCTACGGTGCCACCCTGCGTGCTATCGGCCACAGTATGAGCGAAGAGATCATTTATGACGCCGAAGGTCACCCGTTAAC -GCGTGATTTACGCAGTTACGGCGCACCGAAAATTGGTGACATTCCGCGTGATTTCCGCGCTGTGCTGGTGCCGAGCGACG -ATAAAGTCGGCCCGTTCGGGGCGAAATCGATCTCGGAAATCGGTGTAAATGGCGCAGCTCCGGCGATTGCTACCGCAATT -CACGATGCATGCGGCATCTGGTTACGCGAATGGCATTTCACACCGGAGAAAATACTCACTGCGCTGGAAAAAATATAAAT -AATAAATGGCCGCTTCGGCGGCCTGTTTCTCTGTTTGAACGATGACTAAATAGTGACTGCGAAAATGAGATAAGCCGTTC -TCAAGGCGTCCTGCGCCCCAAATTCGTGGGAATTTATTTTACTAATTCAGATGATCAAATTTACTTTAAAAGGAGTGAAG -GGATGTCTGATATAAACCATGCAGGTTCTGACCTTATATTTGAACTGGAGGATCGCCCTCCCTTTCATCAGGCTCTCGTT -GGTGCCATTACCCATCTGTTGGCAATTTTCGTTCCGATGGTAACCCCCGCGTTAATCGTGGGTGCGGCCTTACAGCTTTC -CGCTGAAACAACTGCCTATCTTGTTTCTATGGCGATGATCGCCTCTGGTATTGGTACCTGGTTACAAGTAAACCGCTACG -GCATCGTCGGTTCTGGCCTACTCTCAATTCAGTCAGTCAATTTTTCATTTGTTACGGTCATGATTGCGCTGGGCAGCAGC -ATGAAAAGCGACGGTTTTCACGAAGAGTTAATCATGTCGTCGCTTCTCGGCGTCTCCTTCGTTGGCGCATTTCTGGTTGT -CGGATCTTCATTTATCTTGCCCTATTTACGTCGGGTTATTACGCCTACCGTCAGCGGTATTGTGGTACTGATGATCGGCT -TAAGCCTGATTAAAGTCGGCATTATCGATTTTGGTGGAGGATTTGCAGCCAAAAGCAGCGGTACGTTCGGCAATTACGAA -CATCTCGGCGTTGGTTTATTGGTTTTAATTGTGGTGATCGGCTTTAACTGCTGTCGCAGTCCGTTGCTACGCATGGGAGG -GATCGCCATTGGGCTATGTGTCGGCTATATCGCATCGTTATGCCTGGGCATGGTGGATTTCAGCAGTATGCGCAATTTGC -CGTTAATCACCATCCCGCATCCGTTCAAATACGGCTTTAGTTTTAGCTTCCATCAGTTCCTGGTGGTTGGCACGATTTAT -CTGCTTAGCGTGCTGGAAGCAGTCGGCGATATCACCGCCACGGCAATGGTTTCCCGCCGCCCCATTCAGGGGGAAGAGTA -TCAGTCCCGGCTGAAAGGCGGCGTGCTGGCAGATGGTCTGGTTTCTGTTATCGCCTCCGCTGTCGGTTCATTACCATTAA -CCACGTTTGCGCAAAATAATGGGGTTATTCAGATGACTGGCGTCGCTTCACGTTATGTCGGGCGAACCATCGCGGTAATG -CTGGTTATCCTCGGCTTATTTCCGATGATTGGCGGCTTCTTCACGACCATTCCCTCGGCAGTTCTGGGAGGCGCAATGAC -GTTGATGTTTTCCATGATTGCCATCGCAGGGATTCGCATCATCATCACCAACGGTTTAAAGCGCCGTGAAACACTTATTG -TCGCCACTTCTTTAGGTTTAGGGCTTGGCGTCTCCTACGATCCCGAAATTTTTAAAATATTGCCAGCCTCTATTTATGTA -TTAGTTGAAAACCCTATTTGTGCTGGCGGGTTAACTGCGATTTTATTAAATATTATCCTCCCTGGTGGCTACCGACAGGA -AAACGTTCTGCCTGGTATTACCTCAGCGGAAGAGATGGATTAACAGTAAAGGAGTCAATGATGTCAGGAGAACACACGTT -AAAAGCGGTACGAGGCAGTTTTATTGATGTCACCCGTACGATCGATAACCCGGAAGAGATTGCCTCTGCGCTGCGGTTTA -TTGAGGATGGTTTATTACTCATTAAACAGGGAAAAGTGGAATGGTTTGGCGAATGGGAAAACGGAAAGCATCAAATTCCT -GACACCATTCGCGTGCGCGACTATCGCGGCAAACTGATAGTACCGGGCTTTGTCGATACACATATCCATTATCCGCAAAG -TGAAATGGTGGGGGCCTATGGTGAGCAATTGCTGGAGTGGTTGAATAAACACACCTTCCCTACTGAACGTCGTTATGAGG -ATTTAGAGTACGCCCGCGAAATGTCGGCGTTCTTCATCAAGCAGCTTTTACGTAACGGAACCACCACGGCGCTGGTGTTT -GGCACTGTTCATCCGCAATCTGTTGATGCGCTGTTTGAAGCCGCCAGTCATATCAATATGCGTATGATTGCCGGTAAGGT -GATGATGGACCGCAACGCACCGGATTATCTGCTCGACACTGCCGAAAGCAGCTATCACCAAAGCAAAGAACTGATCGAAC -GCTGGCACAAAAATGGTCGTCTGCTATATGCGATTACGCCACGCTTCGCCCCGACCTCATCTCCTGAACAGATGGCGATG -GCGCAACGCCTGAAAGAAGAATATCCGGATACGTGGGTACATACCCATCTCTGTGAAAACAAAGATGAAATTGCCTGGGT -GAAATCGCTTTATCCTGACCATGATGGTTATCTGGATGTTTACCATCAGTACGGCCTGACCGGTAAAAACTGTGTCTTTG -CTCACTGCGTCCATCTCGAAGAAAAAGAGTGGGATCGTCTCAGCGAAACCAAATCCAGCATTGCTTTCTGTCCGACCTCC -AACCTTTACCTCGGCAGCGGCTTATTCAACTTGAAAAAAGCATGGCAGAAGAAAGTTAAAGTGGGCATGGGAACGGATAT -CGGTGCCGGAACCACTTTCAACATGCTGCAAACGCTGAACGAAGCCTACAAAGTATTGCAATTACAAGGCTATCGCCTCT -CGGCATATGAAGCGTTTTACCTGGCCACGCTCGGCGGAGCGAAATCTCTGGGCCTTGACGATTTGATTGGCAACTTTTTA -CCTGGCAAAGAGGCTGATTTCGTGGTGATGGAACCCACCGCCACTCCGCTACAGCAGCTGCGCTATGACAACTCTGTTTC -TTTAGTCGACAAATTGTTCGTGATGATGACGTTGGGCGATGACCGTTCGATCTACCGCACCTACGTTGATGGTCGTCTGG -TGTACGAACGCAACTAATAATAAAACTTTAACATCCTCGTGAGGACATCATTATGTCTGGAGACATCCTACAAACACCGG -ACGCACCAAAGCCACAGGGCGCGCTGGATAATTATTTTAAAATTACCGCTCGTGGCAGTACCGTTCGTCAGGAAGTACTG -GCTGGCTTAACGACCTTTCTGGCCATGGTTTATTCCGTTATCGTCGTTCCGGGAATGCTGGGCAAAGCAGGTTTTCCTCC -CGCAGCTGTGTTTGTTGCCACCTGTCTGGTCGCGGGCTTCGGCTCGTTGCTGATGGGATTATGGGCTAATTTGCCAATGG -CGATTGGTTGCGCGATTTCCTTGACGGCGTTTACCGCATTCAGTCTGGTACTCGGGCAACAAATTAGCGTTCCTGTCGCA -CTGGGCGCGGTATTTCTGATGGGCGTCATCTTCACCGCCATTTCCGTAACCGGTGTGCGTACCTGGATCTTACGTAATTT -GCCGATGGGTATCGCTCACGGTACAGGTATCGGTATCGGGCTGTTTCTGCTGCTGATTGCTGCTAACGGTGTGGGTATGG -TTATCAAAAACCCGATTGAAGGCTTGCCAGTGGCGCTCGGTGCGTTTACCTCCTTCCCGGTGATGATGAGCTTGCTGGGG -CTGGCGGTCATCTTCGGCCTGGAGAAGTGTCGCGTACCCGGCGGGATCTTGTTGGTGATTATTGCAATTTCGATCATCGG -CTTAATCTTTGACCCAGCGGTGAAATACCACGGTCTGGTGGCGATGCCAAGCCTGACTGGCGAAGATGGTAAGTCTCTGA -TTTTCAGCCTCGATATTATGGGTGCACTCCAGCCAACTGTACTTCCGAGTGTACTGGCATTGGTGATGACCGCAGTGTTC -GACGCTACTGGCACCATCCGTGCCGTCGCCGGTCAGGCGAATTTGTTGGATAAAGACAACCAGATCATCAACGGCGGCAA -AGCCCTGACCAGTGACTCAGTAAGTTCAATATTCTCCGGCCTGGTGGGCGCAGCGCCCGCAGCGGTTTATATCGAATCAG -CGGCAGGAACCGCCGCCGGGGGTAAAACAGGTTTAACCGCAACCGTAGTGGGGGCGTTATTCCTGTTAATTCTGTTTTTA -TCACCGCTGTCATTTTTGATCCCTGGTTACGCCACTGCACCCGCTCTGATGTACGTAGGTTTGCTGATGTTAAGTAACGT -CTCGAAGCTGGATTTCAATGATTTTATTGACGCTATGGCTGGCCTGGTGTGTGCCGTGTTCATCGTTCTGACTTGTAATA -TCGTTACCGGTATTATGCTGGGCTTTGTGACACTGGTCGTAGGCCGCGTCTTTGCACGCGAATGGCAAAAGCTGAATATT -GGTACGGTGATCATTACTGCCGCACTGGTCGCATTTTACGCGGGTGGTTGGGCAATCTAATAGATTCTCCGCGCCTTTCA -GCGCGGAGATTTCTTTCAGAGAGGATTCTCACCGCTGACAACAATACGCTGCTGGCGGACTCGCCTGAGTTCTCTTTCAG -TAAGCAACTGCAGCGCCTGTGTTGGGCAAGATTCAACGCAGGCTGGCCCCTCTTCCCGCTGTTCACAGAGATCGCATTTC -ACAATTTGTTGTCGGGTATCCCCCGGCAACGACTGAATGGTGATCATTCCAAACGGGCACGCACTGACGCAACTCTGACA -GCCAATACAACGGGCAGAATTGGTCTGCACCACCTGCTCGCCCATCGTCAGCGCCCCCACGGGGCAAGCGCCAACACAAG -GGGCGTTTTCACACTGATGGCACATCACCGGCGCACTGATGCTGTCCAGTCGCTGTACCTTCAGCCGGGGTAAAAAGACA -TCGGCATTCAACTCCTGTTCTGAAGGGTGAGCGACCACACAGGCTACTTCACAAGTACGGCAGCCAATACAGTCAGCCGG -ATTAACGATAATTAACGATTTCATCACGATGCCTTCGTATCAAACAGAGTTAACATATCGCGCGCCGCCTGCCTTCCTGC -GGCCATTGCAGTGACAACCAGATCCGCGCCATGAACTGCATCACCACCAGCAAAGACTTTTTTCAGATGCGTCTGGGTAG -GTAAATACCCGACGTCACCGGTTTGAATCAGGCCCCATTTATCGAGTTTAATTCCGCTGCCCTGCAACCACGGCATGGCA -TGCGCCTGGAAACCAAAGGCCATAATCAGAACATCGGCGGGCAATTCAAACTCTGAACCCGCTACCGGACGAGGACGACG -GCGACCATCCGGCCCCGGCTCACCCATGGCGGTACGAATCAGGCCCACCGCAGTTAAACGCCCATCTTCGTCACAAGCGA -TATATTGCGGTTGAACATTGAACTGAAACTCGACACCTTCCTCGCGCGCATTAACCACCTCTTTGCGCGAGCCCGGCATA -CTGACTTCATCACGACGATACGCGCAGGTCACGCTGGCGGCATTGAGGCGGATGGAAGTCCGCAAACAATCCATTGTCGT -ATCGCCACCGCCCAATACCACGACTCGCTTACCTTCCACGTCCGTCAGCGGATACTCTTCAGACTCCGGCAATCCCATGA -GCTGGCGGGTATGGGCAGTCAGGAACGGTAGAGCCTGAATGACACCGGGCGCATCTTCATGCGGCAGATCTGCTCGCATC -ATCCCGTAAGTCCCCACGCCGATGAAAACTGCATCATATTCAGAAGTTAAATCGCTAAAGGTAATATCGCGGCCAATTTC -ACAGTTAAGATGAAAGTCGATTCCCATTGCGGTGAATATCTCTCGCCGCTGGCTTAATACCGTTTTATCGAGTTTGAAAG -GAGGAATGCCAAAAGTCAGCATACCGCCAATTTCTGGATGGCGATCAAAGACATCGACCTGAACTCCTGCGCGCGCCAGA -ATATCAGCACACCCTAACCCTGCAGGCCCAGCGCCAATCACCGCCACTTTTTCGCTACGGGGAACAACTTTGCTGACATC -GGGACGCCAGCCCATCGCCAGCGCGGTATCGGTGATGTAGCGTTCCAGATTACCGATAGAGACTGCGCCCGAGTGATCTT -TCAAAGTACATGCGCCTTCACAAAGACGGTCCTGTGGACATACCCTGCCGCAAATTTCTGGTAAGGAACTGGTCTGGTGG -CAAAGTTCTGCCGCTTCAATAATCTTTCCTTCCTGTACCAGACGGATGTAATCCGGAATAGCGTTATGCAGCGGGCAATG -CCAGTTGCAGTTAGCTTTTTCGGCACAATAAACACAGCGGTCACTCTCATAAGTCGCTTGTTGTGGATCCAGCCCGCAAT -ATATTTCGCCAAAGTGGGTTTTCCGTTCACTCGCTGAAATTTTATCTGCGCCTTTACGCGAGTTAACGGGGAGCAACGCT -GCACTGCGAGATGGCTGAGCGTCTGATGACGCTTTTCCTGCTGCCGTTTTGCGCTGGCGGGCCACCTTTATCTGCTGCAA -CCCTTTATCGTCCATCAGTCGTAACGCCTGTGTTGGGCAAACTTCAATACAGGCTTGCGTGCCGGAACTGCGCTGGTTAC -AAAGGTCGCATTTCTGCGCAATCGTATCGACCATCTCAACGACGCCAAAGGGGCAAGCGATTGCGCATCTTTTACAACCA -ATACATTTTTGCTCGTCCAGTTGTACGCTATCGGACTGGAAAGTCAGAGCATTAACCGGACAAGCCGTAACGCAAGGGGC -ATTGTTGCAGTGATGGCAGGCCACCGGATTCGCAGCCTGGCCTTTCCCTACAACGTGGATACGCGGTCGAAAGTCACTGT -GACTCAGCGGCCAGTTTTCTTGATTGTGTGCCACCGCACAGGCAATTTCACAAGCATGACAGCCTATACATTCCGCAGCT -TCAGCAGCAATAAACTTATTCATTTGCATCCCTTTCATTTAATGAGTTATGTCTTCTCAAATTTCGCGATGCAATAAACG -GGCATATATTAGGTAGCATGACCGTTTTAATTATAATTTTGCGACTGAGTTCAAATTATTGCCCCTCAATCTATGCCGCT -TTCATTATTTCAACATTGCCGATCAAAAGAGCGCTATCCAGATAAAAACGATTAAATGCGAGAGTGCGACATGCCAGAAT -GATTAATGAAATATCAATATGAGAAAATTACAGATAATTCCATTGTCAGGTTCTCTTCTCATTTTCGTGGTTTAACCACG -ATTATGTGATTGCCTCCGCAATTCCTGTCTCTAACTCCCCTTCCTCGCAAAAACTGGCACTCCACGAGCATGTGTTTAGA -CAGTTTCATTAACGTAAACGGTTGCTTTTTACTCTGGCGGGCGAAAGGAGAAACACTGATGAGCGCCATAGATTCCCAAC -TTCCCTCATCTTCTGGGCAAGACCGCCCAACTGATGAGGTTGACCGCATATTATCACCAGGAAAGCTGATCATACTCGGT -CTGCAACACGTCCTTGTCATGTACGCAGGTGCAGTCGCTGTTCCTCTTATGATTGGTGACCGACTGGGCCTCTCAAAAGA -AGCTATTGCGATGCTCATTAGCTCGGATCTCTTTTGCTGCGGGATCGTCACATTATTGCAATGTATCGGTATCGGCCGCT -TTATGGGGATCCGCCTGCCGGTGATTATGTCGGTGACCTTTGCTGCTGTAACACCAATGATAGCCATTGGGATGAACCCG -GATATCGGCCTGCTGGGGATATTTGGTGCCACTATCGCCGCGGGTTTTATCACCACATTATTAGCGCCACTTATCGGTCG -CTTGATGCCTTTATTCCCGCCACTGGTTACCGGTGTGGTTATTACTTCTATCGGGCTTAGCATCATTCAGGTGGGTATTG -ACTGGGCCGCCGGAGGTAAAGGGAATCCGCAATATGGTAATCCCGTTTATTTAGGTATCTCCTTTGCCGTCTTAATTTTT -ATCTTGCTCATTACTCGCTATGCGAAAGGATTTATGTCCAACGTCGCCGTATTACTGGGGATTGTATTTGGCTTTTTACT -TTCGTGGATGATGAATGAAGTCAATTTATCCGGGCTACATGATGCTTCATGGTTTGCGATTGTTACGCCGATGTCGTTTG -GTATGCCGATTTTCGATCCCGTTTCCATTCTGACCATGACTGCCGTGTTAATCATCGTGTTTATCGAGTCAATGGGGATG -TTCCTGGCACTGGGTGAAATAGTCGGTCGTAAACTCTCTTCGCACGATATTATTCGCGGGCTGCGTGTCGATGGCGTAGG -GACAATGATAGGCGGCACGTTTAACAGCTTCCCCCACACGTCATTTTCTCAAAACGTTGGCCTGGTTAGCGTGACGCGCG -TTCATAGCCGCTGGGTGTGTATTTCTTCGGGAATTATATTAATCCTGTTTGGCATGGTGCCAAAAATGGCGGTGCTGGTA -GCCTCCATTCCGCAATTTGTGCTGGGCGGCGCTGGTCTAGTGATGTTCGGCATGGTACTGGCGACAGGGATTCGAATTCT -GTCGCGCTGTAACTACACCACCAACCGTTACAACCTCTATATTGTGGCGATCAGTCTCGGCGTTGGCATGACTCCGACGC -TCTCTCACGATTTCTTTTCTAAGTTACCGGCCGTACTGCAACCGCTGCTACATAGCGGCATTATGCTCGCAACCCTTAGC -GCCGTTGTGCTGAACGTCTTCTTTAATGGCTATCAGCATCATGCTGACCTGGTGAAGGAATCCGTCTCTGATAAAGATTT -AAAAGTCAGGACAGTACGTATGTGGCTTCTGATGCGCAAGCTGAAGAAAAATGAGCATGGAGAATAATATGAATTTTTTA -ATGCGCGCTATATTCAGTCTGTTGTTGCTTTTTACTCTCTCTATTCCTGTCATTTCTGACTGTGTTGCAATGGCCATTGA -AAGTCGCTTCAAATATATGATGCTACTTTTTTAAATGGTTTTTACCTGTCGGCATCCGCTCAAAACGGGCGGTTGTCGAT -AAACGCTCACTTGGTTAATCATTTCACTCTTCAATTATCTATAATGATGAGTGATCAGAATTACATGTGAGAAATTATGC -AAACGGAACACGTCATTTTATTGAATGCACAGGGAGTTCCCACGGGTACGCTGGAAAAGTATGCCGCACACACGGCAGAC -ACCCGCTTACATCTCGCGTTCTCCAGTTGGCTGTTTAATGCCAAAGGACAATTATTAGTTACCCGCCGCGCACTGAGCAA -AAAAGCATGGCCTGGCGTGTGGACTAACTCGGTTTGTGGGCACCCACAACTGGGAGAAAGCAACGAAGACGCAGTGATCC -GCCGTTGCCGTTATGAGCTTGGCGTGGAAATTACGCCTCCTGAATCTATCTATCCTGACTTTCGCTACCGCGCCACCGAT -CCGAGTGGCATTGTGGAAAATGAAGTGTGTCCGGTATTTGCCGCACGCACCACTAGTGCGTTACAGATCAATGATGATGA -AGTGATGGATTATCAATGGTGTGATTTAGCAGATGTATTACACGGTATTGATGCCACGCCGTGGGCGTTCAGTCCGTGGA -TGGTGATGCAGGCGACAAATCGCGAAGCCAGAAAACGATTATCTGCATTTACCCAGCTTAAATAAAAAAACCCCGACATT -TGCCGGGGTTGTGAGCATAACGTAATGCTTATTTTACCGGACGCATCGCCGGGAACAGAATAACGTCGCGGATGGTATGG -CTGTTGGTGAACAGCATTACCATACGGTCGATACCAATTCCCAGACCTGCTGTCGGCGGTAAGCCATGTTCCAGTGCGGT -GACGTAATCTTCATCGTAGAACATCGCTTCGTCGTCACCTGCGTCTTTCGCGGCAACCTGATCCAGGAAGCGTTGCGCCT -GATCTTCCGCGTCATTCAGCTCGCTAAAGCCGTTACCGATTTCACGACCACCAATGAAGAACTCAAAGCGGTCTGTGATT -TCCGGGTTAACGTCGTTACGACGCGCCAGCGGAGAAACTTCTGCCGGATATTCAGTAATGAAGGTCGGCTGAATCAGATG -TGCTTCTGCCACTTCTTCGAAGATCTCGGTAACGATACGGCCCAGACCCCAGCTCTTCTCAACGTGGATGCCGATAGATT -CAGCAATTGCTTTCGCAGAGTCGAAGTTGTCCAGATCCGCCATGTCGGTTTCCGGGCGATATTTCTTGATCGCTTCACGC -ATGGTCAGTTTTTCGAACGGTTTACCGAAGTCCAGCGTCACGTCGCCGTAGGTCACTTCCGTCTTACCGAGAATATCCTG -TGCCAGAGTACGGAACAGCGATTCGGTCAGCTCGATCAGATCTTTGTAATCTGCGTAAGCCATGTAGAGTTCCATCATGG -TGAACTCTGGGTTATGACGTACGGAAATACCTTCGTTACGGAAGTTACGGTTGATTTCGAATACACGCTCGAAGCCACCA -ACCACCAGACGCTTGAGGTACAGTTCCGGCGCGATACGCAGGTACATGTCGAGATCCAGCGCGTTATGGTGGGTGATAAA -CGGACGCGCAGCGGCACCGCCAGGGATCACCTGCATCATCGGCGTTTCAACTTCCATAAAGCCGCGGTTCACCATGAACT -GGCGAATACCAGAGAGGATCTGCGAGCGCACTTTAAAGGTGTTGCGGGATTCATCGTTGGAGATGAGATCGAGATAACGC -TGACGATAGCGCGCTTCCTGATCCTGCAAGCCGTGGAATTTATCCGGCAGCGGACGCAGTGCTTTGGTCAGCAGACGCAA -CTCGGTGCAGTGGATAGACAGTTCGCCGGTTTTGGTTTTGAACAGCTTACCTTTCGCGCCGAGGATGTCGCCGAGGTCCC -ATTTTTTGAACTGCTCGTTATAAACGCCTTCCGGGAGATCGTCACGGGCAACGTACAGCTGAATGCGACCGCCAACGTCC -TGCAGGGTAACGAAAGACGCTTTACCCATAATACGACGGGTCATCATGCGGCCAGCAACGGCGACTTCGATGTTCAGCGC -TTCCAGTTCTTCGTTCTCTTTGCCGTCGAATTCTGCGTGCAATTGGTCAGAGGTATGATCGCGACGGAAATCGTTCGGGA -AGGCAATCCCCTGCTCGCGCAGGTTCGCCAGCTTCTCACGACGCGTTTTCAGTTCATTGTTAAGATCGACTACCGCGTCA -GCGCCCTGTGCGTGTTGTTCAGACATGTTGGTTCCTCATAACCCTGCTTTCAAACTTGCTTCGATAAATTGATCCAGGCT -GCCGTCCAGCACGGCCTGCGTGTTGCGGGTTTCTACCCCGGTGCGCAGATCTTTAATGCGGGAGTCATCAAGGACATAAG -AACGAATCTGGCTGCCCCAGCCGATGTCGGATTTGTTATCTTCCATCGCCTGTTTCTCGGCATTTTTCTTCTGCATCTCC -AGTTCATAAAGCTTCGCTTTCATCTGCTTCATGGCCTGATCTTTGTTCTTGTGCTGGGAACGGTCGTTCTGGCACTGGGT -CACGATCCCGGTCGGGATGTGGGTAATACGCACCGCAGATTCGGTACGGTTAACGTGCTGACCGCCCGCGCCGGACGTGC -GATAAACGTCAATGCGCAGATCCGCCGGGTTGATTTCGATATCAATATCATCATCAACTTCCGGATAAACAAACGCGGAG -CTGAACGACGTGTGGCGACGACCGCCGGAGTCAAACGGGCTTTTACGCACCAGGCGGTGAACGCCGGTTTCTGTACGCAG -CCAGCCGTAAGCGTAATCGCCGGAGATTTTGATCGTCACGGATTTAATACCCGCCACTTCACCTTCCGACTCTTCGATGA -TTTCAGTTTTGAAACCACGCGATTCTGCCCAGCGCAGATACATACGCTCAAGCATGCTCGCCCAGTCCTGTGCTTCCGTA -CCGCCAGACCCCGCCTGAATATCGAGGTAGCAGTCGGCGCTGTCATATTCGCCAGAGAACATACGGCGGAACTCAAGCTG -CGCCAGTTTTTCTTCCAGGGCGTCGAGTTCAGCAACGGCTTCGTTAAAGGTTTCTTCGTCGTCAGCTTCTACAGCCAGTT -CCAGCAGACCAGAAACATCTTCCAGCCCCTGTTTCATTTGGTCGAGGGTGTCGACAACGGCTTCGAGGGAGGAACGCTCT -TTACCCAGCGCCTGTGCGCGTTCGGGTTCGTTCCAGACATCCGGCTGTTCCAGCTCGGCGTTTACTTCTTCCAGACGCTC -TTTCTTGGCGTCGTAGTCAAAGATACCCCCTAAGAACGTCGGAGCGTTCCGTGAGGTCCTGAATGCGATTATTTACCGGA -TTAATTTCAAACATGGTCTGATTTCTTTTATTGAGCTAGTCAAAATGCGGTGATAAGAGCGGGATTGTACCCAATCCACG -CTCTTTTTTATAGAGAAGATGACGCTAAATTGGCCAGATATTGTCGATGATAATTTGCAGGCTGCGGTTGCCGCGAAACT -CGTTGATATCGAGCTTATAAGCCAGTTGCACTTCGCGCACGCCGTTATCCGGCCAGAGGGCGGTATCGACATTAAAAGCA -ATACCATCCAGCAGTGGACCGCCGCCGACCGGTTCGACCATCACCTTCAAATGACGTTCGCCCACCAGCCGCTGTTGCAG -CAGACGGAAATGACCGTCAAACAGCGGCTCCGGGAACATCTGCCCCCACGGGCCAGCATCGCGCAGCAGCTGCGCCACTT -CCATGGTCATTTCGGCCGGGCTTAACGGACCGTCTGATACCACTTCGCCTTGCAATAGCGAAGGGTCCAGCCACTCAGTA -ACCAGTTCGCCAAACCGTTGTTGAAAGAGTTTGAATTTATCCTCTTCCAGCGACAAACCCGCCGCCATCGCATGACCGCC -AAACTTCAGCATCATGCCAGGGTAGAGTGTGTCTAATCGCTCCAGCGCATCACGCATATGCAGCCCCTGAATGGAGCGAC -CGGAACCTTTCAGCGTACCGTCACCTGCTGGCGCAAACGCGATAACCGGACGGTGAAAACGCTCTTTGATGCGCGAAGCC -AGAATACCGACAACGCCCTGATGCCATTCGGGGTGATACATTGCCAGCCCGCCGGGTAGCGTGTCACGGCTGCGCTCCAG -TTTCTCGCACAGGGTCAGGGCTTCAATTTGCATTCCTTGTTCGATCTCTTTTCGCGTCTGGTTTAGCGCATCGAGTTCAT -TTGCCAGCACGCGCGCTTCGCCGATGTTGTCGCACAACAACAGCGCCACACCGACGGACATATCGTCCAGTCGTCCGGCA -GCATTGAGACGTGGCCCCAGCGCAAAACCTAAATCGCTGGCGGCGAGTTTTTGTGCATCACGGTTTGCCACTTCAAGCAG -CGCTTTAATCCCCGGACGGCACTTTCCGGCTCGGATGCGACTCATCCCCTGCCAGGTCAGAATGCGATTATTAGCGTCCA -GCGGCACGACGTCCGCCACTGTCCCCAGCGCGACCAGATCCAGCAGTTCTGCCAGGTTAGGAATTGCGATGTTACGCTCA -TCAAACCAGCCCTGATCGCGCAAAAAGGTGCGCAGCGCCAGCATCAGATAAAACGCCACACCCACGCCTGCCAGTGATTT -CGACGGGAAATTACAGTCGCGCAAGTTAGGGTTAATGATCGCTTCCGCTGCGGGTAATGTGTCGCCTGGCAAATGGTGAT -CGGTAACAATAACCGGGATGCCCAACGAGCGAGCGTGCTCAACCCCCGCATGGGAGGAAATACCGTTATCCACCGTGACA -ATTAACTGCGCGCCACGGGCATGGGCCTGATCGACCACTTCCGGGCTTAAGCCGTAACCGTCTTCGAAACGGTTTGGTAC -CAGGTAGTCGATATTGCTGCAACCAAGCGAGCGCATCGCCAGCACGCTTAGAGCCGTGCTGGTCGCGCCGTCGGCGTCGA -AATCACCGACCACAATAATCCGCGTTCCTTCGCGAAAAGCGTTGTAAAGGATCTCAACGGCCTTTTCGACGCCGCTCAGT -TGCTGCCAGGGCAGCATACCTTTAACACTGCGTTCCAGTTCTTGCGCACTGCGTACTCCCCGGCTGGCGTATAAACGGCG -CAGCAAGGGAGGCAATTCAGCGGGCAAGTCTGCCGTTTCATCGACTTCACGGCGACGAAGTTGTATCTGTTGTTTCACGC -GAATTATTTACCGCTGGTCATTTTTTGGTGTTCGTCGAGGAATTCTTTCATCTCTTTCGGCGGCTGGTAACCCGGAACAA -GTGTGCCATTGCTCAGCACAACTGCCGGAGTACCGCTAACGCCAAGCTGGACGCCAAGTGCGTAATGGTCGGCAATATCC -ACGTCGCAACTGGCTGGTGCGACGCTTTTACCTGCCATCACATCATCAAACGCTTTGTTTTTATCTTTCGCACACCAGAT -AGCTTTCATTTCTTTCTCTGCATCGCTGTCCAGCCCCTGGCGCGGGAAAGCAAGATAACGCACGGTGATCCCCAGCGCGT -TGTAGTCTGCCATTTGCTCATGCAGTTTGTGGCAGTAACCACAGGTAATATCAGTAAACACGGTGATGACGTGTTTTTCC -TGCGGCGCTTTATAAACGATCATCTCTTTTTCAAGCGCATTCAACTGCTTTAACAGCATCTTATTGGTGACATTGACCGG -AGCCGTGCCACTAACGTCATACATTGGCCCCTGAATGATATGTTTACCATCATCGGTGATGTACAACACGCCGCTGTTAG -TCAGAACTGTCTTCATGCCAGCTACAGGCGCGGGCTGAATATCGCTGCTTTTGATGCCCATTTTGGCTAACGTTTGTTGA -ATTGCCGCGTCATCAGCCTGAGCAAAGCCTGAAAACGCCGCTAACAAAGTAAACAACATAAAACCTTTCTTCATAAATCT -TCCCGTTCTTTTCAGACATCACGCCCGCGGGTGATGCTGTTGATGAAGTTGCCGCAGACGCTCGGTAGCGACATGCGTAT -AAATTTGCGTGGTGGAGAGATCGCTGTGGCCCAGTAGCATCTGCACCACGCGTAAATCCGCACCATGATTTAATAAATGA -GTGGCAAAAGCGTGACGCAACACATGCGGTGACAGCTTTTCGCTGTCGATACCCGCCAGCACAGCATAATGTTTAATACG -GTGCCAGAAGGTCTGTCGCGTCATCTGCTGCGCACGCTGGCTGGGAAACAACACGTCAATTGACACACCATTCAGCAGCC -ACGGACGCCCATGTTCCAGATAGGTTTCCAGCCAGTAAACCGCCTCTTCACCTAACGGCACCAGACGCTCTTTGTTGCCT -TTACCAATGACCCGTACCACGCCCTGACGCAGGCTGATATCACTCATTGTCAGTCCGACCAGTTCAGAGACACGCAGCCC -GGTAGCATACAACACTTCAAGCATGGCTTTATCGCGTAGCTCCAGTGGCTGATCGATTAATGGTGCCTGTAATAAACGTT -CGACCTGCGCTTCGCTTAAATCTTTTGGCAAACGCTGGGGCAATTTCGGTGAAGCGAGATGCGCACTGGGATCGTCTTCA -CGAAACTTTTCGCGATAAAGATACTGGAACAATCGGCGCACTGCACTCAGCAAACGCGCTGAGCTGGTGGCTTTATACCC -GCCCTCCAGCCGTTCTGCCAGTAATGCCTGCAAATCGTCACTTTGCGCCGTCGCCAGCGTCAACCCGCGGTGATGCAACC -ACTCCACCATCATTGACAGATCGCGACGGTAAGCGTTCAACGTATTTTCAGCCAGATTTTTTTCCAGCCACAGAGCATCA -AGAAACTGCTCGATGCGTGCCAGATCCTGTTTCACTTGCGCCCCTTATGGTCACTCATTTGATCCATTATGCCTTATTGT -GCCGTGACTAAAGCGATTCTGATACACTAGCCGCAAAAGCCACAGCAGAATCGAGAAGCTTACGTTATGAATATGGGTCT -TTTTTACGGTTCCAGCACCTGTTACACCGAAATGGCGGCAGAAAAAATCCGCGATATTATCGGCCCAGAACTGGTGACCT -TACATAACCTCAAGGACGACTCCCCGAAATTAATGGAGCAGTACGATGTGCTCATTCTGGGTATCCCGACCTGGGATTTT -GGTGAAATCCAGGAAGACTGGGAAGCCGTCTGGGATCAGCTCGACGACCTGAACCTTGAAGGTAAAATTGTTGCGCTGTA -TGGGCTTGGCGATCAACTGGGATACGGCGAGTGGTTCCTCGATGCGCTCGGTATGCTGCATGACAAACTCTCGACCAAAG -GCGTGAAGTTCGTCGGCTACTGGCCAACGGAAGGATATGAATTTACCAGCCCGAAACCGGTGATTGCTGACGGGCAACTG -TTCGTGGGTCTGGCGCTGGATGAAACTAACCAGTATGACCTTAGCGACGAGCGTATTCAGAGCTGGTGCGAGCAAATCCT -CAACGAAATGGCAGAGCATTACGCCTGATCTCACTGACGGCTTAGCGCATATGCTTTGCCGTCATCTTTATCTTTGCGTC -TCTTGTTGCAACAAAATCCGCCGTAAATCCCGCCATTCAGCTTCGTCCATGCTGTCGGCTGCCAGCCATAAATGTTGCCG -TTTACCGCCATCAGAACGTAAACGCAGCATCATGCCGCTCTTAATCATCCACGGTGCTTTGACGATGCTCCACTCCTGCC -CTTGCCAACGCAAACGCCCGTCCATCAACAAGCGAATTTCCCCCTGGCGAGCATTAATACGCCGCTGGCTGCGAACGCAA -TCAAACACCACCAGCGAAAGTAACACCATCCATAACGGGGTGTAACTGAGTGGCCAGGGCATGAGTAAAATAACAGCGGC -AACCAGCCCATGAATCAGCAAGGAAAGCCACTGTGCGCGCCAGGAGACGCGCAAATCAGATTGCCACAGGACCACGTTCC -CGGTTCCGTGTCTGGATGAGTCGGACCATCATTTCCAGTTCTGCATCGGCCGGTTTACCGTGATTCATCAGCCAGTTAAA -CAGGTCCGGATCGTCACATTCCAGCAGACGAATAAAGATGCGTTTTTCGTCATCGCTTAAGCTGTCGTACTCATGTTCGA -AAAACGGCATGATTGAAATATCGAGTTCGCGCATACCACGGCGGCATGCCCAATGAATGCGGGCTTTGTTGTTAATGTCC -ATCTTCTTCCTGTCTCACGAAAATCCAGTACCCGGCTATTGTAACGTGTTTTTCGCCTTCTTTTACGGGAATATCAGTAA -ACACCATCGCGATCGCGAAATTAATTCACAACAATTCAATGGCTTCATTTTTTTGGAAGTCGCCTCGCAGAAGGCACAGA -TCGCGTAGTGAAAGCACTTGCATTGCCTCATAGCTCTTTTACCATTAGTCATTAATACGCCGTTAAGCAACTCAGGACTC -TATTATGGCTTTTACACCTTTTCCTCCCCGTCAGCCTACGGCTTCTGCCCGTTTACCGCTGACGCTGATGACGCTTGATG -ACTGGGCGCTTGCCACCATTACTGGCGCGGACAGCGAAAAATATATGCAGGGTCAGGTGACAGCAGATGTCAGCCAGATG -GCAGAAGATCAGCACCTGCTCGCCGCCCATTGCGACGCCAAAGGTAAAATGTGGAGCAATTTACGTCTGTTCCGCGACGG -CGATGGCTTTGCATGGATTGAACGGCGCAGCGTGCGTGAACCGCAGCTGACTGAACTGAAAAAATATGCGGTATTCTCTA -AAGTGACCATCGCGCCAGACGACGAGCGTGTGCTGCTTGGTGTTGCCGGTTTTCAGGCGCGCGCCGCGCTGGCAAATCTC -TTTAGCGAACTGCCTTCGAAAGAAAAACAGGTAGTCAAAGAAGGCGCGACCACTTTGCTATGGTTTGAACACCCGGCAGA -ACGTTTCCTGATCGTAACCGATGAAGCTACTGCTAATATGCTGACCGATAAACTGCGCGGTGAAGCGGAACTGAACAATA -GCCAACAGTGGCTGGCATTAAACATTGAAGCGGGTTTCCCGGTGATTGATGCCGCCAACAGCGGGCAGTTTATCCCACAG -GCGACCAATCTCCAGGCGCTGGGCGGTATCAGCTTTAAGAAAGGCTGTTATACCGGACAAGAGATGGTGGCGCGAGCAAA -ATTCCGTGGTGCCAATAAACGTGCGCTCTGGTTGCTGGCAGGTAGCGCCAGCCGACTGCCGGAAGCTGGTGAAGACTTAG -AGCTGAAAATGGGCGAGAACTGGCGTCGTACCGGTACGGTACTGGCTGCGGTAAAACTGGAAGATGGTCAGGTCGTGGTA -CAGGTCGTCATGAATAACGATATGGAACCGGATAGCATCTTCCGCGTACGCGACGATGCGAATACATTGCATATCGAGCC -GCTGCCGTATTCGCTCGAAGAGTAAATCTCTTTATCGCATCAGGCATTTATCGCCTGATGCGACGCTGGCGCGTCTTATC -ATGTCTGGGATTTGATGCCTTTATCACAACAGGGACGAGGCCCGTAGATCGGATAAGGCGTTCACGCCGAATCCGGCAGT -TGTGCTCCGATGCCTGATGCGACGCTGGCGCGTCTTATCAGGCCTACAAAGGCATACCCATTACGCCTGCCCAATATACA -AATAGATCGCCAGAAAGTGGCACACACTACCGCCGAGCACGAAGCCGTGCCAGATGGCATGGTTGTATGGAATGCGTTTG -CAGACGTAGAAAATCACCCCGAGCGAATAAACCACGCCGCCTACCGCCAGTAAGGTAACGCTGCCCGCCGCGAGCTTAAC -TGCCATTTCATAAATTACCACCAGCGACAGCCAGCCCATCGCCAGATAGGTCACCAGAGATAAAATTTTGAATCGGTGCG -CGATGGTCAGTTTAAACAGAATACCCAGCAATGCCAGGCTCCAGATAACAATCATCAACCCGCGCGCTAACGGAGAATCC -AGCCCCACCAGCAAAAACGGCGTGTAGGTTCCGGCAATCAACAGGTAAATAGCGCAATGGTCAAATTTCTTCAGCCACAT -TTTTGCCCGTTGATGAGGAATGGCGTGATAGAGCGTCGAAGCGAGGAACAGCAGGATCATACTGCCGCCATAGAGGCTGT -AGCTGGTTATCGCTGTGGCGCTGGCATTAAGATCCACCGCCTGAACCAGTAGCAACACCAGCCCAACGATACCAAACACC -AACCCAATGCCGTGACTGACGCTGTTGGCTATTTCCTCTGCCAGTGAATATCCCTGCTTAATGAGGGGCTTCTGAACCAT -AACTTACTCCGGAGAAACGTACACGCACATGTATACCTCTCCAGCGTAACTGAGAATAGTTCCAGTGAACACCTGTTAGC -TAAAATAAATTCTGATTTGAGACTAATCTCCTAAAAATCATGAAATTAAATGCGAAATTTCAACTAACAGGCGTGAGTTC -AATTTAAAGACATTTAAATTCAATCACATAAAATTGTGTCTGACCGGGATAGATGTCAGCAATGACTTTTTTCAGTTCAG -TCAGGGTCATATTTTCCTGCTCTGCATGTTTTTCAGTCAGCGTATCCAGCGTTACGGTTGAGGTTGCGGTGACTTCAATC -GTGCAAAAATAACCGTCATCTTCAAAACGTCCGACACGAAGCACATCACCCGTTTTGAAGTGCGATTCAGACTCGTCGCG -GATGGTGATGGTTTTACGCCCAGCCAGAATGTCATCCTGGAAACGTTGAAAAAAAGTGATGTCGTTTGGCTGCATGGTAC -TATTTCCTGTAAGAATTGACTCATCTGGAGCCTATGATAGTGAAAAAACTCACCTTACCGAAAGATTTCTTATGGGGCGG -CGCAGTTGCCGCTCATCAGGTCGAAGGCGGCTGGAACAAAGGCGGAAAAGGGCCGAGCATTTGTGACGTTCTGACCGGTG -GCGCACACGGCGTGCCGCGCGAAATCACCAAAGAAGTCTTGCCAGGAAAATACTATCCAAACCATGAAGCCGTTGATTTT -TATGGTCACTATAAGGAAGACATCAAGCTATTTGCCGAAATGGGCTTCAAATGTTTTCGTACATCCATTGCCTGGACGCG -CATTTTTCCAAAAGGCGATGAAGCTCAGCCAAACGAAGAAGGGCTGAAGTTCTACGATGATATGTTCGATGAACTGCTGA -AATACAACATCGAACCGGTGATCACCCTCTCCCACTTTGAAATGCCGCTGCATCTGGTGCAGCAATACGGTAGCTGGACC -AACCGTAAAGTGGTTGATTTCTTTGTACGTTTCGCGGAAGTGGTATTTGAACGCTATAAGCACAAAGTCAAATACTGGAT -GACCTTCAACGAAATTAACAACCAGCGTAACTGGCGTGCACCGCTGTTCGGTTACTGCTGCTCCGGCGTGGTGTATACCG -AGCATGAAAACCCGGAAGAGACGATGTATCAGGTGCTGCATCACCAGTTTGTCGCCAGCGCCCTGGCGGTGAAAGCTGCG -CGTCGCATTAACCCGGAGATGAAAGTCGGCTGTATGCTGGCGATGGTGCCGCTCTATCCTTACTCCTGTAACCCGGACGA -TGTGATGTTCGCTCAGGAGTCGATGCGCGAACGCTACGTCTTTACCGATGTGCAGCTACGCGGCTATTACCCGTCCTATG -TGTTGAACGAGTGGGAGCGTCGCGGATTTAACATCAAAATGGAAGACGGCGATCTGGATGTGCTGCGTGAAGGCACCTGC -GATTATCTTGGTTTCAGCTATTACATGACCAATGCAGTGAAGGCCGAAGGCGGCACCGGCGATGCGATCTCTGGTTTTGA -AGGCAGCGTACCAAACCCGTATGTTAAAGCATCTGACTGGGGCTGGCAGATTGATCCAGTAGGTCTGCGCTATGCACTTT -GCGAACTGTATGAGCGTTATCAGAGGCCGCTGTTTATTGTCGAAAACGGTTTTGGCGCTTACGACAAAGTGGAAGAAGAT -GGCAGCATCAACGACGACTACCGCATTGACTACCTGCGCGCCCATATCGAAGAGATGAAAAAAGCGGTGACTTACGATGG -CGTGGATCTGATGGGCTACACACCGTGGGGCTGCATCGACTGCGTGTCGTTCACCACCGGGCAGTACAGCAAACGCTACG -GCTTTATCTATGTGAATAAACATGACGACGGTACTGGCGATATGTCGCGTTCACGTAAGAAGAGCTTTAACTGGTACAAA -GAGGTGATTGCCAGCAACGGCGAGAAGCTTTAAGTCGATGAAGTACCGGATGCAATACTTGTTGCATCCGGTCAGACAAC -TTCCCTGTTTTATTTCCCGCCCGCCAAATCGATAAAACTTCCCGTGACGTAAGAGGCTTTATCACTTAGTAGCCAGACAA -TGGCCTGCGCGACCTCTTCTGCCTGTCCACCACGCTGCATGGGGATGTTCGACTTAACGCGATCGACGCGTCCAGGCTCG -CCGCCGCTGGCGTGCATTTCGGTATAAATAAACCCTGGCCGCACGCAGTTAACGCGGATCCCCTGCGCGGCGACTTCCAG -CGATAGTCCGGTGGTTAACGTATCAATCGCCCCTTTCGATGCCGCGTAATCAACATATTCCCCTGGCGAACCCAACCGTG -AGGCCACCGAAGAGACATTGACGATAGCGCCGCCACTGCCACCATTTTTAAGCGCCATGCGTTTTACCGCCTCGCGGCAG -CAGAGAAAATATCCCGTCACGTTGGTGGAAAGTACTCGGTTGATTCGCTCTGCGGTAAGGTTTTCAACGGTGCACTGGGT -AAACAAGATCCCGGCGTTATTGACCAGCGCTGCTAGCGGTTCATCGTGCTGATCGATTGCTGTAAACATCGCAACGACCT -GGTTTTCGTCGCTGATATCCGCCTGGAGCACGAATGCTTTGCCACCGGCTTGCGTTATTAAGTTCATCACTTCCTGCGCC -GCGTGGAGGTTTTGCTGATAATTAACCGCCACCGTATACCCTTCTTGCGCCAACAGTAATGCAGTTGCCCGCCCGATGCC -GCGACTGCCACCAGTCACAAGTGCTATAGCCATTTGTTTTTCCGAGAAAAATTAATTCGTTGACGTATCTTTGAGATTGC -TAACAAACTGGCTCAATCTTCAATGTTGGCACGCTTTTCCCCCTCGCCCTTTCAGGGAGAGGGCCGGGGTGAGGGTAAAT -ATTCGCGCCAGTGCCGGCCTGTTCCCCTCACCCTAACCCTCTCCCCAAAGGGGCGAGGGGACTGTCTGAGCACTTTTGTA -CTTTGTCATCTGACTAAAAAGGCGCCGAAGCGCCTTTAGAAAATAGTCGAATCAGTGAATTACTGGTATTCGCTAATCGG -TACGCAGGAGCAGAACAGGTTACGGTCGCCGTAAACATCATCCAGACGTTTCACTGTCGGCCAGTATTTGTCTGCCACAC -CTGCCGGGAATACCGCAACTTCACGGCTGTACGGATGCGCCCACTCGGCGACCAGTTCGCTCTGAATGTGCGGCGCGTTC -ACCAGCGGGTTATCTTCCAGCGGCCAGACACCGGCTTTCACCTGGTCAATTTCTGCGCGGATAGCCAGCATCGCGTCGAT -AAAGCGATCCAGTTCCACTTTGCTTTCAGATTCAGTCGGTTCAACCATCAGCGTACCCGCCACCGGGAACGACATCGTCG -GCGCGTGGAAACCGTAGTCGATCAGGCGCTTGGCAATATCCAGCTCGCTGATGCCGGTTTCTTCTTTCAGCGGGCGAATA -TCGAGAATACATTCGTGCGCCACGCGACCGTCGCGACCGGTATACAGCACCGGGAAGGCATCCTGCAGGCGGCTGGCAAT -ATAGTTGGCGTTGAGGATTGCCACCTGGCTTGCTTTTTTCAGCCCTTCTGCGCCCATCATGCGGATGTACATCCAGCTGA -TTGGCAGGATAGAGGCGCTACCGAACGGTGCCGCAGAAACCGCGCCCTGACGGGTTAACATGCCTTCGATTTGCACCACG -CTATGACCCGGTACAAACGGTGCCAAATGCGCTTTCACGCCGATCGGTCCCATACCCGGACCACCACCGCCGTGCGGAAT -GCAGAAAGTTTTATGTAGGTTAAGGTGTGAAACGTCCGCACCAATAAAGCCCGGCGAGGTGATGCCAACCTGGGCGTTCA -TGTTCGCGCCATCAAGGTAAACCTGACCGCCGAACTGATGCACGACTTCACACACTTCACGGATCGTTTCTTCATACACG -CCGTGGGTAGAAGGATAAGTCACCATGATACAGGAGAGGTTATCGCCCGCCTGTTCCGCTTTCGCGCGCAGATCAGTCAG -ATCGATGTTGCCGTTTTTATCACACGCCACAACCACCACCTGCATTCCTGCCATATGTGCAGAAGCGGGGTTAGTTCCGT -GCGCAGAAGCCGGGATCAGGCAGATATCGCGATGCCCTTCGTTGCGGCTTTCATGATAATGACGAATCGCCAGCAGGCCC -GCGTATTCGCCCTGTGCGCCAGAGTTCGGCTGCATACAAACGGCGTCGTAACCGGTCAGTTTCACCAGCCAGTCAGCCAG -CTGCGCAATCATCTGCTGATAACCTTCGGCCTGCTCCGGCGGGCAGAACGGGTGCAGTTCGGCAAATTCCGGCCAGGTGA -TTGGGATCATCTCGGCGGCGGCGTTCAGTTTCATGGTGCAGGAACCCAGCGGGATCATCGCCTGATTCAGCGCCAGATCT -TTACGCTCCAGCGAGTGCATATAGCGCATCATTTCGGTTTCGCTGTGGTAGCGATTAAACACCGGATGGGTGAGGATTTC -GTCGTCGCGCAGCATCGCAGGCTGGATAGAGCGGCTGTCGTGAGCCACGTCTTTGTCCAGCGTGTCGATGTCCAGGCCGT -GGTTATCGCCCAGCAGCACGTTGAAAAGCTGCATTACGTTTTCACGCGTGGTTGTTTCATCAAGGGTGATCCCAACCGCG -TTCAGAATATCGCTACGCAGGTTGATTTCAGCCGCTTCGGCACGCGTCAGTACGCCCGCTTTGTCGGCCACTTCCACACA -CAAGGTGTCGAAATAGTGCGCATGGCGCAGTTTCAGACCTTTTTGTTGCAGGCCCGCCGCCAGGATATCGGTCAGACGGT -GAATGCGGTTAGCGATACGTTTCAGGCCAACCGGGCCGTGATAAACGGCATACAGGCTGGCGATGTTTGCCAGCAGTACC -TGGGAAGTACAAATGTTGGAGTTCGCTTTCTCACGGCGGATATGTTGCTCGCGAGTCTGCATCGCCATGCGCAGCGCGGT -ATTGCCAGCTGCATCTTTCGATACACCGATAATACGGCCCGGCATTGAGCGTTTGTATTCATCTTTCGCCGCAAAGAATG -CCGCGTGTGGGCCACCGTAGCCCATCGGCACGCCGAAGCGTTGCGCCGAACCAAAAACAATATCCGCGCCCTGTTTACCC -GGCGCAGTTAACAGCACCAGCGCCATAATATCGGCGGCAACGCTGACCACAATTTTGCGTGATTTCAGTTCGCTAATAAG -CGCAGTGTAGTCGTGAATTTCACCGGTAGTGCCTACCTGCTGTAACAGCACGCCGAAGACGTCCTGATGGTCGAGCACTT -TTTGCGCGTCATCGACAATCACTTCAAAACCAAAGGTTTCGGCACGAGTACGGACCACATCCAGCGTTTGCGGATGCACA -TCGGAAGCCACGAAGAAGCGGTTGGCATTTTTCAGTTTGCTGACGCGTTTCGCCATCGCCATTGCTTCGGCGGCAGCGGT -GGCCTCGTCCAGAAGAGAAGCAGAGGCCATATCCAGTCCAGTCAAATCCAGCGTTACCTGCTGGAAGTTGAGCAGTGCTT -CAAGGCGGCCCTGGGAGACTTCAGGTTGATACGGAGTGTACGCGGTATACCAGCCCGGATTTTCCAGCATGTTACGCAGG -ATAACCGGCGGTAGCTGCACGGCGGTGTAACCCATGCCGATGTAAGACGTGAAGCGTTTATTGCGACTGGCAATAGCCTT -GAGTTCTGCCAGTGCGGCGTATTCGGTCGCCGGTGCGCCAACCTGCGGTGGTGTCGCAAGTTGAATATCTTTCGGCACAA -TCTGGCCGGTCAGCGCGTTTAACGATTGTGCACCAACGGCATTCAGCATTTCTTGCTGTTGCGCGGCGTCCGGTCCGATA -TGGCGTTCAATAAAAGCGCCGCTGTTTTCAAGCTGGCTTAACGTCTGTGTCATGAGCGATGGTTCCTGAAACGTGCAGTG -AATTGTGAACCTCTCTCCTTACGAAGAGAGTGAGGGTGAGGCATAAATTTTCCTCACCCTGATCCTCTCCCGCAGAAGAG -GAATAAAGCCGTTACTCGTCTTCTAACAATGCTTCGTATGCGGTCGCATCCAGCAGTGATTCCAGTTCGCTTTCATCGCT -GGCTTTGATTTTAAAGATCCAGCCGCCTGCATACGGTTCGCTGTTCACCAGTTCCGGGGAATCGCTCAGTGCGTCGTTTA -CCGCCACGATTTCACCGCTTACTGGCGCATAAATGTCTGACGCCGCTTTTACCGATTCGGCAACCGCGCAGTCATCGCCC -GCGCTAACCGTTGCGCCCACTTCCGGCAGGTCAACAAACACCATATCGCCTAACAGCTCCTGAGCATGTTCGGTAATACC -AACGGTGTAAGTGCCGTCGGCTTCTTTACGCAGCCATTCGTGTTCTTTGCTGTATTTCAGTTCTGCTGGTACGTTGCTCA -TCAATCAATCTCCAAAAAAGTAAATCACGCGACGGCTTTGCCGTTACGCACAAAAACAGGTTTTGTCACTTTAACCGGCA -TTTCACGGTTGCGAATTTGCACAATCGCCGTTTCGCCAATACCTTCCGGCACGCGCGCCAGCGCAATGCTGTAACCCAGC -GTCGGGGAGAAAGTACCGCTGGTGATAATGCCTTCATGCTGGTTGCCCTGCGCATCGGTAAAGCGTACCGGCAGTTCATT -ACGCAGCACGCCTTTTTCGGTCATCACCAGACCAACCAGTTTTTCTGTACCATGCTCACGCTGCACTTCCAGGGCTTCAC -GACCGATAAAGTCACGATCTGCCGGTTCCCAGGCGATGGTCCAGCCCATGTTGGCGGCTAAAGGAGAGATGGTTTCGTCC -ATCTCCTGACCATAAAGATTCATGCCCGCTTCCAGACGCAGCGTGTCACGCGCGCCCAAGCCACATGGCTTAACACCCGC -TTCCACCAGCGCACGCCAGAAATCGGCCGCTTTTTCATTGGGCAGCGCAATTTCATAGCCCGCTTCACCGGTATAACCAG -TGGTGGCAATAAACAGATCGCCCGCCTGCACGCCAAAGAACGGTTTCATCCCTTCCACCGCCTGACGCTGGGCGTCATTA -AACAGTGTGGCAGCTTTTGCCTGCGCATTCGGCCCTTGCACGGCAATCATGGAAAGGTCATCACGAACGGTAATTTCGAT -GCCGAAAGGTTCAGCGTGTTGGGTAATCCAGGAGAGGTCTTTTTCGCGGGTGGCGGAGTTAACAACGAGGCGGAAGAAAT -CTTCAGTAAAGTAGTAGACGATGAGGTCATCTATCACACCGCCAGAGGCATTCAACATCCCCGAGTAAAGGGCTTTGCCG -CTTTTGGTGAGCTTCGCCACATCGTTCGCCAGCAGATAACGCAAAAACTCCCGGGTGCGGCTGCCGCGAAGATCGACGAT -GGTCATATGTGACACATCAAACATTCCGGCATCGGTACGTACCGCATGATGTTCGTCGATTTGCGAACCGTAATGCAGCG -GCATCATCCAGCCGTGGAAATCCACCATGCGAGCGCCGCAAAGCGTGTGTTGTTCGTACAAAGGAGTCTGTTGTGCCATC -TTGTCCTCATTGAATAAGCGGGGCTGACAACTTTTTCATGGTGAAATTATCACCACGAAACCCAGCATCGGAGCCACTCC -CGGTCCCCAACGCAATCGTTCTCTTTTGCCTGAACTTACCACCGAAACAGACTGTTAACCATAAGGTAAAATTGATCATC -ACATTAGCTTATGGTTAAAAAATGCAAAAATCGCGACAGAATAAAAAACCAAAAAATACACCAGTTTCTATACAAAGATG -ATGTGATGAGAAAGTCAATTTGAATAAGACAATATTAAGAGCTAAAAAAATGTCAAAAAACACTAAATCAAAAAATAATG -GCATTAGAAAATATAATGCGAAAACGGAGGTGAAATTAGTTTATTTCAAATGAGGAAAATCTCCCGGCGAAAAAACCGGG -AGATGAAAGTGTGATGGGTATCAAATAAACAACAGAGGAGAAATTTTTAACGCAGCCATTCAGGCAAATCGTTTAATCCC -ATTGCCTGGCGGATAAGTTGCGGCTTAACGCCAGGAAGCGTGTCGGCCAGTTTCAAACCAATATCACGCAGCAGTTTTTT -CGCCGGATTGGTACCGGAAAACAGATCGCGGAATCCCTGCATACCAGCCAGCATCAACGCCGCACTGTGCTTGCGGCTAC -GCTCATAGCGACGCAGATAAATGTACTGCCCGATGTCTTTCCCCTGACGATGCAACCGTTTCAGTTCGGCAATCAGCTCT -GCAGCATCCATAAAGCCGAGATTTACCCCCTGCCCCGCCAGCGGGTGAATGGTATGTGCGGCGTCGCCCACCAGCGCCAG -ACGGTGCGAGGCAAACTGGCGCGCATAACGCCCCGTCAGTGGGAACACCTGACGCGCGCTCTCAACCTTGCATAAGCCCA -GGCGATTATCAAAAGCGATATTTAACGCGCGATTAAATTCGTCTTCACTTGCCTGCTGCATCCGCTGCGCTTCCTCTGGC -GACAGTGACCAGACAATCGAGCAAAGATGCGGATCGCTAAGCGGTAAAAAGGCCAGAATGCCTTCGCCATGGAAAACCTG -CCGCGCCACCGCATCATGCGGTTCTTCCGTGCGAATGGTCGCTACCAGCGCGTGATGCTGATAATCCCAGAAAGTCAGCG -GAATATCGGCTTTGTTGCGCAACCAGGAATTAGCGCCGTCCGCGCCAATCACCAGACGCGCCGTTAACATGCTGCCATCT -TTCAGCGTCAGGAAGGTTTCATTTTCTCCCCAGGCGACCTGCTGTAATTCTGCGGGGGCTAACAGAGTGATATCTGACGA -CTGATGCGCTTTGTTCCACAGCGCGTAGTGAATCACTGAATTTTCAACGATATGCCCAAGATGGCTATAGCCCATGCTTT -GATCGTCAAACGAAATGTGACCAAAGCTGTCTTTGTCCCACACTTCCATACCGTGATAACAGCTGGCCCTACGAGAGAGA -ATGTCCTGCCAGACGCCAAGACGGGTGAGTAATTTTTCGCTGGCGGCATTGATAGCCGAAACGCGCAGTTGTGGTGGTGC -ATTCGCCGCCAGAGGTTCCTGTACGCGCTGCTCCAGTACGGCAACGCGTAAGCCGCTCCCCTGTAAGCCACAGGCAACCG -CCAGCCCCACCATGCCGCCGCCAACAATGGCTACATCAACACTTTGCATTGTTTATTCCTTAAAACCGCCTTCAACGCGC -CACCCAACCGAGGGTGCGCTGCGCCAGCACATCGCGTGCCGGGGTGAATAATTCCATCGTCATCAGCCCGATGTTGCGCC -CGACAACCAGCGGTGCCCAACGGTTGGCAAAAAGATGTACAAGGCTGTCCGTGACGCCAATGGTTGCTTCGCGATCGCTC -TGTCGACGCTGCTGATAACGGCACAATACGCCGTAATCCCCCATGTCTTCTCCGCGCTCCTGCGCCTGAGTCAGGGTTTC -CGCAAGACTCATCACATCTCGCATACCGAGGTTAAACCCTTGCCCGGCAATCGGGTGCAGAGTTTGCGCCGCATTGCCCA -CCAGCACGGTACGATGGGTAATAGATCTGGCGGCGTGGGTTAACGCCAGCGGATAAGCACTGCGTTTACCAGCGTGGGTA -ATTTTCCCAAGTCGCCAGCCAAAGGCCGACTGGAGTTCACGGCAAAACTTCTCGTCACTCCACGACAACACCTCTTCGCG -CCGTTCCAGTGGATGACACCAGACCAGCGAACAGCGTCCGTCAGACATCGGCAACATCGCCAGCGGGCCATGTTGCGTAA -AGCGTTCAAAAGCGCGCCCTTCATGCGCAACGGAAGTAGCAACGTTGGCAATCACGGCCAGTTGTTCGTAAGGCTCCTGC -TGCCAGTCAACGCCGCACGCGGTGGCTAACGCTGAATGGGTGCCATCAGCTGCTACCAGCACGCGGCCCGTCAGCGTCTC -GCCACTCTCCAGCGTCACTTCAACGTGACTCTGAGTACGGGCAACGTTAGCCACGCGATCAGGGCAATGCAGCGTTACGC -CAGGTGCTTTACGCAGCAATGCAAACAGCCGTTGCCCGACATTGTGCAATTCGACAACCTGTCCCAGCGCCGCCAGTTGG -TAATCTTCTGCGGCGAGGGTGACAAATCCAGCGTGACCACGATCGCTGACATGCACGGTGGTGATGGCAGTTGCGCAATC -CGCCAGAGATTGCCAGACGCCGATGCGCGCCAGTTGCTGACAGGTACCCGCCGCCAGCGCTATCGCTCGTCCATCAAAGC -CCGGATGAGCATGTGACTCTGGCGCAGTCGCTTCAATCAAATGTACCGGCAGCGCCCCGTGACTTAACCGGGAAATAGCC -AGCGCCAGCGTCGCGCCCGCCATGCCGCCACCGACGATGATTACGCTCATTGCTTTCTCGCAGCAACCATCAACGCTTCG -ATTTCTTCCGGCTTTTTCACCACGCTGGCGGTGAGGTTTTCGTTACCGGTTTCGGTAATCACAATGTCGTCTTCAATACG -AATGCCGATACCGCGATATTGTTCTGGCACTTCTGCATCCGGCGCAATATACAGCCCTGGCTCTACGGTCAGTACCATGC -CCGGTTCCAGAATGCGCGAGCGATCCTGACCATAAACACCCACGTCATGGACATCCAGTCCTAACCAGTGGCTAAGGCCA -TGCATAAAGAAAGGACGATGGGCGTTCTGAGCGATCAGTTCATCAACATCACCTTTCAGGATGCCGAGTTTTACCAGGCC -GCTAACCATGATGCGCACCACTTCACCAGTGACTTCCAGAATGGAAGTTCCCGGACGATACAGGCGCAGGCTGGTTTCGA -GAGACTCCAGCACAATGTCGTAGATTTCACGCTGGGCCTGGGTGAATTTGCCGTTGACCGGGAAGGTGCGGGTAATATCG -CCAGCGTAACCTTTGTATTCACAACCCGCGTCAATCAACACCAGGTCGCCGTCGCGCATTTCACACTCGTTTTCGGTGTA -GTGCAGAATGCAGCCGTTTTCACCGCTGCCGACAATGGTGTTATAGGACGGATAGCGCGCACCGTGGCGGTTAAATTCGT -GGTGAATTTCGCCTTCCAGATGGTACTCGAACATTCCCGGACGGCATTTTTCCATCGCCCGTGTATGTGCCATGGCGGTG -ATTTCTCCCGCGCGGCGGAGTACGGCAATCTCTTCTGGCGATTTGAACAGGCGCATTTCATGAACAACAGGACGCCAGTC -GATCATCGTTGCCGGTGCGGTGAGATTTTGCCGCGAACCTTTACGCAGTTTTTCCAGCGCACTGTTCACGATTACATCAG -CATATGCATATTCGCCCTGGGCATGGTAAACCACATCCAGGCCGTTAAGTAGTTGATAAAGTTGCTGATTGATTTCGCTG -AATGCCAGTGCGCGGTCAACGCCCAGTTTCTCTGGCGCGGCATCCTGGCCTAAGCGACGGCCAAACCAGATCTCCGCCGT -CAGGTCGCGAACGCGGTTAAACAGAACGCTGTGGTTATGAGTGTCATCGCTTTTAATCAGCACCAGCACCGCTTCCGGTT -CGTTAAAGCCGGTGAAGTACCAGAAGTCACTGTTCTGACGATAGGGGTATTCGCTGTCGGCGCTACGTGTTACTTCTGGT -GCAGCAAAAATCAGCGCGGCGCTGCCGGGTTGCATTTGCTCCACCAGGGCCTGACGGCGACGCTGAAACTCTTGCCGGGA -TATCTCACTCATAACACTCTCCTTACGTTTTTTGTTTTTAGTGTAGAGTCGGTTTTTGTACTTCTGGCGCGGTCGGTTGC -GGATGAGTAAAGGTGTCGTGGCATAACAGCGCGGCAACACGAACGTATTCGATGATCTCTTCAAGCGACATTTCAAGCTC -TTCCTGATCTTCGTCTTCGTCGTAACCCAGTTGCGCAATGTTACGCAGATCGTCGATAGCTTCACCGGTTTCGCCGGTCA -CTTTATCCAGCTTCGGTTGCGTAACGCCAAGACCAAGCAGGAAGTGATTGACCCAACCTGCCAATGCATCAGCCCGATCG -AAAACGCTGACATCATCGCCATCAGGCAGATAAAGCTGAAAAAGGAAGCCGTCATCCTGCAGGGCATCGCTGGTGGCAGA -GTGCATTTTACGCAGTGCCTGTGCCAGCTCATGACCGAAAGCCATGCCTTCGTTCGTCAGGTCGTGAAGTAGCGGTAGCC -ATGAGCTGTCATCGTTACCGCCACATATCATCCCGCTGATTAAACCATGCATCTCAGCTGGGGTCAGACCCGTCCCTTGT -TGGTTCAGATACTGGTTCATTTCGTTGTAACCAGGCATTTCGTTCTGTATAGACATAAGCATTCGTCGTCAAAGGGAGGA -ATATTCATGATATGCTACCACTTTGGGCCCTGGTGGACCAGAAAAGGGCTTGTCTCTTCTCATCAGGGTAGCTATAGTGT -CGCCCCTTCGCAGACCATGGGTCTAAAGACGAAGGCAGCGCAGTCAATCAGCAGGAAGGTGGCATGTCTGCACAACCCGT -CGATATCCAAATTTTTGGCCGTTCACTGCGTGTGAACTGCCCGCCTGACCAAAGGGATGCGTTGAATCAGGCAGCGGACG -ATCTGAACCAACGGTTGCAAGATCTGAAAGAACGCACTAGAGTCACAAATACTGAACAGTTGGTCTTCATTGCCGCATTG -AATATCAGCTATGAGTTAGCGCAAGAAAAAGCAAAGACTCGTGACTACGCGGCAAGTATGGAACAGCGTATTCGGATGCT -GCAGCAGACCATAGAACAAGCGTTACTTGAACAAGGTCGCATCACCGAAAAAACTAACCAAAACTTTGAATGACACTTTT -CGGTTTACTGTGGTAGAGTAACCGTGAAGACAAAATTTCTCTGAGATGTTCGCAAGCGGGCCAGTCCCCTGAGCCGATAT -TTCATACCACAAGAATGTGGCGCTCCGCGGTTGGTGAGCATGCTCGGTCCGTCCGAGAAGCCTTAAAACTGCGACGACAC -ATTCACCTTGAACCAAGGGTTCAAGGGTTACAGCCTGCGGCGGCATCTCGGAGATTCCCTTCTTATCTGGCACCAGCCAT -GACGCAACTACCAGAACTCCCACTGACATTATCCCGACAAGAAATCCGCAAAATGATTCGGCAACGTCGTCGTGCGTTAA -CGCCGGAACAACAGCAGGAAATGGGTCAACAAGCCGCTACCCGGATGATGACTTATCCCCCGGTGGTGATGGCACATACG -GTCGCTGTATTCCTCTCTTTTGATGGCGAACTCGACACCCAGCCACTCATAGAACAACTCTGGCGCGCCGGTAAGCGCGT -ATATCTTCCAGTTTTGCATCCCTTTAGTGCCGGTAATTTGCTGTTCCTGAATTACCATCCGCAAAGCGAACTGGTGATGA -ACAGGTTGAAGATCCATGAGCCAAAATTGGATGTGCGTGACGTGCTACCCCTTTCCCGATTAGACGTGCTGATCACACCG -CTGGTCGCCTTTGATGAGTACGGTCAGCGCCTGGGAATGGGCGGTGGTTTTTATGATCGGACCTTACAAAACTGGCAGCA -CTATAAAACGCAACCGGTGGGTTATGCGCATGATTGTCAGTTGGTGGAAAAACTCCCCGTTGAAGAGTGGGATATCCCTC -TTCCTGCGGTGGTTACACCGTCGAAAGTCTGGGAGTGGTAAGGGCGATACACCCGCATCGCCCTGATTGACATCGTTGAT -TCTTTGACCTAATTTAGTGAGTAAGGGTAAGGGAGGATTGCTCCTCCCCTGAGACTGACTGTTAATAAGCGCTGAAACTT -ATGAGTAACAGTACAATCAGTATGATGACAAGTCGCATCATAACCCTTCTCCTTCAAGCCCTCGCTTCGGTGAGGGCTTT -ACCGTTACAGCCCCATGCTGCCCTGCCATCGTAAATCCCCATTAAATAAACACAACGCATTGATCTGACTTTGATTTATT -TTCTGGAGCAGACTCGCAAAGTAGAATGCGCAACGCGGCAACGGTGTGGAGAAGGGATAAAAAAACGGGCAAGTCAGTGA -CCTGCCCGTTGATTTTCAGAGAAGGGGAATTAGTACAGCAGACGGGCGCGAATGGTACCCGGAATAGCTTTCATTGCCTG -CAGCGCTTTTTCGGCAACGTCTTCGTCGGCTTCAATATCAATAACCACATAACCCATCTGGGCGGAAGTTTGCAGATATT -GCGCGGCGATGTTGACGCCCTGCTCGGCGAAGATTTTGTTCAGCGCAGTTAGCACGCCCGGACGGTTTTCGTGGATGTGC -ATCAGACGACGCCCACCGTGCAGTGGCAGCGAGACTTCCGGGAAGTTCACCGCAGAGAGCGTTGAGCCATTGTCAGAATA -CTTGATCAATTTACCCGCAACTTCCAGGCCGATATTCTCCTGCGCTTCCTGAGTCGAACCGCCAATGTGTGGCGTCAGAA -GGACGTTGTCGAATTCACACAGCGGAGAGGTAAATGGATCGCTATTGGTCGCCGGTTCCGTCGGGAATACGTCGATTGCC -GCCCCCGCCAGATGTTTGCTCGCCAGCGCATCACACAGCGCCGGAATATCCACCACAGTACCGCGCGAAGCATTAATCAG -CAGCGAGCCGGGCTTCATTAGTGAAATTTCTTTCGCGCCCATCATATTTTTGGTGGACGGATTCTCTGGTACATGCAGAC -TCACCACATCGCTCATATTCAGCAGGTCAGAAAGATGCTGTACCTGAGTGGCGTTGCCCAGCGGCAGTTTATTTTCAATA -TCATAAAAGTAAACATACATTCCCAGCGATTCAGCCAGAATGCCCAATTGCGTACCAATATGACCGTAGCCGATGATACC -CAGCTTTTTGCCGCGCGCTTCAAAAGAACCCGCCGCCAGTTTGTTCCACACGCCACGGTGCGCTTTAGCATTGGCTTCCG -GCACGCCGCGCAATAGCAGCAGCAGTTCGCCAATCACCAGCTCCGCAACAGAGCGCGTATTTGAGAACGGTGCGTTAAAT -ACCGGGATCCCGCGCTTTGCCGCCGCATCCAGATCAACCTGGTTTGTTCCGATACAGAAACAGCCAATAGCGACCAGTTT -TTCTGCGGCGTTGATCACGTCTTCAGTCAGATGGGTACGGGATCGCAGGCCGATGAAGTGGGCATCGCGGATGGATTCTT -TTAATTGTTCATCATCCAGCGCGCCTTTGTGAAATTCGATGTTGGTGTAACCAGCTGCACGAAGGCTTTCCAGCGCCTTT -TGGTGCACGCCTTCTACCAGCAGAAACTTAATCTTGTCTTTCTCCAGCGATACCTTTGCCATTTACCCAATCCTGTCTTT -TGAAATGTTGTGTGCGGATTTGCATCCGCCTTTCAACATATCAAAAAATAATATTGCGGCAATATGAACGTTTGCGTCGC -GATGTTGAGGAAATATCACGCAAAGGTAATTCTTGGATGAATATGCTGGTTTAGAGGATTTATTTAGAGCAATCGACAAT -TGCCTGGTAAAAGCGTGACACATGTCACCAAATTTAATGAAGAGAATTTTTTTAACGGGGGAGGTTCCCCCGTCAGATCA -TTTCACAATGGTTTTGACACCGTCAGGTGTGCCAATCAGCGCAACGTCCGCGCCACGGTTAGCAAACAAGCCAACAGTCA -CCACGCCAGGAATCGCATTTATGGCGTTTTCCATCGCTATCGGGTCAAGGATTTCCATGCCGTGGACGTCGAGGATCACG -TTGCCATTATCGGTCACCACGCCCTGACGGTATTCCGGACGACCGCCCAGTTTCACCAGCTGACGCGCCACTGCACTACG -TGCCATCGGGATAACTTCTACTGGCAGCGGGAATTTACCCAGAATATCAACCTGCTTGGAAGCGTCTGCAATACAGATAA -ATTTTTCTGCAACCGAAGCAATGATTTTTTCACGGGTCAGCGCCGCGCCGCCGCCTTTGATCATTTGCATGTGGCCGTTG -ATTTCATCTGCGCCATCAACGTAGATGCCAAGGCTGTCGACTTCGTTGAGATCAAAAACGTGAATGCCGAGGCTTTTCAG -TTTTTCAGTGGAAGCATCTGAACTGGAAACGGCCCCTTCAATCTGGCCTTTCATTGTACCGAGCGCGTCAATAAAGTGTG -CGGCGGTGGAACCTGTACCTACACCAACAATGGTGCCGGGCTGAACATACTGAAGTGCCGCCCATCCTACTGCTTTTTTC -AATTCATCCTGCGTCATGATCGTTTCGCCTGTGGTATGAAATTTCACACGCATTATATACAAAAAAAGCGATTCAGACCC -CGTTGGCAAGCCGCGTGGTTAACTCATCCATAAAATATCGCGCAATGGCAGGCATCCCCTTTCGCCCCGCAAATAAAGCA -TACAACGGTCTGGGTATGCCGCTCCACGGTGCAAACAGGCGCACCAGTTCACCGTTCGCAAGCCCCTGTTTACAGGCAAA -TTGAGGCAATAACGCCACGCCATTCAACACAACCAGGGCGCGAACTCGCTGAGCGAAATGCATTAGCGCAAATCCCTGAT -CTTTTAAGCTGCGCTTTTAACCACGGATACAAATGTTACCCGCCGACGGCTTCGGTATATGCAACCTGACACAAAATTGT -GTCATAGTGCAGGAAAAAGCATTTACCAGGAGCAGACAACAGCAATGAAACGCCCGGACTACAGAACATTACAGGCACTG -GATGCGGTGATACGTGAACGAGGATTTGAGCGCGCGGCACAAAAGCTGTGCATTACACAATCAGCCGTCTCACAGCGCAT -TAAGCAACTGGAAAATATGTTCGGGCAGCCGCTGTTGGTGCGTACCGTACCGCCGCGCCCGACGGAACAAGGGCAAAAAC -TGCTGGCACTGCTGCGCCAGGTGGAGTTGCTGGAAGAAGAGTGGCTGGGCGATGAACAAACCGGTTCGACTCCGCTGCTG -CTTTCACTGGCGGTCAACGCCGACAGTCTGGCGACGTGGTTGCTTCCTGCACTGGCTCCTGTGTTGGCTGATTCGCCTAT -CCGCCTCAACTTGCAGGTAGAAGATGAAACCCGCACTCAGGAACGTCTGCGCCGCGGCGAAGTGGTCGGCGCGGTGAGTA -TTCAACATCAGGCGCTGCCGAGTTGTCTTGTCGATAAACTTGGTGCGCTCGACTATCTGTTCGTCAGCTCAAAACCCTTT -GCCGAAAAATATTTCCCTAACGGCGTAACGCGTTCGGCATTACTGAAAGCGCCAGTGGTCGCGTTTGACCATCTTGACGA -TATGCACCAGGCCTTTTTGCAGCAAAACTTCGATCTGCCTCCAGGCAGCGTGCCCTGCCATATCGTTAATTCTTCAGAAG -CGTTCGTACAACTTGCTCGCCAGGGCACCACCTGCTGTATGATCCCGCACCTGCAAATCGAGAAAGAGCTGGCCAGCGGT -GAACTGATTGACTTAACGCCTGGGCTATTTCAACGACGGATGCTCTACTGGCACCGCTTTGCTCCTGAAAGCCGCATGAT -GCGTAAAGTCACTGATGCGTTACTCGATTATGGTCACAAAGTCCTTCGTCAGGATTAATCCATCAAATAATGCCTGATAG -CACATATCAGGCGTTGTCCTCACTTCTTTTTGTATTCCTTGAATCACATCACAAAATAGACAAATCTCAGGCGGCAAAAA -ACGACGTCTGAATGCATTTTTTTTGCTGGCGACAAACCCACGTAAAAAGCTCACCGTAGGCGCAAATACCCTCATTTTGA -TTGCGTTTTACGGAGCAAATAATGTCTAACGTGCAGGAGTGGCAACAGCTTGCCAACAAGGAATTGAGCCGTCGGGAGAA -AACTGTCGACTCGCTGGTTCATCAAACCGCGGAAGGGATCGCCATCAAGCCGCTGTATACCGAAGCCGATCTCGATAATC -TGGAGGTGACAGGTACCCTTCCTGGTTTGCCGCCCTACGTTCGTGGCCCGCGTGCCACTATGTATACCGCCCAACCGTGG -ACCATCCGTCAGTATGCTGGTTTTTCAACAGCAAAAGAGTCCAACGCTTTTTATCGCCGTAACCTGGCCGCCGGGCAAAA -AGGTCTTTCCGTTGCGTTTGACCTTGCCACCCACCGTGGCTACGACTCCGATAACCCGCGCGTGGCGGGCGACGTCGGCA -AAGCGGGCGTCGCTATCGACACCGTGGAAGATATGAAAGTCCTGTTCGACCAGATCCCGCTGGATAAAATGTCGGTTTCG -ATGACCATGAATGGCGCAGTGCTACCAGTACTGGCGTTTTATATCGTCGCCGCAGAAGAGCAAGGTGTTACACCTGATAA -ACTGACCGGCACCATTCAAAACGATATTCTCAAAGAGTACCTCTGCCGCAACACCTATATTTACCCACCAAAACCGTCAA -TGCGCATTATCGCCGACATCATCGCCTGGTGTTCCGGCAACATGCCGCGATTTAATACCATCAGTATCAGCGGTTACCAC -ATGGGTGAAGCGGGTGCCAACTGCGTGCAGCAGGTAGCATTTACGCTCGCTGATGGGATTGAGTACATCAAAGCAGCAAT -CTCTGCCGGACTGAAAATTGATGACTTCGCTCCTCGCCTGTCGTTCTTCTTCGGCATCGGCATGGATCTGTTTATGAACG -TCGCCATGTTGCGTGCGGCACGTTATTTATGGAGCGAAGCGGTCAGTGGATTTGGCGCACAGGACCCGAAATCACTGGCG -CTGCGTACCCACTGCCAGACCTCAGGCTGGAGCCTGACTGAACAGGATCCGTATAACAACGTTATCCGCACCACCATTGA -AGCGCTGGCTGCGACGCTGGGCGGTACTCAGTCACTGCATACCAACGTCTTTGACGAAGCGCTTGGTTTGCCTACCGATT -TCTCAGCACGCATTGCCCGCAACACCCAGATCATCATCCAGGAAGAATCAGAACTCTGCCGCACCGTCGATCCACTGGCC -GGATCCTATTACATTGAGTCGCTGACCGATCAAATCGTCAAACAAGCCAGAGCTATTATCCAACAGATCGACGAAGCCGG -TGGCATGGCGAAAGCGATCGAAGCAGGTCTGCCAAAACGAATGATCGAAGAGGCCTCAGCGCGCGAACAGTCGCTGATCG -ACCAGGGCAAGCGTGTCATCGTTGGTGTCAACAAGTACAAACTGGATCACGAAGACGAAACCGATGTACTTGAGATCGAC -AACGTGATGGTGCGTAACGAGCAAATTGCTTCGCTGGAACGCATTCGCGCCACCCGTGATGATGCCGCCGTAACCGCCGC -GTTGAACGCCCTGACTCACGCCGCACAGCATAACGAAAACCTGCTGGCTGCCGCTGTTAATGCCGCTCGCGTTCGCGCCA -CCCTGGGTGAAATTTCCGATGCGCTGGAAGTCGCTTTCGACCGTTATCTGGTGCCAAGCCAGTGTGTTACCGGCGTGATT -GCGCAAAGCTATCATCAGTCTGAGAAATCGGCCTCCGAGTTCGATGCCATTGTTGCGCAAACGGAGCAGTTCCTTGCCGA -CAATGGTCGTCGCCCGCGCATTCTGATCGCTAAGATGGGCCAGGATGGACACGATCGCGGCGCGAAAGTGATCGCCAGCG -CCTATTCCGATCTCGGTTTCGACGTAGATTTAAGCCCGATGTTCTCTACACCTGAAGAGATCGCCCGCCTGGCCGTAGAA -AACGACGTTCACGTAGTGGGCGCATCCTCACTGGCTGCCGGTCATAAAACGCTGATCCCGGAACTGGTCGAAGCGCTGAA -AAAATGGGGACGCGAAGATATCTGCGTGGTCGCGGGTGGCGTCATTCCGCCGCAGGATTACGCCTTCCTGCAAGAGCGCG -GCGTGGCGGCGATTTATGGTCCAGGTACACCTATGCTCGACAGTGTGCGCGACGTACTGAATCTGATAAGCCAGCATCAT -GATTAATGAAGCCACGCTGGCAGAAAGTATTCGCCGCTTACGTCAGGGTGAGCGTGCCACACTCGCCCAGGCCATGACGC -TGGTGGAAAGCCGTCACCCGCGTCATCAGGCACTAAGTACGCAGCTGCTTGATGCCATTATGCCGTACTGCGGTAACACC -CTGCGACTGGGCGTTACCGGCACCCCCGGCGCGGGGAAAAGTACCTTTCTTGAGGCCTTTGGCATGTTGTTGATTCGAGA -GGGATTAAAGGTCGCGGTTATTGCGGTCGATCCCAGCAGCCCGGTCACTGGCGGTAGCATTCTCGGGGATAAAACCCGCA -TGAATGACCTGGCGCGTGCCGAAGCGGCGTTTATTCGCCCGGTACCATCCTCCGGTCATCTGGGCGGTGCCAGTCAGCGA -GCGCGGGAATTAATGCTGTTATGCGAAGCAGCGGGTTATGACGTAGTGATTGTCGAAACGGTTGGCGTCGGGCAGTCGGA -AACAGAAGTCGCCCGCATGGTGGACTGTTTTATCTCGTTGCAAATTGCCGGTGGCGGCGATGATCTGCAGGGCATTAAAA -AAGGGCTGATGGAAGTGGCTGATCTGATCGTTATCAACAAAGACGATGGCGATAACCATACCAATGTCGCCATTGCCCGG -CATATGTACGAGAGTGCCCTGCATATTCTGCGACGTAAATACGACGAATGGCAGCCACGGGTTCTGACTTGTAGCGCACT -GGAAAAACGTGGAATCGATGAGATCTGGCACGCCATCATCGACTTCAAAACCGCGCTAACTGCCAGTGGTCGTTTACAAC -AAGTGCGGCAACAACAATCGGTGGAATGGCTGCGTAAGCAGACCGAAGAAGAAGTACTGAATCACCTGTTCGCGAATGAA -GATTTCGATCGCTATTACCGCCAGACGCTTTTAGCGGTCAAAAACAATACGCTCTCACCGCGCACCGGCCTGCGGCAGCT -CAGTGAATTTATCCAGACGCAATATTTTGATTAAAGGAATTTTTATGTCTTATCAGTATGTTAACGTTGTCACTATCAAC -AAAGTGGCGGTCATTGAGTTTAACTATGGCCGAAAACTTAATGCCTTAAGTAAAGTCTTTATTGATGATCTTATGCAGGC -GTTAAGCGATCTCAACCGGCCGGAAATTCGCTGTATCATTTTGCGCGCACCGAGTGGATCCAAAGTCTTCTCCGCAGGTC -ACGATATTCACGAACTGCCGTCTGGCGGTCGCGATCCGCTCTCCTATGATGATCCATTGCGTCAAATCACCCGCATGATC -CAAAAATTCCCGAAACCGATCATTTCGATGGTGGAAGGTAGTGTTTGGGGTGGCGCATTTGAAATGATCATGAGTTCCGA -TCTGATCATCGCCGCCAGTACCTCAACCTTCTCAATGACGCCTGTAAACCTCGGCGTCCCGTATAACCTGGTCGGCATTC -ACAACCTGACCCGCGACGCGGGCTTCCACATTGTCAAAGAGCTGATTTTTACCGCTTCGCCAATCACCGCCCAGCGCGCG -CTGGCTGTCGGCATCCTCAACCATGTTGTGGAAGTGGAAGAACTGGAAGATTTCACCTTACAAATGGCGCACCACATCTC -TGAGAAAGCGCCGTTAGCCATTGCCGTTATCAAAGAAGAGCTGCGTGTACTGGGCGAAGCACACACCATGAACTCCGATG -AATTTGAACGTATTCAGGGGATGCGCCGCGCGGTGTATGACAGCGAAGATTACCAGGAAGGGATGAACGCTTTCCTCGAA -AAACGTAAACCTAATTTCGTTGGTCATTAATCCCTGCGAACGAAGGAGTAAAAATGGAAACTCAGTGGACAAGGATGACC -GCCAATGAAGCGGCAGAAATTATCCAGCATAACGACATGGTGGCATTTAGCGGCTTTACCCCGGCGGGTTCGCCGAAAGC -CCTACCCACCGCGATTGCCCGCAGAGCTAACGAACAGCATGAGGCCAAAAAGCCGTATCAAATTCGCCTTCTGACGGGTG -CGTCAATCAGCGCCGCCGCTGACGATGTACTTTCTGACGCCGATGCTGTTTCCTGGCGTGCGCCATATCAAACATCGTCC -GGTTTACGTAAAAAGATCAATCAGGGCGCGGTGAGTTTCGTTGACCTGCATTTGAGCGAAGTGGCGCAAATGGTCAATTA -CGGTTTCTTCGGCGACATTGATGTTGCCGTCATTGAAGCATCGGCACTGGCACCGGATGGTCGAGTCTGGTTAACCAGCG -GGATCGGTAATGCGCCGACCTGGCTGCTGCGGGCGAAGAAAGTGATCATTGAACTCAATCACTATCACGATCCGCGCGTT -GCAGAACTGGCGGATATTGTGATTCCTGGCGCGCCACCGCGGCGCAATAGCGTGTCGATCTTCCATGCAATGGATCGCGT -CGGTACCCGCTATGTGCAAATCGATCCGAAAAAGATTGTCGCCGTCGTGGAAACCAACTTACCCGACGCCGGTAATATGC -TGGATAAGCAAAATCCCATGTGCCAGCAGATTGCCGATAACGTGGTCACGTTCTTATTGCAGGAAATGGCGCATGGGCGT -ATTCCGCCGGAATTTCTGCCGCTGCAAAGTGGCGTGGGCAATATCAATAATGCGGTAATGGCGCGTCTGGGGGAAAACCC -GGTAATTCCTCCGTTTATGATGTATTCGGAAGTGCTACAGGAATCGGTGGTGCATTTACTGGAAACCGGCAAAATCAGCG -GGGCCAGCGCCTCCAGCCTGACAATCTCGGCCGATTCCCTGCGCAAGATTTACGACAATATGGATTACTTTGCCAGCCGC -ATTGTGTTGCGTCCGCAGGAGATTTCCAATAACCCGGAAATCATCCGTCGTCTGGGCGTCATCGCTCTGAACATCGGCCT -GGAGTTTGATATTTACGGGCATGCCAACTCAACACACGTAGCCGGGGTCGATCTGATGAACGGCATCGGCGGCAGCGGTG -ATTTTGAACGCAACGCGTATCTGTCGATCTTTATGGCCCCGTCGATTGCTAAAGAAGGCAAGATCTCAACCGTCGTGCCA -ATGTGCAGCCATGTTGATCACAGCGAACACAGCGTCAAAGTGATCATCACCGAACAAGGGATCGCCGATCTGCGCGGTCT -TTCCCCGCTTCAACGCGCCCGCACTATCATTGATAATTGTGCACATCCTATGTATCGGGATTATCTGCATCGCTATCTGG -AAAATGCGCCTGGCGGACATATTCACCACGATCTTAGCCACGTCTTCGACTTACACCGTAATTTAATTGCAACCGGCTCG -ATGCTGGGTTAATGACTCGTCCCGTCACGATCTTCAGCAATATGCTGAAGCATCGTGGCGGTATAACGATGATTTCTGAT -TGAATAAAGATATTCCTGCATATACATCGGCCTGTGCGGTGCATCAAAATATTTCAGCGTTGCCGGATTCACCAGTCGCC -AGGCAAAATGCGGGATCACCGTCAGAAAATGTCCGCGCTCCACGGCGCTGATTTTGGCCATAAAACTGTAGGGACGATAA -ATAATGGTTGGATTGATCCCACAAGGTCGCATATTCGCATCAATCATTGCTTCGAAGTTGGCCCGGTTCTGAAAGCGCAT -TTGTAGCCAGGGCAGCTCCTGAAGCAGCTCTTGCTCTTGTCGCTCTTCATAACGGCGAGAAACGAGAAAGCCTAATCGCA -GCGGTGGTAGTTCACTGATAGTCAGGTTTTCCAGTTCCTGAACTCGTGCAGATACATGCTGTGGGGAGATAATAAAATCT -AACTGGCGGTCAAAAAGATTATCGATAACGCCATTTTCGCTGAACTCAACTGGCTGGGCGGTCACGCCTTCATACTTATC -TCCGAGACTAATCAACTGATCGAAAATAATTGTCGGATAAGTATTATCTATGCCAATCACAATTTCTCGTGAACGACGCC -CTGAGTTATGGATTTCATTATCAATCGCAGAAAGCCGTTGATAAACCGGGAACAGTTTTTGATACAGTTCCTGTCCGGCT -TTATTGAGGCTGATATTATTATCTTTGCGGGTAAATAGCGTATAGCCAATTTGTTCTTCCAGCGCGGCAATGCTTTTACC -AAATGGCGAAGCCGTCATATGGATTTTTTCTGCCGCCCGGGCAATATTATTGGTTTGCGCTAATAAAATGAAATTGCGCA -TCTTTTTCGAAATAAAAATGTCCATCCCCCTCCCCCGCATCCTTGTCCGCTTAACCGTTTCAGTCAGCCTATCCTTGATG -AAACCGCGAGCAAAGATAGGTGATTACGTCATGGTTTTACAGAAAATTACAGAAAAAGGAGGCAATATCGGGTAAAGGCA -TTAGCCCGACGAATACGTCGGGCTACAAATATTATTGTGCTGCAGGTGTTTTAGCGGGTTGTTGATCCACAGGTTCTAAC -TGGAAGACCACATCGACCTGATCATCAAACTGAATAGCGGCCTGCTCGTAAGTTTCCTGGGCGGACACCGGCGCGGCATC -GGCTTTCATCATCCGCACCATTGGGCTGGGCTGATAGTTGGAAACATGGTAGCGCACGCTATATACCGGCCCCAGTTTAC -GATGAAAGCCGTTCGCCAGTTCCTGCGCCTGATGAATCGCGTTATCAATCGCTGCCTTACGCGCTTTGTCTTTATAGGCA -TCCGGCTGCGCCACGCCCAGCGACACAGAACGAATTTCGTTAAGACCCGCCTTCAGCGCGCCATCCAGCAAGGAATTCAG -TTTGTCTAACTGACGGAGCGTGACTTCCACCGTTCTCACAGCGCGGTAGCCTTTAAGGATACTTTTACCATCCTGATAAT -CATAATCTGGCTGGGTGCGTAAGTTCGCTGAGCTGATATCTTTTTTCGCGATCTGATTGAGTTCAAGGAAGGAAATGTAT -TGTGCGACGCGCTCATCTGCCTGTTTCTTGGCAGTAGCGGCATCCTTCGCGGCCACGTTAACTTCAATCGCAAGAGTGGC -AATGTCTGGCACCGCATCCACGCTTGCCGTACCGGAGGTGACAATATGCGGTCCATCCGGCAATTCGTTAGCCTGCGCTG -CCATCCCGCTAATACCCATTAATGCCGCCAGGGCGATAACTTTGAACTTCACGTTAGTCTCTCCGTGTTAATTGACTTGC -CCAAAATTCAGGACCTCTGGAGGCAAGCTTAGCGCCTCTGTTTTATTTTTCCATCAGATAGCGCCTAACTGAACAAGGCT -TGTGCATGAGCAATACCGTCTCTCGCCAGCTGCAAGGCAATAAACCACATAACACATCCCACAACCAGATTGATAATGCG -CTGTGCTTTTGCCGTGCGCAGACGCGGTGCCAGCCAGGCTGCGAGAAGAGCCAGACCAAAGAACCACAGGAAAGAGGCGC -TAATTGTCCCGAGTGCAAACCAGCGTTTTGGTTCCACATCAAGTTGCCCGCCAAGGCTGCCCAGTACAACAAAAGTATCC -AGGTAAACATGCGGATTCAGCCAGGTCACTGCCAACATGGTGGCGATAATTTTCCATCTGCCTTGCTTCATGACTTCGGC -GCTGGCTAACTCAATATTACTGCTCATTGCTGTTTTAAAAGCGCCAAAACCATACCACAGCAAGAAGGCTACGCCGCCCC -AGGTGACCAGCGCCAGCAACCACGGCGACTGCATCAATAACGCGCTGCCACCAAAAATCCCGGCGCAAATCAGGACCAAA -TCGCTGATAGCACAAAGTAAGGCAATCATAATGTGGTACTGACGACGTATGCCCTGATTCATCACAAAAGCATTTTGTGG -ACCGAGCGGTAGGATCATAGCCGCCCCAAGTGCAAGACCTTGAAAGTAATAAGAAAACACGTTGGATATTCCGAATTAAG -TATCTGATGCAGAGACTATATCGCGGGATTGTTATTAGCGGAAATTGATAATATTAATTGGCAATCAGAAAAACTAATAA -GAGAGAGGCCAGAGAGTATTATCTGGCCTCAGCGTTGATTACGCAGCTTTGTCTTCTTTCACCCGCTTAAAGTTCACATC -CATTTGCGGGTACGGGAAGCTGATACCGGCGGCATCAAATTCACGTTTAATACGCTCCAGCACATCCCAGTACACGTTTT -GCAGATCGCCGCTGTTGCTCCAGACGCGGACCACGAAATTAATCGACGATGCACCAAGTTCGTTCAGGCGCACAGTCATT -TCGCGATCTTTCAAAATGCGATCTTCAGACTGGATAATATTGGTCAGGATCTGCTTAACCTGATCGATATCGGAATCATA -CGCCACGCCAATAATAAATTCGTTACGGCGAACTGGCTCGCGGGAGAAGTTAATAATATTTCCGGCAATAATTTTACCGT -TCGGAATAACGATAATTTTACCGTCTGCAGTACGCATGGTGGTGGAGAAAATCTGCACACTCAGCACAGTACCGGCTACG -CCGCCCAGGTCAACATATTCTCCGGCACGGAACGGGCGGAACATGACAAGTAACACGCCAGCGGCCAGGTTAGACAGTGA -CCCCTGCAAAGCCAGACCAACAGCTAAGCCTGCGGCACCGAGTACAGCAATGACTGACGCGGTTTGTACACCCACGCGTC -CCAGTGCAGCGATTAGCGTAAAGGCGATAATACCGTAACGGACTAATGCAGAAAGAAAATCAGCAACAGTGGCATCGATT -TTACGGGAGATCATCAGGCGATTCACCGCGTTGGAAATCATCCGCGCGATAATCAAACCAACGATGATGATCGCGAGTGC -CGCCACGATGTTTACTGCATAACTTAGCAGCAGCGCCTGGTTAGCTACCAGCCAGCTTCCCGCGCCGTTTATGCTATCGA -CAACATTCAAATCTTCCATTCAATATTCCTTTTCAACTGACTCAAAATGGAGAAATACACTCCGCCGCCTTATGACGGGC -AGTCTGACAAGGGTAAACAATAAAGCATAATTTTGCCAAATAGATCACAGATTTCTCATCTGAATCACCTTGCTTTTGGC -GAAAAAATCCCCGCAGAGCGGGGCTCAGACAGATATCAATGTGCGCTTTGTCATGCCGGATGCGGCGTGAACGCCTTATC -CGGCCTACAAAAACCTGCAAATTCAATATATTGCAGGATACGTGTAGGCCTGATAAGCGTAGCGCATCAGGCAATTTTGC -TTTTGGCGAAAAAAAGACCCGCAGAGCGGGCCTTGAGATAAGCAGAAAGGAATATCTTACAGAACGTCGATCGCGTTCAG -TTCCTGGAATGCTTTCTCCAGACGAGCGATCATCGAAGTCTGACCGGCACGCAGCCATACGCGCGGATCGTAGTATTTCT -TGTTCGGCTGATCTTCGCCTTTCGGGTTACCCAGCTGACCCTGCAGATAAGCTTCGTTCGCTTTGTAGTAGTTCAGAACG -CCTTCCCAGGTTGCCCATTGGGTATCGGTATCGATGTTCATTTTTACTACGCCGTAGCTTACGGAGTCTTTGATTTCCTG -AGCAGTAGAACCGGAACCACCGTGGAATACGAAGTTCAGGCTGTTGTGCGGCAGGTTGTGTTTCTTGGAAACATATTCCT -GAGAATCACGCAGGATGGTCGGAGTCAGAACCACGTTACCCGGCTTGTAAACACCGTGTACGTTACCGAAGGACGCTGCG -ATGGTGAAACGCGGGCTGATTTTGCTCAGTTCGGTGTATGCGTAATCAACGTCTTCCGGCTGGGTGTACAGTGCAGAAGC -GTCCATGTGGCTGTTGTCCACGCCGTCTTCTTCACCACCGGTGCAACCCAGTTCGATTTCCAGAGTCATGCCGATTTTGG -ACATGCGCTCCAGGTATTTAGAGCAGATTTCGATGTTCTCTTGCAGAGATTCTTCAGACAGGTCGATCATGTGAGAAGAG -AACAGCGGCTTACCGGTAGCTGCGAAGTGTTTTTCACCCGCGTCCAACAGACCGTCGATCCACGGCAGCAGTTTCTTCGC -GCAGTGGTCAGTGTGCAGGATAACCGGAACACCATAATGTTCAGCCATCTGGTGAACGTGATGCGCACCAGAGATCGCGC -CCAGGATAGCAGCACCCTGCGGAACGTCAGATTTCACGCCTTTACCAGCGATAAAGGAAGCACCACCGTTGGAGAACTGA -ACGATAACCGGCGCTTTAACTTTAGCAGCGGTTTCCAGTACGGCGTTGATGGAGTCAGTACCGACGCAGTTTACTGCTGG -CAGTGCGAAGTTGTTTTCTTTTGCTACCTGGAAAACTTTCTGTACGTCATCACCAGTGATTACGCCAGGTTTTACGAAAT -CAAAAATCTTAGACATGTCTCTTGTCCTGTATCGTCGGGCCTTATACTCGTCATACTTCAAGTTGCATGTGCTGCGTCTG -CGTTCGCTCACCCCAGTCACTTACTTATGTAAGCTCCTGGGGATTCACTCTCTTGTCGCCTTCCTGCAACTCGAATTATT -TAGAGTATGAAAAATTGCGTGCTCTAAAAGCGCGCTGAAACAAGGGCAGGTTTCCCTGCCCTGTGATTTTTTACTTCTTA -GCGCGCTCTTCGAGCATCGCTACTGCAGGCAGTACTTTACCTTCCACGAATTCGAGGAATGCGCCGCCGCCAGTGGAGAT -GTAGGAGATTTTGTCAGCAATGCCGAACAGGTCGATTGCTGCCAGAGTGTCGCCGCCGCCAGCGATGGAGAACGCTTCGC -TGTCTGCGATAGCGTTAGCCACGATTTCAGTACCTTTGCGGAAGTTCGGGAATTCGAACACGCCAACCGGACCGTTCCAC -AGAATGGTTTTCGCATTCTTCAGGATTTCAGCCAGTTCCTGAGCGGAAGCATCACCGATATCCAGGATCTGCTCGTCAGC -TTTCACATCGTTAACAGATTTCAGGGTAGCCGGTGCAGTTTCAGAGAACTCGGTTGCTACGCGAACATCAGACGGAACCG -GGATGTTGCAGGTGGTCAGCAGACGTTTAGCTTCGTCAACCAGGTCAGCTTCGTACAGGGATTTACCCACATCGTGGCCT -TGTGCCGCGATAAAGGTGTTAGCGATACCACCACCAACAATCAGCTGGTCAGCGATTTTAGACAGGGAGTCCAGAACGGT -CAGTTTGGTAGATACTTTAGAACCACCAACGATAGCCACCATCGGGCGAGCAGGTTCTTTCAGTGCTTTACCCAGCGCGT -CCAGTTCAGCTGCCAGCAGCGGGCCTGCGCACGCAACGTCAGCGAATTTACCGATACCGTGAGTAGAAGCCTGCGCGCGG -TGAGCAGTACCGAATGCGTCCATTACGAACACGTCACACAGTGCAGCGTATTTTTTGGACAGGGTTTCGTCGTCTTTCTT -CTCGCCTTTGTTGAAGCGAACGTTTTCCAGAACAACCAGTTCACCTTCAGCAACGTCAACGCCGTCGAGGTAATCTTTAA -CCAGACGAACCGGGTTAGACAGTTTGTCTTTCAGGTAGTTAACAACCGGCAGCAGAGAGAATTCTTCGTTGTACTCGCCT -TCGGTAGGACGACCCAGGTGGGAAGTTACCATCACTTTTGCGCCTTGTTTCAGGGCCAGTTCGATGGTCGGCAGAGAAGC -ACGGATACGCGCGTCGCTGGTTACTTTCCCGTCTTTTACTGGTACGTTCAGATCCGCACGGATAAATACACGTTTCCCAG -CAAGATCCAGATCGGTCATCTTAATTACAGACATGGTGAATCCTCTCGTTGATTCTAAAAGTTTTGCAGACGCTGCTTGC -GTCTTACCTGAAAGCAACAGTAGCCATAGCTAACGTCGTGTCGAGCATTCGGTTAGCAAAGCCCCATTCGTTATCGCACC -AGACCAACGTTTTGATCAGGTGTGCGCCACTGACCCGGGTTTGGGTGCCATCGACAATGGCACTGTGCGGATCGTGGTTA -AAATCTACAGAGACCAACGGCAATTCCGTATAGTCAACTATACCATGAAATGCACCTTGTGCTGCTTTTTGCAGCAACAG -GTTGACTTCATTGGCTTTTACAGGTTTCTTCACCGTCACGCTTAAATCGATTGCCGTCACATTTATGGTTGGCACACGTA -CCGCAATCGCTTCAAAGCGATCGTTAAATTGCGGAAAAAATCGTGTGATACCGGCGGCCAGTTTAGTATCGACCGGAATG -ATCGACTGGCTGGCTGCCCGGGTGCGACGCAGGTCAGGATGGTATGCATCAATAACCTGTTGATCGTGCATGGCGGAGTG -AATTGTGGTCACAGTGCCGGACTCAATACCGTACGCATCATCTAACAATTTGATGACGGGAATTATGCAATTCGTGGTAC -AGGAAGCGTTAGAAACGATGCGGTGTTCCGCACGAAGTTGATCCTGATTGACGCCGTAAACAACGGTCGCGTCGAGATCG -TTACTGCCAGGATGTGAAAAGAGCACTTTTTTGGCCCCGGCGGCAATATGCGCTTCGCCATGCTCGCGGGAGCCATATAC -GCCGGTGCAGTCGAGGACTACATCAACGCCAAGTTCACGCCAGGGGAGCGATTGCAGTGAACGTTCATGCAATACGCGGA -TGGCGTCATCACCAACAAAAAGTTGATCGCGTTCCTGTCGTACTTCCCATGCAAAACGGCCATGGCTGGTGTCATATTTC -AACAAATGCGCCATGCCCGCAGCATCCGCCAGTTCGTTGATTGCCACCACGGTAATTTCCGCCCGGCGTCCGGATTCATA -CAAAGCACGAACCACATTACGCCCGATGCGACCGAAGCCATTTATCGCTACGCGTACGGTCATAGATCTCCTGCAAGGTT -TTCCCTGAGCAAATTTGCCAGACAGAGTAATCCAGCAAATCGTCCGGGGAAACCTTACCTGTCGCAAACTGCGACTGATT -GGTTAATTGTCGAACATTTAATCGACTGAAACGCTTCAGCTAGGATAAGCGAAACGTGGAATAAAAGGAATGTTTGTCCA -GCCGAAGAAGACATTTATCTGACTCACATCACACTTTTATCCCCTTTTGTGGGAAGCTTTATTCCAGGCTGGCGTAATAA -TAACCCTACAATAACTGGAATAAATTGTCAGCTTGTGAAGTGATACCGGCCTTCTTCAGTCATCTCTACTATCAGATTGG -CCTGACGGCTATTCATCAGCACACGCTCGACATTGGGGCCATCGGTGCGGGCATAAAATGCTTCGGCTACTTGCCGCGTT -AATCCTCCCGCAATTTTACGACTAATCAAGCGCTCCCGCAGAATTTGAGCAGGTGCATGAATAAAAATAGAAAAATCGCA -GAAAGATGCCAACTCCAGCCACTTTTCATCATCCAGTAACAACCAGTTTCCTTCGACGATGACGAGTGGTGCGGTAACGT -GCAACGCATCTTCAACAGGATCATGCTTTTGTCGATCGTACTGCGGCCACGTACAATCCCCTTCCACGACCTGGCGCAGA -TTTTCCGTCAGTTTCGCAACGTCAAATGTCTCTGGTGCGCCTTTGAAGGGGCGCAATTGATGCGCATCCAGCCAGCTATT -GTAATGGTGAAAACCATCCATCGGGAGCGTCTGAATAGCGGGCAGTTCCGGGTCTTGTTGCGCGAGATATTCCCAGAAGG -TGGTTAGGGTTGATTTACCCGTCCCCGGCGGAGCGCAAAGAAAAACCACCGTACGCCGCTGCGGATTTACCGTCTGTAAG -GCCGCCAACATGTGCAGCAACGGTTTATGTACATTTTCAATCTCTTCGTTCTGGTACTGTGCCTGTATCTTCAGCCCATT -CACCGTTAATTCAATTTTCACGGCGTTAATTCCTTTAAGGTGGTCGTTACTGCCAGCGTCAGCGCCGTTTTGACCATTCC -GCTAAAACGCGCCTCTGACCAGACGGAGAAATCAGCGAACTTCATCGCTTTTAACGCGTCATAGAGCATCGCATTGCGGG -TTATGCTATTGACGTTGCTGATAAAATCCCAGGTCATGTCATCGGCAAATCCGGGCGTTTCATCCTGTTCGTTCAGGTAA -TGCCAGAACTGGGAAAAATGCGTGATATCGGCGTACAACCATTTATCCATTTTCCCCAACGCATAAATCAAACGCAGTGC -AACATCAATATCGTCAAGCGGGCCGCTTTGGGCGAGTAACGGCTTCACTGCATATTCCACGATCTCTTCATCGTTATCGA -CAAACAGCGACGGCAGAAACTGGCGTATCCCCTGGAGCAAAATGGTATGCGCAGTTTTCATAAATGAAAATAAATTGTCC -TGTGCATCCAGTTGCTCAAGCACATCATCTTCTGTCAGCGTCGCCATTGGTCTTCCGATAGATCACCATCAATGCAGGGA -GTCTATTATATTACACGTTTGGTCCGCGCCGCCGATCAGTAATGTCTGCGTCCGCACCCCATTCGCCGTCTGTTGGATAC -CGTTCACCAGCTCACCGCCCGTCACGCCCGTAGCGCTAAAGAGGATATCGTTCCCCCTCACCAGTTCATCGAGCGAGTAC -ACACGGTTAACGTCAACGCCCATTGCCTTGCAACGCTTGCGCTCCTGCTCTGCAATCTGCCGATTTTCCGTGTAATCCCC -TTTAGCCTGGCAAAAGTCAATCAGCTCGGCCTGCATATCCCCGCCTAATGCTTTAACGGCACAGGCAGAAATCACGCCTT -CTGGCGCACCGCCGATGGTGTACATCACATCGTAAGGATTATCCTGCCAGCAGGTCAGCACGCTGGCGGCGACATCGCCA -TCCGGCAGGGCAAAAACCTTCACGCCCAGCTGTGTTGCTTCCTCAATCGCGGCACTCAGGCGCGGTTTATCCAGCGTAAC -CATGCGCAGCTTATCCAGCGGTTTGCCTAACGCTTTCGCCACGTTGCGCAGGTTGTCCGTCAGAGGCAAAGACAGATCAA -TCGCGCCCGCCGCCAGCCGATTAACAACCAGCTTTTTCATATACATATCGGGCGCATGTAACAGGCTATCTCGAGGGGCG -AAAGCCATGACCGCCAGCGCATTGCTCTGCCCCATCGCCACCATCCGCGTGCCTTCAATGGGATCAACCGCGATATCGAC -TTCTGGCCCATCGCCTTTGCCCACCTCTTCGCCAATCCACAGCATCGGCGCATGGTCAATTTCTCCTTCGCCGATAACCA -CTCGTCCACGAAAAGCGACGTCGTTTAATGCCTGGCGCATCGCGGTGACCGCCAGGCCATCAATTTTATTTTTGTCGCCA -CATCCGGTTTGCGGCCAGGCAGCCAACGCTGCCTGTTCCGTAACGCGAAATAATGGCCACGCCAGGGACATCATTGCGCG -GCCTCCCCGATATCAACGCCAAATTGTGCCAGCAGATATTTCTCGGCCTGTTCATTCCAGATGCCGTGCGTTTCCTCAAC -CAGCCGCGCCAACTCTTTAAACAGCGGATCGGTTTTGCCTTTTTCGGCAAAATCGGCAATGGCAGTGAGCGGCATGGTCA -CGCCGTTATAAATGAGTTTTTTACCGCCAGGGATATCCGGCAGATTGAGCACGGTTTCTGGCACCGCATCCAGGCCACCG -ATATGGGTCACCATAAACGACGGCTGTAACTGCCCAGTGGCGCTAAGGGCAATCGCCTCTTTCATGTCGTCCGTTGAACC -GCCAGATGTACCGACGACGTGCGTGCTGTTGTAATGGACGTTGTAGAAATTAAACGGCACTTTGAAGTTTTTATCCGTCG -GCCCGGCAAAGAAGTTCAGACAGCCATCTTCCGCCAGTAATTCATCAGCCATCTCAACGACAGCAGGCACCGCCGCATAA -ACAAAAATGTCATCGAACCCGGCATCTCCTGTCAGCGCCCGCAGCATCTGGACAGGATCGCTCATCCCTTTGGTATTCAC -ATACACCAGCTCAATGCCTTTACTGGCCGCCAGTTCCACCGGCAGCAGCTTCTGTACCTGCGCCAGACGTTTGTCGTCGA -TATCGACCACCACCACCCGCGACGGTTGTATGCCGCCGTTAATGGCGTAATCGATAGCGCCAATGCCCATCGGACCTGCA -CACGCCAGCAGTGCAATATTGCCGCCAGGTTTGACGCCCATGCGATGCTCATAAACATATTGCGTGGTGTGATAATTGGC -ATGATAAGCACCAATAATGCAGCACATAGGCTCTGCCAGCGACGCCGCAGCAAAATAAGAGCCGTGATACGGTAATACGC -AGCCCAAATTAATGGCGATTTCGGGAATAATCATATAAGTGGCATTGCCGCCAAAATATTCGTAGCTGTAGCCCGCTGAA -TATCCGCTTGGTAACCCCATCGCCGGTTGCAATACAAAACGCTGGCCTTTTTTATATTTGCCAGTGAGATTTTTACCCAC -TTCGACAATAACCCCGGCACATTCATGCCCGGTAATGACCGGATGATTTTCTAAATCGTCGGGTACGCGTTTATGTTCAC -TACCGAGTAACGCCGCTTTCCAGGTCGATAAACAGACGCTGTCAGAAATTACACTCACCAGTAATTCATTATCGGTAATT -TCTGGCAGTTCAAATACGCGCAGACGGACATCCCGCTTGCCATAAATAGCAGCAACTTTGGTTTTCATTTTTACCTCTGT -AATCAGTGTTTATGTTCGGCGGTTAATTGATTAAATAAAGTGTCGAGTTTTGGATCGCCAATATAGTTATTAATCAATAT -CAGTGGTTTATCCGTCACACGTTTCACGCGCCCTTCCAGACTGGCATGAGTAACGACGATATCCGCATCCGCAGGCACGT -TTTCTATGGCGTAATGTTTTACTTCAATTGCCAGCCCCGCTTTTTCCAGGCGTTTACGGAAGGTGGTCGCGCCCATCGCA -CTGGAGCCCATCCCCGCATCGCAAACAAAGGCGATACGCTTAACCCTGCTTAACGAGAATGCACCCTCTTGTTTCATCGC -CTTAACCGCATTGGCTGACTGAGCAAACTCATCTTCGCTCTCCGTTTCCACCGTTTTTTCCATCTTCAGTATCAGCGAAG -TAATAGCAAAGGACACCAGGGTACCTACCGTAACACCGGCAATTGTCGCCAGGAACGAGCCTTTCGGCGTCAGTGCCAGG -TAAGCAAAGATAGACCCCGGACTTGGGCCAGCCACCAGACCACCGTCCAGTAAGTTAAACATCCAGGTGCCAGACATACC -GCCCGCAATCATGGCAATAATGGTCAGCGGCTTCATCAGCACATACGGGAAATACAGTTCGTGGATCCCACCGAGGAAGT -GAATAATCATCGCCCCGGGCGCAGAACGTTTACTCATCCCTTTACCAAACAAGGTAAACGCCAGCAGCAGCCCCAGGCCC -GGACCTGGGTTAGAGGCCACCATAAAGAAGATGGATTTACCGTTAACCGAAGCCTGTTGCATTCCCAGCGGATAATAGAC -GCCCTGATCGATCGCATTATTGAGGAAAAGCACTTTCGCCGGTTCATTGATGACTGACAACAATGGCAGATAACCCGCAT -GTACCAGCGCCTCAATACACTCTTTGACGAAAGTATTGGCAATTAACACCGCCGGGCCGATAACTTCAAAACCCAGCAGA -CAAAGGAGCATCCCCGCGATACCTAATGAGAAGTTATTGATAACCATCTCAAAACCGGCAGGTATGCGTTTTTCCAGTGC -CTTATCGACATATTTTATGACCAACCCACCGAGCGGCCCCATGATCATTGAGCCAAGGAACATCGGGATCTCTGCGCCAA -CGATCACACCAATAGTACCTATTCCGCCCATGACCGCCCCGCGTTTACCGCCGACCAGATGACCACCTGTAGAACCAATC -ATCACGGGCAATAAATAGGTAATCATCGGGCCGACAATTTTGGCGAAATGTTCGTTAGGGAAGGTGCGAACAAGTCCCTG -ATATGAGATCATGTTTGTCATCTGGAGCCATAGAACAGGGTTCATCATGAGTCATCAACTTACCTTCGCCGACAGTGAAT -TCAGCAGTAAGCGCCGTCAGACCAGAAAAGAGATTTTCTTGTCCCGCATGGAGCAGATTCTGCCATGGCAAAACATGGTG -GAAGTCATCGAGCCGTTTTACCCCAAGGCTGGTAATGGCCGGCGACCTTATCCGCTGGAAACCATGCTACGCATTCACTG -CATGCAGCATTGGTACAACCTGAGCGATGGCGCGATGGAAGATGCTCTGTACGAAATCGCCTCCATGCGTCTGTTTGCCC -GGTTATCCCTGGATAGCGCCTTGCCGGACCGCACCACCATCATGAATTTCCGCCACCTGCTGGAGCAGCATCAACTGGCC -CGCCAATTGTTCAAGACCATCAATCGCTGGCTGGCCGAAGCAGGCGTCATGATGACTCAAGGCACCTTGGTCGATGCCAC -CATCATTGAGGCACCCAGCTCGACCAAGAACAAAGAGCAGCAACGCGATCCGGAGATGCATCAGACCAAGAAAGGCAATC -AGTGGCACTTTGGCATGAAGGCCCACATTGGTGTCGATGCCAAGAGTGGCCTGACCCACAGCCTGGTCACCACCGCGGCC -AACGAGCATGACCTCAATCAGCTGGGTAATCTGCTGCATGGAGAGGAGCAATTTGTCTCAGCCGATGCCGGCTACCAAGG -GGCGCCACAGCGCGAGGAGCTGGCCGAGGTGGATGTGGACTGGCTGATCGCCGAGCGCCCCGGCAAGGTAAGAACCTTGA -AACAGCATCCACGCAAGAACAAAACGGCCATCAACATCGAATACATGAAAGCCAGCATCCGGGCCAGGGTGGAGCACCCA -TTTCGCATCATCAAGCGACAGTTCGGCTTCGTGAAAGCCAGATACAAGGGGTTGCTGAAAAACGATAACCAACTGGCGAT -GTTATTCACGCTGGCCAACCTGTTTCGGGCGGACCAAATGATACGTCAGTGGGAGAGATCTCACTAAAAACTGGGGATAA -CGCCTTAAATGGCGAAGAAACGGTCTAAATAGGCTGATTCAAGGCATTTACGGGAGAAAAAATCGGCTCAAACATGAAGA -AATGAAATGACTGAGTCAGCCGAGAAGAATTTCCCCGCTTATTCGCACCTTCCTTAGGCAGCCAACCGGTGGGAATAAAT -AACGCAGTAATAAAACCCCAGGCAATAAAAGCACCAATATTGGGGATGACCATTGCAGTCAAAAAGCCCCCAAAAGCCTG -GACCTTTGCACGAGCAGACTTGTTTTCCATAATATTATCCTGTAGAGGAGAGAGTAATTATCCGCGGCTGATAATGTCCG -CTAATTGTTTTTCTGATGATGCTGTTAAGAGTTGTTCGAGTATTTCTTCTTCGCACAGTAATTCACTTAACGCCTGAATA -GCGCCAATGTGCGAATCGGCATCGGCAGCAGAGAGTCCGATGAGTAATTTAATTGGTTCGTCATTCCCCGGAAAATAAAC -ACCTTGTTCAAGTAATGTCAAAGACATCCCGGTTTTAAGCGCCCCACATTCCGGTCGCGCATGAGGCATTGCCACGCCTG -GTGCGAGAATATAATAAGGGCCATTGTTAATGGTGGAATCTTTAATTGCCTGAATGTAATTCTCGCTGATATAGTTTTTA -TCCAGCAATGATACCATCGAGAAATCGATAGCTTCCTGCCAATCTTTTGCTGAATGTATAACTGAGATTGATGATTCTGG -AAAATAATCACTAAGCCGCATAAATTATCCTTATTTTATTTTTAGGGTACCGTCCGGCGGTAAAAATAAAATACTCGTGC -GGTTTAATGAAAGCAATTGAGCAGGGAAACCGGTGTTTTGAAAACAGTGAATTATTAATTTCTTATATAACATTGAGTTA -TAGATATAACAACAAATGTCAATACGCATATCGTGATGCATATTACATAATTGATATTTATTGCATATAAATATTTGTGA -TCTACAACACGCCTTATCTATTGCTTGTCCGCAAACGGACATATCAAGGTAATAAAAAAGGTCGCCGAAGCGACCTTTTT -ACCCGAAATGCTAATTACAGCAGTTCTTTTGCTTTCGCAACAACGTTATCAACAGTGAAGCCGAACTCTTCAAACAGCAG -CTCTGCCGGAGCAGATTCACCGAAGGTGGTCATACCGACGATAGCACCGTTCAGGCCAACATACTTGTACCAGTAGTCAG -CAATACCCGCTTCTACAGCAACGCGTGCAGTAACCGCTTTCGGCAGTACGGATTCACGGTAAGCAGCATCCTGCTTGTCA -AATGCGTCGGTAGACGGCATGGACACCACGCGCGCTTTCACGCCTTCGGCAGTCAGTTTTTCGTAGGCAGCAACAGCCAG -TTCAACTTCTGAACCGGTAGCGATGAAAATCAGTTCCGGCTGACCGGCGCAGTCTTTCAGCACATAACCACCGCGCGCGA -TGTTTGCCAGTTGCTCTTCAGTTCGTTCCTGCTGCGCCAGGTTCTGACGGGAGAGGATCAGTGCGGTCGGGCCGTCCTGA -CGCTCAACACCGTATTTCCACGCGACCGCGGATTCAACCTGGTCACACGGACGCCATGTAGACATGTTCGGGGTTACGCG -CAGAGAAGCGACCTGCTCAACCGGCTGGTGAGTCGGGCCGTCTTCGCCCAGACCGATGGAGTCGTGGGTGTAAACCATCA -CCTGACGCTGTTTCATCAGCGCAGCCATACGTACGGCGTTACGTGCGTATTCCACGAACATCAGGAAGGTGGAGGTGTAC -GGCAGGAAGCCACCGTGCAGGGAGATACCGTTAGCAATCGCGGTCATACCGAACTCGCGAACACCGTAGTGGATGTAGTT -ACCCGCAGCATCTTCGTTGATTGCTTTAGAACCAGACCACAGGGTCAGGTTAGACGGCGCCAGGTCAGCAGAACCGCCGA -GGAATTCCGGCAACAGCGGACCGAACGCTTCGATAGCATTCTGAGACGCTTTACGGCTGGCGATTTTCGCCGGATTAGCC -TGCAGTTTAGCGATGAACTCTTTCGCTTTAGCGTCGAAGTCAGACGGCATTTCGCCTTTCATACGGCGGGTAAATTCAGC -GGCTTCCTGCGGATAAGCTTTCGCGTAAGCAGCGAATTTCTCGTTCCATGCGGATTCTTTCGCCTGGCCTGCTTCTTTCG -CATCCCACTGAGCATAGATTTCAGACGGGATTTCGAACGGCGCATATTTCCAGCCCAGTTGTTCGCGGGTCAGGGCAATT -TCAGCGTCGCCCAGCGGCGCACCGTGGGAGTCGTGGGTACCGGCTTTGTTCGGGGAACCGAAACCGATGATGGTTTTGCA -CATCAGCAGGGAAGGTTTGTCAGTCACTGCGCGCGCTTCTTCTACTGCGCGTTTGATAGATGCCGCGTCATGACCGTCGA -TGTCGCGAATAACGTGCCAGCCGTAAGCTTCGAAACGCATTGCGGTGTCGTCGGTGAACCAGCCTTCAACGTGACCATCG -ATAGAAATACCGTTGTCATCGTAGAATGCAATCAGTTTACCCAGCTTCAGCGTACCCGCCAGAGAGCAAACTTCGTGGGA -GATGCCTTCCATCATGCAGCCGTCGCCCATGAAGGCGTAGGTGTAGTGGTCGACAATGTCGTGGCCCGGACGGTTAAACT -GCGCCGCCAGCGTTTTTTCTGCAATCGCCATACCGACTGCGTTGGCAATACCCTGACCCAGCGGACCGGTGGTGGTTTCC -ACACCAGCGGTGTAACCCACTTCCGGGTGACCCGGAGTTTTAGAGTGCAGCTGACGGAAGTTTTTCAGTTCTTCCATCGG -CAGATCGTAACCGGTGAGGTGCAGCAGGCTGTAGATCAGCATGGAGCCGTGGCCGTTGGACAGCACGAAGCGGTCACGGT -CAGCCCAGGACGGATTCTGCGGGTTGTGTTTCAGGAAATCACGCCACAGGACTTCGGCAATGTCAGCCATACCCATAGGG -GCACCCGGGTGACCGGATTTGGCTTTCTGTACTGCGTCCATGCTCAGCGCACGAATAGCATTGGCAAGCTCTTTACGTGA -GGACATTTTGACTCCAGATCGGATGATGAAGGGCACGCCCTTAACGACTTGACGACAGCGCGTTTTGGGCTACGCCGGAA -AATTTGCCAACAATTTACCGCAAGCCGCGCGTCATGTACATGGAACATCCTTTTGCCGCTTCAGAAATCTCTGGATCATG -CTCGCATGTTGCGCAATCTACTCGCCCGTCCGCTGCGCTTTTCCTTATACTGAGACTGAGCGTCGATTCACCTGCAAACG -GCGCATTTTTAGAATAATCCTGACCTTGTGCGGAAGAGAAAACATGAAAATTCGCGCCTTATTGGTAGCAATGAGCGTGG -CAACGGTACTGACTGGTTGCCAGAATATGGACTCCAACGGACTGCTCTCATCAGGAGCGGAAGCTTTTCAGGCTTACAGT -TTGAGTGATGCGCAGGTGAAAACCCTGAGCGATCAGGCATGTCAGGAGATGGACAGCAAGGCGACGATTGCGCCAGCCAA -TAGCGAATACGCTAAACGTCTGACAACTATTGCCAATGCGCTAGGCAACAATATCAACGGTCAGCCGGTAAATTACAAAG -TGTATATGGCGAAGGATGTGAACGCCTTTGCAATGGCTAACGGCTGTATCCGCGTCTATAGCGGGCTGATGGATATGATG -ACGGATAACGAAGTCGAAGCGGTGATCGGTCACGAAATGGGGCACGTGGCGTTAGGCCATGTGAAAAAAGGAATGCAGGT -GGCACTTGGTACAAATGCCGTGCGAGTAGCTGCGGCCTCTGCGGGCGGGATTGTCGGAAGTTTATCTCAATCACAACTTG -GTAATCTGGGCGAGAAATTAGTCAATTCGCAATTCTCCCAGCGCCAGGAAGCAGAAGCCGATGATTATTCTTACGATCTT -CTGCGCCAACGCGGCATCAGCCCGGCAGGTCTTGCCACCAGCTTTGAAAAACTGGCAAAACTGGAAGAAGGTCGCCAAAG -CTCAATGTTTGACGACCATCCTGCATCCGCCGAACGCGCCCAGCATATTCGCGATCGCATGAGCGCGGATGGGATTAAGT -AAAGCCTGGTGGTGTCGAACGTAGGTCAGATAAGGCGTTCACGCCGCATCTGACATGAATGGCACATTTGTTACCTTGTG -CGCATTGCCGGATGCGATGCTGGCGCATCTTATCCGGCCTACGGGTGCCGAACGTAGGTCGGATAAGGCGTTCACGCCGC -ATCCGACATTAATGGCACGTTTTACCCGTGCGCATCGCATCTGGTGCTTACTCGCCCTTTTTCGCCGCCTGAATATACAG -CATTTCCAGCGCCAGCGTTGCCGCTGCCAGAGCAGTGATTTCCGACTGATCGTATGCCGGAGCCACTTCCACTACGTCCA -TCCCAACAATGTTGAGATCTTTCAGGCCGCGTACCAGTTTAATAGCGCGATCGGAGGTCAGGCCGCCAATCACTGGCGTA -CCGGTGCCTGGTGCAAAAGCAGGATCCAGGCAGTCGATATCAAAAGTCAGGTAAACCGGCATATCACCCACAATCTGTTT -CACTTGGGCGATAACGTCATCCACGCTGCGATCGTTCACCTGGCAGGCGTCCAGCACGGTAAAGCCGTTGTCTTTATCAA -ACTCGGTACGAATACCAATCTGCACGGAATGATTCGGGTCGATCAGACCTTCTTTCGGCGCGGTATAGAACATAGTGCCG -TGGTCAAATTCACAACCGTTCGCATAGGTATCGGTGTGGGCGTCAAAGTGTACCAGCGCCATTTTGCCGAAATGCTTCGC -ATGAGCACGCAGCAGCGGCAGCGTAACAAAGTGGTCACCACCGAAAGAGAGCATACGCTTACCGGCAGCCAGCAGCTTCT -CGGCGTGCGCCTGCAGCTTTTCGCTCATCTCACGGGCATCGCCAAAGGCATATACCAGATCGCCGCAGTCCACGACGTTC -AGACGCTCACGCATGTCGAAATTCCACGGGAAGCGGTTGTGTTCCCAGGCCAGATTCGTCGAAACCTGACGGATCGCTGC -CGGACCGTGGCGACCACCCGCACGACCAGAAGTGGCCATATCGAACGGCACGCCAGTAATCACCCAGTCTGCATCGCTGT -CATACGGCTGGAAGTTCATCGGCAGGCGTAAAAAACCAAAGGCATTGGAAACCAGTGAGTTATCGTATTGATGACCTAAG -GTGCTCATGGATGGACTCCTATTACAAAGTCGATATAAAAAAACCCTTCCGCGTCGTTAGGCCCGACGAGGAAGGGTTGG -ATTTGTCACAATAAATTGTGGCGGATTATCACCGCTAAATTAAGCGGATTCAAGTAACACAGGACTTACTCATCTTCAAG -ATAAGTATAACCGTACAAACCTGCCTCGAACTCTTCAAGGAACTGTTGTTGCAGTTCAGCATCAAGATCGGTTTTCTTCA -CTTGATCGCGGAACTGGGTTAACAGCGTTTTCGGATCGAGCTGTACATATTGCAGCATGTCCGCCACGGTATCGCCTTCG -TCAGACAGTTCTACTTCTACGCTACCGTCAGGGAAGACGAACACGTCAACCGCTTCGGTATCACCGAACAGGTTGTGCAT -GTTGCCGAGGATCTCCTGATATGCGCCGACCATAAAGAAACCGAGCATCGGCGGATTCTCTGGATCGTACTCCGGCATTG -GCATTGTCGTGGCAATACCGTCACCATCAATATAGTGGTCGATAGCACCGTCAGAGTCACAGGTAATATCCAGCAGCACA -GCGCGACGTTCCGGCACTTGATCCAGCCCTTCCAGCGGCAGAACCGGGAACAACTGGTCGATCCCCCATGCGTCCGGCAT -CGACTGGAACAGCGAGAAGTTGACGTACATTTTGTCCGCCATACGTTCCTGCAGCTCGTCGATAATCGGACGATGAGCAC -GGTTTTGCGGATCCAGCTGCTTTTGCACTTCATGGCACATGCTCAAATAAAGCTGCTCAGCCCATGCACGTTCTTGCAGG -CTAAAGATGCCGGAAGAGTAGCCGATATGAATGTCGTGCAGATCCATCTGACTGTCGTGTAACCATTCACGCAGAGAACG -GCGAGTTCCCGGTTCGTGCATCTCCTGCCAGGTTTCCCACATGCTTTGCAGCGCGCGCGGCGCATCTTCTGCAGGCGCGG -TCGGCACCGTGTATTCGTTACGTTCCACGCCGATGATATTAGACACCAGCACGGTGTGATGCGCAGTCACCGCACGACCC -GATTCGGTGATTACCGTCGGATGCGGCAGACCGTTTTCTTCACACGCATCGCCAATCGCCCAGATAATGTTGTTGGCGTA -TTCATTGAGGCCGTAGTTCACCGAACAGTCGGACTGCGAACGAGTACCTTCATAATCCACGCCCAGACCGCCGCCGACGT -CGAAGCACTGAATATTGACGCCCAGCTTGTGCAGTTCCACATAGAAACGCGCGGATTCACGAACGCCTGTCGCGATATCG -CGAATATTCGCCATCTGCGAACCGAGGTGGAAGTGCAGTAGTTGCAGGCTGTCGAGACGCCCGGCTTCACGCAGGGTTTC -AACCAGTTGCAGTACCTGAGTCGCAGCCAGGCCGAACTTCGATTTTTCCCCGCCGGAGGACTGCCATTTACCCGAACCCT -GCGAAGCCAGACGTGCACGCACGCCCAGACGAGGAACGACATTCAGACGTTCTGCTTCATCCAGCACAATGGCGATTTCT -GACATCTTCTCAATGACCAGATAGACCTTGTGCCCCATCTTCTCGCCAATTAATGCCAGGCGGATATATTCGCGGTCTTT -ATAACCGTTGCAGACGATGACGCTACGGGTCATGCCAGCATGTGCCAGTACTGCCATCAACTCGGCTTTGGAACCGGCTT -CCAGACCCAGCGGTTCGCCCGAATGAATCAGGGACTCAATCACGCGGCGGTGCTGGTTAACTTTGATCGGATAAACAAGG -AAGTAATCGCCGTTATAGCCGTAGGATTCCCTCGCACGTTTGAACGCGGCGTTAATGGAACGCAAACGGTGCTGCAGGAT -CTGTGGGAAACAGAACAGTGCAGGCAGACGCTGGCCCTGTGCTTCACGAGTTTTCACTAACTGCGCGAGATCGACGCGAG -CTTCCGGGACGTCCGGGTCCGGGCACACGCTAATGTGGCCCAGCTCGTTAACGTCATAGTAGTTATTGCCCCACCAGGCA -ATATTGTAAGTACGCAGCATCTTGCTGGCTTCCTGGGAGCTCATTGCAACCTCCTGCATGGAGCGTAGTACACCGTGTTC -GCCCGCTGACGAAGGCAAACCCATAGACATGTCGTCAGACATAGCGAACCTCAAATTATTTTATTAAGTGTAAAACAGTT -AACGACTATCGCAGCCTGGAACTGCGATAACAACCCATAAGCACATGGATTTTCCAGCAGTGAATGCTGACGCTCCAACT -GCGCAACCGGTTTCTTTTTCATAACATTATTAAGCACATAACCGAACGTAAGTGTGAAAGTTCGGCGAAACCACGAGAAA -ACTCTTGTTTTTACAAGAGCGCCCTTGTTCAGTCCTCAGTAACTGTAACCAGCTCTTGAATCCTGAGAAGCGCCGAGATG -GGTATAACATCGGCAGGTATGCAAAGCAGAGATGCAGAGTGCGGGGAACGAATCTTCACCAGAACGGTGAGACAGGTTAA -GCAGCAGACAACGGTTCATTATTTCGTATCACCTCCACGGCCGCCTGTTAAGACGAACCCACAAGCCAAAACTCTGATTT -CAACCCGGCTGGAAGTGGCAACACGAAAGAAACGTCGTGTGCTTTTTATTTAAGCCGCGCGCCGCGTTTTATACCCCACA -ATGGCAGAAAATTGCAAAAGATAAATACGCAGAATGCCGGCATTGTCAGGAAAAATTTCCAGCCACGTTTTTAACAGAAT -GAGACACGATTCAAAAAAAAGTGGAAATAGGGTGAAGAATTGACCTAAAATAGCCATCCAGATGTTAATCCATCCATACC -GATTAACACTCAGACTGCCAGTGTTTTTAACCTGCAGAGTCGTGGTAGGATCCGCTACCACAGAAAATCCACACAACAGT -TTGAGCTAACCAAATTCTCTTTAGGTGATATTAAATATGGCAAAACACCTTTTTACGTCCGAGTCCGTCTCTGAAGGGCA -TCCTGACAAAATTGCTGACCAAATTTCTGATGCCGTTTTAGACGCGATCCTCGAACAGGATCCGAAAGCACGCGTTGCTT -GCGAAACCTACGTAAAAACCGGCATGGTTTTAGTTGGCGGCGAAATCACCACCAGCGCCTGGGTAGACATCGAAGAGATC -ACCCGTAACACCGTTCGCGAAATTGGCTATGTGCATTCCGACATGGGCTTTGACGCTAACTCCTGTGCGGTTCTGAGCGC -TATCGGCAAACAGTCTCCTGACATCAACCAGGGCGTTGACCGTGCCGATCCGCTGGAACAGGGCGCGGGTGACCAGGGTC -TGATGTTTGGCTACGCAACTAATGAAACCGACGTGCTGATGCCAGCACCTATCACCTATGCACACCGTCTGGTACAGCGT -CAGGCTGAAGTGCGTAAAAACGGCACTCTGCCGTGGCTGCGCCCGGACGCGAAAAGCCAGGTGACTTTTCAGTATGACGA -CGGCAAAATCGTTGGTATCGATGCTGTCGTGCTTTCCACTCAGCACTCTGAAGAGATCGACCAGAAATCGCTGCAAGAAG -CGGTAATGGAAGAGATCATCAAGCCAATTCTGCCCGCTGAATGGCTGACTTCTGCCACCAAATTCTTCATCAACCCGACC -GGTCGTTTCGTTATCGGTGGCCCAATGGGTGACTGCGGTCTGACTGGTCGTAAAATTATCGTTGATACCTACGGCGGCAT -GGCGCGTCACGGTGGCGGTGCATTCTCTGGTAAAGATCCATCAAAAGTGGACCGTTCCGCAGCCTACGCAGCACGTTATG -TCGCGAAAAACATCGTTGCTGCTGGCCTGGCCGATCGTTGTGAAATTCAGGTTTCCTACGCAATCGGCGTGGCTGAACCG -ACCTCCATCATGGTAGAAACTTTCGGTACTGAGAAAGTGCCTTCTGAACAACTGACCCTGCTGGTACGTGAGTTCTTCGA -CCTGCGCCCATACGGTCTGATTCAGATGCTGGATCTGCTGCACCCGATCTACAAAGAAACCGCAGCATACGGTCACTTTG -GTCGTGAACATTTCCCGTGGGAAAAAACCGACAAAGCGCAGCTGCTGCGCGATGCTGCCGGTCTGAAGTAATCTTTCTTC -ACCTGCGTTCAAAGGCCAGCCTCGCGCTGGCCTTTTTCTTTTGGATAGGCGTTCACGCCGCATCCGGCAAAAAAACCGCC -CGCACAATAACATCATTCTTCCTGATCACGTTTCACCGCAGATTATCATCACAACTGAAACCGATTACACCAACCACAAC -AGACAAAGATTTGTAATATTTTCATATTATTATTCGGTTTTCACAGTTGTTACATTTCTTTTCAGTAAAGTCTTAATTGC -AGATAACAGCGTTTAATCTATGATGATATAACTCAATTATTTTCATGCACTTAAATCATAACTAAGATAAATGTTAGTGT -AAGCGATTACACTGATGTGATTTGCTTCACATCTTTTTACGTCGTACTCACCTATCTTAATTCACAATAAAAAATAACCA -TATTGGAGGGCATCATGCCTGACGCTAAAAAACAGGGGCGGTCAAACAAGGCAATGACGTTTTTCGTCTGCTTCCTTGCC -GCTCTGGCGGGATTACTCTTTGGCCTGGATATCGGTGTAATTGCTGGCGCACTGCCGTTTATTGCAGATGAATTCCAGAT -TACTTCGCACACGCAAGAATGGGTCGTAAGCTCCATGATGTTCGGTGCGGCAGTCGGTGCGGTGGGCAGCGGCTGGCTCT -CCTTTAAACTCGGGCGCAAAAAGAGCCTGATGATCGGCGCAATTTTGTTTGTTGCCGGTTCGCTGTTCTCTGCGGCTGCG -CCAAACGTTGAAGTACTGATTCTTTCCCGCGTTCTACTGGGGCTGGCGGTGGGTGTGGCCTCTTATACCGCACCGCTGTA -CCTCTCTGAAATTGCGCCGGAAAAAATTCGTGGCAGTATGATCTCGATGTATCAGTTGATGATCACTATCGGGATCCTCG -GTGCTTATCTTTCTGATACCGCCTTCAGCTACACCGGTGCATGGCGCTGGATGCTGGGTGTGATTATCATCCCGGCAATT -TTGCTGCTGATTGGTGTCTTCTTCCTGCCAGACAGCCCACGTTGGTTTGCCGCCAAACGCCGTTTTGTTGATGCCGAACG -CGTGCTGCTACGCCTGCGTGACACCAGCGCGGAAGCGAAACGCGAACTGGATGAAATCCGTGAAAGTTTGCAGGTTAAAC -AGAGTGGCTGGGCGCTGTTTAAAGAGAACAGCAACTTCCGCCGCGCGGTGTTCCTTGGCGTACTGTTGCAGGTAATGCAG -CAATTCACCGGGATGAACGTCATCATGTATTACGCGCCGAAAATCTTCGAACTGGCGGGTTATACCAACACTACCGAGCA -AATGTGGGGGACCGTGATTGTCGGCCTGACCAACGTACTTGCCACCTTTATCGCAATCGGCCTTGTTGACCGCTGGGGAC -GTAAACCAACGCTAACGCTGGGCTTCCTGGCGATGGCTGCTGGCATGGGCGTACTCGGTACAATGATGCATATCGGTATT -CACTCTCCGTCGGCGCAGTATTTCGCCATCGCCATGCTGCTGATGTTTATTGTCGGTTTTGCCATGAGTGCCGGTCCGCT -GATTTGGGTACTGTGCTCCGAAATTCAGCCGCTGAAAGGCCGCGATTTTGGCATCACCTGCTCCACTGCCACCAACTGGA -TTGCCAACATGATCGTTGGCGCAACGTTCCTGACCATGCTCAACACGCTGGGTAACGCCAACACCTTCTGGGTGTATGCG -GCTCTGAACGTACTGTTTATCCTGCTGACATTGTGGCTGGTACCGGAAACCAAACACGTTTCGCTGGAACATATTGAACG -TAATCTGATGAAAGGTCGTAAACTGCGCGAAATAGGCGCTCACGATTAATCTCCCCAAGCTTCCTCCCATCGCGGAGGAA -GCCACCTCTTGCAGTCATCTTTTCTTCGCTCTATCCTCTGCCGCTATGAAAACATCCCGTCTCCCTATCGCCATCCAACA -GGCCGTTATGCGTCGCCTGCGGGAAAAACTCGCCCAGGCCAACCTGAAGCTAGGGCGTAACTACCCGGAGCCAAAACTCT -CTTACACCCAGCGCGGAACCTCCGCCGGAACGGCCTGGCTGGAAAGCTATGAAATTCGCCTCAATCCCGTTTTGCTGTTG -GAAAACAGTGAAGCTTTTATTGAAGAAGTGGTACCGCACGAACTGGCACATTTGCTGGTATGGAAACATTTCGGCCGCGT -AGCGCCACATGGCAAAGAGTGGAAGTGGATGATGGAAAACGTGCTGGGTGTTCCCGCCCGTCGTACGCATCAGTTCGAAC -TGCAATCCGTGCGTCGCAACACCTTCCCCTACCGCTGCAAGTGCCAGGAGCATCAGCTTACCGTACGCCGCCATAATCGC -GTAGTTCGTGGCGAGGCCGTCTATCGCTGTGTTCACTGCGGTGAACAGCTGGTTGCGAAATAACCATCTGAACTATCAGG -AACTTTCCTGATCTGGCTGATTGCATACCAAAACAGCTTTCGCTACGTTGCTGGCTCGTTTTAACACGGAGTAAGTGATG -TACCGTTATTTGTCTATTGCTGCGGTGGTACTGAGCGCAGCATTTTCCGGCCCGGCGTTGGCCGAAGGTATCAATAGTTT -TTCTCAGGCGAAAGCCGCGGCGGTAAAAGTCCACGCTGACGCGCCCGGTACGTTTTATTGCGGATGTAAAATTAACTGGC -AGGGCAAAAAAGGCGTTGTTGATCTGCAATCGTGCGGCTATCAGGTGCGCAAAAATGAAAACCGCGCCAGCCGCGTAGAG -TGGGAACATGTCGTTCCCGCCTGGCAGTTCGGTCACCAGCGCCAGTGCTGGCAGGACGGTGGACGTAAAAACTGCGCTAA -AGATCCGGTCTATCGCAAGATGGAAAGCGATATGCATAACCTGCAGCCGTCAGTCGGTGAGGTGAATGGCGATCGCGGCA -ACTTTATGTACAGCCAGTGGAATGGCGGTGAAGGCCAGTACGGTCAATGCGCCATGAAGGTCGATTTCAAAGAAAAAGCT -GCCGAACCACCAGCGCGTGCACGCGGTGCCATTGCGCGCACCTACTTCTATATGCGCGACCAATACAACCTGACACTCTC -TCGCCAGCAAACGCAGCTGTTCAACGCATGGAACAAGATGTATCCGGTTACCGACTGGAAGTGCGAGCGCGATGAACGCA -TCGCGAAGGTGCAGGGCAATCATAACCCGTATGTGCAACGCGCTTGCCAGGCGCGAAAGAGCTAACCTACACTAGCGGGA -TTCTTTTTGTTAACCCCTACCCCACGCGTACAACCGCGTGGGGAGACGACGCGGATTTTTAACTATGCGTATCCCCCGCA -TTTATCATCCTGAACCACTGACCAGCCATTCTCACATCGCGCTTTGCGAAGATGCCGCCAACCATATCGGGCGCGTACTG -CGCATGGGGCCGGGGCAGGCGTTGCAATTGTTTGACGGTAGCAACCAGGTCTTTGACGCCGAAATTACCAGCGCCAGCAA -AAAAAGCGTGGAAGTGAAGGTGCTGGAAGGCCAGATCGACGATCGCGAATCTCCGCTGCATATTCACCTCGGTCAGGTGA -TGTCGCGTGGTGAAAAAATGGAATTTACTATCCAGAAATCGATCGAACTCGGTGTAAGCCTCATTACGCCACTTTTTTCT -GAGCGCTGCGGCGTTAAACTGGATAGTGAACGTCTGAACAAGAAGCTTCAGCAGTGGCAGAAGATTGCAATTGCTGCCTG -TGAGCAGTGTGGTCGTAACCGGGTGCCGGAAATCCGTCCAGCGATGGATCTGGAAGCCTGGTGTGCAGAGCAGGATGAAG -GACTGAAACTGAATCTTCACCCGCGCGCCAGTAACAGCATCAATACGTTGCCGTTACCGGTTGAACGCGTCCGCCTGCTG -ATTGGCCCGGAAGGCGGTTTATCGGCAGATGAAATTGCCATGACTGCCCGCTATCAATTTACTGATATCCTGTTGGGACC -TCGCGTTTTGCGTACAGAGACAACTGCGCTCACCGCCATTACCGCGCTACAAGTACGATTTGGCGATTTGGGCTAACGGA -GAAGAATAATGATCAAGCTCGGCATCGTGATGGACCCCATCGCAAACATCAACATCAAGAAAGATTCCAGTTTTGCTATG -TTGCTGGAAGCACAGCGTCGTGGTTACGAACTTCACTATATGGAGATGGGCGATCTGTATCTGATCAATGGTGAAGCCCG -CGCCCATACCCGCACGCTGAACGTGAAGCAGAACTACGAAGAGTGGTTTTCGTTCGTCGGTGAACAGGATCTGCCGCTGG -CCGATCTCGATGTGATCCTGATGCGTAAAGACCCGCCGTTTGATACCGAGTTTATCTACGCGACCTATATTCTGGAACGT -GCCGAAGAGAAAGGGACGCTGATCGTTAACAAGCCGCAGAGCCTGCGCGACTGTAACGAGAAACTGTTTACCGCCTGGTT -CTCTGACTTAACGCCAGAAACGCTGGTTACGCGCAATAAAGCGCAGCTAAAAGCGTTCTGGGAGAAACACAGCGACATCA -TTCTTAAGCCGCTGGACGGTATGGGCGGCGCGTCGATTTTCCGCGTGAAAGAAGGCGATCCAAACCTCGGCGTGATTGCC -GAAACCCTGACTGAGCATGGCACTCGCTACTGCATGGCGCAAAATTACCTGCCAGCCATTAAAGATGGCGACAAACGCGT -GCTGGTGGTGGATGGCGAGCCGGTACCGTACTGCCTGGCGCGTATTCCGCAGGGGGGCGAAACCCGTGGCAATCTGGCTG -CCGGTGGTCGCGGTGAACCTCGTCCGCTGACGGAAAGTGACTGGAAAATCGCCCGTCAGATCGGGCCGACGCTGAAAGAA -AAAGGGCTGATTTTTGTTGGTCTGGATATCATCGGCGACCGTCTGACTGAAATTAACGTCACCAGCCCAACCTGTATTCG -TGAGATTGAAGCAGAGTTTCCGGTGTCGATCACCGGAATGTTAATGGATGCCATCGAAGCACGTTTACAGCAGCAGTAAC -CCACCTTAGCGAGAAGGATCTCGTTGAGACTCTGAGTGACAGCGCCCTTCTTTCCACGCATACTGGGCGCTGTTGCTTTT -TTGAACCAGGAAACAGAACCTCTGACAATGAATTTACAGCATCACTTTCTTATTGCCATGCCTGCTCTCCAGGATCCGAT -TTTCCGTCGTTCCGTGGTCTACATTTGCGAACATAATACCAATGGTGCAATGGGGATCATCGTCAACAAGCCGCTGGAAA -ATCTCAAAATTGAAGGGATTCTGGAAAAGCTGAAGATCACGCCGGAGCCGCGTGATGAATCAATCCGTCTGGATAAACCG -GTTATGCTCGGCGGTCCGCTGGCTGAAGATCGCGGGTTTATTTTGCATACTCCGCCCTCCAATTTTGCTTCCAGCATTCG -CATTTCAGACAACACGGTAATGACCACTTCCCGCGATGTGCTGGAAACGCTCGGCACCGATAAACAACCGTCTGACGTAT -TGGTGGCTCTGGGTTATGCCTCCTGGGAGAAAGGTCAACTGGAACAAGAAATTCTCGATAACGCGTGGCTAACGGCCCCG -GCAGATCTGAATATTCTGTTCAAAACGCCGATTGCCGACCGCTGGCGCGAGGCGGCAAAACTGATTGGTGTGGATATTCT -CACCATGCCTGGTGTGGCAGGACACGCCTGATGAGTGGAACCTTACTCGCCTTCGACTTCGGCACCAAAAGCATTGGCGT -AGCGGTCGGCCAACGCATTACCGGCACCGCTCGCCCTTTGCCTGCAATTAAAGCACAGGACGGTACGCCGGACTGGAACA -TTATCGAGCGTTTACTGAAAGAGTGGCAGCCGGACGAAATCATCGTCGGTTTGCCGCTGAATATGGACGGCACCGAGCAA -CCATTGACTGCCAGAGCGCGTAAATTTGCCAACCGTATTCATGGCCGTTTCGGTGTTGAAGTAAAGCTCCATGACGAGCG -TCTTAGCACTGTGGAAGCCCGTTCCGGTCTGTTTGAACAGGGCGGCTATCGGGCGCTCAACAAAGGCAAAGTTGACTCTG -CCTCTGCGGTTATTATTCTCGAAAGCTATTTCGAGCAGGGATATTAAGGCGATTTAAACGCCTGGCGGAGTGTAAATAAT -ATCATCGCGTCTTATTGCCGGATGCGGCGTGAACACCTTATCCAGCACACATCTGGCAGCGGCTATAGGTCTGATAAGAC -GCGTTAGCGTCGCATCAGACATTTATTGCCTTTGTAGGCCCGATAAGCTTGCGCATCGGGCATGGCAACGTCACAAACGC -CCTTCCCCCACCCGGTGCTGATAACTCTGCTGAAACGTTATCATCCCCACCTGCTGCCCGGTTTGAATAACATGCGGTAA -CTGGTGGGTTTTCCCTTCGCGAATCAAATTCCCCACCGCGGGTGTGTTAATCAGCAATTCAAATAGCGCCACGCGTCCTT -CCTGTTTATCCACTTCCAGCTTTTGTGACAGCACTGCCCGTAAACTACCTGCCAGTTGATTACGCACGGGGTCTTTTTCC -TGCGCCGGAAATGAATCCACCAGTCGCTCAACTGCCTGCGCGGCACCACGCGTATGTAATGTTGCCAGCACCAAATGCCC -GGTTTCTGCCGCCGTCAGTGCCAGACGGATTGTCTCGCTGTCACGCAGCTCTCCGAGCAAAATCACATCAGGATCTTCCC -GCAATGCGGCCCGCAATCCCGATGCGAACGTCATACAGTGCAAACCAATTTCCCGCTGCTGGATCAAACATCGCTGGCTG -GCATAGAGATATTCAACAGGATCTTCCAGCGTCAGAATATGCGCATCGGCATGTTGATTGAGATAGCCAACCATCGCCGC -CAGCGTGGTAGATTTGCCACTCCCCGTCGCCCCCGTCACCAGAATCAGGCCATTCTCGCTCTTGAGTAATTCCGGCAATA -CCGTTGGTGCGCCAAGCTGTTCGAGCTGCGGGCAGTGCGAAGGTAACAGCCGTAACGCCAGCGAAATGCCATGCCGTTGC -GCGAATGCGCTGCCACGCAATCGCTGGTTTTCCGCCAGCGACACGGCAAAATCCAGCTGACCATTCTCCAGCAATATTGC -CCGCTGATCGTCATCCAGCCACTCCCGCAGTAGCTCTTCGACGTCCGGCGTATCAAACGGCGCAGCTTCCATTCTGCCGC -GAATGCGCCATCGTGCGGGCCAGGCGCTGCACAGGTGTAGATCCGAGACGTTATGCTTTACACTAAGGGCCACAATTTCT -TCCATATTCATACTAAGATCCTCGGAAAATGAACGATATTGCGCATAACCTGGCACAGGTCCGGGACAAAATCTCAGCGG -CTGCAACGCGTTGCGGCCGTTCTCCAGAAGAAATTACGCTGCTTGCAGTCAGTAAAACAAAACCTGCGAGCGCCATCGCA -GAAGCCATTGATGCCGGGCAGCGTCAATTTGGTGAAAACTACGTTCAGGAAGGGGTAGATAAAATTCGCCACTTTCAGGA -ACTGGGCGTAACAGGATTAGAATGGCATTTTATTGGCCCGTTGCAGTCTAATAAAAGCCGCCTGGTGGCAGAGCATTTCG -ACTGGTGTCATACCATCGACCGTTTGCGCATCGCTACCCGTCTCAACGACCAGCGCCCGGCAGAACTTCCCCCTCTTAAC -GTTCTGATTCAAATTAACATTAGTGATGAAAACAGTAAGTCCGGGATTCAACTGGCTGAACTGGACGAGCTGGCAGCTGC -GGTCGCTGAACTACCGCGTTTACGTCTGCGCGGGTTGATGGCAATCCCTGCGCCTGAGTCAGAATATGTAAGGCAGTTTG -AAGTTGCACGCCAAATGGCTGTAGCATTTGCCGGACTGAAAACGCGCTACCCGCATATCGACACGCTCTCTCTGGGAATG -TCGGACGATATGGAAGCCGCCATTGCGGCAGGTAGCACGATGGTTCGTATCGGCACTGCAATTTTTGGTGCGCGTGATTA -CTCTAAAAAATAAGGAATTAAAGGAACGCCATGAATACGTTGACTTTCCTGCTTTCAACGGTCATTGAGCTGTATACCAT -GGTGCTGTTATTACGCATCTGGATGCAGTGGGCTCATTGTGATTTTTACAACCCCTTCTCACAGTTTGTAGTGAAGGTAA -CGCAGCCAATTATCGGGCCACTGCGCCGCGTTATTCCGGCAATGGGGCCAATTGACAGCGCCTCGCTGCTGGTTGCCTAT -ATTCTCAGTTTTATCAAAGCCATCGTGCTGTTTAAAGTGGTGACCTTCCTGCCAATCATCTGGATTGCCGGTTTACTGAT -TCTGCTGAAAACCATCGGCCTGCTGATTTTCTGGGTCCTGCTGGTGATGGCGATTATGAGCTGGGTAAGCCAGGGGCGTA -GCCCGATTGAATACGTGCTGATTCAGCTGGCCGATCCGCTGCTGCGCCCGATTCGCCGCCTGCTACCGGCAATGGGTGGG -ATTGATTTCTCGCCGATGATCCTCGTTCTGCTGCTGTATGTCATCAATATGGGTGTCGCAGAAGTATTACAGGCAACCGG -AAATATGCTGCTGCCAGGGCTGTGGATGGCGTTATGAATGCCGTAACAGTTAATGATGACGGTCTGGTTTTACGGCTCTA -TATTCAGCCGAAAGCCAGCCGTGATTCTATTGTCGGTTTACATGGCGACGAAGTTAAAGTCGCCATTACCGCGCCGCCGG -TTGACGGCCAGGCCAACAGTCATCTGGTGAAGTTTCTCGGTAAGCAATTCCGGGTTGCCAAAAGCCAGGTGGTGATTGAA -AAAGGCGAACTTGGCCGCCACAAACAAATTAAAATCATTAATCCGCAACAAATCCCGCCAGAAATCGCGGCGTTAATTAA -TTAGGTATCCTATGCAAAAAGTTGTCCTCGCAACCGGCAATGTCGGTAAAGTGCGTGAGCTGGCGTCGCTGCTTAGCGAC -TTCGGTCTTGATATCGTGGCCCAAACAGACCTCGGCGTTGATTCCGCTGAAGAAACCGGCCTGACCTTTATCGAAAACGC -GATTCTGAAAGCGCGCCATGCGGCAAAAGTGACCGCTTTACCGGCAATTGCCGACGACTCTGGTCTGGCGGTAGATGTGC -TTGGCGGCGCGCCGGGCATTTACTCCGCGCGTTATTCCGGTGAAGACGCGACCGATCAAAAGAATCTGCAAAAACTGCTG -GAAACAATGAAAGACGTACCGGACGACCAACGTCAGGCGCGTTTCCACTGCGTGCTGGTATATCTGCGTCACGCGGAAGA -TCCCACTCCGCTGGTATGCCACGGTAGCTGGCCGGGCGTGATTACTCGTGAACCAGCGGGCACTGGTGGCTTTGGTTATG -ATCCAATCTTCTTCGTACCTTCCGAAGGGAAAACCGCCGCCGAACTGACCCGCGAAGAAAAGAGCGCCATTTCCCACCGT -GGTCAGGCGTTGAAACTGCTGCTGGACGCTTTACGTAATGGTTAAATTACCTCCGCTGAGTCTCTACATTCACATCCCGT -GGTGCGTGCAGAAATGCCCGTACTGCGATTTCAACTCTCACGCGTTGAAAGGAGAAGTGCCGCACGACGATTATGTTCAG -CATCTGCTTAACGATCTGGACAACGATGTGGCTTACGCTCAGGGCCGTGAAGTAAAGACAATCTTTATTGGCGGTGGTAC -GCCGAGCCTGCTTTCCGGCCCGGCGATGCAAACGCTGCTGGACGGCGTGCGTGCGCGTTTGCCGCTGGCAGCGGATGCAG -AAATTACTATGGAAGCGAACCCTGGCACGGTAGAAGCCGATCGCTTTGTCGATTATCAGCGTGCTGGTGTGAACCGCATC -TCTATTGGTGTGCAGAGTTTTAGCGAAGAAAAGCTGAAACGACTTGGGCGTATTCATGGCCCGCAAGAAGCGAAACGCGC -GGCGAAGCTGGCGAGCGGTTTAGGGTTACGTAGCTTTAACCTTGATTTGATGCATGGGCTGCCGGATCAATCACTGGAAG -AGGCGCTTGGCGATCTACGCCAGGCCATTGAACTGAATCCGCCGCATCTTTCCTGGTATCAACTGACCATCGAACCCAAT -ACGCTGTTTGGTTCGCGACCACCGGTGCTGCCGGACGATGACGCGTTGTGGGATATATTCGAACAGGGGCATCAGTTATT -AACCGCAGCGGGTTATCAGCAATATGAAACTTCCGCTTACGCCAAACCCGGTTATCAGTGCCAGCACAATCTCAACTACT -GGCGCTTTGGTGACTACATCGGTATTGGCTGCGGCGCACACGGCAAAGTGACCTTCCCGGATGGGCGCATTCTGCGTACC -ACCAAAACGCGTCATCCGCGTGGTTTTATGCAAGGAAGGTATCTGGAAAGCCAGCGTGATGTCGAAGCCACAGATAAGCC -GTTTGAGTTCTTTATGAATCGCTTCCGTCTGCTGGAGGCCGCGCCGCGCGTGGAGTTTATTGCGTATACCGGGCTTTGCG -AAGATGTGATTCGCCCACAGTTAGACGAGGCGATTGCCCAGGGTTATCTCACCGAATGTGCGGATTACTGGCAGATAACG -GAACATGGGAAGCTGTTTTTAAATTCGCTGCTGGAGCTTTTTCTGGCTGAGTAAACTTGTATTGCCGGATGCGGCGTGAA -CGCCTTATCCAGCCGACATGTGGCAGCGGTTGTAGGTCTGATAAGACGCGCAAGCGTCGCATCAGACGTTGATTGCCGGA -TGCGGGGTCAACGCCGCATCCTGCTACAAATCGTGCACTATATCAAACTTACTTAATCACCCCATTGCGCCGCAGTTGTT -CGGTATCTTTTTTCCAGCGTTCATTAGCTTGGTTGATATCGTCAATTTTCATCAAAATCGCGACTTTTTTACTGTTTATT -TCTGAAACTTTCATCGTTAACGGATATTGCCCTTTTTCGAGCGTTACCCAGTCATCCTGCAATTTACGGCTAAGTTTTTG -TGATTGCAGAAAAGTCTGTCGCCGTTGTTCGTTGATATCGAAATCTCGTTTCTGCTGAATCGGCACTTCATAACACTCTT -CACTCTGTTTATGACATGCCGCAATCGCCGGTTGATAAACCTCTTTGTCATATTTAACCGCGAACGCCTCGCTATCGTTC -TGTTTATTAAACTCATCACGCTGTTGGTGAATTTTTTTAAAGGCGTCTTCGCGGGTCATTTGCTTACCGTTTGCATCTTT -TCCCCAATATGCATCCGCTGCTTTCTGCGCCGCCACCATTTGCTTATCAAGCGCTTTCACTTCCTTTTCCAGCGCAGGAA -TCGAGTTCTTCTGGGTATTCAACGCAGATTCAAGCTGACTAAAGCGATAATTGAAATCTTCGCTATTCACGATCAGATAT -TTATTATTCGTTTTGATATCGTCGACCACCCGCCCACGATCGCTGGCTGCCGCCTGAAAAGAGTAAAAGTTCACCGACCA -GCCAGACGCGGGCGTTCCTTTACTGGTTAACATCGCCGAGAATTTTACCGGTTTATCTTTCGTCCAGGTCTGTTCGAGCA -GTTCGTAATCTGCCAACTGACCGACCCAGGTATAGAGATCGTCACTGGAAGAGACATCGCCTTCCGCTGACCAGGTGGCC -TGATTACCCTTAGCATCAAGATTTTTTAAGGTGATAGCATCAAGCTTGAGAATGCCGTGATACTGCTTTTTGAATTGATC -TTTTAAGATATTTTCAGTTGGCGGTTCGCCATCTGCCCAGGCATTACCAGTCATCAACATAAGCAGTGCCGTGCCAACAA -TCCATTGCTTTTTCACCCGAAAAACCTCACGCGGAATAATTTATTCCGGTGATTATCATTAGGGTAATTAAAATTGGCAA -TGGACGTGAGTCTGAAGTGAAAAAGCCCCGGCACGATACCGGGGCGAGGCGATTAGTACTGATTGAAGATCTGCTGGATC -TGCTGCGGATCTTTGGTTTGCGTCAGAGCCAGTTGCAGCAGAACGCGCGCTTTTTGCGGGTTCAGCGTGCCAGAGGCGAC -GAAGCCGTATTTCGCATCATCCACTTCGGCATCCTGAGTGGTAGCGCCCGTCGGTACGCGGGAAGAACGCACGACTGCAG -TACCGGTTTTCGCGGCGGTCGCCAGCGTGTCGAACACAGATTTATACAGGTTGCCGTTACCCACACCAGCGCTAACGATG -CCATCATAGCCCGCATCTACCAGTGCTTTAGCCGGAAGATCGGATGCGTTAGCGTAGTTATAAACAATGCCGACTTTCGG -CAGTTCATTCAGCTTAGAGACATCGAATGGCGTGTCGCTGGTATGCTTACGTGCCGGGGTACGCTGGTAGTCAATCTTAC -CGTTGTGAATGTAACCCAGAGGACCGTAGTTAACAGACTTGAAGGTCGCTACGTCGGTGGTGTTGGTTTTGGTGACGTCA -CGGCCATCAAGCACGGTGTCATTCATCACTACCAGCACGCCACGGTTGGCGGAGGCTTTATCAGCTGCGGTCACTACCGC -GTTATACAGGTTGAATGGACCGTCTGCGCTCATAGACGTGGACGGACGCATTGCGCCGACCATCACCACCGGTTTGTCGC -ATTTCACCGTCAGGTCGAGGAAGTAAGCAGTTTCTTCCATCGTGTCGGTACCGTGGGTAATGACGAAGCCGTCGGTCTTA -TCGCAGTCGGTGTTAATTTTTTTCGCCAGTGTCAGCCAGACATTATCGTTCATGTCCTGGGAGCCGATATTCACTACCTG -CTCGCCTTTAACGTTCGCAATGTCTTTTAGTTGCGGCACCGCATTAACCAGATTTTCTACGCCAACTTTACCCACTGTGT -AGTTAGATTTGGTTGCGGAGTCACCACCACCGGCAATGGTCCCGCCGGTTGCTAAAATGGTGATATTGGGTAATGCCAAT -GCTGCACCACTAAAACCCATAACCAGTGCGGCAAGTGCCGTCTTTTTGAAAAACTCCATTTCATTCCTCCAGTTACGTGA -ACGCTACGCATTATCCCTTAGCTCTGTATGGGAAATTTGACGTTAAACAATTTACAACGTGAATATATTTTGGAGATCTA -CAAAGTTAGAGGCAGGTAACAAAACGAAGAATTAAACGGCATAAAAAAGTATTATGCCGTCTTAAAATAGAGGATTATTT -TAAATTCCCGACCAGGGCTTTGCGGCTATCTTCCAGAGTCACAACGCGGCTACAAACATCTTTGCCAAACTGCTGGAAAT -CTTTTTCCTGCTTTTTCCACTCGGTTTGGATTGAGGATTGCAGCCCCCCCAGGCTTCCCAGCACATTCTGTAATGGGTTA -CCGCCGCTTTTCAGCACCGCTTTCGCGCCCATTTCATTAATGCTGTCCTGTAAAATTCCACCCATTGCCTGATTCACTAA -TTGCTGGCCTTCGGCGCGAACCTGATCAATGGCTTTATAGTGAAACGTCAGGCCATCGCTGCGCGTTTCAATAATGCGGT -TCATCTGCTCTTTCAGCTGCGCATCAAGTTTGGTCAGACGGCTGCGCATTTTGCTGCTTTCGCCCATCTCCTGAACGATA -ATTTTATCCAGAGCAATACGGGCTTTCTCGACGCGGCTTTTCGCGCCTTCATCAATCCACGGCAGCGTGCTGCGTAGTTC -AGCCTGATAATCCTTCGCCTGCTCGCGCTGGGCGGCATTCAGGGAATATTGCTTACCGTTATACATCACGTTGCCGTCTG -GCGTGATCACCAGATTGCCGTTTTCGCCCTTCACCTGCACGGTTTGCGGGCTGACAATCACATCGTCACGCGGCGTGACG -CTGCACTGGTAGTCGGCGTGAGCGGTCATTGCCGTCACTGAAAGTGCTGCCGCCAGCAGCATTTTGCGCATCATAGTCTT -CCCTCAAGAAAAAATCAGGCCAGCATTTGCTGGCCCCAGATTGATAACAAAGTACGCGTTTTCCATGCCGGATGCGGCGT -AAACACCTTATCCCGCCTACTCGATCGTGCATCTTTCCAGGCCTGATAAGCGTAGCGCATCAGGCAGTTTTGCATTTGTC -ATCGCCCGTATGCTTTCTTAGTCCCACCAAACGTCGAAAAGTTCGCTGGTGCGTACCTCATCCAGTTTGCGCTCTTCCAG -CCACTTACGCACAATCGCCTGATGTTCTTCGGTGCATTTGCCGATTTCCTGCATGCAGATCAGACCTTCCCAGGCCAGAT -AACCGCTGCCGTCAAAGGCCAGTTTGTTCGGTTCGATAACCTCGTTAATAAAATCATCAACGGTTTTATCAATCTGTTCT -TCCGATGTACCTTCCGGGAATCGCCATGCCACCGAAAATCCTAATTCCTGGAATTCGTCGATGTGCATTTTTTTACGCAG -ACGACGGCTACGGTTCTTTGCCATTATTTCACCCTCTCGAACATTAAGTCCCATACTCCGTGACCAAGACGATGACCACG -TTGTTCAAATTTCGTCACCGGACGTGATGCCGGACGCGGTACGTAATCATTGCTCTCTGACAGGTTTTTATAACCGTCAA -TAGAAGACATCACTTCAAGCATATGTTCCGCATAAGGTTCCCAGTCGGTCGCCATATGGAATACGCCCCCCAGCTGCAGT -TTGCTTTTTACCAGTTCGGCAAACGGCACCTGAACGATACGGCGTTTATTATGGCGCGCTTTGTGCCACGGGTCAGGGAA -AAAGAGCTGCACCATGCGCAATGAATTGTCAGGAATCATTTTATGCAGCACTTCAACCGCATCGTGACACATCACGCGCA -GGTTGCTTAAACCTTCTTCATGCGCAGAAGCCAGGCACGCACCAACGCCCGGTGAATGCACTTCAATGCCGAGGAAGTCC -TGCTCAGGGCGATCTTTAGCCATTGCCACCAGCGACGCCCCCATGCCAAAACCAATCTCAAGCGTCACCGGCGCTTCACG -GCCAAAAAGCGCGGGGAAATCCAGCATATCTTCGCTGAACTCAACGCCCATCACCGGCCAGTAGTTTTCCAGCGCATGTT -CCTGGCCTTTGGTCAGTCGCCCCTGGCGGCGCACAAAACTACGGATACGGCGCAGTGGGCGGCCGTTTTCATCAAATTCC -GGTGAAATGACGTCGTTTTTCATAAAGGTTTAGTCGCTTGTGAAAGTGTTCTGAAAACGGGCATTATCCAAAGTTAGTTG -CCGGATGCAAGCATGATAAGGCCGTGGCTGCGGAAAGTTCCGGTTTACACCCTGCCGTCGCTGTGCTGCAATCTTGCCCC -CAACAACAGTGAATTCGGTGACCATGCAAGCGTCGCAATTTTCAGCCCAGGTTCTGGACTGGTACGATAAATACGGGCGA -AAAACTCTGCCCTGGCAAATTGACAAGACGCCCTACAAAGTATGGCTCTCAGAAGTGATGTTGCAACAAACTCAGGTTGC -GACCGTTATCCCCTATTTTGAACGCTTTATGGCGCGCTTCCCGACGGTGACCGATCTCGCCAATGCGCCGCTCGACGAAG -TTCTCCACTTGTGGACCGGGCTTGGCTATTACGCCCGCGCGCGCAATCTGCATAAAGCGGCACAACAAGTGGCGACCTTA -CACGGCGGTAAATTCCCGGAAACCTTTGAGGAAGTTGCAGCACTGCCGGGCGTCGGGCGTTCCACCGCAGGCGCGATTCT -CTCGCTTTCTCTGGGTAAGCACTTTCCGATTCTCGACGGTAACGTCAAACGCGTGCTGGCGCGCTGCTATGCTGTAAGCG -GCTGGCCTGGGAAAAAAGAGGTCGAGAATAAATTATGGAGTTTGAGCGAGCAGGTGACGCCCGCGGTTGGCGTGGAACGG -TTTAATCAGGCGATGATGGATTTGGGTGCGATGATTTGTACGCGCTCGAAACCGAAATGTTCGCTCTGTCCGCTACAAAA -CGGATGTATTGCCGCCGCCAACAATAGCTGGGCGCTTTATCCGGGCAAAAAACCGAAACAGACGCTGCCGGAGCGCACCG -GCTACTTTTTGCTATTACAGCACGAAGATGAAGTATTGCTGGCGCAGCGTCCGCCGAGCGGATTGTGGGGCGGTTTATAC -TGTTTCCCGCAGTTTGCCGACGAAGAAAGTTTGCGGCAGTGGCTGGCGCAACGGCAGATTGCTGCCGATAACCTGACGCA -ACTGACCGCGTTTCGGCATACCTTCAGCCATTTCCACTTAGATATTGTGCCTATGTGGCTTCCCGTGTCGTCATTCACCG -GCTGCATGGATGAAGGCAATGCGCTCTGGTATAACTTAGCGCAACCGCCGTCAGTTGGCCTAGCGGCTCCCGTGGAGCGT -TTGTTACAGCAGTTACGCACTGGCGCGCCGGTTTAGCGCGTGAGTCGATAAAGAGGATGATTTATGAGCAGAACGATTTT -TTGTACTTTCCTGCAACGTGAAGCAGAAGGTCAGGATTTTCAGCTGTACCCCGGCGAGCTGGGAAAACGCATCTATAACG -AGATCTCCAAAGAAGCCTGGGCGCAGTGGCAGCACAAGCAAACCATGCTGATTAATGAAAAGAAACTCAACATGATGAAT -GCCGAGCACCGCAAGCTGCTTGAGCAGGAGATGGTCAACTTCCTGTTCGAGGGTAAAGAGGTGCATATCGAGGGCTATAC -GCCGGAAGATAAAAAATAAAAACAGTGCCGGAGCACGCCTCCGGCAACTTGCATAAAAACAAACACAACACGCACCCGGA -ATGATGAAAAAATATCTCGCGCTGGCTTTGATTGCGCCGTTGCTCATCTCCTGTTCGACGACCAAAAAAGGCGATACCTA -TAACGAAGCCTGGGTCAAAGATACCAACGGTTTTGATATTCTGATGGGGCAATTTGCCCACAATATTGAGAACATCTGGG -GCTTCAAAGAGGTGGTGATCGCTGGTCCTAAGGACTACGTGAAATACACCGATCAATATCAGACCCGCAGCCACATCAAC -TTCGATGACGGTACGATTACTATCGAAACCATCGCCGGGACAGAACCTGCCGCGCATTTGCGCCGGGCAATTATCAAAAC -GTTATTGATGGGTGACGATCCGAGTTCGGTCGATCTCTATTCCGACGTTGATGATATTACGATTTCGAAAGAACCTTTCC -TTTACGGTCAGGTGGTGGACAACACCGGGCAGCCGATTCGCTGGGAAGGTCGCGCAAGCAACTTCGCGGATTATCTGCTG -AAAAACCGTCTGAAGAGCCGCAGCAACGGGCTGCGTATCATCTACAGCGTCACCATTAACATGGTGCCGAACCACCTTGA -TAAACGTGCGCACAAATATCTCGGCATGGTCCGCCAGGCGTCACGGAAATATGGCGTTGATGAGTCGCTGATTCTGGCAA -TTATGCAGACCGAATCTTCCTTTAACCCGTATGCGGTCAGCCGTTCCGATGCGCTGGGATTAATGCAGGTGGTACAACAT -ACTGCCGGGAAAGATGTGTTCCGCTCGCAGGGGAAATCCGGCACGCCGAGCCGCAGTTTCTTGTTTGATCCTGCCAGCAA -TATTGATACCGGCACCGCGTATCTGGCGATGCTGAACAATGTTTATCTCGGCGGAATTGATAACCCAACATCGCGGCGTT -ATGCCGTCATCACCGCCTATAACGGCGGCGCAGGCAGCGTGCTGCGAGTCTTTTCGAATGATAAGATTCAGGCTGCCAAT -ATTATTAACACCATGACGCCGGGCGATGTTTATCAGACGCTGACGACCCGCCATCCCTCTGCGGAATCTCGCCGTTATCT -TTATAAAGTGAATACCGCGCAAAAATCCTACCGCCGCCGATAATTCCATTAACCGCCCCTGACGATGCTCAGGGGCAAAA -ATGTTATCCACATCACAATTTCGTTTTGCAAATTGGGAATGTTTGCAATTATTTGCCACAGGTAACAAAAAACCAGTCCG -CGAAGTTGATAGAATCCCATCATCTCGCACGGTCAAATGTGCTTTTTCAAACACTCATCCGCATCACGATGTGAGGAAAT -TAACATGAATCTTAAGCTGCAGCTGAAAATCCTCTCTTTTCTGCAGTTCTGTCTGTGGGGAAGTTGGCTGACGACCCTCG -GCTCCTATATGTTTGTTACCCTGAAGTTTGACGGTGCTTCTATTGGCGCAGTTTATAGCTCACTGGGTATCGCAGCGGTC -TTTATGCCTGCGCTGCTGGGGATTGTGGCCGACAAATGGTTAAGTGCGAAATGGGTATATGCCATTTGCCACACCATTGG -CGCTATCACGCTGTTCATGGCGGCACAGGTCACGACACCGGAAGCGATGTTCCTTGTGATATTGATTAACTCGTTTGCTT -ATATGCCAACGCTTGGGTTAATCAACACCATCTCTTACTATCGCCTGCAAAATGCCGGGATGGATATCGTTACTGACTTC -CCGCCAATCCGTATCTGGGGCACCATCGGCTTTATCATGGCAATGTGGGTGGTGAGCCTGTCTGGCTTCGAATTAAGCCA -CATGCAGCTGTATATTGGCGCAGCACTTTCCGCCATTCTGGTTCTGTTTACCCTGACTCTGCCGCATATTCCGGTTGCTA -AACAGCAAGCGAATCAGAGCTGGACAACCCTGCTGGGCCTCGATGCATTCGCGCTGTTTAAAAACAAGCGTATGGCAATC -TTCTTTATCTTCTCAATGCTGCTGGGCGCTGATGAATCCCCTAATGATTTTGGTAAAAATCATTAAGTTAAGGTGGATAC -ACATCTTGTCATATGATCAAATGGTTTCGCGAAAAATCAATAATCAGACAACAAGATGTGCGAACTCGATATTTTACACG -ACTCTCTTTACCAATTCTGCCCCGAATTACACTTAAAACGACTCAACAGCTTAACGTTGGCTTGCCACGCATTACTTGAC -TGTAAAACTCTCACTCTTACCGAACTTGGCCGTAACCTGCCAACCAAAGCGAGAACAAAACATAACATCAAACGAATCGA -CCGATTGTTAGGTAATCGTCACCTCCACAAAGAGCGACTCGCTGTATACCGTTGGCATGCTAGCTTTATCTGTTCGGGCA -ATACGATGCCCATTGTACTTGTTGACTGGTCTGATATTCGTGAGCAAAAACGACTTATGGTATTGCGAGCTTCAGTCGCA -CTACACGGTCGTTCTGTTACTCTTTATGAGAAAGCGTTCCCGCTTTCAGAGCAATGTTCAAAGAAAGCTCATGACCAATT -TCTAGCCGACCTTGCGAGCATTCTACCGAGTAACACCACACCGCTCATTGTCAGTGATGCTGGCTTTAAAGTGCCATGGT -ATAAATCCGTTGAGAAGCTGGGTTGGTACTGGTTAAGTCGAGTAAGAGGAAAAGTACAATATGCAGACCTAGGAGCGGAA -AACTGGAAACCTATCAGCAACTTACATGATATGTCATCTAGTCACTCAAAGACTTTAGGCTATAAGAGGCTGACTAAAAG -CAATCCAATCTCATGCCAAATTCTATTGTATAAATCTCGCTCTAAAGGCCGAAAAAATCAGCGCTCGACACGGACTCATT -GTCACCACCCGTCACCTAAAATCTACTCAGCGTCGGCAAAGGAGCCATGGGTTCTAGCAACTAACTTACCTGTTGAAATT -CGAACACCCAAACAACTTGTTAATATCTATTCGAAGCGAATGCAGATTGAAGAAACCTTCCGAGACTTGAAAAGTCCTGC -CTACGGACTAGGCCTACGCCATAGCCGAACGAGCAGCTCAGAGCGTTTTGATATCATGCTGCTAATCGCCCTGATGCTTC -AACTAACATGTTGGCTTGCGGGCGTTCATGCTCAGAAACAAGGTTGGGACAAGCACTTCCAGGCTAACACAGTCAGAAAT -CGAAACGTACTCTCAACAGTTCGCTTAGGCATGGAAGTTTTGCGGCATTCTGGCTACACAATAACAAGGGAAGACTTACT -CGTGGCTGCAACCCTACTAGCTCAAAATTTATTCACACATGGTTACGCTTTGGGGAAATTATGAGGGGATCTCTCAGCGT -TACGCGCGATACCGCCACCTTTAACCTGCCGTTTATTTCGCTGGGGCAAGTCGGTGAGGGCAAACTGATGGTTATCGGTA -ACCCACACTACAACAGCATTTTGCGTTGCCCGAACGGTTACAGCTGGAACGGGGGCGTTAATAAAGATGGGCAGTGTACG -CTCAACAGCGACCCGGATGACATGAAGAACTTCATGGAGAACGTGCTGCGCTATCTGTCCGACGATAAATGGAAGCCGGA -CGCGAAAGCCAGCATGACCGTAGGCACCAACCTGGATACTGTCTATTTTAAACGTCATGGTCAGGTTACAGGAAACAGCG -CTGCGTTCGACTTCCATCCGGATTTTGCGGGCATCTCTGTTGAGCATTTAAGTAGCTATGGCGATCTCGATCCGCAGGAA -ATGCCGCTGCTGATCCTTAACGGCTTTGAATATGTGACTCAGGTGGGTAACGATCCTTATGCAATCCCGCTGCGTGCAGA -TACCAGCAAACCGAAGCTGACTCAGCAGGATGTGACCGATCTGATCGCCTATCTGAACAAAGGTGGATCGGTGCTGATCA -TGGAAAACGTGATGAGCAATCTTAAGGAAGAGAGCGCGTCTGGTTTTGTGCGTCTGTTGGATGCCGCAGGTCTGTCGATG -GCACTGAACAAGTCGGTAGTAAATAACGATCCGCAAGGGTATCCGAACCGCGTTCGTCAGCAGCGCGCAACGGGCATTTG -GGTCTATGAACGTTATCCTGCCGTAGATGGTGCGCTGCCGTACACCATCGATAGTAAGACAGGGGAAGTTAAGTGGAAAT -ATCAGGTAGAAAACAAACCTGATGACAAACCGAAGCTGGAAGTTGCCAGCTGGCTGGAAGATGTAGATGGCAAACAGGAA -ACGCGTTATGCCTTTATTGATGAGGCCGATCATAAAACAGAGGATTCTCTGAAGGCTGCGAAGGAGAAAATTTTCGCCGC -GTTCCCGGGGCTGAAAGAGTGTACTAATCCGGCATATCACTATGAGGTCAACTGCCTGGAATATCGTCCTGGCACGGGGG -TTCCGGTTACTGGTGGCATGTATGTTCCACAGTATACGCAACTAAGCCTTAACGCCGACACTGCAAAAGCGATGGTGCAG -GCTGCGGATTTAGGCACCAACATTCAGCGTCTGTATCAGCATGAGCTCTACTTCCGGACCAATGGTCGCAAAGGTGAGCG -TCTGAGCAGCGTCGATCTGGAACGTCTGTACCAGAACATGTCGGTCTGGCTGTGGAACGATACGAGCTATCGTTATGAAG -AAGGCAAAAATGACGAGCTGGGCTTTAAAACGTTCACCGAGTTCCTGAACTGCTACGCCAATGATGCCTATGCAGGCGGC -ACCAAGTGTTCTGCAGATCTGAAAAAATCGCTGGTCGATAACAACATGATCTACGGTGACGGTAGCAGCAAAGCGGGCAT -GATGAACCCGAGCTACCCGCTCAACTATATGGAAAAACCGCTGACACGCCTGATGCTGGGCCGTTCCTGGTGGGATCTGA -ACATCAAAGTTGATGTCGAGAAGTATCCGGGAGCAGTATCGGAAGAGGGACAGAACGTTACTGAAACCATCAGCCTGTAC -TCGAATCCGACCAAATGGTTTGCAGGTAACATGCAGTCAACTGGCCTGTGGGCACCGGCTCAGAAAGAGGTCACCATTAA -GTCCAATGCGAACGTTCCTGTGACCGTCACCGTGGCGCTGGCTGACGACCTGACCGGACGTGAGAAGCATGAAGTTGCGC -TGAACCGTCCGCCAAGAGTGACTAAAACGTACTCTCTGGACGCTAGCGGTACGGTGAAGTTCAAGGTGCCTTACGGTGGC -CTGATTTATATCAAGGGCAATAGCTCTACCAATGAATCTGCCAGCTTCACCTTTACTGGCGTGGTAAAAGCACCGTTCTA -TAAAGACGGCGCATGGAAAAACGATCTGAACTCACCGGCTCCGCTGGGTGAGCTGGAATCAGACGCTTTCGTCTATACCA -CACCGAAGAAGAACCTGAATGCCAGCAATTACACTGGCGGACTGGAGCAATTCGCTAACGATCTGGATACCTTTGCCAGC -TCGATGAATGACTTCTACGGCCGTGATAGCGAAGACGGTAAGCACCGGATGTTTACCTATAAAAACTTGCCGGGCCACAA -ACATCGTTTCACCAACGATGTGCAGATCTCCATCGGTGATGCGCATTCGGGTTATCCGGTAATGAACAGCAGCTTCTCGC -CGAACAGCACCACGCTGCCGACGACGCCGCTGAACGACTGGCTGATCTGGCATGAAGTCGGTCATAACGCCGCAGAAACG -CCGTTGACTGTACCGGGTGCAACTGAAGTCGCTAACAACGTGCTGGCGCTGTACATGCAGGATCGTTATCTCGGCAAGAT -GAACCGTGTCGCTGACGATATTACCGTCGCACCGGAATATCTGGAGGAGAGCAACAACCAGGCATGGGCACGCGGCGGTG -CGGGTGACCGTCTGCTGATGTACGCACAGCTGAAGGAATGGGCAGAGAAAAACTTTGATATCAAGAAATGGTATCCAGAT -GGCACTCCTCTGCCAGAGTTTTACAGCGAGCGTGAAGGGATGAAAGGCTGGAACCTGTTCCAGTTGATGCATCGTAAAGC -ACGCGGCGATGAGGTCAGCAATGACAAGTTTGGCGGCAAGAATTACTGTGCTGAATCCAACGGTAACGCAGCGGACACGC -TGATGCTGTGTGCCTCCTGGGTCGCCCAGACGGATCTTTCGGAGTTCTTTAAGAAATGGAATCCGGGCGCGAATGCTTAC -CAGCTGCCGGGGGCGAGCGAGATGAGCTTCGAGGGCGGTGTGAGCCAGTCGGCTTACAACACGCTCGCGTCACTCGATCT -GCCGAAACCGGAACAGGGACCGGAAACCATTAATCAGGTTACCGAGCATAAGATGTCTGCCGAGTAAGCCCGTAGGCCGG -ATAAGGCGCTCGCGCCGCATCCGGCATGAAATAAGGCGCACCGGGTTAACACATTTGCCCGATGCGCCTGCTTATCGGGC -CTACAGACGGGGAAAGCCGCGATTATTTGCGCTGGCAGACACCCGTAGGACGGATAAGGCGTTTTACGCCGCATCCAGCA -AGTTACAACAAACAACCTTTAACCATGCTTTTTGATGTTTTTCAGCAATACCCCACGGCGATGCCCGTCCTGGCAACCGT -CGGAGGATTGATCATCGGCAGTTTTTTGAATGTGGTGATTTGGCGTTACCCAATCATGCTGCGCCAACAAATGGCGGAGT -TTCACGGTGAAATGTCGAGTGCGCAGTCAAAAATAAGCCTTGCGCTACCGCGTTCGCACTGCCCACATTGTCAGCAGACC -ATCCGGATACGTGACAATATTCCGCTGTTCTCCTGGCTGATGCTCAAAGGGCGCTGCCGCGACTGTCAGGCGAAAATCAG -CAAGCGTTATCCGCTGGTGGAGTTATTGACAGCACTTGCTTTTTTGCTGGCGAGTCTGGTCTGGCCAGAAAGTGGATGGG -GGCTGGCGGTGATGATATTATCCGCCTGGCTGATTGCCGCGAGTGTCATCGACCTCGATCACCAATGGCTGCCCGATGTT -TTTACTCAGGGCGTATTGTGGACAGGACTGATTGCGGCATGGGCGCAGCAGAGTCCGCTCACGCTACAAGATGCAGTCAC -CGGCGTCCTGGTGGGATTTATCACTTTTTACTCTCTGCGTTGGATAGCCGGAATAGTTCTGCGTAAAGAAGCATTAGGCA -TGGGCGATGTATTACTTTTCGCCGCGTTAGGTGGCTGGGTGGGGGCATTGTCGCTGCCCAATGTTGCTTTAATCGCCTCA -TGCTGCGGCCTGATATATGCCGTTATTACAAAAAGAGGATCAACCACACTGCCTTTTGGACCGTGTTTAAGTCTGGGCGG -TATAGCAACACTTTATCTACAGGCATTGTTTTAATGATAACCACGTCATTATCAAAGTGACATTTTAACTCTTATTAATA -ACCTTAGAGATTATTTACCATGTCGATAAAACAAATGCCAGGGAGGGTATTAATATCGCTATTGTTGAGCGTTACAGGAT -TATTAAGTGGCTGTGCCAGCCATAATGAAAATGCCAGTTTACTGGCGAAAAAACAGGCGCAAAATATCAGCCAAAACCTG -CCGATTAAATCTGCGGGATATACCTTAGTGCTGGCGCAAAGTAGCGGCACAACGGTAAAAATGACCATTATCAGCGAAGC -GGGTACACAAACCACGCAGACGCCTGACGCCTTTTTAACCAGCTATCAACGACAAATGTGCGCTGACCCGACGGTGAAAT -TAATGATCACTGAGGGAATTAATTACAGCATAACGATTAATGATACACGTACAGGTAACCAGTATCAGCGGAAACTGGAT -CGTACCACCTGTGGAATAGTCAAAGCATAACGTCGGGTAGATATAAATTGGCGCGGGTTGTTTTTCGTGACGCACGAATT -TATCTCATTCAATGGCTGACAAAAATTCGTCACACTCTTAACCAGAGACAATCTCTTAATACAGACAAAGAGCATCTGCG -AAAAATTGCACGCGGGATGTTCTGGCTGATGCTGCTTATTATTTCTGCAAAAATGGCGCATTCACTCTGGCGCTATATCT -CCTTTTCTGCGGAATATACGGCGGTTTCTCAACCGGTGAATAAACCGAGCCGTGTGGATGCAAAAACGTTCGATAAAAAT -GACGTGCAATTAATCAGCCAGCAAAACTGGTTTGGCAAATATCAGCCTGTCGCCGCGCAGGTAAAACAACCCGAACCTGT -GCCTGTGGCAGAAACGCGTCTTAATGTGGTGCTGCGTGGGATCGCCTTTGGTGCCAGACCCGGCGCGGTTATTGAAGAAG -GCGGTAAACAGCAGGTCTATTTGCAGGGTGAAACGCTTGGCTCTCACAACGCGGTGATTGAGGAAATCAACCGCGACCAT -GTGATGCTGCGTTATCAGGGAAAAATAGAGCGTCTGAGTCTGGCAGAAGAGGAACGTTCCACTGTTGCTGTGACCAACAA -AAAAGCCGTCAGTGACGAAGCAAAGCAAGCTGTTGCTGAGCCTGCTGTCAGTGTGCCAGTTGAGATCCCGGCTGCCGTGC -GTCAGGCACTGGCGAAAGATCCGCAGAAAATTTTTAACTATATCCAGCTTACGCCTGTGCGTAAGGAGGGGATTGTCGGT -TATGCAGCGAAGCCGGGGGCAGATCGTTCTCTGTTCGATGCCAGCGGTTTCAAGGAAGGCGATATCGCCATTGCGCTAAA -TCAGCAGGATTTCACTGATCCACGAGCAATGATTGCTCTGATGCGGCAGTTACCTTCAATGGATTCCATTCAACTTACGG -TTTTACGCAAGGGTGCGCGCCACGACATTTCCATCGCGCTGCGCTACCGACTATTCTGCCCGCCTTACTGGAAGAAGAGC -TGAACCAGGATATCGATGAACTGCATTTCGCCCCGTTGAATATCGACCAGCAACTGGCAACCGTAGCAGTGATTCACCAA -CAGCATATGCGCAACATTGCGCAGTGGTTGCAGGAAAACGGCATCACCCGCGCTACCGTCGCGCCGGACTGGATGTCCAT -TCCTTGTGGGTTTATGGCTTGCGATGCGCAACGGGTTATCTGCCGCATCGATGAATGCCGGGGATGGAGCGCCGGGCTGG -CGCTGGCTCCGGTCATGTTCCGCGCCCAGCTCAATGAGCAGGATTTACCGCTTTCGCTAACCGTAGTCGGCATTGCACCG -GAAAAGCTATCAGCATGGGCTGGCGCAGACGCTGAACGCCTGACCGTTACAGCTCTGCCCGCCATTACCACTTATGGCGA -ACCGGAAGGGAACCTGCTGACAGGGCCGTGGCAGCCTCGCGTCAGCTACCGAAAACAGTGGGCGCGCTGGCGGGTGATGA -TTCTGCCGATATTGCTGATTCTGGTTGCGCTGGCAGTGGAGCGGGGCGTGACGTTATGGAGCGTCAGCGAACAGGTGGCG -CAAAGCCGCACCCAGGCGGAGGAACAGTTCTTAACGTTGTTCCCGGAGCAGAAGCGGATTGTGAATTTACGCTCTCAGGT -GACGATGGCGCTGAAAAAATATCGCCCACAGGCCGACGATACCCGGCTGCTCGCCGAGTTGTCAGCGATAGCCAGCACCC -TGAAATCAGCGTCACTTTCCGACATCGAAATGCGTGGTTTTACCTTTGATCAAAAACGCCAGATACTTCACCTCCAGCTA -CGGGCCGCGAACTTTGCCAGTTTCGACAAACTGCGTAGTGTACTGGCAACCGATTATGTTGTGCAACAGGACGCGTTACA -GAAAGAGGGTGATGCGGTTTCCGGCGGCGTAACGTTGCGGAGGAAATAACATGTTACGCGATAAATTTATTCACTATTTT -CAGCAATGGCGTGAACGCCAGTTAAGCCGTGGCGAACACTGGCTGGCACAACACCTGGCGGGGCGTTCTCCGCGTGAAAA -GGGCATGTTACTGGCAGCGGTGGTGTTCCTGTTTAGCGTCGGATATTACGTCCTCATCTGGCAGCCGTTGAGCGAACGGA -TTGAGCAACAGGAGACAATATTGCAGCAGCTGGTGGCGATGAACACCCGACTGAAGAACGCCGCGCCGGATATTATTGCA -GCGCGAAAATCTGCCACAACAACGCCTGCGCAGGTATCGCGGGTCATCAGTGACAGTGCTTCCGCGCACTCGGTGGTCAT -CAGGCGGATAGCCGATCGTGGGGAGAATATTCAGGTCTGGATAGAACCTGTGGTGTTTAATGACCTGCTGAAATGGTTAA -ACGCACTGGATGAAAAATATGCGCTGCGGGTGACACAAATTGATGTCAGTGCTGCTGAGAAGCCTGGGATGGTGAATGTG -CAGCGGCTGGAGTTTGGACGGGGGTAAAGTATCAGGAGATTAATATCAATAAAATTACTCTCGTTAACGTGGCGAGAGTA -ATTCCCCCAGACTTTATAAGCTAATTTTTTTCGTGAAGGTTATTGTCAGATCCAAAAGCAAAAACCCGCCTTGTGGGCGG -GTTCTTAAGAATTAGTGGTGCCCGGACTCGGAATCGAACCAAGGACACGGGGATTTTCAATCCCCTGCTCTACCGACTGA -GCTATCCGGGCAACGGGGCGCATTAAACCTGATTCGCCTCGTCTCGTCAATCAAATTTCTTCAATTTACTGCAGACTGCA -CAATCTATCATCACTTTGCCGATATTGCACGCATTGTCAGGCAAACCAGGCGGTCCAGGCGGCGGAAAGCGGCATTGCCA -GAAGGAGTGCTGGAAGCATGTTGACCACCGGGAACATTTTAATGCCACAGATGCGTAATCCGGTTGCCAGCAGCAATAAA -CCGCCTACGGCGCTGAAGTCTGCCATCATCGACGGTGTGGTCAGCGGTAAAATCAGCGCGGCAGCCCACGCCAGCGTTAA -CTGGATGATCAGTAATGGGATACTAATCACCGATACCGCAATACCCAGCGAGCAGGCGAAGATCATCGCCGTAAAGAAAT -CAAGAAATGACTTGGCGATTAAAATACTCGGATCGCCGGTCATCCCTTCGTTCATCGCCCCGAAGATCCCGGTGCCGCTG -GCGCAAAACAGGACAATAATCGCGACATAATTCTGAATAAAAGATTCATGCGCTGGCTTCTTACGTGAGTGACGAAACAG -ATTTTGTGCTTTGGCGACTGCTGTATTGACACCTTTCTCCAGCAAACAAATTTCGCCAATTAGAGCGCCAAGTAGCGTAG -CTAAAACCATCGCTGGAAGGTTGGCACATTTCACCACCAGTAAAATACCAATCCCCAGCGATGCCAGACCAAAAATTGAT -GTCATGGAGACGCGGATACGTTCCGGTAAGCGTTGGCTGAGCAGTGCGCCGAGAACGCCACCCAGTAAGACTGCACTAGC -GTTGATAAAAGGGCCGATGACCACAAGAGTTCCTGTTAGCTGTATTGTTTGATTTTCTTATTATGACCGTTTGGTGCCGT -CGATGGCTTGTTTGTTCGCAAAGTCCTGGCTTGCACGCTTTAGCGAAAGGTGCCATGATTGCGCGAATTTTCTCCTCTCT -GTACGGAGTTTGCCCGATGCACGCCATCTCCTTACATTCTCTCGCTTATCGCCGTTTCGCGCGAAACGTTTCCCTTTCTA -TGTTACTGCTCATGCGGTGAAGTTAACGCACGCTCACTGCAGGACAACAGTAAAATCAGAGCGTTTCTGCTTTTACTGAT -GTCTGGCGGTCGGAGCTGGTGACCAGTTTGACCCATATCTCATGGGGCAGGGTTTTCCACCTTGTCCGGTATTCTTACTT -CCCCGAAACGGGTTTGCGCTTATGAAATCAATGAATATTGCCGCCAGTAGTGAACTGGTATCCCGACTTTCTTCTCATCG -TCGCGTGGTGGCGTTGGGAGATACTGATTTTACGGACGTCGCGGCAGTCGTCATTACCGCTGCGGATAGTCGCAGTGGCA -TTCTTGCGTTGCTTAAGCGCACCGGTTTTCATCTACCGGTGTTTTTGTATTCCGAACATGCTGTTGAATTACCTGCGGGC -GTTACGGCGGTAATCAACGGCAACGAGCAGCAGTGGCTGGAGCTGGAATCCGCAGCCTGTCAGTATGAAGAGAATTTGCT -GCCACCGTTTTATGACACGCTGACGCAGTACGTTGAGATGGGCAACAGCACCTTTGCTTGCCCTGGACATCAACATGGTG -CGTTTTTTAAAAAGCATCCTGCCGGACGCCATTTTTACGATTTCTTTGGTGAGAACGTCTTTCGCGCCGATATGTGTAAC -GCTGACGTAAAATTGGGCGATCTGCTTATTCATGAAGGATCGGCGAAAGATGCGCAGAAATTCGCAGCCAAAGTCTTTCA -TGCCGATAAAACCTATTTTGTGCTGAACGGCACATCGGCAGCGAATAAAGTGGTGACGAATGCGCTGTTAACGCGTGGCG -ATCTGGTGCTCTTCGACCGTAACAACCATAAGTCGAATCATCACGGCGCGCTGATTCAGGCGGGGGCGACGCCGGTCTAT -CTGGAAGCTTCACGCAACCCGTTTGGTTTCATTGGCGGTATTGATGCGCACTGTTTTAATGAAGAGTATCTGCGCCAGCA -AATTCGCGACGTTGCGCCAGAAAAAGCCGACCTGCCGCGCCCGTATCGCCTGGCGATTATTCAGCTGGGAACCTATGACG -GCACTGTCTATAACGCCCGTCAGGTGATCGATACCGTTGGGCATCTGTGTGATTACATTCTGTTTGATTCCGCGTGGGTC -GGTTATGAACAATTTATCCCGATGATGGCGGATAGCTCGCCGCTGCTGTTAGAACTTAACGAAAACGATCCGGGGATCTT -TGTGACTCAGTCGGTGCACAAACAGCAGGCGGGATTCTCACAGACGTCGCAGATCCATAAAAAAGATAACCATATCCGCG -GACAGGCGCGTTTTTGCCCGCATAAGCGGTTGAATAACGCCTTTATGCTCCATGCTTCTACCAGCCCTTTCTATCCGCTG -TTTGCTGCACTGGATGTTAACGCCAAAATTCATGAAGGGGAGAGTGGGCGTCGGCTGTGGGCTGAGTGTGTTGAGATAGG -GATTGAAGCGCGCAAGGCTATTCTTGCGCGCTGTAAGCTGTTCCGCCCGTTTATCCCGCCCGTTGTTGATGGCAAATTGT -GGCAGGATTATCCGACATCAGTGTTAGCCAGCGACCGCCGTTTTTTCAGTTTTGAGCCGGGGGCGAAGTGGCACGGCTTT -GAAGGATATGCCGCGGATCAGTATTTTGTTGATCCGTGCAAGCTGTTACTCACTACACCAGGTATCGATGCCGAAACCGG -CGAATATAGCGACTTTGGCGTTCCGGCGACGATTCTGGCGCACTATCTGCGTGAGAACGGCATTGTGCCGGAGAAGTGCG -ATCTCAACTCCATTCTGTTTTTATTAACTCCGGCGGAAAGCCACGAGAAGCTGGCACAACTGGTGGCGATGCTGGCGCAA -TTTGAACAGCATATTGAGGATGACTCGCCGCTGGTTGAGGTGTTGCCGAGCGTTTATAACAAGTATCCGGTGCGCTATCG -CGACTACACCCTGCGCCAGTTGTGTCAGGAGATGCACGATCTGTATGTCAGTTTCGACGTCAAAGACCTACAAAAAGCGA -TGTTCCGCCAGCAGAGTTTCCCGTCAGTGGTGATGAACCCCCAGGATGCGCATAGCGCTTATATTCGCGGTGACGTGGAG -TTGGTGCGGATTCGTGATGCCGAAGGGCGAATTGCGGCAGAAGGGGCGTTGCCTTATCCACCTGGCGTGCTTTGCGTGGT -ACCCGGGGAAGTCTGGGGTGGGGCGGTTCAACGTTATTTCCTTGCACTGGAAGAAGGGGTGAATTTGTTGCCGGGATTTT -CGCCGGAGCTGCAAGGTGTTTATAGCGAAACCGATGCGGATGGCGTGAAACGGTTGTACGGTTATGTGTTGAAGTAAGAA -TAAAAAAAACGGGTCACCTTCTGGCGACCCGTTTTTCTTTGCGTAATTAGTGGCTAACCGTCTGTGTGCCTGTCGGGACA -CGAACGTGTTTATATTTGAACATCGCCATGAACGCGAAGGCCAGAACCACGGAGTAACCAGCGAAAATCAACCATACGGT -CTGCCAGTCGGTAATGCCGTTTTGGGTGTACATCTCAACAACTTTACCGCTCACGATGCCGCCGAGGATACAGCCGAAGC -CGTTAGTCATCATCAGGAACATCCCTTGTGCACTGGCGCGAATTGCCGGGCTAACTTCTTTTTCGACAAACACCGAACCA -GAGATGTTGAAGAAGTCGAATGCGCAACCGTAAACGATCATCGACAGTACCAGCAGTACAGTACCGAACGGAGTCGGGTC -GCCGTAAGCAAACAGCGCAAAACGCAGGATCCACGCCACAATACTGATCATCATTACGTTCTTAATACCGTAGCGGCTTA -AGAAGAACGGGATGGTCAGAATGAACAGGGTTTCAGAGATCTGCGAAATCGACATGATGATTGACGCATGCTGCACAATA -AAGCTGCTGGCAAACATCGGATCTTTGTCGAAGCTGTGCAGGAAGGTATTACCGAACATGTTGGTAATCTGCAGTTCCGC -GCCCAGCACTGATGAATCCCCTAATGATTTTTATCAAAATCATTAAGTTAAGGTAGATACACATCTTGTCATATGATCAA -ATGGTTTCGCCAAAAATCAATAATCAGACAACAAAATGTGCGAACTCGATATTTTACACGACTCTCTTTACCAATTCTGC -CCCGAATTACACTTAAAACGACTCAACAGCTTAACGTTGGCTTGCCACGCCTTACTTGACTGTAAAACTCTCACTCTTAC -CGAACTTGGCCGTAACCTGCCAACCAAAGCGAGAACAAAACATAACATCAAACGAATCGACCGATTGTTAGGTAATCGTC -ACCTCCACAAAGAGCGACTCGCTGTATACCGTTGGCATGCTAGCTTTATCTGTTCGGGCAATACGATGCCCATTGTACTT -GTTGACTGGTCTGATATCCGTGAGCAAAAACGGCTTATGGTATTGCGAGCTTCAGTCGCACTACACGGTCGTTCTGTTAC -TCTTTATGAGAAAGCGTTCCCGCTTTCAGAGCAATGTTCAAAGAAAGCTCATGACCAATTTCTAGCCGACCTTGCGAGCA -TTCTACCGAGTAACACCACACCGCTCATTGTCAGTGATGCTGGCTTTAAAGTGCCATGGTATAAATCCGTTGAGAAGCTG -GGTTGGTACTGGTTAAGTCGAGTAAGAGGAAAAGTACAATATGCAGACCTAGGAGCGGAAAACTGGAAACCTATCAGCAA -CTTACATGATATGTCATCTAGTCACTCAAAGACTTTAGGCTATAAGAGGCTGACTAAAAGCAATCCAATCTCATGCCAAA -TTCTATTGTATAAATCTCGCTCTAAAGGCCGAAAAAATCAGCGCTCGACACGGACTCATTGTCACCACCCGTCACCTAAA -ATCTACTCAGCGTCGGCAAAGGAGCCATGGATTCTAGCAACTAACTTACCTGTTGAAATTCGAACACCCAAACAACTTGT -TAATATCTATTCGAAGCGAATGCAGATTGAAGAAACCTTCCGAGACTTGAAAAGTCCTGCCTACGGACTAGGCCTACGCC -ATAGCCGAACGAGCAGCTCAGAGCGTTTTGATATCATGCTGCTAATCGCCCTGATGCTTCAACTAACATGTTGGCTTGCG -GGCGTTCATGCTCAGAAACAAGGTTGGGACAAGCACTTCCAGGCTAACACAGTCAGAAATCGAAACGTACTCTCAACAGT -TCGCTTAGGCATGGAAGTTTTGCGGCATTCTGGCTACACAATAACAAGGGAAGACTCACTCGTGGCTGCAACCCTGCTTA -CTCAAAATCTATTCACACATGGTTACGTTTTGGGGAAATTATGAGGGGATCTCTCAGCGCGTAACGTTTTCCGGCTCAAC -AAGAGAAGGCGCTTCCGTAATGTACGCCAGCTCGTTTTTATCCCAGGCGCGTTTTTCGCCGAAGGCCAGCCAGTAGTTTT -TATCATTACGCGCCATCAGAATCGGGAAGGCCGCGTTGGAGATATTCACCACCGCCTGACCGCGCGCATTACCCGTGCTG -CCATAGAAGTTGGTGGAGTCATGGAATACATGGAACTTGCTGACAGATTTGTAGTTCGTATCCACGCCCCACAGCTTGTT -GATAACGCCCTGAATCTGGCCGTCATTAACATTGCGCGTCGTCAGCGAGAACCAGCGAGCCTCGTTACAACCATCGGTTT -TCGCACAAATCGCGGTATCGATCTCTTTGGCCTGACCCGTATTAAACTGCTCAATAAATTCGTTAGGCAGATTAACGACT -TGCTCACCTTCCCCCAGCGTCGCACCGTTGGATAACGAGAGATTGATAATCTCGTTGATCACGTTGGGATATTCGGCAAA -GACCTTGCGTACATCGTCCGGAACAACACGGGTATTATTTTGCCCGGTCGTCGAATAGCGATGAATAAGCTGATCAATAT -TCGCCCCGCGAACTTCATCACCCAGTTCAGTCAGCGCAATGGTCGACTTATTGCCGCGCACTGAACCCAGTTCAAAGGTA -TCGATACCAAAGGAGATGGTTTCGCCCCAGCTAAAGGAAAATTCACCATTTTCCCCTGTCACGCCACGGCCTGAATTGGT -GTAGTAGTTGACGCCAGCAACACCATATCCCTGGCTATCGACCAGTCGACCTTCAGAGAGAATGATTTCAGTGGGTTGAT -ACTGATAAAACTGTTCCGCGTTAGCCGACACGAAGGAAGCGTTCAGATCCGGTTTTGTTCCCGGCGTGGTGACGGGCACG -ACCGGTGAAGTATGAGTGGATGGCGCTTTATCGGTCGCAGCATTGTTTTCCACCTCTTCATTGACCAGCTTTTTGAACTC -TTCCGGTGCCAGATCGATTTGCTTATACAGCGAGTCGAAGCGTTTACTCTCGATCACCGAGGAGAACGTCAGACAAACCT -GTTCTGTATTCGCCGGACAGCTGTTACTGGACGTTACCAGCGAAACCGCATTGCTTTTCTTGTCATCGGAGCCCGCCAGT -TCTTGCGCGTCCTCAAGGCTAAACGACACTTTTTCAACCGCACGCAAGCTACGCGCAGCTTCTGACTGAGTGTTGAAGGT -GGCAATTGTCGTGTTACCCGCCACGCAAGTAACGTCCTCGCCAGGTTTAAATGTAAAGCCATCGCTGGATTCACCATTAC -AGGTAGCACCAGTTACCCGCTGGCTTCCGCCCAGGGTCAGATAACCCGTTTTCGTAGGAACAGGTTCTGGCTCCGGTTCT -GGTGTTGGTTCAGGATCAGGTATCGGTTCTGGCGTAGGCTCTGGGTCCGGCGTTGGCTCAGGCGTCGGCTCCGGGTTTGG -TGTTGGATCAGGTTTCACTTCCGGCAAAGACCCTGTTCCAGAATCTACAGGCGGCGTATCGGAGGAAGATCCGGAACCAC -CGCCATCACAACCGGCTAACAGGGTTGCGCTCAAAATAGCCGCTAAAAGCGATTTCTTATATTTAAATTTCTTATTCATT -AATAACGCAAGTGACAAAACAATGTTAAAAAATTCGTAACTGGGAGAAATAGTTTTATGCTTTATCTTCTCTAATAACTT -CCTCCATTCTTAAGAAAACGACATCATTGATAGAAAACAGGTGAAATTTATAAGAATAACCCCTATACGATGTCTATCTG -GCTATTTTTACGAAATTTCAACAAACAAAAAATTAACAACATTTCACAACGTAACTATATAAATTTGTTGGTAGTTTTAA -CGATTAAGATTGCAAAAGCAACAGATAGAACGGTGTTTGCTCATCAAGCGAACATAATTAATACAGACTTGTTTTGCGTG -ATAAAAAAATAGATGTTCTCACGCTCTTAATTATTTAGCAGGTTATCTGAACGCAAAACATTATTGCTGCATGGATAATA -AAGCGAGAAATGATTTTCAATTAATAAGACAGAATAATGTAAATGAAGCCGGATGATATTAACGATCATCCGGCTTTATT -GATTTACGAGACTAACATCCCGGTAAACACATACGCCTGCAGCAGGGTGATAATGCCGATAACGCTGGCAAAAATCAGAC -TGTGCTTCACGGTGTAGCGGAACAGTTCAGATTCTCGGCCCACCATGCCCGTCGCGGCGCAGGCCACGGCGATAGATTGC -GGGGAGATCATCTTGCCAGTTACGCCGCCGCTGGTGTTTGCTGCCACCAGCAGGGTGTCAGAGACGTTGATTTGCTGCGC -CGTGGTCGATTGCAGTGAACCAAACAGGGCGTTAGAGGAGGTGTCCGAGCCGGTAAGGAATACGCCCAGCCAGCCGAGAA -ACGGTGAGAAGAACGGGAACATCACGCCTGTACCTGCCAGTACCAGCGCCAGCGTGGTGGACATGCCAGAATAGTTGGTG -ACGAAGGCGAACGCCAGCACCATGCCAATCGACAGTATCGGCCACTTCAAGCTAATTAGCGTTTCGGCAAAGACGCCAAT -ACCTTTCTTGATCCCCACACCGAGGATGAAGATAGAGATAATCGCCGCAATAAAAATAGCGGTGCCGCCAGCCGAGAGGG -GGTCGAATTTAAACACCGCATCCATTGGCGTTGGTTGGGCGACAATGGGTGCCGCTTTCAACACTTGTTGATGCAAATGA -GGGATCTGGAAATTAATCACCAGTGAATAAAACGCGCCGCCCGGAGCAAATAACGCTTTAAACGGCTTCATGGTCCAGAT -GGTGACCAGCACCGTTAAGATTAAAAACGGTGACCACGCTCGAATGATTTGCCCCAGACTATATTCTGAAGGCACGGGAC -CGCCAGAAGATGGCTTATTTACCACCATCGCACCTGCGGATTGTCCCATGCTGATTGCCGTTTCGGTATTTTTCGGCCGC -CAGACTTTAAGGAATAAAGCGAGTGAGACGATACTCACCAGCGCCGAAGTAATATCCGGCAGTTCCGGACCAATATAGTT -AGAGGTAAAGAACTGAGTGACAGCGAAGCTTCCCCCAGCAACCAGCGCCGCTGGCCACGTCTCTTTCACCCCTTTCCAGC -CGTCCATCATTGCTACCAGCCAGAACGGCACAAGAACCGACAGGAACGGTAACTGACGTCCCGCCATTGCGCCAATGTGG -AACGGATCGATTCCCGTTACCTGACCGGCGACCAGAATCGGCACGCCCAACGCACCAAACGCCACCGGCGCAGTATTGGC -AATCAGACACAGCCCCGCCGCGTATAACGGTTTGAAGCCCAGGCCCACCAGCAGCGCACCGGTAATCGCCACCGGCGCAC -CAAAGCCAGCCGCTCCTTCCAGCAACGCACCAAAGGAGAAACCAATCAGTAACACCTGCAAACGCTGATCGTCGGTGATG -GAGATAACCGAGCTGCGGATAATATCGAACTGCCCGCTGGCAACGGTTAATTTATACAGGAACACCGCCGCGACAATAAT -CCACGCTATTGGCCATAATCCATAAATAAAGCCATAGCCCGCAGCAGCAAATGCCATATCAATCGGCATTTTAAAGGCGA -ATATTGCAATCAGGATAGATAATATAAGGGTTATTGCTCCAGCGACATGTCCTTTCAGACGTAATACCGCGAGTGCAACG -AAGAAGAATATTATCGGGATCAGGGCGACCAGAGCGGATAGCCCCAGTCCTCCCATCGGCATATACATTTGGGTCCAGGT -AACCATATTGTTCAGTCTCTTATTATCTTTATATGCTTGATATACTTAAGGTTGTAATAAGCAAAAGAGGACTGAACTGT -AAAATATAGGCGTTATACTTTACAGCAACAGTACGCCGCTAACGCAATTGCTACCTCTGGCATAACAAGTATATCGGGTA -AGGGTTTCTGTTCCGCACACGCAGACGCAGAGTATCGTTAAGATGTCCATATTGTTGTTTTAGGCCCGCTAGTAATGCGC -TACGGGTATTTAATATTGTTAAACCCTGATAATCGCTCCGGTTATTTCCGGGATAAATGTACTACCGCAGTTACTATCAT -AGCCCCGACAATAAAACTTGCCGGGGCTTTTTTGACGCTATTAATGACTTTCTTTTTCGCGTAAACGCCAGGCGTGTAAT -AACGGTTCGGTATAGCCGTTTGGCTGTTTCACGCCGAGGAAGATTAAATCGCTGGCAGCTTTAAAAGCACACGAGTTAGC -GAAATTCCCCGCCATCGGACGATAAGCCGGATCGCCAGCGTTTTGCTGATCAACCACTTTCGCCATATTCTCCAGCGACG -CCTGCACCTGTTCTTTGGTCAGAATACCGTGACGTAACCAGTTGGCGATATGCTGGCTGGAGATACGCAGCGTTGCGCGG -TCTTCCATCAACGCCACATTGTGAATATCCGGCACTTTTGAACAACCAATCCCCTGCTCCACCCAGCGCACCACGTACCC -CAGAATCCCCTGCACGTTGTTATCCAGCTCTTGTTGGATCTCTTGCGCCGACCAGTTAGCGTTTTCAGCAACCGGAATAG -TCAGCAGATCGTCCAGCAGCGGTTCAAATTCAGCATTGAACTCGGTCTGGGCAATGTTGGCTTGTACGCTCTGTACGTTG -GTTTGGTGGTAGTGCAGCGCATGGAGCGTAGCAGCGGTTGGTGACGGAACCCAGGCTGTGTTTGCCCCGGCACGCAGTTG -GTCGCCCTTCTGGCTGTACATGTCTGCCATCAGGTCCGGCATTGCCCACATGCCTTTACCAATTTGCGCTTTACCGCGCA -GCCCACAGAACAGACCGGAAAGCACGTTATTACGCTCGTAGGCTTTGATCCAAGGCGTCGATTTCATCTGATTTTTACGC -AGCATCGGGCCAGCTTCCATCACCGAATGCATTTCATCGCCGGTACGGTCGAGGAAACCGGTATTGATGAACGCCACGCG -GTTGCGCGCCTGAGCGATACAGCTACGCAAGTTCAGCGAGGTCCGACGTTCTTCATCCATAATGCCCATTTTCAGGGTAT -TCGGTGCCATACCGAGCATTGTCTCAATGCGGGTAAACAGTTTGTTGGCGAACGCCACTTCCTGCGGACCGTGCATTTTC -GGTTTCACAATATAGACGCTGCCAGTGCGCGAGTTTTTCTGCACTTTTAAATCATAGAGGGCAATCGCGCCAGTCATGAC -GCCATCAAGAATGCCTTCCGGGATTTCATTGCCTTCGCTGTCCCAAATCACAGGAATGGTCATCAAATGACCCACGTTGC -GGATAAACAGCAGCGAGCGTCCGTGCAGAGAAATTTCAGAGCCATCGGCGGCGGTGTAATGACGATCGTCATTCAGTTTA -CGCACGATTTGCCGACCGTTTTTCTCCATTTTCTCTTGCAGAGTCCCCTGCATCAGGCCCAGCAGGTTGCGGTACAGCAG -GATTTTATCTTCCGCATCAACCGCCGCGACCGAATCTTCGCAGTCGAGAATGGTACTGATAGCAGCTTCGACGATAACAT -CGTTGATGTGCGCCGGATCGTCTTTGCCAATCCGCCCATTGGCATCGATTTGCAGCTCAATATGCAGGCCGTTATTTTTC -AGCAAAATGCAGGTCGGCGCAGCGGCATCGCCACGGTAACCGACAAACTGTGCTGGAGTACGTAACGTGGTTTCTTTACC -ATTTTTCAACTGGATGCGTAATTGTTTATCAACCACCTTAAACGCCACCACATCCTGATAGCTGCCGTTTTCCAGCGGTA -GAGATTCATCGAGGAAACGCCGAACCCAGGCGATAACCTGCTCACCGCGTTGCGGATCGTAGCCGCTGACCATCGCCCCT -TCCTGCGGGATGATGTCGCTGCCGTATAACGCATCGTACAGTGAGCCCCAGCGAGCGTTCGCCGCGTTCAGCGCGTAGCG -GGCGTTCATTGCCGGAACCACCAGCTGCGGCCCCGCCTGGCTGGTGATTTCGCTGTCAATGCCCGTGGTTTCCACCGTCA -CGCGCTCCGGTTGCGGCACCAGGTAGCCCAGTTCACGCAGGAAAGATTTATAGGCCGCTTTATCTTTTACCGGCCCCGGA -TTGCTGCGATGCCACTCATCAAGCGCTGCCTGAATGCGATCGCGTTCTGCCAGCAACTGACGATTTTCTGGTGCCAGATC -ATGAACGATCTCATCAAAATTGCGCCAGAACGCCGCAGCGTCCAGCCCTGTTCCCGGTAAAACTTCTTCATCCACAAAAC -GTTTAAAATTGGCGTCAATGCGTAAACGGCTCTGGGTTATGGTTTGACTCATTGTTTATCTCCTCGTTTTCGCTTATTTC -GCCAACACCGCTGCTGCCGCTTTCGCGACCTGCGCATCCTGTGCTCCGGTTAAACCAGAAACGCCCACGGCACCAATAAT -TTGCCCATCCACAACAACCGGTACGCCGCCTTCCAGCGACGTTAATAACGGCGCAGTCACGAACGCGGTACGTCCGTTGT -TCACCATCTCTTCATAGCCCTTAGTTTCACGACGCCCCAGCGCGGCGGTACGCGCTTTCTCCTGGGAGATATAAGCCGCA -ATCGGCGCGCAATCGTCCATGCGACTTAACGCCAGCAGATGACCGCCGTCATCGGCAACAGCAATGGAAACAGACCAGTT -ATTTTTCTGCGCCTCTTCCTGACCTGCGGCAATAATTGCACTCGCCATTTGCTGGCTAAGAATGACTTTAGTTTTCATTT -TGTTATTCCTTTTCAAGGGCTTGTTCTACAATTTCAATCCAGTGACGCACAGAGGTACGACCGGCGCTCGCCAGATGCGT -CTGGCAACCAATGTTGGCGGTGACGATCATTTCCGGTTTGCCGCTTTCCAGCGCATTCATTTTGTTATCCCGCAGCTGGC -GTGCCAGATCGGGATGCGTTAACGCATATGTTCCCGCTGAACCGCAGCACAGATGGCTGTCGGGAACGTCCGTTAAGGTA -AATCCAAGACGAAGCAACACTTTTTCCACTTCGCCGTTCAGCTTTTGCGCATGTTGTAGGGTACACGGACAGTGGAAGGC -CAGCTTTTTATCGCCGCGAATTGCCAGTTTTTCCAGCGGTTCCTCGCGCAGAAGTTCGACTAAATCGACCGCCAGTTCAC -TGACCTGACGTGCTTTATCGGCATATAACGCATCGTTTTTCAGCATCTGCCCATACTCTTTGACAAACGCGCCGCAGCCG -CTGGCGGTTTGCAAAATTGCCTCGGCACCTGCTTCAATCGCGGGCCACCAGGCATCAATATTATTGCGCGCCCGTGCCAG -CCCTTTCTCCTGCGCATTAAGATGATAGTCCACCGCGCCACAACAGCCTGCTTCGTTAGCTGGCATGACGCTGATCCCCA -GACGATCCAGCACTCGCGCAGTTGCCGCGTTGGTGTTGGGCGAAAGCGTAGGCTGGGCGCAGCCTTCCAACATTAAAACC -CGACGCTTATGGCGCAGCGGCGGACGCGGTTTAGCTTTCACCGTTTCAGCAGGCAGTTTTGCTCTGACCTGTTCCGGTAA -AAACGGTCGCAGCACCAGCCCTACCTGCGTCAGCGCACGGAAGACCGCCGGACGCGGCACTACCTGGCGCAATCCTTCGC -GCAGTATTCGCTCCGGCAGTGGGCGTTTCACTTTCTGCTCGACAATATCACGCCCGATATCCAGCAAATTGTGATAGCGC -ACACCAGAAGGACAGGTGGTTTCACAATTACGGCAAGTGAGGCAGCGATCGAGATGCTCCTGTGTTTTAAGCGTGACTTC -GTTGCCTTCCAGCACCTGTTTAATCAGATAGATGCGCCCGCGCGGCCCGTCCAGTTCATCGCCCAGAAGCTGATAGGTTG -GGCAGGTTGCGGTACAAAATCCGCAGTGAACACAGGCGCGCAGGATGCTGTCGGCTTCCAGCGCGCGCGCGTTCTGCCGC -ATCTCTTCAGTTAATTGGGTTTGCATAGCCTGCTCCTCAAAGTTCCGCGTACATGCGACCGGGGTTAAACACGCCGCAAG -GGTCGAGCTGCTGTTTAAGCTGCTGGTGATAGCGGAATAAAGGAGCCGATAGCGGGGCAAAGCCACCATCTCCGGCACTA -AAGCGGGTCGCATGACCGCCAGCGTTGCGGGCGATGCGATGGATTTGATTGTCCTCGGCTGTCGATTTCAGCCAGCGTAA -CGCCCCGCCCCAGTCGATCAGTTGCTCGCCGGGTAAATCCATCATCGGCGCATCACTGGGTAATGAAATGCGCCATAAGG -TACCTGGTAACGAGAAGAACGGCAGTTGTTGTTCACGCAATTGCTGCCAGAACTGACCGGCAACCTCTTCGCCACCCAGC -AGTTCACGCGCTGCTTTTACCGATCCTTCGCCGCCCTCAAGGCGGATCCACAACGCATTGTCGAAGTAACATAAGCCACT -AATGGGTAATGGCTGGAGTTGCCACTCGGCGATTTCACTCATGGCTTCTTGCAGGCTGATTTCCCGACGCAGGCTCAGGG -AGGCGCGCGGTCGCGGTAACACTTTCATTGAGATTTCAGTGAGCACGCCAAGACAACCGTAGCTTCCGACCATTAACCGT -GAGAGATCGTATCCGGCAACGTTTTTCATCACTTCGCCACCAAAACGCAGATGTTTTCCAGCGCCGGTAATGATGCGCGT -GCCGAGGACAAAATCGCGGACCGAACCGCTCCACGGGCGACGCGGCCCCGCCAGCCCGCAGGCGACCATCCCGCCCCAGG -TGGCTTCTTCACCATAATGCGGCGGCTCACAGGGGAGCATTTGCCCCGCGCTTTCCAGCGCCGCTTCAATTGTCACCAGC -GGCGTTCCGACACGCGCGGTTATCACCAGCTCGGTCGGGTCGTAATTAACAATGCCGCGATGACAACGAACATCCAGCGT -TTGCCCGGTGACAGGGCGACCTAAAAAGGCTTTGCTATTGCTGCCCTGAATCACCAGCGGCGTTTTATCGCTAATCGCCT -GATTCACCTGCTCCAGCAGCGCCTGGCTGTAATCACACTCGCGTAGCATCAGAAACGCTCCAGTTCAGGGAAAGGTAAAT -GACCGTGATGCACATGCATGGCACCAAATTCAGCACAGCGGTGTAGCGTGGGAATGTTTTTCCCAGGGTTCAGCAAACCA -TCGGGGTCAAACGCCGCCTTGACCGCATGGAAGGTCGTGATTTCATCGCTGTTGAACTGGGCGCACATTTGATTGATTTT -TTCTCGCCCGATGCCATGTTCGCCACTGATGCTGCCGCCAACTTCAACGCAGAGTTCGAGGATCTTCCCGCCCAGCTCTT -CCGCGCGGGCAAATTCACCGGGTTCGTTGGCATCGAAAAGGATTAACGGGTGCATGTTGCCATCTCCGGCATGAAAGACG -TTGGCAACACGTAAATCATATTGCTGCGATAAACGGGCAATGCCTTCCAGTACGCCAGGCAGGGCGCGACGCGGGATGGT -GCCATCCATGCAGTAGTAATCCGGGGAGATACGTCCTACCGCCGGGAACGCATTTTTGCGACCGGCCCAGAAACGTACGC -GCTCTGCTTCGTCCTGTGCCAGACGGACGTCAGTCGCGCCCGCTTTCAACAAGATGTCGTTAACCCGCTCGCAGTCTTCC -TGTACGTCAGACTCCACGCCGTCCAGCTCGCATAACAAAATCGCTTCGGCGTCGACGGGATAACCGGCATGAATAAAATC -TTCCGCCGCGCGGATCGACAGGTTATCCATCATCTCCAGCCCGCCGGGGATAATGCCATTGGCGATGATGTCACCAACCG -CAAGTCCGGCTTTTTCTACCGAGTCAAAGCTGGCTAACAGAACCCGCGCCACGGGCGGCTTCGGCAGCAGTTTTACCGTC -ACTTCGGTGGTCACGCCGAGCATACCTTCCGATCCGGTGAACAGCGCCAGCAGGTCAAAACCAGGTGAATCCAGCGCGTC -CGATCCAAGCGTCAGTGCCTCGCCGTCCAGCGTTTGCACTTCAATTTTCAGCAGGTTATGTACGGTCAGACCATATTTCA -GGCAGTGGACGCCGCCGGCATTTTCAGCCACATTGCCGCCAATGGAACAGGCGATTTGTGAGGAAGGGTCCGGTGCGTAG -TAGAGATTATGCGGTGCAACGGCCTGGGAGATCGCCAGGTTACGCACGCCTGGCTGCACGCGCGCGCGGCGACCAACGGG -GTTAATGTCGAGGATCTCTTTAAAGCGCGCCATCACCAACAACACACCTTTTTCCAGCGGCAGCGCGCCACCAGAAAGCC -CGGTGCCTGCACCACGGGTCACCACCGGTACACGCAGGCGATGGCAGACAGCCAGAATCGCTGTCACCTGTTCCATTTGC -TTAGGCAGAACAACCAGTAATGGACGCGTGCGATACGCGCTCAACCCGTCACACTCGTAAGGAATGATCTCCTCATCGGT -ATGCAGGATCTCAAGTCCAGGGACATGCTCACGCAGTGCCATCAGTACCGATGTGCGGTCGACATCGGGTAAAGCGCCAT -CAAGACGCTCTTCGTACAAGATGCTCATGAGTAGGCTTCGCTTTGTTGTGTTGTGTGGCAGCTGATTTTTGCGCGCTGCT -TCTGTGAACAGTTATTAAGCGGGCTTTTCGTTTTCGTCTATCTCTTTAGCTACCGGTCAGACCATTTTTTTTCCAGCTCT -GTGACCTTGTCTTGGTTAACTCAATGTTAAATTGATGTAACATAATCACTTACGTGATGTGCGTGTTTTGCGAGTTAAGA -ACAGAAAAATTGGTCCTACCTGTGCACGAGGTCCGGGAATGAAAGATGAACGTCGCCCTATTTGCGAAGTGGTTGCAGAG -AGTATCGAACGGTTAATTATCGACGGCGTACTGAAGGTCGGTCAGCCGCTTCCCTCGGAACGTCGACTGTGTGAAAAGCT -CGGCTTCTCACGCTCCGCACTGCGTGAAGGGCTGACCGTGCTGCGCGGGCGCGGGATTATTGAAACGGCGCAGGGTCGCG -ATTCTCGTGTCGCACGGCTTAATCGGGTGCAGGACACCAGCCCGCTGATCCATCTGTTCAGTACGCAGCCGCGAACGCTG -TACGATCTGCTCGACGTTCGCGCATTACTGGAGGGCGAATCGGCAAGGCTGGCGGCAACGCTGGGAACGCAGGCTGATTT -TGTTGTGATAACCCGCTGTTATGAAAAAATGCTCGCCGCCAGTGAGAACAACAAAGAGATTTCGCTGATCGAACATGCGC -AGTTGGATCACGCTTTCCATCTCGCCATTTGTCAGGCTTCTCACAATCAGGTGCTGGTGTTTACGCTGCAATCATTGACC -GATCTGATGTTTAATTCAGTGTTTGCCAGCGTAAATAATCTCTACCATCGACCACAGCAAAAAAAGCAGATCGATCGCCA -GCATGCGCGGATCTACAACGCGGTGTTGCAGCGGCTGCCGCACGTCGCCCAGCGCGCAGCACGCGATCATGTGCGGACCG -TGAAAAAGAATCTCCACGATATCGAGCTGGAAGGCCACCATTTGATTCGCTCGGCGGTGCCGCTGGAGATGAACCTGAGT -TAGCTGGTATTAAATCTGCTTTTCATACAATCGGTAACGCTTGTACGGCTCCGCCCCAATGCGTTCCAGCATGTTATTCA -TGCCTGTATTGGTTTCGAGGATCCATGACATCTCCAGCGCATCGATCTTCCGGCGGGCAAACGGATCGCGTAAGGCTTCA -ATCAATAACAGCGCAATCACCGGGCCGATGCGGCTGAACTGATACTCGTCGCGCACGCCCATCAGCGGTACTCGCGCAGT -TCGCACACCGCTGACTTTCAAACGCCACAGCAATTTTGCCCAGCCGAAGGGAAAGAGCGATCCGTTCAGATCGGCAATCG -CCTCGTTGATGTTCGGCAAGCCGACAATAAACGCGCAGGGTGCAGAATCAATCTCAGCGATATAGATCATATCGTCCGGC -ACCAGATATTTAAGTTGATCGCCCATGGTCGCGAATTCATGTTCGGTAAACGGCACAAATCCCCAGTTGTGCTGCCAGCC -AGAGTTGAAAATCTCACGCAGGATCTGCATCTCTTCGGCAAACCGCTGACGATTGATGCAGCGAATGGTCACCTTTTTGC -GCACCTGATCCATCAGTTTTTTTAGCGCCGGAGAGAAAGTGAGATCGGTTCGCTGCATCCACCACGCCAGTAAATCAATG -CCTTTGTGATAACCCAGTTGTTCAATATGCGCGGCATACCACGGTTTGCCGTGTGGCATCATCGCACAGGGTGGTGTGTC -AAAACCTTCAATCAGTAATCCGCTTTCCTGATTGATATTCAGGCTGAAAGGACCGCTGATCTTACTTGCACCTTGTGACT -TCAACCACGCTTCCGCTGCGCCAAACAACGCGGCAAAAACCTGCGGATCATCAATGGCGTCAATCATGCCGAAATGACCG -GTATCTTTGCCGTAACGCTCGCGGTGCAAGGTATCTATTTGCGCGGTAATACGCCCAACTATCTGCCCCGCTTTTTTTGC -CACCCACGCCTGCCAGATGATATGGTCCGTCCCCGGATTTTTCGCAGACAAATGCTCGTTGCGTTCAATGAATAAAGGGG -GTATCCAGTTTGGATCGTCGGGATAAAGTGATGACGGAAAAGCGATAAATGCCTTAAGGTCATTTTTATTAAGGAAGGTG -CGAACAAGTCCCTGATATGAGATCATGTTTGTCATCTGGAGCCATAGAACAGGGTTCATCATGAGTCATCAACTTACCTT -CGCCGACAGTGAATTCAGCAGTAAGCGCCGTCAGACCAGAAAAGAGATTTTCTTGTCCCGCATGGAGCAGATTCTGCCAT -GGCAAAACATGGTGGAAGTCATCGAGCCGTTTTACCCCAAGGCTGGTAATGGCCGGCGACCTTATCCGCTGGAAACCATG -CTACGCATTCACTGCATGCAGCATTGGTACAACCTGAGCGATGGCGCGATGGAAGATGCTCTGTACGAAATCGCCTCCAT -GCGTCTGTTTGCCCGGTTATCCCTGGATAGCGCCTTGCCGGACCGCACCACCATCATGAATTTCCGCCACCTGCTGGAGC -AGCATCAACTGGCCCGCCAATTGTTCAAGACCATCAATCGCTGGCTGGCCGAAGCAGGCGTCATGATGACTCAAGGCACC -TTGGTCGATGCCACCATCATTGAGGCACCCAGCTCGACCAAGAACAAAGAGCAGCAACGCGATCCGGAGATGCATCAGAC -CAAGAAAGGCAATCAGTGGCACTTTGGCATGAAGGCCCACATTGGTGTCGATGCCAAGAGTGGCCTGACCCACAGCCTGG -TCACCACCGCGGCCAACGAGCATGACCTCAATCAGCTGGGTAATCTGCTGCATGGAGAGGAGCAATTTGTCTCAGCCGAT -GCCGGCTACCAAGGGGCGCCACAGCGCGAGGAGCTGGCCGAGGTGGATGTGGACTGGCTGATCGCCGAGCGCCCCGGCAA -GGTAAGAACCTTGAAACAGCATCCACGCAAGAACAAAACGGCCATCAACATCGAATACATGAAAGCCAGCATCCGGGCCA -GGGTGGAGCACCCATTTCGCATCATCAAGCGACAGTTCGGCTTCGTGAAAGCCAGATACAAGGGGTTGCTGAAAAACGAT -AACCAACTGGCGATGTTATTCACGCTGGCCAACCTGTTTCGGGCGGACCAAATGATACGTCAGTGGGAGAGATCTCACTA -AAAACTGGGGATAACGCCTTAAATGGCGAAGAAACGGTCTAAATAGGCTGATTCAAGGCATTTACGGGAGAAAAAATCGG -CTCAAACATGAAGAAATGAAATGACTGAGTCAGCCGAGAAGAATTTCCCCGCTTATTCGCACCTTCCCTAAATCAGGTCA -TACGCTTCGAGATACTTAACGCCAAACACCAGCGAAATGAGCGGCTTGCCGACGATCAACACCGCGAGCGCCACCAGAAT -ACCGATTCCGCCCGCCAGTAAACCGGACTTCACACCTAACAACCACGGTCTGGTGGTGCGCGGATCTAAACGCATCACCT -CTGGGTAAAAACTTTTACCCAGCAAACCCGCTGGCGTTCCGGCGGCGTCGAAGAATGTCATGGCGATTTTAAATAACCCG -GCGGCAGCGGGTCCTAACACGATCCCCACCAACACTGTGCTGCACGAGTTACGCGCCGACCAGATGGAGTGGGCAATGTT -GGTTGACCAGACAAAACTCCACGCGCCTTTAATGTATCGGGCAGACTCAAACAGATTCAATTTGAAGGCGTTATGGATAT -TTCGGCGGCGTAATTCGCGCGCGGCAAACCACCAGTACATGGTGCCGCCAACCAGATTCGACACGTACCAGGCAATAACA -AAACCCGCAAAACCAAAGTCAAAATACCAGGCTACGACGCTCCCCGCTGCGCGCAGAAAAGGTTTCGTCGCCTGCTGTAC -AGCAATTAAATCGAAGCGATCTACCGCACGCAGAATGCCGGTCGGCGTGGAGGAAGCCATTGAAGGAATGAGCGTGCAAT -AGAGCGCTGCCAGCCAAAAACTTTGGTCATCCAGACCTAATGAATGGGAAAGGAATGGCAGTAAGGCAATGCCACCGACA -ATCGCCACCGCGCCGCTGACGATATCCAGCGAGAAGGAAAATGAGACGACATTGCGGAATTGCTGCGGATTATTGTTGGT -TAATGCTGGTGTTCCGTACTGAACCACCAGTTGCCATGTCTGAAACTTAATAAAATCGCTGATCGACTTGGCGTACGATT -GCACAATCACCAGTACGCCAAACATGGCGGGCGTCATCCCTTTACCGGCACACGAGAGCGCCAACAGACCCAGCAAGGCG -CTCACGACATTACTGGAGCCTAACCAGGCGCTATTGCGAATAATGGTGCGAAACGCGCCATCTGCAAACCAATGTTTGAT -GTTAAAACCCGCCAATTCAGCCTGACCTTATCGTTGATAGTAAAAAGTATCCCGCCAGCCTTAAGTTAAACTTCGGCGGT -CAGAAACGATGGCAACCAGAGAAACCGCCTTCTGTGCCTGTTCCAGCACTTCGCTGTAGGGCGCTCTGGAATCAATCTCA -AGAATTTTTGTGCCGTTATAGCCAATCTTCGACATGACACCGATTTTGTCCTGCAGCTCGGCATAGTCATGGTCAGGCTT -GCGGGAGATGGCAGTCTCAATATCAATGCCCAGGCGAATAATTAATTCCGGGCGATATTGCGCCATTTGTTGGTATAAAC -GCCGTTCGCGCTGCGCCAGAAACATGCTGATTTTCCCGGTCGCACGTTCGACGCCAATCCCCGGTCCATCATAATAAAAG -CCCGAAATTTCAGCCTGCGGGAAGCGATCGCTGACCACCAGAACGCCACTTTGCGCCAGTCGCTGAACCTTGCGTAGATT -CGCCATTCTTCGCAGCGAGAAGCAGTACATAATCACCGCCGCCCATAGCGCCGGAGATTTGGTTTTCATGCTTTGGGTTT -TCGAGGATTTGGCCGCCAGTCGCCGTTCCAGCCAGACGCCAACCAACGGCAATCGTTTGATTTTGTCGCCGTCTTCGCCG -GAGAGCAGCCCCAGATAGCGCCGCTCGGTTTGCCAGTGTTGTTGCAGCGATTTCACCAGGTCGGTGGTCAGTGTGGATTT -ACCGGTGCCATCACACCCGACCACCGCAATCAGCCCCGGAATGTAGTTGGGCTGCGGCGCGGTTGTACTATTAACAGTTT -GAGTTTGTAGTGCATCCATTCGTTAAATCATCCCCTATCCATTTTGGTGATCAGGAAAGCGCGGCGTGAATTGCGCGTAG -TGACGCTTGCAGAATTTCATCGGCGGGGTGTCGCCCATCCAGTTCAAGGATCTTTGCGCCATTGAATGTCAGTTGCGGCG -TAACGGCGATTTTTTCCTGTAACGCTGCCAGTTGGTGGTCAGGTTTACGCGCAAACGCGGTTTGTTCATCAATGCCAAGA -CGAATCAACAATACGGGCAAATAAGATGCCATCCATTGGTACAGCTTCAGCTCGCGCTGCCTTAACATTTTTATCCAACC -GTTACCGCCCGTGGTTTTTGCCAATTGCGGGCCATCAAAGCGAAACCCCGGCACTTCAACCTGCGGGTAGCGGTCGGTGA -TGAGCAGAAAGCCTTGCTGGCTTTTACACAACATTTTGCGAAACTTGTACGCCCGCCAGCAGGAAAGCAGATAGATAACC -AGTGCAGTAATATTGCCAGGCGGTGTTGAGGGCTTTTCGTGCACATGTGCCGCTTTACTTCGCAGATAACGCCCAAAAGG -TGCGCCAATAACAGGGAGCTGTGAAATCCATTCGCCAATTCGCCCGGACGATTGCCCGAGATAAATGTGTTCTGTTGGCA -TTCTTGCTGCCAGTTCATTTACCAGGCTTGCCGTGAGGGTCGATTTACCTGAACCATCACATCCTACAATGGCAATAACA -CGCACTGGCGTGGAATTAATTATTGACATATTACGTTGATTCACGAAAAACCCGGCAGTAAATAATGTATTGAATATTAC -GTGGTCCGTGCTCAGAATATCCGTTCAACCTTATTGTGACAATGGTTAATTGTGACATTGACCTGAATTACGCTTTCATA -AAAACATATTAACCAAATAAATATTTTTAATGGATATTTAAATTAAAGGATATATTCATGCAGTCAATAACACCTCCATT -AATTGCCGTTATTGGTAGCGATGGTTCAGGCAAGTCAACGGTGTGTGAACATCTTATTACCGTTGTCGAAAAATATGGTG -CTGCCGAAAGAGTTCATTTAGGAAAACAGGCCGGAAATGTCGGTCGTGCAGTGACAAAATTACCGTTGATGGGAAAATCC -TTACATAAAACAATTGAACGAAATCAGGTGAAAACAGCAAAAAAATTGCCTGGACCAGTTCCGGCGCTGGTAATTACAGC -GTTTGTCGCCCGTCGCTTACTGCGCTTTCGTCATATGCTTGCCTGTCGTCGTCGCGGGTTAATTGTTCTAACCGACCGTT -ATCCTCAGGACCAAATTCCTGGCGCTTACGATGGTACGGTGTTCCCACCTAACGTTGAAGGTGGTCGTTTTGTCTCATGG -CTGGCAAGCCAGGAACGTAAAGCGTTTCACTGGATGGCGAGCCATAAGCCTGATCTGGTCATCAAACTCAATGTTGACCT -TGAAGTTGCCTGTGCACGTAAACCCGACCATAAACGGGAATCGCTGGCGAGGAAGATTGCCATAACGCCACAGTTAACCT -TTGGTGGTGCACAACTGGTTGATATCGATGCCAATCAGCCACTGGAACAGGTGTTGGTTGATGCAGAAAAAGCGATTACG -GATTTTATGACCGCGCGTGGTTATCACTAGTCAAAAATGGAAATGCCCGATCGCCAGGACCGGGCATTTTCAGGAAGGTT -AAATCAACTGCAATGCTATCCAGTACAGCCCACCAGAAAGAAAAATTGCCGCCGGTAAAGTAAATACCCACGCCATCAGG -ATGCTGGTTACCGTTTTACGCTGTAACCCACCGCCGTCCACCACCATCGTCCCTGCAACTGCAGACGAGAGGACGTGTGT -TGTGGAGACGGGCATCCCAATATAACTGGCAAGACCGATAGACACTGCCGCCGTCATTTGTGCCGCCATGCCTTGCGCAT -ACGTCATGCCGCGCTTACCAATCTTCTCACCGATGGTCATCGCTACACGACGCCAGCCAATCATGGTGCCAATGCCGAGC -GCCAGTGCTACCGCCATGATGATCCACACCGGAGCGTACTCAATGGTGCTTAACATATCGCTGCGAAGTTTTTTCAGCAG -GTTCTGGTCTTCTTTACTGACGCCTGGCAGTTTCGCTAGCTTCGCGGAGGTATCAGAGATGCACAGCATAATGCGGCGCA -GCTGGCTGCGCTGACTCACGCTTAACGGCTCGTAACTTTCCATATTGCCTGGCAGCATCGTTTTAACGCGCGCAATAGCA -TCAAAGGTATTTGCCGGATGACAGTGAAACTCTGTTACTTGCGTGCCATCAGTCGATGCTGCAGGCAATGGAGGTTCCAT -CGCAATCAACTTCTGCGGCAGTTCAGGATGCTGTTGCAGGTAGTGTTCGAAGTTGGTAACGGCATCGCGGGTACGGGTAA -TTTCATAGCCGGACGCATTCATATTGACGACGAAGCCAGCAGGGGCAATCCCCACCAGTACCAGCATTACCAGGCCGATC -CCTTTTTGTCCGTCGTTCGCGCCGTGCGAAAACGCCACGCCCGCAGCGGAAACAATCAGCGCAATACGCGTCCAGAATGG -CGGTTTACGTTTGCCTTTTTTCTTTTTGCGATCTTCCGGAATGCGGTGAATACGGTCACGCTTTTTCGTCCCGCTCCAGT -AGCGTCGCAGCAGGAATATCAGGCCTCCCGCAATGACCAGGCCGACGATAGGGGAAACAATCAGCGAGGAGAAAATTTTG -GTCACTTCACGCAGGTTTAACGCATCCATCACCGATGAGCCGGTTAACAGCGCGTTGGTTAAACCGATGCCGATAATCGC -ACCAATCAAGGTGTGCGAACTGGAGGCCGGTAAACCGAAGAACCACGTTCCCAGGTTCCAGATAATCGCCGCCAGCAGCA -TGGAAAAGACCATCGCCAGGCCGTGGGTTGACCCCATATTCAGCAACAAATCGGTTGGCAACATATGGACAATGGCATAG -GCAACGCTAAGTCCGCCCAATAACACGCCAAAAAAGTTAAAAAATGCCGCCATCACCACAGCAAGTTGTGGTTGCATGGC -ACGAGTATAAATAACGGCTGCCACCGCATTCGCCGTGTCATGAAAACCATTGATTGCTTCGTAGAACAACACAAATGCCA -GAGCAAGCAATAACAAAAGCCCTGTGTATATATCAAGGCCAACAAATAAATTTAGCATATATTAGATTACGCCATTTTGA -ATTTACGAACGGACGCATTATCAGTGACTTTAACGGCATGGGCAAAGTGAAATATCATTTTTTAACGATAAAAAGAGTGT -TATTTCTTGTGTATCAGACAATAAGCATTCATTCAAAACCTTTAGAAATAATCAAAACACAGGTATTCCACTGGTTAATA -TATTCACATATGAAATGAATAAATATTGGAATATATAAATATTGAATATTTTGATTAATCCCCGTACTGATTATTCTTCA -TAATCAGTACGGGGTTGCTACAACATGTATTACTTTTTCACCACAATTAACGGTTCAATATCACTCTCTTTTTTGATGAC -CAGTGATTCATCACCGCGCAAACACGTCCCACCGTAGTTGCCGCCAACGGTGAAGGTACATACCTGAATGTATTTACCGT -CCACTTTCGGCAAACACCACAGTTGCTGATAGATGTTTTTCTGCTCGGCAAATTTACCGCTGGTTTTGTCCAGCACCTCT -TCATGATGGCTGACGAGGTCGATATTGCTGCCACAGCGACCGGCGATCGGTTTCACTGCGTAACCTGTTTTCACCAGTTC -ATCATTAACAGTGAAATCGGTATCCAGCAGGTAACGATGGTGCGGGAACAGCGACCAGAGGATCGGCAGAATCGCTTTGT -TGCCGGGGATCACCGTCCACAGCGGCTCAAAGACCAGCACTTCCGGGCGCAGCAATACGTCGATAAGACGCACTTCGTTT -TGCGGATGACCGGTACGGATTGGCACCGCAGCAAACTCACGGTCGCTAACTTCACGAATCTGATCAAACGCGGTTTCCCA -CGCCCAGGTTTTCCACACGCAGTTAACCAGTCGCCCTTCCCCATCAATCAGTTGCCCGGCAGCATCCCAGCCCAGTTCAT -CCAATCCACGCAAGATACGCGTTTCAAAGCCCGCCTGGTGCAGCGCCTGCTCCATAAACTGCGCGTGATAGTTTTCCTCG -ATATCTTTGTCCTGCATGATATGGACAAACGGACGTGCACGACTGTGTTTCCAGGCACCAGCCAATTCGTTAATCAGCCC -TTCCGCCGGATTGAAGCCGTTGCCTTTATAGCCCTGCTCCGCCCAACGTTCGAGGATCAAGCCCGCTTCGGTATGACAGG -AGGCGGAGTCGGCGTTGTACTCGTAAACCTTCAGGCCACGCTCATCCATGCAGAAATCCATACGACCAGTGATCATATGG -TGACGGCGACGCTGCCAGGAGAGACGCAAACGTGGCCAGAGGATTTTCGGGATGTCGAACAGCGCCAGCAGGTTGTCATC -TTTCAGCACCTTGTCGGTTGCGTGAAGATACATCAGGTGCAGCTCGTTGGTGGCTTTAATTAGCTCCTGCTCGGCACTCT -CGGTAATGGTGTAGTAATGATAAGGATCCTGATTGATCACCTGACCGTTGGCCTGCACATAGGCGTTTTGCAGCGGATCT -TTTTCATCCAGCCATTTACCGTCAAACTGGCCTTTGTTTTCCAGGCGCGCTCCGCTGATTTTCAGCAGCTCGCCTGCAAT -TTCCGGCTGCGGTAAGCTGTATTCAGTATCTTCCGTCTGGATCATCCAGCCCAGAATGGTGGTGTCATCAAAAGTGTCTT -TCAGGGTATAGCAGCCGTTTTCGACCACCATCTCCAGCTCGCGCGTCCACTGTTGCCCTTGCGGCAACGGGGAATGAATC -ACGTTCTGTTCCGCAATACGGACTTTGTTGCCATGCAATTGGGTAATGATGGCGACATGGCCAGTGTCTTTAAATTCACC -GCCTTTATCCCAGATAAGAAGCGCACCCGCGACCGGCGCACGCGGCGAGCCGTTAGGAAATGCCTGCAATGGCAGGATGT -TGTCATTAACCACTTCTCGCAGGAAGCGCAGCGAGAAAATCTCCCACGCCATACCCACGTCAGTAAAGACCACACCGTAA -TTCAGAAAGAGAAAACGGCGAGCAAATTCAACGCATTGCCACTTGTGGCCCATATATTCGTCGTCGATATAGCTACGGAA -TACGGCGTCATCTTCGTATTCCTGCGGATCGAGAGAACTGTAATCTGAAGAGTAGATTGCTACCCCACCTGGGGCGTAGC -CCAATAATGTCCCGAACGGGGCATCCTGGCTGGTCGTTCCTTTGCTCATCACTTTACCTTTAACAATACAACCTAAGCAG -TTGGCGTAATTGTTGTGCTCTGATTACCTGCTCAGCGACATTAACCGGACAGAGGTCAGACTAATCATACACCTCATCGC -AGCGGCTGGCGCAAAGGGTTAAAAAATTCACATTCTGTACAGCAAGTGACCTGCTACACTGCTTCAACACTACCACTCAG -AAGGCAACTCACTATGACAGACAATACTTATCAGCCCGCGAAAGTCTGGACGTGGGATAAATCCGCTGGCGGCGCGTTCG -CCAATATCAATCGCCCGGTTTCTGGTCCGACGCATGAAAAAACGCTGCCCGTTGGCAAACACCCATTGCAACTTTATTCG -CTGGGAACGCCGAACGGTCAGAAAGTAACGATTATGCTTGAGGAGCTGCTGGCGCTGGGCGTTACTGGTGCAGAGTACGA -CGCCTGGCTGATTCGTATTGGCGATGGCGATCAATTCTCCAGCGGCTTTGTCGAAGTGAACCCAAACTCGAAGATCCCGG -CGCTGCGCGATCATACGCATAATCCGCCGATCCGCGTGTTTGAATCTGGTTCGATCCTGCTTTATCTGGCGGAGAAATTT -GGCTACTTCCTGCCGCAGGATTTGGCAAAGCGTACTGAAACGATGAACTGGCTGTTCTGGTTACAGGGCGCGGCACCGTT -CCTCGGCGGTGGTTTTGGTCACTTTTACCATTACGCACCGGTAAAGATTGAGTACGCCATCAACCGCTTTACCATGGAAG -CCAAACGTCTGCTCGACGTGCTGGATAAGCAACTGGCGCAGCATAAGTTTGTTGCGGGCGATGAGTACACCATTGCGGAT -ATGGCGATTTGGCCGTGGTTTGGCAACGTGGTGTTAGGTGGTGTGTATGATGCCGCTGAGTTTCTTGATGCGGGCAGTTA -TAAGCATGTACAACGCTGGGCGAAAGAAGTAGGCGAACGTCCGGCGGTGAAACGTGGGCGTATTGTTAACCGCACCAACG -GACCGCTGAATGAGCAGTTGCATGAGCGCCATGACGCCAGTGATTTCGAGACGAATACGGAAGATAAGCGTCAGGGGTAA -GGGTTGGTGTTCGTCGCAGCAAGCCATCCAGGCCGGATAAGGCGTTCACGCCGCATCCGGCAATCGTGCACAATGCCTGA -TGCGACGCTGCCGCGTCTTATCAGGCCTACGAAAGCTAATCATCACGCGCTGGTAATGTCGTAATCCATTTGGCGCAGTG -CGTCTAATGTGGCTTTGGCTTCATCTTCGTCGATGATGCTCATGGCAAATCCGACGTGTACCAGCACCCACTGGCCCAGT -AGATCGGCAGGGTTACCTTCACAAATCAGGGCGATATTCACATCGCGCTTGATACCACATACTTCAACCTGCGCAAGCTG -GTGAATATCTTCACCGACAGCCAGCACCTGGCCTGGAACGCCAATACACATTATTAACTCCGGTTATTCAACTTCAATAC -TTTTGACGATCAGCGAATCGCCGGTATCGACACGCAACCGCTCGCCGTGACAGAGCGGACACTGCGCATCGTGCTGATGA -ATCTCCACCACCTGGCTGCAATCCCAGCACCAAGCCTGGGCGGGTTTATAGACGATATGTAAATCGCACCCTTGCGCCAC -CGTTCCGTGGCAGACAATTTCAAAACTAAAACGGACGGCGCTCTCCTCAACGCAGGAGAGCGCGCCAATTTCCAGCCACA -CGGCGGTGACGCGCTTAACATCGTGCTGCTCCGCCTGCCGTTGGATAATTTCAACGGCGCTCTGGCAAAGAGACAACTCA -TGCATTTTCGCCACTCCTGCGACCAAACAGCAGGGCGCGACGCCCTGCGTGTGGTACATCCGGATTCGTGACTGGCAGCG -AAAGGATCATTCGTGCGCAGTCATCCGTCAGGCGTTGGCCCTCTTCAATCGACATGCTGTGCGAAAGCGGCGACATCAGC -GAACAGGAGAGATATTGCGAAACACCGTCCAGTTCGCCAACGGTAAAGGTCATAGTGCCATACGGCAGTTGCAGACCAAT -TTTTTCACTCACTTTGCGCAGCGGCCAGAGTTGATCCGGGCCGGGGAAGATAACTGCACTCAGCATCCACGGGGTGATCA -CACACCCCGTCCACTGACCTTCGAACAGCGTAAAATCAGAAACATACACCGGCATTGAAGGATGCAGAAAAGAGAGATCG -TGCATCGAACGCCGGGCAATTTCTTCAAACGCTGCCTGTACTTGCGCCTTCGGGGAGGTCTGGAAACCTGCTATCTCTTC -AGTCATGAATCGCCTCCCGTGGGATGGCTTCCACGCCAGATTCACGCAGCGCAGCCAGAACCTGCTCAAGCGCAGGTTCA -ATCATTGCTTCAACCGTCGGCGTTAAGCCGATGTGTGGCTCCAGCGATTCCGGGATCACGCCGACCAGGGTCAGCTTTTT -CGGAAACTCGCCGGTGAAGCGCAGGGCCGACAAGACGTCGGCCAGGCCAAGCTGATGCGGAGAGATTTTGTTGGTAAACA -ACGCCGGAACTTCTTCATCCCGCAGGATCATCATCGTTCCCGGCGCGTTCTTTTTCGAGACAATGGCATCCGCAATAATC -AAATGATCGCGATTTGCCATGTCGCCAAGCAGCTCCATTCCCGCCGTGCCGCCATCGAGGATCTCAACATAATCCGGCAG -AATGTATCGTTGCTCTAACGCTTCGACAATCCGCACACCGATGGCTTCATCGGTCAGCAAAATATTGCCGACCCCTAAGA -CTAAAATACGCATTACAGAACCTTCACTGAAACCACTTCGTTGCCGTCAGCATCCACTACGTGTACCGCACAGGCCATGC -ACGGGTCAAAGGAGTGAATGGTACGCACCACTTCCAGCGGTTTATTCGGATCGGCAACCGGTGTACCCACCAGCGACTGC -TCGTAAGGACCGACGTCATCATTGAAGTTACGCGGACCAGAGTTCCAGGTTGATGGAACAACCGCCTGGTAGTTGCTGAT -GATACCGTCTTTAATAACCATCCAGTGAGAGAGCATACCGCGCGGCGCTTCGAGGAAGCCAACACCTTTGAATTCACCCG -TTGCCGGAATGTTCGGCTTCACAAAGGTGGTGTGATCGCCTTTGCCGATATTGGTGATCAGTGCACTGTATTGGTTTTGC -AGGATATCCTGCAATTCACAGCAGTGAACGGTACGACCAATAATACGGCCCAGCGTGGAGTGCAGCTGTGCCACTTCCAG -CGTGTTGCCAGTCAGTTTCTGATAAATCGCAACGATTTCATTCAGTTTGTTCTGGGTAGATTCGCGACCTGCCGCCAGTT -TCACCAGCATATTAGCCAGTGGCCCCACTTCTACCGTTTTGCCGTAGAAAGTCGGTGATTTCACCCAGGAATATTTCCCG -TCGTCAGACCAACCATCATAAGCCGGAATGGTGGTGCCTTCCCACGGTGCCTGCGGCGCTTCGTCTTTATACCAGGAGTG -CTTCGCGCTTTCCTGAATGCCTTTGATCAGGTATTCATCGGAATGAGAAGTGATCGGACGATACGAGGACAGATCCGCAT -TCTCAATGTAGCCGCCCGGGAACAGGAAGCTGCCGTTTTTACTGTCGGTCGGGAATTCCGGCACGCTCAGGTAGTTCACC -GCACCTTTACCGCGTGTCAGCCATTCCGGGTAGAACGCGGCAATAACTGCGGTATCAACCTTATAAACCTGCTCAACAAA -GTCGCTCAGTTTGTCGATGAAAGACTTGATGTACATCAGGCGCTCAAGGTTCAGCACGCCCAAACCGTCGAGGTTGATCG -GGTTCGCGACACCACCTACCGCCAGGTTCTGAATGTGCGGCGTTTTACCGCCCAGCAGCGCCACGACGCGGTTAGCGTCA -CGCTGGCACTCCAACGCTTGCAGGTAGTGCGCTACCGCAATCAGGTTCACTTCCGGCGGCAGTTTCATCGCCGGATGACC -CCAGTAGCCATTAGCGAAAATACCCAACTGACCGCTGGCAACCAGATCTTTGATCTTGTTCTGAACTTTGGTGAACTCTT -CCGGACTGTTCAGGTGCCAGGTCGAAACGCCTTTCAGCATTTCGGAGGCTTTGGTTGGGTCAGCTTGCAGTGCAGAAGTG -ATGTCCACCCAGTCCAGCGCCGAAAGCTGATAGAAATGAACAATATGGTCATGCGTGGTGTGCGCAGCCAGAATGATGTT -ACGGATGTATTGCGCGTTAACCGGAACGTCGATATTCAGCGCACTTTCTGCCGCACGAACGGAAGACAGCGCGTGAGTGG -TAGTACATACGCCACAGATACGTTGCACAATCATCCATGCATCGCGCGGATCGCGGTTTTTCACGATCTCTTCCATGCCG -CGCCACATGGTACCGGAAGCCCATGCTTTCGAAACGACGCCATTTTCGATTTCGCAATCGATGCGTAAATGCCCCTCAAT -ACGGGTTACCGGATCAATAGTAATTCTCTGGCTCATGCTTTGCTCGCCTCATGACGATTATGATCGTTTTGTTTTAAAGG -AGGAAGTATCGGCAGTAGACGAATGAGTACGATGTAAGCGCAAATCTCAATAGCCACAAAACCAATAGAAATCAACAGTT -CTTCCCAGGTCGGGAAGTAGGCGTAACCGCCGCCCGGGTTGAATGCCACCAGCGAATAGGTCAGACGCCAGGTTGCACAA -CCTAACAGTGCGCTCAGTGCTGACAGGAACAGCATGCGGGAATCATTACGCAGCTTCGCCACACGCAGAACGACCAGCGG -GAAGAGCATCAGCAGGACTTCAATCCAGAACATCACGGAGTAGAAGTCACCGGCAAACGCTAACGACAGCTTGTCGCGAT -AGATAAGCTCGCCAAAGCGCAGCACGATGAAAATCGCCAGCAACACACTGATGGTGTTGGTCAGCTTAACAAACAGACTC -TTTTCATCCGGACCGTTGCCACGCAGACCCGCCTGCACCAGCGAACCTTCAAAGATGACAATCGAGAAGCCCATGATGAA -CGCCGTCAGCAGCGAGAACAGCGGCAACATTTCATAGCTCTGCCACAACGGATGCACCTTGTAGCCCGCCGAGATCATCA -GCGACCCCATTGAAGACTGGTGCATGGTCGGCAGCAGCGCACCGAGCGCGATGATGAAGAACATCACCTTGTTTAGTCGC -TGTAGCGACACCTTCCACCCCAGACGTTCAAACAGTGCCGGAGCAAACTCCAGTGCCATCACGCCGATATAGATGGTCAT -ACAGACCGCCGTCTCGAACAGTACCGAGTTCACGTTGAAGTGACCCGGAATGTAGAAGTACGGCAGGTTCCAGTAGCGAC -CCACGTCGATAGTGATCGACAAGCCACCCAGTGAGTAACCAAACAGACTCGCCAACAGCGCCGGACGCACCAGCGGATGG -TATTGCCCACGGTTAAAGACGTATACCGCCCACGCCAGCGCCCAGCCGCCACAGGCAAAGCCGGTGCCAATCAGCAGGTC -AAACGCGATCCACACGCCCCACGGGAAGCCGCCGTTCAGGTCAGAGACAGAGCCCAGACCGAACACCAGACGCTTCACAA -TCAGGAGCATACAGATGACGATTAACGGTCCAAAAATCATGACCGGTTTACTGATGATTTTGCCGCCCAGCGGTTGTGGA -TCATGACTCATGATCGTCTCCTCCGTCGTGATGGTCGTTTTTGGTGTTGCGACGAACCAGCACGGTTAAGCCCGCCAGCA -CAGCCAGTGGTAGCATCATGCCTTTATACAGGGTGTGTTGAATATTTTCGGAACGCGCACCGGTAGAAAGATCGTCCAGT -TTCGGCAGGTCGAGATTTTCATAAGGCACACCCGTCAGTACCAGAACCTGAGTACCGCCGCCCTCTTTCTCGCCGTACAG -ATGCGGATAATATTTCGGCACCGTATGCAGGTAAGTGTCGCCAGATTTCAGCGTCTGACGCGGATAGTGGTATTCGCTGC -CAGGCTTCAGCGCCAGACGTTTTTTCGCCTCCGCCATCAGCTCTTCACGCGTACCGAAAATCACCGCGCCCGCCGGGCAC -ACTTCTACGCAGCCAGGTAGACCGCCTTTATCGAGACGTTCCACACCTTTCTGGTTGCACAGCTCGCACTTATGCAGCGC -ACCAAACGGGTTGTTGTAGTCGTACTTCGGCACGTTGTACGGACAGGCGACCATGCAGTAACGGCAGCCGGTGCACACAT -CTTTGTCGTAATGGACAATGCCGGTTTTCGGATCTTTTTTCAGTGCAGAGACCGGGCACACAGAGACACAGTTCGGATCG -ACGCAGTGCATACACTGTTTCTTAATGTACGCGTAGCCGTTCTCCTCCTGGTCTTTGTTGACCCCTGTGCCGCTGGTCCA -CACCTGAATGATGTTATTGGTATACGGCGACAGTTTGTCGTTGTTCGACCAGGTCTGTTCCCCTTGCGGGTTACGTTCAG -GGAAATTGATATCCTGACACTTGGTGACGCAAGCCTGGCAGCCTACGCACAAGGTCGAGTCGTACAACATCCCCAGCGAT -CCCGGAATTGGCGGGCGGTTTTCAGCAGCCGCATGACTGACAGACGGCAGCGCGCCCGTCAGCAATGCCCCGCAGGAGGC -TGCTTTAATAAAATTACGTCTGTTCACGGTTATTCTCCCCGTGAGTCAGCGTTATCTTTCTTTTGCTGACGACCCAGTTC -ACGCACCGCCATCACGCTGACACCGGCAACCAACCCAACCACACCGCCGAGCAAACCAATAGCGCCTGCAGAGACGTTGC -CGCCCTCTTTAGCGTTAACATCCGGTTTCTGTGAACGCGGAGTTTGATTTTCGACGTTGGCAAGCTGATGGATGCCTTTA -TGGAAGCCGATACCTTCTTCGTTACAGCCATAGCAAGGGTGACCAATCGCCACCGGCCACACACCGCCAACATCGCAGAA -TTGCAGCGTTGAGCAGTTGCCGTAAGTTTCTGGCCCTTTACAGCCGAGGTGGTACAGGCACCAGCCTTCGCGGTGGCCTT -CATCACCGAACTCTTTGGCAAAACGACCAGCATCGAAGTGCGGGCGACGTTCGCAGTGTTCGTGAATCAGACGGCCATAG -GCGAAGGTCGGACGGTTTTTGTCATCCAGTTTCGGCGGTTTGCCGTAAGTGATGATGTGCGCAACGGTCGCGAGGAAGTT -GTGCGGGTTCGGCGGGCAGCCCGGAATATTGATAACGGTTTTGCCTGGCAGAACTTCTTGCAGGCTGACTGCGCCAGTTG -GGTTAACTCCAGCTGCGGCAACACCGCCCCACGCAGAGCAGGAACCGATAGCGATAATGGCTGCTGCGCCTTCCGCCGCT -TTGCGGATGTGATCCACAATCGGCTCACCGGCAACCATGCAATAAATACCGTTATCTTTTAATGGGATGGAACCATCCAC -CACTAACACATACTGCCCTTTGTACTTCTCGAGAGCGTTATGTTTGTTCTCTTCGACCTGATGACCGAAGGCGGCGGAAA -GCACTTCGTGATACTCCAGAGAGATAGTCTCCAGTACGAGGTTTTCTACCGTTGGATGCGTTGCACGAAGCAGAGATTCC -GTACAACCGGTGCACTCCTGCGCGCCAATCCAGATAACTGGCGGACGCTGCGGGTTAGTAACCGATTCGGCCATCTCTGC -AGCGGCTTTGCTACTTAACCCCATGGTGGCGGCTAATGCTGCACAAAGCTTCATGAAATCACGACGGTTAATGCCGTGAG -AATGGATGAGGGTGTTATCTCCAGTCATTTATAGTTATTCCGTTGCGAAGACCTGGCATATATTTTGCCTCAATCGCAAA -ATCAATAATGCGATCGATGCGCCATTTACCACACATTTATTATGGTTATCGATATCATGATACTGCGGCGGGGCGCTAAA -ACGAAGGGAAGAAGCATTAGTGTAATTAATTAAAGCAAGATAATACGTATGTTTGATCAATTTTCGAGGCGATAACCGGC -CATAAAAAAGCGCAACGTAGAACAGGAATTATTCTCACGAAAGAAATCCATTACCATCTCTTTATCCAGTCCATAGCGGC -GCGTCAGAATACCCGCTTCCCAGGCGCTAAGCTGGCGATCTCCGGTCTTTTCGTACATCCGGTGTGAGTAGCCTAATACA -AAACCGCGTTTATAATCGGCACAGAATTTTGTCACATTAACCGCACTGTCGGCATGCGTTGCTTTTAATCCCGCCATTAA -GCCTTTACCAAAATGGTTATTCATCGTTCACCTCATTCGCTATATATTGTCATATATAGCGATATTTTAGGCAAAGAACG -ACTTTTGCGCACGCTATTTTTTCATGCTTGTTTAAGACGTAATCCCGTAAGAGATAAACCTATCAGGAGAGATATTTATC -GAACCATTTCAGTGTCCTTTGCCAGGCAAGATCGGCGGCAGATTTGTCATAACGGGGCGTGGAATCATTATGGAATCCGT -GATTAACCCCCGGATAGATATACGCCTCATAAACCTTATTATTGGCTTTCAACGCCGCCTCGTAAGCAGGCCAGCCCTCG -TTGATTCGGGTGTCCAGTTCCGCGAAGTGGAGTAGTAAAGGCGCTTCAATCTTCGCCACATCGGCAGTGGGTGCCTGACG -ACCATAAAACGGCACCGCGCAGGCCAGTTCCGGATACGCGACAGCCGCCGCGTTCGATACGCCACCGCCATAGCAAAATC -CGGTAATACCCACTTTGCCTGTCGCTTGCGGATAGCGTTGCATAAACTCAATTGCGGCAAAGAAATCATTCATCAGTTTG -TTGGATCAACCTGCTGTTGCAGCTCACGACCTTTATCATCATTTCCCGGATAACCTCCAACGGAACTTAAGCCGTCAGGT -GCCAGGGCGATATACCCCGCCTTCGCCACTCGCCGTGCCACATCTTCGATATACGGATTCAGTCCACGATTCTCATGCAC -CACCACTACGGCTGGCGTTTTGCCGCTCATCTTTGCGGGCTTCACCAGATAACCCCGCACCTCGCCGTGACCATTTGGCG -AAGGATACGTGATGTACTCAGCAACAATTTCCGGGTCGGTAAACTCTACCTGAGTCGCCAGCGCATAATTTGGCTTGAGC -AAATCAAACAACGCTAATGCCGTCATCCCGCCTACCGCACTTCGCCGCAAGGTTGAGGAACTCACGTTTCGAGATTTTCC -CGTGAGCGTAATAGTCATAGTAATCCAGCAACTCTTGTGGGAAATCTTTGGCGGTTAAACGCGGCATCGTTGCACTCCTC -AGTTGGTGTTTTTTTAAGCAAAGCATAAGCACGTATTTTTGCCCAGTTTTTCGTCACTCTGTGAGCCAGACTACGGGATA -CGCGCTGGCGAATCGCTAAACTAGAAACATTGTTTCGAAATTGAACGGTGGAAAGGAGAGGTCATGGTCTGGTTAGCGAA -TCCCGAACGTTACGGGCAGATGCAATACCGCTATTGCGGAAAAAGTGGTTTACGCCTGCCCGCGTTATCGCTCGGTTTAT -GGCACAATTTCGGTCACGTTAACGCGCTGGAATCACAGCGTGCGATCCTGCGTAAAGCGTTTGATTTGGGCATTACGCAC -TTTGATTTAGCCAACAATTACGGGCCGCCTCCAGGAAGCGCAGAAGAGAACTTTGGTCGCCTGCTGCGGGAGGATTTTGC -CGCTTATCGCGATGAACTGATTATCTCTACCAAGGCTGGCTACGATATGTGGCCCGGCCCTTACGGCTCTGGCGGTTCAC -GTAAATACCTGCTCGCCAGCCTCGACCAAAGCCTGAAGCGTATGGGGCTTGAGTATGTCGATATCTTTTACTCTCATCGC -GTCGATGAAAATACGCCGATGGAAGAAACCGCCTCTGCGCTGGCTCATGCGGTACAAAGCGGTAAGGCGCTGTATGTCGG -GATCTCCTCTTACTCGCCAGAGCGGACGCAAAAAATGGTCGAGTTGCTGCGCGAGTGGAAAATTCCGCTGTTAATTCATC -AACCTTCGTACAATTTACTGAACCGCTGGGTGGATAAAAGCGGCCTGCTGGATACCCTGCAAAATAACGGCGTGGGCTGT -ATTGCCTTTACTCCTCTGGCTCAGGGATTGCTGACCGGAAAATATCTCAACGGCATTCCGCAAGATTCACGGATGCATCG -TGAAGGGAATAAAGTTCGTGGTCTGACACCGAAAATGCTTACCGAAGCCAACCTCAACAGCCTGCGCTTATTGAATGAAA -TGGCACAGCAGCGTGGACAATCAATGGCGCAAATGGCGTTAAGCTGGTTGCTGAAAGATGATCGCGTGACGTCGGTATTG -ATTGGTGCCAGCCGCGCGGAGCAACTAGAGGAGAACGTGCAGGCGCTGAATAATCTGACATTTAGCACCAAGGAGCTGGC -GCAGATTGATCAGCATATCGCCGATGGCGAGCTGAATCTGTGGCAGGCGTCTTCCGATAAATGACCTGTTAATAACGGGC -GCGCGAACCGCGCCCGAATCAGATCAGTGATTATGACGAGTCAGTCGGTCAAGATAGCCCATCACAAATGCAGAAAGCAC -AAACGTCAGATGGATAATGACGTACCACATCAGTTTGTTATCCGGGACATTTTTCGCATCCATAAAGACGCGCAGTAAGT -GAATGGAAGAAATTGCCACAATCGACGCTGCTACTTTGTTTTTCAGCGACGTTGCGTCCATTTTCCCCAGCCAGTTCAGC -TTCTCTTTGTTCTCGGAGATATCCAGCTGTGAGACGAAATTCTCATAACCGGAAAACATCACCATCACCAGCAAACCGCC -AACCAGCGTCATATCCACCAGCGACAGCAACACGAGGATCAAATCTGATTCCGCCATCGAGAAGATATTCGGCAGTACGT -GAATAATCTCCTGGAAGAACTTCAGCGCCAGGGCAACTAACGCCAGCGAAAGGCCAAAGTACACGGGGGCAAGCAGCCAG -CGAGAAGCATACATTGCATTTTCAAGAAAACGTTCCATACATTCCTGTCGTGTAGTTAAAACGGGCAACAGTATATCGCA -ATTGAGTAAACAGCACGCAACAGCAAATCAACATATACGTTAAACCTTTGTCGCATAATTCTGAGGTTTAGGGATCTTCC -TGGTTCCCTTATCAACGCATCGAGAACGTCTACCCTTAAAGGACGTTGAACCTGAAGGGAGAAAAACGATGTCTCATTTA -AAAGACCCGACCACGCAGTATTACACTGGTGAATATCCCAAACAGAAACAACCGACGCCAGGCATCCAGGCGAAGATGAC -ACCGGTACCGGATTGCGGCGAGAAAACCTATGTTGGTAGCGGTCGCCTGAAAGATCGTAAAGCACTGGTGACAGGGGGCG -ATTCCGGAATAGGTCGCGCTGCCGCCATCGCTTACGCGCGTGAAGGGGCTGACGTGGCGATCAGTTATCTTCCCGTGGAA -GAAGAAGACGCTCAGGATGTGAAAAAGATCATTGAAGAATGCGGACGCAAAGCCGTTCTGCTGCCAGGCGATTTAAGCGA -TGAGAAATTTGCCCGTTCGCTGGTTCACGAAGCGCACAAGGCGTTAGGCGGGCTGGATATTATGGCGCTGGTCGCCGGGA -AACAGGTTGCCATTCCGGATATTGCAGACCTCACCAGCGAACAGTTTCAAAAGACCTTTGCCATTAACGTTTTCGCGCTG -TTCTGGCTAACCCAGGAAGCGATCCCCCTGCTACCGAAAGGTGCAAGTATCATCACCACTTCGTCAATCCAGGCATACCA -GCCAAGTCCGCATTTACTGGACTATGCGGCTACGAAGGCGGCGATTCTGAACTACAGCCGTGGCTTGGCAAAACAGGTCG -CGGAGAAAGGTATTCGGGTGAATATTGTCGCGCCAGGCCCGATCTGGACAGCACTGCAAATTTCCGGCGGACAAACGCAG -GATAAGATCCCGCAGTTTGGTCAGCAAACGCCGATGAAACGTGCGGGGCAACCGGCGGAACTGGCCCCTGTATATGTTTA -TCTGGCAAGTCAGGAGTCGAGCTACGTCACCGCAGAAGTGCACGGCGTGTGCGGCGGCGAGCATTTAGGTTAAAAAAATG -CCCGGTTGTGAAAAGCAACCGGGCATCATTGTGAATTCACTCTTACCTGATGTGGCGAAAACGCCTTATCCGCCTACAAA -CGCATGAAGATTCAACATGTTGCAATAGATTTTGTAGGCCTGATAAGCGTAGCGCATCAGGCATTGAGCACCTAATGCCG -GATGCGTCGTGAACGCCTTATCCGGCCTACAAACGCACGAAGATTCAACATGTTGCAATAGATTTTGTAGGCCTGATGAG -CGTAGCGCATCAGGCAATTCTACTTTACTTCGCTTTGGCGGTTTCTTCGCCGACCAGACCTATCTTCAGGTAACCCGCCT -GATGCAGCGTATCCATTACCTTCATCAACGTCTCGTAATCGACGGTTTTGTCCGCTCGGAAGAAGATGGTGGTGTCTTTC -TTGCCTTCGGTTAACGCATTCAACGCCGTAATCATTGTTTCATCGGTGACCGGATCGTTACCGATAAACATCGAGTTGTC -TGCCTTCACCGACAGATAAACCGGTTTTTCCGGGCGCGGCTGCGGCGTGCTGGTAGAAGCAGGCAAGTTCACCTTCACAT -CTACCGTCGCTAACGGTGCCGCCACCATAAAGATAATCAGCAGAACCAACATCACGTCGATAAACGGCGTCACGTTGATA -TCATGCATTTCGCCGTTATCGTCGAGGTTTTCGTTAAGATGCATTGCCATCGGATATTATCCTGCGCGTAATTTTTGTGC -GACACGAACCGGATGCGCAGCGGCGCTGGCTTCCAGATCCAGGTCACGGCTTTGCAGCAACAATACCTGCGCTGCAACAT -CACCCAGCATCGCTTTAAAGCCGCCAATCTGGCGTGCAAATACGTTATAGATAACGACCGCAGGAATCGCTGCCACGAGG -CCGATTGCCGTTGCTAACAGAGCTTCTGCGATACCCGGCGCAACGACTGCCAGGTTAGTGGTCTGCGTTTGCGCGATACC -AATAAAGCTGTTCATGATGCCCCAGACCGTACCAAACAGACCAACGAACGGAGAAATCGCGCCGATGGTTGCCAGATAGC -CGTTACCGCGGCCCATTTGACGACCCACTGCGGCGACCCGACGCTCCAGACGGAAGCTGGTACGTTCTTTAATACCTTCG -TTATCGTCGCTGCCTTCTGACAGTTCCAGCTCATTCTGCGCTTCATTGAGCAAATGCAGGCTTAAGCTTTTGCTACCAAA -ATCAGCGGCGATATCGTTGGCCTGGTTTAAGGAACGCGCTTCAGCCAGCAGTTGCTGCTCGCGCTTAAGGCGACGCTTCT -GATTGAAGAACTCTACGCTCTTACTGAAGAAGATTGCCCAGGTGACTACGGAGGCCAAAATAAGCCCAATCATCACGCAC -TTAACGACAATATCGGCGTGCTGATACATACCCCAGACGGAAAGGTCCGTCTGCATTAAATTATTACCCACTGTGTATCT -CCAGGACGCAAGTCACAAAATCTGCGCATAATAATATCAAAACGACGTCGAATTGATAGTCGTTCTCATTACTATTTGCA -TACTGCCGTACCTTTGCTTTCTTTTCCTTGCGTTTACGCAGTAAAAAAGTCACCAGCACGCCATTTGCGAAAATTTTCTG -CTTTATGCCAATTCTTCAGGATGCGCCCGCGAATATTCATGCTAGTTTAGACATCCAGACGTATAAAAACAGGAATCCCG -ACATGGCGGACAAAAAGCTTGATACTCAACTGGTGAATGCAGGACGCAGCAAAAAATACACTCTCGGCGCGGTAAATAGC -GTGATTCAGCGCGCTTCTTCGCTGGTCTTTGACAGTGTAGAAGCCAAAAAACACGCGACACGTAATCGCGCCAATGGAGA -GTTGTTCTATGGACGGCGCGGAACGTTAACCCATTTCTCCTTACAACAAGCGATGTGTGAACTGGAAGGTGGCGCAGGCT -GCGTGCTATTTCCCTGCGGGGCGGCAGCGGTTGCTAATTCCATTCTTGCTTTTATCGAACAGGGCGATCATGTGTTGATG -ACCAACACCGCCTATGAACCGAGTCAGGATTTCTGTAGCAAAATCCTCAGCAAACTGGGCGTAACGACATCATGGTTTGA -TCCGCTGATTGGTGCCGATATCGTTAAGCATCTGCAGCCAAACACTAAAATCGTGTTTCTGGAATCGCCAGGCTCCATCA -CCATGGAAGTCCACGACGTTCCGGCGATTGTTGCCGCCGTACGCAGTGTGGTGCCGGATGCCATCATTATGATCGACAAC -ACCTGGGCAGCCGGTGTGCTGTTTAAGGCGCTGGATTTTGGCATCGATGTTTCTATTCAAGCCGCCACCAAATATCTGGT -TGGGCATTCAGATGCGATGATTGGCACTGCCGTGTGCAATGCCCGTTGCTGGGAGCAGCTACGGGAAAATGCCTATCTGA -TGGGCCAGATGGTCGATGCCGATACCGCCTATATAACCAGCCGTGGCCTGCGCACATTAGGTGTGCGTTTGCGTCAACAT -CATGAAAGCAGTCTGAAAGTGGCTGAATGGCTGGCAGAACATCCGCAAGTTGCGCGAGTTAACCACCCTGCTCTGCCTGG -CAGTAAAGGTCACGAATTCTGGAAACGAGACTTTACAGGCAGCAGCGGGCTATTTTCCTTTGTGCTTAAGAAAAAACTCA -ATAATGAAGAGCTGGCGAACTATCTGGATAACTTCAGTTTATTCAGCATGGCCTACTCGTGGGGCGGGTATGAATCGTTG -ATCCTGGCAAATCAACCAGAACATATCGCCGCCATTCGCCCACAAGGCGAGATCGATTTTAGCGGGACCTTGATTCGCCT -GCATATTGGTCTGGAAGATGTCGACGATCTGATTGCCGATCTGGACGCCGGTTTTGCGCGAATTGTATAACATTGCCACT -TTTGGACAATTTTGCAGACATTTTATTGTGAAAAGTCTTAAATTGTTGCGTCCGGGATCAAGGCGTCCCGGACGATTCAG -GAGTACAATAGGCAGATAAAGGCTTAAACGCTGTTCCACAGGAAAGTCCATGGCTGTTATTCAAGATATCATCGCTGCGC -TCTGGCAACACGACTTTGCCGCGCTGGCGGATCCTCATATTGTTAGCGTTGTTTACTTTGTCATGTTTGCCACGCTGTTT -TTAGAAAACGGCCTGCTGCCCGCCTCATTTTTGCCAGGCGACAGCTTGTTGATACTGGCAGGCGCATTGATTGCCCAGGG -GGTTATGGATTTTCTGCCTACGATTGCGATTCTGACCGCCGCAGCAAGTCTGGGCTGCTGGCTAAGTTATATTCAGGGGC -GCTGGTTAGGGAATACCAAAACGGTGAAAGGCTGGCTGGCACAGCTTCCTGCTAAATATCACCAGCGCGCCACCTGCATG -TTTGACCGCCACGGTCTGCTGGCGCTGCTGGCTGGACGTTTTCTTGCATTTGTCCGTACGCTGCTGCCAACCATGGCGGG -AATTTCCGGTCTGCCAAACCGCCGCTTCCAGTTTTTCAACTGGTTAAGTGGATTGCTGTGGGTCAGCGTGGTAACCAGTT -TTGGCTATGCCTTAAGTATGATTCCGTTCGTTAAACGCCATGAAGATCAGGTAATGACGTTCCTGATGATCCTGCCAATT -GCCTTGTTAACCGCTGGCTTGTTAGGCACGCTGTTTGTGGTGATTAAAAAAAAATACTGTAACGCCTGACGATTTTCCCC -GTTCCCGGTTGCTGTACCGGGAACGTATTTAATTCCCCTGCATCGCCCGCATTCTTGCCGCATCTTCCCCCGGCGTCACA -CCGAAGTAACGTTTAAACTCACGGCTAAATTGCGATGCGCTTTCATAGCCGACGCGCATCGCTGCTGCGCTGGCCTTCAT -GCCGTCATGGATGATCATCATCCGCGCCTTATGCAGACGGTAATTCTTCAAATACTGCAACGGCGAGGTACTGGTGACAG -ACTTAAAATTATGGTGGAACGCCGATACGCTCATGTTGGCTTCTGCCGCCAGTTGCTCGACGCTCAGGTTTTCGGTGTAT -TTATTCTCAATCCGTTTCAGCACGCGGCTAATCAGACTGAAGTGAGTCTGGCGACTGACCAGCGCCAGTAACGCGCCGCC -GCAAGGTCCGGTCAGCACGTAGTACAGAATTTCGCGGATGATCTGTTTGCCGAGAATACGCGCATCCAGTGGTCGCTCCA -TCACGTCGAGTAACCGCTCCGCCGCGCATAAAATCTCTTCTGATAACGTGGCGGAGTTAATCCCGCTGGCTGCCATCGAC -GGCTGGAAATGCTCATCTTCGCCAATGTCCATCAACAGTTCCTGTAACTGCAAAATATCGACATTGAGACGCAACCCTGC -CAGCGGCACCTCTGACGTGGCATAGGTTTCGCACTCAAACGGCAACGGCACCGTCAGCAGCAGGTATTCATTGGCATCAT -AACGAAACACGCGTTCATTGATATAACCGATTTTATGCCCGGAAAAGAGAATTATGATGCCAGGCTCGTACATCACCGGT -GTACGTGCGAAAGGCGTCTCGCCATACAACAAACGCACATCGGGCAACAGTCCTGACAAACTATTTTCTTTATTTTTCAG -TTTATTAACTTTATCCGCCAGCAAGCGGCAAATCTCTTCACGTTTCATATCGCGTAATTTCTTAGGAATAATGCGGCAAT -TTGATTGTGCGCAATTTTGTAGCATTTCTCCAGCACTCTGGAGAAATAGGCAAGACATTGGCAGAAATGAGCATTGAGAG -CCAGGGCGCTGGCGATCACAATGAAAAACATCAGGCAGATCGTTCTCTGCCCTCATATTGGCCCAGCAAAGGGAGCAAGT -AATGAACAACTTTAATCTGCACACCCCAACCCGCATTCTGTTTGGTAAAGGCGCAATCGCTGGTTTACGCGAACAAATTC -CTCACGATGCTCGCGTATTGATTACCTACGGCGGCGGCAGCGTGAAAAAAACCGGCGTTCTCGATCAAGTTCTGGATGCC -CTGAAAGGCATGGACGTGCTGGAATTTGGCGGTATTGAGCCAAACCCGGCTTATGAAACGCTGATGAACGCCGTGAAACT -GGTTCGCGAACAGAAAGTGACTTTCCTGCTGGCGGTTGGCGGCGGTTCTGTACTGGACGGCACCAAATTTATCGCCGCAG -CGGCTAACTATCCGGAAAATATCGATCCGTGGCACATTCTGCAAACGGGCGGTAAAGAGATTAAAAGCGCCATCCCGATG -GGCTGTGTGCTGACGCTGCCAGCAACCGGTTCAGAATCCAACGCAGGCGCGGTGATCTCCCGTAAAACCACAGGCGACAA -GCAGGCGTTCCATTCTGCCCATGTTCAGCCGGTATTTGCCGTGCTCGATCCGGTTTATACCTACACCCTGCCGCCGCGTC -AGGTGGCTAACGGCGTAGTGGACGCCTTTGTACACACCGTGGAACAGTATGTTACCAAACCGGTTGATGCCAAAATTCAG -GACCGTTTCGCAGAAGGCATTTTGCTGACGCTAATCGAAGATGGTCCGAAAGCCCTGAAAGAGCCAGAAAACTACGATGT -GCGCGCCAACGTCATGTGGGCGGCGACTCAGGCGCTGAACGGTTTGATTGGCGCTGGCGTACCGCAGGACTGGGCAACGC -ATATGCTGGGCCACGAACTGACTGCGATGCACGGTCTGGATCACGCGCAAACACTGGCTATCGTCCTGCCTGCACTGTGG -AATGAAAAACGCGATACCAAGCGCGCTAAGCTGCTGCAATATGCTGAACGCGTCTGGAACATCACTGAAGGTTCCGATGA -TGAGCGTATTGACGCCGCGATTGCCGCAACCCGCAATTTCTTTGAGCAATTAGGCGTGCCGACCCACCTCTCCGACTACG -GTCTGGACGGCAGCTCCATCCCGGCTTTGCTGAAAAAACTGGAAGAGCACGGCATGACCCAACTGGGCGAAAATCATGAC -ATTACGTTGGATGTCAGCCGCCGTATATACGAAGCCGCCCGCTAAGCTTTTTACGCCTCAAACTTTCGTTTTCGGGCATT -TCGTCCAGACTTAAGTTCACAACACCTCACCGGAGCCTGCTCCGGTGAGTTCATATAAAGGAGGAACGTATGGCTAATCC -AACCGTTATTAAGCTACAGGATGGCAATGTCATGCCCCAGCTGGGACTGGGCGTCTGGCAAGCAAGTAATGAGGAAGTAA -TCACCGCCATTCAAAAAGCGTTAGAAGTGGGTTATCGCTCGATTGATACCGCCGCGGCCTACAAGAACGAAGAAGGTGTC -GGCAAAGCCCTGAAAAATGCCTCAGTCAACAGAGAAGAACTGTTCATCACCACTAAGCTGTGGAACGACGACCACAAGCG -CCCCCGCGAAGCCCTGCTCGACAGCCTGAAAAAACTCCAGCTTGATTATATCGACCTCTACTTAATGCACTGGCCCGTTC -CCGCTATCGACCATTATGTCGAAGCATGGAAAGGCATGATCGAATTGCAAAAAGAGGGATTAATCAAAAGCATCGGCGTG -TGCAACTTCCAGATCCATCACCTGCAACGCCTGATTGATGAAACTGGCGTGACGCCTGTGATAAACCAGATCGAACTTCA -TCCGCTGATGCAACAACGCCAGCTACACGCCTGGAACGCGACACACAAAATCCAGACCGAATCCTGGAGCCCATTAGCGC -AAGGAGGGAAAGGCGTTTTCGATCAGAAAGTCATTCGCGATCTGGCAGATAAATACGGCAAAACCCCGGCGCAGATTGTT -ATCCGCTGGCATCTGGATAGCGGCCTGGTGGTGATCCCGAAATCGGTCACACCTTCACGTATTGCCGAAAACTTTGATGT -CTGGGATTTCCGTCTCGACAAAGACGAACTCGGCGAAATTGCAAAACTCGATCAGGGCAAGCGTCTCGGTCCCGATCCTG -ACCAGTTCGGCGGCTAACATGCAAATTCTCCCGGTGGCGGTAATGTTCCGCTACCGGACTTTTCAGAAATCATTTATTCC -CCTCGCGTCCCGCCCGTTGTTACTCTTCCTTGTTCAGGAATGCCAAATATAAGGACATCATCATGCAGAGCCGGAAGCTC -TTAAAAGAACAACTCATCTATATCCGGGATAAACGCAACGGAGAGGTGAAAAACAGATGAAAATAATACTTCTGTTTTTA -GCAGCCCTGGCAAGTTTTACCGTACACGCACAGCCCCCCTCACAGACCGTAGAACAAACAGTCCGGCATATTTATCAGAA -CTATAAATCAGATGCCACTGCCCCTTATTTTGGTGAAACCGGAGAGCGGGCGATAACTTCTGCGCGTATTCAACAGGCGC -TTACCCTGAACGACAATCTTACGCTGCCGGGCAATATTGGCTGGCTGGATTATGATCCGGTTTGTGATTGTCAGGATTTT -GGCGATCTGGTGCTAGAAAGCGTTGCGATAACCCAAACTGACGCCGATCATGCCGATGCCGTTGTGCGCTTTCGTATCTT -TAAAGATGATAAAGAAAAGACCACGCAGACACTGAAAATGGTGGCGGAAAATGGTCGTTGGGTCATTGACGATATTGTCA -GCAATCATGGCAGCGTCTTACAAGCAGTTAATAGCGAGAATGAAAAAACGCTGGCCGCTTTAGCTTCGTTGCAAAAAGAA -CAGCCGGAAGCCTTTGTTGCCGAACTCTTTGAACATATTGCTGATTATAGCTGGCCGTGGACGTGGGTGGTTTCCGACTC -TTACCGCCAGGCGGTTAATGCCTTCTATAAAACCACCTTCAAGACGGCCAATAATCCCGATGAAGATATGCAAATAGAAC -GGCAATTTATTTACGACAATCCGATCTGTTTTGGCGAAGAGTCGCTATTTTCACGCGTTGATGAAATTCGAGTCCTGGAG -AAAACCGCCGATTCCGCCCGCATTCATGTTCGTTTTACGCTGACCAATGGCAACAACGAAGAGCAAGAACTGGTTTTACA -GCGGCGCGAAGGCAAGTGGGAAATCGCTGATTTTATCCGCCCGAACAGCGGCAGCCTACTTAAGCAGATTGAGGCAAAAA -CTGCCGCCAGATTAAAGCAATGAGCTGAATTAAATAACAATTAGCCGGAACAATAAATAAAAGGGAACACTATATGAAAA -CGATTTTCACCGTGGGAGCTGTTGTTCTGGCAACCTGCTTGCTCAGTGGCTGCGTCAATGAGCAAAAGGTCAATCAGCTG -GCGAGCAATGTGCAAACATTAAATGCCAAAATCGCCCGGCTTGAGCAGGATATGAAAGCACTACGCCCACAAATCTATGC -TGCCAAATCCGAAGCTAACAGAGCCAATACGCGTCTTGATGCTCAGGACTATTTTGATTGCCTGCGCTGCTTGCGTATGT -ACGCAGAATGATAAAAAAATCCCCGGTAGCGTGTCAGTTGCCGGGGATATTTTTTAACGTCCAACCGCCGCTTTAGGCCG -TTTCTTCGCACCAGCATTCACCGGACGAGATTGCGTAGACGACGCTTTTTTTGCCGTAGCAGGCGTCTGACGCTGGGTCG -CCATCGGCGTATGTTTCGTCAACGCCGGACGGGTATTGCGGTTCTGGCGACGAGCTTCACGCATCTCTTCAATGGTTGGC -GCAGGCACTAAGCAATCGCGACGGCTGCCAATCAGATGCTTTTTGCCCATCGCTTCCAGCGCCTGGCGGATTAACGGCCA -GTTTGCCGGATCGTGGTAACGCAACAACGCTTTATGCAAACGACGCTGTTTGTCGCCCTTCGGTACGAAGACGTCTTCGC -TCTTATAACCAATCTTCGCCAGCGGGTTTTTCCCGGTGTAATACATGGTGGTTGAGTTCGCCAGCGGCGACGGATAGAAG -TTCTGCACCTGGTCGAGGCGGAAGCGGTGCTTTTTCAGCCACAGCGCCAGATTCACCATATCTTCATCACGCGTACCGGG -GTGCGCGGAGATGAAATAGGGGATCAGATACTGCTCTTTACCTGCCTGTTTTGAGTAAGTATCGAACAGCTCTTTAAAGC -GGTCATAGCTGCCCATGCCCGGCTTCATCATCTTCGATAACGGCCCTTCTTCGGTATGTTCCGGGGCAATCTTCAGATAA -CCGCCGACGTGATGGGTCGCCAGTTCTTTGATATAGCGCGGATCTTCTACGGCTATGTCATAACGCACACCAGAGGCAAT -CAGGATCTTTTTAATGCCTTTCAGATCACGCGCACGGCGATAGAGGTTGATCGTTGGTTCGTGGTTCGTGTCCATGTGCG -GACAAATATCCGGATAAACGCACGACAAACGGCGACAAGTTTGTTCAGCGCGTGGCGATTTGCAGCGCAACATATACATG -TTGGCAGTTGGCCCACCAAGATCGGAAATCACGCCCGTAAAACCTGGAACGGTGTCGCGGATCGCTTCGATCTCATTAAT -GATCGAATCTTCGGAACGGCTCTGAATAATGCGCCCTTCGTGCTCGGTGATAGAACAGAAAGAGCAGCCGCCAAAGCAGC -CACGCATAATGTTGACCGAAAAACGGATCATTTCGTAAGCCGGAATACGGGCATTGCCATAGGCCGGATGTGGCACGCGC -TTGTATGGCAGCGCAAAAACGCTGTCCATCTCTTCGGTAGAAAGCGGAATAGCAGGCGGGTTGATCCACACATAGCGGTC -GCCGTGTTTTTGCATCAATGCGCGGGCACAGCCTGGGTTGGTTTCGTGGTGCAGAATACGCGAAGCATGGGCGTACAGCA -CTTTATCGCCCTTCACTTTCTCGAAAGAAGGCAGCAACACGTAGGTTTTTTCCCACGGTTTCGGGCGCGGTGGCTGCACG -GTTACGGCTTTGGCTTCCTGCTTTTTCGGTGCCACCGGTTTGTTATCCGCGCACGGCAAATCTTCACCATACGGATGCGG -GATTGGGTCGATTTTTCCAGGGGTATCAAGACGGGTGGAATCCACGCCGCTCCAGCCAGGCAGCGCCTCTTTCACGATAA -TCGCGGTATTACGCACATCGCGGATTTCACTAATTGGCTCGCCCATCGCCAGACGATGCGCCACTTCCACCAGCGGACGC -TCACCGTTACCAAACATCAGCATGTCGGCTTTCGAATCCACCAGCACGGAACGGCGCACGGTATCGGACCAGTAATCATA -ATGCGCGGTACGGCGCAGACTAGCCTCAATACCGCCGAGGATCACCGGTACATCTTTCCACGCCTCTTTACAACGCTGGG -TATAAACCAGTGTGGCGCGATCCGGGCGCTTACCCGCGACGTTATCCGGCGTGTAGGCATCGTCATGACGTAAACGGCGA -TCGGCGGTATAACGGTTGATCATCGAATCCATGTTGCCAGCAGTAACACCGAAAAACAGATTCGGTTTACCCAGACGCAT -AAAGTCGTCTTTGCTGCTCCAGTCCGGCTGGGCGATGATCCCGACGCGAAAGCCCTGCGCTTCCAGCATACGACCGCAAA -TCGCCATCCCGAAGCTTGGGTGATCGACATACGCGTCGCCAGTAACCAAAATGATGTCGCAGCTATCCCAGCCAAGTTGA -TCCATCTCTTCACGAGACATCGGCAAAAACGGTGCCGGTCCAAAACAGGCGGCCCAGTACTGCGGCCAGGAGAACAGGTC -GCGATCCGGTTGGATCAGGGAGATAGAGCTCATTTTGCTTCCAGAAATGATAAAAAAATAATCAAAGGCCGGGGATTATA -AGCCGGAACGAAAGAGAAATCGAAAGGTATTCCATACTCGCCCTCCTCGGGCGAGTATGAAGATTACGGTACCGGATTGA -CCAACAGTTGCCCAATCGAGCCACGGTCCGCCATTTCCAGCGTCTGACTGTTGAAGTAGAACGGGAAGTGCGCCCAGGAA -GGCTGACCGAAATAAACAAGCAGCTCCACTTGTCCGTCAACCCAAACGGTATCTTTCCAGCCTCTGTCTTCCGGGAACGG -CATCGCGCCATTCACGTTACGGATCTGGAACATTACGCCTTCAATATGGAACGCTTGCGGCTCGTCCGCGCGTACCGTCC -AGCGTTCCCACGTTCCTTGCTGCGCGGTGACATCAATACGGTTGACGTCCCACAGCTGTCCATTAATACCCGGGTCATCA -CCCAGACTGATATCGCGACTGCGAATTGGCGAACCAGCCATGATTTCAGTTGGCAGCAAGCGCATCGGAAGACTGTCTGT -GACCAGCGGCAGAAGGCCGGTTGGGCGCAGCGTTAGCACCAGGGTAGAAACCAGAATACTGGATGGCTCAAAGAAGCCAC -GAATACGATCAACAATGCTCGCCGCTTCGCCACAGGTGATCGACACTTCATCGCCGTTGCTCATATCCACCAGAATCTCG -CGGCGCTCGCCCGGTGCCAGCGAAAGTTGCTTCACCGATACAGGAGCAGGCAGGAATCCCTGATCGCCAGAAATCACATG -TAACGGGCGACCATCGTTCATCTGTAGTTGATAGCGACGAGAGTTCGACGCGTTCAGCAGTCGCAAGCGCACCCAGCCAC -GCGAGACTTCAACGTACGGGCTTTGTACACCGTTAACCAGCAGCGTATCACCAACAAAGCCGCCGCTTCCCGGTTCGTTG -TATTCTGGCGTACCAAAGTTATCCAGCCGTTTATCCTGGATAATGACCGGAAAATCATCCACACCATAATGGTTGGGGAT -AGGCAGCGACTTGCTGACTTCATCTTCCACCAGCCACATTCCGGCAAGGCCGTTATAGACCTGCTGAGCCGTGCGGTTGG -GAGTATTGGCGTGATACCACAGAGTAGCTGCGTTCTGGCGAATGGGCAGTACGGGTGCCCAGTCAGCGTTTGGCGACATC -ATCCGTGCCGGACCGCCCATCAGCGGGCCTGGTACCTGTAGCCCGGCCACCGTCATTGAGACATTTTCTGTCAGGCGGTT -GCTGTAAATAAGCTTAACATCGTCGCCCTTCCAGACGCGGATAGTCGGCCCCAGGTAACGACCATTGATTCCCCAGACCG -ACGCGCGTGTCCCTGGCGTAAATGACCAGTGCGCACGTTGTACAGTCATAAACAGCGGTTGCCCACGGCGAGATTCAAGT -AGCGGCGGAACGGGTAGCGGTTGCTGTTGCCCGGCTGCGCTGGCCTTCAGGGGAACAGCGCCTGCACAAAGTGCAATCCC -CGATGCCTGAATGAACTGACGCCGACTGAGTGACATATTTGCTCCATGTAAAACTGGCTAAAGTAATACCGTGCAGGAAA -GTGTTCCCCGCAAAAATACAGATTGCCGACTTAAACTTTTCCGGCGGCTTCGCGTTCTGCGACTTCTTTATCGAGCTCGG -CGATTTTTTGTTCCATTATCGAACGACAATGGGCAGCCAGCTCACGAACCTGATCTTTGCCATACTGACTGACGTCAATT -GGCGGCAGCATTTCGACAATCACCAGACCGTTGTGCAGTCGATTAAGATTAATCTTATTCGAAGTTGTAGAGACGCACAC -GGGAATAATCGGGACGCCCGCCGCAATTGCCGCGTGAAATGCTCCAGTCTTGAACGGTAGCAGGCCGCGACCACGGCTGC -GGGTTCCTTCCGGGAACATCCAGATGGAAATACGGCGTTTTTTGAAGTGATTCACTACTTCCGCAATGGTGCCGTGAGCT -TTAGTGCGATTGTTTCTGTCGATCAATAAGTTGCCGGTTAACCAGTACAACTGCCCGAAGAAGGGGATCCACAGCAAGCT -CTTTTTACCTACCGTCACCGTCGGCGGTTGCACGATGTTCGATGCTGTCACCATGTCATAGTTGTTCTGGTGGTTAGCGA -TATAGATAGCATTGCCGTAGCTTTCAGCGTCTGTAGGTTTACGGCACTCAACTTTCAGGCCAAACAGCGGCGCAAGACGG -CCAAACATATGCCCAAAGGTGGCCACATGTTTCGGGTTACGCGGGCTGAAAAGGCAGTAAATGGAGCCGAATACACAGAC -TAAGATGCTGTAAATCACGGTAATAATAAGACGAAAGATATATAGCATAACACCCTCTGAAGGTCTGAGAGACTGGCATT -GTACGTCACCTGAAATCAGGTTAGGGCATTGTTAAAAGCCGCTCTCTGGAAAAGCGTATTGTTAATCGCAACGCATGAAT -AAACAACGGTTTCAAGGGAATTTTTATCGTTTCCGGGGGTTGAATACGCTGCCGGATGACGACTTAACGTTTCATCCGGC -GTTCCTTGCAAGCGGGAGGAAACAGCGCCCTCCCCGGCATATTACTCTTCGCTATCACCGCTGCTGGCACGGCGAGGAGA -GTCGATCTCAACACGATCGATACGCTGCAAACCGCGCATCAACGTACCGCGGCGTCCACGTTCGCCAGTGACTTTCTGTA -ACTCTTCCGGGCGCAGTTTAATTTTGCGTTTCCCAACATGAATGGTCAGCGTGCTTTGCGGCGGCAGAACGTACAATTGC -GCCAGACCATCTTCTCCACGCGCGGCTTCTGCCGATGGAATGTTGATAATCTTGTTGCCTTTGCCCTTCGACAGCTGCGG -CAGATCACTTACCGGGAACATCAACATACGGCCTGCCTGAGTGATTGCCAGCAGCATATCGGAAGCATCTTCAATCACCA -CCGGCGGCATAACATGGGCATTTTCCGGTAAGGTGATCAAAGCCTTACCTGCACGGTTACGCGCCACCAGATCGTTAAAG -GTGCAGACGAAACCGTAACCCGCATCGGAAGCCATCAGCAGTTTCTGATCGTCGCTTTCCATCAGCATATGGTCAACGGT -CGCCCCAGGCGGCAACGTTAATTTGCCGGTGAGCGGCTCGCCCTGACCACGCGCCGACGGCAGCGTAATCGGGTCAATGG -CATAGCTACGACCGGTGGAATCAACAAACACTACCGGTTGGTTGCTCTTACCTTTCACCGCCGCTTTGAAGCTATCACCC -GCTTTATAATTCAGGCCCGGCGCGTCGATATCATGGCCTTTAGCGCTGCGTACCCAGCCCATCTGCGACAGCACAATGGT -GACAGGTTCAGACGGCAGCATGTCGTGCTCGCTCATCGCTTTCGCTTCTTCGCGTTCCTGCAACGGCGAACGACGATCGT -CACCGTAGGCTTGCGCGTCTGCCTGCAGTTCTTTCTTCAGCAGGTTATTCATTTTACGCTCGGAAGCCAAAATGCCCTGC -AACTGGTCGCGCTCTTTTTCCAGTTCACTCTGCTCACCGCGAATCTTCATCTCTTCCAGTTTGGCAAGATGACGCAGTTT -CAGTTCGAGGATCGCTTCCGCCTGGGTTTCCGTAAGGCCAAACCGCGACATCAGCGCCGGTTTCGGTTCATCTTCATTAC -GAATGATCTCAATCACTTCGTCGATATTGAGAAACGCCACCAGCAAACCTTCGAGGATATGCAGGCGCTTGAGGACTTTC -TCCAGACGATAGTTCAGTCGGCGGCGCACGGTATCGCGGCGGAACACCAGCCATTCGGAGAGGATTTCCAGCAGGTTTTT -CACCGCCGGACGACCATCCAGACCGATCATATTAAGGTTAATACGATAGCTCTTTTCCAGATCGGTGGTAGCGAAGAGGT -GGTTCATCACCTGATCCATATCCACGCGGTTGGAACGCGGCACAATCACCAGGCGGGTCGGGTTCTCGTGGTCAGATTCA -TCGCGCAGATCGTCAACCATCGGCAGCTTTTTGTTGCGCATTTGCGCAGCAATTTGCTCCAGTACGCGCGCACCTGAAAC -CTGATGCGGCAATGCGCTGATAACCACCGCGCCATCTTCTTTCTTCCACACCGCGCGCATACGCACTGAACCACGTCCGT -TCTCGTAGATTTTACGGATCTCGGCGCGCGAAGTGATAATTTCCGCTTCAGTCGGATAATCCGGCCCCTGCACGATATCC -AGCAGCTGATCGAGCGTGGTTTTCGGCTGGTCGATTAATGCGATTGCCGCCTGAGCCACTTCACGCAGGTTATGCGGTGG -AATATCGGTCGCCATGCCGACGGCAATACCGGTGGTGCCGTTAAGCAAAATGTTTGGCAGACGGGCAGGTAGCATTTTCG -GCTCCTGCAAAGTGCCGTCGAAGTTTGGCACCCAGTCAGCCGTCCCCTGCCCCAGCTCGCTCAATAGCAGCTCGGAATAT -TTCGACAACCGGGATTCGGTGTAACGCATTGCCGCGAACGATTTCGGATCGTCCGGCGCGCCCCAGTTCCCCTGACCATC -AACCAGCGGATAACGGTAAGAGAACGGTTGCGCCATCAGGACCATCGCTTCATAACAGGCGCTATCGCCGTGCGGATGGT -ATTTACCCAGTACGTCACCGACGGTACGGGCCGATTTTTTAAATTTGGCGCTGGCATTCAGGCCCAGTTCAGACATCGCA -TACACAATGCGGCGCTGAACAGGTTTCAGACCATCACCAATAAACGGCAACGCACGGTCCATGATCACGTACATGGAGTA -GTTTAAGTAGGCGTTTTCCGTAAATTCATGTAGCGCAAGGCGCTCTGCCATATCGCTCATTAATTCTGATTCCTCAACTT -ATTCGCCAGCCTTCAAAGGGGCAATATTGCCGGAGATACTACATTATCTGCCGCGTCGAGTCACAGGAGATCAACGTGAA -TAGCGCCGCCGGACGTGCTCCGACGGCGATAAAGGCATCAATGTGCCTTGATATACAACTCTTTGCTGTAGACATAATCC -TGGGGATTATGCAGCGGAAAACCGCCAACGTAGGGTTTAAGCAGTTTGATTAACGGCTGATAGTAGATAGGAATCAGCGG -TGCCTGTTGGTTGATGATCACTTCTGCCTGCTGATACAACGCATTACGCTTTGTCGCATCAGTGATCTGCGTGGCCTGGT -TTAGTAAGGCGTCATACTGCGCATTTTTCCAGTGACCGACGTTTTCTTCACTATCGCTTTTGAGCGTGTTCAGGAAGCTG -GAAGCATCATTGTACGTCGCATCCCACGACTGCCGAGACAGCATGAAATCACCGGCTCGTCGGGCATCAAGATAGGTTTT -CCACTCCATTGTGCGCAGCGTCACCTGTGCACCCAGCCATTTTTTCCATTCGGAAGACAACGCTATCGCGGTCTTTTCAT -GCAGATCGTACTTGTTGTAGAACAGCTCAAAGCGTAGCGGATGAGAGGCGTCGTATCCCGCCTGTTTCAGCAAGGCTTTT -GCCATCGCGACGCGCTCACTCATTGGCTTTTGCAGTTCATCGAACGTCGTCGCGCTAAAGCCTTTTACCTCTGGCGGCGT -CAGCGTGGTTGCGGGCGTTCTCAACCCCAGTACCTTTTGCGCAATAAGCTGTCGATCAACCGTAAGATATAGCGCCCGAC -GCACTCGCACATCGTTAAATGGCGGTTTCTCAAGGTTGAAGTTGTAATATTCGCTGTTCAGACGCGGAATAATTCGTAGC -TCGCCAGGCAGTGATTTTTCAATGGCGGGAATTTGCTGCGCCGGAACCCAGGTGAGATCGACCTCTCCCGCGCGATAGCG -GTTATAGCCGGTGACCGAATTATCTAGCGCCAGATACTCAACCTGTTGCAATACTGTATGTTGCGCATCGCGGTACTTTG -GATTTTTGCGTGCAGTAATCTTTTCGTTAACTACCCACTGATCAAGCACAAAGGCACCGTTGTAAACCATGTTCTCTGGC -TTACTCCAGCTATCGCCATGTTTAGCGATGACATGATGAGGAACCGGGAACAGCGTCGGCCAGGCGAGCATCGTCGTGAA -CCAAGGAACCGGCTGCTCAAGCGTAACTTCAAGAGTACGATCATCCGTCGCTTTGACACCCAGCGATGTAACATCTGCTT -TACCCGCAACAATAGCTGCGGCATTGTTAATGTGCGCCTGTGCCAGATAGCCAGCAAAAGGGCTTGCCGTTTTCGGGTCA -ACCGCGCGCTGCCAGCCGAGGACAAAATCCTCTGCCGTCAGAGGCTGACCGTCGGACCACTGCAAACCGCTACGCAGATG -GAAAATATAGCGCTTGCCGCCGTCCAGTATCTCCCAGCGTTCAGCCTGAGCGGGCTGCACCTGGCCTTCACCGTCCATCC -ATACCAGACCTTCAAACAGATCCAGCACAATCTGCGCGGCAGTATTCTCCTCCACCTTTTGCGGGTCGAGCGTACCTGGG -TCGCTATGATTGTTGTAACGAAAGACTTGTTGCGGGGCGAGCGGTGTGTTGGCGGGAACGTCAGCAGCGTAGAGAGGAGC -CGCACTTACCAGGCTGACCAGCCATAATAAATTTCGCGTATACATGGTATTCCTTACCGGAGAAATTATAAGCCCAACAA -CAATACGCCTGTGGCATTGTTCGCTCAAACTTATCGCGAGTGATTTGGCTCACACTCCGGTAAAGAAAAAAGCGAGTTGC -CCCCGCTTTTCCATTAATTAACGGATTTCATTCAATAGTTCTGGATGCTTATCCAGAACACGTAAAAGTTTGATTGTGGA -AGGATGAGGTTGGGCATTGCCTTTTTCGTAACGCGAAAACGCATTTACACCTCCCCCAAAAATTTCGCTTGCCTCTTTTT -GGGTAAGAGAGAGCTTTTTTCGAACCTTCACTATAAATTCAGGTGCCACTGTTTCGGCATTCACCGAAGCCCGAAATGCC -TTTACTTGCGCCATGAAAGCATCTGACTCTTCTTTATTCATGATGCTCTCTTCGCAATGGACACAATATAAACCGTGGAT -ACCTTTCAATACTGTTTTTCGTCCACGGAAGGTGTATGGAATATCTTTAATGCCAGAAACCATTTCTCCCTGGTGGCAAA -CCGGACATTTCATATTACTTCTCCTTAAACGAGACGATCAGTACGTCATGAATTACCGTAATTTTAAGATAAACCTGGCC -TGTAACAAGCCTGGGTCTGTAAACATCCTGCCAGATAGTATGATCAGAGTAGGTGGTCATGCTTTTATAAAAGTCGCTCT -CTGATAATCCAATGATAACATTACACATACCATCAAAATCCAAACCTAACTCATCTGCATTTAACAGGGCACTACGTGTT -GTACGAACTTGCCCGGCATTGACAAGTTTTTTAACCTGACTCAAACGTGTATGTGGTGTGCGTTTTTCCATAACCCCCGC -CTCCCTGTTACTTTAGTTATAACCTAAAAGGTTAATTACAGCAATGAAAAAGCACCTAAAAGGTTAGTTAGATGTACGGA -GATAGTGACCACACAAAACGTATTCTTTAAGGAAAGTGATTGACCATATAAGAAAGTGGCGCATTAGTAGCGCCAGTTTG -AAGCAGGAATTTATAAGGGAAGCTGGAGTCAGGCATCACGCCAACGGCACATAAACATCCGTTTCCAGTCGCTGCTCTGT -CACCCCTTCGGCAAGATTGGTGTAGTGAAACAGAATCGGTGCTTTACGCATTTTCTCGCCGCTTGCAGGCAGCCAGTGGC -GAATGATGCCCCATACCGTGTGTGAAATATCGTCCAGCTCGCCAACGTGGCGGGCCACGGCATAACGTCCACCGGTAAGT -TCACCATTGCTCACACCATAACGATTATCGGGAATCGGTTCGCTAACGCTGCCGCAGATATCAAAGCGAAACGCTTCCGG -TGCGGTGGTGGCAGGGTCGTCCCAGGCGACGCCAAAAGTCTGGCTTTGGTTAACAGGAGAAAGCCCCGTCTCTTTACGCC -ACATGATAAATTTCGCCACGCTGTAGTTGAGCAATTCAGGGCTACAGCGGTGCGGCAACATCGCCACAGGTATTGATGGG -AAATCGATAATGTTTACATCCAGTGTCAGGTTTGTCATTTTGCCTCCCTGCGAAATTATTCCCGGGAACGCGTCCCGGGA -GCGGTAACAATTACGGATTTACTTTGCGGATCTGTTTGACGTCAATTTCAACAGAATTCCAGTCTTTATCGACTTCACCC -TGAATCTCAACCGTATCTTTCGGCGTCACCGTCACGCCGTTCCAGCGTTTGTGGTCGATATCAACATTGATAGTACCGCT -GGCATCTTTGAACACGTAGAGATCGTCAGAGATGCGTTCAACGATATTGCCGCGCAGGGTTACCCAGGTGTCGTCACGCA -GGGATTTTGCGCTTTCTACAGTCGTTACGCTGCCGTTCGGCCCCTGGAATCCTCCGGCCTGACTTTGCGTTGCCGATGGG -CCAGAAAAACCGCCCTGCTCTGCTGCCATCACCGGTGCGCTGCACAGGGCCATTACTGCGATTACTGCTGCGAATTTTTT -CATGTTTATTACTCCCTTTAATGTCTGTTTCCGAGCATTTAACAAGATAGTCCTTAACAACTTCTTAAGGGAAAAAAATA -AAATTTAGTGCTGTACAGAGCGCGTTACAACACGGTTTACTGGCAGCAAATACGGTTATCGCAGGGATGAAAAAATGCGA -ATTTTACTGATAGAAGATGACATGCTGATTGGCGACGGCATCAAAACGGGCCTTAGTAAAATGGGTTTTAGCGTCGACTG -GTTTACACAAGGTCGTCAGGGAAAAGAGGCGCTTTATAGCGCACCTTATGATGCGGTGATCCTGGATTTAACCTTACCAG -GCATGGATGGTCGCGATATTTTGCGCGAATGGCGAGAAAAAGGTCAGCGTGAGCCGGTACTGATCCTGACCGCGCGCGAT -GCGCTGGCGGAACGTGTAGAAGGGCTGCGTCTGGGAGCTGACGATTATCTGTGTAAACCTTTTGCGTTGATAGAAGTCGC -CGCCAGGCTGGAAGCTCTGATGCGCCGAACCAACGGCCAGGCCAGCAACGAGCTGCGCCACGGTAACGTCATGCTCGACC -CCGGCAAACGTATCGCCACGCTGGCTGGCGAACCCTTAACACTGAAACCAAAAGAATTTGCCCTGCTGGAATTACTGATG -CGTAACGCTGGTCGGGTACTGTCGCGCAAACTGATTGAAGAGAAACTGTATACCTGGGACGAAGAGGTCACCAGTAATGC -CGTTGAAGTGCATGTGCATCATCTGCGACGCAAACTCGGTAGTGATTTTATTCGTACCGTGCATGGTATTGGTTACACAT -TAGGTGAGAAATGAAATTTACCCAACGTCTTAGTCTGCGCGTCAGGCTGACGCTAATCTTTTTAATTCTGGCCTCGGTGA -CCTGGCTGCTTTCCAGCTTTGTCGCCTGGAAACAAACAACGGATAACGTCGATGAATTGTTCGACACCCAACTGATGCTG -TTTGCCAAGCGGTTAAGTACGCTCGATCTCAACGAAATCAACGCGGCGGATCGCATGGCACAGACGCCAAATAGATTAAA -ACACGGTCATGTTGATGACGATGCGCTGACCTTTGCCATCTTTACCCACGACGGCAGAATGGTCCTTAATGATGGCGATA -ACGGAGAAGATATTCCCTATAGCTATCAACGGGAAGGTTTTGCTGACGGGCAACTGGTCGGTGAAGACGATCCTTGGCGT -TTTGTCTGGATGACCTCACCTGATGGCAAATATCGCATCGTTGTTGGCCAGGAATGGGAATACCGTGAAGACATGGCGCT -GGCGATTGTTGCCGGGCAATTGATCCCGTGGCTGGTCGCACTGCCGATTATGTTAATCATCATGATGGTACTACTGGGTC -GTGAACTCGCGCCGCTGAACAAACTGGCGCTGGCACTACGTATGCGTGACCCTGACTCGGAAAAACCACTAAACGCGACT -GGCGTACCCAGCGAAGTGCGGCCACTGGTTGAGTCGCTAAATCAACTGTTCGCCCGCACACATGCGATGATGGTTCGTGA -ACGACGCTTTACCTCCGACGCAGCTCACGAACTTCGTAGCCCGTTAACGGCGCTGAAAGTGCAAACCGAAGTTGCGCAGC -TCTCTGACGATGATCCGCAGGCGCGGAAAAAAGCACTGCTCCAATTACATTCCGGGATCGATCGCGCTACTCGTCTGGTT -GATCAACTGCTCACGCTATCGCGGCTGGACTCACTGGATAACCTTCAGGACGTCGCGGAGATCCCGCTTGAAGATCTCCT -GCAATCGTCGGTGATGGATATTTACCACACGGCGCAGCAGGCGAAAATTGACGTGCGACTGACACTCAATGCCCACAGCA -TCAAACGCACCGGGCAACCGCTATTGCTAAGTTTGTTGGTGCGAAATTTGCTGGATAACGCCGTGCGCTACAGTCCACAG -GGCAGCGTGGTAGACGTCACGCTGAATGCTGATAATTTCATCGTGAGGGATAACGGCCCCGGTGTGACACCAGAGGCACT -GGCGCGAATTGGCGAACGCTTCTATCGCCCACCCGGACAAACCGCTACCGGCAGCGGGCTTGGGCTATCGATTGTCCAGC -GAATCGCCAAATTGCATGGCATGAATGTTGAATTTGGGAATGCGGAACAAGGTGGATTTGAGGCGAAGGTAAGCTGGTAA -CTTCTCTGTCTATGAGAGCCGTTAAAACGACTCTCATAGATTTTACTAATAGCAAAATATAAACCGTCCCCAAAAAAGCC -ACCAACCACAAACCAGACAAATACCGAGCGAGAATACATATACCCAAAACTCGAACATTTCCCGCATAAAGAGTTTTCTT -AAGATAAGAATAATAAGTGGCGTAAGAAGAAAAAATGCTGCAATCATTGCTTGCAATATACGATCTTCGCCTGAAACGGA -AGGTATACTGCAAATATTTCCTCCCGACTCAAGCATCCAGTCATACTTATTGAAAGCAAAAAAAGAATCTATTAACCAAT -AAGTAAGCATTATATATAGCAATGCTTCAAATATTGTTTTAATTTTCTGCTTTAACATATATCAGTACGCTCATAAAAAT -CCATTTATAATTATCAACATGACACGTTGATACTTTCATCTTTTACTTATTCAAAGCCATATTTTCAATCCCCAAAAAAA -CCGAACCAAACGTGTAAATTATTCCGGTGCGAGTAAGAATTATGAGGAATGGCTATCAGTATTGTCATTTTCAGAAAATA -TTTATCCTGCATCGGTGAGTCAGAGTAAGATCAGACTTTTGCTAAATTCGCAAAAGACTTTGCACATTTTGCTAATTTCA -CCGTACCGCTCTGTGACGTACTATAGTCGGCAAACGTCTCACCTTGAGGTTAAAAAATGAGCAACATCCTGATTATCAAC -GGCGCGAAAAAATTCGCCCACTCCAATGGTCAACTGAACGACACCCTGACCGAAGTCGCGGATGGCACACTGCGCGACCT -TGGGCATGATGTCCGCATCGTTCGCGCCGACAGCGACTACGATGTCAAAGCGGAAGTACAAAACTTTCTCTGGGCTGATG -TGGTGATCTGGCAGATGCCAGGCTGGTGGATGGGCGCGCCGTGGACAGTGAAAAAATACATTGATGATGTATTCACCGAA -GGTCACGGGACGCTGTATGCCAGCGATGGTCGTACCCGCAAAGATCCGTCGAAAAAATACGGTTCCGGCGGCCTGGTACA -GGGCAAAAAATATATGCTTTCTCTGACCTGGAACGCACCAATGGAAGCCTTCACCGAAAAAGATCAGTTCTTCCACGGCG -TTGGCGTTGACGGTGTGTATCTGCCGTTCCATAAAGCAAACCAATTCCTCGGTATGGAACCGCTGCCGACATTTATCGCT -AATGACGTGATAAAAATGCCTGATGTTCCCCGCTATACTGAAGAATATCGCAAGCATCTTGTGGAAATTTTTGGTTAACT -AGAGCTCAGGCTTTAGAAGGAGTTAACCATGCTTACCGTAATCGCAGAAATCCGTACTCGTCCTGGTCAACATCACCGTC -AGGCGGTATTGGATCAGTTTGCTAAAATCGTTCCAACCGTACTGAAAGAAGAAGGTTGCCACGGCTATGCGCCAATGGTG -GATTGCGCAGCTGGCGTGAGTTTCCAGTCTATGGCACCGGATTCTATCGTGATGATTGAGCAGTGGGAAAGCATCGCGCA -TCTTGAAGCGCATCTGCAAACCCCGCACATGAAGGCGTATAGCGAAGCCGTAAAAGGTGACGTGCTGGAGATGAATATCC -GTATTCTGCAGCCAGGGATTTAATCCTGCCTTGTTTGCCCGGCCATCCTGACCGGGCAATGTTCTTTCCTTTAAACCTCA -ATCTCCGCCATGTCGCCTTTCTCTTGCAACCAGTTGCGGCGATCTTCCGAGCGTTTCTTCGCCAGCAGCATATCCATCAT -CGCGTCAGTACGCTGATCGTCTTCATCATCGATAGTCAACTGCACCAGACGGCGAGTGTTCGGATCAAGCGTGGTTTCGC -GCAATTGCATCGGGTTCATTTCCCCCAGACCTTTAAAACGCTGGACGTTCGGCTTGCCTTTCTTGCGTTTTAATTGCTCA -AGTACGCCCTCTTTCTCTTCTTCCGTCAGCGCGTAATAAACCTCTTTCCCGAGATCAATACGGTAGAGCGGTGGCAGTGC -GACGTAAACGTGACCGTGTTTCACCAACGCGCGGAAATGTTTTACGAACAAAGCGCAGAGCAGCGTGGCAATGTGCAGAC -CATCAGAGTCCGCATCCGCGAGGATACAGATTTTGCCATAACGAAGCTGGCTCAGATCGTCGCTGTCAGGATCGATACCG -ATCGCTACCGAAATATCGTGCACTTCCTGCGAAGCCAGCACTTCGTCGGAAGAGACTTCCCAGGTGTTAAGGATCTTACC -TTTCAGTGGCATGATCGCCTGATATTCGCGATCGCGCGCCTGCTTGGCAGATCCGCCTGCGGAGTCACCTTCCACAAGGA -ACAGCTCGGTACGGTTAAGGTCCTGCGCGGTACAATCAGCCAGTTTGCCAGGCAACGCCGGGCCGCTGGTCAGCTTTTTA -CGCACCACTTTTTTGGCCGCACGCATACGGCGCTGGGCGCTGGAAATCGCCATCTCCGCCAGCAGTTCAGCCGCCTGAAC -GTTCTGGTTCAGCCACAGGATAAAGGCATCTTTCACCACGCCAGAAACGAATGCCGCGCATTGACGCGAAGAGAGACGCT -CTTTCGTCTGCCCGGCAAACTGCGGATCCTGCATTTTTACTGACAGCACATAGGCGCAGCGATCCCAGATATCTTCCGCC -GACAGCTTTACACCGCGCGGCAGAATATTGCGGTATTCACAGAACTCACGCATCGCGTCCAACAGGCCCTGACGCAGACC -ATTAACATGGGTACCGCCCTGCATCGTTGGGATAAGGTTGACGTAGCTTTCGGTCAGCAGTTCACCGCCTTCCGGCAGCC -ACAGTAGCGCCCAGTCCACAGCTTCAGTATCACCAGCGAAATTACCGATAAACGGTTTTTCCGGCAGCGTCGGCAGACCA -TTTACCGCTTCCGCCAGGTAATCATTCAGACCGTCCTGATAGCACCAGCGTTGTTCGGTATTGTTGATCTCATCTTTAAA -AGTGATCTCAACGCCAGGGCACAATACCGCTTTGGCTTTCAGCACATGCGTCAGGCGTGAAACAGAAAATCGCGGGCTGT -CAAAGAAGGTTTCATCCGGCCAGAAGTGCACACTGGTACCAGTATTGCGTTTACCGCAAGTGCCGACAACCTGTAAATCC -TGCACCTTTTCGCCATTTTCAAAGGCGATGTTATAAACCTGACCATCGCGGCGCACGTTAACTTCTACGCGCTTCGACAG -GGCGTTAACCACCGAAATCCCCACGCCATGCAGGCCGCCAGAGAACTGGTAATTTTTGTTAGAGAATTTACCGCCTGCAT -GCAGACGGCAAAGAATCAGTTCAACCGCCGGTACACCCTCTTCCGGGTGAATATCCACCGGCATCCCGCGCCCATCGTCA -ATAACTTCTAACGACTGGTCAGCATGTAAAATAACGTCCACGCGTTTTGCGTGACCCGCCAGTGCTTCATCCACACTGTT -ATCAATGACTTCTTGCCCCAAATGGTTAGGGCGAGTGGTATCGGTATACATCCCCGGACGGCGGCGAACCGGCTCAAGCC -CGGTGAGTACCTCAATGGCATCAGCGTTATAAGTTTGCGTCATGGTTTAAGTTAGTAATTCGAGTTGATCGTCAGAGATG -GTGCAGACCAAGAAAATCGACGATCGGGTTGAAATAATCTTCGAAGCCCGTGAATGCGTGGTTGCCGCCTTCTATGACAG -TCTGGCGGCAGGAAGCGTAGTACGCCACCGCCTGGCGGTAATCCAGCACTTCATCTCCCGTCTGTTGCAGCAGCCAGATC -AAATCCGGCGCTTCCAGCGGGTCAATCTGCATGACTTTAAGATCGTAAATATGGCGTGACTCTAGCACATATTGCTGCCC -GGTGTAGGGGTTCTCGTTCTGACCGAGATAGTCCGTCAGCAGTTCAAACGGGCGCACCGCCGGGTTTACCACCACTGCGG -GCAGCATAAAACATTGTGACAACCAGGTGGCGTAATATCCCCCCAGTGACGAACCGACAATACCCAGCGAATCACCGCCA -TGTTCCAGGACAATGGATTCCAGCAGCTCTGCCGCGTCGGAAGGATACGGCGGCAACTGCGGAATGATCATCTCAACGTC -AGGGTGATGTTCCGCCAGCCAGTTTTTTAACAAGCTCGCTTTTGCAGAGCGCGGCGAGCTGTTGAAACCGTGTAAATAAA -GAAGCGTAGACATCAGTAGCCTTCTGAAGCGGTATCAGGTTGGAAACGTGTGTCCGCCAGGCGATGCACCTCGGTGGTCA -GCGTGCCATCAGCATGTAACTCGAGAGTACGCCAGCCGGGCGCGATGGTATCCAGCGTAAAGTTGGAACAGTGCGGCTTA -AACTGCACACAGGTCGACGGCGTTGCCAGCAGGCGGCGACCATTCCAGTCGAGATCCAGCTCCTGATGAATATGACCGCA -CAGCAAGTATTTGACGTGCGGAAACTTCGCCAGCACGGTATCCAGTTCGCCCGCGTTACGCAGACTGTGTTGATCGAGCC -AACTACAACCCGCAGGTAGCGGATGATGATGCAGCAGCAGCAACGTATGGCGTTCTGGCGCATCGGCCAGTTTACGTTCC -AGCCACTCAAGCTGAAACTCGCTCAGCTCACCGTGCGGCACGCCAAACACCTGGCTATCCAGCAACAGGATTTGCCATTG -CTCACCAATAAACACGCGCTTCGCCGGGGAGATACCCGCATCCTGTAACGCGCTGTACATCGCGGGCTGGAAATCGTGGT -TGCCCGGCAGCCAGACGCAGGGCGCACGAAAACTTGCGATGCCTTCAGCGAAATGCTGATAGGCCGCAGAGGATTGATCC -TGCGCTAAATCACCTGTCGCGACAATCAGGTCGAATTCGTGCTGGTGTGGCCGAATCGCCTCCAGCACCGCCTGGTAACT -CTCCCAGGTGTTTACCCCTAACAGGGCTTCGTGCTTTTGTGCAAACAGGTGAGTGTCGGTAATTTGTAAAATCCTGACTC -TGGCCTCACCAGCCAGAGGAAGGGTTAACAGGCTTTCCAAATGGTGTCCTTAGGTTTCACGACGCTAATAAACCGGAATC -GCCATCGCTCCATGTGCTAAACAGTATCGCAACCAGTCCGCTAAAAACTGATTAATTTGATGCTTTTCGTCGCGTTGATG -CAACTTTTTATTAGGATAATCATACCGCGCTTTGAAGCGAAAAATCTGCTGGCTTGAACACACTTCAGCCACCATCGCGT -CATGATACAGACGCACCGTCATTGACGGAAGGCTCCAGTAACTGATCGCGGGCGCAGTCTGTTCTATTGTCACCAGGGTA -GTGTATCGGGTCGATTCCACAATCGTCAGCCGATATTGTGCGTTTGCCACCTGATAGCTTACAGTTTCGCCGGGTGCGTC -ATTGCGCGGTAACAAACGGCGCAATTGTGAAAAGTTCATCTCGCACAGGCGCATCATTTCAGGAAAGTCAGGTGTGTAAC -GCTTCATTTATGCCCACTCATTTTTTAACGCTTGATGATGCAGCTGCAGCCATTGCAAAGCGATGACCGACGCTGCGTTG -TCGATTTTCCCCTCTTCTACCCACTGGTATGCCTGTTCCCGGCTTACCACATGAACGCGAATATCTTCGTTTTCATCAGC -CAGACCGTGAATACCGCTTGCGGTCGTGGCGTCCACTTCGCCCACCATAATTGACGAACGCTCACTGGTGCCCCCCGGGC -TTGCCAGGAAACTTAACACCGGTTTGGTCCGTTTGACTATCAGTCCCGCCTCTTCAATCGCTTCGCGACGGGCAACATCT -TCCACACTTTCACCCTCTTCAATCATCCCGGCAACCATCTCCAGTAGCCAAGGGGTTTCGCTGGTGTCGTACGCGGCAAT -CCGAATCTGCTCAATCAGCACAACTTCATCACGCACTGGGTCAAAGGGTAGCAAGACTGCGGCGTGACCGCGCTCAAAAA -TTTCCCGCCGCACCTCATGACTCATTTGCCCGTTGAATAGACGATGACGAAATCTATAAAGATCTAATGAAAAAAAGCCG -CGATAAAGTGTTTCTCGTGCAATAATTTCTACATCGTTTTTGCCAAATGTAACGGGCAGGTTGTCTGGCTTAAGCATTGT -TAATGTCCTGGCACTAATAGTGAATTAAATGTGAATTTCAGCGACGTTTGACTGCCGTTTGAGCAGTCATGTGTTAAATT -GAGGCACATTAACGCCCTATGGCACGTAACGCCAACCTTTTGCGGTAGCGGCTTCTGCTAGAATCCGCAATAATTTTACA -GTTTGATCGCGCTAAATACTGCTTCACCACAAGGAATGCAAATGAAGAAATTGCTCCCCATTCTTATCGGCCTGAGCCTT -TCTGGGTTCAGTTCGTTGAGCCAGGCCGAGAACCTGATGCAAGTTTATCAGCAAGCACGCCTTAGTAACCCGGAATTGCG -TAAGTCTGCCGCCGATCGTGATGCTGCCTTTGAAAAAATTAATGAAGCGCGCAGTCCATTACTGCCACAGCTAGGTTTAG -GTGCAGATTACACCTATAGCAACGGCTACCGCGACGCGAACGGCATCAACTCTAACGCGACCAGTGCGTCCTTGCAGTTA -ACTCAATCCATTTTTGATATGTCGAAATGGCGTGCGTTAACGCTGCAGGAAAAAGCAGCAGGGATTCAGGACGTCACGTA -TCAGACCGATCAGCAAACCTTGATCCTCAACACCGCGACCGCTTATTTCAACGTGTTGAATGCTATTGACGTTCTTTCCT -ATACACAGGCACAAAAAGAAGCGATCTACCGTCAATTAGATCAAACCACCCAACGTTTTAACGTGGGCCTGGTAGCGATC -ACCGACGTGCAGAACGCCCGCGCACAGTACGATACCGTGCTGGCGAACGAAGTGACCGCACGTAATAACCTTGATAACGC -GGTAGAGCAGCTGCGCCAGATCACCGGTAACTACTATCCGGAACTGGCTGCGCTGAATGTCGAAAACTTTAAAACCGACA -AACCACAGCCGGTTAACGCGCTGCTGAAAGAAGCCGAAAAACGCAACCTGTCGCTGTTACAGGCACGCTTGAGCCAGGAC -CTGGCGCGCGAGCAAATTCGCCAGGCGCAGGATGGTCACTTACCGACTCTGGATTTAACGGCTTCTACCGGGATTTCTGA -CACCTCTTATAGCGGTTCGAAAACCCGTGGTGCCGCTGGTACCCAGTATGACGATAGCAATATGGGCCAGAACAAAGTTG -GCCTGAGCTTCTCGCTGCCGATTTATCAGGGCGGAATGGTTAACTCGCAGGTGAAACAGGCACAGTACAACTTTGTCGGT -GCCAGCGAGCAACTGGAAAGTGCCCATCGTAGCGTCGTGCAGACCGTGCGTTCCTCCTTCAACAACATTAATGCATCTAT -CAGTAGCATTAACGCCTACAAACAAGCCGTAGTTTCCGCTCAAAGCTCATTAGACGCGATGGAAGCGGGCTACTCGGTCG -GTACGCGTACCATTGTTGATGTGTTGGATGCGACCACCACGTTGTACAACGCCAAGCAAGAGCTGGCGAATGCGCGTTAT -AACTACCTGATTAATCAGCTGAATATTAAGTCAGCTCTGGGTACGTTGAACGAGCAGGATCTGCTGGCACTGAACAATGC -GCTGAGCAAACCGGTTTCCACTAATCCGGAAAACGTTGCACCGCAAACGCCGGAACAGAATGCTATTGCTGATGGTTATG -CGCCTGATAGCCCGGCACCAGTCGTTCAGCAAACATCCGCACGCACTACCACCAGTAACGGTCATAACCCTTTCCGTAAC -TGATGACGACGACGGGGCTTCGGCCCCGTCTGAACGTAAGGCAACGTAAAGATACGGGTTATCTGCCGCATTCTTCCCCC -TTCTCGCTTCAATTTCGACCAGCCATCCTCTATTCTGATGGGTATTTACCACTGGTCCCGGAAGACAAAAATGAAACGGA -CAAAATCCATACGCCACGCATCGTTCCGCAAAAACTGGAGCGCACGCCATCTGACACCAGTCGCTCTCGCGGTTGCCACT -GTTTTTATGCTGGCTGGCTGTGAAAAGAGTGATGAAACAGTGTCTCTCTATCAAAATGCTGACGACTGTTCAGCTGCAAA -CCCAGGCAAAAGCGCCGAATGTACCACCGCGTACAACAATGCGCTGAAAGAAGCCGAACGTACTGCGCCGAAATACGCCA -CCCGTGAAGACTGTGTTGCTGAATTTGGTGAAGGTCAGTGCCAGCAGGCACCAGCCCAGGCTGGCATGGCACCAGAAAAC -CAGGCGCAGGCCCAGCAATCCAGCGGGAGTTTCTGGATGCCGCTGATGGCCGGTTACATGATGGGGCGTCTGATGGGCGG -CGGCGCGGGATTTGCACAGCAGCCGCTGTTCTCCTCGAAAAACCCAGCCAGTCCGGCTTACGGTAAATATACCGACGCGA -CGGGTAAAAACTATGGCGCAGCCCAGCCAGGCCGCACCATGACCGTACCGAAGACGGCAATGGCACCAAAACCGGCGACC -ACCACTACCGTTACCCGTGGCGGTTTTGGTGAATCTGTTGCCAAACAAAGCACTATGCAGCGTAGTGCAACCGGTACCTC -TTCTCGTTCAATGGGTGGCTGATACCGATGGAAAGAGTCAGTATTACCGAGCGCCCGGACTGGCGTGAGAAAGCCCACGA -ATACGGTTTCAATTTTCACACCATGTACGGCGAGCCGTACTGGTGTGAAGATGCTTACTACAAGTTGACCCTCGCCCAGG -TTGAAAAGCTGGAAGAAGTCACCGCCGAACTGCACCAGATGTGCCTGAAAGTGGTGGAAAAAGTGATCGCCAGCGATGAG -CTGATGACCAAATTCCGCATTCCAAAACACACCTGGAGTTTTGTGCGCCAGTCATGGCTGACGCACCAGCCATCGCTTTA -TTCGCGTCTTGATCTGGCGTGGGATGGCACTGGTGAACCTAAACTTCTGGAAAATAACGCCGATACGCCAACGTCACTAT -ACGAGGCGGCGTTCTTTCAGTGGATCTGGCTGGAAGATCAGCTTAACGCCGGTAACTTGCCGGAGGGCAGCGACCAGTTT -AACAGTCTGCAAGAAAAACTGATCGATCGCTTCGTTGAGCTGCGTGAACAGTATGGCTTCCAGTTGCTGCATCTCACCTG -CTGTCGCGACACGGTGGAAGATCGCGGAACCATTCAGTATTTGCAGGACTGCGCAACGGAAGCTGAAATTGCTACTGAGT -TCCTCTACATCGATGATATCGGGTTAGGTGAAAAAGGTCAGTTCACGGATTTACAGGATCAGGTAATTTCCAACCTGTTC -AAACTGTATCCGTGGGAATTTATGTTGCGTGAGATGTTCTCAACCAAGCTGGAGGATGCAGGCGTACGCTGGCTGGAACC -GGCGTGGAAGAGCATTATCTCCAACAAGGCACTTCTACCGCTACTGTGGGAGATGTTCCCGAATCACCCGAACCTGCTGC -CCGCTTATTTTGCGGAAGATGATCATCCGCAAATGGAAAAATATGTGGTTAAACCGATCTTCTCCCGTGAAGGCGCAAAC -GTGTCGATCATTGAGAACGGCAAAACCATTGAAGCAGCGGAAGGTCCGTATGGCGAAGAAGGGATGATTGTTCAGCAATT -CCACCCGTTACCGAAATTCGGCGACAGCTATATGCTGATTGGTAGCTGGCTGGTGAACGATCAACCCGCCGGAATTGGCA -TTCGTGAAGACCGTGCATTGATCACCCAGGATATGTCTCGGTTTTATCCACATATTTTTGTTGAATAAGCCACGATACCG -GATGGCACTCGCCATCCGGTAATTGTTAGCCTATCTGCACCGACAGCATACTCAGGCTGCCCATTTCTATACCCTCAACC -GGAATGGTAATTGGCTCCTGCCCATCCCACGCACCTAACACATACAACAACGGCAAATAATGCTCTGGCGTTGGGTTCGA -TAACGTGCCACCTTCATGGTCGAGGTAATTCACCAGAGGATGTTGTTCCACTGGCCCTTGCCACGTCAGATTCGCTTTCA -CATACTCATTAAACGACGTCGCCCACGGATACGGTGAACTATCACCGTGCCACTTCACTGTGCGCAGGTTATGCACCACG -TTACCGCTGGCGACCAACATTATTCCTTCATCTCGCAGCGCTGCCAGTTTGCGCCCCATTTCGAAATGCCAGGCGGCAGG -TTTGCTACTGTCGATACTCAACTGCACCATCGGGATATCAGCGTCAGGATACATCTTAATCAGCACGCCCCACGAGCCGT -GGTCAAAGCCCCAGGCTTCTTTATCCAGCGTCACCGGGATCGGCGCTAACAGCTCAACCAGACGCTGTGCCAGCGCAGGC -GAACCCGGAGCAGGATAATGCGTATCGTACAGCGCCTGCGGGAAGCCACCAAAGTCATGAATCGTGGGCGGCGTCTCCAT -CGCGGTCACTCCTGTTCCACGGGTAAACCAGTGAGCCGAAACCACCACAATCGCTTGCGGGCGTGGCAATGTCATCCCCA -ACTTCTGCCAGCTGCGGGTATACAAATTATCTTCCAGCACGTTCATCGGACTACCGTGACCTAAAAACAATGCTGGCATA -CGTGTTGAAGACATGATGATATCCTTAACTAAAGGTGTCATTTTGATATCCTCACAATACGCTTGTTCGGCGGAGTAAGA -ACCCGGATAACAATGATGATGATCATCAGTTATTTTGACGATCTGCCTGAAGGTGAAGATTTATAAGGAGTTGTCGATGT -CAGTACCTCTCATTCTGACCATACTGGCGGGGGCAGCCACGTTTATTGGCGCGTTTCTCGGCGTTCTCGGGCAAAAACCC -TCGAACCGCTTACTGGCGTTTTCGCTAGGTTTTGCGGCGGGGATCATGTTGCTCATCTCATTAATGGAAATGCTTCCTGC -CGCACTAGCAGCTGAAGGAATGTCGCCTGTGTTGGGTTATGGAATGTTTATCTTCGGTCTGCTTGGCTATTTTGGCCTGG -ACCGCATGTTGCCACATGCTCATCCGCAGGATTTAATGCAAAAATCGGTGCAGCCGTTGCCAAAATCGATCAAGCGCACA -GCCATTCTGCTCACTCTCGGCATCAGTCTGCATAACTTCCCGGAAGGGATTGCCACCTTTGTCACGGCGAGCAGCAACCT -GGAGCTGGGATTTGGCATCGCACTGGCCGTCGCGTTGCACAATATCCCTGAAGGTCTGGCAGTGGCAGGCCCGGTTTATG -CGGCAACGGGGTCTAAACGCACCGCGATTCTGTGGGCGGGGATTTCTGGACTAGCAGAAATTCTTGGTGGTGTGCTGGCG -TGGTTAATCCTCGGTAGCATGATTTCCCCGGTGGTCATGGCGGCAATCATGGCGGCGGTTGCAGGAATTATGGTGGCGCT -CTCGGTTGATGAATTAATGCCGCTCGCCAAAGAGATTGACCCTAATAATAACCCCAGCTATGGCGTACTATGTGGAATGT -CAGTGATGGGATTCAGTTTAGTGCTGCTACAAACGGCGGGAATTGGTTAAAAACAACATCAGAAGTTGTCCAGCGCATGG -ACAACTTCTGCCAGCTTCACGAAAGCCTTATTCTACCTTTTCGGCTGTCTCTTCTCTCGTACTGTTTAAGTATTTGTTCC -GCGCTTCAAGCAGTGCGTCTCTGTCCTGGCGAAACGCCCGACAATAACGTTTCAAATGCAGGAAATAACCCACCACAACC -AGAGCAATCAATACAATCCAGTACCAGGCGATAAACATCCTTTTACCCTTAATATTTAACAATACTAAACATTTAGCGTA -TAAATTTCACATATCCTTTTTCGGATATATTCATATGGTCGCATAATAACGGAACAATTATATGATTTTGATCATAATGA -AAAAGAATGCCTGATATTAATGAAATTTTCTCATAGAAAGAGAAGCGGAATTAACATCTTGCATAGCAGGGAAAAATAAA -AACCGAAGCCTGCTACAACTTCGGTTTCTTGATTAAGGCAGTAAATTAAGCAGCGGTTTTCAGCTGGCTTTACGCTCATG -TGCCTGACGGTATGCCACCAGGTCTTCAATAGTCACGAGCGCCATATTGTGTTTATTGGCAAACTCAATACACTCTGGTG -CACGCGCCATCGTGCCATCGTCATTAGTCAGCTCACACAGTACACCAGCCGGTTTAAAGCCTGCCAGCGTCATCAGATCA -ATAGTTGCTTCAGTATGACCGCCACGCGTCAGTACACCACCTGCCTGAGCGCGAAGTGGGAAAACGTGGCCAGGACGATT -CAGATCTGACGGTTTTGCGCCATCGGCAATCGCTGCGCGAACGGTCGTAATACGGTCAGCGGCAGAAACACCGGTAGTCA -CACCTTCAGCTGCTTCAATGGTCACGGTAAAACCGGTGCCATAGGCGCTGGTGTTATTTTCTACCATCATTGGCAGATCG -AGTTGTTTACGGCGATCTTCAGTAATGCACAGGCAAACAATACCGCTACCGTGGCGAATGGTCAGCGCCATCTGCTCAAC -AGTCATGGTTTCTGCCGGGAAGATCATATCACCTTCGTTTTCACGGTCTTCATCATCAAGCACCATTACACCGCGTCCTT -CACGCAGCGCAGCCAGTGCATTTTCAACACGTTCGAAAGGCGTACCAAAAGAGGAAAGTAGCGTCTGATTCATGGTAAAA -AAACCTCACTAAAATTATGGTTACCAGAATCAGGGCAGTCTTAGGAGTGGCGGCATATAGCCAAAATAACGTGAGCGGGT -CCATGCCCGACAGAATCGTTACTCTCTCCCATCCGGACTCTAACCGTCGGCCCCGGAATTACACCGGATCTGCTGTCCTT -TGAGTTCGCACCCAAAGCGCTCGCGGGCTTTCAACTGAGTTGATTTACCGCCGGTGGGGAATTTCGCCCCGCCCTGAGAA -TAAGCGGATTCACTATAACGCTAATGATTAGCGGCAGCAACGCATAGCTTCACATAATTCTGGTTTATGACTTACCCTTA -TCGCACTACAATGGCACTCAACACCTATCAGTACAGGGAAACTACAATGATTGACCCGAAAAAAATTGAGCAAATCGCTC -GCCAGGTTCACGAATCAATGCCTAAAGGAATCAGGGAGTTCGGGGAAGATGTGGAGAAAAAAATCCGCCAAACCCTACAA -GCGCAGCTGACGCGCCTCGACCTTGTAAGCCGTGAAGAGTTCGACGTCCAAACGCAAGTCCTGTTACGGACTCGTGAAAA -ACTGGCGCTGCTTGAACAAAGAATCAGCGAACTGGAAAATCGCAGTACTGAGATCAAAAAGCAGCCAGATCCAGAGACTC -TCCCCCCAACGCTGTAAACATTCGTCTTTAATGCACTGTAAATTATGAATTAATCCTCTAATTTATAGTGCTTTCTATTA -CCTTATCGCGTAATCCCATTCAGAAAACCATCACAAAAATGAATGAGTACAATTGAAAGTATAATTGCAATGTATTTTTT -AAGTTTTACTTAATCGATATTTAGATAAACTAATTTTATAAAAAACACAAAATAAAATATCATATTTCAATGATTAGTAG -TCCTTAAATAACAGTTACTAATCATTCTCTTTTCTACTTATCTTTATATAAAGGAATATTATGTCCGCTTTTAAAAAGTC -ACTTCTTGTTGCTGGCGTAGCAATGATTCTTTCCAATAACGTGTTTGCTGATGAAGGTCACGGTATTGTTAAATTTAAAG -GTGAAGTTATCTCTGCTCCATGTTCTATTAAACCAGGTGACGAAGATTTAACTGTAAATCTGGGTGAAGTAGCAGATACC -GTACTGAAAAGCGATCAGAAATCTTTGGCTGAACCTTTCACTATTCACCTGCAGGACTGCATGCTGAGTCAGGGTGGAAC -TACTTATTCAAAAGCGAAGGTTACTTTCACTACAGCAAATACCATGACGGGTCAGTCTGATCTTCTGAAAAATACCAAAG -AAACTGAAATCGGCGGCGCCACTGGCGTTGGCGTACGTATTCTGGACAGCCAGAGCGGCGAAGTAACTTTAGGTACTCCG -GTAGTAATTACGTTCAACAATACCAACAGCTATCAGGAACTGAATTTCAAAGCTCGTATGGAATCCCCAAGCAAAGATGC -CACCCCGGGCAACGTTTACGCTCAGGCTGACTACAAGATTGCTTACGAGTAATCGCATTTGGCCGGGTTCGCCCGGCCAC -ATCATTAACGGATTAATGATAAGTGGATCAGATGTATAAAAAATTAAAATTAACCACAATAAGCGAATTGATTAAAAATA -TTTATTGTTCATTATCCGTTATTAGACTGGCCCCCTGAATCTCCAGACAACCAATATCACTTAAATAAGTGATAGTCTTA -ATACTAGTTTTTAGACTAGTCATTGGAGAACAGATGATTGATGTCTTAGGGCCGGAGAAACGCAGACGGCGTACCACACA -GGAAAAGATCGCAATTGTTCAGCAGAGCTTTGAACCGGGGATGACGGTCTCCCTCGTTGCCCGGCAACATGGTGTAGCAG -CCAGCCAGTTATTTCTCTGGCGTAAGCAATACCAGGAAGGAAGTCTTACTGCTGTCGCCGCCGGAGAACAGGTTGTTCCT -GCCTCTGAACTTGCTGCCGCCATGAAGCAGATTAAAGAACTCCAGCGCCTGCTCGGCAAGAAAACGATGGAAAATGAACT -CCTCAAAGAAGCCGTTGAATATGGACGGGCAAAAAAGTGGATAGCGCACGCGCCCTTATTGCCCGGGGATGGGGAGTAAG -CTTAGTCAGCCGTTGTCTCCGGGTGTCGCGTGCGCAGTTGCACGTCATTCTCAGACGAACCGATGACTGGATGGATGGCC -GCCGCAGTCGTCACACTGATGATACGGATGTGCTTCTCCGTATACACCATGTTATCGGAGAGCTGCCAACGTATGGTTAT -CGTCGGGTATGGGCGCTGCTTCGCAGACAGGCAGAACTTGATGGTATGCCTGCGATCAATGCCAAACGTGTTTACCGGAT -CATGCGCCAGAATGCGCTGTTGCTTGAGCGAAAACCTGCTGTACCGCCATCGAAACGGGCACATACAGGCAGAGTGGCCG -TGAAAGAAAGCAATCAGCGATGGTGCTCTGACGGGTTCGAGTTCTGCTGTGATAACGGAGAGAGACTGCGTGTCACGTTC -GCGCTGGACTGCTGTGATCGTGAGGCACTGCACTGGGCGGTCACTACCGGCGGCTTCAACAGTGAAACAGTACAGGACGT -CATGCTGGGAGCGGTGGAACGCCGCTTCGGCAACGATCTTCCGTCGTCTCCAGTGGAGTGGCTGACGGATAATGGTTCAT -GCTACCGGGCTAATGAAACACGCCAGTTCGCCCGGATGTTGGGACTTGAACCGAAGAACACGGCGGTGCGGAGTCCGGAG -AGTAACGGAATAGCAGAGAGCTTCGTGAAAACGATAAAGCGTGACTACATCAGTATCATGCCCAAACCAGACGGGTTAAC -GGCAGCAAAGAACCTTGCAGAGGCGTTCGAGCATTATAACGAATGGCATCCGCATAGTGCGCTGGGTTATCGCTCGCCAC -GGGAATATCTGCGGCAGCGGGCTTGTAATGGGTTAAGTGATAACAGATGTCTGGAAATATAGGGGCAAATCCAGTTATCA -TCATTGGTTGTGCGTCAGCTTATGCCGTTGAATTCAACAAAGATTTAATCGAAGCCGAAGATCGTGAAAACGTTAACCTT -TCCCAATTTGAAACTGATGGCCAATTACCCGTCGGCAAATATTCACTAAGCACTCTGATTAATAATAAGAGGACGCCAAT -CCACCTTGACCTCCAATGGGTATTAATTGATAACCAAACTGCAGTTTGCGTGACACCAGAGCAATTAACATTATTAGGAT -TTACTGATGAATTTATTGAAAAAACTCAGCAAAACCTGATCGATGGTTGTTACCCTATCGAAAAAGAAAAACAAATTACA -ACTTATCTCGATAAAGGGAAAATGCAATTATCCATATCTGCACCTCAGGCATGGTTAAAATACAAAGATGCAAACTGGAC -GCCTCCTGAACTTTGGAATCATGGTATTGCTGGGGCATTTCTTGACTACAATTTATATGCCTCTCATTATGCACCACATC -AGGGCGATAATTCGCAAAATATAAGTTCCTATGGGCAGGCTGGGGTTAATCTTGGGGCCTGGCGCCTGCGTACTGATTAC -CAGTACGATCAGTCATTTAACAATGGCAAAAGCCAGGCGACCAACCTGGATTTTCCGCGTATTTATTTGTTTCGCCCAAT -CCCAGCAATGAATGCAAAACTAACTATAGGTCAATACGATACTGAATCCTCTATTTTCGACTCTTTCCATTTTTCTGGCA -TTTCGTTGAAAAGCGATGAGAATATGTTACCGCCAGACCTACGTGGTTACGCACCGCAAATCACGGGTGTCGCACAAACG -AATGCAAAGGTCACTGTCTCACAGAACAACCGTATTATTTATCAAGAAAATGTTCCTCCAGGCCCATTTGCTATTACCAA -TTTATTCAATACATTACAGGGGCAACTTGACGTCAAGGTTGAAGAAGAGGACGGACGCGTTACGCAATGGCAAGTTGCAT -CTAATAGTATTCCTTATCTGACGCGTAAAGGGCAGATTCGCTACACCACTGCTATGGGTAAACCGACCAGCGTTGGTGGT -GATTCCTTACAACAACCCTTCTTCTGGACTGGTGAATTCTCATGGGGTTGGCTGAACAATGTATCCCTGTATGGTGGTTC -AGTTTTAACAAACCGTGATTATCAATCTCTGGCTGCCGGCGTTGGTTTTAATCTTAACTCATTAGGTTCATTATCTTTTG -ATGTCACACGATCTGATGCTCAGTTGCATAATCAGGATAAAGAAACGGGTTATAGCTACCGCGCTAACTATTCAAAACGT -TTTGAATCTACCGGTAGCCAGCTCACTTTCGCTGGTTACCGTTTCTCTGATAAAAACTTTGTGACAATGAATGAATATAT -CAATGACACTAACCATTACACGAATTATCAGAATGAAAAAGAGAGTTATATTGTCACGTTTAACCAGTATCTTGAATCAT -TAAGGTTAAATACATACGTAAGTTTGGCTCGTAATACTTACTGGGACGCCAGCAGTAATGTGAATTATTCATTATCACTT -AGCCGCGATTTTGATATCGGGCCATTAAAAAACGTCTCCACTTCTCTAACATTTAGCCGAATAAACTGGGAAGAAGACAA -CCAGGATCAACTGTACCTAAATATTTCGATTCCCTGGGGAACTAGTAGAACATTGAGCTATGGTATGCAACGAAATCAGG -ATAATGAGATTTCGCATACTGCTTCGTGGTATGACTCTTCCGATCGAAATAATTCCTGGAGCGTTTCTGCTTCAGGCGAC -AATGATGAATTCAAAGATATGAAAGCGTCACTACGCGCCAGTTATCAGCATAATACCGAGAACGGTCGACTCTACCTCTC -CGGTACATCACAGCGAGACAGTTATTATTCTCTGAATGCCAGTTGGAATGGTTCATTCACTGCGACTCGCCACGGTGCCG -CTTTCCACGACTATAGCGGTAGTGCTGACTCGCGTTTTATGATCGACGCAGACGGCACTGAAGATATTCCGTTGAACAAT -AAACGCGCGGTAACTAATCGGTATGGCATCGGAGTTATTCCATCAGTCAGCAGTTACATAACAACATCATTAAGTGTTGA -TACCCGAAATCTGCCAGAAAATGTGGATATCGAAAACTCGGTTATCACCACCACCTTAACCGAGGGTGCTATTGGCTACG -CCAAACTTGATACCCGCAAGGGCTACCAAATCATAGGGGTTATTCGCCTGGCAGATGGTAGTCATCCACCACTGGGGATT -AGCGTAAAAGATGAAACCAGCCACAAAGAATTAGGACTGGTTGCTGATGGCGGCTTTGTATACCTCAACGGCATTCAGGA -TGATAACAAACTTGCTTTACGCTGGGGTGACAAATCTTGTTTTATTCAACCACCCAATAGCAGCAACTTAACCACCGGAA -CGGCTATTTTACCGTGTATTAGCCAAAATTAATTCAGGATGAAACTAATGCGCTACTTAAATACAAAGAATATCATTGCA -GCAGGAGTATTACTCTCCTGTATGAGCAGCATTGCCTGGGGTGCCATCATCCCGGATCGTACCCGTATCATAATGAATGA -GTCAGATAAAGGCGAAGCATTAAAACTTACTAATCAAAGTAAAAACCTGCCCTATCTGGCCCAAACATGGATAGAAGATA -CGAAAGGCAATAAATCGCGTGACTTTATTGTCACTGTTCCTCCAATGGTGCGTTTAAATCCCAGTGAGCAAATTCAAATA -AGAATGATAACTCAGGAAAAAATTGCTCAACTTCCTAAAGACAGAGAAACGCTCTTCTATTTTAACGTGCGAGAAATACC -GCCCAAAACAGATAAAAAAAATGTGATGCAAGTCACTATGCAGCACGCATTGAAACTATTCTGGCGGCCAAAAGCCATTG -AATTAGAAGACGATGGGGTAATGACTTACGAAAAAGTTGAAATCATTCGTAGAAATGACGGTTCGATCCGCTTTAACAAT -AAGATGCCTTATCACGTTACGCTGGGTTATATCGGAACAAATGGGGTAACGATGTTACCACAAACGCAAAGCTTAATGGT -AACCCCTTTTAGCTATGCAAATACGCAGTTTAAAAATGTTCCGTCAACTTTTCAGGTGGGTTATATCAATGACTTTGGTG -GATTAAGTTTTTATGAAATAAACTGCCCTGTAGTAAATAACATTTGTAATATTTCTGTAGCCAACCGAGATCAATAATAT -GCGCTACTTGTTAATTGTTATTACTTTTTTTATGGGTTTTAGTTCATTACCTGCATGGGCAATGGACTGCTATGCTGAAC -ATGAAGGTGGAAATACCGTTGTCATTGGTTACGTACCAAGAATCTCTATCCCCAGCGATGGTAAAAAAGGTGATAAAATC -TGGCAAAGCAGTGAATATTTTATGAATGTTTTCTGTAATAATGCACTACCAGGCCCATCTCCAGGAGAAGAATACCCATC -TGCATGGGCAAATATAATGATGTTGTTAGCATCAGGTCAAGACTTTTATAATCAAAACTCTTATACTTTCGGTGTAACTT -ATAATGGGGTTGATTATGATTCTACATCTCCACTACCTATTGCAGCACCTGTATGTATTGATATAAAGGGAGCCGGAACC -TTCGGGAATGGCTACAAAAAGCCCGCAGTCTGTAGTGGCGGTCCTGAACCGCAATTATCAGTAACTTTTCCAGTACGAGT -GCAGCTATATATTAAGCTAGCTAAAAATGCCAATAAAGTAAATAAAAAACTTGTATTACCTGACGAATATATAGCACTTG -AATTTAAAGGTATGAGCGGAGCAGGTGCTATAGAAGTAGATAAAAATCTGACCTTCAGGATTCGCGGATTAAATAACATT -CATGTCCTTGACTGCTTTGTTAATGTTGATCTGGAACCAGCTGATGGCGTTGTCGACTTTGGTAAAATAAATTCCCGAAC -AATTAAAAATACCAGCGTGAGTGAGACGTTTAGCGTAGTCATGACCAAAGATCCGGGTGCGGCCTGTACTGAGCAGTTTA -ATATTTTAGGGAGTTTTTTCACTACGGATATTTTGAGTGATTATAGCCATCTGGATATAGGTAATGGTCTGCTATTGAAG -ATATTTCATAACGATGGAACAGCAACGGAATTTAACCGCTTCTCACAATTTGCTTCTTTTTCATCGTCTAGTGCGCCTTC -GGTCACCGCACCATTCAGGGCAGAACTGAGTGCGAACCCGGCAGAAACGGTTGTTGAGGGACCGTTTAGTAAAGACGTAA -TCCTGAAAATCACCTATAACTAGTATCTAATACAAACACTAAAACGGGCCATCAGGCCCGTTATATCAGTGCTCTAACTC -CAGCTCTCTTGCCTGCATCATCTGTTGACAATACCAGGCATAACGTGCGCAAAACCAGGTTCTATGTTCTTCATCCATGT -TACCAGTAACGGCCAGAATATCGACCGGGCGACCTTCTGCGTGCATTCTGGCAAAACTACGCGCCAGGAAATCGAAATTA -TTTAAAGAATTAAGACTATGATCCATAAGCACATCCTCCGGTTATCGCATACCTTTTAAGGCCATATGCTTTTTCTGATT -TCAGTATTCCCCAATCAGTGTAGTGCCTTTAAACATAACGTGCGTAAATATATTGTCCCCGATCACACTTTTTAGTGAAA -AATAAAAAACCATATTAAAAGACTTTCTCTTCCAGAACTTCTCTAACCTGTGTTATTATTAACACAGATAAATGTAAGCA -AGGAAACTATTACAAAGTAAATATTGCGTCACTAAATGGACATTGGAGTGATATATGATTTTATTCGCCGACTATAACAC -CCCTTATCTTTTCGCTATTTCCTTTGTACTGTTGATCGGCCTGTTAGAAATTTTTGCGCTTATCTGCGGTCACATGCTCT -CCGGTGCTCTTGATGCACATCTTGACCATTATGATTCTATAACCACAGGTCATATTAGCCAGGCACTTCATTATCTCAAT -ATTGGAAGATTGCCAGCTCTCGTCGTTCTCTGCTTACTGGCTGGTTTTTTTGGTCTTATTGGCATCCTGTTGCAGCATGC -CTGCATCATGGTCTGGCAATCACCACTGTCGAACCTGTTCGTGGTTCCTGTCAGTTTACTGTTTACGATTATTGCGGTGC -ATTATACCGGTAAAATAGTTGCGCCCTGGATTCCACGCGACCATAGTTCAGCTATTACAGAAGAAGAATATATTGGTAGC -ATGGCGTTAATTACCGGTCATCAAGCCACTTCAGGTAATCCCTGCGAAGGAAAACTCACCGATCAATTTGGCCAAATACA -TTATTTACTACTGGAGCCTGAAGAAGGAAAAATTTTCACTAAAGGAGACAAAGTGTTAATTATTTGCCGACTTTCTGCAA -CGCGATATTTGGCGGAAAATAATCCCTGGCCCCAAATATTGTAATTTATTAATCAAAAGGAAATTTAATAATGGATGATA -TTGTTAATTCTGTGCCCTCCTGGATGTTTACCGCAATTATTGCCGTATGCATTCTGTTTATTATTGGAATTATTTTCGCC -AGGCTCTATCGTCGCGCTTCGGCAGAGCAAGCTTTTGTTCGTACTGGTTTAGGTGGGCAAAAAGTGGTAATGAGCGGTGG -CGCAATCGTGATGCCGATCTTTCATGAAATAATCCCCATCAATATGAATACTCTGAAGCTGGAAGTCAGCCGCTCAACCA -TTGATAGCCTGATTACGAAAGATCGTATGCGCGTCGATGTAGTAGTCGCTTTCTTTGTGCGGGTAAAACCTTCAGTAGAA -GGGATTGCCACCGCTGCCCAGACGCTGGGGCAACGCACCCTGTCGCCTGAAGACTTACGTATGTTGGTTGAAGATAAATT -TGTCGATGCCCTCCGTGCAACAGCTGCGCAAATGACCATGCATGAGTTACAGGATACCCGCGAGAACTTTGTGCAGGGGG -TGCAAAATACAGTGGCAGAAGACCTGTCGAAAAACGGTCTGGAACTGGAGAGCGTTTCACTTACCAACTTTAACCAGACC -TCGAAAGAACATTTCAATCCGAACAATGCCTTTGACGCCGAAGGTTTAACCAAACTGACTCAGGAAACAGAGCGCCGTCG -CCGCGAACGTAACGAAGTTGAACAGGATGTAGAAGTTGCGGTGCGTGAAAAAAATCGCGATGCGCTATCGCGCAAGCTGG -AGATTGAACAGCAAGAAGCGTTTATGACGCTTGAGCAGGAGCAGCAGGTTAAAACCCGTACTGCCGAACAGAATGCACGT -ATTGCGGCTTTTGAAGCTGAACGTCGTCGTGAAGCAGAGCAGACACGAATTCTGGCTGAACGACAGATTCAGGAAACAGA -AATCGACCGCGAACAGGCCGTCCGCTCAAGAAAGGTTGAAGCTGAACGTGAAGTTCGCATTAAAGAGATCGAACAGCAGC -AGGTCACCGAAATCGCTAACCAGACGAAATCGATCGCTATTGCCGCCAAATCGGAACAACAGTCCCAGGCAGAAGCGCGT -GCTAATCTCGCACTTGCAGAAGCGGTAAGCGCCCAACAAAACGTAGAAACCACTCGCCAGACTGCCGAAGCCGATCGTGC -TAAACAAGTTGCCCTAATCGCTGCCGCGCAGGATGCAGAAACCAAAGCGGTTGAACTGACCGTGCGGGCGAAAGCAGAAA -AAGAAGCCGCAGAGATGCAGGCGGCGGCTATCGTTGAGTTAGCCGAAGCTACACGTAAAAAGGGTCTGGCGGAAGCAGAA -GCACAACGTGCGCTGAACGATGCTATCAACGTACTTTCTGATGAACAAACCAGCCTTAAATTCAAACTGGCCTTGTTGCA -GGCGCTGCCTGCGGTAATAGAGAAATCCGTTGAGCCGATGAAGTCAATCGACGGTATCAAGATTATTCAGGTCGATGGTC -TGAATCGTGGCGGCGCTGCGGGTGATGCAAACACGGGTAATGTGGGGGGCGGAAACCTGGCGGAACAAGCATTATCAGCC -GCTCTCTCTTACCGCACACAGGCACCGCTGATTGACTCCTTGCTCAATGAAATTGGCGTTTCAGGCGGCTCACTGGCGGC -ATTGACTTCACCCTTAACCTCAACAACTCCCGTCGAAGAAAAAGCAGAGTAAACCCTCTTCCAGGAATAATCCCTGGCCC -AAAAAGCCGGGGATTTTTTATATCTGCGTTCCGCTAAAAAGTGCAAATGATCAGGTTGTTGCAGCATTTTGCGTGACGGC -TCGGGGAAGGCAAAACTGCATCAGAGAAAGCATTGCGTGGGGTCTGGCGCTCATCAACAATCGGGGAGTCAGCAGGGGGC -TGAAACGGGAAAGCCCCTCCCGAAGAAGGGGGCCTTACAGAAGGAAAGGGTTATGATGAAGCTCGTCATCATACTGATTG -TGTTGTTACTCGTAAGTTTCGCAGCTTATTAACAGCCAATCAGAGGGGGGAGAAATCCTCCCTCACCCTTGTTCCTTTAC -TTTAGGTTGAAAAAAAATCAGCGTCAAGAAGGTTTCATTAACACATATCCCTGGCCCAAAAAGCCGGGGATTTTTTATAT -CTGCGTTCCGCTAAAAGGTGCAAATGCTCAGGACGTTGCAGCGTTTTGCGTGACCGCTCGGGGAAGGCAAAATTGCCTCT -GGGAAAGCATTGCGCGGGGTCCGGCGCTCATCAACAATCGGGGGGCAGCAAGGGGCTGAAACGGGAAAGCCCCTCCCGAA -GAAGGGGCCTTGTATAAGGAAAGGGTTATGATGAAGCTCGTCATCATACTGGTTGTGTTGTTACTGTTAAGTTTCCCGAC -TTACTAACAACTCATCAGAGGGGGGAGAAATCCTCCCTTACCCTTGTTCCTTTACTCTAGGTTGAAAAAACAACAGCGTC -AATAGGCCTGCCATGTACGAAGCGAGATCTGTGAACCGCTTTCCGGTTAGCCTTTTTTATCCTGTTGGATCTTCTTGATG -ATGTTGGTCGTCGAGCAACCGTCTTCAAAGTTGAGCACCAACACTTCGCCACCGTTGGCCCAGACTTCTTTACTCCCGGC -AATCTCTTCTGGTTTATAGTCGCCGCCTTTCACCAGCAGATCTGGCAAGATCCCGGCGATCAAGCGCTGCGGCGTGTCCT -CTTCAAACGACACTACCCAGTCGACCGCTTCCAGTGCGCCCAGCACAATCATACGCTGTTCGAGTGGGTTTACCGGGCGG -GAATCCCCTTTCAGCCGTTTGGTGGAGGCATCGCTGTTGACGGCAACAATCAAGCGGTCACCCAGCTTGCGGGCATTTGC -CAGATAAGAGACGTGCCCGGCGTGCAGGATGTCAAAGACACCGTTGGTCATCACCACTTTTTCACCACGTTTACGCGCTG -CCGCTACGGCCAGCTTCAGTTCCTCTTCGGTCATCACGCCAAAGCCTGTATCTGCACGTCCACGTACAGCATTTTCCAGC -TCGATCGGCGAAACCGTGGAGGTTCCCAGTTTGCCGACCACCACGCCAGCCGCCGCATTGGCAAAGAAGCAGGCTTCTTC -CAGCGAATTACCCGCTGCCAGCGTTGCCGCCAGGACGCCAATCACCGTGTCGCCCGCACCGGTAACGTCATACACTTCCT -GCGCTTGGGTTGGCATATGCAGCGGCGCTTTACCCGGTTGCAGCAGCGACATACCCTGTTCGGAACGGGTCACTAACAGA -GCCGAGAGTTCGTAATCGGCAATCAGTTTCATGCCGCGCTCAACAATCTCTTCTTCGGTCTTACATTTACCGACAACAGC -TTCAAATTCCGAGAGATTCGGCGTTAACAGCGTAGCGCCGCGGTAGCGCTCAAAATCGGTACCTTTTGGATCAATCAGCA -CCGGAACACCCGCTTTACGCGCCAGTTGGATCATCTGCTGTACGCTTGCCAGCGCACCTTTGGCGTAGTCAGAAAGCACC -AGCGCGCCAATCGAACTCAGCGCCTGATTAATCCGCTCGTGCAGCGGCTGCGGATCAACACCTTCGAAACCTTCTTCAAA -ATCCAGACGGATCAGCTGTTGGTTGCGGGAAAGTACCCGTAATTTGGTAATGGTCGGATGCGTCGGTACAGAAACGAAGT -CGCATTTGACGTTGACGTCGGCCAGAGATTTACTCAGCGCGCGCGCTGCATCGTCAATGCCCGTCAACCCGACCAGGCGT -GCATTAGCACCGAGAGAAGCGATATTCATCGCCACGTTAGCCGCGCCGCCCGGACGTTCTTCGATGGTATTCACTTTAAC -CACGGGCACCGGCGCTTCCGGCGAGATACGACTGGTGGGGCCGTACCAGTAACGATCCAGCATCACATCACCAACCACCA -TCACTCCTGCACGTTCAAACTCTGGCAGCGTTACTTTCATTCCTGTCTCCTGAGAGATTCAAAATTTGCGCGCGATAATA -CCATACTTCATTCTTCCACCAGCCACTTCTGCCAGCTTGCCCGCACCAGTTCACGCTCTGCGGTGAAGCAATCCTCCGAC -ACATGGCCCGGCAATTCCTGTAATGCCAGATGATGAAGTTCATCGCGAAGCGTAGTGTAAGCACGGGTCAGCGCCATCGC -TTCCTGCTCTTCCATAATGTCGTTTTGCGCCAGTAGTTCCAGAATACGCACGTTGTCTGACCAGCGCGTTAACTTCGGTT -TTTCATGAGCGTAGCGCAACACCAGATATTGGGTAATAAATTCGATATCGGTAATTCCCCCTTCATCAGCTTTGATATCA -AAGCGATCGCGATGTTTATTGCCGAGATGAGCGCGCATTTTCTCGCGCATTTCCCGCACTTCCGTTTGCAGAGTTTTACC -TTCACGCGGCAGCGTCATAATCTCGCGACGCACTGCGTCAAAGTGCGCGGTGAGCTGCGGATCGCCGTACACTACACGCG -CACGCACCAGCGCCTGATGTTCCCACGTCCAGGCCTCGTTTTTCTGATAATCGGCAAATGCTTCTGCGGATGTCACCAGC -ATTCCCGCCGCCCCGGACGGACGCAGTCGAGCATCCACTTCATACAAAATGCCGGAAGAGGTACGCGTACTGAACAGATG -CATAATGCGTTGCGCCAGACGCAGATAAAACTGCCGCCCGTCGATTTCCCGCTCACCGTCAGTCATCGCATCCATTGGGC -AATCATGGAGGAAGATAAGGTCAAGATCGGAACTGTAGCCTAACTCCCAGCCGCCCAGCTTGCCGTAGCCGACCACCGCA -AAACCACGCCCTTCGCGTTCGTTCAGGTGATTCGGCTTACCGTAGCGGGCAACCATTTGAACCCACGCCTGCTGAACGAC -GGCATCTATCATGGCTTCCGCCAGCCAGGTTAAGTGATCGCTCACTTTCATCACCGGTAGCGTACCGGCGATATCCGCTG -CGGCGATGCGTAACAGCTGCGCCTGTTTGAACTGACGCAGCGCCTCAAGCTGTTGCTCTTCGTCATCTTCCGGCACGCGC -AGCAAATACTGGCGCAACTCATCGCGGTAGGCATCGGTCGCCGTCGGCTGGTAAAGGGTGTTTGGATCGAGCAATTCATC -CAGCAATAATGGATAACGCGCCAGCTGGCTGGCAATCATCGGCGACGCGGCACACAGAGAAATCAAATGTTTAAGCGCCG -CGGGGAATTCACTGAGCAATTCTAAATAGGTGGTGCGGGTAACAATCCCCACCAGCAAGGCGGTAATGCGCGACAGCGTA -ACGGCAGCGTCTTCACGCGCACAGACATCACTTAGCAGATGCGGCATCAGATGGTCGAGCACCTGACGTCCTCGCGGCCC -GATGGTGCGCTTATCCAGCTCTTTGCGGAAATCGGCAATCAGCGTTAGCACCTGTTTGCGATCATCCTCGCTAAGATGCG -CCAGCACTGGCGTAGTGTCATCTTCCTGCAACGCATCCTGCCACAGCTCACGCCACTGTTCCGACAGCGACTCTTCCTGA -GTTTCACTTTCATCGTCGCCAATCAATTCATTAAACACCCGGCGCACATTGGTCATATGTGCGGTCAGCGCCCCGGTCAG -TTGCGGCCAGTCAGCAAAGTCCATCGCCCACGCCAGCCGCGCACGATTAAGCTCATCAGAAGGAAGCGTCTGGGTTTGTT -CGTCGTTAATGCTTTGCAGCAGGTTTTCCAGACGCCGCAGGAACAGATACGCCACTCGCAATTGTTCAGCATCGTTTTCA -GAAAGCAGATGCAGCTCGGCAATGGCGCTGAGCGTTGGCAGTAAAGAGCGCGATTGCAGCGACGGTTCGCGTCCGCCGCG -AATGAGCTGGAACACCTGAACGATAAATTCAATTTCGCGAATGCCGCCTGCGCCGAGTTTGATATTGTCGGTCAAACCAC -GTCGACGCACTTCACGGGCAATCATCCCTTTCATGTTGCGCAGCGACTGAATCACGCTGAAATCGATGTAACGACGGAAA -ACAAACGGGCGCAGCATCGCACGCAACTCGTTAGCATAGACGCCTTCGCTATCGCCCATAATCCGCGCCTTGACCATCGC -GTAACGCTCCCAGTCGCGCCCCTGCTCCTGGTAATAATCTTCCAACGCGGCAAAGCTCAGCACCAGCGGGCCACTTTCGC -CAAACGGACGCAGCCGCATATCCACGCGATAGACGAAGCCATCCTGCGTTGGTTGATCCAGCACTTTAATCAGCCGCTGC -CCCATGCGGGTAAAAAACTGCGCGTTATCCAGTTCCCGGCGTCCACCCTGCGTACAACCATGTTCCGGCCAGGCAAAAAT -CAGATCGATATCAGAGGAGAAATTCAGCTCCCCACCGCCCAGCTTACCCATGCCTAAAATCAGCAGCGGTTGCGCTTCGC -CCTGCGCATTGCACGGCGTTCCCCACTCGCGGCAGCAGGCGTCATACAGCCAGTCACGCGCCGCAACAATCAGCGTCTCC -GCCAGATAGCTGAGCTGCTGCAATATGCTCTCTTCAGTAACCAGTGCCAGCGTTTGCGCCCAGGCGATGCGCACCATAAT -GCGCCGCCGGAATAGCCGCAGCTCGCGCATTAACCCGGCTTCGTCACTCACATTACAGAGCGCCTCCTGCAACCATGCCG -CGTAATGCTGCCATTCGTCGGCCTGCGGCGGTTGGCTTTCCAGTTCCGTCAGCCACTCTGGATGCGCAATCACGCTGTCC -TGCACAAAATCACTAAAAGTAAGTACTGACTTCGCCTGTGCGCTAAGTGATTCCTCGGCTAAAGGCTCTGGCAGCCGCTC -AACAACGGTCTGCCAGTACTGCTGTAACGGTGAAGAGAGCGGCTTCATAAGCGATTTTATCCTTGCCTGATTAACGTTTT -CCGCTGTGCAACCAGAACGGTTCCTGATTGTTTGCCTCATTACGGAAATGTTCAATTTCGATGCGTTGCCCGGTCGCAAT -AGCGTGATGCAGCCCCTGCCAGTTCTCCAGCCAGGCTTGCGCGACGACAGGATCATAGTAACCCGCCAGCAACAGTATTG -AGTCAATATCACGCGTCAGGCGTGGCAACTGGTCACGGTAGCGATCGCCTAACGGCTGGCAGAAAACGCTTTTCAGTTCA -GCGGCATGGCGGGAAAGATGGATATCGGCAAAGCGTTTGAAGGAGTCGCTGATTTTGCCCTGCGCTTTGGCATCTAAAAA -TGGCTGCCATGCTTTGCTTACCAACCATTCGGTCAACGCCAGCTTCGCCATTGCCGTTTCGGTAGAGTAGACCGCCGTCA -CGGCAGACACCGCAGAAGCAATGGTCGCCTCGCATTGAGTCAGCAGATCACGTAAGTGAGTGCTCGCTTTACGCGGCACA -ATACCACCGAACAGCATCAGCGTATGACGGACCAGGCTAATGGCTGCCAGCACCTGTTCTTTCGCCGCATCGTTGCCGCG -TACCCACAGTTCTTCATGATACTGCCATTGCGCTAACGCCAGCTCGAGCGCCGCTTCCAGCCCCTGTTCCACATCGGCTT -TTGCCGCAACATGCAAAATGGTGGTCGGTTTGATTTCACGCGCCGGATTGCCCTGCGCCAGATGATAGCCACGCGCCGCT -TTGCTCAGGCTGCCCTGGCGTAATCCGGTTTGCGATACCAGTTGGTTCGCCAGTTTCAGCACCGCGCGCGTGTCGCCGCT -AAGCAGTTCCAGTTCCAGCTCACAGATAGGTTCAGCAAATTCACCCGCTTTCACTTCCCCCTGGTCGAGGGCGATTTCAA -TTTGGCTACCATCGACCGCCACCAGCCATTTTTCGCGATAAAAATCGGTGCTGAACAGCGGCTGCACGCGGGAGGCGAGA -TCGGCGGGCAATTCGCCGTTCGGCCAGACTTCCGTCGGTAACTGCGCCAGGTCGAGCGTCGGTTCGCTCAACGCCACGTT -ATATTCCGGGCGCTGATGTAAGCCGCCTGTCACTCTTCCTGCAACTTTCATGGTCATCTCATAGCGACCGTTTTCGCCAC -GAATACGTAAGCCCATATCGTGCCCACGCAGCCAGTTATCCGGCGTTTCGTAGTAAATATTCAGCAACTGCACGGGGTCA -TGGTGCTCGCCGCCCAGCGTATTGAGATGGTCACGCAACGCCTCAACGGCACTGTGATTAACAATAAACTTTAATTCGAT -TTCCTGAGCCATGGCCTTTACTTATCGGTTATGTCACATAAGTGACGATGAACGGCGAACTTAATGCGATCTTTTTTGTC -AGTAGATAGTATTTTGCGCCAAATTGCCATGCAACGGGCAATTTGACGGGCGTAAAAGTTTGAAGCAGTGGCAAGACCTG -ACACAGAGGATTCCGATTGATGTCGAATGCTTTGCGTAGCGACACTGATGCCACTACTATCGTTCCACTTTCCATGACAA -TAACGACAGCCTGATGCCAAAATTACGCCTGATCGGATTAACTTTACTCGCACTTAGCGCGACTGCCGTCTCACACGCTG -AAGAAACGCGCTATGTTTCCGACGAACTGAATACCTGGGTCCGCAGCGGTCCGGGAGATCATTATCGCCTCGTGGGCACG -GTTAACGCCGGCGAGGAAGTGACCTTATTACAAACTGACGCCAACACCAATTATGCCCAGGTGAAAGACAGCTCTGGCCG -TACCGCCTGGATCCCGTTGAAACAACTTAGCACTGAGCCAAGCCTGCGCTCCCGTGTGCCAGATCTGGAAAATCAGGTCA -AAACCCTGACCGATAAACTCACCAATATCGATAACACCTGGAATCAGCGCACCGCAGAAATGCAGCAAAAAGTGGCGCAG -AGCGACAGCGTGATCAACGGGTTAAAAGAAGAAAATCAGAAACTGAAAAACGAGCTGATTGTCGCGCAGAAAAAGGTCGA -TGCCGCCAGCGTACAGCTGGATGACAAACAGCGCACCATCATCATGCAATGGTTTATGTATGGCGGTGGCGTGCTGGGGC -TTGGCTTGCTGCTCGGTCTGGTACTGCCGCACCTGATCCCAAGCCGCAAACGCAAAGATCGCTGGATGAACTAAATCGCC -TTCTTCGTTGCACTGTCTTATTATTAGGAATTGTGTATTTGACGAAGGGATGATGGCGTGAAGATTTATCTGGTCGGTGG -TGCTGTTCGGGATGCATTGTTAGGGCTACCGGTCAAAGACAGAGATTGGGTGGTGGTCGGCAGTACGCCACAGGAGATGC -TCGACGCGGGCTACCAGCAGGTAGGCCGCGATTTTCCTGTGTTTCTGCATCCGCAAACGCATGAAGAGTATGCGCTGGCA -CGTACCGAACGGAAATCCGGTTCCGGTTACACCGGTTTTACTTGCTATGCCGCACCGGATGTCACGCTGGAAGATGATCT -TAAGCGTCGCGATCTGACCATTAATGCGCTGGCCCAGGACGATAACGGCGAGATTATCGACCCGTACAACGGTCTGGGCG -ATCTGCAAAATCGTCTGTTGCGCCATGTTTCCCCCGCTTTTGGCGAAGATCCGTTACGCGTATTGCGCGTGGCGCGTTTT -GCTGCGCGTTATGCCCACCTCGGTTTTCGTATTGCCGATGAAACTCTGGCGTTGATGCGCGAGATGACCCATGCGGGTGA -ACTGGAACACCTGACGCCTGAACGGGTATGGAAAGAGACGGAAAGCGCCCTCACCACCCGCAATCCACAGGTGTTCTTCC -AGGTACTGCGCGATTGCGGCGCACTGCGCGTTTTATTCCCGGAAATTGACGCACTGTTTGGCGTTCCGGCCCCTGCCAAG -TGGCATCCGGAAATCGATACGGGTATTCATACCTTAATGACGCTCTCAATGGCGGCGATGCTGAGTCCGCAGGTCGATGT -CCGTTTCGCAACTTTATGCCACGATCTCGGTAAAGGGCTGACGCCGCCAGAACTCTGGCCGCGTCATCATGGTCATGGCC -CGGCGGGTGTTAAGTTAGTGGAACAACTATGCCAGCGTCTGCGCGTGCCAAATGAAATTCGCGATTTAGCCAGACTGGTG -GCTGAGTTTCACGATCTCATCCACACCTTCCCAATGCTGAACCCAAAAACCATCGTCAAATTATTTGATTCCATCGATGC -CTGGCGTAAACCGCAGCGTGTCGAGCAACTGGCGCTGACCAGCGAGGCTGACGTGCGCGGCAGAACCGGTTTTGAATCAG -CGGACTACCCGCAAGGCCGCTGGTTGCGCGAAGCCTGGGAAGTGGCGCAGTCAGTGCCGACAAAAGCCGTCGTTGAAGCG -GGATTTAAAGGTGTGGAGATTCGCGAGGAGCTGACCCGACGGCGGATTGCGGCGGTAGCCAGCTGGAAGGAACAACGTTG -CCCAAAGCCTGAATGAGTATTGGGCATTTTGCCGGATGCGGCGTAAACGCCTTATCCGGCTACATGTCAACGACAGTTGT -AGGCCTGATAAGACGCGCAAGCGTCGCATCAGGCGTTGATTGCCGGATGCGGCGTGAACGCCTTATTCGGCCTACGCAAT -CGTTGACAACGCCAAGCATCCGACACTATTCCTCAATTAAAAGAACACGACATACACCGCAGCCGCCACAATAAAGCGAT -AAATGGCGAACGGGATAAACGAAATGCGCTTAATCAATTGCAGGAAGGTTTTAATCGCTATCAGCGCCACCACAAAAGCG -GTGATAAACCCAACGGCAAACATCGGGATATCGCCGCTTGTCAGGAAGCCCCAGCTTTTGTAGAGATCGAGCGCCGTTGC -GCCCATCATCATCGGCACCGCCAGCAGGAACGAAAACTCGGAAGCAGCGTAACGGCTCACCCCCATCAGCATCCCACCTG -AAATGGTCGCCCCGGAACGGGAGAAACCCGGCCACAGCGCCAGACACTGGAAACAGCCAATCATAAATGCCTGACGATAG -GTCATATCATCAAGACCCGGCGCACGCGGCTCTTTCGGCTTCAGGCATTCGGCGGCAATCAGCAACAAACCGCCAACGAC -CAGCGCATACATCACATTTATCGGGTTAAACAATGACTTAATCGTGTCGTGGAACAACAGCCCCAATACCACCGCCGGAA -TCATCCCCAGCAAAATGTGGATCAGCGTTAAACGACCTTTGCTTTCACCTTCGTGCTGCAACGGGCGGCCAAAGTGGATG -CCAATCAGGCCAAACAGACGCCGCCAGAACATCACTACTACCGCCAGAATTGATCCTAACTGGATCACAACTTCAAAGGT -TTTCGCCGTGTCGCCCTCAAACCCCAACAAGTGACCGACAATAATCATATGGCCCGTGCTGGATACCGGCAGAAATTCTG -TCAATCCTTCGACCACACCCAATATTGCCGCTATCAGCAGCGAGTGCATATCGCTCATCAATAAACCCCTAAATTATTAA -AATGTACCGCTTGTCCGAACTACTGCGTATGACCAGGTTATAACCGTTTGGTTTAACAGCTGTAAAATTAATTATTTTCT -TTCAGATTATTGCCACGCTCAATGATTACGCCAACATTCGCCGCCCGCGCCACTGCGCCTGGCTTGCTGAGTTTGATACG -CACCCACGGCGAGTTGAAGCGTGCTAACAGCAGCTCCGCCACCTCTTCAGCCACGCGTTCCACCAGCGCAAAACGCGCCC -CCTCGACGTGGCTGACCACCGTTTCTGCAATGTCAGCGTAACTGAGGCAATCCGCCACATCATCACTTTTCGCCGCTTTA -CGGTTATCCCACGCCATTTCGATATCGAACACTAACTTCTGTTCGATGGTCTGTTCCCAGTCGTAAACACCAATAGTGGT -GATTACCGAAAGTTGCTCTATAAATACAATATCCATCACGTCCTGCCTGCTTTTTGGCTAACCGGATACCACTTCCGGCG -AAATGTGCGTATTATCCACAGATTCATCGTTGAACACGAATTTTCAAAACGGAACAGCTTATGAGTGCAATCGCGCCTGG -AATGATCCTCATCGCGTACCTCTGCGGCTCCATTTCCAGTGCCATTCTGGTTTGCCGCTTGTGTGGGCTGCCCGATCCGC -GAACCAGCGGCTCCGGCAATCCAGGCGCAACCAATGTGTTACGTATCGGTGGCAAGGGAGCAGCCGTAGCAGTACTGATT -TTCGACGTTCTGAAAGGAATGTTGCCCGTCTGGGGCGCGTATGAATTAGGTGTCAGCCCCTTCTGGCTAGGCTTAATTGC -CATCGCCGCCTGTCTTGGACACATCTGGCCCGTTTTCTTCGGATTTAAAGGAGGAAAAGGCGTTGCTACCGCTTTTGGTG -CCATCGCACCCATTGGCTGGGATCTCACCGGAGTAATGGCGGGAACCTGGTTACTGACCGTGCTATTGAGCGGATACTCG -TCGCTGGGAGCGATTGTCAGTGCACTGATTGCTCCGTTTTATGTCTGGTGGTTTAAGCCACAATTCACCTTCCCGGTTTC -GATGCTCTCTTGCCTGATCCTGCTGCGTCATCATGACAACATCCAACGTCTGTGGCGTCGTCAGGAGACAAAAATCTGGA -CGAAATTCAAAAGAAAGCGCGAAAAGGATCCCGAGTGATTTCTGGTGGATCTACATGACCTGATAGCCTTCATCGGGCTT -GCCCAGCCGTTGCTGGCACCATGCCGCCAGAAATTCCACGCAGACACGTAATTTCATGCTGCGATAGAGCGGCTCCCGGT -AAACAGCCCAGATATTGGCGCTTTGTGCATACTCTGGCAATACTTGCACCAGTTTGCCACTCTCCAGAAACGGCAACACA -TCCCACTCGGAACGCAGCATAATCCCTTTGCCCTCCAGCGCCCATTGCAGCACAATCTCGCCGCTATTGGAGGAAAGATG -CCCGCTTACCTTCACCGATTTTTTCTCCTGACCGTTCCCCAACTCCCATATTCCATGGGTCATATCGCGCTCTTTGGTCA -CCAGACAGTCATGACGACTTAATTCCTGTAGGGATTGTGGCTGCGGATATTTTTGCAGATACTCAGGTGCTGCGCATAAT -ATTCTTTTATTTTTTGTCAAAAGATGCGCAATATAATAATCAGGAATTTCGTCATTAATACGAATATCCAGATCAATATT -ATCCTGCACTAAATCAATTTGCCGATCGAACAATTCAAAATGCACCTGTAACTCAGGATAATTGCGCATCAGTTCGGTAA -TAGCTGGCGCAATATGGCTGCGCCCAAAACCAAAACTGCAACCAATACGAATCATCCCCTCCGGGCGCGTTTTGATTTGC -GTGACGTCATCGACCAGTCGCTGATATTGGGTGAGGATTTCCAACGCATGTTCGTAACAACGTTGGCCACTTTCAGTCAG -CGCCACGCCGCGAGCGGAGCGGTTCAGCAGCGTTGTTGCCAGCGTATTTTCAAGGATTTGGATCCGCTTGGTGACAAATG -CAGGCGTCTGCCCAAGCGTCGCCGCTGCGGCGCTAAAACTCCCGCTGTGAACGATTTCTACCAGTACCTGCAAGTCTTTG -GCTAAAGGCCAGCTATTCAGCATCGTTAATTATCCGCAGTTGTGATAAGCGCAGTGTATTTCGCAAAACATTGCCATTCC -CTGCTCTGGCGCAATATTCATTCTTATTTTCGCGTTGATTCACGAACTGTTAATTACATATTCACGGTGGCAAAAAATAT -AAAACCACATTTTTAGTGGTAGTTTGTGGCGGTGAATTTTTCCAGACAAATACAAAAACTGGAGTTGCCATGATGAGCGA -AAGTAATAAGCAACAGGCAGTGAATAAGTTGACAGAGATTGTCGCTAACTTTACCGCCATGATTTCTACCCGAATGCCTG -ATGACGTGGTGGATAAACTAAAACAGCTAAAGGATGCCGAAACGTCGTCGATGGGGAAAATTATCTACCATACGATGTTC -GACAACATGCAAAAAGCGATTGACCTGAATCGTCCTGCCTGTCAGGACACCGGGGAGATTATGTTCTTCGTTAAAGTCGG -TTCCCGCTTCCCACTGCTTGGCGAGCTGCAAAGCATACTCAAACAAGCCGTGGAAGAGGCAACCGTCAAAGCGCCACTAC -GTCACAATGCGGTAGAAATTTTTGACGAAGTAAACACCGGCAAAAATACCGGTAGCGGCGTACCGTGGGTCACCTGGGAC -ATCATCCCCGACAATGACGATGCGGAAATCGAAGTTTACATGGCAGGCGGCGGCTGCACGCTACCTGGCCGCTCGAAAGT -GTTAATGCCGTCAGAAGGCTACGAAGGCGTGGTGAAATTCGTCTTCGAAAATATCTCCACCCTCGCCGTAAACGCCTGTC -CACCGGTACTGGTGGGCGTGGGCATCGCCACCTCGGTGGAAACCGCCGCCGTACTCTCGCGTAAAGCCATTTTGCGCCCG -ATTGGCAGCCGCCATCCCAATCCAAAAGCGGCAGAACTGGAGCTACGCCTGGAAGAAGGACTCAACCGTCTGGGGATTGG -TCCACAAGGGCTGACCGGCAACAGTTCAGTGATGGGCGTACATATCGAATCTGCCGCCCGCCATCCGTCAACCATCGGCG -TTGCTGTCTCTACCGGCTGCTGGGCGCATCGTCGCGGCACGCTGCTGGTTCATGCCGATCTCACCTTTGAAAATCTGTCT -CACACCCGGAGCGCGTTATGAAAAAGATCCTGACAACCCCGATCAAAGCTGAAGATCTGCAAGATATTCGCGTCGGCGAT -GTGATCTACCTGACCGGTACGCTGGTGACCTGCCGCGACGTTTGTCACCGCCGTTTGATCGAACTGAAACGTCCGATCCC -TTACGATCTCAACGGCAAAGCGATTTTCCACGCTGGCCCCATCGTGCGCAAAAACGGCGACAAATGGGAGATGGTCTCCG -TCGGCCCGACAACCAGTATGCGTATGGAAAGTTTTGAACGTGAATTTATTGAGCAGACCGGCGTGAAACTGGTGGTTGGC -AAAGGTGGTATGGGGCCGCTGACCGAAGAAGGCTGCCAGAAATTCAAGGCGCTACATGTGATTTTCCCGGCAGGCTGCGC -GGTGCTGGCGGCAACCCAGGTGGAAGAGATTGAAGAAGTGCACTGGACAGAGCTCGGAATGCCGGAGTCACTGTGGGTCT -GCCGGGTCAAAGAGTTCGGCCCGCTGATTGTCTCTATTGATACCCACGGCAACAACCTGATAGCCGAAAACAAAAAGCTG -TTCGCCGAACGCCGCGATCCCATCGTGGAAGAGATCTGCGAGCACGTCCATTACATCAAATAACCCTCCCGGAGAGGCTC -ACCCCTCTCCTTTTTCGCAGGCATAACACGATGAAACCTTCCACTGAATGGTGGCGATATCTTGCGCCGCTGGCGGTCAT -CGCCATTATTGCTCTACTTCCGGTTCCCGCAGGGCTGGAGAACCATACCTGGCTCTACTTTGCCGTTTTTACTGGCGTGA -TCGTTGGACTGATCCTCGAACCCGTGCCGGGTGCCGTGGTGGCGATGGTGGGTATATCCATCATCGCCATACTCTCTCCC -TGGCTGCTGTTCAGCCCGGAGCAGCTCGCTCAGCCAGGCTTTAAATTCACTGCAAAATCCCTCTCGTGGGCCGTTTCCGG -TTTTTCTAATTCGGTTATCTGGCTGATTTTCGCCGCCTTTATGTTTGGCACAGGCTATGAAAAAACCGGGCTTGGACGCC -GCATTGCGCTGATTCTGGTGAAAAAGATGGGACATCGCACGCTGTTTCTCGGCTATGCGGTGATGTTCTCCGAGCTGATC -CTCGCACCTGTAACACCGTCCAACTCGGCGCGTGGTGCGGGGATTATCTATCCCATCATCCGTAACCTGCCACCGCTCTA -TCAATCACAACCAAACGACAGCAGTTCGCGCAGCATTGGCTCGTACATCATGTGGATGGGGATTGTTGCCGACTGCGTGA -CCAGCGCCATTTTCTTGACGGCGATGGCACCAAACTTGCTGTTAATTGGACTGATGAAAAGCGCATCTCACGCCACGCTG -AGTTGGGGCGACTGGTTCCTCGGGATGTTGCCGCTCAGCATTTTACTGGTTCTGCTGGTTCCCTGGCTGGCTTACGTGCT -GTACCCGCCGGTACTGAAGTCTGGCGATCAGGTGCCGCGCTGGGCAGAGACGGAACTGCAGGCAATGGGCCCGCTCTGTT -CGCGTGAAAAACGGATGCTGGGGCTGATGGTAGGCGCGCTGGTGCTGTGGATTTTCGGCGGTGATTATATCGATGCCGCG -ATGGTCGGTTACAGCGTGGTGGCACTGATGCTGCTTCTGCGCATTATCAGTTGGGACGACATTGTCAGTAATAAAGCGGC -GTGGAACGTTTTCTTCTGGCTGGCCTCGCTTATCACCCTCGCCACCGGACTCAACAACACCGGTTTTATTAGCTGGTTTG -GCAAACTGTTAGCAGGCAGCTTAAGCGGTTATTCGCCAACGATGGTGATGGTGGCGTTGATTGTGGTGTTTTATCTACTG -CGCTACTTTTTCGCCAGCGCCACGGCGTATACCTCCGCTCTCGCACCGATGATGATTGCTGCTGCGCTGGCGATGCCGGA -AATCCCGCTGCCGGTGTTCTGCCTGATGGTTGGTGCGGCAATTGGTCTGGGGAGCATTCTTACACCATACGCCACCGGCC -CCAGTCCGATTTACTACGGCAGTGGTTATCTGCCAACGGCGGATTACTGGCGACTGGGGGCGATTTTTGGGCTGATATTC -CTCGTATTGCTGGTGATTACCGGCTTACTGTGGATGCCCGTGGTGTTGCTTTAAGTGAGGACGGTGCCGGAAATTGCTCT -CCGGCACCCAATAGTTTTACGCAGCCGGTAACTCCGCCAGCGGCCAGCGCGGACGCACGCTAACGCCGAGATCCGCCGTC -GCGCCTGCTTTAAACCGCACCATTCCGGCATAGGCGATCATCGCGCCGTTATCAGTACAAAATTCCGGACGCGCGTAGAA -CACTTCGCCGCGGCGTTTTTTCATCATTTCAGCCAGCTTCGCCCGTAACGTACGGTTAGCACTCACGCCGCCCGCCATGA -CCAGTCGCTTAAAGCCCGTCTGATCCAGCGCCCGCTTGCACTTAATCATCAGCGTATCGACCACCGCATCTTCAAAGGCG -CGGGCGATATCAGCACGCGTCTGGTCGTCGGTGCCGTTGTCACGAATGGTATTTGCCGCGAAGGTTTTCAGGCCGGAGAA -GCTGAAATCCAGCCCCGGACGGTCGGTCATCGGACGCGGGAAGACAAAGCGCCCGGCAGTACCCTGAGCCGCCATTTTCG -ACAGTAACGGCCCGCCAGGATAATCCAGCCCCAGCAGCTTCGCGGTTTTATCAAACGCTTCCCCGGCGGCATCATCGATA -GACTCGCCGAGCAGCTCGTACTGACCAATGCCAGTCACGCTGATTAACTGCGTATGACCGCCGGAAACAAGCAGCGCAAC -AAACGGAAATTCCGGCGGGTTATCTTCCAGCATCGGCGCTAACAGATGCCCTTCCATATGGTGTACAGGGATCGCCGGAA -CGTCCCAGGCAAACGCCAGAGAACGCCCCACGGTCGCGCCAACCAGTAGCGCGCCGACTAATCCAGGGCCTGCGGTATAG -GCCACAGCATCAATGTCTTTTGCCGTTAAACCAGACTCCTTTAGCGCCGCCTGGATCAACGGTACGGTTTTACGCACATG -ATCGCGGGAGGCCAGTTCAGGCACGACGCCGCCGTAGTCAGCGTGCAATTTCACCTGACTATACAATTGGTTGGCTAACA -AACCTTTTTCATCGTCGTAAATGGCGATGCCGGTTTCATCGCAGGAAGTTTCAATACCCAGTACACGCATGACTTGTTTT -ACCTCGCTTTATTACCGCGCAGTGTAGGACCAATGCGGGTTGATGTAAAACTTTGTTCGCCCCTGGAGAAAGCCTCGTGT -ATACTCCTCACCCTTATAAAAGTCCCTTTCAAAAAAGGCCGCGGTGCTTTACAAAGCAGCAGCAATTGCAGTAAAATTCC -GCACCATTTTGAAATAAGCTGGCGTTGATGCCAGCGGCAAACCGAATTAATCAAAGGTGAGAGGCACATGCCGGTAATTA -AAGTACGTGAAAACGAGCCGTTCGACGTAGCTCTGCGTCGCTTCAAGCGTTCCTGCGAAAAAGCAGGTGTTCTGGCGGAA -GTTCGTCGTCGTGAGTTCTATGAAAAACCGACTACCGAACGTAAGCGCGCTAAAGCTTCTGCAGTGAAACGTCACGCGAA -GAAACTGGCTCGCGAAAACGCACGCCGCACTCGTCTGTACTAATTCCCCGAGAGCGTTGCTCTCCGATCAGACCGAGTTG -TAGTTGTAAGGCCGTGCTTCCGAAAGGAATGCGCGGCTTATTTTCGTTTATGAATTGCTAAAAATCGGGGCCTATGGCTG -GACGAATCCCACGCGTATTCATTAATGATCTGCTGGCACGCACTGACATCGTCGATCTGATCGATGCCCGTGTGAAGCTG -AAAAAGCAGGGCAAGAATTTCCACGCGTGTTGTCCATTCCACAACGAGAAAACCCCGTCCTTCACCGTTAACGGTGAGAA -ACAGTTTTACCACTGCTTTGGATGTGGCGCGCACGGCAACGCGATCGACTTCCTGATGAACTACGACAAGCTCGAGTTCG -TCGAAACGGTCGAAGAGCTGGCAGCAATGCACAATCTTGAAGTGCCATTTGAAGCAGGCAGCGGCCCCAGCCAGATCGAG -CGCCATCAGAGGCAAACGCTTTATCAGTTGATGGACGGTCTGAATACGTTTTACCAACAATCTTTACAACAACCTGTTGC -CACGTCTGCGCGCCAGTATCTGGAAAAACGCGGATTAAGCCACGAGGTTATCGCTCGCTTTGCGATTGGTTTTGCGCCCC -CCGGCTGGGACAACGTCCTGAAGCGGTTTGGCGGCAATCCAGAAAATCGCCAGTCATTGATTGATGCGGGGATGTTGGTC -ACTAACGATCAGGGACGCAGTTACGATCGTTTCCGCGAGCGGGTGATGTTCCCCATTCGCGATAAACGCGGTCGGGTGAT -TGGTTTTGGCGGGCGCGTGCTGGGCAACGATACCCCCAAATACCTGAACTCGCCGGAAACAGACATTTTCCATAAAGGCC -GCCAGCTTTACGGTCTTTATGAAGCGCAGCAGGATAACGCTGAACCCAATCGTCTGCTTGTGGTCGAAGGCTATATGGAC -GTGGTGGCGCTGGCGCAATACGGCATTAATTACGCCGTTGCGTCGTTAGGTACGTCAACCACCGCCGATCACATACAACT -GTTGTTCCGCGCGACCAACAATGTCATTTGCTGTTATGACGGCGACCGTGCAGGCCGCGATGCCGCCTGGCGAGCGCTGG -AAACGGCGCTGCCTTACATGACAGACGGCCGTCAGCTACGCTTTATGTTTTTGCCTGATGGCGAAGACCCTGACACGCTA -GTACGAAAAGAAGGTAAAGAAGCGTTTGAAGCGCGGATGGAGCAGGCGATGCCACTCTCCGCATTTCTGTTTAACAGTCT -GATGCCGCAAGTTGATCTGAGTACCCCTGACGGGCGCGCACGTTTGAGTACGCTGGCACTACCATTGATATCGCAAGTGC -CGGGCGAAACGCTGCGAATATATCTTCGTCAGGAATTAGGCAACAAATTAGGCATACTTGATGACAGCCAGCTTGAACGA -TTAATGCCAAAAGCGGCAGAGAGCGGCGTTTCTCGCCCTGTTCCGCAGCTAAAACGCACGACCATGCGTATACTTATAGG -GTTGCTGGTGCAAAATCCAGAATTAGCGACGTTGGTCCCGCCGCTTGAGAATCTGGATGAAAATAAGCTCCCTGGACTTG -GCTTATTCAGAGAACTGGTCAACACTTGTCTCTCCCAGCCAGGTCTGACCACCGGGCAACTTTTAGAGCACTATCGTGGT -ACAAATAATGCTGCCACCCTTGAAAAACTGTCGATGTGGGACGATATAGCAGATAAGAATATTGCTGAGCAAACCTTCAC -CGACTCACTCAACCATATGTTTGATTCGCTGCTTGAACTGCGCCAGGAAGAGTTAATCGCTCGTGAGCGCACGCATGGTT -TAAGCAACGAAGAACGCCTGGAGCTCTGGACATTAAACCAGGAGCTGGCGAAAAAGTGATTTAACGGCTTAAGTGCCGAA -GAGCGATCGGGAAGCCCCCGACAGCCGCACTGAGAGGCAGCGGCAAATATATAAGTACGCCCTCGTAATTATCGTTGGCG -GTAAACAACCGTTGGATTTCAGCGTTAACGGCTGAAGGACATCGGGTCAATCGCCCAACACCAACCTCATGAAATAAGTG -TGGATACCGTCTTATGGAGCAAAACCCGCAGTCACAGCTGAAACTTCTTGTCACCCGTGGTAAGGAGCAAGGCTATCTGA -CCTATGCCGAGGTCAATGACCATCTGCCGGAAGATATCGTCGATTCAGATCAGATCGAAGACATCATCCAAATGATCAAC -GACATGGGCATTCAGGTGATGGAAGAAGCACCGGATGCCGATGATCTGATGCTGGCTGAAAACACCGCGGACGAAGATGC -TGCCGAAGCCGCCGCGCAGGTGCTTTCCAGCGTGGAATCTGAAATCGGGCGCACGACTGACCCGGTACGCATGTACATGC -GTGAAATGGGCACCGTTGAACTGTTGACCCGCGAAGGCGAAATTGACATCGCTAAGCGTATTGAAGACGGGATCAACCAG -GTTCAATGCTCCGTTGCTGAATATCCGGAAGCGATCACCTATCTGCTGGAACAGTACGATCGTGTTGAAGCAGAAGAAGC -GCGTCTGTCCGATCTGATCACCGGCTTTGTTGACCCGAACGCAGAAGAAGATCTGGCACCTACCGCCACTCACGTCGGTT -CTGAGCTTTCCCAGGAAGATCTGGACGATGACGAAGATGAAGACGAAGAAGATGGCGATGACGACAGCGCCGATGATGAC -AACAGCATCGACCCGGAACTGGCTCGCGAAAAATTTGCGGAACTACGCGCTCAGTACGTTGTAACGCGTGACACCATCAA -AGCGAAAGGTCGCAGTCACGCTACCGCTCAGGAAGAGATCCTGAAACTGTCTGAAGTATTCAAACAGTTCCGCCTGGTGC -CGAAGCAGTTTGACTACCTGGTCAACAGCATGCGCGTCATGATGGACCGCGTTCGTACGCAAGAACGTCTGATCATGAAG -CTCTGCGTTGAGCAGTGCAAAATGCCGAAGAAAAACTTCATTACCCTGTTTACCGGCAACGAAACCAGCGATACCTGGTT -CAACGCGGCAATTGCGATGAACAAGCCGTGGTCGGAAAAACTGCACGATGTCTCTGAAGAAGTGCATCGCGCCCTGCAAA -AACTGCAGCAGATTGAAGAAGAAACCGGCCTGACCATCGAGCAGGTTAAAGATATCAACCGTCGTATGTCCATCGGTGAA -GCGAAAGCCCGCCGTGCGAAGAAAGAGATGGTTGAAGCGAACTTACGTCTGGTTATTTCTATCGCTAAGAAATACACCAA -CCGTGGCTTGCAGTTCCTTGACCTGATTCAGGAAGGCAACATCGGTCTGATGAAAGCGGTTGATAAATTCGAATACCGCC -GTGGTTACAAGTTCTCCACCTACGCAACCTGGTGGATCCGTCAGGCGATCACCCGCTCTATCGCGGATCAGGCGCGCACC -ATCCGTATTCCGGTGCATATGATTGAGACCATCAACAAGCTCAACCGTATTTCTCGCCAGATGCTGCAAGAGATGGGCCG -TGAACCGACGCCGGAAGAACTGGCTGAACGTATGCTGATGCCGGAAGACAAGATCCGCAAAGTGCTGAAGATCGCCAAAG -AGCCAATCTCCATGGAAACGCCGATCGGTGATGATGAAGATTCGCATCTGGGGGATTTCATCGAGGATACCACCCTCGAG -CTGCCGCTGGATTCTGCGACCACCGAAAGCCTGCGTGCGGCAACGCACGACGTGCTGGCTGGCCTGACCGCGCGTGAAGC -AAAAGTTCTGCGTATGCGTTTCGGTATCGATATGAACACCGACTACACGCTGGAAGAAGTGGGTAAACAGTTCGACGTTA -CCCGCGAACGTATCCGTCAGATCGAAGCGAAGGCGCTGCGCAAACTGCGTCACCCGAGCCGTTCTGAAGTGCTGCGTAGC -TTCCTGGACGATTAATCGGTAGGCCGGATCAGGCGTTACGCCGCACCCGGCACTAGGCCCTCTGCACAAACGCCACCTTT -TCGGTGGCGTTTTTTATCGCCCACGCACTACCAGCGCCTGGTCCAGCTCGCGATACGCTTCAACCAGTTTCTCCAGTGAA -ACGCGACTTAAACCGCTGGGATTTGGCAGCACCCAAATCTGCGTCGAACCAATGGTGAGCGTTTGTTTCCCCCACTGTGC -ACCGCGCTGGCTGAATCCCTGTTCATATGCTTGTTTGCCCAGAATCGCCAACGCCTGCGGCTGATAATCTTCAATTTTTT -CAATCAGCTTACGCCCGCCTGCGTGTAGCTCCTGCTTTGAAACTTCATTGGCTTGCACCGTTGGACGGTCTACCAGTTTG -GTGACGCCACAACGATAATCCAGCAGATGCTGTGCCTCCTGCGGCTTCAACTGACGGTCGGTAAACCCGGCCTGATATAT -CACCTTCCAGAAGCGATTTGCCGGATGAGCAAAGGGAAAACCAGTCCCGGCGGATGAAAGCCCAGGGTTGATACCGCAAA -ACACGACCCGTAACCCTGGAGCCAAAATATCCTCAACCATATTTACTCCTTTCTAACATCACCAGGAAAAGTATAACGGA -TTGAAAATACATTGTTTATAAAAACAGCAGGCGCGCGGTAATGGCTGGATTGCGACACGGAGTTACTTTATAATCCGCTA -CCATGGCCCCTTAGCTCAGTGGTTAGAGCAGGCGACTCATAATCGCTTGGTCGCTGGTTCAAGTCCAGCAGGGGCCACCA -GATATAGCAAAGGCTGACGAGAAATCGTCAGCCTTTTTCTTTTTATATATCAGTTACTTTGCGTGCCAGTAAGCCGCTGC -ACGTACCCGCTGTGGGTCATACTGTTCCGCTTCAAAGCGGCGGCTTAAATTCTTAACGACTTTACCTTCGCCGGTTATCC -AGATGAAGTAATCATCGGCAGGGATTTGCATCTGCGCCAGACGCGCATCTACCGCCTGCTCATCATGTGCCAGCCATTCG -ATATTAAAACCATCAAGGTGCGCGAGATAATCCTGACAGGCGTTATCCCGCACGCTAACCAGCGCACTAACTTGCGGTTT -AACGGCAAGTTTGCTCAACGTTTCCAGGCGGCGGCGCAATGCAGGCATTCCGGATTCATCGCAGACATACAGCTGATACG -CGTAATCTTCCGGCACCACCAGCGAACCGCGCGGACCTGCCACCGTAAGTTTATCGCCCGGTTGCGCCTGCATCGCCCAG -CCGCTGGCGACCCCACCGTCGTGAATAAAGAAATCAATCGCCAGTTCATGGCGTAGTTCGTCATACAGCGGCGTATAGTC -ACGCGACGGTGGGCGTGGTCCTTCCGGCCAGACGATGCCCTCTTCCGTTACCGTTGGCGGCACAAAGTGAGCGTCAGGTT -GAGGAAAGAAGAGTTTGCTGTGATCGTCAAAGCCACGCGATGTAAAACCGTCCAGCGCCTCGCCGCCGAGGACAATGCGC -TGAAAACCGGCGCTGATGCGCTCAACGCGTAACACAGTCAGTTCACGGAAGCGCAGATCATTGCGAACGCGCTGCGGGTA -GCGGGGGGTGTTATTCATTGTTATCGCCTTCGTGATGGTAATCAGATATATCTAAATAAAACTCGCAAATGATAATGATT -GTTAATCATGATAAATGCAAGCGATTTGTAGAACTGATATGTCTATAGTCTGATAAGACGAACCGCCTCTTCTCAGGCAT -CATTACTCAACGCCGGATGCGGCGTGAACGCCTTATCCGGCCTACGTGTGAGATGAGTCCACGTTTAAAAATCATTTTTA -CACTTGCAAGAACGCTCATATCAGATATAAATTAGATATATCTAATTAAGCAAAAGGAGGCTGATATGAGCCATCATCAC -GAAGGGTGTTGTAAACATGAAGGCCAGCCACGCCATGAGGGCTGCTGCAAAGGTGAGAAGTCAGAACACGAGCACTGCGG -ACACGGTCACCAGCATGAACACGGTCAATGCTGCGGTGGTCGCCACGGTCGCGGCGGCGGTCGTCGGCAACGTTTCTTTG -GTCACGGTGAATTACGTCTGGTGATTCTGGATATTCTCTCGCGCGATGACAGCCACGGTTACGAATTGATTAAAGCGATT -GAGAATCTAACCCAGGGGAATTACACCCCAAGCCCGGGCGTCATCTACCCAACGCTGGATTTTCTGCAGGAGCAGTCGCT -GATTACCATCCGCGAAGAGGAAGGAGGTAAGAAGCAGATTGCGCTGACCGAACAAGGCGCGCAGTGGCTGGAAGAAAACC -GCGAACAGGTGGAGATGATTGAAGAACGCATCAAAGCGCGTTGCGTTGGCGCGGCGCTGCGCCAGAACCCGCAAATGAAG -CGGGCGCTGGATAATTTTAAAGCGGTGCTGGATTTACGCGTCAACCAGAGCGATATCAGTGATGCACAAATAAAAAAGAT -CATTGCGGTGATCGACCGCGCCGCTTTTGATATTACGCAACTGGATTAATCGCCGCATCCGCCAGTGGCGCGGTGCAATT -GCCGGATGCGACGCTTGACGCGCCTTATCCGGCCTACACCCGCTACACACCCCGCAGGCCTGATAAGATGCGCCAGCATC -GCATCAGGCATTGTGCTCCAACCGCCGGATCCGGCATACCGATTAATGCAGTACCGTCACCGCGTCTTCCAGTCGGCTGG -CGCGGTGTTTCACCATCGCCGACACCTGCGCACTCTCTTCCACCAGCTCGGCATTTTTCTGGGTGATCAGGTTAAGCTCA -TCCACTGCACGGGTCAGGCTGGAAAGCCCATCGGCCTGTTCCAGCGTTGAATGGCTAATCTGGGCGATCAACTGGGTGAC -GTTTTTCACCTGTGCCACAATATCTTCCATCGTCCGTCCGGCGGCGTGTACCTGCTGCGAACCGGATTGCACCTTATCAG -CACTGGCATCAATCAGCTTGCGAATATCGTTGGCAGCATTAGCGCTGCGGCTGGCTAAATGACGCACTTCCCCTGCCACC -ACTGCAAAACCTTTGCCCTGTTCGCCGGCACGCGCCGCTTCCACCGCCGCATTCAGGGCCAGAATATTGGTCTGAAACGC -AATATCGTTAATCAGCGAAGTAATGGTGCCAATGCGCTGGGTACTGTCGGCGATATCGTCCATTGTCTTGATCACCGTGG -TCATCGCCTCCCCACCCTGCACTGCCGCATTACTGGCAGTGATTGACAGTTTATCGGCAGCCGACGCCGTGGCAGAGTTC -TGTTTCACCGACGCCGCCATTTGGTTCATGGTCGCCACCGTTTGCTGAACGTTATCAACTGTCTGCTGGGTATGTTCGTT -CAGTTCATCGGTGCCTTTCGCCAGCGTCTCACTGCCATTTCTGACACTGGACACCTGGCTTGAGACATCGTTAATTAGCC -AACGGCACATCAGGCCAAGTTGCCCTACCGCACGTAATGTCAGCCCCAGCTCATCGCTGCGATTCAGATGCTCAACACTA -TTACGTTCTCCGGTCGCCACCTTCAGTGCCTGATGGGCAACATTTTCTATCGGGCGCACAATCTGCCATTCAAAACAGGC -GCTTGCCAACAATACCACTAACGCACAGAGGATATACGTCACCACCGGGGCAGCAACAAACCAAAGCATGGCCGCCAGCA -AGATAAACATCAGGGTCATCACTCCACGCGCCCGCCAGCGAAGCGGTAATGAAGGCAGTTTACCCAGCCAGCCTTTACGC -ACCACCAGGCCTTTATGAATACGCTTACTGGTACGTCCGGCGTTCAACGCTTTGTACAGCGGCTCCACCGCCGCGATCTC -TTCATCCGTCGCCCGGGTACGAATCGACATATAGCCACTGATTTTTCCCTCGCGCACCATCGGTACCGCATTGGCCCGCA -CCCAATAATGGTCACCATTTTTGCGGCGATTTTTCACGATGCCGCTCCAGGGCTCCCCTTTTTTCAGGGTGAACCACATA -TCCGCAAACGCCGCTTTTGGCATATCCGGGTGACGCACCATGTTGTGCGGCTGCCCTTGTAACTCTTGCAAGGTATAGCC -GCTCACCTGCACAAAAGTGTCATTAGCATGAGTGATATAGCTTTGCAGATCGGTAGTGGACATCAGAGTGGTATCGTCCG -CCAGCGGGGTATTTTGCTGGGTGACATACGGATGAGAAGACATGTTCGCGTCCTGTGCAGGTTATATGGTTGTTAACTTC -TTGTCAGAGTTTATGTCGGCCCCGCTGCGGTTATCTTTAACCGATTAATTTGATTTAGATCGCAATTTGCGATTTAAACA -CAAATCTAATTCCTTGATTTAAAATACTTTCACTCTGTTACTATACGAAAACGTTAATTATCTTGCCCAAAAATCAGGCA -ATTATTGCCCTGAAAACGTGCATTTGCGCAGCAATCATCAAATCCATACCCGACAAAAACCGTGCAAAATAACAACAAAT -GTTAACAGATAGCATTAAATATTGCACAAATGATAACCGAATTTGTGTTTATCCCGATTTTCGCGATCGCAGCCGGAGTG -GCGCAATCCCTGCAATACTTAAATCGGTATCATGTGATACGCGAGCCTCCGGAGCATATTTTGAACAGGTTACCTTCGAG -CGCATCGGCTTTAGCGTGCAGCGCCCACGCCCTGAATCTCATTGAGAAGCGAACGCTGGATCATGAGGAGATGAAAGCAC -TTAACCGAGAGGTGATTGAATACTTCAAAGAGCATGTCAATCCGGGGTTTTTAGAGTATCGCAAATCTGTTACCGCCGGC -GGGGATTACGGAGCCGTAGAGTGGCAAGCGGGAAGTTTAAATACGCTTGTCGACACCCAGGGCCAGGAGTTTATCGACTG -CCTGGGAGGTTTTGGAATTTTCAACGTGGGGCACCGTAATCCAGTTGTGGTTTCCGCCGTACAGAATCAACTTGCGAAAC -AACCGCTGCACAGCCAGGAGCTGCTCGATCCGTTACGGGCGATGTTGGCGAAAACCCTTGCTGCGCTAACGCCCGGTAAA -CTGAAATACAGCTTCTTCTGTAATAGCGGCACCGAGTCCGTTGAAGCAGCGCTGAAGCTGGCGAAAGCTTACCAGTCACC -GCGCGGCAAGTTTACTTTTATTGCCACCAGCGGCGCGTTCCACGGTAAATCACTTGGCGCGCTGTCGGCCACGGCGAAAT -CGACCTTCCGCAAACCGTTTATGCCGTTACTGCCGGGCTTCCGTCATGTGCCGTTTGGCAATATCGAAGCCATGCGCACG -GCTCTTAACGAGTGCAAAAAAACCGGTGATGATGTGGCTGCGGTGATCCTCGAACCGATTCAGGGTGAAGGTGGCGTAAT -TCTGCCGCCGCCGGGCTATCTCACCGCCGTACGTAAGCTATGCGATGAGTTCGGCGCACTGATGATCCTCGATGAAGTAC -AAACGGGCATGGGGCGCACGGGCAAGATGTTCGCCTGCGAGCATGAGAACGTACAGCCGGATATCCTCTGCCTTGCCAAA -GCGCTCGGCGGCGGCGTGATGCCGATTGGCGCGACCATCGCCACTGAAGAGGTGTTTTCAGTTCTGTTCGACAACCCATT -CCTGCATACCACCACCTTTGGCGGCAACCCGCTGGCCTGTGCGGCGGCGCTGGCGACCATCAATGTGTTGCTGGAGCAGA -ACTTACCGGCTCAGGCTGAGCAAAAAGGCGATATGTTGCTGGACGGTTTCCGTCAACTGGCGCGGGAATATCCCGATCTG -GTACAGGAAGCGCGTGGTAAAGGGATGTTGATGGCGATTGAGTTTGTTGATAACGAAATCGGCTATAACTTTGCCAGCGA -GATGTTCCGCCAGCGCGTACTGGTGGCCGGAACGCTCAATAACGCCAAAACGATCCGCATTGAACCGCCACTGACACTGA -CCATTGAACAGTGTGAACTGGTGATCAAAGCGGCGCGTAAGGCGCTGGCGGCCATGCGAGTAAGTGTCGAAGAAGCGTAA -TATCAAATCGGATGGCGATACGACGTCGCCATCCGATCTTTTTATACGACGCGTACGCCCGCAGGCATCATCCGCTCCGG -CGTTAACAGCACGCTTTCACTGCCGTCATCGGTTTCCGCACACAACAGCATGCATTCCGACGTTTCACCACGCATTTTCG -CTTTTTGCAGATTGCATAAGACCACCACCGTTTTCCCCATCAGCTCTTCTTCGCTGTAGTACGGCACCAGGCTGGTCACG -GTTTGCAGCGTTTTTTGCCCCACATCAACCTGTACGATGTACAGCTTGTCGGCGTTTTCATGGCGTTTCACTTCCACAAT -CTTTCCGACGCGCATTTCCAGACGTGCAAAATCAGCGTAAGCCACGGTTTCCATTGCTTCCTCCCTTAGGGTAAAATTTT -ACTAAACTATAGCAAAAGTTTTTCTCAATCCTGTAGGCTAAAAATGGAGAATGCAGGCGTGATCACATTCGTGAGCCGCT -GTGTTACCGTTACAGCGTCAAAGAAACGCGCTTTATTTACTGAAAACAGGTGACCCGATAAGCACTTCCTCTACAATGGG -GGCGCACATCAGGGAAAGTAAAAAAGGTAAACATGGCAACACTAAAAGACATCGCAATCGAAGCTGGCGTATCCCTGGCG -ACAGTATCCAGGGTCTTAAATGACGATCCGACATTGAATGTGAAAGAAGAGACGAAACATCGCATTCTCGAGATCGCCGA -AAAGCTGGAGTACAAGACCAGTAGTGCCCGTAAACTCCAGACAGGTGCAGTCAACCAACACCATATTCTGGCTATCTACA -GCTACCAGCAGGAGCTGGAGATCAACGATCCTTACTATCTGGCGATCCGCCACGGCATTGAAACCCAGTGCGAAAAGCTG -GGCATCGAGCTCACCAACTGTTATGAACACAGCGGCTTACCAGACATTAAAAACGTCACCGGTATTTTAATTGTCGGCAA -ACCCACGCCCGCCCTGCGCGCCGCTGCCAGCGCGTTGACCGACAATATCTGTTTTATCGACTTTCACGAACCCGGCAGCG -GTTACGATGCGGTGGATATCGATCTGGCACGCATCAGTAAAGAAATCATCGACTTCTATATCAACCAGGGCGTTAATCGT -ATTGGTTTTATTGGCGGTGAAGATGAGCCTGGCAAGGCGGATATTCGTGAGGTCGCCTTTGCGGAATATGGCCGACTGAA -ACAAGTGGTACGCGAAGAGGATATCTGGCGCGGCGGTTTTTCCAGTTCGTCGGGTTATGAACTGGCAAAACAAATGCTGG -CGCGGGAAGACTATCCGAAGGCACTGTTTGTTGCTTCCGATTCCATTGCTATCGGCGTACTGCGGGCAATTCATGAACGA -GGCCTGAACATCCCACAGGATATTTCGCTTATCAGCGTTAACGATATCCCCACCGCGCGATTTACCTTTCCGCCGCTCTC -CACCGTGCGCATCCATTCCGAGATGATGGGAAGTCAGGGCGTTAACCTGGTGTATGAAAAAGCCCGCGATGGTCGCGCGC -TGCCGCTGTTAGTCTTCGTTCCCAGCAAATTAAAACTGCGCGGCACGACCCGTTAAATCCCCTTACACACTGTCCGGCAA -TCGTTTTTGCCGGACAGTGCTGCCGTTTATTTTCGTGATCCAGTTAAAGTAAATGCATTTACCTGCTACTTTTTAGTAAA -AATTTTACTAAACTCCCCAGCAATTACACAAACTACCATCACCATGAATGGTTCCGATTTCTCTCTACCGGGAGGCCCTA -TGAATCGCTGGGAAAACATTCAGCTCACCCACGAAAACCGACTTGCGCCGCGTGCGTACTTTTTTTCATATGATTCTGTT -GCGCAAGCGCGTACCTTTGCCCGCGAAACCAGCAGCCTGTTTCTGCCCTTAAGCGGTCAGTGGAATTTCCACTTTTTTGA -CCATCCGCTGCAAGTACCAGAAGCCTTCACCTCTGAGTTAATGGCTGACTGGGGGCATATTACCGTCCCCGCCATGTGGC -AAATGGAAGGTCACGGCAAACTGCAATATACCGACGAAGGTTTTCCGTTCCCCATCGATGTGCCGTTTGTCCCCAGCGAT -AACCCAACCGGTGCCTATCAACGTATTTTCACCCTCAGCGACGGCTGGCAGGGTAAACAGACGCTGATTAAATTTGACGG -CGTCGAAACCTATTTTGAAGTCTATGTTAACGGTCAGTATGTGGGTTTCAGCAAGGGCAGTCGCCTGACCGCAGAGTTTG -ACATCAGCGCGATGGTTAAAACCGGCGACAACCTGTTGTGTGTGCGCGTGATGCAGTGGGCGGACTCTACCTACGTGGAA -GACCAGGATATGTGGTGGTCAGCGGGGATCTTCCGCGATGTTTATCTGGTCGGAAAACACCTAACGCATATTAACGATTT -CACTGTGCGTACCGACTTTGACGAAGCCTATTGCGATGCCACGCTTTCCTGCGAAGTGGTGCTGGAAAATCTCGCCGCCT -CCCCTGTCGTCACGACGCTGGAATATACCCTGTTTGATGGCGAACGCGTGGTGCACAGCAGCGCCATTGATCATTTGGCA -ATTGAAAAACTGACCAGCGCCAGCTTTGCTTTTACTGTCGAACAGCCGCAGCAATGGTCAGCAGAATCCCCTTATCTTTA -CCATCTGGTCATGACGCTGAAAGACGCCAACGGCAACGTTCTGGAAGTGGTGCCACAACGCGTTGGCTTCCGTGATATCA -AAGTGCGCGACGGTCTGTTCTGGATCAATAACCGTTATGTGATGCTGCACGGCGTCAACCGTCACGACAACGATCATCGC -AAAGGCCGCGCCGTTGGAATGGATCGCGTCGAGAAAGATCTCCAGTTGATGAAGCAGCACAATATCAACTCCGTGCGTAC -CGCTCACTACCCGAACGATCCGCGTTTTTACGAACTGTGTGATATCTACGGCCTGTTTGTGATGGCGGAAACCGACGTCG -AATCGCACGGCTTTGCTAATGTCGGCGATATTAGCCGTATTACCGACGATCCGCAGTGGGAAAAAGTCTACGTCGAGCGC -ATTGTTCGCCATATCCACGCGCAGAAAAACCATCCGTCGATCATCATCTGGTCGCTGGGCAATGAATCCGGCTATGGCTG -TAACATCCGCGCGATGTACCATGCGGCGAAAGCGCTGGATGACACGCGACTGGTGCATTACGAAGAAGATCGCGATGCTG -AAGTGGTCGATATTATTTCCACCATGTACACCCGCGTGCCGCTGATGAATGAGTTTGGTGAATACCCGCATCCGAAGCCG -CGCATCATCTGTGAATATGCTCATGCGATGGGGAACGGACCGGGCGGGCTGACGGAGTACCAGAACGTCTTCTATAAGCA -CGATTGCATTCAGGGTCATTATGTCTGGGAGTGGTGCGACCACGGGATCCAGGCACAGGACGACCACGGCAATGTCTGGT -ATAAATTCGGCGGCGACTACGGCGACTATCCCAACAACTATAACTTCTGTCTTGATGGTTTGATCTATTCCGATCAGACG -CCGGGACCGGGCCTGAAAGAGTACAAACAGGTTATCGCGCCGGTAAAAATCCACGCGCGGGATCTGACTCGCGGCGAGTT -GAAAGTCGAAAATAAACTGTGGTTTACCACGCTTGATGACTACACCCTGCACGCAGAGGTGCGCGCCGAAGGTGAAACGC -TCGCGACGCAGCAGATTAAACTGCGCGACGTTGCGCCGAACAGCGAAGCCCCCTTGCAGATCACGCTGCCGCAGCTGGAC -GCCCGCGAAGCGTTCCTCAACATTACGGTGACCAAAGATTCCCGCACCCGCTACAGCGAAGCCGGACACCCTATCGCCAC -TTATCAGTTCCCGCTGAAGGAAAACACCGCGCAGCCAGTGCCTTTCGCACCAAATAATGCGCGTCCGCTGACGCTGGAAG -ACGATCGTTTGAGCTGCACCGTTCGCGGCTACAACTTCGCGATCACCTTCTCAAAAATGAGTGGCAAACCGACATCCTGG -CAGGTGAATGGCGAATCGCTGCTGACTCGCGAGCCAAAGATCAACTTCTTCAAGCCGATGATCGACAACCACAAGCAGGA -GTACGAAGGGCTGTGGCAACCGAATCATTTGCAGATCATGCAGGAACATCTGCGCGACTTTGCCGTAGAACAGAGCGATG -GTGAAGTGCTGATCATCAGCCGCACAGTTATTGCCCCGCCGGTGTTTGACTTCGGGATGCGCTGCACCTACATCTGGCGC -ATCGCTGCCGATGGCCAGGTTAACGTGGCGCTTTCCGGCGAGCGTTACGGCGACTATCCGCACATCATTCCGTGCATCGG -TTTCACCATGGGAATTAACGGCGAATACGATCAGGTGGCGTATTACGGTCGTGGACCGGGCGAAAACTACGCCGACAGCC -AGCAGGCTAACATCATCGATATCTGGCGCAGCACCGTCGATGCCATGTTCGAGAACTATCCCTTCCCGCAGAACAACGGT -AACCGTCAGCATGTCCGCTGGACGGCACTGACTAACCGCCACGGTAACGGTCTGCTGGTGGTTCCGCAGCGCCCAATTAA -CTTCAGCGCCTGGCACTATACCCAGGAAAACATCCACGCTGCCCAGCACTGTAACGAGCTGCAGCGCAGTGATGACATCA -CCCTGAACCTCGATCACCAGCTGCTTGGCCTCGGCTCCAACTCCTGGGGCAGCGAGGTGCTGGACTCCTGGCGCGTCTGG -TTCCGTGACTTCAGCTACGGCTTTACGTTGCTGCCGGTTTCTGGCGGAGAAGCTACCGCGCAAAGCCTGGCGTCGTATGA -GTTCGGCGCAGGGTTCTTTTCCACGAATTTGCACAGCGAGAATAAGCAATGAGGATCATCGATAACTTAGAACAGTTCCG -CCAGATTTACGCCTCTGGCAAGAAGTGGCAACGCTGCGTTGAAGCGATTGAAAATATCGACAACATTCAGCCTGGCGTCG -CCCACTCCATCGGTGACTCATTGACTTACCGCGTGGAGACAGACTCCGCGACCGATGCGCTATTTACCGGGCATCGACGC -TATTTTGAAGTGCATTACTACCTGCAAGGGCAGCAAAAAATTGAATATGCGCCGAAAGAGACATTACAGGTAGTGGAATA -TTATCGTGATGAAACTGACCGTGAATATTTAAAAGGCTGCGGAGAAACCGTTGAGGTCCACGAAGGGCAAATCGTTATTT -GCGATATCCATGAAGCGTATCGGTTTATCTGCAATAACGCGGTCAAAAAAGTGGTTCTCAAAGTCACCATCGAAGATGGT -TATTTCCATAACAAATAACAACTACGGCGGCAAAAGGAGTTTGCCGCCACCGCTACCCTACTCATTTTCGGAGATGTGTT -ATGTCTGATACCAAACGTAATACAATCGGCAAATTCGGCTTGCTCTCGCTGACTTTTGCCGCCGTTTACAGCTTTAACAA -CGTTATCAATAATAATATTGAGCTTGGACTGGCCTCGGCACCGATGTTTTTCCTCGCGACGATTTTTTATTTTATTCCCT -TCTGTCTGATCATCGCAGAATTTGTTTCGTTAAATAAAAACTCAGAAGCCGGTGTCTACGCGTGGGTAAAAAGTTCGCTG -GGCGGACGTTGGGCATTTATTACTGCCTATACCTACTGGTTCGTAAACCTGTTCTTTTTCACCTCACTGTTGCCGCGCGT -TATTGCTTATGCTTCGTATGCCTTCCTCGGATACGAATATATTATGACGCCGGTTGCCACCACCATTATCAGTATGGTGC -TGTTCGCCTTCTCCACCTGGGTTTCCACCAACGGGGCGAAAATGTTGGGGCCAATTACCTCCGTCACTTCAACGCTGATG -CTGCTGTTAACGCTCTCCTACATTTTACTGGCAGGTACGGCGCTGGTTGGCGGCGTACAGCCTGCTGACGCCATCACCGT -TGACGCGATGATCCCGAACTTCAACTGGGCGTTCCTCGGCGTTACCACCTGGATCTTTATGGCCGCAGGTGGCGCGGAGT -CCGTCGCTGTGTACGTTAACGACGTCAAAGGCGGTTCGAAATCGTTCGTTAAAGTGATCATCCTCGCCGGGATTTTTATC -GGCGTACTGTATTCCGTCTCCTCGGTGCTGATTAACGTCTTCGTCAGCAGCAAAGAGTTGAAATTTACCGGCGGATCGGT -GCAGGTATTCCACGGCATGGCGGCGTATTTTGGTCTACCGGAAGCGTTGATGAATCGCTTTGTCGGTCTGGTGTCCTTTA -CCGCGATGTTCGGTTCCCTGCTGATGTGGACCGCAACGCCGGTGAAAATTTTCTTCTCCGAAATCCCGGAAGGCATCTTT -GGTAAGAAAACCGTCGAACTGAACGAAAACGGCGTTCCGGCGCGCGCAGCGTGGATCCAGTTCCTGATCGTCATCCCGCT -GATGATTATCCCGATGCTCGGTTCCAATACCGTGCAGGATCTGATGAATACTATTATTAATATGACCGCCGCAGCGTCCA -TGCTTCCGCCGTTATTCATCATGCTGGCTTACCTGAATTTACGCGCCAAATTAGATCACCTGCCACGCGATTTCCGTATG -GGCTCCCGCCGCACCGGTATTATCGTTGTTTCAATGCTGATTGCGATATTTGCCGTAGGGTTTGTCGCTTCGACATTCCC -GACTGGCGCGAATATTCTGACCATCATTTTTTATAACGTCGGCGGTATTGTTATCTTCCTTGGCTTTGCGTGGTGGAAAT -ACAGTAAATATATAAAGGGATTAACGGCTGAAGAGCGCCATATTGAAGCGACGCCAGCCAGCAATGTTGATTAAGCAGAA -TAATAAAAAATGAGCAGGCATTTTCCCTCTTCCTGGATGAGGAGAGGGAAAATAGTTTCTGCCTTTATATTTTTATAATT -ACAACGATAAAAGGCTGTACTTTTTCTTTAGCTCATGGATTAACACAATGAAATTAATCACTGCACCATGCAGAGCATTA -CTTGCTCTGCCGTTTTGCTACGCCTTTTCTGCGGCAGGAGAAGAAGCACGTCCGGCAGAACATGACGACACAAAAACACC -CGCAATTACCTCGACATCTTCTCCTTCATTTCGTTTTTACGGCGAATTAGGGGTTGGTGGATATATGGATTTAGAGGGTG -AGAATAAACATAAATACAGCGACGGTACCTATATTGAAGGTGGCCTGGAGATGAAGTACGGCTCCTGGTTCGGCCTGATT -TACGGCGAAGGCTGGACCGTGCAGGCCGACCACGACGGCAATGCCTGGGTGCCAGACCATAGCTGGGGTGGTTTCGAGGG -CGGAATTAACCGTTTCTATGGCGGTTATCGTACCAATGATGGCACCGAAATCATGCTCAGTCTGCGTCAGGATTCCTCGC -TGGATGACCTGCAATGGTGGGGCGATTTCACCCCCGATCTGGGCTACGTCATTCCCAATACCCGCGACATTATGACTGCG -CTGAAGGTACAGAACTTAAGCGGCAACTTTCGTTATAGCGTCACCGCGACTCCTGCCGGACATCATGATGAAAGCAAAGC -CTGGCTACATTTTGGCAAATACGATCGCTATGACGACAAATACACCTATCCGGCAATGATGAACGGTTACATCCAGTATG -ACCTTGCCGAAGGCATCACCTGGATGAACGGTCTGGAAATCACCGACGGCACAGGACAGCTCTATCTCACGGGCCTGCTA -ACTCCTAACTTTGCCGCTCGCGCCTGGCACCATACCGGACGCGCCGACGGGCTGGACGTACCGGGAAGTGAAAGTGGGAT -GATGGTGAGCGCCATGTATGAAGCGTTAAAGGGCGTTTATCTCTCCACCGCTTACACCTACGCCAAACATCGCCCTGACC -ACGCTGACGATGAAACCACCTCTTTCATGCAGTTTGGTATCTGGTACGAATACGGCGGCGGACGTTTCGCCACGGCTTTT -GATAGCCGCTTCTACATGAAAAATGCCTCTCACGATCCCAGCGACCAAATCTTCCTGATGCAATATTTCTACTGGTAATA -AGGACTGTAATTTCATGAAAATAAAAACTATTTTAACGCCAGTAACCTGCGCTCTGCTGATAAGTTTTTCCGCCCATGCC -GCTAACGCCGACAATTATAAAAACGTGATTAACCGTACTGGCGCGCCGCAGTACATGAAGGATTACGATTACGACGATCA -CCAGCGTTTTAATCCGTTTTTCGATCTCGGAGCCTGGCATGGTCATCTGTTGCCAGACGGCCCTAACACCATGGGCGGCT -TTCCGGGCGTTGCGCTGCTGACGGAAGAGTACATCAACTTTATGGCCAGCAATTTCGACCGCCTGACCGTCTGGCAGGAC -GGCAAGAAAGTCGACTTTACGCTGGAGGCATACAGTATTCCCGGTGCGCTGGTGCAAAAACTGACAGCAAAAGATGTGCA -AGTCGAAATGACTCTGCGCTTCGCCACGCCGCGCACGTCACTACTGGAAACCAAAATCACCAGCAATAAACCGCTGGATC -TGGTGTGGGACGGCGAACTGCTGGAAAAACTGGAAGCGAAAGAAGGGAAACCGCTTTCCGATAAAACCATTGCTGGCGAA -TACCCTGACTATCAGCGCAAAATCAGCGCCACCCGTGATGGCCTGAAAGTCACCTTTGGCAAAGTGCGCGCCACCTGGGA -TCTGCTGACCTCCGGCGAATCGGAATATCAGGTGCATAAATCCCTGCCGGTGCAGACTGAAATCAACGGTAATCGCTTTA -CCAGTAAGGCGCATATCAACGGTTCGACCACGCTCTACACCACCTATTCCCATCTGCTGACCGCTCAGGAAGTTAGCAAA -GAGCAAATGCAGATCCGCGATATTCTGGCGCGTCCGGCGTTTTATCTCACCGCCTCGCAGCAACGCTGGGAAGAATACCT -GAAGAAAGGGTTAACCAATCCGGATGCGACGCCGGAACAGACGCGCGTCGCGGTGAAAGCGATCGAAACGCTCAACGGTA -ACTGGCGCTCACCGGGCGGTGCGGTGAAATTTAACACCGTTACACCGTCGGTGACCGGGCGCTGGTTCTCCGGCAATCAG -ACCTGGCCGTGGGATACCTGGAAGCAGGCGTTTGCGATGGCGCATTTCAATCCGGACATCGCCAAAGAGAATATCCGCGC -GGTCTTCTCCTGGCAGATCCAGCCTGGCGATAGCGTGCGTCCGCAGGATGTGGGCTTTGTCCCCGACCTGATAGCGTGGA -ACCTTAGCCCCGAGCGTGGTGGCGATGGCGGCAACTGGAACGAACGTAATACCAAACCCAGCCTTGCCGCCTGGTCGGTG -ATGGAAGTGTATAACGTCACCCAAGATAAAACCTGGGTGGCAGAGATGTACCCGAAACTGGTGGCCTATCACGACTGGTG -GTTACGTAACCGCGATCACAACGGCAACGGCGTGCCGGAATATGGCGCGACCCGCGACAAAGCCCACAACACTGAGAGCG -GCGAGATGCTGTTTACGGTGAAAAAAGGCGATAAAGAAGAGACGCAGTCTGGGCTGAACAACTACGCCCGCGTGGTGGAG -AAAGGCCAGTACGACAGTCTGGAAATTCCGGCACAGGTTGCTGCATCGTGGGAATCGGGGCGTGATGATGCCGCCGTCTT -TGGGTTTATCGACAAAGAACAGTTGGATAAATATGTCGCTAATGGCGGCAAACGTAGCGACTGGACGGTGAAATTCGCCG -AAAACCGCAGTCAGGACGGAACGTTGCTGGGCTACTCGCTATTGCAGGAGTCGGTGGATCAGGCCAGCTATATGTACAGC -GATAACCATTATCTGGCGGAGATGGCAACCATCCTCGGTAAGCCAGAAGAGGCCAAACGCTATCGCCAGTTGGCACAGCA -GCTCGCGGACTACATCAACACCTGTATGTTCGACCCGACTACCCAGTTCTACTATGACGTACGTATTGAAGATAAACCAC -TGGCGAACGGCTGCGCGGGCAAACCGATTGTTGAGCGCGGTAAAGGGCCGGAAGGCTGGTCGCCGCTGTTTAACGGTGCG -GCAACGCAGGCCAATGCCGACGCGGTGGTGAAGGTGATGCTCGATCCTAAAGAGTTCAACACCTTTGTCCCGCTGGGAAC -GGCGGCGTTAACCAATCCGGCTTTTGGCGCTGATATCTACTGGCGTGGGCGCGTATGGGTGGATCAGTTCTGGTTTGGTC -TGAAAGGGATGGAGCGTTACGGTTATCGTGATGATGCCCTGAAGCTGGCGGATACGTTCTTCCGGCACGCCAAAGGGTTA -ACCGCCGATGGACCAATTCAGGAAAATTACAACCCGCTGACAGGCGCACAGCAAGGCGCACCAAATTTCTCCTGGAGTGC -CGCGCATTTGTATATGTTGTATAACGATTTTTTCCGTAAGCAATAATTTGCAACTGCTGGCGGATGCGGCGTAAACGCCT -TATCCGCCCTACATGTGCAATCCTCCTGGCCGGATAAAACGCGGCAAGCGTTGCATCCGGCAACTGCACCGCGCCACTGG -CGGATGCGGCGTGAACGCCTTATCCGCCCTACATGTGTGTTCCCGTAGGTCGGATAAGACGCGACAAGCGTCGCATCCGG -CATCTGCACCGCGCCACTGGCGGATGCGGCGTGGACGCCTTATCCGCCCTACATGTGCAATTCCGTAACCTGGATAAAAC -GCGACAAGCGTCGCATCCGGCGTTATCACCGGGCGTATTCTTTTTGAATCCCATCACAAACCCCGCACTCCCCTTTTCCC -TTTTCTCCGGCGACGGCTAAATTAGAACTCATCCGACCACATAACAATTATTTTACATACTGGACAATTTTATGAGCTAC -CCGTCGCTGTTCGCCCCGCTGGATTTAGGTTTTACCACGTTAAAAAACCGCGTGTTGATGGGCTCAATGCACACCGGGCT -GGAGGAATACCCGGACGGTGCCGAGCGGCTGGCAGCGTTTTATGCCGAACGCGCCCGTCACGGCGTGGCGCTGATTGTCA -GCGGCGGCATTGCACCAGATTTAACAGGCGTTGGCATGGAAGGTGGCGCAATGCTCAACGACGCCAGCCAGATCCCACAC -CATCGCACCATTACCGAAGCGGTACATCAGGAAGGCGGCAAAATAGCCCTGCAAATTTTGCATACCGGGCGCTACAGCTA -CCAACCGCATCTGGTCGCCCCGTCCGCATTGCAGGCCCCCATCAACCGTTTCGTGCCCCATGAGTTAAGCCATGAAGAGA -TCCTGCAACTGATCGACAATTTCGCCCGCTGCGCGCAACTGGCGCGGGAGGCAGGATACGACGGTGTAGAGGTGATGGGT -TCCGAAGGGTATTTGATCAACGAATTTCTGACGCTGCGCACCAATCAGCGTAGTGACCAGTGGGGCGGCGATTACCGCAA -CCGGATGCGATTTGCCGTAGAAGTAGTGCGTGCGGTGCGCGAACGCGTCGGCAACGACTTCATTATTATCTACCGACTGT -CGATGCTCGACCTGGTCGAAGACGGCGGGACTTTTGCCGAAACGGTAGAGCTGGCGCAGGCCATTGAAGCGGCGGGCGCG -ACCATTATCAACACCGGCATTGGCTGGCATGAAGCACGTATTCCGACCATTGCCACGCCCGTGCCGCGCGGCGCATTTAG -CTGGGTCACGCGCAAACTGAAAGGCCACGTCTCGCTGCCGCTGGTAACCACCAACCGGATTAACGATCCGCAGGTTGCCG -ACGATATTCTCTCGCGCGGCGATGCCGATATGGTATCGATGGCGCGACCGTTTCTTGCTGATGCGGAGCTGCTGTCAAAA -GCGCAATCGGGACGAGCCGATGAGATCAACACTTGTATTGGCTGCAATCAGGCCTGTCTCGATCAAATCTTCGTTGGCAA -AGTCACCTCGTGCCTGGTGAATCCTCGCGCCTGCCACGAAACCAAAATGCCAATCCTTCCCGCCGTGCAGAAAAAAAATC -TGGCGGTGGTCGGTGCGGGACCTGCTGGGCTGGCGTTTGCCATTAACGCGGCGGCGCGTGGGCATCAGGTAACATTGTTT -GACGCTCATAGCGAGATTGGCGGGCAGTTTAATATCGCCAAACAGATCCCCGGCAAAGAGGAGTTTTACGAAACGCTGCG -CTATTACCGCCGGATGATCGAAGTGACGGGCGTGACGCTAAAACTCAATCACACCGTGACGGCGGATCAGTTACAGGCTT -TCGATGAAACGATCCTCGCCAGTGGGATCGTGCCGCGCACTCCGCCCATCGACGGGATCGATCATCCGAAGGTATTGAGT -TATCTCGATGTACTGCGCGACAAAGCGCCGGTTGGCAACAAAGTTGCCATCATCGGTTGTGGCGGGATTGGTTTTGATAC -GGCGATGTATTTAAGTCAGCCGGGCGAATCCACCAGCCAGAATATCGCCGGGTTCTGTAATGAATGGGGGATCGACAGTA -GCCTACAACAGGCTGGTGGCTTAAGCCCGCAGGGAATGCAGATCCCCCGTAGCCCACGGCAGATTGTGATGCTCCAGCGC -AAAGCCAGCAAACCAGGACAGGGGTTAGGCAAAACCACCGGCTGGATCCATCGCACCACCCTGCTCTCGCGGGGTGTGAA -AATGATCCCAGGCGTAAGTTATCAGAAGATTGACGATGACGGGCTGCATGTGGTGATCAACGGCGAAACGCAGGTATTAG -CAGTGGACAATGTGGTGATCTGCGCAGGGCAAGAGCCAAACCGCGCGCTGGCGCAACCGCTGATTGATAGCGGGAAAACG -GTGCATTTAATTGGCGGCTGCGATGTGGCTATGGAGCTGGACGCACGACGGGCAATTGCCCAGGGAACACGGCTGGCGCT -GGAGATTTAAATCGTTATTTGAAGCGCCGGATGCAACGCATCCGGCACGTCGCGTTAATCAATAAACAAGGCGGGAGAAA -TGCCGAATCGCGTTGCCAATTTTTTAGCGTGTTCCAGCGTTAATTTCCTCTTCCCGCTCAAAACGCGTGACACCATAGAT -TTACTGCCAATTTCCGGCAGATCGGAAAGGGTTAAACCATATTGATCCATAAGGGTACGAATCACGGCTATACCGCCAGG -CATGGCTTGAGCCATGGCATTAAATTCCGCAAATTCGGGCGCTGATTCTTCCCACGCGGTTATTTTGGCACACACCAGAT -CCAGCAAGGGGTTTTCAGGATCGTTGAGCAGCAGATGATCTACCAGTTCCAGCGCCTGGGTGTATTGTTCCTCGTTCTGA -ATACCCGCCAGAAAAGGTGCCACAGCAGTTAGCTTTTCTCCTGCTTGCAAGATGTCGGCAATCGCAATCATTTTTTCCCC -TTAGTACGATGAACAGCGGTAAAGAAATCGTATTCTTTATGCGTCATAACTTCACGTATGTAGCACTTTTGCGATTCAAA -AAAGACCATTGCTACAACACGTAATTCATTGCCCCCAACATTGAAAACATAATGCTTATCCAGATATTTGAAGTTATCCA -GAGATGGGAATACTGCTTTTAATGACTCAGGTTTTTTGAAATATCCCTTAGCAATCGTGTTCCCCAGAGCCACCAACTCC -GTTTTATGTTGCGGGTATTTTTCCGCAGCATCTTTCAATGCTTTTTGAGTTATCAGGTGCATTCTTCATCACGTCCGTTG -ACAAATTGGCAATATGATAACATCCGTTGCCAGATTGGCAACGGATGAATTTATCTGTGTGACGGAAGAATAAACGTAGA -AAAACGCTAAACAAGAGAATGTAGACGATGGTGACAGGGATTTTTTGTTTTATGGAAGCGCGATTCCAGAACTGGGCAGA -CATTGCCGGATGCGACGCTTGCCGCGTCTTATCCGGCCTGGAGTAACGTGCTGAACGTAGGCCGGATAAGGCGTTTACGC -CGCATCCGGCAGGTAACTCCCAATCTTACCGACGACGTCCCAGCTTCACCGCTTTCAGTACCACAAATTTATTATTCGTC -GCAATAGTGGTGCAGTTGCCGAAAATCTTCTTCAGTTTATGGAAGTAATCCAGGTGACGGTTGGCAACGATATACAGCTC -GCCGTTGATTTTCAGGCAGCGGCGGGCGTGGTGGAACATCTCCCAGGCGACGTTATCGGTCAGCGCATGTTGTTGGTGAA -ACGGCGGGTTGCAGAGCACAGCATTAAAGCGGAAAGGCTCCACGCCGGAGAGCGCGTTGTTGATCATAAACTCGCAGCGA -TCCAACGCCTCTGGCATGTTGGTTTCAACGTTCAAACGGCTGGAAGCAACCGCCATCGGCGATTCATCGACAAACACCAC -TTTCGCCTGCGGGTTTTTATCAAGCAGCGTCAGACCAATAACGCCATTACCGCAACCGAGATCGACAATCTCCCCTTCGA -GATTCTCTGGCAGATGTTGCATAAAGAAGCGCGCGCCGATATCAAGCCCGGTGCGGGAGAAGACATTCGCATGGTTGTGG -ATAGTCCAGTCAGTACCTTCCAGCTTCCAGCTAACGGTCTGCGGCGCATCGGCCAGCTGCGGTTCATTGAAAGTGCAATT -AATCAGGCGCGCTTTTTTCCATGCCAGCGTGGTGGTGGTTGGGCCGAGCACTTTTTCGAACAGTTCCAGCGTGGAAGTGT -GAATGTCACGGGCCTTGGCACCGGCAATAATACGTGTATCCGACGTGACCACTTTGCGCAGCGCACGCAGTTGCTGTTCC -AGCAATGCCAGTGTTTTCGGCACTTTGATCAGCACCACACCCGGCTGTTGCGGGTAGTCGGCGGTGCTGTCGAGAAACTT -CACGCTCGACTCATCAATCCCGTTGAGGCGTAAATTCTCGCGCGTCGCCAGTTCACTGATGTATGAGTCGCCAATGCTGT -ACGGCTTATGTTCCGCCAGTGCGCAGCTTAACGCACCAAAGGCATCATTCAGGATCAACACCGGGCCGCGGATTTCTGTG -TCGTCCAACTGTTGCAGCAAATATTCATCCGCCGCTTCCCACGCCTGTAGCGGGTTAACGTCATCCGTCGCCGGAAAACG -TTGTAGTGTCAGTGAACGGAAACCGTTGTCTAAGTGGCTCATCGGCCCTCCTGAATGATAAAATTTCGACATTGCCCCTG -AAAAGGGTGCGTGAGTATACCCTTTTTCTCTTTTTCGTGGGCGGTTATGAGCAATCTTACTTATCTTCAGGGTTATCCCG -AGCAGCTACTTTCCCAGGTGCGAACACTGATTAACGAACAGCGTCTGGGCGATGTGCTGGCAAAACGCTATCCGGGAACA -CACGACTACGCCACCGATAAAGCCCTCTGGCAATATACTCAGGATCTGAAAAATCAGTTTCTGCGTAATGCCCCGCCGAT -CAATAAAGTGATGTATGACAATAAGATCCATGTGCTAAAAAACGCGCTCGGGTTACATACCGCTGTTTCTCGTGTGCAGG -GCGGCAAGCTGAAAGCAAAGGTGGAGATCCGCGTCGCTACCGTGTTTCGCAACGCGCCGGAACCGTTTTTGCGCATGATC -GTGGTGCACGAGCTGGCGCACCTGAAGGAGAAAGAGCATAACAAAGCGTTTTACCAGTTGTGTTGTCATATGGAACCCCA -GTACCACCAGCTTGAGTTCGACACCCGACTGTGGCTAACGCAGTTGTCGCTTGGGCAGAACAAAATCTGAAAATGATGTC -AGGCGTTATCTTTTCTTTCTTTAGCGCCTAAAATCGACCTCCCCCCTTTCGTTAAGGATAACGACCATGCTGCGCGCATT -TGCCCGCCTTCTTCTCCGTATTTGTTTTTCTCGCCGGACTCTAAAGATTGCCTGCTTACTGTTACTTGTGGCAGGAGCGA -CCATCCTTATCGCCGATCGCGTAATGGTCAACGCCAGCAAACAGCTGACCTGGAGCGATGTCAACGCCGTTCCGGCGCGT -AACGTGGGTTTATTGCTGGGGGCGAGGCCGGGTAATCGCTACTTTACCCGACGTATTGATACCGCAGCAGCGTTGTACCA -CGCCGGAAAAGTGAAATGGCTGCTGGTAAGTGGCGATAACGGACGTAAAAATTACGATGAAGCATCAGGTATGCAGCAGG -CTTTGATCGCTAAAGGCGTACCAGCAAAAGTGATCTTCTGCGACTATGCCGGATTCTCAACGCTGGATTCGGTAGTGCGT -GCCAAAAAGGTTTTTGGTGAAAACCATATCACCATTATCTCGCAAGAATTTCATAATCAACGCGCCATCTGGCTGGCAAA -ACAGTACGGCATCGACGCTATCGGTTTTAACGCGCCAGACCTCAATATGAAGCACGGTTTTTATACTCAACTGCGGGAGA -AACTCGCTCGTGTCAGCGCCGTGATTGACGCCAAAATCCTCCATCGCCAGCCGAAATATCTCGGGCCTTCGGTCATGATT -GGGCCGTTTAGTGAGCATGGCTGTCCGGCGCAGAAATAATGCGTATCTGCGCACGTCGAAGATGAAAAAGGCGTGCTACA -TTGACGACAGAATCCCTTTATGGAGTATCCACGCGTTATGATACGTTTCGCTGTGATTGGTACGAACTGGATCACTCGCC -AGTTCGTCGAGGCCGCCCATGAGAGCGGTAAATACAAGTTAACCGCCGTATATTCCCGCAGCCTTGAACAGGCCCAGCAC -TTCGCCAATGATTTTTCTGTCGAGCATCTGTTTACCTCGCTGGAAGCGATGGCGGAAAGCGATGCCATTGACGCGGTGTA -TATTGCCAGCCCGAATTCCCTGCATTTTTCCCAGACACAACTTTTCCTTAGCCATAAAATTAATGTGATTTGCGAGAAAC -CGCTGGCGTCGAATCTGGCGGAAGTGGATGCCGCCATTGCCTGTGCGCGGGAAAATCAGGTGGTGCTGTTTGAGGCATTT -AAAACCGCCTGCCTGCCGAACTTTCATTTGTTGCGCCAGGCGCTGCCGAAAGTCGGCAAACTGCGGAAAGTCTTTTTCAA -CTATTGCCAGTATTCCTCGCGGTATCAACGTTACCTGGATGGTGAGAATCCCAACACCTTTAATCCGGCATTCTCTAACG -GTTCAATTATGGATATCGGTTTTTACTGTCTGGCGTCGGCGGTGGCGTTATTTGGTGAGCCGAAAAGCGTGCAGGCAACC -GCCAGTTTGCTGGCAAGCGGCGTTGACGCCCAGGGCGTGGTGGTGATGGATTACGGTGATTTCAGCGTCACCTTGCAGCA -CTCAAAAGTCAGTGATTCTGTCCTGGCGAGCGAGATTCAGGGCGAAGCAGGATCGCTGGTGATTGAAAAACTGTCTGAAT -GCCAGAAAGTGTGCTTCGTGCCGCGTGGCAGCCAAATGCAGGATCTCACCCAGCCGCAGCATATTAATACCATGCTCTAC -GAAGCAGAGCTGTTCGCTACCCTGGTGGATGAGCATCTGGTGGATCATCCAGGGCTGGCGGTCAGTCGCATCACCGCCAA -ACTGCTGACCGAGATCCGCCGCCAGACTGGGGTGATTTTTCCGGCAGATAGCGTAAAACTATAATTGCCAAAGTAAAACA -GTGTAAAAGGTATGTAACAGACCATTGACTGGCTGAATGGTCTGTCATACTTTGTTACCTGCAAAGGGGAGTAACTTCAT -TGCCGGTCGATCGTCATTACGATGTGTGAAAAAACACATCCGGTCACCGGGCAACCCGAAAGGAATACGCAGACGTATTC -CTTTTTTGTTGTAAGTGAGACCTTGCCGGAAGGCGAGGTCTATGCATAAAAAGCAGCGGCTGACGTCTTCCGACGTTGGC -CGTTTTTTTATGTGTAAGGAACTTCTATGAATACTGTCGGCACGCCGTTGCTATGGGGCGGATTCGCTGTTGTTGTCGCC -ATTATGCTGGCTATCGACCTGTTGTTGCAGGGGCGTCGTGGGGCACATGCCATGACCATGAAACAGGCTGCGGCCTGGTC -GCTGGTCTGGGTGACGCTGTCGTTACTGTTTAACGCCGCTTTCTGGTGGTATCTGGTGCAAACCGAAGGTCGCGCCGTTG -CCGATCCACAGGCACTGGCCTTTCTCACAGGTTATCTGATTGAGAAATCGCTGGCGGTCGATAACGTCTTTGTCTGGCTG -ATGTTGTTCAGCTATTTCTCTGTTCCGGCGGCATTACAACGCCGCGTGCTGGTGTATGGCGTGCTCGGGGCGATTGTTCT -GCGTACCATCATGATCTTCACTGGCAGCTGGCTAATTTCGCAGTTCGACTGGATCCTGTATATCTTCGGTGCCTTCCTGC -TGTTTACCGGCGTGAAGATGGCGCTCGCCCATGAAGATGAATCAGGCATTGGCGACAAGCCGCTGGTGCGCTGGCTACGC -GGTCATTTGCGCATGACCGACACCATCGACAACGAGCATTTCTTTGTGCGTAAGAATGGATTGCTGTACGCCACACCGCT -GATGCTGGTACTGATTCTGGTGGAATTGAGCGACGTGATTTTCGCCGTGGATAGCATTCCGGCTATCTTCGCCGTGACCA -CTGACCCGTTCATTGTGCTGACCTCAAACCTGTTTGCGATCCTCGGCCTGCGTGCGATGTATTTCCTGCTGGCGGGCGTA -GCAGAGCGTTTCTCGATGCTCAAATATGGCCTGGCGGTGATTCTGGTGTTTATCGGTATCAAGATGCTGATTGTCGACTT -CTACCATATTCCAATCGCCGTCTCGCTGGGCGTGGTGTTTGGCATTCTGGTGATGACGTTTATTATCAACGCCTGGGTGA -ATTATCGGCATGATAAGCAGCGGGGTGGATAATTTTTAATCTGCCTAAGCCGTGTACCCTGTCATTAACATGAGCACCGT -TTTCTCCCTCTCCCTTCCAGGGAGAGGGTCGGGGTGAGGGTAATTTTTCGCACCGATGCTGGCCTGTTCCCCTCACCCTA -ACCCTCTCCCCAAACGGGGCGAGGGGACTGACCGAGTCCTTTTTTGATGTTGTCATCAGTCTGGAAGCCGCACGTTGGCT -TTATTTTTATGTCAAAGAAATGTAACCATTAAGTTTCAAAATATGACCTCTCTTTAAAATCCAGCATTTTTCGCTTCCCG -AAGCTGTAACTTTCCTTATACTCGACCTTGCAAACACTTTGTTACATCCTGAAAGATGCGTCGACAGAACGCACCAGGGA -TGTGCGACAACACAATGAAAGGATCGAAAAATGACTACGCAACGTTCACCGGGGCTATTCCGGCGTCTGGCTCATGGCAG -CCTGGTAAAACAAATCCTGGTCGGCCTTGTTCTGGGGATTCTTCTGGCATGGATCTCAAAACCCGCGGCGGAAGCTGTTG -GTCTGTTAGGTACTTTGTTCGTCGGCGCACTGAAAGCCGTTGCCCCCATCCTGGTGTTGATGCTGGTGATGGCATCTATT -GCTAACCACCAGCACGGGCAGAAAACCAATATCCGCCCTATTTTGTTCCTCTATCTACTGGGCACCTTCTCTGCTGCTCT -GGCCGCAGTAGTCTTCAGCTTTGCCTTCCCTTCTACCCTGCATTTATCCAGTAGCGCGGGTGATATTTCGCCGCCGTCAG -GCATTGTCGAAGTGATGCGCGGGCTGGTAATGAGCATGGTTTCCAACCCCATCGACGCGCTGCTGAAAGGTAACTACATC -GGGATTCTGGTGTGGGCGATCGGCCTCGGCTTCGCACTGCGTCACGGTAACGAGACCACCAAAAACCTGGTTAACGATAT -GTCGAATGCCGTTACCTTTATGGTGAAACTGGTCATTCGCTTCGCACCGATTGGTATTTTTGGGCTGGTTTCTTCTACCC -TGGCAACCACCGGTTTCTCCACACTGTGGGGCTACGCGCAACTGCTGGTCGTGCTGGTTGGCTGTATGTTACTGGTGGCG -CTGGTGGTTAACCCATTGCTGGTGTGGTGGAAAATTCGTCGTAACCCGTTCCCGCTGGTGCTGCTGTGCCTGCGCGAAAG -CGGTGTGTATGCCTTCTTCACCCGCAGCTCTGCAGCGAACATTCCGGTGAATATGGCGCTGTGTGAAAAGCTGAATCTGG -ATCGCGATACCTATTCCGTTTCTATTCCGCTGGGAGCCACCATCAATATGGCGGGCGCAGCAATCACTATTACCGTGTTG -ACGCTGGCTGCGGTTAATACGCTGGGTATTCCGGTCGATCTGCCCACGGCGCTGCTGTTGAGCGTGGTGGCTTCTCTGTG -TGCCTGTGGCGCATCCGGCGTGGCGGGGGGGTCTCTGCTGCTGATCCCACTGGCCTGTAATATGTTCGGTATTTCGAACG -ATATCGCCATGCAGGTGGTTGCCGTCGGCTTTATCATCGGCGTATTGCAGGACTCTTGCGAAACCGCGCTGAACTCTTCA -ACTGACGTGCTGTTCACTGCGGCAGCTTGCCAGGCAGAAGACGATCGTCTGGCAAATAGCGCCCTGCGTAATTAATTGTT -TAACCCCTTTCGTCTACGGCGGAAGGGGTTTTCTCAACTTTAAACGGATCAATTCCCCTTTTCTGCATCCGCCAGAAACG -AATGATATTCAGGCCATTCATAAGCAGAAAACTACCCTCAATCATCGTGCCGCCTATCGACCCCGCCCAGAAGTTGTGAA -TCACCCAGCAACACGTTGAAAACCACATTACGCAGCGCATGGTCAGCCCTTTACAGCAGAATAGCGCCCAGGTACTGACA -ATCGTGCCGATAACCGGCAATAGTTCGACAGGATGATGGAACTTCGCGAGGCCAATTCCGCCAGTCAGCACAATAAAAAT -CGCCATTACCCATAAGCTGCGCGTGCGTAAGGTAATCAATGTACGAATGGCATTAAGGATGGCACTGGCACCAGCGGGAT -AGGTGCCCAGAAGAAAAAAATGTACGCCAATAACGGCGCTATAGACCGAAAGCTGCTTTTTGAAGCGACGTTCGTCACGA -TTGAAAAATGTTGTGATACCAATCAGAAAGGCGATGACACCCACGCCCTGGGCCAGCCAATACGCGGTCATGATAAATCC -TTAGCAGGTATGGAAAAGCAAACGGCGCTTCACATTATGAAACGCCGTTTTTTATTAACAACTCATTTCGACTTTATAGC -GTTACGCCGCTTTTGAAGATCGCCAGTTCGCGGAAGTCGTTACGCTCGTTACAGGTTTGCTTACCGTTGGCAAACTCAAC -GATGGTGTCGATAAATTCTTCCAGCAACTGCGGCATCGCTTTACCGTGGATCAACTGACCCGCGTCAAAGTCGATCCAGT -GTTTTTTCTTCGCCGCCAGTTCACTGTTGGTGGCGATTTTCACCGTCGGCACAAATCCACCATACGGCGTGCCACGACCA -GTACTGAACAGCACCATATGGCAGCCCGCACCCGCCAGGGCGCTGGTCGCTACGGCATCGTTACCCGGCGCACTTAACAA -GTTCAGCCCTGGCGTTTTCAGACGCTCGCCGTAACGCAGCACGTCAACCACGACGCTGGAACCCGCTTTCTGGGTACAGC -CAAGTGATTTGTCTTCCAGCGTGGTGATACCGCCCGCTTTGTTCCCCGGCGATGGGTTTTCATAGATCGGCTGATCATGG -GCAATAAAGTACTGTTTGAAGTCGTTGACCATGGTGACCAGTTTTTCAAACGTTGCTTCGTCGCGGCAATGGTCCATCAG -CAACTGCTCTGCGCCAAACATCTCCGGCACTTCGGTCAGTACGGTAGTACCGCCGTTAGCAATCACGTAGTCAGAGAAAC -GCCCCAGCATCGGGTTAGCAGTAATACCAGAAAGACCGTCAGAACCACCGCACTCCAGACCAAACTTCAGTTCGCTGAGT -TTGCCTGGCTCGCGTTTATCGTTGCGCATCACGTTATACAGCTGATGCAAATGCTCGATTCCGGCTTCGATCTCATCATC -CTGCTGTTGGCAGATCATGAAATGAACGCGTTCAGGATCGATATCGCCCAGCGTTTCACGGAATGCGGCAACCTGGTTGT -TTTCACAGCCCAGACCAATCACCAGCACTGCGCCTGCGTTCGGGTGGCGCACCATGTTTTGCAGCATGGTGCGGGTATTA -ATGTGATCGTCGCCCAGCTGTGAGCAGCCGTAGGTGTGGCTGAAGAGGAACACGCCGTCAGTACCTTCGGCGTTGTTGGT -CTCTTTCAGAAAACGGTTCTGGATCTGCCGCGCGATGCCGTTGACACAGCCCACGGTTGGCAGGATCCACAGCTCATTAC -GCACCCCGACATCGCCGTTAGCGCGACGATAGATCTGCACTTCACGATCTGCCGCTTGCGCAGGCAGATCCTGAAAATCA -GGTTGATAGCGATACTGATCCAGATCGCTCAGATTCGTGCGCGTATTGTGGGCGTGAACGTGAACACCTGCCGCAATATC -CGCCAATGCATAACCAATCGGCAGGCCATATTTGATGACATTGGCCCCTTTTGCGATATCCGTTAACGCAAATTTATGTC -CACGAGCAACATCCTGGCGCAGCGTAACAGTCTGGTTATCGACACTGACTTCTGTGCCTTCAGCCAAATCTGCTAAAGCG -ACCGCGACGTTATCCAGCGCATGGATCTTGATGTATTGCATATCAACCCCAGACCTTAGTTCAGTTCAATGGCGAAGTAG -TCACGCGCATTGTTAAAGCAAATATTTTTCACCATCTCGCCCAGCAGGTTGATGTCCGCCGGTGCTTCGCCCGCTTCCAC -CCAGCGACCGATCATCTGGCACAGAATGCGGCGGAAGTATTCGTGACGGGTGTATGACAGGAAGCTACGGCTGTCAGTCA -GCATACCGACAAAGCGGCTCAGCAGACCGAGCTGCGCCAGTTGGGTCATCTGACGTTCCATACCGTCTTTCTGATCGTTA -AACCACCAGCCGGAACCGAACTGCATTTTGCCCGGCATACCTTCGCCCTGGAAGTTACCGATCATGGTGCCCAGCACTTC -GTTATCGCGCGGGTTCAGGCAGTACAGAATGGTTTTCGGCAGCAGGTTTTCTTCATTCTGCTTGCTCAGCAACTTAGACA -GCTCTTCCGCCATCGGACGGTCGTTGATGGAGTCAAAGCCTACATCCGGCCCCAGCAGTTTGAACTGACGCAGGTTGTTA -TTACGCAGCGCGCCAATGTGGTACTGCTGTACCCAGCCGCGACGTGCATATTCGGCACCAAGGAACACCAGTACCGCAGT -TTTGAACTGCGCCACTTCGTGCTCGCTCAGGGTTTCGCCAGCCAGACGGCGCGCCAGAATGCTGTCCAGTTCCGCTTCGT -TCGCTTCAGCAAACATCACCACATCCAGCGCGTGGTCAGACACTTTACAGCCGTGAGCGGCGAAGTGATCCAGACGTTTG -GTCAGGGCAGTTTGCAGGTCAGCAAAGCGGCGAATGTCGGTATCGGAAACTTCGCCCAGCTTCGCCATGTAGTCGTTAAA -GGTCGCCTGTTCGATGTTGAAGGCTTTGTCCGGACGCCAGCTCGGCAGCACTTTGATGGTGAAAGAGCCGTCTTTGGCGA -TCTCTGCGTGATGCTCCAGAGAATCGATCGGGTCATCGGTGGTGCCGACCATTTTCACGTTCATCTGCTGCATGATGCCG -CGCGCGGAGAAGTTATCCTGCGCCAGCAGTTCGTTACATTCGTTCCAGATTTCATCGGCAGTTGACGGAGAAAGCAATTT -GCCAGTGATACCAAACGGACGGCGCAGTTCGAGGTGCGTCCAGTGGTATAACGGGTTGCCGATAGTGTGCGGAACAGTCG -CCGCCCAGGCGTCAAATTTTTCACGGTCAGACGCATCACCGGTACACAGACGCTCGGCCACACCGTTGGTACGCATAGCG -CGCCATTTGTAGTGATCGCCTTTCAGCCAGATGTCATACAGGTTTTTAAAACGATAGTCTTCCGCAATCTGCTGCGGCGG -CAAATGGCAATGGTAATCGAAAATCGGCTGGTCTTTTGCGTAGTCGTGATACAGACGGCGGGCAAATTCGGTATCTAACA -GGAAATCTTCAGTCATAAACGGAGTCATTTTCGTCTTCCTCTCAACGAGTGAGCTAGCTTGCTTATGGTGCGATGCTGAC -AAAGTTATCACACCAATTTCCAGAGTCCGAAGATATTTTCGTGAGTTAGATCAATAAACGTAGTTAAAAAAATTACTCTC -AAAGTGGTAAATCTCGCTGCAGGCCGCGCCAGTACTGGCCTTGCTGTCGTCAGGTAATGTCCCTACAAATATTCCCACAT -TTGTGATGGCTCTCACCTTTTAAAGTTGTATGACAAGTTATCTTTCTGCCGTCGCAAATCATAAGTCGACGGAATGCAAA -TTGCCGATTCATTCATTTGTTAGATGAATCGGGTTAACCGGTACGGAAGCCGAATTAGCACGAAACTTTCATGGCAACGT -TCGGGGCGTGCCGGTTTTTTTTCGGTTACCCGGTCGTAACTAACATCTTCAGCCTCTGGCGGGATGATGGCCGCGCTTCC -TGCGGATATAACAAAACGATGAGGTTTTACATGCGTAAAATTAAAGGGTTACGTTGGTATATGATCGCACTGGTGACGCT -CGGCACCGTGCTTGGTTACCTGACGCGTAACACTGTGGCGGCAGCTGCGCCAACTCTGATGGAAGAGTTAAACATCTCCA -CCCAACAGTATTCCTATATCATCGCAGCCTATTCTGCTGCTTATACGGTCATGCAACCGGTAGCAGGTTATGTACTGGAT -GTGCTGGGTACGAAAATCGGTTATGCAATGTTTGCTGTGCTGTGGGCCGTGTTCTGTGGTGCAACCGCGCTGGCAGGTAG -CTGGGGTGGCCTGGCTGTTGCTCGTGGTGCGGTCGGTGCCGCGGAAGCAGCGATGATCCCGGCGGGTCTGAAAGCCAGCT -CCGAATGGTTCCCGGCGAAAGAGCGTTCCATCGCAGTAGGCTACTTTAACGTAGGTTCTTCGATTGGTGCGATGATTGCG -CCGCCGCTGGTGGTATGGGCAATCGTAATGCACAGCTGGCAGATGGCATTTATCATCTCCGGTGCATTGAGCTTTATCTG -GGCGATGGCATGGCTGATTTTCTATAAACATCCGCGCGACCAGAAGCATCTGACCGATGAAGAACGCGACTATATTATTA -ATGGTCAGGAAGCCCAGCACCAGGTGAGCACGGCGAAGAAAATGTCCGTTGGTCAGATCCTGCGTAACCGTCAGTTCTGG -GGTATCGCGCTGCCGCGTTTCCTGGCAGAACCGGCCTGGGGTACTTTTAACGCGTGGATCCCGCTGTTCATGTTTAAAGT -TTACGGCTTTAACCTGAAAGAGATCGCGATGTTCGCCTGGATGCCGATGCTGTTTGCTGACCTCGGTTGTATCCTCGGTG -GTTACCTGCCGCCGCTGTTCCAGCGTTGGTTTGGTGTGAACCTGATCGTTTCCCGTAAGATGGTCGTAACGCTGGGTGCA -GTGCTGATGATTGGCCCGGGTATGATCGGCCTGTTCACCAACCCGTATGTCGCAATTATGCTGCTGTGTATCGGTGGTTT -TGCCCACCAGGCACTGTCTGGCGCGCTGATTACGCTCTCTTCCGATGTGTTTGGTCGTAACGAAGTGGCAACGGCAAACG -GTTTAACCGGGATGTCCGCATGGCTGGCAAGTACGCTGTTTGCGCTGGTTGTCGGTGCACTGGCTGACACCATCGGCTTC -AGCCCGCTGTTCGCAGTTCTGGCAGTGTTCGACCTGTTAGGTGCGCTGGTTATCTGGACCGTGTTGCAGAACAAACCGGC -GATTGAGGTGGCGCAGGAAACACATAACGATCCCGCACCGCAACATTAACGTTTCGTGTAAGTTTTAGTTTCCCTTCAAA -GCCGCCTTCTCAGGCGGCTTTTTCATCACTGCGAGTAGAGCTAAACTCGCAAAAGTGGTATAACAAATATAGTCTGCCGT -ATCATGCCTGGAGCGCATATGGAAATCACTGAACCACGCCGTTTGTATCAACAACTTGCCGCTGACCTGAAAGAGCGCAT -CGAACAGGGCGTCTATCTGGTGGGTGATAAACTGCCTGCAGAACGCTTTATTGCCGATGAAAAGAACGTCAGCCGTACGG -TAGTTCGTGAAGCCATCATCATGCTGGAAGTTGAAGGCTATGTCGAAGTGCGTAAAGGTTCAGGTATTCATGTGGTTTCC -AACCAGCCGCGCCATCAGCAGGCGGCTGACAATAATATGGAATTCGCCAATTACGGTCCGTTTGAGTTGCTTCAGGCTCG -CCAGCTCATCGAAAGTAATATTGCCGAATTCGCGGCAACTCAGGTAACGAAACAGGACATCATGAAACTGATGGCCATTC -AGGAACAGGCGCGCGGCGAACAATGCTTCCGTGATTCCGAGTGGGATTTGCAGTTCCACATTCAGGTCGCTCTGGCGACG -CAGAACTCCGCCCTGGCGGCTATCGTGGAAAAAATGTGGACCCAGCGTAGTCATAACCCGTACTGGAAAAAACTGCACGA -ACACATTGATTCCCGTACCGTCGATAACTGGTGTGATGACCACGATCAAATCCTCAAGGCGCTGATTCGCAAAGATCCTC -ATGCTGCTAAGCTGGCAATGTGGCAGCATCTGGAAAACACCAAGATCATGTTATTTAACGAAACCAGCGACGACTTCGAG -TTCAATGCCGACCGCTATCTATTCGCCGAAAACCCGGTGGTGCATCTCGATACAGCCACCAGCGGCAGTAAATGAAATTC -CTGTCCGACAGGCGCTGCAATGCGCCTGTTTGTCTCGTCGGTAAGCGAAAAGTATAAAGTGTCAGCCTGTGTAAATCCTC -TCGCCACCCTCCCCTGCATTCAGCAAAATCAGACTCCACGGACATGTAATTTTGATAACGAACAACGTTGACCTTTGTTA -CAATTAGATTCAATTTGAATTTATGTTTTTGAATGCTTTCTTATCTCACGATTTAACAGGGAATAGTTCAGGCTGTGTTG -ATGTATCAAACCCGCAGAACATACCAAAACAGCAATAACATTGCGGTAGTGCATCTTTTAAAACCAGCGTGGCGTTAACC -GATTCACCAGGAATAATGAATGGAACTTTTGACCCAATTGCTGCAAGCCCTGTGGGCGCAGGATTTTGAAACCCTGGCCA -ATCCATCGATGATTGGCATGTTGTATTTTGTCTTGTTTGTAATTTTGTTCCTTGAAAACGGCTTGCTTCCGGCGGCCTTT -TTACCGGGCGACAGTTTACTGGTATTGGTCGGCGTGTTGATTGCGAAAGGCGCGATGGGCTATCCGCAAACGATTCTGCT -GCTGACCGTTGCCGCCAGCCTCGGCTGCTGGGTCAGCTATATTCAGGGGCGATGGCTGGGCAATACCCGCACCGTACAAA -ACTGGCTATCTCATTTACCCGCGCATTATCATCAACGCGCACACCATCTTTTTCATAAACACGGTTTATCGGCGCTGTTA -ATTGGTCGCTTTATTGCGTTTGTCAGAACACTGCTGCCGACGATTGCCGGGTTATCAGGGCTGAATAACGCGCGCTTTCA -GTTTTTCAACTGGATGAGCGGTCTGCTGTGGGTATTGATCCTGACAACTCTGGGTTACATGCTCGGCAAAACGCCGGTAT -TTTTAAAGTACGAGGACCAGCTGATGTCATGCCTGATGCTGCTCCCGGTGGTGCTGCTGGTGTTTGGCCTGGCAGGTTCT -CTGGTCGTGTTATGGAAAAAGAAATATGGAAATCGGGGGTAAGGGATGCAAATACCTCGCATGTCGCTTCGCCAGCTAGC -CTGGTCCGGCGCTGTTTTACTTCTGGTCGGCACGCTGTTGCTGGCCTGGTCCGCGGTTCGCCAGCAAGAGTCTACGCTGG -CGATTCGTGCCGTTCATCAAGGCACAACGATGCCAGACGGTTTTTCAATCTGGCATCACCTTGACGCTCATGGCATTCCT -TTCAAAAGTATCACCCCCAAAAACGACACTCTGTTAATTACATTTGACTCCAGCGACCAGAGCGCCGCCGCAAAAGCGGT -CCTCGACAGAACATTGCCCCATGGCTACATCATTGCGCAGCAGGACAATAACAGTCAGGCTATGCAGTGGCTGACCCGGT -TACGGGATAACTCTCATCGCTTCGGATAACTTCCTGTTATCCGAAACATATCACTCACTTTGGTGATTTCACCGTAACTG -TCTATGATTAATGAGGCGGTGGTTAACACTACCGCTTCGTTGTCTGGACAATCGTTCCTTTGTAATAGGTCCGAATCACA -ATGGAAGGTTCAAGAATGAAATACCGCATCGCTTTAGCTGTTTCTCTCTTTGCTCTTAGTGCCGGTAGTTATGCCACTAC -CCTGTGTCAGGAAAAGGAGCAAAATATCCTTAAGGAGATCAGCTATGCCGAAAAACACCAAAACCAGAATCGTATTGACG -GTCTGAATAAAGCCCTGAGTGAAGTCCGGGCCAACTGTTCAGATAGCCAGCTGCGTGCCGATCATCAGAAGAAAATCGCA -AAGCAGAAAGATGAGGTGGCGGAACGCCAGCAAGATTTAGCCGAGGCGAAGCAAAAAGGCGATGCCGATAAGATTGCCAA -ACGCGAACGGAAACTGGCAGAAGCGCAGGAAGAGCTGAAAAAGCTGGAAGCGCGCGACTACTAACTCACAATAGTCACTA -CTTACTCACCTGGAGAAAACTATGTCGAAAGAACACACTACGGAACATCTGCGTGCTGAGTTGAAATCCCTTTCCGATAC -GCTGGAAGAGGTGCTTAGCTCATCTGGCGAGAAGTCGAAAGAAGAGTTGAGTAAGATTCGTAGCAAAGCGGAGCAGGCAC -TGAAACAGAGCCGTTATCGCCTGGGTGAAACCGGTGATGCCATTGCCAAACAAACCCGTGTCGCGGCGGCGCGTGCCGAT -GAGTATGTGCGCGAAAATCCGTGGACGGGCGTGGGCATTGGCGCTGCAATCGGTGTAGTGCTCGGCGTTCTGCTGTCGCG -TCGTTAATTATGGCGGACACTCATCACGCACAAGGGCCCGGTAAAAGCGTTCTGGGCATCGGGCAGCGAATTGTTTCTAT -CATGGTTGAAATGGTAGAGACACGTCTGCGGCTGGCGGTGGTGGAGCTGGAAGAGGAAAAAGCGAATCTCTTTCAACTTT -TACTGATGCTGGGCCTGACGATGCTTTTCGCTGCATTTGGTCTTATGAGCCTGATGGTGCTAATTATTTGGGCGGTTGAC -CCGCAATATCGCCTGAATGCGATGATTGCCACCACCGTGGTGTTGCTGCTACTGGCACTGATTGGCGGTATCTGGACGCT -ACGTAAATCGCGTAAGTCTACGTTGCTGCGCCATACACGCCATGAGTTAGCAAACGATCGGCAGCTGCTCGAGGAGGAGT -CCCGTGAGCAGTAAAGTCGAACGTGAACGACGTAAGGCGCAACTGCTTAGCCAGATCCAGCAACAACGGCTGGATCTTTC -CGCCAGTCGTCGTGAATGGCTGGAGACAACAGGCGCTTACGATCGTCGCTGGAATATGCTGCTAAGTCTGCGCTCCTGGG -CGCTGGTTGGCAGTAGCGTGATGGCGATCTGGACGATTCGCCATCCTAATATGCTGGTCCGCTGGGCCAGACGCGGTTTT -GGCGTATGGAGCGCCTGGCGTCTGGTTAAAACGACCCTCAAGCAGCAACAGCTTCGCGGTTAACTTCCCTCTGGCCGGAG -CCATTCCGGCCTTATCCCTCAAATTTTTTGAAGATTTTTGACAGTTTTCCTTGCTAACAATCATCATTCACCACGTTTAT -GATTCTCTCCATCGACAGCAACGACGCTAATACCGCGCCATTGCACAAAAAAACAATCAGCAGCCTGAGTGGCGCAGTGG -AGAGTATGATGAAAAAATTAGAAGATGTTGGTGTACTGGTAGCGCGCATTTTAATGCCGATTCTGTTTATTACCGCTGGC -TGGGGAAAAATTACTGGCTACGCGGGTACCCAACAATATATGGAAGCAATGGGCGTCCCGGGTTTTATGCTGCCACTGGT -GATTCTGCTTGAGTTTGGTGGTGGTCTGGCAATCCTGTTCGGTTTCCTGACTCGCACCACAGCCCTGTTTACTGCGGGCT -TTACGCTGCTGACGGCATTTTTATTTCACAGCAACTTTGCTGAAGGCGTCAACTCGCTGATGTTCATGAAAAACCTGACA -ATTTCTGGCGGATTCCTGCTGCTGGCAATTACCGGTCCGGGCGCGTATAGCATCGACCGCCTGCTGAATAAAAAGTGGTA -AGCACGCGCTATACTTAACGATAAAAAACGAGGAGGAAGCTCCTCGTTTTTGCTATTGGAGGAGAGAAAAATGGGTCAAC -TGATTGACGGCGTCTGGCATGACACCTGGTACGATACCAAATCTACCGGCGGTAAATTTCAACGTTCAGCTTCCGCATTT -CGTAACTGGCTCACTGCCGATGGCGCTCCTGGCCCCACTGGCACAGGCGGTTTTATCGCAGAGAAAGATCGTTATCATCT -CTATGTTTCACTCGCCTGCCCGTGGGCGCACCGCACGCTGATCATGCGCAAACTCAAAGGACTGGAACCGTTTATTTCCG -TTTCCGTAGTGAACCCGCTGATGCTGGAAAACGGTTGGACCTTTGATGACAGTTTTCCGGGAGCAACCGGAGACACGCTC -TATCAAAATGAATTTCTGTATCAGCTTTATCTCCACGCCGATCCACACTACAGCGGACGAGTTACTGTTCCCGTGCTGTG -GGACAAAAAGAACCACACCATCGTCAGCAACGAATCAGCAGAAATCATCCGCATGTTCAATACCGCGTTTGATGCGCTGG -GCGCGAAAGCGGGTGATTACTACCCTCCAGCCCTGCAAACAAAAATTGACGAACTTAACGGCTGGATTTATGACACCGTT -AACAACGGCGTGTATAAAGCTGGTTTTGCCACCAGCCAGGAAGCTTACGACGAGGCGGTGGCGAAAGTGTTTGAATCGCT -GGCACGACTGGAGCAGATTTTAGGCCAGCATCGTTACCTGACCGGCAACCAGCTAACCGAAGCCGATATTCGCCTGTGGA -CTACGCTGGTGCGTTTTGATCCGGTGTATGTGACCCACTTCAAGTGTGATAAGCACCGCATCAGCGATTACCTGAATCTG -TACGGTTTTCTGCGCGATATCTACCAGATGCCGGGGATCGCCGAAACAGTCAATTTCGATCATATCCGTAATCATTACTT -CCGCAGCCATAAGACCATCAACCCTACGGGGATTATTTCAATTGGTCCGTGGCAGGATCTCGATGAACCGCATGGACGAG -ATGTTCGCTTCGGTTAAAAAAAGGCACCTTACGAGGTGCCTCTGATAATTAGCTAAGTGCATGTTGTTCATGTCGGATGT -GGCATGAACGCCTTATCTGACATACAAAACATTGTACATTCAATAGATTGCATAACCCGCGCAGACCAGATAAGCGTAGC -GCATCTGGCGATTTTGCGCTTGTCATCAGTCTTAGCGCGCCTTCACGGCACTTTATTAATTCCTTGAACGAATATTTACT -GCCATTTCATTCACGTCTATTCTTAATTTGCTGCTTTAAAAACAAGTGATTGAGCAAAATTGAGGCAAAAATGGACTGGT -ATCTGAAAGTACTAAAAAATTATGTCGGTTTCCGGGGTCGTGCGCGGCGCAAAGAGTACTGGATGTTTATTCTGGTCAAC -ATCATCTTTACGTTCGTGCTGGGGCTGCTGGATAAAATGTTAGGCTGGCAACGCGCTGGTGGCGAAGGCATCCTGACGAC -AATCTACGGTATTCTGGTGTTTTTACCGTGGTGGGCGGTTCAGTTCCGCCGCCTGCACGACACCGACCGCTCGGCGTGGT -GGGCACTGCTATTCTTAATCCCGTTTATCGGCTGGCTTATTATCATCGTCTTTAACTGCCAGGCGGGTACGCCAGGCGAA -AACCGCTTTGGACCAGATCCAAAACTGGAACCTTAAAACAAATCTGCTCGCCGGATGTCTGACTCATCCGGCTTTTATCA -TTATGTTGATGAATGAATAATTTACTAATGTTTATTTAAAATATTTCAATGTCGTTATATAAATTACCTATAAAAAATAA -CCATGTATTTATCTTAAATATCAAAACCTTTATAACATCCGAAAAAGAAAGATACGAATAGCATTTACACAATACCCGGA -ATAGACTTTCGTCACTTTTAATTAAAGGGATGTTTTTATGCAGTGGTATTTGTCCGTATTAAAAAATTATGTTGGTTTCT -CTGGTCGCGCACGTCGTAAAGAGTACTGGATGTTTACTCTGATTAACGCCATCGTCGGCGCTATTATCAATGTCATTCAA -TTGATTTTAGGTCTGGAGCTTCCATATCTGTCTATGCTTTATTTGCTGGCAACCTTCCTTCCCGTCCTTGCGCTTGCTAT -CCGTCGCTTACACGATACCGACCGTTCAGGTGCCTGGGCCTTGCTCTTTTTTGTTCCGTTTATTGGCTGGCTCGTGCTTC -TGGTTTTTTTCTGCACAGAAGGTACTTCTGGCAGCAATCGTTACGGAAACGATCCGAAGTTTGGTTCAAATTAATCTTAG -AATTGGGGCGATATTTCGCCCCTTTTTATTAACAATAATAAATATTATTTTCCGTTAAAAAGTTTGGGAATTTCCCGCAG -ACACCAGGATTTCGCTTCCCCCATACTGTCACGACGCCAGGCCATAATAATATCGATCTCGCTGGTCGATTCCGGGCTGA -CGACACGCAACCGCCCTTCCGCAATATCTTTTTCGACCATAGGATACGGCATCGTCGCCACGCCAAGCCCCGCCAGTAAT -GCCTGACGTTTATCTTCAATCGTGCTCACCGTTAAGCGCGGCTGTTTGTCCAGCAGCTGTACGGTCAACACCGGGCGCTC -ACGAGCGGTATCCGCCACCGCAATTCCACGATATTTCACACGCGTCACTTCAGATAACGGTTCCGGCTCCTGATGAATCG -GGTGATCAGGCGCGGCAACGTAGACGTTCATTAACGTATAGAGCTTGCGCGAGTTGATCTCCGACGAGGAACGAAAATGC -ATATCCGGCGCGATAACAATATCCGCCCGCCCCTGCTCCAGCCGTTCCCACGCCCCCGCCAGCACTTCTGTGATGATTGC -CAGTTGGGTATTGGCTTTTGCCGCCAGTTTGTCGATTAACGGGAAAAAGGCAGGTGTCGGTACCAGCGCTTCGGTCACAA -TGGTGAGATGCGTTTCCCAACCGCGCGCGAGAGCTTCCGCATCAGTAGTCAGTTTATCTGCGGCTTCCAGCAAAACGCGC -CCTCGCTCCAACAACATCCTCCCGACATTGGTGAATTTGGTACGATGGCCCGAGCGGTCAAACAGCACCACATCCAGCTC -TTCTTCCAGTTTTTGCATGGTGTAGCTAAGTGCGGAAGGCACGCGTCCCAGCTCATCCGCCGCCGCCGCAAAACTGCCCC -GGCGATCGATCGCATCCATAACCCGTAGTGCTTCCAGCGTTAATGCCCTTTCTTTGGCCATTTCGTTCTCATTCAGGAAA -TTTGAACATACCGGGCAGAATATCTGGCTAACAATGTAGCGTCCAGCCCCTTACCATAAAAGGAAGTAAAGAGAGGTCAA -GAATTATGATTACTACCCGAACTGCCAGGCAGTGTGGACAAGCAGACTACGGATGGTTGCAGGCCCGGTATACTTTTTCC -TTTGGACACTACTTCGACCCGAAATTGTTAGGCTATGCCTCCCTGCGTGTGCTTAACCAGGAAGTGCTGGCCCCAGGTGC -CGCCTTTCAGCCGCGAACCTATCCCAAAGTCGATATTTTAAATGTGATTCTGGATGGAGAAGCAGAGTATCGCGATAGCG -AAGGCAATCATGTTCAGGCCAGCGCCGGAGAGGCGTTGCTGCTCTCTACCCAGCCGGGTGTCAGCTATAGCGAACACAAT -CTCAGCAAAGACAAACCGTTAACGCGAATGCAGCTTTGGCTGGACGCCTGCCCGCAGCGAGAGAATCCGCTGATTCAAAA -GCTGGCGCTTAATATGGGCAAGCAGCAATTAATCGCCTCGCCAGAGGGTGCGATGGGAAGCCTGCAATTACGCCAGCAAG -TGTGGCTGCACCATATCGTGCTCGACAAAGGCGAAAGTGCGAATTTCCAGTTGCATGGGCCACGCGCGTATTTGCAATCG -ATTCACGGGAAATTTCATGCGCTTACGCATCATGAAGAGAAAGCGGCGCTGACCTGCGGTGATGGGGCGTTTATTCGTGA -CGAGGCTAACATTACGCTGGTTGCCGATTCCCCACTGCGCGCTTTGCTGATAGATTTGCCTGTCTAGTTGTTTTTACAGG -GAGATGATGATGAGTAAAAAATTGGCCAAAAAGCGCCAGCCGGTGAAGCCCGTGGTGGCGAAAGAACCTGCTCGCACCGC -CAAAAATTTTGGCTATGAAGAGATGTTGAGCGAGCTGGAAGCTATCGTCGCGGATGCTGAAACGCGTTTAGCCGAGGATG -AAGCTACCGCGTAAAGACAGGTTGCCGGATGCGGCGAAAACGCCTTATCCGGCCTACAAAATCCAACAACATTAACGAAT -TAAACAACCCGTAGGCCGGACAAGATGCGCCAGCATCGCATCCGGCACGATCCCCAAAACCTGGCGTTTATCTGGCCTTG -CTCGCCATAATCTCGATAATCTGCCGATCCGTTTGCTGCATCGAATGGCTTGCTAACGCACACAGGTTGGCAATCGACTG -CTCAACATCATGCGCCACAATCCCTTCATTGCCGGTCACGGCGGTATCATCCAGCGCCATTAACACCGCTTTCCACGCAG -CCGAAGCACTGGTCGAAACCTTCATCGCGCAGCTGTTCGACGCACCATCGCAAATCATGCCGCTGACATCGCCGATCATA -CTGCTGATCGCCATCGAGATGGTTTCATAACGCCCATCCACCAGCCATGCCATCCCGGCGGCGGCCCCCATTGCTGCGGT -CGTTGCGGCACACAGCGCAGACAAACGCGGTAACTGGTTATGGATGTAAATTGCGCTCAAATGCGAAAGCATCAGCGCAC -GCGCCAGCCGTTCATCATCCGCTCCGAAGTGTTCTGCTACCACCACCACAGGCATTGTTGCGGTAATCCCCTGGTTACCC -GAGCCGGAGTTACTCATAGCCGGAAGCGTAGCGCCGCCCATACGCGCATCGGATGCCGCGCTGGTACGAATCACAATGGA -TGAAGAGAGATCTTTCGCCAGCAAACCGCGCTCGCACTGTTTTTCCAGCGTCGCGCCAATATGCAGCCCCCACTTACCGC -TCAAACCTTCCTGCGATAACGCACAATTTAGCTTCGCGGAATCGAGAATAAAGCGGATCGCCGCAAACGGGACTTCATTG -ACGAACTTCAGGATCTCAGCCAGCGTCGTTCTGGAAAGCACCGTCAGCGGAGACTCTTGCTCGCCCTCTGCCACACACGC -CTGCTGGGTAAACACCACACCATCGTGCGTCTCGATATGCACAATGTTGGTATGCCCGCCGACGATGGTGACACACGCCC -ACTTCTCACCGTTCCAGACTTTGGCGCGTGAGAAGAGGATTTCATCGCAAGGTTCCTGGATCTTAACGGAGACTTTCCCC -GCCGCCAGCAGTGCTTTGGCATCGGCAATTGCCTGCGCTGTTGCGTCTTTCAGCACTTCCAGCCCGGCGTTGGCATTTCC -ACCTAACGCCCCCAGCGCCGCCGCAATCGGCAGCCCCACCATTCCCGTGCCGGGAACGGTGACGCCCAGACCGTTCTTCA -TCAGATTTGGCGAAACCCAGGCTTCTACACGTTCAACCGGACCTTCCAGTTCTGCCGCAGCAACCGCCGCCGCCAGCGCC -AGTGAAATCGGTTCAGTACATCCCAGCGCCGGTTTTACTTCCTCCTGAACGGCGAGGATGTAACGCTGCCATAACGGATT -TAAAGTCGAATCAAACATATTAAAAACCTTAAAATTTCAGGTAAATCAAGAAAATGCCAGGAACGGAGAAACACACAGCA -ACAAACCAGTGACGATAATCAGGTACAGAGACATCCCTTTGTATTTGTGCAATGCTGGTACTTTGTAAACCAGCCACGCC -GGGATCAGGCACCCTACCATGCCGAAAATCGGGCTACAGATAGAGGTGAAGCTCAACACCGGTGCGTTCAGTACGATGGC -GCTCCAGGCCAGCAAAATGGCGAAAATCATGATGCCGCGCTGAACGAGATTTTCGTTAATCTTCTCGGCAGGCATCTTGC -GACGCAGGATGTTCATTACGATCCCTTGCGTTGCTTCGCGAAAGCCTAAATAGACGCCAAAGAATGCAGTCATGACAGCA -AAGATATTGAGAATGACGCTGACCACTTTCACCCACGCTGCGCCGTCACCGCTAATAAACTGTGCGGCAATCGCCAGCGC -GGAAATATTCTGCTCATAGGCTTTTACCGCTTCGTCATGTCCCATCGCCAGCGTGAACGACACGGCGTAGAAAAAGACGG -TGACAAACAAAATGCCAAACGCGATATTCATTGCCCGCAATGCTTTATGCCGCGCCACTTCAATTGATTTTTCCCGCGAG -CGATAAGAGATCACCATCGGACTTAACGTCTGGATAAACAGAATCGACGTCAGGGTAAACGGCAGCGTAATAATGGCGTT -TTTCACCAGCAGCCCCAGCGGCGGTAGCGAACCGACGTTATACAGATGCCACATTCCCACCATCGACACGCCCAGCGCCG -CGACCACCAGCAGCTTGGTCAGCACCATGCCGGTCGAAATTTTGAATAACAATTTCTCGCCGCGTGAGGAGATCGCCACC -AGAATGCAAATCAGTACCAGACCATAAAAGGGACTGTCTGACAGCAACCCTTCCGTCACGCCGAAGGTATGCAGGTAGGA -AGCACTATCGTTGGTGATGGCGGTGGAATAGACGAACATCCAAATCACCAGCATTACGAAATAGAGCGCACCTAACAGGA -TGCCCCAGTTTTTACCTAAATAACCGCTAATGACGCTCGGGTAATCTTTACATTCTGGTGATTCTGCCAGCGTATTAATA -AACAATCGCTGAAACAGATACATTGCCGGGTAACCAATCACCGATGAGAGCAAAAATACCCACAATCCCATCAAACCGAC -CTGCACCGGGAGAAAAACAATCCCCGCGCCAATCGCCATCCCGATACTCATAATCACCCAGCCGGTGTCAGTACTGTCGA -ATTTGATCGCTTCTCGCCACTCGCTCTCACTCATTCCAGCACGACCCGCCGGGGTCGAAGCGTCTGCAATGACGCCTTTA -TTCGATGCAATTTCCATAATTTCTCGCTCAATATTTTGTAGGGCTTATTATTTTTTTCCGAGCCGCATCAAGGCGATATG -CGGTCTACGTTTTTGCAGGCGAGTTATTAGAATAAAGAAATGATACGCGCGAGGTCAGAGAAAATCTTCACAATCAAGAC -TTTGAAATAACGGAGATGGATAAGAATTTTCTACTAAATTAATCGCAGGAGAATATTCATTCTCTATTTGCGGCAGATCA -CAAAAAAAAGGTGCACATTTGTGCACCCAAGGATGAAAGCTGACAGCAATGTCAGCCGCAGACCACTTTAATGGCCAGTC -CTCCGCGTGATGTTTCGCGGTATTTATCGTTCATATCTTTGCCGGTTTCATACATCGTCTCGATCACTTTATCGAGTGAA -ACACGCGGTGCCGAGGTGCGGCGCATCGCCATCCGCGCGGCGTTTACTGCTTTCACGGCATTAATGGCATTACGTTCAAT -GCACGGGATTTGTACCTGTCCGGCAACCGGATCGCAGGTCAGCCCAAGGTTATGCTCCATCGCGATTTCCGCCGCATTGC -ATACCTGCGCCGGACTGCCGCCCAGTAGTTCAGTTAACCCTGCCGCCGCCATTGAACAGGCCACGCCAATCTCCCCCTGA -CAGCCGACTTCCGCGCCAGAGATGGAGGCGTTCATTTTATACAGCGCGCCAATAGCCCCCGCGGCCAGAAAATAGCGGGC -AATTGACCGCTCGTTTACCGGACGACGGAACTTATCGTAATAAGCCAGTACTGCCGGAATAATGCCGCACGCACCGTTAG -TCGGTGCCGTTACCACGCGCCCGCCAGCTGCGTTTTCTTCACTAACCGCCAGCGCGTACATGTTGATCCAGTCGATGACA -TTCATCGGATCGTTAGAGATGTTATCGCTGGAAACCAGCTGACGACGCAGCGCTACGGCACGGCGCGGCACATTGAGCGG -ACCAGGCAGCACGCCTTCAGTGTTCATCCCACGTTCAATACCGTCATGCATCACTTGCCAGATACGGGCAAAACCGGCGT -CAATTTCCGCTTTGCTGCGCAGCGCTAGCTCGTTGTGCATCATCAGACCAGATATAGACAGGCCGTTGTAATCACACATT -TTCAGCAGTTCACCTGCTGAGTGGAAATCGTAAGGTACGGACGTTTCGACATCGTGCGACAGGCCGAAGTGTTCTTCTTC -GACAATAAACCCGCCGCCGACAGAGTAATAGGTTTTACTTAATAGCTCTTCCTGTCCCTTCCAGGCAGTGATCCGCATTC -CGTTCTCATGGCGAGGCAACATTTCGGGATGGAAGATAATGTTCTTTGCTACAGGAAAATCAACAATATGCGCACCAGAT -GCCACTGGCAGCCGCCCGCTGCGCGTTACTAACTCTATAAATGCAGGGATCTCATCAATGACAACATCCTGCGGACTGTT -TCCTGCCAGTCCCATGATGATGGCGACATCCGTGGCATGGCCTTTGCCCGTCAGTGACAACGACCCGTACAGATCGACCA -CAATATGGCTCGTCGCGGTTAATAAGCCGCTACTTTCCAGCCGATCAATAAAACTTTTTCCGGCATTCATTGGCCCCACG -GTATGCGAACTGGAGGGACCAATCCCAATTTTGAAAATATCGAATGCACTAATCATATCCACACCCTCGGATTGCCGTTC -AGTGAAGTGGAGCGGAACGACCTTACGACCGTCCCGCTCACGAGGCTTTACGCACTACGTACTGCGATGGCTTCAATTTC -CAGCTTCACATCTTTCGGCAAACGCGCGACCTGCACACAGCTCCGGGTCGGATAGGTCGCCTGATGCTCATCGAAGAACT -GCTTATAGACTTCGTTGATGGTGGCAAAATCATTCAGATCGGTGATAAACACGGTCATCTTGATGATATCGCCCACGCTC -AGCCCGGCAGCAACCACGATCGCTTTGACGTTTTCGAGGCTTAAACGCGCCTGATCTTGCACATCAGCCGGGATCTCACC -GGTCTGTGGGCAAACCGGTATTTGCCCGGAGGTGAAGACCATGCTGCCTAAATCAACGCCCTGAACATAAGGGCCGATTG -CGCCTGGGGCACGTTGCGTTTCGATAATCTTTTTCATACATCCTCCGGCGTCAGAGCGCCTGGGTAAAGGTACGTGAAAT -AACATCCTGTTGCTGTTCACGGGTCAGTGCGTTGAAGCGCACGGCGTAGCCAGAGACACGGATTGTCAGGTTAGGATATT -TTTCCGGGTGCTCGATGGCATCCAGCAGCATTTCCCGATTCATTACGTTGACGTTGAGGTGTTGACCGCCTTCGACATCC -GCTTCGTGGTGGAAATACCCATCCAGCAGGCCGACAAGGTTGGTTTTACGTACTGGATCTTCTTTGCCCAGCGCCGCAGG -AACGATTGAGAAGGTGTACGAGATCCCATCTTTGGCGTAGGTGAACGGCAGTTTCGCCACCGACGTCAATGAGGCCACGG -CACCTTTGCGGTCACGACCATGCATCGGGTTAGCGCCCGGCGCGAACGGTGTTCCGGCGCGACGACCGTCCGGCGTATTA -CCGGTTTTCTGGCCGTACACCACGTTAGAAGTGATAGTCAGAATCGACTGGGTAGGGACGGCGTTGCGATAGGTTGGCAG -CGCTTTAATTTTCTTCATAAAGCGTTCAACCAGGTCGCAGGCAATGCTGTCTACGCGCTCGTCGTTGTTGCCGTACTGCG -GATATTCACCGTCGATTTCAAAGTCCACCGCCAGGCCGTTTTCGTCACGGATTGGTTTCACGCGGGCATATTTGATGGCA -GACAGGGAGTCCGTCGCCACCGACAGGCCCGCGATGCCGCATGCCATAGTGCGATAGACATCACGATCGTGCAGCGCCAT -CAGCGAAGCTTCGTAGCTGTACTTGTCGTGCATGTAGTGAATGATATTCAGCGCGCTGATGTACTGCACCGCCAGCCAGT -CCATGAAGTGATCGAGGCTGTCCATCACTTTGTCGTAATCCAGCACGTCGTCCATCAGCGGTGCTGTTTTCGGCCCGACC -TGAATCTTCAGCTTCTCGTCCACCCCGCCGTTAATTGCGTAGAGCAGCGTTTTCGCCAGGTTAGCGCGTGCACCAAAGAA -CTGCATTTGCTTACCAATCACCATTGGGCTGACGCAGCAGGCAATCGCGTAATCGTCGCTGTTGAAGTCAGTACGCATCA -GATCGTCATTTTCATACTGCAAGGAAGAGGTGACGATCGACACCTGCGCGGCATATTTTTTGAAGGCAATCGGTAATTCT -TCCGACCAAAGAATGGTCAGGTTAGGTTCCGGTGCCGGCCCCATAGTGTGCAGGGTGTGCAAATAGCGGAAGGAGTTTTT -GGTCACCAGCGTACGACCGTCCAGCCCCATCCCGCCGATCACTTCCGTCGCCCAGATTGGGTCGCCGGAGAACAGCGAAT -CAAATTCCGGTGTACGCAGGAAGCGTACCATACGGATCTTCATGATGAAGTGATCGATCAGTTCCTGTGCCTGCTGCTCA -TTGAGTACGCCAGCTTTAAAGTCGCGCTCAATGTAGATATCGAGGAACGATGCCGTGCGGCCCAGCGACATCGCGCCGCC -ATTTTGCGATTTCACTGCCGCCAGATAAGCGAAGTAGAGCCACTGCACCGCTTCCTGCGCATTCTGCGCCGGGCGAGAGA -TATCAAAGCCATATTTCGCCGCCATTTCCTGAATCTGCAACAGCGCATGACGATGCTCTGCCAGCTCCTCACGCAGACGG -ATGGTGGCTTCCAGATCCTCGCCTTTTTCCAGACGAGACTGGAGATCGGCAAATTGCAGTTCGCGTTCACGTACCAGATA -ACTGATGCCATACAGCGCTACGCGGCGATAGTCACCGATAATGCGCCCACGGCCATAGCCATCTGGTAAACCGGTCAGCA -CGCCAGATTTACGGCAGCGCAGCATATCCGGTGAGTAAACATCAAATACGCCCTGGTTATGGGTTTTACGCAGATCGGTA -AACAGATATTCAAATTCACTGTCCATTTCTCGGCCATAGGCGTGGAATGAACTTTTAATCATATTAATGCCACCGAACGG -GTGTAGCGCACGTTTCAACGGCGCATCCGTTTGCAGGCCAACAATTTTTTCCAGCGGCTGGTTAATATATCCCGCATCAT -GAGCGGTAATTGTGGTGGCAATATTGGTATCGAAATCAACCGGCGCGTGGGTTGCATTTTCGATACGGATGCCTTCCATT -ACTTTTTCCCACAATTCCGTGGTGGCAGGCGTCGCTTCGGCGAGGAAAGATTCATCGCCTTCATACGGTGTATAGTTATG -TTGAATAAAATCGCGGACATTAATTTCGTTTTTCCAGTCCGTACCTTTAAAGCCAAGCCATGCGTCGGCGTACAGCTTAT -CGCTGGTATCAATATCTACCTTCATGAAAAATAATCTCTCTACAATACTTCAACTAAATTATGCAAATTCTGCGGGCGCG -TTAACTTTGCCTAAATGAATGGCATCCAAAGCAATCATTTTTTCTTCGTTAGTCGGAATAACGGCACAAATGACACGCGC -ATTTTCACTGGAAACAATTCGCTCACCACAGGAGTTAGAGCGATTATTCATTTCTGTATCAATCTCTAAGCCTAATACAG -CCAAATGTTCCATGACCAGACGACGAATTAAGCTTGAATTCTCTCCTATTCCGCCGGTGAATATAATTCCATCCAGGCGA -CGTAATGAAGCTGCGTGTCCGGCAATATGACGGGCAATTCGGTGAACAAAGGTTTTAATTGCCAGTTGCGCGCGTTCGTG -ACCTTCATGCCAGGCTTTTTCCAGAACACGTAAATCCGAAGAAAGACCGGAAATACCTAATAATCCCGACTCTTTATTCA -CTACGCGTTCCAGGTCACCCAGGCTCTGGTTGGTTTGGCTGGCGACCCAGGACATCGCACCAAAGTCGACATCGCCACTG -CGGGTACCCATCATCAAGCCTTCCAGCGGCGTCATTCCCATTGAGGTATCAACACTCTGACCGTTGCGAACCGCGCAGAT -TGACGCGCCATTGCCAAGATGCGCCACAACCAGGCCGGAGTCATCTTCCGCCAGATTCAGCAGCGAATGTGCGCGCTGGG -AAACATAGCGGTGCGACGTGCCGTGGAAACCATAACGGCGTACACCTAACTCTTCATAATATTTCCACGGCAGGCCGTAT -AAATAAGCTTCCGGAGCCATCGTCTGGTGGAAACTGGTATCAAATACCGCCACCTGAGTTACGCCCGGAAATAATTGCTG -CGCCGATTCAATACCACTTAAATTGGCGTAATTATGCAGGGGTGCCAGTGGAGAAACGCGACGGATATTATCAATGACTT -CATCGGTAATAATGGCGGACTCGGTAAAAATACTGCCGCCGTGAGCGATGCGGTGGCCAATTAAGGCCACACTGTCATTT -AAATTCCGTTTTTCCAGTTCAAATGCAATTGCCTTCAATGCACCTTCGTAGCTGTGGTGAGCCAGCGGTGCTGGCTCTCC -CCCATTTACGGATAAGAATGCATTTTCCGAGTTAATACCGTCGGCAATACCTGACATTAATACTTCACAGTCGCTGGCAT -CGAGCACGGAAAACTTAATCGAAGACGAACCACAGTTAATAACCAAAACAACCGGAAATTCATTCATCTCTTTTCTCATC -CTGAGTTACGGATTAAAACAGTTTGTATACGATGTTCAGGATGGTCAGCAGACCAATCACGGTAACAAACACGTTATCCA -GACGACCACGGTATTTCGCCAGAGACGGCGCTTTACGGATGGCATACATCGGCAACAGGCACAGCAGGGATGCGATAATC -GGTGCGCCCATGGCTTCAATCAGGTCAAGGATGTTCGGGTTGGCGTAGGCAACAACCCAGGTGGAGCCCATGATGAAGAT -CATGCTGATAGTGTTCAGTTTACCCAGCGACACTTTAGTTTTGTCGCCTTTATAACCAAACTTCAGGACCAGGCCATTCA -GACCTTCCAGCGTTCCCAGATAGTGACCGAAGAAAGATTTGAAGATAGCCACGAGTGCGATGATGGAAGCCGCATATTCC -AGTGTAATCGCGAACGTTGTTTTGGTACCGGTCATGGACGCAAAGTGGTTAGCCAGATAAGAAAGCACTGGAATATTCTG -CGCTTTGGCTTCCGCCATGTTGGCCGGAGACAGAGTAAACAGGCAGCTAAAGGCAAAGAACATCACCACTGCAACCATCA -GCATGCTGGCACGAGAAATGATTTGGGAACATTTACGTTCGGTGAAGTCGCGACCGAAGTCTTTCTCATACTCTTCACGC -TTAGAAACCACGAAGGAAGAGACGATTGGCGAGAAGTTAAAGGAGAAAACCATGATGGAAATCCCCAGCCAGACAGTGAT -CAGGATACCGTCATGACCGGTTAACGACAGCGAACCGAGGTCAACCTGGTCGATAACTGCAGAGTTCCAGTAAGGGATCA -GCGACAAAGAAATCAGCACCAGGCTGGCGATAAACGGCCATACCAGGTAGCTCATCACTTTAACCATCAGATCCTTACCA -AACCAGATGACGAAAGCCATCAGCAGCAACAGGAACAGCGCCACAAAGCCGCGATTCAGCGGTGCAAAGCCGAGCTGGTT -TTCCCAGAACGTCATAAAGGTATTGGTAATAGTAACGCCATAAATCCACAGCAGTGGGCAAATCGCGAAGAAGTACAGGA -ACGTGATAACCACGCCGCCAGTTTTACCAAAATGCTCTTCCACCGTTTCCGTAATGTTGCCGGAAGGGTTAGAGCCAGAA -AGACACAGACGCGCCAGCGCCCGGTGGCAATAAAACGCGATGGGGTATGCCAATACCAACATCAGAAGAATCGGGATCAG -TCCGCCAAAACCTGCGCGGATAGGGAAGAACAGCACCCCGGCGCCGATTGCCGTACCAAACAAGCCTAACGTCCATGTGG -TATCTGATTTACGCCAGGACGATTGTTTTGTCTGGCTGGATACAATGCTATCTGAAGTACTCATATCCTATCCTCAACGA -ATTAATTAAGCGTCAACGAAACCGGTGATTTGAGAGACGCGAGAAAGATCGATATTGCCGCCGGAAATAATACTGACGGT -TTTTCTGTTTTGAATATATTGGTCTAATTTACCGCTTAATAATGCAGCACATGCCAGAGCGCCTGCGCCTTCGGTGACGA -CTTTATTGCGCTGAATTAAGGCAATCATACTGTTTCTGATTTCGTCTTCGCTGACCAGCACGATGTCATCGACTAATTCA -CGAACGATTTCGTAAGTTAAATTACCCGGGCGGGAGACATCACAACCATCCGCCAGGGTGCCGGTAGTTCGGTGCGTGGT -TATTTCTCCGGAGTGGAAAGAAGCCGCCATGCCGTGAACGTTTTCAGACTGTACGCCAATAACACGAATGGTCGGGTTAA -TAGATTTAATTGCCACCGCAATACCAGCAATTAAACCGCCACCACCAATTGGCACAATCACGTTATCGACATCATAGAGA -TCTTCCATAATTTCCAGACCAATCGTTCCCTGGCCAGCAATCACTTTCGGATCATCGTAAGGTGGGATAAAAATACGGCC -TTCCATTTCGACAATTTCGCTCACTTTAGCGATAGTGTCGTTGAAGTTATCACCATGCAGAACGACTTCTGCGGAGTAGT -CGCACGTTGCCGCTACTTTGGATTTTGGCGCACCTTTTGGCATCACCACTTTACCGTCGATACCCAGCATCGCGCAGGAG -AGGGAAACCCCTTGCGCATGGTTGCCCGCAGAACAGGCCACCACGCCTTTGCGTTTTTCCGCATCGGTCAGTGAACTTAA -TTTATTAAATGCGCCACGAATTTTAAATGAACCCGTACGCTGCATATTTTCAAACTTCAGGAATATTTCACCTTTGCAAC -GTTCACTAAAATAGTTGGAGCGAGGCATGCCTGTTTTATAAATTCGCCCAGCCAGTCGTTGTTTCGCTTCAATAATGTCA -TCAATAGCAACCGGCAGATCGTATGTAATATGCATTATAAAACCTCTTCGCCTGAATTAAATATGTAGGTAACCGTAACC -GACACCTGCAAGACAGACAGGTGGATTATTTATGTTTAAATAAAAACAAATAACTAACCAACTTCTATTAATTGCCTTCG -TCTACACCCATTATAAGATGAATACTCTTTGGCTAATTCCACCAAAACCGATGCTGCTTTTTTAATACGATAATTTTTCG -ACCATACCGCGGCATATTGTGCCACAGGTAATGTTTCTTCAACCGGAATAGTAATAAATTGATTAGAACCAAAAGGTGAC -GTCATATCACAAGGAATTACAGTTAAGAAATCAGCATTGAGAACAAGATTATAAATTGTCACGACTGAGTCGGTTTTAAC -GATGTTTTCAATACTGATGCCATTTCTTTGTAACGTAGTAAGCAGTTCGCTGTAGTACCCCATATTAGTTTGTGGCAACA -CCCACTGTTCGTTCTTCAACGACTCCAGCGTGGTGGTGCCGGTGCATGTTCGGGACTTACTGGCTACCAGCACAAACTCG -GACTCGAACAGCGGCTCAACATGTAAATCCTGAAGCTTCATTTCTGCACTTAACGTACCAATCGCAAAATCCAGTCGACC -GTCGCGGATTGCCGGTAAGAACGAAGACAGTTGCGCTTCATACATAGAAACCTGCGCTTTCGGGAACACCTCTTTGAACT -TGTTGATCATCCCTGACATAAAAGTAAAACCAATCAATGAAGGAAAACCAAATGAGACTTCCACCACCGCCTCAGAAGAC -ATACCGCTTATCTCATTAACCATATTTTTCATTTCACGGGTAATGGATTCGGAACGGGAGAGTAACAATTGACCGGCAGG -TGTTAATGTTACACCGGTATTTTTCCGCACCACTAATTCCACACCAAAATAATCTTCAATATCGTTAATGATTTTACTGA -CGGCCGGTTGAGTTAACCCTAATTCTTTTGCAGCCGAGCCGATAGAACCACTTCTAATGACTTCCTGAAAGACTACCAGG -TGCTGCGTTTTCGGAAGAAGAATAGTGCTCATAACGACCTACGTTAATTACCTCATTGACGGCATGAAGTGTATCAAAAT -GAAATGAACAGGATATGTGCGACCACTCACAAATTAACTTTCAATACTTTCCAGAGTATCGTTATTACAATTAAATACCT -TTAAATATCAACAAGTTAAAGTATAAAAATCAGCATAAACCCTGATTTTTGTCAAAAAAAATGACGGGGATAACCATATT -TTATGGCGATAACATCATTCGTTATGTGGTTAATACAAAAAAGGGGCTGAGACCATATTTCAAGCAATTACCGGATAATT -ACCAGGCAAAATTTGAGTTAAATTTAATGAGCAAGTTCTCAAATTTTATTATAAATAAACCATTTTCAGTGATAAATAAT -GCGGCATGTCACATTTTTTCACGCTATTTGTTGGAGAACAAACATTTATTTTATCAATATTTTAAAATTTCGAATACATG -TATTGATCATCTCGAACAATTGATTAACGTCAACTTTTTCTCTTCTGACAGGACGTCATTTTGTGAATGCAATCGTTTTC -CATAAATTCTTCTCCCCTCATAGGCGACGAATAGCATTTTGTGTTGAGGATCACAAAACGAATAATTGCTGATCGCCGCG -ATAAGGTCAGACAAAGACAACAAGGGAAATTTTCACAGAGCTTTTGATCGGCGTAGGCCACAGAATGTTGCTTCGTTTAC -TGTAACGCCGGGTAAATGAGCGTTTTTTGATAGTGCGAAAGAACCCTGCGAGGAAAATAAGCATCTATTATTGTTTGTCA -TGATGACAAGGCAGGCATCAATGAAAGGCTTCCCAATTGCGCATATTTTTCACCCTTCAATCCCGCCAATGCACGCAGTG -GTTAACAATCACAATAGAAATATTGATTATTGGACGGTAAAAAGAAAGTTTGCAGAAATTGTCTCCACCAATGACGTTAA -TAAAATTTACAGTATAAGTAATGAACTGCGGAGAGTATTATCTGCAATAACTGCATTGAATTTCTATCATGGCGATGTTC -CTTCTGTCATGATCCGAATCCAACCGGAAAATATGAGTCCATTCATTATAGATATTTCTACAGGAGAACATGATGATTAT -ATCATACAAACATTAGATGTAGGCACTTTTGCACCTTTTGGTGAACAATGTACTTGCTCAGCCGTCAATAAAAAAGAGCT -GGAATGTATTAAGGAGACGATTTCTAAGTATTGTGCAAAATTCACCCGAAAAGAAGCCATCTTAACCCCCCTTGTGCACT -TTAATAAAACCAGCATTACTTCAGATTGTTGGCAAATTCTCTTTTTTTCACCCGATCATTTTAATAATGATTTTTATTGA -TTATTTATAAAGGATAAAATAATGTTCCCTGTTTCATCAATTGGTAATGATATTAGTAGTGATTTAGTCCGTCGAAAAAT -GAATGACCTTCCTGAAAGCCCAACAGGAAATAACCTCGAAGCACTAGCACCAGGTATAGAAAAACTAAAACAGACCTCTA -TTGAAATGGTCACTTTACTTAACACGTTACAACCTGGTGGAAAATGCATTATCACTGGTGATTTTCAAAAAGAATTAGCG -TACTTACAAAATGTAATTCTTTATAATGTCTCGTCTCTTCGTCTGGATTTTTTAGGTTATAACGCCCAAATTATTCAACG -ATCGGACAATACTTGTGAACTTACCATTAATGAACCGTTAAAAAACCAGGAAATATCCACAGGTAATATCAATATTAATT -GCCCATTAAAAGATATTTACAATGAAATCAGGAGGTTAAACGTAATTTTTAGTTGTGGGACTGGAGATATCGTTGATCTA -TCCTCTCTGGACTTACGTAATGTCGATTTAGATTATTATGATTTCACAGATAAACATATGGCTAATACTATTTTAAATCC -TTTTAAATTGAATTCAACAAATTTTACTAATGCCAACATGTTTCAGGTTAATTTTGTTAGTTCAACACAAAACGCCACAA -TCTCCTGGGATTATTTACTAAAAATAACGCCTGTTTTAATAAGCATTAGCGATATGTATTCTGAAGAAAAAATCAAGTTT -GTCGAAAGTTGTTTAAATGAGCCTGGAGACATTACCGAAGAACAATTAAAAATTATGAGATTTGCAATTATAAAATCTAT -ACCAAGGGCAACTCTTACAGATAAATTAGAAAATGAATTAACAAAAGAAATATATAAAAGCTCATCGAAAATCATCAATT -GCTTGAACAGAATTAAATTAACAGAGATGAAAGAATTCTCATCAGAAAAAATATATGATTACATCGATATAATCATTGAA -GATTATGAAAATACCAAAGAAAATGCTTATCTGGTCGTCCCCCAAATTAATTATACTATGGATTTAAACATAGAAGACTC -TAGCTCAGAAGAGTTACTTTCAGATAATACCCTCGAGAAAGACGAAAATTCTCCGGACAATGGCTTTGAGGTCGGGGAAT -ATAACACATATGAAGCATATAACTCAGAGAAGCAATATTTTACCAGAGAGGACTATACGTATGATTACGACCTTTTAAAT -GCAATATAGACTTAATAACTTCTTACAAAGTCTATTATTAATACCGTAGATATTTATTCATCTTACCCTGTGCACCAAAA -GCAAAAACTCACTGACGCGGGTTTGAAACTGATGGCAACCGCAAAAATGCCTGATGCGCTACGCTTATCAGGCCTACGCC -ATCTCTGCAATATATTGAATTTGCGTGCTTTTGTAGGCAGGATAAGGCGTTCACGCCGCATCCGGCATGAATAAAGCGCA -CTCAACAATCTGAAACCCGCCGGAACGGTTTATTACGTACATCAGGTAAAACTGACCGATAAGCCGCTTTCTTTTGGGTA -TAGTGTCGTGGACAGTCATTCATCTTTCTGCCCCTCCAAAAGTAAAAACCCGCCGAAGCGGGTTTTTACGTAAAACAGGT -GAAACTGACCGATAAGCCGCTTTCTTTTGGGTATAGTGTCGTGGACAGTCATTCATCTTTCTGCCCCTCCAAAAGCAAAA -ACCCGCCGAAGCGGGTTTTTACGTAAACCAGGTGAAACTGACCGATAAGCCGCTTTCTTTTGGGTATAGCGTCGTGGACA -GTCATTCATCTTTCTGCCCCTCCAAAAGCAAAAACCCGCCGAAGCGGGTTTTTACGTAAATCAGGTGAAACTGACCGATA -AGCCGGGTTCTGTCGTGGACAGTCATTCATCTAGGCCAGCAATCGCTCACTGGCTCAAGCAGCCTACCCGGGTTCAGTAC -GGGCCGTACCTTATGAACCCCTATTTGGCCTTGCTCCGGGTGGAGTTTACCGTGCCACGGACTGTTACCAGCCGCGCGGT -GCGCTCTTACCGCACCCTTTCACCCTTACCTGATCCCGCTTGCGCGGGCCATCGGCGGTTTGCTCTCTGTTGCACTGGTC -GTGGGTTTCCCCCCCAGGCGTTACCTGGCACCCTGCCCTATGGAGCCCGGACTTTCCTCCCCTCCGCCCGTCTCCCCCGA -AGAGGACGACGACGAAGCGGCGACTGTCTGGTCAGCTTCGGCGCGCAGTATAGAGGGTTTGCGCGCCCTTGTCACCCCGC -GTTGCGCATTCCAATCGCCAGTGTCGCGGCGATATTACGTGAAGCACGGCAGATATTGTCATAAGCCCCGCGGAATGCTT -CGTCCAACGTACCTATGCTGGTCAATACGCTGAAGACCGCATCAATGCCATGCTGATGTACAACGCCAACATCATCGGTC -AGGCTACCCGCAATGCCAATCACCGGTTTATGGTACTTCTTCGCCACGTTTGCGACACCAATCGGTACCTTCCCGTGAAT -ACTCTGGCTGTCAATACGCCCTTCACCGGTGATCACCAGCGTACAATCGTGAATATGTTCCTCCAGATTCAGCGCCGTAG -TGACGATTTCAATACCACTTTTCAGTTCCGCACCAAGAAACGCCATTAGCGCCGCGCCCATACCACCCGCAGCTCCTGCA -CCGGGGACATCTTTCACATCAACATGCAGCGCTTTTTTAATGACCTCGGCATAGTGAGAGAGGTTATTGTCCAGCTCAAC -AATCATCGCTTCACTGGCTCCCTTTTGTGGGCCAAAGATGCGCGATGCGCCGTTATCGCCCACCAGCGGATTGGTGACAT -CACAAGCGACGCGAATGACGCAATCTTTTAAGCGCGGATCGAGGCCGGAAATATCAATATCATTCAGAGTATTAAGACTA -CCGCCGCCAAAACCAATTTCATTGCCGTTGGCGTCGCATAATTTCGCCCCCAGCGCCTGTACCATGCCTGCGCCGCCATC -ATTTGTAGCGCTGCCGCCAATGCCGATAATAATGTTTGTCGCACCGCTCTCCAGCGCCTGCAGGATTAACTCGCCTGTGC -CGCGTGAAGTGGTCACGAGTGGATCGCGTTTTTCCGCAGGTACCAGCTCCAGCCCACTGGCCGCCGCCATTTCAATAAAC -GCGGTTTTGCCATCGCCGGAGATCCCCCAACTGGCATTCACTTTCTCGCCCAGCGGCCCTGTAACCCAGGCGTGACGTTC -AGCCCCCTGGGTGGCTGCAATCATCGCTTCCACCGTTCCTTCGCCACCGTCGGCAACCGGAACAGAAACGTACTGTGCAT -CAGGAAAAATTTCCCGAAATCCTTTTTCTATCGCCTGCGCAACCTCGCTGGCAGATAAACTTTCTTTATAAGAGTCTGGG -GCGATTACGATTTTCATACCTATGCCTGTTACCACATGACGCCGGAGGGCGTTTCTCTTATTCGGCCTGGATTCCAGGCC -CGGATTGCAATACGCCATCCGGGCACGACGTCATTAACGAGTAACTTCGACTTTCGCCAGTTTTTCGTAGTAGCACGCCA -GGGCGCTATGATCCGCCGTTCCTAAACCATCTGCTCGCAGTGCCTGCATCATCTCCATAACCGCAGCTGTGAGCGGCAGT -TGTGCGCCGACGCCGTGAGAAGTATCCAGCGCATTCGCCAGATCCTTAATATGCAGATCAATACGGAAGCCCGGCTTGAA -GTTGCGGTCCATCACCATCGGCGCTTTGGCATCCAGCACGGTACTGCCCGCCAGTCCACCGCGAATTGCCTGATAAACCA -GGTCCGGGTTAACGCCCGCTTTAGTTGCCAGCGTTAACGCTTCTGACATCGCGGCAATATTCAGCGCCACAATGACCTGA -TTTGCCAGTTTGGTGACGTTACCTGCACCGATTTCCCCGGTATGCACCACGGAACCCGCCATCGCTTTCATCAAATCATA -GTATTTGTCGAAAATAGCCTTGTCGCCGCCCACCATCACTGACAGCGTACCGTCGATGGCTTTCGGTTCACCGCCGCTCA -CCGGAGCATCCAGCATATCAATGCCTTTCGCTTTCAGCGCTTCGCTGATTTCACGGCTTGCCAGCGGTGCGATAGAACTC -ATATCGATCAATACCGTACCTGGCTTCGCGCCTTCAATAATGCCATTCTCACCCAGCGCCACCTCTTTCACATGAGGGGA -GTTTGGCAGCATGGTTATGATGACGTCGCACTGTTCAGCGATCGCTTTAGCCGTAGACGCTGTTTCTGCACCTGCAGCAA -TCACGTCAGCAATAGCTTCTGGGTTACGGTCAGCAACCACCAGCGAGTAACCTGCTTTCAGAAGGTTTTTACTCATTGGT -TTACCCATAATCCCCAGGCCAATAAAACCAACTTTCATAGTCATATCAATCATCTCTCTTGTTGCGGTGGTGGTTATTTT -TTAAAGGTATCAGCCAGTTTCTGAGTGGCAGAGCGGAAGACGCCGAGATCGCTGCCGACAGCCACAAACGTCGCGCCCCA -TTCCAGATAACGACGCGCATCGGCTTCGACCGGCGCGAGGATACCGCTGGGTTTGCCGTGCGCGCTGGCACGGTTAAAAA -TGTGCTGAATTGCTTTTTGTACATCCGGGTGTGATGCATTGCCGAGATGGCCTAATGCCGCGGCCAGATCGCTGGGGCCG -ACGAAGATGCCGTCTACGCCTTCGGTAGCGGCAATGGCATCGACGTTATCTACGCCCTGCTGACTTTCTATCTGGACCAG -AATAGTGATGTTCTTGTTCGACTGAGCGAAATAATCCGCCACGGTGCCAAACATATTGGCGCGGTGAGAAACGGAGACGC -CGCGAATGCCTTCCGGTGGGTAACGGGTTGATGCCACCGCCAGCTCTGCTTCCTCTTTTGTTTCTACAAAAGGAATCAGG -AAGTTATAGAAACCGATATCCAGAAGACGCTTAATAATTACCGGCTCGTTGGTCGGCACTCGCACTACTGGCGCGCTGGC -GCTGCCTTTCAAGGCCATTAACTGCGGAATAAACGTGGAGATATCGTTTGGCGCATGTTCGCCATCCAGCACCAGCCAGT -CAAACCCAGCCAAACCAAGAACTTCAGTGCTAATCGGGTTAGAGAGTGCTGACCAGCAACCAATTTGTACCTGTTTCGCA -GCCAGTGCGGCTTTGAATTTATTCGGGAAAACATCGTTATTCATCGCTTATACCTTTGCTTATTTCTGCAATTCCATACG -TTTAATGTCGCCAACTACGAAGAGGTAGCAGACCATCGCCATCAGCGCTGAACATCCCACGAAAACCAGTGCTGCATTGA -AGGAGTGCAGTTCACTTACCAGGTAGCCAATCACCAGTGGAGTGACAATGGAGGCAACATTGCCAAAGACGTTAAAGACG -CCGCCGCAGAGGCCAACAATCTCTTTCGGCGCGGTGTCAGAAATCACCGGCCAGCCCAGCGCACCAAATCCTTTGCCAAA -GAAAGCCAGCGCCATCAGCATGACCACCAGCGTGGTGTTGTTGGTGTAGTTACATAAGATGATGGTGGAAGCCAGCAACA -TTCCCAGCACAATCGGTAGCTTACGTGCCAGGGTCAGGGATAAACCGCGTTTGATCAGATAATCCGAGAAGACACCTCCC -AGCACGCCGCCCGCAAAACCACACAGTGCTGGAATCGAGGCGACCAGACCCACTTTCAGAATCGACATGCCTTTTTCCTG -CACCAGATAAATCGGGAACCAGGTGAGGAAGAACCAGGTGATGGTGTTGATAAAATATTGTCCGAAAAATACGCCCAGCA -TCATGCGGTTAGAGAGCAATTGCTTGATGTAATGCAGTTTGGGTCCGCTTGCTGCCGCACTGCCCGGCTTTTTGTGGTCC -ATATCGACCACCGCGCCATTTTCAGAGATAAACTTCAGCTCTTCCGCAGACATACGTGGGTGATCTGTCGGGTTATGAAT -CAACTTGATCCACAGCGCCGTCAGCACAAAACCAATCACCCCCATAACGGTAAAGACGTGCTCCCAGCCCCAGGCGAAAG -TCAGCCAGCCAAGCAGCGGCGAAAAGAGCGCCAGCGAGAAATATTGCGCCGAGTTAAAGATGGCGGAGGCAGTACCACGT -TCTTTCGTCGGGAACCAGGCGGCGACAATTCGGGCGTTCGCCGGGAATGATGGCGCTTCCGAGAAGCCGAGCATAAAGCG -CATAAAGAACATGGAGATCCCTGCCCAGGCCAGCGGGAACATATCAACAAAGCCTTGCAGGAAGGTGAATAGCGACCAGA -AAAAGAGGCTGTAGGTGTAAACTTTTTTCGAGCCAAACTTATCAAGCAGCCAGCCGCCGGGGATTTGCATCAGCAAGTAG -GCCCAGCCAAAAGCGGAGAAGATGTAACCCATCGAAACCGCACTTAACTGCAACTCTTTTGCCACTTCGGTACCAGCAAT -AGACAGCGTTGCACGATCGGCGTAGTTAACGGCGGTAACAATAAAAATAATCAGTAATATTAAATAGCGGGTATGCACGC -CTTTCTTTTTTTCGTCAACGGTGTCCAGAATCATTTTATTTACCTCGGGTACTTATGCTGATTTTTATTATTATGGGGAA -GGTGTTATTTATGAGTTTCATTTATGCCGTAACGACAATGAACTCGGGAATTAGTATAAGCAGCGCGAGAATAATAATCA -TTGTGCAAATGCTAATTTAATTAATACTATTTAAATATTATTTTGAGCATATGCACATAAGGTTGCGCGCTAAAGCACAG -ATTTGCGCTTTACCTTACCGGGCGGCACTGCAATCCCTGAAATGATTGACATTGATCACATTTCTGCGTTTAAACTCCTG -ACATTCTTATTTCACCCAATGAAGTCATTTATTTTTAAATGAGACCAGGTCCTCATTTTAATAACCCCTGGCTGGAGAAT -ATTGCACAATGGCCAACATCGAAATCAGACAAGAAACGCCAACTGCGTTTTATATAAAAGTTCACGACACAGATAATGTG -GCAATTATTGTTAATGATAATGGCCTGAAAGCAGGAACGCGTTTTCCGGATGGGCTGGAATTAATTGAACATATTCCCCA -GGGGCATAAAGTCGCATTGCTGGACATTCCGGCTAATGGTGAAATTATTCGTTATGGCGAAGTGATTGGTTACGCCGTGC -GTGCAATCCCACGCGGAAGCTGGATCGACGAATCAATGGTTGTACTACCGGAAGCGCCGCCGTTACACACGCTGCCACTG -GCAACCAAAGTCCCGGAACCCTTACCGCCGCTGGAAGGATACACCTTTGAGGGCTATCGCAATGCCGATGGCAGCGTGGG -CACCAAAAACCTGCTCGGTATCACCACCAGCGTCCACTGTGTGGCAGGCGTGGTGGACTATGTAGTAAAAATCATTGAAC -GCGATCTGCTACCGAAATACCCGAACGTCGATGGCGTGGTGGGGCTGAATCATTTGTACGGTTGTGGCGTGGCGATTAAC -GCACCGGCGGCAGTTGTACCTATCCGTACCATTCACAATATTTCGCTGAATCCTAACTTTGGCGGCGAAGTAATGGTGAT -TGGCCTGGGTTGTGAAAAGTTGCAGCCTGAGCGCCTGCTGACTGGAACGGATGATGTGCAAGCTATTCCAGTAGAAAGCG -CCAGCATTGTCAGTTTGCAGGATGAAAAGCATGTCGGTTTTCAGTCCATGGTCGAGGATATTTTGCAGATCGCCGAACGC -CATCTACAAAAACTGAATCAACGGCAGCGAGAAACCTGCCCGGCTTCAGAACTGGTCGTTGGTATGCAGTGCGGTGGCAG -CGATGCGTTTTCTGGTGTAACGGCAAACCCGGCGGTTGGCTATGCGTCTGATCTACTGGTGCGCTGCGGCGCAACGGTGA -TGTTTTCAGAAGTAACGGAAGTGCGTGACGCGATCCATCTGCTGACACCACGCGCAGTGAACGAAGAGGTCGGCAAACGG -CTGCTGGAGGAGATGGAGTGGTACGATAACTATCTCAATATGGGAAAAACCGACCGCAGCGCCAACCCTTCGCCGGGCAA -CAAGAAAGGCGGTCTGGCAAACGTGGTAGAGAAGGCACTCGGCTCCATTGCTAAATCGGGTAAAAGCGCAATTGTTGAAG -TGCTGTCGCCCGGTCAACGCCCGACTAAACGCGGATTAATTTACGCCGCGACGCCAGCCAGCGATTTTGTCTGTGGCACG -CAACAGGTGGCTTCGGGTATCACAGTGCAAGTGTTTACGACCGGTCGTGGTACGCCGTACGGCCTGATGGCGGTACCCGT -CATTAAAATGGCAACCCGCACCGAGCTGGCGAACCGCTGGTTTGATTTAATGGATATTAATGCGGGCACCATCGCTACCG -GCGAAGAAACTATTGAAGAGGTGGGCTGGAAGTTGTTCCACTTTATTCTCGACGTCGCCAGCGGGAAGAAGAAAACCTTC -TCGGATCAATGGGGGCTGCATAACCAGCTGGCGGTGTTTAACCCGGCACCGGTGACCTGATTTCTTTTGGAACGTCCCTC -GCAAAACATGGCCTTAGTGCCATGTTTTTATTGTTTAAAGCCCCCACGTCCATTAATAATGCATTTGCATTACCTTAGTT -CAAGCTTATAATTTGAGCAGAAAACAGGCTGTAAAAGGACAGTGAATCATGCCCGCTAATGCTCGCTCTCACGCTGTACT -GACCACTGAATCAAAGGTCACGATACGCGGACAAACAACTATCCCCGCGCCAGTGCGTGAGGCCTTAAAACTGAAGCCAG -GCCAGGACAGCATTCATTACGAAATTCTGCCTGGTGGGCAAGTATTTATGTGCCGACTGGGAGATGAACAGGAGGATCAT -ACTATGAATGCATTTTTGCGTTTTCTGGATGCAGATATCCAGAACAACCCGCAAAAAACTCGTCCATTCAACATTCAACA -AGGAAAGAAACTTGTCGCTGGCATGGACGTCAACATTGATGATGAGATTGGCGACGACGAATAATGGATTTTCCACAAAG -GGTTAATGGTTGGGCGCTATATGCTCATCCCTGTTTTCAGGAAACCTACGACGCTTTAGTTGCCGAAGTCGAGACATTAA -AGGGAAAAGATCCTGAAAATTATCAGAGAAAAGCCGCCACAAAGTTATTGGCGGTAGTCCATAAAGTGATTGAGGAGCAT -ATCACGGTCAATCCATCATCACCGGCATTCCGTCATGGCAAGTCGTTAGGCTCTGGGAAAAATAAAGACTGGTCACGGGT -AAAATTTGGTGCTGGTCGTTATCGTCTCTTCTTTCGTTATAGTGAAAAAGAGAAAGTCATCATTCTGGGATGGATGAACG -ATGAAAACACTCTGCGCACCTACGGTAAAAAAACAGATGCCTATACCGTATTCAGCAAAATGTTAAAAAGAGGACATCCT -CCTGCCGACTGGGAAACCCTCACCCGAGAAACAGAAGAAACCCATTGATGGTGTTCACAATGCCCGCCGAACGCATTCGT -GTTGACCAGCGGGCATCCTTTCTCACTCCCCGACCAGAATCACTTCAACCCCAGCCTTTCGCAGTCCTTCCAGGCTATCC -GCAGGAATGCCTTCATCAACAATGATCATGTCGATACGTTGAGTATCAATGATCTTATGTAAACTGGAACGATTGAACTT -ACTGGAATCGGTGACCACGATGATCCGTTCCGCAACTTCGCACATCCGACGGTTTAAACGAGCTTCATCTTCATTATGTG -TGCTGACGCCGCGCTCCAGATCGATCGCATCTACACCAAGAAACAGCATATCGAAGTGGTAATTTTGCAGCGATTGCTCA -GCCTGATCGCCGTAAAAAGATTGCGACTGACGGCGCAAATGCCCGCCGGTCATCAGCAGCTCAACGCCTTCCGCTTCCAG -CAACGCATTAGCCACGTTCATACCGTTGGTCATCGCAATTACGTCAGTGTGCTTGCGCATCAGACGAGCAATCTCAAAAG -TGGTGGTCCCGGAATCGAGGATAACCCGATGACCTGGCTGAATCAACTCAACGGCAGCTTTCGCAACGCTGCGTTTCATC -GCGGTGTTCAGTGCGCTTTTATCTTCCACTGATGGCTCGACTGACGGCGTCGTGCTATCGCAGATCAACGCGCCACCATA -GGCACGCACAGCGATCCCCTGCTTTTCCAGAAACGCCAGATCGTTGCGGATCGTCACAGTAGATACGCCATACAATGCCG -ACAGATCGTTAACCTGCACACTCCCTTGCTGTCGCAGACGCTGAATGATCTGTTCTCGTCGCTCGCTGGTGCCAGTCACT -CGCTTCTCACCTGAAGCGTCGGTATTACTCATAGTAAGTCCTTTCGTAAAACTTTCGTTTCATTTCGTTTTGCCTATTAA -CGCCTTTCTATTAAGCAAATGCAAGCCCACCTTGCCCATTGACGCAAGCTACTCTCGTTTCAGTGACTTTCATTATGTTT -CTTTTGTGAATCAGATCAGAAAACCATTATCTTTCGTTTTATTTTTATCTCACCATGACGCAGTATCAACTGAAACAAAA -CGAAAGATTAATATCGCAGTAATCTGAACTGGAGAGGAAAGTGAAACATCTGACAGAAATGGTGAGACAGCACAAAGCGG -GCAAAACAAATGGAATTTATGCCGTTTGTTCCGCACATCCGCTGGTGCTGGAAGCTGCAATCCGCTACGCCAGTGCAAAC -CAAACGCCGTTACTGATTGAAGCAACCTCCAATCAGGTAGACCAGTTCGGCGGTTATACCGGAATGACGCCCGCCGATTT -TCGCGGCTTTGTTTGTCAGCTCGCCGACTCGTTGAATTTCCCGCAGGATGCGTTGATTCTGGGTGGTGACCATCTGGGGC -CAAACCGCTGGCAAAACCTGCCGGCCGCTCAGGCAATGGCCAATGCCGATGATTTGATTAAAAGCTACGTTGCGGCAGGA -TTCAAAAAAATCCACCTTGATTGCAGCATGTCCTGTCAGGACGATCCGATTCCCTTAACTGATGACATCGTGGCTGAACG -CGCCGCCCGTCTGGCGAAAGTGGCGGAAGAAACCTGTCTTGAACACTTTGGCGAAGCCGATCTGGAGTATGTCATTGGTA -CCGAAGTGCCGGTACCTGGCGGCGCGCATGAAACCTTAAGCGAGCTGGCGGTCACCACGCCGGATGCCGCCCGCGCCACG -CTGGAAGCCCATCGTCACGCCTTTGAAAAGCAAGGTTTGAATGCCATCTGGCCACGCATCATTGCCCTGGTGGTTCAACC -CGGCGTCGAATTCGATCACACCAACGTTATTGATTATCAGCCCGCCAAAGCGAGCGCCTTAAGCCAGATGGTCGAAAACT -ACGAAACGCTGATTTTCGAAGCGCACTCTACCGATTATCAAACGCCGCAATCGCTGCGCCAGCTGGTGATTGACCACTTT -GCCATTCTGAAAGTTGGCCCAGCGCTGACCTTCGCCCTGCGTGAAGCTCTGTTCTCTCTGGCGGCGATTGAAGAAGAACT -GGTGCCAGCGAAAGCCTGTTCTGGTCTGCGTCAGGTGCTGGAAGACGTGATGCTCGACCGCCCGGAATACTGGCAAAGCC -ACTACCACGGTGACGGCAACGCGCGTCGTCTGGCGCGTGGTTATAGCTACTCGGATCGCGTGCGCTATTACTGGCCGGAC -AGCCAGATTGATGACGCTTTCGCTCATCTGGTACGTAATCTGGCGGATTCACCAATTCCGCTGCCGCTGATCAGCCAGTA -TCTGCCGCTGCAGTACGTGAAAGTTCGCTCCGGCGAGCTGCAGCCAACGCCACGGGAACTCATTATCAACCATATTCAGG -ACATCCTGGCGCAGTACCACACAGCCTGTGAAGGCCAATAAGCAAAACAAAGAGGAACACGCTATGCCAAATATTGTTTT -AAGCCGGATTGATGAACGCTTGATTCACGGTCAGGTCGGCGTTCAATGGGTCGGATTTGCGGGGGCAAATCTGGTGCTGG -TAGCCAACGATGAGGTTGCCGAAGATCCGGTACAACAAAACCTGATGGAAATGGTACTGGCAGAAGGGATCGCCGTACGT -TTCTGGACGCTGCAAAAAGTTATCGACAACATTCATCGCGCCGCCGATCGACAGAAAATCCTGCTGGTTTGTAAAACACC -CGCCGATTTCCTGACGCTGGTGAAAGGTGGCGTTCCGGTGAATCGCATTAACGTTGGCAATATGCACTACGCCAATGGCA -AACAACAAATCGCCAAAACGGTTTCTGTGGATGCGGGCGATATCGCAGCATTTAACGACCTGAAAACCGCTGGGGTGGAA -TGCTTCGTTCAGGGCGTCCCGACAGAGCCTGCTGTGGACCTCTTTAAATTACTTTGAGGGATTCATCATGGAAATCAGCC -TGTTGCAGGCATTTGCGTTGGGCATTATCGCCTTTATCGCTGGCCTGGATATGTTTAACGGCCTAACCCATATGCACCGC -CCGGTGGTCCTCGGCCCGTTGGTCGGGCTGGTACTTGGCGATCTGCATACCGGAATTTTAACCGGCGGTACGCTGGAACT -GGTGTGGATGGGGCTGGCCCCGCTGGCGGGCGCACAGCCGCCTAACGTGATTATCGGTACTATCGTCGGCACGGCGTTTG -CCATTACTACTGGCGTGAAACCCGATGTCGCAGTAGGTGTCGCCGTACCTTTCGCTGTCGCAGTACAGATGGGGATTACC -TTCCTGTTCTCGGTGATGTCCGGCGTGATGTCTCGCTGCGACCTGGCAACAAACCCGCGCCGCATTTGATGCTGGTGCCG -ACGGCCTGGTGCATTGCTATAACGGGATGACAGGTTTACATCACCGCGAACCGGGAATGGTTGGCGCGGGATTAACGGAC -AAGCGCGCCTGGCTGGAACTGATAGCCGATGGTCATCATGTGCATCCGGCGGCAATGTCGCTGTGTTGTTGCTGTGCGAA -AGAGAGAATCGTACTGATCACCGACGCGATGCAGGCAGCTGGGATGCCGGATGGTCGCTATACGTTATGTGGTGAAGAAG -TGCAGATGCACGGTGGCGTTGTCCGTACCGCGTCTGGTGGGCTGGCGGGCAGTACGCTGTCTGTTGATGCGGCAGTGCGC -AATATGGTCGAGTTGACGGGCGTAACGCCTGCGGAAGCCATCCATATGGCGTCGCTGCATCCGGCGCGAATGCTGGGTGT -TGATGGTGTTCTGGGATCGCTTAAACCGGGCAAACGCGCCAGCGTCGTTGCGCTGGATAGCGGGCTACATGTGCAACAAA -TCTGGATTCAGGGTCAATTAGCTTCGTTTTGATAGTTTGCTCCTTTATTGGGCCTTCACTTCCCCCGTAAGGCCTTTCTT -TTTCTTTCGTTTTGATCTGTGCAGCGGTGTCGGATGCGACGCTAACGCGTCTTATCCGACCTACAGTTGGTGACCGCAAG -GCCGGATAAAGCGTTTGCGCCGCATCCAGCAATCCCTTTTGCTTCCTTTATCTTTTCTTTCAACGATCACAAATTTCGTT -TTATTTCTTTTTTCTCCATTGAACTTTCAGTTTCTTTTCTATAGATTTTAATCAACGAAAGACATCACCAAGTGAAATGA -AACGAAAGGCAAGTGAAAGCGACAACGCCCGACGTCAAGTTCATCAGACTAAGGATTGAGTTATGCCAGAAAATTACACC -CCTGCTGCCGCCGCAACCGGTACATGGACTGAAGAAGAGATCCGCCATCAGCCTCGCGCATGGATCCGTTCACTCACCAA -CATCGACGCGCTACGTTCCGCGCTCAATAACTTCCTTGAACCGTTACTGCGCAAAGAGAATCTGCGGATCATCCTGACCG -GAGCCGGAACGTCGGCATTTATCGGTGACATCATCGCGCCGTGGCTCGCCAGCCATACCGGTAAAAACTTCAGCGCCGTA -CCGACCACCGATCTGGTCACCAATCCGATGGACTACCTGAACCCAGCTCATCCGCTGCTGTTGATCTCCTTCGGTCGATC -CGGCAACAGCCCGGAAAGCGTCGCAGCCGTGGAACTGGCAAATCAATTTGTACCGGAATGCTATCACCTGCCGATCACCT -GCAACGAAGCGGGCGCTCTTTACCAAAACGCGATCAACAGCGATAACGCGTTTGCCCTGCTGATGCCCGCAGAAACGCAC -GATCGCGGCTTTGCGATGACCAGCAGCATTACCACCATGATGGCCAGCTGCCTCGCGGTTTTCGCACCTGAGACGATCAA -CAGCCAAACCTTCCGCGACGTGGCGGATCGTTGCCAGGCGATCCTGACCTCACTGGGCGATTTCAGCGAAGGTGTGTTTG -GTTACGCACCGTGGAAACGGATCGTTTATCTCGGTAGCGGTGGCTTACAGGGCGCAGCACGCGAGTCGGCGCTGAAAGTG -CTGGAACTGACGGCGGGTAAACTGGCGGCCTTTTATGATTCTCCAACCGGATTCCGTCATGGACCAAAATCGCTGGTCGA -TGACGAAACGCTGGTGGTGGTATTTGTCTCCAGCCACCCTTACACCCGTCAGTATGATCTTGATCTGCTGGCTGAACTTC -GCCGTGACAACCAGGCAATGCGTGTAATCGCCATCGCCGCGGAAAGCAGCGACATCGTCGCTGCCGGTCCACATATCATC -CTGCCACCGTCACGTCACTTTATCGACGTTGAGCAGGCATTTTGCTTCCTGATGTACGCCCAGACGTTTGCACTGATGCA -GTCGCTGCACATGGGCAATACGCCGGATACCCCATCAGCCAGTGGCACCGTTAACCGCGTGGTGCAAGGCGTAATCATTC -ATCCGTGGCAGGCATAAGAGGATCGCATTATGAGCATTATCTCCACTAAATATCTGTTACAGGACGCCCAGGCCAATGGC -TACGCGGTGCCTGCTTTTAACATTCATAACGCCGAGACGATCCAAGCGATCCTCGAAGTGTGCAGTGAAATGCGATCGCC -GGTGATCCTCGCCGGAACGCCGGGGACCTTTAAACACATCGCGCTGGAAGAGATCTACGCCCTGTGTAGCGCCTATTCCA -CAACCTACAACATGCCACTGGCGCTGCATCTCGACCACCACGAATCGCTGGATGATATTCGCCGTAAAGTCCACGCAGGT -GTGCGCAGTGCGATGATCGACGGCAGCCACTTCCCGTTTGCCGAGAACGTGAAGCTGGTGAAATCGGTTGTTGACTTCTG -CCACTCACAAGATTGCAGCGTGGAAGCAGAACTGGGCCGCCTGGGCGGTGTTGAAGATGACATGAGCGTTGACGCCGAAA -GTGCATTCCTGACCGATCCACAAGAAGCTAAACGCTTTGTCGAACTGACTGGCGTCGACAGCCTGGCGGTAGCGATTGGT -ACGGCGCACGGCTTATACAGCAAAACGCCGAAGATTGATTTCCAGCGGCTGGCGGAAATTCGTGAAGTGGTGGATGTTCC -TCTGGTGCTGCATGGTGCCAGCGATGTTCCGGATGAATTTGTCCGTCGCACTATTGAACTTGGCGTCACAAAAGTGAACG -TTGCCACAGAATTAAAAATAGCCTTCGCTGGCGCGGTTAAAGCCTGGTTTGCGGAAAATCCGCAGGGTAATGATCCTCGT -TATTATATGCGCGTCGGAATGGATGCGATGAAAGAAGTTGTCAGAAATAAAATTAATGTCTGTGGTTCAGCGAATCGAAT -TTCAGCATAATCATTAGTTTTTTATGATTTATCCCAATGTACTTCCCGATTAATATCGGGGAGTGCCTTAATGGAAAAGG -AGATAACTAAACCTTAATAAATACATCACTACAATATCGCAACAATAATATATTTAAAAAAATTATATTATTCAACTTTA -TGGTGAGGATTACACAATGACCAGTCCAAATATTCTCTTAACCCGTATTGATAACCGTCTGGTTCACGGTCAGGTTGGCG -TGACCTGGACATCCACCATCGGTGCAAATCTGCTGGTAGTCGTGGATGATGTTGTCGCTAACGATGATATTCAACAGAAA -TTAATGGGTATTACCGCGGAAACCTACGGCTTTGGCATTCGTTTCTTTACTATCGAAAAAACCATTAACGTCATCGGCAA -AGCTGCACCACATCAGAAGATCTTCCTGATTTGCCGTACGCCACAAACGGTACGTAAATTGGTAGAAGGTGGTATTGACC -TGAAAGATGTCAACGTCGGCAATATGCATTTCTCGGAAGGGAAAAAGCAAATCAGCAGTAAAGTTTATGTCGATGACCAG -GATCTCACGGACTTACGTTTTATTAAACAACGTGGCGTGAATGTTTTCATTCAGGACGTCCCTGGCGATCAAAAAGAACA -AATCCCTGACTAAATCTAAAATCGCCTTAATATTGGTTTGAGGTAATAAAAATGCATGAAATAACCCTACTTCAGGGATT -ATCCCTGGCGGCGTTAGTTTTTGTTCTGGGGATTGATTTTTGGCTGGAAGCCTTATTTTTATTCCGCCCGATAATCGTTT -GTACCCTAACTGGCGCTATTCTCGGTGATATTCAGACTGGCTTAATTACCGGTGGTCTGACAGAGTTGGCTTTCGCCGGA -TTAACCCCTGCAGGTGGTGTTCAGCCGCCCAACCCGATTATGGCGGGTCTGATGACCACCGTCATTGCATGGTCTACGGG -CGTTGATGCCAAAACAGCAATTGGTCTTGGCCTGCCGTTTAGTTTGTTAATGCAGTACGTCATTCTGTTCTTCTATTCCG -CTTTCTCATTATTTATGACCAAAGCCGATAAATGCGCGAAAGAGGCGGATACGGCAGCGTTTTCCCGGCTTAACTGGACA -ACGATGCTCATCGTCGCTTCAGCGTATGCGGTGATTGCTTTCCTCTGTACTTACCTGGCACAGGGGGCGATGCAGGCGCT -GGTGAAAGCGATGCCCGCCTGGCTGACCCACGGCTTTGAAGTGGCTGGCGGTATTCTGCCTGCCGTTGGTTTTGGCTTGC -TGCTGCGCGTAATGTTCAAAGCGCAATATATCCCTTACCTGATCGCCGGTTTCCTGTTTGTTTGCTACATCCAGGTCAGC -AACCTGTTGCCGGTTGCCGTACTGGGCGCAGGCTTTGCGGTGTATGAGTTTTTCAATGCGAAATCCCGGCAGCAAGCGCA -ACCGCAGCCCGTTGCCAGTAAAAATGAAGAAGAGGACTACAGCAATGGGATCTGAAATCAGTAAAAAAGATATCACCCGT -CTGGGCTTTCGTTCGTCGCTGCTGCAAGCGAGCTTTAACTACGAAAGGATGCAGGCGGGCGGTTTTACCTGGGCGATGTT -GCCGATCCTGAAAAAGATTTATAAGGACGACAAACCGGGCTTAAGCGCGGCGATGAAAGATAACCTCGAATTTATTAATA -CCCACCCGAATCTGGTCGGATTCCTGATGGGGTTATTAATTTCGATGGAAGAAAAAGGAGAAAACCGCGACACCATTAAA -GGCCTCAAAGTGGCACTGTTTGGCCCAATCGCCGGGATTGGCGATGCGATTTTCTGGTTTACTTTGTTGCCGATTATGGC -GGGAATTTGCTCATCATTTGCCAGCCAGGGAAACCTGCTGGGGCCGATTCTATTTTTCGCCGTTTACCTGCTTATCTTTT -TCCTGCGCGTCGGCTGGACCCACGTCGGTTATTCAGTCGGCGTGAAGGCGATCGATAAAGTGCGAGAGAACTCGCAGATG -ATTGCCCGTTCGGCAACCATCCTCGGGATCACGGTAATCGGCGGGCTGATCGCTTCGTATGTGCATATTAACGTGGTGAC -ATCGTTTGCCATCGACAATACCCACAGCGTTGCGCTGCAGCAGGATTTCTTCGATAAAGTCTTCCCGAACATTTTACCGA -TGGCCTACACCCTGCTGATGTATTACTTCCTGCGGGTGAAAAAAGCGCATCCGGTGCTGTTAATCGGCGTGACTTTTGTG -CTCTCTATTGTTTGTTCCGCATTCGGCATTTTGTAAATGGAACGAGGCACTGCGTCTGGTGGTGCCTCTTTACTTAAGGA -ATTTCATCCTGTGCAAACCCTTCAGCAAGTTGAAAACTATACGGCGTTAAGTGAACGTGCCAGCGAATATTTATTGGCCG -TGATCCGTAGCAAACCGAATGCCGTGATTTGCCTGGCGACCGGAGCCACGCCATTACTGACGTATCATTATCTGGTAGAA -AAAATCCACCAGCAGCAGGTTGATGTCAGCCAGCTCACCTTCGTGAAGCTCGACGAATGGGTGGATCTGCCATTAACGAT -GCCAGGCACCTGCGAAACTTTCCTGCAACAGCATATCGTGCAGCCGCTGGGGCTACGTGAAGACCAGCTCATCAGCTTTC -GCTCCGAAGAGATAAATGAGACAGAGTGCGAACGGGTAACGAACCTGATTGCGCGCAAAGGCGGTCTGGATTTATGCGTT -CTCGGATTGGGGAAAAACGGTCATCTTGGGCTGAACGAACCGGGAGAAAGCCTGCAACCGGCCTGCCATATCAGTCAACT -TGATGCCAGAACACAGCAACATGAGATGTTAAAAACCGCGGGTCGCCCCGTGACTCGTGGGATCACCTTAGGCCTGAAGG -ATATTCTCAATGCCCGCGAAGTTTTGTTACTGGTGACTGGCGAAGGAAAGCAGGATGCGACAGATCGTTTTCTCACGGCT -AAAGTCTCTACCGCTATCCCGGCTTCATTTTTATGGCTGCACAGTAACTTTATTTGTTTAATTAACACCTAACCAGATGA -AAAATTTGCTCAAAATGTTTAAATTAACTTATGTAACAGTCACGCATTATATTAAATAACATTTGACTGGGTTGAACATA -ACGCCGATAGCAAAAGGAGTTATGTTCAACAATTTAATTTTAGATATACATATAACTTGTTCTATTAATAAATCACCTCG -TATTCTGACTCGCCCCCTGGCGCAGCAAAGTCAGGCATTTATACTCTTTTGAATACATAGAAAATTGATATCAATATAAT -GAAAATATCAAATATTTGCATATAAATATAATCTTAAAGTTCAGTCTATTTAATGTTCAATGAAATATTTCTGCCTGTAT -AATCTTTAAAGATGTTGAACATATATTCACATTAAATATGATTATGTACTTGTTACAAGGATAAGGTTATATATGAATAA -AGTTACAAAAACAGCTATTGCGGGCTTACTTGCGCTTTTCGCAGGTAATGCCGCTGCAACCGATGGTGAAATAGTTTTTG -ATGGCGAGATTTTAAAATCCGCTTGTGAAATCAATGACTCTGATAAGAAAATTGAAGTTGCTCTTGGTCACTATAATGCC -GAACAGTTTCGTAATATTGGCGAGCGTAGCCCAAAAATTCCATTCACTATTCCTTTAGTTAACTGCCCAATGACTGGGTG -GGAGCACGATAACGGCAACGTTGAAGCGTCTTTCCGTCTATGGCTGGAAACGCGAGATAATGGCACCGTCCCTAACTTCC -CTAATCTGGCAAAAGTAGGCTCTTTTGCTGGCATAGCGGCAACAGGTGTGGGTATCCGTATTGACGATGCGGAAAGCGGA -AACATTATGCCACTGAATGCTATGGGCAATGATAACACGGTTTATCAGATCCCGGCGGAATCCAATGGTATTGTCAATGT -TGACCTCATCGCTTACTACGTATCAACCGTAGTTCCATCAGAAATCACCCCAGGGGAAGCAGACGCTATCGTTAACGTAA -CGCTGGATTACCGTTAATACGTTAGGGCGTTATCTGACCTGTCAGATAACGCCCTTTTCCTTCCTCTTTCTCGTTGTATC -AGGTTGAAAAATAACTATGTCAAAACGAACATTCGCGGTGATATTAACCTTGTTGTGTAGCTTCTGTATTGGCCAGGCGC -TTGCAGGAGGAATCGTTTTACAGCGAACGCGAGTGATCTATGATGCCAGCCGCAAAGAGGCTGCGTTACCTGTCGCAAAC -AAAGGCGCAGAAACGCCTTATTTACTGCAATCATGGGTAGATAATATAGATGGTAAAAGCCGTGCCCCATTTATTATAAC -CCCACCGCTATTTCGTCTTGAGGCTGGCGATGACTCATCACTGCGAATTATTAAAACAGCTGATAACCTGCCTGAAAATA -AAGAGTCGCTGTTCTACATTAATGTTCGTGCCATTCCAGCAAAGAAAAAATCAGATGATGTTAATGCTAACGAGTTGACG -CTGGTATTTAAAACACGGATCAAAATGTTTTATCGCCCCGCACACCTGAAGGGACGGGTAAACGATGCGTGGAAATCACT -GGAATTTAAACGTAGTGACCATTCACTCAATATATATAACCCAACTGAATATTACGTCGTATTTGCCGGACTGGCAGTCG -ATAAAACCGATCTCACAAGCAAAATTGAATATATCGCGCCCGGAGAACATAAACAGTTACCACTTCCTGCATCTGGCGGA -AAGAACGTGAAATGGGCTGCGATCAATGATTATGGCGGCAGTTCCGGGACAGAAACTCGTCCACTGCAATAAAAAATATA -AAAACACAGGTCATCAGGGAATGCCACAACGACACCACCAGGGACATAAACGCACACCGAAACAGTTGGCGCTCATCATC -AAACGTTGTTTGCCGATGGTGCTCACTGGCAGCGGCATGCTTTGCACTACCGCTAACGCCGAAGAGTATTATTTCGACCC -CATTATGCTGGAAACCACAAAAAGTGGTATGCAAACAACCGATCTGTCGCGTTTTTCAAAAAAATATGCACAACTACCAG -GAACTTATCAGGTTGATATCTGGCTGAATAAAAAGAAGGTTTCACAGAAAAAAATTACATTTACCGCCAATGCAGAGCAA -CTTCTGCAGCCACAGTTTACGGTAGAACAACTACGTGAGCTGGGTATTAAGGTGGATGAAATCCCGGCGCTGGCTGAAAA -AGATGACGATAGCGTGATCAACTCGCTTGAACAAATCATTCCCGGTACAGCTGCTGAATTTGATTTCAATCATCAGCAAC -TTAATTTGAGCATTCCCCAAATTGCACTGTACCGTGATGCAAGAGGTTACGTCTCCCCTTCTCGTTGGGACGATGGTATA -CCAACGCTGTTTACCAACTACTCGTTTACAGGTTCTGATAACCGTTACCGCCAGGGCAATCGTAGCCAACGACAGTACCT -GAATATGCAAAATGGTGCTAATTTTGGCCCCTGGCGATTACGCAACTATTCCACATGGACACGCAACGATCAGACATCAA -GCTGGAATACCATCAGTAGTTATTTACAACGTGATATCAAGGCGTTGAAGTCTCAGTTGCTTCTGGGAGAAAGCGCCACC -AGCGGCAGTATTTTTTCCAGCTACACCTTTACTGGCGTGCAACTCGCTTCCGACGATAATATGTTGCCAAACAGCCAGCG -CGGATTTGCCCCAACGGTACGCGGTATCGCAAACAGTAGTGCAATCGTGACTATCAGGCAAAATGGTTATGTGATCTATC -AAAGCAACGTGTCAGCGGGTGCCTTTGAAATTAACGATCTCTACCCCTCTTCCAACAGCGGCGATTTAGAAGTCACGATT -GAAGAAAGTGACGGTACACAACGTCGCTTTATCCAGCCTTATTCTTCATTACCCATGATGCAGCGACCTGGGCATCTAAA -GTATAGCGCGACCGCTGGACGCTATCGCGCTGATGCAAACAGTGATAGCAAGGAACCCGAATTTGCTGAAGCCACGGCAA -TATATGGTTTGAATAATACTTTTACGCTGTATGGCGGCCTGCTCGGTTCTGAAGATTATTATGCGCTGGGGATCGGTATC -GGCGGCACACTTGGCGCACTGGGCGCGTTGTCGATGGATATCAACAGAGCTGACACCCAATTCGATAACCAGCACTCTTT -TCATGGCTATCAATGGCGTACGCAGTACATCAAAGATATCCCGGAAACCAACACCAATATCGCTGTCAGCTACTATCGCT -ATACCAACGATGGCTATTTTAGTTTTAATGAAGCCAATACCCGCAATTGGGACTATAACAGTCGCCAAAAAAGTGAAATT -CAATTCAACATCAGCCAGACAATATTTGATGGGGTAAGTCTGTATGCCTCCGGTTCGCAGCAAGACTATTGGGGCAATAA -CGATAAAAACAGGAATATCTCTGTTGGGGTTTCCGGCCAGCAATGGGGAGTTGGTTACAGCCTGAATTATCAATACAGCC -GCTACACTGATCAAAATAATGACCGCGCACTCTCTTTGAATCTCAGTATTCCGTTAGAACGCTGGTTACCGCGTAGCCGG -GTTTCCTATCAGATGACCAGCCAGAAAGATCGCCCAACCCAACATGAAATGCGTCTTGATGGCTCACTGCTGGATGATGG -TCGCCTGAGCTATAGCCTGGAACAAAGTCTGGATGACGATAACAACCATAACAGTAGCCTGAACGCCAGTTACCGTTCAC -CTTATGGCACCTTCAGTGCCGGATACAGCTACGGTAATGACAGCAGCCAATACAATTACGGCGTTACCGGCGGCGTGGTT -ATCCATCCTCATGGCGTGACGCTCTCGCAATATCTGGGCAACGCTTTTGCGCTTATCGATGCTAACGGAGCATCTGGCGT -GAGGATACAAAACTATCCGGGGATTGCTACCGATCCTTTTGGCTATGCAGTGGTTCCTTATCTCACAACTTATCAGGAAA -ACCGTCTCTCGGTAGATACTACGCAGCTGCCCGATAACGTCGATCTTGAACAAACAACACAGTTTGTGGTGCCCAACAGA -GGTGCAATGGTAGCGGCGCGTTTCAACGCCAATATCGGTTATCGCGTACTTGTTACAGTCAGCGATCGCAACGGTAAACC -GTTGCCCTTTGGCGCTCTTGCCAGCAACGATGATACGGGGCAACAAAGTATCGTCGATGAGGGCGGCATACTATATCTCT -CTGGGATATCGAGTAAATCACAAAGCTGGACTGTACGCTGGGGAAATCAGGCAGATCAACAATGTCAGTTTGCTTTCAGT -ACACCGGATTCAGAACCTACAACCTCTGTATTACAAGGCACAGCGCAGTGCCATTAAGGATAAAAAAATGAAAAGAGCGC -CTCTTATAACAGGTCTTTTGTTGATATCCACATCCTGCGCTTATGCCTCCTCAGGAGGGTGTGGAGCCGACAGCACTAGC -GGTGCGACAAATTACAGCAGTGTGGTTGATGATGTTACGGTGAACCAGACAGATAACGTGACAGGACGGGAGTTTACCTC -TGCAACGCTAAGTAGCACTAACTGGCAATACGCCTGTTCCTGCTCTGCGGGTAAGGCAGTTAAACTTGTCTATATGGTCA -GCCCCGTACTTACCACCACTGGACATCAGACAGGATATTACAAACTCAATGACAGCCTGGATATTAAAACCACATTACAG -GCAAACGACATTCCAGGACTCACAACCGACCAGGTTGTCTCTGTTAACACCCGATTCACACAGATAAAAAACAACACGGT -ATATTCTGCTGCAACCCAAACGGGTGTTTGCCAGGGTGATACGTCTCGTTATGGACCCGTTAATATTGGTGCGAACACCA -CCTTTACCCTGTATGTCACCAAGCCATTTCTCGGCTCGATGACCATTCCGAAAACGGATATTGCCGTCATTAAAGGCGCG -TGGGTCGATGGAATGGGAAGCCCGTCTACAGGTGACTTCCATGATTTAGTCAAGTTATCGATTCAGGGAAATCTCACCGC -CCCACAGTCGTGCAAAATTAATCAGGGCGATGTTATTAAGGTTAATTTTGGATTCATCAATGGTCAGAAGTTTACCACCC -GCAATGCCATGCCAGACGGTTTTACTCCAGTAGACTTTGATATCACTTATGACTGTGGTGATACTTCAAAGATTAAAAAC -TCGTTGCAAATGCGCATCGACGGTACAACTGGGGTAGTAGACCAGTACAACCTGGTCGCCAGGCGAAGAAGTTCAGACAA -TGTGCCCGATGTCGGTATTCGTATTGAAAATCTCGGCGGCGGAGTTGCAAATATTCCTTTTCAGAACGGTATCCTTCCCG -TTGATCCTTCCGGGCATGGCACCGTCAATATGCGCGCCTGGCCAGTTAATCTGGTCGGTGGTGAGCTGGAAACAGGAAAA -TTTCAGGGCACAGCCACCATTACCGTCATCGTGCGGTAAAAGAAGACGTTGCGTTTTGATTAACGCAACGCTTCGGCACT -GTTACCCCTGCTGCTCCAGCGCATACTTATACAGCGCATTTTTCTTCACGCCGTGAATTTCTGCGGCCAGCGCCGCCGCT -TTTTTCAGCGGCAGTTCTGCCTGTAGCAGCGCCAGCGTGCGCAGGGCATCGGCGGGTAAGTCTTCTTCCTGTGCTTTATG -ACCTTCGACAATCAGCACCATTTCGCCTTTGCGACGGTTTTCATCTTCCTTTACCCACGCCAGCAGCTCGCCAACGGGCG -CGCCGTGAATGGTTTCCCAGGTTTTGGTCAGCTCACGCGCCAGAACCACGTAGCGGGATTCGCCTAATACCGCAACGATA -TCTTCCAGGCTATCTAACAGACGGTGGGTAGATTCATAAAAAATCAGCGTGCGCGGCTCCGCTTCAATGGCTTTTAGCGC -ATCACGGCGGCCTTTTGATTTGGCAGGTAAAAAGCCTTCGTAACAGAAACGGTCAGAGGGTAAACCCGCTGCGCTTAACG -CAGTGATAGCAGCACACGGCCCGGGTAGCGGCACCACGCGGATCCCCGCTTCACGGCAGGTACGCACCAGATGGTAGCCA -GGATCGTTAATTAGCGGCGTTCCGGCATCGGAAACCAGCGCAATGTTTTGCCCCTCTTGCAGCTTCGCCAGCAGCGTTTC -AGCTTTTTGTTGTTCGTTATGGTCGTGCAGCGCAAACAACCGGGCATTAATCCCAAAATGTTGCAGCAATAAACCGGTGT -GACGAGTATCCTCGGCGGCAATCAGATCAACGGCCTGTAATACCTCTAACGCACGCTGGGTGATATCCGCCAGATTGCCG -ATTGGCGTCGGTACAATGTAAAGCTGGCCCTGAGAATTATCCGCCGATTGGTGTTGTTTCATTGTGTCGTCCGTATTGCC -GATTTAATATTGAGCATTGCGTAAAAAAAATATCACTGGATACATTATGGTACCCTCAACATTTTCTCGTTTGAAAGCCG -CGCGTTGTCTGCCTGTTGTTCTGGCAGCCCTGATTTTCGCCGGTTGTGGCACCCATACTCCCGATCAGTCCACTGCTTAT -ATGCAGGGCACGGCGCAGGCTGATTCTGCCTTTTATCTTCAGCAGATGCAGCAAAGCTCTGATGATACCAGGATCAACTG -GCAATTACTCGCCATTCGTGCACTGGTGAAAGAAGGTAAAACCGGGCAGGCGGTTGAGTTGTTTAACCAACTACCGCAAG -AACTGAACGATGCTCAGCGTCGCGAGAAAACACTGCTGGCGGTAGAGATTAAACTGGCGCAGAAAGATTTTGCTGGCGCG -CAAAACTTGCTGGCGAAAATCACACCTGCCGATTTAGAACAAAACCAGCAAGCGCGTTACTGGCAGGCAAAAATCGATGC -CAGCCAGGGGCGTCCTTCCATTGATTTACTGCGCGCGTTAATTGCTCAGGAACCGCTGCTTGGCGCGAAAGAAAAACAGC -AGAATATTGATGCCACCTGGCAGGCGCTCTCCTCCATGACTCAGGAACAGGCGAATACGCTGGTGATCAACGCCGACGAA -AATATTCTGCAAGGCTGGCTGGATCTGCAGCGCGTCTGGTTTGATAACCGTAACGATCCCGACATGATGAAAGCCGGGAT -CGCCGACTGGCAGAAACGTTATCCGAACAATCCGGGCGCGAAAATGCTGCCAACGCAGTTGGTTAACGTAAAAGCGTTTA -AACCAGCCTCGACCAACAAAATCGCCCTGCTGTTGCCACTGAATGGCCAGGCAGCGGTATTTGGTCGCACTATTCAGCAA -GGCTTTGAAGCGGCGAAAAATATCGGCACTCAGCCAGTGGCAGCTCAGGTAGCTGCCGCACCTGCCGCAGACGTAGCTGA -ACAACCTCAGCCGCAAACCGTGGATGGCGTTGCCAGCCCGGCACAAGCCTCGGTTAGCGATCTGACCGGTGAACAGCCTG -CAGCCCAGCCGGTGCCTGTAAGCGCCCCGGCGACAAGCACCGCAGCGGTAAGCGCACCCGCAAATCCATCCGCAGAGCTG -AAAATCTACGATACCTCATCACAACCACTTAGCCAGATCTTAAGCCAGGTTCAGCAGGATGGCGCGAGTATTGTGGTCGG -TCCGTTGCTGAAAAATAACGTTGAAGAGTTGCTGAAGAGCAACACTCCGCTGAACGTACTGGCACTGAACCAGCCGGAGA -ATATCGAAAATCGCGTCAATATTTGTTACTTCGCGCTTTCACCGGAAGACGAAGCGCGCGATGCAGCGCGTCATATTCGT -GACCAGGGTAAACAAGCGCCGCTGGTGCTGATCCCACGCAGTTCATTGGGCGATCGCGTAGCCAATGCGTTTGCGCAAGA -GTGGCAGAAACTGGGCGGCGGCACCGTTCTGCAACAAAAATTTGGTTCCACCAGCGAATTACGCGCGGGTGTTAACGGCG -GTTCTGGTATTGCTTTAACGGGTAGCCCGATTACTCTCAGAGCGACAACCGACTCCGGCATGACGACCAACAATCCAACG -CTGCAAACCACGCCAACCGATGACCAGTTCACCAATAATGGCGGTCGTGTCGATGCGGTGTACATTGTGGCAACGCCGGG -TGAAATCGCTTTTATCAAACCGATGATCGCCATGCGTAACGGTAGCCAGAGCGGTGCAACGCTGTACGCCAGCTCCCGCA -GTGCGCAAGGGACCGCTGGCCCGGATTTCCGACTGGAGATGGAAGGCTTGCAGTACAGCGAAATCCCGATGCTGGCAGGC -GGTAATCTACCGTTAATGCAGCAGGCACTCAGCGCGGTGAATAACGATTATTCACTGGCTCGCATGTATGCGATGGGCGT -CGATGCCTGGTCGCTGGCAAATCATTTCTCACAAATGCGCCAGGTTCAGGGTTTTGAAATCAACGGTAATACCGGAAGCC -TGACGGCTAACCCGGATTGCGTGATTAACAGGAACTTATCATGGCTACAGTACCAACAAGGTCAGGTAGTCCCCGTCAGT -TAACCACCAAACAGACCGGCGATGCGTGGGAAGCACAAGCGCGTCGCTGGCTGGAAGGCAAAGGACTGCGGTTTATCGCC -GCTAACGTGAACGAGCGTGGCGGCGAGATCGATCTGATAATGCGTGAAGGCCGGACCACCATTTTTGTCGAGGTACGCTA -TCGCCGCTCTGCGCTTTATGGCGGCGCGGCAGCCAGTGTGACCCGCAGCAAACAACACAAATTATTACAGACTGCCCGCT -TGTGGCTCGCGCGTCATAATGGGAGTTTTGATACTGTGGATTGCCGGTTCGATGTGGTAGCCTTCACCGGGAATGAGGTT -GAGTGGATTAAGGATGCCTTTAATGACCACTCATAATTAAGGTTTAAGGATTAGCGTGCAAGAAAGAATTAAAGCTTGCT -TCACTGAAAGCATTCAAACTCAAATTGCGGCGGCAGAGGCGCTTCCGGATGCCATCTCCCGTGCAGCCATGACGCTGGTT -CAGTCTCTGCTCAATGGCAACAAAATCCTCTGTTGTGGTAATGGAACTTCCGCTGCCAATGCACAGCATTTTGCTGCCAG -CATGATCAACCGTTTCGAAACGGAGCGGCCCAGCTTACCTGCCATTGCACTAAATACTGATAATGTTGTCTTAACGGCGA -TTGCCAACGATCGCTTACATGATGAAGTGTATGCAAAACAGGTGCGGGCGCTGGGTCATGCGGGAGATGTATTGTTAGCC -ATTTCCACCCGTGGCAACAGCCGCGATATTGTTAAAGCAGTTGAAGCCGCCGTTACGCGTGATATGACCATTGTGGCATT -GACCGGCTATGACGGCGGCGAACTTGCAGGTTTGTTAGGGCCACAGGATGTGGAGATCCGCATTCCTTCGCATCGTAGTG -CTCGCATTCAGGAAATGCATATGCTGACGGTAAATTGCCTGTGCGATCTGATCGATAACACGCTTTTCCCTCACCAGGAT -GATTAAGGAGAATACATGAAGGCATTATCGCCAATCGCAGTCCTTATTTCCGCGCTGCTGTTGCAAGGTTGTGTTGCCGC -TGCCGTAGTGGGTACCGCTGCTGTGGGTACCAAAGCCGCAACTGACCCACGCAGTGTCGGCACCCAGGTGGACGATGGTA -CCCTGGAAGTGCGCGTGAACAGCGCATTGTCGAAAGACGAACAGATTAAGAAAGAAGCGCGCATTAATGTAACGGCCTAT -CAGGGCAAAGTGCTGCTGGTTGGGCAGTCACCAAATGCTGAACTTTCGGCTCGCGCCAAACAGATTGCTATGGGCGTAGA -CGGTGCCAACGAAGTGTATAACGAGATTCGTCAGGGCCAGCCGATTGGTCTGGGCGAAGCATCTAACGATACGTGGATCA -CCACCAAAGTGCGTTCGCAGCTCTTAACCAGCGACCTGGTGAAATCGTCCAACGTGAAAGTGACCACCGAAAACGGTGAA -GTGTTCCTGATGGGGCTGGTGACTGAACGTGAAGCGAAAGCGGCGGCAGATATTGCCAGCCGGGTGAGCGGCGTGAAGCG -GGTAACTACGGCGTTTACGTTTATTAAATAGCAGCCCCTTGTAATGCCTGATGCGACGCTTGCCGCGTCTTATCAGGCCT -ACAACGATACAAACCGTAGGTCAGATAAGGCGTTTACGCCGCATCCGACATGTTTTCCCTCAAATCAGAACAACAGCGCC -AGCCCGCCGACAATCACACCAGACACTGCCACCATCGCCCCTGTCAGCCATAAGGCTTTCGCCGGGAACGCTTTGCGCAG -CATAATCAGTGACGGCAAACTCACTGCCGGGAGCGTCATCAACAATGCCAGCGCCGGAGCGGTTCCCATACCTGCCAGCA -TCATCGTTTGTACAATCGGAATTTCTGCTGCCGTGGGAATGACAAACAAGCATCCTGCTACCGCCATCGCCACCACCCAC -ATCAGGCTGTTATCGACAGCACCATCGGCATGGGGGAATAACCAGACGCGAGCGGCACCCAACACCAGTACTGCAAGGAT -GTAAACCGGGATCGTACTCCAGAAAAGCGTCCATAGCGCCCTGCCCCAGCGGCTAAAAAACCCGCCCTGTGCTTCCGGTA -TGTCAATTTCGACCGGTGCCTGCGTTTGCGGTGTTTCACGCACCCATTTTTGCACCAGCGTCGCAATCAGCAACACCATC -ACCAGCCCGGCCACCAGACGAATCGCCGCAAAACCCCAGCCGAGGACAAAGCCCATAAACACCAGCGTCGCCGGGTTTAA -CACCGGATTGCCCATCCAGAATGCCAGCGCACCGCCCATCGACACCTGTTGGCGACGCATTCCCGCCGCGACCGGAGCCG -CACAGCAGGTACACATCATGCCCGGCAACGAAAACAGCGTTCCCAGCAGCGTGCCGCGAAAGCGCGATTGCCCAAGCGTA -CGCAACAACCAGTCACGCGGGATCAGCACCTGAATCAACGAACCGAGGATCACCCCCAGCACCGCCGCTTTCCATACCGC -GAGGAAATAGATCATCGCGTAATCCAACGCCGCCTGCCATGGGTTAGCATCCGCCTGCGCAAGGATAGATTTACCGATAC -TGTGGGTTTCGGCAGCAGTAAACGCTTTGCCGTAGTAAGGTTCCCATTTCACATACCAGAGACCGGCAATGACAACGAGA -AAGAAAAGCGCGGGTTTCCACCACTGAATGGGCGTTGCCGCCTGAGATGAAGACTGACCAGTCATAGCATTCCCCAGGAA -TAAGTTATGATAATTGAGCGCGTGAATATTACGCTCACTATCAATTCTTGGGAATAATTATTCAGCTCTTTTGCGTAATT -CTGAAGAGCTTAAAATCGTCACGCCTTCATGCTCAGGCCGCATCGACTCTGCCAGCATGACCCGCGCCACGTCTCTCGCA -TCAATGGATTTCCAGTTACCTGGTAACAAACGGAACAGCGGCGCAAAAAGCGTTTCGTTCATCCGCTGTTTGCTACGATC -GCCCAGTAACATCGACGGGCGAGCAATGGTCAATTTCGGCCAGTTCTGGGCGATTAATGCTTCTTCCATCTCCCCTTTGA -CGCGGTTATAGAAAAACGGCGAGTGGGCATTGGCACCCATCGCACTGACTACCAACATATGCTGCGCGCCCAGTCGCCGC -CCGGTTAATGCGGTATCCACTACCAGCGTGTAATCGGCATGAATAAACGCCTCTTTGCTCCCCGCTTCTCGCCGCGTGGT -GCCGAGACAACAAAACACAATGTCGATGGGATCGGTGACCTGCGCCAACGCGTCACTCAGTTGCGGATCATGGGGATTAA -ACACCCCGGGCATATCGCCCAACGGACGTCGCGTCGGCGCAGCAATGGCGTTAACTTTCGGTTCGTTAATCAACATCCGC -AGCAGGTGACCGCCCACCAGCCCCGTTGCGCCTGTAATCAGTACCTGACTCATCTTCGCTCCTTTACAGAATTGTCTGCC -TTGCGCTCCACGGCTCATGCACCAGGCTTAATAGACCATGAGGTAATTATCCCCGATTGTGGGAAATTCGCCTCATCCAA -TGCAACAACGCGGAGGAAGCATGAGTAAGAAAATTGCCGTTTTAATCACTGATGAATTTGAGGATTCAGAATTTACTTCA -CCCGCAGACGAGTTCCGTAAAGCCGGACACGAAGTGATTACCATTGAAAAACAAGCGGGTAAAACGGTGAAAGGCAAAAA -AGGAGAAGCCAGCGTGACCATCGATAAATCCATCGATGAAGTGACGCCTGCGGAGTTTGATGCCCTGCTGCTACCGGGCG -GCCATTCACCGGATTATCTGCGTGGGGACAACCGTTTTGTCACCTTTACCCGTGATTTTGTGAATAGTGGCAAACCGGTG -TTTGCCATCTGTCACGGCCCGCAGTTGCTGATCAGCGCCGATGTGATTCGGGGGCGCAAACTGACCGCAGTTAAACCGAT -CATTATTGATGTTAAAAATGCGGGCGCGGAATTTTACGATCAGGAAGTCGTGGTTGATAAAGATCAGCTGGTTACCAGCC -GGACACCGGACGATCTGCCAGCGTTTAACCGCGAGGCGTTACGCCTGCTCGGTGCCTGAGTCGCGTAGCCAAATCATTTT -TTTACCAAAGCCCAGCGTGTTGTCGGTGAATTTGATTTCATCGAGCCGGATTTCCCACACCGGGGCCGACAGCATTCTGG -CAACCGGAAAGCGACGATTGTACGCCTTGCGCGCGAGGTCGCTTTCCTCACCTTCCAGCCTGCGGATCTCACCTTTAAAC -TGCACACCGCGAATTAACGCTACCGTTTTCGGCTGACCGTTTACCGTTCCGGCAACCGCAGCCTGCGGCCCACTCATCTG -CGCGTGGCGCGTTTTTTCTTCCGTCAAAATGTAGAAGGCGACTTTCTGCGCATCAAAAAGATAAAAGGCATTAGCGCACC -AGAGTTCCCCTTCCTGCTGCACACACCAAGTGACAACATGTTGTTTTGCCAGCCAACGGCTGATGGCGATGAGTGTTTCC -ATTGCTGTTCTCTTTTATACTGTGGGCCTGACCTTAACATGCGACGCAGACGATGACACCCTGGTTTCTTTACTTGATCC -GTACCGCCGACAATAAGCTTTATACCGGGATCACCACGGATGTCGAACGCCGCTATCAGCAGCACCAAAGCGGCAAAGGG -GCGAAAGCACTGCGCGGGAAAGGAGAACTAACGCTGGTGTTTTCCGCGCCAGTGGGCGATCGTTCGCTGGCGTTACGGGC -GGAATATCGCGTTAAGCAACTGACCAAACGGCAAAAAGAGCGTCTGGTAGCGGAAGGCGCAGGGTTTGCAGAGCTGTTAA -GCAGTCTGCAAACCCCGGAGATTAAAAGCGATTGAAATGCTCGTGATACTCAACCAGGCCGGTAACGCCATTCAGCGCGT -CATCCGCTAAACGATGTACCTGGAAGGCGCTTTCAGTGCCCGGCCAGCGGCAACGCAGATCGTGATGCGCCGCCAGTTCA -AAGCCGAAACGACTGTACAGCGCCGGATCGCCCAGCGTCACCACTGCGGCATAGCCGAACTCATTAAGCGAATCGAGTCC -TTCATAGACCAGTTGGCGTGCCAGCCCCTGTCCACGGTATTTTTCATCAACCGCCAACGGTGCCATGCCGACCCATTGCA -GGTCTTCGCCCTGCACATCAACCGGACTAAATGCCACATAGCCAATGACCTGACCTTCGTCATCTGTCGCCACCAGCCCC -AGCGTCAGAAAGCCATCTTCACGCAGATCGTGAACCAGCTTCGCTTCCGCATCACTTTCGAATGAGCGACGCAGCAGGGC -ATCAATACCCGGCGCATCAATGGGAATTTCTACTCGAATTAGCATGGTTCACCTACCGATGTCTGTTTGGTTTCAGGCGC -GGTTTTCATTCCCGCCTCAACAAAATCCGCCAGTTGCAGCAGCATCATGCGTAAGGCTTTCGGCATTTGCTCCAGTTCAA -TGGCGTCCATCAGGTTTTTCACATACAGCCCCAGCTCCGTATCGCCTTCAATCACCAGCCGACGCTGGAAGAAGAGCGTA -TCCGGATCTTGTTTACGCGCCGCAATCATCAGCAGATCGCTGGCGTCGGCACTAAAACTCACATCAGCTTGCGCGTTCTG -GCTAACGACCAGTTTGCCATTCACCACCGAGGTAAACCATTGCAGGTCAATATCACGCACATGAATACTTAACCAGCGGC -CTTCAAGAAACTCCAGCTCGCCATCATCCAGCGCCTGGCGGAATTGCCAGCTTAAGACCTGCTCAAGAACCTGGCGTTTT -AGCGCAAATGGCGTCAGTTTTACCGGTACACTCAACAGAGATGGCCCCAAATGCACAATACGGGAACGCAGTTTATCCAA -CACGAGTTTTACTCCCTGTTTCAACAATCATCCTATTTTGCCATATCAGAAAAATAACATAGCGGTATAAATCAACAATT -CCATATGAAATTGCTGCTACCACCAATACAACTTTAACTGCCTTAAATCAAAAATTGTCGCAGCAAGGTTAACTAAAATC -CCAGTTCGTTAACATTTTTGCGTTTTGATAGCGCAACCTTCAGGAAAAATTATGGAGCTGCTCTGCCCTGCCGGAAATCT -CCCGGCGCTTAAGGCGGCCATCGAAAACGGCGCAGATGCTGTTTATATCGGGCTAAAAGATGATACCAATGCCCGTCACT -TCGCCGGCCTTAACTTTACCGAGAAAAAATTGCAGGAAGCGGTGAGTTTTGTCCATCAACATCGCCGCAAACTTCACATC -GCGATTAACACTTTTGCGCATCCGGACGGTTACGCCCGTTGGCAGCGCGCCGTGGATATGGCGGCGCAGCTGGGTGCCGA -CGCGCTGATCCTCGCCGACCTCGCCATGCTGGAGTACGCCGCCGAGCGTTATCCGCATATTGAGCGCCACGTATCGGTGC -AGGCTTCGGCGACCAATGAAGAGGCGATTAACTTTTATCATCGCCATTTTGACGTTGCTCGCGTGGTGCTGCCGCGCGTG -TTGTCGATTCATCAGGTGAAACAACTGGCACGGGTCACACCTGTACCACTGGAAGTCTTTGCTTTCGGCAGCCTGTGCAT -TATGTCGGAAGGTCGTTGCTATCTGTCGTCGTATCTGACGGGTGAGTCGCCCAACACCATAGGCGCGTGTTCTCCGGCCC -GTTTCGTGCGCTGGCAACAAACGCCGCAGGGGCTGGAATCCCGCCTGAACGAAGTGCTGATCGACCGTTATCAGGACGGC -GAAAACGCAGGTTATCCGACGCTATGTAAAGGGCGTTATCTGGTGGACGGCGAGCGCTATCACGCGCTGGAAGAACCAAC -CAGTCTCAATACCCTGGAACTGCTGCCGGAGTTAATGGCGGCGAATATTGCTTCGGTGAAAATTGAAGGCCGCCAGCGTA -GCCCGGCGTATGTCAGCCAGGTGGCGAAAGTCTGGCGTCAGGCTATCGACCGTTGTAAGGCCGATCCGCAAAACTTTGTA -CCGCAAAGCGCGTGGATGGAGACGCTCGGGTCGATGTCCGAAGGCACGCAAACCACTCTTGGCGCATATCACCGTAAATG -GCAGTGAGAAAAGCAATGAAATATTCCTTAGGGCCAGTGCTGTGGTACTGGCCAAAAGAGACGCTGGAAGAATTTTATCA -GCAGGCCGCCACCAGCAGCGCCGACGTGATTTATCTTGGTGAAGCGGTATGCAGCAAGCGTCGGGCAACCAAAGTTGGCG -ACTGGCTGGAGATGGCAAAATCGCTCGCCGGGAGTGGTAAGCAGATTGTGCTCTCCACGCTGGCGCTGGTGCAGGCATCA -TCTGAACTGGGCGAACTGAAACGCTATGTTGAGAACGGTGAGTTTCTGATTGAAGCCAGCGATCTCGGCGTGGTGAATAT -GTGCGCTGAACGCAAACTGCCGTTCGTCGCCGGGCACGCGCTGAACTGCTACAACGCGGTGACACTGAAAATATTGCTCA -AACAGGGCATGATGCGCTGGTGTATGCCAGTGGAGCTTTCCCGCGACTGGCTGGTGAATCTGCTTAATCAGTGCGATGAG -CTGGGCATTCGTAACCAGTTTGAAGTGGAAGTCCTGAGCTACGGTCATCTGCCGCTGGCCTACTCCGCCCGCTGCTTTAC -CGCGCGTTCGGAAGACCGCCCGAAAGATGAGTGTGAAACCTGCTGCATTAAGTATCCGAACGGGCGCAACGTGCTGTCGC -AGGAAAACCAACAAGTGTTTGTACTCAATGGCATTCAGACCATGAGCGGCTACGTTTACAACCTCGGTAACGAGCTGGCA -TCCATGCAGGGCCTGGTTGATGTGGTCCGCCTGTCACCGCAGGGTACTGACACTTTCGCGATGCTCGACGCCTTCCGCGC -TAATGAAAATGGCGCTGCACCACTGCCGTTGACGGCGAACAGCGACTGTAACGGCTACTGGCGGCGGCTGGCAGGACTGG -AGCTGCAAGCCTAAGTAAATAGCTCACTTTGTTAACAACTTTAACTACTCTTTAATGCAGTATTAAAGATTAATCGGTAA -CAAAGTGAGCTGTTATGACTGATAAAACCATTGCGTTTTCGCTACTCGATCTGGCCCCCATTCCCGAAGGTTCTTCAGCG -CGAGAAGCATTCTCCCACTCTCTCGATCTCGCCCGTCTGGCTGAAAAGCGCGGCTATCATCGCTACTGGCTGGCAGAACA -CCACAATATGACTGGCATTGCCAGTGCTGCCACGTCGGTATTGATCGGCTATCTGGCGGCGAATACCACCACGCTGCATC -TGGGGTCTGGCGGCGTGATGTTGCCTAACCACTCACCGTTGGTCATTGCAGAACAGTTCGGCACGCTTAATACACTCTAT -CCGGGGCGAATCGATTTGGGGCTGGGTCGTGCTCCGGGTAGTGACCAACGGACAATGATGGCGCTACGTCGTCATATGAG -CGGCGATATTGATAATTTCCCCCGCGATGTGGCGGAGCTGGTGGACTGGTTTGACGCCCGCGATCCCAATCCGCATGTGC -GCCCGGTACCAGGCTATGGCGAGAAAATCCCCGTGTGGTTGTTAGGCTCCAGCCTTTACAGCGCGCAACTGGCGGCGCAG -CTTGGTCTGCCGTTTGCGTTTGCCTCACACTTCGCGCCGGATATGCTGTTCCAGGCGCTGCATCTTTATCGCAGCAACTT -CAAACCGTCAGCACGGCTGGAAAAACCATACGCGATGGTGTGCATCAATATTATCGCCGCCGACAGCAACCGCGACGCTG -AATTTCTGTTTACCTCAATGCAGCAAGCCTTTGTGAAGCTGCGCCGTGGCGAAACCGGGCAACTGCCGCCGCCGATTCAA -AATATGGATCAGTTCTGGTCACCGTCTGAGCAGTATGGCGTGCAGCAGGCGCTGAGTATGTCGTTGGTAGGTGATAAAGC -GAAAGTGCGTCATGGCTTGCAGTCGATCCTGCGCGAAACCGACGCCGATGAGATTATGGTCAACGGGCAGATTTTCGACC -ACCAGGCGCGGCTGCATTCGTTTGAGCTGGCGATGGATGTTAAGGAAGAGTTGTTGGGATAGTGTGTCTTAACGCGGGAA -GCCTTATCCGAGCTGGCAACGCTGTCCTACATAGACCTGATAAGCGAAGCGCATCAGGCATTGTGTAGGCAGCAGAAATG -TCGGATAAGGCACCGCTGATTACTGATACACCGGCAGTAAATTAAAGCTCGATAAAATATGCACCAGTGCGTTGCCGACG -CCAAACACCAGAATCAGCGCAATCATCGGCTTGCCACCCCAGACGCGGAATTTCGGGCTGCCAAAGCGTTTACGCGATGC -ACGGGCTAACAGCGCCGGAACAATTGCCGCCCAGATGGTAGCCGCTAAACCAGCATAACCAATGGCGTACAGGAATCCGT -TCGGGAACAACAGCCCCCCCACAACTGGCGGGGCAAAGGTCAGCAATGCCGTTTTCAAGCGGCCCACAGCCGAGTCGTCG -AAACCAAACAGATCTGCCAGATAGTCAAACAAACCCAGCGTTACGCCGAGGAACGAACTCGCTACCGCAAAGTTTGAGAA -CACGACCAGCAGCAGATCCAGACTACGGCTGTTCAGTACGCCGCTTAACGCCTGTACCAGCACATCAATATTACCGCCCT -TCTCTGCAATACCGATAAACTCCGGACGCGGGATGTTACCCATCGTCGCCAGCAACCAGATGGTATACAGCGCCAGCGCC -ATCAGCGTACCGTACACCAGACATTTCACGATGGTTTTCGGATCTTTGCCGTAATACTTCATCAGGCTTGGCACGTTACC -GTGATAACCAAACGATGCCAGACAGAACGGCAGGGTCATCAACAGATACGGTGCATAAGACGCATTGCTTTCGGCGACGT -TGAACAATGTCGCAGGCTGCACATGCCCCAGCAGGCTACCAAAGGTGAGGAAGAAGGTAATGACTTTCGCCCCCAGCACA -ATCGCTGTCATGCGACTGACGGCTTTAGTGCTCAACCACACCACAAACGCTACCAGCAATGCAAAACCAAAACCCGCCGC -CCGTGCCGGGACGTTTAGTGACATCTCTGCGAAGGTGTGATGCAGAATCGAACCACTGGCAGAAATATAGGCATAGGTCA -GGATATAGAGCACAAAGGCAATGGAAATGCCGTTGACCACGTTCCAGCCTTTGCCCAGCAAATCTTTGGTGATGGTGTCA -AAACTCGAACCGATTCTGTAATTCAGGTTAGCTTCCAGAATCATCAAGCCGGAATGCAGCATACAGAACCAGGTAAAGAT -CAGCGCCGCCATTGACCAGAAAAACCACGCCCCGGACATGACCACTGGCAGAGAAAACATCCCTGCGCCAATAATGGTGC -CGCCGATAATCACCACGCCGCCAAGCAGCGACGGTGACGTTTGGGTGGTGGTTAGTGTTGCCATGAGGGCTTCTCTCCAG -TGAAAAATAGTGCGACTGCGTTGTTATGCATTGCACTGTACCAGTACACGAGTACAAAAGACAGAAAAAAAGCCCCGATG -GTAAAAATCGGGGCTGTATATATTATTTTACAGATTGTGTTCGCTGTTCAGCGATGATTACGCATCACCACCGAAACGAC -GACGACCGGTAGAATCATCACGACGCGGAGCGCGGCCTTCACGACGTTCGCCGCTAAAACGACGACCATCACCACGGCCA -CCTTCACGGCGTTCACCGCTGAAGTTACGACCGCCTTCACGACGTTCGCCACCGAAACCACGACCACCGCCACGACGCTC -ACCGCCAGTATGCGGCTGTGCATCGCCCAGTAACTGCATGTTCATCGGCTTGTTGAGAATGCGAGTGCGCGTAAAGTGTT -GCAGCACTTCACCCGGCATACCTTTCGGCAGTTCGATGGTGGAGTGAGAAGCAAACAGCTTGATGTTACCAATGTAACGG -CTGCTGATGTCGCCTTCGTTAGCAATCGCACCAACGATATGACGAACTTCAACACCATCATCGCGGCCCACTTCAATGCG -GTACAGCTGCATATCGCCAACATCACGACGTTCACGACGCGGACGATCTTCACGGTCACCACGCGGGCCACGGTCGTTAC -GATCGCGCGGACCACGGTCATCACGGTCACGGAATTCACGTTTCGGACGCATCGGCGCATCTGGCGGTACGATCAGAGTA -CGTTCACCCTGTGCCATTTTCAGCAGTGCCGCAGCCAGAGTTTCGAGATCCAGCTCTTCACCTTCAGCAGTCGGCTGAAT -TTTGCTCAGCAGTGCGCGGTATTGATCCAGATCGCTGCTTTCCAGCTGCTGCTGTACTTTAGCGGCGAATTTTTCCAGAC -GGCGTTTGCCTAGCAGTTCTGCGTTCGGCAGTTCTACTTCCGGAATAGTCAGCTTCATAGTACGTTCAATGTTGCGCAGC -AGACGACGCTCGCGGTTCTCAACGAACAGCAGCGCGCGGCCAGCACGACCCGCACGACCGGTACGACCGATACGGTGAAC -GTAAGACTCAGAATCCATCGGGATATCGTAGTTAACTACCAGGCTGATACGCTCAACGTCCAGGCCACGGGCTGCAACGT -CGGTCGCAATCAGGATGTCCAGACGACCATCTTTCAGGCGTTCCAGTGTCTGTTCACGCAGCGCCTGGTTCATGTCACCG -TTCAGCGCGGCGCTGTTGTAGCCGTTACGCTCAAGAGCTTCAGCCACTTCCAGAGTCGCGTTTTTGGTACGAACGAAGAT -AATCGCCGCATCAAAATCTTCCGCTTCCAGGAAACGTACCAGTGCTTCGTTTTTGCGCATACCCCAGACAGTCCAGTAGC -TCTGGCTGATGTCAGGACGGGTAGTCACGCTGGACTGAATGCGCACTTCCTGCGGCTCTTTCATAAAGCGGCGGGTAATG -CGACGAATCGCTTCCGGCATGGTTGCAGAGAACAGAGCGGTCTGATGACCTTCCGGGATCTGCGCCATAATGGTTTCAAC -GTCTTCGATGAAGCCCATGCGCAGCATTTCGTCAGCTTCATCCAGAACCAGACCGCTCAGTTTAGAGAGGTCCAGAGTGC -CACGTTTCAGGTGGTCCAGCAGACGGCCCGGAGTACCGACAACGATCTGCGGCCCCTGACGCAGGGCGCGTAATTGCACG -TCATAACGCTGGCCGCCGTACAGAGCAACCACATTTACGCCGCGCATGTGTTTAGAGAAATCCGTCATTGCTTCAGCAAC -CTGTACCGCCAGTTCGCGGGTCGGTGCCAGCACCAGAATCTGTGGTGCTTTCAGCTCAGGATCAAGATTCTGCAACAGAG -GTAAAGAGAATGCTGCAGTTTTTCCGCTCCCCGTCTGGGCCATACCCAGAACGTCGCGGCCATTCAGCAGATGTGGAATA -CACTCTGCCTGAATTGGAGATGGTTTTTCGTAACCCAGATCGTTAAGGGCTTCAAGGATAGGAGCCTTCAGGCCCAGATC -TGCAAAAGTGGTTTCGAATTCAGCCATGTAGTACGTGTGCCTCAAAATTAATGGCGGCCAGTCTACATAACTCATCATGA -AATTGATCAGCAATTTTCATTGAAAAGTGTGAACCGGCTCAAAGTAGGTGTATTAACGAACAACAACGCCCTCACCCGTT -AAGGTGATGGCAATCAAAAAAGATTACGGGCTGATGTGTACGTCAGCTATTGCTGGTCCGATTCTGCCAGGTCATCTTGG -TCCTGGCCCAGGAGCGATAATTCCAACAATGCGTATCGGTGCTCAACAAAGTTATGAACGTTGTTGGCAACCGCCAGTTT -GAACAGTGCCGTGGCGCTGTCCAAATCCCCCAGACTTAGGTAGTACTTACCTAAATAGAAGTTGGTTTCACTGAGATGCT -CAGCGAGCGAGGTGTTATCCGTTGCGTCCGCCTTGAGCCTTTCCATTAACGTTTGTTCGCTAATGTTGCCCAGGTAGAAC -TCGACAATGTTCCATCCCCACTGTTCCTTATCCGATTTTTCGAAGTGCTGTTTCAACACTTCTTTAGCCTGCTTCTCATC -GAGCTTCTGCTCGGCGAGATAAAGCCACAGACTACGGAAAGGATCATTGGGATCGTCTTGATAAAACGCCAGCAGATCAT -CTTGCGCTAACTTGTCACGACCGCCGTAATATAATGCGATCCCGCGATTCAAGTGCGCGTAGTTGTAAGTTGGATCAAGC -TCAAGTACAGAATCAAACGCTTCATAGGCAGCATCAAAATTGCCTGCCTGCGTTAAATATATGCCTAAGTAATTGAATAC -TTCAGGCATATCCGGTCGGATTGCCAGCGCTTGCGAAAAATCGTTACGCGCTAATGCCCTCAGACCGAGACTATCATACA -ACACTCCGCGCTCATATAAAAGCTGTGCGCGTTCGTCATCGGTTAAAGCCCGACTGGCAAGGATTTGTTCCATACGTGCC -AGAATCACTTCCTGCTGTAAAGTCGGTTGCAATGGTACCGCGAGGACTTCACTTTTACGCCAGGAAGTATTACTGCATCC -TGCAAGCGTAAGTGCTGTCGCAACGAAACACCAGCGCAAAAAAGGCTTCATTTCCCACTCCCGAAGACCACGGTTGAATG -AACGTCCTGTTCCCGGTTGCTAACAAGGCGTCCTGCCCGGTTAAAAGCCCCCCGCCGCAGCGGAGGGCAAATGGCAACCT -TACTCGCCCTGTTCAGCAGCCGGAGCTTCCGGTGCTGCAGCAGGTTGAGACTGCTCAGTCGCTTCTTTAATGCTCAGACG -GATACGGCCCTGGCGATCAACTTCCAGAACTTTCACCGGTACTTCCTGACCCATCTGCAGGTAATCGGTCACTTTCTCAA -CGCGTTTGTCAGCGATTTGAGAGATGTGGACCAGACCTTCTTTACCGCCGCCGATGGCAACAAATGCGCCAAAGTCAACG -ATACGGGTCACTTTACCAGTGTAGACGCGGCCCACTTCGATTTCTGCAGTGATCTCTTCGATACGACGAATAGCATGTTT -CGCTTTCTCGCCGTCGGTCGCTGCAATCTTCACAGTACCGTCATCTTCGATTTCGATGGTGGTGCCAGTTTCTTCGGTCA -GAGCACGGATTACAGAACCGCCTTTACCGATAACATCTTTGATCTTGTCCGGGTTGATCTTGATGGTATGGATACGCGGT -GCGAACTCAGAGATATCGCCACGCGGCGCGTTGATCGCCTGTTCCATTACGCCCAGGATATGCAGACGCGCACCTTTAGC -CTGGTTCAGCGCAACCTGCATGATCTCTTTGGTGATACCTTCAATTTTGATATCCATCTGCAGTGCAGAGATACCGTCGC -GGGAACCTGCAACTTTGAAGTCCATATCGCCCAGGTGATCTTCGTCGCCCAAAATGTCAGACAGTACAACGTAGTTGTCG -CCTTCTTTCACCAGACCCATTGCGATACCCGCAACGGCAGCTTTGATCGGCACACCTGCGTCCATCAGCGCCAGAGACGC -GCCGCACACGGAAGCCATAGAAGAGGAACCGTTGGATTCAGTGATTTCAGACACAACACGTACGGTGTACGGGAATTTGT -CCATATCCGGCATGACTGCCAGCACGCCGCGCTTCGCCAGACGACCGTGACCAATTTCACGACGCTTCGGAGAACCGACC -ATGCCGGTTTCGCCTACGGAGTACGGAGGGAAGTTGTAGTGGAACAGGAAGGTATCGGTACGTTCGCCCATCAGTTCATC -AAGAACCTGCGCGTCACGAGCAGTACCCAGCGTTGCGGTAACCAGCGCCTGCGTTTCACCACGGGTGAACAGCGCAGAAC -CGTGAGTACGCGGCAGCACGCCAGTACGCACATCCAGACCACGGATCATATCTTTTTCACGACCGTCGATACGCGGTTCG -CCTGCCAGTACGCGGCTACGAACAACGTTTTTCTCGATCGCGTGCAGAATTTCACCCAGTTCGTTTTCGTCCAGGGTTTC -GTCTTCAGCAAGCAGCGTCGCGATGGTTTCAGATTTGATGACATCAACCTGCGCATAACGCTCTTGTTTGTCGGTGATGC -GGTAAGCATCGCTCAGGCGAGCTTCAGCCAGTGCAGCAACGCGCGCGTTTAGCGCTTCGTTTACCGGCTCCGGCTGCCAG -TCCCAACGCGGTTTACCGGCTTCTTTCACCAGTTCATTGATGTTCTGAATAACAACCTGCTGTTGTTCATGACCGAACAC -TACTGCGCCCAGCATCTGGTCTTCGCTCAGCAGTTGAGCTTCAGATTCAACCATCAGTACAGCGGCTTCAGTACCGGCAA -CAACCAGATCCAGTTTGCTCTCTTTCAGCTCGTCCTGAGTCGGGTTCAGTACGTACTGGTCATTGATGTAACCTACGCGG -GCAGCACCAATCGGGCCATTGAACGGAATACCAGACAGAGACAGCGCTGCGGAAGCACCAATCATCGCGACGATATCCGG -GTTAACTTGCGGGTTAACAGAAACCACGGTGGCGATAACCTGAACTTCGTTGACGAAGCCTTCCGGGAACAGCGGGCGAA -TCGGGCGGTCAATCAGACGCGCGATCAGGGTTTCGCCTTCGCTTGGGCGGCCTTCACGACGGAAGAAGCTACCCGGGATA -CGACCAGCAGCGTAGGTACGCTCCTGATAGTTAACGGTCAGTGGGAAGAAGTCCTGACCTGGTTTGGCTTTTTTCTGGCC -AACAACGGTAACGAATACCGCGGTGTCATCCATGCTAACCATAACAGCGGCAGTAGCCTGACGAGCCATCATGCCGGTTT -CCAGAGTCACGGTGTGTTGGCCGTACTGGAATTTACGAACGATCGGATTAAGCAATGTAATATCCTTTCTCTTTCTTAGA -CAGTACCTTACGGCACTGGTGTTAATACCCGATCTTCTGCGCATCCTCGCGACTAATGACAACCCTAACCCAGCTCTATG -TGGGTAAAGCCTCTCATTAGCCGCGCGAACCTCTGCAACGGAAGATCATTCATAGCAACAATACATTAGTTTCCAGTGAA -TTGCTGCCGTCAGCTTGAAAAAAGGGGCCACTCAGGCCCCCTTTTCTGAAACTCGCAAGAATTAGCGACGCAGACCCAGG -CGCTCGATGAGCTGGGTGTAACGTGCTACGTCTTTACGTTTCAGGTAGTCGAGCAGTTTACGACGCTGAGAAACCATGCG -CAGCAGACCACGACGGCTGTGGTGATCTTTTTTGTGCTCTGCAAAGTGGCCCTGCAGGTGGTTGATCTGTGCAGTCAGCA -GTGCTACCTGAACTTCGGTAGAACCGGTGTCGTTTGCGTCACGACCAAACTCAGAAACGATTTTAGCTGTTGCTTCAGTA -CTTAGAGACATTTTAAAACTCCAAAGTATATAGAATGAAAGGACGCCGATCTCTAATTCAGCGATCCCAGTGTACGTTAC -GCAAAGTGTTAAACAATTTACGCGACGTTAAGCGGCAGTATTCTACTCGTAGCGACCTGTTATCGCAAGACGGTTAACAT -TACGCCGGGTATTCAACCACCAGGCGACGAGGCGCAACGCGGCCTTCATCGTCAATTTCGCCCATACCGATAAATTTGCC -GTTCTCACCTTCCGTGACGCGAACCAGTCCTTCCAGTGGCGCACCAGATGTACGAACCGGGTTACCATTTTTGAAGTAAA -CAGAAGACGTTAACGGAAGATTCACCACCGGATAGTCCGAAGCTGGACTGTCCATTGGCATCAGTAATGGATCAAGTAAC -TCCGCGGCTGGAATATCCTGCTGTTCAGCTTGCTCAACAAGTTCACGCAGGTGCTCCAGGGTCACCATCCGTTCAACCGG -ATATTTACTTACCGCCAGACGGCGCAGGTAAATAACATGCGCGCCACAGCCGAGTTTTTCACCCAGGTCATCAATGATGG -TGCGGATATAAGTGCCTTTTGAGCAGTGAATTTCCAGCTCCAGCTCATTGCCTTCATGGCGAATAAACAGCAATTCATAA -ACGGTAATCGGACGCGCTTCACGCGGAACTTCAATGCCCTGACGCGCATATTCGTACAGTTTTTTGCCCTGATATTTCAG -TGCTGAATACATCGAAGGGATCTGTTCGATATCGCCACGGAAAGTATCCAGTGCCGCTGCCAGCTGCTCTGCGCTAAAGG -TTACCGGACGTTCTTCAACGATCTGTCCGTCGGCATCAGAAGTATCGGTACGCTGTCCAAGACGCGCAATGACCCGATAG -CGTTTGTCGGAGTCCAGCAGATACTGGGAAAACTTCGTCGCTTCCCCGAGGCAAATCGGCAACATGCCGGTCGCCAGCGG -GTCCAGCGCACCGGTATGCCCGGCACGGTTGGCGTTATATATACGTTTCACTTTTTGCAGCGCATCGTTGCTGGACATAC -CCTGAGGTTTATCCAGCAACAAAACGCCGTTAATGTCGCGACCGCGACGACGAGGACGACTCATTAGTCCTCCTTGCTGT -CGTCCGGGTTAACACGACGTTCTTCGTCATGTTTGACCACGCTGGTCACCAGGTTTGACATGCGCATCCCTTCAACCAGA -GAGTTGTCGTAGAAGAAGGTCAGTTCCGGCACGATACGCAGGCGCATCGCTTTCCCCAGCAGGCTGCGGATGAAACCAGA -AGCTTCTTGCAACGCTTTGATGCCCGCTTTAACCGCGTCTTCATCTTTGTCGTTGAGGAACGTCACATATACTTTGGCAT -ACGCCAGGTCGCGAGACATTTCGACACCGGAAACGGTGGTCATCATGCCCAGGCGAGGATCTTTAATTTCACGCTGCAGG -ATGAGAGCGATCTCTTTTTGCATTTCCTGCGCTACGCGCTGCGGGCGACCAAATTCTTTCGCCATAATAAATTCTCCTGA -CAAAAAAGGGGCTGTTAGCCCCTTTTTAAAATTAATTTCAGGTGGAAGGGCTGTTCACGTTGACCTGATAAGACGCGCCA -GCGTCACATCAGGCAATCCATGCCGGATGCAGCGTAAACGCCTTATCCCGCATGGAACCCTAAAAACCTTAAGCAATGGT -ACGTTGGATCTCGATGATTTCGAATACTTCGATCACATCGCCAGTGCGGACGTCGTTGTAGTTCTTAACGCCGATACCAC -ATTCCATACCGTTACGGACTTCGTTAACGTCATCTTTGAAGCGGCGCAGGGACTCCAGCTCGCCTTCGTAGATAACCACG -TTGTCACGCAGAACGCGGATCGGGTTGTGACGTTTAACCACACCTTCGGTAACCATACAGCCTGCGATGGCACCAAATTT -CGGCGATTTGAACACGTCACGAACTTCCGCCAGACCGATAATCTGCTGTTTCAGTTCCGGAGACAGCATACCGCTCATCG -CCGCTTTCACTTCGTCAATCAGGTTATAGATGACGGAGTAGTAACGCAGATCCAGGCTTTCCGCTTCAATCACTTTACGT -GCAGAGGCATCAGCACGTACGTTAAAGCCAACCAGGATGGCGTTGGACGCCGCAGCCAGGGTGGCGTCGGTTTCGGTGAT -ACCACCTACGCCAGAACCGATGATCTTCACTTTAACTTCGTCAGTAGACAGTTTCAGCAAGGAGTCGGAGATCGCTTCGA -CAGAACCCTGTACGTCTGCCTTCAGGACGATATTCACTTCGTGAACTTCGCCTTCGGTCATGTTGGCGAACATGTTCTCG -AGTTTAGATTTCTGCTGACGCGCCAGTTTAACTTCGCGGAATTTACCCTGACGATAGAGTGCAACTTCACGCGCTTTCTT -CTCGTCACGTACAACGGTAACTTCATCACCCGCAGCCGGTACGCCGGACAGGCCGAGGATTTCCACCGGAATGGACGGAC -CCGCTTCCAGCACTTCCTGACCCAGTTCGTTACGCATCGCACGAACACGACCGTATTCGAAGCCACACAGAACGATATCG -CCCTTGTGCAGAGTACCTTCACGTACCAGAACGGTAGCAACCGGACCACGACCTTTATCGAGGAAGGATTCGATAACCGC -ACCGCTCGCCATACCTTTACGTACCGCTTTCAGCTCCAGAACTTCCGCCTGCAGCAGGATAGCGTCCAGCAGTTCATCGA -TACCGGTACCCGCTTTCGCAGATACGTGTACGAACTGGCTTTCACCGCCCCACTCTTCCGGCAGGATGCCGTACTGGGAG -AGTTCGTTCTTAACGCGATCCGGATCAGCTTCTGGTTTATCGATCTTGTTCACTGCAACCACCACCGGTACCTGCGCCGC -TTTCGCGTGCTGGATTGCTTCGATGGTCTGCGGCATCACACCGTCGTCGGCAGCAACAACCAGGACTACGATGTCCGTTG -CCTGCGCACCACGAGCACGCATTGAAGTAAACGCGGCGTGCCCCGGGGTGTCCAGGAAGGTGATCATGCCGTTTTCAGTT -TCAACGTGGTATGCACCAATGTGCTGGGTAATGCCGCCCGCTTCGCCAGAGGCCACTTTCGTTGAACGAATGTAGTCCAG -CAGAGAGGTTTTACCGTGGTCAACGTGACCCATGATGGTCACAACCGGCGCGCGCGGTTCAGCCGCAGCACCCGTGTCAC -GGTCGCTCATTACCGCCTCTTCCAGCTCGTTTTCACGACGCAGGATAACTTTATGGCCCATCTCTTCAGCAACCAGCTGT -GCGGTTTCCTGATCGATAACCTGGTTGATGGTTGCCATTGCGCCCAGTTTCATCATCGCTTTGATGACCTGAGAGCCTTT -AACCGCCATCTTGTTCGCCAGTTCGCCAACGGTGATAGTTTCGCCGATCACAACGTCACGGTTAACGGCCTGAGCAGGCT -TCTGGAAGCCTTGCTGCAGCGAAGAACCTTTACGTTTTCCGCCTTTACCGCCACGTACTGCTGCGCGTGCTTCTTCACGA -TCAGCTTTTGATTCAGCGTGTTTGTTGCCTTTCTTCGGACGCGCTGCTTTCGCGTTACGACCACGGCCACGGCCGCCTTC -GACTTCACGATCGCTTTCGTCTTCTGCCTGGCGAGCATGTTGAGAAGTAGTGACGTGATAATCGCTGGAATCTTCAGTCG -GTTCCGCGTTATCAGTCCATTTGTTTTCTTCCGCCATACGACGTGCTTCTTCAGCAACGCGACGTGCTTCTTCTTCGAGT -TTACGACGCGCTTCTTCTTCAGCTTTACGCTTGAGCTCTGCAGCTTCCTGCTCACGGCGGGCTTTTTCAGCCTGGGCGTT -TTTAGTCATATCGTCTTGTTGATTGCTCACTTTGTCTTTTTCCGCAGCTTCACGTTTCGCTTGTTCAGCAGCTTCACGCT -TAGCTTGTTCTGCGGCCTCACGTTCAGCTTTTTGTTGCGCCTCGCGTTTAGCCGATTCTTCTGCCTCACGACGGGCTTGC -TCTTCCGCTTCACGCTGCGCTTGCTCTTCCGCTGCAAGGCGTTCAGCCTCTTGCGGATCGCGTTTCACAAAGGTGCGTTT -CTTGCGGACTTCGATTTGTACCGATTTGCTTTTTCCACCGGTACCAGGAATGTTAAGGGTGCTGCGTGTTTTACGTTGCA -GCGTCAATTTGTCCGGGCCTGAATTTTTCTGATTCAGGTGGTCAATCAAAGTCTGTTTCTCTTGTGCAGACACAGAGTCG -TCAGCAGACTTCCGGATACCTGCATCAGCAAATTGCTGTACCAGGCGTTCCACGGAGGTCTGTCGCTCTGCGGCCAGCGT -TTTAATCGTTACATCTGTCATGCTGTTCCTTCCTGCTACAGTTTATTACGCTTCGTCACCGAACCAGCAAATATTACGGG -CAGCCATAATCAGTGCTCCGGCTTTTTCGTCGGTCAACCCTTCGATATCAGCCAGATCATCAATGCCCTGTTCGGCGAGA -TCTTCCAGCGTACAAACGCCACGGGCGGCCAGTTTGAATGCCAAATCACGATCTACCCCTTCAAGGTTCAGCAGATCGTC -AGCCGGTTTGTTATCACCGAGGCTTTCTTCCTGGGCCTGTGCAATGGTGGCCAGTGCATTTTTAGCACGCTCGCGCAGTG -CTTCAACGGTCGGCTCATCAAGGCCTTCGATTTCCAACAGCTCTTTCATCGGCACATAGGCCAATTCTTCCAGCGTCGAG -AAGCCTTCTTCTACCAGAACAGTCGCGAAGTCTTCGTCGATGTCGAGATATTTGGTGAAGGTGTCGATCGCTGCGTGCGC -TTCCGCCTGATGCTTAGCCTGCAGGTCGTCAACGGTCATCACGTTGAGTTCCCAACCGCTCAGCTGCGAAGCCAGACGCA -CGTTCTGACCGTTACGGCCAATCGCCTGCGCCAGGTTACCGGCTTCAACGGCGATATCCATGGTGTGTTTATCTTCATCC -ACCACGATAGAAGCAACGTCTGCCGGTGCCATTGCGTTAATCACGAACTGCGCCGGGTTATCATCCCACAGGACGATATC -GATACGCTCGCCACCCAGTTCAGTAGACACCGCCTGAACACGCGCGCCACGCATACCTACGCAAGCACCTACCGGATCGA -TACGTTTATCGTTGGTTTTCACCGCGATTTTCGCACGAGAACCCGGATCGCGAGCCGCTGCTTTAATTTCAATCACTTCT -TCGCCGATTTCTGGCACTTCAATACGGAACAGTTCGATCAGCATTTCCGGCTTGGAACGAGTGACGAACAGTTGCGCGCC -ACGCGCTTCCGGGCGAACGGAATAGAGCACGCCACGAACGCGGTCGCCAGGGCGGAAGTTTTCACGCGGCAGCATATCTT -CGCGCAGGATCACGGCTTCAGCGTTGTTGCCCAGATCCAGAGAGATGTTGTCGCGGTTTACTTTTTTCACCACGCCGGTG -ATGATTTCACCTTCGTGTTCACGGAACTGATCAACCACCATCGCACGTTCGGCTTCACGCACTTTCTGCACGATAACCTG -TTTTGCCGTCTGGGTAGTGATACGGTCAAAGGTAACAGACTCAATCTGATCTTCAACGTAATCGCCCAGGTTCAGGCTTT -CATCTTCATAACGTGCGGCTTCAAGGGTGATTTCCTTGGTCGGCTGGGTGACTTCATCAACAACTAACCAGCGACGGAAA -GTGTCAAAATCACCGCTTTTGCGATCGATCTGTACGCGGACGTCGATCTCTTGTTCATATTTTTTCTTTGTTGCTGTCGC -CAGCGCGCTTTCCAATGCTTCGAAAATCTTCTCGCGAGGTAGCGCCTTTTCATTGGATACGGCTTCAACTACAGCCAAAA -TTTCTTTGTTCATCGCGGGCTTTTCACCTCATCCAGACTATTAAAAGTGGGGAACCAGGTTCGCCTTCTGGATATTACTC -AGCGCGAACACTTCATCTTTACCTTCGACGGTAACTGTGATCATTTCACCGTCTACCGCTTTGATAACGCCCTGCCATTT -ACGACGGTTTTGTACCGCCATACGGAGAACCAGAGTCACCTCTTCTCCGACAAAACGGGCGTAGTGTTCAGCCGTGAACA -GTGGGCGATCGAGACCCGGTGAGGAGACTTCCAGGTTATAAGCAACGGTGATGGGATCTTCAACATCCAGCACAGCACTT -ACCTGGTGGCTCACATCAGCACAATCATCAACATTGATGCCATCTTCACTATCAATATAGATGCGCAGTGTGGATGTGCG -ACCGCGAATAAATTCGATGCCAACCAGTTCAAAACCCAGGGCCTCAACTGGCGCAGTAATCATCTCTGTTAATTTTTGCT -CTAATGTGGACAAGCCCACCCCCAAGACATAAAAAAAGGGCCTAAAGCCCAGTTATTCTGTAGTCAGATAACAAAAAACC -CCGATAAATCGGGGCTTTATATAACTGAACCCTATAACCGCAACTGCGGTCTGGAGCACTTTCCAGAAGGATTTTTTCAA -ATCCCACTACGAAGGCCGAAGTCTTCACAGTATATTTGAAAAAGGACTCTAAGGGAAAGTGGTTGCGGGGGCCGGATTTG -AACCGACGATCTTCGGGTTATGAGCCCGACGAGCTACCAGGCTGCTCCACCCCGCGCCTGAAACGTGGCAAATTCTACTC -GTTTTGGGTAAAAAATGCAAATACTGCTGGGATTTGGTGTACCGAGACGGGACGTAAAATCTGCAGGCATTATAGTGATC -CACGCCACATTTTGTCAACGTTTATTGCTAATCATGTGAATGAATATCCAGTTCACTTTCATTTGTTGAATACTTTTGCC -TTCTCCTGCTCTCCCTTAAGCGCATTATTTTACAAAAAACACACTAAACTCTTCCTGTCTCCGATAAAAGATGATTAAAT -GAAAACTCATTTATTTTGCATAAAAATTCAGTGAGAGCGGAAATCCAGGCTCATCATCAGTTAATTAAGCAGGGTGTTAT -TTTATGACGACGATTCTCAAGCATCTCCCGGTAGGTCAACGTATTGGTATCGCTTTTTCTGGCGGTCTGGACACCAGTGC -CGCACTGCTGTGGATGCGACAAAAGGGAGCGGTTCCTTATGCATATACTGCAAACCTGGGCCAGCCAGACGAAGAGGATT -ATGATGCGATCCCTCGTCGTGCCATGGAATACGGCGCGGAGAACGCACGTCTGATCGACTGCCGCAAACAACTGGTGGCC -GAAGGTATTGCCGCTATTCAGTGTGGCGCATTTCATAACACCACCGGCGGCCTGACCTATTTCAACACGACGCCGCTGGG -CCGCGCCGTGACTGGTACCATGCTGGTTGCTGCGATGAAAGAAGATGGCGTGAATATCTGGGGTGACGGTAGCACCTACA -AAGGAAACGATATCGAACGTTTCTATCGTTATGGTCTGCTGACCAATGCTGAACTGCAGATTTACAAACCGTGGCTTGAT -ACTGACTTTATTGATGAACTGGGCGGCCGTCATGAGATGTCTGAATTTATGATTGCCTGCGGTTTCGACTACAAAATGTC -TGTCGAAAAAGCCTACTCCACAGACTCCAACATGCTTGGTGCAACGCATGAAGCGAAGGATCTGGAATACCTCAACTCCA -GCGTCAAAATCGTCAACCCGATTATGGGCGTGAAATTCTGGGATGAGAGCGTGAAGATCCCGGCAGAAGAAGTCACAGTA -CGCTTTGAACAAGGTCATCCGGTGGCGCTGAACGGTAAAACCTTTAGCGACGACGTAGAAATGATGCTGGAAGCTAACCG -CATCGGCGGTCGTCACGGCCTGGGCATGAGCGACCAGATTGAAAACCGTATCATCGAAGCGAAAAGCCGTGGTATTTACG -AAGCTCCGGGGATGGCACTGCTGCACATTGCGTATGAACGCCTGTTGACCGGTATTCACAACGAAGACACCATTGAGCAG -TATCACGCGCATGGTCGTCAGTTGGGCCGTCTGCTGTACCAGGGGCGTTGGTTTGACTCCCAGGCGCTGATGCTGCGTGA -CTCTCTGCAACGCTGGGTTGCCAGCCAGATCACTGGTGAAGTTACCCTGGAGCTGCGCCGTGGGAACGATTATTCAATCC -TGAATACCGTCTCAGAGAACCTGACCTACAAGCCAGAGCGTCTGACGATGGAAAAAGGCGACTCGGTGTTCTCGCCAGAT -GATCGTATTGGTCAATTGACCATGCGTAACCTGGATATCACTGATACCCGCGAGAAACTTTTCGGTTATGCCAAAACTGG -CCTGCTTTCCTCCTCTGCCGCTTCAGGCGTGCCGCAGGTGGAGAATCTGGAAAACAAAGGCCAGTAATTCGACATCAACC -CTGCCCTTCAGGGGTGGGGTTACCTTGCTTATCCTCTGTAAACTCCTTTCTGAGCATCACATAATCGAAAACATCATGGT -TTGCATCCACAACCCGTGAGTCTCCTTTATAGTGTGCAATCACTTCCTCAAGCGTTTGCGGCTGTTCCGGCTTTGTTACC -CCCATCCACGCATTAATAAGGTAATTATTGTAAGCTGTCGAAAAGATGTTGTTTTCCGTTGTGCGATCCACGCCATCCCC -AAGAACGGGGCTATACCAGATAAACATCGGGACATGATATGCCTGCTGGCTAGCCTCCCTGCCTCCATGAAAATAGACGT -TCTTCTTCGTAGGGTCACGTTCCAGGCCGTGGTCGGCAAAATACATGACCGAGGCGCGGCGATCTTTTAATAATTCAAAA -ACCTGACCTAGCAAACTATCTGTGTAATGAATGGAGTTGTCATAGCAGGCATCCTGATCGTCCTGCGGTTGAAACACGGC -GCTGGATTGCGGATAGGCGCTACAAGCCGGTTCATGGCTTCCATTTAAATGAAGAACAATCAGTTTCTTTTGCTGCGTAT -TTTGCTGTAATGCTTGCGATAAATGCGGCAACAACAATTCATCAAATCCTCTGACATAAACTGTTTCCATGGCGCGCATG -GCGATACTGGTAACTGCTGTACCATTCTGCCGAAAAGCGGATTGCGAGCTTAGCCAGAAAGTCTGAAATCCTGCTTGATT -AGCCATATTAATAATGTTGTCGGGGTAATTATGAATGTCATGACTCAAAACAGAATCAGCAGTTAAAGAAAGGGGAACCG -ACAGCGCAGTGTAAGGTGCGCCGCTTATTGCTTGATTAAACAGTTTGATCTGTTTTCTTTGTGCTTCAACTTGCGGTGTC -GTAGAGCGTGTATATCCATACAAAGACATATTGTCGACACGTACAGACTCCCCCACAATCAACACGTAGGTATCAATACC -TGTATCCCTGACTGATAATTGAAAATACGGCACCGTGTTTGCAATTGAGAGTAATCTTTGATGCTCTTTCGCTGCTAAAG -CAAAATAGTTGAGATTGAAAAACGGCGTATAGGTAGCAAATCGCGACGCTAGTATATATGGACTGAACGCTTTTTTATTT -TTTGCATCTTTATAAGCAAATTGACAAGCGGAAAATAAACTGCCCGAAATGACAATCAGCAATAATATTCCTGTCACTTT -TTTTGTCGGCAAGGAAACATCATATTTTATTATTACTGCCAAAAAAAGAAGGGATAAAAAAGCAAAGGCACATAGATAAG -GGATATACATCCCCAGCATTTTGACAACTTCATCCGGATCACTCTGGAGCACACTAATCGCAAATCCATCATTGAAAGTT -GTACCAAAGGTACACCATGAATAGAGGCTAATACTCATGTCTGCCGCAGTCAGTAACACAAATGGTGCGGCAACAAGCAG -GCGAAGCGGAAGGGATGATATACGTTTTACAACCAGGATGGTCAGAACGAAGAACAGCAAGCGCTGAACCATATGCGCTC -CGGAAGAAGCGACTAAGTTCGTAATACCAAAAACAATAACACAAAGATACAACAACCAATGAGATTTAAAAGTTCTAGCA -AATTTGTTGAATACTGTCATCCAGAAATCCAAGTTCACAACCAATATAAACAATTATCAACAATGTTTAATTTTATATCA -GACATGTTTTTCAACTCTGATCCATATCAGAACGAAACACTGTTAGTTTTTTCTTTTTAAATGATGCGGCCATTGCGTTC -TCAGTAATTAAATAACATTATCAATGCGTCTCTAAACATTACGCAGAACGTAGCCATCAGTCGTTATACTGACAGGAGCA -GGATGGTTTATCGAGAAGTAAACATATCCGTATTCGTACCGGAACTGGAGTTGACACAATAAAGTGCCAATTATGTCAGT -AGAAGGGAAAAATTTATAACTAAGGCGTACCGGCACCATCGTTTCAAGGTACCAGCTACGAGTAAAGCAACTGGACGAGA -TACAGATACCTGACAACCATTCCTCAGACCAGGACCAAAACGAAAAAAGACGCTTTTCAGCGTCTCTTTTCTGGAATTTG -GTACCGAGGACGGGACTTGAACCCGTAAGCCCTATTGGGCACTACCACCTCAAGGTAGCGTGTCTACCAATTCCACCACC -TCGGCACGGATACTACTTTTTAGTTCGGGATATCGCTGGTCGGCTTAGCCGGAGCAGCTGGCTGAGTTTGTTCGGTTTTC -GCCGGTGCACTCAGATTTTCCCATTCGCTACCTTTATTGGTTTTGTTGCTATTGATGTTACCCAGCACCAGACTGATGAT -GAAGAATAACGTTGCCAGCAGCGCCGTCATGCGGGTCATGAAGTTACCAGAACCACTTGAACCAAACAGCGTAGCGGAAG -CGCCTGCTCCGAAGGAGGCTCCCATATCAGCGCCTTTACCTTGCTGCAGCATGATCAGACCAACAAGGCCAATTGCCACA -ATAAGGAAAACTACTAAAAGAGCTTCATACATAATCAACCTGTTCCTTGCGGAGTTGCCGCGTACCAATGCTTCAACCAA -TAAAGCGGGAGTTTTTAATCTTTCCCACTGAAGCGGGTGTGAATACTAACCAAAGCGAATGACCTTCGCAAGGGCAATTT -TATCGCATTGTATCAACTGCGGAAAAAAACAGCAAAACCGATGTGTTCGCTGAGAAAAAAGGCGACAATCGCCGCCTTTT -TAGCCAGTTATCTAACGCTTTAAACGGCTTTTACTGCATCGGCGATGCGGTGTGCAAATTCAGTCACCTGCGCTTCGTCT -TCGCCTTCCACCATCACGCGAATTAACGGTTCGGTGCCGGATTTACGCAGCAACACGCGTCCACGGTTGCCCAGCGCAGC -TTCAACCTCTGCGGTCACGGCTTTAACTGACTCATGCTCAAGTGGATCGCCGCTACCTGCGGTGTAACGTACGTTAACCA -GAATCTGCGGGAACATTTTCATGCCGCTGCAAAGGTCGTGCAGGCTCATATGGTTACGTGCCATCGCCGCCAGCACCTGC -AAGCCAGCAACGATGCCGTCACCGGTAGTAGTTTTATCCAGCAGGATCACATGACCGGAATTCTCTGCACCGATACGCCA -GCCTTTCTCCTGCATTTTTTCCAGTACGTAGCGGTCACCCACTTTCGCGCGCGCAAATGGAATTCCTAACTGTTTCAGCG -CCAGTTCAAGCCCCATGTTGCTCATCAATGTACCCACAGCGCCACCACGCAGCTGGCCCTGACGAAGACCTTCACGCGCG -ATGATATACATGATCTGATCGCCATCGACTTTATTGCCTTCATGGTCAACCATAATCACGCGATCGCCATCGCCGTCGAA -GGCAATACCGAGATCCGCTTTTTCAGCCAGCACACGAGCCTGGAGCGCGCGAACGTCGGTAGCCCCCACTTCGGCATTGA -TGTTTACACCGTTTGGCTCACAACCGATAGCGATAACGTTCGCCCCCAGTTCGCGCAGCACGTTCGGCGCGATGTGATAA -GTCGCACCGTTTGCACAATCCACCACAATCTTCAGTTCACTGAGGCTAAGTTCGTTCGGGAACGTGGCTTTGCAAAACTC -GATATAGCGACCCGCGGCATCAACGATACGGCTGGCTTTACCCAGTTCTGCCGAATCAACGCAGCTGATCTCCTTTTCCA -TTTCCGCTTCGATGGCCTCTTCTACCGCATCCGGCAGTTTGGTGCCGTCGATAGAGAAGAATTTAATGCCATTATCGTAG -AACGGGTTATGCGATGCAGATATCACAATTCCGGCCTCTGCGCGGAAGGTACGCGTCAGATAAGCCACGGCCGGTGTTGG -CATCGGGCCAGTGAAGAGTGCGGAAAGGCCCGCTGCCGCCAGACCCGCTTCCAGTGCTGACTCCAGCATATAGCCAGAAA -TACGCGTGTCTTTACCAATAATAATCTTACGGGAGCCGTGGCGCGCCAGCACTTTACCCGCGGCCCAACCCAGCTTAAGC -ACAAAATCAGGTGTGATCGGCGCATCCCCTACACGACCACGAATCCCATCGGTACCGAAATATTTACGATTACTCATAGC -GTTTGTTTTCCTTTGCAGACAGAGTGGCTTCCACCACCCGCATCGCTTCTACGGTTTCTTTGACGTCATGAACACGAATG -ATGTGCGCGCCTTGCATTGCGGCAATGACCGCACAGGCCAGACTACCGCTCAGGCGCTCGGACGGCCCCACGTTCAGCAG -CTGCCCAATCATCGATTTTCGTGACATACCCACCAACAGCGGCAGGTTGAAATGGTGAAATTCAGCCAGGCGCGCCAGTA -ATGAATAGTTATGGGAGAGATTTTTACCGAAACCGAATCCGGGGTCGAGCAACAATTTCTCTTTTGCGATACCCGCCTGC -TCGCAACGTGCTATTTGCTCAATAAAGTAGCGATTCACTTCTGCAAAGACATCGTCATACTTCGGAGCTTCCTGCATGGT -TTTTGGATTTCCCTGCATATGCATCAGACAAACCGGTAAACCGGTTTCTGCAGCCGCCTCCAGAGCGCCAGGTTCGGAAA -GGGAGCGGATATCATTAATAATGTGAGCGCCAACTTTCGCTGACTCACGGATGACTTCTGGTTTGGATGTATCGACTGAG -ATCCAGACTTCGAAGCGTTGAGCAATTGCCTCAACCACAGGAATAACACGTTGCAACTCTTCTTCAACGCTAACTTCCGC -CGCCCCTGGGCGCGTGGACTCGCCACCAACGTCAATGATCGTCGCGCCAGCGTTGATCATCAGATTCGCATGTTTCACCG -CATCTATCAGCGAGTTATGCGTGCCACCATCCGAAAAGGAATCAGGCGTGACGTTGAGGATCCCCATTACGTGAGGATGG -CTAAGGTCCAGTGAAGTACCCTGGGCAAAGAGTTTCATGATGTTATCCCTGGTATGAATTGATAAGAAAAAACCCCGGAG -CACGCCCCGGGGTTTTCGGTACAAATACAGTCATCTGATGCGGGAACTTACTTGTCGCCTAACTGCTCTGACATGGTGTT -ACCCGGGTTCGGCGTACGCGGTTCATCAACCGGACGAGGAGCCTTTGGACTACCATTGTCGCCAGAATTGTTAGAAGCGC -CTGGTTCTTCCCAGCCCGCTGGCGGACGTACATCGCGACGTGCCATCAGGTCATCAATCTGCGGTGCGTCGATAGTCTCA -TATTTCATGAGAGCATCTTTCATCGCATGCAGAATATCCATATTGTCGGTCAGAAGCTGACGCGCACGATTATAGTTACG -CTCAATCAGTGCTTTCACTTCCTGGTCGATGATACGTGCAGTTTCATCGGACATATGTTTCGCTTTCGCTACGCTACGGC -CGAGGAACACTTCACCTTCTTCTTCCGCGTACAGCAGTGGACCCAATTTCTCAGAGAAGCCCCACTGAGTCACCATGTTA -CGTGCCAGGTTGGTCGCAACTTTAATATCGTTGGACGCACCGGTAGATACATGTTCCGGCCCGTAGATGATCTCTTCTGC -CAGACGACCACCGTACAGCGTAGAAATCTGGCTTTCCAGTTTCTGACGGCTGGCGCTGATTGCGTCGCCCTCAGGCAAGA -AGAAAGTCACACCCAGCGCACGACCGCGTGGGATAATCGTCACTTTGTGCACCGGATCGTGTTCCGGCACCAGGCGACCG -ATAATCGCATGACCCGCTTCGTGGTAAGCCGTCGATTCTTTCTGCGCTTCCGTCATCACCATGGAGCGACGTTCCGCACC -CATCATGATTTTGTCTTTCGCTTTCTCGAACTCAACCATCGACACAACGCGTTTGTTGCCACGAGCAGCGAACAGTGCCG -CTTCGTTCACCAGGTTCGCCAGGTCAGCACCGGAGAAACCAGGAGTACCACGGGCAATGATTGCCGCGTCGATATCGGGT -GCCAATGGTACGCGACGCATGTGAACTTTCAGGATCTGCTCACGACCGCGAACATCTGGCAAGCCGACCACAACCTGACG -GTCGAAACGGCCAGGACGCAGCAGGGCCGGGTCGAGAACGTCCGGACGGTTAGTCGCGGCGATAACGATGATACCTTCGT -TACCTTCGAAGCCATCCATCTCAACCAGCATCTGGTTCAGAGTCTGTTCACGTTCATCGTGACCACCGCCCAGACCAGCG -CCACGCTGGCGGCCTACGGCGTCGATTTCATCGATAAAGATGATGCACGGTGCCGCTTTCTTCGCCTGTTCGAACATGTC -ACGAACACGGGATGCACCCACACCGACGAACATTTCTACGAAGTCAGAACCGGAGATAGTAAAGAACGGAACTTTCGCTT -CGCCTGCAATCGCTTTCGCCAGCAGCGTTTTACCGGTACCCGGAGGACCGACCATCAAGACGCCTTTCGGGATCTTACCG -CCGAGTTTCTGGAAGCGGCTCGGCTCGCGCAGATACTCAACCAGTTCAGCAACTTCTTCTTTTGCTTCGTCGCAGCCCGC -AACGTCAGCAAAGGTCGTTTTGATCTGATCTTCCGTCAGCATGCGCGCTTTGCTCTTACCAAACGACATGGCACCTTTGC -CACCGCCGCCCTGCATTTGACGCATGAAGAAGATCCAGACACCAATCAGCAACAGCATCGGGAACCAGGAGATGAAGATA -GAAGCCAGCAGGCTTGGTTCTTCAGGCGGTTCACCGACAACCTTGACGTTCTTGGTCAACAGGTTATCCAGTAATTTCGG -ATCCTGAACCGGAATGTAAGTGGTATAACGGTTACTATCTTTCTTGGTAACGTTGATTTCACGTCCGTTGATACGCGCTT -CACGAACCTGGTCGTTATTGACCTCTTGTAGGAAGGTAGAGTAATCCACCTTACGGCCATTAGACTCGCTGGGCCCAAAG -CTCTGGAATACTGACATCAGCACAACGGCAATGACCAGCCAGAGTATTAGGTTTTTCGCCATGTCACTCAAGGGATTAAC -CTCTTATTACAACTGTGTTAAAAACAGCGTCAGGATACTCTATATCCAGCATCTTTCAAACTTTCGTCTGAAATCTCCCG -GTTAGGGTTTACGCCCGGTCGCTACAATATACACTTCCCGCGAACGTGCACGAGAAGAGTCCGGCTTACGAACTTTGACC -TTCGTAAACAGGGAGCGAATTTCCCTTAGATACTCATCGAAACCTTCGCCCTGGAACACCTTCACTACAAAACTGCCACC -TGGCGCTAATACATCACGACACATTTCTAGCGCCAGTTCCACCAGATACATGGCACGGGGGATATCCACCGCCGGTGTTC -CGCTCATGTTTGGTGCCATATCGGACATGACAACCTGGACTTTGCTGTCGCCAACGCGCTCCAGCAGTGCTTTCATCACC -AGTTCATCACGAAAATCGCCCTGAAGAAAGTCCACACCAACGATAGGATCCATAGGTAAAAGATCGCAAGCGATGATGCG -GCCTTTGCCGCCAATTTGGGTGACCACATATTGTGACCAACCACCCGGAGCAGCACCAAGGTCGACAACCGTCATTCCCG -GTTTAAAGAGTTTGTCACTTTGCTGTATTTCATCAAGTTTAAACCAGGCACGGGAACGTAACCCCTTTTTCTGTGCCTGT -TGAACATATTTATCGCTAAAGTGTTCCTGAAGCCAGCGGCTGGAGCTGGCAGAACGCTTCTTACCTGTCATTTAACTTTC -CCATGGGGATAACTCATCGTAACCAATTGCGTAAATTTTTACGCGCCTATTTGGTGATATATGGGAGATGGCGGTAGAAT -GACCCGTTTTCAATCCCAACGTAAGCAAAAAATACGATGAATCTGAGTACTAAACAAAAACAGCACCTGAAAGGTCTGGC -ACATCCGCTCAAGCCAGTTGTTCTGCTTGGCAGTAATGGTTTGACCGAAGGGGTGCTGGCCGAGATTGAACAAGCGTTAG -AGCACCATGAACTCATCAAGGTGAAAATCGCCACCGAAGATCGCGAAACTAAAACCTTGATCGTGGAAGCTATCGTGCGC -GAAACCGGCGCCTGTAATGTACAGGTCATCGGTAAAACGCTGGTGCTTTATCGCCCAACTAAAGAACGTAAAATCTCGCT -GCCACGCTAAGATTATCCTAAAGTTACACACATTTGCTGTGTAAAACGAGGGGTTTTCCGCAGGCAGGAGAGCAAAATGC -CACGCTCTGTTCGTTGATAAAAGGCCGCATAGCGGCCTTTTTCCTTTCTTTACAATACATCAACATCTTGAGTATTGGGT -AATTCTTACAGGTATTCCACCTTAATTACTTCAAATTCTACTTCGCCGCCCGGCGTTTTGATGACCACAACATCATCTTC -TTCTTTGCCGATCAGGCCACGAGCAATAGGCGAGTTTACAGAAATCAGGTTTTGTTTAAAGTCAGCTTCGTCATCGCCAA -CGATGCGATAAGTCTGTTCTTCGTCAGAATCCAGATTCAGCACCGTTACGGTAGCACCAAAAATAACGCGCCCATTGTTG -GGCATTTTGGTGACATCAATCACCTGCGCGTTCGACAGCTTGGCTTCGATGTCTTTAATACGGCCTTCGCAGAAACCCTG -CTGTTCACGAGCTGCGTGGTATTCGGCGTTTTCTTTCAGGTCGCCATGCTCACGCGCTTCCGCGATAGCAGCAATGATTT -CAGGACGGCGCACAGATTTCAGAAAATCCAGCTCTTCGCGTAATTTTTCAGCGCCGCGTAAGGTCATCGGAATAGCTTGC -ATTTGTTATACCTCTTGAATATTCCTGATAGGGCAAGTCTTCACCCACCCCGGCTGTTCGGCCTGCCCGGCATAACTCCT -TACCGGGACCAGAAGCAAAAAAATACCGACCCGGGTACAAGTCCCAGGTCAGCTACAATTCACATTTTGATAGTCATTTT -ACCCTGAAGTTCCCGAAGGGTCATCGTTTACTTTATAGGGCGTTGCGCCGTAGTATGACGGCTCGATTCCAGGTTGTTAG -CGCGAGATTATGCGATTTTCCAGATTTATCATCGGATTGACCAGCTGTATAGCGTTCAGTGTTCAGGCCGCAAATGTTGA -TGAGTACATTACTCAACTCCCCGCTGGTGCCAACCTTGCCCTGATGGTGCAAAAAGTCGGCGCGTCGGCCCCCGCTATTG -ATTACCACAGTCAGCAGATGGCGCTGCCTGCCAGTACCCAGAAAGTGATTACTGCGCTGGCGGCGTTGATTCAACTCGGC -CCCGATTTTCGTTTTACCACGACGCTTGAAACCAAAGGCAATGTGGAAAACGGCGTACTTAAGGGTGACTTAGTGGCGCG -ATTTGGTGCCGATCCGACGTTAAAACGTCAGGATATTCGCAATATGGTCGCGACTTTGAAAAAATCTGGCGTCAACCAAA -TCGATGGCAATGTGTTGATAGATACCTCCATTTTCGCCAGCCACGATAAAGCCCCCGGCTGGCCATGGAATGACATGACA -CAATGCTTTAGCGCTCCGCCTGCCGCCGCCATAGTTGACCGCAACTGTTTCTCCGTCTCGCTCTACAGTGCCCCAAAGCC -TGGTGATATGGCTTTTATACGCGTGGCATCTTATTACCCCGTTACGATGTTCAGCCAGGTACGCACCCTCCCCCGTGGTT -CTGCCGAAGCGCAATACTGCGAACTGGATGTGGTGCCAGGCGACCTGAACCGCTTTACGCTGACGGGATGCCTGCCACAA -CGTTCTGAGCCGCTCCCGTTGGCTTTTGCCGTGCAGGATGGAGCCAGCTATGCCGGTGCAATTCTGAAAGATGAGTTAAA -ACAGGCGGGTATCACCTGGAGCGGAACACTGCTGCGCCAGACTCAGGTTAACGAACCTGGAACGGTAGTTGCCAGTAAAC -AGTCGGCCCCGCTGCACGATCTGCTTAAGATTATGCTGAAAAAGTCGGACAACATGATCGCCGATACGGTTTTCCGCATG -ATAGGCCATGCGCGCTTCAATGTGCCTGGAACATGGCGGGCCGGGTCGGACGCCGTGCGTCAGATCCTGCGCCAGCAAGC -CGGTGTCGATATTGGAAACACCATTATTGCCGATGGTTCAGGGCTTTCGCGGCATAACCTGATTGCCCCCGCCACCATGA -TGCAGGTGCTGCAATACATTGCCCAACACGACAATGAACTTAACTTTATCTCCATGCTGCCGCTGGCGGGCTATGACGGC -TCTTTGCAGTACCGTGCAGGTCTGCATCAGGCGGGCGTGGATGGAAAAGTCTCAGCGAAAACCGGTTCGTTGCAGGGGGT -ATATAACCTGGCGGGATTCATTACCACAGCGAGCGGGCAACGAATGGCGTTTGTGCAATATCTTTCTGGCTATGCAGTAG -AACCTGCGGATCAGCGTAATCGCCGTATTCCGTTAGTGCGTTTTGAAAGCCGTTTGTATAAAGATATTTATCAGAACAAT -TAGTCAAAAAGAAACCCCGGCACATGGCCGGGGCTTCAGATTATTGACAAAGTGCGCTTTGTTTATGCCGGATGCGGCGT -AAACGCCTTATCCGGCCTACAAAATCGTGCAAATTCAACATATTGCAATTCTCTTGTAGGCCTGATAAGCGTAGCGCATC -AGGCTGATTTGGCGTTTATCATCAGTGATTAACGCTTGTAAATGAACTCAACGCCTTCTTCGTCGTCTTCGTCCCAGTCG -TCATCCCAGTCTTCATCATCCTCTTCAGCAATCTCTTCAAGCTGCTGGCGATGATAATCATCCCACATGAATTCGACTTT -CTCTGGCTGTTTCGCTTCTTCAGCCTGCACGACCGGGTTTTCAATGATAAAGGTCATCACATCCCAGCAGAGATCTTTCA -CGCCCAGTCCACTCGCCGCAGAGATCAGATAATATTTATCTTCCCAGCCCAGCGCCTCAGCGATCGCTTTCGCTTTCTCT -TCGGCTTCTACCTTATCCAGCAGATCGATCTTGTTGAACACTAACCAACGCGGTTTCGTCGCCAGATCCTGGCTGTATTT -TTCCAGCTCGCTGATAATAATACGCGCGTTTTCAACCGGATCGGTGCCGTCAATCGGATCGATATCGATGAGGTGCAACA -GGACGCGGCAACGTTCCAGGTGCTTCAGGAAGCGAATGCCCAGACCTGCGCCTTCCGCAGCGCCTTCAATCAGTCCTGGA -ATATCGGCAACAACGAAGCTCTTTTCGTTGTCCATTCGTACCACACCCAGACTTGGCACCAGAGTGGTAAACGGATAATC -CGCCACTTTCGGTTTAGCCGCCGATACCGCACGAATAAAGGTCGATTTACCCGCGTTTGGCATCCCCAACATACCGACGT -CAGCCAGCAGCATCAGCTCCAGCAGCAGCTCGCGCTTATCGCCCGGCGTGCCGTTGGTTTTCTGCCGCGGTGTACGGTTA -ACGGACGATTTGAAACGGGTATTGCCCAGACCGTGCCAGCCGCCCTTAGCAACCAGCAGACGCTGACCGTGTTTGGTCAT -ATCGCCCATGGTTTCACCAGTACCCTGGTCGATTACACGCGTACCTACCGGCACTTTAATCGTCACGTCTTTACCGCGCT -TACCGGTACAGTCGCGGCTTGCGCCATTCTGACCGCGCTCTGCACGGAAAGATTTTTCAAAACGATAATCGATAAGCGTG -TTCAGGTTCTCGTCGGCTTCCATCCATACGTCACCACCATCACCGCCGTCGCCGCCATCCGGGCCGCCTTTCGGAATATA -CTTTTCGCGGCGGAAGCTCACGCAACCATTACCGCCATCACCTGCAACGACCAGAATCGATGCTTCATCAACAAACTTCA -TTTTATTCTCCGTAAATCATTCGCCTGCGCGGGGTTGCGATACCACCGTTGTATGCTTACGTAATCCGCCCCAAATACGA -TGACCAATGGCGGAATACATCGCGCCCGCAACCACGACAAACGCACCGAGATAACCTAAAAGGTTTAACATCGGTCTGGC -GAAGAAATCGGGCCAGGCCAGTGATAAAAGATCTGAAAAAAACAGCGTAAACAGTGGGGTGAGCGTGATGATCGCGCTCA -CCTGCGCTGCCTGCCAGCGAGCCATCGCTTCCGCCAGGGCGCCATATCCTACCAAGGTATTCAGTCCGCAAAAAATTAAA -CATGCGAGCTGCCAGTGGCTAAGCTGCGCTATCACTCCAGGCTTTGCCAGAGGGAAGAGCGCAATTGTACATAAAGTGTA -CAGTAAAAACAGGATCTGCGGTGAGGCCAGCCGACGCAATAAAACCTTTTGCGCCACGCCATAACTCACCCAAACCGTCG -CCGCACCGACCCCAAAGATAACTCCCCAGGTGTAATCGGTGAGCTTTGTAAATATCTCGACCAGACTGGTGTTAAAAAAC -ATCACCAGGCCGCTCAGGAGCATCAATGCCCCTACAACCTGAGTGCTGCGCATTTTCTCTTTGAGGATAAATACGCTGGC -AACCATCATGCCAACTGGCGAGAGTTGCCCAATCACCTGCGAAGCGGTCGGACTCAGGTATTGCAAGGATGAGCTGAACA -GGATGAAGTTCCCAAACAGCCCGGCGGTCGCCACTGCCAACAAAATCAACCAGCGTGGCTTACGAAACACGCGTAATGGC -GGCAACCTCTTCTTCACCGCAAGAATGGCACCCAGGCCAATACTCGCCATCAAGAAACGGTAAAACACGATTGTCGGAGG -TTCCATCACCTCCAGCACCTGCTTCATTGCGATTGGCAACGCCCCCCAGCAAATTGCTGTGGTGAGCGCCAAAAGAATGC -CAATGCCTGCCTGCTGCTTCATACCGTATTCCCTGCAAAGCGCATTTGCGGATTAACGTCGCACCATGCGCATTTTTACC -GGTTATCGAATGTAAAAAGCCCCGCAACGTGTTGCGGGGCTTTCATCCGTTACCGGGACGCGAAAAACTTATTCAGCTTC -GATGCTGATAAATTTACGGTTTTTCGGGCCTTTAACTTCGAATTTCACTTTACCGTCTGCTTTAGCAAACAGAGTGTGGT -CACGACCGCAACCTACGTTAGCGCCAGCGTGGAATTTGGTACCACGTTGACGAACGATGATGCTACCCGCCAGAACGGAT -TCGCCACCGAAACGCTTAACGCCCAGGCGTTTAGCTTCTGAATCGCGACCGTTACGTGTGGAGCCGCCAGCCTTTTTATG -TGCCATTTGAAATCTCTCCTCAGGTCTTAGGCGCTGATGCCAGTAATTTTCACATCAGTGAACCACTGACGATGGCCCTG -CTGCTTACGATAGTGTTTACGACGACGAAACTTAACGATTTTAACTTTCTCGCCACGACCGTGAGCAACAACTTCAGCTT -TGATTACGCCGCCATCAACGAAAGGAACGCCGATTTTGACTTCTTCACCGTTTGCGATCATCAGCACTTCAGCGAACTCA -ACAGTTTCGCCAGTTGCGATGTCCAGCTTTTCCAGGCGAACGGTCTGACCTTCGCTTACTCGGTGTTGTTTACCACCACT -TTGGAAAACCGCGTACATATAAAACTCCGCTTCCGCGCACACCTTTTCAATGATTCAGAGTGCGCTATAAATATTCACAA -TAGGGCGCGAATATTACGCAAAACGCACGCCTTTGACAAGTGCTACAGTCAATACACGAAGAAAAAAAACACAACTTGTA -CGGTAACGTTTATCTGTGCCATTTTTTCAGTACAATCACCCTATATTCCTAACCATAAACCCTAAGTTGCCTTTGTTCAC -AGTAAGGTAATCGGGGCGAAAAGCCCGGCTTTTGCGATGAATTTAGAAAAAATCAATGAGTTAACCGCGCAAGATATGGC -GGGTGTTAATGCGGCAATCCTTGAGCAGCTTAATTCCGACGTCCAACTGATCAATCAGTTAGGCTATTACATCGTCAGCG -GCGGCGGTAAACGTATTCGTCCGATGATTGCTGTACTGGCTGCACGAGCTGTTGGCTATGAGGGAAATGCGCATGTCACC -ATTGCTGCCCTGATCGAGTTTATCCACACGGCGACTCTGCTACACGACGACGTTGTGGATGAATCAGATATGCGCAGGGG -TAAAGCTACCGCCAACGCCGCATTTGGCAATGCCGCCAGCGTGCTGGTAGGCGATTTTATTTATACCCGCGCTTTCCAGA -TGATGACCAGCCTCGGTTCGCTCAAAGTGCTGGAAGTCATGTCAGAAGCCGTAAACGTCATCGCAGAAGGTGAAGTTCTG -CAACTGATGAACGTTAACGATCCGGACATCACTGAAGAAAACTACATGCGCGTTATCTATAGCAAAACCGCGCGTCTGTT -TGAGGCTGCCGCGCAGTGTTCCGGGATTCTGGCTGGCTGTACGCCGGAGGAGGAGAAAGGCCTGCAGGATTATGGGCGCT -ATCTCGGCACTGCTTTCCAGTTGATCGACGATTTACTCGATTACAATGCCGATGGCGAACAGTTAGGTAAAAATGTCGGC -GACGATCTGAACGAAGGTAAACCGACGCTGCCGCTGCTGCATGCGATGCATCATGGCACACCAGAACAGGCACAGATGAT -CCGTACCGCCATCGAACAGGGTAACGGTCGCCATCTTCTGGAACCGGTTCTGGAAGCAATGAACGCTTGTGGATCTCTTG -AATGGACGCGTCAGCGTGCCGAGGAAGAAGCAGACAAAGCCATCGCAGCGTTACAGGTGCTCCCGGACACCCCTTGGCGA -GAAGCACTCATCGGCCTCGCGCACATCGCTGTTCAACGCGATCGTTAATCCCCTCCCCTCATCCCGCGCAGCGCGCGGGA -TGGTTCCAGTAAGTTCCATAAAAACACTTATTCAGCTCTATAACACCTGAAAAATAGGGATGTGCATCTTTATATATTCT -GAATATTCACACTCTTTACAGGAACTTTTTAGAGCAATAGGCCATCAGGAGTATAGTGATGCTCGACAGAAGAAGTGTTC -TGAATGAAAGCGACTAACTTAAGGAGTGAGGAAAAATGGAAAGTAATTTCATTGACTGGCATCCCGCTGACATCATTGCG -GGTTTGCGCAAGAAGGGAACGTCAATGGCGGCGGAATCTCGCAGAAATGGTTTGAGTTCCTCAACGCTGGCGAATGCATT -ATCGCGCCCATGGCCGAAAGGAGAGATGATTATTGCGAAAGCCCTGGGAACTGACCCCTGGGTTATCTGGCCATCACGCT -ACCATGATCCGCAGACCCATGAGTTTATCGACAGAACGCAGTTGATGCGTAGCTACACTAAACCGAAAAAATGAGTGGTC -TGGCGGTAGCCCCGCGAACGGGGCTGCCAGCTCTCAGACGATTATTCGCCTTTCACACGCTCAATATTTGCACCTAAAGC -GCGCAGTTTGTCTTCAATGCGTTCGTAGCCACGATCGATGTGATAAATACGATCAACCACCGTCGTCCCTTCCGCAATAC -AGCCAGCCAGCACCAGGCTTGCTGATGCACGCAGATCGGTTGCCATAACCTGTGCGCCAGAAAGTTTTTCAACACCGTGA -CAAATAACGGTATTGCTTTCGATTTCGGCGTGCGCGCCCATACGGCTCAGCTCTGGCACATGCATAAAGCGGTTTTCAAA -GACCGTTTCGGTGATAAACCCGGTCCCTTCTGCCACCAGGTTCAACAGCGTGAACTGGGCCTGCATATCGGTCGGGAATG -CCGGATGCGGCGCGGTACGTACGTTAACAGCCTTCGGACGTTTGCCATGCATATCCAGGCTAATCCAGTCTTCGCCGACT -TCGATGTCCGCTCCAGCGTCACGCAGTTTCGCCAGCACGGCGTCGAGAGTATCTGGCTGCGCGTTACGGCAGATAATTTT -GCCGCGAGAAATCGCCGCCGCCACCAGGAAAGTACCGGTTTCGATACGATCCGGCAGAACGCGATAGACACCGCCGCCTA -AACGTTCCACACCTTCGATGACGATACGATCGGTGCCCTGACCGCTAATTTTCGCACCCAGCGTAATCAGGAAGTTCGCG -GTATCGACGATTTCCGGTTCACGCGCTGCGTTTTCAATAATCGTGGTGCCTTCCGCCAGGGTTGCAGCACACATGATGGT -CACCGTTGCGCCAACGCTGACTTTATCCATCACGATATGTGCACCTTTCAAACGACCATCGACGGAAGCTTTAACGTAAC -CTTCTTCCAGTTTGATGGTCGCGCCTAATTGTTCGAGGCCAGAAATGTGTAGATCAACCGGACGCGCACCGATCGTACAA -CCGCCAGGTAGTGAAACTTGCCCCTGACCAAAGCGCGCTACCAGCGGCCCCAGCGCCCAGATAGAAGCACGCATGGTTTT -AACCAGATCGTAAGGTGCGCAGAATACATTAACGTCGCGGGCATCAATATGCACAGAACCATTACGTTCTACTTTCGCAC -CCAGCTGGCTTAGCAGCTTCATTGATGTATCGACGTCTTTCAGTTTCGGGACGTTCTGGATCTCTACCGGTTCTTCCGCC -AGTAGTGCGGCAAAAAGATTAGGCAGAGCAGCATTTTTAGCGCCGGAAATTGTGACTTCGCCCTGGAGCTTCGTTGGCCC -CTGAACACGAAATTTATCCATTTAGTTTGTTCTCAGTTAACAATTCATATCCGCTACCGGCGAATCGCCCATAGCTCAAA -AGCCGTTCAGTTTGCGATCGCGCGCCCACTCCGCAGGGGTATACGCTTTGATCGACACAGCATGAATGCGGTTATCCGCA -ATATATTCCATCAGCGGACCATAGACCGTCTGCTGTTTTTTAACCCGACTCATGCCGTCAAACAACTCACCCACGGCAAT -AACCTGAAAGTGGCTGCCATCGCCGGAAACGTGGACTTCCTGGAGGGAGAGAGCGTTCATCAACACGCTCTGAATTTCAT -TATTTTCCATGGGATCTTCAATCATCAGTTAATAAACCAGCGAAACATCTTAGAGCAAAGTTGCGCTGGCATAAATAAGC -AAAAAGCCTCGCTGATAAATCAGACAAGGCTCGACTTGCAGGCAGGTTTGCCGGACAGGCGGTTAACGCCATATCCGGCC -TGAAAAAATTTAACGAGGCAGAACATCAGCAGGCAAATTATACAATTTCGCCAGGGTATACACTTTGTCGTTTACCCCCT -GAAGCGTCACATTGTTGCCCTGCTTTTTCGCCAGATCGATAAGATGGAGCAGCAGTGCCAGTCCCCCCGTATCCACGCGG -GAGACACGGCTAAGATCGATGCAGGTAATCCCCTTCACCGCTTCCTCACGCATTTCCCAAAGCGGTAGCAAAACGTCCTG -ATCCAGCTCTCCGGATAACGCCAGCGTGTCACCCGTCTGCATCCAGCTCAGTGACTCGCTCATTATTTTTTCTCTTCCAG -AGTGATTTTCTGTTGAGAAATCGATTTCAGTTGCGCAGTCAGGCCGTCGATACCTTTGGTACGCAGCAGCGTTCCCCACT -CGTTTTGTTTGGTGGTGATCATACTGACGCCTTCAGCAATCATGTCGTAAGCCTGCCAATTGCCCGTCTGGGAGTTTTTA -CGCCACTGGAAGTCCAGACGCACCGGCGGACGGCCATTCGGGTCAATAATGGTAACGCGAATAGGCACAATGGTTTTATC -GCCCAGCGGCTGTTCTGGCGCAATCTGATAGGTTTGACCGTGATACATCGCCAGCGCCTGACCGTAAGCCTGCTTCAGGT -ACTCACGGAAAGCGGCAAAGTAGGCTTCACGTTGAGCAGGGGTCGCACTCTTGTAATACTGGCCCAGCACCAGCGCACCG -GCGTATTTCACCTGTACGTATGGCAGCAGTTCCTGATCAACAATGGTACGCAGATAATCCGGGTTGGCCCGAATTTGCGG -TTGCTCATTCTTCAGGCGATCGAACGTTTTCTGCGCCGCCTCGTCCATCAGCTTATACGGATTGGTCTGGTCTGCCGCGG -TTGCCGCACTCAGAGGTGCAATCACCAGCAAAGCGACCATCATTAAACGTTTAAACATGCGTCGGTTCTCCTGAAATTAT -TTCGTTGTACCCACAGGTTCAGTGGTTTCATTATTACCTGGCGCAGCAGCTGGCGCATCGCCACTATTCTTATTGTCATC -GCCTTTACTACCGTAAAGGAACTGACCAATGAGATCTTCCAGCACCATCGCAGACTTAGTGTCCTGAATTGTATCGCCAT -CCTTCAGGATAGCAGTCCCCAGTTCCGGGTCTTCAAAACCGACGTTTAATGCCAGATATTGTTCCCCCAGCAGGCCGGAA -GTACGAATGCTCAGCGAACTGGTATCTGGAATGTGGTTATAACGTTGTTCAATTTCCAGCGTTACGCGCGGCAGATAGGT -TTTCGGGTCCAGCGTAATATCCGCCACCCGACCCACAACAACGCCACCAATACTGACCGGAGAGCGCGCTTTCAGGCCGC -CAATGTTATCGAACGTCGCATAAAGCGTGTAGGTCGGTTCAGTACGTATGGACGTCACGTTCGCCGCCTTCAGGCAAACA -AACAGCGCCGCCAGCAGTGCTGCTAATAAAAAGATACCCACCCAAATTTCATTTTTTTTCGTTTGCATGAACTCAATTCC -CAAACATCAATGCGGTCAGCACAAAATCCAGCCCCAGAACAGCCAGAGACGAGTGGACAACGGTGCGAGTGGTTGCCCGG -CTAATCCCGGCAGACGTCGGGATGGCGTCGTAGCCGTTAAACAACGAAATCCACGTCACCGTGATGGCGAACACCACGCT -CTTAATCAGACAGTTGACCAGATCCATACGCCAGTCGACGGCATTTTGCATTGCCGACCAGAAGAACCCGCTATCAATGC -CTTTCCAACTGACGCCGACCAGAGATCCGCCCCAGATCCCCACGGCGACGAAAATAACCGTCAACAGTGGTAATGAAATA -ACCCCAGCCCAGAAACGGGGAGAAATAACCCGACGCAGCGGATCCACCGCCATCATCTCCATACTGGAGAGTTGCTCTGT -AGCGCGCATCAGGCCGATTTCTGCGGTTAGCGCCGAACCAGCACGCCCGGCAAACAACAACGCGGCAACCACCGGCCCCA -GTTCACGCAGTAGCGATAACGCCACCAGCATACCCAGACTGGTTTCCGCACTATAAGTGGTCAGAACCAGATAACCTTGC -AGCCCCAACACCATTCCGATGAACACGCCAGAAACCACAATAATCAGCATCGACAGGACGCCGACATTATAGAGCTGGCG -CACCAGCAGCGGCGCATGTTTGCGAAATTCCGGTTTGCCGACCAGCGCATTGAATAACATTAACCCGGCCCGCCCGAACG -TTCTCAGGGTTTTAATCCCTTTATGTCCGAGCGACGCCAGCGCATTTAACAGCATGAGTGGCTTAACTCCCTGGTAAAAG -ATCAGCGTGATAATCGCCGGCAGGATAGCGGAACGGAACAGGCCCGTCAGCTATCCCGTCCAGAAACTGACGTACGCGCG -GATCAGGATTCGCCTGCAACGCCTGGGCACTGCCATGAGCGACAATTTTTTTGTCCGCCAGGATCCAGGCGTGATCCGCA -ATACTTAACACTTCCGGCACATCGTGAGAAACCACCACACAAGTCACGCCCAGCGCGCTGTTCAGCTCAGAAATCAGCTT -CACCAGTACGCCCATGGTGATGGGATCTTGCCCAACAAAAGGTTCATCAAACATGATGAGATCCGGCTCCAGCGCAATCG -CACGCGCCAGCGCTGCACGCCGCGCCATCCCACCGGAAAGTTCAGAAGGCATTAGTTTAGCCGCTCCACGCAGCCCCACG -GCCTCCAGCTTCATCATCACCGTACTATGCAACAATGGCGCGGGAAGTTGGGTATGTTCGCGCAGTGGATAGGCGACGTT -GTCAAATACGTTCATATCAGTGAACAACGCCCCGGACTGAAATAACATGCTCATCCGTTTGCGCACTGTATACAGGCGCG -AACGAGACATCGCCGGAATATTCTCACCATCGAAAAGGATCTCACCATGATCTGGTGCGATTTGCCCGCCAATCAGACGG -AGTAGCGTCGTTTTACCGATGCCCGATGGCCCCATGATCGCCGTGATCTTCCCTCGCGGCACGGTCAGGGAAATATTATC -GAAGATGCAGCGATTGCCACGCGTAAAACTGACATCGCGCATATCGACTAAATTCGCCACAGACTGCTCCATAATTCACC -CTTCGTCTTGCGTTGATTTTCTAAGCATGGCGCTCAATTTAACCTTGAACCCAACATATTTACAGAATATTACCCGCCGT -GGTTAGCGAAAGCTGGCATTTGTTTTACTTTTTAGCCGCATAAAGTCAAAATTAAGCATCCGTTACGGCTTTCTGAAAAT -CTTCAGCGGACCGGCGAGTATACCTGAAGAAAGGACGTTAGATGCTTTTAGCTACGGCACTGTTAATTGTTGGTTTACTT -TTGGTCGTTTACAGTGCCGACCGCCTGGTTTTTGCCGCGTCTATTCTTTGCCGAACCTTTGGCATCCCGCCGCTGATCAT -CGGCATGACGGTGGTCAGTATTGGTACATCGTTACCAGAAGTCATCGTCTCGCTTGCCGCGTCTCTGCACGAACAACGCG -ATTTAGCCGTTGGTACAGCCCTCGGCTCAAACATTATCAATATATTGCTGATCCTCGGTCTGGCTGCGCTGGTTCGTCCT -TTTACCGTCCATTCTGATGTTCTACGCCGTGAATTACCCTTAATGTTGTTGGTCAGCGTGGTGGCCGGTTCCGTACTCTA -TGACGGACAACTTAGTCGCAGCGATGGTATCTTTCTCCTCTTTCTGGCTGTGCTATGGCTGCTGTTCATTGTTAAACTTG -CACGTCAGGCTGAACGTCAGGGGACTGACAGCCTGACCAGAGAGCAGCTTGCAGAGCTGCCGCGTGACGGCGGATTGCCC -GTCGCGTTTTTATGGCTCGGCATTGCGCTTATCATCATGCCAGTGGCCACGCGGATGGTGGTTGATAACGCCACGGTGCT -GGCGAATTACTTTGCCATCAGCGAGTTGACGATGGGTCTGACGGCAATTGCTATCGGAACCAGCCTGCCGGAACTGGCAA -CCGCAATAGCGGGGGTTCGCAAAGGTGAAAACGACATTGCTGTCGGAAATATCATTGGCGCAAACATTTTTAATATTGTC -ATCGTGTTGGGTTTACCCGCGCTGATAACGCCAGGAGAGATTGATCCACTGGCGTACAGTCGTGACTACAGCGTGATGTT -GCTGGTGAGCATTATTTTTGCGTTGCTGTGCTGGCGGCGCTCCCCGCAACCGGGCCGTGGTGTAGGGGTATTATTAACTG -GCGGATTTATCGTATGGCTGGCGATGTTGTACTGGTTATCGCCAATACTCGTTGAATAACTGGAAACGCATTATGTCGCA -CGTAGAGTTACAACCGGGTTTTGACTTTCAGCAAGCAGGTAAAGAAGTCCTGGCGATTGAACGTGAATGCCTGGCGGAGC -TTGATCAATACATCAATCAGAATTTCACGCTTGCCTGTGAAAAGATGTTCTGGTGTAAAGGGAAAGTTGTCGTCATGGGG -ATGGGAAAATCGGGGCATATTGGGCGAAAAATGGCGGCAACGTTTGCCAGCACCGGTACACCTTCATTTTTCGTCCATCC -TGGTGAAGCCGCGCATGGTGATTTAGGCATGGTTACCCCACAGGATGTGGTGATTGCTATCTCTAACTCTGGTGAATCCA -GCGAAATCACGGCCTTAATTCCAGTGCTTAAGCGTCTTCACGTACCGTTAATCTGCATCACCGGTCGCCCGGAGAGCAGC -ATGGCGCGCGCCGCAGATGTGCATCTGTGTGTTAAAGTAGCGAAAGAAGCCTGTCCGTTAGGGCTGGCACCGACCAGCAG -CACCACCGCCACGCTGGTTATGGGCGATGCCCTCGCTGTCGCGCTGTTAAAAGCACGCGGCTTTACTGCTGAAGATTTTG -CGCTCTCACACCCAGGCGGCGCACTGGGTCGTAAACTTCTGCTGCGCGTAAACGATATTATGCATACGGGCGATGAGATC -CCGCATGTTAAGAAAACGGCCAGTCTGCGTGACGCGTTGCTGGAAGTTACCCGCAAAAATCTTGGTATGACTGTCATTTG -CGATGACAATATGATGATTGAAGGCATCTTTACCGACGGTGATTTACGCCGTGTCTTCGATATGGGCGTGGATGTTCGTC -AGTTAAGTATTGCCGATGTGATGACGCCGGGGGGAATACGTGTGCGCCCTGGCATTCTGGCCGTTGAGGCACTGAACTTA -ATGCAGTCCCGCCATATCACCTCCGTGATGGTTGCCGATGGCGACCATTTACTCGGTGTGTTACATATGCATGATTTACT -GCGTGCAGGCGTAGTGTAAAGATTCAAGGATAAACAACAATGAGCAAAGCAGGTGCGTCGCTTGCGACCTGTTACGGCCC -TGTCAGCGCCGACGTTATAGCAAAAGCAGAGAACATTCGTCTGCTGATCCTCGATGTCGATGGCGTACTGTCAGATGGCC -TGATTTATATGGGCAATAATGGCGAAGAGCTGAAAGCGTTCAATGTTCGTGACGGTTATGGCATTCGTTGTGCGCTCACC -TCTGATATTGAAGTCGCTATCATTACCGGGCGAAAGGCTAAACTGGTAGAAGATCGTTGTGCCACATTGGGGATCACTCA -CTTGTATCAGGGGCAGTCAAACAAACTGATCGCCTTTAGCGATCTGCTGGAAAAACTGGCGATTGCCCCGGAAAATGTGG -CTTATGTCGGCGATGATCTCATCGACTGGCCGGTAATGGAAAAAGTGGGTTTAAGCGTCGCCGTGGCCGATGCGCATCCA -CTGTTGATCCCGCGCGCCGATTACGTGACGCGCATTGCTGGCGGTCGTGGCGCAGTGCGCGAAGTTTGCGACTTATTACT -CCTGGCGCAGGGCAAACTGGATGAAGCCAAAGGGCAATCGATATGAGTAAAGCCAGACGTTGGGTTATCATTGTGCTATC -ACTGGCGGTTCTGGTGATGATCGGCATTAATATGGCCGAAAAAGACGATACCGCCCAGGTGGTCGTCAACAACAATGATC -CCACCTATAAAAGCGAGCATACGGACACGCTCGTCTATAACCCAGAAGGGGCACTAAGCTATCGATTGATTGCTCAACAC -GTTGAATATTATTCCGATCAGGCCGTTTCGTGGTTTACGCAGCCGGTACTTACCACGTTTGATAAGGATAAAATCCCGAC -ATGGTCCGTAAAAGCAGATAAAGCCAAGCTGACCAATGACCGGATGCTCTATTTATATGGACACGTTGAAGTCAACGCAC -TTGTGCCAGACTCTCAACTTCGCAGAATCACGACGGATAACGCGCAGATCAATCTGGTGACGCAGGATGTTACCTCTGAA -GACCTCGTCACGTTATACGGAACAACATTTAACTCCAGCGGTCTGAAAATGCGCGGCAACTTACGCAGCAAGAACGCCGA -GCTGATTGAAAAGGTTAGAACATCCTATGAAATTCAAAACAAACAAACTCAGCCTTAATCTTGTGCTTGCCAGCTCACTT -CTGGCCGCCAGCATTCCGGCATTTGCCGTAACCGGAGACACTGATCAGCCGATCCACATTGAATCGGACCAGCAATCTCT -TGATATGCAAGGCAACGTGGTTACCTTTACCGGTAATGTCATCGTCACCCAGGGCACCATCAAAATTAATGCCGACAAAG -TGGTCGTTACCCGTCCGGGCGGCGAACAAGGTAAAGAAGTGATTGACGGCTACGGTAAACCGGCAACGTTCTACCAGATG -CAGGACAACGGTAAACCCGTTGAAGGTCACGCTTCCCAGATGCACTACGAACTGGCAAAAGATTTTGTCGTTCTGACGGG -TAATGCTTATCTGCAGCAGGTCGATAGCAACATTAAGGGCGATAAGATCACTTACCTGGTGAAAGAGCAGAAAATGCAGG -CTTTCAGCGACAAAGGCAAGCGCGTAACAACCGTTCTGGTGCCGTCGCAGCTGCAGGACAAAAACAACAAAGGCCAGACC -CCGGCACAGAAGAAGGGTAATTAATTCGTTATGGCAACATTAACTGCAAAGAACCTTGCAAAAGCCTATAAAGGCCGTCG -CGTGGTAGAAGACGTCAGCCTGACCGTCAACTCCGGGGAAATTGTCGGTCTGCTGGGGCCAAACGGTGCCGGTAAGACCA -CCACTTTCTACATGGTTGTAGGCATTGTGCCGCGCGATGCGGGCAACATCATTATTGATGATGACGATATCAGTCTGCTG -CCTCTGCATGCACGCGCGCGCCGCGGTATCGGCTATCTGCCACAGGAAGCCTCCATTTTCCGTCGCCTCAGCGTTTACGA -TAACCTGATGGCGGTACTGCAAATTCGTGACGACTTGTCTGCTGAACAACGTGAAGACCGCGCGAACGAGCTGATGGAAG -AGTTTCACATTGAGCACCTGCGTGACAGCATGGGGCAGTCACTCTCCGGGGGTGAACGTCGCCGTGTAGAAATTGCCCGC -GCACTGGCTGCGAATCCGAAATTTATTCTGCTCGACGAACCGTTTGCCGGGGTTGACCCGATCTCGGTTATCGACATTAA -ACGCATCATTGAGCACCTGCGCGACAGCGGCCTGGGCGTGCTGATCACTGACCACAACGTGCGTGAAACACTGGCGGTTT -GTGAACGCGCTTATATCGTCAGTCAGGGGCATTTGATCGCCCACGGCACGCCTACAGAAATCTTACAAGACGAACACGTT -AAGCGTGTATACCTTGGGGAAGACTTCAGACTCTGATAGGGTAGAAGTTTGCGACGTTTTAGCAGGAGAGTACGATTCTG -AACATGAAGCAAGGTTTGCAACTCAGGCTTAGCCAACAACTGGCGATGACGCCACAGCTCCAACAGGCAATTCGTCTGTT -GCAGTTGTCGACGCTGGAACTTCAGCAGGAGCTACAGCAGGCGCTGGAGAGTAATCCGCTGCTTGAGCAAATCGACACTC -ATGAAGAAATCGACACCCGCGAAACGCAAGACAGTGAAACGCTGGACACCGCCGACGCGCTCGAACAAAAAGAGATGCCG -GAAGAGCTGCCGCTCGATGCCAGTTGGGACACCATTTACACCGCTGGTACACCATCCGGCACCAGCGGTGACTACATTGA -CGACGAGCTGCCGGTCTACCAGGGCGAAACGACGCAGACCTTGCAGGATTACCTGATGTGGCAGGTTGAGCTGACACCGT -TTTCCGACACTGACCGCGCTATTGCTACCTCTATCGTCGATGCCGTTGATGAAACCGGTTATCTGACTGTCCCGCTGGAA -GATATTCTCGAAAGTATAGGCGATGAAGAGATCGACATCGACGAAGTTGAAGCCGTCCTTAAGCGGATCCAACGGTTTGA -TCCGGTCGGTGTGGCGGCAAAAGATCTGCGTGACTGTCTGCTGATCCAACTCTCCCAATTCGATAAGACCACGCCGTGGC -TGGAAGAGGCCAGACTGATCATTAGCGATCATCTCGATCTGTTAGCCAATCACGACTTCCGCACTTTAATGCGCGTCACG -CGTCTGAAAGAAGATGTGCTGAAAGAAGCCGTCAATCTGATCCAGTCGCTCGATCCGCGCCCCGGGCAGTCGATCCAGAC -TGGCGAACCTGAGTATGTCATTCCAGATGTGCTGGTGCGTAAGCATAACGGTCACTGGACGGTAGAACTCAACAGTGACA -GCATTCCGCGTCTGCAAATCAACCAGCACTACGCCTCGATGTGCAATAACGCGCGCAACGATGGTGACAGCCAGTTTATC -CGCAGCAATCTGCAGGATGCCAAATGGTTGATCAAGAGTCTGGAAAGCCGTAACGATACGCTACTGCGCGTGAGTCGCTG -TATCGTTGAACAGCAGCAAGCCTTCTTTGAGCAAGGTGAAGAATATATGAAACCGATGGTACTGGCCGATATCGCCCAGG -CTGTCGAAATGCATGAATCGACGATATCTCGCGTGACCACGCAAAAATACCTGCATAGTCCACGAGGCATTTTTGAACTG -AAGTATTTCTTTTCCAGTCACGTCAATACCGAGGGCGGCGGCGAAGCTTCCTCCACGGCGATTCGTGCGCTGGTGAAGAA -ATTAATCGCGGCGGAAAACCCAGCGAAACCGTTGAGCGACAGCAAGTTAACCTCTTTGCTGTCGGAACAAGGTATCATGG -TGGCACGCCGCACTGTTGCGAAGTACCGAGAGTCTTTATCCATTCCGCCGTCAAACCAGCGTAAACAACTCGTTTGACCC -AACCGATAAGGAAGACACTATGCAGCTCAACATTACCGGAAATAACGTCGAGATCACCGAGGCACTGCGCGAATTTGTTA -CAGCCAAATTTGCCAAACTTGAGCAATATTTTGACCGAATCAACCAGGTCTATGTTGTTCTGAAAGTGGAGAAAGTCACC -CACACCTCAGATGCAACACTGCATGTAAACGGTGGTGAAATTCATGCCAGCGCGGAAGGTCAGGACATGTACGCTGCCAT -TGATGGCTTAATTGATAAGCTGGCACGCCAGTTGACCAAACATAAAGATAAACTGAAACAACACTAATTGTCCGGGCAAT -TAGCATGTGCATGGCGGTCTGTTGTGCGGCACAACGGGCCATTTGTACGGTTAATGCTCCGAGCCTGTTCCACTGTTTGA -GTGGGCAGGTTCTTAGGTGAAATTATGACAAATAATGATACAACTCTACAGCTTAGCAGTGTTCTTAACAGGGAATGTAC -GCGAAGCCGCGTCCACTGTCAGAGCAAAAAACGCGCCCTGGAAATCATCAGCGAGCTGGCGGCGAAACAACTTAGCCTGC -CGCCTCAGGTGGTTTTTGAAGCTATCCTGACGCGGGAAAAAATGGGCAGTACCGGTATCGGCAATGGTATTGCCATTCCG -CATGGCAAACTGGAAGAAGATACTCTGCGCGCCGTTGGCGTTTTCGTTCAGCTCGAAACGCCTATAGCTTTCGATGCCAT -CGACAACCAACCGGTGGACTTACTTTTTGCCCTGCTGGTGCCGGCAGACCAAACTAAAACGCACCTGCATACTCTGTCGC -TGGTGGCGAAACGTCTGGCGGACAAAACCATCTGCCGCCGTTTACGCGCAGCCCAGAGCGATGAAGAGCTGTATCAAATC -ATTACGGATACCGAAGGTACTCCGGATGAAGCGTAGTTATTCGGTAATGTCTCTTTTAGACGTTGTGAGGAGAAACAGTA -CATGGTACTGATGATCGTCAGCGGACGTTCAGGTTCAGGTAAATCTGTCGCCCTGCGTGCGCTGGAAGATATGGGTTTTT -ACTGCGTGGATAACCTTCCCGTAGTGTTGTTACCCGATCTGGCTCGAACCCTGGCCGATCGCGAGATTTCTGCCGCCGTC -AGCATTGATGTTCGTAATATGCCGGAGTCACCAGAAATATTCGAACAGGCGATGAGTAACCTGCCTGACGCTTTCTCACC -GCAACTCCTGTTCCTGGATGCCGACCGTAATACCTTAATTCGTCGTTACAGTGACACGCGCCGACTGCATCCGCTTTCCA -GCAAAAACCTGTCGCTGGAAAGTGCTATCGACAAAGAAAGCGATTTGCTGGAGCCTCTGCGTTCGCGAGCGGATCTGATT -GTCGATACCTCAGAAATGTCCGTTCACGAGCTGGCTGAAATGCTGCGTACCCGTCTGCTGGGTAAACGTGAACGCGAACT -GACCATGGTCTTTGAGTCTTTCGGCTTCAAACACGGTATCCCTATCGATGCAGATTACGTCTTTGACGTGCGCTTCTTGC -CGAACCCGCACTGGGATCCGAAACTGCGTCCAATGACAGGTCTTGATAAACCTGTCGCCGCGTTCCTCGACCGCCACACA -GAAGTACACAATTTTATCTACCAGACGCGAAGCTATCTTGAGCTATGGTTACCTATGCTGGAAACCAACAACCGTAGCTA -CTTGACGGTCGCCATTGGTTGTACCGGCGGGAAGCACCGTTCGGTGTATATTGCAGAGCAACTGGCAGACTACTTCCGCT -CGCGCGGTAAAAACGTCCAGTCACGCCATCGTACGCTGGAAAAACGTAAACCATGACCGTCAAGCAAACTGTTGAAATCA -CAAACAAGCTGGGCATGCATGCCCGGCCTGCAATGAAGCTGTTTGAATTAATGCAGGGTTTTGACGCTGAAGTGCTCTTA -CGTAATGACGAAGGCACCGAGGCTGAAGCCAACAGCGTTATTGCGCTGCTGATGTTGGATTCTGCCAAAGGACGGCAGAT -TGAAGTTGAAGCGACCGGTCCACAGGAAGAGGAAGCACTGGCCGCCGTTATCGCCCTCTTTAATTCTGGTTTTGATGAAG -ATTAATCTTCATCACTTTGACATACAACTCCCTTCAAACTCCCCCCGACAATAAGAAAATCACGTACTGAAATCGTTCTC -AATCAACGTCATTTGTACATTTTGTGCGCTTTTCACTTTCAGAAGAACCTTAAGAAAACCTTAAGAGGCATTGTTTAGGT -TTTGTTTAAGTTAATCGACCATACTGGAGATCGTCAGAAAATATTTCCAGGAGATGGCATGATTCGCTTATCTGAACAAA -GTCCCCTGGGCACCGGAAGACATCGGAAATGTTATGCGCATCCGGAAGATGCCCAACGCTGTATCAAGATTGTCTACCAT -CGTGGCGATGGTGGCGATAAAGAGATCCGCCGTGAGTTAAAGTACTACGCGCATCTTGGTCGCCGGTTAAAAGACTGGAG -TGGAATACCGCGCTATCACGGTACCGTTGAGACGGATTGCGGAACCGGTTATGTCTACGATGTGATTGCAGATTTTGACG -GCAAGCCTTCCATTACGCTGACCGAATTTGCTGAACAATGCCGTTACGAAGAAGACATTGCACAACTGCGCCAGCTACTG -AAACAGCTGAAGCGTTATTTGCAGGATAACCGTATCGTGACGATGTCGCTGAAGCCGCAGAATATCCTCTGTCACCGCAT -CAGTGAGTCAGAGGTTATCCCGGTCGTCTGCGACAACATTGGTGAAAGCACATTGATTCCACTGGCGACCTGGTCGAAGT -GGTGTTGTCTGCGTAAGCAAGAGCGGTTATGGAAACGATTTATCGCCCAACCGGCGCTGGCTATTGCCCTGCAGAAAGAT -CTGCAACCTCGTGAGAGCAAAACGCTGGCCCTCACTTCGCGCGAAGCTTAATCCAGCTGGTGTTGTTGCATAAACGGCTC -ACCGCCTAACTGATACATCTGCCGTAAAATCCACGCCTGACGGCTACGCACGTAGCCCGATGGCGAGGAGACTTTGAAAC -GAAGTGGATTAGGTAATACAGCTGCCAGTAATGCAGCTTCCGACCGGGTAAGTTTGCTCGCGGGTTTGTGGAAATAACGT -TGTGCCGCAGCTTCGACGCCAAACACACCGTCGCCAAATTCGGCGATATTCAGGTAAACCGTCAGGATACGCTTTTTGCT -CCAGACCGTTTCTATCCCCAGCGTTAATCCGGCTTCCAGCCCTTTTCGAACCCAGCTACGCCCATCCCATAAAAAGAGAT -TTTTGGCTGTCTGTTGAGAAATCGTTGAAGCACCGCGAATACGGTTTTCATTGCGCTCGTTGTGCGCCAGGGCTTTCTCA -ATGGAAGCGACATCAAAGCCCCAGTGCTCAGGAAATTTCTGATCTTCTGCGGCAATCACCGCCAGTCCCATCCACGGCGA -GATTTGATCCATACTGACCCAGTCAGAATGTGCCACGTAACGAAAATTGCCATGCAGCCAGGCGCTGACCTGTCGCTCGA -CCATTACCGCTGAGAAGGGAACAGGCGCAACGCTAAACAACGCGATGCCCCCGCCCCAGAAAACGGCGAGGACAACCATT -AACCGCAAAAGAAAACGGCGAACGAAACTAAACACCGTTAAGCGGCTTTTACTCATTCAGCCAGAACCAGCACGCGGGAA -ACCAGCTTATCAATGCCGCTCGCCGCTTCTGCAATGTTCTGCGCCAGCATATATGCTGGGGTGGTGACAATCTTATTGTC -TTCATCAACCACGATATCATCGACAGGACACGGCACATGCTCCGCGCCCATCTCTTCCAGCACTTCTGCGGTATCGATAT -CAGTACCGATGGTCAAACGCAGCGGGAAATCGAAAATTTTCGGCAGCATCGCCGGGGCAATACACATAAAACCAAGCGGT -TTTCCGGCCTGATGCATCGCTTGTGCCAGCGCCTTTAATTCACGGTCAACGGTGCATTCGCTACCAAGACTGGCAAAATT -GCTTAAATTCTTCGCCGCGCCAAACCCCCCCGGCACAATCAACGCATCCAGTTCAGCGGCATCGGCCTGGGCCAGAGGAC -GGATTTCACCGCGCGTTATTCGTGCCGCTTCAATCAGCACATTGCGCGTTTCCGTCATCGCTTCGCCAGTTAAATGGTTG -ATAACATCAACCTGCTGCTTATCCGGTGCAAAGCAGACCGCCTGCGCACCGCTGCGTGAAATAGCTAACAACGTCAACAC -CGCTTCATGAATTTCAGAACCGTCATAGACGCCGCATCCGCTCAGAATTACGCCAATTTTCTTCATTGTGATCATCCTTT -CGCAATTGACTGAAACACATTAATTTTTTTAATAAAAATGGTACGCATCACACATTTAACTGATTCATGTAACAAATCAT -TTAAGTTTTGCTATCTTAACTGCGTGCGGCCTGAAAAACAGTGCTGTGCCCTTGTAACTCATCATAATAATTTACGGCGC -AGCCAAGATTTCCCTGGTGTTGGCGCAGTATTCGCGCACCCCGGTCTAGCCGGGGTCATTTTTTAGTGGCTTTTGCCACC -CACGCTTTCAGCACTTCTACGTCGTGACGCCACTCTTCTTTCATCTCTTCAATCCATTCACCGACGTTATCTTCCCAGGC -CGGAAGGTCAGGAGACTGAATTTGCTGACCCAGCTGTTGCAGATGGCGTAACCCCACTGACCCCGCCGCACCTTTAATTT -TATGTCCTTCCTCAACAATGCCTTTTTTATCCTGCGCCGTCAGATTCGACTCCAGCACGCTGACATAGCCCGGCATCATC -TTCTCAAACACCGCTAACCCGTCGGTGATCAGCTTCGGTCCTACAAGTTCGAGATACTGTTCCAGCATGGGAATATCGAG -CAATGCTTCTGATTTACTGTTCTCTTCTGTCGTCACCGTACTCTCCTCATCATCCTGGGTATCCCAGAATTTCTTGATCA -TCGCGGTTAGCGCCGGAACAGAAAGCGGCTTACTCAGCACATCATCCATTCCAGCATTGAGGTACTCTTGTTTGTCTTTC -AGCACGTTAGCGGTTAAGGCCACCAGCGGCGGTAAATCCTCGCGCGGATAACGTTTCGTCAGTTCACGAGAGATATCCAG -CCCGGTCATATCTGGCAACTGAATATCCAGCAACACCAGGTCGTATTCGCCCGGTTTAAACATCTCCAGCGCCGCCTTGC -CGGTCATGGCGACATCAACGCTGTTACCTAATTTTTCCAGCACAGAACGCGCAACAATCACGTTCAGTTCAATGTCTTCC -ACCAGCAGCACATTCAGCGCCGGTAAAGGCATATCGTCTTCATCAAACGCATCATCGACCTCTTCTGCTACCGACGGTGC -GTGGATCGTCAACGTAAAGGTTGAACCTTTGCCCTGTTCGCTGGTAACCGTAATATCGCCGCCCATATTTTTCGCCAGAC -GACGAGAAACGGCCAGACCAATACCGGTGCCGGTGGCAGGTTTACCGCCATGACTGTCTTTCACCTGGTAATACATGGCG -AAAATTTTATCCAGCTCATCCTGCGGAATGCCGATACCAGAGTCTTCCACTTCAAAATGCAGCATATCGCCTTCATCGTA -GCGCACGCGCACGGTAACCTGGCCTTGCTGGGTGAATTTGACGGCGTTACTGATGAGGTTCCACAGGATCTGCCGTAAAC -GCGTCCCGTCGGTAATGACCTGATGCGGTAATGGCAGCGTCGGCTCCAGGTTAAAGCGCAATCCTTTTTGTTGCGCCTGC -AATGCGGAGAGATTTTCCAGATCGGCAAGGAAGCTGGTGAAATCAACCGGTTGATTATCAAGCTGGACCTTGCGCCGTTC -CATCTTATCCATGTCGATAATATCGTTAAAGATATTCCCCAGCGTGACGGCCGAAACATGGATGGTCTTGAGATATTTTT -CCTGCTCGGCGGTGAGTTCGGTATCCAGCAGAATGCGGCTCAGACCGACGATACCGTTCAGCGGTGTACGCAATTCGTGA -CTGATGGTGGAGATAAACGTCGTTTTGTCGCGGCTGGCCCGTTCAAGCGCATCCTGATACCGCTTACGCTCGGTAATGTC -GCGACCAAAGCCCATCAAACCGTGACGTTTACCCACGCGGTCGTAGTACGGCACTTTACGGATTTCAAAGCAGGCTTTGC -GCCCGTCCGGGTAATCCAGCCACTGTTCATAGGTCAGTGACACATTATGACGGAACACTTTTTCATCGGTTTCAATGACT -TTTGCGGCGGCTTCCGGTGAGTAAACATCAGCAGGTTTCAGGTGAACCAGTTGTTTTTCGCTTTTTCCGGTCAGCAGCTC -CATCGCGCGGTTACAGCCGGAAAACTCTTTATCTTCGTTACGATAAAAAACCAGGTCGGGTGAAGCATCAAGGAAGGAAC -GTAAGAATGAGGATTGCTGCTCGAGCTGAATTTGTGTCTCTTCGCGCTCTTTGATTTCAATTTTCAGTTGGCCGAAGGTT -TCCTGCAGTTCTGCTTCCGCTTTTTCACGAACGGCAATTTCCTGATTTAGCTGGGCAATATTATCTTTTAACTGAACGTT -GAGGCTCAAATCGCGCTCGCGCATCTCCTCCAGTTTTTGCACCAGCCGTGACAGACGTTGTCGTGACTCCTCCAGTTGCT -CGACGACCACCGATAGAAAGTAGACCGCCCACGGCGTAATCAGCAAACCAAAGAAGATAGAACGAATAACATCAATGCTT -TCGACCTGACCATGCAGCACCATGGTTACCGCCATTTGTACCACAATGGCAAGAACGACGAGGGCCAGCGCCAGCAACAT -TGAGAAGCGCACCAGACCTAACTTCATCATCAGGTCAACATAATACTGCGCCAGCAGACGAATTTGCTTCATTAGGGAAT -TCCTTCACGACAACCTGCCCCAATAATACCCAATTCTGACAGTTACGTTATAAATTGTGTGAGAAATGCGGAATTCCCCT -CAACGACCTACTCCGTTGGAGGTAGCCACGGACGTCCCAGCGCCGATCCCTGTACGCCATGTTCATTCAGATAGCGATCC -AGCTCGACCATTCCCGTCCATCGATTTTCGCACCACAGCGGAGCAAGCAGCGTCGGGCGACGGGCGCTGGCGGAAATGCG -GTGGTAGATCACTTCCGGTGGCGTATGGCGAATCATTTCTCCGGCAGTGAGCGTGTAATCCTCCAGTTCAATACCGTTCA -AACGCCCCGCTTCCCAGGCTTTCGCCATAATGCTGCCTTTCACAATATGCAGCGGATGCAGCTTTATGCCGTCCACGCCG -GTTTCAACCACTCGCTCCAGCGTTTGCAAACATTCAGCCTGCCCTTCGCCAGGCAGGCCGACAATTAAGTGGGAACACAC -CTTCAGCCCGCGCTGACGTGCCAGCTGGGTTGTACGCTGATAACAGGCAAAATCATGGCCGCGGTTGATGCGATGCAGTG -TTTTGTCGTGGGCGGTTTGTAGCCCCAGCTCCAGCCACACTTCGTAACCCTGGTCCTTATATTCGCAAAGCAGATCCAGC -ACCGCATCCGGCACGCAGTCCGGGCGGGTACCCACACACAAACCGACAATATTGGCCTGGCTCACCGCCTGCTGATACAT -AGAACGCAGCACCTGAACTTCCGCAAAGGTGCTGGTATACGCCTGAAAGTAGGCCAGATAGCGTTTAGCGCGGTTAACTA -AATTCGCCTGGTGCGCCAGTTGCTCGGCAATGGAACGATGCTGCTGCGCTTCATCGGCAAACGAGGCAACATTACAGAAT -GTGCAGCCACCACGCCCGATGGTACCGTCACGGTTAGGGCAGCTAAAACCGCCGTGCAGCGTCAGCTTATGCACCTTTTG -CCCATAACGACGGGTGAGATCACCACCAAACATATTGACTAATTTCTGTAACTGCATAATCTGATAGACCGCGCCTTGAA -AAGAGGCCAAAGCCTGCCATTTTTAGCTCAATTCGGCGATGACCTGGATCAATCGTCCCGGCCTGCTTTTATCAACTGCA -TAATCAATCAAAATTACCGAAATTTCATGCATAATCACATAAATCACTTTTGCTTATCTTGTGTCAGATTTTTTTATCTC -CTGATGGATTTTAGGCAAAAACAGTAGCATGAAACGTCATTACCAATTAAGGCAGTATAAAATGCTGGTTTTGTCGTCAG -TTCAAGGCAGGATAAGGGTTAACACACCTTTATGACAGTCAGGAATTGACTGTTTCTCTAACGACTTCCCTTTTAGCCTT -AAAGATAAAATCCATTTTAATTTCAGTCATTTAATAAAGAATTTTGCGCTAAAGCACATTTCTGTACCAATAAGCTTGCC -ATTTGACCTGTATCAGCTTTCCCGATAAGTTGGAAATCCGCTGGAAGCTTTCTGGATGAGCAGCCTGCTCATCATATTTA -TGCAGTAATTGAGATCCCCTCTTCACCGTATTAACCGATGCGAAAAGGACAACAAGGGGGCGAATGCGAGGCGCGCGTAT -GACACGCAAACCCCGTCGCCACGCTCTTTCTGTGCCCGTGCGCAGCGGTTCGGAAGTGGGGTTCCCGCAGAGCCTGGGGG -AGGTTCACGATATGTTGTACGATAAATCCCTTGAGAGGGATAACTGTGGTTTCGGCCTGATCGCCCACATAGAAGGCGAA -CCTAGCCACAAGGTAGTGCGTACTGCAATACACGCACTGGCCCGCATGCAGCACCGTGGCGCGATTCTCGCCGATGGTAA -AACCGGCGACGGTTGCGGCTTGCTGTTACAAAAACCGGATCGCTTTTTTCGCATCGTTGCGCAGGAGCGCGGCTGGCGTT -TAGCAAAAAACTACGCTGTCGGGATGCTCTTCCTGAATAAAGATCCTGAACTCGCCGCTGCCGCACGCCGCATCGTTGAA -GAAGAACTGCAACGCGAAACCTTGTCGATTGTGGGCTGGCGTGATGTCCCCACTAACGAAGGCGTGCTGGGTGAAATCGC -CCTCTCCTCTCTGCCACGCATTGAGCAAATTTTTGTGAACGCCCCGGCAGGCTGGCGTCCACGCGATATGGAGCGCCGTC -TGTTTATCGCCCGCCGCCGCATTGAAAAGCGTCTCGAAGCCGACAAAGACTTCTACGTCTGTAGCCTGTCGAATCTGGTG -AACATCTATAAAGGTCTGTGTATGCCGACGGATCTGCCGCGCTTTTATCTGGATCTTGCGGACCTGCGTCTGGAATCGGC -CATTTGCCTGTTCCACCAGCGCTTCTCCACTAACACCGTACCGCGCTGGCCGCTGGCGCAACCGTTCCGCTATCTGGCGC -ATAACGGTGAAATCAACACCATCACCGGTAACCGCCAATGGGCGCGTGCGCGTACTTATAAATTCCAGACACCGCTTATC -CCTGACCTGCACGACGCCGCACCGTTCGTCAACGAAACCGGCTCTGACTCCAGTTCGATGGATAACATGCTGGAACTGCT -GCTGGCAGGCGGGATGGATATCATCCGCGCCATGCGTCTATTAGTACCACCCGCCTGGCAGAACAACCCGGATATGGACC -CGGAACTGCGTGCCTTCTTTGACTTTAACTCCATGCATATGGAGCCGTGGGATGGCCCGGCGGGCATCGTGATGTCCGAC -GGTCGTTTTGCCGCCTGTAACCTCGACCGTAACGGTCTGCGTCCGGCGCGCTACGTCATCACCAAAGATAAGCTCATCAC -CTGCGCCTCTGAAGTCGGTATCTGGGATTACCAGCCTGACGAAGTGGTCGAAAAAGGCCGCGTCGGGCCAGGCGAACTGA -TGGTTATCGACACCCGCAGTGGGCGTATTCTGCACTCGGCAGAAACCGATGACGATCTGAAAAGCCGCCATCCATATAAA -GAGTGGATGGAGAAAAACGTCCGCCGACTGGTACCGTTTGAAGATCTGCCCGATGAAGAAGTGGGTAGCCGCGAACTGGA -CGACGACACGCTTGCCAGCTACCAGAAACAGTTTAACTACAGCGCGGAAGAGCTGGACTCCGTAATTCGCGTACTGGGCG -AAAACGGTCAGGAAGCGGTCGGTTCGATGGGCGATGATACCCCATTCGCCGTGCTCTCCAGTCAGCCGCGCATTATTTAC -GACTACTTCCGCCAGCAGTTTGCCCAGGTGACTAACCCGCCAATCGACCCGCTGCGTGAAGCGCATGTTATGTCGCTCGC -CACCAGTATCGGTCGTGAAATGAACGTCTTTTGCGAAGCAGAGGGCCAGGCGCACCGTTTAAGCTTTAAATCGCCGATTC -TGCTCTACTCCGATTTCAAACAGCTCACGACGATGAAAGAGGAGCACTACCGCGCAGATACGCTGGATATCACCTTTGAC -GTCACTAAAACCACGCTCGAAGCGACAGTCAAAGAGCTGTGCGACAAAGCCGAAAAAATGGTACGTAGCGGCACCGTGCT -GCTGGTGCTCTCCGACCGGAATATCGCTAAAGATCGCCTGCCGGTTCCAGCCCCGATGGCGGTTGGCGCGATCCAGACCC -GTCTGGTCGATCAAAGCCTGCGTTGCGATGCCAACATCATCGTCGAAACCGCCAGCGCCCGCGATCCGCACCACTTCGCC -GTGTTGCTGGGCTTCGGCGCGACGGCTATTTATCCATACCTTGCCTATGAAACGCTGGGCCGCCTGGTAGACACCCATGC -GATTGCCAAAGATTATCGTACCGTGATGCTCAACTACCGTAACGGCATCAACAAAGGCTTGTACAAAATCATGTCCAAAA -TGGGCATCTCCACCATCGCCTCTTACCGCTGCTCGAAACTGTTTGAAGCGGTCGGTCTACACGATGATGTAGTGGGCCTG -TGCTTCCAGGGGGCGGTCAGCCGCATTGGTGGAGCAAGCTTTGAAGACTTCCAGCAGGATCTGCTGAATCTGTCGAAACG -TGCCTGGCTGGCGCGTAAGCCCATCAGCCAGGGCGGTCTGCTGAAATACGTCCACGGCGGCGAATACCACGCCTACAACC -CGGACGTGGTGCGCACGCTGCAACAAGCGGTACAAAGCGGCGAGTACAGCGACTATCAGGAATACGCGAAGCTGGTTAAT -GAGCGTCCGGCAACCACGCTGCGCGATCTGCTGGCAATTACGCCGGGTGAAAACGCGGTCAACATTGCTGATGTTGAACC -GGCAAGCGAACTGTTTAAACGCTTTGATACCGCCGCGATGTCTATCGGCGCGTTAAGCCCGGAAGCCCACGAGGCGCTGG -CGGAAGCGATGAACAGCATCGGCGGTAATTCGAACTCCGGTGAAGGCGGCGAAGACCCGGCGCGCTACGGCACCAACAAA -GTGTCGCGCATCAAGCAGGTGGCTTCCGGTCGCTTTGGGGTTACTCCGGCGTATCTGGTCAATGCCGACGTCATTCAGAT -TAAAGTCGCCCAGGGCGCGAAGCCAGGCGAAGGCGGTCAGTTGCCGGGTGATAAAGTCACGCCTTACATCGCCAAACTGC -GCTATTCGGTGCCCGGAGTGACGCTGATCTCCCCGCCGCCGCACCACGATATCTACTCTATCGAGGACTTAGCGCAGCTC -ATTTTCGACCTCAAGCAGGTTAACCCGAAAGCGATGATCTCCGTGAAGCTGGTTTCCGAACCGGGAGTAGGCACCATCGC -GACTGGCGTGGCAAAAGCTTATGCGGACTTGATCACCATCGCAGGCTATGACGGCGGCACCGGCGCAAGTCCGCTTTCAT -CGGTGAAATACGCAGGCTGTCCGTGGGAGCTGGGGCTTGTTGAAACCCAGCAGGCGCTGGTTGCTAACGGCTTGCGTCAC -AAGATCCGTTTGCAGGTCGATGGCGGCCTGAAAACGGGTGTCGATATCATCAAGGCGGCGATTCTCGGCGCAGAAAGCTT -CGGCTTCGGCACTGGCCCGATGGTGGCGCTCGGCTGTAAATATCTACGTATTTGCCATCTGAACAACTGCGCAACGGGTG -TAGCAACTCAGGATGACAAACTGCGTAAGAACCACTATCACGGCCTGCCATTCAAGGTGACGAATTACTTTGAGTTTATC -GCCCGTGAAACCCGCGAGCTGATGGCACAGCTTGGCGTAACACGTCTGGTGGATCTGATTGGTCGCACCGACCTGCTGAA -AGAGCTGGACGGTTTCACCGCCAAACAGCAGAAGCTGGCGCTGTCGAAGCTGCTGGAGACTGCCGAACCGCATCCAGGTA -AGGCACTCTACTGCACCGAAAACAACCCGCCGTTTGATAACGGCCTGCTGAACGCGCAGTTGCTGCAACAGGCGAAACCG -TTTGTCGATGAGCGCCAGAGCAAAACCTTCTGGTTCGATATTCGCAACACCGACCGTTCTGTCGGCGCGTCGCTTTCAGG -CTATATCGCCCAGACGCACGGCGATCAGGGGCTGGCAGCCGATCCTATCAAAGCGTACTTCAACGGCACCGCAGGCCAGA -GCTTCGGCGTGTGGAACGCGGGCGGCGTGGAACTGTACCTGACCGGTGATGCCAACGACTATGTCGGTAAAGGCATGGCG -GGCGGCTTAATCGCCATTCGTCCTCCGGTTGGTTCCGCCTTCCGCAGCCATGAAGCAAGCATTATCGGCAACACCTGCCT -GTATGGCGCGACCGGTGGTCGTCTGTATGCCGCAGGCCGCGCGGGTGAACGTTTCGGCGTGCGTAACTCCGGTGCTATCA -CCGTGGTAGAAGGCATTGGCGACAACGGTTGTGAATATATGACGGGTGGTATCGTCTGCATTCTGGGTAAAACCGGCGTT -AACTTCGGTGCGGGCATGACCGGCGGTTTCGCTTACGTTCTCGATGAAAGCGGCGATTTCCGCAAACGCGTTAACCCGGA -ACTGGTCGAGGTCTTAAGCGTTGACGCTCTGGCGATCCATGAAGAGCATCTGCGTGGTCTTATCACCGAGCATGTGCAGC -ATACCGGCTCTCAGCGCGGTGAAGAGATTCTGGCGAACTGGTCAACCTTCGCCACTAAATTTGCGCTGGTTAAACCGAAG -TCCAGTGATGTAAAAGCACTGCTGGGTCACCGTAGTCGTAGCGCAGCTGAGTTGCGCGTGCAGGCGCAGTAAGGGGTAGC -AACAATGAGTCAGAATGTTTATCAATTTATCGACCTGCAGCGCGTTGATCCGCCAAAGAAACCGCTGAAGATCCGCAAAA -TTGAGTTTGTTGAAATTTACGAGCCGTTTTCCGAAGGCCAGGCCAAAGCGCAGGCTGACCGCTGCCTGTCGTGCGGCAAC -CCATACTGCGAGTGGAAATGCCCGGTACACAACTACATCCCGAACTGGCTGAAGCTCGCCAACGAGGGGCGTATTTTTGA -AGCGGCGGAACTGTCGCACCAGACCAACACCCTGCCGGAAGTTTGCGGACGAGTCTGCCCGCAAGACCGTCTGTGCGAAG -GTTCCTGCACTCTGAACGATGAGTTTGGCGCGGTGACCATCGGCAACATTGAGCGCTATATCAACGATAAAGCGTTCGAG -ATGGGCTGGCGTCCGGATATGTCTGGTGTGAAACAGACCGGTAAAAAAGTGGCGATTATCGGCGCAGGCCCGGCAGGTCT -GGCGTGTGCGGATGTCCTGACGCGTAACGGCGTAAAAGCCGTTGTCTTCGACCGTCATCCAGAAATTGGCGGGCTGCTGA -CCTTCGGTATTCCGGCCTTCAAGCTGGAAAAAGAGGTAATGACGCGTCGCCGTGAAATCTTCACCGGCATGGGTATTGAA -TTCAAACTCAATACCGAAGTGGGCCGCGACGTACAGCTGGACGATCTGCTGAGTGATTACGATGCCGTGTTCCTTGGCGT -CGGGACTTATCAGTCAATGCGCGGCGGGCTGGAAAACGAAGACGCCGATGGCGTGTACGCAGCGCTGCCGTTCCTCATCG -CCAACACCAAACAGTTAATGGGCTTTGGTGAAACCCGCGACGAACCGTTCGTCAGCATGGAAGGCAAACGCGTGGTGGTC -CTTGGCGGTGGCGACACTGCGATGGACTGCGTGCGTACGTCCGTGCGCCAGGGAGCGAAGCACGTTACCTGTGCCTATCG -TCGTGATGAAGAGAACATGCCGGGTTCCCGCCGCGAAGTGAAAAACGCGCGGGAAGAAGGCGTAGAGTTCAAATTCAACG -TCCAGCCGCTGGGTATTGAAGTGAACGGTAACGGCAAAGTCAGCGGCGTAAAAATGGTGCGTACCGAAATGGGCGAACCG -GACGCCAAAGGCCGTCGCCGCGCGGAGATCGTTGCAGGTTCCGAACATATCGTTCCGGCAGATGCGGTGATCATGGCGTT -TGGTTTCCGTCCACACAACATGGAATGGCTGGCAAAACACAGCGTCGAGCTGGATTCACAAGGCCGCATCATCGCCCCGG -AAGGCAGCGACAACGCCTTCCAGACCAGCAACCCGAAAATCTTTGCTGGCGGCGATATCGTCCGTGGTTCCGATCTGGTG -GTGACCGCTATTGCCGAAGGTCGTAAGGCGGCAGACGGTATTATGAACTGGCTGGAAGTTTAAGCGAGGTAACAATGAAT -TCGCCAGACTGTGTCTGGCGAATCAAATTACTGACGAAGTGCGCGTTGTTTTCTGGCAAATGCGGCATGAGCGTTTGACC -TTTCCTATAATAGGGATAATTTTCAATAAATTGTGCTTTGTTCACCAAGTCTGATGAGTGAAGCACATCAAGCAATTTCT -CATTTACAATCCGTCTCAATTACTTGTTAACACCTCTGACAATACCGATTCTGCAAGCTATTCAGTCTTTTCATTCCATG -TAAATTGTCTCGATATTAATATACAAAATATGAATATAAAAAACCAATATATTATCCTTAATTATCTATATATTTTCCTA -TTTTTCAGCGCAAACATTCATGTAATGAATAATTATCACCACAAACCACCTCACCAGCACCTTATTATTCACATGATCGT -AACTATAAAATTCATTAAATAAATACATCCCAGCAAGTTGGCTATTTCTGAACGAGTTATTTATTTACATTCACAAACAG -ATATATATACTGCTTCAGCTTTTTATTTTAAAAAATAAATTTGTTATTAAGGATATGTTCATATGTTTTTCAAAAAGAAC -CTCACAACAGCTGCTATTTGTGCAGCACTTTCTGTTGCAGCATTCAGTGCCATGGCAACAGATTCAACTGATACAGAATT -AACTATCATCGGCGAGTATACCCCTGGTGCATGTACCCCAGTTGTTACGGGCGGCGGCATTGTTGACTATGGGAAACATC -ATAACAGTGCGCTGAATCCGACCGGTAAAAGTAATAAACTGGTTCAACTGGGCCGCAAAAACAGCACATTAAATATAACC -TGCACAGCACCAACGCTAATTGCTGTAACCTCCAAGGATAACCGTCAGTCGACCATTGTAGCGTTAAACGACACATCCTA -TATTGAAAAAGCTTATGATACTCTCGTAGATATGAAGGGAACGAAAAACGCCTTTGGTTTAGGTTCTGCGCCTAATGGAC -AAAAAATTGGCGCTGCATCCATTGGTATTGACAGGTCTAATGGTGGGATTCACGCGGCGGACGATACAGGTGAAATTCCT -GTCGACCTGATTCAAACTGACCACTGGTCAGCAGCGACCCCCACATGGAAAGCCTCATCTAATGGCGCATTCTGCTCGCT -GACAAGTTGCTCAGCAATCGAGCGCGGTTATTCTGTTGCAAAAACAGGGGAACTGACACCTGTTGCTATTACAGCGGTCA -CCTTCCCGTTACTGATTGATGCTGCGGTAAATGACAATACTATTCTTGGTTCTGATGAAACGATCAAACTGGATGGTAAC -GTCACTATCAGCGTTCAGTATTTATAAGAACTTGTAATACAGTTTTTATTTTTACGCATTAACCAGTTAGCTATAACTCG -GACAGATTATGCCCTATGACATGGTCTGTCTTAATCAATCTCATCGCAAACAGTGCATAACATATATTAACAATATGTTT -CTGCGTTATTTATCATTATTACAGGAGTTTTAATTTAAATGCTCAGACACATTACATTCACTGTATTTATAACAACATCA -ATGAATACCTTAGCCACAGGGATGGTTCCTGAAACATCAGTATTGCTGGTTGATGAAAAGCGTGGTGAAGCTAGTATTAA -TATTAAGAATACAGATGATCATCCTTCATTGCTTTACACCACCATTGTTGATTTGCCTGAAAGCAATAAATCAATTCGTT -TAATCCCGACTCAGCCCGTTATTCGTGTTGAAGCCGGTCAAGTACAACAGGTTCGATTTTTACTTCAGGCGACTGTTCCT -CTGCAATCAGAAGAGCTGAAACGCGTAACGTTCGAAGGTATTCCACCAAAAGATGACAAGAGCAGCAGAGTTACTGTTTC -AATTCGTCAGGATCTACCTGTACTGATCCACCCGGCTTCCCTGCCGGAAGAGCGAGAGACCTGGAAATTCCTGGAATGGC -GTAAAAATGGCGACCAAATTGAGATTAGCAACCCCAGTAATTATGTCGTTCGTATGACCTTACAATTTAAAACGCTCCCT -TCAGGAAAAACGGGGGCTATAAATAAGACCTATTTTCTACCACACACCAGTACAACTACTGCATTAACAAACGCTACGGA -TACAAAAGTCGAGTTTTACCCAGCCAGCCGATATGGTTATCGCGGTAATAAATATGTCACTGACTTAAAATAACTTTGCC -TGGAGCGACAAGGATGTTAAAAAAAACGTTACTGGCCTACACCATTGGTTTTGCCTTTTCTCCCCCAGCCAATGCAGATG -GTATAGAGATTGCCGCTGTTGATTTTGATCGGGAAACATTAAAATCACTAGGTGTAGATCCTAATATATCGCATTATTTT -TCCCGTTCAGCCCGTTTTTTGCCAGGTGAATATTCACTGATAGTATCAGTAAATGGCGAAAAAAAAGGCAACATTGCTAC -GCGCTTTGATGAAAATGGCGACATTTGTCTTGATCAGGCATTTCTGCAACAAGCCGGTTTAAAAATTCCTTCTGAAGAAA -AAAATGGCTGTTACGACTATATATTGTCCTACCCGGGTACCACAATCACACCATTACCTAACCAGGAAGCGTTAGATATT -ATCGTTTCACCACAGGCGATCATTCCCATAGGGTTGGATCTCACAAACGCAGCAACTGGTGGAACAGCTGCGCTGCTAAA -CTACTCTCTGATGAGCAGCCGTGCAGAATTTTCTAATGGGAGTTCGGACTACTCCCAGGCTGCACTTGAAGGCGGGATTA -ATATTAATGACTGGATGTTACGCAGCCATCAGTTCCTTACACAAACAAATGGCACATTCAGTAACCAGAACTCGTCAACC -TACCTTCAACGTACCTTTACAGATCTTAAAACACTCATGCGAGCAGGTGAAGTTAACCTCAATAATAGCGTGTTGGAAGG -AGCCAGTATTTACGGTATCGAAATCGCACCGGACAACGCATTGCAAACCAGCGGCAGTGGTGTGCAAGTTACTGGTATAG -CCAACACCTCTCAGGCTCGTGTCGAGATTCGTCAACAAGGAGTTTTAATTCATTCCATTCTGGTTCCTGCGGGCGCATTC -ACTATCCCTGATGTACCTGTTCGCAATGGTAATAGTGATCTTAATGTCACCGTTGTCGAAACAGACGGTAGTTCGCACAA -CTATATTGTTCCCTCCACCCTGTTTAATCAGCATGTAGAAAGCTTCCAGGGTTATCGCTTCGCGATAGGGCGGGTAGACG -ATGACTATGACGAATCACCTTGGGTAATTAGTGCATCGAGCGGATGGAATCTGACACGCTGGAGTGCAATGAACGGCGGC -GTTATCGTAGCAGAAAATTATCAGGCGGCATCAATCCGGTCGAGTCTGGTTCCCCTGCCCGATTTAACAGTGAGCAGCCA -AATTAGTACATCGCAGGATACGAAAGACTCACTGCAAGGACAGAAATATCGTCTTGACGCGAACTACAATCTCCCATTTT -CACTTGGGCTAACAACCAGCCTCACTCGATCTGATCGCCATTATCGCGAACTGTCTGAAGCGATTGATGATGATTATACC -GATCCGACTAAAAGCACTTATGCGCTTGGTTTAAACTGGTCTAACTCCATTCTGGGTGGTTTCAACATCAGTGGCTATAA -AACATATAGTTACGACGGTGACAATGACTCAAGCAACCTTAATATTAACTGGAACAAAGCGTTCAAACACGCCACGGTTT -CCGTCAACTGGCAGCATCAACTTAGTGCTTCAGAAAATAATGAAGACGATGGTGATCTGTTCTACGTCAACATCAGTATT -CCATTTGGCAGATCAAACACCGCCACACTGTATACTCGCCATGACGATCATAAAACCCACTATGGTACTGGTGTCATGGG -AGTCGTCTCAGATGAGATGTCCTACTATGTGAATGCTGAACGAGATCACGACGAACGTGAAACGAGCTTGAACGGCAGTA -TCAGTTCCAATCTCCATTACACCCAAGTCAGCCTTGCCGCAGGAGCAAGCGGCAGTGATAGCCGTACTTACAACGGTACG -ATGTCAGGTGGTATTGCCGTACATGATCAGGGAGTGACCTTTTCACCGTGGACTATCAATGACACTTTCGCCATCGCAAA -AATGGATAACAATATTGCAGGTGTCAGAATTACATCTCAGGCAGGCCCAGTATGGACAGATTTTCGGGGTAATGCCGTCA -TTCCATCAATCCAGCCGTGGCGAACATCAGGAGTTGAGATCGATACCGCCAGCTTGCCAAAAAATGTCGATATCGGTAAC -GGCACAAAAATGATCAAACAAGGCCGTGGTGCAGTAGGGAAAGTCGGATTCAGTGCGATAACACAACGCCGTGCATTACT -CAATATCACACTTTCCGACGGCAAAAAACTGCCCAGAGGCGTTGCGATTGAAGATAGTGAAGGCAACTATCTGACAACAT -CAGTGGATGACGGTGTTGTATTCCTCAATAACATCAAACCGGACATGGTGCTAGATATAAAAGATGAGCAGCAATCATGC -CGTATTCACCTTACATTCCCAGAAGATGCACCAAAAGATGTGTTCTATGAGACAGCAACAGGAGAGTGCCAATGAAACGG -ATAATAACAGGATGCCTGCTGCTGAACTTCGCCATGGCCGCTCAGGCAGAGTGTAATATCTCCAGTAGCATACAAAATAT -CGACTATGGCAAACGAAGTGCTGCCATGCGCCAAGTTGACCGGGGTAAAACAACACAATTAGCAGACAGAACAATCACGC -TGGTAATGCAATGCGATCAGGACGCTCATATTCGTGTTCAGTTGAATACCGCTAATATTTCCAACAACGGATTTGGATTT -GGCCCGAATGGTTCATTAAATCTGATCGCCAGCGATGCATTTTCAGGTAGTAACAATCTCGACCTGGCGTTAGCCAGTGG -CAAAAATGACAATCCGGGCAGCACAGGAACAGCATCAATTAGGGAAGGTGCGAATAAGCGGGGAAATTCTTCTCGGCTGA -CTCAGTCATTTCATTTCTTCATGTTTGAGCCGATTTTTTCTCCCGTAAATGCCTTGAATCAGCCTATTTAGACCGTTTCT -TCGCCATTTAAGGCGTTATCCCCAGTTTTTAGTGAGATCTCTCCCACTGACGTATCATTTGGTCCGCCCGAAACAGGTTG -GCCAGCGTGAATAACATCGCCAGTTGGTTATCGTTTTTCAGCAACCCCTTGTATCTGGCTTTCACGAAGCCGAACTGTCG -CTTGATGATGCGAAATGGGTGCTCCACCCTGGCCCGGATGCTGGCTTTCATGTATTCGATGTTGATGGCCGTTTTGTTCT -TGCGTGGATGCTGTTTCAAGGTTCTTACCTTGCCGGGGCGCTCGGCGATCAGCCAGTCCACATCCACCTCGGCCAGCTCC -TCGCGCTGTGGCGCCCCTTGGTAGCCGGCATCGGCTGAGACAAATTGCTCCTCTCCATGCAGCAGATTACCCAGCTGATT -GAGGTCATGCTCGTTGGCCGCGGTGGTGACCAGGCTGTGGGTCAGGCCACTCTTGGCATCGACACCAATGTGGGCCTTCA -TGCCAAAGTGCCACTGATTGCCTTTCTTGGTCTGATGCATCTCCGGATCGCGTTGCTGCTCTTTGTTCTTGGTCGAGCTG -GGTGCCTCAATGATGGTGGCATCGACCAAGGTGCCTTGAGTCATCATGACGCCTGCTTCGGCCAGCCAGCGATTGATGGT -CTTGAACAATTGGCGGGCCAGTTGATGCTGCTCCAGCAGGTGGCGGAAATTCATGATGGTGGTGCGGTCCGGCAAGGCGC -TATCCAGGGATAACCGGGCAAACAGACGCATGGAGGCGATTTCGTACAGAGCATCTTCCATCGCGCCATCGCTCAGGTTG -TACCAATGCTGCATGCAGTGAATGCGTAGCATGGTTTCCAGCGGATAAGGTCGCCGGCCATTACCAGCCTTGGGGTAAAA -CGGCTCGATGACTTCCACCATGTTTTGCCATGGCAGAATCTGCTCCATGCGGGACAAGAAAATCTCTTTTCTGGTCTGAC -GGCGCTTACTGCTGAATTCACTGTCGGCGAAGGTAAGTTGATGACTCATGATGAACCCTGTTCTATGGCTCCAGATGACA -AACATGATCTCATATCAGGGACTTGTTCGCACCTTCCTTAGTACTTCCCCCAATAATTGGCTGGTGTTTATGCAAAATGG -TCAAGAAGTGGTAATTGATAGCGGTAAAAGCGTTAGCCTCACACTGACAATGGCTCCAGCTTTTAAGGATGAAGGGGAAC -TAACCGACATGACAGATATTACAGGCAATCTGACGGTCCTGGTGGAGGCAAAATGAACAATGTAAAATTACTGATTGCCG -GAAGTGCCTTTTTTGCCATGTCAGCGCAAGCCGCTGATAGAGTATCAATTGACGTTAAGGTGACTCTGGAAGCTGCAGCT -TGTACTCCAATACTAAGCAACGGCGGAGTTGTTAACTTCGGTAGTCATTCAGTCAATAGACTTTCAACGCAGCACTACAC -ACAGATTGGAACACGTAATATTAATATGACTATAACTTGCGAATCCGCTACCGGCATTGCGATTACCGCTCGTGATACAC -GAATGGATAGTATGACCACCGGAAAAGATAGTGGGGGTCAGAGTGGTGTAAAATATACCTTAAATGGCGGAGGTTATATT -AGCCAGACAACGCGCTTATTCGGCTTAGGGAAAACAAAAGATAATAAAAATATCGGTAGTTATGCCGTGTTAATTGATAG -CAACAACATTAGTGCCAGCAATGGTAGCCAGACGTTAGCTGTATCAATAGCAGGTGCAGATGCCGTCATAACAGGGCAAA -AAAGAGCATGGCAAACGCTCACCGCTTATCCGCTTGCAGTCGATCAAAGCTATTATTACACCTTTGTAAAACCAGGTGAA -ACAACCCCAACTCCTGTAACGAACGCCATTATACCGCTTCAGGTGAGCGCATCTATCGCGAATGATTTAGGCGGTTCAGA -AAAAATCGAACTTGATGGGAAAGCTGTGATAAGCGTAGTCTACTTGTGATAACAATGCCGGACAGGAGTACTATCAGGCA -TTCGTTTTATACGATCGGTTAATGTTTCAGGAAAGCTCTTCGCATATCTTGGGGAAAGTAAATGTAATACGCTGTTCTTA -ATTGTTCAGTGCTCACCCCCCAGAGTATAGCTCATTCCATTATTCAACTTAGCTCCATATAAAGGGACAGATAATGGAAT -CGCTCTCAGAAGGAACCACAGCAGGCTACCAGCAAATCCACGACGGTATTATTCATCTGGTCGATAGCGCCCGGACGGAA -ACGGTACGTAGCGTTAACGCGTTAATGACCACGACGTACCAGGAAATTGGCCGACGAATTGTCGAATTTGAACAAGGTGG -CGAGGCCAGGGCTGCGTATGGTGCGCAGCTAATCAAGCGACTATCAAAGGATTTATGTCTAAGGTATAAGCGTGGGTTCT -CTGCAAAAAACTTACGCCAAATGAGGCTTTTTTACCTCTTTTTTCAACATGTTGAAATTCACCAGACAATGTCTGGCGAA -TTAACACCATTGGGAATTCCGCAGACACCGTCTGCAGAATTCCCATCGGCAAAGATTTGGCAGACGCTGTCTGCCAAATC -TTTCCCCTTGCCCAGGTCCACCTACGTCCGTTTACTTTCCGTTAAAAACGCTGACGCCCGCAGCTTTTATGAAAAAGAGA -CGCTCCGCTGTGGCTGGTCTGTTCGCCAGCTAGAGCGGCAAATTGCGACCCAGTTTTATGAGCGGACACTACTGTCACAT -GACAAATCAGCCATGCTGCAACAACACGCTCCTGCCGAGACGCATATTCTTCCGCAACAGGCGATACGCGATCCCTTTGT -GCTCGAATTTCTGGAATTGAAAGATGAATATTCAGAATCCGATTTTGAGGAGGCGCTGATCAACCACCTGATGGATTTCA -TGCTGGAACTTGGGGATGATTTTGCCTTTGTTGGTCGGCAGCGAAGGTTACGCATTGATGACAACTGGTTTCGTGTCGAT -CTGCTGTTTTTCCACCGCCGTTTACGCTGCCTGCTAATCGTCGATCTAAAAGTGGGCAAATTCAGCTATAGCGATGCCGG -ACAGATGAATATGTATCTCAACTACGCCAAAGAGCACTGGACGCTACCGGATGAAAATCCGCCCATCGGTCTGGTTCTCT -GTGCAGAGAAAGGAGCCGGAGAAGCGCATTATGCTCTGGCAGGTTTGCCTAACACCGTTCTGGCAAGCGAATATAAGATG -CAACTACCTGATGAGAAACGACTCGCAGATGAACTCGTTCGAACACAGGCGGTGCTAGAGGAAGGCTATAGACGCCGTTA -ATTTCAGCGGTTTCGAATTCTGCAGACAGTGTCTGCAGAATCTTTAAAACGAACTAAGTTTTAAGCCATTAAATCAGCCT -TAACCTTCACCACAACCTTTTTAATCTCTCCAGGCTCGCCGACAACGCATCCTGGTTTATGCGGTTCACCTGGCATAAAC -ACGGCGAACATTCCCGGTTTTAAGATGATGGCTTGCTCGTTATCAATGGTGCTGCAAAGCTGATAATCATCCTCATGGTG -GAACTCTTCACACTGACGCGCAGTGCCTGCCATGCCAAACAGAATCCGTTCCTCACCGTTTAATAACAGCTGGATATCAA -TGTATTGCTCGTGCAATTCCGCTTTTTTCTCGACGGGCGATTGAGTGTTAAACGTCATGACATTCATAAAGATATTGTCG -CCCTGTAATTCGTAACGACCCGGCGCTTTTTCTTGCGGTCTGGCAGCTAATGCCAGCGTTAACGCGTCCTGTAACGCAGG -ATGTAACCCAGCAGACGGTAATGACTGTACTTCACCCATCATCATAATTTTTCTCCCTGGGCCAACAGCGCAGCCCCAAG -TAAACCTGCATCATGGCGGTAATGCGCCGCCAGTAAATCAACATGAAATGCCGCTGGCTCCTGCGCCAGATACGTTTCCA -CCAGCGCCAGATACCCTTCTGCCAGACCAACGCTGCCACCGACCACCACGCACTGGCAATCAGTTGTGGCTTTAATATCA -GCGATCAGCCTTGCAAGCGTACGTGCGGAGCGGTGAATCAGCTGCTGCGCCTGCTCGTCACCCTGCCCGGCGCGCGTGAA -AATAGTTTTCGCATCCGCGCCAGCCAACTCCCCCTGCGCTGCCGCTGCAATGCCGCGACCAGAAGCAATCGCTTCCACGC -AACCTGTGCGTCCACAGCCGCAGACTGGGCCGTGTGGATCGGCAAGCGTATGCCCGATATGCCCCGCCAGACCGCCAGGG -CCGGTAAGCAGTTTGCAGCCGCTCACTACACCGCCGCCAACGCCGGTGGAAACGGTGATAAAGACCATATCGGTTATATC -GCCATCCAGCGCCTGAAACTCCGCCCATGCTGCGGCCTGCGCGTCGTTAATGGCAATGGTCGGCAAATTGGTAAGTTGTT -CCAGCGTTTTGACTAACGGAAAGTGTAGCAATCCACCAAGATTATGCGGATTAAGCGCCAGCAAGCTGCCGTCACGGATT -ATCCCGGTCGAAGCGATGGCAACCCGCTGCGCATGAGCTTGCAACGGAGAGACTAATGCGGATAAGGCATCACGCAAGGC -TTCTGGTGTCTGGCTGGCTGGCGTAGGAAGTTCACGACGATCGCGGATCTGCCCGTCAGCGCCAATCAGCGCGGCGGCAA -GTTTAGTACCGCCGATATCAATCGCCAGTGTGGTCATAGCACCGCCTTTTTCATCGCTGTGTTGTACCACTGACAAATGT -GCTCAAGACGCGTGATTGCAGAACCGACCGTCACCGCCCACGCGCCGTGGCGCATCGCATCCGCCGCCTGAGCAGGCGTG -TTGTAACGCCCTTCGGCAATCACCCGACATCCGGCGTCGCTCAACGTTTTCACCAGCGCCAGATCCGGCTCTTCTGGCGT -TTCAGGCGTGGTATAGCCAGAAAGCGTAGTGCCAATAATTTCGGCTCCCAGCTTTTGGCATGCCAGGCCGTCTTCCGGCG -TTGAGCAGTCGGTCATCGCCAGTAAACCGTGATGGTGAATACGTGCCAGCAGCGTTTCAACAGGCACCGGACGCGGGCGG -TCGGTGCCGTCAATGGCGATAATGTCCGCGCCCGCCTGCGCCAGCGCATCAACATCTTCAATATAGGCCGTGATGCGTAC -CGGAGAATCCTCCAGATCGCGTTTCACAATTCCAATAATCGGCACGCTCACCACCGCACGCGTGGCTTGCAGATTTGCCA -CACCTTCAATGCGAATGGCAACCGCGCCCGCCTGTTCTGCCGCTAATGCCATGGCGGCGACGATTTCGGGTTTATCGAGC -GGGCTGTCCGGAACCGGCTGGCAGGAGACAATCAGGCCACCGTTAGCAGCGATTTTTTGATCCAGTTGTGCAAGTAACGA -CATACATCTTCCCTTAGCGAAAGGCCCGGTACATAGACCGGGCAACAGGATTAACTTTTGGTTTTGACTAAATCGTTTTT -GGCGCTGCCAAACGGCACGGCACCGCTGAATGGTTTACCGTCGATAGCGTCATGAGTACGCAACGCTTCCGGGCGCAACC -AACGCTGAACGCGAGAAGGCATATCCAGCCCAATCAGCAGGATCACCACGAACGTCAGACTGAACGAGAGCGATGCCAGC -GCAGTACCCAGATCCAGACGTTGAGCGATCAACGCGCCGATGATTGGGGCCAGTGCACCGCCCAATGCGCCAACGTTGTA -GGTAAAGCCCAGGCCCGCTGCACGCTGGTCGGTATCGAAATAACCGCCAATCAGTTTTGGTAAGATCCCGGCGATCCCTT -GTCCAAGCATTTGCTGGAAGAACAGTAACAGACCGAGCACCCAGACGTTTGCGCCGCCAATCGCAAATACCGGAATAATC -AGCAGCTGCGAGGCCAGCAGGCTACAAACGTACGCTTTGCGGGTTCCCAGCCAGTCACCGAGGAAGCCACCTACGCAGCA -TCCCACCGCCGCGCCAAAGCCACTAAAGAACAGCACATTGGCTACAGTATGCGGGTTATAAGCCAGATCGGTTTTCAGAT -ACGTTGGCAGCAGCGCCTGAATCGGCCATGAGTAGAGGAAAGCAAACAACACGACCACCATCAGCATTACGCCCGTTGGC -CAGCGTTTGCCTGCACTCTGCACCATAAAGCTGATAAAGATTGCGGCGCATAACAGCCCAAGAACAGCGACGATCGCGGC -ATTTTGCAGGTTACCGGCGAAGCAGAACCACAGCGCAGTAGCCGCCGCCAGTGTCATTACGATATTGGCAATGCGATGTT -CACCACGGTAGAGAATATCCACCATTGTGCGTACTGGTGCTTTACCTGCGTGTTTCTCTTTCCAGTCTTCCGCTTCCGGG -ATGTTTTTACGCAGCCAGAGAGCAAAGATGATTGGCAAAATGCCGATAAAGAACAGCGCACGCCAGCCCCAGACCGGAAC -CACCAGGCTATAGACCTGAGCGGCAACGACGGCCCCCACAGAGAAGCCTGAAATCAAAAAACCACTGGCTTTGTTACGCA -GATGTTTTGGCCAGCTTTCAATGACATAGGTGGCGCTGGAACCGTATTCACCCGCCATCCCCATGCCGATGACCAGACGA -GCGATAAACATGGTGATGTAGCCTGGCGCAAAGCCGCAGGCCAGCGTCCCGGCCGAGAAGAGAACGATGCTGGTGACCAT -TGCCAGACGACGCCCGTAGCGGTCACCCATAGCGCCGAGCATCAGGCCGCCGAACCAGCGAGAGATAAAGGCTGCAGAGA -TCAGACTTGCCGCCTGCACCGTCGTCAGCCCGAATTCACCTTGTACTTCGGTGAGTACCAGGGCGATTAAAACGAAATCA -AAACCGTCAAGCAGATATCCCAACCAGGCAGCGGAAAATGCGCGCCATTGTGCACGGTTGAGATGGCGATACCACGGGAT -ATTCTGGGTTGTAGTACTCATTGTGAGTCTCCCGCGGTGGGCGATGCCCACACGCTTTGGTATGAAAATTGTAGGGTACA -GATGCGTTTATTTCCCCTCACCCGGTAGGGGCGAGCGAGGGGAAACAACTCACCCGCGCTCTTGCATCAACTGCTGGGCC -AGCGCCTTCAGTTCTGGCAGATATTTTTCATCTACCGGTCCAAACGGTTTGCGGCACAGCGGCACAGAAACGACATCCAT -ATAATGGAGGACAGTTTTCAGGCCGCGGAATACGCCCGTTTTGATCAGTAAATCAATGACTTTATTGCATTCAGTTTGCA -GTTTCTGCGCGGTCTGGATATCGCCTTCTTTCAGCGCCTTAACGATCCCCTGATAGCGCCAGCCCATGATGTTGTAGGTA -CTGCCGATACCACCATCAGCGCCCGCCAGCAGACCAGAGGCGAAGATTTCGTCGTAACCGTTATAGAGCACAAGATCAGG -ATGTTCACGACGGATCTGCTCCATCTGATAGAGATCGCCAGAGGTCTGTTTCAGCGCACCTACGCCAGGCAATGTAACAA -GTGTGTTGATCTGATCCAGGGTCAGTTTTACCCCACTCAGGGCTGGAATGTTGTACACCACCATCGGCAAACCATCCGCC -GAATCAATAATTGCCCGATAGTGATCGCAGTGTTCTTCAAAGCTGAAAGGATAGTAGAACGGCGTGACGGCGGAGACGGC -ATCGAAGCCATAACGTTTAGCCGATGCCGCAAGTTGTTGGCTTTCGGCGGTGCTGACGCAACCGACGTGGGCGATGAGTT -TAATCTTACCTTTCGCCTCTTCGGCGACGATTTCCAGTACCTGTTCACGCTCGGAAAGGCTTTGTACAAAGGCCTCGCCG -GTCGAACCACCCACGTATAAACCGTCGATGCCCTGCTGAATATTGAACTGAACCAGGCGACGCAGACTCGCTTTATCCAG -TGCTTGTTGTTGGTCAAAAGGAGTCAGGAGTGCAGCCATTACGCCACGTAAATTCGTTGCCATAAATACCTCTGAAGTGA -TGCTTGTCTGATAAACGATATACCTTTATACCTGTTATACCAGATCAATTAAGCAACACCCCATACAGAAAGCTTATAAT -GCGATCTGCTTCACTAAAGTGGCATTATTTCTTTTTGTTGGTGGTCTGACCGAAAGCGTGCCAGGTAGCAGAGACGCTGT -TGAGATGCGATTGCAACGCACGATCGGCTTCGTCAGGATCATGACGGCGGATCGCATCAACGATCGCAATATGCTGTTGA -TAACTAACGTTGTTATGTTCGTGCAGTGCCTGATCGGTAACCGTTGGGCGTGCGGCAATAAGCCAGTCGAGCAGGGCAAC -GTGGATCGCCATGAAGATTGGGTTACCGGGGATCTCCGCCAGCACGCGGTGGAAATCAACGTCTGAACGAATGAATGCCG -CGTTGTTATCCAGCGACTGACTGTTGATTTCCAGTGCTTTTGCCAGCAAATCGATTTGCTCATCGGTGGCATGTTCAGCC -GCATAGCGCACCAGACTGGATTCAAAGAACAGACGTAATTGTTCGAAATGGGCAATCCCACCGGGATGAGAAAGGAAATC -TTTCGCCATGCCGGAAAGCTCACCGATGATAGTGTCCGCAGAAGGACGCGAGACGCGAGCGCGTTCGCCGTTGTTTATTT -GCACCAGACCTTTGCGTTTTAACGCTGCCAGCGCTTCACGCACCGAAGGACGCCCGACGTTAAAGAACGCCATCAGTTCG -CGTTCAGACGGTAATTGTTCACCTTCGCCAAATTCACGACGGCGGATCATCTGTTCCAGCTCTTCTTCCACCATTTCGGA -GAGTTTTTTACGCGCCAGCGGGCGGCTACGCAAGTTGCGACCAATTGCAGGTGAAGAATCTTCGGTTTGCGAATCAAATG -CGTTCATAAGGCCCATTCTGTAAGGTCAGTGTGATTAACATCATCAGTGACATCCTATCACAGGATTGAAAGTAGGGGAA -AATGGCAGGGTTTTCTCTTTGTGCCTCATCATTACCATAATTAACGGAATAATTAACTATTGCGAAAAATTAATGTAACG -CAGATAAAAACATCCCGTTTGAATTATTTATAAGACTATTCACGAGCATTATGAATATTATGAATGTGTTCTTACAAAAT -AATCATAAGCGCATATTTTTTAATGAAAAATCACCTCACCTACAATTAAAAACACGACATCCGCACCATAAATAGCCTTG -CAAAAAATATAACATCGTTGTTTTCAATCTGCCGTTTATGGGATTGACCGTTTTCTTTTGACACGGAGTTCAACAATGTT -CGGCATAATTATATCTGTCATCGTATTAATTACGATGGGCTATTTGATCCTGAAAAACTACAAACCTCAGGTGGTGCTGG -CTGCCGCAGGTATCTTCCTGATGATGTGCGGTGTCTGGTTAGGGTTCGGTGGTGTACTCGATCCCACCAAAAGCAGCGGC -TACTTGATCGTCGATATTTATAATGAAATCCTGCGCATGCTGTCCAACCGCATTGCCGGATTGGGGCTGTCGATTATGGC -GGTGGGCGGTTATGCCCGCTACATGGAGCGCATAGGGGCCAGTCGCGCGATGGTGAGCTTGTTAAGCCGCCCGTTAAAAC -TCATTCGCTCGCCGTATATTATTCTGTCGGCAACTTACGTCATCGGCCAAATCATGGCGCAGTTTATTACCAGCGCCTCC -GGTCTGGGTATGTTGCTGATGGTCACCTTATTTCCGACGCTGGTGAGTCTGGGAGTAAGTCGTCTCTCTGCGGTGGCAGT -TATCGCAACCACGATGTCCATTGAGTGGGGGATTCTGGAAACGAACTCCATTTTTGCTGCCCAGGTAGCGGGAATGAAAA -TTGCCACATACTTCTTCCACTACCAGCTTCCGGTCGCCTCTTGCGTCATTATCTCGGTGGCGATCTCCCACTTTTTCGTG -CAACGCGCTTTTGACAAAAAAGATAAAAATATCAATCACGAACAGGCAGAGCAAAAAGCTCTCGATAATGTCCCGCCGCT -CTATTACGCCATTTTACCTGTGATGCCGTTAATCCTGATGCTCGGCTCGCTGTTCCTCGCCCACGTCGGGCTGATGCAGT -CAGAACTGCATCTGGTGGTGGTGATGTTACTGAGTTTGACTGTGACGATGTTTGTTGAGTTCTTCCGCAAGCATAACTTG -CGCGAAACAATGGACGATGTGCAGGCGTTTTTTGACGGCATGGGTACGCAGTTTGCCAACGTGGTAACGCTGGTGGTCGC -GGGTGAAATATTTGCGAAAGGCTTAACGACGATTGGCACTGTCGATGCGGTTATCAGGGGGGCGGAGCATTCTGGTCTGG -GCGGTATTGGCGTGATGATTATTATGGCGCTGGTCATTGCCATTTGTGCCATTGTGATGGGCTCTGGCAATGCGCCGTTT -ATGTCATTTGCCAGTCTTATTCCGAATATCGCAGCCGGACTACATGTACCAGCGGTTGTAATGATTATGCCGATGCATTT -TGCCACGACGCTAGCGCGCGCGGTTTCGCCGATTACTGCGGTGGTGGTCGTTACGTCAGGAATTGCAGGCGTTTCGCCTT -TTGCGGTGGTGAAGCGGACAGCGATCCCCATGGCAGTCGGTTTCGTGGTGAATATGATTGCCACAATCACGCTATTTTAT -TAAGTCATTAAAAAGACAAAACAGGCCGCCTGGGCCTGTTTTGTATTACTTCACAACGCGTAATGCCGGTCGACCACCGC -GTGGTGGCTGCGGAGGTTCATCGTCAGGATGAGTGTCATCATCGTGATCTGGCTTGTCGCCATCAATAACCGACATAACG -GTTTCGTTGTCTGCCGATGCCTCTTCATCATTCATGATGCTGGTATCTTCATCGTAGGCAGCTTCAGGCTCAAACATCGT -GCCTGCGCCATTTTCACGGGCGTAGATAGCCAGCACGGCAGCCAGCGGCACAGAAACCTGACGCGGAATGCCACCAAAGC -GCGCGTTAAAGCGCACCTCATCATTCGCCAGTTCCAGATTGCCGACAGCACGCGGCGCAATGTTGAGTACGATTTGCCCG -TCACGCGCATATTCCATAGGAACCTGCACGCCAGGGAGCGTCACATCCACCACCAGGTGCGGCGTGAGCTGGTTATCCAG -CAACCACTCATAGAATGCACGCAGCAGATAGGGACGACGTGGTGTTAGCTGTGACAAATCCATACAGATTAACTCCGGCC -CAGACGCATTTCACGTTCTGCTTCAGTTAAAGAAGCAAGGAAAGAGTCACGCTCAAAGACGCGGGTCATATAGCCTTTCA -GCTCTTTCGCACCCGGGCCGCTGAACTCGATGCCCAGTTGCGGCAGACGCCACAGCAGCGGAGCAAGATAGCAATCGACC -AGGCTGAACTCATCGCTCAGGAAGTACGGCTTCTGACCGAAGACCGGCGCAATCGCCAGCAGTTCTTCGCGCAGTTGCTT -ACGTGCGGCATCTGCTTCAGAAGCTGAACCGTTGATGATGGTGTTCATCAGCGTGTACCAGTCTTTTTCGATGCGATGCA -TGTACAGACGGCTTTCACCGCGAGCTACCGGGTAAACAGGCATCAGTGGCGGATGCGGGAAACGCTCATCCAGATATTCC -ATAATGATGCGAGATTCCCACAGGGTCAGCTCACGATCCACCAGGGTCGGAACGCTCTGATTCGGGTTGAGGTCAATCAG -ATCCTGAGGCGGATTGTCCTTTTCCACGTGTTCGATCTCGAAACTTACACCTTTCTCAGCCAGCACAATGCGGACCTGAT -GGCTATAGATGTCAGTAGGACCGGAAAACAGCGTCATTACCGAACGTTTGTTGGCAGCGACAGCCATGAAAACCTCCAGG -TATAGTCAGAATTTTTACTGCTACCAGCCACCAGGTGGCCAGTCAGAAGTTGTGTTACCCAATAAGGAACGACTCTCTTT -GTTCGAAAATCAAACAAAAAATGAGCAATACCCGACATTTGGGCAGAAAATTGGATGATAGTTTACCAGATTTTGCGACC -ATTGTGGTGAGTCGATGCCGGAAATGGGGAAAAAGAGATGCGCTTTAGTCTGAAATAGTTGACTTAGTCCCTTATTGGCG -ATGTGGTTTTTGTTTTACCTGTCTGTCAGGTGGCAGCAAAAAGCAACTTTCCAGTTTTTACGCTGATTCAGATTTTAGCT -ATAAAAAAACCCGCCGAAGCGGGTTTTTTCGAAAATTGTTTTCTGCCGGAGCAGAAGCCAATTAACGTTTGGAGAACTGC -GGACGACGACGTGCTTTACGCAGACCGACTTTCTTACGTTCAACCTGACGAGCGTCACGAGTAACGAAGCCAGCTTTACG -CAGTTCAGAACGCAGGGACTCGTCGTATTCCATCAGAGCGCGGGTGATACCGTGACGGATCGCACCAGCCTGACCAGAGA -TACCACCACCTTTAACGGTGATGTACAGGTCCAGTTTCTCAACCATGTCGACCAGTTCCAGCGGCTGACGAACTACCATG -CGGGCAGTTTCACGACCGAAGTACTGTTCCAGAGAACGTTGGTTGATTACGATTTTACCGTTGCCCGGTTTGATGAAAAC -GCGAGCTGCGGAACTTTTGCGGCGACCAGTGCCGTAGTATTGATTTTCAGCCATTGCCTATAATCCCGATTAGATGTCAA -GAACTTGCGGTTGCTGTGCCGCGTGGTTGTGCTCGTTACCCGCGTAAACTTTCAGTTTACGGAACATAGCACGACCCAGC -GGGCCTTTTGGCAACATGCCTTTAACCGCGATTTCAATCACACGCTCAGGACGGCGAGCAATCATCTCTTCAAAGGTCGC -TTGTTTGATACCACCGATGTGGCCGGTGTGGTGATAGTACACTTTGTCAGTACGCTTGTTGCCGGTTACAGCAACTTTGT -CAGCGTTCAGAACGATGATGTAATCACCGGTATCTACGTGCGGAGTGTATTCCGCTTTGTGCTTACCGCGCAGGCGACGA -GCCAGTTCAGTAGCCAGACGGCCCAGAGTTTTACCGGTCGCGTCAACAACATACCAGTCGCGTTTTACGGTTTCTGGTTT -AGCTGTAAAAGTTTTCATTAAAAGCTTACCCAATAAATAGTTACACGTTGGTGAACACCCAAACGTCTTCAATTGTTGAG -GTTCACACGACAAAGTCCGGCAAACCTACCCCTTCGAATAGCCTATGCCAGCACACAAAAAGTTTTGGGAAAAAAACTTT -CTTGTAACGTGGGGTCGCAGGATTATAGAGAAGTCGGGGTCAAAGATCGACCCCTTTTTGTGATTTGTGACAGGTTTTAA -CCCGCCAAATGCTCGCGCTTCAGATACTCTTCGCTTTGCATCTCTTGCAGACGTGACAGGCAACGCTGGAACTCAAACTT -CAGCCGATCGCCCTGATAAATTTCATACAGCGGCACTTCTGCACTCACCACTAATTTGACATGGCGCTCGTAAAACTCAT -CCACCAGCGCAATAAAGCGCCGCGCTTCGCTCTCCATCAACCGCGTCATAACTGGTACATCAAACAACATGACCGTATGA -AAGAGACGTGAGAGCGCAATATAGTCATGCTGACTGCGGGCGTCGACGCACAGCGTAGTAAAAGAGACCGCCAGCGTCTG -GTTCTCGACGCCCATTGTTGCTAATGGCCGATGGTTGATTTCTAACGTCGGTGAATTTTCTCGTTTCCCCCCCGCCAGCG -CCAACCATAGTTTATCCATTTGCGCCCGGGTTTCATCGTGAAGTGGCGAAAGCCACAGATGCGCCTGAGTGAGTGTACGC -AGACGATAATCAACACCAGCGTCCACGTTCATTACATCACAATGCTGTTTAATGGCATCGATTGCAGGCAGAAAACGCGC -ACGTTGCAGGCCATTTCGATAAAGTTCATCCGGCGGAATATTTGACGTCGCTACCAGGGTAATACCGCGAGCGAACAGGG -CTTTCATCAGACCGCCAAGTAGCATGGCATCGGTAATATCAGAAACAAAAAATTCGTCAAAACAGAGCACGTCAGTTTCG -GCTTTAAAGCGATCGGCAATAATTTCCAGCGGATCGGTCTGCCCCTGTAAGGCAGTTAGCTCTTCATGCACCCGCAGCAT -AAAACGGTGAAAGTGCAGGCGCTGTTTCCGCTCTCCCGGCAGGCTTTGATAGAAAAGGTCCATCAGCCAGGTTTTCCCGC -GTCCTACACCGCCCCACATATATAAGCCACGCACTGGCGTATGCTTTGTGTCTTCGCGTTTACCCCACAGCTTACCGACC -CGCGCCATTAGCCCACTCGTCCTGGGGGCTGGTGGCGTGCTATTGATGAGTTCCTGATAAATAATTTCCAGGCGGCTGAC -GGCCTCTTTTTGAACGTCGTCGGGTTGATGGCTGCCTTCATTAAGCGCCTTCAGGTATTGCGATGTTGGGGTAACGCTTT -GCATGATCTTATTGTTATTCCTTGAATAATCGGTGCGCCGTTGTTCACGGTTGACGAAAAAAAGGCCGTTCTACACTACG -CGATATGCAGTCGGGATTCCACTTCTGTGGAATTAACGGTTATAGTGGCATAATCAGCCGCAGGCATGGAGCCTGAAGCC -AACACCCTACGGAAACAAAAGACAACGGGAGATGTTCATGACCTGGGAATATGCGCTAATTGGGTTAGTCGTCGGCATCA -TTATTGGTGCTGTGGCCATGCGTTTTGGTAATCGTAAACTACGCCAGCAACAGGCGTTGCAGTACGAACTGGAAAAGAAT -AAAGCTGAACTGGACGAGTATCGCGAAGAGCTGGTTAGCCACTTTGCCCGCAGCGCGGAATTACTGGATACCATGGCGCA -CGACTATCGCCAGCTGTATCAGCACATGGCAAAAAGCTCCAGCAGCCTGCTGCCGGAACTGTCTGCTGAAGCAAACCCGT -TCCGTAATCGTCTGGCAGAGTCTGAAGCCAGCAACGATCAGGCACCGGTGCAGATGCCTCGCGACTATTCTGAAGGCGCA -TCCGGCCTGCTGCGTACTGGCGCGAAGCGCGACTAATTTATTTTTCGGGCGCAGCCATTGCGCCCTCCTCTTCTCTCCCT -CCCCGACTATCATTTAATCTGGTGTCTCATTGTTAGCCGTCTGAAAATTCAATAACATCAAACTGTTTTGAATCTCTTTT -CTTATCATTCAGGTACGAGAGCAGGAATAATGAAAAAACAAACCCAGCTGTTGAGTGCATTAGCGTTAAGTGTCGGGTTA -ACTCTCTCGGCGTCATTTCAGGCCGTCGCGTCGATTCCAGGCCAGGTTGCCGATCAGGCCCCTCTCCCCAGTCTGGCTCC -AATGCTGGAAAAAGTGCTTCCGGCAGTGGTGAGCGTACGGGTGGAAGGAACGGCCAGTCAGGGACAGAAAATCCCGGAAG -AATTCAAAAAGTTTTTTGGTGATGATTTACCGGATCAACCTGCACAACCCTTCGAAGGTTTAGGCTCCGGTGTCATCATC -AACGCCAGTAAAGGCTATGTGCTGACCAACAACCATGTGATTAATCAGGCACAGAAAATCAGTATTCAGCTCAATGATGG -GCGCGAGTTTGATGCAAAACTGATTGGTAGCGATGACCAGAGCGATATCGCCCTGTTACAAATTCAAAACCCGAGCAAAT -TAACGCAAATCGCTATTGCCGACTCCGATAAATTGCGCGTCGGTGATTTTGCCGTAGCGGTCGGTAACCCATTTGGCCTT -GGGCAAACCGCCACCTCTGGCATTGTTTCCGCATTAGGCCGCAGCGGGTTGAATCTTGAAGGTCTGGAAAACTTTATCCA -GACAGATGCTTCCATTAACCGCGGTAACTCCGGCGGTGCACTATTAAACCTTAACGGTGAGTTAATTGGCATCAACACTG -CAATCCTTGCGCCTGGCGGCGGGAGCGTCGGGATTGGATTTGCCATCCCCAGTAATATGGCGCGAACACTGGCGCAGCAG -CTTATCGACTTTGGTGAAATCAAACGCGGTTTGTTAGGCATCAAAGGCACCGAGATGAGTGCCGATATCGCCAAAGCCTT -CAACCTTGACGTGCAGCGTGGCGCGTTTGTCAGCGAAGTGTTGCCAGGTTCTGGCTCGGCAAAAGCGGGCGTCAAAGCGG -GCGATATTATTACCAGCCTCAACGGCAAACCGCTGAATAGCTTTGCTGAGTTGCGCTCTCGTATCGCGACCACCGAGCCG -GGCACGAAAGTGAAGCTTGGCCTGCTGCGTAACGGCAAACCACTGGAAGTAGAAGTGACGCTCGATACCAGCACCTCTTC -GTCGGCCAGCGCTGAAATGATCACGCCAGCGCTGGAAGGTGCAACGTTGAGCGATGGTCAGCTAAAAGATGGCGGCAAAG -GTATTAAAATCGATGAAGTTGTCAAAGGAAGCCCAGCTGCTCAGGCTGGCTTGCAAAAAGACGATGTGATCATTGGCGTC -AACCGCGATCGGGTGAACTCGATTGCTGAAATGCGTAAAGTGCTGGCGGCAAAACCGGCCATCATCGCCCTGCAAATTGT -ACGCGGCAATGAAAGCATCTATCTGCTGATGCGTTAATGTCGTAAACCGGGCATCAGGCTTACGTGTGATGTCCGGTTAA -CTCGTGGTATGCTGCTGCCGTTCCCTTTTTTAATGACGCCTCCATCATGTTTGTGAAGCTCTTACGTTCCGTTGCGATTG -GATTAATTGTCGGCGCTATTCTGCTGGTTGCCATGCCTTCGCTGCGCAGCCTTAACCCGCTTTCCACTCCGCAATTTGAC -AGTACCGATGAGACGCCTGCCAGCTATAATCTGGCGGTTCGCCGCGCCGCGCCAGCGGTGGTTAACGTTTACAACCGTGG -TTTGAACACCAACTCTCACAACCAGCTTGAGATCCGCACCCTGGGATCCGGTGTAATCATGGATCAACGCGGTTATATCA -TCACCAATAAACACGTCATCAACGACGCCGATCAGATCATCGTCGCCTTACAGGATGGACGTGTATTTGAAGCATTGCTG -GTGGGATCTGACTCTCTAACCGATCTGGCGGTACTTAAAATTAATGCCACTGGCGGTTTACCTACCATTCCAATTAATGC -ACGTCGCGTACCGCACATTGGCGACGTAGTACTGGCGATCGGTAACCCGTACAACCTCGGGCAGACCATTACCCAGGGGA -TTATTAGTGCCACGGGTCGAATCGGTCTGAACCCGACCGGGCGGCAAAACTTCCTCCAAACCGATGCTTCCATTAACCAC -GGTAACTCTGGCGGCGCGCTGGTGAACTCGCTGGGCGAACTGATGGGCATTAATACGCTGTCGTTTGATAAGAGTAACGA -TGGCGAAACGCCGGAAGGTATCGGCTTTGCGATTCCTTTCCAGTTAGCAACCAAAATTATGGATAAGCTGATCCGCGATG -GTCGCGTGATCCGCGGCTACATTGGTATCGGCGGACGTGAGATCGCACCACTGCACGCGCAGGGCGGTGGTATAGATCAA -CTGCAAGGGATCGTGGTTAATGAAGTGTCACCTGACGGCCCGGCGGCGAATGCGGGTATTCAGGTCAACGATCTGATTAT -TTCGGTGGATAACAAACCGGCCATCTCTGCTCTGGAGACGATGGATCAGGTGGCGGAAATTCGCCCTGGTTCGGTGATCC -CTGTAGTAGTGATGCGTGATGATAAGCAGTTAACGCTGCAGGTCACCATTCAGGAATATCCGGCAACCAATTAAGTCGTG -CGCTCAAAACAAAAAACCGGAGTCTGTGCTCCGGTTTTTTATTATCCGCTAATCAATTACTTATTAACGAACTCTTCGCC -CAGGGCGATATCTTTCTTCAGCGTATCCAGCATACCTTCCAGCGCGTTCTGTTCAAATGCGCTCAGGGTACCGATAGATT -TACGCTCTTCCACGCCGTTTTTACCCAGCAGCAGCGGTTGAGAGAAGAAACGGGCGTACTGACCGTCGCCTTCAACGTAG -GCACATTCGACAACGCCTTGTTCGCCCTGCAGTGCACGAACCAGAGACAGACCAAAACGTGCAGCTGCCTGGCCCATAGA -CAGGGTTGCAGACCCGCCACCGGCCTTCGCTTCAACCACTTCAGTACCCGCGTTCTGGATGCGTTTGGTCAGATCAGCCA -CTTCCTGCTCGGTAAAACTAACGCCAGGAACCTGTGACAGCAGCGGCAGAATGGTAACACCAGAGTGACCGCCAATAACC -GGCACTTCAACTTCGCCTGGCTGTTTGCCTTTCAGTTCCGCAACAAAGGTGTTGGAACGAATGATATCCAGCGTGGTAAC -GCCGAACAGTTTGTTTTTGTCATAAACACCGGCTTTTTTCAGCACTTCAGCAGCAATTGCAACTGTGGTGTTAACCGGGT -TAGTGATAATACCAATGCACGCTTTCGGGCAGGTTTTCGCAACTTGCTGTACCAGGTTTTTCACGATGCCGGCGTTAACG -TTAAACAGGTCGGAACGATCCATACCCGGTTTACGCGCTACGCCTGCAGAGATAAGAACGACATCTGCGCCTTCCAGCGC -CGGAGTCGCATCTTCACCAGAAAAACCTTTGATTTTCACAGCAGTAGGGATATGGCTCAGATCGACAGCCACACCGGGAG -TCACTGGAGCGATATCATACAGAGAGAGTTCTGAACCTGAAGGCAGTTGGGTTTTTAACAGTAGTGCAAGCGCCTGGCCA -ATACCGCCAGCAGCGCCGAGGACTGCGACTTTCATCCTAAACTCCTTATTATATTGATAAACTAAGATATGTTGCTCCGC -TGCCGCGACCTTAATCCACAAAATTGCCGTTTACAATGACCACATCTCAAGAATGTGTAGTCACGCAAGTTTAGCGTTTA -TGCATTTAATTGCCGTAATCAGGAACCTAACTTACGTAATTAACAGTCGCTTATGCATTAGCGCAACATTCCAACAGGTG -GTGACAATATACCCTACCGTTCAGCCAAAACAACATCAATTTGATAACAATTAATTTACTTTTAAGCAGAATTTGCATGC -CGTGACGCAGGCATGTTTCTCAATAACGAAATTTGATAAAATCCCGCTCTTTCATAACATTATTTCAGCCTTCTTCAGGG -CTGACTGTTTGCATAAAAATTCATCTGTATGCACAATAATGTTGTATCAACCACCATATCGGGTGACTTATGCGAAGCTC -GGCTAAGCAAGAAGAACTAGTTAAAGCATTTAAAGCATTACTTAAAGAAGAGAAATTTAGCTCCCAGGGCGAAATCGTCG -CCGCGTTGCAGGAGCAAGGCTTTGACAATATTAATCAGTCTAAAGTCTCGCGGATGTTGACCAAGTTTGGTGCTGTACGT -ACACGCAATGCCAAAATGGAAATGGTTTACTGCCTGCCAGCTGAACTGGGTGTACCAACCACCTCCAGTCCATTGAAGAA -TCTGGTGCTGGATATCGACTACAACGATGCAGTTGTCGTGATTCATACCAGCCCTGGCGCGGCGCAGTTAATTGCTCGCC -TGCTGGACTCACTGGGCAAAGCAGAAGGTATTCTGGGCACCATCGCTGGCGATGACACCATCTTTACCACCCCTGCTAAC -GGTTTCACAGTCAAAGACCTGTACGAAGCGATTTTAGAGCTGTTCGACCAGGAGCTTTAATCTCTGCCCCGTCGTTTCTG -ACGGCGGGGAAAATGTTGCTTATCCCTCTCAACCCCCTGCTTTCCCCTGCGATTAATTTAACGAATAGTGCGTTTTACTG -CGACATGTCATTCACACAATGAATACATAAGGTAAAAAAAGCACATTATGCAAAATTCATTATCTAATTGAAAAAACTAG -AATTAACGATAAATAACCGTATTTTTAATTCTTTTTTGTTATTAAAATTCACATTTTTAACACTTAGTATCAACTGAAAC -AGTTAGCGCGGTATTAATTAGCTCAATAATTAGTGTATACTTGATTTTGTGATATGGGTCACGAAACAAAGGCCCAGCTA -AAAGATTATGTCGAGGTAAAAATCATGAAAATCAAAACCACTGTTGCTGCATTAAGCGTACTTTCTGTTCTCTCTTTCGG -TGCATTCGCTGCCGACTCCATTGATGCTGCACAAGCACAAAATCGTGAAGCAATCGGGACCGTATCCGTAAGTGGTGTGG -CGTCTTCGCCAATGGATATGCGTGAAATGCTGAACAAAAAAGCGGAAGAGAAAGGCGCAACGGCCTACCAGATTACTGAA -GCTCGTAGCGGTGACACCTGGCACGCTACGGCTGAACTGTACAAATAAACCCTCATCGTCTTGTCCGACGATATTGCCCC -CGGTTCGGGGGCTTTTTTTTGCGCTAATGACGAACATTAAAACGCAAATGCCCTTCCAGCTCTTCCTCTGCCTCATCAAA -CAGCAATATTAACGCGCCAAAACGGCGACGCGTTTTCTCTCCCAGATGAACAAATTCAATCTCAAGTGGTAGCGGCAGGA -CATCGTTCATTAACACATCCCATAGTGAGTCGAGATCGCGTACCTTATCTTTCGCCAGACCAAAGGTTTGGCTAAAGTCA -CGATAAAAATCCTCCTGACTCTCAATCTCATCAAAATCAAAGGTATAAATATTCATCTGTTGCCACCGTCACGTTTCGCG -GCGAGTTCTGCCGTGCATCGCTAAGTATAGCCATGAAAAAACCGACGCTTTTGGCGTCGGTTTTGACTTAACTATCGGTC -AACGCATGTTGATACTTATGGAGCATCCCCGCCAGCCGATTTACCGGTTCCGTCACCTGCGGTGGCGCTTGCCAGATGCG -TAGCTTTTCCTGGTAGATTTCCAGTTCTTCCAGCAACTGGCCAAAGTACCGACGACGTTTATCATCGCTACGGGCAGATA -TCACATGGTCTGCTGTGCGGCGCATTTGTCGGTGAAACGCCGATAAATCCTCGTTAACCGGGATCGGTGCATCACGCAGG -CGCTGGTGCGCGATAATCATCGTCAGCGCCAGGCGAAATTTCGGCAAATCCCCTGGGAACTTATTCATCAGCAAAAACAG -CTGCTGATAAAGTGCCGGGAGGTGGTTCTCTTTACGACGTGCCACATTGGTAGTCATCGCGGAAACAGCGGCAGAAACAA -ACTGATTAAGCAGTACACGTCCGGTCCTGTCGCGCGATTTATCCCGCACCAGCAAAATAACGGTGAACGCGAGCACACAG -CCGACGATTTGCCCTAATGCGCTGTCGAGAAACTGACTGAAATGGAAAGTCATCGGGTTATCCAGCACGATAATATTTAT -GGTGCTGGCCAGTGCCCCCATCGAGCCCAGTCGCCGTTTCTGTACTTCTATACCGAGGAAGAATCCCAGCACTGCCAGGC -TAATGCACAGCAGCAACATGCTCTGTTGGGTATTAGGGATAATCACCAAAAAGTAGAGCAGCCCTAACGGCAGCGCGGCC -AGCGTCCCGTAGATAAAGTCGATCGCCACCATGCGTGGATTCGGCAAACGCATTGCCAGTGACGTCACTACCGCAATCAT -CACCATTGCACCACTGCCGGAAGTCCAGCCCGTCCACAGCCAGAAAAGCGTGCCCAGAATGCAGGAAAGTGTGGTTCGCC -AGAAGTTAACCATTGCATGATGACGTTCGGCTGACTCTACTTTTACTTCCGGTTCGCCTTGCAGGATCTCTTCTTCGGTG -GCGTTGATTTTTGTGTTACTGATAACGCCGCGCTTGAGAAGCTGATAACGCGTTGCCGCCGCGACCCAGCTATAAATGGT -GACAGGCGTTTCCCGTTCCCCGGTCCAGGCGATAACTCTCCGCAGGCGTTTGAGCTGCTTGTGGACGTCCTGCGCGGTTT -CTACCGGCGTGTCAAAAAATTCGCGGAAAGTATCAGTGATCAATTCCGGGCGCGTATTCTGAATAAGATAAGTTTCGCAG -GATTGGGTAATCAGCGTCAGCGATAGCGTATTGATCGCTTTTAAACGTCGATTGGCCCGCGCCCAGCGGGAAGATTCCAT -ATTCAGGTTGCTGCGCATGCCTTGTAGCGCCGTGGTGCGTCGCACCAGGTCGCCCCAGGCTTTATCGACAACTTCACCAT -CGCCATGCTTGATACAGAGTTGCATTAATTGATATTGCGCGACCAGCAAACTTTCCAGCTCTCGATCCACTTCTTGTTTG -ATCGATCGCGGAGAAAAGAGCAAATCCGCCATAATCGCACACACAATACCGATAACGATCTCGCTACAACGTTCGACGGC -AAACTGCGGCGTAAGCAATGGTTCCGGCTGAATGGTGATCACAATGATCAGCGCGGTATAACCGGCCAGCCCCCACGCAT -ACGAGTTTTCTATTCGTACCAGCGAGGATATCCAGGTACAAAAACCGGCCCAGATACAGCACACCAGAATCATCAATAAT -GGTGCGCGGATCATCGCAATGATGATCACCAGTCCGGCAATACAGCCAATAAATGTGCCGATGATGCGCAAAAAGCCACG -ATAGCGAATAGCGCCAGAATACGGTTCACCTCCCGCAGCAAAGGCCGGACCGGCGGCAACAATCGCCGCTGTCAGTACCG -CCCAGCGTGGCGTTTCCAGCTGGAAGTGAAAGCCAACAAACAGCGCCAGTACAATGGCGGTCGCCAGTTTTACCGCAAAG -CGAATATGTTGGTTAGCAATGGAGAAAATACCCATCGTGATTAACCAAACTCACGCAGGCGATGGGCCATTTTACGGAAG -AACGAATCCTGGCTTTCGTCGCGATCTTGTTTGCCAGTGACCACCACTGTAGCAGTGGTGCCCGCAGGCCAGATGTTCTC -TTGCTGGTTGTCGAGACGAATACGAACCGGAACACGTTGCGCAAGACGCACCCATTCAAGGTTAGAGTCTATAGTCGCCA -TCCCTTTGTCGTCACGCGTGCTGCTGGCGTTGGTGACCCCTGCGGCAACACTATCAACAGTCCCTTTCAGCACTTTGTTA -CTGCCAAGCGGCGTGATCTCTGCACGATACCCCGGACGCACCCCTTCCAGCTTAGTTTCTTCCATATAGGCCAGTACATA -GAAGGAGTTCTGTTTCACCAGCGCAACCGCCGTTGATCCTCGAGTAATAAACTCACCGGTATAGACGTTGAGGTTGGTCA -CCCAGCCATCTGCTGGCGCGCGGATCACCGTGCGTTCAAGATCCAGTTTTGCCAGATCGCGGGTCGCCTGCGCTTTCGCT -AACTGATGCAGAACCGTTTGTAGTACGTTGTTGGCCTGGTCGATCTCTTCGCGAGACATCGCCTGCACACCGAGACGGTT -ACGACGTCCGGCCTCCTGGCGTTTCTCCTGTGCCAGTACCTGATAATAAGCAACATCGGCTTGCGCTTCCTCAAGCGCCT -TTTGATAGCGCGGCTGGTCGATGGTGAACAGTATCTGTCCTTTTTTCACCAGCTGGTTATCATGAACATTCACCTGGGTA -ATGAGTCCAGAAACGTCCGGCGCGATCGCAACGACGTCAGCGCTAAAGCGCGCGTCACGCGTCCAGGGGGATTCGGTGTA -ATAGACCCAGGCATTAAAAATTGCGATGAAGGCCAGAATGACTAATACGACCGTGATGGCCGTACGGGAGAATTTTCTTA -TTAGTGTTTTCACTTCAACCTCAAACGAACAGTCGCGATATCAAATAAAACAAGCAGCAATAGAGCGCGGTGTTGAACAA -CGCCGGATGCCAGACAAAGTCGTAGATACCTGTTGGCACAAGTACCCGGCGCACCAGCCAGAAAATCGCCAGTGATAAAA -GCAATTCAAAAAATATCGGTGGGAAGGACAGCCCAAACACCACGATAACGGGAAACAGACTCATGTTGACCTTGGTTGTA -AAGAGAGAGCAGGCGTTATTATTTTCAGCATCTGTCGCCGCAGAGAAGGGCATGGAAAGCCGGGCGAGAGCAACATTGCT -GTAGATTGATATTTAATATATTAGCGTAACTGTTATGCTGTTATCTATATTATGTGATCTAAATCACTTTTAAGTCAGAG -TGAATAATGGAACGACTAAAACGCATGTCGGTGTTTGCCAAAGTAGTTGAATTTGGCTCTTTTACCGCCGCCGCCAGACA -GCTACAGATGAGCGTTTCGTCCATCAGTCAGACGGTATCAAAACTGGAAGATGAGTTGCAGGTAAAGCTGTTAAACCGTA -GCACACGCAGCATTGGCCTGACCGAAGCCGGTAGAATTTACTACCAGGGCTGCCGTCGTATGCTTCATGAAGTGCAGGAT -GTTCATGAGCAACTGTATGCCTTCAATAACACCCCCATCGGGACGCTACGCATTGGCTGTTCTTCAACTATGGCACAAAA -TGTTCTCGCCGGGCTGACAGCCAAAATGCTGAAAGAATACCCAGGTTTGAGCGTCAATCTGGTTACCGGAATTCCAGCCC -CCGACCTGATTGCCGACGGTCTGGATGTGGTGATCCGCGTCGGCGCGTTGCAGGATTCCAGCCTGTTTTCCCGCCGTCTG -GGCGCGATGCCAATGGTGGTGTGCGCCGCGAAAAGCTATCTCACACAATACGGCATACCGGAAAAACCCGCCGATTTGAG -TAGTCATTCATGGCTTGAATACAGCGTGCGGCCCGACAATGAATTTGAACTGATCGCACCGGAAGGGATCTCGACTCGCC -TGATCCCACAAGGAAGATTTGTGACTAATGATCCGATGACGCTGGTGCGCTGGCTGACGGCGGGTGCCGGGATCGCCTAC -GTGCCGCTGATGTGGGTGATCAACGAGATCAATCGTGGGGAGCTGGAGATCCTGCTGCCGCGTTACCAGTCAGATCCACG -CCCGGTTTATGCGTTATATACCGAAAAAGATAAGCTGCCGCTGAAGGTACAGGTCGTGATCAACTCGCTGACGGATTATT -TTGTTGAGGTCGGTAAATTGTTTCAGGAGATGCACGGGCGCGGGAAAGAGAAGTAATTCATATTGTACTGTTACGTTGTA -CAAACCTGTGCCAACGGGTTCCCCTCACCCTAACCCTCACCCCAAAGGGGCGAGGGGACCGTTCGTGCACGTAGAAAGAT -TAATTATCCTTCTGAAAATAGTGAAATTATTACGCAGTACCGCCAACAGTCAGGTTATCGACTTTCAACGTTGGCTGGCC -CACGCCAACCGGCAAACTTTGCCCTTCTTTACCGCAGACACCCACGCCGTTATCCAGTTTCAGGTCGTTGCCAACCATCG -AAATCTGCTGCATGGTTTCGATACCGGAACCAATCAACGTTGCGCCTTTCACCGGCTTCGTTACTTTACCGTTTTCAATC -AGATATGCTTCTGAAGTGGAGAAAACGAATTTGCCGGAGGTGATATCCACCTGACCGCCACCAAAGTTCGGTGCATAGAT -ACCGTACTCAACGGATTCAATAATTTCCTGCGGGGTCGATTTACCCGGCAGCATATAGGTGTTGGTCATACGCGGCATGG -GCAGATGGGCGTAGGATTCACGGCGACCGTTGCCAGTCGGCGTCATCCCCATCAAACGCGCGTTGAGTTTATCCTGCATG -TAGCCTTTCAGAATGCCGTTCTCAATCAGCACGTTGTACTGGCCTGGCGTACCTTCGTCATCAATCGCCACCGAACCTCG -GCGATCGACCATCGTGCCATCATCAACCACGGTACACAGTTCTGAAGCCACCAGCTCCCCGACCTGTCCACTAAATACTG -AAGTGCCACGGCGGTTGAAGTCGCCTTCCAGACCGTGACCAACCGCTTCATGCAACAGCACGCCCGGCCAACCTGCGCCA -AGTACTACCGGCATGGTGCCCGCTGGTGCAGCAACGGCAGAAAGATTGACCAGCGCCATACGCACTGCTTCTTTTGCCCA -TGCATCCGCACGGACTTCGCCGTCGAGATCGGCAAGGAAGAATTCATAACCAAAACGACCGCCGCCGCCACTGGCACCGC -GTTCGCGTTTGCCATCTTCTTCGACGAGAACGCTCACGGAAAGACGCACCAGCGGACGGACATCCGCCGCTAGCGTGCCG -TCGGTGGCCGCAACCAAAATTAATTCATAGACACCACTGAGGCTGGCAGTCACTTCCTGTACGCGCTTGTCCGCTTCGCG -GGCAACCTTATCGACGCGACGCAGGATATCCAGCTTCTCTTCACGGCTCATGCTTTGCAGCGGATCTACCGAGGTATACA -ACGGGCTATGCTCTACCGCGCCCAGCGTCTGTACTTTACCATCACCACTATCACGGACGATGGTGCGCGCCGCTTGCGCA -CTCTGTTCCAGCGCCAGCAGGCTGATTTGGTCAGCGTAAGCAAATCCGGTTTTTTCACCGCTGATTGCACGCACACCAAC -GCCCTGATCGATGTTGTAAGAACCATCTTTAATAATGCGGTCTTCTAAAACCCAGGATTCGTGATAGCTCGACTGAAAAT -AGAGATCGCCATAATCAAGGCGACGTTCGGCCAGTTGACCGAGGATCGCGAACAAGTCCTGATGTTTCAGGCCGTTCGCC -GCTAGCAATTGTTCACTTACCAGGTTAAGACTCATCGTTTTTGCTACTCGTTAGTTACTGCAGTAGAGGATTTTTTACGG -CTGCCGGATGCGGCGTGAACGCCCTATCCAGCCTACGGTTATGTTCCGGTTTGTAGGCCTGATAAGACGCACAGCGTCGC -ATCAGGCAACGGCTGTCGGATGCGGCGTAAACGCCTTATCCGACCTACGGTTATGTTCCGTTTGTAGGCCTGATAAGACG -CACAGCGTCGCATCAGGCAACGGCTGCCGGATGCGGCGTAAACGCCTTATCCGACCTACGGTTATGTTCCGTTTGTAGGC -CTGATAAGACGCACAGCGTCGCATCAGGCAACGGCTGCCGGATGCGGCGTGAACGCCCTATCCGACCTACGGTTATGTTC -TGGCTCGTTGGCCTTTGGCAACGATTATCCTATGAGATTGGGGCAATTACGCGCCCTCGTCAAATCATTGCGCTTTTTCT -TTACGCGGTTGGCGCAACACTTCGTTGATTTGCGGATCGTCCAGCGGACCCGAAATGTGATAGCGCAAAATGGAGACTTT -GCTCCACAGCGGCCCCAGCACTTTACTGGCGGCAAACACTGCCGCGCCAACAATGGGGTTAACCGCAAAAGCCGCAGCCA -CGCCCACCGTCGCAGAAATCTCTGGTGCGACAACCGCTTCCATATTCAGGTCGCGACGTACCAGATTTACCGACCCTTTC -ATGGCGATATCCGCCTCCAGGCCATCCACCAGCGTGTCGTCGGTGTGCATAACGCCGTCTTTAATCCACGCGGTGCTGCG -AATGGAGTCAAAATAGAACCCTTCGCCAAAAGTGTCTCTGAAATCAAAACGCAGCTTACGCATCAGGGCATCTACGCTCA -ATAAGCGCAGCAATTGCCCGGCATGTCCGGTATTGATTTCGGTAATTTCGCCTTTACCCAGTTGAGTATGAATGATGCCA -TTCAACGTCGCTTCATCTGGCTGCCAGGGTGCTTTGCGCCAGTGTAAATCGTAATCCACATTAAATGACGACTGGCGTAT -GGGCGTCGTGACACCAAAAAATTCTGCGGCGGCATCAATTTTCTGCCCGCGCAGTTTTCCTTTCAGCGAGGTACGTTCAT -TCCCCGGATTATTAACCCATTCACCATCGGCAGTAAGCCGCGAGAAACCAGTATCAATCAGTCCATTGGTCAGCGTTAAC -GTATCGCCAGAAATGGTGATATCACTGTCAATGCGACCGAATTTTTGCCCCCAGAACCAGCACTCTGTGCATCGTATTTG -GGCGTCCGGCCAGCCACGGAAGTTAATGCGCTCCGTTGTCGGGAAAGGTGATGACGGCGTTGAATCACCACGAGTTTTCG -CCACGCTCGGGTTGTAATAAAGATATTTGATATTCGCCAGCCACGGCGCGTTATTACGCATCGCTAGCGTGGCGTTGATT -TCACGCCCTTGCGCTTCAACCAGGGTGCCATTTGCCGTCGGTTGCGAAACAATACTCAGGTTATTCCATTGCTGATTTCC -CAGTGACAACATAGGCGTACGTAACGTTATGTGTTGTGGGAAACTCGCTGCACCACCGACACTCTCCGCAGCGCCTTTCT -GGAACAGGGCCAGCCACTCGGCACCATTCATCGGCGGCATATTGAGTTCAACGCCACTTTGTTCCGGCAACGGCGGGAGC -GTTTTACTGTCTGCCGCCCAAATAGCACGATCGAGCGTCAGCTTTTGACCGAGCAACCAGCGGCTATTGAAATGATTATC -CGCACCAGCCTGTCCGGTTAATTCAAAGCTGTTGAGATTGCCATCAACCTTAACGTTTACCGCTAGTGGTTCACCCGCAG -GTTTGGCTAACGGTGAAGGTAAGTGACTGCTCACATTCTTTAGATCGCCGTTCAGCTCTATGTTATAGGTCGCACCAGCA -TGATAAGGCAGATCAATGCCCACTTTACCATCCCACGCCACGCTGCCACTCAATGCTTCGTTCACCGCTTCAGGCAGAAC -GCCGGTTTTCGCCGGTTGCCAGTTACCGTTGAGGTTTACCGCTACCTGGTAGGCTTTTGCCCCTTCTTTGGTGGAAAAAT -CCACGTTCAACGGCTGATTAAACCAGCTTGCTGTCAGTGGTTCACTTTGCAGATCGCTATTGATAAAGCTGAATTTACCG -CTCAAATTTTTCAGGGTGCTGTCGAGTGGTTTGATAAACAGACTGTTATTACGCAGCGTCACTTCACCTTTCGCGGTTAC -CAGTTCGCCGTTCAGCGGGATATCAAGATGTAAGCGAGCATTCACATCGCCGTCGAGCTGGAGTTCTTGCAGGGTCGCAC -CCAGAGAATCTTTCAGCGGTGTCTCATCAAAGTAAGGGCCAACGGCTTTACCCGGACCTTTAATGTCAGCGTCAATCAGC -AGTTTTTCTTTTGAGTAGTCAGGGATCACTGCGGTAAGATTACTCGCGCGCACGCCGCCCAGATTAACGCCATCGGTTTT -CATCCATAAACCGTCGTTAATAAAGTCCAGTTCAATATCAAGGTTAGTTAATGCAGGCCAGTCCGGCTGGAAGGCAAACT -TCGCGTTGCGCAGCGGCACCAGCACTTCAAACTGACCTTCGTTGTGTTTATAGGGGAAGAGTTGCGGATTGCCACCATAA -ACCAGCGTCGCGTTATCCGCTTCACCGCCCTGAATCGCGCCACTTAAGTAATCAACCAGGTCTTTACCCATCAAGTTTTC -CGGGAAATAGCGCCAGGCTTGTGAACCATCATCGGTACTGATGCCAGCCAGAATACCCAGCCAGGGTTCATCGTTAGCAG -GTTGCAGGTAACGAAAACCGCCGCGCGCATGGACGGCTTTGGCTTTAACGTCAATATTACGCCCATCCAGCTGGAAACCT -TTGTTATTGTTCAGCCAGCTTATAGTTGCCTGGCCGTCGGCGATTTCTAGTGGCGCACGGAATACCGTTTCGTAAGGCAT -CTTTGCCTGCTTCATCGACGCGGTAAGCAAACCATTTTCAACGCTGCCGGAAAGCGTCCCGGAGAAGTGTTCCGCACCCG -GTAATAATTTCCATTGCTTCCAGGCCAGATCGCTCCACGATGCCTGAAAACGGGTCTTGTCTGCCGCCTGAAGCGGGATA -TCCAGCGCCAGAGTGTTAATCTTGCCGCTCGGTTGTGTGGAGCGCCAAACATCACCCAGTGCAGGTGAAAGTTTCGCGGC -CAGCGGGCGTATGCCCTCCAGGCCTGCCAGCTCCAGATTACTGGCGCGAATCCGGAGTTCGTCACTGCGTTTATTGTCTT -TGCCGCCAACGTCCTGTTCCGGTATCCAGGCCAGCGTCAATGCTCCGCTCGGCCAGGGTTTGCCGTCCATCGTGATCCGT -GTATCGGGAATAGAGAACTGCCAGCCCGGATTTTCACGCGTAATATGCGCGGTCAGATTATCCACCGACAGCGTATGCGT -TTGCTTCTCGCCCAACCAGCTGGCACCGCCCTGTTTCAGCCAGACGTCACCGCCGGTTACATCGCCTTTGTCGATCGTCA -TCCAGCCTTCAAGGGAGAACTGTGCCGTTTCCAGCGCAATATTGTCCTGCATCCATTTACCGAGCCACGGCTTCAGGTCG -ATGTCATCCGCCTGGAGCCAGACGCGACCATTGCTTAACAACCCCTCATCATCGCGCAAATCCATGCGCACCTGCATCAC -GCCGTGCTGTCCGGTAAGGCTGGAGAGGCTTACCAGGCCTTCCGCACGGTGTCGACGTGGATCGTTCAGCCAGGTGAGTT -GTGGGATCGCCAGCTCGGCGCGCTGACCGGATGGCGTCAGGAAACTGACTTCACTGTCGCGAAGATCGAAATGGTCAAAT -TGACGAAGAAACAGATCGCTGATGTGACTGGCTTCCAGACTGTCATCACTACCACCGCTGGTGATAGGAGTGTTGGTGCG -AAAGCGCAGCTGCCAGAAAGTGAGGTCGCGAAACTGCCAGCGCATATGTAACAGGCTCTGCCAGACATCCAGCGCCAGAG -TAACGCGTTTAACCGAAAATTCGCCGCCATCTTTTAGTTCTGCACGGATGTCGTGTGCTTCAAGCGTCGGGCCAAAATTC -TGCCAGCTGGCTGAGAGCTGACTGGCTTCTACCGGCATGCCAGTCGCGGATTCTATTTTGTTGAGGATTTCCGGACGCCA -GGCGTCAAGATGCGGTAAAGCAATACGCAGGCCGCTAACCAGCAGGGCAGCGATCACAACGAGCGCGGCTCCAGTAAGCA -GTAAAATCCCCGGCAATCGCCTCACCCGTCACTCCTTGTCTGCTAAAAATGTGACTCAAAAACCCTTTGCCGGATGGCGG -CCCAGCATCTGTTTACATCATTACGACGTCAAACTGCTCCTGGTTATAGAGCGGTTCAATTTGTACTTTAACCTGTTTGC -CAACGAAAATTTCCACTTCCGCCAGCGAGTGTGACTCTTCGCCTTTCAAGGCTTCAGCTACTGCCGGAGAAGCATAGACC -AGGAAACGGTCGGAGTCGTAAGCATGGTGGACACGAACAATCTCGCGCATGATTTCATAGCATACCGTTTCCACGGTTTT -CACCGTTCCGCGACCGTGGCAGGTTGGGCATTCGTTACACAGTACGTGCTCAATGCTTTCGCGGGTGCGTTTACGCGTCA -TCTCCACCAGCCCCAGCGCCGAAAAACCATTAACGCTGGTTTTCACCCGGTCTTTGCTCAACGCCTGCTCCAGCGAGTGC -AGCACTCGGCGGCGGTGATCTTCATTATTCATATCGATGAAATCAATAATGATAATCCCGCCCAGATTACGCAACCGTAA -CTGGCGAGCGATAGCCTGCGTCGCTTCAATATTGGTATTGAAAATGGTGTCGTCCAGATTGCGATGACCGACAAACGCTC -CGGTATTGATGTCCACGGTGGTCATCGCTTCGGTCTGGTCGATAATGAGATAACCACCGGATTTCAGTTCTACTTTGCGT -TCCAGCGCTCGCTGGATTTCGTTTTCGACATCAAAGAGATCGAAAATCGGCTGGCGTCCTGTGTAATGCTCCAGCTTGCT -TGTCATCTCGGGAATGTACTCCGAGGTGAACTCAAGTAACGCTTCGTAAGTCAGGCGTGAGTCAACGCGAATGCGGTCCA -GTTCGGCATCGGCGAAATCACGCAGAACACGCTGCGCCAGCGCCAGTTCGCCGTACAGCTGATAACGGGTCTGCGGGCGT -TTTTTACGCTCCATAACTTTGGTCCAGACGCGTTTCAGATAAGCGGCATCGGAGGCCAGTTCAGCCTCGCCAACCCCTTC -CGCTGCGGTACGGATGATAAACCCGCCCTGCTCGTCGCAATACTCTGCGACCACTTTTTTCAGGCGTTCACGTTCTGATT -CGCTTTCAATACGTTGGGAAACCCCAACGTGAGAAGCCCCTGGCATAAACACCAGATAGCGAGAAGGGAGCGTGATATCG -GTGGTCAGGCGCGCACCTTTAGTGCCAAGCGGATCTTTCACCACCTGCACCATCAGATCTTGCCCCTGACGAACCAGTTC -CGAGATGTCGCGCACCGTGAATTGCTTTTGTTCTTCACCCGCCACACATTCGGTGTGCGGCATGATGTCGGATGCATGAA -GAAACGCGGCTTTATCCAGCCCAATATCTACAAAAGCCGCCTGCATACCCGGAAGTACACGACTTACACGACCCTTGTAG -ATATTGCCTACTATTCCGCGTCGCGCCTCACGTTCAATATGAATTTCCTGCAGAATACCGCCATCAATATACGCCACTCG -CGTTTCCGAAGGCGTTACGTTTACTAACAATTCAGCCGTCATGTTTATCCCTTTTCTCACGCAGTGCGTTAAAATTACTT -AATAATTCATACGTTTCAACCAGCGGTAAGCCGACTACGGCGTGATAGCTGCCATTTATCTTCCTGACAAAACAGCCACC -CAGCCCCTGAATACCGTATGCACCTGCTTTATCTAACGGTTCATCGCTGGCGACATAGCCCGCGATGTCTTCGTCTGTTA -ACGTTCTGAAAGTCACATCGGTGACCACCAGGCAATCGAGAATGTGCTGGCTGTCGGCCAACGCCACTGCTGTCATCACC -TGATGGGTCTGACCCGATAATTTGCGCAACATCTGCGCCGCATGCTCTGCGTCGCGCGGTTTCTCCAGCACTTCTCCGTT -CAGGATAACGATAGTATCCGCACCCAGCACCGGGAGATCCTTCGCCGTTTGCGCGACACCTGCCCGTGCTTTCTCGCGCG -CCAGACGCACAACATACTGCTGCGCGCTCTCCTGCGGCTGACGCTGCTCCTCAATGCCCGTAACAATACGTTCAAAGGTC -ACGCCAAGTTGCGCAAGTAACTCCTGACGACGCGGAGAACCGGAAGCTAAATACAGAGAAGTCATAGAAACCTTTATTGC -ACTGCAAACTGCTGACGGACTTTGCGCATCAGCAAGAAAATCCACGGCCAGAGCACCCCATTGACTACACTACTCCAGAA -CACTTCCGGTCTGAAAGAGACGTTAATCACTAAAAACTCTGCCCAGAAAACAATAATATCCACCACCAGCGAAAGCAACA -TGACGACCAGCGCCTGCTGCCATAATGCGAGGTTGCGGAAAAGCTGGTATTTCAGCGCCACCAGGTAAGCAATGATGCTC -ATCGCCAATACGCGTACGCCAAGCGTCGAGCCGCTGATCAGATCCAGTATGGCACCCATCACAAAACCTGTGCCCACATT -TACGCGATGAGGCAAGGCCAGGATCCAATACAACAAGATGAGTAACACCCAGTTTGGCCGGAAAACAATCAGGTTATCCG -GCCAGGGCATGATTTGCAGCAACAGCGCAATGAGGAAAGAGAGCCAGATTACCCAGCGTCCCTGGCTACGATAGCTCGCC -ACTATTGCCCTCCCGGCGCACGCGCAGGCGGTTGAGCACCACTTTGCGGCGGCGTAGCCCTTTGTGGAGAGCGATTAGCA -GCAGGCTGTGTCGGCGCAGCAGGCGCAGTAGCTGCATTTCCTGTCGCCGGTTGCTGCGGAGTCGGCTGAGCGATCCCCGT -TGCCGGTTCAGGTAACTTTGGCCCCATCGCGTCTGGCGAAGGCAATACCTGCGGCATCATCTGCATCAGACGTTCATTAG -CAACACGATGCACCTCTTCCGGCGTCATCGGGTTAGCGCCGTTACGATCTGCCCCCCACAGCAGCAGCAGATAACGCAAA -CGTTGCAGCCCTGCAGTCGGACGCGCCTGAATCACAGTATAAGCGCGCTGGGTATCGAGTTTTACGGAAGAGACAACCGC -GACCGGATAGCCTTCCGGGAAACGACCGCCCAGACCGGAAGTCACCAGCACATCACCAACACGAATATCCGTATTCGCCG -GCAGATGCTCAAGCTGCAAATCATCCGTACAACCGTTACCGGCTGCAATTACGCGGATATCGTTGCGCAGCACCTGGATT -GGCAGCGCGTGGGTCGCATCACAAATCAGCAGCACGCGACTGGTCAGTTTAGCGACGGCCACCACCTGACCAACAACACC -TTTGTCGCTGATGACCGGCTGGCCTTCATAAACGCCATTAACGCTACCTTTATCGATAACAACTTGATCGCTATAAGGAT -CGTTAACCGTGGAGATAACCTGAGTCACCATTTTCTGCTCATCCTGACGCAGCGGGGAACCCAGCAGCTCGCGCAGACGC -GCGTTCTCCTGTTTGTATTGTCCAAGCATCAGCAGTTCACTGTTTTTCAGCAACAGTTCCTGACGTAACGCCCGGTTTTC -AAGTTCTAATTGGTCACGCGAGGCCAGCGTCTGCGATACGCCATCCAGCAATTCACGAGGAGCATTGGAAACAAAGTAGA -AAGGACTGACGGCGGTATCCATATAAGTACGGATTTGACTGAACGTCCCCAGGCGGCTGTCGGCAATAATAATGCCGAGC -GCCACCAGCACCGCCTGAATAAGGCGAATCTGTAGCGACGGGCCACGGCTAAAAATTGGCTTCATAAGTTATGCGTATTC -TCGTATCAGACCAGGCAGGGTAAACAGACACTTCCCCTGCCTGCATCCGATTACTCTTCGCTGAACAGGTCGCCGCCGTG -CATGTCGATCATTTCCAGCGCTTTGCCGCCACCGCGCGCCACACAGGTCAGCGGGTCTTCAGCAACAACGACTGGAATGC -CGGTTTCTTCCATTAACAAACGGTCAAGGTTACGCAGCAGTGCGCCACCACCGGTGAGCACCATGCCGCGCTCGGAGATG -TCGGAAGCCAGTTCCGGCGGGCACTGTTCCAGTGCAACCATTACCGCGCTCACAATACCGGTCAGCGGTTCCTGCAGTGC -TTCGAGGATTTCATTGGAGTTCAGGGTAAAACCGCGTGGAACACCTTCTGCCAGGTTACGGCCACGAACTTCGATTTCAC -GGACTTCATCGCCCGGATAAGCCGAACCGATTTCGTGCTTGATACGTTCTGCGGTGGCTTCACCGATCAGAGAACCGTAA -TTACGACGCACATAGTTGATGATAGCTTCGTCGAAACGGTCACCACCAATGCGCACAGAAGAGGAGTAAACCACACCGTT -CAAGGAGATAACAGCAACTTCAGTGGTACCACCACCGATATCAACCACCATAGAACCGGTCGCTTCAGAAACCGGCAGGC -CAGCACCAATTGCGGCAGCCATCGGTTCTTCAATCAGGAAGACTTCACGGGCACCAGCGCCCTGCGCGGATTCACGAATT -GCGCGGCGTTCAACCTGGGTCGCGCCAACCGGCACACAAACCAGAACGCGCGGGCTTGGACGCATAAAGCTGTTGCTGTG -CACTTGTTTGATGAAGTGCTGGAGCATTTTTTCAGTCACGAAGAAGTCGGCGATAACGCCGTCTTTCATTGGGCGAATGG -CAGCAATATTGCCCGGCGTACGGCCCAGCATCTGCTTCGCGTCATGACCTACTGCAGCTACGCTTTTCGGTGAACCGGCA -CGATCCTGACGAATGGCCACCACGGAAGGCTCATTCAATACGATGCCTTGTCCTTTTACATAAATGAGGGTATTCGCAGT -ACCCAGGTCAATGGACAAGTCATTGGAAAACATGCCACGAAATTTTTTCAACATACTAAGGGATAATCCTGAAAGCTGGG -GCGGAAAAGAAAATCCGCTTACTTTACCAACCACACGCAGCAGCGACAAGGCGCAAAAATCATCTGCTACGGTGAAAATT -AGTGCAGTTCGTTTCCTTTGTTACAAATCTCTGCCTGAGTCCAGAAAGGCTTAATGCATCAGCAGCATTCCTCGCCTGTT -TGCAACCGCGTAAGGTCATTCATCTGCATATGTGCTGCAACAATCTGGCGAGCAGACAAGCACACTCCCATGAGACGCAG -CGCGCATTATTCTACGTGAAAACGGATTAAACGGCAGGTTAAACCGAGTATCTTTGTGAATATTTTTTCACGTTAGTATC -AAGTGGCTGTGAGGACGCGAAAAAATCCCCTTGCCCGCCTGTAACACCGCGCTGAATCAGGGTCTGCCACTCGCTTCGCG -AACGCACGCCGGTGGCGTAAACCTGGGTGCTGGTCCCGGAGCAGGCTTCCACCAGGCTTTGAACCAGCAGCTGGTTCTCC -GTTCGCTTCTCAATGTTTCTGACCAGCCCCGGATGGAGCTTGAGTAACTCAACATTAAGTTCTTTGATCCAACTGGTACT -TACCAGCGTCAAACCAGCCTGGTTGACGGCTACCCGTACCCCTAAAGCATTCACTAAACGAATAACAGGTTGTAAACGAC -TGATATGTTGACCTACATCGGCCTCTGCAAGTTCAATAATTATGCGTTTTCGTTGTGATTTTTCACATTGCATTAACGTA -TCGCGCAGCCAACGCTGAAAACGCGGGCGAATCAGCGACTCAACGGTAACCTGAATCGCCAGATTTTCCTCTGGCCAGTA -ACGCAATAGTGGAATAAGACGGCTGATTTGCAGACGGTCATACTCTTCCGATAAGCCAAACTGCAAGACCATCGGCATAT -ACTCCGCCGAGCTAACCTCTTCATTACCATCGAAGATGCGGCACATGAGTTCGCGATGATGAACCTGACCTTCGCGAGTA -ACCGCCGGTTTTTGATAAAGGCGCGGGCCGCCGCGACTGAGCATTTGCTCGATAAGCGTACGCCAGCGAACATTACCGCG -TCCTTTTTCAGGCAACGAGTCATCGTAAATAGCCCAGCTATTGCCGCCCTGCAATCCCGCATTACGCGTGGCAGACTCTG -CATGTTCCATTACCTGCTCGGTATCCTGACCACTACGCCAGGCGCAGATACCAATGTGGATCATATCGTCGCGATCGAGC -ATTTTATTGTTCGGCAAGGTATCAACGGCTTTGATTAACTGACCGGCGATGCTCTCTGCCTCTTTTAACGTCCGGTGCGG -TAACAGCGCAGCAAAATCACTGCGGTGGTAACGCGCCAGCAGTGCGCCAGGGTAGCGCATCATAAATGTCGACAGCAGAT -TCGTCAGAGTGAAGAACTGTTCTTCAACCTGGCTGTGCCCCCAGGTATCGCTCAACATATTGAAATCCGGCAGACGAATC -ATCATCACGATCCCGTGGGTACCTACTTTCTCCTGATCTTCCAGTAACGTTGCTAACTGATTATCGAAAAAGAGTCGGTT -ATTGAGGCCGGTTTTCACGTCCTGGGCGGCATAAGAGCGGATCAGCGTATCAAGACGGCTGTGTTGTTCGCGTGCGTTCT -GAATTTCACGAAGCAGCGTATCCAGCGCACTGCTGGTTCTGGGCGGCCATTCATAGATGGTTCCCAACACATTAGAGCCA -CGCTCACCGTTTAAGATACGAGTAGCCCGGGTTTCCAGCAATTCTTGCCCGGCAAGTTGCCGTTGTAACCAGCGTACCGC -CAGGAAGAGCATAACAATGATAAAGCCAATCGCCCCCGTGAGCGGCGCGGTGGTCATCAACGAATGGAAATAGTTGCCCA -TCGGATCCTGATAAACCAGACGCAACGACATCCCCGGATGCTTTATCAACGGAACGCTCAGTTCGCGAAACAGATCGCTG -GAGCCAACTGGACGATAACTACCATTTCTGGCCAGGGTATAAACCTGTTTATCACCATGGAGCAGGTCTACACGAACGAT -ATCTGCCGACATCATTAATTCGGTAATTTGTGGCCTTAATACGCTGAAGTCATTCGACACAAGGTGGGTATCAATCGCCG -TCGCCACCGCCTGAACGCGATGACTAAACTTATACTGAATGGCGTTGTAGAAACTTAGCGAACAGCCCAGCAAAGTCACA -AAAATTGTTAACCCGGTGAGCAGCGTAACAAAGGCCGAAAATTTCGTCGTTAATCTCATCCTTGTGTTAACTCCGATAGT -GAGGAAGCGGGCATACTAGCAAATCAGATTTATCTCGCAATTTATTGCGCTTCATCGGCTTTGCTTTTCCATTAGCGAGT -ATAGTCTTCAGAAATTATTTTCCAATCCATCATGCACATGAGGACCACTTATGCAGGCGTTACTTTTAGAACAGCAGGAC -GGCAAAACTCTCGCATCAGTACAGACTCTGGACGAAAGTCGCCTGCCGGAGGGCGATGTCACGGTCGATGTTCACTGGTC -GAGCCTGAACTATAAAGATGCGCTGGCGATTACCGGTAAGGGAAAAATCATCCGTAATTTTCCGATGATTCCTGGGATCG -ATTTTGCCGGAACTGTACGCACCAGCGAAGATCCGCGTTTTCATGCCGGTCAGGAGGTGTTACTCACTGGCTGGGGCGTT -GGTGAAAACCACTGGGGTGGGCTGGCGGAGCAGGCGCGAGTGAAAGGTGACTGGCTGGTTGCCATGCCGCAAGGGCTGGA -CGCGCGTAAAGCAATGATTATCGGTACTGCCGGTTTTACCGCCATGCTGTGTGTGATGGCGCTGGAAGATGCCGGTGTTC -GCCCGCAGGACGGGGAGATTGTCGTGACGGGTGCCAGTGGTGGCGTCGGCAGTACCGCCGTGGCGCTGCTGCATAAGTTG -GGTTATCAGGTCGTTGCCGTTTCCGGTCGCGAAAGTACCCATGAATATCTGAAAAGTTTAGGTGCTAGCCGTGTTCTCCC -TCGTGATGAGTTTGCCGAATCCCGTCCTCTGGAAAAACAAGTCTGGGCTGGGGCAATTGACACCGTTGGCGACAAAGTGC -TGGCAAAAGTGCTGGCGCAAATGAATTACGGCGGCTGCGTGGCGGCCTGTGGTCTGGCGGGTGGTTTTACTCTGCCAACC -ACGGTCATGCCATTTATTCTGCGTAATGTCCGTTTGCAAGGGGTGGATTCAGTAATGACGCCACCAGAACGCCGCGCACA -AGCCTGGCAGCGACTGGTCGCCGATTTACCGGAATCATTCTATACCCAGGCGGCAAAAGAGATATCTCTGTCAGAGGCAC -CGAACTTTGCCGAGGCCATCATTAATAACCAGATCCAGGGTCGCACGCTGGTGAAGGTTAACTAACCATTTAGCAGGGAA -TAATAAGAGAGGGAACTCATTTTGAAATCATTATTCAATCGGTTAACGGGAAAAGCGGTTAGCCGGACAGCTTTCGTCGA -ACACCTTGGTCAGGAAGTTATACAACATCATCCAAACTGGAAAGTCATGATTTCGACTGACCACAAATTGATGCGCATTG -ATACTCCACTAAACAGCTATTATTGATACGCCTCCGTCGCCTGTTAGGTTTATGTTGCTTTGCCTGGGCGACGCTACGCT -TAGCCCCTTACTTATTTCTGGTACCATGGGGTGAATAATCTGATTTTGTTTGACTACAAATTAATCACTCGAACCTATTT -AATGCTGAGCATTGTCAATCGGTTAATTTTGCGTGCTTTAGCATTCACATCTATCCAGACGATGCAGTGAAAATTGGGTA -ATCCCCAGCAACCGCTGCGTAATGTCGTCTATCTTGTCGCGATCCTGGCATCCCTACATTATTTGTGGTCTGTGAAGATT -ATCTCATTGCAGCCCCTCATCTTCGCAGGGCTGGCTTTTCAGCTTTTCACCTTACGTTATAAGAAGTTCCGTCGATGATG -GCGCTAATTTCGTGAATTGTGCGGCTTGTTGCAAATTACACGGTGTTGAAGGTTATTTACATGTTAGCTGTTGATTATCT -TCCCTGATAAGACCAGTATTTAGCTGCCAATTGCTACGAAATCGTTATAATGTGCGACCTCGTCCTCCCTGACGCAGTTT -TTGCGCTGCGGAAAAGGTGACATTGGCGCAACGAAGGTATATTTTGTTTTTTGCCGGAGGATAGCAGCAGATCGCTGCAC -AATGTCCGTCAAGTCTAACATTGACACTCTGGGGCAAAATAGACCGGCGTCCCGGCCTGCTGGAATTTATCGCTATGCAT -ACAGCTGTCGGGGCATACGCTTTACAGACGGCGGTGAAACGCCTGTCACAATCACACTAAACAAAGAGTACGGAACCCAC -TCATGGATATTCGTAAGATTAAAAAACTGATCGAGCTGGTTGAAGAATCAGGCATCTCCGAACTGGAAATTTCTGAAGGC -GAAGAGTCAGTACGCATTAGCCGTGCAGCTCCTGCCGCAAGTTTCCCTGTGATGCAACAAGCTTACGCTGCACCAATGAT -GCAGCAGCCAGCTCAATCTAACGCAGCCGCTCCGGCGACCGTTCCTTCCATGGAAGCGCCAGCAGCAGCGGAAATCAGTG -GTCACATCGTACGTTCCCCGATGGTTGGTACTTTCTACCGCACCCCAAGCCCGGACGCAAAAGCGTTCATCGAAGTGGGT -CAGAAAGTCAACGTGGGCGATACCCTGTGCATCGTTGAAGCCATGAAAATGATGAACCAGATCGAAGCGGACAAATCCGG -TACCGTGAAAGCAATTCTGGTCGAAAGTGGACAACCGGTAGAATTTGACGAGCCGCTGGTCGTCATCGAGTAACGAGGCG -AACATGCTGGATAAAATTGTTATTGCCAACCGCGGCGAGATTGCATTGCGTATTCTTCGTGCCTGTAAAGAACTGGGCAT -CAAGACTGTCGCTGTGCACTCCAGCGCGGATCGCGATCTAAAACACGTATTACTGGCAGATGAAACGGTCTGTATTGGCC -CTGCTCCGTCAGTAAAAAGTTATCTGAACATCCCGGCAATCATCAGCGCCGCTGAAATCACCGGCGCAGTAGCAATCCAT -CCGGGTTACGGCTTCCTCTCCGAGAACGCCAACTTTGCCGAGCAGGTTGAACGCTCCGGCTTTATCTTCATTGGCCCGAA -AGCAGAAACCATTCGCCTGATGGGCGACAAAGTATCCGCAATCGCGGCGATGAAAAAAGCGGGCGTCCCTTGCGTACCGG -GTTCTGACGGCCCGCTGGGCGACGATATGGATAAAAACCGTGCCATTGCTAAACGCATTGGTTATCCGGTGATTATCAAA -GCCTCCGGCGGCGGCGGCGGTCGCGGTATGCGCGTAGTGCGCGGCGACGCTGAACTGGCACAATCCATCTCCATGACCCG -TGCGGAAGCGAAAGCTGCTTTCAGCAACGATATGGTTTACATGGAGAAATACCTGGAAAATCCTCGCCACGTCGAGATTC -AGGTACTGGCTGACGGTCAGGGCAACGCTATCTATCTGGCGGAACGTGACTGCTCCATGCAACGCCGCCACCAGAAAGTG -GTCGAAGAAGCGCCAGCACCGGGCATTACCCCGGAACTGCGTCGCTACATCGGCGAACGTTGCGCTAAAGCGTGTGTTGA -TATCGGCTATCGCGGTGCAGGTACTTTCGAGTTCCTGTTCGAAAACGGCGAGTTCTATTTCATCGAAATGAACACCCGTA -TTCAGGTAGAACACCCGGTTACAGAAATGATCACCGGCGTTGACCTGATCAAAGAACAGCTGCGTATCGCTGCCGGTCAA -CCGCTGTCGATCAAGCAAGAAGAAGTTCACGTTCGCGGCCATGCGGTGGAATGTCGTATCAACGCCGAAGATCCGAACAC -CTTCCTGCCAAGTCCGGGCAAAATCACCCGTTTCCACGCACCTGGCGGTTTTGGCGTACGTTGGGAGTCTCATATCTACG -CGGGCTACACCGTACCGCCGTACTATGACTCAATGATCGGTAAGCTGATTTGCTACGGTGAAAACCGTGACGTGGCGATT -GCCCGCATGAAGAATGCGCTGCAGGAGCTGATCATCGACGGTATCAAAACCAACGTTGATCTGCAGATCCGCATCATGAA -TGACGAGAACTTCCAGCATGGTGGCACTAACATCCACTATCTGGAGAAAAAACTCGGTCTTCAGGAAAAATAAGACTGCT -AAAGCGTCAAAAGGCCGGATTTTCCGGCCTTTTTTATTACTGGGGATCGACAACCCCCATAAGGTACAATCCCCGCTTTC -TTCACCCATCAGGGACAAAAAATGGACACTCGTTTTGTTCAGGCCCATAAAGAGGCGCGCTGGGCGCTGGGGCTGACCCT -TTTGTATCTGGCAGTTTGGTTAGTAGCCGCTTACTTATCTGGCGTTGCCCCCGGTTTTACCGGCTTTCCGCGCTGGTTTG -AGATGGCCTGCATCCTGACGCCGCTGCTGTTTATTGGACTGTGCTGGGCGATGGTGAAATTTATCTATCGCGATATCCCA -CTGGAGGATGACGATGCAGCTTGAAGTAATTCTACCGCTGGTCGCCTATCTGGTGGTGGTGTTCGGTATCTCGGTTTATG -CGATGCGTAAACGGAGCACCGGCACCTTCCTTAATGAGTATTTCCTCGGCAGCCGCTCTATGGGCGGTATTGTGCTGGCG -ATGACGCTCACCGCGACCTATATCAGTGCCAGTTCGTTTATCGGCGGGCCAGGAGCTGCTTATAAATACGGGCTGGGCTG -GGTATTGCTGGCGATGATTCAGCTTCCTGCAGTCTGGCTTTCACTCGGTATTCTCGGCAAGAAGTTTGCGATTCTTGCGC -GCCGCTACAATGCAGTGACGCTGAACGATATGCTGTTTGCCCGCTACCAGAGTCGTCTTCTGGTGTGGCTGGCGAGTTTG -AGTTTGCTGGTTGCGTTCGTTGGTGCGATGACCGTGCAGTTTATCGGCGGTGCGCGCCTGCTGGAAACCGCGGCGGGTAT -TCCTTATGAAACCGGGCTGCTGATTTTTGGTATCAGCATTGCGTTATATACCGCCTTTGGTGGCTTTCGCGCCAGCGTGC -TGAACGACACCATGCAAGGGCTTGTGATGCTGATTGGCACCGTTGTGCTGCTTATTGGCGTAGTACATGCCGCTGGCGGC -TTAAGTAACGCAGTACAGACCTTGCAAACCATCGATCCGCAACTGGTTACGCCACAAGGCGCTGACGATATTCTGTCGCC -TGCCTTTATGACGTCGTTCTGGGTACTGGTGTGTTTTGGCGTGATTGGCCTGCCGCATACTGCGGTGCGCTGTATCTCTT -ATAAAGACAGCAAAGCCGTACATCGGGGGATCATCATCGGTACGATTGTGGTCGCAATTCTGATGTTCGGTATGCACCTG -GCCGGAGCGTTAGGTCGGGCGGTGATCCCCGATCTCACCGTACCGGACCTGGTGATCCCAACGTTAATGGTAAAAGTGCT -GCCACCGTTTGCTGCCGGGATCTTCCTGGCTGCACCGATGGCTGCGATCATGTCGACAATTAACGCCCAACTGCTGCAAA -GTTCCGCTACGATCATTAAAGATCTCTATCTGAATATCCGTCCGGATCAAATGCAAAACGAGACGCGTCTGAAGCGGATG -TCGGCGGTAATTACGTTAGTTCTCGGCGCGTTGCTGCTGCTTGCCGCCTGGAAGCCGCCAGAAATGATCATCTGGCTGAA -TTTGTTGGCCTTCGGTGGGCTGGAAGCCGTTTTCCTGTGGCCGCTGGTGCTGGGTCTTTACTGGGAACGCGCCAACGCCA -AAGGCGCGCTAAGTGCGATGATCGTTGGCGGCGTGCTGTATGCCGTACTCGCGACGCTGAATATTCAGTACCTGGGCTTC -CACCCTATCGTGCCCTCGTTACTACTAAGTTTGCTGGCTTTCCTGGTCGGAAACCGTTTCGGTACATCCGTCCCGCAAGC -TACCGTTTTGACTACTGATAAATAAAGAGTTTTGCCATGCCTTGGATCCAACTGAAACTGAACACCACCGGCGCGAACGC -GGAAGATCTTAGCGATGCGCTGATGGAAGCGGGTGCCGTTTCTATCACTTTTCAGGATACCCACGATACGCCAGTATTTG -AACCGCTGCCGGGCGAAACGCGCCTGTGGGGCGACACCGATGTGATTGGTCTGTTCGACGCTGAAACCGATATGAACGAC -GTGGTGGCGATTCTGGAAAACCATCCGCTGCTCGGCGCAGGCTTCGCGCATAAAATCGAACAACTAGAAGATAAAGACTG -GGAGCGCGAATGGATGGATAATTTCCACCCGATGCGCTTTGGTGAACGACTGTGGATCTGCCCTAGCTGGCGTGATGTGC -CGGACGAAAACGCCGTCAACGTGATGTTAGATCCAGGGCTGGCGTTTGGTACGGGTACCCATCCAACCACCTCTCTGTGC -CTGCAATGGCTCGACAGCCTCGATTTAACCGGTAAAACAGTCATCGACTTTGGCTGTGGTTCCGGCATTCTGGCGATCGC -GGCGCTGAAACTGGGTGCAGCAAAAGCCATTGGTATTGATATCGATCCGCAGGCGATTCAGGCCAGCCGCGATAACGCCG -AACGTAATGGCGTTTCTGACCGTCTGGAACTCTACTTACCGAAAGATCAGCCAGAAGAAATGAAAGCCGACGTGGTGGTC -GCTAACATCCTTGCAGGCCCATTACGTGAACTGGCACCGTTAATCAGCGTCCTGCCGGTTTCAGGCGGTTTGCTGGGCCT -TTCCGGTATTCTGGCAAGCCAGGCAGAGAGCGTTTGTGAAGCTTATGCCGATAGCTTCGCACTGGACCCGGTCGTGGAAA -AAGAAGAGTGGTGCCGTATTACCGGTCGTAAGAATTAACCTTCGCATCGCCGTAGGGTGACGCGGGGCGAAGTGCGAGCA -AGCTCACAAAAGGCACGTAAATTTGCCGATTATTTACGCAAATTTGCGTGCCAAAATTTTCATTCATAAAGAAAAATTGA -GAACTTACTCAAATTTCTTTGAGTGTAAATTTTAGTCACTATTTTCTAATATGATGATTTTTATGAGTAATTATCGCACC -ACGCTCATTTTAAATGCAATTCTTTGATCCATCTCAGAGGATTGGTCAAAGTTTGGCCTTTCATCTCGTGCAAAAAATGC -GTAATATACGCCGCCTTGCAGTCACAGTATGGTCATTTCTTAACTCATGCGCATCGGACAATATCAGCTCAGAAATCGCC -TGATCGCAGCGCCCATGGCTGGCATTACAGACAGACCTTTTCGGACGTTGTGCTACGAGATGGGAGCCGGATTGACAGTA -TCCGAGATGATGTCTTCTAACCCACAGGTTTGGGAAAGCGACAAATCTCGTTTACGGATGGTGCACATTGATGAACCCGG -TATTCGCACCGTGCAAATTGCTGGTAGCGATCCGAAAGAAATGGCAGATGCAGCACGTATTAACGTGGAAAGCGGTGCCC -AGATTATTGATATCAATATGGGTTGCCCGGCTAAAAAAGTGAATCGCAAGCTCGCAGGTTCAGCCCTCTTGCAGTACCCG -GATGTCGTTAAATCGATCCTTACCGAGGTCGTCAATGCAGTGGACGTTCCTGTTACCCTGAAGATTCGCACCGGCTGGGC -ACCGGAACACCGTAACTGCGAAGAGATTGCCCAACTGGCTGAAGACTGTGGCATTCAGGCTCTGACCATTCATGGCCGTA -CACGCGCCTGTTTGTTCAATGGAGAAGCTGAGTACGACAGTATTCGGGCAGTTAAGCAGAAAGTTTCCATTCCGGTTATC -GCGAATGGCGACATTACTGACCCGCTTAAAGCCAGAGCTGTGCTCGACTATACAGGGGCGGATGCCCTGATGATAGGCCG -CGCAGCTCAGGGAAGACCCTGGATCTTTCGGGAAATCCAGCATTATCTGGACACTGGGGAGTTGCTGCCCCCGCTGCCTT -TGGCAGAGGTTAAGCGCTTGCTTTGCGCGCACGTTCGGGAACTGCATGACTTTTATGGTCCGGCAAAAGGGTACCGAATT -GCACGTAAACACGTTTCCTGGTATCTCCAGGAACACGCTCCAAATGACCAGTTTCGGCGCACATTCAACGCCATTGAGGA -TGCCAGCGAACAGCTGGAGGCGTTGGAGGCATACTTCGAAAATTTTGCGTAAACAGAAATAAAGAGCTGACAGAACTATG -TTCGAACAACGCGTAAATTCTGACGTACTGACCGTTTCTACCGTTAACTCTCAGGATCAGGTAACCCAAAAACCCCTGCG -TGACTCGGTTAAACAGGCACTGAAGAACTATTTTGCTCAACTGAATGGTCAGGATGTGAATGACCTCTATGAGCTGGTAC -TGGCTGAAGTAGAACAGCCCCTGTTGGACATGGTGATGCAATACACCCGTGGTAACCAGACCCGTGCTGCGCTGATGATG -GGCATCAACCGTGGTACGCTGCGTAAAAAATTGAAAAAATACGGCATGAACTAATTCAGGTTAGCTAAATGCTTGATTAA -AAAGGCGCTACTCGGCATGGGGAAGCGCCTTTTTTATAGGTGTCACAAAGGGAGTGACCATGAGAACAGGATGTGAACCG -ACCCGGTTTGGTAATGAAGCTAAGACCATTATTCACGGTGATGCGCTTGCCGAACTTAAAAAGATCCCCGCCGAAAGTGT -CGATCTGATCTTTGCCGACCCACCATATAACATCGGTAAAAATTTTGATGGTCTGATCGAAGCCTGGAAAGAAGATCTGT -TTATCGACTGGCTGTTTGAAGTGATTGCAGAGTGCCACCGCGTTCTGAAAAAGCAGGGCAGCATGTACATCATGAACAGT -ACGGAAAACATGCCCTTTATCGATCTCCAGTGCCGCAAGCTTTTTACCATCAAAAGTCGCATCGTCTGGTCATATGACAG -TTCTGGAGTGCAGGCGAAAAAACACTACGGCTCCATGTACGAACCCATCCTGATGATGGTGAAAGACGCAAAGAACTACA -CATTCAACGGTGATGCTATTCTGGTAGAAGCCAAAACCGGATCGCAGCGCGCGTTGATCGATTATCGCAAAAATCCTCCA -CAGCCTTACAATCATCAAAAAGTACCGGGTAACGTTTGGGATTTTCCGCGCGTGCGTTATTTGATGGATGAATATGAAAA -CCACCCGACGCAAAAACCGGAAGCCTTACTGAAACGCATTATTCTCGCCTCTTCCAACCCAGGCGATATCGTTCTCGACC -CGTTTGCTGGTAGCTTTACTACCGGTGCCGTAGCCATCGCCAGCGGACGAAAATTCATTGGTATTGAGATCAACAGCGAG -TACATCAAAATGGGGCTTCGACGGCTGGATGTCGCGTCGCATTACTCTGCGGAAGAACTGGCGAAAGTGAAAAAAAGAAA -GACCGGCAACCTGTCAAAACGAAGCCGGTTAAGCGAAGTTGACCCCGATCTCATTACAAAGTAAAGGATGTGTAAGCCTG -GTTTTCAGATTATTCATTTCGTGTATATTTCCTGCCAGACTTGGTTAAACATGCACAGGCTCAGGTAATGATTCGCAAGT -ATTGGTGGCTCGTCGTTTTCGCTGTCTTCGTTTTTCTGTTTGATACTTTACTGATGCAGTGGATTGAACTGCTGGCAACA -GAAACAGACAAATGCCGCAATATGAACTCAGTTAATCCACTAAAACTGGTTAACTGTGACGAACTGAATTTTCAGGACAG -AATGTGAATTTACATGACACTTAATTCATTCGTTTGATGAATTAATTTCGTTATGTTTTCATCTGGCATGAACATTCTTA -ATACGTTATCGACCAGAGCGGGGGCTTGTTTATAAAGATCATAACCCGCCATATTCATTAACCAGTTTTGAACAATTCCG -CTGAAGGCACCATCAATAATAATCATCACAACATCTAAATCGAGGTTATTTGCTACACAACCTTGTTGCTGACACGCCTG -CAATACTTCGCGGAGAGTCTGCGGATTAAAGCCCATCTTTTCGCGTATCACTCCCTCGGCCAGCATCTCATCATTAAATT -CACATTTGTGATATAAGATTTTCAGCAACGCCTGCTGGCGGGGAATTTTGGCAATATATTGCAAGCCGACAATCAATTTT -TCACGCAATTGTTGAAACGGGTCATGCTCTAATCCAGCCGTCAAGTGTTCCTGGATTAACTCCCGCAATGAAGGCTGTTG -CAACCACATCTCATTAAACAGTTGAGTCTTGTTTTCGAAGTGCCAGTAGATAGCGCCACGCGTAACGTTAGCGGCGTCGG -CAATGTCGTTGAGCGTCGTCTTGCTTACGCCATGCTGCGCAAACTGGGCGATGGCAGTTTCAATCAGTTCTTGCCGGGTC -TTCAGAGCTTCGGCTTTGGTTCTTTTTGCCATGATTAATTATTCAGGAAATAAATATATTCGACACAGAGTGAGAAAATA -GCGAAGGTTAATCTATCACCTAATGTGTATTTATACGAGAGGCTAATATTGAGTTGCTATAAATCGTTAAATAAATAATA -TATATTATTTACCTAAGATACATTCACTACATCAATATATATTTCAATTTACGAGGTTTTAATTCTGCCTCTTTCAACCC -GCGTCAAAATAAAACAGTAGAATATTAATCTTTTTTTGTGTTTATGTGCCTTGAGATGCCTGTATTCATAACTATTCCTT -ACATCGACGAATGATAATTTGTAGGATAGCGAACTGTATTTTTCTTTCTGCGAGTTAACGCGTTGCCTTTTTGGGTAAAT -AACGCGCTTTTGGTTTTTTGAGGAATAGTAATGACGAAACATGCCAGGTTTTTCCTCCTGCCCTCCTTTATTCTGATCTC -CGCGGCTTTAATCGCCGGTTGTAACGATAAGGGAGAAGAGAAAGCTCACGTCGGTGAACCGCAGGTTACCGTTCATATTG -TAAAAACGGCCCCGTTAGAAGTTAAGACTGAATTACCAGGCCGCACCAATGCTTATCGTATAGCCGAAGTTCGCCCACAG -GTTAGCGGGATCGTACTGAATCGCAATTTCACTGAAGGCAGCGATGTGCAAGCAGGCCAGTCCCTGTACCAGATCGATCC -CGCGACCTATCAGGCAAATTATGACAGCGCGAAAGGCGAACTGGCGAAAAGTGAAGCCGCCGCCGCCATCGCGCATTTGA -CGGTAAAACGTTACGTTCCGCTCGTGGGTACGAAATACATCAGCCAGCAGGAGTACGACCAGGCCATTGCTGATGCTCGT -CAGGCCGATGCCGCCGTGATTGCCGCAAAAGCCACAGTCGAAAGCGCTCGCATCAATCTTGCTTATACCAAAGTCACTGC -GCCAATTAGCGGACGTATCGGCAAATCGACTGTGACCGAAGGCGCTCTTGTCACTAATGGGCAAACGACTGAACTGGCGA -CTGTCCAGCAGCTCGATCCTATCTACGTTGATGTGACCCAATCCAGCAACGATTTTATGAGGCTGAAGCAATCCGTAGAG -CAAGGAAATTTGCATAAGGAAAACGCCACCAGCAACGTAGAGTTGGTCATGGAAAACGGTCAAACCTATCCCCTGAAAGG -TACGCTGCAATTCTCCGATGTGACCGTTGATGAAAGCACCGGCTCCATAACCCTACGTGCTGTCTTCCCTAACCCGCAAC -ATACGCTTTTGCCGGGTATGTTTGTGCGTGCACGGATTGATGAAGGCGTCCAACCTGACGCCATTCTTATCCCGCAACAA -GGCGTTAGCCGCACACCGCGTGGTGATGCAACCGTGCTGATTGTTAACGATAAAAGTCAGGTTGAAGCGCGCCCTGTCGT -TGCCAGTCAGGCGATTGGCGATAAATGGTTGATTAGTGAAGGACTGAAATCTGGCGATCAAGTCATTGTCAGCGGCCTGC -AAAAAGCGCGTCCGGGAGAGCAGGTTAAAGCCACTACCGATACCCCCGCAGATACTGCATCGAAGTAAGGTAATCTGACA -TGGCAAACTTTTTTATTCGACGACCGATATTTGCATGGGTGCTGGCCATTATTCTGATGATGGCGGGCGCACTGGCGATC -CTACAATTGCCCGTCGCTCAGTATCCAACAATTGCACCGCCTGCGGTTTCTGTTTCAGCAAACTATCCGGGCGCTGATGC -GCAGACCGTGCAGGATACGGTGACGCAGGTTATCGAACAGAATATGAACGGTATCGATAACCTGATGTATATGTCCTCCA -CCAGCGATTCCGCCGGTAGCGTGACAATTACCCTTACCTTCCAGTCCGGGACCGATCCTGATATCGCGCAAGTGCAGGTG -CAGAACAAACTCCAGCTCGCCACGCCGTTGCTGCCGCAGGAGGTTCAGCAGCAGGGGATCAGTGTTGAAAAGTCCAGTAG -CAGCTATTTGATGGTGGCGGGCTTTGTCTCTGATAACCCAGGCACCACACAGGACGATATCTCGGACTATGTGGCCTCTA -ACGTTAAAGATACGCTTAGCCGTCTGAATGGCGTCGGTGACGTACAGCTTTTCGGCGCACAGTATGCGATGCGTATCTGG -CTGGATGCCGATCTGCTAAACAAATATAAACTGACACCGGTTGATGTGATTAACCAGTTGAAGGTACAGAACGATCAGAT -CGCTGCCGGACAGTTGGGCGGAACGCCAGCGTTACCAGGGCAACAATTGAACGCCTCGATTATTGCTCAGACGCGGTTTA -AAAATCCGGAAGAATTCGGCAAAGTGACCCTGCGCGTAAACAGTGACGGCTCGGTGGTACGCCTGAAAGATGTCGCACGG -GTTGAACTTGGCGGTGAAAACTATAACGTTATCGCTCGTATCAACGGAAAACCGGCGGCGGGCCTGGGGATTAAGCTGGC -AACCGGCGCGAATGCTCTCGATACCGCGAAAGCCATTAAGGCAAAACTGGCGGAATTACAGCCATTCTTCCCGCAGGGAA -TGAAGGTTCTCTACCCTTATGACACCACGCCATTCGTCCAGCTTTCTATTCACGAAGTGGTAAAAACGCTGTTCGAAGCC -ATTATGCTGGTGTTCCTGGTGATGTATCTGTTCTTGCAGAATATGCGAGCAACGCTGATCCCCACCATTGCGGTACCCGT -GGTGTTGTTAGGGACGTTTGCCATCCTCGCCGCTTTTGGTTACTCCATCAACACACTAACGATGTTCGGGATGGTGCTTG -CCATCGGGCTGCTCGTCGATGATGCGATAGTGGTGGTGGAGAACGTCGAGCGCGTGATGATGGAGGATAAGCTCCCGCCA -AAAGAAGCGACGGAAAAATCGATGTCGCAAATTCAGGGCGCACTGGTGGGTATCGCGATGGTGCTGTCAGCGGTATTTAT -TCCGATGGCATTCTTCGGCGGTTCTACTGGGGCAATTTATCGCCAGTTCTCTATCACCATCGTTTCGGCAATGGCGCTTT -CTGTTCTGGTGGCATTGATTCTTACCCCTGCGTTATGTGCAACGCTGCTTAAACCCGTCTCTGCTGAGCATCACGAAAAT -AAGGGCGGTTTCTTCGGTTGGTTTAATACCACCTTCGATCATAGCGTTAACCACTACACCAACAGCGTCGGCAAAATCCT -CGGATCCACAGGACGATATTTACTGATCTATGCGCTGATTGTTGCAGGAATGGTGGTGTTGTTTTTACGTCTTCCGTCTT -CCTTCTTACCTGAAGAGGATCAGGGTGTCTTTCTGACCATGATTCAGTTACCCGCTGGCGCGACGCAAGAGCGGACGCAA -AAAGTGTTGGATCAAGTTACGGATTACTATCTGAAGAACGAGAAAGCGAACGTTGAAAGTGTCTTTACGGTTAACGGCTT -TAGCTTCAGCGGCCAGGCACAAAACGCCGGTATGGCCTTCGTCAGTCTGAAACCGTGGGAAGAGCGTAATGGTGACGAAA -ACAGTGCGGAAGCGGTAATCCATCGTGCCAAAATGGAATTGGGCAAGATCCGCGACGGTTTTGTCATTCCATTCAATATG -CCAGCCATTGTTGAACTGGGCACGGCAACGGGTTTCGACTTTGAGTTAATTGATCAGGCTGGGCTGGGTCACGATGCCCT -AACCCAGGCCCGTAACCAGTTGCTTGGTATGGCGGCGCAACATCCTGCCAGCTTAGTCAGCGTGCGCCCTAATGGCCTGG -AAGACACCGCGCAGTTTAAACTGGAAGTTGACCAGGAAAAGGCGCAGGCATTAGGTGTTTCACTTTCTGACATCAATCAG -ACCATTTCAACGGCGCTGGGTGGGACTTACGTTAACGACTTCATCGACCGTGGCCGCGTGAAAAAGTTGTATGTTCAGGC -GGATGCCAAATTCCGTATGCTGCCAGAAGATGTCGATAAACTTTATGTCCGCAGCGCCAACGGCGAAATGGTGCCATTCT -CGGCCTTTACCACTTCACATTGGGTGTATGGCTCTCCGCGACTGGAACGCTACAACGGTCTGCCGTCAATGGAGATTCAG -GGGGAAGCCGCGCCAGGAACCAGTTCCGGCGATGCCATGGCGTTGATGGAAAACCTTGCGTCAAAATTACCTGCGGGCAT -TGGTTATGACTGGACGGGTATGTCGTATCAGGAACGCTTATCGGGAAACCAGGCTCCCGCTCTGGTAGCAATTTCCTTTG -TGGTTGTTTTCCTGTGCCTTGCTGCACTCTATGAAAGCTGGTCAATTCCTGTCTCGGTTATGTTGGTAGTGCCGTTAGGG -ATTGTCGGCGTGCTGCTGGCGGCGACACTCTTTAATCAAAAAAATGACGTCTACTTTATGGTGGGCTTGCTAACGACAAT -TGGCTTGTCGGCCAAAAACGCTATTTTGATCGTTGAGTTCGCTAAAGATCTCATGGAGAAAGAGGGTAAAGGTGTTGTTG -AAGCGACACTGATGGCAGTACGTATGCGTCTGCGTCCTATCCTGATGACCTCTCTCGCCTTTATTCTCGGCGTATTACCG -CTAGCTATCAGTAACGGTGCCGGCAGTGGCGCGCAGAACGCTGTGGGTATCGGGGTAATGGGAGGAATGGTCTCTGCAAC -GTTGCTGGCAATCTTCTTCGTACCGGTGTTCTTTGTGGTGATCCGCCGTTGCTTTAAAGGATAAATCAGAAACATAAAGG -CGCTTTCGGGTGCCTTTATTATTTCCAGTGAAACCCATAAAAATTAATAAGATATTCTTCTGCTCACTCTTTAAAAGCTT -TCTATAGTTCCCGCTCCCTTCACTATTTTTACAATTCACATAATTTGTCATTATTCATTCCGCAAGATTTATAACCTCCG -GTGATAAAATGGCATTCAGCTCGTTAATAAGAGAGTTAACTTATTAAGCGTTAGCGTTTATTACTGAGGTAACACCATGA -AAAGATTAATTCCTGTGGCATTGCTCACCGCATTGCTGGCGGGCTGTGCTCACGATTCGCCCTGCGTTCCGGTTTATGAC -GATCAGGGTCGTCTGGTTCACACCAATACCTGTATGAAAGGCACGACTCAGGATAACTGGGAAACGGCTGGGGCTATTGC -CGGCGGGGCAGCTGCTGTTGCTGGCCTGACGATGGGGATCATCGCTCTATCGAAATAACTGAACAGGGCGCGGAGTTCCG -CGCTCTTTTTAACGATACAGTATCTCTCCATAAGATAAAATATTGCTATATTCTGCTGGGTAATTCCCTGCTGATTTAGC -ATGTTACATCGCGTTATTTCGCTGCTTTCGAAATAACGCATCAATTTAATTTTCACACTTCCCACCAGAAATATACTCAC -GCTAACAATCATTATTCTGCTTAGTAAAACACGCGTAAATATTTTGCGCCAAAATGTGGCGCATGTTTCATTTTCGCACC -ATTGCGGGGCGCTGTTTTTATTATTTCCTGTCTACACTCAGCTTATTGCGACGCGAAATCGTGCGCAAAAGCTGGCACTA -CTTTTGCTTATAAGAGGATGGCCACAGACAGGTAAAAGACGTTTCCCAAACGTCCTATAACGATAATTTTCGCCTCACAG -GAAGCATTATGAAAAAGATGATGATAGCCACACTGGCTGCCGCCAGCGTGCTGCTTGCCGTTGCAAATCAGGCGCTGCTG -GCGCGACGCTTGATGCCGTTCAGAAAAAAGGTTTTGTGCAATGCGGGATCAGTGATGGATTACCTGGGTTCTCTTATGCC -GATGCTGACGGTAAGTTTTCAGGTATTGATGTTGATATTTGTCGTGGTGTTGCCGCTGCTGTATTTGGTGACGACACGAA -AGTGAAATATACCCCGCTCACTGCAAAAGAACGCTTCACCGCTTTACAGTCAGGGGAGGTGGATTTGCTCTCCCGTAATA -CGACCTGGACTTCATCTCGCGATGCCGGGATGGGAATGGCATTTACCGGCGTCACTTATTACGACGGCATTGGCTTCCTG -ACGCACGATAAAGCGGGGCTAAAAAGCGCGAAAGAACTGGATGGCGCTACCGTCTGTATTCAGGCGGGTACTGATACCGA -ACTCAACGTCGCCGACTACTTCAAGGCAAACAATATGAAGTACACACCGGTGACTTTCGATCGCTCTGACGAATCAGCGA -AGGCACTGGAATCTGGTCGCTGCGATACGCTGGCCTCGGATCAATCACAACTGTATGCCCTGCGCATCAAATTAAGCAAC -CCAGCTGAATGGATTGTCTTACCGGAAGTTATCTCAAAAGAACCGCTTGGTCCGGTAGTTCGTCGTGGCGATGATGAATG -GTTCTCGATTGTACGCTGGACGCTTTTCGCCATGCTGAATGCTGAAGAGATGGGCATCAATTCCCAGAACGTCGATGAAA -AAGCGGCTAATCCAGCAACGCCTGATATGGCACATCTGCTGGGTAAAGAAGGCGATTACGGCAAGGATCTGAAGCTGGAT -AATAAATGGGCCTATAACATCATCAAACAGGTGGGTAACTACTCGGAAATTTTTGAGCGTAACGTAGGTTCAGAAAGCCC -GCTGAAAATTAAACGTGGGCAAAATAATCTCTGGAATAACGGCGGTATTCAGTACGCACCGCCCGTGCGTTAAGTCGGTG -TGAGGTAACGAGCGTCGCTACGGCGGCGCTCTCTTCAGCGTTATGCTTTCCGAGGTTTCTATGTCTCATCGCCGCTCAAC -CGTTAAAGGCTCACTCTCTTTTGCCAACCCTACGGTTCGCGCCTGGTTATTCCAGATCCTTGCCGTTGTTGCTGTTGTCG -GCATTGTTGGTTGGTTATTTCACAACACTGTAACGAATCTCAATAATCGTGGCATTACTTCAGGTTTTGCCTTTCTGGAT -CGCGGCGCTGGCTTCGGTATTGTCCAGCATTTGATCGATTACCAGCAGGGCGACACCTACGGACGCGTTTTTATTGTCGG -CTTACTCAATACGCTACTGGTTTCTGCATTGTGTATTGTGTTCGCTTCTGTTTTGGGCTTCTTTATCGGTCTGGCGAGAC -TTTCGGATAACTGGCTGCTACGAAAGCTTTCCACAATTTATATTGAGATCTTCCGTAATATTCCCCCGCTGCTGCAAATC -TTCTTCTGGTACTTTGCCGTGTTGCGCAATTTGCCCGGACCACGCCAGGCTGTGAGCGCGTTTGATCTGGCCTTTTTGAG -CAATCGTGGGCTTTATATTCCGTCACCGCAGCTGGGAGACGGATTTATTGCGTTTATCCTGGCTGTTGTTATGGCTATAG -TCCTTTCTGTTGGGCTATTCCGCTTTAATAAAACATACCAGATAAAGACCGGACAACTGCGCCGCACCTGGCCGATCGCC -GCAGTGTTGATCATTGGTTTGCCTTTACTGGCGCAATGGCTTTTTGGCGCAGCACTACACTGGGATGTCCCAGCCCTACG -AGGCTTTAACTTCCGCGGCGGGATGGTTTTAATTCCTGAACTGGCAGCCTTAACGCTGGCACTTTCGGTTTATACATCTG -CATTTATCGCCGAGATTATCCGCGCTGGGATCCAGGCAGTGCCTTATGGTCAACATGAAGCGGCTCGGTCACTGGGATTA -CCCAACCCGGTTACGCTACGCCAGGTCATTATTCCCCAGGCATTGCGGGTGATTATTCCACCGTTAACCAGCCAGTATCT -CAACATCGTCAAAAACTCCTCTCTTGCCGCCGCTATTGGCTATCCCGATATGGTTTCGCTGTTTGCCGGCACCGTGCTGA -ATCAGACGGGGCAAGCCATCGAGACGATAGCCATGACCATGTCGGTCTATCTGATTATCAGCCTGACTATCTCGCTGCTG -ATGAATATCTATAACCGCCGCATCGCGATCGTTGAACGCTAAGGAGTCATGATGACAAAAGTATTGCTGTCTCATCCCCC -GCGCCCGGCGAGCCATAACTCAAGCCGCGCGATGGTGTGGGTGCGAAAAAATCTGTTCTCCAGCTGGAGCAATAGCCTGC -TGACTATTGGCTGCATATGGTTGATGTGGGAACTGATCCCACCGTTGCTGAACTGGGCATTTTTGCAGGCTAACTGGGTT -GGCTCAACGCGTGCCGACTGCACAAAAGCCGGTGCCTGTTGGGTCTTCATCCACGAACGATTTGGTCAGTTTATGTATGG -GCTTTACCCACACGACCAACGCTGGCGAATTAACCTCGCATTACTGATTGGGCTTGTGTCGATCGCACCAATGTTCTGGA -AAATACTCCCGCATCGCGGTCGCTATATTGCGGCCTGGGCGGTGATTTACCCACTGATTGTCTGGTGGCTGATGTATGGC -GGTTTTTTTGCTCTTGAGCGGGTTGAAACCCGGCAATGGGGCGGGCTGACGCTAACTTTAATTATTGCATCAGTTGGGAT -TGCGGGGGCGCTACCGTGGGGGATCTTACTGGCGTTAGGTCGCCGCTCCCATATGCCGATTGTGCGTATCTTATCGGTCA -TTTTTATCGAATTCTGGCGCGGCGTGCCGCTGATTACCGTTCTGTTTATGTCTTCGGTCATGCTGCCGTTGTTTATGGCA -GAAGGCACCAGTATCGACAAATTGATCCGCGCGCTGGTTGGCGTGATCCTGTTTCAGTCAGCATATGTTGCGGAAGTCGT -GCGAGGTGGATTACAGGCGCTGCCTAAAGGGCAATATGAAGCGGCAGAGTCGCTGGCGTTGGGTTACTGGAAAACTCAGG -GGCTGGTTATTCTGCCACAGGCGTTGAAGCTGGTAATTCCTGGGCTGGTAAATACCATCATCGCACTCTTCAAAGATACC -AGCCTGGTGATCATTATCGGGTTGTTCGATCTTTTCAGTAGCGTTCAGCAGGCAACCGTTGATCCCGCCTGGTTGGGTAT -GTCGACGGAAGGGTATGTTTTCGCCGCGCTGATCTACTGGATCTTCTGTTTCAGCATGTCGCGCTATAGCCAGTATCTGG -AAAAACGTTTTAACACCGGGCGTACACCGCATTGAGGACACTATGAGCCAAATTTTACTGCAACCTGCTAACGCGATGAT -TACGCTGGAAAACGTCAATAAATGGTATGGACAATTCCATGTTTTGAAAAATATAAATTTAACCGTGCAACCGGGAGAAC -GGATCGTTCTGTGTGGCCCTTCAGGTTCCGGTAAATCGACAACCATTCGTTGTATTAATCATCTGGAAGAACATCAACAG -GGACGGATCGTGGTAGATGGCATCGAACTTAATGAAGATATCCGCAATATTGAGCGCGTCAGGCAGGAAGTGGGAATGGT -CTTTCAGCATTTCAATCTCTTCCCTCATCTGACCGTTTTACAGAACTGTACCCTGGCACCGATTTGGGTACGCAAGATGC -CTAAGAAAGAGGCTGAAGATCTGGCGGTGCATTACCTAGAGCGGGTGAGAATTGCCGAACATGCGCATAAGTTTCCCGGA -CAGATTTCAGGTGGTCAGCAGCAACGCGTTGCCATTGCGCGTTCGCTGTGTATGAAGCCGAAAATTATGTTGTTTGATGA -GCCAACGTCGGCGCTCGATCCTGAGATGGTGAAAGAGGTGCTGGATACGATGATTGGGCTGGCGCAGTCGGGTATGACAA -TGTTGTGTGTAACACATGAGATGGGGTTTGCACGAACCGTCGCTGACCGGGTAATTTTTATGGATCGTGGGGAAATAGTG -GAGCAAGCTGCACCTGATGAATTTTTTGCGCATCCTAAATCAGAGCGTACGAGGGCATTTTTATCGCAGGTAATCCATTA -ATTGAATGTTAGTTCGAAAAGCAAAAAGGCCATCCTTTCGGATGGCCTTTCGCTTGATTTGATGTCTGGCAGTTTATGGC -GGGCGTCCTGCCCGCCACCCTCCGGGCCGTTGCTTCGCAACGTTCAAATCCGCTCCCGGCGGATTTGTCCTACTCGGGAG -AGTGTTCACCGACAAACAACAGATAAAACAAAAGGCCCAGTCTTCCGACTGAGCCTTTTGTTTTATTTGATGTCTGGCAG -TTCCCTACTCTCGCATGGGGAGACCCCACACTACCATCGGCGCTACGGCGTTTCACTTCTGAGTTCGGCATGGGGTCAGG -TGGGACCACCGCGCTACTGCCGCCAGACAAATTCTTTTCTAATCTGCCGAACTTTAACCTAAAAAGTGGTGCTGATACCC -AGAGTCGAACTGGGGACCTCACCCTTACCAAGGGTGCGCTCTACCAACTGAGCCATATCAGCACGCTAAATTTGATGCCT -GGCAGTTCCCTACTCTCGCATGGGGAGACCCCACACTACCATCGGCGCTACGGCGTTTCACTTCTGAGTTCGGCATGGGG -TCAGGTGGGACCACCGCGCTACGGCCGCCAGGCAAATTCTGTTTTATCAGACCGCTTCTGCGTTCTGATTTAATCTGTAT -CAGGCTGAAAATCTTCTCTCATCCGCCAAAACAGCTTCGGCGTTGTAAGGTTAAGCCTCACGGTTCATTAGTACCGGTTA -GCTCAACGCATCGCTGCGCTTACACACCCGGCCTATCAACGTCGTCGTCTTCAACGTTCCTTCAGGACCCTTAAAGGGTC -AGGGAGAACTCATCTCGGGGCAAGTTTCGTGCTTAGATGCTTTCAGCACTTATCTCTTCCGCATTTAGCTACCGGGCAGT -GCCATTGGCATGACAACCCGAACACCAGTGATGCGTCCACTCCGGTCCTCTCGTACTAGGAGCAGCCCCCCTCAGTTCTC -CAGCGCCCACGGCAGATAGGGACCGAACTGTCTCACGACGTTCTAAACCCAGCTCGCGTACCACTTTAAATGGCGAACAG -CCATACCCTTGGGACCTACTTCAGCCCCAGGATGTGATGAGCCGACATCGAGGTGCCAAACACCGCCGTCGATATGAACT -CTTGGGCGGTATCAGCCTGTTATCCCCGGAGTACCTTTTATCCGTTGAGCGATGGCCCTTCCATTCAGAACCACCGGATC -ACTATGACCTGCTTTCGCACCTGCTCGCGCCGTCACGCTCGCAGTCAAGCTGGCTTATGCCATTGCACTAACCTCCTGAT -GTCCGACCAGGATTAGCCAACCTTCGTGCTCCTCCGTTACTCTTTAGGAGGAGACCGCCCCAGTCAAACTACCCACCAGA -CACTGTCCGCAACCCGGATTACGGGTCAACGTTAGAACATCAAACATTAAAGGGTGGTATTTCAAGGTCGGCTCCATGCA -GACTGGCGTCCACACTTCTAAGCCTCCCACCTATCCTACACATCAAGGCTCAATGTTCAGTGTCAAGCTATAGTAAAGGT -TCACGGGGTCTTTCCGTCTTGCCGCGGGTACACTGCATCTTCACAGCGAGTTCAATTTCACTGAGTCTCGGGTGGAGACA -GCCTGGCCATCATTACGCCATTCGTGCAGGTCGGAACTTACCCGACAAGGAATTTCGCTACCTTAGGACCGTTATAGTTA -CGGCCGCCGTTTACCGGGGCTTCGATCAAGAGCTTCGCTTGCGCTAACCCCATCAATTAACCTTCCGGCACCGGGCAGGC -GTCACACCGTATACGTCCACTTTCGTGTTTGCACAGTGCTGTGTTTTTAATAAACAGTTGCAGCCAGCTGGTATCTTCGA -CTGATTTCAGCTCCACGAGCAAGTCGCTTCACCTACATATCAGCGTGCCTTCTCCCGAAGTTACGGCACCATTTTGCCTA -GTTCCTTCACCCGAGTTCTCTCAAGCGCCTTGGTATTCTCTACCTGACCACCTGTGTCGGTTTGGGGTACGATTTGATGT -TACCTGATGCTTAGAGGCTTTTCCTGGAAGCAGGGCATTTGTTGCTTCAGCACCGTAGTGCCTCGTCATCACGCCTCAGC -CTTGATTTTCCGGATTTGCCTGGAAAACCAGCCTACACGCTTAAACCGGGACAACCGTCGCCCGGCCAACATAGCCTTCT -CCGTCCCCCCTTCGCAGTAACACCAAGTACAGGAATATTAACCTGTTTCCCATCGACTACGCCTTTCGGCCTCGCCTTAG -GGGTCGACTCACCCTGCCCCGATTAACGTTGGACAGGAACCCTTGGTCTTCCGGCGAGCGGGCTTTTCACCCGCTTTATC -GTTACTTATGTCAGCATTCGCACTTCTGATACCTCCAGCATGCCTCACAGCACACCTTCGCAGGCTTACAGAACGCTCCC -CTACCCAACAACGCATAAGCGTCGCTGCCGCAGCTTCGGTGCATGGTTTAGCCCCGTTACATCTTCCGCGCAGGCCGACT -CGACCAGTGAGCTATTACGCTTTCTTTAAATGATGGCTGCTTCTAAGCCAACATCCTGGCTGTCTGGGCCTTCCCACATC -GTTTCCCACTTAACCATGACTTTGGGACCTTAGCTGGCGGTCTGGGTTGTTTCCCTCTTCACGACGGACGTTAGCACCCG -CCGTGTGTCTCCCGTGATAACATTCTCCGGTATTCGCAGTTTGCATCGGGTTGGTAAGTCGGGATGACCCCCTTGCCGAA -ACAGTGCTCTACCCCCGGAGATGAATTCACGAGGCGCTACCTAAATAGCTTTCGGGGAGAACCAGCTATCTCCCGGTTTG -ATTGGCCTTTCACCCCCAGCCACAAGTCATCCGCTAATTTTTCAACATTAGTCGGTTCGGTCCTCCAGTTAGTGTTACCC -AACCTTCAACCTGCCCATGGCTAGATCACCGGGTTTCGGGTCTATACCCTGCAACTTAACGCCCAGTTAAGACTCGGTTT -CCCTTCGGCTCCCCTATTCGGTTAACCTTGCTACAGAATATAAGTCGCTGACCCATTATACAAAAGGTACGCAGTCACAC -GCCTAAGCGTGCTCCCACTGCTTGTACGTACACGGTTTCAGGTTCTTTTTCACTCCCCTCGCCGGGGTTCTTTTCGCCTT -TCCCTCACGGTACTGGTTCACTATCGGTCAGTCAGGAGTATTTAGCCTTGGAGGATGGTCCCCCCATATTCAGACAGGAT -ACCACGTGTCCCGCCCTACTCATCGAGCTCACAGCATGTGCATTTTTGTGTACGGGGCTGTCACCCTGTATCGCGCGCCT -TTCCAGACGCTTCCACTAACACACACACTGATTCAGGCTCTGGGCTGCTCCCCGTTCGCTCGCCGCTACTGGGGGAATCT -CGGTTGATTTCTTTTCCTCGGGGTACTTAGATGTTTCAGTTCCCCCGGTTCGCCTCATTAACCTATGGATTCAGTTAATG -ATAGTGTGTCGAAACACACTGGGTTTCCCCATTCGGAAATCGCCGGTTATAACGGTTCATATCACCTTACCGACGCTTAT -CGCAGATTAGCACGTCCTTCATCGCCTCTGACTGCCAGGGCATCCACCGTGTACGCTTAGTCGCTTAACCTCACAACCCG -AAGATGTTTCACTTCAGAGTTGCGAAAATTTGAGAGACTCACGAACAACTTTCGTTGTTCAGTGTTTCAATTTTCAGCTT -GATCCAGATTTTTAAAGAGCAAAACTTCGCAGTGAACCTTTGCAGGTACACTCTGAAGTATTTTTTATTTAATCACTACA -GAGATGGTGGAGCTATGCGGGATCGAACCGCAGACCTCCTGCGTGCAAAGCAGGCGCTCTCCCAGCTGAGCTATAGCCCC -ATAACATGTAGTTAAAACCTCTTCAAATTTGCCGTGCAAATTTGGTAGGCCTGAGTGGACTTGAACCACCGACCTCACCC -TTATCAGGGGTGCGCTCTAACCACCTGAGCTACAAGCCTGTAGAGGTTTTACTGCTCATTTTCATCAGACAATCTGTGTG -AGCACTGCAAAGTACGCTTCTTTAAGGTAAGGAGGTGATCCAACCGCAGGTTCCCCTACGGTTACCTTGTTACGACTTCA -CCCCAGTCATGAATCACAAAGTGGTAAGCGCCCTCCCGAAGGTTAAGCTACCTACTTCTTTTGCAACCCACTCCCATGGT -GTGACGGGCGGTGTGTACAAGGCCCGGGAACGTATTCACCGTGGCATTCTGATCCACGATTACTAGCGATTCCGACTTCA -TGGAGTCGAGTTGCAGACTCCAATCCGGACTACGACGCACTTTATGAGGTCCGCTTGCTCTCGCGAGGTCGCTTCTCTTT -GTATGCGCCATTGTAGCACGTGTGTAGCCCTGGTCGTAAGGGCCATGATGACTTGACGTCATCCCCACCTTCCTCCAGTT -TATCACTGGCAGTCTCCTTTGAGTTCCCGGCCGGACCGCTGGCAACAAAGGATAAGGGTTGCGCTCGTTGCGGGACTTAA -CCCAACATTTCACAACACGAGCTGACGACAGCCATGCAGCACCTGTCTCACGGTTCCCGAAGGCACATTCTCATCTCTGA -AAACTTCCGTGGATGTCAAGACCAGGTAAGGTTCTTCGCGTTGCATCGAATTAAACCACATGCTCCACCGCTTGTGCGGG -CCCCCGTCAATTCATTTGAGTTTTAACCTTGCGGCCGTACTCCCCAGGCGGTCGACTTAACGCGTTAGCTCCGGAAGCCA -CGCCTCAAGGGCACAACCTCCAAGTCGACATCGTTTACGGCGTGGACTACCAGGGTATCTAATCCTGTTTGCTCCCCACG -CTTTCGCACCTGAGCGTCAGTCTTCGTCCAGGGGGCCGCCTTCGCCACCGGTATTCCTCCAGATCTCTACGCATTTCACC -GCTACACCTGGAATTCTACCCCCCTCTACGAGACTCAAGCTTGCCAGTATCAGATGCAGTTCCCAGGTTGAGCCCGGGGA -TTTCACATCTGACTTAACAAACCGCCTGCGTGCGCTTTACGCCCAGTAATTCCGATTAACGCTTGCACCCTCCGTATTAC -CGCGGCTGCTGGCACGGAGTTAGCCGGTGCTTCTTCTGCGGGTAACGTCAATGAGCAAAGGTATTAACTTTACTCCCTTC -CTCCCCGCTGAAAGTACTTTACAACCCGAAGGCCTTCTTCATACACGCGGCATGGCTGCATCAGGCTTGCGCCCATTGTG -CAATATTCCCCACTGCTGCCTCCCGTAGGAGTCTGGACCGTGTCTCAGTTCCAGTGTGGCTGGTCATCCTCTCAGACCAG -CTAGGGATCGTCGCCTTGGTGAGCCGTTACCCCACCAACAAGCTAATCCCATCTGGGCACATCCGATGGCAAGAGGCCCG -AGGGTCCCCCTCTTTGGTCTTGCGACGTTATGCGGTATTAGCTACCGTTTCCAGTAGTTATCCCCCTCCATCAGGCAGTT -TCCCAGACATTACTCACCCGTCCGCCACTCGTCAGCGAAACAGCAAGCTGTTTCCTGTTACCGTTCGACTTGCATGTGTT -AGGCCTGCCGCCAGCGTTCAATCTGAGCCATGATCAAACTCTTCAATTTAAAAGTTTGATGCTCAAAGAATTAAACTTCG -TAATGAATTACGTGTTCACTCTTGAGACTTGGTATTCATTTTTCGTCTTGCGACGTTAAGAATCCGTATCTTCGAGTGCC -CACACAGATTGTCTGATAAATTGTTAAAGAGCAGTTGCGACGCGGCTTTCAGCTCACTGTCGCGAGGTGGCGTATATTAC -GCTTTCCTCTTTCAGAGTCAACCCTGAATTTCAGGATTTTTTTCTCTTCGTTGTTCCGACCATCCTGTGAAGTGTTTCAC -GTTGTCGTCTCAACGGAGGCGCATTATAGGGATCCCAATTTTTTGCACAAGTATTTTTTTGATCTTTTTTTCTGTTTGTT -GTTTTTTCACCCTTTTTGCTGCAATCGCACACAAAACGGTGCTTTTTTGCATACTAAAAGACTTGCACAAGGCCAATAAT -GCCCCCAAAGTCATTAGTAAATCATTTATTGCTGAGGTAAGTATGTCTGATGTTTTACGCCCATACCGCGATCTTTTTCC -ACAAATCGGTCAGCGCGTAATGATCGACGATAGCAGTGTCGTGATTGGTGACGTTCGTCTGGCTGATGATGTGGGGATCT -GGCCGCTCGTTGTGATTCGTGGAGATGTACATTATGTACAGATCGGAGCACGCACCAATATCCAGGATGGCAGTATGTTG -CATGTCACTCATAAATCCTCGTACAACCCAGATGGCAACCCATTAACCATTGGCGAAGATGTCACTGTTGGTCACAAGGT -GATGCTCCACGGCTGCACCATTGGCAATCGAGTTTTGGTTGGGATGGGCTCAATTTTACTTGATGGCGCAATAGTAGAAG -ATGATGTGATGATTGGTGCGGGTAGTCTGGTCCCACAAAATAAACGGCTGGAGAGCGGATATCTGTATCTCGGTAGCCCC -GTCAAACAGATCCGCCCGTTAAGTGATGAAGAGAAGGCTGGGTTACGCTATTCCGCGAATAATTACGTGAAATGGAAGGA -CGAATATCTGGATCAGGGTAACCAGACCCAGCCTTGATCATCTTCACTTTGTTCCTGAATTAAGTTTTCCGCTTCTTCTT -CCAGGTCCCAGCGATGCTGACGAAAACTCGCTAACCACTGTTCTGGCGTATCTCCAGTAAAGCGATACGCCAGACTCTCG -CCAGAGATCGCGCATGTCAGTTGCATACCATTCACGAGAGCGGGAAAACATACACATTTTTTATTCTCGTCCCACTCTTC -CCTGTCCGGAAACTGGATGGCCTGATTCACGCGGACAATTCCTCCTGCAATTGCTTTATAACTGGTTCTACGTCAGGCAG -AACACCGTGCCAGAGAAGAAAGGCATGAGCCGCCTGTGCCACCAGCATTCCTAAACCATCAGCATTACGCTTTGAGCCTC -GCTGCTCACACCATGCCAGAAAAGGAGTTTTTCCTTTCTGATAGAACATGTCATAGCAATAAATGCCTGGATGAATGAGC -GATGACGGGATCGCCGGAATATCACCACTGATGCCACTGGATGTTGCATTAATAATGAGATCAAACTCATGACCTTCCAG -TTCGTCCATACTCAACGCCTGAATACTGCCAGTGTGCGCAAACAATTTAGCCAACTCTTCCGCGCGGGATACCGTCCGAT -TAGTTATTGTCACCGCACAGTCCAGGGAAAGGAGTGGCAGTAGTACGCCGCGAGATGCTCCACCAGCGCCGATAAGCAGA -ATACGTAAACCAGGGCGGATAAAAGACAGACGTTCCAGATCGCTTAACAAGCCTACACCATCGGTATTGTCACCCAGCAG -GCGTCCATCTTCTAACCGCATGAGGGTATTAACAGCACCAGCCAACGCTGCCCGTTCAGTAAGCTCATCCGCTCTGGCAA -AAGCCTCTTCTTTAAAAGGCACCGTCACATTCGCACCTTTACCACCAGCACTAAAGAAAGCGTTCAGTGTGTTGATGAAA -TCATTGATGGGTGCCAACACGCGCCCATAGGGATGTTCAATATTCAGTTGCTGAGCAAATTGCTGATGAATGAATGGCGA -TTTGCTGTGGGCTATCGGATTACCAAAAACAGCATAGGTTTCCATTATGTTACCCCTGTCGAAACAGTTCACCCGTCAGG -GCATCGCGGATTTCTGAAGGATTTAAACGCCCCCCCGTTTCACCAGGCACAACCGGGAACGCCGCGCCAAATTGTGCGCG -AACTTCGTCTACTGTTCGACAAGGTGGCAATCCACTCAAGTTGGCACTGGTAGAAACCAGCGGTTTACCATAAGCCTGGC -ACAAAGCAACCACCAACGGATGGTCGGTGACTCGTACAGCAAGCGAATCAAAGCGGCCCGTCAACCAGCGCGGTGTTGTC -GCAGGCGCGGGAAAGACAAAGGTGACAGGACCTGGCCAGCGGGAAAAAATGGTTTCACGCTGCACGTCAGTCAACATGGT -GTCATCAATATAGGGTTTAAGCTGCTCGTAATTTGCTGCGATTAAAATCAGCCCCTTATCAACCGGACGCTGTTTTAACT -CCAACAGTCGCATCACTGCTGTTTCGCTATCAGGATCGCACCCAACACCGAAAACGGCTTCCGTTGGATAGGCGATGACA -CGTTCTTCATTGAGAACATCTATCGCAGCTGCGATAGCGTCTCTTTGCAGGTTATTATTCACGTTATTATTCCGCCGAAA -CCGGCTTTCCACATTGTTTACTGGCACAAAAGTGTTTTACACCCTGCGCGGTTTTCTTTTCGATGAGTAGCGGATAATGA -CACTCAGGGCATTCTCCAGCTATGGGTTTGAAGTTAATGGCAAATTGACACTCCGGGTAGCGATCACAAGAGTGAAATGT -TTTGCCATAACGGGAGCGGCGCTGGACCAGATGGCCCGTCCGACATTGGGGGCATGTAATTGCTGTTTCGTCCGGTTTAT -CGATAAGTTCGGTATGTTCGCATTCAGGGTAGTTAATGCAACCAATAAACATACCAAAGCGTCCCTGGCGTAATACCAGA -TTTGCGCCACATGCAGGGCAAACCTGCCCCTCCAGAACTTTGACGATATGTCCATCCGCTGAAGATTTCAGAGGACGGAC -GTAGTCACACGCCGGATACTGTGAGCATCCAAGAAACGGACCGTGTTTCCCGGATCGAATAACCAGTTCAGCCCCGCACT -TTGGGCAGGACTCATTATTACGCACCGTGAACAGTGCTGATTTCGCCATAACAACTTATGCTGAATTAAAGAAATGATTA -ATGCAGCATACCTTCATTCACTTCAAAGAGTAATTCTTCCATTTGCTGGTACGCATTTTCGCAGCCCGGAATATTGAACA -ACACCATCAGGATCACCCATTTCAGATCATCCAGTTCGAACTCTGCGTTATCCAGCGCGAGCACTCGCTCTATCACCATT -TCACGAGTTTCAAGGTTGAGCACCTGAATCTGCTCAAGGAAAAGCAGAAACCCACGGCAGCTGGCATCCAGTCGTTCACA -CTCTTCCGGTGTATAAATACGCATGGAGAGAGGATCCGAGGCCAGTTGCATCGGTTCTGCCAACCCTTCCTGATAATCAG -CAAGTTTTTCCAGCCATAGCAGGGCATTGTAGATATCTTCTCGCTCAAAACCTGCGTCGGTAAGATCCTGTTCAAGTTTG -TCTTGATCCACACGCAACTCAGCTTCTGTGTGAATATAGGTTTCAAACAAATACATTAGTACGTCGAACATGGCATGCCC -TCCTCAATCGGACATAGCCGCCGGGTACAGCTGCGATCCATCCTGCTAACTCCAGTTCGAGTAGTTGAGTAACTACCTCT -GGCACAGGTTGGCCGGCACGTTCAGCGACGACGTCAACAGGTGTTACCTCATCTCCTACGTTAGCCAGGAGCTCAGGAAA -TGGCAATGCCACGTCTTGCTGATCTGGTGAATAAAATGAATTTTCAGGGGCGTCTGGCAACCAGTGCAATCCAAATTGCA -AGTTTTCCAGAATTTCTTCCGGTTCCGTCACAAGAATCGCACCTTGTTTTATTAACCAGTGAGGCCCTTCGCTTCCCGGA -TTCCCTATTGGACCTGGCAAGGCAAAAACTTCTCGCCCCTGCTCAAGCGCACAACGTGCTGTCACCAGCGAACCACTACG -CAAAGCCGCTTCCACCACCAGTACACCTTTACTTAGACCACTGATAATGCGATTTCTTCGTGGGAAATTGTAAGCAAGGG -GTGGAACATCGAGGGGAAATTCCGAGACGAGAGCGCCCCCCTGTTCAAGCAGACTGGCAGCCAGTCGGGCATGACGGCGG -GGATGAATGGTATTAAGTCCATTCCCCAATACAGCAATGCTGACGCCATTTACCTGTAAGGCTGCTTTATGCGCTACACC -ATCGATTCCACGCGCCAGTCCACTCGTAATTGTCACTCCACGCGTCGCCAGAGTTTCGCAAAATAATCGTCCCCATCGCT -CGCCATACCATGAATGCGCCCGACTCCCCACTACGGCAAGCTGAAATGAATGCAGCGCGTGCAGTTCTCCTTCAACAAAC -AGTGCGCCGGGGTAATCTGTCGTCGCCAGAAGTTGAGGAGGATAAAATTCGCTGTCCGCAGGAATTAAATGATGGTTGGG -TTGCTCCAACCAACAAAGTGAGCTTTCGATACTCTTTCGTGGAAATGAAAGAAAGCGTTGTGCCTGCCGCAATGTAAGCC -CTGTTTGCTGCAATACAACCGCATCAATATGCGACTGTTTTGCCACCCAGTGAGCGATACGGACCATATCATCGCCGTAC -AAGCTGCTGATACTCATTAAACGCAGCCAAATTTCTGTATCGACCATCCTTATCTCCCTGCCATAAGCAGCCTTAGCAAT -CTTTGCGATTGGTCAGTGATGCTGTCAATCAGAGGGGGATTTGTCTAGAATAGAAGAAATAATCTTTCTAACTCCTGAAC -ACATCTCTGGAGATTTATGTCAGTTTTGCAAGTGTTACATATTCCGGACGAGCGGCTTCGCAAAGTTGCTAAACCGGTAG -AAGAAGTGAATGCAGAAATTCAGCGTATCGTCGATGATATGTTCGAGACGATGTACGCAGAAGAAGGTATTGGCCTGGCG -GCAACCCAGGTTGATATCCATCAACGTATCATTGTTATTGATGTTTCGGAAAACCGTGACGAACGGCTAGTGTTAATCAA -TCCAGAGCTTTTAGAAAAAAGCGGCGAAACAGGCATTGAAGAAGGTTGCCTGTCGATCCCTGAACAACGTGCTTTAGTGC -CGCGCGCAGAGAAAGTTAAAATTCGCGCCCTTGACCGCGACGGTAAACCATTTGAACTGGAAGCAGACGGTCTGTTAGCC -ATCTGTATTCAGCATGAGATGGATCACCTGGTCGGCAAACTGTTTATGGATTATCTGTCACCGCTGAAACAACAACGTAT -TCGTCAGAAAGTTGAAAAACTGGATCGTCTGAAAGCCCGGGCTTAAGGATAAGAACTAACGTGTCAGAATCACTACGTAT -TATTTTTGCGGGTACACCTGACTTTGCAGCGCGTCATCTCGACGCGCTGTTGTCTTCTGGTCATAACGTCGTTGGCGTGT -TCACCCAGCCAGACCGACCGGCAGGACGCGGTAAAAAACTGATGCCCAGCCCGGTTAAAGTTCTGGCTGAGGAAAAAGGT -CTGCCCGTTTTTCAACCTGTTTCCCTGCGTCCACAAGAAAACCAGCAACTGGTCGCCGAACTGCAGGCTGATGTTATGGT -CGTCGTCGCCTATGGTTTAATTCTGCCGAAAGCAGTGCTGGAGATGCCGCGTCTTGGCTGTATCAACGTTCATGGTTCAC -TGCTGCCACGCTGGCGCGGTGCTGCACCAATCCAACGCTCACTATGGGCGGGTGATGCAGAAACTGGTGTGACCATTATG -CAAATGGATGTCGGTTTAGACACCGGTGATATGCTCTATAAGCTCTCCTGCCCGATTACTGCAGAAGATACCAGTGGTAC -GCTGTACGACAAGCTGGCAGAGCTTGGCCCACAAGGGCTTATCACCACGTTGAAACAACTGGCAGACGGCACGGCGAAAC -CAGAAGTTCAGGACGAAACTCTTGTCACTTACGCCGAGAAGTTGAGTAAAGAAGAAGCGCGTATTGACTGGTCACTTTCG -GCAGCACAGCTTGAACGCTGCATTCGCGCTTTCAATCCATGGCCAATGAGCTGGCTGGAAATTGAAGGACAGCCGGTTAA -AGTCTGGAAAGCATCGGTCATTGATACGGCAACCAACGCTGCACCAGGAACGATCCTTGAAGCCAACAAACAAGGCATTC -AGGTTGCGACTGGTGATGGCATCCTGAACCTGCTCTCGTTACAACCTGCGGGTAAGAAAGCGATGAGCGCGCAAGACCTC -CTGAACTCTCGTCGGGAATGGTTTGTTCCGGGCAACCGTCTGGTCTGATAGTCCACTCTTCTAAGCCCGGTCTTGCCGGG -CGTTTTTATACTTATGAAAAAACAACGTAATTTACGTAGCATGGCGGCCCAGGCCGTTGAACAAGTCGTCGAGCAAGGGC -AATCATTAAGCAACATTCTGCCACCGCTCCAGCAAAAAGTTTCCGATAAAGACAAAGCACTTCTTCAAGAGTTGTGCTTT -GGCGTACTGCGTACGCTTTCGCAGTTAGACTGGCTGATTAATAAGTTAATGGCCCGTCCGATGACCGGCAAACAGCGGAC -CGTGCATTACCTGATTATGGTTGGTTTGTATCAACTGCTTTATACCCGCATTCCACCTCATGCTGCGCTGGCTGAAACGG -TTGAAGGCGCTATCGCAATTAAGCGTCCGCAACTTAAAGGGTTGATAAACGGTGTATTACGCCAGTTCCAGCGTCAGCAA -GAAGAGTTATTAGCCGAGTTTAATGCCAGTGATGCACGTTATCTGCATCCTTCCTGGTTGCTGAAGCGTCTGCAAAAAGC -GTATCCAGAGCAGTGGCAATCCATCGTCGAAGCCAATAACCAGCGTCCGCCAATGTGGCTGCGTATTAATCGTACGCATC -ATTCCCGCGACAGCTGGCTTGCATTGCTGGATGAAGCAGGAATGAAAGGTTTCCCGCATGCGGATTACCCTGATGCTGTA -CGTCTGGAAACACCTGCACCTGTTCATGCGCTACCTGGTTTTGAAGACGGATGGGTTACCGTTCAGGATGCATCAGCACA -AGGTTGCATGACCTGGCTTGCGCCACAAAACGGTGAACACATTTTGGATCTTTGTGCCGCCCCCGGCGGTAAAACAACGC -ATATCCTTGAGGTGGCACCAGAAGCGCAGGTTGTTGCGGTTGATATCGACGAACAGCGCCTCTCTCGGGTTTACGACAAT -TTAAAACGCCTTGGTATGAAGGCGACCGTGAAACAAGGTGATGGCCGTTACCCTTCTCAATGGTGTGGCGAGCAACAGTT -TGATCGCATTTTATTAGATGCGCCTTGTTCAGCAACCGGTGTGATTCGTCGCCATCCAGATATTAAATGGTTACGTCGCG -ATCGCGATATCCCGGAACTCGCGCAATTGCAGTCTGAAATTCTCGACGCCATTTGGCCGCATTTAAAAACCGGTGGAACT -CTGGTCTATGCCACCTGTTCGGTGTTACCGGAAGAGAATAGCCTGCAGATTAAAGCCTTTTTGCAACGTACCGCTGATGC -CGAACTTTGCGAAACAGGAACACCAGAGCAACCGGGTAAACAAAATCTACCTGGTGCCGAAGAGGGCGACGGCTTCTTTT -ACGCTAAGCTAATCAAAAAGTGATGAGATAACGGGTCGCGACTGATGAAAATTATCATTCTGGGTGCCGGCCAGGTTGGC -GGCACACTGGCGGAAAACCTGGTTGGCGAGAACAACGATATTACTGTTGTCGATACCAACGGTGAGCGTCTGCGGACCTT -ACAGGATAAATTTGACCTGCGGGTCGTGCAGGGGCATGGCTCTCATCCACGCGTATTGCGGGAAGCAGGTGCCGACGACG -CCGATATGCTGGTTGCTGTAACCAGTTCAGATGAAACCAATATGGTTGCCTGCCAGGTAGCCTACTCACTTTTCAACACC -CCTAATCGCATCGCTCGTATCCGCTCACCAGACTACGTGCGCGATGCCGATAAGCTATTTCATTCAGATGCTGTGCCGAT -TGATCATCTGATCGCACCAGAGCAGTTGGTTATCGATAATATTTACCGACTGATTGAGTATCCCGGCGCATTGCAGGTGG -TGAACTTCGCTGAGGGTAAAGTCAGCCTGGCTGTGGTTAAAGCCTATTATGGCGGCCCGCTGATTGGTAATGCACTTTCG -ACCATGCGCGAACATATGCCACATATCGATACTCGTGTGGCAGCAATTTTCCGCCACGATCGCCCCATTCGTCCGCAAGG -TTCGACCATTGTTGAAGCTGGTGATGAAGTGTTCTTTATTGCCGCTTCACAGCATATCCGCGCGGTGATGAGTGAATTAC -AGCGACTGGAAAAACCGTATAAGCGGATCATGCTGGTTGGTGGCGGTAATATCGGTGCAGGGCTGGCGCGTCGTCTGGAA -AAAGATTACAGCGTTAAACTCATCGAACGTAATCAGCAGCGCGCTGCCGAACTGGCGGAAAAGTTACAGAATACGATCGT -CTTTTTTGGTGATGCGTCGGATCAAGAACTACTGGCCGAAGAACATATCGATCAAGTTGATCTGTTTATTGCCGTCACCA -ACGATGACGAGGCCAATATCATGTCCGCCATGCTTGCCAAACGTATGGGTGCGAAAAAGGTGATGGTATTGATCCAGCGT -CGCGCTTATGTGGATCTGGTTCAGGGGAGCGTTATCGATATTGCGATTTCACCACAACAAGCAACTATTTCTGCGTTGCT -TAGCCATGTGCGAAAAGCAGATATTGTTGGTGTTTCCTCATTGCGCCGCGGCGTAGCAGAAGCTATTGAAGCCGTTGCTC -ACGGTGATGAAAGCACCTCACGCGTTGTCGGCAGAGTCATTGACGAAATCAAGCTACCGCCAGGAACGATTATTGGAGCG -GTGGTACGTGGAAACGACGTGATGATTGCCAATGACAATCTGCGCATTGAGCAAGGCGATCACGTAATTATGTTCCTCAC -AGATAAAAAGTTTATTACCGACGTCGAAAGACTCTTCCAGCCAAGCCCTTTCTTCTTGTAATTAATAAGGCGTCTAATGA -CGCCTTATTATTTCCCTTTGATTATCAAGGATTAATTAAATTCATTCCTGGCAGGAAAATGGCTTAACATTTGTTAGACT -TATGGTTGTCGGCTTCATAGGGAGAATAACATGAGCATTATTAAAGAATTTCGCGAATTTGCGATGCGCGGGAACGTGGT -GGATTTGGCGGTGGGTGTCATTATCGGTGCGGCATTCGGGAAGATTGTCTCTTCACTGGTTGCCGATATCATCATGCCTC -CTCTGGGCTTATTAATTGGCGGGATCGATTTTAAACAGTTTGCTGTCACGCTACGCGATGCGCAGGGGGATATCCCTGCT -GTTGTGATGCATTACGGTGTCTTCATTCAAAACGTCTTTGATTTTCTGATTGTGGCCTTTGCCATCTTTATGGCGATTAA -GCTAATCAACAAACTGAATCGGAAAAAAGAAGAACCAGCAGCCGCACCTGCACCAACTAAAGAAGAAGTATTACTGACAG -AAATTCGTGATTTGCTGAAAGAGCAGAATAACCGCTCTTAACAAGCGCCTGAAAGCAGAAGACCAGTGGTAAAAAAGTGA -TTTACTTTCTTGCCACTGGCCTCCCAGTTCCCCCGATTGCCATGTTTTCCTTTTCGCATGTAACTGCCTTTCCCCTTCTT -ATTTTTCTCTACGCGCTGTCGGAATAAGGGATCATGTAGTAATGCTTCTATCGCATTATCCTTTATCTGCCCTTTAGTAT -GCTGATATCGACTCATAAAAACTCCAGTTGGTTATTTAACGGCGCGAGTGTAATCCTGCCAGTGCAAAAAATCAACAACC -ACTCTTAACGCCACTCGCCCCTTGTTCAAGAGCTTCAAGAATCGAACAATAAACACTGCTATGAGCAGTCCCACAACAGG -CATCGTTAAGGCGTTGCAAGGAACGCTGCATACTCTGCAACTCGGCTATCCGTGCTTCGACTTCCTGCAATCTTTCCTGC -ACAATGCCTTTTGACTCCTGACAGGTATGGTGTTCAGGATCGATGCGGATCGACAGCAACTCGCGGATCGACTCCAGACT -GAAACCTAGTTGTCTGGCATGGCGGATAAATTTCAATCGCTGGAGATCGCTTTCGGTATATAGGCGAAACCCACCTTCAG -TACGCACTTCATGCTCCATCATCTGCTGTTTTTCGTAATAACGAATCGTGTCGGGTGTTACTTCCGCCATTTTTGCCAGC -TCACCAATGCGATACATACATACTCCACTAGTTATCGTTGATTTTGTCCAACAACTTGTCAGCATAATCGCCGCGTAAAA -AATCGGTACTCAATCCAGCTTGTCGCAGCTTCAATTCCAGTAATGACAATCGACGGCTAACCTCTTGATATTGCGGATCA -TCGTGACGGATACCTTTGAGAATATCCAGAAGCTGAATTGCTTCTCTCCGTTGCTCAAGTTCTGGCGGTAAGCAACCGGC -ATTCTTCAGCAAGCGATACCCCGCACGTAATTCCGGTGGCACGTGAGAATCATCATCCAGTATCAATGGTTCGCCGCTAC -CTGCCAGGTTATCAAACTCACCTTTCGCTTGCGCTTCTGCTATATGGCGCTCTGCCCACTGGTCAAGTAACCACATAAAT -ACTCCAGGGGATGAACAAAAAGAGTACAGCTATTGTAGATAAGTGGGGATACTACGGGTATAAAAAAACCCGCCGGGGCG -GGTTTTTTTACGTTGCTTCAGATTACTCTGCAGCAGCTTCTGCTTTCTCTGAACGATCAACCAGCTCGATGTAAGCCATC -GGCGCGTTGTCGCCTGCACGGAAGCCACACTTCAGAATACGAGTGTAACCACCGGCACGGCTCGCGAAACGCGGGCCCAG -TTCGTTAAACAGTTTTGCCACGATCTCGTTATCACGAGTACGGGCGAATGCCAGACGACGATTAGCAACGCTATCAGTCT -TGGCAAGAGTAATCAGCGGCTCAACTACGCGGCGCAGCTCTTTCGCTTTAGGCAGAGTCGTCTTGATGATTTCATGACGA -ACCAGTGAACCTGCCATATTGCGGAACATAGCCTGGCGATGGCTGCTGTTGCGGTTCAGTTGACGACCACTCTTACGATG -GCGCATGACCTTATCCTTCTCAGTAAAACCTTAACCTGTGATCCGGTTACTCGTCAGCGATGCTTGCCGGTGGCCAGTTT -TCCAGGCGCATGCCCAGAGACAGTCCACGGGAAGCCAGCACGTCTTTAATCTCAGTAAGAGATTTTTTACCAAGGTTAGG -CGTTTTAAGGAGCTCAACCTCGGTACGCTGTACCAGATCACCGATATAGTGGATAGCTTCTGCTTTAAGGCAGTTAGCAG -AGCGGACAGTCAATTCCAGATCGTCAACAGGGCGCAGCAGGATCGGATCGAACTCTGGTTTCTCTTCTTTCACTTCAGGC -TGACGTACATCACGTAAGTCAACGAAAGCTTCCAGTTGTTCAGCCAGAATGGTTGCCGCACGACGAATCGCCTCTTCAGG -ATCGATTGTGCCGTTGGTTTCCATTTCGATGACCAGCTTGTCCAGGTCGGTACGCTGTTCTACACGCGCTGCTTCAACAT -TGTAGGCAATACGCTCCACAGGGCTGTAGCATGCGTCGACCAGCAGACGGCCGATTGGGCGCTCATCTTCTTCCGAATGA -ATTCGGGTAGAAGCCGGCACATAACCACGACCGCGCTGAACTTTGATACGCATGCTAATAGACGCGTTCTCATCGGTCAG -GTGGCAGATCACGTGCTGCGGCTTGACGATTTCGACATCACCGTCGTGGGTGATATCGGCTGCAGTCACAGGGCCAATGC -CAGATTTATTCAAGGTAAGAATAACTTCATCTTTGCCCTGAACTCTCACCGCCAGCCCTTTCAGGTTGAGCAGGATTTCC -AGGATATCTTCCTGAACGCCTTCTTTGGTGCTGTACTCATGTAGTACACCATCAATCTCAACCTCGGTCACCGCGCAACC -CGGCATCGATGAGAGCAGAATACGGCGCAGTGCGTTACCCAGAGTATGGCCAAAGCCACGCTCTAAAGGCTCAAGGGTCA -CCTTGGCGTGCGTCGAACTCACTTGCTCGATATCAACCAGGCGCGGTTTTAGAAACTCTGTCACAGAACCCTGCATTGTG -TCCTCTCTTTGGTACTAAGCTTTACTTGGAGTAAAGCTCGACGATCAGGTGTTCGTTAATGTCCGCAGACAGATCAGAAC -GCTCCGGCTTACGCTTAAACGTACCTTCCATCTTGCCAGCATCAACTTCCAGCCAGGTTGGCTTTTCACGCTGCTCAGCC -AGCTCCAGAGCGGCTTTCACGCGAGACTGCTTCTTCGCTTTCTCACGAATGCTTACAACGTCATTCGGACTAACCTGATA -AGAAGCGATGTTAACAACACGACCGTTTACCATAATTGCTTTATGGCTAACCAGCTGACGTGCTTCTGCACGAGTGGCAC -CGAAGCCCATACGGTATACAACGTTGTCCAGACGACCTTCCAGCAGAGCCAACAGGTTTTCACCGGTGTTGCCTTTCAGA -CGTGCTGCTTCTTTGTAGTAGTTACGGAACTGACGCTCCAGCACACCATAGATACGGCGAACTTTTTGCTTTTCACGCAA -CTGCACACCATAGTCAGACAGACGCGGTTTACGCGCACCGTGCTGGCCAGGAGCTTGTTCAATTTTACACTTGGTATCGA -TCGCGCGAACGCCAGACTTAAGGAATAAGTCGGTGCCCTCACGACGGCTCAGCTTGAGCTTAGGACCCAAATATCTTGCC -ATTTTCTTTCTCCAACAAACCTGGAAAACGAGGCGTTATACGCGACGTTTTTTCGGCGGACGACAACCGTTATGAGGGAT -CGGAGTCACATCAGTAATGTTAGTGATGCGGAAACCTGCGGCGTTCAGAGCACGAATAGTAGATTCGCGGCCTGGACCCG -GACCTTTAACCATAACTTCCAGATTCTTGATGCCGTATTCTTTCACGGCGTCAGCGCAACGCTCTGCTGCAACCTGAGCT -GCAAACGGAGTGGATTTGCGAGAACCACGGAAACCGGAACCACCGGCTGTTGCCCAACCCAACGCGTTACCCTGACGATC -AGTGATAGTCACGATGGTGTTGTTGAAAGAAGCATGGATATGAGCCACGCCGTCAGAGACTTGTTTTCTTACACGTTTAC -GTGCACGAATTGGTGCCTTTGCCATTATTCAATCACCCCGATTATTTCTTGATCGGTTTGCGCGGACCCTTACGGGTACG -TGCGTTGGTCTTGGTACGCTGACCGCGAACCGGGAGACCACGACGATGACGCAAACCGCGATAGCAACCAAGATCCATCA -GGCGCTTGATGCTCATGCTGATTTCACGGCGCAGATCACCTTCAACGACAAATTTGGCAACTTCGTCACGCAGCGTGTCG -ATTTGTCCTTCAGACAGCTCACTGATCTTAACATCTTCAGCGATACCCGCTGCAGCCAGGATGGCTTTAGAACGGGTCTT -GCCGACGCCATAAATCGAAGTTAATGCGATTACGGCATGCTTATGATCAGGAATGTTAATGCCTGCTATACGGGCCACTA -TGCACTCCTACTATTTAATATGTACGTTCCATGCTGAAAAGCCCGTTTTCAGGATACTCAAATGGAAACGCACAGACATA -CAAAAGATTGGCTGGCTAATCTAGCCAGCTCAACCCAACTTTGCAAGAAAAATATGCGAAAAAATCAGCCTTGGCGCTGT -TTATGCTTCGGCTCGGCACTGCAAATCACACGGATGACACCATCACGCTTAACGATTTTGCAGTTACGGCATAATTTCTT -GACGGAAGCACGAACTTTCATTTTTACTCTCCGTAACTTCTCGGGCGACCAATTATCGGCCGTAGCCTTTCAGGTTCGCC -TTCTTCAATGCAGACTCATACTGACTGGACATCATCAGAGTTTGCACTTGAGCCATAAAGTCCATAATCACGACAACAAC -GATAAGCAGTGAGGTCCCACCGAAGTAGAACGGTACTTTCATTGCATCACGCATGAACTCCGGGATCAGGCAGATAAAGG -TAATATACAGCGCACCAACCAGGGTCAGGCGGGTCATTACTTTATCGATATACTTCGCCGTTTGCTCTCCCGGACGAATT -CCTGGTACAAATGCACCGGACTTCTTCAGGTTATCTGCTGTTTCACGCGGGTTGAAAACCAACGCCGTGTAGAAGAAACA -GAAGAAGATGATTGCAGACGCATAGAGTAACACATAAAGCGGTTGCCCAGGCTGCAAATACAGCGAAATTGTTGTCAGCC -AGTTCCAACCAGTACCGCCCCCGAACCATGACGCGATGGTCGCCGGGAACAGAATAATACTGGAAGCGAAGATTGCCGGG -ATTACCCCCGCCATATTCACTTTCAGCGGTAAATGTGTGCTCTGTGCAGCATAGACACGACGACCTTGCTGACGTTTCGC -GTAGTTTACCACAATGCGGCGTTGACCACGCTCAACAAATACAACAAAGAACGTCACTGCAAATACTAATACTGCAACCA -ACAGCAACACGAGGAAGTGCAGGTCGCCTTGACGCGCTTGCTCGATAGTATGGGCAATGGCTGGCGGGAGTCCCGCGACA -ATACCGGCGAAGATAATGATTGAAATACCGTTGCCGATACCTCGTTCAGTAATCTGTTCGCCCAACCACATCAGGAACAT -GGTTCCTGTGACCAGACTTACAACAGCGGTGAAGTAGAATGCAAAGCCCGGGTTAATCACCAGGCCTTGCATACCAGGCA -TATTCGGCAGACCGGTAGCAATACCGATCGACTGGAATATTGCCAGCACCAGAGTACCGTAGCGGGTGTACTGGCTGATC -TTACGACGACCAGACTCCCCTTCTTTCTTAATTTCTGCCAACGTTGGGTGAACCACCGTCAGCAGCTGGATAATGATCGA -CGCCGAAATATACGGCATGATCCCCAGAGCAAAGATAGAAGCACGGCTGAGAGCACCACCAGAGAACATGTTAAACATCT -CAATGATGGTGCCTCGCTGTTGCTCAAGCAGTTTGGCAAGTACAGCGGCATCAATACCAGGGATCGGAATAAAAGAGCCA -ATACGGAACACAATCAGCGCACCGATAACAAACAGCAGTCTGCGTTTCAGCTCGCCTAAGCCACCTTTGGCACTTTGAAA -ATCTAATCCCGGTTGTTTAGCCATCTGCTACTTATTCCTCGATTTTACCGCCAGCAGCTTCGATAGCAGCACGAGCGCCT -TTAGTAACACGCAGGCCACGAACAGTTACCGGAGTCGTTACTTCGCCAGCCAGGATCACTTTCGCGAACTCGATCTGGAT -ACCGATAATGTTAGCCGCTTTCAGCGTGTTCAGGTCTACTACACCGCCTTCTACTTTAGCCAGGTCAGACAGACGAATTT -CGGCTGTAATCGCTGCTTTACGAGAAGTGAAGCCGAATTTCGGCAGACGACGGTACAGAGGCATCTGACCACCCTCGAAA -CCGCGACGTACGCCACCGCCAGAACGAGACTTCTGACCTTTGTGACCACGACCACCGGTTTTACCGAGGCCAGAACCGAT -ACCACGACCCAGGCGTTTACCCGCCTTTTTGGAGCCTTCGGCCGGAGACAGAGTATTTAAACGCATCTCTTACTCCTCAA -CTTTAACCATGAAGGAAACCGCGTTGATCATACCGCGAATAGCAGGAGTATCCTCGCGCTCTACGGTGTGACCAATACGA -CGCAGACCCAGGCCAAGCAGCGTTGCCTTGTGTTTCGGCAGACGACCGATTGCACTGCGGGTTTGAGTAATTTTAATAGT -CTTTGCCATGGTTTATTTCCCCAGAATTTCTTCAACGGATTTACCACGCTTGGCAGCGACCATTTCTGGAGAATTCATAT -TTTCCAGGCCATCAATAGTTGCACGAACCACGTTGATCGGGTTGGTGGAACCATAGGCTTTAGCCAGAACGTTATGAACC -CCAGCGACTTCCAGAACGGCGCGCATTGCACCACCGGCGATGATACCGGTACCTTCGGAAGCCGGCTGCATGAATACGCG -AGAACCCGTGTGAACACCTTTAACAGGGTGTTGCAGAGTGCCGTTATTCAGCGCGACGTTAATCATATTGCGACGGGCTT -TTTCCATCGCTTTCTGGATCGCTGCTGGAACTTCACGCGCTTTACCGTAACCAAAACCAACGCGACCGTTACCATCGCCA -ACTACAGTCAGAGCTGTGAAGGAGAAAATACGACCACCTTTAACGGTTTTAGATACGCGGTTTACCGCGATCAGCTTTTC -CTGCAGTTCGCCAGCTTGTTTTTCGATGTGAGCCATCTTACACCTCTACCTTAGAACTGAAGGCCAGCTTCACGGGCAGC -ATCTGCCAGTGCCTGGACACGACCATGATATTGGAACCCGGAACGGTCAAAGGATACATCTTTGATGCCTTTTTCCAGAG -CGCGTTCAGCGACAGCTTTACCCACAGCTGCAGCCGCGTCTTTGTTACCGGTGTACTTCAGTTGTTCAGCGATAGCTTTT -TCTACAGTAGAAGCAGCTACCAGAACTTCAGAACCGTTCGGTGCAATTACCTGTGCGTAAATGTGACGCGGGGTACGATG -TACCACCAGGCGAGTTGCGCCCAGCTCCTGGAGCTTGCGGCGTGCGCGGGTCGCACGACGGATACGAGCAGATTTCTTAT -CCATAGTGTTACCTTACTTCTTCTTAGCCTCTTTGGTACGCACGACTTCGTCGGCGTAACGAACACCCTTGCCTTTATAA -GGCTCAGGACGACGGTAGGCGCGCAGATCCGCTGCAACCTGGCCGATCACCTGCTTATCAGCGCCTTTCAGCACGATTTC -AGTCTGAGTCGGACATTCAGCAGTGATACCCGCAGGCAGCTGATGGTCAACAGGATGAGAGAAACCCAGAGACAGGTTAA -TCACATTGCCTTTAACCGCTGCACGGTAACCTACACCAACCAGCTGCAGCTTCTTAGTGAAGCCTTCGGTAACACCGATA -ACCATTGAGTTCAGCAGGGCACGCGCGGTACCAGCCTGTGCCCAACCGTCTGCGTAACCATCACGCGGACCGAAGGTCAG -GGTATTATCTGCATGTTTAACTTCAACAGCATCGTTGAGAGTACGAGTCAGCTCGCCGTTTTTACCTTTGATCGTAATAA -CCTGACCGTTGATTTTTACGTCAACGCCGGCAGGAACAACGACCGGTGCTTTAGCAACACGAGACATTTTTTCCTCCGAT -TAGGCTACGTAGCAGATAATTTCGCCACCAAGACCAGCCTGGCGCGCTGCACGATCAGTCATAACACCTTTAGAGGTAGA -AACAACTGCGATACCCAGACCCGCCATAACTTTCGGCAGCTCATCTTTACGTTTATAGATGCGCAGACCTGGGCGGCTGA -CACGCTGAATGCTTTCTACAACAGCTTTGCCCTGGAAATACTTCAGAGTAAGTTCCAGTTCAGGCTTGGTGTCGCCTTCA -ACTTTAAAATCTTCAATAAAACCTTCTTCCTTCAGCACGTTGGCGATTGCCACTTTCAGCTTGGAGGAAGGCATGGTGAC -CGCAGCTTTGTTCGCGGCCTGACCGTTACGGATACGGGTCAGCATATCCGCGATCGGATCTTGCATGCTCATCTGTCTTT -ACTCCCGTGATTCAATTGGTGACAATTACCAGCTAGCCTTTTTCAGACCCGGGATTTCACCGCGCATAGCGGCTTCACGG -ACCTTAATACGGCTCAACCCGAACTTCCGCAGGAAACCATGCGGACGACCTGTTTGACGGCAGCGGTTACGCTGACGAGA -CGGGCTGGAATCACGCGGCAGAGTCTGCAGCTTGAGAACAGCGTTCCAACGATCTTCGTCGGAAGCGTTCACATCAGAGA -TGATCGCTTTCAGTTCAGCGCGTTTCGCGAAGTATTTATCAGCTAAAGCTACGCGTTTTACTTCGCGTGCTTTCATTGAT -TGCTTAGCCATTTAGTAACCCTACCTTACTTGCGGAACGGGAAGTCAAAGGCAGCCAGCAGAGCGCGGCCTTCTTCGTCA -GATTTCGCAGTAGTGGTAATGGTAATATCCAAACCACGAACGCGGTCGACTTTATCGTAGTCGATTTCTGGGAAGATGAT -CTGCTCACGGACACCCATGCTGTAGTTACCACGACCGTCGAAAGACTTAGCGGACAGGCCACGGAAGTCACGGATACGAG -GTACAGCAATAGTGATCAGGCGCTCAAAGAACTCCCACATGCGTTCGCCACGCAGAGTTACTTTACAGCCGATCGGATAG -CCCTGACGGATTTTGAAGCCTGCAACAGATTTGCGTGCTTTGGTGATCAGCGGTTTTTGACCGGAGATTGCTGCCAGGTC -TGCTGCTGCGTTATCCAGCAGTTTTTTGTCAGCGATCGCTTCACCAACACCCATGTTCAGGGTGATCTTCTCGACCCGAG -GGACTTGCATGACAGAATTGTAGTTAAACTCAGTCATGAGTTTTTTAACTACTTCGTCTTTGTAGTAATCATGCAGTTTC -GCCATCGTACTACTCCAAATTACTTGATAGTTTCGCTGTTAGACTTGAAGAAACGGACTTTTTTACCGTCTTCGAATCTA -AAGCCTACACGGTCAGCCTTGCCGGTTGCCGCATTGAAGATTGCTACGTTGGAAACCTGAATAGCGGCTTCTTTTTCAAC -GATGCCACCCGGTTGGTTCAGGGCCGGAACCGGCTTCTGATGTTTCTTAACCAGGTTGATACCTTCAACAATGACCTTGC -CGGAAGACAGGACATTCTTAACTTTACCGCGTTTACCTTTATCTTTACCGGTTAACACGATAACTTCGTCATCACGACGG -ATTTTCGCTGCCATGATTCGCTCCTTAGAGTACTTCTGGTGCCAGAGAGATAATTTTCATGAACTTCTCACTACGAAGCT -CACGAGTTACCGGCCCAAAAATACGCGTACCGATAGGCTGCTCGCTGTTGTTGTTCAGAAGAACACAAGCATTACCATCG -AAGCGAATGACAGAACCGTCCGGGCGACGAACACCCTTCTTGGTGCGCACCACTACCGCCTTCAGCACATCACCTTTTTT -GACCTTACCACGCGGAATTGCTTCTTTGATGGTGATCTTGATGATGTCGCCTACGCCTGCGTAGCGACGGTGCGAGCCAC -CCAGAACCTTGATACACATTACGCGACGTGCACCGGAGTTGTCGGCGACGTTCAGCATAGTCTGTTCTTGGATCATTTTA -GTGCTCCGCTAATGTCAACTACTACTGAGACCCGAAAATCAGGTCGTTAAAAATCCCCATATCGAGGGCGCGGCATTATA -ACACCGCTTCAAGGATATGGGTAGAAAAAATAAACGGCTCATTTCTGAGCCGTTTATTCGTATTGAGAGAGTGTACTGTA -TTACAGAACCGCTTTCTCTACAACGCGAACCAGCGTCCAGGATTTAGTCTTGGACAGCGGACGGCATTCGCGGATTTCAA -CCACGTCACCGATACCGCATTCGTTGTTCTCGTCATGTACGTGCAGTTTGGTCGTACGCTTGATGAATTTACCGTAGATC -GGGTGTTTCACAAAACGTTCGATAGCAACAACAATGGATTTCTCCATTTTGTCGCTAACAACGCGACCTTGCAGAGTACG -GATTTTATCGGTCATTACGCACCCGCCTTCTCGTTCAGTAAAGTCTTAACGCGTGCGACATCGCGACGCACTTGCTTCAA -CAGGTGAGACTGTTGCAGCTGGCCACTTGCAGCCTGCATACGCAGGTTGAACTGCTCACGCAGCAGGTTCAGCAGCTCGG -TGTTCAGCTCTTCAACGCTCTTCTCACGCAGCTCTTTTGCTTTCATTACATCACCGTCTTAGTTACAAAGGTGGTTTTAA -TCGGCAGTTTCGCTGCTGCCAGCTTGAATGCTTCACGGGCCAGCTCTTCCGGAACACCGTCCATTTCATACAGGACTTTA -CCCGGCTGAATCAAGGCAACCCAATACTCCACGTTACCTTTACCTTTACCCATACGCACTGCCAGCGGCTTTTCAGTGAT -CGGTTTGTCCGGGAACACACGGATCCAGATCTTACCTTGACGCTTAACTGCACGGGTCATAGCACGACGTGCTGCTTCGA -TCTGACGGGCAGTCAGACGACCACGGCCAACAGCTTTCAGACCGAAGCTGCCGAAGCTAACATCCGTACCCTGCGCCAGA -CCGCGGTTACGGCCTTTGTGCATTTTACGGAATTTTGTACGCTTTGGTTGTAACATCAGCGACGCTCCTTATTTACGGCC -TTTACGCTGCTGCTTTTTAGGCTGAGCAGCCGGTTTTTCCGGTTGTTCAACAGCAGCCATACCACCCAGGATCTCGCCTT -TGAAGATCCACACTTTAACGCCGATTACACCGTAAGTGGTGTGCGCTTCAGAGGTGTTGTAGTCGATGTCAGCACGCAGA -GTGTGCAGCGGTACGCGACCTTCGCGGTACCATTCGGTACGTGCGATTTCCGCGCCGCCCAGACGGCCGCTAACTTCAAC -TTTAATACCTTTAGCGCCCAGACGCATTGCGTTCTGTACAGCACGCTTCATAGCACGACGGAACATAACGCGACGTTCCA -GCTGAGAAGTGATGCTGTCAGCAACCAGTTTTGCGTCCAGTTCAGGCTTACGAACTTCGGCGATGTTGATCTGTGCAGGA -ACGCCAGCGATGTCCGCTACGACCTTACGCAGTTTTTCTACGTCTTCACCTTTTTTACCGATAACGATACCCGGGCGAGC -AGTGTGAATGGTTACACGGATGCTCTTAGCCGGACGCTCGATAACGATACGAGATACGGACGCTTTAGCCAGTTCCTTAG -TCAGGTACTGACGTACTTTAAAATCACTGTCCAGGTTGTCAGCGAATTCTTTGGTGTTCGCAAACCAGGTAGAGTTCCAT -GGTTTTACAATACCCAGGCGAATACCATTAGGATGTACTTTCTGACCCATTGCTAGTCTCCAGAGTCTCAGCGATCGGAC -ACAACCACAGTGATGTGGCTGGTGCGCTTCAGGATGCGATCTGCACGACCTTTTGCACGCGGCATAATGCGCTTCATGCT -CGGGCCTTCGTCTACGAAAATTTTCGTAACTTTCAGATCGTCAATGTCAGCGCCATCGTTGTGTTCAGCGTTAGCAATGG -CAGATTCCAGAACTTTCTTGACCAGTACAGCCGCTTTCTTGTTGGTGTAGGTCAAAATATCCAGAGCCTGCGACACTTTC -TTACCGCGAATCAGGTCAGCAACAAGGCGAACCTTCTGAGCAGAAGAACGAGCATGGCGATGTTTAGCGATAGTTTCCAT -CTCTTCCTCCTACCTTATTTCTTCTTCGCTTTTTTATCAGCAGCGTGGCCGCGATAAGTACGAGTCGGTGCGAATTCACC -CAGTTTGTGACCAACCATTTCGTCGGTTACAAATACCGGAACGTGCTGACGACCATTATGGACAGCGATGGTCAAACCGA -TCATGTTAGGAAAGATCGTTGAACGACGGGACCAAGTGCGCAGGGGCTTCTTGTCTCCGCTTTCCACCGCTTTCTCTACC -TTCTTCAGCAAGTGCAGGTCAATAAAAGGACCTTTCTTGAGAGAACGTGGCATGGCTTATCCTCTAAAATTATTTGCTAC -GGCGACGTACGATGAATTTATCAGTACGCTTGTTGCTGCGGGTCTTCTTACCTTTGGTCTGAACGCCCCACGGAGTTACC -GGGTGCTTACCAAAGTTACGACCTTCACCACCACCATGTGGGTGGTCTACCGGGTTCATCGCGGTACCGCGAACGGTCGG -ACGAACACCACGCCAGCGTGCAGCACCTGCTTTACCCAGAACGCGCAGCATATGCTCAGCATTGCCAACTTCGCCCAGAG -TTGCACGGCAGTCTGCTTCTACTTTACGCATTTCACCAGAACGCAGACGCAGGGTGACATAAGCACCATCACGAGCAACG -ATCTGAACGTAAGTACCAGCGGAACGTGCCAGCTGACCGCCTTTACCTGGTTTCATTTCTACGTTATGAACAGTAGAACC -AACCGGGATGTTGCGCATCGGCAGGGTGTTACCTGGTTTGATTGCAGCATCAACGCCAGACTGAATCTGGTCGCCAGCTT -TCAGGCCTTTAGGGGCCAGGATGTAACGGCGTTCACCGTCTTTGTACAGAACCAGCGCGATGTTCGCGGAACGGTTCGGA -TCGTACTCAAGACGTTCAACAACTGCCGGGATACCGTCTTTGTTGCGTTTGAAGTCAACAATACGGTAAGCCTGCTTGTG -GCCACCACCGATATGACGAGTGGTGATACGGCCATTGTTGTTACGACCACCGGATTTGCTGTTTTTTTCCAGCAACGGAG -CAAAAGGTTTGCCCTTGTGCAGCTCAGGGTTAACCACTTTAACTACGTGGCGACGACCCGGAGATGTCGGTTTACATTTA -ACAACTGCCATTGTATTACTCCTCCGACTTACTCAGCGCCGCCAACGAAGTCCAGATTCTGGCCTTCTTTCAGGGTGACG -TAAGCTTTTTTCCAGTCGCTACGACGACCGATACGCTGTCCGTGACGTTTAACTTTCCCTTTAACTACCAGGGTGTTAAC -GACTTCGACTTCGACTTCAAACAGTTTCTGCACAGCAGCTTTGATTTCTGCTTTGGTCGCGTCTTTAGCAACTTTGAGTA -CGATGGTGTTGGATTTTTCCATCGCAGTAGACGCTTTTTCAGAAACGTGCGGTGCACGCAGCACCTTCAGCAGACGTTCT -TCACGAATCATGCCAGCATCTCCTCAACTTGCTTAACAGCATCAGCAGTCATTACGACTTTGTCGAAGGCGATCAGGCTA -ACCGGGTCGATACCAGTTGCATCGCGTACGTCAACCTTGTGCAGGTTGCGCGCAGCCAGGAACAGGTTTTCGTCCAGCTC -ACCGGTGATGATCAGCACATCTTCCAGAGCCATGTCTTTCAGTTTCTGTGCCAGCAGCTTAGTTTTCGGCGCTTCTACAG -AGAACTTCTCGACAACGATCAGACGATCCTGACGTACCAGTTCGGACAGGATGCTTTTCAGCGCGCCGCGGTACATCTTC -TTGTTAACTTTTTGACTGTGGTCCTGCGGACGAGCAGCAAAGGTCACGCCACCAGAACGCCAGATCGGGCTCTTGATAGA -ACCAGAACGCGCACGGCCGGTGCCTTTCTGGCGCCACGGTTTTTTACCGGAACCAGTTACTTCAGCACGAGTCTTCTGAG -CACGAGTACCCTGACGAGCACCAGCTGCATAAGCAACAACAACCTGGTGAACCAGCGCTTCGTTGAAATCACGACCGAAG -GTAGTTTCGGAAACAGTCAGCGCGCTCTGCGCGTCTTTCAATACTAATTCCATTGCTATCTCCTTACGCCTTCACAGCTG -GTTTAACGATCAGGTCGCTACCGGTTGCACCCGGGACAGCACCTTTAACCAGCAGCAGGTTGCGCTCAGCGTCAACGCGT -ACTACGTCAAGGCTCTGAACGGTTACACGTTCGTTACCCATCTGACCTGCCATTTTCTTGCCTTTGAACACTTTGCCCGG -AGTCTGGTTCTGACCGATAGAACCCGGAACGCGGTGAGACAAGGAGTTACCGTGAGTAGCGTCCTGGGTACGGAAGTTCC -AGCGCTTAACGGTACCTGCGAAACCTTTACCTTTAGAGGTGCCAGTTACGTCAACTTTTTTAACGTCAGCAAACAGTTCA -ACGCTAATGCTCTGACCTACAGTGAACTCTTCGCCTTCAGCCAGGCGGAATTCCCACAGACCACGGCCAGCTTCTACGCC -AGCTTTAGCGAAGTGGCCAGCTTCAGGCTTGGTCACACGGTTAGCTTTTTTAGCACCGGTGGTCACCTGAATAGCACGGT -AGCCATCGTTAGCCAGGTCTTTAACCTGAGTAACGCGGTTTGCTTCAACTTCGATTACGGTTACTGGGATAGAAACGCCG -TCTTCTGTGAAGATACGGGTCATACCCACTTTTTTACCGACTAAACCAATCATTGTTTCAACCTCTCAATCGCTCAATGA -CCTGATTAACCCAGGCTGATCTGCACGTCTACACCGGCAGCCAGATCCAGACGCATCAGAGCATCAACGGTTTTCTCGGT -TGGCTCAACGATGTCAACCAGACGCAAGTGAGTACGGATTTCGTACTGATCGCGCGCGTCTTTGTTGACGTGCGGGGAGA -TCAGAACAGTGAAGCGCTCTTTGCGTGTCGGCAGCGGGATCGGACCACGGACCTGCGCACCAGTGCGCTTGGCAGTCTCG -ACGATTTCCGCGGTTGCTTGATCGATCAGACGATGATCAAACGCTTTCAGGCGGATACGGATTCTTTGGTTCTGCATGAG -ACCAGAGCTCCAATTATTTTATAAACGAAAATGATTACTCCTCAGACCCATTACGATTGATGGGAGAGTGTAACCGTTCT -TACGTAGCTCCCCGATTGGGAGCATTGTTAGGTAGCCAAATTCGGCTAACTGAGGTTCAGATTGAACCTGCTGTCAACTA -CGACAAGCCCGCGCATTATACATACTTAACCACCGAACGCAAGCGTATTGCTAGTAAAGTAAACAGCCTTCGGGTTATCT -CTCAAGTTCGTTCAGTGCATTTTTGACACGCTCTCTTAAACCGGCTTTCTCTTCGCTTTCTTCCACAGTATTTTCTTCGT -CTTCAGAAGAAGAGGGGGCATTCTCAACCGCGACGCCTGGGTCATCTTCCTCCTCGACGGATTCGACGACGGGGAGTGGC -TGTTTTTTGAAGAAATAGTGTTGTGTTGATTGTTTAAAAGCGGGCGTTTCAGCCTCTACAGTGACTTCGGCTTTTACTAT -CCAAAGCACCCATAGCTGCCTGGCATACCCACCAACCAGCACCATTCCTGCAAACCACAGGCAAATCAGTAATAAACAAA -TTACATATATTATGGTGCTGTGTTTTTGTCGGGAGAAGATACCAGGGTGACCTGTTTCTTTCTGCTCACGCGCGGCGATA -TAGAATTCAAACATGTCATTTCCCCTTCACTGTTGTTTCCGGGGAAATATTTGCTTCATCCCGATATAAGTAGGCACTCT -CCCCTGCCACCTGCCAGAGATGTACTAACGTTGAAAAGCCAACAACACCGTCAGTTTTCAAGTGGTGGCTTTTTTGAAAT -TGCTTTATTTTTTCTACCAACAAGGGACGCCACTCCGCCGAAGGTTCTGTCGAAATATGCAATGCGCGGTTTAACATCGT -TTCCAGCCAGAGAATCTCTTCCTCGCTGCTATCACGCGTAATGGTACTCTCCCCTTCCGGCGACATTTTCCACAACAGAA -GATAATCACCCGTCCATACCGACTCAAACCATTTATGTGTCAGCGTCCACGTTTGCTGACCTACGAGGACATCAACGCTA -GCCTCACCGACGCGAACGACCACAACAGGCAATTTTTTGTCCCCGACTTTAAGCGATGCGATCCAGGGCAAATTCTGATC -TACCAATGTTTGTAAAGAAGCATTCCCACTTTTACATGCCAGCCCCGCTCTTACTGCCTGATCGCACCAGGCCGAATCAG -CTGGGACCTCGTACCCCCATACGCCGTATAACACGCTTAGCGCCTCACTATCGCGCATCACCACATGAGCAATATCCTTA -GTCATATCTTGTTTAACTACTGGCGTTACGGGTATCAGCCACGCAGGAACGGGTAACGTAGCTGTAAAAGAGGACAGCAG -TAGCCAACCACAGGTAAGAGCGATAATGGTTCCACTCATCACCACGGCAAGCTGCATTTTCCGGGGGCGGTTATCACCCA -ATATGCGGTAAATCATTCGCCATTGTTTTGCTGTGAAAACGCTGGTCTGCTCGGCTTGCTGTAATAAGCGAATTGTTTCG -CCGGCAAGCGCCAGCTTTCTGCGATCGCCCCGACATAATAAAGCTATCCGTTTCAGAACTCTGGCGGTTAAAAGGAGATC -GGGTTGGTCAATATTCTGACCTTCAAGGATGCTTGCCTTAAGTTCGTGCTCCGTCAGACGTCCTATCGAGACAAGTTCAA -TGCCCTGTTTTTTAAAATCACGTTCGACTTTTCGATCGGGTCTGCCGATCAGCAAAAATTGACCGTCAGGAATAAGAGAT -ATTGCGCGTTGGAGATCATCAAGTATGCGGCGGTGATTCAGGTGAGCATTTTCAATAATAATAAGAGGGCAGCGACTATC -AGTTCGATGAAGCGCATGCAGTAATTGCCCCGCCATCTCATCTCGCGTCCAGGCGCTGTCACGGCAGCCCTGTTCAGCCG -CGTTATCGTCGGTAACGATCCATGCGGCCTTACCTTGCCAGGAAACAACGAGGCTTAAAGTAATCACACGGCGATGTTTA -TCTTTTTGCAGTTGCTGCGCCAGCCAGGTTTTTCCACTTCCAGCCTCACCCAACAAATAGCATAGACGCCAGGTTTGACG -TTTCTCACACAACCAGGAAAGAATAACTTCTCTTCTCGTAGACATAGAACTTCCTGTTTTAATTATTGATTATCCTTAAT -CATAAAAATAATGTATGTATTTATTAATTAAATACATATTACTAATATAAATAAATTTTGCTTGATTCATGCAAGCGGCA -TTAATACTATTTATACTAACGTCAATATACAACCCACCCAATCTATTTTATTAGAACATACATCGTGCCCACACTACGTT -TCCCCTTCCATCTGGCGAATCATAATAAAGATGCTGCCATCAATATATTGATTATATTTATAAGCATAGGGTCGATTATT -TTTAATGTGAATTATTTCCATACAACTATAGTTAAAAATGGACAGATCATTAATCAACCAACAAACGCATTTCAGTCTGA -TTTCAGCCTTGCCGCTTTATGGCGTAACGAAAATCATGCTGGGGTAAAAGATGCAAATCCCGTGGCAGTTAATCAGGAAA -CACCTAAGCTCTCTATAGCGCTTAATGGCATTGTACTCACATCGAATGATGAGACTTCTTTTGTCTTAATTAATGAGGGG -AGCGAACAAAAGCGATACTCCCTCAACGAAGCCCTTGAGTCAGCGCCGGGAACGTTTATTAGAAAAATAAATAAAACCAG -CGTTGTGTTTGAAACTCACGGGCATTACGAAAAAGTAACTCTCCATCCAGGGCTACCTGACATCATCAAGCAGCCTGATT -CAGAAAGTCAAAATGTACTCGCTGATTATATTATCGCCACGCCTATACGTGATGGAGAACAGATATACGGGCTTCGATTG -AACCCTCGTAAGGGCCTCAATGCATTTACCACCAGCTTGCTACAACCAGGGGATATCGCCCTCAGGATCAATAATCTTTC -GCTGACCCACCCTGATGAGGTTTCACAGGCATTAAGTTTACTGCTAACTCAACAAAGTGCTCAGTTTACAATTCGTCGCA -ACGGCGTACCCCGCTTGATAAATGTTTCCGTCGGGGAACTTACAGGAATGAATGGACTGCGTCATGAAAGGACTCAATAA -AATCACCTGCTGCTTGCTGGCAGCACTACTCATGCCTTGTGCAGGACACGCTGAGAACGAACAATACGGCGCGAACTTCA -ATAACGCCGATATCCGCCAGTTCGTGGAAATAGTGGGTCAGCATCTTGGCAAAACGATCCTGATCGACCCTTCGGTACAG -GGAACCATTTCCGTACGCAGTAATGATACGTTTAGCCAACAGGAGTACTACCAGTTCTTTTTAAGTATTCTTGATCTTTA -CGGTTATTCCGTGATCACGCTGGACAATGGTTTTCTGAAAGTGGTTCGCTCAGCTAATGTAAAAACATCGCCAGGGATGA -TTGCTGACAGTTCTCGTCCAGGCGTAGGTGATGAGTTGGTCACCCGAATTGTACCGCTTGAGAACGTTCCTGCTCGTGAC -CTGGCCCCCCTGCTCCGCCAGATGATGGATGCGGGTAGCGTCGGTAATGTTGTGCATTATGAACCCTCCAACGTTCTTAT -TCTGACCGGTCGTGCCTCCACCATTAATAAACTGATTGAAGTCATAAAGCGCGTTGATGTCATCGGCACAGAGAAGCAGC -AAATTATTCATCTGGAATATGCGTCAGCGGAAGATCTCGCCGAGATTCTTAATCAATTAATCAGCGAAAGCCACGGTAAA -AGCCAGATGCCAGCCCTCCTCTCCGCGAAGATTGTGGCGGATAAGCGAACCAACTCTCTTATCATCAGTGGACCGGAAAA -AGCACGCCAGCGCATCACTTCATTACTGAAAAGCCTTGATGTCGAAGAGAGCGAGGAAGGAAATACCCGGGTTTATTACC -TGAAATATGCTAAAGCCACGAATCTGGTGGAAGTGCTAACCGGTGTTTCCGAAAAGCTGAAAGATGAAAAAGGGAATGCG -CGTAAGCCCTCCTCTTCTGGCGCGATGGATAACGTCGCCATTACCGCCGATGAACAGACTAACTCTCTGGTCATTACCGC -TGACCAGTCCGTCCAGGAAAAACTCGCCACGGTAATTGCGCGTCTGGACATTCGCCGTGCACAGGTGCTGGTTGAGGCAA -TCATCGTTGAAGTTCAGGATGGAAATGGACTAAACCTCGGCGTGCAATGGGCGAATAAAAACGTTGGCGCACAGCAATTT -ACCAATACCGGATTACCGATTTTTAACGCTGCGCAAGGTGTGGCTGATTATAAAAAGAATGGTGGGATCACCAGCGCGAA -TCCTGCCTGGGATATGTTTAGCGCCTACAATGGCATGGCCGCAGGCTTCTTCAATGGCGACTGGGGAGTACTGCTTACCG -CGCTGGCCAGTAACAATAAAAATGACATCCTCGCCACCCCAAGCATCGTAACGCTGGATAATAAACTCGCGTCCTTCAAC -GTGGGGCAGGATGTGCCGGTGCTATCCGGGTCACAGACCACTTCAGGGGATAACGTCTTTAATACCGTCGAACGCAAAAC -GGTGGGGACAAAACTCAAAGTTACTCCGCAGGTCAATGAAGGCGACGCGGTGTTGCTCGAAATAGAGCAGGAAGTCTCCA -GCGTTGACTCTTCCTCTAACTCGACGCTCGGCCCGACGTTTAATACCCGTACTATTCAAAACGCCGTGCTGGTCAAAACC -GGTGAAACGGTGGTCCTGGGCGGATTGCTGGATGATTTTTCTAAAGAGCAAGTGTCAAAGGTTCCTCTGCTTGGCGATAT -TCCTTTAGTGGGGCAACTCTTCCGCTATACCTCCACCGAGCGCGCTAAACGCAACCTGATGGTATTTATCCGTCCGACGA -TTATCCGTGACGATGATGTTTATCGCTCACTGTCAAAAGAGAAATACACCCGTTACCGTCAGGAGCAACAACAGCGGATC -GACGGGAAATCAAAAGCGCTGGTTGGCTCGGAAGATTTGCCGGTGCTGGATGAAAACACGTTCAACAGTCACGCCCCTGC -GCCATCGTCACGGTGAGGCATTCATATGAGAATTCACTCACCGTACCCCGCCAGTTGGGCGCTGGCACAACGAATTGGTT -ATCTCTATTCAGAGGGCGAGATTATTTATCTCGCCGATACGCCATTCGAGCGGTTACTCGATATTCAACGTCAGGTTGGC -CAGTGCCAGACCATGACCAGCTTGTCACAGGCTGATTTTGAAGCTCGGCTGGAAGCGGTATTCCATCAGAATACCGGTGA -GTCGCAACAGATTGCGCAGGATATCGATCAATCCGTCGATCTTCTCTCGCTTTCGGAAGAGATGCCCGCAAATGAAGATC -TCCTGAATGAAGATTCAGCGGCACCGGTTATCCGCTTGATCAATGCGATTTTGAGTGAGGCCATCAAAGAAACCGCCTCT -GATATCCACATTGAAACCTATGAAAAAACAATGTCGATCCGTTTTCGCATCGACGGCGTTTTGCGGACAATTTTACAGCC -AAACAAAAAACTGGCGGCACTGCTTATCTCCCGAATTAAGGTCATGGCTCGTCTTGATATCGCCGAAAAACGTATTCCAC -AGGATGGAAGAATTAGTTTGCGTATCGGGCGACGTAACATAGATGTCCGCGTATCCACACTGCCGTCCATCTATGGTGAA -CGCGCCGTACTCCGCCTGCTGGATAAAAACAGCCTCCAGCTTTCATTGAACAACCTGGGGATGACGGCAGCGGATAAGCA -GGATTTAGAAAATCTCATTCAGCTTCCGCACGGTATTATCCTGGTGACAGGGCCGACAGGCTCCGGTAAAAGCACCACGC -TCTACGCCATCCTTTCGGCGCTGAATACTCCCGGCCGCAATATTCTGACGGTAGAAGATCCCGTGGAATATGAGCTGGAA -GGCATTGGGCAAACGCAGGTGAATACCCGTGTGGATATGTCTTTCGCTCGCGGCCTGCGCGCCATACTTCGCCAGGACCC -GGATGTCGTCATGGTGGGGGAAATTCGTGATACAGAAACCGCGCAGATTGCGGTTCAGGCCTCGCTCACCGGCCATCTGG -TACTCTCAACACTCCACACTAACAGTGCATCAGGCGCAGTGACCCGGCTCCGCGACATGGGCGTCGAATCATTCCTGCTT -TCGTCTTCCCTGGCAGGGATTATCGCGCAACGTCTGGTTCGTCGCCTGTGTCCGCAATGCCGACAATTCACGCCCGTATC -ACCCCAACAAGCGCAGATGTTTAAATATCATCAGCTCGCGGTGACAACAATTGGCACTCCCGTAGGCTGCCCTCATTGCC -ATCAATCCGGCTATCAGGGGCGCATGGCGATCCACGAAATGATGGTGGTGACGCCGGAATTACGGGCCGCTATTCATGAA -AATGTGGATGAACAAGCACTGGAGCGACTAGTCCGGCAACAACACAAGGCCTTAATCAAAAATGGCCTGCAAAAAGTGAT -AAGCGGTGACACCTCCTGGGATGAGGTTATGCGCGTCGCCAGTGCCACGCTGGAGAGCGAAGCATGAATTATCGCTATCG -CGCCATGACCCAGGATGGTCAAAAATTGCAAGGGATCATTGATGCTAACGATGAACGTCAGGCACGACTGCGGCTGCGTG -AAGAAGGGCTTTTCCTGCTGGATATTCGCCCCCAAAAAAGTTCGGGAGTAAAAACACGTCGCCCGAGGATCAGCCATAGT -GAACTGACGCTTTTCACCCGGCAGTTGGCAACCTTAAGCGCAGCGGCATTACCCCTGGAAGAGAGCCTTGCCGTAATCGG -TCAACAAAGCAGTAATAAACGACTGGGTGACGTGTTAAATCAGGTACGCAGCGCCATCCTTGAAGGGCATCCCCTTTCCG -ATGCATTACAGCATTTTCCCACGCTTTTCGATTCGCTCTATCGTACCCTGGTAAAAGCGGGCGAAAAGAGCGGGCTGCTG -GCCCCGGTGTTGGAAAAGCTGGCTGATTACAATGAAAACCGGCAGAAAATCCGCAGCAAGCTCATTCAGTCACTGATCTA -CCCCTGTATGCTCACTACGGTGGCGATTGGGGTCGTGATTATTCTCCTCACTGCTGTCGTGCCCAAAATTACCGAACAGT -TCGTGCATATGAAGCAGCAACTGCCGCTGAGTACACGCATTCTTTTAGGTCTGAGCGACACGTTGCAACGTACCGGCCCG -ACATTATTAGCGACAGTGTTTATTGTCGCTGTAGGTTTCTGGCTCTGGTTAAAACGCGGCAATAACCGCCACCGTTTTCA -TGCCATGTTGCTGCGCGTTGCGCTCATCGGCCCGCTGATTTGCGCCATTAACAGCGCACGCTATCTCCGCACTTTAAGTA -TTTTGCAATCCAGCGGCGTCCCTCTGCTGGATGGGATGAATTTGTCCACCGAAAGCCTCAACAACCTCGAAATTCGCCAG -CGTCTGGCAAATGCGGCAGAGAACGTTCGCCAGGGTAACAGCATTCATCTTTCGCTGGAACAAACCGCAATTTTCCCGCC -GATGATGCTCTACATGGTGGCCTCTGGCGAAAAAAGCGGGCAGCTCGGCACATTAATGGTCAGAGCCGCAGATAACCAGG -AGACACTCCAACAAAATCGGATCGCCTTAACGCTCTCCATCTTCGAGCCAGCACTCATTATTACGATGGCACTGATCGTC -CTGTTTATTGTCGTGTCGGTACTCCAACCTCTTCTTCAACTTAACTCAATGATTAATTAAGGAAAGCATATGCGCGCAAC -GGATAAGCAACGCGGTTTTACATTACTGGAAATTATGGTGGTGATCGTCATTATCGGCGTACTTGCCAGCCTGGTGGTTC -CTAACCTAATGGGCAATAAAGAAAAGGCGGATAAGCAAAAAGCCGTCAGCGATATTGTGGCGCTGGAAAACGCCCTTGAT -ATGTACAAACTCGACAATCATCACTATCCAACCACAAATCAGGGGCTTGAATCCTTAGTAGAAGCGCCGACACTGCCACC -GCTGGCCGCAAACTATAACAAGGAAGGTTATATCAAGCGTCTGCCTGCCGATCCCTGGGGCAATGATTATGTCCTCGTTA -ATCCTGGTGAACATGGTGCATACGATCTGCTTTCAGCAGGGCCCGATGGTGAAATGGGAACCGAGGACGACATCACCAAC -TGGGGTTTGAGCAAGAAGAAAAAGTAAGTCAGCGATGAATCAGCAACGCGGGTTTACCCTGCTGGAGATGATGCTGGTGC -TGGCGCTGGTCGCTATCACGGCAAGCGTGGTGCTCTTCACATATGGCCGGGAGGATGTCGCCAGCACTCGTGCGCGCGAA -ACAGCGGCGCGGTTTACCGCTGCACTTGAATTAGCCATCGACCGCGCCACGCTCAGTGGTCAGCCTGTCGGTATCCATTT -CTCTGATTCAGCATGGCGCATTATGGTACCGGGCAAAACACCATCAGCCTGGCGCTGGGTTCCATTACAAGAAGATGCCG -CAGACGAGAGCCAAAATGACTGGGATGAAGAACTCTCAATTCATCTTCAGCCATTTAAACCTGATGACAGCAACCAGCCA -CAGGTTGTGATTCTGGCCGACGGACAAATCACGCCCTTCTCTTTGTTGATGGCTAACGCCGGGACCGGTGAGCCGCTCCT -GACGTTAGTCTGTTCAGGCTCATGGCCCCTGGATCAAACGCTCGCCAGAGATACCCGCCCATGAACAAACAATCAGGGAT -GACACTGCTTGAAGTCTTACTGGCGATGAGTATTTTCACCGCTGTTGCTCTGACTTTAATGAGCAGTATGCAAGGGCAAC -GAAATGCCATCGAGCGAATGCGTAACGAGACGCTGGCATTGTGGATAGCGGATAACCAGCTTCAGTCACAAGATTCATTC -GGCGAGGAAAACACGTCCAGTTCTGGCAAAGAGTTAATAAATGGCGAAGAGTGGAACTGGCGCAGCGATATCCACTCAAG -CAAAGACGGCACGCTTCTGGAACGCACCATAACGGTGACATTACCCAGCGGTCAGACAACCTCGCTTACGCGTTATCAAA -GCATCGATAATAAATCCGGGCAGGCACAAGATGATTAATCGCCAGCAGGGTTTCACATTGCTGGAGGTCATGGCGGCGCT -GGCGATTTTCTCAATGCTTAGCGTGCTGGCGTTTATGATTTTTTCGCAAGCTTCCGAGTTGCATCAACGCTCACAGAAAG -AAATCCAGCAGTTCAATCAGCTACAGCGCACCATCACCATTCTTGATAACGATCTCCTGCAACTGGTCGCCCGGAGGAAT -CGGAGTACGGACAAAATCATGGTGTTGGGTGAAGAAGCTATTTTTACCACGCAAAGTCGCGATCCGCTGGCTCCTCTCAG -TGAAGCACAAACCTTACTCACTGTTCACTGGTATCTGCGAAATCATACGCTCTACCGTGCTGTTCGTACTTCTGTGGATG -GCAGGAAGGATCAACCCGCCCAGGCGATGCTGGAACATGTCGAGAGCTTTCTTCTGGAAAGTAACAGCGGGGAAAGCCAG -GAACTTCCTCTCTCAGTCACGTTACATCTGCAGACTCAGCAATATGGGGGGTTACAGCGCCGTTTTGCATTACCTGAGCA -GTTAGCGAGAGAAGAGTCGCCAGCTCAGACGCAGGCCGGGAATAATAACCATGAATAATGAACAACGCGGCGTCGCGCTG -CTCATTGTACTCATGTTACTGGCGCTCATGGCTGCTCTGGCAGCAGACATGACGCTCAGTTTTCACAGCCAGCTTCAGCG -AACCCGCCAGGTAAACCATCATCTGCAACGGCAATATGATATTGAACTGGCGGAGAAACTTGCGCTTGCCAGCCTCACCC -AGGACGTTAAAGATAACGACAGACAGACCACGTTGCAGCAGTACTGGGCACAGCCACAACAGTTGCAGCTGGAAGATGGC -AATACAGTGAAGTGGCAGTTACGCGATGCCCAGCACTGTTTTAATCTCAATGCGTTAGCAAAAATCTCTGACGACCCGCT -GGCTTCCCCTGATTTCCCCGCCCAGGTATTCAGTGCGCTGCTGATTAACGCCGGTATCGATCGCGGAAACACCGATGAGA -TCGTGCAATCAATCGCTGACTATATTGATGTCGATGACTCACCACGCTTTCACGGCGCAGAAGATAGCTTTTACCAAAGC -CAGACGCCGCCCCGGCATAGTGCCAATCAGATGCTTTTTCTGACTGGCGAATTACGTCAGATAAAAGGCATAACCGAAAA -CATCTATCAGCGGCTTATCCCGTATGTCTGCGTTCTCCCGACCACGGAACTTAGCATCAATCTTAATATGCTAACGGAGA -ACGATATTCCGCTCTTCAGAGCGTTATTCCTCAATAACATCACGGATGCTGACGCTCGGGTCTTATTGCAAAAAAGGCCG -AGGGAAGGCTGGCTAACCACGGATGCATTTCTTTACTGGGCGCAGCAGGATTTCTCCGGTGTGAAGCCACTGGTTGCTCA -GGTGAAAAGGCATCTCTTTCCCTATAGCCGCTATTTTACGCTGAGTACGGAAAGTATCAGCGACGAACAATCCCAGGGAT -GGCAAAGCCATATTTTTTTCAACCGTAAACAGCAGAGCGCCCAAATCTATCGGCGTACGCTGCAACTCTACTAATCATAA -GGATCGTGATGCCTGAATCGTTGATGGTCATACGTTCTTCCTCGACGCTGCGTAAGCATTGGGAATGGATGACGTTCTCC -GCAGATAGCGTATCTTCGGTACATACGCTCACGGACGATCTTCCGCTGGAGTCGCTGGCCGATCAGCCCGGTGCCGGAAA -TGTTCATCTTTTGATCCCACCAGAGGGCCTTTTATATCGTTCCCTCACGCTGCCCAACGCCAAATACAAACTCACCGCAC -AAACATTACAATGGCTGGCAGAGGAGACGTTACCCGACAACACCCAGGACTGGCACTGGACGGTTGTCGATAAACAAAAC -GAAAGTGTCGAGGTGATAGGCATTCAGTCGGAGAAACTCAGTCGCTATCTTGAGCGTTTACATACTGCCGGACTCAACGT -GACGCGGGTTTTGCCAGATGGCTGCTATCTTCCCTGGGAAGTAGATAGCTGGACTCTGGTTAACCAGCAAACAAGCTGGC -TCATTCGCAGTGCCGCACATGCCTTCAACGAACTGGATGAACACTGGTTACAGCATCTTGCTGCCCAGTTTCCGCCTGAG -AATATGCTTTGTTATGGTGTAGTACCTCACGGCGTTGCAGCGGCCAATCCACTTATCCAGCATCCTGAAATACCATCACT -GAGTTTGTATTCTGCCGATATTGCATTCCAGCGCTATGACATGCTGCATGGTATTTTTCGTAAACAGAAAACTGTAAGCA -AATCGGGAAAATGGCTCGCCCGCCTGGCAGTAAGCTGTCTCGTTCTCGCCATTCTTTCTTTTGTTGGCAGCCGGAGCATC -GCGCTCTGGCATACGCTTAAGATTGAAGATCAACTTCAGCAACAACAGCAAGAAACCTGGCAACGTTATTTCCCGCAGAT -CAAACGCACCCACAATTTTCGTTTTTACTTTAAGCAGCAACTCGCTCAGCAATATCCTGAAGCTGTGCCGTTGCTCTATC -ATTTACAAACACTTCTGCTGGAACACCCTGAACTGCAGTTAATGGAGGCGAACTATAGCCAGAAGCAAAAGTCGCTGACC -TTAAAAATGAGTGCTAAGAGTGAAGCTAATATCGATCGTTTCTGTGAGTTAACACAGTCCTGGCTTCCGATGGAAAAAAC -AGAAAAAGATCCGGTCAGTGGTGTATGGACAGTAAGGAACTCAGGGAAATGATTAAATCATGGTGGGCAGAAAAATCCAC -ATCGGAAAAACAGATCGTTGCGGCACTGGCGGTTCTCTCGCTCGGCGTTTTTTGTTGGCTTGGGGTGATAAAACCGATAG -ATACCTACATTGCAGAGCATCAGTCCCACGCGCAAAAAATTAAGAAGGACATCAAATGGATGCAGGATCAAGCGAGCACC -CATGGTTTACTCGGTCATCCTGCGCTTACGCAGCCCATCAAAAATATCCTTCTCGAGGAAGCAAAACGTGAGAATTTGGC -TATCACGCTGGAAAACGGCCCGGACAATACTCTGACAATTCATCCTGTCACAGCTCCCCTCGAAAACGTCTCCCGCTGGC -TCACTACGGCACAGGTAACATACGGTATTGTTATTGAAGACCTTCAGTTTACTCTTGCCGGAAACGAAGAGATCACCCTC -AGGCATTTGTCCTTCAGGGAGCAACAATAATGACAATGCTACTGCCGCTCTTCATTCTGGTTGGTTTTATTGCAGATTAT -TTTGTTAATGCCATCGCCTATCACCTCTCGCCGTTGGAGGATAAAACGGCGTTAACGTTTCGCCAGGTATTGGTTCATTT -CAGGCAAAAAAAATATGCCTGGCATGATACAGTGCCCCTGATACTTTGTGTTGCTGCTGCTATCGCCTGCGCCCTGGCAC -CTTTCACGCCCATCGTGACTGGCGCACTCTTTCTCTATTTCTGTTTCGTACTCACGCTCAGTGTTATTGATTTTCGCACT -CAGCTCCTGCCCGACAAACTCACCTTACCGCTGCTCTGGCTTGGCTTGGTATTTAATGCGCAGTATGGATTAATTGATTT -ACATGATGCGGTTTACGGCGCGGTAGCGGGCTATGGGGTGCTGTGGTGTGTTTACTGGGGCGTCTGGTTAGTTTGTCACA -AAGAGGGATTGGGCTACGGTGATTTCAAGCTACTGGCCGCTGCAGGCGCATGGTGTGGCTGGCAAACGTTGCCAATGATA -CTGCTGATTGCCTCGCTGGGTGGCATTGGTTACGCCATCGTTTCACAACTTCTGCAACGCCGGACTATAACCACTATCGC -ATTCGGCCCGTGGCTTGCGCTCGGCAGCATGATAAACCTGGGGTATCTGGCCTGGATCTCTTATTAACCGGGAGGGTTCT -CCCTCCCGACACGGCTCAACCTTCTTCGCGGATCTGTGCTTGCAGATAATTTTGCAGGCCCATCTTCTGAATCAGATCAA -GTTCCGTTTCCAGCCAGTCGATATGGCCTTCTTCATCACGCAAAATTTCTATCATCATATCGCGGCTGACGTAATCATGA -ACGCTATCGGCATAACCAATTGCCTCACGCAAATTCTTCGCGCCATCCAGCTCAAGTGCCAGATCAGAACGCAGCATTTC -CTCAACATCTTCACCAATGTTCAGTTTGCCCAGGTCCTGTAAGTTTGGAAGACCTTCCAGAAAAAGAATGCGCTCAATAT -AACGATCGGCGTGTTTCATCTCATCAATGGATTCATGATACTCCACATCATTGAGACGTTTGAGACCCCAGTTTTTAAAC -ATTCGGGCATGGAGAAAGTACTGATTGATTGCGACAAGCTCATTTCCCAACAGTTTGTTGAGATAATTTATAACTTTAGT -ATCACCTTTCATTTTTTGACTCCTTCGCTTCCACTCTTTGAAGAGTAGAACGGCTTACGAGTAAGTCAAAAAACACACTC -CGTTTATGCGGACTCCTTAAACTCCGGCAGCTGCATTAATTCATCCTCCATCACTTCACGCGCGGCCCGGACACATTTAC -CGCACTGATTGCCGACCGGAATAAATTTTTTTAATTGCTGGAACGAGTGAGGGGAAAACTGGCGCACAGCCTGACGAATT -TTTTTATCGCTGATACCATTACAAAGACAAACGTACATAGAGACTCCCGTATACTTTCTTCAAAAATAAATGAAAATAGT -TCTTATTTCAATTACGGAAAGACTCTTTTTTAAGCAAAGAATAGAAATATGAATAAAAATAATGGGCTACCAAAAGTAGC -CCATTGACAAAAAATGCGGCGATACTGGAAGGTATCGCCAACACATTTATTGCTTAGTAAACGGCGCGAAGATTTCGCTA -AATGCGTACTTCGGTGCCTGTTCTTTAGTCAGGCCGTGGAATTCCGGAGACAGGTTAGTGCCGCCCGGCAGGTCGCGCGC -GATTGACCAGATACCAACCATACCGAGATTACGCTTCTGCGCATCCTGCATGACCAGACGAGCATCAGAGAGATAGAACA -CCTCGCCCTGAACGTCGTTCACGCCAACCATCGGCGTGGTACCCATCATAGCGTCAATTTCTGCATCGCTCTTATTGGGA -TGGAGGCCTTTCAATTGTGAATGCAGGTTGGCAATCGCAGACGTTGCACACTTACCGTGAATGTTCTGGCCTTCGGTATT -TGCAGACTGACAAATCGCGTTACCGTAGTCCATTGTCATCACGTTCACACCCGCCAGCTCAACACCTTTCGCTTTGGCAT -CGCTCAGGACATTCATCCCTTCCGGCGTCAGGCCAGTCGGCAGAATTGGCAAGGTGTACCAGATAGCAATATCTTTGCCT -TCTGACTTCCATTTATCCTGCACTTTCTTCACAGCAAGGTTACGACGTTCAATAGATGCCTGATCCGCAACCCAGGTGCC -TTCGATATCGAAGTCCAGGACTTTGAGGTTCAGGTTATCAACGATGTCATAATAATGCTGCATCAGATCGTCTACGTTCT -TACAGGAAGCAGCCAGCGGAGCGTTGTTAGCACCACCGATAGACAGCATCACATCGCCGCCAGCCTCACGCAGAGCTTTG -ATTTTGCTGTACTGAGCGTAATTCTGCATACCGTAAGCGGTACCCCATGTCGGCAGACAGGTGTTCGCATCTTTACTCAC -CACAAACGCCAGCGTGAAGTGGTTGACGTTATGATTCTTAGCCAGCGCAGCCAGATCCGGGATCGTATTCAGCGTAAAGT -CGACATACGGTGCATAAACGTGTTTCGGCCACGCTTTCTTCGGCGTACCTACGCGCTCTTTGGTTCCGGTCCAGTCAACA -AAAACACGCCACGGGTTGCTGTCAGAAGGAGAAACTTTCTGCACTTTACTCTGAGAAATGTAGTTCACACCGTTAAAGCG -AATCAGCGTATCGCTGGCATAAAGCGTTTCTGGATTAAACTGCGGCGCATTATTCAGCTCTTCGTTGCTATAGCTCTGAG -CCTTACCTAACGGCTTCCACGGGCGGCTATTGCTACCGGTGGCGTTTTGGTTCGCCACCAGAGCAGGGTTGTCACTTTGC -GTCCAGAACAGCGCTTCATAAGCCTGCCCATCAACAACAACGCGATCACCTTTCACGTACACAGTGGATGCGGACCATGC -TTTCGCCGGTTCGTATTTCTTCCACGGGTTATCGCCGCCCGGGACAAAGCCCCATGCGTCTTGATCGACAGAAGTTTTAT -AATGTGCATCGTTATAATCTACGATGCTGTCCGCGCTGTACGCTTTGCTGGCCTGGAAACCATCCGCAACAATGACGCCG -CCGTTATCAATTTCACAGGTAGTCGGGTTACCGTACTGACTCAATTCCGCAGCGGTAGCTGTACGCTCGAGACGCCATGG -GTTATTGGAGTTTTCAGCGCTGGTACCCCGTGGGCAATCTTTAGACCCAACCCATCAGGCGTTCTTGTAAACATTACCAT -TGAAAATAACATGGTAAATTTCGCTACCTTCCTGGCCGCTCCACGCTTGCAATGAGTAATCGTTAACGCTATCCGCTGGT -GTTGATGGCTCGCTGTTATCCGGAGTTGGGGTCACCGGTGTTTCCGGAGTTGGATCAACCGGAGTCACAGCACCGCCATT -ATTATCCGGCTTAACGGAACAGGAGCCAGGGTTACCATACTGGCTGATTTCTGTTGCCGTTGCCGCGCGAACATAACGCC -ATGGGTTACTGGCATCGTTTTCTTTCGCATCGCCTGGGCAATTTGCCGCGCCTACCCACCAGGCGTTCTTATAAATGCCG -CCGTTATAGATAACGTACCATGTAGAAGAACCTTCCTGACCTTTCCAGGCTACTACAGCATAGTTGTCGTTTGACTTATC -AGCTGGGGCTGGCTGAACATCAGGAGCCGGTTTAACGTCCGGTGCCGGTTTCACATCCGGTGAAGGCTGTGGTGCTGAAG -TACAGGACTGTGGATTACTGGTTTCTGAGATTTCCGTTGCCGTAGCGGCACGAACATAACGCCATGGGTTGCTGGCATCA -TTGCTTTTCGCATCACCCGGACAGTTAGAAGAGGCTACCCACCAGGCATTTTTATATACCGCACCATTAAAGACGACATA -CCAGGTCTGACCGCCCTGCTGTTTATTCCAGGCAACTACAGAAGAATTAGACGGAACAGTGCCCTGTGCTGGTGTAGCCG -AACCGCCATTAGCCGGCGTATTGGATGCAGGCGTATTTGAATTTGAAGAAGATGAGCTGCCGCTCTTTTCGCAGGAAAGT -GTATTGCCAAACTGACTAATTTCAGCAGCTGTTGCGGTACGCTTTAAACGCCACGGGTTAGTTGCATCATTTGCTTTCGC -TTTTCCCGGGCAATTTGTAGAAGAAACCCACCAGGCATTTTCATAAATTTTGCCATCGAAAATAACCTGATATTTATTAC -CACCTTGTTGGTTATTCCATGCTTCCATTGCCAATGCTGGCAGAGCGGAACACACCAGCCCCATACCAATCATAGATTTA -GTAAATATATTTAATTTCATTATAATCCCTTGTGACGTAAAAACTGCAAAACAAAAGTCCTACGCAGGAATTATTTACGT -TTTACGAGAACCCTTCAATATGAATTAAATTACGGCATTAAAAATAAGAAAAAAGCCTGACAAATGAAGCATTTTAAAAA -CAGAAACATTCATATTTAAAATGTTAAATTGAATTGATATTTTAAATATGAATAATTTATTCGTTCTGACAGTACGAATA -AGATATGCCGTCAACAAATGCAAAAAGGGCGCCGAAGCGCCCTTTTCAATTCAAAACTAATTAACGTGTAATTAGCCCAG -AACTTTAGCAACAACGCCCGCGCCAACGGTACGGCCGCCTTCACGGATTGCGAAACGCAGACCGTCGTCCATCGCGATCG -GGTGGATCAGGGTAACAACCATTTTGATGTTGTCGCCCGGCATTACCATCTCTACGCCTTCCGGCAGTTCGATGGTACCA -GTCACGTCAGTAGTACGGAAGTAGAACTGCGGACGGTAGCCTTTGAAGAACGGAGTATGACGGCCGCCTTCATCTTTGGA -CAGAATGTACACTTCAGATTCGAACTTGGTGTGCGGCTTGATGGTGCCCGGCTTAGCCAGTACCTGACCACGTTCGATTT -CTTCACGTTTGATACCACGCAGCAGAACACCTACGTTCTCACCAGCACGGCCTTCGTCCAGCAGTTTGCGGAACATTTCA -ACGCCAGTACAGGTAGACTTCTGAGTCTCTTTGATACCAACGATTTCAACTTCTTCACCAACTTTGATGATACCGCGTTC -TACACGACCGGTAACAACGGTACCACGACCGGAGATGGAGAATACGTCTTCGATCGGCAGCAGGAACGGCTTGTCAATCG -CACGCTCTGGTTCCGGAATATAAGAATCCAGGAAGCCAGCCAGTTCCAGGATTTTCGCTTCCCACTCTGCGTCGCCTTCC -AGCGCTTTCAGAGCAGAACCACGAACGATCGGAGTGTCGTCGCCCGGGAAGTCGTACTGAGACAGAAGTTCACGAACTTC -CATTTCAACCAGTTCCAGCAGCTCTTCGTCATCAACCATGTCGCATTTGTTCAGGAACACGATGATGTACGGAACGCCTA -CCTGACGACCCAGCAGGATGTGCTCACGAGTCTGCGGCATCGGGCCGTCAGTCGCAGCAACTACCAGGATCGCGCCGTCC -ATCTGAGCAGCACCGGTGATCATGTTTTTAACATAGTCGGCGTGCCCCGGGCAGTCTACGTGTGCGTAGTGACGGGTCGG -GGTGTCGTATTCAACGTGAGAAGTGTTGATGGTGATACCACGAGCTTTTTCTTCCGGCGCGTTATCGATCTGGTCGAATG -CACGAGCAGCACCGCCGTAGGTTTTAGCCAGTACGGTGGTGATTGCAGCGGTCAGAGTAGTTTTACCGTGGTCAACGTGG -CCGATAGTACCAACGTTAACGTGCGGTTTTGTACGTTCAAATTTTTCTTTAGACACGGCTATATTCCTTACTATAGTGCT -CTCCCCTTCAGGAGAGAGCACGGGACTTTGGTATTAACCCTTAGGCTTATTTACCACGGGCTTCAATTACGGCCTGAGCA -ACGTTACTCGGCGCTTCATCATACTTCAGGAATTCCATAGTGTATGATGCACGACCTTTGGTCAGAGAACGCAGCTGAGT -TGCGTATCCGAACATTTCAGACAGCGGTACTTCAGCGTGGATCTTAACGCCAGTAACTTCAGATTCCTGACCTTTGAGCA -TACCACGACGACGGCTCAAGTCACCGATAACGTCACCGGTGTTCTCTTCCGGAGTTTCTACTTCAACCTTCATGATCGGC -TCAAGCAGAACTGGTTTCGCTTTCTTAAAGCCTTCTTTAAAGGCGATAGAAGCAGCCAGTTTAAACGCCAGTTCAGAGGA -GTCAACGTCATGGTAAGAACCGAAGTGCAGACGAATACCCATGTCTACTACCGGGTAGCCTGCCAGCGGACCTGCTTTCA -GCTGTTCCTGGATACCTTTATCAACGGCCGGGATGTATTCGCCAGGGATTACACCACCTTTAATGTCGTTGATGAACTCG -TAGCCTTTCGGGTTTGAACCCGGCTCCAGCGGGTACATGTCGATAACAACATGACCATACTGACCACGACCACCAGACTG -TTTCGCGTGTTTACCTTCAACATCGGTAACTTTCTGGCGGATAGTTTCACGGTAAGCAACCTGCGGTTTACCTACGTTCG -CTTCAACGTTGAATTCACGCTTCATACGGTCAACGATGATGTCGAGGTGCAGTTCGCCCATACCCGCGATGATGGTCTGG -TTAGATTCTTCGTCAGTCCATACACGGAAAGACGGGTCTTCTTTAGCCAGACGGCCCAGAGCCAGACCCATTTTTTCCTG -GTCAGCTTTGGTTTTCGGTTCAACTGCGATGGAGATTACCGGCTCAGGGAATTCCATACGTTCCAGAATGATCGGCGCAT -CCGGGTCACACAGGGTGTCACCAGTGGTTACGTCTTTCAGACCGATAGCAGCAGCGATGTCGCCCGCGCGAACTTCTTTG -ATCTCTTCACGTTTGTTAGCGTGCATCTGAACGATACGACCGAAACGCTCACGTGCAGCTTTCACGGAGTTCAGTACGGT -ATCACCAGAGTTAACCACACCGGAGTAAACACGGAAGAAGGTCAGGTTACCAACAAACGGGTCGGTAGCGATTTTGAACG -CCAGTGCAGAGAACGGCTCGTCATCACTTGCGTGACGTTCAGCCGGAGTGTCTTTACCGTCGTCCAGGATACCGTTGATC -GCAGGTACGTCAACCGGGGATGGCAGGTAATCAATTACCGCATCCAGCATCGCCTGAACACCTTTGTTCTTGAACGCAGA -ACCACAGGTTACCAGGATGATTTCGTTGTTCAGAACGCGCTGACGCAGAGCACCTTTGATTTCTGCTTCAGTCAGTTCTT -CACCACCCAGGTATTTTTCCATCAGCTCTTCAGAAGCTTCAGCTGCGGATTCGATCAGGTTCTGGTGCCATTCGTTAGCC -AGTTCAACCATGTCTGCCGGGATATCTTCGTATTCGAAGGTTACGCCCTGGTCAGCGTCGTTCCAGTTGATAGCTTTCAT -TTTCACCAGGTCAACAACACCGGTGAAATGTTCTTCAGCACCAATCGCCAGCTGCAGCGGAACCGGGTTCGCGCCCAGAC -GGGTTTTGATCTGGTTAACAACTTTCAGGAAGTTCGCACCCATGCGGTCCATTTTGTTAACGAACGCAATGCGCGGAACT -TTATATTTGTTTGCCTGACGCCATACGGTTTCAGACTGCGGCTGAACACCACCAACTGCGCAGTAAACCATTACCGCACC -ATCGAGAACACGCATGGAACGTTCTACTTCGATTGTGAAGTCAACGTGCCCCGGGGTGTCGATGATGTTGATGCGATGCG -GCTCATACTGCTTAGCCATACCAGACCAGAATGCAGTAGTCGCAGCGGAAGTGATGGTAATACCACGTTCCTGCTCCTGC -TCCATCCAGTCCATGGTTGCAGCGCCGTCATGAACTTCACCGATTTTATGGTTTACACCGGTGTAGAACAGAATACGTTC -GGTAGTAGTGGTTTTACCGGCGTCGATGTGCGCACTGATACCGATGTTACGGTAGCGTGCGATGGGTGTTGTACGAGCCA -TTTGTTTCCTCGTTTATCTTTTAGGCGTTCAATTTAAGTAGCCCAAAGCGGGCTGCTTACTGGAAGCGCCCGCCTGGTGA -CTAAAACTCCGAAGGGATAACCAACGGTAGTGTGCGAACGCCTTGTTGGCTTCGGCCATACGGTGAACGTCTTCACGTTT -CTTAACTGCAGTACCTTTGTTTTCTGCAGCATCAGAAAGTTCGTTCGCCAGGCGCAGAGCCATGGATTTATCACCGCGTT -TACGAGCAGCTTCAACGATCCAACGCATTGCCAGAGCATTACGACGAACCGGACGGACTTCAACTGGTACCTGATAAGTA -GAACCACCAACGCGGCGAGACTTAACTTCTACAGTCGGGCGCACGTTTTCGAGAGCTACTTCGAATGCTTCCAGTTCAGA -TTTACCAGAGCGCTGAGCCAGGGTCTCCAGCGCGCTGTATACGATAGATTCAGCAGTAGATTTTTTACCATCTACCATCA -GGATATTTACAAATTTAGCCAGCAGTTCTGATCCGAACTTCGGATCCGGCAGAATTTTACGCTGACCAATGACGCGACGA -CGTGGCATGGAAATACTCCGTTGTTAATTCAGGATTGTCCAAAACTCTACGAGTTTAGTTTGACATTTAAGTTAAAACGT -TTGGCCTTACTTAACGGAGAACCATTAAGCCTTAGGACGCTTCACGCCATACTTGGAACGAGCCTGCTTACGGTCTTTAA -CGCCGGAGCAGTCAAGCGCACCACGTACGGTGTGGTAACGAACACCCGGGAGGTCTTTAACACGACCGCCACGGATCAGG -ATCACGGAGTGCTCCTGCAGGTTGTGACCTTCACCACCGATGTAGGAAGTCACTTCGAAACCGTTAGTCAGACGAACACG -GCATACTTTACGCAGCGCGGAGTTCGGTTTTCTAGGAGTGGTAGTATATACACGAGTACATACGCCACGTTTTTGCGGGC -ATGCTTCCAGCGCAGGCACGTTGCTTTTCGCAACTTTGCGAGCACGTGGTTTGCGTACCAGCTGGTTAACTGTTGCCATT -AAATAGCTCCTGGTTTTAGCTTTTGCTTCGTAAACACGTAATAAAACGTCCTCACACAATATGAGGACGCCGAATTTTAG -GGCGATGCCGAAAAGGTGTCAAGAAATATACAACGATCCCGCCATCACCAGGCCATCTGGCTGGGGTGCTTAACCGTAAG -TCTGACGAAATCAGTATAGTCAATGAGAATGATGTCGTTCGAAATTTGACCAGTCAAACCGCGGGCAATAAGGTCTTCGT -TCAGGGCATAGACCTTAATGGGGGCATTACGCAGACTTTCAAGGTAGCGGTTACCGTCAACTGCGGCAGTTACGCCATCT -TGCAATAATAGCAGTTCGTCTCCTTCACTGAGCAGACGCAGCAGCGCAGCAAAATCCGTCAGCCAGGGTGAGCGATGTAA -TGTGTGCAGCATAAACGCCTCAAAACCTCAAAATAACATCGTAGTTGGCGAGTTCGCGGCGTAAGGCATCTGCTTCGAGC -GGCGTGGCTTCGACAACAAAGGGTGTCTGCGGATCTAACCCGCGTTCGCGCAGTGAAGCCGCACAAACCCAGCACTGTTC -AATGTCGTACAGACCCAACAATTTAAAAGTGGCAATGTAATCACGCGCCAGCACTGCATCGGGCTTTTGTCCTGGCAGCA -GCTGAAAAACGCCATCAGCTATAAAGAAGACAGCCAGATCGTCAGTTAATGCGGAAGTTGCCAGTAAAGCATCTAAACCT -TCCCGGCCTGCGGCTGTACCATGAGGTGCAGTAGAAAAAACAAACGCAATTCGTTTCATCAGAACTGTACCACCCTGTCA -CAGGTCAGCGAGGCTTCCGCCAGCGCCCCAAGTCCGCTTAAGGTAAATCCCTGCTGAAGGTTTGACGAAGCCAGCCCCAG -TCTTCCGGCCTCCGTTTCATCAACAACGCCACGGCGTAATGCTGCCGCTACGCAGATATTCAGCGCCACACCATGTTGCG -CATTCAGTTGTTGCCAGGCCCGTACGAGGTCAAATTCGTCACTTGCCGGAGAGGTCAATTGGTTAGCGTTATAGACCCCT -TCCCGATAGAAAAAGACGCTGCTTAACTCATGGCCATCTGCTATCAGCGCCTGCGCAAACTGAAAAGCACTACTCGCCTG -TTGCGTACCGTATGCTGGCCCGGTCACCACGATGGCAAAACGCATTACTTATCTTGCCCCTGGAAATCACCGCTCTTGAA -CTGGCGGATGTAGAGATAGACAGTGTGTTTGGAGATGTTCAGGCGGTCAGCAACCTGGTTGATCGCATCTTTAATATCGA -AGATCCCTTTCTCGTAGAGATTCAGCACGATCTGACGATTTTTGGCGTTATTAGAAACATTGCGATCGGCATTCACTTCT -TCGATGGTGAACTCCAGCGTTTGGGTAACCAGATCTTCAACAGAAGAGGCAAAGTTGACGCTTGAACCGACATCCGGGGT -TTCTGGCGGCACAAAGGTGCTCATAATCTGCGAGAAGGGAACATCAAGATTCATATTGATGCACAGCAGACCAATTACAC -GCTGTTCGCGGTTACGAATCGCGATAGTCAGGGACTTCATTAATACGCCGCTTTTGGCGCGAGTAAAGTAGCATTTAGAA -ACGCTGCTATCCGCTCCCGTCATATCGTGCAGCATACGTAGCGCCAGGTCAGTAATTGGCGAACCAATCTTCCGGCCTGT -ATGTTCACCGTTAGCAATGCGAATGGCTGAACATTTTAGATCCTGCAAAGAGTGCAAAACGATTTCACAGTGGGAGCCAA -TAAGCATCGCTAACCCGTCCACCACCGCTTCGTAGGATTTCAGAATATCAAAATCGGTCTGGTCGAAAGGACGTTGATCC -AGTAAATCCAACTCACTGGTTTCGTTGGTTAAAAGCGACCTGGACATGAAAAAAAACACTCCTTTTCAGGAGCCTGTCGT -TAACTTTTCAGGGCAGGCTCATTAATGATGCGGGTAACTAAATTAATACAGCGGAGGTTCCGCTTTCCAGCACTAATTAT -ATCCGGCCTGTAATAAAAAAACCGCCGCCTGGTCAGGCGGCGGTTCTTAATGCTTATTTTTTAGCAGAATCTGCGGCTTT -CGCATCAGCTTCCGGCTTTGCATCAGCCTTCGGCGCTGGTTTCACATCCAGCAGCTCTACGTCAAACACCAGGGTAGAAT -TCGGTGGGATCCCCGGAACACCCGCTTTGCCGTAAGCCAGTTCTGGTGGAATAACCAGTTTGATCTTACCGCCTTTCTTG -ATGTTCTTCAGACCTTCTGTCCAACCCGGGATAACACCGTCCAGACGGAAAGAAAGCGGTTCACCACGGGTGTAAGAGTT -GTCGAACTCTTTACCGTCGATCAGCGTACCTTTGTAGTTCACTACAACAGTATCGCTGTCTTTCGGTGCTTCGCCTTTAC -CGGCTTCTACTACCTGATAAACCAGACCAGTTGAAGAGGTTTTCACACCTTTCTCTTTGGCAAATTTCTCGCGGTACTCT -TTACCTTTTGCTTCGTTATCAGCCGCGTCTTTTTCCATCTTCGCCTGAGCAGAAGACTTCACGCGAGCTTCGAATGCTTG -TAGAGTCTGTTCGATCTCTTGGTCGGAGAGTTTGCTCTTATCAGCAAATGCATCCTGAACACCAGCGATCAGCTGATCTT -TATCCAGTTTGATGCCCAGTTTTTCTTGTTCTTTTAGAGAGTTTTCCATGTAACGACCCAGCGAGGCACCCAGTGCATAA -GCTGATTTCTGATCGTCATTTTTGAACGCTGCTTTGCTGTCAGCAGCTGTAGCAGGTTTTGCAGCTTCAGCAGCAAAAGT -GATTGGTGCATGCAGGGCAACGGCCATTGTGGTCGCCAGCAGCGTTACTTTAAACAGTGATTTCATCCATATCTCCAGGA -TCGGGGCATCTCACCCCAGGGTTAACTATTATCAGAAGGGTACTATAAAGCGTTGTCGAACAAATCTACATACAGACACG -CCCTATTATCATCTATTTTCAGACTCTTTTTGTTTAAATTAGTTTCGATGACCGCGAAATGAGTGCTGTCTCGGGCAGCA -AAGTTAAGTAGAATCCGCGGCGACCATTCGACAAAAGAGGTGAATCATGCAGGATTTATCATTGGAAGCACGCCTGGCAG -AGCTGGAGAGCCGACTGGCTTTTCAGGAAATCACCATTGAAGAACTGAACGTCACGGTGACCGCTCATGAAATGGAGATG -GCGAAACTGCGCGATCATCTGCGTCTGCTGACCGAGAAGTTAAAAGCCAGCCAGCCGTCGAACATCGCGTCGCAGGCTGA -AGAAACGCCACCGCCACATTATTGAGGCGTAAAAAAAGCGGGGATTCCCCGCTTTTTTGTCACTTTTTCGGTATTAGTGG -CAACCGCAACCGCCGTTGCCTTTACCGCCACAGCAGCCTTCGCCACCGTGTTCATGACCGTGATCGTGGCCATGACCGCC -GCAGCAACCGTCGTGGTCGTGATCGTGGTGGTGATCGTGCGCGCCGTGAACGTGACCATGAGCCAGTTCTTCTTCAGTCG -CTTCGCGAATCGCCACAACTTCAACGTTGAATTTCAGGTTCTGACCGGCCAGCATGTGGTTACCATCAACCACGACGTGA -TCGTCTTCAACCGCAGTGATTTCAACCGGTACCGGACCCTGGTCGGTTTCAGCCAGGAAACGCATACCTACCTGCAGTTC -ATCAACGCCCATAAATACGTCTTTAGGAACACGTTGCACCAGGTTTTCGTCGTACTGACCGTAAGCGTCGTTCGCGCCAA -CAGCGACATCAAATTTGTCGCCAACTTCATGACCTTCCAGCGCCGTTTCCAGGCCAGAGATCAGGGAACCGTGACCATGC -AGGTAGTCCAGCGGCGCACTCACCGGAGACTCATCAACCAACACACCGTCTTCTGTACGTACCTGATAGGCCAGGCTGAC -CACCAGGTCTTTTGCTACTTTCATGATATCTCCTGAGCATGGGAAGAATAGTGGCGCAGATTGTAGCGGAATTCTGCAGC -CGTGTACTCACTAGCTTAAAAAAACTCGGCGCATATCGCTAGTCCGGATGAAAAATCCCGATCACTTGCTCATCTTTGCG -AACGTGATCGCGGGCTTCTTTGTCTGCTTCTCGCATCTGATGTCCGCACTTAACACATTCAACAATATCAATATTATTTT -CGCGCCACATCGCCATTGAATCCTGCGCCTGACAGGCCGGGCATTTTGCGCCCGCAATAAAACGTTTTCGGATTGCCATC -TTTACCCTCTACTCAAATTCATCCCAGCCGTCCAGCTGGCGTCGTTCTTGTTGCATTTCACGCTGGAAAATCTCTTCCAG -TTCGCGTCGGGCTTCCCTGGCGCGAGAAATTTGTACGGTATCGGCATGCATTGGGATGAGCTCTCGCAGCATCCGCATAT -CCAGGCGGCGAAAATGCAGTTGCGCTCGCTGTGCCTGATGCGGATGCATGCCAAGCGTGACCAGCGTCTTGCGCCCCAGC -TCTAACGCACTGGAGAATGTTTCACGGGAAAACTGCGTCACCCCTGCCTGTAATAACTCATGCGCTTCCACACGTCCGCG -CGCTCGCGCAAGAATATGCAAATGCGGAAAGTGCTGTTGGCATATTTCCACCAGCTTCATGGTGTCTTCCGGCTCGTTAC -AGGTAATGACGATAGACTCAGCGGCCTCTGCACCCGCAGAACGTAAAAGATCGACCTGCGTGGCGTCGCCGTAATAAACT -TTGTAGCCGTATTTACGCATCAGGTTAACGGCGCTGATATCCCGCTCCAGCACGGTAATGCGCATTTTATTTGCCATCAG -CAAACGACCAATCACCTGACCAAAACGCCCGAAGCCCACGACAATGACCTGGGGTTTATCATCGTTGACCCACGGTTTTT -CGTCTTCTTCTTCCGGTCCGTTAAACTGGCGGGATAGCCATTTATCCACCAGCTTCATCAGCAACGGCGTGGTCATCATG -GAAAGCGTCACCGTCACCAGCAACAACGCCATCTGGTCGCCCTGGAATAAGCGTTGTGAAGAAGCGGTAGAAAAGAGGAC -AAAGGCAAACTCACCACCCTGACTCAACACGCCAGCAAACTGCATCCGCTCTGAGCTACGCACGCCATACAATCGCGCCA -GCAGATACAGCACGAGAATTTTCACCGCCACCAGCACAACCACGCTTATCACTACCCACAACAGATGGGTATAAAGCACC -CCGAGGTTGAGTGACATGCCGACAGAGATAAAGAACAAACCGAGCAGCAAGCCTTTGAAGGGATCGATAGCCGTTTCCAG -TTCATGGCGATATTCACTTTCCGCCAGCAGCACGCCCGCAATAAATGTACCGAGCGCCATCGACAGCCCCAGCGCATCCA -TAAACAATGCGGAACCCAACACCAGCAGCAGCGTCGCGGCGGTGAACACTTCCCGCACGCCAGAAGCTGCAATAAAGCGG -AATACCGGACGCAGTAAATAGCGCCCACCAATCAGCATGCCGACAAACGCCAGCACCTTCATGCCGACCTTCATCCAGTC -GAAATGTTCGTCTGCCGACCCCGCCAACAACGGCACTAACGCCAGTGCTGGGATTACTGCCAGATCCTGAAACAGCAGAA -CCGAAAACCCGAGCTGGCCGGATTCGCTGCGATTCATCCCTTTCTCACGCATCAATTGCAACGCCATTGCAGTTGAAGAC -ATCGCAAGGCCAATGCCACCGACCACCGCCGCCTGCCAGGCGAAATCCGTCAGCATCAATAATCCCGCCAGCAACGCCGC -GCTTAACAGCACCTGTGCCGCGCCTACGCCAAAAATCGAACGCCGCAGTTGCCAAAGTTTGGAGGGATTCAACTCAAGGC -CGATGATAAACATCAGGAATACCACGCCGAGTTCCGAAAAGTGGAGGATCTCATCGACGTCGCTAATAAACCCCAGCCCC -CACGGGCCAATTGCAATCCCTGCCAGCAAATATCCCAACACAGCGCCAATACCCAGCCGCGATGCCAGCGGCACCGCAGC -CACCGCCGCGAAGAGAAACAGCACTCCTGCGAGTAAAAAATCGGAACCTTCCATCAGCGGCCTCCTGGAGACAGCGGATT -TGCCAGCCAGTCACCGTAGGCTCTGGCGTGGCTCGCCAGCTCCTGTGCGCTTTGCCGTCTCGCCCAGTAAATAATGATGG -GACTTAACCAATGCATCCGGCACATGCCCGCCGCCAGTTCAAAGGGGCGCAGCACATCGCTCATCGGGTAGCGATTCAGC -GCGTCATAACGGTAAGCACTTTCCGGCTCGCCGGTGGTAATCACGCTACGCCAGTACTTTCCCGCCAGTTGGTTTCCTCC -CGGCCCGCTGGCAAAACCACGACTTAATACCCGGTCCAGCCACTCTTTCAGTAGCGCCGGGCAGCTATAGGTATAAAGAG -GATGCTGAAAGACAATCACCTCGTGCTCGCGCAGTAATGCCTGCTCACGGGGGATATCAATAAAAAAATCGGGATAGTGC -GCGTAAAGGTCGTGCACGGTAACATTGCTGAGCTGCGTGGCCGGTTTAAGCAGTACCCGGTTTGCCACCGAGTCCTGAGA -TTCCGGATGGGCATACAGCAGCAAAACTTTCGCTGGCTGAGACATCATCCCCCTCCCGGTATGGTTTTTGTGTATAGTCG -CTGTTTTGGGCTACCATTGCGCCCGGTGCGGCAGCTCGCCCATACATTACATTATCATAATGATAAGTTAACATAGTCTG -AACATACGGCACCTTATGATTGTTTTCTCCTCGTTACAAATTCGTCGCGGCGTGCGCGTCCTGCTGGATAATGCCACCGC -CACCATCAACCCTGGGCAGAAAGTCGGCCTGGTGGGTAAAAACGGCTGTGGTAAATCTACCCTGCTGGCATTGCTGAAAA -ATGAAATCAGCGCCGACGGCGGCAGCTACACCTTTCCGGGAAGCTGGCAACTGGCGTGGGTGAATCAGGAAACGCCGGCG -TTACCGCAAGCGGCGCTGGAATATGTCATTGACGGCGACCGTGAATATCGTCAACTAGAAGCGCAGCTACACGACGCCAA -CGAACGTAACGACGGGCACGCCATTGCGACCATTCATGGCAAGCTGGATGCTATTGACGCATGGAGTATTCGCTCCCGTG -CTGCCAGCCTGCTGCACGGCCTCGGTTTCAGCAATGAACAACTGGAGCGCCCGGTAAGTGATTTTTCCGGGGGCTGGCGT -ATGCGTCTTAACCTTGCCCAGGCGCTGATTTGCCGTTCAGACTTGCTGCTGCTCGACGAACCGACTAACCACCTCGATCT -CGATGCCGTTATCTGGCTGGAAAAATGGCTGAAGAGCTATCAGGGCACGCTGATCCTGATCTCTCACGACCGCGACTTCC -TCGATCCGATCGTCGATAAAATTATTCATATCGAACAACAAAGCATGTTCGAGTACACCGGCAACTACAGTTCGTTTGAA -GTACAGCGCGCCACCCGTCTGGCGCAGCAACAAGCGATGTACGAAAGCCAGCAGGAACGCGTAGCGCATCTGCAAAGTTA -TATCGACCGTTTCCGTGCCAAAGCCACCAAAGCGAAGCAGGCCCAGAGCCGCATTAAGATGCTCGAGCGTATGGAGCTAA -TTGCCCCCGCGCACGTCGACAACCCGTTCCGCTTTAGCTTCCGCGCGCCGGAAAGCCTGCCAAATCCGTTACTGAAGATG -GAAAAAGTCAGCGCGGGCTATGGCGATCGCATTATTCTCGACTCGATTAAACTGAACCTGGTGCCCGGCTCGCGTATTGG -TCTGTTAGGCCGCAATGGCGCGGGTAAATCGACATTAATCAAACTGTTAGCCGGTGAACTTGCGCCAGTCAGCGGTGAAA -TTGGTCTGGCGAAAGGGATCAAACTCGGCTACTTCGCCCAGCATCAACTTGAATACCTGCGCGCCGACGAATCACCTATT -CAACATCTGGCACGTTTAGCGCCGCAGGAGCTGGAACAAAAACTGCGTGACTACCTCGGCGGCTTTGGTTTCCAGGGCGA -TAAAGTAACCGAAGAAACGCGCCGCTTCTCCGGTGGGGAAAAAGCCCGCCTGGTGCTGGCATTAATTGTCTGGCAGCGGC -CGAATCTGCTGCTGCTCGACGAACCGACTAACCACCTTGACCTCGACATGCGTCAGGCACTCACCGAAGCATTAATCGAG -TTTGAAGGCGCGCTGGTTGTCGTTTCGCACGACCGTCATTTGCTGCGTTCCACCACTGACGATCTCTACCTGGTTCACGA -TCGTAAAGTCGAACCGTTCGACGGCGATCTGGAAGATTATCAACAGTGGTTGAGCGACGTACAAAAGCAGGAAAACCAGA -CCGACGAAGCGCCAAAAGAGAATGCGAACAGCGCCCAGGCACGTAAAGATCAGAAGCGTCGGGAAGCTGAGCTGCGTGCG -CAAACCCAGCCACTGCGTAAAGAGATTGCCCGTCTGGAAAAAGAGATGGAGAAGCTGAACGCGCAACTGGCGCAGGCGGA -AGAGAAACTCGGCGACAGCGAACTGTATGACCAGAGCCGTAAAGCGGAGTTGACCGCCTGCCTGCAACAGCAAGCCAGCG -CCAAATCCGGCCTGGAAGAGTGCGAAATGGCATGGCTGGAAGCCCAGGAGCAGCTTGAGCAGATGCTGCTGGAAGGCCAA -AGCAACTGATGGCGCAGATAACGACGACCGATGCCAATGAATTCAGCAGCAGTGCTGAATTCATCCCCATGCGCGGCTTT -AGCAATTGTCATCTGCAAACCATGCTGCCGCGTCTGTTTCGTCGTCAGGTGAAATTCACCCCGTACTGGCAGCGGCTGGA -GTTGCCCGACGGCGATTTTGTCGATCTTGCGTGGAGTGAAAACCCTGCACAGGCGCAACATAAACCTCGTCTGGTGGTGT -TTCACGGGCTGGAAGGCAGTCTCAACAGCCCTTACGCCCACGGTCTGGTTGAGGCGGCGCAAAAGCGCGGCTGGCTGGGC -GTGGTGATGCATTTTCGCGGATGCAGCGGTGAACCAAACCGTATGCACCGCATTTACCATTCGGGCGAAACCGAAGACGC -CAGTTGGTTTTTACGCTGGCTGCAACGCGAATTTGGTCATGCGCCAACGGCTGCCGTCGGCTATTCGCTCGGCGGTAATA -TGCTGGCCTGTTTGCTGGCAAAGGAAGGCAATGATCTCCCGGTTGATGCGGCGGTGATTGTCTCTGCGCCGTTTATGCTG -GAAGCCTGTAGCTATCATATGGAAAAGGGCTTTTCCCGCGTTTATCAGCGTTACTTGCTGAACCTGTTAAAAGCCAATGC -CGCGCGCAAGCTGGCAGCCTACCCCGGAACGCTGCCGATTAATCTCGCGCAGTTAAAATCGGTACGTCGCATCCGTGAAT -TTGACGATCTCATCACCGCCAGAATTCACGGCTACGCCGACGCTATCGACTATTATCGTCAGTGTAGCGCCATGCCGATG -CTGAACCGGATCGCCAAACCGACGCTGATTATTCACGCCAAAGACGATCCGTTTATGGATCATCAGGTGATCCCGAAACC -GGAAAGTCTCCCCCCGCAGGTGGAGTATCAACTGACTGAACATGGCGGTCATGTTGGCTTTATTGGCGGTACATTACTTC -ATCCGCAAATGTGGCTGGAGTCACGCATTCCTGACTGGTTAACAACGTATCTGGAGGCGAAATCATGTTGATTCCGTGGC -AAGACCTCTCCCCCGAAACGCTGGAAAATTTAATTGAAAGCTTTGTGTTACGTGAAGGCACCGATTATGGTGAACATGAG -CGTACACTTGAACAGAAAGTCGCCGACGTCAAACGCCAGCTACAGTGCGGAGAAGCGGTGCTGGTATGGTCGGAGCTGCA -CGAAACGGTCAATATTATGCCGCGCAGTCAGTTTCGCGAATAACCTGCAACCGTCGGCGGACGAGATAATAATGATAGCT -AAGTCATGGAGTTACTATGTCTGCCAAACATCCGGTCATTGCGGTAACAGGATCCAGCGGCGCGGGGACCACCACCACCA -GCCTCGCGTTTCGTAAAATATTCGCGCAGTTAAATCTGCATGCAGCTGAGGTGGAAGGCGACAGTTTTCACCGTTACACC -CGCCCGGAAATGGACATGGCGATCCGCAAAGCGCGCGACGCCGGGCGGCATATCAGCTACTTCGGCCCCGAGGCTAACGA -CTTCGGCCTGCTGGAACAAACCTTCATTGAATACGGTCAGAGCGGCAAAGGGAAATCTCGCAAATATCTGCATACCTACG -ACGAAGCCGTACCGTGGAATCAGGTACCGGGGACATTCACCCCCTGGCAACCTTTACCGGAACCCACTGATGTACTGTTT -TATGAAGGTTTACACGGCGGCGTAGTCACGCCACAGCATAACGTTGCGCAGCATGTGGACTTACTGGTCGGCGTGGTGCC -TATCGTTAACCTTGAGTGGATTCAAAAACTGATCCGCGACACCAGCGAGCGCGGGCACTCACGAGAAGCAGTGATGGACT -CAGTAGTGCGTTCAATGGAAGACTATATCAACTACATCACACCGCAGTTTTCCCGCACCCATCTTAACTTCCAGCGCGTT -CCCACCGTCGACACTTCAAACCCGTTCGCGGCAAAAGGTATCCCGTCGCTCGATGAAAGCTTTGTGGTGATCCATTTTCG -TAATCTGGAAGGGATCGATTTCCCCTGGCTGCTGGCGATGTTGCAAGGCTCATTCATTTCCCACATCAATACGTTAGTGG -TACCGGGCGGCAAAATGGGTCTGGCAATGGAATTAATTATGCTGCCGCTGGTGCAACGATTGATGGAAGGAAAGAAAATC -GAGTAACTCTGCTATTACGCCGGATAAAATACTATCCGGCTTCACAACGGGATAGTTAAGTCACGCGGCAACCACTTCAT -ACGAGTGAGTAATATTCACCGCTTTTTCCAGCATCAACGCCACTGAACAATATTTCTCGGCAGAGAGATCAACCGCACGC -GCAACCGCTGCGTCTTTCAGGTCGCGACCGGTGACGATAAAATGCAGATTAATGTGCGTAAACAGGCGTGGTGCCTCTTC -GCGGCGTTCAGAGGTCAATTTTACTTCACAATCGACCACATCCTGACGCCCTTTTTGCAGGATCGAAACCACATCGATGG -CACTGCAACCACCCGCCGCCATCAACACCATTTCCATCGGACTTGGTGCTTTATCGCCTGAGTTGCCGTCCATTAAAATC -TGATGACCAGAGGCGGATTCGCCCAGAAAAGTTAACCCTTCGACCCACTTCACTCGCGCTTGCATTTTTGCTACTCCACT -GCGTCAATTTTCCTGACAGAGTACGCGTACTAACCAAATCGCGCAACGGAAGGCGACCTGGGTCATGCTGAAGCGAGACA -CCAGGAGACACAAAGCGAAAGCTATGCTAAAACAGTCAGGATGCTACAGTAATACATTGATGTACTGCATGTATGCAAAG -GACGTCACATTACCGTGCAGTACAGTTGATAGCCCCTTCCCAGGTAGCGGGAAGCATATTTCGGCAATCCAGAGACAGCG -GCGTTATCTGGCTCTGGAGAAAGCTTATAACAGAGGATAACCGCGCATGGTGCTTGGCAAACCGCAAACAGACCCGACTC -TCGAATGGTTCTTGTCTCATTGCCACATTCATAAGTACCCATCCAAGAGCACGCTTATTCACCAGGGTGAAAAAGCGGAA -ACGCTGTACTACATCGTTAAAGGCTCTGTGGCAGTGCTGATCAAAGACGAAGAGGGTAAAGAAATGATCCTCTCCTATCT -GAATCAGGGTGATTTTATTGGCGAACTGGGCCTGTTTGAAGAGGGCCAGGAACGTAGCGCATGGGTACGTGCGAAAACCG -CCTGTGAAGTGGCTGAAATTTCGTACAAAAAATTTCGCCAATTGATTCAGGTAAACCCGGACATTCTGATGCGTTTGTCT -GCACAGATGGCGCGTCGTCTGCAAGTCACTTCAGAGAAAGTGGGCAACCTGGCGTTCCTCGACGTGACGGGCCGCATTGC -ACAGACTCTGCTGAATCTGGCAAAACAACCAGACGCTATGACTCACCCGGACGGTATGCAAATCAAAATTACCCGTCAGG -AAATTGGTCAGATTGTCGGCTGTTCTCGTGAAACCGTGGGACGCATTCTGAAGATGCTGGAAGATCAGAACCTGATCTCC -GCACACGGTAAAACCATCGTCGTTTACGGCACTCGTTAATCCCGTCGGAGTGGCGCGTTACCTGGTAGCGCGCCATTTTG -TTTCCCCCGATGTGGCGCAGACTGATTTATCACCCCGATATCAACTATGCACTTCGACAAACGCTGGTGCTATGTTTGCC -CGTGGCCGTTGGGTTAATGCTTGGCGAATTACGATTCGGTCTGCTCTTCTCCCTCGTTCCTGCCTGTTGCAATATTGCGG -GCCTTGATACGCCTCATAAACGTTTTTTCAAACGCTTAATCATTGGTGCGTCGCTGTTTGCCACCTGTAGCTTGCTGACA -CAGCTACTACTGGCAAAAGATGTTCCCCTGCCCTTTTTGCTGACCGGATTAACGCTGGTACTTGGCGTCACTGCTGAGCT -GGGGCCATTGCACGCAAAATTGCTTCCTGCATCGCTGCTCGCCGCCATTTTTACCCTCAGTTTGGCGGGATACATGCCGG -TCTGGGAACCGTTGCTCATCTATGCGTTGGGCACTCTCTGGTACGGATTGTTTAACTGGTTTTGGTTCTGGATCTGGCGC -GAACAACCGCTGCGCGAGTCACTAAGTCTGCTGTACCGTGAACTGGCAGATTATTGTGAAGCCAAATACAGCCTGCTTAC -CCAGCACACCGACCCTGAAAAAGCGCTGCCGCCGCTGCTGGTGCGCCAGCAAAAAGCGGTCGATCTAATTACCCAGTGCT -ATCAGCAAATGCATATGCTTTCCGCGCAAAATAATACTGACTACAAGCGGATGCTGCGTATTTTCCAGGAGGCGCTGGAT -TTACAGGAACATATTTCGGTCAGTTTGCATCAGCCGGAAGAGGTGCAAAAGCTGGTCGAGCGTAGCCATGCGGAAGAAGT -TATCCGCTGGAATGCGCAAACCGTCGCCGCTCGCCTGCGCGTGCTGGCTGATGACATTCTTTACCATCGCCTGCCAACGC -GTTTTACGATGGAAAAGCAAATTGGCGCACTGGAAAAAATCGCCCGCCAGCATCCGGATAATCCGGTTGGGCAATTCTGC -TACTGGCATTTCAGCCGCATCGCCCGCGTGCTGCGCACCCAAAAACCGCTCTATGCCCGTGACTTACTGGCCGATAAACA -GCGGCGAATGCCATTACTTCCGGCGCTGAAAAGTTATCTGTCACTAAAGTCTCCGGCGCTACGCAATGCCGGACGACTCA -GTGTGATGTTAAGCGTTGCCAGCCTGATGGGCACCGCGCTGCATCTGCCGAAGTCGTACTGGATCCTGATGACGGTATTG -CTGGTGACACAAAATGGCTATGGCGCAACCCGTCTGAGGATTGTGAATCGCTCCGTGGGAACCGTGGTCGGGTTAATCAT -TGCGGGCGTGGCGCTGCACTTTAAAATTCCCGAAGGTTACACCCTGACGTTGATGCTGATTACCACCCTCGCCAGCTACC -TGATATTGCGCAAAAACTACGGCTGGGCGACGGTCGGTTTTACTATTACCGCAGTGTATACCCTGCAACTATTGTGGTTG -AACGGCGAGCAATACATCCTTCCGCGTCTTATCGATACCATTATTGGTTGTTTAATTGCTTTCGGCGGTACTGTCTGGCT -GTGGCCGCAGTGGCAGAGCGGGTTATTGCGTAAAAACGCCCATGATGCTTTAGAAGCCTATCAGGAAGCGATTCGCTTGA -TTCTTAGCGAGGATCCGCAACCTACGCCACTGGCCTGGCAGCGAATGCGGGTAAATCAGGCACATAACACTCTGTATAAC -TCATTGAATCAGGCGATGCAGGAACCGGCGTTTAACAGCCATTATCTGGCAGATATGAAACTGTGGGTAACGCACAGCCA -GTTTATTGTTGAGCATATTAATGCCATGACCACGCTGGCGCGGGAACACCGGGCATTGCCACCTGAACTGGCACAAGAGT -ATTTACAGTCTTGTGAAATCGCCATTCAGCGTTGTCAGCAGCGACTGGAGTATGACGAACCGGGTAGTTCTGGCGATGCC -AATATCATGGATGCGCCGGAGATGCAGCCGCACGAAGGCGCGGCAGGTACGCTGGAGCAGCATTTACAGCGGGTTATTGG -TCATCTGAACACCATGCACACCATTTCGTCGATGGCATGGCGTCAGCGACCGCATCACGGGATTTGGCTGAGTCGCAAGT -TGCGGGATTCGAAGGCGTAATGCAGGCTAAACCATCGGATAAGGCATTCACGCCGCATCCGACATCTTTTGCCTGATGCT -TCGTATTTACGCCCCAACCACCTTCGCCACCGCGTGGGCGAAACGTTGCATCCCTTCATCGATATCCGCATCTTCCACCA -CCAGCGACGGTGCAAAACGCATCACATCCGGTCCGGCATTCAGCACCATTACGCCAGCCTCTGCGCCCGCATACAGGAAA -TCACGCGCCCGACCTTTGTACTGTGGTTTCAGCTCTGCGCCAATCAACAGCCCCATACCGCGAATATCGCTAAATACATC -GTACTGCTGATCGATCTTCTGCAGATGGTCAACAAAACGCTGGCGTTTCGCCTGAATGCCTTCCAGCACTTCAGGGGTAT -TGATGATATCAAACGCCGCCCCCGCTACTGCACAGGCCAGAGGATTACCGCCGTAGGTGGAACCGTGAGAACCAGGATGA -AACGCAGAAGCAATTTCCGCCGTGGTCAGCATGGCGCTAATCGGGAAGCCGCCGCCTAACGCTTTCGCAGAGGTCAGAAT -ATCCGGCGTAACGCCGTAGTGCATGTAAGCAAACAAATCGCCGGTCCGCCCCATCCCGCACTGCACTTCATCAAACACCA -ATAATGCCTGATGTTGATCGCACAGCTCGCGCAAGCCCTGCAAAAACTCTGGCGTCGCTGCCGTCACACCGCCCTCGCCC -TGGATCGGCTCAACCACCACCGCACAGGTGTGATCATCCATCACCGCTTTCACTGCATGGAGATCGTTAAAGGGAACGTG -GATGATGTCTGCCGGTTTCGGCCCAAAGCCGTCGGAATATTTTGGCTGCCCACCCACCGAAACGGTAAACAGCGAGCGAC -CATGAAAAGCGTTATGGAAGGCAATAATTTTGGTTTTGAACGGGCTATGACGCACACAGGCGTAATGGCGTGCCAGTTTA -AAGGCGGTTTCGTTAGCTTCCGTGCCGGAGTTCATAAACACCACGCGTTCGGCAAACGTTGCCTCAATCAGTTTACGCCC -AAGACGCAGCGCCGGTTCATTGGTGAAAACGTTACTGATATGCCACAGAGTTTCGCCCTGGGTTTTTAACGCGTTCACCA -GCGCAGGATGGCAATGGCCCAACGCCGTAACTGCAATGCCACCCGCGAAATCGACATACTCCTTGCCTTGCTGATCCCAG -ATTCGGCTGCCCTGACCTTTTACCGGAATAAACTCTGCCGGAGCATAAATCGGCAGGATCACTTCATCGAAAGTCGCGCG -TGTAATTGCTGTTTGTTCAATTGCCATCTCATGATCACCCTGTTACGCATAAACAAATGTGAAATTATAACCACAAAATA -TGCATAAAAAATCACTAAATGGCAATCAGAAATCAGCGATGCAGGAAATTAGCCAGCAGTTGATGTCCTTGTTCGCTAAG -AATACTTTCTGGATGGAACTGCACACCTTCCAGATCCCACTGGCGATGGCGAATCCCCATAATCTCTCGGGTTTCGCTCC -AGGCCGTCACGTCAAAGCACGCTGGTAATGAGTCAGGTTCCACCACCAGCGAATGGTAGCGTGTCACGGTAAGTGGATTT -GCCAGCCCCCGAAATACGCCCTCACCGTTATGTGTAATCGGCGAGGTTTTGCCGTGCATGACCTTTGCGGCGCGCACAAC -TTTACCGCCAAATGCCTGCGCCATTGCCTGATGACCGAGGCAGACGCCAAGAATCGGCAAGCGCCCGGCATAGTGGCGAA -TAACGTCAAGGGAGATCCCGGCTTCATCTGGCGTACAGGGGCCAGGTGAGATGACAATTTTTTGTGGTTTAAGGGCGTCG -ATATCCGCCAGCGTCAACGCATCGTTGCGCTTAACCAGCACATCCGCCCCCAGTTCACAAAAGTACTGGTAGAGGTTCCA -GGTAAAAGAATCGTAGTTATCTATAAGCAGGATCATGGCGGCTCCGGTACAAAAGAACCGCGCTATTTTACTCAGATTCC -CCGGCTTCGCTTACCACTTTGCTAAATATCATCTGCAGTGCGGTGAGATCCCCCATTGCCCCACTCTGATTTGCCTGATT -CCAGGCCTCTTTTTCGATACCCTGCCAGCTCAGTTGATATCCGGCATGAATCGCCAGTTGCTCGAAGAAGATCCGCTGTG -CCAGACCACTTCCCACCCGGAAGGGATGCAGCACGTTGATTTCACAATAGTAATGCGCCAGCCGCTCGACGAACTTCGCT -TTCTCCAGGCCAACCAGATAACCTTCTTCCTCCAGATCCTGCATCAGGGCATTGCCCTCTTTTTCGATATAAGCAAAGTG -GCAGAACGGCGTATCACCCTGATAAATATCAACTTCACGCAGTTGCCCTGCCCAGTCGAAAATATCCTGATACAGCTGGC -GATGGATAGTTCGCAAATGCGGTAAACCGCGCACCAGCGGACCAAGCTCAATGGTCGCAGCACGCAGCGCCGTCATTTCG -TAAGCGGCCTGTTCCAGCCGCTGCTGCTGGCGGATGTTCAGCCGGTTACGCATGATATCAAGGCCTGGATAAAGATACGG -ATCGCGCCCTTCGCCGAATTTATCGCTCATAGTGACTCCTCAGCTCTTCAAGGCGCGCTAAAGCCTCTGCGGCAGTAAGA -GTGACTAAAGGCATCTCGACGCCTTCAAGACGGCGACTGGCCTGAAAATTACGATTACGCTGAAGCTCCCAGAGACGGGA -CTTTTGCTTATCGGTGAGTTTCTTCACTTGATGCCTCCCTGAACGTGTCCATTTGCCACAAGTATAAGCGGCAAATCCGG -GTTACGCCGGGAGAGCAGAAGCGCGGGCAAGATTGCCCGCGCGAGAAATCATTACGGCAGGACTTTAGCGGAAAGGATAA -CTACCGGTTTTGACGGCACATTCTGGTACGGACCAACGTCATGAGTCGGCACCTGGGAAATCTTATCGGCAACGTCCATG -CCTTTCACCACTTTACCAAATACCGCGTAACCGAAATCACGCTGACCATGGTCAAGGAAGGCGTTATCGGCAACGTTGAT -AAAGAACTGGCTGGTGGCGCTGTCTTTGTCAGCGGTACGTGCCATCGCGATGGTGCCACGCGTGTTGCGCAGGCCGTTAT -CGGCTTCATTTTTGATTGGCGGGTTTGGTTTTTTCTGCTGCATCTGCTCGGTGAAACCGCCGCCCTGAATCATAAAGCCA -GGAATGACGCGGTGAAAGGTAGTGTTGTTATAAAAACCGCTGTTCACATAATCGACAAAGTTTTGCACAGACACTGGCGC -TTTTTGTTTATCCAGCTCCAGTTCGATGTTACCAGCTGAGGTTGTCAACAATACGTGCGGGTCCCCTTTCGCTGCCATTG -CTGCGGGAGAAAGAGCAGAAAGAGCGAAAACAGCAGCCATCGCCGCCAGGGTCGATTTGAACATGAGATTTCCTTAACAA -ACAGAGCAGAAAAAAAGCAAGTGAAGAGATTCTAAATAGCCTTCAAGAACAAGGCCATCCCTTTACCTAATTTTACGTAT -CTGAAATATATGTAACCTGACGATCACTTTTTATTCCGTGATCAAAATCACCTCTTAAAATGCAATTTAGCAACCGATTG -CAATAAAACATTTAAACAGATCACAAAATCACCTAAAATCGCCCGCTCGCGGCATATCCCGCTATGCCATTTTATTTTTG -AACGCAGGCCAATCATGACTAACAGCAATCGCATCAAGCTCACATGGATTAGCTTTCTCTCCTACGCACTGACTGGTGCG -TTGGTTATTGTCACCGGGATGGTGATGGGAAATATCGCCGATTATTTCAATCTGCCTGTTTCCAGTATGAGTAATACCTT -CACCTTCCTCAACGCCGGCATTTTAATCTCTATCTTCCTCAACGCCTGGCTGATGGAAATCGTCCCGTTGAAAACGCAGT -TACGTTTTGGCTTTCTCCTGATGGTGCTGGCGGTTGCCGGTTTGATGTTCAGCCACAGCCTGGCGCTGTTCTCGGCGGCG -ATGTTCATTCTCGGGGTGGTCAGCGGCATCACCATGTCGATTGGTACATTCCTGGTAACACAAATGTATGAAGGGCGTCA -GCGCGGTTCCCGCCTGTTATTTACCGACTCCTTCTTCAGTATGGCTGGGATGATTTTCCCAATGATCGCCGCGTTTCTAC -TGGCGCGCAGCATTGAGTGGTACTGGGTTTATGCCTGCATCGGGCTGGTGTATGTCGCTATTTTTATTCTGACCTTCGGC -TGTGAGTTCCCGGCGCTGGGCAAACATGCGCCAAAAACGGATGCTCCGGTAGAGAAAGAAAAGTGGGGGATCGGCGTACT -GTTTCTCTCTGTTGCGGCGTTGTGCTACATCCTCGGTCAGTTAGGTTTTATCTCCTGGGTGCCTGAGTATGCCAAAGGCC -TGGGCATGAGCCTGAACGACGCGGGCACGCTGGTGAGTAACTTCTGGATGTCATACATGGTCGGCATGTGGGCGTTCAGC -TTTATTCTTCGCTTCTTTGATTTGCAACGCATTCTGACCGTACTGGCTGGTCTGGCTGCGATTCTGATGTACGTCTTTAA -CACCGGAACACCAGCACATATGGCGTGGTCAATTCTCGCTCTGGGCTTCTTCTCCAGCGCGATCTATACCACCATCATCA -CCCTGGGTTCACAGCAGACCAAAGTACCGTCGCCAAAACTGGTTAACTTTGTCCTGACCTGCGGAACCATCGGTACTATG -TTGACCTTTGTGGTTACCGGCCCGATCGTTGAACATAGCGGTCCGCAGGCGGCACTGCTTACAGCAAACGGTCTGTACGC -TGTCGTCTTTGTGATGTGCTTCCTGTTAGGTTTCGTCAGCCGTCACCGTCAGCATAACACCCTGACCTCTCATTAATTGC -TCATGCCGGACGGCACTATCGTCGTCCGGCCTTTTCCTCTCTTCCCCCGCTACGTGCATCTATTTCTATAAACCCGCTCA -TTTTGTCTATTTTTTGCACAAACATGAAATATCAGACAATTCCGTGACTTAAGAAAATTTATACAAATCAGCAATATACC -CATTAAGGAGTATATAAAGGTGAATTTGATTTACATCAATAAGCGGGGTTGCTGAATCGTTAAGGTAGGCGGTAATAGAA -AAGAAATCGAGGCAAAAATGAGCAAAGTCAGACTCGCAATTATCGGTAACGGTATGGTCGGCCATCGCTTTATCGAAGAT -CTTCTTGATAAATCTGATGCGGCCAACTTTGATATTACCGTTTTCTGTGAAGAACCGCGCATCGCTTATGACCGCGTACA -CCTCTCGTCTTACTTCTCTCACCACACCGCCGAAGAGCTGTCGCTGGTGCGCGAAGGCTTCTACGAGAAACACGGCATCA -AAGTTCTGGTCGGCGAACGCGCTATCACCATCAACCGTCAGGAGAAGGTGATTCACTCCAGCGCCGGACGTACCGTTTTT -TATGACAAGCTGATCATGGCAACCGGTTCCTACCCGTGGATCCCGCCAATCAAAGGTTCTGATACTCAGGACTGCTTTGT -CTATCGCACTATTGAAGACCTCAACGCCATTGAATCCTGCGCCCGTCGCAGCAAACGCGGTGCCGTTGTTGGTGGCGGCC -TGTTAGGTCTGGAAGCCGCAGGCGCGCTGAAAAACTTAGGTATTGAAACCCACGTTATCGAATTTGCCCCTATGCTGATG -GCAGAACAGCTTGATCAGATGGGCGGCGAGCAGCTGCGTCGCAAAATCGAAAGTATGGGCGTGCGCGTTCACACCAGCAA -AAACACCCTTGAGATTGTGCAGGAAGGTGTTGAAGCGCGTAAAACCATGCGTTTTGCCGACGGCAGCGAACTGGAAGTCG -ACTTTATCGTCTTCTCTACCGGTATCCGTCCGCGCGATAAGCTGGCAACCCAGTGTGGTCTGGACGTTGCTCCGCGTGGG -GGTATTGTCATTAATGATTCCTGCCAGACTTCCGATCCGGATATCTACGCCATCGGTGAATGCGCAAGCTGGAACAACCG -TGTATTTGGTCTGGTAGCACCTGGCTACAAAATGGCGCAGGTCGCCGTTGACCATATTCTCGGTAGCGAAAACGCCTTTG -AAGGTGCTGACCTTAGCGCCAAGCTGAAACTGCTGGGCGTAGACGTAGGCGGTATTGGTGATGCGCACGGTCGCACGCCT -GGCGCACGTAGCTACGTTTACCTCGACGAAAGTAAAGAGATCTACAAACGCCTGATTGTCAGCGAAGACAACAAAACCCT -GCTCGGTGCGGTACTGGTGGGCGATACCAGCGACTACGGTAACCTGCTGCAACTGGTGCTGAACGCTATCGAACTGCCGG -AAAACCCGGATTCCCTGATCCTGCCAGCACACTCGGGTAGCGGCAAGCCGTCTATCGGTGTTGATAAACTGCCGGACAGC -GCGCAAATCTGCTCCTGCTTCGACGTCACCAAAGGTGATCTGATTGCTGCCATCAACAAAGGCTGCCACACAGTTGCGGC -GCTGAAAGCTGAAACCAAAGCGGGTACTGGCTGCGGTGGCTGTATCCCGCTGGTCACTCAGGTACTGAACGCGGAACTGG -CGAAACAGGGCATCGAAGTTAACAACAACCTGTGCGAACACTTTGCTTATTCGCGTCAGGAACTGTTCCATTTGATCCGC -GTTGAAGGCATTAAAACCTTCGAAGAACTGCTGGCGAAACACGGCAAAGGCTACGGTTGTGAAGTTTGTAAACCAACCGT -CGGTTCGCTGCTGGCCTCCTGCTGGAACGAATACATTCTGAAGCCGGAACATACTCCGCTGCAGGATTCTAACGACAACT -TCCTCGCTAACATCCAGAAAGACGGCACCTACTCGGTGATCCCGCGTTCTCCGGGCGGTGAAATCACCCCGGAAGGGCTG -ATGGCGGTAGGTCGTATCGCGCGTGAATTTAATCTCTACACCAAGATCACTGGCTCCCAGCGTCTGGCGATGTTTGGCGC -ACAGAAAGACGATCTGCCGGAGATCTGGCGTCAGCTGATTGAAGCCGGCTTCGAAACCGGTCATGCCTATGCGAAAGCAC -TGCGTATGGCGAAAACCTGCGTGGGTAGCACCTGGTGCCGCTACGGCGTTGGCGACAGCGTCGGCCTCGGCGTGGAACTG -GAAAACCGCTACAAAGGCATCCGTACGCCGCACAAAATGAAGTTCGGTGTCTCCGGCTGTACCCGTGAATGTTCAGAAGC -TCAGGGTAAAGACGTGGGTATTATCGCCACTGAAAAAGGCTGGAACCTGTATGTTTGCGGTAACGGCGGCATGAAACCGC -GTCATGCGGATCTGCTGGCGGCGGATATCGATCGCGAAACGCTGATCAAATATCTCGACCGCTTCATGATGTTCTACATC -CGTACTGCCGACAAACTGACGCGTACCGCACCGTGGTTAGAAAACCTCGAAGGCGGCATCGATTACCTGAAAGCAGTGAT -CATTGACGACAAACTGGGGCTGAACGCACATCTGGAAGAAGAGATGGCGCGCCTGCGTGAAGCGGTACTGTGTGAGTGGA -CTGAAACGGTCAATACGCCGTCTGCGCAGACTCGCTTCAAACACTTCATCAACAGCGACAAGCGTGACCCGAACGTGCAG -ATGGTGCCAGAGCGCGAACAGCACCGTCCGGCAACGCCGTATGAACGTATCCCAGTAACTCTGGTGGAGGACAACGCATG -AGCCAGTGGAAAGACATCTGCAAAATCGATGACATCCTGCCTGAAACCGGCGTCTGCGCGCTGTTAGGTGACGAGCAGGT -CGCGATTTTCCGCCCGTATCACAGCGATCAGGTGTTTGCGATCAGCAACATCGACCCGTTCTTCGAGTCCAGCGTGCTGT -CACGCGGACTGATTGCGGAACACCAGGGCGAGCTGTGGGTCGCCAGCCCGCTGAAAAAACAGCGTTTTCGCTTAAGCGAC -GGCTTGTGCATGGAAGACGAACAGTTTTCCGTCAAACATTACGAAGCGCGAGTGAAAGACGGCGTGGTGCAGCTGCGCGG -TTAATGTTTTAACGGGAGGCGCAATGCCTCCCCTTTTTGCATGGTCCTGTAATAATCTTCGGTATATTGCAGGACATTTT -TTAAACTTTTTGTTTTATTTTTTGTTTTTATTTTTTAAAGGATAATCAAATGTTTACAGACACTATTAATAAGTGTGCGG -CTAACGCTGCGCGCATTGCACGCCTGTCGGCAAATAACCCGCTCGGCTTTTGGGTCAGCTCCGCCATGGCGGGCGCGTAT -GTGGGTCTTGGGATCATCCTGATTTTCACGCTCGGTAATTTGCTCGATCCATCCGTACGCCCTTTGGTGATGGGCGCGAC -CTTTGGTATCGCCTTAACGCTGGTGATTATCGCCGGTTCTGAACTGTTCACCGGACACACCATGTTCCTCACCTTTGGGG -TAAAAGCGGGCAGCATCAGCCACGGGCAAATGTGGGCAATCCTGCCGCAAACCTGGCTGGGTAACCTGGTCGGTTCCGTC -TTCGTTGCCATGCTCTATAGCTGGGGCGGCGGTAGCCTGCTGCCGGTAGATACCAGCATCGTTCACTCCGTCGCGCTGGC -TAAAACCACTGCACCGGCAATGGTACTCTTCTTCAAAGGTGCATTGTGTAACTGGCTGGTTTGCCTGGCAATCTGGATGG -CGCTGCGCACTGAAGGGGCGGCGAAATTTATCGCTATCTGGTGGTGTCTGCTGGCATTTATCGCGTCCGGCTACGAGCAC -TCTATCGCTAACATGACGCTGTTCGCGCTCTCCTGGTTCGGCAACCACAGCGAAGCCTACACGCTGGCGGGTATTGGTCA -TAACCTGCTGTGGGTGACGCTGGGTAATACTTTATCAGGTGCCGTATTCATGGGATTGGGTTATTGGTATGCTACGCCGA -AAGCGAATCGTCCGGTTGCGGACAAATTTAATCAAACTGAAACGGCTGCCGGTTAATTACTAAGGGGTTTTTACGTGGAT -CATTTGCCTATATTTTGCCAATTACGCGATCGCGACTGTCTGATTGTCGGCGGTGGTGATGTCGCGGAACGCAAAGCAAG -GTTGCTGTTAGACGCAGGCGCTCGCTTAACGGTGAATGCATTAGCGTTTATTCCACAGTTCACCGCATGGGCAGATGCAG -GCATGTTAACCCTCGTCGAAGGGCCATTTGATGAAAGCCTTCTCGACACCTGCTGGCTGGCGATTGCAGCGACGGATGAT -GACGCGCTTAACCAGCGCGTCAGCGAAGCCGCTGAAGCTCGTCGCATCTTCTGTAACGTGGTCGATGCGCCGAAAGCCGC -CAGCTTTATTATGCCGTCGATTATTGACCGCTCACCGCTCATGGTAGCGGTCTCCTCTGGCGGCACCTCTCCGGTTCTGG -CACGCCTGTTGCGCGAAAAACTTGAATCACTGCTGCCGTTACATCTGGGCCAGGTAGCGAAATACGCCGGGCAATTACGC -GGGCGAGTGAAACAACAGTTCGCCACGATGGGTGAGCGTCGCCGTTTCTGGGAGAAATTGTTCGTTAACGACCGCCTGGC -GCAGTCGCTGGCAAACAACGATCAGAAAGCCATTACTGAAACGACCGAACAGTTAATCAACGAACCGCTCGACCATCGCG -GTGAAGTGGTGCTGGTTGGTGCAGGTCCGGGCGATGCCGGGCTGCTGACACTGAAAGGACTGCAACAAATTCAGCAGGCA -GATGTGGTGGTCTACGACCGTCTGGTTTCTGACGATATTATGAATCTGGTACGCCGCGATGCGGACCGTGTTTTCGTCGG -CAAACGCGCGGGATACCACTGCGTACCCCAGGAAGAGATTAACCAGATCCTGCTGCGGGAAGCGCAAAAAGGCAAACGCG -TGGTGCGGCTGAAAGGTGGCGATCCGTTTATTTTTGGCCGTGGTGGCGAAGAGCTGGAAACACTGTGCAACGCGGGTATT -CCGTTCTCGGTGGTTCCGGGTATTACCGCAGCTTCTGGTTGCTCTGCCTATTCGGGTATTCCACTCACGCATCGCGATTA -TGCCCAGAGCGTACGCTTAATTACCGGACACTTAAAAACCGGTGGCGAGCTGGACTGGGAAAACCTGGCGGCAGAAAAAC -AGACGCTGGTGTTCTATATGGGGTTGAATCAGGCCGCGACTATTCAGCAAAAGCTGATTGAACACGGAATGCCAGGCGAA -ATGCCGGTGGCAATTGTCGAAAACGGTACGGCAGTCACGCAGCGCGTGATTGACGGTACGCTCACACAGCTGGGAGAACT -GGCGCAGCAAATGAACAGTCCATCGCTAATTATTATTGGTCGGGTTGTTGGCCTGCGCGATAAACTGAACTGGTTCTCCA -ACCATTAATTTAACCCGGGCCAGAGAATTCTGGCCTTCTTAATGACTCTTTTTATATATTCAGCAAATAAAACATAGCCC -CTTAATAAATATTATCTGCTAATGGGTTATATTCACCGTTACAGCGACTTACAAAATTAAGTCATTCGCTCACTGACGCC -AATTAAATATTCCTGTATCGTTCTTAACGAGCAGTCTGCTTATATTCATATAATCAATGAATATTAATTAATATATAATA -CATAGGGAATGTAAATGAACAAATTTATTAAAGTTGCACTGGTAGGTGCAGTACTGGCTACGTTAACTGCATGTACTGGT -CATATTGAAAACCGTGATAAGAACTGCTCTTACGACTACCTGCTGCACCCGGCAATTTCTATTTCTAAAATCATTGGCGG -TTGCGGTCCTACTGCACAGTAAGTCTCTGACAGAAATCGGCTAACACCGGTTTAATTGCCCGACGCCCTCTGGATTTTCC -GAGGGCGTATTTGTTTCTATGTCCTTCTTGCCCCCGCCCGTAAAAATATTTTCACTTTAAATTCAATTTGATAACTACAT -CCATTAGCCACAGCGCGATCCTGTGCGAAATTTTGTGATCTTCCTCCACATTACATAACATCATATGTTGTTATATTCAT -CATGCATTGTCATGTTACCTTTTAAATGACTGCAAACTCTCCCCTACAACGTATTGGACAAGAAAAAGGTATCGCTATGG -GAAGCCAGGAACTCCAACGCAAGCTCGGATTTTGGGCCGTTCTTGCAATCGCCGTCGGGACAACCGTCGGCTCCGGTATT -TTTGTATCTGTGGGTGAAGTGGCAAAAGCAGCGGGCACGCCGTGGCTTACGGTGCTCGCGTTTGTCATTGGCGGGTTAAT -TGTGATCCCGCAAATGTGCGTCTATGCGGAACTATCCACCGCTTATCCGGAAAATGGCGCAGATTATGTTTATCTGAAAA -ATGCCGGAAGCCGACCGCTGGCTTTCCTCTCCGGCTGGGCCAGCTTCTGGGCCAACGATGCGCCGTCATTGTCGATTATG -GCGCTGGCGATTGTCAGCAATCTTGGCTTTTTAACGCCTATCGATCCGTTGCTCGGTAAATTTATCGCCGCCGGATTAAT -TATCGCCTTTATGTTGCTACACCTGCGCTCCGTTGAAGGCGGCGCAGCGTTTCAGACGCTAATTACCATCGCCAAAATTA -TCCCGTTCACTATCGTCATTGGCCTTGGGATCTTCTGGTTTAAAGCGGAGAATTTTGCCGCCCCTACCACCACTGCGATT -GGCGCAACGGGCAGCTTTATGGCGCTGCTGGCGGGGATCTCTGCCACCAGTTGGTCGTATACCGGCATGGCCTCTATCTG -TTATATGACCGGCGAAATTAAAAACCCCGGAAAAACCATGCCACGAGCGCTGATTGGTTCCTGTCTGCTGGTTCTGGTGC -TCTACACCCTGCTGGCGCTGGTGATTTCCGGCCTGATGCCCTTCGACAAACTCGCCAATTCTGAAACGCCGATTTCCGAC -GCCCTGACCTGGATCCCCGCACTCGGCAGCACCGCTGGGATCTTTGTTGCCATCACGGCGATGATCGTCATTCTTGGTTC -GCTTTCCAGCTGCGTGATGTACCAGCCGCGGCTGGAATACGCGATGGCGAAAGACAACCTGTTCTTTAAATGCTTCGGCC -ATGTGCATCCGAAATACAACACGCCGGATGTCTCCATCATCCTGCAAGGGGCGCTGGGGATCTTCTTCATCTTCGTTTCC -GATCTCACCAGCCTGCTGGGTTATTTCACCCTGGTGATGTGTTTCAAAAATACCCTCACCTTCGGCTCCATCATCTGGTG -TCGTAAACGCGACGATTACAAACCGCTGTGGCGTACTCCGGCTTTCGGGCTGATGACCACCCTCGCCATTGCGTCAAGCC -TCATTCTGGTCGCCTCAACCTTTGTCTGGGCACCGATTCCCGGCCTTATCTGCGCCGTCATCGTTATTGCTACTGGTCTG -CCTGCTTACGCCTTCTGGGCGAAGCGTAGCCGCCAGCTCAACGCTTTGTCGTAATGTTATCTGGAGAAAATAAAATGTTG -GATATTGATAAAAGCACCGTGGACTTTCTGGTCACCGAAAATATGGTTCAGGAAGTGGAAAAAGTTCTCAGCCATGACGT -TCCGCTGGTGCACGCCATCGTGGAAGAGATGGTGAAGCGCGACATTGATCGTATTTATTTCGTTGCCTGCGGATCGCCAC -TCAACGCGGCGCAAACGGCGAAACATCTGGCGGATCGCTTTTCCGATCTTCAGGTCTACGCCATTTCCGGCTGGGAGTTC -TGCGATAACACCCCGTATCGCCTCGACGATCGTTGCGCAGTAATTGGCGTTTCTGACTACGGTAAAACCGAAGAGGTAAT -CAAAGCGCTGGAGCTGGGCCGGGCCTGCGGCGCACTCACTGCGGCGTTCACCAAACGCGCGGATAGCCCGATTACCTCGG -CGGCGGAATTTAGCATTGATTATCAGGCCGACTGTATCTGGGAAATTCACCTGCTGCTCTGCTACAGCGTGGTGCTGGAG -ATGATCACCCGCCTCGCGCCGAACGCGGAAATCGGCAAGATCAAAAACGATCTCAAGCAGTTGCCGAATGCGCTCGGTCA -TCTGGTACGCACCTGGGAAGAAAAAGGCCGCCAGCTTGGTGAACTGGCCAGCCAGTGGCCGATGATTTATACCGTTGCTG -CGGGTCCGCTGCGTCCGCTGGGTTACAAAGAAGGCATTGTAACGCTGATGGAATTTACCTGGACGCACGGCTGCGTGATT -GAGAGCGGAGAGTTCCGCCATGGCCCGCTGGAGATTGTCGAACCGGGCGTTCCGTTCCTGTTCCTGCTCGGCAATGATGA -AAGTCGCCACACCACCGAACGCGCCATTAACTTTGTTAAACAGCGTACTGACAACGTGATCGTCATCGATTACGCCGAAA -TTTCGCAAGGGCTGCACCCGTGGCTGGCACCGTTCCTGATGTTCGTGCCAATGGAGTGGCTCTGCTACTACCTGTCTATT -TACAAAGATCACAACCCGGATGAACGCCGCTATTACGGTGGTCTGGTGGAATATTAATCCCTCTCCCGGCCCGGCAACGG -GCCGGATTTACGCAAGGAGTTACCCGATGAAAACAGGTATGTTTACCTGCGGCCACCAGCGGCTGCCTATTGAACACGCA -TTTCGTGATGCAAGCGAGCTGGGTTACGACGGCATCGAAATTTGGGGCGGTCGCCCGCACGCGTTCGCGCCGGACTTAAA -AGCGGGCGGCATCAAACAAATCAAGGCGCTGGCGCAGACGTATCAGATGCCGATTATCGGCTATACGCCAGAAACCAACG -GCTATCCGTATAACATGATGCTGGGCGATGAACATATGCGTCGCGAAAGCCTCGACATGATCAAGCTGGCGATGGATATG -GCAAAAGAGATGAACGCGGGTTATACGCTGATTTCCGCGGCCCACGCGGGCTATCTCACGCCACCTAATGTTATCTGGGG -ACGGCTGGCAGAGAACCTAAGCGAACTGTGTGAGTACGCGGAAAACATCGGCATGGATCTAATCCTCGAACCGTTAACGC -CGTATGAATCGAACGTCGTGTGTAATGCTAATGATGTGCTTCATGCGCTGGCGCTGGTGCCTTCGCCGCGCCTGTTCAGC -ATGGTCGACATTTGCGCGCCGTATGTCCAGGCGGAACCGGTGATGAGTTATTTCGACAAACTGGGCGATAAATTACGTCA -TCTGCATATTGTCGACAGCGACGGGGCCAGCGACACGCATTACATTCCTGGAGAAGGCAAAATGCCGCTGCGGGAACTGA -TGCGCGATATTATTGAGCGGGGCTATGAGGGTTACTGTACGGTGGAGCTGGTGACGATGTATATGAACGAGCCCAGACTC -TATGCCCGCCAGGCGCTGGAACGCTTTCGCGCGCTGCTGCCGGAGGATGAGAGATGAAAACCCTGGCGACAATCGGCGAT -AACTGCGTCGATATCTACCCGCAACTGAATAAAGCGTTTTCTGGCGGTAATGCGGTCAATGTGGCGGTGTACTGCACTCG -CTACGGCATACAGCCGGGATGCATTACCTGGGTGGGTGACGATGACTACGGCACAAAGCTGAAGCAGGATCTCGCCCGCA -TGGGCGTCGATATCAGCCATGTCCATACGAAACACGGCGTTACCGCACAAACTCAGGTGGAACTGCACGACAATGATCGC -GTTTTTGGCGACTACACCGAAGGCGTGATGGCCGACTTTGCCCTGAGTGAAGAGGATTACGCCTGGCTGGCGCAGTATGA -CATTGTGCACGCGGCAATCTGGGGACATGCGGAAGACGCATTCCCACAGCTGCACGCTGCGGGCAAACTTACCGCTTTCG -ACTTCTCCGACAAGTGGGACAGCCCGCTCTGGCAGACACTGGTGCCGCATCTCGATTTTGCCTTTGCCTCCGCACCGCAA -GAAGACGAAACGCTGCGTCTGAAGATGAAAGCGATTGTTGCCCGTGGCGCAGGAACAGTGATTGTCACGCTGGGTGAAAA -CGGCAGCATTGCCTGGGATGGCGCGCAGTTCTGGCGTCAGGCTCCTGAACCGGTGACGGTTATCGACACCATGGGTGCCG -GAGATTCGTTCATTGCCGGATTCCTTTGCGGCTGGTCTGCGGGGATGACATTACCGCAGGCGATAGCGCAGGGAACGGCG -TGCGCGGCGAAAACCATTCAGTACCACGGTGCCTGGTAGGTATAACGTTGGCGTGAGCATCTTCACGCCAACGTGCTGTT -ACTTGCCGGAAAACGACCCTATAATCCGAGTAATTCATTCTTTATTTCAGGGTCGATTATGTCAGCTACGGACCGCTACT -CTCATCAACTCCTCTACGCTACCGTCCGCCAGCGACTGCTGGATGATATCGCGCAGGGGGTTTACCAGGCCGGGCAACAG -ATCCCTACCGAAAACGAGCTTTGTACACAATATAACGTCAGCCGCATTACCATTCGCAAAGCCATCAGCGACTTAGTGGC -AGACGGCGTACTGATCCGCTGGCAGGGAAAAGGCACCTTTGTACAAAGCCAGAAAGTTGAAAACGCCCTGCTTACTGTCA -GTGGTTTTACCGATTTTGGCGTCTCACAAGGCAAGGCGACGAAAGAGAAAGTGATCGAACAGGAACGGGTCAGCGCCGCG -CCGTTTTGCGAAAAGCTGAACATCCCCGGAAACAGCGAAGTGTTCCATCTCTGCCGGGTGATGTATCTCGATAAAGAGCC -GCTGTTTATTGATAGTTCATGGATCCCGCTGTCGCGTTATCCTGACTTTGATGAGATTTACGTCGAAGGAAGCTCCACCT -ATCAGTTATTTCAGGAGCGTTTTGACACGCGAGTGGTCAGCGACAAAAAGACCATCGATATCTTTGCCGCCACCCGCCCG -CAGGCAAAATGGCTGAAATGCGAACTGGGCGAACCGTTGTTTCGCATCAGCAAAATCGCCTTTGATCAGAATGACAAACC -GGTGCACGTCTCCGAACTCTTCTGCCGCGCCAATCGCATCACCTTAACTATTGATAATAAAAGACATTAACCGTAGGCCG -GATAAGATGCGCCAGCATCGCATCCGGCGATGCTGGCGCGTTGAATTTTACATCCCGTACGTTCCCCTCACCCTAACCCT -CTCCCCAAAGGGGCGAGGGGACCGTTCAGTACGGAATTTAGCTTGACGGTGCTATCCAGCATTAAATACTGGCAATACTC -TCACGCAAAATCCGCAGCACCGTCTCTTCACCGCTGCGATTCGGGTTAATGCGAATCGCACAATGTTCTGATTGTGGATT -CGCCTGGCGAAACGTTCCGGAAAGGCGATAAAAGAGCGGCGGGATTTCATATTTCGACTCTGCACCCACCGGGTAAGGCA -AGGCACCGCGCTTTTGCGCCTCTTCCAGCACTCTGGCGGCAATCGGCTGATGAAACTCGACAATCAACACCTTCGACTGC -GCATTAGCAATCACCGCGCTTTTCACTTCCGGCACCGCACCACCGTTAAGCAAAGCCAGCAACCGTTCAGATACCCCTGC -CTGCACCGCGTGCATCACTGGCGCAAACACCAGACCACGCAATACTTCCAGCGCCTGTGCGCCCTGGATCTGGCTACCGC -CGGAGTAAAGCGTGGCGCGAATACGGTTGATAACATCAGCATCGCCGACCACTGCACCAACACCCTCTGGCCCAAATAGC -TTGAAGCAGGAAAATGTCGAGACATTCGCGCCGCATTCACAGCCGATTCGAGCCACCTTCATCACCGCATAGTTGTCATC -GGTTAACGCTGGAACACCTGCCGCGCGCAACGTTGCCAGCACATCTGCCAGCACGTAGCTGTCCTGCGGCTGCTGGCGCG -TATGCTGCACCAGCGCCGCATCCGGTTGTTGCTCGTCGACGACCTGCTTCAGTGCCGACAGGTCATTGAAATCAACAGTA -ATAAGCGTCAGCCCCATCTGCTCAATAATAACCCGTGTCGTCGGGTAAACAGGCGCGTCATGCACCAGAAGACGCTGCCC -CGGTTTGAGCAAAGCCGCCAGCCCGGCGCGAATCGCGCCAGTCCCCGCGCCCTGCACCAGCGCCGCAGCCTGTGCGTGAA -ATGCATCAGCCAGCACCTGTTCCACACGCTGGGTAACGCGCGGTTGATTCAGTCCTGGCGTTAAGCCTAAATCACCGCCA -GTAAGAAACTCGCTGCCGGGGAAATGGCGACAAATGCTATCCACCAGCGCAAACTGCTTTTGCTGCGCCTCAATAATCGT -CAGGCTTTGCAGAGGAAACGTCTTCATAGGTGCCTTCCTTAAGCCGGAACGAACAGGCCAAGCCAGTAAAGAACATTCAG -CAGAATACCGGTGATCATTACTGCCACGACCGGTGCCGCCATTTTCTGTACCGGACGGCCCAGGGATTCGTTGAGGAAGT -AAATGGCAACCGCGATAGAGAATCCGGTATAACCCGCCATCTTAATTGCTGCGAAAATCGAACCGACCAGCAGCGCCACT -TCCATCAGCATATTCATGGCGTTACGGATGTTATCCGACGCATTACGCACCGACGGGTAGCGTCCCAGCCATTTGCCGAT -CGAACGAAGCAGCAAGACTTCCGCCGAAATAACCACTGCGCCTAATACCGCTGCAACCATCGGATTCGGCGAGAGATAGT -CCACCGCATAAACAAAGGTAAAGCCCGCAACTGCATACACACCCGTTGCTAACGCGGTGGTGGCAATCAACGGCACAAAC -CCCAGTCCGCGCATAAATTCTGCCAGAGCCGCCTGATTAATCAGCGTTTGCGATTGTTCCGGCGTTACGCCTGCGGAATA -TGCTTTCTCCAGTGTGAAGATCGACACTTCACTGCCAGCAAAAATCTTCATGCTGGCAACGGCGGCAATCAATGCTCCCA -CGATGGCGATATAGGGTAAGTTTTTGATAATCCGTGACGTGCGTTCTTCAAACACCGAAAGCCCGCTGGCATCAATGTCA -TTTTCATCACGATGACGCAGGTCGTGAGTTATCGCGATCCCCAGCAGCATCACCATGCCAATAAAGATTTCGATGGATTC -AGGGTTAAGATGTGGGAAATAGCGCACGACTACCACACGGGTCATCAGTACCACCACGGCGGCGATCAGACTTTGCTTCC -AGCCAAACTGGTAGAAAATCGCCACCAGCGGGAACAGTGCAAAAGCTGAAACCACCGGCGAGCTTAATTCCCCCAGGCTA -CCTAATACATCCACCGGCAGCGCGGTCAGCAGCTGGTTTACTGGCAACAGGCAAGTAAGGATCAACACGCCCCAGATAGC -GCCAAGACCAAACGCCATCAGGCTGTTTATCGCCAGGACGCCGAGGATATCGGTAGGAAGAAAGAGTAACCATGCGTTGA -GCAGCCCGGTTTTCAGGGTAAAAGAGATCCCCACCGAGGCCACAAAACCAATGCTCAGACCAAAAGCGATACTCCCCGCC -TCGCGACGGTTCATATAGCCTTCAATCAGTTGCGGCAGGATCGGGCGGATGCCGTCATGAAAAACAGCCGCCGAGCGATG -CGCCAGAAGCGATGTCATACCCGTCAGGCACGCCACCACGATAATCTGAATATACAGATCCATAGTCGTGCCTTTTATTT -CAGATGGTTAATCAGCATCGGAATCGCGTGTTCGACGTGCTCAACGGAAAGGCCAAACGCCACTTTTCCTTCAGCGATCA -TTTTGGCGATATGCTCGTCTTTCGCTTTAATGCCTGGTTTGGCAATGGTGCAACTTTTGTTATAGCCTATCACCGCGATG -GCAATCGACAATGCCGCGCCCGCACCGGTATTACACGCGCCGATGTAATAATCCAGTTGCCCGGATTTCACCTTCATTGC -CGCTTCCATGTCGTTGTGAATGAAAACTTCAAAACAGCCAGGAGCCGTCGCTTCAATAGTTTTTTTAATCTGCTCACGCT -GTAAGCCTGCAACGCCAATCTTTTTCATGAGTCTGTCCTTATTGGAAAAATTGAGAGGGATTTTCACGTAACATCACATC -CACATCGGCCTGACTGAATCCTGACTGGCGCAATTGCGGAATAAAGGTGGTTAGTAAATAGTCATAGCCATAACCACCGT -TGGCTTTTAAATGGGAGCGGCGCGTAATATCCATCGACAGCATGACGCGGTTCAGCAACCCACGGTCGCGTAGCGCATGA -AGCATCGCAATACGCTTTTCGTCCGGGTAGTAACTGTTCTTGCCGATGGTGTCGAACTGCACGTACGCGCCGAGATCGAT -CATCTTCAAAATGTTGTCGAGGTTGTCTTTCAGATCGCAGTGACCAACGGTGACGCGCGAAAGATCAACCCCGTGGGCTT -GTAGCAACGCCAGTTGCTCCAGCCCCATCGTGCTGAACGACGTATGCGTGGAGATCGGGCGTCCGGTCTGGTTATGCGCC -AGCGCAGCGGCAATAAATACCTTCTCTTCCAGCGGCGTAATCTTTCCTTCGCTGGTGCCGATCTCCGCGATGATCCCGGC -TTTCAGCTCCGTGCCATCGATACCCTGTTCAATTTCATCGACCATCTCCTGCGCCAGTTCCTGCACGCTGCGGGTCGCCA -CATGTTCCGGGAAAAACGCGTCCTGGTAATAACCGGTACAGGCCACCACGTTGATCCCCGTCTCGCGCATTACATCAAGC -ATAAATTGCGCATTGCGCCCCATGTAACGGTTGGTCATCTCAATCACATTACGCACGCCCCGGGTCATCAGGTCGTTCAT -CTCCTGGCAAATGAACGCATACTGATCAAGGCGGCAGTCCACGTTGTTTTTAAAGCCGGAGAGATCAATATGCAGATGCT -CATGGGCGAGGGTGTAACCCGTCGGATCAAAACTCATAGGGTGTCTCCTGCAAACCGGAGGGAGGAAAGAAAAGAGCGAC -CATTTTGTGGCGGTGGCGCGCGGAAAAATTCACACACGGTAGCCCCCACATCAGAAAGCGTGGTGCGCACACCGAGCTGC -GTAGCGATCATCCCTTGCTGATAAACCAGCACTGGCACCACTTCGCGGGTATGGTGGCTGTGACCAATGGTCGGATCGTT -GCCGTGATCCGCCATCACGACCAGGCAATCATCTGGCTGCATCGCCTCAACAAGCCGGGCAAGGTTACGGTCAACGACCT -GCAAACGTTCGGCATAACGTGCGACGTCTTCTGCATGACCAGCGAGGTCGGTTTCCTGAATGTTGGTGCAAATAAACGCC -GTCGGATGGGTGTTAAATTCGTTGAGGGTGATATCCATAATCCGCTGGCTATCCACCAGATTTTGCCAGCTCACGCCATA -AGGATTGTTGACGATATCTGCCACCTTACCCACCAGCACGGTTGGCACGCCTGCTTCATACAGTTTTTGTGGCACCTGCA -CTTTTTCATCGACGCCATAGCCCATATGCACGACCTGGAAACCGTTGTCATAAGCGCCAGAACGCGGCGCATTGATACCA -ATAAAGCGCCCTTCTTTGCTTTCTGCGGCATCGAGAATGCGTTGACTGTCGGTTAACAGGCCACCAAATGTAATGACCCG -ACCGACCTGTACCTGCTCACGCACGATACGACCAATTTTGATTGCGTCGTCAAAAGAGATCACAGAGAGATTGGCGGTAA -TGTTATAGACCTGGCCTAAATCCGCCTCGAGATTATCGCCAATCGCAACCGCCTGATTGACCCACAGAAATTGCAGATCA -TCGCCACGGCGCTCCACCTGCCAGCCAGCGGAAACTAATGCCTGCTCAACACGGTCAATCACATCGCGAAAAGGCATCCG -CAGCGGCGGTAACGGGCGCGTGCCTAAAATTTCCTGATGCCCCATAAAGGTATCGCCACCTTCATGTTGCAGCTCTGCCA -CGCCCCAGGTTGCGGAATCTGACGGCTGCATATCGCCTGGCGCATAACCCAATGCGTTGATTAGCCCCAGCGTCTCCAGC -GTTGGTAGCTGCAAATGCGGCAACTGGCTCAGGATGTGACCACATGTATTCGCTCCCGCATCTTGCGGACGCACCAGCGT -GACATCTTTCATTGCCCCTACGCCAAAGCTATCAATCACTAACACCACAAATCGCGCCATTACGCCCCCAGAGAGTTTCC -AAGACTGTCATAACGACCGACGATTTCCGGTTCGCCACGATGAATACCGGACACCAGCACCACATCGCTACGGGTGACAA -AAATCTGCGTGCGAAAACAGAGCACCACTGCACTGCTTACCGGAAACTCGCCTGCCAGCGGCAGGGTGTAGTCGATACTG -CTGTCATCCACAGTTTTGAGATTGGTTTCAGTAATCTTTTGATTTTCTGGCGTAAACACCAACGCATGTTGCGCATGACC -ACGACGATAGTAACCGCCGCCGTAGCAGTAGCTGTCGCCACGGAAATGATGGGAGATTTCACTTAACCAGAGCATCGCGA -TACGTTCAGGCTGATCGCCCTGCTGGTTTGCCGGAATAGTGCCCGTCAGCGCATGACCGGGTTCGGCATGAGTCACACCG -TATTGCGCCAGTAATGGCAGCGAAGTGCAGCTGGTCGCTGAAGGCGCGTTCAGTTGCTCAAGTGCAATACCAGATTTCGC -CAGTTGATCCCGTGCCTGTATCAGCGTGTGAAGATTCGGTGTCGGCAAAACTTTTCCGACAGCCTCATCCCAAAGCAGGC -AAGGGAAATGGGTAAGTCCGGCTAAATGCAGCCCTGGCAGATTCTGGATTTCGGCGACAATCTCCGGCAACACCTTGAGG -GCAAAACCGCTCTCCTGGCCCGGATAAAGAAAATCATCGTCGCTATAAACTTTAAGCAGCACAGACTGGATTCGCCCGGC -CTTCACCGCCGCCGCAGAAACTTCCCGCGCTTTGTCGAGAGTAAACACGGTGATGACGTCGGTGCCCTGTTCAACGGCGT -CAGCAACCTGATGACAAGGGATTTGTACCAGATGCCCCTGATGCGCCACAGGCAAACCAGCGCGGCGCATGACTCGCGCC -TCTTTGTAATCCACCGCCACAATGCCGCTGTAGCCTAATGCCAGCAATTTTTCCGCCAGCCACGGATTACGACCAAACTG -CTTGGTCATCAGATACAGTTCAATGCCGTAAAGCCGCGCCGTCTCAATCAGCCGCTTACCGTTTTCCAGTATCTGATCCA -CGTCGATCACCCAGCTGTCCGGGGCGATCTTGCCCTGCTGCCACAGGCTTAGTGCGGCGGAAATCAGCGCCGGGTTCTGG -CGTTTCAATGCTTCTACAAACATCTTGTTGCCTCGTTTCTGTTCCTTGAATTAAATATTCATTTTTTTGAATATTTAGGT -TGTGCGACGTGGATTTGTCGGGAGCTTCAAACCTCTTCGTTAGCAGCCATCCATAATCCATAAAGGTTGGCCAGCAAATA -GCCTTCTTCACACGGGTTAACTTCCAGTGCGAATTCCTTCAACAACACCTGATGCAATTGCACAACGGCTTGCCAGTGGC -TGGATTGCGCCAGTTCTGCCAGCAACTCGTTATCCAGCGGCTCTATTTCTTCACCACGGCGACTGCGCATCAGTGCACTC -GCCATATGTGTCATCGCCATCGTTCCTTGCTCACTGCGCACCGGCAGATGGCACTCTGTTTCCAGTACGTTGACGACCTG -CATCATGCCTTTGCAGATGTCCTTATCAATAACGCCTGCCTCGCAAAGCAGGTTGAGTCTGGTTTCCATATCAGATGCCT -TTCGTTTAATAACTCGGTTCCTGTTCCCCACTCACTACCCGTTGTTGATGGGCGAGCAGGGCGTGTTTATCTACAACGGC -ACGCAGCAGTTGTTGCATTGGGTAATCATCGACTCGCGTCAGGACCACGGCTTCGGTGGCCTGTAAAAATCGCGGATCGT -CTGTGAGCGGCGTCGCCTCTAATCCCAGCATGGTCAGTTCGTTTTCCGCCACCACGTTCCAGATCACCGCATCGACATCG -CCTTTAACAATGCGTTGTAAACTCTCGTGATAAGAGAGATCGACTCGTTCCACATCACTACCGCCAAAAAAAACATCGGT -CATGATTTTCTGATCCGCCGAACGGTTATCCAGCCCCACGCGCTTCACGTTTGCGGACTCGCCTTTACGGCAAATCAACT -GGTGCTCGCCAACGTAGGTGTGCGGCCCCAACTCCAGCGCGAGGCATAAGCCTTTTTGCGTGAGATAACTTTCCGCCGCT -AGTCGCGAAACCACCGCCATGTCATACACGCCATTAAGCAGACACTCCACGCGAATATCCGCGCCACGCATGTGCGCATA -GTAAAAAGGAATGCCATCAAACTGGGCTTTCAATCCGCTCGCCAGGCCTTCGTACAAACGGGTATAGGGCAAGGGCATTG -CACATACCACGTTGTTGATATCCACATGAGTCAGCAATGCTTTGTTATCCATCTCGACCAGATAACTGCCATTGCGCCCA -CGGCGTTCAATCCGTATCGCTCCGCTTGATTCCAGCGTTTTCAACGCGGCCTGCGTCAGGCCAACGGATGAACGGCATTC -ATTTGCCAGCTCATCTATGGTTTTCAATCGATTACCGCACTTTTCACCCAACAAATAACGGGCCAGCGTCGTGATGACGA -CGCCTTCTTTTTTGATAAACGTTCGACGCATAATAAATTTTCAGTAAATTGAATATTTATATCTTCAGGAATTTGAAGAT -AAGGCGCAACAGCGAGATGTGGAAACGGCGAGGCACTTCACATTTTTTCGGATTATTGCAAATGAGGATAAAAAAACCGG -GTTTCCCCGGTTTCAGAGTGATGATAAAAGCAAAATTGCCTGATGCGCTACGCTTATCAGGCCTACATTTCCTTGCAATA -TGTGCATTACTTTGTAGGCCGGATAAGGCGTTCACGCCGCATCCGGCATGAACAAAGCGCAATTTGCCAGCAATAGTGAA -TTACGGCTTCGCCACAAAACCAATCGCTTCGTACACCGCTTTTAGCGTACGGGAAGCGTGCGCGCTGGCTTTTTCCGCGC -CATCTTTCATCACCTGTTGCAGGAAGGCTTCATCGTTGCGGAAACGGTGATAGCGTTCCTGCAATTCAGTCAGCATACCG -GAAACGGCATCAGCCACTTCACCTTTCAGATGACCATACATCTTGCCTTCGAACTGTTTTTCCAGTTCTGGGATGCTCTG -GCCCGTTACCGCTGAAAGGATATCCAACAGGTTGGAAACGCCCGCTTTGTTCTGCACATCGTAGCGAACTACCGGCGGCT -CGTCGGAGTCAGTGACCGCACGTTTGATTTTCTTCACTACCGATTTCGGATCTTCCAGCAGGCCGATAACGTTATTGCGA -TTATCGTCAGACTTGGACATCTTCTTGGTCGGCTCCAGCAGCGACATTACGCGCGCGCCAGATTTCGGAATAAACGGCTC -CGGCACCTTAAAGATCTCGCCATACAGCGCGTTGAAACGCTGGGCAATATCGCGGCTCAGTTCGAGGTGCTGTTTCTGGT -CTTCACCCACCGGTACCAGATTAGTTTGATACAGCAGGATGTCCGCTGCCATCAGCACCGGATAGTCAAACAGACCAGCG -TTGATGTTCTCGGCATAACGCGCAGATTTATCTTTAAACTGCGTCATGCGACTCAGTTCGCCGAAGTAGGTATAGCAGTT -CAGTGCCCAGCCTAACTGTGCATGTTCCGGCACGTGGGACTGAACAAAAATGGTGCTTTTCTCAGGATCGATACCACAAG -CCAGATACAAGGCCAGCGTATCCAGCGTCGCTTTACGCAGCTTCTGTGCATCCTGGCGCACGGTGATCGCGTGTTGGTCA -ACGATACAGTAAATGCAATGGTAGTCATCCTGCATGTTTACCCACTGACGCAGCGCACCCATGTAGTTACCAATGGTCAA -TTCACCTGAGGGCTGTGCGCCACTAAAAACGATGGGCTTAGTCATTTTTCGATTCCTGATTTTCGCTATGCGGAAGCCCT -AATGCGGGCAGAAGGTCATTTATAGACTGATAAATTACATCAGGCTGGCTGAGATCGATAGCCTCGCCGTAGTTATATCC -GTAGGTTAAGCCAACTGATGGGCAACCTGCCGCTTTTGCCGCCTGAATATCATTGCGTGAGTCGCCGACAAACAGCATCT -GTTGTGGGGCAATTCCCATCCGCTCAGCCACCAGTAACAGCGGGTCCGGATGCGGTTTTTTGTTTTGCACATCATCACCA -CCAATCACCACGCTGAAGTATTTGGCGATATCTAAGGCTTCGAGCAGCGGCGCGACGAACGGCGTCGGTTTGTTGGTGAC -CAGGCCTAGCGGCAGGCCTTTAGCCTGCAACGCGCCCAACGTATCGGCAACGTGCGGGAACAAAAACGTCCCCTCTTCGG -CAACCTCGCCATAGTAGCGATCGAACAGTTTACGCAGAATACGTACCTGTTCTTCTGCCGGAATGTCGTCATCAACGGGC -GGTTTACCCATTGTTTTACGCTGAGTCGCACGTTCCTGACGCGCCCAGGTCAATGCGCGCTCCATCAGAACATCTGCGCC -GTTACCAATCCAGGTAATAACGCGTTCTTCACCTGCGACGGGCAACTCCAGCGCATACAGCGCCATATCTACCGCAGCAG -CAAGACCAGGAGCACTGTCGACCAGCGTACCATCAAGATCAAAAGCGACGCCGCGAATATCTTCAAACTTATTCATGACT -TACCTTTGCCAGTTCACTGCGCATTTCATCAATGACTTTTTTGTAGTCTGGCTGGTCGAAGATTGCCGAACCGGCGACGA -ACATATCCGCGCCCGCCGCAGCGATTTCGCCAATGTTGTTCACCTTCACGCCACCGTCCACTTCTAGTCGAATGTCAAAG -CCAGACTCGTCGATACGGCGACGTACTTCGCGCAGTTTATCCAGTGTTTGAGGAATGAAAGACTGACCGCCGAAACCAGG -GTTGACGGACATCAGCAGGATCACATCCAGCTTATCCATCACGTAATCCAGATAGCTCAGAGGTGTCGCCGGGTTAAATA -CCAGACCCGCTTTACAGCCATTTTCTTTAATCAGTTGCAGCGTGCGGTCAACATGCTCGGAGGCTTCTGGATGAAAGGTA -ATGATGCTGGCACCAGCGGCAGCGAAATCAGGCACAATGCGATCGACGGGTTTCACCATCAGGTGTACGTCGATAGGGGC -GGTAATGCCATAGTTACGCAAGGATTTCAGCACCATTGGCCCAATCGTCAGATTGGGAACATAGTGGTTATCCATGACGT -CAAAATGCACGACATCAGCGCCAGCTGCCAGGGCTTTTGCGGTATCTTCACCCAGGCGGGCAAAATCAGCCGACAGAATT -GAGGGGGCAATCAAATACTGTTTCATCCGCTTCTCCTTGAGAATTATTTTTTCGCGGGTGAAACGACTCCTGGTTTGTAC -AAAGCCAGCAGTTCGTCCACCTTTTTACGTGTGCCGCCGTTGCTGCTTATACTGCGTCGAACTTTGACGACATGCAATTT -TGCGCGCTGATACCACTCACGCGTTAACATCGTATCGTGATTGGAGATCAGCACTGGAATATGGCGCTCAACCAGACCTT -CGGCGATCTCCGCCAGATGCGCTTGTTGTTCAAGCGTAAAACTGTTTGTGTGATACGCCGTAAAGTTGGCGGTCGCAGAC -AGCGGTGCATAAGGCGGATCGCAATAGACGACGGATGCATCATCTGCGCGCGCCATGCTATCGGCGTAAGACTCACAATA -GAAAAAGGCATTCTGCGCTTTTTCAGCGAAGTGATACAACTCTGCTTCCGGGAAATAGGGTTTTTTGTAGCGGCCGAACG -GCACGTTAAACTCACCGCGCAGATTGTAACGACACAGGCCGTTGTAACCGTAGCGGTTCAAATATAAAAACAGTACCGCC -CGACGGAACGGATCCTGGCTTTTGTTGAACTCTTCGCGGAACTGATAGTAAACCTCGGCGCAATTTGTTTCGGGAACAAA -CAGCTCGCGTGCGGCCTGTACGTACTCATCAGTACGCATCTTCACAATGTTATAGAGACTGATCAGGTCGCTATTGATAT -CGGCAAGGATATAACGAGAAAAGTCGGTGTTGAGAAACACCGACCCGGCACCTACAAAAGGCTCAACCAGACATTCGCCC -TTGGGCAAATGCCGTTTAATATCATCAAGCAGGGGATACTTGCCCCCTGCCCACTTCAAAAAAGCGCGATTTTTCTTCAT -GCTGACTAACTAATTACACCTTCTCCGGCTGTGGAGAAAGCTCCGACAGCATCCAGCGCTTCAGGCAACTCCCGCAACGA -TAAACCATTGCGGGAGATAACCTTGATTACTTCAGATCGGCCTGTACCTGACGCAGCGGTTTCGCCCACGGGTTTTTGGC -CTGGACATCTGCTGGCAATGTAGATACCGCTTTTTTCGCCTCTTCTTTCGAAGCGTACACGCCAGAAACCAGGACATACC -ACGGCTGACCATTACGCGTCGTTTCATAGACAACGTAGTTTTTCAGATTCTCTTTCTTCGCCCAACCGTTCAGGTTGTCG -TAGTTAGAGGAACTGCTCAGCTGCAGAGTGTAATGGCTGGACGGTGCCGATTTCAACGAACCAACATTACCTGCGGTCTT -CGCCCCAGCAGCGGGTGTTGCTGTGGTTTGCGCCGGGGATGCCGTCTGTACTGGAGCCGTAGTCGCCGTCTCTTTTGGTG -CTGGCGTAGAAGTCGCAGCCGGTGCCTTCGTGCTCGCCACAGGGGCAGCTGGTTCAGTACGCTTCGGCGTCTGTGCTACC -GGCTTCGGCTCCGTTTTCACGGTTGCTTGCGGTTTTTTCGGTTCAATCACCGCCTGCTGACGAGCTGGGCGCGTAGTGGA -CGGACGTTCAGCGGTTTGCGTTTTCGCCGTGTCACGCGATGCATTGCCATTGCGAACAGGCGCAACCGTTGCGGGTTCAG -TCGGCAACGTGGAATTGACCGCCACATTGTTCAGCTGTTGCTGATTTTGTGGCTGGGTCAGCGCATTGTTCAGGTCACCC -TGCACTTCAACACGTTGTTGACCATCCGTTGCCACCGGGGTTTGCCCTTGAGTCGGCGTAGAAGAGATCGGTGGCAGAGA -AACATCCTGCTGAGTATTTTCCGCAGACGTGGTTCCCGGCGCTGGCTGCACGCCATTCGCCTGATCGGTCGCATTGCCAG -CAAGATCAATACTCTTCTCGCCAGACGCGGTTTGATCGCTGGAAGTGGTCGAGGGGGCTTTTAGCGCAGAACCGATACCG -ATGATCAACAGCAGTAGAACCAGAATGCCGACGCCCATCATCATATACTGACGAGAAGCGGGTTTACTGGCTGCTTTTTT -GCGCTTACGCGGACGACGCTCTACGCGCTCTTCATCCACGGTTTCATCTTCGGATTCGTCAATTTCTTCTTCGATTTCCG -GTTCCTCATTGCGCTCTTTTTGCGCACGAGTCGGACGGCGATCGTCAGTGTCATCAAGTTCAATATCATCAAAATTGATC -TGCGGTTCGCCACGTTCAGTACGCTCAGAACGTTCAGAAGATTGACGAGAACGACCAGTACGACGATCGCTGGGATCGGG -TTTCAGCTCGTCTTCTGGTTTGAATTCATCCATTTAACACCCCACTAAAAGGTTAATGCTTACCACGTTGCAATTAACCT -GAAGCTAATAGACCGCTTGATAAGCGGCCTGACCTTTCTTGTTGTTACGCTGATTGACAATCGGCAATGGCGTTAAGAAC -AAGCTCGTGCGAAACGCCGCTGCGAACTTCACTCTTACCAATTGCCAACGGAAGAATTAAGCGCATCTCTCCCGCAAGGA -CTTTCTTGTCACGCAGCATATGCGGTAAATACGCCTGCGCGGACATTTCGCGCGGCCCATTGACCGGTAACCCAGCCCGC -TTGAGCAGGGTTATAATACGCTGCGTTTCGGCAGAACTAAACTGCCCGAGACGTTCCGACGTCCGCGCCGCCATCACCAT -ACCCGCAGCGACCGCTTCACCATGTAACCAATTGCCATACCCCATTTCAGCTTCAATGGCATGACCAAAGGTGTGTCCCA -GATTCAGTAAAGCACGTAACCCGGTTTCGCGCTCGTCGGCGGCGACAACTTCTGCCTTCAGTTCACAACAACGGCGAATA -CAGTACGCCATTGCCGGACCGTCCAGACGCAACAACGCATCCAGATTCTCTTCCAGCCAGTTAAAAAACGCACCGTCAAG -AATAATGCCGTATTTGATGACTTCTGCCAGCCCCGACGCTAACTCACGCGGGGGAAGCGTTTTCAGACAGTCGAGATCCA -CCACCACTGAAGCAGGTTGGTAGAACGCGCCAATCATGTTTTTACCGAGGGGATGGTTGACCGCAGTTTTGCCGCCAACG -GAGGAATCGACCTGCGACAGTAACGTCGTCGGGACTTGAATGAAACGGACACCGCGCTGATAACTCGCCGCCGCGAAGCC -GGTCAGATCGCCCACTACGCCGCCGCCAAGCGCCACCAGCGTAGTATCGCGACCATGCGGTTTTTGTAACAACGCCGTAA -AGACGGTATCGAGTACAGCCAGGCTTTTATACTGCTCGCCGTCAGGGAGGATAACGCTATCGACGTTAACACCCGCCTGT -TCAAGTACGCCGCGGACCTTATCGAGATACAGAGGAGCCAGGGTTTCGTTGGTGACCAACATGACCTGCTCGCCCGATTT -CAGCGGTAAGAATGAAGCTGGTTCATTAAACAAACCAGATGCGATGGTAATTGGGTAACTACGTTCCCCGAGAGTAACGA -CAATCCTCTCCATAACGCGACATCCACCTTAATTACTGTACCCGCAGACGAGTGTATATAAAGCCAGAATTAGTTGCTTT -CCAGCATGTGAATAATCTGGTTTGCAACCACTTTAGCGCTTTGATCATCAGTACGAATGGTCACGTCGGCAATCTCTTCA -TACAGCGGATTGCGTTCATTGGCCAACGCTTCCAGAACTTCACGCGGCGGTGTTTCAACGTGCAGCAACGGGCGTTTTTT -ATCACGCTGCGTGCGTGCAAGTTGCTTTTCGATGGTCGTTTCAAGATAAACGACAACGCCACGAGCGGAAAGACGGTTAC -GCGTTTCACGGGATTTCACAGAGCCGCCGCCAGTAGCCAGCACAATACCCTGTTTCTCGGTCAACTCATTGATGACCTTT -TCTTCGCGATCGCGGAAGCCTTCTTCGCCTTCTAAATCGAAAACCCAGCCCACATCAGCTCCGGTTCGTTTCTCAATCTC -TTGATCGGAATCGTAAAATTCCATATTGAGTTGTTGAGCTAACTGGCGCCCAATAGTGCTTTTTCCGGCACCCATAGGCC -CAACCAGAAAGATATTGCGTTTCTCTGCCATTTTTTCGGTACTACTAAGACTATTCGTTAATGATAAACCCGCTTCGCTC -AGAGAGCGCCGCAGGACATGAACTGAAACCTCATAAGATATTGCGAGAGTCAGACTGAAAATTATCTCAATACTCCAGCG -GGTTTGGCAACTGAATAAATCACCCATCCCTCTGCATATCTGGTCGCTGCAAGCGCGCTGCCTTGCTACCACCGCTCTGG -CGATAAATCACCGGGTAAGATTAGCGTAAAAAAGACAGCAAAATGCCGCCTGAATGATAAATCATCATCATGGAACGCAG -GCAGCGAAGAGCACCAACTCTCAAATCGGTACTCCTTGTATGCTAAATACCTGCGCGCGTCAAATAGATGAAACACGTTC -AGCGTAAAAACATTACCGCTTTTACGGCTGTTTACTCACTGGAAACCAGTCGTGGCGTGATAAACACCACTAACTCGCGT -CGTTCATCTTCTTTTCCGTCATGACGAAATAATTGCCCGAACCAGGGAATGTCGCCAAGCAACGGTACGCTATCCTGACC -CGATTTATTTTTACGGGTAAAAATGCCGCCCAGCGCCAACGTTTCTCCGCTTTTGACCTCGACCTGCGTTTCGATCTCCT -GCTTATCAATCGCCAGCACTTCGCCATCGGCCTGCTGTAGCACCTGCCCCGGAACGTTCTGGCTGATGTGTAATTTCAGC -CGGATGCGACCTTTTTGTAACACCGTGGGCGTGACCTCCATCCCCAGGACGGCCTCTTTAAATTCCACCGACGTCGCGCC -ACTTTCCCCGCTGGAAACCTGATATGGAATTTCGCTCCCCTGTTTAATGCTGGCAGGCTGAAGATGTGAGGCCAGCAGAC -GCGGACTGGCGATAATATCCAGCTGCTGTTTTTGTTCGAGCGCGGAAAGCTCAAGATCCAGCAAGCGTCCGTTGATGCGC -CCAATGTTAAAACCGACATGCGTTGTCGCCGTCGCTACGGAGAGGTCGCTACCAAGCGTGGTGACTTGCCCAACGCCACC -AGCGTGTTGCGCATCGGCCAGCGTCCATTTCACGCCTAACTCACGCAAACTTTTTTCATTAATGGTGACAATATGCGCCG -ACAGCTCAACCTGCCCGACCGGCAGATCCATTTGCGCTACCCACTGTTCAAGCGCGCTTAACGCCGTTTTGTTATCTCGT -AGCAAAAGGCGATTGGTGCGTTTATCGACGGTCATACTCCCTTTGGCACTCAGTAGCTTCTCCCCCGCTTTCGCCAGTTC -TCCCGCGTCGGCGTATTGCAGGGTTATACTGCGATTTTCCAGCGGCAGATTTGCCTGCGCCCGCGCCTGCTCCGCCTCCT -GGCGGGCGATATTGTTATTCTGCCAGGCAATGGAATGCACTGAGAGAATGTTGCCTTCCTGCCGCGTTATCAGTCCGGCG -CTTTTCACTACAGTTTGTAGTGCCTGCTTCCAGGGAACATCTGTTAGATGTAACGACACCGTACCGCTGACGTCTGGCGA -CACGACCAGGTTCAACTTCTCCTGTTCAGCCAGCGCCTGCAACACCTGAGCTACCGGAACGTCATCCACCATCAGCGTCA -CTTTTTGCGGCTTTGCCGCCTGTACGCCGGGTATCAGCATCAACAGTAGTGCGGCTATCCATTGCTTCATTTGTATCTCC -TTGCCGTTGCCACAACCATTGTGGCGGTTCGCAGTTTGTCCCGGTACCCAGCGTTAGTACGTCTGGCGTCAGCTGTAAAA -TTGTCCAGCCGTTTTCCAGCACATCGTTTTGCTGCACCCGTCGCCATTTCTTTTGCCCGTCTTTTATTACACCGATGATG -CGCTCGCCTCGCCCTACCATCCCCTGATAGCGCCACTGGCTAAGTTCGCTAATCCGGCATAGATCTTCCGGCGGTTTAAA -AGGGTCACGCATACCGGTTAAAAGGCACAATGCAATACCTGCCAACAACCAGCGTTTAACCCTCATGCGGCGTCTCCAGT -TGTAGCGTGAACAAAAGATCATCACCTTCCACGCTTAACGAAAAACGGCTCACGCTGACGTTGCGCTCTGCCAGCCGTGT -AAATGCCGACGGCACTGCTTCCCACAGCGTTTTCAACGCCAACTCGCCTCCCTGCGCGGATGGATGCCAGGAAACCAGTT -GCGCGCCGGATAACTGAAAATCCAGTGGCGAAAAGGGCAGCGTTTTTTCCTCGCTGAAGGGAGCGGTGTCTACCAGGCGA -TACAGTGCGGCCCACTGCTGGTGATGACTTGCCCGTAGTCGAATTAATGCGTCGCGCTCTTCATGGTGTGTCGATGACAG -AAAAATGAGCGTAACTAACATCAGCAACCAGAATGCCCAGCAAAGCTGGCGGAGGCGGGGTGATGTGGCGAACCACCAGT -CAAAGAACATGTTCATCGCTAACCTTCCTTGTTAACTGATACTCAAATTGCCAGCGTCCCTGCGCATCCTGCTGCGTGGC -TCCCCGCTGATTGAGATGAAAAGATGCATCCTGGCGGAGTGACGTTTCTAGTGCGTTTAACGCGGTAATGCTTGTTGTCA -GCCCCTTGATCTCCAGCGTTCCCTGCTGCCAGCTTATCGTTGTCAGCCAGGCGTGCTCGGGTAAAAGCGCCGCCAGTGCT -TCCAGCGCAGATTGCCAGTCGCGGGTAAATTGTCGCTGGCGCTGCCGTTGCGAACGCTGTTCGCGTAACTGCTGTTGCTC -CAGCAAACGTGGCTTCGTTATCTGTAAGCTGCGGGCGAGTTGTTGTTCCGCCTGAAGCAAAACTGCGTCTATGCGCGCTT -CGGCGCTGCCTGTCAGACGCAGTATTAGCGTTATCCCGACGGCCAGCAGCAGAGGCGCAACGAACATCAGCAACCAGAAA -CGCAGAAAAGCGGTCCGGCGTTGCTGTCGCCAGGGCAAAAAATTAATTGGCGGGTTCATCAGTACGCCTTCCCAAGCGCC -AGCCCCAGCGCGATGGCAAAGTCTCCACCTGGCGGCGGTAGCGGCGGCTGACGAACAGAAACGGCCTCCCAGGGATCAAA -TCCGCCTTCGCCACATATCGCGACGCTTTCGGGATCAACGGATAACGCTGCCGCCAGCTCCTTCGCGCTAGTCATCCCCA -CCGCCAGTTTGCGCCCCCAGCTATAGCGCGTCGCCCACAGCCACTGTTCGTTATCACGCCAGGCCAGACATTGCTGATGA -GAAGGTAAAAAAGGCAGGAATCGCTGTAATGCACTGGCATCCGGGGTGATCGCGCTCACATGAACACGCAACCTTTCTGC -CAGAGTAAGCAGCGTTGCCAGCTCTTTGCTTTGCGCGGCAGTCACGTTATAGGCGGGACTGAGTGAGTCTTCGCTGTAAT -CGAAGCGCAGGGAGTCCGGATCCATATCCAGCTCGCGGGCCATCGTCCCTGACAGCCAGGCCGTTTGCTCCCGCTCACCA -AGGGACATCGACGGGCGCGGAAATGACCGCTGTAATGTGCGACTGGCGGGAAACGCCAACATAATGTGATGACGCTGCGG -CAGTTCGCGACTCCACGGTAACAACGTTTTAGCCAGCTGCTGCGCATCAACAATCCGCCCATCTTTGATAATGTCGTTCT -CCAGCGGCAACCGCCACCAGCGTTGCAAAAAGCATTCTTTTGCGCCCCGCACGATCGCAACCGCTACCGCTTCTTGCTGT -TGTAAATGCAAACCAATTTGCCAGATCTTAAATGCCATTGTGATGATCTCCTTATCACCCGTCACTCTGACGGGTATATC -AATGCGTCTGGCTTGCCTTTATACTACCGCGCGTTTGTTTATAAACTGCCCAAATGAAACTAAATGGGAAATTTCCAGTG -AAGTTCGTAAAGTATTTTTTGATCCTTGCAGTCTGTTGCATTCTGCTGGGAGCAGGCTCGATTTATGGCCTATACCGCTA -CATCGAGCCACAACTGCCGGATGTGGCGACATTAAAAGATGTTCGCCTGCAAATTCCGATGCAGATTTACAGCGCCGATG -GCGAGCTGATTGCTCAATACGGTGAGAAACGTCGTATTCCGGTTACGTTGGATCAAATCCCACCGGAGATGGTGAAAGCC -TTTATCGCGACAGAAGACAGCCGCTTCTACGAGCATCACGGCGTTGACCCGGTGGGGATCTTCCGTGCAGCAAGCGTGGC -GCTGTTCTCCGGTCACGCGTCACAAGGGGCAAGTACCATTACCCAGCAGCTGGCGAGAAACTTCTTCCTCAGTCCAGAAC -GCACGCTGATGCGTAAGATTAAGGAAGTCTTCCTCGCGATTCGCATTGAACAGCTGCTGACGAAAGACGAGATCCTCGAG -CTTTATCTGAACAAGATTTACCTTGGTTACCGCGCCTATGGTGTCGGTGCTGCGGCACAAGTCTATTTCGGAAAAACGGT -CGACCAACTGACGCTGAACGAAATGGCGGTGATAGCCGGGCTGCCGAAAGCGCCTTCCACCTTCAACCCGCTCTACTCGA -TGGATCGTGCCGTCGCGCGGCGTAACGTCGTGCTGTCGCGGATGCTGGATGAAGGGTATATCACCCAACAACAGTTCGAT -CAGACACGCACTGAGGCGATTAACGCTAACTATCACGCGCCGGAGATTGCTTTCTCTGCGCCGTACCTGAGCGAAATGGT -GCGCCAGGAGATGTATAACCGTTATGGCGAAAGTGCCTATGAAGACGGTTATCGCATTTACACCACCATCACCCGCAAAG -TGCAGCAGGCCGCGCAGCAGGCGGTACGTAATAACGTGCTGGACTACGACATGCGCCACGGCTATCGCGGCCCGGCAAAT -GTGCTGTGGAAAGTGGGCGAGTCGGCGTGGGATAACAACAAGATTACCGATACGCTGAAGGCGCTGCCAACCTATGGTCC -GCTGCTGCCTGCCGCAGTCACCAGCGCCAATCCTCAGCAAGCGACGGCGATGCTGGCGGACGGGTCGACCGTCGCATTGA -GTATGGAAGGCGTTCGCTGGGCGCGTCCTTACCGTTCGGATACTCAGCAAGGACCGACGCCGCGTAAAGTGACCGATGTT -CTGCAAACGGGTCAGCAAATCTGGGTTCGTCAGGTTGGCGATGCATGGTGGCTGGCACAAGTGCCGGAAGTGAACTCGGC -GCTGGTGTCGATCAATCCGCAAAACGGTGCCGTTATGGCGCTGGTCGGTGGCTTTGATTTCAATCAGAGCAAGTTTAACC -GCGCCACCCAGGCACTGCGTCAGGTGGGTTCCAACATCAAACCGTTCCTCTACACCGCGGCGATGGATAAAGGTCTGACG -CTGGCAAGTATGTTGAACGATGTGCCAATTTCTCGCTGGGATGCAAGTGCCGGTTCTGACTGGCAGCCGAAGAACTCACC -ACCGCAGTATGCTGGTCCAATTCGCTTACGTCAGGGGCTGGGTCAGTCGAAAAACGTGGTGATGGTACGCGCAATGCGGG -CGATGGGCGTCGACTACGCTGCAGAATATCTGCAACGCTTCGGCTTCCCGGCACAAAACATTGTCCACACCGAATCGCTG -GCGCTGGGTTCAGCGTCCTTCACCCCAATGCAGGTGGCGCGCGGCTACGCGGTCATGGCGAACGGCGGCTTCCTGGTGGA -CCCGTGGTTTATCAGCAAAATTGAAAACGATCAGGGCGGCGTGATTTTCGAAGCGAAACCGAAAGTAGCCTGCCCGGAAT -GCGATATTCCGGTGATTTACGGTGATACGCAGAAATCGAACGTGCTGGAAAATAACGATGTTGAAGATGTCGCTATCTCC -CGCGAGCAGCAGAATGTTTCTGTACCAATGCCGCAGCTGGAGCAGGCAAATCAGGCGTTAGTGGCGAAGACTGGCGCGCA -GGAGTACGCACCGCACGTCATCAACACTCCGCTGGCATTCCTGATTAAGAGTGCTTTGAACACCAATATCTTTGGTGAGC -CAGGCTGGCAGGGTACTGGCTGGCGTGCAGGTCGTGATTTGCAGCGTCGCGATATCGGCGGGAAAACCGGGACCACTAAC -AGTTCGAAAGATGCGTGGTTCTCGGGTTACGGTCCGGGCGTTGTGACCTCGGTCTGGATTGGCTTTGATGATCACCGTCG -TAATCTCGGTCATACAACGGCTTCCGGAGCGATTAAAGATCAGATCTCAGGTTACGAAGGCGGTGCCAAGAGTGCCCAGC -CTGCATGGGACGCTTATATGAAAGCCGTTCTTGAAGGTGTGCCGGAGCAGCCGCTGACGCCGCCACCGGGTATTGTGACG -GTGAATATCGATCGCAGCACCGGGCAGTTAGCTAATGGTGGCAACAGCCGCGAAGAGTATTTCATCGAAGGTACGCAGCC -GACACAACAGGCAGTGCACGAGGTGGGAACGACCATTATCGATAATGGCGAGGCACAGGAATTGTTCTGATTAAAAAGGC -GCTTCGGCGCCTTTTCAGTTTGCTGACAAAGTGCACTTGTTTATGCCGGATACGGCGTGAACGCGTTATCCGGCTAACAA -AATCGTGAAAACTCAATAAATTGCAGAAACCCCATAAGCCTGATAAACATTGTGCATCAGGCAAACTTCACGCATTTACA -CTCGCCCCTGCCCTTTCAACCATTCGCGCACGAGGAACAGCGCACTGACATTGCGCGCTTCATTGAAGTCAGGGTCTTCC -AGCAAATCCATCATATGCGCCAGCGGCCAGCGCACCTGTGGTAGCGGCTCTGGCTCATCGCCTTCCAGTGATTCCGGGTA -GAGATCTTGCGCTACCACGATATTCATTTTGCTGGAAAAGTAAGACGGTGCCATGCTGAGCTTCTTCAAAAAAGTCAGAT -CGTTCGCTCCAAATCCAACCTCTTCTTTTAGCTCGCGGTTAGCGGCTTCGTAGACGCTTTCACCCGGATCAATTAATCCT -TTCGAAAAACCTAATTCGTAGGATTCAGTTCCCACTGCGTATTCGCGGATCAGGATCAGGTGATCGTCCACAATCGGCAC -AATCATCACTGCTTCCCGGTTGGTTGGACGCATTCGTTCATAAACACGCCGCACGCCATTGCTGAACTCCAGATCCACGC -TCTCGACGGTAAACAGTCGGGAACGGGCTACAGTTTCAACATTCAGAATGGTGGGTTTTTGTAATGATTTGCTCATCGTG -GGATCTATGCTGTGAAATCAGCGGTTATTGTGCGATATCGGACACGCTTTCGGCAATGTGAATTGCATGTTATTTACATT -TATGTAACTTAATAAATAATCGTCCTCAAATCAAATTAAAAGTCAATAGGTTGAAATAACTCCAGGAATTTGCTGATATT -CCGCCTTCAGAGGGTTTGCTATGATCAGCGGTTACTGTGATGTGCTTAATGATGCTCAAGTTAAACTCCACGCTTGCCGA -TAGCCAACCGCAGAATCATGTATTGTGTCCGGTGCGACTGACCACGCCTGACAGACTAAGTAAGATGGGGAAAGCATGAG -CACCATTGTGATTTTTTTAGCTGCTTTGCTGGCCTGCTCACTACTTGCGGGATGGCTGATAAAAGTGCGATCCAGACGGC -GTCAGCTGCCCTGGACCAACGCCTTCGCGGATGCGCAAACGCGTAAACTCACACCTGAAGAACGTAGCGCCGTTGAAAAT -TATCTTGAGAGCCTGACGCAGGTATTACAGGTGCCTGGCCCAACGGGAGCCAGCGCGGCACCGATCTCTCTGGCGCTGAA -TGCCGAAAGCAACAACGTCATGATGCTGACACACGCTATCACGCGTTACGGCATCTCTACCGACGATCCGAATAAATGGC -GTTACTACCTCGATTCGGTAGAAGTCCACCTGCCCCCTTTCTGGGAACAGTACATCAACGATGAGAATACCGTTGAACTG -ATTCATACCGATTCGCTGCCGCTGGTTATTTCACTCAACGGTCATACGCTGCAGGAGTACATGCAGGAAACTCGCAGCTA -TGCCTTGCAACCTGTTCCGTCAACGCAGGCGTCGATTCGCGGGGAAGAGAGTGAGCAAATCGAGCTACTCAATATTCGCA -AAGAAACGCATGAAGAATATGCGCTGAGTCGTCCGCGCGGGCTGCGTGAAGCGTTGCTGATCGTCGCCTCCTTCCTGATG -TTCTTTTTCTGCCTGATTACCCCGGATGTATTTGTTCCGTGGCTGGCAGGCGGCGCGTTACTGCTGCTGGGCGCAGGTCT -GTGGGGGCTATTCGCGCCCCCGGCAAAATCCTCCCTGCGGGAAATTCATTGTCTGCGCGGTACACCCCGTCGTTGGGGAT -TGTTTGGCGAAAACGATCAGGAACAGATCAACAATATTTCACTCGGTATTATCGACCTGGTCTATCCCGCACACTGGCAG -CCATACATTGCTCAGGATCTCGGTCAACAAACCGATATCGATATCTATCTCGACCGCCATGTAGTGCGTCAGGGACGATA -TCTTTCGCTGCATGATGAAGTAAAAAACTTTCCGTTACAGCACTGGCTGCGCAGTACGATTATCGCTGCGGGCTCGCTGC -TGGTGCTGTTTATGCTGTTATTCTGGATCCCGCTGGATATGCCGCTGAAATTCACTCTCTCATGGATGAAAGGCGCGCAG -ACCATTGAAGCCACCAGCGTAAAACAACTGGCTGACGCTGGCGTGCGGGTAGGCGATACATTGCGTATTAGCGGTACGGG -AATGTGTAATATTCGAACTTCCGGAACCTGGAGCGCGAAAACCAATTCACCTTTTTTACCGTTTGACTGCTCGCAGATCA -TCTGGAACGACGCCCGCTCATTGCCATTACCAGAATCTGAACTGGTCAACAAAGCGACGGCATTGACTGAAGCAGTTAAT -CGCCAGCTGCACCCTAAACCGGAAGATGAATCTCGCGTCAGTGCCTCATTACGTTCAGCAATTCAAAAATCCGGCATGGT -ATTGCTTGATGATTTTGGCGACATTGTACTGAAGACAGCGGATTTATGTTCTGCCAAAGATGACTGTGTGCGACTGAAAA -ATGCGCTGGTCAATCTCGGCAACAGTAAAGACTGGGACGCGCTGGTAAAACGCGCCAACGCCGGGAAGCTCGATGGCGTG -AATGTGTTATTACGCCCGGTGAGTGCGGAATCGCTGGATAACCTGGTGGCAACCTCCACCGCGCCGTTTATCACGCATGA -AACGGCGCGAGCGGCACAATCACTAAACAGTCCGGCCCCCGGCGGATTCCTGATTGTCAGCGACGAAGGCAGCGATTTTG -TTGATCAGCCCTGGCCTTCGGCATCACTTTACGACTACCCGCCGCAAGAACAGTGGAACGCTTTCCAGAAACTGGCACAA -ATGCTGATGCATACGCCGTTTAACGCCGAGGGTATCGTCACAAAAATCTTCACTGACGCCAATGGTACGCAGCATATTGG -CCTTCATCCGATCCCGGATCGTTCCGGCCTGTGGCGCTATCTCAGCACCACATTGCTGCTACTGACGATGCTGGGTAGCG -CCATTTACAATGGCGTACAGGCCTGGCGTCGTTACCAGCGTCATCGCACTCGCATGATGGAGATTCAGGCCTATTATGAA -AGCTGCCTGAACCCGCAACTGATCACCCCTTCAGAAAGCCTTATCGAATAACACGTTTGCGCGGCAGGTTATGCTACCCT -GTCGCGCAAATTGCTTCACTCTGGAGATTTCCCTCATGCATATCAACATTGCCTGGCAGGACGTAGATACCGTTCTGCTG -GATATGGACGGCACGTTGCTCGACCTCGCCTTCGATAACTATTTCTGGCAAAAGCTGGTGCCTGAAACATGGGGCGCGAA -AAACGGGGTTACGCCACAGGAAGCGATGGAATATATGCGCCAGCAATATCACGACGTACAGCATACGCTAAACTGGTACT -GTCTTGATTACTGGAGTGAGCAACTGGGTCTGGATATCTGTGCGATGACCACCGAGATGGGACCGCGTGCCGTACTGCGT -GAAGATACCATTCCGTTTCTTGAGGCACTGAAAGCCAGCGGTAAGCAGCGAATTTTGCTCACCAATGCGCATCCGCACAA -CCTGGCGGTAAAACTTGAGCATACCGGTCTGGACGCACACCTTGATTTATTACTTTCCACCCACACATTTGGTTATCCGA -AAGAGGATCAGCGGTTATGGCATGCGGTGGCCGAAGCTACGGGTCTGAAAGCTGAAAGAACGCTGTTTATTGATGACAGC -GAAGCGATTCTCGATGCTGCCGCGCAATTTGGTATTCGTTACTGCCTCGGCGTGACTAATCCTGATTCCGGGATTGCCGA -GAAACAGTATCAACGCCATCCGTCACTGAATGACTACCGCCGCCTGATCCCCTCGCTAATGTGAAGGAGACGCCATGAAA -GAGAAACCTGCTGTTGAGGTTCGACTGGATAAATGGCTATGGGCTGCCCGTTTTTATAAAACCCGCGCGCTGGCCCGTGA -AATGATTGAAGGCGGTAAGGTGCATTACAACGGGCAGCGCAGCAAGCCGAGCAAAATCGTCGAGCTGAATGCCACGCTCA -CTCTGCGCCAGGGAAATGACGAACGCACGGTGATTGTAAAGGCGATTACTGAACAGCGTCGCCCCGCCAGCGAGGCAGCC -TTGCTGTATGAAGAGACTGCGGAAAGTGTAGAGAAACGCGAAAAAATGGCGCTGGCACGTAAACTTAATGCCTTAACCAT -GCCGCACCCGGACCGACGCCCGGACAAAAAAGAGCGCCGCGACCTGTTACGATTTAAACACGGCGACAGTGAATAACTGT -CACCTGCAAGAGAGATGATTATGCCGCAACATGACCAATTACATCGCTATCTGTTTGAAAACTTTGCCGTGCGCGGCGAA -CTGGTAACCGTTTCGGAAACCCTGCAACAGATCCTTGAGAACCACGATTATCCGCAGCCCGTTAAAAACGTGCTGGCAGA -ACTGCTGGTTGCGACCAGCCTGTTAACCGCTACGCTGAAGTTTGATGGTGATATCACCGTACAGCTGCAGGGCGACGGTC -CGATGAATCTGGCGGTTATTAACGGTAACAATAACCAGCAGATGCGCGGTGTGGCGCGCGTGCAGGGCGAAATTCCAGAA -AATGCCGACCTGAAAACGCTGGTCGGCAATGGTTACGTGGTGATCACCATTACCCCGAGCGAAGGCGAACGCTATCAGGG -CGTAGTTGGTCTGGAAGGTGATACCCTGGCGGCCTGCCTGGAAGATTACTTTATGCGTTCTGAACAGCTGCCGACGCGCC -TGTTTATTCGCACCGGCGACGTAGACGGCAAACCGGCTGCAGGCGGTATGTTGTTGCAGGTAATGCCTGCGCAAAATGCC -CAGCAGGACGACTTTGACCACCTGGCGACGCTAACCGAAACCATCAAAACCGAAGAACTGCTGACCTTACCGGCAAACGA -AGTGTTGTGGCGTTTGTATCACGAAGAAGAGGTGACGGTTTACGATCCGCAGGATGTGGAGTTCAAATGCACCTGCTCGC -GTGAACGTTGCGCCGATGCGCTGAAAACGCTGCCTGATGAAGAAGTTGATAGCATCCTGGCGGAAGATGGCGAAATTGAC -ATGCATTGTGATTACTGCGGTAACCACTATCTGTTCAATGCGATGGATATTGCTGAAATCCGCAACAACGCGTCTCCGGC -AGATCCGCAAGTTCATTAATGAGTATGTCCGGCAGAGAGGGCTCTGCCGGATTTTACGACTAATACACCTGATGCGCTTT -GTCACTCATTCAGATTCACATTCAGCCTTTCACCATCCACTACAAGATCGCGCCACGCTTTAGGCTTCGTCCCCAGTTTT -CCATCCTTCGCAGCTGTGAGTAATTTTTCTTTCGTTATTTCGTTCGGAAGTAAACTCATATCAAGCGCGTCCCATTCTTT -TCTGTCTGAGTCAAAGCCATAGACAATGACTCTGTCATCATTAAAAGCAAACAGGATCCGCTCCGCCTGACCATCACTAT -TCAGATCTTGCTCGACCAGGACGCAGGCGTCTTTTTCAATACAGGTCATCACGTTATAGCGATCCTGGATTAAGGCCGAC -CAGAATGTCGCATCAGGTTTAACAGAACCAGGGGCAATTAACACATTATCGGCTAATACTTTTTCCGATACCTGTTGCTG -AAGATGTTGCTCTCCATCTAACGCCATCAGCAGATCCCGCGCGCGTTTCGGGTCTTTCATAAACCCGGCATCGCTTTTCA -GCGACTCAAGCGCAGCACGTCCATAGCGACCGCTCTGCTCGAGCATGTAGATAGTTACCTGGTCTGACGTGTTTTTGCCG -CTCTGATAACGCGCCATATGGCTGTTCACGCTAATGCGCATACTGTCCAGCACCGGCGAATTAAGAAGCACCAGTATCAC -CAACACCAATAACGAAACCGCAAGGTTCACTTTGCCCTGAAGAACAACGGGATTTTGCCCTTTACGCCAGACGATGCTGA -CAAAATACCCCAGCGACCACACCAGTAACACCAGCACCGCCAGCACGCCCTGCAAGCGGTCGACAGTCCAGCCGTACTGA -GCGACCCGCAGCCATAACGCCCAGGCGGCGACGAACACATACAGCGGAGCAACCAGCAAAGCGGTTTTAATCAGGCAACG -CAACGGCCCTGTCCAGGGAAGTGACGCTTTTTGCGGATCGCGGACAATAGCCATTAAGATCAATTGCAAAAAGGCCAGCG -TCAACAGCAACCCGGCGGCGGAGATGTGGCGAGAAATCGCGCTCAGGCCCGTAAACGGCAGGGTGATGATAAACATCAGG -GTTAGCAATGATACTAACGGCAGCAACCCCGTGGCGATTAACGTGAACAACTTTTGAATAGAGTCGATTAAACGTGACTG -TGTTCGCGCGAGGATCACCGCCAGCGCGGTAACCAGACCTAACGTGAGATAAATAAACCAGTCGGTTGCAAAAAAGAGCG -TATTGAAAAACGTGATGCCAACAAGTTTAAACAACTCACTCCACAGTAAAAGCACCAGCCACGTCAAGCCATTGGCGAGA -AAAATCACCAGTAATATAAGTACGTTATGCCATACTGACTGGTAAAAATAGCGATAGCGGCTACTGTCATTGCGGATGCG -AAGGCTTTGTTGTATCCACGGTAGCAACAACATTGCCATCAACAGCAGATAGCAACCAAAATCCCAAAGCGCCTTTTCAG -CTCTCCAGGGGTTCATGCCATCAGTTTGCCACTTCAGCCAGCCGCTCATCCCCAGCGTGGCAATAAACACTAGCGCCAGC -CATCCCCAAAGGCGCTTCTGTTTAAAAGAGATCACGGAGAAGAGTAAAACGGATGAAAACGCGACGGTCGCAGGCACGCC -ATAAACAATCCAACTGTGATTTTTTCCGGAAAGCCAGGCGATCAGCAGGTAGCAAACCAGACCCTGAAGTAATCCGGTAG -CAATCATCCCCCAGCGTGTTGCGGGTGAAAGTTCAACGTTATCCATGTTGGTTATCCAGAATCAAAAGGTGGGTTAATTA -TCGCATCCGGGCAGTAGTATTTTGCTTTTTTCAGAAAATAATCAAAAAAAGTTAGCGTGGTGAATCGATACTTTACCGGT -TGAATTTGCATCAATTTCATTCAGGAATGCGATTCCACTCACAATATTCCCGCCATATAAACCAAGATTTAACCTTTTGA -GAACATTTTCCACACCTAAAATGCTATTTCTGCGATAATAGCAACCGTTTCGTGACAGGAATCACGGAGTTTTTTGTCAA -ATATGAATTTCTCCAGATACGTAAATCTATGAGCCTTGTCGCGGTTAACACCCCCAAAAAGACTTTACTATTCAGGCAAT -ACATATTGGCTAAGGAGCAGTGAAATGCGCGTTAACAATGGTTTGACCCCGCAAGAACTCGAGGCTTATGGTATCAGTGA -CGTACATGATATCGTTTACAACCCAAGCTACGACCTGCTGTATCAGGAAGAGCTCGATCCGAGCCTGACAGGTTATGAGC -GCGGGGTGTTAACTAATCTGGGTGCCGTTGCCGTCGATACCGGGATCTTCACCGGTCGTTCACCAAAAGATAAGTATATC -GTCCGTGACGATACCACTCGCGATACTTTCTGGTGGGCAGACAAAGGCAAAGGTAAGAACGACAACAAACCTCTCTCTCC -GGAAACCTGGCAGCATCTGAAAGGCCTGGTGACCAGGCAGCTTTCCGGCAAACGTCTGTTCGTTGTCGACGCTTTCTGTG -GTGCGAACCCGGATACTCGTCTTTCCGTCCGTTTCATCACCGAAGTGGCCTGGCAGGCGCATTTTGTCAAAAACATGTTT -ATTCGCCCGAGCGATGAAGAACTGGCAGGTTTCAAACCAGACTTTATCGTTATGAACGGCGCGAAGTGCACTAACCCGCA -GTGGAAAGAACAGGGTCTCAACTCCGAAAACTTCGTGGCGTTTAACCTGACCGAGCGCATGCAGCTGATTGGCGGCACCT -GGTACGGCGGCGAAATGAAGAAAGGGATGTTCTCGATGATGAACTACCTGCTGCCGCTGAAAGGTATCGCTTCTATGCAC -TGCTCCGCCAACGTTGGTGAGAAAGGCGATGTTGCGGTGTTCTTCGGCCTTTCCGGCACCGGTAAAACCACCCTTTCCAC -CGACCCGAAACGTCGCCTGATTGGCGATGACGAACACGGCTGGGACGATGACGGCGTGTTTAACTTCGAAGGCGGCTGCT -ACGCAAAAACTATCAAGCTGTCGAAAGAAGCGGAACCTGAAATCTACAACGCTATCCGTCGTGATGCGTTGCTGGAAAAC -GTCACCGTGCGTGAAGATGGCACTATCGACTTTGATGATGGTTCAAAAACCGAGAACACCCGCGTTTCTTATCCGATCTA -TCACATCGATAACATTGTTAAGCCGGTTTCCAAAGCGGGCCACGCGACTAAGGTTATCTTCCTGACTGCTGATGCTTTCG -GCGTGTTGCCGCCGGTTTCTCGCCTGACTGCCGATCAAACCCAGTATCACTTCCTCTCTGGCTTCACCGCCAAACTGGCC -GGTACTGAGCGTGGCATCACCGAACCGACGCCAACCTTCTCCGCTTGCTTCGGCGCGGCATTCCTGTCGCTGCACCCGAC -TCAGTACGCAGAAGTGCTGGTGAAACGTATGCAGGCGGCGGGCGCGCAGGCTTATCTGGTTAACACTGGCTGGAACGGCA -CTGGCAAACGTATCTCGATTAAAGATACCCGCGCCATTATCGACGCCATCCTCAACGGTTCGCTGGATAATGCAGAAACC -TTCACTCTGCCGATGTTTAACCTGGCGATCCCAACCGAACTGCCGGGCGTAGACACGAAGATTCTCGATCCGCGTAACAC -CTACGCTTCTCCGGAACAGTGGCAGGAAAAAGCCGAAACCCTGGCGAAACTGTTTATCGACAACTTCGATAAATACACCG -ACACCCCTGCGGGTGCCGCGCTGGTAGCGGCTGGTCCGAAACTGTAATGATTTGAAGCTGGAGAATATCTATCCAGTATC -TTATAGAAAGCAAAACGGGAGGCACCTTCGCCTCCCGTTTATTTACCCTTCTTTTGTCGTGCCCTGCGCCCGCGTTACCG -GCACTGGCAGCCAGGCGCGAATGGAAAGCCCGCCCCGCTCGCTGGTGCCAAGCTCCAGCATCCCGTTATGGTTATCCACG -ATACGCTGCACAATTGCCAGCCCTAATCCCGTGCCGCTAATGGTGCGCGCACTGTCGCCGCGGACAAACGGCTGGAACAG -GTGCTTACGTTGTTCCGGCGCAATTCCCGGACCGTCATCTTCCACCTGGAACCAGGCGCGATTCGGCTCCGTTCCGCTGC -TGACTTTGATCCAGCCATTGCCATAACGGGCGGCGTTGACCACCATATTCGCCACCGCGCGTTTGATCGACAGCGGGTGC -ATTTTCACTTCAATGCTGCCGGGGTAAAGCGCGGTTTCAATTTCCCGCTCATAGCCACTTTCGGCAGCAATCACCTCACC -GAGTACTGCATTAAGATCCGCCATTTCCATCGGCATCTCCTGCCCGGTGCGCAGGTAGTCGATAAACTGCTCAATGATGG -CGTTGCACTCTTCGATATCTTTATTGATCGATTCTGCCAGATAGCCATCCTGCTCGCTCATCATCTCAGTCGCCAGGCGA -ATACGCGTCAGCGGCGTGCGCAAGTCGTGACTTACCCCCGCCATCAGCAGCGTGCGGTCATCCGCCAGTTGCTTAACACC -AGCCGCCATATGGTTAAAGGCACGGGTAACGGAACGCACCTCCGAAGCGCCATACTCACGCAGCGGCGGCGGAATAATCC -CTTTACCAACCTGCAAGGCTGCGTGTTCGAGATCGACCAACGGTCGGTTCTGGATACGAATAAACAGCCACGCCCCGCCT -ATCGCCAATAGCATAATCGCCAGCGTATAGCGGAACAGCGGAGAGAAATCGCCCTGATGAATTTCGGTCAGCGGCACGCG -TACCCAGATATTGGGCGACAGCCAGGTTTTCAGCCAGACGACAGGCGAACTTTTGTTGACCTCAACGCGCACTTCCGTCG -GGCCGCCCAGTTGCTGCGCCATCTGATGGCTTAAGAATTCATAGTGTTGCGCCCAACGCAGACCTGCCTCTTCGGCAGCC -TCGTTGGAGTAGAGAGAGATCCCCAGCTCACGGTAGATCTCCCGACGGAAAGCGGGAGGCACAACCAACTGCGTGCCGTC -CTCCAGTTGCAGTTTGTCGGTCATCAACATACGCACTTCGTACGCGAGGACTTTATTAAACTGCTGGAGGCTCGGCAAAA -TCGCGAAGTTCAGCACCACCAGATAAGTCGTCACCAGGCTGGCGAACAGCAAGGTGACGATGAGCAATAACGTACGGGCA -AATGAACTTCGTGGCGAGAAGCGCAATCGCCTCATGCTTTAGAGCCGTCCGGTACAAAGACGTAGCCCAGACCCCAGACG -GTCTGAATGTAACGCGGATGCGCTGGATCTTCTTCCACCATGCGGCGCAGACGCGAAATCTGCACGTCGATGGAGCGTTC -CATTGCGGAATATTCACGACCACGGGCAAGGTTCATCAGCTTATCGCGGGAGAGCGGCTCACGCGGATGGCTGACCAGTG -CCTTCAGTACCGCAAACTCACCGCTGGTGAGCGGCATCGGCTCGTCTTCGCGGAACATTTCGCGCGTACCGAGGTTAAGT -TTGAACTTACCGAAAGCAATTACCGCCTCTTCCTGTGACGGTGCGCCTGGCAGTTCGTTCGCCTGACGACGCAGCACCGC -ACGGATACGGGCCAGCAGTTCACGCGGGTTAAACGGTTTTGGAATGTAGTCGTCAGCGCCAATCTCCAGGCCTACGATAC -GGTCCACTTCTTCCCCTTTCGCCGTCACCATAATGATCGGCATCGGGTTGCTCTGACTACGAAGACGTCGGCAAATCGAC -AAGCCATCTTCACCAGGTAACATTAAATCCAGTACCATAAGATGGAAAGATTCACGAGTCAGCAGGCGATCCATCTGTTC -TGCATTAGCGACGCTTCGAACCTGGAAGCCTTGTTCGGTGAGATAACGTTCCAGCAGCGCACGCAGGCGCATGTCGTCAT -CGACCACCAGAATCTTGTAGTTCTCTTGCATTGTTTGTACTCCCAAAGGTTCGCAACAATTTGTAAGCGTGTATTCTTAA -AAAAGCTCACGTTCGTCACCAGCTAAATCTGGTATGAATTTCAGCCTAAATTGTTACAAAGCATATTAAACAGCAGCTTA -AGTATACAATTTATTCGGCGAAACATTATTGATTCTGTTGATATGATCACGTTATACCCAATGTGCGCATTATCAAACAG -ACAAAGGGAATCAACGAGATGAAAACGCCCCTGGTTACCCGGGAAGGGTATGAAAAACTCAAACAAGAGCTTAATTATCT -CTGGCGTGAAGAACGCCCGGAGGTCACAAAAAAGGTGACCTGGGCCGCAAGTCTGGGCGACCGCAGCGAAAATGCTGACT -ATCAGTATAATAAAAAGCGTCTGCGTGAAATCGACCGTCGCGTGCGCTATCTCACTAAATGCCTGGAAAATCTCAAAATC -GTCGATTACTCCCCTCAGCAGGAAGGCAAAGTCTTTTTTGGCGCGTGGGTGGAGATTGAAAACGACGATGGCGTGACTCA -CCGTTTCCGTATTGTCGGCTACGATGAAATTTTTGGCCGTAAAGATTACATCTCTATCGATTCCCCGATGGCCCGCGCAT -TGCTGAAAAAAGAAGTCGGCGATCTGGCGGTGGTGAATACCCCTGCCGGGGAAGCGAGCTGGTATGTTAATGCTATCGAG -TACGTGAAACCGTAAGGAAGAGTCTTAACCTCCTGCCGATGGCTGGCATTTTTGCCAGCCAGTCCGTATAACTATCCCCT -GATTTTTGATCCGAAAAGATGAACTCAAACCATGATGAATGATTCGTTCTGCCGCATTATTGCGGGTGAAATTCAGGCGC -GCCCGGAACAGGTTGACGCTGCCGTTCGCCTGCTTGACGAAGGGAATACCGTGCCGTTTATCGCACGTTATCGTAAGGAA -ATCACCGGCGGTCTGGATGACACGCAGCTGCGTAATCTGGAAACGCGTCTGAGCTATCTGCGCGAGCTGGAAGAGAGACG -TCAGGCGATCCTCAAGTCCATTTCCGAGCAAGGCAAACTCACCGATGATCTGGCGAAGGCCATCAACGCCACCCTAAGCA -AAACCGAACTCGAAGACCTCTACCTGCCCTACAAACCTAAACGCCGCACCCGCGGGCAAATCGCCATTGAAGCAGGGCTT -GAGCCGTTGGCTGACCTGCTGTGGAGCGATCCGTCACACACGCCAGAAGTCGCCGCTGCACAATATGTTTATGCCGATAA -AGGCGTGGCAGATACCAAAGCCGCGCTGGATGGCGCGCGCTATATCCTGATGGAACGGTTTGCCGAAGATGCCGCGCTGC -TGGCGAAAGTGCGTGATTATCTGTGGAAGAACGCGCATTTGGTTTCTACGGTGGTGAGCGGTAAAGAAGAGGAAGGGGCG -AAATTCCGCGACTATTTCGATCATCACGAACCGTTGTCCACGGTGCCTTCTCACCGCGCGCTGGCGATGTTCCGTGGGCG -TAACGAAGGCGTACTTCAGCTTTCGCTGAATGCCGATCCACAGTTCGATGAGCCGCCCAAAGAGAGCTATTGCGAGCAAA -TCATCATGGATCACCTTGGCCTGCGCCTGAACAATGCCCCGGCGGATAGCTGGCGCAAAGGCGTGGTGAGCTGGACGTGG -CGCATCAAGGTGCTGATGCATCTGGAAACCGAACTGATGGGCACCGTGCGCGAACGTGCGGAAGATGAAGCAATCAACGT -CTTTGCCCGTAACCTGCACGATCTGCTGATGGCGGCCCCTGCCGGACTGCGTGCAACGATGGGCCTCGATCCGGGTCTGC -GTACTGGGGTAAAAGTGGCGGTGGTCGATGCCACTGGCAAACTGGTGGCGACCGACACCATTTACCCGCACACCGGACAG -GCCGCAAAAGCAGCGATGACCGTTGCTGCGCTGTGTGAAAAACATAACGTTGAACTGGTAGCGATCGGTAACGGTACAGC -TTCCCGCGAAACTGAGCGTTTCTATCTCGATGTGCAGAAGCAGTTCCCGAAAGTGACCGCGCAGAAAGTAATCGTCAGCG -AAGCAGGCGCGTCGGTTTACTCGGCTTCCGAGCTGGCTGCACAGGAGTTCCCGGATCTCGACGTTTCGCTGCGTGGCGCG -GTGTCTATCGCCCGCCGTTTGCAGGATCCGCTGGCGGAGCTGGTGAAAATCGATCCGAAATCTATCGGCGTAGGTCAGTA -TCAGCATGACGTCAGCCAGACGCAACTGGCCCGCAAACTGGACGCAGTAGTAGAAGACTGCGTAAACGCCGTTGGCGTCG -ATCTCAACACTGCTTCTGTTCCGCTGTTAACCCGCGTGGCGGGCCTGACGCGCATGATGGCGCAAAACATCGTTGCCTGG -CGCGATGAGAACGGTCAGTTCCAGAACCGTCAGCAACTGTTAAAAGTGAGCCGTCTGGGGCCGAAAGCCTTCGAGCAGTG -CGCGGGCTTCTTGCGCATTAACCACGGTGATAACCCGCTGGACGCGTCTACCGTTCACCCGGAAGCCTATCCGGTGGTGG -AACGCATTCTGGCAGCAACACAGCAGGCACTGAAAGATCTGATGGGTAACAGCAGCGAACTGCGTAACCTGAAAGCGTCT -GACTTTACTGATGAGAAATTCGGTGTGCCGACGGTAACCGACATCATCAAAGAGCTGGAAAAACCGGGTCGCGATCCGCG -TCCGGAATTTAAAACCGCTCAGTTTGCCGATGGCGTCGAGACAATGAACGACCTGCAACCGGGTATGATCCTCGAAGGCG -CAGTGACCAACGTCACCAACTTTGGCGCGTTTGTCGATATTGGCGTGCATCAGGACGGCCTGGTTCACATCTCTTCATTG -TCGAACAAGTTTGTGGAAGATCCGCATACCGTGGTGAAAGCGGGCGACATTGTGAAGGTGAAAGTGCTGGAAGTGGATCT -TCAGCGTAAACGTATCGCCCTGACTATGCGCCTGGATGAGCAGCCTGGCGAAACCAACGCTCGTCGCGGCGGCGGTAATG -AACGCCCGCAAAACAACCGCCCGGCAGCCAAACCACGCGGTCGTGAAGCGCAGCCTGCCGGTAATAGCGCGATGATGGAT -GCGCTGGCGGCGGCAATGGGCAAAAAACGTTAAACGCCCGTACTGGCCTACGGTTCGAATTTGCACGAAATCGTAGGGCA -GATAAGGCGTTCACGCCGCATCTGGCAACGAACGCCTTGCCTGACATAAAAGTGCCGGAGAATATCTCCGGCATTTTTAT -TCCACAGCCAAACTCATAATATATTCCGGCAATATTTATCATTTCATTAACAACTGAAACCTTAATTAAACATTAGCCAG -TCCGGGTAATTCACTATTCGAATTATATTTTCGCTGCGATATAACCTTGAGCCACATCAACATTGAGTCAGATTATTATT -CAAACCAACATTCGCACACATTTTAAGTATTGCTGATAGAAACCATTCTCATTATCATTGTGTTGTTGATTATTTAATCT -CTCCTTTGTTGGCAAATCATCTGGTCTCATGTCGCTGTCAAACGCCCCATGAGGTAGTTATCCAGTTAATGAGAAACAAG -TAGGCACCTATGCAATACACTCCAGATACTGCGTGGAAAATCACTGGCTTTTCCCGTGAAATCAGCCCGGCATATCGCCA -AAAACTGCTTTCTCTTGGCATGTTACCTGGCTCCTCTTTTAATGTGGTGCGCGTCGCTCCACTCGGCGACCCCATTCATA -TCGAAACCCGTCGTGTGAGCCTGGTATTACGCAAAAAAGATCTGGCCTTATTAGAAGTGGAAGCGGTTTCCTGTTAATAC -GGTGATAACAACAATGAAAAAATTAACCATTGGCTTAATTGGTAATCCAAATTCTGGCAAGACAACGTTATTTAACCAGC -TCACTGGCTCACGTCAGCGTGTAGGTAACTGGGCTGGCGTTACCGTCGAACGTAAAGAAGGGCAATTCTCCACCACCGAT -CATCAGGTCACGCTGGTGGACCTGCCCGGCACCTATTCTCTGACCACCATCTCATCGCAGACCTCGCTCGATGAGCAAAT -CGCCTGTCACTACATTTTGAGTGGCGACGCCGACCTGCTGATTAACGTGGTGGATGCGTCTAACCTTGAGCGTAACCTGT -ACCTGACGCTACAACTGCTGGAACTCGGCATTCCCTGCATTGTGGCACTGAACATGCTCGACATTGCCGAGAAGCAAAAT -ATTCGTATTGAAATTGATGCTCTGTCGGCGCGTCTGGGCTGTCCGGTGATCCCGCTGGTTTCAACCCGTGGTCGCGGTAT -TGAAGCGCTCAAGCTGGCGATTGATCGCTATAAAGCTAACGAGAATGTGGAACTGGTGCATTACGCACAGCCGCTGCTCA -ACGAAGCAGATTCACTGGCAAAAGTGATGCCTTCCGACATCCCGCTGAAACAACGTCGCTGGCTGGGCCTGCAAATGCTG -GAAGGCGATATCTACAGCCGCGCCTACGCCGGTGAAGCGTCGCAGCATCTGGATGCCGCCCTCGCCCGTCTGCGTAATGA -GATGGACGATCCGGCGCTGCACATTGCCGATGCGCGTTACCAGTGCATTGCTGCCATCTGTGATGTGGTAAGCAACACCC -TGACGGCAGAACCCAGCCGTTTCACCACTGCGGTAGATAAAATCGTGCTCAACCGTTTCCTCGGTCTGCCGATTTTCCTC -TTTGTGATGTACCTGATGTTCCTGCTGGCTATCAACATCGGCGGGGCGTTACAGCCGCTGTTTGACGTCGGCTCCGTGGC -GCTATTTGTGCATGGTATTCAATGGATTGGCTACACGCTCCACTTCCCGGACTGGCTGACTATCTTCCTCGCCCAGGGCC -TGGGTGGCGGCATTAACACCGTGCTGCCACTGGTGCCGCAGATTGGCATGATGTACCTGTTCCTCTCCTTCCTTGAGGAC -TCCGGGTATATGGCGCGTGCGGCGTTTGTGATGGACCGTCTGATGCAGGCGCTGGGCTTGCCGGGGAAATCCTTTGTGCC -GCTGATCGTCGGTTTCGGTTGTAACGTACCGTCGGTAATGGGTGCACGTACGCTTGATGCACCGCGTGAACGTCTGATGA -CCATCATGATGGCACCGTTTATGTCCTGCGGCGCGCGTCTGGCTATCTTCGCAGTATTCGCGGCTGCCTTCTTCGGGCAG -AACGGTGCGCTGGCGGTCTTCTCGCTGTATATGCTGGGTATTGTGATGGCGGTGCTGACTGGCCTGATGCTCAAGTACAC -CATCATGCGCGGTGAAGCGACGCCGTTTGTCATGGAGTTGCCGGTCTATCATGTACCACACGTTAAAAGCCTGATTATCC -AGACCTGGCAGCGTCTGAAAGGCTTCGTTCTGCGTGCTGGTAAAGTGATCATCATCGTCAGCATTTTCCTGAGCGCTTTC -AACAGCTTCTCGCTGAGCGGGAAAATCGTCGATAACATCAACGACTCGGCGCTGGCGTCCGTCAGCCGGGTGATCACCCC -GGTCTTCAAGCCAATTGGCGTGCATGAAGATAACTGGCAGGCAACGGTTGGCCTGTTTACAGGTGCCATGGCGAAAGAAG -TGGTAGTGGGTACGCTCAACACCCTCTACACCGCAGAAAATATTCAGGACGAAGAGTTCAATCCGGCAGAATTTAACCTC -GGTGAAGAGCTGTTCAGTGCGATAGATGAAACCTGGCAGAGCCTGAAAGACACCTTCAGCCTTAGCGTACTGATGAACCC -CATTGAAGCCAGCAAAGGCGACGGCGAAATGGGTACCGGGGCGATGGGCGTGATGGATCAGAAATTCGGTAGCGCAGCAG -CAGCTTACAGCTACCTGATTTTCGTCCTGCTGTATGTACCATGTATCTCGGTGATGGGGGCTATCGCCCGTGAATCAAGC -CGTGGCTGGATGGGCTTCTCCATCCTGTGGGGGCTGAATATCGCTTACTCACTGGCAACATTGTTCTATCAGGTCGCCAG -CTACAGTCAGCATCCAACTTACAGCCTGGTGTGCATTCTGGCGGTTATCCTGTTTAACATCGTGGTTATCGGTCTGCTGC -GCCGCGCGCGTAGCCGGGTGGATATCGAACTGCTGGCAACCCGCAAGTCGGTAAGCAGTTGCTGCGCAGCCAGCACCACC -GGTGATTGCCATTAATGGCTTCACTTATTCAGGTGCGCGATTTGCTGGCGTTACGGGGCCGTATGGAAGCGGCCCAGATA -AGCCAGACATTGAACACTCCACAGCCAATGATTAACGCCATGCTGCAACAACTGGAAAGTATGGGCAAAGCCGTGCGGAT -TCAGGAAGAACCTGACGGCTGCCTCTCTGGCAGTTGTAAAAGCTGCCCGGAAGGAAAAGCCTGTCTGCGCGAGTGGTGGG -CGCTGCGTTAACCTTACTCCATCGCCTGTTTTGGAAAGCCCGGTATGCGTCTGCATCCGGGCTTTTTTGCGTGCGGCTTT -CCATAAAAATGCAACTCTTGCAGCACGGCGTAAGTTCCTTTGAAAGCATCTCGCAGGGATGAAAACTCGCTAATACACAG -GTGTGGAGTGGCGCGTAGAGTCGCGGCATTCAAACAACAGGTGAAGGAACGCCATGAGCAAAAAGCAGAGTTCCACCCCA -CACGATGCGCTGTTCAAACTCTTTTTACGCCAACCGGACACGGCTCGTGATTTTCTTGCGTTTCATTTACCGGCACCCAT -TCACGCGCTTTGTGATATGAAAACCCTCAAGCTGGAGTCGAGCAGCTTTATTGATGACGATCTGCGTGAAAGCTATTCCG -ATGTGCTGTGGTCGGTGAAAACGGAACAAGGACCAGGATACATCTATTGTCTGATTGAACATCAAAGCACCTCAAACAAA -CTGATCGCATTTCGCATGATGCGTTACGCTATTGCCGCAATGCAAAATCACCTTGATGCTGGATACAAAACGTTGCCGAT -GGTGGTGCCATTGTTGTTTTACCACGGTATTGAAAGCCCCTATCCCTATTCGCTGTGTTGGCTGGATTGTTTCGCCGATC -CCAAACTGGCAAGGCAGCTTTATGCCTCCGCATTTCCGCTGATTGATGTCACCGTCATGCCTGATGATGAAATCATGCAG -CACCGACGTATGGCGCTGCTGGAGTTAATTCAAAAACATATTCGTCAACGCGACCTGATGGGGCTGGTAGAGCAAATGGC -CTGCTTATTAAGTAGTGGATACGCTAATGACAGACAAATCAAAGGGCTGTTTAATTACATACTGCAAACTGGCGACGCTG -TACGTTTTAACGATTTTATCGACGGCGTTGCCGAACGTTCACCAAAACACAAGGAGAGTTTAATGACTATTGCGGAAAGA -TTGCGGCAGGAGGGGGAACAATCCAAAGCCCTGCATATAGCCAAAATAATGCTTGAATCCGGAGTTCCTCTTGCAGACAT -CATGCGCTTTACCGGGCTGTCAGAAGAAGAGTTGGCTGCGGCGAGTCAGTAAAGTTCTGTCTCGCCATTTCAAAAGCCAC -CTACACCCTCTGCTTCAACGCCACCAGCAGGTGACAAAACTCGGCCGGATGCGAAATAAATGGCGCATGGGCCGCTTTGG -CGAAGATATATGATTCGCTGTGAGGCCAAAGTTTATCCAGCATCGGCACCACTTTGCGCGGCACCAGACCGTCGAGATAG -CCATACAATCGCAAAAACGGCATGGACACGTTTTGCAGCGGCTGACGGAGATCGACCGTTTTCAGGATTTCCAGCCCGCC -ATTAAGCACGTCAACCTCCGGCATCGGTAACGCCAGAACGGTTTTCTTCAACGCCCGCGCATCCTGGCGCGCCGTTTCAG -TCCCCATGGTTTGTAACGCCAGGAACCGCTCCACTGTACGCTGAAAATCATCACTGAGTTGCTGCTGAAATCCCGCCAGC -ACGTCCGGTTTTATCCCCGGCCACTCGTCACGAGCACTAAAACAAGGTGACGACGCCACGGTGACCAGCGCCTGAACACG -CTCGGGATGGGTTAACGCAATCTGGCTTGCCACCAGCCCGCCCAGACTCCAGCCTAACCAAATGGCTTTATCAGGTGCCT -GTTGCAGCACGGCTTCGGCCATATCAGCAAGTGACAGCGCACCAAATCCCCGGCTACGCCCGAAGCCGGGCAGGTCAACA -AGGTGCAGCGTAAAATGCGAGCTAAGTTCCTCGTCAATGCAACGCCACACTTCGGCATTCAGTCCCCATCCGTGCAGCAG -CACAAGATGAACATTCCCCTGACCTTTGGTCTGCCACCAGATGTTATTCATCCGCTATTGTTCTCTTTTGACTTACAAGG -ATGAACATATGCTAACAGTACCGGGATTATGCTGGCTATGCCGAATGCCACTGGCGTTAGGTCATTGGGGGATTTGTTCG -GTCTGTTCACGCGCCACCCGCACAGATAAAACGTTATGCCCACAATGTGGATTACCCGCCACACACTCCCATCTTCCCTG -CGGTCGCTGCCTGCAAAAACCGCCGCCCTGGCAAAGACTGGTCACGGTTGCCGACTATGCGCCGCCGTTAAGTCCGCTTA -TCCACCAGCTTAAATTTTCCCGGCGCAGTGAAATCGCCAGCGCCCTGTCACGTCTGTTACTATTGGAAGTCTTACACGCT -CGTCGCACCACCGGGTTGCAATTGCCGGATCGCATCGTCAGCGTTCCGTTATGGCAGCGGCGTCACTGGCGTCGGGGATT -TAATCAGAGCGATTTGCTGTGTCAGCCGTTATCACGCTGGTTGCACTGCCAATGGGATAGCGAAGCCGTCACACGTACAC -GGGCCACTGCGACCCAGCATTTTCTCAGTGCCCGGCTGCGCAAGCGCAACCTGAAAAATGCCTTTCGTCTTGAATTGCCC -GTGCAAGGTCGCCATATGGTGATTGTGGATGATGTCGTTACCACCGGAAGTACCGTCGCAGAGATTGCGCAGTTGCTTTT -ACGCAATGGTGCGGCGGCTGTCCAGGTCTGGTGCCTTTGTCGAACCTTGTAGAGCCTCGATGATGGGCGTATTATAACCA -ACTAAAATAGTCAACTATTAGGCCATTACTATGATCCGTATTTCCGATGCTGCACAAGCGCACTTTGCCAAACTGCTGGC -AAATCAGGAAGAAGGGACACAAATCCGCGTATTTGTGATTAACCCTGGCACGCCTAACGCTGAATGTGGCGTTTCTTATT -GTCCGCCGGACGCTGTGGAAGCCACCGACACAGCCCTGAAATTTGACCTGCTGACCGCGTATGTTGATGAGTTAAGCGCA -CCATACCTGGAAGATGCAGAGATCGATTTTGTTACCGACCAGTTGGGTTCCCAGTTAACGCTGAAAGCCCCGAACGCCAA -AATGCGTAAAGTGGCAGACGATGCACCGCTGATGGAGCGCGTGGAGTATATGCTGCAGTCGCAGATCAACCCACAGCTTG -CTGGTCACGGTGGTCGCGTTTCGCTGATGGAAATCACCGAAGACGGTTACGCCATTCTGCAATTTGGCGGCGGCTGTAAC -GGTTGTTCCATGGTCGATGTGACGCTGAAAGAAGGGATCGAGAAGCAGCTGCTGAACGAATTCCCGGAGCTGAAAGGTGT -GCGCGATCTCACCGAACACCAGCGCGGCGAACACTCCTACTACTAAGTTATCCCCTCTTTTGTAGATTGCCCGATGCGAC -GCTAAAGCGTCATTTCGGGCCTACGTTGAACATGTGCCAGACGTTGGCGCAGCATTGCTTTGTCAAATCCTCGGTTCGTT -TCCCCGCGATAATATGACCAACCTCTCATAATTTAAATTTACCCCGCTCTGGTGATTCTCAAACGCCAGATGTTACCCGT -ATCATTCACATGGGTACCAAACATACTCCTGACATCTGACTACAATAATTAGTTTTAGTGGGTATCAGTCGTGGTGCCGC -AATATCTCTGTTCCCGATTGGGATAATTAGAGTTTGTCGTCAGAAAATTGACGTTACCCATAACAAATGAAAGGCCAGGT -AAATCATGCCATTAGTCATTGTTGCTATCGGTGTAATCTTGTTGTTGCTCCTGATGATCCGCTTCAAAATGAACGGCTTC -ATCGCTCTCGTCCTCGTGGCGCTTGCTGTTGGATTAATGCAAGGAATGCCGCTGGATAAAGTTATTGGCTCCATCAAAGC -CGGTGTCGGCGGGACGCTCGGTAGCCTTGCCCTGATCATGGGTTTTGGCGCAATGCTGGGCAAAATGCTGGCAGACTGCG -GTGGCGCACAACGTATCGCCACCACGCTGATTGCCAAATTTGGTAAAAAACACATCCAGTGGGCGGTGGTACTGACCGGT -TTTACCGTTGGTTTTGCCCTGTTCTATGAAGTGGGCTTTGTGCTGATGCTGCCGCTGGTGTTTACCATCGCGGCTTCTGC -GAATATTCCACTGCTGTATGTTGGTGTACCAATGGCGGCTGCACTGTCTGTGACCCACGGCTTCCTGCCACCGCATCCGG -GTCCGACTGCGATTGCCACCATTTTCAATGCCGATATGGGTAAAACCCTGCTGTACGGTACTATTCTGGCAATCCCGACC -GTGATTCTCGCCGGTCCGGTTTACGCTCGCGTGTTGAAAGGTATCGATAAGCCAATTCCGGAAGGTCTCTACAGCGCGAA -AACCTTCAGCGAAGAAGAGATGCCGAGCTTTGGCGTCAGCGTCTGGACCTCTCTGGTGCCGGTAGTACTGATGGCGATGC -GTGCGATTGCCGAAATGATCCTGCCGAAAGGTCACGCTTTCCTGCCGGTAGCGGAGTTCCTCGGTGACCCGGTAATGGCA -ACGCTGATTGCCGTGCTGATTGCGATGTTCACCTTTGGTCTAAACCGTGGTCGTTCAATGGATCAGATTAACGACACGCT -GGTTTCTTCCATCAAAATCATTGCGATGATGCTGTTGATCATCGGTGGTGGCGGTGCGTTCAAGCAGGTGCTGGTAGACA -GCGGCGTGGACAAATACATTGCTTCCATGATGCACGAAACCAACATTTCTCCGCTGCTGATGGCCTGGTCGATTGCTGCC -GTACTGCGTATCGCGCTGGGTTCCGCAACCGTTGCGGCAATCACTGCGGGTGGTATCGCGGCACCGCTGATTGCAACGAC -GGGTGTTAGCCCGGAGCTGATGGTTATTGCGGTTGGTTCCGGTAGTGTGATTTTCTCTCATGTGAACGATCCGGGCTTCT -GGCTGTTCAAAGAGTACTTTAACCTGACTATCGGCGAGACCATCAAATCCTGGTCGATGCTGGAAACCATTATCTCGGTG -TGCGGTCTGGTAGGCTGTCTGCTGCTGAATATGGTGATTTGATAACACTGACTGCCGGATGCGGCGTGACCGCCTTATCC -GGCCTACGATTCGGGATGAATTAGTAGGCCGGATAAGACGCGTCAAGCATCGCATCCGGCATCAACCGCACTCTACTTCT -TCTTCGCTGCAGCTCTGCGCCGTCTGTCCAAATCCTTCAGCAACTTGTTCACGCCATCATCGGCAAACATCGACTCAAGC -GTTGCGGAAAGCTTGCGTCGCCAGTTTTTATACTGGTAACTGGTGCCAGGAATATTCACCGGTTCGGCCATATCCAGCCA -GTCTTCCGGCTGTAGTCCTAACAGAGCACTGTTACTGTCGGCAATGTAGCGCTGCAAACCACGGTTCAGCGTCGGCGTCA -TCGACATCAACGATGCCTTATGCCCGGCACGTTTCGGCAGACAACCATATTTATGCAGTGCATCCAGCAGCCCTTGCTTC -GCCAGTTCGCGATCCTGATACAGACCGCGCAGTACCACTTCATCCGGATACAGCCCCAGGGTTTTGCCCAGCGTTAGATC -CCCGCACTCCCAGTAACCGCGCAGCGTTGGCAGGTCATGTGTCGCCGCAACCGCCATCGACTGCTCCGGATACGCTTTCG -GTGCACGGAACGTCTTCTCGTGGTCGTTTTCGAAATAGAGCACTTTGTAAGAGTACACACCGCTGCTGCGCAGCTTACCG -ACAATCTCTACCGGTACGGTACCGAGATCTTCACCAATCACCATACAGCGATGACGTTTACTTTCGAGTGCCAGAATCGA -GAGCAGATCATCCACCGGATAGTGAACATACGCGCCCTGATCTGCCGTCTCGCCATACGGTATCCACCACAAACGCAGCA -TCGACATCACATGGTCAATTCGTAATGCGCCGCAGTTTTGCATATTGGCACGCAACAGCTCGATAAACGGTTCATAGGCA -CGCGCGGTGATGATATGCGGGTCCATTGGCGGTAATCCCCAGTTCTGCCCCAACGGGCCGAGGATATCCGGCGGCGCGCC -AACCGATGCTTTCAGGCAATATAGTTCACGGTCACACCAGGTTTCCGCCCCACCTTCCGCTACGCCAACCGCCAGATCAC -GATACAAGCCAATCGGCATTTCATAGCCCTGGCTTATCTCCCAGCAGGCGGCAAACTGGCTGTAAGCCAGCCACTGCAAC -CAGAGATAAAAATCGACGTCATCACGATGTTCTTCGCAGAACTGACGCACTTCTGGTGAATCCACGTTCTGATACATCTC -TGGCCATGCAGGCCAGCCCCAGCGCATTTCGTCCTCTTTCACTTGCTGGGCATGTAGCGCATCAAAGGCTGCCTGCCAGA -ACAGGCTGTCGCCCTGCTCTGCAACAAACTGGCGAAACGCGGCCATCTGCTCATCATCACGTTGCGCGAAACCTTTCCAC -GCCATTCGTAATGCTGTCATTTTTAGGGCGGTAACCGTGGAGTAATCGACCCAGTCGGCATCGCGCGCCTGTTGCAGCGT -CTGTTGCGTGGTCGGCAACTGCCACCAGGCCTGAGCCTCTTCGCTAAGATGGAAATCTTCAACGGCGTTAACGTCGATAT -AAATCACATTCAGCCAACGGCGAGAAGACGGGCTGTATGGGCTGGCGCTCTCCGGATTTGCCGGATAGAGCGCATGAATC -GGGTTCAGGCCAATGAACGACCCGCCACGTTTTGCCACATCCACCAGCATCGCTTTGAGATCGCCAAAATCCCCAATACC -CCAGTTTTTTTCCGATCGCAGCGTATAAAGCTGAACGCAGGCACCCCACAGCTTTTGTTTATTCAGCAACGCCTGCGGTT -CGTAACAGCGTTTCGGGGCGACAATCACCCGGCAATGCGCGCGCTGGTCGTCCTGGGTGAGTGTCAGCGTGTGATAACCT -TCCGGCAGCTTCGTCGGTAGATTGAACGCTTTGCCCCCCGTTACATGGCCTTTGTACTGCGTTCCTTCTTCGGTGGTCAG -CAGCCAGCTATATTCGCCGCTGCCCTCCACCACCATCGGCATTTTTTTGCCGCTGGTATAAACCATGACATTCGGGACTG -GCGTTACCGCCACTTTCGTGGCGGTACGTTGATGCATCGCGTCAAGCAAACGCCGTTTGGTTTCGGCGCTAATCGACTGC -GGTTTACCGTGGGCATTGATGTAATTGGGGCTAATCCCCGCCGCCAGCGCGGCATTATCCAGACGTTTGCTTTCCATCGA -GCTTCCTTAGCGTTTTGCCTGCCAGATACGAGCCTGATAATCGCGAATAGAGCGATCCGAGCTAAACATACCGCAGCGGG -CGGTATTGAGGATCGCCGCGCGAGTCCAGGCCTCCTGGTCGCGGTACAGCACATCCACCTGCTTTTGTGCCTCTACATAG -GCTGCGAAATCCGCCATCACCAGATACGGATCGCCGCCCTGTTTGCCGATACTGTGCAGCATCTGGTCGAAGGCATGCTT -ATCGCCGTCGCTGTATTTACCGCTTTCCAGCTCTTTCAATACTGCGTCCAGCACCTTATCTTTCTTCCGCCATTTCACCG -GGTCGTAGCCTTTGGCCAGAATTGCCTTCACTTGTTCCACGGTATGACCAAAAATAAAGATATTTTCTTCACCGACTTTC -TCGGCGATTTCAACGTTCGCCCCATCCAGCGTACCGACAGTAAGCGCACCATTGAGCGCCAGTTTCATATTGCCGGTACC -GGAAGCTTCTTTACCTGCAGTCGAAATTTGTTCGGAGATATCCGCCGCCGGGATCAGTTTTTCCGCCGCCGAAACGCAAT -AATCCGGCAGGAACACCACCTTCAACTTATCGCCAACCAGCGGATCGTTGTTGATCACGTCAGCCACTTTGTTGATCGCA -AAGATAATATTCTTCGCCAGGTAGTAGCCCGGTGCCGCTTTCGCGCCGAAGAGGAAGACGCGCGGTACGCGATCAGCCTG -CGGGTTTTCACGAATTTCTTTGTACAACGCCAGAATATGCAGCAGATTCAGGTGCTGGCGTTTGTACTCATGCAAACGTT -TGATCTGAATATCGAAAATCGCCTGTGGATTGATCTCAATACCGGTACGAACTTTCACAAACTCCGCCAGACGGACTTTA -TTCGCCTGCTTGATCTCGCGATATTGCTGACGGAATTTCGCATCATCAGCGAATTTTTCCAGATTGATCAGCTGATCGAG -ATCGTTAGCCCACTCTTTTTGCAGTGATTTATCCAACAGAGCCGCCAGTGCCGGGTTGCACTGTTTGATCCAGCGACGTG -GGGTAATACCGTTGGTGACGTTATGGAATTTGTTCGGCCATAGCTGGTGATATTCCGGGAACAGATCTTTCACCACCAGA -TCCGAGTGCAGCGCCGCAACACCGTTCACCGCGAAACCGCCAACCACACACAGGTTCGCCATATGCACTTGTTTGTCGTG -CACCACCGCCAGTTTGGCCCACACTTTTTCATCGCCCGGCCAGGTTTTCTCTACCAGCGTTTTAAAGCGAGTATTAATTT -CGTTAATAATCTGCATGTGGCGCGGCAGTAAGCCTTTCACCAGTTTCACATCCCAGCGTTCCAGCGCTTCTGGCATCAGG -GTATGGTTGGTGTAAGCGAAAGTTTTGCTGGTAATGGCCCAGGCGTCATCCCAGCTCATCTGGTGCTCATCGATCAGCAC -GCGCAGCAGTTCTGGAATCGCGATAGTTGGGTGGGTATCGTTCAGCTGAATAACTTCGTAATCCGCCAGTTCGTGCAGTT -TACGCCCCGCCAGATGATGGCGACGCAAAATATCCGCTACCGAACAGGCACACTGGAAGTATTGCTGCATCAGGCGCAGC -TTTTTACCGGCAGTATGGTTGTCGTTTGGATAGAGAACTTTGGTCAGTTTTTCCGCATTGATGCCCTGCTGTTCGGCACG -CAAGAAATCACCGTCGTTAAATTTAGTCAGATCAAACGGATGCGCGTGCGTCGCCTGCCACAGACGCAGCGGCTGCGCCA -CGCCATTACGATAGCCGACAACGGGGAGATCCCACGCTTGACCGGTAATGGTAAACTCCGGCTCCCAGCGTCCGTCTTTC -GTCACTTTACCGCCAATCCCTACCTGCACATCCAGTGCTTCGTTGTGGCGGAACCACGGGTAGTTACTGCGATGCCAGTC -ATCCGGCGCTTCAACCTGTTTGCCATCGACAAAAGACTGGCGGAACAAACCATATTGATAGTTCAGACCGTAACCCGTCG -CAGACTGACCGACAGTTGCCATTGAGTCGAGGAAGCACGCCGCCAGACGTCCCAGACCACCGTTACCCAGCGCCGGGTCG -ATCTCTTCTTCCAGCAGGTCCGTCAGATTGATGTCATAAGCCTTCAACGAATCCTGTACATCCTGATACCAGCCGAGATT -CAACAGGTTGTTGCCCGTCAGGCGACCAATCAAAAACTCCATTGAGATGTAGTTAACATGTCGCTGATTCGCCACCGGCT -TGGCGAATGGCTGAGCACGCAGCATTTCGGCCAGTGCTTCACTCACTGCTAGCCACCACTGGCGAGGAGTCATTTCAGCC -GCAGAATTTAAGCCATAACGCTGCCACTGACGTGAAAGCGCTTCCTGAAATTGCTTATCGTTAAAAATAGGTTGTGACAT -AGGAGTTCCACTTTTCTTAGATTTTCAACACAACGTTATCGCTAGTTTGCCAGGCTCGATGTTGACCTTCCTCATCCTGC -GGGGGATTAGGCAGGGAGGAGTTGCGGGGATGAGCAAGGAAATGTGATCTCAACCACTTAAAGCTAGTGCAAACCACAGG -ATTAGCATCAAATCAATGCAATACAGCGCAGAAAATCTGTATCTAAGTGCAAAAAATGGCCGTTGCGTATTTTCAAAAAG -CGGAAGGTAACTCTATAAATTAAGTAAAGGAGTGAAACAGTTTCATAAGTAAAATATCCAGTGTGCTCCATCTCATTCTT -AATAGATTTATTAAGATCATCTTTTTAGATGGCACTTTCATCAGGAATGAAGAAGAAACCCTTGCTTAAATGAATCTGAT -GAACATAAGGGAAACCAGTATTCACGCTGGATCAGCGTCGTTTTAGGTGAGTTGTTAATAAAGATTTGGAATTGTGACAC -AGTGCAAATTCAGACACATAAAAAAACGTCATCGCTTGCATTAGAAAGGTTTCTGGCCGACCTTATAACCATTAATTACG -AAGCGCAAAAAAAATAATATTTCCTCATTTTCCACAGTGAAGTGATTAACTATGCTGATTCCGTCAAAACTAAGTCGTCC -GGTTCGACTCGACCATACCGTGGTTCGTGAGCGCCTGCTGGCTAAACTTTCCGGCGCGAACAACTTCCGGCTGGCGCTGA -TCACGAGTCCTGCGGGCTACGGAAAGACCACCCTCATTTCCCAGTGGGCGGCAGGCAAAAACGATATCGGCTGGTACTCG -CTGGATGAAGGTGATAACCAGCAAGAGCGTTTCGCCAGCTATCTCATTGCCGCCGTGCAGCAGGCAACCAACGGTCACTG -TGCGATATGTGAGACGATGGCGCAAAAACGGCAATATGCCAGCCTGACGTCACTCTTCGCCCAGCTTTTCATTGAGCTGG -CGGAATGGCATAGCCCACTTTATCTGGTCATCGATGACTATCATCTGATCACTAATCCAGTGATCCACGAGTCAATGCGC -TTCTTTATTCGCCATCAACCAGAAAATCTCACCCTGGTGGTGTTGTCACGCAACCTTCCGCAACTGGGCATTGCCAATCT -GCGTGTTCGTGATCAACTGCTGGAAATTGGCAGTCAGCAACTGGCATTTACCCATCAGGAAGCGAAGCAGTTTTTTGATT -GCCGTCTGTCATCGCCGATTGAAGCCGCAGAAAGCAGTCGGATTTGCGATGACGTTTCCGGTTGGGCGACGGCACTACAG -CTAATCGCCCTCTCCGCCCGGCAGAATACCCACTCAGCCCATAAGTCGGCACGCCGCCTGGCGGGAATCAATGCCAGCCA -TCTTTCGGATTATCTGGTCGATGAGGTTTTGGATAACGTCGATCTCGCAACGCGCCATTTTCTGTTGAAAAGCGCCATTT -TGCGCTCAATGAACGATGCCCTCATCACCCGTGTGACCGGCGAAGAAAACGGGCAAATGCGCCTCGAAGAGATTGAGCGT -CAGGGGCTGTTTTTACAGCGGATGGATGATACCGGCGAGTGGTTCTGCTATCACCCGCTGTTTGGTAACTTCCTGCGCCA -GCGCTGCCAGTGGGAACTGGCGGCGGAGCTGCCGGAAATCCACCGTGCCGCCGCAGAAAGCTGGATGGCCCAGGGATTTC -CCAGCGAAGCAATTCATCATGCGCTGGCGGCAGGCGATGCGCTGATGCTGCGCGATATTCTGCTTAATCACGCCTGGAGT -CTGTTCAACCATAGCGAACTGTCGCTGCTGGAAGAGTCGCTTAAGGCCCTGCCGTGGGACAGCTTGCTGGAAAATCCGCA -GTTGGTGTTATTGCAGGCGTGGCTGATGCAAAGCCAACATCGCTACGGCGAAGTTAACACCCTGCTAGCCCGTGCTGAAC -ATGAAATCAAGGACATCAGAGAAGACACCATGCACGCAGAATTTAACGCTCTGCGCGCCCAGGTGGCGATTAACGATGGT -AATCCGGATGAAGCGGAACGGCTGGCAAAACTGGCACTGGAAGAGCTGCCGCCGGGCTGGTTCTATAGCCGCATTGTGGC -AACCTCGGTGCTGGGTGAAGTGCTGCACTGCAAAGGCGAATTGACCCGCTCACTGGCGCTAATGCAGCAAACCGAACAGA -TGGCACGCCAGCACGATGTCTGGCACTACGCTTTGTGGAGTTTAATCCAGCAAAGTGAAATTCTGTTTGCCCAAGGGTTC -CTGCAAACCGCGTGGGAAACGCAGGAAAAAGCATTCCAGCTGATCAACGAGCAGCATCTGGAACAGCTGCCAATGCATGA -GTTTCTGGTGCGCATTCGTGCGCAGCTGTTATGGGCCTGGGCGCGGCTGGATGAAGCCGAAGCGTCGGCGCGTAGCGGGA -TTGAAGTCTTGTCGTCTTATCAGCCACAGCAACAGCTTCAGTGCCTGGCAATGTTGATTCAATGCTCGCTGGCCCGTGGT -GATTTAGATAACGCCCGTAGCCAGCTGAACCGTCTGGAAAACCTGCTGGGGAATGGCAAATATCACAGCGACTGGATCTC -TAACGCCAACAAAGTCCGGGTGATTTACTGGCAAATGACCGGCGATAAAGCCGCCGCTGCCAACTGGTTGCGTCATACGG -CTAAACCAGAGTTTGCGAACAACCACTTCCTGCAAGGTCAATGGCGCAACATTGCCCGTGCACAAATCTTGCTGGGCGAG -TTTGAACCGGCAGAAATTGTTCTCGAAGAACTCAATGAAAATGCCCGGAGTCTGCGGTTGATGAGCGATCTCAACCGTAA -CCTGTTGCTGCTTAATCAACTGTACTGGCAGGCCGGACGTAAAAGTGACGCCCAGCGCGTGTTGCTGGACGCATTAAAAC -TGGCGAATCGCACCGGATTTATCAGCCATTTTGTCATCGAAGGCGAAGCGATGGCGCAACAACTGCGTCAGCTGATTCAG -CTTAATACGCTGCCGGAACTGGAACAGCATCGCGCGCAGCGTATTCTGCGAGAAATCAATCAACATCATCGGCATAAATT -CGCCCATTTCGATGAGAATTTCGTTGAACGTCTGCTAAATCATCCTGAAGTACCTGAACTGATCCGCACCAGCCCGCTGA -CGCAACGTGAATGGCAGGTACTGGGGCTGATCTACTCTGGTTACAGCAATGAGCAAATTGCCGGAGAACTGGAAGTCGCG -GCAACCACCATCAAAACGCATATCCGCAATCTGTATCAGAAACTCGGCGTGGCCCATCGCCAGGATGCGGTACAACACGC -CCAGCAATTGCTGAAGATGATGGGGTACGGCGTGTAAGTTTAGCCGGATAACGCGCCAGATCCGGCTTACATCTCTGCAT -CATTCAATGCTCACCCGCGTTACGCCATCTGTTTCTATCAAACTAAACCGCACCGGCAAGAAACGCTCCACCACCGCGAT -ATTGGTCAGCAGATGGCATGAGGGATGGGCGACCGTAAATTCCCCCGCGCCCGCCAGCGCCATCGGTAGCACCAGTTGGT -CAGCAAGATATTCCCCCACCGCCGCCGTGCTTGCCAGGTAGCGTTTCACCTCTTTCACCAACTGTGCCGCAACCACCTCG -GCACTGACGCGCTTTTCACCGACGACAAAAAAGCGTTCGGTGATATTTTCACTTTCGACTTCAAGCGAGACGGTATTACC -CGGCCCCTGGTCGCGCGGCAGGTTATGAATATTCTGTTCATGCAGGGAAAAACTCCCCGCCAGTGTAGCGATTTCACGCT -CAGCAACATGGCGCGGCACACCAGCTAATAGAACTTCTCCACGCATCTGCACAATGTTCCCGCGCTCGCCAAGTTGCAAG -GTGTTAAACGATGCCACGGGCGAGACTTCCGTTGCCACCACACCGCCTCCGGCAGGGTAAAAACCGTGGCGTAACAGCGT -GGTTTGCTGATGAATTCCTATTTTCGCCAGCAGCGGCTCCAGCACCCGGCGGATAAAATCCGCAGGCGGCGCCGACGGGT -TATCGGTGCCGCCGCTCACTTCAACACGCGAAGGTCCATCGGCAAACCACAGCGCGGGCAGCACCGTTTGCAGCACCAGC -GTACAACTTCCGGCGCTACCGATAGCAAAGCGGTAATCGCCGCCGCGCACGGTGCCGGGCCGGAAGAGCAGACGCTGCGA -CCCCAGCTCCGCGCCTTCCACGGTTGCTCCGCAAATTTCCGTCGCCGCCTTTACCGCGGTCAGATGCTGGCGCAACAGCC -CCGGTTTCGCCCGCCCGGCACGAATGCTGGTGATGGTAAATGGCTGGCCGGTTATCATCGACAGGCTCAGCGCCGAGCGC -AGGATCTGCCCGCCACCTTCGCCCTGTGCGCCATCCAGCGCAATCATCCTTTTCATCATTTATCCTTTTACGCACACCAC -CTGACGCAGGGTATAGATAACTTCCACCAGATCGCTTTGTGCCGCCATCACCGCATCAATATCTTTATACGCCATCGGGA -TTTCGTCGATCACTTCGGCATCTTTACGGCATTCCACATGCGCGGTGGCACGAATTTGATCTTCCACGCTGAACAGTTTT -TTCGCTTTAGTTCGGCTCATTACCCGCCCGGCACCGTGGCTGCACGAACAGAACGACTCTTCATTTCCCAGCCCACGGAC -GATAAAGCTTTTTGCTCCCATCGAACCGGGAATAATTCCATATTGACCAGCACGCGCAGACACCGCGCCTTTACGCGTCA -CGTAGATCTCTTCACCAAAGTGCTGTTCTTTTTGCACATAGTTGTGGTGACAGTTGATCTCTTCCATCGCCAGCGTTTGT -GGCTGTCTGACCGTTTTCTGCGTAATGCTCTGCAATGCCGTTACCACGTTTTCCATCATCGCATCGCGGTTAAGGCTGGC -AAAAAGCTGCGCCCAGGCCACGGCTTTCAGGTAATCATCAAAGTATTCCGTACCTTCCATAAAGTACGCCAGATCACGCG -ACGGCAACGTCTCAAGCGTTTCCTGCATCTCTTTTTGTGCCAGATCGATAAAGTAAGTCCCGATGGCGTTACCAATTCCG -CGTGAACCGGAGTGCAGCATAATCCACACCTGGTCCGACTCATCAAGGCAGATTTCAATAAAGTGGTTACCGGTTCCCAG -CGTTCCCAGGTGTTTATAGTTATTGGTATTCAGGAAACGGGGATATTTTTGCGTTAACCACTGATAACCGGCTTCAAGCT -CAGCCCATTTAGCATCGACGTTAACAGGTGGATTTTCCCAGGCACCTTTATCACGTTTACAACGGCCAGTGGTACGCCCG -TGCGGCACGGCCGTTTCAATCGCCTGACGCAGCTCTGCCAGGTTTTCAGGCAGGTCTTCCGCCGTTAACGCGGTACGCAG -CGCGTTCATTCCACAGCCAATATCCACGCCCACCGCCGCCGGAATAATCGCCCCTTTGGTCGGGATCACGCTACCAATGG -TGGAACCTTTACCCAGGTGTACATCAGGCATTACCGCAATATGTTTGAAAATAAACGGCATCTTCGCCGTATTAATAAGT -TGCTGACGCGCATCGGCCTCTACCGGCACGCCTTTGGTCCACATTTTTACCGGGGCATTTTCAGTGGTCAGTAATTCGTA -ATTCATTTTGTTTTTCTCTTTTCGTTGTTTGCTGTCCTGATAATTGCAACCGTCGTGCCAGAAAATTAAATAAGCAGCTT -AATTTTTTAATTCATTGTTTTAAAAAAGATTATATCTTTACGTCCGTAACCGGAGATTTCCCGCAAAGCCAATTTACCGA -TAATGAAATATCGTCTTTTATAAGGATATCTAAGATGCGTAAAACAGTGGCTTTTGGCTTTGTCGGTACCGTACTGGATT -ATGCCGGGCGCGGCAGTCAGCGCTGGTCAAAATGGCGTCCGACACTCTGTTTATGCCAGCAAGAATCGTTGGTCATCGAT -CGACTGGAATTGTTGCACGACGCCCGCTCGCGCTCGCTATTTGAAACGCTTAAACGCGATATCGCCAGCGTTTCGCCAGA -AACAGAAGTGGTGAGCGTTGAGATTGAACTGCATAACCCGTGGGATTTCGAAGAGGTCTACGCCTGCCTGCATGATTTCG -CCCGTGGTTACGAGTTTCAGCCAGAAAAAGAAGACTATTTAATTCACATCACCACCGGTACCCACGTCGCGCAGATTTGC -TGGTTTCTGCTGGCAGAAGCGCGTTACCTGCCCGCCCGGCTGATACAATCTTCACCTCCGCGCAAAAAAGAACAGCCGCG -CGGCCCAGGTGAAGTAACGATTATCGATCTCGATTTAAGCCGTTATAACGCCATCGCCAGCCGCTTTGCCGAGGAACGCC -AGCAAACGCTTGATTTTCTTAAGTCCGGCATTGCCACGCGTAACCCCCACTTCAACCGCATGATTGAGCAGATCGAAAAA -GTGGCGATCAAATCCCGCGCGCCGATTCTGCTTAACGGTCCAACCGGCGCGGGCAAGTCATTTCTGGCGCGACGCATCTT -AGAGTTAAAACAGGCGCGGCATCAGTTTAGCGGCGCGTTTGTGGAAGTGAACTGCGCCACCCTGCGCGGCGATACCGCCA -TGTCGACGCTGTTTGGTCATGTAAAAGGCGCGTTTACCGGGGCGCGGGAATCTCGTGAAGGTTTATTACGCAGCGCCAAC -GGCGGAATGTTGTTTCTTGATGAGATTGGCGAACTGGGCGCAGACGAACAGGCAATGCTGCTGAAAGCCATTGAAGAGAA -AACCTTTTACCCGTTTGGCAGCGATCGCCAGGTGAGCAGTGATTTTCAGCTTATCGCCGGAACGGTGCGCGATTTGCGCC -AGCTGGTTGCCGAAGGCAAATTTCGCGAAGATCTGTACGCGCGGATCAATCTCTGGACCTTCACCCTGCCGGGTCTACGC -CAGCGCCAGGAAGATATTGAACCGAACCTGGATTATGAAGTGGAGCGCCACGCCTCACTCACTGGCGACAGCGTGCGTTT -TAACACCGAAGCGCGGCGCGCCTGGTTGGCTTTTGCGACCTCTCCCCAGGCAACATGGCGCGGTAACTTTCGCGAACTTT -CTGCCAGCGTCACGCGGATGGCCACCTTTGCCACTAGCGGACGCATCACTCTGGACGTGGTTGAAGATGAGATAAACCGT -CTGCGCTATAACTGGCAGGAGAGCCGCCCCTCCGCGCTTACGGCGTTGCTGGGCGCAGAGGCAGAAAACATCGATCTCTT -CGACCGTATGCAACTGGAACACGTTATCGCTATCTGCCGCCAGGCAAAGTCGCTTTCCGCAGCCGGACGCCAGCTTTTTG -ACGTTTCGCGCCAGGGCAAAGCCAGCGTCAATGACGCGGATCGGCTACGCAAATACCTGGCGCGTTTTGGTCTGACGTGG -GAAGCCGTGCAGGATCAGCACAGCTCCAGTTGAATATGGTGGTCCGTCAGCACCTGCATCACGCTTACTGGCGGCGGGGC -GTCGGTGTAGACGGCATCTACCATGCTGATGCTGCCCATATTGACCATCGCGTTACGGCCAAATTTCGAGTGATCGACAA -CCAGCATAACGTGGCGCGAGTTCTCAATAATGGCGCGTTTGGTGCGAACTTCGTGGTAATCGAACTCCAGCAGCGAGCCG -TCGCTATCGATGCCGCTTATCCCCAGAATGCCGAAATCAAGGCGGAACTGGGAGATAAAATCGAGCGTCGCTTCGCCAAT -GATCCCGCCATCGCGGCTGCGTAATTCGCCACCGGCGAGAATGATGCGAAAATCTTCTTTTACCATCAACGTGTTAGCAA -CGTTGAGATTGTTGGTGACAATGCGCAAATTGCTGTGATTGAGCAGTGCGTGCGCTACCGCTTCCGGCGTGGTGCCGATA -TCGATAAACAGCGTCGAGCCATTGGGGATTTGCTCCGCCACTTTGCGGGCGATGCGCTCTTTTTCTTCGGTCTGGGTGGC -CTTGCGATCGTGCCACGGCGTGTTAACCGAACTGGAAGGCAGCGCCGCACCGCCATGATGGCGCAGGATCAGGTTTTGCT -CCGCCAGCTCATTGAGGTCGCGGCGAATAGTCTGCGGGCTGACGGAGAAATGCTCTACCAGCTCTTCGGTACTGACATAA -CCCTGCTGTTTAACCAGTTCGATAATACCGTTGTGACGTTGTGTTTGTTTCATTTATAAATCCCTGGAATTATTTTCGTT -TTCGCGCATTGAGCGAATCAACAAAAGCCATCGCTAAACCCACGGCTAACCCGGCGATGTGTGCTCCGTTCGCCATCGAC -ATCCCAAACAAATCAAACCATCCGGCGACAATCCAGATCAGCGCAAAGATAATTAACCCACGTTGCAGGTAAATGCCACT -TTGCGGATCGCGTTCGCCACGTAGCCAGACGTAGCCCATCAGCGCATACACCACGCCAGAAAGCCCGCCAAACCACGGCC -CGCTGAATTTTTGCTGCACATAGCCGCTTAACAGGGCGCTGATAAGCGTAATGACAATTAGCTTACCGCTACCGAGGCGT -TTTTCCACCGCACCGCCGAGATACCACCACCAGAGCAGGTTAAAGAGGATATGCATCAGCGAGAAGTGCATTAACGCGTG -GGTGAAGTAACGCCAGAACTCAAATTTCAGTGTTGGATCGAATGGCCAGGCCAGCCATAACATCACTTCCTGATCGCCGA -GAATTTGCATGGCAATAAACACCACCACGCAGGCGATCATCATCACCCAGGTTACCGGACCTGCGCGTTCACGCAAGGCG -GCAAAGAAAGGATAACGGCGATAATGCAGGCCACTGCCGGTATGGCCTGCCTGCCAGCTCGCCGCCAGATAACGCGGATC -TGCCGGGTTTTCGAGAAAACGCGCCAGCTCCGCCCGTACGCGCTCGGCCTGGGACTCATCCGCCAGCCAGACATCGCTTT -GGTTATGTTGTTGAATCGTGAGGATAACACCCTGCGTCGCCATGTAATCAACAAACGCCTGCGCCACGCGGGGGTTAGCA -AAAGAGGTAATCATCAACATCGTTGCTGTCGCTTATTCCACACAAAAGGGGACAGTATAAAGCGTTACGCGCCGTACGCC -ACCTCTGCGGGAAACTGACGTTGCCAGGCTTCAAAGCCGCCGTCAATGCTATAGACCACATCGTAGCCCTGTTGCAGCAG -ATACTGCGCCGCGCCTTTGCTGCTATTGCCGTGATAACACATCACCATCACCGGAGTGTCAAAGTCGTTATCACGCATAA -AAGCGCCCAGCGTGTCGTTGGTTAAATGGAAAGCCTGCACCGCATGTCCCATTGCGAAACTCTGTGGATCGCGAATATCG -ACCAGCACCGCCTCTTTTTCCTGCAACTTCTGGTGCGCGTCGGCAACGTTAATACATTCGAACTGATCCATGCGTCTCTC -TTTCTTTACAAACAAGTGGGCAAATTTACCGCACAGTTTACGTCGAAGCGGCAGATAAACGCCATAATGTTATACATATC -ACTCTAAAATGTTTTTTCAATGTTACCTAAAGCGCGATTCTTTGCTAATATGTTCGATAACGAACATTTATGAGCTTTAA -CGAAAGTGAATGAGGGCAGCATGGAAACCAAAGATCTGATTGTGATAGGGGGCGGCATCAATGGTGCTGGTATCGCGGCA -GACGCCGCTGGACGCGGTTTATCCGTGCTGATGCTGGAGGCGCAGGATCTCGCTTGCGCGACCTCTTCCGCCAGTTCAAA -ACTCATTCACGGTGGCCTGCGCTACCTTGAGCACTATGAATTCCGCCTGGTCAGCGAGGCGCTGGCTGAACGTGAAGTGC -TGCTGAAAATGGCCCCGCATATCGCCTTCCCGATGCGTTTTCGCCTGCCACATCGTCCGCATCTGCGCCCGGCGTGGATG -ATTCGCATTGGTCTGTTTATGTACGATCATCTGGGTAAACGCACCAGCTTGCCGGGATCAACTGGTTTGCGTTTTGGCGC -AAATTCAGTGTTAAAACCGGAAATTAAGCGCGGATTCGAATATTCTGACTGTTGGGTAGACGACGCCCGTCTGGTACTCG -CCAACGCCCAGATGGTGGTGCGTAAAGGCGGCGAAGTGCTTACTCGGACTCGCGCCACCTCTGCTCGCCGCGAAAACGGC -CTGTGGATTGTGGAAGCGGAAGATATCGATACCGGCAAAAAATATAGCTGGCAAGCGCGCGGCTTGGTTAACGCCACCGG -CCCGTGGGTGAAACAGTTCTTCGACGACGGGATGCATCTGCCTTCGCCTTATGGCATTCGCCTGATCAAAGGCAGCCATA -TTGTGGTGCCGCGCGTGCATACCCAGAAGCAAGCCTACATTCTGCAAAACGAAGATAAACGTATTGTGTTCGTGATCCCG -TGGATGGACGAGTTTTCCATCATCGGCACTACCGATGTCGAGTACAAAGGCGATCCGAAAGCGGTGAAGATTGAAGAGAG -TGAAATCAATTACCTGCTGAATGTGTATAACACGCACTTTAAAAAGCAGTTAAGCCGTGACGATATCGTCTGGACCTACT -CCGGTGTGCGTCCGCTGTGTGATGATGAGTCCGACTCGCCGCAGGCTATTACCCGTGATTACACCCTTGATATTCATGAT -GAAAATGGCAAAGCACCGCTGCTGTCGGTATTCGGCGGTAAGCTGACCACCTACCGAAAACTGGCGGAACATGCGCTGGA -AAAACTAACGCCGTATTATCAGGGTATTGGCCCGGCATGGACGAAAGAGAGTGTGCTACCGGGTGGCGCCATTGAAGGCG -ACCGCGACGATTATGCCGCTCGCCTGCGCCGCCGCTATCCGTTCCTGACTGAATCGCTGGCGCGTCATTACGCTCGCACT -TACGGCAGCAACAGCGAGCTGCTGCTCGGCAATGCGGGAACGGTAAGCGATCTCGGGGAAGATTTCGGTCATGAGTTCTA -CGAAGCGGAGCTGAAATACCTGGTGGATCACGAATGGGTCCGCCGCGCCGACGACGCCCTGTGGCGTCGCACAAAACAAG -GCATGTGGCTAAATGCGGATCAACAATCTCGTGTGAGTCAGTGGCTGGTGGAGTATACGCAGCAGAGGTTATCGCTGGCG -TCGTAAATTAACGTAAGGTGATCAGGTCAGATTTCAATCTGGCCTGAGACTGATGACAAACACAAAACTGCCTGATGCGC -TACGCTTATCAGGCCTACGTGGTTTATGCAATATATTGAATTTGCATGGTCTTGTAGGCCAGATAAGACGTTCACGTCGC -ATCCGGCATGAACAAAGCGCACTTTGTCAAAAATCTAACCTACTTTTTAATTCAGGGAATTACCGCAAAGCCCACGCCAT -CATACCCAACGTAACAAAACTCAGGCACGTTCCCCACTCGCCCCGAGAAAAATAGCATTAATGCGCCCAGCGCCAGCATA -AAAATTTTGAGCAGAAGGTAAATTGTTGGCGTGATAAGGATATTACAAACTTCAATAATACCGGCAAGTCCGACACCCAG -CATGGCAATAACCACCGCCAAAAATTGCGCCAGTATGGGGATGCCGAAAAAAGTCATTACCAGCGAGGTCAAAATCCATT -TTCTGTTTTGCATTATTCTTTCCATTCTTTTTGAATGGTGAAATTATACTCCCCGAGTCCCCTTGCCCCTTCTGGACACT -TTTCCGAAATGATGGCGGAAAAAAACGGGACCCTTTGGCCCCGTTCTATTTATTGGTGAACTTACAATCTCACCGGATCG -ATATGCCAGATATGATCGGCGTACTCTTTGATAGTACGGTCAGAAGAGAAGTAGCCCATATTGGCAATGTTCAGCATCGC -TTTTGCGGTCCACTCTTCCTGAAGCTCGTAGAGTTCATCGACTTTATCCTGACAATCGACATAGCTGCGATAATCCGCCA -GTACCTGGTAGTGATCGCCGAAGTTGATCAGCGAATCAACCAGATCGCGATAGCGACCCGGATCTTCCGGACTGAATACA -CCGCTGCCGATTTGCGTCAGCACCTGATGCAGCTCCTCATCTTTCTCGTAGTATTCACGCGGTTTGTAGCCCTGACGACG -CAGTTCTTCCACTTCTTCCGCTGTGTTACCAAAAATAAAGATATTGTCAGCACCGACATGATCCAGCATCTCGACATTCG -CACCGTCCAACGTACCGATAGTCAGCGCACCGTTAAGCGCAAACTTCATGTTACTGGTGCCGGAAGCTTCCGTCCCTGCC -AGCGAAATCTGTTCAGACAGATCTGCCGCCGGAATGATCAACTGCGCCAGGCTAACGCTGTAGTTCGGGATGAACACGAC -TTTCAGCTTATCGCCAATCTGCGGATCGTTGTTGATCACTTTCGCTACGTCATTGATCAAATGAATAATGTGCTTCGCCA -TGTAATAGGCCGAAGCCGCCTTACCGCCAAAAATATTCACGCGCGGTACCCACTTCGCATCCGGGTCGGCCTTGATGCGG -TTATAGCGGGTAATCACATGCAACACATTCATCAATTGACGTTTGTATTCGTGAATACGTTTGATTTGTACATCGAACAA -CGCCTTTGGATTCACCACCACATTCAGCTGCTGGGCGATATACTCTGCCAGACGCTTTTTGTTCTCCAGCTTCGCCTGAT -GCACAGCGTGATTAACCATTGGGAAATCACAGTGTTGTTGCAGCTCATTAAGCAGGCTAAGGTCGGTGCGCCAGTTACGG -CCCAGGTGTTCGTCCAGCACGGCTGAAAGCGATGGGTTCGCTACCGCCAGCCAGCGACGCGGCGTCACACCGTTGGTGAC -GTTGGTGAAACGACCCGGGAAGATTTTCGCAAAGTCGGCAAACAACGATTGCACCATCAGATTAGAGTGCAGTTCCGATA -CACCGTTAACTTTGTGGCTCACAACAACCGCCAGCCAGGCCATACGCACACGACGACCGTTGGATTCATCAATGATCGAC -GCCCGTCCCAGCAGATCGGTATCGTTCGGATACTGTTCCTGCAAGGTTTTCAGGAAATAGTCGTTGATTTCAAAGATGAT -CTGCAGGTGACGCGGCAGAATTTTACCCAGCATATCAACCGGCCAGGTTTCCAGCGCCTCGCTCATCAGCGTGTGGTTAG -TGTAGGAGAAGACCTGACAACACACCTCAAACGCGTCGTCCCAGCTAAATTGGTGCTCATCGATCAGCAGACGCATCATC -TCAGGAATCGACAGTACCGGATGGGTATCATTGAGATGAATCGCGATTTTATCCGCCAGGTTATCGTAGGTTTTATGCAA -CTGATAATGGCGGCTTAAAATGTCCTGAATGGTCGAGGAAACCAGGAAGTATTCCTGACGCAGGCGCAGCTCACGCCCGG -AGTAGGTGGAGTCATCCGGATACAGTACGCGAGATACGTTCTCGGAGTGGTTTTTATCTTCCACTGCCGCGAAGTAGTCA -CCCTGGTTGAATTTACCGAGGTTAATTTCGCTACTGGCTTGCGCACTCCACAAACGCAGCGTGTTGGTCGCGTCGGTGTC -GTAACCAGGGATTATCTGATCGTAAGCGACTCCCAGAATCTCTTCGGTTTCAATCCAGCGCGTTTTTTTACCTTCCTGCT -GAATGCGACCGCCAAAACGGACTTTATAGCGCGTGTTGTGGCGTTTGAATTCCCACGGGTTACCGTATTCCAGCCAGTAG -TCTGGCGACTCTTTCTGGCTACCGTTAACGATGTTCTGCTTGAACATACCGTAGTCATAGCGGATGCCGTAACCGCGCCC -CGGCAACCCTAACGTCGCCAGAGAATCAAGGAAGCAAGCCGCCAGACGTCCCAGGCCACCGTTACCGAGGCCTGGGTCAT -TTTCTTCATCAATCAGCTCTTCGAGATTTAACCCCATCGCTTCCAGTGCGCCCTGTACATCTTCGTAAATTCCTAGCGAC -AACATGGCGTTGGAGAGCGTACGGCCAATCAAAAACTCCATCGACAGGTAGTAAACCTGACGAGTTTCTTGCGACAACTG -GGCACGGTTTGAACGTAACCAGCGCTCCACGAGACGATCGCGCACAGCAAATAACGTTGCGTTCAGCCATTCATGTTTAT -TGGCGACGACCGGGTCCTTTCCAATCGTAAACATCAGCTTGTAAGCGATAGAGTGCTTAAGAGCTTCTACGCTAAGCGTG -GGCGATGAATATGTAAACGGAGCATTCATATAGGCGTTTCCTGAAAACTATTTCAAGCGATAGTAAAGCTCACGGTACGA -CTTCGCCGCGACCTGCCAGCTAAAATCCATTGCCATAGCCTGACGTTGCACAAACCGCCACAGTGAAGGACGGGACCACA -GTACAAAAGCACGTCGAATAGCCCGTAACAGCGACCAGGCATTACTATCTTCAAAGACAAACCCACTGGCGACGCCATCT -GCAAGGTTCTCAAGAGAACAGTCAGAAACCGTATCAGCAAGCCCACCGGTGCGCCGCACTAACGGCAGCGTACCGTACTT -CAATCCATAAAGTTGCGTTAAGCCGCACGGTTCAAAACGGCTGGGCACCAGAATGACGTCCGCGCCGCCCATAATGCGAT -GCGAAAATGCTTCGTGATAGCCAATCTGAACGCCCACCTGACCGGGGTATTCCGCTGCCGCCGCAAGGAAACCTTCCTGC -AGCACCGGATCGCCCGCGCCGAGTAGCGCCAGCTGCCCGCCCTGCTCCAGAAGACCCGGTAAGGCTTCCAGCACCAGGTC -GAGACCTTTCTGGCTGGTCAGACGGCTCACCACTGCAAAAAGCGGCACTTTATCGTCAACCTTAAGCCCCATTGCGATTT -GTAACTGGCGCTTATTTTCCGCTTTATCTTCCAACGTATCGCGGGTGTAACGCGAGGCCAACAGTAAGTCCGTCTCTGGA -CTCCAGATTTTCTCGTCCACGCCGTTCAGTACGCCGGAAAGACGCCCTTCACGGTGACGCTGTTGCAACAGACCTTCCAT -ACCGTAGGCAAACTGCGGTTCGGTGATCTCGCGAGCGTAGGTTGGACTGACCGCCGTAATGTGATCGGCATAGTACAGAC -CGGCCTTCAGGAAAGAGATTTGTCCGTTGAATTCCAGCCCATGAATATTAAAGAATGACCATGGCAATTGGATGTCATTC -ATGTGATGTGCATAAAACATGCCTTGATAGGCCAGGTTGTGCACAGTAAACACCGACTTCGCCGGACGCCCGCGCGCCGC -CAGATACGCAGGCGCAAGGCCTGCATGCCAGTCGTGCGCATGCACCACATCAGGACGCCAGAATGGGTCAAGCCCGCTGG -CCATTTCTGCCCCAACCCACCCCAGCAGCGCAAAACGCAATACGTTGTCGGTATAGGCAAATAAGTTGGTATCGTGATAC -GGGCTTCCCGGACGATCATAGAGATGCGGCGCGTCAATCAGGTAAATGCCAACCCCGTTGTAATGACCGAACAACAGCGT -GATATGTCCGGCGAAGGTATCACGACGGGATACTACCTGCGCATCGGTCACGCCACGGCGAATATCGGGAAATGCAGGCA -ACAGTACGCGAGCGTCAACGCCGTCTGCGATTTGTGCTGCGGGTAATGCCCCAATAACATCAGCCAGACCGCCGGTTTTA -AGCAGCGGGAACATCTCTGAACATACATGTAAAACCTGCATTATCGCTCCTGTTTATGCCCTAACTTCCGTAGCATTTCG -CGCGTTACCAGCACGATGCCTTCTTCTGAACGATAGAAACGACGTGCATCTTCCTCTGCGTTTTCACCAATCACCATGCC -TTCCGGAATAACACAAGCACGATCGATGACGCAGCGGCGCAGACGGCACGAGCGACCTACCCATACTTCCGGTAACAATA -CGGCGGAATCAATGTTGCAGAATGAATTCACGCGAACGCGCGAGAACAGAACGGACTGCACCACCACCGAACCGGAGATC -ACACAACCGCCGGAAACCAGTGAGTTAAGGGTCATCCCGTGGCTACCGGAGCGATCCTGCACGAATTTCGCTGGCGGTAA -TGATTCATTGTAGGTGCGAATTGGCCAATTGCGATCGTACATATCCAGTTCCGGCACCACAGAGGCCAGATCGAGGTTCG -CTTTCCAGTAAGCTTCCAGCGTACCCACATCGCGCCAGTACGGCTCGGCATCCGGGTCGGATTGTACGCAAGAGAGCGGG -AACGGGTGCGCATAGGCCAGACCGGCTTCGGTGATCTTGGGAATCAAATCTTTGCCAAAGTCGTGGCTGGAGTTCTCATC -GCGATCGTCTTCTTCCAGCAGTTCATACAGATAGTCGGCGTCAAAGACGTAGATACCCATACTCGCCAGAGATTTGCTCG -GATCGTTCGGCATTGACGGCGGGTTAGCAGGTTTTTCAACGAATTCGATAATTTTATCGTTCTCATCAACCGCCATAACG -CCAAATGCGGAGGCTTCTTCAATCGGTACTGGCATACAAGCAACGGTGCAACGTGCGCCTTTTTCGACGTGATCGATAAG -CATACGCGAGTAGTCTTGCTTGTAGATATGGTCGCCCGCCAGGATCACCACGTATTCCGCTTTATAACGGCGGATAATGT -CGAGGTTTTGGGTGACCGCATCTGCGGTGCCGCGATACCAGTTTTCCCCTTTCATTCTCTGCTGTGCTGGCAGCAGATCG -ACAAACTCGTTCATTTCTTCATTGAAGAATGACCAGCCGCGCTGAATGTGCTGCACCAGAGTGTGGGACTGGTACTGGGT -GATCACGCCCATACGACGGATCCCGGAGTTGATGCAGTTAGACAGCGCAAAGTCGATAATGCGGAACTTACCGCCGAAGT -GTACGGCCGGTTTTGCTCGCTTATTGGTTAAATCCTTCAGGCGGGTACCACGTCCTCCCGCCAGTATCAGGGCAACAGAT -TTCAATGGCAGCTGGCGCGCCAACATTAAGTGATCGTTCTTCTCTAAACTAACCATGACTAACTCCTTTTTTATCATCTC -TGGAACACACACAATCCGTGTGCAGGTCCCTGCCAGACAGCCGTAATCACTGGGTTATCCTCTCCAGCGAATGGGGGAAT -GGCGTGCCACTCCCCAGCAGGTAAAACAATCTCTGTTACCTCAAGCGTGGCGTTAATTGCGATCAAAAAGCGATCCGAGA -GCAGAATTTGCAGCTGTTTCGGCCCGTTTTGCCACTCATCCGTGCTTAAAGGTTGAGCATATCGATTTAGCCAACGGACA -TTGCCGTCGCCTTCTTCCCACCAGCGATTCTCCACCAAAGCGGGAATGCGCTTGCGCAGATGGATTAACGCGGCGGTAAA -TGCGGTTAAACCACTGCTTGCCTGCGACCAGTCCAACCAGGTTAATTGGTTATCCTGACAGTAGGCATTGTTATTGCCAT -GCTGGCTGTGACCATGTTCGTCACCGGCCAGTAACATCGGCGTACCCTGGGAGAGCAACAACGTTGTTAACAGGGCGTGA -ATGCTGTCGCGCCGCCGTTCAACCAGGTCAAGAGAACCGCCTAACCCTTCTTTACCATGATTGTTACTGTAATTGTTGTT -GGTCCCGTCGCGATTTTCTTCTCCGTTTGCTTCATTGTGTTTATGGTTGAAGCAAACGCAGTCGCGAAGCGTAAAACCGT -CATGCGCGGTGACGAGATTAATCGCGGCACTCGGCAGACGACCATTACGTTTAAAAACATCGCTGGAGGCAGCAAAACGC -CCGGCAAACGCCCCCAGAGGCAAATCATAATGTAGCCAGAAACGACGGGCAGCATCGCGGAAATGATCGTTCCACTCGGC -AAACAGCGGCGGGAAATTTCCCACCTGATAACCACCAGGAGCGATATCCCACGGTTCAGCAATTAACTTCACCTGCGAGA -GCACCGGGCAGTTCTGGATAGCGGTAAACAACGGCGCATCCTGACGGAACTCTGGCGTACGGCCCATGACTGCCGCCAGA -TCAAAGCGGAAACCATCGACGTGGCAGGTTTCTACCCAATAACGCAGGCAGGCGCTGGCATAATCCACCACCGCCGGATG -ACTCAAATTGAGCGTGTTGCCGCAACCGGTCCAGTTGTGATAATCGCCGTCTTCTCTTATCCAATAATAGCTACGGTTAT -CGATCCCACGCAGCGAGAATAACGGGCCGTCGAGGTCCAGTTCCGCACTATGGTTGAGCACGATATCAAGAATGACTTCG -ATACCCGCTTTATGCAGTGCTTTGATTGCATCGCGAAACTCATCCAGCGCCGTTTCTGGCGAGCAGGCATACGCCGGATG -CAGCGCAAACATCGCCACCGGGTTGTAACCCCAGTAGTTACTTAGCCCCATGCGTTGCAGACGTGGTTCACTGGCAAACT -GCGCCACTGGCAGCAGTTCCAGCGCGGTAATGCCCAATTGTTTCAAATAGTTGATCATCACCGGATGCCCGAGGGCTTTA -TAAGTGCCACGGATCTCGACCGGGATCTCCGGGTGCAAGTACGTTAATCCTTTGACATGGGCTTCATAAATGATGGTGCT -GCCCCACGGCGTGCGCGGCGGGGCATCATCTTCCCAGTCATAGTGATCAACCACCACTACGCATTTCGGCGCAATGGCGG -CGTTGTCGCGATAGTCAGGTTCATTATGACCGGCGTGCAGCAGCGGGTTATCTTTAAACTCCCCGTCAATTTGCCGCGCG -CAAGGATCAATCAACAACTTCGCCGGGTTAAAGCGATGCCCCTCGGCGGGTTGCCAGGGGCCATGAACGCGATAACCATA -ACGCAAACCCGGGCGCGCATCCGGCAGATAACCGTGCCAAATGTCGCCACTGTGCCCTGGCAAGTCATAGCGATGTTCCT -GGCCATTGGCGTCAAAGACACACAGTTCTACCCGCTCGGCATGAGCGGAGAAAAGTGTGAAGTTGACGCCCTGACCGTCG -TAATGCGCGCCGAGGGGAGCGGGTTTGCCAATGGCGAGTTGTGTCATTCTGCCTCCCGAACCAGCCAGATAGTGGCCAGC -GGTGGTAGCGTCAGGCTTAGTGAATGCTGACGACCGTGGCTGGCAATCTCATCGCTGTGTACCGTGCCGCCATTGCCTGC -ATTACTGCCGTGATAGTGCATGGAATCGGTATTGAGGATTTCACGCCATTTGCCCGGCTGGTTTATGCCGAAGCGATAAT -CATGACGCGGTACCGGCGTAAAGTTACTGGCAACGATGATTTCGTTACCCTCTTTATCGCGACGCACAAAGATCAGCACC -GAGCGTTCTTTGTCATCCACCACCAGCCATTCAAAGCCGTACGGGTCAAAATCCAGTTCATGCATTGCTTTATGGTGGCG -GTAGGTGAGGTTCAGATCGCGCACCAGACGCTGGACACCGTGGTGCCAGTTATCGCCGCCTTCCAACAGATGCCAGTCGA -GGCTGGCGTCATGGTTCCACTCGCGGCCCTGGGCAAATTCGTTACCCATGAACAGTAGTTTCTTGCCCGGGAATGCCCAC -ATCCAGCCATAGTAGGCGCGCAGGTTCGCGAATTTCTGCCATGCGTCGCCCGGCATGCGGTCGAGAATCGATTTTTTACC -GTGGACCACTTCATCATGCGACAACGGCAGGACGAAGTTTTCAGTGTAGTTGTAGAGAATCCCGAAGGTCAGTTTATCGT -GATGATACTGACGATAAACCGGGTCGAGCTTCATGTAGTCCAGGGTGTCATGCATCCAGCCGAGGTTCCACTTGTACCAG -AAGCCCAGACCGCCCATATCCTGCGGACGAGAAACGCCAGGGAAATCGGTAGACTCCTCAGCCATTGTCACCGCACCGGA -AACCTGCTCACCAAGAATACGGTTGGTATTACGCAAGAATTCAATCGCTTCAAGATTCTCGCGCCCGCCAAATTCGTTCG -GGATCCACTCCCCCTCTTTACGGCTGTAGTCGCGATAAATCATTGACGCCACCGCATCGACGCGCAGCGCATCAATACCA -AAACGTTCAATCCAGTAAAGCGCGTTACCGACGAGGAAGTTACTGACTTCACGGCGACCATAGTTGTAGATCAGCGTGTT -CCAGTCCTGATGATAGCCTTCACGCGGATCGCTGTGTTCATACAAGTTCGTGCCATCAAATTCGGCAAGCGCAAAGTCAT -CAGTCGGGAAGTGGCCTGGCACCCAGTCGAGAATCACGTTCAGACCAGCTGCGTGTGCGGCATCAATGAAATAACGGAAG -TCGTCGCGAGTACCAAAACGGCGGGTTGGCGCATACAGGCCGGTTGGCTGATAACCCCAACTGCCATCGAAGGGATGCTC -GTTAATGGGCAGTAGTTCGAGGTGGGTAAAGCCCATCCATTTAGCATAAGGCACCAGTTGATCGGCCAGCTCGCGGTAGC -TCAACCAGAAATTGTTGTCGGTGTGGCGACGCCAGGAACCCAGGTGAACTTCATAAATAGAGATTGGCGCATCAAACTGA -TTCGCTTTTTTGCGCTCTTCAGTCTGTACAACCTTTTCCGGCAGCCCGCAAATAAGAGACGCGGTTTCCGGGCGCATTTG -CGCTTCAAAGGCATAAGGGTCGGACTTCAGACGCAAGTTGCCATTGGCATCAATCATCTCGTATTTATAGAGCTGACCGT -TATGCGCCCCAGGGATAAACAGTTCCCAGATGCCGCTCTCTTTACGCAGGCGCATCGGGTGACGGCGACCGTCCCAGTAG -TTGAATTGCCCAACCACCGAGACCCGACGGGCGTTTGGAGCCCAGACAGAGAAACGCGTACCTGTGACGCCATCCATAGT -ATCTGCATGCGCGCCTAAGGTTTCATACGGGCGCAGGTGAGTACCTTCAGATAATAGCCAGGCATCCATTTCCTGGATTA -GCGGACCAAAACGGTAAGGATCATCAATCAGGTTTTGCTGACCATGCCAGACAACAGCCAACTGATAGCGGAAAAAATTC -TTACGTCGCGGAATGACGCCGCTAAAGAATCCCCGTGAGTCGAGACACTCCAGTTTTGCGAGTTTGCGCCCGGTTTTCGG -TTCAATCACCCACACATCGGTAGCGTCGGGTAAAAGGGCACGGACTTCCAGTCCCGCGGTGGTTTTATGCATTCCCAGTA -CGGAAAAAGGATCCGCAAAATGGCCTGCAATTAGCGCGTTAATCACGTCTCTATCGATACGATCGGACATGCTTGTCTTC -CTGTTTTATTGTGTCACCCCATCCAATTGGATTTTTGACTTCTGGTTGTGACATTTTTTTGACCTGAACGGCGCAGCACT -CTGTGCATCCTCTCTGCGTCGTCCTCACTTCAGGTAAGGCTGTGAATACTCATGTATTCAGCCACCCTTAAAGAATAGCC -AATGCTCTATTTAACTCCCGGTAAATCATGAAACATCTGCGCTTACTCCTGTATTACGCACTAACAGGGGCGGCATCGCG -CCCCAGATTTAATGAATAAAGATTACGCCAGTTGACGAAGCATCCGACGCAGCGGCTCCGCGGCCCCCCACAGCAGCTGG -TCGCCCACGGTAAAGGCTGACAGGAACTCTGGTCCCATATTCAGCTTACGCAGGCGGCCTACCGGCGTGGTCAGCGTGCC -GGTAACGGCAGCTGGGGTTAGCTCACGCATAGTGATTTCCCGATCGTTCGGAACGACTTTCGCCCACGGATTGTGCGCAG -CCAGCAGTTCTTCCACGGTCGGAATAGACACATCTTTTTTCAATTTAATAGTGAATGCCTGGCTGTGGCAGCGCAATGCC -CCGACACGCACACATAAACCATCTACCGGAATTACGGAAGATGTGTTGAGGATCTTGTTGGTTTCCGCCTGCCCTTTCCA -CTCTTCGCGGCTCTGACCGTTATCGAGCTGTTTGTCGATCCACGGAATCAGGCTACCCGCCAGCGGCACGCCAAAGTTAT -CCACCGGCAGCTCACCGCTACGGGTTAAGGTTGTGACTTTGCGTTCGATATCGAGAATAGCAGAGGACGGGGTCGCGAGT -TCATCTGCCACATGGCCATACAGATGGCCCATCTGGGTTAATAACTCACGCATATGTCGCGCACCACCGCCGGAAGCGGC -CTGGTAGGTTGCAACGGACACCCAATCAACAAGATCATTGGCGAATAAACCACCCAACGACATCAACATCAGGCTTACGG -TACAGTTACCGCCAACAAAAGTCCTGATGCCATTATTTAATCCGTCGGTAATGACGTCCTGATTGACGGGGTCAAGAATG -ATGATGGCGTCATCTTTCATGCGCAGAGACGATGCTGCGTCAATCCAGTAACCTTGCCATCCGCTTTCACGAAGCTTTGG -ATAGATTTCGTTGGTATAATCGCCGCCCTGACAGGTCACAATGATATCGAGGGCCTTTAGCGCCTCCAGATCAAAGGCAT -CCTGAAGTGTGCCAGTGGTTCCGCCAAAAGACGGCGCAGCCTGGCCAAGCTGAGAAGTAGAAAAGAAGACAGGGCGAATG -GCGTCGAAGTCGCGCTCTTCAACCATGCGTTGCATGAGAACGGAGCCGACCATACCGCGCCAGCCGATAAAACCAACATT -TTTCATAAGCGTTTTTTTCCTGCAAAGATGTGTGCTGTATAAATGTGCCGGTCTCCTCTTGGCACATCTTTCACCATACA -AAAAGCAGCCAAAGTCGCAAGTGAAATTAATCAATGATAGCGAAGCCATCAGTAATGCGACTTATCCTGCTTTGTTAGCA -CGCAGAAAGTCCGCGGCAATTATCAGGGAATTTGAGTTATGAATGAAATCATTTCTGCAGCAGTTTTATTGATCCTGATT -ATGGATCCGCTCGGAAACCTACCTATTTTCATGTCCGTACTGAAACATACTGAACCGAAAAGACGGCGGGCAATCATGGT -GCGAGAGTTGCTTATTGCTCTCCTGGTGATGCTGGTGTTCCTGTTTGCGGGTGAGAAAATTCTGGCATTTCTTAGCCTAC -GAGCAGAAACCGTCTCCATTTCTGGCGGCATCATTCTGTTTCTGATCGCCATTAAAATGATTTTCCCCAGCGCTTCAGGA -AATAGCAGCGGGCTTCCGGCAGGTGAAGAGCCATTTATCGTGCCGTTGGCAATTCCGTTAGTCGCCGGGCCGACTATTCT -CGCCACGCTGATGTTGTTGTCTCATCAGTACCCGAATCAGATGGGGCATCTGGTGATTGCTCTGCTGCTGGCCTGGGGCG -GCACCTTTGTCATCCTGCTACAGTCTTCGCTATTTTTACGTCTGCTGGGCGAGAAAGGGGTGAACGCACTTGAACGCCTG -ATGGGATTGATTCTGGTGATGATGGCAACCCAGATGTTCCTCGACGGCATTCGAATGTGGATGAAGGGGTAACGAGGAGA -GTTTTTCGAAAAGAACCCGGTAGCGTCACAACTACCGGGCGAACAAACTTAACTCAACAGCTGGAACGCAATCATCCCAA -CGATGGCACCGACAGTGCCGAGGATGGTTTCCATCATGGTCCAGGTTTTCAGCGTTTCGGCTTCGGTCGCGCCGGTAAAT -TTACCGAACAACCAGAAACCGGCGTCGTTAACGTGGCTGACAACAATCGAACCACCAGCGATACAAATCGACAGCGCCGC -CATTTGCGCACCGGAGTAGTTCAGTTGTTCAATAACCGGCATCACCAGTCCTACCGCCGTTAAACAGGCTACGGTGGCAG -AACCCTGAATGATGCGCACTGCAGCTGCCAGCACGAAGCAGGTGATAGCAATCGGCAGGCCCATGCCGGTTAACGCTTCG -CCCAGTGCCGGACCTACGCCAGAGTCAACCAGCACCTGTTTGAACACGCCGCCCGCACCAATCACCAGCAGAATGATCCC -CGCCGGTTGCAGCGCGTGACCGCAAATCTCCATCACTTTGTCTTTTGGCATGCCCTGACGCATTGCCAGACCGTAAATCG -CCACCAGACAAGCAACCAGAATCGCGGTAAACGGATGACCGATAAACTCAAACCATTCGTAAGCAGTTGATCCTTCCGGC -ACAAAACGCGCGGCAATGGTTTTCAGCCCTACCAGCACCAGCGGCAGCAGGATCAGCGACAGGCTGAATCCGAAAGATGG -CATTTTGCCTTCGCCGAGATGCGGTTCGCTGATGTCGTCAGGAATATGCAGCTCAACGTAACGGCTGATGAAGTTACCCC -ACAGCGGCCCGGCAATAATCATTCCCGGAATTGCCGCACACAGGCCAATCAGGATCATCCAGCCAAAGTCGGCATTCATC -TGCGATGCCAGCAGCATCGGCGCTGGTCCAGGCACCAGAAATGCCGCCGCTGCCGCCACGCCTGCAAATAATGGGATTAC -CAGCTTCACCAGGTTCGTACCGGTGTGGCGCGCCATTGAGAAAGCAACGCTAATCAGCAGAACTATCGCCACTTCAAAGA -ACAGCGGTAGCGCACAGACCAGCCCCGCAAGGCCGATGGCATAATGCGCGCGGCTGTGACCGAAGGATTTGAGCATTTTG -ACGGCAATCTGATCGACTGCGCCGGTTTCATGTAAGATCTTGCCAAACATAGCTCCCAGGGCGACAACCACCGCCAGGAA -GCCGAGGGTGCCTCCCATCCCTTTTTCCATCGTCGCTGCGATTTTATCGAGCGGCATACCAGAAAAAAGGCCAGCCCCCA -TGGACACCACCATTAAAGCCAGGAAAGCGTGCATACGCGCCTTCATGACTAAAAACAGCAGCAGTAAAACAGACCCTACT -GCTGTTAAAACAAGCGTTAATGTAGTCACTACTTATTTGCCTTTTTTAATAACCTCAATGGTGCTTGCCACAACACCTTC -CAGCGGTTGATCGATATCCACCACCAGTACATCGGTTTCGTCCGCACCCGGCTCCTGCAGCGTTTCAAACTGCGTCACCA -ACATTTGGGTTTTAAAGAAATGGCCTTTGCGCGCTTTCAGGCGGCTTTCAATCACATCAAAATCGCCTTTCAAATAGATG -AAAGAGAGATTCGGATTACCTTCACGCAGCAAGTCGCGATAGTGTTTTTTCAATGCAGAACAGACGATCAGCGACACTTT -ATTAGTGCGCTGCATAGCAAACGCGGCGTCGTTCAGCGCCTGCAACCACGGTTTGCGATCGTCGTCATTCAGTGGTTCGC -CAGACGCCATTTTTTCGATATTGCGCCGTGGATGGAGGAAATCGCCATCAAGAAACGCGGCATGAAGTTGATGCGCCACT -TCACTGGCGACCGCAGATTTGCCGCTGCCCGATACGCCCATCAAGACGTAAATGTGGTGATCATGGTTAGTCGTGCTCAA -AGTGGTGCCCCCACAATACAAGAATTAAAAATGTTACGGGTAACTGTTATCGGTAACATTGTCCAGCCGGACAATATCAG -AAGCAATATCCATCCATGCCTTAAGTGTATAAGTGTGAGCTACTTCAAATTTGTGGGCTTAAATAGATCCGCCCGGTGAC -AAGGTGAAACCTAAATCTAACATTTTCGGTGTCACAGATTCGCCACGAATACGCGCCAGCAGGCGTTCAGCGCCAATACT -GCCCATCCGCTCACGCGGCGTCAGCACGCTCGCAAGTCGTGGCTCCATCACCTGACCAATGTCATGACCGTGGAAACCGG -CAATCGCCATATCGTCAGGAACTTTTAACCCCAGACGCTGACATTCAAACGCCGCGCCGACCGCCAGGTCATCATTCGTA -CAGAACACGCCATCCAGCTGCGGATATTCCCGCCGCGCCTGGCGAATCAGTTCAATACCGGAAGAGTAAGAAGAAGATTG -CTCAACCATCACGCTATATGGCACCAGGCCTGCATCCAGCATCGCCTGTTCGTATCCCTTCTGTTTGATGATAGTACGTT -CGTCGAGACGTGCGCCGAGATAGGCAATGTGGCGATGCCCGCGAGCAATAATGGCAGTGGTCATCTGGCGTGCTGCTTCA -AAGTTATCAAAACCGACGGCGATATCAAGGCATGGCGACTTGCTGTCCATCAGTTCCACCACGGGAATACCCGCCACTTC -AATCATCTTTAAGGTGCGCGGCGTGTGGGTACGTTCGGTGAGGATCAGGCCGTCGATATTCCAGGAGAGCATGGATTCGA -GGCGTTCTTGCTCCATTTCCGGTTTATAACCGTAGTGCGCCAGCATGGTCTGATAACCGTGCGCGTCGGTGACGCTTTCG -ATTCCGCGTAATACTTCCGCGAAAACCTGGTTGGTGAGAGAAGGTAACAGGACGCCAATCGCCCGGCTGGTGGCGTTAGA -GAGGATATCGGGCGCACGATTGGGAATATAGCCCAGTTCATCAAGAGCCGCGGCAATCTTGCCGCGTAGAGCGACGGAAA -CCTGCTCCGGGTTGCGTAAAAAACGGCTGACCGTCATTTTGGTCACGCCTACACGGTCAGCCACATCCTGAAGTACGGGT -CTTTTCTTTTTCATCGTCCTGAAGGTACAAAAGAGATAGATTCTCTTAGTTTAACACGGACACATCAGAACCTTCCCGGG -GAAAACAGTGCTTGTTTACAATTATTAGATATACACTAAATCAATTGCATCGCATTGTGCTAACGACGCGGCAAAACCCC -GGAAGCGTACATCAGCACGCGACCGGAGCGAGCGAGGAAGCCTGCAAAAAGGCAGGCTTCAAAGATGCCGTTGAGTTTTA -AACCGGCGGCAGATCGAACAGTAACACTTCGCTGTCGCTATCCGCATGGATGGAGATTGCCTGCTCATCCCAGATTGCCA -GACCATCGCTGGTCGAGGCTTTCACGCCGTTAATGGTGACATTGCCTTTCACCACCTGGATCCAGACGCGGCGTTCAGCG -GCAATCTGATGCACCGACTGCTCATCTTTCAGCAACGCCCAGCGGTACAGTTCCATATCCTGATGCACTTTCAATGAACC -ATCTCGCGCATCCGGCGAGAGCACCAGCTGTTTGCCCTGTACGGCATCGAAGCGACGCTGTTCATAACGCGGCGTAATAC -CGTTTTCTTCAGGCATGATCCAGATCTGATACAGATGCAGACGCTCGGTGCTGCTTGGGTTGTACTCTGAGTGACGAATA -CCCGTACCAGCACTCATAATCTGGAACTCACCCGCCGGAACCTGCTCTTTATTGCCCATGCTGTCCTGATGCTCAACAGT -ACCTTCCAGCACGTAGGTCAAAATTTCCATATCTTTATGCGGGTGAGTGCCGAAGCCCTGCCCTGCTTCAATCACGTCGT -CGTTAATCACGCGCAGCGCGGAGAAGCCCATAAAGTTCGGATCGTAATAGTTGGCAAAAGAGAAAGTATGCCAGGAGTCC -AGCCAGCCATGATTTGCATGACCACGTTCATTTGCTTTGCGTAAGTAGATCATTTGTATTCGCCCCCTGAATGATTTCGA -TGGGCTTAGTGTGGACCCGATCTGCCTGGGATGATAGAGGGTGAAAATTGACCCCTCTGTTCAAAAAAATTGAACTATTC -GAGGGGCCATCAAACTTACTTAGCGAGAGTTACTGTGGAGGGAGAGGCTTGCTCAAATCCGCGTTCAAGGATTTCCAGAT -TGGTAAGAACTTCAGATTCCTTGACGTAATTTGGCGCACCGTGGGTGATGGTTTGATACAACGCATCATAAACGCGCCCG -TAATCGCCCATCTCCGGCTTCATCTCTTCTCTGACCGTCACGCCCTCGTCATTGACATACTCCAGCACACCGACCGAATC -ATCCGCTGCGAATCCCGGTTCGCCCGGCATAATATTAGCCTTCAGGCTGGTTTCCTGCTGGTCGATACCGTATTTAATAA -ACGAACCTTTCTTACCGTGAACGATAAATTTCGGATAATCGATTTTCACCAGATGGCTGGTTTTGACGATGGCTTTCAGG -TCGCCATAAAACAGTTGCGCTTCAAAGGTGTCGTCAGGATTGGCTTTATTACGCAGGCTGCGGATGTCATAAGCGACGTG -ATCCGGGCGACCGAACAGAGAAATAATCTGGTCCATCGTATGCACACCAAGGCCATAAAACGCGCCATCCTGCGGCAGCC -CAGGTTTGGTTTCTGCCACCGGGCGGTAATAGTCAAAATGGCTTTCCACTTCAACAATCTCTCCCAACTTGCCACTTTCA -ATCGCTTTTTTCGCTGTCAGGAAGCAGGAGTCAAAGCGACGATTCTGATACGGCGTGACGGTCAGCCCTTTGCTTTTCGC -CAACGCAAACAGCTCTTTCGCCTGCGCAAGTGTCGGAGTGAACGGTTTTTCGACCAGCACATTTTTCCCGGCTTCCAGCG -CGCGTTTCGCGTACTCGAAATGGCTGTCCGCGTGGGTGCAGACAACAACCAGCTTAACATCGGGATCGTTTAGTACTTCG -TCGAGATCGCTGGTGAAATGGATATGGGAATAAATGGGAGCCTGTTCTTCCGGCTTCGCATGGCGACGAAAAATATGCGC -GACATGCCAGCTATCCTTGCGGTTAAGTACATACGGCAGATGGTAACGGGTGGTGCTTTTGCCGAAGCCAATAAAGGCGC -AGTTGATGACCATGATTTCGTCCTTTTTAAGGTGGTTATTTACACCTTAGCGCAAAGCGGACGTGGTTCCTACTGGAGTG -CGCATAACGAACACAAGCACTCCCGTGGATAAATTGAGAACGAAAGATCAAAAAAAAAGCCAGCACCCGGCTGGCTAAGT -AATACTGGAAGCAATGTGAGCAATGTCGTGCTTTCAGGTTCTCCGCGAGGGTCTTCCTGATCGCGAGACAATAATAATCA -TTCTCATTCGCACTTGTCCAACACTTTTTGCAAAAAAATGCATTTGACTCGCATTTGAAAGTCAATGATGTTGAAAGGGA -CATTTACCCCAAAGAGGACAAAGGAATGAGTGAGATAGTAATACGCCACGCAGAAACACGGGATTACGAGGCCATCAGGC -AGATTCACGCCCAGCCGGAGGTGTATTGCAACACACTACAGGTGCCTCATCCTTCCGATCATATGTGGCAGGAGCGACTC -GCCGATCGTCCCGGCATCAAGCAACTCGTCGCCTGTATTGATGGAGACGTCGTGGGCCATCTCACCATTGACGTGCAACA -GCGCCCACGCCGCAGTCATGTTGCCGATTTTGGTATCTGTGTCGACTCTCGTTGGAAGAACCGCGGCGTCGCCAGCGCCC -TGATGCGAGAGATGATTGAAATGTGCGACAACTGGTTGCGGGTAGATCGCATTGAACTAACCGTGTTTGTCGATAACGCC -CCGGCAATTAAGGTCTATAAAAAATACGGCTTTGAAATTGAAGGGACTGGTAAGAAGTACGCATTGCGTAATGGTGAATA -TGTCGATGCATATTATATGGCGCGGGTGAAGTAAGATAGTGCCCTTTTTCTGAGATGGAAAAAGGGTGTCATTCAAAATC -GACATACCTTCCTTTAAGGTATTTATTTGCCCAATACATATATTGAGATTTAACTCATAATTACTTCCTAAAGTGTAATA -TTTTATTTTTTAATATATACGCCTACAATTTCCTGGAGTAAATAAATAACAATTAACAAGCATAATATTGCCATTGATAA -AATAGCATGCCATAAAAGGACTTTTCAGGGATGAGTAATATTGTTTACCTGACAGTAACGGGAGAACAACAAGGAAGCAT -CTCCGCAGGTTGTGGGACTTCTGAGTCTACAGGTAATCGTTGGCAGAGCGGGCATGAGGATGAAATATTTACATTCTCAC -TCTTAAATAATATTAATAATACGGGGCTTGGTTCACAGTTCCATGGTATAACATTTTGTAAATTAATTGATAAAAGCACT -CCATTATTTATTAATTCCATTAACAATAATGAACAATTATTTATGGGATTTGACTTCTATCGAATAAATAGATTTGGTAG -ATTGGAAAAGTATTATTATATACAACTAAGAGGCGCTTTTTTATCGGCTATTCATCACCAGATCATTGAAAACCAACTGG -ATACAGAAACAATAACTATTAGTTATGAATTTATCCTCTGTCAACATCTTATCGCAAATACCGAGTTCAGCTATTTGGCA -CTCCCTGAAAATTATAACCGTTTGTTTTTACCAAATTCAAAAAACCAAACAAATAATCGTTTCAAAACGTTAAACAGCAA -AGCTATTGGCAGGCTACTTGCTGCTGGTGGCGTATACAATGGGAACATTGAAGGATTCAGAGATACTGCGGAAAAACTGG -GTGGAGATGCAATAAAAGGCTATGATCAAATACTAAATGAAAAAACAGCGGGCATAGCGATAGCAACAGCATCTATTCTT -TTAACAAAGCGTTCTAATGTTGATACATATACAGAAATAAATAGTTACTTAGGCAAACTTAGAGGTCAACAAAAACTTCT -TGATGGTATAGACATAATAGAAATAATATACATTAAGAGACCTTCAAAAGACTTAGCTAACTTACGAAAGGAGTTTAATA -AAACTGTAAGAAAAAATTTTCTTATCAAACTTGCAAAAACCTCCGAAGCATCTGGAAGATTCAACGCCGAAGACCTTTTA -AGAATGAGAAAGGGCAATGTTCCTCTAAATTATAATGTTCACCATAAACTATCTCTAGATGATGGTGGTACTAATGATTT -CGAAAATTTAGTATTAATCGAAAACGAACCATATCATAAAGTTTTTACTAACATGCAATCACGAATAGCTAAGGGAATAT -TAGTAGGTGAAAGCAAAATCACTCCCTGGGCCATTCCATCTGGCTCAATTTATCCTCCCATGAAAAATATTATGGACCAC -ACAAAATGATGACTAAAACCCAAATAAATAAATTAATAAAAATGATGAATGATTTAGACTATCCATTTGAAGCACCGCTC -AAGGAATCATTTATTGAAAGTATAATCCAAATAGAATTTAATTCTAATTCAACTAATTGCCTGGAGAAGTTATGTAATGA -AGTTAGTATTCTTTTTAAGAATCAACCTGATTATCTTACTTTTTTAAGAGCAATGGATGGATTCGAAGTTAATGGATTAC -GATTATTTAGCCTCTCGATTCCAGAACCTTCAGTTAAAAACCTTTTTGCCGTAAATGAATTTTATAGAAATAATGATGAT -TTCATAAACCCTGATCTACAAGAACGGTTAGTGATCGGGGATTATAGCATTTCAATATTTACTTATGACATTAAAGGTGA -TGCTGCCAACTTACTGATTTAGTGTATGATGGTGTTTTTGAGGTGCTCCAGTGGCTTCTGTTTCTATCAGCTGTCCCTCC -TGTTCAGCTACTGACGGGGTGGTGCGTAACGGCAAAAGCACCGCCGGACATCAGCGCTATCTCTGCTCTCACTGCCGTAA -AACATGGCAACTGCAGTTCACTTACACCGCTTCTCAACCCGGTACGCACCAGAAAATCATTGATATGGCCATGAATGGCG -TTGGATGCCGGGCAACAGCCCGCATTATGGGCGTTGGCCTCAACACGATTTTACGTCACTTAAAAAACTCAGGCCGCAGT -CGGTAACCTCGCGCATACAGCCGGGCAGTGACGTCATCGTCTGCGCGGAAATGGACGAACAGTGGGGCTATGTCGGGGCT -AAATCGCGCCAGCGCTGGCTGTTTTACGCGTATGACAGTCTCCGGAAGACGGTTGTTGCGCACGTATTCGGTGAACGCAC -TATGGCGACGCTGGGGCGTCTTATGAGCCTGCTGTCACCCTTTGACGTGGTGATATGGATGACGGATGGCTGGCCGCTGT -ATGAATCCCGCCTGAAGGGAAAGCTGCACGTAATCAGCAAGCGATATACGCAGCGAATTGAGCGGCATAACCTGAATCTG -AGGCAGCACCTGGCACGGCTGGGACGGAAGTCGCTGTCGTTCTCAAAATCGGTGGAGCTGCATGACAAAGTCATCGGGCA -TTATCTGAACATAAAACACTATCAATAAGTTGGAGTCATTACCGACATTAAAAGTAACTTTTTTGAAATTAGAGATAATA -TTGGCACAGAAAATATATTCAGTTCGTTTAGTGATTTCTCTTCATTCTTAAACGAAATCATGGACAGTTGTTCATAATAA -TCAAAAGGAAACAAAAATCATTGTAAACCATGCCATCTTTTTAGAGATTACCAGCAGAAAATTCCTTGTTCGAAATTTAG -CAGTGCAAGCTATGGAAAAACTTACAACGGAACTACACTCCTTAAGTGAGATGGACCGAAGACATGTAGTCTCTATTTTA -GCCGAAATAGCTAATGGCTATGATGATTTTAATGACATGTTGATTTATTTAGAATTTTACCCGAATCATAAGATTCTGAT -ATCTTAAATAAGAAAATCCCGTTCGACGTTCTGAAAAAGAAATCATAAAATATTAGCAGATACTTATTTCGTGACTATAT -CTTATCCGATGAACTTTTTTCAAAACCAGCATTTAATAATATCTTTGACGAAGATGAACGCGTCTTTGCTCAATGTATCA -CACAGGAATAATAATATAACACTCAACAATAATATTTATTATAATTATGATTACTTATCACGACGCATTCGCGAAAGCGA -ACCATTACCTTGATGATGCAGATCTCCCGGTCGTCATTACTCTACATGGACGCTTTAGCCAGGGCTGGTATTTCTGTTTC -GAAGCACGAGAATTTCTCGAAACTGGAGATGAGGCCGCGCGCTTAGCTGGTAACGCACCTTTTATTATTGATAAAGACAG -TGGTGAAATTCATTCTCTGGGAACGGCAAAACCGCTGGAAGAATATCTACAGGATTACGAAATAAAAAAGGCTACCTTCG -GCTTGCCCTGACAAAATAGCCCTCTTCCCACGAAGAGGGCCGCTAACCTTAGTACCCCGCCGTTAAATCATCCACCGAGC -GCGGGTCGGATGCGCCGTACAACTCACCGTCCGGCCCAACCATAATGCTTTGTGTACTGCCCATCGCCTCTTTCAGCGCC -ACTTTCTGACCTTTTGCTTCCAGCAGCTTGAGCGTATCCGGGCTAAACCCTTTTTCGACACGCAGCTCGTCCGGCAACCA -CTGATGGTGGAAACGCGGCGCATTGGTCGCTTCGGCGACGTTCAAGCCATAATCGATGCTATTCACCACCATTTGCAGCA -CTGTAGTGATGATCCGGCTACCGCCTGGGCTACCGGTAACCAGCCAGGTTTTACCGTCTTTCACCACAATGGTCGGCGAC -ATCGACGACAGCGGGCGTTTGTTCGGCCCGACGGCGTTGGCATCACCGCCCACCAGCCCGTAAACGTTCGGTACGCCCGG -TTTGGCGGAGAAATCATCCATCTGGTTATTAAGCAGAATACCGCTCTCGCCCGCGACAATGCCCGTACCGAAGGTGGTGT -TCAGCGTATAGGTCACCGCCACCGCGTTACCATCTTTATCCACCACTGAGTAATGGGTAGTTTGATTACTCTCATAAGGC -GCAAGCTTGCCGGGGCGAATTTCGCTGGATGGCTTCGCTTTATTGATATCAATTTGATCGGCAATAGATTTGGCATAGGC -TTTATTGGTCAGCGCCTGCCACGGTACTTTGACAAAATCCGGGTCGCCAAGATATTCCGAGCGGTCGGCGTAGGCGTATT -TCTCCGCTTCTGCCATGATTTGCATCGCATCGGCGCTGCCAAAGCCGTATTTCTTCATATCGAAGTTTTCCAGAATATTG -AGGATTTGTACGATATGGATCCCGCCGGAGGATGGCGGTGGCATGGAGTAAACCTGATACCCGCGATAATCGCCGCTTAT -CGGAGTGCGTTCGACCGCTTTATAGGCTGCTAAATCTTCTTTAGTGATCAAGCCACCGTTTTTCTGCATCTCCTGGGCGA -TCTGTTCCGCAATCGTGCCTTTATAGAATTCGTCCGGGCCGTTTTCAGCAATCATCTCCAGGCTCTTTGCCAGGTTCGCC -TGCACCAGCGTGTCGCCCTTTTTCAGCGGCTCGCCCTCTTTCCAGAAGATAGCTTTACTGTTTTCGTGATTCGGCAACAC -TTCGCTACCGTAGGTTTTGAGATCGTCAGCCAGCGCGTCGTTAACGATAAAACCATCGCGTGCCAGTTTAAACGCGGGCT -GCACGACTTTGTTCAGCGGCATGGTGCCGTATTTATCCAGCGCCAGCGAGAAACCTGCTACCGTACCCGGTGTGCCGGAA -GCCAGATGCGAAGTGAGTGATTTTTTGCTGTCCGGGTTGCCCTGATCATCGAGGAACATATCGCGGGTCGCTTTGGCGGG -TGCCATTTCGCGGAAATCGATAGCCGTGGTATTGCCATTTTTCGAGCGGATTAACATAAAACCACCACCGCCCAGATTCC -CTGCCTGCGGATGCGTTACCGCCAGCGCGTAGCCCACCGCCACGGCGGCATCAACGGCATTCCCGCCCTCCTTGAGAATA -TCCACCCCCACCTGAGTGGCAGTGGCGTCCACAGACGCTACCATTCCCTGTTTCGCGCGTACCGGGTGGAAGACATCTTC -CTCCACACCATACGAGACGGGCGGCGCAGGAGGCGCGGCGGCGGCGCTAAAACAACTTCCTGAGAGCAGAGCAGCAATGG -CCACCCGGCGTAAAAACGTCGGTTTTATCATCGTTATTCTCCAGAGATTAAGGGGCAACCCCAGCTAAGCCTGGTATATA -ACTCTGAATTAATCATCGTTTTGTCGGGAAGCGAGTAAACTTAAAGGATATCTTCAGAGGAGGATACGCGATGAAACGAC -TTCTGATTCTTACGGCACTCCTGCCGTTTGTCGGCTTTGCACAGCCCATTAATACTCTGAACAACCCTAACCAGCCGGGG -TATCAGATACCCAGCCAGCAGCGGATGCAAACCCAGATGCAGACTCAGCAAATCCAGCAAAAAGGGATGCTGAATCAGCA -ACTGAAAACGCAAACTCAGTTGCAACAGCAGCATTTAGAAAACCAGATAAACAATAATTCTCAGCGGGTGTTGCAGTCAC -AGCCGGGGGAGCGAAATCCCGCCCGGCAGCAAATGCTGCCCAACACCAACGGCGGGATGTTAAACAGCAACCGTAATCCG -GATAGTTCGTTGAATCAGCAGCATATGCTGCCGGAGAGGAGAAACGGCGACATGCTGAATCAGCCCAGCACGCCGCAGCC -TGACATTCCGTTGAAAACTATTGGGCCGTAAAGTTCGGACCAATCACGTCAATCGCATCGGTACAGATGCAATCCACACC -CCAGCGCAGCAACTCTGCTGCGCGCTGGGGTTTATTGACGGTATAAACCAGAATCCGCAGTCCGGCGTCTTTCAACTGCA -TCACTCGCGCTTTATTGAGTAACTTATGATTGAGATGAATAGAGACGCAGCCCAGCCGCGCGGTCAGTTCGCGCCAGTCG -TCGCGCCACTCATCCAGCAACAAACCGCGCGGCAGTTCCGGTGCCGCCTGTTGTGCAGCTTCTAAAGCATCAATCTCAAA -CGATGACAGCAGCGGCGGCGTCATACCGGCCCACAGCTCGCGTGCCGCCAGCGCCACCATTTTGCCCGTTAATGGCCCGG -TGCCGGTGGTGGGTTTGATTTCGATATTCGCCATCATCCCGTGTTCGCGGCAACGTTCCGCCACCTGCGAAAGCAACGGT -AGCGGCTCACCTTTAAACATTTTGCTGTACCAACTGCCCGCATCCACGCGCAGTAAATCCTGCCAGTTCAGTTCACCCGC -GACGCCCCAGCCGTTGCTGGTACGTTCGAGATTGTCGTCATGGAGCAGGAAGATCTCGCCATCTTTCGATAACTTCGCGT -CAAATTCGATCATCTTATGACCGTATTTTGCCCCGACGTCGATTGACGCCAGGGTGTTTTCCGGGGCCAGCTTACCGCCG -CCACGATGAGCGACGATGCGGGGATAAGGCCAGTTACTCATACTCGTTGTCCTGTTTCACCATCAAAAAGATGCAGCTGA -TTTTCCGCCAGATGCAGCCACAGCGTGCTGCCTGCCGTCGGGCGCTCCTGATGCGCCAGTCGCACCACCAGCTTCTGCTC -GCCCCAGCGTCCGTGCGCCAGGTTATCTGCGCCGAGGATCTCCAGCGTGTCCATCACCATCGGTACGCCGCCTTCTGCCT -GCGAGCTTAGCGCAATATGTTCCGGGCGAATGCCGAGAGTCATTTTACGCCCGGCATACTGACGGTAGCCACCGTTTAGC -GGCAGCTCAATACCGCCGTCCAGTTCGAAATGCGTGCCTTCGTTATTCACGCGGCCTGTCAGCAGGTTCATCGCCGGACT -GCCGATAAAACTCGCTACAAACAGGCTGGCGGGCTTTTCGTAGACTTCAACTGGTGTGCCAATCTGTTCGGCAACACCGC -CGTTCATCACCATTACTCGCTGGGCGAGCGTCATCGCTTCAACCTGATCGTGAGTAACGTAGAGTGAAGTCGTTTTCAGG -CGACGGTGCAACTGTTGCAGTTCAAGACGCATCTGCACGCGCAGCTTGGCATCGAGGTTAGAGAGCGGCTCATCAAACAG -GAACACCGCCGGATCGCGCACAATCGCGCGGCCCATCGCCACACGCTGGCGCTGACCGCCGGAAAGCTCGCGCGGGCGAC -GTTTGAGCAGACCGTCCAGCTCCAGAATGCGCGCCGCTTCTTTAACGCGCTCGGCAATTTGCTGCTTGCCCATGCCGCGA -ATTTTCAGCCCCCACGCCATGTTTTCTTCGACACTCATATGCGGATAAAGCGCGTAGTTCTGGAACACCATCGCAATCCC -GCGATCTTTTGGCTCCATTTCAGTCACGCGCTGGTCGTTGATCCAGATATCGCCTTCTGTCACCCGCTCCAGCCCGGCAA -CCATGCGCAGCAGCGTCGATTTCCCGCAGCCAGACGGCCCGACCATCACGATAAATTCGCCATCCGCCACATCAAGGGTC -AGCGGTTTAATGACCTGGGTTTTACCATCCCAGCTTTTGGTTACTGCCTGTAATTTCAGTCCTGCCATCTTATTTCTCAC -TATCGACCAGGCCGCGCACGAAGGCACGCTGCATCACTAAAACAATCACCACCGGAGGGATAAGCGTTAACAACATCGCC -ACCATCACTGAGTTCCATTCCGTGGTGCCTTCGCCTGTAGCGATCATCCCTTTGATCCCTGCCACGGTGGTGCCGAGATC -CACATCGGTAATAATCAACAACGGCCACAAATACTGATTCCAGCCGTAGATAAAGGTGATCACAAACAGCGCCGCCAGAT -TAGTTTTGGAGAGCGGAAAAACGATGTCGCAAAAGAAGCGCATTGGCGATGCGCCGTCGATCCGCGCGGCTTCCACCAGC -TCATCCGGCAGCGTCATAAAGAACTGGCGGAACAGGAAAGTAGCGGTCGCCGAGGCCATCAGCGGCAGCGTTAAACCGGC -GTAGCTGTCGAGCATCTGCAGGTTGGCGATGACTTCCACCGTCGGGAAGATACGTACTTCAACCGGCAGCATCAGGGTGA -TAAAAATCATCCAGAAGAAGAGGTTACGTAGCGGAAAACGAAACCAGACAATGGCAAATGCCGAGAGCATCGAGACGGTA -ATTTTGCCGAGCGTAATGCTGAACGCCATCACAAAGCTGTTAAGCAACATCCGCCAGAACGGCGCGCTATTCGTGCCTAC -CCCGTTCACCCAGATGTTGTGGATGTTTTCCAGCAGATGTGTGCCGGGGATGAGCGTCATCGGCGCGGCATAGACGGCCT -GTTTATCCAGCGTCGCCGCGACAAACGCCACGTACAGCGGGAAGAGGATCACCGCGATCCCGAGGATCAGCATGGTATGG -CTGAATATCGTCAGCCACGGACGGTTCTCAATCATTGGTAACGCACCTTGCTTTCAACATAGCGGAACTGCACCACCGTC -AGCACGATGACGAGGAACATCAACACCACCGACTGTGCGGCAGACGAAGCCAGATCCAGTCCGGTAAAACCTTCGCGGTA -GATCTTATAAATCAGCGTCGTGGTGGCCTGAACCGGCCCGCCGGACGTGGCGGCGTCGATCACCGGGAAGGTGTCGAAGA -AGGCATACACCAGGTTCACTACCAGCAGGAAGAAACTCACCGGGGCGATAAGCGGCAGCGCAATCTTAAAGAAGCGGCGA -ATCGGCCCTGCACCGTCGATGGCTGCGGCTTCGATCAACGAACGGGGAATGGATTGCAGCGCGGCATAGAAGAACAGGAA -GTTGTAGCTGATTTGCTTCCATACTGAGGCAAACACCACCAGAAACATTGCCTGACCGCTGTTTTGCGCGTGGTTCCAGT -CGTAGCCGAACTCCGCGAGAAAATGGGTGATCAGCCCGCGACCGGGGTTAAACAGGAAGATCCACAATACGGCGGCAACG -GCGGGAGCCACGGCGTAAGGCAGCAACATTAAGGTTTGATAGAAACGGCTGCCGCGCACGATGTACTCCACCAGCGCCGC -AAAGAACAGCGATACCAGCAAACCGCTGACGGTGACAAAGGTGCTGAATTTTATCGTCGTCCAGAAGGAGTCGAGATAGT -AGCTGTCATGGAACAGCGTGACGAAGTTATCCAGGCCGACAAACTGGCTGGAGAAACCAAACGGATCGACGCTTTGTAGC -GAGTACCACAACGCTTCGCCCGCAGGCCAGATAAAAAAGATAACGGTGATGATGAGCTGCGGCGCGACCAGCAGATAAGG -CAGCCAGCGCGAGCGGAACACCGGACGGGATGATGACATTACGGTTAATTCCTGAACTGTGCCGGATGCGCTTCGCTTAT -CCGGCCTACACGCGATGCCAGGTCAGATAAGCGAAACGCATCCGACATTACACTGATTAAGACTTCGTCGATTTCTCAAA -GCGGCGCAGCAACTGATTTCCACGCTCAACGGCGGTATCCAGTGCCTGCTGTGGTGTCTTCTTACCGGTCCACACGCTCT -CCAGCTCTTCATCCACAATCACGCGGATCTGCGGCATGTTGCCCAGACGCAGCCCTTTGGTGAACGGCAACGGCGGCTTA -TTCAGCATCTGACGCGTCGCGGTATCCGCCCCTGGGTTTTTCTCATAAAAGCCCTGCTCACGGGTCAGGTCATACGCTGC -TTTGGTGATTGGCAGATAACCGGTTTTCTGATGCCACTCGGCAGCGTTTTCTGGCTTCGCGAGGAAATCGAGGAACTTCG -CCACACCGGTATACGTTTCTTTATCTTTACCCTGCATCACCCACAGGCTGGCTCCGCCGATAATGGCGTTTTGTGGCGCA -TCTTTCGCATCGGCGTCGTAAGGCATCATGCCTACGCCGTAGTTAAATTTGGCGTACTCGCGAATGTTGGCAAGAGAACC -GGAAGAGGCGGTGGTCATCGCGCAATCACCGTTATAGAACTTCTCGGTGGATTCATCCTTACGACCGACGTAGCTGAAGT -CGCCCTTCTTGTTCATCTCCTCGAGCATGGCGATGTGTTTCACCTGCTCCGGCTTATTGAACTCCAGCACCGCGTCCGTG -CCGTCAAAGCCGTTGTTTTTGCTGGCAAACGGCAGACCGTTCCAGGCGCTAAAGTTTTCCAGTTGGATCCAGCCCTGCCA -GCCGCTGGCGTAGCCGCACTTCATGCCGGAGGCTTTCAGTTTCGCGGCATAGTCCGCCAGATCCTGCCAGGTTTTCGGCG -GCTGTTCCGGGTCTAATCCTGCTTTCTTGAAGGCGTCTTTGTTGTAATAGAGAACGGGGGTCGAGCTGTTGAATGGCTGG -GAGAGTAAGTGGCCCGTTTTGCTGTCGGAGTAGTAACCTGAAACCGTCGGCACAAACTGCGACTCATCGAACTGAATCCC -TGCCTCTTTAAACACGTCATACACCGGTTTAATGGCTTTCGACGCCATCATGGTGGCGGTGCCAACTTCATAAACCTGCA -AAATAGCCGGCGCGTTGCCGGTACGAAATGCGGCAATCCCCGCGCTTAAATTCTGTTCGTAGTTGCCTTTATAGGTCGGT -ACAATTTTGTAATCCGGGTTTTCGGCGTTAAAACGTTGGGCCAGAGAATCCACCTCTTTACCCAGTTCCCCTTCCATAGA -ATGCCAGAACGGAATGGTCGTCACTGCCTGTGCATTCCCCATTAACGCCAGTCCGAGCGCCAGTGCTGAAGCTGTATAAT -GTAACGGTTTCATCGTTTATCTCTCTTGTTGTACCGAATGCGCGAATTCACGCGTTTTATGCTCGCGGGGTAACATGACA -TGCTCGAATTACAGAAAAATAACTTTTTTGTTACATTTGTAAGATAGTAAGGTGTCAGAAAGATGACAAGGCGGTGACGG -CGTGGGTGAGGGAAAATGGGAGATGGGGCACGGATAAGCGGGAAAATATAGAAGGTCTGAATCAAACTCTACAGATTGCT -CATCGTTTCATGCCGGATGCGGCGTAAACGCCTTATCAGGCCTACAAGATCGTGCAAATTCAACATATTGCCACTCACCC -AGTAGGCCTGATAAGCGCAGCGCATCAGGCAATTTTACATTTGTCACCTGTCTCAAAGGAGTCTTTTGACTCCCTATCAA -TCAACGTGTTATTACCCGCCTAAATACGCACTTCTCACCGCTTCATTCGCCAGCAGCGCATCACCAGTATCGGAAAGCAC -TACATGGCCGTTTTCCAGCACGTAGCCGCGATCCGCCAGCTTTAGCGCCTGGTTGGCGTTCTGCTCGACGAGAAAGATAG -TCATCCCCTGCTCGCGCAGCTGCTCGATGGTGTCGAAAATTTGCTGGATGATAATCGGCGCAAGACCGAGCGATGGCTCA -TCAAGCAGTAGCAAACGCGGGTTGCTCATCAGCGCACGACCAATCGCCAGCATCTGCTGTTCACCGCCGGACATGGTGCC -CGCCCGCTGAATACGGCGCTCATGCAGACGTGGAAACAGCTCATACACCCACTTTATGCGCTCCTGGAACTGGTCGCGTT -CAGCAAAAAAACCGCCCATCGCCAGGTTCTCTTCCACCGTCATCCGCGAGAAGACGCGACGCCCTTCCGGGACAATCGCC -ACCGCTTCGCGCATGATTTTCGCTGTCTGCCAGTCGGTAATGTCTTTATCATCAAACACAATTCGCCCGCTGGTGGCACG -CGGATCGCCGCATAACGTGCCGAGCAAGGTGGTTTTCCCCGCCCCGTTCGCGCCAATCAGCGTGACAATCTCGCCCTGAT -TGATATGCAGGCTCACCTCATGCAGCGCCTGGATTTTGCCGTAGTGGGCGCTGACTTTGTCAAAGGACAACATGACTTTT -TCCATCTTATGCCTCACCTAAATAGGCACGGATCACGTCCGGGTTATTACGGATCTGCTCCGGCGTACCGTTTGCCAGCG -GCGTCCCCTGATTGACCACGTAAATTCGGTCCGAAATTCCCATCACCAGCTTCATATCGTGTTCAATCAACAAGATAGTG -GTGTTGTGATGATTGCGCAGTTCGGCAATCAGCTCATCCAGCTCTTTCGTCTCTTTCGGGTTAAGACCTGCCGCAGGTTC -GTCGAGCATTAAAATCTCCGGCTGCGTCACCATGCAGCGGGCAATCTCAAGACGGCGCTGGTCACCATAGGCCAGGTTAC -TCGCCTGACGGTTGGCGTGTTCCAGCAAACCAATGCGCTCAAGCCAGGTCGCGGCGCGGTCGAGCGCTTCGCTCTGGGCG -CGACGGAAGGATGGCGTTTTCAACAGGCCAGAGAACAGCCCGGTTTTCAGTTGCTGATGCTGCGCCACCAGCAGGTTTTC -AATTACCGTCATTTCACGGAACAGACGCACATGCTGGAAGGTGCGCACCACGCCCATGCGGGCAATTTGCTGCCCCGGTA -AACCTTCCAGGTGCTGATCGCGCAGTAAAATGGTGCCGCCGGTGGGTTTGTAGAATCCGGTCAGACAGTTAAAAACCGTG -GTTTTTCCGGCACCGTTAGGGCCGATTAACGAGACGATCTCCTGCGGGTACAGTTCAAGATTGACGTTGTTCACCGCCAG -CAGGCCGCCGAAGCGCATCATCAGGCCGTTAACAGATAATAATGGCTGACTCATGCCTGCTCTCCTTTCGCTGCGCCGTT -TTTCAGCTTCAGTTGCGGGCGCGTCATGGGCAGCAAGCCCTGCGGACGCCAGATCATCATCAGCACCATCAAACCACCGA -GCATTAACATGCTGTATTCGTTGAAATCACGCATCAACTCGCGCGACACCACCAGCAAAATTGCCGCCAGAATCACCGCA -AATTGCGAGCCCATACCGCCGAGCACCACTATCGCCAGCACAAACGCCGATTCGGCAAAGGTGAAGGATTCCGGGCTGAC -AAAGCCCTGACGCGCCGCAAACAGCGTTCCGGCAAAACCGGCAAACGCGGCACTTATGGTAAAGGCAGTCAGCTTGATAC -GACGCGGGCTTAAGCCCAGCGAACGGCAGGCGATTTCATCTTCACGCAACGCTTCCCACGCACGCCCCAGCGGCATCCGC -AGCAGGCGGTTAATGACAAACAGGCTTAGCACCACCAGCAGCAACGCCACCAGGTAGAGGAAGATGACACGATCGGAGGG -ATCGTATTTCAGGCCAAAGAAATTACTGAACGTGTCCCAGCCGCCTTCACGAGCGGTACGGCTGAACTCGAGTCCGAAGA -GTGTCGGTTTCGGGATCTGACTGATTCCGTTCGGGCCGCCGGTAATTTCGGTGTTATTGAGCAGCAATATGCGCACAATT -TCGCCGAAACCGAGGGTAACGATCGCCAGATAGTCACCGCGCAAACGCAGCACCGGAAAACCGAGCAGGAAGCCCGCCGC -CGCTGCCATTAATCCAGCAATCGGCAGGCAGGTCCAGAAGCCCAAGCCGTAATAGTGATTGAGCAGCGCAAAAGTGTAAG -CGCCGATGGCGTAAAAACCGCCGTACCCCAGCACCAGCAGACCAGAAAGACCAACAACCACGTTCAGCCCGAGACCGAGG -ATAATGTAGATCATGGTCAGGGTGGCAATATCCACCGTCCCGCGTGAAACCATAAACGGCCACGCCACCGCAAGCACCAA -CAGCGCCACGAGGAACAGTTTCTGCTTCACCGTGGAGCCATCAATGGCGGGCAGAATAAACTTCGGTCCGGAAACGCTTT -TCAACCCTTTCTGGAAAGCCGGTCGCAAAAGCTGGAAGAAAAAGACCACCGCCGTGCCGATAAACACCCACTGCCAACGG -ACATCCGAAGCCGTGTCGACCACCAGTTTGGTGCCATCCAGCTCCAGTTGCACGCCCATAAAGACGCCCGCCAGCACAAA -GAACATCGCGGCAGAGAGCAGCGCCATTGCAATATGCATCGGTTTCATACTTTCTCTACCTCCGGGCGACCCAGAATACC -GGTCGGCATCACCAGCAGCACCAGAATCAGCAGGGCGAATGAGACCACATCTTTATATTCCGTACTCAGATAGGCAGAAG -AGAGCGCCTCCGCAATCCCCAGAATCAGGCCGCCAATCATCGCTCCCGGAATGCTGCCAATCCCACCGAGCACCGCCGCG -GTAAAGGCTTTCATCCCGGCCATAAAGCCGATGTAGGGGTTAATGACGCCGTAGAACTGACCGAGCAGCACACCCGCCAC -CGCCGCCATCGCCGCGCCAATCACAAAGGTCAGCGCAATCACCCGGTCGGTGTTAATGCCAAGCAGACTCGCCATTTTCA -GATCTTCCGCGCAGGCACGACACGCGCGACCCATGCGGGAATAGCGAATGAAAATCGTCAGCGCCAGCATGGCGAGGAAG -GTAACAATCCAGATCACCGCCTGCATGGTGGTAATAGAGGCAGAGAAGTTTTCGCTATGCCCCACCACCCACTGACCGTT -AAACAGGCTCGGCAGCGCCACGTCGCGCGAACCTTCGGTCAGGCTGACGTAGTTTTGCAGGAAGATGGACATACCGATTG -CAGAGATGAGTGCAATCAGGCGCTTAGAGTTACGCACCGGGCGGTAAGCCACCCGTTCGATACTCCAGCCGTAGGCGCTG -GCAATGACGATTGCGCCGACGAATCCCGCAGCTACCAGCAGCCAGCCGGTATCAATGCCCATCATCATCAGCGCGGCGAT -GATCATAAATGAGACGTAGCTGCCAATCATATAAACCTCGCCGTGGGCGAAGTTGATCATGCCGATAATGCCGTAAACCA -TGGTGTAGCCGATGGCTATCAGCGCGTAGGTACTGCCCAGCGTGACGCCGTTAAACATCTGCTGCAAGAAATACAAAAAC -TGCTCAGACATAAGGTAACCTTTCTAAACCCGCCCGCATTTTACGGGCGGTGGGATGATCACTTGGCTGCCGTGGATGAA -CCGTCGGCGTGCCACTGGAAGACACCAAAATCAAATCCCTTAAGATCGCCTTTTTCATCCCAGTTCAGCGGCCCAATCAC -GGTGTTTGCACCGTTAGCTTTTAAATCTTTCACCAGCGCCAGCGGCTCATCGCTGCCGGTACGCTCAAGGGCAGTCGCCA -GAGATTGCACCGCCGCGTAGGTGATCCAGACATAAGGCCCGGACGGATCTTTCTTGTCTGCTTTCAGCGCATCAACGATG -CCCTGGTTTGCCGGATCCTGGTCATAGCGTTTTGGCATAGTGACCAACATGCCTTCGGCGGCATCACCGGCAATGTTCGA -CAACGACGCATTACCCACACCTTCCGGCCCCATAAACTGGGTTTTCAGGCCAACGGAACGGGCCTGGCGCAGCATCTGCC -CCATTTCCGGGTAGTAACCGCCGTAGTAAACGAAGTCGATGTTTTCTTTTTTCAGGCGGGCGATCAGCGCGGAGAAATCT -TTCTCCCCGGCGGTAATACCGTCGAAGAAGACGACGTTGGCGTTAGCCGCTTTCAGCCCGTCCTGCACCGAACGCGCCAG -CCCTTCGCCATACTGTTGTTTGTCGTGAATGATGGCGATGCGCTGGGGCTTCACCGTCTCAAGAATGTATTTTGCCGCCG -TTGGCCCCTGGGAAGAGTCCAGCCCGGCAGTACGCATAATGTGTTGATAACCGCGTTGGGTCAGCTCCGGGTTGGTCGCT -CCCGGCGAGATCATCAGAATACCTTCGTCTTCATAGATATCTGACGCAGGCTGGGTAGAAGAAGAACACAGATGACCAAT -AACGTATTTAATGCCGTCATTAACGATTTTGTTGGCGACCGCAACGGCTTGTTTCGGGTCGCATGCGTCGTCATATTCCA -CGCCAACCAGTTTATCGCCCTTAATTCCCCCTTTGGCATTAATGTCTTTAATTGCCTGACGCGCGCCGTTAAATTCCATA -TCGCCCCACTGGGCAATCGGGCCGGACATCGCGCCGACAACGGCGACTTTAATATCGTCAGCCATAGCGGTGTGTGAAAT -TGCCAGTGCAATCATCCCTGCGATGATAGTTTTCGCATTCCGTTTCATAGTCAAAAATCCCCATTCGTGATGTTGTGTTG -CTTTGTTTTTATGTGTTAACAAATCAGACTGTTCTTTTTTTATACTGCACTGTTTTTGCCTGTCTGATTAAGGGGTTAGC -GCAGTATTTTGTGATAATAGCGATTAAAATCCCTATTTTTCAGTCGATTAAGAACAGATAATATTCTGAATTTATTGATA -GATAAACAGAAAAAAGTGCCTTTGTCAGCATAAAATAACGGCACAAAGGGCGGAATAATTCACTATCATTCAGGGGATTA -TGCTGGACATTTTTCATTCTCTAATGTTTTAATTTTGTAATTATTGCTGTTAAAAAATTAATCACCTGCCAAAAGAAATA -AAAAAGAGAAAGCCTCCGATTAAATTATTTCGCTACACTGGTTCCACTTTTGTGATTTACACGGGTTACCCATGAAGCTG -ACCATCATTCGATTAGAAAAATTTAGCGACCAAGACCGGATTGACCTGCAAAAGATCTGGCCGGAGTATTCCCCTTCCTC -GTTACAGGTTGACGATAACCACCGTATCTACGCCGCGCGTTTTAACGAGCGCCTGCTCGCTGCCGTGCGGGTAACCTTAA -GCGGCACCGAGGGAGCACTGGATTCCCTGCGCGTGCGGGAAGTCACCCGCCGTCGCGGTGTGGGGCAATATCTGCTGGAA -GAGGTTTTGCGTAACAATCCTGGCGTTTCATGCTGGTGGATGGCGGATGCAGGCGTGGAAGATCGCGGTGTGATGACGGC -GTTTATGCAGGCGCTGGGGTTTACGGCACAACAGGGCGGCTGGGAGAAGTGTTAATCGTCAAGTTTGATTTCAAAAGTGA -TATTGCCTGATGCGCTACGCTTATCAGGCCTACAATGTGTGTTGCAATTTACTGATTTCTTTGGATCTTGTAGGCCGGAT -AAGGCGTTTACGCCGCATCCGGCATGAAGCAACGTACTCGATATTAGCAATTTGGCGGCAACCCAAAGTTGCCGATTAAT -GATTACTTCGCATCGGTCGCCGTGCCGTTGGCGTGCCAGTCAAATACGCCGAACTCAAAGCCTTTCAGATCGCCTTTCTC -ATCCCAGGTCAGCGGTCCCATTACGGTATCCACGGAGTTCGCTTTCAGGTATTTGGCGATTTCAGCCGGATCGTCAGACT -GATTCAGGCCCGCCTGCAAAGATTGCAGCGCGGCGTAGGTGGTCCAAACGAATGCGCCACTTGGGTCCTGTTTTTTCGCT -TTGATCGCGTCAACAATGGGTTTGTTCGCCGGAACCTGATCGTAGTTCTTCGGCTTGGTCACCAGCAGCCCTTCCGCTGA -TTCGCCCGCAATGTTAGACAGCGAAACGTTAGCCACACCTTCCGGCCCCATAAACTGAGTTTTCAGCCCTGCCGCGCGTG -CCTGACGCAGGATTTGCCCCATTTCCGGGTGATAACCGCCGTAGTAAACGAAGTCGATATTCTCTTTTTTCAGACGCGCC -ACCAGCGTTGAGAAATCTTTTTCCCCGGCGGTGATGCCATCAAAGAACACCACGTTTGCATTGCCTTTCTTCAGGCCGTC -CTGCACCGCTCGCGCCAGACCTTCGCCGTATTGCTGTTTGTCGTGAACGATAGCAATACGCTGCGGTTTCACTTTCTCAA -GAATATATTTCGCCGCCGTCGGCCCCTGGTCGGAGTCCAGGCCGGTGGTGCGCAGGATCAGCTGATAGCCACGGGCGGTC -AGCTCCGGCGCGGTTGCCGCTGGGGTGATCATTAAAATGCCTTCGTCTTCGTAGATGTCAGACGCAGGCTGCGTTGATGA -AGAACAGAGGTGACCAATCACATATTTAATGCCGTCGTTAACGACTTTGTTCGCCACCGCAACCGCCTGTTTCGGGTCAC -AGGCATCGTCATATTTTACGATTTGCAGTTTGTTGCCTTTAATGCCGCCTTTAGCGTTGATATCCGCAACCGCCTGCTCT -GCGCCGGTAAACTCCTGGTCACCGTACTGCGCAACCGGACCGGACATTGCGCCCACGACCGCGACTTTAATATCTTCTGC -CAGAGCCATATTGCTGAATGCCAGCGCGATACATCCTGCCAGTAACGCTTTACCCTTTATGTTCATCCTGAGAATCCCCA -TTCTTCTGGTTATTACGTGTGTTGTGATGTTGTTTTTCAGCACTTTATTTCGTTTTATGCATGACTACCCGTGCTTTAGC -AGCATACTCTGCTAAAACATACCCGATTTTTATGATATTGGAATAGCTATTTTGACAGTTTATTAACAATCTGCGTGGGG -ATTGGCGTTTTGCCGGAGGGGAAATTGATTATTACAGAGGCCCAAAAAACAAAAACCCCGGACTCTCATCCAGGGTTCTC -TGCTTAATAGCGGAAATTACGCTTCAATGGCAGCACGCAATTTTTTCATCGCGTTCTTTTCCAGCTGGCGTACACGCTCA -GCGGAAACGCCGTAACGGTCAGCCAGTTCCTGCAACGTGGACTTGTTGTCTTCGTCCAGCCAGCGCGCACGGATGATGTC -CTGGCTGCGTTCGTCCAGACCCTGCATCGCGTCGGTCAGACGGTTTGCCGCCTGCTCTTCCCAGTTATCATCTTCAATGC -CGTCGGCAAAGTTAGATGATTTATCCTGCAGATAGAGCACCGGAGCCATCGGCTGGCTGTCGGAATCGTCGTCGGAAGAC -AGGTCAAAGGTCATGTCCTGTGCCGCCATACGTGATTCCATCTCACGTACGTCTTTGCTGGTTACGCCCAGTTCACGGGC -CACCATTTCGACTTCATCCTGGTTAAACCAGCCCAGACGCTGCTTGGTTTTACGCAGGTTGAAGAACAGTTTGCGCTGCG -CTTTGGTGGTCGCAACTTTGACGATACGCCAGTTACGCAGAACGTATTCGTGGATCTCTGCTTTGATCCAGTGAACGGCG -AAGGAGACCAGGCGCACACCCACTTCCGGGTTGAAACGGCGCACTGCTTTCATCAGGCCGATGTTACCTTCCTGAATCAA -ATCCGCCTGTGGCAGGCCATAGCCCGCATAATTACGAGCAATATGAACAACAAACCGCAGGTGAGACAGGATCAGCGTTT -TAGCTGCTTCCAGATCGCCATGGTAATGCAGCTTTTCAGCCAGCGCCCGCTCCTCGTCAGCCGACAACATCGGCCACGCG -TTAGCTGCCCGGATGTAGGAATCCAGGTTGCCAACTGGGGCTAAAGCTAAACTTTGCATTTTGTCAGTCATTCAAATCCT -CTCAATCGATATCTTCTGGCGCTTCAGTGGTAGCAACAACTGTGCCAGAGCTTAAGAGCAACGAGGTTATCATTCACTGT -TTTATCAGACCGTGATTTTATCCACAAGTTCAATGCAAGCTTGTGAATAAATTACGCACAAAATGTGACATAGAGATGAA -ATACCGGGAAGAGACAACGGGGTCTCTTTCCCTGCTACGGAACCCATTGCAGGGAAAGAGTATAACACGCTTTTATTATT -CAGGCGTAAAGTGGCGTAAATGTTGTACCGTGGCAAGCCACGCTGCCACCCAGCCAATCATCGAGCATACCAGCAGCAAT -AGCAGGCATTCATCGAATGATAAGCCATTGATATCAAACTTCGTTCCGAAAACCTGTGCCACTTCCGCAACCGCCGATGA -CAATCGCAGCACCAGAATTTCTGACAAAATTAATGACAACAATGCGCCAGAAAATCCCAGCAGTGCGCCACCATACAGGA -ACGGGCGCAGGATGAATCCATCTGTCGCACCAATCAGTTTCTGTACGTTAATGGAGTCACGGCGAGCAAAGATACTCAGA -CGCACACTGTTACCGATGACGAGGAACACGGCCGCCACCATCAACACGCCGATCATCGCCGAAACGCGCCCGACCAGCCC -GGTCAACGCCGCCAGACGGGCAAACCAGCTGTCATCCATCCGCACTTCGTCAATGCCGTTAATCTGCGTGATACGATCAC -GCAGCGTATTCAGTGATTCCGTCCCCTGGAAATCGAGTTTCGGGATCACCACCGCCACTGCCGGAAGCGGGTTTTCTTCC -AGCATATCCAGCGCACCACCAAAACCAGACCAGTTACGGAACTCACCCAGTGCGTCTTCACGAGAAAGATAGTTCACTTT -CTCCACGCCTTGCTCGGCCTGCAACTGTGCCACCACGCCCGCAGCAGCGTCATCGTCCAGCGTTTTTTGCAGATAAACAG -TGATTTGCGGTGACGGATAATACTGCGTCGCCGCCTGGTTAACGTTTTTGTACACCATATAACAGACGCTGGGCAGCGTC -AGAGAAATGGCGATAACCATCACCGTTAAAAACGTGGCGAACGGTTTGCTTTTCAGATCCTGCAATGCGCCGTGGAAGGC -ATAGCGCACCTGTTCGTTGAAAACGTTGGTTTTGCGATTTACCGGTTTTGGCGAGGATTTCGCGCGTTTTGGTGCGTTAC -GACCGCCGTCGCCTGAGCCGCCGACCGATTTACGGAAGCGATCAAGACGCCCGCCAAACTGCCGAATATGATTGATTGCA -TCGCGCTTATTCATGGCCCACGCCTCCATGCAAGTGACCATCGCTCAGGGTGAGCATGCGATAGGAACGCCGCGAGATCA -GGTTGATGTCGTGCGTTGCCATCAATACGGTTACCCCAACGCGGTTAAACTCTTCAAACAGACGTAAAATGCCTTCCGAC -AGCGCGTCGTCCAGGTTACCAGTCGGTTCGTCCGCCAGCAGTACCGCGGGCTTGTTCACCACCGCGCGGGCAATGCCAAC -ACGCTGTTGTTCACCGCCCGAAAGCTGAATAGGGAAGTTCTTCGCTTTGTCCAGTAGCCCGACTTTATCCAGCGCCGCCG -ACACCCGGCGACGAATATCGTCACCGCTGGCACCGGCGATAATCAGCGGGATCGCCACGTTATCGTAGACAGTACGGTCC -ATCAGTAGATGGTGATCCTGGAAAATCATGCCAATCTGGCGGCGCAGAAACGGAACTTCACGGTTTTTCAGACGCGTGAT -GTCATGGCCGCTAAACCAGATTTTCCCGGCGCTGGGCCGCTCAATCCCACAGATCAGCTTCAGGAGGGTACTTTTCCCTG -CGCCGGAATGACCGGTCAGAAACGCCATCTCACCCGGCTGCATATGGAACGTAACGCCCTGCAGCGCCTGTCTCCCACCG -AGATAAGCCTTGCTGACATGTTCAAAGCGAATCATTGTTAATCCTCTCGGGCAAAAAGTGCCTCTATAAAGTCGTCCGCC -TTAAACGGACGCAAATCCTCAATACGTTCGCCGACACCAATGTAGCGGATAGGGATACCAAACTGGTCAGCCACCGAGAA -AATTACCCCGCCTTTCGCCGTGCCGTCCAGTTTCGTTAGCGTGATGCCGGTTAAGCCAACGGCTTCATGGAACAGTTTGG -CCTGGCTTACCGCGTTCTGCCCGGTGCTGGCATCAATAGTCAGCATAACTTCATGCGGCGCTTCAACGTCGAGTTTCTTC -ATCACGCGGACGATTTTCTTCAACTCTTCCATCAGGTGCGATTTGTTCTGCAGGCGTCCGGCTGTATCGGCAATCAGGAC -GTCGATATTACGCGCTTTAGCTGCCTGAATGGCGTCGAAGATAACAGAGGCGGAATCCGCCCCGGTATGCTGGGCAATCA -CCGGAATATTGTTGCGCTGACCCCAGACCTGAAGCTGTTCAACCGCAGCTGCACGGAAAGTATCACCCGCCGCCAGCATC -ACCGATTTACCCTGCTGCTCAAACTGACGCGCCAGCTTACCAATCGTCGTGGTTTTACCCACACCGTTGACGCCCACCAT -CAGGATCACAAACGGCGCTTTGCCTTCAACATTCAGCGGCTCATCGACTTTCGCCAGAATCTCGCCCATCTCTTCTTTCA -GCAGGCCATAGAGCGCCTCGGCGTCACGAAGCTGCTTGCGGGATGCGCCTTCCGTCAGATTGGTGATAATTTTACGTGTG -GTTTCCACACCCACATCGGCGATCAAAAGCTGCTCTTCCAGCTCCTCAAACAGATCATCGTCGATTTTTTTACCGCGGAA -CAGGCTGATAAATCCGGAACCGAGATTTTCTTTGGTTTTTAACAGGCTGCGTTTCAGGCGCGCGAAAAAACCTTCTTTGG -TCGGTTTTTCCTGCTCCTGAGCGATTTCTTCCACCGGCTGCTCTTCTTCTGCCGGAGGAACCACCATCACCGCCTCTTCT -GCCGCTTCGGCAGCCAGCGCCGTTTCCAGCTCTTCGTCGGTAATTTCTTCTTTAGCCGCTTCTTCTTCCGCCGCTTCGAC -AATCTCTACGGTTTCCGCTTCAGCCTGCCACTCTTCTGGCGAAACCGCTTCGGCGTTGACGTCTTCCGGCAACGGCAGCT -CTTCACGTTCGATAGCCACTGGCTCCGGCGTTTCTTCTACGACCGGTTCCGGCTGTGCAACGACTTCCGCTTCAGGCTGC -GCTTTTTCACTTTCAGCAACCTGTTCAGTGACTTCCACAACGTCGGCAGCAAAAGTTTCCGCCTCGGCTTCAGTATGCGC -TTGCGGCTGCTCTTCAACGGCTTGTTCAGAGGCCTTCACAGGCTCTTGCGCCTGAACGATTTCTTCTACAACCGGTTGTT -CATTCTGAACTTCTGTCTCTTTTTCCGGGGTCTGCTCTTTTTGACCAAAGCCCAGCCAGGAAAAAAAGCCACGTTTTTTT -TCTTTCGCCATTTGCGACTACACTCCTCGCTGTTGCTTCATGGCACAGCGTTAACGCTATGTACATAGCAGCTAAAAAAA -TGATGAAATAGTCTATCACTTAACTTAATTCACATCACCGCCTGCAAGTATGTGTTATCTGGCGGATTGAGCAATTTATC -ATGAAAAAACCGAATCATTCCGGCAGCGGCCAAATCCGCATTATTGGCGGGCAGTGGCGAGGCCGTAAACTCCCGGTTCC -TGATAGCCCAGGTCTGCGCCCCACCACCGACCGCGTACGCGAAACGTTGTTTAACTGGCTGGCTCCGGTCATTGTTGACG -CCCAATGTCTGGATTGCTTCGCCGGGAGCGGCGCGCTGGGGCTGGAAGCGTTATCGCGCTACGCTGCGGGGGCAACGTTG -ATTGAGATGGATCGCGCGGTTTCTCAGCAGTTAATTAAGAATCTGGCGACACTAAAAGCAGGCAATGCACGCGTGGTGAA -CAGCAACGCGATGTCATTCCTGGCGCAAAAAGGTACACCGCATAATATCGTGTTTGTCGATCCACCGTTCCGCCGTGGCT -TGTTAGAAGAGACGATAAATTTACTGGAAGATAACGGCTGGCTGGCTGACGAAGCCCTGATTTATGTCGAAAGCGAAGTC -GAAAACGGTCTGCCCACTGTTCCAGCAAACTGGTCATTACATCGGGAAAAAGTGGCGGGTCAGGTGGCTTATCGGCTGTA -TCAACGCGAAGCACAAGGAGAAAGTGATGCTGATTAATATTGGTCGTTTGTTAATGCTCTGCGTTTGGGGATTTTTAATC -CTCAACCTGGTGCATCCCTTCCCACGCCCGCTGAATATCTTCGTTAACGTGGCGCTGATTTTTACCGTGCTGATGCATGG -TATGCAGCTGGCGCTATTGAAATCCACTTTACCGAAAGATGGCCCGCAGATGACCACCGCCGAAAAGGTACGGATTTTCC -TTTTCGGCGTGTTTGAACTGCTGGCCTGGCAGAAGAAATTTAAAGTTAAAAAATAACCTTATTGTTCGCCTACAAAGCTG -ACAAAGCGCGTTCCTTTATAGCTCAGCGTACCTTTATCGCCCACTGTCAGGGCGTGGTACTGCTGGGCGTCGAGGCGAAA -CGTCTGCTCCATTCCTCCGCTTTGCGGTTTGAAGCTTGCCTCATAGCGTATACTGGTGCCTGCCGGAGTCACTTCCTGCT -GGCGCGAACGGCGATCGTTAATCGGTTTTTCCCGCTTGTTGCTCACCACCACCAGCTTTTGCTGGAGCGGAGCCATATCA -TTATCAGCTTTTTCCCGTCGCTGTTGCATAAAACGAAACGATGCGGCGACGACAATTAAGCCAATGATAACAATAAAGAA -AAGAGGTGGTTTGCTCATCTTTATCCCTCATCGGAAAATGCGGAAATAAGCATACCCTGCCAGTTATGGTGTTGTCATCC -GTCCACCCTCGCCACTAAACTGGAAGCAAGACCGTAGGCATTCCGCTTACGAAAAAATAACGAATTCAAGGAACTAAGAT -GCTTTGGTCGTTTATCGCTGTCTGTCTTTCCGCATGGCTATCTGTGGATGCATCGTATCGTGGGCCAACCTGGCAACGCT -GGGTGTTTAAACCGTTAACCCTTCTTCTCCTGCTGTTACTGGCCTGGCAAGCGCCGATGTTCGACGCCATTAGCTATCTG -GTGCTGGCAGGGCTGTGCGCCTCACTGCTGGGCGATGCGCTAACCCTGTTGCCACGTCAACGTCTGATGTACGCCATCGG -CGCGTTTTTCCTCTCGCACCTGCTGTACACCATCTATTTCGCCAGTCAGATGACGCTCTCTTTCTTCTGGCCTCTACCAC -TGGTGCTGCTGGTTCTGGGTGCGCTGTTACTGGCGATTATCTGGACGCGCCTGGAAGAGTACCGTTGGCCTATCTGCACG -TTTATCGGCATGACGCTGGTGATGGTGTGGCTGGCAGGTGAACTGTGGTTCTTCCGTCCGACCGCTCCGGCGCTCTCTGC -GTTTGTTGGCGCTTCGTTGCTGTTTATCAGTAACTTTGTCTGGCTGGGGAGCCACTATCGCCGACGCTTCCGTGCGGATA -ACGCGATTGCTGCGGCCTGCTACTTTGCCGGTCACTTCCTGATCGTCCGCTCGCTGTATCTCTGATAAAACTTGACTCTG -GAGTCGACTCCAGAGTGTATCCTTCGGTTAATGAGAAAAAACTTAACCGGAGGATGCCATGTCGACTCCTGACAATCACG -GCAAGAAAGCCCCTCAATTTGCTGCGTTCAAACCGCTAACCACGGTACAGAACGCCAACGACTGTTGCTGCGACGGCGCA -TGTTCCAGCACGCCAACTCTCTCTGAAAACGTCTCCGGCACCCGCTATAGCTGGAAAGTCAGCGGCATGGACTGCGCCGC -CTGTGCGCGCAAGGTAGAAAATGCCGTGCGCCAGCTTGCAGGCGTGAATCAGGTGCAGGTGTTGTTCGCCACCGAAAAAC -TGGTGGTCGATGCCGACAATGACATTCGTGCACAAGTTGAATCTGCGCTGCAAAAAGCAGGCTATTCCCTGCGCGATGAA -CAGGCCGCCGAAGAACCGCAAGCATCACGCCTGAAAGAGAATCTGCCGCTGATTACGCTAATCGTGATGATGGCAATCAG -CTGGGGTCTGGAGCAGTTCAATCATCCGTTCGGGCAACTGGCGTTTATCGCGACCACGCTGGTTGGGCTGTACCCGATTG -CTCGTCAGGCATTACGGTTGATCAAATCCGGCAGCTACTTCGCCATTGAAACCTTAATGAGCGTAGCCGCTATTGGTGCA -CTGTTTATTGGCGCAACGGCTGAAGCTGCGATGGTGTTGCTGCTGTTTTTGATTGGTGAACGACTGGAAGGCTGGGCCGC -CAGCCGCGCGCGTCAGGGCGTTAGCGCGTTAATGGCGCTGAAACCAGAAACCGCCACGCGCCTGCGTAAGGGTGAGCGGG -AAGAGGTGGCGATTAACAGCCTGCGCCCTGGCGATGTGATTGAAGTCGCCGCAGGTGGGCGTTTGCCTGCCGACGGTAAA -CTGCTCTCACCGTTTGCCAGTTTTGATGAAAGCGCCCTGACCGGCGAATCCATTCCGGTGGAGCGCGCAACGGGCGATAA -AGTCCCTGCTGGTGCCACCAGCGTAGACCGTCTGGTGACGTTGGAAGTGCTGTCAGAACCGGGAGCCAGCGCCATTGACC -GGATTCTGAAACTGATCGAAGAAGCCGAAGAGCGTCGCGCTCCCATTGAGCGGTTTATCGACCGTTTCAGCCGTATCTAT -ACGCCCGCGATTATGGCCGTCGCTCTGCTGGTGACGCTGGTGCCACCGCTGCTGTTTGCCGCCAGCTGGCAGGAGTGGAT -TTATAAAGGGCTGACGCTGCTGCTGATTGGCTGCCCGTGTGCGTTAGTTATCTCAACGCCTGCGGCGATTACCTCCGGGC -TGGCGGCGGCAGCGCGTCGTGGGGCGTTGATTAAAGGCGGAGCGGCGCTGGAACAGCTGGGTCGTGTTACTCAGGTGGCG -TTTGATAAAACCGGTACGCTGACCGTCGGTAAACCGCGCGTTACCGCGATTCATCCGGCAACGGGTATTAGTGAATCTGA -ACTGCTGACACTGGCGGCGGCGGTCGAGCAAGGCGCGACGCATCCACTGGCGCAAGCCATCGTACGCGAAGCACAGGTTG -CTGAACTCGCCATTCCCACCGCCGAATCACAGCGGGCGCTGGTCGGGTCTGGCATTGAAGCGCAGGTTAACGGTGAGCGC -GTATTGATTTGCGCTGCCGGGAAACATCCCGCTGATGCATTTACTGGTTTAATTAACGAACTGGAAAGCGCCGGGCAAAC -GGTAGTGCTGGTAGTACGTAACGATGACGTGCTTGGTGTCATTGCGTTACAGGATACCCTGCGCGCCGATGCTGCAACTG -CCATCAGTGAACTGAACGCGCTGGGCGTCAAAGGGGTGATCCTCACCGGCGATAATCCACGCGCAGCGGCGGCAATTGCC -GGGGAGCTGGGGCTGGAGTTTAAAGCGGGCCTGTTGCCGGAAGATAAAGTCAAAGCGGTGACCGAGCTGAATCAACATGC -GCCGCTGGCGATGGTCGGTGACGGTATTAACGACGCGCCAGCGATGAAAGCTGCCGCCATCGGGATTGCAATGGGTAGCG -GCACAGACGTGGCGCTGGAAACCGCCGACGCAGCATTAACCCATAACCACCTGCGCGGCCTGGTGCAAATGATTGAACTG -GCACGCGCCACTCACGCCAATATCCGCCAGAACATCACTATTGCGCTGGGGCTGAAAGGGATCTTCCTCGTCACCACGCT -GTTAGGGATGACCGGGTTGTGGCTGGCAGTGCTGGCAGATACGGGGGCGACGGTGCTGGTGACAGCGAATGCGTTAAGAT -TGTTGCGCAGGAGATAAGGCAAACCGATCGCAACATTGAGCGCGATCGGTCCCCTCGCCCCTCTGGGGAGAGGGTTAGGG -TGAGGGGAAAAGGCGGCATCGAAGCCAATCAGCCCCTATCAACCGCCTTTACGAATCAAATAACGATAAGGCAGTCCATC -CGTCTCTTTAGCAACCAGTTCGTGTTCCATAAAGGTACAAAACCCAGGAATATCGCGGGTAGTGGCCGGATCGTCGGCGA -TAATCAGCAACGTTTCGCCAGGCTGCATATTGCGCACGGTTTTGCGCACCATCATCACCGGTTCCGGGCAGCGCAGGCCA -AGCGCGTCGAGTGTGTGGTCAGGGCTGGAAAAGAGATCGGTCATTTTCTTCTCATCACTTAAAAAAACGGCGCTAGTTTA -CGCCCTGTGAGTCCGTAAGCAAACTAGGTTAACGATTGCGTGAAAATTAACCATTGCATTGTCAACGTAAAGCAGTATCA -TGCGGCGGCTCGAAAAAAGGGTAAGCACGTTATTATGTTAAGGTAACAGACGTGTCGTACGTATTGGGTTCCCTCACCCC -AATGGTTAATCAAAAAGGTACAATATGAACGTTTTCTCGCAAACTCAACGCTATAAGGCGTTGTTCTGGTTATCGTTATT -TCATCTGCTGGTGATCACCTCCAGTAACTATCTGGTTCAGCTTCCCGTCTCCATTTTGGGTTTCCATACCACCTGGGGCG -CGTTTAGCTTTCCGTTTATTTTTCTTGCTACCGACCTGACCGTGCGTATTTTTGGCGCACCGCTGGCCCGACGCATTATC -TTCGCGGTAATGATCCCTGCGTTATTAATCTCCTACGTCATCTCGTCGCTATTCTATATGGGTTCCTGGCAGGGATTCGG -CGCACTCGCCCACTTCAACCTGTTTGTCGCCCGTATCGCCACCGCCAGTTTCATGGCCTACGCGCTGGGGCAAATCCTCG -ACGTGCACGTTTTTAACCGCCTGCGTCAGAGTCGCCGCTGGTGGCTGGCACCGACAGCGTCCACACTGTTCGGTAACGTC -AGCGACACGCTGGCCTTTTTCTTCATTGCCTTCTGGCGTAGCCCGGATGCCTTTATGGCTGAACACTGGATGGAAATCGC -GCTGGTCGATTACTGTTTCAAAGTGTTAATCAGTATCGTTTTCTTCCTGCCAATGTATGGCGTATTACTCAATATGCTGT -TGAAAAGACTGGCAGATAAATCCGAAATCAACGCTTTGCAGGCGAGTTAAAGGTTCGTTATCAGAGTTGTGATAAGATGG -ATGAATGAGCCGTTATGGCCGTTTATCGAAAGGAAGAAGTCAATGCGCAATCTGGTTAAATATGTCGGAATTGGCCTGCT -GGTTATGGGGCTTGCGGCCTGTGATGATAAAGACACTAACGCTACGGCGCAGGGTTCGGTCGCGGAAAGTAACGCTACCG -GGAATCCCGTCAACCTGCTTGATGGCAAGTTAAGTTTCTCGCTGCCAGCGGATATGACCGACCAGAGCGGTAAGCTGGGA -ACGCAGGCCAATAACATGCATGTCTGGTCCGACGCCACCGGGCAGAAAGCAGTCATCGTCATCATGGGCGATGATCCGAA -AGAAGATCTGGCGGTGCTGGCGAAGCGTCTGGAAGATCAGCAACGTAGCCGCGATCCGCAGCTGCAAGTGGTAACCAATA -AAGCCATTGAGCTGAAAGGTCACAAAATGCAGCAGTTAGACAGTATTATCTCCGCGAAAGGCCAGACGGCGTACTCTTCC -GTTATTCTGGGTAACGTGGGTAATCAACTGCTGACCATGCAAATTACGCTGCCCGCTGACGATCAGCAAAAAGCGCAGAC -CACCGCAGAAAACATCATTAATACGCTGGTTATTCAGTAAGTTTTAAGATGATGAGGCGGCCTCAGGGACGTGTTCCGGA -GGCCGTTTTTTTAATCGCCACGTCAGTAATAACGCGATTGCGACCAGTCCCGCCGCCGCCAGATAAATCACCGGTACGCC -CGCCCAGCTCATCACCAGCCCAGCCAGTGGTCCAGTCACGCCAAGCGATAAATCCATAAATACGGTGTAAGTTGCCAGCG -CCGCCCCCTGATTTTGCTGCGGAACCGCTTTTACCGCCACTACACCCAATGCCGGGAACACCAGCGAAAACCCGGCCCCC -GCCAGTAAGACGCCGATTTTCGCCATCCACGGCATAGTCGCCACGCCAACCAGTAGCAGGCCGATTATCTCAACGCTAAA -GCAAATCATCGCTACGTTTAAGCCACCGATACGGTTAATGCCGTTAGGGAATAACAAACGCGTACCGACAAACGCACAGC -TAAACAGCGTCAGCGCGAAAGCCGCACCGTCCCAACCTTTAGCGTCATAAAACAGCGTGATAAAGGTGGCGATGACGCCA -AATCCGGCGGAAGCCAGTGCCAGCGCCATACCGTACAGCCAGACGCGCCCAAGCACCGCGCGAAACGGCAGCGGTTTGCC -TTTACTGGCTTTTACCGTCGGACGCGGGATCGCCAACAAAATGGCCACCAGCGCCACGCCCATAATGATTAACGCTAACG -CCTGCAAGCCGCCCCAGTGATAAAACACGACGCCTAACGGCGCACCCATCGCCATCGCCCCGTAAGTGACAATGCCGTTC -CACGAAATCACCCGCCCGATATGCAGCGAGCCAACCACGCCAACGCCCCATAGGGTCGATCCCGTTCCGGCAAAACTTTG -CCCAATCCCAAGGATGACGCGCCCCAGGCAAAGTAATAACAGGCTGATGACAGGCAGACTGGCGGTTAATCCTGCCGTCA -GATACCCCAGACCGCTCAAAAAGCAGCCGCATAAACCGAAGACGACAATCTTTTTGGGTCCCAGCGAATCGGCGTAACGT -CCGGCATGAGGGCGGCTCAGCAAGGTGGCGAAATATTGCAGGCTGATAACCAATCCTGCCCAGAAGGCGCTAAAGCCCAT -CACATCATGGACATAGCCCGGTAATACAGCGAGCGGCAACCCGATGGTGAGGTAGCTGGCGAAGTTAAACATGACTATAG -AGACAATGCGCAAATTCAGGCGCAATCCGTTTAGCGCGGGTTCGGCTACGGGTTCGGGCATGAGGATCACCACATTTTTA -CAACAGTGTTTCATTTTTACCACGTGCTGACGTGAAAATCAGCAGTAAGAATCAGAATATTGCTGGCGTGACTCCCGCTA -CACTTAATACAAAAAGTCACAAGGAAGCCCCAATGGAAACCCCTCAACCCGATAAAACGGGCATGCACATTCTGCTCAAG -CTGGCCTCGCTGGTAGTGATCCTCGCGGGCATTCACGCAGCGGCAGATATCATTGTGCAGCTGTTACTGGCGCTGTTTTT -TGCCATCGTCCTCAACCCGCTCGTCACCTGGTTTATTCGTCGGGGAGTACAACGCCCCGTTGCCATTACGATTGTAGTGG -TGGTGATGCTGATCGCACTAACCGCGCTGGTCGGCGTACTGGCGGCATCGTTTAACGAATTTATCTCTATGCTGCCGAAG -TTTAATAAGGAGCTGACGCGCAAACTTTTTAAATTGCAGGAGATGTTGCCTTTTCTTAATTTGCATATGTCGCCGGAGCG -AATGCTGCAGCGGATGGACTCGGAAAAAGTGGTTACCTTCACCACAGCGCTAATGACCGGGCTTTCCGGGGCAATGGCGA -GCGTGCTTTTGCTGGTGATGACCGTAGTTTTTATGCTGTTTGAAGTGCGCCACGTCCCTTACAAAATGCGTTTTGCGCTG -AATAATCCACAGATTCACATCGCGGGATTACACCGCGCACTTAAAGGCGTTTCGCACTATCTTGCATTGAAGACGCTACT -CAGTTTATGGACAGGTGTCATCGTCTGGCTGGGGCTGGAGCTGATGGGGGTGCAGTTTGCGCTGATGTGGGCAGTACTGG -CGTTTTTGCTCAACTACGTGCCCAATATCGGCGCGGTAATTTCCGCCGTACCGCCAATGATTCAGGTGCTGCTGTTTAAT -GGTGTTTACGAATGTATTCTGGTCGGCGCATTGTTTTTAGTGGTCCATATGGTCATCGGCAATATTTTAGAACCACGGAT -GATGGGCCATCGCCTGGGGATGTCCACCATGGTGGTATTTCTTTCATTGTTAATTTGGGGATGGCTGCTCGGCCCGGTAG -GGATGCTACTTTCGGTGCCATTAACCAGCGTGTGTAAAATCTGGATGGAAACCACCAAAGGCGGTAGCAAACTGGCGATT -TTACTGGGGCCGGGCAGACCGAAAAGTCGGTTACCGGGATGAGGCGACAAGTGATACGATACGCACTTTCATTTTCCATT -AAACGTTGGCCCTGATATGTATCGGATAGTTCTGGGGAAAGTTTCGACCTTAAGCGCAGCTCCACTGCCACCGGGTTTAC -GCGAGCAAGCACCGCAAGGTCCACGACGCGAACGCTGGCTGGCGGGGCGTGCATTGCTTTCGCACACGCTTTCCCCGCTA -CCGGAGATCATCTATGGCGAACAAGGCAAACCTGCATTTGCGCCGGAAATGCCGCTATGGTTCAACTTAAGCCATAGCGG -TGACGATATCGCCCTGCTGTTGAGTGATGAAGGCGAAGTCGGCTGCGATATCGAAGTGATTCGCCCGCGCGCCAACTGGC -GCTGGCTGGCGAACGCCGTATTCAGCCTCGGGGAACACGCTGAGATGGACGCCGTGCATCCTGATCAGCAACTGGAAATG -TTCTGGCGCATCTGGACGCGCAAAGAAGCCATCGTTAAACAGCGTGGCGGCAGCGCCTGGCAAATCGTCAGCGTAGACAG -CACCTATCACTCCTCGCTGTCAGTCAGCCATTGTCAGCTTGAAAATTTAAGCCTTGCGATCTGCACCCCTACTCCCTTTA -CGCTCACCGCCGACAGTGTGCAATGGATCGATTCAGTTAACTGATCCGCCCACCCGACTGCCCATCTATTGATCCAGAAC -AGGTAATCAGTATGACGAATACTTAAAATCGTCATACTTATTTCCGCCATCTATTTTAATCCATTGGGGTTACCATGCTC -TCCACACTCCGCCGCACTCTATTTGCGCTGCTGGCTTGTGCGTCTTTTATCGTCCATGCCGCTGCACCAGATGAAATCAC -CACCGCCTGGCCGGTGAATGTCGGGCCACTAAACCCGCACCTTTACACGCCTAACCAGATGTTCGCCCAGAGCATGGTTT -ATGAACCATTGGTGAAATATCAGGCAGACGGTTCGGTGATCCCGTGGCTGGCAAAAAGCTGGACTCATTCAGAAGATGGT -AAAACCTGGACCTTCACCCTGCGTGATGACGTGAAATTCTCCAACGGTGAACCGTTCGATGCCGAGGCGGCGGCAGAAAA -CTTCCGCGCAGTGCTCGATAACCGTCAACGTCACGCCTGGCTGGAGCTGGCAAACCAGATTGTTGATGTTAAAGCACTCA -GTAAAACAGAGCTGCAAATTACCCTGAAAAGCGCCTACTATCCTTTCCTGCAAGAACTGGCCCTGCCCCGTCCTTTCCGT -TTTATCGCTCCCTCGCAGTTTAAAAACCATGAAACCATGAACGGAATTAAAGCGCCGATTGGCACCGGACCGTGGATTTT -GCAGGAATCGAAACTGAATCAGTACGATGTCTTCGTCCGTAACGAAAACTACTGGGGCGAAAAGCCAGCGATTAAAAAGA -TCACCTTTAACGTCATCCCGGACCCGACTACCCGCGCGGTGGCGTTTGAAACTGGCGATATCGACCTGCTGTACGGAAAC -GAAGGGTTATTACCGCTCGATACCTTCGCCCGCTTTAGCCAGAATCCGGCTTACCACACCCAACTGTCACAGCCGATCGA -AACCGTGATGCTGGCGCTCAATACCGCCAAAGCCCCCACCAACGAGCTGGCAGTACGTGAAGCTCTTAATTACGCGGTAA -ACAAAAAATCGCTGATTGATAACGCGTTGTATGGCACCCAGCAGGTCGCCGACACCCTGTTTGCCCCTTCTGTGCCCTAC -GCCAACCTCGGCCTGAAACCGAGCCAGTACGATCCGCAAAAAGCGAAAGCGTTGCTGGAAAAAGCCGGTTGGACGCTGCC -TGCGGGCAAAGACATCCGCGAGAAAAATGGTCAGCCGCTGCGCATTGAACTTTCGTTCATCGGCACCGATGCGTTAAGCA -AATCGATGGCGGAAATCATTCAGGCTGATATGCGCCAGATTGGCGCAGATGTCTCGCTGATTGGCGAAGAAGAGAGCAGT -ATCTATGCTCGTCAGCGCGACGGTCGTTTTGGCATGATTTTCCACCGCACCTGGGGCGCGCCATATGATCCACACGCCTT -CCTCAGTTCAATGCGCGTACCGTCACACGCTGACTTCCAGGCACAGCAAGGATTAGCCGACAAACCGCTGATTGATAAAG -AGATCGGCGAAGTGCTGGCGACCCATGACGAAACGCAACGTCAGGCGCTGTATCGCGACATTCTGACCCGTCTGCATGAC -GAGGCGGTTTATCTGCCTATCAGTTACATCTCAATGATGGTGGTATCAAAACCGGAGCTGGGTAACATCCCCTACGCGCC -GATCGCCACCGAAATTCCGTTCGAACAGATTAAACCGGTGAAACCTTAATGTTGCGTTACGTATTACGCCGCTTTCTGCT -GCTGATCCCGATGGTGCTCGCCGCCTCGGTGATCATTTTTCTGATGCTGCGCCTCGGTACCGGCGACCCGGCGCTCGATT -ATTTGCGTCTGTCTAACCTGCCGCCGACGCCGGAGATGCTGGCCTCTACCCGCACCATGCTGGGACTGGATCAGCCGCTG -TACGTCCAGTACGGCACCTGGTTGTGGAAGGCGCTGCATCTTGACTTTGGTATCTCATTCGCCAGCCAACGCCCGGTACT -GGACGATATGCTGAACTTCCTGCCCGCCACGCTGGAACTTGCAGGTGCGGCGCTGGTATTAATTCTGCTCACTTCCGTAC -CGCTCGGTATCTGGGCGGCGCGCCATCGCGACCGTCTGCCGGATTTCGCCGTACGTTTCATCGCGTTTCTTGGCGTGTCG -ATGCCTAACTTCTGGCTGGCGTTTTTACTGGTGATGGCGTTTTCGGTGTATCTGCAATGGCTACCCGCGATGGGTTACGG -CGGCTGGCAGCACATCATTTTGCCTGCGGTTTCCATTGCCTTTATGTCGCTGGCGATTAACGCGCGTTTACTGCGCGCCA -GTATGCTGGACGTCGCCGGTCAGCGTCACGTCACCTGGGCGCGTCTGCGCGGCCTGAACGACAAACAGACCGAACGTCGC -CACATCCTGCGCAATGCCTCGCTGCCGATGATCACCGCCGTGGGGATGCATATCGGCGAACTGATTGGCGGGACGATGAT -TATCGAAAACATCTTTGCCTGGCCGGGCGTCGGGCGCTATGCGGTGTCGGCGATTTTTAACCGTGACTATCCGGTGATCC -AGTGCTTTACGCTGATGATGGTGGTGGTTTTTGTGGTCTGTAATTTGATTGTCGATTTGCTCAACGCCGCGCTGGACCCG -CGCATTCGTCGTCATGAAGGAGCGCACGCGTGAACTTTTTCCTCTCTTCCCGCTGGTCGGTACGCCTGGCGCTGATCATT -ATCGCCCTGCTGGCGCTGATTGCGCTCACCAGCCAGTGGTGGCTGCCGTATGACCCACAGGCGATTGATTTGCCGTCGCG -CCTGCTTTCGCCGGATGCGCAGCACTGGCTGGGCACCGATCACTTAGGTCGCGATATTTTCTCGCGGCTGATGGCAGCGA -CCCGCGTGTCGCTCGGTTCGGTAATGGCCTGCCTGCTGCTGGTGCTGACATTAGGGCTGGTTATTGGCGGCAGCGCCGGG -TTGATTGGCGGGCGCGTTGATCAGGCCACCATGCGCGTCGCCGATATGTTTATGACCTTCCCGACCTCGATTCTGTCGTT -CTTTATGGTTGGCGTGCTCGGCACCGGGCTGACCAACGTAATTATCGCCATCGCCCTGTCGCACTGGGCGTGGTATGCAC -GCATGGTGCGCAGCCTGGTGATTTCACTACGCCAACGCGAGTTTGTGCTGGCGTCACGGCTTTCCGGTGCGGGCCATGTG -CGGGTGTTTGTCGATCATCTGGCAGGCGCGGTGATCCCTTCGCTGCTGGTGCTGGCAACGCTGGATATCGGCCATATGAT -GCTGCACGTCGCGGGGATGTCTTTCCTTGGCCTCGGTGTGACCGCGCCGACCGCCGAATGGGGCGTGATGATTAACGACG -CGCGCCAGTATATCTGGACCCAGCCGCTGCAAATGTTCTGGCCGGGGCTGGCGCTGTTTATCAGCGTGATGGCCTTTAAC -CTGGTGGGTGACGCACTGCGCGATCATCTGGACCCTCATCTGGTGACGGAGCACGCACACTAATGCCGCAACAGATTGAA -CTACGTAATATCGCGCTACAGGCCGCGCAGCCGCTGGTACACGGTGTATCGTTAACCCTGCAACGCGGGCGCGTGCTGGC -GTTAGTCGGCGGTAGCGGCAGCGGGAAATCATTAACCTGCGCCGCAACGCTGGGCATTTTGCCCGCTGGCGTTCGCCAGA -CGGCGGGGGAAATTTTAGCCGATGGCAAACCGGTTTCGCCTTGCGCCCTGCGCGGCATCAAAATTGCCACCATCATGCAG -AACCCGCGCAGCGCCTTTAATCCACTGCACACCATGCACACCCACGCGCGGGAAACCTGCCTGGCGTTAGGGAAACCCGC -CGATGACGCTACGCTTACCGCTGCCATAGAAGCGGTGGGGCTGGAAAACGCCGCGCGCGTGCTGAAGCTGTACCCGTTCG -AGATGAGCGGCGGCATGTTGCAGCGCATGATGATTGCGATGGCGGTGCTGTGTGAATCACCGTTTATCATCGCCGATGAA -CCGACCACCGACCTTGACGTGGTAGCACAGGCGCGCATCCTCGATCTGCTGGAAAGCATTATGCAAAAACAAGCGCCGGG -AATGCTGCTGGTGACCCATGATATGGGCGTTGTGGCGCGTCTGGCGGATGACGTGGCGGTGATGTCTGACGGTAAGATTG -TCGAACAGGGCGATGTAGAAACGCTGTTTAACGCCCCCAAACATACAGTGACGCGCAGCCTGGTTTCCGCTCATCTCGCC -CTCTACGGTATGGAGCTGGCATCATGACTTTACTTAACATCTCCGGCCTTTCCCATCACTATGCGCACGGTGGATTTAAC -GGAAAACATCAACATCAGGCGGTGCTGAATAACGTTTCCCTGACCCTGAAAAGCGGCGAAACCGTCGCCCTGCTGGGGCG -CAGCGGCTGCGGGAAAAGTACCCTCGCGCGGTTGCTGGTGGGTTTAGAATCGCCCGCGCAGGGGAATATTAGCTGGCGTG -GCGAACCGCTGGCGAAACTCAATCGCGCCCAGCGTAAAGCGTTCCGCCGCGATATTCAGATGGTATTTCAGGACTCCATC -AGCGCCGTGAATCCGCGCAAAACCGTGCGCGAGATCCTGCGTGAACCGATGCGCCACCTGCTATCACTGAAAAAATCCGA -ACAACTGGCGCGCGCCAGCGAAATGCTGAAGGCGGTCGATCTCGATGACAGCGTTCTCGACAAACGCCCACCGCAGTTAA -GCGGCGGCCAGCTCCAGCGCGTCTGCCTGGCTCGCGCGCTGGCGGTCGAACCGAAACTACTGATTCTGGATGAAGCCGTT -TCTAACCTTGATCTCGTGTTACAGGCGGGTGTCATTCGCCTGCTGAAAAAGCTACAACAACAGTTTGGCACCGCCTGCCT -GTTCATCACCCACGACTTACGCCTGGTAGAACGCTTTTGCCAGCGGGTAATGGTTATGGACAACGGACAAATCGTCGAAA -CCCAGGTGGTGGGAGAGAAATTAACCTTTTCCTCTGACGCCGGACGTGTGCTACAAAACGCGGTATTACCCGCATTCCCC -GTGCGCCGTCGCACCACAGAAAAGGTTTAACGCAAATGCAACGAGTCACCATCACGCTTGATGACGATTTACTGGAGACG -CTGGACAGCCTGAGCCAGCGTCGTGGTTATAACAACCGTTCCGAAGCTATCCGCGACATTCTGCGTAGCGCCCTGGCGCA -AGAGGCCACCCAGCAGCACGGCACGCAAGGTTTCGCGGTGCTGTCGTATGTGTATGAACACGAAAAACGCGACTTAGCCA -GCCGCATTGTCTCCACCCAGCATCATCACCACGACCTCTCCGTCGCCACGCTGCATGTGCACATCAACCACGACGACTGT -CTGGAAATCGCCGTGTTGAAAGGTGACATGGGTGACGTGCAGCATTTTGCCGATGACGTTATCGCCCAGCGCGGCGTGCG -GCACGGGCATTTGCAGTGCTTGCCGAAGGAAGATTGAGTCTATTATTGGGTCCTTTGGTGAACGATCAACAAAGGGCCAC -TAGCACACCTGATTCCTCTCTAAATACCCTATCCGAACCTTCTCTTTTGTAACGTTCTAAATATATTCCTAAAAATCTTC -AATTCATTGTGACCACAAGTTTTTCTTCGCTTTTTCGTATGAAGATACTGTCATTAAAATAATAGAAAAGGATTTTACGA -TGAGCGGAAAACCGGCGGCGCGTCAGGGTGACATGACGCAGTATGGCGGTAGCATTGTTCAGGGTTCAGCCGGGGTACGT -ATTGGTGCCCCCACCGGCGTGGCCTGTTCGGTGTGCCCCGGCGGAGTGACGTCCGGCCATCCGGTCAATCCCCTGCTCGG -TGCAAAGGTCCTTCCCGGTGAAACCGACATCGCCCTGCCCGGCCCGCTGCCGTTCATCCTCTCCCGCACCTACAGCAGTT -ACCGGACAAAAACGCCCGCGCCGGTGGGGAGCCTCGGCCCCGGCTGGAAAATGCCTGCGGATATCCGCTTACAGCTGCGC -GATAACACACTGATACTCAGTGATAACGGCGGCAGAAGCCTGTATTTTGAGCACCTGTTTCCCGGTGAGGACGGTTACAG -CCGCAGCGAGTCACTGTGGCTGGTGCGCGGCGGCGTGGCGAAACTGGATGAAGGTCACCGGCTGGCCGCACTCTGGCAGG -CGCTGCCGGAAGAACTCCGCTTAAGTCCGCATCGTTATCTGGCGACAAACAGTCCGCAGGGGCCGTGGTGGCTGCTCGGT -TGGTGTGAGCGGGTGCCGGAAGCGGATGAGGTGCTGCCTGCGCCGCTGCCGCCGTACCGGGTACTGACCGGGCTGGTGGA -CCGCTTCGGGCGCACACAGACGTTCCACCGCGAAGCCGCCGGTGAATTCAGCGGCGAAATCACCGGCGTGACGGATGGTG -CCTGGCGTCACTTCCGGCTGGTACTGACCACGCAGGCGCAGCGGGCAGAAGAAGCCCGGCAGCAGGCCATTTCCGGCGGG -ACGGAACCGTCCGCTTTTCCTGATACCCTGCCGGGTTACACCGAATATGGCCGGGACAACGGCATCCGTCTGTCTGCCGT -GTGGCTGACGCACGACCCGGAATACCCGGAGAATTTACCTGCCGCGCCGCTGGTGCGCTATGGCTGGACGCCACGCGGCG -AACTGGCGGTGGTGTATGACCGTAGTGGCAAACAGGTGCGCAGCTTTACTTACGATGATAAATACCGGGGCCGGATGGTG -GCGCACCGTCACACGGGCCGGCCGGAAATCCGTTACCGTTACGACAGCGACGGGCGGGTGACAGAACAGCTAAACCCGGC -AGGCTTAAGCTACACGTATCAGTATGAGAAAGACCGCATCACCATCACCGACAGCCTGGACCGCCGTGAAGTGCTGCACA -CGCAGGGCGAAGCCGGGCTGAAGCGGGTGGTGAAAAAGGAACACGCGGACGGCAGCGTCACGCAGAGTCAGTTTGACGCC -GTGGGCAGGCTCAGGGCACAGACGGATGCCGCAGGCAGGACAACAGAGTACAGCCCGGATGTGGTGACGGGCCTCATCAC -GCGCATAACCACGCCGGATGGCAGGGCATCGGCGTTTTACTATAACCACCACAACCAGTTAACGTCAGCCACCGGGCCTG -ACGGGCTGGAATTGCGCCGGGAATATGATGAATTGGGCCGTCTGATTCAGGAAACTGCCCCTGACGGCGATATCACCCGC -TACCGTTATGATAATCCACACAGTGACTTACCCTGCGCAACGGAAGATGCCACCGGCAGCCGGAAAACCATGACGTGGAG -CCGTTACGGTCAGTTGCTGAGCTTCACCGACTGTTCCGGTTATGTAACCCGTTATGACCATGACCGCTTCGGGCAGATGA -CGGCGGTGCACCGCGAGGAAGGGCTGAGTCAGTACCGCGCATACGACAGCCGTGGACAGTTAATTGCCGTGAAAGACACG -CAGGGCCATGAAACGCGGTATGAATACAACATCGCCGGTGACCTGACCGCCGTCATTGCCCCGGACGGCAGCAGAAACGG -GACACAGTACGATGCGTGGGGAAAGGCCGTCCGTACCACGCAGGGCGGGCTGACGCGCAGTATGGAATACGATGCTGCCG -GACGGGTCATCCGCCTGACCAGTGAAAACGGCAGCCACACCACCTTCCGTTACGATGTACTTGACCGGCTGATACAGGAA -ACCGGCTTTGACGGCCGCACACAGCGTTATCACCACGACCTGACCGGCAAACTTATCCGCAGCGAGGATGAGGGTCTGGT -CACCCACTGGCACTATGACGAAGCAGACCGCCTCACGCACCGCACCGTGAAGGGTGAAACCGCAGAGCGGTGGCAGTATG -ACGAACGTGGCTGGCTGACAGACATCAGCCATATCAGCGAAGGGCACCGGGTGGCGGTGCATTACAGGTATGATGAGAAA -GGCCGGCTGACCGGTGAGCGTCAGACGGTGCATCACCCGCAGACGGAAGCACTGCTCTGGCAGCATGAGACCAGACATGC -GTACAACGCGCAGGGGCTGGCGAACCGCTGTATACCGGACAGCCTGCCCGCCGTGGAATGGCTGACCTACGGCAGCGGTT -ACCTGGCAGGCATGAAACTCGGCGACACACCGCTGGTGGAGTACACCCGCGACCGCCTGCACCGGGAAACGCTGCGCAGC -TTCGGCCGTTATGAACTCACCACCGCTTATACCCCTGCCGGGCAGTTACAGAGCCAGCACCTGAACAGCCTGCTGTCTGA -CCGCGATTACACCTGGAACGACAACGGCGAACTCATCCGCATCAGCAGCCCGCGCCAGACCCGGAGTTACAGCTACAGCA -CCACCGGCAGGCTGACCGGCGTTCACACCACCGCAGCGAATCTGGATATCCGCATCCCGTATGCCACAGACCCGGCAGGT -AACCGCCTGCCCGACCCGGAGCTGCACCCGGACAGCACCCTCAGCATGTGGCCGGATAACCGTATCGCCCGTGACGCGCA -CTATCTTTACCGGTATGACCGTCACGGCAGGCTGACAGAGAAAACCGACCTCATCCCGGAAGGGGTTATCCGCACGGATG -ATGAGCGGACTCACCGGTACCATTACGACAGTCAGCACCGGCTGGTGCACTACACGCGGACACAATATGAAGAGCCGCTG -GTCGAAAGTCGCTATCTTTACGACCCGCTGGGCCGCAGGGTGGCAAAACGGGTGTGGCGGCGTGAACGGGACCTGACGGG -CTGGATGTCGCTGTCACGGAAACCGCAAGTGACCTGGTACGGCTGGGACGGCGACCGGCTGACCACGATACAGAACGACA -GGAGCCGCATCCAGACGATTTATCAGCCGGGGAGCTTCACGCCACTCATCAGGGTCGAAACTGCCACCGGTGAGCTGGCG -AAAACGCAGCGCCGCAGCCTGGCGGATGCCCTTCAGCAGTCCGGCGGCGAAGACGGTGGCAGTGTGGTGTTCCCGCCGGT -GCTGGTGCAGATGCTCGACCGGCTGGAAAGTGAAATCCTGGCTGACCGGGTGAGTGAGGAAAGCCGCCGCTGGCTGGCAT -CGTGCGGCCTGACCGTGGAGCAGATGCAAAACCAGATGGACCCGGTGTACACGCCGGCGCGAAAAATCCACCTGTACCAC -TGCGACCATCGCGGCCTGCCGCTGGCGCTCATCAGCACGGAAGGGGCAACAGCGTGGTGCGCAGAATATGATGAATGGGG -CAACCTGCTGAATGAAGAGAACCCGCATCAGCTGCAGCAGCTTATCCGGCTGCCGGGGCAGCAGTATGATGAGGAGTCCG -GCCTGTATTACAACCGCCACCGCTATTATGACCCGCTGCAGGGGCGATATATCACTCAGGATCCGATTGGACTGAAGGGG -GGATGGAACCTGTATGGATATCAATTGAATCCGATATCAGACATCGACCCCCTGGGTTTATCTATGTGGGAGGATGCAAA -ATCGGGGGCATGTACTAATGGTCTTTGCGGCACACTATCCGCTATGATAGGTCCAGATAAATTTGATTCTATAGATAGCA -CCGCATATGACGCCTTAAATAAAATAAATAGCCAATCTATTTGCGAAGATAAAGAGTTCGCTGGTTTAATATGTAAGGAT -AATAGTGGCAGATATTTCTCAACAGCACCTAACCGAGGAGAAAGAAAAGGATCATATCCATTCAATAGCCCTTGCCCTAA -TGGTACTGAGAAAGTATCAGCTTATCATACTCATGGTGCAGATAGTCATGGAGAATATTGGGACGAAATATTTTCAGGTA -AAGATGAGAAAATAGTTAAAAGTAAAGATAACAATATCAAGTCATTTTATTTAGGTACGCCCAGTGGTAATTTTAAAGCA -ATAGATAACCACGGGAAGGAAATAACAAACAGAAAAGGATTACCTAATGTCTGCAGAGTTCATGGTAATATGTAAAAAAA -TATTGTTTAGGAACTGTGTCATTGTATCTTTGTTTGTTTTTACATACAACACATGGGCGCAGTGTAATAATAATATTAAA -ATAATGCGCAAGTATGAAAGTGAAGGTAAATATACCGTTAGAAATTTGGTTAAAAATAAAGCTATAGCATTGGAATTAGC -TGAGATATATGTTAAGAATCGTTATGGACAGGATGCCGCAGAAGAAGAAAAACCATACGAAATCACTGAGTTAACAACAA -GTTGGGTTGTTGAAGGTACCATTCACTCAGACCAAATTGCTGGTGGGGTTTTTATTATAGAAATAGGCAAAAATGATGGG -AGAATTCTGAATTTTGGCCACGGAAAATAAGTATGTAAGGATAATCAAACATCGTGTGCGCTGATGGCAGAGTAGGTGGA -GGACTCCAGACAGTCAAACGATAGAAAAAGATAGCCTTTATGGAGGTTCCTGCAATGTCAAATACATACCAGAAAAGAAA -GGCAAGTAAAGAGTATGGTTTATATAATAAATGTAAGAAACTAAATGATGATGAATTATTTCGCTTACTTGATGATCGCA -ATTCCTTGAAAAGGATTTCATCTGCCAGAGTATTACAGTTAAGAGGGGGGCAAGACGCTGTTAGATTGGCAATTGAATTC -TGCACTGACAAAAATTATATCCGTAGAGATATCGGAGCATTTATACTCGGGCAAATATAAATTTGCAAAAAATGCGAAGA -TAATGTTTTTAATATTTTGAACAATATGGCATTGAATGATAAGAGTGCTTGCGTTCGAGCTACGGCAATCGAGTCAACGG -CCAGGGAAAGATCATCAAAAGTTCACTTTTTGCACTAAATAATTCGCATTTTATGTTTAAAAATTGAGATATTCCTTATT -ACCTGAAGCTGTTTTTTATTGCTTATACATGATCAAATACTCCTTACCTAATTAAGGAGAACAAAATGGAACTTAAAAAA -TTGATGGAACATATTTCTATTATCCCCGATTACAGACAAACCTGGAAAGTGGAACATAAATTATCGGATATTCTACTGTT -GACTATTTGTGCCGTTATTTCTGGTGCAGAAGGTTGGGAAGATATAGAGGATTTTGGGGAAACACATCTCGATTTTTTGA -AGCAATATGGTGATTTTGAAAATGGTATTCCTGTTCACGATACCATTGCCAGAGTTGTATCCTGTATCAGTCCTGCAAAA -TTTCACGAGTGCTTTATTAACTGGATGCGTGACTGCCATTCTTCAGATGATAAAGACGTCATTGCAATTGATGGAAAAAC -GCTCCGGCACTCTTATGACAAGAGTCGCCGCAGGGGAGCGATTCATGTCATTAGTGCGTTCTCAACAATGCACAGTCTGG -TCATCGGACAGATCAAGACGGATGAGAAATCTAATGAGATTACAGCTATCCCAGAACTTCTTAACATGCTGGATATTAAA -GGAAAAATCATCACAACTGATGCGATGGGTTGCCAGAAAGATATTGCAGAGAAGATACAAAAACAGGGAGGTGATTATTT -ATTCGCGGTAAAAGGAACCCAGGGGCGGCTAAATAAAGCCTTTGAGGAAAAATTTCCGCTGAAAGAATTAAATAATCCAG -AGCATGACAGTTACGCAATCAGTGAAAAGAGTCACGGCAGAGAAGAAATCCGTCTTCATATTGTTTGCGATGTCCCTGAT -GAACTTATTGATTTCACGTTTGAATGGAAAGGGCTGAAGAAATTATGCGTGGCAGTCTCCTTTCGGTCCATAATAGCAGA -ACAAAAGAAAGAGCCAGAAATGACGGTCAGATATTATATCAGTTCTGCTGATTTAACCGCTGAGAAATTCGCCACAGCGA -TCCGAAATCACTGGCACGTGGAGAATAAGCTGCACTGGCGTCTGGACGTGGTAATGAATGAAGACGACTGCAAAATAAGA -AGAGGAAATGCAGCAGAATTATTTTCAGGGATACGGCACATTGCTATTAATATTTTGACGAATGATAAGGTATTCAAGGC -AGGGTTAAGACGTAAGATGCGAAAAGCAGCCATGGACAGAAACTATCTGGCGTCAGTCCTTGCGGGGAGCGGGCTTTCGT -AATCTTGCCCTGAATACAGGACTGAGTATCAAAAAGCCGGTTAACTGAAACTGTCCAGGTTTTGGGGGTCAGTTCATAAA -CGCCTTATCCGGCCTAAAAACAACTAAAATTCAATAAATTGCACCGATGCGTAGTCCCTATAAGCTTACGCATCGGGCAA -TTGTATTTACGCCATTGTCCCAATCGTCTTCCTGAATCGCAGCAGCGCAATGGTGAAAAATGCGCCGCCAATTGCCATCA -GCGTCAGAAACTGCGGCCAGACGATTTCGAATCCGGCACCCCGGTAGAGGATGGCCTGCGCGAGGCTAACAAAGTGTGTC -GTCGGCATGGTCAGCATAATGTCCTGCACCATCTGCGGCATACTTTCGCGCGGCGTGGAACCACCGGAAAGCATTTGCAG -CGGCAGCAGCACCAGAATCACCAGCAGCCCCAGTTGCGGCATTGAACGCGCTATCGTCCCCATAAAAATGCCGATTGACG -TGGTGGCAAACAGACTGAGCGCCACGCCCAGCATAAACAGCGGGATCGAGCCTTCAATCGGTACGCCCAGTACACCTTTC -ACCATCAGCACCAGCGATAATCCCGATACCACCAGCACCACCAGCCCCATCGACCAGATCTTCGCCATCATGATCTCAAA -CGGCGTTATCGGCATCACCAGTAAGTGTTCCACCGTGCCGTGTTCACGCTCGCGGATCAGCGCCGATCCGGTCAATACAA -TCGCCAGCATGGTAATGTTGTTGATGATCGCCATCACCCCGCCAAACCACGCGGGATCGAGGTTCGGGTTAAAGCGCATC -CGGGTTTCCAGCGATACCAACGGTTCGCTGTTATCACGGTAGCGCGCGACAAAGCTGTTCACTTCACCGTTGATAATATT -CTGGATATACCCATTGCCGGTAAATGCCTGGCTCATGCGCGTGGCATCGACGTTCACCTGAATATCCGGCTGGCGTCCGG -CGAGGACATCACGCTGAAAATTAGGCGGAATATTTATCGCGAAGGTATAGCGTCCGGCGTCCAGTCCGGCATCCATCTCA -TCGGCGGTGATCATCTCCGGTGGCAAAAACCACGGACGATAGAAGCTGTTAACGATCCGGTTCGATAACTGCGATTGATC -CATATCGGCAATGGCGATCGGCGCGAGGTTCAACGATCCTGGCGTAACGGTCGCTGACGAATACACCGACACCGTAAACG -AGAAGACAATCAGCGTCAGCATCGCTTTATCACCGAGCAGACTGCGCAACTCTTTGATACCCAGATTAAAAATATTGCGT -AAATGGCGCATCATCCCTCCTGTTTTTTCAGCAGCAGGATACTTAAGCCCATCACCAGCGGGATGGCTATCAGTAACGGG -ATAAAAAGTTGCCACAAATCAGTCAGATCCAGCGCTTTCGAGAACGTCCCGCGGGCGATAGTCAGAAAATGACTGGTCGG -GTAAACCTCGCCGATCCAACGTCCAGGCCCTTCCAGCGAAGCTACCGGATCGATCATCCCGGAAAACTGTGTCGCCGGGA -TCAACGTGATAATCGCCGTTCCGAAAATGGCGGCAATCTGGCTTTTCATAAAGGTGGAGATCAGCAGCCCCATTCCGGTG -GCAATGATGATATACAGCAGCGCCGCCAGGGTGAGCGTCAGGAAACTGCCTTTATGCGGTACGCCAAACACAAACACCGA -CAGGCCGCAGAGCAGGAAAAAGTTCAGCATCCCCAGCGCGATGTATGGCAACTGTTTACCAAGCAAAAATTCACTACGCG -TGGTGGGGGTCACGTAAAGGTTGATAATCGACCCAAGCTCTTTTTCCCGCACCACGCTAAGGGCGCTTAGCATTGACGGG -ATCATCATCAGCAGAAGCGGGATCACCGCCGGAACAATCGCTGGCAGGCTTTTTACGTCCGGGTTATAGCGATAGCGCGT -CTCAATATTCATCAGCCCGCTTTGGCTGGCGGGTGTCGATTGTCGGCTCGCCACATCCTGTAACCAGCTCTGGTGCATGG -CCTGCACGTAACCTTTTACCGTTTCAGCACGGCTCGGCATCGCTCCGTCGATCCAGACGCCGAGTTCCACAGGCGTACCA -CGCGCGATATCGCGCCCGAAATTGGGCGGGATCTCAATCGCCACCGTGATATCGCCCGCACGCATCCGACGATCAAGCTC -GTCATAACTGGTGAGCGGCGGCTGTTCGATAAAGTAACGGGAACCGGAGAGGTTGAGTGTCCACGCCTGGCTACTGACGG -TCTGGTCGCGGTCGAGCACCGCAAAGCGCAGGTTTTCCACATCCATACTGATGCCGTAACCCATTATCAGCATCAGGATC -ACCGTTCCCATCAGCGCCAGCGTCGAACGTACTGGATCGCGTCGCAGTTCCAGCGCTTCGCGGCGGCTGTAGCTAAACAG -ACGGCGCAGGCTAAATCCCTGACGCGGCGCGTGGGTGGTGTCGTGTACCACGGGCGGCGCTTCGGCTTCGTTGCTCTGCC -CTGCCGCTTCCTGCAAATAGGCGATAAATGCCTCTTCCAGACTGGCGGCTCCGCGTTTCTCAACCAGTTCCTGCGGTGTA -CCGCTGGCAAGCACTTTTCCGGCGTGCATCAGTGAGATGCGGTCGCAACGTTCCGCTTCGTTCATAAAGTGGGTGGAGAT -GAAGATAGTCACTTTGTCCTGGCGCGAGAGATCGACCATCAACTGCCAGAACATATCCCTCGCCACCGGATCGACACCAG -AAGTAGGCTCATCGAGGATTAACATCTCCGGGCGATGAATCACCGCCACCGCCAGCGAAAGCCGCTGGCGAATGCCGAGC -GGCAATGACTCCGGCAGAATATCTTCAACGTCGTTGAGCTTAAAACGCTCGCTCATTTCAGCCACTCTTGCGGGAATTTC -CGCTTCCGGGATGTGAAACAAACGGGCATGTAACTCAAGGTTTTGCCGCACGGTGAGTTCGTTATAGAGCGAAAACGCCT -GCGACATATAGCCCACCCGACGGCGGGTATCGATATCTTTTGGATCAACCGGTTGCCCGAACAGCCACGCCTCACCTTCG -CTGGCGGGCAGCAGTCCGGTGAGCATTTTCATGGTGGTGGATTTACCGCAGCCGTTCGAACCAAGAAAACCAAAAATCTC -CCCGCGTGGAATGCGGAAATTAACGTGATCAACGGCAACGAAGGAACCAAAACGCATGGTCAGATCGCGCGCTTCGATGG -CAATCTCTGCGTTTTCAGGTTGATACGGTGGGATCACTACCGCCTGATGCGCCTGGCGTTGCGCTTGCGGTAACAGATTT -ATAAATGCTTCTTCCAGCGTAGCGCTTTGCGTTTGCTGCCGTAGCTCTTCGGCGCTGCCAGTTGCCAGCACTTCTCCGGC -ATTCATCGCTACCAGCCAGTCGAAGCGTTCGGCCTCTTCCATATAGGCGGTGGCGACCAGCACGCTCATATTGCTCTGCC -GCTGGCGAATACTGTCGATCAGATCCCAGAACTGGGAGCGGGAGAGCGGGTCAACCCCCGTTGTTGGCTCATCAAGGATC -AACAGTTCCGGGTCGTGGATTAACGCGCAGCACAGCCCAAGTTTTTGCTTCATCCCGCCGGAGAGTTTCCCTGCCGGACG -ATCGCGAAACGGTGCTAACCCGGTGCTGGTCAGCAGCTCATTGATTCGCACTTCCCGCTCCGCTTTGTCGTGACCGAACA -GGCGAGCGAAAAAATCGACGTTTTCATACACCGACAAGGTGTGGTAGAGGTTTTTGCCCAGCCCCTGCGGCATCCAGGCG -ATGCGCGGGCAGACGTCGCGGCGATGCTTCGGGTCGCGCATATCGCCGCCCAGCACCATCACATTGCCCTGTTCAATGAC -GCGGGCACCGGAAATCAACGACAACAAGCTCGACTTCCCGACGCCGTCCGGGCCAATCAGCCCGACCATACAGCGGGCCG -GAATATCGAGAGTGATATTGTTCAGCGCAACGGTTTTTCCATAATGCTGGCTCACGCCCGCCAGTTGCGCGACAGGCGGG -ACGGGAACCAGTTCCAGATGCGTCATTGCGGCAACCTCACCACGAGGTCGTCAGGCCACGGAAGTTCTTCATTCACCCGC -ACCCACGCTACGCCCGGCAAACCGGTTTTGACATATTCCAGATGCTGCTGGAGTAATTCCGGTGGGATACGCGCTTTGAC -GCGGAACATCAGTTTCAGCCGTTCATCGCTGGTTTCGACGGTTTTTGGCGTGAACTGGGCGACACTGGCGACAAAACTGA -TGGTTGCAGGAATACGCAGATCTGGCGCGGCATCGAGGATCAGCCGGGCTTCACCGCCCAGTTTCAGCGTGCCCGCCTGT -TCGGTTGGCAGGAAGAAAGTCATATAGACGTCGCTGAGATCGACCATATTCAGCACCCGACCGCCTGCCGCCAGCACTTC -GCCTGGCTTGGCAACCCGATACTGCACGCGTCCGTCACGCGGGGCTTTCAGTTCGCTGTCATCGATATCTGCGGCAATGC -GCCGTTCAGTGGCTTGTGCCGCTTCGACGCGGGTTTGCGCCTGAATGATATTGGTGCGTGCCGCTTCTATAGCCGCTTTA -GAAGCCGATACCTGAGCTTTCGCCGATTCCAGCGCAGCTCGGGCGCTCTCAGCGGCGGCGCGATCGTCATCCAGCTGTTG -CGCAGAAATAGCCCCTCGTTGGGCCAGTGAACGGGAACGCGTATGACGTTTTGCTACGGAGTCCAGTTCTGCCTGGCGTT -GATTAACCAGCGACTGTGCGGCACGAGTTTCGCTTTGTCGTTGCTCCAGCAAAGCCTGCGCGGCAGCAACGGCGCTTTGT -GCCTCTTTGATTTGCGCGATGGCTTCCAGTCGCTGTTCCTGCAACACGCGAGTATCCATCTTCGCCAGCACTTCACCTTC -GCGAACAAACTTGCCTTCTTTCACCAGAATGGTGTCGATACGCCCGGCAATTTTGCTGGCAATATCCACTTCCGTCGCTT -CAATGCGCCCATTACTGACAGCAAAGCCTTCCGGCACACCTGCCGGGCGCAACAGCCACCACGCCACGATAGCCGCCACC -GCCAGTAACCCGACAACCCACCACGCCAGATGGCGCTTACTCTTATCCATAATCGACCCGCCATAATCCCTGTAAGCAAA -CGACGCGTGTTACAACTGCCGCCGAACGACGTTCAGCGGATTCTTCCATCCGGGATAAGAAGGAAACGGCAAATACGACC -AGCGCGCAGAGCATTGAGCGCCAACGGGGAAGGCTTAGTGAAAACGGGTAGTAATGTTGTCATCATCAGCATTCCTGGCC -GTAAATGAAACACGCATACTCATAAGTGTGATCTATAAAACTGGCTGACAAAACGGTATCCATCCTGTTGGATAGCGTTT -CACGCCTGTTCAGTTGCAGGAACAGAGCATTCCTTTTTACGTTTTATCAACAGTCTCAACCAGATAGTAACATTAATATT -CATGTTGTCTATGGTTCAGAGCTGTAACATTGTGCGCCTTCTAATCAAAGGCATAAGTCCATTTCTGTTTTTTTCATGCT -GGTAAGACTTCCAGGGAGTGGTTATCTCAGGCCCTGCACCAGGGTTAATTTGGCAATTATGCATGCTGAACATTCTTCCA -GCATGTTTACTGTCACGGGCGTTAAGACCTAAAACTGTCCCCGTTTCGCCTATGCGTTCTCTTCCACCATTTCCGTTATG -TGCAACAACTTGATTTATACCTAACATTTGTGAACATGCTAATAGTGCTTCAAGTTTAGGTCTGTAATCTGTCGAAACAG -AAAAATAACGATTAAAGGATCGACAAGAGATAGCCCGGCTAGTTTTAAACTTTTTGCCATTAATTATAGCATGATGCTTT -TTATTGATAATTGCCGCTAATTCGACCGGATCGAGAGCATTGGTCATTTCATCAATAGAGACTGTTATCGGTCCTATAAT -GTAACGTTTTCGCTGATCATCAAAAGTTATCCCATGATGATTTGCCATTATTTTGTATTTGGGGTCATAGAAACATACAG -GATAATCTTTTATCCCAGAGTAGGTATCCTCATCGAGTGGTTTCATACGCGTGAAGTTCTGCATATAGTTACCATTGCAA -TTCGTTTCATGATTTCCAGCTAATACATGAACATTTTCATTGATACTCATTATGCGTTTTAACAAATCGATGATAAATTG -ATCACCACAGATATTGCTAAATCGATCGCCGGTTTGGTCGCCCAGAAACGTACATGGCGTCACAGCGTCTTTATTAATAA -CTAAATAAGGCTGAAGACTTTCTAAAATAATGTCTCTTCTGTTCAGGATACTGATTATTGTATTAACATTAGTGTTAAGT -TGCTCATTAAAGTTCTCCCTTAGCAATACGTTGAGAACTTCATCTTCTATATTAAGCAACTGGCTAAGGAAATTTTCTCC -TTCAGCCATGATTCCCAAATGTCCCGTTGCGAAAAGCGCGAACAAAACTGCACCGACTGAGCCATCGGTATCACCAAAAT -AGGTTGGTCTGGTACTTGTGGGATCAACGGGTAAACAATTGGAGAAATAGATTCTGTCAGCGAACTGGGGTTTTATCATT -GTTTCGAATTTAATATCAGATACATTATATTGCGATATTTTCCAGTTCCAGATGGGTTTGTACGACTCAGTAACTGCAAC -ATCATTAGCATTATCATTTACTGTCATATTATTAAGTAAATAAACAATACTGCACCAATTAATATCGGTATTATCAAGAG -AGCAACCGTAATTTTTGCTATTAATTGTCACAATAAACTGATAATTATTATTCCTACGTAGAATATGAGCACGCATGCCC -GATAGCATACTATATTTTTCTGAATGATCCGTTTGTATGGTAAATGAAATTTTGTCATCTTGAATAGATTGTTGGAACCG -TTCTATTTGCCAATCATCTATTTTTTCCACAACCTCACCGAGCATTGTCCTGGCAATACTTGATATATCATCACCTATAC -CATTTGCAATATACCCAAACAGTTCTTTAGTGAAGTTGGTAACATGCTCTTGCACCATATCATTTGTTGCGATTGTCGTT -GTACTGTCGTTAGTGCCTGCCACAGTTCCAATTTTCATATTTTACCTCATATTATTTACCGCGAGGAATACATAGTTAAC -ATTTTATCTTATGACATACACCTCATGTTCGATGGGAAAATAATTATATTTTGCACAAATCATTCAGCCTCAAAGCATAA -TATGAAATTTCTTATCTCATAGCAGAGAAAGTCCCTAAAGATTGTAGAGGCGTCATCAGAACATGCCTCTACAATCGATT -AAGAAAACCTATGAAATACTGGCAGGATTAAAAAGACATACCACCGTATTCATGGAGTTTTAATGTAGTTGAAAACAACT -AAGCCCTGAGGAATAAATTATTTTATTATTTTTATCACGTGCTTCCTTCAGGGAATTTAGCCCCATAATACCATTATCAA -ATTGTTGATTATGATCTACCCCGGGCCCATGATGCCCATATTTTTGTCTAATGTATTTGCTGGGGTCTTCACCTTTGAGT -GTCTCCCCACATATGAAGATACGTTCACGTGCTGGTCTGAAATCAGTAGTGTTATCAAAATAATTAGCATATACAGGTGT -GGGTTTCAAAGTATTGCTTCGGATTAGATGGAATAGAGGATCATCCATGTGTTCTTTATGTTTTTTATTAAAAATATTGG -CTAATTCCTCAGGATCAGTAGGATTTTTCATCTGATTAAATGGAACCTGCAAAGCACCGAGACAATAACATTTTTTTCTT -CATCTCTTATTATTCCGTGATGACTGGTTAAAACTTGCCTTTCTGAGTCATAATTACAAACATCGAGCGTTTTAATTAAG -TTATACGTATCACCGGCAGAGAGTTTATGATTTGCTAGTCGTGCAGTATAGTTACCATTAAAATTGATTTCATGATTTCC -AGCCAGAACGACGACATTTTTATTAATACGGCTATCTTTATTACCCTCCATATTTCGCATAGAATTTAGCAAAGTAAGGA -TATATTTATCACCAAAAATAGTACTAAATCTATCGCCTGTATGATCCCCAAGGAAGATACAAGGGGTTATCGCATCGTCC -TTTAAAAAAACATGTTGATGCAACTCATTCAAGATCATGTCTCTCGTATTTAATAAATCGTAGAGCACTTTATTATTTTT -ATGTTTGTATGCAGATGAAGCCATCTCTTCGTGTTTTAATAATTCACATAATAAACTCCAACCCTTTTCCCTGATGCCTA -TATGCCCTGAAACGAGCAATGCATAAAGTACAGCGCCTACTCTTCCATCTGTATCGCCAAAATAAGCCGTGTTGGCATTT -TGTGGGTTAATCACACCACACTGTTTATAGAAGTCTATTTTTGAAAACACAGATTTAACATAGCTATCAAACTTTTCCTT -AGTAAACGTCTCTTTAGAGACATCCCAACGCCAGTCAGGTTTGAAATTACCACTAAGAAGAGTAAAGAAATTTCTCGCTA -TGATAGAAAGCCCATCAACTTTATAAATTATATCTGATTTATCTCCAGAGGAATTAATAAAATAATAACCGCCCTTACAC -TCAACAGTAACGGTAATGGGAGACGATAATTTTAACACATGGTTATTGTCTGGTATAATTGTAAAGATAAACGTATCAGT -AGTATTGTCGGCGAATCTATTATATTCTTGAATATCTATAGAAGGTTCACTATTATAAAACCATACTTTCTCCATCTGGT -GACTACGATCATTTACCTTCCAGTGACCATGTTGCAGGAAATAGATGATATGCAGGCCAAAATCGTTATCTATTTGCGAA -TCATTATCCAGTTTATCAAATTCAACTATCTTTGCACGATGTGTTTTATCAACCTTGCCATGGTGTTGATGACTGTTAAC -TTTATCTGAATGCTTATCTTGATGGCTTGAAGAGATGTTTCTAATCTGATTGTCAATTGCTTTCATAAATAACCTGTGAT -ATTTTTGAATTGTTTGTAACAAAATAAATGATACTTGTCTGAAAAACAGATTTACGACGATATAAAATAATAATACTTAT -ATGTTCGCTGATTTTAAGCACCGAGACTATCCGGTCTTTTACCAAATAATGAAGAATAATCCCTCCCTGGAAGATAATTG -TAAAAAACAACAGCATAAGAATTAATCTTAGGATAAATTTTTATTTATCATGGCCTTTTGAACGCTGAAAAGTAGCGCTC -TGCAAAGTAAACCCCGCTATAGTTATGCTATGCATTTGTCTTTAATGATATCTCGTCATTATATTAACAGGATGAAATTA -TCATTAATGCATATTTCAATATTAGCAGGGATACCTGAGGAGTTTAAAGTGAACATATATATCGGGTGGCTTTTCAAATT -AATCCCTTTGATTATGGGCTTAATTTGTATCGCGTTAGGTGGCTTTGTGCTGGAAAGTTCAGGGCAAAGCGAGTATTTCG -TCGCGGGTCATGTGCTGATTTCTCTGGCGGCCATATGCCTGGCATTATTCACTACCGCATTTATTATCATTTCGCAGCTC -ACGCGCGGCGTTAATACGTTTTACAATACATTGTTCCCCATTATTGGCTATGCGGGGTCAATTATCACCATGATATGGGG -TTGGGCACTGTTAGCAGGCAATGATGTGATGGCAGACGAGTTTGTCGCCGGCCATGTTATTTTCGGCGTTGGTATGATTG -CCGCCTGTGTATCGACGGTGGCAGCGTCATCCGGTCACTTTCTGCTCATTCCCAAAAATGCAGCGGGGAGCAAGAGCGAC -GGAACACCGGTACAGGCTTATTCTTCATTAATCGGTAACTGCCTCATTGCCGTTCCCGTTTTACTCACCCTGCTCGGTTT -CATTTGGTCTATTACGCTGTTACGTAGTGCTGACATAACTCCGCATTATGTCGCGGGTCACGTATTGCTTGGGTTAACCG -CAATCTGTGCCTGTCTAATTGGCCTTGTTGCCACAATTGTCCATCAAACACGTAATACGTTTTCAACTAAAGAACACTGG -CTGTGGTGTTATTGGGTTATTTTTCTCGGCTCAATCACGGTACTGCAGGGGATATACGTCTTAGTCAGTTCCGATGCAAG -CGCCCGACTGGCTCCCGGCATTATTCTTATTTGCCTCGGAATGATCTGTTACAGCATATTCTCAAAAGTCTGGCTACTGG -CACTGGTATGGAGACGTACCTGTTCGTTAGCCAACAGAATACCGATGATTCCCGTCTTCACCTGCCTGTTTTGCCTTTTC -CTGGCATCGTTTCTTGCGGAAATGGCGCAGACCGACATGGGATATTTTATTCCTTCGCGAGTTCTGGTCGGTTTGGGAGC -GGTATGCTTTACGTTGTTCTCAATCGTTTCAATATTAGAAGCGGGTTCTGCTAAAAAATAATTGCAACGTACCGGATAAA -ACCAGCGTTGACCATTTGCGTAACGCTGGTTTTTCTTAGGCATCATGAAATAACGCAGCATTAATGCATAGTGGTTAAGT -ATAAAAAACAGCAAAGTTACTGTTTTTTTCAACCTGTTCATATTTCATAAAGATCTGGCCACTGAGTGAGTTTTCAATCA -CCTTTCCATCCACCTTATATTAAGCATGGAGGGTTTCAGTTCACGGGCTCATTAGAAAATAATCACAAGATAACCACTAT -CAAAATTAGCTCATTTTTAATGCGACTCTAATAATTTTCATCTTTAGGAAATAGGTCAGGACGACTTTGCTGCAATCAAA -TCCTGCGCACAAGCCCACGCACTCGACCACGCCCACTGGAAGTTATAGCCCCCCAGCCAGCCGGTGACGTCCATCACTTC -GCCGATGAAGTACAGCCCAGGCACTTTGCGCGCTTCCATCGTCCGTGAAGAGAGTTCGTTGGTGTCCACGCCGCCGAGCG -TCACTTCGGCAGTGCGATAGCCTTCAGTGCCGTTGGGTTGTACGCGCCAGTCGGTCAATGTGCTAATCAGTGCCTGTTGG -TCACGCACGTTGAGCTGTTTTAGCGAAACATCCGGGATTTGCCCGAGTTGCTGTAAGCGTTCAACCAACCGCTTCGGTAG -ATGAACCGCCAGTGTGTTTTTCAGGCTTTGATTCGGATGTGCGTTACGCTGCTCATTCAGGAAGGTTTCGAGGTCCACAT -CCGGTAGCAGATTGATGCTGACAAATTCCCCCGGTTGCCAGTAGCTTGAAATCTGCAACACCGCCGGTCCAGACAAGCCG -CGGTGGGTGAAGAGTAAGTTCTCACGGAAAACGGTGCCGTTTTCAGCGGTAATCACGGAAGGCACCGCCACGCCCGCCAG -CACCTGTAACTCTTCGAGCAACGGTTTATGCAGAGTGAATGGCACCAGACCCGCGCGGGTCGGCAGCACGTTGAGGCCAA -ATTGTTCGGCAATCTTATAACCAAACGGCGACGCGCCCAGCCCCGGCATTGACAGCCCACCAGTCGCGATGACCAGCTTT -TCGCAACCGACAGTCATGCCGTTCAGATCAAGCGTGAAGCCTGTTTCATCCTTCGCCACACTCAGCACTTCGCTACGCAA -TCTGAAGGTCACATTGCCCTTCTCGCACTCATCCACCAGCATGTCGACAATCTGCTGCGCGGAGTCATCGCAGAAGAGTT -GCCCTAACGTTTTCTCGTGCCAGGCGATGCCGTGTTTATTGACCAGATCAATGAAATCCCACTGGGTAAAACGTGCGAGT -GCAGACTTACAAAAATGCGGATTCTGGCTCAGATAAGCGCCTGGTTCGACATAAAGGTTGGTAAAGTTGCAGCGCCCACC -GCCAGACATAAGGATTTTGCGCCCTGGTTTTTTACCATTATCGATCAGCAGAACCCGGCGTCCTGCCTGACCTGCCAGCG -CAGAACAGAACATACCCGCCGCACCAGCGCCTATAATAATGGCATCAAACCTTTCCACGTTGCGCTCCTCTTAGAAAAAA -CGGGCGTGAATTGTAAAGATTCCTCAGTGGTCGCACCAGCATCAATATTACTAAAAGGAAGTATTTGCCTGAATTATATA -AGATAATTATTTTTTGAGTGAAATCCATACAGGGGGCAAATCAAAAAAAGTCTATATTTCACTTTGCCCGCGCCGCGAAA -GTCACTGATAATGCGCCGCGTTCATGTCCTCAAAATGGCGTAACGTCCTATGCTACATTTGTTTGCTGGCCTGGATTTGC -ATACCGGGCTGTTATTATTGCTTGCACTGGCTTTTGTGCTGTTCTACGAAGCCATCAATGGTTTCCATGACACAGCCAAC -GCCGTGGCAACCGTTATCTATACCCGCGCGATGCGTTCTCAGCTCGCCGTGGTTATGGCGGCGGTATTCAACTTTTTGGG -TGTTTTGCTGGGTGGTCTGAGTGTTGCCTATGCCATTGTGCATATGCTGCCGACGGATCTGCTGCTTAATATGGGATCGT -CTCATGGCCTTGCCATGGTGTTCTCTATGTTGCTGGCGGCGATTATCTGGAACCTGGGTACCTGGTACTTTGGTTTACCT -GCATCCAGCTCTCATACGCTGATTGGCGCGATCATCGGGATTGGTTTAACCAATGCGTTGATGACCGGGACGTCAGTGGT -GGATGCACTCAATATCCCGAAAGTATTAAGTATTTTCGGTTCTCTGATCGTTTCCCCTATTGTCGGCCTGGTGTTTGCTG -GCGGTCTGATTTTCTTGCTGCGTCGCTACTGGAGCGGCACCAAGAAACGCGCCCGTATCCACCTGACCCCAGCGGAGCGT -GAAAAGAAAGACGGCAAGAAAAAGCCGCCGTTCTGGACGCGTATTGCGCTGATCCTTTCCGCTATCGGCGTGGCGTTTTC -GCACGGCGCGAACGATGGTCAGAAAGGCATTGGTCTGGTTATGTTGGTATTGATTGGCGTCGCGCCAGCAGGCTTCGTGG -TGAACATGAATGCCACTGGCTACGAAATCACCCGTACCCGTGATGCCATCAACAACGTCGAAGCTTACTTTGAGCAGCAT -CCTGCGCTGCTCAAACAGGCTACCGGTGCTGATCAGTTAGTACCGGCTCCGGAAGCTGGCGCAACGCAACCTGCGGAGTT -CCACTGCCATCCGTCGAATACCATTAACGCGCTCAACCGCCTGAAAGGTATGTTGACCACCGATGTGGAAAGCTACGACA -AGCTGTCGCTTGATCAACGTAGCCAGATGCGCCGCATTATGCTGTGCGTTTCTGACACTATCGACAAAGTGGTGAAGATG -CCTGGCGTGAGTGCTGACGATCAGCGCCTGTTGAAGAAACTGAAGTCCGACATGCTTAGCACCATCGAGTATGCACCGGT -GTGGATCATCATGGCGGTCGCGCTGGCGTTAGGTATCGGTACGATGATTGGCTGGCGCCGTGTGGCAACGACTATCGGTG -AGAAAATCGGTAAGAAAGGCATGACCTACGCTCAGGGGATGTCTGCCCAGATGACGGCGGCAGTGTCTATCGGCCTGGCG -AGTTATACCGGGATGCCGGTTTCCACTACTCACGTACTCTCCTCTTCTGTCGCGGGGACGATGGTGGTAGATGGTGGCGG -CTTACAGCGTAAAACCGTGACCAGCATTCTGATGGCCTGGGTGTTTACCCTTCCGGCTGCGGTACTGCTTTCCGGCGGGC -TGTACTGGCTCTCCTTGCAGTTCCTGTAATCGTACGCACCAAAACGAGCGGGTCAGCTGGCCCGCTTCAGATTGTGACAT -AGTGCGCTTTGTTCATGCCGGATGCGGCGTGAACGCCTTATCCGGCCTACAAAAACATGCAAATTCAATAGATTGCAGAG -ATTATGTAGGCCTGATAAGCGTAGCGCATCAGGCAATTTTGCGTTTGTAATCAGTCTCGAGCGGGTCAGTTTACTGGCCC -GCTTTTTTTATGCGTTATTATTGCTGAAGTGCTTAATGCCAAATCATCAATGCAATCAGGCTGACCACCACCAGACCACA -CAATGCGCTGGTCAGAATAAACTGCCGACGCACCCGCTCACAGCGGCGAATAAATTCATCATCGTGATGATCGCGATAAC -GTTGGGCATAGATATACCAAACGAGACGCACCTGTTTGTTGGGTTGGCCATGTGAGGTAAAAAAGCCCCCTCCATCAACA -TATTGATAGAGCAATGGATCGCAGTTACGCAGTACCACTAACAACGCGCGTAGTGATGAGAAATAGCGCGCCATGTTAAC -AATGCAAACGACACATAAAGCCCAAAATAATGCGACGGTGCTTATCATACCTCCTCCCCGGCGACCTGCCCGCGGAGTTC -CACCCCGGGGCTACCGCTCCCGATACGCTGCCAATCAGTTAACACCAGGTCCTGGAGAAACCGCTTTTGTGGTGACCAAC -ATACGAGCGGCTCTATAGATAGTGTAGGAGATCAGGTTGTTTTTTTTCCAGAAGGTTAACCACTATCAATATATTCATGT -CGAAAATTTGTTTATCTAACGAGTAAGCAAGGCGGATTGACGGATCATCCGGGTCGCTATAAGGTAAGGATGGTCTTAAC -ACTGAATCTTTACGGCTGGGTTAGCCCCGCGCACGTAGTTCGCAGGACGCGGGTGACGTAACGGCACAAGAAACGCTAGC -TGGCCAGTCATCGACAACTTTATGGAAGGAGTAACACTATGGCTTATAAACACATTCTCATCGCGGTCGACCTCTCCCCG -GAAAGCAAAGTTCTGGTAGAGAAAGCAGTCTCTATGGCTCGCCCCTACAATGCGAAAGTTTCTCTGATCCACGTAGATGT -AAACTACTCTGACCTATACACCGGGCTTATTGATGTGAATCTGGGTGATATGCAGAAACGCATCTCTGAAGAGACACATC -ATGCACTGACCGAGCTTTCCACTAATGCAGGCTACCCAATCACTGAAACCCTGAGCGGCAGCGGCGACCTGGGCCAGGTT -CTGGTCGATGCAATCAAGAAATACGATATGGATTTGGTGGTTTGTGGTCACCACCAGGACTTCTGGAGCAAACTGATGTC -TTCCGCACGTCAGCTGATCAACACCGTTCACGTTGATATGCTGATTGTTCCGCTGCGCGACGAAGAAGAATAATCTTCCC -TCTACGACGTGTTCCTGAACGCCCGCATATGCGGGCGTTTTGCTTTTTGGCGCGCCTTGTTACCTGATCAGCGTAAACAC -CTTATCTGGCCTACGGTCTGCGTACGCAATCAAAATCCCCAGCCAATACAACATTTAACACCATCATATTTTCCATCATT -AGTGTGATCATCTGGTTATTTTCTGTTGTAATAGTGTATTAATCTATTCACCGCATCAATATTAAGAATCTCTGACAGAT -GTAAACTTTTTCGCGCGTTATCCCTTACGCGTTCATACTTTTCAGGATGGTATTGGAAGGTTAATAAATATGAATACAAC -AACACCCATGGGGATGCTGCAGCAACCTCGCCCATTTTTCATGATCTTTTTTGTCGAGTTATGGGAGCGATTCGGCTACT -ACGGCGTGCAGGGCGTACTGGCGGTTTTCTTCGTTAAACAGCTTGGATTCTCGCAAGAGCAGGCTTTTGTCACTTTTGGT -GCTTTTGCTGCGCTGGTCTATGGCCTCATTTCCATTGGCGGCTATGTCGGCGACCACCTGCTGGGGACCAAACGCACCAT -TGTTCTTGGAGCACTTGTGCTGGCGATTGGCTACTTCATGACCGGCATGTCGCTACTTAAGCCTGACCTGATTTTCATCG -CCCTGGGGACTATCGCTGTCGGTAACGGCCTGTTTAAAGCTAACCCAGCCAGCTTGCTTTCGAAGTGCTATCCGCCGAAA -GATCCGCGGCTTGATGGCGCATTCACCCTGTTCTATATGTCGATCAACATCGGCTCGTTGATAGCGTTATCGCTGGCCCC -TGTGATCGCTGATAGATTCGGTTATTCAGTCACCTACAACCTGTGCGGGGCGGGGTTAATTATCGCATTACTGGTTTACA -TCGCCTGTCGTGGAATGGTGAAAGACATTGGTTCTGAACCCGACTTCCGGCCAATGAGCTTCAGCAAACTGTTGTACGTG -TTACTTGGCAGCGTGGTGATGATCTTCGTATGCGCATGGCTGATGCACAACGTAGAAGTCGCCAATCTGGTGCTGATTGT -TCTCTCCATCGTCGTCACCATCATCTTCTTTCGTCAGGCATTCAAGCTGGATAAAACCGGGCGCAATAAAATGTTTGTCG -CCTTTGTCCTGATGCTCGAAGCGGTGGTGTTTTACATTCTCTACGCCCAGATGCCAACATCGCTGAACTTCTTTGCCATC -AACAACGTGCATCATGAAATTCTCGGTTTTTCCATCAACCCGGTCAGCTTCCAGGCGCTTAACCCGTTCTGGGTGGTACT -CGCCAGCCCAATACTGGCAGGCATTTACACGCATCTGGGTAACAAAGGCAAAGACCTCTCGATGCCGATGAAATTTACTC -TCGGCATGTTTATGTGCTCACTGGGCTTTTTGACGGCGGCAGCTGCGGGAATGTGGTTTGCGGATGCACAAGGGCTGACA -TCGCCATGGTTTATCGTGCTGGTGTACTTATTCCAGAGCTTAGGTGAACTGTTTATTAGCGCCCTTGGCCTGGCGATGAT -TGCTGCCCTGGTGCCGCAGCATTTGATGGGCTTTATTCTCGGGATGTGGTTCCTGACGCAGGCTGCCGCGTTCTTGCTGG -GCGGCTATGTGGCAACATTTACCGCGGTGCCGGACAACATTACCGATCCGCTTGAGACGTTGCCCGTCTATACCAACGTG -TTTGGTAAGATTGGTCTGGTCACGCTGGGCGTTGCAGTAGTGATGCTGTTGATGGTGCCGTGGCTGAAACGCATGATTGC -GACGCCGGAAAGCCATTAATTATTCTTGCAGAAAGCAGGGTAGCGTTATCGCTACCCTGTTTTAGTTTTACACTGGCGTA -CCTGCATAGATATCAAAGCGATGCCCTTTAGTGACTACCGCGTTTGGCGTGGCGACATTCGCCAGCGGTGGCGCGTAGTC -CGGGCGCTTTACCACCACGCGTTTGGTCGCCAGCAAGCGTGCAGGCTCCAGTAATCCATCGGCATCAAGATCCGGTCCCA -CCAGCGACTGAAAGACACGCATCTCTTTTTTCACTAGCGCGCTTTTCTGCTTATGCGGGAACATCGGGTCGAGATAAACC -ACCTGCGGGCGCGGGGTAATATCAGTCAGCGCCGTCAGGCTGGAGGCGTGAATTAACTGCAACCGCTCCTGCAACCAGCC -GCCGATTTCCGCATCCGCATAACCACGCGCCAGGCCGTCGTCGAGTAGCGCGGCAACCACTGGATTACGCTCCAGCATCC -GCACGCGGCAGCCGACTGAAGCCAGTACAAAGGCATCGCGCCCAAGTCCTGCAGTGGCATCCACCACATCCGGCAAATAA -TCGCCTTTAATGCCCACCGCTTTCGCCACCGCCTCACCGCGACCACCGCCGAATTTGCGTCGGTGCGCCATCGCTCCGCC -AACAAAATCAACAAAGATGCCGCCAAGTTTTGGCTCATCACGCTTGCGCAATTCCAGATGTTCCGGCGTTAACACCAGCG -CCATCAGGTTGTCTTCATCGTGCTCCAGCCCCCAGCGGGCCGCCAGAACAGATAAGGCACCGTCTCCGGTGCCTGTTTCA -TCAATTAAGCAGATTTTCACTGAATGATCAGCCCTTAATGCCGTAATGCTCCAGCATCGCATCCAGCTGCGGTTCACGAC -CACGGAAGCGTTTGAACAGATCCATCGGCTCTTCTGAACCGCCACGGCTCAGAATGTTGTCGAGGAACGACTGCCCGGTT -TCACGGTTGAAAATGCCCTCTTCCTCAAAGCGCGAGAAAGCATCTGCCGCCAGTACGTCAGCCCACAGGTAGCTGTAGTA -ACCTGCGGCATAACCACCGGCGAAAATATGGCTGAAAGCGTGCGGGAAACGGCCCCAGGACGGAGATGGCACCACGGCAA -CCAGTTTCTTGATTTCTGCCAGAGTTTCGAGGATTTTTGCCCCCTGATCCGGGCGGAACTCGGCATGAAGGCGGAAATCA -AACAGGCCGAACTCCAGCTGACGCAGAATAAACAGCGCCGCCTGGTAGTTCTTCGCCGCCAGCATTTTATCCAGCAACTC -TTTCGGCAGCGGTTCGCCGGTTTCATAGTGACCAGAGATAAACGCCAGCGCCTCCGGCTCCCAGCACCAGTTTTCCATAA -ACTGACTCGGCAGTTCGACCGCATCCCACGGCACACCGCTGATACCGGAAACACCAGCGGTTTCGATGCGGGTCAGCATA -TGGTGCAGGCCGTGACCGAACTCGTGGAAGAGGGTGATCACTTCGTCGTGAGTGAACAGCGCCGGTTTACCATTTACCGG -GCGGTTGAAGTTACAAGTCAAATACGCGACCGGTTTTTGCAAAGAACCATCAGCTTTACGCATCTGGCCTACGCAGTCAT -CCATCCACGCCCCGCCGCGCTTGTTTTCACGGGCATACAGATCGAGGTAGAAGCTACCGCGCAGTTCGTTATTTTCGTCA -TACAGTTCGAAGAAACGTACATCCGGATGCCAGACATCAACATCTTTACGCTCTTTAGCGGTGATGCCGTAAATACGCTT -AACCACTTCAAACAGGCCGTTAACCGCTTTGTTTTCCGGGAAGTACGGACGCAGCTGTTCGTCACTGATGCTGTAGAGGT -GCTGTTTTTGTTTTTCGCTGTAGTAAGCGATATCCCACGGCTGCAACTCATCGACGCCAAATTCGGCTTTGGCAAAGGCA -CGCAATTGCGCCAGCTCTTTTTCGCCTTGTGGACGCGCGCGTTTTGCCAGATCGGTTAAGAAATCCAGCACCTGCTGCGG -GTTTTCTGCCATTTTAGTGGCAAGGGATTTAAAGGCGTAGTTTTCAAAGCCCAGCAGTTGCGCCAGTTCGTGACGCAGCG -CGAGGATCTCTTCCATCACCTTGCTGTTATCCCATTTACCGGCGTTTGGGCCTTGATCGGAGGCGCGGGTGCTGTAAGCG -CGATACATCTCTTCACGCAGAGCCTGGTTGTCGCAGTAGGTCATTACCGGCAAGTAGCTTGGGATATCCAGCGTCAGCAA -ATAACCTTCCAGCTCTTTCGCTTCGGCCTGGGCTTTTGCCGCAGCCAGCGCGCTTTCTGGCATCCCCGCCAGCTCCGCTT -CGTCGGTAACGAGTTTGGTCCAGCCCATTGTCGCATCGAGGACGTTGTTGCTGTACTGGTTGCCCAGTTCAGAAAGACGG -GTCGCAATTTCGCCGTAACGCTGCTGTTTCTCTTTCGGCAGACCTATGCCAGAGAGTTCAAAGTCGCGCAGTGCGTTATC -AACCGCTTTCTTCTGCGCCGTGTTCAGCGTGGCGTAATGATCGCCATCGCGCAGGTCGCGATACGCTTTATACAGCCCTT -CATGTTGCCCTACCCAGGTGCTGTATTCCGACAGCAGCGGCAGGGTTTGTTCGTAGGCTTCACGCAGTTCCGGGCTATTT -TTCACCGAGTTCAGGTGGCTGACCGGGGAGAAGATACGCCCCAACACATCGTCCACTTCCGCCAGCGGCTGGCAGAGATT -TTCCCAGGTGTACGGTGCCCCTTGCGCTACTACGCGCTCCACGTTTTCGCGGCAGTCGTTCAATGCCTTAGTCACGGCTG -GAACGACATGTTCCGGGAGAATTTTAGAAAACGGAGGCAATTCAAAGGGAGTCAGTAACGGATTCGTCATTCGCGCAGTC -CTGGTTAAAGAGGTTAAGGAAGCGCTCAACAGGCGCTTTACATAATGTGTGTAGCATGGGGTTAAGTGTAGTGAATTTCA -ATGAGAAACGTTACGCTTTCGCGGCGGCGGCCTCTTTTCGGTATACTGTCCTGATACGCTTTTGTGCGCCCCGAATACGG -GCCGATTTTTACTTACCGGAACACCTTTACCCATGCTCAGTTATCGCCACAGCTTTCACGCTGGCAACCACGCCGACGTC -CTTAAACATACCGTTCAGAGCCTGATCATCGAGTCGCTGAAAGAGAAAGATAAACCGTTTCTCTATCTCGACACCCACGC -AGGGGCCGGGCGTTATCAGTTAGGCAGCGAACATGCCGAGCGTACCGGCGAATATCTCGAAGGCATCGCCCGTATCTGGC -AGCAGGACGATTTGCCCGCAGAACTGGAGGCGTACATCAATGTGGTAAAACACTTCAACCGTAGCGGTCAGTTGCGTTAC -TACCCCGGTTCGCCGTTGATTGCTCGCCTGCTACTGCGTGAACAGGACAGCCTGCAACTGACCGAACTGCACCCGAGCGA -TTACCCGTTGTTGCGTTCTGAATTTCAGAAAGATAGCCGTGCGCGTGTCGAAAAAGCCGACGGTTTCCAGCAGCTTAAGG -CCAAACTGCCGCCGGTTTCCCGCCGTGGTTTAATCCTTATCGACCCGCCGTATGAAATGAAAACTGACTATCAAGCGGTG -GTCAGCGGGATAGCAGAAGGTTACAAACGTTTCGCCACTGGTATTTACGCACTGTGGTATCCGGTGGTGCTGCGTCAGCA -AATTAAGCGCATGATCCACGATCTGGAAGCGACCGGTATTCGCAAAATTCTGCAAATTGAACTGGCGGTACTGCCAGACA -GCGATCGCCGTGGCATGACCGCTTCCGGCATGATTGTGATTAACCCGCCGTGGAAACTGGAACAACAGATGAATAACGTG -CTGCCGTGGCTGCACAGCAAACTGGTTCCGGCAGGCACCGGGCACGCCACCGTAAGCTGGATCGTGCCGGAGTAATTGCA -GCCATTGCTGGCACCTATTACGTCTCGCGCTACAATCGCGGTAATCAACGATAAGGACACTTTGTCATGACTAAACACTA -TGATTACATCGCCATCGGCGGCGGCAGCGGCGGTATCGCCTCCATCAACCGCGCGGCTATGTACGGCCAGAAATGTGCGC -TGATTGAAGCCAAAGAGCTGGGCGGCACCTGCGTAAATGTTGGCTGTGTGCCGAAAAAAGTGATGTGGCACGCGGCGCAA -ATCCGTGAAGCGATCCATATGTACGGCCCGGATTATGGTTTTGATACCACTATCAATAAATTCAACTGGGAAACGTTGAT -CGCCAGCCGTACCGCCTATATCGACCGTATTCATACTTCCTATGAAAACGTGCTCGGTAAAAATAACGTTGATGTAATCA -AAGGCTTTGCCCGCTTCGTTGATGCCAAAACGCTGGAGGTAAACGGCGAAACCATCACGGCCGATCATATTCTGATCGCC -ACAGGCGGTCGTCCGAGCCACCCGGATATTCCGGGCGTGGAATACGGTATTGATTCTGATGGCTTCTTCGCCCTTCCTGC -TTTGCCAGAGCGCGTGGCGGTTGTTGGCGCGGGTTACATCGCCGTTGAGCTGGCGGGCGTGATTAACGGCCTCGGCGCGA -AAACGCATCTGTTTGTGCGTAAACATGCGCCGCTGCGCAGCTTCGACCCGATGATTTCCGAAACGCTGGTCGAAGTGATG -AACGCCGAAGGCCCGCAGCTGCACACCAACGCCATCCCGAAAGCGGTAGTGAAAAATACCGATGGTAGCCTGACGCTGGA -GCTGGAAGATGGTCGCAGTGAAACGGTGGATTGCCTGATTTGGGCGATTGGTCGCGAGCCTGCCAATGACAACATCAACC -TGGAAGCCGCTGGCGTTAAAACTAACGAAAAAGGCTATATCGTCGTCGATAAATATCAAAACACCAATATTGAAGGTATT -TACGCGGTGGGCGATAACACGGGTGCAGTGGAGCTGACACCGGTGGCAGTTGCAGCGGGTCGCCGTCTCTCTGAACGCCT -GTTTAATAACAAGCCGGATGAGCATCTGGATTACAGCAACATTCCGACCGTGGTCTTCAGCCATCCGCCGATTGGTACTG -TTGGTTTAACGGAACCGCAGGCGCGCGAGCAGTATGGCGACGATCAGGTGAAAGTGTATAAATCCTCTTTCACCGCGATG -TATACCGCCGTCACCACTCACCGCCAGCCGTGCCGCATGAAGCTGGTGTGCGTTGGATCGGAAGAGAAGATTGTCGGTAT -TCACGGCATTGGCTTTGGTATGGACGAAATGTTGCAGGGCTTCGCGGTGGCGCTGAAGATGGGGGCAACCAAAAAAGACT -TCGACAATACCGTCGCCATTCACCCAACGGCGGCAGAAGAGTTCGTGACAATGCGTTAAATGTTAAAGGGCTAAGAGTAG -TGTGCTCTTAGCCCTTAATTACGTTTCCGCTATCAGTTCAGAAGCTGAAGCAGAAAGCGGATCAGTTCCAGCAGCGCAAT -TAACGCCCCTAGAACGATGATTGCTTTATCAATCACCCGTTTTCTCCATGCGATGGAGTGAGAATGCATCCGCTTACTCA -TCCACTGCCTGTCACGGCGCATGTCTCATTGTTAGATAAGAACTCTCTCACTCCGGCCAGAGCATCAGTTAACGGCACCA -CCCGTACTTCTGACCAGGACTTTGAAAGCGTTTATGCGCATTGCCAGAGTGAAAATGCCTCAGAGCTAACTGGATAATCA -TACAGTACATGCAGGTTATAAAACCAGCACGTCCTTGCAATAGTTTCAGTATGGTATTAGCATTGATGCGTTAGATGATG -GCTATCTCACTCCAGTCAGAGCCACCAACTCAGGGCTGGAAAGTAAAAAACCGACGCAAAGTCGGTTTTTTTACATCCGG -ATTCGGACAAGGCTTAATATGACGATGACCCAGTGAAAGTATATAAATCGTCACTGCGATATATACCGAAGTGCTCCCTC -CGCCAGCTGAAGAAATCGCTAATTCTTGCAATGTTAGCCACTGGCTAATAGTATTGAGCTGTTAGATAAGAACTCTCTCA -CTCCAGCCAGAGCCACCAACTCAGGGCTGGAAAGTAAAAAACCGACGCAAAGTCGGTTTTTTTACGTCCTGATTCAGACC -TCCTTTCAAATGAATAGCCAACTCAAAATTCACACCTATTACCTTCCTCTGCACTTACACATTCGTTAAGTCATATATGT -TTTTGACTTATCCGCTTCGAAGAGAGACACTACCTGCAACAATCAGGAGCGCAATATGTCATTTCTGTTACCCATCCAAT -TGTTCAAAATTCTTGCTGATGAAACCCGTCTGGGCATCGTTTTACTGCTCAGCGAACTGGGAGAGTTATGCGTCTGCGAT -CTCTGCACTGCTCTCGACCAGTCGCAGCCCAAGATCTCCCGCCACCTGGCATTGCTGCGTGAAAGCGGGCTATTGCTGGA -CCGCAAGCAAGGTAAGTGGGTTCATTACCGCTTATCACCGCATATTCCAGCATGGGCGGCGAAAATTATTGATGAGGCCT -GGCGATGTGAACAGGAAAAGGTTCAGGCGATTGTCCGCAACCTGGCTCGACAAAACTGTTCCGGGGACAGTAAGAACATT -TGCAGTTAAAAATTTAGCTAAACACATATGAATTTTCAGATGTGTTTTATCCGGGAGGCATTATGTTACTGGCAGGCGCT -ATCTTTGTCCTGACCATCGTATTGGTTATCTGGCAGCCGAAAGGTTTAGGCATCGGCTGGAGTGCAACGCTCGGCGCAGT -ACTGGCGTTAGTTACGGGCGTGGTCCATCCGGGTGATATTCCGGTGGTGTGGAATATCGTCTGGAACGCGACGGCTGCGT -TTATCGCCGTCATTATCATCAGCCTGCTGCTGGATGAGTCCGGCTTTTTTGAATGGGCGGCGCTGCACGTCTCACGCTGG -GGTAATGGTCGTGGTCGCTTGCTGTTTACCTGGATTGTCCTGCTCGGTGCTGCCGTTGCCGCCCTGTTTGCCAATGATGG -CGCGGCGCTTATTTTGACACCGATTGTCATCGCCATGCTGCTGGCTTTAGGGTTCAGTAAAGGCACTACGCTGGCGTTCG -TGATGGCGGCCGGATTCATTGCCGATACCGCCAGCCTGCCGCTTATTGTCTCCAACCTGGTGAATATCGTTTCCGCTGAT -TTCTTTGGCCTCGGCTTTCGCGAATACGCCTCGGTGATGGTGCCGGTGGATATCGCCGCGATTGTTGCCACGCTGGTGAT -GTTACATCTCTATTTTCGCAAAGATATTCCGCAGAACTACGATATGGCGCTGCTGAAATCTCCCGCAGAAGCGATCAAAG -ATCCTGCTACGTTCAAAACTGGCTGGGTTGTTTTACTGCTTCTGCTGGTGGGATTTTTCGTCCTGGAACCGCTCGGCATT -CCGGTGAGCGCCATTGCAGCTGTGGGCGCGCTGATATTATTTGTCGTCGCTAAACGCGGTCATGCGATTAATACGGGTAA -AGTCCTGCGCGGTGCCCCCTGGCAGATTGTCATCTTCTCGCTCGGCATGTATCTGGTGGTTTATGGCCTGCGCAATGCCG -GATTAACGGAATATCTTTCTGGCGTACTCAACGTGCTGGCGGATAACGGCCTGTGGGCCGCGACGCTCGGCACCGGATTC -CTCACCGCCTTCCTCTCTTCTATTATGAACAATATGCCGACGGTACTGGTTGGCGCGTTGTCCATTGATGGCAGCACGGC -ATCTGGCGTTATCAAAGAAGCGATGGTTTATGCCAATGTGATTGGCTGCGATTTGGGACCGAAAATTACCCCAATTGGTA -GCCTGGCTACGCTACTCTGGCTGCACGTACTTTCGCAGAAGAATATGACTATCAGCTGGGGATATTACTTCCGTACAGGG -ATTATCATGACCCTGCCTGTGCTGTTTGTGACGCTGGCTGCGCTGGCGCTACGTCTCTCTTTCACTTTGTAATGAGATAC -TGATATGAGCAACATTACCATTTATCACAACCCGGCCTGCGGCACGTCGCGTAATACGCTGGAGATGATCCGCAACAGCG -GCACAGAACCGACTATTATCCATTATCTGGAAACTCCGCCAACGCGCGATGAACTGGTCAAACTCATTGCCGATATGGGG -ATTTCCGTACGCGCGCTGCTGCGTAAAAACGTCGAACCGTATGAGGAGCTGGGCCTTGCGGAAGATAAATTTACTGACGA -TCGGTTAATCGACTTTATGCTTCAGCACCCGATTCTGATTAATCGCCCGATTGTGGTGACGCCGCTGGGAACTCGCCTGT -GCCGCCCTTCAGAAGTGGTGCTGGAAATTCTGCCAGATGCGCAAAAAGGCGCATTCTCCAAGGAAGATGGCGAGAAAGTG -GTTGATGAAGCGGGTAAGCGCCTGAAATAAAGCGGCGATATCCCCCCCACAGGTTGTTAGAAAAGTGCGCTTTATTTATG -TCGGATGCGACGCTGGCGCGTCTTATCCGACCTACAAAGTTATGAAAATTCGATGAATAGTATGTTATTTGTAGGCCTGA -CAGGCGTAGCGCATCAGGCGATTTTGCTATTTACACAGTACTCCCTGCGTGAGATTCCAATTATCGCGTCCAGCATGGTG -TATCAGTGAGCTGCTTAGTTATCAGCGATACAGCGCAGTAGTTTAAAGACGTACTGGATTATGATTTATCAGTGGTTTAC -ACAACAAATTATTAAATAATTATAAGATACCTTAACCCATTTTATTATTACACATCTAAAACATCACAAAAAAAATCACT -TCACACACTATCAGAGAACATAATAACTTTTTAAAATGAGCGCATTTTGATAGTTGTTAACGATTTCCTTTACGATACTA -TCACTACCCTTTTTTTACACACAAATATTACCGGGTGGAGATAAAAGGGAAATCAAAGGTAATTATATCAGGAAGATATA -ACGCATTACATTTATTGTGTGTAGAAGAAAATCCATTCCTGTTCTAATTATCCAATTTAAACATCTTAGCATAAAACAAA -TGATGAATAAGGAATTTTATGTCAATTGACTTTACCCCAGGTATAATAAATACATATCACGGCGATATTTATAACTGCAC -AACAAATACCGATAATGCTAAAACGCCAGACACACCGAAGTGGCCTTGCGATAATTGGGAAGAACAACAACCCATTAATT -CCACATTCTCTGGAGAAGGATATATCTCTGATCAATATGATTTAGCGCAACACCAACTTCAACAAATTAATGCGTGCCAC -ACGAACACTACATATACAAATGCAGACTACTCAAAAGTTGTGGCTCAACTTGTAAGTCTTATTACTAACATTGAAACGAT -AAGTTCGACACAACTTACGCAACAGACACAATCAATACTTAATCAGATTAATAACATTAGATATGAAAAAAACAAAAGTG -CTGAATGTCGAATCATTGTTATCGCTAATCCTAAACCCGACAAGGCAATCATAACTAAAATTAGCGTAGAAGAGGGAATA -CCCATAACATTCAGTGTCCAAACCATGTTTTCAGATACTAATTTTATTGCTGAACAACGAGCTGACTTACCAACTAATAT -AAAAGATATTCAAAGCCTGTATCAAAAAATGACGAAGTTATATATTGAGCACAGTGAAAATAAAAACAGGATGAAAGTCT -TTGCCGGAACCAACTTTATTGATTTCAATATGACAGGACAGAACCTGTCCGGGTTCGTTCTAACCTTGTCAAGGTTTTAT -TTCGAAGATCTACTTAATATAAATTTCACTGACGCAAATTTAGGGAAGGTGCGAATAAGCGGGGAAATTCTTCTCGGCTG -ACTCAGTCATTTCATTTCTTCATGTTTGAGCCGATTTTTTCTCCCGTAAATGCCTTGAATCAGCCTATTTAGACCGTTTC -TTCGCCATTTAAGGCGTTATCCCCAGTTTTTAGTGAGATCTCTCCCACTGACGTATCATTTGGTCCGCCCGAAACAGGTT -GGCCAGCGTGAATAACATCGCCAGTTGGTTATCGTTTTTCAGCAACCCCTTGTATCTGGCTTTCACGAAGCCGAACTGTC -GCTTGATGATGCGAAATGGGTGCTCCACCCTGGCCCGGATGCTGGCTTTCATGTATTCGATGTTGATGGCCGTTTTGTTC -TTGCGTGGATGCTGTTTCAAGGTTCTTACCTTGCCGGGGCGCTCGGCGATCAGCCAGTCCACATCCACCTCGGCCAGCTC -CTCGCGCTGTGGCGCCCCTTGGTAGCCGGCATCGGCTGAGACAAATTGCTCCTCTCCATGCAGCAGATTACCCAGCTGAT -TGAGGTCATGCTCGTTGGCCGCGGTGGTGACCAGGCTGTGGGTCAGGCCACTCTTGGCATCGACACCAATGTGGGCCTTC -ATGCCAAAGTGCCACTGATTGCCTTTCTTGGTCTGATGCATCTCCGGATCGCGTTGCTGCTCTTTGTTCTTGGTCGAGCT -GGGTGCCTCAATGATGGTGGCATCGACCAAGGTGCCTTGAGTCATCATGACGCCTGCTTCGGCCAGCCAGCGATTGATGG -TCTTGAACAATTGGCGGGCCAGTTGATGCTGCTCCAGCAGGTGGCGGAAATTCATGATGGTGGTGCGGTCCGGCAAGGCG -CTATCCAGGGATAACCGGGCAAACAGACGCATGGAGGCGATTTCGTACAGAGCATCTTCCATCGCGCCATCGCTCAGGTT -GTACCAATGCTGCATGCAGTGAATGCGTAGCATGGTTTCCAGCGGATAAGGTCGCCGGCCATTACCAGCCTTGGGGTAAA -ACGGCTCGATGACTTCCACCATGTTTTGCCATGGCAGAATCTGCTCCATGCGGGACAAGAAAATCTCTTTTCTGGTCTGA -CGGCGCTTACTGCTGAATTCACTGTCGGCGAAGGTAAGTTGATGACTCATGATGAACCCTGTTCTATGGCTCCAGATGAC -AAACATGATCTCATATCAGGGACTTGTTCGCACCTTCCTTAGGTGACACTATTTTTTTACATAAAGAACACCCTACCCCC -AAATTATATAAAGATGGACAATATCTTGACAAACAAATCGAAGGTTTATTTTCAACATTATTAACCATTAATGACAACCT -TTTACGAGCAAAAGCGGAAATTGCTTCGACAATAATTAAATTTTTAGAGGCCAGGATAACCAATCTTTCATACAATGACA -TATTAAAATATCAGCAAGAATTCCAAAGACAATGTTATAAGCAAGTTAAAGCCTTTACGACACTCTCCCGATACAATAAA -ATTCAAACATGGGCAGAAATGTCTGAATATCAATTCGAAGTATTTCAATACGAGACGCTTAACCCAAAAAAAATGTCACA -CACGCCTTATTTAAAGAGGCCACTGCCTAATGAAAAAGATATAAATTATGGGGTGGAAATAGAAATACCATCTGGTAAAA -GAATTCGCTTATCAAATCATTACCAGAATATAATACCATAATATTGATTATTAGCACTTTATAATCATTGAATAAAAATA -GATTTTATGTACTTTTAAAACAATGCACTATATTATGGGGTGATGGATATTCATGTCACGCCCCAAAATTAACTGAGTTC -ACCTAAACAGAAAGGATATAAACATCAGACAGGTTTACGTTACTATCAGGCATATCACCTCAGAATCAGATGAAAACTAT -AAAGAAATATCTATTATGGTTTTAATATTTGTTGATAAGGATAGTAACATGAACATGACAAAAGGTGCACTCATCCTCAG -CCTTTCATTTTTGCTTGCCGCATGTAGTTCAATTCCGCAAAATATCAAAGGCAATAACCAACCTGATATTCAAAAAAGTT -TTGTTGCTGTTCATAACCAGCCGGGGTTATATGTTGGTCAACAAGCGCGCTTTGGTGGGAAGGTTATCAACGTTATCAAT -GGCAAAACGGATACGTTGTTAGAAATCTCTGTATTACCGTTGGATAGCTATGCGAAGCCTGATATTGAAGCCAACTATCA -GGGCCGACTGCTCGCCAGACAAAGCGGCTTCCTTGATCCAGTGAACTATCGTAATCACTTTGTTACCATCCTCGGCACCA -TTCAGGGTGAACAACCTGGCTTTATCAATAAAGTCCCGTATAACTTCCTGGAAGTGAATATGCAGGGCATCCAGGTGTGG -CATTTGAGAGAAGTGGTTAATACCACCTATAACCTGTGGGATTACGGCTATGGTGCATTCTGGCCGGAACCGGGCTGGGG -TGCGCCTTACTACACCAATGCGGTGAGTCAGGTAACACCTGAGCTGGTCAAATAACACCACCGAAAGATGCAGATGCTTT -CTCAGCATCTGCATCATGCATTACATCAAATTAATACACAGTAAGCTAACTATTATTATTATAAGCCCTGTCCTGTTAAT -TACCTTTGGCAAACTGATTATAAAGTTAATGTCCGCACCAGGAGTCGGTTATGTTTCTTATAATTACCAGGGATACGATG -TTCTTCACCGCGATGAAAAACATTCTGAGTAAAGGTAATGTCGTTCATATACAGAACGAAGAAGAGATCGACGTAATGTT -GCATCAGAATGCCTTCGTCATTATTGATACATTAATGAATAATGTATTTCATTCTAATTTTCTCACTCAAATTGAACGAT -TAAAACCTGTCCATGTCATTATTTTCTCCCCCTTTAATATTAAACGCTGCCTGGGGAAAGTGCCGGTGACCTTTGTTCCG -CGGACTATCACTATCATTGATTTTGTCGCACTCATCAATGGCAGTTACTGCTCTGTGCCTGAAGCGGCTGTGTCACTTTC -GCGCAAGCAACATCAGGTTCTGAGCTGCATTGCGAATCAAATGACAACGGAAGATATTCTGGAGAAACTGAAAATATCGC -TAAAAACGTTCTACTGCCATAAACACAATATCATGATGATCCTCAATCTTAAGCGGATCAATGAGCTGGTACGCCATCAG -CATATTGATTATCTGGTGTGAATTTCAGGCTTACGGTGAGTCTGGCTACGCTGCCACACAGATTAGCTAATTGAAACGCC -TTTCACCCCTGCCATACCTTTTAATAATCGCAACAGGTCTTCTATCGACGTTGTGGCATGAAGCTGGATATCAATGGCGA -CCACTTCATGATCTTCATTTTCCTGCAACGAAACTAAATCAGTTTTTATTTTTTGCTGCTTAAACCAGTCGAGCATTGAT -ACCGTATTACCGTTCACTAATGTCAGCTGTAAATGGTAATTTTTGTTCATCAGGCGGAAGGTTAATTGATGGAAGACTTC -CAGCACCAACAAGGTCATCACTGAACCATAAATACCCAGTTCGTACATACCGCTGCCAATAACCATACCTATGGCGGCGG -TCACCCAGATATCCGCTGCCGTCGTCAGACCTACAATATTTTGGTTACGAACGAGAATGTTACCTGCACCGATAAACCCG -ACGCCCGTCACCACCTGAGCAGCAATACGGCTGGGGTCGAGTCCGACGTGATCTAAAGACAGCACGTCAGCAAAACCATA -TTTCGAAACAATCATAAACAGGGCGCTTCCCATGCCAATTAATACATGTGTGCGTAACCCTGCTCCTTTGCCGCGCATTT -GCCTTTCCATGCCAATAGCGCCACAGGCAATTGCCGCGAGTATAAGACGTATAATAAATTCTGCTGTCATATAAAAATGC -AAAAAGGAGCAGCAAGATGGCTCAACTTGCTACTCCTTTTTACTTGCACCTCATTAATTCGGCAAGTCATTAGATGCTTG -ATTTTTGAAGGTATACAAATTTTTCTGCGGGTTTTTCTTACAGTATTCGATCACTTTAGGAATTTGAGTGAGATCGGTTT -CATTTAAAGTAACGGTATCGCCACCTTTATATACTGTTTCTTCATGCAGCATCCACCATGCAACCGGGGTCATTGCTTTT -GGATTCAGATCAATAAATTCCTGGCAGGTCATATCTTTAGCGGATTCATTGGCTGCCAACGCAGATTGTGCGTTCACCAG -TGACAAAGCCGCTACAGCGCCCATAAAAATAAACGCTTTACGGAGAGATGAAATATTCATTTTGTAACCCATTCAATATA -GAGATTATATATGAACAGGAGGAATAGCTGCTTTTAAAGAAGATATTCCGGCCTGTTCAATATGCAAGGAAGTACGATGT -AACGCATTCCCGGAATTACATATCTTTCTTAATTTTGTCCCATTCGCCTTTAACTTTATCTTTAAAGTTGGCTTGTTTAT -CCTGAGTACAAGCCTGAACGATAGCTGGGGTTACGGTTGCAATACCCTGAACATCTAAAACCGCATCTTCTGGTTTATCT -TTGTTGTTCAGCGCTTCAGCAAAACCAACTGCAGTTGGCTGGAAGGATTCGTCCACAGCCAGGAAATCTTCACAGGTCCA -GGAGTTGACCGGTTTTTTGTTATCAGCTGCTTTTTGCGCATCCGCTGCATTGCTCACAACTGGCAGAAGAAGCAGACCAC -CAAGAATAACGCCTAATACTTTTTTCATCGTAATATCCTCAACTATAAAGTGAAAGAGCCGTCACGAATCAATTTCGACA -CTGAGGTTATAACCTGGTTTTCTGTATATGTCATGTTGATGGAAAATATCAAAATCAGATATTTTTATTTCAATACAATG -AGTTACAGATGCATCAGATACTGCAATTAGGAAATTTTTATTAAATCGACTGCATTCTTAGACGCGTTTTTGGCATAGAT -TGATAGCAGGGGATTTTCTTCTTAATTTTATAGGGTGGTTCTATGTTATATATAGATAAGGCAACAATTTTGAAGTTTGA -TCTGGAGATGCTTAAAAAACATCGCAGAGCAATCCAGTTTATTGCCGTGCTGCTGTTTATCGTCGGGTTGCTGTGTATCA -GTTTCCCGTTCGTCTCTGGCGATATTTTAAGCACAGTAGTGGGTGCATTATTAATCTGCTCGGGTATTGCGCTTATTGTC -GGGTTATTCAGCAACCGCAGTCATAATTTCTGGCCGGTATTATCCGGTTTCCTCGTCGCAGTCGCCTATTTATTGATCGG -CTATTTCTTCATCCGCGCACCGGAGCTGGGCATTTTTGCCATTGCGGCATTTATTGCCGGTTTGTTCTGTGTTGCAGGGG -TTATTCGCCTGATGAGTTGGTATCGTCAGCGTTCAATGAAAGGCAGCTGGCTACAGCTCGTTATTGGTGTGCTGGATATC -GTCATTGCCTGGATATTCCTTGGTGCAACGCCGATGGTGTCTGTAACGCTGGTTTCCACACTGGTGGGAATTGAACTGAT -ATTTAGCGCCGCCAGCCTGTTCAGCTTCGCCAGTTTGTTCGTTAAGCAGCAATAATTACCCCGGTTGTCACCCGGATCAT -AGTCACTTGATGTGACTATGATCCGATTAATACTCTCTCCGCTACGCAGTGTTGTAGATCAATTGCGCACTATCATTGAA -ATAATTACCTGCTAGTGATTATTTCAACCTACTGAATTTCATCTAATTTTTTTCACTCTATGGCAAATTAGCCATTTCAA -ACATTATCATGGCTGATATTTTCCGTAGTCAGGTTTAATGTTTTAAAAGTGCTGTGGGAAAGTGAACAAAGAGTTCCGTA -AGCGTTGATGCTATGGGCGGTTAAATAAGTAATCCGGGTTCATTTTTTTGCAACTGGCGTTGATTACATTGCATAAATAT -CCGTGTCTCCAGACGCTATATAAAAACCTGAAGACATGAATGCGTTATTTACTCAGGTAATTTCAATGCGTTAAAAGAAA -GCTGGCAATCCAATTGCCAGCTTAAGTCGAAACAAGGAGACTCGATATTTAAATCGGATTACATTTTAACTTTAGTAATA -TTCTTCAGAGATCACAAACTGGTTATTGATAACTTATTCTTGGGCAGTAATCCGCAAACGTTAACTTTTTGTTTGCTATT -TACAAGCTGATAACAACCAGGAATCTTACTTAGGATCAATATATGGAGTGCGTGATGGATAAATCTGAAGTATTGATTAG -TGTTAATAGACGTATTAGTTCACGAAGGGTAAAGTTCTTATAGGCGTTTACTATATTGAACAACGATTCGGACAAGGATG -TAAATAATGAAAAGGATGACATATTCGAAACGATAACGGCTAAGGAGCAAGTTATGATTTTTCTCATGACGAAAGATTCT -TTTCTTTTACAGGGCTTTTGGCAGTTGAAAGATAATCACGAAATGATAAAAATCAATTCCCTGTCAGAGATCAAAAAAGT -AGGCAATAAACCCTTCAAGGTTATCATTGATACCTATCACAATCATATCCTTGATGAAGAAGCGATTAAATTTCTGGAGA -AATTAGATGCCGAGAGAATTATTGTTTTGGCACCTTATCACATCAGTAAACTAAAAGCTAAAGCGCCTATTTATTTTGTT -AGCCGCAAAGAAAGTATCAAAAATCTTCTTGAGATTACTTATGGTAAACACTTGCCCCATAAGAATTCACAATTATGTTT -TTCACATAATCAGTTCAAAATTATGCAACTGATTCTGAAAAATAAAAATGAAAGCAATATCACGTCGACGCTCAATATTT -CGCAACAAACATTAAAGATTCAGAAATTCAACATTATGTACAAGCTGAAACTAAGACGTATGAGCGACATCGTCACCCTG -GGTATCACATCTTATTTTTAGTCAGGACATAAGCAACTGAAATTGATGGCTGGCATGACGAGGGATGCAGATGCTGATTT -CATTACCCCCGGTGATTACTAAAGGAGAGGCTAAAACGACTTTATTCCCCTGGTATGTGTATCCACCAGTAGAACCCTTC -GTTGCCCGAATGCTGGCAGGAACTGTTGGCAGAACGGCAACATTTTTTTTGTCGTTGACCTCACCATGTCGATCACTGTG -CCTGTATCCCACCTTACTGGCTGACAACCCCACTATGCCGCTGGTCTGTAAATCCCTCATATCTCTCCTCGCGCGCAATT -TAAAGAACCGTTATTTCTCAAGAATTTTCAGGGACTAAAATGAACAGAAGAAGAAAGCTGTTAATACCGTTGTTATTCTG -CGGCGCGATGCTCACCGCCTGCGATGACAAATCGGCGGAAAACGCCGCCGCCATGACGCCTGAGGTCGGTGTCGTCACAC -TCTCCCCCGGTTCGGTCAATGTGTTGAGCGAATTGCCCGGTAGAACCGTTCCTTATGAAGTTGCCGAGATACGTCCCCAG -GTGGGCGGTATTATCATTAAACGCAACTTTATCGAAGGCGATAAAGTGAACCAGGGCGATTCGCTGTATCAGATTGATCC -TGCACCTTTACAGGCCGAGCTAAACTCCGCCAAAGGCTCGCTGGCGAAAGCGCTCTCTACCGCCAGCAATGCCCGCATCA -CCTTTAACCGCCAGGCATCGTTGCTGAAGACCAACTACGTTAGCCGTCAGGATTACGACACCGCGCGCACCCAGTTGAAT -GAAGCAGAAGCCAATGTCACCGTCGCCAAAGCGGCTGTTGAACAGGCGACGATCAATCTGCAATACGCGAATGTCACCTC -GCCGATTACGGGCGTCAGCGGGAAATCGTCGGTGACCGTCGGCGCACTCGTTACCGCTAATCAGGCAGATTCGCTGGTTA -CCGTACAACGTCTGGACCCGATTTATGTCGATCTCACGCAGTCGGTGCAAGATTTCTTACGCATGAAAGAAGAGGTCGCC -AGTGGGCAAATCAAACAGGTTCAGGGCAGTACGCCAGTACAGCTCAATCTGGAAAATGGTAAACGCTACAGCCAGACCGG -CACGCTGAAATTCTCCGACCCGACAGTGGATGAAACCACGGGCTCCGTGACGTTACGGGCGATTTTCCCCAACCCAAATG -GTGACTTGCTGCCTGGCATGTACGTCACGGCATTAGTGGATGAAGGTAGCCGCCAGAATGTATTACTGGTGCCGCAGGAA -GGCGTCACCCACAACGCCCAGGGTAAAGCAACGGCGCTCATTCTGGATAAAGACGATGTCGTGCAGCTACGCGAAATTGA -AGCCAGCAAAGCCATCGGCGACCAGTGGGTCGTCACCTCTGGCTTGCAGGCTGGCGATCGGGTGATCGTTTCCGGTTTGC -AACGCATTCGTCCGGGTATCAAAGCACGAGCAATTTCCTCCAGCCAGGAAAACGCCAGCACCGAATCGAAACAATAACGT -TGCAGGCTTAAGGGGACTTTCATGGCTAACTATTTTATTGATCGCCCGGTTTTTGCCTGGGTACTTGCCATTATTATGAT -GCTTGCAGGTGGTCTGGCGATCATGAACTTACCGGTTGCGCAGTATCCGCAGATTGCGCCACCGACCATTACCGTCAGCG -CTACCTATCCAGGTGCCGATGCGCAAACGGTAGAAGACTCGGTCACTCAGGTGATTGAGCAAAATATGAATGGGCTTGAT -GGCCTGATGTACATGTCTTCAACCAGTGATGCGGCGGGCAATGCCTCTATCACTCTGACCTTCGAGACTGGGACATCTCC -TGATATCGCACAGGTTCAAGTGCAAAATAAACTGCAACTCGCTATGCCTTCATTACCTGAAGCAGTGCAGCAGCAGGGGA -TTAGCGTCGATAAGTCGAGCAGTAATATCCTGATGGTAGCGGCGTTTATTTCTGATAACGGCAGCCTCAACCAGTACGAT -ATCGCGGACTATGTAGCGTCTAATATCAAAGACCCGCTAAGCCGTACCGCGGGCGTTGGTAGCGTACAACTCTTTGGTTC -CGAGTATGCCATGCGTATCTGGCTGGACCCGCAAAAACTCAATAAATATAACCTGGTACCTTCCGATGTTATTTCCCAGA -TTAAGGTGCAAAACAACCAGATTTCCGGTGGTCAACTGGGTGGCATGCCACAGGCGGCAGACCAGCAGCTAAACGCCTCG -ATCATTGTGCAGACGCGTCTGCAAACGCCGGAAGAATTTGGCAAAATCCTGTTGAAAGTTCAGCAAGATGGTTCGCAAGT -GCTGCTGCGTGATGTCGCTCGCGTCGAACTTGGGGCGGAAGATTATTCCACCGTGGCACGCTATAACGGCAAACCTGCTG -CCGGGATCGCCATCAAACTGGCTGCCGGAGCAAACGCCCTGGATACCTCGCGGGCAGTCAAAGAGGAACTGAACCGCTTA -TCAGCCTATTTCCCGGCAAGTCTGAAGACGGTTTATCCTTACGACACCACGCCGTTTATCGAAATTTCTATTCAGGAAGT -TTTCAAAACACTGGTTGAGGCTATCATCCTAGTCTTCCTGGTCATGTATCTGTTTTTGCAGAATTTCCGTGCCACAATCA -TCCCGACGATTGCCGTACCGGTGGTTATTCTCGGGACGTTTGCGATCTTGTCGGCGGTCGGTTTCACCATCAACACGTTG -ACTATGTTCGGGATGGTGCTGGCGATAGGGTTACTGGTGGATGACGCCATCGTGGTGGTGGAGAACGTCGAGCGTGTCAT -TGCGGAAGATAAGCTACCGCCGAAGGAAGCGACGCATAAATCGATGGGGCAGATCCAACGTGCGCTGGTCGGTATTGCCG -TTGTTCTTTCCGCAGTGTTTATGCCGATGGCCTTTATGAGCGGTGCAACCGGGGAGATCTACCGCCAGTTCTCCATCACG -CTGATCTCCTCCATGCTGCTTTCAGTATTTGTGGCAATGAGCCTGACCCCTGCCCTGTGCGCCACCATTCTGAAAGCCGC -GCCGGAAGGCGGTCACAAACCTAACGCCCTGTTCGCACGCTTCAACACGCTGTTTGAAAAATCAACTCAACACTATACCG -ATAGCACCCGCTCGCTGTTGCGTTGTACCGGTCGCTACATGGTGGTCTACCTGCTGATTTGCGCCGGGATGGCGGTGCTG -TTCCTGCGCACGCCGACCTCTTTCTTACCAGAAGAGGATCAGGGGGTATTTATGACCACCGCGCAGTTACCTTCCGGTGC -CACCATGGTTAACACCACGAAAGTGCTGCAACAGGTGACGGATTATTATCTGACTAAAGAGAAAGATAATGTCCAGTCGG -TGTTTACCGTTGGCGGCTTTGGCTTCAGCGGTCAGGGGCAAAACAACGGCCTGGCGTTTATCAGTCTCAAGCCGTGGTCT -GAACGTGTCGGTGAGGAAAACTCGGTTACCGCGATCATTCAGCGGGCAATGATTGCGTTAAGCAGTATCAATAAAGCCGT -CGTCTTCCCGTTCAACTTACCCGCGGTGGCTGAACTGGGTACCGCGTCAGGTTTTGATATGGAACTGCTGGACAACGGTA -ACCTGGGGCACGAAAAACTAACCCAGGCGCGAAACGAGCTGTTATCACTGGCAGCGCAATCACCGAATCAGGTCACCGGG -GTACGCCCGAACGGCCTGGAAGATACGCCGATGTTCAAAGTGAACGTCAACGCTGCGAAAGCTGAAGCGATGGGCGTGGC -GCTGTCTGATATCAACCAGACAATTTCCACCGCCTTCGGCAGCAGCTACGTGAACGACTTCCTCAACCAGGGGCGGGTGA -AAAAAGTGTATGTCCAGGCAGGCACGCCGTTCCGTATGTTGCCGGATAACATCAACCAATGGTATGTACGCAACGCCTCT -GGCACGATGGCACCGCTTTCTGCCTACTCGTCTACCGAATGGACCTATGGTTCACCGCGACTGGAACGCTACAACGGCAT -CCCGTCAATGGAGATTTTAGGTGAAGCGGCGGCCGGGAAAAGTACCGGTGACGCCATGAAATTTATGGCAGACCTGGTCG -CTAAACTTCCGGCAGGCGTCGGCTACTCATGGACCGGACTATCGTATCAGGAAGCGTTATCCTCAAATCAGGCTCCTGCG -CTGTATGCGATTTCACTGGTCGTGGTGTTCCTCGCCCTCGCCGCACTCTATGAGAGCTGGTCAATTCCGTTCTCGGTGAT -GTTGGTTGTTCCGTTAGGCGTCGTTGGCGCATTACTGGCCACCGATCTGCGCGGCTTAAGTAATGACGTCTACTTCCAGG -TTGGTTTGCTGACCACCATCGGGCTTTCCGCCAAAAACGCCATCCTGATTGTCGAATTTGCCGTTGAGATGATGCAGAAA -GAAGGGAAAACGCCGATAGAGGCAATCATCGAAGCGGCGCGGATGCGTTTACGCCCAATCCTGATGACCTCTCTGGCCTT -TATTCTCGGCGTGCTGCCGCTGGTTATCAGTCATGGTGCCGGTTCTGGCGCGCAAAACGCGGTAGGTACCGGCGTGATGG -GCGGGATGTTTGCCGCAACAGTGCTGGCAATTTACTTCGTTCCGGTCTTTTTCGTTGTAGTGGAACATCTCTTTGCCCGC -TTTAAAAAAGCGTAACGTGTAAATGAGAGTAAGGTTGAACATGAAGGTTCAGCCTTACTCTTTCCTGCTAACCATTCACC -ACTCAACAACCAGCTAACCGTCAGGAATACCAGGCTTAGTACACAGCACTGAAAGTAGAAACCACTCCAGCCATTCGTCA -TCAATTTGAACAACACAATACTGACCCACATTCCCGTAATCGTATGAATTGTCAGCTTAATAATCCCAAACATGCCGAGT -CTTTTCCTCCTGAAAATACCGATACCGCCTGGCAAACTGCGAAAGAGAACTAGCCGGTAGCCCGGCAGAAATCATCAGGG -AAGAGTTTCACATGAAGCAGGTGTGAGATCCTGACCAATATTCAAATGCGAAATATGTCAGGAAAAGGTACCTGGCGAAT -GTTGCGCAAACTGATGTGGCGTTACACCATAATATTGTCGAAATGTGTTTATAAAGTACGATGTACTGCTATAGCCACAT -TTTTCCGCAATAGTATGCAGAGGAATTTGACGTAACTCGAGTAATCGTCTGGCCATCGACATCCTGGAGGCGAGTAATAT -TTTACTGAAACAGGTATTTTCATCCTGCAACTTTTTTTTGATTAGACTCTCGCTGGTATACATTCTTTCCGCGATATCGC -GCAGATACCAACGTTTGGCGATATCAAAGCTAATAAGGCGTTCAACTTTTCCTGAAACAGTGCTGATGCTATTGAAAAGT -AAGGGGATCAGTTCTTTCTTATGAGAAAACATCGATAAACAGGAAAGGTAGAGCATATTGCTCAGTATCGGTGAATTTAC -CCCGGATTCATTGAAGCTATCAAAAATCGCCGTCACCAGCGGCATGGGGGGTGACTGGTTAATTAACAAACGGTCTTTGC -TGTGTAACCCTAAATTGCGTGGTAGCTGACGAATATTTTGTAAGTAATGGCAAACTGTCAGCTCATCGATATCCAGTCGT -CGCGTATCCGGTGAACAAAACGCAAAATCGTCTGCCAAATTTTTCTCCAGCAGCAGAATACTCTCGTTATGCAGCGATAT -TTTTTGCTGTTCATGATAAATATCGAATGAACGACGAATGAGGATCACCGAGCAGACATGAGTCATGATTATCCCTTATA -TTTCATACTGCGATTATTTCAATTTCAGTATACTAATGAAATGATGCCAGACTGTTTCTTAGCGCAAAAACTGCCAGATT -TGGTAGGACCAAAATTTATCCACAAAGTAGTTTTGCATAACAGTTAATTGATAATAAGTAAATGCAGCACGAATATATTT -TCGCACAGCGTATAGCTTATGTTTATAAAAAAATGGCTGATCTTATTTCCAGTAAAAGTTATATTTAACTTACTGAGAGC -ACAAAGTTTCCCGTGCCAACAGGGAGTGTTATAACGGTTTATTAGTCTGGAGACGGCAGACTATCCTCTTCCCGGTCCCC -TATGCCGGGTTTTTTTTATGTCTGAGTAAAACTCTATAATCTTATTCCTTCCGCAGAACGGTCAGTGCCGTAAAAATTCC -CTTGCGCAACAATACTTGCCGCCGAGTCACGGTTCGACAATCTCTGCGCCGATCGCTCCTGATACTCTGTGGGCGTCATC -CCATAATAATTTCGAAAGACGTAAATGAAATACGACACGCTGTGATATCCACAGGATACTGCAACTCGCTTAATTGAAAA -ACCATGTATAACAATAAGTTGCAAAGCACGTTGCATTCTACACTCAGTAAGCAACTGTGAATATGATGTCTCTTCTTCGC -GCAATTTTTTCTTTAACAGACTTGGACTCATCAACAGCTCGCTGGCGATTCGGGCTAGTGTCCACTCATGGGCGATATTA -TTATTGATAACCGTACAAACTCGTGTTCGCATGTTCGGTTGTAAAACGTTCAGAAGCAGCGGTATAAAGTGCTCATCCTC -AAGAAAAACAGATAACAACGCAAAGATTAATGCTCTTTTACGTAGCATTTCTGCATAGCGAAGATTCTTATTCTGCGATA -GTTGCGCAACTTCCTGAAAAACAGGAATATCTCTACTACAGTGATGAACGAGTAATGAAGAAACTTTTTTATGTGCATGA -AGATTTAATGCCTCCTCCTTGAGCATCGGGAGAAATAATGAAAGCGTGTCCCTTGACACGAATACAAAATTTTCAACACA -CTTATCTACTCGAATTTGGCTTGCATCCGCAAAAACCAGGTCACCGCCATTAAAATAGCGATATTCACCATTAACCATGG -TGAGAATATATTTATGTCTTGCATACGCAATTAGACAATTCCCATGTAGTGATTGCATAGTTGACTTAATATTACATAAA -CATATTACTGTTTATTAATGTAGCACGCCGCCCTCTTAAGTCAAATTGATTGATAAATAAATTTAAACGAAGCGGGAGAA -CAGGATGATAATGTGTGATGTTCTACGGGCAGGATGACTGGATTTATAATACAAAAACGTGTTTAAGAACACAGGGAAAT -TAATAGTAAGCAAATAATCCCTTTTCGTGACATTAAAGGTAATCGCTACATTTAATAAACATTCATATAACATATATCTT -ATCAACACGATGAATAGACAGCCAATATATTATTGCGATTAATAAGCAACCGAATGCCCAGCTGTTTTTTTAAAGGCTGG -GCATTCGGTTTTTACAACGTTATGTTATCAGGTGTGTTTAAAGCTGTTCTGCTGGGCAATACCCTGCAGTTTCGGGTGAT -CGCTGAGATATTTCAGGGAGGCTTTGTAGTCTTCCAGCAACAGTTCAGCAAAGTCCATTTCGAAGCCGCGACGACACATA -ATGCGCATCACCACGATGTCGGTGGCTTCACCGCCGAGAGTGAAGGCCGGAACCTGCCAGCCGCGCAGACGCAGACGTTC -AGAGAGGTCGTACAGGGTGTATCCCGGATCTTCACCATCTTTCAGTTTGAAGCAAACCGCCGGGATGCCTTCGTCCGGGC -GACCCGTACAGATGAACTCATACGGCCCCAGTTTGGCGATTTCATCCGCCAGATAAGCGGCAACCTGGTAAGAGGCGTTC -TGTACTTTGGTATAGCCTTCACGACCGAGGCGCAGGAATTCATAGTACTGTGCAATTACCTGACCCGCCGGGCGGGAGAA -GTTGATGGCAAAAGTACCAATTTGACCACCCAGGTAGTCAACGTTGAACACCAGTTCCTGCGGCAGCGCTTCTTCGTCAC -GCCAGATAACCCAGCCGCAGCCCAGCGGAGCCAGACCGAATTTATGGCCTGAAGCACTGATCGATTTCACACGCGGCAGG -CGGAAGTCCCAGACGATATCCGGGGCGACGAACGGTGCCAGGAAGCCACCGCTGGCAGCGTCGATGTGCATGTCGATGTC -GATACCGGTGTCGGCCTGGAATTTATCCAGCGCATCGTGCAGCGGTTGTGGGAACTCATAGTTACCGGTGTAGGTCACGC -CGAAAGTCGGCACCACGCCGATGGTGTTTTCGTCACAGGCTTCAATCATGCGTTTCGGGTCCATAAACAACTGACCGGGG -CGCATAGGGATCTCACGCAGCTCCACATCCCAGTAGCGGGCGAATTTATGCCAGCAGATTTGTACCGGACCGCACACCAG -GTTTGGTTTATCCGTTGGTTTGCCTGCAGCTTCCATACGCTTGCGCCAACGCCATTTCATCGCCATCCCGCCGAGCATAC -AGGCCTCGGAAGAACCAATGGTGTTGGTGCCAACGGCCTGACCATTTTTCGGCGCAGGCGCATGCCACAGATCGGCAACC -ATATTTACGCAACGCAGGTCGATGGCTGCGGATTGCGGATATTCTTCTTTGTCGATCCAGTTTTTATTGATCGACAAATC -CATCAATTTATGGACGTTTTCGTCGTCCCAGGTCTGGCAGAAAGTGGCCAGGTTCTGACGAGCGTTGCCATCAAGATATA -ATTCATCATTGATAATCTGAAATGCGACATCATCGCGCATTTCGTGCAGCGGAAATCGTTTTGACTCCGCGATAGTAGAA -ATGGCCTTTGCGCCAAAACGTGAATCGAGTAGTTCTGAGCGGAAATCCGTTAACAGCTTCTGGTCCATTTCGAACTCCTT -AAATTTATTTGAAGGCAATAAAAAAGTAGGATTTATCCGCAATGGAAGCAAGGCATTACAGGCTTAATTTAAATAACAAA -ATCCTAAGCAGAAAAACGACTTTTTATAATATAAACATTTAACATGATAATATTAAAAACAGACTTTATTATCGTAATAA -AAATCGCCCAAACATTGCTGTTCGGGCGATCAAATTAATTATTGTTTATCCTGCATATACGGCGTGTACACCCCGTTCAG -ACTGTGCAGGAAAGCTACGATATCATCCACATCCTCCTGCGGCAGCTCTTTGCCTACCTGATAGCGCAGCATCAGTTTCA -CCGCCCCGTCCAGCGTCGGCACGTCACCGCGATGGAAGTACGGTGCCGTTAAAGCAACGTTACGTAAACCGGGTACTTTC -TGACGCAATTTATCACGCTCTTCTTTAGTCACATTCATACGACCAATATCCGCCGCCGTAATTTCCCCAAAGTTAAAGTC -TTTTTTCAGCCCCAACGGTTCAAAGGAACGTCCGCCGAGAATAATACCACCATGACAAGTTGCACATTTATTATCTTTAA -ATAATTGATAGCCTTTTTTCTGTTGCGCCGTCAGCGCATTTTCATCTCCGCGCAACCATTTATCAAATGGGGAATCCGGC -GTAATTAATGTTTTCTCAAATTCAGCAATGGCATCAGTAATATTTTCGCCACTGAAACCTTGCGGATAGACTTCGAGGAA -CTGCGTTTTAAGCTGCGGATCTTTTTCCAGCTTAGCAATAATTTCGTCCCAGGATTTCGACGCCATTTCAATCGGGTTCA -ACGGCGGTCCACCAGCCTGATCCTGCAATGTTGCCGCACGACCATCCCAGAACTGCTCAACGTTAAATACTGAGTTAAAT -ACCGTCGGCGCGTTAATCGGCCCAACTGCGCCACCAACACCAATCGATGTTTTTCTGCCATCGACGCCCCCCGCATTCAA -CGCATGGCAATGAGCGCATGAAATGGTGCTATCAGCCGATAAACGGGGATCGTGATACAGCGCAAAACCCAACGCCACTT -TTTGCGCATCGGTAGGCAGTTTTTGCGGGATGGGCTGCACCGGTTCATTGCGATGTTCCGGAGCAGTATCATTGCTGGCG -TAATATTCCGCGCGCTGTTTTGCAATCCAGGCCAGTATTTCCGCCCGCTCTTCATCACTCACCTTACCCGCCCAGTGTAG -CGCGGTATAACGCGTTGGTGGCATAGTTTCATACTGCATCACCCATTCAATCTTATTCAAATCGCTTTGCGAAACGGGTT -TATCAGCCAGCAGTGCCGCACGCACGGCCTCAAGGTTAAAAGATTTATATCCAAGCTTAATGTCGTAATCCATCAACTGT -TTCGCGCCAGGAATATAATAATAGGCGGGTAATTCTGCCGAAGGCGTGTGGCAATAGTCGCATCCTTTTTCGCGGAGAAA -GCCTAAAACCTTATTATTTTCACTGACAGCAGATGCCTGAACATCGGCCTGTTTACTGCGTTTATTATCGTGGTACCACA -CATAACCAGATAACCCTAAATAGCAAATCGCGACGCCAGCCAGGCCGATCGCGGTAATACGTGAGACCATTTTCATTATT -CTTCCCTCACGGTGGTGAGTTATTGTGACCCAGAAAATTTTCCAGAATGCTGCAAACGTCTCTGCGAGACAAAGCCATCA -TAAAAAACAGGGAGATACGCTTTTTGATAGGAATCAATCAATTACATGAATATAAACTATCAATAAGATAGCCTGTGCCT -ATTACCCAGATCAGGAATGGCATATCATGATTGCGGCGAGAGCAGGATTGAATGTTCTGAAAATGAAAAACAACACCAAA -TCGGTATTTTTATAAATTCCATTGATATTAGTGCGTTATATTTTTTGACAGGTTAATAAACGTGATCCACCGCACGCTTT -GTCGCCCACCAGGCGGAGCGAATGACTACCCTTAAAGAAAAGCCGATAATTAGCGACGAATTTCGGAGGTTGGATCCTTA -TGCTCAATCAGAAAATTCAAAACCCTAATCCAGACGAACTGATGATCGAAGTCGATCTCTGCTATGAGCTGGACCCGTAT -GAATTAAAACTGGATGAGATGATCGAGGCAGAACCGGAACCCGAGATGATTGAAGGGCTGCCTGCCTCTGATGCGCTGAC -GCCTGCCGATCGCTATCTCGAACTGTTCGAGCATGTTCAGTCGGCGAAAATTTTCCCCGACAGTAAAACCTTTCCCGACT -GCGCACCTAAAATGGACCCGCTGGATATCTTAATCCGCTACCGTAAAGTGCGCCGTCATCGTGATTTTGACTTGCGCAAG -TTTGTTGAAAACCACTTCTGGCTGCCGGAGGTCTACTCCAGCGAGTATGTATCGGACCCGCAAAATTCCCTGAAAGAGCA -TATCGACCAGCTGTGGCCGGTGCTAACCCGCGAACCACAGGATCACATTCCGTGGTCTTCTCTGCTGGCGCTGCCGCAGT -CATATATTGTCCCGGGCGGCCGTTTTAGCGAAACCTACTATTGGGATTCCTATTTCACCATGCTGGGGCTGGCGGAAAGT -GGTCGGGAAGATTTGCTGAAATGCATGGCCGATAACTTCGCCTGGATGATCGAAAACTACGGTCACATCCCCAACGGCAA -CCGCACCTATTATTTGAGCCGCTCGCAACCACCGGTTTTTGCGCTGATGGTGGAGTTGTTTGAAGAAGATGGTGTACGCG -GTGCGCGCCGCTATCTCGACCACCTTAAAATGGAATATGCCTTCTGGATGGACGGTGCAGAATCGTTAATCCCTAATCAG -GCCTATCGCCATGTTGTGCGGATGCCGGACGGATCGCTGCTCAACCGTTACTGGGACGATCGCGACACGCCGCGTGACGA -ATCCTGGCTTGAGGACGTTGAAACCGCGAAACATTCTGGTCGCCCGCCCAACGAGGTGTACCGCGATTTACGCGCGGGGG -CGGCCTCCGGTTGGGATTACTCTTCCCGTTGGCTGCGTGATACTGGTCGTCTGGCGAGCATTCGTACCACCCAGTTCATC -CCCATCGATCTGAATGCCTTCCTGTTTAAACTGGAGAGCGCCATCGCCAACATCTCGGCGCTGAAAGGCGAGAAAGAGAC -AGAAGCACTGTTCCGCCAGAAAGCCAGTGCCCGTCGCGATGCGGTAAACCGTTACCTCTGGGATGATGAAAACGGCATCT -ACCGCGATTACGACTGGCGACGCGAACAACTGGCGCTGTTTTCCGCTGCCGCCATTGTGCCACTCTATGTCGGTATGGCG -AACCATGAACAGGCCGATCGTCTGGCAAACGCCGTGCGCAGTCGGTTACTGACACCTGGCGGGATTCTGGCAAGCGAGTA -CGAAACCGGTGAACAGTGGGATAAACCCAACGGCTGGGCACCGTTACAATGGATGGCGATTCAGGGATTTAAAATGTACG -GCGATGACCTTCTGGGTGATGAAATCGCGCGAAGCTGGCTGAAGACGGTGAATCAGTTCTATCTGGAACAGCACAAACTG -ATCGAAAAATACCATATTGCCGATGGTGTTCCCCGCGAAGGCGGCGGTGGCGAGTATCCGTTGCAGGATGGGTTTGGCTG -GACTAACGGTGTGGTACGCCGTTTAATTGGTTTGTACGGCGAACCATAATATTTTTACAGCCAGCCGCTAACTTCCTGCT -GGCTGTAAAATTATCCTCTTCAGGAGGAGATATTTAACATCATTGCCGCCTGGGTGCGATTTTTCACTTCCAGACGGCGA -TACAGGGATTCCAGATGCGCTTTTACCGTTCCGGTACTGATATTCAGCGCTCTGCCGATCTCCTTATTTGATTCGCCCGC -CGCTAACATGGTTAAAATCTCCCGCTGGCGGGCGCTTAACGATTTGAGATCTTTAATGTCCTTTTCCGGCGTCGTCCGCC -AGTCTCCAGGCAGAAACATCATCCCCATCGCCGCACTATTTACCGCCAACGCAAATGTCTCGACGGTTGAATCACGAGGC -ACAATGGCCAGCACATTAAAATGGATAACTTCCTGTAACCACCGTTTATTGCAATCCGTCGCCGTAATTAACACCTTAAC -CTCAGGAAATTGCACCACGGTTTTTTGCAGCAACCAGTAGCAAAACTCACCATCCTGATCGCCATCGAGCATAACTAAGG -CTTCAGGGTAACTTTCCAGCTTTTGCCATAACTCGTCTGCCTGACTGGCCCCCTGAATACTCACTCCTGGAATACGCTGC -TGTAAACTGATTTTCATTCCATGAATAAATATTGACTGCCTGTCAAACATGACTATTTGCATAACTGAATCTCCACCTGA -ATACGTTAAAAAGACTTAAGTAGTGGAAGGGTATTACCCGCGAGAAAAAATAAGAATTCGCCATTTGGCGGTGGCCATTC -TACAGAGATGACGTGTAGAAAATAGTTACCGATATAAATAGTTACAGCTAAACGCCTGAAATTACATGTCGAGGGCACTA -TTTAAAACAATTTTGAGGATTTCCTTATATTGGTGGTTAGTACGCATGCAATTAAAAATGAAATTCCGCGACCACAAGCC -AAAATAACAAACGGCAAGGAGACAAAAATAAGCACAAATAGCCAACACGTCCTCTGTTCACTTTAAAGGGAATCGCTGAA -AAATACGCTCTGTTTAAGGGGATTCACCTTTCTCAGAAAGCTATTCCGCCCTTTTCCTGCTGAGAAATCGCCACATTCGG -CATGACAACATTGTGAAACCCGGCATTAGATGTTAGAAAAAACAATAAACAATGCGATATGCGCGTTACTGTTTCGCTGT -GAACAACAATCGGTCAAAGAAATGGATAAAATTCACGCAATGCAGTTGTTCATCAAAGTCGCGGAGCTGGAAAGTTTTTC -CCGCGCAGCGGATTTCTTTGCTTTGCCAAAGGGAAGTGTTTCGCGCCAGATACAGGCACTGGAACATCAACTTGGCACCC -AGCTTCTCCAGCGCACCACGCGACGGGTCAAACTCACGCCAGAAGGCATGACCTATTATCAACGAGCAAAAGATGTGTTG -AGTAATCTCAGCGAACTGGACGGTCTGTTTCAACAGGATGCCACCAGTATCAGCGGTAAATTACGCATCGACATCCCGCC -AGGAATCGCGAAAAGCCTGTTACTGCCGCGCCTGTCGGAATTTCTCTATCTGCATCCGGGAATTGAGCTGGAACTGAGTA -GCCATGACCGTCCGGTAGATATTCTTCATGATGGTTTTGATTGCGTGATACGCACTGGCGCGTTACCGGAAGATGGCGTT -ATCGCCCGTCCCCTCGGCAAACTGACCATGGTCAACTGTGCCAGTCCGCACTATCTGACGCGCTTTGGTTATCCGCAAAG -CCCCGATGATCTGACTTCACACGCAATAGTGCGTTATACACCGCACCTGGGTGTACATCCGTTAGGTTTTGAGGTTGCCA -GCGTTAATGGCGTCCAGTGGTTTAAGTCTGGCGGCATGTTGACGGTAAACAGTAGCGAAAACTATCTCACCGCCGGTCTT -GCCGGTCTGGGGATTATTCAGATCCCGCGCATTGCCGTGCGCGAAGCCCTGCGTGCCGGGCGGCTTATTGAAGTATTACC -TGGCTACCGTGCCGAGCCGCTCTCCCTTTCGCTGGTTTATCCGCAGCGTCGGGAGCTTTCCCGGCGTGTAAACCTGTTTA -TGCAGTGGCTGGCTGGCGTAATGAAAGAGTACCTGGACTGACCGACTATACTTTTTAAGAATGACCACGACAGAAGGACA -AAAGAGCGGATGACGCAGGAAAACGAGATCAAACGTCCCATCCAGGATCTGGAGCACGAGCCGATTAAGCCGTTGGATAA -TAGCGAGAAAGGCAGCAAAGTTAGCCAGGCGCTGGAAACCGTCACCACCACTGCCGAAAAAGTCCAACGCCAACCGGTTA -TTGCGCACCTGATTCGCGCGACAGAACGCTTTAACGATCGGCTGGGTAACCAGTTTGGTGCGGCTATCACCTATTTCTCA -TTTTTGTCGATGATACCAATTTTGATGGTGTCGTTTGCCGCAGGGGGCTTTGTGCTGGCCTCCCATCCGATGTTGCTACA -GGATATCTTCGACAAAATTCTGCAAAACATCAGCGATCCGACGCTAGCCGCCACGTTGAAAAACACCATCAACACCGCCG -TTCAGCAGCGTACGACTGTAGGGCTTGTCGGCCTGGCGGTGGCACTTTATTCCGGCATCAACTGGATGGGTAACCTGCGT -GAAGCGATTCGTGCCCAGTCGCGCGATGTCTGGGAACGCTCGCCGCAAGATCAGGAGAAGTTCTGGGTAAAATATCTGCG -AGATTTTATTTCGCTGATTGGTTTGTTGATTGCGCTGATTGTGACGCTTTCGATCACCTCGGTTGCCGGTTCGGCGCAGC -AAATGATTATTAGCGCCCTGCACCTGAACAGCATTGAGTGGCTGAAACCGACGTGGCGATTGATTGGCCTGGCGATTTCC -ATCTTCGCCAACTATCTGCTTTTCTTCTGGATCTTCTGGCGGTTGCCGCGCCACCGTCCGCGCAAAAAAGCCCTGATTCG -CGGAACATTTCTGGCTGCTATTGGTTTTGAAGTGATTAAAATCGTGATGACCTACACCCTGCCATCGTTGATGAAATCCC -CCTCTGGCGCAGCATTTGGTTCCGTGCTGGGGCTGATGGCATTTTTCTACTTCTTCGCCCGTTTGACGCTGTTTTGCGCG -GCGTGGATTGCCACCGCCGAATATAAAGACGACCCGCGAATGCCGGGGAAAACGCAGCCTTAAAATAGGCCGGATGCGGC -GTAAACGCCTTATCCGGCATACGATTTTATTCGGCCTGGCTCCCCGTAGGCCGGATAAGATGCGCCAGCATCGCATCCGG -CTATAATGCGCACATAACCTCTTGAAACTCGTCCCCAGAGCCTCTTCAGCCATCTATTTGGGAGCAAACAATTTCATTCC -AACTCATAACCCCAGCATATAAATCCAGTTGGTAACTTTTATTTAACCTGAAACCAGTTTTATCCACTATTTATAAAATT -ATGTGAAGCATTTCATAGAAGAAAAATCACTGGCCTAAACATTATCCCCTTTTTGCCTGATTTTTGACCATTTCCGCGAT -TTGTTACACATTGAAATATCACTTTTGCTGTGCGTAATATGGCTATTCGTTAGCCAAAAAATAAGAAAAGATTATGCAAG -CAACAGCCACAACACTCGACCACGAGCAAGAATACACGCCGATCAACTCGCGTAATAAAGTCCTTGTCGCCTCTCTCATT -GGCACAGCCATTGAGTTCTTCGACTTTTACATTTACGCCACTGCGGCCGTTATTGTGTTTCCGCATATCTTCTTCCCGCA -GGGCGATCCTACGGCAGCAACGCTACAGTCGCTCGCCACCTTCGCCATCGCCTTCGTCGCGCGCCCCATTGGCTCTGCCG -TTTTTGGTCATTTTGGCGATCGCGTTGGGCGTAAAGCGACGCTGGTCGCCTCGTTGCTAACGATGGGGATTTCGACCGTG -GTGATTGGTCTGCTGCCGGGCTATGCCACGATTGGTATTTTCGCCCCGCTGCTGCTGGCGCTGGCTCGATTTGGTCAGGG -TCTGGGCTTAGGCGGTGAATGGGGCGGCGCGGCGCTGCTGGCGACTGAAAACGCCCCACCGCGCAAACGTGCACTGTATG -GCTCCTTTCCGCAGCTGGGCGCACCGATTGGCTTCTTCTTTGCCAATGGCACTTTCTTGCTGCTTTCCTGGCTACTGACC -GACGAGCAGTTTATGAGCTGGGGCTGGCGTGTGCCATTTATCTTCTCGGCGGTGCTGGTCATTATCGGCCTGTATGTTCG -CGTGTCGCTGCATGAGTCGCCGGTGTTTGAGAAAGTCGCTAAAGCGAAAAAACAGGTGAAGATCCCGCTGGGTACGCTGC -TGACCAAACATGTTCGCGTAACCGTACTGGGTACGTTCATTATGCTGGCAACCTATACGCTGTTTTACATCATGACGGTC -TACTCTATGACCTTTAGTACCGCCGCCGCGCCAGTTGGGCTTGGCCTGCCGCGTAACGAAGTGTTGTGGATGTTGATGAT -GGCAGTTATTGGTTTTGGCGTGATGGTGCCAGTCGCTGGATTACTGGCTGATGCCTTTGGTCGCCGTAAAAGCATGGTAA -TCATCACCACGCTGATCATCCTGTTCGCGCTGTTCGCCTTTAACCCACTGCTCGGTTCTGGCAACCCGATTCTGGTTTTT -GCCTTCCTGCTGCTGGGGTTAAGTCTGATGGGTCTGACCTTCGGGCCAATGGGTGCGCTGTTACCAGAGCTGTTTCCGAC -AGAAGTGCGTTACACCGGAGCATCGTTCTCTTACAACGTAGCGTCGATTCTCGGGGCTTCCGTTGCGCCATATATCGCAG -CCTGGTTGCAGACTAACTACGGGCTAGGTGCGGTGGGGTTATATCTGGCGGCGATGGCTGGCTTGACGTTAATCGCCCTG -CTGCTGACCCATGAGACGCGACATCAGTCGTTGTAATAAGAGTGAAAAGCCTGATGCGCTACGCTTATCAGGCCTGAATT -TCCATACAATATATTGAATTCGCAAGGATTTGTAGGCCGGATAAGGCGTTCACGCCGCATCCGGCATGAACAAAGCACAC -TTTGCCAACAATCTAAATCTGTTTAATTGCCGGATGTCAGACATCCGGCAATTATCATCACTTCTTCATCTGCGACAAAA -TCGTCCGACACTGATTAGCCTCCCCTTCGGAAGGTGAGATCAGTGCCAGTAACGCCGCCGCCGGTGTTACCAGCGTTGCC -AGTGCCGCAGCAACAGCACCACGGGCAATCAGCGGTCCGGCTTTCACCCCAGCCTGCGGATTTTTAAACGTCCCCCGCAC -ATACAGCGGCGAACGCAGTGTGATAATCCGAATTCCTTTACTCTCCGGATCAATAGTCAAATCCAGCTGTTCCGAAGCAA -AACTTGCCGTGCCGGTAACATTAATCAACGCGTTCTCAGTATCGAAAGCAAAAATCTGCGGGCGCGCCACGCCGTTGGCA -ATATTCAGATTCGCCGCCGCGCAGTTCACCCGCACCTCATCATCACCAAATATCGCACCGACAATGTAGTTGCCGACATT -CAGCCCAACAATCTCCATCAGGTTGCGGCTCACCAGCCCGTCATTCATCAACAGTTTCAGGTTGCCGTTACTGTTGCCTA -AAAGTGCCGCCACCGAGTTACCGCTACCGCGTAGTTCCGCGTCACCGTTCATTTCCCCCAGCGTCTTCTGCATCAGTTCC -ACATCGGGCATCAGTTCTTTCAGTTTCAGTCGACGAGCCTGAATATCTGCCCGCCCCTGCATCGGCTTTTTATCGCCTTC -CAGATGAATATTCGCCGCAATGCTGCCGCCCGCCATGCCAAATTTCAGCGGTTGCAGGCGCAGGTCAGCATTTTTGAGGA -TGATATGAGTAGAAAGATCGCTAATCGGCAGGCTACTGCCATGCTCAATGCGCCGCCCTTTGAAGCGAACATCGGCATCC -ATAACGTCCCATTTATCGGTTTCGAAGCGGTCATAAGGCAGCACTTTGCCCGCAGGCTGAACGCTTTTTTCGCCCTTCTT -CTGTTCAGACCGTTTCGACTTTTCTGCCCCTTTCCCGGAATCAACGCCAATCAACGGTCCCAGGTCCGCCAGCCGCAATT -GCCGCGACTCGACATCACCTTCCAGTTTTGGTCGTGGCTTTCCGGTGGTGTAGACCAGAGAACCGTGGATATCGCTATCA -CCAATTCGCCCATTAAAACCGCGATAATCAAAGACCGACGATTTTTCAGTGTCGATTTTCGCTACCAGCCGACCATCCGT -TTCAAACGGCGGGGTATCGGGCAGCAGAACGCCCGTCAGTTCATAGAGATCACCCAGTGAATCGCCAGAAAATTTAAGCC -GTAAATCGACACCGCCCATCTTCATTGGGTCATTCACGACGCCATCAAAAGCAACACGGGTGTTACCAGAGCGGAAATCA -GCCTGTACCGGAAACGGCGTCCCTTCGCCACGCAGCGCCAGCATACCGCCTATTTTTCCCGTACCCGTGAGCGGTTCACC -GTTATATCGTCCCTGCGCCTTCAGGCCAAAAACGTAATCGCCCACCTTTTCTTTATCCGCTTTACCTTTCGATCCAGTAA -CTTCGCTGAACGGCAGCGGCTTGCCTAAGGGATCAACAAAAATCTCCAGATCCGCTTTGCTTACTTTGTCATCAATGGCG -ATCCGCCCTTGATCGAAAAGAATATTATCCAGCCGAAACGACCATGCCGACGGCTTTGCATTCGCGTCTTTGTTATCATC -GTTGGCAAGATTAAACGTCCAGTTATTGTTCTTTTCAGAGAGGCGAATCAGGCGCGCGTCGGGCTTTTCGAGCTTGATCC -ACGGCAGCCAGACCGTTTTGGTCAGCAGCGCCAGCGGGGCCAGCGTTGCCTCTACGCGTGGCAAATGCACCATCGTGACT -TCGGGAATATCCGGTGGATTGCCAAGAATGATGTCTTCCGCGTGTACATGGGGCCACGGCACCCAGCTGCGCCAGCCAGT -TTCTTGTTTTTGCCGCTCCCACACCACGCCCAGATCGCCACGGATAGCGAACGGACGATTCAACTCCGCAGAGACTTTCT -GGTTGATAGTCGGTTTGAGTCGATTCCAGTCAAAAGTTGCAATCAAAATGATCGCCACGACAATCAACAACAAGAAAGCC -CCTGAAATCGCAGCGGTTATTTTGCCTGCCTTGCTCATCGTTCGCTTCCTCATATTCTTCCTGTGCCAGTCCTAAAGATA -GTCCAGCCAGGCGGAAAATGAGGCAGCTTATAGCGCCAGAACCGCCGTATTCAGCGTTTCTATCGGTGCCGGGCGTGAAA -GAAACCAGCCTTGTGCGGCGAATGCGGGCGAGTTCTGAACATCACGCCACTCTTCCGGCGTTTCTACGCCCTCGACAATC -ACCCCGCGACAATAGCGATTCATTAGATGTAAAAGCTGAGAAAAGAGTGTGCGTCCTTCCGGCGACTGACGCAGCATCAC -AAACAGTTCTCGCGCGATTTTGATGTAGTCATAACGCACTTCACTTAGCGCAGAGAAATTTGCCATCCCGGTACCAAAAT -CATCCAGCCACAGCGGGCCAAATTCACACATCGAGGCAAAGGTTGAATCTTTCGGCAGACGGATATGCTCCACCAGTTCG -AAACGCAGCCAGGGAAGACGCTCAATCTGGCGCAGGATTTTTGGTTGCTGACGCAGGGCGATGAGCGTAGGGCCATCAAT -ATTGACCGATGCCAGCAGGCCGTGCTCTATAAAGAAGTCGGCTTTTTGCGCCAGCAAATCAATCTGCTCTTTCACAACCT -CCATCCGATGGCTGACGGTGATTTCAGTAAAATAGCGATCCGGCGGCAGGCGTTGCGAAGGGTTCAAGGGATGCGTGACC -ACCGTTAATAGCTCCACGGCCATTAACCGCCCGCATGTTTGATAGATCGGCTGCCAGGTGTAAGCACGCTCACACTGCAA -CCAAAAACGCCGTTCCTGCAAGCTCTCGATGCTTGCTTCAGGGTTGCTTATTCGCTGGATAACCTGCCTTATCATCAAAG -ATGTCCTGTGTTTAAAAGTGATGCTGCCCGGACTCGACAAAGATTATCGGCGCGTAAGGGCAGAACTTTACCGCCTGGCC -GGGGTAAATTTCCTCACTCCACAACGGAATCTTTCAGGAATACGTTCTGGCTCAAAAAAATAATGGAACACTGTTTTAAT -ATGGTTGACCAGCAAACCACCACAGCGCAAACTAACGCTAATTTTTTACAGATCAGGTTCACGACTATGTCCAAAAAGAT -TGCCGTGATTGGCGAATGCATGATTGAGCTTTCCGAGAAAGGCGCGGACGTTAAGCGCGGTTTCGGCGGCGATACCCTGA -ACACTTCCGTCTATATCGCCCGTCAGGTCGATCCTGCGGCATTAACCGTTCATTACGTAACGGCGCTGGGAACGGACAGT -TTTAGCCAGCAGATGCTGGACGCCTGGCACGGCGAGAACGTTGATACTTCCCTGACCCAACGGATGGAAAACCGTCTGCC -GGGCCTTTACTACATTGAAACCGACAGCACCGGCGAGCGTACGTTCTACTACTGGCGGAACGAAGCCGCCGCCAAATTCT -GGCTGGAGAGTGAGCAGTCTGCGGCGATTTGCGAAGAGCTGGCGAATTTCGATTATCTCTACCTGAGCGGGATTAGCCTG -GCGATCTTAAGCCCGACCAGCCGCGAAAAGCTGCTTTCCCTGCTGCGCGAATGCCGCGCCAACGGCGGAAAAGTGATTTT -CGACAATAACTATCGTCCGCGCCTGTGGGCCAGCAAAGAAGAGACACAGCAGGTGTACCAACAAATGCTGGAATGCACGG -ATATCGCCTTCCTGACGCTGGACGACGAAGACGCGCTGTGGGGTCAACAGCCGGTGGAAGACGTCATTGCGCGCACCCAT -AACGCGGGCGTGAAAGAAGTGGTGGTGAAACGCGGGGCGGATTCTTGCCTGGTGTCCATTGCTGGCGAAGGGTTAGTGGA -TGTTCCGGCGGTGAAACTGCCGAAAGAAAAAGTGATCGATACCACCGCAGCTGGCGACTCTTTCAGTGCCGGTTATCTGG -CGGTACGTCTGACAGGCGGCAGCGCGGAAGACGCGGCGAAACGTGGGCACCTGACCGCAAGTACCGTTATTCAGTATCGC -GGCGCGATTATCCCGCGTGAGGCGATGCCAGCGTAAACGCAGCATATGCAAAAGGCTGGATAAAGTGTTACCCCTCTATC -CAGCTCATCCATAAATACCTGATGGTTGTGCTAACTCATCACCATCAGGCATTACTGTGCAGGTGGAATATCCGTCACTT -CAGGATGTACGTCATCCGTGGCGACAGAGGTGGTCGCAGCGGCGGTAGATGGGGCCATGATTTGATCCCAGACCGCCTGC -AACGCTTTCATGTTAAATTCCGGCTCGCCTTTCGGCTGCAGCAGTATTAACGCCATATCATTCGACAACTGTTGACGCAG -ATCCTGATTTAACATCTCTACCGTCAGGCTATTAAGGAAATCCTGCCGCAGTTTCTGATATTGCTCCGGCGCGATATCGA -CAACCTGATTTTGCAACGAACGCATCCGCTGACCCATCAGAATATCGGTATCAGCTCGTGCATAGGCGGCAAACAGTTTC -TGCAGCTCCAGTTTCTTTTGCGCCACTAACGCATTGAACTCTTCTTCCGGCAGACCTTTATCGCGAACCTTCGCCAGTTC -ACGCGCCACCAGATTAAGGTTGCTGTTCAGCTTGTCGTTTGGTGATTCGATGTTGATGGCACACTGCGCACGCAGATACA -GCACACGGCAGTCAAATCCAAGACCGATGTCTTTGCTGTTACTGGCACTTAACGCTTGCTGAACATGCCAGAACAGCGCC -TCGCGGGCCAGGTCCGCACGCCAGTAGCGCAGCAGTGCGGCTGATTCACGAATCGGCTGCCACGGCGTATCCCACATGAT -AGATAACCGGTCCTGACGCACCGCGTCAGTCATAATACTCACCGCTTCCGCACGCAGCGGAGAAAGCGTCGGCACCGGAG -CTGGCGTTTCACGTTTGCCTTTCAGTTCGCCAAACGTTTTGTTTATTTGGTCGACAACCGAGCGCGCATCCACGTTTCCC -ACCACCAGTAGCGTCATTGCATCCGGGGTGTACCATTTCTGATAGAAATCTTTAATTTTTTCCGCTTCAACGGGTTGTTT -CAGCGGATCGGCAGGATCGTGACCTAACAAGGTTGACCCTTTCAGACGATAGCGCCACCAGCCCTCTTTAGTATCGGCAG -GCCAGGTTGCCACCATGTCCTGACTTTGCAGCGCGTGGTTGATGGTTTCTGGTGTGATGGTCAATTTGCCAGTGGCATTT -GCCAGATAAGAGAGCGCTTCTTTCAGCAAATCGTTACGGTTATTGGGCAAACTCAGATTAAACAGCGTGGTGTCATAAGA -GACAATTACCGGCGGCATCGGGCGTTTAGGGTCGATCCCCTGCTGCCACAATGAACGCGCCTGTGCTGCGTCAAGGCCAC -CGCTTTGCGTTAGCGCAATACGAGGGATGGCGTGACTGTAACCGCTCTGTTGTGTACTTTCGGCGAGCGAACCGGTATTA -ACCAGCAGGCGAATTTCAACACGATCGCTGGGACGCTGGGGGGTGGTCAGCACTTGCCACTGTAAACCGTTGGAAAGCGT -CCCCTGTTGCCATGCTGGATCAGGCTGGAGCGCATCTGCCTGCACATAGCCAGCAGTGGCCATCATCAGCAAACCGCCCG -CTAAAAGTCGAATTTTTGTGCCCTGCATGTGAACCCCTGATCAACTATCCTGGTAATAAAAAAACTGCCCGTTGTCGGTC -AGTCTAAATGACGTTAAAAACACTTCGTGTTAGACCGCAAGAACATGAAAATGTCACGGAAGAAGTGAAATAAACCTGAA -CTCACCCAGGTGGTAAGTTCAGGCACAGGGGTCAATTATGCGCAAACACCCGCACTCGGGGAAGGGAGTGCGGGCATAAG -TGATGAGATTAAGAGGATAATTCGTGCGTTTTGCCATCCGGCGCACGATTATTCAGCACATCGTCCAGTTTTTTGTGGTC -CAGTTCTTTCACCCACTTAGCAACGACAATGGTCGCTACGCCGTTACCGACCAGGTTAGTCAGCGCACGAGCTTCTGACA -TAAAGCGGTCGATACCGAGGATCAGCGCCAGACCCGCTACCGGCAAATGGCCCACCGCAGAGAGCGTCGCCGCCAGCACG -ATAAAGCCACTACCCGTTACCCCTGCCGCCCCTTTAGAAGAAAGCAGCAACACGATTAACAGCGTGATTTGGTGGACGAT -ATCCATCTGACTGTTAGTGGCCTGGGCGATAAACACCGCCGCTATTGTCAGGTATATCGATGTGCCATCAAGGTTAAACG -AGTAGCCTGTCGGGATGACCAGCCCCACCACCGATTTACGGCAGCCGAGTTTCTCCATCTTGTCGAGCATACGCGGCAGC -GCCGACTCGGAAGATGAAGTCCCCAGTACAATCAGCAGTTCTTCACGGATGTAGCGGATAAATTTGAAGATACTGAAACC -AGTCGCTTTAGCGATTGAACCCAATACCAGCACCACAAACAGGATACAGGTAATGTAGAAACAGATAATCAGCTGCCCCA -GTTGCACCAGTGTGCCGACGCCGTATTTACCGATGGTAAACGCCATTGCCCCGAACGCACCAATAGGTGCCAGACGCATG -ATCATATTGATGATGCCGAAGATGACCTGCGAGAAACTTTCGATGACGTTAAAAATCAGTTGGCCTTTGCTGCCCAGACG -GTGGAGCGCAAAACCAAACAGTACGGCAAACAGCAGCACCTGCAGAATGTTACCGCTGGCAAATGCGCCAATGACGCTCG -CCGGGATGACATCCATAATGAAGGCGACAATGCCCTGGTCTTTCGCCTGATCGGCGTAAACCGCTACCGCTTTCGCATCA -AGCGTTGCCGGATCGACGTTCATTCCGGCACCAGGCTGCACGACGTTAACGATGATAAGACCAATAATCAGCGCGATGGT -ACTGACAATTTCAAAGTAAAGCAGTGCGACTGCGCCGGTACGACCGACCGCCTTCATGCTTTCCATGCCCGCAATGCCCG -TTACGACGGTACAAAAGATGACAGGAGCGATGATCATCTTAATGAGCTTAACGAAGCCGTCGCCAAGCGGTTTCATTTGC -TCGCCTATTTCAGGATAGAAATGGCCAAGGAGAATACCAATGGCTATCGCTGTCAGGACCTGAAAGTAAAGGCTTTTAAA -CAGAGAGGTTTTCATAGGGTGTCCTTTAGTAAAACCACAGGTCTTGTAAGGTTATGGGGTACCTGCGGCCTTAAAATAAC -ACCCAGACAACATCACAGAAATGTACCTGGATCATAATTGAAACAAAAAGGTTAAAAAGTTTGAGCTGGCTCGCACAAAC -CAGCACTTTTTAAAGTTTTGTAATCAGTTTGGGGTAGCTACTTTTCTTCCAGGTAACTCTCTTCGAAGATTTCAATAGGG -AGTGGGCGAGCAAAAAGGAAGCCCTGGGCAATACCAACGCCCGCTTTTGCCAGCCAGTCGCGTTGTGCTTCAGTCTCCAC -GCCTTCGGCAATCATTTGTAAGTTCAGGCTCTGCGCCAGCATGATAATTGCAGCAATCATGCTGCTATCTCCCGGCAAGC -CTTCAACAAACATTTTGTCGATTTTCAGTACGTCGATTGGCAACGATTTCATATGCTGCAGCTGACGCAGCCCTGCGTAG -CCCATGCCGAAATCATCCAGCGCCACCCGAACTCCGGCATTGCGCAGCGGACGGAGGATTGCCACCGCAGCATGAGGGTC -GTCAATACGTCGGCTTTCTGTCACTTCCAGAATCAGTGTTCCCGGCTGAATGCGATAGCGGGTTAACAGTTCCAGCATAT -CCGCCACCATATTCGGGTGCATCAGTTGCAGCGCAGAGAGGTTTACCGACAAGGGCAGCATAATGCCGCGCTCTTGCCAG -GCTGCAAGCAATCGACAGGACTCTTCCAGCACCCAGTGACCGACGGTAACCATCAGCCCACAGCACTCAATGCGATCGAT -TAAGCCATCCGGCAGGTCCCAACTGCCATCCGGTTGCTGGATACGCAGTAACACTTCCGCACTGACCAGTTTACCGCTGG -TCATCTCGACCTGTGGCTGTAACCAAATAGCAAACTGATGATTTTCCAGTGCATTAAGGATATCGCTCTCTTCCGTCAAC -CGCTTCTGGGCGGCTTCCATCTGCTGCGGATCAAAGAACTGAATCTGATTCTTGCCTTTATGGCGAGCGGTAAATGCCGC -AGAAATAGCGCGACTGTAAAGCTGTTCGGCGGTGAGATCGCCGTAGAACATCGCCACGCCAATGCTACAGTGCGGACGGA -GTTGAATACGTTCAATCGGCAGGCGCTCGCTCATGATAGTGAGCACTTGCTGACCTAAGGTGATTGCGTGCCACGGTTCC -TGTACACCGTTGGCAATGACAGCAAAGTCATAACCGCTAATCTGCGCGAGGATCATACGTGGCGACAGTACCGATTTGAG -TTTTTCCACCAGCGTCAGCAGCAGAATTTCTCGTTGCGCCTCTTTCAGCACGCCCGCAGTATCACGCAGGGTTTCACAGG -TGATGATCATCAGCGCGGTGGTTTGTTTACGCGCGACAACCTGCTCCAGCATCTCCATCAGCAAGGCTTTGTTCGGCAAA -TCCGACACCGGGAAGCGCATCGCATTTTCGTTCTGTTCTTCATAATGGCGCTGCAGCAATTGCTGGTTGAGGTTGTAACT -GCGCACCAACATACCGATTTCATCGTCCTGATGCAGACGCGGTAATGCCAGTTGGTGACCAACAAGCTCCTTGGCTGGGA -TGGCGTTAAGTTCGCGAGCAATATTGCGTAACGGATGCAAAATCAGGCGGTTAATGCACCAGCTGATGGCGACGGTCAGG -ATAAGCGACAAAAGTAAGTAAATGGTCACTAACGTTGAGAGGGTGCTCATCACGAACTTATACATACGGAAGGAATCCGC -CTGTAGTACCAGATAGGCAATTGGCTGCGGGTTTGCCGGACGTTCGAGCGAGTAAACGCCCAGCGAGATTTGAACCGGTA -GCTCAAACAGGCGAGTAACCATTACCGGCACCGGGCGCTCTGGAATAAAACTTTTACGCAGCGCCTGGAACTGGTTAGGC -AGCACTACATCGGCACGGCTGACCACGCCTGCCGGTTTAATGCTGGCAAGAATAGCTTCCGCTTCGGGAATATCGCCTTT -CAAAATAGCTGAAGATAAGGGTTCGCGGACAGAGCGAGCAATGCTTTCCAGTTGCGTAGCCGTGTTATAGCGATTCTGCT -GGACCAGATGGAACAGCAAAACGGTGCAAAAAATAAAAACGAACACCAGGACAACGGCTGCCACCATTGCCATCTGCTTG -ATTGTTAACGAGCGACTTACGCGCAAATTGTCTCCCCCCGGAAATCCCAGATTGCCGCCCGAGTATACCCGATCGCAGCG -GCATTAAGAGAGGCGCTATCTGAAAACTTACCAGTCGGCGTAAGGTATCAGCGGCTGCGGCGGTAAATCCATGTCACCCT -GCCATCCGGCGGCGGAATAACGTACGTAGAGCAGGAAATGGCTGGGTGCGTAATCTTTCGCCTGCTGGATATCAATTGCC -GTGCCAACAAACCAGTTGGAAGTAACACGTCGTTCAAGTAATGCCCGCGCCGTGTAGCCGAAGCCCTGACTGCTGCCGCC -ATCGTTGGATTGCCGCGCAGCTTCTTCCTGCCAGTCGGTCGGGATCAGATTCATCAGCGGATAACGCGGCATGGTTTTGG -TGCGTGAATGCGACCACGAGCCAGACGCACCCAGCTCCCACGACCAGTTTTCCGTGCGCTCCCGCCACATCACCGGTATG -GCAAACGACAGGTATTCCTGCGGACTGTAGTAACCGCCCTGACCGAGTGAGTAGCCACTCAGATCTTTGTCGTAATGCCA -GATCATGTTGTTCAGGCCGATTGTGACGCGGCGATTGTTCTGGTTAATGACCTTATAGTAATAGCCCGTCATCCAGCGCA -CGCGCCAGTTATCTTCGACATTTTTACCGGTTAACTGGTCGCCACTAAGCGATGCCCAGACGCCGTTTGCTTCACCTTTA -TCGTAGCTCAGACTTAGCCCCACACCGTCGGCACGTACGCCACCCCATTTTTTCCCGGTATTGCTCGGGGAGTCTTTTTG -CCCACCAAAGGCCAGCAAAGAACTGGAGATGGGCCGACGGTGGGCGTTAACGGTGTAACCCAGCGGCCCGATATCATCGC -TGTAACTGATGCCGCCGACCACATCCACCACGTTGAAGCCCATCGGCGTGGTACCGATATCCCAGCTCCAGACGTCATTT -CGCCAGCCGACCGCCACGCTGGCACCGGAATCCGACTGGCTGCGGTTGCCGCTACAGTCCTGTAATGTACAGGTGCCCCA -GTTGTCATCCCATTTGCCATCGGCATTAGTGGAGAAACTGCCGACGTTCATATTGACGAAATCACTGCGAAAGAACATCC -GCCCGTCAGAATACGGCGCATCCACCTGCAACATGGTAGTGTGCGCTTTCAGATCGGAGTAACCACCGGTGCCGCTCGAA -CCCCAGTAATCGTGCTCAAGGGTGACGTTAAGATCCTGCTGGCGATAGAGGTCCGCCGCATCGCTGCGCACGCCACGTTT -CAGCCAGTCATCTTTCTCGTCGTTACGGGTCAGTCGGGTAAAGGTGTCGTTATCCTGCGGACGCGTCGTAGTCACACCGG -ATGCGACCATGGCGTCTTTGTAGGTTTCCAGCGCCTGCGTTGGATCGCCCGCCTGCGCTTCAAACTTCGCACCATCACGC -AGCACCATCGCGCTTTCCATCGACGGTGGCTGAGATTTTGCCTGCGGGATCAACTTATTAAACGTCCGCTGCGCTGCTGC -GGTATCGCCAAGCTGCGCCTGTGCCAGCGCCACGCGCCGCTGTGTGTTCAGCGAGGCGTTATCGGTAGCGGGCAGTTTCG -CCAGCTGGCTACGTGCCGCCGCTTTGTCACCGGCAGCAATATCCACTTCCGTCAGACCAAGAATGGCGTCGGCGTTAGCT -GGCTCCCGCGTCAGGACATTCTGATATGCAGCGCGGGCGGCGGTGTAATCACGTCGTTGTTGCGCCCAGTCAGCCAGCGT -GAGGTCAATACGCGTGGAAGGTGGTTGCTGGCGCAGCATCGCTTCCGCTTCTGCCTCTTTGCCGCTTTCTCGCAGGCGGT -TAGCGGTTTCCAGCACCTGATCGCTTTGCAGTCGATTAACCAGCTCCTGAATATTGCTGTTCCACTGCGCACGCGGCAGG -CTATTGATATGCGCCAGCGCCGCTCTGTCCTGGTCATGACCAGAGAGGTACAGCCCGTAAGCGTAAACCTGCTCCGGGTC -GTTCGACTTCTGCTGCGCCAGATTGCGCATTAACGTATCGGCCTGGCTGCGTTGTCCGGCCTGCCAGAGATCCTGCGAAA -GTCGGTAAGTAATCCATACGCTGCCGGGGTCCAGCGCCAGTCGTTGCCGCTGAAGTGCTGCCGCCTGCGCCCATTTGCCC -TGGTTTTCCAGTGCCTCTGCCTGCTGTGCCAGACGGTCGTTTTGCAGGCTGCGTTCGATATCATCAATGCTACGCCGCTG -ACTGGCAGAGAGCGAGGCGATAAACGCTTCAGCTTTTTCTGGCGATTGCTGGCGGTAAATATTTGCCAGCCCGCGCACGG -CGTTAGTGTTGCCGCTGTCCATACGCAAGGTCTGCTGATAATAACGTTCGGCGGCGGGATAATCTTTTCGCGCCATCGCC -ACATCGCCCAGCCCCAGCACTGCATAACTGTCGGTGTTATCGACATTACGCGCCTGCTGGAACAGGCGTTCTGCCCGGTC -AGGATTATTGGCTTTCAGCGCAGCATCGCCCTGCTGGATCGCCAGCCAGTAGCGGTTTACTTTCAGCAGACTGTTCCATT -TGTCGTTGTTGCTGCTGTGCGGGTCCAGTGCGAGGGCTTTTTCCAGATTCGCCACTGCATTGGCGCGATCGCCTTTCTGA -GAATACGCCTGGCCCAGCGCCCCCAGAGCTTCACTGTCTTTCGGGTTCGCCCGCACCGCCTGTTGTAGTTCGGGAATGGC -TTTACCCGCCATACCAGAGTCCACCGCCGCTAAACCTTGCGCACGAGCGCGGAAAGCAGGATCGGCCAGCTGTTTTTGCT -GTTCTGCCAGTTGCGATTGCGCAGCCGCCACGCTATCGCCATCACTAAAGATCGAGAGATATTTTTTCAGCGCCGACACA -CTGGCATCACTGACGGGCATGTCTTTAATCTGCCCGTACCAGATTTTAGAGGCCCCTTCGCGCCCGGCGTTCGATTTTGC -CATCTGTTCCAGGACGGCAAAACCTTCGTCACGGCGATCGCTACTAAACAGCAATAGCGCCAGATTGTTTTGCAGGCCCG -TATTGCCCGGTGCATCCGCATTGATGCGTTTTAACTGATTAATCGCTTCGCCACGGCGAGCCGGAATTTTCGCCACCGTA -CTCCAGTACTCGACAGCAATGTCACCTTCCGGCGGCGCACCGTTGAACAGTTTGTTGTAACTCGCCACAGCTTCTTCTGC -ATGACCGGTCGTCGCCTGCAATCGTGCCTGTTGCAGTGCCTGACGACCATCCGGCGTGGAAAGTAGCATCGTAGTCCGCG -ACGATTTATACGCATTTGAACTCGGCGCTAACTGCGACAGCCGATCGAGCTGTTTTTGCGCGCCATCAATATCGCCCTGA -CGTAACAAAGAACGGAAACGGGCGGCAACGACGTCCGGGTTATTCGGATCAATAAGTTCCAGCCGATATAACGACTGTTG -CACCAGATCTTCACGATGGGTCGCTTCGCCTAACCGAACTTGCTCCAGCAACTGTTGCTGAGCGGTTGGTGCTGCCTCGA -CCATCGGCATGACGGCCAGACCGAGGGAAAGCGTGAATATGTTTAGTGTGAATTTGCGCATTCCTGGCCCCAGTCAGGTA -ATAACTCACCTTTTGTCGAGAAGCGGAAACGGTGTTGATCCCAGCCTTGTCCAAACAGGGTCAGCACATAGTTGTAATAG -GCATCGCTGCCGGGAAAGTTATCGGCCACGCGCTGGCGCTGAACGGCCTGCGCATCGCGGTTTTGTAAAAAGGGCAGCAT -GGCGGCAGAAAAACCGACTGGTCCTTTACCCTGCGCTTTCCCCGTAGCCACATCCACTTTTTCCGGCGGATAACCGTTTT -TCTCAGTGAATGTCGCCATCGGTTTAAACCGGTTGAGCATCCGCGCTTTTTGCGGATCGCTGTCAGGCATCATGCCTACC -CACATGTAAACGCGGATAGCGTCGTAGCTGCTGATCAATGTTTTTTCGGCTTTTAGCTGCCAGCCTTTGTCTTTCTCATA -GCGCACCCAGTCTGGCGAAAAACCTTTCGGGGCGGTTTCCAGCAATAAACGTTGATTGGTTTCGCGCAGCGTGGTCCACG -GCGCGCCAAAGCGGGTGAAATACTGCGCCAGCGTCGGCGGCAGGTAGCTGGGGTTAAAACGCCAGCTGTTATCCTCAGCA -AAACCCACTTTGCCCGGTAACAACATGGAACCCAGCCCAGGCACCGTCACCACTTCCTCCCGCGCGATACGTTTTAGCAA -CGCGCTGCCGATGTCGGTATAACGCTGCTCTTTCCACAAACGCCCCGCCTCCAGCAACGACCAGGCCATCCAGACATCAC -CATCGGAGGCCGAATTGCTGTCCAGCACTTCCCACTTACTGTTCTCTTTCTTGCCCCACAGCCAGGCGGGCAAACGTTCT -TTTAAAGAACCCTGAGCGAGATTGTTCTGCGTCCAGTCGAGAATATTATCGAAAGCTGCACGGTCGTTAGCCGCCAGGGC -AGAGAACATGCCGTAACTTTGCCCTTCGGAGGTGGTGATTTTGCGCGCGTCGCTGGGGTCGATGACGCGCCCTTCCTGAC -TGATGTAATCCTTTTTAAACTGCTCCCAGGCAGGCCAGGTACAGGCTGCCTGAACACTAAAGGCAGCCAGCAGCAGCATC -GTCACGATTCCACTACGCAACACATTCATCTTCAATTACTCGTTATCCGGGTTAAGACGACGACGACTAATAATTCGCAG -CAGACGCCACAGTACCCATGCCAGCAATATCACACTGATAGCCGCCAGCACCGCCAGCAGAATCGGATGGTTTGCCAGCG -CATACCACACGCGCTCGAACCACGGCAGATGACCTACGTAATAAACGTCGCCAACACGTAGGCTGTTGATACCGGACTCG -CGGATCACCGCGACCGAACCGAACATGGTGGCGCGTTTGCCGCTATCGTTCACCGCATCGTTAAGCATTTCATAACCGCG -TGGGCTATCTGCCAACAGCGCAATCACGCTGCGCTGGTCGTTATACGGCGACTGGAAGCCAATCACCGCCGCCATCGCAC -CGGAAGAGGTCAGCGTTGACCGGGTTTCTGCCGCGCGATCGCTCTCGTCCGGCACAATGCCGGGGAACGGGGTCTGGCGC -ATCGGTGTTTTCACCCAGCTTTCGGTCGCCTGCACCAATAGGTCGATCTGCTTATCGTCTTTCAGTTTGTCCGGGATACC -ACCGATGATCATGATGTCGGCATCTTTGCCCTGAATGGTGCTGCCATCATCGGTCACCGTCAGATTAATCGCCGGGAAGC -CCGTCTGTGCGCCGATAAAACCAACAGTATTCAGCAACGTTTCCATCTGTGCTTCGTTAGGCGCTTTCGGCATCACGGTG -ATGGTTTGCGACAGATCCGCCATCCGGCTGAATGGGAAGCCCGCGTTAGCAAAGGCGCGTAGATCCGGCATCGGGATGAA -GTGGTAATACTTCGAGAAGTCGATGGTGGAGTCGTCACCAATCACCACATGATTCTGCACCGGCTGGAAGGTAATACAGT -TATCCACCGAACCGCCCGGCATCGGGTTCATATACTCAAAGTCGAAGCGCAGCTGGTTGGTCGCGCCCAGTTTCAGCGCC -GGAATAGAGACATCTGTTTTGCCATCCAGCAAACCTTGTAATACCGGAATCCGCAGCAGCAGGCGGTTCGCCTCCTGTTT -GCTGCTCAGGTTGAAGGATTGCAGGAACTGGTTATTCAGGCTGATATCCATCCGCGAACTGTCTTTCACCGGCGGCATGG -TGTAGCGGTAATTAATATCCATATCAATGCCGGTACTGCGCATCAGGTAGAGATCCGGCGGCAGGTTTAGCGAAACGTTA -ATCGCTGCTGGCTCAAGACCGCTGGATTGTAACTGTTCTTCATAGGTTTTCAGTTCGCCAAATGTGACCGGACGATCGGT -ACGTACCCAGTTCGGCGCATCGTACGGCTTACGCGGTAGCAGCGGTTTCACTTCATTCACTACCACGCTTTCACCACGGA -ACAGAATGTTACCCTGAGCGATACCTTTCGCTGCCTGCAACAGGTCTTTGTCGTCACGACCAAACACCACCAGCAGTTTG -ACGTAAGGATTCTGCGGATGGTTAATCATCTCAATCACCGGGGCTTTTACCGCCGGATGATCGCGCAGGAAGTCCGGCCG -TTTGTCGTTGGTTGCAAAGACAATGGCATTGCGATCCGGCAGTTGGTTATAGAGTACCGGGAAGTTCTGCCCACGCCAGC -CAGAACGCGAACCAAACCACGAGGCGACAATGGCAGAGGCTTGTTGCAGCCCAACATCCGGCGCACCCGCAAAGACCATC -GGCAAGGTGTTGGTGCGGTTATCGCTCGGGTCAAAGAATGGCACCGGGAAGTGTGACAGGTCATTCTTCACATTCAGGGT -CTGATAGGTCAGATCCAGTCCACTGCTCCGCCCAACATCCAGCCAAAGCGTGGTGCTGGCCGGTTTTTCGCACACGTCCT -GATAATGGCCGACAAACTCCAGCCGTACACGGTTGAAGTCGCTAATAAACAGTGGGTTAATGGGCATTTGCGCCAGCGTT -TTTTTACCCAACTGTTCTTTGGTCACTGGCAGCACGCCCATCAGTTCATCATTGAGATAAACCTTTAACTGCGACTGGAC -AGGCAGTAACGATGGCGATGGGGTGTATTCGAGGTTGAGCATCGCCTTCGTCACCACTTCATCGCTGCGCATACCAAACT -CAATGCTGCCGTTCGGGTTAATGCCACGTAGCACCATGCTGCCCGGCGGCGGTGCAATTTGCGCAAAGGTCAGCTTCACA -TCACGCGAAGGACCGTTCTGCGCCACGACTGGCGCATCAGCGCCCTGCACGCCCGGCATCACTTGCCCCACCTGCGGATT -TTGTTCCGTCTGGGCGGCTACAGCTGGCTCAGCATTGATCAGTGGTTGCGTTGCTGGCGTCGCCTGCGTCATGAAAGAGG -GGAACGCACTCATCCCCATAGCCACTGCACAAATCCAGAATAGTTTTCTTTTCATCGCGTTATCATCATTGTTGAGCCAA -AGCCTGATCCGATGGTTGTGCCGTTTCGCTCCGCTCCGGGCGGCGCGGAATAAACGATACAACCCAGGAAACCAGAGAAG -TCAGCACACGGAATATGCCCTTCACCGAAGAAGGCGCAAACTCCGCCAGATGGCGGTAGCCACGGAAGCCGAGCTTCAGA -ATATCCAGCAGACTTTCCAGCGGCTTATCTTCCGGGTAGCTGTCCTGCCAGAGCGCCCATGTATCCGCACGGGCAAACGT -ACACTGCACAAAATCGATATGTTGCTGGGTGGTGAGCGGCATTAATTTCAGCCCAACTTCATTACCCATCACGCGCGCCA -CCTGGGTCGGGAAGACGTATTCCTGCTGACCGCGTTTAAGCAACAGATTCACTTTCTGCCCTTCCAGAATCTGCGCCTGA -CCGTTGATCTTGATCCCCAAACCACCGTCGGAGAAATCCTGAACGGTACACGAGAAGAGGTGACCATCTTCGCGGGCAAT -TGCCGCGGGCATCGTCATCTCCACGCGGTGCGATCGGCGTACCTGTTTGCTTTCTACCGATACCGCAACTGCGCCGCCAA -GAACAATCAGGTTGTAGAACACCCACACCATACTGACGACCACGGTGAGCATCTCGGTTGGCGGGCCATAGAAGTAGCGC -CAGATGCCTACCGCAACGCCCACCAGGTTGAGCAGGACAAGGAAGATGTAGGGCCGCGAGATCACCCAGTCGACGTACTC -TTCTTCCACCAGTCCACCTTTGGCGGTGACGTTAAATTTGCCTTTGTGCGGGTTAATCAGCGCCACCAGCGTCGGTGGTG -CGATATACCACGCCAGCACCGTTTCGTAGATTTCACTCCAGAAAGAGTGGCGATATTTGCCCTGGATCTTGGAGTTGGTC -AGGCTGGCATGGATCATATGCGGCAGCACGAATAGGGCGATCATCAACGCTGGCGCATAGATGATGTAGGCATGAAGCAG -CAGGAACGCCAGCGGCGCAGTCAGGAAGATCAGCCGTGGAATGCCCGACAAGAAGTGGAACATGGCGTTGACGTAACATA -GCCGCTGAGCAAACTTCAGCCCTTTACCGGTGAGCGGGTTATCGAGACGGAAGATTTGTACCATCCCGCGCGCCCAGCGA -ATACGCTGACCGATATGCGCCGACAGACTTTCGGTCGCCAGCCCCGCCGCCTGCGGAATACGCATATACGCGGAGGTATA -GCCACGACGGTGCAACCGCAGAGAAGTATGCGCATCTTCAGTCACGGTTTCGACAGCAATGCCGCCAATTTCATCCAGCG -GCTTACGACGAATCACCGCACAGGAACCGCAGAAGAAAGTGGCGTCCCACATATCGTTGCCATCCTGCACCAGACCATAG -AACAGCGTGCCTTCGTTCGGCGTTTTACGGAAACGCCCCAGGTTGCGTTCAAACGGGTCCGGTGAGAAGAAGTGGTGCGG -CGTCTGCATCATCGCCAGCTGTTTTTCTTTCAGGAACCAGCCCATGGTCATTTGCAAGAACGATCGCGTTGGTACGTGGT -CGCAGTCGAAAATCGACACGAACTCGCCTTTGGCATATTTCAGCGCATTGTTGATGTTGCCTGCTTTCGCATGTTCATGA -GTGGTGCGGGCGATATATTTCACCCCCACGTTTTGCGCAAACTGGCGAAACTCTTCCCTGCCGCCGTCATCAAGGATCCA -GATATTCAGCTTATCTTTCGGCCAGTCGATACCCAGCGAGGCGTAAATGGTATTTTTCACCACGTTGAGATCTTCGTTGT -AAGTCGGGACAAAGATATCCACCGACGGCCACAGCGACATATCTTTCGGCAATGGCACCGGCTGACGATTCAGCGGCCAT -ACTACCTGGAAGTAGCCGAGCACCAGCACAATCCACGCGTACGTTTCAGCGAAGAGCAGAATAAGCCCGCACACCAGGCT -GACCGGATCGTCCCAGTTCAGCGTAGAGGTGTAACGCCACCAGATATAACGGCAAGAAACGGTCAGCGACAGCACAATCA -ACATTAGCGCCGAGAAGCGCCCCGGCATCCGCCGTACGATCAGCGCTACCCCCCACAGCAGCATCAGGAAGATAAACTGC -GCCAGCGGGTTAAACGGCTGAGTAACGCAGATTAACGCCAGAATCAGCGAGAAGGTGACGATGATACCGAGGATCAACCG -CCGCGCCCCGGCACTCAAATGACCGAGCTCTTTTTTCTCATCCAGATGCTGTGTTTTATGGCTAACGCGCTCAGGCAGCT -CGTTCATCCATTGATGGTAACGTCCACGAATATTTTGCAGACCTGAAAATGCCCGCCTGCGCGGTTTCGGCGTTTCTTTG -CGCGATGCACCGATCAATAACCAGCATGTTTGAATGAGATAACGGACCGGGTCCAGCGGACGCGGACGCGAGGCGTTGAT -ATGCGGATACAGGTTTTTATGTTCTGCGCGAATACGCTGCCAGCGCGGGTGCTCCAGCGGAATAAAAATCCAGGCCAGGA -TCATCCAGAAACAGCCGAGCGTCGCGCTGAAAGCCGACGCACCGTGACGACGATAATCGCGATAACGCCCGATAAGCCGC -GCGTTGACCGGCGGGATAAGCAACCACCGGGTCAGGATACTCATGATGCACTCCCGACTGGCGTTTTCAGCCCGGAGTAG -TTCAACAGGCACCAGTTCGCCAGCGTCAGTATCTCTTCAGCCGCCAGCGCATCACTGCGATATTCACCTACTGGTTGCTT -AGCCGCCAGGCATTCAGCCATCGCTTCATCACGATGAATGAGCATCGGCAGTAATCGGCGCTGGCTTTGCAACCAAAGCT -GGTAAATATCGTCCTGAACCTGACTGCCAATACGGAAGTCATTAATCAAAATATGTGCGCCATCCGGCAGCGCTTGCTGA -TGCAGTCGGATATGGCAGTTGGCATCCACATTGACGATTGCCAGCGAGTGATCGCACAAACTCAGCAGCTGGTGGGTTAT -CTGCGAGGCATCACGCGGTAAGTCGATTAAAATCCACTGGTAACGCCCGCTGGCTTTTAGTTGCTGTAAGCCGGAGCAAA -TATCGCTCAGCCGGGTTTGCCAGTGCTGTGGATTTTCTTGTTCTTCAATGGATAACTGACCAAAAGGCAGCAAATCGAGC -TGCGAGGTGTAGCGCAACCCAGCGTCACGCCAGTCCTGGCCATCCAGCATCGCTCTGGCCCAGCCCTGACGGTGGGTAAA -ATCAACATTAAATGACAGGCGCAACAAGTTGTCCGGGCAGGCATCGACCACCAGGACATTTTCTCCCAACATTTGTAATG -ACCAGGCTAATGCGGCGGTGATGGTTGTTGTCCCCACGCCTCCCCGCACCCCCTGCTATCCCAGTACGGCCATTCACCAA -TCCCCTACTTTTGTTGCGCAAACTCTGCCAGCAACGGCCAGCGTTTTAATGCCGCGGCCAACTGTTCGCGTTGGGAAATA -TCGGCATAATCAATATCAGGCAGTGAAAATGCCTGCTTTAACGCCACAATATCATTCTGGAAGATATAGCCTATCGCGGG -ATCAGGCAGAGTATCTGGTTCATTGTTATTCATTTTGCTTGATCCCTATGAAATAACCGTACCGTTCATGAGACAATTCT -AACCGTGAGCATTTCGCCGGTTTATTGTTTACGGCGAGACGGGAATTTGCTCACTTTTTGACTTTCCGTTACGCAACAGA -AAAAGTTAAAAACGAAAAGACTAAAATCACACGTCTTGTGACCTTCTAAATTGATTCACATGCTAAATCTGATAAGTTTT -AATTTCAATGGTAGGTTTATTTCTTAGCTTTCGCTAGTAAACTGATAATCAGACAAAATGGTGACATGAGGGACATTGTG -GACCCTGTATTCTCTATCGGTATCTCATCATTATGGGATGAGCTGCGACATATGCCAGCAGGCGGCGTCTGGTGGTTTAA -CGTCGATCGCCATGAAGATGCTATCAGTCTGGCGAATCAAACAATTGCATCCCAGGCTGAAACCGCACACGTCGCGGTCA -TTAGCATGGACAGCGATCCGGCGAAAATCTTTCAATTAGATGATTCTCAAGGGCCGGAAAAAATAAAATTATTTTCAATG -CTAAATCATGAAAAAGGTCTATACTATTTGACCCGTGATTTGCAGTGTTCTATTGATCCCCATAATTACCTTTTTATTCT -TGTTTGCGCAAATAACGCATGGCAAAACATTCCTGCCGAGCGGCTTCGCTCATGGTTGGATAAAATGAATAAATGGAGCA -GGTTAAACCATTGTTCGCTTTTGGTAATTAATCCCGAAAATAATAACGATAAACAATTTTCATTGTTGCTTGAGGAATAC -CGTTCACTTTTTGGTCTTGCCAGTTTGCGTTTTCAGGGTGACCAACATTTGCTGGATATTGCCTTCTGGTGCAACGAAAA -AGGGGTCAGCGCCCGTCAGCAGCTTAGCGTTCAGCAACAAAATGGTATCTGGACATTAGTTCAAAGCGAAGAGGCGGAGA -TCCAACCACGCAGCGACGAAAAACGCATTCTGAGTAATGTTGCTGTACTGGAAGGTGCGCCGCCGCTATCGGAACACTGG -CAACTGTTCAACAATAACGAAGTCCTGTTCAATGAAGCCCGTACCGCTCAGGCGGCGACGGTGGTCTTTTCTTTACAGCA -AAATGCGCAAATCGAGCCACTGGCCCGCAGCATTCATACCCTGCGTCGCCAGCGCGGTAGTGCGATGAAAATCCTCGTGC -GGGAAAATACCGCTAGCCTGCGCGCCACCGATGAACGTTTGTTATTGGCCTGCGGTGCAAATATGGTTATTCCGTGGAAT -GCGCCACTCTCCCGTTGTCTGACGATGATCGAAAGCGTGCAAGGGCAGAAGTTTAGTCGCTATGTGCCGGAAGATATCAC -TACCTTGCTGTCAATGACCCAGCCGCTCAAACTGCGTGGTTTCCAGAAGTGGGATGTGTTCTGTAATGCCGTCAACAACA -TGATGAATAACCCTCTATTACCTGCCCACGGTAAAGGCGTTCTGGTTGCCCTACGTCCGGTACCGGGTATCCGCGTTGAA -CAAGCCCTGACGCTGTGTCGCCCTAACCGTACCGGCGATATCATGACCATTGGCGGTAATCGGCTGGTGCTGTTTCTCTC -ATTCTGTCGGATTAACGATCTGGATACCGCGTTGAATCATATTTTCCCATTGCCTACTGGCGACATTTTCTCAAACCGTA -TGGTCTGGTTTGAAGATGATCAAATCAGTGCCGAGCTGGTGCAGATGCGCTTGCTTGCCCCAGAACAATGGGGCATGCCG -CTGCCTTTAACGCAAAGTTCTAAACCGGTCATCAATGCCGAGCACGATGGTCGCCACTGGCGACGAATACCAGAACCCAT -GCGACTGTTAGATGATGCTGTGGAGCGCTCATCATGATGACCATCAGCGATATCATTGAAATTATTGTCGTTTGCGCACT -GATATTTTTCCCGCTGGGCTATCTGGCGCGGCACTCTTTGCGACGCATTCGCGACACCTTACGTTTGTTCTTTGCTAAAC -CTCGTTATGTTAAACCGGCCGGGACGTTACGCCGCACGGAAAAAGCCAGGGCAACCAAAAAATGACTCAATTTACGCAAA -ATACCGCCATGCCTTCTTCCCTCTGGCAATACTGGCGCGGCCTTTCCGGCTGGAACTTCTATTTTCTGGTTAAGTTCGGC -CTGTTGTGGGCGGGATATCTTAACTTCCATCCGCTCCTCAATTTGGTGTTTGCCGCGTTTCTGCTGATGCCCCTTCCGCG -CTACAGCCTGCATCGCTTGCGCCACTGGATTGCCCTGCCGATCGGCTTTGCTTTGTTCTGGCATGACACCTGGTTGCCTG -GCCCGGAAAGCATAATGAGCCAGGGTTCGCAGGTGGCGGGGTTCAGTACCGATTATTTAATCGACCTTGTCACACGCTTT -ATTAACTGGCAGATGATTGGGGCCATTTTTGTTTTATTAGTGGCCTGGTTATTCCTGTCACAATGGATTCGCATTACCGT -TTTTGTGGTTGCCATACTGCTATGGCTGAACGTACTTACCCTGGCGGGACCAAGTTTCTCCTTGTGGCCAGCCGGACAAC -CGACGACCACTGTAACAACGACGGGTGGTAACGCAGCGGCAACCGTTGCGGCGACGGGTGGCGCACCGGTAGTGGGTGAT -ATGCCCGCACAAACTGCACCGCCAACAACGGCGAACCTTAACGCCTGGCTGAATAATTTCTATAACGCGGAGGCGAAACG -TAAATCGACCTTCCCGTCTTCGCTGCCCGCTGATGCTCAGCCATTTGAACTACTGGTGATTAACATCTGTTCGCTTTCCT -GGTCGGATATAGAAGCCGCCGGGTTGATGTCGCATCCACTGTGGTCGCATTTCGATATTGAGTTCAAGAACTTTAACTCC -GCCACCTCCTACAGTGGCCCGGCGGCGATCCGTTTACTGCGCGCCAGCTGCGGGCAGACTTCGCACACTAATCTGTATCA -ACCGGCAAATAACGACTGCTATCTGTTTGATAACCTTTCGAAACTGGGCTTTACCCAGCACCTGATGATGGGACATAACG -GCCAGTTCGGCGGTTTTTTGAAAGAAGTTCGCGAAAATGGCGGCATGCAGAGCGAATTGATGGATCAAACAAATCTGCCG -GTTATTTTGCTGGGCTTTGATGGTTCGCCGGTTTATGACGATACCGCTGTGCTTAACCGCTGGCTGGACGTTACCGAAAA -AGATAAAAACAGCCGTAGTGCCACGTTCTACAACACGCTTCCACTGCATGACGGCAACCATTATCCGGGGGTCAGCAAAA -CAGCGGATTACAAAGCGCGGGCGCAGAAATTCTTTGATGAACTGGACGCCTTCTTTACTGAACTTGAGAAATCGGGTCGT -AAAGTGATGGTGGTCGTGGTGCCGGAACACGGCGGCGCGCTGAAGGGCGACAGAATGCAGGTATCTGGCCTACGTGATAT -CCCTAGCCCGTCTATCACCGACGTCCCCGTTGGGGTGAAATTCTTCGGCATGAAGGCACCGCATCAGGGGGCACCGATTG -TCATCGAACAACCGAGCAGCTTCCTGGCTATCTCCGATCTGGTGGTTCGCGTTCTCGATGGCAAGATTTTCACCGAAGAC -AATGTTGACTGGAAAAAACTCACCAGTGGGTTGCCACAAACAGCACCGGTCTCCGAGAACTCAAATGCAGTAGTTATTCA -ATACCAGGATAAACCGTACGTTCGCCTGAACGGCGGCGACTGGGTGCCTTACCCGCAGTAAGAACGAAAAAGGCCGCAGA -GTTTCCCCCCTGCGGCCTGGTCCGGGCGCAAATTGCCATTACGGCAGCCTGACGCCCGCATGACACGTTACTTCCGCTTG -TTCAGCCAGTTCACGATCATACTGGCAAGAATGCCAGCAATGACCGGAGCCGCTAAATCATGCCAGAAGGCCATGCCCAG -CTCTGCGAACGTCATATAGCCGCCTGTGTTGTAATGACAACGTTTCGCGGCTATTCTTGAGTGGTCTAGAGTCAAGATTA -GCCCCCGTGGTGTTGTCAGGTGCATACCTGCAACGTGCGGGGGTTTTCTCTCTCCAGCAACCAATGCCACCAGGGATAAA -GCCCCCGCAACATTGCGCCTCACCGGAACCTTTCCGGCTTGCCGCTGATTCTACGATTGCTTTTTACTGTCAGCACCCGG -CAATCTTCCTCATTGCGCGATGCCTTCCAGCTTAATTTCTTTATTTGCAATAGTTGCAGTTCATATCCGGGCTGACTCCA -GACTGGTAGTGAAATGCGCAATTTTGTAGAATTGCGCCTCCTCGCGACCTCCCCAGTGAATCTGTTGCCTCATTTTTTAC -ATACTGCGTATTCGACTTCTCCACCTGTTGCGCAAGAGAAACTGGGTTTATTCATTTTTGCGAGGCCGACTTCTTTCTGG -ACAGGACTTTATGCAGCACAACACACTATCGAAACACAATCAGAAATTGCCGTTTACACGCTACGACTTCGGCTGGGTTT -TATTATGCATAGGCATGGCGATTGGTGCCGGAACCGTGCTGATGCCAGTACAAATTGGCTTGAAGGGAATTTGGGTATTT -ATTACCGCAGCGATCATTGCTTATCCTGCCACCTGGGTAGTGCAGGACATTTATTTAAAAACCCTTTCTGAAAGCGATTC -CTGTAATGACTACACCGATATTATCAGTCATTACCTGGGGAAGAACTGGGGAATTTTCCTCGGGGTTATCTACTTTTTGA -TGATTATCCACGGGATTTTTATCTACTCTCTCTCCGTGGTTTTCGACAGCGCCTCGTACCTGAAAACCTTCGGTTTAACC -GATGCCGATCTTTCACAATCTCTACTTTATAAAGTCGCTATTTTCGCCGTACTGGTGGCGATTGCGTCTGGTGGTGAACG -ATTACTGTTTAAGATTTCCGGGCCAATGGTGGTGGTCAAAGTAGGGATTATTGTCGTGTTCGGTTTTGCGATGATCCCGC -ACTGGAATTTCGCCAATATAACCGCCTTCCCGCAAGCCTCCGTCTTTTTCCGCGATGTCTTGCTTACCATTCCATTTTGC -TTCTTTTCTGCAGTATTTATTCAGGTACTTAACCCAATGAATATTGCCTATCGTAAACGGGAAGCGGATAAAGTACTGGC -AACCCGGCTCGCGCTGCGTACCCACCGAATTAGTTATATCACGCTCATCGCGGTGATCCTGTTTTTTGCCTTTTCGTTTA -CCTTCTCAATTAGCCACGAAGAAGCCGTTTCTGCCTTTGAACAAAATATCTCAGCACTGGCGCTGGCCGCGCAGGTGATC -CCTGGGCATATCATTCATATCACCTCTACGGTGCTTAATATCTTTGCCGTACTGACCGCATTCTTTGGCATTTATCTCGG -TTTCCACGAGGCCATTAAAGGCATTATTCTCAATCTGTTAAGCCGAATTATTGATACCAAGAAAATTAACTCACGCGTGC -TGACTCTGGCGATCTGCGCTTTTATCGTCATTACGTTGACGATTTGGGTTTCGTTTCGTGTATCGGTGCTGGTGTTCTTT -CAGTTGGGAAGCCCGTTATATGGTATTGTGTCGTGCCTCATTCCGTTTTTCCTGATCTATAAAGTCGCACAACTGGAAAA -ACTTCGCGGATTTAAAGCCTGGCTGATTCTGCTGTACGGCATTTTGCTATGCTTGTCGCCACTGTTGAAGCTGATTGAGT -AAACCGGAGCGCATGGCCCCGGTTTTGTGAGTTAACGCTGCGGATTTTCATCCTGATCAACAGCAAAACAAGCTACCAGT -TGACCGCCGTAGTCTTTTAGCTGCGGCTGCAACTGGGTGCAGGGGCCGAAGCGCCGACGACAGCGGGCGTTGAAGGCGCA -ACCCGGCGGTGGATTCAGTGGGCTTGGTAGTTCACCGCTGAGCTTGATGCGCTCGCGGCGATCGTCCGGGTTCAGGCGCG -GCGTCGCGGAAAGTAGCGCCTGAGTGTACGGATGGCGCGGGTTATTGAAGATTTGGTCTTTCGTTCCCTTCTCCACGCAG -CGGCCCAGGTACATCACCATCACTTCATCAGCAATGTGCTCCACCACCGACAGGTCGTGGGAGATAAAGACATAAGACAG -CCCCAACTCCTGCTGCAAATCCATCATCAGATTCAGCACCTGCGCGCGCACTGAAACATCCAGCGCGGAAACCGGTTCAT -CGGCAATCACCACATCCGGGTCGAGCATCAGACCACGGGCGATGGCGATACGCTGACGCTGACCGCCGGAGAACATATGC -GGATAGCGGTCATAGTGCTCGGTTTTCAGGCCGACTTTCGCCATCATCGACAGGGCTTTTTCCCGACGCTGTTCTTTGCT -TAAGCTGGTGTTGATCAGCAGCGGCTCTTCAAGAATTTGCCCGACTTTTTTACGCGGATTCAGCGAACCGTAAGGGTTCT -GGAAGACGATCTGGATTTTCTGCCGACGCAGCTTCTGCGCCTGCGGATCGTGCTTAAGCAGATCCTGCCCCTGGTAATAC -AGCTCGCCACCGGTGGGCATTTCAATCATCGTCAGCAACCGACCGAGGGTCGATTTACCGCAGCCAGATTCGCCCACTAC -TGCCAGCGTTTTGCCACGTTCAAGGTTAAACGAAACGCCATCCAGCGCTTTAACCAGACGTTCCGGCGCGAACATGCCTT -TCTTCACCGGATAATGTTTTTTCAGGTCGATAGCCTGCAACAGCGGTTGTTGCAGGGTGGCCTCTTGCGTACTCATAGTG -TCGGCCTCCCGGCATCATCAAGTGGGTAATGGCATTTGGACTGACGCCCGTCAGCGAGCATATTCAGCGCCGGTTCTTCA -GCGCGACATCTGTCAGTGGCATAGGGGCAGCGCGGGTTAAGCAGGCAGCCGTTCGGGCGGTCGTACTTGCCGGGAACGAC -ACCTGGCAACGACGCCAGACGTTCTTTGTCCTGAGCAAATTCTGGCAGCGCACGCAGCAATGCCTGAGTATACGGGTGAC -GCGGCGCATGGAAGATGGCGTGCGCATCACCGGTTTCCACCACCTGGCCTGCATACATCACGATGATTTTATGTGCCGCT -TCCGCCACCAGCGCCAGGTCATGGGTAATTAACACCAGCGCCATGTTCTCTTTCTGCTGTAGCTCCAGCAGTAGTTCGAT -GATTTGCGCCTGAATGGTCACGTCCAGCGCGGTGGTCGGTTCATCGGCAATCAGCAGTTTTGGCCGACAGGCAATCGCCA -TGGCGATCATCACGCGCTGGCTCATGCCGCCGGAAAGCTGATGCGGGTAAACATCCAGACGCGATGCCGGATCGGGAATA -CCGACCTGATTCAGCAGGTCAATCGCTCGCTGACGGCGGGTACTTTTGTTGCCGCCCTGATGCACCTTAATCGCTTCCAT -AATCTGGAAACCCACGGTGTAGCACGGGTTAAGGCTGGTCATCGGGTCCTGGAAGATCATCGCCACTTCGGCACCCACCA -GGTTGCGGCGCTCTTTTTCTGAGATACGCTGCAAATCCTGGCCGTTAAACTCCAGTTTTTCTGCCATTACGCGGCCCGGA -TAATCAATCAGCCCCATAATCGCCAGTGAACTGACCGACTTACCGGAGCCGGACTCACCCACAATCCCGACCACTTCGCC -CTGTTTTACGCTGTAGCTGATGCGGTCTACGGCGCGGAACGGCGCGCTTTCGTCGCCGAAATGCACCGATAATTTATCTA -CATTTAATAACGCCATCTCGAACCTCTTACTGCTTCAGTTTGGGATCGAGCGCGTCACGCAGACCGTCACCCATCAGGTT -AAATGCCAGCACCGTCAGCAGGATCGCCAGACCCGGGAAGGTCACGACCCACCAGGCGCTTTGCGCGAACTGCAACACGT -CGGAGAGCATGGTGCCCCACTCAGGCGTTGGCGGCTGTGCCCCCATGCCGAGGAAACCAAGAGCAGCCATATCGAGAATG -GCGTTAGAGAAACCGAGCGACGCCTGAACAATCAGCGGCGCAAGGCAGTTCGGGAAGATGTTAATAAACATCTGACGCAT -CGCCCCGGCACCCGCCACGCGAGACGCGGTGACGTAATCGCGGTTAACTTCCACCAGCACGGCGGCGCGGGTTAAGCGCA -CATAGTGCGGCAAGGCAACGAAGGTCAGTGCCAGCGCGGCGTTACCAATCGACGGGCCGAAAATTGCCACCAGCACCAGC -GCCAGCAGCAGACTTGGCAGCGCCAGCATGATATCGACCACGCGCATAATGATGTTATCGACCAGGCCGCCAAAGTAACC -GGCGATCAGGCCGAGAATAACGCCCATAATCAGCGATAACACAACTACCAGACAGCCAACCAGCAGCGACAGGCGCGCAC -CGTACATCAGGCGCGACAGCACATCACGGCCTACGTCATCGGTGCCCAGCAAGTGCGCCATGCTGCCGCCTTCCTGCCAG -GCTGGCGGGGCGAGCAGTGCATCGCGGAACTGTTCCGCCGGGTTATAGGGTGCAATCCAGTTGGCAAAGATCGCGATGAA -CAGCACGATGACGACGTAAACCAGCCCGACGACCGCGCCTTTGTTGCGTTTAAAATAGTGCCAGAACTCCTGTAACGGGG -TCATCGGCACCGGTGCGCTAATCACTTTATTTTCAGTAACCTGTGACATGATGTCCCCTTACTTCTTATGACGAATACGC -GGGTTCACCACGCCGTACAGCAGATCGACCAGCAAGTTGACGAGGATAATCATCGTCGCCACCAGCAATACGCCGCCCTG -CACTACCGGATAGTCGCGGCGTTGCAGTGCGTCAATCAACCAGCGTCCCAGACCGGGCCACGAGAAGATGGTTTCGGTCA -GAATCGCCCCCGCCAGCAATGTTCCCACCTGCAGGCCGATAACGGTCACCACCGGCAGCATCGCGTTACGCAGCGCATGG -ACGATAATCACCCGCATGCGGGTTAGCCCTTTGGCGCGCGCGGTGCGGATGTAATCCTCGCCCAGCACTTCCAGCATCGA -GGAGCGTGTCATACGCACAATGACCGCCAGCGGAATAGTACCCAGCACAATGGCAGGCAAGATCATATGGGCGACGGCAT -CGATAAAGTTGCCGTCTTCACCCCAGATGGCGGTGTCGATTAGCATAAAACCGGTTAACGGATTGGAGTCATCGAGGAAC -ACCATATCGCTCACGCGACCGGAGACGGGCGTCAGGTTCCAGTGCACCGAAACCAGCATGATCAGCATCATGCCCCACCA -GAAGATAGGCATTGAATAACCTGTCAGCGCCAGGCCAACCGCTGTGTGATCGAAAATGGAACCGCGTTTAACCGCAGCCA -GCACGCCGACCGGAATACCGACTGCCGTAGCAAAAATCATCGCGCAGACGCCAAGTTCCAGCGTGGCCTGGAAGCGCGGC -ACGAACTCTTCCCAAACCGGGATGCGGCTTTTCATTGAAATGCCTAGATCGCCATGCATAACGCCCCAAATGTAATGGAG -ATACTGCTGCCACATCGGTTTATCTAAGCCGAGTTCAGCCAGCAGCTGCGCGTGACGCTCTGGGGAGATCCCACGTTCGC -CCGCCATGATCATCACCGGATCGCCCGGGATCATGTGGACAAAGGCAAATGTGAGAAGGGTAATACCGATAAACGTGGGG -ATGACGAGTCCCAAACGTCGGAGAATAAACTGCAACATAACCCGGATTCTCTATAGTGACCCGCAGCCTGGAACTGCGTG -TCTGTATTGCTCACAAATCAATTCCCGCCCTTATCGGACAGGGAATGAAGTATTGCTGCCGGATGGCGCTGCACGCAGAG -GCACAGCGCCACCGGGTATACAGATTGTTGACAAAGTGCGCTTTGTTTATGCCGGATGCGGCGTTAACGCCTTATCCGGC -CTACAAAATCGTGCAAATTCAATACATTGCAGAATTTTCGTAGGCCTGATAAGCGGAGCGCATCAGGCATTTTTGCCTTT -GCCATCAGTCTTGTATGGCTTTTAATTATTCGATAGAGACGTTTTCGAAGTGATGTTTGCCTAATGGATCAACCACATAG -CCTTTAACTTCTTTACGTACCGGTTCAAACACGGTGGAGTGAGCGATGATCAGTGCCGGAGCCTGATCGTGCATCACCAC -CTGCGCTTGTTTGTACAGTTCAACGCGTTTATTGTGGTCGTCGGTAGCACGCGCCGGTTGAATCAGATCTTCAAACGGTT -TGTAGCACCATTTTGAGTAGTTGGAGCCTTGTTCAGAGGCGGCGCAGCTGAACAGGGTGGCGAAGAAGTTATCCGGATCC -CCGTTATCGCCAGTCCAGCCCATCATTACCGTCTGGTGCTCGCCATCTTTCGCACGCTTGAGGTACTCACCCCATTCGTA -GGTGACAATTTTGGCCTGCACGCCGACTTTCGCCCAGTCTGCCTGAATCATCTCCGCCATGCGGCGAGCGTTCGGGTTAT -ACGGACGTTGTACCGGCATCGCCCACAGGTCGATGGAGAAACCTTTTTCCAGACCCGCTTCTTTCAGCAAGGCTTTCGCT -TTTTCAGGATCGTAGGTGTAGTCCTGAACGTCGTCGTTATAGCCCCACATGGTTGGCGGGATCAGGTTTTTCGCTGATAC -GCCCGCGCCCTGATAAACCGCTTTGATGATCGCGTCTTTGTTCACCGCGTAGGTCAGAGCCTGGCGAACTTTCACGTCAT -CGAGTGGTTTTTTCTGCACGTTATACGAGAGATAACCGACGTTCAGCCCCGGCATTTCCATCAGATTGATGGATTTATCC -TGCTTCATGCGAGCGATATCTGCCGGGTTCGGGTACGGCATCACCTGGCATTCATTCTTCTGCAATTTCGCGTAACGCAC -GGAAGCGTCAGGGGTAATAGAGAAAACCAGCGTATCGATCTGCGGTTTGGTGCCCCAGTAGCCATCAAACGCTTTGTAGC -GGATACGGGAATCTTTTTGATACTGCTGTAACTGGAACGGACCGGTTCCGATTGGGTTGAGGTCCAGTTTTTCCGGTGTA -CCGGCTTTCATCATCGCATCAGCATATTCTTTTGACAGAATAGAGGCGAAGTCCATTGCCAGGTCAGCGAGGAACGGCGC -TTCCGGGCGAGTCAGCACAAACTGAACGGTGTTGTCGTCCACCTTTTTCACTTCACTGATCAGCTCTGGCAAGCCCATGC -CTTCGAAGTATTCGTAGCTGCCGCCAGAAACTTTATGGTACGGGTTTTGCGCGTTTTTCTGACGATCGAACGAGAACACC -ACATCATCGGCGTTCAGTTCACGCGTCGGTTTGAATTCTTTATTGTCGTGCCACTTCACACCTTTACGCAGATGGAAGGT -ATAGGTTTTACCGTCTTCGCTGACTTCCCACTTTTCAGCGAGGCCCGGGATCACTTCGGTGGTGCCGATTTTAAATTCAA -CCAGACGGTTATAAAGCGGGACGGAAGAGGCGTCATAGGTGGTGCCGGAGGTAAACAGCTGCGGGTTAAACCCTTCCGGA -GATCCTTCTGAGCAATAAACCAGAGTTTTAGCCTGAACACTTGCTGCGACGGTCATAGCCACCAGGCTGAGACCAAGCTT -CAGCATCCCTGACTTTTTCAAGGAAATACGCATTATTCTGCTCCAATTGTGATGTTTGTTGTTTTAACCCTTTGCAGTGG -GTTGTCGCTGCCTGACCTTTTTTGTTTTTTGCCCGGTCGGGTCAACGTTATGAGGTGGGGATGCCGTACTAATTAACATC -AGTGTAACAGTGCGGATCCTCCATAAAATGCCCCTCGTGACCTACAATCTGTCAACAGAATGTGAAAACGTCAATACAGC -CAACCGGGATTTACACCAACGGTGAGAATCCACAAACAAAGATTAAAAAAACTTCAAACAGCTATTTGCAGCAGAGAAAT -TTGTGCTACTCCAACATGACCAGAACAATCAGCTTAATATTTAGCAACATTTGGTGATTAAGTTTTATGCATTTAATGAA -AAAAATCTGAGGAAAAGGTGGATATCTGAGCGATTAATACCATGAACGCTAAAACGCACAGCGGAAAATGCCAGGGCCAG -CCATAAGTAACGCAAAAAAAGATTTAAGCAAATATAAAAAAAGACAATGGTTTCTGTCACAAATCCGTTAATGGATAGTG -AGATATGGGGCGCAAATTTGGCAGGGAAATGTGTGTCGTGTAGGTCGAATAAGGCGGTCGCGCCGCATCCGACAATGGCC -GGCACATTTGCCTGATGCGACGCTGACGCGTCTTATCAGGCCTACGTCGAGTCGAACCTCCCTGCCCCCGGAGGTTCTCA -TCCTCATGAGCTGCAGATGCAAAAAAGCCTGCTCGTTGAGCAGGCTTTTCGAATTTGGTCGGTGATAGAGGATTCGAACC -TCCGACCCCTTCGTCCCGAACGAAGTGCGCTACCAGGCTGCGCCAATCACCGAATGCGGGGCGCATCTTACTGCGCAGAT -ACGCCCTCGTCAATCCCTTAATAGCAAAATGCCTTTTGATCGGCGAGAAAGTCAGCAGGCCGCTTAGTTAGCCGCTGCCT -CTTTTGCCTGCGGGATGTGACACCAGTTGTTGTTTTCGTTAATTCCACCATCCGGTGAAGTATAGCCAAGACAACCCATG -ATGGTATCGTACAGCTCTACGTGACGGCGTGGCACTTTCATGTCGGCTTCTTTTTTCAGCTGCGCAAACGCCTGCGCATT -GGCCGGATTTTCCAGATATTTATCTGACATCCAGACCATCATCGGTACGCGGAACTGCTCCGGCGGTGCCAGTTCACGCG -GCGTGCCGTGCAGGTGCTCGCGTTCATTAATTGACTCACCGTGGTCAGCTGCGTAGAACACAATCGCTTTCTTATCGCGA -ACCTGATCAATCACGCTGGAGATAAAGTGATCCACATAGGTCACCGAGTTGTCATAGGAGTTGATCATCTGCGCTTTGGT -ACAGCCGCTATCAACACCAATACATTCCGGCTTCCACTGCGCGAAGCTACGCGGATAACGCTGGGTGTAGTTAAAATGCG -AACCTTTGGTATGCAGAATGATCAGATGCTTACCATCCGGGTTGCGCCCTAGCGATTGCTGCATTTCGTCTACCAGCAAC -ATATCATCTACCGGCTTGCCACGATTACGTGGCTCCGCACCAATCTGCTCACGATAAGCAATGTTGTCCGCCATCGTGTT -GCTGTAGAACCACATTTCGCTCTGCATAGCGTAGAGGTCAGAACTGAATCCTAACTGCTTCAGAACCGCGAAAATGTTCT -GTTCTTTTAATGTGCGCTGCGGATTATCTTCCGCGCCCCCCTGACGTACAAACATGCAACGCAGTGAGAGTTTGGTTGCG -GTATCACAGGAGTAACCACGGAACGCCGCCAGATTTTTCTCCTGGGCCAGTTTCGGCGTGGTATTACGCTCATAGCCGAA -AATACCCATATGGTCCCAACGCGTGGTTTCACCGATGATAAACACGACATAAGTGTCATCAACGTTTTGCGGTGCCTGAT -AAGTGAATTTCTTCGCCGGATTAAGCAATGAATTATTATCGGAAGATTCATCGACCCGCGCCCAGGCATACAGCCCCAAC -GCAGAAAGCCAGTTTGATGGCAGATAAGAGTTCGCTACGACACCGCCATAACTCGGCAAATCAACGCCGGTCGCCCTCTC -CACTTTCTTCTGCTGGATATCCAGCAAACGAATCGGTGCCCAAACCATAATACCCGCCAGTACGACGACCGCCAGGCTGC -GAATACGCTGCCCTGGGGTTCGCAGTTGTCGGAGCAAGGTGTAGCGACAGCGGTTATTCCAGATAAGGATAAGAGGCAAT -GCACTAACGGCGATTAACCAGAGAATAAAGTTCAGACCAACAACTTCTTTTGACAGGTCGATATCGGTGGTCATGACGGA -AGCGATGATGCCATAACCAATGACCACATTAAGGAAGGTCATGTAATAGCTGGCACCTGCGGAAAAGAGCACCACCAGCG -ATGCCAGAATACGCCAGCTGCGGCGGCCAAACAGCGAAAGAAGACGTAGTAAAAAGAAGGTCACCAGTACGGTGGCGGCC -AGTTCAACAACAGCAGAAATGCCTTTCCAGACGGTAAAATCGTGCGCATAGCTGCCGAAGCGGCGGTAAAAAACCGCGCC -ATTCATAAAAAGGCCAATATAGATTGCAAGCAAAAAGCTCAGCTTCTGCTGTGTAATCGATTTGATGTATCTCATGCAAA -CAAACCCTGGACAAACAGGTGATAACACCCTGCTTAGTGGCTTTTCAGGCCCGGCAGGGAAAAAGTGCGGAGGTAGTCAG -ATAAGTAAAATCTACACGCGCGAATAAGTAGACCACAGCAAAGGGAAAAAGTGTGGGGAAAGAGTGTGCATGAAGCACAA -ATTTACAAAAATGCAAGTTTGAAAAGAGACTTTAGCGTTACAAAAAGCAGTAAAAAGGGCCAGTTAATTGGCCCAAATTT -TACGAGTCATTGTTTATACATTTCGTTGATGCGTTTGATGCACACGGAAGCTGAAGCCCAGTAGCTCGCGGCTGAGCATT -AAAGGGAGCCATGCGCCTCACGCAACATTTTCTGCTCTGGCTGACGAATCGTCGTAGAAAGCGCCAATGACAGAATCAGC -AGGGCGAAAATCACGTAGAAGGTCACATAGAAGCCGCCAAACAGTGAGGCGATAATCGAACCACAAATGCTACCGATACC -GAAACCGAGATAAATCACACCGTAGTTTTTCGCCAGGTTATTGAGGCCAAAGAACTCACTGACCAGTGACGGAAAGACGG -TAATAGTGCCGCCAAAGTTAAATGCCACGCAGGCAATCGCTGCAAAGAACGTCACTGCATTCAATGGTGCAAACAGCAGG -GCCGCCATACCCACCAGCGATATCACCTGACCAATGGTAATAACACGGATACGGGCGATTTTGTCAGACAGAATACCCAG -CACCAGACGACCTGAAAGGTTGGCGATGGAAATAACAGTGACTGCATTGGCTGCGGAAACCACATCAAGGTGTGCCAGAC -TTTGGGCGATATCTTTCGCTACCCCAATCACGTACAGGCCGCTCATGCAGGCGGTCAGGAACATTACCGCTAACATCCAG -TACTGCGGTTTACGCATCGACTCTGCCAGCGTGTAATCTTTCTCCACCACACCATTGCTGGTTTTCACTTCCTGTTTTGG -TGCGTCTTTCATTAACGTTGCGCCGAAAACAATCATCAACAGCGCAATCGCTCCCCAAATCACAAAGGTTTTTTCCAGAC -CGACCGTTTCCAGCAGCTGCGTGTCGATAAATTTGAAACCCAGGCTACCCAGACCATAAGAACCGATAGCGAACGCGGAG -ATCAGACCTTTACGCTCCGGGAACCACTTCACACAGTTAGAGAGCGTCAGCAGATAACCCGCGCCATCTGCCAGTCCCAC -CAGCACACCGGCGCTTAACCACAGCATCATCAGGTTGTCAGAATGCGCTGTCAGGAAGAAGCCTAATCCCAGCAAAATGC -CGGAAGCCATGGTGACGCGTTTAACGCCAAAACGTTCCTGTAATTTGCCCGCAACAGAAGACGAAATTGCCAGCCCCAGA -CTTAACAAGCCGAAAGAGAAAGCGACCTGGCTTACCGGCGCATCCAGCTTGGCGGAAAGCGCGCCATTAAACAGGCTCCA -GGTATAAACCGACCCCAGCGCAAACTGGGTAATGATAGTACCGATGAGTGTCAGCCAGCGGGTACGCTGATAATTTGAAG -GTGTCATGGCAGTATTCCTGCAGTAATAAAAAGGAAAAATCTCTGCCGACAACCATAACGAAGTGCACTTTATGCCTGGG -GAAAAACGGCATGAAATGCCATCAGAACGGAATGAAATGCCTTAGTTCAGGAATGAATGACGCGACAATTATTCACCAAA -TTTATTATTTGGTAAGTTAGCACCCACTATCGCCACAACTATTGTTATTTAATGGTTTCAATTGTGACTGTTACGTTAAA -ATCTGGCGCTAACCCCCATCGTATACAGATAGTCGCTATTATTAGTGGTATTTTCTGCCTGAGTTAGCGCGGCATAGGCG -GCAATATTTTGATTGAGCAACATATCAGCGCCTACGGTGACATCCAGCCAGTTGCCGTTCTGGTTTGTCGCCGTCATCCG -GCTCAGGCCTGATTGCGCCTTCCAGATATTCTCGCCAAATTGCTGGTTATAGCTGATTTGCGCCCAGGGTCGGAGATCGC -CAAGCCGGGAGTCAACACGCCAGCCTAAGGTACTCACGCTGGCATGCCATAACGGATCGGTCAGCGTGGTAGTACTGTCG -CCAAACTCGTTATACATCGAGGTGGTTGTGCCATCGTAATGTAATGCCGCGACCGGGCCGGTTGTAACCTGTTCATATAA -AGGAAAATTCCAGCCCATACTCATACTGCTGGTCACATCCACAGGGGTTTCTTCCGCCAGATTGACTTCCAGTCCCAGCG -CCCTTTGGCTACTTTGAATACGTTGCGACAAAATATCGTTGTAATCAGGTTGATGATCACTATCCCAGGTGTAACGCTCT -GTGGAAAGTCCGGGTTGCGTATCAACGATATATTCTTGTTGCCAGGCGTAAGCTGTGTTGAGAAAAAAGGCACTGATTAC -CACGCTCGCCAGCAGGCTTAGCTGCCAGCGACCACCGCTTTTTTTTATGATCATTAACACGACTCCAGGGAAGAGCCGAA -TTCGGCAATATTATTGTCATTGTATGAAGGATATCGGGCATAGTAGCCCTGTATTAAATATTGACTTTTTCACCGATGCG -TCAAGAAAAGCGGCTGAAATTTTTACGATCGGGTACATAGCGAGGGAAAGTATGGAACGTTGCGGCTGGGTGAGTCAGGA -CCCGCTTTATATTGCCTACCATGATAATGAGTGGGGCGTGCCTGAAACTGACAGTAAAAAACTGTTCGAAATGATCTGCC -TTGAAGGGCAGCAGGCTGGATTATCGTGGATCACCGTCCTCAAAAAACGCGAAAACTATCGCGCCTGCTTTCATCAGTTC -GATCCGGTGAAGGTCGCAGCAATGCAGGAAGAGGATGTCGAAAGACTGGTACAGGACGCCGGGATTATCCGCCATCGAGG -GAAAATTCAGGCAATTATTGGTAATGCGCGGGCGTACCTGCAAATGGAACAGAACGGCGAACCGTTTGTCGACTTTGTCT -GGTCGTTTGTAAATCATCAGCCACAGGTGACACAAGCCACAACGTTGAGCGAAATTCCCACATCTACGTCCGCCTCCGAC -GCCCTATCTAAGGCACTGAAAAAACGTGGTTTTAAGTTTGTCGGCACCACAATCTGTTACTCCTTTATGCAGGCATGTGG -GCTGGTGAATGATCATGTGGTTGGCTGCTGTTGCTATCCGGGAAATAAACCATGATTCGGGAAGCGCAACGTTCAGAACT -CCCCGCGATCCTCGAACTGTGGCTGGAAAGTACAACCTGGGGGCATCCCTTTATAAAAGCGAATTACTGGCGTGACTGCA -TTCCGCTGGTGCGGGATGCCTATCTTGCCAACGCGCAAAACTGGGTCTGGGAAGAAGACGGTAAGCTTCTCGGTTTTGTC -AGCATTATGGAAGGCCGATTTCTGGCAGCGATGTTTGTCGCACCGAAGGCCGTCAGGCGCGGTATTGGTAAGGCGCTGAT -GCAGTATGTGCAGCAGCGCCATCCCCACCTGATGCTGGAGGTTTATCAAAAAAATCAACCGGCGATAAATTTTTACCAGG -CACAGGGTTTTCACATTGTCGATTGCGCATGGCAGGATGAAACCCAACTACCCACATGGATTATGAGCTGGCCGGTGGTT -CAAACGCTGTAAGTGTCAGTTCCGGACCGTTGTATTTTTCCAGCCATGCCAGCGCCGTATTACCCGCACAGCCATTCCCC -AGCCGCGAGCTGGGGAGATCTTTGGTCAGCACGTTCACTGCGCCGTTTTTACAAATACCGTCAGCGGTTAAATCCAGATC -CGGCCATGCCCCTTCGTGAATGCAAATCACGCCAGGTTTAATTCCCTCGCTAATGACCGCTCCGGCAAGAATTTGCCCGC -GTGCGTTCCACAACCGAACAGTATCGCCATCTTGTATGCCGCGCTCCTGGGCATCGTCAGGATGAATGGTGACAGGCTCA -CGATTTGCCACCGCGTACAATTCGCGCAGAGAACTGTAATTCAGCTGGCTGTGCAGGCGGTGCGCCGGATGGGCAGAAAG -TACCTGCAACTGTTCTGGTTCGGCATTGCCCTGCCATTCGTCCGGCTCCAGCCACATTGGATGCCCAGGGCAATCCGGGT -AACCGTAATCGGCAATACGCTGTGAGAAGATTTCAATCTTGCCGCTGGCGGTTTTTAACGGATGCGCCAGCGGATCGCGG -CAAAAATCAGCGAAGCGAATAAACCGCTCGCTGTCCGGGTTTTCCGGCATCTCAATTAACTGGTTGGCTTGCCAGAACTC -AGCAAATGGCGGCAATTCAACCTGCTGGCTTGCCCCGCGCTGTCGGGCAACGTTATAAAACGTTTCCAGCCATTGCAGCT -CACTTTTTCCTTCCGTAAAACGTGCATAACCGCCCTTCTCCCAGCGTTCACTTAACTCGGCAAAAACATCAAAATCATTA -CGCGCTTCATAGCGTGGCGGCACCACTTGCTTCATCGGCACCAGATGCTGATTACTGTAATCACCGGTCATGGTGAGATC -ATTACGCTCAAAAGAGGTAGTCGCAGGCAGAACGATATCCGCGTGTTTTGCCGCCGCCGTCCAGAAGCATTCAGAGATCA -CCACCAGCTCCGGTTTTTGCCAGGCACGGATCAGGCGATTGGTATCCTGATGATGAGTAAAGTTGGCACCGCCCGCCCAC -CAGATAAAACGAATATCCGGGAAATGTCGGTTCATACCGTTGTGTTGATATGCGCCACCAGGGTTTTCCAGTGCTTCAAC -AATGCGGGCAACAGGGATTTTATCCACCGCATCGCAGCCACCCGGCAAGCTGCCCTGCATGGAAGAGAGCACCGCAGAAC -GCCGCGTGGGGTTACCACCATTGGCAAAATGGTAAGAAAGACCAAAACCGCCGCCGGGTGTGCCGATTTGCCCCAACATT -GCTGCCAGCGTGACGATCATCCAGTGTTTTTGCTCACCAAACTGTTGGCGCTGCATTCCCCAGCCTGCCATCAGCATGGT -GGTATTTTGGTGGAAAATAGCCGCCAGCTCGCGGATTTTCGCTGCGCCAACACCACAAATCTCTGCTGCCCATTCGGCGG -TTTTCGCTATTCCGTCACTCTCGCCCAGCAAATAAGAGGCGAAGACGGCATAACCTGTGGTGCAACGCGCCAGAAACGCT -TCGTCGTGCCAACCATTTTCCACCAGCGTATGGGCGATCCCCAGCATCAGCGCAACATCGGTGCCCATGTGCGGTGCCAC -CCACTCCATTTTATCGCCAAAGAAATCGACGGTTTCCGATCGCATTGGATCAATGCAGATCAGCTTTTTCCCGCTGTCAC -GCAGTGCAGAAAAGTAAGAAAGCCCCTGCTCATCGGATGCATTCCACGCAATTTTCAGCGTATTGAGTGGGTTAGCACTC -CACAGCACCACGACATCGCTATGTTCCAGCACCAGCGGCCAACTGGTCTGCTGTTGATAAACTTCACTACCACCCACGAC -ATACGGCATGATCGCCTGTGCCGCGCCGGTCGAATAATCCCCCAGATGCCCGGTATAACCGCCTGCCAGCGCCATATAGC -GTTGTAATAATGTCGAGGCCTTATGCAGCACGCCGTTTGAACGCCAGCCGTAGGAACCAGCAAAAATCGATGCCGGACCA -TAAGCCTCACGAATGCGTTTATGTTGTTGGTGAATAAGATCCAGCGCCTCATCCCAACTCACGCGAACAAATTCATCCTG -CCCACGAATGCCTTGCGGGTTTTCCGGTGACGCAAGAAAGCCTTTTCGCACCATTGGAAATCGTACCCGCGTATTGCTGT -GAACCTGGTCGCGAACCGCGCTCTGCAAGGAGTTTTCCATTCCTGTGGCTAACGCGCCACGCGAGCTAAACACGGTTTCG -CCGTCGGTTTCAACCAGCATGGGCCCCCAATGGGCGGCAGTCAGAACGGAATATCGTGAGGATGAGTTGGCCAAACCGAA -GACTCCTGAAAGGTTAGATGTATTGAGCAGTTAAATATTACTTACAAATTTCCGAGTATTCCCAGGAATAATCTTCATGT -TCACGCGGCATAATCTCCCGCCACGGAACCCGTGGCAAAGAATAAAAAGGTTATTAAGGATTAACAATGAAGAAACGTGT -TTATCTTATTGCCGCCGTAGTGAGTGGCGCTCTGGCGGTATCTGGCTGCACAACTAACCCTTACACCGGCGAACGCGAAG -CAGGTAAATCTGCTATCGGCGCAGGTCTGGGCTCTCTCGTGGGCGCGGGTATTGGTGCGCTCTCTTCTTCGAAGAAAGAT -CGCGGTAAAGGCGCGCTGATTGGCGCAGCAGCAGGCGCAGCTCTGGGCGGCGGCGTTGGTTATTACATGGATGTGCAGGA -AGCGAAGCTGCGCGACAAAATGCGCGGCACTGGTGTTAGCGTAACCCGCAGCGGGGATAACATTATCCTCAATATGCCGA -ACAATGTGACCTTCGACAGCAGCAGCGCGACCCTGAAACCGGCGGGCGCTAACACCCTGACCGGCGTGGCAATGGTACTG -AAAGAGTATCCGAAAACGGCGGTTAACGTGATTGGTTATACCGACAGCACGGGTGGTCACGACCTGAACATGCGTCTCTC -CCAGCAACGTGCGGATTCCGTTGCCAGCGCGTTGATCACCCAGGGCGTGGACGCCAGCCGCATCCGTACTCAGGGCCTTG -GCCCGGCTAACCCAATCGCCAGCAACAGCACCGCAGAAGGTAAGGCGCAAAACCGCCGTGTAGAAATTACCTTAAGCCCG -CTGTAATCCCTTTCATGCCAGGTGATGCAGAAATCACCTGGCATTCTTCAGTTTTCCTTCATCATATTTCAGGCTAAGGT -GATCGCCTTATCAGTGAATGGAGAGAAGCATGAAGCCGTCCGTTATCCTCTACAAAGCCTTACCTGATGATTTACTGCAA -CGCCTGCAAGAGCATTTCACCGTTCACCAGGTGGCAAACCTCAGCCCACAAACCGTCGAACAAAATGCAGCAATTTTTGC -CGAAGCTGAAGGTTTACTGGGTTCAAACGAGAATGTAAATGCCGCATTGCTGGAAAAAATGCCGAAACTGCGTGCCACAT -CAACGATCTCCGTCGGCTATGACAATTTTGATGTCGATGCGCTTACCGCCCGAAAAATTCTGCTGATGCACACGCCAACC -GTATTAACAGAAACCGTCGCCGATACGCTGATGGCGCTGGTGTTGTCTACCGCTCGTCGGGTTGTGGAGGTAGCAGAACG -GGTAAAAGCAGGCGAATGGACCGCGAGCATAGGCCCGGACTGGTACGGCACTGACGTTCACCATAAAACACTGGGCATTG -TCGGGATGGGACGGATCGGCATGGCGCTGGCACAACGTGCGCACTTTGGCTTCAACATGCCCATCCTCTATAACGCGCGC -CGCCACCATAAAGAAGCAGAAGAACGCTTCAACGCCCGCTACTGCGATTTGGATACTCTGTTACAAGAGTCAGATTTCGT -TTGCCTGATCCTGCCGTTAACTGATGAGACGCATCATCTGTTTGGCGCAGAACAATTCGCCAAAATGAAATCCTCCGCCA -TTTTCATTAATGCCGGACGTGGCCCGGTGGTTGACGAAAATGCACTGATCGCAGCATTGCAGAAAGGCGAAATTCACGCT -GCCGGGCTGGATGTCTTCGAACAAGAGCCACTGTCCGTAGATTCGCCGTTGCTCTCAATGGCCAACGTCGTCGCAGTACC -GCATATTGGATCTGCCACCCATGAGACGCGTTATGGCATGGCCGCCTGTGCCGTGGATAATTTGATTGATGCGTTACAAG -GAAAGGTTGAGAAGAACTGTGTGAATCCGCACGTCGCGGACTAAGCCGCGACTGCGTAGAGTAAAGCCCGATAATCGCTC -GGGCTTTTACTCTTTATTGGGTTGCAGTAACTGCTGTAGTCCAGGCCTGATTAAACGCCTGATGCTGTGCCGGTAATGGC -GCAATCAGTTTGTTATATTCACTTGCCTGCTGTGAAGTCGGGAACTGGATGCCATTTGCGACAAAGCTCACCTGAGTACC -TTGCTGAGCAATGTAGTCTCCAACCATCACCAGTTGTTGCGTGAAAGTTTGTGCCGCCGGAATCAACGGTTGCAATGCAT -CAGCTGGCGTCGTTACCACTTTGGTGAATGCCTGATCAAAGACCGGTTTCAAATCATCGCTCTGTTTTAGCGCAGAGTGC -GCAGCATCGGCCTGCAACTTCGCATTTTGCAGTTGTTGCGCCAGCACACCCAGCGAACCGTTCATTTCACGCAGCGGACC -GCTTTGCGTAACGTAATCCTGCGGTACGCGAATTGCGTTAACGCTGTCTACAACCGGGCGCAGACCGGAATCCATCGCCT -GATTCACCTGCTGAGAATAACCATACAGAATCGCGTAATCAGAGACAAAAGGACCAAACTGTTTTTTCTGATCGGCAGTC -AGGGTTGGTAGACGTTCACCGCTACGCATCACTGTATTCTGCAGGAAGTCGATAAACGCTTTACGCTGATCGCCTTCTTT -ATCAAAACACCCACTCAGGCTAACTACCATTAATAACGCCGCAAGAGGCGCAAACCAGCGAGAGCAGGACTTTCCTGTCG -CCATTTTCTTACTCCTTTCACCCAAAAAAAGCGCACAACGACACACGCGTGTCTGACGTGACAAGGATAGTCCAGGACAG -GCTTGCAGGATACCCTTTCTACGTAATCTTCCTGGTAAAATCATGGAGAAAATGAAACAAGGTTAATTTGTTGTTTCATT -GTTAAAAAATGATAGTGCCGTTGCCTTTTTTGTAGCCAGAGATTTACGCCTTCGCAGAAGGTTAGATTTTCGAAATCTTT -ACAAAACAGGAGTGGTAAGAGATATATCGGCATTTATCAGATCGTTAGGTGGCTATAAGTCACGCTAAATGACAGGCTGA -ATCGAATCATAGCCAGAGCATGCCCTGACTTCACCCCGCTGTGTCTGCTTTTCCCGACTATTCTTAATGAGCTTCGATGC -AATTCACGATCCCGCAGTGTGATTTGAGGAGTTTTCAATGGAATATAAAGATCCAATGCATGAGCTGTTGAGCAGCCTGG -AACAGATTGTTTTTAAAGATGAAACGCAGAAAATTACCCTGACGCACAGAACAACGTCCTGTACCGAAATTGAGCAGTTA -CGAAAAGGGACAGGATTAAAAATCGATGATTTCGCCCGGGTTTTGGGCGTATCAGTCGCCATGGTAAAGGAATGGGAATC -CAGACGCGTGAAGCCTTCAAGTGCCGAACTAAAATTGATGCGTTTGATTCAAGCCAACCCGGCATTAAGTAAGCAGTTGA -TGGAATAGACTTTTATCCACTTTATTGCTGTTTACGGTCCTGATGACAGGACCGTTTTCCAACCGATTAATCATAAATAT -GAAAAATAATTGTTGCATCACCCGCCAATGCGTGGCTTAATGCACATCAACGGTTTGACGTACAGACCATTAAAGCAGTG -TAGTAAGGCAAGTCCCTTCAAGAGTTATCGTTGATACCCCTCGTAGTGCACATTCCTTTAACGCTTCAAAATCTGTAAAG -CACGCCATATCGCCGAAAGGCACACTTAATTATTAAAGGTAATACACTATGTCCGGTAAAATGACTGGTATCGTAAAATG -GTTCAACGCTGACAAAGGCTTCGGCTTCATCACTCCTGACGATGGCTCTAAAGATGTGTTCGTACACTTCTCTGCTATCC -AGAACGATGGTTACAAATCTCTGGACGAAGGTCAGAAAGTGTCCTTCACCATCGAAAGCGGCGCTAAAGGCCCGGCAGCT -GGTAACGTAACCAGCCTGTAATCTCTGCTTAAAAGCACAGAATCTAAGATCCCTGCCATTTGGCGGGGATTTTTTTATTT -GTTTTCAGGAAATAAATAATCGATCGCGTAATAAAATCTATTATTATTTTTGTGAAGAATAAATTTGGGTGCAATGAGAA -TGCGCAACGCCGTAAGTAAGGCGGGAATAATTTCCCGCCGAAGACTCTTACTCTTTCAATTTGCAGGCTAAAAACGCCGC -CAGCTCATAACTCTCCTGTTTAATATGCAATTCACACAGTGAATCTCTTATCATCCAGGTGAAAAATAAAAGCGTGAAAC -AAATCACTATTAAAGAAAGTAATCTATATTTCTGCGGCATTCCCAGCCTCCTGTGTTGATTTCCAACGAGTATGTACTGC -ACCCATTTTGTTGGACGATGAAATGGAATAGCCCCTAATATGTCAAAGCCAAAATACCCTTTTGAAAAGCGCCTTGAAGT -CGTGAATCACTACTTCACAACTGATGATGGTTACAGGATCATCTCGGCACGTTTTGGTGTCCCCCGAACCCAGGTCAGGA -CATGGGTTGCCCTCTATGAAAAACATGGAGAAAAAGGTTTAATTCCCAAACCTAAAGGCGTTAGTGCTGATCCAGAGTTG -CGTATTAAGGTCGTGAAAGCTGTGATCGAGCAGCACATGTCCCTTAATCAGGCTGCTGCTCACTTTATGCTTGCTGGTAG -TGGTTCTGTAGCCAGGTGGCTGAAGGTCTATGAAGAGCGCGGAGAAGCTGGTTTACGCGCGCTCAAGATTGGCACCAAAA -GAAACATTGCAATATCAGTTGATCCAGAAAAAGCGGCATCAGCATTGGAGCTGTCAAAAGACCGACGCATTGAGGATCTT -GAAAGGCAAGTTCGATTTCTTGAAACGCGGCTTATGTATCTAAAAAAGCTGAAAGCCTTAGCTCATCCCACGAAAAAGTG -AAAGTACTCAACGAGCTAAGGCAGTTTTATCCTCTTGATGAGCTTCTCAGGGCTGCGGAGATACCGCGCAGTACGTTTTA -TTATCATCTAAAGGCTCTCAGCAAGCCTGACAAGTATGCGGACGTTAAAAAGCGTATTAGTGAGATTTATCACGAGAATA -GAGGCCGATACGGATACCGTAGGGTAACGCTGTCTCTTCATCGAGAAGGGAAACAGATTAACCATAAAGCTGTTCAGCGC -CTGATGGGAACCCTCTCACTTAAAGCAGCGATTAAGGTCAAGCGATACCGCTCTTACAGAGGAGAGGTAGGGCAAACCGC -CCCTAATGTTCTCCAAAGAGATTTCAAGGCTACGCGGCCAAACGAGAAGTGGGTTACCGATGTTACTGAATTTGCAGTCA -ATGGGCGCAAGCTGTATTTGTCTCCAGTAATAGATCTCTTCAACAACGAAGTTATTTCTTACAGCCTTTCGGAAAGACCA -GTGATGAACATGGTTGAGAATATGCTCGATCAGGCATTCAAAAAGCTTAATCCTCACGAGCATCCTGTTCTGCACTCTGA -CCAGGGATGGCAGTATCGTATGAGAAGATATCAAAATATCCTTAAAGAACATGGTATTAAACAAAGCATGTCCAGAAAAG -GCAATTGTCTGGATAATGCTGTGGTGGAGTGTTTCTTTGGAACCTTAAAGTCGGAGTGTTTTTATCTTGATGAGTTCAGT -AATATAAGCGAACTGAAGGATGCTGTTACGGAATATATTGAATACTACAACAGCAGAAGAATTAGCCTGAAATTAAAAGG -TCTGACTCCAATTGAATATCGGAATCAGACCTATATGCCTCGTGTTTAACTGTCCAACTTTTTGGGGTCAGTACAAACTT -TGATTTATAGTCAGGTGGGGCTTTTCTCTGTCTGCCTTTCGGTGAATACCTGAGACAAACAGTCTCAAGCACCCGTGGCT -ATTCTAGCTTAATAAGTTTGTTTCTTCTCCTTGATATAATCCTAAAAAAATCTCATAAAATTAATATATGAGATAATCTT -TATTCAGCAGAAGATTATTAAAGGTTGCTGTATTATTTAGCGATAAAAAAAGCCTGCCAGATGGCAGGCTATTTAATAAC -GGCGTTATTATTGCAACAGCGAAATATCCGCAACGCGCAGGAACAGTTCGCGCAGTTTCTCCAGCATGGTCAGACGGTTG -ATACGCAATTCTTTGTCATCAACCATGACCATCACTTTATCGAAGAAAGCATCAACCGGTTCACGCAGCTCAGCCAGTTC -GACCAGCGCATCCTGGTAACGACCTTCCGTAAAGTACGGCTCCAGCTTGTCACGTAGCACCACAACCTGCATCGCCAGTT -TAATTTCTTCCGGCTCTTTCAGGGTAGAGGCATTCACGCGGTCGCTCAGCACTTCGTCAGATTTCGCCAGAATGTTAGAT -ACACGTTTGTTCGCCGCCGCCAGTGCAGCAGCTGCATCCAGGGTACGGAAATGCGATACCGCTTTCATACGGGCATCGAA -ATCAGCCGGACGAGTCGGACGACGCGCCAGTACCGCCTGGATGGTGTCAACGGTATAACCTTCGTCCTGATACCAGGCGC -GGAAGCGACCGAGCATAAAGTCGATAACATCATCAACTACGTTGGCATTAGTCAGCTTATCGCCATACAGACGCACCGCT -TCTTCGGTCAGCGTTTGCAGATCAAGGTTGAGGTTCTTCTCAACGATAATTCGCAGCACGCCAAGCGCGGCACGACGCAG -CGCAAACGGGTCTTTGTCGCCTTTCGGATGCTGACCGATACCGAAGATACCCGCCAGGGTATCCATCTTGTCAGCAATCG -CCAGCGCACAAGCTACTGGGTTGGACGGCAGGTCATCACCAGCAAAACGCGGCTGATACTGCTCATTCAGCGCCACCGCG -ACATCTTCCGCTTCGCCATCGTGACGCGCATAGTGCATCCCCATAACGCCCTGGGTGTCGGTGAACTCGAAGACCATGTT -GGTCATCAGGTCGCACTTAGACAGCAGACCCGCACGGGTAGCGTGGTTAACGTCAGCGCCAATCTGTTCAGCAATCCAGC -CAGCCAGCGCCTGGATGCGGTCAGTTTTGTCGCGCAGCGTCCCCAACTGTTGCTGGAACAACACGGTTTGCAGGCGCGGC -AGGTTATCTTCAAGACGTTTTTTACGGTCGGTGTTGAAGAAGAACTCGGCATCCGCCAGACGCGGACGAACGACTTTCTC -GTTACCGGAGATAATCTGCTGCGGATCTTTCGATTCGATGTTGGCAACGAAGATAAAGTTCGGCAGCAGTTTGCCGTCGT -TCGCATACACCGGGAAGTATTTCTGGTCACCTTTCATGGTGTAAACCAGCGCTTCAGCCGGCACCGCGAGGAATTTCTCT -TCGAATTTTGCGGTCAGAACGACCGGCCACTCCACCAGCGAAGCCACTTCTTCCAGCAGGCTTTCGCTTAAGTCAGCGTT -ACCGCCAATCTTACGCGCTGCTTCTTCGGCATCGGCTTTAATCTTCGCCTTACGTTCTTCGTAATCGGCGATGACTTTCC -CACGCTCACGCAGAATTTCCGGATACTGATCGGCGTTATCGATGGTGAATTCCGGCTCGCCCATAAAGCGGTGGCCGCGA -ATCACGCGATCGGACTGAATGCCCAGAATGGTTGCCGGAATGACTTTGTCGCCCAGCAGCAGGGTCACGGTGTGCACCGG -ACGCACGAAGTGCACGTCGCTTGCGCCCCAACGCATCAGTTTCGGGATCGGCAGTTTCGCCAGAGAAGTCGCAACCATAT -TCGGCAGCAGTGCTTCGGTGCTTTCGCCCTTCACATGGGCGCGATACAGCAGCCATTCGCCTTTATCGGTAGTCAGACGC -TCAGCCTGGTCAACGGTAATACCGCAACCACGCGCCCAACCTTCTGCCGCTTTGCTCGGTTTGCCTTCAGCGTCGAACGC -CTGGGCAATCGCCGGGCCGCGTTTTTCGATTTCACGATCCGGTTGCGCTTCCGCCAGGTTAGCTACTTTCAGCGCCAGAC -GACGCGGAGCAGCAAACCATTGAACGGTGCCGTGTGCGAGGCCAGCGTTATCCAGCTCCGCAGTAAAGTTCGCAGCAAAG -GACTCAGCCAGGCTGCGCAGTGCTTTTGGTGGCAGCTCTTCAGTGCCGATTTCCACCAGAAAAGTTTTCTCAGACATAGC -CGCCTCTTACTTATCTTTGTTGCACATCGGGAAGCCGAGGGCTTCACGGGAAGCGTAGTATGCTTCTGCCACTGCTTTGG -TCAGGGTGCGAATGCGCAGAATGTAGCGCTGACGCTCGGTGACGGAGATGGCTTTACGCGCATCCAGCAGGTTGAAGCTG -TGGGCGGCTTTCAGAATACGCTCGTAGGCTGGCAGCGGCAGCGGATTTTCCAGCGCCAGCAGCTGCTGCGCTTCTTTCTC -GTACTGCTCGAAGCAGGTGAACAGGAAGTCCACATCCGCGTATTCGAAGTTGTAAGTGGACTGCTCCACTTCGTTCTGAT -GGAACACGTCGCCGTAGGTGGTTTTACCCAGCGGGCCGTCGCTCCAGACCAGGTCGTAAACGCTGTCTACGCCCTGAATG -TACATGGCCAGACGTTCCAGACCGTAGGTGATCTCGCCGGTAACCGGTTTACACTCCAGACCACCAACCTGCTGGAAGTA -AGTGAACTGCGTCACTTCCATGCCGTTCAGCCACACTTCCCAGCCCAGTCCCCAGGCACCCAGCGTCGGGTTTTCCCAGT -TATCTTCCACGAAACGGATGTCGTGAATAGTCGGGTCCATGCCCAGCTCTTTCAGAGAACCGAGGTACAGCTCCTGAATA -TTGTCCGGCGATGGCTTAATGACCACCTGGAACTGATAGTAGTGCTGTAAACGGTTGGGGTTTTCGCCGTAGCGACCATC -GGTCGGGCGACGAGAAGGCTGAACATAAGCAGCCGCCATCGGTTCTGGCCCCAGCGCGCGCAGACAGGTCATTGGGTGAG -AGGTTCCCGCGCCGACTTCCATGTCCAATGGTTGAACAATGGTGCAGCCCTGGCGAGCCCAGTAATCCTGTAAGGTCAGG -ATCAAGCCCTGGAAGGTCCTGGTATCAAACTTTTGCATATTATTTCGTGCTGGATACGTGTGGATTTAAAGGAAGGGATC -AGTATACCCGCTGGATGGAAGATATACAGTACGAAACGGGAAAAAGCAGGGCTTAACGCATGGAAAGATGCAAAAAATGG -CCATCCGCGTCAAAAGAACAGACAAACTGCTCTTTACGGAAGGTATAACCGCGCATTTCATAGCTTCCCTGGAACTGTTC -GAAGGCGGTGACGTCGATTTTTTGCTCGCCGGTGTTATAACGTTTTGCCGCCTGATCCTTGCATAACGCTTCCATATTCA -ACGAACGCAGAGGATCAACCTTTACCCGTTGTGCTTTCTGCACGGGTGACGGTATAGAACAACCCACTAGCACCATAAGC -GCCATTGCCGGAAAGAAAGCGTTCATCATCATTAAATTACCGTCTGGTTTGCAGGTGAGTCTTATTATTTATATCGGTAT -AGTGGCTGATATCTTACGAATTTCCTTAAGCCTCTATAAGCTGTAGTGATAAAACTCAGATTATTCCAGTGCGCCAACCA -AATGATTTATCGGTCAGACTTTTTTTAACCAGATACAGAGACACAGATGCAGCCCAAAATTTACTGGATTGATAACCTGC -GAGGGATAGCGTGTTTAATGGTGGTGATGATTCACACCACTACCTGGTATGTGACCAATGCTCATAGTGTTAGCCCCGTC -ACATGGGATATCGCCAATGTTCTGAATTCTGCCTCTCGTGTCAGCGTGCCGCTATTTTTCATGATTTCCGGCTATCTCTT -TTTTGGCGAACGCAGCGCCCAGCCGCGCCATTTCTTGCGTATCGGCTTATGTCTGATTTTTTATAGCGCAATCGCACTGC -TCTACATTGCGCTGTTTACCTCCATCAATATGGAGTTAGCGCTGAAAAACCTGCTGCAAAAGCCAGTGTTTTACCACTTG -TGGTTTTTCTTCGCGATTGCGGTGATTTATCTGGTTTCACCGCTGATTCAGGTGAAGAACGTCGGCGGAAAAATGTTGCT -GGTGCTAATGGCGGTGATTGGCATTATCGCTAACCCAAACACAGTGCCGCAGAAAATTGACGGTTTTGAATGGCTGCCAA -TTAACTTATATATCAATGGCGATACTTTTTACTACATTCTGTATGGCATGTTGGGCCGCGCTATAGGGATGATGGACACA -CAGCATAAAGCACTGTCGTGGGTGAGCGCCGCGCTGTTTGCGACGGGGGTTTTTATTATCTCTCGCGGGACATTATATGA -ATTGCAGTGGCGCGGAAATTTTGCCGATACCTGGTATCTTTACTGTGGGCCGATGGTTTTTATCTGCGCAATCGCGCTAT -TGACTCTGGTTAAAAACACGCTGGATACGCGTACCATTCGCGGACTTGGCTTAATCTCCCGCCATTCATTGGGTATATAC -GGATTCCACGCCTTGATTATCCATGCGCTGCGCACCCGGGGAATTGAGCTTAAAAATTGGCCAATACTGGATATTATTTG -GATCTTTTGCGCGACGTTGGCAGCGAGTTTGTTACTTTCTATGCTGGTACAACGAATCGACAGAAACAGATTAGTGAGTT -AAGTAAAAGCCCGGTCACATTGGACTGACCGGGCTTACGTGAGTTATTCGCTGTATTCTTCCTGGGTAACCTGTGTTTCT -TTTGGTGGGTTTATTCCGGCATCACGAATATTTTTCTGCACCGCTACTGCACCAAACAAGCTTAAGAAGAAAGCCAGTCC -ATAAAAACCTTTTTCGCTGAGTAATAATGTCGCATTCCACAGACCTACCATCAGTAATGCAACAGAGATAATAAAGACAG -TCAGGCAGGTCATATAATAAATGGAAGTGGTCGGTATGCCTTCATACTTGTCCCGAACGGTCTTTTGATAAGACGCCGCA -GAAAACAGTCCTAATACCAGTACGGCAAAATAATATCCTTTTTCATTTAACTGCATCTCTGCATTCCATAGCCCTAACAG -ATAGGTAACGATACCACCAACGAGAGCTATCCATGACACAATACTAAAGGCCGGTGAATAGGTTGATATTTTGTTGTCCA -TCACAGTATTCCTTTCATTCCTGAATATGTAAGAGCTTTATGTTGCTCATGCCGAGCGAAACAAACGCATTTGACCAAAC -AAGCAGACAAAAAAGGCGATGGGATAGATCACCATTTCATAAGTATTGATAGGTGCGTTTAAAACACCGATAAACAAGAG -ACCGATAGTGATTAACGCAACTAACTGGCAGATATGGGTAAAAAAATCATCCAGTTGCCCGAGTTTTTCTGCGCGAAGAT -ATGCATAGTTGCCAAAAGTTGCTGTCATTAACACGCCAAGAAAATAGCCTTTTCCACTTAACAATGGGCATGAGATCCAT -AGCCCAACCAGATAAACCAGCGCCCCGACAACAAATAATAGTTTTGCCACAGTCTTTGAGGTTTTCATAACGATCTCCAT -ATCTACCAGCGATACATTACGAGTAACCAACGAAAGACAAAACTGAAAAATGCCATTAACAAATGATTTTCAGAATAAAT -TCATACTAAATATTAATTAATTACTGAGATATATAGATGTGAATTATCCCCCACCCGGTCAGGCAGGGGATAACGTTTAC -GCCATTAATGGCAGAAGTTGCTGATAGAGGCGACGGAACGTTTCTCGTCGTGGCTGATAAGCGGCATAACGCTGCGCATC -TGGTAGATGCGACTGTTCTAACGGTAGTTGCGGCAACAATTCAATGAGCGATTTCTCTGGATTCGCCGCGATCTGCGCCA -GCCTTGCTGCGCCCAGTGCTGGCCCCACATCCCCCCCCGTACGGTAATCGAGCTGCTGACCGCTGATATCCGCCAGCATC -TGACGCCAGTACTCACTACGCGCCCCGCCCCCAATCAACGTAACACTTTGCGGTTTAATACCGCAGGCATGCACGACATC -CATGCCATCTGCCAGCGCATAACCCACGCCTTCCAGCACTGCTCGCGCCAGTTCATTGGGGCCATGTTGATGAGTCAAAC -CAAAGAAAACCCCCTTCGCCTGGGGATTATTGTGTGGCGTACGCTCGCCGGAAAGATAAGGCAGAAACCAAACTGGCTCG -GCACTTTCATCAGCCTGTTGAGCTGCAGCGATTAAAGCTGGGACATTGCTCAGGCCGGTTAATTTCGCGGCCCAATCCAG -ACACGACGCTGCACTCAGCATCACAGACATTAAATGCCAACGTTGCGGTAGCGCATGGCAAAAGCTATGTACGGCGCTTT -CTGGCTTGCTTAAGAACCCTTCGCTGACAGCAAAATAGACCCCCGACGTCCCCAGCGATAACATTGCCTGATTAGCATCA -ACCATTCCCACACCAACTGCACCAGCTGCATTGTCGCCACCGCCTGCGACAACTGGCACCGTCGCCATACCCCACGCTTT -CGCAACTTCAGGTAACAAAGCACCAGTAATTTCGCTGCCTTCGTATAATGCGGGCATCTGGTCACGAGATAAGTCGCAAG -CCTGCAGCATGACGTCACTCCAGTCACGCTTTGCGACATCCAGCCACATGGTGCCAGCTGCGTCAGACATATCGCTGGCA -AACTCCCCCGTCATACGCAGACGCAAGTAATCTTTCGGTAATAATACTTTGTCGATTTGACGGAATATCTCCGGCTCATG -CCGCTGAACCCATAGCAATTTAGGCGCAGTAAATCCGGGCATCATCAGGTTGCCGGTAATCACCCGCGATTGCGGAACTC -GCGCTTCCAGCAAAGTGCACTCTTGCGCACAGCGCCCGTCGTTCCACAAAATGGCAGGGCGTAACACCCGTTGCTGAGCA -TCCAGCAAGGTTGCTCCGTGCATCTGGCCGGCAATACCCAATGCTTTAACGTCCTGCAGAGAATGCTGATCGCCCAGAGC -TTTCATTGCGCGATCAGTTGCCTGCCACCACTGTTCCGGGTCTTGTTCCGACCAGAGTGGATGCGGGCGCGAAACGGTCA -GCTTTTCCGTTTGCGCAGCAACCACCTCACCCTGCTCGTTGAGCAAAATAACTTTTACGCCCGAGGTGCCAAGATCTATC -CCGATATACATATCGATCGTTCCTTAAAAAAATGCCCGGTATCGCTACCGATAACCGGGCCAACGGACTGCACAGTTAGC -CGTTATTTGTCGAACAGATAATGGTTTACCAGATTTTCCAGTTGTTCCTGGCGACCACTCTGATGCACCGGAGACAAATG -ATGTTCCTGAGCATATTTGGCTAAATCTGCCAGTGACATTTGGCCTTTCAGGATTTGCTGGCCCAATTCGCTATTCCAGC -CGGAATAACGCTGCGCGATGCGTTTATCCAGCTCGCCATCTTCAATCATGCGCGCTGCAATTTTCAGCGCCAGTGCCATC -GTATCCATCGCGCCGATATGACCGTAAAACAGATCATATTTATCAGTACTTTGACGACGTACTTTGGCATCGAAGTTCAG -ACCACCGGTGGTGAAACCGCCTGCTTTGAGAATTTCATACATCACCAGCGCATTCTCTTCCACACTGTTCGGGAACTGGT -CGGTGTCCCAGCCCAGTTGCGCATCGCCACGGTTGGCGTCGACAGAACCGAACAGGCCAAGCGCAATGGCGGTGGCTATT -TCATGATGGAAAGAGTGACCTGCCAGCGTCGCGTGGTTAGCTTCAATGTTCAGTTTAATCTCTTTTTCCAGACCAAACTG -TTTCAGGAAGCCATAGACCGTCGCGGCATCGTAATCATATTGATGTTTGGTCGGTTCTTGCGGTTTCGGTTCGATAAGCA -ACGTGCCCTGGAAACCGATTTTATGTTTATGCTCAACCACCATCTGCATAAAGCGGCCCAGTTGTTCACGCTCCTGACGC -AAGTCGGTATTTAACAGCGTTTCGTAACCTTCACGACCGCCCCACAGGACATAGTTTTCACCGCCCAATTTATGGGTTGC -TTCCATCGCTGTAACAACTTGCGTTGCCGCCCAGCTGAAGACTTCAGGATCTGGGTTCGTCGCCGCACCCGCGCCGTAGC -GAGGGTTTGTAAAGCAGTTGGCCGTTCCCCACAGCAGCTTCACGCCGCTCTCTTCTTGCTTGCCTGCCAGGACATCAACC -ATTTGCGCAAAATTATTGATGTACTCTTTTAACGACGCGCCCTCAGGGGAAACATCCACATCGTGGAAGCAATAAAATGG -CACATGTAACTTGTGGAAAAACTCAAATGCGACATCTGCTTTACGCTTCGCCAACGCCAGTGCCTCACCAGGCTGCTGCC -ACGGACGATTAAACGCCCCCACACCAAACATATCCGCCCCGTTCCAGCAGAAGGTGTGCCAGTAGCAGGCGGCAAAACGC -AAGTGCTCTTCCATACGCTTACCCAACACCAGTTCGTCGGGATTGTAGTGACGGAATGCTAACGGGTTTGAGGATTTTGA -GCCTTCATAACGAACGCGATCGAGCTGGTCAAAATAGGCTTGCATATTGAACTCCATAATCAGGTAATGCCGCGGGTGAT -GGATGATGTCGTAATATTGGGCACTCCCTTTCAGTTGCTCAATTATGTTATTTCACACTGCTATTGAGATAATTCACAAG -TGTGCGCTCGCTCGCAAAATAAAATGGAATGATGAAACTGGGTAATTCCTCGAAGAGAAAAATGCAATAAGTACAATTGC -GCAACAAAAGTAAGATCTCGGTCATAAATCAAGAAATAAACCAAAAATCGTAATCGAAAGATAAAAATCTGTAATTGTTT -TCCCCTGTTTAGTTGCTAAAAATTGGTTACGTTTATCGCGGTGATTGTTACTTATTAAAACTGTCCTCTAACTACAGAAG -GCCCTACACCATGAAAATAAAGAACATTCTACTCACCCTTTGCACCTCACTCCTGCTTACCAACGTTGCTGCACACGCCA -AAGAAGTCAAAATAGGTATGGCGATTGATGATCTCCGTCTTGAACGCTGGCAAAAAGATCGAGATATCTTTGTGAAAAAG -GCAGAATCTCTCGGCGCGAAAGTATTTGTACAGTCTGCAAATGGCAATGAAGAAACACAAATGTCGCAGATTGAAAACAT -GATAAACCGGGGTGTCGATGTTCTTGTCATTATTCCGTATAACGGTCAGGTATTAAGTAACGTTGTAAAAGAAGCCAAAC -AAGAAGGCATTAAAGTATTAGCTTACGACCGTATGATTAACGATGCGGATATCGATTTTTATATTTCTTTCGATAACGAA -AAAGTCGGTGAACTGCAGGCAAAAGCCCTGGTCGATATTGTTCCGCAAGGTAATTACTTCCTGATGGGCGGCTCGCCGGT -AGATAACAACGCCAAGCTGTTCCGCGCCGGACAAATGAAAGTGTTAAAACCTTACGTTGATTCCGGAAAAATTAAAGTCG -TTGGTGACCAATGGGTTGATGGCTGGTTACCGGAAAACGCATTGAAAATTATGGAAAACGCGCTAACCGCCAATAATAAC -AAAATTGATGCTGTAGTTGCCTCAAACGATGCCACCGCAGGTGGGGCAATTCAGGCATTAAGCGCGCAAGGTTTATCAGG -GAAAGTAGCAATCTCCGGCCAGGATGCGGATCTCGCAGGTATTAAACGTATTGCTGCCGGTACGCAAACTATGACGGTGT -ATAAACCTATTACGTTGTTGGCAAATACTGCCGCAGAAATTGCCGTTGAGTTGGGCAATGGTCAGGAACCAAAAGCAGAT -ACCACACTGAATAATGGCCTGAAAGATGTCCCCTCCCGCCTCCTGACACCGATCGATGTGAATAAAAACAACATCAAAGA -TACGGTAATTAAAGACGGATTCCACAAAGAGAGCGAGCTGTAAGCGTTACGCCCCAGCGCGGAGCGGGGGCGTGATTTCT -CTCCATGCCGCGTGAATGAATTGGCTTAGGTGGAGTCGTTATGCCTTATCTACTTGAAATGAAGAACATTACCAAAACCT -TCGGCAGTGTGAAGGCGATTGATAACGTCTGCTTGCGGTTGAATGCTGGCGAAATCGTCTCACTTTGTGGGGAAAATGGG -TCTGGTAAATCAACGCTGATGAAAGTGCTGTGTGGTATTTATCCCCATGGCTCCTACGAAGGCGAAATTATTTTTGCGGG -AGAAGAGATTCAGGCGAGTCACATCCGCGATACCGAACGCAAAGGTATCGCCATCATTCATCAGGAATTGGCCCTGGTGA -AAGAATTGACCGTGCTGGAAAATATCTTCCTGGGTAACGAAATAACCCACAATGGCATTATGGATTATGACCTGATGACG -CTACGCTGTCAGAAGCTGCTCGCACAGGTCAGTTTATCCATTTCACCTGATACCCGCGTTGGCGATTTAGGGCTTGGGCA -ACAACAACTGGTTGAAATTGCCAAGGCACTTAATAAACAGGTGCGCTTGTTAATTCTCGATGAACCGACAGCCTCATTAA -CTGAGCAGGAAACGTCGATTTTACTGGATATTATTCGCGATCTACAACAGCACGGTATCGCCTGTATTTATATTTCGCAC -AAACTCAACGAAGTCAAAGCGATTTCCGATACGATTTGCGTTATTCGCGACGGACAGCACATTGGTACGCGTGATGCTGC -CGGAATGAGTGAAGACGATATTATCACCATGATGGTCGGGCGAGAGTTAACCGCGCTTTACCCTAATGAACCACATACCA -CCGGAGATGAAATATTACGTATTGAACATCTGACGGCATGGCATCCGGTTAATCGTCATATTAAACGAGTTAATGATGTC -TCGTTTTCCCTGAAACGTGGCGAAATATTGGGTATTGCCGGACTCGTTGGTGCCGGACGTACCGAGACCATTCAGTGCCT -GTTTGGTGTGTGGCCCGGACAATGGGAAGGAAAAATTTATATTGATGGCAAACAGGTAGATATTCGTAACTGTCAGCAAG -CCATCGCCCAGGGGATTGCGATGGTCCCCGAAGACAGAAAGCGCGACGGCATCGTTCCGGTAATGGCGGTTGGTAAAAAT -ATTACCCTCGCCGCACTCAATAAATTTACCGGTGGCATTAGCCAGCTTGATGACGCGGCAGAGCAAAAATGTATTCTGGA -ATCAATCCAGCAACTCAAAGTTAAAACGTCGTCCCCCGACCTTGCTATTGGACGTTTGAGCGGCGGCAATCAGCAAAAAG -CGATCCTCGCTCGCTGTCTGTTACTTAACCCGCGCATTCTCATTCTTGATGAACCCACCAGGGGTATCGATATTGGCGCG -AAATACGAGATCTACAAATTAATTAACCAACTCGTCCAGCAGGGTATTGCCGTTATTGTCATCTCTTCCGAATTACCTGA -AGTGCTCGGCCTTAGCGATCGTGTACTGGTGATGCATGAAGGGAAACTAAAAGCCAACCTGATAAATCATAACCTGACTC -AGGAGCAGGTGATGGAAGCCGCATTGAGGAGCGAACATCATGTCGAAAAGCAATCCGTCTGAAGTGAAATTGGCCGTACC -GACATCCGGTGGCTTCTCCGGGCTGAAATCACTGAATTTGCAGGTCTTCGTGATGATTGCAGCTATCATCGCAATCATGC -TGTTCTTTACCTGGACCACCGATGGTGCCTACTTAAGCGCCCGTAACGTCTCCAACCTGTTACGCCAGACCGCGATTACC -GGCATCCTCGCGGTAGGAATGGTGTTCGTCATAATTTCTGCTGAAATCGACCTTTCCGTCGGCTCAATGATGGGGCTGTT -AGGTGGCGTCGCGGCGATTTGTGACGTCTGGTTAGGCTGGCCTTTGCCACTTACCATCATTGTGACGCTGGTTCTGGGAC -TGCTTCTCGGTGCCTGGAACGGATGGTGGGTCGCGTACCGTAAAGTCCCTTCATTTATTGTCACCCTCGCGGGCATGTTG -GCATTTCGCGGCATACTCATTGGCATCACCAACGGCACGACTGTATCCCCCACCAGCGCCGCGATGTCACAAATTGGGCA -AAGCTATCTCCCCGCCAGTACCGGCTTCATCATTGGCGCGCTTGGCTTAATGGCTTTTGTTGGTTGGCAATGGCGCGGAA -GAATGCGCCGTCAGGCTTTGGGTTTACAGTCTCCGGCCTCTACCGCAGTAGTCGGTCGCCAGGCTTTAACCGCTATCATC -GTATTAGGCGCAATCTGGCTGTTGAATGATTACCGTGGCGTTCCCACTCCTGTTCTGCTGCTGACGTTGCTGTTACTCGG -CGGAATGTTTATGGCAACGCGGACGGCATTTGGACGACGCATTTATGCCATCGGCGGCAATCTGGAAGCAGCACGTCTCT -CCGGGATTAACGTTGAACGCACCAAACTTGCCGTGTTCGCGATTAACGGATTAATGGTAGCCATCGCCGGATTAATCCTT -AGTTCTCGACTTGGCGCTGGTTCACCTTCTGCGGGAAATATCGCCGAACTGGACGCAATTGCAGCATGCGTGATTGGCGG -CACCAGCCTGGCTGGCGGTGTGGGAAGCGTTGCCGGAGCAGTAATGGGGGCATTTATCATGGCTTCACTGGATAACGGCA -TGAGTATGATGGATGTACCGACCTTCTGGCAGTATATCGTTAAAGGTGCGATTCTGTTGCTGGCAGTATGGATGGACTCC -GCAACCAAACGCCGTTCTTGATTTTGATAAAAATTTTCTCAAAGCCGGTTACGTATTACCGGTTTTGAGTTTTTGCATGA -TTCAGCAGGAAAAGAACCATGTTTACTAAACGTCACCGCATCACATTACTGTTCAATGCCAATAAAGCCTATGACCGGCA -GGTAGTAGAAGGCGTAGGGGAATATTTACAGGCGTCACAATCGGAATGGGATATTTTCATTGAAGAAGATTTCCGCGCCC -GCATTGATAAAATCAAGGACTGGTTAGGAGATGGCGTCATTGCCGACTTCGACGACAAACAGATCGAGCAAGCGCTGGCT -GATGTCGACGTCCCCATTGTTGGGGTTGGCGGCTCGTATCACCTTGCAGAAAGTTACCCACCCGTTCATTACATTGCCAC -CGATAACTATGCGCTGGTTGAAAGCGCATTTTTGCATTTAAAAGAGAAAGGCGTTAACCGCTTTGCTTTTTATGGTCTTC -CGGAATCAAGCGGCAAACGTTGGGCCACTGAGCGCGAATATGCATTTCGTCAGCTTGTCGCCGAAGAAAAGTATCGCGGA -GTGGTTTATCAGGGGTTAGAAACCGCGCCAGAGAACTGGCAACACGCGCAAAATCGGCTGGCAGACTGGCTACAAACGCT -ACCACCGCAAACCGGGATTATTGCCGTTACTGACGCCCGAGCGCGGCATATTCTGCAAGTATGTGAACATCTACATATTC -CCGTACCGGAAAAATTATGCGTGATTGGCATCGATAACGAAGAACTGACCCGCTATCTGTCGCGTGTCGCCCTTTCTTCG -GTCGCTCAGGGCGCGCGGCAAATGGGCTATCAGGCGGCAAAACTGTTGCATCGATTATTAGATAAAGAAGAAATGCCGCT -ACAGCGAATTTTGGTCCCACCAGTTCGCGTCATTGAACGGCGCTCAACAGATTATCGCTCGCTGACCGATCCCGCCGTTA -TTCAGGCCATGCATTACATTCGTAATCACGCCTGTAAAGGGATTAAAGTGGATCAGGTACTGGATGCGGTCGGGATCTCG -CGCTCCAATCTTGAGAAGCGTTTTAAAGAAGAGGTGGGTGAAACCATCCATGCCATGATTCATGCCGAGAAGCTGGAGAA -AGCGCGCAGTCTGCTGATTTCAACCACCTTGTCGATCAATGAGATATCGCAAATGTGCGGTTATCCATCGCTGCAATATT -TCTACTCTGTTTTTAAAAAAGCATATGACACGACGCCAAAAGAGTATCGCGATGTAAATAGCGAGGTCATGTTGTAGCGA -TGATGAGAATTGTCGGCGTCACATCAGGTAACGCTGCGTGGTTGTCGGATGCGGCGTGAACGCCTTATCCGACCTACCCG -CCAGGCATGATAAAACGCACCAACAACGCTTCAGGCTCGTAGCTCAACTGCCTGAGACAAAGTAAAAAGCCTTATCCGAC -TGACAAGTCGGATAAGGCTCAAGGAAATGCAATTACATATGCGCCGCGATTAACCGTTGGTTATCCTGGTACATTGCGAA -CAGGTAGTTGTTATAACTCTTCCCTTTGGTCGAGTAGCCCTTCAGCTTGTGAATCATCGCTGTGGCAGTCACTTCCTGAT -CCGCTTTACGCAGCTGCGCACGCGATTTACGGAACGAAGAGTAAGCCGGGTGCGTATTCAGGTTAGTGACATAGGCGCTC -ACCGATTCTTTGACAGAACTAAACTGTGAGTACCCTTTCACTTTACCTGGCGCATTGGTACAACGTCCTTTCATGCATTT -CATGCCGAACAGGTTGTTGTTGTTGCGCGCCAGCTTCGACGTTCCCCAACCGCTTTCTGCTGCAGCCATCGTCGCCACCA -TACTGGTGGGGATAATGTCTACGCGTTCAAGCAAGGTATTCCACGGGATTTTTCGCGTATTACCGGACCACTTCACCTTG -TAGCGTTTGGCGATGTCTTTCAGACGCGCACGCTCAGCAGGTGACCATTGGCCCTGATACTGTTTTGAAATGAGCCAGTT -ACGTTCCGCAGTAATGGCCGCATTTTGGCTGGTAATGTAAGGCATTACGGTCCGGAGAAACGCCTTTTTCCTTGGTGTTC -CGGAAGGGTATTTTCGCAAATCAGGAAGTGAACTACTCTTTGCACTATTGCGAGAATACTCTTGTTTACTGCTTACCTGT -TTATTACTAGCTTTAGTTAAGTGGGACTTTTGACTCGCTGTTGTTGTGTGCGTCTTCGCTAACACCTCACTCGAAAACAC -CAGAGTGAGTAACATAAGAATCATCGCCCCATATCGTCGTATGGGAGTCAAAATCATCAGGTCTCCTGGTCGGATTTAAT -CATTCCAACACCTTATATTTTTCACAAATTTGAGAGTTGAATCTCAAATCATATCAAAAATAGCTGTCAAGAGCACCCCA -AGGAATAGTCCAAATCTGAAACTATGTCACGTGTTAACGATTCAGATTGGCGCTAAATCGCAGAAAATGTGGGGGTTATC -GCAAAATTCAGCCGTTTTTTGCGCGAGATCGCTCACCCTTGCTTCTCATCCTGTGGACTTACCGCTCAGGGATGAGTTTT -GTTTGGCTTATCGCTGGCAAACTGTCTGAAATCGCAGCAATAAGGACTCATCCGCCATGAAACTCGCCGCCTGTTTTCTG -ACACTCCTTCCTGGCTTCGCCGTTGCCGCCAGCTGGACTTCTCCGGGGTTTCCCGCCTTTAGCGAACAGGGGACAGGAAC -ATTTGTCAGCCACGCGCAGTTGCCCAAAGGTACGCGTCCACTAACGCTAAATTTTGACCAACAGTGCTGGCAGCCTGCGG -ATGCGATAAAACTCAATCAGATGCTTTCCCTGCAACCTTGTAGCAACACGCCGCCTCAATGGCGATTGTTCAGGGACGGC -GAATATACGCTGCAAATAGACACCCGCTCCGGTACGCCAACATTGATGATTTCCATCCAGAACGCCGCCGAACCGGTAGC -AAGCCTGGTCCGTGAATGCCCGAAATGGGATGGATTACCGCTCACAGTGGATGTCAGCGCCACTTTCCCGGAAGGAGCCG -CCGTACGGGATTATTACAGCCAGCAAATTGCGATAGTGAAGAACGGTCAAATAATGTTACAACCCGCTGCCACCAGCAAC -GGTTTACTCCTGCTGGAACGGGCAGAAACTGACACATCCGCCCCTTTCGACTGGCATAACGCCACGGTTTACTTTGTGCT -GACAGATCGTTTCGAAAACGGCGATCCCAGTAATGACCAGAGTTACGGACGTCATAAAGACGGTATGGCGGAAATTGGCA -CTTTTCACGGCGGCGATTTACGCGGCCTGACCAACAAACTGGATTACCTCCAGCAGTTGGGCGTTAATGCTTTATGGATA -AGCGCCCCATTTGAGCAAATTCACGGCTGGGTCGGCGGCGGTACAAAAGGCGATTTCCCGCATTATGCCTACCACGGTTA -TTACACACAGGACTGGACGAATCTTGATGCCAATATGGGCAACGAAGCCGATCTACGGACGCTGGTTGATAGCGCACATC -AGCGCGGTATTCGTATTCTCTTTGATGTCGTGATGAACCACACCGGCTATGCCACGCTGGCGGATATGCAGGAGTATCAG -TTTGGCGCGTTATATCTTTCTGGTGACGAAGTGAAAAAATCGCTGGGTGAACGCTGGAGCGACTGGAAACCTGCCGCCGG -GCAAACCTGGCATAGCTTTAACGATTACATTAATTTCAGCGACAAAACAGGCTGGGATAAATGGTGGGGAAAAAACTGGA -TCAGAACGGATATCGGCGATTACGACAATCCTGGATTCGACGATCTCACTATGTCGCTAGCCTTTTTGCCGGATATCAAA -ACCGAATCAACTACCGCTTCTGGTCTGCCGGTGTTCTATAAAAACAAAATGGATACCCACGCCAAAGCCATTGACGGCTA -TACGCCGCGCGATTACTTAACCCACTGGTTAAGTCAGTGGGTCCGCGACTATGGGATTGATGGTTTTCGGGTCGATACCG -CCAAACATGTTGAGTTGCCCGCCTGGCAGCAACTGAAAACCGAAGCCAGCGCCGCGCTTCGCGAATGGAAAAAAGCTAAC -CCCGACAAAGCATTAGATGACAAACCTTTCTGGATGACCGGTGAAGCCTGGGGCCACGGCGTGATGCAAAGTGACTACTA -TCGCCACGGCTTCGATGCGATGATCAATTTCGATTATCAGGAGCAGGCGGCGAAAGCAGTCGACTGTCTGGCGCAGATGG -ATACGACCTGGCAGCAAATGGCGGAGAAATTGCAGGGTTTCAACGTGTTGAGCTACCTCTCGTCGCATGATACCCGCCTG -TTCCGTGAAGGGGGCGACAAAGCAGCAGAGTTATTACTATTAGCGCCAGGCGCGGTACAAATCTTTTATGGTGATGAATC -CTCGCGTCCGTTCGGTCCTACAGGTTCTGATCCGCTGCAAGGTACACGTTCGGATATGAACTGGCAGGATGTTAGCGGTA -AATCTGCCGCCAGCGTCGCGCACTGGCAGAAAATCAGCCAGTTCCGCGCCCGCCATCCCGCAATTGGCGCGGGCAAACAA -ACGACACTTTTGCTGAAGCAGGGCTACGGCTTTGTTCGTGAGCATGGCGACGATAAAGTGCTGGTCGTCTGGGCAGGGCA -ACAGTAACTTTTCCGGCTTCCCGTTCGTCAGTACCTCGGGAAGCCGCCAACCAGGATAAAATGTCAGCCCTAATCAGCGT -TGCAGGATAAAGCACCGCTCACTCTTCAACAGACCGATTTGCACCCCAGCAAATGTAGCGTTATTGTTACCTTCCTTGCT -ACAGAGTTCGACAGATATCCCGCTATGACATTCTCCCTTTTTGGTGACAAATTTACCCGCCACTCCGGCATTACGCTGTT -GATGGAAGATCTGAACGACGGTTTACGCACGCCTGGCGCGATTATGCTCGGCGGCGGTAATCCGGCGCAGATCCCGGAAA -TGCAGGACTACTTCCAGACGCTACTGACCGACATGCTGGAAAGTGGCAAAGCGACTGATGCACTGTGTAACTACGACGGT -CCACAGGGGAAAACGGAGCTACTCACACTGCTTGCCGGAATGCTGCGCGAGAAGTTGGGTTGGGATATCGAACCACAGAA -TATTGCACTAACAAACGGCAGCCAGAGCGCGTTTTTCTACTTATTTAACCTGTTTGCCGGACGCCGTGCCGATGGTCGGG -TCAAAAAAGTGCTGTTCCCGCTTGCACCGGAATACATTGGCTATGCTGACGCCGGACTGGAAGAAGATCTGTTTGTCTCT -GCGCGTCCGAATATTGAACTGCTGCCGGAAGGCCAGTTTAAATACCACGTCGATTTTGAGCATCTGCATATTGGCGAAGA -AACCGGGATGATTTGCGTCTCCCGGCCGACGAATCCAACAGGCAATGTGATTACTGACGAAGAGTTGCTGAAGCTTGACG -CGCTGGCGAATCAACACGGCATTCCGCTGGTGATTGATAACGCTTATGGCGTCCCGTTCCCGGGTATCATCTTCAGTGAA -GCGCGCCCGCTATGGAATCCGAATATCGTGCTGTGCATGAGTCTTTCCAAGCTGGGTCTACCTGGCTCCCGCTGCGGCAT -TATCATCGCCAATGAAAAAATCATCACCGCCATCACCAATATGAACGGCATTATCAGCCTGGCACCTGGCGGTATTGGTC -CGGCGATGATGTGTGAAATGATTAAGCGTAACGATCTGCTGCGCCTGTCTGAAACAGTCATCAAACCGTTTTACTACCAG -CGTGTTCAGGAAACTATCGCCATCATTCGCCGCTATTTACCGGAAAATCGCTGCCTGATTCATAAACCGGAAGGAGCCAT -TTTCCTCTGGCTATGGTTTAAGGATTTGCCCATTACGACCAAGCAGCTCTATCAGCGCCTGAAAGCACGCGGCGTGCTGA -TGGTGCCGGGGCACAACTTCTTCCCAGGGCTGGATAAACCGTGGCCGCATACGCATCAATGTATGCGCATGAACTACGTA -CCAGAGCCGGAGAAAATTGAGGCGGGGGTGAAGATTCTGGCGGAAGAGATAGAAAGAGCCTGGGCTGAAAGTCACTAAAA -ATTGCCTGATGCGCTACGCTTATCAGGCCTACATGATTTCTGCAATATATTGAATTTGGAAGAATTTGTAGGCCGGATAA -GGCGTTTACGCCGCATCTGGCATAAACAAAGCGCACTGTTCCGGCGTTGAGAAACGCCGGAAAACGTTTCAAACAGGCTG -CTGCCGTAGCCGATGCCGCTGCACTTTCTCGACATCCATGCACTGCAACGCCTTTGTCGGGCAGGCTTCAACACAGGCCG -GTCCCGTCTCCCGATGCCAGCACAGATCGCACTTAATCGCCCTCGCCTTTTTGCGCGAAGAAACGACCTCCATCGCACCA -AACGGGCAAGCCAGCATACAGCTTTTACAGCCAATGCAACGTGTTTGTTCAACGAAAATATGCCCATGTTCGCGGCTTAT -CGCGTCAACAGGGCAGACATTCGCGCACGGTGCATCTTCACACTGATGACAGGCTACTGCCGTGGTCCAGCAGTGGTCTT -TAATGACACGAATACGGGAAATAAACTCGTCTGGTGACAACGCAGCGCAATCCTGATTCTCATGATGCGACACTGCGCAA -GCCACTTCACAGGTACGGCAACCGATACATTTCGTCGCATCCGCAATAATAAACCGGTTCATGATCACTCCTTTGCACTA -AAACAGCAGAGTGCCAGAGAGCGCGTCCCTACTGCTTTGATCCAACGAAGGAAATGTTAAAGTTTTGGCACTTGTCCAAA -GCGTTATGTGATCGCGCCCAGGTCATCCCTGACAGTAAATCCCAGTTCATTAGAAATAGCCTGCGCGGTTTCACGCAGTG -GTTTCAGGAGATTTTTCTCTCCCACCTGTTTCAGACGTGATGTCGAAAGCGAAATCGACACGGCGTACGGCACCCGCCCA -TGAATATCAAACACCGGAACAGCAATACAGGAGACGCCGAGTTCGTTTTCTTCTCTGTCCATCGCCGCTCCGCTTTCACG -AATGTGCGCCAGTTCGTCGAACATCGCGGGCAGCTCGGTAATGGTATTGCGGGTTAACGGCTGGATCTCATGCTGATGGC -TTTCCCAGTATGACTTCACGTAGTCCGGGTGACCAAACGCCATGTAGATCTTGCCCATTGCGGAACAGTAGAGCGGCATA -TGCTGGCCAATATAGGCACGGGTTCGCAGCATCCCGGTTGTGGGTTCCAGCTTATAAATCAAAATAGCGTGATCGTCTTC -GCGGCTGGAGAAGTTAATGGTTTCACCAGTGGCGATGTTCAGTGCCTCAAGATGCGGAGCGGCGATATGAATGATATTCA -GCGAAGACAGCGCCTTCTGCCCGACGGCAATAAATTTGGTGGTCAGGCGATAACTCCCTGCGGCAGGCGCGGTGGTCACA -TAGCCGCAGGACTGTAATCCCTGCAATAAGCGATGGACGGTACTCTTATTTAAACCAGCCAGCTCCGAAAGATGCGCCAA -CGGACAACCGTTTGGATAGTTGCTCAAAATCTCAATCAGCATCAACCCGCGAAACAGACTCTGGCTTCCGGCTGGACGCT -CTTTTTCCTGCGCCATCTCGTTCTCTTTTTTTCCCATCACTTCTTTCCCCATTTTGTCGCGTCCTGATGGTAGCGCAAAG -TGTGCCGTAGTTCACGATCTCGACAGATAATTTATAACCAATTGATTTTTATGTCTTTTGAAATTCATCAATCAGATTGC -CTTGTTAAAAAGTGATCGATATATTTGAAATCAAGTTTCGCATATTGAAATTTTAAGCCAAAAAAGCGATCAAAAAAACA -AGGAAGCCTGGGATGAAAGTGACATTTGAGCAGTTAAAAGCAGCCTTTAATCGGGTCTTAATTTCACGCGGCGTTGACAG -CGAAACGGCTGACGCCTGTGCAGAGATGTTCGCCCGCACCACCGAATCCGGCGTTTATTCTCACGGCGTTAATCGTTTCC -CTCGTTTCATTCAACAACTGGAAAACGGCGATATCATTCCTGATGCCCAACCCAAACGTATAACCAGCCTCGGCGCAATT -GAACAGTGGGACGCCCAGCGTTCGATCGGTAACCTGACAGCGAAAAAGATGATGGATCGCGCCATTGAACTGGCTGCCGA -TCACGGTATTGGTCTGGTGGCACTACGTAATGCCAACCACTGGATGCGCGGCGGCAGCTACGGCTGGCAGGCGGCGGAAA -AAGGCTATATTGGCATTTGCTGGACCAACTCCATCGCCGTAATGCCGCCGTGGGGCGCAAAAGAGTGTCGCATAGGCACT -AACCCGCTGATCGTCGCCATTCCTTCCACGCCGATCACCATGGTCGATATGTCGATGTCGATGTTCTCTTACGGCATGTT -AGAAGTTAACCGTCTGGCAGGTCGTCAGCTCCCGGTCGATGGTGGCTTTGATGATGAGGGCAATTTGACCAAAGAACCTG -GCGTTATCGAGAAGAATCGCCGCATTTTGCCGATGGGCTACTGGAAAGGTTCTGGCATGTCGATTGTGCTGGATATGATC -GCTACTCTCCTTTCCGACGGCGCATCCGTTGCCGAAGTCACCCAGGACAACAGCGACGAATACGGCATTTCACAAATTTT -TATTGCCATTGAAGTGGACAAGCTTATCGACGGTCCCACCCGCGATGCCAAGCTGCAACGCATCATGGATTACGTTACTA -GTGCCGAGCGTGCTGACGAAAATCAGGCCATTCGCTTACCCGGCCATGAATTTACTACCCTGCTGGCCGAAAACCGCCGT -AACGGCATCACTGTTGATGACAGCGTGTGGGCCAAAATCCAGGCGTTATGAGGAGATAAGTCATGATTTTTGGACATATC -GCGCAGCCCAATCCGTGCCGTTTGCCCGCCGCCATTGAAAAGGCGCTCGATTTTCTGCGCGCTACCGATTTCAACGCCCT -GGAGCCGGGCGTTGTCGAAATCGACGGCAAAAATATTTATACGCAAATTATCGATTTAACCACACGCGAAGCGGTGGTAA -ACCGTCCGGAAGTGCATCGTCGGTATATCGATATTCAGTTTCTGGCGTGGGGCGAAGAGAAAATCGGCATTGCTATTGAT -ACGGGAAATAATAAAGTCAGCGAATCACTATTAGAGCAGCGCAATATTATTTTTTATCACGACAGTGAACATGAATCATT -TATAGAAATGATACCGGGCAGCTACGCAATTTTCTTTCCGCAGGATGTTCACCGACCAGGTTGTATTATGCAAACAGCCT -CTGAGATACGAAAAATTGTGGTTAAAGTCGCATTAACGGCGCTGAATTAATCGAATAATCGTCTACGCCAGAACGCCTGG -GTAATGTTATTGCTCTAACTATATTAATAATTCAGGTTGCTGCACATGCGACTTGAATTATGACAGACATAGCCTCAAGG -AATAGCTATGAAAAAAATACTCGAAGCAATACTGGCGATTAATCTCGCCGTACTTTCCTGTATTGTATTTATAAACATTA -TTTTAAGATATGGTTTTCAGACAAGCATTTTATCTGTTGATGAATTGTCACGTTATTTATTTGTCTGGTTAACGTTTATT -GGCGCGATTGTAGCTTTTATGGATAACGCCCACGTTCAGGTCACCTTTCTGGTGGAGAAACTCTCCCCCGCATGGCAGCG -ACGAGTCGCTCTGGTTACCCATTCCTTAATCTTATTTATTTGTGGCGCACTGGCCTGGGGCGCAACGCTAAAAACAATTC -AGGACTGGAGCGATTATTCACCGATCCTCGGTTTACCCATCGGCCTGATGTATGCCGCTTGTCTGCCCACCAGCCTCGTT -ATCGCATTCTTTGAACTGCGTCATTTATATCAACTCATCACGCGTAGCAATTCTCTAACGTCGCCACCGCAAGGAGCTTA -ATCATGGCTGTGCTGATTTTTCTGGGCTGTCTGTTGGGTGGTATTGCTATCGGTTTGCCTATTGCCTGGGCACTGTTGTT -GTGCGGGGCGGCGTTAATGTTCTGGCTGGACATGTTTGATGTCCAGATCATGGCACAAACGCTGGTGAACGGAGCCGATA -GCTTCTCCCTGCTGGCGATTCCGTTCTTTGTGCTGGCGGGTGAAATCATGAATGCGGGCGGCTTGTCAAAACGCATTGTT -GACCTGCCGATGAAACTGGTGGGGCATAAACCAGGCGGGCTGGGCTACGTCGGCGTGCTGGCAGCTATGATTATGGCGAG -CCTTTCTGGTTCTGCCGTTGCGGATACCGCCGCCGTTGCCGCTCTACTGGTGCCGATGATGCGCAGCGCCAACTATCCGG -TCAACCGGGCGGCGGGGCTGATTGCCTCTGGCGGCATTATCGCGCCAATTATTCCCCCTTCCATTCCGTTTATTATCTTC -GGCGTTTCCAGCGGATTATCCATCAGTAAGCTGTTTATGGCGGGCATTGCCCCTGGCATGATGATGGGCGCAACGCTGAT -GCTTACCTGGTGGTGGCAGGCCAGTCGCCTTAATTTACCCCGCCAGCAAAAAGCAACGATGCAGGAAATCTGGCACTCTT -TTGTCTCCGGTATCTGGGCGCTGTTTCTTCCAGTCATCATTATTGGCGGGTTTCGCTCCGGCCTGTTTACCCCTACCGAA -GCCGGGGCCGTTGCTGCTTTCTATGCGCTGTTTGTCGCCACAGTTATTTACCGTGAAATGACCTTCGCCACACTTTGGCA -TGTACTCATTGGCGCGGCGAAAACCACCTCAGTGGTTATGTTTCTGGTGGCCTCGGCACAAGTTTCCGCCTGGCTGATTA -CCATTGCTGAACTGCCGATGATGGTTTCTGATTTACTGCAACCGTTGGTCGATTCACCGCGTCTGCTGTTTATCGTCATT -ATGGTGGCTATCCTGATTGTCGGCATGGTCATGGATTTAACGCCGACGGTATTAATTCTTACCCCGGTATTAATGCCTTT -AGTTAAAGAGGCAGGAATCGATCCGATTTATTTCGGTGTCATGTTTATCATTAACTGCTCAATCGGCTTAATTACACCGC -CTATCGGTAATGTACTTAACGTTATTTCAGGGGTGGCAAAACTCAAATTCGATGATGCAGTCAGAGGCGTTTTCCCTTAC -GTCCTGGTTTTATATTCATTATTAGTCGTATTTGTTTTTATTCCCGATCTCATCATCCTCCCTTTGAAATGGATTAATTA -AAAGGAAAATATTATGAAATTACGCTCTGTAACCTACGCATTATTCATTGCTGGCCTGGCTGCATTCAGCACATCTTCTC -TGGCGGCACAATCTTTACGTTTCGGTTATGAAACATCACAAACCGACTCGCAACATATTGCGGCGAAAAAATTCAATGAT -TTATTGCAGGAGAGAACCAAAGGCGAGCTGAAATTAAAACTGTTCCCGGACAGCACTCTCGGTAACGCGCAGGCGATGAT -CAGCGGCGTACGTGGCGGCACCATCGATATGGAAATGTCCGGCTCGAATAACTTTGCCGGGTTATCACCAGTGATGAACT -TGCTTGATGTCCCTTTCCTGTTCCGCGATACCGCTCACGCGCATAAAACGCTCGACGGCAAAGTCGGTGATGATCTGAAA -GCCTCACTTGAAGGTAAAGGACTGAAAGTACTGGCCTACTGGGAAAACGGCTGGCGCGATGTCACCAACTCGCGCGCACC -GGTTAAAACCCCCGCCGACCTGAAAGGGCTGAAAATCCGCACCAACAATAGCCCGATGAATATCGCCGCATTCAAAGTCT -TTGGCGCTAACCCGATCCCGATGCCGTTTGCCGAAGTCTATACCGGGCTGGAAACCCGCACTATCGACGCTCAGGAACAC -CCGATCAACGTCGTCTGGTCAGCAAAATTTTTCGAAGTGCAGAAGTTCCTTTCTCTGACGCACCACGCCTATTCCCCGCT -TCTGGTGGTGATCAACAAAGCGAAGTTTGATGGCTTAAGTCCGGAGTTCCAGCAGGCGCTAGTTTCATCTGCACAAGAAG -CGGGTAACTATCAGCGCAAACTGGTTGCTGAAGATCAGCAAAAAATCATCGACGGCATGAAAGAAGCGGGCGTGGAAGTC -ATCACCGATCTCGACCGCAAAGCCTTTAGCGACGCACTGGGGAATCAGGTTCGCGACATGTTTGTTAAAGATGTGCCGCA -GGGAGCTGATCTGCTGAAAGCCGTGGATGAGGTGCAATAAACCATGACGCAATACTGGCTGGGGTTAGATTGTGGCGGTA -GCTGGCTGAAAGCCGGGCTGTATGACCGCGAAGGCCGGGAGGCAGGCGTGCAGCGCCTGCCGCTGTGCGCATTAAGCCCG -CAGCCAGGCTGGGCAGAGCGCGATATGGCAGAACTGTGGCAATGCTGCATGGCTGTCATTCGCGCCCTGCTTACTCATTC -TGGTGTTAGCGGGGAACAAATTGTCGGTATCGGCATCTCCGCACAGGGAAAGGGCTTGTTTTTGCTGGATAAAAACGACA -AACCGCTCGGGAATGCTATTTTGTCCTCGGACCGCCGGGCGATGGAAATCGTTCGTCGCTGGCAGGAAGATGGCATCCCG -GAAAAACTCTACCCGCTGACCCGACAAACCTTGTGGACCGGGCATCCGGTGTCGCTGTTACGCTGGCTGAAAGAGCACGA -ACCAGAACGCTACGCGCAAATTGGCTGCGTGATGATGACGCACGACTACCTGCGCTGGTGTTTAACTGGCGTCAAAGGCT -GTGAAGAGAGCAATATTTCCGAGTCCAACCTCTACAACATGAGTCTTGGGGAATATGACCCGTGCCTCACCGACTGGCTG -GGGATCGCTGAAATCAATCACGCCCTGCCGCCTGTTGTCGGATCTGCCGAAATCTGCGGGGAGATCACCGCTCAGACAGC -CGCCCTGACCGGTCTGAAAGCGGGTACGCCCGTTGTTGGCGGCCTGTTTGATGTGGTTTCCACCGCACTCTGCGCCGGGA -TCGAAGACGAATTTACCCTCAATGCGGTGATGGGGACCTGGGCGGTGACCAGCGGCATAACCCGCGGTTTACGTGACGGT -GAAGCGCATCCGTATGTCTATGGTCGCTACGTTAACGATGGTGAATTTATCGTTCACGAAGCCAGCCCTACCTCTTCCGG -CAACCTCGAATGGTTTACCGCACAGTGGGGAGAAATCTCGTTTGATGAGATCAATCAGGCCGTTGCCAGCTTGCCGAAGG -CTGGGGGCGATCTCTTTTTCCTGCCGTTCCTGTACGGCAGCAACGCCGGACTCGAGATGACCAGTGGTTTCTACGGGATG -CAGGCCATTCACACCCGCGCGCACCTGTTGCAGGCCATCTATGAAGGGGTGGTGTTCAGCCATATGACCCACCTCAACCG -AATGCGCGAACGTTTTACTGATGTTCACACCCTACGCGTCACTGGCGGCCCGGCGCACTCCGATGTCTGGATGCAAATGC -TGGCGGACGTCAGCGGTCTGCGTATCGAGCTGCCGCAGGTGGAAGAAACCGGCTGCTTTGGTGCGGCCCTTGCCGCCCGC -GTCGGCACCGGGGTTTATCACAACTTCAGCGAAGCCCAACGTGACTTGCGACACCCGGTGCGCACCCTGCTGCCAGATAT -GACCGCCCATCAGCTTTACCAAAAAAAATATCAACGTTATCAGCATCTCATTGCCGCACTTCAGGGCTTTCACGCCCGCA -TTAAGGAGCACACATTATGAGCCGACCACTTCTGCAACTGGCCCTCGACCACTCATCACTTGAAGCCGCGCAGCGCGACG -TGACGCTGTTAAAAGACAGCGTCGATATCGTCGAAGCGGGCACCATTCTCTGTTTAAACGAAGGGCTTGGCGCGGTGAAA -GCCTTGCGCGAACAGTGCCCGGACAAAATCATCGTTGCTGACTGGAAGGTCGCCGACGCTGGTGAAACGCTCGCGCAACA -GGCGTTTGGCGCAGGCGCTAACTGGATGACCATCATCTGCGCCGCGCCGCTCGCGACGGTAGAAAAAGGCCACGCAATGG -CACAACGCTGCGGGGGTGAAATTCAGATAGAGCTGTTCGGTAACTGGACGCTGGACGACGCCCGCGACTGGCATCGTATT -GGCGTGCGGCAGGCCATTTATCATCGCGGTCGTGATGCACAGGCCAGCGGGCAACAGTGGGGCGAAGCCGATCTGGCACG -CATGAAGGCGCTTTCAGATATCGGCCTTGAGCTTTCCATTACTGGCGGGATTACCCCTGCTGACCTGCCGCTGTTTAAAG -ATATCCGCGTGAAAGCGTTTATTGCCGGGCGGGCACTGGCAGGCGCGGCAAATCCGGCGCAAGTGGCTGGCGATTTCCAT -GCGCAAATCGACGCTATCTGGGGAGGTGCGCGTGCGTAATCATCAGTTAGGGATTTATGAAAAAGCGCTGGCGAAAGATC -TCTCCTGGCCGGAGCGGCTGGTGCTGGCAAAAAGCTGCGGTTTTGATTTTGTCGAAATGTCGGTGGATGAAACCGACGAA -CGGCTCTCACGTCTTGACTGGAGCGCCGCACAAAGGACTTCGCTGGTTGCCGCGATGATCGAAACAGGTGTTGGGATCCC -GTCGATGTGCCTGTCCGCACATCGTCGCTTTCCCTTTGGTAGCCGTGACGAGGCAGTGCGCGAACGGGCGCGGGAAATCA -TGAGTAAAGCGATTCGCCTGGCGCGCGATCTCGGCATTCGCACCATCCAGCTGGCAGGTTATGACGTCTATTACGAAGAC -CACGACGAAGGCACCCGGCAACGTTTTGCTGAAGGGCTGGCGTGGGCAGTCGAACAGGCGGCGGCATCACAAGTAATGCT -GGCGGTGGAGATTATGGATACCGCGTTTATGAACTCCATCAGCAAATGGAAAAAATGGGACGAGATGCTCGCCTCACCGT -GGTTCACCGTCTACCCGGACGTCGGCAACCTCAGCGCCTGGGGCAATGATGTTCCCGCCGAACTGAAACTGGGCATTGAC -CGTATCGCCGCGATCCACCTGAAAGACACCCAGCCAGTCACCGGGCAAAGTCCCGGACAGTTCCGCGACGTGCCGTTTGG -CGAAGGCTGCGTCGATTTCGTTGGCATCTTCAAAACGCTGCATAAACTGAACTATCGCGGTTCTTTCCTGATTGAGATGT -GGACCGAAAAAGCCAAAGAGCCGGTGCTGGAGATTATTCAGGCGCGGCGTTGGATTGAAGCGCGTATGCAGGAGGCTGGA -TTTATATGTTAGAGCAACTGAAAGCCGACGTGCTGGCGGCGAATCTGGCGCTTCCCGCTCACCATCTGGTGACGTTCACC -TGGGGCAATGTCAGCGCGGTAGACGAAACGCGGCAATGGATGGTAATCAAACCTTCCGGCGTCGAGTACGACGTGATGAC -CGCCGACGATATGGTGGTGGTTGAGATAGCCAGCGGTAAGGTGGTGGAAGGCAGCAAAAAACCCTCTTCCGATACACCAA -CGCATCTGGCGCTCTACCGTCGCTATGCCGAAATTGGCGGTATTGTGCATACCCACTCGCGCCACGCCACCATCTGGTCA -CAGGCCGGGCTGGATCTCCCCGCCTGGGGCACCACCCACGCCGATTATTTTTACGGTGCCATCCCCTGCACGCGACAGAT -GACCGCAGAGGAGATTAACGGCGAATATGAATATCAGACCGGCGAAGTGATCATTGAAACCTTCGAAGAACGTGGCAGGA -GTCCGGCACAAATCCCGGCGGTGCTGGTGCATTCTCACGGCCCGTTCGCATGGGGTAAAAACGCCGCCGATGCCGTGCAT -AACGCCGTAGTACTCGAAGAATGCGCCTATATGGGTCTATTCTCGCGCCAGCTTGCGCCGCAGCTCCCTGCGATGCAAAA -CGAACTGCTGGATAAGCACTACCTGCGTAAGCATGGGGCCAATGCCTATTACGGGCAGTAATCCCTCACGCCGGGGCTTC -ATCGCCCCGGCACTACGAATTGATATGTTCCTTGCTGTAACGCCGCTTCCACGCTGCTGGCGTTAAACCAGTATGTTTCT -GAAAAATCTGCCGGAAATAGCCAACGTCATTAAACCGTATTGCATGGAGCAGGCCGACAACGTCGAGTCACTGCATAACC -TGTTGCTGCCCGCCGATGCGCCATTTACGACATTTGAAGGCAAGGGATTGTTCAGCCATAAGATCCTGATTCAGACGCCA -GGTTCCCGGTATGAACAGAGCAATCCAGAGCAACAACCTTTGTGGCATTACGACGGAGCACCAGCCGCACCGACATCCAC -CGGTGAATTAAAAACGCCAGCTCACCCCGGTGACAAAGGTAAAACTCTCATTACGATCAATCATCGGGCTGTCGGTAATC -TCTTCCGGCAGCTCGCTGTATCCTGCGCTCGCCATCAATACGACGTGCTCTCCTATCGGGTATTTTGCCGTCAGGCTGAC -ATAGGGCACCCAGGCATCCTGCGCGGAATAACTTGCCAGACCGCTACGACGGGACTCACTCTCTGAAATGCCATAGTAAT -AGTCACTGAAATTCTCGTCATAATAGAGAACGCCCAGCGCAGGTGTCAGCGACAGACGACCTATCTGCATTTTGTGGAAT -ACCGATAGCTCCCCCACCCAGCCGTTGCTGTTATCCAGAACGTCCGCAGCTGCAGAGGCTTTCACGGTTCCCCAACGCTC -GTGGTGATACCAGGCAACCCCCGCCATAGCCGTACTATCACGCTTATCAAGCTGTTGCATGGCATAATCGTCATTATCGG -TAGGGTCAAATTCCAGCGGCATCCAGGATGCGGTCAGGCTAAGTTCATTTTTTTCACTTTGCGACAGAATAAAACCTAAC -GTGGTCTGACGAACATAAAAAGTATCACCTTCATAACTAATCAGCGGAATTGCCTTCGTATTTTCATTATAACCGCGATA -AGGCGATTCATTATAAGCCGCACCAGCACCAATGGATAATTCAGAAGCAGTTGCGCTTGCCATAAAAGGCAACGCAAATA -ACGCCACAATATTGCGATTAATTAACATGTCCGGTATTCCATTTTAAAATAAGATAAAAAAGAGTCGGCATAATAATGCT -TACAATTTCTCCGGTGCAAGATTCATATTTATATAGTAATATATAAAATTATATATAATTGGGCTGTTGCGATGACAAAA -TTACAACTTAAGTACCGGGAGTTAAAAATTATCTCGGTAATCGCTGCCAGTGAAAATATCAGCCATGCCGCGACTGTACT -TGGCATCGCACAGGCCAACGTCAGCAAATATCTTGCTGATTTTGAATCAAAAGTGGGTTTAAAAGTCTTTGACCGAACCA -CCCGGCAGCTGATGCTCACACCTTTTGGCACCGCGCTGTTACCGTACATCAACGACATGCTGGACAGAAACGAGCAACTT -AATAATTTTATTGCAGATTATAAGCATGAGAAACGTGGTCGGGTCACCATCTACGCCCCAACCGGCATAATTACCTATTT -ATCCAAACATGTAATCGATAAAATTAAAGATATCGGTGATATCACCTTATCGCTAAAAACCTGCAATCTTGAGCGTAATG -CCTTTTATGAAGGCGTCGAATTTCCTGATGATTGTGATGTTTTAATCAGCTACGCTCCACCAAAAGATGAATCGCTGGTT -GCCAGTTTTATTACCCAATATGCCGTAACCGCTTATGCCAGCCAGCGCTATCTTGAGAAACATCCCATTAGCCGTCCTGA -CGAACTCGAACATCACTCCTGTATTTTGATCGACTCGATGATGATCGACGACGCGAATATCTGGCGCTTCAACGTCGCCG -GGAGTAAAGAGGTGCGGGATTATCGCGTGAAGGGAAATTACGTTTGCGACAACACGCAATCTGCGCTGGAGCTGGCACGA -AATCACCTGGGGATTGTGTTTGCGCCAGACAAAAGTGTGCAGAGCGACCTGCAAGACGGCACGCTGGTGCCCTGCTTTCA -GCAACCCTATGAATGGTGGCTGGATCTGGTGGCTATCTTCCGTAAACGGGAATACCAGCCCTGGCGGGTCCAGTATGTGC -TGGATGAAATGCTGCGTGAAATTCGCCACCAGCTTGCTCAGTCGCAGCAACTGCGGCCTGAACAAGCGGCGGAAAGCGAA -GATTAATGATCGAGATAAAGGTAATGCACCCAGCTGGTCATGCGTAATAGCACTTTGCGCATCACCGAGACATGGCTGAA -ATGATCAGAGTAAACCGCCACCTGGGCGTAAATACCGTCTGGTAAAGCGCTCAAATCAGTGTGCTCATCCAGTTCAATGG -TCGCGATAACGCCATCTGAACCCGGCGCTGTGTTTAACGTCTGTAAGGTGCCGGTCGACTGATAAGCTCCGCCGGGAACG -GCTGGACTAATGGCTGCCAGCTTACCGCTGAATACCTTACCTGGCAGAGCATTAAACACCACTTCCGCATCGTCGCCAGG -AGCCAGTCGCAGCAAGGAGTTCTGACGGAACTGCGCCACGATTTGTCGTTTCTGATCGGGTATAAACACCATCACCGGAC -GTAGCGGCAGCGACGCGGCATAGGTACCCGGACGAATCAGTACCTGGGTCACATAACCATCGCTCGGCGCACGCACTATC -GTCTGCTCAAGGTTATATTTTGCTTCCGCGAGCTGTGCTTTCAGGCTGGCGATTTGAGAATGTTCACCCAACACCAGGCT -ATCCAGCTGGCTCTGGATCTGTTTTTGTTCCGCCGCCGATGACTTCACGGAGGCTTCCTGCGCCAGATAATTTTGCCGCG -CCACATCGATATCGCGTTCTGAAAACGGGTTTACTTTCGCCTGGCTGCCACGTGCGTAACGCTGATACTCTTTAGCGAAT -TTATCCCGCGTGGCCTTTGCCTGCTGAGTATTCGCCGCCATCTCATCTAACTCTGCGCCCAACGCCCGCTGTTTATGTTC -TGCGGTAACGATATCCGCCATCAGCCGATCCACCCGCGCCTGATAACGCGTCGGGTCCAGTCGAAATAGCACCTCACCTT -TTTTAATCAGCGTATTTTTCTTATCCGTCACTTCAATCACCACACCAGTCACCTGTGGGACAACAGGAATAGAAATAACC -GCTTTTTGCGCTTTAAAGGTATACGGATGGTTATAGTTCATTAACAGAATTAGACCGCTGACAATAAATATTCCACCCAG -GGCCGCTGTGGGAATGGTCCATTTATTTACGGGAATTTTGAAGATCTTAAACATTGCCCATGCAAAAGCCACATAGGTCA -AAATAATCAGTAAATCCATAAGTATTACTCGGCAGAAGAGGATTTGATGTCGGCGAGCTGTTTCTCCAGCCCGGCAATGC -GCTGTTGCAGTTGCATAACGGATGAATCATGGCTTTGCATTCCCCATCCCCGCTCCGGGCGGTAAAGCGTGGCCCAAATC -CACAAAAACGGCCAGATAACATGTAACGTAAAAAGACTCACCCAACCAGCAACATGAATGGCGTCGGCATGAGGATGATT -ACGTTTTTTGGCAATCAGGTAGGGAATATCATGTAAAATAATGATCCCATAGAAGATCACCAGAAATACAAAAATAAGCA -CTCCCAGTGCAAAATAGTCCAGGAACATATTTCCCTCAAAGAATATAAAAAAGAACAATTAACGCATATTATGAAATGCC -ATGATGCAGTGCAATTTCCTTATTTATATAACGACATATTGTTTTTTATATACTTTCTTAAATGTGCTGTCTGGTTTTTC -AACAGGACGAGGTTTATCATATTGAAATAGTGGAACTATTGGCCAAACTAATGAATAACTCCAGTAAAACATCCACAGTA -CAGATTAAGCGTATTAAACCTTCAATTATCTACCGTTTATTGCTGATTGGCCTCGGATCACCAATGGTGATTTACGGCCT -GGTTCGCCCGCTCACCATCGAAACGCGAGATTAAACTCCTGACAAAACACGCCCCAGAAACGTACTTCTGTTGGCGTAGT -CTGGGTTATTGCGCACGTAGGTTTAAAACGTAAATTGTAACAACGTGCGCTTTGTTTATGCCGGATGCGGCGTGTACGCC -TTATCCGGCCTACGGTCAGGTTCCCGTAGGCATGATAAGACGCGTAAGCGTCGCATCAGGCAATGAATACCCAATGCGAC -CAGCTTCTTATATCAGAACAGCCCCAACGGTTTATCCGAGTAGCTCACCAGCAGGCACTTGGTTTGCTGGTAATGCTCCA -GCATCATCTTGTGGGTTTCGCGACCGATACCTGATTGTTTGTAGCCACCAAACGCCGCATGTGCCGGGTAAGCGTGATAA -CAGTTGGTCCACACGCGCCCAGCCTGTATGCCGCGCCCCATCTTATAGGCCAGATTACCGTTGCGGCTCCAGACGCCCGC -GCCCAGGCCATATTGCGTATCGTTCGCCAGCTCCAGCGCTTCTTCCATCGTTTTGAAGGTGGTCACCGCCAGCACCGGGC -CAAAAATCTCCTCCTGGAACACCCGCATATTGTTCTGACCAAACAGAATCGTCGGTTCGAGGTAGTAGCCGTCTTTCAGT -TCACCTTCCAGCAGCTTGCGCCGCCCGCCTGTGAGCACGTCAGCGCCCTCTTTTTTACCGATATCAATGTAGTTGAGGAT -GGTTTCCAGTTGCCCGTGAGAAACCTGCGCGCCCATTTGCGTCACGCTGTCGAGCGGGTTACCGCTACGAATGCTTTCGA -CACGGCGGATGGCGCGTTCCATAAAGCGTTCGTAGATAGATTCCTGCACTAAAGCACGACTCGGACAGGTGCAAACTTCG -CCCTGGTTAAAGGCAAACAGTGCAAAGCCTTCCAGCGCTTTATCGAAAAAGGCATCTTCTTCATCCATCACATCAGCAAA -GAAGATATTTGGCGACTTACCGCCCAACTCCAGCGTCACCGGAATAATGTTTTGCGTTGCGTATTGCATAATTTGTTGGC -CCACTTCCGTTGAGCCGGTAAACGCCACTTTGGCGATGCGTTTCGAGGTCGCCAGATATTCGCCAATTACCCCACCTGCG -CCATTGACCACGTTCACCACGCCCGGCGGCAGTAAATCACCGACAATTTCCATTAGCAGCAGTACAGAAAGCGGGGTAAG -ACGTGCGGGTTTCAGCACCACACAGTTGCCCGCCGCCAGCGCGGGAGCCATTTTCCAGCTCGCCATCAGCAGCGGGAAGT -TCCACGGGATAATCTGCCCCACCACGCCTAACGGTTCATGGAAATGATAGGCCACGGTTTCGCTATCAACTTCACTGATC -CCACCTTCCTGCGCCCGAATACACGAGGCGAAATAGCGGAAATGGTCAATCGCCAGCGGTACATCCGCAGCACTGGTTTC -GCGAATGGGTTTGCCGTTATCCCAGGTTTCAGCTGTCGCTAACAGCTCGAGGTTTTGTTCCATTCGATCGGCAATCTTAA -ACAGAATCGCCGCACGATCCTGCACCGAGGTGTGCGCCCATTTATCTTTCACTTTGTGCGCAGCATCCAGCGCCAGATCG -ATGTCTCGTTTGCCCGAAGACGCCACTTCGCACAGCAGCTGCCCGGTCACCGGCGTCAGATTCTGGTAATACTCGCCGTC -GGCAGGGGCTACCCATTCGCCGCCAATAAAGTTGTCATAGCGGGCTTTTAACTTGAGGGGGAAACCATACTCGCCGGGCT -TAATCTGTGCTGAAGGGGGATTATTGGTCATGATCGTCTCCTTGCGGTGTGAGGTATAACAAGGGTAGACGTGACTGGCG -AAATCTTCGCCAGTCGGTAACAGCTTTACGACAGCTATCACGAATTTACGGGCAAGGGTTACAGAGATAGTTGAAAAAGC -GGCTAACAATTTGCCAGCCGTTGTGGAAATGATGATTACATCGCTGCGCGATAAATCGCCACAATTTCTTCGTGAGTTGC -CTGGATCGGGTTAGTAAAGCCACAGGCATCTTTCAGGGCATTAGTCGCCAATACCGCGAAATCTTCTTCTTTCACGTTCA -GGTCGCGTAGGCCTGCCGGGATATCCACTTTCTTCGCCAGTTCACGGATGGCGTTAATGCAGGCTTCAGCACCTTCCGCG -TCGTTTTTACCTGTCACGTTCACGCCCATTGCAGCGGCACAGTCACGCAGACGTGCAGCGGCGACTTTGCTGTTGAATAC -CTGAACGTGCGGCAGCAAAACGGCGTTACATACACCGTGTGGCAGGTTGTAGAAACCGCCCAGCTGGTGCGCCATCGCAT -GAACATAACCCAGAGAAGCATTATTGAACGCCATACCGGCGAGGAACTGGGCATAAGCCATTGCTTCACGCGCTTTCGCA -TTACTGCCATCTTCAACGGCTAACGGCAGGTTTTCGGCAATCATGGTCACGGCTTTCAGTGCACAAGCGTCAGTGATCGG -CGTGGCGGCAATAGAAACATATGCTTCGATAGCGTGCGTTAAGGCATCCATACCCGTTGCGGCGGTCAGTGACTTCGGCA -TACCAATCATCAGAGAGGAGTCATTGACAGAAAGCAGCGGAGTGACATGTTTATCAACAATCGCCATTTTGATATGACGC -GCTTCGTCAGTGATGATGCAGAAACGGGTCATTTCAGAGGCCGTACCCGCCGTGGTATTGATGGCGATCATCGGCAGCTG -CGGTTTTGCAGAGCGGTCAACGCCTTCGTAATCGCGAATATCGCCGCCATTGGCTGCCACCAGCGCAATACCTTTTGCGC -AGTCGTGTGGAGAACCACCGCCTAAGGAGATCACGCTATCGCAATTATTCTCTTTAAGTAATTTCAAACCTGCGGCGACG -TTTTCCGTGGTGGGGTTAGGTTGGGTGCCATCATAAATAACGCTAAAAATATTGCGTTCTTCCAGTGCTTTTTGCACATC -GCCCGCCATACCTAATTTCGTTAACATATTGTCAGTGACAATTAAGGTACGGGTAAATCCATAATCTGCCATCATATTCA -TTGCATCAGTCAATGAATCAGCGCCGATGACATTCACAGAAGGAATAAAGAACGTTGAAGCTGCCATAACACACTCCTGA -AAGTGTAAAAAAGGGCGGGCAGCTTACTGAGGATTTTCATTCGAAAATATGATCAGTATTATTGATTATCAAAATTAATC -TAATAAAAAGCACATTGTATTCATTAAACAATGTGCTTTTTTTAAATTCATAAGAATTTTGTATTAATTTATTTTAAAAC -TTAATTAATCATTTCCTTATTTTTCCGGAAATAATAATGCGTCGCGCAATAAATGATCATTTCCACGACGACGCGTAAAG -CCAATGCGGTCAAAATATTCCAGAATCTGAATTGCCAGCTTTCGGCCTACGCCTAAGCGATCGCGGAAATCCGCCGCGCA -GGTTGAACCACACTCCTGATCGAGATCGCGGATCATATTGGCAAACTCGACAATCCGATCGTTACGGTAATAACGATCTT -TAACGATCGCGGTAATTATTCCTTGCTGCGCCGCCTGGCGTAGAGTCAGGCGCATTGCCTGCTCGTCGGTTCCCGTCTCT -TTTGCCAGGTCACGCACCCACCACGGTTCGTCACCAAACAGTGGCTCTGCTTTTTGCCAGATGGCCTGCTGCTCTTCGCT -GAAGCCCGCTTTGTGATCTGGCAGATGCAGCCAGCCGTGATGGCTGTGGATGTCGCCGCTTTCGCGCATCTTTTCAATCA -GCAACAGTACCAGCGCTTCATCTTCCATTGGCAACGCCATACGTCGCAGACGTTCGCGCCCAGGGCCAGGTTCATCGCGA -TGTTGCTCATGATAAGTCGCTAATGTGTCGAGAATTTTCCGCTGCCAGCGGGCGGCAACCGGCGCATTCAACAAGCTATA -ACCAGCCTGAATATAACCAGGCTGTTGCAGCAATTCGCGCATCCCTTCGCCGTTGAGCTGGCGCGCCCAGGCGAAATCCG -CAAGGTTAACCGCGCCGCGTTCCAGATGAACAGATAACGCATCGGCATCGCTCTGCGCCCGTGCAAGAGACGCCAGCCAT -TGCAGATATTCCGGCTTACGTTTACCGCGACGCGGCGGGTTAAGCATCACGACGCGCGCTCCGGCCAGCGTGTTGCGGGC -AGAGATATCGCGCAATACCAGGCGGTCGTTATCTGCCAGCCATAACGGGGTGTCGAAGACCAGTTCAGCAAGGTTATCTT -CCAGCAGTGAAACGCGTCCCGTGACGTGGCTGGCGGCGTGGTGAATATGCAGCGGCTGCCACTGGGTCAGCGGTGTATGG -GTTTGAAGCTCGACAATCACCCGTGTGAACGGCTCTGGCGGCACATCGGCAAGCAGCCAGTCGCCACGGTTAATCTGCTC -TTTTTCCGCATCACCCGCGATGTTAAGCGCGATACGCTGCCCGGCATTGGCGGTTTCTGTTGGCTGGTTTTGCGCATGCA -GCGCACGTACACGCATCGGTTTATTTACACCAGTCAGCCAGAGTGAATCGCCTACCTTCACTTCCCCGCTTAACGCCGTA -CCGGTGACGACCAGCCCGGCACCTTTTACGGTAAATGCGCGGTCAATCGCGAGGCGGAAACTATGTTGGCTGGCGTGCTC -GCGTTCCGGCAACTGAAGCAGATGCTCGCGCAGGGCATCCATTCCCCGACCTTCGGTTGCTGCGGTGATAAACAGTTTTG -CCTCAGCAAAACCGTATTCCCGCAGAACCTCCTTTACCTGGCGTTCAACCTCATCAACACGCGCTTCGTCCACGCGATCG -GCTTTGGTCAGCGCCACTGTCAGCATCGGGTTACCGGTCAGCTGCAAAATCGCCAGATGCTCACGGGTCTGTGCCATCAC -GCCGTCATCGCACGCCACCACCAACAGCGCGTGATCGATACCACCAACGCCCGCCAGCATGTTGGAAAGAAACTTTTCAT -GACCGGGAACGTCGATAAAACCAGGCACGCGACCATCCGGCTGCGGCCAGTAGGCATAGCCGAGATCGATGGTCATGCCG -CGCTTTTTTTCTTCCGGCAGACGGTCAGCATTTACGCCAGTAATCGCCTGCAATAAGGTTGTTTTGCCGTGGTCAACGTG -TCCGGCAGTCGCAATAATCATTTCAACAACATCTCCAAAAACCGTTGCTCATCTTCAAGGCAGCGTAAATCCAGCCACAA -TCGTCCGTCATAAATACGACCAATCACCGGCACTGGCAATTCACGCCAGCGGGCGGCTAATGACTCAAGGTGGCTACCGC -GTCCATCATGGGGTGTAAACGTTAATGCCGCGCTCGGCAGGCGATCAACCGGCAGCGAACCACTGCCAATCTGCGAAAGA -CATGGCATAACCTGTACCGCAAACTCCGCGCCGTAATGTGCGGCAAGGGGGGCCTGTAAACGTTGTGCCTGGATTTGAAT -GACCTCTGCGCTGCGGGTAAGCAGGCGCAGGGTCGGTAATTTTTCACTCAGAGCTTCAGGGTGTAAATAAAGACGCAACG -TGGCTTCCAGCGCCGCGAGGGTCATTTTATCCGCGCGTAATGCACGCTTCAGCGGGTGGCTTTGCAGGCGGGCGATCATC -TCTTTTTTACCAACAATAATTCCTGCCTGCGGCCCGCCTAACAACTTGTCGCCGGAGAAACTCACCAGACTGACGCCCGC -CGCAATCAACTCCTGCGGCATTGGCTCTTTCGGCAAACCGTACTGGCTAAGATCGACCAGCGAGCCACTGCCTAAATCAG -TCACTACGGGAACATCCAGCTCTTTGCCGAGCGCCACCAGTTCCGCTTCATCTATCGCTTTGGTGAACCCCTGAATGCTG -TAGTTACTGGTATGTACTTTCATCAACAGTGCGGTATTTTCATTCACCGCCTGACGATAATCATTCGCGTGCGTGCGGTT -GGTGGTCCCTACTTCGTGTAGGGTGCAGCCTGCCTGACGCATAACATCGGGAATACGAAACGCGCCGCCAATCTCCACCA -GTTCGCCGCGAGATACCACCACCTCTTTTCCGCTGGCAGTGGCCGCCAACATCAATAACACCGCCGCCGCATTGTTATTG -ACGATACAGGCATCTTCCGCCCCCGTAATACGGCACAGCAGCTGCGCCAGCGCCCGATCGCGATGTCCGCGTCCGGCGTC -GTCCAGATCATACTCGAGGGTCACTGGCGAACGCATAGCCTGCGCAACGGCTTCCACCGCGGCTTCCGCCTGTAAAGCTC -GCCCAAGGTTGGTATGCAGCACGGTTCCCGTCAGGTTGATCACCGGACGCAGCGCGCTCTGCGCTTCTTTCGTCAACCGG -GCATCGACTTCTTGCGCCCAGTTTTCACACCACGCAGGCAGCGTCTGGCTGCCACGAATCACTTCTCGCGCTTCGTCGAG -CATCTGACGCAACAATTCCACCACGCGGGTGTGACCATAAGTATCACGCAAAGAAAGGAAGGAGCTATCGCGCAATAAGC -GATCAATAGCCGGAAGTTGACTATAGAGGAAACGCGTTTCGGTTGTCATAGGAAACCTGGCTGATCAAGGCCCTCTCACA -CGGAGAAGGGCGTTTAACATAACCACGGATTGTAACGTGAGATGGGTCAGGAGGACATATCGCGCATCAAGCCTTTGGCG -GTTCGGTGCGAGCAAAACTTTCGCGGCTAAACAGGTTTTCGACCAGTTTGACTAAGTGTGGGCGGTCGACACACCAACCT -GGCGCAACGCGGCGGAAATTGAGATATCCGACGGCACAGGCAATGGCGATAGTCGCCAGATTGACCGTATCGGTTTTGAG -TGTGCCATCGACCAGATATCCTTCCAGCACATCCAGACTGCGGTTGATTTTCTCCCGCTGGCGTAACAATTCATCTTCAG -ACTGCTGCGCCGCTGGACGCGCCTGTTCACGCACCGATACCAGCCCGGCATCCATAATGCCATCCGCCAGTGCCTCAATT -TTGCGCACCCGCAACGACTCCAGCGGATCGCGCGGCAACATCGCCGGAGCGACATTCATTAATTCAATATATTCAGCGAT -GATCGGCGAATCAAACCAGCATTCGCCCTCTTCGGTCACCAGCACCGGCACTTTTCCTAACGGGTTAAATTGCGCCACGC -CGTTGTCCGCGTTATAGGGCAGTTCATTAATAAATTCGAAAGTTATGCCCTTTTCTAACAACAGAATAGAAAGTTTGCGT -ACAAACGGGCTGGTGTAGCTACCGACGAGTTTCATGCCGAGTCCTTTGTGCGAGGAAAAATATCAGTATGGCCTGGTGAT -GGGAAAAAGGGCAGAAAATGTTGATGGTTTGTTACTTCCAAATAAATCACATATTTATCATGGTGATATAAATATTTTCC -TAATTATTTCACTCTGATGGATATCTCACTTCAGGCTTTCTTATAAATCTGTAGGGTTTCGCCTGTCAGCAGACAAATAA -CCCGATAAAACAAGGATGAGAAATGAGCGGAAAACCGGCAGCGCGTCAGGGCGACATGACGCAGTATGGCGGTAGCATTG -TTCAGGGTTCAGCCGGGGTGCGCATTGGTGCCCCCACCGGCGTGGCCTGTTCGGTGTGCCCCGGCGGAGTGACGTCCGGC -CATCCGGTCAATCCCCTGCTCGGTGCAAAGGTCCTTCCCGGTGAAACCGACATCGCCCTGCCCGGCCCGCTGCCGTTCAT -CCTCTCCCGCACCTACAGCAGTTACCGGACAAAAACGCCCGCGCCGGTGGGGAGCCTCGGCCCCGGCTGGAAAATGCCTG -CGGATATCCGCTTACAGCTGCGCGATAACACACTGATACTCAGTGATAACGGCGGCAGAAGCCTGTATTTTGAGCACCTG -TTTCCCGGTGAGGACGGTTACAGCCGCAGCGAGTCACTGTGGCTGGTGCGCGGCGGCGTGGCGAAACTGGATGAAGGTCA -CCGGCTGGCCGCACTCTGGCAGGCGCTGCCGGAAGAACTCCGCTTAAGTCCGCATCGTTATCTGGCGACAAACAGTCCGC -AGGGGCCGTGGTGGCTGCTCGGTTGGTGTGAGCGGGTGCCGGAAGCGGATGAGGTGCTGCCTGCGCCGCTGCCGCCGTAC -CGGGTACTGACCGGGCTGGTGGACCGCTTCGGGCGCACACAGACGTTCCACCGCGAAGCCGCCGGTGAATTCAGCGGCGA -AATCACCGGCGTGACGGATGGTGCCTGGCGTCACTTCCGGCTGGTACTGACCACGCAGGCGCAGCGGGCAGAAGAAGCCC -GGCAGCAGGCCATTTCCGGCGGGACGGAACCGTCCGCTTTTCCTGATACCCTGCCGGGTTACACCGAATATGGCCGGGAC -AACGGCATCCGTCTGTCTGCCGTGTGGCTGACGCACGACCCGGAATACCCGGAGAATTTACCTGCCGCGCCGCTGGTGCG -CTATGGCTGGACGCCCCGCGGCGAACTGGCGGTGGTGTATGACCGTAGTGGCAAACAGGTGCGCAGCTTTACTTACGATG -ATAAATACCGGGGCCGGATGGTGGCGCACCGTCACACGGGCCGGCCGGAAATCCGTTACCGTTACGACAGCGACGGGCGG -GTGACAGAACAGCTAAACCCGGCAGGCTTAAGCTACACGTATCAGTATGAGAAAGACCGCATCACCATCACCGACAGCCT -GGACCGCCGTGAAGTGCTGCACACGCAGGGCGAAGCCGGGCTGAAGCGGGTGGTGAAAAAGGAACACGCGGACGGCAGCG -TCACGCAGAGTCAGTTTGACGCCGTGGGCAGGCTCAGGGCACAGACGGATGCCGCAGGCAGGACAACAGAGTACAGCCCG -GATGTGGTGACGGGCCTCATCACGCGCATAACCACGCCGGATGGCAGGGCATCGGCGTTTTACTATAACCACCACAACCA -GTTAACGTCAGCCACCGGGCCTGACGGGCTGGAATTGCGCCGGGAATATGATGAATTGGGCCGTCTGATTCAGGAAACTG -CCCCTGACGGCGATATCACCCGCTACCGTTATGATAATCCACACAGTGACTTACCCTGCGCAACGGAAGATGCCACCGGC -AGCCGGAAAACCATGACGTGGAGCCGTTACGGTCAGTTGCTGAGCTTCACCGACTGTTCCGGTTATGTAACCCGTTATGA -CCATGACCGCTTCGGGCAGATGACGGCGGTGCACCGCGAGGAAGGGCTGAGTCAGTACCGCGCATACGACAGCCGTGGAC -AGTTAATTGCCGTGAAAGACACGCAGGGCCATGAAACGCGGTATGAATACAACATCGCCGGTGACCTGACCGCCGTCATT -GCCCCGGACGGCAGCAGAAACGGGACACAGTACGATGCGTGGGGAAAGGCCGTCCGTACCACGCAGGGCGGGCTGACGCG -CAGTATGGAATACGATGCTGCCGGACGGGTCATCCGCCTGACCAGTGAAAACGGCAGCCACACCACCTTCCGTTACGATG -TACTTGACCGGCTGATACAGGAAACCGGCTTTGACGGCCGCACACAGCGTTATCACCACGACCTGACCGGCAAACTTATC -CGCAGCGAGGATGAGGGTCTGGTCACCCACTGGCACTATGACGAAGCAGACCGCCTCACGCACCGCACCGTGAAGGGTGA -AACCGCAGAGCGGTGGCAGTATGACGAACGTGGCTGGCTGACAGACATCAGCCATATCAGCGAAGGGCACCGGGTGGCGG -TGCATTACAGGTATGATGAGAAAGGCCGGCTGACCGGTGAGCGTCAGACGGTGCATCACCCGCAGACGGAAGCACTGCTC -TGGCAGCATGAGACCAGACATGCGTACAACGCGCAGGGGCTGGCGAACCGCTGTATACCGGACAGCCTGCCCGCCGTGGA -ATGGCTGACCTACGGCAGCGGTTACCTGGCAGGCATGAAACTCGGCGACACACCGCTGGTGGAGTACACCCGCGACCGCC -TGCACCGGGAAACGCTGCGCAGCTTCGGCCGTTATGAACTCACCACCGCTTATACCCCTGCCGGGCAGTTACAGAGCCAG -CACCTGAACAGCCTGCTGTCTGACCGCGATTACACCTGGAACGACAACGGCGAACTCATCCGCATCAGCAGCCCGCGCCA -GACCCGGAGTTACAGCTACAGCACCACCGGCAGGCTGACCGGCGTTCACACCACCGCAGCGAATCTGGATATCCGCATCC -CGTATGCCACAGACCCGGCAGGTAACCGCCTGCCCGACCCGGAGCTGCACCCGGACAGCACCCTCAGCATGTGGCCGGAT -AACCGTATCGCCCGTGACGCGCACTATCTTTACCGGTATGACCGTCACGGCAGGCTGACAGAGAAAACCGACCTCATCCC -GGAAGGGGTTATCCGCACGGATGATGAGCGGACTCACCGGTACCATTACGACAGTCAGCACCGGCTGGTGCACTACACGC -GGACACAATATGAAGAGCCGCTGGTCGAAAGTCGCTATCTTTACGACCCGCTGGGCCGCAGGGTGGCAAAACGGGTGTGG -CGGCGTGAACGGGACCTGACGGGCTGGATGTCGCTGTCACGGAAACCGCAAGTGACCTGGTACGGCTGGGACGGCGACCG -GCTGACCACAATACAGAACGACAGAACCCGCATCCAGACGATTTATCAGCCGGGGAGCTTCACGCCACTCATCAGAGTTG -AAACCGCCACCGGTGAGCTGGCGAAAACGCAGCGCCGCAGCCTGGCGGATGCGCTTCAGCAGTCCGGCGGCGAAGACGGT -GGCAGTGTGGTGTTCCCGCCGGTGCTGGTGCAGATGCTCGACCGGCTGGAAAGTGAAATCCTGGCTGACCGGGTGAGTGA -GGAAAGCCGCCGCTGGCTGGCATCGTGCGGCCTGACCGTGGAGCAGATGCAAAACCAGATGGACCCGGTGTACACGCCGG -CGCGAAAAATCCACCTGTACCACTGCGACCATCGCGGCCTGCCGCTGGCCCTTATCAGCAAGGAAGGGACAACAGAATGG -TGCGCAGAATACGATGAATGGGGCAACCTGCTGAATGAAGAGAACCCGCATCAGCTGCAGCAGCTTATCCGCCTGCCGGG -GCAGCAGTATGATGAGGAGTCCGGCCTGTATTACAACCGCCACCGCTATTATGACCCGCTGCAGGGGCGGTATATCACTC -AGGATCCGATTGGGCTGAAGGGGGGATGGAATTTTTATCAGTATCCGTTGAATCCAGTTACGAATACAGATCCTCTGGGG -TTAGAAGTTTTTCCTAGACCATTCCCCTTGCCAATTCCATGGCCCAAAAGCCCTGCACAGCAGCAAGCAGATGATAATGC -TGCAAAAGCATTGACAAAATGGTGGAACGATACAGCATCACAAAGAATATTTGACTCTCTAATATTGAATAATCCGGGAC -TAGCATTAGATATAACAATGATAGCTTCTCGTGGAAATGTTGCAGACACAGGGATAACTGATCGTGTCAATGACATAATA -AATGACAGATTCTGGAGTGATGGGAAAAAACCCGACAGATGTGACGTACTTCAGGAACTAATTGATTGTGGTGATATTAG -TGCTAAAGATGCAAAAAGCACACAGAAAGCCTGGAATTGTCGTCACTCCAGACAGTCAAACGATAAAAAAAGATAGCCCT -TGTGGAGGTTCCTGCAATGTCAAATACATACCAGAAAAGAAAGGCAAGTAAAGAGTATGGTTTATATAATCAATGTAAGA -AACTAAATGATGATGAATTATTTCGCTTACTTGATGATCACAATTCCTTGAAAAGGATTTCATCTGCCAGAGTATTACAG -TTAAGAGGTGGGCAAGACGCTGTTAGATTGGCAATTGAGTTCTGCTCTGATAAAAATTATATCCGTAGAGATATCGGAGC -ATTTATACTCGGGCAAATAAAAATTTGCAAAAAATGCGAAGATAATGTTTTTAATATTTTGAACAATATGGCATTGAATG -ATAAGAGCGCTTGCGTTCGAGCTACGGCAATCGAGTCAACGGCTCAGCGATGCAAGAAAAACCCAATTTATTCACCTAAA -ATAGTAGAACAATCTCAAATTACTGCTTTTGATAAATCGACTAATGTCAGACGTGCTACAGCATTTGCTATTTCTGTTAT -CAATGATAAAGCAACAATTCCACTATTGATTAATCTGTTAAAAGATCCAAATGGAGATGTCAGAAACTGGGCCGCATTTG -CAATAAATATCAATAAATATGATAATAGTGATATTAGGGATTGTTTTGTGGAGATGCTTCAGGATAAAAATGAGGAAGTC -CGTATTGAAGCAATAATCGGACTTTCCTACAGAAAAGATAAAAGGGTTTTATCTGTTTTATGCGATGAGTTAAAAAAAAA -TACTGTTTATGATGATATCATTGAAGCTGCGGGTGAATTAGGTGATAAAACGCTACTTCCTGTTTTAGATACTATGTTGT -ACAAGTTTGATGACAATGAAATTATAACTTCCGCTATTGATAAGCTGAAGCGTTCATAGCGTGAGTTGCCTATGCACAGT -GGGGGATTCCCGCCGGCACGGTGCAGATGCTCGACCGGCTGGAAAGTGAAATCCTGGCTGACCGGGTGAGTGAGGAAAGC -CGCCGCTGGCTGGCATCGTGCGGCCTGACCGTGGAGCAGATGAAAAACCAGATGGACCCGGTGTACACGCCGGCGCGAAA -AATCCACCTGTACCACTGCGACCATCGCGGCCTGCCGCTGGCGCTCATCAGCACGGAAGGGGCAACAGCGTGGTGCGCAG -AATATGATGAATGGGGCAACCTGCTGAGTGATGAGAACCCGCATCATCTGCAGCAGCTCATTCGCCTGCCGGGTCAGCAG -TATGATGAGGAGTCCGGCCTGTATTACAACCGCCACCGCTATTATGACCCGCTGCTGGGGCGGTATATCACTCAGGATCC -GATTGGACTGAAGGGGGGATGGAATTTTTATCAGTATCCGTTGAATCCGGTCATAAATGTAGATCCGCAAGGTTTGGTTG -ATATAAATTTATACCCCGAAAGTGATCTTATCCATTCTGTAGCTGATGAGATTAATATCCCAGGCGTTTTCACAATCGGG -GGGCATGGTACCCCCACATCTATTGAATCCGCAACGCGCAGTATCATGACAGCTAAAGATCTAGCATATCTAATTAAATT -TGATGGGAATTATAAAGATGGGATGACAGTTTGGTTATTTTCTTGTAATACAGGTAAAGGACAAAATTCATTTGCTAGCT -AATTAGCTAAAGAGTTACATACAAATGTAATAGGACCTGACACGCTATGGACGTGGTGGGGGCGAGGAACTAATGGTAAG -TTAAAAATGGATACAGTGCTAACAGCACCAACGAACCTTAATTCAAATAAGGATCTAATGGCTATAACAACAAAAGACCT -TGGTAATTGGATAACATATGGGCCATCTGGGCACCCCATTTCTAATATGCAAGGTACGCCAGAAAAACCCAGTGATATAA -GATAGGTTGTAGATGTATGAAAGCATGCTTGTTACTATTTTTTTATTTCTCTTTTATTTGTCAATTGCATGGTGCTGATG -TGAAAATAAAACAAAACGAAAGTATGATGGGGTCTACAGCAATGACCTATGATTTAAGTGAAGAAAAGTTGATGAAACTG -AAGTATAAATCACAACATGGTGATTCAGAGGCATCATTTCGACTATATCAATATTACTGCTTTACTAAAAATAACATTTA -CAAACAATTGCGATTCTTGGAAAGATCAGCATCTCAGGGGAATGTTACAGCGCAGTTTAATTATGGGGTCTTTTTATCAG -ATACAAATCCAACATTATCAGAATATTATAATTTGAATAGAGCTATTTATTGGATGGAATTCGCTGTAAATAACGGTAAT -ATTGATGCAAAGAGCAAACTTCAAGAGCTCAAAAAGCTAAAGCGAATGGATAGAAGGAAGAATAAGGAGAATCCGTAAAA -GCAATAGTTCATCAGACTGCCGCAGCAGTAGTATGATGATGAATCAGGGCTGTACTATAACTATTATCGGTAACATTAAC -CGCAGCAGGGGCGGTATAACACTCAGGCTCCGATTGGGCTGGAAGGTAGGTGGAATTTTTATCAGTATCCGTTGAACCCG -ATTTCTGGAATCGATCCCCTTGGGATTAGCCACCTGTTTATACAGCATAACTTTAGGTATGCTTTCGTGTGTTTCAGATA -TACCATGTGATGATAATTTTTATGATGTGCTTAGTATTCCAGTCGCTTCTGGTAATAATATGCAATGTAAAAATAATCCC -CGTTGTACACATTTATAAATAGATGGCCAATACCTCAAGGCCTATGGAGTTGGAATGTTAATGACCCGGGAGCAAGCAAT -AGAAAACCTGACGGCATACGATTAGTACCGTCAGTTAATACAGGAACTTATAATCGCAATGGATTTTCAATACATAGTTG -TTTAAACGCTTTTGGTCCGTCTTTAGGACCTCGATTCTGTTCCGAGGGTTGTATAACTGGTTTATCTAATGACATGCAAA -AATTAAATGAGTTAATATTTTCAGAGCCAGATAGCACATTAACAGTTACGGACTAAAAAATATGGCAAGGTTATTAACAA -TTGTATTTTTTTCTCTATTTCTGCGAGTGCAGTTACTGCAAGACAATTTCAGAGAGAGTTAGATTTGGCAGACAAAGCAA -TATTATGGGCACTAATATCAGCCAGTACTAAAGAGGGACGAAAAGCGTGTTCACTAAGCTATTTTGCCTGTAAGGCCGCA -GAGGCTGAACTCGGACTGGCATATATGGCTGCGAATGATAACAAGGAATTTCTCACATCCTTATCTAATATAATGAGGTA -CAAAATAGATGCTGGACTTTCCGAATCCTATACATGCTATTTATTAAGTAAGGGAAAGATCATAAGACCATATCTGAAAA -ATCTAAATCCACTCCAACTTGCCGCTGATTGCATTGAAACAGTAAATAAAATAAAAGATAAGAATAAAAAAAATCATTGA -TATAAATTCAGTTAATATTTGTAGTGATGATAAAAATATAAAATTGAGAGTTAATAGTACTATTATGGCCATTGATGATT -CTATAAAGTGCATCGATGAATGATAACTTAATTTTATTTAAAAATATATTAATAACTCACTCTCCAGGAGTTTTTTTAAC -TTAGTTTTATAATGAATACGATAATTAAAAGTGAAGAAGAAAATAGTTGTATACATATATTCCATGACCCTACATTGTGA -TCTATAGATTAAATATTTTTTAAATGTGACTGTCATCCTTCAGATAATAAAGCCATCATCGCAATAGATGGAAAAGCACT -CCTGCTCTTTTTTGATTAGAGCCGTCGCAGGAGGAACAACTCATATCATCATTGCGATCTCGACGATGTATAGTCTCATC -CTGCGGCAGAACAAGACGGATAAAAAATCCAATGAGAGCACACTCATCCAGAACTTATTAACATAATGAATATTAAAGAA -AAATCATCGAAGCTAATGAAGTAATATGCAAAAATAATTAGTCCTTACAAGGAGCAAAGTTCCATAATCTCCCCCCTCCC -CCTCAATGATCCAAATAAAGATAATGCATCCAGCTGGTCATTCTTAGCAGCACTTTCCGCATCACCGAAACATGGCTGAA -ATGGTCGGAGTAAACCGCCACCTGGGCGTAGATGCCGTCGGGTAAGGCATCGATATCATCGTTAGGGTCCAGTTCAATGG -TTCCCAGCACACCGTCCGTGCCGGGCACGACCGTTAATGATTGCAATACCCCCTGCGCCTGATAAGAACCGCCTGGCACG -ACAGGTAAAATACTAGTCAGTTTGCCGTGAAACACCTGCCCAGGTAGCGCGTTAAACACCACTTCCGCATCATCGCCAGG -TTTCAGACGTAACAGCGAGTTTTGCCGAAATTGGGCGACAATTTGCCGTTTTTGCTCGGGGATGAAGACCATCACCGGAC -GCAGCGGCAAGGCAGCTGCGTATGTACCTGGGCGGATCAGTACCTGAGTAACGTAGCCATTGCTCGGCGCGCGAATGACA -GTCTGCTCAAGGTTATATTTTGCTTCAGTAAGTTGCGCTCTTAAGCTCACAATCTGCGATTGCTCGCCGTTAACCATACT -GTCGAGCTGGCTCTGGATCTGCGCCTGCTCCGCCACCGAGCCTTTCACCAGCGCATCCTGCGCGAGGAAATTTTGCCGCG -CATCGTCGATGTCACGTTCCGAGAACGGATTCACCGCCGCCTGGCTGCCTTTCAAGTAACGTTGATAATTTTTAAACAGA -CGGTCGCGCTCCGCTGAAACCTGGGTGGTGTTGGCCTGCGCTTCAGTGAGCTGCGCACGCAGCGTCTTTATATTATGCGT -CGCCGTCATCAGGTCAGCCTGAAGTCTGTCAACTCGCGCCTGGTAACGAACCGGGTCGAGCTTAAAAAGCACCTCGCCCT -TTTGAATAAGCTGATTATTCTTGTCAGTGACTTCAGTAACAATTCCCGTCACCTGTGGCGTGATAGGGATCGCTATCACT -GCCTTTTGCGCGGTAAAAGTGTAAGGGTGGTTGTAGTTCATCAACAAAATCAAACCACTCACCAGAAACACGCCTCCCAG -CGCCGCCGTCGCCAGCGTCCACTGATTTACCGGAATGCGGAAGATTTTAAAGACCGCCCACGCCAGCGCCACGTAAGTTA -AAACAATCAATAGATCCATAATTAGATCTCCGGGAACGTGGAATAGTCAGTCTTTTTCTCGGCGGCGAGTTGATGCTCCA -GCCGGGAAATTCGGTCAGAAAGTGCGGCGATTTCCGGGTCAGTCGCTTTCTCCTGCGACGCAACATGTGACTGCATACCC -CAGCCACGCTCCGGTTGATAGAGCGTCGCCCAGATCCACAGAAACGGCCAGATAACATGCAGAGTAAACAGGCTCACCCA -GCCCGCCGTATGAATAGCGTCGGCATGGGGATGGTTGCGCTTTTTGGCAATCAGATAAGGGATGTCATGTATCGCGATGA -TTCCATAAAAAATCACCAGAAAGACGAAGATCAGCACTCCCAACGCGAAATAGTTTAGAAACATATCTGCCTCGGATTCA -CGTTTATCAGTGTTGTTTTTGGGCTGGCAGCCAGAAGGGAGTCAGGCTGATATTTTGACAATAATCCGGGTTCGCGATTC -TCGCCATAACACCAAAGAATAATTTTTAGAGGTGATGAGTTGCTTAGTTACATAACGATTGTATGACGAAGGCATAACAT -GCTGTAGATCACATCAGGTGAACGCCGTAAGAAAATATCTTGTGATTCAGATCACAAATATTCAACAAACCATCAAAACA -AAAATGTGACACTACTCACATTTAAATGCCATTTTTAGCGAAAATCGCCGCCTTGTTGCTTTTTTACACAAGCGTTTTGT -GATGAACGTCACGTCAATTACCTCTCTACCCCCTATATTTATGTGATTGATATCACACAAAAGGCCGTCGACTGGACAGT -TAACCGATTCAGTGCCAGATTTCGCAGTATCTACAAGGTCCGGCTACCTCTGCCGCCACATTAACAAAAAACCTCGGGCT -TCCAGCCTGCGCGACAGCAAACATAAGAAGGGGTGTTTTTATGTCATCCGATATTAAGATCAAAGTGCAAAGCTTTGGTC -GTTTCCTCAGCAACATGGTGATGCCAAATATCGGCGCGTTTATCGCGTGGGGTATCATCACCGCGTTATTTATTCCAACA -GGGTGGTTACCGAACGAGACGCTGGCGAAGCTGGTCGGGCCGATGATCACTTATCTCCTGCCGCTGCTGATCGGTTATAC -CGGTGGTAAGCTGGTAGGCGGCGAACGTGGCGGCGTAGTCGGTGCCATCACCACCATGGGCGTTATCGTCGGCGCAGACA -TGCCGATGTTCCTCGGTTCTATGATTGCAGGTCCGCTGGGCGGCTGGTGCATTAAGCACTTCGACCGCTGGGTAGACGGT -AAGATCAAATCCGGTTTTGAGATGCTGGTGAATAACTTCTCCGCAGGCATCATCGGGATGATCCTCGCTATTCTGGCATT -CCTCGGCATTGGCCCGATTGTTGAAGCCCTGTCCAAAATGCTGGCTGCGGGCGTTAACTTCATGGTTGTCCATGACATGC -TGCCGCTGGCGTCTATCTTTGTTGAACCGGCGAAAATCCTGTTCCTCAACAACGCCATTAACCACGGTATCTTCTCGCCG -CTGGGTATTCAGCAGTCCCATGAACTGGGTAAATCAATCTTCTTCCTGATTGAAGCTAACCCAGGTCCAGGTATGGGCGT -GCTGCTGGCGTACATGTTCTTTGGTCGTGGTAGCGCTAAACAGTCTGCGGGCGGTGCGGCAATCATCCACTTCCTGGGGG -GTATCCACGAAATCTACTTCCCGTATGTGCTGATGAATCCGCGTCTGATCCTCGCAGTCATCCTCGGCGGTATGACTGGC -GTGTTCACGCTGACTATCCTGGGCGGTGGTCTGGTTTCTCCGGCATCTCCGGGTTCTATCCTTGCTGTACTGGCGATGAC -ACCAAAAGGTGCTTACTTCGCTAACATCGCGGGTGTGTGTGCGGCGATGGCTGTCTCCTTCGTTGTCTCTGCTATTTTGC -TGAAAACCAGCAAAGTGAAAGAAGAAGATGATATTGAAGCAGCAACTCGTCGTATGCAGGACATGAAAGCTGAGTCTAAA -GGCGCATCTCCGCTGTCTGCTGGCGATGTGACTAACGACCTGAGCCACGTACGTAAAATCATCGTTGCCTGTGACGCCGG -TATGGGTTCCAGTGCGATGGGCGCAGGCGTTCTGCGTAAGAAAATTCAGGATGCAGGTCTGTCGCAGATTTCTGTTACTA -ACAGCGCGATCAACAACCTGCCGCCAGATGTGGACCTCGTCATCACTCACCGTGACCTGACCGAACGCGCTATGCGCCAG -GTTCCGCAGGCACAGCATATTTCGCTGACCAACTTCCTCGACAGCGGCCTGTACACCAGCCTGACCGAACGTCTGGTTGC -TGCCCAACGCCACACGGCAAACGAAGAGAAAGTAAAAGACAGCCTGAAAGACAGCTTTGACGATTCCAGTGCTAACCTGT -TCAAGCTAGGCGCGGAGAACATCTTCCTCGGTCGCAAAGCGGCAACCAAAGAAGAAGCGATTCGTTTTGCTGGCGAGCAG -CTGGTGAAAGGCGGTTACGTTGAGCCGGAATACGTTCAGGCGATGCTGGATCGTGAAAAACTGACCCCGACTTATCTGGG -TGAGTCTATCGCGGTGCCACACGGTACGGTTGAAGCGAAAGATCGCGTACTGAAAACGGGCGTCGTGTTCTGCCAGTACC -CGGAAGGCGTGCGCTTCGGTGAAGAAGAAGATGACATTGCCCGTCTGGTGATTGGTATTGCTGCCCGTAACAACGAGCAC -ATTCAGGTTATCACCAGCCTGACCAATGCACTGGATGATGAGTCCGTCATCGAGCGTCTGGCACACACCACCAGCGTGGA -TGAAGTGCTGGAACTGCTGGCAGGTCGTAAGTAATCCAATCCCACCCTCTCCACATGGAGAAGGTGGGGTTAATTGCCTG -ATGCGCTACGCTTATCAGGCCTACAGGATGCATCACAATTTGTTGAATTTGCACGTTCTTGTAGGCCGGATAAGGCGCTT -ACGCCGCATCCGGCGCTGCCCCTCTCCTCACGGAGAGGGTTTGGGTGAGGGAAAAGCCTCACCCCAGCCCTCTCGGGTAA -AAACATTGATGAAGGTTAATACTATGAAAGCATTACATTTTGGCGCAGGTAATATCGGTCGTGGCTTTATCGGTAAACTG -CTGGCAGACGCGGGTATCCAACTGACGTTTGCCGATGTCAATCAGGTGGTACTTGATGCCCTGAATGCCCGTCATAGCTA -TCAGGTACATGTGGTTGGTGAAACCGAGCAGGTAGATACCGTTTCCGGCGTCAATGCTGTCAGCAGCATTGGTGATGATG -TCGTTGATCTGATTGCTCAGGTTGATTTAGTCACTACCGCCGTTGGCCCGGTTGTGCTGGAACGTATTGCTCCGGCAATC -GCCAAAGGGCAGGTGAAACGTAAAGAACAAGGTAATGAATCCCCGCTGAACATCATCGCCTGTGAAAACATGGTACGCGG -TACCACGCAGCTGAAAGGCCATGTGATGAACGCCCTGCCGGAAGACGCCAAAGCGTGGGTAGAAGAACACGTTGGCTTTG -TCGATTCCGCCGTTGACCGCATCGTACCGCCTTCGGCTTCGGCAACTAACGATCCGCTGGAAGTGACGGTAGAAACCTTC -AGCGAATGGATTGTCGATAAAACGCAGTTCAAAGGCGCACTGCCGAACATCCCAGGCATGGAGTTAACCGACAACCTGAT -GGCATTTGTCGAACGTAAACTCTTCACCCTGAACACGGGTCATGCTATAACCGCGTACCTCGGAAAACTGGCCGGTCATC -AGACCATTCGTGACGCGATTCTCGACGAGAAAATCCGCGCGGTGGTAAAAGGTGCGATGGAAGAAAGTGGTGCAGTATTG -ATCAAGCGCTACGGCTTTGACGCTGACAAGCATGCGGCGTACATCCAGAAAATTCTCGGCCGTTTTGAGAACCCGTATCT -GAAAGATGATGTAGAGCGCGTAGGCCGTCAGCCACTGCGTAAACTGAGTGCTGGCGACCGTCTGATCAAGCCACTGCTCG -GTACGCTGGAATATGGTCTGCCACATAAAAACCTGATTGAAGGTATTGCCGCTGCAATGCACTTCCGCAGTGAAGATGAT -CCGCAGGCTCAGGAACTGGCAGCACTGATCGCTGACAAAGGTCCGCAGGCGGCGCTGGCACAGATTTCCGGTCTTGATGC -CAACAGCGAGGTTGTATCCGAGGCGGTAACCGCTTATAAAGCAATGCAATAATGGTGGACCAGGCGCAGGACACCCTGCG -CCCGAATAACAGATTGTCAGATATGCAGGCAACAATGGAACAAACCCAGGCCTTTGAAAACCGTGTGCTTGAGCGTCTGA -ATGCTGGCAAAACCGTGCGAAGCTTTCTGATCACCGCCGTCGAGCTCCTGACCGAGGCGGTAAATCTTCTGGTGCTTCAG -GTATTCCGCAAAGACGATTACGCGGTGAAGTATGCTGTAGAACCGTTACTCGACGGCGATGGTCCGCTGGGCGATCTTTC -TGTGCGTTTAAAACTCATTTACGGGTTGGGCGTCATTAACCGCCAGGAATACGAAGATGCGGAACTGCTGATGGCATTGC -GTGAAGAGCTAAATCACGACGGCAACGAGTACGCCTTTACCGACGACGAAATCCTTGGACCCTTTGGTGAACTGCACTGC -GTGGCGGCGTTACCACCGCCGCCACAGTTTGAACCAGCAGACTCCAGTTTGTATGCAATGCAAATTCAGCGCTATCAACA -GGCTGTGCGATCAACAATGGTCCTTTCACTGACTGAGCTGATTTCCAAAATCAGCTTAAAAAAAGCCTTTCAAAAGTAAG -CAACGTCTGCTTACTGCCCCTCTACCTGCTTCGGCCGATAAAGCCGACGATAATACTCCAGACGTTGTAGATATAACGGC -ACGCTTTCATCGGGTATTCCGGACGGAATCGCGTTACGGGGAGGAAGTTTTTTCAGATACTCCCGGAACGCCTGGCTTGA -TGCCATGAAATCTACGGCTTTATCGATAAGAAGCGGAACGTTTTCACCTAATTTGCCCATGATGATATCTCCGTATTACC -CCGCGCCGGGAATGCGCGGCCGCCAATTTTAGTTTAGGTTCCCGGTAAAGATGACATTAAGGAAAACGTGCTGAATCCTC -AATAATCATCCGCTGCTGTTTATTATCTTTTTTCTATAGATTTCTTAATTAATCAACGAATTGCGCAGTTTTTGAGCATG -TTAATGATTACGTTACAGAACTATTACAATGTCATTAGTTGTGAACAAAGCACCTGGTCGCGCATACTAGGGGCTATAAA -TTTATCTTTATCAGAAGCCATCACATGAAAGAAGTCGAAAAAAACGAAATCAAACGCCTCAGCGATCGCCTGGACGCCAT -CCGCCACCAGCAGGCCGATCTTTCGCTGGTTGAAGCCGCAGACAAATATGCCGAGCTGGAAAAAGAGAAAGCCACGCTGG -AAGCAGAAATTGCTCGCCTGCGTGAAGTTCATAGCCAAAAACTGAGTAAAGAAGCACAGAAGCTGATGAAGATGCCATTC -CAGCGCGCAATTACCAAAAAAGAGCAGGCTGATATGGGCAAGCTGAAGAAAAGTGTTCGCGGACTGGTCGTTGTGCACCC -AATGACCGCACTGGGCCGCGAAATGGGCCTGCAGGAGATGACTGGGTTTTCAAAGACCGCGTTTTAAGAACACAGTATCT -ACAGGGTGATTCTGCACATTCCTATAGGCCGAGTAAGGTGTTCACGCCGCATCCGGCAAGATAAGGCGCTCTGGATCAAC -AACCTAAGGGCAATTCTCTGATGAGGATTGCCCTTTTCTTTACCAGACATCTCCCCCCACAAGAATTGGCCCTACCAATT -CTTCGCTTATCTGACCTCTGGTTCACAATTTCCCAATTAAAACTCACATCAATGTTGCCAATACATAACATTTAGTTAAC -CATTCATTGTCATTATCCCTACACAACACAATTGGCAGTGCCACTTTTACACAACGTGTGACAAGGAGATGAGCAACAGA -CTCATTACACGATGTGCGTGGACTCCAGGAGACCTGCAATGAATCTCTGGCAACAAAACTACGATCCCGCCGGGAATATC -TGGCTTTCCAGTCTGATAGCATCGCTTCCCATCCTGTTTTTCTTCTTTGCGCTGATTAAGCTCAAACTGAAAGGATACGT -CGCCGCCTCGTGGACGGTGGCAATCGCCCTTGCCGTGGCTTTGCTGTTCTATAAAATGCCGGTCGCTAACGCGCTGGCCT -CGGTGGTTTATGGTTTCTTCTACGGGTTGTGGCCCATCGCGTGGATCATTATTGCAGCGGTGTTCGTCTATAAGATCTCG -GTGAAAACCGGGCAGTTTGACATCATTCGCTCGTCTATTCTTTCGATAACCCCTGACCAGCGTCTGCAAATGCTGATCGT -CGGTTTCTGTTTCGGCGCGTTCCTTGAAGGAGCCGCAGGCTTTGGCGCACCGGTAGCAATTACCGCCGCATTGCTGGTCG -GCCTGGGTTTTAAACCGCTGTACGCCGCCGGGCTGTGCCTGATTGTTAACACCGCGCCAGTGGCATTTGGTGCGATGGGC -ATTCCAATCCTGGTTGCCGGACAGGTAACAGGTATCGACAGCTTTGAGATTGGTCAGATGGTGGGGCGGCAGCTACCGTT -TATGACCATTATCGTGCTGTTCTGGATCATGGCGATTATGGACGGCTGGCGCGGTATCAAAGAGACGTGGCCTGCGGTCG -TGGTTGCGGGCGGCTCGTTTGCCATCGCTCAGTACCTTAGCTCTAACTTCATTGGGCCGGAGCTGCCGGACATTATCTCT -TCGCTGGTATCACTGCTCTGCCTGACGCTGTTCCTCAAACGCTGGCAGCCAGTGCGTGTATTCCGTTTTGGTGATTTGGG -GGCGTCACAGGTTGATATGACGCTGGCCCACACCGGTTACACTGCGGGTCAGGTGTTACGTGCCTGGACACCGTTCCTGT -TCCTGACAGCTACCGTAACACTGTGGAGTATCCCGCCGTTTAAAGCCCTGTTCGCATCGGGTGGCGCGCTGTATGAGTGG -GTGATCAATATTCCGGTGCCGTACCTCGATAAACTGGTTGCCCGTATGCCGCCAGTGGTCAGCGAGGCTACAGCCTATGC -CGCCGTGTTTAAGTTTGACTGGTTCTCTGCCACCGGCACCGCCATTCTGTTTGCTGCACTGCTCTCGATTGTCTGGCTGA -AGATGAAACCGTCTGACGCTATCAGCACCTTCGGCAGCACGCTGAAAGAACTGGCTCTGCCCATCTACTCCATCGGTATG -GTGCTGGCATTCGCCTTTATTTCGAACTATTCCGGACTGTCATCAACACTGGCGCTGGCACTGGCGCACACCGGTCATGC -ATTCACCTTCTTCTCGCCGTTCCTCGGCTGGCTGGGGGTATTCCTGACCGGGTCGGATACCTCATCTAACGCCCTGTTCG -CCGCGCTGCAAGCCACCGCAGCACAACAAATTGGCGTCTCTGATCTGTTGCTGGTTGCCGCCAATACCACCGGTGGCGTC -ACCGGTAAGATGATCTCCCCGCAATCTATCGCTATCGCCTGTGCGGCGGTAGGCCTGGTGGGCAAAGAGTCTGATTTGTT -CCGCTTTACTGTCAAACACAGCCTGATCTTCACCTGTATAGTGGGCGTGATCACCACGCTTCAGGCTTATGTCTTAACGT -GGATGATTCCTTAATGATTGTTTTACCCAGACGCCTGTCAGACGAGGTTGCCGATCGTGTGCGGGCGCTGATTGATGAAA -AAAACCTGGAAGCGGGCATGAAGTTGCCCGCTGAGCGCCAACTGGCGATGCAACTCGGCGTATCACGTAATTCACTGCGC -GAGGCGCTGGCAAAACTGGTGAGTGAAGGCGTGCTGCTCAGTCGACGCGGCGGCGGGACGTTTATTCGCTGGCGTCATGA -CACATGGTCGGAGCAAAACATCGTCCAGCCGCTAAAAACACTGATGGCCGATGATCCGGATTACAGTTTCGATATTCTGG -AAGCCCGCTACGCCATTGAAGCCAGCACCGCATGGCATGCGGCAATGCGCGCCACACCTGGCGACAAAGAAAAGATTCAG -CTTTGCTTTGAAGCAACGCTAAGTGAAGACCCGGATATCGCCTCACAAGCGGACGTTCGTTTTCATCTGGCGATTGCCGA -AGCCTCACATAACATCGTGCTGCTGCAAACCATGCGCGGTTTCTTCGATGTCCTGCAATCCTCAGTGAAGCATAGCCGTC -AGCGGATGTATCTGGTGCCACCGGTTTTTTCACAACTGACCGAACAACATCAGGCTGTCATTGACGCCATTTTTGCCGGT -GATGCTGACGGGGCGCGTAAAGCAATGATGGCGCACCTTAGTTTTGTTCACACCACCATGAAACGATTCGATGAAGATCA -GGCTCGCCACGCACGGATTACCCGCCTGCCCGGTGAGCATAATGAGCATTCGAGGGAGAAAAACGCATGATTATTTCCGC -AGCCAGCGATTATCGCGCCGCAGCGCAACGCATTCTGCCGCCGTTCCTGTTCCACTATATGGATGGTGGTGCATATTCTG -AATACACGCTGCGCCGCAACGTGGAAGATTTGTCAGAAGTGGCGCTGCGCCAGCGTATTCTGAAAAACATGTCCGACTTA -AGCCTGGAAACGACGCTGTTTAATGAGAAATTGTCGATGCCGGTGGCACTGGCTCCGGTGGGTTTGTGTGGCATGTATGC -GCGTCGTGGCGAAGTTCAGGCAGCCAAAGCGGCGGACGCGCATGGTATTCCGTTTACTCTCTCGACGGTTTCCGTTTGCC -CGATTGAAGAAGTCGCGCCAGCCATCAAGCGCCCAATGTGGTTCCAGCTTTATGTACTGCGCGATCGCGGCTTTATGCGT -AACGCGCTGGAGCGAGCAAAAGCAGCGGGTTGTTCGACGCTGGTTTTCACCGTGGATATGCCGACACCGGGCGCACGCTA -CCGTGATGCGCATTCAGGTATGAGCGGCCCGAACGCGGCAATGCGCCGCTACTTGCAAGCGGTGACACATCCGCAATGGG -CGTGGGATGTGGGCCTGAACGGTCGTCCACATGATTTAGGTAATATCTCAGCTTATCTCGGCAAACCGACCGGACTGGAA -GATTACATCGGCTGGCTGGGGAATAACTTCGATCCGTCCATCTCATGGAAAGACCTTGAATGGATCCGCGATTTCTGGGA -TGGCCCGATGGTGATCAAAGGGATCCTCGATCCGGAAGATGCGCGCGATGCAGTACGTTTTGGTGCTGATGGAATTGTGG -TTTCTAACCACGGTGGCCGCCAGCTGGACGGTGTACTCTCTTCCGCCCGTGCACTGCCTGCTATTGCAGATGCGGTGAAA -GGTGATATAGCCATTCTGGCGGATAGCGGAATTCGTAACGGGCTTGATGTCGTGCGTATGATTGCGCTCGGTGCCGACAC -CGTACTGCTGGGTCGTGCTTTCTTGTATGCGCTGGCAACAGCGGGCCAGGCGGGTGTAGCTAACCTGCTAAATCTGATCG -AAAAAGAGATGAAAGTGGCGATGACGCTGACTGGCGCGAAATCGATCAGCGAAATTACGCAAGATTCGCTGGTGCAGGGG -CTGGGTAAAGAGTTGCCTGCGGCACTGGCTCCCATGGCGAAAGGGAATGCGGCATAGTCGTTTGCGCCCCCTCACCCTAA -CCCTCTCCCTCAGGGAGAGGGGACCGTTCGGCGCTGTATGTACTCCCTCACTCTGAAACGACACCGCACTCTTTTTTTCT -CCCTCGCCCCTCCGGGGAGAGGGCCGGGGTGAGGGGAAAAGGCCGCACTGCTCACCAATTTTCTGCTATCCTGCCCCCGC -ACTAAGGGGGCAGTATGCTAAACATCGTACTTTACGAACCAGAAATTCCGCCAAATACTGGCAACATCATCCGTCTTTGC -GCTAATACCGGCTTTCGTCTGCATATCATCGAACCGATGGGATTTGCCTGGGACGATAAGCGCCTGCGCCGCGCGGGGCT -GGACTATCACGAGTTTACCGCCGTTACGCGTCATCATGACTATCGCGCGTTCCTCGAAGCAGAAAATCCCCAGCGCCTGT -TCGCCCTCACCACGAAAGGTACACCTGCTCACAGCGCCGTAAGCTATCAGGATGGCGATTATCTGATGTTCGGCCCGGAA -ACACGCGGCCTGCCAGCGAGCATTCTTGATGCCCTGCCCGCTGAACAAAAAATTCGCATTCCGATGGTGCCGGACAGCCG -CAGCATGAATCTGTCCAATGCGGTGTCGGTAGTGGTGTATGAAGCCTGGCGGCAGTTGGGGTATCCGGGAGCGGTATTGA -GAGATTAGTTACTGTAGGCCGGATAGATGATTACATCGCATCCGGCACGATCACAGGACATTAGATCCCATCCCCATACT -CAAATGTATGGTTAATACCGTTGAAATGCTGGTCCATATCCATTGATGGCTTATCGCTGTCTGGTTTACCGACAATACGA -GCCGGAACGCCAGCGGCGGTGGTATGCGGCGGCACCGGTTGCAGCACCACGGAACCTGCGCCAATCTTCGCGCCGCGCCC -AACTTCAATATTGCCGAGGATTTTCGCGCCCGCGCCAATCATCACACCTTCACGAATTTTCGGGTGACGGTCACCACCAG -ATTTACCCGTACCGCCAAGCGTCACAGATTGCAGAATCGATACGTCGTTTTCAATCACCGCCGTTTCACCAACGACGATG -CCTGTCGCGTGGTCAAGCATGATACCGCGACCAATTTTTGCTGCCGGGTGAATATCGACCTGGAACGTCACAGAAACCTG -GTTTTGCAGAAAGATTGCCAGTGCGCGACGCCCCTGATTCCACAACCAGTGACCGATGCGATAGGCCTGCAAGGCATGAA -AACCCTTCAGGTATAACAACGGGGTTGAGTATTTATCGACTGCCGGGTCGCGGGTACGCACCGCCTGAATATCACAGGCC -GCAGAGGCGATCATTTCCGGGTCAGCGGCGTAGGCTTCTTCCACCACTTCACGGATAGCAATAGCAGGCATAATTGGCGA -TGACAGCTTGTTCGCCAGCATGTAGCTCAGTGCACTGCCAAGGTTTTCGTGCTTGAGTAGCGTCGCGTGGTAAAAACTGG -CCAGCATTGGCTCACAGTCCGCCAGCGTTCTGGCTTCGGCTTTAATATTGTTCCAGACAATTTCCAGTTCTTCACACGAC -ATTGCTTACTCCACACGATGAGATAATGACCGGCCCGTTCTGCGCGGGCCGGGTCATAGCGGTAACAAAGGTTCCCTGGG -GTTAGTGGCTGCTGCGCTCGTCCTTGCGTGCACGACCTAGTAAAGTCAATGCTGCCTCGCGCGCGTTTTTTCCGCAATAT -AATACTTGATAAATTTCCTCGGTTATTGGCATTTCAACGCCGAAGCGATGCGCCAGTTCGCGGACTTCTTTCGTATTGCG -GTAGCCTTCCACCACCTGACCAATCTTCTCCTGCGCGCTTTGTACATCCATGCCCTGACCGAGCATCATGCCAAAACGGC -GGTTACGCGACTGGTTGTCGGTACAGGTAAGCACCAGATCGCCAAGCCCCGCCATGCCCATAAAGGTGGCAGGGTCGGCA -CCCAGCGCCGCACCAAGACGCGACATTTCAGCCAGCCCACGGGTGATCAGCGCCGTACGCGCATTCGCACCAAAACCGAT -ACCGTCGGACATCCCCGCACCAATGGCAATAACGTTTTTCACCGCGCCGCCAAGCTGCACGCCAATGAAATCCGGATTGC -TGTAAACGCGGAAACTTTTGCCGCAGTGCAGCAGCTGCTGGAGATCATCGGCAAAGGTCTGATCGGTCGAGGCCAGCGAA -ATAGCTGTCGGTAAACCTGCCGCCAGTTCTTTCGCAAACGTTGGGCCAGAGATAACCGCCAGCGGAATTTGATCGCCTAA -GGCCTCACGCGCCACGTCCTGTAACAGACGTCCGGTTTCCGCTTCCAGCCCTTTGGTCGCCCACACCAGACGCGCATCAG -GACGCATCAGTGGTTTAATCTGGCGCAGCACTTCACCAAAGACATGGCTGGGTACGACGACGAGAATATTACGGCTGGCT -GCCAGCGCAGTGGCGAGATCGCTTTCAAGATGGAGCGTATCGGGAAAAGGCACATCGGGGAGAAACGCGGCGTTACAGCG -GTCGCGTTCAAGCGTTGCGATATGTTCAGGGTCATGGCCCCAGAGGACAACCTCGTGGCCATTTCTTGCCAGGGTGATGG -CAAGAGCGGTGCCGTACGAGCCGGCACCGATCACAGTCATTGAAGCATTACGTTGGTTCATCAGGCATCCTGATGTTCTT -CAGTACCTTCGCCAGCCTGCTGCTGCAAATAGTTCATGAACAGCGCATCGAAGTTAACCGGCGCAAGGTTCAGTTGCGGG -AATGTACCGCGGGATACCATGCTGGTGATGCACTCACGAGCATACGGGAACAGAATGTTCGGGCAGTATGCTCCCAGGCA -ATGCGCCATCTGGGTGCCTTCGATACCCGCGATGGAGAAAATACCGCCCTGCTGAACTTCACACAGGAACGCGGTTTCTT -CGCCCAAAGAGGCCGTTACGGTAACACGCAGTACCACTTCGTATACGTCATCTGCCAGTTGGGAAGATGCCGTATCCAGA -TCAAGTTTAACTTCTGGTTGCCAATCTTTCTGGAAAACGTGCGGCGCGTTCGGCGCTTCGAAAGAGATATCCTTGGTATA -AATACGTTGGATCTGGAAAGTCATTTCAGTGTTGTTTTGTTCTGACATGTGTAGAAAACCCTTAAGTGTTGTCCTTAAAT -ACTGCGCAATGTAATGCCAACGTTCACACGTTATTTCAGCAGGGGATCCAGTCCACCACGTGCATCCAATGCATACAAGT -CATCACAGCCGCCAATGTGCTGTGCGTCAATAAAAATCTGGGGAACCGTGGTGCGACCGCTGCGTTTGATCATCTCTTCA -CGCTTGGCGGCGTTGCCATCGATCGGCAGCTCCTGGAAACTCACGCCCTTGCTGCTCAGCAGTGCTTTTGCACGATGGCA -ATACGGGCAGGTTTCTTTGGTATAGATTTCAACATTGGCCATAAATTAGCTCCTGTTTTTTTACCCTGAAATTTCATGTT -GCAGGGCGGCAGCAAAATGGAGTGTCCCCAGAAGCTTATAACAATAAGTCGCTGGGGGCCTAATTGCAGCTAACGGCCTG -CATCATGAAAGACGACAGGTAAATTATTTGCCGCGCACCAAAGGCAAGTTTTCGCCAGCCCAGCCAGCGACGCCTTCTTT -CAGCACGAATACTTGCGCAAAACCAGCTTTCGTCAGTGCGTTTGCAGGCTCCTGGCACTGCATGCCAGAACCGTCTACCA -CGATAACCGGTTTGTCTTTGTGCTTCTCAAGCTCACCAACATTGTTGGCTTTGATTTCGCTCGGCAACAGATTAATAGAA -CCTGCGATATGGCCTTTACGGAAGTCATCACGCTGACGTAAATCCACAACCACAGCGTCTTCTTTGTTGATCAGACGCGT -AGCTTCACCACGAGTAATCACCTTCACTTTCGAGGTCAGGCTCTTAAACGTAGTCACAAGAACCGCCACCAGTAACGCGA -TCCAGGCGATACTCAGTATGGGATGACGGCCAACAAATTGCATAATTTCTTGCATGGGGGGTAACAACTCCCGACGTAGT -GATTAAAAAAACCAGGAAAGGAGTATACCTGCGCGGTGCGGCAAATACAGCCAGCGCGTTAACTGGAATGCAATTTTGCG -GGGCGCGACGAAAAAAAAGCGTAAATCTGGCATCGGCTTGCCGCGAGCGGTCGTATATTTTGATCTTCAGAGGCTATTTT -ATCGATTCAGCTGTAGTAAAATTACGCAAATTTTGACTCTTGAGTATGAGGTTGTCGCAATGTTGGTTTCTAAAAAACCT -ATGGTACTGGTGATTCTGGATGGCTATGGCTATCGCGAAGAACAGCAGGATAACGCCATTTTTAGTGCTAAAACCCCGGT -AATGGATGCACTGTGGGCCAATCGTCCGCATACCCTAATCGACGCTTCCGGTCTGGAAGTCGGTCTGCCTGACCGTCAGA -TGGGTAACTCCGAAGTAGGCCACGTTAACCTGGGTGCCGGCCGCATCGTGTATCAGGACCTGACTCGTCTGGACGTTGAA -ATCAAAGATCGCGCTTTCTTTGCTAATCCGGTGCTGACTGGCGCGGTAGATAAAGCGAAAAACGCAGGCAAAGCGGTACA -CATTATGGGTCTGCTCTCCGCAGGCGGCGTACACAGCCACGAAGATCACATCATGGCGATGGTAGAACTGGCAGCTGAAC -GCGGCGCAGAAAAAATCTACCTGCACGCATTCCTTGACGGTCGCGACACTCCGCCGCGCAGTGCTGAATCCTCGCTGAAA -AAATTCGAAGAAAAATTTGCCGCGCTGGGCAAAGGCCGCGTAGCGTCCATCATTGGTCGTTACTACGCGATGGACCGCGA -TAACCGTTGGGATCGCGTAGAAAAAGCTTATGACCTGCTGACTCTGGCGCAGGGCGAGTTCCAGGCCGATACCGCCGTTG -CTGGTTTGCAGGCTGCTTATGCTCGCGACGAAAATGATGAATTCGTGAAAGCGACCGTTATCCGTGCTGAAGGTCAGCCA -GACGCGGCAATGGAAGACGGCGATGCACTGATTTTCATGAACTTCCGTGCTGACCGCGCGCGTGAAATCACTCGTGCTTT -CGTGAACGCTGATTTCGATGGCTTCGCGCGTAAGAAAGTGGTTAACGTCGATTTCGTGATGCTGACCGAATACGCCGCTG -ACATCAAAACTGCGGTTGCTTACCCACCCGCTTCCCTGGTTAACACCTTCGGCGAGTGGATGGCGAAAAACGACAAAACT -CAGTTGCGTATTTCCGAAACCGAAAAATATGCCCACGTTACTTTCTTCTTCAACGGTGGCGTAGAAGAGTCGTTCAAAGG -CGAAGATCGCATTCTGATCAACTCACCGAAAGTGGCTACCTACGATCTGCAACCGGAAATGAGCTCCGCAGAGCTGACCG -AAAAACTGGTTGCGGCCATCAAGAGCGGCAAATACGACACCATCATCTGTAACTATCCGAACGGCGACATGGTAGGTCAC -ACCGGGGTGATGGAAGCGGCGGTTAAAGCGGTTGAAGCGCTGGATCACTGCGTGGAAGAAGTCGCGAAAGCGGTTGAGTC -CGTGGGTGGACAACTGCTGATCACCGCTGACCACGGTAACGCTGAGCAGATGCGCGATCCGGCAACGGGTCAGGCACACA -CGGCACACACCAACCTGCCAGTTCCGCTGATTTACGTTGGTGATAAGAACGTGAAAGCGGTTGAAGGCGGCAAACTTTCT -GACATCGCGCCGACCATGTTGTCGCTGATGGGTATGGAAATCCCGCAAGAGATGACTGGTAAGCCGCTGTTCATCGTGGA -ATAATCCCTCCCCATGAGGGGAAAGGCGATTAATACCATGACACGGGCCGTGAAACCGCGCAGGTTTGCAATCAGGCCCA -TCATCTACGCCAGCGTTCTTAGCGCTGGCGTATTGTTGTGCGCCTTTTCCGCCCACGCGGATGAGCGTGACCAACTCAAA -TCTATTCAGGCTGACATCGCCGCAAAAGAGCGCGCGGTACGCCAAAAGCAACAACAACGCGCAAGCCTGCTCGCACAATT -GAAAAAGCAGGAAGAAGCGATCTCTGAAGCCACCCGTAAGCTGCGCGAAACGCAAAACACGCTCAATCAACTCAATAAAC -AGATTGATGAGATGAACGCGTCGATTGCCAAACTGGAGCAGCAAAAAGCCGCCCAGGAGCGCAGCCTCGCCGCACAACTG -GATGCCGCATTCCGTCAGGGCGAGCATACCGGTATTCAGCTGATTCTCAGCGGTGAAGAAAGCCAGCGTGGACAGCGTTT -ACAGGCTTATTTCGGCTATCTCAACCAGGCGCGACAAGAAACCATTGCCCAGTTGAAGCAAACGCGTGAAGAAGTCGCCA -TGCAGCGTGCTGAACTGGAAGAGAAACAGAGCGAGCAACAAACGCTGTTATATGAGCAGCGCGCCCAACAGGCGAAACTG -ACTCAGGCGCTGAACGAGCGTAAAAAGACGCTGGCAGGGCTGGAGTCTTCCATCCAGCAAGGTCAGCAACAGTTGAGCGA -GCTGCGCGCCAACGAATCCCGTCTGCGTAACAGCATTGCCCGTGCGGAAGCCGCGGCGAAAGCGCGTGCAGAACGAGAAG -CACGTGAGGCCCAGGCGGTTCGCGACCGCCAGAAAGAAGCGACGCGCAAAGGCACCACCTACAAACCGACCGAAAGCGAA -AAATCGCTGATGTCCCGTACCGGTGGTCTGGGCGCGCCGCGTGGTCAGGCATTCTGGCCGGTTCGCGGGCCGACGCTGCA -TCGCTATGGCGAACAGCTACAGGGTGAATTACGCTGGAAAGGTATGGTTATCGGTGCTTCTGAAGGTACTGAAGTTAAAG -CGATTGCCGACGGTCGGGTGATTCTGGCTGACTGGCTGCAAGGCTACGGTCTGGTGGTGGTGGTTGAGCATGGTAAAGGC -GACATGAGTCTTTACGGCTATAATCAGAGCGCACTGGTGAGCGTTGGTTCGCAGGTTCGCGCGGGCCAGCCGATTGCACT -GGTGGGCAGCAGTGGCGGTCAGGGTCGGCCTTCACTCTATTTCGAAATTCGCCGCCAGGGTCAGGCGGTCAATCCACAGC -CGTGGTTGGGAAGATAAGTTTTGTTTCCATTTCGTCGTAACGTTCTTGCATTTGCCGCTCTGTTGGCGCTCTCCTCCCCC -GTACTTGCTGGCAAACTTGCCATCGTCATTGATGATTTTGGGTATCGCCCGCACAACGAAAACCAGGTGCTGGCGATGCC -TTCCGCTATCTCCGTCGCTGTATTACCCGATTCACCGCACGCCAGAGAGATGGCGACCAAAGCGCATAACAGCGGGCACG -AAGTGTTGATTCATCTCCCGATGGCACCGTTGAGTAAACAGCCGCTGGAGAAAAATACGCTACGCCCGGAGATGAGCAGC -GACGAAATTGAGCGCATTATTCGTAGTGCGGTCAATAACGTGCCCTATGCCGTGGGGATCAACAACCACATGGGCAGCAA -GATGACCTCTAACCTGTTTGGTATGCAGAAAGTGATGCAGGCGCTGGAGCGTTACAATCTTTACTTCCTCGACAGCGTAA -CCATCGGTAATACCCAGGCGATGCGCGCCGCGCAAGGCACTGGCGTGAAGGTGATCAAACGGAAGGTATTCCTCGACGAT -TCGCAAAATGAAGCGGACATCCGTGTGCAATTTAATCGCGCAATTGACCTGGCGCGTCGCAACGGTTCGACCATTGCCAT -TGGGCATCCTCACCCTGCAACGGTACGCGTGTTGCAACAGATGGTTTATAACCTGCCGCCAGACATTACGCTGGTGAAAG -CCAGCAGCTTGCTGAATGAACCGCAGGTTGATACTTCTACACCGCCGAAAAACGCTGTGCCTGATGCACCGCGTAATCCG -TTCCGTGGCGTGAAGCTGTGCAAACCGAAGAAACCGATAGAACCTGTTTATGCTAATCGCTTCTTTGAAGTATTAAGCGA -AAGCATCAGCCAGAGCACGCTGATCGTTTACTTCCAGCATCAGTGGCAAGGCTGGGGCAAACAGCCCGAAGCGGCGAAGT -TTAACGCTAGCGCAAATTAAAGGCGCTACGCGTAATGCGATGGTGCGACCGCGTTTTGTCGCGCCATTGCCATAAGCGGA -AAGACCACAGTAACGCCTGGTAACCGACCTTCACGCTGCGCACATTGGTAATCAGGCGCTTATACATACCGGAAGTAAAT -ATCTCGGCAATCATCCGTTGGCGGGTAAGAATATCCGGCTCTTTGCGCACCGCATGGCAAACACGCAATGCCTCGTAAGT -TATTTGCTGATGAAATTCCGGATAAATCATAATTTTGTCGGCATAATTTCGATTTAATTTCTCCAGCAGGCGGGTAATCT -TAATATAGTGACGTTGATAATTAAGGTTTTTATTCCCTTGTCTATGCAACCGACTCACTGACGTATTATGCAGATAATAT -TTATATAATGATTGCTCGGTATATCGCGCACGCAGCGCGTTAAACATGAATTCTGTTGTCCAGACAATATCCTGATGATG -TAATCCGGCAATAAATTTAATGTTATTTTTAACAATAACATCACGGCGATAAACCCCCATCCAGACAACGTGAGTCCAAC -GGCGCGAAGAAAGCCCCATCCGCAGCCAGTCCGGGCCGGTTAATACGCCGGTTGAGCGAAGGCGATCGGTGGGGATGGAT -TGCCAGGTTTCTCCCGTTTCACGAAAACACCAGTCAGCGTTGCACTGCGCCACGTCGAGGTCGTCCTCTAACGCCATGGT -CATCAGCGTTTCGTACATGGTGGGATAGACTTCATCGTCAGCATCGACAAAAGCGACATATTTGCCCGTTGCCACTTCAA -TCCCACGATTACGCGCCACCGATGCGCCAGCATTCGCCTGATGCAACAAACGAACGTGCGGATAGTTTTCTGCGTAATAC -TTTGCTATTTCAACAGAATTATCCGTTGAACCATCGTTAATAATAATGATTTCCAGAGCAGTCCAGGTTTGCGTAATTAA -AGATTCCATACAAGTGCGGAAATCATCGCCCGCATTATATAACGGAATAATAACACTAAGTTTATTGGTGCTGTTCATCA -TAAATTACCGACGACCTCTGAAGTTATCCTGACGTTTTACAGGCTTTGTATTAAGAAACTATTAAGCCTGTGAGATATTA -TTTTTACAGGTGAGAGAGTCACTTCAGGGTAGAGAGATAATGAGAGCAGCTATATAAGAGATCAGCACAATTACGAACTC -TTTATTACACTGACAGGATTTTACATATTTAACAGATTATCCTCAGATAAAAGGGCTGGAATACCAGCCCTTGTTCGTGT -TAATCCCAGCTCAGAATAACTTTCCCGGACTGGCCCGAACGCATAGCGTCAAAGCCCTTCTGGAAATCATCGATAGAGAA -ACGATGGGTAATGATCGGCGAAAGATCGAGGCCAGACTGAATCAGCGCCGCCATCTTGTACCAGGTTTCAAACATCTCAC -GACCGTAAATACCTTTAATGAACAAGCCTTTAAAGATCACTTTGGTCCAGTCGATAGACATATCAGACGGCGGAATACCC -AGCATCGCAATACGGCCGCCGTGATTCATGGTGTCAAGCATGGTACGAAACGCTGGCGGCGCACCGGACATTTCCAGACC -GACATCAAAACCTTCGGTCATGCCTAACTCCGCCATCACGTCATTGAGATTTTCTTTGGCGACGTTAACCGCACGGGTGA -TACCCATTTTACGCGCCAGCTCAAGGCGGTATTCGTTAACATCAGTGATCACCACATTGCGTGCACCAACGTGTTTCGCC -ACCGCCGCTGCCATAATACCAATCGGGCCTGCACCAGAAACCAGCACATCTTCGCCCACCAGATCAAACGACAGCGCGGT -ATGCACGGCGTTACCGAAGGGATCAAAAATTGCGGCTAAGTCATCGGAAATATTGTCGGGGATTTTGAAGGCGTTGAATG -CCGGGATCACCAGATATTCGGCAAAGCAGCCCGGGCGATTAACACCAACGCCTATCGTGTTGCGGCACAAATGGGTACGA -CCACCACGACAGTTGCGGCAATGACCACAGGTGATATGGCCTTCGCCAGAAACGCGATCGCCGATCTTGAAGCCTTTCAC -TTCCTGACCAATACCTACCACTTCACCGACATATTCATGGCCCACGACCATCGGCACCGGGATGGTTTTTTGCGACCACT -CATCCCAGTTATAGATGTGAACGTCAGTCCCGCAGATGGCTGTTTTACGGATTTTAATCAGCAGATCGTTATGCCCGAGT -TCCGGTACAGGAACGTCGGTCATCCAGATGCCCTCTTCCGCTTTCAGTTTGGATAACGCTTTCATCTCACATCCTCAGGC -GATAACGCCCAGTTGTTTACCAATACGCGTAAATGCTTCTACTGCACGCGTAATTTGCTCAGGGGTATGCGCCGCAGACA -TCTGGGTACGAATACGCGCCTGACCTTTCGGAACGACCGGATAGAAGAAACCGGTAACGTAAATGCCCTCTTTTTGCAGC -TCACGGGCAAATTTCTGCGCCACTACCGCATCACCAAGCATGACCGGAATAATGGCGTGATCGGCTCCCGCCAGGGTAAA -GCCCGCCGCCGACATTTGCTCACGGAACTGACGCGCGTTCGCCCACAGACGGTCACGCAGTTCGCTGCCCGCTTCGACCA -TCTCCAGTACTTTGATGGACGCGGCAACAATGGCCGGTGCCAGCGAGTTGGAGAACAGGTACGGACGAGAACGCTGGCGC -AGCCACTCAACCACTTCTTTGCGCGCCGCGGTATAACCACCAGAAGCCCCGCCCAGCGCTTTACCAAGCGTACCGGTGAT -AATATCGACCCGGCCCATCACATCGCAGTATTCATGGGAACCACGACCATTTTCACCGACAAAACCGACCGCGTGGGAGT -CGTCTACCATCACCAGGGCATCATATTTATCTGCCAGATCGCAAACGCCCTTCAGGTTGGCAATCACGCCGTCCATTGAG -AACACACCATCGGTGGCGATCAGCACATGACGCGCACCGGCTTCACGCGCTTCTTTCAGACGTGCTTCCAGCTCCTGCAT -ATCGTTGTTGGCATAGCGATAGCGTTTAGCTTTGCACAGACGCACACCATCAATAATAGACGCGTGGTTCAGTGCGTCGG -AGATAATGGCGTCTTCCGCACCCAGAAGCGTTTCAAACAGGCCACCGTTAGCATCAAAGCAGGAAGAGTAGAGAATCGCA -TCTTCCATCCCCAGGAAGGCCGCCAGTTTTTGTTCAAGCTCTTTATGGCTGTCCTGAGTGCCGCAAATAAAACGCACCGA -AGCCATGCCGAAACCGTGAGAATCCATTCCCGCCTTTGCCGCCGCAATCAGATCAGGATGATTCGCCAGCCCGAGATAGT -TGTTGGCACAAAAGTTAATGACGTGGCTTCCATCAGCCACAGTGATATCTGCTTGCTGCGCAGACGTAATAATGCGCTCT -TCTTTAAACAACCCTTCCGCCCGTGCGGTTTCCAGATCGTTGGTTAACTGCTGATAAAATTCTCCACGCATTGCGATTCT -CCAGACAGGGCAAATTCCAGCACATATTACCCAAACTTATAGGTCGCGACGAGATAACGCGTTAACACTTCTGCAAAATT -CAGGATAAATAACGTGTAACTTGATGTCTCTCAACACCTACAGATAGTAGAAAAACTGTACAGTTTTGGCTGGGCATAAT -GATGATTGATTTTACTGCATTGATATAAAAAGAAAAAATGATGCCAAAGCATCATTTTTCCTATCTCAGTTGGTATCAAA -ACGCTACCCACTAATGGAGGGAAACCTATTTTCTTGAAAGGAAAATTCTCAGCGCCTGCATTTTTGCCCCTAAAGTGTTA -CTCCTGAAGCAGCGAAACAAATCGAACCATTTTCCTCTCCCCAGATAGTTTAGGTTGAAGAGATCGGGGCGTTTGTAATA -GCACATGACAAAAATGCCCTGGTCATCGTCCACAATGTTATTATTTAGTGTTATTTTTTGACTTTCCAGAACTAATTTAT -AGAATTCTTTCCATTTATGCTGTGAACCAACAATTGCGCCCCCAATAATATATACATGATTGCCAATCATGAAATCAAAA -ACCTGTTGTTGAGATGTGACAGTAAGCCCTTTTTTTATAGTGAAAAGATGCATCTTACTTTCATCAAATGGGAAATCCCA -AATTTTCAATCCTCGAGTTACATTTGGCTTATGGCAATAGCCAAAATCTATCCACGCAACAAGAGGCGTTTTCACTAAGC -CCATGTTGATAGCTTTATTTACAAAATAGGCCTTAAGGTTACATACCAAAACATACTCTGGTGACCAGTACTCTGGGTTT -TTTAATTGTCGAGGCTCAAGTCTATTTGTAAACGACTCATCTTTTTGAATTTTTTCGATACGACTTCTGATATATCTAAA -TTTCTTTTTTATATCGATAACGATAACCGTTGTTGGTTTTCCGTTGCGAATCGCTTCAACCCTTGGTTTCAAATCGGGAG -AAGTGAAAATAATCATCTCATTTTCAAGTGCGGCCAGACGCTCAAAGTAACTAAAATAAACATCAACTGAACGAGCTAGT -TTTTCACGGAACCCTTTATTAGCAGTCCAATCCCCTCTACCAATGTCAAAATATGCAGTGATAATTGTGGTGGATGATTT -CATTACTAATAAGACCATTAATATAAAAAAAGAATTATATCATAAATATTAATAGAATGTATACTGTATATTATCCATTC -AAATGCTTCCGTTATTTATCATACATCGGAATATTGATACTAAAGCACTATTCACATGCAAAACCAACATCCGCCATGAA -GGACTAGCTAAAACCCAAACTAGTTTGTTGCAATTAGCATCCTTGCACCTCTATGTAAAGGGCTGAAGGGATTCGGATGT -GATGGTATGATTACAGACATTCGTGTCTGAGATTGTCTCTGACTCCATAATTCGAAGGTTACAGTTATGATCATCGTTAC -CGGCGGCGCGGGCTTTATCGGCAGCAACATCGTTAAAGCCCTGAATGATAAAGGCATCACCGATATTCTGGTGGTGGACA -ACCTGAAAGACGGCACCAAGTTTGTGAACCTGGTGGATCTGAATATCGCAGACTATATGGATAAGGAAGACTTCCTGATC -CAGATTATGGCTGGCGAAGAGTTCGGCGATGTCGAAGCGATTTTCCACGAAGGCGCGTGCTCTTCCACCACCGAGTGGGA -CGGCAAGTATATGATGGATAACAACTATCAATACTCCAAGGAGCTGCTGCACTACTGCCTGGAGCGTGAAATCCCGTTCC -TGTACGCTTCTTCCGCAGCCACCTACGGCGGACGCACCTCCGACTTTATTGAATCCCGCGAGTACGAAAAACCGTTGAAC -GTCTACGGTTACTCAAAATTCCTGTTTGATGAATATGTTCGTCAAATCCTGCCTGAAGCGAACTCGCAGATTGTTGGCTT -CCGTTATTTCAACGTTTATGGACCGCGTGAAGGCCATAAAGGCAGCATGGCGAGCGTCGCTTTCCATCTCAACACCCAGC -TTAACAACGGTGAATCACCGAAGCTGTTTGAAGGTAGCGAGAACTTCAAACGCGACTTCGTCTATGTGGGCGACGTGGCT -GATGTGAATCTGTGGTTCCTGGAAAATGGCGTTTCCGGCATCTTCAATCTCGGTACTGGTCGTGCGGAATCCTTCCAGGC -GGTAGCTGATGCTACGCTGGCTTATCACAAGAAAGGCCAGATCGAATACATTCCGTTCCCGGATAAACTGAAAGGCCGCT -ATCAGGCGTTCACTCAGGCAGATCTGACAAATCTGCGCGCGGCGGGTTACGACAAACCGTTCAAAACCGTTGCTGAAGGT -GTAACGGAATACATGGCCTGGCTGAATCGCGACGCATAAGAGCTCTGCATGAAAATACTGGTGATCGGCCCGTCTTGGGT -TGGCGACATGATGATGTCGCAAAGTCTCTATCGCACGCTCCAGGCGCGCTATCCCCAGGCGATAATCGATGTGATGGCAC -CGGCATGGTGCCGTCCATTATTATCGCGGATGCCGGAAGTTAACGAAGCTATTCCTATGCCTCTCGGTCACGGAGCGCTG -GAAATCGGCGAACGCCGCAAACTGGGTCATAGCCTGCGTGAAAAGCGCTACGACCGCGCCTACGTCTTACCCAACTCCTT -CAAATCTGCATTAGTGCCTTTCTTCGCGGGTATTCCTCATCGCACCGGCTGGCGCGGCGAGATGCGCTACGGTTTACTCA -ACGATGTACGCGTGCTCGATAAAGAAGCCTGGCCGCTAATGGTGGAACGCTATATAGCGCTGGCCTATGACAAAGGCATT -ATGCGCACAGCACAAGATCTGCCGCAGCCATTGTTATGGCCGCAGTTGCAGGTGAGCGAAGGTGAAAAATCATATACCTG -TAATCAATTTTCGCTTTCATCAGAACGTCCGATGATTGGTTTTTGCCCGGGTGCGGAGTTTGGTCCGGCAAAACGCTGGC -CACACTACCACTATGCGGAGCTGGCAAAGCAGCTGATTGATGAAGGTTATCAGGTGGTTCTGTTTGGCTCGGCGAAAGAT -CATGAAGCGGGCAATGAGATTCTTGCCGCTTTGAATACCGAGCAGCAGGCATGGTGTCGGAACCTGGCGGGGGAAACACA -GCTTGATCAAGCGGTTATCCTGATTGCAGCCTGTAAAGCCATTGTCACTAACGATTCTGGCCTGATGCATGTTGCGGCGG -CGCTCAATCGTCCGCTGGTTGCCCTGTATGGTCCGAGTAGCCCGGACTTCACACCGCCGCTATCCCATAAAGCGCGCGTG -ATCCGTTTGATTACCGGCTATCACAAAGTGCGTAAAGGTGACGCTGCGGAGGGTTATCACCAGAGCTTAATCGACATTAC -TCCCCAGCGCGTACTGGAAGAACTCAACGCGCTATTGTTACAAGAGGAAGCCTGACGGATGCGGGTTTTGATCGTTAAAA -CATCGTCGATGGGCGATGTTCTCCATACGTTGCCCGCACTCACTGATGCCCAGCAGGCAATCCCAGGGATTAAGTTTGAC -TGGGTGGTGGAAGAAGGGTTCGCACAGATTCCTTCCTGGCACGCTGCCGTTGAGCGAGTTATTCCTGTGGCAATACGTCG -CTGGCGTAAAGCCTGGTTCTCGGCCCCCATAAAAGCGGAACGCAAAGCGTTTCGTGAAGCGCTACAAGCAGAGAACTATG -ACGCAGTTATCGACGCTCAGGGGCTGGTAAAAAGCGCGGCGCTGGTGACGCGTCTGGCGCATGGCGTAAAGCATGGCATG -GACTGGCAAACCGCTCGCGAACCTTTAGCCAGCCTGTTTTACAATCGTAAGCATCATATTGCAAAACAGCAGCACGCCGT -AGAACGCACCCGCGAACTGTTTGCCAAAAGTTTGGGCTATAGCAAACCGCAAACCCAGGGCGATTATGCTATCGCACAGC -ATTTTCTGACGAACCTGCCTACAGATGCTGGCGAATATGCCGTATTTCTTCATGCGACGACCCGTGATGATAAACACTGG -CCGGAAGAACACTGGCGAGAATTGATTGGTTTACTGGCTGATTCAGGAATACGGATTAAACTTCCGTGGGGCGCGCCGCA -TGAGGAAGAACGGGCGAAACGACTGGCGGAAGGATTTGCTTATGTTGAAGTATTGCCGAAGATGAGTCTGGAAGGCGTTG -CCCGCGTGCTGGCCGGGGCTAAATTTGTAGTGTCGGTGGATACGGGGTTAAGCCATTTAACGGCGGCACTGGATAGACCC -AATATCACGGTTTATGGACCAACCGATCCGGGATTAATTGGTGGGTATGGGAAGAATCAGATGGTATGTAGGGCTCCAAG -AGAAAATTTAATTAACCTCAACAGTCAAGCAGTTTTGGAAAAGTTATCATCATTATAAAGGTAAAACATGCTAACATCCT -TTAAACTTCATTCATTGAAACCTTACACTCTGAAATCATCAATGATTTTAGAGATAATAACTTATATATTATGTTTTTTT -TCAATGATAATTGCATTCGTCGATAATACTTTCAGCATAAAAATATATAATATCACTGCTATAGTTTGCTTATTGTCACT -AATTTTACGTGGCAGACAAGAAAATTATAATATAAAAAACCTTATTCTTCCCCTTTCTATATTTTTAATAGGCTTGCTTG -ATTTAATTTGGTATTCTGCGTTTAAAGTAGATAATTCGCCATTTCGTGCTACTTACCATAGTTATTTAAATACTGCCAAA -ATATTTATATTTGGTTCTTTTATTGTTTTCTTGACACTAACTAGCCAGCTAAAATCAAAAAAAGAGAGTGTATTATACAC -TTTGTATTCTCTGTCATTTCTAATTGCTGGATATGCAATGTATATTAATAGCATTCATGAAAATGACCGCATTTCTTTTG -GTGTAGGAACGGCAACAGGAGCAGCATATTCAACAATGCTAATAGGGATAGTTAGTGGCGTTGCGATTCTTTATACTAAG -AAAAATCATCCTTTTTTATTTTTATTAAATAGTTGCGCGGTACTTTATGTTCTGGCGCTAACACAAACCAGAGCAACCCT -ACTCCTGTTCCCTATAATTTGTGTTGCTGCATTAATAGCTTATTATAATAAATCACCCAAGAAATTCACTTCCTCTATTG -TTCTACTAATTGCTATATTAGCTAGCATTGTTATTATATTTAATAAACCAATACAGAATCGCTATAATGAAGCATTAAAT -GACTTAAACAGTTATACCAATGCTAATAGTGTTACTTCCCTAGGTGCAAGACTGGCAATGTACGAAATTGGTTTAAATAT -ATTCATAAAGTCACCTTTTTCATTTAGATCAGCAGAGTCACGCGCTGAAAGTATGAATTTGTTAGTTGCAGAACACAATA -GGCTAAGAGGGGCATTGGAGTTTTCTAACGTACATCTACATAATGAGATAATTGAAGCAGGGTCACTGAAAGGTCTGATG -GGAATTTTTTCCACACTTTTCCTCTATTTTTCACTATTTTATATAGCATATAAAAAACGAGCTTTGGGTTTGTTGATATT -AACGCTTGGCATTGTGGGGATTGGACTCAGTGATGTGATCATATGGGCACGCAGCATTCCAATTATCATTATATCCGCTA -TAGTCCTCTTACTCGTCATTAATAATCGTAACAATACAATTAATTAAGAATAAACAAGTTTAAGAAGTGAGTTAAAACTC -ACTTCTTATCTATACAACTTAATCTCTTTACTGAATTAGTTAAAGTTTCAGTATCGATATCTTTTACCGTATATGTTGGG -GATACTATTTGTATAGATTTATGATGATTCGGGGACCAAATTAAATGCGAGGGATATTCCGGAGTACGTGAATTAGGGTA -AAATGCAAGCGTTGGTTTATGATAAGCCGCAGCGATATGAACAAGAGCTGTATCAACAGAAATGACAAAATCACTATACT -TGGTCAACGCAACGGTATAAATAAACTCATCAAATGGTAGTGTTTCGATTTCAAGTATTGGTATTGTCAATAAATCTTGC -GGTAACCCGGTAAATATAATCCGATAATTTTCAAAGTGTGTTTTCACTTCTTGATATATAACTTTTATTTGCTCAAACGT -AAGACGGCATATTTTTTTTGCACCTAATGGATTAATAATGACTATTCTTGTATCTCCAATAAATTCTTTTATTTTATCTT -CAACATCTACTGGTAAATGCAAGTCGTAGTTGGTGGAAAATTTACCCTCACCATAAATATGCTTCAGTATTTCTATTGCT -CGTGTACTCATATGTTCTTTTAAACATTCATCGTGGGGATGGTAAAATGAATAGTAACGCTTATACCAATGATCAAAACC -CAGAATGTAAGAATCTTTTAAACTTGATAATATTAAGCTATGCTTAAATGAGGGCATAGTTTCAAAGGGGTCTAATACAA -TATCGAACTGTAAATCCCGCAGATGCTTACATAGAGTAAGCATTTCAAGAAAACCGGTTGATTCTTTAATACAGAACTCA -AATATATTTTTATTATTAGAGAGAAATTCCCCACCCTTTCTATTTGTGAGAAGAGTTATTTTAACCCCTTTACTATAAAG -TTCACGATAAATCGAACTTAATACAATTAGATCACCAAGTTTATTATTATCATGAATAATAAGGCATGATTTAACTTGTG -CTGGATCTGTAATTTGATTATTTATTTTATTACGAAATAAAAAAGAAAGGAAATTAATCTTGATTTTGTTTATATAAAAT -CTTTTCTTTTTGTGAAAAGTTCCTAAGCGCATTTTTATACCATATTATTTTAGTTTCAGGATGATTAATTAGCATAAGAA -TCGGTTGAAGTTCTATATTGCATTTTTTTTCTTGTCATATCTTTTGATTCTTCTGCACTGATGTCTTGAAGTTTAATAAA -TGGAATTACATCGTAAGAAATAGCTGTATCATCTGATAAATTATAAATATTAATATCTTTTACATTATCATGCATAAAAC -GAAAAAATGGCAATATTTTGAATAAATCCCTACTTAATTCCGAGGGCATGGGATTTTTATTCTCATCATAGAAACGAGAA -CAGCTACCCGTTAAATCAAGACCAGAACAAATAATCCGCGCATACTTAAGTGAATATGCGATTTGAATTGCAGCAAAGGC -AATAGTATGGCATGAGCAATAACCAAGACTAATGTCCTTGCAAAATCCAACCAGACGACCTTTTTTAGACAACGGTACAG -AGATCAGCAGTTCTTTGTGAATCTGTCTCAAAATATTAAATTTAATCTTCTTTATAAAACCACCTTTTTCCCGACGGTAA -AAGGACCGTAATACGAGGCAGTTCTGGAGGATATAAAGTTTATCTTCTTTGGAAGCGTGTTCATAAACGTCAACGTTTAC -TATGGTATAACGACTTCTCTGGCTAAATTTATAAAAATCATCACGACGCTGATGTAAAAATCGGACATCTGTAAGTACAT -ATATAAAAGGAACGATATTATTACTTAACAGATATTGCGCAGAACCATTGACAGCAATAATATCCTTTGTTCGTAATACT -GACAAAGGTGTTTTTTGCGATGTAGGGCCCGAAAGAAAAATAATAACATCATCAGATATTTTATTTTCAATCAGGTTTTC -AACATCTTTTTTGTCAATGTATCTAATATTCTTCATGATAAACCTGTGAAATAAATAACTCCGCTTAAAACTGTCCTGGT -GAAGACATGTAATTGTGGGATTTTTTTTAGCGCGCTGGTTTCCCTTTCAAACGCCGCATAAAATTGCGCATTTTTTTACG -ATATACTAAAAGATAATAGCCTAGATCTCTAATCTCATTTTTAATACCGTAATGACGCTCTAAGTCAATACGATCTTTCG -CTTTACGCTGCGCTGAAGCACGCTTTCCGGAGAGATCGATAATTCGAACCTCACCATTTTTTATAATGAAGTTACCACGA -TGGGGGTCGCCAGAAACCATGCCATGTTGATGTAAGGCATTAATTGATTGCTGAATTTTATTTTTTAGCGCATCATCAAT -ATCGGGCATATCACACAACTCTATGCCATCAATATACTCGATGATCATGATATAAGTATGGACAAAACGTAAGGTTTTCC -GTTCAGCCAATAAATAAAAGTCATTGAGTGTATTTAACCCTTCATTTCGTACTTTTTGGGTTTGCTCAAAAAGGCGTTCG -TAATAATCACCTTTTAACAGAGACTTAAAGAAACGTTCGTTACGCTTAACTTTCGGAGAAAAAACCTTAAGAATCAATTT -ACCGTAATCGGTATCAATAAGCATAACTTTTGTATCATCAATAGAACGAAAAACCTTGATGATATTTATATTATAAGACA -AGAAGTCATTTAATACATTGAGGTACTTTGAATTGTTTTCATCGGTAAAAACAACCAAGTCTTTGATCTTGCTCTTCTGA -ATCATAATAAACCAGTTAAATGTTATTTACGGTAATATTTTCGGCAAAGATAACAGACTCCTGCTATAATTCCTGAGATA -TAATGATGTTGCACTAAAAGATGTTTATATCTTTTTTTAAATTCAATAATTGATTTCGCATCTCGTGGAGAGTCATCTTT -CCAGGGGGAATTTTCTAAAGCTATTTTATAGTATTTTACCGATGGATAAATTGCCCATTTGTGCCACGGTTTAGTTGCAC -CTGTATAATGAATAAGAAGAGTACTTTCTGTAATCAGCTTTTTATAGTTTTGATGTGTTTTGTCTTTTAATTCACTTTTA -ATTGTATAAATTGTATTGTACTCACGAGGCAAAAATAATGTCATCCCTTTCAGTAAGACATTCATAACATCCTGATCAGG -GTATTTATAAACATTATCTTTACTCATAAGAATAGACAACGCTTTTTCTGTTAGTTTTGCGTCAGCCCATTTTTTTAAGT -CTAAATAAACGACACCGGAATTAAAGTACTGCCCAAGTAATTCAGGATCAGACAACCTGGATACCGCCTTTTCTTGCATT -GGCTCAACATCTTTAACAACAGCAGCAACCGCTCCATTTAAACCCAGATGTAATAGTTGGCTAATATCGCCTTTACAAAC -AACATCTGCATCAAGATAAAGCAAACGATCAAGCGTTAAACCCAATAATTGAAATGCAAATAAACGGAAGTACATTGCTC -TTGACCAGACCTGTGTACAAGGCAAGCACTGGAGCTTATCAGTGTTAATTCTATATAACGTGATTCTTAATTGGTTTTGC -TCTGCAAGCTTTGCAATTTTTTGAAAAAAACCATCATTATAAACATCAGCAATAATATAAAAATCAAGATTAATATGTCG -ATTATTTAGGACAATTGATGTGATGGAAACACCTACACCATCAAGATAATTAGCATCGACACCATAGGCAACATTTAAAC -ATTCAGAAGTATTTATATTAGCTAGCCGAAAATCCCAGGCTTTAACTTTATCTATCTCTATGGCAGGAAATGAGTCCACA -ATGCTACCCTTATATCATTACTTTATAGTTTCCCAGTTTTAATGCTTTATCTTTTCAATAAAATAAAAAAGATAGTTGCT -AAATCCTTTTAGATATCTATGCTTTTTAAGCATATGTTTTGCGCTATATCTTAATTGATTGCTATTGTTCGGTTTCAGCA -ACGCCGTATTCTTCCATGGCGAAGCATTTTTTGCCTCCATAAAGGCTTGTGATACAGGATAATCCCAGGCCCAATCATGC -CAGGGCTTGGTTGGCCCGATATAATGGATAAAAATAGTATCGTTGGTTACTGGGTTTATAAAGCTTTCTTTGAGTTGATA -ATTTAAGCTGAACTGGGTGTTATATTTAATATCAGCGAAAATAAGTTTATCCGCCAGCAACATATTTAACACATCCTGAT -CAGGATGTGTTATTTTTTTGATTATTTCTGGCTCATTTAGCATTGCAATAGCTCGTGCAGAAACCTGCTGAGCCGCCCAT -TGGGCAGTATTAATCAATAAAAAACCGGAGTTAAAGTAACCTTTAGCAATTCCCGCAACACCTAACGAATGGGCGCGTTT -TTCCCACCAGTCAGCTTGCCCTTCTGTAACAACCATTGCGACTTTATCGTCAGGAAATGAGAAATTAATTAGTGGCTCAA -TAGTCCCCTGACAAATGATATCTGCATCCAGATAAAGGACTTTAGGCGCCTTATTAATAAAGTAATCTGCAATAACAAAA -CGAAAATATATTGCATGAGTCCAATTCTTAGTGCTAGGCAATGAGCGCAGTCGATCACCATTAATCAGATATATTTTAAT -TCTGGTTTTATACTGCAACGCCAGGGCATCAAAATACTTACGATCATCATCACCAAAATAATCAGTAAAAATATGGAAAC -ACAATCGACTTCCTTCATTATATTTTAATATTGAAGCAATCGAAATTCCGCAACCAAATAGAAAGTTTTTGTCAGTTCCA -TAAGCGATGTCCAGACAAAGATTTTCTGTTTCTACTTTATGATCATAATCAATAACTGAATTAAGAAACTCAGTTTCCTG -GAAAAACACCTGCTGCATTATTTCCTCCGGGAAATAGCAGAAATAATTACCTTATGTAATCTATCGTAATACTTCGATTG -GTAAAATTCATCGATCGACGCAGGAATTTTTTCATGTTCGATATGAATTTCACCTGCTATATATTTATTTAGAAGAGTTA -CAAAACCAGCAATATCTCCCGGTTGATACAGATGGCCATTGACATCAGGTTGAATAATGTCAGCAGGCCCGGAGACACAA -TCGGCACTGATACAAGGAATCCCCCACGACAAGGCTTCAAGTAGGGTCATTGGGAAACCTTCAAAAGATGACGTGAGCAA -TAACGCACTCACTTTTTCAATATCTTGCTGGACCAATTCCCAGGGATATTGTTGCCAACCATACCAGACAATTCGATCAT -CAATATTTAATTCTCTACCATAAGCCTGGCATTTTTCGAAATCGGAGCCATCACCCAATACATGGAGTTTCCAGTTACCT -TTCGCTTGTGATAAGCCATCAAGCAGGTCTTTAACTCTTTTCTGGCCTTCAAATTTCATACGCCCAACATAAATAAACGT -TGCCGTTTCACCTTCCTCGGGCGCGGGAATGACTGAGTCTTTAGTTTCGACGGGATTAAAAATAACATTTATCGTCGATT -CTGCTACACCTCGATTAATCATTTGCTGTTTAATGCCAGAGCTGATTGCTAAATGATAGTCGGCACAGGTGATATATTCA -GCATGTTTTTTGTGATCTAAAGAAAAATGTGGCCATGAAAATACTGGCATATCAATTCCTGATTTTTTACGTGCTTTTGC -GGCAAACAGGCAGGAGATCACATCAATACAAATAACGATATCTGGTTGGTACTCCTGAAGCCATTTACTTAGAGCATGAA -TATGTTTCGCCCGACGCAAAAAACCTAAACGAATATTGGAAAATGAACATGAGTATTTAATACCTTCCAGCCATCCCTTA -TCCATTTTGTCATTACGACAAAAGAAAAACATTTCACTTTGGATATGTTGTTGCCTGAAGGTAGTAATAACATCACGGAT -GACAGTTTCCATGCCGCCAAATCCAGAAACAGCTTCGCCGATAAACGCTATTTTCATAGAAACTCTCATTAATTGAGTAA -AACTCACTGTTTTAACGGTTTTATTTGTCTATAAAATCAGAAACAATCGTTGACATCATTTTATCTGGACTGAATTTATA -TAAACTATCATAATCCATTGGTTTAACAGATGAGTTAATAAAATACTCTAACTTATCCCAATCATCATGACCTATTATAA -AAAAGCGAGATTCACTATAGATTTCTGAACCAAATACATTTATATTATTAGTAATTAATTTTTTATTGAAAAATAGTGCC -TCAAGTATACGAAGAGTCCAGCCAGATTGGTTTTCTTTGGTTATATCAACAATTATATTAGCATTTAATGTTCTTCTAAT -ATTCTCTTCATAAGATATTTGTTTTTCAATCAAATACTTTGAAGTCGTAGATGATGTCTTATCTTTGACAACATTAAAAT -CTAGCTTACATCCTAGTGTTGTTAATCTCTCGGCTAACTCATTAATTATTTGAAGACGCCCTTTATCACGACCAAGGAAA -AAACATATTGGCTGGCTGTTATTTTTGTCAGATAAACTATAATTTCTAATTTCATCCATTCCTATAGGAAAAAATTGTTC -TATTGCCTTGATCTTTTCATTCCCTATAAATCTATGCTCAAAATCATATATAATATCGAAATAATTCGCGTTATCAAGAA -TAAAATCTTCGCCAACAGTATTTCTTAGAAGCAAAACTTTATGACAGTTAATATTTTTTAATATTTGTTTATTGATACCT -TTATTAACAACACTGTCATTAATGATAATTATGTCATCTTTTTTAATATCATTGAGGTAATGCTTGATGAATAATCGCCC -CAGCCATGCATTATCCATCCCTATTTTTGATATTTTTTTATTAATCCAGTTATATTTTTTTGGTGTTGTTATATTTTTTA -TCTTGTACTTTTTTTTCAGGTACTGAATCATTTTTAATTCATAATCTGCAACCCAATTTATAAAATAAATAGTCATAATA -AAGTTAGTTCCAGTACATACTAATAAATATTTTTATAATCCTTTGCGTTGTGTTCGCTCTTTAATACGCTCGGCCTTAAC -GCTTGCCATGTTCAATAAATTCTGTTCAAGAGACAATATTTTGCGTAAAGGCATCCCAAAATAAACCTTCATAAATCGCC -AGATATCTCTTTGCGTCAGGCCAATATTCATTGATGAGAAATATAAACCAATCAGGTCTTTATCGCGCCAGCGGCGCGGT -ACTTTTGCACGTATCTGTGCCCGATGCAGATCGATAACTGAAATTTTTAATTCATCTTCCCGGCCAGTAAATGGCAAATG -AAGCAAAAAGTGGCAAATGTAACAGTCGCGGTGATTTATCCCTGCAGTATGCATTTTACGCACCATAGTTGCTACACGTG -CGATCAGCATACGCTTAACACGTATATCAGGCGGGTTGACTGCCCAATCGGCACAATAATCTTCAAGGCTAATTGTGGGA -GTGAGATCTTCGGTAATAATAAATGATGCGCGAGTTAATGGATTTAACCCTTTTTCGCCAAACCCAATGCCCTTCATTGT -ATCAACGCCAACATCACTCAGGCGATGAATAGCGTGCCACTCTCTGTCTGCGCCCAAAACGGGCATCCGCAATGAGAGTA -GATTTTTTATAATCTCTTTTAATGTCGTCCCCTTGTGCCATTTAAGAAAATAGCTTTTCCCGGACAGTTCAAAGCGTAAT -GTACGACGAGTCTCCAGTTCACGAAAGACCTCGCCGTTCAGTTTTTTGACCTCTGCAAAAGCATCTTTACCACGCCAAAG -TGTGGCAAGCGGCTCTTTTAATTCAACCATCTAAACCACCTGTAATGATATCCGCGGCTTTTTCTGGCAAGCTATACAAA -TCCTGAGTATCGGCATAATGGCGAGCATTCTCCGCCCAGGCCATTCGCAATGGCGACTGAGTTAACGCTTTACGTAAAAC -TTCATTTAATTGTTCCTGAGAGAAAGGTTCAGCGATGACCGTTCCACAATTGGCATCCGCAATATAATGCGCGTACCCAC -ATACCGCTGTTGTTAAAACAGGTAACCCAGCAGTGATCGCTTCTAGAAGAACGATACCCGCGGCTTCCTGATAAGCGGGA -TGCAGTAATAAATCAGCGGCTGCCATTAATTCTGACACATCATTGCGACCGGAGAAGAAATGCACATTGCTCCGCACGCC -GAGTTTTTCTGCCAGCGCTTCAAATTTTCGCGGCTTATCCTGACCAACAACAAATAAAAGCGTATTGTGACGTAATGATT -CCGGTAACGATGCCAAAGCTTCAATTGAGCGATCTACACCTTTACGGCCAAAATCTGATCCAACCTGCAGTAATAAGTTT -TGTTGCTCTTTTATGCCATTTTTCTGGCGATAAATTTCACGGCTGTTTGGGATTTGCTCACTGTATTTTCTGTCCGGATA -AATACCGGGAGGAAGAATTTGAAAACGTTCAGGTTCAGTTTGATAATGCTTCTGGAAATCGGCGATTTGCTTATCGGTCA -GCATCATAAGTTTCGTCGATTTACCCTGCTCGAAAGTCGCTCGCTCAAATGCGGCATAATGGCGATATCGTGATGTTAAA -CGATATAAAAAACCTTTTTCTTGCGCAACTTTCTCGGCGTAACAAACATCAGCGGCAAAATAAACATCCAGGCCAGGCAT -CTTATTAAACCCAACAACGCGATCTGCGGGATGCTCTTTGAGATGATTTTGTACCCAGGCATAATATTCTGCATTGCGTC -CATGGTTGGTATGGGACTTAACTGGCACCTGAATAAGCTCAAATGCTTTCGGGCAATCGCCTTCCCACGACTGTGTATAT -ACCCGAACATGGTGGCCCCGTGCGGCAACTGTTGATGCAATGCGCATAAAGTCACGTTGAAGCCCACCAAATGGAAAATA -TTTATATAAACAAAACGCCACGATCATAATTGTGCATTCCTGTCAGCTGAAGGGGCATCTTCTGGCAACAGCTTTTCCGT -AGCGGCGATCACATCCTCCGCTGGGATAACAGAAAGATATTTTTTGTTGCGGTCAAGTTCATGCCGGGTCGGCATTTTCT -GATAATTCCCCGCCCAGAATTGAATAATATTCTCGGTCCAGGGACGCCAGAATACGTGATCCGTTGCACCAAATAGACTA -ATGACTGGCGTTTTCACTGCCGCTGCAATATGTCCCGGCGCAGAATCCACACCAATAAAAAGCACTGCATGATCAATTAA -TGCACCCAGTTCAGGAAAACGTGTTTTACCTGCAAGGCCAGTAATGGGTTTTGTTTCGCAACCTCGTGCAATCTCATCTA -CACAAGCGAGATCATCTGCCGAGGGCCCACAGGTTAGCACAACCTGATAGCCTCGCTGTTGCAGCGCATCGATAACCTTA -GAAAATTTATCGTTATCCCAACACTTAAATATCTGACGCGCTGTCGGTTGGATGACAACATAATGATCTTTTACGCCCAG -GGCATCTAATTCCCGGCGCATCTTCTTCCAGCAATCTTCGGCGTAACTCATTGTTGTGTCGGTGTAGAAATCGGTAATAC -CTAATGGCTCAAGGACCGATAAATTACGCTCAACAATATGTGTACCGTGTATTGGCGCTAAGTGTGTGAAGCTTTTTTTC -CAAATACCATGCTGCCGATGACCATAAAGTTGCGATATTTTCATCCGTGCAGGTAAACAACGTACCAGCAGCGCCACCAT -CCACTGATCCGTAAGATTAATGACCAGGTCATAATTATTCGCACGCAGAGTTTTTATCAACGAAAGCACATTTTTAATTT -TATCGAAAGTTCCCGCACCTTTATTGCTTATCCCATAGAGCGCATTAATTTCCGGGTTTTCAGACAAAATAGGGATGGTG -TCCTGATAAAGCAGCATATCGATTTTTGCATCAGGATAATTCTGCTTGAGCGTACTGATGACAGGAGTAGTTAATAACAT -ATCCCCATGATATCGCATCTTTATGACCAGGATTTTTCGAAATGGCTTTTCCACTAGCGACTCTTTTGTGTGATTGTCTG -GTTAAGTTAAGCAGAAAAAAGCACGCTACCGCCCCAGGCTCAACAGCTACCTGAATACTGATAACGCACTTACTTTGACG -TGCTAGTGTATCATTTCTTTCGCAGCAATCCGACCCGAATGATTTTTATACACAAAATATACTTTAATCATAAAAATCAA -ATAGATAAAAAATAGCATTTCGATAATGTCAGTACGGCCTATGTAGATTTGAAAATGGGGCCGAGTTTCAATGAATCGCA -TAAAAATACAAAAAAAATGAAGATGTAGCGGCAGATCAGACCAAACTGAAGCTATTTAAGTCAAAAACGGGAAAAGTAAT -GGTAAAGCCACAGCTAAATACATAGAATCCCCAGCACATCCATAAGTCAGCTATTTACTATGCTCGAATTGCTTTACACC -GCCCTTCTCTACCTTATTCAGCCGCTGATCTGGATACGGCTCTGGGTGCGCGGACGTAAGGCTCCGGCCTATCGAAAACG -CTGGGGTGAACGTTACGGTTTTTACCGCCATCCGCTAAAACCAGGCGGCATTATGCTGCACTCCGTCTCCGTCGGTGAAA -CTCTGGCGGCAATCCCGTTGGTGCGCGCGCTGCGTCATCGTTATCCTGATTTACCGATTACCGTAACAACCATGACGCCA -ACCGGTTCGGAGCGCGTACAATCGGCTTTCGGGAAGGATGTTCAGCACGTTTATCTGCCGTATGATCTGCCCGATGCACT -CAACCGTTTCCTGAATAAAGTCGACCCTAAACTGGTGTTGATTATGGAAACCGAACTATGGCCTAACCTGATTGCGGCGC -TACATAAACGTAAAATTCCGCTGGTGATCGCTAACGCGCGACTCTCTGCCCGCTCGGCCGCAGGTTATGCCAAACTGGGT -AAATTCGTCCGTCGCTTGCTGCGTCGTATTACGCTGATTGCTGCGCAAAATGAAGAAGATGGTGCACGTTTTGTGGCGCT -GGGCGCAAAAAATAATCAGGTGACCGTTACCGGTAGCCTGAAATTCGATATTTCTGTAACGCCGCAGTTGGCTGCTAAAG -CCGTGACGCTGCGCCGCCAGTGGGCACCACACCGCCCGGTATGGATTGCCACCAGCACTCACGAAGGCGAAGAGAGTGTG -GTGATCGCCGCACATCAGGCATTGTTACAGCAATTCCCGAATTTATTGCTCATCCTGGTACCCCGTCATCCGGAACGCTT -CCCGGATGCGATTAACCTTGTCCGCCAGGCTGGACTAAGCTATATCACACGCTCTTCAGGGGAAGTCCCCTCCACCAGCA -CGCAGGTTGTGGTTGGCGATACGATGGGCGAGTTGATGTTACTGTATGGCATTGCCGATCTCGCCTTTGTTGGCGGTTCA -CTGGTTGAACGTGGTGGGCATAATCCGCTGGAAGCTGCCGCACACGCTATTCCGGTATTGATGGGGCCGCATACTTTTAA -CTTTAAAGACATTTGCGCGCGGCTGGAGCAGGCAAGCGGGCTGATTACCGTTACCGATGCCACTACGCTTGCAAAAGAGG -TTTCCTCTTTACTCACCGACGCCGATTACCGTAGTTTCTATGGCCGTCATGCCGTTGAAGTACTGTATCAAAACCAGGGC -GCGCTACAGCGTCTGCTTCAACTGCTGGAACCTTACCTGCCACCGAAAACGCATTGAGGTTGTTATGCAAAAACGGGCGA -TTTATCCGGGTACTTTCGATCCCATTACCAATGGTCATATCGATATCGTGACGCGCGCCACGCAGATGTTCGATCACGTT -ATTCTGGCGATTGCCGCCAGCCCCAGTAAAAAACCGATGTTTACCCTGGAAGAGCGTGTGGCACTGGCACAGCAGGCAAC -CGCGCATCTGGGGAACGTGGAAGTGGTCGGGTTTAGTGATTTAATGGCGAACTTCGCCCGTAATCAACACGCTACGGTGC -TGATTCGTGGCCTGCGTGCGGTGGCAGATTTTGAATATGAAATGCAGCTGGCGCATATGAATCGCCACTTAATGCCGGAA -CTGGAAAGTGTGTTTCTGATGCCGTCGAAAGAGTGGTCGTTTATCTCTTCATCGTTGGTGAAAGAGGTGGCGCGCCATCA -GGGCGATGTCACCCATTTCCTGCCGGAGAATGTCCATCAGGCGCTGATGGCGAAGTTAGCGTAGCGTTTATGCCGGATGG -TATGCCATCCGGCGCGCATGAATTACTTCTGGCACTGCCGACAATAAAACGTTGCCCGCTGCGCATGTTTAGTCGCCACA -ATCGGCGTACCGCACACCCGACACGGCTCACCTTTTCGCCCGTAAACCTGCAATTCCTGAGCGAAATAGCCCGGTTTACC -ATCACTTTGCAGAAAATCTTTCAGCGTTGTACCACCCTGCTCAATCGAACGCAGCAACACCGCTTTAATCACCCGAGCTA -ACAATTCACACTCTGCCAGCGACAGTGATGACGCCAGCCGATCCGGATGGATCCCCGCCGCAAACAGTGATTCGCTGGCA -TAGATATTCCCTACCCCTACCACCAGCTTGTTATCCATCAGCCACGGTTTAATCGCCGTTTTTTTCTTCGCGCACTTCTG -ATGCAGATACTCACCATTGAAATCGTCGCTAAGCGGCTCCGGTCCAAGATGGGTCAGCACATTATGCCCTTCCAGCTCTT -TGGTCCACAGCCAGGCACCAAAGCGGCGCGGATCGGTGTAGCGCAGCACTTTGCCGTTGCTCATCACCAAATCCACATGG -TCATGCTTTTCAGGGGGAAGTTCTTCTGGAAGGATGCGCAGGCTGCCAGACATCCCTAAATGAATGATAATCCAGCCCTC -AGGCAGCTCCAGCAGCAGATATTTAGCCCGCCGCTGCACGCTAAGCACTGGTTGGTCGCTTAAACGGTAGATCTCTTCTG -AAACCGGCCAGCGCAAGCGTCCGTTGCGCACCACTGCATGAAGAATGGTTGCACCAACGAGATGCGGTTCTATGCCGCGG -CGGCTGGTTTCAACTTCGGGTAATTCAGGCATAGCATCTCCAGGAATGAACAGATGCAGTCAATATGGGGGCAAGCAGAT -AACAAAAAACCCCGCCGGAGCGAGGTTTTTTGTTACATCAAAGCGAGAATTATTTGATTTTCGCTTCTTTGTAGATCACG -TGCTGGCGAACAACTGGATCGAATTTTTTCAGTTCCAGTTTTTCCGGCTTAGTACGTTTGTTCTTCGTAGTGGTATAGAA -GTGACCAGTACCAGCAGAAGAAACCAGCTTGATTTTCTCACGAATACCTTTAGCCATGATTTATTTCCTCTAAGTACTTA -GTACTTTTCGCCACGGGCACGCAGTTCAGCCAGAACTGTATCGATGCCTTTTTTATCGATTACACGCATACCTTTAGCAG -ATACGCGCAGGGTGACAAAACGCTTCTCGCTCTCAACCCAGAAACGGTGAGAGTGCAGGTTCGGCAGGAAACGGCGTTTA -GTCGCGTTCAGTGCGTGGGAACGGTTGTTACCGGTCACCGGACGCTTGCCAGTAACTTGGCAGACTCGGGACATGTCTAT -TCTCCAAAAATCAAATTAGCTCGAGCTTCGTATGGGGTATTGGCGCCTCGTCAGGCTTTACAGCCCGGTCATCGCAGTTC -TATGTGAACTCTCGATTGCCAGGCCCAAATGCCAAACCCGAGATTCTCAAAGGTGGCGTAGTATACGCTGACTCAGCGAT -GTGCTCAAGTCCCGAACAGACAAAGATCCCGAAGGATCGCGCATAGCGGGTTAAATCCAGCCGCGTTCGGCAAAAGAAAC -ATACTCTCCACGCCCAATCACGATATGGTCGAGCACGCGTAAATCCATGAACTGACAACTCTTTATTATCCGTTCAGTAA -TGAGTTTATCCGCTTTACTGGGTTCAGCACAACCCGAAGGGTGATTATGTGCAAGGATCAGCGCCGAGGCGTTTATTTTT -ATCGCTTCGCGGATAATTTCCCGAGGATGGACTTCAACATGGTTTAGCGTGCCGGAAAAAAGACGCCTATGCGTTATAAC -CCGGTGTTGGGAGTCGAGAAAGATCACCATAAAGATCTCCCGCTCCTCACCCGTGAGCTGGCTTTGTAAAAATTCCCTCG -TCATCTCCGGGCTGAGTAAAGGGCTTTCTTCACGCATCCGCACGTTGTAGTAACGCCGCGCCAGTTCAGCAATCCCCTTT -AACTGGGCAAATTTCGCCACGCCAATTCCATGAACGCCACTAAATTGTTCATATTCAGAGGTTAACAAGCCATAAAGAGA -GCCGAAATTCTCCAGCATCTCTTTTGCCAGGGTTAATACATCTTTACCGCGCGTTCCGGTACGCAGAAATAGCGCCAGCA -GCTCGACATCCGTTAAGGCGCTAATACCAAACTTCAGCATTTTTTCGCGCGGCATCAACAGCTGTGAATTGTTTTTCACC -TTCACCTCCTTTGTGGTGCTCGCATCCTGTCATAGCCGTTTCGTTAAATCGACGGCCAGTTTTCAATCCTGGAAAGCGCC -TCGCAAAGTGAATCTCAGGTGAAGGCACGACAACAAAAGTATTGTGATAAAATCGCCAACTTCTGGTGTCACCCTACAGG -AAAAATCATCATGAGCCTGGCCGGTAAAAAAATCGTTCTCGGCGTTAGCGGCGGTATTGCTGCCTATAAAACCCCTGAAC -TGGTGCGTCGTTTGCGCGATCGCGGGGCCGACGTCCGCGTAGCCATGACCGAAGCGGCAAAAGCCTTTATCACCCCACTT -AGCTTGCAGGCGGTTTCTGGTTATCCCGTTTCCGACAGTCTGCTGGACCCGGCAGCCGAAGCCGCTATGGGCCATATTGA -GCTGGGTAAATGGGCTGATTTAGTGATTCTCGCCCCTGCCACGGCAGATTTGATTGCCCGTGTTGCTGCCGGAATGGCGA -ATGACCTGGTATCGACGATTTGTCTGGCTACACCTGCGCCTGTAGCCGTGCTCCCCGCCATGAACCAGCAGATGTACCGT -GCCGCTGCCACGCAGCATAATTTAGAGGTGCTTGCTTCCCGTGGTTTGCTCATCTGGGGGCCAGACAGTGGCAGTCAGGC -TTGTGGTGATATCGGTCCTGGGCGAATGCTCGATCCGTTAACCATTGTGGATATGGCGGTAGCGCATTTTTCGCCCGTCA -ACGACCTGAAACATCTGAACATTATGATTACCGCCGGCCCGACGCGTGAACCGCTCGATCCGGTGCGTTATATCTCTAAT -CACAGCTCCGGCAAGATGGGTTTTGCTATCGCCGCCGCCGCTGCCCGTCGTGGCGCGAACGTCACGCTGGTATCAGGTCC -GGTTTCACTACCGACGCCACCGTTTGTTAAACGTGTTGATGTGATGACCGCGCTGGAAATGGAAGCCGCCGTGAATGCTT -CTGTACAGCAGCAAAATATTTTTATCGGCTGCGCCGCCGTGGCGGATTATCGCGCAGCTACCGTGGCCCCAGAGAAAATC -AAAAAGCAGGCCACGCAGGGTGATGAATTAACAATAAAAATGGTTAAAAACCCCGATATCGTCGCAGGCGTTGCCGCACT -AAAAGACCATCGACCCTACGTCGTTGGATTTGCCGCCGAAACAAATAATGTGGAAGAATACGCCCGGCAAAAACGTATCC -GTAAAAACCTTGATCTGATCTGCGCGAACGATGTTTCCCAGCCAACTCAAGGATTTAACAGCGACAACAACGCATTACAC -CTTTTCTGGCAGGACGGAGATAAAGTCTTACCGCTTGAGCGCAAAGAGCTCCTTGGCCAATTATTACTCGACGAGATCGT -GACCCGTTATGATGAAAAAAATCGACGTTAAGATTCTGGACCCGCGCGTTGGGAAGGAATTTCCGCTCCCGACTTATGCC -ACCTCTGGCTCTGCCGGACTTGACCTGCGTGCCTGTCTCAACGACGCCGTAGAACTGGCTCCGGGTGACACTACGCTGGT -TCCGACCGGGCTGGCGATTCATATTGCCGATCCTTCACTGGCGGCAATGATGCTGCCGCGCTCCGGATTGGGACATAAGC -ACGGTATCGTGCTTGGTAACCTGGTAGGATTGATCGATTCTGACTATCAGGGCCAGTTGATGATTTCCGTGTGGAACCGT -GGTCAGGACAGCTTCACCATTCAACCTGGCGAACGCATCGCCCAGATGATTTTTGTTCCGGTAGTACAGGCTGAATTTAA -TCTGGTGGAAGATTTCGACGCCACCGACCGCGGTGAAGGCGGCTTTGGTCACTCTGGTCGTCAGTAACACATACGCATCC -GAATAACGTCATAACATAGCCGCAAACATTTCGTTTGCGGTCATAGCGTGGGTGCCGCCTGGCAAGTGCTTATTTTCAGG -GGTATTTTGTAACATGGCAGAAAAACAAACTGCGAAAAGGAACCGTCGCGAGGAAATACTTCAGTCTCTGGCGCTGATGC -TGGAATCCAGCGATGGAAGCCAACGTATCACGACGGCAAAACTGGCCGCCTCTGTCGGCGTTTCCGAAGCGGCACTGTAT -CGCCACTTCCCCAGTAAGACCCGCATGTTCGATAGCCTGATTGAGTTTATCGAAGATAGCCTGATTACTCGCATCAACCT -GATTCTGAAAGATGAGAAAGACACCACAGCGCGCCTGCGTCTGATTGTGTTGCTGCTTCTCGGTTTTGGTGAGCGTAATC -CTGGCCTGACCCGCATCCTCACTGGTCATGCGCTAATGTTTGAACAGGATCGCCTGCAAGGGCGCATCAACCAGCTGTTC -GAGCGTATTGAAGCGCAGCTGCGCCAGGTATTGCGTGAAAAGAGAATGCGTGAGGGTGAAGGTTACACCACCGATGAAAC -CCTGCTGGCAAGCCAGATCCTGGCCTTCTGTGAAGGTATGCTGTCACGTTTTGTCCGCAGCGAATTTAAATACCGCCCGA -CGGATGATTTTGACGCCCGCTGGCCGCTAATTGCGGCACAGTTGCAGTAATATGACGCCGGATGACTTTTCATCCGGCGA -GTTTCTTTAAACGCCAAACTCTTCGCGATAGGCCTTAACCGCCGCCAGATGTTCCGCCATTTCCGGCTTCTCTTCCAGGT -AAGCAATCAGGTCTTTCAGGGTGATGATAGAGATCACTTTGCAGTTGTAATCACGCTCAACTTCCTGAATCGCCGAAATC -TCGCCGCGCCCGCGTTCCTGACGATCGAGCGAAATCAACACGCCAGCAAGCGTCGCGCCATTGGCCTGAATAATCTCCAT -CGACTCGCGAATCGCCGTTCCGGCGGTGATCACATCATCTACCAGCATTACGCGTCCTTGTAACGCGCTACCAACCAGAT -TGCCGCCTTCACCGTGGTCTTTTGCTTCTTTGCGGTTAAAGCAGTACGGCAGGTCCAGGTCGTGATGCTCCGCCAGTGCC -ACAGCGGTTGTGGTGGCAATCGGGATCCCTTTGTAAGCAGGGCCAAACAGCAGATCGAACTCAATGCCGGAATCCACCAA -CGCTTCAGCGTAAAAACGGCCTAACAGTGCCAGATCGCGCCCGGTATTAAACAGCCCGGCGTTGAAGAAATAGGGGCTTT -TGCGCCCGGATTTCAGCGTAAACTCGCCAAACTTTAACACCTGCTTGCTAAGCGCAAATTCAATAAACTGGCGCTGATAT -GGTTTCATGCCTTCGCTCCTCATCTTACTTTTCTACAGACAAAAAAAAGGCGACTCATCAGTCGCCTTAAAAATCAGTTT -GCCAGCGCCGCCTTCTGCGTCGCTACAATGGATTCGATTCCCCCTCGGGCCAGAGCCAACAAGATGAGTAGCTCTTCATG -GGTGAACGGCTCGCCTTCTGCCGTCCCCTGCACTTCAATGATGCGCCCGTCTTCGGTCATCACTACGTTCATGTCGGTCT -CTGCGGCAGAGTCTTCAACGTATTCCAGATCGCAAACCGCTTCGCCGTTCACAATTCCGACAGAAACTGCGGCTACCATC -CCTTTCATCGGATTGGTTTTCAGCTTGCCGTTTTCCACCAGCTTCTGTAGCGCATCTACCAGCGCCACGCAGGCACCCGT -AATCGACGCGGTACGCGTGCCACCATCAGCCTGAAGCACGTCGCAGTCCAGCGTAATGGTGAACTCACCCAGCGCTTTCA -AATCTACTGCCGCGCGAAGAGCACGGGCGATCAGACGCTGGATTTCCATTGTGCGTCCACCCTGCTTACCTTTCGCCGCT -TCACGAGCGTTACGGGTGTGGGTAGAACGTGGCAGCATGCCGTACTCTGCGGTGATCCAGCCCTGGCCCTGACCTTTCAG -GAAGCGCGGCACGCCTTCTTCAATAGAGGCGGTACACAACACTTTGGTATCGCCAAATTCGACCAGCACCGAGCCTTCTG -CATGTTTTGTATAGTTACGAGTCAGGGTAACGGGACGCACCTGATTATTGCTACGGCCTGCTGGACGCATATTGAAATCT -CCGGCTTGAAACAAATGTGGCTGCGCATTATACGGACTTCCGGCGGTTATTCCTATCCTGACAAGGCATCGATGGCTATA -ATCCTTCCACCTCTCCTTTTATAAACAGGAACGTCTATGATCCGCAGTATGACCGCCTACGCCCGGCGTGAAATCAAGGG -TGAATGGGGGAGCGCAACCTGGGAAATGCGCTCGGTAAACCAGCGTTATCTGGAAACTTACTTTCGTCTGCCGGAGCAGT -TCCGTAGCCTTGAACCTGTCGTTCGCGAGCGTATTCGTTCTCGCCTGACGCGCGGTAAAGTGGAATGTACCCTGCGCTAT -GAGCCAGATGTTAGCGCGCAAGGTGAGCTGATCCTCAACGAAAAACTGGCTAAACAGCTGGTAACTGCCGCGAACTGGGT -AAAAATGCAGAGTGACGAAGGGGAAATCAACCCGGTTGATATTCTACGCTGGCCGGGCGTGATGGCAGCCCAGGAGCAGG -ATCTTGACGCCATTGCCGCTGAAATTCTCGCGGCGCTGGATGGTACGCTGGACGACTTTATTGTCGCGCGCGAAACCGAA -GGTCAGGCACTGAAAGCATTGATCGAGCAGCGTCTGGAAGGCGTCACCGCCGAAGTGGTCAAAGTCCGCTCCCATATGCC -GGAAATCCTGCAATGGCAGCGTGAGCGTCTGGTCGCGAAGCTGGAAGATGCTCAGGTGCAACTGGAAAACAACCGTCTGG -AGCAGGAACTGGTTCTGCTGGCACAACGAATTGACGTTGCCGAAGAACTGGATCGCCTCGAAGCGCATGTCAAAGAGACC -TACAACATTCTGAAGAAAAAAGAAGCGGTTGGTCGTCGTCTGGATTTTATGATGCAGGAGTTCAACCGCGAGTCGAACAC -TCTTGCGTCGAAGTCTATCAATGCCGAAGTGACAAACTCCGCCATCGAGCTGAAAGTGTTGATTGAGCAGATGCGCGAGC -AGATTCAGAACATCGAATAACTCGTAACGCCAATTCTTACTTTTCCGCCTTCACAAATGCCGCCACTCAAACAGAGCGGC -ATTTTTCTTCCCCGCAACATTCAATTCTGTTTTGCGTGCCTGCTCCAGATTTTGCGATGTTTTTTTGCCCAGCACACTGA -GAACGTGAGATACTCACAACTGTATATAAATACAGTTACAGATTTACTTTCTTTGCAATTGATATCACATGGAGTGGGCA -ATGAACGAACATCATCAACCTTTTGAAGAGATAAAACTGATTAATGCAAACGGAGCAGAACAATGGTCAGCAAGACAACT -TGGGAAACTACTGGGTTATTCAGAGTATCGTCACTTTATACCTGTATTAACGCGCGCCAAAGAAGCCTGTGAGAACAGTG -GTCACACAATTGATGACCATTTCGAGGAGATCCTCGATATGGTCAAAATTGGCTCAAATGCCAAAAGAGCATTAAAAGAC -ATCGTACTCTCCCGCTATGCCTGTTACCTGGTAGTACAAAACGGCGACCCTGCGAAACCGGTCATTGCGGCAGGGCAGAC -TTATTTTGCTATCCAGACCCGACGGCAGGAGCTTGCTGACGATGAAGCATTTAAGCAACTTCGTGAAGACGAAAAGCGTC -TGTTTCTGAGAAATGAGTTGAAAGAACATAACAAACAATTGGTTGAGGCAGCACAGCAAGCTGGGGTAGCGACAGCTACT -GATTTCGCCATATTTCAGAATCATGGTTACCAGGGGCTGTATGGTGGATTAGATCAGAAAGCTATTCATCAGCGGAAGGG -GCTGAAAAAGAATCAGAAGATCCTGGATCATATGGGTTCAACAGAACTGGCGGCTAATCTCTTTCGAGCTACCCAAACAG -AAGAAAAACTCAAGCGGGATGGCGTGAATTCAAAACAGCAAGCAAACACCACACACTTTGACGTGGGTCGCAAGGTGAGG -CAAACCATTCAGGAACTTGGCGGAACCATGCCTGAGGAGTTGCCGACCCCGCAGGTCAGCATCAAGCAGTTGGAAAACAG -TGTAAAAATTACAGAGAAGAAATAGCAGAAACTAAAAACTCTTTTTGTTGATTGAGACACCCGATGCGTAAGCCAAGGTC -CAGGTGCAGTGAACACAATGGCTAAATATTGCACCTTTCTTTTCCCCCTCAGTTTTAACCTATTTTTTCTTATGCATTTT -CTCAGACAAGAAGTCAGAAGAATGCATCTCTGCTACAGAAAATAGCGATTTCACATAACTACAAGTTATCAATTTCCCCT -CCCCTTAAAAAATCTCAATCGTGACAATGCGCACAAATCGCTACCCTGCCAGACAGATTTTTAGGGAGAGAACCATGCTG -TTACACATTTTGTATTTGGTTGGCATTACTGCCGAAGCCATGACGGGGGCGCTGGCGGCCGGACGACGGCGCATGGATAC -ATTTGGCGTAATTATTATTGCGACCGCCACCGCAATTGGCGGAGGGTCAGTGCGCGATATTCTGCTGGGCCACTATCCGC -TCGGCTGGGTCAAACACCCGGAATATGTGATTATCGTCGCTACCGCCGCAGTACTCACCACTATCGTTGCTCCTGTAATG -CCTTACCTGCGCAAAGTGTTTCTGGTGCTCGATGCGCTCGGACTGGTGGTCTTTTCTATCATCGGGGCACAGGTTGCACT -GGATATGGGGCACGGCCCAATTATTGCCGTTGTCGCGGCGGTAACCACCGGCGTGTTTGGCGGCGTTTTGCGCGATATGT -TCTGTAAACGTATCCCACTGGTATTCCAGAAAGAGTTGTATGCCGGTGTCTCATTTGCCTCCGCCGTGCTGTACATCGCG -CTGCAACACTATGTTTCTAACCATGATGTGGTAATTATCTCCACCCTGGTATTCGGCTTTTTTGCCCGCTTACTGGCGCT -ACGCCTTAAGCTGGGATTACCGGTCTTTTACTACAGCCACGAAGGACACTAAGGTTCAAAACCTGTGATCTGCTGGGCAG -CCAGCCAACTGCCCAGCTTCTTGATTTGCGCATTTTCCTTCCATTCAATAACCTGTCTGGCGCGTCCCGATCCAGTCCCC -GGCAGCTGCTGCCAGAACTGCTCCGTGCTAAATAAAAGTTGCGACCAGGACCGTTCATCACTGGCATTAAGCGCCGCCCG -GGTTAGCGGTATTCCCATTGCCATCACCCAGCGAGTAAAAGGCTGCTTACGAGCCAGATTAAACTGATGCCATAGCTGCG -CACTTTTACTTTTCGCGATCCCCGGCGTGTTCTGTAATTGCTCTGGCGTTAATAAAAGCCAGGAAAAGATATGTTCAAAG -CGATGAGTCTGATGCAGCGCGCGCCAACCGGCCTCACCAATGCCATCCAGCCCAAGAACCTGTTTTGCCCCCAGCCAGAC -TAAGCGTGAAATGAACTGTTCCTGACAAACATCAGAAGCAAAGTAGCAGGTCAACGAGTTAAAGCGGTTTTCTGGCGGTG -TCGGTTTTGTACGTTCTGCACCGCGCCACACCACATCATCAATGCGAGGAATACCCTGACCGGCAAGGCTGACGAGAATC -TGATCACCAGGCGCAATATCCCACTCCTGCCAGCGCCTGACGGAACCAATATTCACCCGCTGGACTTTTTTATCATCCAG -CATGACAGGTGCGAGTGACGCAACCACCGATATTTTACCGCTCTTACCCACCGCAAACTGAATTGCCTTCACTTCGGCAA -CCTGAGCTACAGGTTGATATTTCCAGGCCACCAGCCACTCTGCCTGGCCCGGTAGCCAATGGCGGGATTCTGGCTCTTTC -GCCGCTCGTACAACTACGCCATCGGTGACGAAGGGTAATTCCGCTTTCCACCACTCATTGCGTACGCGCGCAACTTCATC -AGCATTTTTCACCGCACGGGTATACGTCTGCGTTAGAGTAAAACCTGCGGTAGCCAGCTCTTTTAAACGATCAGACATTA -ACTGCGGTCCATCCGGCCATGCCCAGACAAAAACGCCCAGAGAATTCAGCGTGTCGCTATCGTCCTGGCGCATCATCAAG -CCAGCAACTTTTGCGCGGGCATTTATTCCCCCCATTTGTTGTTGGATATGCCCCTCGCGCTGGAGAAATATTTCCCCCTG -AAGCGTACTGTTGGCTAAAGGCCCGCTAACGGTTTGCGGCACAGCGGAAATTAAGCTAACTTTCTGCGTCCAGTCCTCGC -CTTTCAGGCCATTACCGCGACTGATTGCTTTGTTCAGTTTCCCGTCCCGATAAACCAGGGTTACCGCAACGCCATCAACT -TTTGGCTGCACCCAAAGATCGCTACGTTCTCGCATCCACAGACTTAATGCGTTTTTATCCACCATTTTGCGTACACCCGT -ATGGGCAACCGGATGCATAACCGCACCATTTAAAGGCGGCATCATCACGTCGCGGGGCTCGCTCCCAAAGCAGCGTTGCC -ACTGCGTAAGACGGGCGCTTAACTGATCGTAAACACCGTCTTCCACCTCACTTTTTCCTTCCTTCCAGTAGTCATCGTCC -CACTGTTTTATTTGCTGTTGCAGGCGGGAAATTTCTTCCTGTGCTCTGGCTGGCGACCAGGCCGGACAGACCGCCCACAC -AGATGATTGCCAGCACAAGATACCTATTAATATCGCCATCCATACTTTCATCATCACCTCCGCTGTAGATAGTCAGGCAG -ATATACAACGTGATGAAAGCAAAGCCGAGTGGCAAAAACGGAGTCTGCGAGGACGCTTCCTGAAAATCGTCTTTATTGCA -GTGAATGACAGGCAAATGCGGAAGCAGCTACGCAAAACGCAACAACTTTGCGCAAAAAGTGTGAGCAAGGGCTACGTCAC -ATGGCCGCGCCGTGTATAATAAGCTCGTATGTAGGCTTTATTTCGCTAATCACATACGAAAGATACTCATGGCTCAAGGC -ACGCTTTATATTGTTTCTGCCCCCAGTGGCGCGGGTAAATCCAGCCTGATTCAGGCTTTATTAAAAACCCAACCGTTGTA -TGACACCCAGGTTTCTGTTTCACACACCACACGCCAACCGCGTCCTGGTGAAGTCCACGGTGAACATTATTTCTTTGTTA -ATCATGATGAATTTAAAGAAATGATTAGCAGAGATGCGTTCCTCGAACACGCAGAAGTTTTTGGTAATTACTATGGCACT -TCGCGTGAGGCCATTGAGCAAGTACTGGCGACCGGTGTCGATGTTTTTCTCGATATCGACTGGCAGGGCGCGCAGCAAAT -TCGCCAGAAGATGCCGCACGCGCGGAGTATCTTTATTTTACCGCCGTCCAAAATTGAACTGGACCGCCGTCTACGCGGTC -GCGGTCAGGACAGCGAAGAGGTCATTGCAAAGCGTATGGCGCAAGCTGTTGCAGAAATGAGCCATTACGCCGAATATGAT -TATCTGATTGTGAATGATGACTTCGATACCGCGTTGACCGATTTGAAGACCATTATTCGCGCCGAACGTCTGCGCATGAG -CCGCCAAAAGCAGCGTCATGACGCTTTAATCAGCAAATTGTTGGCAGACTGAACCTGATTTCAGTATCATGCCCAGTCAT -TTCTTCACCTGTGGAGCTTTTTAAGTATGGCACGCGTAACTGTTCAGGACGCTGTAGAGAAAATTGGTAACCGTTTTGAC -CTGGTACTGGTCGCCGCGCGTCGCGCTCGTCAGATGCAGGTAGGCGGAAAGGATCCGCTGGTACCGGAAGAAAACGATAA -AACCACTGTAATCGCGCTGCGCGAAATCGAAGAAGGTCTGATCAACAACCAGATCCTCGACGTTCGCGAACGCCAGGAAC -AGCAAGAGCAGGAAGCCGCTGAATTACAAGCCGTTACCGCTATTGCTGAAGGTCGTCGTTAATCACAAAGCGGGTCGCCC -TTGTATCTGTTTGAAAGCCTGAATCAACTGATTCAAACCTACCTGCCGGAAGACCAAATCAAGCGTCTGCGGCAGGCGTA -TCTCGTTGCACGTGATGCTCACGAGGGGCAAACACGTTCAAGCGGTGAACCCTATATCACGCACCCGGTAGCGGTTGCCT -GCATTCTGGCCGAGATGAAACTCGACTATGAAACGCTGATGGCGGCGCTGCTGCATGACGTGATTGAAGATACTCCCGCC -ACCTACCAGGATCAGGATATGGAACAGCTTTTTGGTAAAAGCGTCGCCGAGCTGGTAGAGGGGGTGTCGAAACTTGATAA -ACTCAAGTTCCGCGATAAGAAAGAGGCGCAGGCCGAAAACTTTCGCAAGATGATTATGGCGATGGTGCAGGATATCCGCG -TCATCCTCATCAAACTTGCCGACCGTACCCACAACATGCGCACGCTGGGCTCACTTCGCCCGGACAAACGTCGCCGCATC -GCCCGTGAAACTCTCGAAATTTATAGCCCGCTGGCGCACCGTTTAGGTATCCACCACATTAAAACCGAACTCGAAGAGCT -GGGTTTTGAGGCGCTGTATCCCAACCGTTATCGCGTAATCAAAGAAGTGGTGAAAGCCGCGCGCGGCAACCGTAAAGAGA -TGATCCAGAAGATTCTTTCTGAAATCGAAGGGCGTTTGCAGGAAGCGGGAATACCGTGCCGCGTCAGTGGTCGCGAGAAG -CATCTTTATTCGATTTACTGCAAAATGGTGCTCAAAGAGCAGCGTTTTTACTCGATCATGGACATCTACGCTTTCCGCGT -GATCGTCAATGATTCTGACACCTGTTATCGCGTGCTGGGCCAGATGCACAGCCTGTACAAGCCGCGTCCGGGCCGCGTGA -AAGACTATATCGCCATTCCAAAAGCGAACGGCTATCAGTCTTTGCACACCTCGATGATCGGCCCGCACGGTGTGCCGGTT -GAGGTCCAGATCCGTACCGAAGATATGGACCAGATGGCGGAGATGGGTGTTGCCGCGCACTGGGCTTATAAAGAGCACGG -CGAAACCAGTACTACCGCACAAATCCGCGCCCAGCGCTGGATGCAAAGCCTGCTGGAGCTGCAACAGAGCGCCGGTAGTT -CGTTTGAATTTATCGAGAGCGTTAAATCCGATCTCTTCCCGGATGAGATTTACGTTTTCACACCGGAAGGGCGCATTGTC -GAGCTGCCTGCCGGTGCAACGCCCGTCGACTTCGCTTATGCAGTGCATACCGATATCGGTCATGCCTGCGTGGGCGCACG -CGTTGACCGCCAGCCTTACCCGCTGTCGCAGCCGCTTACCAGCGGTCAAACCGTTGAAATCATTACCGCTCCGGGCGCTC -GCCCGAATGCCGCTTGGCTGAACTTTGTCGTTAGCTCGAAAGCGCGCGCCAAAATTCGTCAGTTGCTGAAAAACCTCAAG -CGTGATGATTCTGTAAGCCTGGGCCGTCGTCTGCTCAACCATGCTTTGGGTGGTAGCCGTAAGCTGAATGAAATCCCGCA -GGAAAATATTCAGCGCGAGCTGGATCGCATGAAGCTGGCAACGCTTGACGATCTGCTGGCAGAAATCGGACTTGGTAACG -CAATGAGCGTGGTGGTCGCGAAAAATCTGCAACATGGGGACGCCTCCATTCCACCGGCAACCCAAAGCCACGGACATCTG -CCCATTAAAGGTGCCGATGGCGTGCTGATCACCTTTGCGAAATGCTGCCGCCCTATTCCTGGCGACCCGATTATCGCCCA -CGTCAGCCCCGGTAAAGGTCTGGTGATCCACCATGAATCCTGCCGTAATATCCGTGGCTACCAGAAAGAGCCAGAGAAGT -TTATGGCTGTGGAATGGGATAAAGAGACGGCGCAGGAGTTCATCACCGAAATCAAGGTGGAGATGTTCAATCATCAGGGT -GCGCTGGCAAACCTGACGGCGGCAATTAACACCACGACTTCGAATATTCAAAGTTTGAATACGGAAGAGAAAGATGGTCG -CGTCTACAGCGCCTTTATTCGTCTGACCGCTCGTGACCGTGTGCATCTGGCGAATATCATGCGCAAAATCCGCGTGATGC -CAGACGTGATTAAAGTCACCCGAAACCGAAATTAATGTTTTATGAACCCAACACGTTATGCACGCATCTGCGAAATGCTC -GCCAGGCGGCAGCCTGATCTGACCGTCTGCATGGAGCAGGTCCACAAACCTCATAACGTTTCTGCGATTATTCGTACCGC -AGATGCCGTTGGCGTACATGAAGTTCACGCCGTCTGGCCTGGTAGCCGCATGCGCACCATGGCTTCGGCAGCGGCGGGTA -GTAACAGCTGGGTACAGGTGAAAACACACCGCACCATTGGCGATGCCGTCGCTCATCTCAAAGGCCAGGGCATGCAGATT -CTGGCAACCCATCTTTCTGATAACGCTGTCGATTTCCGCGAAATTGATTACACTCGCCCGACCTGCATTTTGATGGGACA -GGAGAAAACGGGCATCACGCAGGAAGCATTGGCCCTGGCGGATCAGGACATCATCATTCCGATGATCGGCATGGTGCAGT -CGCTGAATGTTTCCGTTGCCTCAGCCCTCATTCTTTACGAAGCCCAGCGTCAGCGGCAAAATGCAGGCATGTACCTGCGT -GAAAACAGCATGTTGCCGGAAGCAGAGCAACAACGCCTGTTGTTTGAAGGCGGCTATCCGGTGCTGGCGAAAGTCGCAAA -ACGCAAAGGCCTGCCTTATCCCCACGTCAATCAGCAAGGCGAGATCGAAGCTGATGCCGACTGGTGGGCTACTATGCAGG -CTGCAGGGTAAGTGCCATGAAAGGTCGCCTGTTAGATGCTGTCCCACTCAGTTCCCTAACGGGCGTTGGCGCAGCACTTA -GTAACAAACTGGCGAAAATCAACCTGCATACCGTGCAGGATCTACTCTTACACCTTCCCCTGCGCTACGAAGATCGCACC -CATCTCTACCCCATCGGAGAACTACTGCCGGGCGTTTATGCCACGGTGGAAGGCGAAGTGCTGAACTGCAATATCTCCTT -CGGCGGTCGGCGGATGATGACCTGCCAGATCAGCGACGGTTCCGGCATCCTCACCATGCGCTTTTTCAATTTCAGCGCGG -CAATGAAAAATAGCCTGGCGGCGGGCCGCCGTGTACTGGCTTATGGCGAAGCAAAGCGCGGTAAATATGGTGCGGAGATG -ATCCACCCGGAATACCGCGTGCAGGGCGATCTCAGCACGCCAGAATTACAGGAAACGCTCACGCCGGTTTATCCAACAAC -GGAAGGCGTAAAGCAGGCCACGCTGCGTAAATTAACCGACCAGGCGCTGGATCTGCTCGACACCTGCGCCATTGAAGAAC -TCCTGCCGCCGGAACTGTCACAAGGAATGATGACGCTACCGGAAGCGTTGCGCACTTTGCACCGCCCGCCACCGACGCTA -CAGCTTAGCGATCTGGAAACCGGGCAGCATCCGGCGCAACGTCGTCTGATTCTGGAAGAACTGCTGGCGCACAACCTCAG -CATGTTAGCCTTACGTGCCGGAGCACAGCGTTTTCATGCCCAGCCGCTGAGCGCCAATGACACGCTGAAAAATAAACTCC -TCGCCGCCTTACCGTTCAAGCCAACGGGCGCACAGGCACGCGTAGTGGCGGAGATCGAGCGCGATATGGCGCTGGATGTG -CCGATGATGCGTCTGGTGCAGGGCGATGTAGGTTCCGGTAAAACGCTGGTCGCCGCCCTCGCCGCGTTGCGTGCGATTGC -CCACGGCAAACAGGTAGCATTGATGGCACCAACCGAATTACTCGCCGAGCAGCACGCCAATAACTTCCGCAACTGGTTTG -CACCGCTCGGTATCGAAGTGGGCTGGCTCGCCGGTAAGCAGAAAGGTAAAGCACGGCTGGCACAGCAGGAAGCCATCGCC -AGCGGTCAGGTGCAGATGATTGTCGGTACACACGCCATCTTCCAGGAACAGGTGCAGTTTAACGGCCTGGCGCTGGTGAT -TATCGACGAACAGCATCGTTTTGGCGTGCATCAGCGTCTGGCATTGTGGGAGAAAGGCCAGCAGCAGGGCTTCCATCCGC -ATCAGTTGATCATGACCGCCACGCCGATCCCCCGCACGCTGGCAATGACTGCGTATGCCGATCTCGATACCTCGGTGATA -GATGAGCTGCCGCCAGGCCGCACGCCAGTGACTACGGTCGCTATTCCTGATACCCGCCGTACCGACATCATTGACCGCGT -GCACCACGCCTGCATAACTGAAGGTCGTCAGGCATACTGGGTTTGTACGTTGATTGAAGAGTCGGAATTGCTGGAAGCGC -AGGCGGCGGAAGCTACCTGGGAAGAGTTGAAACTGGCGCTACCAGAGTTGAACGTTGGCCTGGTACACGGGCGGATGAAA -CCTGCCGAGAAACAGGCGGTGATGGCGTCGTTTAAACAAGGTGAGCTACACCTGCTGGTTGCCACAACCGTTATTGAAGT -CGGCGTTGATGTGCCTAACGCCAGTCTGATGATTATCGAAAACCCGGAGCGTCTGGGTCTGGCGCAGTTACACCAGCTGC -GCGGGCGCGTAGGTCGTGGCGCGGTGGCTTCTCACTGCGTGCTGCTCTACAAAACGCCGCTTTCTAAAACGGCGCAAATT -CGCCTGCAAGTGCTGCGCGACAGTAACGACGGTTTTGTGATTGCGCAAAAAGATCTGGAGATTCGCGGCCCTGGCGAATT -GTTAGGCACGCGTCAGACGGGTAATGCTGAATTTAAAGTGGCGGATTTACTGCGCGATCAGGCGATGATCCCGGAAGTTC -AGCGCCTGGCACGCCATATTCACGAACGTTACCCACAACAGGCAAAAGCCCTGATAGAACGCTGGATGCCGGAGACGGAA -CGTTACTCGAATGCGTAAAAGGCGGCAGTGAGAAGACCGCCATTTCAGGTTACCCTACCTTCCTGCCGGATGCGATTCAT -CACCCTACAAATTCAATAAATTATGAATCAATACGCAGGCTTGATAAGCGAAGCGTATCAGGCATTTGTCTTTGTTGCGG -CGGCACTTCTACCGCCGCTTCATCGGTTAACCGGCAAAAATCGGCAACATCAAATACAACTTAATTACCAGCGCATTGAC -GATATCGATAAAGAACGCACCGACCATCGGCACCACCAAAAACGCCATGTGCGACGGGCCAAAGCGTTCAGTGATCGCCT -GCATGTTGGCGATTGCCGTTGGCGTTGCACCGAGGCCAAAACCACAGTGACCCGCAGCCAGCACTGCCGCATCGTAGTTT -TTGCCCATCATGCGCCAGGTAACGAAGATGGCATACAACGCCATGAAGATGGTCTGTACCACCAGAATCGCCAGCATCGG -CAGCGCCAGCGAAGCCAGCTCCCACAGTTTCAGCCCCATCAACGCCATCGCCAGGAACAACGACAAGCTTACGTTACCCA -GCACGGATACCGCACGCTCAAAGACGCGGTAAAAGCCCATTATTGACAGACCGTTGCTCAGAATCACGCCAACAAACAGT -ACACAGACGAAGGTCGGCAGTTCAAAAGCAGTGCCAGCCAAAAGTTGCGCAACAATTTTCCCCACCGTCAGGCAGATAGC -AATCAGCGCGATAGTTTCAATCAGCACCAACGAGGTGATCATGCGTCCCACATCCGGCTTTTCAAACGCCGTCGGGACTT -CCTGGTCATCCGGAATACCGTTCGGCGTGGTGGAGTGTTTCACCAGATAGCGCGCCACCGGACCGCCAATCAAGCCGCCC -AGCACCAGACCGAACGTTGCACAGGCCATCGCCACTTCCGTCGCATTGGTGAAGCCATAACGTTCAATGAACAATTTACT -CCACGCAGCGCCCGTACCGTGACCGCCGGAAAGAGTAATAGAACCGGCCAACAGCCCCATCAGCGGATCAAGCCCTAACA -AGCTAGCCATACCAATGCCAATGGCATTTTGCATCACCAACAGACCAACAACCACAATCAAGAAGATGCCAACCACACGC -CCACCGGCACGCAAACTGGCAATGTTGGCGTTCAGGCCAATGGTGGCGAAGAAAGCCAGCATTAACGGATCGCGCAGGGA -CATATCAAAGTTGACTTCCCAGCCCATGCTTTTTTTCAGTACTAGTAGCGCCAGCGCCACCAACAAACCACCCGCAACAG -GTTCCGGTATGGTGTATTTCTTCAAAAAGGAGACGGAATGGACCAACTTACGCCCGAGCAGCAACGTCAGCGTTGCGGCA -ACAAGCGTTGCTAAAGTATCGAGATGAAACATAGTTACTCCTTTGTATCCGCATCACTCTTTCATACTCGTCATACTTCA -TCGCGCAGTGGCAACTTCATGAACTATGACGGGTATCGAGTTATGCTTTCCTGGGTCAAATTCTCAGCTGTTAATGAACA -AATGGCATGGATTTTAAGCAGAAAAATACCAAAAGTTATATAAAAAAGTGCATTTATCTCATTTAAATATTTAGATGAGG -ATGTGGCAAACGTTTGCTTTTCTCTTTCGGTCAGCTAAAATGCCCGCTTTGCTACCACGGGATTGTTTTCGATGTCTGTT -TCCACCCTCGAGTCAGAAAATGCGCAACCGGTTGCGCAGACTCAAAACAGCGAACTGATTTACCGTCTTGAAGATCGTCC -GCCGCTTCCTCAAACCCTGTTTGCCGCCTGTCAGCATCTGCTGGCGATGTTCGTTGCGGTGATCACGCCAGCGCTATTAA -TCTGCCAGGCGCTGGGTTTACCGGCACAAGACACGCAACACATTATTAGTATGTCGCTGTTTGCCTCCGGTGTGGCATCG -ATTATTCAAATTAAGGCCTGGGGTCCGGTTGGCTCCGGGCTGTTGTCTATTCAGGGCACCAGCTTCAACTTTGTTGCCCC -GCTGATTATGGGCGGTACCGCGCTGAAAACCGGTGGTGCTGATGTTCCTACCATGATGGCGGCTTTGTTCGGCACGTTGA -TGCTGGCAAGTTGCACCGAGATGGTGATCTCCCGCGTTCTGCATCTGGCGCGCCGCATTATTACGCCGCTGGTTTCTGGC -GTTGTGGTGATGATTATCGGCCTGTCGCTAATTCAGGTTGGGTTAACGTCCATTGGCGGCGGTTACGCAGCCATGAGCGA -TAACACCTTCGGCGCACCGAAAAATCTGCTGCTGGCAGGCGTGGTCTTAGCCTTAATTATCCTGCTTAACCGTCAACGTA -ACCCTTACTTACGCGTGGCCTCACTGGTAATTGCGATGGCGGCCGGATATGCGCTGGCGTGGTTTATGGGCATGTTGCCA -GAAAGCAACGAACCTATGACGCAAGAACTGATTATGGTGCCAACGCCGCTCTATTACGGTCTTGGCATTGAATGGAGTCT -GCTGCTGCCGCTGATGCTGGTCTTTATGATCACTTCGCTGGAAACCATTGGCGATATCACGGCGACCTCTGACGTTTCCG -AACAGCCAGTGTCCGGTCCGCTGTACATGAAACGCCTGAAAGGCGGCGTGCTGGCAAACGGCCTGAACTCGTTTGTTTCG -GCGGTGTTTAACACCTTCCCGAACTCCTGCTTCGGGCAAAACAACGGAGTGATCCAGTTGACTGGTGTTGCCAGCCGCTA -TGTCGGTTTTGTCGTCGCGCTGATGTTGATCGTGCTGGGTCTGTTCCCGGCAGTGAGCGGTTTTGTACAACACATTCCAG -AACCGGTTCTGGGCGGCGCAACGCTTGTAATGTTTGGCACCATCGCCGCCTCCGGTGTGCGTATCGTTTCTCGTGAGCCG -CTGAACCGTCGGGCGATTCTGATTATCGCGCTGTCGCTGGCGGTTGGTCTGGGCGTGTCTCAGCAGCCGCTGATTTTGCA -GTTTGCCCCTGAATGGCTGAAAAACCTGCTCTCCTCCGGGATCGCCGCGGGCGGTATTACTGCCATCGTGCTGAATCTGA -TTTTCCCACCAGAAAAACAGTAATTCACTGGCGGCGGTAAGATAATTACCGCCGCAGTCTCACCTCTTTAACCATTCCCG -CCTTGAGGATTGCGCGTAAATCGTGCATAACTCCCTTATGTGCATTTCACGGGATGGAAGACCATGAAATTTATTGGGAA -GCTGCTTCTCTACATTCTCATCGCTCTGTTAGTGGCGATCGCTGGCCTCTATTTTCTTCTGCAAACCCGCTGGGGAGCAG -AACATATCAGCGCATGGGTTTCCGAGAATAGCGACTATCATCTGGCCTTCGGGGCGATGGATCACCGTTTTTCCGCGCCA -TCTCATATCGTGCTGGAGAACGTCACGTTTGGTCGTGATGGCCAGCCCGCGACCCTGGTGGCCAAAAGTGTCGACATTGC -GCTAAGCAGTCGGCAACTGACCGAACCACGCCATGTCGATACCATCCTGCTGGAAAACGGGACGCTGAATCTCACCGACC -AGACCGCGCCGCTACCGTTCAAAGCCGATCGTCTGCAACTGCGTGATATGGCGTTTAATAGCCCGAATAGCGAATGGAAA -CTGAGCGCGCAGCGGGTAAATGGCGGCGTAGTTCCGTGGTCACCAAAAGCCGGTAAAGTGCTGGGTACGAAGGCGCAGAT -TCAGTTTAGTGCCGGATCGCTTTCGCTCAATGATGTTCCTGCCACCAATGTACTGATTGAAGGCAGTATTGATAACGATC -GCGTTACGCTGACTAACCTGGGTGCCGACATCGCCCGCGGGACATTAACCGGAAACGCGCAGCGTAACGCCGACGGCAGC -TGGCAAGTGGAAAACCTGCGCATGGCGGATATACGTCTACAAAGCGAAAAATCGCTAACCGACTTCTTTGCGCCATTACG -CTCTGTCCCGTCGTTGCAGATTGGTCGCCTGGAAGTGATCGATGCTCGTTTGCAAGGTCCGGACTGGGCGGTGACCGACC -TCGATCTCAGCTTGCGCAACATGACCTTCAGTAAAGATGACTGGCAGACACAGGAAGGCAAACTGTCGATGAACGCTAGC -GAGTTCATTTATGGTTCGCTGCATTTATTTGACCCGATTATAAACACGGAATTTTCCCCGCAGGGCGTAGCGCTGCGCCA -GTTCACCAGCCGCTGGGAAGGGGGTATGGTCAGAACGTCAGGGAACTGGCTGCGTGACGGGAAAACGTTGATCCTTGATG -ATGCGGCAATTGCCGGGCTGGAATATACCTTGCCGAAAAACTGGCAACAGTTGTGGATGGAAACGACACCCGGTTGGTTA -AACAGCCTGCAACTGAAGAGATTTAGCGCCAGCCGCAATCTGATCATTGATATCGACCCTGACTTCCCGTGGCAGCTCAC -CGCGCTCGATGGTTACGGTGCCAACCTGACGCTGGTTACCGATCATAAATGGGGCGTCTGGAGTGGCTCGGCGAATCTGA -ATGCCGCCGCCGCGACATTCAATCGTGTTGATGTTCGTCGCCCGTCGCTGGCGCTGACCGCCAACAGCAGCACGGTGAAT -ATCAGCGAACTGAGTGCATTTACTGAAAAAGGCATTCTGGAAGCCACCGCCAGTGTTTCACAAACGCCACAACGTCAGAC -ACATATCAGCCTGAATGGACGCGGTGTGCCGGTGAATATTTTGCAACAGTGGGGATGGCCTGAATTACCGTTGACTGGCG -ACGGCAATATTCAGCTTACCGCCAGTGGCGATATTCAGGCCAATGTCCCGTTGAAACCTACGGTTAGCGGGCAATTGCAT -GCCGTGAACGCCGCAAAGCAGCAAGTGACTCAAACCATGAATGCTGGCATCGTTTCCAGCGGTGAAGTTACATCGACGGA -GCCGGTGCGGTAAACATCAATCTCGCCGGGTACGACTCAGACGTACCCGGCATTCCATCAATAGATTACAACGTAATTGT -CAGCGCATTCCCTTGAGGCTTCACCACCAGCCCCTGCTCACTTTCAGCCTGCGAACCGTCTTGCAGACCATTTACTTTCA -CAACATTGCGCAGGCACAGTGTCCAGTTCTTCGCCTCGCCCGCACCAGTCACAGTAATCGTGTTGCCAGTACGTGCTGCT -TTTAAAGTAAAGATCACCGATCCGTCAGCAGCGGGCACTTCACAGACGGCTTCATGCCCGTCTTGCAGATTGAAGAGGTG -GAATGCCGTGCCTTCGTGCCACACGTAATCGGGACGTTGATCGTTGTTGCCCAGCGCCAGTAGAGTGTTATCACGCACAT -AAACGGGCAGACTCAGGAAGCCGTGCTGCTGTTTATGCCAGCGACTACCGTCGAGTTCATCGTTGTGCCACAGGTGTGTC -CAGCGACCTTCCGGCAGGTAGAACTGCACATCGCCCGCTTCAGTGAACACCGGCGCAACCATCACGTTGTCGCCTAACAT -GTATTGACGGTCAAGGTAATCACAAGCCGGATCGTCCGGGAACTCCATCATCATGGCCCGCATCATCGGCGTACCCCGCG -CGTTCGCACGCGCAGCTTCACGATACAGATACGGCATCATGCGGCATTTCAGTTGCGTGAAGAAGCGCACCACATCACAG -GACTCATCATCGTAGGCCCACGGCACACGATAAGATTTGCTACCGTGTAAACGGCTATGGCTGGAGAGCAAACCAAACGC -GCACCAGCGTTTGTAAACGTGCGCCGGAGCGGTATTTTCAAAGCCGCCGATATCGTGGCTCCAGAAGCCAAAACCTGAAA -GGCCAATAGACAAACCACCGCGCAGGCTTTCCGCCATTGATTCGTAGTTAGCGTAACAATCGCCACCCCAGTGTACCGGG -AATTTCTGCGCACCGACGGAGGCCGAGCGGGCAAACAAGACAGCTTCTTCCTCACCAACGGTGTCCTTGAGCACGTTCCA -CACCAGTTCGTTGTAGATGTACGCATAATGGTTATGCATTTTCTGCGGATCGGAACCGTCAAACCACTGAACATCAGTTG -GGATACGTTCGCCAAAGTCGGTCTTAAAGCAATCAACGCCCATCGCGACCAGACCTTTCAGTTTGTCGGCGTACCATTTG -CAGGCATCCGGATTGGTAAAGTCATAAATCGCCAGACCTGGCTGCCATTTATCCCACTGCCATAGCGAACCGTCCGGGCG -TTTGAGTAAATAGCCTTTCTCTTGTAACTCTTTAAAGACGGGGGATTTTTGACCGATATAGGGGTTAATCCAGACGCAGA -TTTTCAGTCCTTTCGCTTTCAGGCGGCGGATCATCCCTTCCGGGTCAGGGAAAGTCAGCGGGTCCCACTCAAAATCGCAC -CACTGGAAGGCTTTCATCCAGAAACAGTCAAAGTGGAAAACATGCAGCGGCAGATTGCGTTCCGCCATACCATCGATAAA -GCTGTTTACCGTCGCTTCGTCGTAGTTGGTGGTAAATGAAGTGGTTAGCCACAGGCCGAAGGACCACGCGGGCGGCAGCG -CCGGACGACCAGTAAAGCGGGTATAACGATCAAGTACCGCTTTCGGCGTCGGGCCGTCGATAACAAAGTATTCGAGATAT -TCACTCTCAACGCTGAACTGCACTTTGGAGACTTTCTCCGATCCCACTTCAAAAGAGACACACTGGGGATGATTGACCAG -TACCCCATAACCACGGTTAGTCATGTAGAACGGGATATTTTTATACGCCTGTTCAGTACTTGTGCCGCCGTCCCGGTTCC -AGGTCTCTACCGTCTGGCCATTGCGCACCAGGGCAGTAAAGCGCTCTCCCAGACCGTAAACTGTTTCGCCAACGCCAAGA -TCAAGCCGCTCAAACATATAATTGCGTTGATTATTCGTGTCCTGCACGTAGCCATTATTTTTCACCTGACTACCGGTAAT -ACGTTCGCCGTTGCGCAGAAAATCCAGTGACCAGAACTCACCTTTGCTGACACGCGCGCTTAAGTTGCCACTTTTAAACT -CAGCATAACGTTCTGTGTTTTCGATTGTGACCTTCACGTCCTGCAAAATATTGAGCGGATAATGAGGACCGTTATTCAGC -GCCCCCTGAAAATGCTCAATCCGCACACCGACAATACCTTCCTGTGGGGAGAAAAAGCGCAACGTAAATAAAGGCGTATC -AAGCTGCCAGGTACGTTCACGCACATCACGGGGGGCAGCATAGACCACCATTTCATTATCCTGCTGTTCAACCTCGAACA -CCTGAAGCGGGTGAATCAAATTGAGGCCAGGTTGAATCAACCAGTTTCCATCGCTAATTTTCATTGCCGTTCCTTAGTTC -TGCACTTCTTGAGAGGTGAATTGTTGCTGGCAACGGCGTTTACCCTGAGCCAGCTGTTCCATAACGGTTTTCAGATTGTG -CGTCGTGAGTGAGTAGTAGCGTTTAGCGATAATCGCGCTCAGCAAATAACAGATCGCCGGAACAATCGTGAATAGCGCAA -TAATGATGCTAATCGTGGCGCTGTTCTGCGCTTTTTCTGCCGCATCATATCCGCCATAAGCCAGCATCCAGCCGATAAGA -GCGCCGCCGAAGGCCAACCCCAGTTTGAGCACAAACAGCGTGCCAGCAAAACTGATCCCGGTCAGGCGTTTACCATTGCA -CCACTCGCCGTAGTCGACGGTATCGGACATCATTACCCACTGGATAGGTGTCACCAGTTGATGCAACACACCAATCACGA -AGATGAAGACAAACATAGTGATGCTGGCCTGCATGGGAACAAAGAACATCGCGAGGCTAATCACTGCCAGCAGGGCGTTC -GTCCACCAGAAGATAGTGACTTTACATTTCCAGTCGGTCAGAGGTTTTGCCAGTGCGGAACCAATCAGGTTACCCACGCA -ATAAGTGGTGAGAAAAGCGACAAACACTTCCGGCGTGCCCAAAATCCATGTGACGTAATACATCATCGCCCCACCGCGTA -CGCACACCGCCAGGATATTGAAAATGGTTAGTAAACCGACAATCCGCCACTGGTCGTTTTGCCAGATATCACGTAAATCT -TCCCGCATAGACGTTGTTGTAGGTGGTGCTTCAACGCGTTCTTTAGTGGTGAAGAAACAAAATGCCAGCATCATGAATGC -CACCACGGAAAGGACCGCGATACCGCCCTGGAAACCGAGTGGTTTATTATCACCGCCAATTAAATTAACCAGTGGCATCA -TCAGAACAGTAGAAAGCATGCCTCCCGCGGTCGCCAGCACAAAACGCCAGGATTGCAGCGAGATACGCTGAGTCGGGTCA -TTGGTGATTACACCACCCAATGCGCAGTAAGGGATATTGACGACGGTATAAAGTAAGGTAAGTAGGGTGTAAGTAATTGC -TGCATAGATCATTTTGCCGTTCATACTGAGATCTGGCGTGCTATAGGCCAGTACACAGACGATCCCGAATGGCAGTGCGC -CAAACAGTACCCACGGACGAAATTTACCCCAGCGAGAGCGCGTTCGATCGGCCAACAACCCCATGCAAGGATCGGAAATC -GCATCCAGTGCACGAGCGACCAAAAACATGGTTCCGACAAAACCGGCAGGAATGCCAAAAATATCGGTATAAAAGAACAT -CATATATAACATTACGTTATCGAAAATAATGTGGCTGGCGGCGTCTCCCATGCCATAACCAATTTTCTCTTTAACGGACA -ACACTTCACTCTTCATCTGCTTTTCCTTGATGCTATAGGGGTGCTGAGACCGATAACGCATTTTGTAAACCATCCCTGTG -AGAGCGAATATTCCGATATCTGGTTATTAATTTATGATTCTTGTTTTATGTGATCGTGGTAGCGTTAATTCCGCTCATAT -ATCATTGTAAAATATGGGTTTTATATGAACTATAATGCTTTCGTGATAATACGCTGCGTGTATTAGGCGGAAAAAACTGA -TCTGGGGGATGTAGAAACTCAAGGAAGTAGCTATAATGCGCCCCGCCTCCATGTAGCAATCGAGGCGCGGAAGATCGTCG -TCTCCGGTGAGGCGGCTGGACTTCAAATCCAGTTGGGGCCGCCAGCGGTCCCGGGCAGGTTCGACTCCTGTGATCTTCCG -CCAAAATGCCTCTCCTGACGTTCTCCAACCCCTTGTAATACTGTCAATCCAGATATTTTCTACTGCTCAATATTCAATCG -GCTTCAGGAATACCTGGTCTAAGGTTTTGTGATGGACGATGAGCGGCTGAAGAATCCGCCTGTCGGTTCTTCTGTCCTCG -AACGCATCCGCGATATTCACGCCAGTATGCGCCGTGTTTATTTGCAGGTGATTTGCCCCCCTGCTGACTCTCAGCCAACT -GTATCGCCATTAAGGTGAAGATGTTGTTTTACTCGCCCCAGAACACCCTTTTTTATACGACTATTCTATTTCTTTAACCG -CTGGCGAAAAAAACTGACTATAAACTTCACCAATAATCAGACTGCCATCAAGATTAATTTGTTCATTTAATATATCAAAT -CAACTTGTTTTATTTTTACTATCAAAAATAGCTCATTGCCTTACTATAATTAATATATAAATTCGGTAATTAATTCTTAA -CATGCTTTTACTAATAATCTCAATTGCTGGCCCTATAATATTGCGCTAGCATTGCTTTCTGGTTGTATCAGCGATACTCA -AAAATTCTTAATACAATACTCATTCGACTGGTACTTATTTGTAACTCAGTTATATTTTTTCGCCCGGTGATTCAGAAGAA -TGCAAAAAACGGCTACCACTCCATCAAAAATACTTGATCTCACTGCCGCGGCATTTTTACTTGTCGCCTTTCTGACGGGT -ATTGCGGGCGCTCTTCAGACTCCTACCCTAAGTATATTCCTCGCAGATGAACTGAAAGCCCGTCCTATAATGGTAGGTTT -TTTCTTCACCGGTAGCGCTATTATGGGAATTCTGGTCAGTCAATTTCTGGCAAGGCACTCCGATAAACAAGGCGACCGTA -AATTACTGATTCTGCTATGTTGCTTATTTGGAGTGCTGGCCTGCACGCTTTTTGCGTGGAATCGCAACTACTTCATTCTC -CTCTCAACGGGCGTACTTCTGAGTAGTTTTGCTTCCACCGCAAACCCGCAAATGTTCGCCCTCGCCCGTGAACACGCCGA -CAGAACAGGCCGTGAGACGGTCATGTTCAGTACATTTTTACGTGCTCAGATCTCGCTTGCCTGGGTTATCGGGCCACCGC -TCGCTTATGAACTGGCAATGGGATTTAGTTTTAAAGTGATGTATCTCACCGCTGCCATCGCATTTGTTGTTTGCGGACTG -ATAGTCTGGTTGTTTTTGCCATCAATACAAAGAAATATTCCTGTCGTTACCCAACCCGTAGAAATTTTACCCTCCACCCA -CAGGAAGCGGGATACGCGGCTACTTTTTGTGGTCTGTTCAATGATGTGGGCGGCGAATAATCTCTACATGATAAATATGC -CGCTATTTATTATTGATGAACTGCATCTAACCGATAAACTGACTGGAGAAATGATTGGTATCGCTGCCGGTCTGGAAATT -CCGATGATGTTAATCGCAGGCTATTACATGAAACGTATTGGCAAGCGACTATTAATGCTCATTGCTATCGTGAGTGGAAT -GTGTTTTTACGCCAGCGTACTCATGGCGACGACTCCGGCGGTTGAGCTGGAATTGCAAATTCTTAATGCCATCTTCCTTG -GTATTCTCTGTGGTATCGGCATGCTTTATTTTCAGGACTTGATGCCTGAAAAAATAGGCTCTGCGACAACGTTATATGCA -AATACTTCACGCGTCGGCTGGATTATCGCCGGCTCTGTTGACGGAATTATGGTTGAAATCTGGAGCTACCATGCGTTGTT -CTGGCTGGCGATAGGGATGTTGGGTATTGCGATGATTTGCCTGCTGTTTATTAAAGATATTTAGCTCACCAGTCTGGGCT -AAGAAAAATCGGCGTGGCGCAAACAGAGCCATCCTCGCCATTTTTGCTATCATGCCTGCATACATAAACGACAAAACAGT -ATGCAGAGGGAAAAATGGGTTCCACCAGAAAGGGGATGCTGAACGTTCTGATTGCCGCCGTGTTGTGGGGAAGTTCAGGG -GTCTGCGCGCAATACATCATGGAGCAAAGCCAGATGTCGTCGCAGTTTTTGACTATGACGCGTTTGATATTCGCCGGTTT -GATTCTACTGACGCTGTCATTTGTTCATGGCGATAAAATCTTTTCTATTATTAACAATCATAAAGATGCCATTAGCCTGC -TGATTTTTTCCGTGGTTGGCGCGCTAACTGTACAGCTCACTTTTTTGCTAACCATCGAAAAATCGAACGCAGCCACGGCA -ACGGTGCTGCAATTCCTCTCACCGACGATTATCGTCGCCTGGTTCTCACTGGTGCGTAAATCGCGCCCGGGCATTCTGGT -TTTCTGCGCTATTTTGACATCGCTGGTCGGGACTTTTTTATTGGTGACACACGGTAATCCGACGTCATTATCGATCTCTC -CTGCCGCGTTGTTCTGGGGCATTGCCTCGGCATTTGCTGCTGCATTCTATACCACCTATCCCTCAACGCTAATTGCCCGC -TATGGCACGTTACCAGTCGTCGGCTGGAGTATGCTGATTGGCGGTCTGATTCTGTTGCCTTTTTATGCCAGACAAGGAAC -AAACTTTGTCGTTAACGGCAGTTTGATTCTGGCGTTTTTTTATTTGGTGGTCATTGGTACGTCCCTGACATTTAGTCTGT -ACCTGAAAGGAGCACAATTAATTGGCGGTCCAAAAGCCAGCATTTTGAGCTGTGCAGAACCATTAAGTAGCGCGCTACTC -TCTTTGCTGTTGCTGGGGATCACGTTCACATTACCGGACTGGCTGGGAACGCTGCTGATTCTGTCATCGGTGATTTTGAT -TTCAATGGATTCCCGTCGCCGCGCCAGAAAAATAAATCGTCCGGCGCGGCATAAGTGAGAATTACCAGCCAGGCACCGCG -CCACCGTTAAAAATGGTTTCTGCCGCTTTAGCGACTTCGGGTGATTGATAAGATTGCAGAAATTCCTTCACGTTTTCTGC -ATTCTTATTATCTTCCCGTGCCACCAAAATATTCACATACGGCGAATTCTTATCTTCAATAAATACGCTGTCGTGCACCG -GAGAAAGCCCGGTCTGCTGAATGTAAGTGGTGCTGATAATCGCTACATCAACTTTGGGATCATCCAGTACGCGCGGGAGC -TGCGCCCCCTCGAGTTCCATAATCTGCAAATGACGAGGATTATCGGTTATATCCAGCGCGGTAGGTAATAACCCTTTTCC -CTCTTTCAGAGTAATTAGCTTCTCTTTTTGCAACAGTAAAAGTGCGCGACCAAGGTTGGTCGGGTCGTTGGGGATCGCCA -CTGTCGCGCCTTCTTTTATTTGCGCCACGGTTTTGATTTTTTTGGAATAACCCGCCATAGGGAAGACAAACGTATTTCCC -ACCGCTACCAGTTTATAACCATGCGCCTGATTATCTTGTTCAAGAAAGGGTCGATGCTGGAAGACATTCGCATCAAGTTC -GCCATGATTTGTCGCATCGTTCGGTAGCAACGAACCGCTAAATCCTACCAGTTCAACATCGAGGCCATATTTCTCTTTTG -CCACCTTTTTAGCGACTTCCGCGACATCTTGTTCTGCGCCATTTATAACGCCAACTTTAATGTGTTTTGCATCGCTGCTA -CTCTGGTCGCAACCTGCCAGCAGAATTCCGGCCAGCAATAATGCGGCCCCTGTCCGTAGATGATGTGTTGTCAGTTTCAT -TTTTTTATCCTTTTATTAATGATTACCTGACTATAGCGGTAAGGTCGCTGCGGTTTAAAAAACGAAACGCTATCGATAAG -AATAAAAAGGAATAAAAGTGGAATATAAAGTCTGGCACTTCTTACTGACCACGCAAGCGCGTTTCGTACAGCATGATGAG -AGCGATGAAAGCAAACTACACTTATGCTTCATTCGATACACATTTGTAAAAGGTTGAATCCATGAAACCAACGACACTAC -TGCTTATTTTCACTTTTTTCGCTATGCCAGGCATCGTATACGCCGAGTCGCCTTTTAGCTCACTGCAGTCCGCAAAAGAG -AAAACCACGGTATTACAAGATTTACGTAAAATTTGCACGCCACAGGCGTCATTATCAGATGAAGCGTGGGAAAAGTTAAT -GTTGTCAGATGAAAACAATAAACAACATATACGCGAGGCCATCGTGGCGATGGAACGTAATAATCAGAGCAATTATTGGG -AAGCGTTGGGTAAGGTAGAATGCCCGGATATGTAAGAACAGCAACAACTACTGACCAACGCTTCTTTACCTGATATCAGG -ATTTCTTCATTTTCACCTTTGCAGTAACCAACAATGCAGTCAGCAACATCAATGTGCCGGACAACATCAACGGCGAAGTC -AGACCAATATTATCCAGCGCATAACCGCCGATTGCCGCGCCACAGGTATTAGCAAGCTGAATAACCGCCACCTGAATAGA -CCCGGCTTTTTCTGCCTGATCGGCCAGCGAGCGGGTGATCCACGTTGACCAGCCGACGGGAACCAATGCAAAAGTTAGCC -CCCAGATAATCGCCACGCCGGTAGCAACGATTTTATCGCTTCCCCACAACGTCAGTACCAACGCACTCACAGCCAGTATT -AACGGCGCGCCTGCTAAGGCCAGTTTTACCGAACGTTTAAGAATGAACGACGAAAGCGACGTACCAATAAAGCTGGCGAT -ACCAAAACTCAACAGCACCAGCGTTAAGCCATCCACGCCGAATCCCGCCAGGTTCATATACACCGGGCGAATATACGTGA -AGAAAGCAAACTGCCCGGCGAAAGACATGAAGATGGCGATCATCCCTGCCATCACACCCGGACGTTGTAATAAGCGGAAA -GTATTTTGTTTCTGATGCGAGGGTTCGCCTGGCAGTGAAGGCAATGATTTGATAATCCAGAAAATACACAGCACGCCCAT -CACCGCCGCCGCATTAAAGACATTGCGCCAACCGATAAGCTCGCCTAAAAAACTGCCCAACGGCGCGGCAATCACCAGCG -CAATAGAAACCGCGCCGAAGATCACCGACAGCGCCTTCGGCACCGTACGCGGCGGCACCAGACGCATGGTCAGCGACGCC -GACATCGCCCAGAACCCGCCCAGCGCCAGCCCCAGACAGGCACGACCGATTAAAAGCAAACTGAATGAGTTAGCAAAGGA -AACCAGCAAGCAGGAGAGCGTCAGCAAAACGGCAAACAAAATAACAACGTAGCGGCGGTCAGTAGCCTGAATTGTCTGGG -TAATAAACAAACTGGCAAACATTGCCACAAAGGCGGTCACGGTCACCGATTGCCCGGCAACCCCTTCCGAAATGCCTAAA -TCCTGGGCCATTGGCGTCAACAAACTGACGGGCAAAAACTCAACGATAATCAGACAGGCGACACAAAACGCCACCGAGAA -AACGGCTGACCAGTTCGGTCGGGTGATGGCATCCGCGCCGCGGTTTTCGGCAATAAATTCACTCATGGTGTTACCCGTGG -CATGTTTCAGGGGAAAAGCCGACCACTTTAACATTGAAATGTGTGACGCATTTAACGTTTTTGCAACTTTTACGGTGTTG -CTTGAGCTGGAGTTAAGATCGAAACGGAACAGGGCAAAGATTACCGGATGCGGCGTGAACGTCTTATCCACCCGACAGGT -CAGGCGCGGTCTGTAGGCTGATAAGACGAAACGGTTTCAATGCAACCAGTGAACGCCCTCGGCAGGCTGAAAGAACGCGT -TATAGCGCATCTGAAAAGCATTAATATCCTGCATTTCAGGTTCGGTTTCGCGCAGAAAACCTAGCGCCAGCCTGACCTGA -GCGTCGGTAATCGGCGCGGCGAGGCGAGCTTTTTGTAAAATCCGATGCCATTGCAGCAGGTTCTGTTCGCTACCATCGAC -AATGACAATTTGCCAGATGAGCAACACCTGCGCGGCGTTTTGCAGGTGCGACTCATCCGGACGATGCAAATAACGTAAAA -ATTCGTCACCAGCTGACTTTCCCATTTGATCGACCATCGACTCCACGGGTACGACATCGATGTTCAGCCGATCGCTGAGA -CGGCGAATCGCTTTTCTGGCCCCGGATGTCAGCACCCGAAAACCAACCACAAACACTACCGCCAGCGTGGCGAGCATTAT -CCAGATCATGAGTTCTCCTGCGTAATCAGAACTCATGATATCTGGAAACCCTCGCCAGTTACTAATCCACCAGAATAATC -TTCAGTGCAAACAGAGCTGCGACCACCACCACACACAGGTTCAGATCGCGCCAGCGCCCGGTGCATACTTTCATGATGCA -GTACGACATAAAGCCGAGTGCAATCCCTTCGGTGATCGAGAAAGTAAAGGGCATCATCACCGTGGTAATAAACGCAGGCA -CCGATTCGGTAAAATCATCCCAGTTAACGCGCGCCAGGCTCGAAGTCATCAGCACGCCAACAAAGATTAACGCTCCGGCG -GTTGCGTAAGGAGGAACTATCGCCACCAGCGGTGAGAAGAACATAACCAACAGGAACATAACGCCAACCACAACCGCAGT -CAGCCCCGTGCGGCCACCGACTGCCACACCAGAAGTACTTTCAATATAGGCAGTAACAGACGAGGTGCCGATAAACGCAC -CCGCCACCGAACTGACGCTATCAACATACAGCGCCTTATTCATATTGGGGAATTTACCGTTACCATCTATTAAGCCCGCT -TTATCAGTTACACCAATTAATGTTCCTGATGAATCAAATAGGTTGATCAGCATAAAGGAGAAAATGATACCGGCGAGTTC -AAGTGTTAACGCGCCGCTCAAATCTACTTCACCAATGACGCCGCTAATATCAGGCGGAATGGAATAGACGCCGCTAAAAT -GAACATCACCGAAAAATAATCCACAGCAAGACGTCACCACAATAGAAACCAGCACCGCGGCATGAAAATGACGTGATGAC -AACACGGTTATAATAAAAAACCCTAAAATACCTAACAACACGCCGTGAGAACTTAAATCGCCAATCATCACCAGCGTGTC -TTTATTGGCGACAATAACGCCAGTATTTTTTAATCCCATTAAGGCGATAAATAATCCAATTCCGCTGGTGATACCAATAC -GTAAACTTAAGGGAATGTTGGAGATCATCCAGTACCGGATACGAAACAGCGTGAGCAAAAATAGTCCAACTGCGCCCCAG -AATATTGCGCCCATCCCGGTCTGCCAGGAGATGCCCATCGCCCCCACGACCACGAAGGCAAAGAAGGCGTTCAGCCCCAT -TGCCGGAGCCAGCGCCACGGGTAAGTTAGCAAATATCCCCATCGCAATACTGCCGATACCGGCAATCAAACAGGTGGTAA -CAAACACCACTTTCGGGTCCATTTGTGCCGCGCCGAGGATTTGCGGGTTCACAAAAACGATGTACACCATGGTTAAAAAA -GTGGTCATCCCCGCAATCAATTCTGTGCGGACGGTGGTCCCATGCTGAGGTAGTTTAAATAATCGCGAAAGCGTCCCTGA -TTCATTACTCACGTAATCGGTATTGTCATTATTCATTTTTTTGTCCATTGGAGGAGATTTAATCCCTTGCTTTTGTAAAA -CAAATGACAACAACGGTTCAGTGATAATTATCACATTTCAATTGCACATTAATGGATATTCTTTAATAATCTCGCGACGT -TTCTTTATGATAAATAATAATCAAATTGATAAAATCAAAATGAGAAAAATATGAATAATTCTATTAACCATAAATTTCAT -CACATTAGCCGGGCTGAATACCAGGAATTGTTAGCCGTTTCCCGTGGCGACGCTGTTGCCGATTATATTATTGATAATGT -CTCTATTCTCGACCTGATCAATGGCGGAGAAATTTCCGGCCCAATTGTGATTAAAGGACGTTACATTGCCGGTGTTGGCG -CAGAATACACTGATGCTCCGGCTTTGCAGCGGATTGATGCTCGCGGCGCAACGGCGGTGCCAGGGTTTATTGATGCTCAC -CTGCATATTGAATCCAGCATGATGACGCCGGTCACTTTTGAAACCGCTACCCTGCCGCGCGGCCTGACGACCGTTATTTG -CGACCCTCATGAAATCGTCAACGTGATGGGCGAAGCCGGATTCGCCTGGTTTGCCCGCTGTGCCGAACAGGCAAGGCAAA -ACCAGTACTTACAGGTCAGCTCTTGCGTACCCGCCCTGGAAGGCTGCGATGTTAACGGTGCCAGTTTTACCCTTGAACAG -ATGCTCGCCTGGCGGGACCATCCGCAGGTTACCGGCCTTGCAGAAATGATGGACTACCCTGGCGTAATTAGCGGGCAGAA -TGCGCTGCTCGATAAACTGGATGCATTTCGCCACCTGACGCTGGACGGTCACTGCCCGGGTTTGGGTGGTAAAGAACTTA -ACGCCTATATTACTGCGGGTATTGAAAACTGCCACGAAAGTTATCAGCTGGAAGAAGGACGCCGGAAATTACAACTCGGC -ATGTCGTTGATGATCCGCGAAGGGTCCGCTGCCCGCAATCTCAACGCGCTGGCACCGTTGATCAACGAATTTAACAGCCC -GCAATGCATGCTCTGTACCGATGACCGTAACCCGTGGGAGATCGCCCATGAAGGACACATCGATGCCTTAATTCGCCGCC -TGATCGAACAACACAATGTGCCGCTGCATGTGGCATATCGCGTCGCCAGCTGGTCGACGGCGCGCCACTTTGGTCTGAAT -CACCTCGGCTTACTGGCACCCGGCAAGCAGGCCGATATCGTCCTGTTGAGCGATGCGCGTAAGGTCACGGTGCAGCAGGT -ACTGGTGAAAGGCGAGCCGATTGATGCGCAAACCTTACAGGCGGAAGAGTCGGCGAGACTGGCACAATCCGCTCCGCCAT -ATGGCAACACCATTGCCCGCCAGCCAGTTTCCGCCAGCGACTTTGCCCTGCAATTTACGCCCGGAAAACGCTATCGGGTC -ATTGACGTCATCCATAACGAATTGATTACGCACTCCCACTCCAGCGTCTACAGCGAAAATGGTTTTGATCGCGATGATGT -GAGCTTTATTGCCGTACTTGAGCGTTACGGGCAACGGCTGGCTCCGGCTTGTGGTTTGCTTGGCGGCTTTGGACTGAATG -AAGGTGCGCTGGCTGCGACGGTCAGCCATGACAGCCATAATATTGTGGTGATCGGTCGCAGTGCCGAAGAGATGGCGCTG -GCGGTCAATCAGGTGATTCAGGATGGCGGCGGGCTGTGCGTGGTACGTAACGGCCAGGTACAAAGTCATCTGCCGTTACC -CATTGCCGGGCTGATGAGCACCGACACGGCGCAGTCGCTGGCGGAACAAATTGACGCCTTGAAAGCCGCCGCCCGTGAAT -GCGGTCCGTTACCCGATGAGCCGTTTATTCAGATGGCGTTTCTTTCTCTGCCAGTGATCCCCGCGCTAAAACTAACCAGT -CAGGGGCTATTTGATGGCGAGAAGTTTGCCTTCACTACGCTGGAAGTCACGGAATAATAAAAAAAGCCCGGCGTCATGCC -GGGCAAAAGTCACCAGTTACGTTTATGCCACTGTCAACTGCTGAATTTTTTTCTCGCGGCGGATTTTGCGTTCTTCCATT -ACCGCCACTATCGCCATCAGGCAGATACAACCAATCGCGGCGATATCCAGCGCGGCGAAGGTGCCTGCCCAGCCGGTAAG -GCCGAATACCGGCGTCCCATCGGCAATCATTCCCAGACCTAACTTGGCAAAGCTGTCACCAATCAGGTAAGCAAAGGTGC -CTTTAATACCATCGGCAGCGCCAATCGCTTTTTTAGGTACAAAGCCAACAGCAGCCACACCAATCAACAATTGCGGGCCA -AAGACCAGGAAACCCAACGCAAAGAGAGAAGCCAGATAGATATATTCGTTACTGGCATGTTGATACACACCGAGCGTGGC -GATAATCAGCGCCAGCGCGATGCAGGCCACCAGGCCACGGCGACCGTTCGCCAGGTCAGAGAGCCAGCCCCACAGCAGCG -TACCGACCAGCGCACCAGCTTCAAACAGCGTAAAGCCCTGAATCGCCACCGCTTTAGAGAGTTTCAGTTCCTGGAACGCG -TATACGGTTGACCACTGGTCGATACCAATACGTACCACATAGAGGAAAATGTTGGCGAAGCACAGCAGCCAGATCACTTT -GTTTTTCAGCACATACTCAACAAAGATCTGCCACTTGGTCATATCGGTAGATTCTGTCTCTTTGTCCTCTTCGCTGATCT -CCTCGCCGAACAGTTCTTCAGCTTTGCCGAGGCCATAAGATTCCGGGGAGTCGCTGCCGTAACGCAGGCCGATAAAACCG -ACAATCAGCGCGATAATCGACGGGAAGATAAACATGCCGATGACATGGCCATCGAACAGGTAATTTGCCCCGAACAGCGC -CACACCTGCTGCGCCTGCACCGCCAAGGTTGTGAGAAATATTCCAGAAACCGAGGAATGTCCCGCGTTTACGACGCGGCG -TCCATTTGGTGATGGTGGAGTAACTGCACGAACCGCCGGTACTCTGGAAAAAGCCGCTTAAGGCGTAGAAGGCAATCATC -AGGAACAGGCTAACCGAGCCGCTGCCCATACTGGCACTGAAGCCCAGCATACAAATAGCAGAGAGGATCAGCATGAACGG -CAGGAATTGTTTGGTGTTTTTGCCGTCGGCGTAGTAGGAAACCAGCGTTTTACCCACGCCATAAGTGATGGAGAAACCCA -GGCCGATCATCCCCAGCTGCGTCATGCTCAACCCGTAGGTCGAAATCATATCGTTCTGCGCGATGTTAAAGTTCTTGCGA -ATCAGGTACATCGTCAGGTAGCCGATAAAGACCACCAGGTAGGATTGCATGAACGGTTTGAACCACATTTTGCGCCGCAC -TTCGAGCGGAAGGTCCAGGGTCGGCTTGCGAACCTGGTTTAAGAAAGCCAGCATGGGTTACTCCTGAAATGAATACCTGC -GTGAGGCATGCATTGTAAAAATCAGCAGCAAATCAGGCCTGAGATAGCGTCCAGGCAAAACCTGGAAAATTTCTTAGTTT -TGCCGGATATGAAGTGAAAAGGTGAGATGCATCACGCTTCGCGCGGTGTCTGGGCGTTCAAAAAGGGCAGTAACAGCAGT -GCGGAAATCCCGGCGGCGATAGAGATAACCACAAAAAATCCGCTCCAGTGCCAGGTATCGAGTACTTTCGCCAGCGGCCA -ACCAGCAAGCGACGCCCCCAGATAAGCAAACAAGCCGACAAACCCCGTCGCCGCCCCTGCCGCCTCTTTGTGGGAACACT -CTGCCGCCGCCATACCGATTAACATCTGTGGGCCAAAGACAAAAAAACCAATGGTGAAGAAGCAGGTTGCCTGCATCACG -TAGCTGGCAAATGGCATCAGCCACAGGGAGCCGACTGAAAGCAAAATTCCGGCGGCGAAAATCAAATTCATCGGCCCTCG -GTTGCCGTTAAACAATTTGTCCGAGCCCCAACCGGCTACCAGCGCACCGATAAATCCGCCCAGTTCAAACATCGTCACTG -CCGTATTCGCCGTGACCAGATCGACGCCCAGTGTCTCGGACATATACAAATTGCCCCAGTCGTTGATCGCCGCCCGGACC -ACATAGACCAGCACATAGCAAAACGAAAGCAGCCAGATATACGGATTCAGCAACACATATTTGGTGAGGATCTCTTTACG -CGTCAACCCTGCCCCTTCTTGTTGTTGAGCAATTTCCAGCGCGTCGTGTCGCCATTCACCGACCGCCGGTAAACCTAACG -CCTGCGGGCGATCGCGTAGCCGCCAGCAGAGAAAAATCCCCACGACTATCGCCATACAACCAGCAATCATCATCCCGGCA -CGCCAGCCGTAATGCAGCGCAGCCGCTGCCATCACAATGGGAATGAGTGCGCCGCCGACGTTATGCGCCGTGTTCCATAA -TGCCCACCAACCGCCGCGCTCGGTACGTGAATACCAGGCCGTTAACAGACGCGCACACACCGGTGAACCCCAGCCCTGGA -AAAAGGCGTTCAGCACCCAGAGCACGGCAAACGCCCATAGCGACGTCGAGAAGCCAAACAGAATGTTGATAATGCCCGTG -GCGATAAGCCCTATCCCCATAAAATAACGGGCATTTGAGCGATCGCTGACAATGCCGGAGACAAACTTCGACACGCCATA -GGTAATGTAAAACAGGGTCGCTAACAGGCCGATATCGCTACGGCTGAGCACGCCGTTAGCAAGGATTTCTGGTACGGCGG -CGTTAAAACTTTTCCGCGTGAAGTAAAACAGCGCGTAACCCAGCCAGATGGTCAGCAGAATATGCCGACGCCAGTAGCGA -TAGCGGGCATCAATTTCATATTTATCAGTCATTAATGGCGCATCGGCAGGCGCTTTCAGAAACGGCAACATCATCAAACC -TTAGACATAGCGTTGAGGTAGAGAAACGCTGACACGCGTGCCGTGCAGACAGGAAATGTGTAATGTGCCACCCAGCGCCG -TTACGCGCTCGCGCATTCCGGTGAGGCCAAAACCTTGTTGCCCGGAACCCGGCGGCAAACCGCTGCCATCGTCTTCAATA -ACCAGCATCAACCGTTCATCCTGCTGCCAGCCTTGCAGGGTGACCGCGCTGGCATCAGCATGTTTCACAATGTTGTTCAG -CCCTTCCTGGCAGACACGAAACAGCGTCACGCGCTGGTTTTCGCTTAACGCTGATTCATCGATTCGCCATTCGAGATGGC -TGACAATACCGCGCCCTTCCAGCTCCATTTCCCGCATCAGTGAGCGGATGGCCTGCTCCAGGGTGAGATCATCCAACTGG -CGCGGACGTAACCGACCCAACAAACGGCGCACCGCGTCGTAAACGCCCAGCGATAGTTGTTCGATGAGCTGCCCGCTCTG -CTTCACGCTGGCGTTATCTGCCGCCAGCCGCTGAACAATGCCCGCCTGAGTACGAATAGCAGTGATGGTCTGACCGATAT -CATCATGCAGCTCACGCGCCACATCACGGCGCACGCTCTCTTCGGTTTCCAGCAACCGTTCAGCCAGATGCTGATTGCGC -GCCAGTTCCTTTTGCAGCGACTGGTTAAGTTCACGCAACCGCTGGATGCCAGCGCCAAGCAACAACCCTGTCAGACTTTG -CACCAGCAGCGAGAGCAATAAATCCACCGGATGATCGCGCCAGGTTTGACTGGCGATCAGCGCGATGGCGTTCATCAACG -TCGCAATCAGCGCCCCTTGCCAACCATAGTGCCAGGCCAGCGCGATAATCGGCAGCGCCAGACAGAATGGCGTAAAGCGC -GACAGTTCGTCCGGCAATCCCAACTGGAGCCAGAGACTGATAACAAACAGCAGCAAGTACCAGACCAGATGTCGCCCGCG -CCAGTTGATTGGCTGAGAAACCAGTGACGGACCGAGCGGCAGCCAGGTGTTATTGGCGAGATAGTGCCAGAACACCAGAC -ATATCGGGGCCAGCGTCAGGCCGCCAGTTAAAGTCAGCAACAGCGCATTCCACGACTCTTTGCCGTGCCAAAGCCAGGGC -AGCGACTGCAACAACGCCGCCGCCGTTAACGCCGCCCCCTGTAACAGCAAGGTGCGCCAGTCACGCTGATGGCGATAGCG -CGAGATCAGCGCTACGGGCAGTAACGTCAGTAAACTACCGATCATCAATAACGGAAAATGGGTTAAACCGACCGCCTGCG -TTAGCCAGTAAATCAGCAGCCACTCCGCGCCCAGCAATACGGGCCAGTATCCGCGCGGGCATTGCAGCATTAGCCCCAGA -CGCAGACCAAACGGAAATAACAGCACCGCCATATCAGGGCGCTCAACCAGATGCAGGCTGATACTCCACAGGCAAAACCA -TGCGGCAGAGAAGATAAAAAAGCAGGCAATAACGGTAATTAAGCGGGAGAACAACGTCTTCATCACCAGCCATCAAACAT -GCGGCGCGCCAGCTCTACGTCGTTACTGACGCCCAGTTTTTCCATCAGATTGGCGCGATGGACGTGTACCGTTTTCGGTG -ACAAGCCCAGTTCGGCGGCAATCTCTTTCACCGCCATTCCTTGCGCCAGTTTTTCCGCCACCTGGCGTTCACGTTTGGTT -AGCGGGTCCTGACGACCGGATGCCAGTTTAATGGCAATATCCGGCGTCAGATAACAGCCGCCCGTGGCAACCGTATGCAC -CGCAGCAATGAGTTCATCCGGGCTACAGCGTTTGGAAAGAAAGCCGCGTGCCCCCGCGTTAAGCGCCTGCTCAACCAGCG -CAGGACTGTCGTGAACGGAGAGCATAATCGTCGCCATACCTTTCGGCAGCTGGCTTAGCAGCTCCAGACCGGAGATATCG -GGCATGGAGATATCGCAAATACACACCTGCACACCGCGCCCCGGCAGCCCCGCCAGCGCCTCGCGCCCCGAACCAAACTC -GGCAACTACCTGCAAATCAGGTTCCAGCCCCAGCAGCTGCGCAAAGCCGGAGCGGACGATGAGGTGATCGTCTATAAGGG -CAACGGTGATCATGGTCTTGTCCTGGCGGGTAAAAAAAATACGCGCTTACCTTAACGATAAGCGCGATGTTGTTCAAGCC -TTGAGCGGTTACTGAAAAAACACCGCGATCTTGTTAAACATCGTCGGATCGGACTGATTACGCTGCACTTTCACGACATC -TTCCAGCTTATCGATTTGGCTTATCATCTGCTCCAGACGCTGGTCGTCATTGACCAGTAGCCAGATATGGCTTTTGTCGC -TGTCCTGAATCGGCAGACAAAGAATGCCTTCAACGTTAAAAGCGCGGCGGGCAAAAAGGCCACAAACGTGGGTCATTACG -CCCGGATGGTTGCGAACGGTGAGCTCCAGAATTACGTTGTCATGAGTTGTGTTTTGCATGGCTTATTCCCCCACCATTTC -AGTATTCGCCGCACCTGGCGGCACCATCGGGTAAACTTTTTCTTCGGCATCAATGCGCACATGGATCAGCGCCGGGCCAG -GGCGATTGATGATTTCCTGCAATGAAGCCTGCGGATCGGCTTCGTTATTCAAATCACAGGTTTCGAGGCCGAATCCGGCG -GCAATCTGCATAAAGTTGATTTTGCCCGGATAGGTGGCGGCAAAAACGCCTTGCTCGTAGAACAGACTCTGTTGCTGATG -CACCAGCCCCAGCGCTTCGTTGTTCATCAGAATGATTTTGACATCCAGCTGATTTTCACTGGCGGTCGCCATCTCCTGAA -TATTCATCATCAGGCTGCCGTCGCCGGAGAAACACAACACTTTGCGATCCGGGTTCGCCAGCGCAGCGCCAATCGCCGCA -GGCAGGCCAAAACCCATCGTGCCCAGCCCACCGGAGGTCAGCCACTGGCGTGGGCGATTGAGCGGATAAGCTTGCGCGGT -CCACATCTGATGCTGACCAACGTCGGTGGTGATAATTGCATTGTCATCGACACAGGCGGCAACGGCGTTGATCAGGCCGT -AATGGCTTAACGGATCGCACGCTTTCGGGATTGGACACGGAAACTCACGCTGCAAATCCGCTACCAACTGGTGCCACTCT -GCACGCGGTTGCGCTTCCACCAGCGGGATCAACTGCGCCAGCACGTCATCAACATCCGCCTGAATCGCCACGTGCGGCTG -CTTGATTTTACCCAGCTCTGCACGGTCGATATCGACATGAATGATTTTGGCATTCGGACAGAACTGCTCGGTTTTGCCAA -TCGCCCGGTCATCAAAACGCGCACCGAGCACTATCAACAAATCCGCCTCCTGCAAAATATAGTTGGTGCTGCGCACGCCG -TGCATCCCCAGCATACCCAGCGACAACGGATGCGCTTTTGGCAACATGCCCAGCGCCATTAAAGTCATGGTGGTAGGCAG -TTGCGCTTTCTCCGCCAGTTCACGCACCCGTGCGGGCGCATTGATCACACCGCCGCCCAGATAAAGCACCGGGCGTTTGG -CAGCGTTAATCATCGCCGCTGCGTCACGAATGCTTTCTTCGCTAAAGGCGGGGGCGGCGGCTTTTTCTGCCATAGCGGGC -TGTGTTTCAATCTCAAAAACTGCCGTTTGCACATCCTTAGGAATGTCTATCCACACCGGGCCTGGGCGGCCTGATTGCGC -AATGCGGAAGGCATCGCTCATGACCTGCGGGAGTTCTTCGATATGTCTGACCAGATAGTTGTGTTTGGTGATGGGGATAG -AGATGCCGTAGGTGTCCACTTCCTGGAAGGCGTCGGTGCCGATCATCGAGGCGGGAACCTGACCAGTGATGCAAATCAGC -GGGATGGAGTCCAGCCGCGCATCGGCAATGGCGGTCACCAGGTTAGTCGCACCCGGTCCGCTACAGGCCATACAGACCGC -CGGTTTACCGTCGGTGCGCGCCATTCCCTGAGCGATAAAGCCCGCGCCCTGTTCATGACGGGCCAGAATATGGCGGATTT -GCGTGCTTTGGCTTAAGGCATCGTAAACAGGCAGGATAGAACCGCCCGGAATGCCTGTCACAATCTTAATGCCCTGCTGT -TCCAGGAAATGAACGATAAATTCTGCGCCGGTAAAGCGCTTACGCGTCGATGTTGTGCCCGAACTTGCCATGCTCCAGTC -CTTTTCTTCTGGGCCGACTTTCCGGGAGGTGCTTAAACGAAAAACCCCGCCCGGTTTGCGCCGGCGGGGTTTTGGAATCG -TGTGTTGTTCCAGTCCCTACGGCGCATTGCCGACGACCACCACCACACGCACGACGACCACTGCGGCGGATGGCGCAGTT -GGTAGTAGTTTTGCGTTGAGCATGGAAGTAGTCATTGGGGACCTTGTTGGTTTTGTGTTTAACAATATTTATACAAGCAC -AGCTTTACAGGGGAGACAATGGAAAATTTTTCAGCAAGGGAAAATTGAGGGGTTGATCACGTTTTGTACTGAATTGCAGA -TAACAAAAAACCCCGCCGGAGCGAGGTTTCGTCAGTCGCCTGCGGCTGGTAACCGCAAAGCACACTGTATTATGTCAACA -CTGAAAGTATACGTGTTCCGCGCAGAACGCGCAATTTCGGCACGAATTTTGACGTATTTAGTGCATAGTTGAGTATCGAT -CACAGTTTGCGTTTTGTCCAAATATTACTGTTTATTTATACAGTAAACTTCTATAATATCACTGTACGCAATGTGTTATG -CGGGGGCCGCATCGTTACCCGGCGCACTAAGTCCTGGCTGAAACGGGTGGTGCCGTCAGCGCCTTAACCCCGCGTGAGCA -CACTGTGTTATGTCAACAAGCACAACGTTTCTCCTTGAGATACCGCGTGCACAACAGCTGGCAACAGGCAGCGGAAAGGT -ACGTCAGCTGGCAGTGCTCCTGAACCACAGGAGACGCGTATGAACCTGGTGGATATCGCCATTCTTATCCTCAAACTCAT -TGTTGCAGCACTGCAACTGCTTGATGCTGTTCTGAAATACCTGAAGTAATTCAGATTCAAGTCGCACCAAAGGGGAGCGG -GAAACCGCTCCCCTTTTATATTTAGCGTGCGGGTTGGTGTCGGATGCGATGCTGACGCATCTTATCCGCCCTACCATCTC -TCCCGGCAACATTTATTGCCGCTTTTGTTTACATATTCTGCCGCTAAACAATTCCCCATTCCTGGCGTATATCTGGCTAA -CATTCATCAATGTGATAGATTCCTCTCCCGCATTTATGGGAATGCGTAGTGACTTATTCTAATTATTTTTATAAAAGCAT -CCGTGATAATGAAAAGGCAAAGAAACGTCAATTTGTTATTGATGTTGGTATTACTCGTGGCCGTCGGTCAGATGGCGCAA -ACCATTTATATTCCAGCTATTGCCGATATGGCGCGCGATCTCAACGTCCGTGAAGGGGCGGTGCAGAGCGTAATGGGCGC -TTATCTGCTGACTTACGGTGTCTCACAGCTGTTTTATGGCCCGATTTCCGACCGCGTGGGCCGCCGACCGGTGATCCTCG -TCGGAATGTCCATTTTTATGCTGGCAACGCTGGTCGCGGTCACGACCTCCAGTTTGACGGTGTTGATTGCCGCCAGCGCG -ATGCAGGGGATGGGCACCGGCGTTGGCGGCGTAATGGCGCGTACTTTACCGCGAGATTTATATGAACGGACACAGTTGCG -CCATGCTAACAGCCTGTTAAACATGGGGATTCTCGTCAGTCCGTTGCTCGCACCGCTAATCGGCGGTCTGCTGGATACGA -TGTGGAACTGGCGCGCCTGTTATCTCTTTTTGTTGGTTCTTTGTGCTGGTGTGACCTTCAGTATGGCCCGCTGGATGCCG -GAAACGCGTCCGGTCGATGCACCGCGCACGCGCCTGCTTACCAGTTATAAAACGCTTTTCGGTAACAGCGGTTTTAACTG -TTATTTGCTGATGCTGATTGGCGGTCTGGCCGGGATTGCCGCCTTTGAAGCCTGCTCCGGCGTGCTGATGGGCGCGGTGT -TAGGGCTGAGCAGTATGACGGTCAGTATTTTGTTTATTCTGCCGATTCCGGCAGCGTTTTTTGGCGCATGGTTTGCCGGA -CGTCCCAATAAACGCTTCTCCACGTTAATGTGGCAGTCGGTTATCTGCTGCCTGCTGGCTGGCTTGCTGATGTGGATCCC -CGACTGGTTTGGCGTGATGAATGTCTGGACGCTGCTCGTTCCCGCCGCGCTGTTCTTTTTCGGTGCCGGGATGCTGTTTC -CGCTGGCGACCAGCGGCGCGATGGAGCCGTTCCCCTTCCTGGCGGGCACGGCTGGCGCGCTGGTCGGCGGTCTGCAAAAC -ATTGGTTCCGGCGTGCTGGCGTCGCTCTCTGCGATGTTGCCGCAAACCGGTCAGGGCAGCCTGGGGTTGTTGATGACCTT -AATGGGATTGTTGATCGTGCTGTGCTGGCTGCCGCTGGCGACGCGGATGTCGCATCAGGGGCAGCCCGTTTAAGCGCACG -TCACCGCAGCATCGTCATCAGCTCCATGGGAGAACGATGCTGCTTTATCAGATCACGCATCACCCGCATATGCGGTGCGG -AGTAAGAATAAAACGCCTGATAGCCCGCACAAAGCACGCTGTCTGGCGTCTCCTGCCGAGCGTGCGGGCACAGGCGATGC -CAGTCGCACGCCTGGCAGTCACAGCGCGGTTGCGGGTTTTCGCTGCCACACCATTTTTGTAAGGTGGCGTCAAAAAGCTC -AATCGAGATACGACTGATATCTGCCCGCACCCAACACTCGAACAGGGCAATTAAAAATTTCCCCCACAGCTCTGCTGTCA -CCGAAGCGGCCGTCAGATCGCCCCGGTCATCAAATTCAAGATAGGGAATGAGCTGTACGGAGCGGATGCCCCGCTGTTTG -AAATTGTGATAAAAATCGGCAGGTTGCAGAGCATCCTTGTACTCTACAACCAGTTTATGCCTGTCCTCTTCAGCATCAAT -GACCTGACTTCCTGTCATGCGACTCTCTCAATAAATACGATAAGTTGATGTATATGCGTTACAGCAAACAGTATTGCGAG -AGATAACACCGCGAGGGAGATCAAAAATTTGTCACGGACTACGTGAAATTGGGAAAAATCGCTATTCGTGACATCCATTA -AATTGCGATTACGGGTGTAGTGCCAGAGGATCAGCGCCACGATGGCGAGAATGCCAATCGAAATCCAGAATAACATGCCC -GCCTGGTGCCAGTTGTGTTTGATAGCCAACGCCATCAACGCGCCGTAGCCCAGCATGGTACGAAACCACGCCAGTGATGT -GCGCTCCGGCTGCAGTCCTGGGTCGGCAATGCGTCTGGCTTTGCGGCTATCCGGCATACAACACCAGTCCCATAACGATC -ACCGCCACGACCATCAATATTAAGCTAATGATTAATAAGCTGTTGGTGTAGGGCAGGTCCTCTTTCAGACGCATCGCTTT -TTCATTGCGTAACCAGCGCAAGTAGCCATACATCGCTAACCCGCCGGAAAACAGACACAACAACAACGCCAGCAGTTCGC -GAATGACGGGCGTGGCGAAATCTGGCGCAAGTTGATCAAGCCCAACCCCCGCCGCCAGAAATCCTAGTGCAGTACGGATC -CACGCCAGAAAAGTACGCTCATTAGCCAGCGAGAAGCGGTAATCAGGCGCTTCTCCGAGGCGGGAAATTTTCATTGTTGC -TCCTTTGCAATTTCACTAACGCTCTACCTTTAGCGGTTTTTTTAAGAATTTCGTCCGCCCGTTTCCTGATATGCTTTTGC -CATCCGCTACAAGGAGGTCAGATGGGTATCATAGCTCAAAATAAAATCAGTTCATTGGGCATGCTGTTCGGTGCCATCGC -TTTAATGATGGGGATTATCCACTTTTCATTCGGCCCTTTCTCCGCACCACCGCCAACGTTTGAAAGCATCGTGGCGGACA -AAACGGCTGAAATTAAAAGAGGTCTTCTCGCCGGAATAAAAGGCGAAAAAATTACCACCGTGGAGAAAAAAGAGGACGTA -GATGTCGATAAAATCCTCAATCAAAGCGGTATCGCACTGGCCATTGCTGCGCTACTTTGCGCATTTATTGGCGGTATGCG -TAAGGAAAATCGCTGGGGCATTCGCGGCGCGCTGGTTTTTGGCGGCGGGACGCTGGCTTTCCATACCTTGCTTTTTGGTA -TCGGCATCGTGTGCAGCATTTTGCTGATATTCCTTATCTTTTCCTTCCTGACCGGCGGTTCACTGGTTTAAGCAGCCTGA -ATAATGCCCGCCGGGTGATCATCAGCGGGCATTATCGTCAGAACTTCTGTTTTTTCTCCTCCACCTTCACCCCTTGTGTC -GGTAGGCCGGTGTCATAGTCGCGTACAACTGGCGAATAGCCATCTTGTGGACGTGGACGAAACGCCCCCATCCAGCGCGG -CCGTGCATCTTTACGCCACGGACGCAGACTCCATTGGTAACTGCGGAACGGATCGCGAATTTTGTCCATGTAATCCAATA -AGGCGTCATGCATTTTGCTGCGAACGTCTGCAAAACGGATATCATCGATCAGGTTATGCATTTCATTTGGGTCATTACGG -CGATCGTAAAGTTCATCACTGGTGAAGAGGTTGAGTACCAGTTTAAAGTCATCCGTCACCCAGCAACGCACCGGAATAAA -ACCGCCAAAGCTGTCATGCTCAATCTCGTAGCGGTTAAATTCCACCATCACGCCGCGTGGCTCTTTCACGGCAAGGATAT -TTTCCCCCGGCAGAATCTCTGGTTTTTCAATATCTGCCAGCGCCATCATTGTCGGCAGTAAATCGATATGACTGACTGGC -GTATCGACCTGTCGCCGCTCCCCTTGCGGCGAACGGATGATCAGCGGAATGCGGGTGATGTCGTCATACATCGCCGCCCC -TTTACTGATCAGCTTATGTGCGCCCATCATTTCGCCGTGATCGGAGGTATAAATAACCCACGTATTTTCACGTTGCTCTG -GCGTTAAGGCATTGATGACCCGTCCGATTTGGTCATCAACAAAGTCATTACAGGCAAAATAGAGCGGATGGTGATAAAGC -CCGTCATCACCGACTGGCGATGGCATCGCCTGCGCCCATAAGCGGTGATGTTCCGGTTTGTTAGCCAGGTCATCCTGTGC -TTTCTCGCCCAGCTCGTAGTAAAAATCAGCGTATTTCTCTAAATACTCCACCGGACAGGTGAACGGGTGATGCGGCTCAT -CATACGAAACCACCATCAGGAAAGGCTCGTCTGCGCGCGCAGGCTGTTGCAGAAAATCCACCGCCCGATTGCTGATACGA -TGCGCCCAGGTGAAGGTTTCGTCGATATGGTTCGCCTGTAAATCTTCGACGCTGTTTAGGCCATTGCGCCACAGGCTAAT -CTCTTTTTCCGTCAGTTCGCTAAGATAGTTCGCCCCATCGAACCAGTAATCAGCGTCCCACTCCGGCGGACACTCGCCAG -TGCCGAAATAGTCATGACCGTCGAGATGCCATTTGCCGATGTAACAGGTGTGATAGCCGGCATCCTTAAAGTAGCGCCCC -ATAGTGGAGATGTTTTTGCCTGGCGCGACGTTGTTGGTCCACGGGCCGGACTGGTTAGCGTAGATACCGGTAAATAGTCC -GGCCCGTGCAGGCGTACAAACCGGTGAACAGGTGTAGGCGGAATTAAAGCGAATACCTTCCGCCGCCAGACTATCAATAT -TTTGCGTATTCAGCGGTTTACCGCTATAGCAACCGACCATATTGGTGGCCTGGGTATCGGTCATGACGAACAGAAAATTG -GGGCGTTTCATAGGCTATCCTTCCCGTCGGGAGTAAAGGTTACGGCTGGGTCGTGACGATGCCGCCAGCTGTCAAAAATC -AGGTAGACAATCACTACGGCGGCAATGAAATAACTGATCATCGCTAACCAGCGCGTACCGTAGCCGCCGAATTCAGCCAG -CCCGGCATAGACGCCAATCATCGCGAACAGGATGCCAATTGACGCGATCTTGACGTTTTTCCACGGTTTCATGTCCACCG -CAAACGCATCTTTGAAGGTGAACGGCGTGGCGCGCGGTTTGATAAAACCGATCACCAGCATCACGACCACGTTGATGCAG -AACGTACAGGCCAGCACATAGAGGAAATGGAAGTCGAACTTCACCAGATAGTTGATGGTGATGTAGCTGATTATGCCAAT -CCCCATCGCTACTTTTGCCGCCAGCGCCGGGATGCGCGGGAAGAAAAAGCCCATAATGATGATGGTAACCAGCGGCACGT -TGTAAATGCCGTTGAGCTGTTTCATCCAGCTATACAGCCCCTGCGGCGCGTTGGCGATCCACGGCGCGACCAGCACCGAA -ACGATAGCGATAAAGAAACCAAATTTGCGCCCGACGGTGACCAGCTGCTGCGGCTCGGCATTCTGGTTAATGATGCGACG -GTAAATACCCATACTGAATAACGTACTGGCGCTATTCAGAAAGCCGTTGAAGGTACTGATCACCGCACCAAATAACACCG -CGCCGAAGAAACCCACCATTGGCACTGGCAGAACGTTATTGACCAGCGTCGGGTAGGCCATGTCGGCTTTCGGTAAATCC -TGATACAGATGAAACGCAATCAACCCTGGCAGCACCAGTACCAGCGGGTCGAGCATTTTCAGCACCGCCGTTAACAGCGC -CCCCTTTTGCCCTTCCGCCAGGCTTTTTGACGCCAGCGTGCGTTGCACGATGCCCTGATTTGTACACCAGTAAAAGGTGT -TCACCAGAATCAAACCGGTAAATGCCGCGCCAATCGGCAAGGGATCGGTCGGGCCACCGATTGAGTTTAATTTCTCGGCG -TGAACGGTGGTGAGTTGCTCAATGCCCTGCATAAAGCTGCCCTTGCCCATCGCGATTAGGCCAAATACCGGCACCATCAA -CCCGCCGATAACCAGCCCAATACCGTTGATGGAGTCCGCCACTGCCATTGCGCGCAGTCCGCCGATCACCGCATACAAAA -TTCCCGCCAGACCAAGCAAAATTACCAGTAGCCAGATAGCCGCACCGTGAGAAATCTGTAGCGATTCCCCGACGTGAAAC -AGGCTGTTGAGCGCCAACGCGCCGGAGTAGAGAACAATCGGCAGAAAGCAGACGCCGGTGGCAATTAGGAAGCAGAAGTC -GATGATAATACGCGTCGTTTTATCATAACGTTCCTCCAGAAAATCGGGGATGGTGGCAATGCCGCGCTTCAGATAGCGCG -GTAAAAAGATTAGCGCGAGGAAGATCAGCGTCACCGCTGAAGTCACTTCCCAGCCCATCACCGACATGCCGCTTTTGTAG -GCCTGCCCGGAAAGGCCGACCAGTTGTTCCGTGGAAAGGTTGGTTAGCATTAACGAAGCGGCAATAACCGGCGCTTTTAG -TGAACGTCCGGCAAGAAAATAGCCTTGTTGCGATCCGGTATCTGTTTTGCGGACCTTCCACCAGGTGATCACCGCCACCA -GCAGCGTAAAACCGACAAAACTCAAGATTTGTAACGAATTCATCTCATAGCCCTTATTTATGTTTATGTCCCGGACGCAT -GAATATAGGGAGAGGTAAAATGCGTCGGGTCAGGCAGTCAGATTCTTAAAATACAAACGTCGTATCCCTGAACGGATTGT -TTTCTGTTAAGTTCAGGTTGTGAGCATAATTCGCCGGAGGGATATTAAAATGAATGGAAAATTGCAAAGTTCAGATGTAA -AAAACGAAACTCCGTACAATATTCCCTTATTGATTAACGAAAATGTGATCTCCAGCGGAATTTCTCTGATCTCGCTCTGG -CATACCTACGCCGACGAGCATTACCGGGTGATCTGGCCGCGGGACAAGAAGAAACCGCTTATCGCCAACTCATGGGTTGC -GGTGTATACCGTACAAGGATGTGGGAAAATTCTTTTAAAGAATGGCGAACAAATAACACTGCATGGCAACTGTATTATAT -TCTTAAAGCCAATGGATATTCACTCTTATCACTGTGAAGGTTTAGTCTGGGAACAGTACTGGATGGAATTTACCCCCACC -AGTATGATGGATATTCCCGTTGGTCAGCAAAGCGTTATTTATAATGGCGAAATTTATAATCAGGAACTCACCGAAGTTGC -TGAGTTAATAACTTCACCAGAAGCAATAAAAAATAATCTGGCAGTCGCTTTTCTGACGAAAATTATTTATCAGTGGATTT -GTCTTATGTACGCAGATGGTAAAAAAGATCCACAACGGCGGCAAATTGAAAAATTAATTGCCACTTTACATGCCAGTCTG -CAACAACGCTGGAGCGTAGCTGATATGGCTGCCACGATCCCCTGTAGCGAAGCCTGGTTGCGTCGTCTGTTTTTACGCTA -TACCGGCAAGACGCCGAAAGAATATTACCTCGATGCGCGTCTGGATCTGGCGCTATCGCTATTAAAGCAACAAGGAAACT -CGGTTGGCGAAGTCGCTGATACGCTCAACTTCTTCGACTCCTTTCATTTCAGCAAAGCCTTTAAACATAAATTTGGTTAT -GCGCCGTCAGCCGTGCTAAAGAATACGGACCAGCACCCAACGGATGCCAGTCCACACAATTAACGTAACTCTGGCCAGTA -CGCTTTGTTGGCCTCCAGCAACTCATCCAGAATAGCTTTGGCGACCGAGGCGCTCGGTACCGTTTTCGACAACGTAATCG -CCTGCCACAGGTGCTGATATGAACGCTGTTCCCAGGCGTCCACGACCAGTTTTTCCACCGCCACTTGCTGACTCATTAAC -CCTTTCTGAAACTGCGGGATATCGCCGACCACCAGTGGTTCAGGCCGTAGTAGCGCACGCGCATCTGTTTGCGATCTTGC -AGCCCAACAATTTGCGCCATCCGGCTTTCAATACCGATTGGCATGTCACAGATGTTGAGGATTTTCGCATTCGGGCGCAG -ACGACGCGTGGCTTCTGCGACAATGGCTGCCGGGTTGGAGTAGTTGAGCATCCAGGCATTTGGTGAATATTTTTCCATAT -AATCCACCAGTTCCAGGACGCCGCCAATGGAACGCATGCCGTACGCTATTCCGCCGGGTCCGCAAGTTTCCTGACCAACA -ACGCCGTGGCGCAGCGGGATTTTTTCATCCAGTTCGCGCATCGGGTATTTGCCGACGCGGATGTGCGCCATGACAAAATC -AACGTCGCTGAATGCCACTTCAGGATCGGTGGTGTAACTAAACGCAATGTCCGGCGCTTTTTCTTTAAGGATGACTTTAC -AGGCTTCGGCAATCACTTCCTGCCGCGCACCATCGTTATCATAAAATTTCAGTGCACGAAGCGGGAAACGGTCCTGATTC -GCCAGGAGCATCAACACGATGCCTGGCGTAAAGGTGCTTCCACCGCCTGCGACAACCACTGAGAATTTGGTCATTATACT -GCCTCCGTAATGGCAACATTTTCTGCTGATTGATGAGAATTAATTAAGCTATCGAGCTGTTCACGCAGCTGAGATACATG -CAGACCAATGATCACCTGAATGGCATCGCCACTACGGAAGACGCCGTGCGCTCCCAGCTTTTTAAAGACTTCGTCATCCA -GCGTTTGTGACATGTCATGCAGTGCAATACGTAAACGCGTCGCGCAATTGTTAATGCTGGAGATATTGCCGACCCCGCCC -AGGGCTTGCAGGATACCGGCAGCCTGATCCAGCTCTTTTTTTGGCTCTGCCGCGGTGGTTTGGCCTCGCGAGGCTTTGTA -TTCGGCTTTTGAGTAGAGTTTCACTTCCGCATCTTCACGTCCCGGCGTGCACATGTTGAACTGCAGAATCAGTGTGCGGA -AAACCACGAAGTACAGCAGGGTAAAGCACAACCCAATGGCGATTTGGGTCAGCATCATATCCGCGTGGTTGCTGAACATC -GGGATCCAGTTTTGCGGTAAAACCTAGTCAATCAGACCTCCGCCCATGTTGCCCACCACACCAAAGAGATACATTACGGT -CGACATTGAGGCCGCCAGCACGGCGTGTACCGCAAACAGCAACGGTGAAATGAACAGGAAGGTAAATTCCAGCGGTTCGG -TAATTCCCACCAGCATGGCGGTTAAGGTTGCGGGAATCAGCAAGCCCGCCACTTTTACCCGATTTTCCGGTGCGGCAGTG -AAGTACATCGCTAAAGAAATGCCCACGGCACCAAAGATTTTTGAGTTACCGTGCAGGGCAAAACCGCCTTCCGGGAACAA -CGATTTCAGCGGCTCGGCGCTCAAACTGAACTCTTGCAGATGCTGCGCCCAGTACATCTGAATGCCGCCTTCAACAGCTG -CCGGACCAAAGATAAACTGTCCGTAGATGAAGTGGTGTAAACCGGTTGGGATCAGAATACGTTCGAGGAAGGTGTAAACC -CAGACCCCAAGTGCACCCGCCGAACGCAGGAACGCTTGCAGAGATTCAATCCCCATTTGTACTTTTGGCCAGCCGAGCAA -CGTCAGCCAGGCACAGGGGATCATCACCAGGAAGGCGATAATCACCACATAAGACGTCCCCTGGAAAATGCCGAGAAAAA -CCGGCAGTTTTTTATCGAACAGACGGTTATGCAGCGCCGTCACAATGCCGGAAATGATAATTGCGCCGATAATGCTGGTA -TCGAGGGTTTTAATCCCGGCCATCATTGTCAGACCGCTACCTGCCACCGCGTCCTGAGTGAAATCGACGCCGAAGTAGCT -TCCCCAGGTCATTCCCATCGCGTTGATGAAATAGTTCCAGGTCAGGAAACTCACCATCACCGCCAGACAAGCACGCCCCT -GCGCTTGCTTAGCAAGGCCAATGGGTAAACCGACAGCAAAAATCAGCGGCATATTACGGAATACCGTCCAACCGCCCTCT -TCAATAATGTGTACGATTTGCGCGAATAAACTGTTCGGATCGGTCAGTGATTCCCCGACAAACATCGGGTTTTGCAGCAA -GATGGCAAGACCCACCACAATCCCGGCGAAGGGAAACAGCAGCACTGGCGTGAACATCGCGCCGCCAAAGCGTTGAATTT -GACTGAGCATTTCCACATCCTCTTTTCTCAATTCTGTAAGTAGGAAGCCTGATTGGTTATGCGGCAGGCCTGGAGCGAGG -ATAGGAAGATGCGATCGGCAGAACATGACGACCCAATGGGATTCGTGATCGCTTTCATGCTTTTCGTTGGGCGGTAGAGA -TCTACGTTTTCGCGAAAAAGTAGACCTCTGTGAGCACAGGTACACAGCATCGAACACATCTTTAAAAAAAAGATGTTTTT -TCAATCGATTAAGCAGAACTTGTGTGCGCATTACCCGGGCTTGCAGGCAAAAAAGAGATCTAGAGATGATCTACAAAAGC -ATTGCGGAGCGGTTAAGAATTCGACTTAACTCCGCAGATTTCACGCTAAACAGCCTTCTTCCCGGTGAAAAAAAGCTGGC -GGAAGAGTTTGCGGTATCGCGGATGACCATCCGTAAAGCCATTGACCTGCTGGTAGCGTGGGGGCTGGTGGTCCGCCGCC -ACGGTAGTGGCACTTACCTGGTGCGCAAAGATGTACTGCATCAAACCGCCAGTCTGACCGGGCTGGTGGAGGTGTTAAAA -CGGCAGGGAAAAACGGTCACCAGCCAGGTGCTGATTTTTGAAATCATGCCTGCGCCTCCGGCCATTGCCAGCCAGTTACG -GATTCAAATCAACGAGCAGATCTACTTCTCCCGTCGCGTTCGTTTTGTGGAAGGGAAACCGCTGATGCTGGAAGACAGCT -ATATGCCGGTAAAACTGTTCCGTAATCTTTCGCTGCAACATCTGGAAGGGTCGAAGTTTGAATATATTGAACAAGAGTGC -GGGATTTTGATTGGCGGTAATTATGAAAGCCTGACGCCAGTGCTCGCCGATAGACTGCTGGCGCGGCAAATGAAGGTAGC -GGAACACACGCCACTGCTGCGGATCACCTCGTTGTCATATAGCGAGAGCGGGGAGTTTTTGAATTATTCAGTGATGTTCA -GAAATGCCAGCGAATACCAGGTGGAGTACCATTTACGGCGACTCCACCCGGAAAAGAGTTAACCGATACTCCAGAAGAGC -ACCGCCAGTAATTGGGGGGTGATAATGCGCAGGAACATTACCAACGGATAGACAGTGGCGTAAGAGAGCGCCGCCGCACC -GCTGGTTGGATGAAGATTATTAGCAAACGCCAGCGCCGGAGGATCGGTCATGGAACCTGCCAGCATCCCGCACATGGTCA -GGTAATTCATTTTGGCTAACATCCGCGCCAGAATGCCAACAGTAATCAGCGGAACGGCGGTGATCAGGGCACCATAACCA -ATCCAGCTTAGCCCTTCGCCATTGACCAGGGTATTCACAAAATCCCCACCAGATTTCAGACCAACGACCGAGAGGAACAG -CACGATCCCCAGCTCCCGCAGCGCGAGGTTGGCGCTTGGCGGCATAAACCAGTACAGCTTGCCGATACTGCCGATACGCC -CGAGGATCAACGCCATAATCAGCGGTCCGCCCGCCAGCCCCAGTTTCAACGCGGCCGGGAATCCTGGCACAAAGACGGGA -ATAGAACCTAACAATACGCCTAGCCCGATGCCAATAAACACTGGCAGCATCTGAACCTGTTGCAGTTTTTGCTGCGCATT -CCCCAGCACATTGGCAACGGCATCAATTGCGGACGGACGCCCCACCAGATTGAGGATATCGCCGAACTGCAGGCTGATAT -CGCCACTGGCGACCAGTTCGACCCCGGCACGGTTCAGGCGCGAGATAACAACGTCATAGCGTTCTTTAAAGTGCAGGTCG -CGAATACGTTTTCCGAGCACGTTTTCATTGGTGACCACCACACGCTCGACGCGCAAATCAGTGCCTTTCGTGGACAGCGA -AGTATCGACCTCCTGACCAATCACCAGTTGCGCATTATGTAAATCCGCTGGCTGACCCACCAGATGCAGCAAATCGCCCA -GTTGGATAATGGTATCTGGCGAAGGAACTTTTAGGGTTTCTTCGCGTTTCAGACGCGAGCAGATAATTTTGTCGCCGTTG -AGAATCGGTACATCTTTAATGGCTAAATCATGCAGGTTAGGGTTCTCAACGCGAATATTGATAGTCTTGATCAGCGCGCC -GCCATTGGTGCGTGAAGACTCGTGCTGCTGAGCTTCTGTCTCGACATTGACGCGGAAAATAACCCGCAACATCCACATGG -TGAACAAAATCCCGCAAATGCCGAATGGATACGCCATCGCGTAACTCATCCCCATCTGATCGACCATTTCCATTGGTGTA -CCCAGGTCGCGCAAAATCTGCTGCCCTGCCCCCAGCGCTGGCGTATTGGTAACCGCACCGGAGAAAATCCCCAGCACTAC -CGGCAGTGGAATATCAAACAGTTTATGCAGGATGGCGGTAACCAGACCACCGATGATGACGATCAGAACAGCAAACAGGT -TGAGGCGTAATCCGGAGACGCGCAATGAGGCAAAGAAGCCCGGCCCTACCTGAATCCCGATAGTATAAACGAACAGGATC -AGGCCAAATTCCTGAATAACATGCAGCATATCGCTACTTAATGTCATCCCCGCCTGAGAAACAAAATGGCCGACGATGAT -CCCACCAAACAGCACGCCGCCAATACCTAATCCTATGCCGCGAAATTTGACGTTGCCGATAAACAAACCGACGACTGCCA -CCAAAGCCAGAATACTGACCGTTAATGCTATATCACTCATCGTCCATTTCTCTTGAGATAACATTTTAATTGCTACGGAT -TATGGCTGAATCGGTGAAGCAGATTTGCCTTATAGCGCACATTATCACGGGAAAGAACGTGCCGAAATATCTTAAACAGT -CGAAATTTAACGCATTGTTGAGTAAGTAAGACAAAAAAAGCCCCACCAGAATGGCGGGGCAAAGAGAATAGCTAGTTAGC -TATTTAACGCGGGACGTTCGCTGATAGCGATACGCTGCGCTGCGATGGGTTCAGGCTCATTACGAATTAAATCAATATGC -AGTAAACCGTTTACGAAGGTTGCGCCAGAGACTTCCATATTTTCAGCCAGCGTAAAGCTCAGGCTAAATGGCTGATTCAT -AAGCCCTTGATGCAGCCATTTTTTCTCTTCTTTTGGCTGCTCCGGCGTGCCTTTTACGCTCAGGCGCGTACCTTCCAGTT -GAATCTCTAAATCTTCCTGACGGAAACCTGCCAGCGCAAGGGTAATGCGGTAGTGGTTATCGTCGCTTTTCTCAATGTTG -TACGGCGGGAAGCTCTGGCTTTCACCGGCGTTTTGCAGTGCGTTGGCCAGTTTGTCAAAACCGATCCATTGACGCATCAG -TGGGGATAAATCGAAGTTACGCATAGTCATTTCTCCTTCTAAGAAGCGAGTAAGTACCTGCAAATCCGAAGATTCGCATA -TGCTCCCTGACGGCGAGCATGGAGATGTCAGGCCGCGCCAGGCGGCCTTAGGGAATTAGTTGATTTCGATACGGCGCGGT -TTTTTCGCTTCCGGAATCACGCGTTCGAGATCGATATACAGCAAACCATTTACCAGGTTAGCACCACGAACATGAATGTT -CTCAGCTAACTGGAATTTGCGTTCAAAGTTGCGTTCAGCGATGCCCTGGTACAGATAGGTGCGCTCTTTTTGTTCGTCGG -CGTGAGCACCTTTCACCACCAGCAGATTATCCTGGGCGGTAATTTCCAGTTCGCTCTCAGCAAAACCAGCCACAGCGATA -GCAATGCGGTAATGGTTTTCGTCTACCAGTTCAACGTTATACGGAGGGTAGCCGCCATTACTCTGGCTCTGGTTGTTTTC -TAAGTGGTTAAACAAACGGTCAAATCCAATAGCAGAACGGTAAAGCGGGGATAAATCAAAGTTACGCATAATCAATAGCT -CCTGAAATCAGCGAGAATGTAAGACCTTCCACAATGGACAGGTCAGGTAGCCAGAACACCCATCAGGCGCGTCCTCATCG -GCTACGATGTAAAAATGGGTCTGGAAATGAACTTTTCAAGCCTTATCAGCGGACTTTTTTTTGCAGTTTATGGTCTATTG -CATAGACTGAGGGGGCAGCACGAAACGTTAAAGTGCGATAGCCGCCACAGTGCGACGTAATGATGATGTTATTTTCAGCA -AGGGATCGCTATAACTCATCAGGCCAACACCCACGATCAACAGATGAATTTATTATGATAAGAAATGTGTTGTTAGCGTT -CATGATATGCAGCGGAATGACATTACTCGGAGGATGCTCCAGCGTGATGTCCCATACCGGAGGGAAAGAAGGAACGTATC -CCGGCACCCGCGCCAGCGCAACCATGATTGGCGACGATGAAACCAACTGGGGCACTAAGTCGCTGGCGATTCTCGATATG -CCGTTTACCGCTGTGATGGACACGCTTTTACTGCCGTGGGATGTGTTCCGCAAAGACAGCTCGGTGCGCTCGCGCGTTGA -AAAAAGCGAAGCCAACGCGCAAGCCACCAATGCGGTTATTCCACCGGCCAGAATGCCTGATAACTGATTTAGCGATCAGT -TTCGGTGATCCACAGCTGGCCGCCTTCCATCCACGCCAGCCACTGACCATCCGGCGAGAAGACCACGGCGTCCGCAGAAG -GTGAATTGGCGTGGTGTTCGGTTAAATACTCAACCTCGCCGCTTTGCGCATGGGCACAAGCAATTCGATTATCCAGCACA -AAGCCCAACCATTCTCCTGACGGATGCCAGTTAAATGCAGACTGAATATCCGTTTTGTTATGGGTTAACTGGCGCGGCTC -GCCGCCCTGTGGCGAGATAAGCCACAGTTGCACAATGCCGTTATCATCTCGCATTAAAAACGCGATTTGTGTACCCTGCG -GATTACAGCGCACCCAGTGGCGCGGGACGTTGACTAACCCCGGATAAGCCCGATGGTGGGTAAAGGTTAAACGTCGCTGC -ACGACGCCACGCGGTGGCGCGGGCAGGGTTGTTTCCGTTCCGCTTAACGGCGCATCACCTGCCGCTTTCCAGCCAGCTTC -ATCTTGCGGTAACTCAACGATAAACAGCTCCGGCACTTTCTCGCCCTTTGGCGAAAGTGTGTCGCCAATAAATGCCAGCG -CGTGATTTCCTACCCATCCTTCTTCATAAGCACGATTGATTTCATCACTGCCAGGCTGTGGCGTGGGCGTGGTTTTGCTC -ACCAGCACGCACCAGTGGCTACCGCTGTATTCACGCGGATGCTGCTTTTGTACGTTGACCGGGCCAAACGGCGCAGCAAC -ACCGACGTTTCGCAAATCCAGCGCCGGATCGAGTTCATGCATTACATGGTCGTTATAGGTAAAGCTCACCCTTTCACCGT -TCGGGCTAAAGACATGCACATGGCTGCCGCCGCGCAGCACTCCTGGCGTATACGGCGCGGTAATATCCATCGCATCAAGG -TTACTCATCTTGCCGCCTTCAACAATCACTCCGCGCCGATGATGGAAGTCGTAATGCCATGTTTCATCAGGATTTTCCGG -GCCGTGGATGAAAACATATTTCTCTGACTTCGGATGAACGGTCACCACGCCGACGTGTGCGCCCTGTGACGCGCGATAGA -TAACCTCGACCTCGCCGGTATGGATATTCACACGCTCAATGGTCTCGCCGGTAAACGACGCGCCAGAAGGACGCACGTCA -AATACCAGCCACTGGCTGTCGGGCGTCCAGGTATTGGTATTGGTGAGCAGGTGATTACGGGGAGCAAAGGTTATCTGTTT -CATGGCGCGGTCCTGATACAAAACGGGTCCCGCCATCATACTTCACAAGGACTTCACTTTCAGACAATAGTCTTTTGCCA -TCGTGATGAATGTGAGTGAAAAGATGGAACATTTCGACGTGGCGATTATTGGCCTCGGCCCGGCAGGATCGGCGTTGGCA -CGAAAGTTAGCAGGCAAAATGCAGGTGATCGCGCTGGATAAAAAGCACCAGTGTGGTACTGAAGGTTTCAGCAAACCCTG -CGGCGGTCTGCTGGCACCGGACGCGCAGCGATCTTTTATTCGCGATGGGCTGACGCTTCCTGTCGATGTGATCGCTAATC -CGCAGATTTTCAGCGTCAAAACCGTCGACGTCGCCGCATCGCTAACGCGTAACTACCAGCGAAGCTATATCAATATTAAT -CGCCATGCTTTCGACTTGTGGATGAAATCGCTGATCCCCGCCAGCGTTGAGGTTTATCACGACAGCCTGTGCCGAAAAAT -CTGGCGTGAGGATGATAAATGGCATGTCATTTTTCGTGCAGACGGCTGGGAGCAACATATTACCGCCCGCTATCTGGTCG -GTGCCGATGGCGCAAACTCGATGGTGCGGCGACATCTCTACCCGGATCATCAAATCCGTAAATATGTCGCTATCCAGCAG -TGGTTCGCGGAGAAACATCCGGTGCCGTTCTACTCCTGCATCTTTGATAATTCGATAACTAACTGTTATTCATGGAGTAT -CAGCAAAGACGGTTATTTTATCTTTGGCGGTGCCTATCCAATGAAAGACGGTCAGACGCGTTTCACGACGCTGAAAGAGA -AAATGAGCGCCTTTCAGTTCCAGTTTGGTAAGACGGTGAAAAGCGAAAAATGCACGGTGCTGTTTCCCTCGCGCTGGCAG -GATTTTGTCTGCGGTAAGGACAACGCCTTTCTGATTGGTGAAGCGGCGGGATTTATCAGCGCCAGCTCGCTGGAGGGGAT -TAGCTATGCGCTGGATAGCACAGACATTCTGCGTTCGGTGTTACTGAAGCAGCCAGAGAAGCTCAATACCGCTTACTGGC -GCGCCACCCGCAAACTGCGTTTAAAACTCTTCGGCAAGATAGTAAAAAGCCGATGCCTGACCGCACCGGCTTTAAGAAAG -TGGATTATGCGCAGTGGTGTGGCACATATTCCACAGTTGAAGGATTAGCCAACGCGCTTCACATCGCCCACCAGCAGGAT -ATAAGAGAGCGCGCCAATCAACGCGACGGCGGAGATATAAACCAGTGCAGGTGCGAAACCGTAACCCTGCGCCAGGTACC -CCACCACCAGCGGAACGGTGATGCCGCCCAGACCACCGGCGAAGTTAAACACGCCGCCGGTTAAACCAATCAGGCGCATC -GGTGCCAGAGAAGAAACCAGCGACCAGGTAATCGAAGCAAAACCGTTACCGAAGAATGCCAGCGCCATCAGGCACATAAT -CATCATCGGATCGTTAGTGTAGTTAGCGCCCATAATGCAGGTGGAGATCAGCAAGCCGCAGATAATCGGCGTTTTACGCG -CAAAGCCCAGTGAAAAGCCCTTACGTACCAGCAGATCCGCTACCCAGCCAGAGAGCAGGACGCCGACAAACGCCGCGAGG -AATGGCACCGTGGTCATAAAGCCTGCTTTCAGCGCCGTGATTCCTTTTTCCTGGGTTAAATAGTTCGGGAACCAGGTTAA -GAAAAACCACAGTGTAGAAGCCACCGCAAATTGCCCAAGATAAACGCCGATCAGTTTACGATGGAACACCAGTTTCCAGT -CTTTGGCTGTTAACGGCTGACGCGCCTCTTTCTTCACCGGCGCATCACCATCCACCAGACCGCCGCCATCACGAATGTAA -TCCAGTTCAGCTTTGCTGATACCTTTGGTCAGGCGCGGCGGCTGATAAACCTTAAACCAAATCAGCGACCAGATAATGCC -GATACCACCAGTGACAATGAACACCCAGTGCCAGCTCAACATCTCCTGAATCCAGATCAGCAGCGGCGTCAGAAACGCCA -GACCGACAAACTGACCAGACGTATAAAAACCAACGGCAGAAGCGCGTTCATGTTCCGGGAACCAGCTGGTCACCATCCGG -TTATTGGTCGGGAAAGCAGGCGCTTCGAAAATACCGGTTATCGCGCGCAGACCAATTAATGACATTAAGCCCGTGGCAAA -GCCCTGGAATAAAGTCGCCACTGACCAGCCAAATATCGCAATAAAATAAGTCACGCGAGAACCTACGCGATCTAAAAACC -AACCGCCGGGGATCTGACATAGCGTATAAAGCCAGGCGAAGGCCGAAAATACATAGCCCATTTCCGCTTTGGTAATGCCG -AACTCTTCCTGAATATGGGCGGAAGCCACGGCCAGGTTGGCGCGGTCGACATAACAAATGACTACCGTAATAAAGATCAT -CACCAGCGTCAGATAACGCCGACGCCCCGGCTTTGCTGCATTAACGGGAATATCCATAGCGAGCTTTCTCCAGATTTTGG -GCATAGCGAAGCCGCTCACCATGCCCTGTAATTTACAGAGGGTTATATTTTTGTATTGCTGTTTTAGTGCCCGATGAGGG -GCTTACGTGGCAGGAATTACCACTCTGCTACGCTGTTATCTTCATGACGCCAGAGCGGATTACGCCAGTCCGGGGCATTT -TTACTGAACTCAATCACTTTAGCTTCGTCGATTTCCACGCCTAAGCCCGGTTTCGTTAACGGTTTAAAGAAGCCGCCGAC -CATGCTGAAGTCTTCTTTGTTTTTCACAAAGTCGAGTAACTCCGCGCCTTTGTTGTAATGAATTCCCATACTTTGTTCCT -GAAGTACGGCGTTATAGGAAACAAAGTCGATATGCAGGCAAGCCGCCAGTGCAATCGGTCCGAGCGGACAGTGCGGCGCA -AGGGTCACGTCATAGGCTTCTGCCATTCCGGCGATTTTGTAGCATTCGGTAATACCGCCCGCGTGGGAGAGATCCGGTTG -CAGAATCGAAATACCACCTGCCTCCAGCACGCGTTTAAAATCGAAGCGTGAGAACATGCGTTCACCCGCCGCCAGTGGAA -TATGCGTTTGTGCCGCCAGTTTCGGGTAGTATTCGGCTTGTTCCGCCAGCACCGGCTCCTCAATAAACAGCGGGCGATAC -GGCTCCAGTTCTTTAATCAGCACTTTCGCCATCGGCGCGCTGACGCGACCGTGGAAATCAAGACCAAACTCAATCTGATT -GCCAAAAGCTTCACGAATTTGTGCCACGGTGTTAACCGCCGCATCTACCGCGCGGGAGTTATCAATTAGCCCCAGTTCTT -CACAACCGTTCAGTTTGAAGGTATCGAAGCCGATTTCGCGTAGCGTTTTAATGCCGTCGATAACATCCGCCGGACGATCG -CCGCCAACCCAACTGTAGGCTTTAATTTTGTCGCGAACCAGGCCGCCCATCAGTTGCCAGACCGGCGCATTCAGCACTTT -ACCTTTGATATCCCATAACGCCTGGTCAATCCCGGCGATGGCGCTCATCAGGATCGGACCGCCGCGATAGAATCCGGCGC -GATACATCACTTGCCATAAGTCATTGATGCGCGATGGATCCTGACCAATCAAATAGTCACCCAGCTCGTGAACTGCCGCT -TCCACCGTACGGGCGCGGCCTTCGATCACGGGCTCGCCCCAACCGACCACGCCTTCATCGGTTTCAATTTTCAGGAACAT -CCAGCGGGGAGGTAAACGATACGTGGTAATTTTGGTGATTTTCATTGCACTGCCTCTCGATACGCCTTAACAAATGCTGC -TGCCTGCTGCGCGGTGCGCTCTACGGATTGCCCGGCGCGATAGAGATCGCTGCCTAAGCCCGCCCCTGCACAACCTGCGT -CTATCCACTGCGCCAGGTTTTCTGGCGTCACGCCGCCAACGGCAAAGACTGCGATGTCCGATGGCAATACCGCTTTTAAC -GCTTTGATGTATTGCGGACCAAAAGCCGATGACGGAAATATTTTCAGCGCCTGCGCGCCCGCTTCGAGCGCGGTAAAGGC -TTCGGTCGCCGTCGCGCAGCCGGGGCAGACGGTCATGCCGTAGCCCACCGCACGGCGGATCACTTCACTATGGATATTGG -GCGTAACGATGAGCTGACAGCCCATCCTGGCGAGCGCATCGACCTGTTCAGGTTTCAGTACCGTACCTGCGCCAATCAAC -GCCTTGTCGCCGTACGCATCAACGATGGCGGGAATGCTTTGCTCCCATTGTGGGGAATTCAGCGGGATTTCAACCGCGTC -GAACCCGGCGTCAATCACCGCGCCAACATGCGCCAGCGCCTCGTCGGGCGTAATACCGCGCAAAATGGCGATCAGCGGGA -GTTTAGTTTGCCACTGCATGAGCGATGCTCCTTATACCAGCCTGAAATGCCGTGTCGCCCGCCACCGCCGTCACGTCGCA -ACCCATCGCCTGAAAGGCTTGCTGGTAGCGCGCGGTCAGCGATGTTCCGGCGACAAGGGTGATGGCGTGTTGATGGGCCA -CATAGTCGCGCATACTGGCGACCTCTGCGCCAATCAACAAACCAGAGAGAAATTCGCTGACCTGTTCGCGGGGAAGTGTT -CCCAGCACATGCGAGGCGCGAACTTCAAAAAGCTGCGGCAATATGGCGGGCGTATTAAGACCACGCTCAAGGCCAGCTGT -GAAGGCATCGGCAGAGTTTTCCTGCGGCGGCAAACCTGCGCCAATCAATGAGTGATTTAACAGTAAATGATGTAATTCAC -CGGTCATCACGGTGCGAAAATCGTTGATTTGCTGGCTATCGGCCTGCACCCATTTGCAATGGGTTCCGGGCATGACATAA -AGAGAGGAAGGAGCCAGAGCTCGCGCGCCGATCAATTGTGTTTCTTCGCCGCGCATCACATTGTGGTTATCGTCATGAGA -GACACATAATCCGGGAATAATCCAGATATTGTCGCCAACTGACGTTAATTGTTCGCCAATAGACGAAAAACAGGCAGGAA -CAGATAAATACGGTGCAACTTTCCAGCCGACGTTGCTGCCAACCATTCCTGCCATTACCACTGGCGTTTTCTCTTCACGC -CAGTCGGTCGTGACTTCTGCTAACACCGCAGCCGGAGATTTTCCGTTCAGGCGCGTGACGCCTGCTTCTGATTGCCTGCT -CTCCAGGCAGTGGTCGCCCTGATAAAGCCAGGCGCGCAGATTGGTCGATCCCCAGTCAATTGCGATGTAGCGAGCTGTCA -TGTGATTTCCTTTAACCTTCGTGTCGAGCTGGCGATCATGGTAAGCGCCGCCTGCTCTGCCGCATCGCCGTCCTGATGTC -GTATCGCATCGAACAGCGCCTTATGTTCCTGGAGCGTTTGCGGCATGTTGGCCTCATCGCCCATCCAGGTTCGTTCAAAA -ACCGCCCGCTGCAGCGAACTGATCGCAATGCTAAGTTGCTGTAACACCGGGTTATGCACCGACTGCAGCACCGCCTCGTG -GTAGCGAATATCCGCTTCGTTAAACGCTTCGCGGTCCTGATTGTTGGCAATCATCTCGTTCAGCGCCGATTCAATCTGCG -CCAGATCGCTGGAAGTCGCGCGCTCTGCTGCCCAACGGGCAATCGCCGGTTCCACCAGATTTCGCACTTCGCTCATGGCA -CTGATAAGCCGTGGGTCGTAGTCATTTTCCAGCACCCATTGCAGTACGTCAGTGTCGAGGTAATTCCACTGGTTACGCGG -TGCCACAAACGCCCCGCGATAACGTTTCATTTCAATCAGCCGCTTCGCCATCAGCGAACGGAACACCTCACGGATGATGT -TGCGCGAGGTTGCAAACTCCTCACAGAGTTCCGCCTCAGCCGGAAGCGGCGAGCCTGGCACGTATTTGCCGTGAACGATC -TGTTTACCCAGCGTAATGACAATGCGATCGGTTTTATTGAGAGTCATGGAGAGTCCTTGTGCTCTGTATGTTCTTCTCTA -CTTTACCCCGATCGATGCATAACGCGGCAACTTTGTAGTACCAGCGTGATGACGTTCGCGTTTGCCGTGCGTGTAATGTA -GTACAAACTTATATTGTTGTACTACAATTTAGATCACAAAAAGAACAATGCATAAAAAAATGACATGCGTCGGGCAGAAA -TCTGAAAAGGGATATCAGGCGCTAAACAGGAGGGAAAGAAGAGTATGCTTTCAACGGCTTAGCTACTCGTTTAAAGGATT -AATCATGAAGTTGAATTTTAAGGGATTTTTTAAGGCTGCCGGTTTATTCCCACTGGCGCTGATGCTTTCAGGCTGTATCT -CGTATGCTCTGGTTTCCCATACCGCAAAGGGTAGTTCAGGAAAGTATCAATCGCAGTCAGACACCATCACTGGGCTATCG -CAGGCAAAAGATAGTAATGGAACAAAAGGCTATGTTTTTGTAGGGGAATCGCTGGATTACCTTATCACTGATGGTGCCGA -TGACATCGTTAAGATGCTCAATGATCCAGCACTTAACCGGCACAATATTCAGGTTGCCGATGACGCAAGATTTGTTTTAA -ATGCGGGGAAAAAGAAATTTACCGGCACAATATCGCTTTACTACTACTGGAATAACGAAGAAGAAAAGGCACTGGCAACG -CATTATGGTTTTGCCTGTGGTGTTCAACACTGTACCAGGTCACTGGAAAACCTAAAAGGCACAATCCATGAGAAAAATAA -AAACATGGATTACTCAAAGGTGATGGCGTTCTACCATCCATTTAAAGTGCGATTTTATGAATACTATTCACCCAGAGGCA -TTCCGGATGGTGTTTCCGCAGCATTACTGCCAGTGACTGTTACGCTGGACATCATTACTGCACCGCTGCAATTTCTGGTT -GTATATGCAGTAAACCAATAATCAGTAAGCGGGCAAACGCGTTTATGCTGTTTGCCCGCCCACAGATTAATTCAGCACAT -ACTTCTCAATAGCAAACGCCACGCCATCTTCAAGGTTAGATTTGGTGACAAAGTTCGCCACTTCTTTCACTGAAGGAATA -GCGTTATCCATCGCCACACCGACGCCTGCATATTCAATCATTGCGATATCGTTTTCCTGATCGCCAATCGCCATGATTTC -TTCCGGTTTAATACCTAACACGTCGGCCAGTGATTTCACCCCCGTACCTTTGTTAACGCGTTTATCGAGGATTTCGAGGA -AGTACGGCGCACTTTTCAGCACGGTATATTTCTCTTTCACTTCCTGCGGAATACGCGCGATAGCCTGGTCGAGGATGGCG -GGTTCATCAATCATCATCACTTTCAGGAACTGGGTATTGGGGTCCATTTTCTCCGCTTCGCAGAACACCAGCGGAATGGT -GGCAACGAAGGATTCATGCACCGTGTAGTAGCTGATATCACGGTTGGCGGTGTACAGCGTGGTGCGGTCCAGGGCGTGGA -AATGAGAACCGACTTCGCGAGAGAGTTTTTCCAGGAAACGATAGTCGTCATAGCTGAGAGCAGTTTGCGCCACGGTGCTA -CCATCAGCGGCCTTCTGTACCAGCGCGCCGTTATAAGTAATGCAGTAGTCGCCCGGCTGTTCCATATGCAGCTCTTTCAG -GTAGTTGTGCACACCTGCATACGGGCGACCCGTCGTTAGCACGACATTCACGCCACGGGCGCGAGCTGCGGCAATCGCAT -TTTTAACGGCGGGTGAAATGGTGTGATCGGGCAGCAGAAGGGTGCCATCCATATCGATAGCAATGAGTTTAATAGCCATG -AGTTCCCCAGGTAGATTGGTTCCTGACCCATGCTAACGCGATTCCGCTCAAAAATCAGTACAACACCCGAGGGAAAAGGG -GGATGCAACGCGCGTTGCGTGCTCCCTTTTTGCTTAGCGGAAGAGTTTCCCTTTCAGCAGTTCCATGCCTGCGGAAAGCA -GATCGTTATTGGCTTGTGGTGACACTTCACCTTGCGGTGAGAGCGCATCAATAATCTTCGGCAATTGTTCTGCCAGTAAA -CTGGAAGCTGTACTGGTATCCACGCCAAGTTTTTGCCCGAGATCGGACACCGCATTTGTGCCGAGCGCCGATTCCAGTTG -CTCGCCACTAACCGATTGATTGCCCTGTTGATTACTCAGCCAGGTTGAGAGAATGGCCCCTAAGCCGCCACTTTGCAGTT -TTTCCAGCAGCACCTGAATGCCGCCCTGCTCCTCAACCCAACTTAAAATAGCCTGATATTTCCCCGCATCGCCTTTCAGA -AAGGCACCGACAACTTCATCAAAAAGCCCCATGATAATCACCTGTAAAGCGTTACGTGTTGACCCAAAAAGTATAGATTT -GCGGGATGATAATTGCGGATTGCAGAAATAAAAAGGGCGGAGATGATCTCCGCCCTTTTCTTATAGCTTCTTGCCGGATG -CGGCGTGAACGCCTTATCCGGCCTACAAAATCATGAAAATTCAATACATTGCAAGATTTTCGTAGGCCTGATAAGCGTAG -CGCATCAGGCACGCTCGCATGGTTAGCGCCATTAAATATCGATATTCGCCGCTTTCAGGGCGTTCTCTTCAATAAACGCA -CGGCGCGGTTCAACGGCGTCGCCCATCAGCGTGGTGAACAACTGGTCGGCAGCAATCGCATCTTTAACGGTAACGCGCAG -CATACGACGACTTTCCGGGTCCATAGTGGTTTCCCACAGCTGTTCCGGGTTCATCTCGCCCAGACCTTTATAACGCTGGA -TGGAGAGGCCGCGACGGGACTCTTTCACCAGCCAGTCCAGCGCCTGCTCGAAGCTGGCTACCGGCTGACGACGCTCGCCA -CGTTCGATAAACGCATCTTCTTCCAGCAAGCCACGCAGTTTCTCACCCAGCGTGCAGATACGACGATATTCGCCACCGGT -GATAAACTCGTGATCCAGCGGATAGTCAGTATCCACACCGTGGGTACGCACGCGAACAATCGGCTCGAACAGGTTTTGCT -CAGCATTGGTGTGAACATCAAACTTCCACTGGCTGCCGTGCTGTTCTTTGTCGTTCAGTTCGCTGACCAGCGCGTTCACC -CAGCGGGTAACGGTCTGCTCATCAGAAAGGTCAGCTTCCGTCAACGTCGGCTGATAGATAAGCTCTTTCAGCATTGCTTT -CGGATAACGACGCTCCATACGATTGATCATTTTCTGCGTCGCGTTGTACTCAGATACCAGTTTCTCTAACGCTTCGCCAG -CCAATGCCGGTGCACTGGCGTTGGTGTGCAGCGTTGCGCCGTCCAGCGCGATAGAGATCTGGTACTGATCCATCGCTTCG -TCGTCTTTAATGTACTGTTCCTGCTTGCCTTTCTTCACTTTGTACAGCGGCGGCTGAGCGATATAGACGTGACCGCGTTC -AACGATTTCCGGCATCTGACGATAGAAGAAGGTCAACAGCAGCGTACGAATGTGCGAGCCGTCGACGTCCGCATCGGTCA -TGATGATGATGCTGTGATAACGCAGTTTGTCCGGGTTGTACTCGTCACGACCGATACCACAGCCAAGCGCGGTGATAAGC -GTCGCCACTTCCTGAGAAGAGAGCATCTTATCGAAGCGCGCTTTCTCGACGTTGAGGATTTTACCCTTCAGCGGCAGAAT -CGCCTGGTTCTTGCGGTTACGCCCCTGCTTCGCAGAGCCGCCCGCGGAGTCCCCTTCCACCAGGTACAGTTCGGAAAGCG -CCGGATCGCGTTCCTGGCAGTCTGCCAGTTTGCCCGGCAGGCCCGCTAAGTCGAGCGCACCTTTACGGCGGGTCATTTCA -CGCGCGCGACGCGCCGCTTCACGGGCACGGGCAGCATCGATAATTTTGCCAACCACGATTTTCGCGTCGGTTGGGTTTTC -CAGCAGGTATTCTGCCAGCAGTTCGTTCATCTGCTGTTCAACCGCCGATTTCACCTCAGAAGAAACCAGTTTGTCTTTGG -TCTGGGAGGAGAATTTCGGGTCCGGCACTTTCACGGAAACGACCGCAATCAGGCCTTCACGCGCATCGTCACCGGTGGCG -CTGACTTTGGCTTTTTTGCTGTAGCCTTCTTTGTCCATGTAGGCGTTCAGGGTACGGGTCATCGCCGCACGGAAGCCTGC -CAGGTGAGTACCGCCGTCACGCTGCGGAATGTTGTTGGTAAAGCAGTAGATGTTTTCCTGGAAGCCATCGTTCCACTGCA -ACGCCACTTCGACGCCAATACCGTCTTTTTCAGTGGAGAAGTAGAAGATATTCGGGTGGATCGGCGTTTTGTTCTTGTTC -AGATATTCAACGAACGCCTTGATGCCGCCTTCATAGTGGAAGTGGTCTTCTTTGCCGTCGCGCTTGTCGCGCAGACGAAT -GGAAACGCCGGAGTTGAGGAACGACAACTCACGCAGACGTTTCGCCAGAATTTCATATTCGAACTCGGTCACATTGGTGA -AGGTTTCGAGGCTGGGCCAGAAACGCACCATGGTGCCGGTTTTTTCAGTCTCGCCGGTAACCGCCAGCGGGGCCTGCGGT -ACACCGTGTTCGTAGATCTGACGGTGAATTTTACCCTCGCGCTGGATAACCAGCTCCAGTTTTTGCGACAGGGCGTTTAC -TACCGAAACACCAACGCCGTGCAGACCGCCGGACACTTTATAGGAGTTATCGTCAAATTTACCGCCTGCGTGCAGAACGG -TCATGATCACTTCCGCCGCCGATACGCCCTCTTCCGGGTGAATACCGGTCGGAATGCCGCGCCCGTCATCCTGTACAGAG -ACAGAGTTATCGGCGTGAATGGTGACGATAATTTCTTTACAGTGACCCGCGAGCGCTTCGTCGATAGCGTTATCTACCAC -CTCGAATACCATGTGGTGCAGACCGGTGCCGTCATCCGTGTCGCCGATATACATACCCGGGCGCTTACGCACCGCATCCA -GCCCTTTCAGGACTTTGATACTGGAGGAGTCATAAGAATTCGACATCAACGTTTCTCGCTCATTTATACTTGGGTTAATC -CGTTATTTTACCCTTTTCCACGGTAAACATCTTCGAATTTTCGTCCGACATGTCTATAACGTGTTCAGCACTGATCGCGC -TGACAAAGACCTGTGATTGCGTCGCTTTTAAGCGGCTGGCAAGCAGCCCGCGACGCTCATCATCAAGCTCAGAGGCAAAA -TCATCTATCAGGTAGAGACACCGCCGCCCGCTTTCACGGGTGAGGAACTCTCCTTGCGCCAGACGTAAGGCGCACATCAA -CAGCTTAAGCTGCCCACGCGATAAGGTATCTTCCACCGGCGCACCGTCGGCGCGAATGCGTAAGTCCGCTTTGTGCGGGC -CGTGCGCGGTGTAGGTTAGCTGGCGATCGCGTTCAAAATTACGTTCCAGCACCTCAGCATATTCTGTCTCTTTCTCCCAG -CCGCGCTGGAAAGAGAAAGTCAGAGAAAACTCAGGGAGAAATTGCTTACAGGTATCAGCCATATCGGCCGCGATACCGGC -GCTATACTCCGCGCGCCAGGTGCTGATTTGCTCCGCCAGCGGGATCAGCTCTTTATCCCACGGGCGTAGCTGTTCGTAAC -GTGTCACCTGGCGCAGCGCCGCATTGCGCTGCTTGAGCAATCGCTTGAGATTGCTCCAGGCGGTGAAAAATCCGGGTTCG -TTGTGAAAGCATCCCCAGTCGAGGAATGCTCTTCTGTATTTGGGGCCGCCGTTGAGTAAAGTAAACCCTTCTGGCGTTAT -CAACTGCATTGGCATCAGGTGCGCCAGTTCCGCGACCTTATGCCCGTCTGTACCGTCGATGCGGACTTTGCTGTCGCCCT -GTTTGTCTTTGGTTAAGCCAATCGCTGTCTCGCGCTCTTCGCCCTGTAATCGCCCGTGGAGAACAAACGCCTCCTGCTCA -TGGCGAATGACGCGACCAATCTGCAAACTGCGAAACGCCCGACCATGGCCGAGCGTATAGATGGCTTCCAGCACGCTGGT -TTTGCCACTGCCGTTGGCACCTACCAGAAAGTTAAAGCCGGGAGATAAGGCGAGATCCGCGGTTTCAATGTTGCGGAAAT -CGCGGATCAACAAGCGGGTGAGGGACATTACAGTCTCATTGGCATGACAACATAAGCCGCGCTCTGGCTGGCCGCATCTT -CAATCTGCACGCTGGAAACCGAATCGGTCAGCATCATGCGGACGTTTTCGCATTTCAGCGCGTTCAGAACATCCAGCACA -TAACTGACGTTGAAGCCGATTTCCATCTCCGCACCGCTATAGGTAACGTCGAGGATCTCTTCCGCTTCTTCCTGTTCCGG -GTTGTTGGCGGTGATTTTCAGCTGGTTTTCGCTGACATAAAGACGTACGCCGCGGAATTTCTCGTTAGAGAGAATCGCCG -CGCGAGCAAACGCCTGCTTGAGCAGATCGCAGCCAGCTTCCAGATGTTTGTCCGGGTTCTTCGGCAGAACGCGGCGATAA -TCCGGGAAGCGACCATCCACCAGTTTGGAGGTGAAGATAAAGTCGCCAACGTGGGCGCGAATGTTGTTGCTGCCAATCTG -TACGCGCAGCGGATTGTCGCCGCCGTCGAGCATACGCATCAGTTCAATCACGCCTTTACGCGGTACGATCACCGAATGGC -TTGGCAAAGATTGACCAATTGGCATTGAACAGACCGCCAGACGGTGGCCGTCGGTTGCCACGGTGCGCAGTTCTTCACCT -TCGGTTTCAAACAGCATACCATTTAAGTAATAGCGAACGTCCTGATGCGCCATAGAAAACTGGGTCGCTTCAATCAGACG -CTTCATCGTTGCCTGCGGCAGGGTAAATTCGACTTCACTCTGCCAGTCATCGAGGTTCGGGAAATCCGCCGCTGGCAGGG -TAGACAGCGAAAAACGGCTACGCCCGGAGCGTACCAGCATCCGTTCACCTTCCAGCTGCACGGCAATTTCCGCGCCTTCA -GGCAGACCACGGCAGATATCAAAGAATTTGCGCGCCGGAACGGTCGTCGCTCCTGGCTCGTGTGGCTGAACCAGCGCAAC -ACGTGCCACCATTTCCATCTCGAGATCAGTACCGGTCAGCGACAACGTACCGTCAGCAACCTGTAACAGCAGATTACCGA -GAATCGGTAGCGTAGGACGACCACCTAACGGACCGCTCACCTGTTGTAGCGGTTTTAATAAATGCTCACGTTCTACGGTA -AATTTCATAGGTTTACGATGACAATGTTCTGATTAAATTTGAAAAATCTTCTTTGATATCGTGGCTCTCTTCACGCAACT -GCTCGATCTTACGGCAGGCATGAAGCACCGTCGTGTGGTCACGGCCACCAAACGCATCGCCAATCTCCGGCAGACTGTGG -TTAGTCAGCTCTTTCGCCAGCGCCATCGCCATCTGGCGCGGACGCGCCACCGAGCGGGATCGACGCTTGGAAAGGAGATC -CGCGACTTTGATCTTGTAGTACTCCGCCACCGTCTTCTGAATATTGTCGATGGTGACCAGTTTTTCCTGCAATGCCAGCA -AGTCGCGCAGCGCCTCACGCACGAAGTCGATGGTGATCGCCCGTCCGGTAAAGTTGGCATTGGCAATGACGCGGTTCAGC -GCCCCTTCCAGCTCACGTACGTTAGATCGTAGACGCTTGGCGATAAAGAACGCCACTTCGCCCGGCAAACGAATGTCGTT -TTCGTCGGCCTTTTTCATCAGGATCGCCACACGGGTTTCCAGCTCTGGCGGTTCGATCGCCACAGTCAGTCCCCAACCGA -AGCGGGATTTCAAACGATCCTCAACGCCGTTGATCTCTTTCGGATAGCGATCCGAGGTGAGAATGATCTGTTGATTACCT -TCCAGCAGGGCGTTGAAGGTGTGGAAAAACTCTTCCTGAGATCGTTCTTTATTAGCAAAAAACTGAATATCGTCGATCAG -CAGTGCATCTACGGAACGGTAGTAGCGTTTAAACTCTTCGATCGCGTTGTTTTGCAGGGCTTTAACCATGTCCTGAACAA -AGCGCTCGGAGTGCATATAAACCACTTTGGCATTCGGCTTGCGCGCCATAATGCCGTTACCCACCGCATGCAGCAGGTGA -GTTTTACCCAGACCCGTGCCGCCATAAAGGAACAACGGGTTATAGGCACCGCCAGGGTTATCCGCCACCTGGCGAGCCGC -CGCGCGCGCCAGTTGGTTAGATTTACCTTCAACGAAGTTATCAAACGTGTGTTTGACGTTTACGTTAGAACGATAGGTCG -GTTCTGCCGGGGCCGGGACGTTATCCCAACCTGAGCGCGTAGAAGGCGCAGCACGTTGCGGCTGCGTTTGCGCCACCTGT -GCAGGGGCCGCGACGTTGCTCGTCACTGCCGCTTGTGGCGTTTGCGTCACCGGTTTGGTGCCGACTTCAAAACGCAGCTG -TGGGGCATCCGCTCCGCAGAAACTGGTTAGCAGTCCATTGATATTATTAAGGTACTTGTCCCGTACCCAATCGAGGACAA -AACGGTTTGGCGCGTACAGGGCCAGCGTGTTATCGCTCAGTTCCGCCTGCAATGGGCGTATCCACATACTGAATTCTGTG -GCTGATAACTCATCCTGCAATCGGGCAAGACACTGCTGCCAAAGCGAAAGTGACACGGCGGACTCCACTCGAACAAAAGT -CGATAATGACTAAGGCTGAAACATTCATGATTGTTGACGTACGTCGAAAAGACCCTGCTTGAGGGTGACGCACGAACCGC -TGTCTGCGGTTATATGCCCGATCAAGATCCTGCAAAACGATCGGGACCGCGGATCATAGCCTAAACTGCGCAAGAGATCT -TCTGTTTCTCACAGATTTTCCCGATTTATCCACAGGACTTTCCAGAACTCGCTAAGTGTAAACGATCCTGCCGCGAGGCG -GGCACGATTTACGCCGCATATTGGAAAATTTAATGACCATAGACAAAAATTGGCTTAATCGATCTAATAAAGATCCAGGA -CGATCCTTGCGCTTTACCCATCAGCCCGTATAATCCTCCACCCGGCGCGCCATGCTGGTTTCCACTGGTGTGAGGTCGTA -CATTTTCCCTGCGAAAAGGTGCGGAAAAGCGCGGTAAATAAGGAAAGAGAATTGACTCCGGAGTGTACAATTATTACAAT -CCGGCCTCTTTAATCACCCATGGCTTCGGTGTCCATCGTTTCATTTTTCGGCGGATATCCAATAAAGCCATTGAATTTAT -TCAAGTTTAGGTAGAAATCGCCATGAAACGCACTTTTCAACCGTCTGTACTGAAGCGCAACCGTTCTCACGGCTTCCGTG -CTCGTATGGCTACTAAAAATGGTCGTCAGGTTCTGGCACGTCGTCGTGCTAAAGGCCGCGCTCGTCTGACCGTTTCTAAG -TAATAAAGCTAACCCCTGAGTGGTTAAGCTCGCATTTCCCAGGGAGTTACGCTTGTTAACTCCCAGTCAATTCACATTCG -TCTTCCAGCAGCCACAACGGGCTGGCACGCCGCAAATTACCATTCTCGGCCGCCTGAATTCGCTGGGGCATCCCCGTATC -GGTCTTACAGTCGCCAAGAAAAACGTTCGACGCGCCCATGAACGCAATCGGATTAAACGTCTGACGCGTGAAAGCTTCCG -TCTGCGCCAACATGAACTCCCGGCTATGGATTTCGTGGTGGTGGCGAAAAAAGGGGTTGCCGACCTCGATAACCGTGCTC -TCTCGGAAGCGTTGGAAAAATTATGGCGCCGCCACTGTCGCCTGGCTCGCGGGTCCTGATAGCCCTCATTCGGGTCTATC -AACGCCTGATTAGTCCGCTACTCGGGCCGCATTGTCGTTTCACTCCAACCTGTTCAAGCTACGGAATTGAGGCATTGCGC -AGGTTTGGAGTGATAAAAGGCAGTTGGTTGACGGTGAAACGCGTATTAAAATGCCACCCTTTACACCCTGGTGGTGACGA -TCCCGTCCCGCCCGGACCATTTGATACCAGAGAACACTAACGATGGATTCGCAACGCAATCTTTTAGTCATCGCTTTGCT -GTTCGTGTCTTTCATGATCTGGCAAGCCTGGGAGCAGGATAAAAACCCGCAACCTCAGGCCCAACAGACCACGCAGACAA -CGACCACCGCAGCGGGTAGCGCCGCCGACCAGGGCGTACCGGCCAGTGGCCAGGGGAAACTGATCTCGGTTAAGACCGAC -GTGCTTGATCTGACCATCAACACCCGTGGTGGTGATGTTGAGCAAGCTCTGCTGCCTGCTTACCCGAAAGAGCTGAACTC -TACCCAGCCGTTCCAGCTGTTGGAAACTTCACCGCAGTTTATTTATCAGGCACAGAGCGGTCTGACCGGTCGTGATGGCC -CGGATAACCCGGCTAACGGCCCGCGTCCGCTGTATAACGTTGAAAAAGACGCTTATGTGCTGGCTGAAGGTCAAAACGAA -CTGCAGGTGCCGATGACGTATACCGACGCGGCAGGCAACACGTTTACCAAAACGTTTGTCCTGAAACGTGGTGATTACGC -TGTCAACGTCAACTACAACGTGCAGAACGCTGGCGAGAAACCGCTGGAAATCTCCTCGTTTGGTCAGTTGAAGCAATCCA -TCACTCTGCCACCGCATCTCGATACCGGAAGCAGCAACTTCGCACTGCACACCTTCCGTGGCGCGGCGTACTCCACGCCT -GACGAGAAGTATGAGAAATACAAGTTCGATACCATTGCCGATAACGAAAACCTGAACATCTCTTCGAAAGGTGGTTGGGT -GGCGATGCTGCAACAGTATTTCGCGACGGCGTGGATCCCGCATAACGACGGTACCAACAACTTCTATACCGCTAATCTGG -GTAACGGCATCGCCGCTATCGGCTATAAATCTCAGCCGGTACTGGTTCAGCCTGGTCAGACTGGCGCGATGAACAGCACC -CTGTGGGTTGGCCCGGAAATCCAGGACAAAATGGCAGCTGTTGCTCCGCACCTGGATCTGACCGTTGATTACGGTTGGTT -GTGGTTCATCTCTCAGCCGCTGTTCAAACTGCTGAAATGGATCCATAGCTTTGTGGGTAACTGGGGCTTCTCCATTATCA -TCATCACCTTTATCGTTCGTGGCATCATGTACCCGCTGACCAAAGCGCAGTACACCTCCATGGCGAAGATGCGTATGTTG -CAGCCGAAGATTCAGGCAATGCGTGAGCGTCTGGGCGATGACAAACAGCGTATCAGCCAGGAAATGATGGCGCTGTACAA -AGCTGAGAAGGTTAACCCGCTGGGCGGCTGCTTCCCGCTGCTGATCCAGATGCCAATCTTCCTGGCGTTGTACTACATGC -TGATGGGTTCCGTTGAACTGCGTCAGGCACCGTTTGCACTGTGGATCCACGACCTGTCGGCACAGGACCCGTACTACATC -CTGCCGATCCTGATGGGCGTAACGATGTTCTTCATTCAGAAGATGTCGCCGACCACAGTGACCGACCCGATGCAGCAGAA -GATCATGACCTTTATGCCGGTCATCTTCACCGTGTTCTTCCTGTGGTTCCCGTCAGGTCTGGTGCTGTACTATATCGTCA -GCAACCTGGTAACCATTATTCAGCAGCAGCTGATTTACCGTGGTCTGGAAAAACGTGGCCTGCATAGCCGCGAGAAGAAA -AAATCCTGATTCGGTGAGTTTTCGCTAAAATAAGGGCGGTCAGTTGACCGCCTTTTTTCTTTTCGTAGGGCGGATAAGCA -CCGCGCATCCGCCACACAAAGCAACAGGAACATCATGAGCGATAATGACACTATCGTAGCCCAGGCCACGCCTCCGGGAC -GTGGCGGCGTTGGCATCCTGCGCATCTCCGGCTTCAAAGCCCGTGAAGTTGCCGAAACCGTGCTGGGTAAACTGCCTAAG -CCGCGCTACGCCGATTATCTTCCGTTTAAAGACGCCGACGGCAGCGTGCTCGATCAGGGGATTGCGCTATGGTTCCCTGG -CCCGAACTCGTTCACCGGCGAAGATGTGCTGGAACTGCAAGGTCATGGCGGTCCGGTGATCCTCGACCTGCTGTTAAAAC -GCATTCTGACCATTCCCGGCCTGCGGATTGCTCGCCCTGGTGAGTTTTCCGAACGCGCGTTTCTTAACGATAAACTTGAC -TTAGCCCAGGCCGAGGCGATTGCCGATCTTATCGACGCCAGTTCGGAACAGGCGGCCCGTTCGGCACTTAACTCGCTGCA -AGGCGCATTCTCCGCACGGGTTAATCATCTGGTAGAAGCCCTCACCCACTTGCGCATTTACGTCGAAGCGGCAATTGATT -TCCCCGATGAAGAGATCGATTTCCTCTCCGACGGAAAAATTGAAGCCCAGCTCAATGACGTTATTGCCGATCTTGATGCA -GTGCGTGCTGAAGCACGTCAGGGTAGTTTGTTGCGCGAAGGGATGAAAGTGGTGATTGCCGGACGTCCTAACGCCGGTAA -ATCGAGCCTGTTAAACGCGCTGGCGGGGCGTGAAGCGGCAATCGTAACCGATATCGCCGGAACTACGCGTGACGTGCTGC -GTGAGCATATCCACATTGACGGAATGCCGCTGCATATCATCGATACCGCCGGGCTACGTGAAGCCAGTGACGAAGTAGAA -CGTATTGGTATCGAGCGCGCGTGGCAGGAAATTGAACAGGCCGACCGCGTGCTGTTTATGGTCGATGGCACCACAACAGA -CGCCGTGGATCCGGCAGAGATCTGGCCGGAATTTATTGCCCGTCTGCCAGCGAAACTGCCGATCACCGTGGTGCGCAATA -AAGCCGATATCACCGGCGAAACGCTGGGAATGAGTGAAGTGAACGGTCACGCGTTAATTCGTCTCTCGGCAAGGACTGGT -GAAGGCGTGGACGTGCTGCGTAACCATCTCAAACAGAGCATGGGCTTTGACACCAACATGGAAGGCGGCTTCCTGGCGCG -TCGTCGCCACCTACAGGCGCTGGAACAGGCAGCGGAACATCTACAACAGGGCAAAGCGCAACTGTTGGGAGCCTGGGCAG -GTGAACTGCTGGCGGAAGAGTTGCGTCTGGCACAGCAGAACTTAAGCGAAATCACCGGGGAATTTACTTCAGACGACCTG -CTGGGGCGGATTTTCTCCAGCTTCTGTATTGGTAAGTAACCGCGCTTACGAAGCCGCATTCTGACTGTCAGATGCGGCTT -CGCTTCATTGTTACCACTCCTGTTATTCCTCAACCCTTTTTTTAAACATTAAAATTCTTACGTAATTTATAATCTTTAAA -AAAAGCATTTAATATTGCTCCCCGAACGATTGTGATTCGATTCACATTTAAACAATTTCAGAATAGACAAAAACTCTGAG -TGTAATAATGTAGCCTCGTGTCTTGCGAGGATAAGTGCATTATGAATATCTTACATATATGTGTGACCTCAAAATGGTTC -AATATTGACAACAAAATTGTCGATCACCGCCCTTGATTTGCCCTTCTGTAGCCATCACCAGAGCCAAACCGATTAGATTC -AATGTGATCTATTTGTTTGCTATATCTTAATTTTGCCTTTTGCAAAGGTCATCTCTCGTTTATTTACTTGTTTTAGTAAA -TGATGGTGCTTGCATATATATCTGGCGAATTAATCGGTATAGCAGATGTAATATTCACAGGGATCACTGTAATTAAAATA -AATGAAGGATTATGTAATGGAAAACTTTAAACATCTCCCTGAACCGTTCCGCATTCGTGTTATTGAGCCAGTAAAACGTA -CCACTCGCGCTTATCGTGAAGAGGCAATTATTAAATCCGGTATGAACCCGTTCCTGCTGGATAGCGAAGATGTTTTTATC -GATTTACTGACCGACAGCGGCACCGGGGCGGTGACGCAGAGCATGCAGGCTGCGATGATGCGCGGCGACGAAGCCTACAG -CGGCAGTCGTAGCTACTATGCGTTAGCCGAGTCAGTGAAAAATATCTTTGGTTATCAATACACCATTCCGACTCACCAGG -GCCGTGGCGCAGAGCAAATCTATATTCCGGTACTGATTAAAAAACGCGAGCAGGAAAAAGGCCTGGATCGCAGCAAAATG -GTGGCGTTCTCTAACTATTTCTTTGATACCACGCAGGGCCATAGCCAGATCAACGGCTGTACCGTGCGTAACGTCTATAT -CAAAGAAGCCTTCGATACGGGCGTGCGTTACGACTTTAAAGGCAACTTTGACCTTGAGGGATTAGAACGCGGTATTGAAG -AAGTTGGTCCGAATAACGTGCCGTATATCGTTGCAACCATCACCAGTAACTCTGCAGGTGGTCAGCCGGTTTCACTGGCA -AACTTAAAAGCGATGTACAGCATCGCGAAGAAATACGATATTCCGGTGGTAATGGACTCCGCGCGCTTTGCTGAAAACGC -CTATTTCATCAAGCAGCGTGAAGCAGAATACAAAGACTGGACCATCGAGCAGATCACCCGCGAAACCTACAAATATGCCG -ATATGCTGGCGATGTCCGCCAAGAAAGATGCGATGGTGCCGATGGGCGGCCTGCTGTGCATGAAAGACGACAGCTTCTTT -GATGTGTACACCGAGTGCAGAACCCTTTGCGTGGTGCAGGAAGGCTTCCCGACATATGGCGGCCTGGAAGGCGGCGCGAT -GGAGCGTCTGGCGGTAGGTCTGTATGACGGCATGAATCTCGACTGGCTGGCTTATCGTATCGCGCAGGTACAGTATCTGG -TCGATGGTCTGGAAGAGATTGGCGTTGTCTGCCAGCAGGCGGGCGGTCACGCGGCATTCGTTGATGCCGGTAAACTGTTG -CCGCATATCCCGGCAGACCAGTTCCCGGCACAGGCGCTGGCCTGCGAGCTGTATAAAGTCGCCGGTATCCGTGCGGTAGA -AATTGGCTCTTTCCTGTTAGGCCGCGATCCGAAAACCGGTAAACAACTGCCATGCCCGGCTGAACTGCTGCGTTTAACCA -TTCCGCGCGCAACATATACTCAAACACATATGGACTTCATTATTGAAGCCTTTAAACATGTGAAAGAGAACGCGGCGAAT -ATTAAAGGATTAACCTTTACGTACGAACCGAAAGTATTGCGTCACTTCACCGCAAAACTTAAAGAAGTTTAATTAATACT -ACAGAGTGGCTATAAGGATGTTAGCCACTCTCTTACCCTACATCCTCAATAACAAAAATAGCCTTCCTCTAAAGGTGGCA -TCATGACTGATCAAGCTGAAAAAAAGCACTCTGCATTTTGGGGTGTTATGGTTATAGCAGGTACAGTAATTGGTGGAGGT -ATGTTTGCTTTACCTGTTGATCTTGCCGGTGCCTGGTTTTTCTGGGGTGCCTTTATCCTTATCATTGCCTGGTTTTCAAT -GCTTCATTCCGGGTTATTGTTATTAGAAGCAAATTTAAATTATCCCGTCGGCTCCAGTTTTAACACCATCACCAAAGATT -TAATCGGTAACACCTGGAACATTATCAGCGGTATTACCGTTGCCTTCGTTCTCTATATCCTCACTTATGCCTATATCTCT -GCTAATGGTGCGATCATTAGTGAAACGATATCAATGAATTTGGGTTATCACGCTAATCCACGTATTGTCGGGATCTGCAC -AGCCATTTTCGTTGCCAGCGTATTGTGGTTAAGTTCGTTAGCCGCCAGTCGTATTACCTCATTGTTCCTCGGGCTGAAGA -TTATCTCCTTTGTGATCGTGTTTGGTTCTTTTTTCTTCCAGGTCGATTACTCCATTCTGCGCGACGCCACCAGCTCCACT -GCGGGAACGTCTTACTTCCCGTATATCTTTATGGCTTTGCCGGTGTGTCTGGCGTCATTTGGTTTCCACGGCAATATTCC -CAGCCTGATTATTTGCTATGGAAAACGCAAAGATAAGTTAATCAAAAGCGTGGTATTTGGTTCGCTGCTGGCGCTGGTGA -TTTATCTCTTCTGGCTCTATTGCACCATGGGGAATATTCCGCGAGAAAGCTTTAAGGCGATTATCTCCTCAGGCGGCAAC -GTTGATTCGCTGGTGAAATCGTTCCTCGGCACCAAACAGCACGGCATTATCGAGTTTTGCCTGCTGGTGTTCTCTAACTT -AGCTGTTGCCAGTTCGTTCTTTGGTGTCACGCTGGGGTTGTTCGATTATCTGGCGGACCTGTTTAAGATTGATAACTCCC -ACGGCGGGCGTTTCAAAACCGTGCTGTTAACCTTCCTGCCACCTGCGTTGTTGTATCTGATCTTCCCGAACGGCTTTATT -TACGGGATCGGCGGTGCCGGGCTGTGCGCCACCATCTGGGCGGTCATTATTCCCGCAGTGCTTGCAATCAAAGCTCGCAA -GAAGTTTCCCAATCAGATGTTCACGGTCTGGGGCGGCAATCTTATTCCGGCGATTGTCATTCTCTTTGGTATAACCGTGA -TTTTGTGCTGGTTCGGCAACGTCTTTAACGTGTTACCTAAATTTGGCTAAATCCTTCAAGAAGCCAGCCATTCGCTGGCT -TCTTGCCTCTCAGGAAATCACTTATGTCCAAATGGCAACTCGCCTGATCCTCCTTCACCACGTATGCTTTGCGTCACCTT -ACTATCAGGACGCTTTAGCCCATGTCCCGCTTTTTGATTTGTAGTTTTGCCCTGGTTTTACTTTATCCCGCCGGGATTGA -TATGTACCTCGTTGGTTTACCGCGCATCGCCGCCGATCTCAATGCCAGCGAAGCGCAGTTGCATATTGCGTTCTCCGTAT -ATCTGGCGGGGATGGCAGCTGCGATGTTATTTGCCGGTAAAGTGGCCGATCGTTCAGGGAGAAAGCCGGTCGCCATACCC -GGCGCGGCGCTATTTATTATTGCCTCGGTGTTCTGTTCACTGGCTGAAACCAGCACGTTATTTCTTGCAGGCCGATTTCT -ACAGGGGTTGGGCGCAGGCTGTTGTTACGTAGTGGCGTTCGCTATTTTGCGCGACACGCTGGATGATCGACGTCGGGCTA -AAGTGCTGTCATTACTCAACGGTATTACCTGCATCATTCCGGTGTTAGCGCCAGTGCTCGGACATCTGATTATGCTTAAA -TTCCCGTGGCAGAGTCTGTTCTGGGCGATGGCAATGATGGGCATCGCGGTACTGATGTTGTCTTTGTTTATTTTAAAAGA -AACGCGCCCAGCGGCCCCCGCAGCTTCGGATAAACCACGAGAAAATAGCGAGTCGCTGCTTAACCGTTTTTTCCTCAGCC -GTGTTGTTATCACCACCCTCAGCGTTTCGGTGATCCTCACTTTCGTCAACACGTCACCGGTATTGCTGATGGAAATCATG -GGGTTTGAGCGCGGTGAATACGCCACCATTATGGCGCTGACCGCTGGCGTCAGCATGACCGTTTCATTCTCCACGCCATT -TGCGCTGGGAATTTTTAAGCCACGTACGTTGATGATCACCTCGCAGGTGTTATTCCTGGCGGCGGGGATCACTCTTGCCG -TTTCACCTTCCCATGCGGTTTCTCTGTTTGGTATCACGCTGATTTGCGCCGGTTTCTCGGTAGGTTTTGGTGTGGCGATG -AGTCAGGCGTTAGGGCCGTTTTCATTACGCGCGGGCGTAGCCAGCTCGACCTTAGGTATTGCGCAGGTTTGCGGTTCGTC -ACTGTGGATTTGGCTGGCAGCGGTGGTTGGTATCGGCGCATGGAATATGCTGATCGGGATTCTGATTGCCTGTAGCATAG -TGAGCCTGTTGCTGATTATGTTCGTCGCGCCTGGACGCCCCGTTGCCGCTCATGAAGAAATCCATCACCACGCTTGATCT -CAATCTGCTGCTTTGTCTGCAACTGCTGATGCAGGAGCGCAGCGTAACCAAAGCGGCGAAGCGGATAAACGTGACACCTT -CGGCGGTGAGTAAGTCGCTGGCAAAGTTAAGAGCGTGGTTTGACGACCCGCTCTTTGTGAACTCACCGCTGGGTCTGTCG -CCCACACCGCTGATGGTCAGCATGGAGCAAAATCTGGCGGAGTGGATGCAAATGAGCAACCTGCTGCTGGATAAACCGCA -CCACCAGACACCGCGCGGCCTGAAGTTTGAGCTGGCGGCGGAATCACCGCTGATGATGATCATGCTTAATGCGCTGTCGA -AACAGATCTACCAACGTTACCCGCAGGCGACCATCAAATTACGTAACTGGGATTACGATTCCTTAGATGCCATTACTCGT -GGTGAAGTGGATATCGGTTTTTCCGGTCGCGAAAGCCATCCTCGCTCGCGGGAGCTGTTAAGCTCGCTACCGTTAGCCAT -TGATTATGAAGTGCTGTTTAGTGATGTGCCCTGCGTCTGGTTACGCAAAGATCATCCGGCACTGCATCAAACGTGGAATC -TGGACACCTTCTTACGTTATCCGCATATCAGCATTTGCTGGGAACAGAGCGATACCTGGGCGCTGGACAATGTGTTACAG -GAGCTGGGACGCGAACGCACGATTGCTATGAGCCTGCCGGAATTCGAGCAGTCACTGTTTATGGCAGCGCAACCCGACAA -TCTGCTACTGGCGACCGCGCCGCGCTACTGTCAGTACTACAATCAACTCCATCAACTGCCGTTGGTTGCTCTTCCTCTCC -CGTTTGACGAAAGCCAGCAAAAAAAGCTGGAAGTTCCTTTTACCCTGCTGTGGCATAAACGGAACAGCCATAATCCGAAG -ATCGTCTGGTTACGGGAAACCATTAAAAACCTTTACGCGTCGATGGCATAACCGAATCGTATGAAACGCGACCCAATTTC -ACAATAAAATGTAAAAAAGTTGTAATAAGCTTGTCTGAATCGAACTTTTAGCCGCTTTAGTCTGTCCATCATTCCAGTAA -ATGATTACTCTTGTATTCATAATGGACCATTAAGCATGGAGCGAAAAATGGCGACTCACTTTGCCCGAGGGATTTTAACG -GAAGGACATCTGATTTCTGTTCGTCTCCCCTCCCAGTGTCATCAAGAAGCCCGAAACATTCCCCCTCATCGTCAAAGCCG -TTTTCTGGCGTCCAGAGGTTTACTCGCAGAACTGATGTTCATGCTGTATGGCATTGGCGAATTGCCGGAAATCGTCACCC -TGCCGAAAGGTAAACCGGTTTTCAGTGATAAAAATTTGCCTTCGTTTTCCATTTCCTATGCCGGGAATATGGTTGGCGTG -GCGTTAACAACCGAAGGTGAATGTGGCCTCGATATGGAACTACAGCGTGCGACGCGCGGGTTTCATAGCCCACACGCGCC -CGATAACCACACCTTTTCCAGCAATGAATCGCTATGGATCAGTAAACAAAACGATCCTAACGAAGCGCGGGCGCAGCTCA -TCACGCTGCGCCGAAGCGTGCTAAAACTAACCGGTGATGTTTTGAATGACGATCCGCGCGATCTGCAGCTGCTGCCCATT -GCCGGACGCCTGAAATGTGCTCATGTAAATCATGTAGAAGCGTTATGCGACGCGGAAGACGTGCTGGTGTGGTCCGTGGC -GGTCACGCCCACGATTGAAAAGCTCAGTGTCTGGGAGTTAGATGGCAAACACGGCTGGAAAAGCCTGCCGGATATTCACA -GCCGCGCCAACAATCCTACCAGCCGGATGATGCGTTTTGCCCAACTCTCTACCGTGAAGGCTTTTTCGCCAAATTGATAG -ACAACCACAGGAGTCATCATGTCTGAAAAATTGCAGGTGGTTACGTTACTGGGGAGCCTGCGCAAAGGCTCATTTAATGG -CATGGTTGCACGTACCCTGCCGAAAATTGCTCCGGCGAGCATGGAAGTCAATGCGTTACCATCCATTGCCGACATTCCCT -TGTATGACGCTGACGTACAGCAGGAAGAAGGTTTTCCAGCAACGGTTGAAGCTCTGGCGGAACAGATCCGTCAGGCTGAC -GGTGTGGTGATCGTCACGCCGGAATATAACTACTCGGTACCGGGTGGGCTGAAAAATGCCATCGACTGGCTTTCCCGCCT -GCCGGATCAACCGCTGGCCGGTAAACCGGTATTGATTCAGACCAGCTCAATGGGCGTGATTGGCGGCGCGCGCTGTCAGT -ATCACCTGCGCCAGATTCTGGTTTTCCTCGATGCAATGGTGATGAACAAGCCGGAATTTATGGGCGGCGTGATTCAGAAC -AAAGTTGATCCGCAAACCGGAGAAGTGATTGATCAGGGTACGCTGGACCACCTGACCGGGCAATTGACCGCATTTGGTGA -GTTTATTCAGCGAGTTAAGATCTAAATAAAAAACCCGCCAGCAATCATGCATGGCGGGTTTTTAACGCGCTATCGATTTT -AGTGAGCGTCGATAAAGACAATCTTCAGGATAAACAGCAGCGCAACGATGATTACGCACGGGCTTAGATCACGCAGACGT -CCGGTACCGATTTTCATCACGCAGTAGGAGATAAAGCCCAGCGCGATACCTTCGGTAATCGAGAAGCTGAACGGCATCAT -CACGGCGGTAATAAACGCCGGAACAGATTCAGTAAGATCCTGCCAGTTCACGCGTGCCAGACTGGAAGTCATCAGCACGC -CAACGTAAATCAGCGCACCAGCTGCAGCGTAGCCTGGCACCATCCCCGCCAGCGGCGACAGAAAGATAACCAGCAGGAAC -AGCAGACCAACAACCACTGCCGTCAGACCGGTACGACCGCCAACCGATACGCCGGAAGAGGACTCAATATAAGCCGTAAC -GGAAGAAGTACCGATAAACGAACCGGTCACGGAAGAGATACTGTCGACATACAGCGCCTGCTTCATGCGCGGGAATTTCC -CCTTCTCATCCGCCAGACCTGCTTTATCGGTCACGCCAATCAGCGTACCGGAGGAGTCAAACAAGTTGACCAACATGAAA -GAGAAAATCACCCCTGCCAGCCCGAGGTTAAACGACCCGGCTAAATCTACATGACCCACAACTGTCATTACGCTCGGCGG -CGCAGAAACGATGCCATTGTAGTGCACATCACCCAGCATCCAGCCCAGCAGCGTCGTCACCACGATAGAAACCAGCACCG -CTGCGTGAATGTTGCGCGAGGCCAGAATAGCAATGATGAAGAAGCCGAGGATACCCAGAAGTACGCTGTGAGAAGTCAGA -TTACCGATGCTCACCAGCGTTTCCGGGTTAGCGACAATCACACCTGCGTTTTTCAGCCCCATCATGCCAATGAACAGACC -GATACCGCTGGTAATACCCACACGCAGACTCACCGGAATGTTGGCTATCATCCAGTAGCGAACGCGGAAAATCGTCAGTA -ACAGCAGACCTATCGCGCCCCAGAAGATTGCGCCCATCCCGACCTGCCACGGCAAGCCCATCGCCTGTACAACGACAAAA -GCGAAGAACGCATTCAGGCCCATAGCGGGTGCCAGTGCAACTGGCAGGTTAGCAAACAGTCCCATCATAATACTGCCGAA -TGCAGCGATCAGACAGGTAGTGACGAAGACGGCGCTGGTATCCATGCCAGCAACGCCAAGAATTTGCGGGTTAACAAAAA -CGATGTAAACCATCGTCAGGAAGGTGGTAAAACCGGCGATCACTTCGGTCCGTGCCGTCGTGCCATGTTCGCGCAGTTTA -AACACGCGTTCCAGCATCCCCTGACCAGAAGTCTGGGTGGTATGTTGATGACTCATTATCTATTTCCGAACAAGGAGGGA -AAATCCGTCGCTATCGTATACCAAAATGCGACAATAGGCGCGTTTGTGAGAGACTTTTTTATTGGATTTACTTATACGGC -AACGATTGCGTTGCGCAAATCGGCTCTACGAAAACGTTAAACTGATTAAAAAGGAAAGGCATGTCCCGGATAGAAGCGGT -ATTTTTCGACTGCGACGGTACGCTGGTCGACAGTGAAGTCATTTGCTCTCGCGCATATGTAACGATGTTTCAGGAATTTG -GTATTACGCTCGATCCTGAAGAGGTATTCAAACGTTTCAAAGGTGTAAAACTGTACGAAATTATCGATATTGTTTCCCTT -GAACATGGTGTTACGTTAGCGAAAACAGAAGCTGAACACGTTTACCGTGCAGAAGTCGCTCGGCTGTTCGATTCAGAACT -GGAAGCCATCGAAGGGGCTGGAGCGCTCCTGTCAGCGATCACTGCGCCAATGTGTGTGGTATCTAACGGCCCAAATAACA -AAATGCAGCATTCTATGGGCAAGCTGAATATGTTGCACTACTTCCCGGATAAACTGTTCAGCGGCTACGATATTCAGCGC -TGGAAGCCAGACCCGGCGTTAATGTTCCATGCGGCAAAAGCGATGAATGTAAATGTAGAAAACTGCATTCTGGTTGATGA -CTCAGTTGCCGGTGCACAATCTGGTATCGACGCAGGTATGGAAGTGTTCTACTTCTGCGCCGACCCGCACAATAAGCCGA -TCGTTCACCCGAAAGTCACCACCTTTACCCATCTTTCGCAGTTACCTGAACTGTGGAAAGCGCGTGGTTGGGATATTACG -GCATAGTTCTTCACACTCCCTTCACTTACCCCGCTTAAATTGGCGCTCAAAGGTAAGTAAAGGGAGTTTGATATGTCTGT -TTCACGTCGGGTAATACATCACGGACTTTATTTTGCAGTTTTAGGACCGTTAATTGGTGTTCTGTTTCTTGTCCTCTACA -TATTCTTCGCAAAAGAACCGCTGGTTCTTTGGGTGATAATACATCCAATTTTTCTCTTATTGTCGATAACTACGGGAGCT -ATTCCTGCGTTGTTAACCGGTGTAATGGTTGCCTGTCTGCCGGAAAAGATCGGGTCACAGAAACGTTATCGTTGTCTGGC -TGGTGGCATAGGTGGCGTCGTTATCACCGAGATCTATTGTGCAGTTATTGTACATATTAAGGGCATGGCTTCCTCGGAGT -TGTTTGAAAACATTCTTTCTGGTGACAGTCTCGTTGTCCGCATCATTCCTGCATTGCTGGCAGGTGTGGTGATGAGCAGA -ATCATTACCCGTCTACCCGGATTGGATATTTCATGTCCTGAAACAGACTCTTTAAGTTAAGCGGGATACTTTATCTTTGG -GCTACTCAAAAGCAGACAGGATGTTTCTATGACTCAAAATATCAGGCCGTTACCCCAATTCAAATATCATCCCAAGCCAC -TGGAAACAGGCGCATTTGAACAGGATAAAACCGTAGAGTGCGATTGCTGTGAACAACAGACGTCAGTTTATTACTCGGGT -CCCTTTTATTGCGTTGATGAAGTTGAACATCTCTGTCCGTGGTGTATTGCGGACGGTTCTGCTGCTGAAAAGTTTGCAGG -TAGTTTTCAGGATGATGCCAGCATAGAAGGTGTTGAATTTGAGTATGATGAAGAGGACGAATTTGCCGGTATTAAGAACA -CATATCCTGATGAAATGCTGAAAGAGTTGGTTGAACGCACGCCAGGTTATCATGGATGGCAGCAGGAATTCTGGCTCGCG -CATTGTGGCGATTTCTGTGTTTTTATCGGCTATGTGGGCTGGAATGATATAAAAGATCGCCTCGATGAATTTGCCAACCT -TGAAGAAGATTGTGAGAATTTCGGTATTAGAAATTCTGATCTAGCTAAATGCCTGCAAAAGGGTGGTCATTGTCAGGGTT -ATCTCTTCCGCTGTCTCCACTGCGGCAAGCTGAGACTGTGGGGTGATTTTTCGTAGTTATTTAAATAATGAGAACAGGCC -GGAGCGTAATTCACACATCCGGCCTTATTTCTTAAGCTTAACCGAGTGCTAATTCTGCGGCAGCGGCTTTATCAGCGATT -ACCATCAGCGAAGGATGCAGCTGCAACACGGAAGCTGGAACATCTTCGGTAACCGGACCTTGCAGAACATTTTTCAGTGC -CTGCGCTTTACCCGCGCCGCTGACAATTATCAGCAAGTTTTTCGCCGCCATGATGCTTTTCGGCCCCATCGTCACGTAGC -TGTCAGGCACTAACGAAAAGTCGCCGCCCAACTCGCCATGCGCCACAATATCAACCATCTCTCCCTGGATCGGGAACTCC -ACGGTTTGCTCATGGAAATGGGTCGTATTCGGCAAATTGCCACAAAAATGACCATCTGCACCTAATCCCAGCACCACCAA -ATCCAGTCCGCCTTCACGCGCCAGTTTCTGATCATGCTCGCGGTAGTTATCAATAGTGAGCTTCTGGATATTCTCTTCTT -TGATCCCCGCAGGGGTGAAAAACAGATTACGCAGATTGGTAATCGTTACGCCTTCTCCCTCTTTGCCGCGAAATGGAATT -TCATCAAAATTATAGAAATAGCAGTTATCGTACCAGGGCTTACCTTTAACCAGGGTGGTGAGGTATTCATACATGCCTTT -GGGCGTGCTACCGGCGGTAATTGCCAGGTTAACACGACGCGTCTTCGACATATAACCAAGCAGATGGTGTGCCGCGACAC -GGCTCATTTCCTGGTAATCTTCGGTAATGATTAATTTCATCTTAATGCCTTATTTTATTTAAATAATTTCTGTACAAAGG -CTGCATAGGCTGGTCGCCAGACATCCATTTCATGGTTCAGACCCGGATATTCCTGGTAATCAAAGTTAATTTTTTTCTGC -TCAAGCTCAGTTTTCAGCCCGGCGATATCCTTGCCGGTTACGACATCTTTATCCCCCACAACCACAGTAAAATTACGTAG -TTGCTGGTTGATAGCTGCCGGATCGTTCAGTCGGGCCGCGACACCTTCATCCGGTACGGTTGTCGTGGTAACACCACTGA -ATGTGGCCAGCCAGCCAAAGCTTTCCAGATGATTCATTCCGGAAACCAGCGCCTGGTACCCGCCTTGTGAAAGCCCTGCC -AGCGCGCGGCCATCGGCATCTTTACGGACATTAAAACGCTTGCTAATCAGCGGGATAATATCGTTCATCAGTTCGCGATC -TGCCGCTTTAGCATTCAGCGGATAAAAGACTTTACGTCTTTCCTGAGGCACGAAATCTTCGGGAATAATGCCCTTCGCAT -CGGTTTCTGTATCCGGGATCACCACCAGCATCGGTTTAATTTTCCCTTCAGCAAGCAGGTTATCCATGATTTGCGGGATA -CGCCCCTGATCGATAGCGGAACGTCCGGTATCACCAAAGCCGTGATAGAAATAGAGCACTGGCAAAGGCTCGCCCATGCC -GGTGTATCCTGGCGGGGTCCAGACATACATCTGACGTTCAGATTGCAATGCGTTGGAGTGGTAAGTTATGGCGATCAAAT -CACCATGCGCAACAGAACGCGTATCCAGATAACTGCCTGGCACCAGAATCATACTGGAGTTAACCTGGCGCTGAGGATTA -GTCATTGCGGTGCCTGTATCAATGCTGCGTACACCATCAACATTGAAAAAATACTCGTACAGGTTGCCTTTCAGGATAGG -TGTGCGCCACGACCAGACTCCTGCTTCGTCTTTGGTCATCGGGTGAATATTGTCCGGAACCGGAACACCCACCACTACAG -AGACATTTTTTGCCCCAGGGGCAAAGTAGCGAAAGGTCACGCTGTTATCGGCATTGACCTGAGTCACATACTGTTTCACC -GGGATAGTGGGTGCCGGGCTGGCTGGCATATCCGCTGCTATGGCCCACTGAGCAGAAATACCGCTGGCAATAGCCAGCGT -TAAAGCAGCAATTTTTATATTCATCGTAATATTCCTTTCATTAAGTTCCATTACCACCAGATTTCAGCCTGGGCACCGAC -AGCAAACTGGTCGTCTTTATTGTCTTCAAAGGTGAAGCCATCCAGTTCGTTTTCCAGGGCTTTGATATACGTGGCGTAGA -AACGAATTTCCGGACGCGAGGTCAACATACTGGTATTGACTTTAAAGGTATGGAAGAGCGTGGTTTTATAACCAGACTCA -TTAAATTTATTACTATTCGCATCTTTGTTTTGCTGGGTGAAATAGCCCAGTTCAACACCTGTCTGGTTATATTGGTCCCA -AATATAGGCCGGGCGAACAACCGCACGAATAGATTCGAAATCAGAGTGGGCGCCTGTTTCGTAGCTATATATATCGTTAC -CGAAGGAGTAAACAATCGCGTTAGCTACAATGAAATGATCGCCAATATAGGCTTCGCCCTGCGAAGTCAGACGTACCGCT -GTTCCGCCGGTGTGATCACCATAATAACGACCATTAAAGGTGGTAAATGGACTTGCGCCAGCATAACGGCCAAAGTTACT -GGCGATAGAGTTATTCGCGACCAGGAAGGAGAATTCGTTGAAGCCACCTTTATCAAATTTCTGCGTTAAAGATGTGCCAA -ACATCCAGGTATCTTTCCAGTCATAATACCCGTTATTATCCTGATTATCTTTTTCCGATGCGCTTTCGTTTGCCGTGACA -TAACGACCACTTACCATTAAGGTGGCTTTATCCCATAACGGGATATCTTTATAGCGTAAATCAATGGTATTGGTATTAAT -CTGCTGTTTGTTTTGCAGGCTGCGATCGTAATCATCGACATCTTCGCGAACCAGCGCGATATCAATTTTACCCGGACCGA -CTTTCCAGTTTTCCAGACCTACACCCGCTGCGGCATCAGTACGCTGCGTTTTCCAGTCAAGCATCTGGATTTCAATTTTC -GGCGCACCGTGTTTACCCACCCAGAAATCAGCCTCTGGCGCAAAGGGCAGGAAACCTTTGGTGGTAACGTACATATCGGA -GAACTGCATATAGTTCTCGCCACCGGCGTTATCGCCAAACCAGCCGGTAGAGTACTGCTGACCAACGTTACCATCCATCA -TCACAACGGCATCAACCCGTTTGCCGTTTTCGTTGTAGACACGTTGTTTTAACTGCAAATCAAACCAGCCGGAGTATTCG -TTACCAAAGCGGCCCAGAGAACCAATCGCCCATGATTTAGGTGAACCATGAGAGGCGGTCCCCCAACCAGAACGGTAATA -GCCGTTGTAACTAAAGCCAATTTCATCTTTCACAAATTTACTGAAATCTTTCAGAGTCATGGAAGAATAAATCGAGCCTG -TCTCACTGGCATTTTTCTCTTCATTTTTGACCAGTACAGCATCAGGTTTTGCGGCACTACTGGTCGGGAACGGATTGGCG -GCATACCCTTGATCATTCGTACTTACGCTACGATTCACCGTCGCTGGCGTATACTTTTTCTTCTCTTCATCTTTATACTT -TTTGAGTTCGCTTTGCGTTTCTCTTAACGCCTTTTCTAATAACTCAAGGCGTTGTTCCACCGTTAATGATTCAGCCAATG -ATTGTGCAGAAAAGGCTAACGGTGCCATTAATAAGATGGCAGAGGTAATAAGATTTCGTCTAAACATAATATCCCTTTAT -GGTGCAAAGAAAGAATTAACGCATCGCATCCAGACTGTTCTGAATGCGACGATAATTAAGGTGCTTTAATGGTTATTTTT -TTTAATGACAGCCCCCGCGTCTTGATCACCTCTGCATACCATCCGAAGCTTTTCTTGCGTGTTCTTGTGAGGCTTCCTTC -GCCATTATCATCACGATCCACATAAATAAAGCCGTAGCGCTTAGACATTTGTGAATGAGATGCACTGACTAAATCAATTG -GCCCCCAACTGGTGTACCCCATAATATCCACACCATCGGCAATCGCTTCATTTACCTGTACCAGGTGATCGTTTAAATAG -GCAATTCGATAATCGTCCTGTATCGAACCATCCGCTTCAACGCTGTCTTTTGCGCCTAATCCGTTCTCGACAATAAATAA -CGGTTTTTGATAACGATCCCAAAGCGTATTTAACAGAACCCGTAATCCAACCGGATCAATTTGCCACCCCCACTCTGAAC -TTTTCAGATGCGGATTGGGGATCATATTCAGTATGTTGCCCTGCGCATTTTTATTAATGCTTTCGTCGTGGGAAACACAA -CCAGTCATGTAATAACTAAAAGAGATGAAATCGACGGTATGTTTTAAATCTTCTGCGTCACTTTCAGTCATCTCAATGGT -GATATTGTGGTCGCGGAAGAAACGCTGCATATAGCCGGGATACTGGCCACGCGCCTGAACATCACCAAAGAACATCCAGC -GCCGGTTCTCTTCCATGGCCTGCAACATATCCTGTGGCTGGCAGGTGAGGGGGTAAACCAGCCCACCGAGAAGCATATTG -CCGATTTTCGCTTCGGGGAGCAGGCTATGACAGGCTTTAACTGCCCGCGCACTGGCAACCAGTTGATGGTGGATAGCCTG -ATAAACTTCCGCCTCGCCACTCTCTTCTGCCAGCCCCACGCCCGTGAATGGCGCGTGTAACGACATGTTGATTTCATTAA -ACGTCAGCCATAACGCCACTTTATGTTGGTAGCGAGTAAAGACCGTGCGGGCGTAATGCTCGAAGTGATCGATGACCGCT -CGATTAGCCCAACCGCCGTAGTTTTTCACCAGCCCATATGGCATTTCGTAATGGGATAACGTTACCAGCGGCTTGATCCC -CGCCTGCGCCATTTCATCAAACAGCCGATCGTAAAACGCTAACCCCGCTTCATTCGGTTCGACTTCGTCGCCCTGAGGGA -AAATTCGCGCCCAGGCAATGGAAATACGCAGACAGGTGAAGCCCATCTCGGCAAATAACGCGATATCTTCCGGGTAACGG -TGATAAAAATCGATGGCGACATCTTTGATATTCTCTTTCCCCAGGATGCGCGGTTCCATTTTTCCCATTACGCCATGAGG -CTGTAAATCTGAGGTCGAGATCCCTTTGCCATCTTCCTGCCAGGCACCTTCCACCTGATTGGCAGCTGTTGCGCCACCCC -AAAGAAATGTTTCTGGAAATGCTTTCATAATTAACTCCTTTTATCGTTAGCGAATGATGGATAACAGCGGTTCACCTGCG -CTTATCTGCGCCGTGCCGTGGGGTAATACGTCCGTAAAATCATCGCTATTACTGATTAATACCGGCGTCGTCAGATCAAA -TCCGGCCTCGCGAATAGCAGGGATATCAAAAGAAATCAGCCGATCGCCTGTATTGACCTTGTCACCCACGTTGACGTGAG -CGGAAAAGAATTTGCCGTCCAGTTTTACGGTGTCGATACCGACATGAATCAGGATCTCCACACCATCATCTGACTCAATG -CCAATGGCGTGTAATGTGGCGAACAACGAAGCAATTCGACCCGCAACCGGAGAACGCACTTCACCAACCGAGGGCAGAAT -GGCAATACCTTTACCCAACAGGCCACTGGCAAACGTGGTATCAGCGACGTGAATGAGCGGCACAATCTCTCCCGTCATCG -GTGAACAGATACCGCCCTGCTCAGGTGGTGTAATAACCTCTGGTGTTTTCTCTTGCGGGGCACCCTGCGCTGGCTGACGT -TTAGCGGTGATGAAATGAAGCATCACCGTACCGACAAATGCGCAACCGATGGCAATGACACCGCCAATAACGCTGGCCCA -GACGGTGAAATCAATTCCCGTTGACGGGATGGTTTGCATGAAGGTGAAAATACTTGGCAAACCAAAGGAGTAGACTTTCG -TTTGCGCGTAGCCAATAATGGTGGCCCCCAAAGCCCCACTGATACAGGCGATAACAAAGGGGTACTTACGCGGCAGGTTG -ACGCCATATACCGCTGGTTCGGTGATACCAAACAGACTCGTCAACGCCGCTGATCCCGCCACCACTTTTTTCTGCGCATC -GCGTTCGCAGAGGAAGACGCCGAGCGCCGCCCCGACCTGCGCCATAATGGCGGGCATTAACAGCGGGATCATGGTGTCGT -AGCCCAGCACGGTGAAGTTATTGATACACAGCGGCACCAGGCCCCAGTGCAGTCCGAACATGACGAAGATTTGCCAGAAG -CCGCCCATTACCGCGCCCGCAAATGCAGGAACCGCCTGATAAAGCCAGAGATAACCGGCGGCAATCAGTTCGCTTATCCA -GGTTGATAGCGGCCCCACCAGCAGAAAGGTGACGGGTGTGATAACCATCAGACATAGCAATGGTGTGAAGAAATTTTTGA -TTGCCGACGGTAACCACGCATTAAGTCGGCGTTCCAGAATGCTGCACAACCAGGCAGAAAAAATAATGGGAATAACCGAT -GACGAGTAATTCAACAATGTGACCGGAATACCCAGGAAATCCAGCCCCAGCGCATCCGCTTTTTGCCCGTTCTCGAAAGC -AGTCAGAATTAATGGATGCACTAACGCTCCACCAATCACCATGGCAGTAAATGGATTACCGCCGAAGCGTTTCCCCGCGG -TGTATCCCAGGATTATCGGGAAGAACCAAAACAAGGCATCACTGGCGCTGAATAAAATTAAATAAGTACCACTTTGTTCG -GTCGTCCACTGAAAAGTGAGCGCCAGAGCCAGCATACCTTTCAAGATCCCGGTTGCCGCCATCAAACCGATCAGAGGCGT -AAAAATACCTGAAATAACATAAACAAAGCGGTTTAGCAGATTACCTTTATCATCATTTTCCGGTGCCTGTTGCGCTTTTT -CGTCAAGGCCTGCCACACTGTTAACCGCCAGGAAGACATCGGCCACATGGTTACCTATGACCACCTGAAACTGGCCACCG -CTTTCCACCACCATAATAATACCGGGGGTCTTTTTCAGTACCTCTGCTTGCGCTTTGCTTTCATCCTTTAATTTAAAACG -TAATCGCGTTGCGCAATGCATCAGACTCACAATGTTATCTGCGCCCCCGACTCCTGCGACTATTTTTCTGGCTAACTCCG -TCATAACTTGCCCTCTACCGCTTTGCGGCAAAACTCCAAAAAAAAACCTGAAAAAAACGGCCTGACGTGAATCAAGCAAT -TTTTTTCAGGTTTTGCCCGCTTAGTGCGGTAACAATCCTTTACTCAGTAATAATATTTCAGTGTTCTTTGCGCACGCGCT -CTATATTTATGGCTAAAAACATAATCTCTGCGGGTGAAATTTTACGTTGATACTGCAAACCAATAAAAATGGCGATCCGT -TCCGCACATTGCCATGCTTGCGGGTAATTTTGTTTTACTGCTTGTTGTAATGATTCATCACTATCGTTAATTGAAGCATG -TTCAAGAATACGCCAGGATAAAAACTTCAGATGTGTAACCAGTCGCTGATAACTCAAGCTTTCTTCCTGGTAATTAAGGC -TGAACTGAAATTTTATTAATTGCAGCATTTCGCGCATTAACTGCGTGACACCTGCAACATCCTCCATATTTCCGCTCATT -TGGGCACTGACCAGATGCATGGCAATAAAGCCCACTTCATCTTTCGGTAACTGCACGCCCAACCGTTTATCAATAATGGT -TAACGCTTCTTCCCCTAGCTGGAACTCTTTCGGGTAAAGCCGCTGGATATCCCACAGCAACGGGTTGGGCAGCAACACGT -TTTGCTGAAAGCGTTTAATCGCAAACTGGCAATGGTCAGTTAGCGAGATATAAATACTGTCCTGTAATTTTCCCAAGCGC -TCCTGCGCTAAAGAGATAATACGATCACAGGTTGCCATCACCTCAAGAGGAATATGACTTAAGAGTTCGCTTAATCGCCC -GTTCAGTTCATGACTGCTCAAGGCATACTCTTTTTCTATTCCACTTGAGTTAATTCTTTCGCCAGCGCGTTTTTGAAAGC -CAATTCCGCGCCCCATGACGACTTTTTCCCGCTGTTGATCATCAATAACCACCACAACATTATTGTTGAGAATTTTGGTG -ATTTGCATGTTCATAGCAAGGACCTTTTTTATAAACAAAAAAACCCGACTTCACCAGTATTCTCTGGTTATGTCAGGTTT -TGCCTGCGAATGCAGTAACAATCCAGTCATTTATTAATGGTTTTTATAACGAACATCCAGGTTCGGAAATTAATTTAATT -GCGTGCAGAGAAAATAGCAATGCGCTATTGATAAAAATATGACCATGCTCGCAGTTATTAACTTTGTGTAATTTTAGGAA -TTTATAAAGTTATATATAACAAATCCCAATAATTAAGTTATTGGGATTTGTCTGGTGAATTATTTGTCGCTATCTTTCCC -CGCCAGCAGTTTATCCAGCTCATCGCCACCGACGTGACGGAAATCCTGCCCCTTCACGTAGTAGAAGATAAACTCACAAA -TATTCTGGCAGCGGTCGCCAATACGTTCGATAGAACGCGCGCAGAACAGCGCAGTAAGTACGCTCGGAATGGTACGCGAA -TCTTCCATCATGTAGGTCATCAGTTGACGAACAATACCTTCGTATTCCTGATCGACTTTTTTATCTTCACGATAAATACG -TACCGCTTCGTCAATGTCCATCCGCGCGAACGCGTCCAGCACGTCGTGCAGCATCTGGATGGTATGACGGCCCAGCGACT -CCAGACTTACCAGCAACGGCTGATGCTGCTGGGAGAATTTCTCCAGCGCAGTACGGCAGATTTTGTCCGCCACGTCGCCA -ATACGCTCCAGCTCGGCAATGGTTTTACTGATCACCATAACCAGTCGCAGGTCGCTCGCCGTCGGCTGACGTTTGGCGAT -AATGCGCACGCAGGCTTCATCGATCGCCACTTCCATCATGTTGACGTTCTTGTCGCCTTCGATGACGCGCTTCGCCAGAT -CGCTGTCCTGGTTATGCATCGCGGTGATTGCATCAGAAAGCTGCTGCTCCACCATGCCGCCCATGGTCATCACCTGCGTG -CGGATACTTTCCAGTTCGGCGTTGAACTGGCCGGAAATATGTTTATTAAGATTGAGACTGTCCATAACGCACTCCTGAAT -CAACCGTAACGACCGGTGATGTAGTCTTCTGTTTGTTTCTTCGCTGGCTTGGTGAACAGATCGTCCGTGTTGCTGAACTC -AATCAATTCGCCCAGGTACATAAACGCCGTGTGGTCGGAACAACGCGCAGCCTGCTGCATGTTGTGGGTGACGATCACCA -CGGTGTAATCCTGCTTCAGTTCGGTGATCAGCTCTTCAATACGCCCGGTAGAGATAGGGTCGAGCGCCGAACACGGTTCG -TCGAGCAGCAGCACTTCCGGGCGAATGGCGATACCACGCGCAATACACAGACGCTGTTGCTGACCACCAGAGAGAGAGTA -ACCGCTCTGGTGCAATTTATCTTTGGTTTCGTTCCACAATGCGGCTTTGGTCAATGCCCACTGCACGCGCTCGTCCATGT -CGGCACGGGAGAGCTTCTCAAACAGACGAACGCCAAAAGCGATGTTGTCGTAGATGGACATCGGAAACGGCGTCGGTTTC -TGGAACACCATGCCCACTTTCGCACGCAGCAGTGCGATATCCTGAGAGTTGGTCAGGATGTTGTCGCCATCAAGCAGAAT -TTCACCTTCCGCACGCTGCTCCGGGTACAGTTCAAACATTTTGTTGAAGGTACGCAGCAGCGTCGATTTACCGCAGCCGG -ACGGCCCGATAAACGCCGTTACCTGGTTTTTAGCGATATCCAGGTTGATGTTTTTCAGGGCATGGAATTTGCCGTAGTAG -AAGTTCAAATTACGAACCTGAATTTTACTCGGGGCAGTTTCAACCATACTCATTGCAATCTTTTCCTCATCGTGCCTGAT -GCACTTCGCTAATCAGGCTTACCGTAGGCCGGATCAGGCGTTCACGCCGCATCCGGCAAAGTGTTAACCGTGTACAGAGT -CAAAAAGGCGCTCGGTCGGTCCCCTCGCCCCTCTGGGGAGAGGGTTAGGGTGAGGGGAAAACCGTGTCAGCAATATCAAC -CGTGTTTATTCTTCGCAAAAACAACGCGCGCCAGAATGTTCAGCAGCAGTACGCACAGGGTAATGATCAATACCCCGGCC -CAGGCCAATTGCTGCCATTCCGCAAACGGGCTCATCGCAAACTTAAAGATCGTCACCGGCAGGTTGGCGATCGGCTGCAT -CATGTCCGTGCTCCAGAACTGGTTGGAGAGCGCGGTAAACAGCAGCGGCGCGGTTTCACCAGCAATACGGGCAATCGCCA -GCAGGATACCGGTCATAATCCCGGACACCGACGCTTTCAGCGTAATCGCAGAGATCATCTTCCACTTCGGTGTACCCAGC -GCATAAGCCGCTTCACGCAGGCTGTACGGCACCAGTTTCAGCATGTTCTCGGTGGTGCGGATAACAATCGGCACCTGCAA -CAACGCCAGGGCAATCACGCCCGCCCAGCCGGAGAAGTGCTCCATCTGCGCCACCACAATGGTGTAAACAAACAGACCAA -CCACAATCGACGGCGCAGAGAGCAGAATGTCGTTAATGAAGCGAATCACTTCTGCCAGCCAGGATTTACGACCATATTCC -GCCAGATAAATCCCCGCCATAATGCCCAGCGGCGTACCGAATACCGTGGCCCACAAAATTAACAGCCCGCTACCCGCCAG -AGCGTTCGCCAGACCACCACCTTCCGTATTGGGCGGCGGCGTCATTTCAGTGAACAGCGCCAGCGACATACCGTCGATAC -CGCGAGTGATGGTGGACATTAAAATCCAGATCAGCCAGAACAGGCCGAAGGCCATCGTCGCCATCGAGAGCGTCAGCGCA -ATACGGTTTTTGAGGCGGCGACGCGCCTGCATTTTGCGGCGAGATTCAGCCAGCGCCGCAGTGGTTTGCATTTCAACCAT -AGCCATTAGCGTGCCCCCTCATTCTTAGCCAGGCGCATAATCATAAACTTCGATGCGGCGAGGACGATGAAGGTAATCAC -AAACAGGATCAGGCCCAGTTCCATCAGTGCGGCAACGTGCAGACCGGATTCCGCTTCCGCAAATTCGTTCGCCAGCGCAG -AGGTGATACTGTTGCCCGGCATATACAGCGAGGCGCTGTCGAGCTGGTAGGTGTTACCGATGATAAAGGTCACCGCCATG -GTTTCACCGAGCGCGCGGCCCAGCCCCAGCATGATGCCGCCGATAACACCATTTTTGGTGAACGGAAGAACGATACGCCA -GATAACTTCCCAGGTGGTGCAGCCAATACCGTAGGCCGACTCTTTCATCATCACCGGGGTTTGTTCGAACACATCACGCA -TTACCGCCGCAATGTACGGAATAATCATGATGGCGAGGATCACGCCTGCCGCGAGGATACCGATACCAAATGCGGGGCCA -GAGAACAGCGCGCCAACAATCGGGATATTCGACATGATATTGCCGACCGGCTCCTGAAAGTAAACGGCGAACAGCGGCGC -AAAGATAAACAGGCCCCACATGCCGTAAACGATACTTGGAATGGCTGCCAGCAGCTCAATGGCGATACCCAGCGGGCGTT -TCAGCCAGCCAGGCGCAAGCTCAGTCAGGAACAGGGCGATACCGAAACTCACCGGGACGGCGATCAGCAGCGCGATAAAC -GAAGTCACCAACGTACCGTAGATCGGCACCAGCGCCCCGTAGATATCGTTCGGTGCATCCCACTCTTTGGTCCATAGGAA -AGCCAGACCAAATTTCTGAATGCTCGGCCAGGAGGAGATGATCAGAGAGACAATAATGCCACCCAACATCAATAGCACAA -TCAGCGCCGCCAGTTTTACCAGCACGCTGAAAATTATGTCGCCCTTTTTACCCGGTGGGTTAAAAGCAGGCTTGGTTGCA -GCCATAAGTTACTCTTCAGTTAAACGCGTTTACAAAGTCATTTTGTAATGCCGGATGCGGCGTAAAACACCGTACCCGGC -CTGGAGTTTTATTAGTACAGCGGCTTACCGCTACTGTCTTTAATATTGGTCTTCCACGCAGCGCGAACCTGTTCAACTAC -ACTATCCGGCAGGCTGGCGTAATCCAGGTCGTTCGCCTGTTTAGCCCCGGTTTTGTACGCCCAGTCGAAGAATTTCAGCA -CTTCTGTGCCTTGTTCTGGTTTCTTCTGATCTTTGTGGATCAGAATGAACGTGGTAGAGGTAATAGGCCATGCATCTTCG -CCTTTCTGGTTGGTCAGATCCTGAGCGAAGGTTTTGCTCCAGTCTGCACCTTTTGCTGCATTAGCGAAGTTTTCTTCGGT -CGGACTAACCGGTTTACCATCAGCGGAGATCAGTTTGGTGTACGCCAGGTTGTTCTGCTTCGCGTAAGCATATTCAACAT -AACCAATTGCACCCGGCAGACGCTGAACGAACGCGGCGATACCGTCGTTACCTTTACCGCCCAGACCGATCGGCCATTTT -ACGGTAGAGCCAGTACCAACGTTGTTTTTCCACTCTTCGTTCACTTTCGCCAGGTAGCTGGTGAAGACGAAGGAAGTCCC -GGAGCCATCTGCGCGGCGTACTACAGCAATGTTTTGTGAAGGCAGTTTCAGACCCGGATTCAGTTTGGCGATGGCTTCAT -CATCCCACTTCTTGATTTTGCCCAGGTAGATGTCGCCGAGGGTTTTACCATCCAGCACCAGTTCGCCAGACTTCAGCCCT -GGAATGTTAACCGCCAGCACCACGCCGCCAATCACGGTCGGGAACTGGAACAGACCTTCCTGAGCCAGTTTTTCGTCAGA -CAGCGGCGCGTCAGAGGCACCAAAATCAACGGTATTAGCGATAATCTGTTTTACGCCACCGGAAGAACCGATACCCTGGT -AGTTAACTTTATTACCGGTTTCTTTCTGGTAAGTGTCAGCCCATTTGGCATACACCGGCGCAGGGAAGGTTGCACCTGCA -CCTGTCAGGCTTGCTTCTGCAAACACAGAGAAAGCACTCATCGATAAGGTCGCGGCGACAACAGTTGCGACGGTGGTACG -CATAACTTTCATAATGTCTCCTGGGAGGATTCATAAAGCATTGTTTGTTGGCTACGAGAAGCAAAATAGGACAAACAGGT -GACAGTTATATGTAAGGAATATGACAGTTTTATGACAGAGAGATAAAGTCTTCAGTCTGATTTAAATAAGCGTTGATATT -CAGTCAATTACAAACATTAATAACGAAGAGATGACAGAAAAATTTTCATTCTGTGACAGAGAAAAAGTAGCCGAAGATGA -CGGTTTGTCACATGGAGTTGGCAGGATGTTTGATTAAAAACATAACAGGAAGAAAAATGCCCCGCTTACGCAGGGCATCC -ATTTATTACTCAACCGTAACCGATTTTGCCAGGTTACGCGGCTGGTCAACGTCGGTGCCTTTGATCAGCGCGACATGGTA -AGCCAGCAGCTGCAGCGGAACGGTGTAGAAGATCGGTGCAATCACCTCTTCCACATGCGGCATCTCGATGATGTGCATGT -TATCGCTACTTACAAAACCCGCATCCTGATCGGCGAAGACATACAACTGACCGCCACGCGCGCGAACTTCTTCAATGTTG -AATTTCAGTTTTTCCAGCAATTCGTTGTTCGGTGCAACAACAATAACCGGCATATCGGCATCAATTAGCGCCAGCGGACC -GTGTTTCAGTTCGCCAGCAGCGTAGGCTTCAGCGTGAATGTAAGAGATCTCTTTCAACTTCAATGCGCCTTCCAGCGCGA -TTGGGTACTGATCGCCACGGCCCAGGAACAGCGCGTGATGTTTGTCAGAGAAATCTTCTGCCAGCGCTTCAATGCGTTTG -TCCTGAGACAGCATCTGCTCAATACGGCTCGGCAGCGCCTGCAGACCATGCACGATGTCATGTTCAATGGAGGCATCCAG -ACCTTTCAGGCGAGACAGCTTCGCCACCAGCATCAACAGCACAGTTAACTGAGTGGTGAATGCTTTAGTGGATGCCACGC -CGATTTCTGTACCCGCGTTGGTCATTAGCGCCAGATCGGATTCGCGCACCAGAGAAGAACCCGGAACGTTACAGATTGCC -AGTGAACCAAGGTAACCCAGCTCTTTCGACAGACGCAGGCCAGCCAGGGTATCCGCGGTTTCGCCAGACTGTGACAAGGT -GATCATCAGGCTGTTACGACGCACGGCAGATTTGCGATAGCGGAATTCAGAGGCGATTTCGACGTCGCACGGAATACCTG -CTAGCGATTCAAACCAGTAGCGGGAAACCATACCGGAGTTATAAGAAGTACCACAGGCGAGGATCTGAATATGCTCAACC -TTCGACAGCAGTTCGTCGGCGTTCGGTCCCAGCTCGCTTAAATCAACCTGACCGTGGCTGATGCGTCCGGTAAGGGTGTT -TTTGATCGCGTTCGGCTGTTCGTAGATCTCTTTCTGCATGTAGTGACGGTAAATGCCTTTATCGCCCGCGTCATATTGCA -GATTGGATTCGATATCCTGACGTTTTACTTCCGCGCCAGTTTTATCGAAGATGTTTACCGAACGGCGAGTGATTTCCGCA -ATATCGCCCTCTTCAAGGAAGATAAAGCGACGGGTCACCGGCAACAGCGCCAGCTGGTCAGAAGCGATAAAGTTTTCGCC -CATCCCCAGGCCAATCACCAGCGGACTACCAGAACGTGCCGCCAGCAGGGTATCCGGGTGACGGGAGTCCATGATCACTG -TACCGTACGCACCACGCAGCTGCGGGATAGCACGCAGAACGGCCTCACGCAGAGTCCCGCCTTGTTTCAGCTCCCAGTTC -ACCAGATGGGCAATCACTTCGGTGTCGGTTTCAGAAACGAAGGTATAGCCACGCGCTTTTAGCTCTTCACGCAGCGGTTC -ATGGTTTTCGATGATGCCGTTATGCACCACCACAATGTGTTCAGAAACATGCGGATGCGCATTCACTTCTGAAGGTTCAC -CGTGGGTCGCCCAGCGAGTGTGAGCAATACCAGTGCCGCCATGCAGAGGATGTTCTTCCGCTGCCTGTGCCAGCATCTGG -ACTTTACCGAGGCGACGCAGGCGGGTCATATGACCTTCTGCATCAACAACGGCCAGACCGGCAGAGTCATATCCGCGGTA -TTCCAGACGACGTAAACCTTCAAGAAGGATTTCTGCTACATCACGTTGCGCGATCGCGCCAACAATTCCACACATAGTTT -TTGATTCCGATTTATATCGTTGTCGGTCAACCTGTATGCCCGTTTTTTCGGGCGCCCCGAGCCTTGTAGAGAGTGGGGTT -ATTTTTATAGTTACTGCTTGTGGGAGGGAGATTATGTTATCTCCTCATCCCATGTGACCGGGTTAGCCGGCCAGAATCAC -TTTTTCTTTACCGGACGACGCCAGCCTTCTTTCTGAGTCTGCGGCACACGGCTGATAGCTAATGCATTTTCGCCGACATT -ACGCGTCACAGTTGTACCCGCAGCAATGGTCGCGCCTTTGCCTACTGTTACCGGGGCCACCAGCTGAGTGTCGGAACCAA -CAAACACATCGTCGCCGATAATGGTCTTAAATTTATTCGCACCATCGTAGTTGCAGGTAATGGTTCCCGCGCCGATGTTA -ACGTTATCGCCAATTTCCGCATCGCCCAGGTAAGTCAGATGACCAGCTTTCGAGCCTTTACCCAGACGCGCTTTTTTCAT -CTCAACGAAGTTACCGACGTGAGCACCTTCCAGCAACTCAGCACCAGGACGCAAACGGGCAAACGGGCCAATGGTACAGG -CCGCTGCCAGATTCGCATCTTCCACAACGGTATACGGACTGATTTCGCAATCATCGCCAATCACGCTGTTTTTAATCACG -CAACCGGTGCCAATTTTCACGCGATGACCGAGAGTCACGTTGCCCTCGATGATAACGTTAGTATCAATTTCAACATCGCG -CCCGTGAGTTAGCGTACCACGCAGATCAAAACGCGCTGGATCGCGCAGCATAACGCCTGCTAACAGCAGTTTTTCAGCCT -GTTCGGACTGATAAACACGCTCCAGACGGGAGAGTTGCAGGCGGTTATTCACGCCTTCTACTTCGCTTAAACGTTGCGGA -TGAACGGCGACGATTTCACGCCCTTCCTGATACGCCAGCGCAATAATGTCGGTGATGTAGTATTCGCCCTGAGCATTATT -GTTGGTCAGCTTCGCCAGCCAGCGTTTCATATCTGCGCCGTTGGCAATCAGAATGCCGGTGTTGATCTCCTGAATCTGAC -GCTGCTCGTCGGTGGCATCTTTGTGCTCAACAATGCCGGTAACTTTGCCGTTTTCACGGGTGATACGTCCATAACCGGTC -GGATCATCCAGTTTCACCGTCAGCAGACCAATGCCACCCTGCGGTTTAGCATCACGCAGACGCTGGAGTGTTTCGACAGA -GATCAGCGGCACGTCGCCGTAGAGCATTAAAATGTCTTCATCATCGGCAAAGAAAGGTGCGGCCTGCTGCATTGCATGAC -CCGTACCCAGCTGCTCTGCCTGAAGCACCCAGTTAAGGTTGTCGTCTTTCAGCGCCTGTTTTAGCAGATCGCCGCCGTGA -CCGTACACCAGGTGAACGTGCGCTGCGCCTAATTCATTCGCAGCATCAATGACATGCTGAACCATCGCTTTCCCGGCAAG -GGTATGCAGCACTTTCGGAAGATCGGAATACATGCGCGTGCCTTTGCCTGCGGCAAGGATCACTACGCTCATAGCATTAT -TCAACATACGCGTCCTGACTGTAATTTGAGAACGAATTTAAACCGCTTCACCTTGAAAAAACTACATTTTTTTCATCGTG -AAATGGACAGAGGATAAATTGTTCAATAACGGATTATCCCCGCTGACGAAAGCGCCATTTTCGACCATCGTCACGCCTTT -TGTCTGCAGAAAATTAAGGCAGTACCTTAATTTAAGCGTCAGGTGGATGTTTTTGCTCTTATTTCGATCAATGAATAAAC -AGGAAAACAGGGGGGTTTTATATCAGCAGGATCTATGTGAACGCTATTCAGGACGGGTCACACGCGCAAAAAAAAGCCAG -CCTGTTTCCAGACTGGCTTTTGTGCTTTTCAAGCCGGTGTTACATCGCTTTTTTGGTCAACTCGATAACGCGCAGCTGCG -CGATCGCTTTGGCCAGTTCCGCAGACGCCTGAGCGTAATCTACGTCGCCGTGAGAGCTGCTAATGTGCTCTTCAGCCTTA -CGTTTCGCTTCCATGGCTCGCGCTTCGTCGAGATCCTGGCCGCGAATTGCGGTGTCGGCCAGAACGGTCACGTTGCCAGG -CTGCACTTCAAGAATGCCGCCAGACAGATAGATAAACTCTTCGTGACCGTGCTGTTTCACGATGCGAATCATACCAGGCT -TAATGGCGGTGAGCAGCGGTGCGTGGCCAGGGTAGATCCCCAGTTCACCTTCGCTACCCGTTACCTGGATTTTCTCGACC -AGACCAGAGAACATTTGTTGCTCTGCGCTGACGACGTCCAGGTGGTAAGTCATTGCCATATCACCCTCCGATTAAGGCGT -TAAAGTTTTTTGGCTTTTTCCACAGCTTCTTCGATGGAACCGACCATGTAGAACGCCTGCTCCGGCAGGTGATCGTATTC -GCCTTCCATGATGCCTTTAAAGCCACGGATGGTGTCTTTCAGGGAGACGTATTTACCCGGAGAACCGGTGAATACTTCTG -CCACGAAGAACGGCTGGGACAGGAAGCGCTGGATCTTACGAGCACGCGCTACCACCAGTTTGTCTTCTTCAGACAGTTCA -TCCATACCCAGGATGGCGATGATGTCTTTCAGTTCCTGATAACGTTGCAGGATGGACTGAACGCCACGCGCGGTGTCGTA -GTGTTCCTGACCAACCACCAGCGGGTCCAGCTGACGGCTGGTGGAGTCCAGCGGGTCAACGGCCGGGTAGATACCCAGAG -ACGCGATCTGACGGCTCAGTACCACGGTTGCGTCAAGGTGCGCAAAGGTGGTTGCCGGAGACGGGTCAGTCAAGTCATCC -GCAGGTACGTATACTGCCTGTACGGAGGTGATAGAACCAGTTTTGGTGGAGGTGATACGTTCCTGCAGAACGCCCATCTC -TTCCGCCAGGGTCGGCTGATAACCTACCGCTGAAGGCATACGGCCCAGCAGTGCGGATACTTCCGTACCGGCCAGGGTGT -AACGATAGATGTTGTCAACGAACAGCAGAACGTCACGACCTTCGTCACGGAATTTCTCAGCCATGGTCAGACCGGTCAGA -GCAACGCGCAGACGGTTTCCCGGCGGCTCGTTCATCTGGCCATACACCAGGGATACTTTGTCGATAACGTTGGAGTCGGT -CATTTCGTGGTAGAAGTCGTTACCCTCACGAGTACGTTCACCTACGCCCGCAAACACAGAGTAACCGGAGTGCTCGATCG -CGATGTTACGAATGAGCTCCATCATGTTTACGGTTTTACCTACACCCGCACCACCGAACAGACCAACTTTACCGCCCTTA -GCGAACGGACACATCAGGTCGATAACTTTGATACCGGTTTCCAGCAGTTCCTGAGAGTTTGACAGCTCTTCGTAGGAAGG -TGCTGCGCGGTGAATCGCCCAACGCTCTTCTTCACCGATCTCGCCTTTCATGTCGACCGGTTCACCCAGTACGTTCATGA -TACGGCCCAGAGTCGCTTTACCTACCGGGACTTCAATCGGGTGTTCGAGGTCTTTTACATCCAGACCGCGACGCAGACCG -TCGGAGGAACCCATTGCGATGGTACGTACGATACCGCCGCCGAGCTGCTGCTGAACTTCCAGCACCAGACGCTCATTACC -ATTTTGCACCTCAAGAGCATCGTACACGCGCGGTACGGCATCCTGAGGGAATTCGACGTCAACTACGGCGCCGATTACCT -GGACAATCTTTCCAGTAGCCATCTTAAATCCTCTACGAAATAACCTGTTTAAACCGCGGCGGCCCCCGAGACGATCTCGG -TGAGTTCCTGAGTAATGCTGGCCTGACGAGCTTTGTTGTATACCAACTGCAGCTCTTTAATCAGGCTGCCGCCATTGTCG -GTCGCGGCTTTCATCGCCACCATACGGGCGGCCTGCTCGCTGGCCAGGTTTTCAACCACGCCCTGATAAACCTGAGATTC -GACATAACGACGCAGCAGGGTATCCAGCAACGCCTTCGGATCGGGTTCGTACAGGTAATCCCAGGATTTATGTTTCAGAT -CATCATCATCTGATGCCGGTAACGGCAGCAGCTGGCTGATGGTCGGAACCTGAGACATGGTGTTAATAAATTTGTTGCTG -ACAATGTAAAGCTTGTCCAGACGGCCTTCGTCGTAGGCCTGCAACATCACTTTTACCGGACCGATCAGTTCGGACAGGGA -AGGGTTATCCCCCATGCCGGTGACCTGGGCAACAACATTGCCGCCCACGGAGTTGAAGAACGACACGCCTTTCGAGCCGA -TCATTGCGAGGTCGCATTGAACGCCTTTGTCGGTCCAGGTCTTCATTTCCGCCAGCAGTTTTTTGAACAGGTTAATGTTC -AAACCACCGCACAAACCACGGTCGGTCGACACCACCAGGTAGCCCACGCGTTTAACGTCGCGGTCTTCCAGGTAAGGGTG -CTTATATTCCAGATTACCGTGTGCAAGGTGACCAATCACTTTGCGCATGGTTTCTGCATAAGGACGGCTGGCCGCCATGC -GATCCTGCGATTTACGCATTTTGGAAGCGGCGACCATCTCCATCGCTTTAGTGATCTTTTGCGTGTTCTGGACGCTTGCG -ATCTTACTACGTATCTCTTTTGCGCCGGCCATGAGCTTCTCCTCAATGCCTTGCGGCCTGCCCTAAGGCAAGCCGCCAGA -CGTTACCAGGATTGGGTTGCTTTGAAGGAATCGAGGATGCCTTTCAGCTTGCCTTCGATTTCGTCGTTGTAGCCACCGGT -CTGGTTGATCTCTTGCATCAACGGAGCGTGATCACGGTCGACGTAAGCCAGCAGAGCGGCTTCGAAGCTGCCAATTTTCG -ACAGTTCAACATCCGCCAGGTAACCACGTTCTGCTGCGAACAGAACCAGAGACTGCTGCGCAACGGACATCGGCGCATAC -TGTTTCTGTTTCAGCAGTTCGGTCACTTTCTGACCGTGGTCAAGCTGCTTACGTGTTGCATCGTCAAGGTCGGATGCAAA -CTGAGAGAACGCTGCCAGTTCACGATACTGTGCCAGAGCGGTACGGATACCACCGGACAGTTTTTTCATGATCTTGGTCT -GTGCTGCACCACCAACACGGGATACGGAAATACCCGGGTTAACCGCAGGACGAATACCGGCGTTGAACAGGTTGGTTTCC -AGGAAGATCTGACCATCGGTAATGGAGATTACGTTGGTCGGAACGAACGCAGAAACGTCACCCGCCTGAGTTTCGATAAT -CGGCAGTGCGGTCAGAGAACCGGTTTTCCCTTTCACTTCACCTTTGGTGAAGGCTTCAACGTATTCGGCGTTAACACGTG -CAGCACGCTCCAGCAGACGAGAGTGGAGGTAGAAAACGTCGCCCGGGAATGCTTCACGTCCTGGCGGACGACGGAGCAGC -AGGGAGATCTGACGGTAAGCAACAGCCTGTTTAGACAGGTCATCGTAAATGATCAGCGCATCTTCACCGCGGTCACGGAA -GTATTCGCCCATTGCGCAACCGGCATACGGTGCCAGGTATTGCAGTGCAGCGGATTCAGACGCGGTTGCTACCACAACGA -TGGTGTTAGCCAGTGCGCCGTGCTCTTCCAGTTTACGTACCACGTTAGAAATGGTGGACGCTTTCTGGCCGATAGCGACA -TAGATACATTTGATACCGGAATCGCGCTGGTTGATGATGGCATCGATAGCCAGTGCGGTTTTACCTGTCTGACGGTCACC -GATGATCAATTCACGCTGACCACGACCGATTGGGATCATGGAGTCAACGGCTTTATAACCGGTCTGTACCGGCTGATCTA -CGGACTGACGTTCGATAACGCCCGGAGCGATTGCTTCTACAGCAGAGAAGCCGTCGTGATCCAGCGGACCTTTACCGTCG -ATTGGTGCACCCAGAGTGTTAACCACACGGCCCAGCAGGCCACGGCCAACCGGAACTTCCAGGATACGGCCAGTACACTT -AACTTTCATGCCTTCGGCAAGGTCAGCGTACGGACCCATAACAACCGCACCTACAGAGTCGCGCTCGAGGTTCAGTGCGA -TAGCGTAACGGTTACCCGGCAGGGAGATCATTTCACCCTGCATACAATCGGCCAGGCCGTGAATGCGGATAACACCGTCA -CTTACAGAAACAATAGTACCTTCGTTGTGAGCTTCACTCACAACATTGAACTGAGCAATGCGCTGCTTGATCAGTTCGCT -GATTTCGGTGGAATTCAGTTGCATGCTCCAGTCCCCTTAAGACTGCAAGACGTCTGCAAGGCGCTCAAGACGACCGCGTA -CGCTGCCATCAATGACCATATCACCCGCTCGGATGATAACGCCTGCCATTACAGACTTATCGATTTTGCAATTCAGCTTA -ACTTTGCGTGACAGACGTTTTTCCATCGCAGCAGAAATTTTCGCGAGCTGTTGTTCACTCAGTGCGGCAGCGGAAATGAC -GTCTACCTCAGCGGTAGCCTCACTCACGGCACGCAGGTGAATAAACTGCTCCAGAACATCCGGGAGCGCGTTAAGACGAC -CATTTTCAGCCATAACCCGAATCAGGTTCTGACCGTTTTCGTCCAGTTGCTCACCACAAACTGCGATAAACGACTCGGCG -AGCGTTTCTGGCGCAAGCGCGCCAGAGAGAAGCTCTGCCATTTGTTCGTTTTTGGTTACCTCGGCGGCAAACGCCAGCAT -GTCCTGCCAGCGTTCTACACTTTGGTGTTCGACGGCAAAGTCAAAAGCTGCTTTGGCGTAGGGGCGAGCTACCGTAATAA -ATTCAGACATCAGCCCCTCCCTCCTTACAGTTCAGCGACAAGTTTATCCACGATGTCGCTGTTAGCAGCTTCATCCACGG -AACGTTCGATGATCTTCTCGGCGCCAGCAACAGCCAGGATAGCAACTTGCTTACGCAGCTCTTCACGGGCACGTTTACGC -TCGGCTTCAATTTCCGCCTGCGCCTGGGCCACGATTTTAGTACGTTCCTGTTCTGCCTCAGCTTTCGCTTCGTCCAGAAT -CTGCGAGCGGCGTTTGTTCGCCTGCTCGATGATTACCTGGGCTTCCGCTTTCGCTTTTTTCAGCTGGTCGGTCGCGCTGG -CCTTTGCAAGGTCAAGGTCCTTATGTGCTCGTTCTGCGGAAGCAAGGCCGTCAGCAATTTCTTTTTGACGTTTTTCGATG -GCTGCCATTAATGGCGGCCATACGTACTTCATGCAGAACAGAACGAACAGGACAAACGCGATGGCCTGGCCGAGGATTGT -TGCGTTAAGATTCACAGCACAATGCCTCTATTTAGTTAACGTTCTGATATTGCTCTTTAAATAAAAGCAACGCTTACTAC -GCGACAGCGAACATCACGTACAGACCCAGACCTACAGCGATCATCGGGATAGCATCCACCAGACCCATAACGATAAAGAA -CTGAGTACGCAGCAGAGGAATCAGATCAGGTTGACGCGCTGCGCCTTCCAGGAATTTACCCCCGAGGATGCCGATACCGA -TCGCAGCACCGATTGCCGCCAGACCCATCATCACAGCGGCAGCCATGTACAGCAGATCCATATTCAGGTTTTCCATGACA -GTCTCCAGTTTGTTTCAGTTAAAACGTAGTAGTGTTGGTAAATTAATGTTCTTCAGACGCCATCGACAGATAGACGATCG -TCAGAACCATGAAGATGAAGGCTTGCAGCGTAATGATCAGGATGTGGAAAATGGCCCACGGCACATTCAGGATCCACTGT -GACCACCACGGCAACAGACCAGCAATCAGAATGAAAATCAGCTCACCGGCATACATGTTACCGAACAGTCGCAAACCGAG -TGAAACTGGTTTGGACAGCAGGCTTACCCCTTCAAGGATTAAGTTGACAGGAATGAACGCCCAGTGATTGAACGGCTGCA -GCGTCAACTCTTTCGTGAAGCCGCCGATGCCTTTCATTTTGATGCTGTAGAACAGAATCAGGATAAATACGCCCAGTGCC -ATAGACAGCGTTACGTTCACGTCCGCAGACGGAACCACACGCAGTGCAGGCAGACCCAGTACATGTTCAGCAATGTACGG -CAGCAGGTCGATAGGCAGTAAATCCATCAGGTTCATCAGGAATACCCAGACGAAGATCGTCAGGGCCAGCGGAGCAATCA -GCTTGCTTTTGCCATGGTACATGTCTTTCACGCTACCATTAACAAAGCCGATCACCAGCTCAATCGCGGTCTGAAACTTA -CCTGGCACACCGCTGGTCGCCTTTTTGGCTACGCTACGGAATAAAACCAGGAACAACAGACCCAGCACCACCGAGAAGAA -CATGGAGTCAATATTGATTGTCCAGAAGGTGGCTGGGGGGTTTTGTGGATCCACCAGCGAGAATGTACGCAGGTCCAGCT -GAAGGTTATTCAGGTGGTGTCCTATGTAATCCTGCGGCGTCATATTTTCTGAAGCCATGATGCCTTTTACCCTTTGTTGT -TAATTACAGCCGGTGCCAGTATCTGAACCACCAGCACCAAAACCCACGTAACGATCAGCGGCAAGAATACCGCCTTTAAA -ACCGCCAACGCCACCACCAGTAACACCAACATCGCCAGAACTTTGAAAGCTTCGCCAAATGCGAATGTCCAGGCCACCCG -GCCTTTCGCTGGTGTATGCGCCTGGTGACGCCAGGCAAATATCATAAACAAAACGTTAGGCAGAAAGACTGCCAGGCCCC -CGCTTATTGCAGAGACGCCCCAGAAGGGGTCTTTGAGGCTGAACAGCAATCCACTTGCTATCACCACCAGTAACTGAACG -AGCAGAAGCTTCCGAGCAACGTTTCGACTCACGAGCGACACAGACATCACGTTTTTCACTCCTGCTCCCTTCGAGGTATG -CCGCGTGTCGTATAAAACTTTCTTTAAGGCTTAGAGTCAAGCATCAAAAAGCGGTCAAATTATACGGTGCGCCCCCGTGA -TTTCAAACAATAAGTAGCCAAAAGGTGAATAAATGTTTAAATATTTTTCCAGTGCATACAATTGCGACTTTTCTGCTAAC -CCTGTTCGATCATGAAAAACTGTAAATAACGCGTAAACACTGGTGATAAAGCGTGCTTCAGATCACATATTGCGCATGTT -CGCGCACAGCATATTTATTTACTTGGCAAATGATGCCTTTGCAAGTTTATGATATTTCAGTCTAAAAACAGATACTGTTT -TAATAAATGACATTTACACAACAAAAACCACCCATTGACATTTTTAATAATGTTTTAACAGCCAATGATGGTTCTTAGCG -CCGATTTTTAGCAGACTGATATTTTCACTAATGACTTATTTTCTGCTTACCAAAAAAAGCCACGTTATCTTGTTGATGCA -AAAGAGTGAACGTGGCGTTAAATGTAACCAGTTATATCAGTAGAAAACCTGGTTGTTGTTAACAGTCTAACCGGTCAATT -TTTTATGATTTTTTTGATAAAAATTAAATTTTATTTGCTTTAATCACCACCAGATGACGTTCGCCATCCAGGGCTGGAAC -CTGAAGTTTAACCACTGATTCGACCTGATATTCTTCGGGCAACAAAGCGATTTCATCTTCCGGCATTTGCCCTTTCAGCG -CGTAGAAACGGCCTTGCTCACCAGGAAGATGGTGGCACCAGCTCACCATATCGTTCAGAGAGGCAAAAGCGCGGCTAATT -ACGCCATCAAATGGCGGCTCTGAAGGAAACTCTTCTACCCTGCTCTGTACTGGTTCAATATTCTCCAGTTTAAGCTCATG -TTGCACCTGACGAAGGAAACGCACGCGTTTACCAAGGCTATCCAACAGAGTGAAATGGGCTTCAGGACGCACGATAGAGA -GTGGAATGCCTGGCAGTCCTGGTCCGGTGCCGACATCGATAAACCGTTCACCTTGCAGATACGGTGCCACCACAATGCTA -TCGAGAATATGGCGTACCAGCATCTCATTAGGATCGCGGACCGAAGTCAGGTTGTACGCTTTGTTCCATTTATGCAGCAT -ATTCACGTAGGCAATAAGCTGGTTTTTCTGGTGATCGGTAAGCGAAATACCTGCGTCTTTCAGCAGTAAGGAGAGTTTGT -TGAGCACGGTGATTACCTGTTCTTGATGCGTTGCCTGGTAAGCGGGTGCTTACCAGGCATTTTTAATGCGTTATGCGCTA -CGACGCAGCATACCCTGTTTTTTCAGCCACACCAGCAGAATGGAGATGGCCGCAGGCGTGACGCCAGAAATACGCGAAGC -TTGGCCGATAGAGGCTGGTTTGTGATCGTTAAGTTTGGCGATCACTTCGTTAGAAAGACCGGATACCTGGCGGTAATCCA -GTGTCGCGGGTAGCAGGGTGTTCTCGTTACGCAGCTGCTTTTCGATCTCATCTTGCTGGCGCGCGATATAACCTTCGTAT -TTAACCTGAATCTCAACCTGTTCCGCCGCCTGTTCGTCTGTCAACGCAGGGGCAAACGGCGTCAGCGTGGTTAATTTTTC -ATAAGTCATTTCCGGACGACGCAGCAGATCTTCACCACTGGCTTCACGGGAAAGCGGCGCAGTCAGGTGAGCATTCACTT -CGGCTGCAGCTTCCGCCGACGGGGTTACCCAGGTCGATTTCAGACGCTGACGCTCACGCTCGATATTCTCAAGTTTCTCG -TTAAAGCGCGCCCAACGTTCGTCATCCACCAGGCCCAGTTCACGACCGATTTCAGTCAAACGCAGATCCGCATTATCTTC -GCGTAGCATCAGACGATATTCTGCGCGCGAAGTAAACATACGATACGGTTCTTTGGTTCCTAAAGTGCACAGGTCATCAA -CTAGTACGCCGAGATACGCCTGAGAACGTGCCGGAGCCCAACCTTCTTTGTCAGCAGACAGACGGGCAGCGTTAAGACCG -GCCAGCAAACCTTGCGCAGCGGCTTCTTCGTAACCGGTAGTGCCGTTAATCTGACCAGCAAAGAACAGCCCCTGGATAAA -CTTGCTCTCCAGCGTCGGTTTCAGGTCGCGAGGATCGAAGAAGTCATACTCAATGGCATAACCCGGACGCACGATCTTCG -CGTTTTCCATCCCCTGCATAGAGCGGACGATTTGCATCTGCACATCGAACGGCAGGCTGGTGGAGATACCGTTCGGATAA -ATTTCATTAGAGGTCAGTCCTTCCGGTTCAAGGAAGATCTGATGCTGATTTCTGTCGGCGAAGCGCATGACTTTGTCTTC -GATCGACGGGCAGTAGCGTGGGCCGACACCTTCGATCACCCCTGCGTACATTGGGCTACGATCGAGGTTACTGCGGATCA -CATCATGGGTTTTCTCGTTGGTATGAGTGATATAACACGGCACCTGCTGGGGATGCTGGGACGCATTGCCCATAAACGAG -AATACCGGCATTGGGTTATCGCCATGCTGTTGCGCCAGTACGCTAAAGTCGATGGTTCGAGCATCAATACGCGGTGGTGT -CCCGGTTTTCAGACGACCAACGCGCAGCGGCAGTTCACGCAAACGGCGAGAAAGCGGAATGGACGGCGGATCACCAGCAC -GGCCACCGCTGTAATTATCCAGACCGATATGAATTTTACCGTCGAGGAACGTCCCAACGGTGAGCACGACGGCTTTGGCA -CGGAACTTCAGTCCCATTTGGGTAACAGCACCGACCACGCGATCGTTTTCGACAATAAGATCTTCAACCGCCTGCTGGAA -GATCATCAGGTTCGGTTGGTTCTCCAGCGCCGTACGTACCGCCTGACGGTAGAGCACACGATCCGCCTGAGCTCGGGTAG -CGCGAACCGCCGGTCCTTTGCTTGCGTTTAGTATCCTAAACTGGATACCCGCCTGATCGATCGCTTTCGCCATCAGACCG -CCGAGTGCATCCACTTCTTTTACCAGATGTCCCTTCCCAATACCGCCGATCGCCGGGTTGCAGCTCATCTGCCCCAGAGT -GTCGATATTGTGTGTCAAAAGCAGAGTCTGTTGACCCATACGCGCCGCGGCCATCGCGGCCTCGGTGCCTGCATGACCCC -CGCCAATGATGATGACGTCAAAAGGATCCGGATAAAACATGGTGATTGCCTCGCATAACGCGGTATGAAAATGGATTGAA -GCCCGGGCCGTGGATTCTACTCAACTTTGTCGGCTTGAGAAAGACCTGGGATCCTGGGTATTAAAAAGAAGATCTATTTA -TTTAGAGATCTGTTCTATTGTGATCTCTTATTAGGATCGCACTGCCCTGTGGATAACAAGGATCCGGCTTTTAAGATCAA -CAACCTGGAAAGGATCATTAACTGTGAATGATCGGTGATCCTGGACCGTATAAGCTGGGATCAGAATGAGGGGTTATACA -CAACTCAAAAACTGAACAACAGTTGTTCTTTGGATAACTACCGGTTGATCCAAGCTTCCTGACAGAGTTATCCACAGTAG -ATCGCACGATCTGTATACTTATTTGAGTAAATTAACCCACGATCCCAGCCATTCTTCTGCCGGATCTTCCGGAATGTCGT -GATCAAGAATGTTGATCTTCAGTGTTTCGCCTGTCTGTTTTGCACCGGAATTTTTGAGTTCTGCCTCGAGTTTATCGATA -GCCCCACAAAAGGTGTCATATTCACGACTGCCAATACCGATTGCGCCAAAGCGGACTGCAGAAAGATCGGGCTTCTGTTC -CTGCAATGCTTCATAGAAAGGAGAAAGGTTGTCCGGAATATCTCCGGCACCGTGGGTGGAGCTGATAACCAGCCAGATCC -CTGAGGCAGGTAAATCTTCTAACAGCGGACCGTGCAGCGTTTCGGTGGTAAAACCCGCCTCTTCCAGCTTTTCAGCCAGG -TGTTCTGCTACATATTCGGCACCGCCGAGGGTGCTGCCGCTGATAAGAGTGATATCTGCCATAAACCGCCACCTTTATTA -AGAGTGGCGTATTGTACGCTGTGAACGCGTTGGGATCTACCTGTGGAAAAGTATGGGATTAAAAAAGCCGATCAGGGCTT -GATGGTACGCATGATCGGGTTTTGCAGGACGATCAATGTCTCGGTGGACTGAATTTCATCAATTGTTTGGATCTTGTTGA -TAAGTACATGCTGGAGAGCGTCGATCGAACGGCACATCACTTTTATAAAGATGCTGTAGTGGCCGGTTGTGTAATAGGCT -TCAGTGACTTCATCAAGGCTTTCCAGCTTTGCCAGCGCGGAAGGGTAGTCTTTGGCGCTCTTTAATATAATGCCGATAAA -GCAGCCTACGTCATAACCGAGCTGCTTCGGGCTGACATCAATACGCGCCCCGGTAATGATCCCCGCCTGCTTCATTTTCT -CTACTCGAACGTGAATCGTCCCCGGACTGACGCCAAATTGTTTCGCCAGTTCGGCGTAAGCGGTGCGCGCATTGCCCATT -AATGCTTCCAGGATGCCACGGTCCAGATTGTCGATCAGATAATTTTCCATAGGATTTTCTTATGCGGATTGATGATTCAT -TCTATTTTAGCCTTCTTTTTTAATGAATCAAAAGTGAGTTAGGCTTTTTATTGAATGATTATTGCATGTGTGTCGGTTTT -TGTTGCTTAATCATAAGCAACAGGACGCAGGAGTATAAAAAATGAAAACCGCTTACATTGCCAAACAACGTCAAATTAGC -TTCGTGAAATCTCACTTTTCTCGTCAACTGGAAGAACGTCTGGGGCTGATCGAAGTCCAGGCGCCGATTCTTAGCCGTGT -GGGGGATGGCACGCAGGATAACTTGTCGGGCTGTGAAAAAGCGGTGCAGGTAAAAGTGAAAGCTCTGCCTGATGCCCAGT -TCGAAGTGGTTCATTCACTGGCGAAGTGGAAACGTCAGACCTTAGGGCAACACGACTTCAGCGCGGGCGAAGGGCTGTAC -ACGCACATGAAAGCCCTTCGCCCCGATGAAGACCGTCTTTCTCCGTTGCACTCGGTCTATGTTGACCAGTGGGACTGGGA -ACGCGTAATGGGCGACGGTGAGCGTCAATTCTCGACTCTGAAAAGCACGGTAGAGGCGATCTGGGCGGGAATTAAAGCAA -CCGAAGCTGCGGTTAGCGAAGAGTTTGGCCTGGCACCGTTCCTGCCGGATCAGATCCACTTCGTACACAGCCAGGAGTTA -CTGTCTCGTTATCCGGATCTTGATGCCAAAGGGCGTGAGCGGGCGATAGCGAAAGATCTTGGCGCGGTATTCCTTGTCGG -GATTGGCGGCAAGCTGAGCGATGGTCATCGCCACGACGTGCGCGCACCGGATTATGATGACTGGAGCACCCCGTCAGAGC -TGGGCCATGCGGGTCTGAACGGCGATATTCTGGTGTGGAACCCGGTACTGGAAGATGCGTTTGAGCTTTCCTCCATGGGG -ATCCGTGTAGATGCCGACACGCTGAAGCATCAACTGGCGCTGACCGGTGACGAAGATCGCCTGGAGCTGGAGTGGCATCA -GGCGCTGCTGCGCGGTGAAATGCCGCAGACCATCGGCGGCGGTATCGGCCAGTCTCGTTTGACTATGCTGCTGCTGCAAC -TGCCGCATATCGGCCAGGTTCAGTGTGGAGTATGGCCAGCTGCTGTTCGCGAGAGCGTCCCTTCTCTGCTGTAATAATTT -ATCGCCGCCAGCGTCTGAGCAGGCGGCTTCGCATCCCGGTATCAAAGCGCCAGATATGATCGAAAATGCGCATGATGCCG -GGTTTGCCGTGTGCCGACATCGCCACGGCATGAAAGCGATGCTGATGTACCCGCTGCAGCTCTTTCACTTTACTCGTCAC -GTCGTCAGGCAACCGCTGAGCGATAAAATCAGAAATCACCACCGCATCGGCATCAAACCATTCCCTGCTTTGCAAGCGTT -CCATAATGGCGCGAAAACAACTGGCAAGATCGGTGCCGCCACGAAACTGCTGGCTTAAAAAACGGATTGCTTGTTCGATG -CCTTGTGGGCCTGAAAGCTCATAACGGACGATCTCGGTGGAAAATAGCATAATATAGCAGCGCCGGTTTTCTGCGAGAGC -AATGCGCATCAAGGCCAGGCAGAACGCTTTCGCACACTGTTCATTAAAGCCGCCCATTGAGCCGGAAGTATCCACACAGA -CAATAAACGGCCCGCGCGGCTGTTCATCGTAATCTTTATGTACCACCGGACGTTCGATCACTTTTTCACGCCACGACTCA -CCGTGCAGGCGATAGGTGAGCAACTGTTTTTCCACCAGCCGACGGTAAAACTCATACTCCAGTTCCGTTATCCCTAGTGT -CGCCAGTTCTGGCGGCAGGAGACGTAAAATATCATCGCTTTGTTGCAGACCATCAACCTGCTCAGGAACCGTCGCCGGTT -CGCGCACCATGGTGCGGAAGGTTTCCATCTGCGCATCGTTGCGCGGTATTGATTTGGCTTCCCGAGAACGCCCCAGCTGC -TCTGCCAGGCGTTTCAGTTCCGGCTGTTCGTTAAGAAATTCACCGTATTTCACAATCAACTGATAGTCGCCACGTTTAAG -CTGACCGGCGCTCATATCCCACAGACGACCAGCTGCAGTATTGTTATCTGCGAGAATCGGTTCAAGTTGTCCGCTCAGCG -TCATGCGTTCCTGAACTTCACTCAACAGTTGTTCGCGTTCTTCTTCTAATAGCTGTTGATTTAACGTCGTTGCTTGCACG -ATCAGACTTAAACGCCAACGCTGGAGAAAAAGCGTGTGTAACGCTGAAGTGATCGTGCTGTTAGCATCAACCAACTGTCG -GGCTTGTTCTGCCCATGGAGAATTCAGACGATGCAGTAAGTCCAGGATCTGTGGTAGCTGCACAATAAACTGTGGCGTGG -AGAGGAGCTGGCTTTGCTGATAGCACATCACCTCTTCGGTGAGTTCCGGCGGGACTCGGGCATCTTTCAGCCGACTGCGC -AGCGCTTCACGCCAGCGGGGAACATCATCAGTGATTGCCGCCTTCAGGCGTGGGAATTTTTCAAAGAAGACCGCCAGCTG -CGGTGAGGCCAGCAGTGCGATGATCATCTCTTCGATCAATCCCTCTTCGCTGACGGCCAGCATCACATTAAGCGTATCCA -GCGTTAGCATTGTTGTGCCTGGCGAATCTGTGCACCGACATCCTGTAGGCTGGCTTCAATGCGACCTAACCAGTCGCCAG -GGATAAACAGACATTTTTGCTGTTCGCTGAATAAAGCGTGTTGCTTGCGCCAGTCGCTTTCAAGCTCTTCCAGTTGTTGT -TTTATTTCACCAGGCAGACCTTCAGCCGATGAACCGGGAAGTGCCAGCGTACTGCCTTGTAAACTTACATCGCGAACGAC -AAGATGTTGGGCGCTATCAACTTCCAGATTCAGTTTCTGGGCAAAGCCGATACCGTTCAGTTTACCGCGAATTTCACCAC -CTTTGCTCAGCCACTGTTCCAGCGCGCTACGCTCAAAGGAGATATGAACCACTTCCATATCATGCAGTTTTAACGGTTTT -TGCAGCAGTAGAGTCAGAGTGGAAGCAGTAACGTTAACAGGAAGTTGATACTGCTGACGACGGCTGAAAATGCCGCCCAG -ACGAATTACCGTTAAGGCTGTTTTATCGCTTTGTTGCTGCTGGAGTTGCAGGTGACGTTGCACAATCGCGCCAAGGCGAG -TCAACATCCCTTGCTGTTGCCAGGCGTGACCGGTCATCAATACATCAATTTGTTGTTGTATCAAATTCAGGCTTTGCGCG -TCATACCACAGGCAATCTTTCAGCAAAATGAGATCTACCGGGGCAACAGCACTGCGACCGCTAAAAAAGGCGCTGGCCTG -CAATAATCGGATCGCTTTTTTCCAGCGACGATCCGAGACATAAGGCGCATCCGGTAATTTATCCAGTTGCTGGCGCAGCA -TAAAAATCAGCTCAAATACATGATCGGGCAGCGTAATTTCACCAATCTCTTTCTGCCAGCGTTCATATTCTTCATCTGTG -ACCTGCAAGGCATCAGGAACCGGATTGTCGTTTTCATCCTGTTGACTGGTCAGCATGGAGCGGAAATTCGCTTTATCCTG -CACTTTATCTAACCACAGACGAATCAGCATGCGGTCATATAACGCTTCCAGACTGCTGTCTGCTTCCGGCAGCTCGTTGG -AGGCCGCCACCAGCAGACGCATCGGGATTTTTTCTACGTGTGCACCGTTGCGGAACTGGCGCTCGTTAATGGCGGTGAGC -AAGGTATTAAGAATTGCCGGGCCCGCTTTCCAGATCTCATCCAGAAAGACAATTTCTGCTTCCGGCAGGTAACCGCTGGT -TAAACGTTCATAGCGCCCTTCATCTTTTAGCGCCTGAATAGAAAGGGGACCAAAAACTTCTTCCGGCGTGGAGAAGCGGG -TCATCAGATATTCAAACGCGCGGGCATTCTGAAAGGCGAATTTTAAGCGCCGGGCGATCAAACTTTTGGCAATACCTGGC -GGGCCAAGGAGGAACACACTTTCACCACTTAATGCCGCTAATAAACACAAGCGGATGGCGTGGCTACGTTCATAAAGCCC -CTTTTCCAACGAACTGCTCAGGCGGGAAATTCTTTTCGCTAATAAATGAGGGTGAGCCATAATGAAGTGGCGTCCTTTCG -TCAAAAGTTCTGCGTAAATTGCGAGTATAGACGTTTCTTGCTGGTGGCTAAAATAGTCTCAAAGGGGGGGTATTTTTCTT -TGAGCCAGGTTAATGTGGCCGCATTTAGGAGTACGATTTTGCCGTTAATCGTGCATACTGTGCGCTTTTTTGTGGGCCAA -GGGACTAAGCACACATTTCATATTTCAACGAAAGACTAGTCTATGAGCACTGATAATAAGCAATCATTGCCCGCGATTAC -CCTCGCGGCGATTGGAGTTGTCTACGGCGATATTGGTACCAGCCCGTTATATACACTTCGTGAATGTTTGTCCGGCCAGT -TTGGTTTTGGCGTTGAACGCGATGCCGTGTTTGGCTTTTTATCGCTGATCTTCTGGCTGCTAATCTTTGTGGTTTCCATT -AAATATCTCACCTTCGTGATGCGGGCAGATAACGCCGGTGAGGGGGGGATCCTGACGTTGATGTCGCTTGCCGGGCGTAA -TACGTCGGCGCGAACCACATCAATGCTGGTGATTATGGGGCTAATCGGCGGCAGCTTTTTCTATGGTGAAGTCGTCATAA -CACCCGCTATTTCGGTGATGTCAGCCATTGAAGGTCTGGAAATCGTCGCCCCGCAGCTGGATACCTGGATAGTTCCCCTC -TCAATTATCGTTCTCACTTTATTATTTATGATTCAAAAACATGGCACGGCTATGGTCGGTAAGCTGTTTGCGCCGATCAT -GCTGACCTGGTTTTTGATTCTGGCAGGACTGGGGTTACGTAGCATTATTGCTAACCCGGAAGTGCTGCATGCGCTGAATC -CAATGTGGGCGGTGCATTTCTTCCTTGAATACAAAACGGTTTCTTTTATTGCATTAGGGGCAGTGGTGTTGTCGATTACG -GGGGTCGAGGCGCTGTATGCTGATATGGGGCACTTTGGTAAGTTCCCTATTCGCCTGGCGTGGTTCACCGTCGTATTACC -TTCCTTGACCCTTAATTACTTCGGTCAGGGAGCGCTGTTGTTAAAGAACCCGGAAGCGATTAAGAACCCGTTCTTCCTGT -TGGCACCGGACTGGGCGCTGATCCCGCTGCTGATCATCGCCGCACTGGCGACGGTAATTGCCTCGCAGGCGGTTATCTCT -GGCGTCTTCTCATTGACGCGTCAGGCGGTACGTCTGGGATATTTGTCGCCGATGCGCATTATTCACACCTCCGAAATGGA -GTCAGGGCAAATCTATATTCCGTTTGTGAACTGGATGCTCTATGTCGCGGTCGTGATTGTGATTGTCAGCTTTGAGCACT -CCAGCAACCTGGCGGCGGCGTACGGGATTGCGGTGACCGGAACCATGGTGCTGACGTCTATTCTCTCGACTACCGTGGCA -CGTCAGAACTGGCACTGGAATAAGTATTTTGTTGCGCTGATCCTGATTGCTTTCCTTTGTGTCGATATTCCATTGTTCAC -CGCTAACCTCGATAAACTGCTCTCCGGCGGCTGGTTGCCATTGAGCCTCGGTACTGTGATGTTTATCGTGATGACCACCT -GGAAGAGCGAGCGTTTCCGCTTGCTGCGGCGGATGCATGAACATGGTAACTCTCTGGAAGCGATGATTGCTTCGCTGGAG -AAATCACCGCCTGTTCGCGTGCCCGGGACCGCGGTGTATATGTCGCGTGCAATCAACGTCATTCCCTTTGCGCTGATGCA -TAACCTTAAACATAACAAGGTATTGCATGAGCGGGTGATTCTGTTAACTCTGCGCACCGAAGACGCTCCATATGTCCATA -ACGTCCGTCGGGTACAGATTGAACAACTGTCGCCCACTTTCTGGCGCGTGGTGGCAAGTTATGGTTGGCGAGAAACGCCA -AACGTAGAAGAAGTTTTCCACCGCTGCGGTCTGGAAGGATTAAGTTGCCGGATGATGGAAACCTCCTTCTTTATGTCGCA -TGAGTCGTTGATCCTCGGCAAACGCCCGTGGTATTTGCGTCTGCGCGGCAAGCTGTACTTGCTGCTGCAACGTAATGCGC -TGCGTGCACCAGATCAATTTGAAATCCCGCCAAACAGGGTTATCGAACTGGGTACTCAGGTCGAAATCTAACGCCAGACG -CCTCCTTTCTTCATAAGGGGGCGTTTTTGTTTTCATGGTTAATCACCATGTAAAACGTTTCGAGGTTGATCACATTTCCG -TAACGTCACGATGGTTTTCCCAACTCAGTCAGGATTAAACTGTGGGTCAGCGAAACGTTTCGCTGATGGAGAAAAAAATG -AAAAAAGGCACCGTTCTTAATTCTGATATTTCATCGGTGATCTCCCGTCTGGGACATACCGATACGCTGGTGGTGTGTGA -TGCTGGTTTACCCATCCCCAAAAGTACAACGCGTATCGATATGGCATTAACCCAGGGTGTACCTTCTTTTATGCAGGTGC -TGGGCGTCGTCACAAATGAAATGCAGGTCGAGGCGGCCATTATCGCGGAAGAGATCAAACACCATAATCCGCAACTCCAC -GAAACGTTGCTCACTCACCTTGAGCAGCTGCAAAAACACCAGGGAAATACCATTGAAATTCGTTACACCACGCATGAACA -ATTCAAACAACAAACCGCAGAAAGTCAGGCGGTAATTCGCAGCGGAGAATGTTCTCCGTATGCGAATATCATTCTCTGTG -CTGGCGTGACGTTCTGAGGCCGTCATGGAAGCATTACTTCAGCTTAAAGGCATCGATAAAGCCTTCCCGGGCGTAAAAGC -CCTCTCGGGCGCAGCGTTAAATGTCTATCCGGGCCGCGTGATGGCGCTGGTGGGCGAAAACGGCGCGGGTAAATCCACCA -TGATGAAAGTGCTTACTGGCATCTATACTCGCGATGCCGGTACGCTTTTATGGCTGGGGAAAGAAACGACATTTACCGGG -CCAAAATCTTCCCAGGAAGCCGGGATTGGGATTATCCATCAGGAACTGAACCTGATCCCGCAGTTGACCATTGCCGAAAA -CATTTTCCTCGGTCGTGAGTTTGTTAATCGCTTTGGCAAAATTGACTGGAAAACCATGTATGCCGAAGCGGATAAATTGC -TGGCTAAACTTAACCTGCGCTTTAAAAGCGACAAGCTGGTGGGCGATCTTTCCATCGGTGACCAGCAAATGGTTGAAATC -GCCAAAGTGCTGAGCTTTGAGTCGAAAGTCATCATTATGGATGAACCGACCGATGCGCTGACCGATACCGAAACCGAATC -CCTGTTCCGCGTCATCCGCGAGCTGAAATCGCAAGGCCGCGGTATTGTCTATATCTCCCACCGCATGAAAGAAATCTTCG -AGATTTGCGATGACGTTACCGTTTTTCGTGATGGGCAATTTATTGCTGAGCGCGAAGTGGCATCACTGACCGAAGATTCG -CTGATTGAGATGATGGTGGGTCGCAAGCTGGAAGATCAATATCCGCACCTGGACAAAGCGCCGGGAGATATCCGCCTGAA -AGTCGATAATCTCTGCGGACCTGGCGTTAACGATGTCTCTTTTACTTTACGCAAAGGCGAAATTCTTGGCGTCTCTGGTT -TGATGGGCGCAGGTCGTACCGAACTGATGAAAGTGCTCTACGGCGCACTACCGCGCACCAGCGGTTACGTCACCCTGGAT -GGGCATGAAGTCGTTACCCGTTCACCGCAGGATGGCCTGGCAAACGGCATTGTGTATATCTCCGAAGACCGTAAACGTGA -CGGTTTAGTGTTGGGCATGTCAGTAAAAGAGAACATGTCGCTGACAGCGCTGCGCTACTTCAGCCGCGCTGGCGGCAGTT -TGAAGCATGCCGATGAACAGCAGGCTGTGAGTGATTTCATTCGTCTGTTTAATGTGAAAACTCCGTCGATGGAACAGGCA -ATTGGTCTGCTTTCCGGTGGCAATCAGCAAAAAGTGGCGATTGCCCGCGGTCTGATGACACGCCCCAAAGTGTTGATCCT -TGATGAACCTACCCGTGGCGTAGATGTCGGCGCGAAAAAAGAGATCTATCAACTGATTAACCAGTTCAAAGCCGATGGCT -TGAGCATCATTCTGGTGTCATCGGAGATGCCAGAAGTATTAGGCATGAGCGATCGCATCATCGTCATGCATGAAGGGCAT -CTCAGCGGGGAATTTACTCGTGAGCAGGCCACCCAGGAAGTGTTAATGGCTGCCGCTGTGGGCAAGCTTAATCGCGTGAA -TCAGGAGTAAAAAAATGACAACCCAGACTGTCTCTGGTCGCCGTTATTTCACGAAAGCGTGGCTGATGGAGCAGAAATCG -CTTATCGCTCTGCTGGTGCTGATCGCGATTGTCTCGACGTTAAGCCCGAACTTTTTCACCATCAATAACTTATTCAATAT -TCTCCAGCAAACCTCAGTGAACGCCATTATGGCGGTCGGGATGACGCTGGTGATCCTGACGTCGGGCATCGACTTATCGG -TAGGTTCTCTGTTGGCGCTGACCGGCGCAGTTGCTGCATCTATCGTCGGCATTGAAGTCAATGCGCTGGTGGCTGTCGCT -GCTGCTCTCGCGTTAGGTGCCGCAATTGGTGCGGTAACCGGGGTGATTGTAGCGAAAGGTCGCGTCCAGGCGTTTATCGC -TACGCTGGTTATGATGCTTTTACTGCGCGGCGTGACCATGGTTTATACCAACGGTAGCCCAGTGAATACCGGCTTTACTG -AGAACGCCGATCTGTTTGGCTGGTTTGGTATTGGTCGTCCGCTGGGCGTACCGACGCCAGTCTGGATCATGGGGATTGTC -TTCCTCGCGGCCTGGTACATGCTGCATCACACGCGTCTGGGGCGTTACATCTACGCGCTGGGCGGCAACGAAGCGGCAAC -GCGTCTTTCTGGTATCAACGTCAATAAAATCAAAATCATCGTCTATTCTCTTTGTGGTCTGCTGGCATCGCTGGCCGGGA -TCATTGAAGTGGCGCGTCTCTCCTCCGCACAACCCACGGCGGGGACTGGCTATGAGCTGGATGCTATTGCTGCGGTGGTT -CTGGGCGGTACGAGTCTGGCGGGCGGAAAAGGTCGCATTGTTGGGACGTTGATCGGCGCATTAATTCTTGGCTTCCTTAA -TAATGGATTGAATTTGTTAGGTGTTTCCTCCTATTACCAGATGATCGTCAAAGCGGTGGTGATTTTGCTGGCGGTGCTGG -TAGACAACAAAAAGCAGTAATAACGACTACAGGACATCTTGAATATGAACATGAAAAAACTGGCTACCCTGGTTTCCGCT -GTTGCGCTAAGCGCCACCGTCAGTGCGAATGCGATGGCAAAAGACACCATCGCGCTGGTGGTCTCCACGCTTAACAACCC -GTTCTTTGTATCGCTGAAAGATGGCGCGCAGAAAGAGGCGGATAAACTTGGCTATAACCTGGTGGTGCTGGACTCCCAGA -ACAACCCGGCGAAAGAGCTGGCGAACGTGCAGGACTTAACCGTTCGCGGCACAAAAATTCTGCTGATTAACCCGACCGAC -TCCGACGCAGTGGGTAATGCTGTGAAGATGGCTAACCAGGCGAACATCCCGGTTATCACTCTTGACCGCCAGGCAACGAA -AGGTGAAGTGGTGAGCCACATTGCTTCTGATAACGTACTGGGCGGCAAAATCGCTGGTGATTACATCGCGAAGAAAGCGG -GTGAAGGTGCCAAAGTTATCGAGCTGCAAGGCATTGCTGGTACATCCGCAGCCCGTGAACGTGGCGAAGGCTTCCAGCAG -GCCGTTGCTGCTCACAAGTTTAATGTTCTTGCCAGCCAGCCAGCAGATTTTGATCGCATTAAAGGTTTGAACGTAATGCA -GAACCTGTTGACCGCTCATCCGGATGTTCAGGCTGTATTCGCGCAGAATGATGAAATGGCGCTGGGCGCGCTGCGCGCAC -TGCAAACTGCCGGTAAATCGGATGTGATGGTCGTCGGATTTGACGGTACACCGGATGGCGAAAAAGCGGTGAATGATGGC -AAACTAGCAGCGACTATCGCTCAGCTACCCGATCAGATTGGCGCGAAAGGCGTCGAAACCGCAGATAAAGTGCTGAAAGG -CGAGAAAGTTCAGGCTAAGTATCCGGTTGATCTGAAACTGGTTGTTAAGCAGTAGTTTTAATCAGGTTGTATGACCTGAT -GGTGACATAAATACGTCATCGACAGATGAACGTGTAATATAAAGAAAAGCAGGGCACGCGCCACCCTAACACGGTGGCGC -ATTTTATGGACATCCCGAATATGCAAAACGCAGGCAGCCTCGTTGTTCTTGGCAGCATTAATGCTGACCACATTCTTAAT -CTTCAATCTTTTCCTACTCCAGGCGAAACCGTAACCGGTAACCACTATCAGGTTGCATTTGGCGGCAAAGGCGCGAATCA -GGCTGTGGCTGCTGGGCGTAGCGGTGCGAATATCGCGTTTATTGCCTGTACGGGTGATGACAGCATTGGTGAGAGCGTTC -GCCAGCAGCTCGCCACTGATAACATTGATATTACTCCGGTCAGCGTGATCAAAGGCGAATCAACAGGTGTGGCGCTGATT -TTTGTTAATGGCGAAGGTGAGAATGTCATCGGTATTCATGCCGGCGCTAATGCTGCCCTTTCCCCGGCGCTGGTGGAAGC -GCAACGTGAGCGTATTGCCAACGCGTCAGCATTATTAATGCAGCTGGAATCACCACTCGAAAGTGTGATGGCAGCGGCGA -AAATCGCCCATCAAAATAAGACTATCGTTGCGCTTAACCCGGCTCCGGCTCGCGAACTTCCTGACGAACTGCTGGCGCTG -GTGGACATTATTACGCCAAACGAAACGGAAGCAGAAAAGCTCACCGGTATTCGTGTTGAAAATGATGAAGATGCAGCGAA -GGCGGCGCAGGTACTGCATGAAAAAGGTATCCGTACTGTACTGATTACTTTAGGAAGTCGTGGTGTATGGGCTAGCGTGA -ATGGTGAAGGTCAGCGCGTTCCTGGATTCCGGGTGCAGGCTGTCGATACCATTGCTGCCGGAGATACCTTTAACGGTGCG -TTAATCACGGCATTGCTGGAAGAAAAACCATTGCCAGAGGCGATTCGTTTTGCCCATGCTGCCGCTGCGATTGCCGTAAC -ACGTAAAGGCGCACAACCTTCCGTACCGTGGCGTGAAGAGATCGACGCATTTTTAGACAGGCAGAGGTGACGCTTGGCTA -CAATGAAAGATGTTGCCCGCCTGGCGGGCGTTTCTACCTCAACAGTTTCTCACGTTATCAATAAAGATCGCTTCGTCAGT -GAAGCGATTACCGCCAAAGTTGAAGCGGCGATTAAAGAACTCAATTACGCGCCATCAGCTCTGGCGCGTAGCCTCAAACT -CAATCAAACACATACCATTGGCATGTTGATCACTGCCAGTACCAATCCTTTCTATTCAGAACTGGTGCGTGGCGTTGAAC -GCAGCTGCTTCGAACGCGGTTATAGTCTCGTCCTTTGCAATACCGAAGGCGATGAACAGCGGATGAATCGCAATCTGGAA -ACGCTGATGCAAAAACGCGTTGATGGCTTGCTGTTACTGTGCACCGAAACGCATCAACCTTCGCGTGAAATCATGCAACG -TTATCCGACAGTGCCTACTGTGATGATGGACTGGGCTCCGTTCGATGGCGACAGCGATCTTATTCAGGATAACTCGTTGC -TGGGCGGAGACTTAGCAACGCAATATCTGATCGATAAAGGTCATACCCGTATCGCCTGTATTACCGGCCCGCTGGATAAA -ACTCCGGCGCGCCTGCGGTTGGAAGGTTATCGGGCGGCGATGAAACGTGCGGGTCTCAACATTCCTGATGGCTATGAAGT -CACTGGTGATTTTGAATTTAACGGCGGGTTTGACGCTATGCGCCAACTGCTATCACATCCGCTGCGTCCTCAGGCCGTCT -TTACCGGAAATGACGCTATGGCTGTTGGCGTTTATGGATTTGCCCCTATATTTCCAGACATCTGTTATCACTTAACCCAT -TACAAGCCCGCTGCCGCAGATATTCCCGTGGCGAGCGATAACCCAGCGCACTATGCGGATGCCATTCGTTATAATGCTCG -AACGCCTCTGCAAGGTTCTTTGCTGCCGTTAACCCGTCTGGTTTGGGCATGATACTGATGTAGTCACGCTTTATCGTTTT -CACGAAGCTCTCTGCTATTCCGTTACTCTCCGGACTCCGCACCGCCGTGTTCTTCGGTTCAAGTCCCAACATCCGGGCGA -ACTGGCGTGTTTCATTAGCCCGGTAGCATGAACCATTATCCGTCAGCCACTCCACTGGAGACGACGGAAGATCGTTGCCG -AAGCGGCGTTCCACCGCTCCCAGCATGACGTCCTGTACTGTTTCACTGTTGAAGCCGCCGGTAGTGACCGCCCAGTGCAG -TGCCTCACGATCACAGCAGTCCAGCGCGAACGTGACACGCAGTCTCTCTCCGTTATCACAGCAGAACTCGAACCCGTCAG -AGCACCATCGCTGATTGCTTTCTTTCACGGCCACTCTGCCTGTATGTGCCCGTTTCGATGGCGGTACAGCAGGTTTTCGC -TCAAGCAACAGCGCATTCTGGCGCATGATCCGGTAAACACGTTTGGCATTGATCGCAGGCATACCATCAAGTTCTGCCTG -TCTGCGAAGCAGCGCCCATACCCGACGATAACCATACGTTGGCAGCTCTCCGATAACATGGTGTATACGGAGAAGCACAT -CCGTATCATCAGTGTGACGACTGCGGCGGCCATCCATCCAGTCATCGGTTCGTCTGAGAATGACGTGCAACTGCGCACGC -GACACCCGGAGACAACGGCTGACTAAGCTTACTCCCCATCCCCGGGCAATAAGGGCGCGTGCGCTATCCACTTTTTTGCC -CGTCCATATTCAACGGCTTCTTTGAGGAGTTCATTTTCCATCGTTTTCTTGCCGAGCAGGCGCTGGAGTTCTTTAATCTG -CTTCATGGCGGCAGCAAGTTCAGAGGCAGGAACAACCTGTTCTCCGGCGGCGACAGCAGTAAGACTTCCTTCCTGGTATT -GCTTACGCCAGAGAAATAACTGGCTGGCTGCTACACCATGTTGCCGGGCAACGAGGGAGACCGTCATCCCCGGTTCAAAG -CTCTGCTGAACAATTGCGATCTTTTCCTGTGTGGTACGCCGTCTGCGTTTCTCCGGCCCTAAGACATCAATCATCTGTTC -TCCAATGACTAGTCTAAAAACTAGTATTAAGACTATCACTTATTTAAGTGATATTGGTTGTCTGGAGATTCAGGGGGCCA -GTCTAGTTTACCAGGCGTTATATCAGGCAGAGTTACAGGTTCCGCAGGATATCGCGGTGATTGGCTATGACGATATCGAA -CTGGCAAGCTTTATGACGCCACCATTAACCACTATCCACCAACCGAAAGATGAACTGGGGGAGCTGGCGATTGATGTACT -CATCCATCGGATAACCCAGCCGACCCTTCAGCAACAACGATTACAACTTACTCCGATTCTGATGGAACGCGGTTCGGCTT -AGATTTACGCTGTCTTTTGATCAAATTATTACCATCGGTTGTTTTCAGAAGCATGAACATTGCTGCTGAAGCAACAGTAA -TAATGCCCATTGTGATAAACGTATAGTGGAATTGTTCGACAGTCGTTGTGCCTTCCATTCCTTCATAAACGCGAAGGACG -GCCGCACTTACAGCAACGCCTAAACTAATCGACAGTTGCTGCGTGACCGCCAGAACACTGTTACCGCTGCTGGCATTGTC -ATCGGTCAGATCGGCAAGTGTGATGGTATTCATCGCGGTAAACTGCGTCGACATAGCCATCCCTAATATAAACAACGGCA -AGATCAGCATCCATATAGCCATTGCTGGTGATTGCAAAGAGAACTGAGCGATCATTAGCCCAATAATCACCGTGATCCCC -ACTAACGTATGGCGATAGCCCAGACGACGTAAGACTTGGGTAACCATCGATTTTGCAATAATGGAACCTAACGCTGTCGG -TGCCATCATACAGCCAGCAATAAACGCCTGATAACCAAATCCTACCTGTAACATCAATGGCATAAGGAACGGTACACAGC -CGGTCCCCAGACGGGTTGCAATATTGCCTACGATACCGATCGAGAAAGTGCGGGTTTTAAATAAATCTAATGAAATTAAT -GGGTTTGGCGTGCGTCGTGCATGGAGAATATAGAGAAGCAGTAACCCGATGCTGGTGACAATTACCGTCAAGGCAATCCA -GCTGGCGACAATCTTTTCCCCGAATAGCTCTATTCCGCTTGAGAAGAGAACAAGGCTGAGGCCAAACAGCAAAAAGCCAG -TGATATCGAATCTGCGTCGTGCGGTGGTGAAATTGGGCATATGTTTGCGCGCGTAAAGAAGGCCCGCAATACCTATGGGG -ATATTGATTAAAAATATCCAGTGCCAGGTTGCCCAGGTGACCAGCACGCCGCCAAGAACGGGGCCTAAAATTGGCCCCAC -CAGACCCGGCATGGCGACAAAATTCAATACTGGAAGAAGTTCATTACGAGGATAAGCGCGCAGTAAGGCCAGCCGAGCAA -CAGGCATCATCATTGCGCCGCCTATCCCCTGAATAACCCGGAAGACAACCAGCTGTGGTAGCGAATTAGAAAGTGCGCAG -GCCAGAGAACCCAATGTGAACAGACTCACGGCAAGGGTAAAAATGCGACGCGTACCGAAGCGATCGGCTAGCCATCCGCT -TACCGGAATAAGCATCGCCACCGTCAGCGTATAACTGATGATGGCTGATTGCATCGCGAGAGGAGAACGATTAAGGCTAT -GAGCGATTGCGGGTAAGGCGGTATTAAGAATAGTGGCATCAAGTGCCTGCATGAAGAAGGCCATCGCCGCGATCCACGGC -AAACCCGCCATACTGCGCTTCTTTTTATCGCTCATTCAATGTCCTGTTATCGGGTTATCACTTATCAGGTGAGCGTAGCA -GCGCCTGACAAGCTTTAAATGCCGCGTCGCCATCGCTTTGGATAATCGCATCGACAATCGCCTGATGCAGATCCAGCTTT -ATCACTGTGTCGCTGGTAATTGACGTGAAGTAAGTGTGATAAACCGAATGGAATAGCGAGGCGAATGAGGTCAAAAACGG -ATTGGCGCTCATTTCATAGATATGCTCATGCCAGGCCATATCGACTTCGATCCAGCGTTCACGGCGAAAGTTCTCTTTTA -ATGCCGCCATTTCGGCCATTAACGTATTGAGATGCGCTTTCTGTTCCGCGGTGCCAACCGTTGCTGCCAGTAGGCAGGCT -TGCGGCTCCAGACAGATACGCATAACCAGAAAGTGATCGATGACCTGATGAAAGTTCTCTTCTGTCATCCACCAGGTAAG -CAATTCCTGATCAAGAAAATTCCAGTTCGATTGTGGCATGACCCGAGTACCAATTCGCGGTCGCGGTAAAACCATCCCTT -TTGCCGTTAACGTTTTGACCGCTTCGCGTACCGCTGTACGACTCACTCCAAATTGCTCGCCCAGCTCAATCTCACCGGGC -AAAATGGTGCCGGGTTCATATTCACCTTTTAAGATCCGTTGCGCCAGCTTCTCAGCCAGAACATACGAAAGGTTTTTCTG -TGCAGCTAACTGTTGTGCGCTTAAAGGCATTACTTATCTTCCTTTTTCTTTTTATTCCTCCTTAGTATGCCACCAGGAAG -TGTGATTACGGTTGCAAAAACGGCAAATTGCTTGTTTTATGGCACATTAACGGGGCTTTTGCTGAAAAAATGCGCGGTCA -GAAAATTATTTTAAATTTCCTCTTGTCAGGCCGGAATAACTCCCTATAATGCGCCACCACTGACACGGAACAACGGCAAA -CACGCCGCCGGGTCAGCGGGGTTCTCCTGAGAACTCCGGCAGAGAAAGCAAAAATAAATGCTTGACTCTGTAGCGGGAAA -GCGTATTATGCACACCCCGCGCCGCTGAGAAAAAGCAAAGCGGCACTGCTCTTTAACAATTTATCAGACAATCTGTGTGG -GCACTCGAAGATACGGATTCTTAACGTCGCAAGACGAAAAATGAATACCAAGTCTCAAGAGTGAACACGTAATTCATTAC -GAAGTTTAATTCTTTGAGCATCAAACTTTTAAATTGAAGAGTTTGATCATGGCTCAGATTGAACGCTGGCGGCAGGCCTA -ACACATGCAAGTCGAACGGTAACAGGAAACAGCTTGCTGTTTCGCTGACGAGTGGCGGACGGGTGAGTAATGTCTGGGAA -ACTGCCTGATGGAGGGGGATAACTACTGGAAACGGTAGCTAATACCGCATAACGTCGCAAGACCAAAGAGGGGGACCTTC -GGGCCTCTTGCCATCAGATGTGCCCAGATGGGATTAGCTAGTAGGTGGGGTAACGGCTCACCTAGGCGACGATCCCTAGC -TGGTCTGAGAGGATGACCAGCCACACTGGAACTGAGACACGGTCCAGACTCCTACGGGAGGCAGCAGTGGGGAATATTGC -ACAATGGGCGCAAGCCTGATGCAGCCATGCCGCGTGTATGAAGAAGGCCTTCGGGTTGTAAAGTACTTTCAGCGGGGAGG -AAGGGAGTAAAGTTAATACCTTTGCTCATTGACGTTACCCGCAGAAGAAGCACCGGCTAACTCCGTGCCAGCAGCCGCGG -TAATACGGAGGGTGCAAGCGTTAATCGGAATTACTGGGCGTAAAGCGCACGCAGGCGGTTTGTTAAGTCAGATGTGAAAT -CCCCGGGCTCAACCTGGGAACTGCATCTGATACTGGCAAGCTTGAGTCTCGTAGAGGGGGGTAGAATTCCAGGTGTAGCG -GTGAAATGCGTAGAGATCTGGAGGAATACCGGTGGCGAAGGCGGCCCCCTGGACGAAGACTGACGCTCAGGTGCGAAAGC -GTGGGGAGCAAACAGGATTAGATACCCTGGTAGTCCACGCCGTAAACGATGTCGACTTGGAGGTTGTGCCCTTGAGGCGT -GGCTTCCGGAGCTAACGCGTTAAGTCGACCGCCTGGGGAGTACGGCCGCAAGGTTAAAACTCAAATGAATTGACGGGGGC -CCGCACAAGCGGTGGAGCATGTGGTTTAATTCGATGCAACGCGAAGAACCTTACCTGGTCTTGACATCCACGGAAGTTTT -CAGAGATGAGAATGTGCCTTCGGGAACCGTGAGACAGGTGCTGCATGGCTGTCGTCAGCTCGTGTTGTGAAATGTTGGGT -TAAGTCCCGCAACGAGCGCAACCCTTATCCTTTGTTGCCAGCGGTCCGGCCGGGAACTCAAAGGAGACTGCCAGTGATAA -ACTGGAGGAAGGTGGGGATGACGTCAAGTCATCATGGCCCTTACGACCAGGGCTACACACGTGCTACAATGGCGCATACA -AAGAGAAGCGACCTCGCGAGAGCAAGCGGACCTCATAAAGTGCGTCGTAGTCCGGATTGGAGTCTGCAACTCGACTCCAT -GAAGTCGGAATCGCTAGTAATCGTGGATCAGAATGCCACGGTGAATACGTTCCCGGGCCTTGTACACACCGCCCGTCACA -CCATGGGAGTGGGTTGCAAAAGAAGTAGGTAGCTTAACCTTCGGGAGGGCGCTTACCACTTTGTGATTCATGACTGGGGT -GAAGTCGTAACAAGGTAACCGTAGGGGAACCTGCGGTTGGATCACCTCCTTACCTTAAAGAAGCGTTCTTTGCAGTGCTC -ACACAGATTGTCTGATAGGAAGTGAAAAGCAAGGCGTCTTGCGAAGCAGACTGATACGTCCCCTTCGTCTAGAGGCCCAG -GACACCGCCCTTTCACGGCGGTAACAGGGGTTCGAATCCCCTAGGGGACGCCACTTGCTGGTTTGTGAGTGAAAGTCACC -TGCCTTAATATCTCAAAACTCATCTTCGGGTGATGTTTGAGATATTTGCTCTTTAAAAATCTGGATCAAGCTGAAAATTG -AAACACTGAACAACGAAAGTTGTTCGTGAGTCTCTCAAATTTTCGCAACACGATGATGAATCGAAAGAAACATCTTCGGG -TTGTGAGGTTAAGCGACTAAGCGTACACGGTGGATGCCCTGGCAGTCAGAGGCGATGAAGGACGTGCTAATCTGCGATAA -GCGTCGGTAAGGTGATATGAACCGTTATAACCGGCGATTTCCGAATGGGGAAACCCAGTGTGTTTCGACACACTATCATT -AACTGAATCCATAGGTTAATGAGGCGAACCGGGGGAACTGAAACATCTAAGTACCCCGAGGAAAAGAAATCAACCGAGAT -TCCCCCAGTAGCGGCGAGCGAACGGGGAGCAGCCCAGAGCCTGAATCAGTATGTGTGTTAGTGGAAGCGTCTGGAAAGGC -GCGCGATACAGGGTGACAGCCCCGTACACAAAAATGCACATATTGTGAGCTCGATGAGTAGGGCGGGACACGTGGTATCC -TGTCTGAATATGGGGGGACCATCCTCCAAGGCTAAATACTCCTGACTGACCGATAGTGAACCAGTACCGTGAGGGAAAGG -CGAAAAGAACCCCGGCGAGGGGAGTGAAAAAGAACCTGAAACCGTGTACGTACAAGCAGTGGGAGCACGCTTAGGCGTGT -GACTGCGTACCTTTTGTATAATGGGTCAGCGACTTATATTCTGTAGCAAGGTTAACCGAATAGGGGAGCCGAAGGGAAAC -CGAGTCTTAACTGGGCGTTAAGTTGCAGGGTATAGACCCGAAACCCGGTGATCTAGCCATGGGCAGGTTGAAGGTTGGGT -AACACTAACTGGAGGACCGAACCGACTAATGTTGAAAAATTAGCGGATGACTTGTGGCTGGGGGTGAAAGGCCAATCAAA -CCGGGAGATAGCTGGTTCTCCCCGAAAGCTATTTAGGTAGCGCCTCGTGAATTCATCTCCGGGGGTAGAGCACTGTTTCG -GCAAGGGGGTCATCCCGACTTACCAACCCGATGCAAACTGCGAATACCGGAGAATGTTATCACGGGAGACACACGGCGGG -TGCTAACGTCCGTCGTGAAGAGGGAAACAACCCAGACCGCCAGCTAAGGTCCCAAAGTCATGGTTAAGTGGGAAACGATG -TGGGAAGGCCCAGACAGCCAGGATGTTGGCTTAGAAGCAGCCATCATTTAAAGAAAGCGTAATAGCTCACTGGTCGAGTC -GGCCTGCGCGGAAGATGTAACGGGGCTAAACCATGCACCGAAGCTGCGGCAGCGACGCTTATGCGTTGTTGGGTAGGGGA -GCGTTCTGTAAGCCTGCGAAGGTGTGCTGTGAGGCATGCTGGAGGTATCAGAAGTGCGAATGCTGACATAAGTAACGATA -AAGCGGGTGAAAAGCCCGCTCGCCGGAAGACCAAGGGTTCCTGTCCAACGTTAATCGGGGCAGGGTGAGTCGACCCCTAA -GGCGAGGCCGAAAGGCGTAGTCGATGGGAAACAGGTTAATATTCCTGTACTTGGTGTTACTGCGAAGGGGGGACGGAGAA -GGCTATGTTGGCCGGGCGACGGTTGTCCCGGTTTAAGCGTGTAGGCTGGTTTTCCAGGCAAATCCGGAAAATCAAGGCTG -AGGCGTGATGACGAGGCACTACGGTGCTGAAGCAACAAATGCCCTGCTTCCAGGAAAAGCCTCTAAGCATCAGGTAACAT -CAAATCGTACCCCAAACCGACACAGGTGGTCAGGTAGAGAATACCAAGGCGCTTGAGAGAACTCGGGTGAAGGAACTAGG -CAAAATGGTGCCGTAACTTCGGGAGAAGGCACGCTGATATGTAGGTGAAGCGACTTGCTCGTGGAGCTGAAATCAGTCGA -AGATACCAGCTGGCTGCAACTGTTTATTAAAAACACAGCACTGTGCAAACACGAAAGTGGACGTATACGGTGTGACGCCT -GCCCGGTGCCGGAAGGTTAATTGATGGGGTCAGCGCAAGCGAAGCTCTTGATCGAAGCCCCGGTAAACGGCGGCCGTAAC -TATAACGGTCCTAAGGTAGCGAAATTCCTTGTCGGGTAAGTTCCGACCTGCACGAATGGCGTAATGATGGCCAGGCTGTC -TCCACCCGAGACTCAGTGAAATTGAACTCGCTGTGAAGATGCAGTGTACCCGCGGCAAGACGGAAAGACCCCGTGAACCT -TTACTATAGCTTGACACTGAACATTGAGCCTTGATGTGTAGGATAGGTGGGAGGCTTTGAAGTGTGGACGCCAGTCTGCA -TGGAGCCGACCTTGAAATACCACCCTTTAATGTTTGATGTTCTAACGTGGACCCGTGATCCGGGTTGCGGACAGTGTCTG -GTGGGTAGTTTGACTGGGGCGGTCTCCTCCTAAAGAGTAACGGAGGAGCACGAAGGTTGGCTAATCCTGGTCGGACATCA -GGAGGTTAGTGCAATGGCATAAGCCAGCTTGACTGCGAGCGTGACGGCGCGAGCAGGTGCGAAAGCAGGTCATAGTGATC -CGGTGGTTCTGAATGGAAGGGCCATCGCTCAACGGATAAAAGGTACTCCGGGGATAACAGGCTGATACCGCCCAAGAGTT -CATATCGACGGCGGTGTTTGGCACCTCGATGTCGGCTCATCACATCCTGGAGCTGAAGTAGGTCCCAAGGGTATGGCTGT -TCGCCATTTAAAGTGGTACGCGAGCTGGGTTTAGAACGTCGTGAGACAGTTCGGTCCCTATCTGCCGTGGGCGCTGGAGA -ACTGAGGGGGGCTGCTCCTAGTACGAGAGGACCGGAGTGGACGCATCACTGGTGTTCGGGTTGTCATGCCAATGGCACTG -CCCGGTAGCTAAATGCGGAAGAGATAAGTGCTGAAAGCATCTAAGCACGAAACTTGCCCCGAGATGAGTTCTCCCTGACT -CCTTGAGAGTCCTGAAGGAACGTTGAAGACGACGACGTTGATAGGCCGGGTGTGTAAGCGCAGCGATGCGTTGAGCTAAC -CGGTACTAATGAACCGTGAGGCTTAACCTTACAACGCCGAAGATGTTTTGGCGGATGAGAGAAGATTTTCAGCCTGATAC -AGATTAAATCAGAACGCAGAAGCGGTCTGATGAAACAGAATTTGCCTGGCGGCCGTAGCGCGGTGGTCCCACCTGACCCC -ATGCCGAACTCAGAAGTGAAACGCCGTAGCGCCGATGGTAGTGTGGGGTCTCCCCATGCGAGAGTAGGGAACTGCCAGGC -ATCAAATTAAGCAGTAAGCCGGTCATAAAACCGGTGGTTGTAAAAGAATTCGGTGGAGCGGTAGTTCAGTCGGTTAGAAT -ACCTGCCTGTCACGCAGGGGGTCGCGGGTTCGAGTCCCGTCCGTTCCGCCACCCTAATTAGGGGCGTAGTTCAATTGGTA -GAGCACCGGTCTCCAAAACCGGGTGTTGGGAGTTCGAGTCTCTCCGCCCCTGCCAGAAATCATCCTTAGCGAAAGCTAAG -GATTTTTTTTATCTGAAATAACCCTCTCCGAAGTAAATCCTTCTACCGGCATCCTTGCCAGCCATTCATATTAATACACT -TCATCCAGCACGTTAATTTTCAAAAGATCGCGAATCAACGCATTTTTATCGCTATTTTGCAGCCATATGGCATAAAGCGG -CCGTGAAAGTGTTGTGCTATCGACAACGGTATGCAGGCCGCCTTTTTTACGCGCCCAGCTGACGGGTAGCCAGGTGCAAC -CATTAAGCATCGCAATCTGTTGCTGTGCCAGTTCAGCAGAACTGGTTGTCAGAATGGGCACTTCGTCAGCACCGATCAAA -CCTGCCTCATGCTGTTGAAAATCTGGCCCCCACTCAAGTCGCAGATAATTAAGATCTCCCTTTAGTTTTGAAGGGGCACT -GGTATAAAGCGCTAAAGTGAAATATCCCAGCAACTGACTACTAAATTCGTCCATTTTGGGCGCTTCAGTGGTAATAAGAA -GATCAAGCTGGCGTTCATGCAGCTGTTTTACCAGAGACTGCCGTTGGGCAATTCGCGCTTCGAACTGTAAGCCTGTATGG -GCATCCTGATTTTGATACAAGCGTCCCAGCCACTGATTAAGCATACATTCCCACAACGAGGCGCTGGCACCGATAGAAAA -CTCGTTATGTCGTGAGGTATGCGCCACCTCCTTACGGGCGGCCTGCCAGGTGCTCATGAGCGTTTCTGCATAAGGCAGTA -GTTTTTCACCGGCAGCGGTTAAACGGATATTGTTTCTGTGGCGGGTGAAAAGGTTCACACCCAGTTGATTTTCCAGTTGT -CTGATTCGAAAGCTCACTGCTGACTGGGTCAGATAGAGCGATTCAGCCGCTCGACCAAAGTGACGCGTTCGGCTAACTTC -CAGGAAAGTTTTTAACAATTCCGTATCCACAGTGCTCTCCGCAAAATTATTTGTCGTTATGATTTAAATGTTTTGTTTTA -CACTCTGTCAAGCGTAACTAATACTCCGCGCCATAACTAGCTCGGTCAAAGAATTAGGAGCGTGCAGGATGGCGGAAAGC -TTTACGACGACTAATCGATATTTCGACAATAAACATTATCCACGTGGATTCTCTCGTCATGGTGATTTCACCATCAAAGA -GGCACAACTGCTTGAGCGTCATGGTTATGCCTTCAATGAGTTGGATCTTGGCAAACGCGAGCCGGTTACCGAGGAAGAGA -AACTCTTCGTAGCAGTATGCCGTGGCGAACGTGAGCCAGTGACAGAAGCAGAACGCGTGTGGTCCAAGTATATGACGCGT -ATTAAGCGTCCAAAACGTTTTCACACCCTTTCCGGCGGTAAACCGCAGGTTGAAGGTGCTGAAGACTACACCGATTCTGA -CGATTAATAAAAAGGGCGAAATGCCCTTTTTTTATGTCAGTAGTTTCTGCAGATGGATGAGCAAACGGTCAATCGCTCGA -TAGCTAACTGCCTCCTGCAAATGCTGACGTGTGATAATGTCAGACTGATCAATATCAGCAATGGTTCGTGCAACTTTCAA -TAACCGCTGCCAGGCACGAATCGATAACCCCAGATGGATCAGTGTTCCTTCCAACCACATCGCATCTTCGCTCTCAAGTT -TGCAGAATTGGCGTATTTCCGGACTATCCAGCCAGGCATTCAGTTTATTCTGCCGCTTAAATTGGCGCTCTCTGGCGGCC -ATTACGCGTTGTTTAACGGTGGCGCTGCTTTCTCCCGGCACTACCGTTTTACTCAAAATGCCGGGGGGTGGTAATGGGAT -CTCCAGTGAGAGATCGAAGCGGTCGAGAAAGGGCCCCGAGAGCCGGTTGAGATAACGTAATGTCTGTTCTGGCGTGCAGC -GGTTATGGTTTCCCTGATAATGTCCGGTAGGGCTGGGATTCATCGCCGCAACAAGCTGGAAACGGGCTGGATAGGTTATT -TTTGCTCGTGTGCGTGAAAGATGGATCTGCCCGGATTCAATCGGCTCTCGCAAGGCATCCAGTGTACGCCGTTCAAATTC -AGGTAGCTCATCAAGAAAAAGCACGCCGTTATGCGCCAGCGAAATTTCACCGGGCCCTGGAATTGCGCCACCGCCTACCA -TCGCAGTTAACGATGCACTGTGATGAGGTGAGCGGAACGGGCGCTGCCGCCATTGTTTTTGTACTGATTCAGCATTTACC -AGACTTAATATCGCAGCACTCTCCAGTGCCTCTTCATTGCTTAAATCTGGCAACAGGCCATTAATACGGCTGGCGAGCAT -TGTTTTACCTGTTCCCGGCGGCCCAATCAGTAAAAGGTTGTGCCCGCCAGCAGCGGTAATTTCCAGTCCTCGCTTTCCTT -GTTCCTGACCGATAACATCACTGAGATCATGTTGTAGCGCCCGGGATACTGCATCAGTTGGTTTCGGGCGTTCGAGAGCG -TGCTTACCTTCCAGAAACGCACAGACAGCTTGCAGATGATCGGCTATCAGGCATCCTTCACCGTTAATTAGCCCCACTTC -ATCTTCGTTATCTTTCGCGACGATAATTTTTCTGCCCGACTTAATAGCTTCAGTTGCACTGGAGATTGCGCCGGGAACGC -CACGCAGAGCGCCTGTAAGCGCCAGTTCTCCGACTAATTCATATTCATCTAACTTATTGGCTGTAAGCTGTTCTGAGGCC -GCCAGCAACGCAATGGCGATAGGTAAATCATATCGTCCCCCTTCTTTTGGCAGATCAGCTGGAGCCAGGTTGATGGTGAT -TTTTTTCGCCGGATATTCATATCCGCTATTGATAATGGCGCTGCGCACGCGATCGCGAGCTTCTTTTACCGTTGTTTCTG -GTAAGCCCACCATCGTTAAGCCGGGTAGACCTTTACTGATATGTACCTCAACAGTGATCGGGGGCGCATTTACTCCCAGG -GCTGCGCGGGTATGAACAATTGACAGTGACATAAGCCCTCCTTGAGTCACCATTATGTGCATAAGATATCGCTGCTGTAG -CCCGCTAATTCGTGAATTTTAGTGGCTGATTCCTGTTTATTTGTGCAAGTGAAGTTGAGTTGTTCTGGCGGTGGAATGAT -GCTCGCAAAAATGCAGCGGACAAAGGATGAACTACGAGGAAGGGAACAACATTCATACTGAAATTGAATTTTTTTCACTC -ACTATTTTATTTTTAAAAAACAACAATTTATATTGAAATTATTAAACGCATCATAAAAATCGGCCAAAAAATATCTTGTA -CTATTTACAAAACCTATGGTAACTCTTTAGGCATTCCTTCGAACAAGATGCAAGAAAAGACAAAATGACAGCCCTTCTAC -GAGTGATTAGCCTGGTCGTGATTAGCGTGGTGGTGATTATTATCCCACCGTGCGGGGCTGCACTTGGACGAGGAAAGGCT -TAGAGATCAAGCCTTAACGAACTAAGACCCCCGCACCGAAAGGTCCGGGGGTTTTTTTTGACCTTAAAAACATAACCGAG -GAGCAGACAATGAATAACAGCACAAAATTCTGTTTCTCAAGATTCAGGACGGGGAACTAACTATGAATGGCGCACAGTGG -GTGGTACATGCGTTGCGGGCACAGGGTGTGAACACCGTTTTCGGTTATCCGGGTGGCGCAATTATGCCGGTTTACGATGC -ATTGTATGACGGCGGCGTGGAGCACTTGCTATGCCGACATGAGCAGGGTGCGGCAATGGCGGCTATCGGTTATGCTCGTG -CTACCGGCAAAACTGGCGTATGTATCGCCACGTCTGGTCCGGGCGCAACCAACCTGATAACCGGGCTTGCGGACGCACTG -TTAGATTCCATCCCTGTTGTTGCCATCACCGGTCAAGTGTCCGCACCGTTTATCGGCACTGACGCATTTCAGGAAGTGGA -TGTCCTGGGATTGTCGTTAGCCTGTACCAAGCACAGCTTTCTGGTGCAGTCGCTGGAAGAGTTGCCGCGCATCATGGCTG -AAGCATTCGACGTTGCCTGCTCAGGTCGTCCTGGTCCGGTTCTGGTCGATATCCCAAAAGATATCCAGTTAGCCAGCGGT -GACCTGGAACCGTGGTTCACCACCGTTGAAAACGAAGTGACTTTCCCACATGCCGAAGTTGAGCAAGCGCGCCAGATGCT -GGCAAAAGCGCAAAAACCGATGCTGTACGTTGGCGGTGGCGTGGGTATGGCGCAGGCAGTTCCGGCTTTGCGTGAATTTC -TCGCTGCCACAAAAATGCCTGCCACCTGTACGCTGAAAGGGCTGGGCGCAGTAGAAGCAGATTATCCGTACTATCTGGGC -ATGCTGGGGATGCACGGCACCAAAGCGGCAAACTTCGCGGTGCAGGAGTGTGACCTGCTGATCGCCGTGGGCGCACGTTT -TGATGACCGGGTGACCGGCAAACTGAACACCTTCGCGCCACACGCCAGTGTTATCCATATGGATATCGACCCGGCAGAAA -TGAACAAGCTGCGTCAGGCACATGTGGCATTACAAGGTGATTTAAATGCTCTGTTACCAGCATTACAGCAGCCGTTAAAT -CAATGACTGGCAGCAACACTGCGCGCAGCTGCGTGATGAACATTCCTGGCGTTACGACCATCCCGGTGACGCTATCTACG -CGCCGTTGTTGTTAAAACAACTGTCGGATCGTAAACCTGCGGATTGCGTCGTGACCACAGATGTGGGGCAGCACCAGATG -TGGGCTGCGCAGCACATCGCCCACACTCGCCCGGAAAATTTCATCACCTCCAGCGGTTTAGGTACCATGGGTTTTGGTTT -ACCGGCGGCGGTTGGCGCACAAGTCGCGCGACCGAACGATACCGTTGTCTGTATCTCCGGTGACGGCTCTTTCATGATGA -ATGTGCAAGAGCTGGGCACCGTAAAACGCAAGCAGTTACCGTTGAAAATCGTCTTACTCGATAACCAACGGTTAGGGATG -GTTCGACAATGGCAGCAACTGTTTTTTCAGGAACGATACAGCGAAACCACCCTTACTGATAACCCCGATTTCCTCATGTT -AGCCAGCGCCTTCGGCATCCATGGCCAACACATCACCCGGAAAGACCAGGTTGAAGCGGCACTCGACACCATGCTGAACA -GTGATGGGCCATACCTGCTTCATGTCTCAATCGACGAACTTGAGAACGTCTGGCCGCTGGTGCCGCCTGGCGCCAGTAAT -TCAGAAATGTTGGAGAAATTATCATGATGCAACATCAGGTCAATGTATCGGCTCGCTTCAATCCAGAAACCTTAGAACGT -GTTTTACGCGTGGTGCGTCATCGTGGTTTCCACGTCTGCTCAATGAATATGGCCGCCGCCAGCGATGCACAAAATATAAA -TATCGAATTGACCGTTGCCAGCCCACGGTCGGTCGACTTACTGTTTAGTCAGTTAAATAAACTGGTGGACGTCGCACACG -TTGCCATCTGCCAGAGCACAACCACATCACAACAAATCCGCGCCTGAGCGCAAAAGGAATATAAAAATGACCACGAAGAA -AGCTGATTACATTTGGTTCAATGGGGAGATGGTTCGCTGGGAAGACGCGAAGGTGCATGTGATGTCGCACGCGCTGCACT -ATGGCACTTCGGTTTTTGAAGGCATCCGTTGCTACGACTCGCACAAAGGACCGGTTGTATTCCGCCATCGTGAGCATATG -CAGCGTCTGCATGACTCCGCCAAAATCTATCGCTTCCCGGTTTCGCAGAGCATTGATGAGCTGATGGAAGCTTGTCGTGA -CGTGATCCGCAAAAACAATCTCACCAGCGCCTATATCCGTCCGCTGATCTTCGTCGGTGATGTTGGCATGGGAGTAAACC -CGCCAGCGGGATACTCAACCGACGTGATTATCGCTGCTTTCCCGTGGGGAGCGTATCTGGGCGCAGAAGCGCTGGAGCAG -GGGATCGATGCGATGGTTTCCTCCTGGAACCGCGCAGCACCAAACACCATCCCGACGGCGGCAAAAGCCGGTGGTAACTA -CCTCTCTTCCCTGCTGGTGGGTAGCGAAGCGCGCCGCCACGGTTATCAGGAAGGTATCGCGCTGGATGTGAACGGTTATA -TCTCTGAAGGCGCAGGCGAAAACCTGTTTGAAGTGAAAGATGGTGTGCTGTTCACCCCACCGTTCACCTCCTCCGCGCTG -CCGGGTATTACCCGTGATGCCATCATCAAACTGGCGAAAGAGCTGGGAATTGAAGTACGTGAGCAGGTGCTGTCGCGCGA -ATCCCTGTACCTGGCGGATGAAGTGTTTATGTCCGGTACGGCGGCAGAAATCACGCCAGTGCGCAGCGTAGACGGTATTC -AGGTTGGCGAAGGCCGTTGTGGCCCGGTTACCAAACGCATTCAGCAAGCCTTCTTCGGCCTCTTCACTGGCGAAACCGAA -GATAAATGGGGCTGGTTAGATCAAGTTAATCAATAAATACAAAAAATGGGACGGCACGCACCGTCCCATTTACGAGACAG -ACACTGGGAGTAAATAAAGTATGCCTAAGTACCGTTCCGCCACCACCACTCATGGTCGTAATATGGCGGGTGCTCGTGCG -CTGTGGCGCGCCACCGGAATGACCGACGCCGATTTCGGTAAGCCGATTATCGCGGTTGTGAACTCGTTCACCCAATTTGT -ACCGGGTCACGTCCATCTGCGCGATCTCGGTAAACTGGTCGCCGAACAAATTGAAGCGGCTGGCGGCGTTGCCAAAGAGT -TCAACACCATTGCGGTGGATGATGGGATTGCCATGGGCCACGGGGGGATGCTTTATTCACTGCCATCTCGCGAACTGATC -GCTGATTCCGTTGAGTATATGGTCAACGCCCACTGCGCCGACGCCATGGTCTGCATCTCTAACTGCGACAAAATCACCCC -GGGGATGCTGATGGCTTCCCTGCGCCTGAATATTCCGGTGATCTTTGTTTCCGGCGGCCCGATGGAGGCCGGGAAAACCA -AACTTTCCGATCAGATCATCAAGCTCGATCTGGTTGATGCGATGATCCAGGGCGCAGACCCGAAAGTATCTGACTCCCAG -AGCGATCAGGTTGAACGTTCCGCGTGTCCGACCTGCGGTTCCTGCTCCGGGATGTTTACCGCTAACTCAATGAACTGCCT -GACCGAAGCGCTGGGCCTGTCGCAGCCGGGCAACGGCTCGCTGCTGGCAACCCACGCCGACCGTAAGCAGCTGTTCCTTA -ATGCTGGTAAACGCATTGTTGAATTGACCAAACGTTATTACGAGCAAAACGACGAAAGTGCACTGCCGCGTAATATCGCC -AGTAAGGCGGCGTTTGAAAACGCCATGACGCTGGATATCGCGATGGGTGGATCGACTAACACCGTACTTCACCTGCTGGC -GGCGGCGCAGGAAGCGGAAATCGACTTCACCATGAGTGATATCGATAAGCTTTCCCGCAAGGTTCCACAGCTGTGTAAAG -TTGCGCCGAGCACCCAGAAATACCATATGGAAGATGTTCACCGTGCTGGTGGTGTTATCGGTATTCTCGGCGAACTGGAT -CGCGCGGGGTTACTGAACCGTGATGTGAAAAACGTACTTGGCCTGACGTTGCCGCAAACGCTGGAACAATACGACGTTAT -GCTGACCCAGGATGACGCGGTAAAAAATATGTTCCGCGCAGGTCCTGCAGGCATTCGTACCACACAGGCATTCTCGCAAG -ATTGCCGTTGGGATACGCTGGACGACGATCGCGCCAATGGCTGTATCCGCTCGCTGGAACACGCCTACAGCAAAGACGGC -GGCCTGGCGGTGCTCTACGGTAACTTTGCGGAAAACGGCTGCATCGTGAAAACGGCAGGCGTCGATGACAGCATCCTCAA -ATTCACCGGCCCGGCGAAAGTGTACGAAAGCCAGGACGATGCGGTAGAAGCGATTCTCGGCGGTAAAGTTGTCGCCGGAG -ATGTGGTAGTAATTCGCTATGAAGGCCCGAAAGGCGGTCCGGGGATGCAGGAAATGCTCTACCCAACCAGCTTCCTGAAA -TCAATGGGTCTCGGCAAAGCCTGTGCGCTGATCACCGACGGTCGTTTCTCTGGTGGCACCTCTGGTCTTTCCATCGGCCA -CGTCTCACCGGAAGCGGCAAGCGGCGGCAGCATTGGCCTGATTGAAGATGGTGACCTGATCGCTATCGACATCCCGAACC -GTGGCATTCAGTTACAGGTAAGCGATGCCGAACTGGCGGCGCGTCGTGAAGCGCAGGACGCTCGAGGTGACAAAGCCTGG -ACGCCGAAAAATCGTGAACGTCAGGTCTCCTTTGCCCTGCGTGCTTATGCCAGCCTGGCAACCAGCGCCGACAAAGGCGC -GGTGCGTGATAAATCGAAACTGGGGGGTTAATAATGGCTGACTCGCAACCCCTGTCCGGTGCTCCGGAAGGTGCCGAATA -TTTAAGAGCAGTGCTGCGCGCGCCGGTTTACGAGGCGGCGCAGGTTACGCCGCTACAAAAAATGGAAAAACTGTCGTCGC -GTCTTGATAACGTCATTCTGGTGAAGCGCGAAGATCGCCAGCCAGTGCACAGCTTTAAGCTGCGCGGCGCATACGCCATG -ATGGCGGGCCTGACGGAAGAACAGAAAGCGCACGGCGTGATCACTGCTTCTGCGGGTAACCACGCGCAGGGCGTCGCGTT -TTCTTCTGCGCGGTTAGGCGTGAAGGCCCTGATCGTTATGCCAACCGCCACCGCCGACATCAAAGTCGACGCGGTGCGCG -GCTTCGGCGGCGAAGTGCTGCTCCACGGCGCGAACTTTGATGAAGCGAAAGCCAAAGCGATCGAACTGTCACAGCAGCAG -GGGTTCACCTGGGTGCCGCCGTTCGACCATCCGATGGTGATTGCCGGGCAAGGCACGCTGGCGCTGGAACTGCTCCAGCA -GGACGCCCATCTCGACCGCGTATTTGTGCCAGTCGGCGGCGGCGGTCTGGCTGCTGGCGTGGCGGTGCTGATCAAACAAC -TGATGCCGCAAATCAAAGTGATCGCCGTAGAAGCGGAAGACTCCGCCTGCCTGAAAGCAGCGCTGGATGCGGGTCATCCG -GTTGATCTGCCGCGCGTAGGGCTATTTGCTGAAGGCGTAGCGGTAAAACGCATCGGTGACGAAACCTTCCGTTTATGCCA -GGAGTATCTCGACGACATCATCACCGTCGATAGCGATGCGATCTGTGCGGCGATGAAGGATTTATTCGAAGATGTGCGCG -CGGTGGCGGAACCCTCTGGCGCGCTGGCGCTGGCGGGAATGAAAAAATATATCGCCCTGCACAACATTCGCGGCGAACGG -CTGGCGCATATTCTTTCCGGTGCCAACGTGAACTTCCACGGCCTGCGCTACGTCTCAGAACGCTGCGAACTGGGCGAACA -GCGTGAAGCGTTGTTGGCGGTGACCATTCCGGAAGAAAAAGGCAGCTTCCTCAAATTCTGCCAACTGCTTGGCGGGCGTT -CGGTCACCGAGTTCAACTACCGTTTTGCCGATGCCAAAAACGCCTGCATCTTTGTCGGTGTGCGCCTGAGCCGCGGCCTC -GAAGAGCGCAAAGAAATTTTGCAGATGCTCAACGACGGCGGCTACAGCGTGGTTGATCTCTCCGACGACGAAATGGCGAA -GCTACACGTGCGCTATATGGTCGGCGGACGTCCATCGCATCCGTTGCAGGAACGCCTCTACAGCTTCGAATTCCCGGAAT -CACCGGGCGCGCTGCTGCGCTTCCTCAACACGCTGGGTACGTACTGGAACATTTCTTTGTTCCACTATCGCAGCCATGGC -ACCGACTACGGGCGCGTACTGGCGGCGTTCGAACTTGGCGACCATGAACCGGATTTCGAAACCCGGCTGAATGAGCTGGG -CTACGATTGCCACGACGAAACCAATAACCCGGCGTTCAGGTTCTTTTTGGCGGGTTAGGGAAAAATGCCTGATAGCGCTT -CGCTTATCAGGCCTACCCGCGCGACAACGTCATTTGTGGTTCGGCAAAATCTTCCAGAATGCCTCAATTAGCGGCTCATG -TAGCCGCTTTTTCTGCGCACACACGCCCAGCTCAAACGGCGTTTTCTCATCGCTGCGCTCTAAAATCATCACGCGGTTAC -GCACCGGTTCGGGGCTGTTTTCCAGCACCACTTCCGGCAACAATGCCACGCCACAGCCGAGTGCCACCATCGATACCATC -GCTTCATGCCCGCCAACCGTGGCGTAAATCATCGGGTTACTGATTTTATTGCGTCGAAACCACAGTTCAATGCGGCGGCG -TACCGGCCCCTGATCGGCCATAATAAACGGCACCGTTGACCAGTCCGGCTTCTCTACCGACACCTGATTACGCACCGGGC -AGGGCAGCGCGGGGGCAATCAGCACTACTGCCAGATTCTCCAGCATCGAAAACGCCACTGCGCCGGGCAAGGTTTCCGGT -TTACCCGCAATCGCCAGATCCGCTTCACCAGTGACCACCTTTTCCATCGCATCTGCCGCATCACCAGTAGTAAGTTTAAT -CTCCACCGACGGGTGTTCCGCGCGGAAGCGATCCAGAATCGGCGGCAGATGGCTGTAGGCAGCGGTCACCGAGCAGAAGA -TATGTAATTCGCCAGAGAGCGACGGCCCTTGCTGATCGATGGTGTGGCGCAACTGCTGATACTGCAACAGCGTTTGCTGG -GCGAAAACGCGCAGCTCTTCGCCCGCTTCAGTCAGCGTCACCGTGCGGTTATCGCGCACAAACAGCGGCTGACCGAGATC -TTCTTCCAGGCGCTGAATCTGCCGTGAGAGCGTGGATGGGCTAACGTGCATCGCCCGCGCGCTGCGGCCAAAATGGCGGC -TTTCCGCCAGATGCAGGAAGGTTTTCAGATCGCGTAAATCCACAGGGACAGCCCTCGATGTTGACGTTGCAAAAATTGCA -ATGTGACGTTGTGAATATATCAATTTCCGCAATAAATTTCCTGTCATATAGTGAATTCAATCTCGCAAACGCGAACCGAA -CAATAAGAAGCACAACATCACGAGGAATCACCATGGCTAACTACTTCAATACACTGAATCTGCGCCAGCAGCTGGCACAG -CTGGGCAAATGTCGCTTTATGGGCCGCGATGAATTCGCCGATGGCGCGAGCTACCTTCAGGGTAAAAAAGTAGTCATCGT -CGGCTGTGGCGCACAGGGTCTGAACCAGGGCCTGAACATGCGTGATTCTGGTCTCGATATCTCCTACGCTCTGCGTAAAG -AAGCGATTGCCGAGAAGCGCGCGTCCTGGCGTAAAGCGACCGAAAATGGTTTTAAAGTGGGTACTTACGAAGAACTGATC -CCACAGGCGGATCTGGTGATTAACCTGACGCCGGACAAGCAGCACTCTGATGTAGTGCGCACCGTACAGCCACTGATGAA -AGACGGCGCGGCGCTGGGCTACTCGCACGGTTTCAACATCGTCGAAGTGGGCGAGCAGATCCGTAAAGATATCACCGTAG -TGATGGTTGCGCCGAAATGCCCAGGCACCGAAGTGCGTGAAGAGTACAAACGTGGGTTCGGCGTACCGACGCTGATTGCC -GTTCACCCGGAAAACGATCCGAAAGGCGAAGGCATGGCGATTGCCAAAGCCTGGGCGGCTGCAACCGGTGGTCACCGTGC -GGGTGTGCTGGAATCGTCCTTCGTTGCGGAAGTGAAATCTGACCTGATGGGCGAGCAAACCATCCTGTGCGGTATGTTGC -AGGCTGGCTCTCTGCTGTGCTTCGACAAGCTGGTGGAAGAAGGTACCGATCCAGCATACGCAGAAAAACTGATTCAGTTC -GGTTGGGAAACCATCACCGAAGCACTGAAACAGGGCGGCATCACCCTGATGATGGACCGTCTCTCTAACCCGGCGAAACT -GCGTGCTTATGCGCTTTCTGAACAGCTGAAAGAGATCATGGCACCCCTGTTCCAGAAACATATGGACGACATCATCTCCG -GCGAATTCTCTTCCGGTATGATGGCGGACTGGGCCAACGATGATAAGAAACTGCTGACCTGGCGTGAAGAGACCGGCAAA -ACCGCGTTTGAAACCGCGCCGCAGTATGAAGGCAAAATCGGCGAGCAGGAGTACTTCGATAAAGGCGTACTGATGATTGC -GATGGTGAAAGCGGGCGTTGAACTGGCGTTCGAAACCATGGTCGATTCCGGCATCATTGAAGAGTCTGCATATTATGAAT -CACTGCACGAGCTGCCGCTGATTGCCAACACCATCGCCCGTAAGCGTCTGTACGAAATGAACGTGGTTATCTCTGATACC -GCTGAGTACGGTAACTATCTGTTCTCTTACGCTTGTGTGCCGTTGCTGAAACCGTTTATGGCAGAGCTGCAACCGGGCGA -CCTGGGTAAAGCTATTCCGGAAGGCGCGGTAGATAACGGGCAACTGCGTGATGTGAACGAAGCGATTCGCAGCCATGCGA -TTGAGCAGGTAGGTAAGAAACTGCGCGGCTATATGACAGATATGAAACGTATTGCTGTTGCGGGTTAAGTGCGCGCTGAT -GCCCTCACCCCGACCCTCTCCCACAGGGAGAGGGAGAAAACACTCAAGGCCTTCTCCTGGAGAAGGCCTTGCTATTAGTT -GCGGTACAGCACCTTAATGATGTGATATCCGAACTGGGTGTGCAGCGGGCCGGTCGGCTCCAGTACCGGACAAGAGAAAA -CCACTTTATCGAACGCCGGAACCATCTGACCCTGGCGGAATTCACCTAAATCACCGCCGCGTTTGCCTGATGGGCAAATG -GAGTGTTTCTTCGCCAGCTTGCCGAAATCGGCCCCGTTCTTAATCTGCTCGAGAAGATCCAGAGCCAGTTTCTCTTCTTT -TACAAGGATATGCAGTGCTGCTGCTGTTTTTGCCATGATCGTGCCTTGAGTGAATAATTGTCAGGCGGCGATTTTAGCAT -GATCCGCAGATGCTAACGTAATTGTCAGTCAGGGAGTGGCTGGTACATATATGGCAAAAGCCCGGAAAATCCGGGCTTCG -CAGGTCCCTCAAGGGGAGAAAACTTAGGGCCTCTATGGGCTACAAAGTCATTATCGGGGATGGTTATTTTATTGTCAATT -TATGAGCGATATGGCATTGATTGACTTGATGACCGCCCTCTGTATGTCTGCAACCAACTCATGTGGCAAACATTGATTAA -GATACCCTCTGTAAGTCCTTGCTCTGTTTAATCTGTTTCGACTGACTTGTTGTACCAGGTCGGCTTTGGCCCAACGAATC -TGCTGATCAAAGAATTGCAGGTCATTGATAACATTACTGGCTATTTCAACATGCATTCCACGTTTTAACTTGTCTGGTCG -CGAGTGGTTGATAATGGAACGACGATGCATGCGTTGCCATTAATTTTTCCGTTGAGCACGACAACTAACCTGTTTTTTAT -CATTTCAGGAGGAATGCGGCCATCGTAATACGTCGTGCTGAACGGTCCATTTTGGCTAACAGGATAGTTACCAAAGTTGC -ATTCCAGTATTTCACCAACCTTAGGGCTGAAATTAATCGCCACGAGTAAACCTCTCCTTAGTAAACTCTGAAAAAGTAAT -AACACAACGTTACGACCCGATATTTTCTAAGTCTAATGGATTCACGATGAACTCCGATTTCGGTCTTCTCTCTCTGATTT -AAACATCCGCAGCCAACCGGTTAGCGGCTTACACGCGGTCACATTCAAATGCGATTCTGCTACAATCCTCCCCCCGTTCG -AAGATTGAGCAATACACCTATGCGTCTAAACCCCGGCCAACAACAAGCTGTCGAATTCGTTACCGGCCCCTGCCTGGTGC -TGGCGGGCGCGGGTTCCGGTAAAACTCGTGTTATCACCAATAAAATCGCCCATCTGATCCGCGGTTGCGGTTATCAGGCG -CGGCACATTGCGGCGGTGACCTTTACTAATAAAGCAGCGCGCGAGATGAAAGAGCGTGTAGGGCAGACGCTGGGGCGCAA -AGAGGCGCGTGGGCTGATGATCTCCACTTTCCATACGTTGGGGCTGGATATCATCAAACGCGAGTATGCGGCGCTTGGGA -TGAAAGCGAACTTCTCGTTGTTTGACGATACCGATCAGCTTGCTTTGCTTAAAGAGTTGACCGAGGGGCTGATTGAAGAT -GACAAAGTTCTCCTGCAACAACTGATTTCGACCATCTCTAACTGGAAGAATGATCTCAAAACACCGTCCCAGGCGGCAGC -AAGTGCGATTGGCGAGCGGGACCGTATTTTTGCCCATTGTTATGGGCTGTATGATGCACACCTGAAAGCCTGTAACGTTC -TCGACTTCGATGATCTGATTTTATTGCCGACGTTGCTGCTGCAACGCAATGAAGAAGTCCGCAAGCGCTGGCAGAACAAA -ATTCGCTATCTGCTGGTGGATGAGTATCAGGACACCAACACCAGCCAGTATGAGCTGGTGAAACTGCTGGTGGGCAGCCG -CGCGCGCTTTACCGTGGTGGGTGACGATGACCAGTCGATCTACTCCTGGCGCGGTGCACGTCCGCAAAACCTGGTGCTGC -TGAGTCAGGATTTTCCGGCGCTGAAGGTGATTAAGCTTGAGCAGAACTATCGCTCTTCCGGGCGTATTCTGAAAGCGGCG -AACATCCTGATCGCCAATAACCCGCACGTCTTTGAAAAGCGTCTGTTCTCCGAACTGGGTTATGGCGCGGAGCTAAAAGT -ATTAAGCGCGAATAACGAAGAACATGAGGCTGAGCGCGTTACTGGCGAGCTGATCGCCCATCACTTCGTCAATAAAACGC -AGTACAAAGATTACGCCATTCTTTATCGCGGTAACCATCAGTCGCGGGTGTTTGAAAAATTCCTGATGCAAAACCGCATC -CCGTACAAAATATCTGGTGGTACGTCGTTTTTCTCTCGTCCTGAAATCAAGGACTTGCTGGCTTATCTGCGCGTGCTGAC -TAACCCGGACGATGACAGCGCATTTCTGCGTATCGTTAACACGCCGAAGCGAGAGATTGGCCCGGCTACGCTGAAAAAGC -TGGGTGAGTGGGCGATGACGCGCAATAAAAGCATGTTTACCGCCAGCTTTGATATGGGCCTGAGTCAGACGCTTAGCGGA -CGTGGTTATGAAGCATTGACCCGCTTCACTCACTGGTTGGCAGAAATCCAGCGTCTGGCGGAGCGGGAGCCGATTGCCGC -GGTGCGTGATCTGATCCATGGCATGGATTATGAATCCTGGCTGTACGAAACATCGCCCAGCCCGAAAGCCGCCGAAATGC -GCATGAAGAACGTCAACCAACTGTTTAGCTGGATGACGGAGATGCTGGAAGGCAGTGAACTGGATGAGCCGATGACGCTC -ACCCAGGTGGTGACGCGCTTTACTTTGCGCGACATGATGGAGCGTGGTGAGAGTGAAGAAGAGCTGGATCAGGTGCAACT -GATGACTCTCCACGCGTCGAAAGGGCTGGAGTTTCCTTATGTCTACATGGTCGGTATGGAAGAAGGGTTTTTGCCGCACC -AGAGCAGCATCGATGAAGATAATATCGATGAGGAGCGGCGGCTGGCCTATGTCGGCATTACCCGCGCCCAGAAGGAATTG -ACCTTTACGCTGTGTAAAGAACGCCGTCAGTACGGCGAACTGGTGCGCCCGGAGCCGAGCCGCTTTTTGCTGGAGCTGCC -GCAGGATGATCTGATTTGGGAACAGGAGCGCAAAGTGGTCAGCGCCGAAGAACGGATGCAGAAAGGGCAAAGCCATCTGG -CGAATCTGAAAGCGATGATGGCGGCAAAACGAGGGAAATAATCAAGGCCGGAAAAGATGCGTCAGCATCGCATCCGGCAC -TTACTCATTAATGCACTTCCAGCGGCCAGTGGACATAGCTCTGCCACTGGCTTTCCTGAGCAATAATCTCTTTACCCAGC -GGATGTTGGGTTAGCCAACCTTGCGGAAGCGTCAAGGTCAACAGTTCATGGTTAGCCTGTAATGTCATCTCTGGCACGAG -ATCGTCACGGCGACGGCTGGCAAAAATGATGGCCAGGCGTAGTAAACGGCAGAGTTGTTCTGCGACGCGCGGCGGTACGG -CATTTTGCTGATGCAGCGATGAGAGATCGACCGGATTAGTCTGGTTGAGCAGTAGCGTCGCCAGCAATTTTTTCTGTGCG -GGGGTAAAACCGGGAAGATCCAGATTACGCACCAGATAAGCAGCGTGTTGCGGCGCTTGTTTGAAGTCAACGCTCAGGCC -GATTTCATGAAGCTGACAGGCGCTGATGAGCAAATCGCGGCTTATTGCTTCAAGATGCCATTCGTTTTCCACCTGATCGA -AGAAGTTAGCCGCAACTTTGGCTACGCGCTGTGCCTGATCAATATCGATCATAAAGCGGCGTTGAATATTACGCAGCGTA -CGGCTGCGAATATCCTGCTCGACGGCCAGATGCAACATGCCGTAGACCAGGCCTTCACGCAGCGCACCGCCCGCCAGGGT -CATACACTGAATATTCAGTTCGGTAAAAATGGCGATCAGGATCGCCAGACCACTCGGGAACACTAACGCACGTTCCAGCG -TCAGCCCGTCAATCTCCAGTTCCTCCAGCCGACCGCAATGAATGGCTCGCTGTTTCAATTGCTGCAACTTTTCCAGGGTA -ATGCGTTCATCCATCCCCTGTGCCATCATGATTTCCTGTAACGCCTGCACGGTGCCGGAAGCACCAACGCACACTTTCCA -GCCGTGATACCGTAATTCATCGGCAACCGGACGTAACACTTCGCGTGCCGCTTTTTCTGCAGCATCAAAATTTTCCTGCC -CCAGATTACGATCGGCAAAATAGCGTTCCAGCCAGGTGACGCAGCCCATCGACAGGCTGAACAACGAGGTGGTTTGTGCA -CCCGTGCCGGTTACCAGTTCAGTACTGGCTCCGCCTATATCCACCACCAGGCGCTGATCGGCACCACCAGTGGTGTGAGC -AACGCCCTGATAAATCAGACGTGCTTCCTCTTCACCGCTGATCACCTGTACCGGACAACCGAGAATTTCCTGCGCTTTGG -CAATAAAATCACCCGCATTGACGGCAAGGCGTAACGTCGCCGTAGCGACAACGCGAATTTGCGAGGGAGGAATATCTTGC -AGACGTTCAGCAAACAGGCGCAAACATTGCCAACCGCGCTCCATTGCTTCATTGGAGAGGGCATTTTCGCTATTCAGGCC -AGCAGCCAGACGCACTTTGCGTTTTATTCGCGTCAGCGTCTGGATGCTTCCAGCCACCTCGCGCACAACCAGCATATGAA -AACTATTCGAACCGAGATCAATGGCTGCATACAGCGACGAGGTGGAACCCATACTCTTCATCCTTCAATCTGTCTCTGTG -TTGGCTGCATTCTTTCACCTGAATCACTTACTACAGTAAGCTCATCGGGATTCATTCTCTTGCCATCTTGATACAGTTTG -AATGATTTTGAGTATGACATTTTTTATTTAACCTGAACGACGACGATTACGCGGAGCGCCAGTACGACGCGGACCATTGC -CTGTGCGCGGGCGCGTGAGGCGCAGCGGTTTTGGCAGATCGGTCATCAATGCGTCCGGATTGTATTTGCTTACCGGAATT -GAGTGACCAATATAGGTCTCAATAGCAGGCAAATTCAATGCATACTCTTCACACGCCAGGCTGATAGAGTGACCGCTTGC -GCCTGCGCGACCTGTACGACCAATACGGTGAACGTAATCTTCACAGTCATCGGGTAAATCGTAGTTAAAGACGTGCGTCA -CTGCCGGAATATGCAAACCACGCGCGGCAACGTCGGTGGCAACCAGAATATCCAGATCGCCACGGGTAAATTCATCAAGA -ATACGCAGACGTTTTTTCTGCGCGACATCGCCTGTCAATAAACCGACACGATGACCATCTGCTGCCAGGTGGCCCCAGAT -CTCTTCACAACGGTGTTTGGTGTTGGCGAAAATAATCGCTCTGTCTGGCCACTCTTCTTCGATCAGCGTTTGCAGCAAAC -GCATTTTTTCTTCGTTAGAAGGGTAGAAAAGCTCTTCTTTAATACGGTGGCCCGTTTTCTGTTCCGGTTCCACTTCAATA -TATTCGGCATTGTTCATCTGCTCGAACGCCAGTTCACGTACCCGGTACGAAAGCGTGGCGGAGAACAGCATGTTGAGGCG -CTGGTTTGCAGGCGGCATACGGCGGAACAGCCAGCGGATATCTTTAATAAAGCCCAGATCGTACATGCGATCGGCTTCGT -CCAGTACCACCACCTGAATGGCACCGAGGTTAATGTGGTTCTGCTTGGCGTAGTCAATTAAACGCCCCGTGGTGCCAATC -AGAATGTCAACGCCGCTTTCCAGCACTTTCAGCTGTTTGTCGTAGCCATCACCACCGTAAGCCAGACCCAGCTTCAGGCC -AGTAGCTTCCGCCAGCGGTTCTGCGTCGGCATGGATCTGCACGGCAAGTTCACGCGTCGGTGCCATAATTAAGGCACGCG -GCTGATTCACCTTGCGATCGGCAATCGCAGGATGAGAGAGAAGATAATGAAACGTTGACGTAAGAAACGCCATCGTTTTC -CCGGTACCGGTTTGCGCCTGCCCGGCTACGTCACGACCCGCCAGCGTCAGCGGAAGGGCCAGTGCCTGAATGGGCGTACA -GTTATGAAACCCTTTTTTTTCAAGGGCTTCTACAACCTTCGGATGCAGGGCGAAGTCGGAAAACTTCTGTTCTGTTAAAT -GTGTTTTGCTCATAGTGTGGTAGAATATCAGCTTACTATTGCTTTACGAAAGCGTATCCGGTGAAATAAAGTCAACCTTT -AGTTGGTTAATGTTACACCAACAACGAAACCAACACGCCAGGCTTATTCCTGTGGAGTTATATATGAGCGATAAAATTAT -TCACCTGACTGACGACAGTTTTGACACGGATGTACTCAAAGCGGACGGGGCGATCCTCGTCGATTTCTGGGCAGAGTGGT -GCGGTCCGTGCAAAATGATCGCCCCGATTCTGGATGAAATCGCTGACGAATATCAGGGCAAACTGACCGTTGCAAAACTG -AACATCGATCAAAACCCTGGCACTGCGCCGAAATATGGCATCCGTGGTATCCCGACTCTGCTGCTGTTCAAAAACGGTGA -AGTGGCGGCAACCAAAGTGGGTGCACTGTCTAAAGGTCAGTTGAAAGAGTTCCTCGACGCTAACCTGGCGTAAGGGAATT -TCATGTTCGGGTGCCCCGTCGCTAAAAACTGGACGCCCGGCGTGAGTCATGCTAACTTAGTGTTGACTTCGTATTAAACA -TACCTTATTAAGTTTGAATCTTGTAATTTCCAACGCTTCCCGTTTTATCTTAAATGCGAAGTGAACAGATTTCTGGCTCG -TCACTCAATCCGTCTTGTCGTTTCAGTTCTGCGTACTCTCCTGTGACCAGGCAGCGAAAAGACATGAGTCGATGACCGTA -AACAGGCATGGATGATCCTGCCATACCATTCACAACATTAAGTTCGAGATTTACCCCAAGTTTAAGAACTCACACCACTA -TGAATCTTACCGAATTAAAGAATACGCCGGTTTCTGAGCTGATCACTCTCGGCGAAAATATGGGGCTGGAAAACCTGGCT -CGTATGCGTAAGCAGGACATTATTTTTGCCATCCTGAAGCAGCACGCAAAGAGTGGCGAAGATATCTTTGGTGATGGCGT -ACTGGAGATATTGCAGGATGGATTTGGTTTCCTCCGTTCCGCAGACAGCTCCTACCTCGCCGGTCCTGATGACATCTACG -TTTCCCCTAGCCAAATCCGCCGTTTCAACCTCCGCACTGGTGATACCATCTCTGGTAAGATTCGCCCGCCGAAAGAAGGT -GAACGCTATTTTGCGCTGCTGAAAGTTAACGAAGTTAACTTCGACAAACCTGAAAACGCCCGCAACAAAATCCTCTTTGA -GAACTTAACCCCGCTGCACGCAAACTCTCGTCTGCGTATGGAACGTGGTAACGGTTCTACTGAAGATTTAACTGCTCGCG -TACTGGATCTGGCATCACCTATCGGTCGTGGTCAGCGTGGTCTGATTGTGGCACCGCCGAAAGCCGGTAAAACCATGCTG -CTGCAGAACATTGCTCAGAGCATTGCTTACAACCACCCGGATTGTGTGCTGATGGTTCTGCTGATCGACGAACGTCCGGA -AGAAGTAACCGAGATGCAGCGTCTGGTAAAAGGTGAAGTTGTTGCTTCTACCTTTGACGAACCCGCATCTCGCCACGTTC -AGGTTGCGGAAATGGTGATCGAGAAGGCCAAACGCCTGGTTGAGCACAAGAAAGACGTTATCATTCTGCTCGACTCCATC -ACTCGTCTGGCGCGCGCTTACAACACCGTTGTTCCGGCGTCAGGTAAAGTGTTGACCGGTGGTGTGGATGCCAACGCCCT -GCATCGTCCGAAACGCTTCTTTGGTGCGGCGCGTAACGTGGAAGAGGGCGGCAGCCTGACCATTATCGCGACGGCGCTTA -TCGATACCGGTTCTAAAATGGACGAAGTTATCTACGAAGAGTTTAAAGGTACAGGCAACATGGAACTGCACCTCTCTCGT -AAGATCGCTGAAAAACGCGTCTTCCCGGCTATCGACTACAACCGTTCTGGTACCCGTAAAGAAGAGCTGCTCACGACTCA -GGAAGAACTGCAGAAAATGTGGATCCTGCGCAAAATCATTCACCCGATGGGCGAAATCGATGCAATGGAATTCCTCATTA -ATAAACTGGCAATGACCAAGACCAATGACGATTTCTTCGAAATGATGAAACGCTCATAAATTTGTCTTATGCCAAAAACG -CCACGTGTTTACGTGGCGTTTTGCTTTTATATCTGTAATCTTAATGCCGCGCTGGCGATGTTAGGAAAATTCCTGGAATT -TGCTGGCATGTTATGCAATTTGCATATCAAATGGTTAATTTTTGCACAGGACTGGTGGGTTTGGAACGGACTTTCCCTTC -TGAATAAAGGTCTTCGTGGTTATACTTCTGCTAATAATTTTCTCTGAGAGCATGCATTGTGAATTTACTGACAGTGAGTA -CTGATCTCATCAGTATTTTTTTATTCACGACACTGTTTCTGTTTTTTGCCCGTAAGGTGGCAAAAAAAGTCGGTTTAGTG -GATAAACCAAACTTCCGCAAACGTCACCAGGGATTGATACCTCTCGTTGGGGGGATTTCGGTTTACGCAGGGATTTGCTT -CACGTTCGGAATTGTCGATTACTATATTCCGCATGCATCTCTCTATCTCGCTTGTGCCGGTGTGCTTGTTTTCATTGGCG -CGCTGGATGACCGTTTTGATATCAGCGTAAAAATCCGTGCCACCATACAGGCCGCTGTTGGCATTGTTATGATGGTGTTC -GGCAAGCTTTATCTCAGTAGCCTGGGTTATATCTTTGGCTCCTGGGAGATGGTGCTCGGACCGTTTGGTTACTTCCTGAC -GCTATTTGCCGTCTGGGCGGCCATTAATGCGTTCAACATGGTTGATGGCATTGATGGCTTGCTGGGCGGGTTGTCCTGCG -TCTCGTTTGCAGCAATCGGTATGATTTTGTGGTTCGACGGGCAAACCAGCCTCGCAATCTGGTGCTTTGCGATGATCGCC -GCCATCCTGCCATACATCATGCTTAACCTTGGTATCCTGGGTCGCCGCTACAAAGTCTTTATGGGTGATGCGGGCAGTAC -GCTGATTGGTTTTACCGTTATCTGGATCCTGCTCGAAACGACCCAGGGCAAAACCCATCCCATCAGCCCGGTTACCGCTT -TGTGGATAATCGCCATTCCGCTAATGGATATGGTGGCGATTATGTACCGTCGCCTGCGTAAAGGCATGAGCCCATTCTCT -CCTGACCGTCAGCATATTCACCATTTGATCATGCGTGCCGGGTTTACTTCCCGTCAGGCGTTTGTGCTGATTACCCTTGC -CGCAGCACTGCTCGCTTCCATTGGCGTGCTGGCAGAATATTCTCATTTTGTCCCGGAGTGGGTCATGCTGGTGCTCTTTT -TGCTAGCATTCTTCCTCTATGGATATTGCATTAAGCGTGCCTGGAAAGTTGCTCGCTTTATTAAGCGCGTAAAACGCAGA -CTGCGTAGAAATCGTGGTGGCAGCCCCAATTTAACCAAATAAATGAGGATGTGATGACACAACCAATGCCTGGGAAACCG -GCCGAAGACGCTGAAAATGAACTGGATATTCGTGGGTTGTTTCGTACCTTGTGGGCTGGGAAGCTATGGATTATTGGCAT -GGGGCTGGCGTTTGCGTTAATCGCGCTGGCGTATACGTTTTTTGCTCGTCAGGAGTGGAGCTCGACGGCGATTACCGATC -GTCCAACGGTGAATATGCTGGGGGGATATTACTCGCAGCAGCAATTTTTGCGTAACCTGGATGTCCGTTCAAACATGGCT -TCTGCCGACCAACCATCGGTCATGGACGAAGCCTATAAAGAGTTTGTTATGCAACTGGCCTCGTGGGATACCCGCAGAGA -GTTCTGGCTGCAAACCGACTATTACAAACAGCGGATGGTGGGCAACAGCAAAGCCGATGCGGCGTTGCTGGATGAAATGA -TTAACAACATCCAGTTTATCCCCGGAGACTTTACCCGCGCGGTCAATGACAGCGTGAAGCTTATTGCCGAAACCGCGCCT -GACGCTAATAACCTGTTACGTCAGTATGTTGCTTTTGCCAGCCAGCGTGCAGCCAGCCATCTGAATGATGAGCTGAAAGG -CGCATGGGCGGCGCGTACCATCCAGATGAAAGCTCAGGTGAAGCGTCAGGAAGAGGTGGCGAAAGCCATCTACGACCGCC -GGATGAACAGCATTGAGCAGGCGCTGAAAATTGCTGAGCAGCATAATATTTCGCGCAGTGCGACAGATGTACCTGCCGAG -GAATTACCTGATTCAGAAATGTTCCTGCTTGGGCGTCCAATGCTTCAGGCTCGACTGGAAAATTTACAGGCCGTCGGTCC -GGCCTTTGATCTCGACTATGATCAGAATCGGGCCATGTTAAACACCCTGAATGTTGGTCCAACCCTGGATCCGCGTTTTC -AGACCTATCGCTATTTGCGTACGCCGGAAGAACCGGTAAAACGCGATAGCCCACGTCGTGCCTTCCTGATGATTATGTGG -GGCATTGTCGGGGGGCTGATCGGGGCTGGTGTCGCATTAACCCGCCGTTGCTCGAAATAGCAACACTGCTGCGGTGAGCG -CAAAGGCGCTCGCCGCTTATTCGAAGAGAATCGATGTGAAAGTACTGACTGTATTTGGTACGCGCCCGGAAGCCATCAAG -ATGGCGCCGTTGGTGCATGCGTTGGCAAAAGATCCTTTTTTTGAGGCTAAAGTTTGCGTCACTGCGCAGCATCGGGAGAT -GCTCGATCAGGTGCTGAAACTCTTTTCCATTGTACCTGACTACGATCTCAACATAATGCAGCCAGGACAGGGCCTGACAG -AGATAACCTGTCGGATTCTGGAAGGGCTAAAACCTATTCTTGCCGAGTTCAAACCAGACGTCGTGCTGGTTCACGGCGAT -ACGACGACGACGCTGGCAACCAGCCTGGCGGCGTTTTATCAGCGTATTCCTGTTGGTCACGTTGAGGCTGGTCTGCGCAC -GGGCGATCTCTATTCGCCGTGGCCGGAAGAGGCTAACCGTACATTGACCGGGCATCTGGCGATGTATCACTTCTCTCCAA -CCGAAACTTCCCGGCAAAACTTGCTGCGTGAAAACGTTGCGGATAGCCGAATCTTCATTACCGGTAATACAGTCATTGAT -GCACTGTTATGGGTGCGTGACCAGGTGATGAGCAGCGACAAGCTGCGTTCAGAACTGGCGGCAAATTACCCGTTTATCGA -CCCCGATAAAAAGATGATTCTGGTGACCGGTCACAGGCGTGAGAGTTTCGGTCGTGGCTTTGAAGAAATCTGCCACGCGC -TGGCAGACATCGCCACCACGCACCAGGACATCCAGATTGTCTATCCGGTGCATCTCAACCCGAACGTCAGAGAACCGGTC -AATCGCATTCTGGGGCATGTGAAAAATGTCATTCTGATCGATCCCCAGGAGTATTTACCGTTTGTCTGGCTGATGAACCA -CGCCTGGCTGATTTTGACCGACTCAGGCGGCATTCAGGAAGAAGCGCCTTCGCTGGGGAAACCTGTGCTGGTGATGCGCG -ATACCACTGAGCGTCCGGAAGCGGTGACGGCGGGTACGGTGCGTCTGGTAGGCACGGATAAGCAGCGAATTGTCGAGGAA -GTGACGCGTCTTTTAAAAGACGAAAACGAATATCAAGCTATGAGCCGCGCCCATAACCCGTATGGTGATGGTCAGGCATG -CTCTCGCATTCTGGAAGCGTTAAAAAATAATCGGATATCACTATGAGTTTTGCGACCATTTCTGTTATCGGACTGGGTTA -TATCGGGCTGCCAACGGCAGCAGCGTTTGCCTCACGGCAAAAACAGGTAATTGGTGTCGATATCAACCAACATGCGGTTG -ATACCATCAATCGTGGCGAAATCCATATCGTCGAACCTGATTTGGCGAGTGTAGTAAAAACTGCCGTAGAAGGCGGTTTT -TTACGAGCGAGCACGACGCCAGTTGAAGCGGATGCCTGGCTGATTGCTGTACCCACGCCGTTTAAGGGCGATCATGAGCC -AGATATGACCTACGTTGAATCGGCTGCTCGCTCCATTGCGCCAGTGCTGAAAAAAGGCGCGCTGGTGATCCTTGAATCCA -CCTCGCCGGTGGGGTCAACCGAGAAGATGGCAGAATGGTTAGCAGAGATGCGTCCGGATCTCACTTTCCCGCAGCAGGTG -GGCGAGCAGGCGGACGTCAACATTGCTTACTGCCCGGAACGCGTGTTACCAGGACAGGTAATGGTCGAGCTGATTAAAAA -CGATCGCGTGATTGGTGGTATGACGCCGGTTTGTTCGGCCCGCGCCAGCGAACTGTACAAAATTTTCCTCGAAGGTGAGT -GTGTCGTCACTAACTCGCGGACGGCGGAAATGTGTAAGCTCACCGAAAACAGCTTCCGCGATGTGAATATCGCTTTTGCT -AATGAATTGTCGCTGATTTGTGCCGATCAGGGGATTAACGTCTGGGAACTGATTCGCCTGGCGAATCGTCACCCTCGCGT -TAATATTCTTCAGCCTGGCCCTGGCGTGGGCGGTCACTGCATTGCTGTTGATCCGTGGTTTATCGTGGCACAGAACCCCC -AGCAGGCGCGGCTTATCCGTACCGCGCGCGAAGTGAACGATCACAAACCGTTCTGGGTTATCGATCAGGTGAAAGCGGCG -GTGGCTGATTGCCTGGCGGCTACCGATAAACGCGCCAGTGAACTGAAAATCGCCTGCTTTGGTCTGGCGTTTAAACCGAA -TATTGATGACCTGCGCGAAAGCCCGGCGATGGAAATCGCTGAACTGATCGCCCAGTGGCATAGCGGCGAAACTCTGGTTG -TTGAGCCTAACATCCACCAGTTGCCGAAAAAACTGACCGGGCTTTGTACTCTGGCGCAGCTTGACGAGGCGCTGGCAACG -GCAGACGTGCTGGTGATGCTGGTCGATCATAGTCAGTTCAAAGTTATCAATGGCGACAATGTCCATCAGCAGTATGTCGT -CGATGCCAAAGGAGTCTGGCGCTGATGAGAAAAATTCTGATAACAGGTGGTGCCGGGTTTATTGGCTCGGCGCTGGTGCG -TTATATCATCAACGAAACGAGCGACGCGGTGGTAGTGGTCGATAAGCTGACCTACGCCGGAAACCTGATGTCGCTGGCAC -CGGTCGCGCAAAGCGAGCGCTTTGCCTTTGAGAAAGTTGATATCTGCGATCGGGCAGAACTGGCACGCGTATTCACTGAG -CATCAGCCAGACTGTGTCATGCATCTGGCAGCCGAAAGCCATGTTGACCGTTCTATTGACGGCCCGGCAGCGTTTATTGA -AACCAACATTGTCGGGACTTATACATTGCTTGAAGCGGCGCGGGCTTACTGGAATGCGCTGACGGAAGATAAAAAATCAG -CGTTCCGTTTTCATCATATCTCCACTGACGAAGTATATGGTGACCTGCACTCGACGGATGATTTCTTCACCGAAACCACG -CCGTATGCGCCGAGCAGCCCTTATTCCGCGTCAAAAGCCAGCAGCGACCATCTGGTGCGCGCCTGGCTGCGGACCTATGG -TCTGCCGACGCTTATCACCAACTGCTCGAATAACTACGGCCCTTACCACTTTCCGGAAAAACTGATCCCGCTGATGATCC -TCAACGCGCTGGCGGGTAAATCGCTGCCGGTATATGGCAACGGGCAGCAAATCCGTGACTGGCTGTATGTGGAAGATCAC -GCCCGCGCGCTGTATTGCGTGGCGACCACCGGGAAAGTCGGTGAAACCTATAATATTGGTGGTCACAACGAGCGTAAGAA -TCTCGATGTTGTGGAAACCATTTGCGAGCTGCTGGAAGAACTGGCTCCGAACAAGCCGCACGGCGTGGCGCACTATCGTG -ACCTGATCACCTTTGTCGCTGACCGTCCGGGGCATGATCTGCGTTATGCCATTGATGCTTCGAAAATTGCCCGTGAACTT -GGCTGGCTGCCGCAGGAAACCTTTGAAAGTGGAATGCGTAAAACGGTTCAGTGGTATCTGGCTAATGAAAGCTGGTGGAA -GCAGGTGCAGGACGGCAGCTATCAGGGCGAGCGTTTAGGTCTGAAAGGCTAATTTTCAGCGGAGGCAAACATGAAAGGTA -TTATCCTGGCGGGCGGTTCCGGCACCCGATTGCATCCGATTACGCGCGGCGTATCGAAGCAACTGTTGCCGATTTACGAT -AAGCCAATGATTTACTATCCGCTGTCGGTGCTGATGCTGGCCGGTATCCGCGAAATTCTCATCATCACTACGCCGGAAGA -TAAAGGTTATTTCCAGCGCCTGCTGGGCGATGGTAGTGAGTTCGGTATCCAGCTGGAATATGCCGAACAGCCCAGCCCGG -ACGGTCTGGCGCAGGCCTTTATCATCGGTGAAACCTTCCTTAATGGTGAACCTTCTTGTCTGGTGCTGGGCGATAACATC -TTCTTCGGTCAGGGCTTCAGTCCGAAGCTGCGTCATGTTGCGGCGCGCACCGAAGGGGCGACGGTTTTTGGCTATCAGGT -GATGGACCCGGAACGCTTTGGCGTGGTGGAGTTTGACGACAATTTCCGCGCTATCTCGCTGGAAGAAAAGCCAAAACAGC -CGAAGTCAAACTGGGCGGTGACCGGGCTTTATTTCTACGACAGTAAAGTCGTGGAGTACGCAAAGCAGGTGAAGCCGTCG -GAGCGTGGTGAACTGGAGATTACCTCCATCAACCAGATGTACCTCGAGGCGGGCAACCTGACCGTTGAACTGCTCGGGCG -CGGATTTGCCTGGCTGGATACCGGCACTCACGACAGCCTGATTGAAGCCAGCACCTTTGTACAGACGGTGGAAAAACGCC -AGGGCTTTAAGATTGCCTGCCTGGAAGAGATTGCCTGGCGTAACGGCTGGCTCGATGACGAGGGTGTGAAGCGTGCTGCC -AGTTCATTAGCGAAAACTGGCTACGGCCAATATCTGCTGGAGTTACTTCGTGCCCGTCCGCGCCAGTATTGAGCCACTAA -CCTGGGAAAACGCCTTCTTTGGTGTTAACAGCGCCATCGTGCGCATTACGTCTGAAGCACCGCTCCTGACGCCAGACGCG -TTAGCGCCGTGGTCACGGGTGCAGGCCAAAATTGCGGCATCAAATACGGGTGAACTGGATGCCCTGCAACAGCTGGGATT -CTCCCTGGTAGAAGGTGAAGTTGATTTGGCGCTACCCGTGAACAATGCCAGTGATAGCGGTGCTGTAGTGGCACAAGAGA -CCGATATTCCCGCATTACGTCAGTTAGCCAGCGCCGCATTTGCGCAAAGCCGTTTTCGTGCGCCGTGGTATGCGCCTGAC -GCCAGCAGTCGCTTTTATGCACAGTGGATTGAAAATGCCGTGCGCGGCACCTTTGATCATCAATGTCTGATTTTACGTGC -GGCGTCCGGCGATATTCGCGGCTATGTCTCTTTACGGGAACTCAATGCGACAGATGCGCGAATTGGCCTGCTGGCTGGAC -GCGGTGCAGGTGCTGAGCTGATGCAAACGGCGCTAAACTGGGCGTATGCTCGCGGTAAAACAACTTTGCGGGTGGCGACC -CAAATGGGCAACACCGCCGCGCTTAAACGATACATACAAAGTGGTGCGAATGTAGAAAGCACCGCGTACTGGTTATACAG -GTGATCACATGATTCCATTTAACGCACCGCCGGTGGTGGGAACCGAACTCGACTATATGCAGTCGGCAATGGGTAGCGGC -AAACTGTGTGGCGATGGCGGTTTTACCCGTCGCTGCCAGCAGTGGCTGGAGCAACGTTTTGGCAGCGCCAAAGTGTTACT -GACGCCGTCCTGCACCGCTTCGCTGGAGATGGCGGCGCTGCTGCTCGATATCCAGCCTGGCGATGAAGTGATCATGCCGA -GCTACACCTTTGTCTCCACCGCCAATGCCTTTGTGCTGCGTGGCGCAAAAATCGTTTTTGTGGATGTTCGCCCGGACACC -ATGAACATCGACGAAACGCTGATTGAAGCGGCGATCACCGACAAAACGCGCGTTATCGTGCCGGTCCATTACGCGGGTGT -GGCCTGCGAAATGGACACCATTATGGCGTTGGCGAAAAAGCATAATTTGTTTGTGGTAGAAGATGCCGCTCAGGGCGTGA -TGTCCACTTACAAAGGGCGTGCACTGGGAACCATTGGTCATATTGGCTGCTTTAGCTTCCATGAAACCAAAAACTACACG -GCGGGCGGTGAAGGCGGCGCGACGCTGATTAACGATAAAGCGTTAATCGAACGAGCCGAGATCATCCGTGAAAAGGGCAC -TAACCGCAGCCAGTTCTTCCGTGGTCAGGTCGATAAATATACCTGGCGCGATATTGGCTCCAGCTATTTGATGTCCGATC -TGCAAGCTGCATACCTGTGGGCGCAACTGGAAGCAGCGGATCGTATCAACCAGCAACGTCTGGCGCTGTGGCAAAACTAC -TACGATGCGTTAGCGCCTCTGGCGAAAGCCGGGCGTATCGAGCTGCCGTCGATTCCCGATGGCTGCGTGCAGAACGCGCA -TATGTTCTACATTAAACTGCGGGATATTGATGACCGGAGCGCGTTGATTAACTTTCTGAAAGAAGCGGAAATCATGGCGG -TGTTTCATTACATTCCGCTGCACGGTTGCCCTGCGGGGGAACACTTTGGTGAGTTCCACGGTGAAGATCGCTACACCACC -AAAGAGAGCGAGCGCCTGCTGCGCCTGCCGCTGTTCTACAACCTGTCGCCCGTCAATCAGCGTACGGTAATTGCGACTTT -GTTGAACTACTTTTCCTGATATGTCGTTGGCAAAAGCGTCCTTGTGGACGGCGGCCAGTACACTGGTCAAGATTGGTGCC -GGGTTACTGGTCGGTAAGTTGCTGGCGGTGTCATTTGGTCCGGCGGGGCTTGGGCTGGCGGCAAATTTCCGCCAGTTGAT -TACCGTGCTCGGCGTGCTTGCCGGGGCTGGCATCTTTAACGGTGTAACCAAATACGTTGCCCAGTACCATGATAATCCGC -AACAGCTGCGCCGCGTGGTCGGCACTTCATCAGCGATGGTACTTGGTTTCTCTACGCTGATGGCGCTGGTTTTTGTGCTG -GCAGCTGCGCCAATCAGCCAGGGATTGTTTGGTAATACCGACTATCAGGGGCTGGTGCGTTTAGTGGCGCTGGTGCAAAT -GGGGATCGCCTGGGGCAACCTGTTACTGGCGCTGATGAAAGGCTTTCGCGATGCCGCAGGTAATGCGTTATCGCTGATTG -TCGGCAGCTTGATTGGCGTTCTCGCGTACTACGTCAGTTACCGTTTGGGCGGTTATGAAGGGGCGTTGCTGGGTCTGGCG -CTGATTCCCGCGCTGGTGGTAATTCCTGCCGCCATCATGTTGATCAAACGTGGTGTCATCCCGTTAAGCTATCTGAAACC -CAGCTGGGATAACGGTCTGGCAGGGCAGTTGAGCAAATTTACGCTCATGGCGTTGATTACGTCGGTGACCTTGCCTGTTG -CTTACATCATGATGCGTAAACTGCTGGCGGCGCAGTATAGCTGGGATGAGGTGGGGATCTGGCAAGGGGTGAGCAGTATT -TCCGATGCCTACCTGCAATTTATTACGGCATCGTTCAGCGTATATTTGCTGCCCACGTTGTCGCGGCTAACGGAAAAGCG -CGATATCACCCGGGAAGTGGTTAAATCGCTGAAATTCGTCTTACCGGCAGTGGCGGCGGCGAGTTTTACCGTCTGGCTGC -TGCGTGATTTTGCTATCTGGCTGCTGTTGTCGAATAAATTTACCGCTATGCGCGATCTCTTTGCCTGGCAGTTAGTGGGT -GATGTGTTAAAAGTGGGCGCTTATGTCTTTGGTTATCTGGTGATCGCCAAAGCGTCACTGCGGTTTTATATTCTGGCGGA -AGTCAGCCAGTTCACTTTATTGATGGTATTTGCCCACTGGCTAATCCCTGCGCATGGTGCACTGGGCGCGGCGCAGGCAT -ATATGGCAACTTATATCGTCTATTTTTCTCTTTGTTGTGGCGTGTTTTTACTCTGGCGTAGGCGGGCATGACTGTACTGA -TTCACGTACTGGGATCGGATATCCCTCACCATAACCGAACCGTTTTGCGGTTTTTCAATGACGCGCTGGCCGCGACGAGC -GAGCACGCGCGCGAGTTTATGGTTGTTGGCAAGGACGACGGCTTAAGTGATAGCTGTCCGGCGCTTTCTGTGCAATTTTT -CCCTGGGAAAAAATCGCTGGCGGAAGCGGTCATCGCGAAAGCAAAAGCTAACCGTCAGCAGCGTTTTTTCTTCCACGGTC -AGTTCAATCCCACACTGTGGCTGGCTCTGCTGAGTGGTGGCATTAAGCCCAGCCAGTTTTTCTGGCATATCTGGGGGGCA -GACCTGTATGAGCTTTCCAGTGGCTTGAGATATAAGCTTTTTTACCCACTACGTCGCCTGGCGCAAAAGCGAGTCGGCTG -TGTATTTGCCACCCGCGGCGATTTGAGCTTTTTTGCCAAAACGCACCCAAAGGTGCGGGGCGAACTGCTGTTCTTCCCGA -CGCGGATGGACCCTTCGCTCAATACGATGGCGAACGATCGGCAACGTGAAGGGAAAATGACCATTCTGGTGGGGAACTCC -GGCGACCGCAGCAATGAGCATATTGCTGCCTTGCGCGCCGTTCATCAGCAATTTGGCGATACGGTAAAAGTGGTGGTGCC -GATGGGATATCCGCCTAATAACGAAGCGTACATTGAGGAAGTTCGTCAGGCGGGGCTGGAGTTATTCAGCGAAGAAAATC -TACAAATTCTGAGCGAAAAACTGGAATTTGACGCCTATCTGGCGCTACTTCGTCAGTGCGATCTTGGTTACTTTATTTTT -GCCCGCCAGCAGGGCATTGGTACGCTGTGCTTACTGATTCAGGCGGGCATTCCTTGTGTGCTTAACCGGGAAAATCCGTT -CTGGCAGGATATGACGGAACAACATTTGCCGGTGCTGTTTACTACCGACGATCTCAACGAGGATATTGTGCGTGAAGCGC -AGCGCCAGTTGGCGTCGGTGGATAAAAACACCATTGCCTTCTTTAGCCCTAACTATCTACAAGGCTGGCAGCGGGCGTTG -GCGATTGCCGCCAGGGAGGTCGCATGAGTCTGCTGCAATTCAGTGGCCTGTTTGTTGTCTGGCTGCTCTGCACGCTGTTT -ATTGCCACGCTGACCTGGTTTGAGTTTCGCCGTGTGCGCTTTAACTTCAATGTCTTCTTTTCATTGCTGTTTTTGCTCAC -CTTTTTCTTCGGCTTCCCGCTGACCAGCGTGCTGGTATTTCGCTTTGATGTTGGTGTCGCGCCGCCAGAAATCTTGTTGC -AGGCGTTGCTTTCTGCGGGCTGCTTCTACGCGGTTTACTATGTCACCTACAAAACCCGCCTACGCAAACGCGTTGCTGAT -GTACCGCGCCGTCCGCTGTTTACCATGAACCGCGTGGAGACCAATCTTACGTGGGTGATCCTGATGGGTATCGCGCTGGT -AAGCGTCGGCATCTTCTTCATGCACAACGGCTTTTTGCTGTTCCGGCTTAACTCCTACAGTCAGATCTTTTCCAGTGAAG -TCTCCGGCGTGGCGTTAAAACGCTTCTTTTACTTTTTCATCCCGGCGATGCTGGTGGTCTACTTTCTGCGCCAGGACAGC -AAAGCGTGGCTGTTTTTCCTCGTCAGCACGGTCGCCTTTGGCTTGCTGACTTATATGATTGTCGGCGGCACTCGCGCCAA -TATCATCATCGCATTCGCTATCTTCCTGTTTATTGGCATTATTCGCGGCTGGATTTCGTTGTGGATGCTGGCGGCGGCGG -GCGTGCTGGGGATTGTTGGCATGTTCTGGCTGGCACTAAAACGCTATGGAATGAATGTGAGCGGCGATGAAGCGTTCTAT -ACGTTTCTCTATCTCACTCGCGACACCTTCTCGCCGTGGGAGAATCTGGCGTTGCTGTTGCAGAACTACGACAACATCGA -CTTCCAGGGCCTGGCTCCAATTGTCCGCGATTTCTATGTCTTTATCCCTTCCTGGCTGTGGCCGGGTCGCCCGAGTATGG -TGCTGAACTCAGCCAACTACTTTACCTGGGAAGTGCTGAATAACCACTCCGGACTGGCGATCTCGCCTACGCTTATAGGC -TCACTGGTGGTGATGGGCGGCGCGTTGTTCATCCCGCTCGGGGCGATCGTGGTTGGTCTGATCATCAAATGGTTCGACTG -GCTGTATGAGCTGGGCAACCGCGAGCCTAATCGCTATAAAGCTGCGATATTGCACAGTTTCTGCTTTGGGGCGATCTTCA -ATATGATCGTGCTGGCGCGTGAAGGGCTGGATTCGTTTGTCTCACGCGTGGTCTTTTTTATCGTGGTCTTCGGCGCATGT -CTGATGATCGCAAAACTGTTGTACTGGCTTTTTGAAAGCGCCGGACTCATTCATAAACGTACAAAATCATCGCTCCGGAC -GCAGGTTGAAGGATAACAATGAATAACAACACCACGGCACCAACCTATACGCTGCGTGGCTTACAGTTGATTGGTTGGCG -TGATATGCAGCACGCCCTCGATTATCTGTTTGCTGACGGGCAGCTTAAGCAGGGAACGCTGGTTGCCATTAATGCTGAAA -AAATGCTGACTATTGAAGATAACGCCGAGGTCAGGGAGTTAATTAACGCTGCCGAATTTAAATATGCGGATGGCATCAGC -GTTGTACGTTCAGTACGTAAAAAGTACCCGCAGGCGCAGGTTTCCCGCGTTGCCGGTGCCGATCTCTGGGAAGAGCTGAT -GGCGCGCGCAGGCAAAGAAGGGACGCCGGTATTTCTTGTGGGCGGTAAACCTGAAGTGCTGGCGCAAACTGAAGCTAAAC -TGCGCAACCAGTGGAATGTGAATATCGTTGGCAGTCAGGATGGTTATTTTAAACCCGAGCAGCGTCAGGCGCTGTTTGAA -CGCATTCATGCCAGCGGTGCGCAAATCGTCACCGTTGCGATGGGATCGCCAAAGCAGGAGATCATCATGCGCGACTGCCG -TCTGGTACATCCAGATGCGCTGTATATGGGCGTTGGCGGGACTTACGATGTTTTCACCGGTCACGTAAAACGCGCACCGA -AAATCTGGCAAACGCTGGGGCTGGAGTGGCTCTACCGCCTGCTTTCGCAGCCGAGCCGCATTAAGCGTCAGCTTCGTTTG -CTGCGTTATTTACGCTGGCACTACACCGGCAACCTATGATTTTCCTCTCTTTGTAAAGCGACGGAGTGGTCACTCCGTCG -CCTGTCTGCTTTTTTATTACACAAAGCATTCAAATTTTTAATGCTTTATTTGCCATTTCTCCTGAATTACGAAAACATTT -GCAACACTCGATGTACCCATAACGATAACCGGTAACACCGGAAAGCATGCAAACACAACACGAGGATTTATGGCAGATAA -CAAACCAGAGCTACAGCGTGGGCTGGAAGCTCGACATATCGAACTCATCGCCCTGGGGGGCACCATTGGCGTCGGCCTGT -TTATGGGGGCCGCCAGTACCCTGAAATGGGCCGGGCCATCCGTATTGTTGGCCTATATCATCGCCGGGCTGTTCGTCTTT -TTCATCATGCGTTCAATGGGCGAAATGTTGTTCCTCGAACCGGTTACCGGTTCGTTCGCCGTTTATGCGCATCGTTATAT -GAGCCCGTTCTTTGGCTATCTCACCGCCTGGTCTTACTGGTTTATGTGGATGGCGGTGGGGATCTCTGAAATCACCGCCA -TTGGCGTTTATGTCCAGTTCTGGTTCCCGGAGATGGCGCAGTGGATACCCGCATTGATCGCAGTGGCGCTGGTGGCGTTG -GCGAATCTGGCGGCGGTGCGGTTGTACGGCGAAATCGAGTTCTGGTTCGCGATGATCAAAGTCACCACGATTATCGTGAT -GATTGTCATTGGCCTGGGCGTGATTTTCTTTGGCTTTGGCAATGGCGGGCAGTCGATTGGTTTTAGCAATCTCACAGAGC -ATGGCGGTTTCTTTGCGGGTGGCTGGAAAGGGTTCCTGACCGCTCTGTGTATTGTGGTGGCGTCCTACCAGGGCGTGGAG -CTGATTGGCATTACTGCCGGTGAAGCGAAGAATCCGCAGGTGACGCTGCGCAGTGCCGTAGGCAAGGTGCTGTGGCGGAT -CCTGATTTTCTACGTAGGCGCGATTTTCGTTATCGTCACCATCTTCCCGTGGAATGAAATAGGCAGCAACGGCAGCCCGT -TCGTACTGACTTTTGCCAAAATCGGTATTACCGCAGCGGCGGGCATTATCAACTTTGTGGTGCTGACGGCTGCGCTCTCT -GGCTGTAACAGCGGCATGTACAGTTGCGGACGTATGCTCTACGCACTGGCGAAAAACCGTCAGTTACCGGCGGCAATGGC -GAAAGTTTCCCGTCACGGCGTACCGGTTGCGGGTGTGGCAGTATCTATTGCTATTCTGCTAATTGGCTCATGCCTGAACT -ACATCATTCCCAATCCGCAGCGTGTGTTTGTCTACGTCTACAGTGCCAGCGTGCTTCCGGGGATGGTGCCATGGTTTGTG -ATATTGATAAGCCAGCTGCGTTTTCGGCGTGCACATAAAGCGGCGATTGCCAGCCATCCGTTCCGCTCAATCCTGTTCCC -GTGGGCCAATTACGTAACAATGGCATTCCTGATTTGCGTTTTGATCGGCATGTACTTTAATGAAGATACGCGTATGTCGC -TGTTTGTTGGCATCATCTTTATGCTGGCGGTGACGGCGATTTATAAAGTTTTTGGCCTTAATCGCCACGGGAAAGCGCAT -AAACTGGAGGAATAAGCAGCAAAACGCACAAACCGTAACCAAACGCGCAATTTATTTAAAAAGGGACTAGACAGAGGGGT -GGGAAGTCCGTATTATCCACCCCCGCAACGGCGCTAAGCGCCCGTAGCTCAGCTGGATAGAGCGCTGCCCTCCGGAGGCA -GAGGTCTCAGGTTCGAATCCTGTCGGGCGCGCCATTTAGTCCCGGCGCTTGAGCTGCGGTGGTAGTAATACCGCGTAACA -AGATTTGTAGTGGTGGCTATAGCTCAGTTGGTAGAGCCCTGGATTGTGATTCCAGTTGTCGTGGGTTCGAATCCCATTAG -CCACCCCATTATTAGAAGTTGTGACAATGCGAAGGTGGCGGAATTGGTAGACGCGCTAGCTTCAGGTGTTAGTGTCCTTA -CGGACGTGGGGGTTCAAGTCCCCCCCCTCGCACCACGACTTTAAAGAATTGAACTAAAAATTCAAAAAGCAGTATTTCGG -CGAGTAGCGCAGCTTGGTAGCGCAACTGGTTTGGGACCAGTGGGTCGGAGGTTCGAATCCTCTCTCGCCGACCAATTTTG -AACCCCGCTTCGGCGGGGTTTTTTGTTTTCTGTGCATTTCGTCACCCTCCCTTCGCAATAAACGCCCGTAATAACTCATT -GCCCCACGGTATGATTTCGCCCTTAACGTATTGAAGGATGACTTCAGGCAAGGAGCGACCATGCTGCAACAGGTTCCAAC -GCGTGCTTTTCATGTGATGGCGAAACCGAGCGGTTCCGATTGTAATCTGAACTGTGACTACTGTTTTTATCTCGAAAAAC -AATCCCTTTACCGCGAAAAGCCAGTCACGCATATGGACGATGACACGCTGGAAGCGTATGTCCGTCACTATATCGCTGCC -AGCGAACCGCAAAACGAAGTGGCTTTTACCTGGCAGGGCGGCGAACCAACGCTACTCGGGCTGGCGTTTTACCGCCGTGC -CGTAGCGCTACAGGCGAAATATGGTGCTGGCAGGAAGATAAGTAACAGCTTCCAGACTAACGGCGTGCTGCTGGATGACG -AATGGTGCGCGTTTCTCGCGGAGCATCATTTTCTTGTTGGTTTATCGCTGGATGGCCCGCCTGAGATCCACAATCAATAT -CGCGTGACTAAAGGTGGCAGACCCACGCATAAGCTGGTGATGCGTGCCCTGACGCTCCTGCAAAAACATCATGTCGACTA -TAACGTGCTGGTCTGCGTTAATCGCACCAGCGCGCAGCAACCGTTGCAGGTATATGATTTTTTGTGCGATGCGGGAGTCG -AATTCATCCAGTTTATTCCGGTGGTCGAGCGCCTGGCTGATGAAACAACTGCCCGCGATGGACTTAAGTTACATGCGCCT -GGTGATATTCAGGGTGAGCTAACGGAATGGTCGGTGCGCCCCGAGGAGTTCGGTGAGTTTCTGGTGGCGATATTCGACCA -CTGGATCAAACGCGACGTCGGCAAGATTTTCGTGATGAATATCGAATGGGCGTTTGCCAATTTTGTCGGTGCGCCGGGTG -CGGTTTGCCATCATCAGCCAACCTGTGGGCGCTCGGTGATTGTTGAGCACAACGGCGACGTTTACGCCTGTGATCACTAT -GTTTATCCGCAATATCGGCTGGGGAATATGCACCAGCAAACAATTGCAGAAATGATCGATTCCCCGCAACAGCAGGCGTT -TGGTGAAGATAAATTTAAGCAGTTACCGGCGCAGTGTCGCAGTTGTAACGTGTTAAAAGCGTGCTGGGGAGGCTGCCCGA -AACACCGCTTCATGCTCGATGCCAGCGGCAAACCGGGACTGAATTATTTGTGTGCCGGGTATCAGCGTTATTTCCGCCAT -CTACCGCCATATCTTAAAGCAATGGCTGATTTGCTGGCGCACGGTCGCCCGGCCAGCGACATTATGCATGCGCATTTGCT -GGTGGTGAGTAAGTAGAAATCGGCGGCCGCCTGCGGTTGATTGCCGGATGCGGCGTAAACGCCTTATCCGGCCTACATGA -TCGTGCAAATTCAATAAATTGCAGCGTTCTGTAGGCTGGATAAGATGCGTCAGCATCGCATCCGGCAAAGGCAGATCTCA -GCGATAGCGCCGGCTTAGTCAGATTTAATCTGCGCGCGTGGTGGATATTTTTTCAGGATCTCCATATACGCGTGCATTTC -GGTCTGTAGCGGTACACCCATCGGAATATGGCGCACGCCGATGGAGTCGCTTTCCTGCGGATCGGTGTAGAGGTTAAACA -CCGACGATCCCGCCGTTTGCATTACTGTGCCGGTGAATCCACCCTGATATCCGCTCTGGGTATAAGCGTAAGGTTGCTGA -ATCAGGACGTGATACTTGAACTCATCCATACGCACAGCAGCGAGTTTACCGTTGAGGAAGTAGTGCTCGGCCTTACGGTT -AGACTGACCATTTGTTCCCAGGAAGAAGGATGTCTGGTCCACACCATCGATAAAGGTGGTTTTCGGCACTAAATTCGCCA -CTTTCGCTCCAGGATGCCCTGCCAGATCCAGCGCGGTAGGGAAGAGATCTGCCAGATCGACAATACCGTCAGATTTACGC -GGTTGGATCATCCCTTTCCAGTAAACGAAAGTCGGTACGCGAACGCCGCCTTCCCAGGTCGAACCTTTCGCACCACGGAA -CGGGGTGCGTCCGTGCGGCGGTACTTCGGCTTCCGGTCCGTTATCGGAGGTAAAGACGATCAGCGTGTTATCAAGCTGAC -CGTTTTTCTCCAGTGTTTTATACAGATTAGCGAACACATCGTTCATCTCCACCATGCAGTCGCCATACGAGGTGCGTGCC -GGAGAGCTACCCGCATATTTCGCATTTGGGTAGTTATCGAAGTGGCAGCCACGAGTGCCGTAGTAGAGGAAGAATGGTTT -ATCGCTCTTCGCCATCTTGTCGAGGAACTTAACGCCATAGTCCATCCAGCGTTGATCCAGATCTTCCATATATTTCGGCG -TAATGTCGGCAATGGCCTGTTGTTCGCCGCCGCGCACCGCATGAACGTCATCTTTGCTGAACGGTAATTGCTTGATGTAT -TCAGAACGGTCCGGACTCAGGGCCACTTCCGGATTGACGTGAACGTCGCGCCATTCGGTGTACATATCAGACACCGAGTT -AAAGCCACGGAAATCATCAAAGCCAACGTTCTGCGGCTGCGACTCTTTGTTTTCCCCCATATGCCATTTTCCGATGGCCT -GAGTGACGTAGCCCTGATCGTGCAGCAACTGCGGCAGCGTGGTTAACCCTTGCAGCCCGCCCGGTTGCCCGTACATTGGC -GGCATCAGAATGCCGTGGTGGATGGAGTATTGTCCGGTGAGAATGGTGGCGCGGGTTGGGGAAGAGCTTGGTTGAGAATA -CGCCGAAGTTAAAATCAGCCCCTGGCTGGCAACGGCGTCGATATCTGGTGTAGGGTTACCCACCGCCACGCCGCCACCGT -TAAAACCGACGTCCATCCAGCCCACATCGTCCAGCAAGAAAACAACCACATTCGGTTTCTTACCGGTTTTTTTCTCAAGT -TCTGCCAGCTTCTGCTGGGTTTCTTTATCCTGCGCCGGATGCTGCATTACTGGCATCATATTGTCGGCAATAGTGGTCGC -CGGTTTAACCAGATACTGGTTTGGGTGATCGTATCCGGCAAAGCCTTTGCGTGCGGTGGCAGTTGACGGGGTATCTGCTG -CGCTGGCCATGAGAGGAAGAGCGGCGGCGACAGCAACAACAAGACGTTTGGGTGAAAACGAAAATTCCATGCAAAATGCT -CCGGTTTCATGTCATCAAAATGATGACGTAATTAAGCATTGATAATTGAGATCCCTCTCCCTGACAGGATGATTACATAA -ATAATAGTGACAAAAATAAATTATTTATTTATCCAGAAAATGAATTGGAAAATCAGGAGAGCGTTTTCAATCCTACCTCT -GGCGCAGTTGATATGTAAGGCAGGTTTATTATATCGCGTTGATTATTGATGCTGTTTTTAGTTTTAACGGCAATTAATAT -ATGTGTTATTAATTGAATGAATTTTATCATTCATAATAAGTATGTGTAGGATCAAGCTCAGGTTAAATATTCACTCAGGA -AGTTATTACTCAGGAAGCAAAGAGGATTACAGAATTATCTCATAACAAGTGTTAAGGGATGTTATTTCCCGATTCTCTGT -GGCATAATAAACGAGTAGATGCTCATTCCATCTCTTATGTTCGCCTTAGTGCCTCATAAACTCCGGAATGACGCAGAGCC -GTTTACGGTGCTTATCGTCCACTGACAGATGTCGCTTATGCCTCATCAGACACCATGGACACAACGTTGAGTGAAGCACC -CACTTGTTGTCATACAGACCTGTTTTAACGCCTGCTCCGTAATAAGAGCAGGCGTTTTTTTATGTATCAGGAAGGCCCCG -GAGGTGCTTGCCTCCGGGTGAGAAGGAACTACTGTGGCGGGTTATTCTGCAACGTTAACATCAAACCGTCGCGACGCATA -GCTGCAGCTTCTTCCGGCTTGTGCAGTCTGTCCAGCGCGTCGGCAAGCCATGCGTAATCGTAGGCGTCCGGACGTTGTTT -CAGCGCTGCGCGGAAGGCGAGCGATGCTTCCTGCCATTCTCCGTGCTTCATCAGTGACTGGCCCAGTGTGCTCCACAACA -GCGGGCGATCGCCGACGTTTTTGATTTGCTGGCGCAGCACTTTTTCCAGCTGTTCCGGATTGTTTGTTTTCAGTCGAGGA -ATCGGCAGCAGTAGGCGATCGTCGTACTGGCGTTTCAGGCCATCGATGATAATTTGCTGGGCAGTATCATGATCGTCACA -TTCAATAAGATGTTCCGCCATTGCCACCTGCAACGCTACCTGATGACGCGTTTTCCGGCTTTGGTTTTTCCACCAGTTAC -GCAAACCTTCGCTACCGTTATCGGCACGCGCCTGATCCATCAGGCCAATCCATGCCTGTTGTTCCAGCATTGCACGATGT -TCTTCATCACCAACATGGGCTTTCGCCATTGATGGGATAATATCCAGCAGCGAACTCCATGCACCTGTGCGGATATACGC -CTGTTCCGCCAGACGTAATACTTCCGGATGGCGTGGCGTAACTTCCAGCAGCTTATCCACGCCGTGGCGTGCAGCATGGT -TTTCATTACGGGCCAGTTGCAGACGTACGCGGGTGATTTCTACCGGAATGGTGTCGTTGCCGGCCAGCTCCGCTGCGCGT -TCCAGATGTTGGTTGGCGCGTGCTTCATCACCACGTTGTTGCGCGGCTTCGGCAGCCAGTAGATAGTTCACCACCGGTTG -TTCCGCGTGATCGGCATTTTTCGCCATCAGCTTTTCAACTTGCTGATAATCGCCTTCCGCCAGTTTCAGCAGCGCCTGTT -CGGTCTGCTTACGTGCACGGCGACGCTTACGTCCGACAAACCACCCACGGGTGTGCGCGCCAGTGCGGAAGATCCGCCGC -AGTAGCCACTCAATGGCAAACAGCACTACCATCGCCAGAATCAATATGATCGCCAGGCCCGTGACGCTGGTTTCGATATT -GTAGTTGTCGGTCTGGATCAGCACATAACCCTGATGGCCGGCAATCATCGGGCCAACCACGATCCCCGCAATCAGCAACA -CAAAGAGCAATAACACTTTTAGCATGGTTATTCTCCTTGCGGCGCGGCTGCCGGAGTATCAGCTTGCGGTGCAGGTGCAG -GTTTAGCTTCCGTTGTCCCCGCTGCCGGTTGTGCCAGCAGGTTACGCACGCGAGTCTGCATCAGTTTTTCCAGCATCGCC -TGGCTTTGCAGGGTTTCCGGAAGATCCATCGAGATATTTTGCTGGCTTAACTGGTCCACCTCGTCGAGGAACGCTTTGGT -GGTGGCATCATCAGTATTGTAGTAAGCACGTACCCAGGTGGAGACGTTCTCCAGCGCCTGGCGATAAGTCTCTTCCTGGT -GACGCGGTACAGCTTGTGCTGCGACCAGCAGGCGAGAGCGAATATTTTCGCGCAGATAGATATCCTGATTTGGCGCTAAC -AGCGGTACGGCGGTGTCATCACGACGGCGAATCGTAATGAAGTTGTCCATAAAGTTCTGCCAGCTTTTTTGCAGATTGAT -ACGCCATTCGCTGATGGAACTGGAAAGCTCTTCACCGTCTGAATCCATCGGCGAACCATCGCTGTCATTATCGGCCAGAC -GCAGGTTATCTACCTGATTTGAAAGCTGATTAAGCTTAAGGATGATGCCGTCATAATCCACCTGCGATACTGCAGAAAGG -CTGGCGATATCATCGGTAATTGCCCGACGAACGGTAATCAGACTCGGGTCATTCATATCCGCCAGGCTGGCGTCTGCACT -TTTCAGCAACGCTGCAGCGGTCGTGACGTCCTGATCGCTCCACAGCTTCCGTCCGGCGAGTTTCACCAGAAAATCGGCCT -GAGCCAGCAGCCAGGTTTTAGCATCGCTGCCGGAAATGGTGGCGACCTTTTGTTGGACTTCATCCAACTGTTTTGCCAGC -GTTTCTTGCTGACGATTCGCCTGCTTAAGTTGTGCAGCTTGTTGCTTAATAATGCCTTCCAGCTCGGCTTTTTGGCTCTC -CTGGGCTTTTTGCAATGCCGTCAGTTGGTTAGCCAGGGCATCGCTGGTGGCGGTCTGATTGACGGCCTGTTGTTTACCCC -AGCCATACAAACCGATGCCCGCCGCCAGAGCAATAGCGATAGCCACCGCGCTGAGAATCAATGCGGTATTGTTCTTACTC -TTTTTTTCTGTTGCGACAGGTTGTGACGTGGTGTCCACGGCCTCCCTGGTCTCTTCAACCACGGCGGAGGTTTTTTCTTG -TTCCGTCATTATGGCTTCCTGTTATGAGAGTTATTGTAATGCCCGTAAAAGCGCATCGTTGTCAGCGTTATCGGCGACCT -TAATGTCTTGCCAGCCCAGTTCCCGGGCGAGTTTCGCCAAACGCTCACTGACGACCAATAGTCGACAGTGTAGTAACCAG -TGCTCACGATACCATTGTGGGATCAGCGACCAGAGTTGCTGCAACATTTCACCGCTGGTAACAACGACCATCGTCACCTC -GCGGGCTTGCCAGCGCATCGCTTCTTCTGCACCATCGTAATGGATTGCGCATCGTTGATAACATTCACAAAAAGTGACCT -CAGCACCGCGCGCCGTCAGGGTATCCCCAATTAGCTCACGACCACCATTGCCACGTAATATCAGCGCACGTTTGCCCGCA -ATATTTTGTAATTCAGGTAATTGTAGCAAGACTTCGCTGATTTCCCGATCCTGCGGGTAGAGAATCTTCTGTCCACTTAC -GGTATGTAGTGCCAGTGCGGTGGTGCGTCCAATGGCGAAATAATCAGGTAGTCGGGGCCATTTACGATCTTGCTGATGCA -GCTGTGATTGGGCAAAAGCAACCGCGTGTTGCGAGAGGGCAAACAACAGATCGCTCTCCCCCAGCGCTGCCAGTTGATCA -GCAAGTTGCGGTAATTGTTGACCCGGAGAAAACTCAATCAGCGGAAAATGCCAGGCCACCTGCCCCAGTGTGCGCAGACG -GCTCACTAACTCTTCTCCAGCGGGAGACGGGCGGGTGACAAGGATACTCATGCCGGGGCGTCTCCGTTATAGACTTCAGC -GAGGATCTCGCGCGCGCCGTTATTCAGTAGCTCTTCTGCCAGCGAAATCCCCATTTGTTCGGCATCTTGCGGCGCACCGC -GGCGTTCACCGCGAATAATCTGCGAACCGTCCGGCGCGCCGACCAGCGCACGCAGCCAGATTTCGCCATCAATAAGCTCG -GCGTAGCTACCAATTGGCACCTGACATCCGCCTTCGAGACGGGTATTCATGGCGCGTTCTGCGGTAACGCGCAGTGCAGT -TTCGTGGTGATTCAGCGCGGCAAGCAGCTCGCGAGTGCGTGAATCATCAAGGCGGCATTCAATACCCACCGCACCTTGTC -CTACCGCCGGAAGAGAAATCTCGGGTGGCAACGCGGCGCGAATACGTGACTCCAGACCTAAACGTTTTAGTCCGGCTACG -GCAAGAATGATGGCATCGTATTCGCCGTTATCCAGTTTGCTCAGGCGAGTGCCGACGTTGCCGCGCAGGGAGCGGATAAT -CAGATCCGGACGGCGTTCAGCCAGTTGGCACTGGCGACGTAAACTGGACGTCCCGACGATACTGCCTGCCGGTAACGCAT -CCAGACTGTCATAGTTATTGGACACAAAGGCATCGCGAGGATCTTCACGCTCACAAATAGTGACCAGTCCCAGACCTTGC -GGGAATTCAACCGGCACATCTTTCATTGAGTGTACGGCGATATCGGCGCGATTTTCGAGGAGCGCGACTTCCAGCTCTTT -TACAAATAAGCCTTTTCCGCCTACTTTCGCCAGCGGCGTATCAAGAATCACATCGCCGCGCGTCACCATCGGTACCAGTT -CAACGACCAGGCCCGGATGGCTCGCCATCAACTTGTCTTTGACATAGTGTGCCTGCCAGAGTGCAAGTGGGCTTTGGCGT -GTGGCAATTCTTAAAACATTGTCTAACATGCTTGTTACCGTCATTATCATCCGTGGTCCATCCTAACATCCTTGCCAGAG -TGATGTCAGTGTTGTGGTGAAACGTAGACGCCTGCGCAAACCGTAAAATGAGGTCTGGCAGTGGATCCTGACAGGCGTTT -CACGCCGTTGTAATAAGGAATTTACAGAGAATAAACGGTGCTACACTTGTATGTAGCGCATCTTTCTTTACGGTCAATCA -GCAAGGTGTTAAATTGATCACGTTTTAGACCATTTTTTCGTCGTGAAACTAAAAAAACCAGGCGCGAAAAGTGGTAACGG -TTACCTTTGACATACGAAATATCCCGAATGCCGCGTGTTACCGTTGATGTTGGCGGAATCACAGTCATGACGGGTAGCAA -ATCAGGCGATACGTCTTGTACCTCTATATTGAGACTCTGAAACAGAGACTGGATGCCATAAATCAATTGCGTGTGGATCG -CGCGCTTGCTGCTATGGGGCCTGCATTCCAACAGGTCTACAGTCTACTGCCGACATTGTTGCACTATCACCATCCGCTAA -TGCCGGGTTACCTTGATGGTAACGTTCCCAAAGGCATTTGCCTTTACACGCCTGATGAAACTCAACGCCACTACCTGAAC -GAGCTTGAACTGTATCGTGGAATGTCAGTACAGGATCCGCCGAAAGGTGAGCTTCCAATTACTGGTGTATACACCATGGG -CAGCACCTCGTCCGTAGGGCAAAGTTGTTCCTCTGACCTGGATATCTGGGTCTGTCATCAATCCTGGCTCGATAGCGAAG -AGCGCCAATTGCTACAACGTAAATGTAGCCTGCTGGAAAACTGGGCCGCCTCGCTGGGTGTGGAAGTCAGCTTCTTCCTG -ATTGATGAAAACCGCTTCCGTCATAATGAAAGCGGCAGCCTGGGGGGCGAAGATTGTGGCTCCACCCAGCATATACTGCT -GCTTGACGAATTTTATCGTACCGCCGTGCGTCTCGCCGGTAAGCGTATTCTGTGGAATATGGTGCCGTGCGACGAAGAAG -AGCATTACGACGACTATGTGATGACGCTTTACGCGCAGGGCGTGCTGACGCCAAATGAATGGCTGGATCTCGGTGGCTTA -AGCTCGCTTTCTGCTGAAGAGTACTTTGGTGCCAGCCTTTGGCAGCTCTACAAGAGTATCGATTCCCCATACAAAGCGGT -ACTGAAAACACTGCTGCTGGAAGCCTATTCCTGGGAATACCCGAACCCACGTCTGCTGGCGAAAGATATCAAACAGCGTT -TGCACGACGGCGAGATTGTATCGTTTGGTCTCGATCCATACTGCATGATGCTGGAGCGTGTTACTGAATACCTGACGGCG -ATTGAAGATTTTACCCGTCTGGATTTAGTACGTCGCTGCTTCTATTTAAAAGTGTGCGAAAAGCTCAGCCGTGAACGCGC -CTGCGTAGGCTGGCGTCGCGCAGTGTTGAGCCAGTTAGTGAGCGAGTGGGGTTGGGACGAAGCTCGTCTGGCAATGCTCG -ATAACCGCGCTAACTGGAAGATTGATCAGGTGCGTGAGGCGCACAACGAGTTGCTCGACGCGATGATGCAGAGCTACCGT -AATCTGATCCGCTTTGCGCGTCGCAATAACCTTAGCGTCTCCGCCAGTCCGCAGGATATCGGCGTGCTGACGCGTAAGCT -GTATGCCGCGTTTGAAGCATTACCAGGTAAAGTGACGCTGGTAAACCCGCAGATTTCACCCGATCTCTCGGAACCGAATC -TGACCTTTATTTATGTGCCGCCGGGCCGGGCTAACCGTTCAGGTTGGTATCTGTATAACCGCGCGCCAAATATTGAGTCG -ATCATCAGCCATCAGCCGCTGGAATATAACCGTTACCTGAATAAACTGGTGGCGTGGGCATGGTTTAACGGCCTGCTGAC -CTCGCGCACCCGTTTGTATATTAAAGGTAACGGCATTGTCGATTTGCCTAAGTTGCAGGAGATGGTCGCCGACGTGTCGC -ACCATTTCCCGCTGCGCTTACCTGCACCGACACCGAAGGCGCTCTACAGCCCGTGTGAGATCCGCCATCTGGCGATTATC -GTTAACCTGGAATATGACCCGACAGCGGCGTTCCGCAATCAGGTGGTGCATTTCGATTTCCGTAAGCTGGATGTCTTCAG -CTTTGGCGAGAATCAAAATTGCCTGGTAGGTAGCGTTGACCTGCTGTACCGCAACTCGTGGAACGAAGTGCGTACGCTGC -ACTTCAACGGCGAGCAATCGATGATCGAAGCCCTGAAAACTATTCTCGGCAAAATGCATCAGGACGCCGCACCGCCAGAT -AGCGTGGAAGTCTTCTGTTATAGCCAGCATCTGCGCGGCTTAATTCGTACTCGCGTGCAGCAACTGGTTTCTGAGTGTAT -TGAATTGCGTCTTTCCAGCACCCGCCAGGAAACCGGGCGTTTCAAGGCGCTGCGCGTTTCTGGTCAAACCTGGGGGTTGT -TCTTCGAACGCCTGAATGTATCGGTACAGAAACTGGAAAACGCCATCGAGTTTTATGGCGCGATTTCGCATAACAAACTG -CACGGCCTGTCAGTGCAGGTTGAAACCAATCACGTCAAATTACCGGCGGTGGTGGACGGCTTTGCCAGCGAAGGGATCAT -CCAGTTCTTTTTCGAAGAAACGCAAGACGAGAATGGCTTTAATATCTACATTCTCGACGAAAGCAACCGGGTTGAGGTAT -ATCACCACTGCGAAGGCAGCAAAGAGGAGCTGGTACGTGACGTCAGTCGCTTCTACTCGTCATCGCATGACCGCTTTACC -TACGGCTCAAGCTTCATCAACTTCAACCTGCCGCAGTTCTATCAGATTGTGAAGGTTGATGGTCGTGAACAGGTGATTCC -GTTCCGCACAAAATCTATCGGTAACATGCCGCCTGCCAATCAGGATCACGATACGCCGCTATTACAGCAATATTTTTCGT -GATGAACGTGCCGGAAAGCGAGGCTTATCCGGCATGCAATCTTAGCGGAAACTGACTGTTTCACCCGCCTGCTGCGTCGC -CGCCTGTTCCAGCAAATCCCAGAAGGTTTCGCCGCTGCGATCACAAATCCACTCATCGCCTTTCAGGTCAAAATGGTAGC -CGCCCTGTTTGGTTGCCAGCCATACCTGGTGCAGCGGCTCCTGGCGGTTGATAATGATTTTGCTGCCATTCTCAAAGGTA -ATGGTCAGTACGCCGCCGTTGATTTCGCAGTCGATATCGCTGTCGCCATCCCAGTCGTCCAGGCGTTCTTCAATGGTCAG -CCAGAGTTGATCAGCCAGGCGATGAAATTCACTGTCGTTCATTGTTGTATCCTGTTTTTAAGTGATGGCGGCAGTATAGC -GGCATGGGGTCAGGGCTTCAAAGTTTGCACCTCTGCGGCTGCGTTCCGGCACGATTCATCCGTCACCGGAATAATGATGT -CTCTGTGTAGCGAAAGATTTGTCTCTTCATTAGGGCGCAGTTACACCACGTCTTTCCCTGTTTCTGGTAAACATTATGAT -CAGGTTTACCGAGCGAGCATCCTCACGCTGACGGAACTAAAAAAGACAACAAACAAACCACATTGCGATAGTGCATAAAG -CCATCCTGGCGCGAGGTGCCGATCACGAAACTACCAGCAAAACATAAATCCCCACGAGTAAGCGTTATACTCGCAGCATT -TCCTCACTTTTCAGACTTCATAAAGAGTCGCTAAACGCTTGCTTTTACGTCTTCTCCTGCGATGATAGAAAGCAGAAAGC -GATGAACTTTACAGGCAATCCATAATGAAAAACGTGTTTAAGGCACTCACTGTATTACTTACTCTCTTCAGCCTGACGGG -CTGCGGTCTGAAAGGTCCGCTCTATTTCCCGCCTGCAGATAAAAACGCACCGCCGCCGACCAAACCGGTAGAGACGCAAA -CGCAATCCACGGTGCCGGATAAAAACGATCGCGCCACTGGCGATGGTCCATCCCAGGTGAATTACTAAAAGTCAGTTTCT -GTACCCGCGTGATTGGAGTAAATGATGCAGTTCTCGAAAATGCATGGCCTTGGCAACGATTTTATGGTCGTCGACGCGGT -AACGCAGAATGTCTTTTTTTCACCGGAGCTGATTCGTCGCCTGGCTGATCGGCACCTGGGGGTAGGGTTTGACCAACTGC -TGGTGGTTGAGCCGCCGTATGATCCTGAACTGGATTTTCACTATCGCATTTTCAATGCTGATGGCAGTGAAGTGGCGCAG -TGCGGCAACGGTGCGCGCTGCTTTGCCCGTTTTGTGCGTCTGAAAGGACTGACCAATAAGCGTGATATCCGCGTCAGCAC -CGCCAACGGGCGGATGGTTCTGACCGTCACCGATGATGATCTGGTCCGCGTAAATATGGGCGAACCCAACTTCGAACCTT -CCGCCGTGCCGTTTCGCGCTAACAAAGCGGAAAAGACCTATATTATGCGCGCCGCCGAGCAGACAATCTTATGCGGCGTG -GTGTCGATGGGAAATCCGCATTGCGTGATTCAGGTCGATGATGTCGATACCGCGGCGGTAGAAACGCTTGGTCCTGTTCT -GGAAAGCCACGAGCGTTTTCCGGAGCGCGCCAATATCGGTTTTATGCAAGTGGTTAAGCGCGAGCATATTCGTTTACGCG -TTTATGAGCGTGGGGCAGGAGAAACCCAGGCCTGCGGCAGCGGCGCGTGTGCGGCGGTTGCAGTAGGGATTCAGCAAGGT -TTGCTGGCCGAAGAAGTACGCGTGGAACTCCCCGGCGGTCGTCTTGATATCGCCTGGAAAGGTCCGGGTCACCCGTTATA -TATGACTGGCCCGGCGGTACATGTCTACGACGGATTTATTCATCTATGAAGCAACCAGGGGAAGAACTGCAGGAAACACT -CACGGAGCTTGATGACCGGGCGGTTGTCGATTATCTGATTAAAAATCCTGAGTTTTTTATCCGTAATGCGCGCGCAGTAG -AAGCGATACGTGTGCCGCATCCGGTACGCGGCACCGTTTCGTTGGTCGAGTGGCACATGGCCCGCGCACGTAATCATATT -CATGTTCTGGAAGAGAACATGGCGCTGTTGATGGAACAGGCTATCGCCAACGAAGGCCTGTTTTATCGCCTACTCTACCT -GCAGCGCAGTCTCACCGCCGCCAGCAGTCTCGACGATATGCTGATGCGCTTTCACCGCTGGGCGCGCGATCTCGGCCTGG -CAGGTGCGAGTCTGCGCCTGTTTCCGGATCGCTGGCGCTTAGGTGCGCCGTCGAACCACACTCATCTGGCATTAAGCCGT -CAGTCTTTCGAACCGCTGCGTATTCAGCGTTAGGGGCAGGAACAGCACTATCTTGGGCCGCTTAACGGACCAGAGCTGCT -GGTGGTGCTACCGGAAGCGAAAGCGGTGGGATCGGTGGCGATGTCGATGCTGGGAAGCGATGCTGATTTGGGTGTCGTGC -TGTTTACCAGTCGCGATGCCAGTCACTATCAACAAGGGCAAGGAACGCAGTTACTTCATGAAATTGCGCTGATGTTGCCG -GAGCTTCTGGAGCGTTGGATTGAACGCGTATGACCGATTTACACACCGATGTAGAACGCTACCTACGTTATCTGAGCGTG -GAGCGCCAGCTTAGCCCGATAACCCTGCTTAACTACCAGCGTCAGCTTGAGGCGATCATCAATTTTGCCAGCGAAAACGG -CCTGCAAAGCTGGCAGCAATGTGATGTGACGATGGTGCGCAATTTTGCTGTACGCAGTCGCCGTAAAGGGCTGGGAGCAG -CAAGTCTGGCGTTACGGCTTTCTGCGCTACGTAGCTTTTTTGACTGGCTGGTCAGCCAGAACGAACTCAAAGCTAACCCG -GCGAAAGGTGTTTCGGCACCGAAAGCGCCGCGTCATCTGCCGAAAAACATCGACGTCGACGATATGAATCGGCTGCTGGA -TATTGATATCAATGATCCCCTCGCTGTACGCGACCGTGCAATGCTGGAAGTGATGTACGGCGCGGGTCTGCGTCTTTCTG -AGCTGGTGGGGCTGGATATTAAACACCTCGACCTGGAGTCTGGTGAAGTGTGGGTTATGGGGAAAGGCAGCAAAGAGCGC -CGCCTGCCGATTGGTCGCAACGCTGTGGCGTGGATTGAGCACTGGCTTGATTTGCGCGACCTGTTTGGTAGCGAAGACGA -CGCGCTTTTTCTGTCGAAACTGGGCAAGCGTATCTCCGCGCGTAATGTGCAGAAACGCTTTGCCGAATGGGGCATAAAAC -AAGGGCTGAATAATCACGTTCATCCGCATAAATTACGTCACTCGTTCGCCACGCATATGCTGGAGTCGAGCGGCGATCTT -CGTGGTGTGCAGGAGCTGCTGGGTCATGCCAACCTCTCCACCACGCAAATCTATACTCATCTTGATTTTCAACACCTTGC -CTCGGTGTACGATGCGGCGCATCCACGCGCCAAACGGGGGAAATAATGCGTTTTTACCGGCCTTTGGGGCGCATCTCGGC -GCTCACCTTTGACCTGGATGATACCCTTTACGATAACCGTCCGGTGATTTTGCGCACCGAGCGAGAGGCGCTTACCTTTG -TGCAAAATTATCATCCGGCGCTGCGCAGCTTCCAGAATGAAGATCTGCAACGCCTGCGCCAGGCGGTACGGGAAGCGGAA -CCCGAGATTTATCACGACGTGACGCGCTGGCGTTTTCGTTCGATTGAACAAGCGATGCTCGACGCCGGGCTGAGTGCCGA -AGAAGCCAGTGCAGGCGCACACGCAGCAATGATCAACTTTGCCAAATGGCGCAGCCGAATCGACGTCCCGCAGCAAACTC -ACGACACCTTAAAACAGCTGGCGAAGAAATGGCCGCTGGTGGCGATCACCAACGGTAACGCCCAGCCGGAGCTGTTTGGT -TTGGGGGATTATTTTGAGTTTGTGCTGCGCGCTGGCCCGCACGGGCGCTCAAAACCGTTCAGCGATATGTACTTTTTGGC -TGCGGAAAAACTCAACGTGCCGATCGGCGAGATCTTACATGTTGGGGACGATCTCACCACTGACGTGGGTGGGGCAATTC -GCAGCGGAATGCAGGCTTGTTGGATCAGACCGGAAAATGGCGATCTGATGCAAACCTGGGACAGCCGTTTACTGCCGCAT -CTGGAAATTTCCCGGTTGGCATCTCTGACCTCGCTGATATAATCAGCAAATCTGTATATATACCCAGCTTTTTGGCGGAG -GGCGTTGCGCTTCTCCGCCCAACCTATTTTTACGCGGCGGTGCCAATGGACGTTTCTTACCTGCTCGACAGCCTTAATGA -CAAACAGCGCGAAGCGGTGGCCGCGCCACGCAGCAACCTTCTGGTGCTGGCGGGCGCGGGCAGTGGTAAGACGCGCGTAC -TGGTGCATCGTATCGCCTGGTTGATGAGCGTGGAAAACTGCTCGCCATACTCGATTATGGCGGTGACGTTTACCAACAAA -GCGGCGGCGGAGATGCGTCATCGTATCGGGCAACTGATGGGCACGAGCCAGGGCGGTATGTGGGTCGGCACCTTCCACGG -GCTGGCGCACCGTTTGCTGCGTGCGCACCATATGGACGCCAATCTGCCGCAGGATTTCCAGATCCTCGACAGTGAAGACC -AGCTACGCCTGCTTAAGCGTCTGATCAAAGCCATGAACCTCGACGAGAAGCAGTGGCCGCCGCGGCAGGCAATGTGGTAC -ATCAACAGCCAGAAAGATGAAGGCCTGCGTCCGCATCATATTCAAAGCTACGGTAATCCGGTGGAGCAGACCTGGCAGAA -GGTGTATCAGGCGTATCAGGAAGCGTGTGACCGCGCGGGCCTGGTGGACTTCGCCGAGCTGCTGCTGCGCGCTCACGAGT -TGTGGCTTAACAAGCCGCATATCCTGCAACACTACCGCGAACGTTTTACCAATATCCTGGTGGACGAATTCCAGGATACC -AACAACATTCAGTACGCGTGGATCCGCCTGCTGGCGGGCGACACCGGCAAAGTGATGATCGTCGGTGATGACGACCAGTC -AATCTACGGCTGGCGCGGGGCGCAGGTGGAGAATATTCAGCGTTTCCTTAATGATTTCCCCGGTGCCGAAACTATTCGTC -TGGAGCAAAACTACCGCTCTACCAGCAATATTCTGAGCGCCGCTAACGCCCTGATTGAAAACAATAACGGGCGTCTGGGT -AAAAAACTGTGGACCGATGGCGCGGACGGTGAGCCTATTTCCCTCTATTGCGCTTTTAACGAACTCGATGAAGCGCGTTT -TGTGGTTAACCGCATCAAAACCTGGCAGGACAACGGCGGAGCGCTTGCCGAGTGCGCCATTCTCTACCGCAGCAACGCCC -AGTCGCGGGTGCTCGAAGAGGCGTTATTGCAGGCCAGTATGCCGTACCGTATTTACGGCGGGATGCGCTTCTTCGAACGC -CAGGAAATCAAAGATGCGCTCTCGTATCTGCGCCTGATTGCCAACCGCAACGACGACGCGGCCTTTGAGCGTGTGGTGAA -TACGCCAACGCGGGGTATTGGTGACCGGACGCTGGACGTGGTACGTCAGACATCGCGCGATCGCCAGTTAACACTCTGGC -AGGCATGTCGTGAGCTGTTGCAGGAAAAAGCCCTCGCCGGGCGAGCTGCCAGCGCCTTGCAGCGATTTATGGAATTAATC -GACGCCTTAGCGCAGGAAACTGCCGATATGCCGCTGCATGTACAGACTGACCGGGTAATTAAAGACTCCGGCCTGCGTAC -CATGTATGAGCAGGAGAAGGGCGAAAAAGGTCAGACGCGTATCGAAAACTTAGAGGAACTGGTGACGGCAACGCGCCAGT -TCAGCTACAACGAAGAAGACGAAGATTTAATGCCGCTGCAGGCGTTCCTCTCCCATGCGGCACTGGAAGCAGGTGAAGGG -CAGGCGGATACCTGGCAGGATGCGGTGCAGTTGATGACGCTACACTCGGCGAAAGGCCTGGAGTTCCCGCAGGTGTTTAT -CGTTGGTATGGAAGAGGGCATGTTCCCAAGCCAGATGTCGCTGGATGAAGGCGGGCGTCTGGAAGAAGAACGCCGTCTGG -CCTACGTTGGCGTAACCCGCGCGATGCAGAAACTGACGCTGACCTACGCGGAAACCCGCCGTCTGTATGGTAAAGAGGTT -TACCATCGCCCGTCGCGCTTTATCGGCGAGCTGCCGGAAGAGTGTGTGGAAGAGGTGCGCCTGCGCGCCACGGTAAGCCG -CCCGGTCAGCCATCAGCGGATGGGTACGCCGATGGTCGAGAACGACAGCGGCTACAAGCTCGGCCAGCGCGTACGCCACG -CTAAGTTTGGTGAAGGCACCATTGTCAATATGGAAGGCAGCGGTGAGCATAGCCGTTTGCAGGTGGCATTTCAGGGCCAG -GGTATTAAATGGCTGGTGGCGGCATACGCCCGGCTGGAGTCGGTGTAACGTTGCCGGATGCGGTGCTGCGCACCTTATTT -GGCCTAAAAAATCATTCAGATTCAATAAATTGCAACGTCATGTAGGCCGGATAGGGCGTTTACGCCGCATCCGGCATCTG -CGCCATCTTCAGTATCTGACACAAAACTATCGTTTTAACCTTTCCGCTCGACGGAAATCATGGTGACAAAAGGATAGCGT -TGCCACGGGATTGCCCCGCCTTTCATATACATATGTGAAATCGTGCCATCAAGATAAAGCAGCTGCTCAACGTTCAGTTT -CGCTTTGGCATAACAGGCAAAATCATAAAAATTTGTTGCCTGCTGGCTCAACAAAAACACGGCGTTCCCATGTTTATTAA -TCCCAACACCGTTACGAATTTTGCTTGAGGCGACGTTGGGATGAATACGCGGATTAATTACACCGTTTTCCATCAACATT -GGCCCTGACTGCACCGCAAACTGAATCTCTTTACTGGTTTTGAAGGCATCCAGACGAACGATGCCGACTTTATCTCCCGC -GACATAAAACACGCCGCCAGGACGGATAAAGAAATTCCCTTCACCTGAAGCGAGATTTAACGCCACCTTCTGCTGACCGT -TTTCGATGTACAAACCGAGCGGCGCATAGCTTTCATCATAGATGCCGCCGTTCATCGCCATCTGCACCTGACCCTGACTA -TTAATATCCGCCAGCAGAGCATGTAACGTTCCCCACGCTTCGCCATTGGCTTTTTGCCAGTACATTTTCACCCGCTCTGT -TTGAGGATTAACGGTATACGCCTGTACGGTCAGCGTCGGATCTGAGAGTGCGCAATCATCAGCGGCAACAGCAAACAAGG -GAAGTAAGGTGAGGGCGAGAAAAATCCGTTTGAGATTCAAGGTGATCATTCCTTTACCAATGAGTAGCTGATGCGCCATT -ATAGGTCCTGGATGTGGGATTTTTTTATCCTGTTAGCGACCTTGACGAGTACCAAAAAGCGCGAAGTTCAACTATTGTTC -TGTGGTGTTCTGTTGCGTGTTGACGGCAAAATTTTGCTGGCGTAACATGCGCGCACGATCACTCTAAGAGGACATTCGCC -TTGGACACACCCAGTAGATACTGGCTCACTATCCTGTCATCCAGGATCAACTCCTAAGGCTATCCCTTTTTGCTGATAGC -CTTAGCGGTTGTCAGCGACCTCAATTTTTCCCGTCGCGCTGAGTCAGGCTGTTTAATGGTCTGAAACCCAATTTGTTTCT -GTGTGCCCACCGAACTGTCCGATATTTTAAGCATTGGGAGTCCCGGTCATGCTGAGCGCATTTCAACTGGAAAATAACCG -ACTGACCCGGCTGGAAGTCGAAGAGTCACAACCCCTTGTAAATGCAGTATGGATTGATCTTGTCGAACCGGACGACGACG -AGCGACTGCGCGTACAATCTGAACTTGGCCAGAGCCTGGCAACCCGCCCGGAACTGGAAGACATCGAAGCATCGGCACGT -TTCTTTGAAGACGACGACGGCCTGCATATTCACTCCTTCTTCTTCTTTGAAGATGCGGAAGATCACGCCGGTAACTCCAC -TGTGGCATTTACCATCCGTGATGGTCGTCTGTTTACTCTGCGTGAGCGTGAACTGCCCGCTTTTCGTCTGTATCGTATGC -GTGCCCGTAGCCAGTCGATGGTAGACGGTAACGCCTACGAGTTGCTGCTGGATCTGTTCGAAACCAAAATCGAACAGTTG -GCAGATGAAATTGAAAATATCTATAGCGACCTGGAGCAGTTGAGCCGGGTGATTATGGAAGGGCATCAGGGCGATGAGTA -CGACGAGGCGCTCTCCACTCTGGCGGAACTGGAAGATATCGGCTGGAAAGTTCGCCTGTGTCTGATGGATACCCAGCGCG -CGCTCAACTTCCTGGTGCGTAAAGCGCGTTTACCGGGTGGGCAACTGGAGCAGGCGCGTGAAATCCTGCGAGATATCGAA -TCCCTGCTGCCGCATAACGAATCCCTGTTCCAGAAGGTGAACTTCCTGATGCAGGCGGCAATGGGTTTTATCAACATCGA -GCAGAACCGCATCATCAAAATCTTCTCGGTGGTATCCGTGGTATTCCTGCCGCCGACGCTCGTTGCTTCCAGCTATGGCA -TGAACTTTGAGTTTATGCCAGAACTGAAGTGGAGCTTCGGCTACCCTGGCGCGATTATCTTTATGATCCTCGCGGGCCTG -GCACCGTATCTGTACTTTAAGCGGAAGAACTGGTTGTAAAAAACGAGAGCGGTGGCTTAGTCTGGCTAAGCCACCTGTTA -TTCAAAGGCTCCAGGTATTTAACCCTTTTACCTCTTTCTCATAGAACCATTTGTTCGTGTTAACAGCAACATAGGCTGCT -ACGGCAATTCCCAGAATGTTAACGCCAATTAGTGCACCAACAAATAGAGATAGAATACCAAGTAATAGAACTATAATTGC -TTTTTTCCATAACCCCAGGACAAATAAATATATCCAGGAACAGAAGAAAGCAATGAAATTCATTTGAATAGTTAAGCGTT -GTCTTACTTTTAATGCTTTAAATGCTGCTTTATATTCTGGTGTTGCCCCCCAGAATCCAGGAAAACCATGTTGATCATAA -AAATTAAATCGGTATTTCCATTTTTCACTTAATGAACCATCGTTCATATATTCCTTACTCATAAATACTCCATAACTATT -GTTTTGATGAATCAGTAGGTGCAAGCATTAGCATACTGAAAGTGGAAAAATAACAAATCAAAAAAATCATCGAACCATTG -CCTGAACAGGCAAAATCTTCGGCTATCATTGTGATGATAGAGATGATATATACTGCTAATGTACCAAAAACATAAGTTTT -TATATAGATGAAACCACTATCACGGAGTCGCTGGCAATTCATGTTGATGACGAGATAATGGAGTACGATGGTAGAGACTA -TAACAAGAAAGCCTGCTTCTCCATCGTTAAAAAAGATAATAAGAAAGGCAAAAATGAAATTTATTAAAATAAATGAAAAT -ATATAACGACGTCTGGAAATCTTACCGTTAGATGTTGGGATAAATATACGTAACATAAATTTTACATCCTTGTATGAGTC -TCCGGTCAGCATGGCAATATGCCCACTCTCATGCAAGAGTCGGCATATTTTTTCAGAATATATTTATTTTTTATTTGGAC -GTTCTACGCTGCGTATAAATCGCATCCATCACAAAAATTGCCAGCGCCACCCAAATAAAGGCGAAAGTCACCATCTTATC -GGCACCCGGTTTTTCACCATAAAACGTCACAGCCAGCAGGAACATCAGCGTCGGGCCAATGTACTGGAAAAAGCCTAACG -TTGAGAGACGCAAGCGCGTGGCAGCGGCGGTAAAACACAACAGCGGTACGGTAGTGACAATACCGGCGGCGATCAGCAGT -AAATTCAGCGACATCGGGTTTTGCCCCATATGGCTGGTTGAGCTGTCGGCAATAGCAAACAGGTAAATTGCCGCCACGGG -CAGCAGCCACATGGTTTCGATTAACATGCCGGTTTGCGCTTCAACGGCAATCTTCTTGCGTACCAGACCGTAGAAGGCAA -AACTAAATGCCAGTCCCAGCGCGATAATAGGTAGCGAACCAAAAGTCCACAGCTGGACTAACACGCCACATATCGCCAGA -ATCACCGCCAGCCATTGCATCCGGCGGAATCGCTCGCCGAGGAAAATCATCCCCAGCACAATGTTCACCAGCGGGTTAAT -AAAGTAACCAAGGCTCGCTTCCAGCATATGGTGATTGTTCACCGCCCAGATAAACAGTAGCCAGTTGCCACCAATCAGCA -CGGCAGAGACTGCCAGCATAAAAATTTTCTGTGGCGTCTGAATCAGCGTTTTTAAATAGGACCACTGGCGGCAAATGCTC -ATCAGCACCACCATAAAGAAAAACGACCAGATCACGCGATGCGTCAGGATTTCATCGGCGGGCACGTAGTAAATCAACTT -GAAGTACGCTGGCGCTATACCCCAAATAAAATAAGCGGCAAGAGCGAGTAATACGCCCTGCCGCGTTTGTTTTGCATCCA -TCGGGAATACTCATTTTTAATTGGTAACAGCAGTTTACCTGCTTTTATGTCTTCAACCTACCATATAGGTGGCGGTGGCA -CTGGCAATATAAAGCTGTTCTTCATTGTGTAATTCAACGCGGGCGACGGCGACTTTATTGCCTGCACGCAACAGGCTACT -AGTAGCAGTAAAACGCTCGCCCCTGCCTGGGCGCAGATAATCAACGCGAAGATCAATGGTCCCCATCCGCGATAGCCGCT -GGCGTAGTTCATCTTCACTGATGGTTTCGTGGCGGGTTAAGGTACTTCCCACGCACACCAGACCGGCGGCGACATCCAGC -GCCGACGCAATGACCCCGCCGTGCAAAATGCTTTGCGCCCAGTTGCCCACCATCATTGGCTGATTTTTAAAGGCCAGCTG -TGCGAACTCTTTTTCGTAACGCTCCAGTTCCATCCCCAATGCGCGGTTAAATGGCATGTGATAAACAAACATCTCACCCA -CTAATTTCAGGGCTTGTTCAGCGGTCAGTACGGCAGACATATCATCCTTACACTTCATTGGTTAATGAAATGTTGATTTT -ATGCTTCTTTGTTGTTGGTTTCTACTTTAGGAAGGGATAACTAACGGCTATGGAGTTAAGTATGTAAAATAGCCCGCAGA -AAAATATTCACCTTATCAATAATTCGTTACGGAGAACACGACCGATGCGGACTCTGCAGGGCTGGTTGTTGCCGGTGTTT -ATGTTGCCTATGGCAGTATATGCACAAGAGGCAACGGTGAAAGAGGTGCATGACGCGCCAGCGGTGCGTGGCAGTATTAT -CGCCAATATGCTGCAGGAGCATGACAATCCGTTCACGCTCTATCCTTATGACACCAACTACCTCATTTACACCCAAACCA -GCGATCTGAATAAAGAAGCGATTGCCAGTTACGACTGGGCGGAAAATGCGCGTAAGGATGAAGTAAAGTTTCAGTTGAGC -CTGGCATTTCCGCTGTGGCGTGGGATTTTAGGCCCGAACTCGGTGTTGGGTGCGTCTTATACGCAAAAATCCTGGTGGCA -ACTGTCCAATAGCGAAGAGTCTTCACCGTTTCGTGAAACCAACTACGAACCGCAATTGTTCCTCGGTTTTGCCACCGATT -ACCGTTTTGCAGGTTGGACGCTGCGCGATGTGGAGATGGGGTATAACCACGACTCTAACGGGCGTTCCGACCCGACCTCC -CGCAGCTGGAACCGCCTTTATACTCGCCTGATGGCAGAAAACGGTAACTGGCTGGTAGAAGTGAAGCCGTGGTATGTGGT -GGGTAATACTGACGATAACCCGGATATCACCAAATATATGGGTTACTACCAGCTTAAAATCGGCTATCACCTCGGTGATG -CGGTGCTCAGTGCGAAAGGACAGTACAACTGGAACACCGGCTACGGCGGCGCGGAGTTAGGCTTAAGTTACCCGATCACC -AAACATGTGCGCCTTTATACTCAGGTTTACAGCGGCTATGGCGAATCGCTCATCGACTATAACTTCAACCAGACCCGTGT -CGGTGTGGGGGTTATGCTAAACGATTTGTTTTGATGAACGGTTGAGTGGTTGGCAAATCTGGAATCCAGCATCCAGGATT -ACCCTCTCAGAGACTAAAAGCATTGCAGTTTCTCGCGCAGGCGCTGAAAATAGCGCCTGTTTTTATTTCAGGCAATCGGG -GTGAATGTGGCGCAGGCGGAAGTGTTGAATCTGGAGTCCGGAGCTAAACAGGTTTTACAAGAAACCTTTGGCTACCAACA -GTTTCGCCCCGGCCAGGAAGAAATTATCGACACTGTGCTTTCCGGCCGCGATTGCCTCGTCGTCATGCCCACTGGTGGCG -GAAAATCCCTTTGCTATCAAATCCCTGCCTTATTGCTAAACGGCCTTACCGTGGTTGTTTCACCGCTGATTTCGTTGATG -AAAGATCAGGTGGATCAACTGCAAGCCAACGGCGTGGCGGCGGCGTGCCTTAACTCGACGCAAACCCGCGAACAGCAACT -TGAAGTGATGACAGGCTGCCGCACCGGGCAAATTCGTCTGCTTTATATCGCCCCGGAACGCCTGATGCTGGATAACTTTC -TTGAGCATCTGGCGCACTGGAATCCGGTGTTATTAGCCGTTGATGAAGCGCACTGTATCTCCCAATGGGGCCACGATTTC -CGCCCGGAATATGCCGCGCTCGGTCAGTTGCGCCAGCGGTTCCCGACGCTGCCGTTTATGGCGCTGACCGCCACAGCCGA -CGACACCACGCGCCAGGATATCGTGCGCCTGCTGGGGCTGAACGATCCGCTGATTCAAATCAGCAGTTTTGACCGTCCGA -ATATTCGCTACATGCTGATGGAGAAGTTCAAACCGCTCGATCAGTTGATGCGCTACGTGCAGGAACAGCGCGGTAAGTCA -GGCATTATCTACTGCAACAGCCGCGCGAAAGTAGAAGACACCGCTGCGCGCCTGCAAAGCAAGGGAATTAGCGCGGCGGC -CTATCATGCCGGGCTGGAAAATAATGTTCGCGCCGATGTGCAGGAAAAATTCCAGCGCGATGACCTGCAAATTGTGGTGG -CGACGGTGGCGTTCGGCATGGGCATCAATAAACCAAACGTTCGCTTCGTGGTCCACTTTGATATTCCGCGCAATATCGAA -TCCTATTATCAGGAAACCGGACGCGCCGGGCGTGATGGCCTGCCCGCGGAAGCGATGCTGTTTTACGATCCGGCTGATAT -GGCGTGGCTGCGCCGTTGTCTGGAAGAGAAGCCGCAGGGGCAGTTGCAGGATATCGAGCGCCACAAACTCAATGCGATGG -GCGCGTTTGCCGAAGCGCAAACTTGCCGTCGTCTGGTATTGCTGAACTATTTTGGCGAAGGGCGTCAGGAGCCGTGCGGG -AACTGCGATATCTGCCTCGATCCGCCGAAACAGTACGACGGTTCAACCGATGCTCAGATTGCCCTTTCCACCATTGGTCG -TGTGAATCAGCGGTTTGGGATGGGTTATGTGGTGGAAGTGATTCGTGGTGCTAATAACCAGCGTATCCGCGACTATGGTC -ATGACAAACTGAAAGTCTATGGCATGGGCCGTGATAAAAGCCATGAACATTGGGTGAGCGTGATCCGCCAGCTGATTCAC -CTCGGCCTGGTGACGCAAAATATTGCCCAGCATTCTGCCCTACAACTGACAGAGGCCGCGCGCCCGGTGCTGCGCGGCGA -ATCCTCTTTGCAACTTGCCGTGCCGCGTATCGTGGCGCTCAAACCGAAAGCGATGCAGAAATCGTTCGGCGGCAACTATG -ATCGCAAACTGTTCGCCAAATTACGCAAACTGCGTAAATCGATAGCCGATGAAAGTAATGTCCCGCCGTACGTGGTGTTT -AACGACGCAACCTTGATTGAGATGGCTGAACAGATGCCGATCACCGCCAGCGAAATGCTCAGCGTTAACGGCGTTGGGAT -GCGCAAGCTGGAACGCTTTGGCAAACCGTTTATGGCGCTGATTCGTGCGCATGTTGATGGCGATGACGAAGAGTAGTCAG -CAGCATAAAAAAGTGCCAGTATGAAGACTCCGTAAACGTTTCCCCCGCGAGTCAAATGTATGTTGATGTTATTTCTCACC -GTCGCCATGGTGCACATTGTGGCGCTTATGAGCCCCGGTCCCGATTTCTTTTTTGTCTCTCAGACCGCTGTCAGTCGTTC -CCGTAAAGAAGCGATGATGGGCGTGCTGGGCATTACCTGCGGCGTAATGGTTTGGGCTGGGATTGCGCTGCTTGGCCTGC -ATTTGATTATCGAAAAAATGGCCTGGCTGCATACGCTGATTATGGTGGGCGGTGGCCTGTATCTCTGCTGGATGGGTTAC -CAGATGCTACGTGGTGCACTGAAAAAAGAGGCGGTTTCTGCACCTGCGCCACAGGTCGAGCTGGCGAAAAGTGGGCGCAG -TTTCCTGAAAGGTTTACTGACCAATCTCGCTAATCCGAAAGCGATTATCTACTTTGGCTCGGTGTTCTCATTGTTTGTCG -GTGATAACGTTGGCACTACCGCGCGCTGGGGCATTTTTGCGCTGATCATTGTCGAAACGCTGGCGTGGTTTACCGTCGTT -GCCAGCCTGTTTGCCCTGCCGCAAATGCGCCGTGGTTATCAACGTCTGGCGAAGTGGATTGATGGTTTTGCCGGGGCGTT -ATTTGCCGGATTTGGCATTCATTTGATTATTTCGCGGTGATGCCAGACGCGTCTTCAGAGTAAGTCGGATAAGGCGTTTA -CGCCGCATCCGACATTATTTTTCACGCATGCCTCGCCGATGCTAACAGCGCTCCCACCAGCATAAACAACGAGCCGAAAA -TCTTATTCAGCGCCTTCATCTGCTTTGGTCCTTTAATCCATAGAGCAATCCGTTGAGCAAGGGTGGCGTAACCGATCATC -ACAATAATATCGACCACAATAGTGGTGACGCCGAGCACGATATACTGCATCAGTTGCGGCTGTTGCGGCATGATGAATTG -CGGAAATAGCGCCGCCAGAAACACAATACTTTTGGGATTGGTGAGATTCACAAAAACTGCGCGCTGGAACAAATGTCGAC -GCGATTGAGTAGAGGCCAGCGATTTAAGGTCAATTGCACCAGCGGCGCGCCACTGCTGGATTCCCAGCCAAATCAAGTAA -GCCGCGCCTGCCCACTTCAACACTTCAAACGCAATCACTGAGCGGGAAAATAGCGTCCCCAACCCCACGCCAACCAGCAC -AATATGAATCGCCAGTCCGGTCTGAAGCCCAGCAATAGACGCCACCGCGCCGCGATAACCGTGGTTGAGCGAGGTGGTCA -TAGTGTTGATTGCACCAGAGCCTGGCGACAGGCTTAAAATGATCGATGTCAGCAGGTAGGCAAACCACCATTCTAAGGTC -ATGATGAACTCCCGGTGTGTCTATTTTTGTGCCACAATACGCTACTGTCGCAGCGTTGTGTCAGGCACGCTAAAAAAAAC -GATTTTACGTGGTTTAAGAGGCAGATTACCCGATGTTTCAGCAGCAAAAAGACTGGGAAACAAGAGAAAACGCGTTTGCT -GCTTTTACCATGGGACCGCTGACTGATTTCTGGCGTCAGCGTGATGAAGCAGAGTTTACTGGTGTGGATGACATTCCGGT -GCGCTTTGTCCGTTTTCGCGCACAGCACCATGACCGGGTGGTAGTCATCTGCCCGGGGCGTATTGAGAGCTACGTAAAAT -ATGCGGAACTGGCCTATGACCTGTTCCATTTGGGGTTTGATGTCTTAATCATCGACCATCGCGGGCAGGGACGTTCCGGT -CGCCTGTTAGCCGATCCGCATCTCGGGCATGTTAATCGCTTTAATGATTATGTTGATGATCTGGCGGCATTCTGGCAGCA -GGAGGTTCAGCCCGGTCCGTGGCGTAAACGCTATATACTGGCACATTCGATGGGCGGTGCGATCTCCACATTATTTCTGC -AACGCCATCCAGGTGTATGTGACGCCATTGCGCTAACTGCGCCAATGTTTGGGATCGTGATTCGTATGCCGTCATTTATG -GCACGGCAGATCCTCAACTGGGCCGAAGCGCATCCACGTTTCCGTGATGGCTATGCAATAGGCACCGGGCGCTGGCGCGC -GTTGCCGTTTGCTATCAACGTACTGACCCACAGCAGACAGCGATATCGACGTAACTTACGCTTCTATGCTGATGACCCAA -CGATTCGCGTCGGTGGGCCGACCTACCATTGGGTACGCGAAAGTATTCTGGCTGGCGAACAGGTGTTAGCCGGTGCGGGT -GATGACGCCACGCCAACGCTTCTCTTGCAGGCTGAAGAGGAACGCGTGGTGGATAACCGCATGCATGACCGTTTTTGTGA -ACTCCGCACCGCCGCGGGCCATCCTGTCGAAGGAGGACGGCCGTTGGTAATTAAAGGTGCTTACCATGAGATCCTTTTTG -AAAAGGACGCAATGCGCTCAGTCGCGCTCCACGCCATCGTTGATTTTTTCAACAGGCATAACTCACCCAGCGGAAACCGC -TCTACAGAGGTTTAAATTTCTTATGTACCAGGTTGTTGCGTCTGATTTAGATGGCACGTTACTTTCTCCCGACCATACGT -TATCCCCTTACGCCAAAGAAACTCTGAAGCTGCTCACCGCGCGCGGCATCAACTTTGTGTTTGCGACCGGTCGTCACCAC -GTTGATGTGGGGCAAATTCGCGATAATCTGGAGATTAAGTCTTACATGATTACCTCCAATGGTGCGCGCGTTCACGATCT -GGATGGTAATCTGATTTTTGCTCATAACCTGGATCGCGACATTGCCAGCGATCTGTTTGGCGTAGTCAACGACAATCCGG -ACATCATTACTAACGTTTATCGCGACGACGAATGGTTTATGAATCGCCATCGCCCGGAAGAGATGCGCTTTTTTAAAGAA -GCGGTGTTCCAATATGCGCTGTATGAGCCTGGATTACTGGAGCCGGAAGGCGTCAGCAAAGTGTTCTTCACCTGCGATTC -CCATGAACAACTGCTGCCGCTGGAGCAGGCGATTAACGCTCGTTGGGGCGATCGCGTCAACGTCAGTTTCTCTACCTTAA -CCTGTCTGGAAGTGATGGCGGGCGGCGTTTCAAAAGGCCATGCGCTGGAAGCGGTGGCGAAGAAACTGGGCTACAGCCTG -AAGGATTGTATTGCGTTTGGTGACGGGATGAACGACGCCGAAATGCTGTCGATGGCGGGGAAAGGCTGCATTATGGGCAG -TGCGCACCAGCGTCTGAAAGACCTTCATCCCGAGCTGGAAGTGATTGGTACTAATGCCGACGACGCGGTGCCGCATTATC -TGCGTAAACTCTATTTATCGTAATCGTTCTTTATTTGGTCAGTTGTCAACCTGATACTTCGCTACAATGGATACCCGTTA -ATCAAAGAGTTTTCCATTGTGGCGCTACTTATCATCACCACGATTCTGTGGGCCTTCTCCTTTAGCTTTTATGGCGAGTA -CCTTGCGGGGCACGTCGATAGCTATTTTGCGGTGCTGGTGCGCGTTGGCCTGGCGGCACTCGTTTTTCTGCCGTTTCTGC -GTACCCGTGGCAATAGCCTGAAAACGGTCGGCCTGTATATGCTGGTGGGCGCGATGCAGCTTGGCGTGATGTATATGCTG -AGTTTCCGCGCTTATCTCTACCTGACGGTTTCCGAGCTGCTGCTGTTCACCGTGCTGACGCCGCTCTACATCACGCTGAT -TTATGACATCATGAGTAAGCGCCGTCTGCGCTGGGGCTATGCCTTTAGCGCCTTGCTGGCGGTGATTGGTGCCGGGATTA -TTCGCTATGATCAGGTCACCGACCATTTCTGGACTGGCTTGCTGCTGGTGCAACTCTCCAATATCACTTTTGCCATTGGC -ATGGTGGGTTACAAACGCCTGATGGAAACTCGCCCGATGCCACAGCATAACGCCTTTGCGTGGTTCTATCTTGGCGCGTT -TCTGGTGGCAGTGATTGCATGGTTCTTGCTGGGAAATGCGCAGAAAATGCCGCAAACCACGCTGCAATGGGGCATTCTGG -TGTTTCTTGGCGTGGTGGCTTCCGGGATTGGCTACTTTATGTGGAACTACGGCGCGACGCAGGTGGACGCCGGAACGCTG -GGCATTATGAATAATATGCACGTTTCGGCAGGGCTGCTGGTAAACCTGGCTATCTGGCACCAACAGCCGCACTGGCCAAC -GTTTATTACAGGCGCGCTGGTGATCCTGGCCTCACTGTGGGTGCATCGTAAGTGGGTCGCTCCGCGCTCTTCACAAACGG -CAGATGATCGCAGGCGTGATTGCGCGCTGAGCGAATAAACGCTTCCGTAACTGGCTGACGCTGCTCGCCATCGCGCACGG -CGGCGTACAGTCGGCTCCACAAGCCTTCGCCCAGGGTTTTGGTCACCACCAGACCCTGGCGCTCAAAACTCTCTACTACC -CAATGCGGTAGCGCGGCAATACCCATCCGCGCGGCAACCATCTGAATCAACAATAAGGTGTTATCGACGCTTTTCAGTGA -CGGGCTGACGCCTGCCGGCTGAAGAAAATGCCGCCAGACATCCAGTCGACTACGCTGCACCGGATAAATTAATAGCGTCT -CGCTGGCGAGATCTTCCGGTGTAATTCGCGTTTTCGCCGCCAGTGGATGGTCAGGTGCTAACACCAGACGCACTTCATAG -TCGAACATCGGCGAATAATGCAGGCCACTGCGCGGCAGAATATCGGACGTCATTACCAGATCCAGCTCTCCCTGTTGCAA -GGCGGGCTGCGGGTCAAATGTCACGCCCGATTTAAAATCCATCTCTACCTGCGGCCAGTTCTTATGGAAATTTTCTAACG -CGGGTGTCAGCCACTGAATACAGCTATGGCACTCAATGGCAATGCGCAGACGCGTCTGCTGCGGTTCATTGCAGGCTTGC -AGGGCCTGGCTAATTTGCGGCAGTACCTGGTTTGCCAGTTGCAACAGGATTTCTCCCTGCGGTGTAAAGCGTAGCGGCTG -GCTCTTACGCACAAATAGCCGGAAGCCAAGGCGTTGTTCCAGATCGCTAAACTGGTGAGACAGGGCGGATTGCGTCTGAT -GCAACGTCGCCGCAGCGGCTGCGAGCGAGCCGCAGTTCCGCAACGCTTGTAGCGTTTTCAGGTGTTTTACTTCGATCATG -AAAGTCCTTCACTTCGGCATGAATAATTTGCGCTTGAGGAATATACAGTAACCGCCAATTATGGATGTGTAAACATCTGG -ACGGCTAAAATCCTTCGTCTTTTAAATTTATGGTGCGTTGGCTGCGTTTCTCCACCCCGGTCACTTACTTCAGTAAGCTC -CCGGGGATGAATAAACTTGCCGCCTTCCCTAAATTCAAAATCCATAGGATTTACATATAATTAGAGGAAGAAAAAATGAC -AATATTGAATCACACCCTCGGTTTCCCTCGCGTTGGCCTGCGTCGCGAGCTGAAAAAAGCGCAAGAAAGTTATTGGGCGG -GGAACTCCACGCGTGAAGAACTGCTGGCGGTAGGGCGTGAATTGCGTGCTCGTCACTGGGATCAACAAAAGCAAGCGGGT -ATCGACCTGCTGCCGGTGGGCGATTTTGCCTGGTACGATCATGTACTGACCACCAGTCTGCTGCTGGGTAACGTTCCGGC -GCGTCATCAGAACAAAGATGGTTCGGTAGATATCGACACCCTGTTCCGTATTGGTCGTGGACGTGCGCCGACTGGCGAAC -CTGCGGCGGCAGCGGAAATGACCAAATGGTTTAACACCAACTATCACTACATGGTGCCGGAGTTCGTTAAAGGCCAACAG -TTCAAACTGACCTGGACGCAGCTGCTGGACGAAGTGGACGAGGCGCTGGCGCTGGGCCACAAGGTGAAACCTGTGCTGCT -GGGGCCGGTTACCTGGCTGTGGCTGGGGAAAGTGAAAGGTGAACAATTTGACCGCCTGAGCCTGCTGAACGACATTCTGC -CGGTTTATCAGCAAGTGCTGGCAGAACTGGCGAAACGCGGCATCGAGTGGGTACAGATTGATGAACCCGCGCTGGTACTG -GAACTACCACAGGCGTGGCTGGACGCATACAAACCCGCTTACGACGCGCTCCAGGGACAGGTGAAACTGCTGCTGACCAC -CTATTTTGAAGGCGTAACGCCAAATCTCGACACGATTACTGCGCTGCCTGTTCAGGGTCTGCATGTTGACCTCGTACATG -GTAAAGATGACGTTGCTGAACTGCACAAGCGCCTGCCTTCTGACTGGTTGCTGTCTGCGGGTCTGATCAATGGTCGTAAC -GTCTGGCGCGCCGATCTTACCGAGAAATATGCGCAAATTAAGGACATTGTCGGCAAACGTGATTTGTGGGTGGCATCTTC -CTGCTCGTTGCTGCACAGCCCCATCGACCTGAGCGTGGAAACGCGTCTTGATGCAGAAGTGAAAAGCTGGTTTGCCTTCG -CCCTACAAAAATGCCATGAACTGGCACTGCTGCGCGATGCGCTGAACAGTGGTGACACGGCAGCTCTGGCAGAGTGGAGC -GCCCCGATTCAGGCACGTCGTCACTCTACCCGCGTACATAATCCGGCGGTAGAAAAGCGTCTGGCGGCGATCACCGCCCA -GGACAGCCAGCGTGCGAATGTCTATGAAGTGCGTGCTGAAGCCCAGCGTGCGCGTTTTAAACTGCCAGCGTGGCCGACCA -CCACGATTGGTTCCTTCCCGCAAACCACGGAAATTCGTACCCTGCGTCTGGATTTCAAAAAGGGCAATCTCGACGCCAAC -AACTACCGCACGGGCATTGCGGAACATATCAAGCAGGCCATTGTTGAGCAGGAACGTTTGGGACTGGATGTGCTGGTACA -TGGCGAGGCCGAGCGTAATGACATGGTGGAATACTTTGGCGAGCACCTCGACGGATTTGTCTTTACGCAAAACGGTTGGG -TACAGAGCTACGGTTCCCGCTGCGTGAAGCCACCGATTGTCATTGGTGACATTAGCCGCCCGGCACCGATTACCGTGGAG -TGGGCGAAGTATGCGCAATCGCTGACCGACAAACCGGTGAAAGGGATGCTGACGGGGCCGGTGACCATACTCTGCTGGTC -GTTCCCGCGTGAAGATGTCAGCCGTGAAACCATCGCCAAACAGATTGCGCTGGCGCTGCGTGATGAAGTGGCCGATCTGG -AAGCCGCTGGAATTGGCATCATCCAGATTGACGAACCGGCGCTGCGCGAAGGTTTACCGCTGCGTCGTAGCGACTGGGAT -GCGTATCTCCAGTGGGGCGTAGAGGCCTTCCGTATCAACGCCGCCGTGGCGAAAGATGACACACAAATCCACACTCACAT -GTGTTATTGCGAGTTCAACGACATCATGGATTCGATTGCGGCGCTGGACGCAGACGTCATCACCATCGAAACCTCGCGTT -CCGACATGGAGTTGCTGGAGTCGTTTGAAGAGTTTGATTATCCAAATGAAATCGGTCCTGGCGTCTATGACATTCACTCG -CCAAACGTACCGAGCGTGGAATGGATTGAAGCCTTGCTGAAGAAAGCGGCAAAACGCATTCCGGCAGAGCGCCTGTGGGT -CAACCCGGACTGTGGCCTGAAAACGCGCGGCTGGCCAGAAACCCGCGCGGCACTGGCGAACATGGTGCAGGCGGCGCAGA -ACTTGCGTCGGGGGTAAAATCCAAACCGGGTGGTAATACCACCCGGTCTTTTCTCATTACAGCGACTTCTTCCCACCATA -CTGCTTAAACCATTCCAGCATACGCTGCCAGCCATCTTCTGCAGATGCGGCATGATAGCTCGGGCGATAATCAGCGTTGA -ATGCATGCCCGGCGTCCGGGTACACGATAATCTCTGCTTTCGCATTAGCAGCCCGCAGCGCCTGGCGCATGGTTTCAACG -CTCTCCTGCGGAATGCTGTTATCCTGACCACCATATAAGCCGAGAATCGGCGCGTTAAGATCGGTTGCGATATCAACAGG -TTGTTTCGGTGAATTCAGCGACTTGTCGCCCGTCAGTTTGCCGTACCACGCCACTGCGGCTTTTAGCTGTGGATTATGCG -CGGCATACAGCCAGGTGATACGTCCACCCCAGCAGAATCCGGTGATCATTAAACGATGAACATCGCCGCCGTTGCGGGAA -GCCCAACTGGCGACATGATCGAGATCGGCCAGCACCTGCGAGTCAGGCACTTTTGCTACCAGACCGCTAAGCAACGTGGG -GATATCGGCAAAATCATTCGGATCGCCTTCGCGGAAGTAAAGTTCAGGTGCGATAGCCAGATACCCCTCCAGCGCCAGAC -GGCGACAAATGTCGCGGATATGTTCATGCACGCCAAAAATTTCCTGCACTACAATGACCACTGGCAGTGGGCCATCGCTT -TGCTTTGGTCTGGCATGGTAAGCAGGCATGTTATCCCCTTGTGAAGGGATAGAGGTGAAGCCCGCCACAATCGCGTCGTC -CGGGGTCTGAACGATGGTCGAAGCGAGAGGCGATGCAGCAGGTGCAAATCCAGATTGTTGTGTTGTTGCCATGGTATTCT -CCGTACCCTTATAAAAATGTTGCGCAATGTTAACTATAGTCAGCATGCAACAAATCACATTGCCTGAATCGGCTCATCTT -TTATGCAGTCCTGCAGAATGAAGGGTGATTTATGTGATTTGCATCACTTTTGGTGGGTAAATTTATGCAACGCATTTGCG -TCATGGTGATGAGTATCACGAAAAAATGTTAAACCCTTCGGTAAAGTGTCTTTTTGCTTCTTCTGACTAAACCGATTCAC -AGAGGAGTTGTATATGTCCAAGTCTGATGTTTTTCATCTCGGCCTCACTAAAAACGATTTACAAGGGGCTACGCTTGCCA -TCGTCCCTGGCGACCCGGATCGTGTGGAAAAGATCGCCGCGCTGATGGATAAGCCGGTTAAGCTGGCATCTCACCGCGAA -TTCACTACCTGGCGTGCAGAGCTGGATGGTAAACCTGTTATCGTCTGCTCTACCGGTATCGGCGGCCCGTCTACCTCTAT -TGCTGTTGAAGAGCTGGCACAGCTGGGCATTCGCACCTTCCTGCGTATCGGTACAACGGGCGCTATTCAGCCGCATATTA -ATGTGGGTGATGTCCTGGTTACCACGGCGTCTGTCCGTCTGGATGGCGCGAGCCTGCACTTCGCACCGCTGGAATTCCCG -GCTGTCGCTGATTTCGAATGTACGACTGCGCTGGTTGAAGCTGCGAAATCCATTGGCGCGACAACTCACGTTGGCGTGAC -AGCTTCTTCTGATACCTTCTACCCAGGTCAGGAACGTTACGATACTTACTCTGGTCGCGTAGTTCGTCACTTTAAAGGTT -CTATGGAAGAGTGGCAGGCGATGGGCGTAATGAACTATGAAATGGAATCTGCAACCCTGCTGACCATGTGTGCAAGTCAG -GGCCTGCGTGCCGGTATGGTAGCGGGTGTTATCGTTAACCGCACCCAGCAAGAGATCCCGAATGCTGAGACGATGAAACA -AACCGAAAGCCATGCGGTGAAAATCGTGGTGGAAGCGGCGCGTCGTCTGCTGTAATTCTCTTCTCCTGTCTGAAGGCCGA -CGCGTTCGGCCTTTTGTATTTTTGCGTAGCGCCTCGCAGGAAATGCCTTTCCAACTGGACGTTTGTACAGCACAATTCTA -TTTTGTGCGGGTAAGTTGTTGCGTCAGGAGGCGTTGTGGATTTCTCAATCATGGTTTACGCAGTTATTGCGTTGGTGGGT -GTGGCAATTGGCTGGCTGTTTGCCAGTTATCAACATGCGCAGCAAAAAGCCGAGCAATTAGCTGAACGTGAAGAGATGGT -CGCGGAGTTAAGCGCGGCAAAACAACAAATTACCCAAAGCGAGCACTGGCGTGCAGAGTGCGAGTTACTCAATAACGAAG -TGCGCAGCCTGCAAAGTATTAACACCTCTCTGGAGGCCGATCTGCGTGAAGTAACCACGCGGATGGAAGCCGCACAGCAA -CATGCTGACGATAAAATTCGCCAGATGATTAACAGCGAGCAGCGCCTCAGTGAGCAGTTTGAAAACCTCGCCAACCGTAT -TTTTGAGCACAGCAATCGCCGGGTTGATGAGCAAAACCGTCAGAGTCTGAACAGCCTGTTGTCGCCGCTACGTGAACAAC -TGGACGGTTTCCGCCGTCAGGTTCAGGACAGCTTCGGTAAAGAAGCACAAGAACGCCATACCCTGACCCACGAAATTCGC -AATCTCCAGCAACTCAACGCGCAAATGGCCCAGGAAGCGATCAACCTGACGCGCGCGCTGAAAGGCGACAATAAAACCCA -GGGCAACTGGGGCGAGGTAGTATTGACGCGGGTGCTGGAGGCTTCCGGTCTGCGTGAAGGGTATGAATATGAAACCCAGG -TCAGCATCGAAAATGACGCCCGCTCGCGGATGCAGCCGGATGTCATCGTGCGCCTGCCGCAGGGAAAAGATGTGGTGATC -GACGCCAAAATGACGCTGGTCGCCTATGAACGCTATTTTAACGCCGAAGACGACTACACCCGCGAAAGCGCGCTACAGGA -ACATATCGCGTCGGTGCGTAACCATATCCGTTTGCTGGGACGCAAAGATTATCAACAGCTGCCGGGGCTGCGAACTCTGG -ATTACGTGCTGATGTTTATTCCCGTTGAACCCGCTTTTTTACTGGCGCTTGACCGCCAGCCGGAGCTGATCACCGAAGCG -TTGAAAAACAACATCATGCTGGTTAGCCCGACTACGCTGCTGGTGGCGCTGCGCACTATCGCCAACCTGTGGCGTTATGA -GCATCAAAGCCGCAACGCCCAGCAAATCGCCGATCGTGCCAGCAAGCTGTACGACAAGATGCGTTTGTTCATCGATGACA -TGTCCGCGATTGGTCAAAGTCTCGACAAAGCGCAGGATAATTATCGGCAGGCAATGAAAAAACTCTCTTCAGGGCGCGGA -AATGTGCTGGCGCAGGCAGAAGCGTTTCGCGGTTTAGGAGTAGAAATTAAACGCGAGATTAATCCGGATTTGGCTGAACA -GGCGGTGAGCCAGGATGAAGAGTATCGACTTCGGTCGGTTCCGGAGCAGCCGAATGATGAAGCTTATCAACGCGATGATG -AATATAATCAGCAGTCGCGCTAGCCCATTGGGAGTAGTTAAGCCGGGTAGAAATCTAGGGCATCGACGCCCAATCTGTTA -CACTTCTGGAACAATTTTTTGATGAGCAGGCATTGAGATGGTGGATAAGTCACAAGAAACGACGCACTTTGGTTTTCAGA -CCGTCGCGAAGGAACAAAAAGCGGATATGGTCGCCCACGTTTTCCATTCCGTGGCATCAAAATACGATGTCATGAATGAT -TTGATGTCATTTGGTATTCATCGTTTGTGGAAGCGATTCACGATTGATTGCAGCGGCGTACGCCGTGGGCAGACCGTGCT -GGATCTGGCTGGTGGCACCGGCGACCTGACAGCGAAATTCTCCCGCCTGGTCGGAGAAACTGGCAAAGTGGTCCTTGCTG -ATATCAATGAATCCATGCTCAAAATGGGCCGCGAGAAGCTGCGTAATATCGGTGTGATTGGCAACGTTGAGTATGTTCAG -GCGAACGCTGAGGCGCTGCCGTTCCCGGATAACACCTTTGATTGCATCACCATTTCGTTTGGTCTGCGTAACGTCACCGA -CAAAGATAAAGCACTGCGTTCAATGTATCGCGTGCTGAAACCCGGCGGCCGCCTGCTGGTGCTTGAGTTCTCGAAGCCAA -TTATCGAGCCGCTGAGCAAAGCCTATGATGCATACTCCTTCCATGTGCTGCCGCGTATTGGCTCACTGGTCGCGAACGAC -GCCGACAGCTACCGTTATCTGGCAGAATCCATCCGTATGCATCCCGATCAGGATACCCTGAAAGCCATGATGCAGGATGC -CGGATTCGAAAGTGTCGACTACTACAATCTGACGGCAGGGGTTGTGGCGCTGCATCGTGGTTATAAGTTCTGACAGGAGA -CCGGAAATGCCTTTTAAACCTTTAGTGACGGCAGGAATTGAAAGTCTGCTCAACACCTTCCTGTATCGCTCACCCGCGCT -GAAAACGGCCCGCTCGCGTCTGCTGGGTAAAGTATTGCGCGTGGAGGTAAAAGGCTTTTCGACGTCATTGATTCTGGTGT -TCAGCGAACGCCAGGTTGATGTACTGGGCGAATGGGCAGGCGATGCTGACTGCACCGTTATCGCCTACGCCAGTGTGTTG -CCGAAACTTCGCGATCGCCAGCAGCTTACCGCACTGATTCGCAGTGGTGAGCTGGAAGTGCAGGGCGATATTCAGGTGGT -GCAAAACTTCGTTGCGCTGGCAGATCTGGCAGAGTTCGACCCTGCGGAACTGCTGGCCCCTTATACCGGTGATATCGCCG -CTGAAGGAATCAGCAAAGCCATGCGCGGAGGCGCAAAGTTCCTGCATCACGGCATTAAGCGCCAGCAACGTTATGTGGCG -GAAGCCATTACTGAAGAGTGGCGTATGGCACCCGGTCCGCTTGAAGTGGCCTGGTTTGCGGAAGAGACGGCTGCCGTCGA -GCGTGCTGTTGATGCCCTGACCAAACGGCTGGAAAAACTGGAGGCTAAATGACGCCAGGTGAAGTACGGCGCCTATATTT -CATCATTCGCACTTTTTTAAGCTACGGACTTGATGAACTGATCCCCAAAATGCGTATCACCCTGCCGCTACGGCTATGGC -GATACTCATTATTCTGGATGCCAAATCGGCATAAAGACAAACTTTTAGGTGAGCGACTACGACTGGCCCTGCAAGAACTG -GGGCCGGTTTGGATCAAGTTCGGGCAAATGTTATCAACCCGCCGCGATCTTTTTCCACCGCATATTGCCGATCAGCTGGC -GTTATTGCAGGACAAAGTTGCTCCGTTTGATGGCAAGCTGGCGAAGCAGCAGATTGAAGCTGCAATGGGCGGCTTGCCGG -TAGAAGCGTGGTTTGACGATTTTGAAATCAAGCCGCTGGCTTCTGCTTCTATCGCCCAGGTTCATACCGCGCGATTGAAA -TCGAATGGTAAAGAGGTGGTGATTAAAGTCATCCGCCCGGATATTTTGCCGGTTATTAAAGCGGATCTGAAACTTATCTA -CCGTCTGGCTCGCTGGGTGCCGCGTTTGCTGCCGGATGGTCGCCGTCTGCGCCCAACCGAAGTGGTGCGCGAGTACGAAA -AGACATTGATTGATGAACTGAATTTGCTGCGGGAATCTGCCAACGCCATTCAGCTTCGGCGCAATTTTGAAGACAGCCCG -ATGCTCTACATCCCGGAAGTTTACCCTGACTATTGTAGTGAAGGGATGATGGTGATGGAGCGCATTTACGGCATTCCGGT -GTCTGATGTTGCGGCGCTGGAGAAAAACGGCACTAACATGAAATTGCTGGCGGAACGCGGCGTGCAGGTGTTCTTCACTC -AGGTCTTTCGCGACAGCTTTTTCCATGCCGATATGCACCCTGGCAACATCTTCGTAAGCTATGAACACCCGGAAAACCCG -AAATATATCGGCATTGATTGCGGGATTGTTGGCTCGCTAAACAAAGAAGATAAACGCTATCTGGCAGAAAACTTTATCGC -CTTCTTTAATCGCGACTATCGCAAAGTGGCAGAGCTACACGTCGATTCTGGCTGGGTGCCACCAGATACCAACGTTGAAG -AGTTCGAATTTGCCATTCGTACGGTCTGTGAACCTATCTTTGAGAAACCGCTGGCCGAAATTTCGTTTGGACATGTACTG -TTAAATCTGTTTAATACGGCGCGTCGCTTCAATATGGAAGTGCAGCCGCAACTGGTGTTACTCCAGAAAACCCTGCTCTA -CGTCGAAGGGGTAGGACGCCAGCTTTATCCGCAACTCGATTTATGGAAAACGGCGAAGCCTTTCCTGGAGTCGTGGATTA -AAGATCAGGTCGGTATTCCTGCGCTGGTGAGAGCATTTAAAGAAAAAGCGCCGTTCTGGGTCGAAAAAATGCCAGAACTG -CCTGAATTGGTTTACGACAGTTTGCGCCAGGGCAAGTATTTACAGCACAGTGTTGATAAGATTGCCCGCGAGCTTCAGTC -AAATCATGTACGTCAGGGACAATCGCGTTATTTTCTCGGAATTGGCGCTACGTTAGTATTAAGTGGCACATTCTTGTTGG -TCAGCCGACCTGAATGGGGGCTGATGCCCGGCTGGTTAATGGCAGGTGGTCTGATCGCCTGGTTTGTCGGTTGGCGCAAA -ACACGCTGATTTTTTCATCGCTCAAGGCGGGCCGTGTAACGTATAATGCGGCTTTGTTTAATCATCATCTACCACAGAGG -AACATGTATGGGTGGTATCAGTATTTGGCAGTTATTGATTATTGCCGTCATCGTTGTACTGCTTTTTGGCACCAAAAAGC -TCGGCTCCATCGGTTCCGATCTTGGTGCGTCGATCAAAGGCTTTAAAAAAGCAATGAGCGATGATGAACCAAAGCAGGAT -AAAACCAGTCAGGATGCTGATTTTACTGCGAAAACTATCGCCGATAAGCAGGCGGATACGAATCAGGAACAGGCTAAAAC -AGAAGACGCGAAGCGCCACGATAAAGAGCAGGTGTAATCCGTGTTTGATATCGGTTTTAGCGAACTGCTATTGGTGTTCA -TCATCGGCCTCGTCGTTCTGGGGCCGCAACGACTGCCTGTGGCGGTAAAAACGGTAGCGGGCTGGATTCGCGCGTTGCGT -TCACTGGCGACAACGGTGCAGAACGAACTGACCCAGGAGTTAAAACTCCAGGAGTTTCAGGACAGTCTGAAAAAGGTTGA -AAAGGCGAGCCTCACTAACCTGACGCCCGAACTGAAAGCGTCGATGGATGAACTACGCCAGGCCGCGGAGTCGATGAAGC -GTTCCTACGTTGCAAACGATCCTGAAAAGGCGAGCGATGAAGCGCACACCATCCATAACCCGGTGGTGAAAGATAATGAA -GCTGCGCATGAGGGCGTAACGCCTGCCGCTGCACAAACGCAGGCCAGTTCGCCGGAACAGAAGCCAGAAACCACGCCAGA -GCCGGTGGTAAAACCTGCTGCGGACGCTGAACCGAAAACCGCTGCACCTTCCCCTTCGTCGAGTGATAAACCGTAAACAT -GTCTGTAGAAGATACTCAACCGCTTATCACGCATCTGATTGAGCTGCGTAAGCGTCTGCTGAACTGCATTATCGCGGTGA -TCGTGATATTCCTGTGTCTGGTCTATTTCGCCAATGACATCTATCACCTGGTATCCGCGCCATTGATCAAGCAGTTGCCG -CAAGGTTCAACGATGATCGCCACCGACGTGGCCTCGCCGTTCTTTACGCCGATCAAGCTGACCTTTATGGTGTCGCTGAT -TCTGTCAGCGCCGGTGATTCTCTATCAGGTGTGGGCATTTATCGCCCCAGCGCTGTATAAGCATGAACGTCGCCTGGTGG -TGCCGCTGCTGGTTTCCAGCTCTCTGCTGTTTTATATCGGCATGGCATTCGCCTACTTTGTGGTCTTTCCGCTGGCATTT -GGCTTCCTTGCCAATACCGCGCCGGAAGGGGTGCAGGTATCCACCGACATCGCCAGCTATTTAAGCTTCGTTATGGCGCT -GTTTATGGCGTTTGGTGTCTCCTTTGAAGTGCCGGTAGCAATTGTGCTGCTGTGCTGGATGGGGATTACCTCGCCAGAAG -ACTTACGCAAAAAACGCCCGTATGTGCTGGTTGGTGCATTCGTTGTCGGGATGTTGCTGACGCCGCCGGATGTCTTCTCG -CAAACGCTGTTGGCGATCCCGATGTACTGTCTGTTTGAAATCGGTGTCTTCTTCTCACGCTTTTACGTTGGTAAAGGGCG -AAATCGGGAAGAGGAAAACGACGCTGAAGCAGAAAGCGAAAAAACTGAAGAATAAATTCAACCGCCCGTCAGGGCGGTTG -TCATATGGAGTACAGGATGTTTGATATCGGCGTTAATTTGACCAGTTCGCAATTTGCGAAAGACCGTGATGATGTTGTAG -CGTGCGCTTTTGACGCGGGAGTTAATGGGCTACTCATCACCGGCACTAACCTGCGTGAAAGCCAGCAGGCGCAAAAGCTG -GCGCGTCAGTATTCGTCCTGTTGGTCAACGGCGGGCGTACATCCTCACGACAGCAGCCAGTGGCAAGCTGCGACTGAAGA -AGCGATTATTGAGCTGGCCGCGCAGCCAGAAGTGGTGGCGATTGGTGAATGTGGTCTCGACTTTAACCGCAACTTTTCGA -CGCCGGAAGAGCAGGAACGCGCTTTTGTTGCCCAGCTACGCATTGCCGCAGATTTAAACATGCCGGTATTTATGCACTGT -CGCGATGCCCACGAGCGGTTTATGACATTGCTGGAGCCGTGGCTGGATAAACTGCCTGGTGCGGTTCTTCATTGCTTTAC -CGGCACACGCGAAGAGATGCAGGCGTGCGTGGCGCATGGAATTTATATCGGCATTACCGGTTGGGTTTGCGATGAACGAC -GCGGACTGGAGCTGCGGGAACTTTTGCCGTTGATTCCGGCGGAAAAATTACTGATCGAAACTGATGCGCCGTATCTGCTC -CCTCGCGATCTCACGCCAAAGCCATCATCCCGGCGCAACGAGCCAGCCCATCTGCCCCATATTTTGCAACGTATTGCGCA -CTGGCGTGGAGAAGATGCCGCATGGCTGGCTGCCACCACGGATGCTAATGTCAAAACACTGTTTGGGATTGCGTTTTAGA -GTTTGCGGAACTCGGTATTCTTCACACTGTGCTTAATCTCTTTATTAATAAGATTAAGCAATAGCATGGAGCGAGCCTCA -CCATCGGGTTCGGTGAAAATGGCCTGAAAGCCTTCGAACGCGCCTTCGGTAATAATCACCTTATCACCCGGATAAGGGGT -TGCCGGATCGACAATGTCTTTCGGTTTATATACCGATAGCTGATGAATAACCGCCGATGGGACTATCGCTGGCGACGCGC -CAAAGCGCACGAAGTGGCTGACACCGCGGGTCGCGTTGATAGTCGTGGTATGAATCACTTCTGGGTCAAATTCCACAAAC -AGGTAGTTGGGGAACAATGGCTCACTGACTGCAGTACGTTTTCCACGCACGATTTTTTCCAGGGTGATCATCGGTGCCAG -GCAATTCACAGCCTGTCTTTCGAGGTGTTCCTGGGCACGTTGAAGTTGCCCGCGCTTGCAGTACAGTAAATACCAGGATT -GCATAATGACTCTTATCCGTTTAATCGGGGCGCAAGGATAGCAAAAGCTTTACGCTAAGTTAATTATATTCCCCGGTTTG -CGTTATACCGTCAGAGTTCACGCTAATTTAACAAATTTACAGCATCGCAAAGATGAACGCCGTATAATGGGCGCAGATTA -AGAGGCTACAATGGACGCCATGAAATATAACGATTTACGCGACTTCTTGACGCTGCTTGAACAGCAGGGTGAGCTAAAAC -GTATCACGCTCCCGGTGGATCCGCATCTGGAAATCACTGAAATTGCTGACCGCACTTTGCGTGCCGGTGGGCCTGCGCTG -TTGTTCGAAAACCCTAAAGGCTACTCAATGCCGGTGCTGTGCAACCTGTTCGGTACGCCAAAGCGCGTGGCGATGGGCAT -GGGGCAGGAAGATGTTTCGGCGCTGCGTGAAGTTGGTAAATTATTGGCGTTTCTGAAAGAGCCGGAGCCGCCAAAAGGTT -TCCGCGACCTGTTTGATAAACTGCCGCAGTTTAAGCAAGTATTGAACATGCCGACAAAGCGGCTGCGTGGTGCGCCCTGC -CAACAAAAAATCGTCTCTGGCGATGACGTCGATCTCAATCGCATTCCCATTATGACCTGCTGGCCGGAAGATGCCGCGCC -GCTGATTACCTGGGGGCTGACAGTGACGCGCGGCCCACATAAAGAGCGGCAGAATCTGGGCATTTATCGCCAGCAGCTGA -TTGGTAAAAACAAACTGATTATGCGCTGGCTGTCGCATCGCGGCGGCGCGCTGGATTATCAGGAGTGGTGTGCGGCGCAT -CCGGGCGAACGTTTCCCGGTTTCTGTGGCGCTGGGTGCCGATCCCGCCACGATTCTCGGTGCAGTCACTCCCGTTCCGGA -TACGCTTTCAGAGTATGCGTTTGCCGGATTGCTACGTGGCACCAAGACCGAAGTGGTGAAGTGTATCTCCAATGATCTTG -AAGTGCCCGCCAGTGCGGAGATTGTGCTGGAAGGGTATATCGAACAAGGCGAAACTGCGCCGGAAGGGCCGTATGGCGAC -CACACCGGTTACTATAATGAAGTCGATAGTTTCCCGGTATTTACCGTGACGCATATTACCCAGCGTGAAGATGCGATTTA -CCATTCCACCTATACCGGGCGTCCGCCAGATGAGCCCGCGGTGCTGGGTGTCGCACTGAACGAAGTGTTTGTGCCGATTC -TGCAAAAACAGTTCCCGGAAATTGTCGATTTTTACCTGCCGCCGGAAGGCTGCTCTTATCGCCTGGCGGTAGTGACAATC -AAAAAACAGTACGCCGGACACGCGAAGCGCGTCATGATGGGCGTCTGGTCGTTCTTACGCCAGTTTATGTACACTAAATT -TGTGATCGTTTGCGATGATGACGTTAACGCACGCGACTGGAACGATGTGATTTGGGCGATTACCACCCGTATGGACCCGG -CGCGGGATACTGTTCTGGTAGAAAATACGCCTATTGATTATCTGGATTTTGCCTCGCCTGTCTCCGGGCTGGGTTCAAAA -ATGGGGCTGGATGCCACGAATAAATGGCCGGGGGAAACCCAGCGTGAATGGGGACGTCCCATCAAAAAAGATCCAGATGT -TGTCGCGCATATTGACGCCATCTGGGATGAACTGGCTATTTTTAACAACGGTAAAAGCGCCTGATGCGCGTTTGTTTTGC -CCTATTTATCGATCCGACAGAGAAAGCGCATGACAACCTTAAGCTGTAAAGTGACCTCGGTAGAAGCTATCACGGATACC -GTATATCGTGTCCGCATCGTGCCAGACGCGGCCTTTTCTTTTCGTGCTGGTCAGTATTTGATGGTAGTGATGGATGAGCG -CGACAAACGTCCGTTCTCAATGGCTTCGACGCCGGATGAAAAAGGGTTTATCGAGCTGCATATTGGCGCTTCTGAAATCA -ACCTTTACGCGAAAGCAGTCATGGACCGCATCCTCAAAGATCATCAAATCGTGGTCGACATTCCCCACGGAGAAGCGTGG -CTGCGCGATGATGAAGAGCGTCCGATGATTTTGATTGCGGGCGGCACCGGGTTCTCTTATGCCCGCTCGATTTTGCTGAC -AGCGTTGGCGCGTAACCCAAACCGTGATATCACCATTTACTGGGGCGGGCGTGAAGAGCAGCATCTGTATGATCTCTGCG -AGCTTGAGGCGCTTTCGTTGAAGCATCCTGGTCTGCAAGTGGTGCCGGTGGTTGAACAACCGGAAGCGGGCTGGCGTGGG -CGTACTGGCACCGTGTTAACGGCGGTATTGCAGGATCACGGTACGCTGGCAGAGCATGATATCTATATTGCCGGACGTTT -TGAGATGGCGAAAATTGCCCGCGATCTGTTTTGCAGTGAGCGTAATGCGCGGGAAGATCGCCTGTTTGGCGATGCGTTTG -CATTTATCTGAGATATAAAAAAACCCGCCCCTGACAGGCGGGAAGAACGGCAACTAAACTGTTATTCAGTGGCATTTAGA -TCTATGACGTATCTGGCAAACCATGCCCGATGCGACGCTGTCGCGTCTTATCGTGCCTACAAATAGTCCGAACCGTAGGC -CGGATAAGGCGTTTACGCCGCATCCGGCAATTGGTGCATGATGCCTGATGCGACGCTGTCGCGTCTTATCGTGCCTACAA -ATAGTCCGAACCGTAGGCCGGATAAGGCGTTTACGCCGCATCCGGCAATTGGTGCATGATGCCTGATGCGACGCTGGCGC -GTCTTATCAGGCCTACATTGGTGCCGGATCGGTAGACCGGATAAGGCGTTCACGCCGCATCCGGCAAGTGGTTAAACCCG -CTCAAACACCGTCGCAATACCCTGACCCAGACCGATACACATCGTCGCCAGACCAAACTGAACGTCTTTGCGTTCCATCA -GATTCAGCAGCGTGGTGCTGATACGCGCACCGGAACAACCCAGCGGATGACCCAGCGCGATCGCGCCACCGTTGAGGTTG -ATCTTCTCGTCAATCTGCTCAATTAGTCCCAGATCTTTAATACATGGCAGGATCTGCGCGGCAAAGGCTTCGTTCATTTC -AAACACGCCGATATCGCTGGCAGAAAGCCCCGCTTTTTTCAGCGCCAGTTTCGAGGCCGGAACCGGGCCGTAACCCATAA -TCGATGGGTCACAACCAACGACCGCCATCGAACGCACACGAGCGCGCGGCTTAAGACCTAATTCATGGGCGCGGCTTTCA -CTCATCACCAGCATGGCAGCTGCGCCATCGGAAAGTGCAGAAGATGTGCCCGCCGTTACCATACCGTTTACTGGATCAAA -CGCCGGACGCAGCGTGGCGAGGGCTTCCACGGTGGTTTCCGGGCGAATCACTTCGTCGTAATTAAACTGCTTCAGGACGC -CGTCGGCATCGTGACCACCGGTCGGGATGATTTCATTTTTAAATGCGGCCGACTGCGTGGCGGCCCAGGCGCGGGCGTGT -GACCGCGCGGCAAAGGCATCCTGCATTTCACGGCTGATACCGTGCATACGCGCCAGCATTTCTGCCGTTAAGCCCATCAT -GCCCGCCGCTTTGGCGACATTGCGGCTCAGGCCGGGGTGAAAATCGACGCCGTGACTCATCGGCACATGGCCCATATGCT -CCACGCCGCCAACCAGACATGCCTGCGCATCGCCAGTCATGATCATTCGTGCTGCGTCATGCAGTGCCTGCATGGATGAA -CCACACAAGCGATTAACGGTAACCGCCGGGACAGAGTGTGGTACTTCTGCCAGCAGCGCCGCGTTACGGGCGATATTAAA -ACCCTGCTCCAGCGTCTGCTGCACACAACCCCAGTAAATATCGTCGAGGGCCGCCGCTTCCAGCGCCGGGTTACGCGCCA -GCAGGCTACGCATTAAATGAGCGGAGAGATCTTCTGCACGCACGTTACGAAAAGCACCGCCCTTCGAACGGCCCATCGGG -GTGCGAATTGCATCGACAATGACAACCTGTTCCATTGTGACTCCTTAAGCCGTTTTCAGGTCGCCAACCGGACGGGCTGG -CTCAACCGGAGGATAGTACGGTTCGTTATGACGCGCTTTATTACGCAGACCTTCCGGCACTTCATACAGCGGGCCGAGGT -GCTGATATTGCTGTGCCATATCGAGGTATTTTGCGCTACCGAGGGTGTCCAGCCAGCGGAACGCGCCGCCGTGGAACGGA -GGGAAGCCCAGGCCGTAGACCAGCGCCATATCCGCTTCCGCCGGAGTGGCGATAATGCCTTCCTCCAGACAGCGCACCAC -TTCGTTGACCATCGGGATCATCATGCGGGCGATAATCTCTTCTTCGCTGAAATCGCGCTTCGGCTGGCTCACTTCTGCCA -GCAGGTCTTCAACGGCGGCGTCTTCTTCTTTCTTCGGCTTACCTTTGCTGTCTTCTTTATAACGCCAGAAACCGAGGCCG -TTCTTCTGACCAAAGCGGTTGGCATCAAACAGCGCGTCGATGGCATCGCGGTAATCTTTCTGCATCCGCTGCGGGAAGCC -TGCTGCCATGACAGCCTGAGCGTGATGCGCGGTATCAATGCCCACAACGTCCAGCAGATATGCCGGGCCCATCGGCCAGC -CAAACTGTTTTTCCATCACTTTGTCGATCTTGCGGAAATCCGCGCCGTCGCGCAGCAGCTGGCTGAAACCGGCGAAATAC -GGGAACAGCACGCGGTTAACAAAGAAGCCGGGGCAGTCGTTAACCACAATCGGCGTCTTGCCCATCTTGCTCGCCCAGGC -GACAACTTTCGCGATGGTTTCGTCGGAGCTTTTCTCGCCGCGAATAATTTCTACCAACGGCATTCGGTGGACCGGGTTAA -AGAAGTGCATCCCGCAGAAGTTTTCCGGGCGTTCCAGCGCGTTGGCCAGTTCGCTGATAGGAATGGTTGAAGTGTTAGAC -GCCAGCACGGTATCCTGGCGTACTTTTTGTTCGGTTTCTGCCAGTACGGCTTTTTTCACTTTCGGGTTTTCAACAACCGC -TTCTACCACAATATCCACGCGGTCAAATCCGGCGTAGTCGAGCGTTGGGTGGATTGTGGAGATCACGCCAGCCAGTTTCA -GACCATCGATCTTGCCGCGCTCAAGCTGCTTGTTCAGCAGTTTCGCGGCTTCGGTCATGCCGAGGGTTAACGACTTGTCG -TTGATATCTTTCATGACAACCGGCACGCCTTTCCACGCAGACTGGTAAGCGATGCCGCCGCCCATAATGCCTGCACCCAG -CACCGCGGCCTGTTTCGGGGTTTCAACGTCTTTGGTGAGTTTCTTCGCTTTGCCTTTTACATATTGATCGTTAAGGAAAA -TGCCGACCAGTGCGCGGGCTTCGTTGGTATGCGCCAGCGGGACAAAACTTTTGTTTTCCAGGTTTAAGGCTTCTTCACGA -CCAAAACGGGCCGCAGCTTCAATGGTTTTTACTGCGGTGATGGGGGCCGGATAATGTTTCCCCGCTGTTTGTGCGACCAT -CCCTTTAGCGATGGTGAAGCTCATGGTGGCTTCAATCTTGCTCAGTTTTAGTGGTTCCAGCTTCGGCTGACGTTTTGCTT -TCCAGTCGAGGTCGCCGTTAATGGCCTGGCGTAAAACCGCCTTTGCGCCTTCAACCAGTTTTTCTGCTTTGACTACGCCA -TCCACCAGACCGATTTTCAGCGCCTGATCCGCGCCGACATCTTTACCGGCGGCAATGATTTCCAGCGCACTGTCAGCGCC -CAGCATACGTGGCATACGTACAGAACCGCCAAAGCCAGGCATGATGCCCAGTTTGGTTTCCGGCAGACCGATGCGCAGAT -CCGGCGTCGCCAGACGATAATCGGTCGCCAGCACGCATTCGCAGCCACCGCCCAGCGCATAGCCATTGACGGCAGCAATG -GTCGGCACCGGCAGATCTTCCAGGCGATTAAACACGCTATTGGCAAAGTGCAGCCACTGACTTAACTGTTCTTCAGGAAC -GAGGAACAGGGACAAAAATTCGGTGATATCAGCACCGACGATAAAGGCTGCTTTGTTCGAACGCAGCAGCAGCCCTTTTA -GATCTGATTGCTGTTCCAGCACGCCGATGGCCTCGCCGAGGCTGGCGACGGTCGCAGTGTCGAGTTTATTAACTGAACCT -GGGGCATCAAATACCAGTTCGGCAATGCCATCTTCCAGCCAGTCAAGGTACAGGGTGTCGCCTTTGTAAAGCATGTCAGT -CTCCTGAATCCGCAAGGTGATCTGGTCGTACCAGATGAGTCGAAGTGTGTATTTTGTGTTAAAAATATGCAAACAAAAGA -TTAAAGAAATGCCGATCTGATCACGCTCGGCAGAAATCACGCTCTGGATGAACGATGTGCTAAGATGCGGAGACTTAAGG -TCAAAAAAACAGAAGGGTAAAAAATGGAATCACTGGCCTCGCTCTATAAAAATCATATAGCTACCTTACAAGAACGGACT -CGCGATGCGCTGGCGCGCTTCAAGCTGGATGCGTTACTTATTCACTCCGGCGAGCTGTTCAATGTTTTTCTCGACGATCA -TCCCTATCCGTTTAAAGTGAACCCGCAATTCAAAGCGTGGGTGCCGGTAACTCAGGTGCCAAACTGCTGGTTGCTGGTGG -ATGGCGTGAACAAGCCGAAACTGTGGTTCTATCTGCCGGTTGATTACTGGCACAACGTCGAACCGCTGCCGACCTCTTTC -TGGACTGAAGATGTGGAAGTGATCGCGCTGCCGAAAGCCGATGGCATTGGTAGCCTGCTGCCTGCTGCGCGCGGCAATAT -CGGTTATATCGGTCCGGTGCCGGAACGTGCGCTGCAACTGGGTATTGAGGCCAGCAACATCAACCCGAAAGGGGTTATCG -ACTACCTGCATTACTATCGCTCCTTCAAAACTGAGTACGAACTGGCCTGTATGCGTGAAGCGCAGAAAATGGCGGTCAAC -GGTCACCGCGCGGCAGAAGAAGCGTTCCGTTCTGGCATGAGCGAGTTCGATATCAACATTGCCTATCTGACCGCGACCGG -TCATCGTGATACCGACGTACCTTACAGCAACATTGTGGCGCTTAACGAACACGCTGCGGTACTGCATTACACCAAACTGG -ACCATCAGGCACCGGAAGAGATGCGCAGCTTCCTGCTGGATGCCGGGGCAGAATATAACGGCTATGCGGCTGACCTGACC -CGTACCTGGTCGGCAAAAAGTGACAACGACTACGCGCAGCTGGTGAAGGACGTTAATGATGAACAACTGGCGCTGATCGC -CACCATGAAAGCAGGCGTCAGCTATGTGGATTACCACATCCAGTTCCATCAGCGCATCGCCAAACTGCTGCGTAAACATC -AAATCATCACCGATATGAGTGAAGAAGCGATGGTCGAAAACGATCTTACCGGGCCGTTTATGCCGCATGGTATCGGCCAT -CCGCTGGGCCTGCAGGTGCATGACGTCGCTGGTTTTATGCAGGATGATAGCGGTACGCACCTCGCGGCACCGGCAAAATA -TCCGTACCTGCGCTGCACCCGTATTCTCCAGCCGGGCATGGTGTTAACCATCGAACCGGGTATCTACTTCATCGAATCGC -TACTGGCACCGTGGCGTGAAGGGCAGTTCAGCAAGCACTTCAACTGGCAGAAAATTGAAGCACTGAAACCGTTCGGCGGC -ATTCGTATCGAAGACAACGTGGTGATCCACGAAAACAACGTGGAAAACATGACCCGGGATCTGAAACTGGCGTGATGGAA -AGCTGGTTAATTCCTGCGGCACCGGTCACGGTCGTTGAAGAGATCAAAAAGAGCCGCTTCATAACGATGTTGGCGCATAC -CGATGGCGTTGAGGCGGCGAAAGCGTTTGTTGAATCGGTGCGGGCAGAACACCCCGATGCCCGGCACCATTGCGTGGCGT -GGGTCGCGGGTGCGCCGGATGATTCTCAACAGCTGGGTTTCTCTGACGACGGGGAGCCGGCGGGAACGGCAGGTAAACCG -ATGCTCGCCCAGCTAATGGGCAGCGGCGTCGGGGAAATTACCGCTGTGGTAGTGCGCTACTACGGCGGCATATTGCTTGG -CACCGGTGGGTTAGTGAAAGCGTATGGCGGCGGCGTGAATCAGGCGCTGCGCCAGCTAACGACCCAACGCAAGACGCCAT -TAACCGAATATACTTTGCAATGTGAATATCATCAGTTAACCGGCATTGAAGCGTTGCTGGGGCAGTGTGACGGCAAAATT -ATCAACAGTGATTATCAGGCATTCGTTCTGCTGCGGGTGGCGCTTCCGGCGGCGAAAGTGGCTGAATTTTCCGCAAAGCT -GGCGGATTTTAGCCGTGGTTCATTGCAATTGTTAGCGATTGAAGAATAATCCCCACTTCGTTTTGCAGAACTAAGGAAGC -GGCAGAGATGCATTTTCGCGCCATTACCCGAATCGTTGGACTACTGGTCATCTTATTTTCAGGGACCATGATTATCCCTG -GGCTGGTAGCACTCATCTACCGGGATGGAGCGGGCCGCGCTTTTACCCAGACCTTTTTTGTCGCCCTCGCCATTGGCTCT -ATGCTGTGGTGGCCGAACCGCAAAGAGAAAGGCGAACTTAAATCCCGTGAGGGGTTTCTGATAGTGGTGCTGTTCTGGAC -CGTGCTGGGTAGCGTCGGTGCGCTCCCTTTTATCTTCTCGGAAAGCCCGAACCTCACGATTACCGATGCGTTTTTTGAAT -CTTTCTCTGGCCTGACCACTACGGGAGCCACTACGCTGGTGGGGCTGGATTCGCTCCCTCACGCCATCCTCTTTTATCGC -CAGATGCTGCAATGGTTTGGCGGGATGGGGATCATCGTGTTGGCGGTTGCGATACTGCCTATCCTCGGCGTGGGTGGGAT -GCAGCTCTATCGCGCAGAAATGCCCGGCCCGCTGAAAGATAACAAAATGCGCCCGCGAATTGCGGAAACGGCGAAAACCC -TGTGGTTGATTTATGTCTTGCTGACCGTCGCCTGTGCGCTGGCGTTGTGGTTTGCCGGAATGGATGCCTTTGATGCCATC -GGCCATAGCTTTGCGACTATCGCTATTGGCGGCTTCTCGACACATGATGCCAGTATCGGTTATTTCGATAGCCCGACTAT -TAACACTATCATTGCTATCTTCCTGCTGATCTCCGGCTGTAACTACGGTCTGCACTTTTCACTGTTAAGTGGGCGTAGTC -TGAAGGTTTATTGGCGCGATCCGGAATTTCGCATGTTTATCGGCGTACAGTTTACGCTGGTGGTTATTTGTACCCTCGTA -CTGTGGTTTCATAATGTCTACAGTTCGGCGCTGATGACAATTAACCAGGCGTTTTTCCAGGTGGTGTCGATGGCGACAAC -CGCCGGGTTTACAACTGACAGCATTGCCCGCTGGCCGCTCTTTTTGCCGGTACTGCTTTTATGTTCAGCCTTTATCGGCG -GTTGCGCCGGGTCAACGGGCGGTGGCCTGAAGGTGATCCGCATCCTGCTGCTGTTTAAGCAGGGGAACCGTGAGCTGAAA -CGACTGGTGCATCCGAACGCCGTCTATAGCATTAAGCTGGGGAATCGCGCACTGCCGGAACGTATCCTCGAAGCCGTTTG -GGGATTTTTCTCCGCCTATGCATTGGTGTTTATTGTCAGTATGCTGGCGATTATCGCCACGGGCGTGGATGACTTTTCTG -CCTTTGCGTCGGTTGTTGCGACATTGAATAACCTGGGGCCAGGGCTTGGCGTGGTTGCTGATAACTTTACCAGTATGAAC -CCGGTGGCTAAATGGATCCTGATTGCCAACATGCTGTTTGGTCGTCTCGAGGTCTTTACATTGCTGGTGCTCTTTACCCC -GACTTTCTGGCGTGAATGATGGAGTAATACGTGAAAACATTAATTCTTTTCTCAACAAGGGACGGACAAACGCGCGAGAT -TGCCTCCTACCTGGCTTCGGAACTGAAAGAACTGGGGATCCAGGCGGATGTCGCCAATGTGCACCGCATTGAAGAACCAC -AGTGGGAAAACTATGACCGTGTGGTCATTGGTGCTTCTATTCGCTATGGTCACTACCATTCAGCGTTCCAGGAATTTGTC -AAAAAACATGCGACGCGGCTGAATTCGATGCCGAGCGCCTTTTACTCCGTGAATCTGGTGGCGCGCAAACCGGAGAAGCG -TACTCCACAGACCAACAGCTACGCGCGCAAGTTTCTGATGAACTCGCAATGGCGTCCCGATCGCTGCGCGGTCATTGCCG -GGGCGCTGCGTTACCCACGTTATCGCTGGTACGACCGTTTTATGATCAAGCTGATTATGAAGATGTCAGGCGGTGAAACG -GATACGCGCAAAGAAGTTGTCTATACCGATTGGGAGCAGGTGGCGAATTTCGCCCGAGAAATCGCCCATTTAACCGACAA -ACCGACGCTGAAATAAGCATAAAGAATAAAAAATGCGCGGTCAGAAAATTATTTTAAATTTCCTCTTGTCAGGCCGGAAT -AACTCCCTATAATGCGCCACCACTGACACGGAACAACGGCAAACACGCCGCCGGGTCAGCGGGGTTCTCCTGAGAACTCC -GGCAGAGAAAGCAAAAATAAATGCTTGACTCTGTAGCGGGAAGGCGTATTATGCACACCCCGCGCCGCTGAGAAAAAGCG -AAGCGGCACTGCTCTTTAACAATTTATCAGACAATCTGTGTGGGCACTCGAAGATACGGATTCTTAACGTCGCAAGACGA -AAAATGAATACCAAGTCTCAAGAGTGAACACGTAATTCATTACGAAGTTTAATTCTTTGAGCGTCAAACTTTTAAATTGA -AGAGTTTGATCATGGCTCAGATTGAACGCTGGCGGCAGGCCTAACACATGCAAGTCGAACGGTAACAGGAAGAAGCTTGC -TTCTTTGCTGACGAGTGGCGGACGGGTGAGTAATGTCTGGGAAACTGCCTGATGGAGGGGGATAACTACTGGAAACGGTA -GCTAATACCGCATAACGTCGCAAGACCAAAGAGGGGGACCTTCGGGCCTCTTGCCATCGGATGTGCCCAGATGGGATTAG -CTAGTAGGTGGGGTAACGGCTCACCTAGGCGACGATCCCTAGCTGGTCTGAGAGGATGACCAGCCACACTGGAACTGAGA -CACGGTCCAGACTCCTACGGGAGGCAGCAGTGGGGAATATTGCACAATGGGCGCAAGCCTGATGCAGCCATGCCGCGTGT -ATGAAGAAGGCCTTCGGGTTGTAAAGTACTTTCAGCGGGGAGGAAGGGAGTAAAGTTAATACCTTTGCTCATTGACGTTA -CCCGCAGAAGAAGCACCGGCTAACTCCGTGCCAGCAGCCGCGGTAATACGGAGGGTGCAAGCGTTAATCGGAATTACTGG -GCGTAAAGCGCACGCAGGCGGTTTGTTAAGTCAGATGTGAAATCCCCGGGCTCAACCTGGGAACTGCATCTGATACTGGC -AAGCTTGAGTCTCGTAGAGGGGGGTAGAATTCCAGGTGTAGCGGTGAAATGCGTAGAGATCTGGAGGAATACCGGTGGCG -AAGGCGGCCCCCTGGACGAAGACTGACGCTCAGGTGCGAAAGCGTGGGGAGCAAACAGGATTAGATACCCTGGTAGTCCA -CGCCGTAAACGATGTCGACTTGGAGGTTGTGCCCTTGAGGCGTGGCTTCCGGAGCTAACGCGTTAAGTCGACCGCCTGGG -GAGTACGGCCGCAAGGTTAAAACTCAAATGAATTGACGGGGGCCCGCACAAGCGGTGGAGCATGTGGTTTAATTCGATGC -AACGCGAAGAACCTTACCTGGTCTTGACATCCACGGAAGTTTTCAGAGATGAGAATGTGCCTTCGGGAACCGTGAGACAG -GTGCTGCATGGCTGTCGTCAGCTCGTGTTGTGAAATGTTGGGTTAAGTCCCGCAACGAGCGCAACCCTTATCCTTTGTTG -CCAGCGGTCCGGCCGGGAACTCAAAGGAGACTGCCAGTGATAAACTGGAGGAAGGTGGGGATGACGTCAAGTCATCATGG -CCCTTACGACCAGGGCTACACACGTGCTACAATGGCGCATACAAAGAGAAGCGACCTCGCGAGAGCAAGCGGACCTCATA -AAGTGCGTCGTAGTCCGGATTGGAGTCTGCAACTCGACTCCATGAAGTCGGAATCGCTAGTAATCGTGGATCAGAATGCC -ACGGTGAATACGTTCCCGGGCCTTGTACACACCGCCCGTCACACCATGGGAGTGGGTTGCAAAAGAAGTAGGTAGCTTAA -CCTTCGGGAGGGCGCTTACCACTTTGTGATTCATGACTGGGGTGAAGTCGTAACAAGGTAACCGTAGGGGAACCTGCGGT -TGGATCACCTCCTTACCTTAAAGAAGCGTTCTTTGAAGTGCTCACACAGATTGTCTGATGAAAATGAGCAGTAAAACCTC -TACAGGCTTGTAGCTCAGGTGGTTAGAGCGCACCCCTGATAAGGGTGAGGTCGGTGGTTCAAGTCCACTCAGGCCTACCA -AATTTGCACGGCAAATTTGAAGAGGTTTTAACTACATGTTATGGGGCTATAGCTCAGCTGGGAGAGCGCCTGCTTTGCAC -GCAGGAGGTCTGCGGTTCGATCCCGCATAGCTCCACCATCTCTGTAGTGATTAAATAAAAAATACTTCAGAGTGTACCTG -CAAAGGTTCACTGCGAAGTTTTGCTCTTTAAAAATCTGGATCAAGCTGAAAATTGAAACACTGAACAACGAAAGTTGTTC -GTGAGTCTCTCAAATTTTCGCAACACGATGATGAATCGAAAGAAACATCTTCGGGTTGTGAGGTTAAGCGACTAAGCGTA -CACGGTGGATGCCCTGGCAGTCAGAGGCGATGAAGGACGTGCTAATCTGCGATAAGCGTCGGTAAGGTGATATGAACCGT -TATAACCGGCGATTTCCGAATGGGGAAACCCAGTGTGTTTCGACACACTATCATTAACTGAATCCATAGGTTAATGAGGC -GAACCGGGGGAACTGAAACATCTAAGTACCCCGAGGAAAAGAAATCAACCGAGATTCCCCCAGTAGCGGCGAGCGAACGG -GGAGCAGCCCAGAGCCTGAATCAGTGTGTGTGTTAGTGGAAGCGTCTGGAAAGGCGTGCGATACAGGGTGACAGCCCCGT -ACACAAAAATGCACATGCTGTGAGCTCGATGAGTAGGGCGGGACACGTGGTATCCTGTCTGAATATGGGGGGACCATCCT -CCAAGGCTAAATACTCCTGACTGACCGATAGTGAACCAGTACCGTGAGGGAAAGGCGAAAAGAACCCCGGCGAGGGGAGT -GAAAAAGAACCTGAAACCGTGTACGTACAAGCAGTGGGAGCACGCTTAGGCGTGTGACTGCGTACCTTTTGTATAATGGG -TCAGCGACTTATATTCTGTAGCAAGGTTAACCGAATAGGGGAGCCGAAGGGAAACCGAGTCTTAACTGGGCGTTAAGTTG -CAGGGTATAGACCCGAAACCCGGTGATCTAGCCATGGGCAGGTTGAAGGTTGGGTAACACTAACTGGAGGACCGAACCGA -CTAATGTTGAAAAATTAGCGGATGACTTGTGGCTGGGGGTGAAAGGCCAATCAAACCGGGAGATAGCTGGTTCTCCCCGA -AAGCTATTTAGGTAGCGCCTCGTGAATTCATCTCCGGGGGTAGAGCACTGTTTCGGCAAGGGGGTCATCCCGACTTACCA -ACCCGATGCAAACTGCGAATACCGGAGAATGTTATCACGGGAGACACACGGCGGGTGCTAACGTCCGTCGTGAAGAGGGA -AACAACCCAGACCGCCAGCTAAGGTCCCAAAGTCATGGTTAAGTGGGAAACGATGTGGGAAGGCCCAGACAGCCAGGATG -TTGGCTTAGAAGCAGCCATCATTTAAAGAAAGCGTAATAGCTCACTGGTCGAGTCGGCCTGCGCGGAAGATGTAACGGGG -CTAAACCATGCACCGAAGCTGCGGCAGCGACACTATGTGTTGTTGGGTAGGGGAGCGTTCTGTAAGCCTGTGAAGGTGTG -CTGTGAGGCATGCTGGAGGTATCAGAAGTGCGAATGCTGACATAAGTAACGATAAAGCGGGTGAAAAGCCCGCTCGCCGG -AAGACCAAGGGTTCCTGTCCAACGTTAATCGGGGCAGGGTGAGTCGACCCCTAAGGCGAGGCCGAAAGGCGTAGTCGATG -GGAAACAGGTTAATATTCCTGTACTTGGTGTTACTGCGAAGGGGGGACGGAGAAGGCTATGTTGGCCGGGCGACGGTTGT -CCCGGTTTAAGCGTGTAGGCTGGTTTTCCAGGCAAATCCGGAAAATCAAGGCTGAGGCGTGATGACGAGGCACTACGGTG -CTGAAGCAACAAATGCCCTGCTTCCAGGAAAAGCCTCTAAGCATCAGGTAACATCAAATCGTACCCCAAACCGACACAGG -TGGTCAGGTAGAGAATACCAAGGCGCTTGAGAGAACTCGGGTGAAGGAACTAGGCAAAATGGTGCCGTAACTTCGGGAGA -AGGCACGCTGATATGTAGGTGAAGCGACTTGCTCGTGGAGCTGAAATCAGTCGAAGATACCAGCTGGCTGCAACTGTTTA -TTAAAAACACAGCACTGTGCAAACACGAAAGTGGACGTATACGGTGTGACGCCTGCCCGGTGCCGGAAGGTTAATTGATG -GGGTTAGCCGCAAGGCGAAGCTCTTGATCGAAGCCCCGGTAAACGGCGGCCGTAACTATAACGGTCCTAAGGTAGCGAAA -TTCCTTGTCGGGTAAGTTCCGACCTGCACGAATGGCGTAATGATGGCCAGGCTGTCTCCACCCGAGACTCAGTGAAATTG -AACTCGCTGTGAAGATGCAGTGTACCCGCGGCAAGACGGAAAGACCCCGTGAACCTTTACTATAGCTTGACACTGAACAT -TGAGCCTTGATGTGTAGGATAGGTGGGAGGCTTTGAAGTGTGGACGCCAGTCTGCATGGAGCCGACCTTGAAATACCACC -CTTTAATGTTTGATGTTCTAACGTTGACCCGTAATCCGGGTTGCGGACAGTGTCTGGTGGGTAGTTTGACTGGGGCGGTC -TCCTCCTAAAGAGTAACGGAGGAGCACGAAGGTTGGCTAATCCTGGTCGGACATCAGGAGGTTAGTGCAATGGCATAAGC -CAGCTTGACTGCGAGCGTGACGGCGCGAGCAGGTGCGAAAGCAGGTCATAGTGATCCGGTGGTTCTGAATGGAAGGGCCA -TCGCTCAACGGATAAAAGGTACTCCGGGGATAACAGGCTGATACCGCCCAAGAGTTCATATCGACGGCGGTGTTTGGCAC -CTCGATGTCGGCTCATCACATCCTGGGGCTGAAGTAGGTCCCAAGGGTATGGCTGTTCGCCATTTAAAGTGGTACGCGAG -CTGGGTTTAGAACGTCGTGAGACAGTTCGGTCCCTATCTGCCGTGGGCGCTGGAGAACTGAGGGGGGCTGCTCCTAGTAC -GAGAGGACCGGAGTGGACGCATCACTGGTGTTCGGGTTGTCATGCCAATGGCACTGCCCGGTAGCTAAATGCGGAAGAGA -TAAGTGCTGAAAGCATCTAAGCACGAAACTTGCCCCGAGATGAGTTCTCCCTGACTCCTTGAGAGTCCTGAAGGAACGTT -GAAGACGACGACGTTGATAGGCCGGGTGTGTAAGCGCAGCGATGCGTTGAGCTAACCGGTACTAATGAACCGTGAGGCTT -AACCTTACAACGCCGAAGGTGTTTTGGCGGATTGAGAGAAGATTTTCAGCCTGATACAGATTAAATCAGAACGCAGAAGC -GGTCTGATAAAACAGAATTTGCCTGGCGGCAGTAGCGCGGTGGTCCCACCTGACCCCATGCCGAACTCAGAAGTGAAACG -CCGTAGCGCCGATGGTAGTGTGGGGTCTCCTCATGCGAGAGTAGGGAACTGCCAGGCATCAAATAAAACGAAAGGCTCAG -TCGGAAGACTGGGCCTTTCGTTTTATCTGTTGTTTGTCGGTGAACGCTCTCCTGAGTAGGACAAATCCGCCGGGAGCGGA -TTTGAACGTTGCGAAGCAACGGCCCGGAGGGTGGCGGGCAGGACGCCCGCCATAAACTGCCAGGCATCAAATTAAGCAGA -AGGCCATCCTGACGGATGGCCTTTTTGCATTGGCGCAGAAAAAAATGCCGGATGCGACGCTGGCGCGTCTTATCCAGCCT -ACTCTTGCTTATCCGTTCTGCTTTTGCATCCACTCCACCACAAAATCAGCCAGCCCCTCAACATCATTAATATCCAGTAA -TGCGACATCAAGATTAAGCGGCACATCACTGGCTACAGCAATAACATGCCTGTCTATCACTAATTCTTCAGGTCGATGTC -CGGCTCCATCGCGAAACAGCACAATCTTTGCGATCTCTTCATGCTTAAACCCTTCGACCAGAATCAAATCCAGCTTTGAG -GTATCCATTCGACTTGCGAGAAACTGTAGATCCAGCTCTTCTTCGTCTGGTGTTTCCGTCATCAAGGCCCATCGTTGCTG -GCTGGCAACGATGGTTTGTGCCGCGCCAGCCTTGCGCAGCTCATAGCTATCTTTGCCTGGCTTATCAACATCCATATCAT -GGTGCGTATGCTTAATCAGCCCTGGACGGATCCCTCTGGCGCATAATGCCGGGATCAGTTTTTTCAAAAGCGTAGTTTTT -CCGGTACCACTCCACGCGGCAAAGGCGAGTAACGGTATCATCGTTTTTCCTGCCATCGGGCAAGCTCCTCTGGCGTATTC -ACGTTAACAAATGCATCTTTATGATCGCTGAAATCAACCGCATGACCGCCAGCCAGACGCATAAATACCATTACCCGGCG -TTCTCCTGCTTGCAGATATTCCAGTAATAAAGGCTCAATAGCGCGGTTTACCAGAGCAATAGTCGGGTGATCGCGTTCAC -CGTCATGGACCCACACGACAGGCGCATCTTTGCGCTGATGATTAAGCCTGGCTGCTAAATCAGGGGGAATGTAAGGCGTA -TCGCACGGGCAAAACAAAAACCACTCACCAGCTTCCTGCTGCATTACTGAAAGCATTCCTGCCAGAGGGCCTGGGTAATC -CGCCAGTGAATCTTCAATCACTTTCAGACCGCTTGCCTGATAGATTTCCTGATGACGATTAGCATTAACCACGACGTGAG -AGAGCTGCGTCATAAGCGCGTCAGCGACATGTTGCCATAATGGTTTGCCGTTTAATTCAAGCAATCCTTTATCTACGCCG -CCCATTCGTCTGGCTTTACCGCCTGCCAGCACAACGCCTGTTATCGTCGTCATCAGATTCACCGATATCGCCTCTTTTAT -TGTGGGATTGACCCTGCTAACGTGTCTGTCTCAAGAGTAAGGAGCATCACTATGAAATGTAAACGTCTGAATGAAGTTAT -TGAACTCCTCCAGCCAGCCTGGCAAAAAGAGCCAGACCTTAACCTGCTGCAATTTTTGCAGAAACTGGCGAAAGAGTCAG -GTTTTGACGGCGAACTGGCGGATTTGACGGATGACATTCTGATCTATCACCTGAAAATGCGTGATTCCGCGAAAGATGCG -GTGATCCCGGGTTTGCAGAAAGATTATGAAGAAGACTTCAAAACGGCGCTGTTACGCGCTCGCGGCGTAATTAAAGAGTA -AAAGCTTGTAAGCGGCGCCACCAAAATCATCGTGAAATGATATCCTTCGTCATTCGTAATGTTTTCCGGATGATGGGATG -AATAACAGCGCTTTTACTTTCCAGACACTACACCCGGATACCATCATGGACGCTCTGTTTGAGCATGGGATCCGGGTGGA -TTCCGGTCTTACCCCGCTTAACAGCTATGAAAACCGTGTCTATCAATTTCAGGACGAAGATCGTCGACGTTTTGTCGTCA -AATTTTATCGCCCTGAACGTTGGACAGCCGATCAAATCCTCGAAGAACATCAATTTGCGTTGCAGCTGGTAAATGATGAA -GTTCCGGTCGCAGCACCTGTGGCCTTTAACGGTCAGACTTTATTGAATCATCAGGGATTTTATTTCGCTGTTTTTCCAAG -CGTCGGTGGTCGCCAGTTCGAAGCTGATAATATCGATCAGATGGAAGCGGTTGGGCGTTATTTAGGGCGTATGCACCAGA -CGGGGCGCAAACAGCTTTTTATCCATCGCCCGACCATCGGTTTGAACGAATATCTCATTGAGCCACGCAAGCTGTTTGAG -GACGCTACACTGATACCTTCCGGGTTGAAAGCGGCATTCCTGAAAGCGACAGATGAGCTGATTGCCGCCGTTACAGCACA -CTGGCGGGAAGATTTCACCGTTCTGCGGCTACATGGAGACTGCCACGCCGGGAATATTCTCTGGCGCGATGGTCCAATGT -TTGTTGATCTGGATGATGCACGTAATGGTCCAGCCGTTCAGGATTTGTGGATGTTGCTCAATGGCGATAAAGCCGAGCAG -CGGATGCAACTGGAAACTATTATTGAAGCTTATGAAGAATTTAGCGAGTTCGACACCGCTGAAATCGGACTGATTGAACC -TTTACGCGCCATGCGTTTGGTTTATTATCTTGCCTGGCTAATGCGGCGTTGGGCTGATCCCGCGTTCCCGAAAAATTTCC -CGTGGTTAACCGGGGAAGATTACTGGCTGCGACAGACGGCGACTTTTATAGAACAGGCAAAAGTTCTACAAGAACCCCCT -TTGCAATTAACACCTATGTATTAATCGGAGAGAGTAGATCATGAAAAAGATTTGGCTGGCGCTGGCTGGTTTAGTTTTAG -CGTTTAGCGCATCGGCGGCGCAGTATGAAGATGGTAAACAGTACACTACCCTGGAAAAACCGGTAGCTGGCGCGCCGCAA -GTGCTGGAGTTTTTCTCTTTCTTCTGCCCGCACTGCTATCAGTTTGAAGAAGTTCTGCATATTTCTGATAATGTGAAGAA -AAAACTGCCGGAAGGCGTGAAGATGACTAAATACCACGTCAACTTCATGGGTGGTGACCTGGGCAAAGATCTGACTCAGG -CATGGGCTGTGGCGATGGCGCTGGGCGTGGAAGACAAAGTGACTGTTCCGCTGTTTGAAGGCGTACAGAAAACCCAGACC -ATTCGTTCTGCTTCTGATATCCGCGATGTATTTATCAACGCAGGTATTAAAGGTGAAGAGTACGACGCGGCGTGGAACAG -CTTCGTGGTGAAATCTCTGGTCGCTCAGCAGGAAAAAGCTGCAGCTGACGTGCAATTGCGTGGCGTTCCGGCGATGTTTG -TTAACGGTAAATATCAGCTGAATCCGCAGGGTATGGATACCAGCAATATGGATGTTTTTGTTCAGCAGTATGCTGATACA -GTGAAATATCTGTCCGAGAAAAAATAATTCAATGTAAATTACATAAAGCCCGTGAATATTCACGGGCTTTTTTTATTATT -TAATAAATATAAATACATTCTGATAATGCATCCTGCCGCTGGACATTATTTCAGCATAAGTGGATATTCAAAGTTTTGCT -GTTTTATCAGGGAATATTTATATGATACGTAAGTCAGCTACAGGTGTTATTGTTGCGTTAGCCGTAATCTGGGGTGGTGG -CACATGGTACACAGGTACGCAAATTCAGCCTGGTGTCGAAAAATTTATTAAAGATTTTAACGATGCTAAAAAGAAAGGTG -AACATGCCTACGATATGACGTTAAGTTATCAAAATTTTGACAAAGGCTTTTTTAATTCCCGTTTTCAAATGCAAATGACA -TTCGATAACGGTGCACCCGATCTCAATATCAAGCCAGGCCAGAAAGTTGTATTTGATGTGGATGTTGAGCACGGTCCGTT -GCCCATCACAATGTTAATGCATGGTAATGTCATCCCAGCACTGGCAGCGGCAAAAGTGAACTTAGTGAATAATGAACTGA -CACAACCGCTATTTATCGCCGCGAAAAATAAATCGCCCGTGGAAGCGACATTGCGATTCGCGTTTGGTGGCTCATTCTCT -ACGACATTAGATGTTGCCCCTGCAGAGTATGGAAAGTTTTCTTTTGGTGAGGGCCAGTTTACTTTTAATGGTGATGGTAG -TTCATTGTCTAACCTGGATATTGAAGGCAAAGTCGAAGATATTGTTCTGCAATTATCACCAATGAACAAAGTAACGGCAA -AAAGTTTTACCATTGATTCTCTGGCGCGATTAGAAGAAAAGAAATTTCCGGTTGGTGAAAGCGAGTCGAAATTTAATCAG -ATTAACATTATCAATCACGGGGAAGACGTTGCCCAAATCGATGCTTTCGTTGCAAAAACCAGGCTGGATCGCGTTAAAGA -CAAAGATTATATCAATGTCAATCTCACCTACGAACTTGATAAGTTAACAAAAGGGAATCAGCAACTCGGTAGTGGTGAGT -GGTCATTGATTGCTGAATCTATTGATCCCTCAGCAGTGCGCCAATTTATCATCCAGTATAACATTGCGATGCAGAAGCAG -CTTGCTGCACACCCTGAGTTAGCAAACGATGAAGTTGCTCTGCAAGAAGTGAATGCTGCATTGTTCAAAGAGTATTTACC -GTTATTACAAAAAAGTGAGCCGACCATTAAACAACCGGTAAGATGGAAGAACGCACTCGGCGAACTAAATGCCAATCTGG -ATATCAGTATTGCCGACCCAGCCAAATCTTCATCATCCACAAACAAAGATATCAAATCGCTCAATTTTGATGTGAAGTTA -CCGCTTAATGTCGTCACAGAAACCGCAAAACAGCTTAATTTATCTGAAGGAATGGATGCGGAAAAAGCGCAAAAGCAGGC -TGATAAACAAATCAGCGGGATGATGACATTAGGTCAGATGTTTCAGTTAATCACGATTGACAACAATACCGCCTCGCTGC -AGCTGCGTTATACACCGGGTAAAGTTGTTTTTAACGGACAGGAGATGAGCGAAGAAGAATTTATGTCTCGTGCCGGACGT -TTTGTTCATTAAAATACTCACTCGCCTCTGCTCATTCAGAGGCGAGTAAAACTTACTTATTCTGACGCTGTGATGACATG -AGAGACGTCAGAAGCCGGTCTTTTTCCTGCCACAATGAGTTCAGCCATTGCTGAAAATGGCGCTTAAAGCTTTTGTCATT -GATGTAGTCGCCATGTAACTCATCGGCAATAGGCTGTAAATCCACATGTACGACAATCCGCGTCAGTTTACCGCTTAACA -TATCGAAGAACGGCTGACGGTTATTGTCCGGATAACACAGCGTAACATTAAGCAGTTTATCGAATTGTTTACCCAGTACA -TTTAGCGCCATCGCAATGCCTGCCGCCTTTGGTGGCAACAAGTTTTGAAAAGTGGAGTGGGTTTGCTGATGTTTTTCTTG -CGTGAAACGGGAGCCTTCAACGAAATTGACAATGGTGGTGGGATGCAGGCGAAACTTTTCACAAGAACGCCGAGTGGTTT -CAACATCTTTACCACGTCGCTCCGGATGACGTAATAAATAAGCGCGGGAATAACGCTTCATAAACGGCATATCCAGCGAC -CAGCACGCCAGGCCAAGAAATGGCACCCAGGCCAGCTGTTGCTTGAGGAAATATTTATTCATCGGAATGTGCTTACGAAA -CAGCACGCACAGTACGACAATATCTGCCCAACTACGGTGGTTACAAATAAGCAGATACCAGTTCTTCTTACTTAACCCTT -CCAGCCCGTGAACTTCCCATTGAAGGTGTGGGTTCAGATGCAGTAATACCGCCAGACCTTCACACCAGCAATACATCATA -AAATCACAAAAACGCGAAACCTTTCGCCAAATGACTGGCACAGGTAGCAATAGTTTTACAATCCCGGCAATGATGATCGG -GACGGAACAAAAAATAGTGACCAAAATGGTCAATACGATACTCAGCAAAAGGGTTATCGCAGCGAGTATTCTCGTCATAA -TGAATTTATTCAAAAGGTTAGCCATAGACAGTGCGCTAAAGAAGCGCAAGGCGCAGATTTTAGCAGAAAACGACCCAAAT -AACGGATGATCCTTAAGGAGAAAAATAATTCATATCTATCCACATTAGAAAAAATCCCATTATCTCAATTATTAGGGATG -GATTTATTTTTAACTGCATGAAAAACAAAGACAAACATCATGCTGTAAAAAGCATGATAATAAATTAAAAGCGATGTAAA -TAATTTATGCACAAAGTTATCCACATGACGATTTGCGAGCGATCCAGAAGATCTACAAAAGATTTTCACGAAAAGCGGTG -AAAAACTCATGTTTTCATCCTGTCTGTGGCATCCTTTACCCATAATCTGATAAACAGGCACGGACATTATGGTTCAGATC -CCCCAAAATCCACTTATCCTTGTAGATGGTTCATCTTATCTTTATCGCGCATATCACGCGTTTCCCCCGCTGACTAACAG -CGCAGGCGAGCCGACCGGTGCGATGTATGGTGTCCTCAACATGCTGCGCAGTCTGATCATGCAATATAAACCGACGCATG -CAGCGGTGGTCTTTGACGCCAAGGGAAAAACCTTTCGTGATGAACTGTTTGAACATTACAAATCACATCGCCCGCCAATG -CCGGACGATCTGCGTGCACAAATCGAACCCTTGCACGCGATGGTTAAAGCGATGGGACTGCCGCTGCTGGCGGTTTCTGG -CGTAGAAGCGGACGACGTTATCGGTACTCTGGCGCGCGAAGCCGAAAAAGCCGGGCGTCCGGTGCTGATCAGCACTGGCG -ATAAAGATATGGCGCAGCTGGTGACGCCAAATATTACGCTTATCAATACCATGACGAATACCATCCTCGGACCGGAAGAG -GTGGTGAATAAGTACGGCGTGCCGCCAGAACTGATCATCGATTTCCTGGCGCTGATGGGTGACTCCTCTGATAACATTCC -TGGCGTACCGGGCGTCGGTGAAAAAACCGCGCAGGCATTGCTGCAAGGTCTTGGCGGACTGGATACGCTGTATGCCGAGC -CAGAAAAAATTGCTGGGTTGAGCTTCCGTGGCGCGAAAACAATGGCAGCGAAGCTCGAGCAAAACAAAGAAGTTGCTTAT -CTCTCATACCAGCTGGCGACGATTAAAACCGACGTTGAACTGGAGCTGACCTGTGAACAACTGGAAGTGCAGCAACCGGC -AGCGGAAGAGTTGTTGGGGCTGTTCAAAAAGTATGAGTTCAAACGCTGGACTGCTGATGTCGAAGCGGGCAAATGGTTAC -AGGCCAAAGGGGCAAAACCAGCCGCGAAGCCACAGGAAACCAGTGTTGCAGACGAAGCACCAGAAGTGACGGCAACGGTG -ATTTCTTATGACAACTACGTCACCATCCTTGATGAAGAAACACTGAAAGCGTGGATTGCGAAGCTGGAAAAAGCGCCGGT -ATTTGCATTTGATACCGAAACCGACAGCCTTGATAACATCTCTGCTAACCTGGTCGGGCTTTCTTTTGCTATCGAGCCAG -GCGTAGCGGCATATATTCCGGTTGCTCATGATTATCTTGATGCGCCCGATCAAATCTCTCGCGAGCGTGCACTCGAGTTG -CTAAAACCGCTGCTGGAAGATGAAAAGGCGCTGAAGGTCGGGCAAAACCTGAAATACGATCGCGGTATTCTGGCGAACTA -CGGCATTGAACTGCGTGGGATTGCGTTTGATACCATGCTGGAGTCCTACATTCTCAATAGCGTTGCCGGGCGTCACGATA -TGGACAGCCTCGCGGAACGTTGGTTGAAGCACAAAACCATCACTTTTGAAGAGATTGCTGGTAAAGGCAAAAATCAACTG -ACCTTTAACCAGATTGCCCTCGAAGAAGCCGGACGTTACGCCGCCGAAGATGCAGATGTCACCTTGCAGTTGCATCTGAA -AATGTGGCCGGATCTGCAAAAACACAAAGGGCCGTTGAACGTCTTCGAGAATATCGAAATGCCGCTGGTGCCGGTGCTTT -CACGCATTGAACGTAACGGTGTGAAGATCGATCCGAAAGTGCTGCACAATCATTCTGAAGAGCTCACCCTTCGTCTGGCT -GAGCTGGAAAAGAAAGCGCATGAAATTGCAGGTGAGGAATTTAACCTTTCTTCCACCAAGCAGTTACAAACCATTCTCTT -TGAAAAACAGGGCATTAAACCGCTGAAGAAAACGCCGGGTGGCGCGCCGTCAACGTCGGAAGAGGTACTGGAAGAACTGG -CGCTGGACTATCCGTTGCCAAAAGTGATTCTGGAGTATCGTGGTCTGGCGAAGCTGAAATCGACCTACACCGACAAGCTG -CCGCTGATGATCAACCCGAAAACCGGGCGTGTGCATACCTCTTATCACCAGGCAGTAACTGCAACGGGACGTTTATCGTC -AACCGATCCTAACCTGCAAAACATTCCGGTGCGTAACGAAGAAGGTCGTCGTATCCGCCAGGCGTTTATTGCGCCAGAGG -ATTATGTGATTGTCTCAGCGGACTACTCGCAGATTGAACTGCGCATTATGGCGCATCTTTCGCGTGACAAAGGCTTGCTG -ACCGCATTCGCGGAAGGAAAAGATATCCACCGGGCAACGGCGGCAGAAGTGTTTGGTTTGCCACTGGAAACCGTCACCAG -CGAGCAACGCCGTAGCGCGAAAGCGATCAACTTTGGTCTGATTTATGGCATGAGTGCTTTCGGTCTGGCGCGGCAATTGA -ACATTCCACGTAAAGAAGCGCAGAAGTACATGGACCTTTACTTCGAACGCTACCCTGGCGTGCTGGAGTATATGGAACGC -ACCCGTGCTCAGGCGAAAGAGCAGGGCTACGTTGAAACGCTGGACGGACGCCGTCTGTATCTGCCGGATATCAAATCCAG -CAATGGTGCTCGTCGTGCAGCGGCTGAACGTGCAGCCATTAACGCGCCAATGCAGGGAACCGCCGCCGACATTATCAAAC -GGGCGATGATTGCCGTTGATGCGTGGTTACAGGCTGAGCAACCGCGTGTACGTATGATCATGCAGGTACACGATGAACTG -GTATTTGAAGTTCATAAAGATGATGTTGATGCCGTCGCGAAGCAGATTCATCAACTGATGGAAAACTGTACCCGTCTGGA -TGTGCCGTTGCTGGTGGAAGTGGGGAGTGGCGAAAACTGGGATCAGGCGCACTAAGATTCGCCTGAACATGCCTTTTTTC -GTAAGTAAGCAACATAAGCTGTCACGTTTTGTGATGGCTATTAGAAATTCCTATGCAACAACTGAAAAAAAATTACAAAA -AGTGCTTTCTGAACTGAACAAAAAAGAGTAAAGTTAGTCGCGTAGGGTACAGAGGTAAGATGTTCTATCTTTCAGACCTT -TTACTTCACGTAATCGGATTTGGCTGAATATTTTAGCCGCCCCAGTCAGTAATGACTGGGGCGTTTTTTATTGGGCGAAA -GAAAAGATCCGTAATGCCTGATGCGCTATGTTTATCAGGCCAACGGTAGAATTGTAATCTATTGAATTTACGGGCCGGAT -ACGCCACATCCGGCACAAGCATTAAGGCAAGAAAATTATTCGCCGTCCTGCGTTTCTTCTACAGGCTGCATCTCGCTAAA -CCAGGTATCCAGTTTCTGCCGCAGCTTGTCCACGCCTTGTTTCTTCAACGAAGAAAACGTTTCAACCTGCACATCACCGT -TAAACGCCAGTACAGCTTCACGCACCATATTCAATTGCGCTTTACGTGCGCCGCTTGCCAGTTTGTCCGCTTTGGTCAGC -AGCACCAGAACGGCGATATTGCTGTCTACCGCCCACTCAATCATCTGCTGATCCAAATCTTTCAGCGGATGGCGAATATC -CATTAGCACCACCAGACCTTGCAGGCTCTGACGTTTTTCGAGGTATTCGCCGAGCGCACGCTGCCATTTGCGCTTCATCT -CTTCCGGGACTTCCGCATAACCGTACCCAGGCAAGTCAACCAGACGCTTGCCGTCAGCCACTTCAAACAGGTTGATAAGC -TGGGTGCGCCCTGGGGTTTTTGAGGTACGAGCCAGGCTTTTCTGGTTAGTCAGCGTGTTCAGCGCGCTGGATTTACCTGC -GTTGGAACGGCCTGCAAAAGCCACTTCAATTCCGGTATCGGAAGGTAGGTGGCGAATATCAGGCGCACTCATCACAAAAT -GCGTCTGTTGATAATTCAAATTAGTCAAAGCGGTCGTCTCCGTCAGTCAAAGCTTTGTGGCGATTATACCTGAACCATAA -TAAAAGGCGGATTTTTCGGCGTGAGCGTTGTAAGTAAAAGCCATACGCTTTGTGAGACATTGCCGATAGTCTTTATGCGA -AATAGCAGAGAAAATTCTGCGATGCATGTCAAATAAGCTATATAAATCAGTGAATTGCTTTTATATAAAACTCTGAAAAT -GTGCAAATACTGATGGCGGTTGATTGTTTGTTTAAAGCAAAGGCGTAAAGTAGCACCCATAGAGCGAGGACGCTAACAGG -AACAATGACTCAGGATGAGGGTCAGGAGCGCCAGGAGGCGAAGACAGAGGATTGTCAGGAAGACAAACGTCCGGAGACGT -AATTAAACGGAAATGGAATCAACACGGATTGTTCCGGCTAAAGGAAAAACAGGGTGTGTTGGCGGCCTGCAAGGATTGTA -AGACCCGTTAAGGGTTATGAGTCAGGAAAAAAGGCGACAGAGTAATCTGTCGCCTTTTTTCTTTGCTTGCTTTCTGTTAG -ATTCCGCCGCAAATCTATACTGAATAAAACGGCTAAAAGACGAACCATTATGAAACCATCATCTTCAAACTCACGCAGCA -AAGGTCATGCAAAAGCGCGTCGAAAAACACGCGAGGAGCTGGATCAGGAAGCTCGTGATCGCAAGCGTCAGAAAAAACGT -CGTGGTCATGCGCCGGGCAGCCGCGCAGCGGGCGGAAACACCACGTCAGGCAGCAAAGGCCAGAACGCACCAAAAGATCC -ACGTATTGGCAGTAAAACCCCTATTCCATTGGGCGTGACTGAAAAAGTCACCAAACAGCACAAACCGAAGAGTGAGAAAC -CTATGCTTTCACCGCAGGCGGAGTTGGAATTACTGGAAACGGATGAGCGTCTGGATGCGCTGCTGGAACGTCTGGAAGCA -GGCGAAACCCTGAGTGCCGAAGAGCAATCCTGGGTGGATGCTAAACTGGATCGTATTGATGAGTTGATGCAGAAACTCGG -CCTCTCTTATGACGATGACGAAGAAGAGGAAGAAGACGAGAAGCAAGAAGACATGATGCGTCTGCTGCGGGGCAACTAAC -GGATTGCCGCCGTGGGCCTTCCCGTTCTGCTGATAACCCTTCCGGTTATATGTTATCTGGTGTGGTTATTCGTTAAACTA -CAGCGGTTGTCGCGGCGACAAAAGTGGCTGCGCAACCGGCTGATGACCCGAAACGGGCATCCGCCGGTACGCCGTAGCCG -CCAGAGACGCCATCGGAAGGAGTGAGCATGTCTGTACAGCAAATCGACTGGGATCTGGCCCTGATCCAGAAATATAACTA -TTCCGGGCCACGATACACCTCGTACCCGACCGCGCTGGAGTTTTCAGAAGACTTCGGCGAACAGGCGTTTTTACAAGCCG -TGGCGCGCTATCCTGAGCGTCCATTATCTCTCTACGTACATATCCCGTTCTGCCATAAGCTTTGTTACTTCTGCGGTTGC -AATAAGATTGTTACTCGCCAGCAGCACAAGGCCGATCAGTATCTGGACGCGCTGGAGCAAGAAATCGTCCATCGTGCACC -GCTGTTCGCCGGGCGTCACGTCAGCCAATTGCACTGGGGCGGCGGAACGCCGACGTATCTGAATAAAGCGCAAATCAGCC -GCCTGATGAAGCTGCTGCGCGAAAACTTCCAGTTCAATGCCGATGCGGAGATTTCGATCGAAGTCGATCCGCGGGAAATC -GAACTGGATGTACTCGATCATTTACGCGCCGAAGGCTTTAATCGCCTGAGCATGGGCGTGCAGGACTTCAACAAAGAAGT -GCAACGTCTGGTTAACCGCGAGCAGGATGAAGAGTTCATCTTTGCACTGCTTAACCATGCGCGTGAGATTGGTTTTACCT -CCACCAACATCGACCTGATTTACGGCCTGCCGAAACAGACGCCGGAGAGTTTCGCCTTTACCCTGAAACGTGTGGCGGAG -CTGAACCCCGATCGTCTGAGTGTCTTTAACTACGCGCATCTGCCGACCATTTTTGCTGCTCAGCGCAAAATCAAAGATGC -TGACCTGCCGAGTCCGCAGCAAAAACTCGATATCCTGCAGGAAACCATCGCCTTCCTGACGCAATCGGGCTATCAGTTTA -TCGGTATGGATCACTTTGCCCGTCCGGATGACGAGCTGGCGGTGGCCCAGCGTGAAGGCGTGCTGCATCGTAACTTCCAG -GGCTACACCACTCAGGGCGATACCGATCTGCTGGGGATGGGCGTTTCCGCCATCAGCATGATTGGCGACTGCTACGCGCA -GAACCAGAAAGAGTTGAAGCAGTACTATCAGCAAGTGGATGAACAAGGCAATGCGCTGTGGCGTGGTATTGCGCTAACGC -GTGATGACTGTATTCGCCGCGATGTGATTAAGTCGCTCATCTGCAACTTCCGTCTGGATTACGCCCCTATTGAGAAACAG -TGGGATTTGCACTTCGCTGATTACTTTGCGGAAGATCTCAAGCTGCTCGCCCCGTTAGCAAAAGATGGGCTGGTGGATGT -GGATGAGAAGGGAATACAGGTGACGGCGAAAGGTCGCTTGCTGATCCGCAACATTTGCATGTGCTTTGATACCTATCTGC -GCCAGAAAGCGCGGATGCAGCAGTTCTCTCGGGTGATTTAAATAGTGAATGGCGCTTCGTTTACAAAGTAGAAAACGAAA -GCGCCATCAATGTGCTGAGAACAAGATTGCCTGATGCGCTGGGCAACAAAACCTGTTGAAATTATTGCTTTTGTAGGCCG -GATAAGGCGTTTACGCCGCATCAGGCATCTGAGCATGATGCCTGATGCGGCGCTGGTCGCGTCTTATCAGGCCTACGACT -TTCTCCGCATCCGGCATAAACAACGAGCTTCAGCTAAACAGCCCAATCATTGCGGCACACAGCACGGCAGCAACGGCAGT -TTGCGGTGTGTGGCTGTCAACTGCGCCACTCGATACCAGATTAATTATTGATTCCAGCATAATGACTCTCCCCGTTTTCC -GGGCAAGATCATACTGAACTTATCGGAACAGTAAAGCGTAAAATACCAGCAATTTGCGCTCAATAATCAATCTTTACACA -CAAGCTGTGAATCACTCCATCCCCAGCTCTTTTAACTTACGCGTCAGGGTGTTGCGGCCCCAGCCGAGTAGCCGCGCCGC -TTCCTGTTTATGCCCCTGCGTATGTCGCAACGCGGTCGTCAGTAACGTCCGCTCCAGCTCTGGCTGCGCTTCGGAAAGCA -GATTTTGATGACCGGAACGCAGCGCTCTGTCTGCCCACTGCGCAAGAAGCGTCGCCCAGCTGTCCGGTTGCATTTGCGAA -GTACTCTCCGCAACCGTTGATTCAAACAGTTCGCCGGGCAAATCCTGAATCAACACTTCCTGCCCGGCGGCCATCACCGT -TAGCCAGCGGCAGGTGTTTTCCAGCTGGCGCACGTTGCCTGGCCACGCCAGACGCGTCAGAGCAGCTTCGGTTTCCGGAT -GCAGTAACTTCGCTTCTACGCCCAGTTCGCGCGCGGCAACCTGTAAAAAATGGCGCGCCAGACGGGGAATATCTTCCCGA -CGTTCGCGCAGCGGCGGCAGATGAACGCGGATAACGTTCAGGCGGTGGAACAGATCCTCACGGAACTTACCTTCCTGCAC -TCGCTGTTCGAGATTCTGGTGAGTGGCAGCGATAATCCGCACATCCACTTTCACCGGCGCATAGCCGCCAACGCGGTAAA -ACTGACCGTCTGCCAGCACGCGCAGCAAACGCGTCTGCACATCCAGCGGCATATCACCAATTTCGTCGAGGAATAATGTA -CCGCCATCGGCCTGTTCAAAACGCCCCTGACGAATGGTATTCGCGCCAGTAAACGCGCCTTTCTCGTGGCCAAACAGTTC -TGATTCGATCAAATCTTTTGGGATAGCTGCCATATTCAGCGCGATAAACGGCGCTTTGGCGCGCGGACTGTGGCGATGCA -GGGCATGAGCGACCAGTTCTTTACCGGTGCCGGATTCGCCGTTAATCAGCACGCTAATAGAAGAACGCGAAAGCCGACCG -ATAATACGGAACACGTCCTGCATGGCTGGCGCTTCGCCGATGATATCGGTCGTTGGGCCGTTAAGCTGAACATTACGCGG -CTGCTGCTGTTCCTGGTAATGACTGATAGCGCGCTCAACCAGCGCCACTGCTTCGTCGATATCAAACGGTTTGGGCAGAT -AATCAAACGCCCCTTGTTGATAGGCGCTGACGGCAGCATCCAGATCGGAATGTGCGGTCATAATGATGACCGGAAGCATT -GGATGGCGCTGTTTAATCTGCTTGAGCAGCGCCAGCCCGTCCATTCCCGGCATACGGATATCTGAAAGCAGCACATCCGG -CGTTTTGCTCGCCAGCGCCTCCAGCACTTCTGCGCCGTTCTCAAACGTCGTACAGGTTAAACCTGCCCCAGCGAGCGCAC -GTTCAAGCACCCAACGGATGGAACTATCGTCATCGACTACCCAGACTATCCCTCGTTGCATAAACGTCACCTTTATTTCC -TGATAGGCAGGTAAACCGAGAACTCGGTATGCCCTGGCCAACTGGTAAATTCAATTTTGCCTGAATGCTGATCAATCAAA -TTACGAGCGATGGATAAGCCAAGCCCGGTGCCACCTTCGCGGCCGCTGACCATCGGGTAAAACAGCGTATCCTGCAAATG -AGGCGGAATGCCCGGCCCGTTATCTTCCACATCAATCCGCGCCGCCAGCCGGTAGCGCTCGCCGTGTAAGGTCAGTTGAA -ACGCGGTGCGGGTACGCAGAATGATTTCACCGCCTTCCGGCCCCAGCGCCTGTAGCGCATTGCGCACAATATTCAGCAAG -ACCTGTTCAATTTGATCCGGGTCGTGCGCCAGTTCCGGTAGGCTGGGATCGTAATCACGAATCAACCGCACGTTGTCCGG -CAGTTCCATCGACACCAGCGTTACCACGCGTTCAGCCACTTTGTGAATACTTTCGGTAACGCGCGTACCGGGCAGCTGCG -GCCCCAACAGACGGTCGACCAGATTTCGCAGCCGGTCCGCCTGTTCGATAATCACTTTGGTATATTCGAGTAGTGATGGG -TCAGGTAACGCTTTGCTGAGCAGCTGCGCCGCGCCACGTAAACCGCCAAGCGGATTTTTAATCTCATGTGCCAGGCCGCG -CACTAAATCACGGGCAGCAACCTGCTGGGCGTGCTGTAGCTGTTCCTGACTTAAGCGGCGCTGGTTATCCATCGGAGCCA -TCTCCAGCAGGATCATGCCGTCCGGCATACGCTGGGCCGTCACAGAAAGGATATGCGAGCGCCCGTCGATGACCAGCGTC -ACTTCGTTATCGGTAAAACCTTGCCCCGCCTCCAGACTTTCTTGCATCAGCTCGATATTTAATGAGAAGTAGCTCAACAG -TTCCGGTAACGGTGTACCAAACAATTTGCGGGAGCTTTGGGCGAGCAGTTGTTGCGCGGCAGGGTTGGCGTAATGGATCG -CCAGGTTGTCATCGATTAACAAAATACTGTTAATCAGCGAGTTGAGGATCTGCCCAGCATCGGGCTGCGTGCCTGTTGCC -ATAAAGCAGTCTCCTGAACAGGTTGCACCATTTTAGTGCATTATAGCTTTTTACGGATAAAAAGCGCGAAGCATCAGAGA -ATTGACGGAGAAAAAAGCCCATGCAGAGATGGGCTACAGATAGCTGACAAACTTCACGTTGGAGAGCGACTCACCTGCTC -CGGCCTACCACATCATCACCGTGTAGGCCGGATAAGACGCATTTGCGTCGCATCCGGCGTGATGTGCTTGCCACCGATCC -CAGGCCTGCCAGAGACAGGCGAAAAGTTTCCACGGCAACTAAAACACTTAGACGCTGTAGTACAGCTCAAACTCTACCGG -ATGCGGAGTCATACGCACGCGGTCATCTTCTTCGCGACGCAGAGCGATGTACGCATCAATTGCTTCGTCAGTGAACACGC -CACCGGCTTTCAGGAACTCGCGGTCCAGATCCAGTTCGTTCAGTGCTTCTTCCAGAGAGCCTGCAACCTGTGGGATCTCT -TTCGCTTCTTCTGGCGGCAGGTCATACAGGTTTTTGTCCATGGCTTCGCCCGGATGGATCTTGTTCTTGATACCATCAAG -ACCGGCCATCAGCAGGGCAGCAAAGCACAGGTACGGGTTAGCTGCCGGATCCGGGAAACGTACTTCGATACGACGTGCTT -TCGGAGAAGAAACCACCGGAATACGGATAGACGCAGAACGGTTACGCGCAGAGTAAGCCAGCATTACCGGTGCTTCATAG -CCCGGGACCAGACGCTTATAAGAGTTGGTGGTCGGGTTTGCCAGGGCGTTAATCGCTTTAGCGTGTTTGATTACGCCGCC -AATGTAGTACAGCGCCTGCTCAGACAGACCTGCGTATTTGTCGCCTGCGAACAGGTTAACGCCGTTTTTAGACAGAGACA -TGTGGCAGTGCATACCGGAGCCGTTATCACCGAACATCGGTTTTGGCATAAAGGTCGCGGTTTTACCGAAGCGGTGCGCT -ACGTTGTGCACAACATATTTGTAGATCTGAATTTCGTCAGCTTTTTTGGTCATGGTATTGAAGCGGGTAGCCACTTCGTT -CTGACCAGCAGTCGCTACTTCGTGGTGATGGGCTTCAACCACCAGACCCATCTGTTCCATCACCAGACACATTTCAGAAC -GAATATCCTGAGCCGAGTCTACCGGTGGAACCGGGAAGTAACCGCCTTTCACTGCCGGACGGTGACCTTTGTTACCACCT -TCGTATTGGGTGGAGGAGTTCCATGCGCCTTCGATATCGTCGATAGCAACGTGGGAACCGGAGATAGATGATCCGAAACG -GATGTCATCGAACAGGAAGAATTCAGGTTCTGGCCCGAACAGTACGGTGTCGGCAATGCCAGTGGAACGCAGGTAATCTT -CGGCGCGCTTCGCAATGGAGCGCGGGTCACGGTCATAGCCTTGCAGGGTGCCAGGTTCAAGGATGTCGCAACGGATAATC -AGGGTGGAGTCGGCGAAGAACGGGTCAATCACTGCGGTGGATGCGTCTGGCATCAGCACCATGTCGGACTCGTTAATGCC -TTTCCAGCCGCCAATCGAGGAGCCGTCAAACATTTTGCCTTCTTCGAAGAATTCAGCATTCACCTGATGAGCAGGGATAG -TGACGTGCTGTTCTTTACCTTTAGTATCGGTGAAGCGCAAATCAACAAACTTCACTTCGTGCTCGTTCAGCATCGTCAGT -ACGTGTTCAGCGGACATACTTTAACTCTCCTGGATTGGTCATGGTCGTCGTGGTAACGAAATCTGCAATTATTTTGGCCG -TGTCGCCGTAAAAAAGATAAAGCGAAATCTGTGCCAACTTTTAAATTGCCCCTAAAAGGCGTTATCATGCGCACCATCGT -GCAAAAGGGCTGCACCACGATGTGAATGTTGCACCAATATAGTGCTTCAATGGAAACATTAAGCACCATGTTGGTGCAAT -GACCTTTGGATAACCCTTTTTATGCTCCGTGAAAGCGATCACAAAGGGACTCTGCAATACTTGTTTGCGGAGGATGTTTG -TGATCCTGTTTTGTAGTGCGATTAATCCGTGTACAATAACGCGCTATTTCTAATGCCTGAGGCAAAGTTGTGATCGAAAA -ATTGCGTAATATCGCCATCATCGCGCACGTAGACCATGGTAAAACCACCCTGGTAGACAAGCTGCTCCAACAATCCGGTA -CGTTCGACTCTCGTGCCGAAACCCAAGAGCGCGTGATGGACTCCAACGATTTGGAGAAAGAGCGTGGGATTACCATCCTC -GCGAAAAACACCGCTATCAAATGGAATGATTACCGTATCAACATCGTTGATACCCCGGGGCACGCCGACTTCGGTGGTGA -AGTTGAACGTGTAATGTCCATGGTAGACTCAGTGCTGCTGGTGGTTGACGCATTTGACGGCCCGATGCCGCAAACGCGCT -TCGTAACCAAAAAAGCGTTTGCTTACGGCCTGAAGCCGATTGTTGTTATCAACAAAGTTGACCGCCCTGGCGCGCGTCCT -GATTGGGTTGTGGATCAGGTATTCGATCTGTTCGTTAACCTCGACGCGACCGACGAGCAGCTGGACTTCCCGATCGTTTA -CGCTTCTGCGCTGAACGGTATCGCGGGTCTGGACCACGAAGATATGGCGGAAGACATGACCCCGCTGTACCAGGCGATTG -TTGACCACGTTCCTGCGCCGGACGTTGACCTTGACGGTCCGTTCCAGATGCAGATTTCTCAGCTCGATTACAACAGCTAT -GTTGGCGTTATCGGCATTGGCCGCATCAAGCGCGGTAAAGTGAAGCCGAACCAGCAGGTCACTATCATCGATAGCGAAGG -CAAAACCCGCAACGCGAAAGTCGGTAAAGTGCTGGGCCACCTCGGTCTGGAACGTATCGAAACCGATCTGGCGGAAGCTG -GCGATATCGTTGCGATCACGGGCCTTGGCGAACTGAACATTTCTGACACCGTTTGCGACACGCAAAACGTTGAAGCGCTG -CCGGCACTCTCCGTTGATGAGCCGACCGTTTCTATGTTCTTCTGCGTTAACACCTCGCCGTTCTGCGGTAAAGAAGGTAA -GTTCGTAACGTCTCGTCAGATCCTGGATCGTCTGAACAAAGAACTGGTACACAACGTTGCGCTGCGCGTAGAAGAAACCG -AAGACGCCGATGCGTTCCGCGTTTCTGGTCGTGGCGAACTGCACCTGTCTGTTCTGATCGAAAACATGCGTCGTGAAGGT -TTCGAACTGGCGGTATCCCGTCCGAAAGTTATCTTCCGTGAAATCGACGGTCGTAAACAAGAGCCGTATGAAAACGTGAC -TCTGGACGTTGAAGAACAGCATCAGGGTTCTGTAATGCAGGCGCTGGGCGAACGTAAAGGCGACCTGAAAAACATGAATC -CAGACGGTAAAGGCCGCGTACGTCTCGACTACGTGATCCCAAGCCGTGGTCTGATTGGCTTCCGTTCTGAGTTCATGACC -ATGACTTCCGGTACTGGTCTGCTGTACTCCACCTTCAGCCACTACGACGACGTACGTCCGGGTGAAGTGGGTCAGCGTCA -GAACGGCGTACTGATCTCTAACGGTCAGGGTAAAGCGGTCGCGTTCGCGCTGTTCGGTCTGCAGGATCGCGGTAAGCTGT -TCCTCGGTCACGGTGCAGAAGTTTACGAAGGTCAGATTATCGGTATTCATAGCCGCTCTAACGACCTGACTGTAAACTGC -CTGACCGGTAAGAAACTGACCAACATGCGTGCTTCCGGTACTGACGAAGCCGTTGTTCTGGTTCCGCCTATCCGCATGAC -TCTGGAACAAGCTCTGGAGTTCATCGATGATGACGAACTGGTAGAAGTGACTCCGACCTCTATCCGTATTCGTAAACGTC -ACCTGACGGAAAACGATCGTCGCCGCGCCAACCGCGCACCGAAAGACGATTAATTTCGTTTTTTAGTCATAAAAAACCTG -CCAGCGATGGCAGGTTTTTTTTTGCCTGTCGTGAGCGCACACCAATGCGAGTATCTCCCTTATAAGTCTGTGGTTACGTC -AATAGAGAGCTTTGTCACAATTATCTGCAAAGTCATACGCCGTTAATTGCTTTCTTTTTTGGCGTAAGCGTAAGATGCTT -CATCTGGTTTAAACCAAAAGGATTAAACAATGGCGGAGAATCAATCCACCGTAGAAAATGCAAAAGAGAAACTGGATCGG -TGGTTGAAAGATGGCATCACCACGCCGGGTGGAAAACTCCCTTCAGAAAGAGAGCTGGGAGAACTGCTGGGCATTAAACG -TATGACGCTGCGCCAGGCGTTGTTGAACCTCGAGGCAGAATCCAAAATCTTCCGTAAGGATCGTAAGGGGTGGTTCGTGA -CCCAGCCGCGATTTAATTACAGTCCGGAGCTGTCGGCGAGCTTTCAGCGGGCCGCAATTGAGCAAGGGCGAGAGCCTTCC -TGGGGGTTTACCGAGAAAAACCGTACCAGCGATATTCCCGAGACGCTCGCGCCACTGATTGCAGTGACGCCATCAACTGA -ACTCTATCGCATCACCGGCTGGGGGGCGCTGGAAGGACATAAAGTTTTCTATCACGAAACATATATTAATCCTGAAGTTG -CTCCGGGCTTTATTGAACAACTTGAAAACCACTCATTTTCTGCAGTCTGGGAAAAGTGCTACCAAAAAGAGACGGTAGTA -AAAAAATTGATTTTCAAACCCGTCAGAATGCCGGGCGATATCAGCAAGTATCTTGGCGGTTCTGCGGGTATGCCAGCGAT -CTTAATTGAAAAGCATCGCGCCGACCAGCAAGGCAATATTGTCCAAATAGATATTGAATATTGGCGATTTGAGGCCGTAG -ACCTCATCATTAATCTGTAGGTGTTTTATGGTGACAATAAATAACGCAAGAAAGATTCTACAACGTGTCGACACTCTTCC -TCTTTATTTACATGCTTATGCCTTTCATTTAAATATGCGGCTGGAAAGAGTGTTGCCTGCTGATTTACTTGATATCGCAA -GTGAAAATAATCTACGTGGCGTCAAAATCCATGTTCTCGATGGCGAGCGTTTTTCTCTTGGTAATATGGACGATAAAGAA -CTCTCTGCCTTTGGGGATAAAGCCCGCCGTCTGAACCTTGATATTCATATTGAAACCAGCGCCTCAGATAAGGCATCTAT -TGACGAAGCCGTCGCCATCGCGTTGAAAACTGGGGCATCGTCCGTACGTTTTTATCCACGTTATGAAGGTAATTTGCGCG -ACGTATTATCGATTATCGCTAACGACATTGCCTATGTACGGGAAACGTATCAGGACAGCGGCCTGACTTTTACGATCGAG -CAGCATGAAGATTTAAAAAGTCATGAGCTGGTGTCGCTGGTCAAAGAAAGTGAGATGGAATCTCTTTCCTTACTGTTTGA -TTTTGCGAACATGATCAATGCAAATGAGCATCCCATCGACGCTTTAAAAACGATGGCACCGCATATTACCCAGGTCCATA -TCAAAGATGCCTTGATCGTTAAAGAACCGGGTGGCCTGGGTCATAAAGCCTGTATTTCAGGTCAGGGTGATATGCCGTTC -AAAGCGTTATTAACGCACCTTATCTGCCTGGGTGATGATGAGCCGCAGGTGACGGCATATGGCCTGGAAGAAGAGGTTGA -TTACTATGCGCCGGCGTTCCGCTTTGAAGACGAAGATGATAATCCGTGGATCCCTTATCGCCAGATGAGTGAAACACCAT -TGCCAGAAAATCATTTACTGGATGCGCGGTTACGTAAAGAAAAAGAAGATGCAATTAATCAGATAAATCATGTGCGTAAC -GTACTACAACAAATCAAACAAGAGGCAAACCATCTTCTGAACCACTAATAAGTTTTAACTCATACGCAGTTAATAAAACC -ATTCCATATGAATGGTCGGTATCTTATTGCCTTTAAAACAGTGATTTTAAAAATCGCTTAGGGGATGTTATGCTCACGAA -AAAGAAATGGGCGTTATTTAGTCTATTAACACTGTGTGGCGGTACAATTTATAAATTACCGTCGCTGAAAGATGCGTTTT -ATATCCCGATGCAGGAATATTTCCATTTGACCAATGGTCAAATTGGTAATGCTATGTCGGTAAACTCATTTGTCACCACA -GTGGGCTTTTTTCTGTCTATTTATTTTGCCGATAAACTACCGCGCAGATACACCATGTCATTCTCACTCATTGCGACAGG -ATTACTGGGTGTTTATTTGACGACAATGCCGGGGTATTGGGGCATCCTCTTTGTCTGGGCGCTATTTGGCGTTACTTGCG -ACATGATGAACTGGCCGGTCTTGCTCAAGTCGGTAAGTCGATTGGGCAATAGCGAACAACAAGGTCGGTTGTTTGGCTTC -TTCGAAACAGGGCGTGGCATTGTCGATACCGTGGTGGCATTTTCTGCGTTGGCAGTATTTACCTGGTTTGGCAGTGGCTT -ATTAGGTTTTAAAGCAGGCATCTGGTTCTATTCCCTTATTGTGATTGCCGTAGGCATTATTATTTTCTTTGTCCTGAATG -ACAAAGAAGAGGCACCGTCCGTTGAGGTGAAAAAAGAAGACGGAGCATCGAAAAACACCAGTATGACCTCGGTGCTGAAA -GACAAAACTATCTGGCTTATCGCTTTTAACGTCTTCTTCGTTTACGCGGTTTACTGTGGCCTGACATTCTTCATTCCATT -CCTGAAAAACATCTATCTATTGCCCGTTGCGCTGGTGGGGGCTTACGGCATCATTAACCAATACTGTCTGAAAATGATTG -GTGGACCGATTGGTGGCATGATTTCAGATAAGATCCTGAAATCGCCAAGTAAATATCTATGCTACACCTTTATCATTAGT -ACCGCTGCGCTCGTACTGTTGATTATGCTGCCGCACGAAAGTATGCCGGTCTATTTAGGGATGGCATGTACGCTGGGCTT -TGGCGCGATAGTCTTTACACAGCGAGCCGTATTTTTTGCACCTATCGGCGAAGCAAAAATTGCTGAAAATAAAACAGGTG -CGGCGATGGCGTTGGGTAGCTTTATTGGTTACGCTCCGGCGATGTTCTGCTTCAGTCTGTATGGCTACATTCTGGATTTA -AATCCGGGGATTATTGGCTACAAAATCGTGTTTGGCATTATGGCCTGCTTCGCATTCAGTGGTGCGGTGGTTTCCGTAAT -GCTGGTTAAGCGTATTAGCCAACGTAAGAAAGAGATGCTGGCGGCTGAAGCTTAATTAATGGCCGGATGTGCTTAATCCG -GCCAACGAAAACCGTATCAACCGTAGGCCGGATAAGGCGTTTACGCCGCATCCGGCAGTTTCACATCAGAAGAAATACTT -CGTCCCGATACGGATCTGGTTTTGCTCGCGGTGGTACGGTTCGACGTTGCGGTCTAACCAGCGCAATTCGAAATAAGGGA -GCCAGTGTTCATTAATACGGTAACGGAAGGTGTTAGTGATTTCCCAATGATGATCTTTCCCGTTGCTACTATTAAAGTCA -TTCACTCGCATGAAGTAATGTGGCTCAAATGTATAGGAAAATTTATCGGTGATTTTAAAATTCCAGTAGGTGCCAATTTC -ATAGGTGTCATTATTATCCAGTTCCCCGCTCAAATCTGTTGAACTATAGTTATTATGGTTATAGCGATTTCGTACTGTCA -GATTAAACCATGGTACAAATTTATAGTTGACGTCCAGATACACTGCACCACCCGAACCGATACTCTTATCATTAATTAAG -CCACCGGGCTGGATGGTTAATTTATCGGTTGGTTTAAATAACGGATACCAGCCTTCAATTTCGTTATATCCATGTTTTAG -TTCATCTTCTCGCTGAAAGTTGTAGGTATTGGTTAACATAATACCCGCGCCCATATCGAAGTTATAACCCACACGTAGCA -TAACCTCGCCCTGATCGGAGGCAAGATTATATGCCTCCCTGTTTTCGACGTATGCGCCAGCAAATACCGAGGCAGAGGTC -AGAGAAGATAATAAAATTATTGCATTAATCTTTTTCATAATAAGTCCATTTTTTAAACGTAGGGAGGCCGCCACCCACCA -GGATGGAAATAGCGGCTATTGACATTTATAACGTTACGGAAGCCGTTTTTTCTTCTGTCGCCATCTCTTTATTTTTGCGT -TGGTTGATTTCCTCAATAATCAATGCAAACCGTTTTTCATTGAGTGTGTAAAAGAATCCCATCGTCAATGCAGCAATAAT -TGCCAGTGCACAAGGCCAGATAAAAATGAGCTGACGCAAACCCTGTAATGTCGCATCGCTTTGCGCGATGTTGGGAACAT -AACCAATTTGCGTCAGCATAATGCCTGGCAAGAAGCCAGCAAGTGCGGCAGAAATTTTACGAAAGAAGGTATAACCGGTA -TAAACAGAACCTTCGGCACGAATACCGGTTTTCCATTCACCGTAATCTACGGTATCTGGTACCAGTGCCCAGTTCAGGCT -GTTTACAAAGGCCGTGCCAAAAAAGGCGACACAAGAGAACATGACGAAAGTGAAAGAGTTACTTCCCCAGAAATAATTCA -GTATATCACCCACCGCCCACAGCACCATGCCAGCCAGATAAACCTGTTTTTTACCAAAACATTTTACAGTTAATGGCACC -AGTAATACGCCGATGAGGATGCATCCCATACTGAAGAATCCCATCCACGACAATAAATTAATATCATTCAGCACATACTG -GGTGTAATAGACCTGAATCGCCAGTTTGATATTAAATGCCGCCAGGGTACACAAGTTAGCAATGCATAAAACCAGCAATG -GCGGATTCCGAAATATCGCGCAAAATGATTTGAGAATACTGGCTTTATGTCCGGTTGGCGTTGTGTCCACATAATGCTCT -TTGACGCCTCTGTAGCACAGCATCATAAAAATAAAGCCGCCAATGGAGAACATAAGTGCCGCACAGGCATAACCGACGGT -TGAGTCAGAAAAAAGCGACTGCAACGGAATAAACGCCACGGTACAAATCAATAGCCCTATGGTTGCACCACCCTGGCGGT -AAGCCGCGAGCTGCGCGCGCTCATTCGGGTTTTTGGTAATTGCCGGGATCATCGCACCATACGAGCAGTTCATCAGACTG -TATGAAAGTCCAAACATCATAAACAGCGCGGTGGCAATCGTCGTTTTAACCGGCAAACAAAAGGTGGTGGCGATAAACTG -GAGCGTTGCAATTAACGCCGCCGGAACCGCTGCATATAAAATAAAGGGACGAAATTTGCCTTTAGGCCCAATATTTTTCC -GCGAGTCGAGTAAAAATCCGGTGAGCATATCGGTAAACGCGGTAAAAAACTTCGCCACCAGAAAGATAATCCCGCCATAG -TAAGCAGGCATCCCTAATTCATCGGTATAAAATTTGAGGAGATACAGAGTACCGATGCAGAGCATTAAATTCGAACCGAC -GTCGCCCATACCATAGGCGATTTTTTCCCGCAGATTCAGTTTTAATGTCAGTGGATTATGGTCAGACATAATCACTCCTT -ATAACGCCCCGCAGGGCGTCGTTTATTATTATTACGCCGTGCGTTTACGGGCTTCTATCTCTTCCACAATGCGGACATAC -ATCTTCTCGTTCAGGCTGTAGAAGCAACCCATCGCCACAATGGTGACTACCGCCAGTGCGCTTGGGTAGATGAAGATCAA -CTGGCGTAACCCTTCAATGGTGTGGTCAGCCTGTGCGACGTTCGGCACATAGCCAATTTGCGTCAGCATCCAGCCGGGGA -AGAAACCAGCCAGCGCCTGAGACACTTTGCGAAAGAAGGTAAAACCGGTGTAGACCGTTCCTTCCGAACGCACGCCGGTG -CGCCACTCGCCGTACTCGACGGTGTCGGAAACCAGCGCCCAGTTCAGGCTGTTAACAAACGCTGAGCCAAAGAACGCCAG -GCAGGAGAACGCCACGAAGCTGACCGAACCGCCGCCGAAGAAATAGTTGAGCAGATCGCCCAGCACCCAAATCAGCAGGC -CGCCGATATAAACTTTCTTCTTGCCAAAACGTCTGACTGAGGCAGGCATCAGGAATACGCCGATGAAAATACAGCCCATG -CTGAAAAATCCCATATACGACAACAGGATGGGATCGTTAAGCACGTACTGGGTGTAATAGACCTGGATGGCGAGCTTGAC -GTTAAACGCCCCTAAAGTGCAGAGGTTGGCAATGCACAGAATGAACAGCGGGCGGTTACCCGCAATTGCGCGGAAAGATT -GCAGCAGGCCCGGCTTTTGCGCCGGATTAGCAGGCTGGGTTTCGACATAACGCTCTTTCACGCCCGAGTAGCAGATCCAC -ATAAACAGCAGGCCAAACAGTGAAAACAGCGTGGCGGCGAAGATATAGCCAAGTTGCTGATTACCTTCGATAAGATTCAT -AACTGGCACGAATCCCACCGTGCACAGCAGCAGGCCCAGCGTAGCGCCGCCCTGACGCCATGCCGCCAGTGAGGCGCGTT -CGTTGGGGTTTTTGGTGATAGCGGGAACCATTGCGCCGTAGGAGCAGTTCATCATGCTGAAAAACAGTCCGTAAAGCATA -AACAGAATAGTGGCCATCACCGTTTTACCGGTGACATCAAACGGTGTGCCGACAAAGTTGGCGATCGCCAGTAAGGTGAC -CGGGAATGACGCATACAGAATAAAAGGACGGAACTTACCTTTTGGACCGATCTTGCGTCGGGAATCCAACATAATGCCGG -TACCCATATCGGTAAACGCAGTAAAGAATTTTGAAATCAAAAAGATAATGCCGCCATAGGTGCCTGGCAGCCCCAGAACG -TCGGTATAAAACTTCAAAAGATAAAGCGTACCGATATCCAGCAGGATGTTAGAGGCCAGGTCGCCAATACCGTAAGAGAG -TTTCTCTTTAAAGGGCAGGCGTAAAGTTGCTGGATCTTCCGTTGTGATGTGACTCATCGATGTTCTCCCTTTGCCCATGA -GTTTCCCCACGGGCGGATGTGATTAGATGCTTTTTAACGACGCGAACAGTGCCGCCCATTCGCTATCGGCGCGATAAAAG -ACCGGCGGCTTGCCGATGGGCGCATTAACGGTAACTTCCCCGCCCCGGAACGCTTCACCCGTCCAGGCGTGGACCCAGTT -ATCCTCCGGCAGATAGAGCGTCCAGTCGCTACGGCCTTCTTCATGCACCGGAGCGACCAGAATGTCGCGACCTAACAGGT -ACTGATATTTCAGGGTGTAAGTGTGCGCATCGTCTTCGTAATGCAGGAACAGCGGGCGCATAACCGGCAGGCCGGACTTC -GCATTCAGCGCGACGGCCTCTTTCAGGTAAGGTTTCAGGGTGGTGAAGACGGTGGTCATACGGGCGAAATGGGCGATGGT -TTCTGCGTCGCCGTCAAACTGCCAGTTGTCGCCAGGACGGTTACCTTCGTGGGTGCGCATCATCGGCGTGAAGGCGCTGA -AATCGCACCAGCGCAGCAGCAGCTCTTTGCTGCGCTTCATCTCAAACAGGGTGGTGTAACCGCCAATGTCGCTGTGGTGC -AGGCCATGTCCGGTCATTGCCAGCGACAGCGCCGCCGGGACAACCGACGCCAGGCCATCGTCGAGACTCCAGTCGACGTT -CTGGTCGCCCGCCCACATCATGGTGGAGTATTTCTGGCTACCGGTAGAACCGGCGCGCATAAAGAAAAGGATCTCGCCGA -GCTTGCCCGTTTCTTCAAGGGCTTCGTAGTTACACTTCGCCCACAGCGCAGGCCAGGCGTTATGCATAATTTCGGCACTG -ACGCCGTTATGCAAGTACGTGTCGGTGGGCAGATACTCGCCGAAGTCAGCCATCCAGCCGCCGCAGCCGAGTTCAATCAT -GTTCTTTTTGATCACTTCCTTGAACCAGGCGTAGGCTTCTGGATTAGTGAGATCGACAACGCCGCCGTAAAACTCGCCAA -ACTCCACCAGATAGTCACCGCCAGAGGCATCTTTTGCCAGATAGCCGTGTTGTGCCGCTTCTTCGCAGAGATCTTTATCG -CTGGCAACATACGGGTTGATATAGGCCAGGAACTGCACGCCCTCCTGATTCCACTGCTTAATGCGTGAATCCAGTTGCGG -GTAGTTTTCGCTGTTCCACTTCCAGTTCCACATCACGCGTTTGCCAAAAGAGGTCATACGAATACCGGACCAGTCCTGCG -CCCAGATGCCGTTGACCTTCACGCCCGCGTTACGCATGGTGTCCAGTTTCTTCTGGCACACTTCCGTCCCGCCCTGAATG -CCGAGCGTTACTCCGTCATAAATCCAGTCGGGCAGTTCTGGCTGGCGTCCCAGCAGGGCGGTTAATTTTTCCAGCAGGGA -AATGTATGTGTCAGCACATTCAAAACGCAGCGTTGCTTTGTCTTCCCACAGCGCCAGTTCATGGTATTCCGGGGCACTAA -AGTCGAAGTTCATATAGCAACTGTTATCAACATGGCAGTAATACTTCTGCGTGCTGACAAACGTAGGCTGTGGGAAGAAA -GTCCAGTAATAGTCGCCGCCCGCATTTTCTTTGCAGTCGGCCTGCCAGGTGACATAGGTTTGTTTGTTGCGACCAACGCC -TTGTTCACTGGTCCATAGCGGGAACGGTTTGCCACGCAGATCGAAGTAGGAAAACTGTTCGCCGCAGCCGTAGATATGGT -CCTCTGGTTGAGCGGCAAGGCGCAGCCAGATACGGTTGTGGTTAAGGTTGTCGTTTTGTAGTTCCAGCAATAAACGCCCC -TGATCGTCGGCAGAGATATTCAGCGTGGCGCTAATGTCAGAACCACGGCTGAAATGAATTAACCAACCATCCGGTGACTG -GCTGACGATGGCGTCGGTAAGCGCAATTTTCTCCTGTAGTTTATCTTTAATGCTGAAATTACCGCGGAACATATCGATAT -CCGCTATACCTGAGCCAATCCATAAACAAGGATTATCTTTGCTATGGGTTAAAATAAGACGTTGTTGAAAATGTAGGGTA -AAACTGTCGTTATTCTGATGAAATTGAAAATCTAATAACTGTGGACGTGGCGTATCCATAACTAATCTCCATAGAGTTGA -GAACGAGATTGTTGCCTTCCTGTTATTACAGGCTTATGTAAAATGATTCTCATAAAACTGATATATAAAAACTTTACAGA -AGCTGAGCTGGGTGATGCTGCCAACTTACTGATTTAGTGTATGATGGTGTTTTTGAGGTGCTCCAGTGGCTTCTGTTTCT -ATCAGCTGTCCCTCCTGTTCAGCTACTGACGGGGTGGTGCGTAACGGCAAAAGCACCGCCGGACATCAGCGCTATCTCTG -CTCTCACTGCCGTAAAACATGGCAACTGCAGTTCACTTACACCGCTTCTCAACCCGGTACGCACCAGAAAATCATTGATA -TGGCCATGAATGGCGTTGGATGCCGGGCAACAGCCCGCATTATGGGCGTTGGCCTCAACACGATTTTACGTCACTTAAAA -AACTCAGGCCGCAGTCGGTAACCTCGCGCATACAGCCGGGCAGTGACGTCATCGTCTGCGCGGAAATGGACGAACAGTGG -GGCTATGTCGGGGCTAAATCGCGCCAGCGCTGGCTGTTTTACGCGTATGACAGTCTCCGGAAGACGGTTGTTGCGCACGT -ATTCGGTGAACGCACTATGGCGACGCTGGGGCGTCTTATGAGCCTGCTGTCACCCTTTGACGTGGTGATATGGATGACGG -ATGGCTGGCCGCTGTATGAATCCCGCCTGAAGGGAAAGCTGCACGTAATCAGCAAGCGATATACGCAGCGAATTGAGCGG -CATAACCTGAATCTGAGGCAGCACCTGGCACGGCTGGGACGGAAGTCGCTGTCGTTCTCAAAATCGGTGGAGCTGCATGA -CAAAGTCATCGGGCATTATCTGAACATAAAACACTATCAATAAGTTGGAGTCATTACCGCTGAGCTGTTTTTAACTTAAT -AAATTGAAGATACATAATGTTGCCTTTAGCGAGTGAAATGTTCTTCAATGATTTTGACTGCTAATCAATACAAGTTATTT -TCTCTGTCCGTAAATATTAAAAAACAGGCGGTGCGGTTTTCCTGATTCCAGTAATAATAAGTCGATACCTGAATTAAAGG -CGTTAGGCGGGCAACTCATAGGTTCAACTGCCAGTCCCTGACGCTGTAATTTTTCACCGCTATAAACCTGCACCCAGAGT -TGATCGGAACAAAGGCTTACCGAAAGCGCCTGCTGTGGATGGGTAATGGTCATTTCCCACAAATCATTAGCGGTTTTAAA -GGTGTGGTCGATTTTTGTCGCGGCTATTTTTTTCGCCTGCGTGAAATTTAAATCCAGCTCATCAACGTGGTGAAGCGTTG -TCGGATTCGCGTGCTCATCGACGGCATAAACCTGGTTTGCCGGAAGCTGGAACAGATATTCATCAACAGATGTTAAGTTG -CAGGTTAAATAAGGATGAATACCCACGCCATAAGGCGCTGCGACAGTGCCGATATTCTGGCTTGCGATCTCAACGGAAAG -ACCCGTGTGTGCGTTGAGCGAATAAACAACTTGTGAAGCCAGCATAAACGGATAGCCGTAACTGGGCGGCAGAAAAGCTG -TCAGGGTAACGCTGGTGGCGGTTAATTCACTAATTTGCCAGTCTCGCCAGGCAAGCAGCCCGTGAATAGCGGCTTTTGAA -CTATGTTCATTAATGGGTAACTGATATTCCTGCCCCTGATAGCGGTAACAGCCGTTGGCGATCCGGTTCGGCCACGGAAT -AAGCACTTTACCCAGATGCGCCAGCGGCATCTCTTCGGGTTTGTGCGGGATGACTAAATGACAACCCTGAAAGGTTAATT -CAGCCAGACCAGCACCGACGGTCACAATGGTCGCGTGATAATCCCCCGCGGCAAGTGAAACGGTCTGTCCACTGCAATGC -ATATTGGTGATTTGCATACAAGGCACCTTAATTAACGACATACAGCCTCCCGTGAGGCTGATGTCAAACCCAAAAACTGC -ACCGGACGGTCCCCTCGCCCCTTTGGGGAGAGGGTTAGGGAGAGGGGAAAACCCGCACCCTATTTTCAGATCAGTTATTT -CGCATTAATATCCAGCAGACCCGCTGCAACCGCTGGAGCCATGCCGGGCGCTAACGGGATACGCGGGATCACCAGGCAAT -GCAGCAGGTGATAAATATCCTGTTTGCCGTCCCAGACTTTGGTGGTGACCTTATTGTCCGCATCCAGCTCCTGCCACCAG -GAACCATTTTCATAGTCCATCAGGTACTTAATGCAGTACTCCCACCATGTTTGATACCAGGTTTCATACTGGCGATCGCC -AGTGACGGTGTAGAGCGCGTAGGCCGTACCCATTGCTTCGACGATAGGCCAACGTACACGTTCGCGGACCACCGGTTTTC -CTTCCCAGTCAACGGTATAAACAATCCCGTCCGCGCCATCGGGTGCCCAGGCATCGCGCACGGTGGCGTTAAACAGACCT -TTGGCATCTTCTAGCAGCCATGCTGGTGGTTGTTCGCAACGGGCTTCCAGGGCAGCATGGATGTGCAGCATTAAACGGCC -CCATTCGATCCAGTGGCCTGGTGTACCTCCGAACGCGCGGAAGCGATGCGCCGGGTTATCTTTGTTGTAATCCGGCAGCG -GATTCCACTGGGTATCGAAGTGTTCGTTAACGCGATAATGATTATTTCTGGCGACGTCGTGGATAATCACGGAAGCCACG -CGAATCGCGCGATCCAGCCATTTTTTGTCGTGAGTGACGTCATAAACAATCAAGAAAGCTTCCACCGCGTGCATATTGGC -ATTGCCGCCGCGGTACTCTTCGGTTTTGCTGAAGGCTTCGTCCCAGGATTCCAGGCACATCTGCTCTTCTTCGCTCCAGA -AATATTTCTCGATAATTTCAATGGTGTAATCGAGCAGCTTGCGCGCTTCCGGGTGACCCGTTGTGACGGCGCTGGCGGCA -CCCAGCAGAGCAAAGAAGTGTTGATAGCCCTGTTTGGAGGCATCCACCACGCCCTCGTCATTCACGCAGGCATACCAGCC -GCCATATTTTTTATCACGCAGTGCGCCGTTCATGGCTTTGATACCGTGATCAACCAACGAGTAAGCGCCAGGTCGACCCA -TCGCCGCAGCAACGGAATAAACGTGCAACATACGAGCGGTGATCCACAGATGGGTGCCCATCTCTTCTTTGATTTGCCCT -TTATTGCCTAACCAGCCAAAACCAGTCGGCACTACGGAATTTTTACCAAAATCAAAGATGCGGTCGGTTTCCTGTTCCAG -CCAACGGTTGTGGCTTAGGGTGTTAAACCATTTCATTCCTTTTATCCTCATCTTAGCGGCGTTTAGCCATCATTTCGTCG -ACGATATCGCCAAGTTGTTGTAATTTCGGTGCGCAAACGTCACGCAGCATCAGCTCGTTGTCTGGTAAACCGACGACCGA -TGCCCAGACTGCACGGCCTGCCAGGAATCCCGATGCGCCCGCCGTCATTGCCACGCGTACGGCACGCGGGAACAGTTTTT -CGTCGACACCGGAAGAGAGGATCACCCATGGCATATTGATATGGTCATTCAGACGTTGTGAAGCACAGAGAAGCTCTTGT -TGCGGACCTTTGCCATAAAGCGGCATTTCAACTTTGTAGAGGTCAGCGCCACTGTCGCCCAGCTCTTTGGCGGCATCGAT -GATCGCTTGTTCGCGATCGAATTTATCGCCACGACGCGGTGGGCGGACGACTGGCTCAATGATGCTTACCAGACCGTGTG -AGTGGCACAGTTCGTTGAACTCTTTCACCATATCCAGACGTTGCTGCGCATCTTCATCACTACGCCACAGCACCAGCAGT -TTTAAGGCTTTGCCACCGTCTTGTTTGATCTGTAGCGGATTGATTTTGCGGTCAATAACCACGCTATCGACCGGAATACC -GTTGCCAGGAATGAACTCATCGGCGGCGACAATCATGGCGCAACTTTTGGCAATCGCGTTTTGCTCAACCACCTGGCGGT -AGCAGAATTGTTGATCTACCAGAATCGCCGAGGCATAAGGCGAGAGGGCCTTTGCAGCGTTAACTTTGAAATCAGTTAAA -ACGCTATCGGCTACCGGAGCGGGTGCCCCAGCCGCGGCAAACATCATGCGCATGGCTTCGCGCTGATCGACCGCCAGCAT -GGCAAAACCGCCCGATGCGCGCGTAATGTCGTTGATGGTGTACTTATTCATTCATTTATTCCTTTATCCAGTCGTTACAT -TTTTACTTTGGCAGTCATCCCGGCACTGACACGGACCTGTTCCAGAATGGCGGACCAGTCCTGGCGACCGCGACCCGCTG -CGCGCGCCTGGCTATAAACCTCCCGTGAGGCGGCCCCCAGCGGCATTGGCACATGCAGCTGGTTGGCGACATCAAGGGCG -ATGCCAAGATCCTTATGGGCAAGATCGATCATGAAGGCGGGAGAAAGATCTCCGCTGAGGACTTTGTTTGGCCAGGAAGT -GGTGAAGTGACCTTTACCGGCGGCGGTACCGCTCATCACTTTGACGGCAACATCGAAGGGAAGATTCAGGGCTTCGCACA -AAACGGCGGCTTCTGCCGAAAGCGCATTGAGCGCGATGCTCATGTAGTTGTTGATGAGCTTAACGCGGATCCCCATGCCC -GGACCGCCAGCGTTGATCAACTCACTGCCCATCGCCATCAGGATCGGTGTGGCACGTTCAACTTGTTCAGCGGTGCCGCC -AGCCAGCAGTAACAGAGTACCGGTAATGGCATTTGCAGAAGTACGGCCTACCGGAACATCCATCATGCTGAAGCCTTTGG -CTTGCATATCGGCAATCAATTTATCGGTTTGCAGCGGATGGATGGTGGACATATCAATGACCAGCGCATCGGTAGATAAG -CCTTCGCAAACGCCGTTTTCACCGAACAACACGTTGCGCACCAGATCGCCATTCGGCAACATGGTAATGATAAATTCGGC -ATCTTTAGCGGCCTGCGCCGGGTTGGCGGCGGGAGTCGCACCTTTGTCTACCAGATGCCGCACAGCTTCGGCGTTCACAT -CAAAGACGCGAAGTTGATGCCCTTGCTGCAATAAATTGCTCGCCATTGGCGAACCCATTTGTCCTAAACCGATAAACGCG -ATTGCTGCCATAACCCTCTCCTGAATACAGTTATGTCACTTTTTGTCATTTATGACATGCTTTGCTTGTCTGTTTTTGAT -CGTATTTGTAATTTATCGTCAAAAAATTGACAGCCGTCACTTTTTAAACAATTGGTGAAATTAAAATGAACGCATCCCAA -AATGTTTAAGGAATGACCATGATTCGTGTTGCTTGTGTAGGTATAACCGTGATGGATCGCATCTATTACGTGGAAGGGTT -ACCGACGGAGAGCGGTAAATACGTGGCGAGAAATTATACGGAAGTTGGTGGCGGGCCAGCGGCGACGGCAGCGGTTGCGG -CGGCAAGGCTGGGGGCGCAGGTCGATTTTATTGGTCGCGTAGGTGATGACGACACGGGCAACAGCCTGCTGGCAGAGCTG -GAATCCTGGGGCGTTAACACCCGTTACACCAAACGGTATAACCAGGCGAAATCTTCGCAATCCGCCATCATGGTGGATAC -CAAAGGCGAGCGGATAATCATTAACTACCCCAGCCCGGATCTGCTGCCTGACGCAGAGTGGTTGGAGGAAATTGATTTCT -CTCAGTGGGATGTTGTGCTGGCAGATGTACGCTGGCACGACGGCGCTAAAAAAGCCTTCACCCTGGCCCGTCAGGCGGGT -GTGATGACCGTTCTGGACGGGGACATTACGCCGCAGGATATCAGTGAGCTGGTGGCATTAAGCGATCACGCGGCCTTTTC -AGAACCGGGTCTGGCGCGCTTAACGGGCGTGAAAGAGATGGCCAGTGCGCTAAAACAGGCACAAACGCTCACAAATGGTC -ATGTCTATGTGACCCAGGGTAGCGCAGGCTGCGACTGGCTGGAAAATGGTGGGCGTCAGCATCAACCGGCCTTCAAAGTT -GATGTGGTAGATACCACAGGTGCGGGTGATGTTTTTCACGGCGCTTTGGCGGTGGCGCTGGCAACAAGTGGGGATTTAGC -GGAGTCAGTCCGCTTCGCCAGCGGTGTAGCGGCGTTAAAATGCACACGTCCCGGTGGACGAGCCGGGATCCCTGACTGTG -ATCAAACCCGATCTTTTTTGTCACTTTTTGTATAAAATGCCAGGGTGATGGTTTTTCGAGGAATTTTCATGAGCCTTACC -GAACTAACCGGTAACCCGCGGCACGACCAACTCCTCATGCTGATCGCCGAGCGTGGGTATATGAATATTGATGAGCTGGC -AAATCTGCTGGATGTCTCCACGCAGACGGTCCGCCGGGATATTCGTAAATTAAGCGAGCAAGGCCTGATTACGCGCCATC -ACGGTGGCGCGGGTCGGGCTTCCAGCGTCGTTAATACGGCGTTCGAGCAGCGTGAGGTTTCGCAAACCGAGGAAAAAAAA -GCGATTGCCGAAGCGGTGGCAGACTATATTCCTGATGGTTCAACAATATTTATCACCATTGGTACGACTGTTGAGCATGT -TGCCCGGGCGTTACTTAACCATAATCATTTGCGGATAATCACCAACAGCCTGCGTGTGGCGCATATTCTTTACCACAACC -CGCGCTTTGAAGTGATGGTGCCCGGCGGTACGTTGCGCTCTCATAATAGCGGGATCATTGGCCCTTCAGCGGCGTCCTTT -GTGGCTGATTTTCGTGCTGATTATCTGGTAACAAGCGTTGGGGCGATTGAGAGCGATGGCGCGTTGATGGAGTTTGATGT -AAACGAAGCTAACGTGGTGAAAACGATGATGGCGCACGCGAGAAATATTCTGCTGGTCGCCGATCACACTAAGTATCATG -CTTCGGCGGCGGTTGAAATTGGTAACGTGGCACAGGTCACTGCGCTCTTTACCGACGAGCTGCCGCCCGCTGCGCTAAAA -TCACGCTTACAAGACAGCCAAATTGAAATCATTCTTCCCCAGGAAGACGCGTAGATTTTTGTGACCGTTAACCTGGCTTC -ATACCTTGCCACATAGCCAAACCCATCCTTTCCCGCTACAGTTAATTTCTTGTGGCGCGAAAGGAGGCAAAAATGCTCTA -TATCTTTGATTTAGGTAATGTGATTGTCGATATCGACTTTAACCGTGTGCTGGGAGCCTGGAGCGATTTAACGCGTATTC -CGCTGGCATCGCTTAAGAAGAGTTTTCATATGGGGGAGGCGTTTCATCAGCATGAGCGTGGGGAAATTAGCGACGAAGCG -TTCGCAGAGGCGCTGTGTCATGAGATGGCTCTACCGCTAAGCTACGAGCAGTTCTCTCACGGCTGGCAGGCGGTGTTTGT -TGCGCTGCGCCCGGAAGTGATCGCCATCATGCATAAACTGCGTGAGCAGGGGCATCGCGTGGTGGTGCTTTCCAATACCA -ACCGCCTGCATACCACCTTCTGGCCGGAAGAATACCCGGAAATTCGTGATGCTGCTGACCATATCTATCTGTCGCAAGAT -CTGGGGATGCGCAAACCTGAAGCACGAATTTACCAGCATGTTTTGCAGGCGGAAGGTTTTTCACCCAGCGATACGGTCTT -TTTCGACGATAACGCCGATAATATAGAAGGAGCCAATCAGCTGGGCATTACCAGTATTCTGGTGAAAGATAAAACCACCA -TCCCGGACTATTTCGCGAAGGTGTTATGCTAAAAACCATTCAGGACAAAGCCAGGCACCGTACCCGTCCACTATGGGCCT -GGCTAAAACTACTCTGGCAACGCATTGATGAGGACAACATGACAACCCTGGCAGGTAACCTTGCCTATGTGTCGTTGCTC -TCATTAGTGCCGCTGGTTGCCGTTGTTTTTGCGCTTTTCGCCGCTTTTCCCATGTTTTCCGACGTCAGCATTCAGTTACG -TCACTTTATTTTTGCCAACTTTCTGCCTGCTACTGGCGATGTTATTCAGCGGTATATCGAACAATTTGTTGCCAATTCCA -ACAAGATGACCGCCGTTGGGGCGTGCGGGCTGATCGTCACCGCGTTATTGTTGATGTACTCCATCGATAGCGCGTTGAAT -ACCATCTGGCGCAGTAAACGAGCGCGACCAAAAATTTACTCGTTCGCCGTGTACTGGATGATTTTAACGCTGGGGCCGCT -GCTGGCAGGGGCCAGTCTGGCGATCAGTTCCTATTTGCTCTCCCTGCGCTGGGCGAGCGATCTCAATACTGTCATCGACA -ACGTGCTGCGTATTTTTCCGTTGCTGTTGTCGTGGATCTCCTTCTGGTTGCTGTACAGCATTGTTCCTACCATCCGCGTA -CCTAACCGCGACGCGATTGTCGGCGCGTTTGTCGCCGCACTCCTGTTCGAAGCAGGAAAGAAAGGTTTCGCGCTTTATAT -CACCATGTTCCCGTCATATCAGCTCATTTATGGTGTGCTGGCGGTGATCCCCATTCTCTTTGTTTGGGTCTACTGGACAT -GGTGTATCGTCTTGCTTGGCGCGGAAATTACTGTCACTCTCGGGGAATACCGCAAACTAAAACAAGCAGCTGAACAAGAA -GAAGACGACGAACCATGATTGCATTAATTCAACGCGTAACCCGTGCCAGCGTCACCGTGGAGGGAGAAGTGACGGGCGAA -ATTGGCGCGGGACTTTTGGTGTTATTGGGTGTCGAAAAGGATGACGACGAACAGAAAGCAAACCGTCTGTGCGAGCGTGT -GCTCGGCTACCGCATCTTTAGCGATGCCGAAGGCAAGATGAATCTCAACGTGCAACAGGCGGGCGGCAGTGTGCTGGTGG -TTTCCCAGTTTACCCTCGCCGCAGATACCGAACGGGGGATGCGCCCAAGTTTCTCCAAAGGTGCATCACCGGATCGCGCA -GAGGCGTTATATGACTATTTCGTCGAACGCTGCCGTCAGCAAGAGATGAACACGCAAACAGGACGCTTCGCTGCGGATAT -GCAGGTATCGCTGGTCAATGATGGCCCCGTGACATTCTGGTTGCAGGTATGAGCCAGCTTCCAGGGTTGTCACGGGAAAC -AAGAGAGAGTATCGCTATGTATCACCTTCGGGTTCCACAAACAGAAGAAGAATTAGAGCGTTACTATCAGTTTCGCTGGG -AAATGTTGCGTAAGCCCCTGCATCAACCAAAAGGTTCGGAACGCGACGCGTGGGATGCGATGGCGCATCACCAGATGGTC -GTCGACGAGCAGGGTAATCTGGTGGCGGTAGGCCGACTGTATATTAATGCCGACAATGAAGCGTCCATTCGCTTTATGGC -CGTTCATCCCGACGTGCAGGACAAAGGGTTAGGCACGCTGATGGCGATGACCCTGGAGTCGGTGGCGCGTCAGGAAGGCG -TTAAGCGCGTGACCTGTAGCGCCCGTGAAGACGCGGTGGAGTTTTTCGCCAAGCTGGGGTTTGTTAATCAGGGAGAAATC -ACCACGCCAACCACCACGCCGATTCGCCATTTTTTGATGATTAAGCCCGTCGCCACTCTGGATGACATTCTGCATCGCGG -CGACTGGTGCGCGCAGCTGCAACAGGCGTGGTACGAACATATCCCGCTTAGTGAAAAAATGGGCGTGCGCATTCAGCAAT -ATACCGGGCAAAAATTTATCACTACCATGCCAGAAACCGGCAATCAGAATCCGCACCATACGCTGTTTGCCGGGAGTTTA -TTCTCACTGGCGACGCTCACTGGTTGGGGACTTATCTGGCTGATGCTGCGTGAACGCCACCTCGGCGGAACGATTATTCT -TGCGGATGCGCATATCCGCTACAGCAAGCCGATTAGCGGTAAACCTCATGCGGTAGCCGACCTCGGTGCCTTAAGCGGCG -ATCTCGACCGTCTGGCGCGCGGACGAAAAGCACGGGTGCAGATGCAGGTCGAAATCTTTGGCGACGAGACGCCGGGTGCA -GTGTTTGAAGGCACGTATATCGTTCTGCCCGCGAAGCCATTTGGCCCGTATGAAGAGGGCGGGAACGAAGAAGAGTAGCT -GATGGAGAGGGGCGGTGCTGCCTCTCTCATTCAGGTCATTTATATTAGTCCTTGGCTATTTCGGTTATATTAAATAAGAA -CTCTATAAATTTTTATTCTTCGTTGGCTCCATACGTGTCTTGCTACATCACTGTTCAGGAGCATTTAAATATTATTTGTA -GAACTGAGTGGCAATTATCGCAGATAATGCTTAATTCATCATCTTAGTTCATGTTTGAGCGATTTTTGATAGTCAAAACC -CCCTCTGGTGCCATACTTTTCTCATAAATATTTTTAAAATCTATAGCTAACAAATATTATGCAAAGATAATGGACTAGCA -TCATTGTCAGTATCATTCATTTACTGCTCTGTATGTTATGAATAATTATGTTGTATGTTTGCTCTTAAACCGTGGGAAGG -AGGCTATAATGGTTGCCAATATTAATCTCATTAAACAAGAAAGTTATTCTGTTGTTAATTTAGAAAAACAACTTTCCCGA -ACTGTTACCAACAAAATTATAACGATGAGCAAGTAAAGACCGGTTGGTGGCAGTACTGACCGGTCTGTGATGAAAGATTA -ATTTCACCTTAAATCCTGGTGCTGTTAGGATGCTGACGTTTTTCGGCTACACCATTCAGATTATGCAAATAAATATCTCT -GAATATAATATATTCATAGCACCCATAATTCATCCTGGGCGATAACTAAACCATTTTTGAGTAATAAATGAAACAACTGC -AACACTCTTATTATTTCTGGAAAACGCCTCGCAAAAACAAAACAACATGCAAAAATCCGCTTTTTTTAAATGATTTTCCG -GCGTAATTTTCGCACATACATTAATGAGTAATATATGTAAGGTATTGGTAATGGCGATGAATACGGTTTTTCTTCATTTA -TCAGAAGAGGCAATTAAACGGCTGAACAAGCTTCGGGGCTGGCGTAAGGTTTCACGATCTGCAATTTTACGCGAAGCGGT -AGAGCAATATCTGGAACGTCAGCAATTCCCGGTGCGTAAAGCAAAGGGAGGCAGGCAAAAGGGGGAGGTAGTTGGTGTTG -ATGATCAGTGTAAGGAGCATAAGGAATGACAAAAATTTTTCATTCTTGAATATAAAAAACAGATGCCCTTATTCTGGTAT -TAATACAAGGCTGTTTTACTTGAACTTATAATAACTGCAACTGTTACATCATATCTGGAAAACGCCTCGCAAAAATAAAA -AATGATGCGTAAATGAGCTTTCTTTAAAGATTCGGCAAGGGTACTTTTCTCTCCATAGATTCAAAAATGATATTGGCGAG -ATATTTATGAACTCTCTGGCAGGTATAGATATGGGCAGAATTTTACTCGATTTATCGAATGAGGTGATTAAGCAACTTGA -TGATCTCGAGGTGCAGCGTAATCTTCCTCGTGCGGACCTATTAAGGGAAGCGGTAGATCAATACCTGATAAATCAATCGC -AAACAGCAAGAACCAGTGTTCCTGGCATCTGGCAAGGGTGTGAGGAAGATGGTGTCGAATATCAGCGTAAGCTGCGCGAG -GAATGGTAATGGGAAAAAATGATGTCAATCAGATTGCTGACAACGTGCGCGTTGTTCATGCCGGATGCGGCGTGAACGCC -TTATCCGGCCTACAAAGTCGTATAAATTCAATGTATTGCAGTTTATTGGTAGGCCTGATAAGCGCAGCGCATCAGGCAAT -CTTACGCTTGTCATCAGTCTCATGCCCATAACCTTATTGATGTGGTGGTGGGTAAATTGAGGCCAAACCGGCACTGGCGG -CATAGCTTGAGGTGGTAACGCGGAATACGAGAGATGGTGTCGTCACACCCTATGAGCTGTAATCCGGGCGACCTGCGCCA -CCCGGAAAACGTCAGAGATTACTCTCCTTCACCCGGAAACAGGAACGGGTTGATGGAACTGCGGGCATAGCCTTCTTGCT -CCATTCGTGCGTCCAGTACCAGAGAGGCGAGGTCATCTGCTACGGCTTCGATTTTTGGATCTTTTTCCTGATAGAGAATT -TTCAGGTAAGTGTCGCAGTCATCGCAGCTTTCGGCTTTAATCGCGGCCTGTTCGTCATCCAGCGACCAGTAATGCAGTTT -GCCGCTCTGCTCGCAGTTGCTGCATTTTACGCGCACTACGTGCCATTCAGTTTCACACAGGTTGCAGTGCAGGTAACGTA -GCCCCTGAGTGGTGCCAATTTGCACCATGCTGGACACCGGCATAGAACCACAAACCGGGCAATATTGACGTTGCTCGCCG -TATTCAGCGCGGGCTTTGCCGGGGATCAGATTGGCCATCTGCGCCCAGTAGAGCGACAGTGCAGCCCAGATAAACGGCGC -TTTATCGCTGCTGACGGACGAGAAATCAGAGGCAAACAGCGCGCTGGCCATATCTTCCAGCTCCTGAGTCGATGCCTTCT -CCAGATTCTCAATCACTGCCAGCGCCGGGCCGCTCATTTCAGGTTTCAGCTCAGCAATCAGCGCCATCAGCAGCTTTTGC -CAGTGCTTATCACGCGGCAGAACGTGAATATCCAGCGGGGGCTTGCCTTGTGCGCTGGCTTCTTTAATGCGCGCAGTCAG -ATCCATCTCCAGCGGATGGTCGTACAGCACCACTTCCTGGGCGTGGGCGATAAGCGCAGCAAAGCGCAGGTAATCACCCA -GAGGATTATTTTCTGCCAGCTCGCGCAGACGCTCGGCGCGGCGGTTGTATAAATTCTTGAGCCGAGGGAACAATAACGGC -GGAATCATATCCGCCGTACGTTTCTCGCTTGAACCCAGCTCATCTTGCGGGATTATGCGAATACTCATTCAGCTTTCTTT -TCCGTTGTCTTGCGGACCTCACGGTACCAGCGCGGGTGATGTTTCTTCGCCCAGGCGCTGGTAACCCATCCTTCCACCAT -GGCGGTAATCGTGCCTTTCACCCAAAGGGCGGCGTAGATATGCACCATGATAACCACAATTAACGCCACTGCGGCAAATG -AATGCAGCATTAACGCGAATCGGATCACCGGGATTGAGAAAGCAGGCGCAAAATAAGGACGCCAGATAATCACGCCGCTC -ACCAGCAGCAGAACCAGGAAAATAATCGCCGCCCAGAAAACGCATTTCTGACCGAAGTTATAACGCCCGGTGTCACCTAC -TTCCTCGTTGACGACGATCTTACGAATATTCTTCGCCCAAAAGATATCATCCCGATTGATTAGGTTGTGATGCCAGTAAC -GGAAAAACATGATGATGAACGAGGCAAACATAACCACGCCGACAAACGGGTGCAGAATTCGCGCCAGCTGCGGTGTGCCC -ATGATTTGCATCAACCAGTTGAAGGACGGGAACAAAAAGCCCAGCCCGCTCACCGCCGCCAGGATGAAGCAGAAGGCGGT -GATCCAGTGGTTGATACGTTCCGGCGCGGTGTAGCGCACGATGGTGTCACGTCGTTTCATTTGCGCTCCTCGTCTTTCTC -TTCGTGCAGATTATTCTCTTCCTCATCCGCACGGTTCGGACCGACACCCACGTAGTGGAAGATACTGGCCGCAAAGGTAG -CCGCAAAGCCAACAGCCGCGAGCGGTTTCCAGATGCCTTTCCAGAATTTCACGGTTTCGCTGATTTCCGGGTTCTCCGGC -AAGCCATGATACAGATTTGGCTTGTCAGCATGGTGCAGCACGTACATGACGTGTGTACCACCGACGCCTGCCGGATCGTA -CAGACCCGCATTGTCGTAACCGCGGGTTTTCAGCTCAGCAACGCGCTCGCTCGCCAGCGTTTTCATCGACTCTTTCGTAC -CGAAGTGAATCGCGCCCGTTGGGCAGGTCTTCACGCAGGCTGGTTCTTGCCCAACCACCACGCGGTCAACGCACAGCGTA -CATTTGTAGACGCGGTTGTCTTCCGGGTTGAGGCGCGGAATGTCGAACGGACAGCCCGCAATGCAATAACCGCAGCCAAT -GCACTGCTCGGACTGGAAGTCGACGATACCGTTGGCATACTGAATAATTGCACCTTCCGCCGGGCACGCTTTCAGGCAGC -CTGGATCGGAACAGTGCATACAGCCGTCTTTGCGGATCAGCCATTCCAGTTTGTCGTTCTGCTCCACTTCCGAGAAGCGC -ATTACCGTCCACGATTTGGCGCTTAAATCATTGGGGTTGTCGTACACCCCAATGTTATTGCCGACGGTATCGCGAATGTC -GTTCCACTCTGAACACGCCACCTGACAGGCTTTACAGCCGATACAGGTGGTAACGTCGATGAGTTTCGCCACTTCTTCCT -GGAAGTCCCGCGCCTGAGGCGCGGGGGTCAGACCGTTAGTCGCGGAACGACGAATGATATCTTGAGATTGATAAGCCATA -TGTCGTCTCCGTTACACCTTTTCCACATTCACAAGGAAGGACTTAAACTCCGGCGTCTGCGTGTTCGCATCACCAACGAA -TGGCGTTAAAGTATTGGCAATAAAGCCTTTTTTAGCTACGCCTTCATAGCCCCAGTGAATCGGAATACCGATGGTATCGA -TATCTTTGCCGTTCGCTTTCAGCGTGCGAATACGTTTGGTCACCACCGCTTTGGCTTTGATATAGCCACGGTTGGAGGAG -ACTTTCACGGTATCGCCCTGGGCAATGCCAAGTTTATTCGCCAGCGACTCCCCGATTTCCACAAACTGCTCTGGCTGCAA -AATCGCGTTCAACAGCGCGTGTTTGGTCCAGTAGTGGAAGTGCTCGGTCAGACGATAGGTGGTTCCGACATACGGGAACT -TATCGGCTTTACCCAATGCTTCGGCGTCGTCTTTAAAGATACGTGCAGCCGGGTTCGAGATAACGTTTGGATGCAGCGGG -TTAGTTCCCAGCGGCGTTTCAAACGGCTCGTAGTGTTCCGGGAACGGACCTTCCGCCATCTTATCGAGGGCAAACAGACG -CCCCATGCCTTCCTGCTGCATGATAAACGGCCCGACGCCGCTACCCGGAGGCGCTGCGCTGTAGTCCGGAATATCCCAGC -CGGTCCACTTAGTGCCGTCCCATTTCAGCAACTGACGCTTCGGATCCCACGGGTTACCCTGCGGATCTGCGGAGGCGCGG -TTATACAGAATGCGGCGGTTAAGCGGCCATGCCCATGCCCAGCCCAGCGTGTTACCGAGGCCAGACGGATCGGCGTTATC -ACGGCGTGCCATCTGGTTGCCTTCCGGCGTCCAGCTACCGGCGAAAATCCAGCAGCCACAGGAGGTTGTACCGTCATCGC -GCAATTGGGCGAACGAACTAAGTTGTTGGCCTTTCTTGACGATAACCGCACCGGTTGCCGGATCGGTAATATCGGCCAGC -GCCTTACCGTTGCTCTCCATCGCCACTTCTTCTGAAGATGGCTCATGCGGAATGGCGTAGTTCCATGTCATGTTCAGCAC -CTGGTCCGGGTTCGCGCCACCCTGTTCGGCATACATCTTGCGCAAGCGCAGGAAGATACCGGAGAGGATCTCGCCGTCAG -TCAGCGCAATCCCCGGGGCGTCCGCACCTTTCCAGTGCCACTGTAACCAGCGACCTGAGTTAACGATAGAACCGTTCTCT -TCCGCGAAGCAGGTCGATGGCAGACGGAACACTTCGGTCTGGATCTTCGACGAGTCAACTTCGTTCAGCTCACCGTGGTT -CTGCCAGAAGTTAGAGGTTTCAGTGTTCAGTGGGTCGATGGTGACGAGGAACTTCAGTTTCGACAGACAACCGATCACTT -TGTTTTTGTTCGGGAATGAGGCAACAGGGTTAAAGCCCTGGCAGATATAGCCATTGACCTTGCCCTCTTTCATCATCTCG -AAGTATTGCAGGACGTCGTAGCCTTTATCCCACTTCGGCAACCAGTCAAAGCCCCAGCTATTTTCCGCCGTCGCTTTATC -ACCAAAGAAGGCCTTCATCATAGAGACGAAGAATTTCGGGTAGTTGCCCCAGTAGTTTACCTGGCCTTCCAGCAGCGGTT -TTGGCGTGTTGGCGGTAAGGTAGGTTTGCAGATCGGTCTGCTTCTCGCTTGGCAGCGTCATGTAACCTGGCAGGCTCTGC -GACAGCAGCCCCAGGTCCGTCAGCCCCTGAATATTGGAGTGACCGCGCAGGGCGTTAACGCCGCCGCCTGCCATCCCCAT -ATTGCCGAGCAGCAGCTGGATCATCGCCATCGTACGAATGTTTTGCGCACCAACGGAGTGTTGCGTCCAGCCGAGGGCAT -ACAGGAACGAGGCAGTTTTATCGTGAGCACTGGTTTCTGCGATGTATTCGCAGACTTTCAGGAACGCGTCTTTTGGCGTA -CCACAGATGTTTTCAACCACATCTGGCGTGTAGCGGGAAACGTGCTGTTTCAGCAAGTTCCACACGCAGCGCGGATGTTG -CAGCGTGGTATCGCGTTTGGCGAAGCCGTTTTCGTCCAGTTCATAAGTCCAGGAGGATTTATCGTACTTGCGTTTTTCCG -CGTCGTAGCCGGTGAACAGGCCATCTTCAAAGCCGTAATCCTCACGCACGATCAGGCTGGCGGTGGTATAGGCTTCGGTG -TATTCGCGGTTGAATTTTTCATTGTTCAGCAGGTACAGCAATACGCCTGACAGGAAAGCAATGTCAGTACCGGAACGAAT -AGGGGCATAGTAGTCAGCTACCGCCGCCGTACGCGTAAAGCGAGGATCGATCACAATCAGCTTCGCGCCGTTGTGAATTT -TGGCTTCCATCGCCCAGCGGAACCCGACCGGGTGAGCTTCAGCGGCGTTACCGCCCATCACCACGACGAGGTTGGCGTTC -TTGATGTCGACCCAGTGGTTGGTCATCGCACCGCGACCAAATGTTGGAGCAAGACTTGCTACCGTTGGTCCGTGTCAGAC -ACGCGCCTGGTTGTCGACCGCGAGCATACCCAGCGCGCGGGAGAATTTTTGCGTTAAATAGCCGGTTTCGTTACTCGACG -CGGAAGCACACAGCATCCCGGTGGAGAGCCAGCGGTTAACAGTCACGCCTTCGGCGTTTTGCGCAATGTAGTTAGCATCG -CGGTCTTCTTTCATCAGTTTGGCGATGCGATCAAACGCCTCTTCCCAACTGATTTGCTGCCATTTATCAGAACCTGGCGC -ACGGTATTCCGGAAACTTCAGACGGCTTTCGGAGTGGATGAAATCCACCAGGCCAGCGCCTTTCGGACAAAGTGCACCGC -GGTTGACCGGGTGATCCGGATCGCCTTCGATATGGAAGATAGATGCTTTGGCGTTTTTTGCTCCGTCACCGAGGCTGTAC -ATCAACAGCCCACAGCCTACGGAACAATAGGTGCAGGTATTACGGGTTTCGCGGGTGCGCAGCAGTTTATACTGCCGGGT -TTCCGCGAGTGCTACGCTGGGTGCAAAACCCAGTGCCGCTGCCGTGGTGCCTGCCATACCGCCAGCGCAGATCTTAAAGA -ACTGCCTTCTGCTGACCTGCATGGATTGCTCCTTGTTTCGACATTGTCACGTCCCATTTACATTCGCTTGCTGCGTGTGC -AGGGAGTGGGAGTTATTTTTCTTTGCGGAAGGGGCCGCAAAGGTCCAGAATTGGCTCAATTTCCCTCCATCCAGGAAGGG -TTTGTAACAGAATACCATAATGTTGGTGTGTGTGTTCTTATCTGGTTAAGAGAAAGTGAAAAAAACACAGCGAAAAGAAA -TCGAAAATGTGACAAATATCACAGGTGTTCGTCAAATTGAGTTATGGCGGCGTGATGATTTACAACACCCACGGTTAGAT -GAGGTCGCGGAAGAAGTTCCCGTTGCGCTGGTCTACAACGGCATTTCGCATGTGGTGATGATGGCGTCGCCCAAAGACCT -TGAGTACTTTGCGCTCGGTTTTTCGCTTTCCGAGGGGATTATCGAAAGTCCGCGCGATATCTTCGGCATGGATGTCGTTC -CTTCCTGTAATGGTCTTGAAGTACAAATTGAGCTTTCCAGCCGCCGCTTTATGGGGTTGAAGGAGCGCCGCCGGGCGCTG -GCGGGACGTACGGGCTGTGGCGTATGCGGCGTGGAGCAACTTAATGACATCGGAAAACCGGTGCAGCCGCTACCGTTCAC -CCAGACGTTTGATCTCAACAAACTGGATGATGCATTACGTCATCTCAACGATTTTCAGCCAGTGGGGCAACTGACTGGTT -GTACTCACGCCGCTGCCTGGATGTTGCCATCTGGCGAACTGGTCGGCGGGCATGAAGACGTGGGTCGCCATGTGGCGCTG -GACAAACTGTTAGGCCGCCGGTCACAAGAAGGGGAAAGCTGGCAGCAAGGTGCGGTACTGGTTTCCAGTCGTGCCAGTTA -TGAAATGGTGCAAAAGTCGGCGATGTGCGGCGTAGAGATTTTGTTTGCGGTGTCTGCCGCGACCACGCTTGCTGTAGAAG -TGGCTGAGCGCTGTAATCTGACACTGGTAGGTTTTTGTAAACCGGGTCGGGCAACGGTTTATACCCATCCGCAGCGTTTG -AGCAATTAATTAAAATAAGTCCTGCGAAATATATTAAATTGCAGGACTTATTCATTTCGTGAATTTTATTATTTTATTTA -TAAACAAAATGCGTGTAGTGGCGTTTTCTTTTTTCATTTATTATGTTCACTCTCTTATCTATATATTTATAAGGCAATTA -AATGAAAAGGAATTTATTATCTTCCGCTATTATAGTCGCCATCATGTCCCTCGGTCTGACGGGTTGTGATGATAAAAAAG -CCGAAACAGAAACGCTCCCGCCTGCCAATAGTCAACCTGCCGCACCAGCTCCTGAAGCGAAACCTACTGAAGCTCCCGTT -GCAAAAGCAGAAGCTAAACCTGAAACACCTGCGCAACCGGTGGTCGATGAACAAGCGGTTTTCGACGAAAAAATGGATGT -CTATATCAAGTGCTACAACAAGTTACAGATCCCGGTACAGCGCAGTCTGGCGCGTTATGCTGACTGGCTGAAAGATTTTA -AACAGGGGCCTACCGGTGAAGAGCGTACTGTTTATGGCATCTACGGCATTAGTGAATCCAACCTCGCTGAGTGTGAAAAA -GGCGTAAAAAGTGCTGTGGCGTTAACGCCTGCGCTGCAACCAATTGATGGCGTGGCGGTGAGTTATATCGATGCTGCCGT -GGCGTTGGGTAATACCATTAACGAAATGGATAAATATTACACCCAGGAAAATTATAAAGACGATGCGTTTGCGAAAGGGA -AAACGCTGCACCAGACATTCTTAAAAAATCTGGAAGCCTTTGAACCTGTAGCCGAATCTTATCATGCGGCGATTCAGGAA -ATTAATGATAAGCGTCAGCTTGCGGAACTGAAAAATATTGAAGAAAGAGAAGGGAAAACATTCCACTACTACTCTCTGGC -AGTCATGATTTCAGCGAAACAAATTAATAACCTGATATCGCAAGATAAGTTTGATGCAGAAGCGGCAATGAAGAAAGTGT -CTGAACTGGAAACGCTAGTGGCGCAGGCCAAAGAAGCGGATAAAGGCGGCATGAATTTCTCGTTTATTAATTCGGCAGGC -CAGTATCAACTCGAGGCTAAAAAATACGTTCGCCGCATCAGAGATAAAGTCCCGTACTCTGACTGGGATAAAGAGCAACT -TCAGGACGCAAACTCAAGCTGGATGGTCGAAGACTCTTTCCCGAGAGCATTACGCGAGTACAACGAAATGGTTGATGACT -ATAATAGCCTGCGTTAAACGTTTTTGATGATAAATGCAGTGTCGGATGCGGCGCATCCGACACAGTTCACCCCTTGTGAA -GTAACTCCATAAATGCCTCATATCCTGTTAACCCGGCAATAATCTCCGCCGGATGCTGACACAATATGCTTGCCAGATAG -CTAAATATTTTTAGCTCATGACGCGCATCGGCGGCGGCGCAGGCGATCAAGACATGGTTAATGACTTCGTTATTCACCTC -AACTGGTTGGGCGAGGGTAATAAAAAATCCACGAAAACGTCGCTCCTGTTCGCTCCAGCAATGTGGGATGGCGAGGCGAT -TAACAATCAGGTTTTCACCTTCGCCTTCGCGGGCGATGATGCGTTGTGCTTCATCGGCGGTAATATGGTGTTGTGCGACT -AATTGCGCACAAATTTGCCGGGTAATATGTTGCCAGCTTTCACCGCGTACATTCGAATAATGAAAACTTCCGGGGGCAGA -GAAAAAACGCTCCGGCTGTTGGCGAATAAATGCCGTCGCCAGAAAATGTTTTATTTGTTCGATACCGGCAGCCGTAATGA -TATTTTTTACGGTGATGTAATTATTTACCGCGTCATCCAGTAAATAATGGCTGTTGTTAATGATCAATAACGGCTCAATC -TCTTCGCGAATGGCAACAAGTTCGCTTAAGCTACGGGCAATAATTACCCGACAATTTAAAACATCGCGCTCAATGGCGAG -CTGATTAATAGTGGCAATCGCGTTCTGGTCCGAGAGCAAAATGATCGGCTGGCGTTCGTTTTGATGCCGCTCCAGCGCAC -AGGCAAAATACAAACCGATCAGATCGCTGTCGAAAAGGGGAATATCGAGCTGTTCACGCAGTAGCGTAATAAAGTGCAGA -CTCATATCAAAGGCCGCAGGCCAGGCGGCTTTCAGGTTATTCATGCTGCTCTGGCGGTGCTCAGCAATCCACACTGGTGC -GGCAAGGCAACGTAATAAATGCCCGGTAATATTCTCAACCAGCTGCGCATCAATAATATTCAATGACGCGATGCCCGGCA -CCCTTTGCAGCAACCCCTGCACATTATCGGCTGAAATTACCTGCGCTTGCTGATGCTGTTTCTCTATCAAACCCGTCAGG -GTTCTTACAGCGTTATCACCAAGAAACAGACCGCTATGTTCAACGATTTGTTTTATCTCGTCACCGGGATATTGCGGCCA -CTCATCGGTCAGTTGATTACGCAGGGCGTAAATCGCCAGAATCAGGCTGGAGAGATAATCACCCTGCATGAGCGGCCAGC -GGTGTTGGTTGTCGCAGGCCGTGGATAAATGCTGAAGGTTGTCTCGTGTTATGCCCGCCAGCGGAATTAAAAACGGATCT -TTGCGCAGCAAGTTCGCCAGCAAGATAACGCGTTTCTCTTCTGTCTCATCAATGAAATGGCCCAAACCAGGGCGGCTGGC -CAGGCAACAAGTGCGTTCATAACGCTGTTTTAACCGGGGCAGACGCTCTGCTACCCACGTTTCTGGCAAATTAAGCGCCG -AGGCGAGTTGCGCACGGGGAGTGAAAGTATTCAGTAATAACAGCGCCAGCAGCCGATCGTCGTTATCGTGCTTTTGCAGC -AACTGAAAAAAGCTGCGGCGCTCGAAGATTTCCAGCTGATAGCCCGCACTGCCACTGGCGAAAATGCGGGCTTTGCCGTT -AAGGGTGAAGTTGAGATAGTCAATATCACGCAGGATGGTCCTGCCTGAAACGCCAGTCTGTTGCGCCAGCTCGCCAGGCG -TGCGCGGCTGTTGCTCCAGCAGATCGACAATCTTTAACTGGCGTTCGTTTAGCATTAATCCACCTGACGGAACTGGCTAA -ACGCGTTGACTTTCTCCGCAGTTAAGGTCGTCAGAAAACCCCGTATCAGCGTGAGCAGAGCTTCGTAATCGGCTTTTGAA -ATCATACCGCTGTTGGCGTGCAGATAACGAGTTGGCAGACACAGCGCGACAACCGGACGCCCGCCGCCCATCACGTTGTA -GCGCCCGCCATCCGTCGCACCGGTTTTCATGGTGGAAAATTGCAGCGGTAAATCGTTATGTGCGGCACAGCTTTTTAACG -CTGCTACCAGTTTCTGGTTGGGGAAGTAGCGCTTGTCAAACAGCATCAGCCCCGGCCCCTGGCCCAGTTTCAGCGGGTAT -TTAATGTTATCAATGCCCGGAACATCGCCCGCTACGGCGGTATCCAACACGATCACGACGTCCGGTTTAATGTGTTCCGC -CGAGGTTTGCGCCCCGCGTAGCCCAACTTCTTCTTCCACACTGCCAACGCCATACAGCGTAATTTCGGGATTATTCACCG -TCTGCAATAGTTCAGCCATCATTGCGCAGCCGATGCGGTTATCCAACGCCTTGCCGACCACTTTATCTTCGCCCCAGCAG -GCAAAATTGGCTTCCGGGCTAATAAAATTACCAATTTCCACGCCGCGCTTTTCCACCTCTTCGCGACTGTTCGCGCCAAT -ATCAATGAACATCTCATCAAATGACAGCGGTTGTTGCTTTTGCTTTTCCGTTAACGCATGAGGCGCGACGGAACCAATCA -CACCAGGGATTTTCACTCCCTTGTGTGTGCGTATGGTTACCCGGTGGTTGAGCATCGACTGATTCCACCAGCCGCCAATG -GTGGTAAAACGCAGAAAACCGCTCTCGTCGATGTGGGTGACCATAAAGCCGACTTCATCCATATGTCCGACAACGGCAAC -TTTTGGACCTTTATTCCCCTTACGGGCAACAAAGCTGCCCAGACCATCGAAGGTGATTTCATTCACGCAAGGTTCCAGCG -TGTTTATCAGAATGTCGCGAACTTCCTGTTCATCGCCGCTGACGGCGCTGGCTTCGCACAACTGTTGCAGTAACTCAATG -TTCATGGACAAGCTCCTGTTGCGCGGCTTTCGCTTTGCGGCGTAACCACAATCCTTTCAGGACGATAATGAATGAAATGT -TCAGCGCGAGGCCAATCGCCAGCACCAGATAAAACGAACCCACCGGCGACATCAGGCCGATCAGCGGGTCAAAGATACCC -AAACCAGGTGCCAGACGTTTGATTCCGAAAGCGATCACCAGCACGCCGGTAATGCCGCCCGCCAGCGTATTGGCGGTAAT -CATCGGCAACGGAGCTGCCAGAGCGTAAGGAATAGCCGGTTCGGTTGCGACTGTGGCACCGACCACAATGGCACTACTGG -CAGCCTCTTTTTCCTGTCGGGTAAACAGTTTGGGCGCAATGAACGTCGCAAGACCCGCCGCGACGGGCGGCATCAGCGCG -ACAACGCCGACGATGGCGTACCAGTCATAAATGTGTTTTTCCAGCAGTGAGAAGCAGAAGAACCAGGCGGTTTTATTGAT -GGGGCCGCCCATATCGAACGCCAGCATCGCACCGACCAGAAACGCTGCCGCAAACTTCATTGATGGAGGAATGGTATTCA -GGAAGTGGAGCAGCCCGCCCATGAGGTCGGACATCACCGGCCCGATAACGTAGTAAGTGAGCACGCCGAAAACCAGCAGA -GTAACGAACGGGATCAGCATTGAACCGAGCAGCGGTTGTAATGCTTTGCCAAGGCGCACTTTGCGGAACCAGAAGACGAA -ATAGCCAATCGCCAGCCCCAGCACCACCGCGCCGAGGAATCCCGCACCCGACTGGGTGCCGAGCAGCGCTTTGTCGTTCG -CCAGATAGCAAACCAGAAACGCCGGAGCGAAAGCCGGTTTATCGGCAATCGACGAGGCAATATAAGCGCCCATGATGGGG -ATCATAAAGGTGAAGCCAAGGTAACCGATGGATTCAACTACCCAGGTAAACGACGGCGCGCCTTTCGACATATCGGTATA -CGGCAAACCGAACTGCACCAGCATGTTGGCAAGCGCCACCAGGATACCACCGCCGATGACAAACGGCAGCGCCGCAGAGA -CGCCCGCCATCAGGTGGCTCATCACGCTACCGCTTTGCACTTCCTGTTTGCCAAGCTTCACGCCGCTATCTGCGGCAAAA -AGCTGCGAGTTTGTCGGTAATTCGCTGAAAATCTGGTCGATATTTTTCAACGCCTGGGAGATGGCAATCTCATAAACTTT -CTTCCCGGCAAACCGCGCGCGATCATCACCGCTCAGGCCACGCCCGGTAGCGAGAATGACGTAATCGGCAGCGGCAATCT -CTTCGCTGGATAAGCGGTTTTCAACGCCACTGGACCCTTGAGTTTCCACTTTTATGGTATGACCGAGAGAACGGGCTTTC -TGTTCCAGGGCTTCCGCCACCATGTAGGTGTGAGCGATCCCGGCGGGGCAGTTGGTGATCGCGACAATACGTAAGGATGA -CTCCATCGCCACTTCCTTATGAGCTGAGGGTTTGATTTAACAAGGCAAGCACCTGGTCGGTATCGCCCTGTTGCAGTTGA -TGAATAAATTCCTTGTGAATAATTTTGCGACACAGTGTGCCGATGATTTTGACCTGATCCTCTTCGCCGCTTTGCGGCAC -GCCGAGGCAGATCCAGCAATTGACGTCTTCGCCATCGCTGGCTTTCCAGTCAATAGCCTGCGCTTTGCGGGCGAATAATA -CGAACGGTTGTTTAACGCAGGCGCTTTTACCGTGCGGCACGGCGACACCGGAACCAAATCCAGTAGAGTGCATTTTTTCG -CGCAGCAGCAGGGTTTGCAGGAGCTGGTGTGAGTCGGTGATAAAACCGTTTTGTAACGCTATTGTCGCCAACTGCTTCAG -AACGGAATAAGCGCCATTGCCCTGAATATTCAGGTCAATACAGCTTGCAGTAAGAGCTGCCATTAATCGGACTCCATAAA -ATATATTTTAATCAATTGTAATGGTGGAGCGATTAAGTGATGAGAGGCGATATGTCGGTAAACAATGACAATTTGAGACA -GAGTGAAAGGTCAGATTTGCGGAGTAATGCACATAATGGTTATTTAAATAAACCACATGAATCATTAATGGGTTATTCAT -TATTTTTGTGATTTACTCACAATGTATCAGGGAAATATAACTTACCGGGAGATGTAATATGTTTAATTTTTCAAATCGAA -ATTTAAAATATTGTGCCGGAGGCATCTCTGGCACATTGGGCAATTACGGCAGGTAAAACACTTCTTGCAGCTCGCTACTC -ACCGGGCTGTTATCCGGGTTAGCGGGCATAACATCGGTCATATATTTCCACCAACGTTGGCAAACATCAGTGCTGGCAAC -CGCATTCCAGCGTTCTTCAGATTCAATCTCTACCATGGCAAACAGCAGATTACGCGCTTTGTCGAGATAGATGGCGTAGT -TATGCGCACCGTGAGATTTCAGCACTGCTTCCAGTTCTGGCCAGATGGGATTATGCCGACGCTGATACTCTTCGTGGGCG -TCGGGGTTTACCTGCATGACAAAGGCTTTGCGGATCATGTTTGCTCCTTACAGCGCCAGCGCACTGGCGAGTGGCGTAAC -GCCGAAACGCTTGCCGAGCGCTATCAACTCTTCACGGCTGATGGTCTGTTTCATGCCGCCCATCGAATAAACCTTCACTA -ATACTTGTGCTGATTTTTCTGCGGTGTCGATTAAACCGAAGGTTTCATCCAGCGTCGGTCCGCTGCCGAAGACGCCGTGG -AAGGGCCACAACACCAGCGAATGTTTTTGCATCTCTTGTGCGGTCGCCTGGCCGATTTCGTCCGTGCCGGGCACCATCCA -CGGCAAAATGCCAACGCCATCCGGGAATACCACCAGACACTCGGTGCTGCCTTCCCACAGTTGGCGAGTGAAGACCGCGG -TGTCGTTTTCAAGTACATAGGTGAGGGCGATCAGGTTGGTGGCGTGGCAGTGCATGATCACCCGATCTTTGCCGTTGGTG -GCTTTAATGCGCTCGCAGTGGGAAAGGAAGTGAGCCGGAAGTTCGGAAGTGGGGACGGCTTCGTTGGTTAACCCCCAAAG -AATGTGGTAGCCCGCGCCGTCGCTGTCGACTTTTACGATGCCTAAGTTAGCCGCAGGATCAAGCTGGACGTTACGGAAGA -ATTTGCCCGAGCCGGTGACAATAAACGGTGTATTTGCCAGTAAAGGCATGGGCTGGCTGAGCGGGATATAGCGCGGTTGT -TGGTGGAAATTGTCGTGATATGGTGCGATATCGGCGTCATCCAGGCGTAGCGTCAGGTTGCCGCCGTTGCGCTCATCCCA -GCCTTTCAGCCAGGCGTCGGTGGTGGCTTTGATCATTCCCTGGACAAACCAGGACTGAGTAATGTTTTGCATGTTCTGTG -TTCCTGTAAATTCGGTGTTGTCGGATGCACGACCCGTAGGCCGGATAAGGCGCTCGCGCCGCATCCGGCAATCAATGCCT -GATGCGACGCTGTCGCGTCTTATCAGGCCTACAACTATTGCCGACCTGTAGGCCTGATAAGGCACTTGTGCCGCATCCGG -CAATCAATGCCTGATGCGACGCTGTCGCGTCTTATCAGGCCTACAACTGTTGCCGACCTGTAGGCCGGATAAGGCACTTG -TGCCGCATCCGGCAATCAATGCCTGATGCGACGCTGTCGCGTCTTATCAGGCCTACAACTATTGCCGACCTGTAGGCCGG -ATAAGGCACTTGTGCCGCATCCGGCAATCAATGCCTGATGCGACGCTGTCGCGTCTTATCAGGCCTACAACTGTTGCCGA -CCCGTAGGCCGGATAAGGCGCTCGCGCCGCATCCGGCAGTGTTTACCCGCGGCGACTCAAAATTTCTTTCTCATAAGCCC -GCACGCTCTCCAGCCATTCGCTACCTGCTGGCGTATCGTGACGTTGGCAATACATTTCCCAGACCGCCTGCCACGGCAAC -GATTTCTGCTCTTCCAGCAGTGCCAGACGCGCAGTGTAATCGCCCGCCGCTTCCAGCTTGCGCAGCTCAGCGGTAGGTTC -CAGCAACGCACGCAGCAGGGCTTTTTTCATATTGCGTGTACCAATGACCCACGCGGCAATGCGGTTGATAGAGGCATCGA -AGAAGTCAAGGCCGATATGCACCCGGTCAAACAGATCGTGACGCACAATCTCACTGGCAATTGCCTGGGTTTCATCATCC -AGCAGCACTACGTGATCGCTGTCCCAGCGAACCGGACGGCTGACGTGCAGCAGCAACTGCGGCACATACAGCATGGCGGC -GGAAATCTTGTCGGAAATCACTTCAGTCGGGTGGAAGTGCCCGGCGTCCAGGCACAGCGCAGTCTGGCGGCTGGTGGCAT -ACCCCATGTAAAACTCATTGGAGCCAACCGTGTAGCTCTCTGCGCCAATGCCAAACAATTTGCTCTCAACGGCGTCGATA -TGGTGCGCAGGGTTTAGCTTCTCGCTGATCACCTCATCCAGTGCTGCCAGCAGACGCTGACGCGGGGCGAGACGGTCAAC -GGTGATATCTTTCATACCATCCGGGATCCAGATGTTCATCACCGATGGTGTGCCGAGTTGCTCGCCAAAATAGGCCGAAA -CGCGACGGCTGGCTTTGCAGTGATCAATCCAGAACTGGCGAATGCTGTCGTCGGCATGGGAAAGCGTAAAGCCATCGGCG -CTTAGCGGATGCGAAAAGCAGGAGGGGTTAAAATCCAGACCGAGCTGATTGGCTTTCGCCCATTCAACCCAGTTTTTGAA -GTGCTCTGGTTTGATCTGGTCGCGCGAGACTGGCGTATCTGATTCCAGATAGATGGCATGTAAATTAAGCCGTTTCGGCC -CCGGAATCAGCCGCATAGCCTGTTCCAGATCGGCACGTAGCTCACTGGCATTACGCGCTTTGCCCGGATAATTGCCTGTG -GCCTGAATCCCCCCGGTCAGCGAACCTTCCGGGTTTTCAAAACCGGAAACATCATCGCCCTGCCAGCAGTGCATTGAAAC -GGGTAAACGATCAAGTTGGCGCAGCGCCTCCTCGACATCAATCCCCACCGCCGCGAAACGCTGTTTCGCTAGCTCCCAGG -CCTGTTCCAGTTGAGTGGTCATGCGCAAAGCTCCTTTGTCTGTCGTGTAGAGTGAATCTGCGCCACATAGTGGGCAATTT -CACTGTCAGGATTAGGGGTAAAGGTGGTCAGATTCGCGGTGGTGCTGACGACCTGACGGAAATCATCCACATTGTTGAGT -TCATCCAGCGTCATTAACTGGATGCCGATATTGCCGAGCGTCGAGGCTTCAACAGGCCCGGCGATCACCCGAATACCGCA -GGCATCGGCGCATAGCTGGTTGAGCAGCGTGTTCTGGCAGCCTCCGCCGACAATATGCAGTTGCGAGAAATCTTCACCGC -GCAGCTGCGCCAGCTCATGCAACACATCGGCATACAGCAGCGCCAGACTGTCGAAAATGCAGCGCGCCAGTTCAGCATCA -CTTTCCGGGATCGGTTGCGCCGTTTCCCGACACGCAGCCTGAATTTCGCTGCACATCGTCTCAGGATTAATAAAGCGATC -GTCATTGGGATTGATAATGAAGCGGCAAGCCGGAAGTGCCTGTGTCGCGGAGATAAGCGCCGGAAGATCGTTGATTTGCT -GCTCCTGAAGCACTCGCTGAAGCAGCCATAAGCCCATAATATTTTTCAGCACCCGATAGCGACCTTCCGCCCCGCCTTCA -TTGGTGATGTTGGCTGCCAGTGCCGTGTCATTGGTAAATGGCGTCTGGCTTTCGAAGCCCATCAATGACCAGGTGCCAGA -AGAGAGATAAGCAGCACGTGAGCCGTTTAACGGCGAGGCGATAACCGCGCTGGCGGTATCATGGCTGGCAACGGCGACCA -CTGGAATCTCATTACCCTGCGGGCAAATCCAGTGACCTATGACATTACCCGGATGCGTCGGGCGACCAAACCAGGCTTTG -TTGGCCCCGCTCCACGCCAGTAGCGACTCGTCCCAGTCGTCGCTATTGATATTGACCAGTTGCGTGGTCGTGGCGTTGGT -ATATTCCCAGTTCATCTTGCCGGTCAGGCGATAACTGAAGTAATCCGGCATCAGCAGAGCGTGAGCAATGTGTGGAATAA -GTTCAGGTTGTTGCTCCGTCAGCGCACGCAACTGATAAAGCGTATTGAAGGGCAGAAACTGGATGCCGCTACGTTGATAA -ATATCGCGTTTGCCGAGTTGTTGTTGTGCCTGCGCCATTAGGCCATTGGTGCGGCTATCGCGATAAGCAACGGGCAGGCC -CACACGCTGACCCTGTTGGTCGAGCAGCACAAAGTCCACGCCCCAGGTATCAATCCCAATGCTATCGATACGAATCCCTT -CCTCGCACACCTTGTTTAATCCAAGGCGAATGGCACTTTCAAGGCTATCCACATCCCAGGTGACATAGCCGTTCTGACTA -TGCAGCCCATTGTTAAAACGATGGATTTCGCGCAGCGTCAGGCTGCGGCATTCACGCTCGTAACGCGCCAGCATCACGCG -CCCACTGGATGCGCCGAGATCGACGGCGACACAATTGCGAAAGGTCATAATGTGATCCTGCTGAATTTCATTACGACCAG -TCTAAAAAGCGCCTGAATTCGCGACCTTCTCGTTACTGACAGGAAAATGGGCCATTGGCAACCAGGGAAAGATGAACGTG -ATGATGTTCACAATTTGCTGAATTGTGGTGATGTGATGCTCACCGCATTTCCTGAAAATTCACGCTGTATCTTGAAAAAT -CGACGTTTTTTACGTGGTTTTCCGTCGAAAATTTAAGGTAAGAACCTGACCTCGTGATTACTATTTCGCCGTGTTGACGA -CATCAGGAGGCCAGTATGACCGTATTACATAGTGTGGATTTTTTTCCGTCTGGTAACGCGTCCGTGGCGATAGAACCCCG -GCTCCCGCAGGCGGATTTTCCTGAACATCATCATGATTTTCATGAAATTGTGATTGTCGAACATGGCACGGGTATTCATG -TGTTTAATGGGCAGCCCTATACCATCACCGGTGGCACGGTCTGTTTCGTACGCGATCATGATCGGCATCTGTATGAACAT -ACCGATAATCTGTGTCTGACCAATGTGCTGTATCGCTCGCCGGATCGATTTCAGTTTCTCGCCGGGCTGAATCAGTTGCT -GCCACAAGAGCTGGATGGGCAGTATCCGTCTCACTGGCGCGTTAACCACAGCGTATTGCAGCAGGTGCGACAGCTGGTTG -CACAGATGGAACAGCAGGAAGGGGAAAATGATTTACCCTCGACCGCCAGTCGCGAGATCTTGTTTATGCAATTACTGCTC -TTGCTGCGTAAAAGCAGTTTGCAGGAGAACCTGGAAAACAGCGCATCACGTCTCAACTTGCTTCTGGCCTGGCTGGAGGA -CCATTTTGCCGATGAGGTGAATTGGGATGCCGTGGCGGATCAATTTTCTCTTTCACTGCGTACGCTACATCGGCAGCTTA -AGCAGCAAACGGGACTGACGCCTCAGCGATACCTGAACCGCCTGCGACTGATGAAAGCCCGACATCTGCTACGCCACAGC -GAGGCCAGCGTTACTGACATCGCCTATCGCTGTGGATTCAGCGACAGTAACCACTTTTCGACGCTTTTTCGCCGAGAGTT -TAACTGGTCACCGCGTGATATTCGCCAGGGACGGGATGGCTTTCTGCAATAACGCGAATCTTCTCAACGTATTTGTACGC -CATATTGCGAATAATCAACTTCGTTCTCTGGCCGAGGTAGCCACGGTGGCGCATCAGTTAAAACTTCTCAAAGATGATTT -TTTTGCCAGCGACCAGCAGGCAGTCGCTGTGGCTGACCGTTATCCGCAAGATGTCTTTGCTGAACATACACATGATTTTT -GTGAGCTGGTGATTGTCTGGCGCGGTAATGGCCTGCATGTACTCAACGATCGCCCTTATCGCATTACCCGTGGCGATCTC -TTTTACATTCATGCTGACGATAAACACTCCTACGCTTCCGTTAACGATCTGGTTTTGCAGAATATTATTTATTGCCCGGA -GCGTCTGAAGCTGAATCTTGACTGGCAGGGGGCGATTCCGGGATTTAACGCCAGCGCAGGGCAACCACACTGGCGCTTAG -GTAGCATGGGGATGGCGCAGGCGCGGCAGGTTATCGGTCAGCTTGAGCATGAAAGTAGTCAGCATGTGCCGTTTGCTAAC -GAAATGGCTGAGTTGCTGTTCGGGCAGTTGGTGATGTTGCTGAATCGCCATCGTTACACCAGTGATTCGTTGCCGCCAAC -ATCCAGCGAAACGTTGCTGGATAAGCTGATTACCCGGCTGGCGGCTAGCCTGAAAAGTCCCTTTGCGCTGGATAAATTTT -GTGATGAGGCATCGTGCAGTGAGCGCGTTTTGCGTCAGCAATTTCGCCAGCAGACTGGAATGACCATCAATCAATATCTG -CGACAGGTCAGAGTGTGTCATGCGCAATATCTTCTCCAGCATAGCCGCCTGTTAATCAGTGATATTTCGACCGAATGTGG -CTTTGAAGATAGTAACTATTTTTCGGTGGTGTTTACCCGGGAAACCGGGATGACGCCCAGCCAGTGGCGTCATCTCAATT -CGCAGAAAGATTAATTCGCCATGCCGATGCCGACGATGTTAGCGGCGACAATAATCACCACACAACCGAGGCTCAACACC -GTTACCGGACGGCGTCCTGCATTGTTCCACTCTTTCAGCACCAGCCCGACGATACCGCCGCACAATACATAGAAACTCAT -ATGCAGCATCCAACTGATGTAGTCATACTGCGCCGGAATGCGGGCGTGGCCCCAGGCATAGAAAAAGAATTGCAGATACC -ACATCAACCCGCCCAGTGTCGAGAGTAACACATTGTGAATGATCAGCGATTTTGCCAGCGAGAAGTCGGCTTTTAGCGAC -AAATCCTTCACTTTTGCCAGACGAATAAAACAGAAACCGAGGTTAATGATCGCGCCGCCGCCCATGATGACAACATAGCT -TGGCAGAGCGACATACAGTGGATCGACGCCAAGTGCGGCAGCGGCTTCATGCATCGGTTTTGCGGCGTTCATCGCAAAGG -ACATCCCGGCAGAGAAAATGCCGCACATCACCGCCAGCACCAGCCCTTTTTTCAGATTGAACTCTTCGGCTTTAATGCCC -ATCTTGCGCTCTTTCAACTGCCCGGCGCGAGTTACAATCCCTACGCCAATCAGCGCCACCAGAACGCCGAGCAACGTCAT -GCGTCCGCCTTCGGTGCTAATCAACACATCGAAATTGCCGTTGATAATTGGCGTCATCAGCGTACCGACAATCAACGTAA -TGCCAATGGCGATGCCAATTCCCATCGACATGCCGAGATAACGCATGGTCAGGCCGTAGTTGATATTACCGATCCCCCAC -ATAGCGCCGAACAGAAAAACAGGCAGTCGCGTAGAGAGACTAAACGAGCTGTAATACGCCCAGAAATTCGGTAGTAACAG -GGCGCTGATGGCCCACGGCAGAATAATCCACGAAACAATCCCACCGACTGACCACATGGTTTCCCATGACCATTTTTTTA -CTTTTTTGAACGGAGCGTAAAAACAGGCTGCACTGGCCGCGCCGATCAAATGCCAAAATATCCCCATCGTAATCGCGTTA -CTCATCTTCTTATCCTCATCATTTTTCGTCGCGTCACATCTCCGACGAGATGAGTGTAAAAATCGTGCTGTCGATTAACC -TTTCGCCTGTTGCCGCCGTTGTCGATTTACTGGCAATCACGGCATTAAGTGGGTGATTTGCTTCACATCTCGGGCATTTT -CCTGCAAAACCATACCCTTACGAAAAGTACGGCATTGATAATCATTTTCAATATCATTTAATTAACTATAATGAACCAAC -TGCTTACGCGGCATTAACAATCGGCCGCCCGACAATACTGGAGATGAATATGAGCTATACCCTGCCATCCCTGCCGTATG -CTTACGATGCCCTGGAACCGCACTTCGATAAGCAGACCATGGAAATCCACCACACCAAACACCATCAGACCTACGTAAAC -AACGCCAACGCGGCGCTGGAAAGCCTGCCAGAATTTGCCAACCTGCCGGTTGAAGAGCTGATCACCAAACTGGACCAGCT -GCCAGCAGACAAGAAAACCGTACTGCGCAACAACGCTGGCGGTCACGCTAACCACAGCCTGTTCTGGAAAGGTCTGAAAA -AAGGCACCACCCTGCAGGGTGACCTGAAAGCGGCTATCGAACGTGACTTCGGCTCCGTTGATAACTTCAAAGCAGAATTT -GAAAAAGCGGCAGCTTCCCGCTTTGGTTCCGGCTGGGCATGGCTGGTGCTGAAAGGCGATAAACTGGCGGTGGTTTCTAC -TGCTAACCAGGATTCTCCGCTGATGGGTGAAGCTATTTCTGGCGCTTCCGGCTTCCCGATTATGGGCCTGGATGTGTGGG -AACATGCTTACTACCTGAAATTCCAGAACCGCCGTCCGGACTACATTAAAGAGTTCTGGAACGTGGTGAACTGGGACGAA -GCAGCGGCACGTTTTGCGGCGAAAAAATAATCATTTGCCGCCTGCTGCAATGAGGCGTATAGGCCGCATATCAGCTTAAA -AAATGAACCATCGCCAACGGCGGTGGTTTTTTTGTGATCAATTTCAAAATAAAAACAATGATCCGATAAAAATAAAACAG -CGTTTCAATTGATGTGGTTTTGATCACTTTTATTGATTAAATGAATGTCTATCTTCGTTTCCATCAACACTGATGCTCCA -TTGAGGAATTACGCATCAGCCCTTAAAAATATGCCGACAGGTGATGGAAATGCAGATAAAACGCTCGATTGAGAAAATCC -CGGGGGGGATGATGCTCGTCCCGCTATTCCTTGGCGCACTGTGCCACACCTTCTCGCCGGGGGCGGGGAAATATTTTGGA -TCATTCACCAACGGGATGATTACCGGTACGGTGCCCATTCTGGCGGTGTGGTTTTTTTGCATGGGGGCGTCAATAAAATT -AAGCGCGACGGGAACGGTACTGCGTAAATCCGGTACGCTGGTGGTAACTAAAATTGCCGTCGCGTGGGTGGTTGCGGCAA -TTGCCTCGCGTATTATTCCGGAACATGGTGTTGAAGTTGGATTCTTTGCCGGACTTTCAACGCTGGCGCTGGTGGCGGCG -ATGGATATGACCAATGGCGGACTTTACGCTTCCATCATGCAGCAGTACGGCACAAAAGAAGAAGCTGGGGCATTTGTGTT -GATGTCGTTGGAGTCCGGGCCGCTCATGACGATGATTATTCTGGGCACTGCCGGGATTGCCTCGTTTGAACCGCATGTTT -TCGTCGGCGCAGTATTACCGTTCCTGGTGGGCTTTGCCCTGGGGAACCTTGACCCTGAATTGCGAGAATTTTTCAGCAAA -GCGGTGCAAACGCTGATTCCATTCTTTGCCTTCGCGCTGGGCAATACCATTGATTTGACTGTGATTGCCCAGACTGGTTT -GCTGGGGATCCTGTTGGGTGTGGCAGTAATTATCGTGACCGGTATTCCGTTGATTATCGCCGATAAATTGATTGGCGGTG -GCGATGGCACTGCCGGAATTGCCGCTTCCAGTTCCGCAGGGGCCGCGGTAGCGACACCTGTGCTGATTGCAGAAATGGTG -CCTGCGTTTAAACCGATGGCTCCGGCAGCAACTTCGCTGGTAGCGACGGCGGTCATTGTGACTTCGATTCTGGTGCCAAT -TCTTACCTCTATCTGGTCACGTAAAGTCAAAGCCAGAGCAGCGAAAATCGAAATTTTAGGTACGGTGAAATAAACCTGCT -TCCTTAATCCCCACAGCCGGATGAACTAACGTTCGTCCGGTTTGCTATTGAGTTCCTGCCTGGATACTTACCGCGAAAAC -AGCACGCCTGACATAAAATAAATATGGTCTAATGGGGAAATTTCTCGTGGAGAGGGAACAGATGCGATATCCGGTTGATG -TATACACAGGCAAGATTCAGGCTTATCCCGAAGGCAAACCCAGCGCAATTGCTAAAATCCAGGTTGATGGTGAGTTGATG -CTGACGGAGCTGGGGCTGGAAGGTGACGAGCAGGCGGAGAAAAAGGTTCACGGCGGGCCAGACAGAGCGCTGTGTCATTA -TCCTCGTGAGCATTATCTCTACTGGGCGCGGGAATTTCCGGAACAGGCGGAGTTGTTTGTTGCGCCTGCGTTTGGTGAAA -ACCTCTCAACCGACGGCCTGACGGAAAGTAATGTTTATATGGGCGATATTTTCCGCTGGGGAGAGGCATTAATTCAGGTC -AGCCAGCCGCGCTCGCCTTGCTATAAACTCAATTACCATTTTGATATCAGCGATATAGCGCAGTTGATGCAAAACACAGG -TAAGGTGGGGTGGTTGTATAGCGTGATAGCGCCAGGGAAAGTGTCTGCGGACGCGCCGCTGGAGTTGGTTTCCCGTGTCA -GCGATGTGACCGTGCAGGAGGCTGCCGCCATCGCATGGCATATGCCGTTTGATGACGATCAATATCACCGTTTACTCTCC -GCTGCCGGGTTATCGAAAAGCTGGACGCGGACGATGCAAAAGCGCCGACTGAGCGGCAAGATCGAAGATTTTTCCCGCCG -GTTGTGGGGAAAATAACCCCCGGAGTGTAGGCCTGATAAGACGCTATCAGCGTCGCATCAGGCATCCTGCTCAAATGCCG -GATGCGGCGTAAACGCCTTATCCTGCCTGCAAATGCGAAGTTTAACTCCGCTTATACAGCGGCAACCAAATCACCAGCCG -TAAACCGCCCAGCGGGCTGTCTTCTGCCTTCACCCAGCCACGATGCTGCTGAATGGCGGTTTCAACAATCGCCAGCCCCA -AACCTGTACCGCCAGATTCACGATCGCGTGCTTCATCGGTACGATAGAACGGACGGAAAATCTGTTCGCGATCTTCCGGG -CTAACGCCAGGACCATCGTCGTCCACCGTAATGGTGATACCGTCTTTATCTACCGCAAAGCCCACTTCAATCTTCGTATG -GGAATAACGCAGAGCATTACGAACAATGTTTTCCAGCGCACTTTCCAGGGCGTTCGGATTGCCGTACAGCGGCCACGGCC -CAGGCGGGAAGTTAACTGTCAACGACTTGCCCATTTGCTCGGCTTCGAACGCCGCGTTATCCAGCACTTCACTCCACAAC -TGGTTGGCTTTGATGGTTTCGCTAACCAGCGCGTTTTTTTGCTGATTACGTGACATCACCAACAGATCGTTGATCATGCT -GTCCAGACGTTGCGCTTCGGTTTCAATACGCTCCAGTTCCTTGCTTTCACCGCTACGACGGCGCAGTAACGCCGTACCCA -GTTGCAGACGCGTCAGCGGGGTGCGCAGCTCGTGAGAGATATCAGAAAGCAGACGCTGCTGAGAGGTCATCATGCGCTCC -AGCGCGGTGACCATCTGGTTAAAACTGGCACCTGCGGCAAGGAATTCCTGTGGCCCCGCTTCCAGTTCCGGGTGCTGGCG -TAAGTTTCCCTGGGCAACTTCATCGGCAGCGTTTTTCAGCTTACGCGCCGGTTTTGCCAGACTCCAGGCCAACCACAACA -GCAGCGGCGTACTGACCAACATGGTGACAATCAGCAGTAATAGCGGGCGGTCAAACAGTAAGTTAATGAAATCGGATTGA -GAACTGCTGGCCGGACGAATCAGATAAAGTTGGTAATTATCTTCGCCATCACGCACGGAGAACGGACCGACCAGTTCCAC -GCGGCCATACTTTTTCTTCTGCGGATGATCGGCGTTATCGGCCTGACCAATAAAGTTACGAATGATCTGCATTTCGCTGC -GTTCAGCGCCGATCACGCGGCCTTCGGTGGTCACCAATAACAAACGCTGTCCTGGCGGTGCCCACTTATCAATCGCCCGG -AACAGACGCCGCCACCACATTAAATCGTTGGGCGGATCGTTCGCCAGCTCCGCTTCGACATGCTGCTCAATCATCAGCCC -CTGACGCTGTTCGCTATCCAGAAGCTCGGTCATCTGGCGTGAATCGAGCTTGGGTAACATCAAAACCAACATCAACACCA -GCGCCAGCGTCAGCCAGAAGATGGCGAAGATGCGCGCGGTTAAGCTGCCTATCATGAAGCAGAAACCATCAGATAGCCGC -GACCACGCAAGGTTTTAAACCACGGGTGACCATCTTTACGATCCGGCAGTTTACGACGCAGGTTGGAAATGTGCATATCA -ATAGCGCGGTCGAAAGGCGTCAGGCGTTTGCCCAACACTTCCTGGCTTAAATGTTCACGGGAAACCACCTGACCCAGATG -CTGTGCCAGCAAATAGAGCAGGGTAAACTCAGTACCGGTTAACTCCAGCGTTTGCCCGTCGAAGCTGGCTTCCTGACGGC -CTGGATTCAGCACTAAGGCATCAACTTCCAGTGTCGGTGAACCGTTGTCGTTGTTTTGCTGTTGCTCGCTCCAGTGCGAA -CGGCGCAGGATCGCGCGAATACGTGCCACCAGCTCACGATCATTAAACGGTTTCGGGAGATAGTCATCTGCGCCCAGCTC -AAGGCCGAGAACGCGATCAAGTTCACTGCCGCGCGCCGTCAACATAATGACAGGCGTCTGGTGTGTCTGGCGAAGTGCTT -TTAATGTGTCGATACCATTTTTCTTCGGCATCATTACGTCAAGCAAAAGTAAATCAATGCTGTCGTCCAGAAGATCAAGC -GCCTGTTCCCCATCGTGGGCAACAATCACGTTGAAGCCTTCCATCTCGAGCAGCTCCTTTAATAGGGAAGTCAGCTCTCG -GTCATCATCAACTAACAGGATTTTATTCATTGTTTAAATACCTCCGAGGCAGAAATTACGTCATCAGACGTCGCTAATCC -ATGACTTTACGTTGTTTTACACCCCCTGACGCATGTTTGCAGCCTGAATCGTAAACTCTCTATCGTTGAATCGCGACAGA -AAGATTTTGGGAGCAAATGATGCGCATAGTTACCGCTGCCGTCATGGCCTCAACGCTGGCAGTCAGTTCATTAAGCCACG -CTGCTGAAGTCGGTTCAGGCGATAACTGGCATCCGGGTGAAGAACTTACGCAGCGCAGTACGCAGAGCCATATGTTCGAC -GGCATAAGTTTAACCGAACATCAGCGTCAGCAGATGCGAGATCTTATGCAACAGGCCCGGCACGAACAGCCTCCTGTTAA -TGTTAGCGAACTGGAGACAATGCATCGCCTTGTCACCGCAGAAAATTTTGATGAAAACGCTGTGCGCGCACAGGCAGAAA -AAATGGCGAATGAGCAAATTGCTCGTCAGGTTGAGATGGCAAAAGTCCGCAACCAAATGTATCGCCTGTTAACGCCGGAG -CAGCAAGCGGTTTTAAACGAGAAACATCAACAACGAATGGAGCAGTTGCGTGACGTGACGCAATGGCAAAAAAGTTCATC -GTTGAAGCTATTGAGTAGTAGCAACTCACGTTCCCAGTAGTAAACCCTGTTTTCCTTGCCATAGACACCATCCCTGTCTT -CCCCCACATGCTGTGGGGGTTTTTTTTATCCTCAATTTGCCTGCTGCTTAATGCATTGCAGATGATTTGCTTCCGTTATA -CTAGCGTCAGTTGATAGCGGGAGTATTTATGAATCAATCTTATGGACGGCTGGTCAGTCGGGCGGCGATTGCTGCGACGG -CGATGGCTTCGCTGCTATTGCTGATTAAAATTTTTGCATGGTGGTATACCGGGTCGGTGAGTATTCTCGCCGCGCTGGTG -GATTCGCTGGTGGATATCGGCGCGTCGTTGACGAATTTATTGGTGGTGCGATATTCCCTGCAACCTGCCGACGATAATCA -CTCGTTTGGTCACGGTAAAGCTGAGTCCCTCGCGGCGCTGGCGCAAAGTATGTTTATCTCCGGTTCGGCACTATTCCTGT -TTTTGACGGGTATTCAACATCTGATATCTCCAACACCGATGACAGATCCAGGCGTCGGGGTTATCGTGACAATTGTGGCG -CTAATTTGTACGATTATCCTTGTCTCGTTTCAGCGTTGGGTGGTGCGGCGGACGCAAAGCCAGGCGGTGCGGGCTGATAT -GCTACATTACCAGTCTGATGTTATGATGAACGGCGCAATTCTGCTGGCGCTGGGGTTGTCCTGGTACGGCTGGCATCGCG -CCGATGCTCTGTTTGCATTGGGAATCGGCATCTATATTTTATATAGCGCGTTACGCATGGGATATGAGGCGGTACAGTCA -TTACTGGATCGCGCATTGCCTGATGAGGAACGGCAAGAAATTATTGATATCGTGACTTCCTGGCCGGGTGTTAGCGGCGC -TCACGATCTTCGCACGCGGCAGTCAGGGCCGACCCGCTTTATTCAGATTCATTTGGAAATGGAAGACTCTCTGCCTTTGG -TTCAGGCACATATGGTGGCGGATCAGGTAGAGCAGGCTATTTTACGGCGTTTTCCGGGATCGGATGTAATTATCCATCAG -GACCCCTGTTCCGTCGTACCCAGGGAGGGTAAACGGTCTATGCTTTCATAATCAGTATAAAAGAGAGCCAGACCCGCATT -TTGTGTATAAAATACCGCCATTTGGCCTGACCTGAATCAATTCAGCAGGAAGTGATTGTTATACTATTTGCACATTCGTT -GGATCACTTCGATGTGCAAGAAGACTTCCGGCAACAGATTTCATTTTGCATTCCAAAGTTCAGAGGTAGTCATGATTAAG -AAAATCGGTGTGTTGACAAGCGGCGGTGATGCGCCAGGCATGAACGCCGCAATTCGCGGGGTTGTTCGTTCTGCGCTGAC -AGAAGGTCTGGAAGTAATGGGTATTTATGACGGCTATCTGGGTCTGTATGAAGACCGTATGGTACAGCTAGACCGTTACA -GCGTGTCTGACATGATCAACCGTGGCGGTACGTTCCTCGGTTCTGCGCGTTTCCCGGAATTCCGCGACGAGAACATCCGC -GCCGTGGCTATCGAAAACCTGAAAAAACGTGGTATCGACGCGCTGGTGGTTATCGGCGGTGACGGTTCCTACATGGGTGC -AATGCGTCTGACCGAAATGGGCTTCCCGTGCATCGGTCTGCCGGGCACTATCGACAACGACATCAAAGGCACTGACTACA -CTATCGGTTTCTTCACTGCGCTGAGCACCGTTGTAGAAGCGATCGACCGTCTGCGTGACACCTCTTCTTCTCACCAGCGT -ATTTCCGTGGTGGAAGTGATGGGCCGTTATTGTGGAGATCTGACGTTGGCTGCGGCCATTGCCGGTGGCTGTGAATTCGT -TGTGGTTCCGGAAGTTGAATTCAGCCGTGAAGACCTGGTAAACGAAATCAAAGCGGGTATCGCGAAAGGTAAAAAACACG -CGATCGTGGCGATTACCGAACATATGTGTGATGTTGACGAACTGGCGCATTTCATCGAGAAAGAAACCGGTCGTGAAACC -CGCGCAACTGTGCTGGGCCACATCCAGCGCGGTGGTTCTCCGGTGCCTTACGACCGTATTCTGGCTTCCCGTATGGGCGC -TTACGCTATCGATCTGCTGCTGGCAGGTTACGGCGGTCGTTGTGTAGGTATCCAGAACGAACAGCTGGTTCACCACGACA -TCATCGACGCTATCGAAAACATGAAGCGTCCGTTCAAAGGTGACTGGCTGGACTGCGCGAAAAAACTGTATTAATGATTT -CGGAAAAAGGCAGATTCCTTTACCCTGAAACCGATGACAGAAGCAAAAATGCCTGATGCGCTTCGCTTATCAGGCCTACA -TGAATTCTGCAATTTATTGAATTTGCAAACTTTTGTAGGCCGGATAAGGCGTTCGCGCCGCATCCGGCATGGACAAAGCG -CACTTTGTCAGCAATATGAGGCGGATTTCTTCCGCCTTTTTAATCCCTCAACATATACCCGCAAGTTATAGCCAATCTTT -TTTTATTCTTTAATGTTTGGTTAACCTTCTGGCACGCTTTGCTCATCACAACACAACATAAGAGAGTCGGGCGATGAACA -AGTGGGGCGTAGGGTTAACATTTTTGCTGGCGGCAACCAGCGTTATGGCAAAGGATATTCAGCTTCTTAACGTTTCATAT -GATCCAACGCGCGAATTGTACGAACAGTACAACAAGGCATTCAGCGCCCACTGGAAACAGCAAACTGGTGATAACGTGGT -GATTCGTCAGTCACACGGTGGCTCAGGTAAACAAGCGACGTCGGTAATCAACGGTATTGAAGCTGATGTTGTCACGCTGG -CTCTGGCCTATGACGTGGACGCAATTGCGGAACGCGGGCGGATTGATAAAGAGTGGATCAAACGTCTGCCGGATAACTCC -GCACCGTACACTTCCACCATTGTTTTCCTGGTACGTAAGGGAAATCCGAAGCAGATCCATGACTGGAACGATCTGATTAA -ACCGGGTGTTTCGGTGATCACGCCTAATCCGAAAAGCTCTGGTGGCGCGCGCTGGAACTACCTGGCAGCCTGGGGCTACG -CGCTGCATCACAACAACAACGATCAGGCAAAAGCACAGGATTTTGTTCGGGCACTGTATAAAAACGTCGAAGTTCTGGAT -TCTGGCGCGCGTGGCTCCACTAACACTTTTGTCGAGCGCGGAATTGGCGATGTACTGATTGCCTGGGAAAACGAAGCTCT -GCTGGCAGCGAATGAACTGGGGAAAGATAAATTCGAAATCGTCACGCCGAGTGAGTCTATCCTCGCAGAGCCAACCGTGT -CGGTGGTCGATAAAGTGGTCGAGAAAAAAGGTACTAAAGAGGTGGCGGAAGCCTACCTGAAATATCTCTACTCGCCAGAA -GGTCAGGAAATTGCCGCGAAAAACTACTACCGTCCGCGCGACGCTGAGGTGGCGAAAAAGTACGAAAATGCGTTTCCAAA -GCTGAAGTTATTCACCATTGATGAAGAGTTCGGCGGCTGGACGAAAGCGCAAAAAGAGCATTTTGCTAACGGCGGTACGT -TCGATCAGATCAGCAAACGCTGATTTCCCCAGGATAATTATCAAACCCGGTGGTTTCTCGCGACCGGGTTTTTTATTTGT -CACGATTTTGCGTTACCCTTGCATCTCTTTGAGGTACAGGGAAAAAAAGATGAAAAAAGCGGGTCTTCTTTTTTTGGTGA -TGATAGTTATCGCCGTTGTGGCTGCCGGTATTGGTTACTGGAAATTAACCGGTGAAGAGTCGGATACATTACGTAAGATT -GTCCTTGAGGAATGTTTGCCCAATCAGCAGCAAAATCAAAATCCTTCGCCATGTGCGGAAGTCAAACCCAATGCCGGATA -CGTGGTTTTAAAAGATCTTAATGGCCCACTGCAATATCTGTTGATGCCAACGTATCGTATTAACGGTACTGAAAGTCCTT -TGTTGACCGATCCTTCAACGCCGAACTTCTTTTGGTTGGCTTGGCAGGCGCGTGATTTTATGAGCAAAAAATACGGCCAG -CCGGTTCCCGATCGCGCGGTTTCTTTGGCGATCAACTCCCGCACCGGGCGTACGCAAAACCATTTTCATATTCATATCTC -TTGTATTCGTCCTGATGTGCGCAAACAGCTGGATAACAATCTGGCGAACATCAGCAGCCGCTGGTTGCCACTGCCAGGTG -GTTTGCGCGGGCATGAATACCTGGCGCGTCGGGTAACGGAAAGCGAACTGGTACAACGCAGCCCATTTATGATGCTGGCA -GAAGAAGTACCTGAGGCGCGGGAACATATGGGACGCTACGGGCTGGCGATGGTACGGCAGAGTGATAACTCATTTGTATT -GCTGGCGACACAACGAAATCTACTGACGCTTAACCGTGCTTCAGCCGAGGAAATTCAGGATCATCAGTGTGAGATTTTGC -GTTAAGGCGAAGAGTTAAGGAAAGTAAGTGCCGGATATGAAATCCGGCACCTGTCAGACTTAAGCCTGTTTAGCCGCTTC -TGCAGCTTTAACGATTACTGCGAAGGCGTCAGCTTTCAGAGAAGCACCACCAACCAGCGCGCCGTCGATATCCGGCTGAG -CAAACAGTTCTGCAGCGTTAGACGCGTTTACAGAGCCGCCGTACTGAATGATCACTTGTTCAGCGATGTTAGCGTCAACT -TTAGCGATGTGGTCACGGATGAATTTGTGAACAGCCTGTGCCTGAGCCGGAGTTGCAGATTTGCCAGTACCGATTGCCCA -TACAGGTTCGTAAGCGATAACCGCACCTTCGAATGCCGCAGCACCCTGAGTTTTCAGTACCGCGTCGATCTGACGTGCGC -AAACTTCTTCAGTTTTGCCCGCTTCATTTTCAGCTTCGGTTTCACCGATGCACAGAACCGGAGTCAGGCCCTGCTCTTTC -AGCACCGCGAATTTTTTCGCGATCAGTTCGTCAGATTCTTTGTGGTAAGTACGACGTTCAGAGTGACCGATGATGATGTA -CTGTGCGCCGATGTCTTTCAGCATAGCAGCAGAGGTTTCACCGGTGAATGCGCCGGACAGGTTCAGGTCCACGTTTTGCG -CACCCAGCATGATGTGGCTGCCTTCAGCTTCGCGCTTCGCCATATCGATATACATTTCCGGTGGTGCGATTGCAACCGCA -CAGCCAGCAACACCTGCCAGCTCTTTACGCAGGTTAGAAACCAGCTCGTGAACCATGTGGCGGCTGCCGTTCAGTTTCCA -GTTACCCATCACTAAAGGATGTCGCATTTTAATTCTCCACGCTTATAAGCGAATAAAGGAAGATGGCCGCCCCGCAGGGC -AGCAGGTCTGTGAAACAGTATAGAGATTCATCGGCACAAAGGCTTTGCTTTTTGTCATTTATTCAAACCTTCAAGCGATT -CAGATAGCGCCAGCTTAATCGGTTCAACAGCGAAGGTCAGCCCCTTTTCGCCGTTGTCCGCGACAACATAACGCAGTGCA -CCTTCTGTCTCGGTGTAATAACGTTTGTTTTTCCCCGCCGTTAGTAGCGACTGCAGTTTTTTCTGGCTTTGTGTTTTGGT -CATTAATGGGGTGAGTGTGCGGATCACCGCTGCCATGTATTCCTGAGCTTTCGCTTTCGCGGCTTTTTGCTCTGGCCCCT -GGATGGGTAGCCAGGTCATTTGAATGCTTTTGATTTTTAAGGTACCGCGCTCCAGCGCTGTAGAAGCATACAAGTTCTCA -TTAATTTTACTTGCAGCACGAGTGAGATTGGCTTTGTCGGGACTGCTGTCGATGGCACGAAATTCGTTCAGTGGCAGGCT -GGGATTCTGGCTGTTAAAGTCTTCTCGAAACTGGCTGATGGAGAGATCGAAAGTAGGGGCTCCAGCCAGCAGATAAGGCG -CGGTCGTTGCCGTATCTGGTGTTTGTGCATGCGCCTCTGTTGTAACGGTTAATGCAGAACATAAGAGAAAAAACAGCGTA -CACCCTGGCTTCATTGACAGTACCTTTTGTTATGACTGGCTCCGATTAAAACGATATCTGTCGCCCTTGTCAAAAGGGTA -GAATCCTGGAAAAGACAACCATCAAGGAACTTACATGACCATACAGCAATGGTTATTCTCATTTAAAGGGCGTATTGGAC -GCCGTGATTTCTGGATTTGGATAGGCCTGTGGTTCGCAGGCATGCTGGTGCTTTTCTCACTGGCGGGTAAGAATCTACTC -GATATTCAGACCGCGGCGTTTTGCCTTGTGTGCTTGCTCTGGCCAACAGCGGCAGTAACTGTTAAGCGCTTGCATGATCG -CGGGCGTTCCGGCGCATGGGCATTTCTGATGATTGTGGCGTGGATGCTGCTGGCGGGTAACTGGGCGATTTTACCGGGTG -TCTGGCAATGGGCGGTGGGGCGTTTTGTCCCGACGTTGATTCTGGTGATGATGCTTATCGATCTTGGTGCGTTTGTTGGC -ACACAAGGCGAAAATAAATATGGTAAAGATACTCAGGATGTGAAGTATAAAGCCGACAATAAATCAAGTAATTAACCTTT -AATATATCTCTTACTGCTATTTTTTTCCGGGATTGTTATTTCCACGATGCAAATGACAATACCCGGAAAATCCTTCTGAA -CTCTTCACCTTAAGCAATATCAAAAAAAATGGTAATCCATAAGATCATTACTTGTTTGTTCTTCCCTTAACGGCGCATTA -TTCTTAAGTCGTAATCGACAGAGAGGCGAATATACAGAGGTGCCCTATGAAAGATGTCGTAGATAAATGCAGTACTAAAG -GATGTGCGATTGATATCGGTACGGTGATTGATAACGACAACTGTACCAGTAAGTTTTCGCGCTTTTTTGCCACCCGCGAA -GAAGCAGAGTCTTTTATGACCAAACTGAAAGAGCTTGCCGCCGCTACATCCTCTGCAGATGAAGGGGCCAGCGTGGCCTA -TAAGATTAAGGATCTGGAGGGGCAAGTTGAGCTTGATGCGGCCTTCACTTTCTCATGCCAGGCCGAGATGATTATTTTTG -AGTTATCACTGCGTTCGTTAGCTTGATGGAGTTGCTTTAGAAGGAGTTAAACATGGCTTATAAACACATTGGCGTGGCAA -TTTCCGGGAATGAAGAAGATGCCTTACTGGTGAATAAAGCCCTGGAGCTCGCCAGACATAATGACGCTCACCTGACGTTA -ATTCATATTGATGATGGCTTAAGCGAGTTGTATCCGGGTATCTACTTCCCTGCAACAGAAGATATTCTTCAATTGTTGAA -GAATAAGTCGGATAACAAGCTGTATAAACTGACGAAAAATATTCAATGGCCGAAGACAAAACTGCGTATTGAACGCGGAG -AAATGCCGGAAACACTGCTGGAAATTATGCAAAAAGAGCAGTGCGACCTCCTTGTCTGTGGTCATCATCACTCATTTATC -AACCGTTTGATGCCGGCATATCGCGGGATGATCAATAAGATGAGTGCGGATTTGCTCATCGTGCCGTTTATCGATAAGTA -ACCGCTTACCAGTAATGCTCCGCTGTCATATGGCCCGGTCGGCGACGTAAATGTTTCGTCATCTGCCGGGTCTCTTTCAG -CAACTGTTGTGTATCGCGCACCATCTGTGGATTGCCGCACAGCATCACATGGCTGGTTTCTTTATTCATCGGCAGGCCAA -TCGTGCTTTCCAGTTCCCCACTTTCAATTAATGCCGGTATCCGTCCGGTGAGCGACCCCGCTGCCGTTTCCCGACTGACC -ACCGTCTGAATGCGCAGTTTTCCTTCGTAGCGTTTTTCCAGTTCCTGCATCAGTGGCAAATAGCTTAAGTCGGCGGCATA -ACGTGCGGCGTGCACCAGGACCAGATTTTTGAAGCGATCTAAATCTTTACCTAGTTGCAGAATCGATAAATAAGGGCCAA -TCGCTGTACCGGTTGCCAGCATCCATAGCGTTTCGCAGTGCGGCACTTCATCGAGCACAAAGAATCCTGCCGCTTCGCTA -ACCACCTGCACTTCATCGCCTGGTTTCAGTGCCGCCAGTCGTGGGCTTAATTTGCCATCGGGGACGGTGACCAGGTAAAA -CTCCAGATCGGGATTATCGGGCGAGTTTACATAGGAGTAGGCGCGCTGGACGCGTTCGCCGTCGATTTCAAGGCCAAGCT -TGGTAAATTGCCCGGCGGTAAACGGAAGCACGGGGGCGTGAACGGTGAGACTAAACAGGGCGTCGGTCCAGTTCTGCACT -TTAGTGACTTTGCCTGTTACCCAATCAGCCATGTTTTTCTCCTGTTTTGATTGACTTGCCTTATCTTCGTTCTCCGAACA -AAAAAATTCCAGTCCCGAAGGACTGGAAGGCTCAATCGATCAAATCAATCAGAGGATGTGCACCTGCATTTCCGGGTCTT -TGCGATCCAGATAGTGGATGGACTGAATGCGGCGAATGGTGCGTGACTTGCCGCGGATCAGCAGCGTTTCGGTAGTCGCG -ATATTGCCTTTGCGGCTAATGCCTTCCAGCAGATCGCCTTTGGTAATACCGGTGGCAGAGAAGATGACGTTATCGCTGCG -CGCCATATCGCCCAGGCGCAATACTTTACCGGCTTCGATGCCCATCGCTTTGCAGCGTGCCAGCTCCTGCTCGCCAATGC -GACGATTCTCTTCGTTGTCGCCTTTGACGTCATGACGCGCCAGCAGACGACCGTTCATGTCGCCATCTAATGCGCGGATC -ACCGCCGCAGAAACTACGCCTTCCGGCGCGCCACCAATACCGTACAGCACGTCAACTTCGCTGTCTGGCATACAGGTGAG -AATTGAGGCCGCAACGTCGCCGTCCGGAATAGCAAATACGCGTACGCCGAGTTGCTGCATTTCAGCGATAACGGCATCGT -GGCGTGGTTTAGCCAGAATCGTTACCGTCAGTTCGCTCAACGGTTTGCCGAGCGCCGCCGCTACATTGCGCAGGTTATCC -GCCAGCGGCAGGTTCAGATCAATGGTGCCTTTGGCTCCCGGCCCGACAATCAGCTTCTCCATATACATATCCGGCGCATT -GAGGAAGCAGCCTTTATCGCCTACTGCCAGCACCGCCAGCGCGTTAGCCTGGCCCATCGCCGTCATGCGCGTGCCTTCAA -TCGGATCAACAGCAATATCTACCGCGTCGCCGCGACCAGTACCGACTTTTTCACCAATGTAGAGCATCGGTGCTTCGTCG -ATTTCACCTTCACCAATGACGATGGTGCCGTCAATGTTGACCTGGTTGAGCATAATACGCATGGCGTTTACCGCCGCGCC -GTCCGCGGTGTTTTTATCGCCGCGTCCTAACCATTTGTAGCCAGCCAGCGCCGCTGATTCGGTGACGCGGGAAAATTCGA -TGGCAAGTTCTCGTCTCATAGCAAACTCTAAGCAGTAAGGAATGGCGCGAAGTGTAGCACAGGGGAAGGGAGGGATTATT -GATGTGTGCGGGGTTGCCCCCGCACGTTTCGGGACTACCGGATGCGGCATAAACGCTTCATTCGGCATTTACATTATTCG -TCGTGTTCTTCCCACGCCATCGCGCGTTTAACCGCTTTTTTCCAGCCTGCGTAACGGTAATTACGCTCAGTGGTTTCGAT -GCCTGGACGGAACTCGCGCTCAATCACCGCTTTCTCTTGCAGCTCGTCGAGGTTCTGCCAGAAGCCAACCGCCAGGCCTG -CGAGATAGGCCGCACCCAATGCGGTGACTTCGCGCACTTCCGGGCGCTCAACGCGGGTGCCGAGAATATCGGACTGGAAC -TGCATCAGGAAATTGTTTGCTACTGCGCCACCATCCACGCGCAGGGCGTGCAGACGGATACCAGAGTCGGCCTGCATCGC -TTCCAGCACGTCACGCGTCTGATAAGCAATAGACTCCAGCGTCGCGCGTATAATGTGGTTAGCGTTCACCCCACGAGTCA -GACCGAAAATCGCCCCGCGCGCATACGGGTCCCAGTACGGCGCACCCAGCCCGGTAAATGCCGGAACCACATACACACCA -TTGGTGTTTTGCACTTTGGTGGCGAAATATTCGGAATCGTAGGCGTCGTTAATCAACTTCATTTCATCGCGCAGCCACTG -AATGGATGCGCCTGCCATAAACACCGCACCTTCCAACGCATAGTTCACTTCGCCAGTCGGGCCGCAGGCGATGGTGGTCA -GCAGGCCGTTTTCTGATTTCACCGCTTTCTCGCCAGTGTTCATCAGCATAAAGCAGCCAGTGCCATAGGTGTTCTTCGCC -ATCCCTTCTTTCACGCACAACTGACCAAACAGCGCGGCCTGCTGGTCACCGGCGATCCCGGAGATTGGAATACGCGTGCC -GCCTTTGCCGCCAATGTTAGTCTGACCGTATACTTCGGAAGAACGACGCACTTCTGGCAGCATCTCGCGCGGAATATCCA -GCACTTCCAGCATTTTGTCGTCCCAGTCCAGGGTATGGATGTTGAACAACATGGTACGAGAGGCGTTGGTGTAATCGGTC -ACATGGACACGGCCCTGAGTCATTTTCCAGATAAGCCACGTATCAACCGTACCAAACAGCAATTCACCACGACGTGCACG -CTCGCGAGAGCCTTCCACATGGTCGAGGATCCACTTCACTTTGGTGCCAGAAAAGTACGGGTCAATCACCAGACCGGTAT -TGCTGCGGATATAATCTTCTAAACCGTCACGTTTTAAATGCTCGCAGATTTCTGCGGTACGACGGCACTGCCAGACAATG -GCGTTATAGATAGGCTTGCCGGTTTCTTTTTCCCAGACAATAGTGGTTTCACGCTGGTTCGTAATACCGATAGCTGCAAT -TTGATCGGAACTGATATCGGCTTTCGCCAGCACTTCTACCAGCGTGGAGCTTTGGGTGGCCCAGATTTCCATTGGGTCGT -GTTCTACCCAACCTGGTTTTGGGTAGATTTGCTCAAATTCGCGCTGCGACACGCTAATGATATTGGCATCGTGATCCATT -ACGACCGCGCGGGAGCTGGTGGTGCCCTGGTCGAGCGCAACGATATATTTTTTTTCAGTCATGTTTAATTGTCCCGTAGT -CATATTACAGCGAAGCTTTTTGTTCTGAAGGAGTTGTGGTTTCCTTTTCTTCCACAACACAGATATCGCAAGGCAAATGG -CGACCAATCAGTTTGCGGTAGGCAAATGCACCTACAATCGCGCCAACGATAGGGCCGAAAAGCGGCACCAGGAAGTAAGG -AATGTCTCTGCCGCCGGTAAAGGCGACATTGCCCCAGCCCGCCAGCCAGGCAAAGACTTTCGGACCGAAGTCACGCGCTG -GGTTCATGGCAAAACCTGTCAATGGGCCCATAGATGCGCCAATGACCGCAATCAGTAGACCAATCAGCAAGGGAGCCAAA -GGGCCGCGTGGTACACCGTTGCCATCGTCCGTTAACGCCAGGATCAGCCCCATCAGAATAGCGGTAATCACCATCTCAAC -TGCGAAAGCCTGCACAAAATTGATATGAGGATTAGGGTAAGTAGAGAAAGTGCCAGCCAGATCAACACTTTCAACGCTGC -CGCGAACAATGTGATGAGTCTGCTCGAAGTCGAAAAATAAATTGTAGTAAAGCCCGTAAACTAAAGCCGCAGCACAGAAA -GCGCCGGCAACTTGTGAAACGATAAAAGGAATAACTTTGCGCTTGTCGAAACAGGCAAACAGCCACAATGCAATGGTAAC -AGCGGGATTAAGATGCGCGCCGGAAACCCCTGCGGTCAGGTAGATGGCCATTGCCACCCCCAGTCCCCAAATGACACTGA -TTTCCCACTGACCAAAAGACGCACCAGCGACTTTTAGTGCTGCAACGCAACCCACACCGAAGAAAATCAACAACCCGGTA -CCGAGGAATTCAGCAATGCACTGGCCTTTCAAGGTTGATGTTTGACTCATAATCGGATCCTGAAGAGTTAATGTTTGTTG -TATGCGTGAAAGTCACGGACCTCCACGATGCTTGTAGGCATGCTGTAAACTTATCGTTAACGAGCAAAAACGAGAAATAT -CGAACTTAAAATGTGTGTGCCTCGTCATAAAATGAGCGTTATCGCGCCATTTATTCCATCTGATTGTACATGATGCATGT -TTGTTAGATCATTCGCGCAACAAATTTATTAACATTTTCGATTGATGTGGATTATGTCACCAGGAGAAGGATGAAAAGTG -TGGCAAACCGTAATCTGCAAGGCGTGCCGCTGGACAGCGATGGCGCGGCTTCATACAATCGGAGCTAACTAAAGTGCGCT -CGTATTTATTAAGGCGTCACCGGTAATCGGGACGAGGATTTTTATCCATCAACGCCTTGCAATTCAGGAGAGGTATGACA -ATGTCATTAGAAGTGTTTGAGAAACTGGAAGCAAAAGTACAGCAGGCGATTGATACCATCACTCTGTTGCAGATGGAAAT -CGAAGAGCTGAAAGAAAAAAACAACTCACTGTCGCAGGAAGTTCAAAATGCCCAGCATCAGCGCGAAGAGCTGGAGCGTG -AGAACAACCATCTGAAAGAACAGCAGAACGGCTGGCAGGAACGTCTGCAGGCCCTGCTGGGTCGCATGGAAGAGGTCTGA -TTACGCTTCATCTTCCGCGTAATTTCTTTACTGTGTAGGCCAACAGGTAACGCAGAAAAAAGGCACCTTGCGGTGCCTTT -CTTATCATTCAATATCCAGCGGATCTTCTGAAAGAATAATCCCGGTATTGTCGGCATAAAGATGGTCGCCGGAGAAGAAG -GTGACACCGCCAAAATTGACGCGGACATCGCTTTCGCCAATGCCTTCGCCAGCGGCACCAACCGGAATTGCCGCCATCGC -CTGGATGCCGATATCCAACTCTTCCAGGTCATCTACCTGACGCACCGCGCCGTAAATGACCAGACCTTCCCATTCATTTT -GTACTGCCAGACGCGCCAGTTCAGCATCGACCAGTGCGCGACGAACAGAACCACCGCCATCGACGACAAGAACACGACCA -CGGCCATTCTGTTCGAGCAGATCGTACAGCAACCCGTTGTCCTCGAAACATTTTACCGTGATTATTTGTCCGCCAAACGA -CGCCCGTCCGCCAAAGTTGGAGAACAGCGGTTCCACGACGTTAACATCTTCTTGATAGATGTCACAAAGCTCGGAAGTAT -CGTATTTCATAGGCTTAACATTCAGTTGCTGCGAGAATTTTCAGTATATCGCGCTATGTGGGCTGTTGGCAAAATCATCA -ATTGTTAATTGATATTTGTCAGTTATGCTGCCCACTGGCTTAGGAATATCCCTAAAACAAACAGCAGGTTAGTCAGTAAC -GCTCCCTTGACAGTACGTTCCAGCATTGGTCGCATCGCCACCGGGTCCATTTCCCGCATCACATAACGGGCTTGCTTCAC -CAGTAATGGTGCCGCCAGCAGGAACAGCCAGCCCCACAGGCTATGCAGCGAAAAGAGATTAAACAGCGCCAGACACACCA -GCGAGCCCATCAGCAGGCAGGCATGATAACGACGCGCGTTCACTTCACCTAAGCGCACCACCAGCGTGTTTTTGCCATTT -TCGCGGTCGCTATTGATATCACGCAGGTTATTAATATTCAGTACTGCCGTTGCCAGCAGGCCGCATGCGGTCGCCGGAAG -GATCAGTGCCGGAATCAATGTATGAGCCTGTAAATACCAGCTCCCCATGACACTCAACCAGCCAAAGAAAACCAGTACGG -AAATATCACCCAGACCGATATAACCATAAGGACGATTGCCCACGGTGTAGGTGATAGCGGCAATGATCGACAACCCGCCA -AGAATCAGGAAACCGACAAAATCGGCCAGCGTATGGCATGCCACTGCAACCAGTGCCAGCCCGGAGAGACAGATGAGCAC -GACGGTAATAATGAGCGCCCGTTTCATCTCTTGCTGGGTAATGACCCCTTTTTGCATGCCGCGTAGCGGCCCAATGCGGT -CAGGTTTATCGCTGCCTTTTACCGCATCGCCGTAATCATTGGCGAGGTTAGAAAGGATCTGTAATAGCCCGGCGGTAATT -AGTGCCAGCAGGGCGACCAGCGGATCGAAGTGACCTTGCCACCATGCCAGCGCTGTCCCGACGATAATTGCAGCAAAGGC -GAGGGGGAGGGTTTTAGGTCGTAAACTTTCCAGCCACGCCTGAGTTCGGCTAATTTGTTGTTCAGTCATAATACGCGCCA -ATAAAAATGGGGCCTTTCAGCCCCATCAAACAATGATGAAAATGATTGAACGCGATTATAGGATAAAACGGCTCAGATCT -TCATCTGCCACCAACGCATCCAGATGTTTGCTCACATAATCTGCGTCAATAGTGATATTTTGACCGCTTAAATCGCTGGC -GTCGTAGGAAATCTCTTCCATTAAACGCTCCAGAACAGTGTGTAAACGACGAGCACCGATGTTTTCGGTAGATTCGTTCA -CCTGCCATGCCGCTTCCGCGATGCGTTTAATACCGGAGTCGGTAAACTCGATATTTACGCCTTCAGTCGCCATCAGTGCT -TTGTACTGCACGGTGATAGAGGCATTCGGCTCGGTCAGAATACGCTCGAAGTCGCTGGTGGTCAGCGCCTGCAGTTCAAC -GCGGATTGGCAGACGACCTTGCAGTTCCGGGATCAGGTCAGACGGTTTCGCAATCTGGAACGCGCCAGAAGCGATAAACA -GAATGTGGTCAGTTTTGACCATCCCGTGTTTGGTGGAAACGGTGCAACCTTCTACCAGCGGCAGCAGGTCACGCTGAACG -CCTTCACGAGAAACATCCGGACCGGAAGACTCGCCGCGCTTACAGATTTTGTCGATTTCGTCGATAAACACGATCCCGTG -CTGCTCAACAGCGTCGATAGCGTCTTGCTTCAGCTCTTCCGGGTTCACCAGTTTCGCCGCTTCTTCTTCAATCAGCAGCT -TCATGGCGTCTTTGATTTTCAGCTTACGCGCTTTTTGCTTCTGGCCGCCCAGGTTCTGGAACATGGACTGCAGCTGGCTG -GTCATCTCTTCCATGCCCGGAGGAGCCATAATTTCAACGCCCATCGGTGCTGCGGCAAGATCGATCTCGATTTCTTTGTC -ATCAAGCTGGCCTTCACGCAGTTTTTTGCGGAATGCCTGACGAGCAGCGGACGGTTCCTGCTGCTGTTCGGTCTGTCCCC -AGTTGTTTTTAGCAGGTGGGATCAGCACGTCGAGAATACGTTCTTCTGCCAGTTCTTCAGCGCGATAACGGTTTTTCTCG -ATAGCCTGGACGCGTACCATTTTCACGGCGGCATCGGTCAGATCGCGAATAATAGAATCCACTTCCTTACCGACGTAGCC -CACTTCGGTGAATTTGGTCGCTTCAACTTTGATGAACGGCGCATTCGCCAGCTTAGCCAGACGACGGGCGATTTCAGTTT -TACCGACACCGGTCGGGCCGATCATCAGGATATTTTTCGGGGTCACTTCATGGCGCAGCTCTTCGTTGAGCTGCATGCGA -CGCCAGCGGTTACGCAGAGCAATCGCCACAGAACGCTTGGCGTTGTCCTGGCCGATGATGTGCTTATCCAGTTCGCTGAC -GATTTCGCGTGGGGTCATTTCAGACATGGGAGATCCTTACGCTTTGTAGCTTAATTCTTCGATGGTGTGGAAATGGTTGG -TATAGATGCAAATGTCGCCTGCAATATCCAACGCCTTTTCAGCAATTTCACGGGCGCTAAGTTCAGTGTTTTCTAACAGC -GCGCGCGCCGCAGCCTGGGCGTAAGGGCCGCCGGAGCCGATAGCAATAAGATCGTTTTCTGGCTGCACCACGTCACCGTT -ACCGGTGATGATAAGCGATGCAGTTTCATCCGCGACTGCCAGCAGTGCTTCAAGTTTGCGCAGCATGCGATCGGTACGCC -AGTCTTTTGCCAGCTCAACGGCGGCTTTGACCAGATGGCCCTGATGCATTTCCAGTTTACGTTCAAACAGTTCGAACAGC -GTAAAAGCATCCGCAGTACCGCCCGCAAAGCCCGCGATGACTTTGTCGTTGTACAGACGGCGGACCTTTTTCACGTTGCC -TTTCATTACGGTATTGCCCAACGTGGCCTGACCATCACCAGCGATGACCACATGGCCGTTACGGCGTACGCTTACTATAG -TTGTCACGAGCTGACCCCTTGGTTACGAATACAGAGTACAAACCCCGTACAAAAGTACGGGGCATAATGCAATTATAGAT -GGGGGGGATTTTGAGGGTTTCAACCCCCGGCGGCGAGCCGAATGCAGTTTGTATGACCCGCCATCTTCAACCGATTGAGG -GTGCTGTCTGCGTTCTCTTTGCCTTTCACCGGGCCAATGACCACACGATTCCAGCCATTGTTGGTGGTGATTTTCGAGTC -AAAGCCTTCGAACGCCAGCTGAGCACGTACCGTCTCTGCCTGTTCCGCGCCTCTGAACGAACCGCACTGCACCATCCAGC -GGCGTTCGTCTTTTTTCTCCGCCGTCGGTTTTGGCGCGTCAGCGGCACGAGCAACTGGCGCAGCTTGCTGCGGCTTCGAC -TGCGCAGTCGTGTGCGCAGGAGTTTGCAGCAGATCCTGGTACGGCTGCTGAGAAGAAGCCGGTTTAGACTGGCGCGGTTG -CGCCTGTACCGGTGCGGCTTGCGACGTACGCGTCTGCTGCTGCCAGCTTTGTTCAGTCGTACGCGACTGCTGAGCCAGGC -GTTGCTGTTCCGCTAATTGCTGCGCCTGACGTTGGCGCTGTAGCGTTTGCTGACGCTGTTCCGGCGTCTGTTCATTCCAC -GGAACTTCAACCAGCTGCGTTGGCTGCTGGCGCATATCAGCCTGCATTTGTTCAAGAAGCTGACGTTGTTCTGGTGTCAG -TTGCTCCGGCGTTTTCACTTCACCACCGGCAGAAGGTTCTGTGGGCGCACGCACTCCCGGCTGGCGACTTTCCAGCTCTT -TAATGTAGCGCCAGCGTTCTTCTGGTTTTGGTGGTAGTCCGTTTCCGGTCACTTTCTGGCTTTGCAGCGTCTCGGACTCT -TCTTTCTTGTGATGCGTAATGAAGTACAGACCACCGATAAAGGTCACAAGAACGGCGGCAGCAATAGCGACCATAGCGGG -AGAAACCGCAGGCAGATTTCGTTGCTTTTTCCGTGAGGTGCTCTTTTTTCGCCGCGAAGGTGCCGGTTGGCTGCGGCGTA -CATAATCTCGTTGTGCCACTATCGTTTCGCTGTATTTATTCGTTCGTCAGCCCGCCATGTTACTTAAGCGGCGGGCCTTT -GACCAGTCACGGCAGTCTTAAAGGTTTACTTTAAGGTAACGCGCGTGTTGATCCCCGGATGATAAGTTCGCAGTCCATTA -AACGAGAGCCACTGCCAACGTGTTGCCCCTGCATTTGATCAAGCAATAACAGCATAGCTTCCCGACCGATTTCGTAACGC -GGCTGCGCGATGGTTGTCAGCGGCGGATCACAAAATTGCGTCAGGTCGATGTTATCAAAACCGATTATGGAAAGGTCTTC -CGGGACTTTCAGCCCCTGGCGTTTTGCCTGAGAAAGTGCGCCGAGCGCCATCACATCGCTATGGCAGAAGACAGCAGTAG -GCGGTTGTGGAAGATCAAGCAGCTGCTGCATCGCTTTGCTTCCGGCTTCGAAGGTGAAGTCGCCACGGGCGATGTATTGC -GGATCAACCATAATGCCGCAGCGACGCAGCGCCTGAACATAGCCTTGCAGGCGGTAGTGACACAGCGGCATCTCTTCGGG -ACCGGCTATACAGCCAATCCGTTTATGCCCTTGCTCATATAAATAATTTACTGCATCAAATGCGGCGGTCAGATTGTCGA -TATGAACTGTAGGCAGCTCCAGCTCCGGTGCAAATTCGTTCGCCATCACCATCGGCGGCAGATTACGCTGTTCCTCAATG -CTGGCATCAAACGGCAGCCTTGAACCCAGCAACAACATGCCATCAATTTGCTTGGTGATGATCAAATCGATAAAGGTTTT -TTCCTGCTGATTTTGATGCGCACAGTCGCCAATCAGCACCAGATATCCGTGATTTGCCGCCGTAACTTCGATACCGCGAA -TAATTTCGCTAAAGAAGGGATCGCAGATATCCGGGACAATCACCAGAATGGTGCGGGATTCATTACGCTTGACGTTGCGC -CCCATAGGCTGCGGTAAATAACCCACTTCCCGGGCCGCTTTTTCAACCCGATTACGGGTGGCCTGGGAGACTTTATCGGG -ATTCATTAATGCTCGGGAGACGGTCGCTGTAGAGACTTTTGCCTTGAGGGCAACGTCTTTCATGGTCGCGGCAGTTTCCT -GCTTCTTCGCTTTCACACTCACTCCTCGCCTGGCACGTCAGGCGTACTACATCCATGTTTACTTCACATCGGCAACATTT -TTAGCAGATAGCGCGTGAAAACGGTTACAGAATTTTCATGAAAAGTGTGATGAATATTGAATTTTTCGATCCGCCTCGCA -TCGTGAGCGGTTTAACCCTCAATCGGATCAACATCCAGCACCCATTTCACCTTACGGGAATCCGGTATTGTATTGATGAG -CGCCAGCGTACCGTTAATGATGTGTTGCAAGCGCACGCGGGAAGGGTGCTGCAACAATATCTGCCAGCGCCAGCGACCGC -CACGTTTAGGTGCCAGAGCCGGAACCGGACCGAGAACCCACAGTTTCTCGTCTGCCAGTGGGCTGGAGAGGATCAGATTA -CGCAGTTGTTGCAGGAACAATGGCGCGTGCTGATTGTTATGATCTTCCGCACGCACAATCACATGGCTGGTCCACGGCGG -TAGCTGCATCATTCGCCGCTCAGCCAGCGCCTGTTCGGCAAAGGCGTCGTAGCCTTTATAGAGCAACGTTTGCAACAGAG -GATGTTCCGGATGGTGCGTTTGCAGCACCACTTCGCCCTGTTTACCCGCACGCCCGGCACGACCGGCGACCTGGGTGTAA -AGCTGAGCGAAACGCTCTGCCGAGCGAAAATCGGCAGAAAACAGCGCGCCGTCCACGTCCAGTAATGCAACCAGCGTCAC -ATCCGGGAAATGGTGACCTTTCGCCAGCATTTGTGTACCAATCAAAATCCGCGCGCCGCCGCGATGTACTTCTGCCAGTT -GCTGTTCCAGCGCCCCTTTGCGGCTGGTGGTATCGCGGTCGATACGAGAAATGGGCACGCCGGGGAACAACGGCGCGAGC -GTCTGTTCAAGCTGTTCGGTGCCCAGCCCCACGGGGACCAGGTGCGTGGAACCGCAGGAAGGGCACTGGCGCGGCACCGG -ACGCTGACTGTCACAGTGGTGGCAGCGCAGATGGTGCTGCGCCTGATGCAGCGTGTAGTAGTGATCGCAACGTGGGCATT -CGGCAATCCAGCCACAGTCGTGGCACAGCAGTGCAGGCGCAAAGCCACGGCGGTTAAGAAAGAGAATGACCTGGTTATCA -GCCTGTAAATGCTGGCGCATACGAGTGATTAACGCCGGAGCCAGACCTGCCTGCACCTTCTGACCTTTTAAATCCAGCAC -ATGTTGAATTGCCGGACGCGCATTCCCTGCCCGACGGGTCAGGCGCAGCAGGCGGTATTTTTTCTGCTGGACGTTGCATA -ACGTTTCCAGCGCGGGCGTTGCGGAGCCAAGAATAATCGGGATTTGCTCGCTGTGCGCACGATACACCGCCAGGTCGCGG -GCATGATAGCGCCAGCCTTCCTGCTGCTTGTAGGAGCTGTCGTGCTCTTCATCAATGACAATCACGCCGAGATTTTTAAA -CGGCGTAAACAGCGCGGAGCGGGTGCCGATCACAATCGCCGCCTCACCATTTTTCGCTTTCAGCCACGCCGAAAGACGCT -CGCTGTCGTTCAGGCCGGAATGCAGAACTTCCACGGGGGCATTAAAACGTTCACGAAAACGGGCGATAGTTTGCGGTGTC -AGGCCGATTTCCGGCACCATCACCAGCGCCTGTTTGCCCTGAGCGAGCACGTTTTCCAGTACGCTGAGATAAACCTCCGT -TTTACCGGAACCGGTAACGCCCGCCAGCAGCCAGGCAGAAAAAGTATCTGCCGCGCTATGAATTGCGCCAACGGCGGTGG -CCTGTTCGGTATTCAATCGCAACCGCTCACCAGAAACGGCATAGTTCGTTCGCCAGTCGCTAAACTCTGGTGTTTCACTT -GCTAAATCACACAGACCTTTTTTGCGTAGCGCCTGCAACGCGGCATCATTAAATTCGAGCGTGGCGACCTGGTCGCGCCA -GATTTTGCCTTGCCGTAACGCCGCCAGCGCCTGTTGTTGCTTGGGGGAGCGTTTCAGGCTGTTCAGATCCACCGCCTGGC -CTTGTTCAGTGGCAAACCAGTACCACATCGGCGCGTTCGCCGCAGGCCGCCCCTGGCGTAGTAAAATCGGCAAGGCATGA -AACAGCACATCGCCAATCGGATGATGATAGTAATCTGCCGCCCATAGCAGCAATCGCCAGACGGAGTGAGTAAACACCGG -CTCACTATCCAGCACTTCGACTACCGCTTTTAGCTCATTGAGCGGCAGTTCGCTGGCATCGCTAACTGATACCACAATCC -CGATGCGCTCCTGCTGTTTGCCAAACGGCACGCGCACGCGACACCCAGCTTTAACCGTCATGCCTTCTGGCAGCAGATAG -TCAAAGGTACGAGGAAGCGGAACGGGCAAGGCAACGTGGGCAACGGGCATAGCATCATCCTGACTTGAAATTCGGTGGGT -TAGTATACACATTGCCGTAGAAGAGTGCGGATCAGTTTGCATACGCTGGTTAATTTCTGTATGATTTCGCGCCTTCGTAC -GAAATGATCGTATTGAAGCTATACTTTTAACATCGCGTGGTGTCTGGCGTTAGGGCTGGAAGAGCGACGCGGCCTTAAAC -CGAGGTTTTCCCATGAAAAAAGATATTCACCCGAAATACGAAGAAATTACTGCTAGCTGCTCTTGCGGTAACGTAATGAA -AATCCGCTCCACCGTTGGTCATGACCTGAACCTCGACGTGTGCAGCAAGTGCCACCCGTTCTTCACTGGCAAACAGCGTG -ATGTTGCTACCGGTGGCCGTGTTGACCGCTTCAACAAGCGTTTCAACATCCCGGGCAGCAAATAAGACCGGATTTCCGAA -AAAAGCGCCGCACGGCGCTTTTTTTGTGCCTGAATTTTGGTCGTATTACCACGAAAACAGCGGCCATTCTTTGGCGACCG -TGGTGAGTTGTGGCGCATCGAAAACGGCTTGTGGCGAGACCACCGTTTCCTCAAGCGGAATATTCTTGCCGTAACGTTCT -TTGAGCTTTGCCTGAACTTGTGGGCTGCTCAGGTCGAACTCTTTCAACTTCTGCTGCTCGCCCACGCGCATTCCCAGCGC -GTTCTGGTAAACCTTCCACACCACTTCCGAACAGTACTGGCGATCGTCGCTCCATGAGAAGCTGAAATCATACGGTTTAC -CGAGATAACGTTTTGCCGTTTGCGCCAGTTTTTGCTGTTGTTCAACACTCAGTCCGCCTTCAACGCGGCGAACAACGTAT -TTGCCCTTTTCACCATGGGCGATCCACTGCTTGAGCGGGGTGTATTTCACCGGGCCGACTGCTTCAAAAACGTAGGGCTT -TTTGTTGCGTATCACCAGCATACCGGTGTGGCTATAATCGGTATGGGTCGCCAGTTGGATCGCTTTACTTTGCGATGAGC -GAGAGATCTGAAAGATGATGTCGCCGGTTTGTGGCTGCCAGGCAAAGGCAGGTACAGAAACCAGCAGGCTGAGGATCAGC -AGCCTGTTTTTCATAGTTAAACGTCCATGTATAAAAAGCGGTGGGTCGCAGACAACGTGCTCGTTGTTTATGCCGGATGC -GGCGTGAACGCCTTATCCGGCCTACAAGTTCGTGCAAATTCAATAAATTGCAATATGACGTAGGCCTGATAAGCGTAGCG -CATCAGGCGATTCCACTCCGCGCCGCTCTTTTTTGCTTTAGTATTCCCACGTCTCCGGGTTAATCCCCATCTCACGCATG -ATCTCTTTTGCCGCTTCCGGGATTTCGTCGCTGCGCTCTTTACGCAGATCGGCATCATCCGGCAAAGGTTGCCCGGTAAA -GGCATGCAGAAACGCTTCGCACAGCAGCTCGCTGTTGGTAGCGTGACGCAGGTTGTTCACCTGACGACGCGTGCGTTCAT -CGGTGAGGATTTTTAACACCTTAAGAGGAATGGAAACCGTAATCTTTTTGACTTGTTCACTCTTCTTGCCGTGCTCAGCG -TATGGGCTGATATATTCGCCGCTCCATTCAGCCATGAGATACTTAATCCTCTTCGTCAATAAATTGAGACCAGACCACAC -AGTTGATGTGGGTACTGACCGTAAACCCGCATAGTTTACCGTACAGGCGTTACCGTGACATCGTGTAATGCACCTGTCGG -CGTGATAATGCATATAATTTTAACGGCTATTTGGGATTTGCTCAATCTATACGCAAAGAAGTTTAGATGTCCAGATGTAT -TGACGTCCATTAACACAATGTTTACTCTGGTGCCTGACATTTCACCGACAAAGCCCAGGGAACTTCATCACATGACGCGT -AAACAGGCCACCATCGCAGTGCGTAGCGGGTTAAATGACGACGAACAGTATGGTTGCGTTGTCCCACCGATCCATCTTTC -CAGCACCTATAACTTTACCGGATTTAATGAACCGCGCGCGCATGATTACTCGCGTCGCGGCAACCCAACGCGCGATGTGG -TTCAGCGTGCGCTGGCAGAACTGGAAGGTGGTGCTGGTGCAGTACTTACTAATACCGGCATGTCCGCGATTCACCTGGTA -ACGACCGTCTTTTTGAAACCTGGCGATCTGCTGGTTGCGCCGCACGACTGCTACGGCGGTAGCTATCGCCTGTTCGACAG -TCTGGCGAAACGCGGTTGCTATCGCGTGTTGTTTGTTGATCAAGGCGATGAACAGGCATTACGGGCAGCGCTGGCAGAAA -AACCCAAACTGGTACTGGTAGAAAGCCCAAGTAATCCATTGTTACGCGTCGTGGATATTGCGAAAATCTGCCATCTGGCA -AGGGAAGTCGGGGCGGTGAGCGTGGTGGATAACACCTTCTTAAGCCCGGCATTACAAAATCCGCTGGCATTAGGTGCCGA -TCTGGTGTTGCATTCATGCACGAAATATCTGAACGGTCACTCAGACGTAGTGGCCGGCGTGGTGATTGCTAAAGACCCGG -ACGTTGTCACTGAACTGGCCTGGTGGGCAAACAATATTGGCGTGACGGGCGGCGCGTTTGACAGCTATCTGCTGCTACGT -GGGTTGCGAACGCTGGTGCCGCGTATGGAGCTGGCGCAGCGCAACGCGCAGGCGATTGTGAAATACCTGCAAACCCAGCC -GTTGGTGAAAAAACTGTATCACCCGTCGTTGCCGGAAAATCAGGGGCATGAAATTGCCGCGCGCCAGCAAAAAGGCTTTG -GCGCAATGTTGAGTTTTGAACTGGATGGCGATGAGCAGACGCTGCGTCGTTTCCTGGGCGGGCTGTCGTTGTTTACGCTG -GCGGAATCATTAGGGGGAGTGGAAAGTTTAATCTCTCACGCCGCAACCATGACACATGCAGGCATGGCACCAGAAGCGCG -TGCTGCCGCCGGGATCTCCGAGACGCTGCTGCGTATCTCCACCGGTATTGAAGATGGCGAAGATTTAATTGCCGACCTGG -AAAATGGCTTCCGGGCTGCAAACAAGGGGTAAAAATGAGTGTGATTGCGCAGGCAGGGGCGAAAGGTCGTCAGCTGCATA -AATTTGGTGGCAGTAGTCTGGCTGATGTGAAGTGTTATTTGCGTGTCGCGGGCATTATGGCGGAGTACTCTCAGCCTGAC -GATATGATGGTGGTTTCCGCCGCCGGTAGCACCACTAACCAGTTGATTAACTGGTTGAAACTAAGCCAGACCGATCGTCT -CTCTGCGCATCAGGTTCAACAAACGCTGCGTCGCTATCAGTGCGATCTGATTAGCGGTCTGCTACCCGCTGAAGAAGCCG -ATAGCCTCATTAGCGCTTTTGTCAGCGACCTTGAGCGCCTGGCGGCGCTGCTCGACAGCGGTATTAACGACGCAGTGTAT -GCGGAAGTGGTGGGCCACGGGGAAGTATGGTCGGCACGTCTGATGTCTGCGGTACTTAATCAACAAGGGCTGCCAGCGGC -CTGGCTTGATGCCCGCGAGTTTTTACGCGCTGAACGCGCCGCACAACCGCAGGTTGATGAAGGGCTTTCTTACCCGTTGC -TGCAACAGCTGCTGGTGCAACATCCGGGCAAACGTCTGGTGGTGACCGGATTTATCAGCCGCAACAACGCCGGTGAAACG -GTGCTGCTGGGGCGTAACGGTTCCGACTATTCCGCGACACAAATCGGTGCGCTGGCGGGTGTTTCTCGCGTAACCATCTG -GAGCGACGTCGCCGGGGTATACAGTGCCGACCCGCGTAAAGTGAAAGATGCCTGCCTGCTGCCGTTGCTGCGTCTGGATG -AGGCCAGCGAACTGGCGCGCCTGGCGGCTCCCGTTCTTCACGCCCGTACTTTACAGCCGGTTTCTGGCAGCGAAATCGAC -CTGCAACTGCGCTGTAGCTACACGCCGGATCAAGGTTCCACGCGCATTGAACGCGTGCTGGCCTCCGGTACTGGTGCGCG -TATTGTCACCAGCCACGATGATGTCTGTTTGATTGAGTTTCAGGTGCCCGCCAGTCAGGATTTCAAACTGGCGCATAAAG -AGATCGACCAAATCCTGAAACGCGCGCAGGTACGCCCGCTGGCGGTTGGCGTACATAACGATCGCCAGTTGCTGCAATTT -TGCTACACCTCAGAAGTGGCCGACAGTGCGCTGAAAATCCTCGACGAAGCGGGATTACCTGGCGAACTGCGCCTGCGTCA -GGGGCTGGCGCTGGTGGCGATGGTCGGTGCAGGCGTCACCCGTAACCCGCTGCATTGCCACCGCTTCTGGCAGCAACTGA -AAGGCCAGCCGGTCGAATTTACCTGGCAGTCCGATGACGGCATCAGCCTGGTGGCAGTACTGCGCACCGGCCCGACCGAA -AGCCTGATTCAGGGGCTGCATCAGTCCGTCTTCCGCGCAGAAAAACGCATCGGCCTGGTATTGTTCGGTAAGGGCAATAT -CGGTTCCCGTTGGCTGGAACTGTTCGCCCGTGAGCAGAGCACGCTTTCGGCACGTACCGGCTTTGAGTTTGTGCTGGCAG -GTGTGGTGGACAGCCGCCGCAGCCTGTTGAGCTATGACGGGCTGGACGCCAGCCGCGCGTTAGCCTTCTTCAACGATGAA -GCGGTTGAGCAGGATGAAGAGTCGTTGTTCCTGTGGATGCGCGCCCATCCGTATGATGATTTAGTGGTGCTGGACGTTAC -CGCCAGCCAGCAGCTTGCTGATCAGTATCTTGATTTCGCCAGCCACGGTTTCCACGTTATCAGCGCCAACAAACTGGCGG -GAGCCAGCGACAGCAATAAATATCGCCAGATCCACGACGCCTTCGAAAAAACCGGGCGTCACTGGCTGTACAATGCCACC -GTCGGTGCGGGCTTGCCGATCAACCACACCGTGCGCGATCTGATCGACAGCGGCGATACTATTTTGTCGATCAGCGGGAT -CTTCTCCGGCACGCTCTCCTGGCTGTTCCTGCAATTCGACGGTAGCGTGCCGTTTACCGAGCTGGTGGATCAGGCGTGGC -AGCAGGGCTTAACCGAACCTGACCCGCGTGACGATCTCTCTGGCAAAGACGTGATGCGCAAGCTGGTGATTCTGGCGCGT -GAAGCAGGTTACAACATCGAACCGGATCAGGTACGTGTGGAATCGCTGGTGCCTGCTCATTGCGAAGGCGGCAGCATCGA -CCATTTCTTTGAAAATGGCGATGAACTGAACGAGCAGATGGTGCAACGGCTGGAAGCGGCCCGCGAAATGGGGCTGGTGC -TGCGCTACGTGGCGCGTTTCGATGCCAACGGTAAAGCGCGTGTAGGCGTGGAAGCGGTGCGTGAAGATCATCCGTTGGCA -TCACTGCTGCCGTGCGATAACGTCTTTGCCATCGAAAGCCGCTGGTATCGCGATAACCCTCTGGTGATCCGCGGACCTGG -CGCTGGGCGCGACGTCACCGCCGGGGCGATTCAGTCGGATATCAACCGGCTGGCACAGTTGTTGTAATTTCAGAAATTTA -ATAATGCCCGGTACTCATGTTTTCGGGTTTATGGTTTCTAATGAAATATATTGAATTATCATAGGATTAGGCCGGATTAA -GCGTTTACGACGAATCCGGCAAGAAGCAATAAGTACATGGTTAGTTTATATTTGCAGTCCGGTTTGCTTTGCATACCGGA -TTTTCTTTTTCTTACCATCCTGAAGTTTTTTCATCTTCCCTGATTTTTCCTCACCATCATTGGTCATTTTTCGGTTGACG -CCCTTCGGCTTTTCCTTCATCTTTACATCTGGACGTCTAAACGGATAGATGTGCACAACACAACATATAACTACAAGCGA -TTGATGAGGTAAGGTATGAGCTTTTTTCACGCCAGCCAGCGGGATGCCCTGAATCAGAGCCTGGCAGAAGTCCAGGGGCA -GATTAACGTTTCGTTCGAGTTTTTCCCGCCGCGTACCAGTGAAATGGAGCAGACCCTGTGGAACTCCATCGATCGCCTTA -GCAGCCTGAAACCGAAGTTTGTATCGGTGACCTATGGCGCGAACTCCGGCGAGCGCGACCGTACGCACAGCATTATTAAA -GGCATTAAAGATCGCACTGGTCTGGAAGCGGCACCGCATCTTACTTGCATTGATGCGACGCCCGACGAGCTGCGCACCAT -TGCACGCGACTACTGGAATAACGGTATTCGTCATATCGTGGCGCTGCGTGGCGATCTGCCGCCGGGAAGTGGTAAGCCAG -AAATGTATGCTTCTGACCTGGTGACGCTGTTAAAAGAAGTGGCAGATTTCGATATCTCCGTGGCGGCGTATCCGGAAGTT -CACCCGGAAGCAAAAAGCGCTCAGGCGGATTTGCTTAATCTGAAACGCAAAGTGGATGCCGGAGCCAACCGCGCGATTAC -TCAGTTCTTCTTCGATGTCGAAAGCTACCTGCGTTTTCGTGACCGCTGTGTATCGGCGGGCATTGATGTGGAAATTATTC -CGGGAATTTTGCCGGTATCTAACTTTAAACAGGCGAAGAAATTTGCCGATATGACCAACGTGCGTATTCCGGCGTGGATG -GCGCAAATGTTCGACGGTCTGGATGATGATGCCGAAACCCGCAAACTGGTTGGCGCGAATATTGCCATGGATATGGTGAA -GATTTTAAGCCGTGAAGGAGTGAAAGATTTCCACTTCTATACGCTTAACCGTGCTGAAATGAGTTACGCGATTTGCCATA -CGCTGGGGGTTCGACCTGGTTTATAAATAGTGTGGCTTTTGTGAAAATCACACAGTGATCACAAATTTTAAACAGAGCAC -AAAATGCTGCCTCGAAATGAGGGCGGGAAAATAAGGTTATCAGCCTTGTTTTCTCCCTCATTACTTGAAGGATATGAAGC -TAAAACCCTTTTTTATAAAGCATTTGTCCGAATTCGGACATAATCAAAAAAGCTTAATTAAGATCAATTTGATCTACATC -TCTTTAACCAACAATATGTAAGATCTCAACTATCGCATCCGTGGATTAATTCAATTATAACTTCTCTCTAACGCTGTGTA -TCGTAACGGTAACACTGTAGAGGGGAGCACATTGATGAGCACGTCAGACGATATCCATAACACCACAGCCACTGGCAAAT -GCCCGTTCCATCAGGGCGGTCACGACCAGAGTGCGGGGGCGGGCACAACCACTCGCGACTGGTGGCCAAATCAACTTCGT -GTTGACCTGTTAAACCAACATTCTAATCGTTCTAACCCACTGGGTGAGGACTTTGACTACCGCAAAGAATTCAGCAAATT -AGATTACTACGGCCTGAAAAAAGATCTGAAAGCCCTGTTGACAGAATCTCAACCGTGGTGGCCAGCCGACTGGGGCAGTT -ACGCCGGTCTGTTTATTCGTATGGCCTGGCACGGCGCGGGGACTTACCGTTCAATCGATGGACGCGGTGGCGCGGGTCGT -GGTCAGCAACGTTTTGCACCGCTGAACTCCTGGCCGGATAACGTAAGCCTCGATAAAGCGCGTCGCCTGTTGTGGCCAAT -CAAACAGAAATATGGTCAGAAAATCTCCTGGGCCGACCTGTTTATCCTCGCGGGTAACGTGGCGCTAGAAAACTCCGGCT -TCCGTACCTTCGGTTTTGGTGCCGGTCGTGAAGACGTCTGGGAACCGGATCTGGATGTTAACTGGGGTGATGAAAAAGCC -TGGCTGACTCACCGTCATCCGGAAGCGCTGGCGAAAGCACCGCTGGGTGCAACCGAGATGGGTCTGATTTACGTTAACCC -GGAAGGCCCGGATCACAGCGGCGAACCGCTTTCTGCGGCAGCAGCTATCCGCGCGACCTTCGGCAACATGGGCATGAACG -ACGAAGAAACCGTGGCGCTGATTGCGGGTGGTCATACGCTGGGTAAAACCCACGGTGCCGGTCCGACATCAAATGTAGGT -CCTGATCCAGAAGCTGCACCGATTGAAGAACAAGGTTTAGGTTGGGCGAGCACTTACGGCAGCGGCGTTGGCGCAGATGC -CATTACCTCTGGTCTGGAAGTAGTCTGGACCCAGACGCCGACCCAGTGGAGCAACTATTTCTTCGAGAACCTGTTCAAGT -ATGAGTGGGTACAGACCCGCAGCCCGGCTGGCGCAATCCAGTTCGAAGCGGTAGACGCACCGGAAATTATCCCGGATCCG -TTTGATCCGTCGAAGAAACGTAAACCGACAATGCTGGTGACCGACCTGACGCTGCGTTTTGATCCTGAGTTCGAGAAGAT -CTCTCGTCGTTTCCTCAACGATCCGCAGGCGTTCAACGAAGCCTTTGCCCGTGCCTGGTTCAAACTGACGCACAGGGATA -TGGGGCCGAAATCTCGCTACATCGGGCCGGAAGTGCCGAAAGAAGATCTGATCTGGCAAGATCCGCTGCCGCAGCCGATC -TACAACCCGACCGAGCAGGACATTATCGATCTGAAATTCGCGATTGCGGATTCTGGTCTGTCTGTTAGTGAGCTGGTATC -GGTGGCCTGGGCATCTGCTTCTACCTTCCGTGGTGGCGACAAACGCGGTGGTGCCAACGGTGCGCGTCTGGCATTAATGC -CGCAGCGCGACTGGGATGTGAACGCCGCAGCCGTTCGTGCTCTGCCTGTTCTGGAGAAAATCCAGAAAGAGTCTGGTAAA -GCCTCGCTGGCGGATATCATAGTGCTGGCTGGTGTGGTTGGTGTTGAGAAAGCCGCAAGCGCCGCAGGTTTGAGCATTCA -TGTACCGTTTGCGCCGGGTCGCGTTGATGCGCGTCAGGATCAGACTGACATTGAGATGTTTGAGCTGCTGGAGCCAATTG -CTGACGGTTTCCGTAACTATCGCGCTCGTCTGGACGTTTCCACCACCGAGTCACTGCTGATCGACAAAGCACAGCAACTG -ACGCTGACCGCGCCGGAAATGACTGCGCTGGTGGGCGGCATGCGTGTACTGGGTGCCAACTTCGATGGCAGCAAAAACGG -CGTCTTCACTGACCGCGTTGGCGTATTGAGCAATGACTTCTTCGTGAACTTGCTGGATATGCGTTACGAGTGGAAAGCGA -CCGACGAATCGAAAGAGCTGTTCGAAGGCCGTGACCGTGAAACCGGCGAAGTGAAATTTACGGCCAGCCGTGCGGATCTG -GTGTTTGGTTCTAACTCCGTCCTGCGTGCGGTGGCGGAAGTTTACGCCAGTAGCGATGCCCACGAGAAGTTTGTTAAAGA -CTTCGTGGCGGCATGGGTGAAAGTGATGAACCTCGACCGTTTCGACCTGCTGTAATCTGACCCCGTTCAGCGGCTGCTTG -CTGGCAGTCGCTGAACGTTCTTTACCAGCGTATAGTGGGCGAACGAAAACTACACACTGGATCTCTCATGTCTGCCGCAG -GAAAGAGCAACCCACTGGCAATCAGTGGCCTGGTTGTGCTCACACTTATCTGGAGTTATAGCTGGATTTTCATGAAGCAA -GTCACCAGTTACATCGGTGCCTTCGACTTTACCGCCTTACGCTGCATTTTCGGCGCTCTCGTTTTATTCATCGTCCTTTT -ATTACGTGGTCGCGGAATGCGCCCGACACCGTTTAAATACACCTTAGCCATTGCCCTGTTACAAACCTGCGGGATGGTTG -GTCTGGCGCAGTGGGCGTTGGTCAGCGGAGGTGCGGGGAAGGTGGCGATCCTGAGCTATACCATGCCGTTCTGGGTGGTG -ATTTTCGCCGCGTTGTTTCTCGGTGAACGCCTGCGACGTGGGCAATATTTCGCGATTCTGATTGCCGCTTTCGGCTTATT -TTTGGTGTTGCAGCCGTGGCAACTCGATTTCTCTTCGATGAAAAGTGCCATGCTGGCAATCCTCTCCGGCGTCAGTTGGG -GGGCGAGCGCGATTGTTGCTAAACGTCTGTATGCCCGTCATCCGCGCGTGGATTTATTGTCGTTAACATCCTGGCAGATG -CTGTATGCGGCGCTGGTGATGAGTGTGGTCGCTTTACTGGTGCCGCAACGTGAAATTGACTGGCAGCCCACCGTGTTCTG -GGCGCTGGCCTACAGTGCGATTCTGGCGACGGCACTGGCGTGGAGCTTATGGTTGTTTGTATTGAAAAACTTGCCTGCCA -GTATTGCCAGCTTAAGCACACTGGCCGTTCCCGTTTGCGGCGTACTCTTTTCCTGGTGGCTGCTCGGCGAGAATCCGGGG -GCCGTTGAAGGTAGCGGTATTGTGCTGATTGTGCTGGCACTGGCGCTGGTGAGCCGTAAGAAAAAAGAAGCCGTCAGTGT -AAAAAGGATCTGAATTTTTTCTTCATGTGGGGCGATCTCTTATTTAACAAAATAACGATAATGCCCCACCATCCGCCAGT -TAAACAGCACATCTTCTTCCTGCGCGCCTGCGCCAATGTTATGTATCACCAGCGGCGTACCGTCGCGGGCGAAGCCATCT -GAAACCACCCCAATATGTGCCAGCCCGTTATCCAGTCGCCAGGAGACAATATCGCCCGCTTGATAGTCACTGGGGTTCTT -GCTGGTGGGGCGTGTTTTATCATGGCGGCTAAACCAGGTTTCCAGATTAGGCACCCGACGGTGATCGATGTTGCTGTCCG -GGCGCTTTAACTTCCATTTTTGCGGGTACTCAGCAAAATTCTTCGCCATATCTTCGTGAACCAGTTTCTGCAAATCGACC -TTCTGGCTGCGCAATGCGCGGATCACCACATCGGAACATACACCGCGTTCTTGCGGAACATCACCGCCAGGATAAGTAAG -CTGCACATACGCCGGATCGTAAAATAGCGTGCTGCCAATTTGCTGTCTGGCACCGTCTGCGATGGCAAGGTTGGTATTGG -CCTGGATTTGTACCACGGTTGGTGGAACGGCGGGAGATTTTAAGGAGTGGCTGGTAAATGCCGTTAGCAGGCTGAGCAGC -GCCAGTGAAGCTTTCATCTGGTTCGTCCGTGAAAATAAGAGTCACAGATTCGACCTTCCGGGCTAACGATTGTTCTGTAG -AGAAAATGTCCAGAAGCGGATAAAAAATTCCTGAACAACGTGGGAGTTTCAGATTACTGGCACAGAGTGCCGGATGCGGA -GTGAACGCCTTATCCGGCCTACAAAAGCACGCAAATTCAATATATTGCAGAGATTGCGTAGGCCTGATAAGCGTAGCGCA -TCAGGCAATTTTGCGTTCAAACTCCCGGACAAGCCGGGAGTTTGGAGTAGGTTATTCCCACTCTTGCAGGAAACGCTGAC -CGTACTGGTCGGCTACCAGCAGAGCGGCGTAAACCTGATCTGGCGTCGCGCCGCCAGGCATGTTGTGAATGGTTTCACCT -TCTGCACATGCCGCTTCTGCCACAATTCGCATTTTCGCCGGGACATCTTCTTTAATATCCAGTTGAGCGAGAGTTATTGG -CAAACCTACCGCATGGCTAAGGGCAGCTACGGTTTCGATTTCCTCCACCGGCGCATTTTCCAGAACCAGCTGCGTCAGCG -TACCGAATGCCACTTTTTCACCGTGATAATAGTGATGCGCGTCCGGGATAGCGGTCAGGCCGTTATGCACTGCGTGCGCC -GCAGCCAGACCACCACTTTCAAAACCAACACCGCTCAAATAGGTGTTCGCTTCAATCACGCGCTCCAGCGCCGGAGTCAC -TACATGCTGTTCGGCAGCAAGCATCGCTTTTTCGCCTTCTTCCAGCAGGGTGTTGTAGCACAGTTCAGCCAGTGCCAGCG -CAGCCTGGGTGCACTTGCCGCCCGCCATGGTGGTCGCGCCGCTACGAGAGCAGGCACGCGCTTCAAACCAGGTTGCCAGC -GCATCGCCGATACCCGCCGCTAACAGACGTGCAGGTGCGCCAGCGACGATTTTGGTGTCGACAATGACCATATTCGGGTT -ATTTGGCAACAGCAGATAGCGGTCAAACTCACCCTCATCGGTGTAGATAACAGACAATGCGCTGCACGGTGCATCGGTAG -AGGCGATAGTCGGTGCGATCGCTACCGGAACACCCATGAAATGTGCCAGTGCTTTGGCAGTATCGAGGGTTTTTCCGCCA -CCGATACCGAGAATTGCGCCACACTGCGCAGTCTCCGCGATGCCACGCAGACGGTCGATCTCATTTTGCGAACATTCACC -GCCAAACGGCGCAATTTCTACTACCAGTCCAGCATCTTTAAAGCTTTTCTCGACAGTGGATTGAGCAAAACCTAAAACAA -ATTTGTCACCCACCACTAACCAGCGTTCTGCCAGCGGCTTCAGGTATTCGCCCAGACGATTAATCACATCAGCGCCCTGG -ATGTATTTACCCGGTGATTGAATAATGCGGTCCATAATTGCTCCTTTAGAGATGAGTAGTGCCAAATGCGGCATTCCAGT -CGTGTTCGAACTTCTCTATAGCTGACTCTACCGCAGGGGTGTTGAGCATTTGTTGCGCTACATCTAAGGGCAGGGTGATG -GATTCACATCCTGCCAGTAAACAGTCCAGCGCCTGACGCGGCGTTTTAAAGCTGGCTGCCAGCACCATGCTTTCTGGCGC -GTGCATTTCTAACAGCGTTTGCAGCTCCTGAACCGTACGAATGCCGTCTCCGCCCTGGGCATCTACGCGGTTAACATACG -GAGCAACGTATTTTGCCCCTGCCAGTGCGGCTAATAACCCTTGTGCGGCGCTATATACAGCAGTGCCAAGTGTAGTAATA -CCCTCTTTTTTCAGTATTTTAATTGCTGCCAGACCTTCGGAAGTCACCGGGATTTTCACCACAATACCCGGAATAGCGTC -GCGCAGGCGCTTCGCTTCTTCCACCATCCCCTGCGCGTCGCGGCTCATGGTCTGAGCAAACAGAATGCCCTCATCACCAA -TCGCTTTTTGCAGACGCGGCAGCACTTCCCATATGGACTCCTTGCTGGCAGCGATAATGCTCGGGTTAGTTGTCACCCCG -GCAATGGGGAATATGCGTGCCAGACGTTCGACTTCTGCGACGTTAGCGGTGTCCAGATACAGTTCCATGATGTTTCCTTT -TACAGTTCCAGTTCATGTTGCAGCAGGCTGGCGATAGCGTCGGCAGAGGCGGCGTTAACCAGCGCGTTACGGAATTCTTC -GTGCATGATGCGGCGAGCGAGGCGCGAGAAAATGCGCATATGCTGATCGCCCGCAGCGTGTTTGTTCAGGGTTAACATAA -TGATGAATTGCGCTTCATCATCGCCCCAGCGCACCGGCGCTTGCAGACGCGCCACGCTGATGGTGGATTGCTCAATGTGT -TCTGATTTGCTGTGTGGAATGGCAAAACTAAAGCCCAGACCGGTAGAGAAAACGGCCTCGCGCGCCCACAAGTCGGCTTC -CAGTTTACGCGGATAGCGGCAGCGGCCCGCCAGCAGCAGGTTATCGGTCATGCCTTTGAGCACTTCTTCTTTGCTGCGCC -AGTCGCTTTCCAGTGTGATGCACTCGGCGGTGACCAGCGGTGCGTCTTGTTGGGTCATGCGGAATTGCGCCAGCAGGTGT -TCTACTTCCAGCGAAGTACGGCAGGCCATTGCCTGGTTGAGCAACTTGCGGCACTCACGGCTATCAAGTTGCGCCATCCG -AGCTTTCGCCGCCGGAATTGATGGTGCGCTCATGCTGAGTTCATCCAGCCCTAAGCCGACCAGCAACGGCAGCACGGAAC -CTTTCGCTCCCAGCTCACCGCACAGACCAATCCATTTGCCCTGGCGATGCACCGCTTGCACGGCGTAATCGAGCGCCCGC -AAGAATGCCGGATTCAGGCTGTTGTAGTGACGAGTAACCTTAGCGTTATCGCGATCCACCGCCAGCAGATACTGCGTCAG -GTCATTACTACCAATACTAAAGAAATCAATCTCTTCGCAGCATTGATCGATGATGAACATCACCGACGGCACTTCCAGCA -TGATGCCGAGCTGGATTTTCTCATCAAACGGAATGTGTTCGTTACGTAGTTGCTGTTTGGCTTCCGCCAGTTTTTCTTTC -ACCCATAAGATCTCTTCCATTGAGGAGATCATCGGGATCATGATTTTCAGGCTGCCGTGAGCGGAGGCGCGGAGGATCGA -CCGTAGCTGCGTGGTAAACAACGACGCGTACTCTTCATAAATACGCACGGCGCGATAACCGAGGAACGGGTTTGCCTCTG -CGGGAATGTTCAGATAATCAACGGGTTTGTCGCCGCCAATGTCCATAGTGCGCACAATAATGCTGCGTCCGTTGGCGGAT -TCCAGCGCCTGACAAAAAATGTTGTACAACTCGCTTTCGCCCGGTGCGCTGGTGCGATCCATATAGAGCATTTCAGTGCG -GAACAAACCAACGCCTTCCGCACCATTGCCGAATGCGGCCTGCGCTTCCACGGAGTGAGCGATGTTAGCGGCAATTTCAA -TGCGGATACCGTCAGCGGTACGGGCTTGTTGGGTCAGCCAGACACGCTGTTGCTCACGCAGGGCGTCCTGTACGCGGGCT -TCTTGCTGATAATAACGAGCTACGGCTTCCCCTGGCTCAACCACAATCGCCCCGGCGTTGCCGTCGATATAAATCGTTTG -TTGCTGCCACGGAGTAAGGGCATCAATATCCACACCAACCAGCGTTGGAATGTTGAACGAACGGGCAAGGATCACCGTAT -GTGAGGTGGTGCCGCCGCTTTTGAGCAACAATCCTTTGAGGTGATTTTTATCCAGTTCGAGGAACTGGCTGGGGGTCAGT -TCATCAGCCATACAAATGGCGGGCTGCGTCAGTTTGCCCGGTGCCGGGAAGCGTTGCTCACCGTAGATTTGCTGGAGTAA -CTGGAAGCAGACGTCGCGTACGTCCAGGGCACGTTCTTGCAGGTAGCTGCTGCTGGAACGGGAAAACTCTTCGCAAAAGT -GATTCGCGCTGGCAACAATTGCTTCGGCGCAGCTTAATCCGGCGCTGACGCCTGCCAGTAAATGTTCGCGCAGGGAAGTA -TCGCCAGCCAGGGATCGGTGAGCTTCCAGAATCGCGCTGGTAGCACCGTCGCTATCCAGCAGACGAAACTCAATGTTTTT -CAGTACCAGCGTCAGGCCGTTTTCCAGTGCGGATTGCTCGGCGTCAACGCCTTTGGCTGCGGGAAGATTACCCAGCGCAT -TGAGATCTAAAGAAGAGATCGGCGTCAGAATGCCGCCTGCACTACCGCTGCACACGGTGCGGGCGCGGATAATTTGCGGA -TTCAGATTGGTCAGTGAAACCGGCAGTGGTTCCAGTTCGTCAGATTTAACTTCCGCCAGCGGCGCATCGCAGTGGGGGAA -TTCATCGCGCAGCCATTGGCTTAAACGCTGGTGCGCTTCCTGTTCGTCGGCCCCGGAAATCAGTAACTGGCAGTTATCGC -CCGCCAGCGTATCGGTGCCAATCAGCGCAAGGGCGCTTTTGGCGTTGCCCTTGCGGTCAGTGCGCAGGTTATGCCACTCA -ATTTGTGATGAAAAAGTATTACACAGCGTTTCAACGTGGCTTGCCGGACGCGCATGTACGCCGTTAGGTAGCTCACAAAT -AAATTCCACAATCAGGGCCATTGCCTCTCTCCCGGTACGGTTTTCTGTTTACAGGATAAGAGCGCACGGCAACGGCCTGC -CATGTGACAAATCTGCCAAAAGCTGGACAAATGTAATGTAACCGTCAATTTGCGACGCGTCTCACAAGACGCTGTTTTGC -GGCATGCTTCCGGTTTATCGCAAGTTATGAGGCGGATCGCATTTTTGTACTGATATTACAAAAGTCCAGTAAATGGCCTT -TTTATCCACTGTTTGCTCCGCCTGCGATTGCCTATTGTTTCCTCCATCAAAAATATGGACATGGGCTTTCGCAAGCCCGG -GAGCAGCTTATGAATGAGTTGGTGCAGATCCTGAAAAATACCCGTCAGCATTTAATGACGGGCGTTTCACACATGATTCC -CTTCGTGGTATCGGGCGGTATTTTGCTGGCGGTTTCCGTCATGTTGTATGGCAAAGGCGCAGTGCCGGATGCCGTAGCCG -ATCCAAATCTGAAAAAACTGTTTGATATCGGCGTTGCGGGCTTGACGCTGATGGTGCCTTTCCTCGCAGCGTACATCGGT -TATTCCATTGCAGAGCGTTCTGCGCTGGCTCCGTGCGCTATCGGTGCCTGGGTTGGTAACAGCTTTGGTGCGGGCTTCTT -TGGTGCACTGATCGCCGGGATTATCGGCGGCATCGTGGTGCATTACCTGAAGAAAATTCCGGTGCATAAAGTTCTGCGCT -CGGTGATGCCTATCTTCATTATTCCTATCGTCGGCACACTGATTACCGCAGGCATCATGATGTGGGGCTTGGGCGAGCCT -GTAGGGGCGTTGACCAACAGCCTGACTCAGTGGCTTCAGGGGATGCAGCAGGGCAGCATTGTTATGCTGGCGGTGATCAT -GGGTCTGATGCTGGCGTTCGATATGGGCGGTCCGGTTAACAAAGTGGCCTATGCCTTCATGCTGATTTGCGTTGCTCAGG -GTGTTTATACCGTGGTGGCCATCGCTGCCGTGGGTATTTGTATCCCGCCGCTGGGGATGGGGCTGGCGACGCTGATTGGT -CGTAAAAATTTCTCCGCAGAAGAGCGCGAAACCGGCAAAGCGGCACTGGTGATGGGCTGTGTTGGCGTTACTGAAGGGGC -GATTCCTTTCGCCGCTGCCGATCCGCTGCGTGTCATTCCTTCCATCATGGTCGGTTCAGTTTGTGGTGCAGTAACTGCGG -CGCTGGTCGGTGCGCAGTGCTATGCAGGCTGGGGTGGTCTGATTGTGCTGCCGGTGGTTGAAGGCAAGCTGGGTTATATC -GCAGCAGTGGCTGTCGGAGCAGTGGTGACGGCTGTTTGTGTGAACGTGCTGAAAAGTCTGGCGCGTAAAAATGGGTCTTC -GACTGATGAAAAAGAAGACGACCTGGATTTGGATTTTGAAATTAATTAATTGAGGAACGAGCCATGACGAAAATTATTGC -AGTAACCGCATGTCCTTCAGGTGTTGCCCATACCTATATGGCAGCAGAGGCGCTGGAAAGTGCCGCGAAAGCGAAAGGCT -GGGAAGTGAAAGTAGAAACCCAGGGGTCAATTGGTCTGGAAAATGAACTGACTGCGGAAGATGTGGCGAGCGCTGATATG -GTGATTCTGACCAAAGATATCGGCATCAAGTTTGAAGAGCGTTTTGCTGGCAAGACCATCGTGCGCGTCAACATCAGCGA -TGCAGTAAAACGTGCTGACGCCATTATGAGCAAAATTGAAGCTCACCTGGCGCAAACCGCTTAAGTTCTTCTCCCGCTCG -CAAGGGCGGGTTCGCTTTCCCACAGGAGTTCCTCATGACGAATCGTATCTCTCGCCTCAAAACTGCACTGTTTGCCAATA -CCCGTGAAATCTCGCTGGAGCGGGCGCTGCTTTATACCGCCAGCCATCGGCAAACCGAAGGCGAACCGGTGATATTGCGC -CGGGCGAAAGCAACAGCGTATATCCTTGAACATGTTGAAATTTCGATTCGTGATGAAGAACTGATTGCCGGTAACCGCAC -CGTAAAACCGCGCGCCGGGATTATGTCGCCGGAAATGGACCCTTACTGGCTGCTGAAAGAGCTGGATCAATTCCCGACGC -GTCCGCAGGACCGCTTTGCTATCAGCGAAGAAGATAAACGTATCTACCGTGAAGAGTTGTTCCCGTACTGGGAAAAACGT -TCGATGAAAGATTTCATCAACGGGCAGATGACAGATGAAGTAAAAGCCGCGACCAACACGCAGATTTTCAGCATCAACCA -GACGGATAAAGGCCAGGGGCACATTATTATTGATTACCCACGCCTGTTGAATCACGGGCTGGGTGAGCTGGTGGCACAGA -TGCAGCAACATTGTCAGCAACAGCCGGAGAATCACTTTTATCAGGCCGCGTTGTTACTGCTGGAAGCCTCGCAGAAACAC -ATTTTGCGTTACGCCGAACTGGCGGAAACGATGGCGGCAAACTGCACAGATGCCCAGCGTCGCGAAGAGCTGCTGACTAT -TGCAGAGATCTCCCGCCATAACGCGCAACATAAGCCGCAGACGTTCTGGCAGGCGTGCCAGTTATTCTGGTACATGAACA -TCATTCTGCAATACGAATCCAACGCCAGTTCGCTATCGTTGGGGCGCTTCGACCAGTATATGTTGCCGTTCTATCAGACA -TCATTAACCCAGGGCGAAGATGCGGCGTTCCTGAAAGAACTGCTCGAATCTTTATGGGTGAAATGCAACGACATCGTGCT -GTTGCGCTCCACCAGTAGCGCGCGTTATTTCGCCGGTTTCCCGACCGGCTATACCGCACTGCTCGGCGGGTTAACCGAGA -ACGGACGTAGCGCGGTGAACGTGCTTTCGTTCCTTTGCCTTGACGCCTATCAAAGCGTGCAATTACCGCAACCGAACCTC -GGCGTGCGCACTAACGCCTTGATCGACACGCCGTTCCTGATGAAAACCGCCGAAACCATTCGCTTCGGTACCGGTATTCC -GCAAATCTTTAACGATGAAGTGGTGGTGCCAGCGTTCCTCAACCGTGGCGTTTCGCTGGAAGATGCGCGCGACTATTCCG -TAGTGGGCTGTGTGGAATTATCTATTCCCGGCAGAACCTACGGCTTGCATGACATCGCGATGTTTAATCTGCTGAAAGTG -ATGGAAATCTGCCTGCATGAAAATGAAGGCAATGCTGCGCTGACTTATGAAGGTTTACTGGAGCAGATCCGCGCCAAGAT -CAGCCACTACATCACCCTGATGGTTGAGGGCAGCAATATTTGTGATATCGGCCATCGCGACTGGGCACCTGTACCGCTGC -TCTCATCGTTTATCAGCGATTGTCTGGAAAAAGGCCGCGATATTACCGATGGCGGCGCGCGTTATAACTTCTCCGGCGTA -CAGGGGATCGGTATCGCCAACCTGAGCGATTCTCTCCATGCGTTGAAAGGGATGGTTTTTGAGCAACAGCGTTTAAGTTT -TGACGAATTGCTGTCGGTATTAAAAGCCAACTTCGCAACGCCAGAAGGCGAAAAAGTCCGCGCTCGCTTAATTAACCGCT -TCGAGAAATACGGTAACGATATCGACGAGGTGGATAACATCAGCGCCGAACTGTTGCGCCACTACTGCAAAGAAGTGGAA -AAATACCAGAACCCGCGCGGCGGCTACTTCACGCCGGGATCGTATACCGTTTCTGCTCACGTCCCGTTGGGATCGGTGGT -TGGCGCGACGCCAGACGGTCGTTTTGCCGGAGAACAGCTGGCAGACGGCGGCTTGTCACCCATGCTGGGCCAGGACGCAC -AAGGGCCAACAGCGGTACTGAAGTCAGTCAGTAAGCTCGATAACACGCTGCTGTCTAACGGTACGTTGCTGAACGTGAAA -TTCACTCCGGCGACCCTGGAAGGTGAAGCAGGATTACGCAAACTGGCCGACTTCTTACGGGCGTTTACCCAGCTTAAGTT -ACAACATATTCAGTTTAACGTGGTGAACGCCGACACGTTGCGGGAAGCGCAACAGCGCCCACAAGATTATGCCGGGCTGG -TGGTGCGCGTTGCCGGATACAGCGCCTTCTTTGTCGAACTGTCGAAGGAGATCCAGGATGACATCATCCGCCGGACAGCG -CATCAGCTGTAACGTTGTGGAAACGCGCCGCGATGATGTGGCGCGCATTTTCAACATTCAGCGTTATTCACTGAATGACG -GCGAGGGCATTCGTACGGTGGTCTTTTTTAAAGGCTGTCCGCATCTTTGCCCGTGGTGTGCTAATCCGGAGTCGATCTCC -GGCAAAATCCAGACGGTACGCAGAGAGGCGAAATGTCTGCACTGTGCGAAATGTTTGCGTGATGCGGATGAATGCCCCTC -CGGGGCGTTTGAACGGATTGGTCGCGATATCAGCCTTGACGCTCTGGAACGGGAAGTGATGAAAGATGACATTTTCTTTC -GCACGTCCGGCGGCGGCGTCACGCTTTCTGGCGGCGAAGTGTTAATGCAGGCGGAGTTTGCTACCCGTTTTTTACAGCGA -CTGCGGCTGTGGGGTGTGTCATGCGCCATTGAAACTGCCGGAGACGCACCAGCCAGCAAGCTATTACCGCTGGCGAAATT -GTGCGATGAAGTGTTGTTCGATTTAAAAATTATGGACGCGACTCAGGCGCGGGATGTGGTGAAGATGAACCTGCCACGCG -TGCTGGAGAATCTGCGTTTGCTGGTGAGTGAGGGCGTCAACGTGATCCCGCGTTTACCGCTGATCCCTGGTTTCACGCTC -AGCCGGGAGAATATGCAGCAGGCGCTGGATGTACTGATCCCGCTGAATATCAGGCAGATCCATCTGTTACCGTTTCATCA -GTACGGCGAACCGAAATACCGCCTGCTGGGGAAAACATGGTCGATGAAAGAGGTGCCTGCGCCGTCGTCAGCTGATGTGG -CAACGATGCGCGAAATGGCAGAACGGGCCGGACTTCAGGTTACCGTGGGAGGTTAAAATGGCATACCTGGTGGCAGTAAC -CGCCTGCGTAAGCGGCGTGGCGCATACTTATATGGCGGCGGAACGGCTGGAAAAGTTGTGCCTGTTAGAGAAGTGGGGAG -TCAGCATTGAAACTCAGGGCGCGCTGGGAACGGAGAATCGTTTAGCGGATGAGGATATCCGCCGGGCGGATGTTGCTCTG -TTGATTACGGATATCGAGCTTGCCGGTGCCGAGCGATTTGAACATTGCCGCTATGTGCAATGCAGCATCTACGCATTCCT -GCGTGAGCCGCAGCGGGTAATGAGCGCGGTGCGCAAAGTGCTTTCTGCGCCGCAGCAAACCCATCTTATTCTGGAGTAGT -CGGTTTTTCTGTCAGTTGGCTGTGGTACTGCCGGCGATATTCCGACGGCGAGCGTTCGGTGTTTTTACGAAACAGACGGC -AGAAGTAGTTGCTGTCGACAAAGCCGCAGGCGTGCGCCACTTCTTTTACCTTCAGGTCATAGCCTTTCAATAACGTCTTA -GCGTGCTCCAGTCGCGTGTGATTCAGGTATTCGTTAAAACCAATGGCCCCCGTTTTTTGAAACAGGTGCGAGAGGTAATT -TGGCGAAATATAAAACGCCTGTGCAACAGATTCGCGGGTAAGCGCGGAGGCATAGCGTTCGTCGATATAATCGCGAATAG -CTTCAAATAGTGCCTGGCTGCGTGAGGCGGTCTGGATTTGGCTGCCAAGCAAATCGCGGCAGTGGCTAAGCAGGCTGGCG -ACGATAAGCCTTGCCGTTTGCTGCTCCTGCGGCTGCATTTGCATTTCATTGAGCGTTTGTAGCAGAAAAGAACCTATGCG -TGGGCCGCGTCGGGCGACGTGTTGCTTCGCCAGATTTTGATATTGTTTGCCATCCCATTGCACGACGCTGAAGCCGAGTT -GCTGTTTGCCAAACAGCACGCTAAAGGTAGTAGCGGGGGCTTGCCATTGTGGAAAATTCCAGCCACCAGCAGGAACGTAC -AGCACATCGCCGGGAACTAACGTTGCTCCAGCGCCGGTATCAACAAACTCACCTTCCAGCACAATTTCCAGCCGTGGAAA -ATCGACCTGATACGCAAGATCGGGCACCGGGCCGTTACTGCTGGCAAAGTAAATCTGGCGCAGGGACAGCGGGCCGTTGA -TCAGGCGGGAGAGCAGATAGCTGACGTCGTGATACATGTTATTCCCTTAGGTATGTAGACGGGAAAACAGTAACTGGCAT -TATTAAAAAAGGCCACCTGAAAAGTGTGGCCTGAGGGGAGTTCGATGTAAACATTGCGGCAGTTGTATTGCCGGATGTGG -CGTAAACGCCTTATCCAGCCTACCGCCGCGATCTGTAGGCCGGATAAGACGCGTCAAGCGTCGCATCCGGCAAATAGCGC -CTGGCTGATAATTACTGATTACCCACCTGATCGCCATAGGGCAGTGTGTCGTAATCGATCAGTGCGTTTTTCTTATACGG -GTTACCAATCCAGCGGGTAGTTTCTTTGAACTGCGGATTCACCACTGAACGGGTTGGATCGTAACCGTCGTAAGATAAGC -CCGCCAAATCTGACCAGGTGTGGATCAGTTCCGCCAGGCTGTATTTACGATCAACATCCTGCGAGAAATCACGGGGATGA -GTCGCTTGCCATTTTTCTGACGTCCACAGCAGGAACGGAATGGTGTACATATGACGCGTCGGGTTGTCCTCATTACGCCC -CTGAGTTTTGTGCGGCGGCGTGTCGTAAACCTCTTCACCGTGGTCAGAGAAATAAACCAGGAAACCGTTCGGGTTTGCTG -CTTTAAAGTCTTTAATCAGGCTGGCAACCACATGATCGTTATACAGGTTAGCGTTGTCATAATCGTTATATGACTCCAGC -TCTTCCGCGTTTAATCCCGGCGGAACATGATCGGTATTGCCATCAAACTTGCCCTGATTTTCCGGGTAGCGGTATTTGTA -TTTGATATGCGTACCCAGCAGATGAACAATGATCAGTTTCTTCGGCGCAGGGTCATTCAGCACTTCCTGGAACGGCTTCA -GCACGTTGGTGTCGTATTCACGCGCACTCTGCGTACGTTGCTGGTTCATGTAGTACTGCTTGTCGGTCTGGCGCGAAAAT -ACCGTCAGCATGGTATTGCGGGCGGTCATCGTCTGCTGGTTGGTGATCCAGAAGGTTTTATAACCCGCCTGTTTCATCAT -GTTCATCAGCGACGGCTGCGTCAGATACAGATCCGGGTTCTTTTCATTGGCAAAGGTCAGCGCCTGTTGCAGGATTTCAA -TGGTGTACGGACGAGACGTAACTACGTTATTAAACACGGTCAGATTCGGATCGGTTTTATGCAGCGCATCCAGCTCCGGC -GTGGTTTCACGCGGATAACCGTACAGACTCATGCGTCCGCGCTGGGTCGACTCGCCAATCACCAGCACTAAAGTGCGCGG -TTCGTTACCCGATTCATCTTTGAAATTAGCCAGTGGCGGCAAGGCATTATTTTCATTCAGTAACTTTGTTAGCGAGTTTA -GTTGCTGACGATACTGATAATAGCCGGTCAGGAATTGCCACGGTGCGGCAGGCTCCATACGCGAGGCCAGGTTATCCAAC -GTTTTCTCAAACGGCTTGTTTTTGATAAACGTATTCATGGCGATCGGATGCAGAATCAAGCCATAAAGCAGGGCAAAAGA -GACAACATAACGCCACGGCTTTGGAATATAGACCGGGCGCAGGCGTGTCCACAGCAGAACTGCCACCGCCGTATAGGCCA -GCGCGATAAGCACAATTTTCAGGCTGAAATACTGGCTTAAATACTCGCTGGCTTCGTTGGTGTTGGTTTCGAACATCACA -AACAGAACGCTCTGCGAGAACTCCTGACCGTAGATGACGTAGTAGCACAGCGCCGCCAGAGAGGCCGCCCATAGCACCAC -GCCGATTACTGCGGCAATAATTTTAATCCGCTTCGGAAAGAGGAATACCGGGATCAACCACAGCGAACTGAATAACAGCG -AGTCGCGAATGCCGTTAGTGCCACTATAACCACTGATGTAAATAATGGCCTGTAGCAGAGTAGAGAAAAACCAAAAGTAG -AGCAGTGCCCAACCCAGGGCTTTCCAGCTAAAAAGAGGTTTAGCCTGGACTTCTGTGGAATGCATAGTAAGAACCTGTCT -TGAAAAAATATCGCCGAATGTAACGACAATTCCTTAAGGATATCTGAAGGTATATTCAGAATTTGAATAAAATGCAGACA -GAAATATATTGAAAACGAGGGTGTTAGAACAGAAGTATTTCAGAAAACCCTCGCGCAAAAGCACGAGGGTTTGCAGAAGA -GGAAGATTAGCCGGTATTACGCATACCTGCCGCAATCCCGGCAATAGTGACCATTAACGCTTGTTCGACGCGAGGATCCG -GTTCCTGGCCTTCTTTTTCTGCCTGGCGGGAGCGGTGCAGCAACTCGGCCTGCAATACGTTCAGCGGGTCGGTGTAAATA -TTCCGTAGCTGAATAGACTCTGCAATCCACGGCAGATCGGCCATCAGATGGGAATCGTTGGCAATCGCCAGCACCACTTT -GATGTCTTCTTCTTGCAGGTTGCGTAACTCTTTACCTAACGGCCACAGTGCTTTGTCTACCAGGCGTTGGTCATAGTATT -CCGCCAGCCACAGGTCTGCTTTGGCGAAGACCATCTCCAGCATGCCGAGACGCGTCGAGAAGAATGGCCAATCGCGGCAC -ATAGCCTCCAGCTCGCTCTGTTTGCCGTCTTCGACCACTTTTTGCAGCGCCGTACCTGCACCCAGCCAGGCGGGGAGCAT -CAGACGGTTTTGCGTCCAGGCGAAGATCCACGGAATGGCGCGTAGTGACTCGACGCCGCCGGTTGGGCGACGTTTCGCCG -GACGTGAACCCAACGGCAGTTTGCCCAGTTCTTGTTCCGGCGTAGCGGAGCGGAAGTAAGGCACAAAATCTTTGTTTTCA -CGTACGTAGCCGCGGTAGACATCGCAGGAGATGACTGACAGTTCATCCATAATGCGACGCCAGCTCTCTTTCGGCTCCGG -CGGTGGCAGCAGGTTGGCTTCCAGAATCGCCCCGGTATAAAGCGACAGGCTGCTGACGGTGATTTCTGGCAGACCATATT -TAAAGCGGATCATCTCGCCCTGTTCGGTTACGCGCAGGCCGCCTTTCAGGCTTCCTGGCGGTTGTGACAGCAGCGCCGCA -TGAGCAGGTGCGCCGCCGCGACCAATGGAACCGCCGCGACCGTGGAACAACGTCAGCTCAATACCCGCTTTTTCGCAGGT -TTTGATTAATGCATCCTGTGCCTGATATTGCGCCCAGGAAGCTGCCATCACTCCCGCATCTTTTGCTGAGTCGGAATAGC -CAATCATCACCATCTGTTTGCCCTGAATCAGGCCACGATACCAGTCAATATTGAGCAGCTGGGTCATGACATCGTTGGCG -TTGTTCAGATCATCGAGGGTTTCAAACAGCGGAGCAACCGGCATCGCAAACCCGATACCCGCTTCTTTCAGCAGCAGGTG -GACAGCCAGTACGTCGGACGGCGTTTTCGCCATCGAGATCACGTAGGCGGCAATGGAGCCTTGCGGTGCTTCGGCAATCA -CCTGGCAGGTATCGAGCACTTCGCGCGTTTCGGCGCTTGGTTGCCAGTTGCGCGGCAGAAGCGGACGTTTGGAGTTCAGT -TCGCGGATCAGGAACGCCTGTTTGTCGGCCTCTGACCAGCTTTCGTAGTCGCCGATACCGAGGTAGCGGGTCAGCTCGCC -CAGCGCTTCGGTATGACGCGTGCTCTCCTGACGGATATCAATACGGACCAGCGGTACGCCGAAACATTTCACGCGGCGCA -GGGTGTCGAGCAGATCGCCGTTGGCGATAATACCCATGCCACACGCCTGAAGTGACTGGTAGCAAGCGTAGAGCGGTTCC -CACAGTTCTTCGTTTTGTGTCAGCAGGCCTTCTGGTTTTGGCAGTTCTTCGCCTTTCAGGCGCGCTTCCAGCCATGCCTG -TGTCGCCATCAGGCGAGAACGCAGGTTTTTCATCAGATAGCGATACGGTTCTGCGGCACCTTCTTCGCCAACCAGCGCCA -GCAGTTCAGGGGTCGCTTCAACCATCGACAGTTCAGAAACCAGCACCTGAATATCTTTCAGGAACAAATCGGTGGCTTTC -CAGCGGCTGAGTAGCAGGACGTGGCGGGTGATATCGGCAGTGACGTTCGGGTTGCCGTCGCGGTCGCCGCCCATCCACGA -AGTAAAACGGACCGGAACAAATTCGACGGGCAGTTTGTAGCCGAGGTTCTCTTCCAGTTGTTCGTTCAGTTCGCGCAGGT -AATTTGGTACGCCTTGCCACAGGCTGTTTTCCACTACGGCAAAGCCCCATTTGGCTTCATCTACCGGGCTTGGACGCAGC -TTACGGATTTCATCGGTATGCCATGACTGGGCGATCAACTGGCGCAGGCGACGCATCAGCTGGTTGTGTTCGTAGTCAGC -GATATCTTTGTTATCGAGCTGTTTTAAACAGGCGTTCACTTCCACCATTTTGTGGATCAGTGTACGACGGGTAATTTCGG -TTGGGTGAGCCGTGAGGACCAGTTCCAGCGACAGCGATTCCACTGCTTTTTTGATGGTGTCTTCGCTCAGTTCCGGCTGG -TTTTTCAGTTTACGCAGGGTGCGGGCGATCACTTCCGGGTTGCTGGCAGCTTCGCCTTTCGGCGAAATGCTGTGGTATTG -CTCGGCGGTGTTGGCCAGGTTCAGGAACTGACTAAACGCACGCGCAACGGGCAGCAGCTCGTCGTTCGACAAATTTTGTA -AGGTGGTGAGCAACTCCTGGCGGTTAGCATCATTGCCAGCGCGTGAAGATTTCGACAACTTACGGATAGTTTCTACGCGT -TCAAGAATGTGTTCTCCCAACGCATCCTTGATGGTTTCTCCCAGCACTTTGCCGAGCATACTGACATTACTACGCAATGC -GGAATATTGTTCGTTCATATTACCCCAGACACCCCATCTTATCGTTTGATAGCCCTGTATCCTTCACGTCGCATTGGCGC -GAATATGCTCGGGCTTTGCTTTTCGTCGTCTTTTATAAAGCCACGTAAAAGCGGTGACGTCAAATGCTGCGAAATCGCTT -CAGCAAACGAATAAATAGCAGGAATTTACGTCATTAAATTCACGACGCTTTAAATAAGCGTAACTTATGGAAATGTTAAA -AAATCGCCCCAAGTAACACCAAAGGTGTAGGTCGGATAAGATGCGCAAGTATCGCATCCGACATTATTGCGGCACTGGAG -TTTGGCAACAGTGCCGGATGCGGCGCGAGCGCCTTATCCGGCCTACAGTTGGGCATCGTTTGAGTCACTGTCGGTCGGAT -AAGATGCGCAAGTATCGCATCCGACATTATTGCGGCACTGGAGTTTGGCAACAGTGCCGGATGCGGCGCGAGCGCCTTAT -CCGGCCTACGGTTGGGCATCGTTTGAGTCACTGTAGGTCGGATAAGATGCGCAAGCATCGCATCCGACATTATTGCGGCA -CTGGAGTTTGGCAACAGCGCCGGATGCGGCGCGAGCGCCTTATCCGGCCTACGTTTTAATGCCAGCAAAAATGGTGAATT -ACCTGGGTTATCAGTTCGCGGGTGGGCTTGATAAACCGTGTTTCCAGATATTCATCAGGTTGATGAGCCTGATTAATTGA -GCCAGGCCCCAACACCAGCGTCGGGCATAACGTTTGAATAAACGGCGCTTCGGTACAGTAGTTCACCACTTCGGTTTTTG -CTCCGAGCAATTTCTCAACCACTTCAACCAGTTGATGATTCGGTGGGCATTCATAGCCAGGGATCGGCGGATGCAGCTCG -TCGACCGTCAGACGACCCGGCCAGCGTTCGCTCACCGGAGCCAATGCATCGTTGAGCAAACCATTAAGTTCATTGAGTGT -CATGCCAGGCAGCGGACGAATATCCATATGCAACTCACAGCAAGCGCAAATACGGTTAGAAGCGTCGCCACCGTGAATAT -GCCCGAGGTTGAGCGTAGGGTATGGCACGGTAAACGCTTCGTAGTGATAACGTTCTTTCAGGTTATCGCGCAATTGCAAA -ATATGCCCGATGGCGTCGTGCATTAGTTCGATAGCGTTAACTCCGCGTGCTGGATCGCTGGAGTGCCCCGACTGGCCCTG -AATACGGATGGCGTTAGAGATATGACCTTTATGTGCGCGTACCGGTTGTAGTGACGTCGGTTCGCCAATGATGGCGCAAT -CCGGGCGCAGGGCGGTAGTTTCGGCAAAATAACGCGCTCCGGCCATACTGGTTTCTTCATCAGCAGTCGCCAGAATGTAG -AGCGGTTTTTTCAGTTTCGTGACGTCGACATCGCGTAGCGCATCAAGGATAAACGCAAAAAAGCCTTTCATGTCGGCGGT -GCCTAAGCCGTAAAGCTTGCCGTCATGCTCCGTCAGTGTAAACGGATCGCGCGTCCAGCGACCGTCATCAAATGGCACCG -TATCGGTATGCCCCGCCAGCAACAAGCCGCCAGCCCCCTGTCCGATACTTGCCAGCATATTGAATTTGTTGCGAGTTCCT -GGAACAGGCTGCACTTCCACATTGAAGCCCAAATCTTTAAACCAGTCCGCCAGCAGAGTGATTAAATCTGCATTGCTTTG -ATCGAGTGCCTCTTCCGTGGCGCTTATTGAAGGTGTGGCAATCAGAGCGCGGTAAATCTCGATAAATGGCGGTAATTTGT -TTTTCATTGTTGACACACCTCTGGTCATGATAGTATCAATATTCATGCAGTATTTATGAATAAAAATACACTAACGTTGA -GCGTAATAAAACCCACCAGCCGTAAGGTGAATGTTTTACGTTTAACCTGGCAACCAGACATAAGAAGGTGAATAGCCCCG -ATGTTGAATACGCTGATTGTGGGTGCCAGCGGCTACGCTGGCGCAGAGCTAGTGACCTATGTAAATCGCCATCCGCATAT -GAACATAACCGCTTTGACTGTTTCAGCGCAAAGCAATGATGCGGGAAAGTTAATCTCCGATTTGCATCCGCAGCTAAAAG -GCATCGTTGATCTGCCGTTGCAGCCGATGTCGGATATCAGCGAGTTTAGCCCAGGGGTGGACGTAGTGTTTCTCGCCACC -GCCCATGAAGTTAGCCACGATTTAGCGCCGCAGTTTCTTGAAGCGGGCTGCGTGGTGTTCGACCTTTCCGGCGCGTTTCG -TGTTAACGACGCCACCTTCTATGAAAAATATTACGGCTTTACCCATCAATACCCGGAACTGTTGGAACAGGCAGCCTACG -GTCTGGCGGAGTGGTGCGGTAATAAATTAAAAGAAGCGAATTTGATTGCGGTGCCGGGCTGTTATCCGACGGCGGCACAG -CTGGCGCTGAAACCGTTGATTGATGCCGATCTTCTTGACCTCAATCAGTGGCCGGTGATCAACGCCACCAGCGGCGTGAG -CGGTGCAGGGCGTAAAGCGGCCATTTCAAACAGCTTTTGTGAAGTTAGCCTGCAACCGTATGGCGTCTTTACTCATCGCC -ATCAACCAGAGATCGCCACACACCTCGGTGCTGACGTTATCTTCACCCCACATCTGGGCAATTTCCCGCGCGGCATTCTC -GAAACCATTACCTGCCGCCTGAAATCGGGTGTGACCCAGGCGCAAGTCGCGCAAGTGTTACAGCAGGCGTATGCCCATAA -ACCGCTGGTGCGGCTGTATGACAAAGGCGTTCCGGCGCTGAAAAATGTCGTTGGGCTGCCATTTTGCGATATCGGGTTTG -CCGTTCAGGGCGAGCATCTGATTATTGTGGCGACCGAAGACAACTTACTGAAAGGCGCGGCGGCACAAGCGGTACAGTGC -GCCAATATTCGTTTCGGCTATGCGGAAACGCAGTCTCTTATTTAAGGGTGCAATGATGAATCCATTAATTATCAAACTGG -GCGGCGTACTGCTGGATAGTGAAGAGGCGCTGGAACGTCTGTTTAGCGCACTGGTGAATTATCGTGAGTCACATCAGCGT -CCGCTGGTGATTGTGCACGGCGGCGGTTGCGTGGTGGATGAGCTGATGAAAGGGCTGAATCTGCCGGTGAAAAAGAAAAA -CGGCCTGCGGGTGACGCCTGCTGATCAGATAGACATTATCACCGGAGCACTGGCGGGAACGGCAAATAAAACCCTGTTGG -CATGGGCGAAGAAACATCAGATTGCGGCCGTAGGTTTGTTTCTCGGTGACGGCGACAGCGTCAAAGTGACCCAGCTTGAT -GAAGAGTTAGGTCATGTTGGACTGGCGCAGCCAGGTTCGCCTAAGCTTATCAACTCCTTGCTGGAGAACGGTTATCTGCC -GGTGGTCAGCTCCATTGGCGTAACAGACGAAGGGCAACTGATGAACGTCAATGCCGACCAGGCGGCAACGGCGCTGGCGG -CAACGCTGGGCGCGGATCTGATTTTGCTCTCCGACGTCAGCGGCATTCTCGACGGCAAAGGGCAACGCATTGCCGAAATG -ACCGCCGCGAAAGCAGAACAACTGATTGAGCAGGGCATTATTACTGACGGCATGATAGTGAAAGTGAACGCGGCGCTGGA -TGCGGCCCGCACGCTGGGCCGTCCGGTAGATATCGCCTCCTGGCGTCATGCGGAGCAGCTTCCGGCACTGTTTAACGGTA -TGCCGATGGGTACGCGGATTTTAGCTTAAGTTTTGTTGGCCGGAGGCGCAGCTTTCCGGCATTGAATTTCAAAATAAGGA -AACAGAGTTATGGCACTTTGGGGCGGGCGTTTTACCCAGGCAGCAGATCAACGGTTCAAACAATTCAACGACTCACTGCG -CTTTGATTACCGTCTGGCGGAGCAGGATATTGTTGGCTCTGTGGCCTGGTCCAAAGCCCTGGTCACGGTAGGCGTGTTAA -CCGCAGAAGAGCAGGCGCAACTGGAAGAGGCGCTGAACGTGTTGCTGGAAGATGTTCGCGCCAGGCCACAACAAATCCTT -GAAAGCGACGCCGAAGATATCCATAGCTGGGTGGAAGGCAAACTGATCGACAAAGTGGGCCAGTTAGGCAAAAAGCTGCA -TACCGGGCGTAGCCGTAATGATCAGGTAGCGACTGACCTGAAACTGTGGTGCAAAGATACCGTTAGCGAGTTACTGACGG -CTAACCGGCAGCTGCAATCGGCGCTGGTGGAAACCGCACAAAACAATCAGGACGCGGTAATGCCAGGTTACACTCACCTG -CAACGCGCCCAGCCGGTGACGTTCGCGCACTGGTGCCTGGCCTATGTTGAGATGCTGGCGCGTGATGAAAGCCGTTTGCA -GGATGCGCTTAAGCGTCTGGATGTCAGCCCGCTAGGCTGTGGCGCGCTGGCGGGAACGGCCTATGAAATCGACCGTGAAC -AGTTAGCAGGCTGGCTGGGCTTTGCTTCGGCGACCCGTAACAGTCTCGACAGCGTTTCTGACCGTGACCATGTGTTGGAA -CTGCTTTCTGCTGCCGCTATCGGCATGGTGCATCTGTCGCGTTTTGCTGAAGATCTGATTTTCTTTAACACCGGCGAAGC -GGGGTTTGTGGAGCTTTCTGACCGCGTGACTTCCGGTTCATCATTAATGCCGCAGAAGAAAAACCCGGATGCGCTGGAGC -TGATTCGCGGTAAATGCGGCCGGGTGCAGGGGGCGTTAACCGGCATGATGATGACGCTGAAAGGTTTGCCGCTGGCTTAC -AACAAAGATATGCAGGAAGACAAAGAAGGTCTGTTCGACGCGCTCGATACCTGGCTGGACTGCCTGCATATGGCGGCGCT -GGTGCTGGACGGCATTCAGGTGAAACGTCCACGTTGCCAGGAAGCGGCTCAGCAGGGTTACGCCAACGCCACCGAACTGG -CGGATTATCTGGTGGCGAAAGGCGTACCGTTCCGCGAGGCGCACCATATTGTTGGTGAAGCGGTGGTGGAAGCCATTCGT -CAGGGCAAACCGCTGGAAGATCTGCCGCTCAGTGAGTTGCAGAAATTCAGTCAGGTGATTGACGAAGATGTCTATCCGAT -TCTGTCGCTGCAATCGTGCCTCGACAAGCGTGCGGCAAAAGGCGGCGTCTCACCGCAGCAGGTGGCGCAGGCGATTGCTT -TTGCGCAGGCTCGGTTAGGGTAAGAACATTTATATGTATAAATTTGAGCCTGGCTTATCGCCGGGCTTTTTTATGGCAAA -AAAAAGCGGATCCTGGAGATCCGCAAAAGTTCACGTTGGCTTTAGTTATTCGAGTTGAGAAACTCTCGAAACGGGCAGTG -ACTTCAAGGGTTAAAAGAGGTGCCGCTCCGTTTCTGTGAGCAATTATCAGTCAGAATGCTTGATAGGGATAATCGTTCAT -TGCTATTCTACCTATCGCCATGAACTATCGTGGCGATGGAGGATGGATAATGAATATTCGTGATCTTGAGTACCTGGTGG -CATTGGCTGAACACCGCCATTTTCGGCGTGCGGCAGATTCCTGCCACGTTAGCCAGCCGACGCTTAGCGGGCAAATTCGT -AAGCTGGAAGATGAGCTGGGCGTGATGTTGCTGGAGCGGACCAGCCGTAAAGTGTTGTTCACCCAGGCGGGAATGCTGCT -GGTGGATCAGGCGCGTACCGTGCTGCGTGAGGTGAAAGTCCTTAAAGAGATGGCAAGCCAGCAGGGCGAGACGATGTCCG -GACCGCTGCACATTGGTTTGATTCCCACAGTTGGACCGTACCTGCTACCGCATATTATCCCTATGCTGCACCAGACCTTT -CCAAAGCTGGAAATGTATCTGCATGAAGCACAGACCCACCAGTTACTGGCGCAACTGGACAGCGGCAAACTCGATTGCGT -GATCCTCGCGCTGGTGAAAGAGAGCGAAGCATTCATTGAAGTGCCGTTGTTTGATGAGCCAATGTTGCTGGCTATCTATG -AAGATCACCCGTGGGCGAACCGCGAATGCGTACCGATGGCCGATCTGGCAGGGGAAAAACTGCTGATGCTGGAAGATGGT -CACTGTTTGCGCGATCAGGCAATGGGTTTCTGTTTTGAAGCCGGGGCGGATGAAGATACACACTTCCGCGCGACCAGCCT -GGAAACTCTGCGCAACATGGTGGCGGCAGGTAGCGGGATCACTTTACTGCCAGCGCTGGCTGTGCCGCCGGAGCGCAAAC -GCGATGGGGTTGTTTATCTGCCGTGCATTAAGCCGGAACCACGCCGCACTATTGGCCTGGTTTATCGTCCTGGCTCACCG -CTGCGCAGCCGCTATGAGCAGCTGGCAGAGGCCATCCGCGCAAGAATGGATGGCCATTTCGATAAAGTTTTAAAACAGGC -GGTTTAAACCGTTTAACGCAGCTACCCGATAGGCTTCCGCCATCGTCGGGTAGTTAAAGGTGGTGTTGACGAAGTACTCA -ATAGTGTTGCCGCCACCTTTCTGTTCCATAATCGCCTGACCGATATGAATAATTTCGGCAGCGCGCTCGCCAAAGCAGTG -AATACCCAGAATCTCTTTTGTTTCCCGATGGAACAAAATTTTCAGCGTGCCCACGTTCATGCCGACGATTTGTGCGCGTG -CCAGATGTTTAAACTGGGCGCGGCCCACTTCATATGGCACTTTCATTGCGGTCAGCTGCTGTTCGGTTTTGCCCACAGAG -CTGATTTCCGGGATGGTGTAAATACCGGTAGGGATATCTTCAATCAGATGTGCGGTGGCTTCGCCTTTTACCAGCGCCTG -CGCGGCAATGCGCCCCTGGTCATAGGCCGCCGACGCCAGGCTCGGATAACCAATCACGTCGCCCACCGCGTAAACGTGTG -GCTGTGCGGTCTGATACATGCTGTTGACCTTCAGCTGTCCGCGGCTGTCAGTTTCTAGCCCAATGTTCTGTAACGCCAGC -GAATCGGTATTACCGGTGCGACCGTTGGCATAGAGCAGGCAGTCAGCTTTCAGTTTTTTACCCGACTTCAGATGCATGAT -CACACCATCGTCACAGCCTTCGATCTTCTCGTACTCTTCGTTGTGACGAATCACTACGCCACTGTTCCAGAAGTGATAGG -AGAGAGAATCTGACATCTCTTGATCGAGAAATGCCAGCAGGCGATCGCGGGTGTTGATCAGATCCACTTTTACATCCATA -CCGCGGAAGATCGACGCATATTCACAGCCGATCACTCCAGCACCATAGATAAGTACATGGCGCGGTTCGTGGTGCATGCT -GAGAATTGAGTCGCTGTCGTAAATGCGTGGATGGGTGAAATCAACATCTGTTGGATGATATGGACGAGAGCCGCAGGCAA -TAACAAATTTTTCAGCGGTTAGTGTTTCAACGCTGCCGTCCGGGCAATCCAGCGCCAACGTATGCTCGTCAACAAAGCGA -GCGTTTCCCTGCAATATTTCACAGTGATTACGTTCGTAAAATCCCTGACGCATGCGCGTTTGTTGATTAATCACGTTATC -GGCATGGTTAAGGATATCGGCAAAAGAAGAGCGGAGCAGTCGGGAATGGTCGCTGTAAAGTGGGTTTTGATTGAATTCTA -TAATGCGGCTGACGGCGTGACGGAGAGCTTTCGACGGGATGGTGCCCCAGTGGGTGCAACCGCCGCCAACATTTTGATAA -CGCTCGATAACTGCGACGCGCGCACCTTGCTTAACCAGGCCCATTGCAGCGCCTTCGCCGCCGGGGCCGGAACCTATTAC -TATGGCATCGTAATCGTAGGAATGTGGCATGGTAGGGCTTACCTGTTCTTATACATAAAAGCAACAGAATGGTAACATTT -TATCGCGGGTAAGCCAATTGATCCCCGTCATTTATCTGGCTATATCCTGAGCGGCCTTTGCTTTGTCTGTTTCTTACTTT -TGCCCTGACGTTTTATTGGATTTTTATCGACGATACTCTCCGTTTAAGCGGCAGGTTTCCGCTGTACGTAAAAGAACCGG -CCAAAGAATTGCAGTAAATATGTTTTATTGCGTTACCGTTCATTCACAATACTGGAGCAATCCAGTATGTTCATTCTCTG -GTATAGTGCCAGCAGTACTTTTGGCAAGGATTCAGACATCGTGATGGGCGTAAGAGCGCAACAAAAAGAAAAAACCCGCC -GTTCGCTGGTGGAAGCCGCATTTAGCCAATTAAGTGCTGAACGCAGCTTCGCCAGCCTGAGTTTGCGTGAAGTGGCGCGT -GAAGCGGGCATTGCTCCCACCTCTTTTTATCGGCATTTCCGCGACGTAGACGAACTGGGTCTGACCATGGTTGATGAGAG -CGGTTTAATGCTACGCCAACTCATGCGCCAGGCGCGTCAGCGTATCGCCAAAGGCGGGAGTGTGATCCGCACCTCGGTCT -CCACATTTATGGAGTTCATCGGTAATAATCCTAACGCCTTCCGGTTATTATTGCGGGAACGCTCCGGCACCTCCGCTGCG -TTTCGTGCCGCCGTTGCGCGTGAAATTCAGCACTTCATTGCGGAACTTGCGGACTATCTGGAACTCGAAAACCATATGCC -GCGTGCGTTTACTGAAGCGCAAGCCGAAGCAATGGTGACAATTGTCTTCAGTGCGGGTGCCGAGGCGTTGGACGTCGGCG -TCGAACAACGTCGGCAATTAGAAGAGCGACTGGTACTGCAACTGCGAATGATTTCGAAAGGGGCTTATTACTGGTATCGC -CGTGAACAAGAGAAAACCGCAATTATTCCGGGAAATGTGAAGGACGAGTAATGAAACAAGCAAATCAAGATAGAGGTACG -CTGCTGCTGGCGTTAGTTGCTGGCTTATCGATTAATGGTACTTTCGCAGCGCTGTTTAGCTCCATTGTGCCATTTTCTGT -ATTCCCGATTATTTCCCTGGTGCTGACGGTTTACTGCCTGCATCAACGTTATCTTAATCGCACTATGCCGGTAGGCTTGC -CGGGTCTGGCAGCTGCCTGTTTTATTCTCGGCGTACTGCTGTACAGCACGGTAGTTCGTGCGGAATATCCGGATATCGGC -TCTAACTTCTTCCCGGCAGTACTCTCCGTCATTATGGTGTTCTGGATTGGCGCGAAGATGCGTAACCGTAAGCAGGAAGT -TGCTGAGTAATCGGTATTATGCCGGATGCTGGCGCATCCGGCATGGGTTTTACTTCGCGGTCAGTAATACGCCGCACTCC -ATATGGTGCGTGTAGGGGAACTGATCAAACAGAGCCAGACGTTCGACCTTGTGCGTCTGGCTTAATGTTTCCAGATTCTT -GCATAACGTTTCCGGGTTACAGGAGATGTACAAAATACGCGGATACGCCTGCACCATTTTCTCGGTTTCACTGTCCAGAC -CGCTGCGCGGAGGGTCGACAAAAATGGTTTCGCACTGATAACTCTTTAAGTCGATCCCTTGCAGGCGGTTAAACTCGCGC -ACACCATTCATCGCCTGAGTAAATTCTTCTGCCGCCATACGAATAATTTGTACGTTATCAATATGGTTAGCTGCGATGTT -GTATTGCGCAGCAGCAACCGACGGCTTAGCGATTTCGGTGGCTAATACCCGATCAAAATTACGCGCCAGCGCTAATGAAA -AGTTACCGTTGCCGCAGTACAGCTCCAGTAAATCGCCTTTTGAGCCTTTGGTTACGTCCAGCGCCCATTCCAGCATCTGA -ATATTCATCGCCGCGTTCGGCTGGGTAAAGCTGTTTTCTACCTGACGGTAGATCATCTCTTTCCCTGCGACCGGCAGACG -TTCATCGATGTAATCCTGATCCAGCTCGATTTTGGTTTTCGTTGCCCGACCAATCAGATGCACATTCAGATTCTGCGCGC -GCAGTGCATCGCGCAGGGCCTCCGCTTCCTGACGCCACTCATCATCCAGCTTCTTATGGTATAGCAGGGAAACCACCGCC -TGATTACTCAGTGTAGTGAGGTAATCAATCTGGAACAACTTGTGGCGCAGAACGGGATTATTACGCACACCCGCAATCAT -CGCCGTCATCAACTGGTTGATAAGTTCACTGGCGGCGGGGAAGCTATCCACGCGGATGCGGCTTTTGGTTTGTTGATCGA -AAATGATGTGATACAGGTCATCGCCATCGTGCCAGATGCGGAACTCCGCGCGCATCCGGTAATGACTGACCGGCGAGCGA -AACACTTCCGGAACCAGGTCAGAAAACGGTGCCATCATACTTTGCAAACGTACCACTTTTTCGGCTAACTGCGCTTCATA -CTGTTCTGTTGGAAGGTGTTCGGGGGTCATGATGTATCCTGAAAAATTAAAGTACGCGGCGATTGTAGGGATTGCTCATC -AGATGTCCAGATCTTGATGAATTCCTATTTGTGAGCTACGTCTGGACAGTAACTTGTTACAACCTGTAGCATCCACTTGC -CGGTCCTGTGAGTTAATAGGGAATCCAGTGCGAATCTGGAGCTGACGCGCAGCGGTAAGGAAAGGTGCGATGATTGCGTT -ATGCGGACACTGCCATTCGGTGGGAAGTCATCATCTCTTAGTATCTTAGATACCCCTCCAAGCCCGAAGACCTGCCGGCC -AACGTCGCATCTGGTTCTCATCATCGCGTAATATTGATGAAACCTGCGGCATCCTTCTTCTATTGTGGATGCTTTACAAT -GATTAAAAAAGCTTCGCTGCTGACGGCGTGTTCCGTCACGGCATTTTCCGCTTGGGCACAGGATACCAGCCCGGATACTC -TCGTCGTTACTGCTAACCGTTTTGAACAGCCGCGCAGCACTGTGCTTGCACCAACCACCGTTGTGACCCGTCAGGATATC -GACCGCTGGCAGTCGACCTCGGTCAATGATGTGCTGCGCCGTCTTCCGGGCGTCGATATCACCCAAAACGGCGGTTCAGG -TCAGCTCTCATCTATTTTTATTCGCGGTACAAATGCCAGTCATGTGTTGGTGTTAATTGATGGCGTACGCCTGAATCTGG -CGGGGGTGAGTGGTTCTGCCGACCTTAGCCAGTTCCCTATTGCGCTTGTCCAGCGTGTTGAATATATCCGTGGGCCGCGC -TCCGCTGTTTATGGTTCCGATGCAATAGGCGGGGTGGTGAATATCATCACGACGCGCGATGAACCCGGAACGGAAATTTC -AGCAGGGTGGGGAAGCAATAGTTATCAGAACTATGATGTCTCTACGCAGCAACAACTGGGGGATAAGACACGGGTAACGC -TGTTGGGCGATTATGCCCATACTCATGGTTATGATGTTGTTGCCTATGGTAATACCGGAACGCAAGCGCAGACAGATAAC -GATGGTTTTTTAAGTAAAACGCTTTATGGCGCGCTGGAGCATAACTTTACTGATGCCTGGAGCGGCTTTGTGCGCGGCTA -TGGCTATGATAACCGTACCAATTATGACGCGTATTATTCTCCCGGTTCACCGTTGCTCGATACCCGTAAACTCTATAGCC -AAAGTTGGGACGCCGGGCTGCGCTATAACGGCGAACTGATTAAATCACAACTCATTACCAGCTATAGCCATAGCAAAGAT -TACAACTACGATCCCCATTATGGTCGTTATGATTCGTCGGCGACGCTCGATGAGATGAAGCAATACACCGTCCAGTGGGC -AAACAATGTCATCGTTGGTCACGGTAGTATTGGTGCGGGTGTCGACTGGCAGAAACAGACTACGACGCCGGGTACAGGTT -ATGTTGAGGATGGATATGATCAACGTAATACCGGCATCTATCTGACCGGGCTGCAACAAGTCGGCGATTTTACCTTTGAA -GGCGCAGCACGCAGTGACGATAACTCACAGTTTGGTCGTCATGGAACCTGGCAAACCAGCGCCGGTTGGGAATTCATCGA -AGGTTATCGCTTCATTGCTTCCTACGGGACATCTTATAAGGCACCAAATCTGGGGCAACTGTATGGCTTCTACGGAAATC -CGAATCTGGACCCGGAGAAAAGCAAACAGTGGGAAGGCGCGTTTGAAGGCTTAACCGCTGGGGTGAACTGGCGTATTTCC -GGATATCGTAACGATGTCAGTGACTTGATCGATTATGATGATCACACCCTGAAATATTACAACGAAGGGAAAGCGCGGAT -TAAGGGCGTCGAGGCGACCGCCAATTTTGATACCGGACCACTGACGCATACTGTGAGTTATGATTATGTCGATGCGCGCA -ATGCGATTACCGACACGCCGTTGTTACGCCGTGCTAAACAGCAGGTGAAATACCAGCTCGACTGGCAGTTGTATGACTTC -GACTGGGGTATTACTTATCAGTATTTAGGCACTCGCTATGATAAGGATTACTCATCTTATCCTTATCAAACCGTTAAAAT -GGGCGGTGTGAGCTTGTGGGATCTTGCGGTTGCGTATCCGGTCACCTCTCACCTGACAGTTCGTGGTAAAATAGCCAACC -TGTTCGACAAAGATTATGAGACAGTCTATGGCTACCAAACTGCAGGACGGGAATACACCTTGTCTGGCAGCTACACCTTC -TGAACCACGTCCCACCGTGCTGGTGTTTGACTCCGGCGTCGGTGGGTTGTCGGTCTATGACGAGATCCGGCATCTCTTAC -CGGATCTCCATTACATTTATGCTTTCGATAACGTCGCTTTCCCGTATGGCGAAAAAAGCGAAGCGTTTATTGTTGAGCGA -GTGGTGGCAATTGTCACCGCGGTGCAAGAACGTTATCCCCTTGCGCTGGCTGTGGTCGCTTGCAACACTGCCAGTACCGT -TTCACTTCCTGCATTACGCGAAAAGTTCGACTTCCCGGTTGTTGGTGTCGTGCCGGCGATTAAACCTGCTGCACGTCTGA -CGGCAAATGGCATTGTCGGATTACTGGCAACCCGCGGAACAGTTAAACGTTCTTATACTCATGAGCTGATCGCGCGTTTC -GCTAATGAATGCCAGATAGAAATGCTGGGCTCGGCAGAGATGGTTGAGTTGGCTGAAGCGAAGCTACATGGCGAAGATGT -TTCTCTGGATGCACTAAAACGTATCCTACGCCCGTGGTTAAGAATGAAAGAGCCGCCAGATACCGTTGTATTGGGTTGCA -CCCATTTCCCTCTACTACAAGAAGAACTGTTACAAGTGCTGCCAGAGGGAACCCGGCTGGTGGATTCTGGCGCAGCGATT -GCTCGCCGAACGGCCTGGTTGTTAGAACATGAAGCCCCGGATGCAAAATCTGCCGATGCGAATATTGCCTTTTGTATGGC -AATGACGCCAGGAGCTGAACAATTATTGCCCGTTTTACAGCGTTACGGCTTCGAAACGCTCGAAAAACTGGCAGTTTTAG -GCTGATTTGGTTGAATGTTGCGCGGTCAGAAAATTATTTTAAATTTCCTCTTGTCAGGCCGGAATAACTCCCTATAATGC -GCCACCACTGACACGGAACAACGGCAAACACGCCGCCGGGTCAGCGGGGTTCTCCTGAGAACTCCGGCAGAGAAAGCAAA -AATAAATGCTTGACTCTGTAGCGGGAAGGCGTATTATGCACACCCCGCGCCGCTGAGAAAAAGCGAAGCGGCACTGCTCT -TTAACAATTTATCAGACAATCTGTGTGGGCACTCGAAGATACGGATTCTTAACGTCGCAAGACGAAAAATGAATACCAAG -TCTCAAGAGTGAACACGTAATTCATTACGAAGTTTAATTCTTTGAGCGTCAAACTTTTAAATTGAAGAGTTTGATCATGG -CTCAGATTGAACGCTGGCGGCAGGCCTAACACATGCAAGTCGAACGGTAACAGGAAGAAGCTTGCTTCTTTGCTGACGAG -TGGCGGACGGGTGAGTAATGTCTGGGAAACTGCCTGATGGAGGGGGATAACTACTGGAAACGGTAGCTAATACCGCATAA -CGTCGCAAAACCAAAGAGGGGGACCTTCGGGCCTCTTGCCATCGGATGTGCCCAGATGGGATTAGCTAGTAGGTGGGGTA -ACGGCTCACCTAGGCGACGATCCCTAGCTGGTCTGAGAGGATGACCAGCCACACTGGAACTGAGACACGGTCCAGACTCC -TACGGGAGGCAGCAGTGGGGAATATTGCACAATGGGCGCAAGCCTGATGCAGCCATGCCGCGTGTATGAAGAAGGCCTTC -GGGTTGTAAAGTACTTTCAGCGGGGAGGAAGGGAGTAAAGTTAATACCTTTGCTCATTGACGTTACCCGCAGAAGAAGCA -CCGGCTAACTCCGTGCCAGCAGCCGCGGTAATACGGAGGGTGCAAGCGTTAATCGGAATTACTGGGCGTAAAGCGCACGC -AGGCGGTTTGTTAAGTCAGATGTGAAATCCCCGGGCTCAACCTGGGAACTGCATCTGATACTGGCAAGCTTGAGTCTCGT -AGAGGGGGGTAGAATTCCAGGTGTAGCGGTGAAATGCGTAGAGATCTGGAGGAATACCGGTGGCGAAGGCGGCCCCCTGG -ACGAAGACTGACGCTCAGGTGCGAAAGCGTGGGGAGCAAACAGGATTAGATACCCTGGTAGTCCACGCCGTAAACGATGT -CGACTTGGAGGTTGTGCCCTTGAGGCGTGGCTTCCGGAGCTAACGCGTTAAGTCGACCGCCTGGGGAGTACGGCCGCAAG -GTTAAAACTCAAATGAATTGACGGGGGCCCGCACAAGCGGTGGAGCATGTGGTTTAATTCGATGCAACGCGAAGAACCTT -ACCTGGTCTTGACATCCACGGAAGTTTTCAGAGATGAGAATGTGCCTTCGGGAACCGTGAGACAGGTGCTGCATGGCTGT -CGTCAGCTCGTGTTGTGAAATGTTGGGTTAAGTCCCGCAACGAGCGCAACCCTTATCCTTTGTTGCCAGCGGTCCGGCCG -GGAACTCAAAGGAGACTGCCAGTGATAAACTGGAGGAAGGTGGGGATGACGTCAAGTCATCATGGCCCTTACGACCAGGG -CTACACACGTGCTACAATGGCGCATACAAAGAGAAGCGACCTCGCGAGAGCAAGCGGACCTCATAAAGTGCGTCGTAGTC -CGGATTGGAGTCTGCAACTCGACTCCATGAAGTCGGAATCGCTAGTAATCGTGGATCAGAATGCCACGGTGAATACGTTC -CCGGGCCTTGTACACACCGCCCGTCACACCATGGGAGTGGGTTGCAAAAGAAGTAGGTAGCTTAACCTTCGGGAGGGCGC -TTACCACTTTGTGATTCATGACTGGGGTGAAGTCGTAACAAGGTAACCGTAGGGGAACCTGCGGTTGGATCACCTCCTTA -CCTTAAAGAAGCGTACTTTGTAGTGCTCACACAGATTGTCTGATAGAAAGTGAAAAGCAAGGCGTTTACGCGTTGGGAGT -GAGGCTGAAGAGAATAAGGCCGTTCGCTTTCTATTAATGAAAGCTCACCCTACACGAAAATATCACGCAACGCGTGATAA -GCAATTTTCGTGTCCCCTTCGTCTAGAGGCCCAGGACACCGCCCTTTCACGGCGGTAACAGGGGTTCGAATCCCCTAGGG -GACGCCACTTGCTGGTTTGTGAGTGAAAGTCGCCGACCTTAATATCTCAAAACTCATCTTCGGGTGATGTTTGAGATATT -TGCTCTTTAAAAATCTGGATCAAGCTGAAAATTGAAACACTGAACAACGAGAGTTGTTCGTGAGTCTCTCAAATTTTCGC -AACACGATGATGAATCGAAAGAAACATCTTCGGGTTGTGAGGTTAAGCGACTAAGCGTACACGGTGGATGCCCTGGCAGT -CAGAGGCGATGAAGGACGTGCTAATCTGCGATAAGCGTCGGTAAGGTGATATGAACCGTTATAACCGGCGATTTCCGAAT -GGGGAAACCCAGTGTGTTTCGACACACTATCATTAACTGAATCCATAGGTTAATGAGGCGAACCGGGGGAACTGAAACAT -CTAAGTACCCCGAGGAAAAGAAATCAACCGAGATTCCCCCAGTAGCGGCGAGCGAACGGGGAGCAGCCCAGAGCCTGAAT -CAGTGTGTGTGTTAGTGGAAGCGTCTGGAAAGGCGCGCGATACAGGGTGACAGCCCCGTACACAAAAATGCACATGCTGT -GAGCTCGATGAGTAGGGCGGGACACGTGGTATCCTGTCTGAATATGGGGGGACCATCCTCCAAGGCTAAATACTCCTGAC -TGACCGATAGTGAACCAGTACCGTGAGGGAAAGGCGAAAAGAACCCCGGCGAGGGGAGTGAAAAAGAACCTGAAACCGTG -TACGTACAAGCAGTGGGAGCACGCTTAGGCGTGTGACTGCGTACCTTTTGTATAATGGGTCAGCGACTTATATTCTGTAG -CAAGGTTAACCGAATAGGGGAGCCGAAGGGAAACCGAGTCTTAACTGGGCGTTAAGTTGCAGGGTATAGACCCGAAACCC -GGTGATCTAGCCATGGGCAGGTTGAAGGTTGGGTAACACTAACTGGAGGACCGAACCGACTAATGTTGAAAAATTAGCGG -ATGACTTGTGGCTGGGGGTGAAAGGCCAATCAAACCGGGAGATAGCTGGTTCTCCCCGAAAGCTATTTAGGTAGCGCCTC -GTGAATTCATCTCCGGGGGTAGAGCACTGTTTCGGCAAGGGGGTCATCCCGACTTACCAACCCGATGCAAACTGCGAATA -CCGGAGAATGTTATCACGGGAGACACACGGCGGGTGCTAACGTCCGTCGTGAAGAGGGAAACAACCCAGACCGCCAGCTA -AGGTCCCAAAGTCATGGTTAAGTGGGAAACGATGTGGGAAGGCCCAGACAGCCAGGATGTTGGCTTAGAAGCAGCCATCA -TTTAAAGAAAGCGTAATAGCTCACTGGTCGAGTCGGCCTGCGCGGAAGATGTAACGGGGCTAAACCATGCACCGAAGCTG -CGGCAGCGACGCTTATGCGTTGTTGGGTAGGGGAGCGTTCTGTAAGCCTGCGAAGGTGTGCTGTGAGGCATGCTGGAGGT -ATCAGAAGTGCGAATGCTGACATAAGTAACGATAAAGCGGGTGAAAAGCCCGCTCGCCGGAAGACCAAGGGTTCCTGTCC -AACGTTAATCGGGGCAGGGTGAGTCGACCCCTAAGGCGAGGCCGAAAGGCGTAGTCGATGGGAAACAGGTTAATATTCCT -GTACTTGGTGTTACTGCGAAGGGGGGACGGAGAAGGCTATGTTGGCCGGGCGACGGTTGTCCCGGTTTAAGCGTGTAGGC -TGGTTTTCCAGGCAAATCCGGAAAATCAAGGCTGAGGCGTGATGACGAGGCACTACGGTGCTGAAGCAACAAATGCCCTG -CTTCCAGGAAAAGCCTCTAAGCATCAGGTAACATCAAATCGTACCCCAAACCGACACAGGTGGTCAGGTAGAGAATACCA -AGGCGCTTGAGAGAACTCGGGTGAAGGAACTAGGCAAAATGGTGCCGTAACTTCGGGAGAAGGCACGCTGATATGTAGGT -GAGGTCCCTCGCGGATGGAGCTGAAATCAGTCGAAGATACCAGCTGGCTGCAACTGTTTATTAAAAACACAGCACTGTGC -AAACACGAAAGTGGACGTATACGGTGTGACGCCTGCCCGGTGCCGGAAGGTTAATTGATGGGGTTAGCGCAAGCGAAGCT -CTTGATCGAAGCCCCGGTAAACGGCGGCCGTAACTATAACGGTCCTAAGGTAGCGAAATTCCTTGTCGGGTAAGTTCCGA -CCTGCACGAATGGCGTAATGATGGCCAGGCTGTCTCCACCCGAGACTCAGTGAAATTGAACTCGCTGTGAAGATGCAGTG -TACCCGCGGCAAGACGGAAAGACCCCGTGAACCTTTACTATAGCTTGACACTGAACATTGAGCCTTGATGTGTAGGATAG -GTGGGAGGCTTTGAAGTGTGGACGCCAGTCTGCATGGAGCCGACCTTGAAATACCACCCTTTAATGTTTGATGTTCTAAC -GTTGACCCGTAATCCGGGTTGCGGACAGTGTCTGGTGGGTAGTTTGACTGGGGCGGTCTCCTCCTAAAGAGTAACGGAGG -AGCACGAAGGTTGGCTAATCCTGGTCGGACATCAGGAGGTTAGTGCAATGGCATAAGCCAGCTTGACTGCGAGCGTGACG -GCGCGAGCAGGTGCGAAAGCAGGTCATAGTGATCCGGTGGTTCTGAATGGAAGGGCCATCGCTCAACGGATAAAAGGTAC -TCCGGGGATAACAGGCTGATACCGCCCAAGAGTTCATATCGACGGCGGTGTTTGGCACCTCGATGTCGGCTCATCACATC -CTGGGGCTGAAGTAGGTCCCAAGGGTATGGCTGTTCGCCATTTAAAGTGGTACGCGAGCTGGGTTTAGAACGTCGTGAGA -CAGTTCGGTCCCTATCTGCCGTGGGCGCTGGAGAACTGAGGGGGGCTGCTCCTAGTACGAGAGGACCGGAGTGGACGCAT -CACTGGTGTTCGGGTTGTCATGCCAATGGCACTGCCCGGTAGCTAAATGCGGAAGAGATAAGTGCTGAAAGCATCTAAGC -ACGAAACTTGCCCCGAGATGAGTTCTCCCTGACCCTTTAAGGGTCCTGAAGGAACGTTGAAGACGACGACGTTGATAGGC -CGGGTGTGTAAGCGCAGCGATGCGTTGAGCTAACCGGTACTAATGAACCGTGAGGCTTAACCTTACAACGCCGAAGCTGT -TTTGGCGGATGAGAGAAGATTTTCAGCCTGATACAGATTAAATCAGAACGCAGAAGCGGTCTGATAAAACAGAATTTGCC -TGGCGGCAGTAGCGCGGTGGTCCCACCTGACCCCATGCCGAACTCAGAAGTGAAACGCCGTAGCGCCGATGGTAGTGTGG -GGTCTCCCCATGCGAGAGTAGGGAACTGCCAGGCATCAAATAAAACGAAAGGCTCAGTCGAAAGACTGGGCCTTTCGTTT -TATCTGTTGTTTGTCGGTGAACGCTCTCCTGAGTAGGACAAATCCGCCGGGAGCGGATTTGAACGTTGCGAAGCAACGGC -CCGGAGGGTGGCGGGCAGGACGCCCGCCATAAACTGCCAGGCATCAAATTAAGCAGAAGGCCATCCTGACGGATGGCCTT -TTTGCGTTTCTACAAACTCTTCCTGTCGTCATATCTACAAGCCATCCCCCCACAGATACGGTAAACTAGCCTCGTTTTTG -CATCAGGAAAGCAGCTATGAACCACTCCTTAAAACCCTGGAACACATTTGGCATTGATCATAATGCTCAGCACATTGTAT -GTGCCGAAGACGAACAACAATTACTCAATGCCTGGCAGTATGCAACCGCAGAAGGACAACCCGTTCTTATTCTGGGTGAA -GGAAGTAATGTACTTTTTCTGGAGGACTATCGCGGCACGGTGATCATCAACCGGATCAAAGGTATCGAAATTCATGATGA -ACCTGATGCGTGGTATTTACATGTAGGAGCCGGAGAAAACTGGCATCGTCTGGTAAAATACACTTTGCAGGAAGGTATGC -CTGGTCTGGAAAATCTGGCATTAATTCCTGGTTGTGTCGGCTCATCACCTATCCAGAATATTGGTGCTTATGGCGTAGAA -TTACAGCGAGTTTGCGCTTATGTTGATTCTGTTGAACTGGCGACAGGCAAGCAAGTGCGCTTAACTGCCAAAGAGTGCCG -TTTTGGCTATCGCGACAGTATTTTTAAACATGAATACCAGGACCGCTTCGCTATTGTAGCCGTAGGTCTGCGTCTGCCAA -AAGAGTGGCAACCTGTACTAACGTATGGTGACTTAACTCGTCTGGATCCTACAACAGTAACGCCACAGCAAGTATTTAAT -GCGGTGTGTCATATGCGCACCACCAAACTCCCTGATCCAAAAGTGAATGGCAATGCCGGTAGTTTCTTCAAAAACCCTGT -TGTATCTGCCGAAACGGCTAAAGCATTACTGTCACAATTTCCAACAGCACCAAATTACCCCCAGGCGGATGGTTCAGTAA -AACTGGCAGCAGGTTGGCTTATCGATCAGTGCCAGCTAAAAGGGATGCAAATAGGTGGGGCTGCGGTGCACCGTCAACAG -GCGTTAGTTCTCATTAATGAAGACAATGCAAAAAGCGAAGATGTTGTACAGCTGGCGCATCATGTAAGACAGAAAGTTGG -TGAAAAATTTAATGTCTGGCTTGAGCCTGAAGTCCGCTTTATTGGTGCATCAGGTGAAGTGAGCGCAGTGGAGACAATTT -CATGAAGGATAACACCGTGCCACTGAAATTGATTGCCCTGTTAGCGAACGGTGAATTTCACTCTGGCGAGCAGTTGGGTG -AAACGCTGGGAATGAGCCGGGCGGCTATTAATAAACACATTCAGACACTGCGTGACTGGGGCGTTGATGTCTTTACCGTT -CCGGGTAAAGGATACAGCCTGCCTGAGCCTATCCAGTTACTTAATGCTAAACAGATATTGGGTCAGCTGGATGGCGGTAG -TGTAGCCGTGCTGCCAGTGATTGACTCCACGAATCAGTACCTTCTTGATCGTATCGGAGAGCTTAAATCGGGCGATGCTT -GCATTGCAGAATACCAGCAGGCTGGCCGTGGTCGCCGGGGTCGGAAATGGTTTTCGCCTTTTGGCGCAAACTTATATTTG -TCGATGTTCTGGCGTCTGGAACAAGGCCCGGCGGCGGCGATTGGTTTAAGTCTGGTTATCGGTATCGTGATGGCGGAAGT -ATTACGCAAGCTGGGTGCAGATAAAGTTCGTGTTAAATGGCCTAATGACCTCTATCTGCAGGATCGCAAGCTGGCAGGCA -TTCTGGTGGAGCTGACTGGCAAAACTGGCGATGCGGCGCAAATAGTCATTGGAGCCGGGATCAACATGGCAATGCGCCGT -GTTGAAGAGAGTGTCGTTAATCAGGGGTGGATCACGCTGCAGGAAGCGGGGATCAATCTCGATCGTAATACGTTGGCGGC -CATGCTAATACGTGAATTACGTGCTGCGTTGGAACTCTTCGAACAAGAAGGATTGGCACCTTATCTGTCGCGCTGGGAAA -AGCTGGATAATTTTATTAATCGCCCAGTGAAACTTATCATTGGTGATAAAGAAATATTTGGCATTTCACGCGGAATAGAC -AAACAGGGGGCTTTATTACTTGAGCAGGATGGAATAATAAAACCCTGGATGGGCGGTGAAATATCCCTGCGTAGTGCAGA -AAAATAAGAAAGGGGAGTATTCGCTCCCCTGCAAATTATTTGCGTAGTCTGACCTCTTCTACCGCATGATTAGCACTTTT -CGTCAGGATTAAACTGGCGCGCTCACGAGTAGGTAGAATATTTTGCTTTAAGTTCAGCCAGTTGATCTCTTTCCACAATG -TCATGGCAGTCTTAATCGCTTCTTCTTTAGTTAATTTCGCGTAGTTATGAAAATAGGAATCCGGGTCGGTAAAAGCCCCT -TCGCGGAATTTCAGAAAACGGTTGATATACCATGTCTGAAGTAAGTCTTCCGGTGCATCAACATATATCGAAAAATCGAC -AAAATCAGAAACAAATACATGATGTGGATCGTGTGGATAATCCATCCCGCTCTGTAAGACATTTAACCCTTCAAGAATTA -AAATATCAGGCTGAACAACCGTTTTATCTCCATCCGGGATCACATCATAAATAAGATGTGAGTAAACAGGTGCTGTAACG -TTTGGCACGCCGGATTTGAGATCGGAAACAAACTTCACCAGGCGATGCATATCATACGATTCCGGGAAGCCTTTCTTCTT -CATCAGACCACGTTCTTTCAGAACCTGATTAGGGTGAAGGAAGCCATCTGTAGTGATCAGTTCAACACGACGATGTTCCG -GCCAACGGCTTAATAGCGCCTGCAATACACGGGCGGTTGTACTTTTCCCCACCGCGACACTGCCAGCAATACTGATAATG -TAAGGAATGCGTTGCCCGTTGGTACCAAGAAACTGTTCCAGAACTGCCTGACGGCGCAGATTCGAGCTTATATAGAAGTT -CAGCAAACGTGACAAAGGTAAATAGATCTCGGCAACTTCTTCTAACGAGAGATCTTCATTAATACCTTTGAGACGGGCGA -TCTCATCTTCCGATAACGTCATAGGTACGGAATCACGCAGAGCTGCCCACTGGTTGCGGTCAAACTGTAGGTAAGGCGTC -ATTAACGTTTGCTCTTTTATACTCATAAGCATGTTTCTGGCGGTCATAGCTCTATCGGCAAAGCGATATTTGCCATGGCG -CGTCACAGTTCTGTTGAATGGGTTAATGGGCAGGAGGGTAACACCAGATGGGGAGGAATAATAAGAAAAAATCTCTGCCA -GGAAGCTATCGTTGAAAAGCAATGTGACAGATATTCCATCTGATAAAAAGAATTATGGTTTAGCAGGAGCGCATTGTTGA -GCACAATGATGTGAAAAAGTGTGCTAATCTGCCCTCCGTTCGGCTGTTTCTTCATCGTGTCGCATAAAATGTGACCAATA -AAACAAATTATGCAATTTTTTAGTTGCATGAACTCGCATGTCTCCATAGAATGCGCGCTACTTGATGCCGACTTAGCTCA -GTAGGTAGAGCAACTGACTTGTAATCAGTAGGTCACCAGTTCGATTCCGGTAGTCGGCACCATCAAGTCCGGTGGGGTTC -CCGAGCGGCCAAAGGGAGCAGACTGTAAATCTGCCGTCACAGACTTCGAAGGTTCGAATCCTTCCCCCACCACCAATTTC -GGCCACGCGATGGCGTAGCCCGAGACGATAAGTTCGCTTACCGGCTCGAATAAAGAGAGCTTCTCTCGATATTCAGTGCA -GAATGAAAATCAGGTAGCCGAGTTCCAGGATGCGGGCATCGTATAATGGCTATTACCTCAGCCTTCCAAGCTGATGATGC -GGGTTCGATTCCCGCTGCCCGCTCCAAGATGTGCTGATATAGCTCAGTTGGTAGAGCGCACCCTTGGTAAGGGTGAGGTC -GGCAGTTCGAATCTGCCTATCAGCACCACTTCTTTTCTCCTCCCTGTTTTTTCCTTCTGTTTATTGCATTCAACAAGTCG -GGCATGTTGCCTGGTTGATGTGGTGATATCACCGATTTATCCGTGTCTTAGAGGGACAATCGATGTCTAAAGAAAAGTTT -GAACGTACAAAACCGCACGTTAACGTCGGTACTATCGGCCACGTTGACCATGGTAAAACAACGCTGACCGCTGCAATCAC -TACCGTACTGGCTAAAACCTACGGCGGTGCTGCTCGCGCATTCGACCAGATCGATAACGCGCCGGAAGAAAAAGCTCGTG -GTATCACCATCAACACTTCTCACGTTGAATACGACACCCCGACCCGTCACTACGCACACGTAGACTGCCCGGGGCACGCC -GACTATGTTAAAAACATGATCACCGGTGCTGCGCAGATGGACGGCGCGATCCTGGTAGTTGCTGCGACTGACGGCCCGAT -GCCGCAGACTCGTGAGCACATCCTGCTGGGTCGTCAGGTAGGCGTTCCGTACATCATCGTGTTCCTGAACAAATGCGACA -TGGTTGATGACGAAGAGCTGCTGGAACTGGTTGAAATGGAAGTTCGTGAACTTCTGTCTCAGTACGACTTCCCGGGCGAC -GACACTCCGATCGTTCGTGGTTCTGCTCTGAAAGCGCTGGAAGGCGACGCAGAGTGGGAAGCGAAAATCCTGGAACTGGC -TGGCTTCCTGGATTCTTACATTCCGGAACCAGAGCGTGCGATTGACAAGCCGTTCCTGCTGCCGATCGAAGACGTATTCT -CCATCTCCGGTCGTGGTACCGTTGTTACCGGTCGTGTAGAACGCGGTATCATCAAAGTTGGTGAAGAAGTTGAAATCGTT -GGTATCAAAGAGACTCAGAAGTCTACCTGTACTGGCGTTGAAATGTTCCGCAAACTGCTGGACGAAGGCCGTGCTGGTGA -GAACGTAGGTGTTCTGCTGCGTGGTATCAAACGTGAAGAAATCGAACGTGGTCAGGTACTGGCTAAGCCGGGCACCATCA -AGCCGCACACCAAGTTCGAATCTGAAGTGTACATTCTGTCCAAAGATGAAGGCGGCCGTCATACTCCGTTCTTCAAAGGC -TACCGTCCGCAGTTCTACTTCCGTACTACTGACGTGACTGGTACCATCGAACTGCCGGAAGGCGTAGAGATGGTAATGCC -GGGCGACAACATCAAAATGGTTGTTACCCTGATCCACCCGATCGCGATGGACGACGGTCTGCGTTTCGCAATCCGTGAAG -GCGGCCGTACCGTTGGCGCGGGCGTTGTAGCAAAAGTTCTGAGCTAATTGCCGATAACATTTGACGCAATGCGCACTAAA -AGGGCATCATTTGATGCCCTTTTTGCACGCTTTCGTACCAGAACCTGGCTCATCAGTGATTTTCTTTGTCATAATCATTG -CTGAGACAGGCTCTGTTGAGGGCGTATAATCCGAAAAGCTAATACGCGTTTCGATTTGGTTTGCCTCGCGATCGCGGGGT -GAAAATGTTTGTAGAAAACTTCTGACAGGTTGGTTTATGAGTGCGAATACCGAAGCTCAAGGAAGCGGGCGCGGCCTGGA -AGCGATGAAGTGGGTCGTTGTGGTGGCATTGCTCCTGGTGGCGATTGTCGGCAACTATCTTTATCGCGACATTATGCTGC -CGCTGCGTGCGCTGGCCGTAGTAATTCTGATTGCTGCAGCGGGTGGTGTCGCGCTGTTAACGACAAAAGGTAAAGCTACC -GTTGCTTTTGCCCGTGAAGCGCGTACCGAAGTCCGTAAGGTCATTTGGCCGACTCGCCAGGAAACATTGCACACCACGCT -GATTGTGGCTGCGGTTACCGCAGTAATGTCACTGATCCTGTGGGGACTGGATGGTATTCTGGTTCGCCTGGTATCCTTTA -TCACTGGCCTGAGGTTCTGAGATGTCTGAAGCTCCTAAAAAGCGCTGGTACGTCGTTCAGGCGTTTTCCGGTTTTGAAGG -CCGCGTAGCAACGTCGCTGCGTGAGCATATCAAATTACACAACATGGAAGATTTGTTTGGTGAAGTCATGGTACCAACCG -AAGAAGTGGTTGAAATCCGTGGCGGTCAGCGTCGCAAAAGCGAACGTAAATTCTTCCCTGGCTACGTCCTCGTTCAGATG -GTGATGAACGACGCGAGCTGGCACCTGGTGCGCAGCGTACCGCGTGTGATGGGCTTCATCGGCGGTACTTCCGATCGTCC -TGCGCCAATCAGCGATAAAGAAGTCGATGCGATTATGAACCGCCTGCAGCAGGTTGGTGATAAGCCGCGTCCGAAAACGC -TGTTTGAACCGGGTGAAATGGTCCGTGTTAATGATGGTCCGTTCGCTGACTTCAACGGTGTTGTTGAAGAAGTGGATTAC -GAGAAATCTCGTCTGAAAGTGTCTGTTTCTATCTTCGGTCGTGCGACCCCGGTAGAGCTGGACTTCAGCCAGGTTGAAAA -AGCCTAACCCAGCGATCAAAAAAGCGGCGATTTAATCGTTGCACAAGGCGTGAGATTGGAATACAATTTCGCGCCTTTTG -TTTTTATGGGCCTTGCCCGTAAAACGATTTTTTATATCACGGGGAGCCTCTCAGAGGCGTTATTACCCAACTTGAGGAAT -TTATAATGGCTAAGAAAGTACAAGCCTATGTCAAGCTGCAGGTTGCAGCTGGTATGGCTAACCCGAGTCCGCCAGTAGGT -CCGGCTCTGGGTCAGCAGGGCGTAAACATCATGGAATTCTGCAAAGCGTTCAACGCAAAAACTGATTCCATCGAAAAAGG -TCTGCCGATTCCGGTAGTAATCACCGTTTACGCTGACCGTTCTTTCACTTTCGTTACCAAGACCCCGCCGGCAGCAGTTC -TGCTGAAAAAAGCGGCTGGTATCAAGTCTGGTTCCGGTAAGCCGAACAAAGACAAAGTGGGTAAAATTTCCCGCGCTCAG -CTGCAGGAAATCGCGCAGACCAAAGCTGCCGACATGACTGGTGCCGACATTGAAGCGATGACTCGCTCCATCGAAGGTAC -TGCACGTTCCATGGGCCTGGTAGTGGAGGACTAAGAAATGGCTAAACTGACCAAGCGCATGCGTGTTATCCGCGAGAAAG -TTGATGCAACCAAACAGTACGACATCAACGAAGCTATCGCACTGCTGAAAGAGCTGGCGACTGCTAAATTCGTAGAAAGC -GTGGACGTAGCTGTTAACCTCGGCATCGACGCTCGTAAATCTGACCAGAACGTACGTGGTGCAACTGTACTGCCGCACGG -TACTGGCCGTTCCGTTCGCGTAGCCGTATTTACCCAAGGTGCAAACGCTGAAGCTGCTAAAGCTGCAGGCGCAGAACTGG -TAGGTATGGAAGATCTGGCTGACCAGATCAAGAAAGGCGAAATGAACTTTGACGTTGTTATTGCTTCTCCGGATGCAATG -CGCGTTGTTGGCCAGCTGGGCCAGGTTCTGGGTCCGCGCGGCCTGATGCCAAACCCGAAAGTGGGTACTGTAACACCGAA -CGTTGCTGAAGCGGTTAAAAACGCTAAAGCTGGCCAGGTTCGTTACCGTAACGACAAAAACGGCATCATCCACACCACCA -TCGGTAAAGTGGACTTTGACGCTGACAAACTGAAAGAAAACCTGGAAGCTCTGCTGGTTGCGCTGAAAAAAGCAAAACCG -ACTCAGGCGAAAGGCGTGTACATCAAGAAAGTTAGCATCTCCACCACCATGGGTGCAGGTGTTGCAGTTGACCAGGCTGG -CCTGAGCGCTTCTGTAAACTAATGCCTTTACGTGGGCGGTGATTTTGTCTACAATCTTACCCCCACGTATAATGCTTAAT -GCAGACGTATATCCGAGATATTCGGGTTGTGGCAAGGCGGCAACTGAGTGAGTCGCCAGGAGCATAGCTAACTATGTGAC -TGGTGCGAATGAAGGAAGCCAACGCCGTCACAAGCTGAATAGCGACGGATAGAAAAGATTTGTTCGTTGGAGCCTGGCCT -ATCCAGGCCTCCGTCGAAGACCGCAGGAGTTTCGCAAGAAACTTAATCCCCTGCGTAGACGGTGACAGAACGCTAAGATT -ATTCTTTTATATTCTGGCTTGTTTCTGCTCACCGTAATTAAGACGCTCTCTCCGTTTGGAGGAGTGAAGTGAGTTCCAGA -GATTTTCTCTGGCAAACATCCAGGAGCAAAGCTAATGGCTTTAAATCTTCAAGACAAACAAGCGATTGTTGCTGAAGTCA -GCGAAGTAGCCAAAGGCGCGCTGTCTGCAGTAGTTGCGGATTCCCGTGGCGTAACTGTAGATAAAATGACTGAACTGCGT -AAAGCAGGTCGCGAAGCTGGCGTATACATGCGTGTTGTTCGTAACACCCTGCTGCGCCGTGCTGTTGAAGGTACTCCGTT -CGAGTGCCTGAAAGACGCGTTTGTTGGTCCGACCCTGATTGCATACTCTATGGAACACCCGGGCGCTGCTGCTCGTCTGT -TCAAAGAGTTCGCGAAAGCGAATGCAAAATTTGAGGTCAAAGCCGCTGCCTTTGAAGGTGAGCTGATCCCGGCGTCTCAG -ATCGACCGCCTGGCAACTCTGCCGACCTACGAAGAAGCAATTGCACGCCTGATGGCAACCATGAAAGAAGCTTCGGCTGG -CAAACTGGTTCGTACTCTGGCTGCTGTACGCGATGCGAAAGAAGCTGCTTAATCGCAGTTATCTTTTTAACGCATTCGCT -TACGTATAAACTTATTCTGATATTCAGGAACAATTTAAATGTCTATCACTAAAGATCAAATCATTGAAGCAGTTGCAGCT -ATGTCTGTAATGGACGTTGTAGAACTGATCTCTGCAATGGAAGAAAAATTCGGTGTTTCCGCTGCTGCTGCTGTAGCTGT -AGCTGCTGGCCCGGTTGAAGCTGCTGAAGAAAAAACTGAATTCGACGTAATTCTGAAAGCTGCTGGCGCTAACAAAGTTG -CTGTTATCAAAGCAGTACGTGGCGCAACTGGCCTGGGTCTGAAAGAAGCTAAAGACCTGGTAGAATCTGCACCGGCTGCT -CTGAAAGAAGGCGTGAGCAAAGACGACGCAGAAGCACTGAAAAAAGCTCTGGAAGAAGCTGGCGCTGAAGTTGAAGTTAA -ATAAGCCAACCCTTCCGGTTGCAGCCTGAGAAATCAGGCTGATGGCTGGTGACTTTTTAGTCACCAGCCTTTTTGCGCTG -TAAGGCGCCAGTAGCGTTTCACACTGTTTGACTACTGCTGTGCCTTTCAATGCTTGTTTCTATCGACGACTTAATATACT -GCGACAGGACGTCCGTTCTGTGTAAATCGCAATGAAATGGTTTAAGCGTGATAGCAACAGGCATTGCGGAAAGTGTTCCA -TTTTCCGGTCAACAAAATAGTGTTGCACAAACTGTCCGCTCAATGGACAGATGGGTCGACTTGTCAGCGAGCTGAGGAAC -CCTATGGTTTACTCCTATACCGAGAAAAAACGTATTCGTAAGGATTTTGGTAAACGTCCACAAGTTCTGGATGTACCTTA -TCTCCTTTCTATCCAGCTTGACTCGTTTCAGAAATTTATCGAGCAAGATCCTGAAGGGCAGTATGGTCTGGAAGCTGCTT -TCCGTTCCGTATTCCCGATTCAGAGCTACAGCGGTAATTCCGAGCTGCAATACGTCAGCTACCGCCTTGGCGAACCGGTG -TTTGACGTCCAGGAATGTCAAATCCGTGGCGTGACCTATTCCGCACCGCTGCGCGTTAAACTGCGTCTGGTGATCTATGA -GCGCGAAGCGCCGGAAGGCACCGTAAAAGACATTAAAGAACAAGAAGTCTACATGGGCGAAATTCCGCTCATGACAGACA -ACGGTACCTTTGTTATCAACGGTACTGAGCGTGTTATCGTTTCCCAGCTGCACCGTAGTCCGGGCGTCTTCTTTGACTCC -GACAAAGGTAAAACCCACTCTTCGGGTAAAGTGCTGTATAACGCGCGTATCATCCCTTACCGTGGTTCCTGGCTGGACTT -CGAATTCGATCCGAAGGACAACCTGTTCGTACGTATCGACCGTCGCCGTAAACTGCCTGCGACCATCATTCTGCGCGCCC -TGAACTACACCACAGAGCAGATCCTCGACCTGTTCTTTGAAAAAGTTATCTTTGAAATCCGTGATAACAAGCTGCAGATG -GAACTGGTGCCGGAACGCCTGCGTGGTGAAACCGCATCTTTTGACATCGAAGCTAACGGTAAAGTGTACGTAGAAAAAGG -CCGCCGTATCACTGCGCGCCACATTCGCCAGCTGGAAAAAGACGACGTCAAACTGATCGAAGTCCCGGTTGAGTACATCG -CAGGTAAAGTGGTTGCTAAAGACTATATTGATGAGTCTACCGGCGAGCTGATCTGCGCAGCGAACATGGAGCTGAGCCTG -GATCTGCTGGCTAAGCTGAGCCAGTCTGGTCACAAGCGTATCGAAACGCTGTTCACCAACGATCTGGATCACGGCCCATA -TATCTCTGAAACCTTACGTGTCGACCCAACTAACGACCGTCTGAGCGCACTGGTAGAAATCTACCGCATGATGCGCCCTG -GCGAGCCGCCGACTCGTGAAGCAGCTGAAAGCCTGTTCGAGAACCTGTTCTTCTCCGAAGACCGTTATGACTTGTCTGCG -GTTGGTCGTATGAAGTTCAACCGTTCTCTGCTGCGCGAAGAAATCGAAGGTTCCGGTATCCTGAGCAAAGACGACATCAT -TGATGTTATGAAAAAGCTCATCGATATCCGTAACGGTAAAGGCGAAGTCGATGATATCGACCACCTCGGCAACCGTCGTA -TCCGTTCCGTTGGCGAAATGGCGGAAAACCAGTTCCGCGTTGGCCTGGTACGTGTAGAGCGTGCGGTGAAAGAGCGTCTG -TCTCTGGGCGATCTGGATACCCTGATGCCACAGGATATGATCAACGCCAAGCCGATTTCCGCAGCAGTGAAAGAGTTCTT -CGGTTCCAGCCAGCTGTCTCAGTTTATGGACCAGAACAACCCGCTGTCTGAGATTACGCACAAACGTCGTATCTCCGCAC -TCGGCCCAGGCGGTCTGACCCGTGAACGTGCAGGCTTCGAAGTTCGAGACGTACACCCGACTCACTACGGTCGCGTATGT -CCAATCGAAACCCCTGAAGGTCCGAACATCGGTCTGATCAACTCTCTGTCCGTGTACGCACAGACTAACGAATACGGCTT -CCTTGAGACTCCGTATCGTAAAGTGACCGACGGTGTTGTAACTGACGAAATTCACTACCTGTCTGCTATCGAAGAAGGCA -ACTACGTTATCGCCCAGGCGAACTCCAACTTGGATGAAGAAGGCCACTTCGTAGAAGACCTGGTAACTTGCCGTAGCAAA -GGCGAATCCAGCTTGTTCAGCCGCGACCAGGTTGACTACATGGACGTATCCACCCAGCAGGTGGTATCCGTCGGTGCGTC -CCTGATCCCGTTCCTGGAACACGATGACGCCAACCGTGCATTGATGGGTGCGAACATGCAACGTCAGGCCGTTCCGACTC -TGCGCGCTGATAAGCCGCTGGTTGGTACTGGTATGGAACGTGCTGTTGCCGTTGACTCCGGTGTAACTGCGGTAGCTAAA -CGTGGTGGTGTCGTTCAGTACGTGGATGCTTCCCGTATCGTTATCAAAGTTAACGAAGACGAGATGTATCCGGGTGAAGC -AGGTATCGACATCTACAACCTGACCAAATACACCCGTTCTAACCAGAACACCTGTATCAACCAGATGCCGTGTGTGTCTC -TGGGTGAACCGGTTGAACGTGGCGACGTGCTGGCAGACGGTCCGTCCACCGACCTCGGTGAACTGGCGCTTGGTCAGAAC -ATGCGCGTAGCGTTCATGCCGTGGAATGGTTACAACTTCGAAGACTCCATCCTCGTATCCGAGCGTGTTGTTCAGGAAGA -CCGTTTCACCACCATCCACATTCAGGAACTGGCGTGTGTGTCCCGTGACACCAAGCTGGGTCCGGAAGAGATCACCGCTG -ACATCCCGAACGTGGGTGAAGCTGCGCTCTCCAAACTGGATGAATCCGGTATCGTTTACATTGGTGCGGAAGTGACCGGT -GGCGACATTCTGGTTGGTAAGGTAACGCCGAAAGGTGAAACTCAGCTGACCCCAGAAGAAAAACTGCTGCGTGCGATCTT -CGGTGAGAAAGCCTCTGACGTTAAAGACTCTTCTCTGCGCGTACCAAACGGTGTATCCGGTACGGTTATCGACGTTCAGG -TCTTTACTCGCGATGGCGTAGAAAAAGACAAACGTGCGCTGGAAATCGAAGAAATGCAGCTCAAACAGGCGAAGAAAGAC -CTGTCTGAAGAACTGCAGATCCTCGAAGCGGGTCTGTTCAGCCGTATCCGTGCTGTGCTGGTAGCCGGTGGCGTTGAAGC -TGAGAAGCTCGACAAACTGCCGCGCGATCGCTGGCTGGAGCTGGGCCTGACAGACGAAGAGAAACAAAATCAGCTGGAAC -AGCTGGCTGAGCAGTATGACGAACTGAAACACGAGTTCGAGAAGAAACTCGAAGCGAAACGCCGCAAAATCACCCAGGGC -GACGATCTGGCACCGGGCGTGCTGAAGATTGTTAAGGTATATCTGGCGGTTAAACGCCGTATCCAGCCTGGTGACAAGAT -GGCAGGTCGTCACGGTAACAAGGGTGTAATTTCTAAGATCAACCCGATCGAAGATATGCCTTACGATGAAAACGGTACGC -CGGTAGACATCGTACTGAACCCGCTGGGCGTACCGTCTCGTATGAACATCGGTCAGATCCTCGAAACCCACCTGGGTATG -GCTGCGAAAGGTATCGGCGACAAGATCAACGCCATGCTGAAACAGCAGCAAGAAGTCGCGAAACTGCGCGAATTCATCCA -GCGTGCGTACGATCTGGGCGCTGACGTTCGTCAGAAAGTTGACCTGAGTACCTTCAGCGATGAAGAAGTTATGCGTCTGG -CTGAAAACCTGCGCAAAGGTATGCCAATCGCAACGCCGGTGTTCGACGGTGCGAAAGAAGCAGAAATTAAAGAGCTGCTG -AAACTTGGCGACCTGCCGACTTCCGGTCAGATCCGCCTGTACGATGGTCGCACTGGTGAACAGTTCGAGCGTCCGGTAAC -CGTTGGTTACATGTACATGCTGAAACTGAACCACCTGGTCGACGACAAGATGCACGCGCGTTCCACCGGTTCTTACAGCC -TGGTTACTCAGCAGCCGCTGGGTGGTAAGGCACAGTTCGGTGGTCAGCGTTTCGGGGAGATGGAAGTGTGGGCGCTGGAA -GCATACGGCGCAGCATACACCCTGCAGGAAATGCTCACCGTTAAGTCTGATGACGTGAACGGTCGTACCAAGATGTATAA -AAACATCGTGGACGGCAACCATCAGATGGAGCCGGGCATGCCAGAATCCTTCAACGTATTGTTGAAAGAGATTCGTTCGC -TGGGTATCAACATCGAACTGGAAGACGAGTAATTCTCGCTCAAACAGGTCACTGCTGTCGGGTTAAAACCCGGCAGCGGA -TTGTGCTAACTCCGACGGGAGCAAATCCGTGAAAGATTTATTAAAGTTTCTGAAAGCGCAGACTAAAACCGAAGAGTTTG -ATGCGATCAAAATTGCTCTGGCTTCGCCAGACATGATCCGTTCATGGTCTTTCGGTGAAGTTAAAAAGCCGGAAACCATC -AACTACCGTACGTTCAAACCAGAACGTGACGGCCTTTTCTGCGCCCGTATCTTTGGGCCGGTAAAAGATTACGAGTGCCT -GTGCGGTAAGTACAAGCGCCTGAAACACCGTGGCGTCATCTGTGAGAAGTGCGGCGTTGAAGTGACCCAGACTAAAGTAC -GCCGTGAGCGTATGGGCCACATCGAACTGGCTTCCCCGACTGCGCACATCTGGTTCCTGAAATCGCTGCCGTCCCGTATC -GGTCTGCTGCTCGATATGCCGCTGCGCGATATCGAACGCGTACTGTACTTTGAATCCTATGTGGTTATCGAAGGCGGTAT -GACCAACCTGGAACGTCAGCAGATCCTGACTGAAGAGCAGTATCTGGACGCGCTGGAAGAGTTCGGTGACGAATTCGACG -CGAAGATGGGGGCGGAAGCAATCCAGGCTCTGCTGAAGAGCATGGATCTGGAGCAAGAGTGCGAACAGCTGCGTGAAGAG -CTGAACGAAACCAACTCCGAAACCAAGCGTAAAAAGCTGACCAAGCGTATCAAACTGCTGGAAGCGTTCGTTCAGTCTGG -TAACAAACCAGAGTGGATGATCCTGACCGTTCTGCCGGTACTGCCGCCAGATCTGCGTCCGCTGGTTCCGCTGGATGGTG -GTCGTTTCGCGACTTCTGACCTGAACGATCTGTATCGTCGCGTCATTAACCGTAACAACCGTCTGAAACGTCTGCTGGAT -CTGGCTGCGCCGGACATCATCGTACGTAACGAAAAACGTATGCTGCAGGAAGCGGTAGACGCCCTGCTGGATAACGGTCG -TCGCGGTCGTGCGATCACCGGTTCTAACAAGCGTCCTCTGAAATCTTTGGCCGACATGATCAAAGGTAAACAGGGTCGTT -TCCGTCAGAACCTGCTCGGTAAGCGTGTTGACTACTCCGGTCGTTCTGTAATCACCGTAGGTCCATACCTGCGTCTGCAT -CAGTGCGGTCTGCCGAAGAAAATGGCACTGGAGCTGTTCAAACCGTTCATCTACGGCAAGCTGGAACTGCGTGGTCTTGC -TACCACCATTAAAGCTGCGAAGAAAATGGTTGAGCGCGAAGAAGCTGTCGTTTGGGATATCCTGGACGAAGTTATCCGCG -AACACCCGGTACTGCTGAACCGTGCACCGACTCTGCACCGTCTGGGTATCCAGGCATTTGAACCGGTACTGATCGAAGGT -AAAGCTATCCAGCTGCACCCGCTGGTTTGTGCGGCATATAACGCCGACTTCGATGGTGACCAGATGGCTGTTCACGTACC -GCTGACGCTGGAAGCCCAGCTGGAAGCGCGTGCGCTGATGATGTCTACCAACAACATCCTGTCCCCGGCGAACGGCGAAC -CAATCATCGTTCCGTCTCAGGACGTTGTACTGGGTCTGTACTACATGACCCGTGACTGTGTTAACGCCAAAGGCGAAGGC -ATGGTGCTGACTGGCCCGAAAGAAGCAGAACGTCTGTATCGCTCTGGTCTGGCTTCTCTGCATGCGCGCGTTAAAGTGCG -TATCACCGAGTATGAAAAAGATGCTAACGGTGAATTAGTAGCGAAAACCAGCCTGAAAGACACGACTGTTGGCCGTGCCA -TTCTGTGGATGATTGTACCGAAAGGTCTGCCTTACTCCATCGTCAACCAGGCGCTGGGTAAAAAAGCAATCTCCAAAATG -CTGAACACCTGCTACCGCATTCTCGGTCTGAAACCGACCGTTATTTTTGCGGACCAGATCATGTACACCGGCTTCGCCTA -TGCAGCGCGTTCTGGTGCATCTGTTGGTATCGATGACATGGTCATCCCGGAGAAGAAACACGAAATCATCTCCGAGGCAG -AAGCAGAAGTTGCTGAAATTCAGGAGCAGTTCCAGTCTGGTCTGGTAACTGCGGGCGAACGCTACAACAAAGTTATCGAT -ATCTGGGCTGCGGCGAACGATCGTGTATCCAAAGCGATGATGGATAACCTGCAAACTGAAACCGTGATTAACCGTGACGG -TCAGGAAGAGAAGCAGGTTTCCTTCAACAGCATCTACATGATGGCCGACTCCGGTGCGCGTGGTTCTGCGGCACAGATTC -GTCAGCTTGCTGGTATGCGTGGTCTGATGGCGAAGCCGGATGGCTCCATCATCGAAACGCCAATCACCGCGAACTTCCGT -GAAGGTCTGAACGTACTCCAGTACTTCATCTCCACCCACGGTGCTCGTAAAGGTCTGGCGGATACCGCACTGAAAACTGC -GAACTCCGGTTACCTGACTCGTCGTCTGGTTGACGTGGCGCAGGACCTGGTGGTTACCGAAGACGATTGTGGTACCCATG -AAGGTATCATGATGACTCCGGTTATCGAGGGTGGTGACGTTAAAGAGCCGCTGCGCGATCGCGTACTGGGTCGTGTAACT -GCTGAAGACGTTCTGAAGCCGGGTACTGCTGATATCCTCGTTCCGCGCAACACGCTGCTGCACGAACAGTGGTGTGACCT -GCTGGAAGAGAACTCTGTCGACGCGGTTAAAGTACGTTCTGTTGTATCTTGTGACACCGACTTTGGTGTATGTGCGCACT -GCTACGGTCGTGACCTGGCGCGTGGCCACATCATCAACAAGGGTGAAGCAATCGGTGTTATCGCGGCACAGTCCATCGGT -GAACCGGGTACACAGCTGACCATGCGTACGTTCCACATCGGTGGTGCGGCATCTCGTGCGGCTGCTGAATCCAGCATCCA -AGTGAAAAACAAAGGTAGCATCAAGCTCAGCAACGTGAAGTCGGTTGTGAACTCCAGCGGTAAACTGGTTATCACTTCCC -GTAATACTGAACTGAAACTGATCGACGAATTCGGTCGTACTAAAGAAAGCTACAAAGTACCTTACGGTGCGGTACTGGCG -AAAGGCGATGGCGAACAGGTTGCTGGCGGCGAAACCGTTGCAAACTGGGACCCGCACACCATGCCGGTTATCACCGAAGT -AAGCGGTTTTGTACGCTTTACTGACATGATCGACGGCCAGACCATTACGCGTCAGACCGACGAACTGACCGGTCTGTCTT -CGCTGGTGGTTCTGGATTCCGCAGAACGTACCGCAGGTGGTAAAGATCTGCGTCCGGCACTGAAAATCGTTGATGCTCAG -GGTAACGACGTTCTGATCCCAGGTACCGATATGCCAGCGCAGTACTTCCTGCCGGGTAAAGCGATTGTTCAGCTGGAAGA -TGGCGTACAGATCAGCTCTGGTGACACCCTGGCGCGTATTCCGCAGGAATCCGGCGGTACCAAGGACATCACCGGTGGTC -TGCCGCGCGTTGCGGACCTGTTCGAAGCACGTCGTCCGAAAGAGCCGGCAATCCTGGCTGAAATCAGCGGTATCGTTTCC -TTCGGTAAAGAAACCAAAGGTAAACGTCGTCTGGTTATCACCCCGGTAGACGGTAGCGATCCGTACGAAGAGATGATTCC -GAAATGGCGTCAGCTCAACGTGTTCGAAGGTGAACGTGTAGAACGTGGTGACGTAATTTCCGACGGTCCGGAAGCGCCGC -ACGACATTCTGCGTCTGCGTGGTGTTCATGCTGTTACTCGTTACATCGTTAACGAAGTACAGGACGTATACCGTCTGCAG -GGCGTTAAGATTAACGATAAACACATCGAAGTTATCGTTCGTCAGATGCTGCGTAAAGCTACCATCGTTAACGCGGGTAG -CTCCGACTTCCTGGAAGGCGAACAGGTTGAATACTCTCGCGTCAAGATCGCAAACCGCGAACTGGAAGCGAACGGCAAAG -TGGGTGCAACTTACTCCCGCGATCTGCTGGGTATCACCAAAGCGTCTCTGGCAACCGAGTCCTTCATCTCCGCGGCATCG -TTCCAGGAGACCACTCGCGTGCTGACCGAAGCAGCCGTTGCGGGCAAACGCGACGAACTGCGCGGCCTGAAAGAGAACGT -TATCGTGGGTCGTCTGATCCCGGCAGGTACCGGTTACGCGTACCACCAGGATCGTATGCGTCGCCGTGCTGCGGGTGAAG -CTCCGGCTGCACCGCAGGTGACTGCAGAAGACGCATCTGCCAGCCTGGCAGAACTGCTGAACGCAGGTCTGGGCGGTTCT -GATAACGAGTAATCGTTAATCCGCAAATAACGTAAAAACCCGCTTCGGCGGGTTTTTTTATGGGGGGAGTTTAGGGAAAG -AGCATTTGTCAGAATATTTAAGGAATTTCTGAATACTCATAATCAATGTAGAGATGACTAATATCCTGAAACTGACTGAA -CTAATTGAGTCAAACTCGGCAAGGATTCGATACTATTCCTGTGTAACTTTCTTAAGGAACGAGAATGAAACAGGAAGTGG -AAAAGTGGCGACCTTTTGGACATCCGGATGGTGATATTCGTGATTTATCATTTCTTGATGCTCATCAGGCTGTCTACGTT -CAGCATCATGAGGGCAAAGAGCCTTTAGAGTATCGCTTTTGGGTTACCTACTCTCTTCACTGCTTCACAAAAGATTATGA -ACATCAGACGAACGAAGAAAAACAATCGTTAATGTACCACGCGCCTAAAGAATCTCGTCCCTTCTGCCAGCACCGTTATA -ACTTAGCGCGCACACACTTAAAAAGAACTATTTTGGCGCTGCCAGAAAGCAACGTTATTCATGCCGGGTATGGTAGCTAT -GCCGTGATTGAGGTGGACTTAGACGGAGGAGATAAGGCATTTTACTTTGTTGCGTTCAGGGCTTTCAGGGAAAAGAAAAA -ACTCCGTTTGCATGTAACTAGCGCTTATCCCATTTCTGAAAAACAGAAAGGTAAATCAGTGAAATTTTTCACCATTGCCT -ACAACTTATTGAGAAATAAGCAGCTTCCTCAGCCCTCAAAATAACAAAACCCACCTTAAGGTGGGTTTCGCCAGAGAATT -ATCTCTGGTATTCAGAACGCCATTACCGGACTTTGCCTTGACCTTGCGATAATCGCAGGTTGCGGGATGTCTGAATTTCT -TCAGTCTGCTGCATCCTGGAAGATGAGAACATGTGTTCTTATTTTCGTCTCTATCATAGTTGAGTATTTACTCTCTTACA -ATCAGATCTCTTTCATTGCTCAACAGGCGATGGCTTCAGACTTTGCATTACGGAATTTTTAAGAAAGGCAGGGCGAAACG -AGGAAGAAGCTTTTCGCCCTGGACAACATTCCTGCTGACGGCACTACCATAAAAAAACACAACGCTTTCAACAACCTTGC -GTTTTTCATCTTCCGTAGCGGCTCGGAATAAATTTACGTTCTTACATTCCGTCTCATAGTCTTTGCGAGGCGCGTCCCAG -ATAGCTGTCCCAGTCTTTCCATACCGGCTGCAAACCCTGAGCGGTTAACGCGGCAGCAACCGCTTCCGGTCTGCGATCGT -CGTGCGGTGAGAACTGTTCCAACTCGGGGTGATTATCGGCATAGCCACCTGGCTGCGTTTTCGAGAAGGCGCTGACGTTA -TTGATCGCCAGCGGAATAACGCGATCGCGAAACCACGGTGATTCCCGCGTGGAGAGTGACAGTTCAATCTCCGGTGCAAG -CAGTCGGAAGGCGCAGATGGTTTGCACTAACTGGCGTTCATCCATAATCGACGCAGGCTCAATGCCGCCAGTACACGGGC -GCAGGCGCGGAAAGGAGACAGAGTAACGGCTTTGCCAGTAATGCTGTTGCAGCCATAGCAAATGTTCGGCAACCATATAG -CTGTCAACGCGCCAGTTGTCGGAAAGGCCAATTAGCGCGCCGAGGCCTATCTTATCAATCCCCGCACGCCCCAGCCGATC -CGGCGTTTCCAGCCGCCAGAAGAAGTCCTGTTTTTTGCCTTTCAGATGATGGCGGGCATAAGTCGCCTCGTGATATGTCT -CCTGATAAACCATCACGCCATCCAGACCAAGTTGCTTTAACTCGGCGTATTCCGTCTCCGCCAGCGGTTGCACTTCCATC -TGTAGTGAAGAGAACTGTTCACGAAGGGCAGGGAGATGACGACGAAAGTAATCCATCCCCACTTTCGCCTGATGTTCACC -AGTGACTAACAGCAGATGTTCAAAGCCCATCTCCCGTATAGCGGCACTTTCCCTGGCAATATCCGCTTCATCCAGCGTTT -TGCGCTTGATGCGATTACTCATGGAAAATCCACAGTACGTGCAGTCGTTAGCGCAAAGATTGGAAAGATAAAGCGGGACG -TAGAAACTAACTGTGTTGCCAAATCGCTGACGGGTCAGACGCTGCGCCCGTTGGGCCAGTTGTTCCAGATAGCCACTGGC -GGCAGGCGATAACAGCGCCATCATGTCGTCGCGGGTGAGTTGCGAGGCATTTAGCGCCCGCTCTACGTCAGCAGCCGTTT -TGCCGTTGATACGCAGGCGGATGTCGTCCCAGTCCAGTTGTCGCCAGCGATCGCTGAAGGTTTTCATGCCGATGCCTCCA -GAAATCCGGTCAGCGGGCTGGTGGCATGAGCAAAATAACTGCGGCTGCCCGGTCCGGACTGACGTGCCAGTAGGCCTGCT -TCTACCGCCAGACGAAATGCCTTCGCCATGTTGACGGGATCGTCCGCGACGGCAATCGCCGTATTCACTAACACCGCGTC -GGCCCCCATTTCCAGCGCCTGCGCGGCATGGCTGGGAACGCCGATGCCAGCATCGACAACCACCGGCACTGTGGCCTGCT -GGATAATAATCTCCAGCATGGCGCGGGTTTCCAGTCCCTGATTCGAGCCAATCGGCGCGCCGAGCGGCATCACCGCTGCA -CAGCCGACTTCTTCCAGACGTTTACACAATACCGGATCGGCCCCGCAGTAAGGCAGCACGACAAATCCCTGTTGTACCAG -CGTTTCGGCGGCTTTCAGGGTTTCGATGGGATCGGGCAACAGCCAGCGGGCGTCAGGGTGAATCTCTAATTTTAACCAGT -TTGTGCCTAACGCTTCACGAGCCAGATGGGCGGCGAAAATGGCTTCTTCCGCTGTTTTCGCCCCGGATGTATTTGGCAGC -AGGGTCACACCCGCCGCGATAAGCGGTTCGAGGATAGCGTCGTTGTGCTGGCGCAAGTCGACACGTTTCATCGCCAGTGT -CACCAGCTGGCTGCCGGAAGCGCGGATCGCCTCCACCATCAGTTGTGAAGAAGCGAATTTCCCTGTGCCGGTAAACAGAT -GTGAATCAAACGTTTTGTCCGCAATACGTAACATTTCAACCCCCTGCAATAACCTGAAAAAGCAGGATCTGGTCGCCATC -CTGCACGATATGTTGCGCCCACTGCTCACGCGGGACGATTTGCTGATTAATCGCCAGAGCCGCGCCCGCTTGTCGTTGGT -CGAGTTGCTCCAGTAGTTCGTGAACAGTTTGCCCGGCGGCGCACTGCATCGCTTGATCGTTAAACAGGATCTGCATTGCT -TCCTCCGCATACCGGGCAACCACTGGCGCGGCGCAACGCCAGGCTGCGCCACTGGCTCGATTTACCGTCGAACAGTCGGA -GTTCTCCCGCAGGTGTCTCTATACCGCTTAATAACTTAATGGCTTCCAGTGCCTGCAAAGTGCCCATAACCCCGACCACC -GGGCCAACCACGCCCGCCGTGCGGCAGTTGCGTTCTGGCTCCTGGTTATCTGGCCACAGGCAGCGGTAACACCCCTGCTC -CCAGGGCGGCGTCAGTACCATCAACTGACCGCCAAATCCGACCGCGCTGGCGGTGATAAGCGGCGTGTTGAGTGCCACGC -AGGCGGCATTAATCTCCTGGCGAGTCGCCATATTGTCGGTACAGTCGAGCACCACATCGGCCCGTGCAACCGCATCTTTT -AACGCCTCACCCGTTAACCGTTGTTGTAATGCTGTCAGTTGAATGTCGGGATTCAACTGTGTCAGTCGCTGTTGGCTGAC -CTGCGATTTCGGGCGATCGATATCTTCAGTGGTAAAGAGGATTTGTCGTTGCAGATTGCTTAAATGCACATCGTCGTCAT -CTGCCAGTACCAGCGTCCCGACGCCAGCGCCCGCCAGGTACAGCGCAGCAGGTGTACCCAGCCCGCCCAGACCGATAATC -AGCACCTGGCTGTCGAGCAGTTTTTGCTGCCCGTCCAGAGCGATATCGTCGAGCAGGATTTGGCGGCTATAACGCATAAA -GTCACGGTCATTCATCGCCAACTCCTGCAATTTCCAGCAACTGTGCCGTTGCCAAACGCCAGTCTGCGGCTTGAGTAATG -GCGCTGACGACGGCGATACTGCCGACACCCGTTGCTATCACCGCAGGCGCGCGTGCCAGACTGATACCGCCAATCGCCAC -GGTGGGATAATCCGCCAGTCGCTCAACATGCCGTGCCAGCTGTTCCAGCCCCTGCGGTGCAGAAGGCATCTGTTTGGTTT -GCGTCGGGAACACATGTCCCAGCGCGATATAAGAGGGGCGTGCTGCCAGCGCGACGTCGATTTCCATATCGTCATGTGTC -GAAACGCCCAGCCGCAGGCCTGCCGCGCGGATGGCATTGAGATCGGTGGCTTGCAAATCTTCCTGCCCCAAATGGACGCC -ATACGCCTGATGCTTGATCGCCAGCCGCCAGTAATCGTTGATAAACAATCGCGCGTTATAGCGGCGGCCCAGCGCAATTG -CCGCCACGACATCGGCTTCCACCTCTTCATCGCGCCGATCTTTGATGCGTAGCTGGAGAGTACGTACGCCTGCATCCAAC -AGACGTTCGATCCACTGTACGCTGTCCACCACCGGGTACAGTCCTGAACGAAAAGGTACAGGAGGAAAATCAGGCTGATA -CATCACGCTTCCTCCTTACGCAGGTAGATTTCTCCGCCTCTGGCACGGAAGTTCTCCGACATATCCGCCATTCCCATTTC -AATAGTTTGCGTGGCGGCGTAATCACGCACTTCCTGGCTGATTTTCATCGAGCAGAATTTCGGCCCACACATGGAGCAAA -AATGGGCGACTTTACCTGACTCTTGCGGCAGGGTTTCATCGTGATAAGCGCGGGCGGTAAACGGGTCGAGGGCCAGATTA -AACTGGTCTTCCCAGCGAAATTCGAAGCGGGCTTTCGACATGGCGTTATCGCGAATTTGCGCGCCCGGATGCCCTTTCGC -CAGGTCAGCGGCGTGGGCAGCAATCTTATAGGTGATAAGCCCCTGCTTAACATCTTCTTTATTGGGCAGACCCAGATGCT -CTTTTGGCGTTACGTAACAGAGCATCGCGCAGCCAAACCAGCCAATCATCGCCGCACCAATCCCCGACGTGAAGTGGTCA -TAGCCCGGCGCAATATCGGTAGTTAGCGGCCCCAGAGTGTAAAACGGCGCTTCGTGGCAGTGCTCTAACTCCTCGGTCAT -ATTGCGGCGGATCATCTGCATCGGCACGTGGCCTGGGCCTTCAATCATCACCTGCACGTCATATTCCCAGGCAATTTTGG -TCAGTTCGCCCAGCGTATGCAGCTCGGCAAACTGCGCTTCATCGTTGGCGTCCTGAATAGAACCGGGGCGCAGACCGTCG -CCCAGCGACAGCGAAACGTCATAAGCGGCACAGATTTCACAAATTTCGCGGAAGTGTTGATAGAGGAAATTTTCCTGATG -ATGGGAGAGGCACCATTTCGCCATAATCGAACCGCCGCGAGAGACGATACCGGTCAGGCGTTTCGCGGTCATCGGCACAT -AGCGCAGCAGTACGCCCGCATGGATAGTGAAGTAATCCACACCTTGCTCGGCCTGTTCCAGCAGCGTGTCGCGGAACGCT -TCCCAGGTAAGATCTTCGGCGATCCCGTTAACCTTCTCCAGCGCCTGGTAGATCGGCACTGTACCGATCGGCACCGGGCT -GTTACGCAAAATCCACTCGCGGGTTTCGTGAATATAGCGACCGGTGGAGAGATCCATCACCGTATCCGCTCCCCAGCGCG -TGGACCATACCAGCTTTTCCACTTCTTCTTCGATGGAAGAGGTGACCGCCGAGTTGCCGATATTGGCGTTAACTTTTACC -AGGAAATTGCGACCAATAATCATCGGCTCCGATTCCGGATGATTAATGTTGGCCGGGATAATCGCACGTCCGGCAGCAAC -TTCATCACGGACAAATTCCGCAGTGATATTTTCCGGCAGATGTGCGCCAAAGCTCATTCCCGGATGCTGGTGGCGTAAAA -CCTCGCTACGGATGCGCTCGCGGCCCATATTCTCGCGGATGGCGATGAATTCCATTTCCGGCGTGATGATGCCCTGGCGG -GCGTAGTGCAGTTGGGTGACACGGCGTCCTGCTTTGGCGCGTTTTGGTGTTAGTACGCCGCTAAAACGCAGTTCGTCGAG -GCCATCATCTGCCAGCCGCGCTTTAGTGTAATCGGAACTGCGCACGGTAAGTTCTTCGGTATCGCCGCGCGCATCGATCC -ACGGCTGGCGTAGTTTTGCCAGCCCTTGCTGCACGTTAATGGCAATCTGCGGATCACCATACGGGCCGGAGGTGTCGTAG -ACCGGAATCGCTTCGTTTTCTTCGTACTGCGGCTGTTCTTTGCTACCGCCAATTAGCGTCGGGCTAAGCTGGATCTCACG -CATCGGCACGCGCACGCCGGGGTGTGTGCCAGTGATATAAATGCGTTTTGAGTTGGGAAAGGCGGTGCCTTCCAGGGTGT -CGATAAAATGTTGGGCCCGGGCGCGTTGTTCGCGGCGGGTCAGTTTTGTTGCAGACATAGCTCATTCCAAAAAGTTAAGG -ACGTGGCTTGTCAGACGACGGATGAAGCAAGAGACGATCGCCGCAGGGGCGATGCGATAGCAGATTAACTCTTGTTCCCT -TCGCAGGTATTAGCCTGATCAGGTTCCGCGGATCCCGAATAAACGGTCTCAGCCAGTTAAGGCACTCCGACAAGAAATTA -GCCCCGCAAATGGGGCATTGAATGTAAATTACGCGTTAACAGCGCAGAACTCAAGCAGGATGTTTGACGCGGGCGGCGTC -AAGCACCAGCAGAATCAGCTTATCTTCCAGCACAAAGCGCGCTTCCAGCGCCTCGCCGATGTCAGATAAAACCTGTTGAA -ACTCAAGGTAATTATCATGATCGATGGCGGTTTCCAGACTGGAATCGTAGTAATCCATAATCTGTTGAGTATTGGCTTCG -AGTTGCGGCCAAATCTTCGCGGCGCGCGCGAGTTGCCCGTTGCCTTCCAGCTTATGAAGAATGCGCTCATAAATACTGAA -ATGTCCGGCAGACAAGTAATCGACCAGGCTCTGACAAAAATCATCAAGGGCTTTTTCGTTTAGCCTCATGTACGATTCTT -TGCCAGGCTTAATGCCAACCAGATTGTAGTAAGCCACGAGCAGATGCTTACGTACATGTAGCCAGCGATCAACCAGTTTG -TTACTTCCTCTGACGCGCTCCGTCAGGTTATCGAGCTGGTTAAGCATGATTGACTCCGCAAGTTTGTATTCAAAAACTGC -TCAGTGAGAAATGTAAAAACCATGTTAAACATGCCAGTGATGCAAAGGTAGTGCAAGAGCTATGGATCGTATAATTGAAA -AATTAGATCACGGCTGGTGGGTCGTCAGCCATGAACAAAAATTATGGTTGCCGAAGGGAGAATTGCCATATGGCGAAGCG -GCAAATTTCGATCTTGTGGGTCAGCGCGCACTACAAATCGGCGAATGGCAGGGGGAACCTGTTTGGTTAGTACAACAGCA -GCGGCGTCACGATATGGGGTCGGTACGTCAGGTCATTGATCTCGATGTTGGGCTGTTTCAACTGGCCGGACGAGGCGTAC -AACTGGCGGAGTTTTACCGATCGCATAAATACTGTGGTTACTGCGGGCATGAAATGTATCCGAGCAAAACCGAATGGGCG -ATGCTGTGCAGCCATTGCCGTGAGCGTTACTACCCGCAAATCGCCCCCTGCATTATTGTTGCCATCCGTCGCGATGATTC -GATCCTCCTCGCCCAGCATACCCGCCATCGTAACGGTGTCCATACAGTACTTGCCGGATTCGTCGAAGTGGGCGAAACCC -TCGAGCAGGCAGTCGCGCGGGAAGTGATGGAAGAGAGCGGAATTAAAGTTAAAAACTTGCGTTACGTGACTTCTCAGCCG -TGGCCGTTTCCTCAGTCTTTAATGACCGCGTTTATGGCGGAATATGACAGCGGCGACATCGTGATCGACCCGAAAGAATT -GCTCGAGGCGAACTGGTATCGCTATGACGATTTGCCGTTACTCCCGCCGCCCGGCACCGTAGCGCGCCGTCTGATAGAAG -ATACGGTGGCGATGTGTCGGGCAGAGTATGAGTGATGATACACTGACCGCCTGACGCACTAAGGAACAGCCAAAATGACC -GAACTTAAAAACGATCGTTATCTGCGGGCGCTGCTGCGCCAGCCCGTTGATGTCACTCCAGTATGGATGATGCGCCAGGC -GGGTCGCTATCTACCGGAATATAAAGCCACGCGCGCCCAGGCAGGCGATTTTATGTCGCTGTGCAAAAACGCCGAGCTGG -CGTGCGAAGTGACTTTGCAACCGCTGCGTCGCTACCCGCTGGATGCGGCGATCCTCTTTTCCGATATCCTCACCGTGCCG -GACGCGATGGGGTTAGGGCTCTATTTTGAAGCCGGAGAAGGTCCGCGTTTTACCTCGCCAGTCACCTGCAAAGCTGACGT -CGATAAACTGCCAATTCCGGACCCGGAAGATGAACTGGGTTACGTGATGAACGCGGTGCGTACCATTCGTCGCGAACTGA -AAGGCGAAGTGCCGCTGATTGGTTTTTCCGGCAGCCCGTGGACGCTGGCGACCTACATGGTGGAAGGCGGCAGCAGCAAA -GCCTTCACCGTGATCAAAAAAATGATGTATGCCGATCCGCAGGCGCTGCACGCTCTGCTCGATAAACTGGCGAAAAGCGT -CACTTTGTATCTGAATGCGCAGATTAAAGCCGGTGCTCAGGCAGTGATGATTTTCGACACCTGGGGCGGCGTGCTTACCG -GGCGCGATTATCAACAGTTCTCGCTCTATTACATGCATAAAATTGTTGATGGTTTACTGCGTGAAAACGACGGTCGCCGC -GTACCGGTCACGCTGTTTACCAAAGGCGGCGGACAGTGGCTGGAAGCCATGGCAGAAACCGGTTGCGATGCGCTGGGCCT -CGACTGGACAACGGACATCGCCGATGCGCGCCGCCGTGTGGGCAATAAAGTCGCGTTGCAGGGTAATATGGATCCGTCGA -TGCTGTACGCGCCGCCTGCCCGCATTGAAGAAGAAGTAGCGACTATACTTGCAGGTTTCGGTCACGGCGAAGGTCATGTC -TTTAACCTTGGTCACGGCATTCATCAGGATGTGCCGCCAGAACATGCTGGCGTGTTCGTGGAGGCAGTGCATCGACTGTC -TGAACAGTATCACCGCTAAGGAGTGATTATGGATCTCGCGTCATTACGCGCTCAACAAATCGAACTGGCTTCTTCTGTGA -TCCGCGAGGATCGACTCGATAAAGATCCACCGGATCTGATCGCCGGAGCCGATGTCGGGTTTGAGCAGGGCGGAGAAGTG -ACGCGAGCGGCGATGGTGCTGCTGAAATATCCCTCGCTTGAGCTGGTCGAGTATAAAGTTGCCCGCATCGCCACCACCAT -GCCTTACATTCCAGGTTTTCTTTCCTTCCGCGAATATCCTGCGCTGCTGGCAGCGTGGGAGATGCTGTCGCAAAAGCCGG -ATTTAGTGTTTGTCGATGGTCATGGGATCTCGCATCCTCGCCGTCTTGGCGTCGCCAGCCATTTTGGCTTATTGGTGGAT -GTGCCGACCATTGGCGTGGCGAAAAAACGGCTCTGCGGTAAATTCGAACCGCTCTCCAGCGAACCGGGCGCGCTGGCCCC -ACTGATGGATAAAGGCGAGCAGCTGGCCTGGGTCTGGCGCAGCAAAGCGCGCTGTAACCCGTTGTTTATCGCTACCGGCC -ATCGGGTCAGCGTGGACAGCGCGCTGGCGTGGGTACAACGCTGCATGAAAGGCTATCGTCTGCCGGAGCCAACGCGCTGG -GCGGACGCGGTGGCCTCGGAACGTCCGGCGTTCGTGCGCTATACAGCAAATCAGCCCTAATTCAGGTAAACTGCGGATAA -TTTCCGTATTTGAGAACTCAACATGTTACAAAACCCAATTCATCTGCGTCTGGAGCGCCTGGAAAGCTGGCAGCATGTCA -CTTTCATGGCTTGCTTATGCGAACGCATGTACCCCAATTACGCCATGTTCTGCCAGCAAACCGGTTTTGGTGATGGGCAA -ATTTACCGTCGCATTCTCGATCTCATCTGGGAAACGCTGACCGTTAAAGACGCAAAAGTAAATTTCGACAGCCAACTGGA -GAAATTTGAAGAAGCGATTCCTTCAGCCGACGATTTCGATCTGTACGGCGTTTATCCGGCAATCGATGCCTGCGTGGCGT -TAAGTGAACTGGTCCATTCGCGTTTGAGTGGTGAAACGCTCGAACACGCGGTGGAAGTGAGTAAGACCTCCATCACGACC -GTTGCGATGCTGGAAATGACTCAGGCTGGTCGCGAAATGAGCGATGAAGAGCTTAAAGAAAACCCAGCTGTAGAGCAAGA -ATGGGACATTCAGTGGGAAATATTCCGACTTTTAGCTGAGTGCGAAGAACGCGATATCGAGCTGATAAAAGGCCTTAGGG -CAGACCTGCGTGAGGCGGGTGAGAGCAATATTGGTATAATTTTTCAGCAATAAGACCAGAAAACGTGATTTAACGCCTGA -TTTGTCGTACCTGGAGTCTTCCCTTTCGCCCCCCGTCTGGTCTACATTTGGGGGGCGAAAAAAAGTGGCTATCGGTGCGT -GTATGCAGGAGAGTGCTATTCTGGCATTTCCGTCGCACTCGATGCTTAGCAAGCGATAAACACATTGTAAGGATAACTTA -TGAACAAGACTCAACTGATTGATGTAATTGCAGAGAAAGCAGAACTGTCCAAAACCCAGGCTAAAGCTGCTCTGGAGTCC -ACTCTGGCTGCAATTACTGAGTCTCTGAAAGAAGGCGATGCTGTACAACTGGTTGGTTTCGGTACCTTCAAAGTGAACCA -CCGCGCTGAGCGTACTGGCCGCAACCCGCAGACCGGTAAAGAAATCAAAATTGCCGCAGCTAACGTACCGGCATTTGTTT -CTGGCAAGGCACTGAAAGACGCAGTTAAGTAAGATTGCGTGGCAGTGAACAGTTTTAACGAAGGGGTGGTTTCACCCCTT -TTGTCTTTCTGGCGTCGATCATTGATGCTGGCTGGCGCTCTGCTTCTCACTGCCTGTAGTCATAACTCTTCACTTCCTCC -CTTTACCGCCAGTGGATTTGCTGAAGACCAGGGCGCGGTACGCATCTGGCGAAAAGACAGCGGCGATAATGTGCATCTGC -TTGCCGTGTTTAGCCCGTGGCGCAGTGGCGATACCACGACGCGAGAGTATCGCTGGCAGGGCGATAACCTCACGCTCATC -AATATCAATGTTTACAGCAAACCGCCGGTGAATATTCGCGCGCGTTTTGACGATCGCGGTGATCTGAGCTTTATGCAACG -TGAATCCGATGGGGAAAAGCAGCAGCTTTCTAACGACCAAATCGATTTATACCGTTATCGTGCTGATCAGATCCGCCAGA -TTAGCGATGCCTTACGTCAGGGGAGAGTCGTGCTGCGCCAGGGGCGCTGGCATGCGATGGAACAGACCGTGACCACCTGC -GAAGGGCAAACCATTAAACCTGATTTAGATTCGCAGGCGATAGCGCATATCGAGCGCCGCCAGAGCCGCTCTTCTGTTGA -TGTCAGCGTGGCATGGCTGGAAGCGCCCGAAGGTTCGCAATTACTGTTAGTGGCAAACTCTGATTTCTGTCGCTGGCAAC -CCAACGAGAAAACGTTCTGATTTACCAGTGGCCCATACCCATATGACCGCCACCACCGCAGCCGCCGTAGCCCATGCCCA -TTCCGGCTCCGCGCGGAATACCCGCTTCAGCCATCGCGATATCTCGTTTCACCCGTAACTCATCTAACGACTGACGCAAA -TTCTCCATCTCTTTGGCGACCGCGTTAATTTTGCTGCTATCCGGTGGGTTCGCGGCTAACAGGGCATTGTATTCATAACG -CTTCGTCACCAGTTGCTGTTGCAGTGCGCTGCTTTGAGCGTAAAAGTCATTATGGATTTTCTGCCACGCTGTCTGTTGTT -CGCTGGTCAAAGGCGCGGCATTTTGCTGCCACATACCGTGTCCGCCGTGAGCAAATGCAGATGTCGATCCCATCGCCATT -GCTGAAAGCGCCATCATTACCAGGGCAATTTTCGTGTTCCGTTTCATGGTTAATCCTCCAGTGGTTGTCTTACTTCGGGT -ATTGCATCTTCCGTGCCAACGATGAAACGCTGATATGACGGGTAATCTGGCATGATAAACGAGTAAAAATGACTCGCCTG -CTGCGGGTAGCGAGTCATTTTTACTCATTGAAACTTAAGCCTTTGTGTTACAGCGCAGGGTAAGCGCTGATAAAAGATGG -CATGATTTCTGCTGTCAGAAAGGGATGAGCAGGCAAAGAAGAAGATGCGTTTTATGCAACGTTCTAAAGACTCCTTAGCT -AAATGGTTAAGCGCGATCCTCCCCGTGGTCATTGTTGGGCTGGTGGGATTGTTTGCGGTAACTGTGATTCGTGATTATGG -GCGGGCAAGCGAGGCAGACCGCCAGGCATTACTGGAAAAAGGTAATGTGCTTATCCGCGCTCTGGAGTCGGGAAGCCGCG -TAGGGATGGGGATGCGAATGCACCATGTACAGCAACAGGCGCTTCTGGAAGAGATGGCGGGACAGCCGGGAGTGTTGTGG -TTCGCAGTCACCGATGCGCAGGGCATCATTATTCTTCATAGCGACCCCGATAAGGTCGGGCGTGCGCTCTATTCGCCGGA -TGAAATGCAGAAATTAAAGCCAGAGGAAAACTCCCGCTGGCGGCTGCTTGGGAAAACGGAAACTACGCCTGCACTTGAGG -TCTATCGTTTGTTCCAGCCAATGTCAGCGCCCTGGCGGCATGGAATGCACAATATGCCGCGCTGTAACGGCAAAGCTGTG -CCACAAGTAGATGCACAACAGGCTATTTTTATCGCCGTTGATGCCAGTGATCTGGTTGCAACCCAGAGTGGGGAAAAGCG -CAATACCCTGATTATCCTCTTCGCCCTGGCGACGGTCTTGCTGGCAAGCGTATTGTCATTCTTCTGGTATCGCCGCTATC -TGCGCTCGCGCCAGCTTCTACAAGATGAAATGAAGCGCAAAGAGAAGCTGGTGGCGCTGGGGCATCTTGCGGCAGGCGTT -GCCCACGAAATCCGTAACCCACTTTCCTCGATTAAAGGACTGGCGAAATACTTTGCCGAGCGCGCGCCTGCAGGGGGAGA -AGCGCATCAACTGGCGCAGGTGATGGCGAAAGAGGCCGACCGTTTAAACCGCGTGGTAAGCGAGTTGCTGGAACTGGTTA -AGCCAACGCATCTGGCTTTGCAGGCGGTGGATCTCAACACGCTGATTAACCACTCATTACAGCTGGTAAGTCAGGATGCA -AACAGCCGGGAGATCCAGTTACGCTTTACCGCCAACGACACATTACCGGAAATTCAGGCCGACCCGGACAGGCTGACTCA -GGTCCTGTTGAATCTCTATCTCAATGCTATTCAGGCGATTGGTCAGCATGGCGTGATTAGCGTGACGGCCAGCGAAAGCG -GCGCGGGCGTGAAAATCAGCGTTACCGACAGCGGTAAGGGAATTGCGGCAGATCAGCTTGATGCCATCTTCACTCCGTAC -TTCACCACTAAAGCCGAAGGCACCGGATTGGGGCTGGCGGTCGTGCATAATATTGTTGAACAACACGGTGGTACAATTCA -GGTCGCAAGCCAGGAGGGAAAAGGCTCAACGTTCACCCTCTGGCTTCCGGTCAATATTACGCGTAAGGACCCACAAGGAT -GACGCACGATAATATCGATATTCTGGTGGTGGATGATGACATTAGCCACTGCACTATTTTGCAGGCTTTACTGCGCGGCT -GGGGCTATAACGTCGCGCTGGCGAACAGCGGGCGACAGGCGTTGGAGCAGGTGCGGGAACAGGTTTTTGATCTTGTGCTT -TGCGATGTGCGAATGGCGGAGATGGACGGCATCGCCACGCTGAAAGAGATCAAAGCGTTAAACCCGGCAATTCCGGTGCT -GATTATGACTGCGTACTCCAGCGTCGAGACGGCGGTAGAGGCACTGAAAACTGGGGCGCTGGATTATCTCATCAAGCCGC -TGGATTTCGATAACCTACAGGCGACGCTGGAAAAAGCGCTCGCGCATACGCACAGTATTGATGCTGAAACACCTGCGGTG -ACTGCCAGCCAGTTCGGTATGGTCGGTAAAAGCCCGGCGATGCAACACCTGCTCAGTGAAATCGCCCTCGTCGCGCCATC -GGAAGCCACGGTACTGATCCACGGCGATTCCGGCACCGGTAAAGAGCTGGTCGCCAGGGCGATTCACGCCAGTAGCGCAC -GTAGCGAAAAACCGCTGGTAACGCTCAACTGTGCGGCACTCAACGAATCCTTGCTGGAATCTGAATTGTTCGGTCACGAA -AAAGGGGCGTTTACTGGAGCCGATAAACGCCGGGAAGGGCGCTTTGTTGAGGCGGACGGCGGCACGCTGTTTCTCGATGA -AATTGGCGATATCTCGCCGATGATGCAGGTGCGTCTGCTGCGTGCGATTCAGGAGCGCGAAGTTCAGCGTGTCGGTAGCA -ACCAGATTATCTCGGTTGATGTCCGGCTGATTGCGGCGACCCATCGCGATCTTGCCGCAGAGGTGAATGCCGGGCGTTTT -CGCCAGGATCTCTACTATCGCCTGAATGTGGTGGCGATTGAAGTACCATCGCTGCGGCAACGGCGGGAAGATATCCCTCT -GCTGGCTGGCCATTTTCTGCAGCGCTTTGCCGAGCGTAATCGCAAGGCGGTAAAAGGTTTTACGCCCCAGGCGATGGATC -TGTTGATTCATTACGACTGGCCGGGAAATATTCGTGAGCTGGAAAACGCGGTGGAACGGGCAGTGGTGCTGCTGACCGGG -GAATATATTTCCGAACGCGAGCTGCCGCTGGCGATTGCCAGTACGCCGATCCCGCTGGGACAAAGTCAGGATATTCAGCC -GTTGGTGGAAGTGGAAAAAGAGGTGATTCTGGCGGCGCTGGAGAAAACGGGCGGCAACAAAACCGAAGCCGCCCGTCAGT -TAGGGATCACGCGCAAAACGCTATTGGCAAAACTGTCGCGTTAGTTCTGCTCGCGTTCGATAGCGCGCCAGCCGATATCT -TTCCGGCAGAAGCAGTCGTCCCAGTGGATATCGGTCATTAAGGCATAGGCGCGTTTCTGCGCTTCTGCCACGGTATGACC -CAGCGCGGTGACGCACAGTACGCGCCCGCCGTTGGTCACTACCTGCTCGTCATCCGCCAGTTTTGTGCCCGCGTGGAACA -CTTTGCCGCCTGCCACTTCTTCCAGCGGCAGGCCGTGGATCACGTCACCGGTGCGGTAATCACCCGGATATCCACCCGCA -GCCATCACCACGCCGAGAGAAGCGCGTTCATCCCACTCGGACGTTTTCTCGTCCAGTTTGCTTTCACAGGCCGCCAGGCA -GAGCTCAACCAGATCGGACTTCATGCGCAGCATAATCGGCTGGGTTTCCGGATCGCCAAAGCGGCAGTTAAATTCAATAA -CCTTCGGATTGCCCTGTTTGTCGATCATCAGGCCCGCGTAGAGAAAACCGGTGTAGGTGTTGCCTTCCGCCGCCATGCCT -TTCACGGTTGGCCAGATAATACGTTCCATGGTGCGCTGATGAACGTCATCGGTTACTACCGGCGCGGGGGAGTAAGCGCC -CATCCCGCCGGTGTTTGGTCCGGTATCTTTATCGCCTACGCGTTTGTGATCCTGGCTGGTAGCCATCGGCAGCACATGCT -CGCCGTCCACCATCACGATAAAGCTCGCTTCTTCGCCATCGAGGAACTCTTCGATAACGATGCGATGACCCGCGTCGCCA -AAAGCGTTGCCCGCCAGCATATCGTGAACAGCCGCTTCCGCTTCTTCCAGCGTCATCGCCACGATAACGCCTTTCCCGGC -AGCCAGACCGTCCGCTTTAATGACGATTGGCGCGCCTTTCTCACGCAGATACGCCAGCGCAGGTTCTACCTCGGTGAAGT -TCTGGTATTCCGCCGTAGGGATCTTATGGCGGGCCAGGAAATCTTTGGTAAACGCTTTTGAGCCTTCCAGTTGGGCCGCA -CCTGCGGTTGGGCCGAAGATTTTCAGCCCGGCGGCGCGGAAGGTATCGACCACGCCTTTCACCAGCGGCGCTTCCGGGCC -GACGATGGTCAGATCAATCTTTTCGTTTTGTGCGAAATCCAACAGCGCCGGGATATCGGTCACGCCAATAGCAACGTTTT -GCAGCGCGGGTTCCAGTGCAGTGCCTGCATTACCCGGAGCAACAAAAACAGTCTCAACCAGCGGCGACTGGGCCGCTTTC -CAGGCCAGCGCGTGCTCGCGCCCGCCGTTACCAATCACTAATACTTTCATCTATTGCTCCATTAATGGCGGAAGTGGCGC -ATGTCGGTGAAGAGCATCGCAATACCGTGCTCGTCGGCGGCGGCAATCACTTCGTCATCACGGATAGAACCGCCAGGCTG -GATTACGCAGGTCACGCCCGCAGCGGCGGCGGCATCAATACCGTCGCGGAACGGGAAGAACGCGTCAGAAGCCATCGAGG -AACCTTTCACTTCCAGGCCTTCATCGGCCGCTTTAATACCGGCGATTTTTGCGGAGTACACGCGGCTCATCTGGCCCGCG -CCAATGCCGATAGTCATATTGTTTTTGGCATAGACGATAGCGTTGGATTTCACAAACTTCGCCACCTTCCAGCAGAACAG -CGCATCACGCAGTTCCTGTTCGCTCGGCTGACGTTTGGTCACCACGCGCAGTTCTTCCGCACCGACCATCCCCAGGTCAC -GATCCTGAACCAGCAGACCGCCGTTCACGCGTTTGAAATCGAGGCCCGGAACACGCTCGCCCCACTGACCGCAGGTCAGA -ACGCGTACGTTCTGTTTGGCGGCGGTGATTTTCAGGGCTTCTTCGCTGGCGGACGGCGCAATAATCACTTCGACAAACTG -ACGAGAAATGATGGCCTGTGCGGTTTCCGCATCCAGCTCGCGGTTAAAGGCAATGATGCCGCCGAATGCGGAGGTTGGGT -CGGTTTTGTACGCGCGATCGTAAGCATCAAGAATGGAATTGCCGATAGCCACGCCGCAAGGGTTGGCGTGCTTCACAATC -ACACATGCCGGCTCGGCGAACTCTTTCACGCACTCCAGCGCCGCATCGGTATCGGCGATGTTGTTATAAGAGAGGGCTTT -ACCCTGAACCTGGGTTGCGGTAGCAACGGAGGCTTCTTTCACATTCTCTTCTATATAGAAGGCAGCCTGCTGGTGGCTGT -TCTCGCCGTAACGCATATCCAGCTTCTTAATGAAGTTCAGGTTCAGCGTGCGTGGGAAGCGACCGGCGGCTTCTTTGCTT -TCACCGTGGTAAGCCGGAACCATGCTGCCGAAGTAGTTGGCAATCATGCTGTCGTAGGCGGCAGTGTGTTCGAAGGCTTT -GATGGCGAGGTCGAAACGGGTTGCAAGCGTCAGCGATCCTTCGTTGTCATCCATCTCTTTAATAATGGCGTCATAGTCGC -TGCTCTTCACCACGATTGCGACATCTTTATGGTTCTTGGCGGCGGAGCGCACCATCGTTGGGCCGCCGATATCGATGTTC -TCAACCGCATCTTCCAGCGAGCAACCTTCACGGGCCACGGTCTGGGCGAACGGATACAGGTTAACAACCACCATATCGAT -AGGCTGGATCTGATGTTCTTCCATAATGGCATCGTCCTGGCCGCGACGGCCCAGAATGCCACCATGTACTTTCGGATGCA -GGGTCTTCACGCGTCCATCCATCATCTCCGGGAAACCGGTGTAATCGGAAACTTCGGTTACCGGCAGACCTTTTTCTGCT -AACAGACGGGCAGTGCCCCCTGTAGACAGCAGCTCCACACCGCGTGCGGAAAGTGCCTGGGCGAATTCGACGATACCGGC -TTTGTCAGAAACACTGAGCAGAGCGCGGCGGACTGGACGACGTTGTTGCATGGTAAATCCCCTGGATTTGACTATTACAG -AGAGCGTTAGCTGAATTTTTCGCGAAAAACTCAGCTAACGCCCCTAACGGGGCATCCTTATTTTTCGCCCGCATTGTAAC -GAAAACGTTTGCGCAACGCTCGCGAATTTTTCTCTTTCAATGGTGATCACAATTTTGACTGTGGTTACCGTGGGCAAAAT -ACAGAAATTACATTGATGATTGTGGATAACTCTGTGCGTAAAAAGGTATAAAGCGGGCTTTTGCTGGGGAATGCAGCAGT -CAGTCATTTTTCTGCAATTTTTCTATTGCGGCCTGCGGAGAACTCCCTATAATGCGCCTCCATCGACACGGCGGATGTGA -ATCACTTCACACAAACAGCCGGTTCGGTTGAAGAGAAAAATCCTGAAATTCAGGGTTGACTCTGAAAGAGGAAAGCGTAA -TATACGCCACCTCGCGACAGTGCGCTAAAGCGCGTCGCAACTGCTCTTTAACAATTTATCAGACAATCTGTGTGGGCACT -CGAAGATACGGATTCTTAACGTCGCAAGACGAAAAATGAATACCAAGTCTCAAGAGTGAACACGTAATTCATTACGAAGT -TTAATTCTTTGAGCATCAAACTTTTAAATTGAAGAGTTTGATCATGGCTCAGATTGAACGCTGGCGGCAGGCCTAACACA -TGCAAGTCGAACGGTAACAGGAAGAAGCTTGCTTCTTTGCTGACGAGTGGCGGACGGGTGAGTAATGTCTGGGAAACTGC -CTGATGGAGGGGGATAACTACTGGAAACGGTAGCTAATACCGCATAACGTCGCAAGACCAAAGAGGGGGACCTTCGGGCC -TCTTGCCATCGGATGTGCCCAGATGGGATTAGCTAGTAGGTGGGGTAACGGCTCACCTAGGCGACGATCCCTAGCTGGTC -TGAGAGGATGACCAGCCACACTGGAACTGAGACACGGTCCAGACTCCTACGGGAGGCAGCAGTGGGGAATATTGCACAAT -GGGCGCAAGCCTGATGCAGCCATGCCGCGTGTATGAAGAAGGCCTTCGGGTTGTAAAGTACTTTCAGCGGGGAGGAAGGG -AGTAAAGTTAATACCTTTGCTCATTGACGTTACCCGCAGAAGAAGCACCGGCTAACTCCGTGCCAGCAGCCGCGGTAATA -CGGAGGGTGCAAGCGTTAATCGGAATTACTGGGCGTAAAGCGCACGCAGGCGGTTTGTTAAGTCAGATGTGAAATCCCCG -GGCTCAACCTGGGAACTGCATCTGATACTGGCAAGCTTGAGTCTCGTAGAGGGGGGTAGAATTCCAGGTGTAGCGGTGAA -ATGCGTAGAGATCTGGAGGAATACCGGTGGCGAAGGCGGCCCCCTGGACGAAGACTGACGCTCAGGTGCGAAAGCGTGGG -GAGCAAACAGGATTAGATACCCTGGTAGTCCACGCCGTAAACGATGTCGACTTGGAGGTTGTGCCCTTGAGGCGTGGCTT -CCGGAGCTAACGCGTTAAGTCGACCGCCTGGGGAGTACGGCCGCAAGGTTAAAACTCAAATGAATTGACGGGGGCCCGCA -CAAGCGGTGGAGCATGTGGTTTAATTCGATGCAACGCGAAGAACCTTACCTGGTCTTGACATCCACGGAAGTTTTCAGAG -ATGAGAATGTGCCTTCGGGAACCGTGAGACAGGTGCTGCATGGCTGTCGTCAGCTCGTGTTGTGAAATGTTGGGTTAAGT -CCCGCAACGAGCGCAACCCTTATCCTTTGTTGCCAGCGGTCCGGCCGGGAACTCAAAGGAGACTGTTAGTGATAAACTGG -AGGAAGGTGGGGATGACGTCAAGTCATCATGGCCCTTACGACCAGGGCTACACACGTGCTACAATGGCGCATACAAAGAG -AAGCGACCTCGCGAGAGCAAGCGGACCTCATAAAGTGCGTCGTAGTCCGGATTGGAGTCTGCAACTCGACTCCATGAAGT -CGGAATCGCTAGTAATCGTGGATCAGAATGCCACGGTGAATACGTTCCCGGGCCTTGTACACACCGCCCGTCACACCATG -GGAGTGGGTTGCAAAAGAAGTAGGTAGCTTAACCTTCGGGAGGGCGCTTACCACTTTGTGATTCATGACTGGGGTGAAGT -CGTAACAAGGTAACCGTAGGGGAACCTGCGGTTGGATCACCTCCTTACCTTAAAGAAGCGTTCTTTGCAGTGCTCACACA -GATTGTCTGATAGAAAGTGAAAAGCAAGGCGTCTTGCGAAGCAGACTGATACGTCCCCTTCGTCTAGAGGCCCAGGACAC -CGCCCTTTCACGGCGGTAACAGGGGTTCGAATCCCCTAGGGGACGCCACTTGCTGGTTTGTGAGTGAAAGTCACCTGCCT -TAATATCTCAAAACTCATCTTCGGGTGATGTTTGAGATATTTGCTCTTTAAAAATCTGGATCAAGCTGAAAATTGAAACA -CTGAACAACGAAAGTTGTTCGTGAGTCTCTCAAATTTTCGCAACACGATGATGAATCGTAAGAAACATCTTCGGGTTGTA -AGGTTAAGCGACTAAGCGTACACGGTGGATGCCCTGGCAGTCAGAGGCGATGAAGGACGTGCTAATCTGCGATAAGCGTC -GGTAAGGTGATATGAACCGTTATAACCGGCGATTTCCGAATGGGGAAACCCAGTGTGTTTCGACACACTATCATTAACTG -AATCCATAGGTTAATGAGGCGAACCGGGGGAACTGAAACATCTAAGTACCCCGAGGAAAAGAAATCAACCGAGATTCCCC -CAGTAGCGGCGAGCGAACGGGGAGCAGCCCAGAGCCTGAATCAGTGTGTGTGTTAGTGGAAGCGTCTGGAAAGGCGCGCG -ATACAGGGTGACAGCCCCGTACACAAAAATGCACATGCTGTGAGCTCGATGAGTAGGGCGGGACACGTGGTATCCTGTCT -GAATATGGGGGGACCATCCTCCAAGGCTAAATACTCCTGACTGACCGATAGTGAACCAGTACCGTGAGGGAAAGGCGAAA -AGAACCCCGGCGAGGGGAGTGAAAAAGAACCTGAAACCGTGTACGTACAAGCAGTGGGAGCACGCTTAGGCGTGTGACTG -CGTACCTTTTGTATAATGGGTCAGCGACTTATATTCTGTAGCAAGGTTAACCGAATAGGGGAGCCGAAGGGAAACCGAGT -CTTAACTGGGCGTTAAGTTGCAGGGTATAGACCCGAAACCCGGTGATCTAGCCATGGGCAGGTTGAAGGTTGGGTAACAC -TAACTGGAGGACCGAACCGACTAATGTTGAAAAATTAGCGGATGACTTGTGGCTGGGGGTGAAAGGCCAATCAAACCGGG -AGATAGCTGGTTCTCCCCGAAAGCTATTTAGGTAGCGCCTCGTGAATTCATCTCCGGGGGTAGAGCACTGTTTCGGCAAG -GGGGTCATCCCGACTTACCAACCCGATGCAAACTGCGAATACCGGAGAATGTTATCACGGGAGACACACGGCGGGTGCTA -ACGTCCGTCGTGAAGAGGGAAACAACCCAGACCGCCAGCTAAGGTCCCAAAGTCATGGTTAAGTGGGAAACGATGTGGGA -AGGCCCAGACAGCCAGGATGTTGGCTTAGAAGCAGCCATCATTTAAAGAAAGCGTAATAGCTCACTGGTCGAGTCGGCCT -GCGCGGAAGATGTAACGGGGCTAAACCATGCACCGAAGCTGCGGCAGCGACGCTTATGCGTTGTTGGGTAGGGGAGCGTT -CTGTAAGCCTGCGAAGGTGTGCTGTGAGGCATGCTGGAGGTATCAGAAGTGCGAATGCTGACATAAGTAACGATAAAGCG -GGTGAAAAGCCCGCTCGCCGGAAGACCAAGGGTTCCTGTCCAACGTTAATCGGGGCAGGGTGAGTCGACCCCTAAGGCGA -GGCCGAAAGGCGTAGTCGATGGGAAACAGGTTAATATTCCTGTACTTGGTGTTACTGCGAAGGGGGGACGGAGAAGGCTA -TGTTGGCCGGGCGACGGTTGTCCCGGTTTAAGCGTGTAGGCTGGTTTTCCAGGCAAATCCGGAAAATCAAGGCTGAGGCG -TGATGACGAGGCACTACGGTGCTGAAGCAACAAATGCCCTGCTTCCAGGAAAAGCCTCTAAGCATCAGGTAACATCAAAT -CGTACCCCAAACCGACACAGGTGGTCAGGTAGAGAATACCAAGGCGCTTGAGAGAACTCGGGTGAAGGAACTAGGCAAAA -TGGTGCCGTAACTTCGGGAGAAGGCACGCTGATATGTAGGTGAAGCGACTTGCTCGTGGAGCTGAAATCAGTCGAAGATA -CCAGCTGGCTGCAACTGTTTATTAAAAACACAGCACTGTGCAAACACGAAAGTGGACGTATACGGTGTGACGCCTGCCCG -GTGCCGGAAGGTTAATTGATGGGGTTAGCGCAAGCGAAGCTCTTGATCGAAGCCCCGGTAAACGGCGGCCGTAACTATAA -CGGTCCTAAGGTAGCGAAATTCCTTGTCGGGTAAGTTCCGACCTGCACGAATGGCGTAATGATGGCCAGGCTGTCTCCAC -CCGAGACTCAGTGAAATTGAACTCGCTGTGAAGATGCAGTGTACCCGCGGCAAGACGGAAAGACCCCGTGAACCTTTACT -ATAGCTTGACACTGAACATTGAGCCTTGATGTGTAGGATAGGTGGGAGGCTTTGAAGTGTGGACGCCAGTCTGCATGGAG -CCGACCTTGAAATACCACCCTTTAATGTTTGATGTTCTAACGTTGACCCGTAATCCGGGTTGCGGACAGTGTCTGGTGGG -TAGTTTGACTGGGGCGGTCTCCTCCTAAAGAGTAACGGAGGAGCACGAAGGTTGGCTAATCCTGGTCGGACATCAGGAGG -TTAGTGCAATGGCATAAGCCAGCTTGACTGCGAGCGTGACGGCGCGAGCAGGTGCGAAAGCAGGTCATAGTGATCCGGTG -GTTCTGAATGGAAGGGCCATCGCTCAACGGATAAAAGGTACTCCGGGGATAACAGGCTGATACCGCCCAAGAGTTCATAT -CGACGGCGGTGTTTGGCACCTCGATGTCGGCTCATCACATCCTGGGGCTGAAGTAGGTCCCAAGGGTATGGCTGTTCGCC -ATTTAAAGTGGTACGCGAGCTGGGTTTAGAACGTCGTGAGACAGTTCGGTCCCTATCTGCCGTGGGCGCTGGAGAACTGA -GGGGGGCTGCTCCTAGTACGAGAGGACCGGAGTGGACGCATCACTGGTGTTCGGGTTGTCATGCCAATGGCACTGCCCGG -TAGCTAAATGCGGAAGAGATAAGTGCTGAAAGCATCTAAGCACGAAACTTGCCCCGAGATGAGTTCTCCCTGACTCCTTG -AGAGTCCTGAAGGAACGTTGAAGACGACGACGTTGATAGGCCGGGTGTGTAAGCGCAGCGATGCGTTGAGCTAACCGGTA -CTAATGAACCGTGAGGCTTAACCTTACAACGCCGAAGGTGTTTTGGCGGATTGAGAGAAGATTTTCAGCCTGATACAGAT -TAAATCAGAACGCAGAAGCGGTCTGATAAAACAGAATTTGCCTGGCGGCAGTAGCGCGGTGGTCCCACCTGACCCCATGC -CGAACTCAGAAGTGAAACGCCGTAGCGCCGATGGTAGTGTGGGGTCTCCCCATGCGAGAGTAGGGAACTGCCAGGCATCA -AATTAGAAAAACCCCGGTCCATAAGGCCGGGGTTTTTTGCATATCAATTATTTGCATGATGAAGGGAATCTCATGTCAGT -TCTGTATATCCAAATTCGTCGTAATCAAATTACTGTTCGCGATCTTGAAAGCAAACGTGAAGTGTCAGGAGACGCTGCCT -TCAGTAACCAGCGCCTGTTAATCGCCAATTTCTTTGTTGCAGAAAAAGTTCTGCAAGATCTTGTTCTGCAACTCCACCCA -CGTTCAACCTGGCATTCTTTTTTGCCAGCAAAACGTATGGATATTGTTGTGAGCGCACTGGAAATGAATGAGGGCGGTTT -GTCACAGGTTGAGGAACGCATTCTCCATGAAGTGGTCGCTGGGGCAACGTTAATGAAATATCGCCAGTTCCACATCCATG -CGCAATCAGCGGTACTCAGTGATAGTGCGGTCATGGCAATGCTTAAGCAGAAATAATCGTGTCACCATTGGTGGGTACTA -AACCTGAAGTTCAGCCCACCGGGATGAGAAAAAATCGCCTACGCCCCCACATACGCCAGATTCAGCAACGGATACGGTTT -CCCCAAATCGTCCACCTCAGAGCGTCCCGTAACCTTAAAACCCACCTTCTTATAGAACCCAACCGCCTGCTCATTTTGCT -CATTAACGTTGGTTGTCAGTTCCGGTGCCATCGAGAGCGCATGCTCCACCAGCACCCGACCTACGCCGCAGCCGCGCACA -TCAGGATCGATAAACAGCGCATCCATATGCTGCCCACTTAGCAACATAAATCCAACCGGCTGATCCCGCTCATTAACCGC -GACCCACAACGGCGCTTCCGGCAGGAAGGAACGAACTAGGTCCTCCAGCTCGGTCCGATACTCTGCTGATAGAAAATCGT -GAGTGGCATCGACAGAACGACACCAAATCGCAACGAGTTCCTCCCCTTCCTCATGCCGTGAGCGGCGAATACTAATAACC -ATTTTCTCTCCTTTTAGTCATTCTTATATTCTAACGTAGTCTTTTCCTTGAAACTTTCTCACCTTCAACATGCAGGCTCG -ACATTGGCAAATTTTCTGGTTATCTTCAGCTATCTGGATGTCTAAACGTATAAGCGTATGTAGTGAGGTAATCAGGTTAT -GCCGATTCGTGTGCCGGACGAGCTACCCGCCGTCAATTTCTTGCGTGAAGAAAACGTCTTTGTGATGACAACTTCTCGTG -CGTCTGGTCAGGAAATTCGTCCACTTAAGGTTCTGATCCTTAACCTGATGCCGAAGAAGATTGAAACTGAAAATCAGTTT -CTGCGCCTGCTTTCAAACTCACCTTTGCAGGTCGATATTCAGCTGTTGCGCATCGATTCCCGTGAATCGCGCAACACGCC -CGCAGAGCATCTGAACAACTTCTACTGTAACTTTGAAGATATTCAGGATCAGAACTTTGACGGTTTGATTGTAACTGGTG -CGCCGCTGGGCCTGGTGGAGTTTAATGATGTCGCTTACTGGCCGCAGATCAAACAGGTGCTGGAGTGGTCGAAAGATCAC -GTCACCTCGACGCTGTTTGTCTGCTGGGCGGTACAGGCCGCGCTCAATATCCTCTACGGCATTCCTAAGCAAACTCGCAC -CGAAAAACTCTCTGGCGTTTACGAGCATCATATTCTCCATCCTCATGCGCTTCTGACGCGTGGCTTTGATGATTCATTCC -TGGCACCGCATTCGCGCTATGCTGACTTTCCGGCAGCGTTGATTCGTGATTACACCGATCTGGAAATTCTGGCAGAGACG -GAAGAAGGGGATGCATATCTGTTTGCCAGTAAAGATAAGCGCATTGCCTTTGTGACGGGCCATCCCGAATATGATGCGCA -AACGCTGGCGCAGGAATTTTTCCGCGATGTGGAAGCCGGACTAGACCCGGATGTACCGTATAACTATTTCCCGCACAATG -ATCCGCAAAATACACCGCGAGCGAGCTGGCGTAGTCACGGTAATTTACTGTTTACCAACTGGCTCAACTATTACGTCTAC -CAGATCACGCCATACGATCTACGGCACATGAATCCAACGCTGGATTAATCTTCTGTGATAGTCGATCGTTAAGCGATTCA -GCACCTTACCTCAGGCACCTTCGGGTGCCTTTTTTATTTCCGAAACGTACCTCAGCAGGTGAATAAATTTTATTCATATT -GTTATCAACAAGTTATCAAGTATTTTTAATTAAAATGGAAATTGTTTTTGATTTTGCATTTTAAATGAGTAGTCTTAGTT -GTGCTGAACGAAAAGAGCACAACGATCCTTCGTTCACAGTGGGGAAGTTTTCGGATCCATGACGAGGAGCTGCACGATGA -CTGAACAGGCAACAACAACCGATGAACTGGCTTTCACAAGGCCGTATGGCGAGCAGGAGAAGCAAATTCTTACTGCCGAA -GCGGTAGAATTTCTGACTGAGCTGGTGACGCATTTTACGCCACAACGCAATAAACTTCTGGCAGCGCGCATTCAGCAGCA -GCAAGATATTGATAACGGAACGTTGCCTGATTTTATTTCGGAAACAGCTTCCATTCGCGATGCTGATTGGAAAATTCGCG -GGATTCCTGCGGACTTAGAAGACCGCCGCGTAGAGATAACTGGCCCGGTAGAGCGCAAGATGGTGATCAACGCGCTCAAC -GCCAATGTGAAAGTCTTTATGGCCGATTTCGAAGATTCACTGGCACCAGACTGGAACAAAGTGATCGACGGGCAAATTAA -CCTGCGTGATGCGGTTAACGGCACCATCAGTTACACCAATGAAGCAGGCAAAATTTACCAGCTCAAGCCCAATCCAGCGG -TTTTGATTTGTCGGGTACGCGGTCTGCACTTGCCGGAAAAACATGTCACCTGGCGTGGTGAGGCAATCCCCGGCAGCCTG -TTTGATTTTGCGCTCTATTTCTTCCACAACTATCAGGCACTGTTGGCAAAGGGCAGTGGTCCCTATTTCTATCTGCCGAA -AACCCAGTCCTGGCAGGAAGCGGCCTGGTGGAGCGAAGTCTTCAGCTATGCAGAAGATCGCTTTAATCTGCCGCGCGGCA -CCATCAAGGCGACGTTGCTGATTGAAACGCTGCCCGCCGTGTTCCAGATGGATGAAATCCTTCACGCGCTGCGTGACCAT -ATTGTTGGTCTGAACTGCGGTCGTTGGGATTACATCTTCAGCTATATCAAAACGTTGAAAAACTATCCCGATCGCGTCCT -GCCAGACAGACAGGCAGTGACGATGGATAAACCATTCCTGAATGCTTACTCACGCCTGTTGATTAAAACCTGCCATAAAC -GCGGTGCTTTTGCGATGGGCGGCATGGCGGCGTTTATTCCGAGCAAAGATGAAGAGCACAATAACCAGGTGCTCAACAAA -GTAAAAGCGGATAAATCGCTGGAAGCCAATAACGGTCACGATGGCACATGGATCGCTCACCCAGGCCTTGCGGACACGGC -AATGGCGGTATTCAACGACATTCTCGGCTCCCGTAAAAATCAGCTTGAAGTGATGCGCGAACAAGACGCGCCGATTACTG -CCGATCAGCTGCTGGCACCTTGTGATGGTGAACGCACCGAAGAAGGTATGCGCGCCAACATTCGCGTGGCTGTGCAGTAC -ATCGAAGCGTGGATCTCTGGCAACGGCTGTGTGCCGATTTATGGCCTGATGGAAGATGCGGCGACGGCTGAAATTTCCCG -TACCTCGATCTGGCAGTGGATCCATCATCAAAAAACGTTGAGCAATGGCAAACCGGTGACCAAAGCCTTGTTCCGCCAGA -TGCTGGGCGAAGAGATGAAAGTCATTGCCAGCGAACTGGGCGAAGAACGTTTCTCCCAGGGGCGTTTTGACGATGCCGCA -CGCTTGATGGAACAGATCACCACTTCCGATGAGTTAATTGATTTCCTGACCCTGCCAGGCTACCGCCTGTTAGCGTAAAC -CACCACATAACTATGGAGCATCTGCACATGAAAACCCGTACACAACAAATTGAAGAATTACAGAAAGAGTGGACTCAACC -GCGTTGGGAAGGCATTACTCGCCCATACAGTGCGGAAGATGTGGTGAAATTACGCGGTTCAGTCAATCCTGAATGCACGC -TGGCGCAACTGGGCGCAGCGAAAATGTGGCGTCTGCTGCACGGTGAGTCGAAAAAAGGCTACATCAACAGCCTCGGCGCA -CTGACTGGCGGTCAGGCGCTGCAACAGGCGAAAGCGGGTATTGAAGCAGTCTATCTGTCGGGATGGCAGGTAGCGGCGGA -CGCTAACCTGGCGGCCAGCATGTATCCGGATCAGTCGCTCTATCCGGCAAACTCGGTGCCAGCTGTGGTGGAGCGGATCA -ACAACACCTTCCGTCGTGCCGATCAGATCCAATGGTCCGCGGGCATTGAGCCGGGCGATCCGCGCTATGTCGATTACTTC -CTGCCGATCGTTGCCGATGCGGAAGCCGGTTTTGGCGGTGTCCTGAATGCCTTTGAACTGATGAAAGCGATGATTGAAGC -CGGTGCAGCGGCAGTTCACTTCGAAGATCAGCTGGCGTCAGTGAAGAAATGCGGTCACATGGGCGGCAAAGTTTTAGTGC -CAACTCAGGAAGCTATTCAGAAACTGGTCGCGGCGCGTCTGGCAGCTGACGTGACGGGCGTTCCAACCCTGCTGGTTGCC -CGTACCGATGCTGATGCGGCGGATCTGATCACCTCCGATTGCGACCCGTATGACAGCGAATTTATTACCGGCGAGCGTAC -CAGTGAAGGCTTCTTCCGTACTCATGCGGGCATTGAGCAAGCGATCAGCCGTGGCCTGGCGTATGCGCCATATGCTGACC -TGGTCTGGTGTGAAACCTCCACGCCGGATCTGGAACTGGCGCGTCGCTTTGCACAAGCTATCCACGCGAAATATCCGGGC -AAACTGCTGGCTTATAACTGCTCGCCGTCGTTCAACTGGCAGAAAAACCTCGACGACAAAACTATTGCCAGCTTCCAGCA -GCAGCTGTCGGATATGGGCTACAAGTTCCAGTTCATCACCCTGGCAGGTATCCACAGCATGTGGTTCAACATGTTTGACC -TGGCAAACGCCTATGCCCAGGGCGAGGGTATGAAGCACTACGTTGAGAAAGTGCAGCAGCCGGAATTTGCCGCCGCGAAA -GATGGCTATACCTTCGTATCTCACCAGCAGGAAGTGGGTACAGGTTACTTCGATAAAGTGACGACTATTATTCAGGGCGG -CACGTCTTCAGTCACCGCGCTGACCGGCTCCACTGAAGAATCGCAGTTCTAAGCAACAACAACCGTTGCTGACTGTAGGC -CGGATAAGGCGTTCACGCCGCATCCGGCAATCGGTGCACGATGCCTGATGCGACGCTTGCGCGTCTTATCATGCCTACAG -CCGTTGCCGAACGTAGGCTGGATAAGGCGTTTACGCCGCATCCGGCAATTCTCTGCTCCTGATGAGGGCGCTAAATGCCG -CGTGGCCTGGAATTATTGATTGCTCAAACCATTTTGCAAGGCTTCGATGCTCAGTATGGTCGATTCCTCGAAGTGACCTC -CGGTGCGCAGCAGCGTTTCGAACAGGCCGACTGGCATGCTGTCCAGCAGGCGATGAAAAACCGTATCCATCTTTACGATC -ATCACGTTGGTCTGGTCGTGGAGCAACTGCGCTGCATTACTAACGGCCAAAGTACGGACGCGGCATTTTTACTACGTGTT -AAAGAGCATTACACCCGGCTGTTGCCGGATTACCCGCGCTTCGAGATTGCGGAGAGCTTTTTTAACTCCGTGTACTGTCG -GTTATTTGACCACCGCTCGCTTACTCCCGAGCGGCTTTTTATCTTTAGCTCTCAGCCAGAGCGCCGCTTTCGTACCATTC -CCCGCCCGCTGGCGAAAGACTTTCACCCCGATCACGGCTGGGAATCTCTACTGATGCGCGTTATCAGCGACCTACCGCTG -CGCCTGCGCTGGCAGAATAAAAGCCGTGACATCCATTACATTATTCGCCATCTGACGGAAACGCTGGGGACAGACAACCT -CGCGGAAAGTCATTTACAGGTGGCGAACGAACTGTTTTACCGCAATAAAGCCGCCTGGCTGGTAGGCAAACTGATCACAC -CTTCCGGCACATTGCCATTTTTGCTGCCGATCCACCAGACGGACGACGGCGAGTTATTTATTGATACCTGCCTGACGACG -ACCGCCGAAGCGAGCATTGTTTTTGGCTTTGCGCGTTCTTATTTTATGGTTTATGCGCCGCTGCCCGCAGCGCTGGTCGA -GTGGCTACGGGAAATTCTGCCAGGTAAAACCACCGCTGAATTGTATATGGCTATCGGCTGCCAGAAGCACGCCAAAACCG -AAAGCTACCGCGAATATCTCGTTTATCTACAGGGCTGTAATGAGCAGTTCATTGAAGCGCCGGGTATTCGTGGAATGGTG -ATGTTGGTGTTTACGCTGCCGGGCTTTGATCGGGTATTCAAAGTCATCAAAGACAGGTTCGCGCCGCAGAAAGAGATGTC -TGCCGCTCACGTTCGTGCCTGCTATCAACTGGTGAAAGAGCACGATCGCGTGGGCCGAATGGCGGACACCCAGGAGTTTG -AAAACTTTGTGCTGGAGAAGCGGCATATTTCCCCGGCATTAATGGAATTACTGCTTCAGGAAGCAGCGGAAAAAATCACC -GATCTCGGCGAACAAATTGTGATTCGCCATCTTTATATTGAGCGGCGGATGGTGCCGCTCAATATCTGGCTGGAACAAGT -GGAAGGTCAGCAGTTGCGCGACGCCATTGAAGAATACGGTAACGCTATTCGCCAGCTTGCCGCTGCTAACATTTTCCCTG -GCGACATGCTGTTTAAAAACTTCGGTGTCACCCGTCACGGGCGTGTGGTTTTTTATGATTACGATGAAATTTGCTACATG -ACGGAAGTGAATTTCCGCGACATCCCGCCGCCGCGCTATCCGGAAGACGAACTTGCCAGCGAACCGTGGTACAGCGTCTC -GCCGGGCGATGTTTTCCCGGAAGAGTTTCGCCACTGGCTATGCGCCGACCCGCGTATTGGTCCGCTGTTTGAAGAGATGC -ACGCCGACCTGTTCCGCGCTGATTACTGGCGCGCACTACAAAACCGCATACGTGAAGGGCATGTGGAAGATGTTTATGCG -TATCGGCGCAGGCAAAGATTTAGCGTACGGTATGGGGAGATGCTTTTTTGAGTAAAGCTTCCATATAATTTTTCTCCGCA -ATGTATCGAGGGTTATCCGTAAAGCCAAAGCTTTCAGCCATCTTATTTAATGTATTAAGGATTAATTCAGCAATAACCCG -GTGACCAAATTCAAAAGCCAACTCAAAGGCAGAGTATTTTTGTGGGGCTTTGTGTTGCCAAAAATCCATAATATCTTCAG -CGGTAAATCCAAACAGGCGTGCATGGTCAGATAAAGCAAGATAAACCGTCTCTACAACATTTTGTTGTTTATGCTGTATC -GCTGAAAACAAACCGGGATATTCATTAGAATTATTTGCCAGGAGGAGGGGCTTCATATTTTTTTTATCGAATTTAAACGT -ATTAAACAGAGTGGGTAATGCGTTAAAAATAGTATTAATAACGTTCATGTGTCCGCGCTGCATGGCCATAAACAAACCCG -TGTCGCGCGCAAGACTTTTAGCGGTCAGAAGATCTACAATATCGGAAGCTGAAATGTTAATTTCCTGGGCTAGGCTGGGC -AATGCTTCAAGAATAACTTTCACGATATCGCTATGTCCATTTTGCATCGCCAGATATAGTCCTGGGCAACCATAAAAATC -CTTTGCCTTCAGGAGATCGAGTACCTGTTCTTTAGTCAAATGACATGTGCGAATTAACAAAGGTAACGCGTTCAAAACAA -TTTTCAGCATGTCGGCATCACCATTCGCCATAACATGGTATAAAACATGGCTGGACGTTCTATTTTTGGCACTCAGGAAT -TTATACACTTGTTCGTTATCTAAATGATGTGTTGCGGCCAGTTTAGGTAAGGCGTTCAGAATCGAGGTTACAACATTTTT -ATCCTTACGTGATATCGCTAAAAATAATCCAGAAAAACCATTTTTATCTTTTGCCTCCAGAATATGCATGAGATTTTTTT -TCGAGAGTAATCCTTCATATCCTGTTTCTGACAATGAATTGAAAATAGTCTCAACGATATCCGCATTACCATAATTTATA -GCCAAATATAAACCTGGCAGGTTAATACTATTATAGGCAGTCAACATTTCTGTTCTATGTAGTTCTGGCATTTTCTGGAG -TTGAATCATCAGTTGCGTAAGTTGGTGATTCTGACCAATTGCCATTAGCAAATTCATCGTTGCAGGTGATAATGGAGGGG -TTATTTCATCCACAGATCCTTTTAACATCAATAGCTGTTCTTTCGGAAGTGCTGGAATTATTGCAACAGATTGATTAATA -ACATGATCATTTGACCATTTCAGGAGGCTATAATCTACATTCATAAAATCCATCAGAGAATAGTGTTTAATATTCTCTTT -GCTTTCGCTCATAATTCTTATTTTATCGTTAGTTACATTAGGATCATAAACCGAAACCACGTAATGGGTACATCCTTCAG -TTGTGTTCTTTATTCTTAGCCGGACCGTCAAAGCATGGTTATCCACCAGTAATATGGCTGCCATAACACTGATGCCATTT -GATTCCATCTTGTCAAAATATGCTTTCATAACTAGCCCGAAATCACCGCAGGCAGCAACGCAACGCCCCTCAGGACGGCT -GGAAACCAACGCCAAAGTCTGGTTTTTGCATTTTTTGTTGAAGTGCGTGAGAAATTTTTCAGCTGAAGAGTAATCATCTT -GATGGGGTTTGTAATCAACATTCTGATAAATATCATTAATATATTGTGCAGCAATGTGTCGGCATACTATACGGTTTTGG -GGTCGCCCCGGAAAATAACATTGACCATTAAGTTTAATTCTTGGGAATTCTTTTTCTTTTCTATCTGATTTTAGGTTTAA -TTCTTGTTTATCAAGAGTGTCTGAGCGTTGAGGTAAAATTTCCATTAGGTATTTTTCAAATATTGGGGCAATGGTTTGAG -TAAGTGTCGTGTTTTCGTTTTTATTAATTATCGTAATTTCTTTCTTATCAGCTTGTAAGACGGACGTGGAAAATTTAATG -ACAAAATCCTTGTTGCTAAAGATATGACGACCATTTTGTCTACAGTTCTCTGAGAAGCTTTTTAATAGAGGCGTCGCCAG -CTCCTTGCCAGAAAATTTATCCTCGAGTTCTTTATAAAACAATTCACTCAGGGTTTGGTGTTCATTTGTCTGGGCTGTAT -TATTAATATTTGCAGAGAAAGAACTACGAGGAATACGAGTAATCATTTAAATATCTCATTGTTTATTGATGTCTTGAATT -TTAACTATCAGAACAGTGAAAAAATTTAATATGATTACAACTAAAGAAATATCATAAATCGCTCAATCTCATAATGCAGC -CGTAAAAGTTTCGGTGGAATGAGATCTTGCGATTTTGTTAATAATTAAGTGGTTTGATGTTTAAAAATAATGCTGAGTTA -ATAAAAGTGTGTGAAGTGTATGACATTAAGTTATTTTGGCGTCAATGCGATTAACAGACACCCTTATTCTATTGCCACTC -AGGTATGATGGGCAGAATATTGCCTCTGCCCGCCAGAAAAAGTCAGCGCATTCCACCGTACGCCAGCGTCACTTCCTTCG -CCGCTTTAATCACCATCGCGCCAAACTCGGTCACGCGGTCATCGGTAATACGTGAAATCGGTCCGGAAATAGAAATTGCG -GCAAACGGTTCACGGTGCTCATCGAAAATACACGCTGCAAGGCAACGTAGCCCCAGTGCATGTTCCTCATCGTCAAATGA -ATAACCCCGTTTGCGCGTTTGGGCGAGATCTTCTTTTAAATGCACAGGAGACACCAGCGTTGCGTGGGTATAGGCATGTA -ACCCTTTGCGGTGCAGCAGCTTCGTCACCTGTTCTTCGCTCAGTTGGGCTAAAAAGGCTTTACCCGCACCGGAAGCGTGC -ATCGGCAATTTACCGCCGATAGGCGCGGACATTCGCATCAGATGCGTACACTGTACCTGGTCGATAATAATCGCTTCGTG -ATCGCTTTGATCAAGCACCGCCATATTGACCGTTTCGCCAGACTCTTCCATTAGATTGCGCAGGATAGGGTGAACAATCG -CTAACAAATTACGGCTCTGGAGAAAGCTGCTGCCGACCATAAAGGCATGTGCGCCGATTGCCCAATGTCCCAGTTCGCCA -ACCTGACGCACGAAACCCTGCTGTTGCATCGTGGTTAGCAGGCGGTGGGTCGTGGAATTGGGTAACCCGGCTTGTTGCGC -CAGTTCCGTGAGTGCCACACTGCCATTGGATTCGGCAATCCACTCCAGTAATTTCAGGCCACGCGTTAAAGACTGAACCT -GTCCAGTCGCTGGTGCGGTGGCAACGGCGGGTTTTCTGCCGCGTTTCGCGGGAATGGGTGCGACCATGACAGTCTCTTTT -TTCTGTATCGTGGAAATCATTTTCATTTTTATTGTTAGCTAATGCAATAGTTACTGAACTGATCCGATGAGTTAATGTTG -AACAAATCTCATGTTGCGTGGTGGTCGCTTTTACCACAGATGCGTTTATGCCAGTATGGTTTGTTGAATTTTTATTAAAT -CTGGGTTGAGCGTGTCGGGAGCAAGTGTGAGCAGCAAAGTGGAACAACTGCGTGCGCAGTTAAATGAACGTATTCTGGTG -CTGGACGGCGGTATGGGCACCATGATCCAGAGTTATCGACTGAACGAAGCCGATTTTCGTGGTGAACGCTTTGCCGACTG -GCCATGCGACCTCAAAGGCAACAACGACCTGCTGGTACTCAGTAAACCGGAAGTGATCGCCGCTATCCACAACGCCTACT -TTGAAGCGGGCGCGGATATCATCGAAACCAACACCTTCAACTCCACGACCATTGCGATGGCGGATTACCAGATGGAATCC -CTGTCGGCGGAAATCAACTTTGCGGCGGCGAAACTGGCGCGAGCTTGTGCTGACGAGTGGACCGCGCGCACGCCAGAGAA -ACCGCGCTACGTTGCCGGTGTTCTCGGCCCGACCAACCGCACGGCGTCTATTTCTCCGGACGTCAACGATCCGGCATTTC -GTAATATCACTTTTGACGGGCTGGTGGCGGCTTATCGAGAGTCCACCAAAGCGCTGGTGGAAGGTGGCGCGGATCTGATC -CTGATTGAAACCGTTTTCGACACCCTTAACGCCAAAGCGGCGGTATTTGCGGTGAAAACGGAGTTTGAAGCGCTGGGCGT -TGAGCTGCCGATTATGATCTCCGGCACCATCACCGACGCCTCCGGGCGCACGCTCTCCGGGCAGACCACCGAAGCATTTT -ACAACTCATTGCGCCACGCCGAAGCTCTGACCTTTGGCCTGAACTGTGCGCTGGGGCCCGATGAACTGCGCCAGTACGTG -CAGGAGCTGTCACGGATTGCGGAATGCTACGTCACCGCGCACCCGAACGCCGGGCTACCCAACGCCTTTGGTGAGTACGA -TCTCGACGCCGACACGATGGCAAAACAGATACGTGAATGGGCGCAAGCGGGTTTTCTCAATATCGTCGGCGGCTGCTGTG -GCACCACGCCACAACATATTGCAGCGATGAGTCGTGCAGTAGAAGGATTAGCGCCGCGCAAACTGCCGGAAATTCCCGTA -GCCTGCCGTTTGTCCGGCCTGGAGCCGCTGAACATTGGCGAAGATAGCCTGTTTGTGAACGTGGGTGAACGCACCAACGT -CACCGGTTCCGCTAAGTTCAAGCGCCTGATCAAAGAAGAGAAATACAGCGAGGCGCTGGATGTCGCGCGTCAACAGGTGG -AAAACGGCGCGCAGATTATCGATATCAACATGGATGAAGGGATGCTCGATGCCGAAGCGGCGATGGTGCGTTTTCTCAAT -CTGATTGCCGGTGAACCGGATATCGCTCGCGTGCCGATTATGATCGACTCCTCAAAATGGGACGTCATTGAAAAAGGTCT -GAAGTGTATCCAGGGCAAAGGCATTGTTAACTCTATCTCGATGAAAGAGGGCGTCGATGCCTTTATCCATCACGCGAAAT -TGTTGCGTCGCTACGGTGCGGCAGTGGTGGTAATGGCCTTTGACGAACAGGGACAGGCCGATACTCGCGCACGGAAAATC -GAGATTTGCCGTCGGGCGTACAAAATCCTCACCGAAGAGGTTGGCTTCCCGCCAGAAGATATCATCTTCGACCCAAACAT -CTTCGCGGTCGCAACTGGCATTGAAGAGCACAACAACTACGCGCAGGACTTTATCGGCGCGTGTGAAGACATCAAACGCG -AACTGCCGCACGCGCTGATTTCCGGCGGCGTATCTAACGTTTCTTTCTCGTTCCGTGGCAACGATCCGGTGCGCGAAGCC -ATTCACGCAGTGTTCCTCTACTACGCTATTCGCAATGGCATGGATATGGGGATCGTCAACGCCGGGCAACTGGCGATTTA -CGACGACCTACCCGCTGAACTGCGCGACGCGGTGGAAGATGTGATTCTTAATCGTCGCGACGATGGCACCGAGCGTTTAC -TGGAGCTTGCCGAGAAATATCGCGGCAGCAAAACCGACGACACCGCCAACGCCCAGCAGGCGGAGTGGCGCTCGTGGGAA -GTGAATAAACGTCTGGAATACTCGCTGGTCAAAGGCATTACCGAGTTTATCGAGCAGGATACCGAAGAAGCCCGCCAGCA -GGCTACGCGCCCGATTGAAGTGATTGAAGGCCCGTTGATGGACGGCATGAATGTGGTCGGCGACCTGTTTGGCGAAGGGA -AAATGTTCCTGCCACAGGTGGTCAAATCGGCGCGCGTCATGAAACAGGCGGTGGCCTACCTCGAACCGTTTATTGAAGCC -AGCAAAGAGCAGGGCAAAACCAACGGCAAGATGGTGATCGCCACCGTGAAGGGCGACGTCCACGACATCGGTAAAAATAT -CGTTGGTGTGGTGCTGCAATGTAACAACTACGAAATTGTCGATCTCGGCGTTATGGTGCCTGCGGAAAAAATTCTCCGTA -CCGCTAAAGAAGTGAATGCTGATCTGATTGGCCTTTCGGGGCTTATCACGCCGTCGCTGGACGAGATGGTTAACGTGGCG -AAAGAGATGGAGCGTCAGGGCTTCACTATTCCGTTACTGATTGGCGGCGCGACGACCTCAAAAGCGCACACGGCGGTGAA -AATCGAGCAGAACTACAGCGGCCCGACGGTGTATGTGCAGAATGCCTCGCGTACCGTTGGTGTGGTGGCGGCGCTGCTTT -CCGATACCCAGCGTGATGATTTTGTCGCTCGTACCCGCAAGGAGTACGAAACCGTACGTATTCAGCACGGGCGCAAGAAA -CCGCGCACACCACCGGTCACGCTGGAAGCGGCGCGCGATAACGATTTCGCTTTTGACTGGCAGGCTTACACGCCGCCGGT -GGCGCACCGTCTCGGCGTGCAGGAAGTCGAAGCCAGCATCGAAACGCTGCGTAATTACATCGACTGGACACCGTTCTTTA -TGACCTGGTCGCTGGCCGGGAAGTATCCGCGCATTCTGGAAGATGAAGTGGTGGGCGTTGAGGCGCAGCGGCTGTTTAAA -GACGCCAACGACATGCTGGATAAATTAAGCGCCGAGAAAACGCTGAATCCGCGTGGCGTGGTGGGCCTGTTCCCGGCAAA -CCGTGTGGGCGATGACATTGAAATCTACCGTGACGAAACGCGTACCCATGTGATCAACGTCAGCCACCATCTGCGTCAAC -AGACCGAAAAAACAGGCTTCGCTAACTACTGTCTCGCTGACTTCGTTGCGCCGAAGCTTTCTGGTAAAGCAGATTACATC -GGCGCATTTGCCGTGACTGGCGGGCTGGAAGAGGACGCACTGGCTGATGCCTTTGAAGCGCAGCACGATGATTACAACAA -AATCATGGTGAAAGCGCTTGCCGACCGTTTAGCCGAAGCCTTTGCGGAGTATCTCCATGAGCGTGTGCGTAAAGTCTACT -GGGGCTATGCGCCGAACGAGAACCTCAGCAACGAAGAGCTGATCCGCGAAAACTACCAGGGCATCCGTCCGGCACCGGGC -TATCCGGCCTGCCCGGAACATACGGAAAAAGCCACCATCTGGGAGCTGCTGGAAGTGGAAAAACACACTGGCATGAAACT -CACAGAATCTTTCGCCATGTGGCCCGGTGCATCGGTTTCGGGTTGGTACTTCAGCCACCCGGACAGCAAGTACTACGCTG -TAGCACAAATTCAGCGCGATCAGGTTGAAGATTATGCCCGCCGTAAAGGTATGAGCGTTACCGAAGTTGAGCGCTGGCTG -GCACCGAATCTGGGGTATGACGCGGACTGATTCACAAATCTGTCACTTTTCCTTACAACAAACAGGGCGCTCAATGAGTG -CCCTGTCTCTTTATTAATATGAAACACTTATACTGGAAACAGGCTGGAATAATCTTAGCCGGAAAAACGAATGTCAAAAG -GCACAGTAAAGATGCCAGTCAGCGTGTTTCCGGTCCTTTGGTCATTCAATTGCTTCAGGAACATATAACGATAAGGAGAA -CCTGAACTCGTGTTAACGCTGCTTCACCTGCTTTCTGCCGTCGCCCTGCTGGTCTGGGGGACTCATATTGTTCGAACCGG -CGTAATGCGCGTCTTCGGCGCGCGTTTGCGTACTGTCCTTAGCCGGAGCGTCGAAAAAAAGCCGCTCGCCTTTTGCGCGG -GGATCGGCGTTACCGCACTGGTACAGAGCAGTAATGCCACCACCATGCTGGTGACCTCGTTTGTCGCTCAGGATCTGGTA -GCCCTCGCACCGGCTCTGGTCATTGTGCTGGGTGCAGATGTCGGGACGGCGCTAATGGCGCGTATTCTCACCTTCGACTT -ATCCTGGCTGTCACCGTTACTTATTTTTATCGGCGTGATTTTTTTCCTCGGACGCAAACAGTCACGCGCCGGGCAACTGG -GCCGCGTCGGTATTGGTCTTGGGCTGATTTTGCTAGCGCTGGAGTTGATTGTGCAGGCCGTAACGCCGATCACCCAGGCA -AACGGCGTTCAGGTGATCTTTGCCTCGCTGACCGGCGATATTCTGCTGGATGCGCTGATTGGCGCGATGTTCGCCATTAT -CAGCTACTCCAGCCTTGCTGCTGTACTGCTGACCGCGACTCTGACCGCCGCAGGCATTATCTCCTTCCCCGTGGCGCTCT -GTCTGGTGATTGGTGCTAACCTCGGTTCCGGTCTGCTGGCAATGCTCAACAACAGTGCCGCCAATGCCGCAGCCCGCCGT -GTCGCGCTGGGTAGTCTGCTGTTTAAGCTGGTGGGTAGCCTGATTATCCTGCCGTTTGTCCATTTGCTGGCAGAGACAAT -GGGGAAGTTGTCATTGCCAAAAGCGGAACTGGTGATCTATTTCCACGTCTTCTACAACCTTGTACGTTGCCTGGTCATGC -TGCCATTTGTTGACCCGATGGCACGGTTTTGCAAAACGATTATTCGCGATGAACCGGAACTGGATACCCAGCTACGGCCT -AAACATCTGGATGTCAGCGCGCTGGATACGCCCACGCTTGCTCTGGCGAACGCCGCGCGCGAAACCCTGCGCATTGGCGA -CGCCATGGAACAGATGATGGAAGGGTTGAATAAAGTGATGCACGGTGAGCCACGGCAGGAGAAAGAGCTGCGTAAGCTGG -CAGATGATATCAACGTTCTCTACACCGCCATTAAGCTGTATCTGGCGCGGATGCCAAAAGAAGAGCTGGCGGAGGAAGAG -TCGCGCCGCTGGGCAGAGATCATCGAAATGTCGCTCAACCTTGAACAGGCCTCCGATATCGTCGAGCGCATGGGCAGCGA -AATTGCTGACAAATCACTGGCAGCACGGCGGGCATTTTCGCTTGATGGGTTGAAGGAACTGGATGCGCTCTATGAGCAAT -TGCTCAGTAATTTAAAGCTGGCAATGTCGGTGTTCTTCTCTGGCGATGTCACCAGCGCTCGTCGTTTGCGTCGCAGCAAA -CATCGTTTTCGCATTCTTAATCGCCGCTATTCCCACGCCCACGTCGATCGCCTGCATCAGCAAAACGTGCAGAGCATTGA -AACCAGTTCGCTACATTTAGGCTTACTGGGAGATATGCAGCGCCTGAACTCGCTGTTTTGTTCGGTGGCTTACAGTGTGC -TGGAACAGCCGGATGAAGATGAAGGACGGGACGAGTATTAATATTGTGAATCCTGTAGGCCTGATAAGACGCGTCAAGCG -TCGCATCAGGCACTATGAACAAGATGCCGGATCATGCATCCGGCAATTCACTTAAAAACGGTGACCAGCTTCCAGCGGAA -CCGCTTCTTCACCAGCCTTAAACACATAAGTGGTGTTCGGGCCACCCAGCGTAGCGTGACCTTTACTCACTGTGATCCAG -TTACCTTCCGGTAGACCAATAATCGTCAGTTCTGGCGCGACGACCAGCAGTTCGCGAATACGCTGCTCACGGGTTTCACC -TTTATGGCCTTCCGGCAGCGCGTTGGTGAAGTGCGGGTTGATTTGCAGCGGGAACAGATTTAGCGCATCGAAACCTTGCG -GATCGACAATCGGCATATCGTTGGTGGTACGAATAGTTGGGCAAGCAAGGTTAGCGCCTGCGCTCCAGCCAATATACAGA -GCGCCACGTTTAACCACGTCAGTAATTGGTGCCAGCAGCCCGCGCTCGCGGCACTGTTTCAGCAACTGGAAAGTATTCCC -GCCGCCGACAATCACGATCTCAGCATTTTCAATCGCGGCAACGGGATCGACAACGCTATGAATACCGGTGACAGAAACAC -CCAGCGGAGCGAGAACCGCAGCCGTTTTCGCTGTGTAATCATCCCAGGTCTGCGTTACGCCAGCGAAAGGGATAAACACC -GCTGAGCGGCGACCCTGCAACTGTTCAGCAATTAGCGGCAGTGCATGTTCCAGCCAGGCTTTACCCGGCAGCGTCGAGTT -ACTCAATAAAAGCAGTTCCATTACTTCTCCGGTTAGTAAGAAATCACGGGAGGCATGCTACCACTGCGAATTTAACCACT -TACTGACATGGCTCACGATGTCGCACATTGCTTCTGGAAAGTGATTTGAGCAGGTAACGAATTCAAGCCAATGGAAATAA -CAAATAGTTCGCTCATGACTATTTTTTATCAACCCAAAGGTACGGTATATTCCGTTTTTTACAGGAGAATTTATGCTGCC -CGACTCATCAGTCCGTTTAAATAAATACATCAGCGAAAGCGGAATTTGCTCACGCCGCGAAGCGGATCGCTATATCGAGC -AAGGCAATGTGTTCCTTAATGGCAAGCGAGCCACCATTGGCGATCAGGTGAAACCCGGCGACGTTGTGAAAGTAAACGGT -CAGTTGATTGAACCTCGGGAAGCCGAAGATTTGGTACTTATCGCCCTGAACAAGCCCGTTGGTATTGTAAGCACCACCGA -AGATGGCGAGCGCGATAACATTGTCGATTTCGTTAACCACAGCAAACGCGTGTTCCCGATTGGCCGCCTGGATAAAGACT -CCCAGGGGCTGATTTTCCTCACCAATCACGGCGATCTGGTGAATAAGATCCTGCGTGCTGGCAATGATCATGAGAAAGAG -TATCTGGTGACGGTCGATAAACCGATTACCGAGGAGTTTATTCGCGGCATGAGTGCGGGGGTGCCAATCCTCGGGACAGT -GACCAAAAAGTGCAAAGTTAAAAAAGAAGCGCCGTTTGTCTTCCGCATTACCCTGGTGCAGGGGCTGAACCGTCAGATCC -GGCGCATGTGCGAGCATTTCGGCTATGAAGTGAAAAAGCTGGAACGCACGCGCATCATGAACGTTAGCTTAAGCGGCATT -CCGCTGGGGGAATGGCGCGATTTAACCGACGATGAGTTAATCGACCTCTTTAAGCTCATTGAAAATTCCTCTTCCGAGGT -AAAACCTAAAGCGAAGGCCAAACCGAAAACAGCGGGCATCAAACGTCCAGTCGTTAAGATGGAAAAAACGGCGGAAAAAG -GCGGTCGCCCGGCGTCCAACGGTAAGCGTTTTACCTCGCCGGGGCGTAAAAAGAAGGGGCGCTGATTAACGCCTCAGACT -GATGAAAACGGCCCAAAAGTGCCCGGACAGTCCCCTCGCCCCTTCGGGAAAAGGGTTAGGGTGAGGGGAAAATTGTGTTC -ACACTGACGAGTGAAAATCTCAGGCGTTGATTGTGGATTAGCGCCTGCCGCGCGTCGACGTATTTGCTGACCAGCTAAAT -GACGCTTCAGGATCCGGTTTATAAGCCTGCTTTTTCTTCAACTGGCGGGCTTTTTTCGCTTCAGCCTCACGCTCAACCAT -TAATTTATCGATGTAATCTTTCTTAATGCTGTTGGTTTCGGAGTTGGTCAATACGCGACCATGCGCAATCCGCGCCCGAT -CCAGCAGTGTTTTAAGTTCACGCTGCTCGCGTTCAGTCATCTCTTTTTGGGTAATACGGGGGAGTGCCATGATGGTGCCC -TCAGTGAGCCAGAGAGTTCAGTGTACGGGAATTCGTTTGCGAGCAGAACTGATAATATTCATTTTGCCTTCTCTTAACTA -TTTATCTCTTTCGATAATTAATTAGAGATGCAGATAAAAAAATTAAAGGCAATTATTCTCCGATAAAGACGCTGGTTAAC -AGAGTACAGGCTCGTTTATTGATGAGCATAGTGACAAGAAAATCAATACGGCCCGAAATATAGCTTCCAGGCCATACAGT -ATTTACTCAAACAAATTACTATGCAGTTTTTGCACCACCTGCTCGGCATCTTCGCCGGGCACCAGGAAGCACAGGTTATG -GCTGGATGCGCCATAACAAATCATGCGAATGTTGAACGGTTCCAGTACGCCGAATACCTCTTTGCCAACGCCGCAGGCTT -TTGACAGGTCATTGCCAATCAACGCGACCAGCGCCAGACCTTCTTCCACCTCCACCCGACACAGTGCGGAAAGCTCCATC -AGCAGAGATTGCGTCAGCAACGTATCGCCAGTGGAGGTTGAACCGGTGGTATCAAGGGTTAATGCCACGCTCACTTCTGA -CGTGGTGATTAAGTCTACCGAAATATTATGCCGCGCGAGGATGCCGAAAACTTCCGCGAGGAAACCGCGAGAATGCAGCA -TATTCAGGCTGTGCAAAGTGAGCAGAGTCTGATTGCGACGAAGCGCCAGAGCGCGGAACAGCGGCGGATTTTCAGTTTTA -TTGCACACCAGCGTACCACCTGCGCGTGGGTCTTTGCTGGAGCCGACAAAGACCGGGATATCGCTGCGTACTGCGGGTAG -CAACGTTGCCGGATGCAGTACTTTTGCACCAAAAGTTGCCATCTCTGCCGCTTCGGCAAACGCGATTTCATCAATGCGTT -TTGCTGCGGAAACTACGCGTGGATCGGTGGTGTAGATGCCCGGGACGTCGGTCCAGATATCAACACGAGATGCGTGTAAA -GCCTCCGCCAGCAAGGCTGCCGTATAATCGCTGCCTCCACGGCCAAGCGTCGTTGTACGACCTTTATTTTCGCTACCGAT -AAATCCCTGGGTGATCACTAAGCCTTCATTGAGACGTGGGAGCAGCTGCAGCGCGGCCAGTTCCGCCAGCGCGGCTATAT -CTGGCTCTGCACGACCAAATCGGTCGTTGGTACGCATCACTTTACGTACATCAAACCACTGTGCCTGAACATCGCGTTCG -CGCAGGATCTCAACAAACAGCAGGGTCGACATCAGCTCGCCGTGGCTGACCAGCTCATCTGTCAGCGCCGGAGACGTTGC -CAGCGCCGCCGCTTCTGCCAGAACAGTAATGTTCTCCAGCAGACGTTCAATCTCTTCACGGATAACGTTCGGGTAACGCA -GACGTTCCAGAATGGCAAACTGGATGTTGCGGATAGCGTCGAGTTTTTCGAATCGCTCGCCAGGTTCCAGTCCTTCAGCT -AAAGCGACCAGCAGATTAGTGATACCAGCAGAAGCCGAGAGGACAACTAAACGCACGTTGGCATCAGAAAGCACAATATC -AGCGCTGCGGTTCATGGCGTCAAAATCAGCTACGCTGGTACCGCCAAATTTGGAGACAACAATTTCAGACATAACTACCT -CGTGTCAGGGGATCCATTTTCAGCCTTGGCACAAGGGAAGAGCGGAAGACGGGTGGGCGCAGAGCGATACTTCGCTACTA -TTTTCACCCAGAAGTGCTCCACCACTTGCGAAACGCCCGACTGCGAACGCTTCTGGTGACAACCCAGGGGATTCAGCCCC -TGTAGCCGATGATGAACGTGGCCAGCCGTTCAATCACCTCGGCGATGCACCCCCTCAGGTGTTATCACAGGACTGGCTCC -TCCAACACCGTTACTTGGGCAACGCGCCTCTTCTGGCCTGCGCTAGCGCAGGTAGTACATTTATAAATAAAGGGTGAGCG -GGGCGGTTGTCAACGATGGGGTCATGCGGATTTTTCATCCACTCCTGGCGGTCAGTAGTTCAGCTAATAAATGCTTCACT -GCGCTAAGGGTTTACACTCAACATTACGCTAACGGCACTAAAACCATCACATTTTTCTGTGACTGGCGCTACAATCTTCC -AAAGTCACAATTCTCAAAATCAGAAGAGTATTGCTAATGAAAAACATCAATCCAACGCAGACCGCTGCCTGGCAGGCACT -ACAGAAACACTTCGATGAAATGAAAGACGTTACGATCGCCGATCTTTTTGCTAAAGACGGCGATCGTTTTTCTAAGTTCT -CCGCAACCTTCGACGATCAGATGCTGGTGGATTACTCCAAAAACCGCATCACTGAAGAGACGCTGGCGAAATTACAGGAT -CTGGCGAAAGAGTGCGATCTGGCGGGCGCGATTAAGTCGATGTTCTCTGGCGAGAAGATCAACCGCACTGAAAACCGCGC -CGTGCTGCACGTAGCGCTGCGTAACCGTAGCAATACCCCGATTTTGGTTGATGGCAAAGACGTAATGCCGGAAGTCAACG -CGGTGCTGGAGAAGATGAAAACCTTCTCAGAAGCGATTATTTCCGGTGAGTGGAAAGGTTATACCGGCAAAGCAATCACT -GACGTAGTGAACATCGGGATCGGCGGTTCTGACCTCGGCCCATACATGGTGACCGAAGCTCTGCGTCCGTACAAAAACCA -CCTGAACATGCACTTTGTTTCTAACGTCGATGGGACTCACATCGCGGAAGTGCTGAAAAAAGTAAACCCGGAAACCACGC -TGTTCTTGGTAGCATCTAAAACCTTCACCACTCAGGAAACTATGACCAACGCCCATAGCGCGCGTGACTGGTTCCTGAAA -GCGGCAGGTGATGAAAAACACGTTGCAAAACACTTTGCGGCGCTTTCCACCAATGCCAAAGCCGTTGGCGAGTTTGGTAT -TGATACTGCCAACATGTTCGAGTTCTGGGACTGGGTTGGCGGCCGTTACTCTTTGTGGTCAGCGATTGGCCTGTCGATTG -TTCTCTCCATCGGCTTTGATAACTTCGTTGAACTGCTTTCCGGCGCACACGCGATGGACAAGCATTTCTCCACCACGCCT -GCCGAGAAAAACCTGCCTGTACTGCTGGCGCTGATTGGCATCTGGTACAACAATTTCTTTGGTGCGGAAACTGAAGCGAT -TCTGCCGTATGACCAGTATATGCACCGTTTCGCGGCGTACTTCCAGCAGGGCAATATGGAGTCCAACGGTAAGTATGTTG -ACCGTAACGGTAACGTTGTGGATTACCAGACTGGCCCGATTATCTGGGGTGAACCAGGCACTAACGGTCAGCACGCGTTC -TACCAGCTGATCCACCAGGGAACCAAAATGGTACCGTGCGATTTCATCGCTCCGGCTATCACCCATAACCCGCTCTCTGA -TCATCACCAGAAACTGCTGTCTAACTTCTTCGCCCAGACCGAAGCGCTGGCGTTTGGTAAATCCCGCGAAGTGGTTGAGC -AGGAATATCGTGATCAGGGTAAAGATCCGGCAACGCTTGACTACGTGGTGCCGTTCAAAGTATTCGAAGGTAACCGCCCG -ACCAACTCCATCCTGCTGCGTGAAATCACTCCGTTCAGCCTGGGTGCGTTGATTGCGCTGTATGAGCACAAAATCTTTAC -TCAGGGCGTGATCCTGAACATCTTCACCTTCGACCAGTGGGGCGTGGAACTGGGTAAACAGCTGGCGAACCGTATTCTGC -CAGAGCTGAAAGATGATAAAGAAATCAGCAGCCACGATAGCTCGACCAATGGTCTGATTAACCGCTATAAAGCGTGGCGC -GGTTAATCATCGTCGATATGTAGGCCGGATAAGGCGTTCACGCCGCATCCGGCAACCGATGCCTGATGCGACGCGGTCGC -GTCTTATCAGGCCTACAGGTCGATGCCGATATGTACATCGTATTCGGCAATTAATACATAGCACGATTGATTAAATAACC -TTAATAACAATGCCGACGTTATGTCGGCATTTTTTTATCAGATAAATCCCCTTGTCTGTAATTTAACGGAAATCATACCG -TGAGGTTAATCCTAAAATAGATTTTTAATCGTTGTTTATTTCGGAAAATACGCAGATTAATTGCTTTTGTTTTTATTTTA -AGTTTATGATTTTTATTGTTATTTAAATATAAGTTGAAACTTATATTTGATATTCATTCCAATTATCCTAAAACGCCATC -GCTAATTCCCCGCGCCGTAATTCGCATGCTTTAGTTGTGTATACTCGATCCCGCCCGAAATGTTTTTGGGTAAATCTCCA -TTCATTCAATGAAGGGAAATTGTTATGAAAAAAGTTCTGTATGGCATTTTTGCCATATCTGCGCTTGCGGCGACTTCTGC -GTGGGCTGCACCTGTACAGGTGGGCGAAGCGGCAGGGTCGGCAGCAACGTCGGTTTCGGCGGGGAGTTCCTCCGCGACCA -GCGTCAGCACCGTAAGCTCGGCGGTGGGTGTCGCGCTTGCGGCAACCGGTGGCGGTGATGGTTCTAATACCGGGACCACC -ACAACCACGACCACCAGTACCCAGTAATAAAGTATGTATCCCCAAAATAATTCGAGTCATTGCATCTGTGGCTAGAAGTA -TGAAGGGATTAACCATAACCACACTCCGGTGTGGTTATTCTGCCCCTCTGGAGAAGAGTCGTGAAGCGACCTGCACTCAT -TCTTATCTGCCTGTTATTACAGGCCTGTTCAGCCACGACTAAAGAGCTGGGCAATTCACTGTGGGACAGTCTGTTCGGCA -CGCCAGGCGTACAGCTGACGGATGATGATATTCAAAATATGCCCTACGCCAGCCAGTACATGCAGCTTAATGGCGGGCCG -CAGTTATTTGTGGTGCTGGCCTTCGCTGAAGACGGACAACAAAAATGGGTCACTCAGGATCAGGCTACTCTCGTTACCCA -ACATGGCCGTCTGGTGAAGACTCTGCTCGGCGGCGACAACCTGATTGAAGTGAATAACCTTGCTGCCGACCCGCTGATTA -AACCCGCACAAATCGTTGATGGCGCAAGCTGGACGCGCACGATGGGCTGGACCGAGTACCAGCAGGTACGCTACGCCACC -GCACGCTCAGTCTTCAAATGGGATGGCACCGATACCGTCAAAGTCGGCAGCGATGAAACCCCGGTTCGCGTGCTGGACGA -AGAAGTCTCCACCGACCAGGCGCGCTGGCATAACCGCTATTGGATCGACAGCGAAGGGCAAATTCGCCAGTCGGAACAGT -ATCTCGGCGCGGATTATTTTCCGGTGAAAACCACTCTCATCAAGGCGGCAAAACAATGATTAAACAAACTATTGTCGCGT -TGCTTTTGAGTGTGGGAGCGTCATCGGTCTTCGCGGCAGGAACCGTCAAGGTGTTCAGCAATGGCAGCAGTGAGGCCAAA -ACGCTAACGGGCGCAGAGCATTTAATCGATCTGGTAGGCCAACCGCGGCTGGCAAACAGCTGGTGGCCCGGTGCGGTGAT -TAGCGAAGAGCTGGCAACGGCGGCAGCATTGCGTCAGCAGCAGGCGTTGCTGACACGGCTGGCAGAACAGGGCGCAGATT -CCAGCGCCGACGATGCCGCTGCGATTAACGCCTTACGCCAGCAAATTCAGGCGTTGAAAGTGACGGGCAGGCAAAAAATC -AATCTTGATCCCGATATCGTCCGCGTTGCCGAACGCGGTAACCCGCCGTTGCAGGGCAACTACACGCTGTGGGTCGGACC -ACCGCCGTCCACGGTCACGTTGTTCGGGCTTATCAGCCGTCCTGGCAAGCAGCCATTCACTCCAGGTCGCGACGTGGCGA -GCTATCTCTCTGACCAGAGCCTGCTCAGCGGTGCGGATCGCAGCTACGCGTGGGTGGTTTACCCGGACGGACGCACGCAA -AAAGCGCCGGTGGCTTACTGGAACAAGCGTCACGTAGAGCCGATGCCCGGCAGCATTATTTATGTTGGCCTCGCGGACTC -CGTCTGGAGTGAGACGCCTGATGCCCTTAACGCCGACATTCTTCAGACTCTGACGCAGCGGATACCTCAATAATGAAAAA -AAGACATCTGCTTAGCTTACTGGCGCTGGGCATTAGCACAGCTTGCTACGGCGAAACATATCCTGCGCCCATTGGTCCGT -CGCAGTCGGATTTCGGTGGCGTAGGATTATTACAAACGCCCACCGCGCGTATGGCACGGGAAGGGGAGTTGAGTCTGAAC -TATCGCGATAACGATCAGTACCGTTATTACTCAGCTTCAGTGCAACTCTTCCCGTGGCTGGAAACAACGCTGCGCTACAC -CGACGTGCGCACCCGGCAGTACAGCAGCGTCGAAGCGTTCTCTGGCGATCAAACGTATAAAGATAAAGCCTTCGATCTCA -AACTGCGTTTGTGGGAAGAGAGTTACTGGCTGCCGCAAGTGGCGGTTGGTGCGCGGGATATCGGCGGTACGGGGCTGTTT -GATGCGGAATATCTTGTTGCCAGCAAAGCCTGGGGGCCGTTCGATTTTACGCTCGGCCTGGGCTGGGGGTATTTGGGCAC -CAGCGGTAATGTGAAAAATCCGCTCTGTTCAGCCAGTGATAAATATTGCTATCGCGATAACAGCTACAAACAGGCGGGAT -CTATCGACGGTAGCCAGATGTTCCACGGTCCTGCCTCACTGTTTGGCGGCGTGGAATACCAGACGCCCTGGCAACCGCTG -CGCCTGAAACTGGAGTATGAAGGCAATAATTATCAGCAGGATTTTGCCGGGAAGCTGGAGCAAAAAAGTAAGTTTAACGT -CGGTGCGATTTATCGCGTTACCGATTGGGCCGACGTTAACCTTAGCTATGAACGTGGCAACACCTTTATGTTTGGCGTTA -CGTTGCGCACCAACTTTAACGATCTGCGCCCGTCTTACAACGATAACGCCCGCCCGCAATATCAACCGCAGCCGCAGGAT -GCCATTTTGCAGCATTCGGTGGTGGCGAATCAGTTAACGCTGTTGAAATACAATGCCGGACTTGCCGATCCACAGATCCA -GGCGAAAGGCGATACGCTGTATGTTACCGGCGAGCAGGTGAAATATCGTGATTCGCGCGAAGGGATCATCCGTGCGAATC -GGATCGTGATGAACGATCTGCCGGATGGGATCAAAACGATCCGCATTACGGAAAATCGCCTTAACATGCCGCAGGTGACG -ACGGAAACCGATGTCGCCAGCCTGAAAAATCATCTCGCCGGAGAGCCGTTGGGCCACGAAACGACGCTGGCGCAAAAACG -CGTCGAGCCAGTGGTTCCGCAGTCCACCGAGCAGGGCTGGTATATCGACAAATCACGCTTTGATTTCCATATCGATCCGG -TGCTGAACCAGTCGGTCGGTGGCCCGGAAAACTTTTACATGTATCAGCTGGGCGTGATGGGAACGGCAGATTTGTGGCTG -ACGGACCATCTGCTGACCACCGGCAGCCTGTTTGCAAATCTTGCCAACAACTACGACAAGTTTAACTACACTAATCCTCC -GCAGGACTCGCACTTACCGCGCGTGCGTACCCATGTGCGCGAGTATGTGCAGAACGATGTCTATGTGAATAACCTGCAAG -CCAACTACTTCCAGCATCTGGGCAACGGCTTCTACGGTCAGGTCTACGGTGGTTATCTCGAAACCATGTTTGGCGGTGCG -GGGGCAGAAGTGTTGTATCGCCCGCTGGACAGCAACTGGGCGTTTGGTCTGGATGCCAACTACGTTAAACAGCGCGACTG -GCGTAGTGCAAAAGATATGATGAAATTCACCGACTACAGCGTGAAAACCGGACATCTGACCGCCTACTGGACGCCATCTT -TCGCTCAGGATGTGTTAGTTAAAGCCAGCGTCGGGCAGTATCTGGCAGGGGATAAAGGCGGCACGCTGGAGATCGCCAAA -CGCTTTGATAGCGGCGTGGTGGTGGGTGGCTATGCCACGATCACTAATGTTTCGAAAGAGGAGTACGGCGAAGGGGACTT -CACCAAAGGCGTGTATGTCTCGGTACCGTTGGATCTCTTCTCGTCTGGCCCGACACGCAGCCGTGCGGCGATTGGCTGGA -CGCCGCTGACGCGTGACGGTGGTCAGCAACTTGGGCGTAAGTTCCAGTTGTATGACATGACCAGCGACCGTAGCGTCAAT -TTCCGCTAAGTCATGGGAAAGGTGCCAGTTTTCGCACTCACTGGCACCTTCATTCTTAATGGCCTGTCGAGCCATCAGGA -ACGCAGTTCACTCCCGGTTTGCGATCTGGTGTGTAAAGGCGAAAACATTCTGTCTTCCTGTCCGTCGATATCGGTTGCAG -GTCTGGTTGCCTGAGCGACTGGGCCATCATTGGGCTGGAGACATTGCTTTGCGGTAGGTCGGCTTTATCAGCAGTACCGA -GCGGACCAGCATAAGCAGGAAGAACAGAGACTGATAACATCAAAGCAGCAAAATAAGGCTTCATTTTTACCACCTTTATC -AGGTTACGTTTCATTTGTTCCAGAGGAACATTGTCGATTTTTCGCGCATTGCTGGTGGCTGGGAATCACCTGAATGGGTG -ATTTTTGAATTACCGGCTTTGGTGCGGTTTGTCTTGCCGGATGCGCCGCCAGGCGCGGCTTATCCGGCCTACGGGTAGGT -ATATCCGGCTTTGGTGGAGGCGCGCTCCAAATCCAGGTTGAACAAAACATACACAAAAAATATAGATCTCCGTCACATTT -TTGCGTTATACAGGAAGCTCGCCACTGTGAAGGAGGTACTGCTATGACGTCACTCTCTCGTCCGCGCGTGGAGTTTATCT -CCACCATTTTGCAGACCGTACTCAATCTTGGCCTGCTGTGCCTCGGCCTGATTTTGGTTGTCTTCCTCGGCAAAGAAACG -GTGCATCTGGCTGATGTGCTGTTCGCGCCAGAACAAACCAGCAAATATGAGCTGGTAGAAGGACTGGTGGTTTACTTTCT -CTATTTCGAATTTATCGCGCTGATTGTGAAGTACTTTCAGTCCGGTTTTCACTTCCCGCTACGTTACTTTGTCTATATTG -GGATCACCGCCATTGTGCGCTTGATCATCGTCGATCATAAATCGCCACTGGATGTGTTGATCTACTCGGCTGCGATCCTG -TTACTGGTGATCACCCTGTGGCTGTGTAATTCGAAACGGCTGAAGCGGGAGTAAAAAGTCAGCACGCCGAAATGGCGCGG -CGTGCTGGACAGGAAGATTACAGCGTAGCAGTTTGTTGTGTTTTCTTCGTTTCCGGTTCCCAGAGCGCTTCCAGCTCCTC -AAGGGTTTTACCTTTGGTTTCCGGGACAAATTTCCACATAAACAGTGCTGCCAGAACGCCCATACAACCGTAAATCCAGT -AGGAGAAACCGTTGTGGAAATGGGCCACCAGCCAGGAGTTTTTGTCCATCATCGGGAAGGTCCAGGAGACGAAGTAGTTC -GCCAGCCACTGGGCCGCCACCGCGATTGCCAGCGCTTTACCACGAATAGCATTCGGGAAGATTTCCGACAGCAGTACCCA -GCATACCGGACCCCAGGACATGGCAAAGGCGGCAACATAGAACAGCATCGACAGTAGCGCCACAATACCCGGTGCCTGAG -TGTAAAACGCGGTACCGAGGCTAAACATACCGATTGCCATTCCGAGTGCGCCGATAATTTGCAGTGGCTTACGACCAAAT -TTATCCACCGTCATAATTGCCAGAACGGTGAAGGTGAGGTTGATAACTCCGACAATAATGGTCTGCAACAGCGCGATATC -CGTGCTGGCCCCCAGCGTTTTGAACACTTCCGGCGCGTAGTACAGCACCACATTGATGCCGACAAATTGCTGGAAGATGG -AGAGCATTACGCCGATTACAATCACGCCCACGCCAAACATCAGCAGACGACCACCGGTTTTGCGGCCATGATCCAGGGAG -TGTTTAATTTCCTGTACTGCCTGAGTTGCAAGCGTGTTGCCCATAATTTTGCGCAGGATACCTTCCGCCTGTTCTTGCTT -GCCGCGCGACATCAGCCAGCGAGGACTTTCTGGCACGGTATACAGCAGCATTAAGAACAGCAGTGCAGGGATACATTCCG -AGGCAAACATATAACGCCAGCCGTCAGTATTCAGCCAGCTGGCATCACCGGAACGGGCAATAAAATAGTTTACGCAGTAA -ACTAAAAGTTGCCCGAAAATAATCGCAAACTGGTTAAAAGAGACCAGTTTCCCGCGAATATGAGCTGGAGCCAGTTCCGC -AATATACATTGGCGAGAGCATTGAGGCTAAACCAACGCCAATACCGCCAATAATGCGATAAATAACAAATTCCGGGACAT -AACCTGCCAGATAAACAGGCACAGTGTTGTCCGGGTTTATAGAGGTAAAACCAAGTTCTGGCCAGGCAGAACCTACACCA -GAAATAAAAAACAGGACAGCAGCAATCTTAAGTGAATCACGACGACCGAAGCGGTTACTGCAATAACCACCGAGGGCACC -GCCGATGATGCAACCAATCAGAGCGCTGGCCACGCAAAACCCTAACAGGGAGTTGGCAGCGGATTCACTTAAGTTTTGTG -GAGCAACAAAGACGGTATTGAGTGACTCAACAGTACCGGAAATAACGGCGGTGTCGTAGCCAAATAATAAACCACCTAAT -GTAGCGACTAAGGTAATCGAAAATATATAACTGGAATTATACTGGGTATTCATTCAGACCTGCCTTAGACCATTCTGATC -TTTTATCAGTGCATTGATGTTGGAATTGTCAGGCAGTTAAGGCAATTATCATTTTTTACAATGCGTTTACGTAATGTCTT -TTCTGTGATCTTAATTGTGATAATTATCCAAAATTGATAAAAACAATACTATTGCCGTGACTCAGAGCACGAAAGAGAAT -TATCGTAAGTGGGAAAACAAATAACGTAAAAATAATAAGCTCTATGATGGAAATATTAACCGGCGAACGATTCAGATTGC -AGACGAAAGAAAAAAAGGCGCTCCGTGGAGCGCCGAATAACAGTCACAAGTTGGGATAACGTAAGTTGAGGGTGCAGCGG -CATAACATTGGCAGAACAACATCTTTAACCTTTCACACCACCTGCCGTCAGGCCGTTGACCAGCCAGCGTTGAGCCAGCA -AGAAGACGATGGTGATCGGTAATGCAGACATCACGGCAGCGGCGGCAAAGTCACCCCACAGGTAGTTTTGCGGGTTGAGG -TATTGCTGCATCCCCACGGCCAGGGTGTAGCTGTTTACGTCACGCAGTAACAGCGACGCGACCGGAACTTCAGTAATGGC -AGCGATAAACGACAGGATGAATACCACCGCCAGAATCGGTACTGACAGCGGCAACAGGACAAGGCGGAAGGCCTGCCACG -GTGTCGCACCATCCAGCGCAGCAGCTTCTTCCAGCGAACTGTCGATGGTTTCGAAATAGCCTTTGATGGTCCAGACATGC -AGCGCAATCCCACCCAGATACGCGAAAATTACGCCGCCGTGAGTATTCAGGCCAATGAATGGAATGTACTCACCCAGACG -ATCAAACAACGCATACAACGCGACCAGTGAAAGTACTGCCGGGAACATCTGGAAAATCAGCATTCCTTTCAGCAGCGTCG -CTTTGCCTGGAAAGCGCATACGGGCGAAAGCGTAGGCGCAGGTGGTGGAGAGCGCCACAATGCCAATCGCGGAAATCCCG -GCGACCTTTACCGAGTTCCACAGCCACAGCAGTACCGGGAATGGCGGTGGCGTAATGCGACCATCAGCCTGTTCAACGCT -AAAACCTAACGCCAGTTTCCAGTGATCCCAGGAGATTTGCTCCGGGATCAGGCTGCCGGTCGCAAAGTTTCCCTGACGCA -GCGAGATAGCGACGACCATCAGCAGCGGGAACATAATCGCTGCGATAAAAAGTAGCAGTAGCAGGTGAGTAATAAATAAA -CGAGCTTTTTGCGATTTCGGTTGGACCATTGCCATTTTTGTTATCTCCCTTAATCAAACTTCATTCGCGTGGCTTTCAGG -TTCACTATCGCCAGCGCACCCACCAGCAGGAAGATCAGCGTGGCAATTGCTGCCGCCAGACCGAAGTCCTGACCCCCGCC -GCCTTCAAAAGCGATGCGGTAGGTGTAGTTAACAAGCAGGTCGGTATAACCGGCTGGCGTGGTCGTGCCAAGACGATCCG -GGCCGCCGTTGGTTAACAGTTGAATCAGCACGAAGTTGTTAAAGTTAAAGGCGAAGCTGGCGATCATCAGCGGCGTCAGC -GGTTTAATCAGCAGCGGCAGCGTAATCTTAAAGAAGTTCTGGAACGGACCTGCGCCATCCATTGCTGAGGCTTCATACAA -ATCGTCCGGAATCGCTTTCAGCAAGCCCATGCAGAGGATCATCATGTACGGATAACCCAGCCAGGTATTGACGATAATTA -GCATCGTGCGGGCGGTGGTCGGATCGCTGAACCAGGCGGGCTTCACGCCAAACAGCGCGCTCAACATCATGTTGATTTCA -CCGAAGCTCTGGTTAAACAACCCTTTGAAAATCAAGATTGAAATGAACGATGGCACCGCGTAGGGCAGAATCAGCAGGAC -GCGATAGACCGCTTTGCCGCGCAACGCTTCCCACTGCACCAGACACGCCAGAACCATGCCGACCGCCACCGTTAAAAAGA -CAGTGATCAGCGAGAACACCACGGTCCAGACGAAAATGGCGAGGAACGGTTTCTGAATGCCTTCGTCGGTAAAGACGCGG -GTAAAGTTTTTCCAGCCGGTGGTCACGGTGTAACCGGGGCTTAGCTTTTCATCACCCCAGTTGCCGTCGGCGGTAATGGA -CTGGTAAAAGCCAATTTGGTTATTCGGACGATATTTCACGCCGCTCTGATTATTCGTCAACGTGCCGTCACCGTCGAGTG -TGTAGAGCGGCTGCGTGCCAGAAAACTGGCGCAGGGAGCTCATCATCACTTTGTTGCCATCCGGCAGAATGGCGGTAATG -TCACTCAGCGCCTGACGATTCTGGGTAATCACGCGCAGATTCGCGCGTTCGCCTTCGGGCTGGGCGGTCGTTTCTTTCAG -TTGCAGTTTTTGCTCGCCGCCAAATTTAAAAGCGTCGGAGAGGTAATTTTTGCCGGTTTCGCCGTCGCTGAGCGCCAGTT -GCCACTCATCGCCCGCCGGGTAAAGACCAAAGTTATAGGTTTTGCCTGCTTGCCAGGAGCGATCTAACAACACTTCCTGC -GCACGTTCAAAAGTCAGCTGGTTAGTGCTGCTGTAGTTGGTGAAGGCAATGGCGATGGTGCAGACCAGAGGGAAGAGGAC -GAATAATCCCATTCCAGCCATTCCCGGGTAAACATAGCGCCAGGCGTAGGCTTTACGATTGGCGAAAATATACAGCCCCG -CTGAACTCAATATCAGCGTGGTAATGGCGAACAGGTATTCCCCTTGTGCGTACATTAAAACAACAAGGTAACCCACCAGC -AGGCCGAGCAGACCTAGCACTGACCATTTCAGCGCGTCGCTTTGCCACCAATGTTTCTTTTTAATGACATCCATGGGGTT -CTTCCTCATTCCAGGACGGATAAGGCTTTCACGCCTTATCCGACAACAACTGCCTGATGCGACGCTGACGCGTCTTATCA -GGCCTACATACGTTTCGGTTTTGTAGGCCGGACAAGGCGTTCACGCCGCATCCGGCATTTCACAGCATTACTTGGTGATA -CGAGTCTGCGCGTCTTTCAGGGCTTCATCGACAGTCTGACGACCGCTGGCGGCGTTGATCACCGCAGTACGCACGGCATA -CCAGAAAGCGGACATCTGCGGGATGTTCGGCATGATTTCACCTTTCTGGGCGTTTTCCATGGTGGCGGCAATACGTGGAT -CTTTCGCCAACTCTTCCTCGTAAGACTTCAGCGCTACGGCACCCAGCGGTTTGTCTTTATTAACCGCTTCCAGACCTTCA -TCAGTCAGCAGATAGTTTTCGAGGAACTCTTTCGCCAGCTCTTTGTTCGGACTGGCGGCGTTAATACCTGCGCTCAGCAC -GCCAACGAACGGTTTGGATGGTTGACCCTTGAAGGTCGGCAGTACCGTTACACCATAATTCACTTTGCTGGTGTCGATGT -TGGACCATGCCCACGGGCCGTTGATGGTCATCGCTGTTTCGCCTTTATTAAAGGCAGCTTCTGCGATGGAGTAATCGGTG -TCTGCATTCATGTGTTTGTTTTTAATCAGGTCAACCAGGAAGGTCAGACCCGCTTTCGCGCCAGCGTTATCCACGCCCAC -GTCTTTAATGTCGTACTTGCCGTTTTCATACTTGAACGCATAACCCCCGTCAGCAGCAATCAGCGGCCAGGTGAAGTACG -GTTCTTGCAGGTTGAACATCAGCGCGCTCTTACCTTTCGCTTTCAGTTCTTTATCCAGCGCCGGGATCTCTTCCCAGGTT -TTTGGCGGGTTCGGCAGCAGATCTTTGTTATAAATCAGCGATAACGCTTCAACAGCGATCGGGTAAGCAATCAGCTTGCC -GTTGTAACGTACGGCATCCCAGGTAAACGGATACAGCTTGTCCTGGAACGCTTTGTCCGGGGTGATTTCAGCCAACAGGC -CAGATTGAGCGTAGCCACCAAAGCGGTCGTGTGCCCAGAAGATAATGTCAGGGCCATCGCCAGTTGCCGCAACCTGTGGG -AATTTCTCTTCCAGTTTATCCGGATGCTCAACGGTGACTTTAATTCCGGTATCTTTCTCGAATTTCTTACCGACTTCAGC -GAGACCGTTATAGCCTTTATCGCCGTTAATCCAGATTACCAGTTTACCTTCTTCGATTTTGGCGAGAGCCGAGGCGGAAA -ACATCATCGTCGTTAATGCGGATAATGCGAGGATGCGTGCACCTGTTTTTATTTTCATAATCTATGGTCCTTGTTGGTGA -AGTGCTCGTGAAAACACCTAAACGGACTCTAGTTTCTTTATACGGCAACCTCTTTCCATCCTCCTTGCCCCTACGCCCCA -CCGTCGCTTTGTGTGATCTCTGTTACAGAATTGGCGGTAATGTGGAGATGCGCACATAAAATCGCCACGATTTTTGCAAG -CAACATCACGAAATTCCTTACATGACCTCGGTTTAGTTCACAGAAGCCGTGTTCTCATCCTCCCGCCTCCTCCCCCATAA -AAAAGCCAGGGGGTGGAGGATTTAAGCCATCTCCTGATGACGCATAGTCAGCCCATCATGAATGTTGCTGTCGATGACAG -GTTGTTACAAAGGGAGAAGGGCATGGCGAGCGTACAGCTGCAAAATGTAACGAAAGCCTGGGGCGAGGTCGTGGTATCGA -AAGATATCAATCTCGATATCCATGAAGGTGAATTCGTGGTGTTTGTCGGACCGTCTGGCTGCGGTAAATCGACTTTACTG -CGCATGATTGCCGGGCTTGAGACGATCACCAGCGGCGACCTGTTCATCGGTGAGAAACGGATGAATGACACTCCGCCAGC -AGAACGCGGCGTTGGTATGGTGTTTCAGTCTTACGCGCTCTATCCCCACCTGTCAGTAGCAGAAAACATGTCATTTGGCC -TGAAACTGGCTGGCGCAAAAAAAGAGGTGATTAACCAACGCGTTAACCAGGTGGCGGAAGTGCTACAACTGGCGCATTTG -CTGGATCGCAAACCGAAAGCGCTCTCCGGTGGTCAGCGTCAGCGTGTGGCGATTGGCCGTACGCTGGTGGCCGAGCCAAG -CGTATTTTTGCTCGATGAACCGCTCTCCAACCTCGATGCTGCACTGCGTGTGCAAATGCGTATCGAAATCTCCCGTCTGC -ATAAACGCCTGGGCCGCACAATGATTTACGTCACCCACGATCAGGTCGAAGCGATGACGCTGGCCGACAAAATCGTGGTG -CTGGACGCCGGTCGCGTGGCGCAGGTTGGGAAACCGCTGGAGCTGTACCACTATCCGGCAGACCGTTTTGTCGCCGGATT -TATCGGTTCGCCAAAGATGAACTTCCTGCCGGTAAAAGTGACCGCCACCGCAATCGATCAAGTGCAGGTGGAGCTGCCGA -TGCCAAATCGTCAGCAAGTCTGGCTGCCAGTTGAAAGCCGTGATGTCCAGGTTGGAGCCAATATGTCGCTGGGTATTCGC -CCGGAACATCTACTGCCGAGTGATATCGCTGACGTCATCCTTGAGGGTGAAGTTCAGGTCGTCGAGCAACTCGGCAACGA -AACTCAAATCCATATCCAGATCCCTTCCATTCGTCAAAACCTGGTGTACCGCCAGAACGACGTGGTGTTGGTAGAAGAAG -GTGCCACATTCGCTATCGGCCTGCCGCCAGAGCGTTGCCATCTGTTCCGTGAGGATGGCACTGCATGTCGTCGACTGCAT -AAGGAGCCGGGCGTTTAAGCACCCCACAAAACACACAAAGCCTGTCACAGGTGATGTGAAAAAAGAAAAGCAATGACTCA -GGAGATAGAATGATGATTACTCTGCGCAAACTTCCTCTGGCGGTTGCCGTCGCAGCGGGCGTAATGTCTGCTCAGGCAAT -GGCTGTTGATTTCCACGGCTATGCACGTTCCGGTATTGGTTGGACAGGTAGCGGCGGTGAACAACAGTGTTTCCAGACTA -CCGGTGCTCAAAGTAAATACCGTCTTGGCAACGAATGTGAAACTTATGCTGAATTAAAATTGGGTCAGGAAGTGTGGAAA -GAGGGCGATAAGAGCTTCTATTTCGACACTAACGTGGCCTATTCCGTCGCACAACAGAATGACTGGGAAGCTACCGATCC -GGCCTTCCGTGAAGCAAACGTGCAGGGTAAAAACCTGATCGAATGGCTGCCAGGCTCCACCATCTGGGCAGGTAAGCGCT -TCTACCAACGTCATGACGTTCATATGATCGACTTCTACTACTGGGATATTTCTGGTCCTGGTGCCGGTCTGGAAAACATC -GATGTTGGCTTCGGTAAACTCTCTCTGGCAGCAACCCGCTCCTCTGAAGCTGGTGGTTCTTCCTCTTTCGCCAGCAACAA -TATTTATGACTATACCAACGAAACCGCGAACGACGTTTTCGATGTGCGTTTAGCGCAGATGGAAATCAACCCGGGCGGCA -CATTAGAACTGGGTGTCGACTACGGTCGTGCCAACTTGCGTGATAACTATCGTCTGGTTGATGGCGCATCGAAAGACGGC -TGGTTATTCACTGCTGAACATACTCAGAGTGTCCTGAAGGGCTTTAACAAGTTTGTTGTTCAGTACGCTACTGACTCGAT -GACCTCGCAGGGTAAAGGGCTGTCGCAGGGTTCTGGCGTTGCATTTGATAACGAAAAATTTGCCTACAATATCAACAACA -ACGGTCACATGCTGCGTATCCTCGACCACGGTGCGATCTCCATGGGCGACAACTGGGACATGATGTACGTGGGTATGTAC -CAGGATATCAACTGGGATAACGACAACGGCACCAAGTGGTGGACCGTCGGTATTCGCCCGATGTACAAGTGGACGCCAAT -CATGAGCACCGTGATGGAAATCGGCTACGACAACGTCGAATCCCAGCGCACCGGCGACAAGAACAATCAGTACAAAATTA -CCCTCGCACAACAATGGCAGGCTGGCGACAGCATCTGGTCACGCCCGGCTATTCGTGTCTTCGCAACCTACGCCAAGTGG -GATGAGAAATGGGGTTACGACTACACCGGTAACGCTGATAACAACGCGAACTTCGGCAAAGCCGTTCCTGCTGATTTCAA -CGGCGGCAGCTTCGGTCGTGGCGACAGCGACGAGTGGACCTTCGGTGCCCAGATGGAAATCTGGTGGTAATAGCAAAACC -TGGGCCGGATAAGGCGTTTACGCCGCATTCGGCAACCAACGCCTGATGCGACGCTTGCGCGTCTTATCAGGCCTACAACG -GCTGTCAAATGTAGGCCGGATAAGGCGTTTACGCCGCATCCGGCATAAAAACAGGTTGTCATTATCTGAAAGGGGCGAAA -GCCCCTCTGATTATCGGGTTTAGCGCGCTATTGCCTGGCTACCGCTGAGCTCCAGATTTTGAGGTGAAAACAATGAAAAT -GAATAAAAGTCTCATCGTCCTCTGTTTATCAGCAGGGTTACTGGCAAGCGCGCCTGGAATTAGCCTTGCCGATGTTAACT -ACGTACCGCAAAACACCAGCGACGCGCCAGCCATTCCATCTGCTGCGCTGCAACAACTCACCTGGACACCGGTCGATCAA -TCTAAAACCCAGACCACCCAACTGGCGACCGGCGGCCAACAACTGAACGTTCCCGGCATCAGTGGTCCGGTTGCTGCGTA -CAGCGTCCCGGCAAACATTGGCGAACTGACCCTGACGCTGACCAGCGAAGTGAACAAACAAACCAGCGTTTTTGCGCCGA -ACGTGCTGATTCTTGATCAGAACATGACCCCATCAGCCTTCTTCCCCAGCAGTTATTTCACCTACCAGGAACCAGGCGTG -ATGAGTGCAGATCGGCTGGAAGGCGTTATGCGCCTGACACCGGCGTTGGGGCAGCAAAAACTTTATGTTCTGGTCTTTAC -CACGGAAAAAGATCTCCAGCAGACGACCCAACTGCTCGACCCGGCTAAAGCCTATGCCAAGGGCGTCGGTAACTCGATCC -CGGATATCCCCGATCCGGTTGCTCGTCATACCACCGATGGCTTACTGAAACTGAAAGTGAAAACGAACTCCAGCTCCAGC -GTGTTGGTAGGACCTTTATTTGGTTCTTCCGCTCCAGCTCCGGTTACGGTAGGTAACACGGCGGCACCAGCTGTGGCTGC -ACCCGCTCCGGCACCGGTGAAGAAAAGCGAGCCGATGCTCAACGACACGGAAAGTTATTTTAATACCGCGATCAAAAACG -CTGTCGCGAAAGGTGATGTTGATAAGGCGTTAAAACTGCTTGATGAAGCTGAACGCCTGGGATCGACATCTGCCCGTTCC -ACCTTTATCAGCAGTGTAAAAGGCAAGGGGTAATTACGCCCCACAGTGCTGATTTTGCAACAACTGGTGCGTCTCCTGGC -GCACCTTTTTTTATGCTTCCTTCCTGGGATATGAGCGATTTTTTATAGTAACTCACTTCTTCTTCACTAAGAATATCCAT -TATCTCAATGCCTTATCAGAGATTCTTTTCCTTTCGCCGGTAGTGTCTGGACATTCAGGCTACTTTTCCAGGTTATTTTA -TTTCTGTTATGCAGAGGTTTTATGATAAGTCATATCCTAAATTCTGGCGGCAATAACTCTTTGATGAAACATGATGTGGT -GCAAGGAAATAATATAGTAGATCTTGATTTACTACGTAATTTAAATGGGGTGCCAGGTTTAAACAGAGATAACTTTATTT -ATATCAGCAATATTTTTTCAAATATAAAACAACGGAACGAAAAAATCATGCAATAAATATGTTTCGTGAAGTCTCAATCA -GTAATGATACTATAAGTGTAAAATTCTACAGAAATGAAAAAAATTGAATGCGCTTGCAATTTTCTGATGGATAAAGATGC -GCAGGGGTATATCGACCTGTCTGATTTGGATTTAACAAGTTGTCATTTTAAAGGTGACGTTATATCGAAGGTGTCTTTTT -TATCATCAAATCTACAACATGTAACATTCGAATGTAAAGAAATTGGGGATTGCAATTTTACTACTGCAATAGTTGATAAT -GTCATATTTAGATGTCGACGTTTACACAATGTGATTTTTATCAAAGCGAGTGGTGAATGTGTCGATTTCAGCAAAAATAT -TCTTGATACAGTTGACTTCTCGCAGAGTCAACTTGGTCATAGTAATTTTCGCGAATGTCAGATTAGAAATTCAAACTTCG -ATAATTGTTATCTTTACGCTTCGCACTTCACCAGAGCAGAGTTTCTGTCTGCCAAAGAAATATCATTTATTAAATCGAAT -TTGACAGCTGTTATGTTTGATTATGTGCGAATGTCGACAGGGAATTTTAAAGATTGCATTACAGAACAATTGGAATTAAC -TATTGATTATTCAGATATATTTTGGAATGAAGATCTCGATGGTTATATCAATAACATTATAAAAATGATTGATACATTGC -CAGATAATGCAATGATATTGAAATCCGTTCTGGCCGTAAAACTGGTGATGCAATTAAAAATACTTAATATTGTTAATAAA -AACTTTATTGAGAATATGAAGAAAATATTTAGCCATTGTCCTTATATAAAAGATCCCATTATACGCAGTTATATCCATTC -TGATGAAGATAACAAGTTCGATGATTTTATGCGTCAACATCGATTCAGTGAGGTGAATTTCGATACCCAACAGATGATCG -ATTTTATTAACAGATTTAATACGAATAAATGGCTAATTGATAAAAATAACAATTTTTTTATCCAACTTATCGATCAGGCC -TTACGATCAACGGATGATATGATCAAAGCAAATGTTTGGCATCTTTATAAAGAGTGGATTCGTAGTGATGATGTTTCACC -TATATTTATAGAAACTGAAGATAATTTAAGAACCTTTAACACGAATGAATTAACACGAAACGATAATATCTTTATCCTGT -TCTCCTCAGTCGATGATGGGCCAGTTATGGTGGTAAGCTCCCAGCGCTTACATGATATGTTGAATCCTACAAAAGATACC -AATTGGAATTCCACGTATATCTACAAATCCAGACATGAGATGTTGCCTGTTAATCTTACTCAGGAAACACTTTTCAGCTC -CAAATCTCATGGTAAATATGCGCTTTTCCCCATTTTTACTGCGAGTTGGCGAGCTCATCGTATAATGAATAAGGGTGTTT -AAGTAAAGGAAAACATCACCGTTCCTGGCATCCTGGACGGTGATGCCCCTACGGTTGCCCTCGCCAGCACGGGCATCGGT -AAAGCGTAAGGTTCAACATCGTTTTACCACTTCATGCGATTGTTGCGTTTTTGTTGCGTATTAGATCACTTAATTTGCTT -TACATCTCCCGTAAACACTTTTCTGCGATACAATGCCTTTACGTTATGTAACGGAGAGTTCGGCATGTCACACCCCGCGT -TAACGCAACTGCGTGCGCTGCGCTATTGTAAAGAGATCCCTGCCCTGGATCCGCAACTGCTCGACTGGCTGTTGCTGGAG -GATTCCATGACAAAACGTTTTGAACAGCAGGGAAAAACGGTAAGCGTGACGATGATCCGCGAAGGGTTTGTCGAGCAGAA -TGAAATCCCCGAAGAACTGCCGCTGCTGCCGAAAGAGTCTCGTTACTGGTTACGTGAAATTTTGTTATGTGCCGATGGTG -AACCGTGGCTTGCCGGTCGTACCGTCGTTCCTGTGTCAACGTTAAGCGGGCCGGAGCTGGCGTTACAAAAATTGGGTAAA -ACGCCGTTAGGACGCTATCTGTTCACATCATCGACATTAACCCGGGACTTTATTGAGATAGGCCGTGATGCCGGGCTGTG -GGGGCGACGTTCCCGCCTGCGATTAAGCGGTAAACCGCTGTTGCTAACAGAACTGTTTTTACCGGCGTCACCGTTGTACT -AAGAGGAAAAAAATATGGAGTGGAGTCTGACGCAGAATAAGCTGCTGGCGTTTCATCGCTTAATGCGTACGGATAAGCCA -ATTGGCGCGTTACTGCTGCTCTGGCCAACATTATGGGCGTTGTGGGTGGCGACACCGGGCGTTCCCCAGCTCTGGATCCT -GGCGGTGTTTGTCGCGGGTGTCTGGCTGATGCGCGCTGCCGGATGTGTGGTGAATGATTATGCTGACCGCAAGTTTGATG -GTCATGTTAAGCGCACGGCGAACCGACCACTTCCCAGCGGCGCGGTAACAGAGAAAGAGGCGCGCGCGCTGTTTGTCGTG -CTGGTACTGATTTCGTTTTTACTGGTGCTGACGCTGAATACGATGACCATTCTGTTGTCGATTGCCGCGCTAGCGCTGGC -GTGGGTGTACCCGTTTATGAAGCGGTATACCCATCTACCGCAAGTGGTGCTGGGCGCGGCGTTTGGCTGGTCGATTCCAA -TGGCTTTTGCCGCTGTGAGTGAGTCGGTGCCATTGAGTTGCTGGTTAATGTTCCTCGCCAATATTCTCTGGGCGGTGGCT -TACGACACGCAGTATGCGATGGTTGACCGCGATGATGATGTGAAGATTGGCATTAAATCCACGGCAATCCTGTTCGGCCA -ATACGATAAATTGATTATTGGTATTTTGCAGATTGGCGTACTGGCACTGATGGCGATCATCGGTGAGTTAAATGGCTTAG -GCTGGGGATATTACTGGTCAATTCTGGTGGCTGGCGCGCTGTTTGTTTATCAACAAAAACTGATTGCCAACCGCGAGCGT -GAAGCCTGCTTTAAAGCATTTATGAATAATAACTATGTTGGTCTGGTACTATTTTTAGGGCTGGCAATGAGTTACTGGCA -TTTCTGATGATGTAAAAAAGCCGGATGATCATCCGGCTTTCTTCTGGGTTGCCTGATGCGCGGCGCTTCTCAGGCCTACA -CAACACATCGCAATTTATTGAATTTGCAGATTATGGAAGGCCGGATAAGGCGTTTTCGCCGCATCCGGCAATTCTCTCTG -ATTACCCTTCGCCCTGCGTCGCACTCTCAATCGTCAAACGCACGTCTGATGTAATCAACTCCGCCAGCAACTGATAAACC -TTCATCGTTTCTGCCGGTTCGGCATCGCCGCTATCGCTGATATACCCTTCATCACGCAGTGTCAGCACCAGAGAACTGAA -CACCGCCTTGTCGAAGAACTCCGGCGCGTTGATGCCGTGCAGCACGGAGAGACGTTGCGCGACGGTGCGGCTCTCTTTCT -CCAGCGTACCGCGGTTGATCGACGGGTTGGCACTCAACAACCAGAAGGTGATGGCATAACGTTGCAGCGTTTCGCGCGCG -CCTGCGGCCAGCAGCTGTAGCGTGCGAGAATGCGCCGGGTTGATATGCAACTCATCATCTTGCAGGGTAATCAGCCCCTG -ACGTTGCATCTCATTTGCCAGCGCATCAATAACGTCCGGCAACTCGTCGCGATCCCAGCGCAGGAACAGCTCCGCTTTCA -GCATTGGGTAAAGCACATTGACGTGCTCCATCAATACGTCGCGGGAGATGTGGCGATGCTGGGTGACGATTGCCGCCATC -AGCGAAGGCAGCACCAACATATGCGCAATGTTGTTGCGATAGTAGGTCATCAGCACCGCTTGCTCGCGCGGCAGAATGAT -GATGTCGCCGATTGTGTCTTTCTCGACTTCAAACTTGTTCATTTGCAGCGCGTGATCGATAAGCTCGCTGGCGCTGGCTG -AAGGAACGGTAGAGTCCGTGGAGTAGGGCACGTTGCGCATCAGATCCAGGTAGCAGTTGAGTTGCTCGGTTAACTGCTCG -CGGGTGAGTGAGCGCTGACGTGATGCCAGTAGCGCAGTACAGCACAGGTTCATGGCGTTTGCCGCGCCTGCGTTGTTAAT -GCGTACCATCAGATCGGCAGCAATATTATTGACCGTCGGCGTTAACCATGCCGGACGCACCGCTTCGATGGGATCGATAG -ATTCACGCCAGTCAGGTACATGCTGGTTAAGGTAGGTCATCAACGGCATTGGTTCACCGAAGTTGACGTAACCCTGACCG -AGATTACGCAGCTTGCTTAAACCGCGCAGCATCTGCGGCAGGCTCTCTTTCTCTTTCGTCGCGCCGCGCAGTTCTTTGGC -GTAAGTACCCACTTCCATGACGTGCTCATAACCGATATAGATCGGAATCAGCGTAATCGGACGCGTGCCGCCACGCAGCA -TCGCCTGAATGGTCATCGACAGCGTACCAGTTTTCGGATCCAGCAAACGCCCCGTACGGGAACGACCGCCTTCCACGAAG -TACTCGACGGAATAACCACGGCTGAACAGTTCGCCGAGATACTCCCGGAAAACGGTGGAATAAAGTTTATTGCCTTTAAA -CGTACGGCGAATAAAGAACGCCCCCAGACGGCGGAAAATCGGCCCGGCAGGCCAGAAATTCAGGTTGATCCCGGCGGCGA -TATGCGGCGGCACCAGCCCCTGGTGATACAGCACGTAAGAAAGCAGCAGGTAGTCCATGTGACTGCGGTGGCAAGGCACA -TATACCAGCTCATGACCGTCGTGGGCCAGCTGGCGAACGCGCTCAGCGTTATGGACGTTGATGCCCTGGTAAAGTCGGTT -CCAGGTGAAGCCCAGAATACGGTCAGTCAGGCGAATCATCTCGTAAGAGAAATTCGCCGCAATCTCTTCCATCAGTGCAA -TCGCGTTCTGCTGCGCTTTTTCATGGGAGATTTTTTTGCTGCGCGCTTCATCTTCTACCGCTTTGGCAATGGCGCGGGAG -GCGAGCAGCTTATTAAACAGATCCTGACGAGCAGGCAAACGTGGGCCTACGGCAGCCAGACGTTGACGGGCAAAGTGCAT -ACGCGCCACGCGCGCCAGTTTCTGAGCGATAGTTTTATCCGTGCCGTGTTCATCCGCCATACGGCGCAGCGAAACTGACG -GCGAGAAACGCACAAAACTGTCGCGACCGAGCCACAGTACAGCGAAAAATTTCTGTACGCCGTTAAGCATACGCAGCGGC -GGGTTCACTTCGCCTTTTTCACGCCCCGGCGCGCGACCAAACATCACCGACACTGGCACCATCTGCACATCCAGATTTGG -GTTGCTACGGTGCAAATCGAGATAGTCGTGGAACAGCTTAATAGACTCTTCTTTCGGCGTGTAATAGGTGAACACACGCG -GCCCGCCGTGAATGAACACATAGCGCGGCAGTAGCGTGCCGTCGATTTCCAGCGGCTCTAACGGGTCAGGCAAGTCATGT -GCCAGACACTGGGCGCGCAACGTCAGCAAATCTGCTTTCGAGTTGTACGGTAAAACGTACATAATTGGACGAGAGGTATC -CAGCCCCAGTTCCGGGGCAGGATCTGCCGGAATAGACTTGCTTTTTACCAGGATGCTTAATGGTAAATTCAGTAATTTGT -AGTAAATTCGTGGCCAGCCGGACATAAACGATGTAAAGCCTCTGGTTAATAATGCAAATGCGCGGCAAGGATAGCAGAAA -GTCATGGGAAATTCTGTGGTATCCGCTCATGTTTCGCGCGGCGCTACGCAAACCCGAATCATCGGATTTAACGGTACACT -GATATTGACGCTCATAATGTAAAAAGGTTCTTTCAATGGCCAATAATACCACTGGATTCACCCGAATTATCAAAGCTGCT -GGCTATTCCTGGAAAGGTTTACGCGCTGCATGGATCAACGAAGCGGCATTCCGTCAGGAAGGCGTAGCGGTATTGTTGGC -GGTGGTCATCGCCTGCTGGCTGGATGTGGACGCGATTACCCGCGTGCTGCTTATCAGCTCCGTGATGCTGGTGATGATTG -TGGAAATCCTCAATAGCGCCATCGAAGCAGTGGTTGACCGAATTGGCTCTGAATACCATGAGCTTTCCGGACGCGCAAAA -GATATGGGATCCGCTGCGGTGCTGATTGCCATTATCGTCGCCGTGATTACCTGGTGCATTCTGTTATGGTCGCATTTTGG -ATAACCCTTCCAGAATTCGATAAATCTCTGGTTTATTGTGCAGTTTATGGTTCCAAAATCGCCTTTTGCTGTATATACTC -ACAGCATAACTGTATATACACCCAGGGGGCGGAATGAAAGCGTTAACGGCCAGGCAACAAGAGGTGTTTGATCTCATCCG -TGATCACATCAGCCAGACAGGTATGCCGCCGACGCGTGCGGAAATCGCGCAGCGTTTGGGGTTCCGTTCCCCAAACGCGG -CTGAAGAACATCTGAAGGCGCTGGCACGCAAAGGCGTTATTGAAATTGTTTCCGGCGCATCACGCGGGATTCGTCTGTTG -CAGGAAGAGGAAGAAGGGTTGCCGCTGGTAGGTCGTGTGGCTGCCGGTGAACCACTTCTGGCGCAACAGCATATTGAAGG -TCATTATCAGGTCGATCCTTCCTTATTCAAGCCGAATGCTGATTTCCTGCTGCGCGTCAGCGGGATGTCGATGAAAGATA -TCGGCATTATGGATGGTGACTTGCTGGCAGTGCATAAAACTCAGGATGTACGTAACGGTCAGGTCGTTGTCGCACGTATT -GATGACGAAGTTACCGTTAAGCGCCTGAAAAAACAGGGCAATAAAGTCGAACTGTTGCCAGAAAATAGCGAGTTTAAACC -AATTGTCGTTGACCTTCGTCAGCAGAGCTTCACCATTGAAGGGCTGGCGGTTGGGGTTATTCGCAACGGCGACTGGCTGT -AACATATCTCTGAGACCGCGATGCCGCCTGGCGTCGCGGTTTGTTTTTCATCTCTCTTCATCAGGCTTGTCTGCATGGCA -TTCCTCACTTCATCTGATAAAGCACTCTGGCATCTCGCCTTACCCATGATTTTCTCCAATATCACCGTTCCGTTGCTGGG -ACTGGTCGATACGGCGGTAATTGGTCATCTTGATAGCCCGGTTTATTTGGGCGGCGTGGCGGTTGGTGCAACGGCGACCA -GCTTTCTCTTTATGCTGTTGCTGTTTTTACGCATGAGCACCACCGGGCTGACTGCGCAGGCTTATGGTGCCAAAAATCCT -CAGGCATTAGCCCGTACGCTGGTGCAACCGTTGCTGTTGGCGTTGGGGGCTGGGGCGTTAATTGCGCTGCTGCGTACGCC -GATTATCGATCTGGCGCTGCATATTGTTGGCGGTAGTGAGGCAGTCCTGGAACAGGCGCGGCGCTTTCTTGAAATCCGCT -GGTTAAGCGCACCGGCGTCGCTGGCGAATCTGGTATTACTCGGTTGGTTACTCGGCGTGCAATATGCCCGTGCGCCAGTA -ATTTTGTTAGTGGTCGGCAATATCCTCAACATTGTGCTGGATGTCTGGCTGGTGATGGGGCTGCATATGAACGTGCAGGG -CGCGGCGCTGGCGACGGTTATTGCGGAATATGCAACATTGCTGATTGGTCTGCTAATGGTGCGTAAAATCCTCAAACTAC -GCGGAATTTCCGGCGAAATGCTGAAAACTGCCTGGCGAGGAAACTTCCGTCGCTTGCTGGCGCTTAACCGCGATATCATG -CTGCGTTCGCTGTTGTTGCAACTCTGTTTCGGCGCGATCACCGTACTTGGCGCGCGACTGGGGAGTGACATTATCGCTGT -TAACGCGGTTCTGATGACGCTACTCACCTTTACCGCCTATGCGCTGGATGGTTTTGCCTACGCGGTTGAAGCGCACTCCG -GTCAGGCATACGGTGCGCGCGACGGTAGCCAGTTGCTGGATGTCTGGCGGGCAGCGTGCCGCCAGTCGGGGATCGTAGCG -TTACTGTTTTCGGTGGTTTATTTGCTGGCTGGGGAACACATCATTGCGTTACTGACGTCGTTAACCCAGATTCAGCAGCT -GGCTGACCGCTATCTTATCTGGCAGGTGATTTTGCCGGTGGTTGGCGTCTGGTGTTATCTGCTGGACGGCATGTTTATAG -GCGCAACGCGTGCCACCGAAATGCGTAACAGTATGGCGGTGGCCGCCGCAGGTTTTGCGCTGACGCTCCTTACGCTGCCG -TGGCTGGGTAATCATGCTTTGTGGCTGGCATTAACCGTCTTTCTGGCGTTGCGCGGGCTTTCTCTGGCGGCTATCTGGCG -GCGTCACTGGCGCAATGGTACCTGGTTTGCCGCAACGTGACGGTTAAAAATTCTGAATAAATAATCCTAAGCCAAATTGC -TGACTACACTTAATCTCACGTTCAGAAGAAAAGTGAACGTACTCTCATTCACAACCTAACGATGAGGTCTTGATTATGAA -TAAAGATGAAGCCGGCGGTAACTGGAAACAGTTTAAAGGTAAAGTGAAAGAGCAATGGGGCAAACTGACCGATGATGATA -TGACGATCATTGAAGGTAAACGTGATCAACTGGTCGGTAAAATCCAGGAACGTTATGGTTATCAGAAAGATCAGGCAGAA -AAAGAGGTCGTGGATTGGGAAACCCGCAATGAATATCGCTGGTAATTAATCCCTCCTGCCCGACGTGTACAAGGATGTAC -GCCCTCTTAACGCGGTTTCTTTTTCACCTGCACAGAGTGATCATGCTGGCACTGTTCAGGATGACGACACGCTTCCACTT -CTACACATGCCGCACAGAGCCCATGTGCTTCAATCACATTATGCCGCAGGGCAAACCCCATTTTTGCCGCCAGCGTATGC -ATAATGTCTTCCACGCCTTCTGCACACTCTTCTTTCACTGCGCCGCAGCGATCGCAAATAAACATGGCTGACGTATGGGT -GGGCTGATCGAACAGATGACAGAGCACATAACTGTTGGTGGATTCCACCTTATGCACAAAACCTTGCTCAAGCAGAAAAT -CCAGCGCGCGATAAACCGTTGGCGGCTTGGCTTGCGGTTCAGCTTCGCGCAGTAAATCAAGCAGATCATAAGCGCTGATA -GCGCCATCCTGCAGACTCATCAGGCGCAACACTTCCAGGCGCTGTGGGGTCAGGCGCACATTACGCTGCGCGCAGATTTT -TTCAGCCTGCGCTAATAACTCCTGCGTTGTGGTCTTTTCCATCGGGCACCTCAAAGTGGGGGTTAAGAATGTCCTTACTT -TACCATGTTCCAGGAAAAACACCGAGAACCCTTATTGTTGCCGTAATGTTGATTTTCTGTTTTGTAGGTAAGGTGTTATG -TTGCCTTGTCGTACCATTATCAACACGATAATAATTAATAATTCATTTTTAAATAAATTGCTTCAAGTTAACTCGCTATT -TATTTAACTGGGTTTAAACGCATACCTGTAGTTCAGAAATTATGAGCGATTTTTGATAGTGACCAGATGGCAAAAGAATT -ATAAGGAGGACACGGTACGACAAAAAAGGTAGATGAATCATGTTGAAGATAATACCCGGTGCAACTGGATACTTTAATAA -AACACTCAATTCAAATCAATTCGATAATGAAGATGCAATCAAAGATAAATTAGATAATAGAGGTTCAATCAAAGGTAAAT -TAAATAATATATATGGTAAATCTATTGATTATGCAGCGCTGCGTCATCGGGATATAATTATTGCAAAAATAGATTTGTTT -ATTCAACGAATCACGCATAATTTATGGCATGCACGTAAAAAAATGTGTTTTTAATTGTGCAAATAAATGATCTCAAAATG -TGGGTCAATAAGTATATTGACGATTGCACTGATGAGGATTTAAACGATCGTGACTTTATTGCATCAGTTGTTGACCGGGC -TATTTTTCATTTCGCGATTAATAGTATATGTAATCCTGGGGATAATAAAGATGCAATGCCCATTGAACAATGTACTTTTG -ATGTAGAAACTAAGAATGACCTTCCCTCCACGGTTCAGCTATTTTATGAGGAATCTAAGGATAATGAACCTTTAGCGAAT -ATACATTTTCAAGCAATAGGTTCTGGTTTTTTAACGTTTGTTAATGCCTGCCAGGAACATGATGACAACAGCTTAAAATT -ATTTGCTTCGCTGTTAATTTCACTTTCATATTCTAGTGCCTACGCAGATTTATCAGAAACAGTGTATATTAATGAAAATA -ATGAGAGCTACCTGAAAGCTCAGTTTGAAAAATTATCTCAACGTGATATGAAGAAGTACCTGGGAGAGATGAAGCGTCTG -GCTGATGGGGGAGAAATGAATTTTGATGGCTATCTGGATAAGATGTCACATCTGGTGAATGAAGGAACGCTCGATCCTGA -TATTTTAAGCAAAATGCGAGATGCTGCACCACAATTAATTAGCTTCGCGAAGTCGTTTGACCCAACCTCAAAGGAAGAGA -TTAAAATACTTACAGACACTTCTAAATTAATTTATGATTTGTTCGGGGTTAAATCGGAGAAATAATATGTGAAGTTCTTC -GATAGTATGGAAGGCATTATATAAAAGGACCCAATATTTATTGGGTTCTTTTTTCTCTATCAATACTATTAGCAGGGAGA -TATATCACCAGAGTTTAATGTGTGATTTTTTATTTATCGTCGAACCTGGATTGTTTATCATTGGCCTTAACAAAGTTAAC -GGCTAATAAGATTATTTCCATCACTTCGTGAGAGCTTCATGCCTTGAGAGGATCTCAATTTTCTTTTGCAATGAGACAGG -CGCTTCCTGTTGTTATGGTATAGTACCCCGCTATTGAGCCTCCTGAATAGTGATGCTGAATAACATAACCCCATGATATA -TCGATAAAATAATCTCTACATTTGAAAATGCACGGTAATTCTGAAATGCAAAAAATCAACCAAACCAGCGCAATGCCTGA -AAAAACTGACGTTCACTGGAGTGGTCGGTTTAGCGTTGCACCAATGCTCGACTGGACGGACAGACATTGCCGCTATTTCT -TGCGTCTGCTTTCCCGCAATACGTTGCTGTATACCGAAATGGTGACCACAGGGGCGATTATTCACGGTAAAGGTGATTAT -CTGGCGTACAGTGAAGAAGAACATCCGGTAGCGTTGCAACTGGGCGGTAGCGATCCGGCGGCGCTGGCGCAGTGTGCAAA -GCTGGCAGAAGCGCGCGGATATGATGAGATCAACCTGAATGTCGGCTGCCCGTCTGACCGGGTGCAGAACGGCATGTTTG -GTGCGTGTCTGATGGGTAATGCGCAGCTGGTTGCCGACTGCGTGAAAGCGATGCGCGATGTGGTGTCGATTCCGGTGACG -GTGAAAACGCGTATTGGCATCGACGACCAGGACAGCTATGAATTTCTCTGCGATTTCATCAATACCGTTTCCGGCAAAGG -CGAGTGTGAGATGTTCATCATCCACGCACGTAAAGCCTGGCTTTCGGGGTTAAGCCCGAAAGAAAACCGTGAAATCCCGC -CGCTCGATTATCCGCGTGTGTATCAACTGAAGCGTGACTTTCCGCATCTGACAATGTCGATTAACGGTGGTATCAAGTCG -CTGGAAGAGGCCAAAGCACACCTGCAACATATGGATGGCGTGATGGTCGGGCGCGAGGCGTATCAGAATCCGGGTATTCT -GGCGGCGGTAGACCGGGAGATCTTTGGTTCCTCGGATACCGATGCCGATCCGGTGGCGGTAGTGCGCGCCATGTATCCGT -ACATTGAGCGTGAACTCAGCCAGGGGACGTATCTCGGCCATATTACCCGGCATATGTTGGGCTTGTTCCAGGGTATTCCT -GGCGCGCGGCAGTGGCGGCGTTATTTAAGTGAAAATGCCCATAAAGCGGGTGCAGACATTAATGTGCTGGAACACGCGCT -CAAACTGGTGGCGGATAAGCGTTAACTTTTCACCAAAAAGTAGTCAAATTCACCACGCCCTGCGCACCGTCGCGGGGCGT -TTTGCTGTTAAATCAATAGATTATTTTTGGCATGATTCTTGTAATGCCAGCAAGAGATTTCATATTTGGGAGAGCATCAT -GCTGGAACTACTTTTTGTGATTGGCTTTTTTGTCATGCTGATGGTCACCGGCGTTTCGTTGCTGGGCATTATCGCCGCGC -TGGTTGTGGCGACGGCCATTATGTTCCTCGGCGGTATGCTGGCATTGATGATTAAGTTGCTGCCGTGGTTACTACTGGCG -ATTGCGGTGGTGTGGGTTATTAAGGCGATTAAAGCACCAAAAGTGCCGAAATATCAGCGTTATGACCGCTGGCGTTACTA -AGGGATTGTGCGGATGATCACAACCTAAGGTTTTATCCTTAGAACAAAATAGGAATTGATAATCAAATCTGTCACTATTG -CGCCTCTAACAGATTCATCGTGCTGTACCCTACATACAGCCGAACTATAAAAAGAAAGGGCTTCCCAGGTGGAAGCCCTA -TTTCTTTTATGGAATCAGCAGGCTGGAACCTTGCGTCGCCCGGCTTTCCAGAATCTCATGCGCACGCTGCGCATCCTTCA -GCGGATATTTCTGCTGCTCGGCGACATCGACCTTAATCACACCGCTGGCAATCAAAGAGAACAGTTCATTACTGGCCTCG -GTTAATTCCTCCCGCGTGGTGATATAGCCTTGCAGGGAAGGGCGTGTCACATACAACGAGCCTTTTTGATTGAGAATGCC -TAAGTTCACACCGGTAACCGCACCTGATGAGTTGCCAAAACTGACCATTAAGCCGCGGCGTTGCAGGCAATCCAGCGACC -GTTCCCAGGTGTCTCTGCCCACGGAATCGTACACCACGCGCACTTTCTTACCGCCGGTGATCTCTTTTAACCGCTCGACC -AGATCCTCTTCACGATAGTTAATAACCTGCCACGCGCCCGCTTTTAGCGCGCTCTGCGCTTTTTGCGCGGTTCCTACGGT -GCCGATAAGTTTCGCGCCCAGGGCTTTTGCCCACTGGCAGGCAATTAAGCCAACGCCGCCAGCCGCTGCGTGGAACAGGA -ACTGTTCATCGGGTTTAATTTCATAGGTTTTGCGCAGCAGATAATAAACCGTTAAGCCTTTCAGGAAGGATGCCGCAGCT -TGCTCAAAAGAAATTGCCGCAGGCAGAATCGCCGCTTTATCCGCAATAATGTTATGCACAGAGCTGTAAGCGCCTAACGC -CGACTGCGCATAGACTACACGATCGCCTGCCTTAATATGCTTTACACCACTGCCGACTTTACTCACGATGCCTGCTGCTT -CGGTGCCTAATCCGCTGGGTAGCGATGGCGGCGGGTAAAGGCCGCTGCGGATATATGTGTCGATAAAATTGATGCCGATG -GCTTTATTTTCGACCTGGATTTCATTCTCCGCCGGATCGGCAGGAGTGAACTCTACGGCTTGAAGTACTTCCGGGCCACC -GTGCTTGTGAAATTCAATTCGTGTTGCCATGTGTCCTCCAGAACGTATCGTCAGGGTCTGCTTCATATGATAAAGTTTCG -ACCCATTCTTTATCTCGGTAACTCCATTCACTATGGCAGGAAATAAACCCTTCAACAAACAGCAGGCTGAACCCCGCGAA -CGCGATCCACAAGTTGCCGGGCTGAAAGTGCCTCCGCACTCGATCGAAGCGGAGCAGTCGGTGTTGGGCGGTTTAATGCT -AGATAACGAACGCTGGGATGATGTAGCCGAGCGTGTGGTAGCAGACGATTTTTACACCCGCCCACACCGTCATATCTTTA -CTGAAATGGCGCGTTTGCAGGAAAGCGGTAGCCCTATCGATCTGATTACTCTTGCGGAATCGCTGGAACGCCAGGGGCAA -CTCGATAGCGTCGGTGGTTTTGCTTATCTGGCAGAGCTGTCAAAAAATACGCCAAGTGCGGCTAACATCAGTGCCTATGC -GGACATCGTGCGTGAACGTGCCGTTGTCCGTGAGATGATCTCGGTTGCGAATGAGATTGCCGAAGCTGGTTTTGATCCGC -AGGGGCGTACCAGCGAAGATCTGCTGGATCTGGCTGAATCCCGCGTCTTTAAAATTGCCGAAAGTCGTGCGAACAAAGAC -GAAGGGCCGAAGAACATCGCCGATGTGCTCGACGCAACCGTGGCGCGTATTGAGCAGTTGTTTCAGCAGCCACACGATGG -CGTTACCGGGGTAAACACCGGTTATGACGATCTCAACAAAAAAACCGCTGGCTTGCAGCCGTCGGATTTGATCATCGTCG -CCGCGCGTCCGTCGATGGGTAAAACAACATTTGCGATGAACCTCGTCGAAAACGCGGCGATGTTGCAGGATAAACCGGTA -CTTATCTTCTCGCTGGAGATGCCATCAGAACAGATCATGATGCGTTCTCTGGCGTCGCTGTCGCGCGTTGACCAGACTAA -AATCCGTACCGGGCAGCTCGATGACGAAGACTGGGCGCGCATTTCCGGCACCATGGGTATTTTGCTCGAAAAACGCAATA -TCTATATCGATGACTCCTCCGGCCTGACGCCAACGGAAGTGCGTTCCCGCGCACGCCGTATTGCCCGTGAACACGGCGGC -ATCGGGCTTATCATGATCGACTACCTGCAACTGATGCGCGTACCGGCGCTTTCCGATAACCGTACGCTGGAAATTGCAGA -AATCTCTCGCTCGCTGAAAGCACTGGCGAAAGAACTGAACGTGCCGGTGGTGGCGCTGTCCCAGTTGAACCGTTCTCTGG -AACAACGTGCCGACAAACGCCCGGTCAACTCCGACCTGCGTGAATCTGGCTCTATCGAGCAGGATGCGGACTTGATCATG -TTTATCTATCGTGATGAGGTGTATCACGAAAACAGTGATTTAAAAGGCATCGCGGAAATTATTATCGGTAAACAACGTAA -CGGCCCAATCGGGACGGTACGCCTGACCTTTAACGGTCAATGGTCGCGCTTCGACAACTATGCGGGGCCGCAGTACGACG -ACGAATAATAATTATTTTATGAATTAGGTAATTAAAGCAAACACTTATCAAGGAACACAAATGCAAGCGGCAACTGTTGT -GATTAACCGCCGCGCTCTGCGACACAACCTGCAACGTCTTCGTGAACTGGCCCCTGCCAGTAAAATGGTTGCGGTGGTGA -AAGCGAACGCTTATGGTCACGGTCTTCTTGAGACCGCGCGAACGCTCCCCGATGCTGACGCCTTTGGCGTAGCCCGTCTC -GAAGAAGCTCTGCGACTGCGTGCGGGGGGAATCACCAAACCTGTACTGTTACTCGAAGGCTTTTTTGATGCCAGAGATCT -GCCGACGATTTCTGCGCAACATTTTCATACCGCCGTGCATAACGAAGAACAGCTGGCTGCGCTGGAAGAGGCTAGCCTGG -ACGAGCCGGTTACCGTCTGGATGAAACTCGATACCGGTATGCACCGTCTGGGCGTAAGGCCGGAACAGGCTGAGGCGTTT -TATCATCGCCTGACCCAGTGCAAAAACGTTCGTCAGCCGGTGAATATCGTCAGCCATTTTGCGCGCGCGGATGAACCAAA -ATGTGGCGCAACCGAGAAACAACTCGCTATCTTTAATACCTTTTGCGAAGGCAAACCTGGTCAACGTTCCATTGCCGCGT -CGGGTGGCATTCTGCTGTGGCCACAGTCGCATTTTGACTGGGTGCGCCCGGGCATCATTCTTTATGGCGTCTCGCCGCTG -GAAGATCGCTCCACCGGTGCCGATTTTGGCTGTCAGCCAGTGATGTCACTAACCTCCAGCCTGATTGCCGTGCGTGAGCA -TAAAGCCGGAGAGCCTGTTGGTTATGGTGGAACCTGGGTAAGCGAACGTGATACCCGTCTTGGCGTAGTCGCGATGGGCT -ATGGCGATGGTTATCCGCGCGCCGCGCCGTCCGGTACGCCAGTGCTGGTGAACGGTCGCGAAGTACCGATTGTCGGGCGC -GTGGCGATGGATATGATCTGCGTAGACTTAGGTCCACAGGCGCAGGACAAAGCCGGGGATCCGGTCATTTTATGGGGCGA -AGGTTTGCCCGTAGAACGTATCGCTGAAATGACGAAAGTAAGCGCTTACGAACTTATTACGCGCCTGACTTCAAGGGTCG -CGATGAAATACGTGGATTAATCGTTCTGTAATATTTGATTGTCTGTGCCGGATGCGGCGTGAATGCCTTATCCGGCCAAT -AAAATCCTAAAAATTCAATAAGTTGATGTTCTTTCATGCTCTTATAAAGGTCGTGCCTCTGGCGGATGTACGTTTGTCAT -GAGTCTCACTCTGTTGCTAATTGCCGTTCGCTCCTGAACATCCACTCGATCTTCGCCTTCTTCCGGTTTATTGTGTTTTA -ACCACCTGCCCGTAAACCTGGAGAACCATCGCGTGTTTCAAAAAGTTGACGCCTACGCTGGCGACCCGATTCTTACGCTT -ATGGAGCGTTTTAAAGAAGACCCTCGCAGCGACAAAGTGAATTTAAGTATCGGTCTGTACTACAACGAAGACGGAATTAT -TCCACAACTGCAAGCCGTGGCGGAGGCGGAAGCGCGCCTGAATGCGCAGCCTCATGGCGCTTCGCTTTATTTACCGATGG -AAGGGCTTAACTGCTATCGCCATGCCATTGCGCCGCTGCTGTTTGGTGCGGACCATCCGGTACTGAAACAACAGCGCGTA -GCAACCATTCAAACCCTTGGCGGCTCCGGGGCATTGAAAGTGGGCGCGGATTTCCTGAAACGCTACTTCCCGGAATCAGG -CGTCTGGGTCAGCGATCCTACCTGGGAAAACCACGTAGCAATATTCGCCGGGGCTGGATTCGAAGTGAGTACTTACCCCT -GGTATGACGAAGCGACTAACGGCGTGCGCTTTAATGACCTGTTGGCGACGCTGAAAACATTACCTGCCCGCAGTATTGTG -TTGCTGCATCCATGTTGCCACAACCCAACGGGTGCCGATCTCACTAATGATCAGTGGGATGCGGTGATTGAAATTCTCAA -AGCCCGCGAGCTTATTCCATTCCTCGATATTGCCTATCAAGGATTTGGTGCCGGTATGGAAGAGGATGCCTACGCTATTC -GCGCCATTGCCAGCGCTGGATTACCCGCTCTGGTGAGCAATTCGTTCTCGAAAATTTTCTCCCTTTACGGCGAGCGCGTC -GGCGGACTTTCTGTTATGTGTGAAGATGCCGAAGCCGCTGGCCGCGTACTGGGGCAATTGAAAGCAACAGTTCGCCGCAA -CTACTCCAGCCCGCCGAATTTTGGTGCGCAGGTGGTGGCTGCAGTGCTGAATGACGAGGCATTGAAAGCCAGCTGGCTGG -CGGAAGTAGAAGAGATGCGTACTCGCATTCTGGCAATGCGTCAGGAATTGGTGAAGGTATTAAGCACAGAGATGCCAGAA -CGCAATTTCGATTATCTGCTTAATCAGCGCGGCATGTTCAGTTATACCGGTTTAAGTGCCGCTCAGGTTGACCGACTACG -TGAAGAATTTGGTGTCTATCTCATCGCCAGCGGTCGCATGTGTGTCGCCGGGTTAAATACGGCAAATGTACAACGTGTGG -CAAAGGCGTTTGCTGCGGTGATGTAATGCAGGAAAGCAGGCTGGAGCTACCCAGCCTGCAGTGAAATTAAACTGTCGTCG -CTTTCACTCTTTCTTTATAGATGATTTTTTTGATGCCATCGTTCTACGTGAGAGATAATAAACGTTGTTAGTTCTTTTAT -TGTTAAGCTTATCCCAATTATCTGGAATTCCTTATCCTGTTTTTTTGGGTGGAGTAATAATTTCTGCACATCTAACCATT -ATTAAATTTAATAATAAGTATCGGGTTTGTTACGATAGAATATTTCTATATCCTCAAGAATATGCTTTGCCTTATTGCCT -GTGACTTTCTGAGATTCAATTATAGTATCGTTAAATTCTAATGTTAAAGAGAACTCTTTTTTCCGCTTTGTGTAAGTTTA -ACCTTATATTGATTACCAATATCAAATAAAAAGGTCCTGTAATGAGAATAATCACCTTTAACCTCCTCGGCAAAACAGCA -AAGCGTGCAAATATACATAAAGTCTTTCTTACCCCTGATTTTGTTAACTAAATCAATAAATGCGTGAAAAACTTTACTTG -CAATAGAACTTGATACTTCTTCTCCAGGTCTAAAAAATCTTTTGCAATTTTTAACTGTGTTTCTATGTATAAAAAGAAAT -CTTTGGCATAAGAGATATCTTTATTATTTAGTGCATCTAGCTCAACAGGTAAAGATGTCGTTTTGTTGCTATTCACATAT -GATATATTCATATCATCATCTCCATCGCGAGTAATAAAATTAATCACCATTGTAGGGTAGGGGGCTGGTCAATCAGAAAT -CATCTTTATAAACTTCGATTGTTTTTGTAATGCTGTATCATTAAGTTCATTAAATCGTACAGCAGATAAATGTTCTATCA -AATTTCGCTCATTTGCCGAGGATTCATCATAATAAACGTAAAATTAATGTATCCTTACATCGAGTAATAAACATTTTTTA -TACAAAAAAAGACAGGAACGTATTTACTGGGTTAAATATAATCATCCTGCTTTTCATCACAAAAACCGCAGATAATCCTT -CCTTTCCCCGGCAGCTGGCGTTATGGTCAGATGGTTTTTGCAACAAATCTCACAATAAAAAGTTTCAACATACTGACTAT -TTAGGGAAAAATATGCGCAAGATCACACAGGCAATCAGTGCCGTTTGCTTATTGTTCGCTCTAAACAGTTCCGCTGTTGC -CCTGGCCTCATCTCCTTCACCGCTTAACCCTGGGACTAACGTTGCCAGGCTTGCTGAACAGGCACCCATTCATTGGGTTT -CGGTCGCACAAATTGAAAATAGCCTCGCAGGGCGTCCGCCAATGGCGGTGGGGTTTGATATCGATGACACGGTACTTTTT -TCCAGTCCGGGCTTCTGGCGCGGCAAAAAAACCTTCTCGCCAGAAAGCGAAGATTATCTGAAAAATCCTGTGTTCTGGGA -AAAAATGAACAATGGCTGGGATGAATTCAGCATTCCAAAAGAGGTCGCTCGCCAGCTGATTGATATGCATGTACGCCGCG -GTGACGCGATCTTCTTTGTGACTGGTCGTAGCCCGACGAAAACAGAAACGGTTTCAAAAACGCTGGCGGATAATTTTCAT -ATTCCTGCCACCAACATGAATCCGGTGATCTTTGCGGGCGATAAACCAGGGCAAAATACAAAATCGCAATGGCTGCAGGA -TAAAAATATCCGAATTTTTTATGGCGATTCTGATAATGATATTACCGCCGCACGCGATGTCGGCGCTCGTGGTATCCGCA -TTCTGCGCGCCTCCAACTCTACCTACAAACCCTTGCCACAAGCGGGTGCGTTTGGTGAAGAGGTGATCGTCAATTCAGAA -TACTGACAGAGCGGGAGAGCGTGATGCTCTCCCGAATGCTGTTTTTTTAATCACACCTTTATCCTTTCGCTGTCTTGCTG -CAAACTGATTAAGAGAGTTTTATCAAGGAGCAGCACATGTGGTATCAAAAGACGCTCACGCTTAGCGCCAAATCTCGTGG -GTTTCATCTGGTAACGGATGAAATTCTGAATCAGCTGGCTGATATGCCGCGCGTTAACATCGGCTTACTGCATCTGTTGC -TGCAACATACCTCCGCCTCTCTGACACTTAATGAGAACTGCGATCCCACCGTACGCCACGACATGGAGCGTTTTTTCCTC -CGCACCGTTCCCGACAACGGAAATTATGAGCATGACTATGAGGGAGCAGACGATATGCCTTCTCATATCAAATCCTCAAT -GCTGGGAACATCGCTTGTATTGCCGGTGCATAAAGGGCGTATTCAGACCGGCACCTGGCAAGGCATTTGGCTGGGGGAAC -ATCGCATCCACGGCGGATCGCGTCGCATCATCGCGACACTACAAGGGGAGTAAAAAATGACCATTTCGGAGTTGCTACAA -TATTGCATGGCAAAACCAGGCGCAGAACAGAGCGTGCATAATGACTGGAAAGCGACGCAGATCAAAGTGGAAGATGTACT -GTTTGCGATGGTGAAAGAAGTAGAAAATCGCCCAGCTGTTTCGCTGAAAACCAGCCCGGAGCTGGCGGAGCTGCTACGTC -AGCAGCACAGCGATGTGCGTCCAAGCCGCCATCTGAATAAAGCGCACTGGAGCACCGTGTATCTCGACGGTTCGCTGCCA -GATTCGCAAATCTATTATCTGGTGGATGCGTCTTATCAGCAGGCGGTGAATTTACTGCCGGAAGAAAAACGTAAATTGCT -GGTGCAACTCTGAAAGGAAAAGGCCGCTCAGAAAGCGGCCTTAACGATTACAGCATCGGCTTAAGGAAGCGTGCCGTGTG -TGATGCTTCGCACTCCGCGACGGTTTCTGGCGTACCGGAGACGAGGATCTCGCCGCCACCACTGCCGCCTTCTGGTCCCA -GGTCGACAATCCAGTCAGCGGTTTTGATCACGTCGAGATTGTGCTCAATCACCACAATGGTGTTGCCCTGATCGCGCAGT -TTATGCAGTACGTCGAGCAGTTGCTGAATATCGGCGAAGTGCAGACCGGTGGTCGGCTCGTCGAGAATATACAGCGTCTG -CCCGGTGCCGCGTTTTGACAGTTCACGCGCCAGCTTCACGCGCTGGGCTTCACCGCCTGAAAGGGTGGTTGCGGACTGCC -CCAGTCGAATGTACGTCAGGCCAACGTCCATCAACGTTTGCAGCTTACGCGCCAGTGCAGGTACGGCATCAAAGAACTCA -CGCGCCTCTTCGATGGTCATATCCAGCACTTCGTGGATGGTTTTGCCTTTGTACTTAATCTCCAGCGTTTCACGGTTATA -GCGTTTACCTTTGCACTGGTCGCACGGCACGTAGATATCCGGCAGGAAGTGCATCTCCACTTTGATCACGCCATCGCCCT -GACAGGCCTCGCAGCGTCCGCCACGAACGTTAAAGCTGAAACGTCCCGGCGTATAGCCGCGCGCACGGGATTCCGGTACG -CCCGCAAACAGTTCGCGCACAGGCGTAAACACGCCGGTATAGGTCGCCGGGTTAGAACGTGGAGTACGACCAATTGGGCT -TTGGTCGATATCGATCACTTTATCGAAATGCTCCAGCCCCTGAATATCGCGATACGGTGCTGGTTCGGCGATGGTCGCCC -CATTCAACTGGCGTTGGGCAATCGGGAACAGTGTGTCGTTAATCAGCGTCGATTTACCGGAACCTGAAACCCCGGTGATG -CAGGTAAACAGACCCACCGGCAGCGTCAGCGTCACGTCCTTCAGGTTGTTGCCGCGTGCGCCTGTCAGCTTCAGCACTTT -TTCCGGATTCGCCGGAACGCGTTTCTTCGGCACTTCAATCTTGCGTTTGCCGCTCATGTACTGCCCGGTCAACGACTCCG -GCACCGCCATAATCGCTTCCAGCGGACCTTCTGCGACCACTTCACCGCCGTGAACACCTGCGCCCGGGCCAATGTCGATC -ACATGGTCAGCGGCGCGAATTGCGTCTTCGTCGTGCTCCACCACAATCACGGTATTACCGAGATCGCGCAGATGGATAAG -CGTACCCAACAGGCGCTCGTTATCACGCTGGTGCAGGCCGATAGACGGCTCGTCCAGCACGTACATAACGCCAACCAGGC -CCGCACCAATCTGGCTCGCCAGACGGATACGCTGTGCTTCACCGCCAGAAAGCGTTTCTGCCGAGCGGGAAAGCGTCAGG -TAATTCAGGCCGACGTTAACGAGGAATTTCAGACGATCGCCGATCTCTTTAAGGATTTTTTCTGCAATCTTCGCCCGCTG -ACCTGCGAGTTTGAGATTGTTGAAGAATTCCATCGCATGACCAATGCTCATGTCGGAGATAGCAGGCAGCGGCGTATTCT -CGACATACACGTGGCGCGCTTCCCGACGCAGACGCGTCCCTTCGCAGCTGGCGCACGGACGATTACTGATAAACTTGGCT -AATTCTTCGCGTACCGCGCTGGATTCCGTCTCTTTATAGCGGCGCTCCATATTATGCAGCACGCCTTCGAACGGATGACG -ACGAATGGAGGTATCGCCACGATCGTTCATGTATTTGAATTCAATGTTTTCTTTGCCAGAACCGTACAACACCACTTTAT -GCACGTTCGCGCTCAGGCTGCCCCACGGCGCTTCGAGGTCGAACTTATAGTGATCTGCCAGCGATTTCAGCATCTGGAAA -TAATAGAAGTTGCGGCGATCCCAGCCACGGATCGCACCACCAGCCAGCGACAGTTCCGGATTCTGGATCACTCGATCAGG -ATCGAAATATTGCTGTACGCCAAGGCCGTCGCAGGTCGGGCAGGCCCCCGCCGGGTTGTTAAACGAAAACAGTCGCGGCT -CCAGTTCACGCATACTGTAGCCGCAAATTGGGCAGGCGAAGTTGGCGGAGAACAGCAGCTCTTCCGCTTTCGGGTCGTCC -ATATCCGCCACTACCGCGGTACCACCGGAAAGCTCCAGCGCGGTTTCAAATGACTCGGCAAGACGTTGGGTAAGATCGTC -ACGCACCTTGAAGCGATCAACCACCACTTCAATGGTATGTTTCTTTTGCAGTTCCAGTTTTGGCGGATCGGAAAGATCGC -AGACTTCGCCATCAATACGAGCACGGATGTAGCCCTGGCTTGCCAGGTTCTCCAGCGTTTTGGTGTGTTCGCCTTTGCGC -TCTTTAATGATTGGCGCGAGTAGCATCAGACGCTTGCCTTCCGGCTGCGACAGCACGTTATCCACCATCTGGCTGACGGT -TTGCGCCGCCAGCGGGACGTCGTGGTCCGGACAGCGCGGCTCGCCAACGCGGGCGAATAACAAACGCAAATAGTCGTGGA -TTTCGGTGATTGTCCCCACCGTAGAACGCGGGTTATGAGACGTCGATTTCTGCTCAATTGAGATGGCAGGAGAAAGCCCC -TCAATATGATCGACGTCCGGCTTTTCCATCAGTGACAGAAACTGCCGCGCGTAGGCGGAAAGGGATTCAACGTAACGGCG -CTGCCCTTCGGCATATAAGGTGTCGAAAGCGAGCGAGGATTTGCCAGAACCCGAAAGCCCGGTCACGACAATGAGCTTGT -CGCGGGGGATAACGAGGTTGATGTTTTTGAGATTATGGGTGCGGGCGCCCCGAACTTCGATCTTATCCATTCACCTTTCC -CGGATTAAACGCTTTTTTGCCCGGTGGCATGGTGCTACCGGCGATCACAAACGGTTAATTATGACACAAATTGACCTGAA -TGAATATACAGTATTGGAATGCATTACCCGGAGTGTTGTGTAACAATGTCTGGCCAGGTTTGTTTCCCGGAACCGAGGTC -ACAACATAGTAAAAGCGCTATTGGTAATGGTACAATCGCGCGTTTACACTTATTCAGAACGATTTTTTTCAGGAGACACG -AACATGGCCAGCAGAGGCGTAAACAAGGTTATTCTCGTTGGTAATCTGGGTCAGGACCCGGAAGTACGCTACATGCCAAA -TGGTGGCGCAGTTGCCAACATTACGCTGGCTACTTCCGAATCCTGGCGTGATAAAGCGACCGGCGAGATGAAAGAACAGA -CTGAATGGCACCGCGTTGTGCTGTTCGGCAAACTGGCAGAAGTGGCGAGCGAATATCTGCGTAAAGGTTCTCAGGTTTAT -ATCGAAGGTCAGCTGCGTACCCGTAAATGGACCGATCAATCCGGTCAGGATCGCTACACCACAGAAGTCGTGGTGAACGT -TGGCGGCACCATGCAGATGCTGGGTGGTCGTCAGGGTGGTGGCGCTCCGGCAGGTGGCAATATCGGTGGTGGTCAGCCGC -AGGGCGGTTGGGGTCAGCCTCAGCAGCCGCAGGGTGGCAATCAGTTCAGCGGCGGCGCGCAGTCTCGCCCGCAGCAGTCC -GCTCCGGCAGCGCCGTCTAACGAGCCGCCGATGGACTTTGATGATGACATTCCGTTCTGATTTGTCATTAAAACAATAGG -TTATATTGTTTTAAGGTGGATGATTAAAGCATCTGCCAGCCATAAAAAAGAAGCCTCCGTTATGGAGGCTTCTACGTATC -AGGTCAAAATCATTGGCCATTGTGGCGGTGTCTGATTCATCTCTTCTATCATCACCGACTCGATGTTGTGCCAGATAGCG -GTGATGTCCGCCATTGTGATGCCAAGCAACCCCATTGCGAACCAACAGGCGGAAACAACGCCCAGACCGCTGCTGATCAC -CGCAAGCCCGACATAATCAGACCGACGAAAACGGATGTTGAGTGTGCTGGCCAGAAACATCATTACGGCACTAAGAAGTT -GCCAGCGAAGAAGAACCACGCCAGTGGTGAGGGTAGCCATCAAACAATTCCTCTGAAAAGAGCCGATGCCCTGGACAGCG -CGGCGTTGTTCACGGGAGGCGTGGTACACTCTGGCTATCGCGGGGCTTGCAGAACACAAAAATGAAACACTCTGTTTGTT -TCATTAATTTTGTGAACTATATCACAATTGATTGTTTGTTAGCCATATTAGGCCGTGACTTTTATTGCTGTACAGATTAT -GTGGTTTTTCAGTGGCATTAAGGGCATATCTTCCCGCCGCCTCTGCATTCCTGTAGGAAATTAATTTTGAATATCAATGA -ATTATTTTCATCCAGGTGACGATTAGAAAGGTATCAATTTCAAATCAGGCAAAAGTGCTATTTATACCGTAAGATTTATC -TAAAGACGTCGGTACCCAGGGTTTTCACCTTGCAATGGCCGGGTATAAACAGGCAGGAAATTGATAGCAATGAGTCATCG -TGCACGACACCAATTACTGGCGTTGCCGGGCATTATCTTTTTAGTTCTCTTTCCCATCATTCTTTCGCTATGGATTGCCT -TCCTTTGGGCAAAATCAGAAGTGAATAATCAGCTCCGAACCTTTGCTCAACTGGCACTGGATAAATCCGAGCTGGTCATT -CGCCAGGCAGATTTAGTGAGCGATGCAGCTGAACGCTATCAGGGGCAAGTTTGCACTCCAGCCCATCAAAAGCGAATGTT -GAATATTATTCGTGGCTATCTTTATATTAATGAATTGATCTATGCCCGTGATAACCATTTTTTATGCTCATCGCTGATAG -CGCCTGTAAACGGCTATACGATTGCACCGGCCGATTATAAGCGTGAACCTAACGTTTCTATCTATTATTACCGCGATACG -CCTTTTTTCTCTGGCTATAAAATGACCTATATGCAGCGGGGAAATTATGTGGCGGTTATCAACCCTCTCTTCTGGAGTGA -AGTGATGTCTGATGACCCGACATTGCAATGGGGTGTGTATGATACGGTGACGAAAACCTTTTTCTCGTTAAGCAAAGAGG -CCTCGGCAGCAACGTTTTCTCCGCTGATTCATTTGAAGGATTTAACCGTACAAAGAAATGGCTATTTATATGCGACAGTT -TATTCGACAAAACGCCCAATTGCAGCCATTGTTGCGACTTCATATCAACGTCTTATAACCCATTTTTATAATCATCTTAT -TTTTGCGTTGCCCGCCGGTATTTTGGGGAGTCTTGTTCTGCTATTACTCTGGCTACGTATTCGACAAAACTATTTATCTC -CCAAACGTAAATTGCAACGCGCCCTCGAAAAACATCAACTTTGTCTTTATTACCAGCCAATAATCGATATCAAAACAGAA -AAATGTATCGGCGCTGAAGCGTTGTTACGTTGGCCTGGTGAGCAGGGGCAAATAATGAATCCGGCAGAGTTTATTCCGCT -GGCAGAAAAGGAGGGGATGATAGAACAGATAACTGATTATGTTATTGATAATGTCTTCCGCGATCTGGGCGATTACCTGG -CAACACATGCAGATCGCTATGTTTCTATTAACCTGTCGGCCTCCGATTTTCATACGTCACGGTTGATAGCGCGAATCAAT -CAGAAAACAGAGCAATACGCGGTGCGTCCGCAGCAAATTAAATTTGAAGTGACTGAGCATGCATTTCTTGATGTTGACAA -AATGACGCCGATTATTCTGGCTTTCCGCCAGGCATGTTACGAAGTGGCAATTGATGATTTTGGTATTGGCTACTCTAACT -TGCATAACCTTAAATCATTGAATGTCGATATTTTGAAAATCGACAAATCGTTTGTTGAAACGCTGACCACCCACAAAACC -AGTCATTTGATTGCGGAACACATCATCGAGCTGGCGCACAGCCTGGGGTTAAAAACGATCGCTGAAGGCGTCGAAACTGA -GGAGCAGGTTAACTGGCTGCGCAAACGCGGCGTGCGCTATTGCCAGGGATGGTTCTTTGCGAAGGCGATGCCGCCGCAGG -TGTTTATGCAATGGATGGAGCAATTACCCGCGCGGGAGTTAACGCGCGGGCAATAAAATTACAGGCGGTGGCGATAATCG -CTGGGAGTGCGATCAAACTGCCGACGGAAAACGCGGGAGAAGGTCTGCTGCGAGACATAACCCAGGTCCATTGCGATATC -AAAAATCGGACGCTCGGTGGTGCGCAACTCAACGGCGGCCAGTAACAGGCGGCGTTGGCGAATGTAATCGCCAAGCGTCT -GATGCGTCACCGTGCGGAACATTCGTTGCAAGTACCACTTTGAATAGCCTGATTTTTTTGCGACTACATCAATGTTAAGC -GGCTGGTCAATATGCTCGTCAATCCATGCGATAAGATCCTGAATAATTTTCTGATGGGACATAAATCTGCCTCTTTTCAG -TGTTCAGTTCGTTAATTCATCTGTTGGGGAGTATAATTCCTCAAGTTAACTTGAGGTAAAGCGATTTATGGAAAAGAAAT -TACCCCGCATTAAAGCGCTGCTAACCCCCGGCGAAGTGGCGAAACGCAGCGGTGTGGCGGTATCGGCGCTGCATTTCTAT -GAAAGTAAAGGGTTGATTACCAGTATCCGTAACAGCGGCAATCAGCGGCGATATAAACGTGATGTGTTGCGATATGTTGC -AATTATCAAAATTGCTCAGCGTATTGGCATTCCGCTGGCGACCATTGGTGAAGCGTTTGGCGTGTTGCCCGAAGGGCATA -CGTTAAGTGCGAAAGAGTGGAAACAGCTTTCGTCCCAATGGCGAGAAGAGTTGGATCGGCGCATTCATACCTTAGTGGCG -CTGCGTGACGAACTGGACGGATGTATTGGTTGTGGCTGCCTTTCGCGCAGTGATTGCCCGTTGCGTAACCCGGGCGACCG -CTTAGGAGAAGAAGGTACCGGCGCACGCTTGCTGGAAGATGAACAAAACTAAAGCGCCACAAGGGCGCTTTAGTTTGTTT -TCCGGTCTTTGTCTTTCTCTCTATCCCGCTGGTACACAGGAGGGTTTCCCCCGACGTCAACACACCTCATTCGAGCACGT -GGTGGAGGTTCCGGTTGGTGTTGATGCTTTAATTGTATGTCACCGACGTTTCTTCGCCAGTGTAAAAGTATACTTTTTAA -CCGCAATATTTTTGTCATCTCAGACGATTTTTTATCGCAATCCTGAACGGTATACGGCTCGATAACGCTGCAATCTTGCG -CACCGACGATAACGTTTGCGCATCAATTGCCTGGTTTTTCATCGTCAAGACAATAAAAGAGAAAAAAGCAGCAAACTTCG -GTTGAAAAAGCCGCTATGATCGCCGGATAATCGTTTGCTTTTTTTACCACCCGTTTTGTATGCGCGGAGCTAAACGTTTG -CTTTTTTGCGACGCAGCAAATTGTCGCAAACCTGGAGCAGGAAGATAACGTTTCGCTGGCAGGGGATTGTCCGCCACGCA -TCTTGACGAAAATTAAACTCTCAGGGGATGTTTTCTTATGTCTACGCCATCAGCGCGTACCGGCGGTTCACTCGACGCCT -GGTTTAAAATTTCACAACGTGGAAGCACTGTCCGTCAGGAAGTGGTTGCCGGGTTAACAACGTTTCTGGCGATGGTCTAC -TCGGTCATCGTCGTTCCAGGTATGTTGGGTAAAGCAGGCTTCCCGCCTGCGGCAGTTTTCGTTGCAACCTGTCTGGTTGC -CGGACTCGGTTCTATCGTGATGGGTCTGTGGGCTAATCTGCCGTTGGCGATTGGTTGCGCCATCTCCCTGACAGCGTTTA -CCGCATTCAGCCTGGTGCTGGGGCAACATATTAGCGTACCTGTCGCGCTGGGTGCCGTGTTCCTGATGGGTGTGCTGTTT -ACGGTAATTTCTGCCACGGGTATCCGTAGCTGGATTTTGCGCAACTTGCCTCACGGTGTGGCGCACGGCACGGGGATTGG -TATCGGTCTGTTCCTGCTGCTCATTGCCGCTAACGGTGTCGGTCTGGTGATTAAAAACCCGCTTGATGGTCTGCCCGTTG -CGCTGGGTGATTTCGCGACCTTCCCGGTGATTATGTCACTGGTAGGTCTGGCGGTGATCATCGGCCTGGAAAAACTGAAA -GTCCCTGGTGGCATTCTGCTGACCATTATCGGTATCTCAATTGTCGGTTTGATCTTCGATCCTAACGTCCATTTCTCCGG -CGTTTTCGCCATGCCTTCATTGAGCGATGAAAACGGCAATTCACTGATTGGCAGCCTGGACATTATGGGCGCGCTGAATC -CTGTAGTCCTGCCAAGCGTTCTGGCGCTGGTGATGACGGCAGTATTTGATGCCACCGGAACTATCCGTGCCGTCGCCGGC -CAGGCGAACCTGCTGGATAAAGATGGGCAGATCATCGACGGTGGGAAAGCACTGACCACTGACTCCATGAGCAGCGTTTT -CTCTGGCCTGGTGGGTGCGGCTCCGGCAGCGGTATACATCGAGTCTGCGGCGGGTACGGCGGCGGGCGGTAAAACCGGTT -TGACGGCTATCACCGTTGGCGTGCTGTTCCTCCTGATTCTGTTCCTCTCTCCGCTCTCTTACCTCGTTCCGGGGTATGCA -ACGGCTCCGGCGCTGATGTACGTTGGCCTGCTGATGCTGAGCAACGTGGCGAAAATCGACTTTGCTGATTTTGTTGATGC -GATGGCGGGTCTGGTTACGGCTGTATTCATCGTGCTGACCTGTAACATCGTAACAGGCATCATGATCGGCTTCGCGACTC -TGGTGATTGGTCGTCTGGTTTCCGGCGAATGGCGCAAGTTGAACATCGGTACGGTCGTTATCGCCGTGGCGCTGGTGACC -TTCTATGCGGGTGGCTGGGCTATCTAATCTTTCATCGGATTCTGAAAACGGGTGGCAATGGCTGCCCGTTTTTATTTTCT -CCGCACATTGTGTGAGCTTTTGCGATATTCTGAAAAAAATGAGAATTCAGGCATAACGTCTTTCTCAGATCATAAAAAAC -ATCGCAAACAGGGAACGCATGGAAATCTTCTTCACCATACTGATAATGACCCTCGTGGTCTCGCTGTCCGGGGTGGTCAC -TCGTGTCATGCCCTTTCAGATCCCGCTTCCGCTTATGCAAATCGCCATCGGTGCGCTACTGGCGTGGCCGACGTTTGGTT -TGCATGTGGAGTTTGATCCTGAACTCTTTTTAGTCTTGTTTATCCCGCCGTTGCTGTTCGCTGATGGCTGGAAAACGCCG -ACCCGTGAATTTCTCGAACATGGTCGAGAGATTTTCGGCCTCGCGCTGGCGCTGGTGGTGGTCACCGTGGTCGGCATTGG -CTTCCTTATTTACTGGGTGGTGCCGGGCATTCCGCTGATCCCTGCCTTTGCGCTGGCGGCGGTGCTTTCTCCGACCGATG -CTGTGGCGCTCTCCGGGATTGTTGGCGAAGGGCGCATCCCGAAAAAAATCATGGGCATTTTGCAGGGCGAAGCGTTGATG -AATGACGCCTCCGGTCTGGTGTCGTTGAAGTTTGCCGTAGCAGTGGCGATGGGGACGATGATCTTCACCGTCGGCGGTGC -GACGGTCGAATTTATGAAAGTAGCCATTGGCGGTATTCTCGCCGGTTTTGTGGTGAGCTGGCTGTACGGTCGCTCGCTGC -GATTCCTCAGCCGCTGGGGCGGTGATGAACCCGCGACGCAGATCGTCCTGCTGTTCCTGCTGCCATTCGCTTCTTATCTG -ATTGCCGAACATATTGGCGTTTCCGGCATCCTCGCTGCGGTTGCCGCCGGGATGACCATCACCCGCTCCGGTGTGATGCG -CCGTGCGCCGCTGGCAATGCGCCTGCGTGCAAACAGCACCTGGGCGATGCTGGAATTTGTCTTTAACGGCATGGTGTTCC -TGCTGTTAGGTCTGCAGCTGCCGGGTATTCTGGAGACGTCGCTGATGGCAGCAGAAATCGACCCTAACGTCGAAATCTGG -ATGCTGTTTACCAATATTATTCTGATATATGCGGCGCTGATGCTGGTCCGTTTCGGCTGGCTGTGGACGATGAAAAAGTT -CAGCAACCGCTTCCTGAAGAAGAAGCCGATGGAGTTTGGTTCGTGGACCACACGAGAAATCCTGATCGCGTCTTTCGCCG -GGGTGCGTGGGGCGATCACTCTGGCCGGTGTGCTCTCTATCCCGCTGCTCTTGCCGGATGGTAACGTCTTCCCGGCGCGC -TATGAGCTGGTGTTCCTGGCGGCTGGCGTCATTCTCTTCTCGCTGTTTGTCGGCGTGGTGATGTTGCCTATTCTGCTACA -ACACATTGAAGTCGCGGATCATTCGCAACAATTGAAAGAGGAACGTATTGCGCGAGCGGCAACGGCAGAAGTGGCGATTG -TGGCGATCCAGAAAATGGAGGAGCGTCTGGCGGCGGATACCGAAGAGAATATCGATAACCAGCTGCTTACGGAGGTCAGT -TCTCGCGTCATTGGTAACCTGCGTCGTCGCGCCGATGGACGTAACGACGTTGAAAGTTCCGTGCAGGAAGAGAACCTTGA -GCGTCGCTTCCGTCTGGCGGCATTGCGTTCTGAACGTGCTGAACTTTACCACCTGCGCGCCACACGGGAGATCAGCAACG -AAACGCTGCAAAAATTACTGCACGATCTCGATTTGCTTGAAGCGTTGCTAATTGAGGAAAATCAGTAAGCCGAAAGCGAC -GTAACCAGGCCCGAGGTAATCTGAAAAAGGTGCAATCTTTTGCACCTTTAACAGGTTAGCTCGGGCTAACATTCATGATT -CTAAAACAAATAAATTATCTCTCTTTTAAAGTCAATTCATTGGCTGTTCTTCGACTTAACCTCAATCTGCATCTTGCATA -ATATCTGCAGTAATCTTCATAGCGACTGCATGAAGATTATCCTCAGTTTGTGACATGCCAGTATGAGTGGCACAATCTTC -TTCAAAGAATTTCTGTAGTGTTACCAGGATATCACTATTAATGGAGATATTTTCCTCACCACGGAGAATGGTAATACCCA -TTCCCTGGACGCTAGCCTCATCGAAATTAACACGATAGAGACGGATATTAAACATCCAGGCTTTTGTTAAAACAGAACAG -TTGAAATGGCAATTGCTTAAATTGGCATTATTAAAATTAACATTAGCCATATTAGAGTCGGTACATATAACCATTTCGAG -GAACGTATTTGTTAACCGCGTAAAAAAGAGTTTGCTATCAATTAAGTTTATATTCTGGAGGGTTGCTTTATTCAGGTTGA -CACGAGACAGATCAGCATGTTCAAAGTTAATTAAATCAAGTTTAGAGAAGCTAAGGTCGGCTCTAAATAAATTAATATAT -GGCGCTATTACTTTATAAAGATTTACCTCAGCCATGTATGCCATATAAAAATTTGAATAATCAAGGAAGGTATTTTTAAT -ATTGGCTCTATTCATTGTTGCATTGTAGAATTGAACATGCATAGCGGAACATGAATTTAGAGTTCCGTCAGTCATTTTTA -TCTGAGCGAAATTTGAGTCATCGAGAATACAATTATCAAAAAGTATTTTTTCCATTATGGCGAAATTAAAATTCGTTTTA -TACATATTACAGTCCTGAAAAATAGCGTTTTGTAGTCTGCAACCTGCAAAATTCGAATTGGATAAATCTTCATCTTTAAT -CACGATACCTTTCAGGCTAAGGTGTGAAAAATCGTAACCACCATTTACTGTCTGTGGGATTTCGATAGTATTATTATGGA -CGGTGACATTATTTATAAAATATACCACCTTAATTGACACTTCCTTATCTTTATTAAGGTAAACTCTTCTCGTAATTCTA -TCGTCACATTTATTATTTGCATGTGAAGCTATATCTATAAAATATTTATGTATTTTCCTGTCCGTTTCTTTCGTGATTTT -TCCTGATGGTAAACTATCATAAATTCTTTTCATTTTCTGAATCAAGCCTATCACTTTTTCATGATCATCCATTTTGAAAA -GAGAGAGGGCTTTATTGTCAATTAACGTGTTTTTATGATGTTTGCTGTAATTATCTGATTTTGTTTTCTTTGTATGTGAT -GGACTTGTGACAGAGTGGTTATCGTTAATCAGGCAAAGAGGGAAAAACATATTATTTAAACCATTATAGCGCATAAAATA -TCCTTATAATTAACAAGAAAGAAAAGGCATATTCTCTGCATTATCATTTTCTACGACTGTCAAAAATCGCTCATTTTTTA -ATGAGTTTATTTGTTTAATATTATGGGAAAAGGTGATGCATTTGGGAGAGGAAGAGTATTCCCCGGTCAGACGACCGGGG -AAGGGGAGAGATTAATGCGCGCGGCCTTGCTCAACGCCAAAGCCGGTCTGGGAGCGGATAAACTGCGCGCGGAACAGTTC -ACGCTCACGCGCGCCTTCCGCTGAGTTATCGGTTGCCGAGAAGAACCAGATGCCGAGGAATGCCACGGTGATAGAGAACA -GCGCCGGGTATTCATACGGGAAGATGGCTTTTTCGTGACCAAGGATCTGTACCCAAATCGTCGGGCCGAGGATCATCAGT -ACTACTGCGGTAATCAGCCCCAGCCAGCCACCCATCATCGCGCCACGCGTGGTCAGTTTCGACCAGTACATAGAAAGCAG -AATGATCGGGAAGTTACAGCTCGCCGCGATGGCAAACGCCAGCCCCACCATAAAGGCGATGTTCTGATTCTCAAACAGCA -CGCCGAGGATAATCGCAATCACGCCGAGGATCAGTACGGTGATTTTTGATACCCGCAGCTCTTCACGTTCGGTCGCGCCT -TTTTTGAAGACGTTAGCGTACAAGTCATGCGAAACCGCGGATGCGCCCGCCAGCGTCAGACCCGCAACCACCGCGAGGAT -AGTGGCGAAAGCAACCGCTGAAATAAAACCGAGGAACAGGTTGCCGCCCACTGCATTCGCCAGGTGAACGGCCGCCATGT -TGTTACCACCAATCAGATGGCCCGCCGCGTCTTTATATTCCGGATTCGCACCAACCAGCATGATCGCGCCGAAGCCGATA -ATAAAGGTCAGAATATAGAAGTAGCCCATAAACCCGGTGGCGTAGAACACGCTCTTACGTGCTTCGCGGGCATCGCTGAC -TGTAAAGAAGCGCATCAGAATGTGCGGCAAGCCCGCCGTACCAAACATCAGTCCCAGACCCAGAGAGAGCGCGGAGATCG -GATCTTTCACCAGCCCGCCCGGCTTCATGATGTCGACACCTTTCGGGTGTACCGCCATCGCTTCACTGAACAGATTGTTG -AAGCTAAAGCCGACGTGTTTCATCACCATAAAGGCCATAAAGCTGGCACCGAACAGCAACAGCACGGCTTTGATAATTTG -CACCCAGGTGGTCGCCAGCATGCCGCCGAACAGGACGTACATCATCATCAGCACGCCGACCAGCACCACCGCAATGTGAT -AGTTAAGGCCAAACAGCAGCTCGATCAGTTTACCTGCGCCCACCATCTGGGCGATAAGGTAAAGCGCCACCACCACCAGA -GAACCACAGGCCGAAAGAATACGAATCGGCCCTTGTTTCAGACGGTAAGAGGCCACATCGGCAAAGGTGTAGCGCCCCAG -GTTACGCAGACGTTCGGCAATCAGGAACAAAATGATCGGCCAGCCCACCAGGAAGCCCAGCGAGTAAATTAAGCCGTCAT -AGCCGGAGGTAAACACCAGCGCGGAGATCCCCAAGAATGAGGCGGCGGACATATAGTCCCCGGCAATCGCCAGCCCGTTC -TGGAAGCCAGTGATATTGCCGCCTGCGGTGTAGTAGTCGCTACGAGAACGTACGCGTTTTGATGCCCAGTAGGTAATGCC -GAGCGTAAACACGACGAAAATCAGGAACATAATAATCGCCTGCCAGTTCGTTGGCTGGCGCTCTACGGCCCCGCTAATAG -CATCCGCGGCGTTAGCTGCGAAAGGGAGTGTGGCGGCAAGCGCCGTCAGAACTCTTTTCATGATGCTTGTACCTCATGCA -GGACTTCATTATTAAGACGGTCGAATTCGCCGTTCGCCCGCCAGATGTAGATACCGGTGAGAACAAAGGAGATCACAATC -ACTCCAACACCAATTGGAATACCGCGTGTGACGCTGGTGTTCGGATTCAGCGGCGTGCCCAGCCAGCCGGGCGCGAAGGC -GATCAGTAAAATAAAGCCGATATAAACTGCCAGCATAATAATCGACAGGATGGTGGCAAACCGTTGCCGTTTTTCGACTA -ACTCCCTGAAATGCGCATTGTCTTCTATCCGCTGATAAATAGTGCCATTCATCACAGATTCTCCAGAGGTAATGTAGGGA -TTGTTTTAATTCCCGCTCCCTTATGGGAGAAGGTTAACGCTCGGGTAACCCTTGCCGAATGTAGGCCGGATAAGGCGTTT -ACGCCGCATCCGGCAATCAATGCCTGATGCGACGCTGTCGCGTCTTATCAGGCCTACAAACCGTTACCGACTCGCATCGG -GCAATTGTGGGTTACGATGGCATCGCGATAGCCTGCTTCTCTTCAAGCAGCTTCTCGACTACGCCAGGATCGGCAAGCGT -CGAGGTATCGCCCAGGTTGCTGGTATCGCCCGCCGCAATTTTGCGCAGAATACGGCGCATAATTTTGCCGGAGCGGGTTT -TAGGCAGGGAGTCGGTCCAGTGCAGCACGTCTGGCGTCGCCAGCGGGCCAATCTCTTTACGCACCCAGTTGCGGACTTCT -GCGTACAGTTCTGGTGACGGTTCCTCCCCGTGATTAAGCGTGACGTAGGCGTAGATCGCCTGACCTTTAATATTGTGCGG -AATACCTACTACGGCGGCTTCGGCAATCTTCGGATGCGCCACCAGCGCCGACTCAATCTCTGCCGTCCCCAGACGGTGAC -CGGAGACGTTCAGCACGTCGTCCACACGCCCGGTTATCCAGTAATAGCCATCTTCATCGCGACGCGCGCCGTCGCCGCTG -AAATACATATTTTTGAAGGTGGAGAAGTAGGTCTGTTCAAAACGTTCGTGATCGCCAAACAGCGTACGCGCCTGACCCGG -CCAGGAGTCGGTGATTACCAGGCTACCTTCGGTGGCCCCCTCCAGCGGGTTACCTTCGTTATCGACCAGCGCCGGTTGCA -CGCCGAAGAACGGACGTGTTGCCGAACCGGCTTTCAGCTCGGTAGCGCCAGGCAGCGGGGTGATCATGAAACCGCCGGTT -TCGGTCTGCCACCAGGTATCGACCACCGGACATTTCTCGTTGCCGATTTTTTTCCAGTACCACTCCCACGCTTCCGGGTT -AATTGGCTCGCCCACGGAACCGAGAATGCGCAGCGACGAACGGTCGGTGCCTTCGATCGCTTTATCGCCTTCCGCCATCA -GCGCGCGGATCGCCGTGGGTGCGGTATAGAGAATATTGACCTGATGCTTGTCCACCACCTGCGCCATACGGGCAGGCGTC -GGCCAGTTGGGTACGCCTTCAAACATCAGCGTGGTCGCACCGCAGGCCAGCGGGCCGTACAGCAAGTAACTGTGTCCGGT -CACCCAGCCCACATCGGCGGTGCACCAGTAGATATCACCCGGATGATAATCAAAGACATATTTAAAGGTCAGCGCCGCGT -ACACCAGATAACCGCCGGTAGTATGCAGCACACCTTTTGGCTTACCGGTAGAACCGGAGGTGTAGAGAATAAACAGCGGA -TCTTCGGCGTTCATCTCTTCCGCCTGGTGCTGATCGCTCGCTTGCTCAACCAGGTCGTGCCACCACAGGTCGCGCCCTTC -CTGCCAGTCAATTTTCCCGCCAGTACGCTTCAGTACCACCACATGCTCTACGCTGGTGACGTTCGGGTTTTTCAGCGCGT -CATCAACGTTTTTCTTCAGCGGAATACTGCGCCCGGCACGCACACCTTCGTCGGAAGTGATCACCAGTCGTGAGTTGGAA -TCAATAATGCGCCCGGCAACGGCTTCCGGCGAGAAGCCGCCGAAAATCACCGAATGCACCGCGCCAATGCGGGCGCAGGC -CAGCATCGCAACCGCGGCTTCCGGCACCATCGGCATATAAATCGCCACCACATCACCTTTTTTAATGCCCAGCTCGAGCA -GGGTATTGGCGAAGCGGCAGACGTCGCGGTGCAGCTCTTTATAGCTGATATGTTTGCTCTGGCTGGCGTCGTCGCCTTCC -CAGATGATGGCGGTACGATCGCCGTTTTCTTGCAGATGGCGGTCAAGGCAGTTTGCCGCCAGATTCAGCGTGCCGTCCTC -GTACCATTTAATGGACACATTACCGGGGGCAAAGGAGGTGTTTTTCACCTTCTGGTAAGGTTTGATCCAGTCAAGAATTT -TTCCCTGTTCGCCCCAGAAGGTATCAGGTACGTTAATAGATTGTTGATACATCGCCTCGTACTGCTGAGGGTTTATCAGG -CAACGGTCTGCGATGTTGGCAGGAATGGTGTGTTTGTGAATTTGGCTCATGCTTTTGTTCTCCTTGTAGGATGTTAATAA -TATGTGGCATAAGCGTTAAATGTAGGGGTATTGGCAGTTTTGTTTAGTATTTGGGCGACAGATCACGCAAAAGTAGAATT -GTGCAAATAAACGGCAGGGTAATTTTTGAAGGTCAGCAACAAAAGTTGATTAATTCTTTGAGGAACATGCAGTTATGCAT -GCTGTTGAAAAAGAGGAAGATACTGACTAACTCTAAAGTGGTATTTTACATGCACTTACAATTGATTAAAGACAACATTC -ACAGTGTGGTTATTTGTTACACATAGGGGCGAGCAATGTCATGACAGTGTAGGTGCGGTTACTGTCGTGAAAAACAATAA -AAACCGCCATTGCAACAATGGCGCAATTCGGATGAAGCCCCTATGACAAGGATAAAAATAAACGCACGCCGTATCTTCAG -CTTATTGATTCCTTTTTTCTTTTTCACTTCTGTTCACGCTGAACAAACGGCTGCTCCCGCAAAACCTGTAACTGTGGAAG -CGAAGAATGAAACCTTTGCCCCGCAGCATCCCGATCAATATCTCTCCTGGAAAGCCACCTCGGAACAGTCAGAGCGTGTT -GACGCCCTGGCGGAAGATCCACGGCTGGTGATCCTGTGGGCGGGGTATCCCTTCTCGCGCGATTACAACAAGCCGCGTGG -ACATGCTTTTGCTGTGACCGATGTGCGTGAAACCCTGCGTACCGGTGCGCCGAAAAACGCTGAAGATGGTCCGCTACCGA -TGGCATGCTGGAGTTGTAAAAGCCCGGATGTGGCGCGTCTGATCCAGAAAGACGGCGAAGATGGCTACTTCCACGGTAAA -TGGGCGCGCGGCGGTCCGGAAATCGTCAACAACTTAGGTTGTGCCGATTGCCATAACACCGCCTCTCCAGAGTTCGCCAA -AGGCAAACCGGAGTTAACCCTTTCCCGTCCGTATGCGGCTCGCGCGATGGAAGCCATTGGTAAACCTTTTGAGAAAGCCG -GACGTTTCGACCAGCAATCGATGGTTTGCGGTCAGTGCCATGTGGAGTATTACTTCGACGGCAAAAACAAAGCGGTTAAA -TTCCCGTGGGATGACGGCATGAAAGTCGAAAATATGGAGCAGTATTACGACAAAATTGCCTTCTCTGACTGGACTAACTC -CCTGTCGAAAACGCCAATGCTGAAAGCGCAGCACCCGGAATATGAAACCTGGACAGCGGGCATTCACGGTAAAAACAACG -TGACCTGTATCGACTGCCATATGCCAAAAGTGCAGAACGCCGAAGGCAAACTCTACACCGACCATAAAATTGGTAATCCG -TTTGATAACTTCGCCCAGACTTGTGCGAACTGCCATACCCAGGACAAAGCTGCCTTGCAAAAAGTGGTCGCGGAACGTAA -GCAGTCGATTAACGACCTGAAAATCAAGGTTGAAGATCAACTGGTTCACGCTCACTTCGAAGCGAAAGCAGCGCTGGATG -CAGGCGCGACGGAAGCTGAAATGAAGCCAATTCAGGACGATATCCGTCATGCCCAGTGGCGCTGGGATCTGGCGATCGCT -TCCCACGGCATTCATATGCACGCACCGGAAGAAGGTTTACGGATGCTCGGTACGGCGATGGATAAAGCGGCGGATGCACG -CACCAAACTGGCGCGCCTGCTGGCGACCAAAGGCATCACCCATGAAATCCAGATCCCGGATATCTCAACCAAAGAGAAAG -CCCAGCAGGCCATTGGCCTGAACATGGAACAAATCAAGGCCGAGAAGCAGGACTTCATCAAAACGGTGATCCCGCAGTGG -GAAGAACAGGCACGTAAAAACGGTCTGTTAAGCCAATAACCCCGTTCCGCCTCGCAAGGGGCGGAAAACACAATGGAGTG -AATATGAGCGTATTACGTTCGTTATTAACTGCCGGGGTGCTGGCGTCGGGCCTGTTGTGGAGCCTGAACGGAATTACCGC -TACCCCTGCGGCGCAGGCATCTGATGATCGCTACGAAGTTACCCAGCAGCGTAACCCGGATGCCGCCTGTCTGGACTGTC -ATAAACCAGATACCGAAGGTATGCATGGAAAACATGCTTCCGTTATCAACCCGAAGGTGATGCTGCCAACTTACTGATTT -AGTGTATGATGGTGTTTTTGAGGTGCTCCAGTGGCTTCTGTTTCTATCAGCTGTCCCTCCTGTTCAGCTACTGACGGGGT -GGTGCGTAACGGCAAAAGCACCGCCGGACATCAGCGCTATCTCTGCTCTCACTGCCGTAAAACATGGCAACTGCAGTTCA -CTTACACCGCTTCTCAACCCGGTACGCACCAGAAAATCATTGATATGGCCATGAATGGCGTTGGATGCCGGGCAACAGCC -CGCATTATGGGCGTTGGCCTCAACACGATTTTACGTCACTTAAAAAACTCAGGCCGCAGTCGGTAACCTCGCGCATACAG -CCGGGCAGTGACGTCATCGTCTGCGCGGAAATGGACGAACAGTGGGGCTATGTCGGGGCTAAATCGCGCCAGCGCTGGCT -GTTTTACGCGTATGACAGTCTCCGGAAGACGGTTGTTGCGCACGTATTCGGTGAACGCACTATGGCGACGCTGGGGCGTC -TTATGAGCCTGCTGTCACCCTTTGACGTGGTGATATGGATGACGGATGGCTGGCCGCTGTATGAATCCCGCCTGAAGGGA -AAGCTGCACGTAATCAGCAAGCGATATACGCAGCGAATTGAGCGGCATAACCTGAATCTGAGGCAGCACCTGGCACGGCT -GGGACGGAAGTCGCTGTCGTTCTCAAAATCGGTGGAGCTGCATGACAAAGTCATCGGGCATTATCTGAACATAAAACACT -ATCAATAAGTTGGAGTCATTACCCAACCCGAATAACAAACTGCCGGTCACCTGCACCAACTGTCACGGCCAGCCATCACC -GCAACACCGCGAAGGGGTGAAAGATGTGATGCGCTTTAACGAGCCGATGTACAAGGTTGGAGAGCAGAACAGCGTCTGTA -TGTCCTGTCATCTGCCGGAACAGTTGCAAAAAGCGTTCTGGCCGCACGATGTCCACGTAACCAAAGTGGCGTGCGCCAGC -TGCCATTCCCTGCATCCACAGCAAGATACGATGCAGACGTTAAGTGACAAAGGACGGATTAAGATTTGCGTCGATTGCCA -CAGCGATCAGCGCACCAATCCGAACTTTAACCCGGCGTCTGTTCCGTTGCTTAAGGAGCAGCCATGACCTGGTCTCGTCG -CCAGTTTCTCACCGGCGTCGGCGTGCTGGCAGCCGTCAGCGGCACCGCAGGGCGCGTGGTGGCGAAAACGTTGAATATCA -ATGGGGTGCGTTACGGCATGGTGCATGACGAGTCGTTATGCATCGGCTGTACCGCCTGTATGGATGCTTGTCGGGAAGTG -AACAAGGTGCCGGAAGGCGTCTCGCGCCTGACGATTATTCGTAGCGAGCCGCAGGGCGAATTTCCTGATGTGAAATATCG -CTTCTTCCGTAAGTCTTGCCAGCACTGCGATCATGCGCCGTGCGTTGACGTCTGCCCGACCGGTGCGTCTTTTCGCGATG -CTGCCAGTGGGATTGTCGATGTTAATCCGGATCTCTGCGTCGGTTGTCAGTACTGCATCGCCGCCTGTCCGTACCGCGTG -CGCTTTATCCATCCGGTCACGAAGACGGCGGACAAATGCGATTTCTGCCGTAAGACCAATTTGCAGGCCGGTAAGTTGCC -CGCGTGCGTTGAAGCTTGCCCGACCAAGGCGCTGACGTTTGGCAATCTGGACGATCCCAACAGTGAGATTTCGCAACTGC -TGCGCCAGAAGCCCACTTACCGCTACAAGCTGGCGCTGGGAACCAAACCGAAGCTGTACCGCGTACCGTTTAAATACGGG -GAGGTGAGCCAATGACGCAGACTTCCGCATTTCATTTTGAATCGCTGGTGTGGGACTGGCCGATTGCCATCTACCTGTTT -TTGATTGGTATTTCTGCTGGTCTGGTGACGCTGGCCGTGCTGTTACGTCGCTTCTACCCGCAGGCGGGCGGTGCAGACAG -TACGTTGCTGCGCACCACGCTGATTGTCGGGCCGGGCGCGGTGATCCTCGGTCTGTTGATCCTCGTCTTCCACCTGACAA -GACCGTGGACCTTCTGGAAGCTGATGTTCCACTACAGTTTTACCTCGGTGATGTCGATGGGGGTGATGCTGTTTCAGCTC -TACATGGTGGTGCTGGTGCTGTGGCTGGCGAAAATCTTTGAACATGATTTGCTTGCCCTGCAACAACGCTGGTTGCCGAA -GCTGGGGATCGTGCAAAAGGTTCTGAGCCTGCTGACGCCCGTTCATCGCGGACTGGAAACATTGATGCTGGTGCTGGCGG -TGTTGTTGGGGGCTTATACCGGCTTTCTGCTGTCGGCGCTGAAATCGTATCCGTTCCTCAATAACCCGATCCTGCCGGTG -CTGTTCCTCTTCTCCGGCATCTCGTCCGGTGCGGCGGTGGCGCTGATCGCCATGGCGATACGCCAACGCAGTAACCCGCA -TTCCACGGAAGCGCAGTTTGTACACCGTATGGAAATCCCTGTGGTATGGGGTGAAATCTTCCTGCTGGTGGCGTTTTTTG -TCGGTCTGGCGCTGGGCGATGACGGTAAAGTTCGTGCGCTGGTGGCGGCATTAGGTGGCGGTTTCTGGACGTGGTGGTTC -TGGCTTGGTGTCGCCGGGCTGGGGCTGATTGTGCCAATGCTGCTCAAACCGTGGGTCAATCGCAGTTCCGGCATTCCTGC -CGTGCTGGCGGCGTGTGGGGCCAGTCTGGTCGGCGTGTTGATGCTGCGCTTTTTCATTCTCTACGCCGGACAGTTGACGG -TGGCGTAAGCCAGAAAAGAGGTGGTTTCTGGACGTATTCCTTCCTGAAGTCGGTTTTCTGGCGTTGTTGTTAAGTCTCGG -GGTCAACGTGTTGACCCCGTTGACGGCCTTCGCGGGAGTGCGGTTGCGCTGGCCTGCCATGATGCGACTCACTTGCATCG -GCATTCTGGCGCAGTTCGCGCTCCTGCTGCTCGCCTTTGGCGTACTGACGTATTGTTTTCTCATCAGCGATTTCTCGGTC -ATTTATGTCGCGCAACATAGCTATAGCCTGCTGTCGTGGGAACTCAAGCTGGCAGCGGTGTGGGGCGGCCATGAAGGTTC -GCTGCTGCTTTGGGTGCTGCTGCTTTCCGCCTGGAGCGCGCTGTTTGCCTGGCATTATCGGCAGCAAACCGATCCGCTAT -TTCCGCTGACGTTAGCCGTTTTATCTCTCATGCTCGCCGCACTGCTACTGTTTGTGGTGCTGTGGTCCGATCCCTTCGTG -CGGATATTTCCACCAGCAATCGAAGGCCGCGATCTCAATCCGATGCTGCAACATCCCGGTCTTATCTTTCATCCACCGCT -GCTTTACCTTGGCTATGGCGGTTTGATGGTAGCGGCGAGCGTGGCGCTGGCGAGTCTACTGCGCGGCGAGTTTGATGGTG -CCTGCGCCCGAATTTGCTGGCGCTGGGCGTTACCTGGCTGGAGTGCATTAACGGCGGGGATCATCCTCGGTTCCTGGTGG -GCCTACTGCGAACTCGGCTGGGGCGGCTGGTGGTTCTGGGATCCGGTGGAAAACGCCTCTTTATTACCCTGGCTTTCTGC -CACTGCGCTGCTGCACAGTTTGTCCCTGACACGCCAGCGGGGGATTTTTTGCCACTGGTCGCTGTTGCTGGCGATAGTTA -CTCTGATGCTGTCGCTGCTGGGCACCTTAATTGTCCGTTCTGGCATTCTGGTTTCGGTTCATGCGTTCGCGCTGGATAAC -GTCCGCGCCGTGCCGTTGTTCAGCCTGTTTGCACTGATTAGCCTTGCGTCTCTGGCTCTGTATGGCTGGCGAGCGCGGGA -CGGTGGCCCGGCGGTGCATTTTTCGGGGTTATCGCGGGAAATGTTAATCCTCGCTACGCTGTTGCTGTTTTGCGCAGTGC -TACTGATCGTGCTGGTGGGAACGCTTTATCCGATGATTTACGGCCTGCTGGGCTGGGGACGCCTCTCCGTTGGCGCGCCG -TATTTTAACCGCGCGACGTTACCGTTTGGTCTGTTGATGCTGGTGGTGATTGTGCTGGCGACGTTTGTCTCTGGCAAACG -CGTGCAGCTTCCGGCGCTGGTAGCTCATGCGGGCGTGCTGTTATTTGCCGCTGGGGTCGTGGTCTCCAGCGTCAGCCGTC -AGGAGATCAGCCTGAATTTACAGCCGGGTCAGCAGGTGACGCTGGCAGGATACACCTTCCGTTTTGAGTGCCTCGATCTA -CAAGCCAAAGGCAATTACACCAGCGAAAAAGCGATAGTGGCACTGTTTGACCATCAGCAACGCATTGGTGAACTGACGCC -GGAGCGGCGTTTTTATGAAGCACGCCGTCAACAAATGATGGAACCGTCAATTCGCTGGAACGGCATCCATGACTGGTATG -CGGTCATGGGGGAGAAAACTGGGCCGGATCGTTACGCTTTTCGTTTGTATGTACAAAGCGGTGTGCGCTGGATCTGGGGG -GGAGGATTGTTGATGATTGCGGGCGCATTGTTAAGCGGATGGCGGGGGAAGAAGCGCGATGAATAAAGGGCTTCTCACGC -TACTGCTGTTATTTACCTGTTTTGCGCACGCTCAGGTCGTAGACACCTGGCAATTCGCCAATCCGCAACAACAGCAACAG -GCGTTAAATATTGCCAGCCAGTTACGTTGTCCGCAGTGCCAGAATCAAAACTTACTGGAATCCAACGCGCCGGTGGCTGT -CAGTATGCGCCATCAGGTTTACAGCATGGTGGCGGAGGGGAAGAACGAAGTCGAAATCATTGGCTGGATGACCGAACGCT -ACGGAGATTTTGTTCGCTATAACCCACCGTTAACGGGTCAGACGCTGGTGTTATGGGCGCTGCCAGTGGTGTTGTTACTG -CTGATGGCACTGATCCTCTGGCGAGTGAGGGCGAAGCGATGAAACAGCCCAAAATACCGGTGAAAATGCTGACAACACTC -ACGATATTGATGGTATTTCTCTGTGTCGGCAGTTATCTGTTAAGCCCAAAATGGCAGGCGGTACGTGCGGAGTATCAGCG -TCAGCGCGATCCGCTACATCAGTTTGCCAGCCAGCAAACCCCGGAAGCGCAGCTTCAGGCATTGCAGGATAAAATCCGCG -CTAATCCACAAAACAGCGAACAGTGGGCGTTACTGGGCGAGTACTATCTGTGGCAAAACGATTACAGCAATTCGTTGCTG -GCGTACCGTCAGGCGTTGCAACTACGTGGTGAGAACGCTGAACTGTATGCGGCGCTGGCGACGGTGCTTTATTACCAGGC -CAGCCAGCATATGACCGCCCAGACTCGCGCAATGATCGACAAAGCCCTCGCGCTGGACAGTAATGAAATCACCGCCCTGA -TGCTGCTGGCTTCCGATGCGTTTATGCAGGCGAACTACGCGCAAGCCATCGAACTATGGCAAAAAGTGATGGATCTCAAC -TCACCGCGAGTTAACCGAACACAGCTGGTTGAGTCGATTAATATGGCGAAATTGTTGCAGCGGAGATTGGATTAATCATC -TGGTGATGAAGATTATGTCATTGAGCTGCATAAAAAATAATCGAATGAACATATGCCAAAAATAATCACTAATCAGTATT -ATTGCAGATTAAACAAATAAAAATCTTTCCATAACAAATGGTTATTCATTAATCCTGCCATAAACTCGCGTTATTATGCA -TTAATGCAGCGAAAAGCTCTGTTGTTAAAGGGTTGCGCAACATACCGCGCAAATGATACTGATCATAAGCGTTAAAAAAA -TCTACAAACCAACGCAACACAATTCATGCCCTGGCAGTATGTCACGTTCTCGCGTTTCTGAACGGGGAACGGCGCTCCAT -TGAGGAAGTCATTCATATGAAAAATATAAAATTCAGCCTGGCCTGGCAGATTCTGTTTGCTATGGTGCTGGGCATTCTCC -TGGGAAGCTACCTGCACTACCATAGCGACAGCCGCGACTGGCTGGTCGTCAATTTGCTCTCTCCGGCGGGTGATATCTTC -ATCCATCTGATTAAAATGATTGTTGTGCCGATTGTGATCTCCACGCTGGTGGTGGGTATCGCGGGTGTTGGTGATGCCAA -ACAGCTCGGGCGTATTGGCGCGAAAACCATTATCTACTTCGAGGTGATCACCACCGTCGCCATCATTTTGGGGATCACTC -TGGCGAACGTCTTCCAGCCCGGTGCCGGGGTGGATATGTCGCAGTTGGCGACCGTCGATATCTCGAAATATCAGAGCACT -ACGGAAGCGGTACAAAGCAGTTCCCACGGCATTATGGGCACGATTTTGTCGCTGGTGCCGACGAACATTGTGGCGTCGAT -GGCGAAAGGCGAAATGCTGCCGATCATCTTTTTCTCGGTGCTGTTTGGTCTGGGGCTTTCTTCCCTGCCCGCGACGCATC -GTGAACCGCTGGTGACCGTGTTCCGCTCCATCTCTGAAACCATGTTTAAAGTGACTCACATGGTGATGCGTTATGCACCG -GTGGGTGTGTTTGCGCTGATTGCGGTGACGGTGGCTAACTTTGGTTTCTCGTCTCTGTGGCCACTGGCGAAACTGGTGCT -GCTGGTGCATTTCGCCATTCTGTTCTTCGCGCTGGTAGTGCTGGGAATTGTGGCGCGCCTGTGCGGGTTAAGCGTCTGGA -TCCTGATTCGTATTCTGAAAGATGAGCTGATTCTGGCGTACTCCACTGCCAGCTCTGAAAGCGTGCTGCCGCGAATTATT -GAGAAGATGGAAGCCTACGGAGCACCGGTGTCGATCACCAGTTTCGTGGTGCCGACCGGTTACTCTTTTAACCTTGATGG -TTCGACGCTGTATCAAAGTATTGCCGCTATCTTCATCGCGCAGTTGTATGGCATTGACCTGTCCATCTGGCAGGAAATCA -TTCTGGTGCTGACGCTGATGGTGACCTCGAAAGGGATTGCTGGCGTGCCTGGCGTGTCGTTTGTGGTGTTGCTGGCAACG -CTGGGTAGCGTAGGTATTCCGCTGGAAGGTCTGGCGTTTATTGCTGGTGTTGACCGTATCCTCGACATGGCGCGTACTGC -GCTGAACGTGGTGGGTAATGCGCTGGCGGTGCTGGTGATTGCCAAGTGGGAACACAAATTTGACCGTAAGAAAGCGCTGG -CTTATGAGCGTGAAGTGCTGGGCAAATTTGATAAAACTGCGGATCAATAATTGAAGATTGCCGGGGATATCCACCCGGCA -ATGTGTGAATGCCTGATGCGACGCTTGCCGCGTCTTATCAGGCCTACGCCAGACAGCGCAATAGCCTGATTTAGCGTGAT -TTTGTAGGTCGGATAAGGCGTTTATGCCGCATCCGACATCAACGCCTGATGCGACGCTTAACGCGTCTTATCAGGCCTAC -GCCAGACAGCGCAATAGCCTGATTTAGCGTGATTTTGTAGGTCGGATAAGGCGTTTACGCCGCATCCGACATCAACGCCT -GATGCGACGCTTGCCGCGTCTTATCAGGCCTACGCCAGACAGCGCAATAGCCTGATTTAGCGTGATTTTGTAGGTCGGAT -AAGGCGTTTATGCCGCATCCGACATCAACGCCTGATGCGACGCTTAACGCGTCTTATCAGGCCTACGCCAGACAGCGCAA -TAGCCTGATTTAGCGTGATTTTGTAGGTCGGATAAGGCGTTTACGCCGCATCCGACATCAATGCCTGATGCGACGCTTGC -CGCGTCTTATCAGGCCTATCTTAACCGTTGGTTAATTTTTCAAACTCTTCACACCCGGTATCAAACCCTTCCATACAGCT -CAGGTTCAACCAGTGCAGCGCCTTTTGCTTGTTCTTCTCGATAAAACCTTCTTCACCGTTTAAGAACATCATTCCCGCCC -AGTACTCGGAATAACCGGTTCGGGAAATTGCAGAGCTGCGTTTGAAATACCAGGTTGCCTTGTCATCGTCGGCCTTAATG -CCCACGCCGTTGGCGTAAATCAAACCAAGCAGCATTTGGGCATCGACGGCAGAGTCGTTCTCCAGATCTTCCGAGGCGTT -TTCTAACAGCGAAATTGCCTTTGGATAATCCGGTTTACCCGCTTGAGTATTTACCAGAATATGCGCCAGCGTTACTTCAC -CTTCTTTACTGCCCGCTTGCGCCGCTTTCTCTGCAAGAACTTTTGCTTGTGGATAGTCCAGACTGACCGGATTGGTGATT -TTGATCTGCGCCAGCAGCGCGCAGGCATCAGCATCACCGCTGTCGGCGGCTTTCTGTGCCCAATATTCGGCTTTGCTCAA -ATCGCCGGAGCTAAACCAGCTGTCGGCAAGAAAATATTGTGCGCGTCGGTCCCCGGCCTCTGCTGCCTTTAAATACTGGC -TGCCAGGCTCGGAGTCGTTGGCGTGGGCAAAGAATGTCAAAAACAACATCAATGCGATAATTTTTTTCATTTTGATAATA -CGATTGGGTAGGGAGTAACCAGTATAAAGAGTTCGAATGGATAAAAAAACAGCCTCCGAAAGGAGGCTGTAGAAAGGACG -GTATTACGCCAGTGCCGCTTCGCGCAGGCGAGTTTTCAACTTGTTGTACTCGTCAATCACGTACTGCTCGGCGGCGCGCT -GATCGGCGATCGGCTCGACGCGAACGGCGCAGTATTTGTACTCCGGCGTTTTCGTAATCGGGCTTAAGTTTTCGGTAACC -AGCTCGTTACAGGCACCAATCCACCACTGGTAGGTCATGTAAATCGCCCCTTTGTTCGGACGATCGCTGACCTGCGCACG -GGTGATAATTTTGCCTTTACGCGAGTGCACCCAAACCAATGCCTCATCTTCAATACCCAGACGTTTGGCGTCTTCGGTAT -TGATTTGTGCGTAGCCAGGTTCATCAGCCAGCGCCGCCAGTGCCGCACAGTTACCGGTCATCGAACGGCAAGAGTAGTGA -CCAACTTCACGCACCGTTGACAGTACCATCGGGTACTCGTCGGTGAGTTTGTCGATTGGCGCTACCCAGTCGCAGGTGAA -GAACTGCGCCAGACCGTTCGGGGTATCAAACTTCTCTTTAAACAGATAAGAAGTCCCCTGATCGGCATCTGAAGTATCGC -GGCAAGGCCACTGAATGAAGCCCAGTTCGCCCATTTTCTCGTAAGTCGCACCGTAGAAATCCGGGCACAGATGACGCAAC -TCATCCCAGATCTCCTGGGTGTTGTTGTAGTGCATCGGATAACCCATACGGGTGGCGATTTCACTGATGATTTGCCAGTC -CGTTTTCAGATCCCATTTCGGTTCAACCGCCTTGAAGAAACGCTGGAAGCCACGGTCAGCCGCAGTAAACACGCCTTCAT -GCTCGCCCCACGACGTTGACGGTAAAATAACATCCGCCGCCGACGCGGTTTTGGTCATAAAGATGTCCTGAACGATAACC -AGTTCCAGATCTTCAAAGGCTTTACGTACTGCCGACAGCTCCGCGTCAGTTTGTAGCGGATCTTCGCCCATAATGTACGC -GGCACGCACTTCGCCATGCGCTGCGCGGTGCGGCAGCTCGCTGATGCGATAGCCGGTATGCGCTGGCAGGCTTTCCACGC -CCCAGGCTTTGGCGAATTTCTCGCGGTTAGCCGGATCTTTCACGTACTGGTATCCCGGATACGTATCCGGCAGCGCGCCC -ATATCGCAGGCACCCTGAACGTTGTTCTGACCACGAACCGGGTTAACACCCGCATGCGGCTTACCGAGGTTACCGGTCAG -CATCGCGAGGCTGGTCAGAGAACGCACGGTTTCCACGCCCTGGTAGAACTGGGTTACACCCATGCCCCACAGGATGGCGG -CGCTTTTCGCCTGGGCATACATCCGTGCCGCCTGACGAATCTCACTGGCGCTGACGCCGGTGATATCTTCAACCGACTCC -GGCGTGTAGCCTTCAACGATTTTACGATACTCTTCAAAGCCTTCTGTACGTGAAGCGACGAACGCTTTGTCGTACAGATT -TTCTTCAATAATGACATGGCCCATCGCATTCAACAGCGCGATGTTCGAGCCGTTTTTCAGTGCAATGTGCATGTCAGCAA -TGCGCGCGGTTTCAATTTTGCGCGGATCGCAGACGATAATTTTCGCCCCGTTACGTTTAGCGTTAATTACGTGATTCGCC -ACGATTGGGTGGGAATCCGCCGGGTTGTACCCGAAAACGAACACTAAATCGGTATTATCAATTTCGTTAATAGCATTGCT -CATTGCGCCATTACCGACCGATTGGTGCAGACCTGCAACCGATGGGCCGTGTCAGACACGAGCGCAGCAGTCAACGTTAT -TGGTACCAATAACGGCGCGCGCAAATTTTTGCATTACATAGTTGGTTTCGTTACCCGTACCACGCGAGGAGCCGGTCGTC -TGGATGGCATCCGGACCGTACTTCTCTTTGATGGCGCTCAGGCGCTCGGCAACGTAATTCAGTGCCTCATCCCAGGAAAC -AGGTTCGAGTTTGCCGCCACGCTGGCGACGGATCATGGGGGTTTTCAGGCGCGGGGTCAGGATCTGGGTATCGTTAATGA -AGTCCCAGCCATAATAACCCTTCAGACACAGGGTACCCTGGTTGGTTTTCCCCTGCGCTGCCTCCGCCCGGACGATTTTG -CCGTTATCGACGACCAGGTTGATTTTGCAACCTGATGCGCAATAGGGGCAAACCGTGACGACTTTTTTCATCGGTCTCGC -TCCAGTTAATCAAATCACGCATACGCGCTCTCGACTACAGTATGCATCTTTTATGCCACATTTTATGTGGGGTCATTCCC -TGATATTACGGGCACTATTTATTCAAAACTCTGACGAAAAACAGGCTGTCGTCAGTTTTGACGTGACGAAACGAAATACC -GCGTGACAGCCATCACGCGGCAGACATTTTATTTTTTCTCGACGACGGGACCTGCCTGATACCCGCCGCCCAGCGATTTC -ATCAACTGAATGCTTTGGATCACCCGGCGGCTGTCCAGCATCAGTAATGACATCTCTTCGGCAAGCACTGGCAACCGGGC -TTCGGTGGCCTGTAAGCGGCTGGTTAAGCCGCGCTGATAGGCGGCCTCGGCAGCGCGCTGGGTAAAGCGCGTGGCTTCCA -CGCGTTCAGCCTGCATTTCTCGCTCGTCGTTGAGCGTTTGCAGACGCGTGCCGTTGACGGCAACGTCACGCACCGCGTTC -AGTACTGACTGGTTGTAACGTTCAATCATCATGTTGCTGGCGGCGCGCGTGCCTTCGAGATTGGCATTCAACCGTCCACC -GTCAAACAGCGGCAATTTCAGACCCGGGATGAAGTTGAACTGGCGACTGGTTTTTTTGAATAAGGTATGCAGATGGATGG -AGTCCAGACCGAAAAACGCTTTGATATCAAAGCTCGGATAGAACAACGCCCGCGCGGAATCCACCTGATCTAATGACGCC -TGAACATACCAGCGCATGGCTTGCAGATCCGGGCGTCTGGCGAGCAACTCATAAGAGAGTGTCGCCGGAATGCCGGTCTG -GACTTGCGGTAATGCCACCGGTCTGATCTCCGGCATATCGCTGGCTCCCGCGCCAATCAATGCACGCAGAGATTCTCGCG -TTTCGGTGATTTGCCCTTTGACGGCAACAATTTGTTTATCGACCGCCAGAATCTGTGCCCGCGCGCCGTGGAAAGGCACT -TGCGCTTCCAGACCGTGCGCCACTTTACTCTGGTGCGCTTTCACCGCGTAATCAATCACATCGTGAGTTTGTTCTAACAG -ATCGAGCATCTGATAGCTGGCCTGCATACTGTAATAAAGCTGCGCTACGCCCGTGGCCAGCGATAGCTCTACTGCTGCGG -TTTCTGCCAGCGCGGCATTATGCGCGCCAATGGCGGCGGCAACCGCTGAGCGATGCACACCCCACAAATCAAGATCCAGT -CCGGCAAACAAACCTACTGTGGCTTCCGTATAGTACGGCCCGTCCATACCCAGTGCTGGCGCATCCATTGAATAAGGGCT -TAAAAAGCCGTTCGCCGAGACACGTTGGCGGTTGAGCATCCCTAACGCTGCGACCTGTAATTGTGAACCGGCATCTAACA -AATCGGCCTGGGACTGCGCTTTTTCTTCCCGCAGTTTCGCTTCGGCGAGGGTGTGTGAACCACTTAGCGTCCGTTGGATC -AGCGCATCCAGCTGCGGGTCATTGAGTTGTTTCCACCACTGCGCCTGCGGCCAGCCGGAGCTGGCAAGATGAATATCGTC -GGCCAGTTTGATTTGTTCCGGTTTGAGCTGTTGATGAGGTGCAGAATCCTTACGTACCAGGGCACAGCCGGAAATCAGCG -TCGTGCTGCCGAGAATGCTGCACAACAGCAGACGTGAAAGTTGACGATTGATCATTGCGTGGCTCCTTGTGCCTGTTCCG -TGGCGGGCGTTAATGCCGGGGCTGTCCAGTCTGGCAAGCGGGCGAAAAGCTGGCAGACGTGTTGCTCCTGTTTTAATAAG -GTGGGCAGGATGGCCTGAGAGGCGGGTGTCTCTTCAAGCGTTATTTGAGGAGAACGGCTGAGTGCGGTTGCCAGACCGGC -AGCGTATTTCTCCAGGGCGTCGGCAAACTGACCTGCTCTGTCCGGCTGTAGTGCGTTATCCAGCGCCTGCGCCGAGTTCC -AGGTGGCATCCCAGGCGTGAAGAAGATCGCGGCCCTGACGAATAACCGTTTGCGAACGTTCAATCAGTAATGCGCGTTCT -TCGCTGTCCAGTTGACGCTCCAGCGCCACGCGTTGGCACATCTCTTCACAGGCATTAAACGCCGCATGCAGACCGATACG -AATTTGCAGATAAGTGCGCAGAGCCGTGACTTCCTGCTGGCGTGGGATCCGCATTACTTTACTTAACATACCCAGCGTGC -CAGCCAGTTTTTGCGGCAGTGTGCGCGCTTCACTTTCAGGCCAGACAAAGGTGTAAATCACCGCGGACACCACGGTACCA -ATGATGATACCCAGGGCGCGATCGCGAATTTCCACCAGGTCGTACACTGGGCCAAAAACGTTTTCGAGCGTGGCGAGCGC -GAAGGTGACCACCATCTGTGTGCCGATATAAGAAGAGCGTTCAGAGCTGGTGGCAATCCATGCGCCCAACAGGAAAATCG -GTGCCAGCACAAACAGCAATTCGACAATATTGTCCAGCCAGGGCATGACCAGTAGCGTGAATAACAGCGCCAGAATCGCG -CCGCAAAAGGCCCCGCCAAAACGCAGCACCATCTTCTGGTACGACGAACCGACATTTGGGTTAGCGACGATCACGCATGT -CAGCATACAGGTGTGAATGCCTTCCCAGTCCACGCCGCTGTAAAAGGTGTAACAGATCAAACAGGCGAGCAGCGTTTTTA -CCGCGTAGCGCATATAGTCTGGATTGGTAAAAGCATCGGCGGCCATTGATGGCGGTTTGGCTGCGGGCGTTGGCGGCGTA -TTCGGGTCCATCTGACCCAGTTGTAACAACGTCTGGCAGATATTCTCCAGGTTACATTCCCGTGCCGCCATCGCTTCACT -TTCACTGATCCGCCAGTCGCTTTGCCAGCACTGACCTTCAGCAACGGCATGCTGCAGCTTGTTGATTTCTGAAGCTAATT -TTTGTCGGAATTCAATAATTGCCTGAGAATCAGCAAAAGAGGTGGGATCGTAGCGATTCAGCGTCGAGTAAATGTAGGTT -ACCGTTGCCACGCAGCTTTGCCACCATGCGTTTTGAGTTCGCCAGTTGGCATCGTCCGCGAGGCAAAAGACATTGAGTTT -TTGTAGCGCCAGCGCCTCTCTTTCAATCCGCGTTTCGGGTAGCGGTGCGAGGCTGTCTGTCAGGTGACTAATGGCATCAT -CAAGCCGATCATTAAGCGCCTGATGCATTTGCGAAATGGCACGACTGGGAAACCACAGCACGCCGATTAACGTCATCAGC -AAGGTTGGATAGAGGCCAACAACGATACACCACAGCGTTAAGCGCACGACCACTTCCGGATAGTCGAGCATGGCGGGGAA -GGTTTGCCCGTAAATAGCGACAATGGCGACGGCGAAAAAGACCAGCCCCAAGCGATGGGTGCGCATCAAAAACATGCAGC -CCATCAGGATCGGTCCGGCGATGATCAATCGGATCAACGGTTCGCCGTATGACCATTTGTAGATCAAAAACAGGCTGCCG -ATCTCCAGCACCGTGGCAACCACAAACAAGATCGCGACAAATTTGGTGTAAAACGCGTTCGACTGAATACCGTAAAACAG -CACTGCCAGCGATAACGCCACAAAAGGGATCTCAAAGGTCATCGAGATCAGAATCACCAGCAGGCAGCCTACCCAGAGTT -GCACGGTCTGCGGCACGCGACCTGGTCGCCGCTCGCTTAACTCTTCATGAAAGAACGCCAGCAGCCTGACCACCGGTAAT -GGCAGGGAGTTGAGCGCGCTCATTATTGCGGCTCAAGATTAGCGACTGCCGAAGCGCCGATGCGGAACATTTCCGGGTCA -GGTTTATCGACCATGATTTTGACCGGAAAACGCTGGGCAACGCGGACCCAGTTAATAGAACGAGACACTTTCGGCAGGCC -GCCCAGCACCAGGCCGCCGTCATCCGGTAGCACGCCGTAGCCAATCGAATCCACTTTACCCTCGAAGGTTTTGCCGCTGT -CACTCATCAGGCGAATCGTTGCGGGTGTACCTGAGCGAATATTTTTCAGATCGGTTTCGCGGAAGTTGGCGATCACATAC -CAGTGACGAGTGTCGATTAGGGTAAAAATAGGGCGCATGGCAGAAGCAAATTGCCCGACGGAGGTTTTGAGGGAAATGAC -CCGGCCATCAAACGGCGCGCGAACGGTCGCCATTTCCAGATGCAGTTTGGTCAGGGCAATATCCGCTTCGACCGCCGCAC -GCTGGGCAACTAATGCATCCACGCCGCTGACGGCGCTGGCGGCTGACTGCGCCTGTAACAATACGGCATTAAGATCCGCT -TCTGCGGCGCGCTGCGCCGTTCTTGCACGGTCAACATCTTCCGCTGAGACAAAACCTTCTTTCAGTAATGGCTCGGTGCG -GCGTAATGTATCTGTGGCCTGTTTCGCGGCGGCACGGGCTTTTTCTACCGTGGCATTAACCGAGTCGGCACCAAACTGTT -GCGCGTCAACGCTACGCTGGGTGAGCATAATTTGCTTATCCAGCGCCGCGAGGGAGGCTTCAGCTTTCGCCAGATTGGCT -TCGTACGGGCGCGGGTCGATGCGGAACAGCAAATCGCCCTGTTTGACTGCCTGGTTGTCGGTGACCGCCAGTTCTACAAT -GCGGCCGCTGACTTCCGGTACCACATCAATGGTATCTGCTGACGCGTAAGCGTCATTAGTTGATGGCGCACTGTCTACGC -GCCAGATAACGAAAACAAGGGCAACCAGCGCCAACGCAACCACTAACAGAGCAGGGAATTTACTGCGAGGAGCTTTTTTC -GGCGTACTTTCCATGAGCGCGTCTCAAATAGATTAGAAAAATGCCAGCCAGAACAGCATGGCGTAGAGAGCAAAAAGGGC -GGTATAAATAATTCCGACAAATGCCAGATTGATATTTGCCCGCTGAATAACTCGCCTCGTGATGAGCGTCAAAATAAGGC -TGGCAATGGCGCAGAAAAACCAGCTGGGATAATAAGCGCCGATCACCGGGATTGCCGGAGATAATGAGCATCCCGAAACC -ATGAAGACGGGAATTATCCAGGCTGTTTTTTTGAGTTGCATCGCCATGCGAGAGAGAACTGTTGGCATATTAAATACATC -CTGTCTGCTGCGAACAATATCTGTAGTGAATATCAATATCCATTGAAGGCGTCAGTATGGCTATTTTCTTGATGAATAAA -AATAGCTTTATTCAGCCACCGCATTCATAACTTATATATTTTATTTATTAATTGGCTGTATATATTTTTAAAATAAATAC -TTTTGGGGGCTTCAGCGCCCCCAAAAGCGAGTGACATTAATTTGGGGTTACGATATTCACCCACAAATCGAAATTATCCA -GACAGGCGATAATTTCTTCCAGTTTCGCGCCATTGCCAATAATTTTGGCTTTCTTCGCTTTTACCAGATCCGCCATTTTG -GCTTGTCCGGTCAGCACGGCGTGCAGATCTTCACGGCTGATGTAGAAAGAGGCGTCGGCTTGCGGTTGCAGCGTTTTCCG -GTAGTTAAGCACGCTATCGTTCAGCGTCAGGTTGAGGTTATCGCCGTTGCTCATATTGAAGTTCAGGCTGATATTTTTAC -CCGCAGCTTTCGCGCTATCGAGGCGAACGGCCATAAAGTCGAACAGCATTTCGACCGACATCCCGCGAATGGTGTCCGGG -GAACCGGTGGTGCCGTGGCTGAACTTATGCACCCCTTCGCGCAGCTCTTTCGCGCCGGTCAGGTAGAAACCGCGCCATGT -GGCGGACTCGGCCTGATAGCCCAGCTGTTCAAAGTTATTCGCTTGCAGATTCTTCGCGACCTGGTCACCCGGGTTGGCGG -CAATCACCTGTTTCAGCAGTTCTGCCGACCAGCGGTAATCACCTTGCTTGTTCGCTTCTTGCGCCAGGTTGATGACACGG -GCAGAACCGCCCAGCGCCTGCACGTAACGTTTACCCATCTCCACCTGACCATACGGATGCAGGTTAGCCGGGTTACCGTC -GTAATAGCCAAGATAGAAGTTATACACCGCGCGGGCGTTGTGGCTGACAGAACCGTAATAGCCGCGGCTGGCCCAGTTAT -TGGCAAGTGCAGGCGGCAGCTTAATCATGTCGCCGATTTCATTCATGGTGTAGCCCTGGTTCGCCAGGTGCAGGGTCTGG -TCGTGAATGTACTTGATGGTATCGCGGTATTTACCAATATAATCATTGATATGCTTATTGCCCCAGACCGGCCAGGTGTG -CGGCATAAACAGCACTTCCGCGTCGTTACCCCACATATCCAGCGTTTCGTTCAGATACTCGGTCCACTTGCTGGTGTCGC -GGGTTTTCGCGCCGCGCAGAGTGTAGAAGTTGTGCAGGGTATGCGTGGCGTTCTCGGCGGTACACAGGGCTTTCAGGGCC -GGAATATAGAAGTGCATTTCGGCTGGCGCTTCGCTACCTGGGGTCATCAGGAAGTCAAACTCCAGGCCGTCGATAATCAT -CTTCTCGCCAGTTCTGACGATAGTTTTCGTCGGTGCAATAATGCTCGGGTCGCCCGTTGCCAGCGTCACGCCAAGGCCAT -TACCCACATTGCCTTGCGCGTTGTGCGGCAGTAACAGACCGTAAGAGTAGAGCGCACGGCGGCTCATGATGTTACCCGCC -AGCACGTTTTCGCTGATGGCTTCGTCCATAAAGCCTGCAGGGGCAATCACCTGAACTTTGCCGGATTTAACATCGGCTTC -AGAGATAATGCCTTTCACGCCACCATAGTGGTCGGTGTGGCTGTGAGTGTAGATAACGGCAACAATCGGTTTTTGCGGAC -GATGCTGGAAGTAAAGGTCAAGTGCGGCTTTTGCGGCAGGCGGCGTCACCAGCGGGTCGATAACAATAATGCCTTTCTCG -CCCTCAACGAACGTAATGTTAGAGATATCCTGGCCGCGCACCTGATACATTTTATCGGTGACTTTGAACAGGCCAGAAAT -ACCGTTGATTTGCGACTGACGCCACAGGCTGGGGTTTACGGTTTCCGGCGCTGCGGCATTAATATCAAATTTGTAATCGT -CCGCGCGGTAGTAAACTTTACCGTTCGCATCACGCAGAATACCTTCATCCAGCAGCGGGGCGATAAATCCACGCTGGGCA -TCGTCAAAATCCTGACGATCGCTAAACGGTAATGATTTGGCGTAATTCTGATTAACCTGTTGGGTATATTGAGTGGCGGC -TTTCGCTTCCTCTTTCGCGTTAGCGGTATTTACCATCATGCCGCTGGCGGCAGTTAACGCAATAACAATCCTGCTCAAAC -GGAATAACCGAGAGTTATTCATATAAATCTCCATTTATCATTTATGTCGTAAATATGTAATCCATGCAAAATACGTCATT -TAAAGCTGGCGTTATCATAATTGGGAAATTGCGACTTTAATAAGTGGAAGTGTGAGCGGAACGCGCCATTTTATTAGGCA -TTTGTGCTGAAGAGGGAAAATTACAGTAAAACTATCATTGCAGAAAATAATATGAGTCGTTTTATGTGTTTATTATATAT -ATTGTACCTGTCGTTGGCACAGCGGGACATTGCGCTACTGTGCCAACGTTTTACTCATGGGGCTTTAGCACAGAACTGTG -GCAAAAAACGTTGATGCGCCAATATTGCTGCACCCTGAGCGCCATTAAAGTCAGAAGATGAGGCGGCAATAAAGCGCACG -ACCTGATGCGGCAGTGGACGGCGCAGGTACTTTTGGGTCATGGCAACGAGAGTCTCGCGTGGGAAGGCGGGCATATCCAT -CACGCCACCGCCCAGGATCACCGCATCGGGATCGAACAGATTAATGCTGGTGGCAATGGCCCGTGCCGCGTTTTCAAGCA -GACTCTGGACGAAAGGGGCGTTTTCCGCATGGACGAAAAGATCGCGCAATGGGTAATTTCGGGGCTGTTGTTCGTACCAG -CGTCTTAGCGCCATTCCAGAGCAATTGGTTTCCAGGCACCCAGGATTGCCACACGCGCAGTGTTGGGTCATATCTCCCAG -GGGGATATGACCCAGTTCGCCTGCCACACCGTGTGCACCCGTCCACGGCGCACCGTTCATCCACACTGCGAACCCCATCC -CCGTACCGAGATAGGCCGCCAGAACCAGTTGTTGCGTAAGGCGGTTTTCTACTACGTCCCAGGAGAGTTGCAGGTTAACG -TCGCGGGAAAACTCAACCGGACAATTCAGCGTATTTTCGAGCTTATCGGCGAGATCATATAAATCCGCCGCTGTTAACGG -CAGGTTAGGCGTAGAAATAATGGTGCGTTTATCTTTACTGACCAGCGCCGGAAATCCCATCACCAGACCATGACAGCGAG -CGTTAAAGCGCCTGAGTTGCTCGTCAATCATTTCGCCGATACCCGACACCAGGCCGGGAGCAATGACTTCTGCGGTCCGC -TTTTTTTCGCAGTGTAGCGTTTCACCTTCTGCTGTCCGCAGACAAAAGCGGATATGCGTTGCCCCCATATCCACGCCCGC -TACGACGTTATGCTGTTTTTGCATGAGGCTGTACCTCGCTTTTTGCAGCCAGAATCTGCGCGGTCATAATTCTCCATGCT -TCGTCGATATTTTCCGCATGATTAAACAGGCCGGAAGTGCCGACGATAAAGACATCCGCCCCTGCCGCCATCAGTTTTTC -GTAAGTTGCCTGGTTGCAGGAACCGTCCACCTCAATTTCGTACTCCAGACCTTCTCGTTCACGCCATGCCTTCAGTTCGG -CAAGTTTATCCAGCATTTCAGGAATGAACGGTTGTCCGGCAAAGCCGGGATCGACAGTCATGACCGTAATTTTATCGGCC -TTATGGATATAGTATTTCATGGCCTCAACTGGCGTCTCCGGGTTAAGGATCAGCCCCACTTTCATGTCATGACGGCGGAT -TTCATCAATCAGGCGGAACGCCTGGCCGTTGATGGTTTCCGGATGCAGAGTGATGAAATCTGCTCCCGCACGCGCCAGTT -GAGCAATGTAATCCTGCGGCCGCGTCACCATCAGATGACAGTCGAGCGGTTTAGTTGCCAGTTTTTTAACCTGACTTACG -AAGAACGGTGAGAGTGTCAGATTGGGGACAAAGTGACCGTCCATGATATCGATGTGGAAGTAATCGGCATGGCTGTCGAT -AAATTCGATCTGTTCTTTAAATTTCAGCAGATCCATACACATTAACGAGGGGGAGATTTTCATGTTCAATTCCTTACTTA -CTGATAAGACGGTCAAGGGCGACAGCCGCGATAATTAATCCGCCCATCACCACCAGTTGGTAATAGGTTTGTACCTGCAA -AATATTCAGACCGTTGTTGATGGTGCCGATGATCAACCCGCCAATCACCACAGAGAAAATGCGCCCCTTGCCGCCGAAGA -AACTGGTGCCGCCAATGATGGCGCTGGCAATGGCATAGGTTTCAAAACCCATACCGGCAAGCGGTTCTGCGGCACCGAGT -CGTGCAGTTGAGACGACGCCTGCCAGACCTGCACAAACACCGGAGATGATAAACACCACCAGGATGTGGAATTTCACGTC -AATCCCGGAATAGAACGCCGAATTTTTGTTGCCGCCCAGTGCGTAGATGTTGCGCCCGAGCCGCATACGCGTTGTCAGAA -ACCAAAGGATGAGCGCGACAATTAGTGAGAAGATAACGGGGACAGGTATCCCAATTACGCTGGCGGCAAAGAAGTTCACG -AAGTCAAATGAGAAGCCGTATACCGAGTTGGCATCGGAGATCACCAGCGTGATCCCACGGAAAATCGCGTTGGTGCCAAG -GGTGATGATGAACGGGTGTAGCCCCGTCCAGTTGACCAGGCAGCCGTTGATCGCCCCCAGTGCGCCGCCAACCAGTACAC -CGCCAATCATCGCTGCGAGAAACGGGTCAACACCTGCCAACATCAGTTTGGCGGTCACCATACCGGAAAGCGCCAGAATC -GCGCCAACCGAGAGGTCGATACCAGCGACCAGGATAGCGAAAAACTCGCCCATGCCGATCAATACCGTCACGGAGCTTTG -AACAAAAATCTGGGTAATATTATTGGTGGTCAGAAAATATTCTGGTGACAGCGAACCAAAGATGGCGACGATGATCGCCA -GGATAAAAAAGGTGCCGTATTTATCCCAGAACAGCGCAAAGTTGAACGGTTTCTTCTCGCTCGCTTCGCTTTTTACTCTT -GTGGTAAAGCCCATGCCATAATCTCCTCTTCGCTCATGTCATCGCGATTCGTCAGGATTTGCGTCAGTCGTCCTTCGCAG -AACACGGCGATGCGGTCGCAGACGGTGATAATTTCAGGTAGTTCAGATGACACCATCAGGATGACTTTTCCGTCGTCCGC -CAGTTGGCGCATCACTTTGTAAATTTCGGCTTTCGCGCCAACGTCGATGCCGCGGGTAGGTTCATCGAAAATAATCACTT -CCGGGCAACAGCACAGCCATTTGGAGATCAGGACTTTCTGCTGATTTCCCCCGGAGAGTTCGGTGATATTCTGGTTTACC -GAATGACATTTCAGCGCCAGCAGTTCGCGTTGATTTTCAGCGGTACGTTGCTCGTCAACTTCATGAAACAAGCCCATCGC -GCCTTTATAGCCGCCGTCTTTCAGACTGCGGCTGATCGCCATGTTCTGAGCGATGGAAAAGTTGGGGAAAAAACCGTTAT -CCCGGCGGCTTTCAGTGATGTAAGCCATCCCTTTTTTCACGGCATCCAGGGGTGAACGTGGAGAGATATCTTTGCCATTA -AGACGGATTTCTCCGCCAGCGCGTTTATCCACGCCAAACAGACAATTCATCAGTTCAGTACGTCCGGAACCGACCAGTCC -GGCAAAGCCTAATATTTCTCCCCGGCAGACGCTAAATGAGATATCCCGGACCTTTTTTCTGTCACGACTGGTGACGTTCC -GCACCTCAAAAACCGTTTCGTGCGCAAGGTTGCTGACATTCTCCTTCATCGCGTTAAAACGGTTTTGCAGTTCGCGGCCT -ACCATCAGACGGACGATATCGTCATTTGACACATCGCTTACTATGCCGCTGCAAACGCTGCTGCCGTCTTTCATCACCGT -ATAGCGGTCGCAAATACGGCGAATTTCCGCCAACTTATGCGAGATATAGACGATGGCCGTACCCTCTTTACGCAACTGAT -TCATGATCAGAAACAGATAGTCCACCTCTTTATTGGTGAGTGAGGAGGTGGGTTCATCCATGATGATGACTTTGGCATCG -AGCATCAGCGTTTTGGCAATTTCTAGCATCTGCTTGTGGCTGATAGATAAATTCGCCACTTTCTCATCTAGATCAACTTT -CAAGCCCACGCGTAATAACATCATGGCGGCGCGGACACGCATTTCTCGCCAGTCGATAATATTGACGCCACAGATTTTTT -TCGTCAGATGACGACCAATATATAAATTTTCCAGTACGGTTAATTCATCAATAACGCTGAGTTCCTGATAAATAATCCCG -ATACCGAGTTGTGCCGCTAATTTATGATCCAGCTTGTTATAGCTAATGTTATTAATGGTAATGGTGCCTTTGGTCGGCTC -ATGTATTCCGGATAAAACTTTCATTAGCGTGGATTTACCCGCGCCATTTTCTCCTAGTAATGCATGTATTTCACCAGGAT -AAACCGTTAAATTAACCGACTTTAATGCGTGAACCGGACCAAAGGACTTGCCGATCCCCGCCATCGATATATATGGCGTG -GCCATAAATAACCTCTCTGCACGAAATATCGTATTATTGCCTGATGGCTACATTTATCAGGTCTACGTTCAGGTTATTTT -GTTGGCCGGATAAGACACTTCATTAGCATCATCATCCGGCATCATTCAGTTTTATTGAGTGACCAGGATTGAATCGACCA -GTTTAAATTCCGGTGCTTTATCCAGCGGGATAACCTTGCCGGATTTCTCAGCGTCAACCATCAGCTTCAGACCCGTTGCG -CCGATATCCGCCGGGTTCTGGGCAACCGTCGCGGTCATTTGTCCGGCTTCCACCATTTTGCGGGCTTCCGGAATGCCATC -TGTACCGACGACCAGCACTTTTCCCGTTTTTCCGGCGTTTGCGACTGCCTGAGCAACACCCATTGCCATCGTGTCATTCG -CGCAATAGATCGCTTTAATATTCGGATTACGTTGCAACACGTTAGTGGCGACATCCAGTGCTTTAATGCGGTCCCAGTCG -GCAGGCTGGCTGGCGACAAGCTTGATCTGGCTTGCTTTTTTGAAGGCTTCGGTGGCACCATTACGACGCGCTTCACCGGA -GGCGTTACCGGCTTTACCCTCAATGATTGCGACTTCACCACCTTCAGCGCCCAATTTGTCAATAATGAACGACGCGCCTT -TCGCCCCGACAGCAACGTTATCGGTGGTGACAAAAGCTTCCACATTGCCGCCAGCTTTTTTCAGATTATCCATGTCGATT -TTTTCATCGAGATTAACCAGATAAATGCCTTTTTTCCATGCGCGGGCGACAGGCATGACCAGATTCACTGAGGATAATGG -AGCGAAGGCGATACCTTTGTAATTTTTATTACTGAGATCTTCAAATAACTGCAATTGAGATTGAAAATCGCCTTCTGAAG -GAGAGGCAAAAATATCAACGCTGACGCCCAGTGTTTTTGCTTCATCTTCAATGCCTTTTTTCATATCTACCCAAAATGGG -TTGGAGAGGGTTTTCAATACGACAGCATATTCGGCGGCAGCAAAAGCGCTGGTTGACAACATTAAGCCCACGAGTGTGCC -GCTGAAATATTTCAGATATTTATTCATAATAATGTTCTCACGGTAAGGGGACAGGTAACTCCGCGATGGCGGAATTACCT -TTTTCTTATTTCAGCGCGCCTGGTGAGAAGAAATCAACAATTGCGCCGGTTTTTTGCATATTAATATTAGCTTGTTCAAT -GTTGAGCTGGGCGACAGAGACAAAAAAAGCGTCCAGCAAAGTTAGTTGTAATATTCTTGCCGAGGCATTACGACCTAATA -ACGGCGTTTCCGGGGCTGGTGAGCAAATAATATAATCGGCCAGTTTCGCTATCGGTGAATGGTAGCTATGGGTTATACAA -ATAATCTTTGCCCCGTTCTTTTTTGCCAGTTCTACGGCCGCTTTTACATCACTGGTTCGCCCGGAATGGGTCACTACCAG -CACAACATCTCCTTCCTGTAACAACGAAGCGGACATCATCATGATGTGAGCATCAGGATAGGCCTGACAGCGTACGCCAA -TGCGCAAGAACTTGTGCTGTACATCAGCACAGATAGCATTTGATCCTCCGGCACCGTACAAATCCCGCTGTCTGGCCTGA -TAGAAAAAGCGGGCGGCACGGTGGATCTCATCAACGTTGACGATCGACTGACCTTCCATAATGGTGCGTAAAGTGATGTT -AAATACCTTATTCACCACATCCTGCGGCGCTTCATCAAAAGCCAACTCGGAAGGCAATACCTGTTCTGACTGAGAAAAAT -AATCTTCCAGCGCACTGCGTAAGTTACGAAAGCCGCTAAACCCCAGCAGCTTTGATACCTTAACTATCATCGCTTCAGAT -ACCGCCAGAGCTTCTGCGACATCTTTAATTGCGGGTGCACAACTCAGGTTACCGGGTTTGAGTAACCACTCCACGATGCG -GCTTTCATTTTCTGTCATTCCTTCCTGCTTCATTCGCAGGTAAGGCGCTAACCCTATACCGTTCGGAAGCGCTGAATCAA -ACTCTGACTGGCTCATCACGTTCTCTTGTCCTTGAATTGAAGACGCCACTATATCACCACAGCAAGAACAGAAAAGATGC -TGGCGACTTCACAAAAAAATAAAATTTATAAAGTTTATTTTATTGTGAACAATGGCGAGTGGCTTAAAATTTTATTTCAT -TTAATTAGTTTAAAAACATGATGTTATTTGTTTTTCTGGTTTTTTAGATGATAGATGTTGCTGGATGGTGAGTGTCTTTA -ACGCTATTGCGCTGTCAGATGTAACTCTGTAAAACAGATCAGGAAGGCGTAATTCATCGATTTTGGGTGTTTTTAATTCA -TTAACATCACAAATGTTTTTTGATTGTGAAGTTTTGCACGGACGGGGAAGATGAATGAAAAAGATTGCATTTGGCTGTGA -TCATGTCGGTTTCATTTTAAAACATGAAATAGTGGCACATTTAGTTGAGCGTGGCGTTGAAGTGATTGATAAAGGAACCT -GGTCGTCAGAGCGTACTGATTATCCACATTACGCCAGTCAAGTCGCACTGGCTGTTGCTGGCGGAGAGGTTGATGGCGGG -ATTTTGATTTGTGGTACTGGCGTCGGTATTTCGATAGCGGCGAACAAGTTTGCCGGAATTCGCGCGGTCGTCTGTAGCGA -ACCTTATTCCGCGCAACTTTCGCGGCAGCATAACGACACCAACGTGCTGGCTTTTGGTTCACGAGTGGTTGGCCTCGAAC -TGGCAAAAATGATTGTGGATGCGTGGCTGGGCGCACAGTACGAAGGCGGTCGTCATCAACAACGCGTGGAGGCGATTACG -GCAATAGAGCAGCGGAGAAATTGAGATTCATCCACTACTTGCATGGATGAGTAATGATTAATGTGGATAGAGTTTCTTTT -TGAGGTTGGCTAATGAAACGCTTTCCGCTATTTCTTTTATTCACCCTGCTCACGCTGTCCACCGTTCCGGCCCAGGCCGA -TATTATCGACGACACCATTGGCAATATTCAGCAGGCGATTAATGACGCTTATAACCCTGACCGTGGGCGAGACTATGAAG -ATTCGCGCGACGACGGCTGGCAGCGTGAAGTGAGCGACGATCGGCGCAGACAATATGACGACCGCCGCCGCCAGTTTGAA -GATCGCCGCAGGCAGCTGGACGATCGCCAGCGCCAGCTTGATCAGGAGCGTCGGCAACTGGAGGATGAAGAGCGGAGAAT -GGAAGATGAGTATGGGCGATGAGGTTGGGTATGGAGCAGGCATCGCCCCTCACCCCAATGGGGAGAGGGAGAAAACGAGC -GCAATATTCAATATCGAGCACAATCGGTCCCCTCGCCCCTCTGGGGAGAGGGTTAGGGTGAGGGGGCCAGCGCGCACATT -CCCTCTCATCACGCCACCCCAATCTCCATCCCATCAAACCCCACCTCAAACCCTGACGGTAGTGCGTTTTCCATCAGCCA -CGCATCAAACTGGTGGCTGATATGGGTCAGAATCACCCGTGGCGAGCGGATAACCTGATTCAGCGCAAGCACGGTATTTA -AATCACAGTGATTACGCGGTGCATCCGCGCGCGGCGGGTGACTGCAATCCATCACCATTACCTGCGGCTGATTATTGCGT -AAAAATTTCAGCGTTTTTTCCGGCAAGCCTGCGGTGTCAGACAGCCACGCCACCCGGCTGTGTGCCGTTTCCAGCAGATA -ACCGAAGGTCAGTTTTGAGTGGTTGAGCGGCAGGGGCGTGACCTGTAACCCCTGCAAATCAAACACCACAAACGGTTCCA -CCGTGTGGCTGAAATCAAGCAGGCCCGGATGTTTAAACAGATCGTCGCAGCCCTGTTCATCCGGCGGGCCGTAAACCGGG -ATCGGATCGCCAACGCCCCAGCGCAGCGGAAACAGCCCCTGGACGTGATCCATATGATAATGCGTCAGCAAAAACTGCTG -GAACGATCCGGGCGACCAGCGATCGGCGAGATCGTGCAGCCCGGCGTCGATCAGGGTGATTGCGTCGTTAAACTTCACTA -CGCCGCTGCACGGTTGGCGGCGATACTGCGGCGAGCGCCGCGCTCTGGCGCAGGCCGCACACTCGCAGCCCCATGCCGGA -ACGCCCTGTGCGCCGCCGGTGCCGGTGAGCGTGAGGGTCAGGCTCATGTTACAGCGCCTTGGTGAAGCGGAAGTGGCTCT -GCTCGTAGCCTTCGCGCAGATAGAAACGGTGCGCGTCGTGGCGCTTCACGTTGGTCGAAAGTTCGGTCATTTCGGCCCCG -GCCTGGCGGGCTTCTTCTTCTGCCCACGCCAGTAACTTACTGCCGACGTTCAGACCGCGCGCCTGCGGCATTACCACCAA -CTCCTGAATTTCGCCGATCCAGTTGACATGATGCAGATGAAACTGCAAATGCAGGCCGATCATGCCGACAACTTCGCCAT -CAAGCAGCGCCAGATGGTAGCGCATGTTTGGGTCGCGCAGATTGGCGTTAAAACCCACGCGAAACGCGTGGTGGTCAAAC -TCCGCCTGTTTTAGCTCACAAATCAGCGCGTAAACCGCGTCGGTGTCGTACTGCGTGGCCGGGCGAAGCTCACAAGCAGG -CATGGTGTTTCTCCTTCTGATGGATCAGCGTCAGCAGCGTGTCGACCGACTGGCGCAGGCTGCCGTCATTGTTGAGCGTA -TGGCAATCCTGTGGAGTATAGCGGGCGGCGCGCGCCAGGCGGGCGTTAATTTCACTGGCGTTTTCACGGCCACGGTTTTC -CAGGCGCTGGCGGAGGATCTCCGGCGAAACCTGTAAACAGACGGGCAGCAGCGCCGATTGATAGCGCGCCCGCGCCTGCG -GCAGATGGGCGCGTGAGCCGTTGACCAGCACGTCGAATCCGGCGTGCAGCCAGAGATCAATCTCGACGCCGACGCCATAA -TACAGACCGTTAGCGTGCCAGCTTAAGGCCAACAGATTTTGCCCCGCGCGGGTAAAAAACTCCTGCTCGCTCAGGGCGAT -ATGGTTTTCACTTCCGGCGCTGGCATCGCGCGTGATGTAGCGATGCGCCACCAGTAACTGAGTTTGTTCCCGCAGGCGGA -GTTCCGCCAGCAGGCTGTCTTTCCCGGAGCCGGACGGCCCCATTAACCAAATCAGTTTTCCCATCATCAGAACACCCTTT -TACCCTGACGCCAGACGTGGTCGATATGAATATGATTGTCCTTGCGATGCGCCAGCACCAGGTCGGCGCGTTTGCCCTCG -CCAATCACCCCGCGATCCTGGAGATTAAGCGCCTGCGCTGGATTTTTAGTCACCAGCTTCACCGCCTGCGGCAGCGTAAA -GCGGTTGCTCTGGTCATCGGCGACGCGAAATGCCGCATCGAGCAGGCTGGCGGGGTAGTAGTCGGAAGAGAGGATATCCA -GCAGGCCAAGCTGCGCCAGTTCACTGGCCGCCACGTTGCCGGAGTGCGAGCCGCCGCGCACAATATTCGGCGCGCCCATC -AGCACGTTCATGCCATGCTTGCGCGAGGCTTCCGCCGCTTCGAACGTGGTGGGAAATTCGGCGATCACGCTGCCAAGCTG -GTGAGATTCAGCAACGTGGGCGTGGGTGGCGTCATCGTGGCTGGCAAGCGCAATTTTTCGCGCGCGGCACAGGGCGGCGA -TGGATTCGCGATTCGGCTGCGACCAGCGTGCGGCGAGCGCCAGTTGCTCTTCTTCGTACTGCTGCATCTGCGCATCAGTG -AGGGAGTATTTGCCCTGATAATATTCGCGATACTTCTCGCGGTTGGCGAACTGGCGCTGGCCCGGCGAGTGGTCCATCAG -CGACACCAGCGTCACCGGCTCGCGCTGCACCAGTTTTTCAAACAGCGGCAGCGTGGTGTGATGCGGCAGTTCGCAGCGCA -GATGCAGACGGTGCTCGGCGCGGTTGACGCCGCGTTTCTGCGTCTCTTCGATGGCGTTGATCATCTTCTCCAGATTCTCC -AGCCGATCGCCGCCGTCGCGCACGTCGCCAATTGCCACGGCATCCAGTACGGTGGTGATGCCGCTCGCCACCATCAGCGC -GTCGTGGCTGCTCATCGCCGAGTGGGCAGGCCAGTCAACTTTCGGGCGCGGGGTGAAGAATTTATCCAGATTATCGGTAT -GCAGCTCAATCAGCCCCGGCAGCAGCCAGCCGCCTTCGCCGTCCATCGCCTCCGGCAGGCGGCTCTGGCTTTCGGCAAAG -GCGCGGATTTCGCCGTTCTGCACCTCCAGCGAACCGCTTACCACCTCGTTTTCCAGCACCAGCTTAACGTTATTGATAAT -CATGAAGAGGCTCCCATTGGGTGCAGGCGGTCGGCGACGTCATTACGTACAGCTTCGTCATGGAAGATGCCTACGATGGC -TGCGCCACGGGTTTTGGCTTCGCGAATCAGTTCCACCACCGCGGCGCTGTTTTTGGCGTCCAGCGAGGCGGTAGGTTCGT -CAAGCAGCAGAATGGGGTAGTCGACGATAAAGCCGCGGGCGATGTTGACGCGCTGCTGTTCGCCACCGGAAAATGTCGAT -GGTGCCAGGTGCCACAGGCGTTCCGGCACGTTCAGGCGGGTGAGAAGACGCGCGGCTTTAGCGGCGCAGGCTTCACGCGG -AACGCCGGTATCGAGCAGCGGCTGCATCACCACTTCCAGTGCTGAGATACGCGGGATGACGCGCAGAAACTGGCTCACCC -AGCCGACGGTGGTTTTGCGGATTTCCACCACTTTGCGCGCTGGCGCGGTGACCAGGTCTACCCACTCGTCACCGTGTTTG -ATCTGGATTTGACCTTCGTCGGGCAGATAGTTGGCGTACAGCGAGCGTAGCAGAGTTGATTTGCCGCTGCCGGAATGGCC -GTGGAGCACCACGCATTCGCCCGCGTTGACGGTGAGCGAGGCGCGATTGAGGACGGGCAGGCGCACGCCGTTTTGCTGGT -GCAGGATGAAGGTTTTACTGACGTTTTGTACGTTAATCATTTTTCGCCTCGTGGTTCGGGTGTCGGATGCGACGCTGACG -CGTCTTATCCGACCTACGGGGAGCGCATTTGTAGGCCGGATAAGGCGTTTACGCCGCATCCGGCACCGGCTCAATTCTGC -AAAACCGATGACACCAGCAGCTGTGTATACGGATGATGCGGGTCGTCGAGCACGCGGTCGGTTAACCCACTCTCCACCAC -TTGCCCCTGCTTCATCACCAGCAAACGGTCCGCCAGCAGGCGGGCGACGCCTAAATCATGGGTGACAATCACCACCGCGA -GGTTCAGCTCCACCACCAGGCCGCGCAGCAGGTCGAGCAGGCGGGCCTGCACCGACACATCCAGCCCGCCGGTCGGTTCA -TCCATAAACACCAGCTTCGGATGCGTCACCAGGTTGCGGGCAATCTGCAAACGCTGCTGCATACCGCCGGAAAAGGTGGT -CGGCAGGTCGTCGATCCGGTTGGCGGGAATCTCCACCTCTTCCAGCCACTTCTGCGCGGTGGCACGAATATCGCCGTAAT -GACGTGCCCCGGTCGCCATCAGCCGCTCGCCGATATTGCCGCCTGCCGACACCTGGCGGCGCAGGCCGTCGAGTGGATGC -TGATGCACCACGCCCCATTCGGTACGCAGCAGGCGACGGCGGTCGGCCTCGCTCATTGCATACAGCGAACGGTTCTCGTA -GTGAATTTCCCCCTGCTGCGGCGTCAGGCGCGCGGAGATCGACTTCAGCAGCGTGGTCTTCCCGGAGCCGGATTCCCCGA -CAATGCCCAGCACTTCCCCCGGCCATAAATCAAAAGAGACATCGCTAAAGCCTTTGCCCGGCGCGTAAAGGTGGGTCAGG -TTATTGACCGAAAGTAACGGTTGATTCATTGGTTTTTTGCCTCGCTCTGTTGGCGGCAATAATCGGTATCGGAGCAGACA -AACATGCGGTTTCCGGCGTCATCCAGCACCACTTCATCAAGATAGCTGTGGGTCGATCCGCAGATGGCGCATGGCTCATC -CCACTGCTGAACGGTGAACGGGTGATCGTCGAAATCGAGACTTTCCACGCGGGTAAACGGCGGCACCGCATAGATGCGCT -TCTCGCGCCCCGCGCCGAACAGTTGCAGGGCGGGCATCATGTCCATTTTTGGGTTATCGAATTTCGGGATCGGCGACGGG -TCCATCACGTAGCGCCCATTTACCTTCACCGGATAGGCGTAGGTGGTGGCGATATGACCGAAGCGGGCGATATCTTCATA -CAGTTTCACCTGCATCACGCCGTACTCTTCCAGCGCGTGCATGGTGCGGGTTTCCGTTTCGCGCGGCTCGATAAAGCGCA -GCGGCTCGGGGATTGGCACCTGGAAGATAATTATCTGATCTTCGGTCAGCGGCGTTTCGGGGATGCGGTGACGCGTCTGG -ATAACCGTCGCATCGTCCGTACGTTCCGTGGTGTTTACCCCGGTCACGCGCTTGAAGAAGTTGCGAATCGACACGGCGTT -GGTGGTGTCATCCGCGCCCTGGTCAATCACCTTCAGCACGTCGCTTTCGCCAATCACGCTGGCGGTAAGCTGAATGCCGC -CGGTTCCCCAGCCGTACGGCATCGGCATCTCGCGCCCGCCAAACGGCACCTGATAACCGGGGATCGCCACCGCTTTTAAG -ATGGCGCGGCGGATCATGCGTTTGGTCTGCTCGTCGAGGTAGGCAAAGTTGTAGCCGCTCAGATTAGCCATGGTTCTGCT -CCTGTTGCAGACGTTTGAGTAGCTCCAGTTCGGCCTGGAAATCGACGTAGTGGGGGAGTTTGAGGTGTGAGACAAAGCCT -GCGGCTTCGACGTTGTCGGCATGTGCCAGCACGAACTCTTCATCCTGCGCCGGGCCTGTCGCGTGCTCGCCGTACTCCGG -GGCTTGCAGAGCGCGGTCGACCAGCGCCATCGCCATCGCTTTGCGCTCGCTCATGCCGAACACCAGCCCGTAGCCGCGCG -TGAAGTGCGGCGGCTCACCCGGCGGGTCGATAAAACCGTTAACCATTTCACACTCAGTCATCAGCAGTTCGCCGACGTTC -ACCGCAAATCCCAGCTCTTCCGGCACAATCGACACGTCGATATAGCCGCTGCGGATCTCGCCTGCGAACGGGTGATTGCG -CCCGTAACCGCGTTGGGTGGAGTAGGCCAGCGCCAGCAAATAGCCTTCGTCGCCGCGCATCAACTGCTGCAAACGGGAGG -AGCGTGAGCAGGGGTAAACCGGCGGCGTGCGGGTGATGTCATCCGGCTGTGCGCCGCTATCCTCTTCAAACTTCGCCAGC -CCCTGACGCGCCAGCAGGCTGAAAACGTGCGGCGACGGCTGCTGTTCGCTGTCGGCGGTGGTCAGCGTCGGCGCTTCGCC -GTTTGCCAGCAGGGTAAAATCGAGCAGGCGATGGGTGTAGTCGTAGGTTGGGCCAAGCAGCTGGCCGCCGGGAATGTCTT -TATAAACGGCGGAGATACGGCGTTCGAGACGCATCCCGGTGGTGTCGAGCGGCTCGCTTACCGCCAGCTTCGCCAACGTG -GTGCGGTAGGCGCGCAGCAGGAAAATCGCTTCAACGTTATCGCCGCTGGCCTGTTTCAGCGCCAGCGCCGCCAGTTCGCG -GTCGGCAATGCCGCCTTCGGTCATCACGCGATCTACCGCGAGGTTAAGCTGCTGTTCAATCTGGGCGACGCTCAGTTCGG -GCAAATCGGTATCGCCTCGGCGTCGGCTCTCTTGCAGGGCGTGGGCGGCGTCGATCGCCTTCTCGCCCCCTTTCACGGCA -ACGTACATCAGCACACCTCCACATGAGTGGTTCGCGGAATAGCCAGCAGGCGCTCGCCACAGGTCAGGATCAGGTCGATG -CCGAGCGGGAACGGATGCGGGCGCTCGGTGAGTTCGTGCAGAATGCACTCCGGCAGCTGCGGAGCGATCATTCGTTCTTC -GGCAATACCCGCACCAGTAAGGCGCAACATGCGTCCGCCGCTCAGGCTGGCGACCTGTAAAATCAGCGTCGCACCCGCTT -CCGGCGCAACGGCGGTGCCGGTGGAAAGGGCGTTGAGCTGTTCGCTGGAAATCGCCTCATCCGTCACCGCGAAGGTCGCC -TGTTCCGGCTGGCTGACCAGCGGCGCGTTGGTATGAAAACGCAGGCTCTGGTTGACGATATCGTTATTTAATGGGGTAGA -AAGCCACACCGGCGTGTCGTTATCGGCCAGCGTCAGCAGCACGCTGGTGGTGGCGATATTCAGCGGTTGCCAGCCGCGTT -TGAGCTGATGCAGGGCGACAATCACGCCCGGCTCGCTCATGGCCTTTAACAGGCGACGAAAACTGTGCTGGGCATCCTGC -ACGGGAAGCATAAAAGCGGTTTCCAGGGTCATGCGTTGTCTCCGCGAACCATCGTAAAGAAGTCGACCCGGCTGGCGTTC -ACTTCGGCCTGGCGTGCGGCAATGCGTGCCATACGGTCAGCGTCCAGCGGGGCAATAAGGGTTTCTGATAAGTTTTGAAA -GTGGCGAGATTGCTGCATCAGCGCGTCAATCAGCGCGCAGCGTTCGGCGTGCTGTTTATCACGCCCCTGCACCCAGCTGT -AGCCGAGCGTGCCGTCAGTCAGGCGCACGGCGGCGCGGGTCAGCGTGGCGTCGCCGGCAAAAAAACGTTCGCCGGTGCCG -CCCATCCGCGCCTGAATCTGTACCAGGCCAGTTTCAGCGGCGCGGATCACCTCATAGTCGGCGGTGATGTTTAGCGCGTT -CAGGCGTGCTGCCAGTTCAGCCGGTTGGCTGTGCGCCAGCACGGACATCCAGTGCTGGCGGGTCGCGGTATCTGCGTGCA -TTCAGTGCTCCATAGTGAATTCAATCATGTCGGCGCGCGTCAGGCTGACGGAGTACTCCGCCGGGCTGCTTTCACCGTCA -CGGTGGTTAAGGGTGCGCACGCACAGCAGCGGCGACATATTCGGGATTTCAAGACGCTGGCACTCTTTGGCCTGGGCGCG -GCGGGCGCTGATCCGCGTCTGGCTGCGGCGCAGCGCAATTCCGGTTTGCTCGCGCAGAAAATCGTGCAGCGAGCCGCTGT -CGAAGCGTTGCAGCGTCGGCCAGAGGGTGAGGTCCGCGAAGTAGTGGTCGATTAAACAGAGCGCGACGCCGTTGACACGA -CGCAGGGTGCGCAGGTGGATGACGTTCTCCCCCTCGGTAATCCCCAGTGCGTCAGCGACGTGGCCGGACGCGGGGCGCAA -TACCGAAAGCAGTTTTTCGCTGGTGGGATGGCTGCCCTGATCCAGCAGATTCTGGCTAAAACGCGCCTGGGCGTTGAGCG -GGTAATCGAACGGGCGCATCAGCACCAGCACGCCGACGCCCTGACGGCGCTGTACCCAGCCTTTTTCCACCAGTTGGTCG -ATGGCGCGGCGCAGGGTGTGGCGATTCACCTCAAAGCGCGCTGCCAGTTGCTGCTCGGCGGGAAGATAGTCGCCGCAGCG -GTAGTGTTGACGAAGCTCCTGCTCAAGTTTTGCGGCTATCTCTTGATAGCGTGTTGGGTAGCTGGTCGGATGTGTAGACA -AGTGCATAGATATCAATGCCTCGCTTATCAGATAAAGTGCTTACGCAACCGTTGAGAGAGGAAATCCAGCAGGCTGACCG -TGACGATGATAAGCACCATCAGGGCGCAGGTTTGTTGGAACTGGAAACCGCGAATCGCTTCCCACAGGGTGACGCCGATC -CCGCCTGCGCCGACCATGCCGACGACGGTCGCCGAGCGGACGTTGGATTCGAAGCGATAGAGGGAGTAGGAGATCAGCAG -TGGCATCACCTGTGGCAGCACGCCGTAGAGGATCTCTTCGAGCTTGTTGGCACCGGTGGCGCGAATGCCTTCCACCGGGC -CGGGCTCAATCGCTTCCACCGCTTCGGAAAGCAGCTTGGAGAGCACGCCGGTGGTGTGGATAAACAGCGCCAGCACGCCA -GCACGCCAGCGAACGGGCCGAGGCCGACGGCGACCACGAACAGCATGGCGAAGACCATTTCGTTAATGGCGCGGCAGGCG -TCCATCAGGCGGCGAACGGGCTGGTAAACCCACCACGGCACCAGGTTTTCGGCGCTCATCAGGCCAAAGGGGATGGAGAG -AACCACCGCCAGCGCGGTGCCCCAGACGGCGATTTGCAGCGTGACGGCCATTTCGGTGAGGTAATCCTGCCACTGGCTGA -AATCGGGCGGGAAGAAGTCGGCGGCGAACGTCGCCATGTTGCCGCCGTCTTTGATCAGCGTAAGCGGGGCCATTTCCGCG -CCCTGCCACGAGACGACCAACACGGCGAGTACAACGGCCCAGCTCAGAAGCGAGAACCAGCTGCGCTTGGGTGGGGCGAT -GGTGATGGTTTGCATGTTTGGCTCCGGTCTGTAGGCCGGATAAGGTGCTTGCACCGCATCCGGCATCAACGCCTGCACAT -TGTCGGATGCGACGCCGGGGCGTCTTATCCGACCTACGATTTACTGCACCGCTTTACTCACCGAACTCATCGCGCTTAGC -GCGTTGTTCAGGCGGTCCAGGTCATCCAGCTGCGCCTGAATCTCGGTGGTTTTTGCCAGCTTGTCCTGCTCATTCAGTCC -TTTATTGCTTTTCACGCCCTGCATCTCTTTAAACAGCGCGAGCTGGCGAATCGGCACCAGTTGCAGGTCGCTGGAAGCGC -GGAATGGCGCCCAGCCCAGGCGTTCCAGCACCGCTTTTTCTTCCGGCGTTTTGCCGTAGTTCATAAAGAAGTCGTAGATC -TTGTCTTTGGTGGTTTCGGAAAGATTCTTGCGCCAGACGATCGGATCGCCTGGGATCAGCGGCGACTTCCAGATCACCTT -CAGTTCTTTCAGCTTCTCTGGCGCGGAGGTTTTCAGCTTGTCGAGGTTTTCGGTGTTGTTGGTGGCAACATCCACCTGCT -TGTTGGCGACGGCCAGCGCGTTGGTTTCATGCCCGGCGTTGACGGTGCGCTTGAAGTCGCTGGCGGAGATATTGTTTTTG -GCGAAGACGTAGTAGCCGGGGACGAGGAAGCCAGAGGTGGAGTTAGGATCGCCATTGCCAAAGGTGAGATCTTTCCGCTT -CGCCAGCAGATCGTTCAGGTTGTTGATCGGACTGTCTTTGTTGACGATCAACACGCTCCAGTAACCCGGCGATCCATCCG -CCGCGACCGTCTGGGCGAAGACCTGGCCATTGGCGCGATCCACCGCTTCCATCGCCGACAGATTGCCGTACCAGGCGATA -TCCACTTTATTGAAGCGCATCCCCTGGATAATGCCCGCGTAGTCCGGGGCAAAGAAGGCGTTGACCTTCACGCCCAGCTT -CTTCTCCATATCCTGCAAGAACGGCGTCCATTGCGGTTTCAGGTTTTGCTGTGATTCCGTTGAAATAATGCCGAAATTCA -ACGCCTTTTCCTGCTCTTCGGCGTGCGCCGGGCTTAACAGGGTGCTGAGGCTGAACATGCTGGTGAAGGCCAGCGAGGCA -ATTATCTTAGCGTTCATTCGTTTTCCTCAATGATGGGGATGTCAGGCAGCTTTCGCGTTCTCTTCGACGCGGTTAATGCT -GCGGTAGAGATGGTCAAAACGTTCGTTATCAAACTGTTGGCTGCTGCCGTCGTAGAAGACGTGCCCCTGGCGCAGGGCGA -CGATGCGTTCGCAGTAGCGCAGGGCGTAATCCACCTGATGCAGCGTGACGACCACGGTGATGCCGTCGTTCTGGTTGATG -TCGCGCAGGGTGTCCATCACGATGCGCGCTGATTCTGGGTCCAGCGAGGCGATGGGTTCATCGGCCAGAATCACTTTCGC -CTGCTGCATCAGCGCACGGGCAATCGCCACACGTTGCTGCTGGCCGCCGGAGAGGGTGGAAACGCGCTGATGGGCAAAAT -GCACCATGCCAACGCGGGTCAGCGCCTGTAACGCGCGCTGTTTCTGCTCGCCGGTGAACCAGCTAAAACAGGTGCGCCAG -AACGGCGTGCTGCCGAGCGCGCCAATCAGCACGTTCTCCAGTACGCTCAGGCGGTTCACCAGGTTGAATTGTTGGAATAT -GTAGCCGGTATGGGCGCGGCTTTTGCGGATATCGCGGGCCAGGCGGCCTTCGCGCTGGACTGTGCGGCCCAGCAGCTCGA -TATGGCTACCGACAGATTTATCGCCGGTAATCAAACCGCTTAAGTGACGTAAAAGGGTGGATTTTCCGGAACCCGACGGC -CCAAGCAGAGCCACCATTTCACCGTGATGAATGTTCAGATCAACCGCATGCAGCGCCTGATGCTGATTGAAGGTTTTGGC -GAGCTTCTCGACACGGATAATCGTTTGCATGATGCAGCCTCCCTAAAAAAGTGGCTCCATCGTGGCGGATTATTGTGACG -ATTTGGTTAATTAAAAGTGACTAACAGATGAAGAGTTAACGGGAATTCGATGACAGTGCGGGAGGGCGGGCCTCCCGGCG -GGTTATTGCGTTGGTTGTTGTTTGACGACATTAATCATCCACGGTACGCCAAATTTATCGGTGACTTTGCCAAAGCCATG -CGCCCAGAAAGTTTCCTGCCAGGCCATTTCGATTTTTCCGTTAGCGGCAAGATTGTCAAACCAGCGTTTTCCTTCTTCGA -CCTGTTGCGAATCGAGCACCAGCGTAAAGCCGGAGTAGCTGGCTTTTCCTGACGGCATGGCATCGCTCATCATGATGTCG -CTTCCGGCAATGCGCACATTGGCGTGGGCGATGGCGGTATCGGGAAATTGCATTCCGGAAGGGCAGTTCTCGGCGCTGTC -CTGCGCTGATTTTGGCATTTCGCCGAAGCTGATTTTATAGAGCAGTTCCGCGCCCAACGTACGTTGATAATAGGCAATCG -CGTCGGAACAGTTACCGGCAAAAGAGAGGTAGGGACTTAACGGCATGATGGTGACCTCAGTTAAGAGAAGCCAGTTAAGT -GTAGTTCGAAATTTATACAGATGAGAGGCGGCCTGATAAGACGCGCGAGCGTCGCATCAGGCAGTCGGCACTGTTGCCGG -ATGCGGCGTAAACGCCTTATCCGGCCTACGGAGGGTGCGGGAATTTGTAGGCCTGATAAGACGCGCAAGCGTCGCATCAG -GCAGTCGGCACCATTGCCGGATGCGGCGTAAACGCCTTATCCGGCCTACGGAGGGTGCGGGAATTTGTAGGCCTGATAAG -ACGCGCAAGCGTCGCATCAGGCAGTCGGCACCGTTGCCGGATGCGGCGTAAACGCCTTATCCGGCCTACGGATGGTGCGG -GAATTTGTAGGCCTGATAAGACGCGCAAGCGTCGCATCAGGCAGTTGGCACTGTTGCCGGATGCGGCGTAAACGCCTTAT -CCGGCCTACGGAGGGTGCGGGAATTTGTAGGCCTGATAAGACGCGCAAGCGTCGCATCAGGCAGTCGGCACCGTTGCCGG -ATGCGGCGTAAACGCCTTATCCGGCCTACGGAGGGTGCGGGAATTTGTAGGCCTGATAAGACGCGCAAGCGTCGCATCAG -GCATCTGGCACCGTTGCCGGATGCGGCGCGAGCGCCTTATCCGGCTTACCGATCACAATACAATCAGTTCTTTTTCACAA -ACTCAGATTTCAGTTTCATCGGACCAAAACCGTCGATTTTGCAATCGATGTTATGGTCGCCTTCAACCAGGCGGATGTTT -TTCACTTTGGTGCCAATTTTCAGCATCGAAGAGCTACCTTTCACCTTCAGATCTTTAATGATGGTAACGCTGTCGCCGTC -AGCCAGCAGATTGCCGTTAGCATCTTTAACGATCAGCTCGTCGCTTTCCTGTGCAGGTTCTGCGTCGTTCCATTCGTAGG -CACATTCCGGGCAGATGTACATGCCGTTATCTTCGTAGGTGTATTCGGAGTTGCATTTTGGGCAGTGTGGTAATGACATG -TGGATTTCCTCAAAAGTCAGCAGGGCAAAAGCGCCAAAAAACGGCAGATTGCCGAAAAAGGCCGCAATTATACACAAAAT -CCCTGAGTTTGTCGGGGGTACTGCTGATTTTAGACGACGATCGTTTTCATTTGAAAGGAAACGCAAAAAGAAAATAATCT -TTTTGCCTCTATTTATTATTTAAGATAATGTTAATGCTCTACTTGTTCTTTTTTTAATTCACATGATATTTTTATCTTTC -TGACGTTTTAAACGTATCAGAAGACGTTATTTATTCTGATAAAAAACAACACACTAAATATAAAATTATTTCTTGCAGTA -ATTATAAAAGCCGAAAACAGAACTCAAAAACAATCTGGCTAAATAAAATAACAAAATTTGCTTTAAGGAAGAATTTTCTA -TGTACACACAGACCCTGTATGAGTTAAGTCAGGAGGCTGAACGCCTGTTACAGCTTTCTCGCCAACAGTTGCAGTTACTG -GAAAAAATGCCTCTCTCTGTACCCGGAGACGACGCGCCACAACTGGCTTTACCCTGGAGTCAGCCTAATATCGCCGAACG -TCACGCGATGCTGAATAATGAGTTGCGTAAAATTTCCCGACTGGAAATGGTGCTTGCAATTGTCGGTACCATGAAAGCAG -GGAAATCAACCACCATTAATGCCATTGTTGGTACGGAGGTTCTGCCTAATCGTAATCGCCCAATGACTGCGCTGCCGACG -CTTATTCGCCATACGCCCGGGCAAAAGGAACCGGTACTGCATTTTTCACATGTCGCGCCAATCGATTGTTTAATTCAACA -ATTACAACAGCGCCTGCGTGATTGCGATATTAAGCATCTGACCGATGTGCTGGAAATAGATAAAGATATGCGTGCGCTTA -TGCAGCGGATCGAAAATGGCGTCGCTTTCGAAAAATATTATCTGGGTGCCCAGCCTATTTTTCATTGTCTGAAAAGTTTG -AATGATTTAGTGCGACTGGCGAAGGCGCTGGACGTCGATTTTCCTTTTTCTGCTTACGCCGCCATTGAGCATATTCCCGT -GATTGAAGTGGAGTTTGTCCATCTAGCGGGGCTGGAGAGTTATCCCGGTCAGTTGACGTTACTGGATACCCCCGGGCCAA -ATGAAGCCGGGCAACCGCATCTGCAAAAAATGCTTAACCAGCAGCTGGCACGCGCCTCGGCGGTACTGGCGGTGCTGGAT -TATACGCAACTGAAATCGATCTCCGATGAAGAGGTCCGTGAGGCGATTTTGGCGGTGGGGCAATCGGTGCCGCTGTACGT -GCTGGTCAATAAGTTCGATCAACAGGATCGTAACAGTGACGACGCCGACCAGGTGCGGGCACTGATTTCCGGGACGCTGA -TGAAAGGCTGTATTACGCCACAGCAGATATTTCCGGTGTCGTCGATGTGGGGCTACCTGGCGAATCGGGCGCGCTATGAG -TTAGCCAACAACGGTAAGTTACCACCGCCAGAGCAACAACGCTGGGTGGAAGATTTTGCCCATGCCGCGCTTGGCAGGCG -CTGGCGTCATGCCGATCTGGCGGACCTCGAACATATTCGTCATGCTGCCGATCAGTTGTGGGAAGATTCGCTGTTCGCCC -AGCCAATTCAGGCGTTGCTTCATGCCGCTTACGCTAACGCCTCGTTGTATGCTCTGCGATCTGCCGCGCATAAACTGTTG -AATTACGCGCAGCAGGCGCGGGAATACCTGGATTTTCGTGCGCACGGGTTAAACGTCGCTTGTGAACAATTGCGGCAAAA -TATCCACCAGATCGAAGAAAGTTTGCAGCTATTGCAACTCAATCAGGCGCAGGTGAGCGGCGAGATTAAACATGAAATCG -AGCTGGCCCTGACCTCCGCCAACCACTTTCTGCGTCAACAGCAAGATGCGCTGAAGGTGCAGTTAGCCGCCTTGTTTCAG -GATGATTCGGAGCCGTTAAGCGAGATTCGTACCCGCTGTGAGACACTGTTACAGACGGCGCAGAACACCATCAGTCGCGA -CTTTACGCTGCGTTTTGCCGAGCTTGAATCCACCCTTTGCCGGGTGTTAACCGATGTTATTCGCCCCATTGAGCAACAAG -TCAAAATGGAATTGAGCGAGTCAGGGTTTCGTCCTGGGTTTCATTTTCCTGTTTTTCACGGCGTAGTTCCCCACTTCAAC -ACTCGCCAGCTGTTCAGTGAAGTCATTTCGCGCCAGGAAGCAACGGACGAGCAGAGCACGCGTTTAGGCGTTGTGCGTGA -GACTTTTTCGCGCTGGTTGAATCAGCCCGACTGGGGACGGGGAAATGAGAAATCACCGACAGAAACGGTTGATTACAGTG -TGTTGCAACGAGCATTAAGCGCAGAAGTCGATCTCTATTGCCAACAAATGGCTAAAGTTCTGGCAGAGCAGGTCGATGAA -TCTGTTACGGCAGGCATGAATACTTTTTTCGCTGAGTTCGCTTCATGTTTGACGGAATTACAGACGCGTTTACGCGAAAG -TCTGGCTCTGCGTCAACAAAATGAATCGGTGGTCAGGCTGATGCAGCAGCAATTGCAGCAGACTGTGATGACTCACGGCT -GGATTTACACCGACGCCCAGCTGTTACGCGATGATATTCAAACACTTTTCACGGCAGAACGATATTGACCAAGACGTTAC -TTGACGGCCCCGGTCGCGTGCTGGAGTCGGTTTATCCCCGCTTTTTAGTGGATCTGGCGCAGGGTGATGATGCCCGCCTT -CCACAAGCCCATCAGCAGCAGTTTCGTGAACGACTGATGCAGGAACTTCTTTCGCGTGTGCAGCTTCAGACATGGACGAA -CGGCGGCATGTTAAATGCGCCGCTTAGCCTGCGTCTGACATTGGTGGAAAAACTGGCGTCGATGCTGGATCCCGGTCATC -TGGCACTGACGCAGATCGCGCAGCATCTGGCGCTGCTGCAAAAAATGGATCACCGCCAGCACTCTGCTTTCCCGGAGCTC -CCCCAGCAAATTGCCGCCTTGTATGAGTGGTTTTCAGCCCGTTGTCGCTGGAAGGAAAAGGCGTTAACGCAACGAGGCCT -ACTGGTGCAGGCAGGTGATCAGAGCGAGCAAATTTTTACCCGCTGGCGTGCTGGGGCGTATAACGCCTGGTCGTTGCCTG -GGCGCTGTTTTATCGTTCTGGAGGAGTTGCGCTGGGGGGCATTTGGCGATGCCTGCCGTCTGGGAAGCCCGCAAGCGGTG -GCGTTGTTGCTGGGTGATTTGCTCGAGAAAGCGACACAACATCTGGCAGAGAGTATCAATGCGGCACCGACCACGCGTCA -CTATTACCATCAGTGGTTTGCCTCTTCGACCGTTCCGACGGGCGGGGAGCATGCTGATTTTTTAAGTTGGCTGGGAAAGT -GGACCACGGCAGATAAACAACCCGTTTGCTGGTCAGTGACCCAACGCTGGCAAACTGTCGCGCTGGGGATGCCACGACTC -TGTTCAGCGCAGCGTCTGGCGGGGGCAATGCTCGAGGAAATCTTCTCTGTAAATTTGGCGTAAATAATCAGTTACATCAA -TGAGTCCTAAACGAAATCCATGTGTGAAGTTGATCACAAATTTAAACACTGGTAGGGTAAAAAGGTCATTAACTGCCCAA -TTCAGGCGTCAACTGGTTTGATTGTACATTCCTTAACCGGAGGGTGTAAGCAAACCCGCTACGCTTGTTACAGAGATTGC -ATCCTGCAATTCCCGCTCCCCTTTTGCGGCCGTCGCGCTGATTTTTCTGGCGTTTGCGGAAATGGGCCAACTCTGCGAGG -AAAGCTATGCTGAAAAGGAAAAAAGTAAAACCGATTACCCTTCGTGATGTCACCATTATTGATGACGGTAAACTGCGTAA -AGCCATTACCGCAGCATCACTGGGTAATGCAATGGAATGGTTCGATTTTGGTGTTTATGGTTTTGTTGCTTACGCATTAG -GTAAAGTTTTTTTCCCGGGGGCTGACCCCAGCGTGCAGATGGTTGCTGCACTTGCCACTTTCTCCGTTCCCTTTCTGATT -CGACCGCTTGGCGGACTCTTCTTTGGTATGTTGGGCGATAAATATGGTCGCCAGAAGATCCTCGCTATCACTATTGTGAT -TATGTCGATCAGTACGTTCTGTATTGGCTTAATACCGTCCTACGACACGATTGGTATTTGGGCACCGATTCTGCTGTTGA -TCTGTAAGATGGCACAAGGTTTCTCGGTCGGCGGTGAATATACCGGGGCGTCGATATTTGTTGCGGAATACTCCCCTGAC -CGTAAACGTGGCTTTATGGGCAGCTGGCTGGACTTCGGTTCTATTGCCGGGTTTGTGCTGGGTGCGGGCGTGGTGGTGTT -AATTTCGACCATTGTCGGCGAAGCGAACTTCCTCGATTGGGGCTGGCGTATTCCGTTCTTTATCGCTCTGCCGTTAGGGA -TTATCGGGCTTTACCTGCGCCATGCGCTGGAAGAGACTCCGGCGTTCCAGCAGCATGTCGATAAACTGGAACAGGGCGAC -CGTGAAGGTTTGCAGGATGGCCCGAAAGTCTCGTTTAAAGAGATTGCCACTAAATACTGGCGCAGCCTGTTGACATGTAT -TGGTCTGGTAATTGCCACCAACGTGACTTACTACATGTTGCTGACCTATATGCCGAGTTATTTGTCGCATAACCTGCATT -ACTCCGAAGACCACGGGGTGCTGATTATTATCGCCATTATGATCGGTATGCTGTTTGTCCAGCCGGTGATGGGCTTGCTG -AGTGACCGTTTTGGCCGTCGTCCGTTTGTGCTACTTGGTAGTGTTGCCCTGTTTGTGTTGGCGATCCCGGCGTTTATTCT -GATTAACAGTAACGTCATCGGCCTGATTTTTGCCGGGTTACTGATGCTGGCGGTGATCCTTAACTGCTTTACGGGCGTTA -TGGCTTCTACCTTGCCAGCGATGTTCCCGACGCATATCCGTTACAGCGCGCTGGCGGCGGCATTTAATATTTCGGTGCTG -GTTGCCGGTCTGACGCCAACGCTGGCGGCCTGGCTGGTCGAAAGCTCGCAGAATCTGATGATGCCTGCCTATTACCTGAT -GGTAGTGGCGGTGGTTGGTTTAATCACCGGCGTAACCATGAAAGAGACGGCAAATCGTCCGTTGAAAGGTGCGACACCGG -CGGCGTCAGATATACAGGAAGCGAAGGAAATTCTCGTCGAGCATTACGATAATATCGAGCAGAAAATCGATGATATTGAC -CACGAGATTGCCGATTTGCAGGCGAAACGTACCCGCCTGGTGCAGCAACATCCGCGAATTGATGAATAAGCTGAAACGGA -TGGCCTGATGTGACGCTGTCTTATCAGGCCAATTGAACTCTTAAGGTTCACTTAATCTCTGACGCGCATACTCTCCTCCA -GGTTAACGGAGGAGAGTGCAATGAAAAACCGTGTTTATGAAAGTTTAACTACCGTGTTCAGCGTGCTGGTGGTCAGCAGC -TTTCTTTATATCTGGTTTGCCACGTACTGATCTTTCTTCAGCCGTACCCAGGCCCGCGTGCCGGAAGTCTCTTGCCGGTT -TTGCAGGAAAAACTGCCCGTGATGCAACTGTGTAATGCGGCTGACAATACTTAACCCCAGACCAATCCCGCCATAACGGC -TGTCCATACGTACAAACGCTTTACTCAACTCCCCGCATTTACTCTCATCAATACCTGGTCCTTCATCTTCAACTGCCATG -ACCGCTCCGTCATCTTCTTGCAGCTTAATCATAATGTTGCTGCCTTGCGGGCTGTAACGATGGGCGTTTTCTACCAGGTT -TCGCAATAACATCCGCAGCAGGGTTGCATCACCCTGAACGGTGATGTCGGCGGCGCTCTCTGGCAATAGCAGGGTTTGCT -GTCGCTGGTCGAGCATGGTACTGAGTTCGTCATACGAGGGGAGAATGACATCTTCCAGCAGTTTTACATGTTGATAATTA -CCGGAAGAAAATGACTGTCCGGCACGCGCCAGTTGCAGCAGCTGGGAGACGCTCTCCATCATCTGATCAAGCCGTGCCAC -TAACGGTGCTACATCAATGTGATGCGTTTTCGCCAGCAGTTCCAGATGCAAACGCACCCCCGCCAGTGGCGTTCGCAGTT -CGTGCGCGACGTCAGCGGTAAACAACCTTTCGTTATCCAGCGTGCTGGTCAGGCGACTGACCAGATCGTTTAACGCCGAA -ACCACCGCTTCGATTTCGAGGGTGGCGCTGTGAATGGCAATGGGCGTTAAGTTGTCGGCGGTGCGCGCTTCCAGCTCTTT -TTGCAGCTCCGCCAGCGGGCGGGTGATGCGGCGTACCGCCTGATAGCAGATAAATAGCGTCAGGCTGACCATAAAGACGC -CGGGGACAATCAGGCTGGCGACCGCCTCGCGGATCTCACGCATGATGTGGCGATCGTTGTTGCGATTGTCGCGTAGCGCC -TGCTCAAACAGCTGAATCTGCTCGGTACTTTCATGCCATAGCCAGAAGACGCTGATCAGCTCAAACACCAACAAAATGGC -CCCGATGGTCAATATCAGCCGTTGGCGCAGCGATATTGGTCGGCGCAGAAAATGCATCAGATTCAATTAGTTTTCCTCAT -TCGCGACCAGCATATAGCCAAAGCCGCGCACGGTGCGGATACGGGCTTTGCCCACTTTGTCGCGCAGATTGTGGATATGC -ACTTCCAGGGTGTTGGTCGAGGGTTCATTGTCCCAGTTATAGATGTCGTTGTAGAGAATTTCCCGATGCACCGGACTGCC -TGCTTTGAGCATTAACCGTGACAGCAGAGCATATTCTTTGGGCGTCAGAATCAACTCTTCACCGCCCATCCATACCTGAC -GGCGACCCATGTTCAGCGTCAGATTGCCAACAATCAGCTCACTTTCGCCCTGATTATTATGGCGTCGTAGCAGGGCGCGG -ATACGGGCATGTAACTCTTCCAGCGCAAAAGGCTTCACCAGATAGTCGTCGGCACCGACATCCAGCCCGGCGATTTTGTC -GGTCAGCGTATCGCGAGCGGTGAGGATCAGTACCGGCAGGGTATATTTTTTCTGCCGGATACGGGCGAGAAAATGCAGTC -CATCTTCGTCGGGTAACCCTAAATCCAGTACCACCAGGCTGTAATGACCTGCCTCAAGGCTTTGTTCCGCCATCCGCGCG -GTTGTCACGCTATCGCACGCGTAGCCTTCGGTTTGCGCCGCCAGAATCAGTCCCTGCAATAACAGCGTATCGTCTTCAAC -AATCAGAATTTTCATTCACTCACTCTCCTGCAAGTTTGCAGAATATCATCCGCAGCCTGGTAATACTTCGTCTCAACGCC -AGTTAATCCCAATAGCGTGGAGAATAAATTGTCTTGTGAATAGTGTTGCGTTTGCGCCTGTTTTTGCAGGCAGTTCTGGT -CAACCTGATACCGTTTTTGATAATCCTCCGACAGCCACAGCAGCATCGGCACCTGTTTTTGGCTATCCGGGGCGATGGCA -TAAGGCAGACCGTGCAGATAGATGCCATTTTCACCTAACGATTCACCGTGGTCAGAAAGATAAACCAGGCTGGTGGTAAA -TTTATCCTGATGTTCTTTCAGCAGATTAATCGCTTTATCAACAATATAGTCGACGTAAACCAGCGTGTTGTCGTAAGTGT -TCACCAGTTGCTCTTTGGTACAGGTCTGGATCTCATTGGTGTCGCAGGTTGGGGTAAATTTCCTGAACTGAGGCGGATAG -CGGTTGTAATAGGTCGGACCGTGGCTGCCGATGGTGTGTAAGACAATCACGCCATCACCTTGCAGGTTATTGATGTACTC -TTCAAGCCCGTGGAACAGCACTTCGTCATAGCATTCGCCGTTGATGCACTGATCAGGTAGATTCAGCGCGGTGACGTTCT -GGTGAGGCACGCGGTCGCAGGCACCTTTACAGCCGCCATCGTTGTCATTCCACAGCACGTTGATGCCCGCTCGCTGAATG -ATATCCAGCACGCCTTCCTGGTGCTGTGCCAGCTCTTCTTTGTAGTGCTCACGCGGCATATCCGAGAACATGCACGGTAC -TGAAACTGCCGTTGCCGTGCCGCAAGATGCGGTATTAGGGAAATAGACCACGTTATCTTTCGCCAGCCGCGGGTTAGTTT -CACGCGGGTAGCCGTTGAGGGAGAAGTTCTCCGCCCGCGAGGTTTCGCCGACAATCAGGATGGTCAAATTTTTACGTTTT -TCGTTCTGCATTAACGGGTTGCGGTGCGCGTCTTCACCAATTCGCACCAGCGGCAGATTTGCCAGTCGCTGATGGGAGTA -CCATGACCAGCTGGCAACAATGCTGTTAGAGGGGCTTAAGGATTTCACCAGCTCTTTGTTATTGCGGAACAACGAGGCGT -AGTCTTTATAAAACAGTGCGGCGACCAGCAAAATCAGTAGTACAGAAACCAGAATATTGGCTCCACGGAAAAGAACACTG -CGCAGACGCGAGGTGGCAGGTTTGATTTTTATCCAGCAGGCAATCAGCGCAGCAAGCACGCCGCTGAATCCCAGCGTTAA -TAACATTTGCGGTGTCATCAGCGCATAACTTTCTGCCGGAGTGGTATCAATAATATTGGCAATCATCGAGCGGTCGATGA -CGATGCCGTAAGTCATTATGAAATATTGTGCAGCCGCGCCAACCAGAATAAACAGGCAGGCCAGTGGTCGATTAAGCCAT -AAGAAAGAGCTTAGTGTCAGGACAATATTAATCACGCTGAAAGCGACGACCGGCATCGACAAGAAAACCAGTACGTTATG -CAGCGAATCCAGCGGCAGCGCCTGCAACACCTGTTTAAAAAAGGCAATATTCAGGCAGATAGAGATATAAAAAGCGGCCA -ACAATAGCCAGGCGAGTAAATTCAAAGAGGGTCTTTTTAGTAGGCGCTTCAACATCACGGTGTTTCCATCGAACAAAGTG -CGCATATGCTCGCAAAGCAAAATTAAGCCAACCTTAAGTTCTTAAGGTTGGCTTTTATGTTTGCTGGATTAAGGGGAATT -AATCTTTGCTTATTGGTGCATCTAAGGGATACGGGTTTTTATGTAGCCGGTTGTAATTCAGCGCATACATGGCGGTGATG -ACCATCAGGGTGACAAATGACCACATAACCTCTTTCGCTCCGGACCCCACCACGGCCCAGATGCAGTAGAGGAAGGCAAT -GGTAGTAACTGCCAGATATGCCGGGCGTGCTTTACCAAAGTGACCGTGTCCGAGCAGCAGTAACGCCGCACAGGTGTAAA -GATATGGCACCAGTGTAAAGATGACCGAGACGGAAGAAACCAGACCGAACTCTTTGGTCGCGTTTGGTGAAATGCTGCTG -AGCTGGAAGATGGTCATCAAAATACCGACGATAATCAGCCCCGCCACTGGCGTACCCGCTTTATTTACACGGGCAAAAAT -CGGTGGGAACAGTCCGTCATCGGCAGCGGCTTTCGCCGTTTGACCCGCCAGCAACGTCCAGCCGCCCAGTGAACCTAAGC -AACCCGCAGCTGCGCAGAAGGAAACAATGGCCCCGGCGGTGTCACCCAACGCCATCCGTGCGGCATCACCGAATGGCGAA -GCAGAAACGCGCAGTGCGGCATTAGGGATCATCCCCATAATCGCGGTGGTAGAAAGTACATAGCAAACGGCGGCAATCAA -TACCCCACCAATGGTGGCGATAGGGACATTGCGTTTCGGGTTTTTCACCACACCTGCGGCAACGGAGGCACTTTCCACAC -CGATGAACGACCACAGCGTAACGTTAAGGGTACTTTGAATTGCACCGAAGGTGCCCAGGCCGCTGACGTTCCATGCCGCC -ATATAGGTTTCACCACGGAACCAGAACCAGCCAAATACGGCAATCCCGACGATGGGGATCAGCGCCAGCACGGTGGCAAC -TGCCTGCACACGGGTGATCATTTTCGGACCGACAATGTTCAGCAGGACGAAGATCCACAGCACCACGACGCAGGTGATGG -TTAATACCAATGGATCTTTCAGAATCGGGAAGAAGTAACTTAAATATCCTACGCCAATGACCACCATGGCGATATTGCCG -ATCCAGCAGGCCAGCCAGTAGAGGACGTTGGTTTGATAACCGAGAAACGGGCCAAAGCAGCGGCGGGCGTAAGCGTAAGA -ACCACCAGGACTTGGGTCGAGGAACGACATTTTGGCGTATACCATCGAGAGCCCCAGTGCACCGATAATCGTCACCAACC -ATCCATAAATGGCAATCCCGCCAGTAGAGGCCAGGTTTGCAGGTAACAGAAAAACACCTGACCCCATAATATTCCCCGAC -ACCATCAGGGTGACGGGGATTAAGCCCACTTTGTGAGCATCAGCATCCGAAGACATAATTAAACTCCTGCGAAGGCGAGC -TTCGTGACAATAAATTACGTCATATCATACGCCTGCATTCGATAGTTGAATTATTATCGACCGGGTTATCGCTGATGCCG -TTATTAATATAGCTCTTCGTTAAGGTTAAAAATCAGGCGACAGTGCGTTCTCTGTGCTGACTAACATAATGCAGCGGCGT -CATACCGTAGAAGTCTTTAAAGACAGAAATAAAGTACGACGTACTGTTGTAGCCGCAGGACTGTGATACCTGAGAGATAT -TTTTACCGTCCATCATTAATTCATTTACGGCATAACGCATGCGGCAGGTGGTGATTATTTGGCTATAACTGGTGTTTTCG -CTTTTCAACTTTTTTTTTAACAGACTTGGGCTAAGACATAAACAACTGGCTACCATACTAAGATTCCAGTCTTTGTGAAT -ATCGCTTTCAATAATTTGATAAACGCTGTCACTTACACAATTACGTAACATATACATCATTAATGAAACGAATTTTTTAC -TGTCGAGAAAACGGGATAGCACCGTGAATAATAATGCGCGTGTTCGTTCCTTTTCTGACTCAGTTTCTGCGGGCATCATG -CTGTGTTGCGCGGCAACGCGAAAGACGTCTGGCGTCAGGCATGGCAGGGTGAGTATGGGCGTAGCGCTACGTTGCCATAC -TGGTATTTGCGAGAGATCTTTATTCAGAAACCGGAGGTAATCTTTGATGATGTCGTGACTAATATGAGCAACCAAAGTGT -TGTTAAGAGAGGAGACGTCGATAATATTATTTTCACAATTTAATAACGCCATATGGTTAGCTTTAAGGCTAATAGGTTCT -TTCCCATTCACCCTTATCCAGACATCTTTTTCAGTCAATAAAACAATACAAGGTTGGTCGCTGCAAATCCTCATACATGT -ACTCCTGAGTGCGAATAAAAGACCAGTTCTCGCTAAAGCAAAGCGATACCGGGAAATGGTTATATAATTGTATGATGAAT -ATAAACATGCATAAAAATAACGAGTTTTACTAATAGTACAAATTTTTATAGTAATTTCTCATGTACATATTTTTTTACAG -GATAAATAACAGGCAAAAAAAAGCGCGGGGTGGGGCCGCGCAAAAAGTATGACATTTTTGTTTGCAGCAATTTTTATGAA -AACGTTGCCATACTCAAAAGGCCTAAGGCCAGGCGGCGTAATGTTATTTAAACAATTACGCCTTCAGCGGAATAGTGGTT -ACGCTTTCACGCACATAACGTGGTAAATACCGTCAATAATTTCAGTCCCTTCAGTTTCGTGTTCAAATCCAGGGAAATGG -TGGTCCCAGGATTGCAGCGAGCGTAAATAACTTACTTGCGGACTGTTTTTATCGCCGAAGTTTTCACCAGACAGCAGCAT -CGGGATTCCTGGCGGATACGGGATAACTGAGTTTGCCGCGATGCGTCCTGGCAGATTTTCAATGGATACCAGTTCGACAT -TGTTGTCGACAATCGCGTTGTACGCTTCACGCGGGGTGACTTCCGCCACCGGCAGGCCGGAATAGGCTTCGTTCAACCGT -GCGCCAGGGTTGTTTTCTTTCAGCCAGGCAAACATGGTGTCACCCAGATCGTGAATCCCCATGTTCGCGTAAGTGTCAGG -ATATTGTTCAACAAGTTCCGGCATCACCTGCGCCAGCGGTGTGTTGGCGTCATAGTGGCGTTTGAAGGAGCAAAGGGTGT -TAACCAGAGTTCCCCATTTCCCACGGGTTACGCCCATAGAGAACAGGAACATAATTTGGAAGTCAGTGGTGCGGGTAGGT -ACAATGCCGTGGCGACCAAGCCAGGCAGTGACCAGCGCCGCCGGAACACCGGTTTCTTCCAGTTCACCATCTTCACCCAT -TCCCGGAGCAAGGATGCTGATTTTAATCGGGTCGAGCATACTCCAGTTATCCGGAATATCTTTGAAGCCGTGCCAGCTTT -CGCCCGGATGCATTACCCAGCAGTCCTGAACGGTGGTCAGCAGTTTGGTTGGTGCGTCAGCAAAGTCATAGGTTTTGCCG -GTTTGTGGGTCGGTGACGACTTCTTTGTTCCACGGTTTGAAGAACCAGCTACCGTCAGCGGTGAACTCTTTATATAGCCG -CGCCATCGCCTGACGGAAATCAACCGCTTCGTCAATCACTTCCTGTGTCAGTGACAGGCCGCTGTTGCCGTCCATCATCG -ACACCGCCACGTCGTTGGATGCGCAGATGGCATACAGCGGGGAGGTGGTGGCATGCATCATGTAGGCCTGGTTGAAGCGG -GAGAAGTTAATCGCCCCACGACCTTCACGTACATGAATATAAGAAGCCTGTGACAGCGCATTCAGCAGTTTGTGGGTGGA -GTGGGTGGCGAAAACGGTAGGACCGTTGTGATCGCCAGGTTCGCCGCGCATGGCATAGTGATCGGCATAGATCGGGTTGA -AACGTGCATAGCCGTACCAGGCTTCGTCAAAGTGCAGACGATCGGAGGTTTTTTCCAGCAGATCCTGCGCTTCTTTAGCG -TTATAACACACGCCGTCATAGGTGCAGTTGGTCACCACGCAGTAAGACGGTTTTTGCCCGGCTTTGTCTTTGGTCAGCGG -GCTTTCACTGATTTTCTTCTGCAAGGTTTCAGGTTGCATTTCCTGCGGATAGATTGGCCCGATAATGCCGTAGCGGTTGC -GGCTTGGCACCATATAGACCGGTTTCGCGCCTGTCAGCATCAAACCTTGTTCGATGGATTTATGGCAGTTACGGTCAACG -ACCACGACATCGTTATCGGTCATGCAAGCCTGCATGATGGTGCGGTTAGAGCCGGAAGTACCGACGACTACCGACCAGGA -GCGATCGGCACCAAATACGCGTGCGGCATATTTTTCGCTTTCGCCAAATGCGCCAGTATGGTCAAGCAAAGAACCGAGGG -AAGTTCGTTCGATGCCCATGTCGGTGCGGAACAGATTTTCACCATAGTAGTCATGGTAGAAACGTCCGGCGGGTGTTTTG -GTAAAACCAACGCCGCCCTGGTGGCCTGGCGCTGCCCAGGAATATTCATGGATGTCACTATATTTCATCAGCGCGCTGAA -CAGTGGCGGCAACAGCTGCTGGCGGTAGCGGGTCATCGCGGCAACGGCGCGTCCGGCGATAAAGTCGGCGGTATCTTCCA -GAATCCAGGCGAATTCATCGACAAGCTCCAGCAGGTCGCGATCCATTGCGGCGAGGGCTTTTTCCCGATCGCCCAACAGG -AAGACCGGCACGTTTTGTTGGCGCTCATGAAGCTTACCGATCAATTGTCTGACGTTTTGATGTTCGTCCGGATGTTCCAT -TTGATAGCTGAACATCAGGCAGTCAATGGCTTCGTTTGAAGAGAGAATGGCAAAACCATCATCAAAGGAGGTGGATTTAA -TCACGGTAACATTTTGCTGGCTTAAAGCATCTGCCAGACGCTCAACGGCGTTACCGACCCAGGTGTCTTGATGGAGAAAC -TCGCTTTCAACAATTAATACTTTCATCATTGCTTACCCGGTTATGAAGGAATCTTCGTTGCGGGCAAGTATCTTCCGGCC -TTTTCGGGCTGTAAAGCGCGTGAAAAACAAACATTTTTGAAATATTTAGTTTTATAAACAATACGTTATGTGATTATTTT -AAATTATTTTCACTGCTTATTATCGACGGCTAAACTATTTTTTTGGCTGATACTGATATCGTCTTTAGCCGGGAAACGTC -TGGCGGCGCTGTTGGCTAAGTTTGCGGTATTGTTGCGGCGACATGCCGACATATTTGCCGAACGTGCTGTAAAAACGACT -ACTTGAACGAAAGCCTGCCGTCAGGGCAATATCGAGAATACTTTTATCGGTATCGCTCAGTAACGCGCGAACGTGGTTGA -TGCGCATCGCGGTAATGTACTGTTTCATCGTCAATTGCATGACCCGCTGGAATATCCCCATTGCATAGTTGGCGTTAAGT -TTGACGTGCTCAGCCACATCGTTGATGGTCAGCGCCTGATCATAGTTTTCGGCAATAAAGCCCAGCATCTGGCTAACATA -AAATTGCGCATGGCGCGAGACGCTGTTTTTGTGTGTGCGCGAGGTTTTATTGACCAGAATCGGTTCCCAGCCAGAGAGGC -TAAATCGCTTGAGCATCAGGCCAATTTCATCAATGGCGAGCTGGCGAATTTGCTCGTTCGGACTGTTTAATTCCTGCTGC -CAGCGGCGCACTTCAAACGGGCTAAGTTGCTGTGTGGCCAGTGATTTGATCACCATGCCGTGAGTGACGTGGTTAATCAG -GTCTTTATCCAGCGGCCAGGAGAGAAACAGATGCATCGGCAGATTAAAAATCGCCATGCTCTGACAGGTTCCGGTATCTG -TTAGTTGGTGCGGTGTACAGGCCCAGAACAGCGTGATATGACCCTGATTGATATTCACTTTTTCATTGTTGATCAGGTAT -TCCACATCGCCATCGAAAGGCACATTCACTTCGACCTGACCATGCCAGTGGCTGGTGGGCATGATATGCGGTGCGCGAAA -CTCAATCTCCATCCGCTGGTATTCCGAATACAGCGACAGCGGGCTGCGGGTCTGTTTTTCGTCGCTGCTGCACATAAACG -TATCTGTATTCATGGATGGCTCTCTTTCCTGGAATATCAGAATTATGGCAGGAGTGAGGGAGGATGACTGCGAGTGGGAG -CACGGTTTTCACCCTCTTCCCAGAGGGGCGAGGGGACTCTCCGAGTATCATGAGGCCGAAAACTCTGCTTTTCAGGTAAT -TTATTCCCATAAACTCAGATTTACTGCTGCTTCACGCAGGATCTGAGTTTATGGGAATGCTCAACCTGGAAGCCGGAGGT -TTTCTGCAGATTCGCCTGCCATGATGAAGTTATTCAAGCAAGCCAGGAGATCTGCATGATGTCTGCACCCAAAATTACAT -TTATCGGCGCTGGTTCGACGATTTTCGTTAAAAATATTCTTGGTGATGTGTTCCATCGCGAGGCGCTGAAAACGGCGCAT -ATTGCCCTGATGGACATTGACCCCACCCGCCTGGAAGAGTCGCATATTGTGGTGCGTAAGCTGATGGATTCAGCAGGGGC -CAGCGGCAAAATCACCTGCCACACCCAACAGAAAGAAGCCTTAGAGGATGCCGATTTTGTCGTGGTGGCATTTCAGATTG -GCGGTTATGAACCTTGCACGGTGACTGATTTCGAGGTCTGTAAGCGGCATGGTCTGGAACAAACCATTGCCGATACGTTG -GGGCCGGGCGGTATTATGCGCGCGCTACGTACCATTCCGCATCTGTGGCAAATTTGCGAGGACATGACGGAAGTCTGCCC -CGATGCCACCATGCTCAACTATGTTAACCCAATGGCGATGAATACCTGGGCGATGTATGCCCGCTATCCGCATATCAAAC -AGGTCGGGCTGTGCCATTCGGTGCAGGGAACGGCGGAAGAGTTGGCGCGTGACCTCAATATCGACCCAGCTACGCTGCGT -TACCGTTGCGCAGGTATCAACCATATGGCGTTTTACCTGGAGCTGGAGCGCAAAACCGCCGACGGCAGTTATGTGAATCT -CTACCCGGAACTGCTGGCGGCTTATGAAGCAGGGCAGGCACCGAAGCCGAATATTCATGGCAATACTCGCTGCCAGAATA -TTGTGCGCTACGAAATGTTCAAAAAGCTGGGCTATTTCGTCACGGAATCGTCAGAACATTTTGCTGAGTACACACCGTGG -TTTATTAAGCCAGGTCGTGAGGATTTGATTGAGCGTTATAAAGTACCGCTGGATGAGTACCCGAAACGCTGCGTCGAGCA -GCTGGCGAACTGGCATAAAGAGCTGGAGGAGTATAAAAAAGCCTCCCGGATTGATATTAAACCGTCACGGGAATATGCCA -GCACAATCATGAACGCTATCTGGACTGGCGAGCCGAGTGTGATTTACGGCAACGTCCGTAACGATGGTTTGATTGATAAC -CTGCCACAAGGATGTTGCGTGGAAGTAGCCTGTCTGGTTGATGCTAATGGCATTCAGCCGACCAAAGTCGGTACGCTACC -TTCGCATCTGGCCGCCCTGATGCAAACCAACATCAACGTACAGACGCTGCTGACCGAAGCTATTCTTACGGAAAATCGCG -ACCGTGTTTACCACGCCGCGATGATGGACCCGCATACTGCCGCCGTGCTGGGCATTGACGAAATATATGCTCTTGTTGAC -GACCTGATTGCCGCCCACGGCGACTGGCTGCCAGGCTGGTTGCACCGTTAAAACGCGACTAAACGCTACTGCGCCGGGGG -ATTTATTCCGGCGCACACCTCTGACGATACCAATAACAGAAGGCGGGCGTTGGTAACAGCGACCCGATACCCTATGAGCA -TTTCAATGACTACAAAACTCAGTTATGGATTTGGAGCGTTCGGGAAGGATTTTGCGATCGGCATTGTGTATATGTACCTC -ATGTATTACTACACCGATGTCGTCGGGCTGTCTGTGGGTTTGGTCGGTACTTTGTTTCTGGTGGCGAGGATCTGGGATGC -TATTAACGATCCGATTATGGGATGGATTGTAAATGCTACGCGATCGCGATGGGGTAAGTTCAAACCCTGGATCCTGATCG -GTACGTTGGCAAACTCTGTAATCTTATTTCTCCTCTTTAGTGCGCATCTGTTTGAAGGTACTACTCAGATTGTCTTTGTT -TGCGTGACCTACATCCTCTGGGGCATGACTTACACCATTATGGATATTCCCTTCTGGTCGCTGGTTCCAACCATCACGCT -CGATAAACGTGAGCGCGAACAACTGGTTCCTTATCCGCGTTTTTTTGCCAGTCTGGCAGGCTTTGTTACGGCAGGTGTGA -CGCTACCATTTGTTAATTATGTCGGCGGTGGCGATCGGGGATTTGGCTTTCAGATGTTCACTCTGGTACTGATCGCCTTT -TTTATTGTTTCAACCATCATCACTCTGCGCAATGTGCATGAAGTCTTTTCGTCAGACAATCAACCGTCTGCTGAAGGAAG -CCATCTGACACTTAAAGCCATCGTTGCGCTAATTTATAAAAACGATCAGCTTTCATGCCTCTTGGGTATGGCTCTTGCTT -ATAATGTAGCCAGCAACATTATTACCGGCTTTGCTATCTATTATTTCTCATATGTTATCGGTGATGCGGATTTGTTCCCC -TATTATCTGTCGTATGCGGGAGCTGCTAACCTGGTGACGTTAGTATTCTTCCCACGCTTAGTTAAATCATTATCCCGACG -CATTTTATGGGCCGGAGCATCTATTCTTCCGGTGTTAAGCTGTGGTGTTCTCCTGTTAATGGCATTAATGAGCTATCACA -ACGTCGTCCTCATTGTGATTGCGGGTATTTTGCTGAATGTGGGAACGGCGCTTTTCTGGGTATTACAGGTCATCATGGTG -GCAGATATCGTTGATTACGGTGAATATAAACTGCACGTACGCTGTGAAAGTATCGCTTACTCCGTGCAGACTATGGTGGT -GAAGGGCGGTTCAGCCTTTGCGGCTTTTTTCATTGCGGTTGTGTTAGGGATGATTGGCTATGTACCGAATGTTGAACAGT -CTACGCAAGCCCTATTAGGTATGCAGTTTATTATGATTGCTCTACCAACTCTGTTTTTCATGGTAACGCTGATTCTCTAC -TTCCGTTTCTATCGCCTCAATGGTGACACGCTGCGCAGGATCCAGATCCATCTGCTGGATAAATATCGCAAAGTACCGCC -CGAGCCTGTTCATGCTGATATTCCGGTCGGTGCAGTGAGTGATGTGAAAGCCTGACGTGGACAATAGCTAACGAAAATGG -CCTGATGCGATATGTTTATCAGGCCACGTCTTAATGTAATGCTTTGGATTTGCAAATTTTGTAGACCGGATAAGGAATTC -ACGCCGCATCCGGCATCAACAAAGCGCAAGTTGTTATCCGGTTATCAAGCCAAAGCGCCGTAGCTGGCGGCAATGAAAGC -GAGCGAGGAATATCACCGTCGTTAATGCGCCAAGCAGCGCGCAGAACATATCGGATTGCGTGTCCCACTGGTCGCCCTGG -GTGCCGAGAAAATCATCCGCTCCCTGACCCATTGCCAGCGCTGCCCACCACTCGATTAATTCATACATCGCGCTTATCGC -CAGCGCCACGCAGCAGACCAGGAACGCCACCATTTTACGTCCGCGCACGTACATCCCGCGAACGAGAATTTCTCGTGCCA -CCAGTGCAGGCACCAGCCCCTGGAAAAAGTGCCCCAGCTTGTCATACGGATTACGACTCAACCCCAGCCATTCCTGCACC -TCAAAACCAACGGGGACTTTCGCGTAGGTGTATTGTCCGCCGACCATCAGGATGATGGCGTGAAGGAAAATGAGCGTATA -GAGCAGCGGCGTTAACGGATAACGTCTGGCGGTGGCAAGCAGTAGCTGCACGACAATAATCACCGGTGTCACTTCCATCA -GCCAGGTGAGTTTGTCATGGGCCGAAATGCCGGTATAAATCAGGATTAACGTTAGCGTCAGTGCGCTGGTGTTAAGAATT -AACGGCTTGAGTGTGCGGGTCATGGTGAGTTCGCAAATCAGGGAAAATACTGACTATTCACCAGCAAGCGTGAAATTACA -ATCGCAAAAGAGGTGGCCAGGGGGATCACCTGGCAGCATGCTGCCAGGCGCTGGGCCGAAGAGGTTACTTAGTGCAGTTC -GCGCACTGTTTGTTGACGATTTGCTGGAAGAAGTCGTTACCTTTGTCATCGACCAGGATAAACGCCGGGAAATCTTCTAC -TTCGATTTTCCAGATAGCTTCCATACCCAGCTCCGGATAAGCGACGCACTCCAGATGCTTGATGCTCTGCTGCGCCAGTA -CCGCCGCCGGACCGCCGATGCTACCGAGGTAGAAGCCGCCGTGTTTATGACACGCGTCGGTAACCTGCTGACTGCGGTTA -CCTTTCGCCAGCATGATCATGCTGCCGCCGTGGGATTGCAGCAGATCCACGTAGGAGTCCATACGGCCTGCGGTGGTTGG -GCCAAGTGAACCTGATGGATAACCGGCAGGGGTTTTCGCCGGACCCGCGTAGTAGATCGGGTGATCTTTGATGTACTGCG -GAAGTTCTTTACCGGCGTCAATCAGCTCTTTCAGCTTGGCGTGTGCAATATCTCGGCCCACGATAATGGTGCCGGTGAGC -GACAAACGAGTGGATACCGGGTATTGCGAAAGCTGGGCGAGGATCTCTTTCATCGGGCGGTTAAGGTCAACTTTCACCGC -TTCGCCTTCACCGGCCTGGCGCAGTTCTTGTGGAATGTACTGGCCTGGGTTGTGTTCCAGTTTTTCGATCCAGATACCTT -CGCGGTTGATTTTCGCTTTAATGTTACGGTCAGCGGAGCAGGAGACGCCCATGCCGACCGGGCAGGATGCGCCGTGACGT -GGCAGACGGATAACGCGAATGTCGTGCGCGAAGTATTTACCGCCAAACTGCGCGCCAAGACCGAGTTTCTGGGCCTCTTC -CAGCAGTTCCTGTTCCAGCTGGACATCGCGGAACGCCTGACCATGTTCGTTCCCTTCCGTCGGCAGTTCATCGTAATAGT -GAGCGCTTGCTAACTTGACGGTTTTCAGGTTGGTTTCCGCAGACGTACCGCCAATCACAAACGCGATATGGTACGGCGGG -CAGGCTGCAGTACCGAGGGTACGCATTTTCTCGACGAGGAAGTTTTTCAGTTTGCCGGGAGTCAGCAGGGCTTTGGTTTC -CTGGTAGAGATACGTTTTGTTGGCAGAGCCGCCGCCTTTCGCAACGCAAAGGAATTTGTACTCATCGCCATCTACCGCGT -ACAGGTCGATTTGCGCAGGCAGGTTAGTGCCGGTGTTGACCTCTTTGTACATGTCCAGCGCCGCATTCTGTGAATAGCGC -AGGTTATCTTCGATATAGGTGTTATAGACGCCTTTCGACAGCGTTTCTTCATCACCGCCGCCGGTCCACACGCGCTGGCC -TTTTTTACCGACGATGATCGCGGTGCCGGTATCCTGGCAGGTCGGCAGCACGCCTTTGGCGGCGATTTCGGAGTTTCTTA -AGAATTGCAGCGCCACGTACTTGTCGTTTTCGCTGGCTTCTGGATCGTGAAGAATAGCCGCAACCTGTTTCTGGTGTGCC -GGGCGGAGCATAAAAGAAGCGTCGTGAAAGGCTTGCTGCGCCAGCAGGGTCAGGGCTTCTGGTTCCACTTTCAGGATGGT -TTCGCCGTCGAAGTCGGCAACGCTAACGTAATCGGAAGTGAGTAGATAGTATTCGGTATTGTCTTTCCCCATCGGGAAAG -GTGCCTGGTAGATAAAGGGTTTGTTTGACATAGCTTCCAGCCTGTAACTCTGTATTTGTTATTCGAAAATGGCGTGCCGC -GTAGTCACGGGCGGCACGCAAAGTGCATTTATAAGAACCCGTACATCGCGGCGAAGATCCAGCCGAAGACGCACGATACG -CTCACACCAATCAACCCCGGCAGAATAAAGCTGTGGTTGATGACGAAGCGACCGATGTGGGTGGTGCCGGAACGGTCAAA -CTGAATCGCTGCCAGATCGCTCGGATAAGTCGGCAGGATGTAATAACCGTAGCAAGCCGGTGCTGAAGCCACGATGTATG -CCGGATCAACGCCGATCGCCAGCGCGACCGGAACAATCGCCGCCAGCGCCGCAGCCTGAGAGTTTACAAACTTGGAAACC -AGCAGCAGAACAATGGCATAGGCCCACGGATACTCTTTCACCATTTCACCCAGTACGCCCTGAATTTCAGACATATGCGC -ACCGAACATGGTTTCTGCCATCCATGCGATACCGTACACCGCCACGATGGCGATCATACCGGAACGGAAGACTTCGTTTT -TTGAGATAGACGCGGGATTGGTTTTGGTCAGGATAATAATCAGCGCCCCGGTCAGCAGCATAAACATCTGAATAACCAGT -ACCATCGACAGCGGTTTGCCGCCGAAGGATGGACGCAGGTCCGAATCAGCACCAAGAAGGGCGACTACAGCGATTGCCCC -GAGGAAAATCCACATTGCCAGCCAGTTGCTTTTCGGCAGTTTTTTATCCAGCAGCGTCGCGGTATCACCGTAAACATACT -CACGGTTTTCCGGTACGGAGATGAATTTCTGGAACTCTTCGTCTTTATCCAGATCTTTACCGCGGAACCAGCTGAAGATA -CCGATCGCCAGGATACCGATTAACGTCGATGGAATGGTGATTGCCAGCAGATCGAGGAACTCAAGATGGCGACCATCAAA -GGTGACATTACCCAGCATCGCAACCAGAGACACGACCGCAACCGACACCGGACTGGCGATAATCCCCATCTGTGCACCGA -TAGAACTTGCCGCCATCGGACGTTCCGGACGGATGTTGTTCTTAATGGCGACGTCGTAGATGATCGGCAGAATGGTGTAA -ACCACATGACCCGTACCGCAAAGAATGGTCAGTGTACAGGTCACAAACGGCGCGACAATTGAGACATATTTCGGGTTGCG -GCGCAGCAGCTTCTCGGCAATTTGCAGCATGACATCAAGACCGCCCGAAGCTTGCAAGGTCGCCGATGCCGCCACCACCG -CAATGATAACCAGCATGACATCAACTGGTGGTTTACCTGGCTGAAGGTGGAAGACGAAGACCAGAATGACCAGACCGATA -CCGCCTAATAAACCCAGCGCGATACCACCCTTTCTGGCACCATAAAACAGACATATCAGTATTATGATAAGTTGGATAGT -AAATAACATGTGTGAACCCTCGCGATAATCCTATTTAAATTTTTGCTGAATAGATCACAGTCACGTTCTGTTTTGTATGA -ACTGTTTTCAGAGCCTGACTAAATATCCGTTTGGTCGTTACCGGCTTTAGCAAATACCTCACAGTGAATATTGGCTGATT -AAAGCAGCGGCAAATTTATGCACTGTGATAAGCGGCTTTTTCAGAGAGAAAGACTCTCTGGCGATGGGTTTATAGTTTGT -ACTGCGCAGATGTTAATGTTTTGTTTGCTGTTATCTTATTGATATTTATCGGTCTATTTTTTGTTCTCAGGGCAGATGTC -ATTAGGTTTATAGATTAATCTGATCTACCCATTTGTGGGTAAAAATACACATAATGCGGGTGACATAATAGTTAATTAAC -TTTTGTTAGCGTTTTGAAATTAAAAACACCGTTCACCTGAAGAGATATTAATTTTTAGCGATGATGGAGGGATAATTATA -TTTGATCTGGCACAAGTTTTACTGATGAAGGATGTAACTTGTGCCAGGGGTATTTTGCATTACGGTAATAATTATTACTT -ACAGATAACCAGCGATCCGTTATTGGCAATATTGTTTCAGTAGTGAGTAGTGTTCTGCCTGAATACGGTAACGGTAAACT -GGACGCCCCGTGACGCCATAATGGATACTGGTGAACAAGATGTGGCAGTTGACCAGCCAGATGAGGTATTTACGGCAGGA -AACACGCGAAATGTTAACCTCGTTGGCTAGCTCGTCGGTTGAAAATTCATAGTCCTGATGCGCGTCAATCCACTGGCACA -GTGTGCGTAACGTCTGCGGCGTTAAGCCTTTTGGCAAGCGACGAGGATCCTGTTCGTTGGAGCTGCTGCCGTGGATTAGC -TGATCAAGCTCGGCCTGGTCATAATACTGATGTTTTTCCAGCGCCATTTTCTTTTGCCGCCAGCCGGTGAGCGCCTCTTC -AAAGCGGGAAGCCTGGAAGGGTTTGATCAGGTAATCCACGACACCGTAATGCAGCGAATCTTTAATGGTTGCCGCATCGG -CTGCGGAGGAGATGACAATCACATCACTTTTGCAACGCGCGTTATGCAGGACAGGCAGTAAATCGAGCCCGTTCTCTTTT -TGCATATAGATATCGAGCAATATCAGGTCGATAGGCGTATCGCTATTGAAGATAATCTCTTTGGCTTTCTCCAGCGTCGA -GGCTGTTCCACAGCATTGAAAGCCTGGGATTTGTGCTACGTATCGGCGATTCAGCTCTGCGACCATTGCGTCGTCATCGA -TAATTAATACATTGATCATCTGTTCGACCTCTCCCCGTCCCAGGGTATCTGGACAAAAAATTGTGTGAAAATCCCGGGTT -CCGATTCCACGGCGATGCTGCCGCCGAGATTTTCTACCTGTTGTTTGACAAGTGCTAAACCGACGCCTCGCTCGCTTCCT -TTTGTCGAGACACCTTTGTCAAAAATGTGATCGATTTTATCGGGTGCGATCCCCGGTCCATCATCATTAACTTCACAGTG -CAGCCAGCCGTGACGGTAGTGCAATGTTACGCTAATTTCGCCTCCGGGTTCCGGCCCTAATGCCTCCAGCGCGTTTTCTA -TCAGATTTCCCAACGTGGTAATCAGCGTCGCGACCTGGTCCTCACTGCCGCTGTCTGGCAGCTGGCTTTCACTGTTTAAA -ATCAGCGTATGGCCTAAATCGGTCGCGCGGTTAATCTTGCTGATTAAAAAACCAGCGATAACCGGAGATTTGATCTTACC -CAGCAGAGAGCCAATCTCTTCCTGATAGTTATTGGCTGTTTTGAGAATGTAATCTTCCAACTGCTTATAACTCTTCAGAT -GCAATAATCCGAGAATCACATGCAATTTATTCATAAATTCGTGGGATCGTTCACGAAGTGCGTCAGCATAGTTGACCAGA -CCGTCGAGTCGCTGCATCAGTTTACGTACTTCAGTTTTGTCCCTGAAGGTTGAAATGGCACCGATGATAACGCCATTACT -GCGCACCGGAACGGTGTTGATCAGTAATAGCCGGTCTTTAATCGTAATCTCTTCGTCGCGGCGCGGGGTACCGTCGCGTA -ACACTTCCGAGACATCTACCACCTGTGACCATGAGTGGCTTAGCGTCGACAGTTTCTCATCGTCCTGCGACTTACGGTAA -TTCAGCAATTCTTGTGCGGCATCGTTGATCAGCGTGACCTCGCCGCGATCGTCCACGGCAACGACGCCTTCTTTGATAGA -CTGCAACATGGCCTGGCGTTGCTCAAACAGCGTGGAGATTTCGTAGGGTTCCAGGCCGAAAAGGATTTTTTTCAGTACCT -TAACCAGAATGCAGGTGCCAATCAGTCCGACCAGCATGCCAAATAATACCGACCAGATAATGCTCCAGCGACTGTCATTG -ATCTGTTGGGTCACACGGCTTAACTCAAGGCCGATCGCCACCACGCCAATTTGTTTATGATTTTCATCGTAGATGGGGGT -AAATACGCGTAAAGCCTGCGCCAGAAAACCGCGATTGATAGCGACATTTTCTTCGCCATTCAGCGCTTTAAGGATGTCAT -CACCTTTAAATGGCTGACCAATACGCTGGGCTTCAGGATGCGAGTAGCGAAGACTTTGCATATCGGTAACGACAATAAAC -AGCAGATCGTTGCGTTTGCGTACGGCTTCCGCGATGGCCTGGATGCCACTCTCCTGCGGTTTTTTCTGCAAGCCCTGACG -GATTTCCGGCGAGTCGGCGAGGGTACGCGCCACTGCCAGTGCCTTGTTGGCTAGCCCATCTCGCGTCATATCACTGATTT -GCGAGAAGTAAATCAGATGCACCACCAATAGCACCGAGAACAGTACCGCACTGACCATTAAGATCACTGTGGTACTCAAT -TTCATCGGACGTTTGCGTAACATGCGGTAGGGCAATGAATGTCTCATCAGCTTCCTTGTGTGACAAATTTCTTAAGCATT -ATCTCTGATGAGGCGGGTAATTCAAAGGGAGTAAGAATGATTGGCTATATAGGGGAAGAGACTCTGGCAACGGAAACTGC -CAGTGCTGTATGAAGATTCCGGGGCTATGCTTATAGCGATAATCATACTGATGAGAGAGGGAAGGTCATGGATCAGGCGC -TACTGGACGGGGGTTATCGCTGTTATACCGGCGAAAAGATCGATGTCTATTTCAACACTGCGATATGTCAGCATTCTGGC -AATTGCGTACGTGGCAACGGCAAGTTATTTAATCTCAAACGAAAGCCGTGGATCATGCCGGATGAAGTCGACGTCGCCAC -TGTGGTTAAAGTGATTGATACGTGCCCGAGCGGCGCGCTGAAATACCGTCATAAATAAGCGAGGGTAAAATGGAAATACG -CGAAGGCCACAATAAATTTTACATTAATGACAAACAAGGCAAGCAAATCGCTGAAATTGTCTTTGTGCCGACCGGAGAGA -ATTTAGCGATTATCGAACATACCGATGTCGATGAAAGCCTGAAAGGGCAAGGGATTGGTAAACAGCTGGTTGCGAAAGTC -GTGGAAAAAATGCGTCGGGAAAAACGAAAAATTATCCCATTATGCCCATTTGCGAAACATGAATTTGATAAAACGCGGGA -GTATGATGATATTCGCAGTTGATGGGAGAGTACAGAGTCACGATATTTTTCATTCTCTCCGCGATGTGATGCAGGAGAGC -ATCTGAAGGGTAGGGGGATGCACAAAGAATGGGCAGAGAGCGCGTTTTTTTGTCCCAAGTCATCCCCTTTACTGAGCAAA -AAAAAGAATATCTCCTATATGAGAATCATCAATCGGGGTTAATAAGTTTTGCGTCCCCAGAGCGTTTAATATTGATAGGA -GTCATATTATGGAAGGTAAAAACAAGTTCAATACTTATGTTGTTTCTTTTGATTATCCATCATCTTATTCCTCAGTGTTC -TTAAGATTAAGATCATTGATGTATGATATGAATTTCTCCTCTATCGTGGCTGATGAATATGGGATACCACGACAATTGAA -TGAAAACTCCTTCGCAATAACGACATCGTTAGCCGCAAGTGAAATCGAAGATTTAATCAGGCTCAAATGCTTAGACTTAC -CGGATATTGATTTTGACCTCAACATTATGACAGTTGATGACTATTTCCGTCAGTTTTACAAGTAGCCAGGAAGGATAAGA -AGAACATAAAAAATGGCACTATTCTCTAAAATATTAATTTTTTATGTGATTGGTGTGAACATATCCTTTGTCATTATCTG -GTTTATCTCACATGAGAAAACACATATTCGTTTACTTAGTGCATTCCTGGTCGGAATAACCTGGCCAATGAGTCTGCCTG -TGGCATTACTTTTTTCTCTCTTTTAGGAGCTGTAGTTGAGTGGACCCGCTGGTTATCGTGAAACGAAGCGTCTCTCCTCA -AAACTGGATTTGCGGAACGATGAACGAAGCAGTCGCCTGACTGCTTCGTTCATTAAAGTGAAATTTATTTCTGTGGGCGC -ATCGCCGGGAAGAGAATAACGTCGCGAATAGTATGGCTGTTAGTAAACAGCATAATCATTCGGTCGATACCAATACCCAG -ACCAGCGGTTGGCGGCAGACCATATTCCAGCGCAGTCACGTAATCTTCGTCATAGAACATGGCTTCGTCGTCACCTGCAG -CTTTAGCATTAACCTGTTCCTGGAAACGTTCAGCCTGATCTTCTGCGTCGTTTAATTCGCTAAAACCATTACCGATTTCA -CGACCACCGATGAAGAATTCAAAACGGTCGGTGATTTCCGGGTTAACATCATTACGGCGTGCCAGCGGGGACACTTCTGC -CGGATATTCCGTAATAAAGGTTGGCTGAATCAGATGTGCTTCTGCCACTTCATCAAAGATCTCTGTGACAATACGTCCCA -ACCCCCAGCTTTTCTCTACCGTAATACCGATAGATTCAGCTAATGCTTTAGCAGCATCAAAATTATCCAGGTCGGCCATA -TCGGTTTCTGGACGATATTTTTTGATTGCTTCGCGCATGGTGAGTTTTTCAAACGGTTTGCCGAAATCAAACACATGCTC -GCCATAAGTGACTTTAGTGGTACCCAGAACCTCTTGTGCCAGGGTGCGGAACAGTGACTCTGTCAGTTCAATCAAATCGT -GGTAATCCGCATACGCCATGTAGAGTTCCATCATTGTGAACTCAGGATTATGGCGAACAGAAATACCTTCATTACGGAAG -TTACGGTTGATTTCGAATACCCGTTCAAAACCGCCTACAACCAGACGTTTCAGATACAGCTCCGGCGCGATACGCAGATA -CATATCTAAATCCAGAGCATTATGATGGGTAATAAACGGGCGAGCAGATGCCCCACCTGGAATTACCTGCATCATCGGGG -TTTCTACTTCCATAAAGCCGCGCGCGACCATGAATTGACGGATAGCGGCCAGAATTTTTGAACGGACAACAAACGTTTGA -CGGGATTTATCGTTAGCGATGAGGTCCAGATAACGTTGACGATAACGGACTTCCTGATCCTGCAGACCATGGAATTTATC -TGGTAAAGGACGTAGTGCTTTAGTCAGCAGGCGCAGCTCAGTACAGTGAATGGAAAGCTCACCCGTTTGCGTCTTAAACA -GCGTACCGCGGGCACCGATAATGTCACCCAGATCCCATTTTTTAAACTGATCGTTATAAACACCTTCTGGCAGGCTATCT -CTTGCAACGTACAGTTGAATACGGCCACCGACATCCTGCAACGTTACAAAGGAGGCTTTCCCCATGATACGACGGGTCAT -CATTCGGCCAGCAACCGAGACTTCAATGTTTAAGGATTCCAGTTCCTGGTTATCCTTCGCATCAAACTCTTCGTGCAACT -GGTCAGAGGTATGGTCGCGGCGAAAATCATTGGGAAACGCCACACCTTGCTGACGTAGTGCCGCCAGTTTTTCGCGGCGA -TTTCTCAGTTCATCGTTAAAATCAATAGCCTCATTGGCTCCCCGTGTTTCTTGTTCAGACATTTTGGTTCCTCTAAATCC -AGCTTTCAATTTAGCGTAGATAAAGAGACAGATCGGTACACTGTATTATCTGCCTCGACTATTAGTAACTCAGTTTATCT -TATCGAAACTAACGCTTACCTCAAGTTGATATCACTAATAAATAACCATCAAAATGGTTTAAATGACTTATTAATCTCGA -TTTGTTAGTGTTATAAACTGAAAGTTAATTTATTCATAACCAATTGTTTTTACGACAGTTAATCGTTGCTCTCCTGTATC -ATATTCGTCGGCGTGCTAAACAGAAAACGGGTAGCAAAGGCCAATACGACGATGATCGCGACACAAGCCAACGTCCACTC -TCCCATCTGAGAAAAGAATCGCTGGTAAGCTGCAATTGCCATACCGCTAATTTGCGACTCTGTCGTCTGCTGTGCCACGA -CGCCTGCCAGCCAGTTGGCGACCGCGCCTGTTGCCAGCATATAAATCCCGGTTAATACGCCAGACATTTTCAGACGCGTG -ATTTGCGCAATCGCCACCGGGTCAATAAAGAGTTCGGCAAAGCCCATTAGCGCCAGCCCGGATATCATCACGCCCATTGA -CGCTTGACCGTCAGCCGCTGCATGTCGGGCATCAAATGCCAACAACATAAAGCCACAAGCCATCAGCAGTAAGCCAAAGG -CAAACTTCAGCCAGACGCGCAATGTTGAGTTGCCGCGGCTTTCTGGCGACGCCAGCCAGGCCAGTACAACCCCAGCGAGC -ATCACCGCAATTGCATTCACCGACTGGAATAGTGCTGTAGGTACTTCAATATTGAATGCCTGACGATTCACAAAGCGATC -GATAAACAAGCTGATGGTACTGCCGCCCTGTTGTGCCAGTACCCAGAACAATGTCCCGACAAACATCAACAATACAATTT -GCCAAAGAGCACGGCGATGTTCGGGGAATTTGATCATCATGCGGGCAATGATTTGTGCGGCAATGAGGCAAACGATCGCC -AGCAAATATCCGGACCAGTCGTTCTCCAGCAGCAGAGTAAAAAATACTGGGGCTAAACAGAGCATCACCACTAACCAGCT -CCATACTGGTAAGGCAAATTTGACACTAGTGAGCGCTTTTTTATCCATACTACGTGTGGACTGGAAATGACGATGACCGC -TTAAGAAAATCAACAAACCGATAAACATGCCGCCACCCGCAAGGGCAAAGCCAACATGCCATCCATACCACTGAGCAGCC -AGGCCGCAGGCGATTGGGGCTGCGATAGAACCGATATTGCCCGCAGCATACAGCAGCGAAAAACCGCCATCACGTCGATG -ATCGTTCTCGTCGTAGAGCTCGCCAAGCAAACAGCTGATGTTTGATTTGAATAAACCGTAGCCACAAATAATGATTGCCA -GCGCCAGATACAGGCTAAAGGTTGAATTTGTATCAATACCCAGCACCACATGGCCAAGGGTCATTAACAGCGCGCCGGCA -ATCACTGCAGTGCGGTTGCCGAGCAGGCGGTCGGCAAGCCAGCCGCCGAGAATAGGGGTAACGTAAACCAGAGAAGCATA -TGCGCTGAACAGGCTGATGGCATGGTTATCATCAAAACCAAGCTGATGGGTGAGATAGAGAATGAGTAAGGCACGCATGC -CGTAAAAACTGAAGTACTCCCAGATTTGGATCGCCACGATATAGTATATCGCGCGCGGCTGTGAGGGTGTTTTCATGTGT -TCTCCTTATGAGCAAAAAAGGGAAGTGGCAAGCCACTTCCCTTGTACGAGCTAATTATTTTTTGCTTTCTTCTTTCAATA -CCTTAACGGTATAGCGGCCATCAGCCTGACGGTATGCACCGTGAATATCGGTTTCAAAGCCCGGATAGTGAGCGCCGATT -TCACACAGCATCTGCAGGAACTCCAGAACCGGACGGCTTTCTTCGGTGATCATTTCACCCGGCATTACCAGAGGAACTCC -CGGCGGGTACGGAAGGATCATATTGGCGTTAATACGACCTACCATTTCGTCGAGGTAAACTTCTTCGGTCATACCGTGCA -GCTCTTTCTGGAATGCAGCATACGGAGTCATTACCATCGTCGGCAGCACTTCAAATGCGCGATACATCAGATCCGGCAGA -TTGTGGTGAACAATCAGTTTGTGGATATTCTGAGCCAGTTCCTGAATACGCATGTTTTCATAGAATTCAGGATCTTCACG -ATACAGAGACGGCAGCATGTTTTTCACACGCAGGTTCAGGTCGAACGCACGTTTAAAGTCAGTCAGAGCACGCAGCAGGC -TCAGTGCTTTGGTCTTATCGATACCGATGCTGAACAGGAACAGCAGGTTATACGGACCGGTTTTCTCAACAACGATGCCA -TGTTCGTCGAGGTATTTCGCCACGATGCTGGCCGGAATACCAAAGTCGCTCATGGTGCCGTCTTTTTCCATCCCCGGAGT -CAGCAGGGTGACTTTGATCGGGTCAAGATACATGTGCTCGTTATCGATGTTTTTGAAGCCGTGCCAGGTGCTGTCAGAAC -GCAGCGGCCAGCATTCAGTCGTATCGATATGATCCGGCTGCCATACATCAAAGAACCAGCCATCAGATTCCGTTCTCAGA -CGTTTGATCTCTTTACGGAATTTGATCGCACGTTCAATAGAACCGTTGATCAGACGCTTACCTGCATTGCCTTTCATCAT -CGCCGCAGCGGTTTCAGTGGACGCCACGATACCGTAGTGCGGAGAAGTGGTGGTGTGCATCATGTAGGCTTCGTTAAAGG -TTTCTTCGTTTACGTCACCTTTAACGTGGATCATGGAAGCCTGAGAGAACGCCGCCAGCAGTTTGTGAGTGGACTGGGTT -TCGTAAATCACTTTCCCTTCTACACGGCCACCGCTCATACCGCATTTACCTTCGTAAATCGGTGAGAAGTTGGTGTAAGG -CACCCACGCGGAGTCAAAGTGGATGGATTTCACATCCAGTGTTTTCTTGATGAAGTCGGTGTTGTACAGCAGACCATCAT -AGGTAGAGTTGGTAATTACAGCATGTACCGGCCAGGTTGCGTTTGGTGTTTCTTTCACGCGCTTAGCAATGGTAGCGTGC -TGGAATTCACTCTGTGGGATACCACCAAGAATACCGTAAGCGTTACGGGTCGGGCGGAAATAGATTGGCGTAACATCGCT -CATCATCATCAGGTGGGTCAGCGATTTGTGGCAGTTACGGTCAATCAGAATGGTGCTGCCTGCTGGAGCAGAGTACATAC -CAACAATTTTGTTCGCAGTGGAAGTACCGTTGGTCACCATGTAGCTGCGGTCTGCGTTAAAGACGCGAGCGATATACTGT -TCTGCTTCTTTGTGTGGACCACTGTGATCCAGCAGAGAACCCAGTTCAGATACTGAAATGGAAATATCAGATTTCATGGT -ATTCGGACCAAAGAAATCATAGAACAGGCTACCTACCGGGCTTTTCTGGAATGCAGTACCGCCCATGTGACCAGGAGTAC -AGAAAGTATATTTACCTTCACGAACATATTTAAACAGTGCTTTAGTCAGCGGAGGCAGAATAGTGTTGATATATTCGTCA -GTGGTCTGCTTGATCTTATTAGCAATATCTTCAGCAGCACCCAGCGCATATTCAAAGAAGCTAATCTGTAAACGCAGGTC -ATTCAGGCTTACATCGAGAGTGGAATACGTATTAGCGAACGCGTACAACGGCAGGTTCTCGTTCATTTTGCTAATTTCTT -CGCACAGCTCGAGATTATATTTATCCCAGTCAAAAATAACGCCGCACAGACGCGCATTGTTTTCGATCAGTTTTAATAAG -TCGTCACGGTCGTTCGGGTAAACAATCTGGAAGTTCAGACGTTCAAGCGCGCGATGAAGTTCACGGATGGGTTCTTCTTT -AAAATAAACCCCCATGTGATTCAATATTGCAATAACGTTCATAGTCATATCTCCAGGTAAAAAAGGCCCCTCCCAACACA -TGGGACAAAATGAAAGGAGGAGCCTCGGAAAATACTTTTAATTAATGTGCGTTAGACGCGGTGTGGTTATCCATTGAGTG -GCTCTGGCGCTCGTGCATTTTGCGAGCGTAGAACATCAGGATAATCAGGCTGACGATGAAGGTACCTGCCAGCTCGAAGG -AGCTTGCGCCCATCAGCGCGATGAAGCAGAACACGCAACCCAGTACAGAGCAGATCAGGCTGACAAAGTTGCGGATGTTA -ACGCCTTCAAAACGAATCAGGTCAACGCAAGAGTAGAAATACGGCAGCATAGTCAGCAGTACTGCGATACCGGTCAGTTC -ACCGAACAGGTCAGATGCTTTACCACCGGCAGAGTTCATCAGAGTGATAAGGATCATCAGGGCAGTCATTTTCACTGCAG -CCAGCAGCAGACCTTTTTTCGGAATACCGTTGCTGTCGACTTCACCATAAACTTTCGGGAAGTTACCGTCGTTAGCGGCA -CGTACACCTGCCTGGCCTACCAACATCATCCAGGAGCCCAGAGAAGTCAGGCACGCAAAGGCGGTGAATGCAGAAACCAG -CGGCGCAGCCCAGTTACCGAGGATAGTTGAAGCACTGATTGCAAACGGAGCACCGGAAGCCGCCATTACAGAAGACGGAT -ACATACCGGAAAGCACCTGAGTCGCAGCGATGTAAACAATACCTGCTAAACCAGTACCCAGCATGGTTGCCAGCGGAACG -GTACGTTTCGGGTTTTTAACCATACCAGTACTTACAGCTGCGGATTCAACACCCACGAAGGCCCACAGGCAGAGCAGAAT -ACTTTTAATGATCGCATGACCATCAGTGGTATCCGCAGTATTCCAGTTAGCTGCATAAGTTGCCGCATCAAACCAATGCC -AGCCAACAATAGCAGTCATCACCACAGGAATAAGAACCAGCACCAGACCAATAGTGGTTAAACGGCTTACCCAAGTACCG -CCGAGCATATTTACAAAGGTAAATACCCAGACGATAGCAATACAGGCGATACCCGCCGGAACAGGATCATTTAATACTGG -GAAGAAGGTGGAAAGATAAGATACAGCGGTAATACCAATCGCCAGGTTACCAATCCAGTTAGCATGGTAATAAAGAACAC -CTGTCTGAAAACCAAATGCAGGGGAAATTTCTCCGGCATAAGCAATTGGGCCACCTTGTTGCGGGTTTTTTGTTGCCAGT -CGGGCATATACATACGCCAGCGACATTGCACCAATAATAGAGATAATCCAACCCCAGATAGCAATACCACCGATACTTGC -TAGGTTCGCAGGTAATAATGCAATACCGCTCCCCATCATATTACCGGCAACAACACCGGTACAGGCAAATAGCCCGATCT -TCTTGGCAGAACTCATGCTCTTCTCCTAATTTCATTTTTGAATTTGGAGTCCGGGTCATGATGTATAACTATTTCCTGAC -CAGACCAAACTGGCGATAAGATTACTCACGAAAAAAGGATTAATCCTAAAGATTAGGTGAAATAACACAAAAGTTTCTGT -AAGTGAGAACTTGAGGTTTTTTATTAACACATCAGGATCGCAAGTTGATATCATGAAAAGATAAACATTTAATGTTTACA -ATGGATTGCGTGACATTCTCTGGTTAAATTTATGTAATAAAAATTATGCGGCAAATAAATTGCCGCAACATATTATACCA -ACAGGAACATACAAAAACTCAACAACAAATATTTCCGAGCATAAATCAACCCGGAGTTACTTATTCTGAAGCAAGAAATT -TGTCGAGATAAGGTACAACATAAGGAACAGAAGTCTGGAATATACCATTTTCAATCCAGTAAAGGGTGTTTGCCCCTGGG -CGTAAATTAAAGGCGGTGAGATATGCATCAGCTGCTTCCCGGTTCATCCCCTTCATTTCATAAACCTTGCCAAGCAACAC -ATAATTTAGCCAGGACATTTCAAGATCAATGCCAGTATTTATCGCCTGGTAAGACTCATCTGTTTTACCTTTTACCAGAG -CACTGACCGCTTTTATTTGATATATAATGGACAGGTTGTTCAATTCCGGCAGTGTAACAATGTTATCTATTTCTGTGTTC -AGTGCTGCTAATTGTTTTTCATCTAAAGGATGTTGAGAATGGCGCACGATATCAACTAATGCTTTTTCTGCTCTCGCGTA -GGTAAATTCTGGGGATGATTGAACAATCTCACCTAATAATTCACTGGCACGGTTCAATGATTTATCATCGCCATGCAGTA -AATAATCATGTGCCTGATAAAAATTAGTTAATAACGCACCACGATGCGGCAAAATTTTCTGGAGCGTCTCCTGCATTCGT -TGTGGCCACGGTTGGTTTAACGCTTTTGATAAACTCTCCAGTAAATCATTTTGAATCGCCAGCTGATTACCGTTAGTGAT -GACATAACGTTTATCCAGCATGGTTGAACCATCTGCATTGTCTACCAATTTTATCGACATAAAGCATTGTTGAGCACGGT -ATTGGCGCTGATTAACAAACGCAATAGATAATGTTTTACCGGAACTGCTCGGTTCATCAATGTTGTAGTTGATTTTGTCA -TGCACCATAAAGGTGGAGAAGGTGTTAAGTGATGTCGCCACCAAATCACCCACGCCTATCGCGTAAGAGAGCTGATACGG -GGAACTCCAGCTGTTACAACTTTTATTTACCATATTAATGTCAATATCGCGTGGATTGAGCAAAATACGCGATTTGCTCA -TAGGAAGACGTGTATCAAGACTTGAAAACGCTACCAGTGCTACACAGATACCTAACGACAACAGGAAAAAAAACCATACC -CAAAAGGTAGTGAATCGTTTGCTTTTAACTGGGGATTGTTCAGGTGGCGTTGCGGTGTTTTGAATGTTAAGACTGTGGGA -GGGAGAATCTGTGGCAGGAACCGCCTCTGGTATAGGGGGAGGCGAAGATAGCATTATTTCCTCTCCCTCTTCTTCGCTGT -ACCAGATAACCGGCACCATTAATTTATAGCCGCGCTTTGGTACAGTAGCGATATAGACAGGACTATCTTCATCATTATCT -TTTAATGACTTACGTAGTTCTGAGATACTCTGCGTCACAACGTGATTGGTGACAATACTTCTCTTCCAGACATTATCGAT -AAGTTCATCCCTGCTAAGTACTTCGCCACTGTGTTGAGCAAAGAAAACCAGAAGATCGATTAATCTCGGCTCAAGGGTAA -GTTGACGCCCATTGCGGCTAATTTGGTTTATGGACGGAGTAACAAGCCATTCGCCAACGCGAACTACAGGTTGTTGCATA -ATAGAAACTCATTCGAAAAGGGAATGATGCAATGATAATTGCCACAACCTATTTTTACCATCTATAGATGGGTTTATTTA -CATATTATTGGTGAATGCAAGACGTTATTTTTACCAGCCATAAACTTCTTGATTACATAGTATTACGAAAGGATTTTACT -GAGAACCAGAAGTAATATTCCTTACCATCAAAATTCATCATCTTTGCCAAAGAAAAATGTTCAGAAAATAATCCATGGAA -AATTGTCCGGAGCACTTACTATTTTAATGGATTGTTAGTCTTTGCATGAGCAAGCGAACTGATACATTTCTCTTTGTTCT -CATTCAGAAAATCTCATCAGTCGCCGTTCAGACCGGTGTTGTGCTTTATGGATGCGTTACGCTCCTGATGACGTCATTTG -ACGTTCAACAGCATCACGGGGCCGCACGACATTTCACGTCAGTTAGTGCTATAGCTCAGGAACAAATTTTCCCGAATTGG -GATATGCCCGCAAATTGCTGGTGATGTGGGGAGAATCTGGTTGAGTTCGGTAGAATTGATTTGGAGGCAGAACGCTTAAA -TCGTGGCGTCCTGAAACGAAAAACGGACCTCCGTGGAGGTCCGTTTATATGAATTTGGTGCCCGGACTCGGAATCGAACC -AAGGACACGGGGATTTTCAATCCCCTGCTCTACCGACTGAGCTATCCGGGCAACGGGGCGCATTAAACCGTAATCTGCAC -ATCTCGTCAACCTAATTTCAGTAAAAGCGATTCAACTGCTTAAGATTGCGGCAAATCGCTTCTTTTCTGTGTTTCTGTCA -GGTCAATGCACCACCCTGGCGGCAGCGGGCGAAGCGCAGGATATCTTCCGCCAGCCGATGTGCAGTGTCGACATCCGCCT -GGCTACGATTCACCAGCATTCGGCTTAAACAGCCTTCCAGCACCAGTTCCATCTGCTTTGCTACCATCGCCGGATCGTCA -ACTTCCAGTGTGGTTAACAGTTCGTGGGTGAAATCGTAGGCCGCGCTTTTTTGCTGATCGGCCAGTTGATGAATAGGGTG -GCCAGGATCGGGATAAAACGTACAGGCAGCGATAAATAGACAGCCCGGATAGCGGTTGTTTTTAACGCACTCCGATAACG -CCTGATAACGTGCCAGCAGCTTTTGTTCGGCGGTTTGCGTTTCGTCCAGCATCAGCTGACGACGCCAGACATCTATCTGT -TGGCTAAGATAACGCAGCGCATCGTAGAGGATTGCCTCTTTGTCTGGCCAGAAGCGGCGTAGCTCGTCCAGTGGATAATC -CACACGTTCAGCAACCATCTCCAGCGTGGTGTTGGCAATCCCTTGTAATTCTAATAATTTCAGGGCTTCTCCCAGTACAT -CTTCACGTTGCACGCTATTTTCCTCCGTCTTTCCCACTGCAAGTGTCGTTCACGGTTGGCGATCGCGCAAATGTGCGCTG -AAGGTTTCAGCATCCATAAAGCCCGTGACGCGTGCTTGTGGATGCTCCTGGCCTTGTCCGTCAAAAAAGAGAATTGTCGG -TAGGCCAAGGACATTAAGATGCTTTAACAGCGCCACATCTTGTGCGTCGTTGGCCGTGACGTTGGCCTGAAGTAAGACCG -TGTCTGCTAACGCTTTTTGCACCTGCGGGTCGCTGAAGGTGTATTTCTCAAACTCTTTACAGGCGACGCACCAGTCGGCA -TAAAGATCTAACATCACCGGTTTGCCTTTGGCTTCAACGAGCGCCTGATTTAACTCATCTACCGTTTTGATTTGTGTAAA -GTTGAGATGCGTCTGAGTTTGCGCGGTATGCGTCGCACCAAATGCCCAATCCTGAAGTGGGCGCACGCTAACCAATGCCG -CTGCCAGCAGAATAATTTGCACAATACGCATCCAGCCGCGTTTAGCCTGTAGGCTGGTGATAAAGGCCCAGCCAAAGAAT -GCGACACCCAGCGCCGACCACAAGCGTAATCCCCATACATCACCAATCACTCGCTCCAGCAGGAAGACCGGCAGTGCGAG -GATCACAAAACCAAACGCGGTTTTGACTTGTTCCATCCACGGGCCGCTTTTCGGCAGCAAGCGGTTACCAAAGACGGTAA -TTAGCATCAGCGGCAGGCCCATGCCCAACGCATAGAGATAAAGCGTGCCGCCGCCCAGCCACATGTTCCCGCTTTGGGCG -ATATACAGCAGAATCGCGCTAAGCGGTGCGGTGGTGCATGGTGAACAGATCAGTCCGGCAATCGCCCCCATAACAAACAC -ACCGCCAGGTGAGCCGCCCTGTTGGCGATTGCTCATCAACGTGAGACGTGTTTGCAGCGAAGAGGGGAGTTGCAGGGTAA -ACAAGCCAAACATTGACATCGCCAGCAAGGTAAAGACGATGGCGAGGCCAATGAGCACGTATGGGTGCTGTAGCGCCGCC -TGGAACTGTAACCCTGCGGCGGCAACCACCAGACCCAGCGCCGTGTAGGTCAGCGCCATCCCCTGCACATAAATAAAGGT -CAGCAACAATGCTCTGGCAGTGGAGAGCCGCTGTTTACCACCCAGCACGATGCCAGAAATCAGTGGGTACATTGGCAGCA -CGCATGGCGTAAAGGCGATACCAATACCGATCAACAACGCCCAGAGCGCGGAAAAGGGCAATTGCGCGGTGGGCTGCTCT -TGCTGCGGAACAGACACAGGCTGTGGCGCTGCGTTGTTGGCGACCACTTCGCTTAACGGAACGGTTTTGGTTTCTGGCGG -ATAACAGAAACCGGCATCAGCACAGCCCTGGTAGGTGACAGTTAACGTCGCTCCCGCACTCGCCTGGTTGATGGTGACGG -GAAGCGTCAGCCGATCGCGGTAAATCTCGCTTTTGCCGTAAAACTCATCTTCATGCCAGACGCCTTGCGGCAGCTGCACG -TCGGCAATTTTCGCGTGTTCCGGCGTAATGCGGATCTGTTTACGGTAGAGGTAGTAACCGTCTTTGATCTGCCAGGTCAG -ATTAAGGTCATGTTGGTTTTGCTGAAAATCAAAAGCAAAGGCTTGATCCGCGGGGACAAATTGTGAACGTCCCGGCGCGT -CGAATAATCCGGCAAAAACGGAAGTGCTGCAAAGTAGCAGGATCAGCGTAAAGATGCGTTGAGCCATGAGAGGTAATCTG -TGTCTCCGTGTGTAACAGGTAAAACCAGAAGTTCCGGGGTTTGATATGGATGATGAGACTTCAGGCATTCCAGCAGTGCC -TGCTGGTGAGATACGGTAGTTTTTAAAATCATCTGCACTTCGTATTCTTGCTCCAGCTTACCTTCCCAGTAATAGAGAGA -GGTAGCGCCGGGGATCAAGGTCGCGCAGGCCGCCAGTTTTTCCGCCAGCACTTTGGCGGCTAAATCCTGGGCTGTCGCTT -CATCTGGTGCCGTACATAGCACCACGACAGACGCGGTATTCGAACTTTTTTCATCAAGCATAAACACCTCGCAAGAACAG -ATGGAACCGCAAGAGAGAGGTCACTATACAACGGACGGGGGAAGGATGTTAGTCGGCGGGAAAGAAAGCGGGGCGTGAAC -GCCCCGCGATTGATCATTACAGCATGAAGCTACCCAGCACGAAGCCGAAGCAAACGGCCAGGGCAACACCCAGAGTACCC -GGGATGAAGAACGGATGGTTGAAGACGAATTTACCGATACGGGTAGTACCCGTGTCATCCATCTGTACCGCAGCAACCAG -CGTCGGGTAGGTCGGCAGAATGAACAGACCAGACACCGCAGCGAAAGAAGCAACAGCGGTCAGCGGTGAAACGTTCAGTG -CCAGAGCCATCGGCATCAGTGCTTTTGCGGTTGCAGCCTGAGAGTACAGCAGAGCAGAAGCAAAGAAGAAGATGACGGCC -AGCAGCCACGGATGACCCTGAATCACTTCACCAGCGGTATCTTTGATCCAGTCGATGTTGTTGGAAACGAAAGTATCGCC -CAGCCACGCAACACCCAGGATACAAATACAGGCGCTCATACCTGCTTTGAAGGTGCTGGAGTTGAGGATGTTGTCGGTAT -CGACTTTACAGATAACGGTGGTCAGAGTTGCAACGCTGAGCATGATGATCAGGATTGCGTTGGTGGTGTTCATCAGCGGT -TTTTCAACCAGACCCATGCTTGGGCTGTTGATGATTGCATAGATAACCACGCCAACTACGCCCAGCAGGAACAGCCAGAC -GGACGTTTTTGCACCGGATTTGATTTCAATCTGCTTTTCACCGCGCAGTTCAACCAGGCCCTCTTCCAGACGCTTGCGAT -AAATCGGATCGTCAGAGAGTTTGGAGTTGAACAGCATAGTGACCAGGAAGGACATCACCAGAACCGCCAGCAGGGTGGAC -GGGATGACCACGGAGAGCAGATGGAGGTAGCTGATGCCATGACCTTCCATCACGGAAGACATGTAAACCACTGCCGCTGA -GATTGGCGATGCGGTGATCGCAATCTGCGCGGATACCACTGCAGTAGACAGCGGACGGCAAGGTTTAACGCCTTGTTCCT -TCGCAACTTCAGCGATAACTGGCAGTGTCGCCAGAGAGATGTTGCCAGTACCAGCAAAGATAGTCAGGAAATAGGTCACG -ATCGGTGCGAGGATCGTGATGTATTTCGGGTTACGGCGCAGCAGCTTTTCTGTCTGATGAACCAGATAGTCCAGACCGCC -AGCAACCTGCATGGCAGAAATAGCGGCGATAACCGCCATGATAATGGAGATGACATCGAACGGGATGTTACCGGGTTTAA -CGCCAATAGCGGCAAGAACCAGCACCCCCAATCCGCCTGCAAAACCAATACCTATTCCCCCCAATCTGGCGCCCAAGAAG -ATCGCCAGCAAAACTATGATGAGTTCTACAACTAGCATATTAGCCTTCCTTGTTTTTTAACAAGTTGATATTAGATTGTT -ATTTTTAAGTTACTGCTCACAAGAAAAAAGGCACGTCATCTGACGTGCCTTTTTTATTTGTACTACCCTGTACGATTACT -GTTCGCTTTCATCAGTATAGCGTTTTGCTTTGTAAGCCGGGTGCATCAGATTCTGTACGGAGAAAATATCGTCAAGTTCC -GCTTCAGTCAACAGACCGCGTTCCAGAACGACTTCACGTACACTCTTACCGGTTTCGGCACAGATTTTACCCACGATGTC -ACCGTTGTGGTGACCGATGAACGGGTTCAGGTAAGTAACGATACCGATAGAGTTGTAAACGTAACCTTCGCACACTTCTT -TGTTAGCAGTGATGCCGTTAATGCATTTTTCCAGCAGGTTGTAGCAAGCGTTGGTCAGAATGTGAACGGATTCGAACATG -GCCTGGCCAATGACCGGCTCCATAACGTTCAACTGCAGCTGACCTGCTTCTGCTGCCATGGTAACAGTGGTGTCGTTACC -GATGACTTTGAAGCATACCTGGTTAACCACTTCCGGAACAACCGGGTTTACTTTAGCTGGCATGATGGAAGAGCCCGCCT -GCAGTTCCGGCAGGTTGATCTCGTTCAGGCCGGCACGTGGGCCTGAAGAGAGCAAGCGCAGGTCGTTACAGATTTTGGAC -ATCTTCACAGCCAGGCGTTTCAGCGCGCCGTGAACCATAACATAAGCGCCGCAGTCAGAGGTCGCTTCGATCAGGTCTTC -AGCCGGTACGCATGGGAAGCCAGTAACTTCAGCCAGTTTTTTCACTGCCAGCGGAGAGTACTCTTTCGGCGTGTTCAGAC -CAGTACCGATTGCTGTTGCACCAAGGTTAACTTCCAGCAGCAGTTCAGCGGTACGTTGGATGTTTTTCACTTCTTCTTTC -AGCAGGATGCTGAAAGCGCGGAATTCCTGACCGAGGGTCATCGGTACTGCGTCCTGCAGCTGGGTACGACCCATTTTCAG -GATGTCCTGGAATTCGACAGCTTTACGTTCAAAGCCTTCACGCAGTTGGTTAATCGCATCTACCAGCTTAATCAGGGAAG -AGTAAACTGCGATACGGAAACCGGTCGGGTAGGCGTCGTTAGTGGACTGACATTTGTTAACATGGTCGTTCGGGTTCAGG -TACTGATATTCACCTTTTTGGTGACCCATCAGTTCCAGACCGATATTGGCCAGCACTTCGTTGGTGTTCATGTTTACGGA -AGTACCTGCGCCGCCCTGGTAGACGTCTACCGGGAACTGATCCATGCATTTTCCGTTGTTCAGGACTTCATCACATGCGG -CAATGATGGCATTCGCTACACTTTTAGGAATGGTTTGCAGCTCTTTGTTTGCCATAGCTGCGGCTTTTTTAACCATTACC -ATACCGCGAACAAATTCAGGAATATCACTGATTTTGTTGTTGCTGATATAGAAGTTTTCAATCGCTCTCAGAGTGTGAAC -ACCATAGTAGGCATCAGCTGGAACTTCCCTGGTACCCAACAGATCTTCTTCGATACGAATGTTGTTTGACATGTGAACCT -TCTTTTTCAAGCTGCCAATGATTTGCTTTAAACACACAGAATATATGTGGTTTCGAATGTTTTTCGACCGACGATTATCC -CCTGCATCGACCGAATACCCGAGATCATATGCTGCTTGAGGATTTCTACCGTAATCTGGATCACTTTAAGTGTCGGTTTT -TACCCCTTAATTATTAATTTGTGAAATAGATCACCGCTTTGGGATTACTACCAAAAATAGTTGCGCAAACATCTTGAAAT -TTTGCTAATGACCACAATATAAGCTAAACGCGATTCGCAACCCATTCAGGTAGCCGGGGTTAACCGGCTGCTATTACAGG -AGAAACCTTTGCGCTGGTTACCTTTTATTGCCATTTTCCTTTATGTCTATATTGAGATTTCAATCTTTATTCAGGTTGCC -CATGTATTGGGGGTATTGCTGACCCTCGTGCTGGTTATATTCACGTCAGTTATCGGTATGTCACTGGTACGTAACCAGGG -CTTTAAGAATTTCGTGCTGATGCAGCAAAAAATGGCGGCGGGTGAAAACCCAGCGGCGGAGATGATTAAAAGTGTTTCGC -TGATCATTGCTGGTTTGCTGCTTTTATTACCGGGCTTTTTTACCGACTTCCTCGGTCTTCTACTTTTATTGCCGCCGGTG -CAAAAGCATCTGACAGTGAAGTTGATGCCGCATTTGCGCTTTTCTCGCATGCCTGGCGGCGGTTTTAGCGCCGGGACCGG -TGGCGGTAATACTTTTGATGGTGAGTACCAGCGAAAGGATGATGAGCGCGACCGCCTTGATCATAAAGACGATCGCCAGG -ATTAATGTCGAAACGCCGGATTATGTGGTTATGCCATTTTCCGGCGTTTTTCGTTTTGGCAGCAACAGCCATAACCCCGC -CAGCATGATCAGCGCATAGAGACTTTTCCAGCCGACCATTGCCAGTAACAGAACGCATAACAGCCCGCCAACCACCGCCA -GTAGTCGATAACGTCCTTGCAATAATTTACAGCCTGCCAGCATGCATAACAGATAAATCATAATAAAGATGCCATTGGCA -TAAATAATAAGAGCGTCCAGATTGATCTCTAAAGCATGAATCACCAAAGTGCTCACCACACAGCAGCCGAGCACCGCATT -GAGGGCATTATTCGGGATATGGCGAGAAGAGAGGCGTGCCAGGTAGTGGTCAGGATTATGTTGCGCCTGCGACCAGACCA -GGCGGGCGAAGCTCTGTATATAAATGTTGAGACTGGCAAAGCAGGCCAGATAGCCAATCACGCAGGCAATCCATAACGCT -CCTACACCGAACAACTGCACTACAATTTTTGGAAGCGATGCTGCCGCCGCCATTTTTTCACCATAGGCGTCGAAGTGTAA -GACGACTACCGTACAGCCCCAGTAGACTAATCCTGCCAGCAGCAGACCAATCATCAAAGCACGAGGAAAATCACGCTCTG -GATTTTTAAATTCCGAGGCGAGATGGGCAAATGCCTCCAGACCGACAAAACACCAGAACATCACTGATAACGCAGCAAAT -AACCCGGTAAGTTCGATATTACCAGGTGCCGGAAAGGGGATATTCGCAGGTTTGATATCGCCCGCCCACCAGATAGCGAC -AATCAGCGCGACGATAAGTCCGGCAATAACGGTTTGTAGATTAGCACTGGAACTGGCACCGCGAGTACCGATATACCACA -CCAGCGCCAGCGTACCGAGTTCTGCCAACAACAGTTGCCAGCTATGCCAGCCAAACATCGCCTGGCCGAACCCGGCGGCA -ATTTGTAGTGCGGCAGGCAAACCCACGGGAATGACCGATAAAAACAGCCAGCCGGTGACTCGCTCAAGCCGCGAACCAAA -CGCCATACCGACGAAGTGCGCGACGCCGCCTGCGCTGGGATAGTGGCGACCCAGAATCGCAAACACAATCGCAATCGGGA -ACACTAAGATAATCAAAACGGGCCACGCCCACAGGCTGTTATTGCCCGCTACCAGCGCAGCTAACGCAGGAACGGCAAAC -ACGCCAGTGCCTAATAATGACGTCGATAGCAGGCCAATGCCCTGGGCCAGCCCCAGTTCTTGTTTGAGTCCACTCATGGG -TTGATGTCCGATTGCGCCCAAATTTTGGGCAACTGCGTAGATTTTCGATGGTAGCACAATCAGATTCGCTTATGACGGCG -ATGAAGAAATTGCGATGAAATGTGAGGTGAATCAGGGTTTTCACCCGATTTTGTGCTGATCAGAATTTTTTTTCTTTTTC -CCCCTTGAAGGGGCGAAGCCTCATCCCCATTTCTCTGGTCACCAGCCGGGAAACCACGTAAGCTCCGGCGTCACCCATAA -CAGATACGGACTTTCTCAAAGGAGAGTTATCAATGAATATTCGTCCATTGCATGATCGCGTGATCGTCAAGCGTAAAGAA -GTTGAAACTAAATCTGCTGGCGGCATCGTTCTGACCGGCTCTGCAGCGGCTAAATCCACCCGCGGCGAAGTGCTGGCTGT -CGGCAATGGCCGTATCCTTGAAAATGGCGAAGTGAAGCCGCTGGATGTGAAAGTTGGCGACATCGTTATTTTCAACGATG -GCTACGGTGTGAAATCTGAGAAGATCGACAATGAAGAAGTGTTGATCATGTCCGAAAGCGACATTCTGGCAATTGTTGAA -GCGTAATCCGCGCACGACACTGAACATACGAATTTAAGGAATAAAGATAATGGCAGCTAAAGACGTAAAATTCGGTAACG -ACGCTCGTGTGAAAATGCTGCGCGGCGTAAACGTACTGGCAGATGCAGTGAAAGTTACCCTCGGTCCAAAAGGCCGTAAC -GTAGTTCTGGATAAATCTTTCGGTGCACCGACCATCACCAAAGATGGTGTTTCCGTTGCTCGTGAAATCGAACTGGAAGA -CAAGTTCGAAAATATGGGTGCGCAGATGGTGAAAGAAGTTGCCTCTAAAGCAAACGACGCTGCAGGCGACGGTACCACCA -CTGCAACCGTACTGGCTCAGGCTATCATCACTGAAGGTCTGAAAGCTGTTGCTGCGGGCATGAACCCGATGGACCTGAAA -CGTGGTATCGACAAAGCGGTTACCGCTGCAGTTGAAGAACTGAAAGCGCTGTCCGTACCATGCTCTGACTCTAAAGCGAT -TGCTCAGGTTGGTACCATCTCCGCTAACTCCGACGAAACCGTAGGTAAACTGATCGCTGAAGCGATGGACAAAGTCGGTA -AAGAAGGCGTTATCACCGTTGAAGACGGTACCGGTCTGCAGGACGAACTGGACGTGGTTGAAGGTATGCAGTTCGACCGT -GGCTACCTGTCTCCTTACTTCATCAACAAGCCGGAAACTGGCGCAGTAGAACTGGAAAGCCCGTTCATCCTGCTGGCTGA -CAAGAAAATCTCCAACATCCGCGAAATGCTGCCGGTTCTGGAAGCTGTTGCCAAAGCAGGCAAACCGCTGCTGATCATCG -CTGAAGATGTAGAAGGCGAAGCGCTGGCAACTCTGGTTGTTAACACCATGCGTGGCATCGTGAAAGTCGCTGCGGTTAAA -GCACCGGGCTTCGGCGATCGTCGTAAAGCTATGCTGCAGGATATCGCAACCCTGACTGGCGGTACCGTGATCTCTGAAGA -GATCGGTATGGAGCTGGAAAAAGCAACCCTGGAAGACCTGGGTCAGGCTAAACGTGTTGTGATCAACAAAGACACCACCA -CTATCATCGATGGCGTGGGTGAAGAAGCTGCAATCCAGGGCCGTGTTGCTCAGATCCGTCAGCAGATTGAAGAAGCAACT -TCTGACTACGACCGTGAAAAACTGCAGGAACGCGTAGCGAAACTGGCAGGCGGCGTTGCAGTTATCAAAGTGGGTGCTGC -TACCGAAGTTGAAATGAAAGAGAAAAAAGCACGCGTTGAAGATGCCCTGCACGCGACCCGTGCTGCGGTAGAAGAAGGCG -TGGTTGCTGGTGGTGGTGTTGCGCTGATCCGCGTAGCGTCTAAACTGGCTGACCTGCGTGGTCAGAACGAAGACCAGAAC -GTGGGTATCAAAGTTGCACTGCGTGCAATGGAAGCTCCGCTGCGTCAGATCGTATTGAACTGCGGCGAAGAACCGTCTGT -TGTTGCTAACACCGTTAAAGGCGGCGACGGCAACTACGGTTACAACGCAGCAACCGAAGAATACGGCAACATGATCGACA -TGGGTATCCTGGATCCAACCAAAGTAACTCGTTCTGCTCTGCAGTACGCAGCTTCTGTGGCTGGCCTGATGATCACCACC -GAATGCATGGTTACCGACCTGCCGAAAAACGATGCAGCTGACTTAGGCGCTGCTGGCGGTATGGGCGGCATGGGTGGCAT -GGGCGGCATGATGTAATTGCCCTGCACCTCGCAGAAATAAACAAACCCCCGGGCAGAAATGTCTGGGGGTTTTTCTTTTG -GTCATCTTTCTAGTATAAGATTCAGACACGGACGACGCGAGTGGCGTCCAGCTCATTGATTATGGGGAATAACATGCACG -TAAAATACTTAGCAGGGATTGTCGGTGCCGCGCTACTGATGGCGGGTTGTAGCTCCAGCAACGAATTGAGTGCTGCCGGT -CAGAGTGTACGCATTGTGGACGAGCAGCCAGGCGCAGAGTGCCAGCTGATTGGTACTGCGACAGGTAAGCAAAGCAACTG -GCTTTCCGGGCAACACGGAGAAGAAGGCGGTTCTATGCGCGGCGCAGCAAACGATCTGCGCAACCAGGCGGCTGCAATGG -GCGGTAACGTGATTTATGGCATCAGTAGCCCGTCGCAGGGAATGTTGTCCAGTTTTGTCCCGACGGATAGCCAGATTATC -GGTCAGGTTTATAAGTGCCCGAACTGATGTGATCCAGAGGCTGGGTGACAAACGTATAATTGCCTGATGCGCTTCGCTTA -TCAGGCCTACATAAGGCATTGCAACTGATTGAATGCTTGAGAATTTGTAGGCCGGATAAGGCGTTTACGCCGCATCCGGC -ATGACCAACGATCACGTTATCAGTCATTTCAGGCTGGATGGCTCCAGCCTCGCATTAGCAAAGATGAGATTATTTCGCCT -GTGGTGCAGTTTTGCTGGTGGATTGAACACGTAAGTGATGCAGCGCGCGTAAGCATTGATCCTGGGTTAGCGGTTGGGCG -TTATTCGCCGCTACGGTGCGAACATAGACCTGACATGGCACACCCGCGAGTTTTTTCAGTCGTGGGCTGAAATCAAGCAT -TCGGCGAGTGATCGCTTCTATTTCTTTACCCGGCGTTGCTTCACGCGTTTTCACCACTGCGCCGCTAAATTGTTCTTTGC -CACTTTCATCTTTAAAGCGGTAAAGCACCGCCAGATAATGGTCGAACAAGTTATGTTTCCATTCCGGTTGGGAATAGGTG -TCATATTCCAGATTGCCATTGTCCTGGCAGTCAACGTCGTATAACGGCAGGAAATCTAACAGTGAGGTAATACGTAATGC -CAGTTCACGCATTTCCGCATTATTAATTGCATGAATGATTGCTCGCGCCAGCATTTCAATCTGCAACTCATTGACGACTA -ACTCACATTTGCTACCGTCATGTAGCGTTAATACGAAGGTAAGATTTTCGCCTTGATTATCGGTAAGTTCCAGCGTGTTA -ACCCGACGATTAATATCGGCATTTTTAAGCTCATCAACCAGAATTTCTGGGATGTTTTCTGCCATTTTCTTAATGACTTT -ATCGCGAGCTTGCTCATACTGAAGGTGTGCAGCAGCATCCAGTTTATGCTTTTGATGCAGACGACTTTCCAGCGCAATCA -GCAGGTCGCGCAGTTCCATGACAGACATAAAGAACAACGATTCTTTATTGCGAGGTTCTTTAATTTTCAGCGCCAGTGCA -ATGAAATTATTACTCTTGCGAATAACACCGGTATTAACACCCTTGATGCTTATGGCCATGTAGGTTCTCCCTAACCATTT -CTCAATTAAATAATTAATTTTAATTTATAAGCCAGATAAATGGGCTTGGTAGTAATAGTTGTTAAAATAACATAAATAGC -CGTACTCACTCTATATAAACAGAAAAGAAAGGTTAATTATTGGTGTTAGCTATATAAAAAGTAACAACAGCAATGCATAT -GAATAATTAAAGGTTATGCAACGGGCAAAGATTAAACTTCCCAGTTTAATGACAGGTTGCTGTACTTGCGTTTGTTGCTC -TTGCCGGATGCAGCGTAAACGCCTTATCCGGCCTACAGTTCATTGCAAATCCATTCAATTTCAATGCACGATGTAGGCCT -GATAAGCGTAGCGAATCAGGCAATTTTAATGTTTAACTTCCCTGTTTAATCAGTTACTGCTGGCGTAGCTGGAGATCCAG -CGGCGTTTTGCTGGGTTCGCCGCCAATTTCTCGCGCCAGTTTCGGCACCAGATATCCCGACACCAGTGTCAGCAACTCAC -GCATAATCTGCCGTGCTTCGTCATCACTCACCATAAAATGCGCCGCGCCCTGTACTTTATCGAGCACATGCAGGTAATAC -GGCATTACGCCGGCATCGAACAACGCATTACTCAGGTTTGCCAGCGTTTGTGCGTTATCGTTCACATCACGTAACAGAAC -GCTCTGGTTCAGCAAAGTAACGCCTACCCGGCGCAACTTAGCCATCGCCTGACGGAATGTTTCATCTACCTCATTGGCAT -GGTTGATGTGATTCACCAGCAAGATTTGCAGCGTAGAACGGGCAAAGCATTCAACCAGCGCCTCGGTGATACGTGCCGGG -ATCACAATCGGCAGACGGCTGTGAATCCGCAGACGTTTTATATGCGGGATGGCTTCCAGTTGTGTGAGCAACCAGTCCAG -CTCGTGATCTTTCGCCATCAGCGGATCGCCGCCGGAGAAAATCATCTCGTCCAGTTCCGGATGCGCAGCAACATACTCAA -GTGCAGTTTGCCAGTTACGCTTGTTGCCCTGATTTTCGGCATAGGGGAAGTGACGACGGAAGCAATAGCGGCAATTTACC -GCGCAGCCGCCTTTGACCAGCAAAAGCGCCCGGTTGTGGTATTTATGCAACAAACCAGACACTACGCTGTGCTGTTCTTC -CAGTGGGTCGGTGGAGAATCCGGGCGCGATGACAAACTCATCTTGCGAGGTAAGTACCTGACGCAAAAGAGGATCGTCCG -GATTGCCTTTCTCCATGCGATCGATAAATGAGCGGGGCACACGCAGGGCAAAAAGCTTTTTGGCGCTGCGTCCGGCTAAC -AGTTTTTCCTCCGCGTCTATATTCAAAAGACGCAGAAGTTCATCAGGATCGGTCACAACATCGGCAAGTTGCGTTAACCA -ATCTTCTCTGGATGGGGTATTTAGGGTTACAATATGCGCCATTTTGTGGCTTAGCTACCAATTAACAAATTTCAGAGGGC -CTTATGGCAACGTACTATAGCAACGATTTTCGTGCTGGTCTTAAAATCATGTTAGACGGCGAACCTTACGCGGTTGAAGC -GAGTGAATTCGTAAAACCGGGTAAAGGCCAGGCATTTGCTCGCGTTAAACTGCGTCGTCTGCTGACCGGTACTCGCGTAG -AAAAAACCTTCAAATCTACTGATTCCGCTGAAGGCGCTGATGTTGTCGATATGAACCTGACTTACCTGTACAACGACGGT -GAGTTCTGGCACTTCATGAACAACGAAACTTTCGAGCAGCTGTCTGCTGATGCAAAAGCAATTGGTGACAACGCTAAATG -GCTGCTGGATCAGGCAGAGTGTATCGTAACTCTGTGGAATGGTCAGCCGATCTCCGTTACTCCGCCGAACTTCGTTGAAC -TGGAAATCGTTGATACCGATCCGGGCCTGAAAGGTGATACCGCAGGTACTGGTGGCAAACCGGCTACCCTGTCTACTGGC -GCTGTGGTTAAAGTTCCGCTGTTTGTACAAATCGGCGAAGTCATCAAAGTGGATACCCGCTCTGGTGAATACGTCTCTCG -CGTGAAGTAATGCGGTTGTGGTGCGGCCTGCAGGCTGCACCATCACTTATTCAGGTCAGAGATGATGAAACGCCTTATCG -TTCTTGTTTTGCTTGCCAGCACGCTGCTCACGGGCTGTAACACCGCTCGCGGTTTCGGCGAAGACATCAAACATCTCGGC -AACTCCATCTCTCGCGCTGCCAGCTAATTTTTCTTCTCTTCCGAAAAATCATCAGATTCCCATCATTTTTGGCGATGTTG -TCTATTATTAATTTGCTATAGGCAAACATAAATAACATTACCTAAAAGGAAGACGTTATGGTGAAGAAGACAATTGCAGC -GATCTTTTCTGTTCTGGTGCTTTCAACAGTATTAACTGCCTGCAACACCACGCGTGGCGTTGGTGAAGACATTTCTGATG -GCGGTAACGCGATTTCTGGCGCAGCAACGAAAGCGCAGCAATAAGCAATAACGGTACGACAGCTGTGTCGTGCCGTTTGT -TTTTTCTGCGATAGTCACAAAGGTAATAGTTGAAATTCCCCTGCCACCTGGCAAAATATCCGTTCAACCATCAGCTTTGC -AGGACGACCTGCAAACGCCTCTTTTCACCGGGGACGGCCCCAATTCTCCGGAGCCTGATATGTCCTGGATTATCTTAGTT -ATTGCTGGTCTGCTGGAAGTGGTATGGGCCGTTGGCCTGAAATATACCCACGGCTTTAGTCGTTTGACGCCGAGTGTTAT -TACTGTGACGGCGATGATTGTCAGTATGGCGCTACTTGCCTGGGCGATGAAATCGTTACCAGTAGGGACGGCTTATGCCG -TGTGGACGGGTATTGGCGCAGTCGGCGCGGCCATAACCGGCATTGTGCTGCTCGGTGAGTCCGCTAACCCGATGCGCCTG -GCGAGTCTGGCGTTAATCGTATTGGGGATTATTGGTCTGAAACTCAGCACTCACTAACTACCAGGCTGCTGTACCCAAAT -AAATTTACTGACATCAAACCCTTCCCGGGTCGCGACTGCCAGCATCTCCTGTTTCACTTCGTCAGAAATGGTTGGCGTGC -GGGAGAGTATCCACAGGTAGTCGCGGTCCGGGCCGCAAACCAGCGCATGGCGGTATTCCCGATCGAGTGCAATAACGTTA -TAACCGCCATAGAAAGGACCAAAGAATGACACTTTCAGCGCAGCGCGAGTTGGTGCGCCGGTAAAGTACGCTTTCCCTTC -ACTCTGCTGCCACATTCCTCTGTCAGGGTTATAGCCTTTATTAATGACATTCAGGCCGCCGTCATCACGCAGGCTGTATG -TTGCGGTGACTTTTTCCAGTCCACGTTCAAAGCGGTGATCAAAACGGGCAATCTCATACCAGGTACCGAGATAACGTTTG -GCGTCGAAATTATTTACTACGGTCACGCCACGCGGCGGCGTAGGAGAACTGCAGGCAACGACCAGAAATGCAGCTGTCGC -TGCGGCAACGAGAGGGAGCAGGCGCATAAATGTTTCCTTACTGGTTTTTTTCTAAGTGTAGATGACAGCAAGGAAAAGCG -GAGAAAAGGTCCGAAAATTCGGACCCGATGGAATTTTACTGTAGAGCGTTAAGAATCTGCCAGGCGGCGTCGACTCTCGC -TGGATTGGGATAGTTTTTGTTTGCCAGCATCACGATACCCAGCTCTTTTTCTGGAATAAACGCGACATAGCTACCAAATC -CGCCGGTCGCCCCTGTTTTATGTACCCATGATGCGCGTACTGCAGGAGTTGGGGGCGTAATCGCTTTTACGGGGCGTGCT -GCCAGTGCAATTTTATTGTCACTGCCGTTAATGATGCTGTCAGGATTTACCGGCCAGTCCAGCATTTCCCAGCCCAGGCC -CTGATACATATCGCCGGTTTGCCAGTAGCGAGATTGTGCCAGTTGTATCCCTTGTTGAAGCGTTTTCTCATTGATATCAA -GGGGTTTTAAATTGCTTTGCACCCAGCGGGCCATATCTTCAATGGTCGACTTCACACCATAAGCTTCAGCATCTAACGCC -CCAGGCGAAACATGCACTGCCTTACCTTCGCGATATCCCCAGGCGTAATTCTTTTCTTCTGCGGGCGGTACATTAATCCA -CGTATGGTTGAGTTTGAGTGGCTGGAAGACACGAGTTTGCATCGCCTGCTCAAAACTCAAACCAGACGGCTTCACAGCCA -GTGCGCCGAACAAACCGATACTGGAGTTGGCATACAGACGTTGTGTTCCTGGAGCCCATGCAGGCTGCCAGTTTTGATAG -AAGCGCAGCAAGTCGCTTGAGGATTTCACCTCATCCGGCACCTGCAATGGCAGGCCGCCAGCAGTGTAGGTTGCGAGATG -TAATAGTGTGATCCCATTCCACTGTTTAGCGGTAAGTTCAGGCCAGTATTTTGTTGTGGGATCGCTTAACTTGATTTCCC -CTCGAGCAATAGCGTCGCCACCAAGCACGCCAGTAAATGTTTTGCTGACCGAACCTAACTCAAACAACGTTTGCTGTGTG -ACGGGCTGCTTTTTGGCGATGTCCGCATAGCCCCAGGTAAAGTAATAAGGTTTACCCTGATAAATTACCGCCACCGCCAT -ACCCGGGATCTTTTGTTGCTCTATAAGCGGGGTAATTGTGCGATGCACAATATCGTTGATTTGTTGAGGGGCAGCAAATG -TGGAGCAAGAGGCGGTAATTAATAAGGCGCAGAGCGTCGTTTTGAACATAGGGTCTGGTTTCCATACAAAACGGCCCGCC -ATAGGCGGGCCGGATTTACATTGGCGATGCGTTAGATTGTAACGACACCAATCAGCGTGACAACTGTCAGGATAGCAGCC -AGACCGTAGAAAACCCATTTGCCCGCAGGTACGTGGATTTTCAGATCGTGCATCGCGTGGTGCATACGGTGTAAACCACA -CCACAGCGGCAGAACGATCATCAGGAACAGGAATACGCGACCAATGAAGCTCTGCGCGAACGCCAGAACGCGCTCGTAGC -TCAGCGCATCACCCGGAAACAACCCCAGTGGCAGCAGAATACCCACCAGCAGGATCATCACCGGCGCAATGATGGCGCTC -CACATACCACCGGCCCCGAAGAGGCCCCAGAATACCGGTTCGTCAGAACGCTTTGGATTTGGATTAATCATCTCAGGCTC -CTTACCAGTACAGGGCAACAAACAGGATTACGATGGTGGCAACCACAGTTACCGCCCAGAGACTTTTGATAATTGGCTCT -GGTCCCATTTTTTCGTCTTTTACAATGATATTGGCCGCTTTCGGTGCCAGTTCAAACCAGGTTTTGGTGTGCAGCAGAGC -TGCCGCCAGAGTGATCAGGTTAATGATCACGATAACCGGGTTTTGTAAAAAGTCGACGAATCCCGCCCAGGCTTCCGGGC -CATTTTTCAGGGCAAACAGCCCGAAAATCAGTTCAATGCTGAACCACACAGCCGGAACCGCCGTGCCTTCGCGCAGCATG -TAAAAGCGATAAAACGGCAATTTTTTCCACCAGGTGGACGTCATTGGCCGTACATACGGTTTACGTTTAGTCGTCATGTT -GCACTCCTTAGCGTGGTTTCAGGGTCGCGATAAGAAAGTCTTTCGAACTTTCTACTTTGCCCTGCTGAATGGCCGCAGCC -GGATCGACGTGTTTCGGGCAGACTTCGGAGCAGTAGCCCACGAAAGTACAGCTCCATACGCCGTTCTGGCTGTTCAACTG -CGCCATACGCTCCTTCTTACCGTGGTCGCGGCTATCTTCGTTATAACGATGCGCCAGCGTAATGGCAGCCGGACCGATGA -ACTCTGGGTTCAGGCCAAACTGCGGGCACGCGGCGTAGCACAAACCACAGTTGATGCAACCGGAGAACTGGTGATACTTC -GCCATCTGCGCCGGGGTCTGGATGTTAGTACCCTGATCCGCGGTGCGGGAGTTGCCGATGATGTACGGTTTGATCGCTTC -CAGACTTTCGATGAAGTGGGTCATATCGACCACCAGATCGCGTTCAATCGGGAAGTTAGCTAACGCTTCAACCTTCATAC -CGTCGGTGTAATCACGCAGGAAGGTTTTACATGCCAGTTTTGGCACGTTGTTAACCATCATGCCGCAGGAACCACAAATC -GCCATACGGCAGGACCAGCGGTAGCTCAGGTTCGGTGCCAGGTTGTCTTTGATGTAGCCCAGCGCATCCAGTAATGAGGT -AGTTGCGTCATAAGGCACTTCATAGAATGCGCTATGCGGTGCGGTATCGACTTCCGGGTTATAGCGCACCACCTCAATTT -TCAGGTTTTTCATCTCAGCCATTCGCCTTCTCCTTCTTATTGGCTGCTTCCGCCTTATCGGCTGCATCCGCTTCGCCACC -GTAAACGCGTTTAGCTGGCGGCAGCGTAGTAATCTTCACGTCGCTGTACTCCAGGCGAGTCGTGCCATCAGCATCGCGGA -AGGCGAGGGTGTGTTTGAGGAAGTTGACGTCGTCACGCTCGGTGCAACCTTCGTCCAGACGCTGGTGCGCGCCGCGGGAC -TCTTTACGTGCCATTGCGGAGTGCGCCATACATTCAGCAACGTTCAGACCGTGGCCCAGTTCAATGGTGTAGAGCAGGTC -GGTGTTGAACACGCTGGAAGTGTCGGTGATGCGCACGCGCTTGAAGCGTTCCTGCAGCTCTGCCAGCTTGTCGATGGTTT -TCTGCATCAGTTCCGGCGTACGGTAGATACCGCAGCCTTCTTCCATAGCCAGGCCCATTTCGTCGCGGATCTTCGCCCAG -TTTTCGCCGCCATCCTGGTTAACCAGATCTTTCAGACGTTGTTCAACGCCAGCTGCCTGCGCTTCAATTGCCGCTTCGTT -GCCATTACCGGCAGTTGCTGCACGCTCTGTCGCTTGTTCACCGGCCAGACGGCCGAAGACCACCAGTTCCGCCAGGGAGT -TAGAACCCAGACGGTTTGCACCGTGCAGACCAACAGAGGAACATTCACCCACGGCGAACAGACCTTTAATGCGGGTTTCA -CAGTTCTGATCGGTTTCGATACCGCCCATGGTGTAGTGTGCGGTCGGACGTACCGGAATCGGTTCTTTAACCGGATCGAC -GCCAACGTACGCTTTCGCCAGTTCGCAGATGAACGGCAGACGTTCATGCAGTTTTTTCTCGCCGAGGTGACGCAAGTCGA -GATAAACCACATCGCCACGCGGCGTGGAGATGGTGTTGCCTTTACGCCATTCGTGCCAGAAGGCCTGAGAGACTTTGTCG -CGTGGACCCAGTTCCATATATTTGTTTTTCGGCTCGCCCAGCGGAGTTTCCGGGCCCATGCCGTAATCTTGCAGATAACG -GTAGCCATTTTTGTTGACCAGAATACCGCCTTCACCGCGGCAACCTTCGGTCATCAGGATACCGGAACCTGGCAGACCGG -TTGGGTGATACTGAACGAATTCCATGTCACGCAGCGGAACGCCGTGGCTTAGCGCCATACCCATACCGTCACCGGTAACG -ATGCCGCCGTTGGTGTTGTAACGATAAACGCGACCCGCACCGCCAGTAGCCATAACGACCGCGTTAGCACGGATCTGCAC -CAGCGTGCCTTCCATCATGTTCATTGCTACCAGGCCGCGAACATGACCATCATCAACCAGAATATCCAGCACGAAATGTT -CGTCAAAACGCTGGATCTGCGGGAATTGCAGAGAGGTCTGGAACAGCGTGTGCAGCATATGGAAGCCGGTCTTATCGGCG -GCGAACCAGGTGCGCTCGATTTTCATGCCGCCGAAGCGACGTACGTTGACGCTACCATCCGGGCGACGGCTCCATGGGCA -TCCCCACAGTTCCAGTTGGGTCATTTCGGTTGGGCAGTGGTGGACGAAATAATCCACGACATCCTGCTCACACAACCAGT -CGCCACCCGCTACTGTATCGTGAAAGTGATATTCGAAGCTGTCATGATCCTGCGCGACAGCGGCGGAGCCCCCTTCTGCA -GCAACGGTATGGCTACGCATCGGGTATACTTTTGAGATTAGTGCGATTTTTGCATTCGGATTTGCCTGCGCGGCAGCAAT -TGCAGCACGTAATCCCGCGCCACCGGCGCCTACAATGGCAAGATCGGCTTGAAAGGTTTGCACGACATTCCTCCAGATTG -TTTTTATCCCACAGCCACGTACTTCAGGGTAAGTACCTGAAAGTTACGGTCTGCGAACGCTATTCCACTGCTCCTTTATA -GGTACAACAGTATAGTCTGATGGATAAGTCTGAAATTTGACGAGATCGATTTTTTTAGTGCGCAAGAGGGCTAAATTATC -ACTGAAGATGATTAATTTAATTACTAAACCATCAGATCGTGCTTTTTTTAGTCACTGCCCACCGCTGTTTGATTCCTGCG -TAAAATTTGTCTCGCCGTCGCGTTGCGAGTAGACTTCGTGCCCTTGTCAAAAACTGGAGATTTAACTATGAGCGAAACGG -CATCCTGGCAGCCGAGCGCATCCATTCCTAACTTATTAAAACGCGCGGCGATTATGGCGGAGATCCGTCGTTTCTTTGCC -GATCGTGGAGTGCTGGAGGTGGAGACGCCTTGTATGAGCCAGGCGACGGTAACCGATATTCATTTGGTCCCGTTTGAGAC -ACGTTTCGTTGGCCCCGGGCATTCGCAGGGGATGAATCTCTGGTTAATGACCAGCCCGGAATACCATATGAAACGCCTGC -TGGTTGCCGGTTGTGGGCCGGTATTCCAGCTGTGCCGCAGCTTCCGTAATGAAGAGATGGGGCGTTATCACAACCCTGAG -TTCACTATGCTGGAGTGGTATCGACCGCACTATGATATGTACCGGTTGATGAACGAGGTGGACGATCTCTTACAACAGGT -GCTGGACTGCCCGGCAGCAGAAAGCCTTTCTTATCAACAAGCTTTCTTGCGTTATCTGGAAATTGACCCGCTCTCTGCCG -ACAAAACGCAACTGCGGGAAGTCGCAGCGAAACTGGATTTGAGCAATGTTGCTGATACCGAAGAAGACCGCGACACGCTG -CTACAATTGCTGTTTACCTTTGGCGTAGAGCCAAATATTGGCAAAGAAAAACCGACCTTTGTGTACCACTTTCCAGCCAG -CCAGGCATCACTGGCGCAAATCAGTACCGAAGATCATCGGGTCGCTGAACGCTTTGAGGTTTATTATAAAGGTATTGAGC -TGGCGAATGGTTTCCATGAATTGACGGATGCCCGTGAGCAGCAACAACGCTTTGAACAAGATAACCGTAAGCGCGCGGCG -CGCGGTTTGCCGCAGCACCCCATTGACCAGAATCTGATTGAAGCCTTGAAAGTCGGTATGCCTGACTGTTCCGGCGTGGC -ATTAGGTGTTGATCGTCTGGTGATGTTGGCGCTGGGCGCGGAGACACTGGCTGAAGTCATCGCCTTTAGCGTTGACCGGG -CATAATTCTGAAAAATTACTGAATTAACAGCGAAGAATGGCGTGATAAGCGCCATTCTGTAGCATATGTTTTCATTTTTC -CGTTAAAGGCCACAATTTAAGACTGGATATTTGATATCATCCAGGTATCAATTCTGTATTGGTTTTTACGCTGCCTGCTC -AATGTTGCGCAGTGCAGTTCAGTGGGCACGTGTTATACACGCGCTGAAATGAAGGATGGTTTCATGCCTCACACGATAAA -AAAGATGAGTCTGATAGGACTCATATTGATGATCTTTACTTCCGTATTTGGATTTGCCAATAGCCCATCGGCTTATTACT -TAATGGGTTATAGTGCGATTCCCTTTTATATATTTTCTGCATTGTTATTCTTTATTCCATTCGCCTTAATGATGGCTGAA -ATGGGAGCTGCTTATCGCAAAGAAGAAGGCGGTATCTATTCCTGGATGAATAATAGTGTCGGACCACGTTTTGCCTTCAT -TGGTACGTTTATGTGGTTTTCCTCTTATATCATCTGGATGGTGAGTACCTCCGCGAAAGTTTGGGTACCGTTCTCAACAT -TCCTCTATGGTAGCGACATGACCCAGCACTGGCGTATTGCCGGACTGGAGCCTACGCAGGTGGTTGGTCTGCTGGCTGTG -GCATGGATGATTCTGGTCACCGTCGTTGCTTCTAAGGGGATTAATAAAATTGCCCGCATTACTGCGGTGGGCGGTATTGC -AGTAATGTGTCTGAATTTAGTATTGCTGTTAGTAAGCATTACTATTTTGTTATTAAATGGTGGGCATTTCGCGCAGGATA -TTAATTTCCTTGCATCACCGAACCCGGGTTATCAGTCCGGTCTGGCAATGCTATCGTTTGTGGTATTTGCCATTTTTGCC -TATGGCGGAATTGAAGCGGTTGGTGGTCTGGTCGATAAAACGGAAAATCCAGAAAAGAACTTTGCCAAAGGTATTGTTTT -TGCCGCTATTGTTATTTCAATCGGTTATTCGCTGGCAATATTTTTATGGGGCGTCAGCACAAACTGGCAGCAGGTATTAA -GTAATGGTTCCGTTAACCTCGGCAATATTACCTATGTGCTGATGAAGAGCCTTGGGATGACGCTGGGTAATGCACTGCAT -TTGTCACCTGAAGCGTCATTGTCGCTGGGCGTATGGTTTGCGCGTATTACTGGACTTTCGATGTTCCTCGCCTATACCGG -TGCGTTCTTTACGCTTTGCTATTCACCGTTGAAAGCCATCATCCAGGGGACGCCGAAAGCATTGTGGCCGGAACCGATGA -CGCGCCTGAATGCGATGGGGATGCCGTCTATCGCCATGTGGATGCAGTGCGGGTTGGTTACTGTCTTCATCCTGCTGGTT -TCGTTTGGTGGCGGTACCGCATCGGCGTTCTTTAACAAGCTGACGCTGATGGCGAACGTGTCTATGACGCTTCCTTACCT -GTTCCTCGCGCTGGCTTTCCCGTTCTTTAAAGCACGTCAGGATCTCGACAGACCGTTTGTGATTTTCAAAACGCATTTGT -CGGCAATGATTGCGACAGTGGTTGTCGTACTGGTGGTGACATTTGCGAACGTCTTCACCATCATTCAACCTGTGGTTGAA -GCCGGAGACTGGGACAGCACATTGTGGATGATTGGCGGCCCTGTCTTCTTCTCGCTGTTAGCGATGGCGATTTACCAGAA -CTATTGCAGCAGAGTGGCAAAAAATCCGCAGTGGGCGGTGGAATAACCCGATGCCCTATCGTCTACCTGACGATAGGGCG -TAAAGACAGGAAATGTTATGGATGACACCAGCCGGGACCCGGCAATAACCGAAGATGAAATCAGGGCGCTGCAATTTTCT -GCCGGGGATGTAGCGGAAATAGAGCAGACGATTCTCTCTTTTGTCGATGCCTGCCACACCCGTAAAGTGGCGATGGTGGT -GGGTAGCACCATTAACACCCTCAAAGATCGCGATGGTAAACGGTGGGGAAACCTGCCGGATATTTATTGCGCTTATCTTA -TCCGATGTCTGGTTTTTCGCGGGGAATTAGTGGGATACGGCGATTTGTTTCGTATGCGCTATAGCGAAATTAAGCGACCG -GTTACCTTATGAGTGCGCGCATGTTTGTCTTATGCTGCATCTGGTTTATTGTGGCGTTCCTCTGGATAACCATCACTTCC -GCGCTGGACAAAGAGTGGATGATTGATGGACGCGGGATTAACAACGTCTGCGATGTGTTGATGTATCTCGAAGAAGACGA -TACCCGTGATGTTGGTGTGATAATGACGTTACCGCTCTTTTTCCCTTTTCTCTGGTTCGCTTTGTGGCGAAAAAAACGCG -GCTGGTTTATGTACGCCACCGCGCTGGCTATTTTCGGCTACTGGCTGTGGCAGTTTTTTCTGCGCTATCAGTTTTGTTTG -TGAGCCGGATTGGTTCATCCGGCACACAAACTTACAAACTTCCCGCCTGACGACCTTTGCCCGCAGACGTCAGCGTTCTC -CCCGTTTGTTTACCGTTGAGGCTTTCCAGACGCATCTGGAAGGGCGGGAATGGCATATCGATACCGTGGGCATGGAAGCC -AGCCAGAATCAGCTGGTGGATCTCATGGCGTAGCGGCATACGGTGACCCATCTCAGCGGCGTAAATACGCAGCTCGAAAA -TCTGAATCCCCTGTTGCAGATCCACCAGGAAGACTTCCGGTGCCGGGTTGTCGATCACCAGCGAGCAGCGACGCGCTGCG -GTGAGCAGGATTTCCGTCACTTCTTCGCTATTGGCATCGGCAGGGGCCGGTATCGTCAACACCACGCGCGTGACCGAGTC -AGAGAGCGACCAGTTGATAAACTGCTCGGTAATAAACGCCTTGTTCGGCACGATTATCTCTTTACGGTCCCAGTCGCTGA -TGGTGGTGGCGCGGGTGTTAATTTTCGTCACGCTACCGGTGAGATCGCGAATTGTCACCGTATCGCCAATGCGAATCGGT -TTTTCGAACAGGATAATCAGACCAGAGATAAAGTTGGCGAAAATTTCCTGCAAACCAAAACCGAGACCAACACCGAGCGC -GGCAACCAGCCACTGCAATTTCGACCACTCAATACCAATCATTGAGAAGCCGACCAGCCCGCCAATCAGCATCAGCAGAT -ATTTGGTGATGGTGGTGATGGCGTAACCCGTACCCGGCGTTAAATCCAGGTGCTGCAAAATCGCCAGTTCCAGCAGCGCG -GGCAAGTTGCGCACCAGCTGCGTGGTGATGATAAACACCAGAATGGCAATCAGCACCGCACCGAGGGTAATTGGCTCCAG -ACTTTCTACGCCCTGTACCGTGGAGGTGACATCCCACAGCGAAATATTTTCGAGGAAGCCGAAAGCGGAATGGATTTCTG -ACCACAGCACAATGACAGAAAGCAGGGCGATCAACATCAAAATTGAGCGCACCAGCCGCAAGGATTGCGCACTGATGGCA -TCGAGATCGACTTCGCTTTCATCGACTTCAATTGCTCCTTCCGGGCTACTGTGATGATGCGCTTCCTCTTCGCCACGCGC -ACGTTGCGCTAACATCTCTGCCCGGCGATGCTTCGCCCGATCAAACGCCAGCCTGCGGCGCTGGATCAGCATCCAGCGGC -GGATAACGTGATAAACCACCAGTAGCAGGAACCAGATGGCAACCGAGGTTTCAAGCCTCGCTAACAGCGCCTGTGCCGTT -GCCAGATAACCCACCGCCGACGCCAGAATGGCAACCAACGGCGCGCCAATCATCATGTTCCACAGCATATGGTTGGTAAT -GTTGTCGCCGCTGCCCTCTTTGTTGAGATACAGCGGAATCCCGGCCTTTTTCAGGCTGAGGGTGACCACCGCCAGCGCAC -CGCAAATGAGGATAAAGCAAAGCCGTCCCAGCGAACCGGAGAATTCACGGTCGTCGAGGTTATCGAACATCATCAGCGCC -ATAATCAGCGGCACAATAAGCCCGATGCTCATCAGGTAGTAGCGCATCCCACGGGAAACACGTTCGCGCGGCCAGCCAAA -ATGAGCGATAAACAAGCCGTTCGGGCGGGCAAAGGTGGCGCAAATCATCACTACCCACAGCAGCGGCACGGTGGCCGTTA -CACCATCGCCAATCGCGACCGCCAGCGGATAAGGCCACGCCTCGCGCAAGCCGTAACCCAGCGTCATCCACAGCACCGGT -AACGGTGACGCGACGAGAATCGACCAGAAAAGAGTGCGCAACGTCAGCCAGAAGTGATCCTGAGTCACTTTGCCAACTTT -CGCCGCCGAACGTTCAAGAAAACGGGTGAAATAGCGGCGCGAGTAAATACTGCAACCGACCAGAATCAACGCGCCAAACA -GCGGCAAAATTGTCTCTTTGCTGGTCAGCATCATCACACTGGCTTTGCCCAACTGACTGAAGGTGTCCAGCGAAATGAGA -CGACGCAGATCCTGGGCGATTTCCAGCGGCCAGGCGATGGTCATCGGGCGCACGTCAGAGGTCCAGAACAGATAGCGGTG -CGTTGCTTCGTTCACCTCTTTCAGCGCATCCTCCAGTTGCCCGTTGGAGACTTTCAGCTTGGTCAGTTCCAATAGTAGCG -TGTCGCCACCCTGCAACAATGAGTTCAGCAACTCACGCTGAGTGCGCAGTTGTGCTTCCAGAATACGGTTTTGCTCGGCA -GTCAGCGGCTGACCGTCGGCCTGATGAATTTGCCGTAGCAGCGGCTGTTTATTAAGCAGATCCTCATAACGTAACCGTTG -CACACGCAACTGCGCCATTTCGGTATCAAGCTGTTGTGGTTTCGGCATTTCCGGCAGCCGTGCCACCTGCGCCCGCAGCG -CTTCGCCGAGCAGATTGGACGATCCCAGCCATTGCGACTGTTCACGCAGCGTATTCAACGCCTGCCGGACCTGTAACGTC -TGGCTGGCAGCCTGACGCTGTTGCGAGGCAACGAGATCCATCCGCTGCGCCTGTTGATTCAAAGCCGCCGATAGTTCGCG -GTTAATTTTGAATTGCGCGACGATATCTTTCGGCAAATCGGCGCTGTTTTCTGCCAGCAATTCGGTACTTTCCAGCGCCC -GCTCCGCCTCAAGCTGACGTTGGCTGTTTAATTGATTACGCAAGGCCTGCAAATACGCATCCAGTTGCTGGCTCTCTTTT -TCCGCCAGCTCTGAGCGTAAGCGCGCTAATTCCTGGCGGTTATTGGCAGACAGCTGCGCCAGCTCCAGTTCATCAACGAG -CGCCTTAAGACGTGCAGAGTCAGACTGCAACGCGAAATTTTGTGCCTGATTGAGCGGAGTATTGCCGGTAAGCGTTCCCA -GGCGGCGCTCGATCTCATTTAACTGACGGCGGGCGTCGGTTTGCTGTTGCGGCAGTTGATTCAGCGAATCGGCAATCTCG -CGGGCGCGCTCCTGCTCTTGCTGGGCCTGACGGCTTTTATCCAGCAACTGGCTGCTGACCTGGAGAATTTCCTGATTCAG -CGCGTCGGTAGACATTCCCGGCGACACGCTGCGCGGCTCGTCACGCATGTTGTTTAATTGTGCGCGCAGAGTAGCGGAGA -GTTTCGGATAATTATCGATAACTTGCTGATATTGTTTGATGCGCTCAAGGGAACCTTTTCGTTCCTCAAGCGCATTTAAG -GCAGACTGGAGCGCCTCTACGACTTCCGGCTGTGCGGGTTTCGCCGCTTTTGCCTGCTCCAGTTCCTGAGTGATTTGTTT -GCTATCGGGGGCCGTCGCGGCGTACGCCCCCCAACTGAGGCACCAGGCCATCAGAAAAGTGATAATCAGGCGCACGTCAG -CGTTTCCTTTGATGGATTAGACCTGGTCTTTTTTGTCGTCAACCAATGGGCTGGCGTCGTGTTCTGCTTCGATCTCTTCA -GCAGGAAGCGGGGCAGGTTCAGCGTCTGGCGTAACAAAGGTTTCGGTAGATACTGCCAGCGGCTGGCCAATTTTCGTGAC -AGACAGGCTTTCCAGTTGCTCAACCAGATTCACTTTACCCGGTGCAAACAGGTTGATAACGGTGGAACCGAGTTTAAAGC -GACCCATTTCCTGGCCTTTCAGCAGTGCCACAGAACCGTCGTTTTCCCCGGCAGGCCAGGTCCAGCGCTTGATGATACCT -TCGCGCGGCGGCGTAATGGTGCCCGCCCAGACCGTCTCAATGCTGCCAACAATCGTCGCTCCGACCAGAATCTGCGCCAT -TGGGCCAAATTCGGTATCGAAAAGGCAAATCACGCGTTCGTTACGGGCAAACAGATTCGGCACGTTCTGAGCCGTGAGAT -GGTTAACGGAGAAGAGATCGCCCGGCACGTAGATCATCTCACGCAGAATACCGTTGCACGGCATGTGTACGCGGTGGTAG -TCACGCGGGGAGAGGTAAGTGGTCACAAACGTACCGTTGCGGAACAGGTCCGCCATCAGATAGTTGCCTGCCAGCAGGGC -TTCGAGGCTGTAGTTGTGGCCTTTGGCTTGCAGGATTTTATCTTCTTCGATTTTACCCAACTGGCTGATAACGCCATCGG -CAGGCATGACCAGTACATTCGGATCGGTATCGATTGGGCGTACTTCGTCACGCAGCGGACGGACAAAGAATTCGTTAAAG -GTGCGGTAGCTGGCGGTGTCCGGCTTTTGCGCCTCTTTCATGTCGACCTTGTAGTATTTAACGAACAGATCGATAACCAG -TTTTGTCAGCCATCCTGCCCGCTTGCTTGCGCCCCAACCCGCCAGGCGAGTAAGCCATAGTTTCGGCAGAATGTACTGTA -GCGAAAGTTTAAATGAATTTAACAAGGTAGCCTCCAGGCCATTGTTTTGTCGTTCCTGATCCGGCCTACATGCCGGATCC -TGAAAAAAAGGGGACGATTCTAACGACGGTTAGCTTAATTGTCAGTCATCCGTATCAGAAAAGTTTTTACGCGTTTTTAC -CTGCGCCATGCTTTCCAGAATACGGTGATAGTTTTCGAAACGGGTTTCCGCGATTTTCCCTTCCTCAACCGCTTCCCGGA -TAGCGCAGCCCGGATCGGTATCGTGTTTGCAATCGCGATATTTACACAGACCTAAATAGTCATGGAATTCGACAAAGCCC -TGAGTGATTTGTTCCGGCTCCAGGTGCCAGAGGCCGAACTCACGCACTCCTGGGGAGTCAATCACATCACCGCCGTGCGG -GAAGTGATACAGCCGAGCGGCGGTCGTGGTGTGCTGACCGAGCCCCGAGTTGTCAGAGATATCGTTGGTCAGGATCTCTT -TTTGCAGCCCCAGCAACGCATTCAGCAGGCTGGATTTGCCGACGCCAGACTGCCCGGCAAAAATGCTGATGCGCCCGGTC -AACGCCTCTTCCAGCGGTTTTAGCCCATCCTGAGTATGGCTGGAAACCATCAATACGCGATAACCGATATTGCGGTAGAT -ATCCATCTGCTCGTTGACGAACGCCATGCCTTCGTCGTCCAGCAGGTCTATCTTGTTGAGCACAATAATCGGCTCAATCT -GCAAGGTTTCGCAGGCCACCAGGTAACGGTCGATAATATTGAGCGACAGCTCCGGCAAAATGGCGGAGACAATGACAATC -TGGTCGATGTTGGCGGCAATAGGTTTTACGCCGTCGTAGAAATCCGGACGCGTCAACACCGAGGTACGCTCATGCACCGC -TTCCACGATCCCTTTGACATTTACGCCTTCCGCCGCCGGTTTACCCGGACGCCAGACTACGCGGTCGCCGGTTACCAGCG -AACGGATGGTACGGCGAATATTGCAGCGGTGAACGTCGCCATCGGCGGATTCCACATCAGCGTGCATACCAAAGCGGCTG -ATGACGATACCTTCATCAGGCTCGCCAAACAGATTGTCGTCGTAGTCGGGCTTCTCCTTAGACGTTTTAAGACGACGCTG -GTGATTGGCGTTCACGCGGCGCTGCTGGCCTTTGGAGAGTTTATTTTTACTCAATCGTACAGACTCCTGGTCGCCCCTGA -TGGGCAAAACATCTATGATACACGCAATTGTGGATCAATATAGTCACTGTGAATGGGTGGAAAATAGCATGAGTGCCAAT -GAAAACAACCTGATTTGGATCGATCTTGAGATGACCGGTCTGGATCCCGAGCGCGATCGCATTATTGAGATTGCCACGCT -GGTGACCGATGCCAACCTGAATATTCTGGCAGAAGGGCCGACCATTGCAGTACACCAGTCTGATGAACAGCTGGCGCTGA -TGGATGACTGGAACGTGCGCACCCATACCGCCAGCGGGCTGGTAGAGCGCGTGAAAGCGAGCACGATGGGCGATCGGGAA -GCTGAACTGGCAACGCTCGAATTTTTAAAACAGTGGGTGCCTGCGGGAAAATCGCCGATTTGCGGTAACAGCATCGGTCA -GGACCGTCGTTTCCTGTTTAAATACATGCCGGAGCTGGAAGCCTACTTCCACTACCGTTATCTCGATGTCAGCACCCTGA -AAGAGCTGGCGCGCCGCTGGAAGCCGGAAATTCTGGATGGTTTTACCAAGCAGGGGACGCATCAGGCGATGGATGATATC -CGTGAATCGGTGGCGGAGCTGGCTTACTACCGCGAGCATTTTATCAAGCTGTAAAATTTTTCCTGGTCACGTAAGCGCCG -GAATCCACTTGCGGCGGCGTGATTTTGACGCTAAATTGAACGTCTTGCTGATAATTTCAGCACTTGAGATAAAAACGCAA -AAAAAACTTTTTTGGGGGGTTGCAGAGGGAAAGATTTCTCGTATAATGCGCCTCCCGTAACGACGCAGAAATGCGAAAAT -TACGAAAGCAAAATTAAGTAGTACGCGGGAATAGCTCAGTTGGTAGAGCACGACCTTGCCAAGGTCGGGGTCGCGAGTTC -GAGTCTCGTTTCCCGCTCCAAAATTTGAAAAGTGCTGCAAAGCACAGACCACCCAAGCGGGAATAGCTCAGTTGGTAGAG -CACGACCTTGCCAAGGTCGGGGTCGCGAGTTCGAGTCTCGTTTCCCGCTCCAAAATTTGAAAGTGCTGTAAGGCACAGAC -CACCCAAGCGGGAATAGCTCAGTTGGTAGAGCACGACCTTGCCAAGGTCGGGGTCGCGAGTTCGAGTCTCGTTTCCCGCT -CCAAATTCTTCTCTCAATAAAATATCCACAGCGACGCGATGCGTTATTGCTGGTTTTTGTTGTCTCTGACAAACTCTTGT -AAACAGAGTTATCCACAGCCTCAGGCTGTAATCTTAATTTCAAAGAAACTTCGCACGGTGAATAGTATTTTTTTAACCTA -TTGATAGATAAGTTAAAAATTAAGATTCCGTTTTGTCGAGTCGATCACTTGACGATTTTATTCGTCTTGAATTGCAATGC -GTTTTTATTTTTATTCACAAGCTGTGGATGAATCAGGCGTCACGCGGTAACCCTTTTTCAATCACCCGAACCAGACGCTG -TTTTTTCGGCAATTGCACTTCGACTATGCACGCATTTCGTCTCTCTATTTGCTGCGCAATCGCCCACGCTATGTGCTCAT -CGAGAAGTGGGTGCTCACCTTTACGACTTTCCAGCGCTGTCAAAATCGTTTCATCCCAAGGGGCATTGCCTAATGCTACG -GCGATATTACGCAGCCAACGCAGGTGACCAATACGACGAATCGCCGATCCTTCCGTGACTTTTAAAAACTTCTCTTCGCT -CCAGGCGAATAACTCAATGAGTTCCGGTGCGTGTAGCGGCTTACGCGGGCTGAAATCCTCTTCTGTGGTGAGTTGTGAAT -AGCGATTCCACGGGCAGATAAGCTGGCAGTCATCGCAACCGTAAATACGGTTTCCCATTAACGGTCGCAACTCTTCCGGG -ATCGCCCCTTCAAGTTCGATGGTGAGATAAGAGATACAGCGGCGAGCATCGACGGTATATGGCTCGACGATGGCACCGGT -CGGGCAAATCGTCATACAGGCCACGCATTTGCCGCATCCTTCCTCGACTGGTTGATCCACGGGCAGCGGAATATCGACCA -GCAATTCGCCTAAAAAGAAGAACGAACCGGCCTCGCGATTGAGGATAAGTGAGTGCTTACCTGTCCAGCCGAGCCCAGCT -TTTTCAGCTAACGGGCGCTCGAGAATAGGCGCAGAATCGACAAACGGTCTAAAATTCAGCGAAACACAATGTTGCTGAAT -CATCTCGCCCAGCTTTTTGAGTCGGTTGCGCAGAAGTTTGTGATAGTCACGGCCCAGCGCATAACGGCTAACATAGCCGA -GTTTGGGGTTTTTCAGCGTGCTGGCAAATGCGGCGTTAGCAGGAAGGTAATTCATCCGCACGCTGATCACGCGCAGCGTA -CCGGGCAATAACTCATGAGGGCGAGCGCGCAGCATACCGTGACGTGCCATCCAGTCCATTTCGCCGTGGTATTGTTTGTC -CAGCCATGCTTGCAGTTTGGGCTCGGACTCGCTGAGATCGGTATCGGTAATACCTACCTGCTGAAAGCCCAGTTCCAGCC -CCCACTGTTTAATTTTTTGCGCTAACTGATTGAGATCGAGGGGCTCTGACATGACGGACCATACAATGAAGAAAAACCCC -GTAAGTATACCACACACCGTCTGGTACGCCGACGATATCCGCCGCGGAGAACGCGAGGCGGCAGATGTGCTGGGGCTCAC -ACTCTATGAGCTGATGCTTCGCGCTGGCGAGGCCGCATTCCAGGTGTGTCGTTCGGCGTATCCTGACGCCCGCCACTGGC -TGGTGCTGTGCGGTCATGGTAATAACGGCGGCGATGGCTACGTGGTCGCGCGACTGGCCAAAGCGGTCGGCATTGAGGTC -ACGTTGTTGGCCCAGGAGAGCGACAAACCGTTGCCGGAAGAGGCCGCGCTGGCACGCGAAGCATGGTTAAACGCGGGTGG -CGAGATCCATGCTTCGAATATTGTCTGGCCCGAATCGGTAGATCTGATTGTTGATGCGCTGCTCGGTACCGGTTTGCGGC -AAGCGCCCCGCGAATCCATTAGCCAGTTAATCGACCACGCTAATTCCCATCCTGCGCCGATTGTGGCGGTTGATATCCCT -TCCGGCCTGCTGGCTGAAACTGGCGCTACGCCAGGCGCGGTGATCAACGCCGATCACACCATCACTTTTATTGCGCTGAA -ACCAGGCTTGCTCACTGGAAAAGCGCGGGATGTTACCGGACAACTGCATTTTGACTCACTGGGGCTGGATAGTTGGCTGG -CAGGTCAGGAGACGAAAATTCAGCGGTTTTCAGCAGAACAACTTTCTCACTGGCTAAAACCGCGTCGCCCGACTTCGCAT -AAAGGCGATCACGGGCGGCTGGTAATTATCGGTGGCGATCACGGCACGGCGGGGGCTATTCGTATGACGGGGGAAGCGGC -GCTGCGTGCTGGTGCTGGTTTAGTCCGAGTACTGACCCGCAGTGAAAACATTGCGCCGCTGCTGACTGCACGACCGGAAT -TGATGGTGCATGAACTGACGATGGACTCTCTTACCGAAAGCCTGGAATGGGCCGATGTGGTGGTGATTGGTCCCGGTCTG -GGCCAGCAAGAGTGGGGGAAAAAAGCACTGCAAAAAGTTGAGAATTTTCGCAAACCGATGTTGTGGGATGCCGATGCATT -GAACCTGCTGGCAATCAATCCCGATAAGCGTCACAATCGCGTGATCACGCCGCATCCTGGCGAGGCCGCACGGTTGTTAG -GCTGTTCCGTCGCTGAAATTGAAAGTGACCGCTTACATTGCGCCAAACGTCTGGTACAACGTTATGGCGGCGTAGCGGTG -CTGAAAGGTGCCGGAACCGTGGTCGCCGCCCATCCTGACGCTTTAGGCATTATTGATGCCGGAAATGCAGGCATGGCGAG -CGGCGGCATGGGCGATGTGCTCTCTGGTATTATTGGCGCATTGCTTGGGCAAAAACTGTCGCCGTATGATGCAGCCTGTG -CAGGCTGTGTCGCGCACGGTGCGGCAGCTGACGTACTGGCGGCGCGTTTTGGAACGCGCGGGATGCTGGCAACCGATCTC -TTTTCCACGCTACAGCGTATTGTTAACCCGGAAGTGACTGATAAAAACCATGATGAATCGAGTAATTCCGCTCCCTGATG -AGCAGGCAACATTAGACCTGGGCGAGCGGGTAGCGAAAGCCTGCGATGGCGCAACCGTAATCTATCTGTATGGCGATTTA -GGCGCAGGTAAAACCACCTTTAGCCGGGGCTTTTTACAGGCTCTGGGTCATCAGGGTAATGTCAAAAGCCCCACTTATAC -GCTGGTCGAACCCTATACGCTCGACAACTTAATGGTCTATCACTTTGATTTGTACCGCCTTGCCGATCCCGAGGAGCTGG -AGTTTATGGGGATCCGCGATTATTTTGCCAACGATGCCATCTGCCTGGTGGAGTGGCCACAACAAGGTACAGGTGTTCTT -CCTGACCCGGATGTCGAAATACACATTGATTATCAGGCACAAGGCCGTGAGGCGCGCGTGAGTGCGGTTTCCTCTGCGGG -TGAATTGTTGCTGGCGCGTTTAGCCGGTTAACCTTTGAAAGGTGGCGGGATGATGTATCGCATCAGAAATTGGTTGGTAG -CGACGCTGCTGCTGCTGTGCACGCCGGTGGGTGCCGCGACGCTCTCTGATATTCAGGTTTCTAACGGTAATCAACAGGCG -CGGATAACGTTGAGTTTTATTGGCGATCCTGATTATGCGTTTAGCCATCAAAGCAAACGCACCGTGGCGCTCGATATCAA -ACAAACGGGCGTGATTCAGGGACTGCCGTTGTTGTTCAGCGGCAATAATCTGGTGAAGGCGATTCGCTCTGGAACGCCTA -AAGATGCACAAACGCTACGGCTGGTGGTCGATCTTACCGAAAACGGTAAAACCGAAGCGGTGAAGCGGCAGAATGGCAGC -AATTACACTGTCGTCTTTACGATTAACGCCGATGTGCCGCCACCGCCTCCTCCGCCGCCCGTGGTTGCGAAACGCGTTGA -AACGCCTGCGGTTGTCGCACCGCGCGTCAGCGAACCGGCGCGCAATCCGTTTAAAACGGAAAGTAACCGCACTACGGGTG -TTATCAGCAGTAATACGGTAACGCGTCCGGCAGCGCGCGCGACGGCTAACACTGGCGATAAAATTATCATCGCTATTGAT -GCCGGACACGGCGGTCAGGACCCTGGCGCTATCGGCCCCGGTGGTACGCGGGAGAAAAATGTCACCATCGCCATCGCGCG -TAAATTGCGTACTTTGCTCAATGACGATCCGATGTTTAAAGGCGTTTTAACCCGTGACGGGGATTACTTTATCTCGGTGA -TGGGGCGCAGTGATGTGGCACGTAAGCAAAACGCCAATTTCCTCGTGTCGATTCACGCTGATGCCGCACCGAACCGCAGT -GCGACTGGCGCTTCCGTATGGGTGCTCTCTAACCGTCGCGCCAACAGTGAAATGGCCAGCTGGCTGGAGCAGCACGAGAA -ACAGTCGGAGCTGCTGGGTGGGGCGGGTGATGTGCTGGCGAACAGTCAGTCTGACCCCTATTTAAGCCAGGCGGTGCTGG -ATTTACAGTTCGGTCATTCCCAGCGGGTAGGGTATGATGTAGCGACCAGTATGATCAGTCAGTTGCAACGCATTGGCGAA -ATACATAAACGTCGACCAGAACACGCCAGCCTTGGCGTTCTGCGCTCGCCGGATATCCCATCAGTACTGGTCGAAACCGG -TTTTATCAGCAACAACAGCGAAGAACGTTTGCTGGCGAGCGACGATTACCAACAACAGCTGGCAGAAGCCATTTACAAAG -GCCTGCGCAATTACTTCCTTGCGCATCCGATGCAATCTGCGCCGCAGGGTGCAACGGCACAAACTGCCAGTACGGTGACG -ACGCCAGATCGCACGCTGCCAAACTAAGGACGATTGATGCCAATTCAGGTCTTACCGCCACAACTGGCGAACCAGATTGC -CGCAGGTGAGGTGGTCGAGCGACCTGCGTCGGTAGTCAAAGAACTAGTGGAAAACAGCCTCGATGCAGGTGCGACGCGTA -TCGATATTGATATCGAACGCGGTGGGGCGAAACTTATCCGCATTCGTGATAACGGCTGCGGTATCAAAAAAGATGAGCTG -GCGCTGGCGCTGGCTCGTCATGCCACCAGTAAAATCGCCTCTCTGGACGATCTCGAAGCCATTATCAGCCTGGGCTTTCG -CGGTGAGGCGCTGGCGAGTATCAGTTCGGTTTCCCGCCTGACGCTCACTTCACGCACCGCAGAACAGCAGGAAGCCTGGC -AGGCCTATGCCGAAGGGCGCGATATGAACGTGACGGTAAAACCGGCGGCGCATCCTGTGGGGACGACGCTGGAGGTGCTG -GATCTGTTCTACAACACCCCGGCGCGGCGCAAATTCCTGCGCACCGAGAAAACCGAATTTAACCACATTGATGAGATCAT -CCGCCGCATTGCGCTGGCGCGTTTCGACGTCACGATCAACCTGTCGCATAACGGTAAAATTGTGCGTCAGTACCGCGCAG -TGCCGGAAGGCGGGCAAAAAGAACGGCGCTTAGGCGCGATTTGCGGCACCGCTTTTCTTGAACAAGCGCTGGCGATTGAA -TGGCAACACGGCGATCTCACGCTACGCGGCTGGGTGGCCGATCCAAATCACACCACGCCCGCACTGGCAGAAATTCAGTA -TTGCTACGTGAACGGTCGCATGATGCGCGATCGCCTGATCAATCACGCGATCCGCCAGGCCTGCGAAGACAAACTGGGGG -CCGATCAGCAACCGGCATTTGTGTTGTATCTGGAGATCGACCCACATCAGGTGGACGTCAACGTGCACCCCGCCAAACAC -GAAGTGCGTTTCCATCAGTCGCGTCTGGTGCATGATTTTATCTATCAGGGCGTGCTGAGCGTGCTACAACAGCAACTGGA -AACGCCGCTACCGCTGGACGATGAACCCCAACCTGCACCGCGTTCCATTCCGGAAAACCGCGTGGCGGCGGGGCGCAATC -ACTTTGCAGAACCGGCAGCTCGTGAGCCGGTAGCTCCGCGCTACACTCCTGCGCCAGCATCAGGCAGTCGTCCGGCTGCC -CCCTGGCCGAATGCGCAGCCAGGCTACCAGAAACAGCAAGGTGAAGTGTATCGCCAGCTTTTGCAAACGCCCGCGCCGAT -GCAAAAATTAAAAGCGCCGGAACCGCAGGAACCTGCACTTGCGGCGAACAGTCAGAGTTTTGGTCGGGTACTGACTATCG -TCCATTCCGACTGTGCGTTGCTGGAGCGCGACGGCAACATTTCACTTTTATCCTTGCCAGTGGCAGAACGTTGGCTGCGT -CAGGCACAATTGACGCCGGGTGAAGCGCCCGTTTGCGCCCAGCCGCTGCTGATTCCGTTGCGGCTAAAAGTTTCTGCCGA -AGAAAAATCGGCATTAGAAAAAGCGCAGTCTGCCCTGGCGGAATTGGGTATTGATTTCCAGTCAGATGCACAGCATGTGA -CCATCAGGGCAGTGCCTTTACCCTTACGCCAACAAAATTTACAAATCTTGATTCCTGAACTGATAGGCTACCTGGCGAAG -CAGTCCGTATTCGAACCTGGCAATATTGCGCAGTGGATTGCACGAAATCTGATGAGCGAACATGCGCAGTGGTCAATGGC -ACAGGCCATAACCCTGCTGGCGGACGTGGAACGGTTATGTCCGCAACTTGTGAAAACGCCGCCGGGTGGTCTGTTACAAT -CTGTTGATTTACATCCGGCGATAAAAGCCCTGAAAGATGAGTGATATCAGTAAGGCGAGCCTGCCTAAGGCGATTTTTTT -GATGGGGCCGACGGCCTCCGGTAAAACGGCGTTAGCCATTGAGCTGCGTAAAATTTTACCAGTAGAGTTGATAAGCGTTG -ATTCTGCCCTTATTTACAAAGGGATGGATATCGGGACGGCGAAGCCGAACGCTGAAGAGTTACTCGCCGCGCCGCACCGA -TTGCTGGATATTCGCGATCCGTCGCAGGCTTACTCGGCTGCTGATTTTCGCCGCGATGCGCTGGCGGAAATGGCCGATAT -CACCGCGGCGGGGCGGATCCCACTGTTAGTGGGCGGTACGATGTTGTATTTCAAGGCATTGCTGGAAGGGTTGTCGCCGC -TACCGTCGGCAGACCCGGAAGTACGGGCCAGAATTGAGCAACAGGCGGCAGAGCAAGGTTGGGAGTCATTGCATCGTCAA -CTTCAGGAGGTAGATCCGGTTGCGGCAGCAAGGATTCATCCAAATGATCCACAAAGGCTTTCCCGGGCACTGGAAGTTTT -TTTCATTTCGGGTAAAACTTTAACGGAACTGACGCAAACGTCAGGAGACGCTCTACCGTATCAGGTGCATCAGTTCGCCA -TCGCCCCGGCGAGCCGTGAACTGCTCCATCAACGCATTGAGCAGCGTTTTCATCAGATGTTGGCTTCAGGTTTTGAAGCA -GAAGTCCGGGCGCTTTTTGCCCGAGGAGATTTGCATACGGACTTGCCTTCCATTCGTTGCGTGGGTTATCGCCAGATGTG -GTCTTACCTTGAAGGCGAAATCTCATACGATGAAATGGTTTATCGAGGTGTTTGCGCCACGAGACAGTTGGCGAAGCGGC -AGATAACCTGGCTGCGTGGTTGGGAAGGGGTTCACTGGCTTGACAGTGAAAAACCAGAACAGGCGCGTGACGAAGTATTA -CAGGTTGTTGGTGCTATCGCAGGCTGAATGTGTACAATTGAGACGTATCGTGCGCAATTTTTTCAGAATCGAAAGGTTCA -AAGTACAAATAAGCATATAAGGAAAAGAGAGAATGGCTAAGGGGCAATCTTTACAAGATCCGTTCCTGAACGCACTGCGT -CGGGAACGTGTTCCAGTTTCTATTTATTTGGTGAATGGTATTAAGCTGCAAGGGCAAATCGAGTCTTTTGATCAGTTCGT -GATCCTGTTGAAAAACACGGTCAGCCAGATGGTTTACAAGCACGCGATTTCTACTGTTGTCCCGTCTCGCCCGGTTTCTC -ATCACAGTAACAACGCCGGTGGCGGTACCAGCAGTAACTACCATCATGGTAGCAGCGCGCAGAATACTTCCGCGCAACAG -GACAGCGAAGAAACCGAATAAGGTTTCGGGCTGTTTTTTTACACGGGGAGCCAGCGATCCTGCGTTCCCCGCTGATCTAT -TTAGAGGGTTATACGCTTGTTTGACCGTTATGATGCTGGTGAGCAGGCGGTACTGGTACACATCTATTTTACGCAAGACA -AAGATATGGAAGACCTCCAGGAGTTTGAATCTCTGGTCTCTTCCGCCGGTGTCGAAGCATTGCAGGTGATTACCGGTAGC -CGTAAAGCGCCGCACCCAAAGTATTTTGTAGGTGAAGGTAAAGCAGTTGAAATTGCGGAAGCTGTCAAAGCGACGGGTGC -TTCGGTCGTTCTTTTTGACCATGCCCTGAGCCCGGCGCAAGAGCGTAACCTGGAGCGTTTGTGCGAGTGTCGTGTTATCG -ACCGCACCGGCCTTATTTTAGATATTTTCGCCCAACGTGCGCGTACCCATGAGGGTAAGTTGCAGGTTGAGCTGGCGCAG -CTGCGCCATCTGGCTACGCGCCTGGTGCGTGGCTGGACCCACCTTGAAAGACAGAAAGGCGGGATAGGTTTGCGTGGTCC -GGGTGAAACCCAGCTCGAAACCGACCGTCGTTTGTTGCGTAATCGCATCGTGCAGATACAGTCGCGCCTGGAAAGAGTTG -AAAAGCAGCGTGAGCAGGGGCGGCAATCGCGTATCAAAGCCGACGTTCCTACTGTTTCGCTGGTGGGATATACCAACGCC -GGTAAATCTACCCTTTTCAATCGCATCACCGAAGCGCGGGTCTACGCGGCAGACCAGTTGTTTGCCACCCTCGACCCGAC -GTTGCGGCGTATTGACGTTGCAGATGTCGGTGAAACCGTACTTGCAGATACCGTAGGGTTTATTCGCCACCTGCCGCACG -ATCTGGTGGCGGCATTTAAAGCCACGTTACAAGAGACGCGGCAAGCCACATTACTGCTGCACGTCATTGATGCGGCGGAT -GTGCGTGTACAAGAAAACATCGAAGCGGTGAATACGGTTCTTGAAGAGATCGACGCTCACGAGATCCCAACCCTGCTGGT -GATGAACAAGATCGATATGCTGGAAGATTTCGAACCGCGTATTGATCGGGACGAAGAGAACAAACCGAACCGTGTCTGGC -TTTCCGCACAGACCGGAGCGGGGATACCACAGCTTTTTCAGGCTTTGACGGAGCGGCTTTCCGGCGAGGTGGCGCAGCAT -ACATTGCGTCTGCCACCGCAGGAAGGGCGTCTGAGAAGTCGTTTTTATCAGCTTCAGGCAATAGAAAAAGAGTGGATGGA -GGAGGACGGCAGCGTAAGTCTGCAAGTTCGTATGCCGATCGTTGACTGGCGTCGCCTCTGTAAACAAGAACCGGCGTTGA -TCGATTACCTGATCTAACGGCGTAGCGTCTGAAGCGTGGAGTCATATCCTCTGGCGTCGAAAGACAACAGGGATCACCGC -ATAACAAATATGGAGCACAAACATGGCGTGGAATCAGCCCGGTAATAACGGACAAGACCGCGACCCGTGGGGAAGCAGCA -AACCTGGCGGCAACTCTGAGGGAAATGGAAACAAAGGCGGTCGCGATCAAGGGCCACCTGATTTAGATGATATCTTCCGC -AAACTGAGCAAAAAGCTCGGTGGTCTGGGCGGCGGTAAAGGCACCGGATCTGGCGGTGGCAGTTCATCGCAAGGCCCGCG -CCCGCAGCTTGGCGGTCGTGTCGTTACCATCGCAGCGGCAGCGATTGTCATTATCTGGGCGGCCAGTGGTTTCTATACCA -TTAAAGAAGCCGAACGCGGCGTGGTAACACGCTTTGGTAAATTCAGCCATCTGGTTGAGCCGGGTCTGAACTGGAAACCG -ACGTTTATCGACGAAGTCAAACCGGTGAACGTGGAAGCCGTGCGTGAACTGGCCGCTTCTGGTGTGATGCTGACGTCGGA -CGAGAACGTAGTGCGCGTTGAGATGAACGTGCAGTACCGCGTCACCAATCCGGAAAAATATCTGTATAGCGTGACCAGCC -CGGATGACAGCCTGCGTCAGGCTACCGACAGCGCCCTGCGTGGAGTTATCGGTAAATACACCATGGACCGCATTCTGACG -GAAGGTCGTACCGTGATTCGTAGCGATACTCAGCGCGAACTGGAAGAGACGATTCGTCCGTATGACATGGGTATCACGCT -GCTGGACGTCAACTTCCAGGCTGCTCGTCCGCCGGAAGAAGTAAAAGCGGCGTTTGACGATGCGATTGCCGCGCGTGAAA -ACGAACAGCAATACATTCGTGAAGCAGAAGCGTATACCAACGAAGTTCAGCCGCGTGCGAACGGTCAGGCGCAACGTATC -CTCGAAGAGGCGCGTGCGTACAAGGCCCAGACCATCCTGGAAGCTCAGGGTGAAGTGGCGCGCTTTGCTAAACTTCTGCC -GGAATATAAAGCCGCGCCGGAAATTACTCGCGAGCGTCTGTATATCGAGACGATGGAAAAAGTGTTGGGTAACACCCGCA -AAGTGCTGGTTAACGATAAAGGTGGCAACCTGATGGTTCTGCCGTTAGACCAGATGCTGAAAGGTGGTAACGCCCCTGCG -GCGAAGAGCGATAACGGTGCCAGCAATCTGCTGCGTCTGCCGCCAGCCTCTTCCTCCACAACCAGTGGAGCAAGCAACAC -GTCGTCCACCAGTCAGGGCGATATTATGGACCAACGCCGCGCCAACGCGCAGCGTAACGACTACCAGCGTCAGGGGGAAT -AACGATGCGTAAGTCAGTTATCGCGATTATCATCATCGTGCTGGTAGTGCTTTACATGTCTGTCTTTGTCGTCAAAGAAG -GTGAGCGCGGTATTACGCTGCGTTTTGGTAAGGTACTGCGTGACGATGACAACAAACCTCTGGTTTATGAGCCGGGTCTG -CATTTCAAGATACCGTTCATTGAAACGGTGAAAATGCTCGACGCACGTATTCAGACCATGGACAACCAGGCCGACCGCTT -TGTGACCAAAGAGAAGAAAGACCTGATCGTCGACTCTTACATCAAATGGCGCATCAGCGATTTCAGCCGTTACTACCTGG -CAACGGGTGGTGGCGACATTTCGCAAGCGGAAGTGCTGTTGAAACGTAAGTTCTCTGACCGTCTGCGTTCTGAAATTGGT -CGCCTGGACGTGAAAGATATCGTCACCGATTCCCGTGGTCGTCTGACCCTCGAAGTACGTGACGCGCTGAACTCCGGTTC -TGCGGGTACAGAAGATGAAGTTACTACCCCGGCGGCAGATAACGCCATTGCCGAAGCGGCAGAGCGCGTAACGGCTGAGA -CGAAGGGCAAAGTTCCGGTCATCAACCCGAACAGTATGGCGGCGCTGGGTATTGAAGTTGTCGATGTGCGTATCAAGCAG -ATCAACCTGCCGACCGAAGTGTCTGAAGCGATCTACAACCGTATGCGCGCCGAGCGTGAAGCGGTAGCGCGTCGTCACCG -TTCACAAGGTCAGGAAGAAGCGGAAAAACTGCGCGCGACTGCCGACTATGAAGTGACCAGAACGCTGGCAGAAGCTGAGC -GTCAGGGCCGCATCATGCGTGGTGAAGGCGATGCCGAAGCAGCCAAACTGTTTGCTGATGCATTCAGTAAAGATCCGGAC -TTCTACGCATTCATCCGTAGCCTGCGTGCTTATGAGAACAGCTTCTCTGGCAATCAGGACGTGATGGTCATGAGCCCGGA -TAGCGATTTCTTCCGCTACATGAAGACGCCGACTTCCGCAACGCGTTAATATAACGACTGCGGTACAGGTCAATAAAGCC -ACCGCATCCTCAGGGATGTCGGTGGTTTTCTTTTTCTATAAGGATAATGAATGAATTCGACAATCTGGCTGGCGCTTGCC -CTGGTTTTGGTACTGGAAGGTTTAGGGCCGATGCTTTACCCGAAGGCATGGAAGAAGATGATCTCTGCGATGACCAATTT -GCCCGATAATATTTTACGTCGTTTTGGCGGTGGACTTGTGGTTGCGGGCGTTGTGGTCTACTACATGTTGAGGAAAACGA -TTGGCTGAACAAAAAACAGACTGATCGAGGTCATTTTTGAGTGCAAAAAGTGCTGTAACTCTGAAAAAGCGATGGTAGAA -TCCATTTTTAAGCAAACGGTGATTTTGAAAAATGGGTAACAACGTCGTCGTACTGGGCACCCAATGGGGTGACGAAGGTA -AAGGTAAGATCGTCGATCTTCTGACTGAACGGGCTAAATATGTTGTACGCTACCAGGGCGGTCACAACGCAGGCCATACT -CTCGTAATCAACGGTGAAAAAACCGTTCTCCATCTTATTCCATCAGGTATTCTCCGCGAGAATGTAACCAGCATCATCGG -TAACGGTGTTGTGCTGTCTCCGGCCGCGCTGATGAAAGAGATGAAAGAACTGGAAGACCGTGGCATCCCCGTTCGTGAGC -GTCTGCTGCTGTCTGAAGCATGTCCGCTGATCCTTGATTATCACGTTGCGCTGGATAACGCGCGTGAGAAAGCGCGTGGC -GCGAAAGCGATCGGCACCACCGGTCGTGGTATCGGGCCTGCTTATGAAGATAAAGTAGCACGTCGCGGTCTGCGTGTTGG -CGACCTTTTCGACAAAGAAACCTTCGCTGAAAAACTGAAAGAAGTGATGGAATATCACAACTTCCAGTTGGTTAACTACT -ACAAAGCTGAAGCGGTTGATTACCAGAAAGTTCTGGATGATACGATGGCTGTTGCCGACATCCTGACTTCTATGGTGGTT -GACGTTTCTGACCTGCTCGACCAGGCGCGTCAGCGTGGCGATTTCGTCATGTTTGAAGGTGCGCAGGGTACGCTGCTGGA -TATCGACCACGGTACTTATCCGTACGTAACTTCTTCCAACACCACTGCTGGTGGCGTGGCGACCGGTTCCGGCCTGGGCC -CGCGTTATGTTGATTACGTTCTGGGTATCCTCAAAGCTTACTCCACTCGTGTAGGTGCAGGTCCGTTCCCGACCGAACTG -TTTGATGAAACTGGCGAGTTCCTCTGCAAGCAGGGTAACGAATTCGGCGCAACTACGGGGCGTCGTCGTCGTACCGGCTG -GCTGGACACCGTTGCCGTTCGTCGTGCGGTACAGCTGAACTCCCTGTCTGGCTTCTGCCTGACTAAACTGGACGTTCTGG -ATGGCCTGAAAGAGGTTAAACTCTGCGTGGCTTACCGTATGCCGGATGGTCGCGAAGTGACTACCACTCCGCTGGCAGCT -GACGACTGGAAAGGTGTAGAGCCGATTTACGAAACCATGCCGGGCTGGTCTGAATCCACCTTCGGCGTGAAAGATCGTAG -CGGCCTGCCGCAGGCGGCGCTGAACTATATCAAGCGTATTGAAGAGCTGACTGGTGTGCCGATCGATATCATCTCTACCG -GTCCGGATCGTACTGAAACCATGATTCTGCGCGACCCGTTCGACGCGTAATTCTGGTACGCCTGGCAGATATTTTGCCTG -CCGGGCGAACAGTGTGATACATTGCTGTGTCGGGTAAGCCATTACGCTATCCGACACAGTGTTAAATCCTCGCTTTTTTC -CTTCCCCGAACTGAAATAAATTAGCGACACAGCTTGTGGCTGGTTTATCATCAATATAAATGTATTTTTTCCCGATTTCC -CTTTTGAGGTTGATGTGCAGTTAACGAGTTTCACTGATTACGGATTACGTGCGCTGATCTACATGGCGTCATTGCCAGAA -GGGCGGATGACCAGTATTTCTGAAGTGACTGACGTCTACGGCGTCTCCCGTAATCATATGGTCAAAATAATCAATCAACT -TAGTCGTGCCGGCTACGTGACTGCTGTTCGTGGAAAAAATGGCGGCATTCGCCTGGGTAAACCGGCGAGTGCGATACGTA -TTGGTGATGTGGTGCGCGAGCTGGAGCCCTTATCGCTGGTGAATTGCAGCAGTGAGTTTTGCCACATTACACCTGCCTGT -AGGTTGAAACAGGCACTTTCTAAGGCCGTGCAAAGTTTTCTTACGGAACTGGATAACTACACGCTTGCCGATTTGGTTGA -AGAGAATCAACCGCTTTATAAATTATTGCTGGTGGAGTGACGAAAATCTTCATCAGAGATGACAACGGAGGAACCGAGAT -GTCACAAGATCCTTTCCAGGAACGCGAAGCTGAAAAATACGCGAATCCCATCCCTAGTCGGGAATTTATCCTCGAACATT -TAACCAAACGTGAAAAACCGGCCAGCCGTGATGAGCTGGCGGTAGAACTGCACATTGAAGGCGAAGAGCAGCTTGAAGGC -CTGCGTCGCCGCCTGCGCGCGATGGAGCGCGATGGTCAACTGGTCTTCACTCGTCGTCAGTGCTATGCGCTGCCGGAACG -CCTCGACCTGGTGAAAGGTACCGTTATTGGCCACCGTGATGGCTACGGCTTTCTGCGGGTTGAAGGGCGTAAAGATGATT -TGTATCTCTCCAGCGAGCAGATGAAAACCTGCATTCATGGCGATCAGGTGCTGGCTCAGCCGCTGGGTGCTGACCGTAAA -GGTCGTCGTGAAGCGCGTATTGTCCGCGTACTGGTGCCAAAAACCAGCCAGATTGTTGGTCGCTACTTTACCGAAGCGGG -CGTCGGCTTTGTGGTTCCTGACGACAGCCGTCTGAGCTTCGATATCTTAATCCCGCCCGATCAGATCATGGGCGCGCGGA -TGGGCTTTGTGGTCGTAGTCGAACTGACTCAGCGTCCGACTCGCCGCACCAAAGCGGTGGGTAAAATCGTCGAAGTGCTG -GGCGACAATATGGGCACCGGCATGGCGGTTGATATCGCTCTGCGTACCCATGAAATTCCGTACATCTGGCCGCAGGCTGT -TGAGCAACAGGTTGCCGGGCTGAAAGAAGAAGTGCCGGAAGAAGCAAAAGCGGGCCGTGTTGATCTGCGCGATTTACCGC -TGGTCACCATTGATGGCGAAGACGCCCGTGACTTTGACGATGCAGTTTACTGCGAGAAAAAACGCGGCGGCGGCTGGCGT -TTATGGGTCGCGATTGCCGACGTCAGCTACTATGTGCGTCCGTCAACGCCGCTGGACAGAGAAGCGCGTAACCGTGGCAC -GTCGGTGTACTTCCCTTCGCAGGTTATCCCGATGCTGCCGGAAGTGCTCTCTAACGGCCTGTGTTCGCTCAACCCGCAGG -TAGACCGCCTGTGTATGGTGTGCGAGATGACGGTTTCGTCGAAAGGCCGCCTGACGGGCTACAAATTCTACGAAGCGGTG -ATGAGCTCTCACGCGCGTCTGACCTACACCAAAGTCTGGCATATTCTGCAGGGCGATCAGGATCTGCGCGAGCAGTACGC -CCCGCTGGTTAAGCATCTCGAAGAGTTGCATAACCTCTATAAAGTGCTGGATAAAGCCCGTGAAGAACGCGGTGGGATCT -CATTTGAGAGCGAAGAAGCGAAGTTCATTTTCAACGCTGAACGCCGTATTGAACGTATCGAACAGACCCAGCGTAACGAC -GCGCACAAATTAATTGAAGAGTGCATGATTCTGGCGAATATCTCGGCGGCGCGTTTCGTTGAGAAAGCGAAAGAACCGGC -ACTGTTCCGTATTCACGACAAGCCGAGCACCGAAGCGATTACCTCTTTCCGTTCAGTGCTGGCGGAGCTGGGGCTGGAAC -TGCCGGGCGGTAACAAGCCGGAACCGCGTGACTACGCGGAGCTGCTGGAGTCGGTTGCCGATCGTCCTGATGCAGAAATG -CTGCAAACCATGCTGCTGCGCTCGATGAAACAGGCGATTTACGATCCAGAAAACCGTGGTCACTTTGGCCTGGCATTGCA -GTCCTATGCGCACTTTACTTCGCCGATTCGTCGTTATCCAGACCTGACGCTGCACCGCGCCATTAAATATCTGCTGGCGA -AAGAGCAGGGGCATCAGGGCAACACCACTGAAACCGGCGGCTACCATTATTCGATGGAAGAGATGCTGCAACTGGGTCAG -CACTGTTCGATGGCGGAACGTCGTGCCGACGAAGCAACGCGCGATGTGGCTGACTGGCTGAAGTGTGACTTCATGCTCGA -CCAGGTAGGTAACGTCTTTAAAGGCGTAATTTCCAGCGTCACTGGCTTTGGCTTCTTCGTCCGTCTGGACGACTTGTTCA -TTGATGGTCTGGTCCATGTCTCTTCGCTGGACAATGACTACTATCGCTTTGACCAGGTAGGGCAACGCCTGATGGGGGAA -TCCAGCGGCCAGACTTATCGCCTGGGCGATCGCGTGGAAGTTCGCGTCGAAGCGGTTAATATGGACGAGCGCAAAATCGA -CTTTAGCCTGATCTCCAGCGAACGCGCACCGCGCAACGTCGGTAAAACGGCGCGCGAGAAAGCGAAAAAAGGCGATGCAG -GTAAAAAAGGCGGCAAGCGTCGTCAGGTCGGTAAAAAGGTAAACTTTGAGCCAGACAGCGCCTTCCGCGGTGAGAAAAAA -ACGAAGCCGAAAGCGGCGAAGAAAGACGCGAGAAAAGCGAAAAAGCCATCGGCGAAAACGCAGAAAATAGCTGCAGCGAC -CAAAGCGAAGCGTGCGGCGAAGAAAAAAGTGGCAGAGTGATCAATACCCTCTTTAAAAGAAGAGGGTTAGATTGCTGACA -AAATGCGCTTTGTTCATGCCGGATGCGGCGTGAACGCCTTATCCGGCCTACATAATCACGCAAATTCAATATATTGCAGA -GATCATGTAGGCCGGATAAACGTAGTGCATCAGGCAAAACGTAAACAACGAGTACATTAATGAGCGAAATGATTTACGGC -ATCCACGCAGTGCAGGCCCTGCTGGAGCGCGCCCCTGAACGTTTTCAGGAAGTCTTTATTTTAAAAGGCCGTGAAGATAA -ACGTCTGTTACCGCTGATTCACGCCCTTGAGTCTCAGGGCGTGGTTATCCAGTTGGCAAACCGCCAATATCTCGACGAGA -AAAGCGACGGTGCCGTGCATCAGGGCATTATCGCCCGCGTGAAGCCAGGACGTCAGTATCAGGAAAACGATCTGCCGGAT -CTGATCGCTTCGCTCGATCAACCGTTCCTGCTGATCCTCGACGGCGTAACCGATCCGCACAACCTCGGCGCGTGCCTGCG -TAGTGCGGACGCCGCAGGCGTTCATGCGGTGATTGTGCCGAAAGATCGCTCCGCACAGCTCAACGCTACGGCGAAAAAAG -TAGCCTGCGGCGCGGCAGAAAGCGTTCCGCTGATTCGGGTGACTAACCTTGCGCGCACCATGCGTATGTTGCAGGAAGAG -AATATCTGGATCGTCGGTACGGCAGGCGAGGCGGATCATACACTCTATCAGAGCAAAATGACCGGACGCCTGGCGCTGGT -GATGGGTGCGGAAGGTGAAGGTATGCGTCGCCTGACTCGTGAACATTGCGATGAGTTGATCAGCATCCCGATGGCTGGAA -GCGTTTCTTCCCTGAACGTTTCGGTTGCGACCGGAATTTGCTTATTTGAAGCGGTGCGCCAGCGCAGCTAATTTCTCAGA -ATTATGAAAAGCCATCCAGATTTGGATGGTTTTTTTTTGTCTATAGCTGGTAAGATAATTACGTATTGCAAATATTCATT -TTATTAATATTTAAACTTAATCTATATGGAATAATATATGACATGGAATCCGTTGGCGCTAGCGACGGCGCTGCAAACTG -TACCTGAACAAAATATTGATGTAACAAATAGCGAGAACGCATTAATTATTAAAATGAATGATTATGGCGATTTGCAAATC -AATATTCTTTTTACTTCCCGCCAAATGATTATCGAAACCTTTATTTGTCCGGTGAGTAGTATCAGCAATCCAGATGAATT -TAATACCTTCTTATTAAGAAATCAGAAGATGATGCCGTTGTCATCGGTAGGGATCTCCAGCGTACAACAGGAAGAGTATT -ACATTGTTTTCGGGGCGTTATCGCTTAAATCTTCTCTTGAAGATATCCTGCTTGAGATAACCTCGCTGGTAGATAACGCA -TTGGATCTGGCTGAAATTACAGAAGAATATTCACACTAATTACAAGGACGGGTATTTATGGGAATTTTAAAAAGTTTATT -TACGCTGGGGAAATCGTTTATCTCCCAGGCGGAAGAATCCATTGAAGAAACCCAGGGCGTGCGCATGCTGGAACAGCATA -TTCGTGACGCTAAAGCTGAACTCGATAAAGCCGGAAAATCTCGCGTTGATCTGCTGGCGCGGGTGAAATTAAGTCACGAT -AAGCTGAAAGATTTACGTGAGCGCAAAGCCAGTCTGGAAGCCCGTGCGCTGGAAGCGTTAAGCAAGAACGTTAATCCGTC -GTTGATTAACGAAGTTGCTGAAGAAATCGCGCGCCTTGAGAATCTCATTACCGCTGAAGAGCAAGTGTTGTCGAATCTGG -AAGTCTCCCGTGATGGCGTGGAAAAAGCAGTTACAGCGACAGCGCAGCGTATCGCTCAGTTTGAGCAGCAAATGGAAGTC -GTTAAAGCCACTGAAGCCATGCAGCGTGCACAACAGGCTGTAACAACCTCTACCGTTGGCGCATCTTCCAGCGTTTCGAC -AGCGGCAGAATCCTTAAAACGCCTGCAAACGCGTCAGGCCGAACGTCAGGCTCGCCTGGATGCTGCCGCACAGTTGGAGA -AAGTCGCAGACGGTCGCGACCTTGACGAAAAGCTGGCGGAAGCCGGAATTGGCGGTAGCAATAAAAGTAGCGCCCAGGAT -GTATTAGCAAGACTGCAACGCCAACAGGGCGAGTAATTTTTTTGCCAGCCTCGCTAAAAGGCTGGCAACTATTTTAAGGA -TAAAATATGTCTGGTTTTTTCCAGCGTCTGTTTGGCAAGGATAATAAGCCAGCTATCGCTCGTGGTCCGCTGGGACTTCA -TCTCAATAGTGGCTTTACGCTCGACACGTTAGCGTTTCGTTTGCTGGAAGATGAATTGCTGATTGCGCTGCCGGGTGAGG -AATTTACGGTAGCCGCCGTCAGCCACATCGATCTGGGCGGCGGTAGTCAGATTTTCCGCTACTACACTTCAGGCGATGAG -TTTCTGCAAATCAATACCACCGGCGGCGAAGATATTGATGACATTGATGATATCAAGCTCTTTGTCTATGAAGAGAGCTA -CGGTATCAGTAAAGAGAGTCACTGGCGCGAGGCGATCAACGCCAAAGCGATGGGAGCAATGACCTTAAACTGGCAGGAAA -AACGCTGGCAGCGATTTTTTAACAGCGAAGAACCGGGAAATATCGAACCCGTCTACATGCTGGAAAAAGTAGAAAATCAA -AACCATGCCAAATGGGAGGTCCATAATTTTACCATGGGCTACCAACGGCAAGTAACCGAAGATACTTACGAATATTTGCT -GCTAAATGGTGAGGAATCTTTTAACGATCTCGGCGAGCCAGAGTGGTTATTTTCGCGCGCGTTGGGTGTCGATATCCCGC -TGACATCACTTCATATTATTGGTTAATTACAAGGACGTTTACAATGCATATACTGGATTCACTTCTTGCCTTTAGCGCCT -ATTTTTTTATTGGCGTGGCTATGGTGATTATTTTTCTGTTTATCTATTCTAAAATTACACCGCACAACGAATGGCAGTTA -ATCAAAAACAATAATACCGCGGCGTCACTGGCGTTCAGCGGTACATTGTTGGGTTACGTTATCCCCTTATCCAGTGCGGC -AATCAATGCGGTGAGTATTCCAGACTATTTCGCCTGGGGCGGGATTGCACTGGTGATTCAGTTACTCGTTTTTGCTGGTG -TCAGACTTTATATGCCCGCATTAAGCGAAAAAATTATTAATCACAATACCGCAGCAGGAATGTTTATGGGAACCGCCGCG -CTGGCTGGCGGTATTTTTAACGCAGCTTGTATGACATGGTAATGGACGATCATGGCCAGAAAACGCAAATCAAGAAATAA -CAGTAAAATTGGTCACGGAGCGATTAGTCGCATTGGTAGACCGAATAATCCTTTTGAACCGTGCCGCAATCGCTACGCAC -AAAAATACTTAACGTTGGCGCTAATGGGCGGTGCCGCTTTTTTCGTATTGAAAGGTTGTAGCGATAGTAGCGATGTCGAT -AACGACGGCGACGGAACGTTTTACGCGACAGTGCAGGATTGTATTGATGACGGTAATAATGCCGACATTTGCGCGCGTGG -CTGGAACAACGCCAAAACGGCATTTTATGCCGATGTTCCGAAGAATATGACTCAGCAGAACTGTCAGTCTAAGTACGAAA -ATTGCTACTACGACAATGTTGAACAGAGTTGGATCCCGGTCGTTTCTGGATTTTTGTTAAGCCGGGTTATTCGTAAAGAT -CGCGATGAGCCGTTTGTTTATAACAGCGGCGGTTCCTCTTTTGCTTCGCGCCCAGTCTGGCGCAGCACTTCTGGTGATTA -CTCCTGGCGCTCCGGTTCTGGCAAAAAAGAGTCTTACTCTTCGGGCGGCTTTACCACCAAAAAAGCGTCTACCGTTTCTC -GCGGCGGCTATGGTCGTTCTTCCAGCGCCCGTGGGCATTGGGGAGGCTAATCATGCTGAGACACAACGTTCCTGTGCGAC -GGGATCTGGACCAGATCGCCGCTGACAACGGTTTCGACTTTCATATCATCGACAATGAAATCTATTGGGATGAGAGTCGG -GCTTACCGTTTTACTCTGCGCCAGATTGAAGAGCAGATCGAAAAACCGACTGCGGAACTGCATCAGATGTGCCTTGAGGT -GGTGGATCGCGCGGTAAAAGATGAAGAGATCCTGACGCAACTGGCGATCCCGCCGTTGTACTGGGATGTGATCGCTGAAA -GCTGGCGCGCCCGCGATCCTTCGCTGTATGGACGGATGGATTTTGCCTGGTGTGGCAATGCGCCGGTGAAGCTGCTGGAG -TACAACGCCGATACGCCAACTTCATTGTACGAGTCGGCTTATTTCCAGTGGCTGTGGCTGGAGGATGCCCGGCGCAGCGG -CATTATTCCGCGTGATGCCGATCAGTACAATGCTATTCAGGAACGCCTGATTTCACGCTTTAGCGAGCTTTACAGTCGGG -AACCGTTTTATTTTTGCTGCTGTCAGGACACCGATGAAGACAGGAGTACCGTGCTGTACTTGCAGGACTGCGCCCAGCAG -GCAGGGCAGGAGTCGCGGTTTATCTACATTGAAGATCTCGGTTTGGGCGTCGGCGGCGTACTGACCGATCTTGATGATAA -TGTCATCCAGCGTGCATTTAAGCTGTATCCGCTGGAGTGGATGATGCGTGACGATAACGGTCCGCTGCTGCGCAAGCGTC -GCGAGCAATGGGTGGAGCCGTTATGGAAAAGTATCTTGAGTAATAAAGGGCTAATGCCGCTGCTTTGGCGCTTCTTCCCT -GGTCATCCTAATCTTCTTGCGTCCTGGTTCGATGGCGAGAAACCGCAGATTGCCGCTGGCGAAAGCTATGTGCGTAAACC -AATCTATTCGCGCGAAGGCGGCAACGTCACCATTTTTGACGGCAAGAATAACGTTGTTGACCACGCTGATGGTGATTACG -CCGATGAACCGATGATCTACCAGGCGTTTCAACCTCTGCCGCGGTTTGGCGATAGCTACACACTCATCGGTAGCTGGATT -GTCGATGATGAAGCGTGCGGAATGGGGATCCGTGAAGATAACACACTGATCACCAAAGACACCTCACGTTTCGTTCCGCA -TTACATTGCTGGATAAGAATGTTTTAGCAATCTCTTTCTGTCATGAATCCATGGCAGTGACCATACTAATGGTGACTGCC -ATTGATGGAGGGAGACACAGTGCACTGGCAAACTCACACCGTTTTTAATCAACCTATACCATTAAATAACAGCAACTTAT -ACCTGTCTGATGGCGCGCTCTGCGAAGCGGTAACGCGTGAAGGTGCTGGCTGGGATAGCGATTTTCTAGCCAGTATTGGT -CAGCAGTTAGGAACGGCTGAATCCCTTGAACTGGGGCGGCTGGCGAATGTGAATCCGCCTGAATTATTGCGCTACGATGC -GCAAGGACGCCGTCTGGACGATGTGCGTTTTCACCCCGCCTGGCACCTGCTGATGCAGGCGCTATGTACCAATCGGGTGC -ACAATCTTGCCTGGGAAGAAGACGCTCGCTCCGGCGCATTTGTGGCGCGCGCGGCGCGTTTTATGTTACATGCGCAGGTT -GAGGCAGGGTCGTTATGTCCGATAACCATGACCTTTGCCGCCACGCCATTGTTGTTACAGATGTTACCCGCGCCGTTTCA -GGACTGGACCACGCCGCTATTGAGCGATCGCTACGATTCTCACTTATTGCCAGGTGGGCAAAAACGCGGTTTGTTGATTG -GCATGGGAATGACGGAAAAGCAGGGCGGTTCCGATGTTATGAGCAACACCACCCGTGCAGAGCGTCTGGAAGATGGCTCT -TATCGGCTGGTGGGGCATAAATGGTTTTTCTCGGTTCCGCAAAGCGATGCGCATCTGGTGCTGGCGCAGACCGCGGGTGG -TCTGTCCTGCTTTTTTGTGCCGCGCTTTTTGCCTGACGGGCAACGCAACGCGATTCGCCTCGAGCGGCTGAAAGATAAGC -TGGGTAATCGCTCTAACGCCAGTTGCGAAGTGGAGTTTCAGGATGCCATTGGTTGGTTGTTGGGGCTGGAAGGGGAAGGA -ATTCGTCTGATCCTGAAAATGGGTGGGATGACGCGTTTTGATTGCGCCCTGGGTAGCCATGCCATGATGCGCCGTGCATT -TTCGCTGGCGATTTATCATGCACATCAACGCCATGTTTTTGGTAATCCATTGATCCAACAGCCCCTTATGCGTCATGTCT -TAAGTCGCATGGCACTTCAGCTTGAAGGGCAAACGGCGTTGCTGTTTCGTCTTGCGCGAGCGTGGGACCGGCGTGCCGAT -GCCAAAGAAGCCCTGTGGGCGCGTTTATTTACGCCTGCGGCAAAATTTGTGATCTGCAAAAGAGGTATGCCGTTTGTGGC -CGAAGCGATGGAGGTGCTGGGCGGCATTGGTTATTGCGAGGAGAGTGAGCTGCCGCGGCTTTACCGGGAGATGCCGGTAA -ACAGTATTTGGGAAGGTTCCGGCAATATTATGTGCCTGGATGTGTTGCGCGTTCTCAATAAGCAAGCGGGCGTATACGAC -TTATTGTCGGAAGCATTTGTGGAAGTGAAAGGGCAGGATCGCTATTTTGATCGCGCGGTTCGTCGTTTACAGCAGCAGCT -GCGTAAGCCAGCTGAAGAACTGGGGCGAGAGATTACTCATCAGCTATTCCTGCTGGGCTGCGGTGCGCAAATGTTGAAAT -ATGCTTCTCCGCCAATGGCGCAGGCGTGGTGTCAGGTGATGTTAGATACGCGCGGCGGCGTACGGTTGTCAGAGCAGATC -CAGAATGATTTATTGCTGCGGGCGACGGGGGGAGTGTGTGTGTAAGCGTATACGACTGATGCGACGCTGGTTTCGATTAA -CTAAATGAAATATGTGAAAATTGTAGGCCGGACAAGGCGCTCGCGCCGCATCCGGCATTGTTCATTTGCTGTAGATGACA -CTCATGCATACAGTATCGCCTGTACGCGCCAGTTATCAGGCTGCTGGTCTTCGTACATGGTAATAATGCGGTACCATGAC -GCACCTTGTTCATCGGCCTTTAACGCCACGATACGTTCCACGTCCTGCGGATCCCCTGAAATATTGCTAACTGAGATCTG -ACCTATTTCATTCAGGCCCGTCACGCAGTCAGCACTGGCGAATTCTGCAGACTGTGCCGTGGCGCTCGCAGGATAAGTCA -CTAATTGCAGCGAGGGTGAGGCAAGTAATTGTTTCATCGTCAGCTCCATTTTTCGTTTCCCCACATGTTGCAGGGCATTC -CATCGCGGTAATAAACGCCCAGGCTTCCAGCCGGTAATTTATTGTGCACAGGTAAACGCATAGGGACGCAAAGCAATGTA -AAGCTGACTATGTAAGTTGTCTGATTTATTTACGGTACAAAATGGCTTGTGAATACCACTGTCCTGTCACGATGGTTTCG -TCCACCATGACGACAACGTAATAATCAGCTTTTGCAGCGACAGCTTTCGCTTTGATTTCTGCTAATGCGTCATCCGGAGA -ACCCCGAACCATCGTGCTTACGCTACCTATTCGCTGTAACCCTTGCGTCTGGTCGCGGCGAATCTCTTGCGGATGGTCCG -TTACTGGCGGTGCTGGCTGTGGCGTACCTTGCAGTGCGCTACAGGCACTTAACATCAACACCAATAATAAACTGGCAAAC -CGGTAAATAACGCTATTACGTTTCCTGCTAACCATAGTGTAGTGCCTTATTAATTTAACTTTGGGGGAATGTTCCCGAAT -TGTTACCTGGTACGCGATTTTCGAATGAAAACGTGACGAAAGCGTAACCCACATCTCAACATTATGAACTAATACCGCCA -GCAGAAACTTGTGCTAAGGATTTCTTCATGTCATACCAGACAAAAAGGAGAGACAGATGATTGAAATAGAATCACGCGAG -CTGGCAGATATTCCCGTTCTTCATGCTTATCCTGTCGGGCAAAAAGATACCCCGTTACCGTGCGTAATTTTTTATCACGG -CTTTACTTCATCCAGTCTGGTGTATAGCTATTTTGCCGTTGCGCTGGCGCAGGCTGGTTTGCGGGTGATCATGCCGGATG -CGCCCGATCACGGTAGCCGTTTTAGTGGTGACGCAGCGCGGCGGTTAAATCAATTCTGGCAAATCTTGCTACAAAGTATG -CAGGAATTCACTACTTTACGTGCGGCAATAGCCGAAGAAAACTGGCTGCTTGATGACCGTCTGGCAGTCGGTGGCGCGTC -GATGGGCGCGATGACGGCACTGGGGATTACCGCTCGCCACCCCACGGTGAGATGTACCGCCAGCATGATGGGATCGGGCT -ATTTTACATCACTCGCCCGTTCACTGTTTCCACCGCTGATACCTGAAACGGCAGCACAGCAGAATGAATTCAATAACATT -GTCGCGCCACTGGCAGAGTGGGAAGCGACAAACCACCTGGAACAACTTAGTGACAGACCTCTACTGCTGTGGCATGGCCT -CGACGATGACGTTGTGCCTGCCGACGAATCACTACGTTTGCAGCAGGCCTTAAGCGAGACGGGACGGGATAAACTGCTAA -CCTGTTCATGGCAGCCAGGCGTGCGTCACCGCATTACGCCTGAGGCGTTAGATGCTGCCGTGACATTTTTCCGCCAGCAT -CTTTAAACACGCAGAATGCTGACCCCTTGCGCTTCCAGTTGTTGCAGGATTTCCGGGTTAGCATTTTTGCCGGTGATAAG -CATATCGATTTGATCGGCACGGCTAAAAAGCATTCCCGCGCGTTCGCCAATCTTACTGCTATCAACCAGTACCACCAGTT -TCCCTACCACGCTCAGCATCTTCTGCTCTGCCATTGCTGTCAGCATATCGGTTTTATACAACCCTTCTGCGGTCAGCCCT -TTTCCGCTGGTAAACATCCAGTGCCCGGCATAGAGACTGTTTTCGCTGCCCTGCGGGCTTAAAGTGATGGACTGACTTTT -GTTGTACTGTCCGCCCATAATGATCACGCTGTCATGTTCTTGATCGATCAGGTAATTTGCCAGCGGTAGATAATTAGTGA -TGATTTGCACTGGCTTGCCACACATTTCCCGCCCAAGCAGAAACGCGGTGGAGCCGCAGTTGATGACTACGCTTTCGCCC -GGATTAACCAGCTGCGAGGCCGCTTTAGCGATACGTACTTTTTCATCGTGATTCTGCGCCTGATGCAGATTCATCGGCGT -CCAGCGCGGGCGCTGTTGGGTAATAGCTTCTGCGCCATTGCGCACTTTTTTCAGTTTGCCGCTTTCGTCAAGTTTATTGA -TATCGCGTCGCGCAGTGGCAGGCGAAATTCCCAGACGCTCAACGACTTTCTCAACGGTCACAAAGCCCAATTGTGCGAGC -ATTTCCAGGAGGATTTGATGTCTTTGTGCTTCAGTCATGAGCTATTCCGATAAAATTTGATTTTTTTAGATGATATTTGA -AATAGCCAGGAAATACTACGCCGGATAGCGCGAACTTCTCCACGCTACCCGGTATAAACGACAGATTACAGGAATGACTT -GAACGGCAGATCCGGTTCAATAGTGAAGCAATCATCGAAACCGCGCGGATAGTGGTACTCGAAGTTGTCTTTATCCAGCG -GCCAGGTAAATTTGCCACCCACCTGCCAGATAAACGGCTTGAAGCCATACTTCAGGCGATCTTTTTTCATCTCCCACAGC -ACGCGGATCTCTTGCGGATCGGCCTGGAAGTTTGACCAGATATCGTGGTGGAACGGGATCACTACTTTCGCATTCAGCGC -TTCACCCATACGCAGCATATCGGCGCTGGTCATTTTGTCGGTGATACCGCGCGGGTTTTCGCCGTACGATCCTAACGCCA -CGTCGATCTGATGTTCGTTACCGTGCTTCGCATAATAGTTAGAGTAGTGGGAGTCGCCGCTGTGATACAGGGAGCCGCCA -GGCGTTTTGAACAGGTAGTTCACCGCGCGATCGTCCATGCCATCTGGCAGTACGCCAGCCGCTTTTTGATCGGCAGGCAG -GGTGATCAGTGCAGTACGGTCGAAAGCATCAAGCGCATGAATTTCAATGTCTTTCACTTTTACTACATCGCCCGGTTTGA -CCACGATGCAACGCTCTTTCGGTACGCCCCAGCCAATCCACAAATCCACACAGGTTTTCGGTCCGATAAACGGTACGTCA -TCTGCACAATTCTGCATCACGGCAGCAGCGACGTTAACGTCGATATGATCGTTGTGATCGTGAGTCGCCAGTACCGCGTC -GATCTGGCGAATCGCAAACGGATCAAGAACAAACGGGGTGGTACGCAGGTTTGGCTGCAGTTTTTTCACGCCAGCCATGC -GCTGCATCTGGTGACCCTGTTTCATTAACGGGTTACCGTGACTTTGTTTGCCAGTGCCGCACCAGAAATCAACGCAAACG -TTGGTGCCACCTTCCGATTTCAACCAGATCCCGGTGCAGCCAAGCCACCACATCGCAAATGTGCCAGGAGCGACCTGTTC -TTGTTCAATTTCTTCATTCAACCAGCTACCCCACTCCGGGAAAGTGCTCAGGATCCAGGATTCACGGGTGATACTTTTCA -CTTTACTCATCGCCATTTACCTTCATGATAGTTCAATTCGAATCAATATGTGATTGGTTTTGATTAATCCTGACACTATT -TTTTCAGGAAGGCAATGACCATTTTTTGACTTTTTGCCAGGGAAGTTGTTGTTGATTTTGAGTATGGAAAGATTTAATGG -AATGTGTAATTCAATTAACTAAATGAATTTAAATGGATAATTGTTTCGTTGTGTGAATCCCACTCTATCCATGTGGAATT -ATTTGCGGGTCGCGTCACATTTAATCATAAATAATCTTGTTGTGATTACTTTTGAAAATTAGAGTGAGTGCACAACATTC -CGGGTGTGTGGAATACCCGGTTACCTCTTCTTCAGGAGATCGTTATGGAGATCCTCTACAACATCTTTACCGTGTTTTTT -AACCAGGTCATGACCAATGCCCCGTTGTTGCTGGGTATTGTGACCTGTCTGGGCTACATCCTACTGCGCAAAAGTGTCAG -CGTTATTATTAAAGGCACGATTAAAACCATAATTGGTTTCATGTTGTTGCAGGCAGGGTCCGGCATCCTCACCAGCACCT -TCAAACCGGTGGTGGCGAAAATGTCCGAAGTCTACGGCATTAACGGCGCAATTTCCGATACCTACGCTTCAATGATGGCA -ACCATCGACCGCATGGGCGATGCCTATAGCTGGGTGGGTTACGCCGTATTGTTAGCGCTGGCGCTGAACATCTGTTACGT -GCTGTTGCGTCGCATTACCGGCATTCGCACAATCATGTTGACCGGCCACATCATGTTCCAGCAGGCCGGGTTGATTGCCG -TTACGCTGTTTATCTTCGGCTACTCCATGTGGACCACCATTATCTGTACCGCGATTCTGGTTTCGCTCTACTGGGGCATC -ACTTCCAACATGATGTACAAGCCGACTCAGGAAGTGACGGATGGCTGTGGTTTCTCCATCGGTCACCAGCAGCAGTTTGC -ATCATGGATTGCCTATAAAGTCGCGCCGTTCCTCGGCAAAAAAGAGGAGAGCGTTGAAGACCTCAAATTGCCGGGCTGGC -TGAACATTTTCCACGACAACATCGTCTCCACGGCGATTGTGATGACCATCTTCTTTGGTGCCATTCTGCTCTCCTTCGGT -ATCGACACCGTGCAGGCGATGGCAGGCAAAGTGCACTGGACGGTGTACATCCTGCAAACTGGTTTCTCCTTTGCGGTGGC -GATCTTCATCATCACGCAGGGTGTGCGCATGTTTGTGGCGGAACTCTCTGAAGCATTTAACGGCATTTCCCAGCGCCTGA -TCCCAGGTGCGGTTCTGGCGATTGACTGTGCAGCTATCTATAGCTTCGCGCCGAACGCCGTGGTCTGGGGCTTTATGTGG -GGCACCATCGGTCAGCTGATTGCGGTTGGCATCCTGGTCGCCTGCGGCTCCTCGATCCTGATTATTCCTGGCTTTATCCC -GATGTTCTTCTCTAACGCCACCATCGGCGTGTTCGCTAACCACTTCGGCGGCTGGCGTGCGGCGCTGAAGATTTGTCTGG -TGATGGGGATGATCGAAATCTTTGGTTGCGTCTGGGCGGTGAAACTCACCGGTATGAGTGCCTGGATGGGCATGGCGGAC -TGGTCGATTCTGGCACCGCCGATGATGCAAGGCTTCTTCTCCATCGGTATCGCCTTTATGGCCGTCATCATTGTAATTGC -ACTGGCTTATATGTTCTTCGCTGGCCGCGCGCTGCGCGCAGAAGAAGATGCAGAAAAACAACTGGCAGAACAGTCTGCTT -AATAAGGAGTTTTGATTATGACCGTACGTATTCTGGCTGTGTGTGGCAACGGACAAGGCAGTTCCATGATCATGAAGATG -AAAGTGGACCAGTTTTTAACCCAATCAAACATTGACCATACGGTAAACAGCTGCGCGGTTGGCGAGTACAAAAGCGAGTT -GAGTGGCGCGGATATCATCATCGCTTCTACGCACATTGCGGGCGAAATCACCGTGACCGGCAACAAATACGTGGTTGGCG -TGCGCAACATGCTCTCTCCTGCCGACTTTGGCCCGAAACTGCTGGAAGTGATCAAAGAGCATTTCCCGCAGGATGTGAAG -TAAGGACGCGCCATGAAATTACGTGATTCGCTGGCGGAAAATAAATCCATCCGCCTGCAGGCTGAAGCAGAGACATGGCA -GGAAGCGGTGAAAATCGGCGTTGACCTGCTGGTGGCGGCAGATGTGGTAGAGCCGCGTTACTACCAGGCGATTCTGGATG -GCGTTGAACAGTTCGGTCCTTATTTCGTTATCGCTCCGGGCCTGGCAATGCCGCACGGGCGTCCGGAAGAGGGCGTTAAG -AAAACCGGTTTCTCTCTGGTAACGCTGAAAAAGCCGCTGGAGTTCAACCACGATGACAACGATCCGGTGGATATCCTCAT -CACCATGGCGGCGGTCGATGCCAATACTCACCAGGAAGTGGGCATCATGCAGATCGTCAACCTGTTTGAAGATGAAGAGA -ATTTTGACCGTTTACGCGCCTGCCGTACCGAGCAGGAAGTACTGGATCTCATTGACCGCACCAACGCGGCAGCTTAAGAA -GGAATTGAACATGTCATTACCGATGTTGCAAGTCGCGCTGGACAACCAGACTATGGATAGCGCCTACGAAACCACTCGCC -TGATTGCCGAAGAAGTCGACATTATCGAAGTGGGCACCATTCTGTGCGTGGGCGAAGGCGTGCGTGCGGTTCGTGACCTG -AAAGCGCTCTACCCGCACAAAATCGTACTGGCAGACGCCAAAATTGCCGATGCAGGCAAAATCCTTTCGCGTATGTGCTT -CGAAGCCAACGCTGACTGGGTGACGGTAATTTGCTGTGCGGATATCAACACCGCCAAAGGCGCGCTGGACGTGGCAAAAG -AGTTTAACGGCGACGTGCAGATCGAACTGACCGGTTACTGGACCTGGGAACAGGCGCAACAGTGGCGCGATGCAGGCATT -GGGCAGGTGGTTTATCACCGCAGCCGTGACGCGCAGGCCGCAGGCGTGGCGTGGGGCGAAGCGGACATCACCGCGATCAA -ACGTCTTTCCGATATGGGCTTCAAAGTCACCGTCACCGGAGGCCTGGCGCTGGAAGATCTGCCGCTGTTCAAGGGTATTC -CGATTCACGTCTTTATCGCGGGCCGTAGTATCCGTGATGCCGCTTCTCCGGTGGAAGCCGCACGTCAGTTCAAACGTTCC -ATCGCTGAACTGTGGGGCTAAGGAGCGGATATGTTGTCCAAACAAATCCCGCTTGGCATCTATGAAAAAGCGCTCCCCGC -CGGGGAGTGCTGGCTGGAACGCCTGCAACTGGCAAAAACGTTAGGCTTCGATTTTGTCGAAATGTCGGTAGATGAAACTG -ACGATCGCCTGTCGCGCCTCAACTGGAGCCGCGAGCAGCGTCTGGCGCTGGTCAATGCGATTGTTGAAACCGGCGTGCGC -GTGCCGTCCATGTGCCTTTCTGCTCATCGTCGTTTCCCGCTGGGCAGTGAAGATGACGCGGTGCGGGCGCAGGGGCTGGA -GATTATGCGTAAAGCTATCCAGTTCGCCCAGGATGTCGGTATTCGCGTGATCCAGCTGGCGGGCTATGACGTTTACTATC -AGGAAGCCAATAACGAAACGCGTCGTCGTTTCCGTGACGGCCTGAAAGAGAGCGTTGAGATGGCAAGCCGCGCGCAGGTG -ACGCTGGCGATGGAGATCATGGATTATCCGTTGATGAGCTCCATCAGCAAGGCGCTGGGATACGCGCACTATCTCAACAA -TCCGTGGTTCCAGCTCTACCCGGATATCGGCAACCTGTCGGCGTGGGACAACGATGTGCAGATGGAGTTGCAGGCCGGAA -TCGGGCATATCGTCGCGGTACATGTGAAAGACACCAAACCTGGCGTCTTCAAAAACGTGCCGTTTGGCGAAGGTGTAGTG -GATTTCGAACGTTGTTTCGAAACGCTCAAACAGAGTGGCTATTGCGGGCCGTACCTGATTGAGATGTGGAGCGAAACGGC -GGAAGACCCGGCGGCAGAAGTGGCGAAAGCGCGTGATTGGGTGAAAGCGCGCATGGCGAAAGCGGGCATGGTGGAGGCGG -CATAATGCAAAAGCTAAAACAGCAGGTATTTGAAGCCAACATGGAGCTGCCGCGCTACGGGCTGGTGACCTTTACCTGGG -GCAACGTCAGCGCTATCGACCGCGAACGCGGGCTGGTGGTGATCAAGCCCAGCGGCGTTGCCTACGAAACCATGAAAGCG -GCCGATATGGTGGTGGTTGATATGAGCGGCAAGGTGGTGGAAGGGGAGTATCGCCCATCTTCCGACACTGCGACGCATCT -CGAACTCTACCGTCGTTACCCGTCGCTTGGTGGCATTGTCCATACCCACTCCACTCATGCCACCGCATGGGCGCAGGCGG -GGCTGGCGATCCCGGCGTTAGGCACCACGCACGCCGACTACTTCTTTGGCGACATTCCGTGTACGCGCGGGTTAAGCGAA -GAAGAGGTGCAGGGCGAGTATGAACTGAACACCGGCAAAGTGATTATCGAAACGCTGGGCAACGCCGAGCCGCTGCATAC -GCCGGGAATTGTGGTGTATCAGCACGGGCCGTTCGCCTGGGGGAAAGATGCTCACGATGCGGTGCATAACGCGGTGGTGA -TGGAAGAAGTGGCGAAAATGGCGTGGATTGCCCGCGGCATTAACCCACAACTCAATCACATCGACAGCTTCCTGATGAAT -AAACACTTCATGCGTAAACACGGTCCTAACGCTTATTACGGGCAGAAGTAGAACACGCGCTGCGGAAATTTCCTTCCTCG -GGAGATAACTGGTCTAATTCCGCAGCCGTTTTTCAAAAAAAAGCCCCCTGCGAAGGGGGCAAAGCAAACTATGGCAATGT -TTCGTTGGTTATACCTGGTGCTAGCGATAAATATCCGCGCTGGCGTGCATATTGCCGTTACTCCCCGGTTCCCGCATCAG -AATTACGTGGTAGTACGTTGCGCCTTGCGCATCTGTTTCTTCATTTAATGCCTGACGTGCTTCGCTTTCAGTGGCGAAAT -TATGATTGATATAAATCACGCCTAAGCTTTGCACATCGTCCATATTTCTGGCCTGGTGGTTATTAATTTCAATGGCTGCC -CATGTATTTGCACTTAGCAAAAGCACAGCCAGAAGGGCTAAAACACGACTGAACATAGATACCTCCTCGACGGCTGACTT -TGTGTGCTCTCCTCTGTGATGATCTTCTGATTTAATTTTAATCAATGATAAAGAAGTTGATGGTGACCATTTCTGATGCA -GTTGTTCAAAAAAACACCATGATGAAGTGTGATGAACTTCAAATCAGCGTGTTAGAGGTTAATTGCGAAAGGGGAGATTT -ATTTCGGCTCTGCCCTTGAGTTTAGCGAGGCATACAAGTACTATAACGCGTCATTTTTCAGCCGACCTTTAACACGTTCC -TTGCCTCCCCGGGATTCGGCTGACCCAGACAGGAGGCTGAATAATCCGTAAGGAGCAATTCGATGCGTCATTACGAAATC -GTTTTTATGGTCCATCCTGACCAGAGCGAACAGGTTCCGGGCATGATCGAGCGCTACACTGCTGCCATCACTGGTGCAGA -AGGCAAGATCCACCGTCTGGAAGACTGGGGCCGCCGTCAGCTGGCTTACCCGATCAACAAACTGCACAAAGCACACTACG -TTCTGATGAATGTTGAAGCTCCGCAGGAAGTGATCGATGAGCTGGAAACTACCTTCCGCTTCAACGATGCCGTTATCCGC -AGCATGGTTATGCGTACCAAGCACGCTGTTACCGAAGCATCTCCGATGGTTAAAGCGAAAGACGAGCGCCGTGAGCGTCG -CGATGATTTCGCAAACGAAACCGCTGATGATGCTGAAGCTGGGGATTCTGAAGAGTAATTTCTGATGACCAACCGTCTGG -TGTTGTCCGGCACCGTGTGCAGGGCTCCCCTTCGAAAGGTCAGTCCATCAGGAATTCCTCACTGCCAGTTCGTGCTTGAG -CATCGTTCTGTGCAGGAGGAAGCCGGCTTTCACCGGCAGGCGTGGTGTCAAATGCCCGTTATTGTTAGCGGAAACGAAAA -ACAGGCCATTACTCACAGTATAACGGTCGGCAGTCGCATAACCGTTCAGGGGTTCATTTCATGCCACAAGGCAAAGAACG -GACTGAGCAAAATGGTTTTGCATGCCGAGCAGATTGAATTGATAGATTCTGGAGACTAGCCATATGGCACGTTATTTCCG -TCGTCGCAAGTTCTGCCGTTTCACCGCGGAAGGCGTTCAAGAGATCGACTATAAAGATATCGCTACGCTGAAAAACTACA -TCACCGAAAGCGGTAAGATTGTCCCAAGCCGTATCACCGGTACCCGTGCAAAATACCAGCGTCAGCTGGCTCGCGCTATC -AAACGCGCTCGCTACCTGTCCCTGCTGCCGTACACTGATCGCCATCAGTAATCGGTCACGGTCCATTAATACGACTTTGA -GAGGATAAGGTAATGCAAGTTATTCTGCTTGATAAAGTAGCAAACCTGGGTAGCCTGGGTGATCAGGTAAACGTTAAAGC -GGGCTATGCTCGTAACTTCCTGGTACCGCAGGGTAAAGCTGTTCCAGCTACCAAGAAAAACATTGAATTCTTCGAAGCTC -GTCGCGCTGAACTGGAAGCTAAACTGGCTGAAGTTCTGGCAGCTGCTAATGCTCGCGCTGAGAAAATCAATGCACTGGAA -ACTGTTACCATCGCGTCTAAAGCTGGCGACGAAGGTAAACTGTTCGGTTCCATCGGTACTCGCGACATCGCTGACGCTGT -AACTGCAGCTGGCGTTGAAGTGGCTAAGAGCGAAGTTCGTCTGCCGAACGGCGTTCTGCGTACCACTGGCGAACACGAAG -TGAGCTTCCAGGTTCACAGCGAAGTATTCGCGAAAGTGATCGTAAACGTAGTAGCTGAATAATTCGTTATTCAACGAGAC -GTAAAAACGCCGACCATTGGTCGGCGTTTTGCTTTCTATTTTTCGTCAGGTATTAGTTTCGCAAGTAGATCCATTCACCA -TTCTCTTGTGTCCATAAGTCAGGATGGTTTGCTGGCGTTAGATACATACGAGCGCAACTGATGTCTCGCTCCTGCGGCAC -TCGCTCGAAACCCAAACCCGAGTAGATTGCGGCTGAACTTGATAAGGAACGCAGACCAATTTTCAAATCATGGGGTAAAT -CAGAATACGCGTTTAGCAATGCAGCAATGATGAATCCGAGGGCATTAGAAACGCCTGTAACAGTGCGAAGTTGGTCGATA -TAAAGATCGATTGTTGGTAGTTCAGATGACCAGCAATTAGGCATTTGGGCAGGAAGGGTTACAACGTATCCTATCGTTTG -GCCGGTATAGTCTGGAGTACCATAACCAGGTCCCAAAACCACTTCGTGTATTGTGTATTTACTGTTGGGTTCGAAGGATT -CGACATCTTGCAATAAATATTTCAGTTCTGCGGTTAACCTCGCACCCGCGTAAGCTTTATTGTATTTCTGGGCGTGAATA -TTATCTAATGTAGCTTCATGGTTCCATCCAAAAGAATTATCACCATTCATTGTGATTCCATCGTAAGCATTACACCTCGT -CGCTAACTTATTGAATGCTTGCCAGTCTGAGAGATCTAGTTTGTGGATCTCAACAGTACGTCTGCCATCGCAATTATGAT -CTCTTCCACGATTTGAAAGTAATGTAGCGCGTGCGTATTGATGAAATTTTAATTTTACTGGTTTGTCGGTGGACGAAAAA -CGAGATAAATATGCAGGAAATGAATAAATAGTCGTTGGTAATGTCATTGTAATGTTACCTGTTTAATGTTTTTATAAATA -TCGCAGCTGAATGTTCACAGAAAAAAATCGATATTAATAAAAATAAGTTTGTTTTCTGAAGTGGTGAAAATAGCGGATGG -TGAAAGATATTAATATCAAAAATCGCTCATTATGGATATAACGATGCACCCGGGGAGAAAATGACTTCCACGCCTTACAC -CGTACATTCTTGTTGTGCGGTATGTAATTATTCTACGCTGTCGGTATCGGTGTATTCGTTAATCAGCAGGTTAGCCAGCC -ACAAAAAGCCATTGAGAAAATTATTGATTTTACATGGGATTATTATATTGCTAATCCTTGGTTTTTAAAAATTGTGCATA -GTGAAAATCAAAGTAAAGGTGTGCATTATGCAAAATCACAGCGTCTCTTAGAAATTAACCATGCGCACTTGCAGTTAATG -GAATCCTTATTGGATGAAGGGAAGAAACACAATATTTTTAAGCCAGATATCGACCCATTGCAGGTGAATATTAATATTGC -TGCGCTTGGCGGATATTATTTGATCAACCAGCATACGCTTGGCCTGGTTTATCACATCAGTATGGTTTCACCCCAGGCAC -TGGAAGCCAGACGTAAGGTCATCAAAGAGACAATCCTTAGCTGGCTTTTGGTTGACCCTTCATCTACCGCGCACGAATAA -AACTGCCATCCGGCTGGCGGGTGAACAGGACCTGTTGATTATTCCCCGTATCAATGGTTAAGCCCGTCACCACGCCGCTG -GCGTTCTGGCGGATTTTCACCATCTGCCCGTTTTGCAAATTACTCAGCGGCTTACCCGCGCCTTCTACCTGCGCCATTGC -ATAGACATCGGTAGCGGGCAGTCCGTGGTCGCGGAACAGCTGCGCCATCGTTTTACCGGGTTCGACACGGTAAGAGCGCC -ATTGATTATCAATTCCGCTATCTGGCTGGAATGGTTGCGTTTGGGTAGTTTGCGGCTGCTCTTCTGGCTGGCCTTCCTGT -ATAGGTTCTGGAGCGACCGGAGCCACCTGATCAGGATCATTTTGTGGGGTAACTAATTGCGCCCGCAGCTGTTCTTCTGT -CGGCGGTTGTGATTGCGACTGAATATCTAACTGCGCTTCACGCGTCACCACCGGCGCGTTGGGCGTATCATCAGATGGAA -GCAGAAATCCGACCACCAATACAATGGCGGCAATAATGATCCCCCGACGATGCATCGGCGGCAGCGGGTCCATGAAGCGA -AAATTGTCCGGCGCGTGCCAGACTTTCTCCAGGGTTGGTTTTAGTTCAAAGCGCCCGGGCATGGTTTCCTCCTGCTCCGC -GTCTTGTTCCTCAATCATAGCCTATGAATAAGCTAACGCTATGATGTCCGTGGTAAACCCGCCTTTATTATATTCATACG -GGATATTGCTATTGTTTCTTTTTCCCTGGGATTTGTCATCATTCCCGCGACAAAGTTTTACCCAAAGAAGTGTGGCTGAT -ATGCTGCCCGCTACTTTATACCCTAAGAAAGGAAATACGATGACCACCCCAACTTTTGACACCATCGAAGCGCAAGCAAG -CTACGGCATTGGTTTGCAGGTAGGGCAACAACTGAGTGAATCTGGCCTGGAAGGGCTGCTGCCAGAAGCACTGGTTGCAG -GTATTGCCGATGCGCTGGAAGGCAAACATCCGGCTGTTCCGGTTGATGTGGTGCATCGCGCGCTGCGTGAAATCCACGAG -CGCGCCGATGCCGTTCGTCGTCAGCGTTTCCAGGCGATGGCTGCTGAAGGTGTGAAATACCTGGAAGAAAACGCCAAAAA -AGAAGGTGTGAATAGCACCGAATCTGGCCTGCAATTCCGCGTGATCAACCAGGGTGAAGGCGCAATTCCGGCACGTACCG -ACCGCGTTCGTGTTCATTACACCGGTAAACTGATCGACGGCACCGTGTTTGACAGCTCCGTTGCTCGTGGTGAACCCGCT -GAATTCCCGGTTAATGGCGTGATCCCTGGCTGGATTGAAGCACTGACTCTGATGCCGGTAGGTTCTAAATGGGAACTGAC -TATCCCGCAGGAACTGGCATATGGCGAGCGCGGCGCAGGCGCATCCATCCCTCCGTTCAGCACCCTGGTGTTTGAAGTCG -AACTGCTGGAAATCCTCTAAGCAGCGCATTCTGTTCCCCTCGAACGAGAGGGGAGCAGGCATTCAGCAATAAACCCTTCA -GTTTGCCAAACGGCGCTATTTTGTGTTGCAAAGACCCCGTAAGCGTGTATTTTTGTGAGCTGTTTCGCGTTATCACCGTG -ATATGACACTCACTTTAAACATAAAATTAACATTAGATCTAAATCTTAGTATTCATCCCGCGTATTGTTACCTAATATCG -ATGAGTCCCGATACAGATTCGTCGTATCATAGACTGACTAAAGGCCGTAGAGCCTGAACAACACAGACAGGTACAGGAAG -AAAAAAACATGGTAGATCAGGTAAAAGTCGTTGCCGATGATCAGGCTCCGGCTGAACAGTCGCTACGGCGCAATCTCACA -AACCGACATATTCAGCTTATTGCCATTGGCGGTGCCATTGGTACGGGGTTGTTTATGGGGTCTGGCAAAACGATTAGCCT -TGCCGGGCCGTCGATCATTTTCGTTTATATGATCATTGGTTTTATGCTCTTTTTCGTGATGCGGGCAATGGGGGAATTGC -TGCTTTCGAATCTGGAATACAAATCTTTTAGTGACTTCGCTTCCGATTTACTCGGGCCGTGGGCAGGATATTTCACCGGC -TGGACTTACTGGTTCTGCTGGGTTGTAACCGGTATGGCAGACGTGGTGGCGATCACGGCTTATGCTCAGTTCTGGTTCCC -CGATCTCTCCGACTGGGTCGCCTCGCTGGCGGTGATAGTGCTGCTGCTGACGCTCAATCTCGCCACCGTGAAAATGTTCG -GTGAGATGGAGTTCTGGTTTGCGATGATCAAAATCGTCGCCATTGTGTCGCTGATTGTCGTCGGCCTGGTCATGGTGGCG -ATGCACTTTCAGTCACCGACTGGTGTGGAAGCGTCATTCGCGCATTTGTGGAATGACGGCGGCTGGTTCCCGAAAGGTTT -AAGTGGCTTCTTTGCCGGATTCCAGATAGCGGTTTTCGCTTTCGTGGGGATTGAGCTGGTAGGTACAACAGCTGCGGAAA -CCAAAGATCCAGAGAAATCACTGCCACGCGCGATTAACTCCATTCCGATCCGTATCATTATGTTCTACGTCTTCGCGCTG -ATTGTGATTATGTCCGTGACGCCGTGGAGTTCGGTAGTCCCGGAGAAAAGCCCGTTTGTTGAACTGTTCGTGTTGGTAGG -GCTGCCTGCTGCCGCAAGCGTGATCAACTTTGTGGTGCTGACCTCTGCGGCGTCTTCCGCTAACAGCGGCGTCTTCTCTA -CCAGCCGTATGCTGTTTGGTCTGGCGCAGGAAGGTGTGGCACCGAAAGCGTTCGCTAAACTTTCTAAGCGCGCAGTACCC -GCGAAAGGGCTGACGTTCTCGTGTATCTGTCTGCTCGGCGGCGTGGTGATGTTGTATGTGAATCCTAGTGTGATTGGCGC -GTTCACGATGATTACAACCGTTTCCGCGATTCTGTTTATGTTCGTCTGGACGATTATCCTTTGCTCGTACCTTGTGTATC -GCAAACAGCGTCCTCATCTACATGAGAAGTCGATCTACAAGATGCCGCTCGGCAAGCTGATGTGCTGGGTATGTATGGCG -TTCTTTGTGTTCGTGGTCGTGTTGCTGACACTGGAAGATGACACTCGCCAGGCGCTGCTGGTTACCCCGCTGTGGTTTAT -CGCGCTGGGGTTGGGCTGGCTGTTTATTGGTAAGAAGCGGGCTGCTGAACTGCGGAAATAACCGCATTATCATGCTGGAT -GGCGCAATGCCATCCAGCTTTTAGATCACTCACCCGCCAGCGCGCGTGGGAACAGTACATTGTTTTCCAGACTGATGTGA -TCCATCAGGTCATCAATCAGTTCATTAATGCCGTTATACATCGCTTTCCAGGTGGTGCAGGCTTCTGGCGGCGGTGTGAC -GTTATTGGTGGTGTGTTTAATCACTTCCAGCAGTTCGCCCGCTTCATCGTGCTCGCTTTCCATTACGCTGATTGGCCCCA -TTGCCTGGCTGCCCATGCCTTGTTTGATCATCGGGAAGAGGATCTGCTCTTCTTTCATCATGTGGCTGGAAAGCTCTTCA -TGCAGCATGGTCAGGTATTTTGTCAGCCCTTTTGGCACGCTCGGTTTGTCGGCGTGAACGCGCTCGACTTTAGTCGCTTG -CAGAATCAGCTCCGGCAGTTGCTCGCGGTGACGATCGTGGTAGCGCACGATGATATGGTCGATGATTTCTGCCAGCGGGG -CGCTACGCCAGTCTTTCTCAATCGGTTGTTCAGCGAGCTTTGCCAGTTCAGCTTCAATGACCTCAACATCCAGTTCTTTA -CGTGCCGCCGCGCGCGCCAGCGTCTGCTTACCGCCACAGCAGTAATCCATATCATATTTACGAAACAGAGCTGAAGCGCG -AGGAATAGAGAGCGCCAGTTCACCTAAAGGTTGGTCGCGATAAGCCATAGCTGATACCTCATTCTTAATAAGATAAGATG -TATTTTAAATGCATCTTTAAGGCAAAAGCTATAACCCTTACGTAGCAGAGGCTTATTTAACTCACTGCCAGCGTGTCAAC -TTTCTGAGACAGATTCAGTTAAAGGTTTTTCTGGTTTTGCTCTGACCGCGATGACCACGCCAATCACTAACAGCGCGATA -CCGCTCAGCGTCATTAGCGGCGGCATTTGCTGGCGGAGTAAAAAGGTGTACAGCAAACCTGCCAGCGTTTCGAAAACAAT -CAGCGGCCCGAGAATCACTGTCGGTAATAGCTGGCTGGCGACGTTCCAGCAGAGTGCGCCAACCCATGAGCAAAGCACGG -CTATCGCAACCATCAGACTAATAAACACCAGCGGACGGGGGCCAAAGGGTAGGGAGAAGTCCGGCGTTTGCGTATTCAGC -CAGTAACAAGCGACGAGATAGCCGATAAGTGAAACCGGCAGTGTGACCAGCGCCTGCGCTGTTGCCCACATCATCGGATG -TTTGTCGGGATTTTCCCGCAGCCAGCGGGCGTTGCGCAGGGCATACCACGCCCAGCAGACCACGGAAACTAACGCCAGCA -CGATGCCAGAGGTATAACGTGCCCAGTCAAAATCGGGGAGTCCGTGGTTTAACTCAGCAATATTCACACACGCCAGGCCG -ATGCCAATACAAATCAGTGCTGGGGCGAGTTTTCCCCACGCGAGTTTGCCGTCGCGCTGGCTATAAAGCAGATTGGCAAA -GACAGGAATGACCACCGGCAGGGTGCCGATAATCATCGTGGAAACAGGCGCGCCAGTACGTTGAATGGCACTGGCAAGGC -AGAAGTAATAGATGAGGTTGCCCATCATAGTGAGCATCAAGGCGGTAAGCCAGTCGCGACGCGCCAACTGACGCAGACGC -ACGCGTCCCAGCCAGGCAATGGGCAGCGCAATTAACCCTAACGCCAGATAACGCCCCATCGACTGCAACATCGCCGGGTA -TTCCGGCACGATCAACGGCCCGACAAAAATAAGCCCCCACATCAACCCTGCTAACAGGGCGTACAGCACGCCGCTAATCA -TTACTGGCATCCATTGATCTGTCAGAAGAAAGTTCAGGAAGCAGACATGATTGCTCCCGGCATCCCGTCATTATCAGAGA -GGATGCGGGAGGATGCCACTTTAATTAACTAGTTATTAACATTAAAAAGATGGCTTACGCTTTCGGCTAACGTTGTCGTT -GGGTGGCCAATCAATTTGCTAAGTGTTTTGCTGTCATCAAACAGACCGCCTTTCGATGCGCCAACGTCAGAATCCGCCAG -CATATCCGCCAGTCCGTCGGGCAGTCCGACGCTTTTCAGTGCCGCGGCGAAATCGGCTTCGCTCAGATTTTGATAGGTAA -CCTGTTTGCCGCTCTGTTTGGTCAGCTCTGCCGCTAACTGTGTCAACGTCCAGGCACTATCGCCCGCCAGTTCGTAAACC -TTGCCTTCGTGACCGGCTTCGCTAATCACGCGTGCCGCAGCTGCCGCATAATCTGCCCGCGTTGCTGAGGCGATTTTGCC -ATCGCCCGCCGCACCGATAAATACGCCGTGTTCCAGTGCTGCCGGGGCGCTGGCGAGGTAGTTTTCGCTGTACCAGCCGT -TGCGCAGCAGGGTGTAAACGATGCCAGAATCAGCCAGCATTTTCTCCGTCTCGATGTGCTCATCGGCGAGGCCGAGCGGG -GAGGTATCTGCATGTAGCAGGCTGGTATAAGCGATAAATTTCACGCCAGCCGCCTTTGCGGCATTAATAACATTACGATG -CTGCGGGGCACGTTGACCCACTTCGCTGGAAGAGATCAGCAGTAGTTTTTCCACTCCCTGAAGTGCAGATGTCAGTGCGG -CTTCATCGCCGTAGTCAGCCTGACGCACGGTAATGCCTTGTGCTGCCAGGGCTTGGGCTTTTGCCGGATTACGAACGATA -GCCACTATTTGGCTGGCAGGAACCGTTTTCATCAAGGATTCAATAACATAGTGACCAAGTTGGCCAGTGGCACCAGTAAT -AGCGATCATGGGAAGTCTCCATCGTTTTGTCTTGTGTTTAAATACGCTAACACCTAAACTTACTTTTAGTAAGTACGTAC -AAAAAGGTAAGTATGAAATGAGTCAGGTTAGCCTGTCGCAACAACTGAAAGAGGGTAATCTCTTTGCGGAACAGTGCCCG -TCGCGCGAGGTGTTGAAACACGTCACCAGCCGTTGGGGGGTGTTGATTCTGGTGGCGCTACGCGAAGGTACTCATCGCTT -TAGCGACCTGCGGCGCAAAATCGGTGGGGTGAGTGAAAAGATGCTTGCGCAGTCGTTACAGGCGTTAGAACAGGATGGTT -TTCTTAACCGTATCGCGTATCCGGTGGTGCCGCCGCATGTGGAATATAGCCTCACGCCGCTGGGCGAGCAGGTGAGCGAA -AAGGTTGCTGCACTGGCGGACTGGATTGAGTTGAATTTGCCCGAGGTGTTGGCGGTGCGGGATGAACGTGCGGCATAACT -GCCGGATGCGCTGAGCTTATCTGGTCTACGGTGCATGGCTTGTAGGGCGGATAAGATGCGCCAGCATCGCATCCGCCAAT -AAATGCCGGATGCGGTTGATGATTTATAGGCCGAAAAAGAAGTGTTTTACTTACTCAAATCCACCTGATAAATCGCAAAC -CCGATATCATCGGTCGCGACTTTATTCATCGGATACTGCCCTTTCTCTTTAATAAACGCTGCGGCTTTATCTGACGGAGA -GGTTTCGAAACGGATATCCAGTTTCTTATCGCCAGCTATCGGTGCTAAACGCCAGTTGTTATCTGCCGCCGGGTGAATTT -CCCCCGCACGTTTCGACTCATCAGCAATCCACGCTGCCAGCACCGAGCGGTTCTCATCCGGTGAAGCAAAAGCGATATGG -CTGTCGCCCGTACCGGCAAATTTGCCGCCGTAAGCGCGATAGTTATTGGTGGCAACCAGGAACATGGCGTTCGGATCAAT -CGGCTTGCCATTAAAGGTCAGGTTCTTAATCCTTTCCGCATTGGCATTAATCATCTGGCACTCGCCGTCATAACGGGCGG -GCTGGGTAACATCAATCTGATAATTCACACCATCAATAACATCAAAGTTATAAGTGCGGAAACCATCCCAGTTGATGAGT -GACTGTGGTTTCGTGCTGTTGGGATCAATCTGGTTAAACTGTCCCGCGGAGCACTCCAGCCACTCTTTCACCTCTTTACC -GCTGGCTTTCACCACAATCAGCGTATTGGGATAGAGATAAAGATCGGCGGCATTACGGAAGGTCAACTGGCCTTTTTCCA -CCTCCACATAGCTTGCCGGGTCATTTTTGCGACCACCGACTTTAAACGGTGCGGCAGCTGAAAGCACCGGCAGTTTTGCC -AGATCCGGATCGCCCTGAATGTAATGCTCGACATACGCTTTTTGCGCGTTGTTCACCACCTGCACGGTCGGATCGTCCTG -CACCAGCGCCAGATAGCTATACATATTGTCGGCAGATTTACCGATTGGCTTGCTGACGAACTGGCGTGTGGCATCGTGAT -CGGCTTTGAGTGTTTCTACCAGCTTGCTGTCTTCCGCCGCGAGGGATTTTTTATTAGCGATGTCGTAAATCGGTCGTGCT -TCCGCTTTCGCCTGCGTCACCTGCCATTTACCGCTGTCATTACTGAGTTGTAAGTCGACCACACCAAGATGATCGCCCCA -CATGCCTGGCATTACCGCCGGAACACCATTCAGCGTGCCTTTGGCGATATCAGCCCCTTCGATATCAGCAAAATCTTTAC -CTGGGAAAACGGCGTGAGCATGGCCAAACATAATGGCGTTAACGCCCGGAATTTCACTGAGGTAATAAACTGAGTTTTCC -GCCATCACTTTATACGGATCGGCAGATAGCCCGGAATGTGCCAGAACGACAACAACATCGGCACCTTTCTCGCGCATTTC -AGGCACGTATTTGCGCACGGTTTCGGTAATATCATTCACCGTCACTTTCCCGGATAAATTAGCTTTATCCCAGCCCATGA -TTTGTGGTGGCACGACGCCAATATAGCCAATCTTCAGCGTCTGTTTTTTTCCGTCTTTATCGACCACTTCGGTGTCTTTA -ATTAAATACGGTGTAAACATTGGCTGTTTGGTTCTGGCGTCAATGACGTTGGCATTTACATAAGGGAATTTCGCTCCTGC -CAGCGCATTTTTCAGGTAATCCAGACCGTAGTTAAACTCGTGGTTGCCAAGCGTTCCGACGGTATAGTCCAGCGTATTTA -ATGCCTTATAGACCGGGTGAATATCACCTGCTTTTAATCCTTTCGCCGACATGTAATCGGCCAGCGGACTCCCCTGAATC -AAATCGCCGTTATCAACCAGTACGCTGTTTTTCACTTCATTGCGGGCATCGTTAATCAGGCTTGCCGTACGTACCAGTCC -GAATTTTTCCGTGGCGGTGTCTTTGTAATAATCGAAATCCATCATGTTGCTATGCAGATCAGTGGTTTCCATGATACGCA -GATCGACCGTCGCTGCATTCACACTGGCGGCAATCAGCGTGGCCAGGAGCGTTGCGCTAAACTTAATCATCAGGGACATC -CTTTTATCATCGGGAATACGAAAGAAAAGGGAGAATAAACGTCTTACTTATAGAACAGTGAAGAATGCCACAATTTTACG -CTTTGAAAATGATGACACTATCACAGTTGGCGCATTCATTAACGATAGGGTATAAGTAAAACAATAAGTTAACACCGCTC -ACAGAGACGAGGTGGAGAAATGTTAGATCAAGTATGCCAGCTTGCACGGAATGCAGGCGATGCCATTATGCAGGTCTACG -ACGGGACGAAACCGATGGACGTCGTCAGCAAAGCGGACAATTCTCCGGTAACGGCAGCGGATATTGCCGCTCACACCGTT -ATCATGGACGGTTTACGTACGCTGACACCGGATGTTCCGGTCCTTTCTGAAGAAGATCCTTTCGGTTGGGAAGTCCGTCA -GCACTGGCAGCGTTACTGGCTGGTAGACCCGCTGGATGGTACTAAAGAGTTTATTAAACGTAATGGCGAATTCACCGTTA -ACATTGCGCTCATTGACCATGGCAAACCGATTTTAGGCGTGGTGTATGCGCCGGTAATGAACGTAATGTACAGCGCGGCA -GAAGGCAAAGCGTGGAAAGAAGAGTGCGGTGTGCGCAAGCAGATTCAGGTCCGCGATGCGCGCCCGCCGCTGGTGGTGAT -CAGCCGTTCCCATGCGGATGCGGAGCTGAAAGAGTATCTGCAACAGCTTGGCGAACATCAGACCACGTCCATCGGCTCTT -CGCTGAAATTCTGCCTGGTGGCGGAAGGACAGGCGCAGCTGTACCCGCGCTTCGGACCAACGAATATTTGGGACACCGCC -GCTGGACATGCTGTAGCTGCAGCTGCCGGAGCGCACGTTCACGACTGGCAGGGTAAACCGCTGGATTACACTCCGCGTGA -GTCGTTCCTGAATCCGGGGTTCAGAGTGTCTATTTACTAAATTCAGATGGCAGAAACAGTGTATTTCCTGATTCTGCCAT -CCTGATTTCTCCCAACCTAAAAAGTTATAAATAAAAAGAGATTGTATTTAAAGTGCAAAAATTCAATTGCTAATAAGTTA -CATTTTAATAATGAGCGTTTTTTGATAGTTTACTTCTATAGTGAGATATTTAATGGCGACATAAAGTAACCAAATAAAAT -AAGGTTGTCATATGTTACCCAGGATCAGACACAATAATTTTATTGGTGCGGTGGAGTTATTTGTAAAGTCTTCGTATACA -AAAACACATTCAAACAATTTTTTTAACAACATCCATCATGCATTTAAGAAAAAAGATTGGATTTCGAATTATGATAGCCT -GTTAACTTTGAGGGAGTTCTTTCGTTGCGCAACTCAGATTGATAAAAGTGGTTATCAGGTGCTTTCATCAAAAAATGAAA -CTGTTCACGCCATGGATAAGTTTCTTATCAGTTTCAGCCTTAAAGATAACGGTGCCGAATATACAATGACATTGCGAGGT -AGTGGATTTGAATACGAAGAAATACCCATAACAATAAATGAATATAACTCATTCATGGATTTCAAAAACCGTGAATTTCC -GTTAGAACAAAACAGACGATTGTATGCCTGGGATATTCTACAGAAAAAACAGTCTGACATACCGAAAAGGATTAAAGGTT -ATATTCACCAGGCGATTGGTGACGTGTCTTTAGGTTATGCCTTATTGGAGGATATAGTAAGCAAATTAAAACGGGGTAAA -TTTGAACTCCAAATACCAGGAGGTGGAATTAAAGAATGCGATGGATGGTATATTTACGAAAAAATAATTGATGATAATTT -TGCCATAGTCATAGAATCTTTGGGCTTTGCGCTTAAAATCTATGGAGGGGATGAACGTTTTCGTAATGGTTCCTCTGTTG -TTTTGGAGGATGAAGATTACTCTCTTATTTATAATTTTCTGGTTAATGCAGGTTGCCAACAAGTCGAATTAGCCGAACAA -GTGGATGCGATAGTAAGTGCGAATCTGGCCGCAGATAGCGATATTACCAAAGAAAAGATTTGCGAGAAATATAAATCGAC -CATTGAGGCGTTTAAAAAAGAGCAACTAGCGTTACCAGTATTAGTTCGGCGTAAGAACTCAGAGACTTAATTCCCCTATC -CCATAGATAACGATAGGGGAAAATTATTTTTGCAGAATTTATGTTATTGCCATTATTTGAGCAACTTTTGCAGCAGGTCC -ATCACTTGCTGCACCTCTTCCGGTGTGAGCGCCCCGTCTTTGGCCCATTGCACGCGACCATCCTTATCCAGCACCACTAC -AGCGGAACTTTCTTCATCCAGCTGCCAGGCACCGAGCGCGACGCCATTGCTATCGACAATAAACTGCGACCAGGGATAAA -GCTTTTTATTACTCTCCAGACTGCTGCGCACAAACATCCCTGAACCCGGAATCGCGTCGTCGGTGTTAACAATGGTGGTG -GTCTGGTAACGATCGTGCGGTAACTTCGCTGATTTAATCGCTTCAATCAGCGTCGCGTTTTTCTCTTTTGCAGAGGTGCG -ACCAGCAATATGTTGCAGTACTCGCACTTTTCCCACTAACTGCGCGCTGTTCCAGGTTTTGTAGCTAAACTGATCTTTAT -CAAGCACCAACTCGCCCCGATCGGTAATGCCAATCGGCGGCACTCGCTGACCGGTTTCGAACTGATGTGCGGAAGCCATC -ATCGGCAACAGCAGGCAGGTGAGTGCCAGAATCTTGCGTAGGGTCATGGTGTTTCCTTCTTATGATATGCAGGTGATCCG -ACCACTTGGGTCTGAGTTTTAATCATATGTGCTATTTATCGAATTTCCCGCAAGTGTGATGCCAGTTTGCGGTCAAGCGC -ACAAATCATATGAAAAATGAATGCTTATACTGAAGACCGCGCTTCGGTAAAAAGATAATTCTGAATAATTGTAACCTTTA -GGTAAAAAAAGTTATACGCGGTGGAAACATTGCCCGGATAGTCTATAGTCACTAAGCATTAAAATTTGCGCCTCATAATA -GTTGGGCCGATTGTGGCACCGCACAGGCGTAATACTCAGCAGGAGATAACAATGAAAATTTTCCAACGGTACAACCCACT -TCAGGTGGCGAAGTACGTAAAGATCCTGTTCCGTGGACGGTTATACATCAAGGACGTTGGCGCTTTTGAATTCGATAAGG -GTAAGATTCTTATCCCAAAAGTGAAGGATAAGCTGCATTTGTCAGTGATGTCCGAAGTTAACCGTCAGGTTATGCGTCTG -CAAACAGAGATGGCTTAACCAAAGTGCTATGCAGTAAAAAGTGCTATGCAGTAATAAGACGGCTCCTGATTCAGGAGCCG -TTGATGTTTCTGGGGGTTACGCGACGCTTTCTTCTTTATCTTTAGCGTCAGGCAGTTTTGGCGAAAGGGCGGTGGCCTTG -CTGTCGATCCGGGTCACCAGCAGCTGGTCGATGCGGTAGTTATCGATATCCACCACTTCAAATTTGTAGCCGGCGAATTT -CACCGAATCGGTGCGTTTCGGGATCTTACGCAGCATAAACATCATAAAGCCGCCGATGGTTTCGTAGTTGCCCGACTGCG -GGAACTCGTCAATATCCAGCACGCGCATGACGTCGTCAATTGGGGTGCCGCCGTCAATCAGCCATGAGTTCTCATCACGG -GCGACAATCTGCTCTTCCAGCCCCTGACCGACCAGATCGCCCATCAGCGTGGTCATCACGTCATTGAGGGTGATGATCCC -CACCACCAGCGCGTACTCGTTCATGATCACCGCGAAGTCTTCACCTGCGGTTTTAAAACTTTCCAACGCCTCTGAAAGGG -TTAACGTATCCGGCACAATCAGCGTGTTGCGAATTTGTACGCCGCTGTTCAGTGCCAGGCTTTGGTTAGCCAGCACGCGG -TTCAGCAGGTCTTTAGAATCGACATAACCGATGATGTGGTCAATATCTTCATTACAGACGAGGAACTTAGAGTGCGGATG -TTCCGCCACCTTATTCTTCAGGCTTTGCTCATCTTCGTGGAGATCAAACCAAATCACGTTTTCACGCGGTGTCATTGAAG -ACGGAACGGTACGGGATTCCAGCTCAAAGACGTTTTCAATCAGCTCGTGTTCCTGTTTACGTAACACGCCCGCCAGCGCA -CCGGCTTCCACTACCGCGTAGATGTCATCAGAAGTGATGTCATCTTTACGTACCATTGGCAGTTTGAAAATACGGAAGAT -TATGTTCGCCAGGCCGTTGAAGAACCACACCAGCGGGGTGCAAACGTACAGGCAGAAGCGCATCGGGTTGATGATACGCA -AAGCCACAGCTTCTGGCGCAATCATACCGATGCGTTTCGGGGTTAAATCCGCAAACAGGATAAACATGCCAGTCACTAAC -GAGAAAGAGAGAATAAAGCTCAGTTGCTCAGAGAGCTCTGCCGACATATAGCGGGAGAACAGGCTGTGAAAAGCTGGAGA -AAATGCCGCATCACCGACGATACCGCCGAGAATCGCCACTGCGTTCAGACCGATTTGGACCACGGTAAAGAACATGCCGG -GATTTTCCTGCATATTCAGAACGCGTTGGGCATTTATATTGCCTTCATCAGCCAGCAGTTTAAGTTTGATTTTGCGTGAG -GCGGCAAGCGAGATCTCGGACATCGAGAAGAACGCACTTACAGCGATCAAGCAGAGTATGACTAAAATACTGTTTAACAT -ATCTTATCCGACCTTTCAGGCCAGATCCTCGGAAGGGGAAGTTGATTAATTTGTGTGAAATACACATTGAAAGCCGATTC -GAAGAAAGTGAACCGGCATTTTCAGTGGCTAGTATAGCGTAAGGTACTGTAAAGCCGCCAGAGGGTTAAAATTCAGACAG -CTGAAAAATGCAAAACTGCCTGATACGCTATGCCGATCAGGCCTACGCAGTCCTTGCAATATATTGAATTTGGACGATTT -TGTAGGCCTGGTAAGTCGTTTACGCCGCATCAGGCATAGACAAAGAGCACTTTATCAACAAACTACATTTGTACCCGTAA -CGCTATGCTTCCGGCGGCAGACAGACGCCAATTCCGCCAATTCCACAGTAACCATACGGGTTTTTATGCAGATATTGCTG -GTGGTCATCTTCGGCATAATAAAACGGTGTGGCGTTAGCGATTTCCGTGGTGATGTGACGATCGTCATCGGCGGCAAGCA -TCGCCGCCTGAAAACGTTCCAGACTGGCGCGAGCTGCGGCATCCTGTTCTGGGGTCAGCGGATAAATCGCTGAACGATAC -TGCGTGCCGTGGTCATTGCCCTGACGCATTCCCTGGGCGGGATCGTGATTCTCCCAAAATACCTGTAGCAACTGCTCATA -GCTGATGACGGAAGGATCGTAAACAATGCGTACCGCTTCGGCATGACCCGTATCACCGGAGCACACTTCCCGATAAGTCG -GATTTGGCGTATAGCCGCCGGTATAGCCTGCGGCGGTGCTGTAAACGCCGGGTAACTGCCAGAACAGACGCTCCACACCC -CAGAAACAACCCATCGCAAAAATGGCAATCTCCATTCCGTCAGGTACATTGGTCATTGAGTGACCGTTGACCGCATGCAG -CGTGGCTACGGGCATCGGGGTGTTACGTCCAGGCAGGGCATCGGCGGGGGAAACCAGATGCTTTTTATCAAATAAACTCA -TGGTGTCGCTCTCCCGAAAATCGGTCATTGGGGTTAAGGTTGTAACAAGAGGCGTATTTGCACACAATAACCACCGTGAA -TAGGTCTAAAGTAAAACATAAGAAATATTTGGGGTTTAGTCTGCTTTTTAATCCATATTACTGGATTTTTGTTAAGCCGT -TTAACGGCGTTCCAGGGGCAGGAAAAAAGGATATTCAGGAGAAAATGTGCGCTATATCCGACAGTTATGCTGTGTAAGCT -TACTCTGCTTAAGCGGATCTGCCGTCGCCGCGAACGTCCGTCTACAGGTCGAGGGGTTATCGGGACAGCTGGAAAAGAAC -GTTCGTGCGCAGCTTTCTACGATTGAAAGTGATGAAGTGACGCCAGACCGTCGCTTTCGCGCACGCGTCGATGATGCCAT -CCGCGAAGGTCTGAAAGCGCTGGGTTATTACCAGCCGACCATTGAATTTGATCTCCGTCCACCGCCAAAGAAAGGGCGGC -AGGTATTGATCGCCAAAGTCACGCCAGGCGTGCCGGTGTTAATTGGCGGCACCGATGTGGTATTGCGCGGCGGCGCGCGG -ACCGATAAAGACTATTTGAAATTGCTCGATACTCGCCCGGCTATTGGCACGGTACTGAACCAGGGCGATTATGAAAATTT -CAAAAAGTCCTTAACCAGCATTGCGTTGCGTAAAGGTTATTTCGATAGCGAATTTACCAAAGCGCAGCTGGGCATTGCGC -TCGGCCTGCATAAAGCCTTCTGGGATATTGATTATAACAGTGGCGAACGTTACCGCTTTGGGCATGTGACCTTTGAAGGA -TCACAAATCCGCGATGAATACCTGCAAAATCTGGTGCCGTTTAAAGAGGGCGATGAGTACGAATCGAAAGATCTGGCAGA -ACTGAACCGCCGACTTTCTGCTACCGGCTGGTTTAACTCGGTGGTGGTGGCTCCACAATTTGATAAAGCGCGCGAAACGA -AAGTATTACCATTGACGGGCGTGGTTTCGCCGCGAACAGAAAACACCATCGAAACCGGGGTCGGTTACTCTACGGACGTG -GGACCGCGCGTGAAAGCGACGTGGAAAAAGCCGTGGATGAACTCTTATGGTCACAGTCTGACCACCAGTACTAGTATTTC -CGCGCCGGAACAGACCCTCGACTTCAGCTATAAAATGCCGCTGCTGAAGAATCCACTGGAACAATATTATTTGGTGCAGG -GCGGTTTTAAGCGCACTGACCTGAACGATACCGAATCTGACTCCACTACGCTGGTGGCTTCTCGCTACTGGGATCTCTCC -AGCGGCTGGCAGCGTGCCATTAACCTGCGCTGGAGTCTCGACCACTTTACTCAGGGTGAAATTACCAATACCACGATGCT -GTTTTATCCTGGGGTGATGATTAGCCGCACGCGTTCTCGTGGTGGCCTGATGCCAACCTGGGGCGACTCGCAACGCTACT -CTATCGACTACTCCAACACGGCCTGGGGTTCAGATGTCGATTTCTCCGTTTTCCAGGCGCAGAACGTCTGGATCCGCACA -CTGTACGATCGCCATCGTTTTGTTACACGCGGCACGCTGGGCTGGATTGAAACCGGTGATTTCGACAAAGTACCGCCGGA -TCTGCGTTTCTTCGCCGGGGGCGACCGCAGTATTCGTGGCTACAAATACAAATCTATCGCTCCGAAATACGCCAACGGTG -ACCTGAAAGGGGCCTCGAAGTTGATAACCGGATCGCTGGAATACCAGTACAACGTGACCGGAAAATGGTGGGGCGCGGTG -TTTGTCGATAGTGGCGAAGCGGTAAGCGATATTCGCCGCAGCGACTTTAAAACCGGTACCGGGGTCGGCGTGCGCTGGGA -ATCGCCGGTCGGGCCAATCAAACTCGATTTTGCCGTACCGGTCGCGGATAAAGACGAACACGGGTTACAGTTTTACATCG -GTCTGGGGCCAGAATTATGAGTTTATGGAAAAAAATCAGCCTCGGCGTGGTTATCGTTATCTTACTGTTGCTGGGATCGG -TGGCGTTTCTGGTGGGCACCACCAGCGGCCTGCATCTGGTATTTAAAGCGGCGGATCGCTGGGTGCCAGGACTGGATATT -GGCAAGGTCACCGGCGGCTGGCGCGATCTCACCTTGTCTGACGTTCGTTATGAGCAGCCAGGCGTGGCGGTAAAAGCGGG -CAATCTGCATCTGGCTGTCGGGCTTGAGTGCCTGTGGAACAGCAGTGTTTGTATTAATGATCTGGCGCTGAAAGACATTC -AGGTCAACATCGACAGTAAAAAAATGCCTCCTTCTGAACAGGTTGAAGAAGAGGAAGATAGCGGTCCGCTGGATCTCTCC -ACGCCGTATCCCATCACCCTGACACGGGTGGCACTGGACAACGTCAACATTAAGATTGATGACACCACGGTATCGGTGAT -GGACTTCACCTCCGGCCTGAACTGGCAGGAGAAAACCCTGACCCTGAAACCGACGTCGCTGAAAGGCCTGCTGATTGCTC -TGCCGAAAGTGGCGGAAGTGGCGCAGGAAGAAGTGGTCGAACCGAAAATTGAAAATCCGCAGCCGGATGAAAAGCCGCTC -GGCGAAACGCTGAAAGATCTCTTTTCTCGCCCGGTATTGCCGGAAATGACCGACGTGCATTTGCCGCTTAACCTGAACAT -TGAAGAGTTTAAGGGCGAGCAGCTGCGCGTGACGGGCGACACGGACATCACCGTGAGCACCATGCTGCTGAAAGTGAGCA -GCATTGACGGCAATACTAAACTGGACGCCCTGGATATCGATTCCAGTCAAGGGATCGTCAACGCCAGCGGCACGGCGCAG -CTGTCAGACAACTGGCCGGTGGACATCACTCTCAACAGTACACTGAACGTGGAGCCGTTGAAAGGTGAAAAAGTGAAGCT -GAAAATGGGCGGCGCGCTGCGCGAACAGCTGGAGATTGGCGTTAATCTTTCCGGTCCGGTGGATATGGATTTACGCGCCC -AGACGCGACTGGCGGAAGCCGGATTGCCGCTCAACGTGGAAGTGAACAGCAAACAGCTTTACTGGCCGTTCACTGGTGAG -AAGCAGTATCAGGCGGATGATCTGAAACTGAAACTTACCGGCAAAATGACCGATTACACGCTCTCTATGCGTACGGCAGT -GAAGGGACAGGAGATCCCGCCCGCGACTATTACCCTCGACGCCAAAGGTAATGAACAGCAGGTCAATCTCGACAAACTCA -CCGTCGCGGCGCTGGAAGGGAAAACTGAACTCAAGGCGTTGCTCGACTGGCAACAGGCCATTAGTTGGCGCGGTGAGCTA -ACGCTTAACGGCATTAACACCGCCAAAGAGTTCCCGGACTGGCCGTCGAAACTCAATGGCTTGATTAAAACCCGCGGTAG -CCTGTACGGCGGCACCTGGCAGATGGACGTGCCGGAGTTGAAGCTGACCGGTAACGTTAAACAGAACAAAGTGAACGTTG -ACGGCACGCTGAAAGGCAACAGTTATATGCAGTGGATGATCCCAGGGCTTCATCTGGAACTCGGGCCAAACAGTGCCGAA -GTGAAAGGCGAGCTGGGGGTAAAAGATCTCAATCTTGATGCCACCATCAACGCGCCGGGGCTGGATAACGCGCTGCCGGG -GCTTGGCGGTACAGCGAAAGGGCTGGTGAAAGTACGCGGCACGGTGGAAGCGCCACAACTACTGGCAGATATCACCGCGC -GCGGCCTGCGCTGGCAGGAACTTTCCGTGGCGCAGGTTCGCGTGGAAGGCGATATCAAATCCACCGATCAGATCGCCGGG -AAACTCGACGTACGCGTTGAGCAAATTTCGCAGCCGGATGTAAATATCAACCTCGTCACCCTGAATGCCAAAGGCAGCGA -AAAGCAGCACGAGCTACAGTTGCGGATTCAGGGGGAGCCTGTCTCCGGGCAGCTTAATCTGGCAGGAAGTTTTGATCGCA -AAGAAGAACGCTGGAAGGGAACTCTTAGCAATACCCGCTTCCAGACGCCGGTTGGCCCGTGGTCGCTGACCCGCGATATT -GCGCTGGATTACCGCAATAAGGAGCAAAAAATCAGCATCGGGCCACACTGCTGGCTTAACCCGAATGCGGAACTGTGCGT -GCCGCAAACTATCGATGCGGGGGCCGAAGGGCGTGCGGTGGTGAATCTCAACCGCTTCGACCTCGCCATGCTGAAACCGT -TTATGCCAGAAACCACTCAGGCCAGCGGTATCTTCACGGGTAAAGCGGACGTTGCCTGGGACACCACGAAAGAGGGGCTG -CCGCAGGGCAGTATCACCCTTTCGGGGCGTAACGTGCAGGTAACGCAAACCGTCAACGATGCGGCGCTGCCCGTGGCGTT -TCAGACACTGAATCTGACGGCGGAATTGCGTAACAACCGTGCCGAATTGGGCTGGACCATCCGCCTGACCAATAACGGCC -AGTTTGATGGACAGGTGCAGGTGACCGATCCGCAAGGCCGCCGTAATCTTGGTGGCAACGTCAATATCCGTAACTTCAAC -CTTGCGATGATAAACCCCATCTTTACCCGTGGGGAAAAAGCAGCGGGGATGGTGAGTGCCAACTTGCGTCTGGGTGGTGA -TGTGCAAAGCCCGCAGTTGTTTGGTCAGCTTCAGGTTACGGGTGTGGATATCGATGGCAACTTTATGCCGTTTGATATGC -AACCGAGCCAGCTTGCGGTCAACTTTAACGGTATGCGCTCGACGCTTGCCGGTACAGTACGGACCCAGCAGGGTGAAATC -TACCTGAACGGTGATGCCGACTGGAGCCAAATTGAAAACTGGCGGGCGCGGGTAACGGCGAAAGGCAGTAAAGTGCGGAT -CACCGTGCCGCCGATGGTACGAATGGATGTATCGCCAGATGTTGTATTCGAGGCTACACCAAACCTGTTTACCCTCGATG -GTCGCGTGGATGTCCCTTGGGCGCGCATCGTGGTGCACGATCTGCCGGAAAGCGCAGTAGGCGTCTCCAGCGATGTGGTG -ATGCTTAACGATAACCTGCAACCGGAAGAGCCGAAAACGGCGTCGATTCCGATTAACAGTAACCTGATTGTCCACGTTGG -CAACAATGTGCGCATTGACGCCTTTGGCCTGAAAGCGCGGCTGACGGGCGATCTCAATGTCGTTCAGGACAAACAAGGGC -TGGGTCTGAACGGGCAGATCAACATCCCTGAAGGGCGCTTCCATGCCTATGGTCAGGATCTGATTGTGCGTAAAGGTGAG -TTACTGTTCTCTGGTCCGCCAGATCAACCGTATCTTAATATTGAAGCTATTCGTAACCCGGATGCTACAGAAGACGACGT -AATCGCCGGAGTTCGCGTCACTGGTCTGGCGGACGAACCGAAAGCGGAGATCTTCTCTGACCCGGCGATGTCGCAACAAG -CTGCCTTGTCTTATTTGCTACGTGGACAAGGGCTGGAGAGCGATCAGAGCGACAGTGCGGCAATGACCTCGATGCTGATT -GGTTTGGGGGTTGCGCAAAGTGGCCAGATTGTGGGTAAAATCGGCGAGACGTTTGGCGTAAGCAATTTAGCGCTCGACAC -CCAGGGAGTAGGCGACTCCTCCCAGGTAGTGGTCAGCGGCTATGTATTGCCAGGTCTGCAAGTGAAATACGGCGTGGGTA -TATTTGACTCTATAGCAACACTCACGTTACGTTATCGCCTGATGCCTAAGCTATATCTGGAAGCCGTGTCTGGTGTAGAC -CAGGCACTGGATTTGCTCTATCAGTTCGAGTTTTAGCAATGCGAATATTTGTCTACGGCAGTTTACGCCACAAACAAGGC -AACAGTCACTGGATGACCAATGCCCAGTTACTGGGCGATTTCAGTATCGATAACTACCAGTTGTATAGCCTGGGCCACTA -TCCAGGCGCAGTTCCGGGGAACGGAACGGTACACGGTGAAGTTTATCGTATTGACAACGCCACGCTGGCCGAACTTGATG -CCTTGCGCACCAGGGGCGGTGAATACGCGCGCCAGTTGATTCAGACGCCGTACGGGAGTGCATGGATGTACGTTTATCAA -CGACCCGTCGATGGATTAAAGCTAATTGAAAGCGGCGACTGGTTAGACAGGGATAAGTAACCATATGCATACGCCACCTT -CGGGTGGCGTTGTTTTTTGCGAGACGACTCGCATTCTGTTTTGTAATTCCCTCACCTTTTGCTTTTCTCTCCGAGCCGCT -TTCCATATCTATTAACGCATAAAAAACTCTGCTGGCATTCACAAATGCGCAGGGGTAAAACGTTTCCTGTAGCACCGTGA -GTTATACTTTGTATAACTTAAGGAGGTGCAGATGCGTATTACCATAAAAAGATGGGGGAACAGTGCAGGTATGGTCATTC -CCAATATCGTAATGAAAGAACTTAACTTACAGCCGGGGCAGAGCGTGGAGGCGCAAGTGAGCAACAATCAACTGATTCTG -ACACCCATCTCCAGGCGCTACTCGCTTGATGAACTGCTGGCACAGTGTGACATGAACGCCGCGGAACTTAGCGAGCAGGA -TGTCTGGGGTAAATCCACCCCTGCGGGTGACGAAATATGGTAAAGAAAAGTGAATTTGAACGGGGAGACATTGTGCTGGT -TGGCTTTGATCCAGCAAGCGGCCATGAACAGCAAGGTGCTGGTCGACCTGCGCTTGTGCTCTCCGTTCAAGCCTTTAATC -AACTGGGAATGACGCTGGTGGCCCCCATTACGCAGGGCGGAAATTTTGCCCGTTATGCCGGATTTAGCGTTCCTTTACAT -TGCGAAGAAGGCGATGTGCACGGCGTGGTGCTGGTGAATCAGGTGCGGATGATGGATCTACACGCCCGGCTGGCAAAGCG -TATTGGTCTGGCTGCGGATGAGGTGGTGGAAGAGGCGTTATTACGCTTGCAGGCGGTGGTGGAATAAGGTGTGTTTATTT -ATCGCGGGCATAAAAAAACCCTTACTAACCGAAGCCCGGCGTTCAGGGTTATTACGCCAGAAGAACTTATTTATTCTTTG -CGCGCTCGAAGGAGGCAACGATTTCAGCTTTAGCGGCTTCTGCGTTTTCCCAACCTTCAACTTTCACCCACTTGCCTTTT -TCGAGGTCTTTGTAGTGCTCGAAGAAGTGAGCGATTTGCGCTTTCAGCAGTTCAGGCAGATCGTTAACGTCTTTAATGTG -ATCGTATTCTTTGCTCAGCTTGCTGTGCGGAACCGCAACCAGTTTCGCATCTTCACCGGCTTCGTCGGTCATTTTCAGAA -CGCCAACCGGACGGCAACGGATCACAGAACCCGGCTGCAGCGGGTACGGAGTTGGGACCAGTACGTCAACCGGGTCACCG -TCCAGAGACAGGGTGTGGTTGATGTAACCGTAGTTGCATGGATAGAACATCGCGGTGGACATGAAGCGGTCAACGAACAG -TGCGCCGCTCTCTTTGTCGATTTCGTATTTGATCGGATCTGCGTTAGCCGGGATCTCAATAACAACGTAGATGTCTTCCG -GCAGATCTTTACCCGCAGGGACGTTGAGTAAGCTCATGTCTGTTTCCTTTAAAAATATGTGGCAAACAAGTGCCGAGTAT -TATAGCCAACTCGCGCCGAATGTCTTCGCTTGTTTTCGTCTTCATTTTCCTTTTTCACCAGTTTTAAGACGGTATACAGA -GCAGGAAAATCCATAACCGTAGCCGCATTTTTCATAGTGAGATGAAAGCGATTACAAACTTGTGATTAACGTTTTATTTA -CTTTTTTGAAGTGTGATGTAACGCAATCTGTTACATAACGAATTGTCTATAGTTTTTTCGCGAACATCTTTTAACCAATA -ATAACTACCCCGACGAGGACAACCCTATGTGGAAACGCTTACTTATAGTCTCTGCAGTCTCGGCAGCCATGTCGTCTATG -GCGTTGGCCGCTCCATTAACCGTTGGATTTTCGCAGGTCGGATCGGAATCAGGCTGGCGTGCCGCAGAAACCAATGTGGC -GAAAAGTGAAGCCGAAAAGCGCGGAATCACGTTGAAAATTGCCGATGGTCAGCAAAAGCAGGAAAACCAGATTAAAGCGG -TACGTTCCTTCGTTGCACAAGGGGTGGATGCGATCTTTATCGCTCCGGTGGTCGCGACAGGTTGGGAACCGGTATTAAAA -GAGGCGAAAGATGCCGAAATCCCGGTATTCTTGCTCGATCGTTCCATTGATGTGAAAGACAAATCTCTCTATATGACCAC -CGTCACTGCCGACAACATCCTCGAAGGCAAGTTGATTGGTGACTGGCTGGTAAAAGAAGTGAATGGCAAACCATGCAACG -TGGTGGAGCTGCAGGGCACCGTTGGGGCCAGCGTCGCCATTGACCGTAAGAAAGGCTTTGCCGAAGCCATTAAGAATGCG -CCAAATATCAAAATCATCCGCTCGCAGTCAGGTGACTTCACCCGCAGTAAAGGCAAAGAAGTCATGGAGAGCTTTATCAA -AGCGGAAAACAACGGCAAAAACATCTGCATGGTTTACGCCCATAACGACGACATGGTGATTGGTGCAATTCAGGCAATTA -AAGAAGCGGGCCTGAAACCGGGCAAAGATATCCTCACGGGTTCCATTGACGGTGTACCGGACATCTACAAAGCGATGATG -GATGGCGAAGCGAACGCCAGTGTTGAACTGACGCCGAATATGGCAGGTCCCGCCTTCGACGCGCTGGAGAAATACAAAAA -AGACGGCACCATGCCTGAAAAGCTGACGTTAACCAAATCCACCCTTTACCTGCCTGATACCGCAAAAGAAGAATTAGAGA -AGAAGAAAAATATGGGGTATTGAGGGTTGCTATGCCTGATGCCGATTCGTAGGCCGGATAAGGCGCTCGCGCCGCATCCG -GCGATGGTGCACTGAAGCCTGATGCGACGCTTACCGCGTCTTATCATGCCTACTGGGAGCACGCTTTACACCGGGGGAAA -CCATGACGACCGACCAACACCAGGAGATCCTCCGCACCGAAGGATTAAGTAAATTTTTCCCCGGCGTCAAAGCGTTAGAC -AACGTTGATTTCAGCCTGCGCCGTGGCGAAATCATGGCGCTGCTCGGTGAAAACGGGGCGGGAAAATCAACGCTAATCAA -AGCATTAACTGGTGTATACCACGCCGATCGCGGCACCATCTGGCTGGAAGGCCAGGCTATCTCACCGAAAAATACCGCCC -ACGCGCAACAACTCGGCATTGGCACCGTCTATCAGGAAGTCAACCTGCTACCCAATATGTCGGTCGCTGATAATCTATTT -ATAGGCCGCGAACCCAAACGCTTCGGCCTTCTACGCCGCAAAGAGATGGAAAAGCGCGCCACCGAACTGATGGCATCTTA -CGGTTTCTCCCTCGACGTGCGCGAACCGCTCAACCGCTTTTCAGTCGCGATGCAGCAAATCGTCGCTATTTGTCGGGCTA -TCGATCTCTCTGCCAAAGTGCTGATCCTCGATGAACCCACCGCCAGTCTCGACACCCAGGAAGTGGAGTTACTGTTTGAC -CTGATGCGTCAGTTGCGCGATCGCGGCGTCAGCCTGATTTTTGTCACTCACTTTCTCGATCAGGTCTATCAGGTCAGCGA -TCGGATCACCGTCTTACGCAACGGCAGTTTCGTAGGCTGTCGGGAAACGTGCGAGCTACCGCAGATCGAACTGGTAAAAA -TGATGCTGGGGCGCGAGCTGGATACCCACGCGCTACAGCGTGCCGGGCGAACATTGTTGAGCGACAAACCCGTTGCCGCG -TTCAAAAATTACGGCAAAAAAGGAACGATCGCACCGTTTGATCTCGAAGTACGCCCCGGCGAGATCGTCGGTCTGGCTGG -ATTGCTGGGATCAGGACGTACCGAAACCGCCGAAGTGATCTTCGGTATCAAACCTGCTGACAGCGGCACGGCGTTGATCA -AAGGCAAACCGCAAAACCTGCGATCGCCACATCAGGCTTCGGTACTGGGCATTGGCTTCTGCCCGGAAGACAGGAAAACC -GATGGCATCATCGCTGCCGCCTCGGTGCGGGAAAATATCATCCTCGCTCTCCAGGCCCAGCGCGGCTGGCTACGTCCCAT -TTCCCGCAAAGAACAGCAAGAGATTGCCGAACGCTTTATCCGCCAGCTTGGCATTCGCACACCTTCAACTGAACAACCGA -TTGAATTTCTCTCCGGCGGCAATCAGCAAAAAGTGTTGCTTTCACGTTGGCTACTGACCCGACCGCAATTTCTGATCCTC -GATGAGCCAACCCGCGGCATTGATGTTGGTGCCCACGCCGAGATCATCCGCCTGATTGAAACGCTATGCGCCGATGGTCT -GGCGCTGCTGGTGATCTCCTCCGAACTGGAAGAGCTGGTGGGCTATGCCGATCGGGTGATTATCATGCGCGATCGCAAAC -AGGTGGCGGAGATCCCGCTGGCAGAGCTTTCCGTTCCGGCGATCATGAACGCCATTGCGGCGTAAGGAGAACAGTGTGAT -GCCTCAATCTCTTCCGGACACCACTACGCCAAAAAGGCGCTTTCGCTGGCCGACGGGGATGCCGCAGCTGGTAGCACTAT -TGCTGGTGCTGCTGGTCGATAGCCTGGTAGCCCCGCATTTCTGGCAGGTGTACTGCACCCATTTTGTTGGACGATGAAAT -GGAATAGCCCCTAATATGTCAAAGCCAAAATACCCTTTTGAAAAGCGCCTTGAAGTCGTGAATCACTACTTCACAACTGA -TGATGGTTACAGGATCATCTCGGCACGTTTTGGTGTCCCCCGAACCCAGGTCAGGACATGGGTTGCCCTCTATGAAAAAC -ATGGAGAAAAAGGTTTAATTCCCAAACCTAAAGGCGTTAGTGCTGATCCAGAGTTGCGTATTAAGGTCGTGAAAGCTGTG -ATCGAGCAGCACATGTCCCTTAATCAGGCTGCTGCTCACTTTATGCTTGCTGGTAGTGGTTCTGTAGCCAGGTGGCTGAA -GGTCTATGAAGAGCGCGGAGAAGCTGGTTTACGCGCGCTCAAGATTGGCACCAAAAGAAACATTGCAATATCAGTTGATC -CAGAAAAAGCGGCATCAGCATTGGAGCTGTCAAAAGACCGACGCATTGAGGATCTTGAAAGGCAAGTTCGATTTCTTGAA -ACGCGGCTTATGTATCTAAAAAAGCTGAAAGCCTTAGCTCATCCCACGAAAAAGTGAAAGTACTCAACGAGCTAAGGCAG -TTTTATCCTCTTGATGAGCTTCTCAGGGCTGCGGAGATACCGCGCAGTACGTTTTATTATCATCTAAAGGCTCTCAGCAA -GCCTGACAAGTATGCGGACGTTAAAAAGCGTATTAGTGAGATTTATCACGAGAATAGAGGCCGATACGGATACCGTAGGG -TAACGCTGTCTCTTCATCGAGAAGGGAAACAGATTAACCATAAAGCTGTTCAGCGCCTGATGGGAACCCTCTCACTTAAA -GCAGCGATTAAGGTCAAGCGATACCGCTCTTACAGAGGAGAGGTAGGGCAAACCGCCCCTAATGTTCTCCAAAGAGATTT -CAAGGCTACGCGGCCAAACGAGAAGTGGGTTACCGATGTTACTGAATTTGCAGTCAATGGGCGCAAGCTGTATTTGTCTC -CAGTAATAGATCTCTTCAACAACGAAGTTATTTCTTACAGCCTTTCGGAAAGACCAGTGATGAACATGGTTGAGAATATG -CTCGATCAGGCATTCAAAAAGCTTAATCCTCACGAGCATCCTGTTCTGCACTCTGACCAGGGATGGCAGTATCGTATGAG -AAGATATCAAAATATCCTTAAAGAACATGGTATTAAACAAAGCATGTCCAGAAAAGGCAATTGTCTGGATAATGCTGTGG -TGGAGTGTTTCTTTGGAACCTTAAAGTCGGAGTGTTTTTATCTTGATGAGTTCAGTAATATAAGCGAACTGAAGGATGCT -GTTACGGAATATATTGAATACTACAACAGCAGAAGAATTAGCCTGAAATTAAAAGGTCTGACTCCAATTGAATATCGGAA -TCAGACCTATATGCCTCGTGTTTAACTGTCCAACTTTTTGGGGTCAGTACAAGGTGGTGCTTCAGGATGGGCGTTTGTTC -GGTAGCCCCATAGACATTCTTAACCGTGCAGCTCCCGTTGCGTTACTGGCGATTGGCATGACGCTGGTGATCGCCACCGG -TGGGATTGATCTCTCCGTAGGGGCGGTGATGGCTATCGCCGGAGCCACAACGGCTGCGATGACGGTCGCGGGATTCAGCC -TGCCGATTGTTTTGTTAAGCGCCCTGGGCACCGGCATCCTGGCGGGATTGTGGAACGGCATACTGGTAGCGATCCTCAAA -ATTCAGCCGTTTGTCGCCACTCTGATCCTGATGGTCGCCGGGCGCGGCGTGGCGCAACTGATCACCGCCGGGCAGATCGT -CACGTTTAACTCGCCGGATCTCTCATGGTTCGGCAGTGGATCGCTGTTGTTCCTGCCAACGCCGGTCATTATCGCGGTGC -TGACGCTTATCCTGTTCTGGCTGTTGACCCGCAAAACGGCGCTGGGGATGTTTATCGAAGCCGTTGGTATCAACATTCGG -GCGGCAAAAAATGCCGGGGTAAACACGCGAATCATCGTCATGCTCACTTATGTGTTGAGCGGGCTGTGTGCGGCGATTGC -GGGCATTATCGTGGCGGCGGATATTCGCGGTGCCGATGCCAACAACGCTGGGTTATGGCTGGAGCTGGACGCCATTCTCG -CGGTGGTGATTGGCGGCGGATCGCTGATGGGCGGGCGCTTTAACCTGCTACTTTCGGTGGTGGGGGCGCTGATTATTCAG -GGGATGAACACCGGAATTTTGCTTTCGGGCTTTCCGCCAGAGATGAACCAGGTGGTGAAAGCGGTGGTGGTGCTTTGCGT -GCTGATTGTTCAGTCGCAACGCTTTATCAGTCTGATTAAAGGAGTACGTAGCCGTGATAAAACGTAATTTGCCACTGATG -ATCACCATCGGCGTCTTTGTGTTGGGTTATCTTTACTGCCTGACCCAGTTTCCCGGTTTTGCTTCCACAAGAGTGATCTG -CAATATCCTGACCGATAATGCCTTTCTTGGGATCATTGCCGTTGGCATGACCTTTGTGATCCTCTCAGGTGGGATCGATC -TCTCCGTCGGTTCGGTGATCGCCTTTACTGGCGTGTTTCTGGCAAAAGTGATTGGCGATTTCGGCCTCTCGCCGCTGCTG -GCGTTTCCGCTAGTGCTGGTGATGGGCTGTGCCTTCGGCGCATTTATGGGGCTTCTGATCGACGCCCTGAAGATCCCGGC -ATTTATCATTACGCTTGCGGGGATGTTCTTTTTGCGCGGCGTCAGCTATCTCGTTTCGGAAGAGTCGATTCCGATAAACC -ATCCCATTTATGACACGCTCTCAAGCCTTGCGTGGAAAATCCCTGGCGGCGGTCGCTTAAGTGCGATGGGACTGCTGATG -TTGGCGGTGGTGGTTATCGGCATATTCCTCGCGCATCGTACCCGTTTTGGTAATCAGGTATACGCCATTGGCGGCAACGC -AACGTCGGCGAATCTGATGGGGATTTCCACTCGCAGCACCACTATTCGCATTTATATGCTCTCCACCGGACTGGCAACGC -TGGCGGGGATTGTCTTCTCGATTTATACCCAGGCCGGATATGCGCTGGCGGGCGTAGGTGTGGAACTGGATGCTATCGCC -TCAGTGGTAATTGGCGGTACGCTTTTGAGCGGTGGCGTTGGAACGGTATTAGGGACGCTTTTTGGCGTGGCGATTCAGGG -ACTGATTCAGACTTACATAAACTTTGATGGCACGCTGAGTTCCTGGTGGACGAAAATCGCCATCGGTATTTTGTTGTTTA -TTTTTATAGCATTACAGCGTGGATTAACGGTGCTGTGGGAGAATCGTCAGAGTTCGCCAGTGACAAGAGTCAACATTGCG -CAGCAATAAAAACGCCTCTCCGTGTGGAGAGGCGCAGGAGATTACGCGTCCGGGAACTCACGGATAAAGCGTTCGACATC -TTCAACCATATGGTCGTTGCCGACAAAGAATGAACGGCGCTGGTGCAGGGTTTCCGGGATGATATCCAGAATACGCTCTT -TGCCATCGCTCGCTTTACCGCCCGCTTGTTCCGCCAGGAATGCCATCGGGTTGCACTCATACAGCAAACGCAGTTTGCCG -TCCGGGTGGCTGGCGGTGCTTGGGTAGAGATAAATACCGCCTTTCAGCAGGTTACGGTGGAAATCCGCGACCAGTGAACC -GATATAACGTGAGGTATAAGGGCGGTTGGTGGATTTATCTTCTTCCTGGCAGAATTTAATGTACTTCTTCACCCCGTTCG -GAAACTTAATGTAGTTTCCTTCGTTGATGGAGTAGGTTTTGCCTTTCTCCGGGAAGCGCATCCGTTCCTGGCACAGGCAG -AAAACGCCGAGCGAAGGATCGTAAGTAAAGGCGTGAACACCGCATCCGGTGGTGTAAACCAGCATGGTAGAGGAGCCGTA -TACCACGTAACCTGCCGCAACCTGTTTGTTACCAGGCTGGAGGAAATCTTCTTCCGTTACCGGCGTGCCAACAGGCGTAA -CGCGGCGGTAGATGGAGAAAATGGTACCGACAGAGACGTTAACATCGATGTTGGACGAGCCATCCAGGGGGTCCATCAGC -ACCACGTATTTTGCGTGTTCACAGCCTTCAAAGACGACAATCTCATCTTCTTCTTCAGAGGCAATGCCCGCAACGATATC -GCGTGCTTTCAGTGCGGCTTTCAGTTTTTCATTAGCGAACAAGTCGAGTTTCTGCTGAACCTCGCCCTGCACGTTCTCAG -CACCGCTGGCACCCAGGATATCAACCAGTCCTGCTTTGTTGATATCGCGATGGATAATCTTGGCGCCCAGTTTTATTGCC -GACAGCAAAGCAGTGAGCTCACCGGTAGCATGAGAAAACTCGTGCTGCTTTTCGACAATAAATTCACCTAACGTTTTCAT -AAAACTTTCCCTGCAATGTTTATGGAGTAAAGCGACCGCAACAATCTTAACAAATAATCTCAATGTTGCGCTCAGGTGAA -TCGCGCCAGCAAATTACGGATTATCCTGAAATGCGTTTCTCACTTGCCCGACATATGCGTAAAATGAGCGGCAGATTAAA -AAAGGATAGTGACGTATGCGCATTCATATTTTAGGAATTTGTGGCACATTTATGGGCGGTCTGGCGATGCTGGCGCGCCA -GTTAGGCCATGAAGTAACGGGTTCGGACGCCAATGTGTATCCGCCGATGAGCACCTTACTTGAGAAGCAAGGCATTGAGC -TGATTCAGGGGTACGATGCCAGCCAGCTCGAGCCGCAGCCGGATCTGGTGATTATTGGCAACGCCATGACCCGTGGAAAT -CCGTGTGTGGAAGCGGTACTGGAAAAAAATATCCCTTATATGTCAGGTCCACAGTGGCTGCACGATTTTGTGCTGCGCGA -CCGCTGGGTGCTGGCCGTTGCCGGTACACACGGCAAAACCACCACCGCGGGAATGGCGACCTGGATTCTGGAACAGTGTG -GTTACAAACCGGGCTTTGTAATCGGCGGTGTGCCGGGGAACTTTGAGGTTTCGGCTCATCTGGGCGAAAGCGACTTCTTT -GTTATCGAAGCGGATGAGTATGACTGCGCCTTCTTCGACAAACGCTCTAAATTTGTTCATTACTGCCCGCGTACGCTGAT -CCTCAACAACCTTGAGTTCGATCACGCCGATATCTTTGACGACCTGAAAGCGATCCAGAAACAGTTCCACCATCTGGTGC -GTATCGTTCCGGGGCAGGGCCGTATTATCTGGCCGGAAAATGACATCAACCTGAAACAGACCATGGCGATGGGCTGCTGG -AGCGAGCAGGAGCTGGTGGGTGAGCAGGGTCACTGGCAGGCGAAAAAGCTGACCACCGATGCTTCCGAATGGGAAGTTTT -GCTGGATGGCGAAAAAGTGGGCGAAGTGAAATGGTCGCTGGTAGGCGAACATAATATGCACAATGGCCTGATGGCGATTG -CAGCGGCTCGCCATGTTGGTGTAGCGCCGGCAGATGCCGCTAACGCGCTGGGTTCGTTTATTAATGCTCGTCGCCGTCTG -GAGTTGCGTGGTGAAGCGAATGGCGTCACGGTATATGACGATTTTGCCCATCACCCGACGGCGATTCTGGCAACGCTGGC -GGCGCTGCGTGGCAAAGTTGGTGGTACGGCGCGCATTATTGCTGTGCTGGAGCCGCGCTCGAATACCATGAAAATGGGGA -TCTGCAAAGACGATCTGGCACCTTCATTAGGTCGTGCCGATGAAGTCTTCCTGCTGCAACCGGCGCATATTCCGTGGCAG -GTGGCAGAAGTGGCAGAAGCCTGCGTTCAGCCTGCACACTGGAGTGGCGATGTGGATACGCTGGCAGATATGGTGGTGAA -AACCGCTCAGCCTGGCGACCATATTCTGGTGATGAGCAACGGCGGTTTTGGTGGGATCCATCAGAAACTGCTGGATGGGC -TGGCGAAGAAGGCGGAAGCCGCGCAGTAATTCGGCCTTAGCCAGATATAGTATGCGTAGGCCGGATAAGGCGTTCACGCC -GCATCCGGCATTTGAGCATAGTGCCTGATGCGACGCTTGATGCGTCTTATCAGGCCTACAGGTGCACCGTATCCGGCAAA -CCATACTCACATCAACAACGAAAATTACCCTTCGTTCTCCGCTAACTCGCGCAGATACTGGAAAATCTGGCGTGCGGATT -TCGGCGGCTTATTCCCTTCTTTCTCTTTCTTCGCGTTGCGGATCAGAGTACGCAGTTGCTGACGATCGGCATCGGGCCAC -AGATTTAATACCTCAGCGATGGCGTCATCACCTTGATCGATCAGACGATCGCGCAGGTTTTCCAGTTTATGGAACAGCAC -CACCTGCTGGTTGTGACGGTTTTTCAGCTTATCCAGCGCCTGACGAATAGGCTCTACGTCGCGCTGGCGCAGCATCTTAC -CGATGAGCTGCAACTGGCGGCGGCGACCTTCCATCTTAATACGCTGGGCGAGCTCAATAGCCGCGCGCAGATCCGCATCT -AACGGGATCTTATCCAGCGCGTTTTTCCCCAGATCAACAATTTCCGCGCCAAGGCGTTTTAGCTCCTCGGCATCACGTTT -AATTTCACTTTTACTGACCCAGATAATTTCATCGTCTTCGTCTTCGATGTCATCACCGGGAACGTCGTCGAGCCAGTCTT -CGGGCTGCTTAGTCATCTCAGGCTCCTTAAAAAAAGAGGCTAATGTTACCAGTTAAGATGCGCACTGAAAAACGGTTCTC -TGTTAGACTTCAGAGAAACTCTCTACATTATGGCACTTGCAATGAAAGTAATCTCTCAAGTTGAAGCGCAGCGCAAGATT -CTGGAAGAAGCAGTTTCCACTGCGCTGGAGTTGGCCTCAGGCAAATCGGACGGTGCGGAAGTTGCCGTCAGCAAGACCAC -CGGCATTAGCGTAAGCACGCGTTATGGTGAAGTGGAGAATGTTGAATTCAATAGCGATGGCGCGCTGGGGATCACTGTTT -ATCACCAGAACCGCAAAGGTAGCGCATCATCCACCGATTTAAGCCCGCAGGCCATTGCCCGTACTGTACAGGCGGCGCTG -GATATTGCCCGTTATACCTCGCCAGATCCCTGTGCCGGCGTGGCAGACAAAGAGCTGCTGGCCTTTGACGCACCAGATCT -CGACTTGTTCCACCCTGCGGAAGTTTCCCCGGATGAAGCCATTGAACTGGCGGCCCGCGCAGAACAGGCGGCATTGCAGG -CGGACAAACGCATCACCAATACCGAAGGTGGCAGCTTTAACAGCCACTACGGTGTCAAAGTTTTTGGCAACAGCCACGGC -ATGTTGCAGGGTTACTGCTCAACGCGTCATTCGCTCTCCAGCTGTGTAATTGCCGAAGAAAATGGCGATATGGAGCGTGA -TTACGCCTACACCATTGGTCGTGCGATGAGCGATCTGCAAACGCCAGAGTGGGTTGGGGCCGACTGTGCTCGCCGTACTT -TATCGCGTCTGTCACCGCGTAAACTCTCCACCATGAAAGCGCCAGTCATTTTTGCCAATGAAGTGGCAACCGGGCTTTTT -GGGCATCTGGTGGGGGCGATAGCGGGTGGATCGGTTTATCGTAAATCTACCTTCCTGCTGGATTCGCTGGGTAAACAAAT -TCTGCCGGACTGGCTGACCATTGAAGAGCATCCGCATCTGCTGAAAGGGCTGGCGTCGACGCCATTCGACAGCGAAGGTG -TGCGCACCGAGCGTCGCGATATTATTAAAGATGGCATCCTGACTCAGTGGCTGCTGACCAGCTACTCGGCGCGGAAACTG -GGGCTGAAAAGCACCGGACATGCGGGCGGTATTCACAACTGGCGGATTGCCGGACAAGGTCTAAGCTTCGAGCAGATGCT -CAAAGAGATGGGCACCGGGCTGGTGGTGACGGAATTGATGGGCCAGGGCGTGAGTGCCATTACCGGTGATTATTCCCGTG -GTGCAGCGGGCTTCTGGGTAGAGAATGGCGAAATTCAGTATCCGGTGAGCGAAATCACCATCGCAGGTAATTTAAAAGAT -ATGTGGCGCAATATTGTCACCGTCGGTAACGATATTGAAACACGCAGTAATATACAGTGTGGTTCTGTGCTGTTGCCGGA -GATGAAAATCGCCGGACAGTAAAAAAACTGGCGCGACCTGCCGCGCTATAAACTAAAAAATTACACAAAATCATTCGCAC -TGCATCGAGACGGAAAGTGAATGAGGGCCGGGGAGCGTACTCGCAGTACGTGACCCGGTCGAATGAGCGTAGTCGTCGAT -GAGGCAGTGTGAAGGATGAAGTGTAAATAAAAAAGGAACTATTCTTGCAGTCTCCTCGTTGGTATTCAGTTCGGCGTCAT -TTGCTGCTGATCTCGAAGACAATATGGAAACCCTCAACGACAATTTAAAAGTGGTCGAAAAAGCCGATAACGCGGCGCAA -GTCAAAGACGCGTTAACGAAGATGCGCGCCGCAGCGCTGGATGCGCAAAAAGCAACGCCGCCGAAGCTCGAAGATAAATC -ACCGGACAGCCCGGAAATGAAAGATTTCCGCCACGGTTTCGACATTCTGGTCGGTCAGATTGACGACGCGCTGAAGCTGG -CAAATGAAGGTAAAGTAAAAGAAGCGCAGGCTGCTGCAGAGCAACTGAAAACGACCCGCAATTCATATCACAAGAAGTAT -CGTTAATTCCTCATTTCCCTGTTGCCTGCACTCAGGTAACAGGGAACTTATCATCGCAAATGATGCACCACCTGATTGCT -GCTGCCGCGCCAGATCAGGGAAGGGTCTTTTAAATCCTGCACAAATTTGCCGTCGACCAGCACGTTAATCAAATCAACAA -CCTGCATTTGCGCAGCGTTGAGTTCGTCGAGTTTATAGCCTGTCCACACCCAGATGTCTTTACCCGGACACTCGGCGCGG -ATGCGTTGTACCAGTTTCAGAATATCCGGCACGTTTTGCGGATGCAGCGGATCGCCGCCGGAGAGGGAAATACCCTGGCG -TTTGATACGAGTGTCATTCAGATCGTTAATGATCTGGTCTTCCATTGCTTTGGTAAATGGCTGACCGGAATTTACCCGCC -ATGTGCTTTTGTTATAGCAACCGGGGCATTCATGAACACACCCGGAGACAAACAGGGTGCAACGAGTGCCGGGGCCGTTG -ACGATGTCGACAGGATAGTACTGATGATAATTCATTATTTCGCCTGGCTTATCAGTCCGCGTGTAGGCTGCATCCGGTAA -TCAATGCCTGATGCGACGCTGTCGCGTCTTATCAGACCTGGAGCAATTGCCAAATGTAGGCCGGATAAGGCGTTTACGCC -GCATCCGGCATTTGCTTAGCTCAGAGTGAAGATTAACCTATCTGCCCATTCCCCAAATGTTTAACGCGGCGCTTAACTTC -TTCCTGCTTACCAGCGTTAAACGGACGTGCATCCGGGCTACCTAAATATCCGCACACGCGGCGAGTTACCGACACACGGG -AGGCGTCATGGTTACCACATTTCGGGCAAGTGAAGCCTTTGCTGGTGCACTCGAACTCACCGGTAAAGCCACACTCGTAG -CACTCATCAATCGGTGTATTGGTGCCGTAATACGGTACATGCTGATAGCTGTAATCCCAGACATCTTCCAGCGCCTTCAG -GTTGTGCTGAATGTTTGGATACTCGCCGTAGCAAATGAAACCACCGTTCGCCAGCGGCGGGTAAGGCGCTTCAAAGTCGA -TCTTGTCGTACGGGTTCACCTTCTTCTCCACATCGAGGTGGAAACTGTTGGTGTAGTAACCTTTATCGGTCACGCCCGGC -ACCACGCCAAACTCAGCAGTATCGAGACGGCAGAAGCGATCGCACAGGTTTTCACTCGGCGTGCTGTAGAGACTGAAACC -ATAACCCGTTTCTTCTTTCCACTGATCCACTGCCTGACGCAGACGTTCAACAATGGCGATACCTTTCGCGCGAAGCTGCT -CGTTGTCGTAAACATGCTCGCCGCCGAACAGCGCGTTAATGGTTTCGTGGATGCCGATGTAACCCAGCGAAATAGACGCA -CGACCGTTTTTGAAGATTTCAGAAACATCATCGTCAGCATTGAGACGCACGCCACAAGCACCTTCCATATAGAGGATCGG -GGCCACGCGCGCTTTCACGCCTTCGAGACGAGCGATACGGGTCATCAGCGCCTTACGTGCCAGCACCAGACGTTCATCCA -GCAGCTTCCAGAAGGTGGCTTCATCGCCTTTTGCTTCCAGAGCAATACGCGGCAGGTTCAGGCTGATCACGCCGAGGTTG -TTACGACCATCGTGGATCTGCTCGCCGTTTTCATTTTCCCACACGCCGAGGAAGCTGCGGCAGCCCATCGGAGTTTTAAA -CGAACCGGTGACTTTCACTACCTGATCGTAGTTCAGGATATCCGGATACATGCGCTTGCTTGCGCACTCCAGCGCCAGCT -GTTTGATGTCGTAGTTCGGATCGCCTTTTTTATGGTTCAGGCCATCGCGAATCGCAAACACCAGTTTCGGGAACACCGCA -GTTTTACGGTTTTTACCGAGGCCTGCGATACGGTTACGCAGGATCGATTCCTGAATCAGGCGCGATTCCCAGCTGGTGCC -CAGGCCAAAACCAAAGGTTACAAACGGCGTCTGACCGTTGGCGGTGTGCAGGGTGTTTACTTCGTACTCCAGTGACTGGA -AGGCATCGTAGCACTCTTTGATGGTTCGAGAGTTAGCGTAGCCTTCGGCGTCCGGGATGTTCCACTCTTCTGCGGTCTTG -CGATGTTTGTTGTAGCTGGCAGTGACAAACGGTGCCAGCACTTCATCGATACGGTTAATGGTGGTGCCGCCATAAATATG -GCTGGCAACCTGAGCAATAATCTGCGCAGTTACCGCGGTTGCCGTAGAGATCGACTTCGGCGGTTCAATCTCGGCGTTCC -CCATTTTAAAGCCCTGGGTCAGCATGCCTTTCAGGTCGATCAACATGCAGTTGAACATCGGGAAGAACGGTGAGTAATCG -AGATCGTGATAGTGAATATCGCCACGCTCATGTGCCTGCACCACGTCACGCGGCAGCAGGTGCTGACGTGCATAGTGTTT -AGCCACGATCCCGGCCAGCAGGTCGCGCTGGGTTGGAATCACCTTGCTGTCTTTGTTGGCGTTTTCGTTGAGTAACGAGG -CGTTGGTCTGCTCGACCAGACCACGGATCTCCTGGTTCAGGCGACCGCGTTTTTCACGTTCAATGTCGCGATCGTGACGG -TACTCGATGTAAGCACGAGCCAGTTGTTTGTATGGACCTGACATCAGCTGATTTTCAACTGCGGTCTGGATCTCATTGAT -ATCCACCTGGTTGCGGCCCTGCATCTGCTCGCTGACAACCGCGGCAACAGTGGCGCAATAATCGGCATCATCGACTTCCG -CTGCTTTAGCTGCACGCAGAATCGCTTCTTTGATGCGCTCTGATTTAAACGGCACTTTGCAGCCGTCTCGTTTCATCACA -TGCGGTGTCATGATCGCTCCATATTTTTAAGAACAGGTTATCCACAGAAATTGGGAAAGGCGTTTTCCGGTTTTTTCGTT -TCGTTTTCCGGTGCTTTCCGCAATCGCCATCCGCTTATCCACAACGCCGCACCTTTTTCGTGGGGAGCTGTAGTAGCAAT -TATAGTCGATTAATACAACATATTGGGTTGGGACGCATTTTAAAGTCTATATATAGTGCTTTGCATCAAGGATGTTTGAG -CTTTTTTTGATGTAGCTCAAAGTAAAAAGCAGAGCGTACGGATGACGGGCGCTACAGCGATATGTAAATTTTTTAATGAA -TTTGCTGGTTGAAAAATCAACAAAAACAACATACTGACAGACAAAACCCCGGAATGACCGGCATTACCGGGGCTTAGGGA -AGATTTACTTCTGTAACCACCAGACAGCCTCAAAAGGCCGTAAATTCATGGCACAGGGTTGTGGTGAGGCTTCTTCGTAG -TTATGCATCACAAGCTGCCAGTTGCCGCGCATTTGCCCTGCCTGCCAGGGTTGGATCTCACGGCTAAGGTTGGCAATGAC -CAGCAAGGTTTGCCCCTTCCATTCACGGCGATAGCACCACAATACAGGGCTGTTTGGCAGCAGATCCTGGTAATTGCCCC -ATGTCAGGATGGCTTCCTGCTTACGCAGTGCGATTAACTTTTGGTAGGTGTAAAACACCGAGGAATCATCGGCCAGCGCG -GCTTCTACGTTGATTTGTTGATAGTTATCGCCCAGGCCAATCCACGGTTCGCCAGCCGTAAACCCGGCATTATCGCCGTT -GCTCCATTGCATGGGCGTGCGACTGTTGTCACGGGATTTACTGGCGAGGATTGCCAATAACTCGTCGGCATCACGCCCAT -CGTTGCGCAGCTCGGCAAACATATTGAGGCTCTCTACGTCGCGATAGTCAGTAATGCGCGTGAAATGCGGGTTGGTCATG -CCAATCTCTTCGCCCTGGTAGATATACGGCGTTCCCTGCATGCCATGCAGCACCATCGCCAGCATTTTTGCCGCAGGCAC -GCGGTATTCACCTTCATCACCAAAGCGAGAAACAATGCGCGGCTGATCGTGGTTACACCAGAACAAGGCATTCCATGCTA -CGTTGTGCATTCCTTGTTGCCAGTGGCGGAACAATGTTTTCAACGCCACAAAGTCAGGTTTAGCCAGCGTCCATTTTTCA -CCACCGGGATAATCGACCTTCAGGTGATGAAAATTAAAGGTCATCGACAATTCACTGCCTGTCAGAGCCGCGTATCGCTG -GCAATGCTCAAGGCTGGTGGAGGACATTTCACCTACGGTCATTAACCCGCGTGGCGTAAACACATCGCGGTTCATCTCGT -GCAAAAACTCGTGTGCTCGTGGCCCGTCGGTGTAGAAGCGACGCCCGTCGCCGTCCAGGTCTTCAGGGAAACGCGGGTCT -TTGGAGATCAGATTCACCACATCCAGGCGCAACCCGTCGACCCCACGATCGGCCCAGAACTCACAGACTTTTTTCAGCTC -TGCGCGTACCGCTGGATTCTCCCAGTTGAGATCCGCCTGTTCTGGTGCAAAGAGATGCAAATAGTACTGTTCGCTTTCCG -CATGCCAGCGCCACGCACTACCGCCAAATTTTGAACGCCAGTTGTTCGGTGGCGTTTCTGGTTCTCCATCGCGCCAGATA -TAAAACTGGCGGTAAGGGCTTTCTTTGTTCAGCGCCTCGCGAAACCAGGCATGTTGGGTAGAGGTATGGTTAAACACCAT -ATCGAGAATGATACGAATCCCGCGCGATTTTGCCTGCGTCACCAGTTCGTCAAAATCGTCCAGCGTGCCGTAGGTGGGAT -CAATCGCCGTATAGTTCGCTACGTCGTAACCGTTATCGACCTGGGGAGAGACATAAAAGGGGGTTAGCCAGATGGCATCA -ACGCCCAGTTTATGCAGATAGTCCAGGTGTTGGATAACGCCACGTAAATCGCCGGTACCGCTACCCGTGGTGTCCTGAAA -ACTCTTTGGATAAATCTGGTAGATAACGCCGTTTTGCCACCAGTGGGGAAGATGAGTCATTACGTTATTCCTGCGAATGC -GAGGGGGCGCAATTGCGCCCCGAAGAAAATTAAACAATGTCCAGCGTGCCCAGGCGGTATTTCCGCTGATAGATAAACGA -GGTGAGTACAATCGGGATGATGATGGCGATAGCCATTGCCAGCGCAAACACCTGCCAGTAGCTCGGTTGAATCGAGAGAA -TTCCCGGCAGGCCGCCTACGCCGATGCCATTCGCCATAACGCCGTTCAGGCCGCATAGCAATCCTGCCAGACCAGAACCA -ATCATCGCGCACAGCATCGGGAAGCGATATTTCAGGTTGATGCCGTACATTGCAGGCTCAGTGACCCCAAGCCAGGCGGA -GATAGCGGCAGGCACGGAGATCTCGCGTTCATTGTGCTTGCGGCTGGAAATGATAATGCCTATCACGGCGGAGCCCTGAG -CGATATTCGACAGCGCAATCAGCGGCCACACTGGCGTACCACCCATGCTTTGAATCATCTGCAAATCAATAGCAAGCGTG -GTCTGGTGTACACCGGTGATCACCAGCGGGGCGTACAGGAAGCCAAACAATGCTGCGCCAATCGGAGCAAAGCTGCCGGT -CATCAGGTGACGTACCGCAAAGGCAACGCCATCGCCAATCATGCGACCAAACGGACCAATCAGCGCATGGGCGAGGAACA -CCGCGAGGATCAGCGAACAGACGGGTACCACCACCAGATAGAGGTAATCCGGCACGATGCGTTTAAGGCGAGTTTCAATA -ACGCCCAGCGCCAGTCCGGCTAACAGTGCCGGGATCACCTGCGCCTGATAGCCTACTTTGGCGATGCTGAACATGCCAAA -GTCCCACACTTCCGGCAGCTGCTGCCCGAGCAGATAAGCGTTCATCAGCTGTGGAGAAACCAGTGTCACGCCAAGCACGA -TACCAAGGATCGGCGTGCCGCCCATTTTTTTCACCGCTGACCAGCAAATACCGACCGGCAGGTAGAAGAAGATCGCTTCA -CCGATCAACCACAGAAAATCGTAGATCGTTTGCAGGGAAGGGTACATTTGCGCCAGCGTCTGACCGTTGCTCATGGGCAA -ATCGCCGATCACATTGCGAAAACCGAGGATCAAACCGCCGCTAATCAACGCGGGCAGCAACGGGAAGAAGATCACCGCGA -AATGAGAGATCAACTGCTCATGCCATTTCATATTATGCCGGGCGGCTTTTTTTACCTGCTCTTTATCAACCTGCGCCTGT -CCGGTTGACGCAATCAGTGCTTGATAGTAATCACCCACGTTGGTGCCAATCACCACCTGAAATTGCCCGGCATTGGTGAA -ACAGCCTTTCACCATAGGGAGTTGCTCAATTTCTTTCGGTCTGGCATTGGCCGGTTGGTTGAGGACAAAGCGTAGGCGAG -TAATACAGTGGCTCACCGTCGCAATATTGCCGCGCCCGCCGACCAGTTCAATCAACCGATCGATATCCGTTTGGTTTATT -TTGCTCATCATAAAGCCCCATGGCAGATGACATTTTTGGTTGGCTGCAGAATATATTGCGCGGAAAAATTTAAAAACGGG -AACGTTCCCGAAACGCAGCGAAGATCACAATTTATCGTTCAGGAAACGATCAGGACAGGGTGGCGGGGATGATGATTTGT -TGCGGTTCGCTGCGCCCGGTTACCTGCGCGATCAACTGGCAAGCCGCCTGGCGTCCAGCTTCGGCGTAACCGGGATCTAC -GGTTACGATCTCCGGATGGAGGAATTTCATTAACGGCGTATTACCGACGCTCGCCAGTTGCAAGGTGTCGATGCGTTGCT -CTTGCAGGTATTTACTTGCGCCAAGTGCCAGCGTGTCGGTTGCGCACAGTAAGGCGGTAGTTTCAGGCGTAATCACTTTT -GCAACGTTCTCATAGCCTTGCTTCATAGCAAGCCCTGGCAGGGCGGCAACGGGATGCAGTTTATGCGCTTTGCAGAACGC -CAGGTAGGCTTCGTGACGTCGCTTACCGGTTGTCACGTCACTGTGCGGCACGCCGAGATAACTGATATTACGATGCCCCT -GGTCATACAGCCGTTGCATCAGGATTTTGATTGCCCCTTCGTCGTCATAACAGACCGAAGCAAAGCCTTTTGCGTCACGC -GCCAGCAGAACCAGCGATGACTGCCAGTGGGCTAACATTTCTTCTGTTATGCCAGTAAAACCGAACAGCACTACGCCGTC -GATATTACGCCGTTTCAGCACTCCCAAATGTTCGGCAACTAATTGCGGGGAAAACTGACTTTCCATCATGATTGGGTCGT -AACCTTGTTCATAGAACGCTGGCAGCATGGTTTGAACGGCGAGATTTTCTGACAACGAATCCAGACGGGTAACAATGATG -GCGACCACTTTATCGCTTTGCCCACGCATAGCGCGCGCAGAGCGGGAAGGGGAAAATCCATGCTGATTCATCACTGCTTC -AACACGCTCGCGGGTGAGCTGGCTCACGCCGCTTTCGTTATTCAGCACCCGGGAAACTGTAGATTTCCCCACGCCGCTTA -AGCGCGCGATATCTTTGATGGTCAGCCGATTTTGCATCCTGTTGTCCTGTAACGTGTTGTTTAATTATTTGAGCCTAACG -TTACCCGTGCATTCAGCAATGGGTAAAGTCTGGTTTATCGTTGGTTTAGTTGTCAGCAGGTATTATATCGCCATAGATGC -TACGAATATTATTGGATTCTCCTTATTATTTGCGGCGCTTTTTTCACTTACCGGAGGTTATATGGAACCTGATCCCACGC -CTCTCCCTCGACGGAGATTAAAACTTTTCCGGTAAGCCCGTCTTTTCACGGCGTTACCGGATGCGTAAGGCCGTGACGTT -TTAACGTCCCTGCTCAGCTTTATTACCTTCAGGTAAGGCTTCGCCACGCCTGAAGACATTTCTGTACTGTTTCAGACAGT -GCGGAGGGACTCCTTATGTTTAAAGAAATTTTTACCCGGCTCATTCGCCATTTACCTTCCCGTCTGGTTCATCGTGATCC -ATTGCCTGGCGCGCAGCAGACAGTGAATACGGTGGTCCCGCCGTCCTTAAGTGCGCATTGCCTGAAAATGGCGGTGATGC -CCGAAGAAGAATTGTGGAAAACGTTCGACACCCATCCGGAAGGGTTAAATCAGGCGGAAGTGGAATCTGCCCGCGAACAA -CATGGTGAAAATAAATTACCCGCACAACAACCGTCGCCGTGGTGGGTACATTTATGGGTCTGCTATCGCAACCCCTTTAA -TATTTTACTCACCATTCTCGGCGCTATTTCTTACGCCACGGAAGATTTATTTGCTGCGGGCGTTATCGCGCTAATGGTCG -CTATTTCTACGTTGCTGAACTTTATTCAGGAAGCACGTTCCACTAAAGCGGCAGATGCCCTGAAAGCGATGGTCAGCAAT -ACTGCGACGGTGCTGCGCGTAATTAACGACAAAGGCGAAAATGGCTGGCTGGAGATCCCGATCGACCAGCTGGTGCCCGG -CGATATTATAAAACTGGCGGCGGGAGATATGATCCCGGCAGATTTACGTATCTTGCAGGCGCGGGATCTGTTCGTCGCTC -AGGCGTCGTTAACCGGTGAGTCTCTGCCCGTAGAAAAAGCCGCTACCACTCGCCAGCCGGAGCACAGCAATCCGCTGGAG -TGCGACACGCTGTGTTTTATGGGCACCACCGTGGTGAGCGGCACGGCACAAGCAATGGTGATTGCTACAGGTGCCAATAC -CTGGTTTGGTCAACTGGCGGGGCGTGTTAGTGAGCAGGAAAGCGAGCCGAATGCCTTTCAGCAAGGGATCAGCCGCGTCA -GTATGCTGCTGATTCGCTTTATGCTGGTGATGGCACCGGTGGTGCTGTTAATCAATGGTTACACCAAAGGCGACTGGTGG -GAAGCGGCGCTGTTTGCGCTTTCGGTCGCGGTAGGCCTAACGCCGGAAATGTTGCCGATGATTGTTACCTCGACGCTGGC -GCGCGGCGCAGTAAAGCTGTCGAAACAGAAAGTGATCGTCAAACATCTGGATGCTATTCAGAACTTTGGCGCAATGGATA -TTCTGTGCACTGATAAAACCGGCACCCTGACGCAGGATAAAATTGTGCTGGAGAATCATACCGATATCTCCGGTAAAACC -AGCGAACGCGTGCTGCATAGCGCGTGGTTGAACAGTCATTATCAGACCGGACTTAAAAACCTGCTCGATACAGCGGTGCT -CGAAGGTACGGATGAAGAGTCAGCGCGCTCGCTGGCCAGTCGTTGGCAAAAAATTGATGAGATTCCGTTTGATTTCGAGC -GTCGCCGGATGTCGGTGGTAGTGGCAGAAAATACCGAGCACCATCAGCTGGTTTGCAAAGGTGCATTGCAGGAAATCCTC -AATGTGTGTTCGCAGGTGCGTCACAATGGCGAGATTGTGCCGCTCGATGACATCATGCTGCGTAAGATTAAGCGGGTTAC -TGATACGCTGAATCGTCAGGGGCTGCGCGTGGTTGCGGTGGCGACGAAATACCTGCCAGCGCGTGAAGGAGATTACCAGC -GGGCGGATGAATCCGACCTGATCCTCGAAGGATATATTGCTTTTCTTGATCCGCCAAAAGAGACAACCGCTCCGGCACTG -AAGGCATTAAAAGCGAGTGGAATTACCGTAAAAATCCTTACTGGCGACAGTGAGTTAGTTGCAGCGAAAGTGTGCCATGA -AGTGGGGCTGGACGCGGGAGAGGTGGTCATTGGTAGTGATATTGAAACGCTATCTGACGACGAACTGGCAAATCTTGCAC -AGCGTACCACGCTGTTTGCCCGCCTGACGCCGATGCATAAAGAACGCATTGTGACCTTACTGAAGCGCGAAGGGCATGTG -GTTGGCTTTATGGGCGATGGTATTAATGATGCGCCCGCCTTACGCGCTGCGGATATCGGCATTTCTGTGGACGGCGCGGT -AGATATTGCCCGTGAAGCGGCTGATATCATCCTGCTGGAAAAAAGCCTGATGGTGCTGGAAGAGGGGGTTATTGAGGGAC -GTCGCACTTTCGCCAACATGCTGAAATACATCAAAATGACGGCGAGCTCTAACTTCGGTAATGTGTTCAGCGTGCTGGTA -GCGAGTGCTTTCTTGCCCTTCCTGCCGATGTTGCCGTTACACTTGCTTATTCAGAACCTGCTGTACGATGTGTCACAGGT -GGCGATCCCGTTTGATAACGTCGACGACGAGCAAATTCAAAAGCCGCAGCGTTGGAATCCGGCGGATCTGGGGCGCTTTA -TGATCTTCTTCGGACCGATCAGCTCGATCTTCGATATTTTGACGTTTTGCCTGATGTGGTGGGTATTCCATGCCAACACG -CCGGAAACGCAAACGCTGTTCCAGTCGGGATGGTTTGTGGTGGGCTTACTGTCGCAAACGCTGATTGTGCATATGATCCG -CACCCGCCGTGTGCCGTTTATTCAGAGCTGTGCATCGTGGCCGTTAATGATCATGACCGTGATCGTGATGATTGTCGGGA -TCGCATTGCCGTTTTCACCGCTGGCCAGTTATCTGCAATTACAGGCGCTGCCGTTAAGCTATTTCCCGTGGCTGGTTGCG -ATTCTGGCAGGGTATATGACATTAACCCAGTTGGTGAAAGGGTTCTATAGCCGTCGTTACGGCTGGCAATAAAGAATAAA -CTGGGCACGATAGCCCCGATTCAGATTGTAGACAAAGTGAGTTTTGTTCATGCCGGATGCGGCGTAAATGCCTTATCCGG -CCAACAAATTCAATAAATTGCAGGAATCACGTAGGCCTGATAAGCGTAGCGCATCAGGCGATTTTGCGTTTGTCATCAGA -CTTAATCCGGGCATGATAGCCCGGATTTCCATCAAGATTAGCGACGAACAGCGATCGCTTCGATCTCAATCTTCACGTCT -TTCGGCAGACGGGCAACTTCAACGCAAGAACGTGCCGGGAAGGTGGCGTTGTGTTCGGTGAAGAAGGCTTCGTAAGTGGC -GTTTACGGTTGCGAAGTCGTTCAGATCTTTTACAAACACGGTAGTTTTAACGATGTCGCCCACTTTCAGGCCAGCGGCTT -CGACGATCGCTTTTACGTTATCCAGCGACTGACGTGCCTGTGCAGCGACGTCTGCCGGTACTTCGCCCGTTTTCGGATTT -ACCGGGATCTGACCGGAGGTGATGATCATATTGCCCAGATCAACGCCCTGTACGTAAGGACCGATAGCTGCCGGTGCATT -TTCCGTCGCGATAGTTTTGCTCATGATTTCTCCTTTATTACAGCGGTAAAAAGTCTGGCTCATTATAGGGAGCCAGACTT -TTATTACCAACCGCAATTAATTGGCCAGCACCACATTATGGGAAAACTCTTTTTCACAGTATTTGCATTTGAGCGCGATA -TCATTGGCGCGTTTTCGCACGGCAAAGCTGGATGAAACCGGTTCGGCATGGCTGATACAGTTGCTGTTCGGGCAGACCAG -CACATTGTCGATGCGCTCCGGCAGACTTGGGCGCGATTTACCCACCACTTCATAGTTGTCGATACGGTTAACCGTGGCTT -GCGGCGCATACAATGCCAGTTGATCTACTTGATCTTCACTCAAAAAGGTATTTTCGATTTTGATCAGATCTTTGCGGCCC -ATCTCGCCAGAAGGCAGGTTCAGACCAATGGTGATGCGCTGATCCGTTTCGGTCAGCTTGAACAGACTCAACAGCTTAAA -ACCGATCTGGGCGGGGATATGGTCAATTACCGTGCCGCGTTTAATAGCTTCAACCTGCAATTTATTATCGTGTGTCATCT -CTATTTCCCCTTACAGTACCAGATCGCGATTCAGAACCAGTGCCAGTAACGCCTGGCGAGCGAAAATCCCGTTGCCTGCC -TGCTGGAAGTACCAGGCGTGTGGCGTTTTATCAACATCCGTCGCAATCTCATCAACACGCGGCAGCGGATGCAGCACTTT -CATATTGGCTTTGGCGTTGTGGAGATCGCTGGCGCGAAGAACAAACTGCGCTTTCACGTTGGCGTACTCGGACGGGTCCA -GACGCTCTTTTTGCACGCGGGTCATGTACAGGATGTCTACTTCCGCCATCACTTCTTCAATAGAGCTGTGCAGACTCCAT -GCGATCCCTTTTTCATCGAGCATATCCAGAATGTATTGCGGCATTGCCAGCGCGTCCGGCGCGATGAAGTAAAAACGGTT -GCCGTCGAACTTCGCTAACGCCTGAGTCAGGGAGTGAACGGTGCGGCCATATTTCAGGTCACCAACCATTGCGACGTGGA -GATTGTCCAGACGCCCCTGGGTTTCCTGAATAGTGAATAAGTCCAGCAAGGTTTGCGTCGGATGTTGGTTGGAGCCATCA -CCGGCATTCAGTACCGGTACATTGCCGGAAAACTCGGTGGCCAGGCGCGCCGCACCTTCCTGCGGATGACGCATCACTAT -CGCATCGACGTAAGTGCTGATAACCGAAATGGTATCGGCCAGCGTTTCGCCCTTTTTACCCAGTGATGTATTGGCGCTGT -CGGAGAAGCCCACCACGCTGGCCCCCAGGCGGTGCATAGATGTTTCGAAAGAGAGGCGGGTACGGGTAGAGGCTTCGAAG -AAACAGCTGGCAATGACTTTGTGCTTCAACAGCTCTGGTTGCGGGTTTGCTTTCAGTTTCGCCGCTGTCGCCAGCACCAG -ATTAAGGTCATCGCGACTAAGGTCGTTTATGGAAATGATATGTTTCTGATATAGCGGATTAGCCATCTTTTATCTCCTGA -CGCCTGGGCAAAAAAAAGCCCCTCGATTGAGGGGCTGGGAATGGGTGATCAACGGGAAGAAAAACGGCAGGCCAGCGTCT -TTTTTCAGACGCGGTAAGACAAAATGTCGAACACACTGAACCATACATCCTCCCGGCAAATTGTCCGGCATTATACTCAT -CGTCAGAAGCGGCGCAAGCATTTGATGCAATATTTTGTCAGCGCAAACGGTTTATTTGAATTAAAAGTCAAGGTATATGC -ATTTTTATTTGATGTGATTCTGCAGGGGAACTGTCCTTCGGTATCAATAATTGCAGACATTCCCTGCTTTTTCCTTTTTC -ACTTTCACGCAATCAGATATGCATTTTATTCCATTCATCCGACTTATAGGGCGGAGTGTGAAAGCGAACGGCTAACACTA -TTGCTTACTGCTCAGGGATGCGCGCTATCACTTTAATTTCAAAATCAAAGCCTGCCAGCCATGTAACACCCACCGCCGTC -CAGTTTGGATAAGGTGGGGCGCTAAATATTTCATTTTTCACCGTCATGATGTCTTCAAATTGGTTTTCTGGATCGGTATG -GAAGCTCGTAACATCAATGATATCGTCAAAAGTGCATCCCGCAGCTGCCAGGGTCGCATGCAAATTATCAAATGCCAGTC -TGACTTGTTGCTGAAAATCGGGTTCTGGTGTTCCGTCCTCTCGACTTCCTACTTGCCCGGAAACAAACAGCAAATCGCCG -GAACGAATAGCCGCAGAATAACGATGCTCAGCATATAGTGAATGTCGGCCAGCAGGGAAAACAGCGGTTCTTTCTACCAT -TTGGTTATCCTCAAGATTTACGACATGAACAGAAGATTTCTCTTTACCGGGAGCCGCTTTTAGCGGACGACGTGAGTAAA -CAAAACCCAGACATCATGGATAATGGCTGGGCTTAATTGAGCGTAGTCGGTTATGCGCCAAACGCGCCATCAATGGTATG -CATCGCGCCGGTAACAAAACTGGCTTCTGGCCCTGCTAACCATGCGACCATACCAGCGACCTCTTCCGGTTGCCCATGTC -TTTTGATAGCCATCAAACTATGCAACATATCGCGCATTGGCCCGTTGGCGGGATTAGCGTCGGTATCAATTGGCCCTGGC -TGGACGACGTTAATGGTGATCCCACGCGGTCCAAAATCACGGGCCAGCCCGCGCGCCATGCCTTGCAGGGCAGATTTGCT -GGCGGCATAAGCAGCCATGCCTGCAACAGGCATACGATCGCCATTCACGGAGCCGATGATTAAGATGCGCCCGCCTTCGG -GCATCTGCCGGGCGGCTTCAACAGAGGCATGATAAGGAGCATGAATATTGATTTTGAAAAGGCGATCAATATCGTCGGCA -TTTAATTCCAGGGCCTCGCCAAAGACGCCAATACCTGCATTTACCACCAGGATATCCAATGCGCCGCTCTTACGAACGAC -ATCAATGACAGCGTCTCTGTCAGCACTATCTGTGAATACTGCTGTCGCTCCAGTCTCTTGTGCCAGGCGTTTAGCGGCAT -CTTTCGACCCCGCATAGGTGAATCGTACATTGGCCCCATCGGTGACGAAACGACGTACGATAGCGGCACCGATACCACGA -CTGCCACCGAGGATGAGAACTGTCTTACCTGTAAAAGCGCCCATAAGGACTCCTTGATTTATTATGTAACATGCATTACA -AAACTGTTTTAACTTTCTGTCAACAGGTTTTGTAATGGTCACTAAAAAACAATCTCGCGTTCCAGGTCGTCCCAGACGTT -TCGCTCCTGAGCAGGCAATCTCTGCGGCAAAAGTGCTTTTTCACCAAAAAGGTTTCGATGCTGTCAGTGTTGCTGAAGTT -ACTGATTATCTTGGTATTAACCCCCCGAGCCTCTACGCGGCTTTTGGCAGTAAAGCTGGGTTATTTAGCCGTGTACTCAA -TGAATACGTCGGTACGGAAGCTATTCCGCTTGCCGATATTCTTCGTGATGATCGTCCGGTAGGCGAGTGCCTGGTTGAGG -TATTAAAAGAAGCGGCGCGCAGATATAGCCAAAACGGCGGCTGCGCTGGCTGTATGGTTCTTGAAGGTATTCATAGTCAT -GATCCACAAGCGCGTGATATTGCCGTTCAATATTATCACGCCGCAGAAACGACCATTTATGACTACATCGCCAGGCGGCA -TCCACAACGCGCACAATGTGTGACTGATTTTATGAGTACCGTGATGTCTGGGCTTTCTGCGAAGGCACGAGAGGGGCACT -CTATAGAACAACTCTGTGCAACAGCTGCAATGGCGGGGGAAGCGATAAAAACTATTCTTGAGGAGTGATGCGGGCCTTGA -CCCGAAAGGCGGGAAAGCGCCTGCCGATAAGTTGTGATAAGACAATAATTCACGCGTTAAGGCTAGCGGAATTGATTATC -TTTTCGTATAACGATAGAAATGAAACGTTGTTTTAATTAAGGAGTGGAAAAGATGATCATCGGAAATATTCATAATCTTC -AGCCGTGGCTACCCCAGGAGTTACGCCAGGCGATTGAGCATATCAAAGCACACGTTACGGCAGAAACGCCAAAGGGCAAG -CACGATATCGAAGGCAATCGACTGTTTTATCTTATCTCGGAAGATATGACCGAGCCGTACGAAGCTCGCCGTGCGGAGTA -CCATGCCCGCTATCTTGACATTCAGATTGTGTTAAAAGGTCAGGAAGGCATGACCTTCAGCACGCAACCTGCAGGCGCGC -CGGATACCGACTGGTTAGCTGATAAAGACATCGCATTTTTGCCGGAAGGCGTTGATGAGAAAACAGTTATTCTAAATGAA -GGTGATTTTGTTGTGTTTTATCCGGGGGAAGTGCATAAACCGCTGTGCGCAGTGGGCGCGCCAGCCCAGGTTCGCAAAGC -AGTAGTGAAGATGCTGATGGCGTGATGACTTTTCGCCGTAAATAACTCAAGGTTTACGGCGAGTTTGTGAAAAGAGCGTT -TTTTGATATTTTTTTGTGAGTAAAATTTGTAATGCTTAGACGTTCTTATTCACTCAAGGAGTTCGTCATGAGCAAAATAT -CAGATTTAAATTATTCTCAACACATTACATTAGCCGACAATTTTAAACAAAAAAGTGAAGTTTTAAATACCTGGCGTGTT -GGAATGAATGATTTTGCCCGTATTGCCGGGGGGCAGGATAACAGAAGGAATATTCTTTCTCCTGGAGCATTTTTAGAGTT -TTTGGCAAAGATATTTACCCTGGGTTATGTGGATTTTAGCAAACGCTCCAACGAAGCGGGTAGAAATATGATGGCTCATA -TTAAGTCCTCATCTTATTCTAAAGATACTAATGGCAATGAAAAAATGAAGTTTTACATGAATAATCCTGTAGGGGAACGA -GCGGATTCACCCAAGGTGATTATAGAAATTTCACTTTCCACTATCACTACTATGGGGACTCGTCAAGGACATACAGCCAT -TATATTTCCACAACCTGATGGTTCGACTAACCGTTATGAAGGGAAGTCCTTTGAAAGAAAAGATGAGAGTTCATTACACC -TGATTACTAACAAGGTTCTGGCGTGTTACCAAAGTGAAGCTAACAAGAAAATAGCGCGTCTATTAAATAATAATCAGGAG -TTAAATAATCTACAGAAATTAAATAATCTACAGAAGTTAAATAATCTACTGAAGTTAAATAATATACAGGGGTTAAATAA -TCCTCAGGAGTTAAATAATCCGCAGAATTTAAATGATTCTCAGGAGTTAAATAACTCGCAGGAATTAAATAGTCCACAGG -AGTTAAATGATCCGCAGGAGTTAAATAATTCTCAGGACTTAAATAACTCTAAGGTGAGTTGTACAGTTTCAGTTGATTCT -ACGATTACGGGTTTATTAAAAGAACCATTGAATAATGCATTATTAGCAATAAGGAACGAACATCTGCTATTAATGCCTCA -TGTATGTGATGAATCGATTTCATACTTACTGGGCGAAAAAGGTATACTTGAAGAAATAGATAAGCTCTACGCATTAAATG -ATCACGGAATTGATAATGACAAAGTAGGTAACAATGAAATTAATGACATCAAAGTTAACCTGTCTCATATTCTTATTGAT -TCCTTAGATGATGCAAAGGTTAACCTTACACCGGTCATCGATTCGATTCTGGAGACTTTTTCAAAATCCCCATATATTAA -TGATGTAAGAATACTGGATTGGTGTTTTAATAAAAGCATGCAATATTTTGATGATACTAAAAAGATAAAGCATGCATGCT -CCGTAATAAATCATATTAATCTTCGCAGCGATCAGTCTAAAATAGCTGAGACATTATTTTTCAATCTCGATAAAGAACCC -TATAAAAATAGCCCTGAATTACAGGGGTTGATTTGGAATAAGTTGGTTGTATATGTCAATGAATTTAACTTAAGTAATCG -AGAAAAAACAAATTTAATACAAAGGCTATTTGATAATGTTGAGTCTATATTTAATGAAGTACCTGTCAGCATTTTAGTGA -ATGATATTTTTATGAATGATTTCTTTATGAAAAATCCTGAGATGATTAATTGGTACTTCCCTCAGTTACTTAAGAGTTAT -GAGGGTGAAAAGATTTATTTTGATAATTTAAAATATGATTTAAATGATAATGATAAGGAATCTAATAAAGAAATTTTGAA -GAATCAACCAGATAATGTTATCAAAGAAAAACTGAATAATGAATACAAACTTAGATTTAGAATGATGCAAACTATCTTGC -AATCGAGAGTTAATGTATTACCATATATTAATGAACAGCGTTTAAATAAACTAAATCCACCGGAAAATTTACGTATAGCA -ATAGAACACTTTGGGTGGAAGAATAGACCTATCACTGCATAAAATAATGTGATGCCGGGATGGTTTGTATTTCCCGGCAT -CTTTATAGCGATAGCAATTATTTACTGAGCGTCGCGACCATCACCGCTTTGATAGTATGCATACGGTTTTCCGCCTGATC -AAAAACAATGCTGGCGGCAGATTCGAAGACCTCATCAGTGACTTCCATACCGCCATGTAGGCCAAATTCTTCCGCCATTT -TCTTGCCAAGCGTCGTTTGGTCGTCATGAAACGCGGGCAGGCAGTGGAGGAATTTGACCTCCGGGTTACCGGTCAACTGC -ATCATCTTGCTGTTCACCTGATATTCACGCAGCAATGCAATCCGTTCCGCCCATTTCTCTTTTGCTTCCCCCATCGACAC -CCACACATCGGTATAGATAAAGTCAGCACCTTCAACTCCCTTCGCGACATCTTCAGTCAGCGTAATATTCCCACCATTTT -GCTGTGCCAGGGCGCGGCATTCCGTAACCAGCGCAGCTTCCGGCCAGCACGCTTGTGGCGCGACCAGACGCAAATCCAGA -CCGGTAAGCGCCGCAGCTTCGAGCATCGAATTGCCCATGTTGTTACGCGCGTCACCTGCATAGACCAGCGTCATTTCGTT -GAACGCTTTGCCGGGCAAATGCTCCTGCATGGTGAGAAGATCCGCCAGCAGCTGCGTGGGATGGAACTCATTGGTCAGGC -CATTCCATACCGGCACGCTAGCGTATTCCGCCAGTGTTTCGACAATCTCCTGACCATAGCCGCGATACTGAATACCGTCA -TACATGCGACCAAGCACGCGGGCAGTGTCTTTAATCGACTCTTTATGACCAATCTGGCTGCCGCTTGGGCCGAGATAAGT -AACGCGAGCACCCTGGTCATATGCGGCAACTTCGAAAGAGCATCGGGTACGAGTCGAGTCTTTTTCGAAGATGAGCGCGA -TGTTTTTACCAGTGAGTTTGGCTTCTTCTTTACCGCTTTTCTTATCGGCTTTCAGCTTCGCGGCTAACTGCAGCAGGCTG -TTGAGTTCAGCTGGCGTGAAATCGAGTAATTTCAGGAAATGCTTATGATAAAACCCGGACATAGATCCCTCCTGTGGCTA -ACGCCTCAATGAATTAAAATTCAATTTATATGGATGATTATTCATTTGCAAGTCTAAAGCATAAATCTTTGTCACAAAGG -TGGAGGCAATGTCAGTGGTGTGTGACAATAAGAGTATCGGCAGGACATTAAGAGGAATGAGCCATGGCAAACCCGGAACA -ACTGGAAGAACAGCGTGAAGAAACACGTTTGATTATTGAAGAATTACTGGAAGATGGCAGCGATCCGGACGCGCTGTACA -CCATCGAACACCATCTTTCCGCAGACGATCTGGAAACCCTGGAAAAAGCAGCAGTTGAAGCGTTTAAACTCGGTTACGAA -GTGACCGATCCAGAAGAGCTGGAAGTTGAAGATGGTGATATCGTGATTTGCTGCGACATCCTCAGCGAGTGCGCGTTGAA -TGCCGATCTGATCGATGCCCAGGTTGAACAACTGATGACGCTGGCAGAGAAATTTGACGTTGAGTACGACGGATGGGGCA -CTTACTTTGAAGATCCTAACGGCGAAGATGGCGACGATGAAGATTTTGTCGATGAAGACGATGACGGAGTTCGCCACTAA -TTAAGCGTAGCGCATCAGGCCCAGGTAGTTCCTGCAACCTGGTGAATTTGTAGCCCGGATAAGGCATTCATGTCACATCC -GGCATAAACAAAACGTACGTTGTTAATGTTCGAATGCCCGCGAGTTGAACACGCGGGCATTTTTTTAGAGTTCGCGCAAC -ATCCGCACTTCACAATCGACATGGCCCGTGCAGCCAAGCGCATAGTCGATATGCTCAAAGCCCAAATGCTCATAAAGCGC -AATGGCTTCCTTTAAAAAAGCGGTCGTTTCCAGATAGCAGCGTTTGAAACCCATCTCTCGCGCCTGCTCCATCGCCATTA -AGGCCAGTTTTTTTGCCAGCCCTTTGCCGCGGATAGCCGGAAGAAAATACATCTTTTGCAGTTCGCAAATATCCGACTCA -CTCCCGGTTAATGGCGCTATCCCACCGCCGCCGACCACTTCACCCTCGTACTCAACGACCCAATATGCATGGCCAGGCTG -ACTATATACTTGATACAGCTCGTCAAGATTCGGATCGGCGACGGTGTAGCCTTTATCAGCGGTAAGACCGTATTCGGCGG -ATACCTGACGAATGACGCGGGCGATAGCAGGATTATCCTGCAGCGTCAGGCGACGCATTACAGGTGATTGCGGCGCAATG -TTATTCATAGTTTAACCCAATAAAAATAAAGTAATTATACATTTGTTTAATACCACTCTCTTCTTACGTACGCAAGCGAC -TTATAAAGTAATAAAGTTTTTGCCAGCCTATTACTGATAAGAGTATTGTAACGTGGCAGAACATTTTACTGTCTGTATAT -ATAAGTTATATCAATGGATTTTTTAATTCAGGGAATTTTTATGGCTCAAGTTATTAATGAAATGGATGTTCCGTCCCATT -CGTTTGTTTTTCATGGTACAGGTGAGAGATATTTTCTTATTTGTGTGGTGAATGTGTTGTTAACGATTATAACGCTAGGT -ATCTATTTACCATGGGCATTAATGAAATGTAAGCGTTATCTTTATGCTAATATGGAAGTTAACGGACAACGATTTTCTTA -TGGAATTACCGGTGGGAATGTTTTTGTTAGTTGTCTTTTTTTTGTTTTTTTCTATTTCGCAATCTTAATGACAGTGTCAG -CAGATATGCCGCTTGTTGGTTGTGTTTTGACTTTGTTACTGTTGGTTTTGCTTATATTTATGGCAGCAAAAGGACTGCGT -CATCAGGCCTTAATGACCAGTCTCAACGGCGTAAGATTTAGTTTTAATTGCTCTATGAAAGGGTTCTGGTGGGTGACCTT -TTTCTTGCCGATTTTAATGGCCATTGGGATGGGGACTGTTTTCTTTATCTCGACAAAGATGCTACCTGCCAATAGTTCAA -GTAGTGTTATTATATCCATGGTTCTGATGGCAATAGTTGGTATTGTTTCCATTGGTATTTTTAATGGTACTTTATATAGT -CTGGTAATGAGTTTTCTCTGGAGTAATACCAGTTTCGGTATACATCGTTTCAAGGTGAAATTAGATACTACGTATTGTAT -AAAATATGCCATTCTCGCATTTTTAGCTTTATTGCCTTTTCTCGCTGTTGCTGGTTATATTATCTTCGATCAAATATTAA -ATGCGTATGATAGTTCTGTATATGCAAATGATGACATTGAGAATTTACAGCAATTTATGGAAATGCAACGTAAAATGATA -ATCGCGCAGTTAATCTATTATTTTGGGATTGCTGTTAGCACAAGTTATTTAACGGTGTCTTTGCGAAACCATTTTATGAG -CAACCTGTCACTGAATGATGGGCGTATTCGTTTTCGCTTAACTTTAACGTACCACGGTATGCTTTATCGCATGTGTGCGT -TGGTGGTGATATCCGGGATTACGGGCGGTCTGGCTTATCCACTGCTGAAAATATGGATGATTGACTGGCAGGCAAAAAAT -ACGTATTTGCTGGGCGATTTGGATGACCTTCCTTTAATCAATAAAGAAGAACAACCAGATAAAGGCTTCTTAGCCAGTAT -TTCACGGGGAGTTATGCCTTCTTTACCATTTCTGTAAGAGATAAAAAAGGCCGGAGCATGCTCCGGCCTTCGTTTTCATC -ACTGTGTTTTGATTACAGCGCGGCGATAACAGCCTGCTGTTCAATCAGTTTCGCTTTCGCTTCCGCATAGCCTTCCAGCT -TCTCACGCTCTTTCGCGATGACCGCTTCCGGTGCGCGGGCGACAAAGCCTTCGTTCGCCAGTTTGTTCTCGATACGGCTG -ATTTCACCTTCAATCTTCGCCACTTCTTTCGCCAGACGCGCCAGCTCATCTTCTTTGTTGATGAGGCCAGCCATCGGGAT -CAGCAGCTCTGCACCGTCGATGATCTTCGTAACGGAAACCGGACCTTTGTCATCGGCAGGCAGCACGGTGATACTTTCCA -GACGCGCCAGGGTTTGCAGGAAGCCACGGTTTTCATTTACGCGACGTTCTGCATCCGCGCTGCAACCACGCAGCAGCAGC -TCCAGCGGTTTGCCCGGCGCGATGTTCATTTCTGCACGGATGTTACGTACCGCAACGATCGCCTGTTTCAGCCATTCGGT -GTCGGCCAGTGCGGCTTCATCAACCTGAGATGCATCGTACTGCGGGAACGGCTGCAGCATGATGGTGTCGGCAGTGATAC -CGCAAAGTACTTTCACACGCTGCCAGATGGTTTCGGTGATGAACGGAATGATCGGATGCGCGAGGCGCAGCAGACCTTCC -AGTACAGTCACCAGCGTATGGCGAGTACCGCGCAGTTCTGCTTCGGTGCCACCGTTCATTACCGGCTTGGTCAGCTCGAG -ATACCAGTCACAGAACTGGTTCCAGGTGAACTCATACAGAATGCCTGCGGCGATATCGAAGCGGAAGCTGTCCAGCGCTT -CGCGGTACGCTTTGATGGTCTGGTTGAACTCCGCCAGAATCCAGCGGTCCGCCAGCGACAGCGTCATTTCGCCGCCGTTG -AAGCCGCAATCCTGACCTTCTGTGTTCATCAGCACAAAGCGGCTGGCGTTCCACAGCTTGTTACAGAAGTTACGGTAACC -TTCCAGACGCTTCATATCCCAGTTGATGTCACGACCGGTAGACGCCAGCGCCGCCAGGGTGAAGCGCAGCGCGTCAGTAC -CGTGCGGCTCAATACCGTTCGGGAACTGCTTCTCGGTGCGCTTACGGATTTTGTCCGCCAGCTGCGGCTGCATCATATTG -CCGGTACGTTTTTCCAGCAGTTCTGGCAGCGAAATACCGTCAACCATATCCAGTGGGTCGATAACGTTACCCTTGGATTT -GGACATCTTCTGGCCTTCGTCATCACGAATCAGGCCGGTCATGTAAACGGTGTGGAACGGCACCTGCGGTTTGCCATTTT -CATCTTTGATGAAGTGCATGGTCATCATGATCATGCGGGCAATCCAGAAGAAAATGATGTCGAAACCAGATACCATCACG -CTGGTTGGGTGGAACTGACGCAGGGCGTCGGTATTTTCCGGCCAGCCAAGGGTAGAGAAGGTCCACAGCGCAGAAGAGAA -CCAGGTATCGAGAACGTCTTCGTCCTGACGCAGGACAACATCAGCACCGAGGTTATTTTCTTTACGCACTTCGTCTTCGT -TGCGGCCAACATAAACGTTACCCGCTTCGTCATACCATGCCGGGATACGGTGACCCCACCACAACTGACGAGAGATACAC -CAGTCCTGAATATCGCGCATCCAGGAGAAGTACATGTTTTCGTACTGCTTCGGTACGAACTGAATGTCGCCGTTCTCAAC -CGCTTCAACCGCCGGTTTCGCCAGGACATCGGCACGCACGTACCACTGGTCGGTCAGCATTGGTTCGATAACTACGCCGC -CACGGTCGCCGTAAGGAACGGTCAGGTCGTGCGGTTTAATTTCTTCCAGCAGGCCAAGCGCGTCAACTGCGGCAACGACT -GCTTTACGTGCAGCAAAACGCTCCAGTTTCTGGAACTCTGCAGGGATTTCGCTGGAATAAACGTCAGATTCGTTACCTTT -GGTATCGAACACCTGGGCGCTTTCACGGATATCGCCGTCAAAGGTCAGGATGTTGATCATCGGCAGGGCGTGACGTTTAC -CCACTTCATAGTCGTTAAAGTCGTGCGCCGGAGTGATTTTCACGCAGCCGGTGCCTTTTTCCATGTCGGCGTGTTCGTCG -CCAACGATCGGAATACGACGGTTAACCAGCGGCAGAATGACATATTTGCCAATCAGATCTTTGTAACGCGGATCTTCCGG -GTTAACGGCTACGCCAGTATCGCCCAGCAGGGTTTCTGGACGGGTAGTCGCGACCACCAGATAATCTTTACCGTCTGCGG -TTTTCGCACCGTCAGCCAGCGGATAGCGGATGTGCCACATCGAACCTTTCGATTCGCGGTTTTCGACTTCCAGGTCAGAG -ATAGCGGTGCGCAGTTTCGGATCCCAGTTTACCAGGCGTTTGCCACGGTAAATCAGGTCTTCTTTATACAGACGAACGAA -AACTTCTTTCACCGCATTGGACAGGCCTTCGTCCATGGTGAAGCGTTCACGCTCCCAGTCGACGGAGTTGCCGAGACGGC -GCATCTGACGGGTAATGGTGCCGCCAGATTCCGCTTTCCATTCCCAGATTTTGTCGATGAAAGCTTCGCGGCCGTAGTCG -TGACGGGTTTTACCTTCTTCTGCGGCAATCTTGCGCTCAACGACCATCTGGGTAGCGATCCCGGCGTGGTCAGTACCGAC -CTGCCACAGGGTGTTTTTGCCCTGCATGCGCTGATAGCGGATCATGGTATCCATGATGGTTTGCTGGAAGGCGTGACCCA -TATGCAAACTGCCGGTGACGTTCGGCGGCGGGATCATGATGCAGAAACTTTCCTGGCTTTCATCGCCATTAGGCTTAAAG -TAGCCCTGCTTTTCCCAGTGCTCGTAAAGCGGCTGTTCGATATCTTGTGGGTTATATGTCTTTTCCATTATTTCCAGGTT -GCCGTATTCAGGTTGAAACCAGCCACGCGGTAGGCTTTATAGCGTTCGCGCGCCAGTTGTTTCAGAGAATCTTCATAAGG -AACGAAGTCTACCACTTCTGTGAAAGCGGTGGCAAAATCTGCAAAGCTTGTTCGCAGACTAATCAATATATCGCGCCGGC -TGCTGCTACGCTTTTGCGGCCAGGCGATCTCCACCGGTGCACCGCCGCGCGGTCCTTCTCCCGCTAAATTATGCGGAACA -AAGCTTTCTGCCGGACGCGCCCACAGGGCTTCATCCAGCCGGTAAGCCTGCTTTTCATCTTCACAGGCGATGAGCACGCG -CTTACCGCTGCGCCAACGTTCTGCGGCAATTTCACACACCAGTTGCTCAACGGCGCTTAAGCCATCGACGGTGGTGTCAT -TGTCCAGAAGGTAGAACGTCGCGTTTTTCATAAATGGGGCTTCTTGTGGTGGATTTAAATACGCATCAGGTATACACCGC -AGCGCCTGATGCGACGCTGTTGTGTCTTATCAGGCCTACGAGTTCAGTGCTGTGTAGGTCGGATAAGGCGTTCACGCCGC -ATCCGGCAATAACAGCCTTGCCTGACGCAATTACTCTTCGCCGTTAAACCCAGCGCGGTTTAACAGGAACTGTGCCAGCA -ACGCTACCGGACGACCGGTGGCGCCTTTTGCTTTACCAGAACGCCAGGCGGTACCGGCGATATCCAGGTGCGCCCAGTTG -TACTTACGGGTAAAGCGTGACAGGAAGCAACCTGCGGTAATCGCCCCACCAGGACGACCGCCAATGTTCGCCATATCGGC -AAAATTGGACTCCAGTTGTTCCTGATACTCGTCACCCAGCGGTAAGCGCCATGCGCGGTCACCGGATTGTTCAGACGCGG -CAATCAGTTCATGGGCCAGCGGATTATGGTTCGCCATCAGACCAGTAATATGATGACCCAGCGCGATCACGCAGGCACCG -GTCAGCGTCGCCACGTCAATCACCGCTTCCGGCTCAAAACGCTCAACGTAAGTTAACACGTCGCACAGTACCAGGCGGCC -TTCAGCGTCGGTGTTCAGCACTTCAACGGTTTGACCGGACATGGTGGTTAACACATCGCCCGGACGATAGGCTCGTCCGC -CAGGCATGTTTTCGCAGCCTGCCAACACGCCGATAACGTTAATCGGCAGTTGTAGCTCCGCGACCATCCGCATCACGCCG -TAAACCGCTGCCGCACCGCACATATCGTACTTCATCTCATCCATGCCTTCTGAAGGCTTGATCGAGATACCGCCGGAGTC -GAAGGTTAAACCTTTACCCACCAGCACGATTGGGCGTGCATCTTCCGACGCGTTGCCTTTGTACTCAATCACCGACATCA -GCGATTCGTTTTGCGAACCCTGACCGACCGCCAGATAGGAATGCATCCCCAGCTCTTTCATCTGCTGTTCGCCGATAACG -CGGGTGATGACATTCTTGCTGTAGCTGTCAGCCAGCTGGCGCGCTTGTGAAGCGAGGTAAGCGGCGTTACAGATATTCGG -CGGCATATTGCCGAGATCTTTTGCTGCTTTAATCCCGGCGGCAATCGCCAGACCGTGCTGGATCGCGCGCTCACCGCTGG -TCAGTTCACGGCGGGTCGGCACGTTGAACACCATCTTACGCAGCGGACGACGCGGTTCGCTCTTGTTCGTTTTCAGCTGA -TCGAAACTGTAGAGCGTCTCTTTTGCCGTCTCGACAGCCTGACGCACTTTCCAGTAGTTGTTACGGCCTTTAACGTGCAG -CTCAGTCAGAAAGCAGACCGCTTCCATTGAGCCAGTATCATTCAGCGTATTAATGGTTTTCTGAATAACCTGCTTGTACT -GACGCTCATCCAGCTCACGTTCTTTGCCGCAACCAATAAGGAGAATTCGCTCGGAAAGTACATTCGGAACATGGTGCAGC -AACAATGTCTGCCCCGGTTTTCCTTCCAGTTCGCCCCGACGTAGCAGGGCGCTGATGTACCCATCGCTGATTTTATCGAG -CTGTTCTGCAATCGGAGAAAGGCGACGTGGTTCGAAGACGCCCACGACGATGCAGGCACTCCGCTGTTTCTCCGGGCTAC -CGCTTTTTACACTAAACTCCATGCACTACGCTCCTGAATCTTAAAGACAACGGCGGTGGCTACAGATAGAATTGCAAGCT -TTCGTAACTCATGTCCGCTGTTGCGATGACTTCGTGTTAATCTTAACGTTATTACGGCATTGGCACGTCAGAACAAAATC -TGAGAGGTGAATCCGTTGAGTATAATTATCTTAGCGACGATTTCGACGACTCAAGAGAATAAATGACGTTTAAGCCATGA -AACAAGCTAAAATCCTGCAAAAGACGAGTTTTTACGGGCGTATTTAAAGTGATAATCATAAGATATCTGGTGCGGGAGAC -GCTCAAAAGCCAGCTGGCGATACTCTTCATCTTGCTTTTGATCTTCTTCTGTCAAAAGTTAGTGAGGATCCTCGGCGCAG -CGGTTGACGGCGATATTCCGGCGAATCTGGTGCTCTCCCTTCTCGGGTTGGGCGTGCCGGAAATGGCGCAGCTTATCCTG -CCATTAAGCCTGTTCCTCGGGCTGCTGATGACGCTGGGCAAACTGTATACCGAAAGTGAAATTACGGTAATGCATGCCTG -CGGCCTGAGCAAAGCGGTTCTGGTGAAAGCGGCAATGATCCTTGCGGTATTCACGGCAATCGTAGCGGCGGTTAACGTGA -TGTGGGCGGGACCGTGGTCATCGCGTCATCAGGATGAAGTGTTAGCAGAAGCGAAAGCGAACCCTGGCATGGCGGCGCTG -GCGCAAGGGCAATTCCAGCAAGCGACTAATGGCAGCTCGGTGCTGTTCATCGAAAGCGTTGACGGCAGCGATTTCAAAGA -TGTGTTCCTCGCGCAAATTCGACCAAAAGGTAATGCACGTCCTTCTGTGGTGGTGGCCGATTCCGGACATTTAACCCAGC -TGCGCGACGGCTCCCAGGTCGTCACTCTCAACCAGGGAACGCGCTTCGAAGGCACTGCATTGTTACGTGATTTCCGCATT -ACGGACTTCCAGGATTATCAGGCGATCATTGGTCACCAGGCGGTGGCGCTCGACCCGAACGATACCGACCAGATGGACAT -GCGCACATTGTGGAACACTGACACCGATCGTGCTCGCGCAGAACTGAACTGGCGTATCACGTTGGTATTCACCGTGTTTA -TGATGGCACTTATGGTCGTACCGCTGAGCGTGGTTAACCCACGTCAGGGACGCGTACTGTCGATGCTGCCAGCCATGCTG -CTGTATCTACTTTTCTTCCTGATCCAGACCTCCCTGAAATCGAACGGCGGTAAAGGTAAGCTGGACCCGACGCTGTGGAT -GTGGACCGTTAACCTGATTTATCTGGCTTTAGCGATTGTTCTCAACCTTTGGGACACCGTGCCGGTCCGCCGCCTGCGCG -CCAGTTTTTCGCGTAAAGGAGCGGTGTGATGCAACCTTTTGGCGTACTTGACCGCTATATCGGTAAAACTATTTTCACCA -CCATCATGATGACACTGTTCATGCTGGTGTCGCTGTCGGGCATTATCAAGTTTGTCGATCAGCTGAAAAAAGCCGGGCAG -GGGAGTTACGACGCGTTAGGCGCAGGAATGTATACCTTGCTGAGCGTGCCGAAAGATGTGCAGATCTTCTTCCCGATGGC -GGCTCTGCTTGGGGCGTTGCTTGGTCTTGGGATGCTGGCGCAGCGCAGCGAACTGGTGGTGATGCAGGCTTCTGGTTTTA -CCCGTATGCAGGTGGCGCTGTCGGTGATGAAAACCGCCATTCCGCTGGTCTTGCTGACGATGGCGATTGGCGAATGGGTC -GCGCCGCAGGGCGAGCAGATGGCGCGTAACTACCGTGCGCAGGCGATGTACGGCGGCTCGTTGCTCTCTACCCAGCAAGG -CTTATGGGCGAAAGATGGCAACAACTTCGTCTACATTGAGCGGGTTAAAGGTGACGAAGAGTTAGGTGGCATCAGCATTT -ATGCCTTTAACGAGAATCGTCGTCTGCAATCCGTACGCTATGCCGCTACTGCGAAGTTTGACCCGGAACATAAAGTCTGG -CGTCTGTCGCAGGTTGATGAATCTGATCTGACCAATCCGAAACAGATTACCGGTTCGCAGACGGTGAGCGGCACCTGGAA -AACCAACCTCACGCCGGACAAACTGGGCGTGGTGGCGCTGGACCCGGATGCACTCTCTATCAGCGGTTTGCACAACTATG -TGAAGTATCTGAAGTCGAGCGGTCAGGATGCCGGACGTTATCAGCTCAACATGTGGAGCAAAATCTTCCAGCCGCTATCT -GTGGCGGTGATGATGCTGATGGCGCTGTCGTTCATCTTTGGCCCACTGCGTAGCGTACCGATGGGCGTGCGTGTGGTCAC -CGGTATCAGTTTCGGTTTTGTCTTCTACGTACTGGACCAGATCTTCGGCCCGCTGACGTTGGTTTATGGCATCCCGCCGA -TCATCGGCGCACTGTTGCCAAGCGCCAGCTTCTTCTTAATCAGCCTGTGGCTGTTAATGAGAAAATCGTAACCGAATGAA -CGAATAAAGGGAGCGAAAGCTCCCTTTATTATTGTTAGCAAAGTGTGCTTCGTTCATTCCTGAAAAATAATTAAAATTCA -ATATATTGCAGTGGGGTGGGCATGATAAGACGCGCCAGCGTCGCATCAGGCAAAGACAAATCTCGCCTGACTTACCTTCT -TCTCCCCCCCAGCAAACTCCCCAACATCCCGCGTACAATCTGATTCGTCACTTGGCGAGCGGCGCTTTTGGCCATTGTTT -GCACCACACCATCTTTCTTCCCGCCGCGTGGTCCGGTAGTGCCGAACAAAATATCCTTCAATCCACCAAGAATGCCGTCA -TCCACCGCTACCTCTTTCCCTTTCGCGGGAGGATTATTTTGCTGCTCGGTACTGGCCTGAAAGCCTTTTTGCAACATCTC -ATAGGCGGATTCCCGGTCCACCTCATCCTCATATTTGCCATACACCGGAGAGTGATTAATCAAGCCATTACGCTCATCTT -CCGTCACCGGCCCCATCCGCGAACAAGGCGCGATCACCATCGCACGCTCCACCACAGAAGGGCTTCCTTTCGCATCCAGA -AAAGAGATCAACGCCTCGCCGGTGCCCAGTTCCTGAATCGCCTTTTCGGTATCAAACGCCGGATTGGCCCGCATGGTTTG -CGCCGCTGCCTTCACTGCTTTCTGATCTTTTGGCGTAAAAGCCCGCAAAGCATGTTGAACGCGATTACCGAGCTGCCCGA -GCACATTATCCGGAATATCAGACGGGTTTTGCGAAACGAACCAGACGCCCACGCCTTTTGAGCGAATAAGCCTTATCACC -TGCTCAATCTTATCCAGCAGTACCTGCGGGGCATCGTTAAACAGCAGATGTGCCTCGTCGAAGAAAAACACCAGTTTTGG -TTTCTCCAGATCGCCCGCTTCCGGCAATTGTTCATACAACTCTGAAAGCATCCACAGCAGGCTGGCGGCGTACAGTTTCG -GCATCTGATAAAGTTTCTCGGCGCTGAGGATATTGATAACGCCTTTACCGTTGGCATCGGTGCGCATCCAGTCTTTGATA -TCCAGCATCGGCTCACCAAAGAAGTGTGCTGCGCCTTGCTGTTCCAGCGACAACAGCCCGCGCTGGATGGCACCAACCGA -TGCGCTACTGATATTACCGTACTGATTCTGGAAGGATTTGGCGTTATCGCCGATGTACTGGGTAATTGCCCGCAGATCTT -TAAAGTCGAGCAGTAACAGCCCCTGATCGTCAGCAATGCGGAAGATGATATTCAGCACGCCAGATTGCACATCGTTGAGA -TTCAACAGTCGTGCCAGCAACAGCGGCCCCAGATCCGAAACCGTCGCCCGCACCGGATGGCCTTTCTCGCCAAAGATATC -CCACACCACCACCGGATTGGCATGCGGTTGCCAGTCATTGACGCCGATATTTTTAAGCCTTGCGAGCAGTTTTTCCGACA -CCGTTCCTGCCTGCGCGACGCCGGTCAGATCGCCTTTCACATCAGCCATAAACACCGGCACGCCGATTTCCGACAATGAC -TCCGCCAGTTTTTGCAGCGTAACGGTTTTACCCGTCCCCGTTGCGCCGGTAATCAGCCCATGACGGTTAGCCATTCCCGG -CAGTAAAAACAGTTCTGTGTCCGGCGTGCGGGCAATTAACAGGGGTTCACTCATGAGATATCCTCCAGTTTCCTGCCTGG -AGTATAGGCAACGTCCGGCAAAGAGAATACGTGTAATGAAGAGAAAATAACCTAAAGCGTGTTGCCGTGATAAATCTGAT -ACCCGAGGTCAACAGTGTTGTGGTTGTGATCGTTATTTTTAATTTTGCTCAGCAACATTTGGGCGGCCATCCGACCAATA -TCAAAACGGGGAGTAATTACGCTGGCGAGGCTTGGGATCATTTGCCTGCCAATCTCCAGCCCATGAAAACCCGCAATGGA -AATTTGTTCTGGCACGGCGAGGTTTCGCTCGCGGCACAGCAGAAGCGCACCCATCGCAATATCGTCATTGGTGCAAAATA -CACCGTCTAAATCCGGGTTTGCGCTAAGGGCATCACGCATTAACTGCATTCCTAAATGAATGGATGAGATGGCGCGTGGA -TTCATGCGTAATGGGGAAAGATTATGCAGCATCATCGCATCGCAATACCCCTGATAACGCTGTTCATCGCGGGTGTCATC -TTTGGAACCGAGATACAGAATTTTGTGCCTGACTCGCTTCTCCAGCATGGTACACACCATGTCAAAAGCGGCCTGCCGAT -TATCAAAACCGACCTCCATATCCAGCCGTTCTCCCTGTACATCCATCAATTCCACGACCGGAATGGTGGCTGAACGCAGA -AATTTCACCGTCCTGATGGTGTGATATTTTTCCGAAAGTATAATCCCGTCAATGTTATAAGAGAGCAGGTTAATCACCGA -CTCTTCTTCGGAATCGCGATCGTAATTGTAATTAGCAATAAGGGTCTGATAATTATGCTCAGAGGTGACGGATTCTATTC -CCGCGAGAATGTCAGCGAAGAGTTGATTTTGAAATGACGGAATCAAGATACCGAGGGTATAACTTTGTGCATTCAACAAC -ATGCCGGGAGCGCGATTAGGGATATAATTGATCTCTTCCATAATTTTGGCGATGCGCTCGCCTGTTTCCTTTGCCACCTT -TTTCGGCGAGCGGATATAACGACTCACGGTCATTTTTGTTACGCCAGCCAGCGTAGCGATATCCTGTAAAGAAATTCTGT -GATTGCGCATAACTTCTCCCAACGTCGGGGGAATCTTCAATCTTCCCCCGAAACTACATCACAATATTTTATTCTTTCAG -TGCAATACGGCGTTAATGGCTAACACGCCCAGCAAACCCATAATAGAAATAAGGGTTTCCATCACCGTCCAGGTACGCAA -CGTTTCACCAACCGTCAGATTAAAATACCCTTTAAATAGCCAGAAGCCAGGGTCGTTTACGTGTGACGCGATCACGCTGC -CCGCACCGGTTGCCAGTACCATTAAAGCGGGATCGGCATGGGTAACGTTGATAATCGGCAACACCACACCCGCGGTGGTA -ATGGCCGCGACGGTGGCAGAGCCCAGAGCGATACGCAACAGCGCCGCAACAGTCCAGCACATCAATAACGGCGAAAGTGT -AGTTCCGGTCATTAAGTGTGAAATATAGTGCCCGACACCGCTATCTACTAATACCTGCTTAAACGCGCCGCCGCCAGCGA -TAATAAACACAATCATCGCGATAGCGCCTATAGAATCCCCAATGATATCCATGATTTGCTCGATGGTGCGTCCATTACGT -CGGCCCAGTGTGAAAATCGCAATAACAATGGCAATAAACAGCGCAACGGCAGGGTTACCGACAAATTCAAAGAAGAGGCG -CACGGTGTTAGTTTTCGGTAACGTAATTTCACAAACGGCGGCGATAGCCATCAGGATGACCGGGATCACGGCAGCGAAAA -TACTGTTCCAGAAGGAGGGCATCTCCTCTTCGCTAAACAGATGAGGATTAAATAAGCCTTCCGGTGGTGCTTTCTCAAAG -CGAGTTAGCAGTTTAGAAAACAGCGGTCCTGCGACAATAACTGTCGGAATGGTAATGATAAATCCATACAGTAAAGTCGT -TCCGAGATTAGCCTCAAAGATAGTCGCGATGGCAGTAGGCCCTGGATGTGGCGGCAGAAAACAGTGGGTTACAGAGAGCG -CTGCTACCATTGGTACGCCAACATACAACAGGGGTAATCCTGATGATGCTACGATGGTAAATACCAACGGCAACAGCAGG -ACAAAACCCACTTCAAAAAACATGGCGAGGCCCACAACCAGACCGGTGATCACTAGCGCCCATTGCACGCGTTTTTTACC -AAAAGTAGCAATCAGCGTAGTGGCGATACGTTGTGCCGCACCCGTATCAGAAATCAGCTTGCCTAACATGGCCCCGAAAC -CGAGGATCATTGCCAGCCCGCCGAGCGTGCTGCCGATACCATTTTGTATAGAGTGCAGGACGGCCTGTGCATCCATCCCT -TCGGCAAATCCGACGACGGCAGCTACCAGAACGAGGGCAATAAAGCCGTTAACTTTAAAGCCGATCATCAGGATAAGAAG -CAGCGCGACGCCTGCCGCAATAATGATTAATGGCATAGTCTTTATCTCTTATTAGTGCCAGAAAAGCAGCGCTTTCGCGC -TGCACGTAGGGGGGCTGTTAAACAGCCACTAACATGCCGCCATCAACAAACAACAGGTGGCCGTTTACGAAATCAGAGGC -TTTTGAAGAAAGGAACACCGCAGCACCAATCAGTTCCTGCGGATCTCCCCAGCGTGCGGCGGGGGTCCGTTTGCACAACC -AGGCGGTGAAGGCTTCGTCCTCAACCAGTGCTTTAGTCATTTCTGTTTTGAAATAGCCCGGCGCAATACCGTTGACCTGA -ATATTGTGGCGCGCCAGCTCGACGCACATGCCGCGGGTGAGCATTTTTACCGCCCCTTTCGATGCGGCATAAGGGGTGAT -GGTGTCACGTCCCAGTTCGCTTTGCATCGAGCAAATATTAATAACTTTACCTGCCTTGCGTTCAACCATGTGACGAGTTA -CCGCTTGCGATACCAGGAACACGGCGGTCTGGTTTACTGCGATCACATCATTCCACTCTTGTTCAGGGAACTCAGTAAAA -GGATGACGGCGCTGGATACCGGCGTTATTCACCAGCACATCAATGGGGCCGATGTCCTTTTCGATATGTTCAACGGCGGC -ATCAATTTCATGTTTATGAGTAACATTAAAAGGTGCGGCAACGGCCTGAATACCCTCCTGGTGGAGTTTTTCTACAGCAA -GTTCTGCGCGTTCGGCAGTAATATCATTAATAATTATTTGTGCGCCATATTTACCCAGGCCGGTTGCCAGTAAAAAGCCA -ATGCCCTGTGCTGAACCGGTAATCAAGATATTTTTTCCTGCCAGTGAAAATAGATCGTTCATTGTATTATTCCTTTATTT -ATCTCTTAGAAAACAAGCTGGACTTTTGCTGCCTGGGTTTTATCACCGGCGAAACGTAGCGCCTCTTCCAGGTCAGTGAA -GGGATATTCAGCACTCAGTAAAGGCAGTGGATTGATAACGCCATTCGCCAGCCATGACACTGCGGTATTAAATTCGCTGG -TAAAACGGAAAGAGCCTCTGAGTGAAATCTCCTTACCAATCAACGTCATCATTGGGAATTCTGCCATCGCGCCTCCCATA -CCTACCTGCACCATTACGCCGCGTGCACGAGTGACCTCCAGACAGGTATTCACTGATGAAGGATGACCGGACACTTCAAA -GCTGACATCGAAATAGCCTTTTTCCGCTTTCCAGTGATCCATGTCGTCGTTTTGTGGGTTTACGAGCACATCCGCCCCCA -TCTCTTTGCCCAGCGAAAGGGAACGGGGACTCACATCAGCACAGACAATTTCCGCGGCCCCCAGTGTTTTCACTGCACTG -ACAATCAGGCAGCCAATGGGTCCAACACCGGAAATAAATACTCGCTTGCCCTGTAACTCGCCGGCCTGATGTGCGGCATG -AATCGCGACGGCTAAAGGTTCGGCAAAAGCCATAACCTTTTCGTCAGCTTTGGCCGGATAAGGGACACATTGCGACGTTT -CGACCATTTTATAACGGGTAAAACCACCATCAACATGAGGGAAATACATGGCACTGCCAAAAAAACGCATATCTGTACAC -TGATTCTCGTTATGTTCAATGCAGTATTTGCAGTGACCGCACGGTTTAGACGGATTAATGGCTACCGTTTGCCCTTCATG -TAATTCTGATGAGTCGCTATGAATAACTTTACCGATAACTTCATGACCTAACACCATCGGTGCCTTTATCATGAAATTAC -CTACTTTTCCTTCCTGATAATAATGTAAATCGGAACCGCAAATTCCACCTCGGGTTATTTGTACTAATGTTCCATTATTA -TTCCAATCTATCGTCTGCTCGGTAACGGCAACAGTTTTCTTGCCCGCAACAACGCAGGACTGTGTTTTCACTTGCATAAA -TTCCTCACTGGTCAGGTAGACACCTCGGAAGCATTTAAGCGGTTTTAACTGTCATTATTTGTGATGAAGATCACGTCAGA -AAATTGTTACATTACTATGTTACGCATAACGTGATGTGCCTTGTAATTCTTATCAGTAGAAATAAAAAAACGTGAAATTA -TTATGCCGCCAGGCGTAGTATCGCAGCAGGTAAGATGATTCAGGAGATTTTAAATGGCGGGTGAAAGCTTTATTTTGATG -GGCGTTTCAGGGAGTGGTAAAACATTAATTGGTAGCAAGGTTGCCGCGTTATTATCTGCTAAATTTATTGATGGTGACGA -TCTTCATCCAGCCAAAAATATAGATAAAATGTCGCAGGGTATTCCATTATCTGATGAAGATCGACTTCCCTGGCTGGAAC -GCTTAAATGATGCTTCATACAGTCTTTATAAAAAGAATGAAACAGGATTTATTGTCTGTTCATCATTAAAAAAACAGTAT -CGTGATATTTTACGCAAGGGTAGCCCCCATGTTCATTTCCTCTGGTTAGATGGCGACTATGAAACTATTCTCGCGCGAAT -GCAGCGTCGGGCTGGGCATTTTATGCCGGTAGCGTTACTAAAAAGTCAGTTTGAGGCACTGGAGCGTCCACAAGCAGATG -AACAGGATATTGTGCGCATTGATATCAACCATGATATTGCCAATGTCACCGAACAATGTCGGCAGGCTGTGCTGGCGATA -CGACAAAACAGAATATGTGCGAAAGAGGGCAGCGCCTCAGATCAGCGCTGCGAATGATTTTCAAAAATCGGCTTTCAACA -CCACGCGGTAACGCGCCTTACCGTCGCGCACATGCTGGATGGCGTCGTTAATTTTCGACATCGGGAACAGTTCGGTGGTC -GGCGCAACCTTGCTGCGGGCGGCAAAACGCATCAGCTTACGCAGCTCATAAGGCGTGCCGGTAGCAGAACCAGAGACGCT -GCGATCGCCCGCAATTAACGTAAAGGCCGGAACAGACAGCGGCGTGAGAACCGCACCGACCGTATGGAAATTACCGCCAT -AGGTCAGCGCCTCAAAATAGGGCTGCCAGTCGAGGCTGACGTTGACGGTGTTGATAATGAGATCAAACTGCCCCGCCAGT -GCTTTCAGTGCCTGCGGATCGCGGCTATTCACCACTTTATCGGCACCCATCGCCAGCACTTCCTGCTCTTTCGCCGGATT -AGAACTAAAGGCTGTCACCTCGCATCCCATTGCGTGCAGAAGTTTTATAGCGATATGCCCCAGCCCGCCAATACCAATTA -CCCCAACGCGGCTGGTAGCAGTGATATGGTGCATCAACAGTGGTTTAAAGACCGTGATACCGCCGCACAACAGCGGCCCG -GCGGACTCGATATCAATATTTTCTGGCAGTGGAATCACCCATTGCCAGTCCGCACGCAACTTCTCGGCAAAGCCACCGCG -ATTCATAATCGTCGGCACCGCACCTTGCTCGCAGTTGATCTGATTACCGCTAATACAGGCGTCGCAGTGACCACAGCTAC -GCGCCGTCCAGCCAATCCCGACACGCTGACCGACCTGCAAACCTTTATCCTGCGCGGCGCTCCCGAGTGCCACCACGCGC -CCAATCACCTCATGCCCGGCAACCAGCGGATATTGTGAAAATCCCCATTCGTTATCGATCATCGACAGATCGGAATGGCA -GATCCCGCAGTAATCCACCTGCACTTCAACATCTTGTGGCCTCAGCTCACCGGGATCGTACTCATAAACTTCCAGTTCGC -CGCCCGCTTCTTTTGCGGCATAGCTTTTTATCATCGACATTTTTTGGTCCTTCTCTGGTGTTGTTTGGGAAGTGTAGAGC -ATGGCAGGGCGGGGTGCCTGGAGTGTGACAAAGGTTACACATCGCTGTATGCAATGCTGAAAATTTCAGCACTTAGCGAG -GTGCGAGCAAGCTGGCGCTTGCATGGTGGCGTGCGACAGGTATAATCCACAACGTTTTCCGCATACCTCTTCAGTGCCGA -AGTGGCGAAATCGGTAGACGCAGTTGATTCAAAATCAACCGTAGAAATACGTGCCGGTTCGAGTCCGGCCTTCGGCACCA -AAAGTATGTAAATAGACCTCAACTGAGGTCTTTTTTTATGCCTGAAATCCAGTGTTTATCTATCTTTCCCGCTATATTAA -CTCTCTCAAGGTCAACCGATATCAACGTACATCTACCAACATATGTTGGTACAGATGATGGTATTTCCGGTTCGATAATG -CTTGTACCAACAGGGAGGGAATACGATGGCATTAACAGATATCAAAGTCAGAGCAGCCAAGCCAACGGATAAGCAATATT -AGCTGACTGATGGTGGCGGTATGCATCTGCTTGTCCATCCAAATGGTTCTAAGTACTGGCGTTTGCAGTACCGTTATGAG -GGAAAGCAAAAAATGCTGGCACTTGGGGTTTATCCTGAAATCACACTAGCGGATGCCAGAGTACGTCGTGACGAGGCGCG -TAAGCTGCTTGCGAATGGCGTCGATCCGGGAGACAAAAAGAAAAATGATAAGGTTGAACAGAGTAAAGCACGAACCTTTA -AAGAAGTCGCGATTGAGTGGCATGGCACCAATAAAAAGTGGTCTGAAGATCACGCCCATCGTGTGCTAAAAAGTCTTGAA -GATAATCTTTTTGCAGCGCTTGGTGAACGTAATATCGCTGAGTTAAAAACTCGAGATTTATTAGCACCTATTAAGGCCGT -AGAAATGTCTGGACGTCTTGAAGTGGCCGCTCGTCTTCAGCAGCGCACTACAGCCATCATGCGCTATGCAGTGCAAAGTG -GGTTAATTGATTATAACCCGGCACAAGAGATGGCTGGGGCGGTTGCTTCCTGTAATCGACAACATCGTCCCGCGCTTGAA -TTAAAGCGCATCCCTGAGTTGCTTACAAAAATAGATAGCTATACTGGTAGGCCGCTAACCCGATGGGCGATAGAACTCAC -TTTGCTGATCTTTATTCGGTCCAGTGAGCTGCGTTTTGCTCGTTGGTCAGAGATCGATTTCGAAGCGTCTATATGGACTA -TCCCACCGGAGCGGGAGCCTATTCCTGGAGTGAAACATTCCCATAGAGGCTCAAAAATGCGTACAACGCATCTAGTGCCT -CTTTCAACGCAAGCTCTTGCAATTTTAAAGCAGATAAAACAGTTTTATGGGGCCCATGACTTGATATTTATTGGTGATCA -CGATTCGCACAAACCCATGAGTGAGAATACGGTAAATAGTGCGTTACGGGTCATGGGGTATGATACAAAAGTAGAGGTTT -GTGGTCATGGCTTTCGAACAATGGCCTGTAGTTCATTGGTCGAATCAGGTCTGTGGTCTCGTGATGCTGTTGAACGTCAG -ATGAGCCACATGGCGCGAAATTCAGTGAGGGCCGCGTATATCCATAAAGCAGAGCATCTGGAAGAACGGCGATTGATGCT -ACAGTGGTGGGCCGATTTTCTGGATGTAAACAGAGAAAGGTTTATCAGTCCATTTGAATATGCAAAGATTAATAATCCAT -TAAAACAGTAATCATCCCGGGCAAATGCCCGGGAATTATTCTAGGATTATTTTCTTTGTTAAAAAAGACAAACGGTATTA -ACTGATGTATTTACTATTTACCGCTCCCTGCAGGGGGGATTATCAGAATCCGCGGTTATTCATTATTTATATACATTCAA -TAAAAAAGTAACCTCATAAAAAATCCTGTACTCACAGGGTGATGCGGGATAACTGACGTAAGGAGTGCTGCAGGGATTTG -ATGGTCCCTTGTAGACTGGCCCCCTGAATCTCCAGACAACCAATATCACTTAAATAAGTGATAGTCTTAATACTAGTTTT -TAGACTAGTCATTGGAGAACAGATGATTGATGTCTTAGGGCCGGAGAAACGCAGACGGCGTACCACACAGGAAAAGATCG -CAATTGTTCAGCAGAGCTTTGAACCGGGGATGACGGTCTCCCTCGTTGCCCGGCAACATGGTGTAGCAGCCAGCCAGTTA -TTTCTCTGGCGTAAGCAATACCAGGAAGGAAGTCTTACTGCTGTCGCCGCCGGAGAACAGGTTGTTCCTGCCTCTGAACT -TGCTGCCGCCATGAAGCAGATTAAAGAACTCCAGCGCCTGCTCGGCAAGAAAACGATGGAAAATGAACTCCTCAAAGAAG -CCGTTGAATATGGACGGGCAAAAAAGTGGATAGCGCACGCGCCCTTATTGCCCGGGGATGGGGAGTAAGCTTAGTCAGCC -GTTGTCTCCGGGTGTCGCGTGCGCAGTTGCACGTCATTCTCAGACGAACCGATGACTGGATGGATGGCCGCCGCAGTCGT -CACACTGATGATACGGATGTGCTTCTCCGTATACACCATGTTATCGGAGAGCTGCCAACGTATGGTTATCGTCGGGTATG -GGCGCTGCTTCGCAGACAGGCAGAACTTGATGGTATGCCTGCGATCAATGCCAAACGTGTTTACCGGATCATGCGCCAGA -ATGCGCTGTTGCTTGAGCGAAAACCTGCTGTACCGCCATCGAAACGGGCACATACAGGCAGAGTGGCCGTGAAAGAAAGC -AATCAGCGATGGTGCTCTGACGGGTTCGAGTTCTGCTGTGATAACGGAGAGAGACTGCGTGTCACGTTCGCGCTGGACTG -CTGTGATCGTGAGGCACTGCACTGGGCGGTCACTACCGGCGGCTTCAACAGTGAAACAGTACAGGACGTCATGCTGGGAG -CGGTGGAACGCCGCTTCGGCAACGATCTTCCGTCGTCTCCAGTGGAGTGGCTGACGGATAATGGTTCATGCTACCGGGCT -AATGAAACACGCCAGTTCGCCCGGATGTTGGGACTTGAACCGAAGAACACGGCGGTGCGGAGTCCGGAGAGTAACGGAAT -AGCAGAGAGCTTCGTGAAAACGATAAAGCGTGACTACATCAGTATCATGCCCAAACCAGACGGGTTAACGGCAGCAAAGA -ACCTTGCAGAGGCGTTCGAGCATTATAACGAATGGCATCCGCATAGTGCGCTGGGTTATCGCTCGCCACGGGAATATCTG -CGGCAGCGGGCTTGTAATGGGTTAAGTGATAACAGATGTCTGGAAATATAGGGGCAAATCCACCTTGTGCTGATATGAAT -ACGGATATTTTATACAGAATACTTTTCAGTACAAGCGACTGTATTACAGTCTGCCATATATGATTACCTGTGATCAGGAA -GAATAAGTGGCTGAGGTTTCAAACTGTCTGCCGGTATATTCCTCTCTCCCTTAAAAACCATAACAGGTTAGTTATCTTCG -TCTGTCAGCGGATTGAATGGCGGTATATTTTCAGTACAAATACCGGTCATCCACTGAAAAATACCTGCGAAATGACGGGC -ACTGATTTTTCTACTGACGGGCTGATGAGACGTTATGTCACTGGCGGTAATAATCAGTGGCACACTGTAGCCTCCCTGCA -CATGACCATAATGATGAACAGGATTGGCACTGTCGCTGACCGACAGCCCAAGGCCAGAAAAGTAAAGCATGGCGAAATGA -CGTGAGTACCGGCGAAGGATACCATCAAGCTGGCCAAGAAAGTTATCCAGTTTACTGATGCTGGCGAGGTAACAGGCAAT -TTTTCGGGGATACTGCTCCAGGTAATTATTCGGCTAGGAGTTAAGGCTGTCACACGGATTTGGATGAGAACCCATCATGT -GCAGGAAAATTATCTTCGGAGAGGATGTATCCGCCAGCGCACGTTCTGTTTCCTGTAACAACAGTTTGTCATCTGTTTTA -CGGGAAGCGAAGCTGCCTTTCTTGAGGAAAGTGGCATGCTCCGCATCAGAAGCAATAACAGAGATGCGTGTGTCATGCTC -CCCCAGTTTTCCTTGATTGGATATCCACCATGTGCTGTATCCTGCTTTTGCTGCCAGCGCCACCACATTGTTGCCGGAAT -CAGGGTTCTGCTCATAGTCATAAATCAGTGTCCGGCTCAGGGAAGACACTGTACTGGAGGCTGTCGAGGTATAATCGTCA -ATAAATAAACCGGGTGCCGTATTCAGCCACGGTGTGGTTGGTACGGGATAGTCATACACTGACATATAATCCCTGCGCAC -ACTCTCACCAGTGACAATAACAATCGTATCATATAACGGTGCTCCCGGCTGGATTTTCCAGTTGTCAGCCCCGTGCTACT -CAGTTGTTCATAACGCTGCATTTCACGTAATGTGTCAGTTGTCCCCACAACTGTTCCTTTAACCATCCGCAATGGCCAAC -GGTTTACAGAGCATAATACGAATAGCCGTAGAGCCAGCCAGTTACGGTGGTCGCGATGGTGTGTCCGCCAGAAAATCACC -ACGAATACCAGAATCGCGGCACTGACCAGAAAATGATAAACAGGAAACACGGGGCGGTTCACTTTGCTTTCTCCTGTAGT -GTTTTCTGTAGGTTCTGAACCGGTTCTAGCGGGGTTGTGAGGCTGATGGCAATCGCCGGGCTCTTCCTGCATGTTACACT -GGTACTGCAAGAGGGGGCCTTCGCTCCTCTGACATTACTCAGTATTTTCACTACTACACCCCATCTGCCATCCATAACAA -CCGATTCACCCCCTCGCGAGGCGTTGTTGCCCGTCACCCGGACAGACACCGTTATGGACTTCTCTTGTTGCACGATCGAT -CAATTGTTATGCATGCTGACACCACAACCCCGGTGGGTATGACCGATGCCTTTCTCACTCTCTTCCCGGTCATCGTCGGC -CTTCCCCGTTATTGTGGCGTGTCAGCACCCTCGACGGCATTTCGATGGCTGCTCAGTGTTCACTCACGTTACGGCCCGCA -TAACCCGTTGACTTCCTGAAGAAGTCGTTTCAGGGAGAGATTCAGCCCTTTTGTTACCTCCTGGACCGCTTCTTGTCCTT -CCAGTCGGAGCGAGAGTTAGCCGGGGCGGACTTTCACCGACGGAAAGATCGTGCATTTCAAGGCACACACAACAATATCT -GCGAGCGTGCTATCCGTCCGGTCGTTATGGGACGAAAGGCCTGGTTGTTCGCTGGTTCACTGGTGGCCGGGAACCGCGCG -GCACAGATAATGAGCCTTCTGGGAACCGCAGTCTGGAGCCACATGCTTGGCTGACGGACGTCCTGACGCGTCTGCCGGAG -TGGCCGGAGGAGAGGTTGGCTGAGTTACTGCCTCTTGAGGGCTTTACCTTCTTCGGGTAAGTGATACCTGCCGTCAGGTG -TTTGTGCACCGGGCCATAACCTGCAGTTGGGAATTGAACGCCTGACAACAGGAAATGAGCTAGAGCAGTAAACACGCGGG -CTGACAATGGGTCAGAATATGAGTTAGCCCGGCGTTATTCCTGGGGTCAGTACTTCAGATCTAGCCTCCGGTACCAGACT -AGCTAGCCCCTACGCAACCAAATAAATCAACCATCGTCAGAGTGCAATCGTTCATATACACTGTCGGTGATGCGCTAAAA -AATGCGTTAATGTTGAGTTCCTCGAACCCTTACCAATTAAGGGACATAGCCAGATACGCAACTGGCTGATGCAAGCAGTC -TAATGTCTTTAGATCCGCTGGCCTGCGGGCATGACAATGTCAAACAGTCAAAGATTGTGGCGTTGACGGTCAGTCTTGGG -GACAAAAAAGCTCAGTATTCTCGTTGGCAACCAGATAATTTAACAGTTGATGCTGAAACGAAATAGGCATCTTGGTTCTG -TAATGCCAGTCAGTTAAGCAACTGACTGGCTCTTTTTCGGGGCTGTGGGGTATTTCCAGGGCCTCTCCTTTACCACTCTC -GGGAAGGCCCTTTCCCTTCTTGTCGGTAATTTCACAAGTTGTCCCATACTTGCAAGATCGCGCATCAGCTCCGGTATACG -TCCCGGTGAAGCGCCCTGCAATGTCATCAGCATTCTCATCACCATTCCGCATGATTCTGAGAAACTCAGTTGATTCGGCC -AGTAACCTTTCAGATGTTCCGCCATTTTAATCATCTGATATCTCACCAGATTATAAGCCAGTAAGACACCCCACAGCTCT -TGCTCCACAAGCTCCGGCTTTTTACTTCTCAGCGTCAGCCTGCTCCGTTGCATCGTCTGTTTTATCTCCCTGTATCCCAG -TTCGATTTCCCAGCGATGACTGTACAGATCCCCCATTTCTCCTCCGGGGAAGCGCATGGCGTCCGTCATCGACGTCAGCA -GATGGCAGACTTTTCCTTTGCGCGTCACGGTCAGCAGGCGGGCAGTCACTTCATTTCCCAGTCCCGGCCACTTTTTTCGT -GCCTGCGGGCTGGTTTTCAGCTTCACCAGATGATCGCCTTTACCCAGTTTTCTGATCTCTTCATATTGCGCTCCCTTTCT -GAGAGGTATCATCCAGTGGCGGTGTTCTCCCGCCAGGCTCCAGGCATTTAACAGTCCCAGTGAGTAATAACCTTTATCCA -TTAACGTCAGAGTGTTATCGCCGGTTTGTTCTATAAGTTGCTCAGCAAGCTCATTTTCGCTGTTCTTCATCGTGCCGAAG -GCTGCAGCCGTCAGCAGATGGCTGGTCAGTTCCATCTGGCAGACCATTTTGACCTGCGGGTAGAGCGCCGGGTTCCCGGC -ATGTGTCTGGCGGGGGAAGGCTGCATCGTTCTCTGGTGTATCCGGTGTGCGCCAGAACACACCATCGATGGCCAGCAGGG -TCAGGCCGCACCAGTGCGGATGCGGCGTGGCGTTATGCCAGAGCTGCGCTGTTTTCGTGAACACGCGGCGGACAGCCTCA -CTTCCCAGGCGCTGGCGGGCCTGAATAACGGCACTGGGGGCAACGAAGGGGCGATTGCCCGGCAGCATGATGTCCAGGCG -ATTCACAATCTGGTGAAGAGGTTCTTTACGCTCAAGCGCCATGCCAACAATACACCAGACCATCATTTCGAGGGGAAGAC -GGCGCTTGCGTAGCGTTACAGTACCTGATTCGGCAAGGCAACGAGAGATGAGTTCGGGGTCGAGGTAATCCCCCAGAGAA -GTCAGTGGGTTACGCAGAGAATCGTAACGGGATACCAGATCAAGAGCCTGTCCAATGTGCATAAAAAAATCCGGAAACAA -GTGAGCGTTTCCGGATTCTTACACAGCCACTGGATCGGTCAACTGATCCTTAACTGATCGGCATTAATCTTGGTTCTGGT -GTTTGTAACAAACTATCAGCTACAAAAATATGCTCAATTTGTGACATCAGTAACAAAACGCGTTTTGTTATGTGGATTGC -TTGTTTTTTGATCTGGTATAACAGGTATAAAGGTATACAGAAAAGCAAAGAAATACTGCAAAGGAAAACAGCTATAACGT -AAGCTAAAGTAATAACCTCTCAGTCTTTCCTCATTTGACGAAGGGAGTTTTATTCAACCTGAACGGACTACGAAAATGAG -CACAATGAATAAGTCAATTTTTGAAGCAGGGTTGAACTGTGCCAGTGGTGGAATATCTGGCGAACATTGTTTTTTGTTGG -TGACCCAAAACTGTAGGTGGGTATCAGTTTTATCTTTCATAGAGTGAAATATGTTAAGAAGAAATGGAGGAAAAGATTGT -ACTGATTAGGTATTGATAACAATCAATAGTACTGGCGTATTTGAAGACAATATAATTATTTCTGGATATTGTTGAGGCTC -CCTAATATTTACTTTAAGGGCTATATTAGAATAACACAGGAAACAAATATGGCAACAGCATGGTATAAACAAGTTAATCC -ACCACAACGGAAAGCTCTTTTTTCCGCATGGCTTGGATATGTATTTGATGGCTTTGATTTTATGATGATATTTTACATTC -TTCATATTATAAAAGCAGATCTTGGCATTACGGATATTCAGGCTACTTTAATAGGGACAGTGGCCTTCATAGCCAGACCT -ATTGGAGGTGGTTTTTTTGGTGCCATGGCTGATAAATATGGTCGTAAGCCAATGATGATGTGGGCAATTTTCATTTACTC -AGTCGGAACAGGCCTTAGCGGTATTGCTACAAACTTATATATGCTCGCAGTTTGCCGTTTTATTGTTGGCTTAGGGATGT -CTGGTGAATATGCATGTGCTTCAACTTATGCGGTAGAAAGTTGGCCTAAAAATCTTCAATCTAAAGCTAGTGCTTTTTTG -GTAAGTGGTTTTTCTGTTGGAAATATTATTGCGGCACAAATAATCCCTCAGTTTGCTGAAGTATATGGATGGAGAAACTC -TTTTTTTATAGGCCTGTTACCAGTTTTACTAGTTCTTTGGATCAGAAAAAGTGCTCCAGAAAGTCAGGAGTGGATTGAAG -ATAAATATAAGGATAAATCAACATTTTTGTCTGTCTTCAGAAAACCACATCTTTCAATCTCTATGATCGTTTTCCTCGTC -TGTTTTTGTCTATTTGGTGCAAACTGGCCGATAAACGGACTACTTCCTTCCTACCTGGCAGATAATGGAGTTAATACAGT -GGTCATTTCAACTCTGATGACAATAGCAGGTTTAGGAACACTGACAGGTACAATATTTTTTGGTTTTGTTGGTGATAAGA -TTGGTGTAAAAAAAGCCTTTGTAGTCGGTCTAATAACTTCATTTATTTTCCTTTGTCCTCTTTTTTTTATTTCTGTGAAA -AACTCTTCTCTTATAGGATTATGTCTCTTTGGATTAATGTTTACAAATTTAGGTATTGCAGGGTTGGTTCCAAAATTTAT -ATATGATTACTTTCCAACAAAATTAAGAGGATTAGGGACCGGTCTTATTTATAACTTAGGGGCAACTGGAGGAATGGCCG -CACCTGTATTAGCTACATACATTTCAGGATATTATGGCTTAGGTGTTTCATTATTCATTGTTACGGTTGCATTCTCTGCC -TTATTAATTTTGTTAGTTGGTTTTGATATTCCAGGTAAAATTTATAAACTATCCGTGGCTAAATGATTGGAGGCTTTATG -ATTAATTATGGCGTTGTTGGTGTTGGATACTTTGGCGCTGAATTAGCTCGTTTTATGAATATGCATGATAATGCAAAAAT -TACATGTGTATACGATCCTGAAAATGGAGAAAATATTGCCCGTGAATTGCAGTGTATCAATATGTCAAGCTTGGATGCTT -TAGTCTCAAGTAAATTAGTCGATTGCGTGATCGTAGCCACCCCAAATTATCTGCATAAAGAACCAGTAATTAAAGCAGCA -AAGAATAAGAAGCATGTTTTTTGTGAAAAACCAATTGCATTAAGTTATGAAGATTGTGTGGATATGGTCAAAGCGTGTAA -AGAAGCTGGTGTGACCTTTATGGCCGGGCATATTATGAATTTTTTCAATGGGGTTCAATATGCACGGAAGTTAATTAAAG -AAGGTGTTATCGGCGAAATATTATCATGTCATACTAAGAGAAATGGCTGGGAAAACAAACAAGAGAGACTTTCCTGGAAA -AAGATGAAAGAACAATCTGGTGGACATCTATATCATCATATACATGAGTTAGATTGTGTTCAGCATTTACTTGGAGAAAT -ACCAGAGACGGTTACTATGATTGGTGGAAATTTGGCCCATTCTGGTCCAGGATTTGGCAATGAAGATGATATGTTATTTA -TGACCTTGGAATTCCCGTCAGGAAAACTAGCAACCTTAGAGTGGGGGAGTGCATTTAACTGGCCGGAACATTATGTCATC -ATCAATGGAACTAAAGGCTCTATTAAAATTGATATGCAAGAAACAGCAGGGTCACTTAGGATTGGCGGTCAGACAAAGCA -TTTTTTGGTCCATGAAACACAAGAAGAAGATGATGATCGTCGGAAAGGCAATATGACCTCAGAAATGGATGGCGCTATAG -CATATGGTCATCCAGGAAAAAAAACACCATTATGGCTTGCCAGTTTAATAAGAAAGGAGACGTTATTCCTCCATAATATC -CTCTGTGGTGCAAAACCTGAAGAAGATTATATTGACCTTCTCAATGGTGAGGCGGCCATGTCGGCGATTGCTACTGCTGA -TGCTGCCACTCTTTCAAGATCGCAGGACAGGAAAGTGAAAATCAGTGAGATCATTAAACATACATCAGTAATGTAAAAAC -TATACGCCTCTTGATTTAATTCAGGAGGCCTTTTATGTATGATCAAGAATTTTATCTTCGATAATCTCATAATTTTAGCA -GTGCCATTTATGATAAAAACATCCCTTAAAACCAATCTAATCTTTTTCTTCCTCTGTGTATTTGTTCCCCATATGGCGTC -ATAATTTACGCTACGTAATACGGGATAGTTACGATACGCAGCGATAGCGCTAAGTTTTAGTTAAAATCCCCCATCAGCGG -GATATGGGGATCTCTGGGAGGTTCAGGTTTTAGCATCGCGACTTTAATACGACAGACGCTGGTGACGATGATGCCAAGTA -GTGACTCTTCCGAATAAGGTTCCCACTGACCAATTGGCGCGCGCTTCGCAATAAAATCTCCCTTCGCCCAGTATTGGGAA -AAGTAGATACATTCAAACTGTGTACGCTGTTTCGTCTCACAGTTCACGACATTGCTGGCCGATGAGCTGACCATTGGGCC -TATCCGGGCTGTCCCGATGGATATTACGCCGAAGTATGTGGGAATTGCCAGCGGATTGATGAACGCCGGTTCCGCTGTCG -CCGACATTATTTCACCTATCGCCTTTGGCATTATTATCGACAAAACAGGCAACTGGAGTTTACCATTCTACGGTTCCGTC -GCATTGCTTGTTATTGGTATATTCCTGACGTTCTTCATGCGTCCAGATAAGTCATTGTAAAAGTCGAATCAGGGCTGAAG -TGGCACACTGAATTTGGCCACCTGAACAGAGGTGATATGCTCACCTCAGAACAACACAGGTGCTCCAATGAAAAAAAGAA -ATTTCAGCGCAGAGTTTAAACGCGAATCCGCTCAACTGGTTGTTGACCAGAAATACACGGTGGCAGATGCCGCGAAAGCT -ATGGATGTTGGCCTTTCCACAATGACAAGATGGGTCAAACAACTGCGTGATGAGCGTCAGGGCAAAACACCAAAAGCCTC -TCCGATAACACCAGAACAAATCGAAATACGTAAGCTGAGGAAAAAGCTACAACGGATTGAAATGGAGAATGAAATATTAA -AAAGGCTACTGTAGATTCAATCTGTCAATGCAACACCCCTTTCAATTATCTCTTTCGGTGTTTTGAACTTCAGTGTCTTT -CTCGGTCTGTTGTTTAGCTGAGCAGCAACCAGATCTAGTTCATGTTGAGTATATTGGGCAAGACATGTCTTTTTAGGAAA -GTACTGCCGAATTAGCCCATTTGTGTTCTCATTTGTTCCCCGCTGCCAAGGACTCTGAGGATCGCAGAAGTAAACTTTAA -CGCCGGTGCTGACAGTAAATTCTAGATGTCTGGCCAGTTCCATTCCTCTGTCCCATGTCAGTGATTTTCTGAGTTCTGAC -GGTAAACTCAGGAATTTGTCGGTAAGAGCCTGATTTACTGAGACAGAATCTTTGCCCCTGAGTCTAAGGATGATCGTATA -ACGTGATTTTCGGTCTACAAGTGTGGCTATATGAGAGTTTTTTGTACCTGAGACTAAATCGCCCTCCCAATGCCCTAGAG -AGCGTCTGTTATCGATATTTCGGGAACGTTCGTGAATTGGTGTTCCGTTCACTATGTTAATCGTACCTCTTTCGCCTTTG -CGGGTATGACGCCTGCCATGGCGAAGGCTATGCGACCGTCGCAGATGCTGTATATTCAGGTGGTGTAGCGCTTCACGGCT -ACGAAAGTACAGCGTTTTATAAATTGTCTCAGGTGATATTCGCAGCGTTTTTTGACGTGGTTTTGTTCGCCTTAACCATC -CTGATATTTGCTCTGGAGACCATTTCATCTCCAGCTTTTCCAGAACAAGCTTTCGCAATGGTAAATTTTGATCCAGTAAG -CACGGTTTTGGCCTTTTCGCCATTCTGTTGGCTCGGTTATTAGCATCAACAGCTTTGTAATAGCGTCTGCCCCGATTACG -CTGAACTTCACGTGAGATCGTCGAAGGACTGCGATTCAGCGCAGTAGCTATCGCACGAATGCTCATTTTGGCTGACAAAC -CAGCTCGTATCTCCTCGCGCTCAGACAGTGTCAGGTGAGCTACAGCCCGCTTACGCTCATGGGGTTTTATGCCGCCAGTA -TCCCTTAACATAGTGAAGATCGTTCCGGGTTTTGAACCCAGGATATTCGCTATTTCACTGAAGCCTGTTCCGTTCTTCCA -TAGTTCAAAAACAGAGGCTTTTTCCTCTGCTGTAAATGTTCGTCTCATTCAAAAAACCTCCGCAACCCCATGTTTTCACA -TAACTGTTGCGTTGACCAATTGAATCTACAGTTGCTTTTTTTAATATATCTCGCTCAAGGCGAGCTTCATTTAACGCCTT -ACGCAGTTGCAGAATTTCAGATTCCAGTTCAGCCACCGTGCGGGAACCAGGAGTACCGAGCCCTTTTCTGGCGGCGGTAA -CCCATTGTCCTAAAGTGCCTTCAGGAAGAGATAATCGGGAAGCGCCTTCACTGATCGAAAGTTGATTTTCAAGAACCGTT -CTGACAGCTTCGGCTTTGAACTTTTTAGAGTAACGTTGGGTTTTTCTGCTCATTATTAGCTCCTTCTGATGCCATTCTAT -TTCAGGAAGGAGTGTCCGTTAAACTCAGGCTACCTCAGGAAAAACCGTCCTGAAAAACCAGACGGCAGACGGGCTGTATT -ACGCAGTCAGGTACTTGAGCTACATGGCATCAGCCACGGTTCGGCCGGAGCAAGAAGCATCGCCACAATGGCAACCCGGA -GAGGCTACCAGATGGGACGCTGGCTTGCTGGCAGGCTCATGAAAGAGCTGGGGCTGGTCAGCTGTCAGCAGCCGACTCAC -CGGTATAAACGTGGTGGTCATGAACATGTTGCTATCCCTAACTACCTTGAAAGGCAGTTCGCCGTGACCGAGCCAAATCA -GGTGTGGTGCGGTGATGTGACCTATATCTGGACGGGTAAGCGCTGGGCGTACCTCGCCGTTGTTCTCGACCTGTTCGCAA -GAAAACCAGTGGGCTGGGCCATGTCGTTCTCGCCGGACAGCAGGCTTACCATGAAAGCACTGGAAATGGCATGGGAAACC -CGTGGTAAGCCCGTCGGGGTGATGTTCCAAGCGATCAAGGCAGTCATTATACGAGCAGGCAGTTCCGGCAGTTACTGTGG -CGATACCGGATCAGGCAGAGTATGAGTCGGCGTGGAAACTGCTGGGATAACAGCCCAATGGAGCGCTTCTTCAGGAGTCT -GAAGAACGAATGGGTGCCAGCGACGGGCTATGTAAGCTTCAGCGATGCAGCTCACGCAATAACGGACTATATCGTTGGAT -ATTACAGCGCACTAAGACCGCACGAATATAATGGTGGGTTACCACCAAACGAATCAGAAAACCGATACTGGAAAAACTCT -AACGCGGAGGCCAGTTTTAGTTGACCACAACAGACTACCTGAAGGGAGCCGCGGTCGCCTGGCAGTTGCAGTAGCAGGAG -ATCATCCAGCCGCAGTACAGGTCACGATGACTCTGGTTAATGATACCGGCTTTGACCCCGTATTTTCCGGCTCTATCGCT -GAATCATGGCGTCAGCAGCCGTGCACACCATCCTATTGTTGTGACTGGGAGGCTGCCACCATGCTTCGCGCTTTCCCTCT -GGCGAAAAAGGGAGAAGGACGGGCCCGTCTGCCTTCACTTTATGCCAGCTTCGGTAAGCTGGGTGAGACACCGACTCATG -AAGATATCATTGATAACAATCGATCCATCAACTGGCCTGTATAACGTGGCTGCCGGTGATTAAGAAAGCTGCACCTACCT -AAGTAGTAGCAAACGCACACTTTTTAGAAAAATCGATGGTCAGAAACTGGATTAGCAATTCCGTTCCATGGTTGCTTTTG -ATTTACGTTGGCGTCTGATCATTGATTTATCCTCAAAAGCCCAACCTCATTGGTAATGAACCAGCTCCGTGAATGTCCGC -TCTGGCACAGAGCGAAATTTTTTGATCTCCCCCCTGAAATCTAAACTTAGTCATGTCACGTTTTTGGGTTTCTAAAATTT -TAACTTCGCGTTTTTCGTTGCCGTAAGGGTTATACAGAAATGTCCGTTAAGCAGAGTTCAAAATTGATTGCCGTGATCAC -GACTGGTTTGAAAGCCGCGCCCAAGCCTGTACAGCTCTGGTTTGCGTTGATTATGAACCTGTCAGCCTAAAGCAAGCGGA -TGGACGATGAGTATTGGTAATCTTTCAGAGTCCGGAAAAGTTCAGCCCCAGTCTGAACAGGCTTGCTGGCGCCAGTCCAG -TTTCATTCAGTCGTGGTTTGGTTCTTACGGCCTGTGCAATCTACCTCATTAGGCACATCGGCCTGCCAGATACCGGCTCG -GGGTGTATTTCCGCTTCCACGCTGAATACTGTTCTCAGCAATCCTGGGGTCATCACCTCTTCTGGTGTGCCTTGCGCCAT -AACATGTCCGTTTGCCATTACCACCAGTTGATCGCAGTACCGGCTAGCCTGATTAAGGTCGTGCAGCACAGCGACCACCG -TTTTCCCCTGAGTCCGGAGTTCGCCCATCAACCGCATCAGGTCCACCTGGTGATTGATATCAAGATAGGTGGTTGGCTCA -TCAAGTAATACAACGGGCGTATTCTGGGCCAGGACCATTGCCAGAAATGCGCGCTGGCGCTGACCGCCGGAAAGCTCGGT -TAACCGACGAACGGCAAGATGATTGATCCGGGTCTGGTTCATGGCGACATTAACTCGTGCATTGTCTTCAGCGGAGAGAC -GCCCCCAGAGTGACAGCCAGGGATTACGACCATACGAAACCAGCTCCTGGACTGTGATCCCCTCTGGCGTTAAATGGTGC -TGAGGCAGCAGCGAAAGCCTGCGGGCCAACTGGCGCGATGAGAGCATATTTATGGGATTATCGCCGAGAAATACGGTGCC -AGACTGCGGCATTAAAAGCCGCGAAAAACAGTTTAACAGCGTCGATTTCCCGCAACCGTTAGGACCGATCAGGGCGGTGA -TCTTCCCCGTTGGCAGTGAGAGTGAAACGTCGTTAAGTACCTTGTCTGTCCCGTAACTGACCGTCAGATTTTCAGTTCGT -AAAGTCATTTATCGCATTCTCACAAGCAACCAGACAAACCACGGCGCACCGATAATGGCGGTCAGCACGCCAACCGGGAG -CTCCAGTGGGGGATGAATAATTCTCGCCAGCAGATCGGCAACCACCAACAGCAACGCACCTGTCAGGGCCGAAACAGGCA -GCAGTCTGCGGTGACGTCCACCGGTGATGCTACGCATCATATGCGGCACCACGAGACCAATAAAGCTAATCGGGCCGCAG -GCGGCCACGCCGGTAGATGTCATGGCGACAGCTAGTAACAAAGCCCAGAATCGGGTATGGGGCACCGACACACCGAGCGT -GGTGGCGCGCGCATCGCCGAGTGCAAGGAGGTCGAGATCGCGGCAAAAACTCAGGCTCAGCGGCAGAAATAAAATCATCA -GCGGGATGGCAATCTTCACAAAGCTCCAGTCACGGCCCCATAAGCTGCCGGTCAGCCACAGCAGGGCGTTGTTCACATCC -TGCGGGCGCGAGAGCATCAGATAATCCGTCAGGCTGGCCCAGCATGCAGAAAGCGCCACGCCGGTGAGCGCCAGCTTCAT -CGGCTGGTGGGTCTTTGCCAGCATCTTCAGCAATATCAACCCCGCCATGCCGCCCGCAAAGGCCAGCAGCGGCAGCACCA -TCACGGGCAGTGACGGCATAAGAAGTAGAGCCCCCACAGAGGCCAGGCTGGCGGCATGGTTAACACCGAGAATATCCGGT -GATGCCAGAGGGTTGCGCACAATCCCCTGTATCAGCACGCCCGCCACGGCGAGGGCTGCACCGACAAACAGTGCCAGCAG -CAAGCGCGGCAGTCGGTACTCCATCAATACATAATAATGCTCGTGTCCGGCCTGCCAGTCGGTCAGCAGCGCGCGCCACG -GCACGGGGATCACTCCCATATGGAGTGATAACAGCGCACAGCCCGCCAGGGCAAGGGTGATGAAAATAACCAGCGCAATT -TTCATCCTCGCCTCCTCACAAGCCAGACAAAGCAAGGGCTGCCAATCAGCGCCAGCACTGCGCCTGCGGGCAGATCTCCG -GGGAAGGCCAGCGCGCGTGCGAGTACATCTGCCAGCAGCATCAGCGTGGCCCCCAGCAGCATGCTCACTGGCAGTACGTT -GCGCTGATCGAAGCCTGCCCAGAAGCGCGCCAGATGTGGCACCAGCAGACCGATAAACGCCACCGGACCTGCTACGCTGA -CGCACGCACCAACCAGAAGCAGCACTAACATATTGATGACCAAACGTAGCCTCGTCAGGTTCACTCCCAGCGTATGGGCG -GTGCTGTCGCTGAGGTTGAGCAGGTTCAGTTGATTCGCCAGCAGCAACACGACAGGGACTGCAGTGACCACCACCGGCAA -GAGCTGCCAGACATCCTGCCAGCGGGCGTGGGACACTCCGCCTGCCAGCCAGTAAAAGATGCCGTAAGCATGATCTTCGG -CCAGCAGCAGGGTGATGCGGGTAAGGCCCATACAAAAGGCCGACAGCGCGATACCCGCGAGGATCAGTTTGTTTCTGTCA -TGGGTATGACGAAATCCGCCTCCTGCGGTCATGACCAGCAGCCAGCTCACGCCGCCCCCGCATGCCGCGATGAATGACAG -AGAATAGCCTGCAATCGGCGTCGGACTCAGCGCGCTGGTAAGCGCCATAGCCAGCGCCGCGCCGCTGTTAATGCCGAGCA -GTGAAGGAGAGGCCATTGGGTTGTGGGTCAGGGTTTGCAGCAGCGTGCCCGCGAGCGCCAGGCTTGCGCCGATCAGAACG -GCGACCAGGCTTCGTGGCAAACGAAGGTTTTGCACCAGCGCTTCTGGTAGCGTTGGCGTGTGTCCAGGCAGCAGGGCGCG -GGTTGCATCTGCTCCGGAAACAGGAATGGCCGAGTAGCAAAACAGACTCAGCCAGAAAATAATAATAAGTGCTGCAACGG -GAAGCCCCCACAGCAGCACCGGGTGTTTTATCGCGGTCATTTCACAACGGTAAGCGGCTGATGGTGGAAGATTTTTACCG -TGTCAGCGGCAATACGCTCTGCAGCAAAAATACCGCGCATCCGCGCCCAGGTGTTACTGTCGACCGAAGCAACCTGCTGC -TTCTGCGCGGCGGTTAACATCTGCCAGAGCGGATCTTGTTGCCAGCGTTTAACAATGCTCTCTTCGCGATAGTGGGCAAC -CAGCAGCCAGGCAGGATTGACCGCCAGCAGTTGCTCCAGGCCGATGGACGGCATGGACGCACCCGCCATCGCAGCGGGAA -CGTTCAGCCCCAGAGAGGCCAGCACGCTGCCGGTCCAGGTCTCCTGAGTATGCAGGTTGAATTGCTGTTCGCGTGATGTG -CCAAAGGCCACGCGTGTCCCTTTGGGAAGCTGGCTGGCCCACTGCGCCATCCTCTCTTTATGTTGTTCCAGACGTGCCTG -CATCTCTCGCTTTTTACCCACCATTTCGCCGATGATAGCCGCAGATTGCAAATTTTCAGCGTAGGTTTCGTTGCGGGACT -TAAGCAGCAGTACCGGCGCGATTTGCTGCAAGGCGATGTAAACCCCCGCATGGCGACTGCTGTCGGCAATGATCAGGTCT -GGTTTCAGAGCGGCAATGGCTTCCAGGCTCGGCTGCGCGCGCGTTCCGACGGACTGCCACGGTTTCAGGTGCGCACGCAC -TTCGGGCAGGATGCGTTTTGCATCGTTATCGTCGGCAATACCGATCGGGATGACGTCCACGGCGGCCAGCGCATCGGCGA -ACGAGAGTTCCAGCACCACAATCCGTTGTGGCGTTTTTTCGAGTGTAAACGTGCCGTGTTCGTCCTGAACCGTGGCGGCA -AAGGCGTGGCTGATCACCAGCAGCAGGCCTGCAAAAAGAAAACGGATAAATGCCAACATAATCACATTCCAGCTAAAAGC -CCGGCAAGCCGGGCGTTAACACATCAGAACTTCAACGACCCCTGCATATACAGCGTGCGCGGCTGGCCTGCATAGATGCC -TTTGTTGTTGTCGTCATAAGAGCGGATGAAGTAGTCCTGGTCGAAGATGTTTTTCACACCGAATGCCAGGTTCAGATCTG -CCATCTGCGGGCCAAAGTCATACGCCACGCGTGCGCCCCAGAGCATGAAGCCGGGAATGCGGCCGGTACTGCCGTCGGCG -CTCTCTTTCACCGTATTGGCGTTATCCGCAAACTGGCTGGACTGGAAATCGCTGTTCAGATTGAACGTCCAGTTTCCTGG -CTTGTAGTCCACGCCCAGCGTGCCTTTATGTTTCGGGGAGAATGGTACCAGATTGCCGTAGGTGTCGCCTTTCTCGCGGA -TTTCCGCGTTCACATACGCATAGCTGGCGTAGATGGAAACGTTATCAAGCGTTGGCGTTAGCGTACCCAGATCGTAACGT -GCCTGCGTTTCCAGCCCGGTATGGCGCGTTTTGCCACGTGCAGTGACGGTGTCGTTGGTCTGGTTGGAGTCGTACTGATT -GTTAAAGTTAATCAGGAACAGCCCCATTTCCGCCGTCAGCGCGCCGTCGTCGTAGCGGGTACCGAGTTCCCAGGTTCGCG -CTTTTTCCGGTTCAACATTGCCGCTTTGCACAGCCTTGCCAATCTGGCTGTACTGTACGGTGCCGAACGAGCCTTCAGTG -TTTGCATAAAGATTCCAGCTGTCAGTCAGGTGATAGAGCACGTTCAACGCCGGAAGCGGTGCGTTATAGCTCACTTCTTC -GTGCGTGCCTGTGATGGCGTTGTTCTGGTATGACTCGATATGTTCGAAACGCATACCCGGCGTGATGGTCCAGTTGCCGA -TGTCGATTTTGTCATCCAGATACCAGGCGTGCGCCTCGGTGCCGGAACGCGTATCGCGGTCGTAAGGGCTTGAGCCGGAC -GGCAACTGCCCGCTGCTGGTGGCGGTGTAGTAACGCATTTCATGCGTTGATTCATTCAAATAGCGATAGCCCACGCCCAC -TTCGTGCGCGGAAGGGCCGATCATAAAGATCTGGCTGTAGCGTGGCTCAATACCGCGCACCCAGTAGTTACGCGGCGAGA -GGGTGATGCGTTTGCCTTGCTCCAGGTAGCCGCTGCGCAGGGTTTGGGTGTAGAACCCCTGAATGTTGAATTTATGCTGG -CTGTCTGGCTGGAACTGGTAGCCCAGGCTCGCCAGCTTGCGACGACCCCAGAAGCGGTCATACGGGCGGGTGGATTGCCA -GCGATCGGCGTCGTAATCCGCGCGAGACAGGCCACCGGGCATGTCGGCTTCACCGTCGTAATATTGCAGCAGGCTGTTGA -AGGTGTGCACCTCATCCGGCGCATATTTGCTTTTCAGCATCAGGTCGTCGATGCGGGTGGCGCTGTGCTCGCGCCAGTCA -CTGCCGCGCGTGCCGGAGTAGAGCAGCGCGGTGCCAAAACCGTTGTCCGCTGTGCCGCCCACCATCAGGTTGTGCGTCTC -TTTCGGGTTGTTTTGTGAAGAGGTTGGGCTGAGCTGACCTTCCACGCCCGCCTCGATACCAAAGTCCTGCGGAATGGCAC -GGGTAACAAAGTTCACCACGCCGCCCACGCTCTGCGGTCCGTAACGCACCGCACCACCACCGCGTACCACGTCAATGGCA -TCCATGTTGCCGAGCGAAACGGGAGCCAGTGAAAGCTGCGGCTGACCGTAAGGGGCGAAGGGGACGGGGATGCCGTCCAT -CAGGACGGTCGAGCGGCTGGCGAGGCGCGGGTTCAGGCCCCGGATGCCAAAGTTCATCGCCAGGTCGTGGCTGCCGGTGC -CGTTGTTTTCCGGCGCGCTGACGCCAGGGATGCGGTTAAGTACCTCACGCATGGTGGTTGCGCCGGTTTTGGCGAAATCC -TCACGGCGGATCACGTCACGCGCGCCAGCATGTTCAAATACGTCGTTTTCACGCGCATCACCCAGCCAGTCGCCGACCAC -GGTCAGGGCATCTTCTTTTGGTGCGGGCGCGGGCTCCAGCGTCCAGCTGTTATTTCCCAGCGGTTTTACCTGCAGTCCGC -TGCCGTCCAGCAGTTGTTGCAGGCCGCTCTCGACGTCGTAATCGCCGTGCAGGCCGTTGCTCTGCTTGCCGCGCGTCAGG -CTGGCGTCAACCGAGAGGGTAAATCCGCTGTGTGCGGCATACTGATTGAGCGCTTTATCGAGCGATCCCGGTGCGATATT -AACCTGTGCAGCAAAAGCGGAAAACGAGAGACCGGCCAGCGGCAGCAGGCTCAGGCGAATGGTGTTAACCAAAGGTGTTG -TTTTACGAAAAACGCGTAACGGCGTCATACCTTCCCCATCATCATTTTTGTTGTGTTCAGCTATGAGTCGAACGAGAAGG -GTAAAAAGGACAATCGAAATAAGAATTATTTTCCTTACAGTGGTGAAATGTTTATCCAGTACCGCGTAATAGACTGAATT -TTAACGGGAAGCGTTTGCGCGATAACGTTCAGGATCGCATCGGTATTTTTCAGCGGGAACGTCCCGCTCAGGCGCAGCCC -GGCAACGGCGGGATCGCAGCGCAGCACGCCGTTGCGGTAACGGGTTAGCGTGGCTATCACCTCACCCAGCGGTTTATCGC -TGAAGCTCAGGATGTCCTTCGTCCAGCTTGTACTCTCGTCATCCAGCGGTTTCACTGCGCCAAACTCAGAGGCGCTGAAC -TGCAGGCTTTCACCAGCGTTCACGATGCGTTTTTGCGCGGGGGCACTGGCGAGAAGCACTTCCACAGCGTGCTGCTGCAC -GTCAAGCTGCGTGAAATTATCCTGCTGGCGGACGGTAAATTCTGTCCCTAAAGCAGTGAGCTGGCCCTGACGGGTCAGGA -CACGGAAGGGGCGTTGCAGGGCATCTTTCGCGGTAGTAATGGCGATTTCACCGTACCAGAGCCGGACGGTGCGCTGATGC -GCATCAAAACGCACATCCGCCGCGCTTTGGGTATTCAGCGTGAGCAGGGAGCCATCTTCCAGTTGCTGACGGCTGACTGT -GCCTTTGGCGGTGCGGTAATCTGCCCGCAGACCTTCGCCGGTTTCCGACTGCCAGAGCTGCCAGCCTCCGCCAGCGCCGA -GCAACAGCAGTAATCCTTTCATCACGTGACGGCGGGTGAGGCGGGTATCGTGCAACGCCCGGCTGGCAACGTCGCCAGGC -ACACCGCCAAGCTGGTTGCGCAGGTTTTCAACCTGCTGCCAGGCCCACTGGTTATCCTGATCCTGTTCATACCACTGTTG -CCAGCGCGCTTCCTGTTGTGGGCTGACGCGCTCGCCGCTTAGCACGGCATACCAGTGGGAAGCTGAACGCAGCGCCTGAC -GGCGGGAATCGGTTAACAAAGGATTCATAACCCATACTCCAGACGGAACAGCAGGCAGTGCTCGACGGCTTTCGCCACGT -ATTTTTTCACGGAGCTGATGGAAACACCGAGTTTGTGCGCAATCTCGCTGTATGTCAGACCATCCAGTTGCGAAAGCAGA -AACGCTTCACGTGTTTTGCCGTTTAGCCCGTCCAGCATGCTGTCGAGGAGTTGTAGGGTCTCGAGTTGGCTTTCGCGTTC -CTCAGGTGAAGGCGCTCCCCCCTCCGGCATAAGCGCCAGCATCTCCAGATACGCTTTTTCCAGCGCGTTTCGGCGAAACA -GGTCCACCATCACGCGTTTGGCGATAGTGCAGAGGAAGGAGCGAGGATCGCGGATCGTCGAGAGCGTTTCGCTGACCATT -ACCCGCAAAAAAGTGTCCTGGGCAATGTCATCTGCATCAAAAGCAGACTGGAGTTTGCGCGTCAGCCAGCTTTTCAACCA -GCCGTGATGTGTGCCATAAAGCGACTCGAACGTTAAGGAAGCTGTGGTAGTGGCGCGGTCAGACATGCGGAGTGCATCAA -AAGTTAATTATCACGTAGTCATATTAATATGAGAATGGTTATCATTACAATTGGAAATAAAATTGTTTCCAATAGACATT -TTTAACATGTTGTTTTTCTAAGTGTTATAAGGTAGGTATAAAATGGGATGGAGCCTCTGCTTCTGGCATGTGTCGGTCAG -AATGACTCATGATGTGGTCTGCTATTATTGACATCCTCACTGCCCTAAAGGATGGGGATTTCGGTAATGCTGCCAACTTA -CTGATTTAGTGTATGATGGTGATTTTAAGGTGCTTGCGTGGCTTCCATTTCCATCAGATGTCCTTCCTGCTCCGCTACTG -AAGGCGTGGTGCGTAACGGCAAAAGCACTGCCGGACATCAGCGCTATCTCTGCTCTCCTTGCCGTAAAACATGGCAACTA -CAGTTCACTTACACCGCCTCTCAGCCCGGTAAGCACCAGAAAATCATTGATATGGCCATGAATGGCGTCGGATGTCGCGC -CAGTGCACGCATTATGGGCGTTGGCCTCAACACGGTTTTACGTCACTTAAAAAACTCAGGCCGCAGTCGGTAACCTCGCG -CATACAACCGGGCAGTGATGTGATTGTCTGCGCTGAAATGGACGAACAGTGGGGCTACGTCGGTGCTAAATCACGTCAGC -GCTGGCTGTTTTACGCGTATGACAGGATACGGAGGACGGTTGTGGCGCACGTCTTCGGTGAACGCACTCTGGCCACACTG -GAGCGTCTTCTGAGCCTGCTGTCGGCCTTTGAGGTCGTGGTATAGATGACGGATGGCTGGCCGCTGTATGAATCACGCCT -GAAGGGAAAGCTGCACGTTATCAGCAAGCGTTACACTCAGCGCATTGAGCGACATAATCTGAATCTGAGACAACATCTGG -CAAGGCTGGGACGGAAGTTACTGTCGTTCTCAAAATCGGTGGAGTTGCATGACAAGGTCATCGGGCATTATCTGAACATA -AAACACTATCAGTAAGTTGGAGTCATTACCGACCATGTTTATTTCATACATTGTGGGTATTGTTCTTATTATCGCCGCTA -ATCAATAAAATCCTGCCCCATATCTACATGGGGCAGTTGTTCATTCTTTTAGTGTGGTAATTCACACGCCAGCAAAAACT -CTGCCGTTCCTTCATCAACAATCAGGTCCGTGACATATCCTCCCAGCAGGGCACCCAACGTTGCGTCATAGCCTCTTTCC -CCACCAGCAAGGAAGATCTTCCGTTCAATCTGCCTTAGCTGAGCCAGACTGATTCCCAGAATACGCTGGTCAACATCAGC -CACGACGGGCATCCCTTCCTTGTCATAGAAGCGACCACAAATGACACCTACTGCGCCTAAATCCCGATACGTCTGCATTT -CCTTCTTATTCAGCACGCCCACCCGAATCAGGGGATTTTCATCAAGCGCGTTACCCACGACAAAAAAGGCTTTCGTACAG -CGAGTCAGAACGTCAAAATTCGATCGAATAATAGGCTCTGCCTGTAACTCCATGGCCAGTCTGGCGCTTGATACCACGGC -GGGCACGTGCAGCGAGGCGACACGGCCTGAAAGCTTGTAGGCGATTTGCGATGAGGATTCAATGATCGTCAGGTCTGGCT -GAGATGGCATGGAACCGAGCATCTGTATAACGGTGACATTTTTACATGACTTCGGCGTCATGGTTTTGCTCATCTGATGG -ATTGTTCTTCCCCAGGCAACCCCCAGCACATCACCATTCTCAATCACCTGATTCAGATACATGCCACCGGCACGTGAAAG -GCGAGTCCGCATCAGCTTTGTATCATCACGTTTTCCGGCATGTTCGCCATCCGGCACGATGATCACTCTCTGGAGATTGA -ATTTATCGCGAATTTGCAAAGCAGCGTCGATAGAGCCAAAGACATTCACATCCAGGTTGATATGAACCAGTCCATTTTCC -CGGGCTGTTTGCAGGTATTTGACAACCGTGACGCGGGACACCCCCATGATAGCTGCAACTTCAGTCTGGCTTTTGCCTTC -CTGATAGTACAGCCATGTTGCATGAAGTACGGGATCATCATTGAACAGGCTGCTGTTTGTTTGATCTCTATCCACTTTTG -TATACCTGTATTAAACCGGGGAAATGCTCATCTTAACCCTGTTTACCCGGAGAGTTGATGCAGATTGCCAGTGGCATGAT -TTTATACAGATATTTTATTCTTTTACATGAAATAAACCAGCATACCATTTGAGCGATCGCCCGCTGTTCCCCCATACTGT -AAAGCCGGAGACATGCTCCGGCTTTACAGTATTACTGAGAATACACCCATCAAGCATAATCGAAGGTTCAATATCGCCCC -TTTTTGATCGCCAGCGATTCGTCACCGTGCAGACGGTTGCCGTCACTCACTAAATTATGGGGGACAGTGAACAACAGGTT -GGCTCACTGGCAAGAACCCGATTATAAAACTAAGCTGGCGAGCAGAATAAAAATCAGCCCACTGATGGATAAGAGTGTGG -ACATCAGCGTCCAGGATAACAGCGTTTCTTTGGTGGTCAGGCCAAAAAAGTCTTTAATCATCCAGAAACTGGCATCGTTA -ACGTGAGAACAAATACAGGATCCGGCACCGGTAGCCAGCGTAATCAAGGCCAGGTTGGTATTGGGATGTACTGCCAACAA -TGGGATGACCAGACCGGCGGTAGAGATCGCCGCGACGGTGGCTGAACCCAGACAAATACGCAGGAATGCGGCCACGCCCC -AGGCCATCAGGATCGGGTTAATATCCATACCCGAAACCAGGGTGGAAATATACTGACCAACGCCAGAGTCGATGAGAACT -TGCTTGAATGCACCACCACCACCGATAATCAGCAGCAGACCGGCAATACCCGCGATAGCTTTTCCGCAAGAATCCATCAG -GTCAGGGATTGTTTTCCCGCGCCCCAGGCCCATGGTATAGATCGCGAATAGCAGTGAAATCAGCATGGCGATCGTTGAAT -TACCTAAGAACAGTATCACGTTGTAAAATAAGCCTGAATCCGCGGCACTTTTGGCATGAGTCATCTGGATGATGGTGACA -ACCGCCATCAGGATCACCGGCAGCATTGCCGTGAGAAAACTGATCCCAAAGCCTGGCATTTCGCTTTCGCTGAATCGGCG -GGTCGCGCCGAGAGAGGCTATATTCCCCTCTTTTTTAAAGGCGTCCGGAATAATGCGCTGGCAGAATTTATTCAATACCG -GGCCGCAAAGAATAAAGGTTGGAATGCCGACAATGATACCGTATATCAGTACCAATCCTACATCAGCGCCATATTCCCTG -GCGATAACAGTCGGGCCGGGGTGCGGCGGCAAAAAACCGTGTGCGACCAGCAAACCAGAAAGCATCGGCACACACATAAA -CATCGGTGATATTTTTGCTTCACGGGCAATAGCGAATAAAATAGGTACCAGAAGAATTAAACCGACTTCGAAAAAAAGTG -CGATACCGACAATAAACGCCGAACAGACCACTGCCCAGTCAAGTTTATTTTTCCCGAAATAATTCAGCATGGTCAGCGCT -ATTCGCTGCGCACCACCCGCATCGGCCAGCAAGCGACCGAGCATAACACCGAAGCCAAATATCAAACCAATATGGCCCAG -CGTACCGCCAAGTCCGGATTCGACTGAGGTGACGACTTTACTCAAATCCATACCACTGGCGATGGCGACAGCAATCGAGA -CAATAATTAACGAAACAAACGTATTAAGCTTAATTTTTATGGTTAAAAGCAGGAGTAAAGCAATCCCTGCCACAACGATA -ATTAGTGGCATAACGTCCTCTCATAACAGGGTAGCGACCCATCATTATCCGACTGAGCAAATAACGAATGATGCAGAGTC -GGATAATTCAGGTGTCTGGATGTTTTTATTTATGCTTTCAGTTTTTATTCATAAAATCGCGCAAAGCCGCGCCAATTTTG -TTTACATCATAAATACAACCGGTCCATGTCCCACCACTCACGGCCTGAAGCATTGCCCATAGCCGGGTATCATCTGGCAA -TTCAGGATCGGGAAGTAAATCCTGATGGCTGGGTCTGGCATTTAATATTGCAGTTGCCTCCTCCTGTGAAGGTAATTGTT -CATCGCTACGGGTTCCGAGGAAATTGACTTCGCCGTGAAGCTCGCGACAATCAATTTTAATTTCAATTAAATCCCCGGTG -CGTAATTTACCGATGGGGCCTCCGGCCAGCGCTTCTGGCCCCACATGGCCGATGCACGCGCCAGTAGAAACGCCCGAGAA -ACGTGCATCGGTGATTAACGAAACATGCTTACCGTATGACAGATGCTTCAGGGCACTGGTAACCTGGTAGGTTTCTTCCA -TCCCTGTACCTGAAGGTCCAACGCCAATAATGACCAGAATATCGCCCGCCTTGATCTTGTCATGTTTGATATCGTAAATC -GCACTTTTCTCGGACAGATAAACCTTCGCCACACCTTTATGGTAATAGATACCTTGCTCATCAATCATCGAGGGGTCAAT -GGCGGTGGATTTGATCACCGAACCTTCTGGCGCAATATTGCCCACCGGGAAGGTGATAGTTGAGGTTAATCCGCGCGCTT -TTGCTTGCTGCGGAGACATGATCACTTCGTCAGCGTTGATTTGTTCCTGATCGAGCAGGAGTTGCTTGAACCGCTGACGC -CGTTCGGAGTGCTCCCACCAGTCGAGGTTTTCTTTCAGCGTGCTGCCGGTAACCGTCATAACGTCTTCATGCAACAATCC -GAGGCTGCGCAGATGCAACATGACTTCCGGCACACCACCTGCCATAAAGGCATTGACCGTTGGATGATAAACCGGGCCAT -TAGGCAGTACGCTCACCAGTCGGGGCACGCGCTTGTTGATGCGGATCCAGTCATCAACGGTCGGGATATGGCAACCTGCC -TGGTGAGCAATTGCCGGGATGTGTAACAGCAGGTTTGTTGAACCACCGAACGCGGCATGGACCGTCATCGCATTCTCTAT -CGCTTTATCGGTGAGAATTTCCCGGGTGGTGATGCCTTTTTGACTCAGGTTCAGCGCAGCTCGCGCGGAAGCTCTGGCGA -TCTCCCGCCACACAGGCTCACCGGAAGGGGCCAGGGCTGAATGTGGGATTGCCAGTCCCAATCCTTCGGCCACCACCTGA -GATGTCCCGGCAGTGCCCAAAAATTGACAGCCGCCGCCGGAAGAGGCACAGGCTTTACAGCCCGCACGGCGTGCGTCCTG -TAGAGATAATTCGCCATTGGCGAAGCGTGCGCCAATGGTTTGCACCTTGCCGTTGTCTTCTCCATCCTTTGCGGGCAGCG -TCGCGCCGCCGGGGACCAGCACGGTTGCGATGTTGTGCTGCGCGGCGAGTGCCATCATGGTGGCCGGAAGCCCCTTATCG -CAACTCGCCACACCAATAACTGCTTTCGCGTCGGGCAGAGAGCGAATAAGGCGGCGCATTACCATCGATGCGTCATTTCG -GTATGGTAGCGAATCAAACATCCCCGTTGTACCCTGAGTACGCCCGTCACAAGGATCGGAGACGTACACGGCATAGGGCA -GGGCATGGTTGGCTTTAATAACCTCGGCCGCCGCTTTCATCTGGATGTCCAGTTCGTAATGCCCCTGGTGCAACGCCAGC -GCCACGGGTTTACCGTCTGCGCCGCGTAAGCCACCGAGTGTACTGAGCAGTAAAATACCGTCCCGATCCAGCTCGTCCGG -AGACCAACCCATTCCGGCATTCATGGTCATACCGAACAGATCCCCGCTCGGGCGGTTGATAAGCATCTCTGCGGTTAATG -GGAGTTCGCCGTCCGGGCCATCGGCGTGCGTTCTGACGGTGTAAATATCGTGGCTCTCGTCAGCAAAAATATTGCGAACA -GACATGAGTTTCTCCTCAGACTGGTAAAATGCCCTGCGCGGTAAGCAGCACGTGGACTTTATCTTTTGCTTCTTCAGATG -CTTCAAGAATCGGTGGTAAGCAATATGTCTCTACAGGCAGCCCGACACACTGCATGCTGTATTTGATCAGTGAGACAAAC -GGTGTTTCGAGGGCGTAAATAGCGGGCAGTTGTAGTAGTTTTTTATTCAGCGTCGCAGCGGTCGCCAGATCGCCTTCACG -CCAGGCGCGGTAGATGCCGACGGAGAGTTCCGGAGCAAAGTTAGCGCTGGCGGTTATCGCACCGTCGCCGCCCAGCAGCA -TCGTATTCAGCAAATGATCATCGTAACCGCAGAATACCGAAAACGACGGGCGTACCGACTTAACTGTGTTGATCATCGTA -CGCAAGTGACCAACGCTGTCGATGGTGTCTTTGATGCCAACGATATTCTCGTTTTGCAGAGCCAGACGCGTCACGGTTTC -CGGGGTTAAGTCCTGACCCGTCAGATCCGGAAAGTTGTACAGGATCACCGGTAGGGTGACGCTACGGGCGATCTGCTGGT -AATAGTCGTCAAGATTTCGTGGTGCGACTTTCCAGTAGTAGGGGTTGATGGCGACGATACCATCAGCGCCGTAGGCTTGC -GCATGCTGCGCCAGTTTGACCGCTTCGTCAGTGGAAGGGGAACCGACGCCAATCAATACCGGCACTCGCCCGTCGACAAT -GGTTACAGCTTCTTCGGCGAGTGCCATGCGCTGGGCTGTATTCATTTGGCTAAATTCACCACCGGTACCCAGATAAAACA -GCCCGTCGACCCCTTTATTAATCAGGAAGTCGGCAACTTCGCGCATTGCCTTTTTATCAAGGGTTCCGTCACGATGAAAC -GTGCTGGATACCGGTGGAATAATGCCGCTGAATTTTTTCATTACCTCAGTTTCCTTTTCGTAAGTGCTCATTTTCGTTTC -TGTATCCCAGCCCATATGATATTTGCTCAGCGCATTTCCGGAGCAATTCCAGATAGCTGTCTATCTTATTTCCTGAATAA -ACTACCGGATCGCCAGAAAGTGAGATTGCATAGTTAACTCTGTTATACATATTGAATACCGGCATACTTAAACATACCGC -CCCATAGGTTGATTCTTCGTTGTCTATGGCCCATCCCCGAAGGCGTGTTTTTTGTAATTCTTCCAGAAACAATTTTTTAT -CGGTAAATGTATTGCGCGTATGTGGAGTTAACGTGAGTGCTTCTAAAAAATAATCCAGTTCTTCTCGTGTCTTCCAGGCT -AATAATGCCTTACCCAACGCGGTAATATGCAACTCAAGTTTTTTGCCAATCCAGCTTTTGCTCGTCGGTACAGAGTCCGG -ACTTTCGATCTTGTCGAGATAGATAGCCGAAATGCTCTCCATCGCCCCAAGATGACAAACCAGTCCACTTTTCAGCGACA -ACTCCTGCATTGGCCGCTTAGTCACCTCAAATATATTTTGACGGTGTAACGCCTGACAACCCAATTCGTAGTTTTTTATT -CCCAGTGAATAGTAGCCGTTTTTGTTTTTAATTAAGAAACCACAATCCACCATTACATTCAATAAATTAAGCAGGCTGCT -TTTGGGGTACTGGAATTTATTTAATAACTCCATATAACTTGCCATACCAACCCATGCAATGTGGGTTAATATTTTTTCAG -CACGGACTAATGAATTACACCCTTTGCGAACCATAATGGCTCCTCCTTGCTCATGGAATAAATGGTATCGGCATTACATA -GTGGAAAATATGCTTTGTTCAGCATGCTGAACCGTAATGATGTGATTAAATGTGATCTTGTACACACTTTGAATAATGAA -TCCAGAACAGCCACATTTAGTGAATGAGAATAAAAAGTAGATGGCGTGTTGTTGCAACATCGTAGTGTGTGGATTGCGCC -TAGAGCTTCTTTATTCGTTCGAGCGCATCGCCAATATTTTCTATTGGGTGCCATTGATTATTTTTGCTTGAAATCCCTCT -CGAATGAACTTACTTATCACTTTATTGAATGAGGTAAAAACAACTGACATCCGGCTCGCTGATAACGCTGTGCAATAGTC -TCAGGTAACCCGCTGTCACTGATGATCGTTTTAATACATGATAGTGTTGCTACAGCATGCGGCTCAACGGCATCAAATTT -TGAGTGATCGGCCATGAGAATAACTTCACGCGAGCGTTGAATAATCCGTGTTTTCACCCCGACCTCAAACATGGTGGCAT -TGGTGATCCCCGTCTCCAGCGACAGCGCATCGCAGGAGATAAACGCACGTTCTACGGAAAAGGCATTGATCATCTCCAGC -GCCAGACTCTCTCCTACCGAAAAATAACCTGGGCGAATCAGTCCTCCGATAATGTAACTTTCCACATGGGGAAAACAGCC -CAGTTCATTGGCGATTTTAATGTCGTTGCAGATGACCTTTACCCGCGCATCGGCCAGGCATTTCGCCAGTTCGAGGCAGG -TTGAGCCGGAGTCGAGAAAAAAGCAGTCGCCATCTTTGATCATTGTTCGGGCAAGGGCAGCTATTTCTCTTTTCGCCACA -GATTGCAATGTACGTTTCACGTCGAAGACGTACTCTTTGTCGTCTGTACTGTCGTCGAAGTCCAGGCAACCGTGACCGCG -GATCATGCCTGGATACTGGTTGACAATATACTGGAAATCACGACGGACAGTCGCTTCCGCATAGCCAAAAAGCTCCATGG -CCTGCTGTGTGGAGAGGTGACGATGTTGCCACAGGTAGTGCAGCATCTGTTTGATACGGTCAGGTCTCTGTTGGCTCATC -AGAAACAATCTCCTCTTACAGGGTGGCGAATTGAGCTAAGGTCGCGCGATAGTCAGATGAAGAGAACAGGGCGCGCCCAA -TCACCATATGTTGCGCCCCAGCTGCTGCCAGTTGCTGTGCAGCTGCCAGCGTAATTCCACCGTCGGCCCAGCACTCGGTC -TGAGGAAAAGCCGTGCGTACTTTTTGGATTTTCTCGCACATGGAGGGAATAAACCGCTGTCCCTGCCCATCGGGCTCACT -GGTCATCACCATCACTCCGTCCAGCTCAGACGCCAGATATCGCCAGGCGTCGATCGGGGTTGCCGGATTAAATACCAGTC -CGGCTCGTGCGCCGGTATGGCGGATCTCAGTTAACGTTTCCGAAGGATAGTCCAGCGTTTCTGCATGAACGAAGATCCAC -GCGGGTCTGATTTCAGCCAGCGCGTTAAACCAGCGCTGTGGCCGGGCAAGCATGAAATGAAAGGACAAGGGATGAGGCGT -CTGTCTGGCGACGGCCTGCACCGTTTTCATCCCAAACGTAATGTTGTTAATGAAGCTGCTGTCCTCAATATCCAGATGCA -GGCTCCCAAAATCCAGATTGTCCAATGCCGTCAGCTCACGACCATAGTGCAGAGGATTTGCGCTGGCGAGAGAAGGGTGC -AGGATCATAAGCGCCTCCGTTAACCTGATACCAGCGCAAACAGTGCATCGTCTGTGCTGGCATTTCCCACTGCCGTTAAG -CGTTGTGGCGAATCAATAAACTGGCTGATGCGCTGAATGGTCAAAATATGTGCGTTGGCATCCGTGGCGCTGACGCAGAG -AAGCAGCCAGACGGGGTCGCACTCCTCGTTACCAAAGGCGACCGGGGTGCGTAGCGTGGTGATACTGACCTGATTATAGT -TTGCGCCTTGCTCTGGTCGGGCGTGAGGCAAGGCGATTCCTGGGGCTATCAGATAATAAGGCCCCCAGTTAAGGGTATTT -TCGATGATCCCATTAACGTAGCATGGCTGCGCGGCACCATAGGCTACCAGCGGGCGGGTGGCGATTTCCACGGCCTGACG -CCAGTCGGTGGCTTTACGTTGTGCCTGTACCCATTTAATATCGTTAATCATCCGTCGTTGACTCCATGCCGATTCGGGTT -AATCTGGTAGCGATCCCCGTCGATACTTTTGACGAAGGCGGCAGGGATCGCAGAAGGGTTATTGCTCTTTGCCGGGGATA -AGCGCTCTGCTTATCCCCATCTTATCGGCGTATATGATGCACTTTCTCCATAAACTGACTGACTCGCGCCTGGTCAACGA -AATTGGCAAAAACGCCGTCCTTTTTAAAGGTGGTTGCGGTCACACAGCCATCGGCGATACTGAGTTGTTCCTCCACGTTT -TCCAGGCAGACGCCCGTGTTGGCCAACACGACGGTGTCAGGCACCGTTTCTTTGACCCGTTTTAACAGCGCGCTGTCGGT -ACGCGTCCCGGCGGTCAGGCCAGAAACACAGAGCGCATCAGGATGGTTGTTAAATACTGTCGATTTAGCAATAGAACAGA -TATCGCGATTGCCCAGATACACGGCGGCCTCTGGGACGATATTGAACAAGGTTTTCACTTCGCCTGCACCAATCCGGTGT -TGATGACGGATGGTCTCACCGACGTTAGTGTCCCAGACGCCAAAGTCGCTGGCATAGGCACCGGTAAATATCTCGCGGAT -AAACTTAGCGCCGGTAGCCATCGCCAGGTCGAATGAGGCGACCGGATCCCACAGAACATTCACGCCAAACGGGATGCGGA -TATCGCTCATTAATTGCCCGATGATTCGTGCCATTGCCGCAGTGGTTTCCGGACGCACCTTCGTGAGATAGGGAAGACTA -AACTCGTTGGAGAACATGACTGCATCCACCCCACCATTTTGGAGCGCCATCAGATCGTCCCAGGCTTTGTCGATAACCCA -GTTCATCCCCAACTGCGCATCAAAACTCGGGTCGCCGGGCAATGCACGTAGATGGCACATGGCGATGACCGCTTTTTCCG -TCCCAATAACCTCTTTCAGCCAACTCATTGAAAGTACTCCTTATTCCGATAATTCACGTTTACGTAAGAACAGCACGACG -CTGGCGACAATACCGACCGCCACGACAACGCCAATAATCCCAAGCGACATCAATTCAGAAATCGACCAACCGAACATATT -GCCCACGGACAACGCTGAGATTTGCGCACTTTCACCGGCAAAACTGAAACCGCCTTTGAGCGCCATTTCAGTGAAGTAAG -GCGCGAACTGGGTGGCGATCAGCAGGACGGTAATCATCACGATGACCCCGCTTATCAACGTCCTGACCAGGTCTCCGCGG -TGGATAACCGTAGCCATACAGATAAAGAACGGTGCTACCGGCAGGTCTGCGAGGGGTAACACTTTGTTGCCCGGTAAAAT -GCTGGCCAGAATTAACATAATGGGTATCAGTAGCAGACCGACAGCAATGGTGGTTGGATGCCCCAGCGTCACAGCAGTAT -CCAGACCGATATACACTTCACGTCCTTTGAAATATTTCTGGAAGAACTTTCTTGCACCGTCGGAGATGGGCAGCAGGCCC -TCAACAATCAGGCGGATCATGCGCGGGAACAACACCATGATTGCCGCAACGGTAATCATCAGACTGGCGCAACCTTTAAA -GCCTTCACCAGCCGCCAGGCCAAAAATCAGACCGAGCACTACGCCGATAATCACCGGATCGCCGACCATGCCGTAGCGTT -TCTGGATCTCCTGAGCATCGATATTGCGTCCCTTCATGAAAGGGATTTTTTCATAGATAGCATCAAGTAGAACGAAAAGC -GGTACTGAACTGGAACCGTAGCCTTGCGGTATCGAAATACCTTCCAGCCCGACGATGTTCTGTACCCGTTTTGCCGTCCA -GTCGGCCATTTTTAACGATAGCGCCGCATGGCAGATTGCCCCCAGCACACCATAAATCAGGCTACCGGTCATAAGCTGGA -CCACCGTACCCGTAATGGCGTAGTGCCAGTAATTGTAAATATCGACGTTCATCGTTTTGGTCAGACGGGTGACCAGCATG -GCGACATTGAGAAGAAAAATAACTGGGATAATCATGGCGCCAATGGCTGTCGCATAACCAACGCCGGAGGCAGGGCCTGC -GCCAACGTCAAAGACATGCAGGGCTAGGCCGAAACGCTCAATCATCACTTTGATAGGGGGACTGAGGCTGTCGATCGCCA -TGACGATCACCAGTCCCATACCGACAAAACCAATCCCAACCGTTACCCCTGCCTTAATCGCCTGCAGCCAGGGGATGCGG -AAGATAAGGCCAATCACGATCATGATGATAGGGACGAAAACGGTACCGCCGAGAGACAGGATGTAATCAAACATAATGCC -TCCTTTTATTGAGTTAACAGAGCCTTGATTTGTTGTTTTAACGCGTCGTCGTTGATCCCTGTGAGCAGGGCGGCGCCATT -AAGCGTAGGGATGCCGTAATCACTGTTGGTTCGCATGGAGGTTACAATAAGGTCCATACCGTTACAGTTAAGAGGGATCT -CATTCAGACAGCATTGGGCGGTAGTGGCTGAAATGCCCTGTTCAGTCAGGAACTCTTGCAGCTTGTGTGCAATCATGGTT -GAAGTCGACATGCCGGTACCGCATGCCACAAGGATCTTTTTCATAATGGATGTGCCTCTTGTGTAGTGCCTGAATCAGGC -TCAACGGGGAAATGTGCTGCTGACATACCTGCCAGAGCGGTCAATAGGCGGATGCAATCAGTCAAATCACGCAGGCTGGC -AACCTCCGCCGGAGAATGGGTATAGCGACAAGGAATAGAGAGACTGGCGCAGGGAATACCATCCTGCTCAACCTGGATAT -AACCGGTTTCTGTTATCACGCCGGGAGCCACTTCTCGCTGCACCGGAATGTTGTGTTCAAGAGCCGTCTGTTCCAACATC -CGTATCAGGCGAGGAGGCGTGATTAATCCGGCCAGCGTTCCCCGACCATGGTAGTTCAGGCAGGTGATCCCAACGCCCTG -ATTAATCCTGACCTCGGAATAATCGTGTAAATCAGGGGTGTCACACGATGGAGTGATATCAATACCAATCGCCAGGTCAG -GTTTTACACGGCGTAATACGGGAACAATGCCGCGGATATTAAATTCTTCCTGTACCGAAGCCACCAGATAAACGGCGATA -TCAAGCTCCATAGTACTGATAGCATCCGCTACACCGAGCAGGGCAGTACAGCCTAGACGATCGTCTAGTGCTTTACTGCA -CACCAGATCGTTTGCCAGGAGTTGCGGCGGGTTATACAGAGTGACAGGCGTACCGACCTGAATGCCCATCCGTATAGCGT -CGTCTTTGTCTTTGGCACCAATATCAATCCACAGTTTGTCGACAGAAGGTGACTGCGTGCGCTCGTCGCCTTTGGCAAAG -TGGTAGGACTTAATGCCGATACACCCCATGACTGGCCCTTTGTCCCCGGTGAGGGTGACGATGGAACCAGCCATAGTGAC -CTGCGCAGGACCGCCTACGCGTTCAAAGCGTAAAAATCCAGACGGCTCTATTTTGCGCACCATAAAACCGACTTCATCCA -TATGCGCAAAAATCATCAGTCGCAGCGCATCGGGTTTATCACTACCGTAGCGCGCGACGACATTCCCAAGCCTGTCTCGC -CAGACCTCTTTTGCCTGACGCCTGAATTCGCACAGCATGACGTCAGCGACAGCGTTTTCGTGTCCTGAAATCGCATTGTG -CTGCAAAAGCGAGAACAGGGTTTCCTGCACAGAAAATGACATAGCTATCTCCGTAGACCGTAAAACAATCACTCGTTGAG -CGTTTTATAGGCGCAGACTGGTCGAATAATTGTGAGAACGTTCACGTGAAAACGCGCAAAGCTGAACAAATAAAAAATTA -TGTGAGCCGAGTGGAATAAAAGCGCTCAACGTTTGTGAAAGTTACGGGCTGGAGAGACCAGTGATTATGGTTGAAATAAT -GAGGATGAATAAAACGCGGTAACTGTTATAGCACCACTTTGTTGCAGGACGCTCCCTCTTCATTACGTCCTGCACGTGGA -TACCCCAGCATCTCCATCAGCGGATCTTAGAATGTAATGGCGCGTGGCAGGTCGTTGGTTCCCAGCATAATGTAAGAAAA -CATCGGATCTCCTGAATAGATTCAGAGGGAGTATAGATAATCAGCTCAAATCACTCTCCGCTTTATGAGCCCAGGCTGGC -ATTGCCGTCAGATAACGTTTTGCACGCTTATGTGCTTCCTCCGGGCCGACTTTTTGCCAGGAATCAAGGAAGCTGGCTAA -ACCTGATACCGCTTCTTCCCAGGGTTTGAGATTGCCGTTGCTGTCGCTGCATTACGCACAATATTGATCACTGGCACTGT -GTGCATCTGGTGCCGACATCGGCATTCCGCAAGCCTGACAGAACTGTTCATGTTGTGACATATGATGCTCCTTATGGTGA -CATCTTGATTAATAAACATACTGAATATGTATTGTGCAGGTGATACATCAGATCAAAGCAAAGGTAAAGCCTCGATATTG -CCAGCCAGAAATACCGGGAACCTGTTGTTACCGGGCGATGAGTGCGAACACGCCCCAGCCAAAGCATTCCCGCGCGTAGG -TCACGTAGCGTTTCGGCGCGATGTTTAGTTCGGCCCTGACTTCGGCGGCGAAGTCATCGTCAGGATTCGCTTCCAGCCAG -CGGCGCATGGTCAGCCATTTTGCGGCTTCATACCGGTCCCAGCCTTCCTGGTCTGCCAGTACCATTTCCACCACGTCATA -GCCGAGATCGTCGAACGCTCCGACAAGTCCTGGCAGCGTCAGGAAATCGCTTGTCGAGCTGACGCCGCAGGCCTGGGCTA -TTTCTTCTGTTGCTGGTAGCTGACGCCAGTAGGGTTCGCCGATAAGCATGATCCCGCCCGGTTTCAGGCTTTGCGCTAGC -AGCTCCTCCGCCCCGGCAAACCCACCGGCAATCCATGTCGCGCCGACGCAGGCCGCCACGTCACATTTTTCATTTGCGAC -GTAACCGGCCGCATCGTTATGAATAAAATGTACGCGTTCGCTGACGCCGAGTTCTTCCGCGCGACGCTTTGCCTGCGCGG -TGAAGAGCGAACTCATGTCGATGCCAGTCCCCGTAATGCCATGATCCCTGGCCCAGGTGCAGAGCATCTCGCCCGAGCCG -CTGCCGAGGTCAAGAATGCGGGTGCCCGGCTTCATGCGCAGCACGCGACCCAGCGTGGCGTACTTCTCTTCGGTGAACGG -GTTATGGATGCGGTGTTCACTTTCGCTGATGGTAAAAATACGTGGGATATCCATTATTTAATTCCTGTTATTGGGTTAAG -CCTTAAAAAGGACACAACAAGATTGTTATTCACGTCAGTGCTCCGGTTTCATCAGGGTCTGCGCACCGGATGTGGCCGGT -CAGGGTCATGGGCTGAGCGGTGAGTGATTGCATCATCCAGCAGGCTTTGTGCTCCTCCGGGATGGGATAAGGTGCCGGAT -AGCCTTTGTCTCCGGCACAGGGTTCGAACCCATGTCGGGGGTAATAGGTGGCGTGGCCGAGAACAAAAACCGTCTGGCAG -CCCATCAACCTCAGGTGCTCGATGCCAGTGCGTATCAACCGTCCTCCCACGCCCATCCCTTGGTATTCCGGTATGACCGC -CAGGGGAGCGAGGATGTGCATCAACGGTGAATCCATTTCTCCTTTGAAGGTTGCCCGGGTAAATAAAATATGCCCGACGG -CTTTGCCTTCATACCGGGCTAGCAGCGATAACGCGGGGCGCGCGCTTTCATCCTCAAGTAAAGAGGCCACTAAATCGGCT -TCTTTGCTGAAGCCAAATGCGCGGGTTTCGACTTCCCGGATATCACTGGCATCACTTTTATCTGTGATATGAAAAGTGAA -GTGGTGTACTGTCATAGAAACTCTCCTTAGCGATTATCGAGCTGAGCGCGAACTTTATTCAGCTCGGTGGTGTTGATTCG -ATAGGGCTGGCCATTGACGGACTTGATAAGTTTTTTGGTTTTGAGTTTTTTGAAGACGGCGAGCGTGCAGTCGGTCAGCA -ACAGCCCTTCGCGGCTGTAGCATTCAACGGAAGTGACGCGGCCTGAAGAATCGCGGACGTGCGCAATACGTCTACCTTTA -GCGAGAACGTGTAAGGTATGTTGTTCCTGACGGGATAAATTCATACTGAAGAACCTATTTAATCATCATGTGCAAAACGT -GCAAACACACCGCGGTGTCCGCATTCGATTTCGGCGCATTGATAATCAGTCCGGCCTGAAAAGGTCGGGGAACTGATTAT -CGGATGATTACATTCTCCAGCATCAAAGCCTCGGGTTGAGTTGAAAGGTATTTACGGAGCGAATATTAACACGTAGTTAT -AGGAGGGATATGTTTCAGTAGAAAAAGTGTGATGTACTTTGGAAATTGAATGCCAACCCATTTACTGGAAAAGGCAGATG -ACACTGACGAATGCATGTTGAAGTACGCCTGAAATGGCCTCATCGGCTTTTCCCTTCGGGAGATTATTCTCCTTTTGTTA -AATCCAGAACATAAATATGCTCACCCATCTTCGATGCTTGAAAAATTGAAGCCAATCCTGATAAGTAATTTTTTTGAAAG -GGTATTTTCCGGATTCACACCGGCTTTGATGAGTGAAAAACCGTTCTCTTTTATTCAGTCAATCGTGGCGGTAATTGCTT -CAATTGCATATCCCTGGCGAGCATAAGCGGGACTGATGGTATAGCCGAGCCAAAACACATCGCATTGCTGACGTAAATAG -ATATCACCAATCAAAACCTGCGTCATTTGTTGACAATGGCCAATTGAATATCGCGAGCAAGTGTAAGAACTCCCAGCAAG -ACCCTGTAAATAATTCTGTGTAACTGCCCACGATTAAAGGTGGCCGCTCAGGCGGTCACCGTATTCGATAATAAATGGGT -CTGGAAAAAGTGCAGCATCTGGCAGCGTAATGCAGGTAGCCCAGTTCAACTCTCACTACCAGTATGATCCCAAGTTCGAG -CGCGGAATGTATCTGTATGAGCATCGTCGCTGTTTCAATAACATCATCGACTACTGTAACTCACTTTGCTATCACGGTAA -GTTGCAGCCTAAAAGAGGGATGGAAAAAGGACGATTTTCCCCGCAATGGGATATTTACATATTGATGGTAGAGGCATGAA -GCCAAATGGAGGGAGCCGTCATAACCCTCTTGAAGCTGAAACAATAGCAGCATGGCTGGTGGCACATAAGGATGATATAG -AGCGCCATTACGGGGAACCACTGTACAAAGTTGTTGGTGTTGTGACGCCATTTTCGGCGCAGGTTAATGCTATCAAAATG -TCATTGCGTAAGCTGGAAATTAATGGCAAAGACGAGCAGGGTTTACTGACAGTGGGGACTGTGCACTCCTTGCAGGGGGC -GGAAAGGGCGATTGTTCTCTTTTCTCCTGTCTACTCAAAACATGAAGATGGCAGGTTTCTTGATAGCAACAGCACTATCC -TCAATGTTGCTGTCTCACGCGCTAAAGATAGTTTTCTGGTATTTGGCGATATGGACCTTATCGAGATGCAGCCCGCATTT -TCGCCGCGAGGGTTATTGGCAAAATATCTCTTTTCTTCAGATAATAATGCGTTGCAATTTGAGTTTCAGAAACGACAGGA -TTTAATTTCCGCACATACACAAATTTCAACGCTGCATGGTGTGGAGCAGCATGATGAATTTTTGAACAAGACTCTTGCCG -GAGCTCAAAAGAAAATAACGATTATTTCCCCTTGGTTATCCTGGCAAAAAGTGGAGCAAACGGGATTTCTGGCATCAATG -GCTTTGGCCCGTTCCCGGGGCATTGATATTACCGTGGTGACGGATAAAAACTGCAATATAGCGCATGTCGATGATGATAA -GCGTCAGGAGAAACAACATCTGCTGAATGATGCTGTTGAAAAGCTCAATAAGATGGGTATCGCTACGAAATTGGTTAATC -GTGTTCACAGCAAAATTGTGATTGAGGATGAAGAACTGCTGTGTGTCGGATCTTTTAACTGGTTCAGTGCTACACGGGAA -GATAAGTATCAACGATACGATACGTCTTTGGTGTACCGTGGTGAAGGCGTAAAAAATGAAATAAAGGCAATATATGGTAG -TCTGGATCAACGTCAGCTTTAAATGTGATGAGCCGTTCATGATACAGGAGTAGTAAAGGGCATATTTTACCAATGTTAAG -GCGACTTTCCGTTTTATTGCGAGTCGCCTTTCCTGATTATAAATCTTATTGTTTACCTAATCATTTTCCTTTGCATAATG -CGCCTGGGATTAATGGCGGGTGCTTTTAGGAATGAAAGAAAATGCAAGCAATAATATAATAATGGCCTAATTTCTTTGAA -CATCATTAAGCATATCATCATCGTCTATTTGCCAGAATCCGTCGACTTATAATCGCCAGAACGGCATATCAGGACGGTGC -TGCGAACGCTGTGGCCCAAAACGTTCCAGTAAACTGTGTAGATGTTCGTAGATTTCCGAGCCATAATCGAAAAGGCGCGG -ATGTCTATTAAGGCATCCGGCTAATCTGTAAGCAATAACAACGGTTTATGCGGTGCGCGTTTTTCACCCTTGTGCCAGAT -TATTATATTGGCAATTGCCTGCTGTTCGAGCCCGCAAGTGAAGAGATATTACCTTGATCTCATTTGTTTTTTGTTGTCTA -CTCTGAGAACGAACAAGGACATCCCCCATGAATAAACTCCCCGCTCACCTTTCGCGCCAAAACTGCAAAATTGCTTCTAC -AAATCTGTCAGAAATAATCCCCCGACGGGCTGCAGTGCTGAAATGACTGCTTCGCAGTGCCGTCGTCCAGTTCTCCGGTG -ACCGGTACGCTGAACCGTAATATCCCGTGCTTAAATCGTCCGGGTCTTCATCAGGCGCGTTCGTCAGTCCTCTTTCACCT -TGTTGCTGGAAGTCGACGAAAATAATATTGGCTAAAACATTATTTTGATAATTGCCATAAATAGCTTCATACGAATGCGG -GAAATTTTCTTTCCAGTACCAGGTGGTATCGCCGCAAAACCACGGCGCGTCAGTAATATTATTAAGCTGAGAATGGTATT -GTTTTAGATCCCTACGAAAGGCTTCAACCATATGATTAAAGTGTTGAGGGTGTGACGCGTAGTCACTGGTCATTAAGTCA -AATTCGCCTTGCATCCAGCATGCGCCGAGGAATTTGTTCTGCGGATTTTTTGCCAGTGCGGCTCGCGTTCTGCTGACTAA -ATCCTGGTACAGCGGAGTATCCGTTCCCCAACGACAAGCATCATGGCTGGCTCCGTGCCGTTCTGAATATGTCCCTTCGC -TGCCCGCGGTAAAAGCCGATCCGCCACGGCAACACGGAACGATAAGAATCCCTGCATTATCAGGAATGAAGGGCAGTAAT -TTCCGTGCAATATGCAGTGCCTGGCCAACGGTGCCGTACTGTGTTTGATGATTCGTTGCCAGAGGATGGTGATAACCCTG -CATATCCTGAACATCGTGTGGGCAGTGAGTCAGTGGAATAATGTCGTTAAAGTGACATGGCGGGCCTCCGGGATGCGTAT -GCGCAAATCTCGCTAATTGTTTAATTCTGGGATGAGGCGCATCTTCCCTGTCCGGTAATGGCAGTCCTTCGCCATACGCC -ATGGCATTAGACTGACCAGCAACGGTAAGAACATAGTAATAATCGGGCGATATTATTGCGTTCATATAAATTTCGCGTAA -TTGAAATGACAAATTGATAGCAGGGCCCCTTTACCGGGGCCCTGAAGCGTTAGTTTTGTACTGTGACTTTATTATCCTTC -ACAGTGATCAAAACTGAATCCGTCACCGCTTTGCCGCCTGCAGTTTCACCGCCAATAATCAATAGACTATTATTCCAGGG -CAATGATACTCCGTAGGCCCGACCTTGCGATAATTCACCCGATTTATCCCATTTCCCGTTATGCCAAAGATGAATATCAG -TGCTATATGATTTTTTCAGGCCTTCATGCGCATAGTTCTTACCGTTCTGGTAATTTTCTCGTGAACCTTTGAATCCGGCC -CCTCCGGCAAATATAAGAGAATCATTGCTTATCCCCGCAAAACCGCCAGCTACGCCATCTGGTGATGAGACGGGAGCAAG -CTTATTCCATTTTAAATTATTACCGGTGAAATCAAGTTCAAATACGGCATCCGTTCGCAATCCTGGTTTGGCTTCGCCAT -TAATAAGCCAGGTTTTATCACCTTTATTCACAACCGCCGCACCAGCCGTTCCGTACCAGGGCGATTCGCCAGCGTAACTC -CATTGCTGTGTTGAGGGATCAAAAGACAACAGAAACTTATTGAAGAAATAATCTTCTGCTTTTTTGTCAAAATAGTGAGC -ATTGATTTTATCTATAGCGGTTGAATCTTTTCCAGCCTCGTTGAGATCTTCAAAATAGCCATTGAAGATATTCTGGTTAA -CACCACCAGTAACATAAGCCTTGCCGTTGTGTACAAAAGTCACATGGCCCGCCATGCCCATCGGCGCGTGCGACATCAAT -TTAACCCAACTATTGGTTTTGGGGTTGTATTTGTGTACGTCATTAAATACCTGAGTCAAGCCCTCGCTGTTTTTGCCAAT -GCCGCCAAACACATACAGATTGCCATCAATAAATGCAGAGGTTGCTTGATCTCTTGGTCCGCCAGGGAATGCAGCTAACG -CTGTCCATTTTTTATCTTTGGCCTGTGTATCCAGCTTGTACCATGCCGTACCTGCGCTACCTAAACCAATGTAGACAGTG -TCGTTATCAATTGCTCCGGTACCACTTTTAAATGGCACAGGAGTTTCCGGTAATACAGACGCGTTTGCGGCAAATGAAGC -CATCATGATAGCAAGCGCCGTTATTGTTTTATTCATTGTGACTGTCTCCTGTCTACTACAGTTTAAATGACACACCAATG -CGATAACTGTTTTCCGATAAATTATCTCTGCCGTTGTAAACACCCTGACGGTCAAGGTAGTCATATTCTATGTATGGCGT -AATATCGGGCGTCATATGGTATTGTAGAACAAATGCATTTTCCGTCGCCCATTTCTTATGGTTTGCATAGCGATAATCGT -TCTGTTTGCTGTATAGCGTCGTTTGCCATGCGAAGGTGAAATCACTATTAATATGGTAAGTGACATATCCATCCCAACGA -TGAACGTTATCACGAGACATATCACCGGATAAGTCTTGTTGTCGGTAAGCTTTCCAGTCGTAACGATAGCGAATGCCAAA -ATTAAGATCTTTTGTCGCGTCCCAGGACAGTTTTACGTAGGGTCCGTAGCGTGTGCCGTTGCTGCTAAAATGCGTTAACA -TTCCCGGGCGCACCGTCCATTGATCATCAAGTTTAATCGCGTAATTAACTTCAACCTGAACATCATTGAGTGCGGCATTT -TCCTTTTTATTATCATGAATGGTATTCCAGGTATTACTTTCCATGCTTGCCCACCATCCATTTTGCCATCCCTCACTGAC -TTTGAGTCGAGTCTCATAGGCGTGGCTTCCACTACGATATCCACCACGTACGTCCAGTGTCGCAGCCTGAGAAATTAATG -GGGACGAAAAGCACAGTAATAATACGCCAGAAAGTATTTTAGCCTTTTTCATAAATTTCACTCATTTGTAGGATACAGAA -AGCAATACAAAGCCCGCATAAACAATTAGCATTTATGTTGTGTAATATTTTTTTGCCAGGCTTATAGTGTCTTTGGCAAC -CGGTAGCTGTATTTTATATTTTTTTGTATAAGGTCTCCTGTGAAAAATCTCTTTTCACATTATTTAAATAAACAGAGATC -CAGATTAAATACCTGAGTATAAAATCTCTTCTGATGTTTAATTGATTTGAATGTTCGTAAGCTATATCACTTACTCAATC -CATTTTACCCAGAGTCATAAAATAGAATGTCTGTTGATCTCATTTTCATATTCCTTTCAGACTGAAGTGCGTTTTCATCA -CCCGATGAGAAAGAACTGAAGTGATGTTTGCCATAGATTGCGAGATGCCCTGTCTCATTGACTATCTTGGTGCACCTTTA -TACCTGTTATACCAGATCAAAAATCACGCAATCCATACAACAAAACCAGATTTGCAATTCGTGTCACAAAATATGTCGAT -CTTTTTCTAAGAGGAAGATGCCATGTGAAGCCAGACGAACACTTGCGGTGGTCTTCAAAAACTAAAGATCTTAGTTTAAC -TATTTGTTTTATAAATAATTTATTAAGAGTCTAAACAAGGGGAGCTTTGCAAGCTAACTCAGTGAGCTTGGTGAAAATCA -GTGTTTACCCGCCATCAGGCTGAGCATAATTCTCATCATGAAATATGTTTCCTGGTTTGTGGCTTGTAACTGGTCACTTC -TGAAGTCGATCTGGAGAGGCTTGTTGATGTTGGTGTTTTCAGGATGATGTTTCACTTAGTTTGTTTGCCGTATCGCCCGG -CGAATGGCTGTGATTGAGGAAGGTTTAAGTCGTAGTGACCAAAGCTATATTTACCAACGAATGTAGATGAAAAAATCATC -TCCTGCGTTCCCCCATATCTCTAGGATAAAAAGGAATGTAACAATCTCATGGCGTAAGCTGACGAATCAGCAGGAATAAT -CGCTAGGGACCTAAGAATTAGCATGATAATAGCCACTAAGAAATTACTGCGCTCCATGAAATAGCCATTTTGTGGCAAAT -GGAGTTGACTAATAATGTCATATGTGAGACGGCTAGTTGAACGAATATTAAATTTTGCTGAATTTTTTATGTTGATTTTA -CTTGTTACAGAACATATCACATGATATATAGATAAGATTAGTTGCATTAATGATGAGGGTTATTATTAGATTCGTATCCG -ATTGATAAATATATAAAGGTACATAGCACTGAGAGATCCCCTCATAATTTCCCCAAAGCGTAACCATGTGTGAATAAATT -TTGAGCTAGTAGGGTTGCAGCCACGAGTAAGTCTTCCCTTGTTATTGTGTAGCCAGAATGCCGCAAAACTTCCATGCCTA -AGCGAACTGTTGAGAGTACGTTTCGATTTCTGACTGTGTTAGCCTGGAAGTGCTTGTCCCAACCTTGTTTCTGAGCATGA -ACGCCCGCAAGCCAACATGTTAGTTGAAGCATCAGGGCGATTAGCAGCATGATATCAAAACGCTCTGAGCTGCTCGTTCG -GCTATGGCGTAGGCCTAGTCCGTAGGCAGGACTTTTCAAGTCTCGGAAGGTTTCTTCAATCTGCATTCGCTTCGAATAGA -TATTAACAAGTTGTTTGGGTGTTCGAATTTCAACAGGTAAGTTAGTTGCTAGAATCCATGGCTCCTTTGCCGACGCTGAG -TAGATTTTAGGTGACGGGTGGTGACAATGAGTCCGTGTCGAGCGCTGATTTTTTCGGCCTTTAGAGCGAGATTTATACAA -TAGAATTTGGCATGAGATTGGATTGCTTTTAGTCAGCCTCTTATAGCCTAAAGTCTTTGAGTGACTAGATGACATATCAT -GTAAGTTGCTGATAGGTTTCCAGTTTTCCGCTCCTAGGTCTGCATATTGTACTTTTCCTCTTACTCGACTTAACCAGTAC -CAACCCAGCTTCTCAACGGATTTATACCATGGCACTTTAAAGCCAGCATCACTGACAATGAGCGGTGTGGTGTTACTCGG -TAGAATGCTCGCAAGGTCGGCTAGAAATTGGTCATGAGCTTTCTTTGAACATTGCTCTGAAAGCGGGAACGCTTTCTCAT -AAAGAGTAACAGAACGACCGTGTAGTGCGACTGAAGCTCGCAATACCATAAGCCGTTTTTGCTCACGGATATCAGACCAG -TCAACAAGTACAATGGGCATCGTATTGCCCGAACAGATAAAGCTAGCATGCCAACGGTATACAGCGAGTCGCTCTTTGTG -GAGGTGACGATTACCTAACAATCGGTCGATTCGTTTGATGTTATGTTTTGTTCTCGCTTTGGTTGGCAGGTTACGGCCAA -GTTCGGTAAGAGTGAGAGTTTTACAGTCAAGTAAGGCGTGGCAAGCCAACGTTAAGCTGTTGAGTCGTTTTAAGTGTAAT -TCGGGGCAGAATTGGTAAAGAGAGTCGTGTAAAATATCGAGTTCGCACATTTTGTTGTCTGATTATTGATTTTTGGCGAA -ACCATTTGATCATATGACAAGATGTGTATCTACCTTAACTTAATGATTTTGATAAAAATCATTAGGGGATTCATCAGTGC -TTGTACTCGATTTTTACTTCATCGCCCAGCTGCGCGTTGGACCAGCGGCCCCACGACTCCGGACGGGAAATCCCGCTAAA -CTGTTTCACCTCTTCTGGCGCACCGGCGACGTTAAAGATGAAACTGTCGGCTTTGTAGCGAATATCGTTATCAACAATCT -TCAGCGTATCGACATTGCCTTTGTAACGCGCCATGTCGATGACCGTATCTTTAAATGCCGTTTTGCCCTGCCATGTTGTT -TTGTCAACATGCTGAACAATTTGCTGACCGCCAAGCTGCCCTTGCGAGACACACCAGTCGGTGGAAAGTGCCAGTTCCGG -AGCCCAGAGTTGTGCCATCTTGTAGCAACGGTCAACCCAGACGAAATTGTCGCGTGGAGCGAAATCGGCCAGCTGGAAAC -GCAGCGGTGCTGAGTATTCGCTTTCCGGCAGCGGTTCCACGCGTTTGTCTGAAACCCGCAACAGCAGCGGCAAACGGAAA -TGGCTACCCGAGAAGGCAATCATGTTTTTCTGCTGGTCGATGGTGAACTCTTTCATCTCTTTAGGGAATTTCCACAGGCG -GATGATATCTGGCTTCCACGCCAATGTTTTCTCTTTGATATTGAGGAAGATTTCCGACATCGACTGCCCGGATAAACTGC -TACGACCAAGTCCGAGATAGTTATCGCCACCGAGAATGTCCAGCACCGTCGCGCCGTTATCCATCGTGTTACGCTTCACT -GCCAGCGTCTCTTGCTGCGGCTTGTCGCCACGAATGACAAAAAACAGGTTATTGCGATCCTGCTTATTGAGGTATTTCCA -CGCCGTGTTGTTCATCGCTAAATGGTCAGAAGAGACGACGATGACGGTATCTTTAAACCACGGTGACGCTTTGATTTTGT -TGATAAACGTCGCGATGTTCTCCTGGCTGCAACTTACCGCGCTGAATGACTGATTCGGTTTACCGTCAAAATCATATTTT -TTGCGGTTACAGGTACGAGAGATAAAACCATCCGGGTGATGGGTATCGACTGTCAGGGTAAACAGTGAGAATCGCTGACC -TGAGCGGGAAAGCTCTTCAAACTTTTTCCACGCTTCATCGAGAACGGTATCGTCGTAGAATCCCCAGTCGTTGCGATAGT -GCGGGTCGGCTACCACGCTTTTCAGCTCTTCTGAGCCGTATAAGTGGTCGAAGCCATGCGACTTCAGGAACACATCTTTA -CCGGCAAAACGCAGATTCGCGCCCTGCACGAAATAGTTCTGATAACCCGAGTTTTTCAGGATATCTCCCAGACAGATGTT -CTGCGGGAAGAAGCTGGAGACAGAGGCGGAGGCGTTGCCTTCAAAGGGGGCAAACAGCGGTATGCCGCACTGAGAAGCCA -CCATGCCCGCAATCGTGTAATCTGTTCCCGGCAGCTGCTGCGTGTGGCTGAAATCCAGGCCTTCATTTTTCAACGCGCCC -AGTTCAGGCGTGAGATCCGGGAAAGCCTCGTTATCAAAATAGGTCCGCTCGAGACTTTCGCCGTAGATATAAACCAGGTT -GAGTTTCGGGTCAGGGATAGTTTTCGACGGCTCTTTATAATAAGCCGCAAAGTCCGGGTCGCCGTCGCGTGACTGGGATT -TCACCAGTTCCGTTATCTGACGAAATGCCGGGCTGGCGTCCACCGAACCCAGCGCCAGTAAGAGCGCCAGCAGGCTGTAA -CCAAAATGGTGCGGATGATGGCGACGACGGCGCAGGATCCAGCCCAGCGCACCGAACACCGCTGTCAGCCCCAGCACAAT -GCCGATACCCGGCAAAATGTATTTGCTGACGCCAGCACCGGTCAGGCTGTTGGTTAAGGTATAGAGAACCGCGTCGTTAA -TACCATCGCCAGTAAAATAGTCGCTGGCAAACAGGGTGATATTTAAAACGACAAATAGCCCCAGCACCGTTAACGTGGCT -GCAAACCACCAGGTGTTACGTCCCGCTTTCCATGCGTAAATCAGCACAGAGGCGAGAAAAAGGGCGAAAGAGAGTAGTTC -TGACAACGGGCGATCCTCACTAAACCGGGCCGTTTAGCCAACGTTTAAGCTTTTTGAGAAGCACAATGTAATGGCGTCGC -CATATTGCTGCAATTCTAGTGTCAAAAAAATGCGATGTTGTTAGGAATTAGTTTATAAACAGACTTTTTTGATTACGGTC -ACTTCCCGTGTAACAGGGGTAAAACCGTCCAGGAGCAGGGAAAAGGGCAGGAGAGAGCCGCGTCAGCCGGGTAACAGCTA -AAACGCGGCGTTTCGCGGTTCAGGAAATGAAGTTCAGCCCCTGTTTTAACACCAGATCGCAGGCTTTGGTTTTCACCTTT -TCTGCCAGCGGAGTTGTTCCGATGTTATCCAGATTGAGTTGCTGACCATCTTTGGTTTTCAGCAAACCCTGAATGCCGTC -CAGATAGTTGGTGTCTTCTTTTTGCTCTTCACTGTTCAGGCCCAGCTTTTCCAGCACCTGGTTCTTGATGTTTTCGGCAT -CGGTTACCGACGCCAGCTTTTGCTTCGCGCAGTATTGCAGAATGCCTGCGGCATTGTTCATGTTATCTGCGCTTAAGGCC -TGGTTTCCGCTGCTAAGCAAGTTAGTTAATGACGCGAGCGACCAACCGCCTTCCTGTGTCGTGCTGTTTTGGTTGCCAAG -TTCGCTGGCGGCGCTGGAGAGCGCATCTTTCCAGGACGCAGCATGCACCCCGGTGGAAATTAATGCGCTGGCGGCAATGG -CACAGCACAGAAGATGTTTAACAGTTTTCATCATCATTACTCAAGGTGGAATTGTGTCGCAGTATACCGCCAGAAACGGG -GATTAATACTCTTTACCTGTTACCCGGCTACGGTAGCTATCCCAGTTGAAGATCACCCACAAACTGTTACCCAGGCGCAT -ACGGTCCATCACGCGTTCGCCCAGCAACTTGGTCATCTCTTCCATATTACTGTTGGTCAGCATCCCGGTTGGGCGTTTGG -AAGAAGAGCGGCGATCGACGATCTGGTTGATGATCACTTTTTCGTATTTCGATTCGGTCTGCACGCCGATCTCATCGATC -ACCAGCAGATCAACGTTGCTCAGATCGTTAAGCAGTTGTTCTTCGCTGGTACCGCTATTCCTGAAGGTATCTTTCATCGC -CGACATAATATCGGCCACGGTGATGATCAATACGGATTTACCGCGTAGCAGCAGCTCGTTGCAGATTGCCGCCGCCAGAT -GGTTTTTGCCGGTTCCTGGCTTACCAGAAAAGATGAAGCTGGCGATGTTGCCGTCAAACTCTTCGACATACTGGCGCGCT -TTGCTTAACGCATTCATCTGCCCTTCACACTCAACGCGATAGTTCTCAAAGGAACAGTTCTGATGCAGTGGACGAATACC -GGAGCGGTTAAAGGTGCGCTGCATTTTCATCGCCCGATTTTCACGTTCGAGAGCGGCGGAGCGGATCGCTCCTTGTTCTT -TTTGCCAGGCCAGTAGTTCTTCACCCGTTTTGAATGCGGGTTTGATATGGGCAGGCATCATTTTTTGCAGGCGTTGCATC -AGGTCGCCAACGTTTTTCATCGTTACCCTCTGAATCCTGGTGGAATTTGGCTGTCAGGTTCGCTGACCGTATTCACATCT -CGTTTCGGCAGTCCGCCGTTGCTGGCACGACCGATTTGCAGGCTGCGCGCCAGTTTTTGTTGCCACTGCACATGGTGAAA -GACTTTACCTTCCGCCTGCCAGTAGGCAATGAATGAGGCCAGTTCTTCGGTGGTCACCGGCTCTCTTAGCGCCACGCCCC -ATAGCGCCGCCAGGCGGATAAAATCGGCATCGGGTTGCCAGTCCGGATACATGGCGAATTTCCCCATGGGTACAGCAACG -GGAGCGGCTTGCGGTTCCTGATAGAGTTGATCGTCCAGAGCGACATCGCTTCCCGGACGCGCCAGCTTTTCTTCCAGCGC -CAGCAGTTCAGCCAGGCGTGCAGGCGTGACGGCATAAAACGCCGGGGCATTGTTAGCAAATACGGCAACCACACCGCCTT -CAGCTTTTGCCAGAACGGTTTGGTGATCGTGTACCAGGGCGTCAATACCAACGACGTCCGGGGTCAAAACTCTGGAAGAC -ATACTGTTTCTCAAATATGGAACGATGAACGAGAAGGGAGATAACTTTTATAGTAACACACGGAGGAGAGGAGGCTGTCT -CTCATCCGTGTGCTTAAGCGAGGCAATTTTATACGCGAGGGCGCTTGCGGTACAACCATAATCCAGGAATGGAAAGACCG -ATGGATAACGCACCAACAATCGATGAAGCTGTAAGAAAGTTGGTTAACAGGGTAATCATCAACGGTTCGCTGTAACCTAA -CTGGCTGATTTTTACCGCCGAAATCATTGCGGTATAAGCCGATATGCCCGGGAACATAGGGATAACGGCCGCCACGGTAA -ACACTTTCGGATGCGCCAGATACCAGCGCGACCATTGAATACCAATGGTACCGACCAGCATAGAAGCCATAAAGGTTGAC -CACTCAATATTCAACCCGCTGGTCATCAAGATCATTCGGGAACCATGACCTATCGAGCCAAGCAGCGCACACCAGCGTAA -CGCCCGCACGGGAACGTTGAACACCATCGCAAAGCCGACCGCAGGAATGGCGGCGAGGATCATATCCTGCGCCAACGCTA -ACAGAAATTCGATCACACCCATCCGCGTAGCCCCCAAATCGTCAGTGCCATCACTACGCCGACGCAGGTAGCCAGTGTCA -GCAGACTGGCGATCGCCCAGCGTGCCAGTCCGGTATTGATGTGGCCTTTAAACATATCGGCGACGGCATTAATCAACGGA -AAGCCCGGCACTAGCAGCAGAACGCTGGCGGCCATCGCAATGGTGGGGGTATTGCTGAAAGTGGGGAGTTGCAAAAGCAA -TCCGGAAATGGTGGTGGCGGCGAAAGCGGTAAGGCAAAAGTTGATCTGTGGATGAAGATGACGTTGTGCCAGCAGCTGGC -GGATATACATCGCGGTCGTACTGGCAAAGAAGGTGATGACGGCACCATCCCAGCCACCGTTATTGAGTTTACAGAAACAG -GCGCAAGAAAGGCCAACCATTAAGGCTACCAGCCATCTTGGGTAACGTAATGGCTGAATTTGGCTAAATCGTTTCTCTAC -GCCTTTGTAATCCAGCAGATGATGCTCCGCAAGAATCACAATGTGCTGGACTTCAGTCACCACATGCATATTAATGCCGC -GATCGTGATTTTTACGTGTCGATGTCAGGCATTGCCCATCTTTAATAGTTGTCAGCACTATGGCGTTCGAAGAGATAGAA -CTTTCGACGCTGTCCATTCCCAGTGCCCGACCCAGTCGTGAGGAAAGCTCATCAACCAACGCGCTTTCCGCACCATGTTG -CAAAAGAAATAATCCACACTGGATACAAAGCCGTGTTACGGCTCGCTGTTGCTCAGTTTGCATAACTCGCCCTTTGTCAT -AGACGTGCTGCGTATTGTTCAGATAATGAGAATCCATTTGTATCATGAAGCACGGTTGTTTTGCGGTAGGTTAAGATCAA -AATTGCGCTGATTAATCCTGGTTATCGGGAGAAGCTCGGTGATAAAAAGCGAATTATCTCTCGCCGCAAACAAACTATCA -CATGAATATTATCATCATAATGAATTTATTGTTTGGCCTTTACGAATCAGGATAATAGATAACCGGGCACGTTTTTTAAT -GTTAACAAGCTAAAACCATCAGATTTCATTGAATAAATATTGGTTGTGTGATTTTGCATTCTGCGGGAAGGGATATCATT -TAATTATAAATTAAATGAATGTGATTTCTGTTTTTCATTAAGTATTCCTAACAACTTAATGTAGATATTTTAAATGTCTC -CAGGCTATTTCACCAGGTTATCATTTGATGCTAACCTTCTGACACATGCAGTGGAGTTGTTGTGCAGCAGGAGTATGCTG -ATATGAAAGTGAATGCTAAGGATAATTTATTCGCTTAATCTATTAATTTGCTGGAAACATTTAAGGAATGAATATCCTGA -ATAAACCATCATAATTTTTAGACAGTGGATGTGGAGGAAATATGTTGCCAGGATGCTGCAAAAATGGAATTGTTATCAGT -AAAATACCTGTTATGCAAGCAGGGTTAAAAGAGGTCATGAGGACTCACTTCCCTGAATATGAAATAATATCCAGCGCCTC -TGCGGAGGACCTTACCTTATTACAATTACGTCGTTCCGGATTAGTCATTGCTGATTTAGCCGGTGAAAGTGAAGATCCAC -GTTCTGTTTGTGAACATTATTATTCTTTAATCTCACAATATCGGGAAATTCACTGGGTTTTCATGGTGTCACGCTCCTGG -TATTCCCAGGCAGTAGAACTGCTCATGTGCCCTACGGCGACGTTATTGTCTGATGTTGAACCCATTGAGAATCTGGTCAA -GACCGTACGTTCCGGCAATACGCACGCAGAGCGTATCAGCGCCATGCTGACCTCCCCGGCAATGACTGAAACTCATGATT -TTAGCTATCGCTCCGTCATTCTCACTCTTTCAGAGCGCAAGGTACTGCGGCTATTAGGTAAAGGATGGGGCATCAACCAG -ATAGCTTCATTGCTTAAGAAAAGTAATAAAACTATCAGCGCCCAAAAAAACAGTGCGATGCGTCGACTGGCAATTCACAG -CAACGCTGAAATGTATGCATGGATAAATAGCGCGCAGGGTGCAAGAGAACTTAACTTGCCTTCTGTTTATGGAGATGCCG -CAGAATGGAACACAGCCGAATTAAGAAGAGAAATGTCGCACTCATAGAAAAATGCGTCATGAGTAGTATCGGTATTGAGA -GTTTATTCAGAAAGTTTGCGGGTAACCCTTATAAGCTCCATACCTATACCAGTCAGGAGTCATTTCAGGATGCCATGTCG -CGGATCTCGTTTGCGGCGGTCATTTTTTCTTTTTCTGCCATGAGAAGTGAGCGCAGAGAGGGATTATCTTGCCTGACTGA -ACTGGCGATTAAGTTTCCGCGTACCCGGCGTTTAGTTATTGCGGATGATGATATTGAAGCTCGGCTGATTGGTTCATTGT -CGCCATCACCGCTGGACGGTGTATTAAGTAAAGCGTCAACGCTGGAGATTTTTCATCAGGAACTCTTTTTGTCATTAAAT -GGTGTACGTCAGGCGACCGACCGACTGAACAATCAGTGGTACATTAACCAAAGCCGGACGTTAAGCCCGACGGAGAGAGA -AATATTGCGCTTTATGTCGCGTGGCTACTCAATGACACAAATTGCCGAGCAGCTTAAACGCAATATCAAAACGATCCGTG -CACATAAATTTAATGTGATGTCGAAACTGGGCGTCAGTTCTGACGCAGGGTTGTTGGAGGCCGCAGATATTCTGTTATGT -ATGCGGCATTGCGAAACAAGTAATGTGTTGCATCCCTATTAATCCGCATGATGCCGGGTTTACTTCCCCGGCAGTGCTTT -CATTTCAGCGTACAATCGCCACATTGCTGCACATCCGGTAAGCGATAACGCTGGCAGCAAGTGCGGCGCACCAGCAGGCC -GTCGCGCAGTACCACGGTACGCCAGAGTGGATTATCTTCACCGTTCGTGAGCGTTTTCTCAAAAAAGAGGGCATGGCGCA -GCGATTCAACAGTAGCCTCGCCGAGCAGTTGCTTCATCTCAGTGAGATACCAGTTGATCAAATAACCGGTATTACTCCAG -ATAAGTTTGCCGTTGATCTCTCCGGTCGCTTCTAGTGCTTGCACAACCGGAACCAGCGCCTGGCTGATTAACGTTTCCAT -TCGATGCTGCGGCGAATGTGGTGTTGCGTTTTTATCTTCACACACATCGACCCAGAAACAGGCGACGCGTCCGGTTTCGT -GAAACTCAGCATGGAAATGTTCCGGCGACACATCTAATGCCTTTTCCTGCGTCAGTAGCGCCAGCATTAATGGTGGCACC -ATCAGGCCGATATACCATTGTGCCCATAGTGAGATCAGCGGTTTGTTCTCGCGGATCATCATCGGTTGGTTGCGATAGAT -ATGATCGGAATAGACCGCCAGCAGAGAACTTAGCACATTCGGTGATGACCATTGCGCCAGCGTCATGGCGTTAAGTGGGG -CAGGTTCATCCAGGCGGATAAACTCCAGCAAATGTTCACGATGTTTTGCGATCGTCGCCCGCACGGCTTGCGCAAGCGTG -GGATCCTGCGGCTGGAGATGCGTTCGCCAGATGACATCTTCATAGAGCGGTGCGGAACGATAGGCCATAATCGGGATAGT -AATCTAAATGATAATGATTGCTAATCATAGCGATAGGTTTACCCGATAGCAAGGGATTTATCTGGCTTGCAAATGATAAA -AATTATCATATGATATTGGTTATCATTATCAATGAAAGAGATGAAATCATGTTGCAACGTACGCTGGGCAGTGGCTGGGG -AGTGTTGCTGCCGGGATTGCTGATTGCAGGGCTGATGTATGCGGATTTATCGTCAGATCAGTGGCGGATTGTCATTCTGA -TGGGATTAGTATTGACGCCGATGATGCTGTATCACAAACAGTTGCGGCATTACATTTTGCTACCATCGTGCCTGGCACTT -ATTGCTGGCATCATGCTGATGATAATGAATTTGAATCAGGGATGAAAAATCAAGGAAGAAACAAGAAAGGAAGTAAAGAT -AATTGGTGCGAGGGGGGGGACTTGAACCCCCACGTCCGTAAGGACACTAACACCTGAAGCTAGCGCGTCTACCAATTCCG -CCACCTTCGCACAGTCATCTTACTTTTTTTGATATCGCCTCGTTTGGTGCGAGGGGGGGGACTTGAACCCCCACGTCCGT -AAGAACACTAACACCTGAAGCTAGCGCGTCTACCAATTCCGCCACCTTCGCCCAGTGCGAGCAATATCAACGTGGTTTTT -GGTGCGAGGGGGGGGACTTGAACCCCCACGTCCGTAAGGACACTAACACCTGAAGCTAGCGCGTCTACCAATTCCGCCAC -CTTCGCATACCATCAATTCTTAAAAAGAATTGCTACCACGGAGGCGCATTCTAGTGGTTTTCAGCTTTTCGTCAATAGTT -AATTATCGACAGAGGTGTAATTGCTGGAAAAATGTCCATCAGGAAACTAGCGTGCAGGTTTGGTATGCATGCGGGGGCAG -ATGCCAGATGCGACGCTGGCGCGTCTTATCTGGCCTACGAAGGGCTAACGTGCAGGTTTTGTAGGTCGGATAAGGCGTTC -ACGCCGCATCCGACACGGTATTCGGCGAGATAATTAACCTTTCTTCGCCTGGCGGGTCATAATGGCGCGATACACCTTGA -AGCGCCCTGTTTGCGCGATCACTTCGTGGAAGCCAAATGTCTCATCCAGCACGTCCGGATAAGGCAGGAAGGCGTTCGCT -ACAATTCGCAGCTCGCCGCCGCTATTAAGATGACGCACCGCACCGCGAATCAGCGTTTGCGCCGCATCCAGGCTGGTTTG -CATCCCATCGTGGAACGGCGGGTTGGAGATGATCATATCAAAACGACCTTTCACCTCGGAAAAGACGTTGCTGGCAAAGA -CTTCACCTTCAACACCGTTGGCCGCAAGTGTTGCGCGGCTGGCTTCTACCGCCGGGGCAGAGACATCGCACAAGGTGAGA -CGAATTTTCGGCGAATGGCGCGCAAAGGCAACTGAAAGCACGCCCGCGCCACAGCCGACATCCAGCACTTTACCTTTCGT -GTGCGGAGTTAACGTCGAGAGCAGCAACTGGCTACCGACATCCAGACCGTCGCGGCTAAACACGCCAGGCAGCGTTTTGA -CCGTCAGGCCATCGACGCTGTATTCGCCCCAGAATTTCTCCGCATCAAATACCGGCTGTTTTTCCAGACGACCAAAATAG -AGGCCACAGCGACGAGCGCTGTCGACTTTATTCAACGGCGCATAATCTGCCAGCATCTGCTCGGCGCTGCGCACGCCGCT -GCGGTTCTCGCCAACGACAAAAATATCTGTCCCCACTGGCAGCAGAGAAAGTAAATTCATCAACTGGAACTGGGCTTCCG -GTTTGTTCTTCGGCCAGTAGTAAATCAGCGTATCGCAATCTGCGACGTCATCCGCCGTGGCGACCAGACTGAAACGGGCG -TTATCCCCCATCTGGCGGCTTAATACCTGCCAGTGGTGGAATTGCTGGGTATGAGCACGGCTGGCCGCGGTATCTAAACG -CGCGGGCAGGTCATCCTGTAAGTCTCCGGCAAACAGAATACGGCTTTGTTCGAAATCATCACTGTGACGCAGCAAGACTT -CACTTGCCGGGGTAAATGCAGACATGGAATGCTCCTCAATTGATACTGGCGGCGATTATAGCCATATGTTGGCGCGGTAT -CGACGAATTTGCTATATTTGCGCCCCTGACAACAGGAGCGATTCGCTATGACATCCCGACGAGACTGGCAGTTACAGCAA -CTGGGCATTACCCAGTGGTCGCTGCGTCGCCCTGGCGCGTTGCAGGGGGAGATTGCCATTGCGATCCCGGCACACGTCCG -TCTGGTGATGGTGGCAAACGATCTTCCCGCCCTGACTGATCCTTTAGTGAGCGATGTTCTGCGCGCATTAACCGTCAGCC -CCGACCAGGTGCTGCAACTGACGCCAGAAAAAATCGCGATGCTGCCGCAAGGCAGTCACTGCAACAGTTGGCGGTTGGGT -ACTGACGAACCGCTATCACTGGAAGGCGCTCAGGTGGCATCACCGGCGCTCACCGATTTACGGGCAAACCCAACGGCACG -CGCCGCGTTATGGCAACAAATTTGCACATATGAACACGATTTCTTCCCTCGAAACGACTGATTTACCGGCGGCTTACCAC -ATTGAACAACGCGCCCACGCCTTTCCGTGGAGTGAAAAAACGTTTGCCAGCAACCAGGGCGAGCGTTATCTCAACTTTCA -GTTAACGCAAAACGGCAAAATGGCGGCGTTTGCGATTACGCAAGTGGTGCTGGATGAAGCTACATTGTTCAATATTGCGG -TCGATCCTGACTATCAGCGTCAGGGATTGGGAAGGGCGCTGCTGGAACATCTGATCGACGAACTGGAAAAACGCGGCGTG -GCGACACTATGGCTGGAAGTCCGTGCTTCAAACGCTGCCGCCATTGCCCTGTACGAAAGTTTAGGCTTTAACGAGGCGAC -GATTCGCCGCAATTACTACCCCACCACGGACGGTCGCGAAGACGCCATCATCATGGCGTTGCCAATCAGTATGTAATACA -AGGTGGAATAATGAAGTGGGACTGGATTTTCTTTGATGCCGATGAAACGCTGTTTACCTTTGACTCATTCACCGGCCTGC -AGCGGATGTTTCTTGATTACAGCGTCACCTTTACCGCTGAAGATTTTCAGGACTATCAGGCCGTTAACAAGCCACTGTGG -GTGGATTATCAAAACGGCGCGATCACTTCATTACAGCTTCAGCACGGGCGGTTTGAGAGCTGGGCCGAACGGCTGAACGT -CGAGCCAGGTAAACTCAACGAAGCCTTTATTAATGCGATGGCGGAAATCTGCACGCCGCTGCCGGGCGCGGTTTCTCTGC -TTAACGCCATTCGTGGCAACGCCAAAATCGGCATCATCACCAACGGCTTTAGTGCCTTGCAACAGGTGCGTCTGGAACGC -ACGGGCCTGCGTGATTACTTCGATTTGCTGGTGATTTCCGAAGAAGTTGGCGTTGCCAAACCGAATAAGAAAATTTTCGA -TTATGCGCTGGAACAGGCGGGCAATCCTGACCGTTCACGCGTGCTGATGGTTGGCGACACTGCCGAGTCCGATATTCTCG -GTGGCATCAACGCCGGGCTTGCGACCTGCTGGCTGAATGCACACCATCGCGAGCAACCAGAAGGCATCGCGCCCACCTGG -ACCGTTTCTTCGTTGCACGAACTGGAGCAGCTCCTGTGTAAACACTGATTGCCTCCCCCCCGTTGATGGGTAAAATAGCC -GCAATTTTTCGTTTTCAACAAGCGCGGCGCGATGCCGCTTACTCAAGAAGAAAGAATTATGACGTTGTCTCCTTATTTGC -AAGAGGTGGCGAAGCGCCGCACTTTTGCCATTATTTCTCACCCGGACGCCGGTAAGACTACCATCACCGAGAAGGTGCTG -CTGTTCGGACAGGCCATTCAGACCGCCGGTACAGTAAAAGGCCGTGGTTCCAACCAGCACGCTAAGTCGGACTGGATGGA -GATGGAAAAGCAGCGTGGGATCTCCATTACTACGTCTGTGATGCAGTTTCCGTATCACGATTGCCTGGTTAACCTGCTCG -ACACCCCGGGGCACGAAGACTTCTCGGAAGATACCTATCGTACCCTGACGGCGGTGGACTGCTGCCTGATGGTTATCGAC -GCCGCAAAAGGTGTTGAAGATCGTACCCGTAAGCTGATGGAAGTTACCCGTCTGCGCGACACGCCGATCCTCACCTTTAT -GAACAAACTTGACCGTGATATCCGCGACCCGATGGAGCTGCTCGATGAAGTTGAGAACGAGCTGAAAATCGGCTGTGCGC -CGATCACCTGGCCGATTGGCTGCGGCAAGCTGTTTAAAGGCGTTTACCACCTTTATAAAGACGAAACCTATCTCTATCAG -AGCGGTAAAGGCCACACCATTCAGGAAGTCCGCATTGTTAAAGGGCTGAATAACCCGGATCTCGATGCTGCGGTTGGTGA -AGATCTGGCACAGCAGCTGCGTGACGAACTGGAACTGGTGAAAGGCGCGTCTAACGAGTTCGACAAAGAGCTGTTCCTTG -CGGGCGAAATCACTCCGGTATTCTTCGGTACTGCGCTGGGTAACTTCGGCGTCGATCATATGTTGGATGGCCTGGTGGAG -TGGGCACCTGCGCCGATGCCGCGTCAGACTGATACCCGTACCGTAGAAGCGAGCGAAGATAAATTTACCGGCTTCGTATT -TAAAATTCAGGCCAACATGGACCCGAAACACCGCGACCGCGTGGCGTTTATGCGTGTGGTGTCCGGTAAATATGAAAAAG -GCATGAAACTGCGCCAGGTGCGCACTGCGAAAGATGTGGTGATCTCCGACGCGCTGACCTTTATGGCGGGTGACCGTTCG -CACGTTGAAGAAGCGTATCCGGGCGATATCCTCGGCCTGCACAACCACGGCACCATTCAGATCGGCGACACCTTTACCCA -GGGTGAGATGATGAAGTTCACCGGTATTCCGAACTTCGCACCAGAACTGTTCCGTCGTATCCGCCTGAAAGATCCGCTGA -AGCAAAAACAGCTGCTCAAAGGGCTGGTACAGCTTTCCGAAGAGGGCGCGGTGCAGGTGTTCCGTCCAATCTCCAACAAC -GATCTGATCGTTGGTGCAGTTGGTGTGCTGCAGTTTGATGTGGTGGTAGCGCGCCTGAAGAGCGAATACAACGTTGAAGC -AGTGTATGAGTCAGTCAACGTTGCCACTGCCCGCTGGGTAGAATGTGCAGACGCGAAGAAATTCGAAGAGTTCAAGCGTA -AGAACGAAAGCCAACTGGCGCTTGATGGCGGCGATAACCTCGCTTACATCGCTACCAGCATGGTCAACCTGCGCCTGGCA -CAGGAACGTTATCCGGACGTTCAGTTCCACCAGACCCGCGAGCATTAATTCTTGCCTCCAGGGCGCGGTAGCCGCTGCGC -CCTGTCAATTTCCCTTCCTTATTAGCCGCTTACGGAATGTTCTTAAAACATTCACTTTTGCTTATGTTTTCGCTGATATC -CCGAGCGGTTTCAAAATTGTGATCTATATTTAACAAAGTGATGACATTTCTGACGGCGTTAAATACCGTTCAATGCGTAG -ATATCAGTATCTAAAGCCGTCGATTGTCATTCTACCGATATTAATAACTGATTCAGAGGCTGTAATGGTCGTTATTCATC -ACTCATCGCTTTTGTGATGGCGACCATTGACTTCTGTAGAGGGTGAAGTCTCTCCCTATTCAGCAATGCAACCTCGTGTT -GCCAGGCTCAAATTACGAGCAAACATACAGGAATAAATCGATGACTATGACAAGACTGAAGATTTCGAAAACTCTGCTGG -CTGTAATGTTGACCTCTGCCGTCGCGACCGGCTCTGCCTACGCGGAAAACAACGCGCAGACTACCAATGAAAGCGCAGGG -CAAAAAGTCGATAGCTCTATGAATAAAGTCGGTAATTTCATGGATGACAGCGCCATCACCGCGAAAGTGAAGGCGGCCCT -GGTGGATCATGACAACATCAAGAGCACCGATATCTCTGTAAAAACCGATCAAAAAGTCGTGACCCTGAGCGGTTTCGTTG -AAAGCCAGGCCCAGGCCGAAGAGGCAGTGAAAGTGGCGAAAGGCGTTGAAGGGGTGACCTCTGTCAGCGACAAACTGCAC -GTTCGCGACGCTAAAGAAGGCTCGGTGAAGGGCTACGCGGGTGACACCGCCACCACCAGTGAAATCAAAGCCAAACTGCT -GGCGGACGATATCGTCCCTTCCCGTCATGTGAAAGTTGAAACCACCGACGGCGTGGTTCAGCTCTCCGGTACCGTCGATT -CTCAGGCACAAAGTGACCGTGCTGAAAGTATCGCCAAAGCGGTAGATGGTGTGAAAAGCGTTAAAAATGATCTGAAAACT -AAGTAATTCGTCGTAATTCGTCCTCCCGAACTTTGTCGGGAGGCGCGATGTGCACCACACTAAAAATATCGCATTGAGTG -ATTTTCACGCTCATATCAAGCGGTGACATTAACTATGGTAAAGGAGACGCTTATGTTTCGTTGGGGCATCATATTTCTGG -TTATCGCGTTAATCGCCGCCGCACTTGGGTTTGGTGGTCTGGCCGGTACCGCTGCAGGCGCAGCTAAAATTGTCTTTGTC -GTCGGGATTATTCTGTTCCTGGTGAGTTTGTTCATGGGCCGAAAACGACCCTAGATTTCAGACCATTAAGAAAATTTTAT -CCAAAGCCAGTCCAGCGGACTGGCTTTTGCGGTTTTAGCGAATAATAAATTGCGTTACTTTGTCATTCTTTCACAACAAA -AACAGGAAGGCAGAGGTGGGGCAGCGAATACCTGTAACGCTTGGTAATATTGCGCCGTTGTCGCTAAGGCCGTTCCAGCC -TGGACGAATAGCTCTGGTGTGCGAAGGCGGCGGACAGCGTGGAATTTTCACGGCTGGCGTGCTGGATGAGTTTATGCGCG -CGCAGTTTAATCCTTTCGATCTTTATCTCGGCACATCTGCCGGGGCGCAGAACCTCTCGGCGTTTATCTGCAATCAGCCC -GGTTACGCGCGCAAAGTCATCATGCGCTATACCACAAAACGCGAATTTTTCGATCCATTGCGCTTTGTCCGTGGAGGAAA -TCTTATCGATCTCGACTGGCTGGTGGAGGCCACTGCAAGCCAGATGCCGTTGCAAATGGATACCGCCGCGCGGTTGTTTG -ACAGCGGCAAATCGTTTTATATGTGCGCCTGTCGTCAGGATGACTACGCGCCGAATTACTTTTTACCAACCAAACAAAAC -TGGCTGGATGTGATTCGCGCCTCCAGTGCGATACCTGGCTTTTATCGTAGCGGAGTGTCGCTGGAAGGCATTAACTACCT -GGATGGCGGGATCAGTGATGCGATTCCGGTTAAAGAGGCGGCAAGGCAGGGCGCTAAAACGTTGGTCGTCATTCGCACTG -TGCCGTCACAAATGTACTACACGCCGCAGTGGTTCAAACGCATGGAACGCTGGCTGGGTGACAGTAGCCTGCAGCCGCTG -GTCAATCTGGTGCAGCATCATGAAACCAGCTATCGTGACATTCAGCAATTTATTGAGAAACCACCGGGCAAGCTGCGGAT -ATTCGAAATTTATCCGCCGAAGCCATTACATAGTATCGCGCTTGGCAGTCGGATTCCGGCGCTGCGTGAAGACTATAAAC -TTGGGCGTTTATGCGGTCGTTATTTCCTCGCCACGGTTGGCAAGCTATTAACTGAAAAAGCGCCGCTTACCCGCCATCTG -GTGCCAGTGGTGACGCCGGAATCGATTGTCATTCCGCCTGCGCCAGTCGCCAACGATACGCTGGTTGCCGAAGTGAGCGA -CGCTCCGCAGGCGAACGACCCGACATTTAACAATGAGGATCTGGCTTGATTTGCCGTTTTATCGACACCCACTGCCATTT -TGATTTCCCGCCGTTTAGTGGCGATGAAGAGGCCAGCCTGCAACGCGCGGCACAAGCGGGCGTAGGCAAGATCATTGTTC -CGGCAACAGAGGCGGAAAATTTTGCCCGTGTGTTGGCATTAGCGGAAAATTATCAACCGCTGTATGCCGCATTGGGCTTG -CATCCTGGTATGTTGGAAAAACATAGCGATGTGTCTCTTGAGCAGCTACAGCAGGCGCTGGAAAGGCGTCCGGCGAAGGT -GGTGGCGGTGGGGGAGATCGGTCTGGATCTCTTTGGCGACGATCCGCAATTTGAGAGGCAGCAGTGGTTACTCGACGAAC -AACTGAAACTGGCGAAACGCTACGATCTGCCGGTGATCCTGCATTCACGGCGCACGCACGACAAACTGGCGATGCATCTT -AAACGCCACGATTTACCGCGCACTGGCGTGGTTCACGGTTTTTCCGGCAGCCTGCAACAGGCCGAACGGTTTGTACAGCT -GGGCTACAAAATTGGCGTAGGCGGTACTATCACCTATCCACGCGCCAGTAAAACCCGCGATGTCATCGCAAAATTACCGC -TGGCATCGTTATTGCTGGAAACCGACGCGCCGGATATGCCGCTCAACGGTTTTCAGGGGCAGCCTAACCGCCCGGAGCAG -GCTGCCCGTGTGTTCGCCGTGCTTTGCGAGTTGCGCCGGGAACCGGCGGATGAGATTGCGCAAGCGTTGCTTAATAACAC -GTATACGTTGTTTAACGTGCCGTAGGCCGGATAAGGCGTTCACGCCGCATCCGGCAGTTGGCGCACAATGCCTGATGCGA -CGCTTAACGCGTCTTATCATGCCTACAGGTTTGTGCCGAACCGTAGGCCGGATAAGGCGTTCACGCCGCATCCGGCAGTT -GGCGCACAATGCCTGATGCGACGCTTGTCGCGTCTTATCATGCCTACAAGTCTGTGCCGAACCGTAGGCCGGATAAGGCG -TTCACGCCGCATCCGGCAGTCGGCGCATAATGCCTGATGCGACGCTTGTCGCGTCTTATCATGCCTACAGGTTTGTGCCG -AACCGTAGGCCGGATAAGGCGTTCGCGCCGCATCCGGCAGTTGGCGCACAATGCCTGATGCGACGCTTGACGCGTCTTAT -CAGGCCTACAAGTCTGTGCCGAACCGTAGGCCGTATCCGGCATGTCACAAATAGAGCGCCGGAAATATCAACCGGCTCAC -CCCGCGCACCTTTAACGCATCAGCCAACGGCTCAACGTCTTCCGGCGTGGCGCTCGCCCAGCTTTGCGCCTCGCCATACA -CGCCGTGGGCATGAAACGCGTTCAGGCGTACCGGAACATCGCCGAGTCCCTTGATAAACGCCGCCAGTTCTTCGATGTGT -TGCAAATAATCCACCTGGCCAGGGATCACCAGCAAACGCAGTTCCGCCAGCTTGCCGCGCTCTGCCAGCAAATAGATGCT -GCGCTTAATCTGCTGATTATCGCGTCCGGTGAGTTGTTGATGACATTCGCTCCCCCACGCTTTGAGATCGAGCATTGCGC -CGTCGCACACCGGGAGCAATTTTTCCCAGCCGGTTTCGCTCAACATGCCGTTACTGTCCACCAGACAGGTGAGATGGCGC -AGTTGCGGATCGTTTTTGATAGCAGTAAACAGCGCCACCACAAACGGCAGCTGGGTCGTGGCTTCACCGCCACTCACCGT -TATCCCTTCGATAAACAGCACTGCTTTGCGGACATGGCTAAGCACTTCGTCCACGCTCATGGATTGCGCCATGGGCGTGG -CATGTTGCGGACACCTCTTCAGGCAGGTATCACACTGCTCGCAAACCACAGCGTTCCACACCACTTTGCCGTCAACAATC -TGCAACGCCTGATGCGGACACTGTGGCACGCACTCCCCACAGTCATTGCAACGTCCCATCGTCCACGGATTGTGACAGTT -TTTGCAGCGCAGATTGCAGCCCTGCAAAAACAGAGCCAGACGACTGCCTGGCCCGTCAACGCAGGAGAAGGGGATAATCT -TACTGACTAAAGCGCATCTGCTGTTCATGGCTTATCACGCGCGGCTGGCGTTCCAGAATACGAGTGTTGCGTGCGGCTTC -TTCGCCCAGCCAGGTGGTGTTGGTGCGTGAACCTTCGGCGCGATATTTTTCTAAATCCGACAAACGCACCATATAACCGG -TAACGCGAACCAGATCGTTACCGCTGACATTGGCGGTAAATTCACGCATTCCGGCTTTAAAGGCACCGAGGCAAAGCTGT -ACCAGTGCCTGCGGGTTACGTTTGATGGTTTCGTCGAGCGTCAGAATGTCGCTGATGCCGGAATAATAATAAGCATGATG -CGGGGCGACAGTTTGCAGATGGGTGATCGGATCTGGCTCATCGCCATACGGCAAACGCGCGCCCGGCGTGGTGCCGATAT -CGGAACTGATCCCCGACTGTGCGTGTAACATGGCGCGTTTTTGCCAGCCATATTTCACGGGGGTATTGGCGACAAACTCC -GCCAGTTGCGCGCTGATGCGATAACCTACTTCATTTGCGGCGGCTTCTTTACCGTAGCGCGCGGCAATCCCTTCTTTTTC -ACACAGCAAGTTAACCGCTTCCGCCAGCCCATACATGCCAAACATTGGCACAAAACGTTCAGGGTTAATCAGCCCTTCTT -TCACCAGGAAGCTATTCTCAAAGAAGTGTGATTGTTGATAGAGGAATTCACACCGCGCATCGATGATGGCGATCTGCTGC -TGGCAGTAGTGCGGTAGAGTGCGCGTAAAGAAGTCATCCAGCGATTCGCTGCGCTCGGCAATGGCTTTCAGGTTAAGGCG -TACCAGCGTGCTGCCACCACCCGCCAGCGGCAGTGAGTTGTAACAGCTCACAATCCCGTAGCCCCCTTTTGTGAAAATTT -TATCATGCACCGGACCGTTGGCGATGTGCGGTTTGCTACATTCACAGATGTTCTTCGCCACTTCCAGCAGCAGGTCATCA -GGGGTGATTTCAGGATCGTAGATAAAGGTCAGGTTCGGTGAAACCTGCTTCAACTCTGCATCTGCACGTAAGATCGCGCG -GGTAATGGGCGAATCAGACGGGCCGATATTGGCGTGCATAAAGGCGTCTGGCAGGGTTCTGTCGAGGTAACGCCAGAAAC -GTTTTATTCGAACATCGATCTCGTCTTGTGTTAGAATTCTAACATACGGTTGCAACAACGCATCCAGTTGCCCCAGGTAG -ACCGGCATCGATGTGACCGACGGTACGTGGTGGTAAAGAATGGTCAGCAGAGAGAGTGCGTCATCAAGATCTTTCGCGCC -TTCCAGCTCCAGCCATTCGGAACCGTTCGCCAGAAAACGGGCGTAATCGGGTAAGACATAGCGCGGTTTGTACGGCGCAT -GACCTTCAAACATATCGCAGATTACACCTTCATCCAGCGCGCGGCGGGCTTCGGCAGGAAGCTGTGGGTAAGGCAGATTG -TTTTCTGCTTCCAGTGCCAGAAAATGGCGCTTCTGCTCCGGGCTAAGCACTGGGCTGGTGACAATTTGCTGGCAACGTTG -TTGCAGTGCATTTTCATGAGAAGTGGGCATCTTCTTTTCCTTTTATGCCGAAGGTGATGCGCCATTGTAAGAAGTTTCGT -GATGTTCACTTTGATCCTGATGCGTTTGCCACCACTGACGCATTCATTTGAAAGTGAATTATTTGAACCAGATCGCATTA -CAGTGATGCAAACTTGTAAGTAGATTTCCTTAATTGTGATGTGTATCGAAGTGTGTTGCGGAGTAGATGTTAGAATACTA -ACAAACTCGCAAGGTGAATTTTATTGGCGACAAGCCAGGAGAATGAAATGACTGATCTGAAAGCAAGCAGCCTGCGTGCA -CTGAAATTGATGGACCTGACCACCCTGAATGACGACGACACCGACGAGAAAGTGATCGCCCTGTGTCATCAGGCCAAAAC -TCCGGTCGGCAATACCGCCGCTATCTGTATCTATCCTCGCTTTATCCCGATTGCTCGCAAAACTCTGAAAGAGCAGGGCA -CCCCGGAAATCCGTATCGCTACGGTAACCAACTTCCCACACGGTAACGACGACATCGACATCGCGCTGGCAGAAACCCGT -GCGGCAATCGCCTACGGTGCTGATGAAGTTGACGTTGTGTTCCCGTACCGCGCGCTGATGGCGGGTAACGAGCAGGTTGG -TTTTGACCTGGTGAAAGCCTGTAAAGAGGCTTGCGCGGCAGCGAATGTACTGCTGAAAGTGATCATCGAAACCGGCGAAC -TGAAAGACGAAGCGCTGATCCGTAAAGCGTCTGAAATCTCCATCAAAGCGGGTGCGGACTTCATCAAAACCTCTACCGGT -AAAGTGGCTGTGAACGCGACGCCGGAAAGCGCGCGCATCATGATGGAAGTGATCCGTGATATGGGCGTAGAAAAAACCGT -TGGTTTCAAACCGGCGGGCGGCGTGCGTACTGCGGAAGATGCGCAGAAATATCTCGCCATTGCAGATGAACTGTTCGGTG -CTGACTGGGCAGATGCGCGTCACTACCGCTTTGGCGCTTCCAGCCTGCTGGCAAGCCTGCTGAAAGCGCTGGGTCACGGC -GACGGTAAGAGCGCCAGCAGCTACTAAGTAAGATGCTTTACGCCTGATGCGCTGCGCTTATCAGGCCTACGAGACGTATC -TACCCGTAGGCCGGATAAGGCGTAGACGCATCCGGCAAAAGCCGCCTCATACTCTTTTCCTCGGGAGGTTACCTTGTTTC -TCGCACAAGAAATTATTCGTAAAAAACGTGATGGTCATGCGCTGAGCGATGAAGAAATTCGTTTCTTTATCAACGGTATT -CGCGACAACACTATCTCCGAAGGGCAGATTGCCGCCCTCGCGATGACCATTTTCTTCCACGATATGACAATGCCTGAGCG -TGTCTCGCTGACCATGGCGATGCGAGATTCAGGAACCGTTCTCGACTGGAAAAGCCTGCATCTGAATGGCCCGATTGTTG -ATAAACACTCCACCGGTGGCGTCGGCGATGTGACTTCGCTGATGTTGGGGCCGATGGTCGCAGCCTGCGGCGGCTATATT -CCGATGATCTCTGGTCGCGGCCTCGGTCATACTGGCGGTACGCTCGACAAACTGGAATCCATCCCTGGCTTCGACATTTT -CCCGGATGACAACCGTTTCCGCGAAATTATTAAAGACGTCGGCGTGGCGATTATCGGTCAGACCAGTTCACTGGCTCCGG -CTGATAAACGTTTCTACGCGACCCGTGATATTACCGCAACCGTGGACTCCATCCCGCTGATCACCGCCTCTATTCTGGCG -AAGAAACTTGCGGAAGGTCTGGACGCGCTGGTGATGGACGTGAAAGTGGGTAGCGGCGCGTTTATGCCGACCTACGAACT -CTCTGAAGCCCTTGCCGAAGCGATTGTTGGCGTGGCTAACGGCGCTGGCGTGCGCACCACCGCGCTGCTCACCGACATGA -ATCAGGTACTGGCCTCCAGTGCAGGTAACGCGGTTGAAGTTCGTGAAGCGGTGCAGTTCCTGACGGGTGAATATCGTAAC -CCGCGTCTGTTTGATGTCACGATGGCGCTGTGCGTGGAGATGCTGATCTCCGGCAAACTGGCGAAAGATGACGCCGAAGC -GCGCGCGAAATTGCAGGCGGTGCTGGACAACGGTAAAGCGGCAGAAGTCTTTGGTCGTATGGTAGCGGCACAAAAAGGCC -CGACCGACTTCGTTGAGAACTACGCGAAGTATCTGCCGACAGCGATGCTGACGAAAGCAGTCTATGCTGATACCGAAGGT -TTTGTCAGTGAAATGGATACCCGCGCGCTGGGGATGGCAGTGGTTGCAATGGGCGGCGGACGCCGTCAGGCATCTGACAC -CATCGATTACAGCGTCGGCTTTACTGATATGGCGCGTCTGGGCGACCAGGTAGACGGTCAGCGTCCGCTGGCGGTTATCC -ACGCGAAAGACGAAAACAACTGGCAGGAAGCGGCGAAAGCGGTGAAAGCGGCAATTAAACTTGCCGATAAAGCACCGGAA -AGCACACCAACTGTCTATCGCCGTATCAGCGAATAACGGTATACTGATCTGATCATTTAAATTTGAAGCACTGAGTACGG -AGAACATATGAAACGTGCATTTATTATGGTGCTGGACTCATTCGGCATCGGCGCTACAGAAGATGCAGAACGCTTTGGTG -ACGTCGGGGCTGACACCCTGGGTCATATCGCAGAAGCTTGTGCCAAAGGCGAAGCTGATAACGGTCGTAAAGGCCCGCTC -AATCTGCCAAATCTGACCCGTCTGGGGCTGGCGAAAGCACACGAAGGTTCTACCGGTTTCATTCCGGCGGGAATGGACGG -CAACGCTGAAGTTATCGGCGCGTACGCATGGGCGCACGAAATGTCATCCGGTAAAGATACCCCGTCTGGTCACTGGGAAA -TTGCCGGTGTCCCGGTTCTGTTTGAGTGGGGATATTTCTCCGATCACGAAAACAGCTTCCCGCAAGAGCTGCTGGATAAA -CTGGTCGAACGCGCTAATCTGCCGGGTTACCTCGGTAACTGCCACTCTTCCGGTACGGTCATTCTGGATCAACTGGGCGA -AGAGCACATGAAAACCGGCAAGCCGATTTTCTATACCTCCGCTGACTCCGTGTTCCAGATTGCCTGCCATGAAGAAACTT -TCGGTCTGGATAAACTCTACGAACTGTGCGAAATCGCCCGTGAAGAGCTGACCAACGGCGGCTACAATATCGGTCGTGTT -ATCGCTCGTCCGTTTATCGGCGACAAAGCCGGTAACTTCCAGCGTACCGGTAACCGTCACGACCTGGCTGTTGAGCCGCC -AGCACCGACCGTGCTGCAGAAACTGGTTGATGAAAAACACGGCCAGGTGGTTTCTGTCGGTAAAATTGCGGACATCTACG -CCAACTGCGGTATCACCAAAAAAGTGAAAGCGACTGGCCTGGACGCGCTGTTTGACGCCACCATCAAAGAGATGAAAGAA -GCGGGTGATAACACCATCGTCTTCACCAACTTCGTTGACTTCGACTCTTCCTGGGGCCACCGTCGCGACGTCGCCGGTTA -TGCCGCGGGTCTGGAACTGTTCGACCGCCGTCTGCCGGAGCTGATGTCTCTGCTGCGCGATGACGACATCCTGATCCTCA -CCGCTGACCACGGTTGCGATCCGACCTGGACCGGTACTGACCACACGCGTGAACACATTCCGGTACTGGTATATGGCCCG -AAAGTAAAACCGGGCTCACTGGGTCATCGTGAAACCTTCGCGGATATCGGCCAGACTCTGGCAAAATATTTTGGTACTTC -TGATATGGAATATGGCAAAGCCATGTTCTGATGGATTTGGGCGGAGCGTTGACTCCGCCTTTGTTATGTCACAAAAAGGA -TAAAACAATGGCTACCCCACACATTAATGCAGAAATGGGCGATTTCGCTGACGTAGTTTTGATGCCAGGCGACCCGCTGC -GTGCGAAGTATATTGCTGAAACTTTCCTTGAAGATGCCCGTGAAGTGAACAACGTTCGCGGTATGCTGGGCTTCACCGGT -ACTTACAAAGGCCGCAAAATTTCCGTAATGGGTCACGGTATGGGTATCCCGTCCTGCTCCATCTACACCAAAGAACTGAT -CACCGATTTCGGCGTGAAGAAAATTATCCGCGTGGGTTCCTGTGGCGCAGTTCTGCCGCACGTAAAACTGCGCGACGTCG -TTATCGGTATGGGTGCCTGCACCGATTCCAAAGTTAACCGCATCCGTTTTAAAGACCATGACTTTGCCGCTATCGCTGAC -TTCGACATGGTGCGTAACGCAGTAGATGCAGCTAAAGCACTGGGTATTGATGCTCGCGTGGGTAACCTGTTCTCCGCTGA -CCTGTTCTACTCTCCGGACGGCGAAATGTTCGACGTGATGGAAAAATACGGCATTCTCGGCGTGGAAATGGAAGCGGCTG -GTATCTACGGCGTCGCTGCAGAATTTGGCGCGAAAGCCCTGACCATCTGCACCGTATCTGACCACATCCGCACTCACGAG -CAGACCACTGCCGCTGAGCGTCAGACTACCTTCAACGACATGATCAAAATCGCACTGGAATCCGTTCTGCTGGGCGATAA -AGAGTAATTGTGTTTCGCTGCAAGGCGATTGCCTTGTGAAGCCGGAGCGGGAGACTGCTCCGGCTTTTTAGTATCTATTC -ATTTTTCTCTCCAGCTTGAATATTTTCGCTATACTTTTCAGTGAAATGTGTTAATAAATCTATTCAAGTATCTATTCACG -AATCTATTCATTAATGAGCGAGCTGACTGATCTTTTACTGCAAGGGCCGCGTTCTGCCCCGGAATTGCGCCAGCGTCTGG -CAATCAGTCAGGCGACGTTCTCACGCCTTGTTGCCAGAGAAGATCGGGTGATTCGCTTTGGTAAAGCACGGGCAACGCGA -TATGCACTGCTGCGTCCTTATCGCGGAATTGAGCGTATTCCCGTCTGGCGGGTGGACGATACCGGAAAGGCGCATAAATT -CGCCGACATCCGGTTGTGCTGGCCGCAGGGAAGTTGTCTGGTAACAGGCGCAGATGGCGACGAACAGTGGTTTGATGGTT -TGCCCTGGTATTTGACCGATCTCCGACCGCAGGGCTTTTTAGGGCGCGCGTGGGGCAGGAAGTTAGCCGCGCAACTGAAT -CTGACTGATGATATACGTCTCTGGCAGGAAGAAGATGTGCTCTACGCCCTGACCGTATTTAACGGTGAATATACTGGCGG -TTGGTTGGTCGGGGAGGGGAATTATCAGCGATGGATTACTGCACAACACCCTGCGGAAATTCCTCTGGATCAAAAACTCA -CCCATTACGAACAGCTGGCAAGTGATGCACTGGCAGGAGAAATTGTGGGTTCTTCTGCGGGCGGCGAGCAGCCAAAATTT -ACCTACTATGCACAAACGCCGTCAGGCAATAAACATGTGTTGGTGAAATTCACCGTACCACAGCAAACCGCGGTCAGCCA -ACGTTGGGGTGACCTGCTAATTGCTGAATCTATTGCCGCGCAAATCCTGCGTGACGGTGGGATCCACGCCATCGAGTCAA -CGGTGCTTGTAACAAGTAACAGGCAGGTATTCCTCGAAGCGGAACGCTTTGACTGCAAAGGTAACGATGGTCGCTTGCCT -ATTGTGTCGCTGGAGGCGGTGCAGAGTGAGTTTATCTCTTCTCCGGGATCGTGGCCGCAGGCAATGCGCCGTTTGTGTGA -GCAACAACTTGTCACTCACCAGAGCGTGGCGCAAACAGAAGTGATCTGGGCATTTGGGCGACTTATCGCCAACAGCGATA -TGCACGCAGGTAATTTATCGTTTTATTTATCTGAACCGCCATTTGCGCTGACGCCCGTCTACGACATGCTGCCGATGGTC -TATGCACCAAACAGCGCTGGAATGCTGCGTGATGCTGCCATTGAGGTGAAGTTTGATCTTAACGTCAGTAAAAGCGCTTG -GTTAACGGCGATCCCGCTGGCGCAGCAGTTCTGGCAAACGGTCGCCAGAGATCCGCGTATCAGCGAGGCGTTTCGCCACA -TTGCGCAAGAAATGCCGGAAAAAATCCGGCAAATCGAAGAGAAAGTTGCCCGCATGGGCGGGTAACTACCTTACAGCCCC -CGCCATCCATGCCGATAACTCCCGTAGCTCTTTTTCCTGTTCCGGGAAGTCAACCAACAGCGCTTCGCACTCCTGTTGCA -GCATATCTGCGCGGTACAGGCAGCCTTGCAGTCGTCCGGCGAGGGCTTCCAGCGGCGCGGGGTTGAGGCTGTCGGTAAAC -ACCTGGGCGCGGGTGATATGGCCTTTTTCAACGTCGAAATGCAGTTCCACGCCGCCCCAGGTAAAGCGTTCATCCAGCAG -ATGCGAGAATGCCGGAGCCTGACCGAAGTTCCATTCCCAGCTACTCTGGCGGGCAAAGGTTTCGGCGAAGTTTGGCAAGT -CTGGCGTTTTGTTCGGGGAGATGATTTCCGCTTCCACGCGCTCGCCATAATGGGCGAAAAAGGCCTCGGTTATGGCCTCG -CAAACCTGCTCATGGGTGATCCCCGGCAACAGCTCGGTGAGGTTGGTCACGCGGGAACGTACCGACGTAATGCCTTTCGC -CGCCAGTTTCTTTTTATCCGGATTGAGATAGTTTGCCAGGCGGCTGAGGTCGGCATTGAGTAGCAAGGTGCCGTGGTGGA -AGCCGCGATCTTTGGTTTCGCGATAGGCCGAGCCTGAGACTTTGCGGTCGCCTTCGACGGTTTTCACCACCAGATCGTTA -CGTCCGGACGCTTCGGCGCTGACGCCGAGCGCGTTCAGCGCATTGAGCACAATCGACGTGGAGATAGTTTTATCGTACTC -CGGCTTGCCAGCCATAAAGGTAAAGCAGGTATTGCCGAGATCGTGGAACACCGCGCCGCCACCGCTACTGCGCCGCGCCA -GGCGGACGTTATCTTCTTCCATCCGCCGGGTATTACACTCTTTCCACGGGTTCTGCGCGCGACCAATTACTACCGTGTCG -GCATTGCGCCAGAGAAACAGAACGCGCTGCGTGGCGGGCATTTGGCGAAAAATACACTCTTCCACCGCCAGGTTAAACCA -CGGGTCGTAAGAGTCAGAGATGAGCAGGCGTAATGTGGACATAACGATTTCCTTTCTTGTAGTAATGGGTCACTCTTTTT -TCTCGCTTTCTTCCTCTTCCGGCACCGGTTTGCTGGCGGTTAACAGGAAGGGCGATTGCTGCCAGCGGGTGCGTTTACCC -TGTAGCAGCGTGCGGGTCAGCACTACACCGATTGCCAGTGAGAGCAGCAACATCAGGCGTAAAATGTTAGTGGTGTTATC -CACCTGTTGGGCTTCGGTGGCGAGCGTATGGGTGTCGAGTGTCAGGCGCAGATAGCCGAGCGGTCCGTTTTTACCCGCAA -TTGGCTCGACAATCTGCTGGTTAAAATAGCCGCCTGCTTTTTTACCGTCGAGCGCCAGCCGGTCGCGCACTTCGACGCTT -TCGCCAGAACGTGCGATAAGATCGCCTTGTTCGTCATACACACCCGCGTCGAGGATACGGCTTTCATCCGTTAACTGATC -GAGGATCGCCTGAATGCGTTTTTCATCCGGTGAGTCGGTACGCATCAGCGGTGCAACGTTCAGCGTCACCTGACGCGCCA -GGGTGCGGGCCAGTTCTTCCAGCTGTGGATTACGCTGTCGCTGGTGGTTTTGACTAAACCATGACGCTCCCTGCATCAGC -GCCACTAACAAGGCAAGACAGAACAGGACAATCACTGCCCGATGCAGCCGGAATTTCAGTTTTGTGCGAGCCATCTTCCA -CCCTTTGAAAATTTGAGACTTAATGTTGCCAGAAGCAATGGATACAAGGTAGCCTCATGCGTTATTTTCCCTGCTTCGAA -CGATTTTACAGGAGCCTTAATGCCTAACATTACCTGGTGCGACCTGCCTGAAGATGTCTCTTTATGGCCGGGTCTGCCTC -TTTCATTAAGTGGTGATGAAGTGATGCCACTGGATTACCACGCAGGTCGTAGCGGCTGGCTGCTGTATGGTCGTGGGCTG -GATAAACAACGTCTGACCCAATACCAGAGCAAACTGGGTGCGGCGATGGTGATTGTTGCCGCCTGGTGCGTGGAAGATTA -TCAGGTGATTCGTCTGGCAGGTTCACTCACCGCACGGGCTACACGCCTGGCCCACGAAGCGCAGCTGGATGTCGCCCCGC -TGGGGAAAATCCCGCACCTGCGCACGCCGGGTTTGCTGGTGATGGATATGGACTCCACCGCCATCCAGATTGAATGTATT -GATGAAATTGCCAAACTGGCCGGAACGGGCGAGATGGTGGCGGAAGTAACCGAACGGGCGATGCGCGGCGAACTCGATTT -TACCGCCAGCCTGCGCAGCCGTGTGGCGACGCTGAAAGGCGCTGACGCCAATATTCTGCAACAGGTGCGTGAAAATCTGC -CGCTGATGCCAGGCTTAACGCAACTGGTGCTCAAGCTGGAAACGCTGGGCTGGAAAGTGGCGATTGCCTCCGGCGGCTTT -ACTTTCTTTGCTGAATACCTGCGCGACAAGCTGCGCCTGACCGCCGTGGTAGCCAATGAACTGGAGATCATGGACGGTAA -ATTTACCGGCAATGTGATCGGCGACATCGTAGACGCGCAGTACAAAGCGAAAACTCTGACTCGCCTCGCGCAGGAGTATG -AAATCCCGCTGGCGCAGACCGTGGCGATTGGCGATGGAGCCAATGACCTGCCGATGATCAAAGCGGCAGGGCTGGGGATT -GCCTACCATGCCAAGCCAAAAGTGAATGAAAAGGCGGAAGTCACCATCCGTCACGCTGACCTGATGGGGGTATTCTGCAT -CCTCTCAGGCAGCCTGAATCAGAAGTAATTGCTCGCCCGCCATCCTGCGGGCGGCACAGCATTAACGAGGTACACCGTGG -CAAAAGCTCCAAAACGCGCCTTTGTTTGTAATGAATGCGGGGCCGATTATCCGCGCTGGCAGGGGCAGTGCAGTGCCTGT -CATGCCTGGAACACCATCACCGAGGTGCGTCTTGCTGCGTCGCCAATGGTGGCGCGTAACGAGCGTCTCAGCGGCTATGC -CGGTAGCGCCGGGGTGGCAAAAGTCCAGAAACTCTCCGATATCAGCCTTGAAGAGCTGCCGCGTTTTTCCACCGGATTTA -AAGAGTTCGACCGCGTACTAGGCGGCGGCGTGGTGCCAGGAAGTGCCATTCTGATTGGCGGTAACCCTGGTGCGGGGAAA -TCCACGCTGCTACTGCAAACGCTGTGCAAACTGGCCCAGCAGATGAAAACGCTGTATGTCACCGGCGAAGAGTCGCTGCA -ACAGGTGGCAATGCGCGCTCATCGCCTTGGCCTGCCGACTGACAATCTCAATATGTTGTCGGAAACCAGCATCGAACAGA -TCTGCCTGATTGCCGAAGAAGAGCAACCGAAGCTGATGGTAATTGACTCGATCCAGGTGATGCATATGGCGGATGTACAG -TCATCGCCTGGTAGCGTGGCGCAGGTGCGTGAAACGGCGGCTTATTTGACACGCTTCGCCAAAACGCGCGGTGTGGCGAT -TGTCATGGTGGGGCACGTAACCAAAGATGGTTCGCTGGCTGGCCCGAAAGTGCTGGAACACTGTATCGACTGTTCGGTGC -TTTTGGATGGCGATGCCGACTCCCGTTTTCGCACCTTGCGCAGCCATAAAAACCGCTTCGGCGCGGTGAATGAGCTGGGC -GTCTTCGCGATGACCGAACAGGGGCTGCGTGAAGTCAGCAACCCTTCGGCAATTTTCTTAAGTCGCGGCGATGAAGTGAC -CTCCGGTAGCTCAGTGATGGTGGTATGGGAAGGAACGCGTCCACTGCTGGTGGAGATTCAGGCGCTGGTCGATCACTCGA -TGATGGCGAACCCACGCCGCGTGGCAGTGGGGCTGGAACAAAACCGTCTGGCAATCCTGCTGGCTGTGTTGCACCGTCAC -GGTGGTCTGCAAATGGCCGATCAGGATGTGTTTGTGAACGTGGTCGGCGGCGTGAAGGTAACCGAAACCAGTGCCGACTT -AGCGTTACTGCTGGCGATGGTTTCCAGCCTGCGCGACAGACCGCTGCCGCAGGATCTGGTGGTGTTTGGTGAAGTCGGGC -TGGCAGGGGAGATCCGCCCGGTGCCCAGCGGTCAGGAACGAATCTCTGAAGCGGCGAAACACGGTTTTCGCCGGGCGATT -GTTCCGGCGGCTAACGTGCCGAAAAAAGCGCCGGAAGGGATGCAGATTTTTGGCGTTAAAAAACTCTCCGACGCGCTTAG -CGTGTTCGACGACTTATAATGAGATATACGGAGGGAGATATGTCGTCATTTGATTACCTGAAAACTGCCATCAAGCAACA -GGGCTGCACGCTACAGCAGGTAGCTGATGCCAGCGGTATGACCAAAGGGTATTTAAGCCAGTTACTGAATGCCAAAATCA -AAAGCCCCAGCGCGCAAAAGCTGGAGGCGTTGCACCGTTTTTTGGGGCTTGAGTTTCCCCGGCAGAAGAAAACGATCGGT -GTCGTATTCGGTAAGTTCTACCCACTGCATACCGGACATATCTACCTTATCCAGCGCGCCTGTAGCCAGGTTGACGAGCT -GCATATCATTATGGGTTTTGACGATACCCGTGACCGCGCGTTGTTCGAAGACAGTGCCATGTCGCAGCAGCCGACCGTGC -CGGATCGTCTGCGTTGGTTATTGCAAACTTTTAAATATCAGAAAAATATTCGCATTCATGCTTTCAACGAAGAGGGCATG -GAGCCGTATCCGCACGGCTGGGATGTGTGGAGCAACGGCATCAAAAAGTTTATGGCTGAAAAAGGGATCCAGCCGGATCT -GATCTACACCTCGGAAGAAGCCGATGCGCCACAGTATATGGAACATCTGGGGATCGAGACGGTGCTGGTCGATCCGAAAC -GTACCTTTATGAGTATCAGCGGTGCGCAGATCCGCGAAAACCCGTTCCGCTACTGGGAATATATTCCTACCGAAGTGAAG -CCGTTTTTTGTGCGTACCGTGGCGATCCTTGGCGGCGAGTCGAGCGGTAAATCCACCCTGGTAAACAAACTTGCCAATAT -CTTCAACACCACCAGTGCGTGGGAATATGGCCGCGATTATGTCTTTTCACACCTCGGCGGTGATGAGATCGCATTGCAGT -ATTCTGACTACGATAAAATCGCGCTGGGCCACGCTCAATACATTGATTTTGCGGTGAAATATGCCAATAAAGTGGCATTT -ATCGATACCGATTTTGTCACCACTCAGGCGTTCTGCAAAAAGTACGAAGGGCGGGAACATCCGTTCGTGCAGGCGCTGAT -TGATGAATACCGTTTCGATCTGGTGATCCTGCTGGAGAACAACACGCCGTGGGTGGCGGATGGTTTACGCAGCCTCGGCA -GTTCGGTGGATCGCAAAGAGTTCCAGAACTTGCTGGTGGAGATGCTCGAAGAGAACAATATCGAATTTGTGCGGGTTGAA -GAGGAAGATTACGACAGTCGTTTCCTGCGCTGCGTGGAACTGGTGCGGGAGATGATGGGGGAGCAGAGATAACCGTGATG -AAACTGCTCAAAGGCGAGGTATAAAATGAGTTTTTTTGATGAGTTGAAAACCTCTCTGGAAGAGGCTGTCGAGATTAAAC -AAGGTTTGAAAAAACCTGCACGGGTGACCCGCCACGAAATTGAGGATGCTAAGGCTGTTGTAGACCGGAAACGGTGTTCA -CGCCGCATCCGGCATTCGGTGCTCAATGCCTGATGCGACGCTTACCGCGTCTTATCAGGCCTACAGTTTTACAACGTATT -GAAATTGCTGGTTTTGTAGGCCGGATAAGGCGTTCGCGCCGCATCCGGCATTTTACGCATTACTTCGCAATACGCTTGTA -CTTGATACGCTTCGGCTCCAGCGCGTCTGCGCCCAGCGTGCGTTTCTTGTACTCTTCGTACTCGGTAAAGTTACCTTCGA -AGAACTCAACTTTACCTTCATCCTGGTAATCCAGAATGTGCGTGGCGATACGGTCGAGGAACCAACGGTCGTGCGAGATA -ACCATCGCACAGCCCGGGAACTCCAGCAGGGCGTTTTCCAGCGCGCGCAGGGTTTCGATATCCAGGTCGTTGGTTGGTTC -GTCGAGCAGCAGCATGTTGCCGCCAACCTGCAGCAGCTTCGCCAGATGCAGACGACCGCGCTCACCACCGGAGAGTTCAC -CAACGCGTTTACCCTGATCAACCCCTTTAAAGTTAAAGCGGCCAACGTAGGCGCGGCTTGGCATCTCGGTGTTGCCGATC -TTCATGATATCCAGCCCGCCGGAAACTTCTTCCCAAACGGTTTTGCTGTTATCCATTGAGTCACGGAACTGATCAACCGA -CGCCAGTTTCACCGTTTCACCCAAAGTGATGGTGCCGCTGTCCGGCTGTTCCTGACCAGAGATCATACGGAACAGGGTCG -ATTTACCCGCACCGTTCGGACCGATGATCCCGACGATCGCTCCTTTCGGGATCGAGAAGCTCAGGTCATCAATCAGCAGA -CGATCGCCATAGGATTTACGCAGGTTGCTGACTTCCAGCACTTTATCGCCCAGACGCGGTCCAGGTGGAATAAACAGTTC -GTTGGTTTCGTTACGTTTCTGATATTCGGTGCTGTTCAGTTCTTCAAAGCGCGCCAGACGTGCTTTACCTTTCGACTGAC -GGCCTTTAGTACCTTGACGTACCCATTCCAGCTCTTTCTCAATCGACTTACGACGCGCCGCTTCTTGTGAAGCTTCCTGC -GCCAGGCGCTGATCTTTCTGCTCCAGCCAGGAGGAGTAGTTACCTTCCCACGGAATACCTTCACCGCGGTCAAGTTCGAG -GATCCAGCCTGCAACGTTATCGAGGAAGTAACGGTCGTGGGTAATCGCCACAACGGTGCCTTCGAAGTCGTGCAGGAAGC -GTTCCAGCCAGGCCACGGATTCGGCATCCAGGTGGTTGGTCGGTTCGTCGAGCAGCAGCATGTCTGGTTTTTCCAGCAGC -AGGCGGCACAACGCTACGCGACGACGTTCACCACCGGAGAGGTTAGCGATTTTCGCGTCCCAGTCCGGCAGACGTAGCGC -ATCCGCCGCACGCTCCAGCTGTACGTTCAGATTATGACCGTCGTGAGCCTGAATGATCTCTTCCAGACGGCCTTGTTCAG -CGGCCAGCTTGTCAAAATCGGCATCCGGATCGGCGTACAGCGCATACACTTCATCCAGGCGTTTCAGGGCGTTAACCACT -TCTGAAACCGCTTCTTCAATGGACTCACGCACGGTGTGTTCCGGGTTCAGCTGCGGTTCCTGCGGCAGATAACCAATCTT -GATGTCTGGCTGCGGACGCGCTTCACCTTCGATGTCTTTATCAATGCCCGCCATAATGCGCAGCAGGGTGGACTTACCCG -CGCCATTCAGACCCAGGACACCAATTTTTGCCCCAGGGAAGAAACTCAGAGAGATGTTTTTCAAAATATGACGTTTCGGC -GGAACAACTTTGCCGACACGATGCATGGTATAAACGAATTGAGCCACGTTGGACTTCGCCTCTATGTTTATCGTGATAAT -GAGTTTTCAAAGGCGAAGTGTAGCCTTTTTCCCCGCCTAATCCCAGCCGGTCGATCACCCTCGCAGTAAAAGTAAAAAAG -TGTCCGTAACGTGGCGTAAACGGCAATGACTGGTTAGCATAAATCTATTACGCGGCATGACGCTGCATTGATGTATTTAC -ACTTAGAGGATGCGCTTGTGGAAAAAGCCAAACAAGTTACCTGGCGGCTGTTGGCTGCCGGTGTCTGTCTGCTGACGGTC -AGCAGCGTGGCGCGAGCCGACTCACTGGATGAGCAGCGTAGTCGTTACGCGCAAATCAAGCAGGCCTGGGATAATCGACA -AATGGATGTGGTCGAACAAATGATGCCTGGACTGAAGGATTATCCGCTTTATCCCTACCTGGAATACCGCCAGATCACCG -ATGATCTGATGAATCAACCGGCGGTGACGGTCACTAACTTTGTTCGCGCTAACCCCACGCTTCCTCCCGCTCGCACGCTG -CAATCTCGTTTCGTCAATGAACTGGCGCGGCGTGAAGACTGGCGTGGCTTGTTAGCCTTTAGCCCGGAAAAGCCCGGAAC -TACCGAAGCGCAATGTAATTACTACTATGCGAAATGGAACACCGGGCAGAGTGAAGAAGCCTGGCAAGGGGCGAAAGAGC -TGTGGCTAACCGGCAAGAGCCAGCCTAACGCCTGTGACAAGTTATTTAGCGTCTGGCGTGCGTCAGGTAAACAAGATCCG -CTGGCGTATTTAGAGCGTATCCGTCTGGCGATGAAAGCGGGTAACACAGGCCTGGTAACAGTGCTGGCAGGGCAGATGCC -TGCCGATTACCAGACTATCGCCTCGGCAATCATTTCACTGGCGAACAACCCTAATACGGTACTGACCTTCGCGCGTACAA -CTGGCGCGACCGATTTTACCCGTCAAATGGCGGCGGTGGCGTTTGCCAGTGTGGCGCGGCAGGATGCTGAGAATGCACGG -CTGATGATCCCATCGCTTGCCCAGGCGCAGCAGCTTAATGAAGATCAGATTCAGGAGCTGCGCGATATCGTCGCCTGGCG -TTTGATGGGCAACGATGTCACCGACGAGCAGGCGAAATGGCGCGATGACGCCATTATGCGCTCGCAATCTACTTCGCTTA -TTGAACGCCGTGTACGAATGGCGCTTGGCACCGGCGATCGTCGCGGCCTGAATACCTGGCTGGCGCGTCTGCCTATGGAA -GCGAAAGAGAAAGATGAATGGCGTTACTGGCAGGCGGATTTATTGCTGGAACGCGGACGTGAAGCTGAAGCAAAAGAGAT -TTTGCATCAACTCATGCAACAGCGTGGTTTCTACCCGATGGTTGCAGCACAACGCATCGGCGAAGAGTATGAGCTGAAGA -TTGATAAAGCGCCGCAGAATGTTGACAGCGCCCTGACTCAGGGGCCGGAGATGGCGCGCGTGCGCGAGTTGATGTACTGG -AATCTCGATAATACCGCGCGTAGCGAGTGGGCCAATCTGGTGAAGAGCAAGTCAAAAACAGAGCAGGCTCAACTGGCGCG -GTATGCTTTCAACAACCAATGGTGGGATCTTAGCGTTCAGGCAACGATCGCCGGGAAGCTGTGGGATCATCTGGAAGAGC -GATTCCCGCTGGCTTACAACGATCTTTTCAAACGCTACACCAGCGGTAAGGAGATCCCGCAAAGCTATGCGATGGCGATT -GCTCGTCAGGAGAGCGCCTGGAATCCGAAAGTGAAATCACCGGTAGGGGCCAGCGGCTTGATGCAGATTATGCCTGGTAC -AGCGACCCATACGGTGAAGATGTTCTCTATTCCCGGTTATAGCAGTCCTGGGCAATTGCTGGATCCGGAAACGAATATCA -ACATTGGCACCAGTTACCTGCAATATGTTTATCAGCAGTTTGGCAATAATCGTATTTTCTCCTCAGCAGCTTATAACGCC -GGACCAGGGCGGGTGCGAACCTGGCTTGGCAACAGCGCCGGGCGTATCGACGCAGTGGCATTTGTCGAGAGTATTCCATT -CTCCGAGACGCGCGGTTATGTGAAGAACGTGCTGGCTTATGACGCTTACTACCGCTATTTCATGGGGGATAAACCGACGT -TGATGAGCGCCACGGAATGGGGACGTCGTTACTGATCCGCACGTTTATGATATGCTATCGTACTCTTTAGCGAGTACAAC -CGGGGGAGGCATTTTGCTTCCCCCGCTAACAATGGCGACATATTATGGCCCAACAATCACCCTATTCAGCAGCGATGGCA -GAACAGCGTCACCAGGAGTGGTTACGTTTTGTCGACCTGCTTAAGAATGCCTACCAAAACGATCTCCATTTACCGTTGTT -AAACCTGATGCTGACGCCAGATGAGCGCGAAGCGTTGGGGACTCGCGTGCGTATTGTCGAAGAGCTGTTGCGCGGCGAAA -TGAGCCAGCGTGAGTTAAAAAATGAACTCGGCGCAGGCATCGCGACGATTACGCGTGGATCTAACAGCCTGAAAGCCGCG -CCCGTCGAGCTGCGCCAGTGGCTGGAAGAGGTGTTGCTGAAAAGCGATTGATTTTGTAGGCCTGATAAGACGTGGCGCAT -CAGGCATCGTGCACCGAATGCCGGATGCGGCGTGAACGCCTTATCCGTCCTACAAATACCCGTAATTTCAATATGTTTGG -TAGGCATGATAAGACGCGGCAGCGTCGCATCAGGCGCTTAATACACGGCATTATGAAACGGACTCAGCGCCAGGATCACC -GCCTGGTGATAGACGCTGGCGCGAGTGAGTTTCCCGGCGGTAAACACGCCGATCGCCCCTTCCTTACGACCAATCTCATC -AATACCGGTATAACGCGACATCACGGGACCAAGCGCCTCACCTTCACGCACTTTTTCCAGAATCACCGCAGGCAACGGCA -AAGTAGCCGAACGCGCCTCGCCGCGCTGGCTGGCGTTTTCAATCACCACCCAACTGAAAGTGCTGTCACCATCGATGCCA -GCTTCAATCGCCACCCAAAAATCAGCCTCTGGAAGTAAACGGCGGGCATTGGCTACCCGATTTCGTGCGCCAGCGCGCGT -TTCCTCACTGCCAAAGGGCTGTTCCGGTACACCGCTCTCGACGGCAACGGATGCAATATGGCAGGATCCTTCGCCGAAGA -TCTCGTGAAATGCCTGCAGAATGGCCTGAATTTTAGCGGGATTGGTGGTCGCACAGACAACTTGGTGCATAATCAGCATT -ACTCAGAAAATTAACGTTACAGCAGTATACGGAAAAAAAGCATGTTACAGGTATACCTAGTCCGCCACGGTGAAACGCAG -TGGAACGCCGAGCGACGTATTCAGGGCCAGTCTGACAGCCCGCTGACCGCCAAAGGTGAGCAACAGGCGATGCAGGTGGC -AACCCGTGCCAAAGAGCTTGGCATTACGCATATCATCAGTAGCGATTTAGGACGCACCCGGCGTACGGCGGAAATCATCG -CCCAGGCCTGCGGCTGTGACATCATCTTTGATTCTCGCCTGCGTGAATTAAACATGGGTGTGCTGGAAAAAAGACATATC -GATTCTCTGACCGAAGAAGAAGAGAACTGGCGTCGGCAGCTGGTCAATGGCACCGTTGACGGGCGTATTCCTGAAGGCGA -GTCAATGCAGGAGCTCAGCGATCGCGTCAATGCGGCACTGGAATCTTGCCGGGACTTACCGCAGGGAAGCCGACCGCTGC -TGGTGAGTCATGGTATTGCACTGGGATGCCTGGTGAGTACGATTCTCGGATTACCAGCATGGGCAGAGCGCCGCTTACGT -CTGCGTAACTGTTCTATTTCGCGCGTGGATTATCAGGAAAGCCTGTGGCTGGCGTCTGGCTGGGTCGTTGAAACCGCAGG -GGACATCTCGCATCTGGACGCCCCTGCATTAGATGAGCTGCAGCGTTAACGACGGATCGGAATCAGCAGTTCACAGCGTA -GATTAATTGGGCGATCTCCCGCTTTGGCATCTTCTGCCGGGTAGTATCGCTCAATATCCTGACCTTTACGGCGCGTCAGG -TTGAGCATTGGCATGCACGTTCCGTATACCGTCAGGATAAACTCCTGCACGCCGGTTCCCAGACCTTCATAGGTAAACAT -CACATATTCGCCGCCCTGCAGCATCACCGGATGCCCCGTCAGTACATAGCCATCTGCCTGATCCTGGGCTAACGCGGTGG -TATAGAATACCTCTTGCTCGTCGTCTTTATCCTGACTCGGACGCGTTTCATTCAGGCCGTAGAGCACCGGCGGAATGGTC -GGCGCGTTGCCGAGAAAATCGTGCCAGAACTGATAACGCATTTCATGGCGGAAATCAGAGATTTGCTCCAGCGAACAGGA -GTAGCTCTGGGTAACACCAATCAGCGGCGTATCTTCCAGGGTGACAAATTTGTGCTCTGGCATAGTGAATTCACCCAGGC -GTAGCGGCGGGCGAATACCAAAGGCGCTCCATTCAGGAGAACGGCGGTAAAGTGCAGGAGTCTGGGCAAACTGCTTCTTG -AATGCGCGGGTAAATGTCTGTTGAGAGTCGAAGCGGTATTGCAGCGCGATGTCCAGAATCGGACGCGCAGTCAGGCGTAG -TGCGACCGCCGATTTCGACAAACGACGAGCACGAATATACGCGCCAATAGCATGGCCAGTGACATCTTTAAACATTCTCT -GTAAGTGCCACTTGGAATAACCTGCTTTCGCCGCTACATTGTCGAGCGACAGGGGCTGATCCAGATGACCTTCCAGCCAG -ATTAAAAGGTCGCGAATAATGCCGGCCTGATCCATAAAATATCCTCATCCTTTCAACAACGAGCACCTGACATCAGGTAA -TTGGATAATAGCATTTTTTGCTGTTTTAGCATTCAGTGTTTTTTTCTTAGTAGAGTATGTTTTAGGGCTTGACGGAAATA -AAAGTATTGAGATTTTGTTCTTAATCAATATGTTATTTACCGTGACGAACTAATTGCTCGTGTAATAGATAAAAATGGTA -ACAATATGAAATACAAGCATTTGATCCTGTCTTTAAGCCTGATAATGCTGGGGCCATTGGCTCATGCAGAAGAGATTGGT -TCGGTCGACACCGTATTTAAAATGATCGGCCCGGATCACAAAATTGTTGTGGAAGCCTTTGATGATCCCGATGTGAAAAA -TGTCACCTGTTATGTGAGCCGGGCGAAAACCGGTGGTATTAAAGGGGGATTGGGTCTGGCGGAAGATACCTCCGATGCGG -CCATTTCTTGTCAGCAAGTCGGGCCGATTGAACTGTCGGATCGTATTAAAAACGGCAAAGCTCAGGGCGAGGTAGTATTC -AAAAAACGCACGTCCCTGGTCTTTAAGTCGTTACAGGTCGTGCGCTTTTATGATGCCAAACGCAACGCGCTCGCTTATCT -GGCTTACTCCGACAAAGTTGTAGAAGGTTCGCCGAAAAACGCGATTAGCGCGGTTCCTGTCATGCCGTGGCGGCAATAAC -AGAGGCGATTTATGCAACGGGAAACGGTCTGGTTAGTGGAAGATGAGCAAGGGATAGCCGACACGCTGGTCTACATGTTG -CAGCAGGAAGGTTTTGCCGTCGAGGTCTTTGAGCGAGGCTTGCCGGTGCTGGATAAAGCTCGCAAGCAGGTACCCGACGT -CATGATTCTCGATGTTGGTCTGCCGGATATTAGCGGCTTTGAATTGTGCCGCCAGTTACTGGCGCTCCATCCGGCGTTAC -CTGTACTGTTCCTGACGGCCCGAAGTGAAGAGGTCGATCGCCTGCTTGGGCTGGAAATTGGTGCTGACGACTACGTGGCT -AAACCGTTTTCACCCCGCGAAGTGTGCGCCAGGGTGCGCACCTTACTGCGTCGGGTGAAGAAGTTCTCGACGCCGTCTCC -CGTCATCCGTATTGGACATTTTGAATTGAATGAACCCGCGGCGCAGATCAGCTGGTTTGACACGCCATTAGCGCTGACTC -GGTATGAGTTTTTATTGTTGAAGACGTTACTCAAGTCACCGGGCCGCGTCTGGTCCCGCCAGCAACTGATGGATAGCGTA -TGGGAAGATGCGCAGGACACCTACGATCGCACCGTCGATACCCACATTAAAACGCTGCGTGCCAAGCTGCGCGCCATCAA -CCCCGATCTTTCACCGATTAATACTCATCGCGGCATGGGATATAGCCTGAGGGGCCTGTAATGCGTATCGGCATGCGGTT -GTTGCTGGGCTATTTTTTACTGGTGGCGGTGGCAGCCTGGTTCGTACTGGCCATTTTTGTCAAAGAAGTTAAACCGGGCG -TGCGAAGAGCAACGGAGGGGACGTTGATCGACACCGCAACGTTGCTGGCGGAGCTGGCGCGTCCCGATTTGCTCTCTGGG -GACCCAACGCATGGGCAACTGGCGCAGGCGTTTAATCAGCTACAACATCGCCCGTTTCGCGCCAATATCGGTGGCATTAA -CAAAGTGCGCAATGAATATCATGTCTATATGACCGATGCGCAGGGCAAAGTATTGTTCGATTCGGCAAATAAAGCCGTTG -GACAGGATTATTCGCGCTGGAATGACGTCTGGCTAACGTTGCGTGGTCAGTATGGTGCGCGCAGCACGTTGCAAAATCCT -GCCGATCCCGAAAGTTCTGTGATGTATGTTGCCGCACCGATTATGGACGGCTCGCGGCTTATTGGCGTTTTGAGCGTAGG -CAAACCGAACGCGGCGATGGCTCCGGTCATTAAGCGTAGCGAGCGGCGAATTTTATGGGCCAGCGCCATTTTGTTGGGGA -TTGCACTGGTGATTGGCGCAGGCATGGTTTGGTGGATCAACCGCTCTATTGCCCGGCTCACTCGCTATGCTGATTCCGTC -ACTGACAATAAGCCCGTTCCTCTCCCCGATCTCGGTAGTAGCGAGTTGCGTAAACTCGCGCAGGCGCTGGAAAGTATGCG -CGTGAAGCTGGAAGGGAAAAACTATATTGAGCAGTATGTTTACGCATTAACTCATGAGCTAAAAAGCCCACTGGCGGCGA -TTCGTGGAGCGGCGGAAATTTTACGCGAAGGTCCGCCGCCGGAAGTGGTGGCTCGTTTTACTGACAACATTCTGACGCAA -AATGCGCGTATGCAGGCATTGGTAGAAACGTTACTACGCCAGGCAAGACTGGAGAATCGTCAGGAAGTCGTTCTGACTGC -TGTTGATGTGGCGGCATTATTCCGCCGCGTCAGCGAAGCGCGCACCGTGCAGTTGGCAGAAAAAAAAATCACTCTGCATG -TTACGCCCACCGAGGTTAACGTTGCTGCTGAACCGGCGTTACTGGAGCAGGCGCTGGGAAATTTACTGGATAACGCCATC -GATTTTACCCCCGAGAGCGGTTGCATCACGCTAAGCGCCGAAGTGGATCAGGAACACGTCACGCTTAAGGTGCTGGATAC -CGGTAGTGGTATTCCTGACTACGCGCTTTCACGTATTTTTGAACGCTTTTACTCTTTGCCTCGTGCAAATGGGCAAAAAA -GCAGCGGTCTGGGGTTGGCGTTCGTCAGTGAGGTCGCCCGTTTGTTTAACGGCGAAGTCACGCTGCGCAACGTGCAGGAA -GGTGGCGTGCTGGCCTCGCTTCGACTTCACCGTCACTTCACATAGCTTCAAATTCTTCCCACATAGTCTTCGTATCCTGC -TGCCATTGCAAAGGAGAAGACTATGTTGAAATCCCCCCTGTTCTGGAAAATGACTAGCCTGTTTGGTGCAGTATTGCTGT -TGTTGATTCCGATAATGCTGATTCGGCAGGTGATTGTCGAACGTGCTGATTACCGTAGCGATGTGGAAGATGCGATTCGC -CAAAGTACCAGCGGGCCGCAAAAACTCGTTGGGCCGCTCATCGCTATTCCTGTGACCGAGCTTTATACGGTGCAGGAAGA -GGATAAAACCGTGGAGCGGAAACGAAGTTTTATCCATTTTTGGTTACCTGAGTCATTGATGGTTGATGGCAATCAGAACG -TGGAAGAACGCAAGATAGGGATTTATACCGGTCAGGTCTGGCACAGTGATTTAACGTTAAAAGCCGATTTCGATGTTTCG -CGTCTTAGCGAACTCAACGCGCCAAATATCACCTTAGGCAAGCCATTTATTGTGATTAGCGTCGGGGATGCGCGTGGTAT -TGGTGTGGTGAAAGCGCCTGAAGTTAACGGAACGGCGCTGACCATTGAACCCGGCACCGGGTTAGAGCAAGGCGGGCAGG -GCGTGCATATCCCTTTACCTGAAGGGGACTGGCGGAAGCAGAACCTGAAGCTGAATATGGCCCTGAATTTAAGCGGTACC -GGCGATCTTTCTGTGGTGCCTGGCGGGCGTAATAGCGAAATGACCTTAACCAGCAACTGGCCGCATCCCAGTTTTTTAGG -TGATTTTCTACCAGCCAAACGGGAAGTTAGCGAGTCAGGTTTTCAGGCGCACTGGCAAAGCAGCTGGTTTGCTAATAATC -TCGGTGAGCGTTTTGCTTCAGGCAATGATACCGGCTGGGAAAACTTCCCGGCGTTTAGCGTCGCAGTAACGACGCCAGCC -GATCAATACCAATTAACTGACCGGGCGACTAAGTACGCCATTCTGCTGATTGCACTGACTTTTATGGCGTTCTTTGTTTT -TGAAACGCTCACCGCGCAACGTTTACACCCAATGCAATATTTGCTGGTGGGGCTTTCATTGGTGATGTTTTATTTGCTCT -TGCTGGCGCTTTCTGAACATACCGGTTTTACCGTGGCATGGATAATCGCCAGTCTGATTGGGGCGATAATGAACGGTATT -TATTTGCAAGCGGTATTGAAAGGTTGGTGCAACAGCATGTTGTTTACCCTCGCGCTGTTGTTGCTGGATGGTGTGATGTG -GGGACTGCTCAACTCTGCCGATAGCGCGCTGTTGTTGGGAACCAGTGTGCTGGTGGTGGCGCTGGCCGGCATGATGTTTG -TGACCCGTAATATCGACTGGTATGCGTTTTCACTGCCGAAAATGAAAGCCAGTAAAGAAGTTACAACGGACGATGAGTTA -CGTATCTGGAAATAAGGTTGAAAAATAAAAACGGCGCTAAAAAGCGCCGTTTTTTTTGACGGTGGTAAAGCCGATTAATC -TTCCAGATCACCGCAGAAGCGATAACCTTCACCGTGAATGGTGGCGATGATTTCCGGCGTATCCGGCGTAGATTCGAAAT -GTTTACGAATACGGCGGATCGTCACGTCTACAGTACGGTCGTGCGGTTTCAGCTCACGGCCGGTCATTTTCTTCAGCAGT -TCAGCACGGGACTGAATTTTGCCTGGGTTTTCACAGAAGTGAAGCATGGCGCGGAACTCGCTGCGCGGCAGCTTGTACTG -CTCGCCATCAGGGCCGATCAACGAACGGCTGTTGATGTCCAGTTCCCAACCATTGAACTTGTAGCTTTCAACGCTACGAC -GTTCTTCGCTGACAGTACCCAGATTCATGGTACGGGACAGTAGGTTGCGTGCACGAATCGTCAGTTCACGCGGGTTGAAC -GGTTTGGTGATGTAGTCATCTGCACCGATTTCGAGGCCGAGAATTTTATCGACTTCGTTGTCACGGCCAGTCAGGAACAT -CAACGCAACATTCGCCTGCTCGCGCAGTTCACGCGCTAACAGAAGACCGTTCTTACCCGGCAGATTGATATCCATGATCA -CCAGGTTGATGTCATATTCAGAGAGGATCTGATGCATTTCCGCGCCATCTGTCGCTTCGAAAACATCATAGCCTTCCGCT -TCGAAAATACTTTTCAACGTGTTGCGTGTTACCAACTCGTCTTCAACGATAAGAATGTGCGGGGTCTGCATGTTTGCTAC -CTAAATTGCCAACTAAATCGAAACAGGAAGTACAAAAGTCCCTGACCTGCCTGATGCATGCTGCAAATTAACATGATCGG -CGTAACATGACTAAAGTACGTAATTGCGTTCTTGATGCACTTTCCATCAACGTCAACAACATCATTAGCTTGGTCGTGGG -TACTTTCCCTCAGGACCCGACAGTGTCAAAAACGGCTGTCATCCTAACCATTTTAACAGCAACATAACAGGCTAAGAGGG -GCCGGACACCCAATAAAACTACGCTTCGTTGACATATATCAAGTTCAATTGTAGCACGTTAACAGTTTGATGAAATCATC -GTATCTAAATGCTAGCTTTCGTCACATTATTTTAATAATCCAACTAGTTGCATCATACAACTAATAAACGTGGTGAATCC -AATTGTCGAGATTTATTTTTTATAAAATTATCCTAAGTAAACAGAAGGATATGTAGCATTTTTTAACAACTCAACCGTTA -GTACAGTCAGGAAATAGTTTAGCCTTTTTTAAGCTAAGTAAAGGGCTTTTTCTGCGACTTACGTTAAGAATTTGTAAATT -CGCACCGCGTAATAAGTTGACAGTGATCACCCGGTTCGCGGTTATTTGATCAAGAAGAGTGGCAATATGCGTATAACGAT -TATTCTGGTCGCACCCGCCAGAGCAGAAAATATTGGGGCAGCGGCGCGGGCAATGAAAACGATGGGGTTTAGCGATCTGC -GGATTGTCGATAGTCAGGCACACCTGGAGCCAGCCACCCGCTGGGTCGCACATGGATCTGGTGATATTATTGATAATATT -AAAGTTTTCCCGACATTGGCTGAATCGTTACACGATGTCGATTTCACTGTCGCCACCACTGCGCGCAGTCGGGCGAAATA -TCATTACTACGCCACGCCAGTTGAACTGGTGCCGCTGTTAGAGGAAAAATCTTCATGGATGAGCCATGCCGCGCTGGTGT -TTGGTCGCGAAGATTCCGGGTTGACTAACGAAGAGTTAGCGTTGGCTGACGTTCTTACTGGTGTGCCGATGGTGGCGGAT -TATCCTTCGCTCAATCTGGGGCAGGCGGTGATGGTCTATTGCTATCAATTAGCAACATTAATACAACAACCGGCGAAAAG -TGATGCAACGGCAGACCAACATCAACTGCAAGCTTTACGCGAACGAGCCATGACATTGCTGACGACTCTGGCAGTGGCAG -ATGACATAAAACTGGTCGACTGGTTACAACAACGCCTGGGGCTTTTAGAGCAACGAGACACGGCAATGTTGCACCGTTTG -CTGCATGATATTGAAAAAAATATCACCAAATAAAAAACGCCTTAGTAAGTATTTTTC diff --git a/tests/data/generic/fasta/NC_010473.fa b/tests/data/generic/fasta/NC_010473.fa deleted file mode 100644 index 79bc6729..00000000 --- a/tests/data/generic/fasta/NC_010473.fa +++ /dev/null @@ -1,66946 +0,0 @@ ->gi|170079663|ref|NC_010473.1| Escherichia coli str. K-12 substr. DH10B, complete genome -AGCTTTTCATTCTGACTGCAACGGGCAATATGTCTCTGTGTGGATTAAAAAAAGAGTGTCTGATAGCAGC -TTCTGAACTGGTTACCTGCCGTGAGTAAATTAAAATTTTATTGACTTAGGTCACTAAATACTTTAACCAA -TATAGGCATAGCGCACAGACAGATAAAAATTACAGAGTACACAACATCCATGAAACGCATTAGCACCACC -ATTACCACCACCATCACCATTACCACAGGTAACGGTGCGGGCTGACGCGTACAGGAAACACAGAAAAAAG -CCCGCACCTGACAGTGCGGGCTTTTTTTTTCGACCAAAGGTAACGAGGTAACAACCATGCGAGTGTTGAA -GTTCGGCGGTACATCAGTGGCAAATGCAGAACGTTTTCTGCGTGTTGCCGATATTCTGGAAAGCAATGCC -AGGCAGGGGCAGGTGGCCACCGTCCTCTCTGCCCCCGCCAAAATCACCAACCACCTGGTGGCGATGATTG -AAAAAACCATTAGCGGCCAGGATGCTTTACCCAATATCAGCGATGCCGAACGTATTTTTGCCGAACTTTT -GACGGGACTCGCCGCCGCCCAGCCGGGGTTCCCGCTGGCGCAATTGAAAACTTTCGTCGATCAGGAATTT -GCCCAAATAAAACATGTCCTGCATGGCATTAGTTTGTTGGGGCAGTGCCCGGATAGCATCAACGCTGCGC -TGATTTGCCGTGGCGAGAAAATGTCGATCGCCATTATGGCCGGCGTATTAGAAGCGCGCGGTCACAACGT -TACTGTTATCGATCCGGTCGAAAAACTGCTGGCAGTGGGGCATTACCTCGAATCTACCGTCGATATTGCT -GAGTCCACCCGCCGTATTGCGGCAAGCCGCATTCCGGCTGATCACATGGTGCTGATGGCAGGTTTCACCG -CCGGTAATGAAAAAGGCGAACTGGTGGTGCTTGGACGCAACGGTTCCGACTACTCTGCTGCGGTGCTGGC -TGCCTGTTTACGCGCCGATTGTTGCGAGATTTGGACGGACGTTGACGGGGTCTATACCTGCGACCCGCGT -CAGGTGCCCGATGCGAGGTTGTTGAAGTCGATGTCCTACCAGGAAGCGATGGAGCTTTCCTACTTCGGCG -CTAAAGTTCTTCACCCCCGCACCATTACCCCCATCGCCCAGTTCCAGATCCCTTGCCTGATTAAAAATAC -CGGAAATCCTCAAGCACCAGGTACGCTCATTGGTGCCAGCCGTGATGAAGACGAATTACCGGTCAAGGGC -ATTTCCAATCTGAATAACATGGCAATGTTCAGCGTTTCTGGTCCGGGGATGAAAGGGATGGTCGGCATGG -CGGCGCGCGTCTTTGCAGCGATGTCACGCGCCCGTATTTCCGTGGTGCTGATTACGCAATCATCTTCCGA -ATACAGCATCAGTTTCTGCGTTCCACAAAGCGACTGTGTGCGAGCTGAACGGGCAATGCAGGAAGAGTTC -TACCTGGAACTGAAAGAAGGCTTACTGGAGCCGCTGGCAGTGACGGAACGGCTGGCCATTATCTCGGTGG -TAGGTGATGGTATGCGCACCTTGCGTGGGATCTCGGCGAAATTCTTTGCCGCACTGGCCCGCGCCAATAT -CAACATTGTCGCCATTGCTCAGGGATCTTCTGAACGCTCAATCTCTGTCGTGGTAAATAACGATGATGCG -ACCACTGGCGTGCGCGTTACTCATCAGATGCTGTTCAATACCGATCAGGTTATCGAAGTGTTTGTGATTG -GCGTCGGTGGCGTTGGCGGTGCGCTGCTGGAGCAACTGAAGCGTCAGCAAAGCTGGCTGAAGAATAAACA -TATCGACTTACGTGTCTGCGGTGTTGCCAACTCGAAGGCTCTGCTCACCAATGTACATGGCCTTAATCTG -GAAAACTGGCAGGAAGAACTGGCGCAAGCCAAAGAGCCGTTTAATCTCGGGCGCTTAATTCGCCTCGTGA -AAGAATATCATCTGCTGAACCCGGTCATTGTTGACTGCACTTCCAGCCAGGCAGTGGCGGATCAATATGC -CGACTTCCTGCGCGAAGGTTTCCACGTTGTCACGCCGAACAAAAAGGCCAACACCTCGTCGATGGATTAC -TACCATCAGTTGCGTTATGCGGCGGAAAAATCGCGGCGTAAATTCCTCTATGACACCAACGTTGGGGCTG -GATTACCGGTTATTGAGAACCTGCAAAATCTGCTCAATGCAGGTGATGAATTGATGAAGTTCTCCGGCAT -TCTTTCTGGTTCGCTTTCTTATATCTTCGGCAAGTTAGACGAAGGCATGAGTTTCTCCGAGGCGACCACG -CTGGCGCGGGAAATGGGTTATACCGAACCGGACCCGCGAGATGATCTTTCTGGTATGGATGTGGCGCGTA -AACTATTGATTCTCGCTCGTGAAACGGGACGTGAACTGGAGCTGGCGGATATTGAAATTGAACCTGTGCT -GCCCGCAGAGTTTAACGCCGAGGGTGATGTTGCCGCTTTTATGGCGAATCTGTCACAACTCGACGATCTC -TTTGCCGCGCGCGTGGCGAAGGCCCGTGATGAAGGAAAAGTTTTGCGCTATGTTGGCAATATTGATGAAG -ATGGCGTCTGCCGCGTGAAGATTGCCGAAGTGGATGGTAATGATCCGCTGTTCAAAGTGAAAAATGGCGA -AAACGCCCTGGCCTTCTATAGCCACTATTATCAGCCGCTGCCGTTGGTACTGCGCGGATATGGTGCGGGC -AATGACGTTACAGCTGCCGGTGTCTTTGCTGATCTGCTACGTACCCTCTCATGGAAGTTAGGAGTCTGAC -ATGGTTAAAGTTTATGCCCCGGCTTCCAGTGCCAATATGAGCGTCGGGTTTGATGTGCTCGGGGCGGCGG -TGACACCTGTTGATGGTGCATTGCTCGGAGATGTAGTCACGGTTGAGGCGGCAGAGACATTCAGTCTCAA -CAACCTCGGACGCTTTGCCGATAAGCTGCCGTCAGAACCACGGGAAAATATCGTTTATCAGTGCTGGGAG -CGTTTTTGCCAGGAACTGGGTAAGCAAATTCCAGTGGCGATGACCCTGGAAAAGAATATGCCGATCGGTT -CGGGCTTAGGCTCCAGTGCCTGTTCGGTGGTCGCGGCGCTGATGGCGATGAATGAACACTGCGGCAAGCC -GCTTAATGACACTCGTTTGCTGGCTTTGATGGGCGAGCTGGAAGGCCGTATCTCCGGCAGCATTCATTAC -GACAACGTGGCACCGTGTTTTCTCGGTGGTATGCAGTTGATGATCGAAGAAAACGACATCATCAGCCAGC -AAGTGCCAGGGTTTGATGAGTGGCTGTGGGTGCTGGCGTATCCGGGGATTAAAGTCTCGACGGCAGAAGC -CAGGGCTATTTTACCGGCGCAGTATCGCCGCCAGGATTGCATTGCGCACGGGCGACATCTGGCAGGCTTC -ATTCACGCCTGCTATTCCCGTCAGCCTGAGCTTGCCGCGAAGCTGATGAAAGATGTTATCGCTGAACCCT -ACCGTGAACGGTTACTGCCAGGCTTCCGGCAGGCGCGGCAGGCGGTCGCGGAAATCGGCGCGGTAGCGAG -CGGTATCTCCGGCTCCGGCCCGACCTTGTTCGCTCTGTGTGACAAGCCGGAAACCGCCCAGCGCGTTGCC -GACTGGTTGGGTAAGAACTACCTGCAAAATCAGGAAGGTTTTGTTCATATTTGCCGGCTGGATACGGCGG -GCGCACGAGTACTGGAAAACTAAATGAAACTCTACAATCTGAAAGATCACAACGAGCAGGTCAGCTTTGC -GCAAGCCGTAACCCAGGGGTTGGGCAAAAATCAGGGGCTGTTTTTTCCGCACGACCTGCCGGAATTCAGC -CTGACTGAAATTGATGAGATGCTGAAGCTGGATTTTGTCACCCGCAGTGCGAAGATCCTCTCGGCGTTTA -TTGGTGATGAAATCCCACAGGAAATCCTGGAAGAGCGCGTGCGCGCGGCGTTTGCCTTCCCGGCTCCGGT -CGCCAATGTTGAAAGCGATGTCGGTTGTCTGGAATTGTTCCACGGGCCAACGCTGGCATTTAAAGATTTC -GGCGGTCGCTTTATGGCACAAATGCTGACCCATATTGCGGGTGATAAGCCAGTGACCATTCTGACCGCGA -CCTCCGGTGATACCGGAGCGGCAGTGGCTCATGCTTTCTACGGTTTACCGAATGTGAAAGTGGTTATCCT -CTATCCACGAGGCAAAATCAGTCCACTGCAAGAAAAACTGTTCTGTACATTGGGCGGCAATATCGAAACT -GTTGCCATCGACGGCGATTTCGATGCCTGTCAGGCGCTGGTGAAGCAGGCGTTTGATGATGAAGAACTGA -AAGTGGCGCTAGGGTTAAACTCGGCTAACTCGATTAACATCAGCCGTTTGCTGGCGCAGATTTGCTACTA -CTTTGAAGCTGTTGCGCAGCTGCCGCAGGAGACGCGCAACCAGCTGGTTGTCTCGGTGCCAAGCGGAAAC -TTCGGCGATTTGACGGCGGGTCTGCTGGCGAAGTCACTCGGTCTGCCGGTGAAACGTTTTATTGCTGCGA -CCAACGTGAACGATACCGTGCCACGTTTCCTGCACGACGGTCAGTGGTCACCCAAAGCGACTCAGGCGAC -GTTATCCAACGCGATGGACGTGAGTCAGCCGAACAACTGGCCGCGTGTGGAAGAGTTGTTCCGCCGCAAA -ATCTGGCAACTGAAAGAGCTGGGTTATGCAGCCGTGGATGATGAAACCACGCAACAGACAATGCGTGAGT -TAAAAGAACTGGGCTACACTTCGGAGCCGCACGCTGCCGTAGCTTATCGTGCGCTGCGTGATCAGTTGAA -TCCAGGCGAATATGGCTTGTTCCTCGGCACCGCGCATCCGGCGAAATTTAAAGAGAGCGTGGAAGCGATT -CTCGGTGAAACGTTGGATCTGCCAAAAGAGCTGGCAGAACGTGCTGATTTACCCTTGCTTTCACATAATC -TGCCCGCCGATTTTGCTGCGTTGCGTAAATTGATGATGAATCATCAGTAAAATCTATTCATTATCTCAAT -CAGGCCGGGTTTGCTTTTATGCAGCCCGGCTTTTTTATGAAGAAATTATGGAGAAAAATGACAGGGAAAA -AGGAGAAATTCTCAATAAATGCGGTAACTTAGAGATTAGGATTGCGGAGAATAACAACCGCCGTTCTCAT -CGAGTAATCTCCGGATATCGACCCATAACGGGCAATGATAAAAGGAGTAACCTGTGAAAAAGATGCAATC -TATCGTACTCGCACTTTCCCTGGTTCTGGTCGCTCCCATGGCAGCACAGGCTGCGGAAATTACGTTAGTC -CCGTCAGTAAAATTACAGATAGGCGATCGTGATAATCGTGGCTATTACTGGGATGGAGGTCACTGGCGCG -ACCACGGCTGGTGGAAACAACATTATGAATGGCGAGGCAATCGCTGGCACCTACACGGACCGCCGCCACC -GCCGCGCCACCATAAGAAAGCTCCTCATGATCATCACGGCGGTCATGGTCCAGGCAAACATCACCGCTAA -ATGACAAATGCCGGGTAACAATCCGGCATTCAGCGCCTGATGCGACGCTGGCGCGTCTTATCAGGCCTAC -GTTAATTCTGCAATATATTGAATCTGCATGCTTTTGTAGGCAGGATAAGGCGTTCACGCCGCATCCGGCA -TTGACTGCAAACTTAACGCTGCTCGTAGCGTTTAAACACCAGTTCGCCATTGCTGGAGGAATCTTCATCA -AAGAAGTAACCTTCGCTATTAAAACCAGTCAGTTGCTCTGGTTTGGTCAGCCGATTTTCAATAATGAAAC -GACTCATCAGACCGCGTGCTTTCTTAGCGTAGAAGCTGATGATCTTAAATTTGCCGTTCTTCTCATCGAG -GAACACCGGCTTGATAATCTCGGCATTCAATTTCTTCGGCTTCACCGATTTAAAATACTCATCTGACGCC -AGATTAATCACCACATTATCGCCTTGTGCTGCGAGCGCCTCGTTCAGCTTGTTGGTGATGATATCTCCCC -AGAATTGATACAGATCTTTCCCTCGGGCATTCTCAAGACGGATCCCCATTTCCAGACGATAAGGCTGCAT -TAAATCGAGCGGGCGGAGTACGCCATACAAGCCGGAAAGCATTCGCAAATGCTGTTGGGCAAAATCGAAA -TCGTCTTCGCTGAAGGTTTCGGCCTGCAAGCCGGTGTAGACATCACCTTTAAACGCCAGAATCGCCTGGC -GGGCATTCGCCGGCGTGAAATCTGGCTGCCAGTCATGAAAGCGAGCGGCGTTGATACCCGCCAGTTTGTC -GCTGATGCGCATCAGCGTGCTAATCTGCGGAGGCGTCAGTTTCCGCGCCTCATGGATCAACTGCTGGGAA -TTGTCTAACAGCTCCGGCAGCGTATAGCGCGTGGTGGTCAACGGGCTTTGGTAATCAAGCGTTTTCGCAG -GTGAAATAAGAATCAGCATATCCAGTCCTTGCAGGAAATTTATGCCGACTTTAGCAAAAAATGAGAATGA -GTTGATCGATAGTTGTGATTACTCCTGCGAAACATCATCCCACGCGTCCGGAGAAAGCTGGCGACCGATA -TCCGGATAACGCAATGGATCAAACACCGGGCGCACGCCGAGTTTACGCTGGCGTAGATAATCACTGGCAA -TGGTATGAACCACAGGCGAGAGCAGTAAAATGGCGGTCAAATTGGTAATAGCCATGCAGGCCATTATGAT -ATCTGCCAGTTGCCACATCAGCGGAAGGCTTAGCAAGGTGCCGCCGATGACCGTTGCGAAGGTGCAGATC -CGCAAACACCAGATCGCTTTAGGGTTGTTCAGGCGTAAAAAGAAGAGATTGTTTTCGGCATAAATGTAGT -TGGCAACGATGGAGCTGAAGGCAAACAGAATAACCACAAGGGTAACAAACTCAGCACCCCAGGAACCCAT -TAGCACCCGCATCGCCTTCTGGATAAGCTGAATACCTTCCAGCGGCATGTAGGTTGTGCCGTTACCCGCC -AGTAATATCAGCATGGCGCTTGCCGTACAGATGACCAGGGTGTCGATAAAAATGCCAATCATCTGGACAA -TCCCTTGCGCTGCCGGATGCGGAGGCCAGGACGCCGCTGCCGCTGCCGCGTTTGGCGTCGAACCCATTCC -CGCCTCATTGGAAAACATACTGCGCTGAAAACCGTTAGTAATCGCCTGGCTTAAGGTATATCCCGCCGCG -CCGCCTGCCGCTTCCTGCCAGCCAAAAGCACTCTCAAAAATAGACCAAATGACGTGGGGAAGTTGCCCGA -TATTCATTACGCAAATTACCAGGCTGGTCAGTACCCAGATTATCGCCATCAACGGGACAAAGCCCTGCAT -GAGCCGGGCGACGCCATGAAGACCGCGAGTGATTGCCAGCAGAGTAAAGACAGCGAGAATAATGCCTGTC -ACCAGCGGGGGAAAATCAAAAGAAAAACTCAGGGCGCGGGCAACGGCGTTCGCTTGAACTCCGCTGAAAA -TTATGCCATAGGCGATGAGCAAAAAGACGGCGAACAGAACGCCCATCCAGCGCATCCCCAGCCCGCGCGC -CATATACCATGCCGGTCCGCCACGAAACTGCCCATTGACGTCACGTTCTTTATAAAGTTGTGCCAGAGAA -CATTCGGCAAACGAGGTCGCCATGCCGATAAACGCGGCAACCCACATCCAAAAGACGGCTCCAGGTCCAC -CGGCGGTAATAGCCAGCGCAACGCCGGCCAGGTTGCCGCTACCCACGCGCGCCGCAAGACTGGTACACAA -TGACTGAAATGAGGTTAAACCGCCTGGCTGTGGATGAATGCTATTTTTAAGACTTTTGCCAAACTGGCGG -ATGTAGCGAAACTGCACAAATCCGGTGCGAAAAGTGAACCAACAACCTGCGCCGAAGAGCAGGTAAATCA -TTACCGATCCCCAAAGGACGCTGTTAATGAAGGAGAAAAAATCTGGCATGCATATCCCTCTTATTGCCGG -TCGCGATGACTTTCCTGTGTAAACGTTACCAATTGTTTAAGAAGTATATACGCTACGAGGTACTTGATAA -CTTCTGCGTAGCATACATGAGGTTTTGTATAAAAATGGCGGGCGATATCAACGCAGTGTCAGAAATCCGA -AACAGTCTCGCCTGGCGATAACCGTCTTGTCGGCGGTTGCGCTGACGTTGCGTCGTGATATCATCAGGGC -AGACCGGTTACATCCCCCTAACAAGCTGTTTAAAGAGAAATACTATCATGACGGACAAATTGACCTCCCT -TCGTCAGTACACCACCGTAGTGGCCGACACTGGGGACATCGCGGCAATGAAGCTGTATCAACCGCAGGAT -GCCACAACCAACCCTTCTCTCATTCTTAACGCAGCGCAGATTCCGGAATACCGTAAGTTGATTGATGATG -CTGTCGCCTGGGCGAAACAGCAGAGCAACGATCGCGCGCAGCAGATCGTGGACGCGACCGACAAACTGGC -AGTAAATATTGGTCTGGAAATCCTGAAACTGGTTCCGGGCCGTATCTCAACTGAAGTTGATGCGCGTCTT -TCCTATGACACCGAAGCGTCAATTGCGAAAGCAAAACGCCTGATCAAACTCTACAACGATGCTGGTATTA -GCAACGATCGTATTCTGATCAAACTGGCTTCTACCTGGCAGGGTATCCGTGCTGCAGAACAGCTGGAAAA -AGAAGGCATCAACTGTAACCTGACCCTGCTGTTCTCCTTCGCTCAGGCTCGTGCTTGTGCGGAAGCGGGC -GTGTTCCTGATCTCGCCGTTTGTTGGCCGTATTCTTGACTGGTACAAAGCGAATACCGATAAGAAAGAGT -ACGCTCCGGCAGAAGATCCGGGCGTGGTTTCTGTATCTGAAATCTACCAGTACTACAAAGAGCACGGTTA -TGAAACCGTGGTTATGGGCGCAAGCTTCCGTAACATCGGCGAAATTCTGGAACTGGCAGGCTGCGACCGT -CTGACCATCGCACCGGCACTGCTGAAAGAGCTGGCGGAGAGCGAAGGGGCTATCGAACGTAAACTGTCTT -ACACCGGCGAAGTGAAAGCGCGTCCGGCGCGTATCACTGAGTCCGAGTTCCTGTGGCAGCACAACCAGGA -TCCAATGGCAGTAGATAAACTGGCGGAAGGTATCCGTAAGTTTGCTATTGACCAGGAAAAACTGGAAAAA -ATGATCGGCGATCTGCTGTAATCATTCTTAGCGTGACCGGGAAGTCGGTCACGCTACCTCTTCTGAAGCC -TGTCTGTCACTCCCTTCGCAGTGTATCATTCTGTTTAACGAGACTGTTTAAACGGAAAAATCTTGATGAA -TACTTTACGTATTGGCTTAGTTTCCATCTCTGATCGCGCATCCAGCGGCGTTTATCAGGATAAAGGCATC -CCTGCGCTGGAAGAATGGCTGACATCGGCGCTAACCACGCCGTTTGAACTGGAAACCCGCTTAATCCCCG -ATGAGCAGGCGATCATCGAGCAAACGTTGTGTGAGCTGGTGGATGAAATGAGTTGCCATCTGGTGCTCAC -CACGGGCGGAACTGGCCCGGCGCGTCGTGACGTAACGCCCGATGCGACGCTGGCAGTAGCGGACCGCGAG -ATGCCTGGCTTTGGTGAACAGATGCGCCAGATCAGCCTGCATTTTGTACCAACTGCGATCCTTTCGCGTC -AGGTGGGCGTGATTCGCAAACAGGCGCTGATCCTTAACTTACCCGGTCAGCCGAAGTCTATTAAAGAGAC -GCTGGAAGGTGTGAAGGACGCTGAGGGTAACGTTGTGGTACACGGTATTTTTGCCAGCGTACCGTACTGC -ATTCAGTTGCTGGAAGGGCCATACGTTGAAACGGCACCGGAAGTGGTTGCAGCATTCAGACCGAAGAGTG -CAAGACGCGACGTTAGCGAATAAAAAAATCCCCCCGAGCGGGGGGATCTCAAAACAATTAGTGGGATTCA -CCAATCGGCAGAACGGTGCGACCAAACTGCTCGTTCAGTACTTCACCCATCGCCAGATAGATTGCGCTGG -CACCGCAGATCAGCCCAATCCAGCCGGCAAAGTGGATGATTGCGGCGTTACCGGCAATGTTACCGATCGC -CAGCAGGGCAAACAGCACGGTCAGGCTAAAGAAAACGAATTGCAGAACGCGTGCGCCTTTCAGCGTGCCG -AAGAACATAAACAGCGTAAATACGCCCCACAGACCCAGGTAGACACCAAGGAACTGTGCATTTGGCGCAT -CGGTCAGACCCAGTTTCGGCATCAGCAGAATCGCAACCAGCGTCAGCCAGAAAGAACCGTAAGAGGTGAA -TGCGGTTAAACCGAAAGTGTTGCCTTTTTTGTACTCCAGCAGACCAGCAAAAATTTGCGCGATGCCGCCG -TAGAAAATGCCCATGGCAAGAATAATACCGTCCAGAGCGAAATAACCCACGTTGTGCAGGTTAAGCAGAA -TGGTGGTCATGCCGAAGCCCATCAGGCCCAGCGGTGCCGGATTAGCCAACTTAGTGTTGCCCATAATTCC -TCAAAAATCATCATCGAATGAATGGTGAAATAATTTCCCTGAATAACTGTAGTGTTTTCAGGGCGCGGCA -TAATAATCAGCCAGTGGGGCAGTGTCTACGATCTTTTGAGGGGAAAATGAAAATTTTCCCCGGTTTCCGG -TATCAGACCTGAGTGGCGCTAACCATCCGGCGCAGGCAGGCGATTTGCAGTACGGCTGGAATCGTCACGC -GATAGGCGCTGCCGCTGACCGCTTTAACCCCATTTAGTGCCGCACCTACAGGGCCTCCCAGCCCCGCGCC -GCGCAGCAAACCATGCCCAAGTACGCTCATTGCTGCGTGGGTGCGTAAAATGCGGGTCAGTTGGCTGGAA -AGCAAATGCGACACACCTTTTGCCAATAATTTGTCTTTCATCAGCAGCGGCAGCAGCTCTTCCAGCTCAT -TCACCCTGGCATCGACCGCGTGCAGAAACTCCTGCTTATGTTCCTCGTCCATTTTCTTCCAGGTATTACG -CAGAAATTGTTCCAGTAACTGTTGCTCAATTTCAAACGTAGACATCTCTTTGTCGGCTTTCAGCTTCAAT -CGCTTTGAAACATCGAGCAAAATGGCCCGATACAATTTACCGTGTCCGCGCAGTTTGTTGGCGATACTAT -CGCCACCAAAATGCTGTAATTCTCCGGCAATCAGCTGCCAGTTGCGGCGATGTTGCTCGGGATGCCCTTC -CATCGATTTAAACAGTTCGTTGCGCATCAGTACGCTGGAGAGGCGAGTTTTGCCTTTTTCATTATGGGTG -AGCAATCGGGCGAAATTTGCCAACTGTTCCTCACTACAATGCTGAAGAAAATCCAGATCTGAATCATTCA -GGTAATTAACATTCATTTTTTGTGGCTTCTATATTCTGGCGTTAGTCGTCGCCGATAATTTTCAGCGTGG -CCATATCCGATGAGTTCACCGTATGACCCGAAAAGGTGATTTTTGAGACGCAGCGTTTATTGTCGTTATC -GCTGTTAATGTTGATCCAGTCAGTGGTTTGCCCTTCTTTTATTTCTGAAGGAATATTCAGGCTCTGACTG -GCGCTACGGGCGGCTTTGAAATAAACCGATGCACCGCTTAACTGTAAATCGCCATGGTCGGCAGAGAGTT -GTATGCGTTTCACAATGCGACAAACAGGAAGTTTCAGCGCCAGATCGTTGGTTTCGTTACGCGGCATTGC -AATGGCGCCGAGGAGTTTATGGTCGTTTGCCTGCGCCGTGCAGCACAGCATCAGGCTAATCGCCAGGCTG -GCGGAAATCGTAAAAACGGATTTCATAAGGATTCTCTTAGTGGGAAGAGGTAGGGGGATGAATACCCACT -AGTTTACTGCTGATAAAGAGAAGATTCAGGCACGTAATCTTTTCTTTTTATTACAATTTTTTGATGAATG -CCTTGGCTGCGATTCATTCTTTATATGAATAAAATTGCTGTCAATTTTACGTCTTGTCCTGCCATATCGC -GAAATTTCTGCGCAAAAGCACAAAAAATTTTTGCATCTCCCCCTTGATGACGTGGTTTACGACCCCATTT -AGTAGTCAACCGCAGTGAGTGAGTCTGCAAAAAAATGAAATTGGGCAGTTGAAACCAGACGTTTCGCCCC -TATTACAGACTCACAACCACATGATGACCGAATATATAGTGGAGACGTTTAGATGGGTAAAATAATTGGT -ATCGACCTGGGTACTACCAACTCTTGTGTAGCGATTATGGATGGCACCACTCCTCGCGTGCTGGAGAACG -CCGAAGGCGATCGCACCACGCCTTCTATCATTGCCTATACCCAGGATGGTGAAACTCTAGTTGGTCAGCC -GGCTAAACGTCAGGCAGTGACGAACCCGCAAAACACTCTGTTTGCGATTAAACGCCTGATTGGTCGCCGC -TTCCAGGACGAAGAAGTACAGCGTGATGTTTCCATCATGCCGTTCAAAATTATTGCTGCTGATAACGGCG -ACGCATGGGTCGAAGTTAAAGGCCAGAAAATGGCACCGCCGCAGATTTCTGCTGAAGTGCTGAAAAAAAT -GAAGAAAACCGCTGAAGATTACCTGGGTGAACCGGTAACTGAAGCTGTTATCACCGTACCGGCATACTTT -AACGATGCTCAGCGTCAGGCAACCAAAGACGCAGGCCGTATCGCTGGTCTGGAAGTAAAACGTATCATCA -ACGAACCGACCGCAGCTGCGCTGGCTTACGGTCTGGACAAAGGCACTGGCAACCGTACTATCGCGGTTTA -TGACCTGGGTGGTGGTACTTTCGATATTTCTATTATCGAAATCGACGAAGTTGACGGCGAAAAAACCTTC -GAAGTTCTGGCAACCAACGGTGATACCCACCTGGGGGGTGAAGACTTCGACAGCCGTCTGATCAACTATC -TGGTTGAAGAATTCAAGAAAGATCAGGGCATTGACCTGCGCAACGATCCGCTGGCAATGCAGCGCCTGAA -AGAAGCGGCAGAAAAAGCGAAAATCGAACTGTCTTCCGCTCAGCAGACCGACGTTAACCTGCCATACATC -ACTGCAGACGCGACCGGTCCGAAACACATGAACATCAAAGTGACTCGTGCGAAACTGGAAAGCCTGGTTG -AAGATCTGGTAAACCGTTCCATTGAGCCGCTGAAAGTTGCACTGCAGGACGCTGGCCTGTCCGTATCTGA -TATCGACGACGTTATCCTCGTTGGTGGTCAGACTCGTATGCCAATGGTTCAGAAGAAAGTTGCTGAGTTC -TTTGGTAAAGAGCCGCGTAAAGACGTTAACCCGGACGAAGCTGTAGCAATCGGTGCTGCTGTTCAGGGTG -GTGTTCTGACTGGTGACGTAAAAGACGTACTGCTGCTGGACGTTACCCCGCTGTCTCTGGGTATCGAAAC -CATGGGCGGTGTGATGACGACGCTGATCGCGAAAAACACCACTATCCCGACCAAGCACAGCCAGGTGTTC -TCTACCGCTGAAGACAACCAGTCTGCGGTAACCATCCATGTGCTGCAGGGTGAACGTAAACGTGCGGCTG -ATAACAAATCTCTGGGTCAGTTCAACCTAGATGGTATCAACCCGGCACCGCGCGGCATGCCGCAGATCGA -AGTTACCTTCGATATCGATGCTGACGGTATCCTGCACGTTTCCGCGAAAGATAAAAACAGCGGTAAAGAG -CAGAAGATCACCATCAAGGCTTCTTCTGGTCTGAACGAAGATGAAATCCAGAAAATGGTACGCGACGCAG -AAGCTAACGCCGAAGCTGACCGTAAGTTTGAAGAGCTGGTACAGACTCGCAACCAGGGCGACCATCTGCT -GCACAGCACCCGTAAGCAGGTTGAAGAAGCAGGCGACAAACTGCCGGCTGACGACAAAACTGCTATCGAG -TCTGCGCTGACTGCACTGGAAACTGCTCTGAAAGGTGAAGACAAAGCCGCTATCGAAGCGAAAATGCAGG -AACTGGCACAGGTTTCCCAGAAACTGATGGAAATCGCCCAGCAGCAACATGCCCAGCAGCAGACTGCCGG -TGCTGATGCTTCTGCAAACAACGCGAAAGATGACGATGTTGTCGACGCTGAATTTGAAGAAGTCAAAGAC -AAAAAATAATCGCCCTATAAACGGGTAATTATACTGACACGGGCGAAGGGGAATTTCCTCTCCGCCCGTG -CATTCATCTAGGGGCAATTTAAAAAAGATGGCTAAGCAAGATTATTACGAGATTTTAGGCGTTTCCAAAA -CAGCGGAAGAGCGTGAAATCAGAAAGGCCTACAAACGCCTGGCCATGAAATACCACCCGGACCGTAACCA -GGGTGACAAAGAGGCCGAGGCGAAATTTAAAGAGATCAAGGAAGCTTATGAAGTTCTGACCGACTCGCAA -AAACGTGCGGCATACGATCAGTATGGTCATGCTGCGTTTGAGCAAGGTGGCATGGGCGGCGGCGGTTTTG -GCGGCGGCGCAGACTTCAGCGATATTTTTGGTGACGTTTTCGGCGATATTTTTGGCGGCGGACGTGGTCG -TCAACGTGCGGCGCGCGGTGCTGATTTACGCTATAACATGGAGCTCACCCTCGAAGAAGCTGTACGTGGC -GTGACCAAAGAGATCCGCATTCCGACTCTGGAAGAGTGTGACGTTTGCCACGGTAGCGGTGCAAAACCAG -GTACACAGCCGCAGACTTGTCCGACCTGTCATGGTTCTGGTCAGGTGCAGATGCGCCAGGGATTCTTCGC -TGTACAGCAGACCTGTCCACACTGTCAGGGCCGCGGTACGCTGATCAAAGATCCGTGCAACAAATGTCAT -GGTCATGGTCGTGTTGAGCGCAGCAAAACGCTGTCCGTTAAAATCCCGGCAGGGGTGGACACTGGAGACC -GCATCCGTCTTGCGGGCGAAGGTGAAGCGGGCGAGCATGGCGCACCGGCAGGCGATCTGTACGTTCAGGT -TCAGGTTAAACAGCACCCGATTTTCGAGCGTGAAGGCAACAACCTGTATTGCGAAGTCCCGATCAACTTC -GCTATGGCGGCGCTGGGTGGCGAAATCGAAGTACCGACCCTTGATGGTCGCGTCAAACTGAAAGTGCCTG -GCGAAACCCAGACCGGTAAGCTATTCCGTATGCGCGGTAAAGGCGTCAAGTCTGTCCGCGGTGGCGCACA -GGGTGATTTGCTGTGCCGCGTTGTCGTCGAAACACCGGTAGGCCTGAACGAAAGGCAGAAACAGCTGCTG -CAAGAGCTGCAAGAAAGCTTCGGTGGCCCAACCGGCGAGCACAACAGCCCGCGCTCAAAGAGCTTCTTTG -ATGGTGTGAAGAAGTTTTTTGACGACCTGACCCGCTAACCTCCCCAAAAGCCTGCCCGTGGGCAGGCCTG -GGTAAAAATAGGGTGCGTTGAAGATATGCGAGCACCTGTAAAGTGGCGGGGATCACTCCCATAAGCGCTA -ACTTAAGGGTTGTGGTATTACGCCTGATATGATTTAACGTGCCGATGAATTACTCTCACGATAACTGGTC -AGCAATTCTGGCCCATATTGGTAAGCCCGAAGAACTGGATACTTCGGCACGTAATGCCGGGGCTCTAACC -CGCCGCCGCGAAATTCGTGATGCTGCAACTCTGCTACGTCTGGGGCTGGCTTACGGCCCCGGGGGGATGT -CATTACGTGAAGTCACTGCATGGGCTCAGCTCCATGACGTTGCAACATTATCTGACGTGGCTCTCCTGAA -GCGGCTGCGGAATGCCGCCGACTGGTTTGGCATACTTGCCGCACAAACACTTGCTGTACGCGCCGCAGTT -ACGGGTTGTACAAGCGGAAAGAGATTGCGTCTTGTCGATGGAACAGCAATCAGTGCGCCCGGGGGCGGCA -GCGCTGAATGGCGACTACATATGGGATATGATCCTCATACCTGTCAGTTCACTGATTTTGAGCTAACCGA -CAGCAGAGACGCTGAACGGCTGGACCGATTTGCGCAAACGGCAGACGAGATACGCATTGCTGACCGGGGA -TTCGGTTCGCGTCCCGAATGTATCCGCTCACTTGCTTTTGGAGAAGCTGATTATATCGTCCGGGTTCACT -GGCGAGGATTGCGCTGGTTAACTGCAGAAGGAATGCGCTTTGACATGATGGGTTTTCTGCGCGGGCTGGA -TTGCGGTAAGAACGGTGAAACCACTGTAATGATAGGCAATTCAGGTAATAAAAAAGCCGGAGCTCCCTTT -CCGGCACGTCTCATTGCCGTATCACTTCCTCCCGAAAAAGCATTAATCAGTAAAACCCGACTGCTCAGCG -AGAATCGTCGAAAAGGACGAGTAGTTCAGGCGGAAACGCTGGAAGCAGCGGGCCATGTGCTATTGCTAAC -ATCATTACCGGAAGATGAATATTCAGCAGAGCAAGTGGCTGATTGTTACCGTCTGCGATGGCAAATTGAA -CTGGCTTTTAAGCGGCTCAAAAGTTTGCTGCACCTGGATGCTTTGCGTGCAAAGGAACCTGAACTCGCGA -AAGCGTGGATATTTGCTAATCTACTCGCCGCATTTTTAATTGACGACATAATCCAGCCATCGCTGGATTT -CCCCCCCAGAAGTGCCGGATCCGAAAAGAAGAACTAACTCGTTGTGGAGAATAACAAAAATGGTCATCTG -GAGCTTACAGGTGGCCATTCGTGGGACAGTATCCCTGACAGCCTACAAAACGCAATTGAAGAACGCGAGG -CATCGTCTTAACGAGGCACCGAGGCGTCGCATTCTTCAGATGGTTCAACCCTTAAGTTAGCGCTTATGGG -ATCACTCCCCGCCGTTGCTCTTACTCGGATTCGTAAGCCGTGAAAACAGCAACCTCCGTCTGGCCAGTTC -GGATGTGAACCTCACAGAGGTCTTTTCTCGTTACCAGCGCCGCCACTACGGCGGTGATACAGATGACGAT -CAGGGCGACAATCATCGCCTTATGCTGCTTCATTGCTCTCTTCTCCTTGACCTTACGGTCAGTAAGAGGC -ACTCTACATGTGTTCAGCATATAGGAGGCCTCGGGTTGATGGTAAAATATCACTCGGGGCTTTTCTCTAT -CTGCCGTTCAGCTAATGCCTGAGACAGACAGCCTCAAGCACCCGCCGCTATTATATCGCTCTCTTTAACC -CATTTTGTTTTATCGATTCTAATCCTGAAGACGCCTCGCATTTTTGTGGCGTAATTTTTTAATGATTTAA -TTATTTAACTTTAATTTATCTCTTCATCGCAATTATTGACGACAAGCTGGATTATTTTTGAAATATTGGC -CTAACAAGCATCGCCGACTGACAACAAATTAATTATTACTTTTCCTAATTAATCCCTCAGGAATCCTCAC -CTTAAGCTATGATTATCTAGGCTTAGGGTCACTCGTGAGCGCTTACAGCCGTCAAAAACGCATCTCACCG -CTGATGGCGCAAATTCTTCAATAGCTCGTAAAAAACGAATTATTCCTACACTATAATCTGATTTTAACGA -TGATTCGTGCGGGGTAAAATAGTAAAAACGATCTATTCACCTGAAAGAGAAATAAAAAGTGAAACATCTG -CATCGATTCTTTAGCAGTGATGCCTCGGGAGGCATTATTCTTATCATTGCCGCTATCCTGGCGATGATTA -TGGCCAACAGCGGCGCAACCAGTGGATGGTATCACGACTTTCTGGAGACGCCGGTTCAGCTCCGGGTTGG -TTCACTCGAAATCAACAAAAACATGCTGTTATGGATAAATGACGCGCTGATGGCGGTATTTTTCCTGTTA -GTCGGTCTGGAAGTTAAACGTGAACTGATGCAAGGATCGCTAGCCAGCTTACGCCAGGCCGCATTTCCAG -TTATCGCCGCTATTGGTGGGATGATTGTGCCGGCATTACTCTATCTGGCTTTTAACTATGCCGATCCGAT -TACCCGCGAAGGGTGGGCGATCCCGGCGGCTACTGACATTGCTTTTGCACTTGGTGTACTGGCGCTGTTG -GGAAGTCGTGTTCCGTTAGCGCTGAAGATCTTTTTGATGGCTCTGGCTATTATCGACGATCTTGGGGCCA -TCATTATCATCGCATTGTTCTACACTAATGACTTATCGATGGCCTCTCTTGGCGTCGCGGCTGTAGCAAT -TGCGGTACTCGCGGTATTGAATCTGTGTGGTGCACGCCGCACGGGCGTCTATATTCTTGTTGGCGTGGTG -TTGTGGACTGCGGTGTTGAAATCGGGGGTTCACGCAACTCTGGCGGGGGTAATTGTCGGCTTCTTTATTC -CTTTGAAAGAGAAGCATGGGCGTTCTCCAGCGAAGCGACTGGAGCATGTGTTGCACCCGTGGGTGGCGTA -TCTGATTTTGCCGCTGTTTGCATTTGCTAATGCTGGCGTTTCACTGCAAGGCGTCACGCTGGATGGCTTG -ACCTCCATTCTGCCATTGGGGATCATCGCTGGCTTGCTGATTGGCAAACCGCTGGGGATTAGTCTGTTCT -GCTGGTTGGCGCTGCGTTTGAAACTGGCGCATCTGCCTGAGGGAACGACTTATCAGCAAATTATGGTGGT -GGGGATCCTGTGCGGTATCGGTTTTACTATGTCTATCTTTATTGCCAGCCTGGCCTTTGGTAGCGTAGAT -CCAGAACTGATTAACTGGGCGAAACTCGGTATCCTGGTCGGTTCTATCTCTTCGGCGGTAATTGGATACA -GCTGGTTACGCGTTCGTTTGCGTCCATCAGTTTGACAGGACGGTTTACCGGGGAGCCATAAACGGCTCCC -TTTTCATTGTTATCAGGGAGAGAAATGAGCATGTCTCATATCAATTACAACCACTTGTATTACTTCTGGC -ATGTCTATAAAGAAGGTTCCGTGGTTGGCGCAGCGGAGGCGCTTTATTTAACTCCACAAACCATTACCGG -ACAGATTCGAGCGCTGGAAGAGCGCCTGCAAGGCAAATTATTTAAACGCAAGGGACGTGGTCTCGAACCC -AGCGAGCTGGGAGAACTGGTCTATCGCTATGCCGATAAAATGTTCACCTTAAGCCAGGAAATGCTGGATA -TTGTGAACTATCGCAAAGAATCCAATTTATTGTTTGACGTTGGCGTGGCTGATGCACTTTCCAAACGCCT -GGTCAGTAGCGTACTTAACGCCGCAGTGGTAGAAGGCGAGCCCATTCATCTTCGCTGCTTCGAATCCACC -CACGAAATGCTGCTGGAGCAATTAAGTCAGCATAAACTGGATATGATCATTTCTGACTGTCCGATAGACT -CTACGCAGCAGGAAGGCCTGTTCTCCGTGAGAATTGGCGAATGTGGCGTGAGTTTCTGGTGTACAAATCC -ACCACCAGAAAAACCGTTCCCGGCTTGTCTGGAAGAACGGCGACTTTTGATTCCTGGGCGACGTTCAATG -TTAGGGCGCAAATTGCTTAACTGGTTTAACTCCCAGGGATTAAACGTAGAAATCCTCGGCGAGTTTGATG -ATGCCGCTTTGATGAAAGCTTTTGGTGCGATGCACAATGCAATCTTCGTTGCCCCAACGCTTTATGCATA -TGACTTTTATGCCGATAAAACTGTCGTAGAAATTGGTCGCGTCGAGAATGTGATGGAAGAGTACCATGCT -ATTTTTGCTGAGCGGATGATTCAGCACCCGGCGGTACAGCGAATCTGCAATACGGATTATTCTGCGCTTT -TTAGTCCAGCGGTGCGTTAATCGGCAGCTCCCCCAAAGTTAAGGTGGGGGAGATAGATTAGTTGTACATT -ACCACGATTTTGACTCGGCTCATTATTTGCCCGCTTGAGACATTGTTTCCATATGTACGCGGGCGAATAA -ATAGAGGAATCTGATTACTTCCTTCATGGGGATGCTGAAAAGAGTAGTAATTGCTGGTAATGACTCCAAC -TTATTGATAGTGTTTTATGTTCAGATAATGCCCGATGACTTTGTCATGCAGCTCCACCGATTTTGAGAAC -GACAGCGACTTCCGTCCCAGCCGTGCCAGGTGCTGCCTCAGATTCAGGTTATGCCGCTCAATTCGCTGCG -TATATCGCTTGCTGATTACGTGCAGCTTTCCCTTCAGGCGGGATTCATACAGCGGCCAGCCATCCGTCAT -CCATATCACCACGTCAAAGGGTGACAGCAGGCTCATAAGACGCCCCAGCGTCGCCATAGTGCGTTCACCG -AATACGTGCGCAACAACCGTCTTCCGGAGACTGTCATACGCGTAAAACAGCCAGCGCTGGCGCGATTTAG -CCCCGACATAGCCCCACTGTTCGTCCATTTCCGCGCAGACGATGACGTCACTGCCCGGCTGTATGCGCGA -GGTTACCGACTGCGGCCTGAGTTTTTTAAGTGACGTAAAATCGTGTTGAGGCCAACGCCCATAATGCGGG -CTGTTGCCCGGCATCCAACGCCATTCATGGCCATATCAATGATTTTCTGGTGCGTACCGGGTTGAGAAGC -GGTGTAAGTGAACTGCAGTTGCCATGTTTTACGGCAGTGAGAGCAGAGATAGCGCTGATGTCCGGCGGTG -CTTTTGCCGTTACGCACCACCCCGTCAGTAGCTGAACAGGAGGGACAGCTGATAGAAACAGAAGCCACTG -GAGCACCTCAAAAACACCATCATACACTAAATCAGTAAGTTGGCAGCATCACCTACCTCAATGTGTATCA -CAATATCCATATTCTTTGTGGGGGAGTCTGGAGATTGAGTAGATATTCTTGTTCAGAATGTATCAGCCGA -TGGTTCTACGATTCTTAAGCCACGAAGAGTTCAGATAGTACAACGGCATGTCTCTTTTGACTATCTGGCA -ACCGGCAGTGTGTTCTCTCACGCATCACAAAAGCAGCAGGCATAAAAAAACCCGCTTGCGCGGGCTTTTT -CACAAAGCTTCAGCAAATTGGCGATTAAGCCAGTTTGTTGATCTGTGCAGTCAGGTTAGCCTTATGACGT -GCAGCTTTGTTTTTGTGGATCAGACCTTTAGCAGCYTGACGGTCCACGATCGGTTGCATTTCGTTAAATG -CTTTCTGTGCAGCAGCTTTGTCGCCAGCTTCGATAGCTGCGTATACTTTCTTGATGAAAGTACGCATCAT -AGAGCGACGGCTTGCGTTGTGCTTACGAGCCTTTTCAGACTGAATGGCGCGCTTCTTAGCTGATTTGATA -TTAGCCAAGGTCCAACTCCCAAATGTGTTCTATATGGACAATTCAAAGGCCGAGGAATATGCCCTTTTAG -CCTTCTTTTGTCAATGGATTTGTGCAAATAAGCGCCGTTAATGTGCCGGCACTCGTTACGTAGTGATGGC -GCAGGATTCTACCAGCTTGCGGGGTGTGAATACAGCTTTTCCGCGATAAAAATTGCAGCAGGCGGTCAGT -TTCTTCCCGTGATTTGCGCCATGGCAATGAAAAGCCACTTCTTTCTGATTTCGGTACTCAATCGCCGGTT -AACCTTGACCGCTGTACAAGGTATACTCGGACGATTTTCACTGTTTTGAGCCAGACATGAAGCTGATACG -CGGCATACATAATCTCAGCCAGGCCCCGCAAGAAGGGTGTGTGCTGACTATTGGTAATTTCGACGGCGTG -CATCGCGGTCATCGCGCGCTGTTACAGGGCTTGCAGGAAGAAGGGCGCAAGCGCAACTTACCGGTGATGG -TGATGCTTTTTGAACCTCAACCACTGGAACTGTTTGCTACCGATAAAGCCCCGGCAAGACTGACCCGGCT -GCGGGAAAAACTGCGTTACCTTGCAGAGTGTGGCGTTGATTACGTGCTGTGCGTGCGTTTCGACAGGCGT -TTCGCGGCGTTAACCGCGCAAAATTTCATCAGCGATCTTCTGGTGAAGCATTTGCGCGTAAAATTTCTTG -CCGTAGGTGATGATTTCCGCTTTGGCGCTGGTCGTGAAGGCGATTTCTTGTTATTACAGAAAGCTGGCAT -GGAATACGGCTTCGATATCACCAGTACGCAAACTTTTTGCGAAGGTGGCGTGCGCATCAGCAGCACCGCC -GTGCGTCAGGCCCTTGCGGATGACAATCTGGCTCTGGCAGAGAGTTTACTGGGGCACCCGTTTGCCATCT -CCGGGCGTGTAGTCCACGGTGATGAATTAGGGCGCACTATAGGTTTCCCGACGGCGAATGTACCGCTGCG -CCGTCAGGTTTCCCCGGTGAAAGGGGTTTATGCGGTAGAAGTGCTGGGCCTCGGTGAAAAGCCGTTACCC -GGCGTGGCAAACATCGGAACACGCCCAACGGTTGCCGGTATTCGCCAGCAGCTGGAAGTGCATTTGTTAG -ATGTTGCAATGGACCTTTACGGTCGCCATATACAAGTAGTGCTGCGTAAAAAAATACGCAATGAGCAGCG -ATTTGCGTCGCTGGACGAACTGAAAGCGCAGATTGCGCGTGATGAATTAACCGCCCGCGAATTTTTTGGG -CTAACAAAACCGGCTTAAGCCTGTTATGTAATCAAACCGAAATACGGAACCGAGAATCTGATGAGTGACT -ATAAATCAACCCTGAATTTGCCGGAAACAGGGTTCCCGATGCGTGGCGATCTCGCCAAGCGCGAACCCGG -AATGCTGGCGCGTTGGACTGATGATGATCTGTACGGCATCATCCGTGCGGCTAAAAAAGGCAAAAAAACC -TTCATTCTGCATGATGGCCCTCCTTATGCGAATGGCAGCATTCATATTGGTCACTCGGTTAACAAGATTC -TGAAAGACATTATCGTGAAGTCCAAAGGGCTTTCCGGTTATGACTCGCCGTATGTGCCTGGCTGGGACTG -CCACGGTCTGCCGATCGAGCTGAAAGTCGAGCAAGAATACGGTAAGCCGGGTGAGAAATTCACCGCCGCC -GAGTTCCGCGCCAAGTGCCGCGAATACGCGGCGACCCAGGTTGACGGTCAACGCAAAGACTTTATCCGTC -TGGGCGTGCTGGGCGACTGGTCGCACCCGTACCTGACCATGGACTTCAAAACTGAAGCCAACATCATCCG -CGCGCTGGGCAAAATCATCGGCAACGGTCACCTGCACAAAGGCGCGAAGCCAGTTCACTGGTGCGTTGAC -TGCCGTTCTGCGCTGGCGGAAGCGGAAGTTGAGTATTACGACAAAACTTCTCCGTCCATCGACGTTGCTT -TCCAGGCAGTCGATCAGGATGCACTGAAAGCAAAATTTGCCGTAAGCAACGTTAACGGCCCAATCTCGCT -GGTAATCTGGACCACCACGCCGTGGACTCTGCCTGCCAACCGCGCAATCTCTATTGCACCAGATTTCGAC -TATGCGCTGGTGCAGATCGACGGTCAGGCCGTGATTCTGGCGAAAGATCTGGTTGAAAGCGTAATGCAGC -GTATCGGCGTGACCGATTACACCATTCTCGGCACGGTAAAAGGTGCGGAGCTTGAGCTGCTGCGCTTTAC -CCATCCGTTTATGGGCTTCGACGTTCCGGCAATCCTCGGCGATCACGTTACCCTGGATGCCGGTACCGGT -GCCGTTCACACCGCGCCTGGCCACGGCCCGGACGACTATGTGATCGGTCAGAAATACGGCCTGGAAACCG -CTAACCCGGTTGGCCCGGACGGCACTTATCTGCCGGGCACTTATCCGACGCTGGATGGCGTGAACGTCTT -CAAAGCGAACGACATCGTCGTTGCGCTGCTGCAGGAAAAAGGCGCGCTGCTGCACGTTGAGAAAATGCAG -CACAGCTATCCGTGCTGCTGGCGTCACAAAACGCCGATCATCTTCCGCGCGACGCCGCAGTGGTTCGTCA -GCATGGATCAGAAAGGTCTGCGTGCGCAGTCACTGAAAGAGATCAAAGGCGTGCAGTGGATCCCGGACTG -GGGCCAGGCGCGTATCGAGTCGATGGTTGCTAACCGTCCTGACTGGTGTATCTCCCGTCAGCGCACCTGG -GGTGTACCGATGTCACTGTTCGTGCACAAAGACACGGAAGAGCTGCATCCGCGTACCCTTGAACTGATGG -AAGAAGTGGCAAAACGCGTTGAAGTCGATGGCATCCAGGCGTGGTGGGATCTCGATGCGAAAGAGATCCT -CGGCGACGAAGCTGATCAGTACGTGAAAGTGCCGGACACATTGGATGTATGGTTTGACTCCGGATCTACC -CACTCTTCTGTTGTTGACGTGCGTCCGGAATTTGCCGGTCACGCAGCGGACATGTATCTGGAAGGTTCTG -ACCAACACCGCGGCTGGTTCATGTCTTCCCTAATGATCTCCACCGCGATGAAGGGTAAAGCGCCGTATCG -TCAGGTACTGACCCACGGCTTTACCGTGGATGGTCAGGGCCGCAAGATGTCTAAATCCATCGGCAATACC -GTTTCGCCGCAGGATGTGATGAACAAACTGGGCGCGGATATTCTGCGTCTGTGGGTGGCATCAACCGACT -ACACCGGTGAAATGGCCGTTTCTGACGAGATCCTGAAACGTGCTGCCGATAGCTATCGTCGTATCCGTAA -CACCGCGCGCTTCCTGCTGGCAAACCTGAACGGTTTTGATCCAGCAAAAGATATGGTGAAACCGGAAGAG -ATGGTGGTACTGGATCGCTGGGCCGTAGGTTGTGCGAAAGCGGCACAGGAAGACATCCTCAAGGCGTACG -AAGCATACGATTTCCACGAAGTGGTACAGCGTCTGATGCGCTTCTGCTCCGTTGAGATGGGTTCCTTCTA -CCTCGACATCATCAAAGACCGTCAGTACACCGCCAAAGCGGACAGTGTGGCGCGTCGTAGCTGCCAGACT -GCGCTATATCACATCGCAGAAGCGCTGGTGCGCTGGATGGCACCAATCCTCTCCTTCACCGCTGATGAAG -TGTGGGGCTACCTGCCGGGCGAACGTGAAAAATACGTCTTCACCGGTGAGTGGTACGAAGGCCTGTTTGG -CCTGGCAGACAGTGAAGCGATGAACGATGCGTTCTGGGACGAGCTGTTGAAAGTGCGTGGCGAAGTGAAC -AAAGTCATTGAGCAAGCGCGTGCCGACAAGAAAGTGGGTGGCTCGCTGGAAGCGGCAGTAACCTTGTATG -CAGAACCGGAACTGTCGGCGAAACTGACCGCGCTGGGCGATGAATTACGATTTGTCCTGTTGACCTCCGG -CGCTACCGTTGCAGACTATAACGACGCACCTGCTGATGCTCAGCAGAGCGAAGTACTCAAAGGGCTGAAA -GTCGCGTTGAGTAAAGCCGAAGGTGAGAAGTGCCCACGCTGCTGGCACTACACCCAGGATGTCGGCAAGG -TGGCGGAACACGCAGAAATCTGCGGCCGCTGTGTCAGCAACGTCGCCGGTGACGGTGAAAAACGTAAGTT -TGCCTGATGAGTCAATCGATCTGTTCAACAGGGCTACGCTGGCTGTGGCTGGTGGTAGTCGTGCTGATTA -TCGATCTGGGCAGCAAATACCTGATCCTCCAGAACTTTGCTCTGGGGGATACGGTCCCGCTGTTCCCGTC -GCTTAATCTGCATTATGCGCGTAACTATGGCGCGGCGTTTAGTTTCCTTGCCGATAGCGGCGGCTGGCAG -CGTTGGTTCTTTGCCGGTATTGCGATTGGTATTAGCGTGATCCTGGCAGTGATGATGTATCGCTCGAAGG -CCACGCAGAAGCTAAACAATATCGCTTACGCGCTGATTATTGGCGGCGCGCTGGGCAACCTGTTCGACCG -CCTGTGGCACGGCTTCGTTGTCGATATGATCGACTTCTACGTCGGCGACTGGCACTTCGCCACCTTCAAC -CTTGCCGATACTGCCATCTGTGTCGGTGCGGCACTGATTGTGCTGGAAGGTTTTTTGCCTTCTAGAGCGA -AAAAACAATAATAAACCCTGCCGGATGCGATGCTGACGCATCTTATCCGGCCTACAGATTGCTGCGAAAT -CGTAGGCCGGATAAGGCGTTTACGCCGCATCCGGCAAAAATCCTTAAATATAAGAGCAAACCTGCATGTC -TGAATCTGTACAGAGCAATAGCGCCGTCCTGGTGCACTTCACGCTAAAACTCGACGATGGCACCACCGCC -GAGTCTACCCGCAACAACGGTAAACCGGCGCTGTTCCGCCTGGGTGATGCTTCTCTTTCTGAAGGGCTGG -AGCAACACCTGTTGGGGCTGAAAGTGGGCGATAAAACCACCTTCTCGTTGGAGCCAGATGCGGCGTTTGG -CGTGCCGTCACCGGACCTGATTCAGTACTTCTCCCGCCGTGAATTTATGGATGCAGGCGAGCCAGAAATT -GGCGCAATCATGCTTTTTACCGCAATGGATGGCAGTGAGATGCCTGGCGTGATCCGCGAAATTAACGGCG -ACTCCATTACCGTTGATTTCAACCATCCGCTGGCCGGGCAGACCGTTCATTTTGATATTGAAGTGCTGGA -AATCGATCCGGCACTGGAGGCGTAACATGCAGATCCTGTTGGCCAACCCGCGTGGTTTTTGTGCCGGGGT -AGACCGCGCTATCAGCATTGTTGAAAACGCGCTGGCCATTTACGGCGCACCGATATATGTCCGTCACGAA -GTGGTACATAACCGCTATGTGGTCGATAGCTTGCGTGAGCGTGGGGCTATCTTTATTGAGCAGATTAGCG -AAGTACCGGACGGCGCGATCCTGATTTTCTCCGCACACGGTGTTTCTCAGGCGGTACGTAACGAAGCAAA -AAGTCGCGATTTGACGGTGTTTGATGCCACCTGTCCGCTGGTGACCAAAGTGCATATGGAAGTCGCCCGC -GCCAGTCGCCGTGGCGAAGAATCTATTCTCATCGGTCACGCCGGGCACCCGGAAGTGGAAGGGACAATGG -GCCAGTACAGTAACCCGGAAGGGGGAATGTATCTGGTCGAATCGCCGGACGATGTGTGGAAACTGACGGT -CAAAAACGAAGAGAAGCTCTCCTTTATGACCCAGACCACGCTGTCGGTGGATGACACGTCTGATGTGATC -GACGCGCTGCGTAAACGCTTCCCGAAAATTGTCGGTCCGCGCAAAGATGACATCTGCTACGCCACGACTA -ACCGTCAGGAAGCGGTACGCGCCCTGGCAGAACAGGCGGAAGTTGTGTTGGTGGTCGGTTCGAAAAACTC -CTCCAACTCCAACCGTCTGGCGGAGCTGGCCCAGCGTATGGGCAAACGCGCGTTTTTGATTGACGATGCG -AAAGACATCCAGGAAGAGTGGGTGAAAGAGGTTAAATGCGTCGGCGTGACTGCGGGCGCATCGGCTCCGG -ATATTCTGGTGCAGAATGTGGTGGCACGTTTGCAGCAGCTGGGCGGTGGTGAAGCCATTCCGCTGGAAGG -CCGTGAAGAAAACATTGTTTTCGAAGTGCCGAAAGAGCTGCGTGTCGATATTCGTGAAGTCGATTAAGTC -ATTAGCAGCCTAAGTTATGCGAAAATGCCGGTCTTGTTACCGGCATTTTTTATGGAGAAAACATGCGTTT -ACCTATCTTCCTCGATACTGACCCCGGCATTGACGATGCCGTCGCCATTGCCGCCGCGATTTTTGCACCC -GAACTCGACCTGCAACTGATGACCACCGTCGCGGGTAATGTCTCGGTTGAGAAAACTACCCGCAATGCCC -TGCAACTGCTGCATTTCTGGAATGCGGAGATTCCGCTCGCCCAAGGGGCCGCTGTGCCACTGGTACGCGC -ACCGCGTGATGCGGCATCTGTGCACGGCGAATCGGGAATGGCTGGCTACGACTTTGTTGAGCACAACCGA -AAGCCGCTCGGGATACCGGCGTTTCTGGCGATTCGGGATGCCCTGATGCGTGCACCAGAGCCTGTTACCC -TGGTGGCCATCGGCCCGTTAACCAATATTGCGCTGTTACTTTCACAATGCCCGGAATGCAAGCCGTATAT -TCGCCGTCTGGTGATCATGGGTGGTTCTGCCGGACGCGGCAACTGTACGCCAAACGCCGAGTTTAATATT -GCTGCCGATCCAGAAGCTGCTGCCTGTGTCTTCCGCAGTGGTATTGAAATCGTCATGTGCGGTTTGGATG -TCACCAATCAGGCAATATTAACTCCTGACTATCTCTCTACACTGCCGCAGTTAAACCGTACCGGGAAAAT -GCTTCACGCCCTGTTTAGCCACTACCGTAGCGGCAGTATGCAAAGCGGCTTGCGAATGCACGATCTCTGC -GCCATCGCCTGGCTGGTGCGCCCGGACCTGTTCACTCTCAAACCCTGTTTTGTGGCAGTGGAAACTCAGG -GCGAATTTACCTCAGGCACGACGGTGGTTGATATCGACGGTTGCCTGGGCAAGCCAGCCAATGTACAGGT -GGCATTGGATCTGGATGTGAAAGGCTTCCAGCAGTGGGTGGCTGAGGTGCTGGCTCTGGCGTCGTAACCT -GTCACATGTTATTGGCATGCAGTCATTCATCGACTCATGCCTTTCACTGATATCCCTCCCTGTTTATCAT -TAATTTCTAATTATCAGCGTTTTTGGCTGGCGGCGTAGCGATGCGCTGGTTACTCTGAAAACGGTCTATG -CAAATTAACAAAAGAGAATAGCTATGCATGATGCAAACATCCGCGTTGCCATCGCGGGAGCCGGGGGGCG -TATGGGCCGCCAGTTGATTCAGGCGGCGCTGGCATTAGAGGGCGTGCAGTTGGGCGCTGCGCTGGAGCGT -GAAGGATCTTCTTTACTGGGCAGCGACGCCGGTGAGCTGGCCGGAGCCGGGAAAACAGGCGTTACCGTGC -AAAGCAGCCTCGATGCGGTAAAAGATGATTTTGATGTGTTTATCGATTTTACCCGTCCGGAAGGTACGCT -GAACCATCTCGCTTTTTGTCGCCAGCATGGCAAAGGGATGGTGATCGGCACTACGGGGTTTGACGAAGCC -GGTAAACAAGCAATTCGTGACGCCGCTGCCGATATTGCGATTGTCTTTGCTGCCAATTTTAGCGTTGGCG -TTAACGTCATGCTTAAGCTGCTGGAGAAAGCAGCCAAAGTGATGGGTGACTACACCGATATCGAAATTAT -TGAAGCACATCATAGACATAAAGTTGATGCGCCGTCAGGCACCGCACTGGCAATGGGAGAGGCGATCGCC -CACGCCCTTGATAAAGATCTGAAAGATTGCGCGGTCTACAGTCGTGAAGGCCACACCGGTGAACGTGTGC -CTGGCACCATTGGTTTTGCCACCGTGCGTGCAGGTGACATCGTTGGTGAACATACCGCGATGTTTGCCGA -TATTGGCGAGCGTCTGGAGATCACCCATAAGGCGTCCAGCCGTATGACATTTGCTAACGGCGCGGTAAGA -TCGGCTTTGTGGTTGAGTGGTAAGGAAAGCGGTCTTTTTGATATGCGAGATGTACTTGATCTCAATAATT -TGTAACCACAAAATATTTGTTATGGTGCAAAAATAACACATTTAATTTATTGATTATAAAGGGCTTTAAT -TTTTGGCCCTTTTATTTTTGGTGTTATGTTTTTAAATTGTCTATAAGTGCCAAAAATTACATGTTTTGTC -TTCTGTTTTTGTTGTTTTAATGTAAATTTTGACCATTTGGTCCACTTTTTTCTGCTCGTTTTTATTTCAT -GCAATCTTCTTGCTGCGCAAGCGTTTTCCAGAACAGGTTAGATGATCTTTTTGTCGCTTAATGCCTGTAA -AACATGCATGAGCCACAAAATAATATAAAAAATCCCGCCATTAAGTTGACTTTTAGCGCCCATATCTCCA -GAATGCCGCCGTTTGCCAGAAATTCGTCGGTAAGCAGATTTGCATTGATTTACGTCATCATTGTGAATTA -ATATGCAAATAAAGTGAGTGAATATTCTCTGGAGGGTGTTTTGATTAAGTCAGCGCTATTGGTTCTGGAA -GACGGAACCCAGTTTCACGGTCGGGCCATAGGGGCAACAGGTTCGGCGGTTGGGGAAGTCGTTTTCAATA -CTTCAATGACCGGTTATCAAGAAATCCTCACTGATCCTTCCTATTCTCGTCAAATCGTTACTCTTACTTA -TCCCCATATTGGCAATGTCGGCACCAATGACGCCGATGAAGAATCTTCTCAGGTACATGCACAAGGTCTG -GTGATTCGCGACCTGCCGCTGATTGCCAGCAACTTCCGTAATACCGAAGACCTCTCTTCTTACCTGAAAC -GCCATAACATCGTGGCGATTGCCGATATCGATACCCGTAAGCTGACGCGTTTACTGCGCGAGAAAGGCGC -ACAGAATGGCTGCATTATCGCGGGCGATAACCCGGATGCGGCGCTGGCGTTAGAAAAAGCCCGCGCGTTC -CCAGGTCTGAATGGCATGGATCTGGCAAAAGAAGTGACCACCGCAGAAGCCTATAGCTGGACACAAGGGA -GCTGGACGTTGACCGGTGGCCTGCCAGAAGCGAAAAAAGAAGACGAGCTGCCGTTCCACGTCGTGGCTTA -TGATTTTGGTGCCAAGCGCAACATCCTGCGGATGCTGGTGGATAGAGGCTGTCGCCTGACCATCGTTCCG -GCGCAAACTTCTGCGGAAGATGTGCTGAAAATGAATCCAGACGGCATCTTCCTCTCCAACGGTCCTGGCG -ACCCGGCCCCGTGCGATTACGCCATTACCGCCATCCAGAAATTCCTCGAAACCGATATTCCGGTATTCGG -CATCTGTCTCGGTCATCAGCTGCTGGCGCTGGCGAGCGGTGCGAAGACTGTCAAAATGAAATTTGGTCAC -CACGGCGGCAACCATCCGGTTAAAGATGTGGAGAAAAACGTGGTAATGATCACCGCCCAGAACCACGGTT -TTGCGGTGGACGAAGCAACATTACCTGCAAACCTGCGTGTCACGCATAAATCCCTGTTCGACGGTACGTT -ACAGGGCATTCATCGCACCGATAAACCGGCATTCAGCTTCCAGGGGCACCCTGAAGCCAGCCCTGGTCCA -CACGACGCCGCGCCGTTGTTCGACCACTTTATCGAGTTAATTGAGCAGTACCGTAAAACCGCTAAGTAAT -CAGGAGTAAAAGAGCCATGCCAAAACGTACAGATATAAAAAGTATCCTGATTCTGGGTGCGGGCCCGATT -GTTATCGGTCAGGCGTGTGAGTTTGACTACTCTGGCGCGCAAGCGTGTAAAGCCCTGCGTGAAGAGGGTT -ACCGCGTCATTCTGGTGAACTCCAACCCGGCGACCATCATGACCGACCCGGAAATGGCTGATGCAACCTA -CATCGAGCCGATTCACTGGGAAGTTGTACGCAAGATTATTGAAAAAGAGCGCCCGGACGCGGTGCTGCCA -ACGATGGGCGGTCAGACGGCGCTGAACTGCGCGCTGGAGCTGGAACGTCAGGGCGTGTTGGAAGAGTTCG -GTGTCACCATGATTGGTGCCACTGCCGATGCGATTGATAAAGCAGAAGACCGCCGTCGTTTCGACGTAGC -GATGAAGAAAATTGGTCTGGAAACCGCGCGTTCCGGTATCGCACACACGATGGAAGAAGCGCTGGCGGTT -GCCGCTGACGTGGGCTTCCCGTGCATTATTCGCCCATCCTTTACCATGGGCGGTAGCGGCGGCGGTATCG -CTTATAACCGTGAAGAGTTTGAAGAAATTTGCGCCCGCGGTCTGGATCTCTCTCCGACCAAAGAGTTGCT -GATTGATGAGTCGCTGATCGGCTGGAAAGAGTACGAGATGGAAGTGGTGCGTGATAAAAACGACAACTGC -ATCATCGTCTGCTCTATCGAAAACTTCGATGCGATGGGCATCCACACCGGTGACTCCATCACTGTCGCGC -CAGCCCAAACGCTGACCGACAAAGAATATCAAATCATGCGTAACGCCTCGATGGCGGTGCTGCGTGAAAT -CGGCGTTGAAACCGGTGGTTCCAACGTTCAGTTTGCGGTGAACCCGAAAAACGGTCGTCTGATTGTTATC -GAAATGAACCCACGCGTGTCCCGTTCTTCGGCGCTGGCGTCGAAAGCGACCGGTTTCCCGATTGCTAAAG -TGGCGGCGAAACTGGCGGTGGGTTACACCCTCGACGAACTGATGAACGACATCACTGGCGGACGTACTCC -GGCCTCCTTCGAGCCGTCCATCGACTATGTGGTTACTAAAATTCCTCGCTTCAACTTCGAAAAATTCGCC -GGTGCTAACGACCGTCTGACCACTCAGATGAAATCGGTTGGCGAAGTGATGGCGATTGGTCGCACGCAGC -AGGAATCCCTGCAAAAAGCGCTGCGCGGCCTGGAAGTCGGTGCGACTGGATTCGACCCGAAAGTGAGCCT -GGATGACCCGGAAGCGTTAACCAAAATCCGTCGCGAACTGAAAGACGCAGGCGCAGATCGTATCTGGTAC -ATCGCCGATGCGTTCCGTGCGGGCCTGTCTGTGGACGGCGTCTTCAACCTGACCAACATTGACCGCTGGT -TCCTGGTACAGATTGAAGAGCTGGTGCGTCTGGAAGAGAAAGTGGCGGAAGTGGGCATCACTGGCCTGAA -CGCTGACTTCCTGCGCCAGCTGAAACGCAAAGGCTTTGCCGATGCGCGCTTGGCAAAACTGGCGGGCGTA -CGCGAAGCGGAAATCCGTAAGCTGCGTGACCAGTATGACCTGCACCCGGTTTATAAGCGCGTGGATACCT -GTGCGGCAGAGTTCGCCACCGACACCGCTTACATGTACTCCACTTATGAAGAAGAGTGCGAAGCGAATCC -GTCTACCGACCGTGAAAAAATCATGGTGCTTGGCGGCGGCCCGAACCGTATCGGTCAGGGTATCGAATTC -GACTACTGTTGCGTACACGCCTCGCTGGCGCTGCGCGAAGACGGTTACGAAACCATTATGGTTAACTGTA -ACCCGGAAACCGTCTCCACCGACTACGACACTTCCGACCGCCTCTACTTCGAGCCGGTAACTCTGGAAGA -TGTGCTGGAAATCGTGCGTATCGAGAAGCCGAAAGGCGTTATCGTCCAGTACGGCGGTCAGACCCCGCTG -AAACTGGCGCGCGCGCTGGAAGCTGCTGGCGTACCGGTTATCGGCACCAGCCCGGATGCTATCGACCGTG -CAGAAGACCGTGAACGCTTCCAGCATGCGGTTGAGCGTCTGAAACTGAAACAACCGGCGAACGCCACCGT -TACCGCTATTGAAATGGCGGTAGAGAAGGCGAAAGAGATTGGCTACCCGCTGGTGGTACGTCCGTCTTAC -GTTCTCGGCGGTCGGGCGATGGAAATCGTCTATGACGAAGCTGACCTGCGTCGCTACTTCCAGACGGCGG -TCAGCGTGTCTAACGATGCGCCAGTGTTGCTGGACCACTTCCTCGATGACGCGGTAGAAGTTGACGTGGA -TGCCATCTGCGACGGCGAAATGGTGCTGATTGGCGGCATCATGGAGCATATTGAGCAGGCGGGCGTGCAC -TCCGGTGACTCCGCATGTTCTCTGCCAGCCTACACCTTAAGTCAGGAAATTCAGGATGTGATGCGCCAGC -AGGTGCAGAAACTGGCCTTCGAATTGCAGGTGCGCGGCCTGATGAACGTGCAGTTTGCGGTGAAAAACAA -CGAAGTCTACCTGATTGAAGTTAACCCGCGTGCGGCGCGTACCGTTCCGTTCGTCTCCAAAGCCACCGGC -GTACCGCTGGCAAAAGTGGCGGCGCGCGTGATGGCTGGCAAATCGCTGGCTGAGCAGGGCGTAACCAAAG -AAGTTATCCCGCCGTACTACTCGGTGAAAGAAGTGGTGCTGCCGTTCAATAAATTCCCGGGCGTTGACCC -GCTGTTAGGGCCAGAAATGCGCTCTACCGGGGAAGTCATGGGCGTGGGCCGCACCTTCGCTGAAGCGTTT -GCCAAAGCGCAGCTGGGCAGCAACTCCACCATGAAGAAACACGGTCGTGCGCTGCTTTCCGTGCGCGAAG -GCGATAAAGAACGCGTGGTGGACCTGGCGGCAAAACTGCTGAAACAGGGCTTCGAGCTGGATGCGACCCA -CGGCACGGCGATTGTGCTGGGCGAAGCAGGTATCAACCCGCGTCTGGTAAACAAGGTGCATGAAGGCCGT -CCGCACATTCAGGACCGTATCAAGAATGGCGAATATACCTACATCATCAACACCACCTCAGGCCGTCGTG -CGATTGAAGACTCCCGCGTGATTCGTCGCAGTGCGCTGCAATATAAAGTGCATTACGACACCACCCTGAA -CGGCGGCTTTGCCACCGCGATGGCGCTGAATGCCGATGCGACTGAAAAAGTAATTTCGGTGCAGGAAATG -CACGCACAGATCAAATAATAGCGTGTCATGGCAGATATTTTTCATCCGCTAATTTGATCGAATAACTAAT -ACGGTTCTCTGATGAGGACCGTTTTTTTTTGCCCATTAAGTAAATCTTTTGGGGAATCGATATTTTTGAT -GACATAAGCAGGATTTAGCTCACACTTATCGACGGTGAAGTTGCATACTATCGATATATCCACAATTTTA -ATATGGCCTTGTTTAATTGCTTCAAAACGAGTCATAGCCAGACTTTTAATTTGTGAAACTGGAGTTCGTA -TGTGTGAAGGATATGTTGAAAAACCACTCTACTTGTTAATCGCCGAATGGATGATGGCTGAAAATCGGTG -GGTGATAGCAAGAGAGATCTCTATTCATTTCGATATTGAACACAGCAAGGCGGTTAATACCCTGACTTAT -ATTCTGTCGGAAGTCACAGAAATAAGCTGCGAAGTTAAGATGATCCCTAATAAGCTGGAAGGGCGGGGAT -GCCAGTGTCAGCGACTGGTTAAAGTGGTCGATATCGATGAGCAAATTTACGCGCGCCTGCGCAATAACAG -TCGGGAAAAATTAGTCGGTGTAAGAAAGACGCCGCGTATTCCTGCCGTTCCGCTCACGGAACTTAACCGC -GAGCAGAAGTGGCAGATGATGTTGTCAAAGAGTATGCGTCGTTAATTTTATCTCGTTGATACCGGGCGTC -CTGCTTGCCAGATGCGATGTTGTAGCATCTTATCCAGCAACCAGGTCGCATCCGGCAAGATCACCGTTTA -GGCGTCACATCCGTCGTCCCCTGCAAACGGGGGCGATTTTCCTCCATTTGCCTCAGTGGCTGCGTTTCAT -GTAACGATACATGACAGCGCCCGACAAGATCCTGATACTCTTTGGTATTCAACCGTTTCCAGTGTAACTC -GTCGTCACTAACATTGCGTACAGCGCGGGCTGGCGTACCCATCAACAACTGGCGTTTCTCGCCGCGAAAG -CCCGCTTTGACAAAGCTCATGGCGGCAACAATGCTCTCTTCGCCAATGACCGCGCCATCCATAATCACGC -TGTTCATCCCGACCAATGCATCGCGACCAATCAAACAACCATGCAGGATCGCTCCGTGCCCGATATGGCC -GTTTTCCCCAACGATAGTGTCAGTGTCGCAGTAGCCATGCATAATGCAGCCATCCTGAATATTGGCTCCC -GCTTGCACGATCAACCGCCCGTAGTCACCACGCAGTGAGGCGAGTGGGCCGATGTAGACACCGGCTCCCA -CAATCACATCGCCAATCAAGACGGCACTGGGATGGACAAACGCCGTCGGGTGAACCACCGGAATTAACCC -CTCAAAGGCGTAATAGCTCACGGTTGTTAACGTCCTTTCCACACCGGATCGCGCTTCTCGGCAAACGCCA -GCGGCCCTTCAATGGCATCTTCCGAATGCAGAACCGATGGATAGTGTTTCAACACGCCGCTGCGAATATA -GCGATACGCTTCTTCTACCGGCATTTCGCTGGTGGTGCGGTAGATCTCTTTCAGCGCCGCAATCGCCAGC -GGGGCGCTGTTAACCAGCTGCTGAGCCAGTTCGCGGGCGTTATCCATCAGTTCCGCCTGGCTAACCACGC -GGTTGACTATCCCCCAACGCAGCGCCTCTTCTGCGCCCATTCGTCTGCCGGTCATCACCATTTCATTGAC -GATGGCAGGCGGCAGGATCTTCGGCAGACGCAGCACACCGCCGCTGTCAGGAACGATGCCCAGTTTGGCT -TCCGGCAGGGCGAAGCTGGCGTTATCGGCACAAACAATAAAATCTGCCGCCAGCGCCAGTTCAAAGCCGC -CGCCAAAGGCATAGCCGTTCACAGCTGCGATAACCGGTTTGTCGAGATTGAAAATTTCGGTTAATCCCGC -AAAACCACCCGGACCAAAGTCAGCATCCGGTGCTTCGCCTTCTGCTGCCGCTTTTAAATCCCAGCCCGCG -GAAAAGAACTTCTCTCCGGCACCGGTAATAATGGCGACACGTAATTGCGGATCGTCACGGAAATTTAGAA -ATACTTCGCCCATTTCAAAGCTGGTTTTTGCATCAATAGCATTCGCTTTTGGACGATCAAGGGTAATTTC -CAGAATTGATCCATTGCGGGTCAGATGTAATGATTCACTCATTCCTTTTCTCCATTTTTGCTTTTTCAGG -GACGACAACATCCCTGCAAAAAATGCATATTGTTTTAGAGTGTGATTATTAGCTGGCAGGGTAGTTCCCT -GCTGTTTCATTTATTTCAGATTCTTTCTAATTATTTTCCCCGAGCAATTACGTGGCAGATCTTTTCTGAT -CTCCAGATAAGAGGGCACTTTAAATTTCGCCATATTTTGTTCGCAGAAGCGGAAAAATTCCTCTTCGCTC -AATGTTTCACCTTCATTCAGCACCACAAATGCTTTGATGGCTTCATCGCGAATCGAATCTTTAATACCCA -CAACCACGATGTCCTGAATTTTCGGGTGCGCGGCGATAATATTTTCCAGCTCCACGCAGGAGACATTCTC -GCCGCCACGTTTAATCATATTGCAGCGGCGATCGACGAAATAAAAAAAGTCCTCTTCGTCGCGGTATCCG -GTATCGCCGGTATGCAGCCAGCCATCGGCTTCCAGCACTTTCGCAGTGGCTTGTGGGTTGAGAAAGTACT -CTTTGAAGATGGTTTTCCCAGGTATGCCTTTAATGCAGATTTCACCGATCTCACCAGCCGGGAGCGGGCG -ATTGTGATCGTCGCGGATCTCCGCTTCGTAGCAAAACCCCACCCGACCAATCGACGGCCAGCGTCGTTTA -TCGCCAGGACGATCGCCGATAATGCCCACAATGGTTTCCGTCATCCCATAAGACGTCAGCAAGCGAACGC -CGAAGCGTTCACAAAACGCATCTTTTTCCTGCTCCGACAAGTTGAGATAAAACATCACTTCCCGCAGGCG -GTGTTGCTGATCGTTCGCTGAAGGCGGCTGTACCATCAACGTACGGATCATCATCGGAATACATTCGGTA -ACGGTGGCGCGGTACTTCTGTACCTGTCCCCAGAAGGCGCGGGCGCTGTATTTCTCGACCAGCACAAAGG -TGGCCCCGGCAGAAAACGCCGCCATCGCCGCAGTACACTGGCAATCGATATGAAACGCAGGCATTACCGT -CAGGTAGACGTCATCGTCACGCAGTGCACACTGCCAGGCGGAGTAATATCCAGCGAAGCGCAGGTTGTAA -TGGGTAATCACCACACCTTTCGGTCGGGAGGTGGTGCCGGAGGTGAAGAGAATTTCCGCCGTATCGTCAG -TCGATAGCGGCGGTGCATAGCACAAGGTGGCAGGTTGTTGATTTTTCAGTTGAGTAAACGAACTCACGCC -ATCATCAGCGGGAAGTGCCACATCTGTCAGGCAAATGTGCCGCAATTGAGTGGCATCTTCCTGCTGAATC -TGTTGATACATAGGATAGAATTGCGCACTGGTCACCAGCAGGCACGCCTGGCTATTTTGCAGGATCCACG -CGCTTTCCTCGCACAACAGGCGGGCGTTAATCGGCACCATAATCGCGCCAATTTTTGCCAGCCCGAACCA -GCAAAAGATAAATTCCGGGCAGTTGTCGAGATGTAGTGCAACCTTGTCGCCTTTGCGAATCCCCAGCGTA -TAAAACAGGTTTGCCGTGCGGTTAATCTCCTGATTTAACTCAAGATAACTATACCGGTTAACGACTCCGC -CGCTGGATTCACAAATCAGCGCCGTTTTATGACCGTAAACGTCCGCAAGATCGTCCCACATTTGACGTAG -ATGTTGTCCGCCAATGATATCCATTGCACCTCTATCCATTTTTGTTCGTTTGTTATTGGGCGGGCGCTAG -TCAGGCAAGCCGACTGACGCCACGCGTTTAGTCCTCAACTTTGGCCAGACCTTTGCTGACCAACTCCTGA -ATGTCGTTTTCGCTGTAGCCGATATTTTTCAAAATGGCAGCCGTGTCCATGCCATGTGAGGGCATTCCGC -GCCAGATTTGTCCGGGGTTATTTTTGAATTTCGGCATGATGTTCGGCCCTTTGCAGGTGCGACCATCCAT -CGTTTGCCACTGAGTGATTGATTCGCGAGCCACATACTGTGGATTGCTTTCCAGTTCCGGTACGGTCAGC -ACTTTGGCGCAGGCGATATTCAGTTCAGCAAAGCGTTCTTTTACTTCCGCGATGGTATGTGTCGCCAGCC -AGGCATCGAGTTTCTCTTCAACCAGTGGGCCGTAAGGGCATTCGATACGGTGGATAAGCTGAGTGCCTTC -CGGGATTTCTGGCGTGCCAAGCAGATGTGCGAGGCCAATATCTTTAAAGCACTCTTCAATTTGGGTAATG -CCCACCAGTTCCATCACGATGTAGCCGTCGGCACATTTATACAGACCGCAACCGGCGTAGTAGGGATCTT -TACCTTTGCTCATGCGCGGGCACATTTCGCCGCCGTTGAAGTAATCCATCATGAAGTACTGGCCCATACG -CAGCATCACTTCATACATGGCGATGTCGATACTTTCGCCTTTACCGGTTTCACGCACTTTATGCAGTGCT -GCCAGCGCCGCCGTGGTGGCGGTCAGGCCAGAAAAGTAATCGGCGGTATACGGGAAGGCAGGCATTGGCT -GGTCAACATCACCGTTCTGAATCAGGTAACCACTAAAGGCCTGGGCGATAGTGTTATAGGCCGGAAGATT -GGTGTACTCCTCGGTGCCGTACTGACCAAAACCGGACAGGTGAGCGATAACCAGTTTCGGGTTGTGCTGC -CACAGTACTTCATCGGTAATGCCACGACGGGCAAAGGCCGGACCTTTACTGGCTTCGATGAAGATATCGG -TGGTTTCCATTAATTTCAGAAACGCTTCGCGGCCTTCATCTTTGAAAATATTTAACGACAGCGCGTGCAA -ATTGCGGCGGGAGAGTTGCGGGTAGTTCGGTTGAACGCGAATGGTGTCGGCCCAGGCGACGTTCTCGATC -CAGATAACTTCCGCGCCCCATTCTGCGAACATTTGCCCGGCAAACGGTCCGGCGATTTCGATACCGGAGA -AGACAACGCGCAATCCGGCCAACGGCCCGAATTTCGGCATGGGTAGATGATCCATTATTTGCTCCTGAAA -AATTTATGTAGCGCATGACTGCCGGATGCGGCGTAAACGCTTTATCCGGCCTACATTCGTGCTCCCGTAG -GCCTGATAAGACGCATCAGCGTCGCATCAGGCAGCGCACGGACTTAGCGGTATTGCTTCAGCACCGCACG -ACCCAGCGTCAGGATCTGCATTTCGTCAGATCCCCCGGAGACGCGGTCTACACGCAGATCACGCCAGAAG -CGGCTGATGCGGTGGTTGCCCGCAATCCCGACACCGCCCAGCACCTGCATTGCGCTATCCACAACTTCAA -ATGCCGCATTGGCGCAGAAGTATTTGCACATCGCTGCATCGCCAGAGGTGATGGTGCCGTTGTCTGCTTT -CCACGCTGCTTCATACAGCATGTTTTTCATGGAGTTTAATTTGATCGCCATGTGGGCGAATTTTTCCTGA -ATCAACTGGAAACGACCAATAGCCTCGCCAAACTGCACGCGCTGATTGGCGTAGCGCGCCGCATCTTCAA -AGGCGCACATCGCCGTACCGTAGTTGGTGAGGGCTACCAGGAAACGTTCATGGTCGAACTCTTCTTTGAC -GCGGTTAAAGCCGTTACCTTCCCGACCGAACATGTCTTTCTCGTCCAGTTCCACGTCGTCAAAGGTGATT -TCACAGCAGCTATCCATACGCAGACCGAGCTTTTCAAGTTTGGTCACTTTGATGCCCGGTTTGCTCATAT -CAACAAACCATTCGGTGTAGACAGGTTTGTCCGGAGAAGCCCCGTCGCGCGCCATCACCACGATGTACGG -GGTGTAGGCGCTGCTGGTAATAAAACACTTACTACCATTAAGATAAATCTTACCATTTCTACGGGTATAA -GTCGTTTTCAGGCTACCCACGTCGGAGCCCGCGCCCGGTTCGGTAATCGCTGAGTTCCACATCTGCTTAC -CGGTGCCGCGGAAAGCCATAATTTTGTCGATCTGCTCTTGTGTGCCTTCGCGCAGGAAGGTGTTGAACCC -GCCCGGCAACTGGTACAGCACATAGGTTGGTGCCCCCAGACGTCCCAGCTCCATCCACACGGCGGCGAGA -GTAACAAACCCCGCGTCCAGACCACCGTGCTCTTCAGGGATCAGCAGACTGTCGATACCCATATCCGCCA -GTGCTTTGACAAAACGTTCCGGGTAGACGCTGTCACGGTCGCACTCGGCAAAATAGGCCTCCCAGTTTTC -GCTGGCCATCAGTTCGCGGATACCGGCGACAAACAGTTCCTGCTCATCATTTAAATTAAAATCCATCTTT -CAACCTCTTGATATTTTGGGGGTTAATTAATCTTTCCAGTTCTGTTTCGCGTCTTTAATAAAGGAGAGCG -TCACCATAATGTTGACGAAGAACAGCGGGCATCCTCCGGCGATAATGGCGGTTTGAATCGGTTTCAGGCC -GCCGAGCGCCAGCAGAACAATACCGATAATGCCAACCAGAATTGACCAACCGATACGCACCAGCAGAGGT -GGTTCTTCACCATCGCGTACTTCGCGGCAAGTGGACATCGCCAGGGTATAAGAGCAGGCGTTAACCAGCG -TAACGGTGGCAATAAAGCAGAGGATGAAGAAGCCCCACATGGTGGCGGTGCTGAGTGGCAGAGCGGCCCA -GGTTTCAATGATGGCGCGCGCCACACCGTACTGTTCGATCAGATTTGGAATGTTGATGATGTTTTTATCT -ATCAACAGCAGAGTGTTACTACCGAGTACAGTCCACAGGATCCAGGTTGACGCTGTCAGCCCCAGCACCA -TGCCGAAGCACAGTTCACGCACAGTACGACCACGGGAGATGCGGGCGAGGAAGATACTCATCTGGATAGC -ATAAATCACCCACCATGCCCAGTAGAACACGGTCCAGCCCTGCGGGAAGCCGCCTTTAGCGATGGGATCG -GTATAGAACAACATGCGCGGCAGATACATCAGCAACATCCCCACCGAATCGGTGAAGTAGTTCATGATGA -AGCTGGCACCGCTGACAATGAACACCCAACCCAGCATCAGGAAGCTCAGGTAACTACGCACGTCACTGGC -GATACGTACCCCTTTTTGCAGACCGCAAGCGACGCAAATGGCGTTGAGGATAATCCAGCAGGTAATGATG -ATAGCGTCCAGTTGCAGGGTATGCGGAATGCCAAACAACCATTGCATACACTCGGTCACCAGCGGCGTGG -CAAGGCCCAGACTGGTACCCATCGCGAAGATCAAGGCGACGAGATAGAAGTTGTCGACGATAGTGCCGAA -CAACCCTTTGGCGTGTTTTTCACCTACCAGCGGCACCAGTGTCGAGCTGGGGCGAATCACTTCCATTTTG -CGGACAAAGAAGAAGTAAGCGAAGGCGACTGAAAGGAAGCTGTAAGTGGCCCACGGCAGAGGTCCCCAGT -GGAACAAGCTGTAAGCCAGCCCCAACTCTTTCGCCCCTGTCGAGTTCGGTTCTAAGCCAAACGGCGGGGT -GGAGATGTAGTAGTAGATCTCAATCGATCCCCAGAACAGTACGGCAGCAGACGTACAGGAGGCGAACATC -ATAAAGATCCAACTGGCGGTGCTAAATTCTGGCGGTTCGTTACCTAAACGCTTTTTGGCATACGGGCCAA -ACACCAGCCAGAACCAACCGAAAAGCATCACCACCATATACCATTCAAATGCCCATCCCCATACATTGGT -GACGTAACTGAATACAGCATTAATAACGACATTCGCTGCATCCAGATCTCTGACTGTAAGCCAACAAAGT -ATGCCGACGATTATTAACGGCGGAAAGAAAACCTTCGGTTCTATTCCCGTTTTTCTCTTTTCATTCTTCA -TGAGTTAATTCCACTGTGAAAACGAATATTTATTTTGCGTTCCCGTTTGTTTTATTTTTGTTAACATTTA -ATATAATTATTATTAACCTCGTGGACGCGTTAATGGCTAACTCATAATGGGTATTCAATAAGCTGTATTC -TGTGATTGGTATCACATTTTTGTTTCGGGTGAATAGAGGGCGTTTTTTCGTTAATTTTGATTAATAATCA -GTTTGTTATGCTCTGTTGTGAGTAAAAAATAACATCTGACTTTCAATATTGGTGATCCATAAAACAATAT -TGAAAATTTCTTTTTGCTACGCCGTGTTTTCAATATTGGTGAGGAACTTAACAATATTGAAAGTTGGATT -TATCTGCGTGTGACATTTTCAATATTGGTGATTAAAGTTTTATTTCAAAATTAAAGGGCGTGATATCTGT -AATTAACACCACCGATATGAACGACGTTTCCTTCATGATTTCTGGAGATGCAATGAAGATTATTACTTGC -TATAAGTGCGTGCCTGATGAACAGGATATTGCGGTCAATAATGCTGATGGTTCATTAGACTTCAGCAAAG -CCGATGCCAAAATAAGCCAATACGATCTCAACGCTATTGAAGCGGCTTGCCAGCTAAAGCAACAGGCAGC -AGAGGCGCAGGTGACAGCCTTAAGTGTGGGCGGTAAAGCCCTGACCAACGCCAAAGGGCGTAAAGATGTG -CTATCGCGCGGCCCGGATGAACTGATTGTGGTGATTGATGACCAGTTCGAGCAGGCACTGCCGCAACAAA -CGGCGAGCGCACTGGCTGCAGCCGCCCAGAAAGCAGGCTTTGATCTGATCCTCTGTGGCGATGGTTCTTC -CGACCTTTATGCCCAGCAGGTTGGTCTGCTGGTGGGCGAAATCCTCAATATTCCGGCAGTTAACGGCGTC -AGCAAAATTATCTCCCTGACGGCAGATACCCTCACCGTTGAGCGCGAACTGGAAGATGAAACCGAAACCT -TAAGCATTCCGCTGCCTGCGGTTGTTGCTGTTTCCACTGATATCAACTCCCCACAAATTCCTTCGATGAA -AGCCATTCTCGGCGCGGCGAAAAAGCCCGTCCAGGTATGGTCGGCGGCGGATATTGGTTTTAACGCAGAG -GCAGCCTGGTCAGAACAACAGGTTGCCGCGCCGAAACAGCGCGAACGTCAGCGCATCGTGATTGAAGGCG -ACGGCGAAGAACAGATCGCCGCATTTGCTGAAAATCTTCGCAAAGTCATTTAATTACAGGGGATGCTATG -AACACGTTTTCTCAAGTCTGGGTATTCAGCGATACCCCTTCTCGTCTGCCGGAACTGATGAACGGTGCGC -AGGCTTTAGCTAATCAAATCAACACCTTTGTCCTCAATGATGCCGACGGCGCACAGGCAATCCAGCTCGG -CGCTAATCATGTCTGGAAATTAAACGGCAAACCGGACGATCGGATGATCGAAGATTACGCCGGTGTCATG -GCTGACACTATTCGCCAGCACGGCGCAGACGGCCTGGTGCTGCTGCCAAACACCCGTCGCGGCAAATTAC -TGGCGGCAAAACTGGGTTATCGCCTTAAAGCGGCGGTGTCTAACGATGCCAGCACCGTCAGCGTACAGGA -CGGTAAAGCGACAGTGAAACACATGGTTTACGGTGGTCTGGCGATTGGCGAAGAACGCATTGCCACGCCG -TATGCGGTACTGACCATCAGCAGCGGCACGTTCGATGCGGCTCAGCCAGACGCGTCACGCACTGGCGAAA -CGCACACCGTGGAGTGGCAGGCTCCGGCTGTGGCGATTACCCGCACGGCAACCCAGGCGCGCCAGAGCAA -CAGCGTCGATCTCGACAAAGCCCGTCTGGTGGTCAGCGTCGGTCGCGGTATTGGCAGCAAAGAGAACATT -GCGCTGGCAGAACAGCTTTGCAAGGCGATAGGTGCGGAGTTGGCCTGTTCTCGTCCGGTGGCGGAAAACG -AAAAATGGATGGAGCACGAACGCTATGTCGGTATCTCCAACCTGATGCTGAAACCTGAACTGTACCTGGC -GGTGGGGATCTCCGGGCAGATCCAGCACATGGTTGGCGCTAACGCGTCGCAAACCATTTTCGCCATCAAT -AAAGATAAAAATGCGCCGATCTTCCAGTACGCGGATTACGGCATTGTTGGCGACGCCGTGAAGATCCTTC -CGGCGCTGACCGCAGCTTTAGCGCGTTGATCCACTCTGGCAGGGCTGCATTTTGGCCCTGCCGCTGACAG -GGAGCTCTTATGTCCGAAGATATCTTTGACGCCATCATCGTCGGTGCAGGGCTTGCCGGTTCGGTTGCCG -CACTGGTGCTCGCCCGCGAAGGTGCGCAAGTGTTAGTTATCGAGCGTGGCAATTCCGCAGGTGCCAAGAA -CGTCACCGGCGGGCGTCTCTATGCCCACAGTCTGGAACACATTATTCCTGGTTTCGCCGACTCCGCCCCC -GTAGAACGCCTGATCACCCATGAAAAACTCGCGTTTATGACGGAAAAGTCAGCGATGACTATGGACTACT -GCAATGGTGACGAAACCTCGCCATCCCAGCGTTCTTACTCCGTTTTGCGCAGTAAATTTGATGCCTGGCT -GATGGAGCAGGCCGAAGAAGCGGGCGCGCAGTTAATTACCGGGATCCGCGTCGATAACCTCGTACAGCGC -GATGGCAAAGTCGTCGGTGTAGAAGCCGATGGCGATGTGATTGAAGCGAAAACGGTGATCCTTGCTGATG -GGGTGAACTCCATCCTTGCCGAAAAATTGGGGATGGCAAAACGCGTCAAACCGACGGATGTGGCGGTTGG -CGTGAAGGAACTGATCGAGTTACCGAAGTCGGTTATTGAAGACCGTTTTCAGTTGCAGGGTAATCAGGGG -GCGGCTTGCCTGTTTGCGGGATCACCCACCGATGGCCTGATGGGCGGCGGCTTCCTTTATACCAATGAAA -ACACCCTGTCGCTGGGGCTGGTTTGTGGTTTGCATCATCTGCATGACGCGAAAAAATCGGTGCCGCAAAT -GCTGGAAGATTTCAAACAGCATCCGGCCGTTGCACCGCTGATCGCGGGCGGCAAGCTGGTGGAATATTCC -GCTCACGTAGTGCCGGAAGCAGGCATCAACATGCTGCCGGAGTTGGTTGGTGACGGCGTATTGATTGCCG -GTGATGCCGCCGGAATGTGTATGAACCTCGGTTTTACCATTCGCGGTATGGATCTGGCGATTGCCGCCGG -GGAAGCCGCAGCAAAAACCGTGCTTTCAGCGATGAAAAGCGACGATTTCAGTAAGCAAAAACTGGCGGAA -TATCGTCAGCATCTTGAGAGTGGTCCGCTGCGCGATATGCGTATGTACCAGAAACTACCGGCGTTCCTTG -ATAACCCACGCATGTTTAGCGGCTACCCGGAGCTGGCGGTGGGTGTGGCGCGTGACCTGTTCACCATTGA -TGGCAGCGCGCCGGAACTGATGCGCAAGAAAATCCTCCGCCACGGCAAGAAAGTGGGCTTCATCAATCTA -ATCAAGGATGGCATGAAAGGAGTGACCGTTTTATGACTTCTCCCGTCAATGTGGACGTCAAACTGGGCGT -CAATAAATTCAATGTCGATGAAGAGCATCCGCACATTGTTGTGAAGGCCGATGCTGATAAACAGGCGCTG -GAGCTGCTGGTGAAAGCGTGCCCCGCAGGTCTGTACAAGAAGCAGGATGACGGCAGTGTGCGCTTCGATT -ACGCCGGATGTCTGGAGTGCGGCACCTGTCGCATTCTGGGGCTGGGGTCGGCGCTGGAACAGTGGGAATA -CCCGCGCGGCACCTTTGGTGTGGAGTTCCGTTACGGCTGATGTTGGTTTGATACGTAACGCCGCACTGAC -TCTCATTGCAAAAAACAGGAATAACCATGCAACCGTCCAGAAACTTTGACGATCTCAAATTCTCCTCTAT -TCACCGCCGCATTTTGCTGTGGGGAAGCGGTGGTCCGTTTCTGGATGGTTATGTACTGGTAATGATTGGC -GTGGCGCTGGAGCAACTGACGCCGGCGCTGAAACTGGACGCTGACTGGATTGGCTTGCTGGGCGCGGGAA -CGCTCGCCGGGCTGTTCGTTGGCACATCGCTGTTTGGTTATATTTCCGATAAAGTCGGACGGCGCAAAAT -GTTCCTCATTGATATCATCGCCATCGGCGTGATATCGGTGGCGACGATGTTTGTTTCATCCCCCGTCGAA -CTGTTGGTGATGCGGGTACTTATCGGCATTGTCATCGGTGCAGATTATCCCATCGCCACCTCAATGATCA -CCGAGTTCTCCAGTACCCGTCAGCGGGCGTTTTCCATCAGCTTTATTGCCGCGATGTGGTATGTCGGCGC -GACCTGTGCCGATCTGGTCGGCTACTGGCTTTATGATGTGGAAGGCGGCTGGCGCTGGATGCTGGGTAGC -GCGGCGATCCCCTGTTTGTTGATTTTGATTGGTCGATTCGAACTGCCTGAATCTCCCCGCTGGTTATTAC -GCAAAGGGCGAGTAAAAGAGTGCGAAGAGATGATGATCAAACTGTTTGGCGAACCGGTGGCTTTCGATGA -AGAGCAGCCGCAGCAAACCCGTTTTCGCGATCTGTTTAATCGCCGCCATTTTCCTTTTGTTCTGTTTGTT -GCCGCCATCTGGACCTGCCAGGTGATCCCAATGTTCGCCATTTACACCTTTGGCCCGCAAATCGTTGGTT -TGTTGGGATTGGGGGTTGGCAAAAACGCGGCACTAGGGAATGTGGTGATTAGCCTGTTCTTTATGCTCGG -CTGTATTCCGCCGATGCTGTGGTTAAACACTGCCGGACGGCGTCCATTGTTGATTGGCAGCTTTGCCATG -ATGACGCTGGCGCTGGCGGTTTTGGGGCTAATCCCGGATATGGGGATCTGGCTGGTAGTGATGGCCTTTG -CGGTGTATGCCTTTTTCTCTGGCGGGCCGGGTAATTTGCAGTGGCTCTATCCTAATGAACTCTTCCCGAC -AGATATCCGCGCCTCTGCCGTGGGCGTGATTATGTCCTTAAGTCGTATTGGCACCATTGTTTCGACCTGG -GCACTACCGATCTTTATCAATAATTACGGTATCAGTAACACGATGCTAATGGGGGCGGGTATCTCGCTGT -TTGGCTTGTTGATTTCCGTAGCGTTTGCCCCGGAGACTCGAGGGATGTCACTGGCGCAGACCAGCAATAT -GACGATCCGCGGGCAGAGAATGGGGTAAATTGTTCAGATTTCTCTCTTTTCTGAATCAATATTATTGACT -ATAAGCCGCGTGAATATATGACTACACTTTGTGGGAAAACAAAGGCGTAATCACGCGGGCTACCTATGAT -TCTTATAATTTATGCGCATCCGTATCCGCATCATTCCCATGCGAATAAACGGATGCTTGAACAGGCAAGG -ACGCTGGAAGGCGTCGAAATTCGCTCTCTTTATCAACTCTATCCTGACTTCAATATCGATATTGCCGCCG -AGCAGGAGGCGCTGTCTCGCGCCGATCTGATCGTCTGGCAGCATCCGATGCAGTGGTACAGCATTCCTCC -GCTCCTCAAACTTTGGATCGATAAAGTTTTCTCCCACGGCTGGGCTTACGGTCATGGCGGCACGGCGCTG -CATGGCAAACATTTGCTGTGGGCGGTGACGACCGGCGGCGGGGAAAGCCATTTTGAAATTGGTGCGCATC -CGGGCTTTGATGTGCTGTCGCAGCCGCTACAGGCGACGGCAATCTACTGCGGGCTGAACTGGCTGCCACC -GTTTGCCATGCACTGCACCTTTATTTGTGACGACGAAACCCTCGAAGGGCAGGCGCGTCACTATAAGCAA -CGTCTGCTGGAATGGCAGGAGGCCCATCATGGATAGCCATACGCTGATTCAGGCGCTGATTTATCTCGGT -TCGGCAGCGCTGATTGTACCCATTGCGGTACGTCTTGGTCTGGGATCGGTACTTGGCTACCTGATCGCCG -GCTGCATTATTGGCCCGTGGGGGCTGCGACTGGTGACCGATGCCGAATCTATTCTGCACTTTGCCGAGAT -TGGGGTGGTGCTGATGCTGTTTATTATCGGCCTCGAACTCGATCCACAAAGGCTGTGGAAGCTGCGTGCG -GCAGTGTTCGGCTGTGGCGCATTGCAGATGGTGATTTGCGGCGGCCTGCTGGGGCTGTTCTGCATGTTAC -TTGGGCTGCGCTGGCAGGTCGCGGAATTGATCGGCATGACGCTGGCGCTCTCCTCTACGGCGATTGCCAT -GCAGGCGATGAATGAACGCAATCTGATGGTGACGCAAATGGGTCGCAGTGCCTTTGCGGTGCTGCTGTTC -CAGGATATCGCGGCGATCCCGCTGGTGGCGATGATTCCGCTACTGGCAACGAGCAGTGCCTCGACGACGA -TGGGCGCATTTGCTCTCTCGGCGTTAAAAGTGGCGGGTGCGCTGGTGCTGGTGGTATTGCTGGGGCGCTA -TGTCACGCGTCCGGCGCTGCGTTTTGTAGCCCGCTCTGGCTTGCGGGAAGTGTTTAGTGCCGTGGCGTTA -TTCCTCGTGTTTGGCTTTGGTTTGCTGCTGGAAGAGGTCGGCTTGTCGATGGCGATGGGCGCGTTTCTGG -CGGGCGTACTGCTGGCAAGCTCGGAATACCGTCATGCGCTGGAGAGCGATATCGAACCATTTAAAGGTTT -GCTGTTGGGGCTGTTTTTCATCGGTGTTGGCATGTCGATAGACTTTGGCACGCTGCTTGAAAACCCATTG -CGCATTGTCATTTTGCTGCTCGGTTTCCTCATCATCAAAATCGCCATGCTGTGGCTGATTGCCCGACCGT -TGCAAGTGCCAAATAAACAGCGTCGTTGGTTTGCGGTGTTGTTAGGGCAGGGCAGTGAGTTTGCCTTTGT -GGTATTTGGCGCGGCGCAGATGGCGAATGTGCTGGAGCCGGAGTGGGCGAAATCGCTGACCCTGGCGGTG -GCGCTGTCGATGGCAGCAACGCCGATTCTGCTGGTGATCCTCAATCGCCTTGAGCAATCTTCTACTGAGG -AAGCGCGTGAAGCCGATGAGATCGACGAAGAACAGCCGCGCGTGATTATCGCCGGATTCGGTCGTTTTGG -GCAGATTACCGGACGTTTACTGCTCTCCAGCGGGGTGAAAATGGTGGTACTCGATCACGATCCGGACCAT -ATCGAAACCTTGCGTAAATTTGGTATGAAAGTGTTTTATGGCGATGCCACGCGGATGGATTTACTGGAAT -CTGCCGGAGCGGCGAAAGCGGAAGTGCTGATTAACGCCATCGACGATCCGCAAACCAACCTGCAACTGAC -AGAGATGGTGAAAGAACATTTCCCGCATTTGCAGATTATTGCCCGCGCCCGCGATGTCGACCACTACATT -CGTTTGCGTCAGGCAGGCGTTGAAAAGCCGGAGCGTGAAACCTTCGAAGGTGCGCTGAAAACCGGGCGTC -TGGCACTGGAAAGTTTAGGTCTGGGGCCGTATGAAGCGCGAGAACGTGCCGATGTGTTCCGCCGCTTTAA -TATTCAGATGGTGGAAGAGATGGCAATGGTTGAGAACGACACCAAAGCCCGCGCGGCGGTCTATAAACGC -ACCAGCGCGATGTTAAGTGAGATCATTACCGAGGACCGCGAACATCTGTCATTAATTCAACGACATGGCT -GGCAGGGAACCGAAGAAGGTAAACATACCGGCAACATGGCGGATGAACCGGAAACGAAACCCTCATCCTA -ATAAAGAGTGACGTAAATCACACTTTACAGCTAACTGTTTGTTTTTGTTTCATTGTAATGCGGCGAGTCC -AGGGAGAGAGCGTGGACTCGCCAGCAGAATATAAAATTTTCCTCAACATCATCCTCGCACCAGTCGACGA -CGGTTTACGCTTTACGTATAGTGGCGACAATTTTTTTTATCGGGAAATCTCAATGATCAGTCTGATTGCG -GCGTTAGCGGTAGATCGCGTTATCGGCATGGAAAACGCCATGCCGTGGAACCTGCCTGCCGATCTCGCCT -GGTTTAAACGCAACACCTTAAATAAACCCGTGATTATGGGCCGCCATACCTGGGAATCAATCGGTCGTCC -GTTGCCAGGACGCAAAAATATTATCCTCAGCAGTCAACCGGGTACGGACGATCGCGTAACGTGGGTGAAG -TCGGTGGATGAAGCCATCGCGGCGTGTGGTGACGTACCAGAAATCATGGTGATTGGCGGCGGTCGCGTTT -ATGAACAGTTCTTGCCAAAAGCGCAAAAACTGTATCTGACGCATATCGACGCAGAAGTGGAAGGCGACAC -CCATTTCCCGGATTACGAGCCGGATGACTGGGAATCGGTATTCAGCGAATTCCACGATGCTGATGCGCAG -AACTCTCACAGCTATTGCTTTGAGATTCTGGAGCGGCGGTAATTTTGTATAGAATTTACGGCTAGCGCCG -GATGCGACGCCGGTCGCGTCTTATCCGGCCTTCCTATATCAGGCTGTGTTTAAGACGCCGCCGCTTCGCC -CAAATCCTTATGCCGGTTCGACGGCTGGACAAAATACTGTTTATCTTCCCAGCGCAGGCAGGTTAATGTA -CCACCCCAGCAGCAGCCGGTATCCAGCGCGTATATACCTTCCGGCGTACCTTTGCCCTCCAGCGATGCCC -AGTGACCAAAGGCGATGCTGTATTCTTCAGCGACAGGGCCAGGAATCGCAAACCACGGTTTCAGTGGGGC -AGGGGCCTCTTCCGGCGATTCTTTGCTGTACATATCCAGTTGACCGTTCGGGAAGCAAAAACGCATACGG -GTAAAAGCGTTGGTGATAAAACGCAGTCTTCCCAGCCCCCGCAATTCCGGTGACCAGTTATTTGGCATAT -CGCCGTACATGGCATCAAGAAAGAAGGGATAGGAGTCACTCGATAGCACCGCTTCTACATCGCGTGCGCA -CTCTTTGGCGGTCTGCAGATCCCACTGCGGCGTGATCCCTGCGTGGGCCATCACCAGCTTTTTCTCTTCG -TCGATTTGCAGCAGAGGCTGGCGCCGCAGCCAGTTAAGCAGCTCGTCGGCATCCGGCGCTTCCAGCAGCG -GTGTCAGGCGATCTTTCGGTTTATTGCGGCTGATCCCGGCAAATACCGCCAGCAGATGCAGATCGTGATT -GCCCAGCACCAGACGTACGCTGTCGCCTAAGGATTTCACATAGCGCAGAACATCCAGCGAACCCGGCCCG -CGCGCGACCAGATCGCCCGTCAGCCAGAGGGTATCTTTCCCAGGGGTAAATTCTACTTTATGCAGCAATG -CGATCAGTTCATCGTAACAACCATGAACGTCGCCAATAAGGTATGTCGCCATATTCTTTTAATGAATGAG -TGTGGGAACGGCGAGTCGGAATACGGGAATGTCGATGCTGAAAGGGACGCCATTTTCATCGATCATTTCG -TAGTGACCCTGCATGGTGCCCAGCGGGGTTTCAATGATTGCACCGCTGGTGTACTGGTACTCTTCGCCAG -GCGCGATAAGTGGCTGGACGCCAACCACTCCTTCGCCCTGGACTTCGGTTTCACGGCCATTGCCATTGGT -GATCAGCCAGTAACGCCCCAACAACTGCACTGGCGCTCGCCCCAGATTGCGTATGGTTACGGTATAAGCA -AAAACGTAACGTTCATTATCAGGTGAAGATTGAGCCTCAATGTAGACGCTTTGAACCTGAATACACACTC -GGGGCGAATTGATCATCGTTAACTCTCCTGCAAAGGCGCGTTCTCCGCCAGATAGTTCGCCATCTGGCAA -TATTGCGCGACAGAGATATTTTCCGCTCGCATCGCCGGGTCGATCCCCATTCCCGTTAACACCTCGACGC -TAAACAGGTTGCCGAGGCTGTTACGAATGGTTTTACGACGCTGGTTAAAGGCTTCGGTGGTGATGCGGCT -CAACACACGAACATCTTTAACCGGGTGAGGCATCGTTGCATGAGGAACCAGGCGCACGACGGCGGAATCC -ACTTTGGGTGGTGGTGTAAAGGCTGACGGCGGTACTTCCAGTACCGGGATCACATTGCAATAGTATTGCG -CCATGACGCTTAATCGACCATACGCTTTGCTGTTCGGTCCTGCAACCAGACGATTCACCACCTCTTTTTG -CAACATAAAGTGCATGTCGGCAATGGCATCAGTATAGCTAAACAGATGGAACATCAACGGCGTGGAGATG -TTATAAGGCAGGTTGCCGAAAACACGCAGCGGCTGACCCATTTTCTCGGCCAGTTCACCAAAGTTAAAGG -TCATCGCATCCTGCTGATAAATCGTCAGTTTCGGGCCTAAGAATGGATGCGTTTGCAGACGTGCCGCCAG -ATCGCGGTCAAGTTCGATGACCGTCAGCTGGTCCAGACGTTCGCCGACCGGTTCGGTCAATGCCGCCAGA -CCGGGGCCGATTTCGACCATCGCCTGGCCCTTTTGCGGGTTAATGGCAGACACAATACTGTCGATCACGA -ACTGATCGTTGAGAAAGTTTTGCCCGAAGCGTTTACGGGCTAAGTGGCCCTGGTGGACTCGATTATTCAT -TGGGTGTTAACAATCATTTTGATGGCGAGATTAAGCGCCGTAATAAAACTGCCGACATCGGCTTTGCCAC -GTCCCGCCAGTTCAAGCGCGGTGCCGTGGTCCACTGATGTGCGAATAAAGGGCAGGCCCAGCGTAATGTT -CACACCGCGCCCGAAGCCCTGGTATTTTAGCACGGGAAGACCCTGATCGTGGTACATCGCCAGCACGGCG -TCGGCGTTATCAAGATATTTCGGCTGAAACAGGGTATCGGCAGGCAGCGGCCCGTTGAGTTTCATCCCCT -GCGCCCGCAGCTCATTGAGCACCGGAATAATGGTGTCTATCTCTTCCGTACCCATATGACCGCCTTCGCC -CGCGTGCGGATTCAGCCCGCAGACCAGAATGCGCGGTTCGGCAATACCAAATTTGGTCCGCAAATCGTGA -TGCAAAATAGCAATCACTTCGTGCAAAAGTGCAGGGGTGATAGCGTCTGCGATATCGCGCAGCGGTAAAT -GCGTCGTTGCCAGCGCCACGCGAAGTTCTTCGGTCGCCAGCATCATCACCACCTTTTTCGCCTGCGAACG -CTCTTCGAAAAACTCGGTATGACCGGTAAAAGGAATGCCAGCGTCGTTAATAACGCCTTTATGCACCGGA -CCTGTGATCAGCGCGGCAAATTCGCCGTTCAGACAACCATCGCACGCTCGCGCCAGCGTTTCCACCACAT -AATGCCCATTTTCAACCGCTAACTGCCCCGCAGTGACAGGTGCACGTAGCGCGACAGGAAGTAGCGTTAA -TGTGCCCGCAGTTTGCGGTTGTGCAGGGGAGTTGGGGGAATAAGGGCGGAGGGTGAGCGGCAAACCGAGC -ATCGCTGCCCGGTTGGTAAGGAGAGTGGCATCGGCACAAACAACCAGTTCGACCGGCCACTCACGCTGTG -CAAGCTGGACAACTAAGTCCGGGCCAATCCCGGCGGGCTCGCCGGGAGTGATCACAACACGTTGGGTTTT -AACCATTAGTTGCTCAGGATTTTAACGTAGGCGCTGGCACGTTGTTCCTGCATCCAGCTTGCTGCTTCTT -CCGAGAACTTACGGTTCATCAGCATGCGGTATGCACGATCTTTCTGCGCAGCGTCGGTTTTATCGACATT -ACGGGTATCCAGCAGTTCGATTAAATGCCAGCCGAATGAAGAGTGAACCGGTGCACTCATTTGACCTTTG -TTCAGGCGAGTCAGGGCGTCACGGAAGGCCGGATCGAAAATATCTGGTGTAGCCCAGCCGAGATCGCCGC -CCTGGTTAGCAGAGCCTGGATCCTGAGAGAACTCTTTCGCTGCGGCAGCAAAAGTCGTTTTACCACTCTT -GATATCAGCAGCAATCTGTTCCAGTTTCACACGGGCCTGTTCGTCAGTCATGATCGGCGACGGTTTCAGC -AGAATATGGCGAGCATGAACTTCGGTCACCGAGATATTTTTGCTTTCGCCGCGCAGGTCGTTAACTTTCA -GAATATGGAAGCCAACGCCGGAACGAATCGGGCCAACAATGTCGCCTTTCTTCGCGGTGCTTAATGCCTG -GGCGAAGATCCCGGGCAACTCCTGAATACGGCCCCAGCCCATCTGGCCGCCGTTCAGCGCCTGCTGGTCG -GCAGAATGAGCAATCGCCAGCTTACCGAAATCAGCGCCGTTACGCGCCTGATCGACAATGGCGCGCGCCT -GGCTTTCCGCTTCGTTCACCTGATCAGAGGTCGGGTTTTCCGGCAGCGGGATCAGGATGTGGCTCAGGTT -CAGCTCAGTGCTGGCGTCGTTTTGGTTACCCACCTGCTGCGCCAGGGATTCGACTTCCTGCGGCAGGATG -GTGATGCGACGACGCACCTCGTTGTTACGCACTTCAGAGATAATCATCTCTTTGCGGATCTGGTTACGAT -AGGTGTTGTAGTTCAGTCCATCGTAAGCCAGACGGCTGCGCATCTGATCCAGCGTCATGTTGTTCTGTTT -CGCGATGTTAGCAATCGCCTGATCCAGCTGCTCATCGGAGATTTTCACTCCCATTTTCTGCCCCATCTGC -AGGATGATTTGATCCATGATCAAACGTTCCATGATTTGGTGGCGCAGCGTCGCGTCATCAGGAAGTTGCT -GCCTTGCCTGAGCAGCGTTCAGTTTTACCGACTGCATTAATCCATCAACGTCGCTTTCCAGCACGACGCC -GTTATTGACGACGGCTGCGACTTTATCGACTACCTGGGGGGCAGCGAAACTGGTATTCGCGATCATGGCG -ATACCGAGAAGCAGCGTTTTCCAGTTCTTCATACTTTTTCCATTTCAATTAACCGCACTGCGGATTACGT -GGTAAATCAACAAATCACAAAGTGTTTTGATACGGCAGAATGTTCGAACGCAGCATCTCTTGCGTACCCA -GACCGTAGTTGGAGCTCAGGCCGCGAAGTTCGATGTTAAAGCCGATTGCGTTGTCATATACCGCATGTTG -TTTATCGTTATCCCAACCGTTCAGCTTCCGCTCGTAACCGACGCGAATTGCATAGCAGCAGGAGCTGTAT -TGCACACCTAACATAGAGTCGGCTTGCTTGTTAGCATTGGTGTCGTAGTAGTAGGCCCCAACAATGGACC -AACGATCGGCAATTGGCCAGCTGGCGACAGCACCTACCTGCGAAATACCATTCTTATATTGCTCAGCAGT -GGAATAGTACTTAGGCAGCGTAGCCTGAATATATTCCGGGCTGGCGTAACGGTAATTCAGCTGTACCAGA -CGGTCTTCATCCCGACGGTATTCAATGCTGGAGTTACTGGTCGCTACGTTATCCAGACGTGTATCGTACT -GAATCCCGCCACGCAATCCCCAACGCTCGGAGATACGCCAGTAAGTATCGCCTGCCCACACCAGTGAACC -CGTTTTGTCGTCATTCTCCCATGTTATGTTGTCATCGCCAGTGCGAGACTCCGTGAAATAGTAGATTTGA -CCAACGGAAATATTAAAACGTTCAACGGCAGCATCATCATATATGCGAGATGTGACACCGGTCGTCACCT -GGTTAGCGGAGGCAATACGGTCAAGACCGCCGTAAGTCCGGTCCCGGAACAGGCCAGAGTAGTCAGATTG -CAGCAGAGACGAGTCGTAGTTATAGATGTCGCTCTGATCGCGATACGGCACGTACAAATACTGCGCGCGC -GGTTCCAGCGTTTGGGTATAACCCGGAGCCAGCATTTCCATATCGCGTTCAAAGACCATTTTGCCGTCAA -CTTTGAATTGCGGCATTACGCGGTTAACGGATTCGTCCAGCTTGGTCGTGTTTCTGGAGTTATACCAGTC -AAGATTGGTTTGCTGATAATGGGTTGCCAGCAACTTCGCTTCGGTATTGATGCTGCCCCAGTTATTAGAG -AGCGGCAAATTGATGGTCGGTTCCAGGTGAACACGGGTTGCTTCAGGCATGTCGTCTCTGGTGTTAACAA -AGTGCACTGCCTGGCCGTAAATACGCGTATCAAACGGACCAACATCATTCTGGTAGTAATTAACGTCTAA -CTGCGGCTCTGCCGAGTAGCTACTGGTGTTCTGTTCGCTGAAAACCTGGAACTGCTTGGTTGAAACGGTG -GCATTGAAGTTTTGCACCGCATAGCCAACGCTGAATTTTTGCGTTGCGTAGCCGTCAGTACTGGAACCGT -ACTTGTTATCGAAATCATTGAAGTAGCTAGGATCGCTGACCTTGGTGTAGTCGACGTTGAAACGCCACAC -CTGATCCATGACCCCGGAGTGGTTCCAGTAGAATAACCAACGACGTGAACTGTCATCGTTCGGGTGTTCA -TCTTCATAGACTTTATCTGAAGGCAGATAGTCCAGTTCCATCAAGCCAGCGCCCGCCTGGGAGAGGTAGC -GGAATTCGTTCTCCCACATGATGTTGCCACGACGATGCATATAATGCGGCGTGATGGTGGCATCCATATT -TGGCGCGATGTTCCAGTAATATGGCAGGTAGAACTCAAAGTAGTTGGTGGTGGTGTACTTGGCGTTCGGG -ATCAAGAAACCAGAGCGACGTTTGTCACCCACCGGCAACTGCAAATAGGGGCTATAAAAGATCGGTACCG -GACCCACCTTAAAGCGGGCGTTCCAGATCTCCGCAACTTGTTCTTCGCGGTCATGAATAATTTCGCTACC -TACCACGCTCCAGGTGTCAGAACCCGGCAGACAGGAGGTAAAGCTACCGTTATCCAGAATGGTATAGCGG -TTTTCGCCACGTTGTTTCATCAGGTCCGCTTTACCGCGACCCTGGCGACCCACCATCTGGTAATCACCTT -CCCAGACGTTGGTATCTTTGGTGTTCAGATTCGCCCAGCCTTTCGGCCCTTTGAGGATCACCTGGTTATC -GTCGTAATGGACATTACCGAGCGCATCAACGGTACGTACCGGCTCCGGTTGTCCTGGTGCCTCTTTTTGA -TGGAGCTGCACTTCGTCGGCCTGCAGACGGCTGTTACCCTGCATGATATCCACGCTGCCAGTAAACACGG -CGTCATCCGGGTAGTCCCCTTTCGCGTGGTCAGCATTGATAGTCACGGGTAAGTCATTGGTATCGCCCTG -TACCAGAGGACGGTCATAGCTTGGCACGCCCAACATGCACTGTGAGGCGAGGTCGGCTGCCAGTCCCTGT -TGACTATAAAGGGCGGTGGCAATCATGGTGGCCAGGAGAGTGGGGATACGTTTTTTCATACGTTGATTTT -ATTGTTCCATCATCGGTAACGTTGCGCGTGACAAACGGTCAGAGACTAACGTACTCGTCATCTCTACGCT -AGTGTTAATCCTGTCCGAATAGCGTCAGTGGTGTTAGGCACGGCATTGAATGACAGGTATGATAATGCAA -ATTATAGGCGATGTCCCACAATTGACCGCAGCCGGAAAACGGTAAAAGCACCTTTATATTGTGGGAGATA -GCCCTGATATCCGTGTGTCGATTTGGGGAATATATGCAGTATTGGGGAAAAATCATTGGCGTGGCCGTGG -CCTTACTGATGGGCGGCGGCTTTTGGGGCGTAGTGTTAGGCCTGTTAATTGGCCATATGTTTGATAAAGC -CCGTAGCCGTAAAATGGCGTGGTTCGCCAACCAGCGTGAGCGTCAGGCGCTGTTTTTTGCCACCACTTTT -GAAGTGATGGGGCATTTAACCAAATCCAAAGGTCGCGTCACGGAGGCTGATATTCATATCGCCAGCCAGT -TGATGGACCGAATGAATCTTCATGGCGCTTCCCGTACTGCGGCGCAAAATGCGTTCCGGGTGGGAAAATC -AGACAATTACCCGCTGCGCGAAAAGATGCGCCAGTTTCGCAGTGTCTGCTTTGGTCGTTTTGACTTAATT -CGTATGTTTCTGGAGATCCAGATTCAGGCGGCGTTTGCTGATGGTTCACTGCACCCGAATGAACGGGCGG -TGCTGTATGTCATTGCAGAAGAATTAGGGATCTCCCGCGCTCAGTTTGACCAGTTTTTGCGCATGATGCA -GGGCGGTGCACAGTTTGGCGGCGGTTATCAGCAGCAAACTGGCGGTGGTAACTGGCAGCAAGCGCAGCGT -GGCCCAACGCTGGAAGATGCCTGTAATGTGCTGGGCGTGAAGCCGACGGATGATGCGACCACCATCAAAC -GTGCCTACCGTAAGCTGATGAGTGAACACCATCCCGATAAGCTGGTGGCGAAAGGTTTGCCGCCTGAGAT -GATGGAGATGGCGAAGCAGAAAGCGCAGGAAATTCAGCAGGCATATGAGCTGATAAAGCAGCAGAAAGGG -TTTAAATGACCCTGTAAATGATGCTGAGTAACTGCCCACGATTAAAGGTGGCCGCCCTGGCGGTCACTTC -TTTGAGAAAAGGCGTTTACTCAGAATGGTGGACAGGCTCAATGCACGGTTTACGGGAGGGGTTCTGTAGG -TTTTATCGCGTTGACCCTGCTTAAGGTTGAGAGCTTTACGACGAGCGGAATTATATTTTTACGTCTTAAA -AATAAAAAACACATACCTGAATGAGCGATTTTTGAAAGTATATTTATTCAGAACGCGCATCATGAGTTTT -TAACTCAATGCGAGGCTATTACCATGAAAGTATCAGTTCCAGGCATGCCGGTTACACTTTTAAATATGAG -CAAGAACGATATTTATAAGATGGTGAGCGGGGACAAGATGGACGTGAAGATGAATATCTTTCAACGCTTG -TGGGAGACGTTACGCCATCTGTTCTGGTCAGATAAACAGACTGAGGCTTATAAACTTCTGTTCAATTTCG -TGAATAACCAGACTGGCAACATCAACGCCTCAGAATACTTTACTGGGGCTATCAACGAGAATGAGAGAGA -AAAGTTTATCAATAGCCTGGAATTATTCAATAAACTTAAAACATGCGCAAAAAATCCGGATGAGTTGGTC -GCAAAGGGCAATATGCGCTGGGTCGCCCAGACCTTCGGGGATATCGAGTTAAGTGTCACTTTTTTCATTG -AAAAGAATAAGATATGTACTCAGACGTTGCAGCTGCATAAGGGCCAAGGTAACTTGGGCGTTGATCTTAG -AAAGGCTTACCTTCCCGGCGTTGACATGAGGGATTGTTACCTTGGTAAAAAAACAATGAAAGGTAGCAAT -GATATCCTTTATGAGAGACCTGGGTGGAATGCTAACCTGGGCGTGCTACCCCGGACGGTGCTACCCCGGA -CGGTGCTAACCCGGACGGTGCTAACCTGGACGGTGCTACCGTGAACGGTGCTACCTCCTTATATGATGAG -GTAATTATTATTAATAAAATCCCCCCCAAAAAAATTGATACTAAAGGAGTTGCTACTGAAGAAGTTGCTA -CTAAAAAAGTACTGCTGAACAAATTACTGACAACGCAATTATTGAATGAGCCAGAATAAGCTAAGGTTGA -AGGGGCTGGAACGCCCCTTCAACCTTAGCAGTAGCGTGGGATGATTTCACAATTAGAAAGACCTGCATGA -TGAGCTAGAGAAGAGGCTAGTGACGCAAGGCGTCGTGCAGGACACGGATCACCGAGATGGGCATCGCCAA -CCAGACTGCTAATTAGCCCATGAATAACAATCAGAAAGGACCATAACAGACCCGTTAAAATGAAATATAA -GAGACGGTCAACGGGTGAAGAAAAAGTTCAAAAATTCGCTGTGGAGCAGGAAGGGAATTACCGAATGGAA -AGCGTAGCCACACGCAACAACTGAAAGCAGTTTGGCAGAAACAAAAAATCCCCGGACTCGGGGATTTATG -TACAAGAGGCAGCCCTTAGGATGAGGGTATAAACGTACAGGAAAGGTTAAAAATCCGCTGGCGCTTTAAA -CGTCATACTATTGCCATACGCCGGATGGGTAATCGTCAACATCTCTGCATGTAGCAACAAACGTGGTGCC -ATCGCTCTCGCTTCTGGTGATGCATAAAAACGATCGCCGAGAATCGGATGACCCAGCGCCAGCATATGCA -CACGCAATTGATGCGAACGCCCGGTAATCGGTTTTAACACCACTCTTGCCGTGTTATCCGCCGCATACTC -CACCACTTCATATTCCGTCTGCGCAGGTTTACCCGTTTCGTAACAGACTTTCTGTTTCGGGCGGTTTGGC -CAGTCGCAAATCAGCGGCAGATCCACCAGACCTTCTGCGGGGGATGGATGCCCCCAGACGCGGGCCACAT -ACTGCTTTTTCGGCTCGCGCTCGCGGAACTGGCGTTTTAACTCCCGCTCCGCGGCTTTGGTCAGCGCCAC -TACAATCACGCCGCTGGTAGCCATATCCAGACGATGCACCGATTCTGCCTGCGGATAATCACGCTGAATG -CGCGTCATCACGCTGTCTTTGTGCTCTTCCAGACGACCCGGCACTGACAACAAACCGCTCGGCTTGTTGA -CCACCATAATATGGTCATCCTGATACAGGATAACCAACCAGGGTTCCTGCGGTGGATTGTAGTTTTCCAT -CCCCATTTTCGGCTCCGTTACTGATGCGTTACAACGATCAAACGCAGGGCATCCAGACGCCAACCTGCCT -GATCCAGGCTTTCCATTACCTGCTGACGGTTGCTCTCAATGGCGGTCAGTTCGTCGTCACGAATGTTCGG -GTTCACTGCACGCAGAGCTTCCAGACGAGACAGCTCGGCAGACAGTTTTTCGTCGGCTTCGTTACGCGCT -GCATCAATCAATGCACGGGCAGATTTCTCGATCTGCGCTTCACCCAGTTGAAGGATAGCGTGAACATCCT -GCTGCACGGCGTTAACCAGTTTGCTGCCGGTGTGACGGTTAACCGCGTTAAGCTGGCGGTTAAAGGTTTC -AAACTCTACCTGCGCCGCCAGGTTGTTGCCGTTTTTATCCAGCAGCATACGTACCGGCGTCGGTGGCAGG -AAGCGGTTGAGCTGCAACTGCTTCGGAGCCTGGGCTTCAACCACATAAATCAGTTCCACCAACAGCGTAC -CTACCGGCAACGCTTTGTTTTTTAACAGTGAAATCGTGCTGCTACCGGTATCGCCAGAAAGGATCAGATC -CAGACCGTTGCGGATCAGCGGATGCTCCCAGGTAATAAACTGTGCATCTTCACGCGCCAGCGCCACTTCA -CGATCAAAGGTGATGGTGATGCCATCTTCCGACAGGCCAGGGAAGTCCGGCACCAGCATATGATCGGACG -GCGTCAGCACGATCATGTTGTCGCCGCGATCGTCCTGATTGATACCGATAATATCGAACAGGTTCATGGC -GAAGGCGATCAGGTTGGTATCGTCATCCTGCTCTTCAATGCTTTCTGCCAGTGCCTGGGCTTTTTCGCCA -CCGTTGGAGTGGATTTCCAGCAGGCGGTCACGACCCTGTTCCAGCTGTGCTTTCAGCGCTTCATGTTGCT -CGCGGCAGTTTTTGATCAGATCGTCAAAGCCTTCGGTTTGATCCGGTGAAGCCAGATAGTTAATCAGATC -GTTGTATACGCTATCGTAAATAGTGCGTCCGGTCGGGCAGGTGTGCTCAAATGCATCCAGACCTTCGTGA -TACCAGCGCACCAGCACCGACTGAGCGGTTTTCTCCAGATAAGGCACATGGATCTGAATATCGTGCGCCT -GGCCGATACGATCCAGACGACCAATACGCTGCTCCAGTAGATCCGGGTTGAATGGCAGGTCAAACATCAC -CATGTGGCTGGCGAACTGGAAGTTACGTCCTTCAGAACCGATTTCTGAGCACAGCAGTACCTGTGCGCCG -GTGTCTTCTTCGGCAAACCAGGCGGCAGCGCGGTCACGTTCGATAATCGACATACCTTCGTGGAACACCG -CAGCGCGAATACCTTCACGTTCGCGCAGTACCTGCTCCAGTTGCAGCGCAGTGGCAGCTTTGGCGCAGAT -CACCAGCACTTTCTGAGAGCGATGGCTGGTCAGGTAGCCCATCAGCCACTCAACGCGCGGATCGAAGTTC -CACCAGGTGGCGTTATCACCTTCAAATTCCTGATAAATACGCTCCGGGTAGAGCATATCGCGAGCACGAT -CTTCCGCACTTTTACGTGCGCCCATAATGCCGGAGACTTTAATAGCCGTCTGATACTGCGTCGGTAGCGG -CAGCTTAATGGTGTGCAGCTCGCGTTTCGGGAATCCTTTCACACCGTTACGCGTGTTACGGAACAGCACG -CGGCTGGTGCCGTGGCGATCCATCAGCATCGAAACCAGCTCCTGACGGGCGCTCTGGGCATCTTCGCTGT -CGCTGTTTGCTGCCTGCAACAGCGGCTCGATATCCTGCTCGCCGATCATCTCGCCGAGCATGTTCAGTTC -GTCATTGCTCAGTTTGTTACCTGCCAGCAGCATGGCAACGGCGTCCGCAACCGGACGATAATTTTTCTGC -TCTTCAACGAACTGCGCAAAATCGTGGAAACGGTTCGGGTCCAGCAGACGCAGACGGGCGAAGTGGCTTT -CCATCCCCAGCTGTTCCGGGGTCGCGGTCAGCAGCAGAACGCCCGGCACGTGCTCTGCCAGTTGTTCAAT -GGCCTGATTTGAACGCCAGGCGCGGCAACGGGGTTATCAACTGCTGATTGCCTGCTCAGAAGATCAGCCA -GACAACGAAATGCGGTGCATTGAGCACCTTTTACAGCGTCAGGTTGATGCCATTATTGTTTCGACGTCGT -TGCCTCCTGAGCATCCTTTTTATCAACGCTGGGCTAACGACCCGTTCCCGATTGTCGCGCTGGACCGCGC -CCTCGATCGTGAACACTTCACCAGCGTGGTTGGTGCCGATCAGGATGATGCCGAAATGCTGGCGGAAGAG -TTACGTAAGTTTCCCGCCGAGACGGTGCTTTATCTTGGTGCGCTACCGGAGCTTTCTGTCAGCTTCCTGC -GTGAACAAGGTTTCCGTACTGCCTGGAAAGATGATCCGCGCGAAGTGCATTTCCTGTATGCCAACAGCTA -TGAGCGGGAGGCGGCTGCCCAGTTATTCGAAAAATGGCTGGAAACGCATCCGATGCCGCAGGCGCTGTTC -ACAACGTCGTTTGCGTTGTTGCAAGGAGTGATGGATGTCACGCTGCGTCGCGACGGCAAACTGCCTTCTG -ACCTGGCAATTGCCACCTTTGGCGATAACGAACTGCTCGACTTCTTACAGTGTCCGGTGCTGGCAGTGGC -TCAACGTCACCGCGATGTCGCAGAGCGTGTGCTGGAGATTGTCCTGGCAAGCCTGGACGAACCGCGTAAG -CCAAAACCTGGTTTAACGCGCATTAAACGTAATCTCTATCGCCGCGGCGTGCTCAGCCGTAGCTAAGCCG -CGAACAAAAATACGCGCCAGGTGAATTTCCCTCTGGCGCGTAGAGTACGGGAATGGACATCAATATCCTT -AAAGTAAATAAGACTATTCCTGACTATTATTGATAAGTTCTTTTAAACCCGCCCGTTAATTAACTCACCA -GCTGAAATTCACAATAATTAAGTGATATCGACAGCGCGTTTTTGCATTATTTTGTTACATGCAGAGATGA -ATTGCCGATTTAACAAGCACTTTTCTTTGCTTTTGCGCAAACCCGCTGGCATCAAGCGCCACACAGACGC -AACAGGGACTGTTAACCGGGGAAGATATGTCCTAAAATGCCGCTCGCGTCGCAAACTGACACTTTATATT -TGCTGTGGAAAATAGTGAGTCATTTTAAAACGGTGATGACGATGAGGGATTTTTTCTTACAGCTATTCAT -AACGTTAATTTGCTGCGCACGTTGGACGTAAAATAAACAACGCTGATATTAGCCGTAAACATCGGGTTTT -TTACCTCGGTATGCCTTGTGACTGGCTTGACAAGCTTTTCCTCCGCTCCGTAAACTCCTTTCAGTGGGAA -ATTGTGGGGCAAAGTGGGAATAAGGGGTGAGGCTGGCATGTTCCGGGGAGCAACGTTAGTCAATCTCGAC -AGCAAAGGGCGCTTATCAGTGCCTACCCGTTACCGGGAACAGCTGCTTGAGAACGCTGCCGGTCAAATGG -TTTGCACCATTGACATTCATCACCCGTGCCTGCTGCTTTACCCCCTGCCTGAATGGGAAATTATCGAGCA -AAAATTATCGCGTCTGTCGAGCATGAACCCGGTTGAGCGCCGTGTGCAGCGCCTACTGTTAGGTCATGCC -AGCGAATGTCAGATGGATGGCGCAGGTCGATTGTTAATCGCGCCAGTACTGCGGCAACATGCCGGGCTGA -CAAAAGAAGTGATGCTGGTTGGACAGTTCAACAAGTTTGAGCTGTGGGATGAAACAACCTGGCATCAACA -GGTCAAGGAAGATATCGACGCAGAGCAGTTGGCTACCGGAGACTTATCGGAGCGACTGCAGGACTTGTCT -CTATAAAATGATGGAAAACTATAAACATACTACGGTGCTGCTGGATGAAGCCGTTAATGGCCTCAATATC -CGTCCTGATGGCATCTACATTGATGGGACTTTTGGTCGCGGTGGTCACTCACGTCTGATCCTCTCGCAGC -TTGGCGAAGAGGGGCGTTTGCTGGCGATCGATCGCGACCCGCAGGCTATCGCCGTTGCGAAGACTATTGA -TGATCCGCGCTTCTCCATCATCCACGGACCTTTCTCCGCGCTGGGCGAATACGTTGCCGAGCGCGATCTT -ATCGGCAAGATCGACGGCATTCTCCTCGATCTTGGCGTCTCTTCACCGCAACTTGATGATGCTGAGCGCG -GCTTTTCCTTTATGCGCGATGGTCCGCTGGACATGCGTATGGACCCAACCCGTGGGCAGTCAGCCGCTGA -ATGGCTACAAACCGCAGAAGAAGCCGATATCGCCTGGGTATTGAAAACCTATGGTGAAGAGCGTTTTGCC -AAACGCATTGCCCGCGCCATTGTCGAGCGTAACCGCGAACAGCCGATGACCCGCACCAAAGAACTGGCGG -AAGTCGTGGCTGCTGCAACGCCGGTGAAAGATAAGTTTAAACATCCCGCGACCCGTACCTTCCAGGCGGT -GCGCATTTGGGTAAACAGTGAACTGGAGGAGATAGAGCAGGCGCTAAAAAGCTCGCTCAACGTGCTGGCC -CCGGGTGGGCGGCTTTCGATCATCAGCTTCCACTCGCTGGAAGACCGTATTGTGAAACGTTTTATGCGTG -AAAACAGCCGCGGTCCGCAAGTTCCGGCAGGGTTACCGATGACTGAAGAGCAGCTCAAAAAACTGGGTGG -CCGTCAGCTGCGAGCACTAGGCAAGTTAATGCCGGGCGAAGAAGAGGTGGCTGAGAACCCTCGTGCCCGT -AGTTCAGTTCTGCGTATTGCAGAGAGGACGAATGCATGATCAGCAGAGTGACAGAAGCTCTAAGCAAAGT -TAAAGGATCGATGGGAAGCCACGAGCGCCATGCATTGCCTGGTGTTATCGGTGACGATCTTTTGCGATTT -GGGAAGCTGCCACTCTGCCTGTTCATTTGCATTATTTTGACGGCGGTGACTGTGGTAACCACGGCGCACC -ATACCCGTTTACTGACCGCTCAGCGCGAACAACTGGTGCTGGAGCGAGATGCTTTAGACATTGAATGGCG -CAACCTGATCCTTGAAGAGAATGCGCTCGGCGACCATAGCCGGGTGGAAAGGATCGCCACGGAAAAGCTG -CAAATGCAGCATGTTGATCCGTCACAAGAAAATATCGTAGTGCAAAAATAAGGATAAACGCGACGCATGA -AAGCAGCGGCGAAAACGCAGAAACCAAAACGTCAGGAAGAACATGCCAACTTTATCAGTTGGCGTTTTGC -GTTGTTATGCGGCTGTATTCTCCTGGCGCTGGCTTTTCTGCTCGGACGCGTAGCGTGGTTACAAGTTATC -TCCCCGGATATGCTGGTGAAAGAGGGCGACATGCGTTCTCTTCGCGTTCAGCAAGTTTCCACCTCCCGCG -GCATGATTACTGACCGTTCTGGTCGCCCGTTAGCGGTGAGCGTGCCGGTAAAAGCGATTTGGGCTGACCC -GAAAGAAGTGCATGACGCTGGCGGTATCAGCGTCGGTGACCGCTGGAAGGCGCTGGCTAACGCGCTCAAT -ATTCCGCTGGATCAGCTTTCAGCCCGCATTAACGCCAACCCGAAAGGGCGCTTTATTTATCTGGCGCGTC -AGGTGAACCCTGACATGGCGGACTACATCAAAAAACTGAAACTGCCGGGGATTCATCTGCGTGAAGAATC -TCGCCGTTATTATCCATCCGGCGAAGTGACTGCTCACCTCATTGGCTTTACTAACGTCGATAGTCAAGGG -ATTGAGGGCGTTGAGAAGAGTTTCGATAAATGGCTTACCGGGCAGCCGGGTGAGCGCATTGTGCGTAAAG -ACCGCTATGGTCGCGTAATTGAAGATATTTCTTCTACTGACAGCCAGGCTGCGCACAACCTGGCGCTGAG -TATTGATGAACGCCTGCAGGCGCTGGTTTATCGCGAACTGAACAATGCGGTGGCCTTTAACAAGGCTGAA -TCTGGTAGCGCCGTGCTGGTGGATGTCAACACCGGTGAAGTGCTGGCGATGGCTAACAGCCCGTCATACA -ACCCTAACAATCTGAGCGGCACGCCGAAAGAGGCGATGCGTAACCGTACCATCACCGACGTGTTTGAACC -TGGCTCAACGGTTAAACCGATGGTGGTGATGACCGCGTTGCAACGTGGCGTGGTGCGGGAAAACTCGGTA -CTCAATACCATTCCTTATCGAATTAACGGCCACGAAATCAAAGACGTGGCACGCTACAGCGAATTAACCC -TGACCGGGGTATTACAGAAGTCGAGTAACGTCGGTGTTTCCAAGCTGGCGTTAGCGATGCCGTCCTCAGC -GTTAGTAGATACTTACTCACGTTTTGGACTGGGAAAAGCGACCAATTTGGGGTTGGTCGGAGAACGCAGT -GGCTTATATCCTCAAAAACAACGGTGGTCTGACATAGAGAGGGCCACCTTCTCTTTCGGCTACGGGCTAA -TGGTAACACCGTTACAGTTAGCGCGAGTCTACGCAACTATCGGCAGCTACGGCATTTATCGCCCACTGTC -GATTACCAAAGTTGACCCCCCGGTTCCCGGTGAACGTGTCTTCCCGGAATCCATTGTCCGCACCGTGGTG -CATATGATGGAAAGCGTGGCGCTACCGGGCGGCGGCGGCGTGAAGGCGGCGATTAAAGGCTATCGTATCG -CCATTAAAACCGGTACCGCGAAAAAGGTCGGGCCGGACGGTCGCTACATCAATAAATATATTGCTTATAC -CGCAGGCGTTGCGCCTGCGAGTCAGCCGCGCTTCGCGCTGGTTGTTGTTATCAACGATCCGCAGGCGGGT -AAATACTACGGCGGCGCCGTTTCCGCGCCGGTCTTTGGTGCCATCATGGGCGGCGTATTGCGTACCATGA -ACATCGAGCCGGATGCGCTGACAACGGGCGATAAAAATGAATTTGTGATTAATCAAGGCGAGGGGACAGG -TGGCAGATCGTAATTTGCGCGACCTTCTTGCTCCGTGGGTGCCAGACGCACCTTCGCGAGCACTGCGAGA -GATGACACTCGACAGCCGTGTGGCTGCGGCGGGCGATCTCTTTGTAGCTGTAGTAGGTCATCAGGCGGAC -GGGCGTCGATATATCCCGCAGGCGATAGCGCAAGGTGTGGCTGCCATTATTGCAGAGGCGAAAGATGAGG -CGACCGATGGTGAAATCCGTGAAATGCACGGCGTACCGGTCATCTATCTCAGCCAGCTCAACGAGCGTTT -ATCTGCACTGGCGGGCCGCTTTTACCATGAACCCTCTGACAATTTACGTCTCGTGGGCGTAACGGGCACC -AACGGCAAAACCACGACTACCCAGCTGTTGGCGCAGTGGAGCCAACTGCTTGGCGAAATCAGCGCGGTAA -TGGGCACCGTTGGTAACGGCCTGCTGGGGAAAGTGATCCCGACAGAAAATACAACCGGTTCGGCAGTCGA -TGTTCAGCATGAGCTGGCGGGGCTGGTGGATCAGGGCGCGACGTTTTGCGCAATGGAAGTTTCCTCCCAC -GGGCTGGTACAGCACCGTGTGGCGGCATTGAAATTTGCGGCGTCGGTCTTTACCAACTTAAGCCGCGATC -ACCTTGATTATCATGGTGATATGGAACACTACGAAGCCGCGAAATGGCTGCTTTATTCTGAGCATCATTG -CGGTCAGGCGATTATTAACGCCGACGATGAAGTGGGCCGCCGCTGGCTGGCAAAACTGCCGGACGCGGTT -GCGGTATCAATGGAAGATCATATTAATCCGAACTGTCACGGACGCTGGTTGAAAGCGACCGAAGTGAACT -ATCACGACAGCGGTGCGACGATTCGCTTTAGCTCAAGTTGGGGCGATGGCGAAATTGAAAGCCATCTGAT -GGGCGCTTTTAACGTCAGCAACCTGCTGCTCGCGCTGGCGACACTGTTGGCACTCGGCTATCCACTGGCT -GATCTGCTGAAAACCGCCGCGCGTCTGCAACCGGTTTGCGGACGTATGGAAGTGTTCACTGCGCCAGGCA -AACCGACGGTGGTGGTGGATTACGCGCATACGCCGGATGCACTGGAAAAAGCCTTACAGGCAGCGCGTCT -GCACTGTGCGGGCAAGCTGTGGTGTGTCTTTGGCTGTGGTGGCGATCGCGATAAAGGTAAGCGTCCACTG -ATGGGCGCAATTGCCGAAGAGTTTGCTGACGTGGCGGTGGTGACGGACGATAACCCGCGTACCGAAGAAC -CGCGTGCCATCATCAACGATATTCTGGCGGGAATGTTAGATGCCGGACATGCCAAAGTGATGGAAGGCCG -TGCTGAAGCGGTGACTTGCGCCGTTATGCAGGCTAAAGAGAATGATGTGGTACTGGTCGCGGGCAAAGGC -CATGAAGATTACCAGATTGTTGGCAATCAGCGTCTGGACTACTCCGATCGCGTCACGGTGGCGCGTCTGC -TGGGGGTGATTGCATGATTAGCGTAACCCTTAGCCAACTTACCGACATTCTCAACGGTGAACTGCAAGGT -GCAGATATCACCCTTGATGCTGTAACCACTGATACCCGAAAACTGACGCCGGGCTGCCTGTTTGTTGCCC -TGAAAGGCGAACGTTTTGATGCCCACGATTTTGCCGACCAGGCGAAAGCTGGCGGCGCAGGCGCACTACT -GGTTAGCCGTCCGCTGGACATCGACCTGCCGCAGTTAATCGTCAAGGATACGCGTCTGGCGTTTGGTGAA -CTGGCTGCATGGGTTCGCCAGCAAGTTCCGGCGCGCGTGGTTGCTCTGACGGGGTCCTCCGGCAAAACCT -CCGTTAAAGAGATGACGGCGGCGATTTTAAGCCAGTGCGGCAACACGCTTTATACGGCAGGCAATCTCAA -CAACGACATCGGTGTACCGATGACGCTGTTGCGCTTAACGCCGGAATACGATTACGCAGTTATTGAACTT -GGCGCGAACCATCAGGGCGAAATAGCCTGGACTGTGAGTCTGACTCGCCCGGAAGCTGCGCTGGTCAACA -ACCTGGCAGCGGCGCATCTGGAAGGTTTTGGCTCGCTTGCGGGTGTCGCGAAAGCGAAAGGTGAAATCTT -TAGCGGCCTGCCGGAAAACGGTATCGCCATTATGAACGCCGACAACAACGACTGGCTGAACTGGCAGAGC -GTAATTGGCTCACGCAAAGTGTGGCGTTTCTCACCCAATGCCGCCAACAGCGATTTCACCGCCACCAATA -TCCATGTGACCTCGCACGGTACGGAATTTACCCTACAAACCCCAACCGGTAGCGTCGATGTTCTGCTGCC -GTTGCCGGGGCGTCACAATATTGCGAATGCGCTGGCAGCCGCTGCGCTCTCCATGTCCGTGGGCGCAACG -CTTGATGCTATCAAAGCGGGGCTGGCAAATCTGAAAGCTGTTCCAGGCCGTCTGTTCCCCATCCAACTGG -CAGAAAACCAGTTGCTGCTCGACGACTCCTACAACGCCAATGTCGGTTCAATGACTGCAGCAGTCCAGGT -ACTGGCTGAAATGCCGGGCTACCGCGTGCTGGTGGTGGGCGATATGGCGGAACTGGGCGCTGAAAGCGAA -GCCTGCCATGTACAGGTGGGCGAGGCGGCAAAAGCTGCTGGTATTGACCGCGTGTTAAGCGTGGGTAAAC -AAAGCCATGCTATCAGCACCGCCAGCGGCGTTGGCGAACATTTTGCTGATAAAACTGCGTTAATTACGCG -TCTTAAATTACTGATTGCTGAGCAACAGGTAATTACGATTTTAGTTAAGGGTTCACGTAGTGCCGCCATG -GAAGAGGTAGTACGCGCTTTACAGGAGAATGGGACATGTTAGTTTGGCTGGCCGAACATTTGGTCAAATA -TTATTCCGGCTTTAACGTCTTTTCCTATCTGACGTTTCGCGCCATCGTCAGCCTGCTGACCGCGCTGTTC -ATCTCATTGTGGATGGGCCCGCGTATGATTGCTCATTTGCAAAAACTTTCCTTTGGTCAGGTGGTGCGTA -ACGACGGTCCTGAATCACACTTCAGCAAGCGCGGTACGCCGACCATGGGCGGGATTATGATCCTGACGGC -GATTGTGATCTCCGTACTGCTGTGGGCTTACCCGTCCAATCCGTACGTCTGGTGCGTGTTGGTGGTGCTG -GTAGGTTACGGTGTTATTGGCTTTGTTGATGATTATCGCAAAGTGGTGCGTAAAGACACCAAAGGGTTGA -TCGCTCGTTGGAAGTATTTCTGGATGTCGGTCATTGCGCTGGGTGTCGCCTTCGCCCTGTACCTTGCCGG -CAAAGACACGCCCGCAACGCAGCTGGTGGTCCCATTCTTTAAAGATGTGATGCCGCAGCTGGGGCTGTTC -TACATTCTGCTGGCTTACTTCGTCATTGTGGGTACTGGCAACGCGGTAAACCTGACCGATGGTCTCGACG -GCCTGGCAATTATGCCGACCGTATTTGTCGCCGGTGGTTTTGCGCTGGTGGCGTGGGCGACCGGCAATAT -GAACTTTGCCAGCTACTTGCATATACCGTATCTGCGACACGCCGGGGAACTGGTTATTGTCTGTACCGCG -ATAGTCGGGGCAGGACTGGGCTTCCTGTGGTTTAACACCTATCCGGCGCAGGTCTTTATGGGCGATGTAG -GTTCGCTGGCGTTAGGTGGTGCGTTAGGCATTATCGCCGTACTGCTACGTCAGGAATTCCTGCTGGTGAT -TATGGGGGGCGTGTTCGTGGTAGAAACGCTTTCTGTCATCCTGCAGGTCGGCTCCTTTAAACTGCGCGGA -CAACGTATTTTCCGCATGGCACCGATTCATCACCACTATGAACTGAAAGGCTGGCCGGAACCGCGCGTCA -TTGTGCGTTTCTGGATTATTTCGCTGATGCTGGTTCTGATTGGTCTGGCAACGCTGAAGGTACGTTAATC -ATGGCTGATTATCAGGGTAAAAATGTCGTCATTATCGGCCTGGGCCTCACCGGGCTTTCCTGCGTGGACT -TTTTCCTCGCTCGCGGTGTGACGCCGCGCGTTATGGATACGCGTATGACACCGCCTGGCCTGGATAAATT -ACCCGAAGCCGTAGAACGCCACACGGGCAGTCTGAATGATGAATGGCTGATGGCGGCAGATCTGATTGTC -GCCAGTCCCGGTATTGCACTGGCGCATCCATCCTTAAGCGCTGCCGCTGATGCCGGAATCGAAATCGTTG -GCGATATCGAGCTGTTCTGTCGCGAAGCACAAGCACCGATTGTGGCGATTACCGGTTCTAACGGCAAAAG -CACGGTCACCACGCTAGTGGGTGAAATGGCGAAAGCGGCGGGGGTTAACGTTGGTGTGGGTGGCAATATT -GGCCTGCCTGCGTTGATGCTACTGGATGATGAGTGTGAACTGTACGTGCTGGAACTGTCGAGCTTCCAGC -TGGAAACCACCTCCAGCTTACAGGCGGTAGCAGCGACCATTCTGAACGTGACTGAAGATCATATGGATCG -CTATCCGTTTGGTTTACAACAGTATCGTGCAGCAAAACTGCGCATTTACGAAAACGCGAAAGTTTGCGTG -GTTAATGCTGATGATGCCTTAACAATGCCGATTCGCGGTGCGGATGAACGCTGCGTCAGCTTTGGCGTCA -ACATGGGTGACTATCACCTGAATCATCAGCAGGGCGAAACCTGGCTGCGGGTTAAAGGCGAGAAAGTGCT -GAATGTGAAAGAGATGAAACTTTCCGGGCAGCATAACTACACCAATGCGCTGGCGGCGCTGGCGCTGGCA -GATGCTGCAGGGTTACCGCGTGCCAGCAGCCTGAAAGCGTTAACCACATTCACTGGTCTGCCGCATCGCT -TTGAAGTTGTGCTGGAGCATAACGGCGTACGTTGGATTAACGATTCGAAAGCGACCAACGTCGGCAGTAC -GGAAGCGGCGCTGAATGGCCTGCACGTAGACGGCACACTGCATTTGTTGCTGGGTGGCGATGGTAAATCG -GCGGACTTTAGCCCACTGGCGCGTTACCTGAATGGCGATAACGTACGTCTGTATTGTTTCGGTCGTGACG -GCGCGCAGCTGGCGGCGCTACGCCCGGAAGTGGCAGAACAAACCGAAACTATGGAACAGGCGATGCGCTT -GCTGGCTCCGCGTGTTCAGCCGGGCGATATGGTTCTGCTCTCCCCAGCCTGTGCCAGCCTTGATCAGTTC -AAGAACTTTGAACAACGAGGCAATGAGTTTGCCCGTCTGGCGAAGGAGTTAGGTTGATGCGTTTATCTCT -CCCTCGCCTGAAAATGCCGCGCCTGCCAGGATTCAGTATCCTGGTCTGGATCTCCACGGCGCTAAAGGGC -TGGGTGATGGGCTCGCGGGAAAAAGATACCGACAGCCTGATCATGTACGATCGCACCTTACTGTGGCTGA -CCTTCGGCCTCGCGGCGATTGGCTTTATCATGGTGACCTCGGCGTCAATGCCCATAGGGCAACGCTTAAC -CAACGATCCGTTCTTCTTCGCGAAGCGTGATGGTGTCTATCTGATTTTGGCGTTTATTCTGGCGATCATT -ACGCTGCGTCTGCCGATGGAGTTCTGGCAACGCTACAGTGCCACGATGCTGCTCGGATCTATCATCCTGC -TGATGATCGTCCTGGTAGTGGGTAGCTCGGTTAAAGGGGCATCGCGTTGGATCGATCTCGGTTTGCTGCG -TATCCAGCCTGCGGAGCTGACAAAACTGTCGCTGTTTTGCTATATCGCCAACTATCTGGTGCGTAAAGGC -GACGAAGTACGTAATAACCTGCGCGGCTTCCTGAAACCGATGGGCGTGATTCTGGTGTTGGCAGTGTTAC -TGCTGGCACAGCCAGACCTTGGTACGGTGGTGGTGTTGTTTGTGACTACGCTGGCGATGTTGTTCCTGGC -GGGAGCGAAATTGTGGCAGTTCATTGCCATTATCGGTATGGGCATTTCAGCGGTTGTGTTGCTGATACTC -GCCGAACCGTACCGTATCCGCCGTGTTACCGCATTCTGGAACCCGTGGGAAGATCCCTTTGGCAGCGGCT -ATCAGTTAACGCAATCGCTGATGGCGTTTGGTCGCGGCGAACTTTGGGGGCAAGGTTTAGGTAACTCGGT -ACAAAAACTGGAGTATCTGCCGGAAGCGCACACTGACTTTATTTTCGCCATTATCGGCGAAGAACTGGGG -TATGTCGGTGTGGTGCTGGCACTTTTAATGGTATTCTTCGTCGCTTTTCGCGCGATGTCGATTGGCCGTA -AAGCATTAGAAATTGACCACCGTTTTTCCGGTTTTCTCGCCTGTTCTATTGGCATCTGGTTTAGCTTCCA -GGCGCTGGTTAACGTAGGCGCGGCGGCGGGGATGTTACCGACCAAAGGTCTGACATTGCCGCTGATCAGT -TACGGTGGTTCGAGCTTACTGATTATGTCGACAGCCATCATGATGCTGTTGCGTATTGATTATGAAACGC -GTCTGGAGAAAGCGCAGGCGTTTGTACGAGGTTCACGATGAGTGGTCAAGGAAAGCGATTAATGGTGATG -GCAGGCGGAACCGGTGGACATGTATTCCCGGGACTGGCGGTTGCGCACCATCTAATGGCTCAGGGTTGGC -AAGTTCGCTGGCTGGGGACTGCCGACCGTATGGAAGCGGACTTAGTGCCAAAACATGGCATCGAAATTGA -TTTCATTCGTATCTCTGGTCTGCGTGGAAAAGGTATAAAAGCACTGATAGCTGCCCCGCTGCGTATCTTC -AACGCCTGGCGTCAGGCGCGGGCGATTATGAAAGCGTACAAACCTGACGTGGTGCTCGGTATGGGAGGCT -ACGTGTCAGGTCCAGGTGGTCTGGCCGCGTGGTCGTTAGGCATTCCGGTTGTACTTCATGAACAAAACGG -TATTGCGGGCTTAACCAATAAATGGCTGGCGAAGATTGCCACCAAAGTGATGCAGGCGTTTCCAGGTGCT -TTCCCTAATGCGGAAGTAGTGGGTAACCCGGTGCGTACCGATGTGTTGGCGCTGCCGTTGCCGCAGCAAC -GTTTGGCTGGACGTGAAGGTCCGGTTCGTGTGCTGGTAGTGGGTGGTTCTCAGGGCGCACGCATTCTTAA -CCAGACAATGCCGCAGGTTGCTGCGAAACTGGGTGATTCAGTCACTATCTGGCATCAGAGCGGCAAAGGT -TCGCAACAATCCGTTGAACAGGCGTATGCCGAAGCGGGGCAACCGCAGCATAAAGTGACGGAATTTATTG -ATGATATGGCGGCGGCGTATGCGTGGGCGGATGTCGTCGTTTGCCGCTCCGGTGCGTTAACGGTGAGTGA -AATCGCCGCGGCAGGACTACCGGCGTTGTTTGTGCCGTTTCAACATAAAGACCGCCAGCAATACTGGAAT -GCGCTACCGCTGGAAAAAGCGGGCGCAGCCAAAATTATCGAGCAGCCACAGCTTAGCGTGGATGCTGTCG -CCAACACCCTGGCCGGGTGGTCGCGAGAAACCTTATTAACCATGGCAGAACGCGCCCGCGCTGCATCCAT -TCCGGATGCCACCGAGCGAGTGGCAAATGAAGTGAGCCGGGTTGCCCGGGCGTAATTGTAGCGATGCCTT -TTGCATCGTATGAATTTAAGAAGTTAATGGCGTAAAGAATGAATACACAACAATTGGCAAAACTGCGTTC -CATCGTGCCCGAAATGCGTCGCGTTCGGCACATACATTTTGTCGGCATTGGTGGTGCCGGTATGGGCGGT -ATTGCCGAAGTTCTGGCCAATGAAGGTTATCAGATCAGTGGTTCCGATTTAGCGCCAAATCCGGTCACGC -AGCAGTTAATGAATCTGGGTGCGACGATTTATTTCAACCATCGCCCGGAAAACGTACGTGATGCCAGCGT -GGTCGTTGTTTCCAGCGCGATTTCTGCCGATAACCCGGAAATTGTCGCCGCTCATGAAGCGCGTATTCCG -GTGATCCGTCGTGCCGAAATGCTGGCTGAGTTAATGCGTTTTCGTCATGGCATCGCCATTGCCGGAACGC -ACGGCAAAACGACAACCACCGCGATGGTTTCCAGCATCTACGCAGAAGCGGGGCTCGACCCAACCTTCGT -TAACGGCGGGCTGGTAAAAGCGGCGGGGGTTCATGCGCGTTTGGGGCATGGTCGGTACCTGATTGCCGAA -GCAGATGAGAGTGATGCATCGTTCCTGCATCTGCAACCGATGGTGGCGATTGTCACCAATATCGAAGCCG -ACCACATGGATACCTACCAGGGCGACTTTGAGAATTTAAAACAGACTTTTATTAATTTTCTGCACAACCT -GCCGTTTTACGGTCGTGCGGTGATGTGTGTTGATGATCCGGTGATCCGCGAATTGTTACCGCGAGTGGGG -CGTCAGACCACGACTTACGGCTTCAGCGAAGATGCCGACGTGCGTGTAGAAGATTATCAGCAGATTGGCC -CGCAGGGGCACTTTACGCTGCTGCGCCAGGACAAAGAGCCGATGCGCGTCACCCTGAATGCGCCAGGTCG -TCATAACGCGCTGAACGCCGCAGCTGCGGTTGCGGTTGCTACGGAAGAGGGCATTGACGACGAGGCTATT -TTGCGGGCGCTTGAAAGCTTCCAGGGGACTGGTCGCCGTTTTGATTTCCTCGGTGAATTCCCGCTGGAGC -CAGTGAATGGTAAAAGCGGTACGGCAATGCTGGTCGATGACTACGGCCACCACCCGACGGAAGTGGACGC -CACCATTAAAGCGGCGCGCGCAGGCTGGCCGGATAAAAACCTGGTAATGCTGTTTCAGCCGCACCGTTTT -ACCCGTACGCGCGACCTGTATGATGATTTCGCCAATGTGCTGACGCAGGTTGATACCCTGTTGATGCTGG -AAGTGTATCCGGCTGGCGAAGCGCCAATTCCGGGAGCGGACAGCCGTTCGCTGTGTCGCACAATTCGTGG -ACGTGGGAAAATTGATCCCATTCTGGTGCCGGATCCGGCGCGGGTAGCCGAGATGCTGGCACCGGTATTA -ACCGGTAACGACCTGATTCTCGTTCAGGGGGCTGGTAATATTGGAAAAATTGCCCGTTCTTTAGCTGAAA -TCAAACTGAAGCCGCAAACTCCGGAGGAAGAACAACATGACTGATAAAATCGCGGTCCTGTTGGGTGGGA -CCTCCGCTGAGCGGGAAGTTTCTCTGAATTCTGGCGCAGCGGTGTTAGCCGGACTGCGTGAAGGCGGTAT -TGACGCGTATCCTGTCGACCCGAAAGAAGTCGACGTGACGCAACTGAAGTCGATGGGCTTTCAGAAAGTG -TTTATCGCGCTACACGGTCGCGGCGGTGAAGATGGTACGCTGCAGGGGATGCTCGAGCTGATGGGCTTGC -CTTATACCGGAAGCGGAGTGATGGCATCTGCGCTTTCAATGGATAAACTACGCAGCAAACTTCTATGGCA -AGGTGCCGGTTTACCGGTCGCGCCGTGGGTAGCGTTAACCCGCGCAGAGTTTGAAAAAGGCCTGAGCGAT -AAGCAGTTAGCAGAAATTTCTGCTCTGGGTTTGCCGGTTATCGTTAAGCCGAGCCGCGAAGGTTCCAGTG -TGGGAATGTCAAAAGTAGTAGCAGAAAATGCTCTACAAGATGCATTAAGATTGGCATTTCAGCACGATGA -AGAAGTATTGATTGAAAAATGGCTAAGTGGGCCGGAGTTCACGGTTGCGATACTCGGTGAAGAAATTTTA -CCGTCAATACGTATTCAACCGTCCGGAACCTTCTATGATTATGAGGCGAAGTATCTCTCTGATGAGACAC -AGTATTTCTGCCCCGCAGGTCTGGAAGCGTCACAAGAGGCCAATTTGCAGGCATTAGTGCTGAAAGCATG -GACGACGTTAGGTTGCAAAGGATGGGGACGTATTGACGTTATGCTGGACAGCGATGGACAGTTTTATCTG -CTGGAAGCCAATACCTCACCGGGTATGACCAGCCACAGCCTGGTGCCGATGGCGGCACGTCAGGCAGGTA -TGAGCTTCTCGCAGTTGGTAGTACGAATTCTGGAACTGGCGGACTAATATGTCGCAGGCTGCTCTGAACA -CGCGAAACAGCGAAGAAGAGGTTTCTTCTCGCCGCAATAATGGAACGCGTCTGGCGGGGATCCTTTTCCT -GCTGACCGTTTTAACGACAGTGTTGGTGAGCGGCTGGGTCGTGTTGGGCTGGATGGAAGATGCGCAACGC -CTGCCGCTCTCAAAGCTGGTGTTGACCGGTGAACGCCATTACACACGTAATGACGATATCCGGCAGTCGA -TCCTGGCATTGGGTGAGCCGGGTACCTTTATGACCCAGGATGTCAACATCATCCAGACGCAAATAGAACA -ACGCCTGCCGTGGATTAAGCAGGTGAGCGTCAGAAAGCAGTGGCCTGATGAATTGAAGATTCATCTGGTT -GAATATGTGCCGATTGCGCGGTGGAATGATCAACATATGGTAGACGCGGAAGGAAATACCTTCAGCGTGC -CGCCAGAACGCACCAGCAAGCAGGTGCTTCCAATGCTGTATGGCCCGGAAGGCAGCGCCAATGAAGTGTT -GCAGGGCTATCGCGAAATGGGGCAGATGCTGGCAAAGGACAGATTTACTCTGAAGGAAGCGGCGATGACC -GCGCGGCGTTCCTGGCAGTTGACGCTGAATAACGATATTAAGCTCAATCTTGGCCGGGGCGATACGATGA -AACGTTTGGCTCGCTTTGTAGAACTTTATCCGGTTTTACAGCAGCAGGCGCAAACCGATGGCAAACGGAT -TAGCTACGTTGATTTGCGTTATGACTCTGGAGCGGCAGTAGGCTGGGCGCCCTTGCCGCCAGAGGAATCT -ACTCAGCAACAAAATCAGGCACAGGCAGAACAACAATGATCAAGGCGACGGACAGAAAACTGGTAGTAGG -ACTGGAGATTGGTACCGCGAAGGTTGCCGCTTTAGTAGGGGAAGTTCTGCCCGACGGTATGGTCAATATC -ATTGGCGTGGGCAGCTGCCCGTCGCGTGGTATGGATAAAGGCGGGGTGAACGACCTCGAATCCGTGGTCA -AGTGCGTACAACGCGCCATTGACCAGGCAGAATTGATGGCAGATTGTCAGATCTCTTCGGTATATCTGGC -GCTTTCTGGTAAGCACATCAGCTGCCAGAATGAAATTGGTATGGTGCCTATTTCTGAAGAAGAAGTGACG -CAAGAAGATGTGGAAAACGTCGTCCATACCGCGAAATCGGTGCGTGTGCGCGATGAGCATCGTGTGCTGC -ATGTGATCCCGCAAGAGTATGCGATTGACTATCAGGAAGGGATCAAGAATCCGGTAGGACTTTCGGGCGT -GCGGATGCAGGCAAAAGTGCACCTGATCACATGTCACAACGATATGGCGAAAAACATCGTCAAAGCGGTT -GAACGTTGTGGGCTGAAAGTTGACCAACTGATATTTGCCGGACTGGCATCAAGTTATTCGGTATTGACGG -AAGATGAACGTGAACTGGGTGTCTGCGTCGTCGATATCGGTGGTGGTACAATGGATATCGCCGTTTATAC -CGGTGGGGCATTGCGCCACACTAAGGTAATTCCTTATGCTGGCAATGTCGTGACCAGTGATATCGCTTAC -GCCTTTGGCACGCCGCCAAGCGACGCCGAAGCGATTAAAGTTCGCCACGGTTGTGCGCTGGGTTCCATCG -TTGGAAAAGATGAGAGCGTGGAAGTGCCGAGCGTAGGTGGTCGTCCGCCACGGAGTCTGCAACGTCAGAC -ACTGGCAGAGGTGATCGAGCCGCGCTATACCGAGCTGCTCAACCTGGTCAACGAAGAGATATTGCAGTTG -CAGGAAAAGCTTCGCCAACAAGGGGTTAAACATCACCTGGCGGCAGGCATTGTATTAACCGGTGGCGCAG -CGCAGATCGAAGGTCTTGCAGCCTGTGCTCAGCGCGTGTTTCATACGCAAGTGCGTATCGGCGCGCCGCT -GAACATTACCGGTTTAACGGATTATGCTCAGGAGCCGTATTATTCGACGGCGGTGGGATTGCTTCACTAT -GGGAAAGAGTCACATCTTAACGGTGAAGCTGAAGTAGAAAAACGTGTTACAGCATCAGTTGGCTCGTGGA -TCAAGCGACTCAATAGTTGGCTGCGAAAAGAGTTTTAATTTTTATGAGGCCGACGATGATTACGGCCTCA -GGCGACAGGCACAAATCGGAGAGAAACTATGTTTGAACCAATGGAACTTACCAATGACGCGGTGATTAAA -GTCATCGGCGTCGGCGGCGGCGGCGGTAATGCTGTTGAACACATGGTGCGCGAGCGCATTGAAGGTGTTG -AATTCTTCGCGGTAAATACCGATGCACAAGCGCTGCGTAAAACAGCGGTTGGACAGACGATTCAAATCGG -TAGCGGTATCACCAAAGGACTGGGCGCTGGCGCTAATCCAGAAGTTGGCCGCAATGCGGCTGATGAGGAT -CGCGATGCATTGCGTGCGGCGCTGGAAGGTGCAGACATGGTCTTTATTGCTGCGGGTATGGGTGGTGGTA -CCGGTACAGGTGCAGCACCAGTCGTCGCTGAAGTGGCAAAAGATTTGGGTATCCTGACCGTTGCTGTCGT -CACTAAGCCTTTCAACTTTGAAGGCAAGAAGCGTATGGCATTCGCGGAGCAGGGGATCACTGAACTGTCC -AAGCATGTGGACTCTCTGATCACTATCCCGAACGACAAACTGCTGAAAGTTCTGGGCCGCGGTATCTCCC -TGCTGGATGCGTTTGGCGCAGCGAACGATGTACTGAAAGGCGCTGTGCAAGGTATCGCTGAACTGATTAC -TCGTCCGGGTTTGATGAACGTGGACTTTGCAGACGTACGCACCGTAATGTCTGAGATGGGCTACGCAATG -ATGGGTTCTGGCGTGGCGAGCGGTGAAGACCGTGCGGAAGAAGCTGCTGAAATGGCTATCTCTTCTCCGC -TGCTGGAAGATATCGACCTGTCTGGCGCGCGCGGCGTGCTGGTTAACATCACGGCGGGCTTCGACCTGCG -TCTGGATGAGTTCGAAACGGTAGGTAACACCATCCGTGCATTTGCTTCCGACAACGCGACTGTGGTTATC -GGTACTTCTCTTGACCCGGATATGAATGACGAGCTGCGCGTAACCGTTGTTGCGACAGGTATCGGCATGG -ACAAACGTCCTGAAATCACTCTGGTGACCAATAAGCAGGTTCAGCAGCCAGTGATGGATCGCTACCAGCA -GCATGGGATGGCTCCGCTGACCCAGGAGCAGAAGCCGGTTGCTAAAGTCGTGAATGACAATGCGCCGCAA -ACTGCGAAAGAGCCGGATTATCTGGATATCCCAGCATTCCTGCGTAAGCAAGCTGATTAAGAATTGACTG -GAATTTGGGTTTCGAGGCTCTTTGTGCTAAACTGGCCCGCCGAATGTATAGTACACTTCGGTTGGATAGG -TAATTTGGCGAGATAATACGATGATCAAACAAAGGACACTTAAACGTATCGTTCAGGCGACGGGTGTCGG -TTTACATACCGGCAAGAAAGTCACCCTGACGTTACGCCCTGCGCCGGCCAACACCGGGGTCATCTATCGT -CGCACCGACTTGAATCCACCGGTAGATTTCCCGGCCGATGCCAAATCTGTGCGTGATACCATGCTCTGTA -CGTGTCTGGTCAACGAGCATGATGTACGGATTTCAACCGTAGAGCACCTCAATGCTGCTCTCGCGGGCTT -GGGCATCGATAACATTGTTATCGAAGTTAACGCGCCGGAAATCCCGATCATGGACGGCAGCGCCGCTCCG -TTTGTATACCTGCTGCTTGACGCCGGTATCGACGAGTTGAACTGCGCCAAAAAATTTGTTCGCATCAAAG -AGACTGTTCGTGTCGAAGATGGCGATAAGTGGGCTGAATTTAAGCCGTACAATGGTTTTTCGCTGGATTT -CACCATCGATTTTAACCATCCGGCTATTGATTCCAGCAACCAGCGCTATGCGATGAACTTCTCCGCTGAT -GCGTTTATGCGCCAGATCAGCCGTGCGCGTACGTTCGGTTTCATGCGTGATATCGAATATCTGCAGTCCC -GTGGTTTGTGCCTGGGCGGCAGCTTCGATTGTGCCATCGTTGTTGACGATTATCGCGTACTGAACGAAGA -CGGCCTGCGTTTTGAAGACGAATTTGTGCGTCACAAAATGCTCGATGCGATCGGTGACTTGTTCATGTGT -GGTCACAATATTATTGGTGCATTTACCGCTTATAAATCCGGTCATGCACTGAATAACAAACTGCTGCAGG -CTGTCCTGGCGAAACAGGAAGCCTGGGAATATGTGACCTTCCAGGACGACGCAGAACTGCCGTTGGCCTT -CAAAGCGCCTTCAGCTGTACTGGCATAACGACATTTATACTGTCGTATAAAATTCGACTGGCAAATCTGG -CACTCTCTCCGGCCAGGTGAACCAGTCGTTTTTTTTTGAATTTTATAAGAGCTATAAAAAACGGTGCGAA -CGCTGTTTTCTTAAGCACTTTTCCGCACAACTTATCTTCATTCGTGCTGTGGACTGCAGGCTTTAATGAT -AAGATTTGTGCGCTAAATACGTTTGAATATGATCGGGATGGCAATAACGTGAGTGGAATACTGACGCGCT -GGCGACAGTTTGGTAAACGCTACTTCTGGCCGCATCTCTTATTAGGGATGGTTGCGGCGAGTTTAGGTTT -GCCTGCGCTCAGCAACGCCGCCGAACCAAACGCGCCCGCAAAAGCGACAACCCGCAACCACGAGCCTTCA -GCCAAAGTTAACTTTGGTCAATTGGCCTTGCTGGAAGCGAACACACGCCGCCCGAATTCGAACTATTCCG -TTGATTACTGGCATCAACATGCCATTCGCACGGTAATCCGTCATCTTTCTTTCGCAATGGCACCGCAAAC -ACTGCCCGTTGCTGAAGAATCTTTGCCTCTTCAGGCGCAACATCTTGCATTACTGGATACGCTCAGCGCG -CTGCTGACCCAGGAAGGCACGCCGTCTGAAAAGGGTTATCGCATTGATTATGCGCATTTTACCCCACAAG -CAAAATTCAGCACGCCCGTCTGGATAAGCCAGGCGCAAGGCATCCGTGCTGGCCCTCAACGCCTCACCTA -ACAACAATAAACCTTTACTTCATTTTATTAACTCCGCAACGCGGGGCGTTTGAGATTTTATTATGCTAAT -CAAATTGTTAACTAAAGTTTTCGGTAGTCGTAACGATCGCACCCTGCGCCGGATGCGCAAAGTGGTCAAC -ATCATCAATGCCATGGAACCGGAGATGGAAAAACTCTCCGACGAAGAACTGAAAGGGAAAACCGCAGAGT -TTCGTGCACGTCTGGAAAAAGGCGAAGTGCTGGAAAATCTGATCCCGGAAGCTTTCGCCGTGGTACGTGA -GGCAAGTAAGCGCGTCTTTGGTATGCGTCACTTCGACGTTCAGTTACTCGGCGGTATGGTTCTTAACGAA -CGCTGCATCGCCGAAATGCGTACCGGTGAAGGAAAAACCCTGACCGCAACGCTGCCTGCTTACCTGAACG -CACTAACCGGTAAAGGCGTGCACGTAGTTACCGTCAACGACTACCTGGCGCAACGTGACGCCGAAAACAA -CCGTCCGCTGTTTGAATTCCTTGGCCTGACTGTCGGTATCAACCTGCCGGGCATGCCAGCACCGGCAAAG -CGCGAAGCTTACGCAGCTGACATCACTTACGGTACGAACAACGAATACGGCTTTGACTACCTGCGCGACA -ACATGGCGTTCAGCCCTGAAGAACGTGTACAGCGTAAACTGCACTATGCGCTGGTGGACGAAGTGGACTC -CATCCTGATCGATGAAGCGCGTACACCGCTGATCATTTCCGGCCCGGCAGAAGACAGCTCGGAAATGTAT -AAACGCGTGAATAAAATTATTCCGCACCTGATCCGTCAGGAAAAAGAAGACTCCGAAACCTTCCAGGGCG -AAGGCCACTTCTCGGTGGACGAAAAATCTCGCCAGGTGAACCTGACCGAACGTGGTCTGGTGCTGATTGA -AGAACTGCTGGTGAAAGAGGGCATCATGGATGAAGGGGAGTCTCTGTACTCTCCGGCCAACATCATGCTG -ATGCACCACGTAACGGCGGCGCTGCGCGCTCATGCGCTGTTTACCCGTGACGTCGACTACATCGTTAAAG -ATGGTGAAGTTATCATCGTTGACGAACACACCGGTCGTACCATGCAGGGCCGTCGCTGGTCCGATGGTCT -GCACCAGGCTGTGGAAGCGAAAGAAGGTGTGCAGATCCAGAACGAAAACCAAACGCTGGCTTCGATCACC -TTCCAGAACTACTTCCGTCTGTATGAAAAACTGGCGGGGATGACCGGTACTGCTGATACCGAAGCTTTCG -AATTTAGCTCAATCTACAAGCTGGATACCGTCGTTGTTCCGACCAACCGTCCAATGATTCGTAAAGATCT -GCCGGACCTGGTCTACATGACTGAAGCGGAAAAAATTCAGGCGATCATTGAAGATATCAAAGAACGTACT -GCGAAAGGCCAGCCGGTGCTGGTGGGTACTATCTCCATCGAAAAATCGGAGCTGGTGTCAAACGAACTGA -CCAAAGCCGGTATTAAGCACAACGTCCTGAACGCCAAATTCCACGCCAACGAAGCGGCGATTGTTGCTCA -GGCAGGTTATCCGGCTGCGGTGACTATCGCGACCAATATGGCGGGTCGTGGTACAGATATTGTGCTCGGT -GGTAGCTGGCAGGCAGAAGTTGCCGCGCTGGAAAATCCGACCGCAGAGCAAATTGAAAAAATTAAAGCCG -ACTGGCAGGTACGTCACGATGCGGTACTGGAAGCAGGTGGCCTGCATATCATCGGTACCGAGCGTCACGA -ATCCCGTCGTATCGATAACCAGTTGCGCGGTCGTTCTGGTCGTCAGGGGGATGCTGGTTCTTCCCGTTTC -TACCTGTCGATGGAAGATGCGCTGATGCGTATTTTTGCTTCCGACCGAGTATCCGGCATGATGCGTAAAC -TGGGTATGAAGCCAGGCGAAGCCATTGAACACCCGTGGGTGACTAAAGCGATTGCCAACGCCCAGCGTAA -AGTTGAAAGCCGTAACTTCGACATTCGTAAGCAACTGCTGGAATATGATGACGTGGCTAACGATCAGCGT -CGCGCCATTTACTCCCAGCGTAACGAACTGTTGGATGTCAGCGATGTGAGCGAAACCATTAACAGCATTC -GTGAAGATGTGTTCAAAGCGACCATTGATGCCTACATTCCACCACAGTCGCTGGAAGAAATGTGGGATAT -TCCGGGGCTGCAGGAACGTCTGAAGAACGATTTCGACCTCGATTTGCCAATTGCCGAGTGGCTGGATAAA -GAACCAGAACTGCATGAAGAGACGCTGCGTGAGCGCATTCTGGCGCAGTCCATCGAAGTGTATCAGCGTA -AAGAAGAAGTGGTTGGTGCTGAGATGATGCGTCACTTCGAGAAAGGCGTCATGCTGCAAACGCTTGACTC -CCTGTGGAAAGAGCACCTGGCAGCGATGGACTATCTGCGTCAGGGTATCCACCTGCGTGGCTACGCACAG -AAAGATCCGAAGCAGGAATACAAACGTGAATCGTTCTCCATGTTTGCAGCGATGCTGGAGTCGTTGAAAT -ATGAAGTTATCAGTACGCTGAGCAAAGTTCAGGTACGTATGCCTGAAGAGGTTGAGGAGCTGGAACAACA -GCGTCGTATGGAAGCCGAGCGTTTAGCGCAAATGCAGCAGCTTAGCCATCAGGATGACGACTCTGCAGCC -GCAGCTGCACTGGCGGCGCAAACCGGAGAGCGCAAAGTAGGACGTAACGATCCTTGCCCGTGCGGTTCTG -GTAAAAAATACAAGCAGTGCCATGGCCGCCTGCAATAAAAGCTAACTGTTGAAGTAAAAGGCGCAGGATT -CTGCGCCTTTTTTATAGGTTTAAGACAATGAAAAAGCTGCAAATTGCGGTAGGTATTATTCGCAACGAGA -ACAATGAAATCTTTATAACGCGTCGCGCAGCAGATGCGCACATGGCGAATAAACTGGAGTTTCCCGGCGG -TAAAATTGAAATGGGTGAAACGCCGGAACAGGCGGTGGTGCGTGAACTTCAGGAAGAAGTCGGGATTACC -CCCCAACATTTTTCGCTATTTGAAAAACTGGAATATGAATTCCCGGACAGGCATATAACACTGTGGTTTT -GGCTGGTCGAACGCTGGGAAGGGGAGCCGTGGGGTAAAGAAGGGCAACCCGGTGAGTGGATGTCGCTGGT -CGGTCTTAATGCCGATGATTTTCCGCCAGCCAATGAACCGGTAATTGCGAAGCTTAAACGTCTGTAGGTC -AGATAAGGCGTTTTCGCCGCATCCGACATTCGCACACGATGCCTGATGCGACGCTGGCGCGTCTTATCAG -GCCTAAAGGGATTTCTAACTCATTGATAAATTTGTTTTTGTAGGTCGGATAAGGCGTTCACGCCGCATCC -GACATTTGCACAAGATGCCTGATGCGACGCTGTCCGCGTCTTATCAGGCCTACGTGCGGCATCAGACAAA -TGTCACTGCTTTGGTTCTTCGCTCCAGTCATCGCTTTCGGAAAGATCGCCACTGCTGGGGATTCGTTTTT -CTTCAGCAGCCCATTCTCCGAGGTCGATCAGCTGACAACGTTTGGAGCAAAATGGCCGAAACGGGCTGAT -TTCACCCCACACCACCGTTTTCCCGCAGGTTGGGCAATTCACCGTAATAGTTTCTGACATTTTTACTCCT -TAGCAACAGGCCAGTTCGAAATCCAGACGTTCCGGTACCTGTCCGTTTTCAGTGTCCAGCGGCATAAAAC -GAATGGCAAAACGGCTCTTATGTCCGGAAATTTGCGGATAAAGCTGTGAATCGAGCGACAGATTCAGGCG -CAGCAAGTCGGCATCGCCACCGTTATCCTGATAAAAACCATTCAGGCTGGTTTGTTTACGGAAGGGGGCC -GACTGGCGAATTAAATCCAGCACCATGGTAAGTGCCTGGGTGAGCGGGTTCAGGCTGGCAATCCAGGTTT -CTACCTGGCTGTCGCGCTGCGCCTGGGGTAGATGCAGCCAAATGTGCAATGTAGGTAAATCAAAGCTGCA -ACAGCCGCCTGGGATGCTCAGTCGCTGACGCACCAGAGCAATCAAACGATCTTCACGCAGAAATTGCCCG -ATACGCGGCGCGGAAATTAATACGCTCCCCGCCGCTTTTAACTGCTGAATTAATGCTTCAATACGGCTCT -GGTCCACGCCAGGCACGCCAATCCAGGTCTGGAGTTTACGTTGCTGCCGGTCAAGTTCTTTCAACAGCTC -AGTGCGGACTTCGCCGCGCTCGAAAACATCCAGTAATTCACTGACATTACGGAAGAAATGCAGCGCGCCA -GCGTGGTCAACGATGGGTAAATTAACGGTGAGTTGCTGAATCAAAAACTCAATGCGCAGCCATGTACGCA -TTTTTTCATTTAGTGGATGTTCAAAAAGGACCTGGGTCTGCATTACGGTTTTTCCTGTGAGACAAACTGC -GACGCAAGCTGCAAATAGTGTGCGTGCAGGCGGGCAACATCCGATGCGATAGCATCCGGTGCGCCGTTAT -TATCAATGACGTCATCTGCCACGGCAAGGCGGGCTTCGCGCGTTGCCTGAGCAGCAAGGATTTGTTCGAC -ATGCTCGCGAGTTACATCATCGCGCTGCATGGTGCGCTTAAGTTGCGTTTCTGGGCTGACATCCACCACA -AGCACTCGATTCGCTTTTTTATACAGTGAGTTTTCTACCAGCAATGGCACAACCCACAGTACATAGGGGG -AAGTAGCTTGCTGGATCTGGTGTTGCGTCTCTTGCTGAATCAGCGGATGCAGCAGGGCGTTAAGCCAGTT -TTTCTCTTCCGGGTTGGCGAAGATCCGCTCGCGCAAGGCCCGGCGCTGCAATGTTCCATCAGCAGCAATC -ATGTTAGCGCCAAAGTGATCAGCAATGGCATGTAGCGCAGGTGCACCTGGTTCAACCACCTGACGCGCAA -TAATATCGGCATCAATGACGTTAATTCCGAGATCAGCAAACGCATTGGCAACGGTACTCTTGCCACTGCC -AATGCCTCCCGTTAAGGCAACTATATACCTCATAATTTATATTCCCGGGAATTCATCATGATTATCAAAA -CGTTAAAAATGAGTGCACGAAAGCGAAATTGATGAAACGTTCGCTCACTATTTACCAGGTAAATTTATGG -GATTGTAGCGTAAAAAAAGACAATTTCGCAGTCTTGCGCCGCATTGATTAGTGCGTATGATAGCGTCACT -GGAGTTGCGCTCTTACCCTTATAGCCATTAACCCCAGGAATCCGCACATGCGTATTGAAGAAGATCTGAA -GTTAGGTTTTAAAGACGTTCTCATCCGCCCTAAACGCTCCACTCTTAAAAGCCGTTCCGATGTTGAACTG -GAACGTCAATTCACCTTCAAACATTCAGGTCAGAGCTGGTCCGGCGTGCCGATTATCGCCGCAAATATGG -ACACCGTAGGCACATTTTCTATGGCCTCTGCGCTGGCTTCTTTTGATATTTTGACTGCTGTGCATAAACA -CTATTCTGTCGAAGAGTGGCAAGCGTTTATCAACAATTCTTCCGCTGATGTGCTGAAACATGTGATGGTT -TCTACCGGTACGTCTGATGCGGATTTCGAAAAAACTAAACAGATTCTCGACCTGAACCCGGCATTAAACT -TCGTTTGTATTGACGTGGCGAATGGTTATTCCGAACACTTCGTGCAGTTCGTTGCGAAAGCGCGTGAAGC -GTGGCCGACCAAAACCATTTGTGCTGGTAACGTAGTGACTGGTGAAATGTGTGAGGAGCTTATCCTCTCA -GGTGCCGATATCGTTAAAGTTGGCATTGGCCCAGGTTCTGTTTGTACAACTCGCGTCAAAACAGGCGTCG -GTTATCCGCAACTTTCTGCGGTAATCGAATGTGCCGATGCTGCGCACGGTCTGGGCGGAATGATCGTCAG -CGATGGTGGCTGCACCACGCCGGGCGATGTGGCGAAAGCCTTTGGCGGCGGTGCCGATTTCGTCATGCTT -GGCGGCATGCTGGCGGGCCACGAAGAGAGCGGCGGTCGCATCGTTGAGGAGAACGGCGAGAAATTTATGC -TGTTCTACGGCATGAGCTCCGAGTCTGCGATGAAACGTCACGTTGGCGGCGTTGCGGAATATCGCGCAGC -AGAAGGTAAAACCGTTAAGCTGCCGCTGCGAGGCCCGGTTGAAAATACCGCGCGAGATATTTTGGGCGGC -CTGCGTTCAGCTTGTACATACGTTGGGGCTTCACGCCTGAAAGAGCTGACCAAGCGCACCACGTTTATTC -GTGTGCAGGAACAAGAAAACCGCATCTTCAACAACCTGTAATCTCCCAACGCTGGCGTGGAGCAACACGC -CAGCGTTATCCCATCCCACTCATCGCATCGCCTAAATGGAAAATTGGCAGATACATTGCCACCACCAGCG -TACCAATAATTCCTCCCGTTATGATCAGCAACGCCGGTTCCAGTAAGGCTGCGAGGTTATCCGCCAGCGC -CATTGTGTTTTCCCGATGATGATGGGCGAGGTTGTCTAACATGAGATCCAGAGAGCCGGATGCCTCTCCT -GTTCTCACTAATTGCAAACAGAGCGGGCTAAACTCACCGGTATTTTTTAGCGCCAGCCAGATGGGTTGAC -CGTTACTGATATCGTGCTGGATTTGTGTCAGAAGTTGCACCCAGTACGGGCAGCGCATTGTTTCTCTGAC -GCTCTCTACGCCCTGTAAAAAAGTAATGCCTGCACTTTGTGTCAGCGCCAGAATCGTAAAGATCTGCGTG -AGTTTTTGTCCCCGCATCAGTGAACCCATAATCGGGATGCGTAACAGCAATTTCTGCCGCACTATAAGCC -AGGTCGGTCGGCGCATCAGCAACTTATTGGCTATCGCCAGCAGAAAGCCGAACAACACCAGCAGCCAGCT -CCATTCGCCACTAAAGTCTGCCAGCGTCATGATCCCCTGCGTTAGTGCCGGTAGTGGGGTGTTGAAGGTC -TTATAGATAGCGGCAAACTCCGGCAGAACAAAATGCAGCATTGCCACAACCACCATGATTGCCATCGCTA -AAATGATGATGGGATAACGTAACGCTGATTTCACTTTGTCGGTCAACTGACGCTGGGCTTTTTGCTGACG -CGCCAGTTCAAAGCAGCATTCATCCAGCTTACCGGTCAGTTCACCCGTGCGGATCATCGCCTGATAGAGC -GGCGGAAATACCTCTGACCAGGGTAATAAGGCATTGGAAAAAGCAATGCCCTGTTCGAGATCGTGCGCCA -GCGATTGCAGCAACGCTTGCCATTGCTTACTGGGATGCTGTTCCGCCAGCAGAGCCAGCCCTTCAGAAAG -CGTTAACCCTGCTTTGAGTAGCGTCGCCAGTTGATGAATGACTTCCGCGCTTTTATCTCCTCGCCACTGC -GCAGAATTGATGGCGATTCGCTTCAGGCTTAGTGGGGTAACCATCTGTTGCTGTAGTGCCATAAGCAGTA -AAGTACGGCTCTCTGCCCATAGCATCCCATCTTGCGCATTGCCGTCGCCGGTTATGCCATGCCAGCGCCA -GAGTTGCTTACTCGCCATGCGGCATCCCCAGTACGCGGATTAACTCTTCAAAGGTGGTTAAGCCTTGCTC -TACGGCCAGGCAGCCGTTTTCAAAAAGCGTACGCATACCCGCCTGTCGTGCGTGCGTTTCCAGCGATTCA -ACGTCGGTATTAGCGGAAATAAGCTGACGAATGACCGGCGTTATGGGCAGAACTTCAAATAAGGCCGTAC -GACCATAAAAACCGTGGTAGCAATGTACACAACCGGGTGCCTGCCAGTGGGGCAGCGGCGATGGCCATAC -ATTGTCTGGAATGTGGATGGGCTCCCCTTGCTGCCGGCGACAATGTGGGCAAAGTTTGCGTACCAGACGC -TGGGCTATTACCAGCGTAAGCGCCGATGATAGCATCCAGCGGGCGACCCCCATTTGCTGTAAACGTACCA -GCGTTTCGCAGGTGGAATTAGTGTGTAGGGTAGACAACACCAGGTGACCAGTTTGCGCCGCTTTAATAGC -GATCTCTGCTGTTTCGCCATCGCGGATCTCTCCGATCATGATGACGTCAGGATCCTGGCGCAATAACGCA -CGCAAAACGCCCTGAAAGGTGAGTCCGGCACGCGGATGGATTTGCGTCTGGTTTAGTCCGGCTATGGGGA -TCTCAACTGGATCTTCGACGCTACAAATATTAATGTCAGCGGTATTCAGCTTTTGCAGGGCACTATAAAG -CGTGACCGTTTTGCCGCTGCCGGTAGGGCCAGTTACCAGCACCAGTCCCTGTGGTTGTTGCAAGGCATGA -GCAAAGTCCGCCAGTTGTAACGGCTGCATTCCAAGCGTGTTGACATCCAGTGCCTGACCCACCTGCTGTA -ACAACCTTAATACCACCTTTTCACCACCCCGACATGGTAAGGTCGCAATACGAAATGAGACGGCGTTTCC -TGCCAGTTCGACAGTGAATTGCCCGTCCTGCGGCAGGCGATGTTCCGCAATATCCAGGTTTCCCAGCACT -TTTAATCTGGCGGTTAATGCGACTCCGGCATCCGGTGAAACATCCGGTAAAGGATGCAATACGCCGTCGA -TACGCAAGCGGATGCGGTAGGCATTGTCCGCTGGTTCGATATGAATATCAGACGCGCGTTGTTCCAGCGC -AGATTGTAACGTTCGAGTTAGCAACTCTGCTTTGGGCTGATGCTTCTCCTGAACAGCTACGGGCAATGTC -TGTTGTGTGCGACTGGCGTGACCTTCCATTTGTTGGCGCGTCCAGCAGGTGATCTCAATACGTTTGGTGG -TAGCGAAATGCAATGCGTCCAGTAGCTCATGCGAAGGTGCATCGACTACCGCAACATGAACCACCTCTTC -GCTGGCATCCAGCAAGACTCCATGATAACGCAGACACAGGGCAGTGAGCTGTGGAATATTCATTGCCGCT -CCTTAGTTGGCGTCATCAAAGCGGAAGACATCTTCGCAGGCTTGCTGCAATGCGCTGTCACTTTGAATAT -TGCAGTTGCGCGTCCAGCCGGTGACGCCGTTTGCGTTATCCCAACCCGGTGTCATGACGACGCTTAGCCC -ATTGAGACTTTCTTGCCCGGTCAGCGACACCACGCCCTTTGCCACACTCATGGCTGAAACATAGCGGGTG -GTGGTAGGCGAGGGAATGCCATTGCTGCCACCGTCGCAGGTATCTAATCCACCATGTTCCAGCGCGCACA -ACTCTACGGCGGTACGGTAAGGCACAAAGGTTTGTAGCATGTCGGTGAGTGCGGCTTTGCGCAGGTAGTT -TTGATAAGCGGGAATACCAATGGCGCTTAAAATGGCAATGATGCCAATAACCACCATCAGTTCGATAAGT -GTAAAACCGCGTTGCTTGTCCATCTGTTTCGCTCCTTGATTTGGTTGGCGCTACTTTGGCAAACGCCATC -AGCACAGGCGAGGGGCAAAAAACGAAACGGGAAAGCAGATTCCGAGGTTTTTTATTTCGTTGCAGCGAAA -GACAAGAAATTTGCGAGGCGTTACGAAGAAAGTTGGGGAAGGGGAGATTATCCGCCCGCGATGGAGCGGA -TAAATCTGTCAACTATTAGCGAAAACGCATTGAAAGGTCGAGTGCTTGTACGTGTTTAGTTAGCGCACCG -ACGGAGATAAAGTCCACGCCCGTTTCGGCAAATTCACGCAGTGTTTTGTCAGTGACGTTGCCAGACACTT -CCAGTAGCGCCTTGCCGTTGGTGCGTTTGACGGCTTCGCGCATCTGTTCTGTTTCGAAGTTATCCAGCAT -GATGATATCGGCTCCTGCTTTCAGGGCTTCATCAAGTTCTTCCAGATTCTCTACTTCGACTTCTACTGGC -GCATCCGGGTGCAGCCAGGACGCTTTTTCGACCGCCTGGCGCACTGAGCCGGAGGCAATAATATGGTTTT -CTTTGATCAGGAAGGCATCAGAAAGCCCCAGACGGTGATTCGCTCCGCCGCCGCAAAGTACCGCGTATTT -CAGAGCTGAACGCAGGCCGGGTAAGGTTTTGCGCGTATCCAACAACTGCGTGTTGGTGCCTTCCAGCAAT -TCGACATAGTGGCGTACCTTACTGGCAACTCCTGAAAGGGTTTGCACAAAATTAAGCGCAGTGCGTTCGC -CCGTTAACAGCACGCGGGATGGGCCTTCAAGTTCGAACAAGGATTGATTGGCATTGATGACATCGCCGTC -ATCCACATGCCAGATTATGGTGACATCGTCGCCTGCCAGTTGAATAAACACCTCTTCAACCCAGCGTTTG -CCGCAAAAGACGCCATTCTCGCGGGTGATCACCGTGGCATGAGAGCGAGAATTTTCCGGTAAAAGTTTTG -CCGTAATATCATTGTTGGCATCGACTGTTCCGCCTAAATCTTCCCGCAGCGCCTGGGCCACCGCGCCGGG -GATATCGAGATTAATGCGTTCCAGCAGCTCGTCACGTCGGGTGTCAGGGTTATAGCGGCGAGGCGGCATG -TTAAAACTCCAGATAGCTAACGAATCATAAGGTAGAAACATGCTACTCTGAACCGGGTATTAGCACCACA -TATAAGGAGATCCTGCATGTTGTTAGAACAGGGGTGGCTGGTTGGCGCGCGCCGCGTTCCCTCACCACAT -TACGATTGCCGCCCGGATGACGAAACACCCACCCTGCTGGTGGTGCACAATATTAGCCTGCCGCCAGGCG -AGTTTGGCGGTCCGTGGATCGACGCATTATTCACTGGAACTATTGATCCGCAGGCACATCCTTTCTTTGC -TGAGATCGCCCATTTGCGCGTCTCCGCTCACTGTTTGATTCGCCGTGATGGTGAAATAGTCCAGTATGTT -CCTTTCGATAAACGTGCATGGCATGCGGGAGTCTCTCAGTATCAGGGGCGCGAACGCTGCAATGATTTTT -CTATTGGGATTGAGCTTGAAGGCACCGATACGCTGGCGTATACCGATGCGCAGTATCAACAGCTTGCGGC -GGTTACGCGGGCACTGATTGATTGCTATCCGGATATCGCTAAAAACATGACGGGCCATTGTGATATTGCG -CCGGATCGGAAAACCGATCCCGGTCCTGCATTTGATTGGGCACGGTTTCGTGTGCTGGTCAGCAAGGAGA -CAACATGACGCTATTTACAACCTTACTGGTGTTAATTTTCGAGCGCCTGTTTAAGTTGGGCGAGCACTGG -CAGCTTGATCATCGTCTTGAAGCGTTCTTTCGGCGGGTGAAACATTTTTCTCTCGGGCGCACGTTAGGCA -TGACCATTATTGCGATGGGCGTGACTTTTTTACTGTTACGCGCATTGCAGGGAGTATTGTTCAACGTTCC -CACGCTACTGGTGTGGCTGCTGATTGGTTTGCTGTGTATTGGCGCAGGTAAAGTTCGTCTTCATTATCAT -GCTTATCTGACAGCTGCTTCACGTAATGATAGCCATGCCCGTGCCACGATGGCTGGCGAACTCACCATGA -TTCACGGCGTCCCGGCAGGCTGCGACGAACGTGAGTATTTGCGTGAGCTGCAAAATGCATTGCTGTGGAT -TAACTTTCGTTTTTATCTTGCACCGCTGTTCTGGCTGATTGTGGGGGGAACCTGGGGACCCGTTACGCTG -ATGGGGTATGCGTTTTTGCGTGCATGGCAATACTGGCTGGCGCGATATCAGACGCCGCATCATCGTTTAC -AGTCCGGCATTGATGCCGTGCTTCATGTACTGGATTGGGTGCCGGTTCGTCTTGCGGGTGTGGTATATGC -CTTGATCGGTCATGGTGAGAAAGCGTTACCGGCCTGGTTTGCTTCGCTGGGTGATTTCCATACTTCGCAG -TATCAGGTGTTAACGCGTCTGGCGCAGTTCTCTCTGGCGCGTGAACCGCATGTCGATAAGGTGGAGACGC -CGAAGGCAGCGGTTTCAATGGCGAAGAAAACCTCGTTCGTGGTCGTGGTGGTGATTGCACTACTGACGAT -TTACGGGGCGTTGGTGTAAAGATTATTGCCCTCACCCTGTACGGGTGAGGGCGTAGAGAGATTAATGCGC -TTTTACGGCTTTGGCGGTTTTCTCTTTAAACAGATAGCCGATACCTAACACGATCAGCCATACCGGGATC -AGGTATACCGAAATCGCCATTCCTGGGGTCATCAGCATAATCACCAGTACCGCCGCCATAAACAGCAGGC -AGATCCAGTTACCCAGCGGATAAAGCAGAGCAGGGAAGCGAGTTACCACGCCTTGTTCCTGCTTGGCGCG -ACGGAATTTCATATGCGCCAGGCTAATCATCGCCCAGTTGATTACCAGTGCAGATACCACCAGCGCCATT -AACAGTCCGAAAGCGGACTCTGGGGCAAGGTAGTTAATCAGTACGCACAACGCCGTTACCAGTGCAGACA -CCAGAATGGTATTTACTGGTACACCACGTTTATCGACAGACGCCAGCGCTTTTGGCGCATTACCCTGTTG -TGCCAGACCAAACAGCATACGGCTGTTGCAATATACGCAGCTGTTGTACACGGAGAGCGCCGCAGTCAGT -ACCACGATGTTCAGCGCATTCGCCACAAAGGTATCGCCTAACTCGTGGAAGATCAGCACAAACGGACTGG -TATCGGCGGTAACGCGGGTCCACGGCATCAGTGAGAGCAGAACGGCTAACGAACCAATATAGAAAATCAG -GATGCGGTAGATAACCTGGTTAGTTGCTTTCGGTATACTTTGCTCCGGGTTATCAGCTTCTGCTGCGGTG -ATCCCCACCAGTTCCAGACCACCGAACGAGAACATGATAATCGCCATCATCATCACCAGCCCGGTGAAGC -CGTGCGGCAGGAAACCACCCTGATCCCACAGGTTGCTAACGGTCGCCTGCGGGCCGCCGTTGCCACTGAA -TAGCAGCCAGCCGCCGAAGATGATCATCGCTACCACCGCGATAACTTTGATAATGGCAAACCAGAACTCC -ATCTCGCCAAACACTTTAACGTTGGTCAGGTTGATGGCGTTAATCACCACAAAGAATACGGCGGCAGAAA -CCCAGGTGGGGATTTCCGGATACCAGAACTGAATGTATTTACCCACGGCAGTCAGCTCAGCCATGGCAAC -TAAAACGTACAGTACCCAGTAGTTCCAGCCAGAGGCGAAACCGGCAAAACTGCCCCAGTATTTATAAGCA -AAGTGGCTAAAGGAGCCTGCGACAGGTTCTTCGACCACCATTTCACCCAGCTGACGCATGATCAGAAAGG -CGATAAAACCAGCAATGGCGTAACCCAGGATAATCCCTGGCCCTGCGGACTGTATTACGGAGGCGCTACC -CAGGAATAACCCGGTCCCTATCGCGCCACCCAGCGCGATAAGCTGAATATGGCGGTTTTTAAGGCCGCGC -TTTAGCTGCTCGCCGTGCTGTTGACCTTCCATCATGAAACCTCGTGCGGTGGTTGTTTTTTTGATCTACG -CAGTGATGCGTGTGTAAGTTTGCAATTCCGTTTGTTGTATTAATTTGTTTACATCAAAGAAGTTTGAATT -GTTACAAAAAGACTTCCGTCAGATCAAGAATAATGGTATGCGGCAGCGAATGCACCCGCTTTATGCATGG -TTGAAGATGAGTTGCTTAAAAAGAAACCGTTTGTAAAGCTCAGCCTCAACCCCTCTCAATATGTAGAATG -AATTTAAATTCGTTTTAATTGAATTAAAAATCACAAAATTGGTAAGTGAATCGGTTCAATTCGGATTTTT -ATAGTTTAATAATCGTTAAAAAACTCCTTTCCTACGTAAAGTCTACATTTGTGCATAGTTACAACTTTGA -AACGTTATATATGTCAAGTTGTTAAAATGTGCACAGTTTCATGATTTCAATCAAAACCTGTATGGACATA -AGGTGAATACTTTGTTACTTTAGCGTCACAGACATGAAATTGGTAAGACCAATTGACTTCGGCAAGTGGC -TTAAGACAGGAACTCATGGCCTACAGCAAAATCCGCCAACCAAAACTCTCCGATGTGATTGAGCAGCAAC -TGGAGTTTTTGATCCTCGAAGGCACTCTCCGCCCGGGCGAAAAACTCCCACCGGAACGCGAACTGGCAAA -ACAGTTTGACGTCTCCCGTCCCTCCTTGCGTGAGGCGATTCAACGTCTCGAAGCGAAGGGCTTGTTGCTT -CGTCGCCAGGGTGGCGGCACTTTTGTCCAGAGCAGCCTATGGCAAAGCTTCAGCGATCCGCTGGTGGAGC -TGCTCTCCGACCATCCTGAGTCACAGTATGACTTGCTCGAAACACGACACGCCCTGGAAGGTATCGCCGC -TTATTACGCCGCGCTGCGTAGTACCGATGAAGACAAGGAACGCATCCGTGAACTCCACCACGCCATAGAG -CTGGCGCAGCAGTCTGGCGATCTGGACGCGGAATCAAACGCCGTACTCCAGTATCAGATTGCCGTCACCG -AAGCGGCCCACAATGTGGTTCTGCTTCATCTGCTAAGGTGTATGGAGCCGATGTTGGCCCAGAATGTCCG -CCAGAACTTCGAATTGCTCTATTCGCGTCGCGAGATGCTGCCGCTGGTGAGTAGTCACCGCACCCGCATA -TTTGAAGCGATTATGGCCGGTAAGCCGGAAGAAGCGCGCGAAGCATCGCATCGCCATCTGGCCTTTATCG -AAGAAATTTTGCTCGACAGAAGTCGTGAAGAGAGCCGCCGTGAGCGTTCTCTGCGTCGTCTGGAGCAACG -AAAGAATTAGTGATTTTTCTGGTAAAAATTATCCAGAAGATGTTGTAAATCAAGCGCATATAAAAGCGCG -GCAACTAAACGTAGAACCTGTCTTATTGAGCTTTCCGGCGAGAGTTCAATGGGACAGGTTCCAGAAAACT -CAACGTTATTAGATAGATAAGGAATAACCCATGTCAGAACGTTTCCCAAATGACGTGGATCCGATCGAAA -CTCGCGACTGGCTCCAGGCGATCGAATCGGTCATCCGTGAAGAAGGTGTTGAGCGTGCTCAGTATCTGAT -CGACCAACTGCTTGCTGAAGCCCGCAAAGGCGGTGTAAACGTAGCCGCAGGCACAGGTATCAGCAACTAC -ATCAACACCATCCCCGTTGAAGAACAACCGGAGTATCCGGGTAATCTGGAACTGGAACGCCGTATTCGTT -CAGCTATCCGCTGGAACGCCATCATGACGGTGCTGCGTGCGTCGAAAAAAGACCTCGAACTGGGCGGCCA -TATGGCGTCCTTCCAGTCTTCCGCAACCATTTATGATGTGTGCTTTAACCACTTCTTCCGTGCACGCAAC -GAGCAGGATGGCGGCGACCTGGTTTACTTCCAGGGCCACATCTCCCCGGGCGTGTACGCTCGTGCTTTCC -TGGAAGGTCGTCTGACTCAGGAGCAGCTGGATAACTTCCGTCAGGAAGTTCACGGCAATGGCCTCTCTTC -CTATCCGCACCCGAAACTGATGCCGGAATTCTGGCAGTTCCCGACCGTATCTATGGGTCTGGGTCCGATT -GGTGCTATTTACCAGGCTAAATTCCTGAAATATCTGGAACACCGTGGCCTGAAAGATACCTCTAAACAAA -CCGTTTACGCGTTCCTCGGTGACGGTGAAATGGACGAACCGGAATCCAAAGGTGCGATCACCATCGCTAC -CCGTGAAAAACTGGATAACCTGGTCTTCGTTATCAACTGTAACCTGCAGCGTCTTGACGGCCCGGTCACC -GGTAACGGCAAGATCATCAACGAACTGGAAGGCATCTTCGAAGGTGCTGGCTGGAACGTGATCAAAGTGA -TGTGGGGTAGCCGTTGGGATGAACTGCTGCGTAAGGATACCAGCGGTAAACTGATCCAGCTGATGAACGA -AACCGTTGACGGCGACTACCAGACCTTCAAATCGAAAGATGGTGCGTACGTTCGTGAACACTTCTTCGGT -AAATATCCTGAAACCGCAGCACTGGTTGCAGACTGGACTGACGAGCAGATCTGGGCACTGAACCGTGGTG -GTCACGATCCGAAGAAAATCTACGCTGCATTCAAGAAAGCGCAGGAAACCAAAGGCAAAGCGACAGTAAT -CCTTGCTCATACCATTAAAGGTTACGGCATGGGCGACGCGGCTGAAGGTAAAAACATCGCGCACCAGGTT -AAGAAAATGAACATGGACGGTGTGCGTCATATCCGCGACCGTTTCAATGTGCCGGTGTCTGATGCAGATA -TCGAAAAACTGCCGTACATCACCTTCCCGGAAGGTTCTGAAGAGCATACCTATCTGCACGCTCAGCGTCA -GAAACTGCACGGTTATCTGCCAAGCCGTCAGCCGAACTTCACCGAGAAGCTTGAGCTGCCGAGCCTGCAA -GACTTCGGCGCGCTGTTGGAAGAGCAGAGCAAAGAGATCTCTACCACTATCGCTTTCGTTCGTGCTCTGA -ACGTGATGCTGAAGAACAAGTCGATCAAAGATCGTCTGGTACCGATCATCGCCGACGAAGCGCGTACTTT -CGGTATGGAAGGTCTGTTCCGTCAGATTGGTATTTACAGCCCGAACGGTCAGCAGTACACCCCGCAGGAC -CGCGAGCAGGTTGCTTACTATAAAGAAGACGAGAAAGGTCAGATTCTGCAGGAAGGGATCAACGAGCTGG -GCGCAGGTTGTTCCTGGCTGGCAGCGGCGACCTCTTACAGCACCAACAATCTGCCGATGATCCCGTTCTA -CATCTATTACTCGATGTTCGGCTTCCAGCGTATTGGCGATCTGTGCTGGGCGGCTGGCGACCAGCAAGCG -CGTGGCTTCCTGATCGGCGGTACTTCCGGTCGTACCACCCTGAACGGCGAAGGTCTGCAGCACGAAGATG -GTCACAGCCACATTCAGTCGCTGACTATCCCGAACTGTATCTCTTACGACCCGGCTTACGCTTACGAAGT -TGCTGTCATCATGCATGACGGTCTGGAGCGTATGTACGGTGAAAAACAAGAGAACGTTTACTACTACATC -ACTACGCTGAACGAAAACTACCACATGCCGGCAATGCCGGAAGGTGCTGAGGAAGGTATCCGTAAAGGTA -TCTACAAACTCGAAACTATTGAAGGTAGCAAAGGTAAAGTTCAGCTGCTCGGCTCCGGTTCTATCCTGCG -TCACGTCCGTGAAGCAGCTGAGATCCTGGCGAAAGATTACGGCGTAGGTTCTGACGTTTATAGCGTGACC -TCCTTCACCGAGCTGGCGCGTGATGGTCAGGATTGTGAACGCTGGAACATGCTGCACCCGCTGGAAACTC -CGCGCGTTCCGTATATCGCTCAGGTGATGAACGACGCTCCGGCAGTGGCATCTACCGACTATATGAAACT -GTTCGCTGAGCAGGTCCGTACTTACGTACCGGCTGACGACTACCGCGTACTGGGTACTGATGGCTTCGGT -CGTTCCGACAGCCGTGAGAACCTGCGTCACCACTTCGAAGTTGATGCTTCTTATGTCGTGGTTGCGGCGC -TGGGCGAACTGGCTAAACGTGGCGAAATCGATAAGAAAGTGGTTGCTGACGCAATCGCCAAATTCAACAT -CGATGCAGATAAAGTTAACCCGCGTCTGGCGTAAGAGGTAAAAGAATAATGGCTATCGAAATCAAAGTAC -CGGACATCGGGGCTGATGAAGTTGAAATCACCGAGATCCTGGTCAAAGTGGGCGACAAAGTTGAAGCCGA -ACAGTCGCTGATCACCGTAGAAGGCGACAAAGCCTCTATGGAAGTTCCGTCTCCGCAGGCGGGTATCGTT -AAAGAGATCAAAGTCTCTGTTGGCGATAAAACCCAGACCGGCGCACTGATTATGATTTTCGATTCCGCCG -ACGGTGCAGCAGACGCTGCACCTGCTCAGGCAGAAGAGAAGAAAGAAGCAGCTCCGGCAGCAGCACCAGC -GGCTGCGGCGGCAAAAGACGTTAACGTTCCGGATATCGGCAGCGACGAAGTTGAAGTGACCGAAATCCTG -GTGAAAGTTGGCGATAAAGTTGAAGCTGAACAGTCGCTGATCACCGTAGAAGGCGACAAGGCTTCTATGG -AAGTTCCGGCTCCGTTTGCTGGCACCGTGAAAGAGATCAAAGTGAACGTGGGTGACAAAGTGTCTACCGG -CTCGCTGATTATGGTCTTCGAAGTCGCGGGTGAAGCAGGCGCGGCAGCTCCGGCCGCTAAACAGGAAGCA -GCTCCGGCAGCGGCCCCTGCACCAGCGGCTGGCGTGAAAGAAGTTAACGTTCCGGATATCGGCGGTGACG -AAGTTGAAGTGACTGAAGTGATGGTGAAAGTGGGCGACAAAGTTGCCGCTGAACAGTCACTGATCACCGT -AGAAGGCGACAAAGCTTCTATGGAAGTTCCGGCGCCGTTTGCAGGCGTCGTGAAGGAACTGAAAGTCAAC -GTTGGCGATAAAGTGAAAACTGGCTCGCTGATTATGATCTTCGAAGTTGAAGGCGCAGCGCCTGCGGCAG -CTCCTGCGAAACAGGAAGCGGCAGCGCCGGCACCGGCAGCAAAAGCTGAAGCCCCGGCAGCAGCACCAGC -TGCGAAAGCGGAAGGCAAATCTGAATTTGCTGAAAACGACGCTTATGTTCACGCGACTCCGCTGATCCGC -CGTCTGGCACGCGAGTTTGGTGTTAACCTTGCGAAAGTGAAGGGCACTGGCCGTAAAGGTCGTATCCTGC -GCGAAGACGTTCAGGCTTACGTGAAAGAAGCTATCAAACGTGCAGAAGCAGCTCCGGCAGCGACTGGCGG -TGGTATCCCTGGCATGCTGCCGTGGCCGAAGGTGGACTTCAGCAAGTTTGGTGAAATCGAAGAAGTGGAA -CTGGGCCGCATCCAGAAAATCTCTGGTGCGAACCTGAGCCGTAACTGGGTAATGATCCCGCATGTTACTC -ACTTCGACAAAACCGATATCACCGAGTTGGAAGCGTTCCGTAAACAGCAGAACGAAGAAGCGGCGAAACG -TAAGCTGGATGTGAAGATCACCCCGGTTGTCTTCATCATGAAAGCCGTTGCTGCAGCTCTTGAGCAGATG -CCTCGCTTCAATAGTTCGCTGTCGGAAGACGGTCAGCGTCTGACCCTGAAGAAATACATCAACATCGGTG -TGGCGGTGGATACCCCGAACGGTCTGGTTGTTCCGGTATTCAAAGACGTCAACAAGAAAGGCATCATCGA -GCTGTCTCGCGAGCTGATGACTATTTCTAAGAAAGCGCGTGACGGTAAGCTGACTGCGGGCGAAATGCAG -GGCGGTTGCTTCACCATCTCCAGCATCGGCGGCCTGGGTACTACCCACTTCGCGCCGATTGTGAACGCGC -CGGAAGTGGCTATCCTCGGCGTTTCCAAGTCCGCGATGGAGCCGGTGTGGAATGGTAAAGAGTTCGTGCC -GCGTCTGATGCTGCCGATTTCTCTCTCCTTCGACCACCGCGTGATCGACGGTGCTGATGGTGCCCGTTTC -ATTACCATCATTAACAACACGCTGTCTGACATTCGCCGTCTGGTGATGTAAGTAAAAGAGCCGGCCCAAC -GGCCGGCTTTTTTCTGGTAATCTCATGAATGTATTGAGGTTATTAGCGAATAGACAAATCGGTTGCCGTT -TGTTGTTTAAAAATTGTTAACAATTTTGTAAAATACCGACGGATAGAACGACCCGGTGGTGGTTAGGGTA -TTACTTCACATACCCTATGGATTTCTGGGTGCAGCAAGGTAGCAAGCGCCAGAATCCCCAGGAGCTTACA -TAAGTAAGTGACTGGGGTGAGGGCGTGAAGCTAACGCCGCTGCGGCCTGAAAGACGACGGGTATGACCGC -CGGAGATAAATATATAGAGGTCATGATGAGTACTGAAATCAAAACTCAGGTCGTGGTACTTGGGGCAGGC -CCCGCAGGTTACTCCGCTGCCTTCCGTTGCGCTGATTTAGGTCTGGAAACCGTAATCGTAGAACGTTACA -ACACCCTTGGCGGTGTTTGCCTGAACGTCGGCTGTATCCCTTCTAAAGCACTGCTGCACGTAGCAAAAGT -TATCGAAGAAGCCAAAGCGCTGGCTGAACACGGTATCGTCTTCGGCGAACCGAAAACCGATATCGACAAG -ATTCGTACCTGGAAAGAGAAAGTGATCAATCAGCTGACCGGTGGTCTGGCTGGTATGGCGAAAGGCCGCA -AAGTCAAAGTGGTCAACGGTCTGGGTAAATTCACCGGGGCTAACACCCTGGAAGTTGAAGGTGAGAACGG -CAAAACCGTGATCAACTTCGACAACGCGATCATTGCAGCGGGTTCTCGCCCGATCCAACTGCCGTTTATT -CCGCATGAAGATCCGCGTATCTGGGACTCCACTGACGCGCTGGAACTGAAAGAAGTACCAGAACGCCTGC -TGGTAATGGGTGGCGGTATCATCGGTCTGGAAATGGGCACCGTTTACCACGCGCTGGGTTCACAGATTGA -CGTGGTTGAAATGTTCGACCAGGTTATCCCGGCAGCTGACAAAGACATCGTTAAAGTCTTCACCAAGCGT -ATCAGCAAGAAATTCAACCTGATGCTGGAAACCAAAGTTACCGCCGTTGAAGCGAAAGAAGACGGCATTT -ATGTGACGATGGAAGGCAAAAAAGCACCCGCTGAACCGCAGCGTTACGACGCCGTGCTGGTAGCGATTGG -TCGTGTGCCGAACGGTAAAAACCTCGACGCAGGCAAAGCAGGCGTGGAAGTTGACGACCGTGGTTTCATC -CGCGTTGACAAACAGCTGCGTACCAACGTACCGCACATCTTTGCTATCGGCGATATCGTCGGTCAACCGA -TGCTGGCACACAAAGGTGTTCACGAAGGTCACGTTGCCGCTGAAGTTATCGCCGGTAAGAAACACTACTT -CGATCCGAAAGTTATCCCGTCCATCGCCTATACCGAACCAGAAGTTGCATGGGTGGGTCTGACTGAGAAA -GAAGCGAAAGAGAAAGGCATCAGCTATGAAACCGCCACCTTCCCGTGGGCTGCTTCTGGTCGTGCTATCG -CTTCCGACTGCGCAGACGGTATGACCAAGCTGATTTTCGACAAAGAATCTCACCGTGTGATCGGTGGTGC -GATTGTCGGTACTAACGGCGGCGAGCTGCTGGGTGAAATCGGCCTGGCAATCGAAATGGGTTGTGATGCT -GAAGACATCGCACTGACCATCCACGCGCACCCGACTCTGCACGAGTCTGTGGGCCTGGCGGCAGAAGTGT -TCGAAGGTAGCATTACCGACCTGCCGAACCCGAAAGCGAAGAAGAAGTAATTTTTCGTTTGCCGGAACAT -CCGGCAATTAAAAAAGCGGCTAACCACGCCGCTTTTTTTACGTCTGCAATTTACCTTTCCAGTCTTCTTG -CTCCACGTTCAGAGAGACGTTCGCATACTGCTGACCGTTGCTCGTTATTCAGCCTGACAGTATGGTTACT -GTCGTTTAGACGTTGTGGGCGGCTCTCCTGAACTTTCTCCCGAAAAACCTGACGTTGTTCAGGTGATGCC -GATTGAACACGCTGGCGGGCGTTATCACGTTGCTGTTGATTCAGTGGGCGCTGCTGTACTTTTTCCTTAA -ACACCTGGCGCTGCTCTGGTGATGCGGACTGAATACGCTCACGCGCTGCGTCTCTTCGCTGCTGGTTCTG -CGGGTTAGTCTGCATTTTCTCGCGAACCGCCTGGCGCTGCTCAGGCGAGGCGGACTGAATGCGCTCACGC -GCTGCCTCTCTTCGCTGCTGGATCTTCGGGTTAGTCTGCATTCTCTCGCGAACTGCCTGGCGCTGCTCAG -GCGAGGCGGACTGATAACGCTGACGAGCGGCGTCCTTTTGTTGCTGGGTCAGTGGTTGGCGACGGCTGAA -GTCGTGGAAGTCGTCATAGCTCCCATAGTGTTCAGCTTCATTAAACCGCTGTGCCGCTGCCTGACGTTGG -GTATCTCGTGTAATGACTGGTGCGGCGTGTGTTCGTTGCTGAAACTGATTTGCTGCCGCCTGACGCTGGC -TGTCGCGCGTTGGGGCAGGTAATTGCGTGGCGCTCATTCCGCCGTTGACATCGGTTTGATGAAACCGCTT -TGCCATATCCTGATCATGATAGGGCACACCATTACGGTAGTTTGGATTGTGCCGCCATGCCATATTCTTA -TCAGTAAGATGCTCACCGGTGATACGGTTGAAATTGTTGACGTCGATATTGATGTTGTCGCCGTTGTGTT -GCCAGCCATTACCGTCACGATGACCGCCATCGTGGTGATGATAATCATCATTGTCATGATGATGATGGTC -ATGATCGTCGTCGTCCCAGTCGATGCTGCTGAATAGTGCGTACGTGGTAGCAACGCCCATGCTATAGCCG -AATCCGCGTACAAAGCTGTCAACAAACGGTTCTCCGGCTGGTGGTGGCAGATAAACCGGCGGATACGCAG -TATTGGCCCAGTTCCCGTAAACCACGGTTGGGTTGTAGTTGGGAATATAGACCACATCAGGATTGGCGGG -CTCAATGGAAATGACGGTTGTTGCCGGCTCTGTAATGACGGGGTTGGCAGTTAAAACTGTATTGGATGGT -ATGACGGGTGCCGTGACTGTCTGTTTTACCGGTACAGCTTTCTTCGTTGTGGTAATAACTTTCTGTTCGG -TTGATGACTTCAGCGAGCCGGTTTGTTGCGCCAGTTGCCGCAATCGCTGTACCGAGTCCATCACGTCCTG -CGGCTGGGCCAGAAAAGCATCGCCCAGGTTTTGCACCCATTGCGGGTTTTCGCCCATCAATGCCATCAAT -TGTGGAAAGGCCACCAGTGATTTAACGCTGGCGTCCCACGGCTGGTCAGATACCGCCTGAATAGCAGCAT -CGCCTTGTTTAAGTGGATTATCGTGCGACCATTGCACTGCTTGAGCAACGTTTGTCGGATAGGTTGATGC -CATCAGCACCTGCGAAAGTAGGGCGTCGGGATACAGCGCGACGGGCGCGACCCATTGATCTATTTGTGCA -GTGCTGAATGCGGATTTGACGACGGCGGGTGTTACGGGAGGTGCGGAAACCGTTGCAGGAAACGTAACCG -CGGCAGCGTCAGACACAGCCAGTTGTGTCGATTGCGGTTCCACAGGCGCTTCCACTGTGCGGCTTTTTAT -ATATAGCCCGGTAGAGGCGGCACAAAGCCCGGCACTGCAAATTAGCGCCAGCACATGGGGTTTAAACGGC -AAAGTCATTTTCATAATTCGGATCTCAAGGAAATCGCAATGGTCGGCGAACTGCCACCCGCAGGTGCTGT -GAATCCGAGTATAAAGAGGCGGTAGTTTAAATTTTGACTAATCTTGGGATTCGTTGAGAAAGGTGATTAT -CACCATGCGAATTAACGAAGTTTTTACGGAGGGAAACAATCTCTAGACCATCCTTAACGATTCAGCCACT -TTTTTATGTTGCTTTTTTGTAAACAGATTAACACCTCGTCAAAATCCTGCTATTCTGCCCGTTGCGGTAC -TGGGCATTTACCCTACAAACTGCTGTCTCACAGGAGCGTGAAGAGAATCGCCTGCCGCACTATGACAATG -AGAGCGAGGAGAACCGTCGTGCTAGAAGAATACCGTAAGCACGTAGCTGAGCGTGCCGCTGAGGGGATTG -CGCCCAAACCCCTGGATGCAAACCAAATGGCCGCACTTGTAGAGCTGCTGAAAAACCCGCCCGCGGGCGA -AGAAGAATTCCTGTTAGATCTGTTAACCAACCGTGTTCCCCCAGGCGTCGATGAAGCCGCCTATGTCAAA -GCAGGCTTCCTGGCTGCTATCGCGAAAGGCGAAGCCAAATCCCCTCTGCTGACTCCGGAAAAAGCCATCG -AACTGCTGGGCACCATGCAGGGTGGTTACAACATTCATCCGCTGATCGACGCGCTGGATGATGCCAAACT -GGCACCTATTGCTGCCAAAGCACTTTCTCACACGCTGCTGATGTTCGATAACTTCTATGACGTAGAAGAG -AAAGCGAAAGCAGGCAACGAATATGCGAAGCAGGTTATGCAGTCCTGGGCGGATGCCGAATGGTTCCTGA -ATCGCCCGGCGCTGGCTGAAAAACTGACCGTTACTGTCTTCAAAGTCACTGGCGAAACTAACACCGATGA -CCTTTCTCCGGCACCGGATGCGTGGTCACGCCCGGATATCCCACTGCACGCGCTGGCGATGCTGAAAAAC -GCCCGTGAAGGTATTGAGCCAGACCAGCCTGGTGTTGTTGGTCCGATCAAGCAAATCGAAGCTCTGCAAC -AGAAAGGTTTCCCGCTGGCGTACGTCGGTGACGTTGTGGGTACGGGTTCTTCGCGTAAATCCGCCACTAA -CTCCGTTCTGTGGTTTATGGGCGATGATATTCCACATGTGCCGAACAAACGCGGCGGTGGTTTGTGCCTC -GGCGGTAAAATTGCACCCATCTTCTTTAACACGATGGAAGACGCGGGTGCACTGCCAATCGAAGTCGACG -TCTCTAACCTGAACATGGGCGACGTGATTGACGTTTACCCGTACAAAGGTGAAGTGCGTAACCACGAAAC -CGGCGAACTGCTGGCGACCTTCGAACTGAAAACCGACGTGCTGATTGATGAAGTGCGTGCTGGTGGCCGT -ATTCCGCTGATTATCGGGCGTGGCCTGACCACCAAAGCGCGTGAAGCACTTGGTCTGCCGCACAGTGATG -TGTTCCGTCAGGCGAAAGATGTCGCTGAGAGCGATCGCGGCTTCTCGCTGGCGCAAAAAATGGTAGGCCG -TGCCTGTGGCGTGAAAGGCATTCGTCCGGGCGCGTACTGTGAACCGAAAATGACTTCTGTAGGTTCCCAG -GACACCACCGGCCCGATGACCCGTGATGAACTGAAAGACCTGGCGTGCCTGGGCTTCTCGGCTGACCTGG -TGATGCAGTCTTTCTGCCACACCGCGGCGTATCCGAAGCCAGTTGACGTGAACACGCACCACACGCTGCC -GGACTTCATTATGAACCGTGGCGGTGTGTCGCTGCGTCCGGGTGACGGCGTCATTCACTCCTGGCTGAAC -CGTATGCTGCTGCCGGATACCGTCGGTACCGGTGGTGACTCCCATACCCGTTTCCCGATCGGTATCTCTT -TCCCGGCGGGTTCTGGTCTGGTGGCGTTTGCTGCCGCAACTGGCGTAATGCCGCTTGATATGCCGGAATC -CGTTCTGGTGCGCTTCAAAGGCAAAATGCAGCCGGGCATCACCCTGCGCGATCTGGTACACGCTATTCCG -CTGTATGCGATCAAACAAGGTCTGCTGACCGTTGAGAAGAAAGGCAAGAAAAACATCTTCTCTGGCCGCA -TCCTGGAAATTGAAGGTCTGCCGGATCTGAAAGTTGAGCAGGCCTTTGAGCTAACCGATGCGTCCGCCGA -GCGTTCTGCCGCTGGTTGTACCATCAAGCTGAACAAAGAACCGATCATCGAATACCTGAACTCTAACATC -GTCCTGCTGAAGTGGATGATCGCGGAAGGTTACGGCGATCGTCGTACCCTGGAACGTCGTATTCAGGGCA -TGGAAAAATGGCTGGCGAATCCTGAGCTGCTGGAAGCCGATGCAGATGCGGAATACGCGGCAGTGATCGA -CATCGATCTGGCGGATATTAAAGAGCCAATCCTGTGTGCTCCGAACGACCCGGATGACGCGCGTCCGCTG -TCTGCGGTACAGGGTGAGAAGATCGACGAAGTGTTTATCGGTTCCTGCATGACCAACATCGGTCACTTCC -GTGCTGCGGGTAAACTGCTGGATGCGCATAAAGGTCAGTTGCCGACCCGCCTGTGGGTGGCACCGCCAAC -CCGTATGGACGCCGCACAGTTGACCGAAGAAGGCTACTACAGCGTCTTCGGTAAGAGTGGTGCGCGTATC -GAGATCCCTGGCTGTTCCCTGTGTATGGGTAACCAGGCGCGTGTGGCGGACGGTGCAACGGTGGTTTCCA -CCTCTACCCGTAACTTCCCGAACCGTCTGGGTACTGGCGCGAATGTCTTCCTGGCTTCTGCGGAACTGGC -GGCTGTTGCGGCGCTGATTGGCAAACTGCCGACGCCGGAAGAGTACCAGACCTACGTGGCGCAGGTAGAT -AAAACAGCCGTTGATACTTACCGTTATCTGAACTTCAACCAGCTTTCTCAGTACACCGAGAAAGCCGATG -GGGTGATTTTCCAGACTGCGGTTTAAAAAGTCAGCGCACGCGCTGCGCATAAACGACACAATGCCCGGTT -AATGAGATTCCCGGGCATTTTTTTATTTCTAAACCATCGCCGTTCCGCTGTTTTTCTCCGGTAAGGCTGC -GATAATTACATCAATGGCGCAATGCGATTTCGGTGCATTGCCGGGAGCAGAGGAACACACTATGGATTAC -GAATTTCTGCGCGATATTACCGGAGTGGTAAAGGTGCGTATGTCCATGGGGCATGAAGTGGTCGGGCACT -GGTTTAATGAAGAGGTGAAAGAAAACCTGGCCTTGCTTGATGAAGTGGAACAAGCAGCGCACGCACTGAA -AGGTAGCGAACGGTCCTGGCAACGGGCAGGGCATGAATACACCCTGTGGATGGACGGTGAAGAGGTGATG -GTTCGCGCCAATCAACTGGAATTCGCTGGCGATGAAATGGAAGAGGGGATGAACTACTACGACGAAGAAA -GCCTGTCGCTATGCGGCGTTGAGGATTTTCTGCAGGTCGTGGCGGCTTACCGCAATTTCGTGCAGCAGAA -GTAAATAAATCTGGCGGAGCCTGGGAGCTCCGCCAGAGCCGTTAAACAGCTGGCATATTGCGCCCGTAAT -AAATCTCGCGCATTTCTTTCCACAGCGCAGCGGTAATTTCCTGGCGCTCGCTGTCGGTTAAGTCTTCCGG -TTTGGTGTGGAACATGTAGTGCTTAAGGTCGAACTCTTTAAGCAACATCTTGGTATGGAAGATATTTTCC -TGATAGACGTTCACATCCACCATGTCATACAGCGCCTTCATATCGTCAGACATAAAGTTCTGAATCGAAT -TAATCTCATGGTCGATAAAGTGCTTCATACCGTTAATGTCGCGGGTAAAACCGCGCACGCGATAATCAAT -GGTTACGATATCGGACTCAAGCTGGTGGATCAGGTAATTCAGCGCCTTCAGCGGAGAAATCACGCCGCAG -GTAGAGACTTCAATATCGGCGCGGAAGGTACATAAACCGCCTTCAGGATGACTTTCCGGGTAGGTATGTA -CGCAAATATGACTTTTATCAAGATGGGCAACGACCGTTTCTGGCAGTGGGCCGGGGTGTTCTGTTTTGTC -GATGAGTTTCGGGTCAACCGGTTCTTCACTCACCAGAATAGTGACGCTGGCACCCTGTGGTTCGTAATCC -TGGCGGGCGATGTTAAGAATATTAGCCCCGATAATGGAACAGGTTTCTGACAGGATTTCGGTCAGACGGT -TGGCATTATAGAGTTCATCGATATAAGCAATATAACCGTCGCGCTCTTCGGCAGTTTTGGCGTAGCAGAT -ATCGTAAATACAAAAACTCAGACTTTTGGTCAGATTATTAAAGCCATGCAGTTTCAGTTTTTTCAATTTC -TTATCTTCTCCTTAGGACGGCTGTGAAGCCAGTGCGTCTTGCAGATACTGAGGTAAGGCAAAAGCTGCCG -TATGGATTGCCGGATTGTAATAACGGCATTTCAGGCCAGAGGCGAGAAAACGCGCCTGAATAATTTCGGT -TGAGAGATGGCGTAAGGCGTCGTTATCTGTCGCCCATGCAAAAGTCATGATACCGCCGTAATAGGTCGGG -ATCGCCGCCTGATAAAAGCCAACGTCGCTGAAGTAATGGCTGAGTTTGCGATGGCTGTCGATGGCTTCTT -CCTGCTGTAAAAAGCAGACGCCGTTTTGTGCGACGAAGATACCGCCAGGATTCAGGCAACGTTTGCAGCC -TTCATAAAATGCCGAAGTGAAAAGGCTTTCGCCGGGACCGATAGGATCGGTGCAGTCGGAGATAATGACA -TCAAAGGTCTGGCTGGTTTGATTAACGAAATTGACGCCATCGTCGATCACCAGCTTAAAGCGCGGATCGT -CGTAGCTACCGGCGTTATGGTTGGGTAGATACTGACGGCAGAACGATACGACACCCGCATCGATTTCCAC -CATCGTGATTGACTCAACGTTTTTATGTCGGGTTACTTCACGCAGCATGGCACCGTCGCCGCCGCCGATA -ATCAGCACATGTTTCGCGTGACCATGGGCCAGTAGCGGAACATGGGTCATCATCTCATGATAGATAAACT -CGTCGCGCTCGGTGGTTTGTACTACGCCATCCAGCGCCATTACGCGACCAAATGCAGCGTTCTCAAAAAT -GATCAGATCCTGGTGATCGGTCTTTTCATGATACAGAACGTTATCTACCGCAAAGTACTGCCCAAACTGG -TCGTGTAGCGTTTCATGCCACTGTTTTTTTTCGGCCATGGGTTGATACCTCCTTTGTTAACACCCGTAAA -AAAAGGGCGCAACATAATAGCTAACATTGACCGCGGATGCACGGTCAATATTTCTACAAAAAGGTATCAG -GGATTATTTGACGTAGGCAAGCAGGCTTAAGGAATCGCGGGCCAGGGCTTTGCATTTTTTAGCGACGGGA -ATGCCAATGCCGCTGAGATCGCGGTAGCTGTCTTCACCGAGGGCTTTCATGTCGAAGGTGTCGTAATTAC -TGAGGTCCCACTGGTTTTGCTGAGCGAAAAAGACCAGTGCGCGACGAATTTGCCCGTTAGGTAAGTTCTG -GTAACCACAATCGTTCTTCAGAAAGACAAAAACTGCCGTTAAATCGGCCATATCTTCGGCTTCAGACTCG -CTGAGCGCGTAACTGTTTGCGCAGACGGCCATCAGGCTGCCGAATAACACTGTTCTGAAAAACGTCTTCA -TTGCTTCTACCAGGGGCTTAAAGAAGATAAACGTTAGCACACTGCGAGCGAGGCGACGACCATTATTGTC -GATTAAATTGTGTCTGCGGCTTGACCTTCCCGTAAGGGGAAGGACTATGCTCAACGTTTGATTTTGTTTC -GCCTGCTTAAGAATAAGGAAATAACTATGCAACGTCGTGATTTCTTAAAATATTCCGTCGCGCTGGGTGT -GGCTTCGGCTTTGCCGCTGTGGAGCCGCGCAGTATTTGCGGCAGAACGCCCAACGTTACCGATCCCTGAT -TTGCTCACGACCGATGCCCGTAATCGCATTCAGTTAACTATTGGCGCAGGCCAGTCCACCTTTGGCGGGA -AAACTGCAACTACCTGGGGCTATAACGGCAATCTGCTGGGGCCGGCGGTGAAATTACAGCGCGGCAAAGC -GGTAACGGTTGATATCTACAACCAACTGACGGAAGAGACAACGTTGCACTGGCACGGGCTGGAAGTACCG -GGTGAAGTCGACGGCGGCCCGCAGGGAATTATTCCGCCAGGTGGCAAGCGCTCGGTGACGTTGAACGTTG -ATCAACCTGCCGCTACCTGCTGGTTCCATCCGCATCAGCACGGCAAAACCGGGCGACAGGTGGCGATGGG -GCTGGCTGGGCTGGTGGTGATTGAAGATGACGAGATCCTGAAATTAATGCTGCCAAAACAGTGGGGTATC -GATGATGTTCCGGTGATCGTTCAGGATAAGAAATTTAGCGCCGACGGGCAGATTGATTATCAACTGGATG -TGATGACCGCCGCCGTGGGCTGGTTTGGCGATACGTTGCTGACCAACGGTGCAATCTACCCGCAACACGC -TGCCCCGCGTGGTTGGCTGCGCCTGCGTTTGCTCAATGGCTGTAATGCCCGTTCGCTCAATTTCGCCACC -AGCGACAATCGCCCGCTGTATGTGATTGCCAGCGACGGTGGTCTGCTACCTGAACCAGTGAAGGTGAGCG -AACTGCCGGTGCTGATGGGCGAGCGTTTTGAAGTGCTGGTGGAGGTTAACGATAACAAACCCTTTGACCT -GGTGACGCTGCCGGTCAGCCAGATGGGGATGGCGATTGCGCCGTTTGATAAGCCTCATCCGGTAATGCGG -ATTCAGCCGATTGCTATTAGTGCCTCCGGTGCTTTGCCAGACACATTAAGTAGCCTGCCTGCGTTACCTT -CGCTGGAAGGGCTGACGGTACGCAAGCTGCAACTCTCTATGGACCCGATGCTCGATATGATGGGGATGCA -GATGCTAATGGAGAAATATGGCGATCAGGCGATGGCCGGGATGGATCACAGCCAGATGATGGGCCATATG -GGGCACGGCAATATGAATCATATGAACCACGGCGGGAAGTTCGATTTCCACCATGCCAACAAAATCAACG -GTCAGGCGTTTGATATGAACAAGCCGATGTTTGCGGCGGCGAAAGGGCAATACGAACGTTGGGTTATCTC -TGGCGTGGGCGACATGATGCTGCATCCGTTCCATATCCACGGCACGCAGTTCCGTATCTTGTCAGAAAAT -GGCAAACCGCCAGCGGCTCATCGCGCGGGCTGGAAAGATACCGTTAAGGTAGAAGGTAATGTCAGCGAAG -TGCTGGTGAAGTTTAATCACGATGCACCGAAAGAACATGCTTATATGGCGCACTGCCATCTGCTGGAGCA -TGAAGATACGGGGATGATGTTAGGGTTTACGGTATAAAAAGACCGTATTCGGAAATATGCCCGGATCTCT -CCGGGCATTAAACTGATGACAAACGCAAATCTGCCTGATGCGCTACGCTTATCAGGCCTACGCTAGCTGT -GCAATCCATTGATTTTGCACAATTTTGTAGGCTGGATAAGGCGTTCACGCCGCATCCGGCATGAACAACG -CGCACGTTGTCAGCAATCTGAGCAAGTCTTACTTCACATCATCCGGCAGCGCATAAGCCACAATATAGTC -GCCCATCTTCGTACCAAATGAACCGTGACCGCCTGCGGAGATCACCACATACTGCTTACCATTCACTTCA -TAGGTCATTGGCGTAGCCTGACCACCCGCTGGTAAACGACCCTGCCACAGTTTTTCACCGTTGCTCATGT -TGTAAGCGCGCAGGTAGTTATCTGCCGTAGCGGCGATAAACAGCACGTTACCCGCCGTGGAGATTGGCCC -GCCCAGCATCGGCATACCCATATTGAACGGCACCGGAACCGGCATCGGGAACGGCATACTGTCCTGCGGC -GTACCAATACGTTTCTTCCACACCACTTCATTAGTTTTCAGATCCAGCGCCGAGATATAACCCCATGCTG -GCTGTTTACATGGCAGACCAAATGGTGAGAGGAACGGGTTGAGCGTGACACCATACGGTACACCGTACTG -TGGCTGAATGCCGGATTCCGTACCCGTGCCTTTGGCATCTTTCGGCTGCTCCATCGGGTTGCCAGGACCA -CGCGGGATCAGTTTCGAAACAAACGGCAGTGCCATTGGGTTGGCAATCGCCACTTCACGATTTGGATCAA -CGGAAATCCCGCCCCATTCGAACATCCCCAGGTTACCCGGGAAGACCAGCGTACCCTGTTCAGATGGCGG -GGTGAAAATGCCTTCATAGCGCATCTGGTGGAACATCACGCGGCACACCAGTTGGTCAAACATGGTGGCT -CCCCACATATCCGCACCGCTCAAATCTTTCGTCGGACGGAAGCTCAGTTCAGAAAACGGTTGAGTTGGGG -TTACGTAATCGCCTTTCGCTGCACCTTGGGGAACCGGTTTTTCCGGTGCCGGAACCACCAGTTCGCCATT -ACGACGATCGAGCACAAAAATGTTGCCGGTTTTCGCCGGAGCGTAAATAACTGGCACTTTCTGACCATTA -ACGGTGATGTCCGCCAGCGTCGGCTGTGCCGGAAGATCCATGTCCCACAGGTCGTGGTGAACGGTCTGGT -AGCTCCACGCCAGTTTCCCGGTAGTGGCATTCAGCGCCAGAATCGAGCTGGCATAACGTTCCTGTTCCGG -TGTGCGGTTACCGCCCCAGATATCCGGCGTGGTCACGCCCATCGGCAGATAGACCAGATCCAGCTTCGCG -TCATAGGCCGCTGGTGCCCAGGAGTTTGGCGAGTTAAAGGTAAAGGTGTGTTCGTCAGACGGGATTGCGT -TCGGATCTTTCGCGCCGGGATCAAAAGCCCACAGCAGCTCCCCGGTGTTGACATCAAAACCACGGATCAC -GCCAGACGTTTCGCGGGTTGAGAAGTTATCGGTAACTGAACCGGCCATCACGATGGTTTTATCGGTGATA -ATCGGTGGCGAAGTCGGTTCATACAGACCCGGTTTGGTGTCTGGCATATTGCTTTGCAGATTGAGCACGC -CTTTATTGGCGAAGGTTTCGCACAGTTTGCCGTTTTCAGCGTTAATCGCAATCAGTCGACCATCATTGAC -CGGAAGAATGATACGACGCGGGCAATCCGCCATCACTTCCGGCGAAGCGGTTTCTGCTTTGGCTTCATGA -TAAGAGACACCACGGCAGGTTACGTGCTGGAAAGACTCGTTGGTTTTCAGCTCAGGATCGTAATGCCATT -TCTCTTTGCCGCTGGCGGCATCAAGCGCAAACAGGCGCTGGTGAGCGGTACACAGGTAAAGGGTGTCGCC -CACTTTAATCGGCGTCACTTCATTGGTGATTTCACCCGGATCGTTCGGCTGCTTCACATCGCCAGTACGG -AACACCCAGGCTTCTTTCAGATTATGGACGTTATCGGCGTTAATTTGTTTCAGCGGCGAAAAGCGTTGAC -CTTCCTGATTACGACCATAGGCAGGCCAGTCCTGATCGGCTACGGGGGAGATAGCTTCAGCAGGTGTGGC -ATCGGCGCTTAAGGTGCCGTTGATCTCCTGCGGATCGTTAAATCCGGCCCAGGTCAGGATACCACCGCTA -ATCAGCAGTGCGACCACCAGTGCGGCAACTGCGCCGCTGGCAGGAATGACCAGGCGACGCCAGACAAACG -GCAGGATCAGCCAGATGCCGAAGAAGACCAGAATGTCGCTGCGCGGAGTCAGCGCCCAGAAGTCGAAACC -AACTTCCCAGACGCCCCAAATCATGGTGCCGAGCAGCAGGGCTGCGTATAGCCAAAGCGCGGCGCGTTTA -CTGCGCCACAGCATCCAGGCGACGCCGAGCATCACAAGGCCAGCGATAGGGTAGTACCAGGAGCCGCCAA -TCGCGACCAGCCAGCCTCCGCCAATGAGTAGATACAGCCCGCAAAGCGCTGCAAAAAGGGCTGTTAGCGT -GACGAGTAATCGTCGCGAGCCTGTATTGTTAATTGCCATAAAGAGACACCATTTCAATTCATTAATATTT -TAGTAGCAATTAATTATAGGTTTTAACATGTGTGATCGTCATCACAATTCGAGCTTTATTAACAGATTCC -GCGAATGAATAGTTTTACTGGTATACTGCGTGTCTTGCGCTTTGTTGCGGTGCCAAAACCTGCCCGTGCG -AAGTGATTTGTTTTTAAATCATATGGTTAGAGATATGAAACATACTGTAGAAGTAATGATCCCCGAAGCG -GAGATTAAAGCGCGTATCGCCGAACTGGGTCGTCAGATTACTGAGCGTTACAAAGACAGCGGCAGCGATA -TGGTGCTGGTGGGTCTGCTGCGTGGCTCATTTATGTTTATGGCGGACCTGTGCCGTGAAGTTCAGGTATC -TCATGAAGTCGACTTTATGACCGCCTCCAGCTACGGTAGCGGCATGTCCACCACCCGTGATGTGAAAATC -CTCAAAGATCTGGATGAAGATATCCGTGGCAAGGACGTGCTGATTGTTGAAGATATCATCGACTCGGGGA -ATACACTGTCGAAAGTGCGTGAGATCTTAAGCCTGCGCGAACCGAAGTCGCTGGCGATTTGTACGCTGCT -GGATAAACCGTCCCGTCGTGAAGTGAACGTCCCGGTAGAATTTATCGGTTTCTCGATCCCGGATGAGTTT -GTGGTGGGTTACGGCATTGATTACGCACAGCGTTACCGTCATCTGCCGTATATCGGCAAAGTGATTCTGC -TGGACGAGTAAGTGTGAAGTTGCCGGATGTGTTGCATCCGGCATGGCATTTTTATTTGTGGTTGGCGTGT -TTCAGCTTGAGGTTGGAAATCCCGTGACGGTAACGTTGCTCAAGGGTTTCGCGGTTGGTGGCGGTAACAT -CCAGATCACGCAGCAAGCCGTCGTGAATGCCGTAGGCCCAGCCGTGAATGGTAACTTTCTGCCCGCGTTT -CCACGCTGATTGCATAATGGTGGAGTGGCCCAGGTTATACACCTGTTCCATGACGTTCAGTTCACACAAG -GTATCCAGACGGCGCTCTTGCGGCATTTCGCCGAGCAATGAGCTATGTTTGAACCAGATATCGCGGATAT -GCAGCAGCCAGTTGTTGATAAGCCCCAGTTCCGGGTTTTCAACTGCGGCTTGTACGCCGCCGCAACCGTA -GTGGCCACAGATAATAATGTGTTCAACTTCGAGTACATCCACTGCATACTGAACCACGGAAAGGCAGTTC -AGGTCAGTGTGAATGACCAGGTTAGCAACATTACGGTGAACAAAGAGTTCGCCCGGCTCAAGACCGGTTA -AACGTTCTGCAGGAACGCGACTGTCGGAACATCCAATCCATAGAAAGCGCGGTTTTTGCGCTTGTGCCAG -TTTCTCAAAAAACCCGGGATCCTCTTCCACCAGCATTTTTGACCATAGTGCATTGTTGCTGATGAGTGTA -TCTATGTCTTTCATGGAGGTTAACGACCTGTAACCAAATAATTACGTTTGGCTAATATAGGGCAACTCCG -GGACGATTTAAACCACAGATAAAGTGTAAGAACGTAAGGTAAGTAAAAATTTATGACCATTGCACTGGAA -CTTCAACAGCTTAAAAAAACCTATCCAGGCGGCGTTCAGGCGCTTCGTGGGATAGATTTGCAGGTCGAAG -CGGGTGATTTTTATGCGCTTCTCGGGCCGAACGGGGCCGGGAAATCGACCACTATCGGTATTATCAGCTC -TCTGGTAAATAAAACCTCCGGGCGGGTCAGCGTATTTGGTTACGATCTCGAGAAGGATGTCGTGAACGCT -AAACGTCAGTTGGGACTGGTGCCGCAGGAATTTAACTTCAACCCGTTTGAAACCGTGCAGCAAATTGTGG -TGAATCAGGCAGGGTACTACGGCGTGGAGCGCAAAGAAGCGTACATCCGCAGCGAAAAGTATCTTAAACA -ACTCGATCTATGGGGAAAACGCAACGAACGTGCGCGTATGTTATCTGGCGGGATGAAGCGCCGTTTAATG -ATTGCCCGTGCGTTAATGCATGAACCTAAACTACTGATTCTCGACGAACCGACCGCAGGCGTGGATATTG -AACTTCGCCGCTCAATGTGGGGCTTTTTGAAGGATTTAAACGACAAAGGCACCACCATCATTCTCACCAC -ACACTACCTGGAAGAAGCAGAAATGCTGTGCCGCAATATCGGCATTATTCAACACGGTGAGCTGGTGGAA -AATACCTCGATGAAGGCGCTGCTGGCGAAGCTGAAATCGGAAACCTTTATTCTCGATCTCGCACCGAAAA -GCCCGTTACCGAAGCTCGATGGCTATCAGTATCGACTGGTCGATACCGCGACGCTGGAAGTTGAAGTGCT -GCGTGAGCAGGGGATCAACAGCGTATTTACGCAGTTAAGTGAGCAGGGCATTCAGGTATTAAGTATGCGT -AACAAAGCTAACCGTCTGGAAGAGCTGTTTGTTTCACTGGTTAATGAAAAACAAGGAGATCGCGCATGAT -GCATCTTTACTGGGTGGCGCTAAAAAGCATCTGGGCGAAAGAGATCCATCGCTTTATGCGTATCTGGGTG -CAGACGCTGGTGCCGCCAGTCATCACCATGACCCTTTACTTTATTATCTTCGGTAACCTGATTGGTTCGC -GTATTGGCGATATGCATGGCTTCAGCTATATGCAGTTCATCGTACCGGGGCTGATCATGATGTCGGTGAT -CACCAATGCCTACGCCAACGTTGCGTCATCATTTTTTGGTGCCAAGTTCCAGCGTAATATTGAAGAGCTG -CTGGTAGCGCCGGTTCCGACTCACGTCATTATTGCCGGATATGTCGGCGGTGGCGTGGCGCGTGGTCTGT -TTGTTGGCATTCTGGTGACGGCAATTTCACTGTTTTTTGTGCCATTTCAGGTGCATTCGTGGGTATTCGT -TGCCTTAACGCTGGTGCTCACGGCGGTGTTGTTCTCCCTTGCGGGTTTGCTGAACGGTGTGTTTGCCAAA -ACGTTCGATGACATCAGCCTGGTGCCAACCTTTGTGTTAACGCCACTCACGTATTTGGGCGGGGTCTTTT -ACTCACTGACTTTGTTGCCGCCGTTCTGGCAAGGGCTGTCGCACCTGAACCCAATCGTTTATATGATCAG -TGGTTTCCGCTACGGCTTCCTCGGTATCAATGATGTTCCGCTGGTCACTACCTTTGGCGTACTGGTGGTC -TTTATTGTGGCGTTTTATTTGATCTGTTGGTCGCTGATCCAACGTGGACGTGGTTTGCGTAGCTAAGGCT -ATTTCCTCTCCTCTGGATTTGGGGGAGAGGAGTTTTGACGGCTATCACCCTTTATCAACAATGGTCAGGG -TAGACTGATTTTCGGCTAAGGAGGAAGGCGATGTTAGGTTGGGTAATTACCTGTCACGATGACCGGGCGC -AAGAGATACTGGATGCGCTGGAGAAAAAACATGGGGCACTTCTTCAGTGCCGGGCCGTGAATTTCTGGCG -CGGATTAAGCTCTAATATGCTCAGCCGCATGATGTGCGATGCTCTGCATGAAGCGGACTCTGGTGAGGGT -GTCATCTTCTTAACCGATATAGCCGGAGCGCCACCGTATCGCGTGGCTTCATTATTAAGCCACAAACACT -CCCGTTGCGAAGTGATTTCTGGTGTCACGTTACCGTTAATTGAACAGATGATGGCTTGCCGTGAAACCAT -GACCAGTTCAGAGTTTCGCGAGCGTATTGTCGAACTGGGTGCGCCGGAGGTGAGTAGTCTTTGGCACCAA -CAACAAAAAAATCCGCCTTTCGTCCTCAAACATAATTTGTATGAGTATTAACCCGCGATTCTGATGGCGC -TTTTGCTACAATAAAAGCGTTGTTTCACCCTCGGTTATTTTTTCATGTACAAACAAGCTGTTATTCTCCT -GCTGATGCTGTTTACCGCAAGTGTCAGTGCCGCGTTACCTGCCCGTTATATGCAAACCATCGAAAATGCT -GCGGTCTGGGCGCAAATTGGTGACAAGATGGTGACCGTGGGGAATATTCGGGCCGGACAAATCATTGCCG -TGGAGCCCACTGCCGCAAGTTATTACGCATTTAATTTTGGCTTTGGCAAAGGTTTTATCGATAAAGGTCA -TCTCGAGCCGGTTCAGGGGCGACAAAAAGTTGAAGACGGTTTGGGCGACCTCAACAAGCCGCTGAGTAAT -CAGAACTTAGTTACCTGGAAAGATACGCCGGTCTATAACGCGCCGAGTGCGGGAAGTGCGCCATTTGGGG -TACTGGCGGACAATTTGCGCTACCCGATTTTGCATAAACTGAAAGACAGGTTAAATCAAACCTGGTATCA -GATCCGTATTGGCGATCGACTGGCCTATATCAGCGCACTGGATGCCCAACCCGATAATGGCCTGTCGGTG -CTAACCTATCACCATATTCTGCGCGACGAAGAAAACACCCGTTTTCGCCATACTTCGACGACCACATCGG -TACGCGCTTTCAATAACCAGATGGCCTGGCTGCGTGACAGGGGATACGCGACACTGAGCATGGTGCAGCT -GGAAGGCTACGTGAAGAATAAGATCAATCTCCCTGCGCGAGCGGTGGTGATTACCTTTGATGATGGCCTC -AAGTCGGTGAGCCGCTATGCGTATCCTGTGTTGAAACAATATGGCATGAAGGCGACGGCGTTTATTGTTA -CCTCACGCATCAAACGTCACCCGCAGAAGTGGAACCCAAAATCGCTGCAATTTATGAGCGTTTCTGAGCT -TAACGAAATTCGCGATGTATTTGATTTCCAGTCACATACCCATTTTTTGCATCGGGTAGATGGTTATCGC -CGACCCATATTACTGAGCCGTAGTGAGCACAATATTCTGTTTGATTTTGCACGTTCACGCCGCGCTCTGG -CGCAATTTAATCCGCATGTCTGGTATCTTTCGTATCCGTTTGGCGGATTTAATGACAACGCCGTGAAGGC -AGCAAACGATGCCGGATTTCACCTGGCGGTGACAACCATGAAAGGCAAAGTAAAACCGGGGGATAATCCG -TTGTTACTAAAACGACTTTATATCTTAAGAACGGATTCGCTGGAGACGATGTCGCGGCTGGTGAGTAACC -AGCCGCAGGGATAACAATCAAGCAACCTGTACCGGAATCGCTTTCGCGGTACGTTTCATTTCATTGTCGC -CTTCAAAATAGGCGACGTTGGGTCGCCAGGTGCGAGCTTCTTCATCTGGCATGGTAACGAAGCTGGCGAT -GATGACAATATCGCCGACACTGGCGCAGTGGGCCGCCGCACCGTTAACAGAAATAATTCTCGAACCGCGT -TCTGCCGCGATGGCATAAGTGGAGAAACGCTTGCCGTTGGTGACATTCCAGATATCAATGGCTTCGTTTT -CGAGAATACCGGCTGCGTCAAGAAAATCCTGGTCAATGGCGCAAGAACCTTCATAGTGCAGGTCCGCATG -AGTCACTTTCACGCGGTGGAGTTTGCCCTGCAGCATCGTGCGAATCATAACTTCTACCTTTCTACCCTGT -CGTTAACGAAGCAGGCGATGCCTGCTTTGAGGAAATTCTCACGCAGTATTGCCCGATTTTTGTTTAGTGT -CTACTCATCTGACGGCATTTGCGTCAGCAGTTTGCGTACCGCGCCGAAGCGTGCCATGTATCGCCTGTAA -CGAATTGATATTTCTCTGAACGCTGCTCGGTAAACAATAAAGAGGTGGCTGACGATAGCGCGCCTTGACT -GGATACTGCCTTCACGCAAAGCCACACGGAAGACAGGGAAGATGGATGCACCGAGTACCACACCGCATGA -CGCGGTATTTAAACAATTTTTAATGCATGCGGAGACGGCTCGCGACTTTCTGGAGATACATTTGCCAGTG -GAATTACGCGAACTTTGTGACCTCAACACGCTTCATTTAGAGTCGGGGAGTTTCATTGAAGAGAGCCTGA -AAGGACACAGCACGGACGTGCTCTATTCCGTGCAAATGCAGGGCAATCCCGGTTATCTGCATGTTGTGAT -TGAACACCAAAGCAAGCCGGATAAGAAAATGGCCTTTCGCATGATGCGTTATTCTATAGCCGCCATGCAC -CGGCATCTGGAGGCTGACCACGATAAGCTGCCGCTGGTGGTGCCGATACTGTTTTATCAGGGCGAGGCCA -CACCTTATCCGCTATCAATGTGCTGGTTTGATATGTTTTACTCGCCGGAGCTGGCGCGACGCGTCTATAA -CAGTCCTTTCCCGCTGGTGGATATCACCATCACACCGGATGACGAAATCATGCAACATCGGCGGATTGCG -ATTCTCGAACTACTGCAAAAACATATTCGCCAGCGCGACTTAATGTTATTGCTTGAGCAACTGGTCACGC -TGATCGACGAAGGGTACACTAGCGGAAGTCAGTTAGTTGCCATGCAAAACTATATGCTGCAACGCGGTCA -TACTGAACAAGCGGATTTGTTTTACGGTGTGTTGAGAGACAGGGAAACGGGAGGGGAGTCTATGATGACG -CTGGCGCAGTGGTTTGAAGAGAAAGGGATTGAGAAGGGGATTCAGCAGGGAAGACAGGAAGTAAGTCAGG -AATTCGCCCAGCGTCTTCTGAGTAAAGGAATGTCTCGGGAAGACGTTGCAGAGATGGCAAATTTACCTCT -TGCTGAGATTGATAAGGTAATTAACCTTATTTAAGTTACCTGTGTTATGACAGATGACGTGGGGTAAATT -AATAACTGGCGCCATCAGCCGTAGCGCCAGTTAAGTATTACGCCAGCTCGACCATTTTGTTGTCGATCAG -GCGAGCATCGCCAAGCCAGGCGGCTACCAGAATTACTGCCCGTTTGCTGGTTTCAGAAACTTCCAGCAAT -GTGTCGGCATCGCGAATCTGAATATCATCGGCGCGGAAGCCTTTTTCATTCAGTTCTTGCCCCGCAATGG -TAATAATTTCATCGAGATCCCGTTCCCCAGCCTGCAATTTGTCAGCAATCGAACTTAAAACTTTGTACAG -ACCAGGCGCAATTTTGCGTTGTTCCGCCGTCAGATAACCGTTACGGGAACTTAGCGCCAGACCGTCTTTG -GCGCGCATAATTGGCACACCGACAATCTCAATATCGAAGCCCATATCGGCAACCATTTTGCGGATCAGCG -CCAGTTGCTGAAAATCTTTTTCACCGAAGCAGGCGATGTCCGGCTGGACCAGGTTGAACAGCTTGCTGAC -AATAGTCGAAACGCCGCGAAAATGTCCCGGACGGCTGGCACCTTCCAGCATGGTCGAAAGGCCAGGAACG -TCAACGTAAGTGTGGGTTTCAGTACCGTTCGGGTAGATCTCTTTTACCGAAGGGGCGAAAACTAAATCCA -CTTTACGTTTGTTTAGCTTCTCGCAGTCCTCCTGCAAGGTCCGTGGATAACGAGCCAGATCTTCCGGGCG -GTCGAACTGCATCGGGTTAACGAAAATACTGACGACGACCACATCGGCGCGGGCTTTGGCTTCGTCGACC -AGCTTCATATGGCCATCGTGCAGGTTACCCATGGTAGGCACCAGCGCCACGCGCTTGCCTTCCATACGCA -GGCGGCGAATTTGCTGACGCAGCAGCGGCAGGGTTTCGATAATTAACACAACGTGACTCCTTAATGGAAA -CTGTGTTCTTCGCCCGGATAAACGCCGGACTCCACTTCAGCCATATACTGCCGCACAGCCGCGCGGATGT -CGCCCGTTTCGGCGAGGAAATTTTTAGCGAATTTAGGAATGTGACCGCCGGTAATACCAAAGGCGTCGTG -CATCACGAGGATCTGCCCGTCAGTGACGTTGCCTGCGCCAATGCCAATAACCGGGATCGCCAGTGCTTCG -GTAATACGTTTTGCCAGTTCAACCGGCACGCATTCCAGCACCAGCAGCTGTGCCCCAGCAGCTTCTAAGG -CTAATGCATCGCTGAGCAGTTGATCGCCCGCTTCATCGCCGCGCCCCTGAACTTTGTAGCCACCGAAAAT -ATTCACTGACTGTGGTGTTAAACCTAAGTGACCACATACAGGAACGGCACGTTCGGTCAGCATTTGTACG -GTTTCTACCAGCCACTCACCGCCTTCAATTTTGACCATGTTAGCACCGGCACGCATAACCGTTGCGGCGT -TTTCGAAGGCTTGTTCCGGCGTGGCATACGCCATAAACGGCAGGTCAGCCAGCAGCAGGCAGTTTGGTGC -GCCGCGACGTACGGCGGCAGTGTGGTAGGCGATATCGGCAACGGTAACTGGCAGGGTGGAGTCGTGCCCC -TGAACCGTCATGCCCAGCGAATCGCCCACCAGCATGACGTTAAGCCCTTCATCAGCAAAGAGTTTGGCGA -AGCTATAGTCATAAGCGGTGATGGTCGCGAAACGTTTTTTTTCCTGTTTGTACTTCTGCAGTAAGGAGAT -GGTGGTCGGTTTCATAACGTATCCTGATAAATTGATGTTGTGCTGTCTGGCATTTTATCAGTCACATTGG -TGGGGGCAATGATTTATCCGTAGCAGCACTGCCAGAAGGTGACAGTGCTGCTACGTTATCAGGGATAGGT -TACCTGGAAAGTACTGGTGGCTTTAAATTCGCCGGGTTCGATAGCAATATTCCCGTCTTGCTTTAATGTT -GCCTGGAAATGAAGAGGCTGTGATGTGCCGTTACCTTGATTAGGGTAAACCCCATCGGAGGTGTCATCTT -CGGTTTCATAATCTATATAAACAGAATTCGTATCATTAGGTTTTAATGTCATTAGCGGATTTTTACTGGT -TGCTAAACCTTCAATGAGTACGCCAACGCCTTTGGCGGCAGTGCTTCCAGTAAGCGTATTACCAAGCAGT -TGTGTGTTTTGAGTACCTACTTTTCCAGTGACGAGTTTTGTTTCAATATTACGCACACGAATACAATTCT -GAAGCGAGATATCAAAGGGAACAGGTGAAGCGCCATTTTTAATTGTCCCAGAGCTATATTCTCCCATTCT -AACCGTTGAACCATTGACTGATGGCCCGGTAAGTATGGAGGTAAAACATGTTGGTAAGGTTAATTTGACA -TTATTCAGTGTGAAATTGACATAAATGTGGTTGCTGTGATCTACAACTTTTGTACCAGGACTGTAGGCCT -TAAACGAATAAAGGTAATTTGATGAACTGGATAACTGGACTTGCTGATTAAGTGTAGGATCGAAATTAGT -ATCTGTATAAAATTCAACAGTTATGTTGTGTACTATACCACCAATAGCCCAAAACTTATCGTAGTCGTCT -GCTTTGTTGCAACCCTTAGTTTGTAGATCGCTGTCTGTGACGGAAAAGAAAAATTCTTGGTTGGAAGGAT -CTCCGATATAGATTCCTGGCGATTGAATGTCAGTTATTGTATCGTATGCAGACCAGACCCTTGATATTAA -CATGGTGTAATACAGACCAGGAACAGATGTATTAAATAGTTTATGTCCGCCATAATCTTTACCTGAATAG -ACCATGGCATTTTCAATAGTTATTGGACCAGGATTCGCTCTGCCAGATGTATTGCAGTAAAGAATACCAC -CACCGGTACCTGTATCCAGGTATGACCAGTACATTTTTACCCCAGTCGGGCCGAGCTGCGTGGGTTTATA -AAAAACCAAGTTGCTTGCTGTTGATGTGTAATTAAAGGTCATCTGTGCGGCAGTGGAGGGGCCTCGATAG -TTATCAACTCCTGCATTATTTCCCACAATAAAACTTGTATATGCACTGACTGTATTACAACAAGAATACA -GTGCTAAAAAAAGAATGTACCTGAAGATAGTCTTCATTTTTACTCCAATGTTTCTTTATTGTTATGGTTT -GCGCTGTTTTTGTTTGTTATTCGTAGTAAATATCCACTAACACATGGCTCATAAGTTGACCAGATGTAAC -ACTCAATGCAGGATCGATTTTTTGCATTCGGGTGCTAAATTTCCAGGATGAACCATTCATGTCATCCGAC -ATTACTGGATAAACGGAACGAGATCCGCCTGAAGCATTAAGAACATTGAATGTATTCGCCGAATCCTGAG -TAGAAAATATAACTACTCCTACATTACTTGCTCCTGACGAAATTTCATTAGCAAATATTTGCCTAGAGCC -AGCAGCCATGACACCGCTAAGGGCTCTAAAATCAATATGTAACTGATTTAGCACATCGCCAGTTCCCTGT -AATGCACAGTCGGATACAGTGATAGTGAACTCTTTTCCACCTGGTTGATAACTTTCAGGAGTAACATTAC -CTGAAAAATATCCCACCCCAACGACGCCAAGATCAATATTACCCTGGTTACTGATTCCGCTTTTGCAGGT -GCTGTTTTTTACATTGGCAACAAGGTCAATATCCTGTCCAGCAATGGCTGGACAGGCGATGCAAAACAGT -AATGACAGAAACAGAATTATTCTCTTCATCAGCTTACGTTGAGTGGGATGCATATATAGTTCCTGAATCT -GTAAGTCTGTTAGTTATAGGTTACTGTAAATGTGGCTGGTGCAGAAAACTTACCCGCAGTGACATTGTTT -ACGGTTTTATTTTTTTCCACGACCAGGCGTGCACTCATCGGATAATAAACGACCGCATTGGCTGCAGTGG -AGATTGTTACCTCTTGTGATGCTGGTGTTACACAGCTAAATTGTGTTGCACTCCCTGTTGCCGGAGTTAC -AGTGCTCCAGACTTCAACGGCGACAGCACTTGCTTTATCTGCGGCTGTGGAACCATTTGCAAACCCCGCA -CCGTCATTAGCAGTTCCCTCGCATGTGGCTCGCTTGGTTAATTTTATTTGCGCTTTTTTATTGGGGATAC -CCGCACAGTCTTTGAATTTGAGTTTGAATGTTTTTACTTTGGTCTTGGCATTGATTTCAGAAATATATAC -ATCACCAAAATCAACAACAGAAATGTCCTGATCAGAGTCATTTACTAATGTAGCGGTACAAGTACCCATT -TCTACAGTAGTAATAACGGTCAGTCCAATACTGTCTGTTGCCGCATAAGAGAGTACGCTGAACAATGAGG -CAGCCAAAACGACACTGCTGGATAATCCATAACGTAAATTTTTAAATGTCATCATAATTATCCTTCTTAT -TGATAGATGAAATTAAACGTCGCCAGTGCACGAAAATTCCCCGGTACGCCTTGCCCTGCATCTGTTTCAC -GTAGCGCAACGGTCATTTCAAGACCCTTATCGGGCTGCATCTCGTCTGTGCTCCAGCGTATCTTTTCCGC -ACTGTTAGGTTTAAGGAAAGTGGCATCATCAGTAGTCCGTTTTTTGAAACCCATACCGATATTACTTGTC -GTCGAAGATGAATCACCAGACTGCGGTATAATAAGCTTAGGTGAGCTTGATGATGCATTTCCGGTCAGAG -TGGTATCAATCCAACTGATGCCACTGCTGCACCCACTGGCAACCAGTTTAAAATCAGCCTGAGATTCTGT -CGTTTTATTCGCGATCTTATCCAGACCCATCTTAGGGATTCTCAATGTGTAGTTATTATTGCCATCATTC -GTGACGTTATTACCAGTAAGTGTGATGTTACAGGTTGTCGCTTTGACAGTGGCTGTAAACTCTACATTAA -TATCCGTTGCAAATACTGAGGGTGATAATAATATTCCCATCAGTATCACTATTTTATGTGGCGTTGTTTT -TATCATTTGACGTCCCTTGTAGTTACTGAATCTGACACCGAATTCCATTCAGAATAATAGATTGTGCTAT -TTTTTCTGCTTCTGGGCTTTGTTGATAATGCGCAAGACAACTTACGGGTTTACTTTGTTCGAGCCATTTA -ATGCTGATATTTCCCTGCTGCTCAATACCACGAACAAATGCTTGTCCACCCTGTCCAACATTACCAATGA -CATTGCCTTGCTCATCATAAATATCTGCAGCAAATGGAATATTTTTACCATCACTTCGTGTGATGTTCAT -AATGGCTGATTGCCCTTGCACGGTTTCAAAATCAGCAAAGACGACTGAACCCTGACGCGGTACAGCTACT -GCACTGGTACTTTTTAATTCAACATCGTTCTCAAGATCGTTGATATCCAGCGCGATACGGTTTTCATGAT -AAGGAGAAAGAGCGCTGGTGACACCATAACCCCATCGATCGATAGTACTGTTGCCATAATTTATTCGCGC -TCCTTGAGCACCTGGAGCCTGAACTACCGCCAGTGTATCGGAGTCGCTAAAACTATCATTACTGAAAGTC -AGTCCACCGCTATGCAATACAAAACCACCGTCGGTGCTGAGAGAAACTTGACGGCTGTTATCGCTATTTG -CAGAAATTGAACCTGCCAGCGTTCCCCATGGTGACTCATAGCTGGCATAACCCCCAACATAACTCAAATC -TTTGCTGGCTTTATTCATCGTATAGCCAGTATTCACGCTATAACTGACGCGAGCGTTATCGCTATAGCCA -CTGCTGCTAACGTTGAGTTGGTTATTACCCTTAAAGTCACTGCTTATTTGAGTATCAATACTCTGGAAAC -CTGAAGTACGTTGTTCAGTGCCAAGTAATTTTTCAATTGGAATGGTGAAACTAAGATAAACGCTATCGTC -AGTGTCGCCGTCTTCATTCCATGAACGCTGGGCACTGACACTGTAGCTGCCCCAGGATGTACTGTTACTG -TAGCCAATAGAGTAATTGCTACGATTTTGTCCGGAAGCCCAGTAATCGGACCAACTTCCGGAAAGATAAA -ATGAACCGTAATCTTTTTTCTCAAATTTCAACGGTTGGTTAATACTGACCGTAACCTGATTTTTCATGCG -TGAGTAATTACGCATGGATTTCGGTTCAAGATCTTGTTCGGGATGTTTCACTTCATCAATTAGAGTTAGT -GCATCATTAAGACCAAGGTAATTCTGTGTCGAATAGCGATAGGCCGCGATATTCAGTGAAGTACTTGTTT -CTTCGAATAACTTGTTCCAGGAAACACGATAACTTTGCCCCTGGTATGTTTTATCATCCGGGATACGAAC -ATTGGAATGAGTCACATCGAAAGAAAATGCACCAACTGAAGTATTCAGACCAAGACCTAACAAACCAGCG -GTATAGTTATTATCGGTTATCTGAATACCGGTATAACCCGTCAGATAGTTATTCAGGCCGTAGTAGTAGC -TTGCTTGAAATAAATTAGGCTCATCCTGAATATCATCTTTTAAGACCTGACCGCCGCTAATATCCCAACG -TCCAACGCCAGGGCGTAACATTTGAACAACGGATGAGAAAGGTTGCGAGAATGTCCGCTTTGAGCCATCG -GATTCTTCGATGGTAACAATAAGATCGCTGCCGTACCCTGACGGACTCAGATCATCAATGACGAAAGCGC -CTGGCGGCACCGTCGTTTCATAAATCTTATAGCCACCTTGCGTAATAGTGACTTTGGCGTTGGTATTGGC -AACGCCATGAATGATAGGCGCAAAGCTGGCTAAAGTCGGAGGCAACATGCGGCTGTCACTGTATAAACGA -ATGCCTCGGATACTGACGGAATCAAAGGTTTCGCCCGTCGTATAAGACTCACCAAGAATGAGTTGAGAAC -GCAGCGAGGCGATATCACGCTGAACATACCGATTCTTAAAATCATAATTACTGCCAGAATCGGTCATCCA -GTTGTAGTTGCCCGAGGCACGCAGTCGCCATGCACCTAAATTCATCCCACCGTTAAATGCAGCATAAATG -CTTTCATTTTTTCGACCAGGGGTTTCACTATGATATCCGTTGAGGTTGTATGACAACATGGCCGCATTAA -TGCCGTTTTCCCATAACGATGGATCAACATAGTTTTGGTAATTTTTCATTACCCAGGCTTGAGGAACGTC -TATATCCAGACGTTGATCGTTAACGTCATAACGAACAGAAGCCTGAGGGATAATTTCCGTCAAATTGAGG -CAATTGCCGAGCGTTTCATCCCTGGCAAGCAGAACGGCTTTTTCGTTATTTATATCGGGAGAATTAATAT -GAAACTGCAATAAATTCTTTAATGTGATACAAGCCTGGGCGTTCTTTTTTCCTTCAATTGCGACAAATGT -AATACTTTGGTTAATGATTGGTTGGTCGTTTACATAAACACTGACGTCGTAAACACCCGGTATAGCGGGG -TTACCTTCACTGTACCGGCTGAGATCAATATTAGATGCATTCTGCCCCATCAGGAAGGTATGGTCATATT -CAACGAGTTCAGCACTGAAAGCAGTATTGCAATACAGCAGCGCGCAAAACGTGGCGATACGGGTCAGATG -ATGATAATTTTTAGTATATTCTATAGTCACGCTATGCTTCCTGCGGAATTATATCCTTGCCTGATTACAG -CCTGGCATTACCTTCAATTGCGCCACCAAAGTCATTAATGGCGTAAAAATGCACTTTTGCAGAATTCGCT -TTGCCATTAAGGCCATTGACTTTCATGACCTCATCACTAAATGGTGCAATCATTTTCACATCAATCGGAT -AGCGTTTACCGCTAGCTTCTAAATCACCACTGCTAAAAGAGACGTAGTAAGGGGTTGGATTGGTCACTCG -TAATGACGCCTTACCTTCTGAACCTGACCAGAACCACTTCAGGGCTAACGGGGCTTCAGAGGGATTTCCC -TTCAATCCATCCGGGCGATAGAAAAGTTTTATACGTGTGCGAAATGCCAGTTGCAGCAGGCTTTGATTCG -CGACCTTTTCTGCATCTGGTTTTGGTGGAACTTCCAGTACGTTAAACCAGAACACGCTCTCTCTGTCTTT -AGGCAGTGAGGTGCTGGCTGTGTACATTAATTTGATTGTTTGCCCACGTTTGGCATCAATACGCGATACT -GGCGGCGTAGCAGTAAAAGGGACTGTAATACTGCCAGGCTCAGCGTTGTCATCGCCAGTATCTAACCAAC -TCTGGACAAGCAACGGGTTATTCCCTTTATTTTCCAGACGTACGTTGACACTTTTTTGATCGCTTTTATA -TATTACGCGAGTACCCGAAATGACAATGTCCGCAATAGACGATGAACTAAAAGCCATACAGGTTACGAAG -CATAAAGCTGTTGTATGTTTGGTGTTAAAAAACATAAACCATCCCTGATAGAGTTAATTAAAACAGGGAA -TAATATAAAATAGAAATTATTATTCCCTGTATATTCATTCAATCAATTTAACTGGTGAATACTTACTGAT -AAGTAATGGTGTATGCAGTGTTAGTTTTTACATAACCAGCAGTTGCTGTTTGGTCTGCGACGGCACGAAC -GTAAGACGCTTTAAAATCATAAACAGCAGATTTTGTCGTTGCATCCAGGGCTTTAGTATACACATCGCCA -GGGTTGTTAATTTGAACCTGTTTGATAGTGGAACCATCAATATTGTGTAGAGCGATATTAACGCCGTCAG -ATGGGTTGTTAATAGACATGTCGTTGTTCAAAGTCCCTTTGCTGTTACCAAAGAAAACAGAACCGAAGGT -CATTTTAGCCGTGCTACCTGGATTCGGATTTGCTTTGCTGCAGTCAACGGTGATGCTGAAAGGTTTAGCT -TTAGCGCCAACGGTGTCATTCAGTACGCCAGCATCGATTTCACCAACGGTTGCGGTTTGCAGCAGGATCA -GACCATCCTTGTTACCGCCGTCAACGCGGGTTTCACAGGTGTTATCAACAACCAGACCACTGATATTTAA -CTGACCGCCGTCCATATCAGCAGAAGCAGTACCTGCAACCATCGCCAGCATAAGACCAGACAGGGCAAAA -CCTAATTTTTTAGACATAAAAATCCTTTAATAAAATTCCATTAGTCAGACTACATGTTTGAAGAATGACT -ATTCATGACACAAATAGGAGAAACAAATGTTAGATATTAATGAGCAATGATATTTGTTACCCAAATTTAC -AACCATTGTTCATTAGGTCGCCTATTGTGCACTTTAGAAGCTTTTGAACAAATTAAATTTACTTAATTCA -AAATTAAGTAAAAATAAGTTCACAAGTGCAATTGGTTAGGGTATGGAGATGGGATTGATATTTATTTATA -GGAAGTTATATTATTTCCGCAAAGAGATGTTTAAACTAAAATCGTAATTAAGGAAAGAGATGAGATATGA -TTTTCAGAAAATATTTATATTCGCAATATAAATAAATTACCATTTGTTTAATTTGTCAAATGCTCTTGTA -TGTAAGATTTGACGCAACATCTCCCCATCAGGAAACACCAACTCCGGCGCGATTTCAAACAGCGGCCACA -GCATAAATCCACGATTCTTCATATCGTAGTGCGGAACGGTCAGGCGTTCAGTATTTATCACTTCATTACC -AAACAGCATGATGTCGAGATCCAGCGTGCGTGGTCCCCAGCGTTCAGCTTTGCGGACGCGACCTTGCTGC -AATTCAATACGCTGTGTGTGATTGAGTAGCTCTTCAGGTGCAAGAGAGGTTTCCAGCGCCACGGCTGCGT -TTAAGTAATCGGGTTGATCTTGCGGCCCCAGCGGTGGGGTGCGGTAAAACGAAGAAACGGTAAGAATGTG -GCTTTCAGGGATATCGCCTAATGCTTTCAGGGCAGCATTGACCTGCTCCAGCGGAGAGGCCAGATTGCTG -CCTATGGCAATATACGCCACTGTCATGCGGTACCCTCACGACGTGGTGCGCGTTTGCGTGGACGACGAGT -ACGACGACGCGGTGACGGTTCTTCATCCAGCTCGTTGAGCATCCCTTTTTGGTCTGGTGGCGCGGAAACC -TGGAACTCACCCCACCATTTCACCAGACGCTGCAGTTCAGCGTTACGCTCAACTTCAGCTCGCAAGGCCA -ACAGGTCATAAGCCGCACGGAACTTAGGATGCTCCAGCAGTTTCCATGCGCGTTTACCCTGACGACGGGA -CATACGCAACTGCAACTGCCAGATATCGCGGGTTAATGTCGTCAGACGTTTCGGGATTGCCAGTGAACGG -CAGGCTTCGTCCAGCACGTCGTTCATCGCCAGCGCGAAAGCGTCGTGATAGGTCAGGCCGCTTTCCTGGG -CGATCTTCTGTGCCGTCTCCAGCAGTGGGTACCAGAACATGGCGGCAAACAGGAACGCCGGGTTCACGCG -CATATCGTTATGGATACGCGTATCGGTATTCTTCAGCACCTGTTCAATGATCCGCTCCATCGGGCTGTCG -CCATTTTCCGTGAAGTAGCGGGTAATGGTCGGGAACAGCGGCTGGAACAGATGATATTCACACAACAGCT -TATAGGTTTCGTAACCGTAGCCCGCTTGTAGCAGTTTAAGCGATTCTTCAAACAGGCGTGCCGGTGGGAT -ATCGTTCAGCAGGGTAGCGAGGCGAGGGATCGGTTCTGCGGTTTCCGGGCTGATGCGCATACCCAATTTG -GCGGCAAAACGTACCGCGCGCAGCATACGTACCGGATCTTCACGGTAGCGCGTTTCCGGGTTACCAATCA -GACGGATAACGCCGTCCTTCAGATCCTTCATGCCGCCAACGTAATCACGGACGGTAAAATCCGCTACGCT -GTAATACAGGCTGTTGATAGTGAAATCGCGGCGCTGGGCGTCTTCTTCGATGGAGCCGAAAATGTTGTCG -CGCAGCAACATGCCGTTTTGCCCGCGTTGGGAGGTCGTGCGGTCGCTGACGTTACCTTCGTGGTGTCCAC -GGAAGGTCGCAACTTCGATAATCTCCGGGCCAAACATTACATGAGCCAGACGGAAACGGCGACCCACCAG -GCGGCAGTTACGGAACAGTTTGCGCACCTGCTCAGGCGTGGCGTTAGTGGTTACGTCAAAATCTTTCGGC -TTTTTGCCAAGTAACAGGTCGCGCACGCCGCCGCCAACCAGCCAGGCTTCGTATCCCGCTTTATTGAGCC -TGTACATTACCTTCAGGGCATTTTCACTGATATCTTTGCGGGAAATAGCATGCTGCTCACGCGGGATCAC -CGTCACCTGTGGACGGGCGACTGCCTGTTCAGCCTCGCTTTCCTCGCGGCTTAGCACCTTGCGGCAAAAA -TTAGCGACTCGGGTAAAAATAGTACACCTCGGTAGTGTCAAACATCATTCAGGACAAAAAAATAGCGGCT -AATCATAGCTCAGCATGACGCATTTGAGAATGTTGAATTTACAATTGCCGACTCGGGCACGGCGGTAAGC -CGCCAGTTTTTGACGGCTGACTGAAGGATTTGCTCGACGCTGAAATCCTGCCAGTGTGCTTCTGCCTGCT -GCCCCAGAAATTGAAGTGCCGCGATTAGTACCGGGCGTGGATCGCCTTTCGGCAACGCAGGCGCATGATT -CTGCTTGGAAAGTTTAGCGCCTTGTGGATTAAGCGCCAGCGGCAGATGAATGTAATCTGGCACTTTCCAG -CCAAAAAGCTGGTACAGCGAGATTTGCCTTACTGTTGGTTCAATCAGATCAGCCCCACGCACTATTTCTG -TAACGCCCTGGAAATGATCATCAACCACAACAGCCAGGTTGTAGGCGAACAACCCATCACGGCGATGAAT -GATAAAATCTTCCCGTGCCAGTTTTTCGTCGGCGTGAATAATGCCGCGCAGCTGGTCAGTAAATTGCGTG -ACCGGATGCTGCTGGCGGATACGCACTGCGGCGTTGTCTGGTCCATGATGCAACACCCGGCAATGACCGT -CGTAAATACCGCCAATGCTTTGAATACGCGCACGCGTACAGGTGCAGTAATAACTTAGTCCTTGTTCATG -TAACCAGGCGAGTGCTTCACGATAGGCGTCGTGACGTTGCGATTGCCAGAGAACATCGCCGTCCCAGTGC -AGACCGTAATGTTCCAGCTGGCGCAGGATAGTTTCTGCGGCACCGGGAACTTCACGAGGCGGGTCGATAT -CTTCTATGCGTACCAGCCAGCGACCTTGCCGGGCGCGAGCCTGCAAATAGCTGCCGAGCGCGGCGATCAG -AGAGCCAAAATGAAGCTCGCCGGAAGGAGAGGGGGCGAAGCGGCCAATATACTGTGTGTCTGTCATCTCT -TTGAACAAAAAATAAGGCGGGAGCATTTCCCGCCTGTGGTAAACGTGATGGAACGGCTGTAATTAGCCAG -CCATCTGTTTTTCGCGAATTTCAGCCAGCGTTTTGCAGTCGATGCACAGATCGGCTGTCGGGCGCGCTTC -CAGACGGCGAATACCAATTTCAACACCGCAGGATTCGCAGTAGCCGAAATCTTCGTCTTCCACTTTTTTC -AGCGTCTTCTCGATCTTTTTGATCAGCTTACGCTCGCGATCGCGGTTACGCAGTTCGAGGCTGAACTCTT -CTTCCTGGGCTGCACGGTCTACCGGGTCCGGGAAGTTGGCTGCTTCATCCTGCATATGTGTAACGGTGCG -ATCGACTTCATCCCTGAGTTGATTACGCCATGCTTCCAGAATACGACGGAAGTGCGCCAGCTGGGCTTCA -TTCATATACTCTTCGCCCGGCTTCTCCTGATATGGTTCCACCCCAGCGATGGCGAGAATACTCAGGGACG -ATGTTTTACGGTTTTGCCCTTCTTGCATGTTGCTTCTCCTTAACACGCACTATCGATCCCCATGTTCGGG -GGAAAAATGAGGCCGCTATAAATAGCAGATGCTTTTCCGGATAGCAATTATCTAAACGTAACACTTGACA -ACTGTGTGAGGAAAAGCGTATTTGCGCACGCGACCAGAATGTAAATTAACCAGTTACTTACTTTACTACA -ATGTAACCGGCAGTGATTTTTTAAGAGCCATGCCTTCAGCAGAAATTTCCGCTTTGTAAGCCAGAATTTC -TACCCCCCTCTGTTGAGCTTCTGACAATAGTTGCGCGTATTTCTCATCGATGTGGCGCGCGGGTGAAAAC -CGTGTAATGGCTGAATGCAGCACGGCGAAAAAGATAACCGCACGCTGGCCTTCAGCCGCTACGCTCATCA -ACTCCCGAAGGTGTTTCTGACCTCGTTCAGTGACCGCATCGGGAAAATATCCCTGTTCGTTCTCCGCTAA -CGTAACCGATTTCACTTCAATATAGCAGTCTGGACGCGAATCCGCCTGCAACATAAAGTCAATACGGCTG -CGTTCTGCGCCGTATTTTACTTCGCTTTTCAGCGAGCTATAGCCTGACAGTTCTGAAATTGATTCATTAA -GGATAGCCTCTTTCGTCAACCTGTTAGCCCAAAGCGTGTTGACGCAAATAAATGCGCCGCTCTGGCTTTG -AGTTAATTCCCAGGTGTGTGGGTATTTCCGTTTGGTGTTGTCTGAAGTCGAATACCAGACGGTATCGCCA -GGCGTTGCACAACCGGTCATCGCACCCGTATTCGGGCAGTGTAGCGTTAATTCGCGACCATCGGGTGTGA -TCACATCGGCTAAAAAACGTTTGTAACGCTGAATTAGCGTCGCGCGCTGTAGAGGGGGAGAAAATTCCAT -TGCGACAATCCTTGTTATTGCGTTAGCGCCCAGCGTTTTAGCGGCGTGTAGCGTGTGCGTCCACGGGCAA -ACGAGGAGGCGTAAAGGGTGAACTCCGTCACCGCATACGACCAGTTAAAACCTGGCGGCGGGATTGTCAC -CGCCTCGCTGGCGTCGCGCAATAAGGTAATATGTGGATGAAACGGACGATTGCTTTGAAAACAACCGCTG -CGGGCAGCCTGTGAACGGAGCATATTCGCCAGCTGGATTAAGCCGCGTGGCGGCTGACGCATCCCTAACC -ACACCACACGCGAACGCAGCCATTGTCCGGCGTCATCAAGCGTGAGTGTGAAACCAGGTTGACGAATCCG -TCCGGCTAAAAGAGAAAGCGCCTTCTCTTTCTCGGCGCTCACTTCGCCTAAAAATGCCAGAGTCAGATGC -AAATTATCGGCGGCGACCGGACGTCCCGCCTCAGGTGGGAAGTGTGTGGCGCGCCAATGGATAATCTGTT -CGCGGATTTCTGCAGGTAAGTCGATAGCAAAGAACAGACGTTGCGGTTCAGACATGTGAGGCACTCGGTT -ATGAATTACCGCGATGCTACAATGTGGCGCGAAGAATGTTAACCCTCTGGAGCGTTTTGTGTCGTCGTTG -CCCGTTGCTGCCGTCTTACCTGAATTACTTACCGCTCTCGATTGTGCGCCGCAGGTATTATTAAGTGCGC -CGACCGGGGCCGGGAAATCAACCTGGCTGCCGCTGCAACTGCTGGCGCATCCCGGCATTAACGGGAAAAT -TATCCTGCTGGAGCCGCGTCGTCTGGCGGCGCGTAACGTCGCGCAACGGCTGGCGGAGCTGCTTAACGAA -AAGCCAGGCGATACCGTTGGCTACCGGATGCGTGCGCAAAACTGCGTCGGGCCGAATACCCGCCTGGAAG -TGGTTACCGAAGGCGTGCTGACGCGCATGATCCAGCGTGACCCGGAACTGAGCGGTGTTGGACTGGTGAT -CCTTGATGAATTTCATGAGCGCAGCTTGCAGGCGGATTTGGCGTTGGCGCTGTTACTCGATGTGCAACAA -GGTCTGCGTGATGACCTTAAACTGCTGATTATGTCGGCTACCCTGGACAACGACCGCTTGCAGCAAATGC -TGCCAGAAGCGCCTGTCGTCATCTCAGAAGGGCGCTCGTTTCCGGTTGAACGCCGTTATTTACCGCTGCC -CGCGCATCAGCGTTTTGACGATGCCGTTGCGGTAGCCACCGCTGAAATGCTGCGTCAGGAAAGCGGATCA -TTACTGTTATTTTTACCTGGCGTCGGAGAAATTCAGCGTGTGCAGGAACAACTGGCTTCGCGCATCGGCA -GTGATGTATTGCTCTGCCCGCTGTATGGCGCGTTGTCGCTGAACGATCAGCGAAAAGCGATCCTCCCGGC -ACCGCAAGGGATGCGCAAAGTGGTGCTGGCGACCAATATTGCTGAAACCAGTTTAACCATTGAAGGTATT -CGTCTGGTGGTGGATTGTGCCCAGGAGCGTGTGGCGCGTTTTGATCCGCGCACGGGGCTTACGCGACTGA -TTACTCAACGCGTTAGCCAGGCATCCATGACGCAGCGTGCCGGGCGCGCCGGGCGTCTGGAGCCGGGTAT -CAGCCTGCATTTAATCGCCAAAGAACAAGCAGAACGCGCCGCGGCGCAAAGTGAACCGGAGATCTTACAA -AGCGATCTTTCCGGTTTGCTGATGGAATTACTGCAATGGGGATGCAGCGATCCGGCGCAGATGAGCTGGC -TGGATCAACCGCCAGTAGTGAATCTACTGGCCGCGAAACGTCTGTTACAAATGCTGGGGGCACTGGAGGG -TGAACGGCTTAGTGCGCAAGGGCAAAAAATGGCAGCGCTGGGTAACGATCCGCGTTTAGCGGCAATGCTG -GTTAGCGCGAAGAACGACGACGAAGCTGCTACCGCGGCAAAAATTGCCGCCATTCTCGAAGAGCCGCCAC -GGATGGGCAATAGTGACCTGGGCGTGGCGTTTTCGCGCAATCAACCAGCCTGGCAGCAACGTAGTCAGCA -ACTGTTAAAACGCTTAAACGTACGTGGCGGTGAGGCAGACAGTTCGCTTATCGCGCCGCTACTTGCCGGG -GCGTTTGCCGATCGCATTGCTCGTCGCCGTGGGCAAGATGGACGCTATCAACTGGCAAACGGCATGGGAG -CGATGCTCGATGCCAACGACGCGCTAAGCCGCCACGAATGGTTGATCGCACCGTTATTATTGCAGGGCAG -CGCCTCGCCGGATGCGCGGATTTTACTGGCGCTGCTGGTCGATATTGATGAGTTAGTACAACGCTGCCCG -CAGCTGGTACAGCAGTCTGACACTGTGGAGTGGGATGACGCGCAAGGTACGCTGAAAGCCTGGCGTCGGC -TACAAATCGGTCAGTTGACGGTGAAAGTGCAGCCGCTGGCGAAACCGTCAGAAGACGAGTTGCATCAGGC -GATGCTTAATGGCATCCGTGATAAAGGTTTAAGCGTGCTCAACTGGACGGCGGAAGCGGAACAGCTACGC -TTGCGTTTGTTATGCGCCGCAAAGTGGTTGCCGGAATATGACTGGCCAGCGGTTGATGATGAAAGTTTAT -TGGCAGCGCTGGAAACGTGGCTGCTGCCACATATGACTGGCGTACATTCACTACGCGGCCTGAAATCACT -CGACATTTATCAGGCACTACGCGGATTACTTGATTGGGGAATGCAGCAACGTCTGGATAGTGAATTGCCT -GCGCATTACACTGTGCCGACGGGAAGCCGGATCGCCATTCGTTATCATGAAGATAACCCGCCCGCGCTGG -CGGTGAGAATGCAAGAGATGTTTGGCGAGGCCACCAATCCGACGATCGCCCAGGGGCGCGTGCCGCTGGT -GCTGGAGTTGCTTTCACCTGCCCAAAGGCCATTACAAATCACACGAGATTTGAGCGACTTCTGGAAAGGA -GCGTACCGTGAGGTGCAAAAAGAGATGAAAGGGCGTTATCCCAAACATGTCTGGCCGGACGACCCGGCAA -ATACTGCACCGACGCGACGGACGAAAAAGTATTCGTAAGGTTGGTTTTCTCCCTCTCCCTGTGGGAGAGG -GCCGGGGTGAGGGCATCAGCGCGCACGTTCACCCTCACCCTAACCCTCTCCCTCAAGGGAGAGGGGACCG -ATCGAGCACAAATTTTGAGAGATATCTTCTTCTGTCTTGTAACAGAAGAACAGAAAATCGGGCTTTTGCG -CCTGAATATTGCGGAGAAAAAGCATGGCCGGGAATGACCGCGAGCCAATTGGACGCAAAGGGAAACCGAC -GCGTCCGGTCAAACAAAAGGTAAGCCGTCGTCGTTACGAAGATGACGATGATTACGACGATTATGATGAC -TATGAGGATGAAGAACCGATGCCGCGCAAAGGTAAGGGCAAAGGCAAAGGGCGTAAGCCTCGTGGCAAAC -GCGGCTGGCTATGGCTACTGCTAAAACTGGCTATCGTTTTTGCCGTGCTGATCGCCATTTACGGCGTTTA -TCTCGATCAAAAAATTCGTAGCCGTATTGATGGCAAGGTCTGGCAACTGCCTGCGGCAGTTTATGGCCGA -ATGGTCAATCTTGAGCCAGACATGACCATCAGCAAGAACGAGATGGTGAAGCTGCTGGAGGCGACCCAGT -ATCGTCAGGTGTCGAAAATGACCCGTCCTGGCGAATTTACCGTGCAGGCCAACAGCATTGAGATGATTCG -CCGTCCGTTTGATTTCCCGGACAGTAAAGAAGGACAGGTGCGCGCGCGTCTGACCTTTGATGGCGATCAT -CTGGCGACGATCGTCAATATGGAGAACAACCGTCAGTTCGGTTTCTTCCGTCTTGATCCGCGTCTGATCA -CCATGATCTCTTCGCCAAACGGTGAGCAGCGTCTGTTTGTGCCGCGCAGTGGTTTCCCGGATTTGCTGGT -GGATACTTTGCTGGCGACAGAAGACCGTCATTTTTACGAGCATGATGGAATCAGTCTCTACTCAATCGGA -CGTGCGGTGCTGGCAAACCTGACCGCCGGACGCACGGTACAGGGTGCGAGTACGCTGACGCAACAGCTGG -TGAAAAACCTGTTCCTCTCCAGCGAGCGTTCTTACTGGCGTAAAGCGAACGAAGCTTACATGGCGCTGAT -CATGGACGCGCGTTACAGCAAAGACCGTATTCTTGAGCTGTATATGAACGAGGTGTATCTCGGTCAGAGC -GGCGACAACGAAATCCGCGGCTTCCCGCTGGCAAGCTTGTATTACTTTGGTCGCCCGGTAGAAGAGCTAA -GCCTCGACCAGCAGGCGCTGTTAGTCGGTATGGTGAAAGGGGCGTCCATCTACAACCCGTGGCGTAACCC -AAAACTGGCGCTGGAGCGACGTAATCTGGTGCTGCGTCTGCTGCAACAGCAACAGATTATTGATCAAGAA -CTCTATGACATGTTGAGTGCCCGTCCGCTGGGGGTTCAGCCGCGCGGTGGGGTGATCTCTCCTCAGCCAG -CCTTTATGCAACTGGTGCGTCAGGAGCTGCAGGCAAAACTGGGCGATAAGGTAAAAGATCTCTCCGGCGT -GAAGATCTTCACTACCTTTGACTCGGTGGCCCAGGACGCGGCAGAAAAAGCCGCCGTGGAAGGCATTCCG -GCACTGAAGAAACAGCGTAAGTTGAGCGATCTTGAAACTGCGATTGTGGTCGTCGACCGCTTTAGTGGTG -AAGTTCGTGCGATGGTCGGAGGTTCTGAGCCGCAGTTTGCGGGCTACAACCGTGCGATGCAGGCGCGTCG -TTCGATTGGTTCCCTTGCAAAACCAGCGACTTATCTGACGGCCTTAAGCCAGCCGAAAATCTATCGTCTG -AATACGTGGATTGCGGATGCGCCAATTGCGCTGCGTCAGCCGAATGGCCAGGTCTGGTCACCGCAGAATG -ATGACCGTCGTTATAGCGAAAGCGGCAGAGTGATGCTGGTGGATGCGTTGACCCGTTCGATGAACGTGCC -GACGGTAAATCTGGGGATGGCGCTGGGGCTGCCTGCGGTTACGGAGACCTGGATTAAACTGGGCGTACCG -AAAGATCAGTTGCATCCGGTTCCGGCAATGCTGCTGGGGGCGTTGAACTTAACGCCAATCGAAGTGGCGC -AGGCATTCCAGACCATCGCCAGCGGTGGTAACCGTGCACCGCTTTCTGCGCTGCGTTCGGTAATCGCGGA -AGATGGCAAAGTGCTGTATCAGAGCTTCCCGCAGGCGGAACGCGCTGTTCCGGCGCAGGCGGCGTATCTG -ACACTATGGACCATGCAGCAGGTGGTACAACGCGGTACGGGTCGTCAGCTTGGGGCGAAATACCCGAACC -TGCATCTGGCAGGGAAAACAGGGACTACCAACAATAACGTAGATACCTGGTTTGCGGGCATTGACGGCAG -CACGGTGACCATCACCTGGGTCGGCCGTGATAACAACCAGCCGACCAAACTGTATGGTGCCAGCGGGGCA -ATGTCGATTTATCAGCGTTATCTGGCTAACCAGACGCCAACGCCGCTGAATCTTGTTCCGCCAGAAGATA -TTGCAGATATGGGCGTGGACTACGACGGCAACTTTGTTTGCAGCGGTGGCATGCGTATCTTGCCGGTCTG -GACCAGCGATCCGCAATCGCTGTGCCAGCAGAGCGAGATGCAGCAGCAGCCGTCAGGCAATCCGTTTGAT -CAGTCTTCTCAGCCGCAGCAACAGCCGCAACAGCAACCTGCTCAGCAAGAGCAGAAAGACAGCGACGGTG -TAGCCGGTTGGATCAAGGATATGTTTGGTAGTAATTAACATCTAAGCGTGAAATACCGGATGGCGAGTTG -CCATCCGGTAAAATAACATCCCATCTAAGATATTAACCCTTTCTTTTCATCTGGTTGTTTATTAACCCTT -CAGGAACGCTCAGATTGCGTACCGCTTGCGAACCCGCCAGCGTTTCGAATATTATCTTATCTTTATAATA -ATCATTCTCGTTTACGTTATCATTCACTTTACATCAGAGATATACCAATGGCGCGTTCCAAAACTGCTCA -GCCAAAACACTCACTGCGTAAAATCGCAGTTGTAGTAGCCACAGCGGTTAGCGGCATGTCTGTTTATGCA -CAGGCAGCGGTTGAACCGAAAGAAGACACTATCACCGTTACCGCTGCACCTGCGCCGCAAGAAAGCGCAT -GGGGGCCTGCTGCAACTATTGCGGCGCGACAGTCTGCTACCGGCACTAAAACCGATACGCCGATTCAAAA -AGTGCCACAGTCTATTTCTGTTGTGACCGCCGAAGAGATGGCGCTGCATCAGCCGAAGTCGGTAAAAGAA -GCGCTTAGCTACACGCCGGGTGTCTCTGTTGGTACGCGTGGCGCATCCAACACCTATGACCACCTGATCA -TTCGCGGCTTTGCGGCAGAAGGCCAAAGCCAGAATAACTATCTGAATGGCCTGAAGTTGCAGGGCAACTT -CTATAACGATGCGGTCATTGACCCGTATATGCTGGAACGCGCTGAAATTATGCGTGGCCCGGTTTCCGTG -CTTTACGGTAAAAGCAGTCCTGGCGGCCTGTTGAATATGGTCAGCAAGCGTCCGACCACCGAACCGCTGA -AAGAAGTTCAGTTTAAAGCCGGTACTGACAGCCTGTTCCAGACTGGTTTTGACTTTAGCGATTCGTTGGA -TGATGACGGTGTTTACTCTTATCGCCTGACCGGTCTTGCGCGTTCTGCCAATGCCCAGCAGAAAGGGTCA -GAAGAGCAGCGTTATGCTATTGCACCGGCGTTCACCTRGCGTCCGGATGATAAAACCAATTTTACCTTCC -TTTCTTACTTCCAGAACGAGCCGGAAACCGGTTATTACGGCTGGTTGCCGAAAGAGGGAACCGTTGAGCC -GCTGCCGAACGGTAAGCGTCTGCCGACAGACTTTAATGAAGGGGCGAAGAACAACACCTATTCTCGTAAT -GAGAAGATGGTCGGCTACAGCTTCGATCACGAATTTAACGACACCTTTACTGTGCGTCAGAACCTGCGCT -TTGCTGAAAACAAAACCTCGCAAAACAGCGTTTATGGTTACGGCGTCTGCTCCGATCCGGCGAATGCTTA -CAGCAAACAGTGTGCGGCATTAGCGCCAGCGGATAAAGGCCATTATCTGGCACGTAAATACGTCGTTGAT -GATGAGAAGCTGCAAAACTTCTCCGTTGATACCCAGTTGCAGAGCAAGTTTGCCACTGGCGATATCGACC -ACACCCTGCTGACCGGTGTCGACTTTATGCGTATGCGTAATGACATCAACGCCTGGTTTGGTTACGACGA -CTCTGTGCCACTGCTCAATCTGTACAATCCGGTGAATACCGATTTCGACTTCAATGCCAAAGATCCGGCA -AACTCCGGCCCTTACCGCATTCTGAATAAACAGAAACAAACGGGCGTTTATGTTCAGGATCAGGCGCAGT -GGGATAAAGTGCTGGTCACCCTAGGCGGTCGTTATGACTGGGCAGATCAAGAATCTCTTAACCGCGTTGC -CGGGACGACCGATAAACGTGATGACAAACAGTTTACCTGGCGTGGTGGTGTTAACTACCTGTTTGATAAT -GGTGTAACACCTTACTTCAGCTATAGCGAATCGTTTGAACCTTCTTCGCAAGTTGGGAAGGATGGTAATA -TTTTCGCACCGTCTAAAGGTAAGCAGTATGAAGTCGGCGTGAAATATGTACCGGAAGATCGTCCGATTGT -AGTTACTGGTGCCGTGTATAATCTCACTAAAACCAACAACCTGATGGCGGACCCTGAGGGTTCCTTCTTC -TCGGTTGAAGGTGGCGAGATCCGCGCACGTGGCGTAGAAATCGAAGCGAAAGCGGCGCTGTCGGCGAGTG -TTAACGTAGTCGGTTCTTATACTTACACCGATGCGGAATACACCACCGATACTACCTATAAAGGCAATAC -GCCTGCACAGGTGCCAAAACACATGGCTTCGTTGTGGGCTGACTACACCTTCTTTGACGGTCCGCTTTCA -GGTCTGACGCTGGGCACCGGTGGTCGTTATACTGGCTCCAGTTATGGTGATCCGGCTAACTCCTTTAAAG -TGGGAAGTTATACGGTCGTGGATGCGTTAGTACGTTATGATCTGGCGCGAGTCGGCATGGCTGGCTCCAA -CGTGGCGCTGCATGTTAACAACCTGTTCGATCGTGAATACGTCGCCAGCTGCTTTAACACTTATGGCTGC -TTCTGGGGCGCAGAACGTCAGGTCGTTGCAACCGCAACCTTCCGTTTCTAATTTCTCTTTTGGGGCACGG -ATTTCCGTGCCCATTTCACAAGTTGGCTGTTATGCAGGAATACACGAATCATTCCGATACCACTTTTGCA -CTGCGTAATATCTCCTTTCGTGTGCCCGGGCGCACGCTTTTGCATCCGCTGTCGTTAACCTTTCCTGCCG -GGAAAGTGACCGGTCTGATTGGTCACAACGGTTCTGGTAAATCCACTCTGCTCAAAATGCTTGGCCGTCA -TCAGCCGCCGTCGGAAGGGGAGATTCTTCTTGATGCCCAACCGCTGGAAAGCTGGAGCAGCAAAGCGTTT -GCCCGCAAAGTGGCTTATTTGCCGCAGCAGCTTCCTCCGGCAGAAGGGATGACCGTGCGTGAACTGGTGG -CGATTGGTCGTTACCCGTGGCATGGCGCGCTGGGGCGCTTTGGGGCGGCAGATCGCGAAAAAGTCGAGGA -AGCTATCTCGCTGGTTGGCTTAAAACCGCTGGCGCATCGGCTGGTCGATAGTCTCTCTGGCGGCGAACGT -CAGCGGGCGTGGATCGCCATGCTGGTGGCGCAGGATAGCCGTTGTCTGTTGCTCGACGAACCGACCTCGG -CGCTGGATATCGCCCACCAGGTTGATGTGCTGTCGCTGGTGCACCGTTTAAGTCAGGAGCGTGGCCTGAC -GGTCATTGCCGTGTTGCACGATATCAATATGGCGGCACGCTACTGTGATTATCTGGTCGCCCTGCGCGGC -GGTGAAATGATTGCTCAGGGAACGCCTGCGGAAATTATGCGCGGCGAAACCCTCGAAATGATTTATGGCA -TCCCGATGGGTATTTTGCCGCATCCGGCGGGTGCTGCACCTGTGAGTTTTGTTTATTGATGAGCGGCTTA -CCTCTTATTTCGCGCCGTCGACTGTTAACGGCGATGGCGCTTTCTCCGTTGTTATGGCAGATGAATACCG -CCCACGCGGCGGCTATTGATCCCAATCGTATTGTGGCGCTGGAGTGGTTGCCGGTGGAATTACTGCTGGC -GCTCGGCATCGTGCCTTACGGCGTGGCGGATACCATCAACTATCGCCTGTGGGTCAGCGAACCACCATTG -CCGGACTCAGTGATCGACGTCGGTTTGCGCACAGAACCTAACCTTGAACTGCTGACCGAAATGAAACCAT -CGTTTATGGTCTGGTCGGCAGGATATGGCCCTTCACCAGAAATGCTGGCTCGTATTGCGCCGGGTCGCGG -ATTTAACTTCAGTGACGGCAAACAGCCGTTGGCGATGGCGCGTAAATCGCTGACGGAAATGGCAGATTTA -CTTAACCTGCAAAGCGCAGCGGAAACGCATTTAGCGCAATATGAAGACTTTATCCGCAGCATGAAACCCC -GCTTTGTGAAGCGTGGTGCGCGTCCGTTATTGCTGACGACGCTTATCGATCCGCGCCATATGCTGGTCTT -CGGTCCAAACAGCTTGTTCCAGGAAATTCTTGATGAGTACGGCATCCCAAATGCCTGGCAAGGGGAAACC -AACTTCTGGGGCAGTACCGCCGTCAGTATCGATCGTCTGGCGGCGTATAAAGACGTTGATGTGCTCTGTT -TTGATCACGACAACAGCAAAGACATGGATGCGCTAATGGCAACGCCGCTGTGGCAGGCCATGCCGTTTGT -CCGCGCCGGACGCTTTCAGCGCGTACCTGCAGTCTGGTTTTATGGTGCGACGCTCTCGGCAATGCACTTT -GTGCGCGTTCTGGATAACGCCATCGGAGGTAAAGCGTGAGTAAACGAATTGCGCTTTTCCCGGCGTTATT -GCTGGCGCTGTTAGTGATTGTCGCTACGGCGCTCACCTGGATGAACTTCTCGCAGGCGCTGCCGCGTAGC -CAGTGGGCGCAGGCTGCCTGGTCGCCGGATATTGACGTCATCGAGCAGATGATTTTTCACTACAGCTTGT -TGCCGCGTCTGGCGATTTCGCTGCTGGTGGGCGCGGGTCTGGGGCTGGTGGGCGTGCTGTTTCAGCAAGT -GCTGCGTAACCCGCTGGCGGAGCCGACGACGCTTGGCGTTGCTACAGGCGCGCAACTGGGGATTACCGTC -ACTACGCTCTGGGCGATCCCTGGTGCGATGGCGAGCCAGTTTGCTGCGCAGGCAGGGGCTTGTGTTGTTG -GCTTAATTGTCTTTGGCGTCGCGTGGGGGAAACGGCTGTCGCCGGTAACGCTGATTCTCGCGGGGTTGGT -AGTGAGCCTTTATTGCGGCGCAATCAATCAGTTACTGGTTATCTTCCATCATGACCAACTGCAAAGCATG -TTTCTGTGGAGCACTGGAACGCTGACGCAAACCGACTGGGGCGGCGTTGAGCGTTTATGGCCGCAGCTGC -TGGGCGGTGTGATGCTGACGTTGCTGCTACTTCGTCCGTTAACCCTGATGGGGCTTGATGATGGCGTGGC -GCGCAATCTCGGGCTGGCCTTGTCGCTTGCGCGTCTGGCAGCGCTGTCGCTGGCGATTGTCATCAGTGCG -CTGCTGGTGAACGCTGTGGGGATTATCGGCTTTATCGGGTTGTTCGCGCCGCTGCTGGCAAAAATGCTGG -GGGCGCGGCGTCTGCTGCCACGACTGATGCTGGCGTCGTTGATTGGTGCGCTGATCCTCTGGCTTTCCGA -TCAAATCATCCTCTGGCTGACTCGCGTGTGGATGGAAGTGTCCACCGGTTCGGTCACTGCGTTGATCGGT -GCGCCGCTGCTACTGTGGCTGTTGCCGCGTTTACGCAGCATTAGCGCGCCGGATATGAAGGTCAACGATC -GTGTCGCGGCTGAACGCCAACATGTGCTGGCGTTTGCCCTCGCGGGCGGCGTGCTGCTGTTGATGGCTGT -GGTGGTGGCGCTGTCGTTTGGTCGTGATGCGCACGGCTGGACGTGGGCGAGCGGGGCGTTGCTCGAGGAT -TTAATGCCCTGGCGCTGGCCGCGAATTATGGCGGCGCTGTTTGCGGGCGTCATGCTGGCGGTGGCGGGCT -GTATTATTCAGCGACTGACCGGAAACCCGATGGCAAGCCCGGAAGTGCTGGGGATTAGCTCCGGCGCGGC -GTTTGGCGTGGTGTTGATGCTGTTTCTGGTGCCGGGTAATGCCTTTGGCTGGCTGTTACCTGCAGGCAGT -CTCGGCGCGGCGGTGACGCTGTTGATCATTATGATCGCCGCCGGCCGCGGTGGATTTTCCCCACACCGTA -TGTTACTGGCGGGGATGGCGTTAAGCACCGCGTTCACCATGCTTTTGATGATGTTGCAGGCAAGTGGTGA -CCCGCGAATGGCGCAAGTGCTGACCTGGATTTCCGGTTCGACCTACAACGCGACCGATGCGCAGGTCTGG -CGCACCGGAATTGTGATGGTGATTTTGCTGGCGATTACCCCGCTGTGCCGCCGCTGGCTGACCATTTTAC -CGCTGGGTGGTGATACCGCCCGAGCCGTAGGAATGGCGCTGACGCCGACGCGAATTGCGCTGCTGCTGTT -AGCGGCTTGCCTGACGGCGACCGCGACGATGACTATTGGACCGTTGAGTTTTGTTGGTTTAATGGCACCG -CATATTGCGCGGATGATGGGCTTTCGACGGACGATGCCACACATCGTAATTTCGGCGCTGGTGGGTGGTT -TACTGCTGGTGTTCGCTGACTGGTGTGGGCGGATGGTGCTGTTTCCATTCCAGATCCCGGCGGGGCTGCT -GTCAACCTTTATCGGCGCGCCATATTTTATCTATTTGTTGAGAAAGCAGAGCCGTTAATTTTTCCATATA -ACGGCCCTGTACGCCTGGACGGATAAAGCGTTTACGCGACAACGGATGCCCGATGCGACGCTGGCGCGTC -TTATCGGGCCTACAAACGGCCCCGAATCGTAGGTCGGATAAGGCGTTCACGCCGCATCCGACAAACCATG -CTGGATCACAACTTCGCAAACACCCGACGTGCAGCATCGATGGTGTTATTGATATCTTCCATGCTGTGCG -CCACGGACATAAAGCCCGCTTCAAACGCTGACGGTGCCAGGTAAACACCTTCGTCCAGCATCATATGGAA -GAAACGCTTAAAGCGTTCCACGTCACAGGCCATCACATCCTGATAGCACGTCACGGACTCGGCGTCGGTA -AAGAAAATACCGAACATGCCGCCAACGTGGTTAACGACCAGCGGAATTCCGGCTTCTTCTGCCGCTTCCA -GCAGACCTTCTGCCAGACGTGTTGTCAGCTCATCCAGCGTTTCGTGAACGCCCGGCTGCGCGACTTCATT -CAGACAGGCGAAACCCGCTGCCATCGCAATCGGGTTACCGGAAAGCGTACCCGCCTGATAGACCGGACCC -GTCGGGGCCAGCGCATCCATTACATCACGACGACCACCGAATGCGCCTACCGGCATTCCACCGCCGATGA -TTTTGCCGAGGCAGGTTAAATCTGGCACTACGCCGTAATAATCCTGTGCGCCAGCTAGCGCTACGCGGAA -ACCGGTCATCACTTCATCGATGATCAGCAACGCGCCAAATTCGTCGCACAGCGCGCGCAGACCTGGCAGG -AACTCTGGCAGCGGCGGAACACAGTTCATATTGCCTGCCACCGGCTCGACGATAATACAGGCAATCTCTT -GCGGGTATTGCTCAAATGCGGCGCGTACAGAAGCCAGATCATTATAAGTACAGGTTAAGGTATATTTGGC -GAAATCTGCCGGAACGCCCGGCGAGTTTGGCTGGCCTAACGTGAGTGCGCCAGAACCGGCTTTCACCAGC -AGGCAGTCAGCGTGACCATGGTAACACCCTTCAAATTTAATAATTTTGTCGCGACCGGTAAAACCACGGG -CCAGGCGGATGGCGCTCATGGTCGCTTCAGTGCCGGAGTTCACCATGCGCACCATATCCATGGTCGGGAC -CAGTTCGGTCACCAGTTGCGCCATTTTCACTTCCATTTCGGTTGGTGCACCAAAGCTTAAACCACGCTCG -GCGGCTTCAATCACGGCATTGCGGATTGCCGGATGGTTATGGCCCAGCACCATCGGCCCCCAGGAACCGA -CATAATCGATATAGGCTTTGCCATCAACATCGTACAGATAAGCGCCGTCCGCTTTTTCGATAAACAGTGG -AGTGCCGCCCACGCCAGTAAAGGCGCGAACAGGGGAGTTCACACCGCCAGGGATCAGCTCGCGCGCTGCG -CTGTAAAGATTTTCAGACTTACTCATGGAGGGTTCCTGATTCGTAGAAAAAGTGAATGGCTGCTATTCTA -TGTTATTCATAACAAGTTAAATACTCGTCAAACATCAGGCTGCTTGTACTGGTGCAATCCTGATTTCTTA -GAGTATAAAAGTTTTGTGCATTTGAAACATTACGCTTTGCAAAGGATTTTCATGGAACGTGCGAGTAAAA -TGCCGTCATCTTATTTGTATGACCAATAAGTGATCATTGGATGAAAACTGATACTCCCTCTTTAGAAACA -CCGCAGGCCGCGCGCCTGCGACGCAGACAACTGATTCGCCAACTTCTTGAGCGCGATAAAACCCCGTTAG -CCATTTTGTTTATGGCGGCAGTCGTCGGCACGCTTGTTGGGCTGGCAGCGGTTGCTTTTGACAAAGGTGT -CGCCTGGTTGCAGAACCAACGTATGGGGGCGCTGGTACATACTGCTGATAATTATCCGCTTCTGTTAACC -GTCGCTTTTCTCTGTTCGGCGGTGCTGGCGATGTTTGGCTACTTTTTGGTGCGCAAATACGCGCCGGAAG -CAGGTGGTTCGGGGATCCCGGAAATTGAAGGGGCGCTGGAAGATCAACGTCCCGTTCGCTGGTGGCGTGT -ATTGCCGGTGAAGTTCTTTGGCGGGCTGGGGACACTCGGCGGAGGCATGGTGTTGGGGCGCGAAGGGCCA -ACCGTGCAGATCGGCGGTAACATTGGCCGTATGGTGCTTGATATTTTCCGCCTGAAAGGTGACGAAGCTC -GCCATACGCTGCTGGCAACCGGTGCTGCTGCGGGGCTGGCTGCGGCCTTTAACGCGCCGCTGGCGGGTAT -TTTGTTTATTATCGAAGAGATGCGTCCGCAGTTTCGCTATACGTTAATTTCGATTAAAGCGGTATTTATT -GGTGTCATTATGTCGACCATTATGTACCGGATTTTTAATCATGAAGTTGCGTTGATTGACGTCGGTAAAC -TTTCTGATGCGCCGCTTAATACGCTGTGGCTTTATCTGATCCTCGGTATTATTTTTGGCATTTTCGGCCC -TATTTTTAATAAATGGGTGCTGGGGATGCAGGATTTGCTGCACCGTGTGCACGGCGGCAATATTACCAAA -TGGGTGCTAATGGGCGGTGCGATTGGCGGTCTGTGTGGATTGCTGGGGTTTGTGGCACCAGCAACGTCGG -GCGGCGGTTTTAACCTGATTCCTATCGCTACCGCGGGGAATTTCAGCATGGGAATGCTGGTGTTTATCTT -CGTCGCGCGGGTCATTACCACCTTACTCTGCTTCTCTTCCGGCGCGCCGGGCGGTATTTTTGCCCCGATG -CTGGCGCTGGGTACTGTGCTGGGAACCGCTTTCGGAATGGTTGCCGTTGAGCTGTTTCCGCAATATCACC -TTGAGGCGGGGACGTTTGCTATTGCCGGAATGGGGGCATTACTGGCGGCATCTATTCGCGCGCCGTTAAC -GGGGATCATTCTGGTTCTGGAGATGACCGATAACTACCAGCTCATTTTGCCAATGATTATTACCGGTCTT -GGCGCAACACTATTAGCGCAATTTACCGGCGGGAAACCGCTATACTCGGCGATTCTTGCGCGCACGCTGG -CAAAACAGGAAGCTGAGCAACTGGCGCGAAGCAAGGCCGCATCAGCCAGCGAGAATACTTGAACGAAATA -CCAGGGTATTAGATAATGGCGATTATTATTGGGTTAGAATTTGCCCAATTGCCGATGTCGTTTGGAGCAA -AATATGAGTGATGACGTAGCACTGCCGCTGGAGTTTACCGACGCAGCAGCCAACAAAGTTAAAAGCCTGA -TCGCTGACGAAGATAACCCGAATCTGAAATTACGCGTGTATATCACCGGTGGCGGTTGCAGCGGCTTCCA -GTATGGTTTCACCTTTGATGATCAGGTGAACGAAGGCGATATGACCATCGAAAAACAGGGCGTTGGCCTG -GTGGTTGATCCGATGAGCCTGCAATATCTGGTCGGCGGTTCCGTTGATTATACCGAAGGTCTGGAAGGTT -CTCGTTTCATCGTGACCAACCCGAACGCGAAAAGCACCTGCGGTTGCGGTTCTTCCTTTAGTATCTAATC -TGTTGTTCATGTGCCGGATAAACTATCCGGCACATCTTCTCTCTTCAACGCCCATTCTCATCCAGCGCAA -ACGTCGGTAGCTTAAGATGCCAACGAATAGCCGCCAGCCGAATCAATAGCGTCACGACCATGCCCATCAT -ACTGGCTGTTTCCAGTGGTACGGAAAATGTGTAATAAGCCGTAGCGTGGACAATACCGCCGATAATACAG -GCAGTTGCGTAGATTTCTGTACGTAAAATCATGGGGATTTCGCGGGCCAGAACATCACGAATGATCCCGC -CGCCAACGCCAGTAATGACGCCCATACAAACCGCGATTAACGGACCGGCTTCCGCATTAAAGGCTTTATT -CACGCCAATGCCGACAAACACCGCCAGACCAACGGCGTCCAGCACCGGCAACATCCATTTTGGTAAGCGT -CTTGGCTGGCGCACCAGCACGATGGTCAGCATGCTGGTGACCATTGCAACGACCAGATCGGTGGGATCTT -TCACCCAAAATACCGGGCCGTGATCCAGCGCCATGTCGCGAATTGTCCCGCCGCCTACTGCGGTTACCAC -GCCCAGTACCAGAACACCAAAAGGGTCCATACGCAATTTTCCGGCTAACAAAACGCCGGAGATGGCAAAT -ACCGCTGTGCCGACTATATCCAGCCAATAGACGAGCATTGTTCAATCCCCACTGAGCACCTGAAAAGGTC -AGGCGCTAATCTACCTGTGAAAGCGCATTACAGAGCTGTTGTGCAGCGAGGATAATACGTGGGCTTGCAC -GTTCAAACCAGTCACTCGTGAGAGGAATAACGGGAATTTTGAGCTGTTCACCCCAGTATTGTTTGATTTT -AGGAATTTGGTCCGGTCCGCCTGTAATGACAATCGCCTGTGGCGAGCGTGCTAACACCTGTTCGCGGCTA -ACTTGCGGCCAGGGAACCCGGCTGTCTTTAAAGATGTTTTCTCCGCCACAAACTTCGAGTACCTGGTTCT -GAATCGACTCTTTTCCACTGGTAAATGGCGGATTAATGCCGAATTGCAGAAAAACACGTTTTTTAGGTTT -ATCAGCATATTGCGCTTTCAATTGCGCGTACTGATCCAGCAGGGATTGCGCGGCTTGTTCGGCCTTGTCT -GGTTGCGGACTCCAGGGGGCCAGTTGACGTAACGCATTGGCAATTTGTTCAATGCTTGTCGCATCGACCC -ACATCACTTTTATTCCCAGCGAAGCCAGCTGGTCAACCTGCCGCTCGGCATTACCTCCACGCCAGGCAAT -CACCAGATCGGGTTTCAGCGCGACAATGCGTTCCAGATTCATCCCCTGCCAGGTGGAAACCTGCTCAATC -TTTTGCGCTTGTGGAGGATAGTCGGAATAGCTGCTGACCCCAACCGGCGTGATCCCGGCGGCAAAGGCAA -GTTCAGTGTTGGCGGGAGAAAGCGTGATGACGCGCGGCGCGGCGTTGAGCCACAGTGGCGCAAGAAAAGA -CAGGGCGACCAGCGCCCTGAACAGTGACTTAGCCATGTGCAAGTTTCTGCACCAGTGACTCAACCATCAG -GCTGGACTGTTTAGCGGCAACAGCCAGGAACTCATCGAAGCTAAGATGAGACTGTTGATCGGCCACGTCG -GAGATGGCGCGTACGACAACAAACGGGACGTTGAAATTGTGGCAGACATGGGCGATTGCCGTCGCTTCCA -TCTCTACAGCAATGGCCTGTGGGAAGTTGTGGCGGATTTTCGCCAGACCAACAGAACCGTTGATGAAAGC -GTCGCCGCTAACAATCAGGCCACGTACAGCGTTAAGATTCAGTTCGGCAATGCAGGCCTCAGCGGCAGCG -ATCAGTTTATCGTCAGCTTTAAAGCCTGCCGGACAGCCTGGTAACTGACCGTATTCATAACCAAATGCCG -TGACATCCGCGTCGTGATAACGTGCTTCGTCCGAGACAACGATATCGCCCACTTTCAACGTTGGTGCCAG -GCCACCGGCAGAACCGGTGTTAATAATCACATCTGGCTTGCAGTGTTCCAACAGCAAAGTGGCACCCAGC -GCCGCAGCGACTTTACCGATGCCCGATTTCAGAAGCGCAACCTCGGTTCCATTCAGTTGGCCGGTATAGA -TTTCGCAACCGCCGAGACTGATAGTTTGACGGTTTTCGATTTTGTCACGCAGCAGCGTAACTTCTTCTTC -CATTGCACCAATGATGCCGATTTTCATAGATTTACTCGCGATAAGCCCGATTTGAAGGCATAGTTTACCA -TGCGCTTACGGGGAAGCGTATTTCTCACGCGGGAGAGGACATGGCACAGATTGATTTCCGAAAAAAAATA -AACTGGCATCGTCGTTACCGTTCACCGCAGGGCGTTAAAACCGAACATGAGATCCTGCGGATCTTCGAGA -GCGATCGCGGGCGTATCATCAACTCTCCGGCAATTCGTCGTCTGCAACAAAAGACCCAGGTTTTTCCACT -GGAGCGCAATGCCGCCGTGCGCACGCGTCTTACCCACTCGATGGAAGTCCAGCAGGTGGGGCGCTACATC -GCCAAAGAAATTTTAAGCCGTCTGAAAGAGCTTAAATTACTGGAAGCATACGGCCTGGATGAACTGACCG -GTCCCTTTGAAAGCATTGTTGAGATGTCATGCCTGATGCACGATATCGGCAATCCGCCGTTTGGTCATTT -TGGCGAAGCGGCGATAAATGACTGGTTTCGCCAACGTTTGCACCCGGAAGATGCCGAAAGCCAGCCTCTG -ACTGACGATCGCTGCAGCGTGGCGGCACTACGTTTACGGGACGGGGAAGAACCGCTTAACGAGCTGCGGC -GCAAGATTCGTCAGGACTTATGTCATTTTGAGGGGAATGCACAAGGCATTCGCCTGGTGCATACATTGAT -GCGGATGAATCTCACCTGGGCACAGGTTGGCGGTATTTTAAAATATACCCGTCCGGCGTGGTGGCGTGGC -GAAACGCCTGAGACACATCACTATTTAATGAAAAAGCCGGGTTATTATCTTTCTGAAGAAGCCTATATTG -CCCGGTTGCGTAAAGAACTTAATTTGGCGCTTTACAGTCGTTTTCCATTAACGTGGATTATGGAAGCTGC -CGACGACATCTCCTATTGTGTGGCAGACCTTGAAGATGCGGTAGAGAAAAGAATATTTACCGTTGAGCAG -CTTTATCATCATTTGCACGAAGCGTGGGGCCAGCATGAGAAAGGTTCGCTCTTTTCGCTGGTGGTTGAAA -ATGCCTGGGAAAAATCACGCTCAAATAGTTTAAGCCGCAGTACGGAAGATCAGTTTTTTATGTATTTACG -GGTAAACACCCTAAATAAACTGGTACCCTACGCGGCACAACGATTTATTGATAATCTGCCTGCGATTTTC -GCCGGAACGTTTAATCATGCATTATTGGAAGATGCCAGCGAATGCAGCGATCTTCTTAAGCTATATAAAA -ATGTCGCTGTAAAACATGTGTTTAGCCATCCAGATGTCGAGCGGCTTGAATTGCAGGGCTATCGGGTCAT -TAGCGGATTATTAGAGATTTATCGTCCTTTATTAAGCCTGTCGTTATCAGACTTTACTGAACTGGTAGAA -AAAGAACGGGTGAAACGTTTCCCTATTGAATCGCGCTTATTCCACAAACTCTCGACGCGCCATCGGCTGG -CCTATGTCGAGGCTGTCAGTAAATTACCGTCAGATTCTCCTGAGTTTCCGCTATGGGAATATTATTACCG -TTGCCGCCTGCTGCAGGATTATATCAGCGGTATGACCGACCTCTATGCGTGGGATGAATACCGACGTCTG -ATGGCCGTAGAACAATAACCAGGCTTTTGTAAAGACGAACAATAAATTTTTACCTTTTGCAGAAACTTTA -GTTCGGAACTTCAGGCTATAAAACGAATCTGAAGAACACAGCAATTTTGCGTTATCTGTTAATCGAGACT -GAAATACATGAAAAAAACCACATTAGCACTGAGTGCACTGGCTCTGAGTTTAGGTTTGGCGTTATCTCCG -CTCTCTGCAACGGCGGCTGAGACTTCTTCAGCAACGACAGCCCAGCAGATGCCAAGCCTTGCACCGATGC -TCGAAAAGGTGATGCCTTCAGTGGTCAGCATTAACGTAGAAGGTAGCACAACCGTTAATACGCCGCGTAT -GCCGCGTAATTTCCAGCAGTTCTTCGGTGATGATTCTCCGTTCTGCCAGGAAGGTTCTCCGTTCCAGAGC -TCTCCGTTCTGCCAGGGTGGCCAGGGCGGTAATGGTGGCGGCCAGCAACAGAAATTCATGGCGCTGGGTT -CCGGCGTCATCATTGATGCCGATAAAGGCTATGTCGTCACCAACAACCACGTTGTTGATAACGCGACGGT -CATTAAAGTTCAACTGAGCGATGGCCGTAAGTTCGACGCGAAGATGGTTGGCAAAGATCCGCGCTCTGAT -ATCGCGCTGATCCAAATCCAGAACCCGAAAAACCTGACCGCAATTAAGATGGCGGATTCTGATGCACTGC -GCGTGGGTGATTACACCGTAGCGATTGGTAACCCGTTTGGTCTGGGCGAGACGGTAACTTCCGGGATTGT -CTCTGCGCTGGGGCGTAGCGGCCTGAATGCCGAAAACTACGAAAACTTCATCCAGACCGATGCAGCGATC -AACCGTGGTAACTCCGGTGGTGCGCTGGTTAACCTGAACGGCGAACTGATCGGTATCAACACCGCGATCC -TCGCACCGGACGGCGGCAACATCGGTATCGGTTTTGCTATCCCGAGTAACATGGTGAAAAACCTGACCTC -GCAGATGGTGGAATACGGCCAGGTGAAACGCGGTGAGCTGGGTATTATGGGGACTGAGCTGAACTCCGAA -CTGGCGAAAGCGATGAAAGTTGACGCCCAGCGCGGTGCTTTCGTAAGCCAGGTTCTGCCTAATTCCTCCG -CTGCAAAAGCGGGCATTAAAGCGGGTGATGTGATCACCTCACTGAACGGTAAGCCGATCAGCAGCTTTGC -CGCACTGCGTGCTCAGGTGGGTACTATGCCGGTAGGCAGCAAACTGACCCTGGGCTTACTGCGCGACGGT -AAGCAGGTTAACGTGAACCTGGAACTGCAGCAGAGCAGCCAGAATCAGGTTGATTCCAGCTCCATCTTCA -ACGGCATTGAAGGCGCTGAGATGAGCAACAAAGGCAAAGATCAGGGCGTGGTAGTGAACAACGTGAAAAC -GGGCACTCCGGCTGCGCAGATCGGCCTGAAGAAAGGTGATGTGATTATTGGCGCGAACCAGCAGGCAGTG -AAAAACATCGCTGAACTGCGTAAAGTTCTCGACAGCAAACCGTCTGTGCTGGCACTCAACATTCAGCGCG -GCGACAGCACCATCTACCTGTTAATGCAGTAATCTCCCTCAACCCCTTCCTGAAAACGGGAAGGGGTTCT -CCTTACAATCTGTGAACTTCACCACAACTCCATACATCTTCATCATCCTTTAGGCATTTGCACAATGCCG -TACGTTACGTACTTCCTTATGCTAAGCCGTGCATAACGGAGGACTTATGGCTGGCTGGCATCTTGATACC -AAAATGGCGCAGGATATCGTGGCACGTACCATGCGCATCATCGATACCAATATCAACGTAATGGATGCCC -GTGGGCGAATTATCGGCAGCGGCGATCGTGAGCGTATTGGTGAATTGCACGAAGGTGCATTGCTGGTACT -TTCACAGGGACGAGTCGTCGATATCGATGACGCGGTAGCACGTCATCTGCACGGTGTGCGGCAGGGGATT -AATCTACCGTTACGGCTGGAAGGTGAAATTGTCGGCGTAATTGGCCTGACAGGTGAACCAGAGAATCTGC -GTAAATATGGCGAACTGGTCTGCATGACGGCTGAAATGATGCTGGAACAGTCGCGGTTGATGCACTTGTT -GGCGCAGGATAGCCGTTTGCGGGAAGAACTGGTGATGAACCTGATTCAGGCAGAGGAGAATACTCCCGCA -CTTACTGAATGGGCGCAACGGCTGGGGATCGATCTCAATCAACCGCGAGTGGTGGCTATTGTTGAGGTCG -ACAGCGGTCAGCTTGGCGTGGACAGCGCAATGGCGGAGTTACAACAACTGCAAAACGCGCTGACTACGCC -CGAGCGTAATAATCTGGTGGCGATTGTCTCGCTAACCGAAATGGTGGTGTTGAAACCGGCGTTGAACTCT -TTTGGGCGCTGGGATGCAGAAGATCATCGTAAGCGAGTTGAACAACTGATTACCCGCATGAAAGAGTACG -GCCAGCTGCGTTTTCGCGTTTCACTGGGCAACTATTTTACCGGTCCTGGCAGTATTGCCCGATCCTATCG -TACGGCGAAAACGACGATGGTGGTGGGTAAACAGCGGATGCCAGAAAGTCGCTGCTATTTTTATCAGGAT -CTGATGTTACCTGTGTTACTCGACAGTTTGCGTGGCGACTGGCAGGCCAACGAACTGGCGCGACCGCTGG -CGCGGCTGAAAACGATGGACAATAACGGCTTGCTGCGACGAACGCTGGCGGCGTGGTTTCGCCACAATGT -GCAACCGCTGGCAACGTCAAAGGCGTTGTTTATTCATCGTAATACCCTGGAGTATCGGCTTAATCGTATA -TCGGAACTGACCGGGCTTGATTTGGGCAATTTTGATGACAGGTTGCTGCTGTATGTGGCGTTACAACTGG -ATGAAGAGCGGTAGGTTATGCGTTAAGGTTGAGGCGGCGCTGGCTCATTCCCCTCAGCCCGAAGGGTAGA -GGGGAATGCCCGAATTAACCGTCAGTTCGGGATTATTTACGCGTTAGTTTTTCCAGATCGGCTTCAATCT -CGCTGATCTTATTGGTTACGACTGACTCCAGGTGACGTAAGTCGTCGAGGATCTTACGCTTAAGATCAAC -TTCGCTGCGGTCACGCTGGCAGATTTGATCAAGCTCATCAATGATATACCGTAGATTCGGGCTGATTTCC -TGGACTTCTTTATAACCCTGACCCACACCATCAGCGACGACCGTTTTACGCTGACGCGGATATTTAAACT -TAACGCTCTTGGCGAAAAACTCGCCTTTGTCTTTCTGGAAATAGATTTTCAGAATATCGTTGTTGGCTTC -CTGCCGGAGGCTGTAACGATCAATTTCTTCAGGATTGGTAATACCCAGACTTTTCAGATTGTCGTACATA -GCGTTACCTCAAAATGAGTCAGTAAATTGTGCTTATTTTAGCATTTGGCCTGGCCCGCCCGGCTCGACTG -TGATCGCAGAAAGCCTTTTTCTTCCAGACTTCTATCATGGCGTAAAAATCAAAAAATTACCTGCTTTATT -CTGGTGATAAAATTCACGATCTACACCAGTTCCAGCATCGTTACTTCCGGGCGGCAGTTCAGACGCAAAC -CATACAAACTGCCCACGCCACGGGTTGTGTAGATGTGTCTTTCGCCAAAGGCATTTAATCCGGCGACGTA -ACGTTTATCTTCGACAGGGGCAAAAGGTTCACCAACCAACGGTACGCGCAGTTGCCCGCCGTGAGTATGG -CCGCACAGCATCAGATCCCAGGGTTCATCACGCATGACTTCTTTGCTGTCGGGATTATGCGCCAGCACCA -GTCTTGGCAGATTGGCTTCGCTGGCGGGAGGCGGTTTGCATTGTCCGGCCCATAAGTCACCAGTGCCTAC -CAGTTCGAATTGCCTGTTCGGCGTGGCGATCACCGTAGCCTGGTTAAACAACACCGTGATGCCCGCTGAT -TTCAACGTCTCGCCAATTAAGTGATTTTTTTCTGTACCAACAGGGCGATCGTGGTTGCCGAAGCAGGCAA -ACGTCGGCGCACATTCGGCAAGGGGGGAGAGTACGTCACTAAACGCCGAAAAATTCAGCGACATATCAAA -TAATACGTAATCGCCGCCCAGTAATATCAAATCGGGCTTTTGTTCTATGCCAAGAGCAATCGCGTCAGAA -ATCAGGCTTAAAGGAACAAAACGAGAGTAATGGAGATCGGCCAGAAAAAGAATTTTGAATGGTGCTGCGT -TGTCTTTAAAAAAGGCGAGGCGGTGACGGATTAATTCAAACCAGCCTGGCTCACAGTAATGCATATAACC -GAAACCTGAGCTCGTGGCTATCGTCGCGGCAGTAGCCTGCAAAAATCGGCGGCGTGAAATCATCGCTCAT -CCCTGCAAAAAAATCGGGCAGCGTCGTGCTGCCCGTGTGCATACTTTTAGTCGATGGTACGCAGCAGTTC -GTTAATGCCGACTTTGCCGCGAGTTTTCGCGTCAACTTTCTTAACGATAACCGCACAGTAGAGGCTGTAT -TTGCCATCTTTTGACGGCAGATTACCTGAAACAACCACAGACCCCGCCGGAACGCGACCGTAGTGGATTT -CGCCGGTTTCACGGTCGTAAATACGGGTGCTCTGACCAATGTATACGCCCATGGAAATGACGGAACCTTC -TTCGACAATCACCCCTTCAACCACTTCAGAGCGCGCGCCGATGAAGCAATTATCTTCAATGATGGTTGGG -TTAGCCTGCAGCGGTTCCAGCACGCCGCCGATGCCCACGCCACCGGAAAGGTGGACGTTTTTACCAATCT -GCGCACAAGAACCGACGGTCGCCCAGGTATCAACCATGGTGCCTTCATCAACATATGCGCCGATGTTGAC -GTAAGACGGCATCAGCACGGTGTTACGGGCAATAAACGCACCCTGACGTACCGCCGCTGGTGGCACAACG -CGGAAGCCTTCTTTCTGGAAACGTGCTTCGTCGTAGTCGGCGAATTTCATCGGCACTTTGTCGAAGTAGC -GGCTTTCTGCCCCTTCGATCACCTGATTATCATTAATACGGAAAGAGAGCAGCACCGCTTTTTTCAACCA -CTGATGCGTCACCCACTGACCGTCAATTTTTTCCGCTACACGCAGTGCGCCGGAATCCAGCAGGGCGATC -ACCTGATTTACCGCTTCGCGGGTAACGGTGTCTGCATTGGCTGGCGTGATCTCGGCACGGCGTTCAAAAG -CGGTTTCAATAATGTTCTGTAACTGCTGCATTGTTAAACTCTTTTCATATCAGTAAACACATCACCCTTT -ATCGTTTGGATTGAGGGCCTCTGTCAACCGCTGATGCACTTCCTGCTGCAACTCGTTATTAAGCGCACGC -CGGTCAGCGGTGGCAATTATGAATAAATCTTCTACTCGCTCGCCAATGGTTGTAATTCGGGCACCATGAA -GCGAAATTCCCAGATCGGCAAAAATTTTCCCGACTCGCGCCAGCAGTCCAGGTTGGTCGAGGGCGATCAG -TTCGAGGAACGATTTGCGGTCGGTATGGGTCGGCAAAAACGTTACTTCGGTTTCAACAGTAAAATGGCGT -AATTTGGCGGGTTGGCGACGGGGCTGCGGTGGCTGCCAGCTACTTTGCGTCAGTACTTGCTCCAGACCAA -ACCGAATAACCTCATGACGATCTGCGGACAGCGGGTTGCCATCGGGTTCCAGCACGATAAAGGTATCCAT -CGCCATACCGTCGCGAGTGGTGAAAATTTGTGCGTCGTGAACACTTAAATTGCGGCGGTCTAATTCGGCA -CAGACGGCGGCAAACAGATAAGGGCGGTCCGGGCTCCAGATAAAAATCTCGGTGCCTCCACGCGTAGCCT -GCGGGCTAAGCAATACCAGCGGTTTGCTTAAATCATGCTGTAATAAATGGCGGGCATGCCAGGCCAGTTG -ATTTGGGCTATGGCGGACAAAATAGTTAGCACGACAGCGTGACCAAATTTGGTGCAGCGCCTCTTCGTCG -ATGTTATCCATGCGCAGTAGTGCCAGTGCCTGGAGTTGGTGATGGCGAACCCGTTCGCGCATATCCGGCG -TGTTTTGCATTCCGCGTCGTAGCTGCTTTTCGGTGGCAAAGTAGAGCTCACGCAACAGACTTTGCTTCCA -GCTATTCCACAGCGTTTCGTTGGTGGCGCAAATGTCAGCCACAGTCAGGCATACCAGATAGCGCAGACGA -TTTTCCGTTTGCACTTCTTCGGCAAACTGCTTGATGACTTCCGGGTCCTGAATATCGCGGCGTTGGGCGG -TCACCGACATCAACAGGTGCTGGCGAACCAGCCAGGCGACCAGCTGTGTTTCGCGTGAGTTCAGCCCGTG -GAGTTCGGCAAAATGCACTACATCCTGAGCACCGAGAATGGAGTGGTCGCCGCCGCGTCCTTTGGCGATA -TCGTGAAACAGCGCGGCGATGAAAATCAGCTCAGTTGACGGCAGGCGCGGCCAGACGTCCACACACAACG -GATGGCGCTGGCGCGTTTCTTCACTGGCAAAACTCTCCAGTTTCAGCATCACGCGGATAGTATGTTCATC -CACCGTGTAGGCGTGGAACAGATCAAACTGCATCTGCCCGACGATATGCGACCATTGCGGCATATACGCG -CCGAGCACGCTATGGCGATGCATTGGCAATAGCCCGCGCCGCACCGCTCCGGGGTGACGCAGAATGCTCA -AAAACAGTTTTCGTGCTTCCGGAATATTACACAGCGGTTGTTGCAGATGGCGACGGGCATGGCGTAACTG -GCGCAGCGTGGTGGAGTAAATGCCGGTGATCGCACTGTTGTGCACCATGGTGTAGAACATACGCAAGATG -GCTTCCGGCTGGCGCATAAATAGTGTTTCATCACGCAGGTCGATTAGCGTACCGCGTAGCTGAAACTCAT -CGTCGATTGGACGTGGTTTTTCGTCGGCGGGAAGGGCGAGGATGGCTTCATCGAACAGTTGCAGCAGCAT -CTGGTTGAGTTCACTGACGCGGCGTGTAACGCGGAAGTAATCCTTCATCATCCGCTCGACCGGTTCGTTA -CCTTCACCACTGTAATTCAGACGCTGGGCGACGCTAAGCTGGCGATCGAATAACAGGCGATTATCGTAAC -GGCTGACGACCAGATGCAGGGCAAAGCGAATACGCCACAATATATGCAGACATTCGTTTAATTCCGCCCG -CTCCGCTGAGGTTAAGAAGCCAAACCCGACCATTTCATCCAGCGATGTTGCGCCAAAATGACGGCGGGCC -ACCCATTGCAGAGTGTGGATATCGCGCAAGCCGCCAGGGCTGCTTTTGATGTCTGGTTCAAGGTTGTAGC -TGGTGCCATGGTAACGCTGATGGCGCTGGTTCTGTTCTTCAACTTTCGCCGCGTAGAACTTGTCGGAAGG -CCAGAATCCTTCGCTGAAAATATGTTTTTGCAGTTCGAGGAACAGCGCAACATCGCCAATTAATAAGCGG -GATTCGATTAAATTGGTGGCGACGGTTAAATCCGATAACCCTTCCAGCATGCACTCTTCAAGCGTGCGCA -CGCTATGACCGACTTCCAGCTTTACATCCCAGAGCAGCGTTAACAGCTCGCCCACTTTTTGCGCCTGATC -GTCCGGGAGCTTTTTACGGCTTAAAATCAGTAAATCGACGTCTGAAAGTGGATGCAGCTCGCCACGACCG -TAGCCACCGACGGCGACCAATGCCAGGTCGGCAATCTGGCTGAATCCCGCTTCAATCCATAATCGTTGCA -GGAGCTGGTCGATAAACTCGGTGCGCGCCTCAATCAACTGTTCTGCAGAGATCCCATTGTCAAAGGCATC -ACCCAGCCAACGCTGGAAAGTATCGATATGGGCTTTTATCCCACCGACGGTTAATTCATCACGGGGCCAG -ACGCATGGATTTTGCGGTTGACCGGGCAGGGTGGGGAGAGCGGTGTTTGCGTACTGTTCTGGAAGGGTAT -TCATTGTGCGCCACCCATAAGATTAAATTATCGCATTAAAAAAGCCGGCATTCGCCGGCTTCATCTTATT -CGTCGTGCGAGATTATCGCCGGGATGGTGTCATCCTTGCGTAGCGTCAGAATTTCGCAGCCGTTATCAGT -CACCACAATAGTATGCTCATATTGTGCAGACAAGCTGCGATCTTTGGTTTTTACCGTCCAGCCATCTTTC -ATGGTGCGGATCTCTTTTTTACCCGCGTTGACCATTGGCTCGATGGTGAACGTCATCCCAGGTTTCAGTA -CGACGTTGGTTTCACGGGAGTCATAGTGCAGCACCTGCGGTTCTTCATGGAAGCCGCGACCAATACCGTG -TCCGCAATATTCACGAACGACGGAGAAGCCTTCTGCTTCGACAAATTTCTGAATCGCCGCACCGATTTCG -CGCAGATTAATGCCTGGTTTTACCATGCGTAGCGCCAGGTACAGGCTTTCTTGCGTGATGCGGCACAGAC -GTTCGCCCATGATGGTCGGCTTACCGACGATAAACATTTTCGAGGTATCGCCGTGGAAACCATCTTTGAT -TACGGTGACATCAATGTTAACGATATCGCCATCTTTCAGCAGCTTAGCATCGTCCGGGATACCGTGGCAC -ACCACTTCATTAATAGAGATGCAAACGGATTTCGGATAGCCGTGATAGCCGAGGCAGGCAGAAACCGCGT -GTTGTTCATTAACAATGTAATCATTACAGATGCGATCCAGCTCGCCGGTGCTGACGCCCGGTTTAACATA -CGGTTCGATCATCTCCAGCACTTCGGCAGCCAGTCGGCCAGCGACGCGCATTTTTTCGATATCTTCTGGG -GTCTTGATTGAGATAGCCATTAATTCTGTCCATCAGCGTCGGTGATACCGACAATATATATGTAAGTGCC -GTCAATGGTATCACACCCGGGCAAATTGAGAATCATTCTGAATTTCGCCAAACGTGCCACTGAAGGTTTT -CTATAATAGAAAATTCGACGTCTGATGCTGTACACAGCGCCAACAATTATTGGTGTCCACGACGTATTTG -TGGTATAAAGCGCGCCGGACTTCCGATCCATTTCGTATACACAGACTGGACGGAAGCGACAATCTCACTT -TGTGTAACAACACACACGTATCGGCACATATTCCGGGGTGCCCTTTGGGGTCGGTAATATGGGATACGTG -GAGGCATAACCCCAACTTTTATATAGAGGTTTTAATCATGGCAACTGTTTCCATGCGCGACATGCTCAAG -GCTGGTGTTCACTTCGGTCACCAGACCCGTTACTGGAACCCGAAAATGAAGCCGTTCATCTTCGGTGCGC -GTAACAAAGTTCACATCATCAACCTTGAGAAAACTGTACCGATGTTCAACGAAGCTCTGGCTGAACTGAA -CAAGATTGCTTCTCGCAAAGGTAAAATCCTTTTCGTTGGTACTAAACGCGCTGCAAGCGAAGCGGTGAAA -GACGCTGCTCTGAGCTGCGACCAGTTCTTCGTGAACCATCGCTGGCTGGGCGGTATGCTGACTAACTGGA -AAACCGTTCGTCAGTCCATCAAACGTCTGAAAGACCTGGAAACTCAGTCTCAGGACGGTACTTTCGACAA -GCTGACCAAGAAAGAAGCGCTGATGCGCACTCGTGAGCTGGAGAAACTGGAAAACAGCCTGGGCGGTATC -AAAGACATGGGCGGTCTGCCGGACGCTCTGTTTGTAATCGATGCTGACCACGAACACATTGCTATCAAAG -AAGCAAACAACCTGGGTATTCCGGTATTTGCTATCGTTGATACCAACTCTGATCCGGACGGTGTTGACTT -CGTTATCCCGGGTAACGACGACGCAATCCGTGCTGTGACCCTGTACCTGGGCGCTGTTGCTGCAACCGTA -CGTGAAGGCCGTTCTCAGGATCTGGCTTCCCAGGCGGAAGAAAGCTTCGTAGAAGCTGAGTAATAAGGCT -TGATAACTCCCCCAAAATAGTTCGAGTTGCAGAAAGGCGGCAAGCTCGAGAATTCCCGGGAGCTTACATC -AGTAAGTGACCGGGATGAGCGAGCGAAGATAACGCATCTGCGGCGCGAAATATGAAGGGGGAGAGCCCTT -ATAGACCAGGTAGTACACGTTTGGTTAGGGGGCCTGCATATGGCCCCCTTTTTCACTTTTATATCTGTGC -GGTTTAATGCCGGGCAGATCACATCTCCGAGGATTTTAGAATGGCTGAAATTACCGCATCCCTGGTAAAA -GAGCTGCGTGAGCGTACTGGCGCAGGCATGATGGATTGCAAAAAAGCACTGACTGAAGCTAACGGCGACA -TCGAGCTGGCAATCGAAAACATGCGTAAGTCCGGTGCTATTAAAGCAGCGAAAAAAGCAGGCAACGTTGC -TGCTGACGGCGTGATCAAAACCAAAATCGACGGCAACTACGGCATCATTCTGGAAGTTAACTGCCAGACT -GACTTCGTTGCAAAAGACGCTGGTTTCCAGGCGTTCGCAGACAAAGTTCTGGACGCAGCTGTTGCTGGCA -AAATCACTGACGTTGAAGTTCTGAAAGCACAGTTCGAAGAAGAACGTGTTGCGCTGGTAGCGAAAATTGG -TGAAAACATCAACATTCGCCGCGTTGCTGCGCTGGAAGGCGACGTTCTGGGTTCTTATCAGCACGGTGCG -CGTATCGGCGTTCTGGTTGCTGCTAAAGGCGCTGACGAAGAGCTGGTTAAACACATCGCTATGCACGTTG -CTGCAAGCAAGCCAGAATTCATCAAACCGGAAGACGTATCCGCTGAAGTGGTAGAAAAAGAATACCAGGT -ACAGCTGGATATCGCGATGCAGTCTGGTAAGCCGAAAGAAATCGCAGAGAAAATGGTTGAAGGCCGCATG -AAGAAATTCACCGGCGAAGTTTCTCTGACCGGTCAGCCGTTCGTTATGGAACCAAGCAAAACTGTTGGTC -AGCTGCTGAAAGAGCATAACGCTGAAGTGACTGGCTTCATCCGCTTCGAAGTGGGTGAAGGCATCGAGAA -AGTTGAGACTGACTTTGCAGCAGAAGTTGCTGCGATGTCCAAGCAGTCTTAATTATCAAAAAGGAGCCGC -CTGAGGGCGGCTTCTTTTTGTGCCCATCTTGTAAATTCAGCTAACCCTTGTGGGGCTGCGCTGAAAAGCG -ACGTACAATGTCGCTAGTATTAATTCATTTCAATCGTTGACAGTCTCAGGAAAGAAACATGGCTACCAAT -GCAAAACCCGTCTATAAACGCATTCTGCTTAAGTTGAGTGGCGAAGCTCTGCAGGGCACTGAAGGCTTCG -GTATTGATGCAAGCATACTGGATCGTATGGCTCAGGAAATCAAAGAACTGGTTGAACTGGGTATTCAGGT -TGGTGTGGTGATTGGTGGGGGTAACCTGTTCCGTGGCGCTGGTCTGGCGAAAGCGGGTATGAACCGCGTT -GTGGGCGACCACATGGGGATGCTGGCGACCGTAATGAACGGCCTGGCAATGCGTGATGCACTGCACCGCG -CCTATGTGAACGCTCGTCTGATGTCCGCTATTCCATTGAATGGCGTGTGCGACAGCTACAGCTGGGCAGA -AGCTATCAGCCTGTTGCGCAACAACCGTGTGGTGATCCTCTCCGCCGGTACAGGTAACCCGTTCTTTACC -ACCGACTCAGCAGCTTGCCTGCGTGGTATCGAAATTGAAGCCGATGTGGTGCTGAAAGCAACCAAAGTTG -ACGGCGTGTTTACCGCTGATCCGGCGAAAGATCCAACCGCAACCATGTACGAGCAACTGACTTACAGCGA -AGTGCTGGAAAAAGAGCTGAAAGTCATGGACCTGGCGGCCTTCACGCTGGCTCGTGACCATAAATTACCG -ATTCGTGTTTTCAATATGAACAAACCGGGTGCGCTGCGCCGTGTGGTAATGGGTGAAAAAGAAGGGACTT -TAATCACGGAATAATTCCCGTGATGGATAAATAAGGGTAAGATTCCGCGTAAGTATCGCGGGGGCGTAAG -TCTGGTTATAAGGCGTTATTGTTGCAGGCAGTTTGGTCACGGCCAGCGCGCAGCAACCGGAGCGTACAAA -AGTACGTGAGGATGGCGAGCACTGCCCGGGGCCAAAATGGCAAATAAAATAGCCTAATAATCCAGACGAT -TACCCGTAATATGTTTAATCAGGGCTATACTTAGCACACTTCCACTGTGTGTGACTGTCTGGTCTGACTG -AGACAAGTTTTCAAGGATTCGTAACGTGATTAGCGATATCAGAAAAGATGCTGAAGTACGCATGGACAAA -TGCGTAGAAGCGTTCAAAACCCAAATCAGCAAAATACGCACGGGTCGTGCTTCTCCCAGCCTGCTGGATG -GCATTGTCGTGGAATATTACGGCACGCCGACGCCGCTGCGTCAGCTGGCAAGCGTAACGGTAGAAGATTC -CCGTACACTGAAAATCAACGTGTTTGATCGTTCAATGTCTCCGGCCGTTGAAAAAGCGATTATGGCGTCC -GATCTTGGCCTGAACCCGAACTCTGCGGGTAGCGACATCCGTGTTCCGCTGCCGCCGCTGACGGAAGAAC -GTCGTAAAGATCTGACCAAAATCGTTCGTGGTGAAGCAGAACAAGCGCGTGTTGCAGTACGTAACGTGCG -TCGTGACGCGAACGACAAAGTGAAAGCACTGTTGAAAGATAAAGAGATCAGCGAAGACGACGATCGCCGT -TCTCAGGACGATGTACAGAAACTGACTGATGCTGCAATCAAGAAAATTGAAGCGGCGCTGGCAGACAAAG -AAGCAGAACTGATGCAGTTCTGATTTCTTGAACGACAAAAACGCCGCTCAGTAGATCCTTGCGGATCGGC -TGGCGGCGTTTTGCTTTTTATTCTGTCTCAACTCTGGATGTTTCATGAAGCAACTCACCATTCTGGGCTC -GACCGGCTCGATTGGTTGCAGCACGCTGGACGTGGTGCGCCATAATCCCGAACACTTCCGCGTAGTTGCG -CTGGTGGCAGGCAAAAATGTCACTCGCATGGTAGAACAGTGCCTGGAATTCTCTCCCCGCTATGCCGTAA -TGGACGATGAAGCGAGTGCGAAACTTCTTAAAACGATGCTACAGCAACAGGGTAGCCGCACCGAAGTCTT -AAGTGGGCAACAAGCCGCTTGCGATATGGCAGCGCTTGAGGATGTTGATCAGGTGATGGCAGCCATTGTT -GGCGCTGCTGGGCTGTTACCTACGCTTGCTGCGATCCGCGCGGGTAAAACCATTTTGCTGGCCAATAAAG -AATCACTGGTTACCTGCGGACGTCTGTTTATGGACGCCGTAAAGCAGAGCAAAGCGCAATTGTTACCGGT -CGATAGCGAACATAACGCCATTTTTCAGAGTTTACCGCAACCTATCCAGCATAATCTGGGATACGCTGAC -CTTGAGCAAAATGGCGTGGTGTCCATTTTACTTACCGGGTCTGGTGGCCCTTTCCGTGAGACGCCATTGC -GCGATTTGGCAACAATGACGCCGGATCAAGCCTGCCGTCATCCGAACTGGTCGATGGGGCGTAAAATTTC -TGTCGATTCGGCTACCATGATGAACAAAGGTCTGGAATACATTGAAGCGCGTTGGCTGTTTAACGCCAGC -GCCAGCCAGATGGAAGTGCTGATTCACCCGCAGTCAGTGATTCACTCAATGGTGCGCTATCAGGACGGCA -GTGTTCTGGCGCAGCTGGGGGAACCGGATATGCGTACGCCAATTGCCCACACCATGGCATGGCCGAATCG -CGTGAACTCTGGCGTGAAGCCGCTCGATTTTTGCAAACTAAGTGCGTTGACATTTGCCGCACCGGATTAT -GATCGTTATCCATGCCTGAAACTGGCGATGGAGGCGTTCGAACAAGGCCAGGCAGCGACGACAGCATTGA -ATGCCGCAAACGAAATCACCGTTGCTGCTTTTCTTGCGCAACAAATCCGCTTTACGGATATCGCTGCGTT -GAATTTATCCGTACTGGAAAAAATGGATATGCGCGAACCACAATGTGTGGACGATGTGTTATCTGTTGAT -GCGAACGCGCGTGAAGTCGCCAGAAAAGAGGTGATGCGTCTCGCAAGCTGAGGATAATCCGGCTACAGAG -AGTCGCGCTATTTGTTAGCGTAGGGCTTCAGTGATATAGTCTGCGCCATCTGATCGTAAGTAGTTGGCTT -TATAAGGTCAGATATGCCGTGGTTTTACACGGCTTTTTTTTGTATAGGCTTCAGTATTCCTGAGTACCGT -AAACCCTGTCAGGGAATAAAAAACGCGTGATGTTGTCTGCTACTCAACCACTTAGCGAAAAATTGCCAGC -GCATGGCTGCCGTCATGTTGCGATCATTATGGACGGCAATGGCCGCTGGGCAAAAAAGCAAGGGAAGATT -CGTGCCTTTGGGCATAAAGCCGGGGCAAAATCCGTCCGCCGGGCTGTCTCTTTTGCGGCCAACAACGGTA -TTGAGGCGTTAACGCTGTATGCCTTTAGTAGTGAAAACTGGAACCGACCAGCGCAGGAAGTCAGTGCGTT -AATGGAACTGTTTGTGTGGGCGCTCGATAGCGAAGTAAAAAGTCTGCACCGACATAACGTGCGTCTGCGT -ATTATTGGCGATACCAGTCGCTTTAACTCGCGTTTGCAAGAACGTATTCGTAAATCTGAAGCGCTAACAG -CCGGGAATACCGGTCTGACGCTGAATATTGCGGCGAACTACGGTGGACGTTGGGATATAGTCCAGGGAGT -CAGGCAACTGGCTGAAAAGGTGCAGCAAGGAAACCTGCAACCAGATCAGATAGATGAAGAGATGCTAAAC -CAGCATGTCTGTATGCATGAACTGGCCCCTGTAGATTTAGTAATTAGGACTGGGGGGGAGCATCGCATTA -GTAACTTTTTGCTTTGGCAAATTGCCTATGCCGAACTTTACTTTACAGATGTTCTCTGGCCCGATTTCGA -TGAACAAGACTTTGAAGGGGCGTTAAATGCCTTTGCTAATCGAGAGCGTCGTTTCGGCGGCACCGAGCCC -GGTGATGAAACAGCCTGATGGGGGTCGCTTTTGCTGAAGTATCGCCTGATATCTGCTTTTGTGTTAATAC -CCGTCGTCATCGCGGCGTTGTTTCTGTTGCCGCCGGTGGGGTTCGCCATTGTAACGCTGGTGGTCTGCAT -GCTGGCAGCGTGGGAATGGGGACAGCTTAGCGGTTTTACCACTCGTTCGCAGCGAGTATGGTTGGCGGTG -TTATGCGGGTTATTGTTGGCGCTGATGCTTTTTCTGTTGCCGGAATATCACCGAAATATTCATCAACCGC -TGGTTGAAATCTCACTTTGGGCTTCGCTGGGTTGGTGGATTGTCGCGCTATTGCTGGTGCTGTTTTACCC -AGGTTCCGCAGCAATCTGGCGTAACTCTAAAACATTGCGCCTTATTTTTGGCGTGCTAACCATTGTTCCC -TTCTTCTGGGGCATGCTGGCGTTACGGGCCTGGCACTATGACGAGAATCATTACAGTGGCGCAATATGGC -TGCTCTATGTCATGATCCTGGTATGGGGCGCTGACTCCGGCGCATATATGTTTGGCAAATTGTTTGGTAA -ACATAAGCTGGCACCGAAGGTTTCTCCGGGTAAAACCTGGCAAGGCTTTATCGGTGGACTCGCTACTGCA -GCGGTAATCTCATGGGGTTATGGCATGTGGGCGAATCTCGACGTCGCTCCCGTCACCTTACTCATTTGCT -CTATTGTCGCAGCGTTAGCCTCAGTGCTCGGCGATCTGACCGAGAGTATGTTTAAGCGTGAAGCAGGAAT -TAAGGACAGCGGTCATTTAATTCCAGGACACGGTGGTATTTTAGATCGTATTGATAGCCTGACGGCTGCG -GTACCGGTCTTTGCTTGCTTGTTGTTACTGGTATTCAGGACGCTTTAACGGAAGGTAATATGCTGAGTTT -TCTCTGGGATTTGGCTTCGTTCATCGTTGCACTGGGTGTACTTATCACCGTGCATGAATTTGGTCATTTC -TGGGTTGCCCGGCGTTGTGGTGTTCGCGTTGAGCGTTTCTCAATAGGGTTTGGTAAGGCGCTCTGGCGGC -GAACTGATAAGCTCGGCACCGAATATGTTATCGCCCTGATCCCGTTGGGCGGTTATGTCAAAATGCTGGA -TGAGCGCGCAGAACCGGTCGTTCCGGAACTCCGCCACCATGCCTTCAATAATAAATCTGTCGGCCAACGA -GCGGCGATTATTGCCGCAGGTCCGGTTGCAAACTTCATTTTTGCTATCTTTGCCTACTGGCTGGTTTTTA -TTATTGGTGTGCCTGGCGTACGTCCGGTGGTTGGCGAAATAGCAGCCAATTCGATAGCTGCGGAAGCACA -AATTGCACCAGGTACGGAACTAAAAGCCGTAGATGGTATCGAAACGCCTGATTGGGATGCCGTGCGTTTG -CAGTTGGTCGATAAAATTGGCGATGAAAGCACCACCATTACAGTAGCGCCATTTGGCAGCGACCAACGGC -GGGATGTAAAGCTCGATTTACGTCACTGGGCGTTTGAGCCTGATAAAGAAGATCCGGTATCTTCGCTGGG -GATTCGTCCTCGTGGGCCGCAAATTGAACCTGTACTGGAAAATGTGCAGCCAAACTCGGCGGCAAGCAAG -GCAGGTTTGCAAGCAGGCGACAGGATCGTTAAAGTCGATGGTCAGCCCTTAACGCAGTGGGTGACCTTTG -TGATGCTTGTCCGGGATAACCCGGGTAAATCCTTAGCGTTAGAAATCGAAAGGCAGGGGAGTCCCTTGTC -TTTGACATTAATCCCGGAGAGTAAACCGGGTAATGGTAAAGCGATTGGTTTTGTCGGTATTGAGCCGAAA -GTCATTCCTTTGCCAGATGAGTATAAAGTTGTACGCCAGTATGGGCCGTTCAACGCCATCGTCGAAGCCA -CGGACAAAACGTGGCAGCTGATGAAGCTGACGGTCAGTATGCTGGGAAAATTGATCACCGGTGATGTGAA -ACTGAACAACCTCAGTGGGCCGATCTCTATCGCCAAGGGGGCTGGGATGACAGCGGAACTCGGGGTTGTT -TATTACCTGCCGTTTCTTGCGCTTATTAGCGTGAACTTAGGGATAATTAACCTGTTTCCGTTGCCCGTAC -TTGACGGGGGGCATCTGCTGTTCCTTGCGATCGAAAAGATCAAGGGCGGACCGGTATCCGAGCGGGTTCA -AGACTTTTGTTATCGCATTGGCTCGATTCTGCTGGTGCTGTTAATGGGGCTTGCACTTTTCAATGATTTC -TCTCGGTTATGAGAGTTAGTTAGGAAGAACGCATAATAACGATGGCGATGAAAAAGTTGCTCATAGCGTC -GCTGCTGTTTAGCAGCGCCACCGTATACGGTGCTGAAGGGTTCGTAGTGAAAGATATTCATTTCGAAGGC -CTTCAGCGTGTCGCCGTTGGTGCGGCCCTCCTCAGTATGCCGGTGCGCACAGGCGACACGGTTAATGATG -AAGATATCAGTAATACCATTCGCGCTCTGTTTGCTACCGGCAACTTTGAGGATGTTCGCGTCCTTCGTGA -TGGTGATACCCTTCTGGTTCAGGTAAAAGAACGTCCGACCATTGCCAGCATTACTTTCTCCGGTAACAAA -TCGGTGAAAGATGACATGCTGAAGCAAAACCTCGAGGCTTCTGGTGTGCGTGTGGGCGAATCCCTCGATC -GCACCACCATTGCCGATATCGAGAAAGGTCTGGAAGACTTCTACTACAGCGTCGGTAAATATAGCGCCAG -CGTAAAAGCTGTCGTGACCCCGCTGCCGCGCAACCGTGTTGACCTAAAACTGGTGTTCCAGGAAGGTGTG -TCAGCTGAAATCCAGCAAATTAACATTGTTGGTAACCATGCTTTCACCACCGACGAACTGATCTCTCATT -TCCAACTGCGTGACGAAGTGCCGTGGTGGAACGTGGTAGGCGATCGTAAATACCAGAAACAGAAACTGGC -GGGCGACCTTGAAACCCTGCGCAGCTACTATCTGGATCGCGGTTATGCCCGTTTCAACATCGACTCTACC -CAGGTCAGTCTGACGCCAGATAAAAAAGGTATTTACGTCACGGTGAACATCACCGAAGGCGATCAGTACA -AGCTTTCTGGCGTTGAAGTGAGCGGCAACCTTGCCGGGCACTCCGCTGAAATTGAGCAGCTGACTAAGAT -CGAGCCGGGTGAGCTGTATAACGGCACCAAAGTGACCAAGATGGAAGATGACATCAAAAAGCTTCTCGGT -CGCTATGGTTATGCCTATCCGCGCGTACAGTCGATGCCCGAAATTAACGATGCCGACAAAACCGTTAAAT -TACGTGTGAACGTTGATGCGGGTAACCGTTTCTACGTGCGTAAGATCCGTTTTGAAGGTAACGATACCTC -GAAAGATGCCGTCCTGCGTCGCGAAATGCGTCAGATGGAAGGTGCATGGCTGGGGAGCGATCTGGTCGAT -CAGGGTAAGGAGCGTCTGAATCGTCTGGGCTTCTTTGAAACTGTCGATACCGATACCCAACGTGTTCCGG -GTAGCCCGGACCAGGTTGATGTCGTCTACAAGGTAAAAGAGCGCAACACCGGTAGCTTCAACTTTGGTAT -TGGTTACGGTACTGAAAGTGGCGTGAGCTTCCAGGCTGGTGTGCAGCAGGATAACTGGTTAGGTACAGGT -TATGCTGTTGGTATCAACGGGACCAAAAACGATTACCAGACCTATGCTGAACTGTCGGTAACCAACCCGT -ACTTCACCGTAGATGGCGTAAGCCTCGGTGGTCGTCTCTTCTATAATGACTTCCAGGCAGATGACGCCGA -CCTGTCCGACTATACCAACAAGAGTTATGGTACAGACGTGACGTTGGGCTTCCCGATTAACGAATATAAC -TCGCTGCGTGCAGGTCTGGGTTATGTACATAACTCCCTGTCCAACATGCAGCCTCAGGTTGCGATGTGGC -GTTATCTGTACTCTATGGGTGAACATCCGAGCACCTCTGATCAGGATAACAGCTTCAAAACGGACGACTT -CACGTTCAACTATGGTTGGACCTATAACAAGCTTGACCGTGGTTACTTCCCGACAGATGGTTCACGTGTC -AACCTGACCGGTAAAGTGACCATTCCTGGATCGGATAACGAATACTACAAAGTGACGTTAGACACGGCGA -CTTATGTGCCGATCGATGACGATCACAAATGGGTTGTTCTGGGGCGTACCCGCTGGGGTTATGGTGATGG -TTTAGGCGGCAAAGAGATGCCGTTCTACGAGAACTTCTATGCCGGTGGTTCCAGCACCGTGCGTGGCTTC -CAGTCCAATACCATTGGTCCGAAAGCAGTTTACTTCCCGCATCAGGCCAGTAATTATGATCCGGACTATG -ATTACGAATGTGCGACTCAGGACGGCGCGAAAGACCTGTGTAAATCGGATGATGCTGTAGGCGGTAACGC -CATGGCGGTTGCCAGCCTCGAGTTCATCACCCCGACGCCGTTTATTAGCGATAAGTATGCTAACTCGGTT -CGTACTTCCTTCTTCTGGGATATGGGTACCGTTTGGGATACAAACTGGGATTCCAGCCAATATTCTGGAT -ATCCGGACTATAGTGATCCAAGCAATATCCGTATGTCTGCGGGTATCGCATTACAATGGATGTCCCCATT -GGGGCCGTTGGTGTTCTCCTACGCCCAGCCGTTCAAAAAGTACGATGGAGACAAGGCAGAACAGTTCCAG -TTTAACATCGGTAAAACCTGGTAAGTGTTCTCCACAAAGGAATGTAGTGGTAGTGTAGCGATGACTTTAG -GCGATCAATATAAGATCGCCGGGCCACGCAAAGAACTGCACCCTCCGGTGCAAATGGGATGGTAAGGAGT -TTATTGTGAAAAAGTGGTTATTAGCTGCAGGTCTCGGTTTAGCACTGGCAACTTCTGCTCAGGCGGCTGA -CAAAATTGCAATCGTCAACATGGGCAGCCTGTTCCAGCAGGTAGCGCAGAAAACCGGTGTTTCTAACACG -CTGGAAAATGAGTTCAAAGGCCGTGCCAGCGAACTGCAGCGTATGGAAACCGATCTGCAGGCTAAAATGA -AAAAGCTGCAGTCCATGAAAGCGGGCAGCGATCGCACTAAGCTGGAAAAAGACGTGATGGCTCAGCGCCA -GACTTTTGCTCAGAAAGCGCAGGCTTTTGAGCAGGATCGCGCACGTCGTTCCAACGAAGAACGCGGCAAA -CTGGTTACTCGTATCCAGACTGCTGTGAAATCCGTTGCCAACAGCCAGGATATCGATCTGGTTGTTGATG -CAAACGCCGTTGCTTACAACAGCAGCGATGTAAAAGACATCACTGCCGACGTACTGAAACAGGTTAAATA -AGTAATGCCTTCAATTCGACTGGCTGATTTAGCGCAGCAGTTGGATGCAGAACTACACGGTGATGGCGAT -ATCGTCATCACCGGCGTTGCGTCCATGCAATCTGCACAAACAGGTCACATTACGTTCATGGTTAACCCAA -AATACCGTGAGCATTTAGGCTTGTGCCAGGCGTCCGCGGTTGTCATGACCCAGGACGATCTTCCTTTCGC -GAAAAGTGCCGCACTGGTAGTGAAGAATCCCTACCTGACTTACGCGCGCATGGCGCAAATTTTAGATACC -ACGCCGCAGCCCGCGCAGAACATTGCACCCAGTGCGGTGATCGACGCGACGGCGAAGCTGGGTAACAACG -TATCGATTGGCGCTAACGCGGTGATTGAGTCCGGCGTTGAACTGGGCGATAACGTGATTATCGGTGCCGG -TTGCTTCGTAGGTAAAAACAGCAAAATCGGTGCAGGTTCGCGTCTCTGGGCGAACGTAACCATTTACCAT -GAGATCCAGATCGGTCAGAATTGCCTGATCCAGTCCGGAACAGTGGTAGGCGCAGACGGCTTTGGTTATG -CCAACGATCGTGGTAACTGGGTGAAGATCCCACAGATTGGTCGCGTAATTATTGGCGATCGCGTGGAGAT -CGGTGCCTGCACAACCATCGATCGCGGCGCGCTGGATGACACTATTATTGGCAATGGCGTGATCATTGAT -AACCAGTGCCAGATTGCACATAACGTCGTGATTGGCGACAATACGGCGGTTGCCGGTGGCGTCATTATGG -CGGGCAGCCTGAAAATTGGTCGTTACTGCATGATCGGCGGAGCCAGCGTAATCAACGGGCATATGGAAAT -ATGCGACAAAGTGACGGTTACGGGCATGGGTATGGTGATGCGTCCCATCACTGAACCAGGCGTCTATTCC -TCAGGCATTCCGCTGCAACCCAACAAAGTCTGGCGCAAAACCGCTGCACTGGTGATGAACATTGATGACA -TGAGCAAGCGTCTGAAATCGCTTGAGCGCAAGGTTAATCAACAAGACTAACGTTCCATCTTTTGTTCGCC -AAACTTTACGGCCTGTCTCATTCTTACGATTGCGGCAGGCCGTGTTATTATTGTCGTTTCTTATATTTTG -ACAGGAAGAGTATCTTGACTACTAACACTCATACTCTGCAGATTGAAGAGATTTTAGAACTTCTGCCGCA -CCGTTTCCCGTTCTTACTGGTGGATCGCGTGCTGGATTTTGAAGAAGGTCGTTTTCTGCGCGCAGTAAAA -AATGTCTCTGTCAATGAGCCATTCTTCCAGGGCCATTTCCCTGGAAAACCGATTTTCCCGGGTGTGCTGA -TTCTGGAAGCAATGGCACAGGCAACAGGTATTCTGGCGTTTAAAAGCGTAGGAAAACTGGAACCGGGTGA -GCTGTACTACTTCGCTGGTATTGACGAAGCGCGCTTCAAGCGCCCGGTCGTGCCTGGCGATCAAATGATC -ATGGAAGTCACTTTCGAAAAAACGCGCCGCGGCCTGACCCGTTTTAAAGGGGTTGCTCTGGTCGATGGTA -AAGTAGTTTGCGAAGCAACGATGATGTGTGCTCGTAGCCGGGAGGCCTGATACGTGATTGATAAATCCGC -CTTTGTGCATCCAACCGCCATTGTGGAAGAGGGCGCGTCAATTGGCGCGAACGCACACATTGGTCCTTTT -TGTATCGTTGGACCCCATGTCGAAATTGGTGAGGGTACCGTACTGAAATCTCACGTTGTCGTGAATGGTC -ATACTAAAATTGGCCGCGATAATGAGATTTATCAGTTCGCCTCCATCGGCGAAGTTAACCAGGATCTGAA -ATATGCTGGCGAACCGACCCGTGTGGAAATCGGCGATCGTAACCGCATTCGCGAAAGCGTCACCATTCAT -CGTGGCACAGTCCAGGGCGGTGGATTGACGAAGGTGGGCAGCGACAACTTACTGATGATCAACGCGCACA -TTGCGCACGATTGTACGGTAGGTAACCGCTGTATTCTCGCCAACAACGCAACGCTGGCGGGTCACGTATC -GGTTGACGACTTCGCGATCATCGGCGGCATGACCGCAGTCCATCAGTTCTGCATCATTGGTGCGCACGTG -ATGGTTGGCGGCTGCTCCGGTGTGGCGCAGGACGTCCCTCCTTATGTCATTGCGCAGGGTAACCACGCAA -CGCCGTTCGGTGTCAATATCGAAGGGCTGAAGCGCCGCGGATTCAGCCGTGAGGCGATTACCGCTATCCG -CAATGCGTATAAGCTGATTTATCGTAGCGGTAAAACGCTCGATGAAGTGAAACCGGAAATTGCTGAACTG -GCGGAAACATATCCGGAAGTGAAAGCCTTTACCGATTTCTTTGCACGCTCAACGCGCGGTCTGATTCGTT -AATGACTGAACAGCGTCCATTAACGATTGCCCTGGTCGCCGGAGAAACCTCCGGCGATATCCTGGGGGCC -GGTTTAATCCGCGCTCTGAAAGAACATGTGCCCAACGCCCGCTTTGTTGGTGTTGCCGGGCCACGAATGC -AGGCTGAAGGCTGCGAAGCCTGGTACGAAATGGAAGAACTGGCGGTGATGGGCATTGTTGAAGTGCTCGG -TCGTCTGCGTCGCTTACTGCATATTCGTGCCGATCTGACAAAGCGTTTTGGCGAACTGAAGCCAGATGTT -TTTGTTGGTATTGATGCGCCTGACTTCAATATTACTCTTGAAGGTAACCTCAAAAAGCAGGGTATCAAAA -CCATTCATTACGTCAGTCCGTCAGTCTGGGCGTGGCGACAGAAACGTGTTTTCAAAATAGGCAGAGCCAC -CGATCTGGTGCTCGCATTTCTGCCTTTCGAAAAAGCGTTTTATGACAAATACAACGTACCGTGCCGCTTT -ATCGGTCATACCATGGCTGATGCCATGCCATTAGATCCAGATAAAAATGCCGCCCGTGATGTGCTGGGGA -TCCCTCACGATGCCCACTGCCTGGCGTTGCTACCGGGGAGCCGTGGTGCAGAAGTTGAAATGCTTAGTGC -CGATTTCCTGAAAACGGCCCAGCTTTTGCGCCAGACATATCCGGATCTCGAAATCGTGGTGCCACTGGTG -AATGCCAAACGCCGCGAGCAGTTTGAACGCATCAAAGCTGAAGTCGCGCCAGACCTTTCAGTTCATTTGC -TGGATGGGATGGGCCGTGAGGCGATGGTCGCCAGCGATGCGGCGCTACTGGCGTCGGGTACGGCAGCCCT -GGAGTGTATGCTGGCGAAATGCCCGATGGTGGTGGGATATCGCATGAAGCCTTTTACCTTCTGGTTGGCG -AAGCGGCTGGTGAAAACTGATTATGTCTCGCTGCCAAATCTGCTGGCGGGCAGAGAGTTAGTCAAAGAAT -TATTGCAGGAAGAGTGTGAGCCGCAAAAACTGGCTGCGGCGCTGTTACCGCTGTTGGCGAACGGGAAAAC -CAGCCACGCGATGCACGATACCTTCCGTGAACTGCATCAGCAGATCCGCTGCAATGCCGATGAGCAGGCG -GCACAAGCCGTTCTGGAGTTAGCACAATGATCGAATTTGTTTATCCGCACACGCAGCTGGTTGCGGGTGT -GGATGAAGTCGGACGCGGGCCGTTAGTTGGCGCGGTCGTCACCGCTGCGGTGATCCTTGACCCGGCGCGC -CCGATTGCCGGGCTGAATGATTCCAAAAAGCTGAGCGAAAAACGCCGTCTGGCGCTCTATGAAGAGATCA -AAGAGAAAGCGTTGAGCTGGAGTCTGGGCCGCGCGGAACCCCACGAAATCGACGAGCTGAACATTCTTCA -TGCGACCATGCTGGCGATGCAGCGTGCCGTCGCTGGGCTGCATATTGCGCCGGAATATGTGTTGATTGAT -GGTAACCGCTGCCCGAAATTACCGATGCCTGCGATGGCTGTGGTGAAAGGCGATAGCCGCGTACCGGAAA -TCAGTGCCGCGTCTATCCTGGCGAAAGTGACGCGTGACGCCGAAATGGCGGCGCTGGATATTGTTTTCCC -GCAATATGGTTTTGCCCAACACAAAGGGTACCCAACCGCTTTTCATCTGGAAAAACTGGCTGAACACGGC -GCGACCGAACACCATCGGCGCAGCTTTGGGCCTGTCAAACGCGCACTGGGACTTGCGTCCTGATTCTTGT -GTCGAGATTAAGTAAACCGGAATCTGAAGATGTCTGAACCACGTTTCGTACACCTGCGGGTGCACAGCGA -CTACTCGATGATCGATGGCCTGGCCAAAACCGCACCGTTGGTAAAAAAGGCGGCGGCGTTGGGTATGCCA -GCACTGGCGATCACCGATTTCACCAACCTTTGTGGTCTGGTGAAGTTCTACGGAGCGGGACATGGCGCAG -GGATTAAGCCTATCGTCGGGGCAGATTTTAACGTCCAGTGCGACCTGCTGGGTGATGAGTTAACCCACCT -GACGGTACTGGCGGCGAACAATACCGGCTATCAGAATCTGACGTTGCTGATCTCAAAAGCGTATCAGCGC -GGGTACGGTGCCGCCGGGCCGATCATCGATCGCGACTGGCTTATCGAATTAAACGAAGGGTTGATCCTTC -TTTCCGGCGGACGCATGGGCGACGTCGGACGCAGTCTTTTGCGTGGTAACAGCGCGCTGGTAGATGAGTG -TGTCGCGTTTTATGAAGAACACTTCCCGGATCGCTATTTTCTCGAGCTGATCCGCACCGGCAGGCCGGAT -GAAGAAAGCTATCTGCACGCGGCGGTGGAACTGGCGGAAGCGCGCGGTTTGCCCGTCGTGGCGACCAACG -ACGTGCGCTTTATCGACAGCAGCGACTTTGACGCACACGAAATCCGCGTCGCGATCCACGACGGCTTTAC -CCTCGACGATCCTAAACGCCCGCGTAACTATTCGCCGCAGCAATATATGCGTAGCGAAGAGGAGATGTGT -GAGCTGTTTGCCGACATCCCCGAAGCCCTTGCCAACACCGTTGAGATCGCCAAACGCTGTAACGTAACCG -TGCGTCTTGGTGAATACTTCCTGCCGCAGTTCCCGACCGGGGACATGAGCACCGAAGATTATCTGGTCAA -GCGTGCAAAAGAGGGCCTGGAAGAGCGTCTGGCCTTTTTATTCCCTGATGAGGAAGAACGTCTTAAGCGC -CGCCCGGAATATGACGAACGTCTGGAGACTGAACTTCAGGTTATCAACCAGATGGGCTTCCCGGGCTACT -TCCTCATCGTTATGGAATTTATCCAGTGGTCGAAAGATAACGGCGTACCGGTAGGGCCAGGCCGTGGCTC -CGGTGCGGGTTCACTGGTGGCCTACGCGCTGAAAATCACCGACCTCGATCCGCTGGAATTTGACCTGCTG -TTCGAACGTTTCCTTAACCCGGAACGTGTCTCCATGCCTGACTTCGACGTTGACTTCTGTATGGAGAAAC -GCGATCAGGTTATCGAGCACGTAGCGGACATGTACGGTCGTGATGCGGTATCGCAGATCATCACCTTCGG -TACAATGGCGGCGAAAGCGGTGATCCGCGACGTAGGCCGCGTGCTGGGGCATCCGTACGGCTTTGTCGAT -CGTATCTCGAAACTGATCCCGCCCGATCCGGGGATGACGCTGGCGAAAGCGTTTGAAGCCGAGCCGCAGC -TGCCGGAAATCTACGAAGCGGATGAAGAAGTTAAGGCGCTGATCGACATGGCGCGCAAACTGGAAGGGGT -CACCCGTAACGCCGGTAAGCACGCCGGTGGGGTGGTTATCGCGCCGACCAAAATTACCGATTTTGCGCCG -CTTTACTGCGATGAAGAGGGCAAACATCCGGTCACCCAGTTTGATAAAAGCGACGTTGAATACGCCGGAC -TGGTGAAGTTCGACTTCCTTGGTTTGCGTACGCTCACCATCATCAACTGGGCGCTGGAGATGATCAACAA -GCGGCGGGCGAAGAATGGCGAGCCGCCGCTGGATATCGCTGCGATCCCGCTGGATGATAAGAAAAGCTTC -GACATGCTGCAACGCTCGGAAACCACGGCGGTATTCCAGCTTGAATCGCGCGGCATGAAGGACCTGATCA -AGCGTCTACAACCTGACTGCTTCGAAGATATGATCGCCCTAGTGGCACTGTTCCGCCCCGGTCCGTTGCA -ATCAGGGATGGTGGATAACTTTATCGACCGTAAACATGGTCGTGAAGAGATCTCCTATCCGGACGTACAG -TGGCAGCATGAAAGCCTGAAACCGGTACTGGAGCCAACCTACGGCATTATCCTGTATCAGGAACAGGTCA -TGCAGATTGCGCAGGTGCTTTCTGGTTATACCCTCGGTGGCGCGGATATGCTGCGTCGTGCGATGGGTAA -GAAAAAGCCGGAAGAGATGGCTAAGCAACGTTCTGTATTTGCTGAAGGTGCAGAAAAGAACGGAATCAAC -GCTGAACTGGCGATGAAAATCTTCGACCTGGTGGAGAAATTCGCTGGTTACGGATTTAACAAATCGCACT -CTGCGGCCTATGCTTTGGTGTCATATCAAACGTTATGGCTGAAAGCGCACTATCCTGCGGAGTTTATGGC -GGCGGTAATGACCGCCGATATGGACAACACCGAGAAGGTGGTGGGTCTGGTGGATGAGTGCTGGCGGATG -GGGCTGAAAATCCTGCCACCAGATATAAACTCCGGTCTTTACCATTTCCACGTCAACGACGACGGCGAAA -TCGTGTATGGTATTGGCGCGATCAAAGGGGTCGGTGAAGGTCCGATTGAGGCCATCATCGAAGCCCGTAA -TAAAGGCGGCTACTTCCGCGAACTGTTTGATCTCTGCGCCCGTACCGACACCAAAAAGTTGAACCGTCGC -GTGCTGGAAAAACTGATCATGTCCGGGGCGTTTGACCGTCTTGGGCCACATCGCGCAGCGCTGATGAACT -CGCTGGGCGATGCGTTAAAAGCGGCAGATCAACACGCGAAAGCGGAAGCTATCGGTCAGGCCGATATGTT -CGGCGTGCTGGCCGAAGAGCCGGAACAAATTGAACAATCCTACGCCAGCTGCCAACCGTGGCCGGAGCAG -GTGGTATTAGATGGGGAACGTGAAACGTTAGGCCTGTACCTGACCGGACACCCTATCAACCAGTATTTAA -AAGAGATTGAGCGTTATGTCGGAGGCGTAAGGCTGAAAGACATGCACCCGACAGAACGTGGTAAAGTCAT -CACGGCTGCGGGGCTCGTTGTTGCCGCGCGGGTTATGGTCACCAAGCGCGGCAATCGTATCGGTATCTGC -ACGCTGGATGACCGTTCCGGGCGGCTGGAAGTGATGTTGTTTACTGACGCCCTGGATAAATACCAGCAAT -TGCTGGAAAAAGACCGCATACTTATCGTCAGCGGACAGGTCAGCTTTGATGACTTCAGCGGTGGGCTTAA -AATGACCGCTCGCGAAGTGATGGATATTGACGAAGCCCGGGAAAAATATGCTCGCGGGCTTGCTATCTCG -CTGACGGACAGGCAAATTGATGACCAGCTTTTAAACCGACTCCGTCAGTCTCTGGAACCCCACCGCTCTG -GGACAATTCCAGTACATCTCTACTATCAGAGGGCGGATGCACGCGCGCGGTTGCGTTTTGGCGCGACGTG -GCGTGTCTCTCCGAGCGATCGTTTATTAAACGATCTCCGTGGCCTCATTGGTTCGGAGCAGGTGGAACTG -GAGTTTGACTAATACAGGAATACTATGAGTCTGAATTTCCTTGATTTTGAACAGCCGATTGCAGAGCTGG -AAGCGAAAATCGATTCTCTGACTGCGGTTAGCCGTCAGGATGAGAAACTGGATATTAACATCGATGAAGA -AGTGCATCGTCTGCGTGAAAAAAGCGTAGAACTGACACGTAAAATCTTCGCCGATCTCGGTGCATGGCAG -ATTGCGCAACTGGCACGCCATCCACAGCGTCCTTATACCCTGGATTACGTTCGCCTGGCATTTGATGAAT -TTGACGAACTGGCTGGCGACCGCGCGTATGCAGACGATAAAGCTATCGTCGGTGGTATCGCCCGTCTCGA -TGGTCGTCCGGTGATGATCATTGGTCATCAAAAAGGTCGTGAAACCAAAGAAAAAATTCGCCGTAACTTT -GGTATGCCAGCGCCAGAAGGTTACCGCAAAGCACTGCGTCTGATGCAAATGGCTGAACGCTTTAAGATGC -CTATCATCACCTTTATCGACACCCCGGGGGCTTATCCTGGCGTGGGCGCAGAAGAGCGTGGTCAGTCTGA -AGCCATTGCACGCAACCTGCGTGAAATGTCTCGCCTCGGCGTACCGGTAGTTTGTACGGTTATCGGTGAA -GGTGGTTCTGGCGGTGCGCTGGCGATTGGCGTGGGCGATAAAGTGAATATGCTGCAATACAGCACCTATT -CCGTTATCTCGCCGGAAGGTTGTGCGTCCATTCTGTGGAAGAGCGCCGACAAAGCGCCGCTGGCGGCTGA -AGCGATGGGTATCATTGCTCCGCGTCTGAAAGAACTGAAACTGATCGACTCCATCATCCCGGAACCACTG -GGTGGTGCTCACCGTAACCCGGAAGCGATGGCGGCATCGTTGAAAGCGCAACTGCTGGCGGATCTGGCCG -ATCTCGACGTGTTAAGCACTGAAGATTTAAAAAATCGTCGTTATCAGCGCCTGATGAGCTACGGTTACGC -GTAATTCGCAAAAGTTCTGAAAAAGGGTCACTTCGGTGGCCCTTTTTTATCGCCACGGTTTGAGCAGGCT -ATGATTAAGGAAGGATTTTCCAGGAGGAACACATGAACATCATTGCCATTATGGGACCGCATGGCGTCTT -TTATAAAGATGAGCCCATCAAAGAACTGGAGTCGGCGCTGGTGGCGCAAGGCTTTCAGATTATCTGGCCA -CAAAACAGCGTTGATTTGCTGAAATTTATCGAGCATAACCCTCGAATTTGCGGCGTGATTTTTGACTGGG -ATGAGTACAGTCTCGATTTATGTAGCGATATCAATCAGCTTAATGAATATCTCCCGCTTTATGCCTTCAT -CAACACCCACTCGACGATGGATGTCAGCGTGCAGGATATGCGGATGGCGCTCTGGTTTTTTGAATATGCG -CTGGGGCAGGCGGAAGATATCGCCATTCGTATGCGTCAGTACACCGACGAATATCTTGATAACATTACAC -CGCCGTTCACGAAAGCCTTGTTTACCTACGTCAAAGAGCGGAAGTACACCTTTTGTACGCCGGGGCATAT -GGGCGGCACCGCATATCAAAAAAGCCCGGTTGGCTGTCTGTTTTATGATTTTTTCGGCGGGAATACTCTT -AAGGCTGATGTCTCTATTTCGGTCACCGAGCTTGGTTCGTTGCTCGACCACACCGGGCCACACCTGGAAG -CGGAAGAGTACATCGCGCGGACTTTTGGCGCGGAACAGAGTTATATCGTTACCAACGGAACATCGACGTC -GAACAAAATTGTGGGTATGTACGCCGCGCCATCCGGCAGTACGCTGTTGATCGACCGCAATTGTCATAAA -TCGCTGGCGCATCTGTTGATGATGAACGATGTAGTGCCAGTCTGGCTGAAACCGACGCGTAATGCGTTGG -GGATTCTTGGTGGGATCCCGCGCCGTGAATTTACTCGCGACAGCATCGAAGAGAAAGTCGCTGCTACCAC -GCAAGCACAATGGCCGGTTCATGCGGTGATCACCAACTCCACCTATGATGGCTTGCTCTACAACACCGAC -TGGATCAAACAGACGCTGGATGTCCCGTCGATTCACTTCGATTCTGCCTGGGTGCCGTACACCCATTTTC -ATCCGATCTACCAGGGTAAAAGTGGTATGAGCGGCGAGCGTGTTGCGGGAAAAGTGATCTTCGAAACGCA -ATCGACCCACAAAATGCTGGCGGCGTTATCGCAGGCTTCGCTGATCCACATTAAAGGCGAGTATGACGAA -GAGGCCTTTAACGAAGCCTTTATGATGCATACCACCACCTCGCCCAGTTATCCCATTGTTGCTTCGGTTG -AGACGGCGGCGGCGATGCTGCGTGGTAATCCGGGCAAACGGCTGATTAACCGTTCAGTAGAACGAGCTCT -GCATTTTCGCAAAGAGGTCCAGCGGCTGCGGGAAGAGTCTGACGGTTGGTTTTTCGATATCTGGCAACCG -CCGCAGGTGGATGAAGCCGAATGCTGGCCCGTTGCGCCTGGCGAACAGTGGCACGGCTTTAACGATGCGG -ATGCCGATCATATGTTTCTCGATCCGGTTAAAGTCACTATTTTGACACCGGGGATGGACGAGCAGGGCAA -TATGAGCGAGGAGGGGATCCCGGCGGCGCTGGTAGCAAAATTCCTCGACGAACGTGGGATCGTAGTAGAG -AAAACCGGCCCTTATAACCTGCTGTTTCTCTTTAGTATTGGCATCGATAAAACCAAAGCAATGGGATTAT -TGCGTGGGTTGACGGAATTCAAACGCTCTTACGATCTCAACCTGCGGATCAAAAATATGCTACCCGATCT -CTATGCAGAAGATCCCGATTTCTACCGCAATATGCGTATTCAGGATCTGGCACAAGGGATCCATAAGCTG -ATTCGTAAACACGATCTTCCCGGTTTGATGTTGCGGGCATTCGATACTTTGCCGGAGATGATCATGACGC -CACATCAGGCATGGCAACGACAAATTAAAGGCGAAGTAGAAACCATTGCGCTGGAACAACTGGTCGGTAG -AGTATCGGCAAATATGATCCTGCCTTATCCACCGGGCGTACCGCTGTTGATGCCTGGAGAAATGCTGACC -AAAGAGAGCCGCACAGTACTCGATTTTCTACTGATGCTTTGTTCCGTCGGGCAACATTACCCCGGTTTTG -AAACGGATATTCACGGCGCGAAACAGGACGAAGACGGCGTTTACCGCGTACGAGTCCTAAAAATGGCGGG -ATAACTTGCCAGAGCGGCTTCCGGGCGAGTAACGTGCTGTTAACAAATAAAGGAGACGTTATGCTGGGTT -TAAAACAGGTTCACCATATTGCGATTATTGCGACGGATTATGCGGTGAGCAAAGCTTTCTACTGCGATAT -TCTTGGTTTCACGCTGCAAAGCGAAGTCTATCGCGAAGCGCGCGACTCATGGAAAGGGGATTTGGCGCTT -AATGGGCAATATGTGATTGAGCTTTTCTCATTTCCGTTCCCGCCGGAACGACCCAGCCGACCGGAAGCTT -GCGGTCTGCGTCATCTGGCTTTTAGCGTTGATGACATCGATGCGGCAGTGGCGCACCTTGAAAGCCATAA -CGTGAAGTGTGAAACCATCCGTGTCGATCCATACACGCAAAAACGCTTCACCTTCTTTAACGATCCGGAC -GGGCTGCCGTTGGAACTGTATGAGCAGTAAGGCTTGTCATCGCCGCATTTGCCCGGTAACGTGCCGGGCA -TTGCTACTGTAAAATCGCACCATCATGACACTCACGCTCAATAGACAACTTCTCACCTCACGCCAGATTC -TGGTGGCCTTTAGCGGCGGGCTTGACTCCACCGTTCTGCTGCATCAGTTGGTGCAGTGGCGGACGGAAAA -TCCGGGTGTCGCTCTGCGCGCTATTCATGTGCATCACGGTTTAAGTGCCAATGCCGATGCCTGGGTTACG -CATTGCGAAAACGTCTGCCAACAGTGGCAGGTGCCGCTGGTGGTCGAACGCGTACAACTTGCGCAAGAAG -GACTGGGCATTGAGGCCCAGGCGCGGCAGGCACGTTATCAGGCATTTGCCCGCACCTTGTTGCCCGGTGA -AGTGCTGGTCACCGCGCAACATCTCGACGATCAATGTGAAACCTTTCTGCTGGCGCTAAAACGCGGCAGT -GGCCCTGCCGGGCTTTCGGCTATGGCGGAAGTCTCGGAGTTTGCCGGAACGCGGCTTATTCGCCCGTTGC -TCGCCCGCACGCGGGGGGAACTGGTGCAGTGGGCGCGTCAGTATGATTTACGCTGGATTGAAGACGAAAG -TAATCAGGACGACTCATACGATCGTAACTTTCTGCGCCTGCGCGTAGTGCCGTTATTGCAGCAGCGTTGG -CCGCATTTTGCCGAAGCAACGGCCCGCAGCGCCGCACTTTGTGCTGAACAAGAGAGCCTGCTGGATGAAC -TGCTGGCAGATGATTTAGCACACTGTCAATCGCCGCAGGGGACGCTGCAGATTGTGCCAATGCTGGCGAT -GAGTGATGCCCGCCGCGCGGCGATTATCCGCCGCTGGCTGGCAGGGCAGAATGCACCGATGCCTTCCCGC -GACGCGTTGGTGAGGATCTGGCAGGAAGTGGCGCTGGCGCGGGAAGATGCCTCACCCTGTTTACGTTTGG -GCGCGTTTGAAATCCGACGCTATCAGTCGCAACTGTGGTGGATTAAATCCGTCACCGGGCAAAGCGAAAA -CATTGTGCCGTGGCAGACGTGGCTTCAACCGCTGGAATTACCGGCGGGGCTGGGAAGTGTACAGCTTAAT -GCGGGAGGCGATATTCGCCCTCCGCGTGCAGACGAAGCGGTCAGCGTGCGTTTCAAAGCGCCAGGATTGC -TGCATATTGTCGGGCGTAACGGCGGACGTAAGCTAAAGAAAATCTGGCAAGAGCTGGGCGTGCCGCCGTG -GCTACGTGACACCACGCCACTGCTGTTTTATGGCGAAACGCTGATTGCGGCGGCAGGGGTATTTGTGACG -CAAGAAGGTGTGGCTGAAGGTGAGAATGGCGTAAGTTTTGTCTGGCAGAAAACGCTTAGTTAAGTGAAAG -CCGGATAAGACGCATCAAACGTCGCATCCGGCGAAAGTCAATCAGGATTCGCTTACCACCACCGTACCGA -TTTCCGGGTGGCTAAAGCTGGTAATTTTATCCAGACGCAGCTCGCGGGTTTCGCCAGCGGCCTCGACGAC -CAGGTACTCCACATTTTTGCGGGAGACTAAATCACTGGCTTTTGCCTGCAATTTTTCGCCATCTTTCAGC -TCAAGTGTCAGCATTAAATGATGCTGGCAGGCGAGCTCAAGATTATCGTAATCATCACAATTGATTGGTT -GATACGTATCATTCATTGACATAATCGCTCACCAGTAAGTTTGCCGCAGCGTATGCTGCTTTTTCCCTGA -CAGCCTCAGAAAGGGCGTCGTCGGCAGCCATTTCATTCAGCACTTTCAAAACGCAGCCCAGCGCGTCCGG -AACGTATCCTAAGTCTCCGCTGGCGATTTCCGCGTACCGCTTGCGTATTAACTCACAATATTTTTCCACA -TGCCCTCCTGTCAGCACTCTGACTTAACCGTGGATGCAAGTCTAAGCCTACGAAGATAAACTCTGTTTCG -CAAGGTGACTATACCACACTCATTTCTGCAATATCAGCGCCGCAACTGCACGTATTCCGTTACAATGGCC -TCCTGATTCGAAAGGAGTTTTCTTATGGCGCTTAAAGCGACAATTTATAAAGCGACGGTTAATGTGGCCG -ATCTCGACCGCAACCAGTTTCTCGATGCCTCTCTGACGCTGGCGCGCCATCCTTCAGAAACCCAGGAGCG -TATGATGCTGCGCTTGCTGGCGTGGCTGAAATATGCTGATGAACGTCTGCAATTTACCCGTGGTTTGTGT -GCCGATGATGAGCCGGAAGCGTGGCTGCGTAACGATCACCTGGGCATTGATTTGTGGATTGAGCTGGGGC -TGCCGGATGAGCGGCGGATTAAGAAAGCCTGCACCCAGGCCGCAGAAGTGGCGCTGTTTACCTATAATAG -TCGGGCGGCGCAAATCTGGTGGCAGCAAAATCAGAGCAAATGTGTGCAGTTTGCCAATCTTTCCGTCTGG -TATCTGGACGATGAACAACTGGCGAAAGTAAGCGCCTTTGCCGATCGTACCATGACGCTGCAGGCAACGA -TTCAGGATGGCGTGATCTGGTTATCGGATGATAAGAATAATCTGGAAGTGAACTTAACCGCCTGGCAACA -ACCTTCATGATTGTGATTTCCCGACATGTTGCTATTCCCGATGGTGAGCTTGAGATCACCGCCATTCGTG -CGCAGGGCGCGGGCGGGCAGCATGTTAATAAGACCTCAACGGCTATTCATCTGCGTTTTGACATTCGGGC -GTCCAGCCTGCCAGAGTATTACAAAGAGCGTCTGCTCGCCGCCAGCCATCATTTGATCAGCAGTGATGGC -GTGATTGTCATTAAGGCACAGGAATACCGCAGTCAGGAACTGAACCGCGAAGCAGCTCTGGCCCGGCTGG -TGGCTATGATTAAAGAATTAACAACAGAAAAAAAAGCCCGACGACCCACGCGGCCCACCCGTGCATCGAA -AGAGCGCAGGCTGGCATCGAAAGCACAAAAATCAAGCGTGAAGGCGATGCGCGGCAAAGTGCGCAGCGGT -CGGGAATAAAAAGAAGGAATGGATGGTGAAAAAAGCGATAGTGACAGCGATGGCTGTAATCAGCCTCTTT -ACTCTGATGGGATGTAATAATCGGGCCGAAGTCGATACGCTTTCTCCGGCGCAGGCTGCCGAACTGAAAC -CGATGCCGCAAAGTTGGCGCGGCGTGCTGCCGTGTGCCGATTGCGAAGGAATCGAAACCTCTCTGTTCCT -CGAAAAAGACGGAACATGGGTGATGAATGAGCGTTATCTCGGTGCTCGTGAAGAACCTTCCTCCTTCGCT -TCCTACGGTACATGGGCGCGAACCGCTGACAAGCTGGTATTAACCGACAGCAAAGGTGAAAAGTCATATT -ATCGGGCGAAAGGCGATGCGCTGGAGATGCTCGATCGTGAAGGCAATCCGATTGAATCGCAGTTCAACTA -TACGCTGGAAGCGGCACAATCCAGTTTACCTATGACGCCGATGACCCTGCGGGGCATGTATTTTTATATG -GCTGATGCGGCGACCTTCACTGATTGCGCGACCGGAAAACGTTTCATGGTAGCGAATAACGCAGAGCTGG -AGCGTAGCTACCTGGCTGCGCGCGGTCACAGTGAAAAACCGGTGTTACTGTCAGTAGAAGGTCACTTTAC -GCTTGAGGGTAATCCGGATACCGGTGCGCCGACTAAAGTATTGGCACCCGATACGGCAGGGAAATTTTAC -CCCAACCAGGATTGCAGTAGTTTGGGGCAGTAACCCGTCTTGAGACAGAAACAAACGCAAAACAGGCCAG -AAGGATATATTTCAACATTTTGAATTTGCACGTTTTTTGTAGGCCGGATAAGGCGTTTACGCCGCATCCG -GCAATGGTGCTCAACGCCTGATGCGACGCTGGCGCGTCTTATCATGCCTACAACCCCCCTCATACCTTAA -GGCGGATAAGGCATTTACTTTATCACCGGGTCAAACCAACAAAGCGACCCGCCTTGATATAAATCCCAGG -CTTCAGGTGCCCAACATACTGTAACTGCGTTTCTGGCTTAAACGCAGAGACATCACCAATACGCATATGC -ATCAGATCGGCAGGGCTAATCCAGCCCGATTGCGCCAGTGTAAGTGGATGCCCGGCTTTGGCAAAGGCAT -CCGTGACAAATTCCGAACAAAACCACGACTTTTTGTCTCCTTCGCCCACACTGCTTAACTGCGCTTTCGC -CAGGCCGCTGACGCACTGTTGGCGAAAATCCTCGGAGAACGGATTCAGTGAGCACATCTGGCGAGTCACC -ATAAAGGGAATAAATTCGACAATGCCGCGATAGTTATAACCGCTATCTTTGATTTTATTGGCAAACGCGG -TGATATCTGTGGCTTGTTGCGGGGTAAGATCCGGGACTCGTAAGACGAAAAGCTTATCACTATGCTTCAT -CGCTTTTTTAAGGGAAACGATCTGGACGCCAGCGCCTGTCGCTTCTGCAACGTTATTATCACCCAGAAAG -ATTGCAACGTGACTCACAGAGGAAGTGCTGAAGACGCGGATTCCAAATGAGGTTACCCCAAGGCTTGAGG -AGAACAGCAAATCGCCGGGTTTGAGATCAGGTGCCGTTATTTCTTTTATTGATTGTTCGGTGAAAGAGCT -TTGATGCTGGAATTTGACAGCCCATGTTTTTGCCTCGGCATCTACTGCTGTGGCTGATGGGTCTGGCTGG -CTGATATCAACGGTACAAGCCGAAAGTAAAAGAAAGCTGGGGAGAAACAGGCGGCAGTACGCCTTTGGTT -TATCCATTTTATACAATCCATGTAAAAAAAGGGCCCTGAAATTCAGGACCCTTTCTGGCATCAGCCTTTA -ATCTGTTTCACCAGATATTCGACGATGTCACCAGTCTTAATTAACTGTTTCTCGCCGTTGCGACGATATT -TATATTCGATATCGTCGTTGTCGAGGTTACGGTCGCCCAGCACAATAGTGTGCGGAATACCGATCAGTTC -CATATCAGCAAACATCACGCCCGGACGCTCTTTGCGGTCATCCAGCAGCACTTCGATACCTTGTGCACGC -AGTTCGCTGTACAGTTTCTCAGCAAGCTCTTGTACGCGGAAGGATTTGTGCATGTTCATCGGCAGAATCG -CCACCTGGAACGGCGCGATAGCGTCAGGCCATACGATGCCTCGTTCGTCGTAGTTCTGCTCAATCGCCGC -AGCTACCACACGCGTTACCCCGATACCGTAGCAACCCATCGTCAGGATTTGGTTACGGCCATCTTCACCC -TGTACGGAGGCTTTCAGTGCTTCGGAGTACTTGGTACCCAGCTGGAAGATGTGACCAACTTCGATACCAC -GTTTGATCAGCAGCCTACCCTGGCCATCCGGGCTTGGATCGCCAGCCACCACGTTACGGATATCTGCAAC -TTCCGGGGTAGCGACATCGCGATCCCAGTTGATGCCGAAGTAGTGTTTACCATCGATGTTAGCACCAGCA -GCGAAATCACTCATCGCCGCAACGGTACGGTCAATCACCACCGGAATCGGCATGTTTACCGGACCCAGTG -AACCCGGACCGGCTTTAACCACGGCACGAATTTCTTCTTCGGTCGCGAAAGTCAGCGGGCTTGCAACCTG -CGGCAGTTTTTCTGCTTTAACTTCGTTCAGCTCGTGATCACCGCGCACCAGCAGCGCAACCTGCGGGAAG -CTGCTGCCTTCAACCGCTTTAACCAGCAGAGTCTTAACCGTTTTCTCAATCGGCAGATTGAACTGTTCAA -CCAGTTCCGCGATGGTTTTCGCGTTCGGCGTATCAACCAGCGTCATTTCCTGGGTAGCAGCAGCGCGCGG -TTCTTTCGGCGCGATAGCTTCTGCCAGTTCAATGTTCGCTGCATAGTCAGAGGTGTCGGAGAAGACCACA -TCGTCTTCACCGCTCTGCGCCAGCACCTGGAATTCGTGAGAGGCGCTGCCGCCGATAGAACCGGTGTCGG -CTTGTACGGCGCGGAAATCCAGCCCCATGCGGCTGAAGATTTTGCTGTAGGCCGCATACATTGCATCGTA -GGTTTCCTGCAGGGATTCCTGAGAAGTATGGAAAGAGTAAGCATCTTTCATCAGGAATTCGCGGGAACGC -ATGACGCCGAAACGCGGACGCACTTCGTCGCGGAACTTGGTCTGGATCTGATAGAAGTTCAGCGGCAGCT -GTTTGTAAGAGCTAAGCTCGTTACGAATCAGGTCAGTGATAACTTCTTCATGAGTTGGGCCGAGTACGAA -CGGACGCTCGCCACGGTCAACAAAACGCAGCAGTTCCGGACCGTACTGTTCCCAACGACCACTCTCTTGC -CACAAATCGGCTGGCTGAACCACCGGCATCGACACCTCGATCGCACCGGCGTTGTTCATCTCTTCACGCA -CGATGTTTTCGACTTTTTTCAGAACGCGCACGCCGGTCGGCAGCCAGGTATATAACCCGGAGGCCAGCTT -GCGGATCATCCCGGCGCGCAGCATCAGCTGATGGCTGATCACCTCGGCGTCGGCAGGTGTCTCCTTGAGA -GTGGAGAGCAGGTATTGGCTAGTACGCATGTTGTTACGGTTCCAGTTGGAAGGTAGAACAGGCTCAAGGC -GAGCCTGGGACAAAAAAAAGTGATTTAGTTTACCAGTGCAAAAGAAATGTCAAAAGAGAAGGGCGTGAAT -TTAACGCGGTTCCAGCGCAAAGACTTCAAAACCTGCGTCGGTGACGCGCCAGCGAACGTTAAAATCATGT -AGCCAGACGGCATAGGTTTTGCCCGTTTCCTCACCTTTACGATAGGCCGGGCGCGGGTCCTGCGCCAGTA -CTTCGCGGATAAACAGCGTTAACTGCGGATAACGCTTCTCCAGCGTCAAAAGCTGCTTTTCGACCTCTGC -GGTAAAACTCACCGCCATCTCTGCAGCTGGCGCACTTTGCGCATAGCTGGCACTGGCATCGGGAAGCGAT -TCGGCAAAGGGGAGATACGGTTTGATATCCACTACCGGCGTACCATCGACCAGATCCAGACTGCCGAGCT -TCAGAATCACGCTGTCTTTATGGCAAACAACCTCTTTCAGCTCTACCAGCGACATGCCAATTGGGTTAGG -GCGGAAAGTAGAGCGTGTTGCGAAAACCCCCATTCTGGCGTTACCGCCGAGGCGCGGTGGACGCACAGTC -GGACGCCAGCCGCCTTCCATCGTTTGATGAAAGACGAAAAGGATCCATAAATGGCTGAACGCTTCCAGGC -CGCGAACGGCGTCGGCCTGGTTGTAGGGAGCAATGAGATGCAGTTCGCCGTTGGCGCTTTTTACCAGACC -TGGCTGGCGCGGAACGGCGAACTTTTCTTTATAGGGCGAGCGAATAACGCCTATTTGCTCGAACTGGAAA -CTGCTCATTTCGCCGTAATGTTAAGCGCAGAACCGATACATACAGCCTGACGATAGCAGCCTGGCGTACC -GCTGGTGACTTCGCAGCTATGCAGTAATACAGCATTGGCTTTCATTTTAGAGGCGTTGATTTGCATCCGC -TTACGTGCGGTTGGAATGCTCGGCGGAGAGTCCTGATTAGAGGCCTGGCAAGAGTCGCCACTGACTTCAC -CGAGATCGCGGAACGGTTTGCCGACTAATTCTTCTGCATTGGTATAAATTCGGACCGGCGTGGCGCGCGG -CGCTTTCGGTTTTGCAGGCTCCGCTTTCGGCTGGGGTGCAGTGCTTTGAACGGGTTCGACAGGGGATCTG -CTTAACATGGAACAGCCGCTTAGCATGAGTGCTACTAAACAGATCGGTAAAGCACGCATAGTATTTCCTC -AATGTATGATCAAAACGTCAATATTGAATCAGGAGCTTGTAAAAATGACAAGACGGGCAAGCGCCCGTCC -TGAATGATATTACAAATTGTGGAAACAGCCTAAAAATTACCAGCCTTTAACAGCTCCGCCGTTAAACACT -TTGTTTGCTGCTTCGTAAACTTCGTCAGACTGATAAGCCTGGACGAATTTCTTCACGTTCTCGGCGTCTT -TGTTATCTTCACGCGTCACGATCAGGTTTACGTACGGGGACTCTTTATCTTCAACAAAGATACCGTCTTT -CGCCGGAGTCAGGCCAATCTGGCTGGCATAGGTGGTATTGATAACTGCCAGAGCGATTTGCGCGTCGTCC -AGAGAACGCGGCAGTTGCGGTGCTTCCAGTTCAACAATTTTCAGATTTTTGGGGTTCTCAACAACATCAA -GAACGGTCGGCAGCAGGCCAACGCCATCTTTCAGTTTGATCAAGCCCACTTTTTGCAGCAGCAGCAGTGA -ACGACCAAGGTTAGTTGGGTCGTTTGGCACGGCAACCTGCGAACCATCCTGCAGTTCATCCAGTGATTTG -ATTTTCTTGGAGTAACCAGCAATCGGATAAACAAAAGTGTTGCCTACTGCGACCAGTTTGTAGCCACGAT -CTTTCAGTTGCTGATCAAGGTACGGTTTATGCTGGAAGGCGTTGGCGTCGATATCGCCTTTGCTCAATGC -TTCGTTTGGCAGAACATAGTCGTTGAAGGTTACCAGCTCAACGTCCAGGCCATATTTGTCTTTCGCAACT -TTCTGCGCGACTTCTGCAACCTGCTGTTCGGCACCAACAATCACGCCGACTTTAATGTGGTTTGGATCTT -TTTCATCCTGACCGCAGCCTACCAGTGCCAGTGATCCGATCAGGGCTCCCACTGCCGCAAAGGTTTTGAA -TTTGAACGCCATACCTTATTCCTTCTTCAATTATTTATGTTGTGTTGAACGTTACTTGCGAGTGACAGCC -CGGACGATGCGGTCGCCTGCGAACTGAATTAAATAAACCAGAATGACCAGCAATACCAGTACCGTATTCA -TCACCGTCGCGTTATAGCCGATGTAGCCATACTGATAGCCAATCTGACCTAAACCACCGGCACCGACTGC -ACCACCCATCGCGGAATAACCGACCAGGGTAATCAGGGTGATAGTTGCCGCATTCACCAGACCCGGCAGC -GCTTCCGGTAACAGCACCTTACGGACGATCTGCATCGGCGTGGCACCCATTGCGCGGGAAGCTTCAATTA -ACCCGGTTGGGATCTCCAGCAGAGCGTTCTCGACCATACGGGCAATAAACGGTGCTGCACCAACGGTTAA -CGGAACAATCGCTGCCTGCAAACCAATCGATGTACCGACAATAACGCGGGTAAACGGAATCATCCATACA -AGCAAGATAATGAACGGGATGGAACGGAAAATGTTCACAATCGCAGAAACGGTACGATACAGCTTCGCGT -TAGCAATAATTTGCCCCGGACGCGTGACATAAAGCAGAACGCCAACCGGCAGACCAATCACAAAGCCAAA -AAAACCGGATACGAAGGTCATTGCCAGCGTTTCCCATACGCCACGAACCAGCAGCCACATCATCGGCTCA -GACATAACCCAGTACCTCTACTTTTACATGGTGTTCCTGCAGCCAGGCAATGGCGGCTTGCGTATCTTGT -TGTGTGCCGTGCATTTCAGTCAGCATGATGCCGAACTTAACGCCACCGGCGTAATCCATCTGCGCGCTAA -TAATGTTGTTGTTGACGTTGAAACGACGCGCGGTTTCAGAAAGCAGTGGGGCATCGACCGATTGACCGGT -AAACTCCAGACGCAGCATCGGCACGCAGTCAGTAAATGGCTCCGCTTGCAGACGTTCCTGGTAATCTTCC -GGGATATCCAGATGCAGGGTCGACTGAATAAACTTCTGCGCCAGCGGCGTTTTCGGATGCGAGAACACTT -CACTTACCGTGTCCTGCTCGATCAGTTCTCCATTGCTGATGACCGCCACGCAATCACAAATGCGCTTCAC -AACGTCCATTTCGTGGGTGATCAACAGAATCGTCAACCCCAGACGGCGGTTGATGTCTTTCAGCAGTTCG -AGAATAGAACGTGTCGTTGCCGGGTCCAGCGCGCTGGTGGCTTCATCACACAGCAATACTTTGGGATTGC -TGGCTAACGCACGGGCAATTGCCACACGTTGTTTCTGCCCACCGGAAAGATTCGACGGGTAGCTATCATG -CTTATCGCCAAGACCAACCAATGACAGCAATTCCGTCACGCGACGTTTGACCTCGTCTTTCGGTGTGTTG -TCCAGCTCCAGCGGCAGAGCCACGTTGCCAAAAACAGTACGCGAAGAGAGCAGGTTAAAATGCTGGAAAA -TCATACCAATCTGGCGGCGAGCTTTGGTCAACTCGGATTCTGACAGCGTGGTCAGTTCCTGGCCATCGAC -CAGCACGCTACCCTCGGTTGGGCGCTCCAGCAGGTTTACACAACGTATAAGCGTACTCTTACCCGCGCCT -GAGGCACCGATAACGCCATAAATTTGTCCAGCTGGCACATGCAGGCTGACGTTGTTCAACGCCTGGATGG -TGCGGGTGCCCTGGTGGAACACTTTGGTGATATTCGAAAGTTTTATCATTGATTATTTATTATCGTCATT -AAGTTAGTCGTGGCATCTCGAATGCCTGAAACGGGCAACGCCGTCAATGAAATGGATGTTAAGGCATCCA -GACGTCTAAATCAATCAGGTTTATGCGAAGAGCACTTTCTTGCAGGTCGAAACATGCGATACTAGCGTCA -CATGCCTTATTAAGGAGCTATAAAAGGTGGCGAAGAGCGTACCCGCAATTTTTCTTGACCGTGATGGCAC -CATTAATGTCGATCACGGCTATGTCCATGAGATCGACAACTTTGAATTTATCGACGGTGTTATTGACGCC -ATGCGCGAGCTAAAAAAAATGGGCTTTGCGCTGGTGGTAGTAACCAACCAGTCTGGCATTGCTCGCGGTA -AATTTACCGAAGCACAGTTTGAAACGCTGACCGAGTGGATGGACTGGTCGCTGGCGGACCGAGATGTCGA -TCTGGATGGTATCTATTATTGCCCGCATCATCCGCAGGGTAGTGTTGAAGAGTTTCGCCAGGTCTGCGAT -TGCCGCAAACCACATCCGGGGATGCTTTTGTCAGCACGCGATTATTTGCATATTGATATGGCCGCTTCTT -ATATGGTGGGCGATAAATTAGAAGATATGCAGGCAGCGGTTGCGGCGAACGTGGGAACAAAAGTGCTGGT -GCGTACGGGTAAACCTATTACGCCTGAAGCAGAAAACGCGGCGGATTGGGTGTTAAATAGCCTGGCAGAC -CTGCCGCAAGCGATAAAAAAGCAGCAAAAACCGGCACAATGATTAAAAGATGAGCGGTTGAAATAAAAAT -GCATTTTTCCGCTTGTCTTCCTGAGCCGACTCCCTATAATGCGCCTCCATCGACACGGCGGATGTGAATC -ACTTCACACAAACAGCCGGTTCGGTTGAAGAGAAAAATCCTGAAATTCAGGGTTGACTCTGAAAGAGGAA -AGCGTAATATACGCCACCTCGCGACAGTGAGCTGAAAGCCGCGTCGCAACTGCTCTTTAACAATTTATCA -GACAATCTGTGTGGGCACTCGAAGATACGGATTCTTAACGTCGCAAGACGAAAAATGAATACCAAGTCTC -AAGAGTGAACACGTAATTCATTACAAAGTTTAATTCTTTGAGCATCAAACTTTTAAATTGAAGAGTTTGA -TCATGGCTCAGATTGAACGCTGGCGGCAGGCCTAACACATGCAAGTCGAACGGTAACAGGAAGAAGCTTG -CTTCTTTGCTGACGAGTGGCGGACGGGTGAGTAATGTCTGGGAAACTGCCTGATGGAGGGGGATAACTAC -TGGAAACGGTAGCTAATACCGCATAACGTCGCAAGACCAAAGAGGGGGACCTTCGGGCCTCTTGCCATCG -GATGTGCCCAGATGGGATTAGCTAGTAGGTGGGGTAACGGCTCACCTAGGCGACGATCCCTAGCTGGTCT -GAGAGGATGACCAGCCACACTGGAACTGAGACACGGTCCAGACTCCTACGGGAGGCAGCAGTGGGGAATA -TTGCACAATGGGCGCAAGCCTGATGCAGCCATGCCGCGTGTATGAAGAAGGCCTTCGGGTTGTAAAGTAC -TTTCAGCGGGGAGGAAGGGAGTAAAGTTAATACCTTTGCTCATTGACGTTACCCGCAGAAGAAGCACCGG -CTAACTCCGTGCCAGCAGCCGCGGTAATACGGAGGGTGCAAGCGTTAATCGGAATTACTGGGCGTAAAGC -GCACGCAGGCGGTTTGTTAAGTCAGATGTGAAATCCCCGGGCTCAACCTGGGAACTGCATCTGATACTGG -CAAGCTTGAGTCTCGTAGAGGGGGGTAGAATTCCAGGTGTAGCGGTGAAATGCGTAGAGATCTGGAGGAA -TACCGGTGGCGAAGGCGGCCCCCTGGACGAAGACTGACGCTCAGGTGCGAAAGCGTGGGGAGCAAACAGG -ATTAGATACCCTGGTAGTCCACGCCGTAAACGATGTCGACTTGGAGGTTGTGCCCTTGAGGCGTGGCTTC -CGGAGCTAACGCGTTAAGTCGACCGCCTGGGGAGTACGGCCGCAAGGTTAAAACTCAAATGAATTGACGG -GGGCCCGCACAAGCGGTGGAGCATGTGGTTTAATTCGATGCAACGCGAAGAACCTTACCTGGTCTTGACA -TCCACAGAACTTTCCAGAGATGGATTGGTGCCTTCGGGAACTGTGAGACAGGTGCTGCATGGCTGTCGTC -AGCTCGTGTTGTGAAATGTTGGGTTAAGTCCCGCAACGAGCGCAACCCTTATCTTTTGTTGCCAGCGGTC -CGGCCGGGAACTCAAAGGAGACTGCCAGTGATAAACTGGAGGAAGGTGGGGATGACGTCAAGTCATCATG -GCCCTTACGACCAGGGCTACACACGTGCTACAATGGCGCATACAAAGAGAAGCGACCTCGCGAGAGCAAG -CGGACCTCATAAAGTGCGTCGTAGTCCGGATTGGAGTCTGCAACTCGACTCCATGAAGTCGGAATCGCTA -GTAATCGTGGATCAGAATGCCACGGTGAATACGTTCCCGGGCCTTGTACACACCGCCCGTCACACCATGG -GAGTGGGTTGCAAAAGAAGTAGGTAGCTTAACCTTCGGGAGGGCGCTTACCACTTTGTGATTCATGACTG -GGGTGAAGTCGTAACAAGGTAACCGTAGGGGAACCTGCGGTTGGATCACCTCCTTACCTTAAAGAAGCGT -ACTTTGCAGTGCTCACACAGATTGTCTGATGAAAATGAGCAGTAAAACCTCTACAGGCTTGTAGCTCAGG -TGGTTAGAGCGCACCCCTGATAAGGGTGAGGTCGGTGGTTCAAGTCCACTCAGGCCTACCAAATTTGCAC -GGCAAATTTGAAGAGGTTTTAACTACATGTTATGGGGCTATAGCTCAGCTGGGAGAGCGCCTGCTTTGCA -CGCAGGAGGTCTGCGGTTCGATCCCGCATAGCTCCACCATCTCTGTAGTGGTTAAATAAAAAATACTTCA -GAGTGTACCTGCAAAGGTTCACTGCGAAGTTTTGCTCTTTAAAAATCTGGATCAAGCTGAAAATTGAAAC -ACTGAACAATGAAAGTTGTTCGTGAGTCTCTCAAATTTTCGCAACACGATGATGGATCGCAAGAAACATC -TTCGGGTTGTGAGGTTAAGCGACTAAGCGTACACGGTGGATGCCCTGGCAGTCAGAGGCGATGAAGGACG -TGCTAATCTGCGATAAGCGTCGGTAAGGTGATATGAACCGTTATAACCGGCGATTTCCGAATGGGGAAAC -CCAGTGTGTTTCGACACACTATCATTAACTGAATCCATAGGTTAATGAGGCGAACCGGGGGAACTGAAAC -ATCTAAGTACCCCGAGGAAAAGAAATCAACCGAGATTCCCCCAGTAGCGGCGAGCGAACGGGGAGGAGCC -CAGAGCCTGAATCAGTGTGTGTGTTAGTGGAAGCGTCTGGAAAGGCGCGCGATACAGGGTGACAGCCCCG -TACACAAAAATGCACATGCTGTGAGCTCGATGAGTAGGGCGGGACACGTGGTATCCTGTCTGAATATGGG -GGGACCATCCTCCAAGGCTAAATACTCCTGACTGACCGATAGTGAACCAGTACCGTGAGGGAAAGGCGAA -AAGAACCCCGGCGAGGGGAGTGAAAAAGAACCTGAAACCGTGTACGTACAAGCAGTGGGAGCATGCTTAG -GCGTGTGACTGCGTACCTTTTGTATAATGGGTCAGCGACTTATATTCTGTAGCAAGGTTAACCGAATAGG -GGAGCCGAAGGGAAACCGAGTCTTAACTGGGCGTTAAGTTGCAGGGTATAGACCCGAAACCCGGTGATCT -AGCCATGGGCAGGTTGAAGGTTGGGTAACACTAACTGGAGGACCGAACCGACTAATGTTGAAAAATTAGC -GGATGACTTGTGGCTGGGGGTGAAAGGCCAATCAAACCGGGAGATAGCTGGTTCTCCCCGAAAGCTATTT -AGGTAGCGCCTCGTGAACTCATCTCCGGGGGTAGAGCACTGTTTCGGCAAGGGGGTCATCCCGACTTACC -AACCCGATGCAAACTGCGAATACCGGAGAATGTTATCACGGGAGACACACGGCGGGTGCTAACGTCCGTC -GTGAAGAGGGAAACAACCCAGACCGCCAGCTAAGGTCCCAAAGTCATGGTTAAGTGGGAAACGATGTGGG -AAGGCCCAGACAGCCAGGATGTTGGCTTAGAAGCAGCCATCATTTAAAGAAAGCGTAATAGCTCACTGGT -CGAGTCGGCCTGCGCGGAAGATGTAACGGGGCTAAACCATGCACCGAAGCTGCGGCAGCGACGCTTATGC -GTTGTTGGGTAGGGGAGCGTTCTGTAAGCCTGTGAAGGTGTACTGTGAGGTATGCTGGAGGTATCAGAAG -TGCGAATGCTGACATAAGTAACGATAAAGCGGGTGAAAAGCCCGCTCGCCGGAAGACCAAGGGTTCCTGT -CCAACGTTAATCGGGGCAGGGTGAGTCGACCCCTAAGGCGAGGCCGAAAGGCGTAGTCGATGGGAAACAG -GTTAATATTCCTGTACTTGGTGTTACTGCGAAGGGGGGACGGAGAAGGCTATGTTGGCCGGGCGACGGTT -GTCCCGGTTTAAGCGTGTAGGCTGGTTTTCCAGGCAAATCCGGAAAATCAAGGCTGAGGCGTGATGACGA -GGCACTACGGTGCTGAAGCAACAAATGCCCTGCTTCCAGGAAAAGCCTCTAAGCATCAGGTAACATCAAA -TCGTACCCCAAACCGACACAGGTGGTCAGGTAGAGAATACCAAGGCGCTTGAGAGAACTCGGGTGAAGGA -ACTAGGCAAAATGGTGCCGTAACTTCGGGAGAAGGCACGCTGATATGTAGGTGAAGCGACTTGCTCGTGG -AGCTGAAATCAGTCGAAGATACCAGCTGGCTGCAACTGTTTATTAAAAACACAGCACTGTGCAAACACGA -AAGTGGACGTATACGGTGTGACGCCTGCCCGGTGCCGGAAGGTTAATTGATGGGGTTAGCGCAAGCGAAG -CTCTTGATCGAAGCCCCGGTAAACGGCGGCCGTAACTATAACGGTCCTAAGGTAGCGAAATTCCTTGTCG -GGTAAGTTCCGACCTGCACGAATGGCGTAATGATGGCCAGGCTGTCTCCACCCGAGACTCAGTGAAATTG -AACTCGCTGTGAAGATGCAGTGTACCCGCGGCAAGACGGAAAGACCCCGTGAACCTTTACTATAGCTTGA -CACTGAACATTGAGCCTTGATGTGTAGGATAGGTGGGAGGCTTTGAAGTGTGGACGCCAGTCTGCATGGA -GCCGACCTTGAAATACCACCCTTTAATGTTTGATGTTCTAACGTTGACCCGTAATCCGGGTTGCGGACAG -TGTCTGGTGGGTAGTTTGACTGGGGCGGTCTCCTCCTAAAGAGTAACGGAGGAGCACGAAGGTTGGCTAA -TCCTGGTCGGACATCAGGAGGTTAGTGCAATGGCATAAGCCAGCTTGACTGCGAGCGTGACGGCGCGAGC -AGGTGCGAAAGCAGGTCATAGTGATCCGGTGGTTCTGAATGGAAGGGCCATCGCTCAACGGATAAAAGGT -ACTCCGGGGATAACAGGCTGATACCGCCCAAGAGTTCATATCGACGGCGGTGTTTGGCACCTCGATGTCG -GCTCATCACATCCTGGGGCTGAAGTAGGTCCCAAGGGTATGGCTGTTCGCCATTTAAAGTGGTACGCGAG -CTGGGTTTAGAACGTCGTGAGACAGTTCGGTCCCTATCTGCCGTGGGCGCTGGAGAACTGAGGGGGGCTG -CTCCTAGTACGAGAGGACCGGAGTGGACGCATCACTGGTGTTCGGGTTGTCATGCCAATGGCACTGCCCG -GTAGCTAAATGCGGAAGAGATAAGTGCTGAAAGCATCTAAGCACGAAACTTGCCCCGAGATGAGTTCTCC -CTGACTCCTTGAGAGTCCTGAAGGAACGTTGAAGACGACGACGTTGATAGGCCGGGTGTGTAAGCGCAGC -GATGCGTTGAGCTAACCGGTACTAATGAACCGTGAGGCTTAACCTTACAACGCCGAAGCTGTTTTGGCGG -ATTGAGAGAAGATTTTCAGCCTGATACAGATTAAATCAGAACGCAGAAGCGGTCTGATAAAACAGAATTT -GCCTGGCGGCCGTAGCGCGGTGGTCCCACCTGACCCCATGCCGAACTCAGAAGTGAAACGCCGTAGCGCC -GATGGTAGTGTGGGGTCTCCCCATGCGAGAGTAGGGAACTGCCAGGCATCAAATTAAGCAGTAAGCCGGT -CATAAAACCGGTGGTTGTAAAAGAATTCGGTGGAGCGGTAGTTCAGTCGGTTAGAATACCTGCCTGTCAC -GCAGGGGGTCGCGGGTTCGAGTCCCGTCCGTTCCGCCACTTATTAAGAAGCCTCGAGTTAACGCTCGAGG -TTTTTTTTCGTCTGTATATCTATTATTGCCAGAATCGCAAAAATCCTCTGCATTTTACGCTCTTTTTCCT -CAACAGTCTGAAGCCCATAATCACCTCAGTTAACGAAAATAGCATTAAAAGAGGCATATTATGGCTATCC -CTGCATTTGGTTTAGGTACTTTCCGTCTGAAAGACGACGTTGTTATTTCATCTGTGATAACGGCGCTTGA -ACTTGGTTATCGCGCAATTGATACCGCACAAATCTATGATAACGAAGCCGCAGTAGGTCAGGCGATTGCA -GAAAGTGGCGTGCCACGTCATGAACTCTACATCACCACTAAAATCTGGATTGAAAATCTCAGCAAAGACA -AATTGATCCCAAGTCTGAAAGAGAGCCTGCAAAAATTGCGTACCGATTATGTTGATCTGACGCTAATCCA -CTGGCCGTCACCAAACGATGAAGTCTCTGTTGAAGAGTTTATGCAGGCGCTGCTGGAAGCCAAAAAACAA -GGGCTGACGCGTGAGATCGGTATTTCCAACTTCACGATCCCGTTGATGGAAAAAGCGATTGCTGCTGTTG -GTGCTGAAAACATCGCTACTAACCAGATTGAACTCTCTCCTTATCTGCAAAACCGTAAAGTGGTTGCCTG -GGCTAAACAGCACGGCATCCATATTACTTCCTATATGACGCTGGCGTATGGTAAGGCCCTGAAAGATGAG -GTTATTGCTCGTATCGCAGCTAAACACAATGCGACTCCGGCACAAGTGATTCTGGCGTGGGCTATGGGGG -AAGGTTACTCAGTAATTCCTTCTTCTACTAAACGTAAAAACCTGGAAAGTAATCTTAAGGCACAAAATTT -ACAGCTTGATGCCGAAGATAAAAAAGCGATCGCCGCACTGGATTGCAACGACCGCCTGGTTAGCCCGGAA -GGTCTGGCTCCTGAATGGGATTAAGCCTCTCTGACAGCTCCTCCGGGAGCTGTTTTTACATGCTCGCTAA -GGAAATCGATAAAAGCCCGGATGCGCGTACTTACCGCACGGTCGCTGTAATAGACGGCACTGAATGGCAT -TTCCACTGGCAACACTTTATCTGCCATTAACTCCACCAATTCTCCGCGAGCGATTTCTTTGTCGATCATG -TAGTCGGACAAACACGCAATCCCGTTGCCACTCAGGCAAAGCTGTTTCAGTGTTTCCCCACTATTGGATG -ACAAACCGTACTTCACCTCATGTAATTGTCCATCGCTACGGGCTATCGGCCAGGTATTGAGGGAAGCGGG -TTCAGTGAATCCCAGGCAAATATGTTGCTTTAAATCGTCGATCGTTTCTGGCTTCCCGTAGCGGGAAATA -TAATCGGGGGAGGCGATAATTTTTCGATAACTGTTAAATAACGGCCTGGCACGTAAGCTGGAATCCGTTA -ACGTACCAGCGCGTATCGCGACATCCACTTTTCTTTCGATCAAATTAATAATCGTTTCGGAGGAGACTAG -CGACAAAGTGACTTCCGGATAGCGTTCACGGAAAGGCTTAATTAACGGCATCAGAAAGTGCAGCACCACT -GGAGTTGCGGCATCGATCCGTAACAGTCCACGCGGTGTATTACGCGTCTCCATAATTTCTGATTCTGCCG -CTGCCATCTCCTGCAAAATTGACTGTACGCGACGAAAATAACGCTCGCCTTCTTCCGTCAGGCTAAGTTG -TCGCGTGGTCCGATTAAGCAGGCTAACGCCAAGTTTCATCTCCAGCTTTTTCACCGCCCGGCTTACCGCT -GAGTTTGCTTGCCCTAATTGTTCCGCTGCCCGGCTAAAGCTGCCGCTTTCGACGACCGAAACAAAAATGG -CGAGTTCTTCCGACGTGGCTTTCATTTTTGCTCCTGTTGCAAAATAGAAGAGATATTTTGAATTTATTTG -TCATTAAACCATCAGGATGCGTGATATGTCATGCGATTTAATGTTCTCCATAATGAGCAAAATTCTGACC -GGTGTAAGCACTTGCTTACATAACAATATACAATTGCTCGTTGAAAGAGTGAGCTAAAATCCCTATAACA -GTAGAACCCTCCCGAGTGCGGAAGGGTTGACGTAATAGAGGTTTCAAAGTCAAAAGTGCGAAAAAACACC -TATGCCATGCGCTATGTTGCCGGACAACCTGCGGAAAGGATCTTACCGCCGGGGTCTTTTGCGAGCATCG -GCCAGGCATTACCACCTGGGGAACCGTTAAGTACCGAAGAGCGTATTCGGATCCTGGTGTGGAACATATA -CAAACAGCAACGCGCTGAATGGTTGTCGGTATTAAAGAACTACGGCAAAGATGCACATCTGGTGTTATTG -CAGGAAGCGCAGACAACGCCAGAGTTAGTACAGTTTGCGACCGCTAACTATCTTGCCGCCGATCAGGTAC -CCGCTTTCGTGCTGCCACAACATCCTTCTGGCGTAATGACCCTTTCGGCGGCACATCCAGTGTATTGCTG -CCCGTTACGTGAACGAGAACCCATTTTGCGTCTGGCGAAGTCGGCACTGGTGACGGTCTATCCATTACCT -GACACCCGCCTGTTGATGGTGGTTAATATACACGCCGTCAACTTCAGTCTGGGCGTGGATGTCTATAGTA -AGCAGTTACTTCCTATTGGCGATCAGATAGCTCACCACAGCGGCCCGGTCATTATGGCGGGAGATTTCAA -TGCCTGGAGCCGTAGAAGGATGAACGCGTTATATCGCTTTGCGCGGGAAATGTCGCTGCGCCAGGTGCGT -TTTACCGATGATCAGCGCCGTCGGGCGTTTGGTCGCCCGCTCGATTTTGTTTTCTACCGTGGTCTGAACG -TCAGTGAAGCTTCTGTACTGGTTACGCGCGCTTCCGATCACAATCCGCTACTCGTTGAATTCAGTCCCGG -CAAGCCTGATAAATAAGGTATGTCAGGTCTGCCACAGGGCAGACCAACGTTTGGCGCTGCGCAAAACGTG -AGCGCGGTGGTGGCGTATGACTTATCTGCCCACATGCTGGATGTCGTGGCACAAGCTGCCGAAGCCCGGC -AACTGAAAAATATCACCACCCGCCAGGGATATGCCGAAAGTCTGCCATTTGCCGATAACGCATTTGATAT -TGTTATCAGCCGTTATTCTGCCCATCACTGGCATGATGTTGGTGCAGCACTGCGAGAAGTGAATAGGATA -TTGAAACCTGGCGGTAGGCTGATTGTGATGGACGTAATGTCTCCGGGTCACCCAGTGCGCGACATCTGGT -TACAGACGGTAGAAGCATTACGCGATACCTCTCACGTACGAAACTACGCCAGCGGTGAGTGGTTGACGTT -AATCAATGAAGCCAATCTGATAGTTGATAATTTAATTACAGATAAGTTACCGCTGGAATTTTCTTCATGG -GTCGCGAGAATGCGTACGCCAGAAGCGTTAGTAGACGCTATTCGCATTTACCAACAGAGCGCATCGACAG -AGGTGAGAACGTATTTTGCCTTGCAGAATGATGGCTTTTTCACCAGTGATATCATCATGGTAGATGCACA -TAAAGCGGCATAAATAAAAAAGGCACCGGGGGAATCGGTGCCTTTTTATTATCTGGTTTGTCAGGAATCT -GGCATGTTGTTGTTTTTCACAAACAACGTCAGCTTATCGCCTGGTTGCAGATTCGCAGTGTCGCTGTTCC -AGCGCATCACATCTTTGATGTTCACGCCGTGGCGTTTAGCAATGCTTGAAAGCGAATCGCCTTTGCGCAC -ACGATACGTAATGCTATCGCTGTTGTTTGCCAGTCGCTGTGCGCTACTGCCTGCACCAATCGTCAAACTT -TGGCCTGGCTTCAGCTTAGATCCGCGCAGTTTGTTCCACTGCTGCAAATCTTTGGTGCTTACGCCGAGAC -GTGAAGCGATACTTGAAAGCGTGTCGCCAGAGCGTACGGTGTAAACACGGCTGTTAAGCGGCGTATTGTC -GGCAACCAGCGTCGACTGTACAGCAGCAATTTCGCCTGAAGCCAGAGATTCACGCAGTTGATCTGCATGC -TTCTTTGGCACCATCACGTACTGCGGGCCACTTGCGCCCAGCGTGGAGCCTTTTACGCCAGCGTTGAATG -TCTTCAGCTTGCTGACGGAAATCCCCGCCATATCTGCTACCTTCGCCATTTCAACCGGGCTGCTCAGGTG -CACACGCGCCAGAGCACGGCTTTCATCGGTCGTTGGCAGACGTACGCCATAACGCTTGCTGTTTTTGAGA -ATATCACTCAATGCCAGCATTTTAGGCACGTACTGCTTCGTTTCCTGCGGCAACGGTAACGACCAGAAGT -CCGTGGATTTCCCACGCGCTTTGTTCGTTTTAATTGCCTTCATGACCCGACCTTCGCCGCTGTTATAAGC -CGCTACGGTCAGAAGCCAGTCGCCGTCAAACATTTTGTTCAGACGCTGCATCATATTCAGCGCGGCAGTT -GTTGAAGCAACAACATCGCGACGCGCGTCATAATTGCGGGTCTGTTTCAAACCATAATTGCGCCCCGTGC -TCGGAATGATCTGCCAGATGCCTGCGGCATTGGCGCCAGACGTTGCGTGAGGATCAAAAGCGCTCTCCAC -TATGGGTAGTAGTACCAGTTCCATAGGCATGTTACGTTTTTTAACTTGCCCTGCTATCCAGTACATATAC -GGCTCTGCCCGTAAAGTTACATCGTGGAGATAGCTCTTATTGCGTAAATATTTCTGTTTCTGTTCGCGAA -TCCGGTCATTTTCCGGAATTCCCATCTTTAGCTCGTCGCCAATGAAAGCCCACAAGTCACCATCTGGCGC -GATAGACGTCCCATCGTCCATCCATCGTGCCTGACTTGTAAACTTTGCTGCTTCCCCTTGACCAGCTGCA -GAAAGGCTCTGTGCGTGCTGTTGAACGTTGCCGGTACTCTGGCAACCCACGAGCAGGACAGAGGCGAGTA -ATATCGCTTTTGCCTTCATGTGTGTGTCAATAGTTGCTTAAAAGACGACCGATCATAACGGCGAACGGAG -CCGATGACAAGAAAGTTTTATCAGAACCTATCTTTCTTTGACCTTAACCATGCAAAACGCTCTTCAGGTT -GTTGCAATAATGTTTCTTCATTAATTACATTAATTAAATCAATATCTTCCGTTCTTAAAAAAACATTAAT -TTGCCGCTCATTTTTCAGAATTACGGGTAGTGTTATTTGATTTTTTGCCCGTAACTCCTTAACTTTACGA -TAATAATCATTTATGGACAAATCGTGCGGAAGAATACTCAAAGCAAACTTCATATTTGATAAGGTATATT -CATGAGCACAACATACCAATGTATCGTCAGGTAACGCACTTAACTTTTTAAGTGATTGATACATTTGTGA -TGCTGTCCCTTCAAACAACCGACCACACCCACCAGAAAACAGTGTGTCGCCGCAAAATAGATAAGGTTTA -CTGAAGTAACAGATATGTCCTAAAGTGTGACCCGGCGTAGCAATTACACTAAATTCATGCCCCAAAACGA -AGGCAGTTTCGCCATCTTTGACTACCTGTGTTGTTCCCTTATCTTGTGTCTCTTGTGGACCATACACCAC -AATTTGTGGAAACTTTTCCACCAGTTCTTTTACGCCGCCAACGTGATCGTGGTGATGGTGGGTGAGAAAT -ATGGCCTCCGGTTGCCAGTTATTGGCGGCAATGGCGTTTAATACTGGCTCTGCGTCTCCGGGATCGACAA -TCAGGCAGCGACCTGCTTCATCATTCAAAACCCAGATGTAATTGTCATCAAAGGCGGGAATACTGTTAAG -ATTCATAGATTACCTCTCAGTGTGAAACGGAAGGTTGTGATGAAACCGGCAAGAGTCCCTCAAACTGTCG -TGGCTCCTGATTGCTGGGGCGATTTGCCCTGGGGAAAGCTTTATCGCAAGGCGCTGGAGCGCCAGCTCAA -CCCGTGGTTCACTAAAATGTATGGTTTTCATCTGCTTAAGATTGGCAATTTAAGCGCAGAAATCAATTGC -GAAGCGTGCGCGGTTTCTCATCAAGTGAATGTTTCTGCGCAAGGAATGCCCGTCCAGGTACAGGCGGACC -CACTTCATCTTCCTTTTGCCGATAAATCCGTTGATGTTTGTCTACTGGCACATACATTGCCGTGGTGCAC -CGATCCGCATCGTTTATTGCGTGAAGCCGATCGGGTATTGATTGATGATGGCTGGCTGGTCATTAGTGGC -TTCAATCCCATCAGTTTTATGGGATTACGCAAACTTGTGCCGGTATTGCGCAAAACCTCGCCCTATAACA -GCCGGATGTTTACTCTGATGCGGCAGCTGGACTGGCTCTCTTTGTTGAATTTTGAAGTGCTACACGCCAG -CCGTTTCCACGTTCTCCCGTGGAACAAACACGGAGGAAAACTATTGAATGCGCATATTCCTGCGCTTGGT -TGCTTACAACTTATTGTTGCCCGGAAACGGACTATTCCTTTAACGCTAAATCCGATGAAACAGAGTAAAA -ACAAGCCACGAATTCGCCAGGCGGTTGGAGCCACCCGGCAATGTCGTAAACCACAGGCTTAAACTTCAAC -TTGGTAGCCTGTATCTTCCAGTGTGGGATTCATCGCCGCGGCACGAGCCAGTTCATCACAGCGTTCGTTT -TCCGGGTGTCCGGCATGGCCTTTAACCCATTCCCATTTGATTTGATGCTGCCCCAATGCAGCATCAAGAC -GTTGCCAGAGATCGACATTTTTTACTGGTTTTTTGTCTGCGGTTTTCCAGCCACGTTTTTTCCAGTTATG -GATCCACTGGGTGATACCCTGGCGGACATACTGGCTGTCGGTACTCAAAATGACTTCGCAATGTTCTTTT -AACGCCTCCAGCGCGACAATAGCGGCCATCAACTCCATACGGTTGTTGGTGGTGCGGGTGTAGCCAGCGC -TAAAGGTTTTCTCGCGTCCGCGATAGCGTAAAATAGCGCCGTAACCCCCAGGTCCTGGATTGCCCAGACA -CGAACCATCGGTGAAAATTTCTACCTGTTTAAGCATCTCTGGTAGACTTCCTGTAATTGAATCGAACTGT -AAAACGACAAGTCTGACATAAATGACCGCTATGAGCACTGCAATTACACGCCAGATCGTTCTCGATACCG -AAACCACCGGTATGAACCAGATTGGTGCGCACTATGAAGGCCACAAGATCATTGAGATTGGTGCCGTTGA -AGTGGTGAACCGTCGCCTGACGGGCAATAACTTCCATGTTTATCTCAAACCCGATCGGCTGGTGGATCCG -GAAGCCTTTGGCGTACATGGTATTGCCGATGAATTTTTGCTCGATAAGCCCACGTTTGCCGAAGTAGCCG -ATGAGTTCATGGACTATATTCGCGGCGCGGAGTTGGTGATCCATAACGCAGCGTTCGATATCGGCTTTAT -GGACTACGAGTTTTCGTTGCTTAAGCGCGATATTCCGAAGACCAATACTTTCTGTAAGGTCACCGATAGC -CTTGCGGTGGCGAGGAAAATGTTTCCCGGTAAGCGCAACAGCCTCGATGCGTTATGTGCTCGCTACGAAA -TAGATAACAGTAAACGAACGCTGCACGGGGCATTACTCGATGCCCAGATCCTTGCGGAAGTTTATCTGGC -GATGACCGGTGGTCAAACGTCGATGGCTTTTGCGATGGAAGGAGAGACACAACAGCAACAAGGTGAAGCA -ACAATTCAGCGCATTGTACGTCAGGCAAGTAAGTTACGCGTTGTTTTTGCGACAGATGAAGAGATTGCAG -CTCATGAAGCCCGTCTCGATCTGGTGCAGAAGAAAGGCGGAAGTTGCCTCTGGCGAGCATAAATACCTGT -GAAAGGCGCTAAAAATAGCGACTTGGGCGATTTTTGCAGCAAACGATTCAAAAGATGAGAAAAACCGTTG -ACGAAGGTCGAGGCAATCCGTAATATTCGCCTCGTTCCCAACGGAACACAACGCGGAGCGGTAGTTCAGT -CGGTTAGAATACCTGCCTGTCACGCAGGGGGTCGCGGGTTCGAGTCCCGTCCGTTCCGCCACTATTCACT -CATGAAAATGAGTTCAGAGAGCCGCAAGATTTTTAATTTTGCGGTTTTTTTGTATTTGAATTCCACCATT -TCTCTGTTCAATGATTTTACTCTGGCGTAGGTGCGTGATTCTCGCTTGTTGTCTCATTCATTAAAATTCA -ATAATGATATCGAACCATTCAGCTTAAATATATTTCTAGAGAATAAATTTATATTGATTAAATGAATGTA -TATTTCAAATTGATTTTGTTTGTTATTATTTAAGTGAGGTATATAATTAGAGTCCGTTATCAATGCTAAA -TATTCTAATCATTATGACAGGCGAGGGAGTGTCCAATTATGAATTCAAAAAAGCTTTGTTGCATATGTGT -GTTATTCTCGCTGCTTGCAGGATGTGCCTCTGAATCTTCTATTGATGAAAAGAAGAAAAAAGCTCAAGTC -ACACAAAGTAATATTAATAAAAACACTCCCCAGCAACTGACAGACAAAGATTTATTCGGTAATGAAACCA -CTCTGGCCGTATCCGAAGAGGATATTCAAGCTGCGCTTGATGGAGATGAGTTCCGCGTTCCCCTTAATTC -TCCTGTAATACTTGTTCAATCCGGCAACCGCGCACCGGAAACCATTATGCAGGAGGAGATGCGAAAATAT -TATACTGTTTCCACATTCTCTGGTATCCCGGACAGGCAAAAGCCTCTGACTTGTAACAAAAACAAAGATA -AAAATGAGAACGAGGATGTTGCCAGTGCTGAGAATATGAACTGGATGCAGGCACTGCGTTTTGTGGCTGC -AAAAGGACATCAGAAAGCGATTATTGTTTACCAGGATATGTTGCAGACAGGAAAATATGACTCTGCGCTG -AAATCAACAGTATGGTCCGACTATAAAAATGACAAACTCACTGACGCTATCTCCCTGCGCTACCTGGTAC -GTTTCACGCTGGTGGATGTGGCAACAGGTGAGTGGGCTACCTGGTCGCCGGTGAATTATGAATATAAAGT -GCTTCCACCATTGCCCGACAAGAATGAAGCCAGTACGACTGATATGACAGAGCAGCAAATCATGCAACTT -AAGCAAAAGACCTATAAAGCGATGGTAAAAGATTTGGTTAACCGCTATCAATAATAAATTATATCTGCCG -CCAGGAATTTCTGGCGGCAATAATACAAAATTCTTTGCATAAGAAATTTTTCTTGACAAAGACAGTGCAA -GAAAGGACATGGAATCCGGAGTTAAAAACTGTTTGTTTTAGAATATTTAATTATTTAACTGCTGAATCTT -CCTTGCGAGAAATATATCCATTATTACATTTCATGCCATTTTTAATATAGATTGCTCCTGGGAAAATTCC -CGTATTATTACCGCAGGGGTGATAATTAGTATTGACATATCCTGTGACAAAAGGAGCTATTAAAGGTGCT -ATTACGATAGCTATTAGTAAAAATATAAGAGTTAGCTGTATTGTTATGTCTGTGGCGAAATTGACTACCT -TCGTTTTTTTGATTAAGAATGATTTTATTATCGTAAGTAAAATTACATGAATATTTAAAAAGGAAAACGA -CATGAAACCGAAGCACAGAATCAACATTCTCCAATCATAAAATATTTCCGTGGAGCATTTTATTATTGAA -TATAGAGGTTTAACTCCGGTAAAAAACAAAGAAGCATTGAATGCAGGGAAAAATAATATGGCCATAAAAA -ACATCGAAAGAAACTCTTTTAATTTAACATGTAAACGCATGGTTAATCCTCATATCACGGGTGGAGTGTT -AAGAACATACATAAATGGAGTCATGTTTTCCCTTTTCCATTTATCAAGTTCCTGTTGCCGTTTTAGTCCA -TCTCTAATTGCATATTTTAATTTTTCTGATAAATGGCATTGAGCATCGATTTCATTTAAAACAACTGTAC -ACACTATCCCTGTCAGTAAAATTGCTCCTCCGACAAGAATTACTGGAAAGCCAAAGCTAACACAGGCAAA -AGAAGCCAGACTTCCAATAGCGGTTGCAACACCACCGGCTATAACTGCTTTGGCCACATCCATTGAAAAA -TCGCCAAGAAAATTAACCAGATCTCGCTCTGAACTCATAATAAATTCTATGGTTCTGCTGATTTAACCGC -AGAGAAGTTCGCCACAGCAATCCGAAACCACTGGCACGTGGAGAATAAGCTGCACAGGCGTCTGGACGTG -GTAATGAATGAAGACGACTACAAAATAAGAAGAGGAAACGCAGCAGAATTATTTTCAGGGATACGGCACA -TTGCTATTAATATTTTGACGAATGAGAAGGTATTCAAGGCAGGGTTAAGACGTAAGATGCGAAAAGCAGC -CATGGACAGAAACTACCTGGCGTCAGTCCTTGCGGGGAGCGGGCTTTCGTAGTAATACCCCGACTCTCCC -CGTCCTTAAACACAACCCCCACTCACCACAACCTAAACTCATCCGCATCCTGCCATGCCGGAAACTTTTC -TCTATATTCCCGCAATGCTGCCATCGACAGCTCCGCATCAATGCGCGTTGCCTGATGCGCGTCGGCAGTA -GCGATAATCTCTCCTTGCGGATTAATCACCCGGCTGTCACCGCGATAATGGCAGCCGTTGCCATCGCTGC -CGACGCGATTGCATCCCGCCACATACGCCTGATTCTCAATCGCGCGGGCCGTCAGCAATGCCTGCCAGTG -CAGAGAGCGCGGAGCAGGCCAGTTGGCGACGTACAGGGCGAGGTCATAATCGTTGAGATTGCGCGACCAC -ACAGGAAAACGTAAGTCGTAGCACACCAGCGGCAAAATACGCCAGCCGCGCCATTCCACAATCACTCGCG -CATTGCCCGCTTTATAATGTAGATGCTCATCTGCCATGCGGAACAGATGACGCTTATCATAAAAATGTAC -CGTGCCGCCCGGCTCAACCAGCAAAAAGCGGTTAACCGAACCAGACTCCGTTTGTAATGCAACACTGCCT -GCAATCAGCGCATTGCACTGCTGCGCCTTAGCTGTCATCCAGTTCACTACGTCATCTTGTGCTAGCGACG -AAGCTGCCGCTTCCATGGCAAAGCCGCTGGTAAACATCTCCGGTAGAACGATCACATCGCGCCCGGTAAT -ACCTTCCAGTTGACGATCAAAATGACGCAGGTTGGCAGGACCATCCATCCACACCAGTGGTTGCTGCAAA -AGCGTAATCTTCAAACCAGGCACGGTGTACAACTCCTTTATGCGAAGGGTTTTATAACTTTAACACCTTA -TCAGGCAGTTGCCTTAGCGCAGAATAAATTGATAACAAATGCTGATATTGGAAATATCTGATTTGCAAAT -TATCGTGTTATCGCCAGGCTTTAGGAGGTTAATAACATGGGCAGGATAAGCTCGGGAGGAATGATGTTTA -AGGCAATAACGACAGTCGCCGCTCTGGTCATCGCCACCAGTGCAATGGCGCAGGATGATTTAACCATTAG -CAGCCTTGCAAAGGGCGAAACCACCAAAGCTGCATTTAATCAGATGGTACAAGGGCATAAGCTGCCTGCC -TGGGTGATGAAAGGCGGTACTTATACTCCCGCACAAACCGTAACGTTGGGAGATGAGACGTATCAGGTGA -TGAGCGCGTGCAAACCGCATGACTGTGGCTCGCAACGTATCGCTGTGATGTGGTCCGAGAAATCTAATCA -GATGACGGGGCTGTTCTCGACTATTGATGAGAAAACGTCGCAAGAGAAACTCACCTGGCTGAATGTGAAC -GATGCGCTTTCGATTGATGGTAAAACGGTGTTGTTCGCGGCGTTGACCGGCAGCCTGGAAAACCATCCGG -ATGGCTTTAATTTTAAATAATTAGCGGATAAAGAAACGGAGCCTTTCGGCTCCGTTATTCATTTACGCGG -CTTCAACTTTCCGCACTTTCTCCGGCAACTTTACCGGCTTCGTCGCCAGCTCTTCCGGATCAAAGTCATC -AACGTTAATACTGCGCAGACGGCTTTCTTCAGCTTTCACCAGAATAGCGGCTTCATCTTTATCAATCAGC -CCCTTCACCAGCGCGTTGTGCGCCAGTTCATCCAGACGGGTAAACGGCAGGTTTTTACCCAGCTCTTTAC -AGATCCGCTGATGAATTGGGTCGGCGGCAATCACATCCACCAGCGCCTCTTCCAGCAAGCCAACCGGATT -ATGCTCGCTCGGCGTCAGGTACTGACCGCGACCAATGCGGGAACGGGTGGCGTTCGGCACTTGTAAAATC -TTCGCCACTTTATGATCCAGCTTGTCAGAAGGTGCCAGATAATGACGTCCGGTCGGGAAGATCACCACAT -TCAGCAGCCCGGCAACCACGCGGTTCGGGAAGTTTTGCAGTAAATCATCCATCGCCTGTTCAGCCTGATA -CAGCGCATCTTGTACGCCCCAGTGCACCAGCGGCAGGTCGGCTTCATTACGGCCTTCGTCGTCATAACGC -TTCAGCACGGCAGAGGCGAGGTAGAGCTGGCTTAAAATATCCCCCAGACGGGCCGAGATGCGCTCGCGAC -GTTTCAGGCTGCCGCCCAGCACTGCCATCGAGACATCAGAAAGCAGGGCGAGGTTGGCGCTCAGGCGGTT -CAGGTGCTGATAGTAGCGTTTAGTGGCATCGCCGGTTGGCGTGCTGCTGGTTAAACCGCGCGTCAGGCCC -AGCCAGAAGCTGCGAACTTTGTTGCTACCGACGTGACCGATATGTTTGAACAACAGTTTATCGAACGCGT -TGACGTCATTGTTCTTCGCCGCTTCCATCTCTTCCAGCACGTACGGATGGCAACGAATCGCTCCTTGTCC -GAAGATCATCATGCTGCGGGTCAGAATGTTAGCCCCTTCAACGGTGATGGCAATCGGTGCGCCCTGGTAA -GCACGCGCCAGGAAGTTGCTTTGCCCGAGCATAATGCCTTTACCGCCGGTAATATCCATCGCATCAATAA -TCGACTGCTGCCCGCGGTGGGTACAGTGATACTTAACGATAGCCGACAGCACGGCAGGTTTTTCGCCGAG -CATAATGCCGTAGGTAATCAGCGATGCCGCAGCATCCATCACGTAGGCATTACCGGCAATACGCGCCAGC -GGCTCTTCAATCCCTTCCATCTTACCAATAGAGATTTTGAACTGACGGCGAATGTGAGCATACGCGCCGG -TTGCCAGCGCTACCGATTTCACGCCGCCGGTTGAGTTGGAAGGCAGGGTGATGCCGCGGCCTACCGAGAG -GCACTCCACCAGCATCCGCCAGCCTTGCCCGGCCATTTTCGGCCCGCCGATGATGTAATCGATCGGCACG -AAGACATCTTTACCGCGCGTCGGTCCGTTCTGGAACGGTACGTTCAGCGGGAAGTGGCGACGACCAATTT -CCACGCCCGGCGTGGTGGTTGGGATCAGCGCACAGGTAATGCCTAAATCTTCTGCACCGCCGAGTAATTT -TTCCGGGTCGGAGAGTTTAAACGCCAGCCCAAGCACGGTCGCAATCGGTGCCAGCGTAATGTAGCGTTTG -TTCCAGGTCAGACGCATCCCCAGCACCTGCTGGCCCTGCCATTCGCCCATGCAGACAATCCCGGTGTCCG -GAATCGCGCCCGCATCGGAACCCGCTTCCGGGCTGGTCAGTGCAAAGCAGGGGATCTCCTGACCACGCGC -CAGACGCGGCAGATAGTGATCTTTCTGCTCGTCAGTGCCGTAATGTTGCAACAGTTCGCCCGGGCCTAAT -GAGTTTGGCACGCCGACGGTAATCGCCAGGATCCCGCTCACGCCGGAGAGTTTTTGCAGCACGCGAGACT -GGGCATAAGCCGAGAACTCCAGCCCGCCGTACTCTTTTTTGATGATCATCGCGAAGAAACGATGCTCTTT -AAGGTACGCCCACAACTCCGGCGGCAGATCCGCCAGCTCATGGGTGATCTGGAAATCATTCGCCATCCGG -CAGGCTTCTTCTACCGGGCCGTCGAGAAACGCTTGCTCTTCGGCGGTCAGGCGCGGCTGCGGATAGTTAT -GCAGCTTTTTCCAGTCCGGCTTGCCCTGGAACAAGTCGCCCTCCCACCAGGTGGTGCCCGCATCAATCGC -TTCTTTCTCAGTGCGCGACATCGGCGGCATCACCTTACGGAAACCGCGAAATACCGGCGCGGAAATCATC -GACTTACGCATAGGCGCAAAGTTAAATGGCACGAGGATAATGGCCAGAGGCACCAGTACCCACGCCGACC -ACAGACCAGCAACGCCGAGGGCGGCTGTCCAGGCGAGCAAAATCAGACTGCTGATAAATAAGCTCACGCG -GTGATAGAACAACGCGCCGAGCAGGACAACCGTAGCGAGAATACTCAAAATCATCATAACGAAAAGCCCC -TTACTTGTAGGAGGTCTGACCACTTGTGATGATATGGTTGTAGTGGATGTAAAAACATTTAGCAATATGT -TTACAATATAATTACAACAAAGCTCACATTGTTGCTGTTTTTATCCGCACTTCAGGTCAAAAAGTCCTGG -TCATAGCACCTGCCCGTACTTCTCGCTTTTGGCGGTATCCGGTACACTGCATTTTGTCTATTACATTTAT -GCTGAAGGATATCCTCATGTACCAGGATCTTATTCGTAACGAACTGAACGAAGCGGCGGAAACGCTGGCT -AACTTTTTAAAAGATGACGCCAATATTCACGCCATTCAGCGCGCGGCGGTCCTGTTAGCAGACAGCTTTA -AAGCCGGTGGCAAAGTGCTTTCCTGCGGCAACGGCGGTTCCCATTGCGACGCTATGCACTTTGCCGAAGA -GTTGACCGGTCGCTACCGTGAAAACCGTCCGGGCTACCCGGCGATTGCTATTTCTGACGTTAGTCATATT -TCCTGCGTCGGTAATGATTTCGGTTTCAATGATATTTTCTCCCGCTACGTTGAAGCGGTAGGTCGCGAAG -GCGATGTACTGCTGGGGATCTCCACCTCCGGTAACTCTGCAAACGTGATCAAAGCGATCGCAGCGGCGCG -TGAGAAGGGAATGAAAGTGATCACCCTGACCGGTAAAGACGGCGGCAAAATGGCTGGCACGGCGGATATC -GAAATTCGCGTACCGCACTTTGGTTATGCCGACCGCATTCAGGAGATTCACATTAAAGTGATCCATATCC -TGATCCAGTTGATTGAAAAAGAGATGGTTAAGTAAGTCTGGCGTAGGCCGGATAAGACGTTTACGCCGCA -TCCGGCATTTGTGCGCTGATGCCTGATGCGACGCTGACGCGTCTTATCATGCCTACAAATCTGTACGCGA -ACCGTAGGCCGAATAATGCGTTCACGCCGCATCCGACCTGAAAATTCTTAAATCAATCTTCGCCGGGGGC -CATGCGCTCCCGCTGTTGTGGAGGTTACCCATGTGCGAATTGCTCGGGATGAGCGCCAACGTCCCTACCG -ATATCTGCTTTAGTTTCACCGGGCTTGTACAGCGTGGTGGTGGAACCGGGCCACATAAAGATGGCTGGGG -CATTACCTTTTACGAAGGTAAAGGCTGTCGCACATTTAAAGATCCACAACCCAGCTTTAATTCCCCCATC -GCCAAACTTGTCCAGGACTACCCGATAAAATCCTGTTCGGTGGTGGCTCATATTCGCCTGGCTAATCGGG -GCGAGGTGGCGCTGGAAAATACTCACCCATTTACCCGCGAGTTATGGGGGCGTAACTGGACTTATGCCCA -TAACGGACAACTGACGGGCTACAAATCACTGGAAACCGGCAACTTCCGCCCGGTAGGCGAAACCGACAGC -GAAAAAGCCTTCTGCTGGCTCCTGCATAAATTAACGCAGCGTTACCCGCGCACACCGGGCAACATGGCGG -CGGTATTTAAATATATCGCCTCACTGGCGGATGAACTGCGGCAGAAGGGCGTTTTCAACATGCTGCTTTC -GGACGGGCGCTATGTAATGGCGTATTGCTCGACTAATTTACACTGGATCACCCGCCGCGCGCCGTTTGGC -GTGGCAACGTTGCTGGATCAGGATGTGGAAATCGACTTCAGCTCGCAGACCACACCGAATGATGTGGTCA -CGGTGATTGCAACACAGCCGCTGACGGGCAATGAAACCTGGCAAAAGATTATGCCAGGCGAATGGCGCTT -ATTTTGCCTCGGGGAGCGTGTAGTTTGATGCCAGTTGTGGCTGCACAACTTCGTGGCTTAACGGCTTGCT -GACCACGTAACGACCATTGACCACAGAAACGGTTGGTGGCTTACGGGTTTGCTCAAAGTAGTCGTAACCC -GGCTTCAGTTGCTCCCAGAAGTCCTTAAAGTTGGAATATTTATGGCGCTTCATATTGGCGTCGGTCATGC -GGAACGGGTAAATACTCACTTGCACGCTCGGCTGACCAAACACCAGCGCACCAGTAACGAACTGGAATAT -CTCATCAATACCCTGATTGGTCATTGCGTAGCAGCCGATGGAAACACAATCGCCGTGGATCATCAGGTAT -TTCCCTTCATAACCATGCGCACGGTCATAGGCATTGGGGAAACCAATATTAATCGCTTTGTAGTAACGGC -TGTCTGGTTTTAACTGATTACGCTGGACGCTATAAAACCCTTCCGGGCTTTTGAAATCGCCCTGACGCTG -TTTTGGCCCTAAGCCGCCGGAATATTTACAGATTTTATAGCTGTCGAGCAGTTGATATTGCTCGCCCATT -TTGACGTAGAGATCGAGCGTACGTTCTTCCTTGAAGATCTGGATGTAGACAGGGGATCCCATCAACTGCT -GCTTATACTCTTTGCTCACAGGCGTGGTAGAGCTACTGCTGCCCAGCAAACCGGCAAATGAAACGCACGG -GATCAACAACATCGCAAGAATTAATGCGATTTTACGCATACTGCTTATTCCTTGATAAAACGGTTACACA -CGCCAGGACGGCAAAATGGATCCCAAATCGGAATAGTCTGGATTTGGAAGGCTCACATTATCACCAAAAG -AGTTTTACGCAAGCCTGTCGGCGCAGGGTTTACAAATTTCATCGGAAGCGGGCTTTACCCAAAGAGCGCC -GCGTGAGTTCCAGTTCTCTCAAATCGTAAAAGTTTATCGGTAAGTTTGTAAATCAGGATCCAGTCCGGTT -CGACATGAGCATCGCGATAACCTTTCCATGAACCTTGCAGCGGGTGGTCTTTATAAACAGCTGGAAGCGG -TAAAGTATTATTGATAAGAAGCGTCATAAGATATTTCAATTTATTCATATCCTTATGACGCTTTTGTGCA -AGTTTTACATCCTTTGAATATTGTCCCGAGTATTCAATATCCCTTTGAATCATATTTAAATTCCTAATTT -ATCAAATAAATCATCGGCGTCTTTGGCCTTATGAACATCAATGCCAGCTTCGCTGTTTTTGATTGATTGA -ATGGTTAATTGATTAGGCTCGCGTAAATCAAACGGCAATGCCTTTTCACGCGCGACCTTTGTGAGGGTTA -TGCGAACCAGGTCAGAGATGGTCAGCCCCATCCCGGCCAGTACGTCCGCTGCCTGATTCTTCAGATCTTC -ATCGATTCGGGCGCGAACAAACGCGTTAGCAGCCATTGGGGTATCTCCTGTGCTGTATATTTATTCAGCT -TGAATTGTAGCTCAAATGAGCAACAGCGACAATCCATGAGTAATTTAATAAACGGATGTTTTTACATAAT -TAACTGAAATATATATGTTAATTTTATAATAATGGTTTATTAAGTTTGTTCAGAAACGATCCGGGATACA -CTGCAACATTAAAGCATGACCAGCCATTATTGAGTATGTCCTTGCCGTCGATTCCATCCTTTGTATTGTC -TGGATTACTGTTGATTTGTTTGCCGTTTTCTTCATTTGCCAGCGCCACCACATCACATATCTCTTTCAGC -TACGCCGCCCGCCAGCGGATGCAAAACCGTGCGCGTTTATTAAAACAGTACCAAACTCATCTGAAAAAGC -AGGCCAGCTATATTGTGGAAGGCAATGCCGAAAGCAAAAGGGCGCTACGCCAGCACAACCGGGAGCAGAT -AAAACAGCATCCAGAATGGTTTCCTGCTCCGCTCAAGGCGAGTGACAGACGCTGGCAGGCGCTGGCGGAA -AACAACCACTTTTTAAGCAGCGACCATCTGCATAACATTACCGAAGTGGCGATTCACCGCCTGGAGCAGC -AGCTTGGCAAGCCTTACGTCTGGGGCGGTACGCGGCCTGATAAAGGCTTTGACTGTAGCGGGTTGGTTTT -TTATGCCTACAACAAGATCCTTGAGGCTAAGCTCCCGCGCACGGCCAATGAGATGTACCACTATCGCCGG -GCAACGATTGTGGCGAACAACGACCTGCGCCGGGGAGATTTGCTGTTTTTCCATATCCACAGCCGCGAGA -TAGCCGATCATATGGGCGTGTATTTGGGCGATGGGCAATTTATCGAGTCGCCACGTACCGGCGAAACCAT -TCGGATAAGCCGATTAGCCGAACCTTTCTGGCAGGACCATTTTTTGGGCGCGCGCAGGATTTTGACGGAA -GAGACGATTTTGTAGGACGGATAAGGCGTTTACGCCGCATCCGGCAGTTGTACGCAGGTGCCTGATGCGA -CGCTGGCGCGTCTTATCATGCCTACGAGCCCGCGAATATTTGCGAGCCGCTTTCCCGATATAAAACAACC -TCATTGCCAACCTTTCCTTTTCTTCTTACCGTTGAGAAAAAGGAGTCGCCATGTCTGAATATCGTCGTTA -TTACATCAAGGGGGGAACATGGTTTTTCACGGTGAATTTACGAAATCGTCGAAGCCAACTTTTGACCACC -CAGTACCAGATGCTCCGTCACGCCATTATTAAAGTTAAGCGAGACAGGCCTTTTGAAATCAACGCCTGGG -TCGTTTTGCCAGAGCATATGCACTGTATCTGGACATTACCTGAAGGCGATGATGATTTTTCCTCGCGCTG -GCGGGAAATTAAAAAGCAATTTACCCATGCTTGTGGATTGAAAAATATCTGGCAACCACGTTTTTGGGAG -CACGCCATCCGCAATACCAAAGATTATAGGCATCATGTTGATTATATTTATATAAATCCAGTAAAGCATG -GTTGGGTAAAGCAAGTGAGTGATTGGCCATTCTCAACGTTCCATCGCGATGTCGCGCGAGGGTTATATCC -CATCGATTGGGCGGGGGACGTAACGGATTTTAGTGCCGGGGAGCGTATCATTTCATAATTGTGCGCAGAT -GCCTGATGCGACGCTAGCGCGTCTTATCATGCCTACAAACTTGTGCCGGATCGGTAGGCCGGATAAGGCG -TTTATGCCGCATCCGGCAGTTATGCGCAGATGCCTGATGCGACGCTGGCGCGTCTTATCATGCCTACAAA -CTTGTGCCTGAACGGTAGGACGGATAAGGCGTTCACGCCGCATCCGGCAGTTGTGCACCAATGCTGGATA -CTTACATCAACGCCCCCATAATCTTCAACTCCAGCTCATCCGGCACTTCGTTATACGACAGCACATGCAG -CCCCGGCGCAAACAACCTTGCATAACGCGCCAGCAAAGGGCGCAGCTGCGGTGGCACCAGCAGCACCGGG -TCTTTCCCCGCCGCTTTCATCTGCTCTTTCACCTGTGGCATCGTACTCTGGAACTGGTTGAGCATATTCG -GATCGACCGGCACGCTGTCGAGCATCACTTTCCCGCCCTGTTGCGCCTGATTCACCACGTTGGTCAGCAG -ATTTTCCAGCTCATTATTCAGCGTATACACCGTCAGCTCCTGCTTGCGAACGAACGGATGGGTAATGCTG -CGCCGCAATGCCAGGCGCACATCGGCCGCCAGCAGAATATGATCTTTCGTCACCGTGCTACTGGCGACCA -GCACGGTGGCGATGGTGACGATATCGCGCAGGGAAACGCCTTCGGTCAGCAGCGCCCGGTACACTTTCAG -CAACTGGCTGTAATTGAGCGCCGCGCTCAAATCTTCCGCCAGACGCGGTGCCGTCGACGATAAACGGTTA -TGCAACTGCGTAATATCATCATAGTTAAACAAATCAGGAATATAGCTGCGCACAATCTTATTTACATGGG -TAGCGATCACGCTGGCGCTGTCGATCACCTGATACCCCATATTCAGCGCCTTCGCTTTCTGCGCCGCCTG -GATCCAGGTGACCGGCATCCCGTACGCCGGGTCGTTCCCCTGCACGCCGTCAATCTCGCCGTAGGTTTCG -CTGGAGGGCAGGGCCATCAGTTTATCCGCCGGAATATCCGCTTCATCAGCCTTTATGCCGTTGATGAAAA -TGGCGTACTGACTGGGCTTAAGGCGGAAGTTTTCCCGAATGCGGATCTCCGGCAGCAGCACGCCGTTGCC -GTCAGAAATCACCTGCCGCACGCCGCGAATCCGCTGGGTGAGCGGGTTACCCTGTGCTTTGTCCACCAGC -GCCACCAGTTTGTAACCGAGGCTTAAACTGATAGGCTCGATCAGCGGAATGGTTTCCCAACTGACCTGCT -GCTCGCTGGTTTCGGTGATGGTGCGGGTCAGCGTTTCGAGGCTTTTCTCTTCCGCCTCCGCCGCCAGCGG -CTGTTTGCTCATCCGCCAGCCGGTAAAACCAAGCAGGGCGCTGAACAGCAAAAACGGCAGGTGCGGCATT -CCCGGTACCACCGCCAGCACGAACATAATCCCGGTGGCGGTGTAGAGCACCGACGGGCTTGCCAGCAGCT -GGTTACGCACGTCATGGGCGATATCGCCGTTGTCGCTGACGCGGGTGACGATAATCGCCGCCGCGGTGGA -GAGCAGCAGGGAAGGGATCTGCGCCACCAGGCCGTCGCCGATGGTCATCAGCACATACTGCTGGAAGGCA -GCATCGGCGCTCAGGTTGTATTTGAAGATCCCGATACAGACGCCGCCGATCAGGTTGATCGCCAGAATCA -TCATCCCGGCGATGGCGTCCCCGCGCACAAACTTCGATGCCCCGTCCATCGCGCCGTAGAAATCGGCCTC -GCTGGCAACATCTTTACGCCGGGTTTGCGCCTGCGCCTGGTTGATCAATCCGGCGTTAAGATCGGCGTCA -ATCGCCATCTGTTTGCCGGGCATCGCGTCTAAGGTAAAGCGGGCAGAAACCTCGGAAATACGCTCGGCCC -CTTTGGTGACGACAATAAAGTTGATTGTCAACAGCGTCAGTAAATCCGAGCGTGAAAGCATTATCGCCGC -GCTGCACGGGCAGTCGATTTTTAACGGTGGTGGGCTGTCGCCGTTAAATAAAATCAGCCCGTCTCATCCG -CCAAAACCTGCCACCGTGGCGGTGCCGGAAGAGACGGAGAAAAAAGCGCGTGATGTGAATGAGAAAACGG -CGCTGCTGAAGAAGAAATCCGCCACCGAGCTTGGTGAGCTGGCAACCAGTATCAACACCATTGCCCGTGA -TGCGCATATGGAAGCGAATCTGGAGATGGAGATTGTTCCCCAGGGATTACGCGTGCTGATTAAAGACGAC -CAGAACCGCAATATGTTTGAACGCGGCAGCGCGAAGATTATGCCGTTCTTTAAAACGCTGCTGGTGGAGC -TCGCGCCAGTGTTCGACTCGCTCGATAATAAAATTATTATTACCGGGCATACCGATGCGATGGCCTACAA -AAACAATATCTACAACAACTGGAACCTTTCGGGTGACCGCGCGCTTTCGGCTCGTCGGGTGCTGGAAGAG -GCCGGAATGCCGGAAGATAAAGTGATGCAGGTAAGCGCAATGGCGGACCAGATGCTGCTGGATTCCAAAA -ATCCGCAAAGCGCGGGCAACCGGCGCATTGAGATTATGGTGCTGACCAAAAGTGCGTCCGATACGCTGTA -TCAATACTTTGGTCAGCATGGGGATAAAGTGGTGCAGCCGCTGGTGCAAAAGCTGGATAAGCAGCAGGTG -CTTTCGCAGCGAACGCGTTAAATGCTGAATCTTTACGCATTTCTCAAACCCTGAAATCACTGTATACTTT -ACCAGTGTTGAGAGGTGAGCAATGCGTAAAATCATTCATGTGGATATGGACTGCTTTTTCGCCGCAGTGG -AGATGCGCGACAATCCCGCCCTGCGCGATATCCCTATTGCTATTGGCGGCAGCCGCGAACGTCGGGGGGT -GATCAGCACCGCCAATTATCCCGCGCGTAAATTTGGCGTACGTAGCGCTATGCCGACAGGGATGGCGCTC -AAATTATGCCCACATCTCACCTTGCTTCCGGGGCGCTTTGACGCCTACAAAGAAGCCTCAAATCATATCC -GTGAAATCTTCTCGCGCTACACCTCGCGCATTGAACCGTTGTCACTGGATGAGGCTTATCTCGATGTCAC -CGATAGCGTCCATTGCCACGGTTCTGCGACCCTCATCGCCCAGGAAATCCGCCAGACAATCTTCAACGAG -CTGCAACTGACGGCGTCTGCGGGCGTGGCACCAGTAAAGTTTCTCGCCAAAATCGCCTCCGACATGAATA -AACCCAACGGCCAGTTTGTGATTACGCCGGCAGAAGTTCCGGCATTTTTACAAACCTTACCGCTGGCAAA -AATCCCCGGCGTCGGCAAAGTCTCAGCGGCAAAACTGGAAGCGATGGGGCTGCGGACCTGCGGTGATGTA -CAAAAGTGTGATCTGGTGATGCTGCTTAAACGCTTTGGCAAATTTGGCCGCATTTTGTGGGAGCGTAGTC -AGGGGATTGACGAACGCGATGTTAACAGCGAACGGTTGCGAAAATCCGTCGGCGTGGAACGCACGATGGC -GGAAGATATTCATCACTGGTCTGAATGTGAAGCGATTATCGAGCGGCTGTATCCGGAACTTGAACGCCGT -CTGGCAAAGGTAAAACCTGATTTACTGATTGCTCGCCAGGGGGTGAAATTAAAGTTCGACGATTTTCAGC -AAACCACCCAGGAGCACGTCTGGCCGCGGCTGAATAAAGCTGATCTAATCGCCACCGCGCGTAAAACCTG -GGATGAACGCCGCGGCGGGCGCGGTGTGCGTCTGGTGGGGCTGCATGTGACGTTGCTTGACCCGCAAATG -GAAAGACAACTGGTGCTGGGATTATGATGTATACTATTATGTATATTCTGGTGTGCATTATTATGAGGGT -ATCACTGTATGCATCGAATTCTCGCTGAAAAATCGGTCAATATCACTGAGTTACGTAAAAACCCAGCTAA -ATACTTTATTGATCAACCGGTTGCGGTTCTTTCTAATAATCGCCCCGCAGGATATCTCTTAAGTGCCAGC -GCATTCGAAGCGTTAATGGACATGCTTGCTGAACAAGAGGAGAAAAAGCCCATAAAGGCGCGCTTCCGTC -CAAGTGCTGCAAGATTAGAGGAAATTACACGCCGCGCTGAACAATATCTTAATGATATGACGGATGATGA -TTTCAATGACTTTAAGGAATAAGGATGCGGGTATTCAAAACAAAACTTATTCGCCTGCAACTTACAGCAG -AGGAACTTGATGCGTTAACGGCGGATTTTATTTCCTATAAGCGTGACGGTGTTTTGCCAGATATATTTGG -TCGCGATGCACTCTACGACGACTCCTTTACCTGGCCATTAATCAAATTTGAGCGAGTTGCTCATATTCAT -CTGGCAAATGAGAATAATCCATTTCCGCCACAGTTGCGCCAATTCAGCAGAACGAATGACGAAGCGCATT -TGGTATATTGTCAGGGGGCGTTTGATGAGCAAGCATGGTTGCTCATTGCCATTCTGAAACCTGAACCTCA -TAAACTGGCTCGAGATAACAACCAAATGCATAAAATTGGGAAAATGGCAGAAGCGTTTCGCATGCGTTTT -TGAATTTATATTATGAATAACATACAAATAAGAAACTATCAGCCTGGCGATTTTCAGCAACTATGCGCTA -TTTTCATTAGAGCGGTTACGATGACCGCCAGTCAGCATTATTCACCACAACAAATTTCCGCCTGGGCGCA -GATTGACGAATCTCGCTGGAAGGAGAAACTCGCGAAATCACAAGTGTGGGTTGCGATCATTAATGCACAA -CCGGTTGGTTTTATTTCCCGCATTGAACATTATATCGATATGTTATTTGTTGACCCTGAATACACCCGCC -GTGGGGTTGCCAGCGCTTTGTTAAAACCTTTGATTAAGTCTGAATCCGAACTTACGGTGGACGCAAGCAT -AACCGCAAAACCCTTTTTTGAACGTTATGGTTTTCAGACAGTTAAGCAGCAGCGCGTTGAATGCCGGGGA -GCGTGGTTTACTAATTTTTATATGCGATATAAACCGCAACATTAAATCCAGCTTGCAATGAAAATAACGC -CCGCCTGGTATGTGCGCGTTTTCTGATTCCACAAACTGCAAGGAGGTAAATCATGACAAATCCTTTATCA -ATGACTCTTTGCAGACCTTTCCAGGATTAATTCTTTTTTTCTTGCCCTGGATTCGTCTGCCATTTCCTGA -TTTTTATATTTATATACTCTAAATAATTCGAGTTGCAGGAAGGCGACAAGCGAGTGAATCGCCAGGAGCT -TACATAAGTAAGTGACTGGGGTGAACGAACGCAGTCGCAGTACATGCAACTTGAAGTATGACGAGTATAA -ATGGAATGGTACATGGGCAAATATATTCGTCCCTTATCCGATGCGGTATTTACCATCGCATCTGATGACC -TGTGGATCGAGAGTTTAGCGATCCAACAATTACACACCACGGCAAATTTACCCAACATGCAGCGCGTAGT -GGGGATGCCAGATTTACACCCCGGACGCGGCTACCCGATTGGCGCAGCGTTCTTCTCTGTTGGTCGTTTT -TACCCGGCAAGACGTCGCGGTAACGGTGCTGGAAACAGAAACGGGCCGCTACTCTGACACACTGCGTTCG -GCGCTGGTTTCTCTCGATGGCGATAACGCATGGGCATTAAGCGAAAGCTGGTGTGGCACTATTCAGTGGA -TTTGTCCGAGTCCGTATCGGCCTCATCATGGGCGCAAAAACTGGTTTCTGGGCATTGGGCGTTTTACCGC -TGATGAGCAGGAACAATCGGATGCAATCCGTTATGAGACGCTGCGTTCGTCGGGGCCGGGCGGTCAACAT -GTCAATAAAACCGACTCGGCGGTACGCGCCACGCATTTGGCATCCGGTATTAGCGTGAAGGTTCAGTCAG -AGCGTAGTCAGCATGCTAACAAGCGGCTGGCACGATTGCTGATTGCCTGGAAGCTGGAGCAACAGCAACA -GGAAAATAGCGCGGCGCTGAAATCGCAGCGGCGAATGTTCCATCACCAGATTGAACGTGGCAACCCGCGA -CGGACATTTACAGGGATGGCTTTTATCGAAGGATAATGAAGGATGAAACTGCCGGAAGGCGATTAAACGC -CATCCGGCAGCAAATCAAATAATTACTTCGCCGGAATTTCTTTCAGCAGTTCAGTCAGCAGTGTCCAGTA -ATGACCTACGCTTTCGATGTGAACTTGCTCATCCGGAGAGTGTGGACCGGTGATAGTTGGCCCGATAGAA -ACCATGTCCATTTCCGGATACGGTTTTTTGAACAGACCACATTCCAGGCCCGCGTGGATAATCTGGATGT -TCGGCGTCTTGTTGAACAGGCGCTGATAGGTTTCACGTACCAGATGCATCACCGGAGAATTAGCGTCCGG -CTGCCAGCCAGGATATGCGCCTTTCGCTTCGGTTTTCGCGCCAGCCAGTTTACCCAGCGAATCCAGCATG -CTCACCACGTAGTCTTTACCGCTGTCGATCAGTGAACGGATCAGGCAGTGAATTTCTACGTTATTGTCAG -TCATGGTCACCACACCGACGTTCAGGGAGGTTTCAACCACACCTTTGGCTACATCGGAGTTACGAATCAC -ACCGTTCGGGGTGGCGTTCAGCAGACGAATAAAGGTATCGCGAGATTTCGCAATCAGGGCAGCTTTATCG -TTCGCTACAGAGTCCAGCAACAAGGCCAGATTTTTCTCTTTTTCTGCCAGCTCGTTTTTCAGGATCTCCT -GATAGGTATTCACCAGAGATTTCAGGACGTCGACTTTATCAGCTGCGACAGCAATGGTCGCAAAGGCTTC -ACGCGGGATGGCGTTACGCAGTGTGCCGCCGTTGAAATCGATAAGGCGCAGATCCAGTTCTTCCGCATGA -CCCGCCAGGAAGCGCACCAGCAGTTTGTTGGCATTACCCAGCCCAACGTGGATTTCCCCGCCGGAGTGAC -CGCCTTTCAGACCTTTTAAGGTTAACTTGAAGGTTTCAAAACCAGCTGGAACCGCTTCACGATCTAAATG -CAGGTTGGAGGTGAAGTCGATACCCCCCGCACAACCCATGTAGATTTCACCTTCTTCTTCGGAGTCGGTG -TTAATCAGAATATCAGCCTGCAACCAGTTGCCCTGTAAGCCGAACGCACCGTCCATACCGGCTTCTTCGG -TCATGGTCAGCAGCACTTCCAGCGGGCCGTGAACCACGTTTTCGTCAGCCAGAACCGCCAGCGCAGAGGC -CATACCAATGCCGTTATCCGCACCCAGCGTGGTGCCGCGCGCTTTAACCCATTCGCCATCAATATAAGGC -TGGATAGGATCTTTCGTGAAGTCATGCACGGTGTCGTTATTTTTCTGCGGCACCATATCGAGGTGGGCCT -GTAAGACGACCGGTTTACGATTTTCCATACCTGCGGTAGCAGGTTTACGAATCAGGATATTACCTACCTG -ATCGCGTTCGACATGGAAACCTTTCTCTTTTGCCCAACCAACAATGTATTCAGCGAGTTGCTCTTCATGA -TAGGACGGGTGAGGAATAGAACAGATTTTGGCAAAAATATCCCACAGCGGCTGTGGAGATAATTGAGACA -GTTCAGACACGTTAAGTCTCCTTGTCGATCACCCGCAAAACAGTATTGCAGGTCACAGGGTTAGCAGAAA -ATGTTGTCAACACAAGACAGGCTTGCGAGATATGTTTGAGAATACCACTTTATCCCGCGTCAGGGAGAGG -CAGTGCGTAAAAAGACGCGGACTCATGTGAAATACTGGTTTTTAGTGCGCCAGATCTCTATAATCTCGCG -CAACCTATTTTCCCCTCGAACACTTTTTAAGCCGTAGATAAACAGGCTGGGACACTTCACATGAGCGAAA -AATACATCGTCACCTGGGACATGTTGCAGATCCATGCACGTAAACTCGCAAGCCGACTGATGCCTTCTGA -ACAATGGAAAGGCATTATTGCCGTAAGCCGTGGCGGTCTGGTACCGGGTGCGTTACTGGCGCGTGAACTG -GGTATTCGTCATGTCGATACCGTTTGTATTTCCAGCTACGATCACGACAACCAGCGCGAGCTTAAAGTGC -TGAAACGCGCAGAAGGCGATGGCGAAGGCTTCATCGTTATTGATGACCTGGTGGATACCGGTGGTACTGC -GGTTGCGATTCGTGAAATGTATCCAAAAGCGCACTTTGTCACCATCTTCGCAAAACCGGCTGGTCGTCCG -CTGGTTGATGACTATGTTGTTGATATCCCGCAAGATACCTGGATTGAACAGCCGTGGGATATGGGCGTCG -TATTCGTCCCGCCAATCTCCGGTCGCTAATCTTTTCAACGCCTGGCACTGCCGGGCGTTGTTCTTTTTAA -CTTCAGGCGGGTTACAATAGTTTCCAGTAAGTATTCTGGAGGCTGCATCCATGACACAGGCAAACCTGAG -CGAAACCCTGTTCAAACCCCGCTTTAAACATCCTGAAACCTCGACGCTAGTCCGCCGCTTTAATCACGGC -GCACAACCGCCTGTGCAGTCGGCCCTTGATGGTAAAACCATCCCTCACTGGTATCGCATGATTAACCGTC -TGATGTGGATCTGGCGCGGCATTGACCCACGCGAAATCCTCGACGTCCAGGCACGTATTGTGATGAGCGA -TGCCGAACGTACCGACGATGATTTATACGATACGGTGATTGGCTACCGTGGCGGCAACTGGATTTATGAG -TGGGCCACCCAGGCGATGGTGTGGCAACAAAAAGCCTGTGCGGAAGACGATCCGCAACTCAGTGGTCGTC -ACTGGCTGCATGCGGCTACGTTGTACAACATTGCCGCCTATCCTCATCTGAAAGGAGATGACCTGGCCGA -GCAAGCGCAGGCTTTGTCAAACCGCGCCTATGAAGAGGCCGCTCAGCGTCTACCGGGCACGATGCGGCAG -ATGGAGTTTACCGTACCCGGCGGTGCGCCCATCACCGGCTTTTTGCATATGCCGAAAGGCGATGGCCCGT -TCCCGACGGTATTAATGTGTGGTGGTCTGGATGCGATGCAGACGGACTATTACAGCCTGTATGAACGTTA -TTTTGCGCCGCGCGGCATTGCGATGCTGACTATTGATATGCCGTCGGTGGGCTTTTCTTCAAAATGGAAG -CTCACCCAGGACTCCAGCCTGTTGCATCAGCACGTCTTAAAGGCGCTGCCTAACGTACCGTGGGTGGATC -ACACTCGCGTCGCGGCCTTTGGTTTCCGTTTCGGCGCTAACGTTGCCGTGCGTCTGGCATACCTTGAATC -GCCGCGTCTGAAAGCGGTTGCCTGTCTTGGTCCGGTAGTTCATACCCTGTTGAGTGATTTTAAGTGCCAG -CAACAGGTGCCGGAAATGTATCTTGACGTTCTGGCCAGTCGTTTGGGGATGCATGATGCTTCCGATGAAG -CGTTGCGCGTGGAGCTGAATCGCTATTCATTAAAAGTGCAAGGATTGCTGGGACGTCGCTGCCCAACGCC -AATGTTATCAGGCTACTGGAAGAACGATCCGTTCAGCCCGGAAGAGGACTCACGCTTAATCACCTCATCA -TCTGCTGACGGTAAATTATTAGAGATCCCATTTAACCCGGTGTATCGGAATTTTGACAAAGGTCTTCAGG -AAATCACCGACTGGATCGAAAAACGCTTGTGTTAAAAATTTGCTAAATTTTGCCAATTTGGTAAAACAGT -TGCATCACAACAGGAGATAGCAATGACGTTACCGAGTGGACACCCGAAGAGCAGATTGATCAAAAAATTT -ACCGCACTAGGCCCGTATATTCGTGAAGGTAAGTGCAAAGATAATCGATTCTTTTTCGATTGTCTGGCTG -TATGCGTCAACGTGAAACCGGCACCGGAAGTGCGTGAATTCTGGGGCTGGTGGATGGAGCTGGAAGCGCA -GGAATCCCGTTTTACCTACAGTTACCAGTTTGGTCTGTTCGATAAAGCAGGCGACTGGAAGAGTGTTCCG -GTAAAAGACACTGAAGTGGTTGAACGACTGGAGCACACCCTGCGTGAGTTTCACGAGAAGCTGCGTGAAC -TGCTGACGACGCTGAATCTGAAGCTGGAACCGGCGGATGATTTTCGTGACGAGCCGGTGAAGTTAACGGC -GTGAGTGAAATGTGCCGGATGCATCACATCCGGCAATATTCATTAAAACTGATACGTCATGCCAACCGCG -ACAATATCATCATTATTAATATTCAATTTGTTATCGCTATCCAGTTGGTTGATTTTATAATCAACAAACG -CTGACATATTTTTGTTGAAATAATACGTAGCACCGACGTCGATATAATTGACCAGATCTTCATCACCGAT -ACCTTCAATATCTTTCCCTTTCGATAAGACATAACCCAGCGATGGACGCAGACCAAAGTCAAACTGGTAT -TGAGCGACCGCTTCAAAGTTCTGTGTCTTATTGGCAAAGCCGCCAGTTATTGGCGTCATTTTGCGTGTTT -CAGAATAGAAAGTTGCCAGATAAATATTATTGGCATCGTATTTCAGACCTGTTGCCCATGCTTCTGCACG -CTTGCCTGTGCCACGGCTTTGCAGGTTCTGCTCGTTGGTGCGATCTGAGTTGGTATAGGCCCCACTAATG -GCGAAATCGCTGCCGCCAAAGTCATATGTCAATGACGTGCCGAAGCCATCGCCGTTTTGCTTTTTAACGT -CGCGGTTTTCGTTTTTCCCTTGATATTGCAGGGTTAAGTTCAGGCCATCGATAACGCCGAAGAAGTCGGT -GTTCCGATACGTCGCCAGACCGCTGGCGCGTTTGGTCATAAAGTTGTCGGTCTGCGCCGAGGAATCGCCA -CCAAATTCCGGGAACATATCGGTCCAGGCTTCCACGTCATACAACGCCCCCAGGTTACGACCATAATCGA -AAGAACCCAAATCTTTATATTTCAACCCGGCAAAAGCGAGACGCGTTTTTTGCTGTGCAGTATCACTCTC -TGCTTTATTACCGGCAAACTCTGCTTCCCAACGACCATAACCAGTCAGTTGATCGTTAATTTGTGTTTCG -CCTTTGAAACCAAAACGGATATAACTCTGGTCGCCATCTTTACTGGCGTTATCACTCATATAATGCATGG -CTTTAACTTTGCCATAGACATCCAGTTTATTACCGTCTTTATTATATATTTCTGCAGCCTGTACAGATGC -AGATGCCACAATGCCCATCACCACTAATGCCAGAGTGCTCTTTTTCATTTTCATTCCTGATTTTAATTAA -CGCGCGAATATTCAGCGGGAGAGTCCCGTTGAAAACAGGAAAGTTTTTAACCTGAGATTGTTAAAGATAT -ATTACAGATTAATAATATTCTTAAAATGTGGTAATTTATTAAATCTGTAATAAAAGCGTAAACAACTGCC -GCTAGGCTTGCTGATCCCGCGCAACAAAACGCCATGCTTTGCTCGCAGATGGTTGGCAACCGACGACAGT -CCTGCTAAAACGTTCGTTTGATATCATTTTTCCTAAAATTGAATGGCAGAGAATCATGAGTGACAGCCAG -ACGCTGGTGGTAAAACTCGGCACCAGTGTGCTAACAGGCGGATCGCGCCGTCTGAACCGTGCCCATATCG -TTGAACTTGTTCGCCAGTGCGCGCAGTTACATGCCGCCGGGCATCGGATTGTTATTGTGACGTCGGGCGC -GATCGCCGCCGGACGTGAGCACCTGGGTTACCCGGAACTGCCAGCGACCATCGCCTCGAAACAACTGCTG -GCGGCGGTAGGGCAGAGTCGACTGATTCAACTGTGGGAACAGCTGTTTTCGATTTATGGCATTCACGTCG -GGCAAATGCTGCTGACCCGTGCTGATATGGAAGACCGTGAACGCTTCCTGAACGCCCGCGACACCCTGCG -AGCGTTGCTCGATAACAATATCGTTCCGGTAATCAATGAGAACGATGCTGTCGCTACGGCAGAGATTAAG -GTCGGCGATAACGATAACCTTTCTGCGCTGGCGGCGATTCTTGCGGGTGCCGATAAACTGTTGCTGCTGA -CCGATCAAAAAGGTTTGTATACCGCTGACCCGCGCAGCAATCCGCAGGCAGAACTGATTAAAGATGTTTA -CGGCATTGATGACGCACTGCGCGCGATTGCCGGTGACAGCGTTTCAGGCCTCGGAACTGGCGGCATGAGT -ACCAAATTGCAGGCCGCTGACGTGGCTTGCCGTGCGGGTATCGACACCATTATTGCCGCGGGCAGCAAGC -CGGGCGTTATTGGTGATGTGATGGAAGGCATTTCCGTCGGTACGCTGTTCCATGCCCAGGCGACTCCGCT -TGAAAACCGTAAACGCTGGATTTTCGGTGCGCCGCCGGCGGGTGAAATCACGGTAGATGAAGGGGCAACT -GCCGCCATTCTGGAACGCGGCAGCTCCCTGTTGCCGAAAGGCATTAAAAGCGTGACTGGCAATTTCTCGC -GTGGTGAAGTCATCCGCATTTGCAACCTCGAAGGCCGCGATATCGCCCACGGCGTCAGTCGTTACAACAG -CGATGCATTACGCCGTATTGCCGGACACCACTCGCAAGAAATTGATGCAATACTGGGATATGAATACGGC -CCGGTTGCCGTTCACCGTGATGACATGATTACCCGTTAAGGAGCAGGCTGATGCTGGAACAAATGGGCAT -TGCCGCGAAGCAAGCCTCGTATAAATTAGCGCAACTCTCCAGCCGCGAAAAAAATCGCGTGCTGGAAAAA -ATCGCCGATGAACTGGAAGCACAAAGCGAAATCATCCTCAACGCTAACGCCCAGGATGTTGCTGACGCGC -GAGCCAATGGCCTTAGCGAAGCGATGCTTGACCGTCTGGCACTGACGCCCGCACGGCTGAAAGGCATTGC -CGACGATGTACGTCAGGTGTGCAACCTCGCCGATCCGGTGGGGCAGGTAATCGATGGCGGCGTACTGGAC -AGCGGCCTGCGTCTTGAGCGTCGTCGCGTACCGCTGGGGGTTATTGGCGTGATTTATGAAGCGCGCCCGA -ACGTGACGGTTGATGTCGCTTCGCTGTGCCTGAAAACCGGTAATGCGGTGATCCTGCGCGGTGGCAAAGA -AACGTGTCGCACTAACGCTGCAACGGTGGCGGTGATTCAGGACGCCCTGAAATCCTGCGGCTTACCGGCG -GGTGCCGTGCAGGCGATTGATAATCCTGACCGTGCGCTGGTCAGTGAAATGCTGCGTATGGATAAATACA -TCGACATGCTGATCCCGCGTGGTGGCGCTGGTTTGCATAAACTGTGCCGTGAACAGTCGACAATCCCGGT -GATCACAGGTGGTATAGGCGTATGCCATATTTACGTTGATGAAAGTGTAGAGATCGCTGAAGCATTAAAA -GTGATCGTCAACGCGAAAACTCAGCGTCCGAGCACATGTAATACGGTTGAAACGTTGCTGGTGAATAAAA -ACATCGCCGATAGCTTCCTGCCCGCATTAAGCAAACAAATGGCGGAAAGCGGCGTGACATTACACGCAGA -TGCAGCTGCACTGGCGCAGTTGCAGGCAGGCCCTGCGAAGGTGGTTGCTGTTAAAGCCGAAGAGTATGAC -GATGAGTTTCTGTCATTAGATTTGAACGTCAAAATCGTCAGCGATCTTGACGATGCCATCGCCCATATTC -GTGAACACGGCACACAACACTCCGATGCGATCCTGACCCGCGATATGCGCAACGCCCAGCGTTTTGTTAA -CGAAGTGGATTCGTCCGCTGTTTACGTTAACGCCTCTACGCGTTTTACCGACGGCGGCCAGTTTGGTCTG -GGTGCGGAAGTGGCGGTAAGCACACAAAAACTCCACGCGCGTGGCCCAATGGGGCTGGAAGCACTGACCA -CTTACAAGTGGATCGGCATTGGTGATTACACCATTCGTGCGTAAATAAAACCGGGTGATGCAAAAGTAGC -CATTTGATTCACAAGGCCATTGACGCATCGCCCGGTTAGTTTTAACCTTGTCCACCGTGATTCACGTTCG -TGAACATGTCCTTTCAGGGCCGATATAGCTCAGTTGGTAGAGCAGCGCATTCGTAATGCGAAGGTCGTAG -GTTCGACTCCTATTATCGGCACCATTAAAATCAAATTGTTACGTAAGATCTTATCATTCTCCCACCAAAA -AATTATCTTAATGTAACAGCTGGTGTAAGTAAATTCTATCAACGAAGATCAATCTTATCTACTGACCAAA -AAGGCCTGATAGGGCTTCGCTCACTATACATCCTTGGCTGCAGGTTTAGTTGTACACCACTCCTAAATTT -AATGTGTTGGCAATGTGTTCAATAAAGCTCGAACAAATTAGCTCATTATGATCGGTTAATACTTCAACTT -CTGGTTGCATGATTGTTTGTCCGTAAAAAGATAACGCGCCTGCCGGGTAGTAGCAGGCGCATTACGCAAT -AGGTAAACAAGGGAGGAAGTTCAGAAATGTAAATCGGGAAGGTTGTACGCAATGTTCATCGTACTACGTT -GTTACGGCTTTGCCGCAACAAGCCAGTTGCCTGCCGCGCTCGCAGAATGTCTGCAGCCCGGAGATAAGGA -GATTGTTCCTGCCAGCTAAATCCCTTCCTGTCGATACGAACCAGCTCGTATTTTTCTACCAGAAAATTCA -CGGCATCGGCTAGGGTGATACCGGCATCGATGTGTTCCTTAATCACAGCCTCATTGCAGAATGGCGTGTC -GTTTATTGTCAGACCATAGTGCTGTTCCAGCAGACGTGTCAGTAACATTTGCCAGACAGCCACGGGTGAC -AGGCAGGGCTTCACCGCCCGCTGAGTTATTGCAGGTAAAGTTTTCATGTTTGCTCTCGTGTAGGTAATTA -ACGCTGAGTGGGGTAAATGGCGATGTATACGTAGCCGCAACTGCCAAGGGTGTCGGCTTCGCAGGTTAAA -TCGTTGTGGTACAGGGTAACGCAGTGGGCATGGTGGGGGCTGAGTTCACCGGTGGTCAGCATCGATTCCA -TCTGGAGGATAAAGTGCGGGAATGTTTCATCCAGCTTCCGGCATTCGATGTCACTGAACTTGCCGGTGAT -GCTGGCCCGGTCAGCCAGATAATGCAGTCGGTTGCCTTCCTGCACCAGACGGGCTCCCAGGCGCAGTGTA -ATCTCCCGCTGCAGGCCCCTGGTAGGGTTGCTCATTACAGTTCTCCACTATTGTCAGTTCAGGGTGATGC -TCATCAGGCAGGTATAGGGCCCATTGCGGTCCTGGCGGCGTTCGGCGTATACCGCGAGGACTCCGGCGAT -ATCCGGAACGTCCCTGCCGGTGTAATGACAGACGCTACCGTGCCACTGGTATTTGCCGGTGCAGTAGCGA -AAGATTCGGGACTCAGGATGCTGGCGGTATATCGTCATTGCCCTGCGTTTACTGATAATTTTCATGTAAT -ACCTCAAAGCAGACCGTGTTCTGCGAACGAATAGATTTGCCTGCCACCGACAATCAGATGGTCAGGGACA -CGGATATCCACCAGCTGAAGCACCTGAACCAGTCGCTGCGTGAGGGTTTTGTCGGCCTGGCTAGGTGTCG -TCTCGCCGGAAGGATGGTTATGCGCGAGTATCACCGCCGCCGCGTTGAAGTGCAGAGCACGTTTGACCAC -CTCCCGGGGATGCACCTCGGTGCGGTTAATCGTGCCGGTGAAGAGCGTTTCATGGGCAATCAACTGATTC -TGGTTGTCCAGATACAACACCCGGAACTCTTCCCGCTCAAGCGCGGCCATATGCAGTCGCAGCCATTCAC -GTACGGCGTGGGTAGAGGTGAAGGCTACGCCGGGCTCATGCAGGTGGCGGTCCAGAGCCCTGAGCGCCCG -CTGAATGAGACGCCGGTCCTGTGGCGTCATCTCGCCGGGTAAAAAGGAAAGCTGTTTCATCTGTTGCTCC -TTCGGTCAGTCGATAATACGCAGAATGGCGTGAGCCTCTGGATGTTGCATGGCATACTCCCGCAGGCGGT -AATAGTGTGCGGTCATCGCGTCACATTCTGTACGGCAGGCATGGTGGCTATACGCAATCAGGCAGACAGC -AATACCTGCTGCTTCTGCACTCATTTGGGCATCGTTACCGTTCAGGCAGTTAAACAGACGCCATGTCTCA -TCGTTGTCAGGCTCGGGGGACATAAATGCGCCGCCATTGCTGAGGGTGTAGAACGACCAGATACCACCGC -TGTAGCCCTCACAGAAGCGGTCCATCCAGGCGAAGATATGCGGCTCCAGGAGTAGCCACTGCGGGATAGC -GCCAAAGTACTGTGGCCAGAAATCGATACGCTGTTCATCGGGGACCGGCGTGACGGTCAGTTCAAATTCG -GGTTGGTTAGCGGGTGCGAGGTCGTGCTGCGTCTGTGTTGTCATGGGTATGTCTCCGTCAATAAAAACGC -CAGCGGCGATGGCTGGCGTATGGGGATATAAAGTGTGTTCGGGGAGGTGAATGCGGGTAAATGCTTCGCG -ATCAGCGGGTGGCCGTGTCTGTACGGATGCCTGAGGTGCGGATATAGCGGTTAAGACCTTCACCGGCATC -CGGCTCAAAGTTCCATGCCCGCCAGACCATCCGGCCTTCAGTATCACGAACCACCAGACGGAAGTGACTG -CCCTGGTCGTCTTCGAGTGTGATATTGCTGTACGTGGTAGTGACCGCTTGCGCTTGTCTCCGGGTGAAAG -GCCCCGGTGGCAGCAACACGGATTGGGTCATTTTCGGGCTCCTGATAAAAGAAAACCCCGGCAGCCTGCT -AGCTGTCGGGGTGAATTTGCTGGGGAAGATACTACTATCAGTCGTTGCTGCAGTCTCCGAGAGTGGACAG -AACTTTCTCAGCGTTCTTCCGGTCCGCAGTGAAGGTCCCTGCTTTGTGGTCATTGACGTAGACGTCGAAC -TGCCCGGCCTCAGAGATATTGCTGATGAAGTCAAACCAGGCGTTATCGCCGTTACGCCAGCCCAGGCTGG -ACGGAATAATGTACTGCTGGTGATCCATCACTACGGTGATAGTAGTGTCGTCATCGTGCGAACTGACCAT -CTTGTCATCGGCAAGGGTAAGAAAGACTGAATGCTGATAGAAACCATTCTGGTCCGGGTTCCCTGTGCAG -TTGATGGTAAACGTCTTTCCGCTGGCTTCGGTCACGCTGTATTCCGTATTGCCCTGACCGTAACCCTGCT -GCCAGAACCCCGGGATAGCAGAGGCATTAAAGCTCGCGAGCAGTACACCCGCCAGCATAAACCGACTTAG -TGAAAGTATTGTCATTCTTGTCTCCTTTGTCGTTGTTTTATTCCTGATTGTCAGGGTTCGAGGGTATCAG -TAGCTGCCCCATCAGTTTGCCGTCATGGGCGTACTCAAAGTATTTTTCTTTGGTATACGGGTCCGTCACC -TCCTGGTATTCCAGTTTGATGTTATCGGCAATACACAGCGCATTCATCAGTGGCTGGACGGTTTTTTCCT -GCATATCCACGAGGTAGTAGTAACTGCCATCCTCGCAGCCATCGGGCGACTGGCGGGTACGTAAAACCTG -CAAGGTGGGACCGGATAAGTAGTCAACCTGTGACCATTCTTCGCTGACATCATCCTGGTGGCTGACCACA -TCACTGAAACGCGGTGGGGTGAGGTCCTTAAATTTACTGATGGCCTTCAGGTCATCACTTCTGTCATCGC -ATGCGATGAGAAACAGAGTGGTGGCAACCAGCGCCAGCAGAGGCAGTGTTTTACGTTTCATTATTTTTTT -CCTGAAATCAGACGAACCACTTTGGCAAAGACATAAATGCCCACGAAAATACCCACCGGCACGCCGACGA -ACGGTGTCAGCGCGACACTGGCAGCACCGGCTGCGCCACCTCCCGTCAGCAGTGCGGCAACAGTGGCAAG -GGTCAGGGCCGCGAGACTGTCGGACACCCCGGTTTTGTTCAGAATGATGACGATGACAACAATGGCGATA -ATGGCAATATCCGGACTGATACTCCAGGTCCAGATACATCAGCCGCTCACGAAAATCACGCCGCAGCGTG -CGCACCGACACACCAAACTCAGCGGCAAGCTTACGCACACTCAGCGTTTCCCCTGCCACCAGACGGCTGA -TTATCAGTGACAGCCTGACAGCCAGCCGGTCATGGCGGCGTTCTGCCTGTGTCATGAGACGTTCTCCGTG -AAAGTTAACTGACTGAAAATGATGTGATTACTTTAAAGAGGGGGTCGGACAGGGTATGGACACCACAGAA -ACTATTTTTCATTTCTGCAAAAGCCAGAGGCAGCGGGGGTTACAGGCCTTCCCTCGGTGAGTGAGGACCG -TCAGCACGGTGCGATGCGGACAGGTGGTGTCCGATATTAACAAAGCAGCAACATTAAACGGTCACTGCAG -TTGCGTGAGCAGGGCTTCCGCCATCACCCACAGTGCCCGGTTAAGTTTCACGTCCCCGTCGATACCGCGA -ACGGCACGGGTATGTGACCGTCCTCCTTTGGCATTACGGCCACTGAGCCCGCCCTTAATCAGGTTCTCCT -GAATACGCTGGTACGTGGTCCACAGGTCATTGCTCTCATCCTGCCAGCGGCGAGGGGAGAGGATCTGCGA -TTCAGTCACCGGCTGGTGGTCTTCACCAAAGCGGTATGTGAGGGCGGCTTTTGCCAGTGCCTGCTGTGCC -GGGGGTGGCAACAGCAACGACTGCATGGCATCCCGTTTCTCCTCCACCCGGTCAAAAATCCCCAGCACCT -CATACGCGCCTTCAATCACCTGACTCACCACGTCCCCCTTGTGTGGCACCCGCACCTCGCCAAACGACTC -ACCGCAGACGAGCCCGTTCTGACAAACCGCACGAAATAGTCCCGGCAACATCTGATACGAACTGGTTCCA -TCGTGAGAGTTGAGTAGAATAATTTCCGGCACCTGTTTACCGGTGATCTGCCCTTCCCGCCGCAGACGCA -GCATATGCTTTGTATGTTCACGACGACCCGGGTCACGCACGCGGGTCTGACAGGCAAAGAATGGCTGGAA -GCCTTCTCGCTGTAGGCTGTCGAGCAGGGAGATGGTGGGTATATAGGTATAACGCTCACTACGGGACTCG -TGTTTGTCCTCACTGAATACACTGGGCACTACGCGAAACAGCTCTTCACGGGTTAACGGACGGTCGCGAC -GGATAAGGTTTGCTGCGCCAAAGCGCGAAGCCAGACGGGTCATAAGCAGACTCCTCATAACGGGAAAACA -AATAAAAGGGATCCCCGTCGCATCGGCGACAGGGGCAGGGAAGTAACAGGGATGGGTTAAATACTCAGAA -GAAGAAATCCCAGACGGCGCGGGCCACTGACACCACCGTGGTGCGCACGGCCTGAATGACGGCCCGCACC -GGGGCGGGTATCAGGGGAAAGGCACTGATGCTATCGAGTACGGCCCCGACGGTTTCACCAAAATCGCTAC -GAGCCTGTTCCCGGACTACCGTCGTGCGAAAGGAAGGATGGAGTTGCGACACCACCGGGCTGGTGGCCTC -ACGTGGCAGGCACTTAATCATCCGCTCGGCCATCACCTTAAGCCCCCATTGTAGACGGACCGACACAGCA -CACACCGGATGGACGGGCTGGAACAGCTCATGCAGCAGGCAGATTTTGCGGCTGATATTCTGCTTCTGCG -CCGTGGACAACTGTCCCCCACCGCTGGTAGGTTCGGCCTTATCCGACTGGCTGATAACAAACAGCACCTT -ATGCCGGTATACCTCTCCAATCACCTGATGATAAAAATGTTCATCCACCGTCAGCGCCCGGTCATCGGCC -TTAATCAGCCACAGTACCAGGTCGAGGCGAGGAAGCTGTTCGCGGTACAGCGCAGCATACTCGGTATCGC -GAGCGCCACTTTCGCCCACGCCGGGCAGATCCATCAGCGTTATATAGCGGTCGCCGACTTGCAGGCGAAA -GCGCAGTGGCTCACGTGTACAGGCCGCCACATCGCTGACCGGTGATATATCTCCGGCAAACAGGGCATTG -CACAGACTGCTCTTCCCAACACCGGTTTTACCCATAATGCCGATCACTGGCTCGTAGTTAGTTAACTGGT -TAATTTGCTGCAGAAGCCGCTCTGATACCCATTGCGGCAGATCAGCAAGCGATTGCTGAAACGACTTCAA -ACCTTCAGAATTATTCATCACTACTCCTCTGAAAAATAATAAAAAACGGTAGAATCGTGAGATTCCGCCG -TTAATTGCGTATGTTCAGAGTGATGATATATATCTGAAGATTTTTTCAATCCTCTGCGCTTGAGGCAGCT -GCGCGACTGCTGGCTCAGGCAATGAATGAGTTATAATAGCAGCATTTACTAACAGGGATTTATTGAGAGT -ATGAGCCGCCGTGATACACCTTAAAATCTCAACCCAGCAAAGTTTCGGAGCCGCGAGCAAAAGTGAGAGC -CTTCACAAAATAATGCTTAGTAATAAAGTTACTTTGAATTCAGAGCCCCGATTAATGTGAACATGATCAA -CGAATTTTACCCAGATTGAGTTCATTCAGTAGCCAGGTTTTGAACACATCAAGCGCAGAATGCATGTGTT -GGTGCTGGGGGAAAACCAAATAATGACCGATGTAATGTATTTCGCTGGTACTGTTTACAAGTGGGCATAC -CAGTTTACCGCTAGCGATTTCACGTTCAGCCAGTAGTTTTGATTCAAGCACAACTCCCAAGCCGTCAACT -GCGGCAGCAATCGCCATAAAGCTACGGTCAAATCGAAGGCCATAATTATTGGGTGGCGTCATCTTATTCG -CCTCAAACCATCCTTTCCACTGGTACAACTGCACATCGCACTGAATCAATGTCAACGCATAGAGATCCTC -TGGTTTCTTTAGCCGCTCAGCCAGTTGGGGAGAACACAGTGGCGTAAGTTCTTCAACAGCAAGCGGGATC -TTCTCATAGGGTGATGGGCGGGGTTCACCGTAGACTATATCGAGATCAAAATCATCCTGTTCAAAACGTG -CATATTCTGTGCTGGCTGAAAGTCGCAGATCGATGCTTGGGTTCTCACGTATGAACTTACCAAGACGTGG -TAAAAGCCATTGATGGGCAAAACTCGGTGCAGTATGAAGGCGCAAAGGCCTGGATTCATCAGCCGTCACT -AATGCCAACCCCTGCTGTAATTCGTTAAATCCCCGCTGTATGTGCTCAAGCAGTATTTCACCTTCTTTCG -TCAGCGTAATTTCTCGCGTACTGCGCTGAAAAAGGCGTACATCAAGCAAGTTTTCCAGTTTGCGGATGGC -ATGGCTGATCGCACTGGGTGACAGTTCCAACTCAGAGGCGGCCAACGCAAAAGCTCCGGTACGACCAGCC -GCTTCAAAGGCGCGTAACAGATTTAGAGGTGCTTTTGCTAAGAGCTTCATTCATGAATCCTTTTCACTAG -GGATGAAGTGGTTTACTGAATTTGGCCACCTGAACAGAGGTGATATGCTCACCTCAGAACAACACAGGTG -TCATAATGAAAAAAAGAAATTTCAGCGCAGAGTTTAAACGCGAATCCGCTCAACTGGTCGTTGACCAGAA -CTACACCGTGGCAGATGCAGCCAGCGCTATGGATGTCGGCCTTTCCACAATGACGCGATGGGTGAAACAA -TTACGTGATGAACGGCAGGGCAAAACACCAAAAGCCTCCCCCATTACCCCGGAACAAATTGAAATCCGTG -AGCTCAGGAAAAAGCTACAACGTATTGAAATGGAAAATGAAATATTAAAAAAGGCTACTGTAGATTCAAT -TGGTCAACGCAACAGTTATGTGAAAACATGGGGTTGCGGAGGTTTTTTGAATGAGACGAACATTTACAGC -AGAGGAAAAAGCCTCTGTTTTTGAACTATGGAAGAACGGAACAGGCTTCAGTGAAATAGCGAATATCCTG -GGTTCAAAACCCGGAACGATCTTCACTATGTTAAGGGATACTGGCGGCATAAAACCCCATGAGCGTAAGC -GGGCTGTAGCTCACCTGACACTGTCTGAGCGCGAGGAGATACGAGCTGGTTTGTCAGCCAAAATGAGCAT -TCGTGCGATAGCTACTGCGCTGAATCGCAGTCCTTCGACGATCTCACGTGAAGTTCAGCGTAATCGGGGC -AGACGCTATTACAAAGCTGTTGATGCTAATAACCGAGCCAACAGAATGGCGAAAAGGCCAAAACCGTGCT -TACTGGATCAAAATTTACCATTGCGAAAGCTTGTTCTGGAAAAGCTGGAGATGAAATGGTCTCCAGAGCA -AATATCAGGATGGTTAAGGCGAACAAAACCACGTCAAAAAACGCTGCGAATATCACCTGAGACAATTTAT -AAAACGCTGTACTTTCGTAGCCGTGAAGCGCTACACCACCTGAATATACAGCATCTGCGACGGTCGCATA -GCCTTCGCCATGGCAGGCGTCATACCCGCAAAGGCGAAAGAGGTACGATTAACATAGTGAACGGAACACC -AATTCACGAACGTTCCCGAAATATCGATAACAGACGCTCTCTGGGGCATTGGGAGGGCGATTTAGTCTCA -GGTACAAAAAACTCTCATATAGCCACACTTGTAGACCGAAAATCACGTTATACGATCATCGTTAGACTCA -GGGGCAAAGATTCTGTCTCAGTAAATCAGGCTCTTACCGACAAATTCCTGAGTTTACCGTCAGAACTCAG -AAAATCACTGACATGGGACAGAGGAATGGAACTGGCCAGACATCTAGAATTTACTGTCAGCACCGGCGTT -AAAGTTTACTTCTGCGATCCTCAGAGTCCTTGGCAGCGGGGAACAAATGAGAATACAAATGGGCTAATTC -GGCAGTACTTTCCTAAAAAGACATGTCTTGCCCAATATACTCAACATGAACTAGATCTGGTTGCTGCTCA -GCTAAACAACAGACCGAGAAAGACACTGAAGTTCAAAACACCGAAAGAGATAATTGAAAGGGGTGTTGCA -TTGACAGATTGAATCTACAACCGCGCTCTTGATGTCAGACTCCCTGAACAGTTCTCGATAATCGGGAAAC -TCAGGGCGCGTTATCCTGTGGCCACTCTCTGCCATGTGTTCGGGGTTCATCGCAGCAGCTACAAATACTG -GAAAAACCGTCCTGAAAAGCCAGACGGCAGACGGGCTGTATTACGCAGTCAGGTACTTGAACTGCATGGC -ATCAGCCACGGCTCTGCCGGAGCAAGAAGCATCGCCACAATGGCAACCCAGAGAGGATACCAGATGGGGC -GCTGGCTTGCTGGCAGACTCATGAAAGAGCTGGGGCTGGTCAGTTGCCAGCAGCCGACTCACCGGTATAA -GCGTGGCGGTCATGAGCACGTTGCTATCCCGAATCATCTTGAGCGACAGTTCGCCGTAACGGAACCAAAT -CAGGTGTGGTGCGGTGATGTGACCTATAGTGTGCCCGGAGTTCAGGGCGGGCATGGATGCTTAAATGAAC -CGCGAGTCTGTCTGGAATATTGAACCGGTAACTCACGATGAGAAACCCAACAATCCCACCGGGTGTGACG -GTGGAGAACCTGAGCGGCAGTGACCTGCGGCATGCCCGCAGGGTGATGTAACCCGCTGACAACGGGGATT -GAGGCGAGATCACTAAGCCGAGATGATCCTCAAGGTTAAGTACTGAAAGGTTGAAGAACATGAACCCGTT -AATCCGCCTCTGTGGGTTGAAAACGTCACCACGGCCTACGTGATCTGACAGGCCGTGCAGGAGGAACTGG -CAGTGATACGTAAGCACTGCCGGTCGAAGGTGTTTTGACATGTATGCGAAACACCGGGGCAGCAGCGTCT -ATCACGCTTGCGTTGCTGACTTCTGCCAACTTGCGGCAAGCAAGGATAAAGAGTGCGACGGGCAGCCTCC -TCAGTATGCCTGAGTCCAGGCAGGTAAACCGGGGAAGGTCAGCGACGGATGTTAAGGGGGCATGGCTCCG -ATGACGCGCTGGCTGGCGGAGCTTCCGTAGTAGTCCGCGATGGGGAAAGCCCATTACATGGCGAAGGGAA -GCAGTTTGAATGTGTTTGCGACGTGAATTAACTGACCTAACGAGGTGAAGACCTTTGATAATCAGCGAAA -TGCAACGCAAGCTTGCCACATGGGCAGCCACCGATCCGTCCCTACGGATTCAACGGCTGCTGCGTCTGAT -AACACAACCAGAATGGCTGGCTGAAGCGGCGCGGATCACGCTTTCATCAAAGGGGGCCCATACCCCCGGC -GTTGATGGCGTGAACAAAACAATGCTACAGGCCAGACTGGCTGTTGAGCTGCAAATCCTCAGGGATGAAT -TACTCTCAGGCCACTACCAGCCCTTGCCCGCCAGACGGGTTTACATCCCTAAAAGCAACGGCAAACTGCG -ACCACTGGGTATCCCCGCGTTGCGGGATCGTATTGTTCAGCGGGCCATGCTGATGGCGATGGAGCCGATA -TGGGAGAGTGATTTTCATACGCTCTCATATGGCTTCCGGCCTGAGCGCAGTGTCCACCACGCGATCCGCA -CGGTGAAATTACAGCTCACAGACTGTGGTGAAACCCGGGGACGCTGGGTGATTGAAGGCGACCTGTCCAG -TTACTTCGACACCGTACATCATCGACTGCTGATGAAGGCTGTACGCCGCAGGATCAGTGACGCACGTTTC -ATGACTCTGCTGTGGAAAACCATCAAGGCGGGACATATCGATGTCGGTCTCTTTCGGGCGGCCAGTGAAG -GTGTGCCACAGGGCGGTGTTATATCGCCGCTATTATCGAACATCATGCTGAATGAGTTCGATCAATACCT -GCATGAGCGCTACCTGAGCGGGAAAGCCAGAAAAGATCGGTGGTACTGGAATAACAGTATCCAACGGGGC -CGAAGTACGGCGGTCAGAGAAAACTGGCAGTGGAAACCCGCGGTGGCGTACTGCCGCTATGCCGATGATT -TTGTCCTCATCGTCAAAGGCACCAAAGCACAGGTGGAAGCCATCAGGGAGGAGTGTCGGGGTGTGCTCGA -AGGCAGTCTGAAACTCAGGCTGAACATGGATAAGACTAAAATCCCCCATGTTAATGACGGCTTTATCTTT -CTGGGGCACAGGCTCATTCGCAAACGCAGTCGTTATGGCGAGATGCGAGTGGTCTCAACGATCCCGCAGG -AGAAAGCCAGAAACTTCGCCGCATCGCTGACAGCACTGTTATGGAAGGTGCGAATAAGCGGGGAAATTCT -TCTCGGCTGACTCAGTCATTTCATTTCTTCATGTTTGAGCCGATTTTTTCTCCCGTAAATGCCTTGAATC -AGCCTATTTAGACCGTTTCTTCGCCATTTAAGGCGTTATCCCCAGTTTTTAGTGAGATCTCTCCCACTGA -CGTATCATTTGGTCCGCCCGAAACAGGTTGGCCAGCGTGAATAACATCGCCAGTTGGTTATCGTTTTTCA -GCAACCCCTTGTATCTGGCTTTCACGAAGCCGAACTGTCGCTTGATGATGCGAAATGGGTGCTCCACCCT -GGCCCGGATGCTGGCTTTCATGTATTCGATGTTGATGGCCGTTTTGTTCTTGCGTGGATGCTGTTTCAAG -GTTCTTACCTTGCCGGGGCGCTCGGCGATCAGCCAGTCCACATCCACCTCGGCCAGCTCCTCGCGCTGTG -GCGCCCCTTGGTAGCCGGCATCGGCTGAGACAAATTGCTCCTCTCCATGCAGCAGATTACCCAGCTGATT -GAGGTCATGCTCGTTGGCCGCGGTGGTGACCAGGCTGTGGGTCAGGCCACTCTTGGCATCGACACCAATG -TGGGCCTTCATGCCAAAGTGCCACTGATTGCCTTTCTTGGTCTGATGCATCTCCGGATCGCGTTGCTGCT -CTTTGTTCTTGGTCGAGCTGGGTGCCTCAATGATGGTGGCATCGACCAAGGTGCCTTGAGTCATCATGAC -GCCTGCTTCGGCCAGCCAGCGATTGATGGTCTTGAACAATTGGCGGGCCAGTTGATGCTGCTCCAGCAGG -TGGCGGAAATTCATGATGGTGGTGCGGTCCGGCAAGGCGCTATCCAGGGATAACCGGGCAAACAGACGCA -TGGAGGCGATTTCGTACAGAGCATCTTCCATCGCGCCATCGCTCAGGTTGTACCAATGCTGCATGCAGTG -AATGCGTAGCATGGTTTCCAGCGGATAAGGTCGCCGGCCATTACCAGCCTTGGGGTAAAACGGCTCGATG -ACTTCCACCATGTTTTGCCATGGCAGAATCTGCTCCATGCGGGACAAGAAAATCTCTTTTCTGGTCTGAC -GGCGCTTACTGCTGAATTCACTGTCGGCGAAGGTAAGTTGATGACTCATGATGAACCCTGTTCTATGGCT -CCAGATGACAAACATGATCTCATATCAGGGACTTGTTCGCACCTTCCGGAGGCGTTATGAGCTGGCGGCC -CTTTTTGTATCTGATTATTAATCCCCACCCGCTATTAAGCGCCCGGCGCGGGCATCTGCGTCTGGTGCAG -GGTTGACTTTGCATTCTGTTAACAAACGCGGTATAACAAACCTTCTTTGGATGTTTAGATGTCCATACGT -TTAGAAGGTTATATGCAAACAACACAACAAAATGCGCCACTGAAGCGCACAATGAAAACGCGTCACCTGA -TTATGCTTTCCTTGGGCGGCGTGATTGGCACAGGATTATTCTTCAATACCGGGTACATCATTTCCACCAC -TGGAGCGGCGGGAACGCTGCTGGCCTATCTGATTGGTGCGCTGGTGGTCTGGCTGGTTATGCAGTGTCTG -GGCGAGCTGTCGGTCGCGATGCCGGAGACCGGAGCGTTTCACGTTTATGCCGCGCGCTATCTTGGTCCGG -CTACCGGGTATACCGTGGCCTGGCTTTACTGGCTGACCTGGACCGTGGCGCTGGGTTCGAGCTTTACCGC -CGCTGGATTCTGTATGCAGTACTGGTTTCCACAGGTGCCGGTATGGGTCTGGTGCGTGGTGTTCTGCGCG -ATTATTTTTGGTCTGAATGTTATCTCCACGCGCTTTTTTGCCGAAGGGGAGTTCTGGTTCTCGCTGGTCA -AAGTGGTCACTATCATCGCCTTTATCATCCTCGGTGGGGCGGCGATTTTCGGCTTTATTCCGATGCAGGA -TGGCTCGCCCGCGCCGGGGCTGAGTAATATCACGGCAGAAGGCTGGTTCCCGCACGGTGGCTTACCGATT -TTGATGACTATGGTGGCAGTGAACTTTGCTTTTTCGGGTACCGAGCTTATCGGCATTGCCGCCGGTGAAA -CGGAAAACCCGCGCAAAGTTATCCCGGTAGCGATTCGTACTACCATCGCGCGACTGATTATTTTCTTTAT -CGGCACCGTGTTTGTGCTGGCAGCGCTGATCCCGATGCAGCAGGTGGGCGTGGAGAAAAGCCCGTTTGTG -CTGGTATTTGAGAAAGTAGGGATCCCGTACGCCGCTGATATTTTTAACTTCGTGATCCTGACGGCTATTC -TTTCTGCAGCGAACTCCGGGTTATATGCCTCCGGGCGCATGCTGTGGTCGTTGTCGAATGAACGTACGCT -ACCGGCCTGTTTTGCGCGAGTAACGAAAAACGGCGTGCCACTGACGGCGCTGTCGGTCAGTATGCTCGGT -GGTGTGCTGGCGCTGTTTTCCAGCGTGGTGGCCCCGGACACGGTATTTGTTGCGCTGTCGGCAATCTCCG -GGTTTGCGGTGGTAGCGGTGTGGCTGAGTATCTGCGCCTCGCATTTTGTTTTTCGTCGCCGTCATCTGCA -ACAAGGTAAGGCATTGAGTGAATTACATTATCGCGCGCCGTGGTATCCGCTGGTGCCAGTATTAGGTTTT -GTGCTGTGCCTGGTGGCCTGTGTTGGGCTGGCATTCGATCCAGCGCAGAGAATTGCGTTGTGGTGCGGGT -TACCGTTTGTTGCGTTGTGCTATGGTGCTTATTTCCTTACTCAACCCCGAAACGCAAAACAGGAGCCAGA -ACATGTCGCAGAATAATCCGTTACGCGCTCTTCTTGATAAACAGGATATCCTGCTGCTGGATGGCGCGAT -GGCGACGGAGCTGGAAGCGCGAGGGTGTAACTTAGCCGACAGCCTGTGGTCAGCCAAAGTGCTGGTAGAA -AACCCGGAGCTTATCCGCGAAGTGCATCTTGATTACTACCGGGCGGGGGCGCAATGCGCGATCACTGCCA -GCTATCAGGCGACGCCGGCGGGCTTCGCCGCGCGAGGTCTGGATGAAGCGCAGTCGAAAGCGCTGATTGG -CAAAAGCGTGGAGCTGGCGCGTAAAGCCCGTGAAGCGTATCTGGCAGAGAACCCGCAGGCGGGAACGCTT -CTGGTGGCGGGATCCGTCGGGCCTTACGGCGCGTATCTGGCGGATGGCTCTGAATACCGTGGCGATTATC -ATTGTAGCGTTGAGGCATTTCAGGCGTTTCATCGCCCGCGCGTGGAAGCCTTGCTGGATGCCGGGGCCGA -TCTGCTGGCCTGCGAAACCCTGCCGAATTTTTCCGAGATTGAGGCGTTGGCCGAGCTGTTGACCGCATAT -CCGCGTGCGCGGGCGTGGTTCTCATTTACCCTGCGCGACAGCGAACACCTGAGCGACGGTACGCCGCTGC -GTGACGTGGTTGCGTTGCTGGCGGGTTATCCGCAGGTGGTGGCGCTAGGCATTAACTGTATTGCGCTGGA -AAACACCACCGCTGCGTTGCAGCATTTACACGGTTTAACGGTGCTGCCGCTGGTGGTGTATCCGAACTCG -GGCGAGCATTACGATGCCGTGAGCAAAACCTGGCATCATCACGGTGAACATTGCGCGCAGCTGGCGGATT -ATCTGCCGCAGTGGCAGGCCGCTGGCGCACGGTTGATTGGCGGGTGCTGTCGCACCACGCCTGCGGATAT -CGCCGCGTTAAAAGCGCGAAGCTGAGGGTTTATCGGGTCTACATCGTTCATTGTAGGCCTGATAAGCGCA -GCGCATCAGGCATTGCCGGATGGCGGCACAAGCGCCTTATCCGGCCTACAAAACCACAAAACGTTATGCC -GCATCCGCCAGAACAAACATGCCGTACGGATGGATTTCAAGATAATACTGCTCGCCGACGTCCGGTTGCA -GACGCGTAGCGTTGACCTGCAATAATATCTCCTGCCCGTGCCATTCCACCGTCACTTCATACTGCGGCCC -CATATAGGCGACATGGCGGATCACGCAGCGCTGGCTCTCTTCGCCGCGATCGCTGAGCGTGATCGCTTCC -GGGCGCACACCGACCATCCCTTCACCCTGTGTACCAAAGTGCAGCGGGCGCGGCAGATGATAGCCGTAGA -TATCAACGTATCCGTCGCTGAAGGTTGCCGGGAACAGGTTGGCATCGCCCATAAAGCTCGCCATAAAGCG -GGAGGCGGGCTGGCGGTAAAGATCCTGCGGTGAGCCGATCTGCATGATGTGTCCCTTGTTCATCACCAGC -ACAGTATCAGAAACCGCAAAGGCTTCGCTCTGATCGTGGGTGACGTACAGCGAGGTGATATCAAACTGCT -TTTGCAACTCGCGGATCTTGTCGCGCATGCTGCGACGCAGGTTGGCGTCGAGGTTACTCAACGGCTCATC -AAACAGCAGCACTTTCGGCTTGAGGATCAGCGCGCGGGCCAGCGCCACGCGCTGCTGCTGCCCGCCGGAG -ATCTGATCGACAAAGCGGTCTTCGAATCCTTCCAGATCCACCATCGCCAACGCCTCTTTGACGCGGGCTT -TCAGCTCTGCGCGCGGTACGCCGAGCATTTTCAGGCCATAACCGACATTCTCTCCCAGCGACATATGCGG -GAACAGGGCATAGGACTGAAACACCATACAGATATCGCGCTGCTGAATAGAGCGATGGGTGACGTCTTCG -CCATCAATGAAAATTTGCCCTTCGCTCGGTTTTTCCAGCCCGGCAACCAGGCGCAAAATAGTGGTTTTGC -CGCAGCCGGACGGGCCGAGCAGCGTCACCATTTGCCCCTGCGGGATGGTGAGGTTGATATTGTCGATTAC -CGTATTACTGCCAAATCGTTTAGTGACGTTGCGCAGTTCAACGAAATTTTTCTGAGTCATAGTGCGCTCC -ATTACGCCTGGTTTTTGGCTTTTGAACGGGAGGTACGTGATTCACCGATCAGCCAGTCAAAGATGAAAAT -AATCGCCAGCATCACCACGATCAGAATGGAACCGTAGGCAATCGCTACACCGTATTCGCCATCTTCCACG -CGGTTGAGGATGTAAGCCGTCGCTACGCGGGTATCCGGCGTGACGAGGAACACAATGGCGCTGACGGTGG -TAATGGCGCGCACAAAGCTGTAAATCAGCGCCGAGAGGATCGCCGGGCGCAGCAGCGGCAGCAGGATGTG -CGTAATGGTACGCAGGGAACCGGCGCGCAGGCTGAGTGAGGCTTCATCGAGCGATTTATCGATTTGGCCC -GGTAATGACTCCAACTTATTGATAGTGTTTTATGTTCAGATAATGCCCGATGACTTTGTCATGCTGCTCC -ACCGATTTTGAGAACGACAGCGACTTCCGTCCCAGCCGTGCCAGGTGCTGCCTCAGATTCAGGTTATGCC -GCTCAATTCGCTGCGTATATCGCTTGCTGATTACGTGCAGCTTTCCCTTCAGGCGGGATTCATACAGCGG -CCAGCCATCCGTCATCCATATCACCACGTCAAAGGGTGACAGCAGGCTCATAAGACGCCCCAGCGTCGCC -ATAGTGCGTTCACCGAATACGTGCGCAACAACCGTCTTCCGGAGCCTGTCATACGCGTAAAACAGCCAGC -GCTGGCGCGATTTAGCCCCGACGTATCCCCACTGTTCGTCCATTTCCGCGCAGACGATGACGTCACTGCC -CGGCTGTATGCGCGAGGTTACCGACTGCGGCCTGAGTTTTTTAAATGGCGGAAAATCGTGTTGAGGCCAA -CGCCCATAATGCGGGCGGTTGCCCGGCATCCAACGCCATTCATGGCCATATCAATGATTTTCTGGTGCGT -ACCGGGTTGAGAAGCGGTGTAAGTGAACTGCAGTTGCCATGTTTTACGGCAGTGAGAGCAGAGATAGCGC -TGATGTCCGGCAGTGCTTTTGCCGTTACGCACCACCCCGTCAGTAGCTGAACAGGAGGGACAGCTGATAG -AAACAGAAGCCACTGGAGCACCTCAAAAACACCATCATACACTAAATCAGTAAGTTGGCAGCATCACCGA -GAACACAAATGGGCTAATTCGGCAGTACTTTCCTAAAAAGACATGTCTTGCCCAATATACTCAACATGAA -CTAGATCTGGTTGCTGCTCAGCTAAACAACAGACCGAGAAAGACACTGAAGTTCAAAACACCGAAAGAGA -TAATTGAAAGGGGTGTTGCATTGACAGATTGAATCTACAGCAGCTTTTTTTAATATGTCCCGTTCGTCGG -TAACCCGTTTCAGCTCTTTCTGGAGACGGCGGATCTCGGCCTGAGCATCTGACTGTTCTTTATTAGTGGA -AGAATCCGGACCGTACTTCTTTATCCAGGCATAAAGGCTGTGGGTGGTGATATCGAGACGTGTTGCAACG -CTGGCAACAGAATAACCGAGATCAACAACCTGTTTGACTGCTTCAGTTTTAAACTCTTCGGGATAACGCT -TACCGCTCATGGGCACCTCTCTTTAAGCCATTTTAAATGACTCGGAGGTGTCTGTTAAACCCGTGGCGAT -TCAAAATTGCGATATATACATACCCATGACTGCCCAGCGTATCGGCTTCACCAGTCAGCCCGTTACGGTA -CAGTGTGACACAGTGCGCGTACCTGGGATTCAGCTCACAGGAGAGCAGCATCAGCTCCAGATGTGCGACA -AAATGCGGGAAGGCTTCATCCAGTTGTAGAGTCTGCACCTCACTGAATGAGCCGGTGAATCCAGCCCGGT -CAGCCAGAAAATGCAGACGATGACCTTCCTGCACCAGTCGTGCTCCGAAACACGGTGTGATATCTCGTTT -AAGCCCCCAAGTTTGAGTAGAGTCTTTATTCATAATTTTATTCCTGTTAAAGAAGACCATGTTCGGCGAA -TGAGAATATTTGCCTGCCGCCGACAATCAGGTGGTCGGGGACATGGTGAACACTTTTTAACATCCTTTAC -CCATGGTGATCGACTTTTTCTTCAGGTCGATCACCCCCACTTTCGTGCTGTACCACCACACCTCGTAGCT -GCCGTCTTCCTGCATCTCCTTCAGCCCGACCCGTTCTCCCCTGAACGCCTTGCCTGCGCTCAGACTTACC -CCTTTCACGCTCAGCTTTCCGCTGATATCCACTTTCCTGACCATCACCCCTTCATCGTATTCCGGGGGCG -TTGTGTTGCCGCTGTACTGCCGCGCTGACGGCTGATACCGCGAGCCCGGTACCGCCATATCCAGCGCCTC -GTGCGGGCGTTCAAGGTTATAGACCGTCCGCCAGTGGTCGAAGGCGCGCTGCAGTTCACCGCTGTCTGCG -AACCATTTTCCCTGCAGCACTTCCGCCTTCAGGCTGCGGTGAAAACGCTCCAGCTTCCCCTGCGTCTGCG -GATGATAAGGCCGGGAGTGCCCCACCCGGATACCCAGGCGCATCAGCCACAGCTCCAGCGCCGTCCAGGT -GCCGGTGGTGTCGCCCCACGGTGAGCCGTTATCCATGGTCATCCGGTCCGGCAGGCCGTAACGCTCAAAC -ACGCTGACCAGCTGCTGCTGCACGGTCTCGCGCCGTTCATCGGTACAGTGCGCCAGGCACAGGGAAAAAC -GGGAGTGGTCGTCCAGCAGGGTGAGCGGATGGCAGCGTCCACCGCCAAAAGGAAAGTGGCCCTTAAAATC -CATCTGCCAGAGGCGGTTCGGCGCGTCGTGTTCGAACCGGCCCGTGGCGGGAATGCCCGGTGAAGCGCCC -GGCAGCAGGCCATGGCGGGCCATCAGGTTATGGACGGTGCTGAAGGCGGGCATGGTGTGCCCCTGGTCCT -CGAGCCAGCGCTTAATCTTGCGGGCTCCCCAGCGTTCATGACGGTCATGGGCCATACGCAGCAGGGCCGT -GATGTCGTCAGATGAGCGGTTCGGGGAATGGTGCGGAATGCGCGGGCGGTCCTGAAGACCGGCGGCACCT -TCCTGAGCCCAGCGCTGGAGCCACTTGTAGCCGGTGGCAGGTGAAATGCCGAAGCGACGGCAGAGGGAAC -GGATGTTCGCCCCGTCCTGCGAGGCGAACAAAACAAACTCAGTACGTAATGACATGGTATCTCTCGCATC -CCAGGGCATAAGCGACTCCATAAACGGGTTCTTATGCCTTAGTTGTAAGTGTCTACCATGTCCCCGAACA -AGTGTTCACTATGTCCCCGGACCGTACACCCCAAAGGGGAGAGGGGACTGCACCGAGCCATCTTTTCCCC -CTCGCCCCTTTGGGGAGAGGGCCGGGGTGAGGGGCAATATGTGATCCAGCTTAAATTTCCCGCACTCCCT -CTTCCCTTCCGATTTACCTCTCCTTGTTCTGCGTCATAGTATGATCGTTAAATAAACGAACGCTGTTCTA -TAATGTAGAACAAAATGATTCAGCAAGGAGATCTCATGCCGCAGTCCGCGTTGTTCACGGGAATCATTCC -CCCTGTCTCCACCATTTTTACCGCCGACGGCCAGCTCGATAAGCCGGGCACCGCCGCGCTGATCGACGAT -CTGATCAAAGCAGGCGTTGACGGCCTGTTCTTCCTGGGCAGCGGTGGCGAGTTCTCCCAGCTCGGCGCCG -AAGAGCGTAAAGCCATTGCCCGCTTTGCTATCGATCATGTCGATCGTCGCGTGCCGGTGCTGATCGGCAC -CGGCGGCACCAACGCCCGGGAAACCATCGAACTCAGCCAGCACGCGCAGCAGGCGGGCGCGGACGGCATC -GTGGTGATCAACCCCTACTACTGGAAAGTGTCGGAAGCGAACCTGATCCGCTATTTCGAGCAGGTGGCCG -ACAGCGTCACGCTGCCGGTGATGCTCTATAACTTCCCGGCGCTGACCGGGCAGGATCTGACTCCGGCGCT -GGTGAAAACCCTCGCCGACTCGCGCAGCAATATTATCGGCATCAAAGACACCATCGACTCCGTCGCCCAC -CTGCGCAGCATGATCCATACCGTCAAAGGTGCCCATCCGCACTTCACCGTGCTCTGCGGCTACGACGATC -ATCTGTTCAATACCCTGCTGCTCGGCGGCGACGGGGCGATATCGGCGAGCGGCAACTTTGCCCCGCAGGT -GTCGGTGAATCTTCTGAAAGCCTGGCGCGACGGGGACGTGGCGAAAGCGGCCGGGTATCATCAGACCTTG -CTGCAAATTCCGCAGATGTATCAGCTGGATACGCCGTTTGTGAACGTGATTAAAGAGGCGATCGTGCTCT -GCGGTCGTCCTGTCTCCACGCACGTGCTGCCGCCCGCCTCGCCGCTGGACGAGCCGCGCAAGGCGCAGCT -GAAAACCCTGCTGCAACAGCTCAAGCTTTGCTGAGCCGGACGATAACGATGACCATTGAGAAAATTTTCA -CCCCGCAGGACGACGCGTTTTATGCGGTGATCACCCACGCGGCGGGGCCGCAGGGCGCTCTGCCGCTGAC -CCCGCAGATGCTGATGGAATCTCCCAGCGGCAACCTGTTCGGCATGACGCAGAACGCCGGGATGGGCTGG -GACGCCAACAAGCTCACCGGCAAAGAGGTGCTGATTATCGGCACTCAGGGCGGCATCCGCGCCGGAGACG -GACGCCCAATCGCGCTGGGCTACCACACCGGGCATTGGGAGATCGGCATGCAGATGCAGGCGGCGGCGAA -GGAGATCACCCGCAATGGCGGGATCCCGTTCGCGGCCTTCGTCAGCGATCCGTGCGACGGGCGCTCGCAG -GGCACGCACGGTATGTTCGATTCCCTGCCGTACCGCAACGACGCGGCGATCGTGTTTCGCCGCCTGATCC -GCTCCCTGCCGACGCGGCGGGCGGTGATCGGCGTAGCGACCTGCGATAAAGGGCTGCCCGCCACCATGAT -TGCGCTGGCCGCGATGCACGACCTGCCGACTATTCTGGTGCCGGGCGGGGCGACGCTGCCGCCGACCGTC -GGGGAAGACGCGGGCAAGGTGCAGACCATCGGCGCGCGTTTCGCCAACCACGAACTCTCCCTGCAGGAGG -CCGCCGAACTGGGCTGTCGCGCCTGCGCCTCGCCGGGCGGCGGGTGTCAGTTCCTCGGCACGGCGGGCAC -CTCGCAGGTGGTCGCGGAGGCGCTGGGTCTGGCGCTGCCGCACTCCGCGCTGGCGCCGTCCGGGCAGGCG -GTGTGGCTGGAGATCGCCCGCCAGTCGGCGCGCGCGGTCAGCGAGCTGGATAGCCGCGGCATCACCACGC -GGGATATCCTCTCCGATAAAGCCATCGAAAACGCGATGGTGATCCACGCGGCGTTCGGCGGCTCCACCAA -TTTACTGCTGCACATTCCGGCCATCGCCCACGCGGCGGGCTGCACGATCCCGGACGTTGAGCACTGGACG -CGCATCAACCGTAAAGTGCCGCGTCTGGTGAGCGTGCTGCCCAACGGCCCGGACTATCACCCGACCGTGC -GCGCCTTCCTCGCGGGCGGCGTGCCGGAGGTGATGCTCCACCTGCGCGACCTCGGCCTGCTGCATCTGGA -CGCCATGACCGTGACCGGCCAGACGGTGGGCGAGAACCTTGAATGGTGGCAGGCGTCCGAGCGCCGGGCG -CGCTTCCGCCAGTGCCTGCGCGAGCAGGACGGCGTAGAGCCGGATGACGTGATCCTGCCGCCGGAGAAGG -CAAAAGCGAAAGGGCTGACCTCGACGGTCTGCTTCCCGACGGGCAACATCGCGCCGGAAGGTTCGGTGAT -CAAGGCCACGGCGATCGACCCGTCGGTGGTGGGCGAAGATGGCGTATACCACCACACCGGCCGGGTGCGG -GTGTTTGTCTCGGAAGCGCAGGCGATCAAGGCGATCAAGCGGGAAGAGATTGTGCAGGGCGATATCATGG -TGGTGATCGGCGGCGGGCCGTCCGGCACCGGCATGGAAGAGACCTACCAGCTCACCTCCGCGCTAAAGCA -TATCTCGTGGGGCAAGACGGTGTCGCTCATCACCGATGCGCGCTTCTCGGGCGTGTCGACGGGCGCCTGC -TTCGGCCACGTGTCGCCGGAGGCGCTGGCGGGCGGGCCGATTGGCAAGCTGCGCGATAACGACATCATCG -AGATTGCCGTGGATCGTCTGACGTTAACTGGCAGCGTGAACTTCATCGGCACCGCGGACAACCCGCTGAC -GCCGGAAGAGGGCGCGCGCGAGCTGGCGCGGCGGCAGACGCACCCGGACCTGCACGCCCACGACTTTTTG -CCGGACGACACCCGGCTGTGGGCGGCACTGCAGTCGGTGAGCGGCGGCACCTGGAAAGGCTGTATTTATG -ACACCGATAAAATTATCGAGGTAATTAACGCCGGTAAAAAAGCGCTCGGAATTTAATTATTTTAAGAGAT -AAAACCGTCTGCGGAATATTTCCCGCAGACGGCTTTGTTGTTTTTGAAATTTATTAATTTAAACAATTAG -TTGAGATATATCGTTGGCGTCACAAAAGCAAAATAACGTAATTCGGAAATAAGATATGACCATTGCTGGT -TAATTGAATAGCTCATTACACTCCATTAACACGATGTTGTAATTCGGCACACTACATAAGGGTGTAATTC -TGATGACGCAATTAACCATGAAAGACAAAATTGGCTACGGGCTGGGAGACACCGCCTGCGGCTTCGTCTG -GCAGGCCACGATGTTCCTGCTGGCCTATTTCTACACCGACGTCTTCGGCCTGTCGGCGGGGATTATGGGC -ACGCTGTTTTTGGTCTCCCGCGTGCTCGACGCCGTCACCGACCCGCTGATGGGGCTGCTGGTAGACCGCA -CCCGCACGCGGCACGGCCAGTTCCGCCCGTTCCTGCTGTGGGGGGCCATCCCGTTCGGCATCGTCTGCGT -GCTGACCTTCTACACGCCGGACTTCTCCGCACAGGGCAAGATCATCTACGCCTGCGTGACCTACATTCTC -CTGACCCTGGTCTACACCTTCGTTAACGTGCCGTACTGCGCCATGCCGGGCGTCATCACCGCCGACCCGA -AAGAGCGTCACGCCCTGCAGTCCTGGCGCTTCTTCCTGGCGGCGGCGGGCTCGCTCGCTATCAGCGGCAT -CGCGCTGCCGCTGGTGAGCATCATCGGCAAAGGGGACGAGCAGGTGGGCTACTTCGGCGCCATGTGCGTG -CTGGGGCTGAGCGGCGTGGTGCTGCTCTACGTCTGCTTCTTCACGACCAAAGAGCGCTACACCTTTGAGG -TGCAGCCGGGCTCGTCGGTGGCGAAAGACCTTAAGCTGCTGCTGGGCAACAGCCAGTGGCGCATCATGTG -CGCGTTCAAGATGATGGCGACCTGCTCCAACGTGGTGCGCGGCGGGGCGACGCTCTACTTCGTGAAATAC -GTGATGGATCACCCGGAGTTGGCGACCCAGTTTTTACTTTACGGCAGCCTCGCCACCATGTTCGGCTCGC -TTTGCTCCTCACGCCTGCTGGGCCGCTTCGACCGCGTCACCGCCTTCAAGTGGATCATCGTCGCCTACTC -GCTGATCAGCCTGCTGATTTTCGTCACCCCGGCGGAGCACATCGCGCTCATTTTTGCCCTCAACATCCTG -TTCCTGTTCGTCTTTAATACCACCACGCCGCTGCAGTGGCTGATGGCTTCTGACGTGGTGGACTACGAGG -AGAGCCGCAGCGGTCGCCGCCTCGACGGGCTGGTGTTCTCCACCTACCTGTTCAGCCTGAAGATTGGCCT -GGCGATTGGCGGGGCGGTGGTGGGCTGGATCCTGGCGTACGTCAACTATTCCGCCAGCAGCAGCGTGCAG -CCGGTTGAGGTGCTCACCACCATCAAAATTCTGTTCTGCGTGGTGCCGGTGGTGCTCTACGCGGGCATGT -TCATCATGCTGTCGCTCTACAAGCTCACCGATGCCCGCGTGGAGGCCATCAGCCGGCAGCTGATTAAGCA -CCGCGCGGCGCAGGGCGAGGCCGTTCCCGACGCCGCGACAGCCGCATCCCATTAACCGGAGGCAATATGG -AAATCACTAACCCGATACTCACCGGCTTCAACCCGGACCCGTCCCTGTGCCGCCAGGGCGAGGACTACTA -CATCGCCACCTCGACCTTCGAGTGGTTCCCGGGCGTGCGCATCTACCACTCCCGTGACCTGAAAAACTGG -TCGCTGGTCAGCACCCCGTTGGACCGCGTGTCGATGCTGGACATGAAGGGCAACCCGGACTCCGGCGGCA -TCTGGGCGCCGTGCCTGAGCTACGCCGACGGTAAATTCTGGCTGCTCTACACCGACGTGAAGATTGTCGA -CTCGCCGTGGAAAAACGGCCGCAACTTCCTCGTCACCGCGCCCTCCATCGAGGGGCCATGGAGCGAGCCA -ATCCCGATGGGCAACGGCGGGTTTGACCCGTCCCTGTTCCACGACGACGATGGCCGCAAATACTATATCT -ACCGCCCGTGGGGGCCGCGCCACCACAGCAACCCGCACAACACCATCGTGTTACAGGCGTTTGACCCGCA -GACCGGCACGCTCTCGCCCGAGCGCAAAACGCTGTTTACCGGCACGCCGCTCTGCTACACCGAAGGCGCG -CACCTGTATCGCCACGCGGGATGGTACTACCTGATGGCCGCCGAGGGCGGCACCAGCTACGAGCACGCCG -TCGTGGTGCTGCGTTCCAAAAATATCGACGGGCCGTACGAGCTGCACCCGGACGTAACGATGATGACCAG -CTGGCACCTGCCGGAGAACCCGCTGCAGAAGAGCGGCCACGGCTCGCTGCTGCAGACGCATACGGGTGAA -TGGTACATGGCCTACCTCACCAGCCGCCCGCTGCGCCTGCCCGGCGTGCCGCTGCTGGCCTCCGGCGGAC -GCGGCTACTGCCCGCTGGGGCGCGAGACCGGCATCGCCCGCATTGAATGGCGCGACGGCTGGCCGTACGT -GGAAGGCGGCAAGCACGCGCAGCTGACCGTGAAAGGCCCGCAAGTAGCCGAGCAGCCTGCAGCCGTTCCG -GGCAACTGGCGGGACGATTTCGACGCCAGTTCGCTTGACCCGGAGCTGCAGACCCTGCGCATTCCGTTCG -ACGACACCCTCGGCTCGCTCACCGCGCGCCCGGGCTTCTTACGGCTCTATGGCAACGACTCGCTCAATTC -GACCTTCACCCAATCGACCGTGGCGCGCCGCTGGCAGCACTTCGCCTTCCGGGCAGAAACGCGGATGGAG -TTCTCGCCGGTGCACTTCCAGCAGAGCGCGGGGCTGACCTGCTACTACAACAGCAAAAACTGGAGCTACT -GCTTTGTGGACTACGAGGAGGGACAGGGTAGAACCATCAAAGTTATCCAGCTCGACCACAACGTGCCGTC -GTGGCCGCTGCACGAGCAGCCCATTCCGGTGCCGGAACATGCGGAGAGCGTCTGGCTGCGGGTGGACGTG -GATACGCTGGTCTACCGCTACAGCTACTCGTTTGATGGCGAGACGTGGCACACCGTGCCGGTGACGTATG -AGGCGTGGAAGCTGTCGGACGACTACATCGGCGGGCGCGGCTTCTTCACCGGCGCGTTTGTGGGCCTGCA -CTGCGAGGACATCAGCGGCGACGGCTGCTACGCGGACTTCGACTACTTCACCTACGAGCCGGTCTAACGG -CTCAGGCCGGGTAGCCCAGCGCGCGCGAGAGCGCGAGCCCGGCCTGCTGAAGCTGCTCGCGGAAATTAGC -CAGCTCCGCGTCGTCCACGCGGGAGGTCAGCGTCGACAGGCTCAGGGCGGCGATGACGCGGGACTCGTGG -TTCCACACCGGCACCGCCACGCAGCGCACGCCCTGCTCGTTCTCTTCGCTGTCCAGGGCGTAGCCTTGCT -CGCGGGTCTGCGCCAGGGCGCTCATTAAGGCTTCGCGAGACGCGAGGGTGGCGGGCGTAAAGGTAGTGTA -CTGATAGCCCTCCAGTGTACTGCACCCATTTTGTTGGACGATGAAATGGAATAGCCCCTAATATGTCAAA -GCCAAAATACCCTTTTGAAAAGCGCCTTGAAGTCGTGAATCACTACTTCACAACTGATGATGGTTACAGG -ATCATCTCGGCACGTTTTGGTGTCCCCCGAACCCAGGTCAGGACATGGGTTGCCCTCTATGAAAAACATG -GAGAAAAAGGTTTAATTCCCAAACCTAAAGGCGTTAGTGCTGATCCAGAGTTGCGTATTAAGGTCGTGAA -AGCTGTGATCGAGCAGCACATGTCCCTTAATCAGGCTGCTGCTCACTTTATGCTTGCTGGTAGTGGTTCT -GTAGCCAGGTGGCTGAAGGTCTATGAAGAGCGCGGAGAAGCTGGTTTACGCGCGCTCAAGATTGGCACCA -AAAGAAACATTGCAATATCAGTTGATCCAGAAAAAGCGGCATCAGCATTGGAGCTGTCAAAAGACCGACG -CATTGAGGATCTTGAAAGGCAAGTTCGATTTCTTGAAACGCGGCTTATGTATCTAAAAAAGCTGAAAGCC -TTAGCTCATCCCACGAAAAAGTGAAAGTACTCAACGAGCTAAGGCAGTTTTATCCTCTTGATGAGCTTCT -CAGGGCTGCGGAGATACCGCGCAGTACGTTTTATTATCATCTAAAGGCTCTCAGCAAGCCTGACAAGTAT -GCGGACGTTAAAAAGCGTATTAGTGAGATTTATCACGAGAATAGAGGCCGATACGGATACCGTAGGGTAA -CGCTGTCTCTTCATCGAGAAGGGAAACAGATTAACCATAAAGCTGTTCAGCGCCTGATGGGAACCCTCTC -ACTTAAAGCAGCGATTAAGGTCAAGCGATACCGCTCTTACAGAGGAGAGGTAGGGCAAACCGCCCCTAAT -GTTCTCCAAAGAGATTTCAAGGCTACGCGGCCAAACGAGAAGTGGGTTACCGATGTTACTGAATTTGCAG -TCAATGGGCGCAAGCTGTATTTGTCTCCAGTAATAGATCTCTTCAACAACGAAGTTATTTCTTACAGCCT -TTCGGAAAGACCAGTGATGAACATGGTTGAGAATATGCTCGATCAGGCATTCAAAAAGCTTAATCCTCAC -GAGCATCCTGTTCTGCACTCTGACCAGGGATGGCAGTATCGTATGAGAAGATATCAAAATATCCTTAAAG -AACATGGTATTAAACAAAGCATGTCCAGAAAAGGCAATTGTCTGGATAATGCTGTGGTGGAGTGTTTCTT -TGGAACCTTAAAGTCGGAGTGTTTTTATCTTGATGAGTTCAGTAATATAAGCGAACTGAAGGATGCTGTT -ACGGAATATATTGAATACTACAACAGCAGAAGAATTAGCCTGAAATTAAAAGGTCTGACTCCAATTGAAT -ATCGGAATCAGACCTATATGCCTCGTGTTTAACTGTCCAACTTTTTGGGGTCAGTACACAGCAGGGCGTT -CAGCTCGGCCTCGCCCAGCCAGGCAATCAACACCTTGCCGATGGCGGTGGCGTGCACCGGCAGGCGGCGG -CCGATGCGTGAATAGGCGATGGCGGCCAGCTTGCCTTCAATCTTCTCGATATAGACCCCTTCACGCCCGT -CCAGGATCCCCAGATGGGTGGTCTGCCCGGTCCGCCGGGACAGCTCCGTCAGCCAGCCTTTTGCCTTCTG -CCGAATATCGATGGAGCCCACGACAAAATGGCCGCGCTCGACCAGCTTCATGCCGAGGCGATACTTGCCG -TTCTCCGGGTTCTGATCGATATAGCCGTGAAGCTGCAGGGTTTTTAGCAGCGAGTGGAGGGTACTCTTGC -TCAGCCCCATCAGTTTGCTGATGTCGGTGATCTTAAGCTCGGTGGCCTGCTCGTTGAACAGGTCGAGGAT -CTGCAACGCACGTTCAACAGACTGAATAATCGGCATAATGCTGGCATGTCCACGCTGGAATTAAGGCGAA -AACGTACCTTTTTCGGGATGAAAAATCAATGAAATGGAGCCGGTGTTCTCCCTCTCCCTGTGGGAGAGGG -CCGGGGTGAGGGCACCAACGCGCAGCGGACCCAATCACTCCCCAAGCGTTGCCATCATCACCGCCTTAAT -CGTATGCATCCGGTTTTCCGCCTGGTCGAACACGATGCTCGCCGCCGACTCAAACACCTCGTCCGTCACC -TCCATCCCGCCGTGCAGATCGAACTCCTTCGCCATCTGCTTGCCGAGCGTAGTCTGGTCGTCATGGAACG -CCGGCAGACAGTGCAGGAACTTCACGTTCGGGTTGTCGGTCAGCGCCATCATCTGCGCGTTCACCTGATA -CCCGCGCAGCAGCGCAATCCGCTCTGCCCACTTCTCTTTGGCCTCGCCCATCGACACCCACACGTCGGTA -TAGATAAAGTCCGCGCCCTTAACGCCTGCCGCCACGTCTTCCGTCAGAGTAATTTTCCCGCCGTGCTTCT -CCGCCAGCGCGCTGCACTCCGCCACCAGGCTCTCTTCCGGCCAGCAGGCTTTCGGGGCCAACAGGCGCAG -ATCCAGCCCGGTCAGCGCCGCCGCTTCCAGCATCGAGTTGCCCATGTTGTTGCGCGCATCGCCCGCGTAG -ACCAGCGTCATCTCGTTAAACGCCTTGCCCGGCAGGTGCTCCTGCATGGTCATCAGGTCCGCCAGCAGCT -GGGTCGGGTGGAACTCGTTGGTCAGCCCGTTCCACACCGGCACGCCCGCATACTGCGCCAGCGTTTCGAC -CACTTCCTGGCCGTGACCGCGATACTGAATGCCGTCATACATCCGCCCGAGAACCCGCGCGGTGTCCTTA -ATTGACTCTTTATGCCCAATCTGGCTGCCGCTCGGCCCTAAATAGGTAACGCGCGCGCCCTGGTCAAATG -CGGCAACTTCGAAAGAGCAACGGGTACGAGTCGAGTCTTTTTCGAAGATGAGCGCGATGTTTTTACCGGT -AAGCTTCTGTACTTCCTTGCCATTTTTTTTATCGGCTTTGAGCTGTGCGGCAAGGGTCAGCAGAGAAGTG -AACTGTGCAGGGGTAAAGTCGAGCAGTTTCAGAAAGTGTTTTTTGTATAAATCGGACATTTTATCCTCGC -ATGGCGAACGCCACTTATTGAATTAAAATTCACTTTATATGTGTAATTATTCATTTGCAACCCCATTTCA -CAATTCTTTCTTACAAAGGTGGAGGCAAACCCGTCCGTGTGTGAAAATAATCGTATCTGCCTCCGATTCT -CTGCAGAAGCAGAAAGACATTGGATCGAATTCTACAACCAGGTCGAGTCAGAAATGAGAATGATTGGCCT -TCTTTATGATTTTAAGGATTATGCTTCTAAAATGGCGGAGAACATGGCGAGGCTTGCTGCCTTACTTCAT -TACTTCAGCGGTGATGGAGGCGATATATCTGTTACCGGGTAATGACTCCAACTTATTGATAGTGTTTTAT -GTTCAGATAATGCCCGATGACTTTGTCATGCTGCTCCACCGATTTTGAGAACGACAGCGACTTCCGTCCC -AGCCGTGCCAGGTGCTGCCTCAGATTCAGGTTATGCCGCTCAATTCGCTGCGTATATCGCTTGCTGATTA -CGTGCAGCTTTCCCTTCAGGCGGGATTCATACAGCGGCCAGCCATCCGTCATCCATATCACCACGTCAAA -GGGTGACAGCAGGCTCATAAGACGCCCCAGCGTCGCCATAGTGCGTTCACCGAATACGTGCGCAACAACC -GTCTTCCGGAGCCTGTCATACGCGTAAAACAGCCAGCGCTGGCGCGATTTAGCCCCGACGTATCCCCACT -GTTCGTCCATTTCCGCGCAGACGATGACGTCACTGCCCGGCTGTATGCGCGAGGTTACCGACTGCGGCCT -GAGTTTTTTAAATGGCGGAAAATCGTGTTGAGGCCAACGCCCATAATGCGGGCGGTTGCCCGGCATCCAA -CGCCATTCATGGCCATATCAATGATTTTCTGGTGCGTACCGGGTTGAGAAGCGGTGTAAGTGAACTGCAG -TTGCCATGTTTTACGGCAGTGAGAGCAGAGATAGCGCTGATGTCCGGCAGTGCTTTTGCCGTTACGCACC -ACCCCGTCAGTAGCTGAACAGGAGGGACAGCTGATAGAAACAGAAGCCACTGGAGCACCTCAAAAACACC -ATCATACACTAAATCAGTAAGTTGGCAGCATCACCGAATTTTCAGCCCGGATGTTTCACGTACCTATGTC -GAATATCTGGCCGATAAGGTTGCGGATCGAGAAGAGGATGCAGAGGAATATCTGGAAGCAATCATGGAGG -CTCGTGTTACCGTTGCTGGCATGGGGCTGGTGATGGAGGTGCAGGATTACTTCGATGGCGAGGCCGATAG -ACTGGCGAAGGCGTGGCTGGCCGAGTACACACCGCAAATCAAGTCGTTGAAAGATGAGCGTAAAGAGGCC -TATCGTCAAATCGTCGAAATGAGTACCGAACCGCAGGATGTGGATCTGGTCAGGCCGGCGAACAAGTTTG -AAATGACCAGGGTGCGTGAAGGTGAAAAGGAAGCTGACCTTCCAGTCTGGAAACACCATTTGTTGTGTGA -CGAAAGCGGGAACTATCCGGCTCTGTTGAACCATTGGGAAACCAAGGTTTTTGAGATCGAAACCAAACGT -GAAGGATTTGCTTTCTGGTATCGTAATCCACAGTACACAGGGCAGTCGTCACTGGGAATCGCTTATGTTG -AAGCTGAACAGTACAAGATTGTTCGTCCCGATTTCCTGTTCTTTGCCGAACAGGATGGCAAAATGGTTGT -GGACCTGGTAGATCCACATAGCCTACATCTGGCTGATGCTTTGCCCAAACTGGAAGGACTTGCGCTATAT -GCCGAACATCATTCTGATGCTTACAGGCGAATCGAATCTGTCGCCGAAGTAAAGGGTAAATTACGAGTGT -TAGATTTGAAACGGCAGGATGTGCAGGATGCTGTTGCTACCGCTGAAAATGCAGAAACGTTATTTAGTAG -CGGACTTGCTGATGACTATCAGTAATCTATAGAAAATTGCGTAACGAAACTGCATTTTAGTAATTTTTTG -AAACAATACAAATAAGGCCTTCTCACTGAGAAGGCCATTACCGACTTACAGTTCGATTTGGCTACAGCCG -AAGTTACGGTCTCCTTCACCAAACACTTTGCTTTCAACTTTGGTCAGGTAGTCCAGTCGGGTTAACAGCG -CCTGGTAGTTCTGCTGGAAGTCAGTACTATTGGTGTCTAGCACATACTTACAGTTTTCAGGAAAATGGAC -CAGACCAGGGTGATCGTCTCTCTCCAGTCTCAGGGCGCTGTACCAGGCTCCTGTGATCATCCCTCTAAGG -TTATCGTCCTGATCGTAATCCCCGAGGTGGTAGTAAGCGTCTTTGTTGAACAACAGGCAAATGTGATAGT -GGCATTTACCTGATTCAGAATACTCTTTCGCCCATATAATAAATAAAGGGCAACGGTAAATGCGTTTATC -CTCACGCACCTTACGGGTACGGTCAGCCTCCAGCTTAGCTCTGAGGGATTCACGCATCCGGGATATCACC -CCAGGTTCCAGGTTAGGGAAGCAACAGATATTGTCACCGTTATCAACTATTTTGGGATAGTGGAGATCGA -CACGTACAGCAATTAACCTAGGATACCGGTTAGTCAAATAACATAATAATTTATTAATCTTACTCTGATA -TTCGAGGATATGTACTCCATGAGTACCTTGATATGTTTTCATAATATATACCTGTATTTGGTCCTACGGT -CTATAGCAGACCGTACAGGGATGCCATACAGGCAGGGCTATTCCTGGTCACTGTTGTCGGTATATACTGG -TATCAGATTTTAGTACGGACATACTGATCTGATTACTACTCTTACTGGTGAATACAGGTAGTAAGAGTAC -ACAATGCCATTATATAATACCTATCCAACATCTAAATTTGAGACGAAGGTAGCCCCAGCCTGTGATGGCT -GTTAAAAAGTTACTCTGCAATTAGCTTCTGGAATTAACCGATGATTCCGTTATTCCAGTGCCGCTTCACA -GTCGATAAACTGATACTCAATTTCTTTGCAATCTCAGCCTGAGTAAATCCACCTTTCTTAAGTATTGTGA -TATCACGTCGGTATTTGCTTCCCTCCTTTCGTCCTAATTTTTTCTTAACATGTCGATATCGGCTTTTAGT -TGATTTCAGATTGTGAATGTCAATCGTATCCTGACGAGCAATCAAAAAAGACAAGCAACTTTCAGCAGAA -GGCTCTATCCTTGAAGCTGGATGGTAGCTGTAGATAAACATTTCTTTTTGAAGGCAAAAAAATAAAATAT -TCTGTAAGTCCTCCACAGTTCTGCCAAGACAGCTTAGATCTGGAATGACAAGCGTGTCCTGCCGGTTCAT -TTCATGATGAATCAATTGTCTGAGTAAACGTTGCTCTGAAACAACCTCTTTAATATCTACCTGCTCGATC -ACAACATGTTCAGGTAGAATATTAAATTTTTGGCATATCTCAGCAAGTGAGTGATGATCTGTAATGCTTT -CTTGCTGTTCGCTACTGCATATGGTGTAAAAAAATGAACGCATCTGATGCACTCCGGTGTCATAAATTAT -TTTTTGATACCTGAATAATGTCATTTTGCATAAAAAACAACCAAAAATAGAGAGTGATTGCCAGCGATAC -TTTAACTGGTAAAGTAGTATTTTACCTCTCATAATTGTTTGTCCTTCTTTGTTACCTCTTAGGTTCTGCT -CTCTTGTGAGTATGGGTTTATAATGATGTCATCCGGTACATTAACACGGTTGGAAACATCTGTTTTGCGG -AGCACTGGCAGCATAACCACCATTTCATTGACATGGTAAATATCAATCCAACAAACAACCGGATAAGGCA -TAACAATCCCCTTTCTTCTAAGAACTTCATTTATCCCGAATATAATCAATTGGGATGTTGACAAGAGTAG -AGCCTGCCCGGCATCAAAGTAATAACCCTCAAAGGTTGTTCTATGAATAAGAATAATGTTTGAATATCCT -GAGACACTTTGATGCTTTACATCAAAATGTCTTTGATTGTAAATGTAAATGGCTTTTTCCATATCGTAAT -TTTCCCTTAGCGAGGATAGCCTTTCACGTATAACTGTTTTTTCATCTTTCCCCATGAATTCATCATTAGC -GTTCAGTTGAAAGTAATCTGCAATGGGGATTTTTAATGGACTCATGATGTTCGTTTTCCAGATTAACGAA -CAGTACTCTTCCAGAGTTACTTCTGTTTTACCTCGGCTTCGATTGATGCTTTCTTTTATAGAGAACTTTA -ACAGGTCATTTTTTATTTCATTTATTGACCAGTTATGACGATTGCATTTTTCTAATATAGGGATAGCCAA -ATCCACAACTTCCGCTATTACGGAAGAGTGAGATTTATTTGTTAGTCTGGCATAATGATCAATTACTCCT -AATGAAGATTGATTTTTGAACGTGACTGAGTGTTTTTTTATGGGAGTAGTCTGTACTACCTGTGACTCAT -TGTTTTTGCCTTGACAAGGTTTTTTTCCTGGTAGAACGCTGCTCATCTCAAAATTAGTAACACTATTAGA -CATTTTTAAGGAAACCTCTTTGTTATCTCAATATAAAACTACTATCTGAAATTTCTCAGTGTTGCCCCAT -TTTTCTCGGGGCAACATCGCTATAAATCAATAAAATTAAATCTGTAATTTATTACAGACTTTCTCGTACA -GAAAATGTATCTATAAAATCGAGGACATCTTTACGTAACCAGTAATGGCGGCCATTGATTTGTTTTGGGC -GAGGTAGCCCCTCAGGCAATTTGTCCTGACAAAGCCATTTACGAATGGTTTGAGATTTGTAGCTAATGAT -TTTAGCTAACTCAGCTGTTGAAATGAGCTGTGATTGAGATGTATCCGGGAGTTTGAATGCGCTCATTTTG -CCACCTCAGTGATTGAGATATTGGCAAAGAAAGCTTTAAGCATTATTGAATTAGTAGGGGTAGTAATGAA -GGCAGAAGGAAACGTTTCGGGCTCGGGGTCGGGGTCACTACCATCACCTGAATCTGATGATAAGGCACTT -TTAGCTGATTTAGCCGTACTGTGATGCGATCTGGATGCCTGATTTTTACATGACATCAGACGCGCGAGAA -AGTTAGTAGCATTTTGCATTCTTTGTTTAAGATGTAAAATTTTCAGTTTGGCGCATGCGACAGACTTGCG -AAGAGCTGAGTATGTTCCTTTGAGATACTCGACAACCTCTTCCATGGACGCAGGATCGTTAAAGGATTGA -GTTGTTTTACTTGAATTAATACACCAGCGAGCTCTGATAGCTGCCAGAGTGGGTTCTATGGATACAGTTG -CTGGGGTTGCCATTGGCTTATCTCCTGTGTAGTTGCTGTATCATTGACTAAACTGTGTATTACGATACAT -GAAAATCTATCTTGATCAATAGTTGATGATATTTTGTAATATGTTGATTTTTAATGGAATCAACGCATAT -CAACGTTGTTTTTTATGGTAATACCTGCTTCATTTAAGATCCATGTCTCAATTTTCTCGTGCCATTTTCG -TAACAGATCTAACGGACGACGGCGATAGTGTTTTTCGGCAAGAGCGCTGGGTTTGTGTCCCATAATTTGA -GCAACAATACCAGTGGGAACTTCAACCCACTCGGCCAAAGTACCAAAACTACGACGTAAACCGTGAAGGC -TGATATGTGGTAACTCAGCCAGCACTAATGCTCTGTTGTGCGCTGAACGCGGCTCAATAATTTTGCCACT -TTTACTGTTACTTCTGAAAACCCAACCCTCCTTATTTACGTCAGAATTTGGGGATTGCGCTAGTACATTT -AACAATTCAGAAACATAAGGAGTGAGAGGGATGATACGTTCACCTTCGATCTTGTCTTTAATTCGCATGC -TTGACCATTTGAAATCTACGTCTGACCAGCGAAGCGACGCAATTTCTTCACGCCGAGCACCAGTGAGCAA -AAGTACTTGGAGATAGGCCGATGCAATAGGATTATTGAGGCTACGCACGGCACTAAACCAGCTTTTTAGT -TGTTCCTTTTGCAGGCAATCATCAGCTTTACTCGCTGACACGGGAACCATTTTTCTTACGTTGTAATCTT -GTGCCAGATCGCCAGGAATGATCCCTTGATATTTTTTCTGATAATTACTCCATTTGATGAAAGCACGTAG -TAGGCGATAAGCGTGAGCAGTGACGGTAGGTCTATTTTGCCTTTCTGTACTCAGCCACGCTGCTATGTAA -TCTGGGGTTAGCTCCGATAACGGCAGGTTGAGCAAACTAGCCAATGGTCCAGCCGAAGTCGGGCCTTGGC -CTCTTTTTTTACTTTCGCCTCCACGACTGGACAAGTTAATGTGATCGGCAATGTATCGAGTAGAATATGG -GCGTTTAGTTTTTGCACTGATACCGGTTCTCAATTCTTGAAGATAGTCTTCCCAGGCGACGGAGAAAGTC -ACTTTTGTTTTACGTGATTCTGCCTGCAGGGATTCTGCTTCTGCGATTTTTACAGCCTTAGCAATTCGTG -GATCTATCCCTGTATCGATCAATGTTTGTAACCGTCTTGCCTCGGCTCTCGCATCATCAATCTTCCAGTC -GTTAATGTTGCCAATAGTCATGCGAAGGGTTTTCCCCGCATATACGCTTTGGAATACAAAGGCTTTTGCT -CCGCTAGTTGCTCGGCATGCCAGGGTTGTTACATCTGCATCCCAAAGAAAAGTTTGTTTTTTCCCTTCCG -GTAAGGTGAATCTGCGAAGTCTTTCGAAGGTAAATTTTTGTCTTGAAAGCGCCATTTTTCGGCTCCAGTT -GAGAATTGCTGTCTTACAATAATGTAACTGCTGGTGTAAGTAAATGGAGGGAATAAACATCAACTTTTGT -TAATTTCAATCAACGGGTTTATTGCTATAACTTGGTGTTTTATAATATAAAGTATGTTGTTTTGATTGAT -TGCTCAAGTAGTTAAAAATGCATTAACATCGCATTCGTAATGCGAAGGTCGTAGGTTCGACTCCTATTAT -CGGCACCATTAAAATCAAAGAGTTACCCCATATTTAAATACACCACGTTTCCTCCTGTGCCGTATTTGTG -CCATTGTAACCTTGGCAATTCATCAAAATACTGTTCTGACATCAGGCAGTGCAGGTGCAGACATTTAAGC -CAATTGCTGCCGCCATTCTTTGACGTAGTCAATCAGGGCGCGGAGCTTTGGTGCAATATTGCGACGCTGT -GGGAAATACAGATAGAAGCCCGGAAATTGTGGAAGAAAGTCATCAAGCAGCGATACAAGCTTACCGCTTT -CAATATATGGCCTGAAAGTTTCCTGAGTGGCAATTGTTATTCCTCCGCCGGCAAGAGCCAGCCTCAACAT -CAGACGCAGATCATTAGTCGTAATCTGCGGTTCAATCGCAAGGTCGAAAGTTCTCCCGTTTTCTTCAAAT -GGCCAGCGATAAGGCGCAACCTCCGGGGACTGACGCCAGCCGATACACTTATGGGTATTTCCCCCGGAGG -CGAGAAAGCACTCTCCACGCCCGGCCGCAAGGATCAGGACGACGGGGGCAGGCATGAATCCTCCTCCTGA -TGGAGACGTACAGAGGCGACTTCTGCCAGCACGGAGAGTGCCAGAGTATGCGCATCCCGGGCTTTGGGGA -ATATCCCGACGGGTGCCCGGATTTGCGTTGTTTCCTCCCTGGACCATCCCAGCTCGTGGAGCTTTTGCAG -ACGTAACGTGTGGGTTCGATAGCTGCCCAATGCGCCGAGATAAAAGGGTTTTGCTTCTCGCGCGGCCTGC -AACACTGGCAGCTCCCGGTTGAGATCATGGCACAGCAAAATGACCGCCGTATCGGTATCGATCTGAGCGC -TGGCTGAGGCCGGAAAAAGATCGAAGATATGGCTGTCATAGCCTGTGGCTGCTGCAAGACTCGCGGTTGC -CTGCGCCTCAAGAGAACGTCCGTAAATCATCAGCCTGACGCATGGCCTGAACCCCACCTCAAAGCCATTG -AGATTCCAGCCCGTCCGGGTTTGCGTGGGCAGGCACACCAGCGATTGTGCTTGCGGATCGTAGCGCAGCC -CCACCGGTTTTCTCTGTTCCAGGCGGTTCAGCACGGCGAGCAGAGGCTGTGCCGAGCGTAGTTTATGGAG -CGTCAGCGTGATCCCACCGCCGCAGGGCAGAACGATGTCAAACCACGGCGAACCTTCGCCATAGCGAATT -TCGCGATCGCGGCCTGAGCCCATCATCTCCAGCGCTTCAAAAGCGGCAGCGGCCTCCACGCAGCCGCCAG -AGACAAAACCGCAGTAACGACCATCTTCGCGCACCACCATCTGCGCCCCGAGCGGGCGCGCCGCGCCGCC -GCGTATCTCCACCAGCGTCACCAGCACCGCTCCTTTACCGGACATTAGCGCCTCTACGGCGAAGCGCAGA -ATGGTCCGGTGGTCATCGGTGAGAAACGCCTGCTCTGGCTTATGCCAGTGTTCGTCTTTGTCAAAAAGCG -GGTATGACATTGTTCCTCCTTAAACCACATCCGGCAGCTTATCGAGCAGCTTATCCAGAGTGATGGGATA -ATCCCGTACCCGAATACCGGTGGCGTTATACACCGCGTTGGCGATAGCCGCGCTCACGCCGCACAGGCCC -AGCTCACCGACACCTTTGGCCTTCATCGGGGAGGATATGGGGTCGGTATCATCCAGGAAAATCACCTCCT -GTTTTGGGATATCCGCATGAACCGGCACCTCATACCCCGCCATATCGTGATTAACGAAGTAGCCCAAACG -GTCATCCACCGCCAGCTCCTCCATCAGTGCCGCGCCCATGCCCATAGTCATTGCGCCAATGACCTGGCTG -CGCGCAGTTTTCGGATTCAGGATGCGTCCTGCAGCACACACAGCGAGCATACGCCGGACCCGAACTTCTC -CCGTCGCGCTATGCACGCCGACCTCCACAAAATGCCCGGCAAAGGTCGACTGCTGGTACTCTTTGCTCAG -TGTTCCGAATTCAATGCTCTCTTCCGCTGTCAGTCTGCCGCCTGCGGTGGCTTCATGTAGCGTGGCGCTT -CGGGTACCGTTGGTAATCTTGCCGTCGGCAAACTGCGACTGCTCAGGATCAAACCCGACTGCCGAGGCAA -TCATTTCGCGAAGCTTCATACAGGCGGCGTAAACGCCGGAGGTGGAGGTATTCGCGCCCCATTGTCCACC -AGAACCCGCAGAAACCGGGAAACTGGAATCGCCGAGGTGAACCGCAACCTGCTCCAGCGGTACGCCAAGC -ATTTCCGCTGCCGTCTGGGCCAGAATGGTGTAGCTGCCGGTGCCAATGTCGGTCATGTCCGTTTCTACGG -TAACGGTGCCGTTTTGTTCGAGGTGAACCCGAGCACCCGATTTTTCCAGCAGATTATTGCGAAAGCCCGC -CGCAACACCGTGGCCGACTAGCCACTCCCCGTCGCGCACCTGTCCGGGTGTGGCGTTGCGCTGCTTCCAG -CCAAATTTATCCGCTCCGGTGCGCAAGCACTCGATAAGCTGACGGCGAGAGAAGCAGCGCGTCGGGTCGG -CGGGGTCAACCTGAGTGTCATTCAGGATGCGAAACTCGACGGGATCGATGCCCGCTTTTTCCGCCAGTTC -GTCGATCGCGATTTCGAGCGCCATCAGACCGGGGGCTTCGCCGGGCGCACGCATGGCGTTCCCTTCCGGC -AAATCAAGCGTGGCGAGCCGCAGGCCGGTATGACGATTCGCCCCGGCGTAGAGTAATTCGCTTTGCTGTA -CCGCCGTTTCCGGCGTGCCGCCGGGCAGGTTTCCAGACCAGCTTTCATGTGAGATAGCGGTGATTTTCCC -GCTCTGGTCGGCACCGATACGCAAGTGCTGAAGGGTGGCGGGGCGGTGCGTGGTGTTATTGGGAATAGAG -GGGCGGGGGAGCATCACTTTAACCGGACGTTTCACCGCTCGGGCGGCGAGGGCCGCCAGCAGCGCATCGC -TTCTCAGGAACAGCTTGCCGCCAAACCCTCCGCCGATATACGGGGAGATAATACGCACATTCTCCACGGG -AACTTTCAGCGTTTTTGCCAGATCGGTGCGGCACCAGTCAATCATCTGATTTGAGGTCCAGAGGGTAAGC -TTATTTCCATCCCAGACGGCCATCGAGGCATGCGGCTCCATCGCCATATGGCTCTGGTCCGGGGTCGTGT -AGGTAGCATCAATCTTCACCGCAGCGGAGGTGAAAGCCCCGTCAAAGTCACCGACGTTTTTGTCGGGCGT -GTCTTCCGGCGGCTGATTGACGGCCTGTTTTTCGTCCGCCAGGGAGTAAGCTCCTTTATTACGGCGATAG -TGTGCCTGCACCAGCGAGGCCGCCGCTCGCGCCTGTTCGAAGGTCTCGGCCACTACCAGCGCAATGGCCT -GATGATAGTGCTCAATAGTGGGGCCGCCTAACAGCCTGGCGGTGTTTTTGTCGCCTTTGCCGAGTGCCCC -GGCGTTACTGGCGGTAATGACAGCCAGTACGCCCGGCGCTTTTTGCGCGGCGTCCGTATCAAGGGCGGTG -AGGCGTCCTTTGGCAATGGCGGAACCGACGATATAGCCATAGGCGGCGTTGGGGGCTTCTTCATGCCATT -CGTAGGCGTAGCGTGCCGTGCCGGTAGTTTTCAGCGGTCCGTCGATGCGGTCATGGGGACGACCGACAAC -CTTCAGCTGATCGATCGGGTTTTCCCCTGCGGGTTTATCAAATTTCATGCCTGTGCCCTCGCTTCAGCCA -GTACGGAGGCAAGCGTTCGCTTCGCCAACAGGAGTTTAAAGGTGTTTTCAGCGGTGGGATGGGCGCTGGC -GAACAGCGTGTCATATACGGCCTGCGCCCCCTGGGATAGCTGAGCATCCGCAGCCTCAATGCGCCAGGGC -TTATGTGCTACTCCGCCCAGCGCGACGCGCCCGCTGCCGTCAGGCTGAATAATCGCCGCGACCGATACCA -GGGCAAAGGCGTAGGAGGCGCGATCGCGCACCTTACGGTAGATATGTTTTCCGCCGAGCGGTGGAGGTAA -CGTCACCGCAACGATAAGCTCACCGGGAAGCAGGGCGGTTTCAATGTGCGGCGTTTTTCCCGGAGGGTGA -TAAAAATCAGCCAGTGTGATACTGCGAGTCTTTCCCTCCGGCGTGATGGTTTCCACCACCGCATCCAGCA -ACCGCATTGCGACCGCCATATCGCTCGGATGGGTGGCAATGCAGGCTTCGCTTACGCCTACCACCGCGTG -CTGACGGCTAAAGCCTTCAAGCGCCGCGCAGCCGCTCCCGGGCAGGCGCTTATTGCAGGGCTGATTGGTG -TCGTAAAAATAGGGGCAGCGCGTGCGCTGGAGCAGATTACCTGCGGTGGTTGCCTGATTACGTAACTGAC -CAGACGCGCCAGCGAGCAGGGCGCGGGAGAGTACCGCGTAATCACGACGCACGCGCTCGTGAGCCGCCAG -GTCGGTGTTCCGTACCAGTGCGCCGATGCGCAGCCCACCCGCGTCGGTCACTTCAATCTTATCGAGCCCG -AGGCCGTTCACATCGATAAGGTGGGTGGGCGTTTCAATTTCCAGCTTCATCAGGTCCAGCAGATTGGTCC -CGCCCGCGATAAATTTTGCGCCGGGTACGCGCTGAGCGCTAAGTGCCGCCTCGGCTGGGGTATTCACTCG -TTCATAGGTAAACGCCTTCATGATTTTATCTCCCCCGCAGCATCTTCAATGGCGGCAAGGATGTTAGCGT -ATGCACCACAGCGACAGATGTTGCCGCTCATACGTTCACGGATCTCATCGGCAGTTGTTTCTGGAGCGGA -AACCAAATCGACCGTGACGTGACTGGGAATGCCGTCCTGAATCTCTTTTAGCACCGCTACTGATGAGCAA -ATTTGCCCGGAGGTGCAGTAGCCGCACTGGAAGCCATCATGCTTGATAAAGGCCGCCTGCATGGGGTGAA -GATTATCTGGCGAACCCAGGCCTTCAATGGTGGTGATCTCGGCCCCCTGATGCATGACTGCAAGCGTCAG -GCAGGCATTAAGCCTGCGACCATTGACCAGCACGGTACAGGCTCCGCACTGTCCGTGATCGCAACCTTTC -TTGGTACCGATCAAATGCAGATTTTCACGCAAAGTGTCCAGTAGCGTGGTTCGGGTATCCACCTCAAGCT -GCTCGGTTTTGCCGTTCACCTTCAGTGTCAGGGGCATTATCTCTGGCGCGGGTGTAGCTGCCGGAACGCT -TGCCGCCAGCGTAGAATGAGGATAAACCACGGCGGTCGCCGCTGTTGCGGCGCTCACTTTAATCAGATCG -CGACGGGTCAAACTTAAATCGTGCGGCTCGTGCTTCCCAACCCGATTATCTTCGGGGTATTCGCCTTGGT -TGCTCATACCAGGCCTCCGGTATTCTAAAGGGGAAAATAAGAGTGCGTTGCGAGAGTGCTGATGCTTTTT -TAAACGTTAAGCATAGTCGGCGACAGCAGGAGGATTATTCTTAAAACGCGAATGCAGCTATGAGCCCGGC -TAATAAATTCATGTTCGCCGGGATGTTGATGATGATGGGAGCTGGTTTATTGCTTTAGTTGTACGATGCA -AAAACCAATAAGGAAACCTGTGATTTTCAGCTCTACATCACCCTGCAAATCTCTGTCACTTCTAATATAA -AAATAGGGAGAAATGATGGAGCTTATATTCATTGGCGATTAGGAAACTATCTTGTTATACAAAACAATAC -AGTTCTTTACATTTGCCTTGTTTTATGAATACTCCTGAAGAGGTGTATAACATAATGGTACAAGCAGGGT -AGATATGAATATATTTGAACAAACTCCACCGAACCGCAGACGTTATGGTCTTGCTGCATTCATTGGGCTG -ATTGCTGGCGTTGTTTCCGCATTCGTGAAGTGGGGGGCTGAAGTTCCATTGCCGCCACGTAGCCCGGTGG -ATATGTTTAATGCAGCGTGTGGCCCGGAATCATTAATCAGGGCTGCAGGCCAAATTGATTGCTCGCGTAA -TTTTCTCAATCCACCGTATATTTTTCTTCGAGACTGGTTGGGGCTGACAGATCCCAATGCGGCTGTTTAT -ACCTTTGCCGGGCATGTCTTTAACTGGGTTGGTGTTACGCACATTATCTTTTCGATAGTGTTTGCTGTCG -GTTATTGTGTGGTCGCTGAAGTATTTCCAAAAATTAAACTCTGGCAGGGCTTACTGGCAGGTGCTTTAGC -CCAACTTTTTGTTCATATGATTTCATTCCCTCTCATGGGACTGACGCCACCTCTGTTTGATCTCCCGTGG -TATGAGAATGTTTCTGAAATTTTTGGACATTTAGTCTGGTTCTGGTCTATTGAAATTATTCGCAGAGATT -TACGAAACAGAATTACTCATGAGCCAGACCCTGAGATCCCTTTAGGCTCAAACAGATAATGCATTGAATG -ATAAAAATGGCGCAAATACAGCGCCATTTTTATAGGTTAAAAACATTGCTTTTTATATTCTGATGCAGAT -AGTCAGTGAGTATATCGCGCTACTTCAGGATGATGTAGATCCGAAGAACGCTACAGAAGAGAGGCATTGT -TGCTGGCAAATAGAAGAAGTATCGGGTTTTGTTACCCCTGAAAAACGAAGCCCCGCTATTATCGCTGGCG -GGGCAGTGCAATTAATTATTGTATGTTTATAACGGTGTCAGCCCGTATTTAGCCCTTGCACGATTGCAAG -CCTCATTGACGACTCCGTTCTCACCAGACATGGCGAATTCTCTGCATGTGGACGATCGATTTTTATATAT -CGTGCAGCAGGCATTTTTGCCCGGGGTTCCTGCAAGGGCAATACATCGGGGGTTTTTCTGATTGGTACCG -CTCATGCATCGGTGAAAAGGGGATATTTGTTCAGTGAGCCTGGCGGGAATAGTACCGCCAGCATCGTCGG -CTTCGGCCCAGTAAAAAGAGACGCGGAAAAATGCACAACAGGCACCACACGTCATGCATGGATTCAGATT -GCTCATAATTCACCAGTACAGCTAAAAATCGTAAAGAGAACAGCGGTACATCGTATGTAAGAACGTACCG -CGGTTGGCTGGGGAACTTTCGATAGTGTGAGTATTGAATGATTTCCAGCCGTTACCGATTTTACGTACTA -ATTCGTGATTAAACCACTCGTTAGCAGGCTGCCTGATACCTTTCCGTGTCTCCTGAACACTATGGTGTGC -ATATGAGAAAGCCCATCGTTACAGGTGATATTGACGATCGCTTCCACATCATTTAAACGATTTTTGGGGC -TCTGAGGTGGAATTCTTCCCTCGACCGATGGATAAGTCTTAGTCCGCCGAAGGGGGCTTAGCCGGACAGG -AATCGCTAATCTTAATGAATTTGTCGTTATAGACCAGATAGTGATTCCCCGGCTGACGTAACTCAGGCTG -ATGAACCACGTCTCCCGGACGTAGATACCAGGCATCGCCTTCCTCTTCGGTCGAATCACATCCTGGCTTA -ATCAGTAGCTTAAACCATGTGTTGCCAGTGTTACTTACCGTTCCTGTCACCTTGTCGAAGGACCATTTAA -ACTGAACCTGACGTGGTCGTACTACCAGAATGGTATCCATCACCACCACCGGCTCCGTGCTGACCACGCC -GCCGGTTGGGCTGCGTCTTGTATGGTTACGAGTGGGGACCTCGCGAAATGAGACCCGGTAGTAGCGCTCG -CGGTTATCCCGTGGACCATGATAGTAAAATTTAAAATACTCGCTCTCACCAGCCTGCAACGCCAGCTGGC -GGGGGGCGAAAAGCAGTTCACCATCCACCGGTCGGGTGCGCAATTCACTGCTGCCCGGGCTATCAATAGC -ACTGATGGCAATACGGTATATCCGTGCGCTTTTGTTGTTATTCACTACACGTTTGCTGACAAAGTCAGTC -TCGGACGGCAGCGAAAATGTCAGATTGCCGACCGAAATCGCCTGTGTCAAAGGTGCCGCCAGCATACAGA -CCGCTGTCAGCAGGGCCTTAGTTAATGTTACGCCACGTCGCCTGAACATGAATCTCTCCTGAAGCGCTGA -CTTCGCCAAACCAGCCGTTATCATCTACCGTACGCAGCGAAATGGCGTTATCCATTGGAATCGAAAATTT -GACTGTGGTCTTATCCATCTGCCCCACTTCGCCAGAGATATCAGTCCACGGTGTGGTCAACCACAGCGCA -TCGGTCATATCCCGCCAGCTATCATCGCACCCGGCATCGTAGGTTTTTGTAGCTCCGTTGCGGGTAATAA -AGGAAAGTGTCGCCGGGAACGGTACTTTCGCCTTACCGTCATCGGAGCTGAAGACACAATAGGAGCGCCC -GCCAATCACCTGCGCGGGTCCGGTCACCTTGATCAGCACTTCGTCGGCAGCTGTTTTACCGCTGGTGGTT -ACGATATAGCCGAAATCGAGTGCCGACTCGCCGCTGCCAACATATCCCTCCCGCGACGGTGTCTGAGTAT -ATTCATCGGAGATAATACTGATGCTGAAATCACGGGGTTTGATAATCAGCGTGTTGGAGGTAGAAAATTC -ATACCAGCCAGACTCCGGTGATGTGGTGTTCTGAAAGCGAAAGTTGAATAGATCTTTGGTGTTGATATCG -CTGATCCCGAGGTTCACCATCTGCTTAAAGAAGTTGCTCGAGAAGAAAACATAGATCGAGTCTGCGCTCT -TCATCTCGTTGAAGGTGTAGTAATAGGCGGTATTGCTCACCGGTTTCCATGAACTGCCATTCAGACTGAA -CTGCATATCGTACGCCCCGACGGCCGAGGCTAACGACGAGTTGGCGATCGCCGGGAATATATGGATTGAG -GTGTTGCTGAGTCCGTTTGTTTGCAGGGTATAGTTAACCATCTTACAACTTAATCCTGAACGGCTGCCGA -TGGTTTGCGTCCGGCAGTCGGCGTTCCCTTCGCCCAGAGTCGGTACTCCGTCGCTGTTGATAAATACTTC -CGCCAGCGAGTGGGTATTTATCAACCGTAGATTTGCTGCTTTCGTATGGGTGACGTTGCGAACATACCAG -TTGCCGGAGGCCTGATCCTTACAGCGTGCGCCGCTGCTGGCGTCATAGTTCACAGAGGTCTGGCAGGCAT -TGATGGTCATTGTAAAGCTGCTGCCGACGGGCATTTGTTGCATATACTGGTAAAACGCGTCTGACAACAT -GCCGTGCATCCACTTCGCGCCGCCGCTGGTCACCGTCGCGCCATAAAATCCACTGGCGTCGGTGGTTTGC -GGCAGGATAAGACTGGTGGTCATATTACACCCAGCGTACCAGTTGATGCAGCGCAAGCCAGTTAAAGGAG -ATGAAACTGGTGAATTTTCCAGCCACATATCAAACTTCCAGTTGGTATAAAGGCCGGTGTTGTAACCGTT -ATCAATGTAGCCGAGGCTTTGCTGATAGATGGTTCCTGAACCAGTGTATTTTAAACCGGTCCAGCGGTTG -GCACCGGTCAGGCGCGGATCCAGCGCCCCGCCAGGAGTGACGAAAAAGTTGTCGTCTGAGTTGTTTTCGA -CAAACACAAACTCGCGTGCCGGTGCATCCGCCCAGGTTGTTTTGCTCACTGCCGCTCTGAGCGCAGTTAC -TGGCCAGATTAGCGCGAAAATTATCATCGTTATTAGTAGGTTAACTCTCATTCTCTTCTCCTGTCTGCGT -CACCGCCGCCCACGATGAGAGGCCGCTGCAGACCACATCACCGACCCAGACGGCACCGCGCGCCTGGTTG -AGTTCCAGAGCCACTTCGCAGGTTTTATTGCCACTGTAGCGAAAATCGATAGTGGGGTATTTCTTATCCA -CGTCCATGACAAACTCGCCGTTTTCATCGGTTCGGGTTCGGCCGATATGGTTGTTAATCCGTGCGTTAGC -CAGCAGTGTGCCGTCTTCCGCACGGATACGACCGGAGACGGTAACCATCTGCTTCACCTCTGGCTCAATG -ACAGCGACATTGCCTGGATAGAGAGTCAGACGACTTTTGCGGCCGCTGACGATATCGTAACTGTCGAGTG -AGTTTTTGCTGTTCTGTAACTCCACCTCATATCTTCCATAGGGAGAGAGCGGGAGATAGTTACGCTTGCC -GTTAAGCGGGAAAATCCGCCCGTTGATTTTGGCGCTGATCTGACCGTCGTCCTCCAGCCCGGTGTTGAAT -ATCACCCCAGCGTTGCCATCAGTCCGCCCGCTGGCAGCAATGTTTTTACCCTGCCAGCCGACGCTGCCAT -TGGCGGTCAAGTTGGTATTGACGTAGCCGTCCGCCGCGCTATTGACGTTCAGCGTTCCGCTGGCGTAACG -AGCGTCGAATTGTGCATACGCCCCGCCGCTGAGGGTTTTGTCATCACCGGTATCGCCGGAGATGGCACGT -GACAGATTGGCACCAACAGTGCGAATGGTTCCTTCATCAAACTGTTTGCGTGCTGACAGGTTTGCCATGG -TGTAGCCGTTTTGATGAGTCATCCCTGCGCTAAACCAGTTGCCCAGTGGTAGCGAGAGATCGAGAGCGAT -ATATTTTCCTGTATTGGCGTTGCTGTCGCCGTTGTTATAGCGCTGAATACCGGCCCGCAGGCCAAGCGAA -CCAAAGGTACCGCTGTAGACATTTTGATAGTAATCTGCCGTGTAATAATGGCTGTTGTAACGGCGGTCAT -CATTGTAGCTGATGCTGAATGTGCCCAGCTTCGACCACAGTGAGTTCAGGTTGAGTGTGCCGCCGATTGC -ACGGTTGTCGGCATCGCTACGTCGCAATTGATTGCCAATGCGGGTTTTTTCCTGATTAACCCACAGCGAA -CTAAAGCCTCCCGGTAGAGTGGCGCTGATGCTGCCGATGCTGCTCCATGAGCTGTCACTGGCCAGCATAT -TTTGCAGGTTAACGTTGATCGCCCCCCCAAGCGGCAGCGTCAGACGGGTTTCACCCACCGCCTGATTATC -GTATCCATATCCCGTTGCCGCCCAGCTAAGCGTACTCAATGAGCCGGAGGTCGAGGCACCTGCTAGCCAA -CTCTCTTTAGCTGGTCGCGTCTTTTTCCCGTTTTCCGACCAGCGATCCATATGAAAGCTACCGCCCCATA -CCTGCCACGCCAGTGGTGCACCGACGCCGCGCCCCCGGCTAAACAGCTTATTGACCCGCTGGGTGCGTTT -GCTGATCACGCGACCGTTAACGATCACCTCAACTTCCACATCGTAAATCCCGTACGGTAGACCCCGGGTA -TCCACTTCATGATTGCCCATAGTGAAGTTCTGAACGCTTAGTAGCCGCCCATCACGGGTGAGATGTACTT -CGCCCGCCGCCGGTAAAAAGGCGATCACTGGCGTGGCTGACTGGCTGCTGTCGAAGATGGTGGAGCTGGC -CTGGTTTCCCCAGGAAAGGCCGTAAATCTTCCCTGCTGAAATGGCGGTCATCGGCCCTAAGGACTGCAAG -TTCCAGGTGTCGAGCATTCCACCGGCAAATCGGTGACCGGCAAAATCGCGTTCATACATCGCTTTATATA -ATTCACTGTCCTGTTGACCGCTACCGATCCCGTACAGCGAGCCGTCGAGCACCACATGATGTTCGCGCAG -TGCAGTAACGTTATTCAGCGACAGATAGCTGGATGTGTTGCTCCCGCCGTTACGCAACTGGTTGTTATAG -ACGCCCAAGTTATAGCTCAGATTACTGCTGAGGGTGTTAACACTGGACTGCCCGATGTCTTCGCTACGTG -AGCGTAGTACGGTGCCCAGCGCTTCGCGCTTGACCACTAGCTGCAGCAGCAGTTGGCGCAAGCTGAGATC -CAGCTGCGCGTTGTCAGTCAGGGGGATGGTAAGGGCCTCATTGAACGGGGCGTTGGCCAGAGCCATCAGC -TGCTGTCGAGTTTGTTCGCTGACACTGGCGTTATCTTCACTCTCTTCCAGCTGTATTTTCCGGATGCGTA -GCTGTCCATCGTCCAGCCAGATAAAAGCGCTGCCGATTCGCTGATCGTCCTGGCGACCCTGGCTACCGGC -GAGATGAATATAGAGCGGGACGCTCATGCCGTCCTGAAGCGCCTGACTGAAGGCCTGCGGAATAATCACC -CCACCTATTTGCTGCGCACTTATGTCAGCAGCGCTGGCATCGGGCTGAACGAACAAAAAGACCATGCCGA -AGGCAAACTGGGCTTTCAGTCCTGGGGAGAACCGTCGTAAAGGCATTGTCGTTATCCATCTGCACAGCTA -TCTATTTCACGGGAATGAACTTATCACCCTGCCAAAGTGCAACCCGTCCTTTGTTATCCGCAGTGTCCAC -GCGGGTAAAACGACGCGACTTGCCCGGCATCAGGTAGTAATTCTCTTTACACTCCTTACCGTTGGCGGCT -TTCAGGCAAGGTCCGTAGGCGAGGATCCGCAGCGTCGCATTTCCTGTATTTGTCAGGGAGCCGTTGGCGT -ACTGAAAGTGGTAGTTCGCCTGACGAGGGGCGACGACCAGAATGGTGCCGATGCGGGCGGAAGCAGTGGC -CACAGCGCTGCGGTTGGCATTATCGCGCTGCGCATCACTGAGGGCCTGATCAAACCAGACAATGCGGTAG -TAGCGCTCTTTTTCATCTGCGGGTCCCTTATAGAAGAAGCGGATCACTTCGCTGGCTTGGGCGGGTAGCA -GCAAGCTGGCGGGAGTGAGTAGCAACTCATCCGGCTTGTCCATTGAGATAACCTGCCCGTCGTCAAGCGG -TGAAGAGAGCCGTTCGAGACGGATATTGATAAGGCGACCACTGTCGGTACTGTTTTTGATCGTTTTGCTC -AGCGTGCTGCTGTCACTGTTCATAAACGATGATATATCGCCGACATCCAGCGCCTGGGCCGGAGATATTC -CGGAAAACAGCAGAGCGAGAGGCAGAAGGTGCTTTTTCATAACAATTCCGTCCAGGAATAAAGCAGGGGG -GCTACCCCTGCTGGTACATCAGAGAGATTAACTGGTCCAGGTCGCGTCGAACTGTACGCTAACGTCGCCG -CTCCAGATGCCTTCCGGTAGAGTGCTGTAATCTGTTACTGCGGTGGTACCATTGGTGGTACCGCTGATGA -TGGAGAAGGTGAAACCATCCTGTGCGGTGGTACGATTGCTGGCATTGTAACCGTTAGCCAGCGGGCTAAG -GTTGCCGCCCAGTACGCCGTTGGCGGTATCGATCATCACGGTATCGCCAGTTTTTTCGACTGCCGCGCCG -TTATAATCCACGCCCACATTCAGTGTGGAACCTGAGGTATCCAACTGGGTTAATGTGTTGGTGATAAGAC -GTGAGGTCAGTTTAAAGGCGGTAGCCGTTGAGTCACCCTCGATAGCCACGTCAAATAGACCTTTCTGTGA -GTTAAAACCTTTAATGCCTTCGGCATACTGGAACGCCAGGCTACCGAGTGGCGTCACAACCAGCTTACTG -GTGGTGTCTTTTTTGGCTGTTGCCGACCAGGTCGCTACAGCCTGAGCTGTTACGTCAGCAGCCTGCGCCA -CACCCATGCCGGTAAACACCGTTACCAGAGCTATTGCCAGAACCTTTTTTTTCATTGCATTTCTTCCCGA -GTTGAATTGAGGACGTGATGTCCCAGTGAGTCATTTTTTAAAACTAACTTGCCTGGAGTTTACTGAACCA -ACTTATATATTTTTGAGTACAGCTTGGCCTCAGCATTACGCCGATGGGTATACACTGTCTTCACACTACA -ATTTTCAATTCTGGCAATCGATTTAGGTTGCATTCCCTGGGCCGTCATGCGGATAATTTCCATTTCCCGG -TCCGTGATTTTATCTTTCTTAATATCTTTTCTCAGGAACCTGCCATTAATCACATAGACCAGTTCTTTTC -TAATATCACGACTCAGTCCAGCGTATACCACGCCCCTAATATTGCTATTGTAATACCAATAATTTGCTAA -GGCCTCTGACTTTCTGGCCGCAATCAATACGACCTGTTTCCCCTTTACCGCGGATAACCATTCATTATCA -CGGTTTATAAATTCAGATAAAGAATCCGTACTGAGATTGATAAACACGAAATCTTTTCTAATTTTCTCCA -ACGATAGATAAATTAATCTGTCGATATCCACAATCAGTTCAGATAGTCCTTTATAGAAGTAGGCGTCATG -GGGAGACCAGATGTATTTATCAGAACGGTTTTGACATTCCATATGGTTTTTAACCTCATAGTCCCTACTG -TAATCACTTTGCCATGTCACTACTTTCCAAACCTGTAATTTTTACAGGTGCATTCAGTTTCCTTAGTAAA -CCGGAAGTAAATAAGATACGTAGTACATATCAATAAAGGTTAAACGAGATTAAGTTTAATTATTTTCGAT -TGGGCTTAAATTTATGTTTTTTTTCCCGATGAGTGTCAATATGTGAACGGAAAAGGAATTCAATGGTTAA -GTCAATATTTAGAAAAACTGAAAATATTGCTTTTTTGATAAGAAGAAAAAGACATTTGGTTTCATAAGGT -TATTGGCAATATAACGTTCAATTCTTACTTGCATTTTATATTGGTCAGGAACTTTGCCCTGAAGTGTTAG -GAATAGTCTTAATGCGCTGTGTGATGGACTAGTAAAAAAACAAGTTTTAAGGGTAAGGGATAGAATATAA -AACTATGATGAGCTGTCATTGAAGATGATTTGCCAATCAGTAAGATATTTTAATGGATTAACATGCCGCA -CAAAATGGTTACAGGTGTTCATTCCAATAAGTAATGGAAAATTGAACGGGCGTATGTACGTCATCTGTTC -GGTAAGCCCCCAAGAGCCAGATTAAGTGAAGTTAAACGAAGGCTGCCAGCTGTCACAGGAACGATGGCCT -TTTTGTCAGGGCACTGCATTCAGTTATCTGTGCGCGTTACTCTAACTGGCACTCGAACGTCGGCGACGGG -GTTACCGGTGGATCAGACTGTTCCTGTGGCGTAAACGTTTTTATGTTAGTACCAACAGATTTACCACATT -TATCATCTTAACAGTTTGAGTGAAAATGCAGGCTGCGCCGCAAAGGGAGGAGACTGAGTGGCGTGTTCAG -TCTAAAAGAGGGTTGATGCCAGCATACAGGGGCGAAGCTGGTCAACAAGTCAACATTAAGATAATGGAAT -ATTCGGAGAGAAACGTCAGGCAGTTGGCCTCAAATGAACAGGAAGAATATATCCCCAGGAAAATTAATGT -TGGTGTTATAAACACACCAACATTAATCCGATCTGATTATTAATCAGACAAATATCGTTAATCCGTCGAA -TTTTGAATCAACGTTTTTTCTTACGACCCTGAACGGCCTTAAAACGTGGATTAGATTTACAAATCACATA -TAGCCGTCCTTTTCGCTTCACAATCTGACAGTCTGGATGGCGTTCTTTTGCGGTACGCAGAGAGTTAAGA -ACTTTCATCACGCCCCCTTTTTCGTGCTAACAAAACGACCAAAACGTTGGGTGAATCGTGCAACATTTCC -TTCTGATGCCACTGTTCTCAGCTTCCCTGTATAGAACGGGTGCGATTTAGAAGAGACATCAATTGTCACG -TATGGATACGTTACGCCATCCAGCTCAATCTCACGGTCTGTTTTGATAGTCGAGCCGATTTTAAAGTACT -CATCAACACTGGTGTCGTGGAACACCACAGTACGATACTCAGGATGGATATTGGGCTTCATCATTTTTAC -CTGTTATGTTATAACATAACCATAAAGATACATGCTCATCCGGATCATTTCAACACTCAATCCCTGTGAC -TCTTTGTGGATGTGGAATTTTCGCAACGGGGAACTCTGGCATTGTTAGCAGCCATTGGTGACGCTCCCAT -AAACGCCTGGATGAGTGATTGATGATGGTTTTGCTGAGAGTATGGATTTTTCGAGAATGGAGGTTATCTC -CACTTTACTGGCCGATAATTTATCGCAGTATGATTGATTACCTGACAGCGTGTATTCCTCTCCCACGGAT -ATAATAATTACTTACAAAAAAGGGAGAGGATGCATATTTTAAATATCACTGAAGTGAACAGTTTATTTCC -GTTATTAATAGAAATGGAGAAATAAATAGGCGTATTCTACAATTGCGACAAAAACAACGATATTAATCAG -TTTATGACTGATTTGCTGTACTTTATTCTCTTTCATTGGTACTTCCTCGCTTTAAAAAAGAGTGCACTTC -GTAAGTGCCCTTATATAAATAACGAGTTTGGTCAACCAATTTTTTGACATGTATCACAAATTTGAATAGA -TGTATTACATCAACTATCTTTTATTGCACCAACGTCATTGATATATGTCGCCTGAAGTCAGTTCCGGGAA -TGAGTCTGATCTCAAGACTGGCCCAGTCCGGGCGTTGATTGGTGCTGAGGAGCATATCGCATCTCATCAT -AATGTCGTATCTCCTGGGGTGTTATACAAGATATCGTTGTTGGTGACCTGGGAGAGAAATTGAGTTCTAT -TAAACCGTCAACTATGCCGGATACATACTGGATTACACTGCAGGCACGCCTTATGAGAGAACGTGCCGCA -GTGACGGGTTAATTATCTGAAAGAATTTGTGAGGCTGTATCGGTTACTCATTGATTTGATAGTTTTACTC -TCGGGAGAATAATAGATATTTAATCCATTAACGGAAACCAGCCAGTTCCTTTCGATGCCTGAATTTGATC -CCATAGTTTATCCGGAATGGTTAATTCATGAACAAGTTGTGTTATCGTTCATGAGAAGCATAACGTAAAG -GGAAAAGCTCGATTAGACGGCAGAATTTGTCAGGGGTTATGAACGAAATTCATAAATCTGTTTGAGTGTT -GCGATGGGTAGTGCAAGTTCGATATCTCCGCAATTTACAGTCCGATGAAGGAAAATGAATATCCATAAAA -AATATATTGGTTTATCCTGGCATATATACCTATTTCGACGTATTTCCAATAGTTTTAATTAAAGGCAGGT -CATTGTTATTCACTCTGAATAGTGAATTATTCACTGTCCGCAGAGTAAGAAATATAACTTAGGTATCTAT -TTAATGACTTGCACAAAAAGCTAAATTTTCCCCCATAAATAAAAATATAATCCCGCGCCCAACCACCTGA -TGAGTGGCTATAGGCACTGGATATATTAGGTGGCGGTGCACTTTCTTACATAAAGGTATTTCCTTTTCTG -CGGAAAAGGAAATCGGGAAATCCCCGGTTTTTCTGACAAGCAGACGCCATTATTTGTGTCTGCCTATGTT -CGTTAATTCGTTCATCAGGAAATTATCTCAATGTCACATTATAAAACAGGTCATAAACAACCACGATTTC -GTTATTCAGTTCTGGCCCGCTGCGTGGCGTGGGCAAATATCTCTGTTCAGGTTCTTTTTCCACTCGCTGT -CACCTTTACCCCAGTAATGGCGGCACGTGCGCAGCATGCGGTTCAGCCACGGTTGAGCATGGGAAATACT -ACGGTAACTGCTGATAATAACGTGGAGAAAAATGTCGCGTCGTTTGCCGCAAATGCCGGGACATTTTTAA -GCAGTCAGCCAGATAGCGATGCGACACGTAACTTTATTACCGGAATGGCCACAGCTAAAGCTAACCAGGA -AATACAGGAGTGGCTCGGGAAATATGGTACTGCGCGCGTCAAACTGAATGTCGATAAAGATTTCTCGCTG -AAGGATTCTTCGCTGGAAATGCTTTATCCGATTTATGATACGCCGACAAATATGTTGTTCACTCAGGGGG -CAATACATCGTACAGACGATCGTACTCAGTCAAATATTGGTTTTGGCTGGCGTCATTTTTCAGGAAATGA -CTGGATGGCGGGGGTGAATACTTTTATCGATCATGATTTATCCCGTAGTCATACCCGCATTGGTGTTGGT -GCGGAATACTGGCGCGATTATCTGAAACTGAGCGCCAATGGTTATATTCGGGCTTCTGGCTGGAAAAAAT -CGCCGGATATTGAGGATTATCAGGAACGCCCGGCGAATGGCTGGGATATTCGTGCTGAGGGCTATTTACC -CGCCTGGCCGCAGCTTGGCGCAAGCCTGATGTATGAACAGTATTATGGCGATGAAGTCGGGCTGTTTGGT -AAAGATAAGCGCCAGAAAGACCCGCATGCTATTTCTGCCGAGGTGACCTATACGCCAGTGCCTCTTACCC -AGCAATAGTGGACACGCGGCTAAGTGAGTAAACTCTCAGTCAGAGGTGACTCACATGACAAAAACAGTAT -CAACCAGTAAAAAACCCCGTAAACAGCATTCGCCTGAATTTCGCAGTGAAGCCCTGAAGCTTGCTGAACG -CATCGGTGTTACTGCCGCAGCCCGTGAACTCAGCCTGTATGAATCACAACTCTACAACTGGCGCAGTAAA -CAGCAAAATCAGCAGACGTCTTCTGAACGTGAACTGGAGATGTCTACCGAGATTGCACGTCTCAAACGCC -AGCTGGCAGAACGGGATGAAGAGCTGGCTATCCTCCAAAAGGCCGCGACATACTTCGCGAAGCGCCTGAA -ATGAAGTATGTCTTTATTGAAAAACATCAGGCTGAGTTCAGCATCAAAGCAATGTGCCGCGTGCTCCGGG -TGGCCCGCAGCGGCTGGTATACGTGGTGTCAGCGGCGGACAAGGATAAGCACGCGTCAGCAGTTCCGCCA -ACACTGCGACAGCGTTGTCCTCGCGGCTTTTACCCGGTCAAAACAGCGTTACGGTGCCCCACGCCTGACG -GATGAACTGCGTGCTCAGGGTTACCCCTTTAACGTAAAAACCGTGGCGGCAAGCCTGCGCCGTCAGGGAC -TGAGGGCAAAGGCCTCCCGGAAGTTCAGCCCGGTCAGCTACCGCGCACACGGCCTGCCTGTGTCAGAAAA -TCTGTTGGAGCAGGATTTTTACGCCAGTGGCCCGAACCAGAAGTGGGCAGGAGACATCACGTACTTACGT -ACAGATGAAGGCTGGCTGTATCTGGCAGTGGTCATTGACCTGTGGTCACGTGCCGTTATTGGCTGGTCAA -TGTCGCCACGCATGACGGCGCAACTGGCCTGCGATGCCCTGCAGATGGCGCTGTGGCGGCGTAAGAGGCC -CCGGAACGTTATCGTTCACACGGACCGTGGAGGCCAGTACTGTTCAGCAGATTATCAGGCGCAACTGAAG -CGGCATAATCTGCGTGGAAGTATGAGCGCAAAAGGTTGCTGCTACGATAATGCCTGCGTGGAAAGCTTCT -TTCATTCGCTGAAAGTGGAATGTATCCATGGAGAACACTTTATCAGCCGGGAAATAATGCGGGCAACGGT -GTTTAATTATATCGAATGTGATTACAATCGGTGGCGGCGGCACAGTTGGTGTGGCGGCCTCAGTCCGGAA -CAATTTGAAAACAAGAACCTCGCTTAGGCCTGTGTCCATATTACGTGGGTAGGATCATAAAGTCCTCGGG -TCGTTGTCCACTCTTTTGGCATGTCAGCATATTCACATACCGTACCAGCAAAAGTTTCAACCGTGAGCAA -ATCGACCGATTTTGTTGACGGTTCAAACGTGGAAACGAAATAGATATCCGTCTTAAAATTCTTCATACAT -CTGGCTAAATGATGACGTCGTAGTTTGACTTCTTCATCCGGTGATTTATTCGACACTTCAATGTCATATT -TAAATGAGTTGCCAAAAATAGGTGTCTCAGGAAAGTTGATTAATCTACACTCCGTCTTTTGCTGTTGACG -TATTAAAAAAGAAGGGAAGATATTTGCGAGATCCCAATAATCACGGTGGCGGTATTCACGGGGAGAGCAG -CCGAATAACTTTTTAAATTCGCGGCTGAATGACTGCTGTGAATCAAAATGCAAAGAGAGTGCAATATCAA -GCATAGATTTCGCGGTGAGCCGGACAAGAATGGCGGCACGACAAAGCCTTCGTTTGCGAATGTATTCTCC -CAAAGGCACATGCATGAAATTTCGGAACAGAAGCTGGATGTTGCGTCTGCTGTAGCCAGATTTCTGTGCG -ATATCTTCGATTGAAATAGGGTGCTCAAGATTGCACTCAATCCACTCCAGGAGCTGCTGTAGAATCTTCT -GCCTGATCATCTCATTCTCCGTTAATTCTTTGTCATATCGCACATTTTCGTTATACCCTGGGCCCTAAGT -GTATCAAAAATAGCAAGGGCGAAGGCAAAAGCACTGGTAGCGTCTGCTTCGTTGTCCCCGAAAATAGAGA -GGTTTCAGTCCTACATTATTAATGAATTTTTTGCATAAGTGATATCAAAATCCACATACTACTTTGAGGT -TACGTTTTAACGTAGACTCATTGTTCATGCCTAATGGAGGGACTGACAGTGGAATTTTCCGTATAGTCTG -CTTCAGAGTATTGCAGATGCCCATCAAAAATCGATTTCTCACTGACAGATAAAGAAATGGCACAAATTAG -TTCGCTTGATTTGGGTTATGTTGGGGAGTCGGTAAAACATTTTAATCCTGAATTTGTTCGTGGTTGTCTT -GCTGTAAAAATACATGATTGATATTAATCATGTATTTTACCTAAGACGACAAAAACCTTTTAACAGGGAG -TGATATTGATCTTCACTCTGTCATATCTCCGGTAATATGGCGTCAGGCTTCATCATCAGAAAGGGGGCCT -GACGCCTGAAAAAGTGAACAACAGACAGTGTTCGGATTATCAATATTCAGTTTTTAACGTTGAACTGGAT -TCATTACTGCGTTGTTTAAGAATTTCCCGCGCCGAATCTGCCATTATCATGACTGCACCTGCCAGCATCA -GAGTATCTTTCAATACCAGGCGACCAGCACCGGATAAATAAGGGAAACCATGATGAGCGTCACCCAATGC -GGGTACCCATGCCTCCGGGGTGGTGATTAAAAATGAGAGTGTTACCAGCGGCGTGGTAAATGCCATCAGT -CCTCCCAATAAACCTAACCAGCGATTGACAGGATTAGCCAAAACCAGCAGAGCAATAATCACCTCCACGA -CGCCAAGACCGTTGGAAAAACCATAGGTATTATTGGCCGTTTGCCATGCCCTTGCTTCTGGTTTGTATTC -GCCTTCGTGAGTCAGATACTGTTTATAGTCTTCCGGGTGTTCATAAAAGAACGACATTAGTGGACTGTTT -GCGACGAATGGTGTAATGCTGTCTGCCTCGTAAGGGACAAACTTTAATAACCCAATCCACATAAAAACAA -TTGCAATACTCAGACGAATCAATGTCAGGCCAATTTTATCTCCCCGACTTAACAGGTGCAGGTATTTTTC -CATTGTGAACATCCTTATTTATACAATACTGCTGTTGCGGTTGAATTATTATCAATTCGCATCGATGTGA -CTTTCCAGGATGAAGCATTATATTTTCTGGCTATATCAGCAATGGTATCCTCCAGAACTGTCGGTGATGC -TGATACTGACGAGACGCTGATATGTTTCAGAATTATTTTATCATCTGCATTGGTGGAAAATGCCATAACG -CCAGATAATAGTGTTGCAAATAAAACAGATTTTTTAAACATATAAAATACCATCAATGAAGTGATTAAGA -AGTTATAGAGTAACAGAGAATTAATAAGATTCTTTTCTCTGAGACGCCAGAATATTTGTTCTGGCGTCTG -ATTTTGAGTTTATTTGACTAATGAAAATAGATCATTGAGTGATTCGCTCATCGACGGATGAGTAAATATC -TGATCGCGTAATATGCTATAAGGCAGCCCGGCATCCATCACCATTTTCACTATATTGATCATCTCGTGGG -AGTCAACACACAGCAGTGATGCCCCTAACATACGTTGGGTTTTATTATCAACAATCGCTTTTAATACCCC -ACGAGTATCATTCATCACTCTGGCACGCGGAATTGCAGCTACAGGCAATGTCACCACCTGAATATCAGCA -CCACTCTCTCTGGCTTGTTCTTCTGTCATACCAACCCTGGACAGGGGCGGTGTCATAAATACGGAATAAG -GCACATTTTTCCGATCATCAGTACTACGTTTGCCTTCACCCAGTAACTCATCACGTACAATGCGGTAATC -ATCCAGTGATATGTAAGTAAATTGCAGCCCGCCGGTAACATCTCCCATCGCCCAAATATTGTCTGCGGTG -GTATGTAATCGCTTGTCAACGACAATTGCCCCGCGCTCGTTTACTGCGATACCGGCATTTTCTGGATGTA -ACGAAGCGGTAGCCGGTTGACGACCGGAAGCTATTAACAGTGCATCCACCGCCAGTTGGGCGTGCTCGCT -ATGCACTTGCACTTGATTTTCATGGTGACTGATTCGCTCCACATGGGCATTGAGGATAATATCGACGCCC -TGATCGCGTAAAATCGTCGCGATATTATCAGCAATATCCCGATCTTCCCGAGGCAAAAACAGCGAAGCTG -CTTCTAAAATGGTTACCTTGCTGCCAAAATTAGCGAACATAGAGGCGAACTCAACGCCAATATATCCGCC -GCCCAAAATACCTAAATGCCCAGGCAATTCTTTTAGATTAAGTAATCCGGTGCTGTCATATACTCCTGGC -GTGGTGGTAATTCCAGGAATTGGCGGAACCACGGTTTGTGCACCGGTATTAATAAAAATTTTCTCGCCAT -GAATTTCCAGATTTCCCTCAGGCCGATGAACACGCAGGCTATGATTATTGATAAACTCCGCCTGGCCGTC -GATCACGTCGATATTGGGCATATCCGCAAGATTATGAAAATTCTTATTACGTAAAAAATTAACCACTTCA -TTTTTACGCTGTATGGCACGGACAAAATCTGTGTGCTGCTGTGCGTCATGAACCAATGTTTTGGTTGGGA -TGCAGCCGATATTAATACAGGTCCCGCCATACATTGCATTTGATTGTTCGATGAGAGCCACTCGCCAACC -TGCTTTTGCCAGCGTGACGGCTAATGTTTTTCCAGCCTTGCCAAAACCAATAATCACTGCCTGATATTTA -TTCATGATGATTTCCTGTCGAAACGCGTTCATTTGACATCATGACTATAGACGCAAAAGAGCAAATAACA -TTTCTTCACAACGCTTGATATTTTGTCTTATCGTCTGATATTTTCTTTTTCTTAATCAGAATCACAAAAC -AAAAATCATGATTAACTATTTGATGGTATTAGATTAGTTATTTACTAAGATTGTTGGTGTTTGTAATCAA -AAACCACTCAGGAGTCTGATATGGATGCCCTTAGCCGTTTGTTGATGCTTAACGCTCCACAAGGAACGAT -CGATAAGAATTGCGTGTTAGGAAGTGACTGGCAGCTTCCACATGGTGCCGGGGAATTATCGGTTATTCGT -TGGCATGCGTTAACGCAAGGAGCGGCGAAGCTGGAAATGCCGACGGGGGAGATTTTTACATTACGCCCGG -GAAATGTGGTCCTGCTACCACAAAATTCAGCTCATCGCCTGAGTCATGTCGATAATGAATCGACCTGTAT -TGTCTGCGGCACTCTTCGGTTGCAACATTCGGCGCGTTATTTTTTAACGTCTTTGCCGGAAACGCTGTTT -TTAGCACCGGTTAACCACAGCGTGGAATATAACTGGCTGAGGGAGGCGATCCCGTTTTTACAACAGGAAT -CCAGATCGGCAATGCCGGGAGTGGATGCACTGTGTAGCCAGATCTGCGCTACATTCTTTACCCTCGCGGT -GCGTGAGTGGATTGCACAGGTTAATACTGAGAAAAACATTCTCAGTTTGCTTCTGCATCCACGTCTTGGT -GCGGTAATACAGCAAATGCTGGAAATGCCAGGACACGCCTGGACCGTCGAATCGCTGGCCAGCATCGCTC -ACATGTCCCGGGCAAGTTTTGCCCAGCTTTTCCGTGATGTTTCCGGAACCACGCCGCTGGCTGTATTAAC -AAAGTTGCGTCTACAAATAGCGGCCCAGATGTTTTCCCGGGAAACGCTCCCTGTTGTGGTGATCGCTGAG -TCAGTAGGCTATGCCAGTGAATCATCTTTTCACAAGGCGTTTGTCCGCGAGTTTGGTTGTACCCCGGGAG -AATATCGGGAAAGGGTCAGACAGCTTGCACCCTGAATAAAACCGCCAGAAATCAGGGCAAAGATAATCCG -CATTCCGGGAGTTGTGAGCCTTTCAACTATTTCTATTTCCAACGGTGGTTTGGGCTTTATATATTTTTTC -TGATGGACTCTAGCTCAGTTTTTAAATAAAAATGCAAACTAAATTGCTTCAATTAAATAAAATCCCGACT -ATTACTTGATACGTGATTATTGTCGGTGATTTTTTTGTACACCATCAGTGTATATCTCAATAACCCCTGA -ATAAGTAGCTCTGAATAGGTATAAGGGATGTAGCCATTTTTAAATGGATTTCTTATGCCAAAAATGATCG -TCGATTTCCCCATAAAATGTGAGCGATGCCGAAAGAAATAAAATTAGTTATTGCATTTGACGTTTGGATG -AAAGATTATCATTTGTCATACAAATGAGGGGTGGTATGTTGCTAGCCAATTAAAAAAGAACGCCATATTT -ATTGATGATTGATCCCCCGGTGGGGGGGAAACATCGGGCATAAATGGGCATGAAGTAATGGAGTATTAGT -TGTGAATGTCAATTTCTTTGTCACCTGTATTGGTGACGCCCTGAAATCAAGAATGGCACGAGACTCCGTG -CTGCTACTGGAAAAACTCGGCTGTCGCGTAAATTTCCCGGAGAAACAGGGATGCTGCGGTCAGCCTGCGA -TCAATAGCGGTTATATCAAAGAAGCGATTCCAGGGATGAAAAATCTGATCGCCGCACTGGAGGATAACGA -CGATCCCATTATTTCACCGGCTGGCTCTTGCACCTATGCCGTAAAAAGTTACCCGACGTATCTGGCGGAT -GAACCTGAATGGGCATCACGTGCCGCAAAGGTTGCCGCGCGTATGCAGGATCTCACCTCTTTTATTGTTA -ATAAATTAGGGGTAGTCGATGTAGGTGCCAGTTTGCAAGGGAGAGCGGTGTATCACCCATCTTGTAGCCT -GGCCCGTAAGCTGGGAGTGAAGGACGAGCCACTTACGCTGCTGAAAAATGTGCGTGGACTGGAGCTGTTG -ACCTTTGCTGAACAGGATACCTGCTGCGGATTTGGCGGCACGTTCTCGGTCAAAATGGCCGAAATATCCG -GCGAGATGGTGAAAGAAAAGGTTGCGCACCTGATGGAAGTCCGCCCTGAGTATTTAATTGGTGCTGACGT -GAGTTGCCTGCTAAACATCAGTGGGCGATTACAACGGGAAGGGCAGAAAGTCAAAGTGATGCATATTGCT -GAAGTGTTGATGAGCCGCTGAGGATATAAAGATGTCGATCAAAACCAGTAATACAGATTTTAAGACACGC -ATCCGTCAGCAAATTGAAGATCCGATCATGCGCAAAGCGGTGGCAAACGCGCAGCAGCGTATTGGGGCAA -ATCGGCAAAAAATGGTCGATGAATTGGGGCACTGGGAGGAGTGGCGCGATCGGGCCGCCCAGATACGTGA -TCATGTTCTGAGTAATCTCGACGCTTATCTGTACCAGCTCTCAGAAAAAGTGACGCAAAACGGCGGTCAC -GTCTATTTTGCAAGAACCAAAGAAGACGCTACCCGCTACATTTTACAGGTTGCCCAACGCAAAAATGCCC -GGAAGGTGGTGAAATCTAAATCGATGGTGACCGAAGAGATTGGTGTCAATCATGTGTTGCAGGATGCTGG -CATTCAGGTGATTGAAACCGATCTGGGTGAATATATTCTCCAGCTGGATCAAGATCCGCCATCTCATGTT -GTGGTCCCGGCAATTCATAAAGATCGCCATCAGATCCGTCGAGTGCTACACGAACGTCTGGGCTATGAGG -GGCCGGAAACGCCTGAAGCGATGACCTTATTCATCCGGCAAAAAATCCGCGAAGATTTCCTCAGTGCTGA -AATAGGTATTACCGGCTGTAATTTCGCGGTGGCAGAGACCGGTTCGGTATGCCTGGTGACCAATGAAGGT -AATGCGCGAATGTGTACCACGCTGCCTAAAACGCATATTGCAGTGATGGGAATGGAGCGTATTGCCCCCA -CGTTTGCCGAGGTAGATGTATTGATCACCATGCTGGCGCGCAGTGCCGTTGGTGCACGTTTGACGGGATA -CAACACCTGGCTGACAGGACCGCGCGAAGCTGGGCACGTTGATGGTCCTGAAGAGTTTCATCTGGTTATT -GTCGATAACGGGCGTTCTGAGGTGCTGGCCTCTGAATTTCGGGATGTGCTGCGCTGTATTCGCTGCGGGG -CTTGTATGAATACTTGTCCGGCATATCGCCATATTGGCGGTCATGGATATGGCTCTATTTATCCAGGGCC -AATTGGTGCGGTGATTTCTCCGCTACTTGGCGGCTATAAAGATTTTAAAGATTTACCCTACGCCTGCTCT -TTATGCACAGCTTGTGACAACGTGTGTCCGGTGCGTATTCCGCTGTCAAAACTGATTTTGCGTCATCGTC -GGGTGATGGCTGAAAAAGGGATCACCGCAAAAGCAGAGCAACGGGCGATAAAAATGTTCGCTTATGCCAA -TAGTCATCCAGGATTGTGGAAAGTCGGGATGATGGCCGGTGCTCATGCGGCAAGCTGGTTTATCAATGGC -GGCAAAACACCACTCAAATTTGGCGCGATTAGCGACTGGATGGAAGCACGCGATCTTCCTGAAGCTGACG -GAGAGAGTTTCCGTAGTTGGTTTAAGAAACATCAGGCGCAGGAGAAAAAGAATGGATAATCGAGGCGAAT -TTTTGAATAACGTTGCTCAGGCACTGGGTCGCCCGCTGCGACTTGAACCGCAAGCAGAAGATGCGCCGCT -TAACAACTATGCTAACGAGCGGCTTACCCAACTTAACCAACAGCAGCGCTGTGACGCGTTTATTCAGTTT -GCCAGCGATGTTATGTTGACGCGCTGTGAGCTGACCAGCGAGGCGAAGGCGGCAGAAGCTGCAATACGTC -TGTGTAAAGAGCTGGGAGATCAGTCGGTCGTGATTAGCGGTGACACGAGGCTGGAGGAATTGGGGATTAG -CGAACGTTTGCAGCAGGAATGCAATGCCGTTGTTTGGGATCCGGCGAAAGGTGCCGAGAATATCTCGCAG -GCAGAGCAGGCTAAAGTGGGTGTTGTGTATGCTGAATATGGTTTAACCGAATCGGGAGGCGTGGTTCTTT -TTTCCGCCGCCGAGCGCGGGCGTTCATTGAGCCTGCTCCCGGAATATTCTCTTTTTATCCTGCGTAAAAG -CACTATCCTGCCGCGTGTAGCGCAACTCGCAGAAAAATTGCATCAGAAAGCGCAGGCCGGTGAACGAATG -CCTTCCTGCATTAACATCATTAGCGGCCCCAGTTCAACGGCGGATATTGAGCTTATCAAAGTCGTCGGAG -TTCATGGCCCGGTGAAAGCGGTGTATCTGATTATTGAGGATTGTTGAGAGAGATATGAAGTCTGGACATA -AACCTGAAGAAGGCATACGAGGTTGAAAATAGCGTTTAGGACAACCTGACTTAACCCCGTTCCGTCATGG -TTATGCTGCTCTTCTGTAAATATCCTGGTATTACCAATGCCAGGATATTTACAGTGAAAAAGACAGGCAT -CCATTCCTGAAAACGGGTTCCCTTCCCGGTCATTGTCACTTCAGCTTTATACAGGCACTCTCTATCAGAA -TGTTGTTTATTACTGCCCAGAGTTTTGTTGGTATTCATCTACCATTTTTTTGACAAGGCAAAACATTACA -GAAATTACAATGCTTAGAAAAAATCCCAGAGCCAGGCAAATGGCAGCAGGGTATTTATTTTTTATTTCTG -GTGAGCTTATAGTTACACAGCCATCACCGTTCGGATACAATGACCAGTTCCTGGTCAGGTATATCATTTT -TGTATAAAGCTCACTGTTAATTGCTGAAGGCGTTTGTATCTCATCGAGAACTTGCCTGCCATTATGATAT -TCTGACGCATACCATTTGATAATAGAGGCCTGCACGCGAGATATTTCCTCTTCAGCAGTTGGTAAAGCTC -TCTTATCTCCTGACCATTCCAGCCTTATTTCTCTGTTCTTGACATCTGGGCTGGTGTGAAAAAATGTAGT -AATTCGCTGAATAACATCTTCAGTCATTGTAGTCTGACAGGCAAAATTATTATTGCTATCACAGCTAACA -AGTATACCTGGCGTTGTCTGGTTTATTTTTAGGCTGTAAATCACTTTTATATTGTCTTTATTGATATACA -GAAACAACAGCACCATAGCCATACATATAGCCATAATAAAAAGGATAACACGAATCTTTTTCTTCAGATA -AAATAAAATCTCAATCAGATCGATATCCTGTTTGATTTGTTCACGCATAATATATCCAGAGAATAAAATC -TGTCGCAGATAAGGTTGTATTAATAGTCTGTATCAGGAATGTTCGGGTTAAATATCAGCAAAAAGCCCGC -ATCATGAATACTGGATATGAAGCATGAGAGTTACCTCAGTGTTTATATAAGGATTCGGTCCCCCTCTCTG -GAACGGTAACTCTCAATCTGATCGGTTCCTGCGTTAGTTCACATCACGACTCATTTTTTCGCTCTCACCG -GCATCCCATTTGCCACAAAATATCCCGCCGTGCTCCTCGGCAGCGCTTCCTGTCCACGAATCATATCCGC -TATTTTCTCGCCAATCATAATTGTCGTGGCGTTCAAATTCCCGGTGATAATCTGCGGCATAATCGACGCA -TCCACCACACGCAGGCCTTCTAACCCGTGTACGCGGCCTTCGCCGTCAACCACGGACATCTCGTCGTAAC -CCATTTTGCAGGTACCGCACGGATGGAAGGCGGTTTCGGCGTGGTTACGCACGAACTCATCGAGCTGTTC -ATCCGTCTGGCATTCGACACCGGGGCTGATTTCGCGGCCACGATACTGATCCAGCGCGGGTTGATGCATG -ATCTCGCGGGTGATGCGAATTGCGTCGCGGAACTCCTGCCAGTCCTGCTCGTGCGACATGTAGTTAAACA -GAATCGCCGGATGCTGGTGCGGGTCGCGGGATTTAATCCGCACATGCCCACGGCTTGGCGAGCGCATTGA -GCCGACGTGGCACTGGAAACCGTGCTCTTTCACTGCATTCGAGCCGTTATAGTTAATCGCTACTGGCAGG -AAATGGTACTGAATATTCGGCCACGCAAATTCCTCACGGCTGCGAATAAATCCACCTGCTTCAAAGTGGT -TGCTGGCACCAACGCCAGTGCCGCCAAACAGCCACTCCGCACCGATTTTCGGCTGGTTCCACCACTGCAG -GGCAGGGTAGAGGGAAACCGGTTCTTTGCACTCATATTGCAGATACATCTCCAGATGATCCTGAAGATTT -TCGCCGACGCCGGGTAATTCATGCACCAGCGGAATATCAAACTCCGCCAGCAGTTCAGCGTTGCCGACGC -CGGAGCGTTGCAGGATCTGCGGTGAGGCAATCGCGCCTGCACATAACAGCACTTCTTTGTTGGCCGTTGC -GCGGGTTGGGATGGTGCTGTCGCCTTCCAGCCATTCGACGCCCACCGCGCGTTTGCCGTCAAAAATGATG -TGATCGGTCATAGCGTGAGTACGAATGGTCAGGTTAGGACGCGATTTGGCCTGATCGAGATAGCCACGCG -CGGTGCTGGCGCGACGGCCCTGCGGCGTGACGGTGCGATCCATCGGACCAAAACCTTCCTGCTGATAACC -GTTGAGATCGTCCGTGCGCGGGTAGCCCGCCTGCACGCCCGCTTCAATCATCGCTTCAAACAGCGGATTG -ACGCCGGGTTTGGAGGTAGTGACGCTCACCGGGCCATCACCGCCGTGATAGTCGTTTTCACCCATATCGC -GAGTCTCGGCCTTGCGGTAGTAGGGCAGGCAGTCGAGGTAGCTCCAGTTCTCCAGACCGGGTTCTTGCGC -CCAGTTATCGAGATCCAGCGCATTGCCACGGATGTAGCACATGCCGTTGATCAGCGACGATCCACCCAGA -CCTTTACCGCGTCCGCACTCCATGCGGCGGTTATTCATAAACGGTTCAGGTTCCGTTTCATAGGCCCAGT -TGTAGCGTTTACCCTGTAGCGGGAATGCCAGGGCAGCGGGCATCTGGGTGCGGAAGTCAAAGCGATAGTC -CGGGCCGCCCGCTTCAAGCAGCAGCACGGAGGTATTCGGATCTTCAGTCAGACGGGTAGCGAGAACGTTG -CCGGCTGAGCCGGCACCAATAATGATGTAGTCAAATTGCAAATAAACCTCCTGGTTAGAATATGGACTGG -AATTTAGCCATCTCAACCTGGATGGACTTCACCTGGGTGTAACTCTGGAGCGTCATCACGCCGTTCTCGC -GACCAATGCCGGAGTGTTTGTAGCCGCCAACGGGCATCTCTGCCGGGGATTCGCCCCAGGTGTTGATCCA -GCAAATACCCGCTTCCAGCTGATGAATGACGCGATGCGCGCGGTTCAGGTCCGCTGTCACGATGCCCGCC -GCCAGGCCGTAGTCGGTATCGTTAGCGCGGCGAATGACTTCGTCTTCCGACTCGTAGGTCAGAATGGACA -TCACTGGCCCGAAGATCTCTTCACGCACGATGGTCATATCGTCGCTGCAATCGGTGAACACTGTCGGTGC -AACCCATGCGCCGTTATCGAAGCCATCGCCTTTCAGTACATCGCCGCCGCACAGTACGCGCGCGCCTTCC -TCTTTGCCTTTGGCGATATAGCGCAGCACGTTATCGCGATGCGGGAAGCTGACCAGCGGGCCGAAGTTAG -TTTGCGGATCGAAAACGTCGCCCGCGCGAATGCGCTCAACGCGCGCCAGAATTTTCTGCTCAAATGCGGC -TTTGCATTTCGCCGGAACGAAGACGCGGGTGCCATTGGTACACACCTGACCGGAGCTGAAGAAGTTTGCC -ATCATGGCGATATCGGCGGCGAGATCGAGATCCGCATCATCGAAAACGATCAGCGGTGATTTACCGCCCA -GTTCCATGGTCACTTCTTTCAGGGAAGAGGCCGCCGAGTTAGCCATCACTTTTTTGCCGCTGGCGACACC -GCCGGTAAATGACACTTTGGCAATGCCCGGATGCTCGGTCAGATATTGCCCGGTCTCCGCGCCCACGCCC -GGCAACACGTTAAATACGCCGTCCGGCAGGCCCGCTTCGCTGTAAATTTCAGCCAGCTTTAACGCGGTAA -GCGGGGTAACTTCGCTCGGTTTGAAAATCATTGCGTTGCCTGCCGCCAGCGCCGGGGCGGATTTCCACAG -GGCAATCTGGATCGGGTAGTTCCATGCGCCAATCCCTGCCACTACGCCCAGCGGTTCGCGGCGGGTATAC -ACAAAGGACGTTTCACGCAACGGGATCTGGCTGCCTTCCAGCGCCGGGATCAGCCCGGCGTAGTACTCCA -GCACGTCCGCACCGGTAACGATATCGACGGTTGAGGTTTCCGAATATGCTTTTCCGGTGTCGAGGGTTTC -CAGTTTTGCGAGTTCGTCATTGCGTTCACGCAGAATATCAACGGCCCGACGCAGAATACGCGAGCGCTCC -ATGGCGGTCATCGACGCCCAGATTTTTTGCCCCTGCTGGGCGCTTTTCACGGCGCGATCGACATCCTCGC -GCCCGGCGGCCTGCACGGTCGCCAGCACGTTACCGTTGGCCGGGTTAATGGTCTCGAAGGTGCGACCGCT -GGTGGCGGAGGTATAACCACCATGTATATAAAGCTGCTGTTCTGCCATTCGGGACATCACGTCTCCTCGG -TTAATCGGTGGGTAGATGCTGAGTGATAAAGTGGCGGGTCAGGGAATTAGCGCGGGTTTTATCCAGCGGT -TTGCCGCTCAGAGCCGCGCGCAGCCATAATCCATCAATCAGCGCGGCCAGGCCGTAGCCCGCTTCCTGTG -CCTGTTCGCGCGGCAATTCGCGACGAAACTCGCTCACCAGATTCGACAGCAAGCGGCGGCTGCTGACCTG -CTGTAAACGATAGAGCATCGGCTGATGCATACTGCTGGCCCAGAACGCCAGCCAGGCTTTCATCGCCGCA -CTGCTCACCTGCGTTTCATCGAAGTTTCCGCCAACAATCGCCTGTAATCGCTGCTCTGCACTGCCCTGCG -GAAGTGCATGTAATCGATTCAAAACCGCGTCACGCAGCTGACTGGTGATATCGCGCATGGTTGCTTCCAG -CAGACCATTTTTGTCCCTGAAATAGTGGCTGATGATCCCCGTAGAAACGCCTGCACGGCGGGCGATCTGC -GCGATCGTTGCATCGTGCATGCCCACTTCATTTATTGCTTCCAGTGTGGCGTCGATCAGTTGTCTGCGCC -GGATCGACTGCATCCCCAATTTGGGCATTTTCGCCACTCCATTCATCAGCGGTGTTTATCTATTAAAGCG -GTTATTGATTGGACGTTCAATATAAAATGTGTCTTAATTGTTACGAATTTGATTTTAAATAGTAACAATA -ACAGTGGGGATACTGGATGACAGACCTTTCACACAGCAGGGAAAAGGACAAAATCAATCCGGTGGTGTTT -TACACCTCCGCCGGACTGATTTTGTTGTTTTCCCTGACAACGATCCTGTTTCGCGACTTCTCGGCCCTGT -GGATTGGCCGCACGCTGGACTGGGTTTCTAAAACCTTCGGTTGGTACTATCTGCTGGCGGCAACGCTCTA -TATTGTCTTTGTGGTCTGTATCGCTTGTTCGCGTTTTGGTTCGGTGAAGCTCGGGCCAGAACAATCCAAA -CCGGAATTCAGCCTGCTGAGTTGGGCGGCGATGCTGTTTGCTGCCGGGATCGGTATCGACCTGATGTTCT -TCTCCGTAGCCGAACCGGTAACGCAGTATATGCAGCCGCCGGAAGGCGCGGGACAGACGATTGAGGCCGC -GCGTCAGGCGATGGTCTGGACGCTGTTTCACTACGGCTTAACCGGCTGGTCGATGTATGCGCTGATGGGC -ATGGCGCTCGGATACTTTAGCTATCGTTATAATTTGCCGCTCACCATCCGCTCGGCGCTGTACCCGATCT -TCGGTAAACGGATTAACGGGCCGATAGGTCACTCAGTGGATATTGCAGCGGTGATCGGCACTATCTTCGG -TATTGCCACTACGCTCGGTATCGGTGTGGTGCAGCTTAACTATGGCTTGAGCGTACTGTTTGATATTCCC -GATTCGATGGCGGCGAAAGCGGCACTGATCGCCTTGTCGGTGATAATCGCCACGATCTCTGTCACCTCCG -GTGTCGATAAGGGCATTCGCGTGTTATCGGAGCTTAATGTCGCGCTGGCGCTGGGATTGATCCTGTTCGT -ATTGTTTATGGGCGACACTTCGTTCCTGCTTAATGCACTGGTGCTGAATGTTGGCGACTATGTGAATCGC -TTTATGGGCATGACGCTCAACAGTTTTGCCTTCGACCGTCCGGTTGAGTGGATGAATAACTGGACGCTCT -TCTTCTGGGCATGGTGGGTGGCATGGTCGCCGTTTGTCGGCTTGTTCCTGGCGCGTATCTCGCGTGGGCG -TACCATTCGCCAGTTCGTGCTGGGCACGTTGATTATTCCGTTTACCTTCACGCTGTTATGGCTCTCGGTG -TTCGGCAATAGCGCGCTGTATGAAATCATCCACGGCGGCGCGGCATTTGCCGAGGAAGCGATGGTCCATC -CGGAGCGCGGCTTCTACAGCCTGCTGGCGCAGTATCCGGCGTTTACCTTTAGCGCCTCCGTCGCCACCAT -TACTGGCCTGCTGTTTTATGTGACCTCGGCGGACTCCGGGGCGCTGGTGCTGGGGAATTTCACCTCGCAG -CTTAAAGATATCAACAGCGACGCCCCCGGCTGGCTGCGCGTCTTCTGGTCGGTGGCGATTGGCCTGCTGA -CGCTCGGCATGCTGATGACTAACGGGATATCCGCGCTGCAAAACACCACGGTGATTATGGGGCTGCCGTT -CAGCTTTGTGATCTTCTTCGTGATGGCGGGGTTGTATAAATCTCTGAAGGTAGAAGATTACCGCCGTGAA -AGTGCCAACCGCGATACCGCACCGCGACCGCTGGGGCTTCAGGATCGCCTGAGCTGGAAAAAACGTCTCT -CGCGCCTGATGAATTATCCGGGCACGCGTTACACTAAACAGATGATGGAGACGGTCTGTTACCCGGCAAT -GGAAGAAGTGGCGCAGGAGTTGCGGTTGCGCGGCGCGTACGTGGAGCTAAAAAGCCTGCCACCGGAAGAG -GGACAGCAGTTGGGTCATCTGGATTTGTTGGTGCATATGGGCGAAGAGCAAAACTTTGTCTATCAGATTT -GGCCGCAGCAATATTCGGTGCCGGGCTTTACCTACCGCGCACGCAGCGGTAAATCGACCTACTACCGGCT -GGAAACCTTCCTGTTAGAAGGCAGCCAGGGCAACGACCTGATGGACTACAGCAAAGAGCAGGTGATCACC -GATATTCTTGACCAGTACGAGCGGCACCTTAACTTTATTCATCTCCATCGTGAAGCGCCGGGCCATAGCG -TGATGTTCCCGGACGCGTGATTGTTATTGCATAAAACCGCGCCATGTCTGCATATGGCGCTGTTTCTCCT -ACCTCTTGATACGTTATATCTATACGGTTAAGCCCTTAGTATCTATTGATGATTACCAGACAACAGATAA -TAAAAAAGAAAAGAACTATTGCAGCCCAAAACCTACATTTGGGCTGTTGCGAATGTTCAATAAGTTTAGT -CTTATTTAATGTAAATATTGCTGATCATTTGAAATGACGCATTATTCATGAGAAATGTGTATCGTAAATC -AACTGAAATTAACGCAACCATTTGTTATTTAAGGTTTAATTATCTGTGTGTGATATTTTATTGAATGTTT -TAAATATTGTTTTTATTGGCATTGCTATAATATTGGTTATCATTTGCTGAATGGATTCAGTCTTAATGAG -TGGGTTTTTAAGGGACAGGCATAGAGTAATGATACGTATGCATAACCAACATCTTTACTCATTATGTCAT -TGAATGTTGACGCTATGTGTTTATGAGGGAGAGGTATTTTCAGTTGATCTGGATTGTTAAATTCATATAA -TGCGCCTTTGCTCATGAATGGATGCCAGTATGTAGTGGGAAATTATAAATATTGAAATAGTCCAACTACT -TCTTTATTACCAAAAATGAGTATCTGAATTTTAATATTGCATTCTTGCGTGATTATCTCCTGAGTTTGAC -TTGTGATTACCTTTTTAAGGTATTTAGCGTAACTGTTTTTGAGCGAGCATCAGAGGTAAAGATAATCTTC -TTGATAGTGATGTGGGATGTTATACGTATGGCATCGCTGATGTTTATGGTTACCCCTTATGTGTGCTCAG -GAATCGACAGGTAATCACTCATACTGAACAGCGATAAAAGATAAAGGTGTGTTCATGAATTCATGTGATT -TTCGTGTTTTTCTGCAAGAGTTCGGTACAACGGTTCATTTGTCATTGCCTGGTAGCGTATCCGAGAAAGA -ACGACTGCTACTCAAGCTGCTGATGCAGGGAATGTCTGTAACAGAAATATCACAGTACAGAAATCGCAGT -GCAAAGACAATTTCACATCAAAAGAAACAGCTCTTTGAGAAACTGGGGATTCAGAGCGATATTACTTTCT -GGCGCGATATTTTCTTTCAGTACAATCCGGAGATCATATCCGCCACGGGGAGTAATAGTCACAGATATAT -TAATGATAATCACTATCACCATATCGTCACGCCTGAAGCCATCAGTCTGGCGTTGGAAAACCACGAATTC -AAACCGTGGATCCAACCGGTTTTCTGCGCGCAGACTGGCGTACTGACGGGCTGTGAGGTGCTTGTCCGCT -GGGAACATCCACAAACGGGAATTATCCCACCGGATCAGTTTATTCCTCTGGCGGAGTCATCCGGTCTTAT -TGTCATAATGACCCGCCAACTGATGAAACAGACTGCGGATATTCTGATGCCGGTAAAACATTTGCTGCCG -GACAATTTCCATATTGGCATCAACGTCTCGGCGGGTTGTTTTTTGGCAGCGGGATTTGAAAAAGAGTGTC -TGAACCTGGTTAATAAATTAGGTAACGATAAAATCAAGCTGGTTCTCGAGCTAACGGAACGTAACCCTAT -TCCGGTAACGCCAGAAGCCAGAGCGATATTTGACAGCCTTCATCAGCACAACATTACCTTTGCGCTGGAT -GACTTTGGTACGGGTTATGCGACCTATCGTTACTTGCAGGCGTTCCCGGTCGATTTTATTAAGATCGATA -AGTCATTTGTGCAAATGGCGAGTGTCGACGAAATCTCCGGTCATATTGTGGACAATATTGTCGAACTAGC -GCGTAAGCCTGGTCTGAGTATCGTGGCGGAAGGGGTAGAAACCCAGGAGCAGGCGGATTTAATGATCGGT -AAAGGCGTTCACTTTTTGCAGGGCTATTTGTACTCTCCGCCAGTACCGGGTAATAAATTTATCTCTGAAT -GGGTAATGAAAGCAGGTGGTTGATGTAAACCGCTATTCACAGCGCATCGGGAGGTTGGCAGCGATTAATT -CTCCCGATGCAGTAAATCCTGATAGATCCCCGTTAATATGCCATTTGGCGCAAATTGTTTTTTAATCCAC -TGCGTCACCTGACCCGTAGCAGAATGCTGAGTCGCCAGTAACATGCGCGAATCCTGGCGCGGATTATGGA -TTTGTCGGGTAACCAGCAGGGATTGCGTCATCGCCTCACGGACCATGTAATCCGGCAAAAAACCAATTCC -TTCACCTAAAATCTGGCACTGACATTTGGTGTTGAAATCTGGCACCAGAATTGACTCCTGCCCGTGCAGC -AACCAGCCCACTTTTTTATTAATCGTATGCGCGGTGTCCTCCACCATAATATTAGGGTAGAGACGCAGTT -GGCTTTCGGCGATGGGTTCCGGCACAAAGGCTAACGGGTGATCCGGGGCGATAGCAAAAGCCCAGCGAAT -CGCGCCAATTTCAGTGTAATCAATACCGCCGCCGTCCAGTAGTGTATCGGGTGCGCCGATGGCGATATTG -GCCTGATTATTAATAATCGCATCCCAGACGCCGTTATACACTTCGGTGGTGACGGTAATCTGGCAGGTAG -GAAACTGCTTTTTCAGCACCTGTAACAAGCGTGCGGTGTGTTTGGGCGTATAAAGCAGCTGATTAATACA -AATGCGCACACGCGCTTCTATGCCCTGCGAAATAGTATCGATTCTGCGTTTGATGGCATAAAAATCATTC -AGCAGGTCGGTAGCTTTGCGGAAAAAATAACGCCCGGACTCCGTTAACTCAATGCTGCGGGTACTGCGAG -TGAACAGCACCACATCCAGCCCCGTCTCCATACGCTTAATGGTGTAGCTAATGGCGGAAGTGGTTAAACC -CAACTCTTCTGCGGCTTTACTGAAGCTGCCAAAACGCGCAGCGGTAGTAAATGCCAACAGATTCTCTTCG -GTAAAAATTGAGTTCATTAAACCATTCTCGCCATTATCTACTATGAATTTCTCCAGCTATGACTGTAGAG -GTATCGGTTAAAGATAGATAATCATTTTTGAATAACTTTTAATACCCGTCGCGTTTAGTCGTCGCTTCGC -TTAATTTTTGTCCACCATATTCTGAAATTACCCCCACGCAGTTACCCGCCAGAAAACCCAGTAACGTCAC -CGTCCAGTTCATCCCGCTGGCAAAAAACAGCGTCATGCCGAGAAAGCCACCGGGAATAAAGGACAGTAAC -CAGAAACGCCCTTGCCAGACCACTACCGCCGAGAAGGGTACGGTAGTAATTACGCTCGCCCAGAACGCGG -ACAGTCCACTTACAGAGGCCAGCCAACCAGCAGTCAGCGCGGCGAAAAACGCCCACACCATCCCGGAATA -ATTAACCGCCAGACTTCTGATAAACCCCGATTTACCGCCGCCTGCGGCATAAAAACTGCAAAAGGCGACG -AAGCCAATGGTTCCTAATAATTCCCATCCTTGAGAGAGCCCGACATGTGAAGACACTAACTGCCAAAGCC -CTGCACAAATACCGACGGTGACACCCGTTGCCGTGAGTCCGTTCATCTTGTTCCCCTCTGGTTAGACATG -GACGAAAGCTACTCTTACATGTGCAGACTATAGAGAAATAAAACCTGATTGAGTGAAAGGGTATCGGGTC -AAAGAAACAAATATTGCACTACCGCACACTGCGAAAAGATTGTTGAATATTATTCAACAAAAAGGCGAGA -TACGGCGAATTAAATTTAAGCGGGTTCTTTTATCAGATTATCGTTGCTATTCTCAATTCATCGAAAACAG -CCACAAAAACCAGGGGAATGTGAATGAGTATAAAAAATCTACCTGCCGACTATTTATTGGCTGCACAACA -GGGTGATATCGATAAAGTAAAAACCTGCCTTGCGCTGGGTGTCGATATTAATACCTGCGATCGTCAGGGG -AAAACGGCAATTACGCTGGCAAGTTTATATCAGCAATATGCTTGCGTTCAGGCATTAATTGATGCCGGAG -CGGATATTAATAAGCAAGATCATACCTGTTTAAATCCTTTTTTAATTAGCTGTCTGAACGATGATTTAAC -GCTACTACGAATTATTTTACCGGCTAAACCCGATCTTAATTGCGTAACCCGTTTTGGCGGTGTCGGCCTG -ACGCCTGCCTGTGAAAAAGGCCATTTAAGTATTGTAAAAGAGCTTTTGGCGCATACGGAGATTAACGTTA -ACCAGACCAACCATGTAGGCTGGACGCCGCTACTGGAAGCGATTGTGCTTAATGATGGTGGTATTAAACA -GCAGGCGATTGTGCAGTTATTGCTGGAACACGGTGCCAGCCCGCATCTGACCGATAAATATGGCAAAACG -CCACTGGAACTGGCGCGGGAACGGGGCTTTGAAGAGATTGCGCAGTTACTGATTGCCGCAGGTGCATAAA -CCGGGAGGCTTGCTATCAACACACCAGAAAGACGGTGTGTGTGGGCGCTAACTGCGGATGCGGATTTTCT -GGCGCAGCGGGGGCAAGGACAGGTTGAACAGGTCTTTGCCAGAGCGGTAAATATCGCACTCCCGGCTCGC -CAGCAGTTGCTGACGCTGCTTTGTGAAGAGTACGACAATGCGCCAAACAGTTGTCGGTTGGCACTCACTC -ACTTTGATGATCTGTTCCGGCATGGTGATAAGGTTCAGTTTGACGATCAAGGTATTACGGTTGGTCAACA -TCTTCATATAGAGATGAGTCGTTGTCGGCGTTGGCTGTCCCCAACCTTGCAAATGACCGCTGTGAATTTT -CACCTTATCGCCTGGCTACAGTGGCACGACATTATTCATCAGCACCTGGGGGAAAATGAAACCCTGTTTA -ATTATCGCGGCGATAATCCGTTTTATCAGGCGTTAAATAAAGAATTACATATTAAACGACGGGCAGTTAT -TCAGGCCGTAAACGATAAACAAAATATCGCCTCAGCGGTCGCCAGTATGATGGGGTTAGGGATTGGCCTT -ACGCCATCAGCCGACGATTATTTAACAGGTCTGGCGCTTATTTTATTTATTCCCGGGCATCCGGCGGAAA -AATACAAAGAGGAATTTTATCTCGGTCTGCAACGCGGCAAAAATAATACCACATTATTAAGTGCCATAAC -GCTGGAAGCCGCATTACAACAACGCTGCCGGGAAAATATTCATCGTTTTATTCACAACATTATTTATGAC -ATCCCTGGGAACGCAACTCAGGCAATAGAAAAAATTAAACATATTGGCTCCAGTTCCGGCTGCGACATGC -TGTATGGCATGGCCGATGGTTGTGCGCTGAGCCAAACCTACGGAGGGAATTATGTCAGTTAAAATAGTCA -TTAAACCGAATACCTATTTTGATTCTGTCTCGCTGATGTCTATCTCCACGCGTGCAAATAAACTCGACGG -CGTCGAGCAGGCATTTGTGGCGATGGCGACCGAAATGAATAAAGGCGTGCTGAAGAATTTAGGACTGCTG -ACGCCGGAGCTGGAGCAGGCGAAAAACGGCGACCTGATGATTGTCATCAATGGTAAATCGGGTGCGGACA -ACGAGCAGTTACTGGTGGAGATTGAAGAACTGTTCAACACCAAAGCGCAAAGCGGCTCGCACGAGGCGCG -TTACGCCACTATTGGCAGCGCCAAAAAGCATATCCCGGAAAGTAACCTGGCGGTGATTTCGGTCAACGGT -CTGTTTGCCGCTCGCGAAGCGCGTCAGGCGCTGCAAAACGATCTCAACGTGATGCTGTTTTCCGATAACG -TCTCAGTTGAAGATGAACTGGCGCTCAAGCAACTGGCCCACGAAAAAGGGCTGCTGATGATGGGGCCAGA -CTGTGGCACGGCGATTATCAACGGCGCGGCGCTCTGTTTTGGTAACGCCGTGCGTCGCGGCAACATCGGT -ATTGTTGGCGCATCCGGCACCGGCAGTCAGGAGTTGAGCGTCCGCATTCATGAATTTGGCGGCGGCGTTT -CGCAACTGATTGGCACCGGCGGGCGCGACCTGAGCGAGAAAATCGGCGGCCTGATGATGCTCGACGCCAT -CGGGATGCTGGAAAACGATCCGCAAACTGAAATCATTGCGCTTATCTCCAAACCGCCTGCGCCTGCGGTG -GCCCGCAAAGTGCTGGAACGTGCGCGCGCCTGCCGCAAGCCGGTGGTCGTCTGCTTCCTCGATCGTGGCG -AAACGCCAGTGGATGAGCAGGGGCTACAGTTTGCCCGCGGCACCAAAGAGGCAGCGCTAAAAGCGGTGAT -GCTCTCCGGCGTGAAACAGGAAAATCTCGACCTGCATACGCTTAACCAGCCGTTGATTGCGGATGTGCGT -GCGCGTCTGCAACCGCAGCAGAAATACATTCGTGGCCTGTTCTGCGGCGGCACGCTGTGCGACGAAACCA -TGTTCGCGGTGATGGAAAAACATGGCGATGTCTACAGCAACATTCAGCCCGATCCGGAATTCCGCCTGAA -AGATATCAACCGCAGCATCAAACACACCTTCCTCGACTTTGGCGATGACGACTTCACCAATGGCAAGCCG -CACCCGATGATTGACCCCACCAACCGCATCAGTCGCTTGATCGAAGAGGCGCGCGATCCAGAAGTGGCGG -TGATCGTGATGGATTTTGTGCTCGGATTTGGATCGCATGAAGATCCGGTCGGCTCCACCATCGAGACGAT -CAAAGAAGCGAAAGCGATCGCCGCTGCCGAAGGACGCGAGTTGATCATTCTCGCCTATGTGCTGGGTACC -GATCTTGATACGCCATCGTTAGAACAACAAAGCCAGATGCTGCTTGATGCCGGAGTGATTCTGGCGAGCA -GCAGCACCAATACCGGATTGCTGGCGCGTGAATTTATCTGCAAAGGGGAGGAAGCCTGATGAGCCAGTCA -CTGTTTAGCCAACCATTGAACGTTATTAACGTCGGCATCGCCATGTTTAGCGATGACCTGAAAAAGCAGC -ATGTAGAAGTGACTCAACTCGACTGGACGCCGCCGGGGCAGGGCAATATGCAGGTGGTGCAGGCGCTGGA -TAACATTGCCGATTCGCCGCTGGCGGACAAAATCGCCGCCGCTAACCAGCAGGCGCTGGAGCGTATTATC -CAGTCGCATCCGGTGCTGATTGGTTTTGATCAGGCGATTAACGTGGTGCCGGGCATGACGGCGAAAACCA -TTCTTCACGCCGGGCCGCCGATCACCTGGGAAAAAATGTGCGGCGCGATGAAAGGCGCGGTCACCGGAGC -GCTGGTGTTCGAAGGACTGGCGAAAGATCTCGACGAGGCGGCTGAACTGGCGGCTTCCGGGGAGATCACC -TTCTCGCCGTGTCACGAGCACGACTGCGTGGGATCGATGGCGGGTGTTACCTCGGCCTCGATGTTTATGC -ACATCGTAAAAAACAAAACCTACGGCAACATCGCTTATACCAACATGAGCGAGCAGATGGCGAAGATTTT -GCGTATGGGCGCTAACGACCAGAGCGTGATTGACCGCCTGAACTGGATGCGTGATGTGCAGGGACCAATA -CTGCGCGACGCGATGAAAATTATCGGCGAAATCGATCTGCGCTTAATGCTGGCGCAGGCGCTGCATATGG -GCGATGAGTGCCATAACCGCAATAACGCCGGGACGACACTGCTGATTCAGGCGCTGACGCCGGGGATTAT -TCAGGCGGGTTATTCCGTCGAGCAACAGCGCGAAGTGTTTGAGTTTGTCGCCAGCAGCGACTACTTCTCC -GGCCCGACGTGGATGGCGATGTATCAGTCGCGATTCACCTGCACTCGCAACGAGGTTCATCTTATGTCGA -CTCGTACCCCTTCATCATCTTCATCCCGCCTGATGCTGACCATCGGGCTTTGTTTTTTGGTCGCTCTGAT -GGAAGGGCTGGATCTTCAGGCGGCTGGCATTGCGGCGGGTGGCATCGCCCAGGCTTTCGCACTCGATAAA -ATGCAAATGGGCTGGATATTTAGCGCCGGAATACTCGGTTTGCTACCCGGCGCGTTGGTTGGCGGAATGC -TGGCGGACCGTTATGGTCGCAAGCGCATTTTGATTGGCTCAGTTGCGCTGTTTGGTTTGTTCTCACTGGC -AACGGCGATTGCCTGGGATTTCCCCTCACTGGTCTTTGCGCGGCTGATGACCGGTGTCGGGCTGGGGGCG -GCGTTGCCGAATCTTATCGCCCTGACGTCTGAAGCCGCGGGTCCACGTTTTCGTGGGACGGCAGTGAGCC -TGATGTATTGCGGTGTTCCCATTGGCGCGGCGCTGGCGGCGACACTGGGTTTCGCGGGGGCAAACTTAGC -ATGGCAAACGGTGTTTTGGGTAGGTGGTGTGGTGCCGTTGATTCTGGTGCCGCTATTAATGCGCTGGCTG -CCGGAGTCGGCGGTTTTCGCTGGCGAAAAACAGTCTGCGCCACCACTGCGTGCCTTATTTGCGCCAGAAA -CGGCAACCGCGACGCTGCTGCTGTGGTTGTGTTATTTCTTCACTCTGCTGGTGGTCTACATGTTGATCAA -CTGGCTACCGCTACTTTTGGTGGAGCAAGGATTCCAGCCATCGCAGGCGGCAGGGGTGATGTTTGCCCTG -CAAATGGGGGCGGCAAGCGGGACGTTAATGTTGGGCGCATTGATGGATAAGCTGCGTCCAGTAACCATGT -CGCTACTGATTTATAGCGGCATGTTAGCTTCGCTGCTGGCGCTTGGAACGGTGTCGTCATTTAACGGTAT -GTTGCTGGCGGGATTTGTCGCGGGGTTGTTTGCGACAGGTGGGCAAAGCGTTTTGTATGCCCTGGCACCG -TTGTTTTACAGTTCGCAGATCCGCGCAACAGGTGTGGGAACAGCCGTGGCGGTAGGGCGTCTGGGGGCTA -TGAGCGGTCCGTTACTGGCCGGGAAAATGCTGGCATTAGGCACTGGCACGGTCGGCGTAATGGCCGCTTC -TGCACCGGGTATTCTTGTTGCTGGGTTGGCGGTGTTTATTTTGATGAGCCGGAGATCACGAATACAGCCG -TGCGCCGATGCCTGACGTGCCTTATTAGGCAGGGGCGAAAGGGACTTCACCCCAATACACCTACGGCGTT -TACAGGTATACTCGCTAAAAATTATTCAGCGGGTTTGGAAACAAAGATGGCAAAACTTACCTTACAAGAG -CAGTTGCTCAAAGCAGGATTAGTCACCAGCAAAAAAGCGGCGAAGGTGGAGAGAACGGCGAAAAAATCGC -GCGTTCAGGCGCGTGAAGCTCGGGCGGCGGTAGAAGAAAATAAAAAGGCACAGCTTGAGCGTGATAAACA -GCTTAGCGAACAGCAAAAACAAGCGGCGTTGGCGAAAGAATATAAAGCTCAGGTGAAGCAGCTTATTGAA -ATGAACCGAATCACCATTGCCAATGGCGATATTGGTTTTAACTTCACTGACGGCAATCTGATTAAGAAGA -TTTTTGTCGATAAGCTCACACAGGCGCAGTTGATTAATGGTCGTCTGGCGATTGCCCGCTTGTTGGTCGA -TAACAATAGCGAAGGTGAATACGCCATTATTCCCGCCAGCGTTGCCGATAAAATTGCTCAGCGCGATGCC -AGCAGTATAGTGTTGCACAGCGCGCTCAGCGCCGAAGAGCAGGATGAAGACGACCCGTATGCCGACTTCA -AAGTGCCTGATGATTTGATGTGGTAAACATAGATAAGTCGTGCGCAGATGCCTGATGCGACGCTATGCGC -GTCTTATCAGGCCTACGGTTTATGGGCGAAGTGTAGACCGGATAAGGCGTTCACGCCGCATCCGGCAGTC -GTGCGCCATGCCTGATGCGACGCTTTGCGCGTCTTATCAGGCCTACGGCTTACGGGCGAAGTGTAGGCCG -GATAAGGCGTTCACGCCGCATCCGGCAGTCGTGCTATTATCAACGCATATTCAGTTTATTGGCGTGGTAG -GCAATATGCTCGCCAATAAAACTGGAGACAAAATAATAGCTGTGATCATAACCCTCGTGATAACGGATTA -ACGTCTTGATATTCATCTCCTGGCAGATCTTTTCAAGATTTGGAGTCCGCAGCTGTTCTGCGTAAAAATC -ATCACTCAACCCCTGATCAACCATGATTTCCGCAACGCGTTGACCTTGTGAAATAAGACTCACCGGGTCG -TAATCCAACCAGGCATCTTTATTTTCAGCAAGATATGCAGCAAAGGCTTGCTGTCCCCACGGCACTTGCG -ATGGGGAGACAATGGGCGAAAACGCCGAGACGCTGACATATTCATCTGGGTTACGTAACGCCAGCACCAG -CGCGCCCAGCCCGCCCATAGAATGACCAGAGATAGACTTTTTGGCCGTTGCCGGAAAATGATGCATCACT -AAATCCGGCAGCTCGTTGCGGATATAGTCATACATTTTGTAATGTTCATTCCACGGCGCTTGCGTCGCGT -TCAGGTAAAACCCGGCACCTTGCCCGAGATCGTAACGGTCAGCATCTGCGACATGACTGCCTCGCGGACT -GGTGTCCGGCGCAACAACAATAATGTTGTGCTCAGCCGCGTAACGCTGCATCCCCGATTTAGTAATGAAA -TTCTGCTCGTTGCAGGTCAGGCCTGAAAGCCAGTACAGCACCGGCAATTTTTCATTCGCGGCTTTTGGTG -GGAGATAGACGCCGACATTCATTTCACATTTCAGTGATTGGGAATAATGCCGATACATATTTTGCCAGCC -GCCAAAGCTGACATGTTTTTCAATGAGTTCCATCAGTCATTATCTCAGGGTTAATCCCCCGGACGGCTGC -CCGGGGAGAGTATTAAGAACCCCCGCCTGAAGTGGACGGGGTAAACCTGCGGGAAATCAGTAACGAATTA -CGGTTCGAATGGATTTGCCTTCATGCATCAGGTCGAAGGCGTCATTAATTTCATCCAGGCTCATGGTATG -CGTGACAAACGGTTCCAGATCGATATCACCTTTCATCGCATCTTCAACCATGCCCGGTAACTGGGAACGA -CCTTTCACGCCGCCAAACGCGGAACCTTTCCATACGCGACCAGTGACCAACTGGAATGGACGGGTGGAGA -TTTCCTGACCGGCAACCGCGACCCCGATGATCACCGACTGACCCCAGCCGCGGTGCGCACTTTCCAGCGC -CGCACGCATCACGTTGACGTTACCGATGCATTCAAAGGTATGGTCGATACCCCATTTGTTGATATCCAAC -AGGACATCTTTTATCGGTTTGTCGTAGTCATTCGGGTTAATGCAGTCGGTAGCACCGAAGCGACGCGCCA -GATCGAATTTCTTCGGGTTGGTATCGATAGCGATAATCCGACCCGCTTTCGCCTGACGCGCGCCCTGAAC -CACTGCCAGACCAATCGCGCCAAGACCAAACACGGCAACAGAATCACCTGGCTGGACTTTAGCTGTGTTG -TGTACCGCGCCAATACCGGTGGTCACGCCACAGCCCAGCAGGCAGACGTGTTCATGGTTTGCTTCTGGAT -TAATTTTTGCCAGAGACACTTCCGCGACTACGGTGTATTCACTGAATGTAGAGCACCCCATGTAGTGATA -AAGCGGCTGCCCGTTGTAAGAAAAACGGGTGGTGCCGTCTGGCATCAGGCCTTTACCCTGGGTTTCGCGA -ACCGCAACACAGAGGTTAGTTTTGCCAGAACGACAGAACTCACACTCGCCGCACTCCGCGGTGTAAAGCG -GGATCACATGGTCGCCAGGTTTGACGCTGGTTACGCCTTCACCGACTTCAACCACAACGCCGGCCCCTTC -GTGACCGAGAACCACCGGGAATACACCTTCCGGGTCATCGCCGGAGAGGGTAAATGCGTCGGTATGGCAA -ACGCCGGTATGGGTGACTTTAATTAGCACTTCACCTTTTTTCGGTGGTGCAACGTCAATTTCAACGATTT -CCAGCGGTTTACCGGGAGCAAATGCAACGGCAGCACGTGATTTCATCTCTCGCTCTTCCTCAATATGGTA -ATAGATTCAGCTATTTAAGATAGGCACGAACCAGTTCAATAGTGTCGTCAACGGATTGGCTGACTTCGCG -GCTGTAGCAGTCATTTCGGTCAAACGTTTCCCGGATATGGCTTTCAAGCACTTCTGCCATCAGCCCATTA -GCCGCGCCCCGAACGGCAGCGATCTGTTGGAGTATGGCACGGCATTCGGCATCACCCTCCAGCGACCGTT -CCAGAGCATCAATCTGCCCCCGAATACGACGAACTCGAGTAAGGACCTTTTTCTTCTCTTCCGGAGTACT -GGGCATTTCGCACCTCATCATCTGCATGCAATATACTATAGGGGGGTATTCTATATGTCAATGCATACCC -CCCTATAGTATATAACACTGGAGAATAAAATTTATCCGGTGAATGTGGTCGGAAAACAAAGAGGAAAGGG -GGGGGGGCTAATCGGCAGGGAAGGCCGCCCCGGATAGCGGGCGGCAGAAGGAATCAGAATTTCCAGGTCA -GACGGGCTGCAAGTTGCAGACCGTTAAAATCATCGGTTGGGGTGTCGTACCACACTTTACCTGCCGTCAG -CCCGAGATTAAGTTGCTCAGTCAGCGGTTGAATACGTTGCAGACTGACGCTCTTCATGCTGCCGTAGCGT -GTTTCTGGCGTCCAGTCATAGGTGTAAGCACCTGTTCCGCGGCTTAGCCATAGTTGCGTATAACCAGTGC -CGCGCGGGTCATTCAGACGCACGGAAATCATATTGCTATAACTACCACCTGCATCGCTGGAGTCATAATG -GGTATAGCGGTAGCTGGTGATCACCGGGCCAGTATAGAGTGATACGCCGCCTTGCCAGGCATCGACTTCG -ACATCATCGTAATATTTAGTGTAGCGATAACCGGTCGTGAAAAGCGTTTTTGGTAACAGGGCCAGGTTAA -TATCCTGACGAAAATCCTGGCGGGCAAAGACCGGCGTATTATCCGCAAAGGCAATACCCGTTCGGGTTGT -CAGCCAGTTATTCCATTTATACCAGACCGCACCCTGACCGCGAGTGGCATTGAAATGTTCAGTTTCATAA -TCACGACGCCCCTGGGAAAGATTAAAAAGCAGCGTTGCGTTTTCAACTTTCGCCACCAGTTCAGCATACG -CTAAATTACGGTTGCCATGATCGCCAGAATAATCGGTAAAATCGTAGCCCGCGGTAATGGAAGTTAACCC -GGCATAAGCGGGCAATGCGCTAAAAATGGCCGCCGCTAATAACGTCCGTTTTATCATTTTAATCTCCTGT -ACGGATAAGTTCTTGTCGGAGTGAATAAGTTCCGGTAGGTAAATTACGTTCTACAATCACGCGCGGGCCA -AGTTGCGTGTTCGGGGAAATAATTCGCCCAGGCAAAATAATAACTTGTACGCCAAGGCGTGAACGCTGCC -CGATATAACAACCTAATTTATCGCATCCGGTAGCGATAATTCCCTCTGGAGTTCGAACAGACACGGGCTG -TTCATCCAGACGATGATTACTGGTACGTACTTGTGCGCCTAAATATGCCTGGTTTGCAACTACCGAGTCG -GCAATAAAACATTGCGGACCAATCGTTGCTTCCGCTTCAATAACCGCATTTTTAATCTCGGTGGCAAAAC -CAATTTTTACGCCATTGCTGATTATTGTGCCAGGACGAATAAACGCATAATTACTAGACTGGCCCCCTGA -ATCTCCAGACAACCAATATCACTTAAATAAGTGATAGTCTTAATACTAGTTTTTAGACTAGTCATTGGAG -AACAGATGATTGATGTCTTAGGGCCGGAGAAACGCAGACGGCGTACCACACAGGAAAAGATCGCAATTGT -TCAGCAGAGCTTTGAACCGGGGATGACGGTCTCCCTCGTTGCCCGGCAACATGGTGTAGCAGCCAGCCAG -TTATTTCTCTGGCGTAAGCAATACCAGGAAGGAAGTCTTACTGCTGTCGCCGCCGGAGAACAGGTTGTTC -CTGCCTCTGAACTTGCTGCCGCCATGAAGCAGATTAAAGAACTCCAGCGCCTGCTCGGCAAGAAAACGAT -GGAAAATGAACTCCTCAAAGAAGCCGTTGAATATGGACGGGCAAAAAAGTGGATAGCGCACGCGCCCTTA -TTGCCCGGGGATGGGGAGTAAGCTTAGTCAGCCGTTGTCTCCGGGTGTCGCGTGCGCAGTTGCACGTCAT -TCTCAGACGAACCGATGACTGGATGGATGGCCGCCGCAGTCGTCACACTGATGATACGGATGTGCTTCTC -CGTATACACCATGTTATCGGAGAGCTGCCAACGTATGGTTATCGTCGGGTATGGGCGCTGCTTCGCAGAC -AGGCAGAACTTGATGGTATGCCTGCGATCAATGCCAAACGTGTTTACCGGATCATGCGCCAGAATGCGCT -GTTGCTTGAGCGAAAACCTGCTGTACCGCCATCGAAACGGGCACATACAGGCAGAGTGGCCGTGAAAGAA -AGCAATCAGCGATGGTGCTCTGACGGGTTCGAGTTCTGCTGTGATAACGGAGAGAGACTGCGTGTCACGT -TCGCGCTGGACTGCTGTGATCGTGAGGCACTGCACTGGGCGGTCACTACCGGCGGCTTCAACAGTGAAAC -AGTACAGGACGTCATGCTGGGAGCGGTGGAACGCCGCTTCGGCAACGATCTTCCGTCGTCTCCAGTGGAG -TGGCTGACGGATAATGGTTCATGCTACCGGGCTAATGAAACACGCCAGTTCGCCCGGATGTTGGGACTTG -AACCGAAGAACACGGCGGTGCGGAGTCCGGAGAGTAACGGAATAGCAGAGAGCTTCGTGAAAACGATAAA -GCGTGACTACATCAGTATCATGCCCAAACCAGACGGGTTAACGGCAGCAAAGAACCTTGCAGAGGCGTTC -GAGCATTATAACGAATGGCATCCGCATAGTGCGCTGGGTTATCGCTCGCCACGGGAATATCTGCGGCAGC -GGGCTTGTAATGGGTTAAGTGATAACAGATGTCTGGAAATATAGGGGCAAATCCAATTACCTATCAGGCA -GTTTGCGCCAATCACTACCGGACCCTGAATAACGGCACCATGACAAATACGGGTATTCGCGCCGATAACA -ACTTCACCTGCAGTTTCATCAATAATTACCTGGTCTGCAATCTGAATATTTTTCTCTTTAACATTAAGCT -TCAGATAGTTTTTCAGTTCCTGTGACAGAAGGTTGGGAATAAGCGGTTGACGCTTCCACCAGTGCGGAAT -AGCGGGTGGGTTTGTCGCGCTGAGGTTCGCGTCCAGTAAAAAAGGCAATAAGTCCATAAATAATCCAGAT -GGCATAAGCTAATAATACATACACAACGGAAAGCGGCGCTAAAGGCACCAACAACCAGCAACGATGAAAC -CAGGCGCTAAAAGCACCAATAACACAAACTACGCCGACCCAGATAAGCGGAAACATTGCCAACACCACTC -CATGCGGCCCGGTGGTGATGAATTCATTAAACCAGGTAGTGAGATAAATCCCAACGCCATAAAGCACAAC -CAACAGCATAGGAAATATACTGAAGATACCGAAGCGGCTAAATAAAAGTCTTTTATGCAGGCGCATACAG -ACCGCGTATCCCACAATCCAACGCCGCCAGCGACGCCACTCCTCACGCGGGCTGTTGCATTCCTGTGGGT -ATACGATGCAGCGATTCGCCTGCCGAATACGGTAGCCGTTTGCCACCAATGTCCAGGTGAGATCAAGGTC -TTCGACTTTAGTACGATCCGAGAAACCGAACTTACGCAATACATCAGTACGGAACATCCCGCAGGCACCG -CTGATAATAAACGGTGCGCCACCCAGGAGCTGCTGTAGCGTGCGCTTCATAACAATCATCGGCAACTTTA -CGGTCGCGCGGATGTGCGGTAACAGACCCGCGCCTTTCAACGCAGTAGAGGGAATGCCGCCTACGGCATC -GGCACCGCGCTCAATTTCTGCCAGCATATAGCCCATTCCGTCTTGATCGGGCGGAACATAGGTGTCGGCA -TCACTTAAAAAAACCTGGTCGCAGGTGGCGTAATTGAGGCCATTCATCAGCGCACCACCTTTACCGGTAT -TTTTTTGCGTGACGGCAACAAAGCGGTCGCCCCATTTGCGTTTGACTTCCGCCATGACCGCTTCGGTATT -GTCCGTGGAGCCGTCGTTAACGCAAATTACCCGGCAAAAATAAGGGTTACGCAGTAGATTATCCAGTGAC -TGCGCCAGACACGGGCCTTCGTTATACGCAGGTATAATGGCGTCAATACAGCCTTTCTTTTGACTGGGTT -TACGTCTTAGCGTACTTAAAAACCATAGCAACATTGCTATGGACATACAGATAAATATCCAGGTTTTCAT -GCAATTTGCTCAAAGAATCATTTTATGAATTACAAAGCCTTCACCCAGATCGCTATTGACCTGTTGTCCG -CGAAATTGTGCAACTGCACGCAGGCGATCATGACGCATATAATCGCGTCGTTCCTAGCTTTTATGTTTTT -TTAATGCAGCAAGTTTGACTGTGAAATATTCTTCTTTAACGGATTCAAAAACCTGAGGCATAAATGAAAG -CCAGGTACTTGGGGTTTCGTAGCCGAGAATTTGCGGAATAGTTCGGCAGGCAACCATTGAAGCTTGATAA -ACAGCAAGATGATCCTGATGGCGGTCGGCATCATGCATGGTATATACCCGCATGATTTCAACATCAGAAG -GAATTTGATTTTTAATGATGTCTTCCAGGGCGGAAATCATATCATTGAGCTGTAAATGAGCGCGGGTGTC -AGCAAAATTAAGATGAATAGTTTGGTGGCACCCTAATATCTTTAGGGCGTTGCGCGATTCTTCATGGCGA -TCGATTATTCCATCTGTGCCAGAGTTGCCGGTAGTCATCACCACGGCTGCGATATAAATTCCTTTTTGCG -CAAGACGAGCAAGCGATGCGCCACAGCCTAATTCTATATCGTCAGGATGTGCGCCAATAGCAAGGATACC -CTTTCTTTTATTTGCCGAAGAAAGGAGGGCTGAATCTAAAACCTTATCCACTTAATGACACTCCATTTTA -TTTATTATACTACAAGCACAACGATGCACTCAGAGACGTAATCTCTGGCGCAGCCAGATGTTAATTTATA -AATGTTAAATGTTGCTAATAACTGAAAAGCAAGGGCTTTCAGACCCGTGGGTTCGACTGGGTAATGTTTC -TATGCAATTCATATGTTAAGTGTTTGTATGTTTGGTATGTATAGTTATTTTGTTTTATACATTGTATTTA -GATGTGATTTAGTTTGTCAATTAATTGCATTTAAAAAATATGTTCTGTGAACAAGCATTGTTTATATACA -TTATGTGAATGTAATATGCGAGTGATTGAGAATGATACAGTGATATATACAATGCGAATATAATAGTTTT -ATTATATGTATTGATATTGATAGAAATAATGAAGTAATAAATCTCGTAATGTGGTTGTTTATGCATCACT -AAAATGAAGTGTAGTAATTTTCCCAATTGTTAGAACGGAGTAATTGCATATTTAATCTTTCCTTAGCCGT -TTTTTTGCTAAGAATAAAATCATCTGTGCGATAACGACTAATTCTTTTAATGAATGTTTTTATTCCTGAA -TACTGCTCCCATAACAAGACAGGGGAGCAGACAATCATGGCAATTTCATCGCGTAACACACTTCTTGCCG -CACTGGCATTCATCGCTTTTCAGGCACAGGCGGTGAACGTCACCGTGGCGTATCAAACCTCAGCCGAACC -GGCGAAAGTGGCTCAGGCCGACAACACCTTTGCTAAAGAAAGCGGAGCAACCGTGGACTGGCGTAAGTTT -GACAGCGGAGCCAGCATCGTGCGGGCGCTGGCTTCAGGCGACGTGCAAATCGGCAACCTCGGTTCCAGCC -CGTTAGCGGTTGCAGCCAGCCAACAGGTGCCGATTGAAGTCTTCTTGCTGGCGTCAAAACTGGGTAACTC -CGAAGCGCTGGTGGTAAAGAAAACTATCAGCAAACCGGAAGATCTGATTGGCAAACGCATCGCCGTACCG -TTTATCTCCACCACCCACTACAGCCTGCTGGCGGCACTGAAACACTGGGGCATTAAACCCGGGCAAGTGG -AGATTGTGAACCTGCAGCCGCCCGCGATTATCGCTGCCTGGCAGCGGGGAGATATTGATGGTGCTTATGT -CTGGGCACCGGCGGTTAACGCCCTGGAAAAAGACGGCAAGGTGTTGACCGATTCTGAACAGGTCGGGCAG -TGGGGCGCGCCAACGCTGGACGTCTGGGTGGTGCGCAAAGATTTTGCCGAGAAACATCCTGAGGTCGTGA -AAGCGTTCGCTAAAAGCGCCATCGATGCTCAGCAACCGTACATTGCTAACCCAGACGTGTGGCTGAAACA -GCCGGAAAACATCAGCAAACTGGCGCGTTTAAGCGGCGTGCCTGAAGGTGACGTTCCGGGGCTGGTGAAG -GGGAATACCTATCTGACGCCGCAGCAACAAACGGCAGAACTGACCGGACCGGTGAACAAAGCGATCATCG -ACACCGCGCAGTTTTTGAAAGAGCAGGGCAAGGTCCCGGCTGTAGCGAATGATTACAGCCAGTACGTTAC -CTCGCGCTTCGTGCAATAAAAGGAGGCGCAGATGCTGCAAATCTCTCATCTTTACGCCGATTATGGCGGC -AAACCGGCACTGGAAGATATCAACCTGACGCTGGAAAGCGGCGAGCTACTGGTGGTGCTGGGGCCGTCCG -GCTGCGGTAAAACCACCCTGCTGAATCTGATTGCCGGTTTTGTGCCTTATCAGCATGGCAGCATTCAACT -GGCGGGTAAGCGTATTGAGGGACCGGGAGCAGAGCGTGGCGTAGTTTTTCAGAATGAAGGGCTACTACCG -TGGCGCAATGTACAGGACAACGTGGCGTTCGGCCTGCAATTGGCAGGTATAGAGAAAATGCAGCGACTGG -AAATCGCGCACCAGATGCTGAAAAAAGTGGGGCTGGAAGGCGCAGAAAAACGCTACATCTGGCAGCTTTC -CGGTGGTCAACGTCAGCGGGTGGGGATTGCTCGTGCGCTGGCGGCGAATCCCCAGCTGTTATTACTCGAC -GAACCGTTTGGTGCGCTGGACGCCTTCACCCGCGACCAGATGCAAACCCTGCTGCTGAAACTCTGGCAGG -AGACGGGCAAGCAGGTGCTGTTGATTACCCACGATATAGAAGAAGCGGTGTTTATGGCGACTGAACTGGT -TCTGCTTTCATCCGGCCCTGGCCGTGTGCTGGAGCGGCTGCCGCTCAACTTTGCTCGCCGCTTTGTTGCG -GGAGAGTCGAGCCGCAGCATCAAGTCCGATCCACAATTCATCGCCATGCGCGAATATGTTTTAAGCCGCG -TATTTGAGCAACGGGAGGCGTTCTCATGAGTGTGCTCATTAATGAAAAACTGCATTCGCGGCGGCTGAAA -TGGCGCTGGCCGCTCTCGCGTCAGGTGACCTTAAGCATTGGCACGTTAGCGGTTTTACTCACCGTATGGT -GGACGGTGGCGACGCTGCAACTGATTAGCCCGCTATTTTTGCCGCCGCCGCAACAGGTACTGGAAAAACT -ACTCACCATTGCCGGACCGCAAGGCTTTATGGACGCCACGCTGTGGCAGCATCTGGCAGCCAGTCTGACG -CGCATTATGCTGGCGCTATTTGCAGCGGTGTTGTTCGGTATTCCGGTCGGGATCGCGATGGGACTTAGCC -CTACGGTACGCGGCATTCTGGATCCGATAATCGAGCTTTATCGTCCGGTGCCGCCGCTGGCTTATTTGCC -GCTGATGGTGATCTGGTTTGGTATTGGTGAAACCTCGAAGATCTTACTGATCTATTTAGCGATTTTTGCA -CCGGTGGCGATGTCGGCGCTGGCGGGGGTGAAAAGCGTGCAGCAGGTTCGCATTCGTGCCGCCCAGTCGC -TGGGTGCCAGCCGTGCGCAGGTGCTGTGGTTTGTCATTTTGCCCGGTGCGCTGCCGGAAATCCTCACCGG -ATTACGTATTGGTCTGGGGGTGGGCTGGTCTACGCTGGTGGCGGCGGAGCTGATTGCCGCGACGCGCGGT -TTAGGATTTATGGTTCAGTCAGCGGGTGAATTTCTCGCAACTGACGTGGTGCTGGCGGGGATCGCGGTGA -TTGCGATTATCGCCTTTCTTTTAGAACTGGGTCTGCGCGCGTTACAGCGCCGCCTGACGCCCTGGCATGG -AGAAGTACAATGAGTGAACGTCTGAGCATTACCCCGCTGGGGCCGTATATCGGCGCACAAATTTCGGGTG -CCGACCTGACGCGCCCGTTAAGCGATAATCAGTTTGAACAGCTTTACCATGCGGTGCTGCGCCATCAGGT -GGTGTTTCTACGCGATCAAGCTATTACGCCGCAGCAGCAACGCGCGCTGGCCCAGCGTTTTGGCGAATTG -CATATTCACCCTGTTTACCCGCATGCCGAAGGGGTTGACGAGATCATCGTGCTGGATACCCATAACGATA -ATCCGCCAGATAACGACAACTGGCATACCGATGTGACATTTATTGAAACGCCACCCGCAGGGGCGATTCT -GGCAGCTAAAGAGTTACCTTCGACCGGCGGTGATACGCTCTGGACCAGCGGTATTGCGGCCTATGAGGCG -CTCTCTGTTCCCTTCCGCCAGCTGCTGAGTGGGCTGCGTGCGGAGCATGATTTCCGTAAATCGTTCCCGG -AATACAAATACCGCAAAACCGAGGAGGAACATCAACGCTGGCGCGAGGCGGTCGCGAAAAACCCGCCGTT -GCTACATCCGGTGGTGCGAACGCATCCGGTGAGCGGTAAACAGGCGCTGTTTGTGAATGAAGGCTTTACT -ACGCGAATTGTTGATGTGAGCGAGAAAGAGAGCGAAGCCTTGTTAAGTTTTTTGTTTGCCCATATCACCA -AACCGGAGTTTCAGGTGCGCTGGCGCTGGCAACCAAATGATATTGCGATTTGGGATAACCGCGTGACCCA -GCACTATGCCAATGCCGATTACCTGCCACAGCGACGGATAATGCATCGGGCGACGATCCTTGGGGATAAA -CCGTTTTATCGGGCGGGGTAATACGAGAGTGGACGGTCCCCTCGCCCCCTTGGGGAGAGGGTTAGGGTGA -GGGGGCGTTCACCGTACTTTCAACAGGTTAACTCCCCCTTTCTGAGAGGAAACAAAATTAACGCAGAATC -TTCTTCTCAGCCAAATCCAGCGCAAAGTAGCTGAAAATCAGATCCGCACCCGCACGCTTAATCGAACCTA -AGCTTTCGAGCACGACTTTCTCTTCATCTATAGCACCCGCCAGCGCGGCGAACTTAATCATCGCATACTC -ACCGCTCACCTGATACGCGCCAATCGGCAATTCAGTACGTTCACGCAGCTCACGCACGATGTCGAGGTAC -GCTCCAGCAGGTTTAACCATCAGGCAGTCTGCGCCCTGGGCTTCATCCAGCAGTGATTCACGAATCGCCT -CACGACGGTTCATTGGGTTCATCTGATAGCTTTTGCGGTCGCCTTTTAATGCGCTTCCGGCAGCTTCACG -GAACGGGCCATAAAAGGAGGAGGCGAACTTGGTCGAATACGACATAATCGCCGTATCTTTAAATCCCGCA -GCGTCCAGCGCCTGACGAATCGCCTGTACCTGGCCGTCCATCGCGGCGGAAGGGGCGATGAAGTCTGCAC -CTGCAGCAGCTGCAACCACGGCTTGCTTGCCTAAATTTTCCAGAGTCGCGTCGTTGTCGACGCCATGCTC -GCACAGCACACCGCAGTGACCGTGAGAAGTGTATTCACAGAAGCAGGTGTCTGACATAACGATCATTTCT -GGCACGGTCTGCTTGCAGATGCGCGACATACGCGCCACCAGTCCATCTTCCCGCCAGGCATCGCTGCCGG -TTTCATCGGTATGGTGAGAGATGCCAAAAGTCATCACGGAACGAATACCGGCGTTGGCGATGCGTTCAAT -TTCGCGTGCCAGATGTTTCTCTGGAATGCGCATCACGCCTGGCATGGCTTCAACGGCTTTGTAGTCGTCA -ATTTCTTCTTCAACAAAGATCGGCAACACCAGGTCGTTAAGGCTAAGTGTTGTCTCTTCAAACATAGCGC -GCAGCGCAGGAGATTTGCGCAGGCGACGAGGGCGTTGGATTAAGTCTGTCATGGTCTGCCTGATGTTTGT -GGAATCGAGGGGCATAGTATACCTGAAGCAGGGTAGGGATGTTTTACGAAAGTTGTCGCGATGTTGACAA -GAAGAGAATGGAAGAGAGGCCAGGACATCTTTTTAATAGAAACAGCAATAATTTTATATTCACTGAAAAT -ATTTTTAATCTTTATTTATAGCTGTTGGTTATTATTTTTTGGAGTTTGGTTGCGCTGCTATAAATTGAAT -AATTAAAACTTTGTTGCATATTCATAGGATATTTATCTGGTTTGTGTTTGTGATATTTATTATGCGTATG -CTTCAAAAACAAAATTATCTGCAACATGTTGAAATACTGTGCTTTTATGAATTTGATGCGTGTTTTTCTC -CATAAATTATATATGTCCACATTCGGACTTAGGGGAAAGAATAATTGAACCATTCGTCTGTAACGCAGCA -TAATCGTTAGCGCGAAACATAATATGTTTTCTATGCATTGATAATTGATGGATCAACTTATTACGTCCCT -GAGGAGGGATGACAAATGCACTCCTGGAAAAAGAAACTTGTAGTATCACAATTAGCATTGGCTTGCACTC -TGGCTATCACCTCTCAGGCTAATGCAGCAAACTATGATACCTGGACTTATATCGATAATCCCGTTACAGC -ACTTGATTGGGATCATATGGATAAGGCAGGCACTGTAGATGGCAACTATGTAAACTATAGTGGTTTTGTC -TATTACAACAACACCAATGGTGATTTCGATCAGTCCTTTAACGGCGATACCGTTAACGGCACGATCTCAA -CCTATTATTTGAACCATGATTATGCAGACAGTACTGCTAATCAGCTTGATATCAGTAATTCAGTGATTCA -CGGTTCGATTACTTCTATGCTGCCTGGCGGTTATTATGATCGTTTTGATGCAGATGGTAATAATCTGGGT -GGATATGATTTTTACACTGATGCGGTTGTTGATACACACTGGCGTGATGGTGATGTTTTCACTTTGAACA -TTGCTAACACTACTATTGATGATGATTATGAAGCTCTTTACTTCACTGATTCTTATAAAGATGGTGATGT -AACCAAGCACACAAATGAGACATTTGATACAAGTGAAGGCGTTGCTGTTAATCTTGATGTAGAAAGTAAC -ATCAATATTTCCAATAACTCCCGCGTTGCAGGTATTGCATTATCTCAAGGTAATACTTACAACGAAACCT -ACACTACCGAATCTCATACTTGGGATAACAATATCTCTGTAAAAGATTCCACAGTGACTTCGGGTTCAAA -TTATATCCTGGATAGCAATACTTATGGCAAAACTGGTCACTTTGGCAATTCTGATGAACCGAGTGATTAT -GCTGGCCCGGGTGATGTTGCAATGTCCTTTACTGCTTCAGGTTCCGACTATGCGATGAAGAACAATGTAT -TCCTCAGCAATTCAACGCTGATGGGTGATGTTGCCTTTACCAGCACCTGGAATAGTAATTTTGATCCGAA -TGGTCATGATTCCAACGGTGACGGGGTGAAAGATACCAACGGGGGTTGGACTGATGATAGCCTCAACGTT -GATGAACTAAATCTCACTCTCGATAACGGAAGCAAGTGGGTTGGTCAGGCAATTTATAACGTTGCTGAAA -CGTCAGCAATGTATGATGTTGCTACAAACAGCCTTACTCCTGATGCAACATATGAAAACAATGACTGGAA -ACGTGTTGTTGATGACAAGGTCTTCCAGAGCGGTGTATTTAACGTAGCGTTGAATAACGGTTCTGAATGG -GATACTACAGGTCGTTCCATCGTTGATACCTTGACAGTTAATAATGGTTCTCAGGTTAATGTTTCGGAAT -CTAAATTAACTTCAGATACTATCGATTTAACTAACGGTTCTTCGCTGAACATTGGTGAAGATGGCTACGT -TGATACCGATCATCTGACTATTAACTCCTACAGTACTGTTGCGTTGACCGAATCTACTGGGTGGGGGGCT -GATTGATCCTACCCACGTAATATGGACACAGGCCTAAGCGAGGTTCTTGTTTTCAAATTGTTCCGGACTG -AGGCCGCCACACCAACTGTGCCGCCGCCACCGATTGTAATCACATTCGATATAATTAAACACCGTTGCCC -GCATTATTTCCCGGCTGATAAAGTGTTCTCCATGGATACATTCCACTTTCAGCGAATGAAAGAAGCTTTC -CACGCAGGCATTATCGTAGCAGCAACCTTTTGCGCTCATACTTCCACGCAGATTATGCCGCTTCAGTTGC -GCCTGATAATCTGCTGAACAGTACTGGCCTCCACGGTCCGTGTGAACGATAACGTTCCGGGGCCTCTTAC -GCCGCCACAGCGCCATCTGCAGGGCATCGCAGGCCAGTTGCGCCGTCATGCGTGGCGACATTGACCAGCC -AATAACGGCACGTGACCACAGGTCAATGACCACTGCCAGATACAGCCAGCCTTCATCTGTACGTAAGTAC -GTGATGTCTCCTGCCCACTTCTGGTTCGGGCCACTGGCGTAAAAATCCTGCTCCAACAGATTTTCTGACA -CAGGCAGGCCGTGTGCGCGGTAGCTGACCGGGCTGAACTTCCGGGAGGCCTTTGCCCTCAGTCCCTGACG -GCGCAGGCTTGCCGCCACGGTTTTTACGTTAAAGGGGTAACCCTGAGCACGCAGTTCATCCGTCAGGCGT -GGGGCACCGTAACGCTGTTTTGACCGGGTAAAAGCCGCGAGGACAACGCTGTCGCAGTGTTGGCGGAACT -GCTGACGCGTGCTTATCCTTGTCCGCCGCTGACACCACGTATACCAGCCGCTGCGGGCCACCCGGAGCAC -GCGGCACATTGCTTTGATGCTGAACTCAGCCTGATGTTTTTCAATAAAGACATACTTCATTTCAGGCGCT -TCGCGAAGTATGTCGCGGCCTTTTGGAGGATAGCCAGCTCTTCATCCCGTTCTGCCAGCTGGCGTTTGAG -ACGTGCAATCTCGGTAGACATCTCCAGTTCACGTTCAGAAGACGTCTGCTGATTTTGCTGTTTACTGCGC -CAGTTGTAGAGTTGTGATTCATACAGGCTGAGTTCACGGGCTGCGGCAGTAACACCGATGCGTTCAGCAA -GCTTCAGGGCTTCACTGCGAAATTCAGGCGAATGCTGTTTACGGGGTTTTTTACTGGTTGATACTGTTTT -TGTCATGTGAGTCACCTCTGACTGAGAGTTTACTCACTTAGCCGCGTGTCCACTATTGCTGGGTAAGATC -AGATTACAACCTGTACGCCAATACTATCACCGTAACTAACGGCGGTGTATTGGATGTGAACGTTGATCAG -TTCGATACTGAAGCTTTCCGTACTGACAAACTGGAACTGACCAGCGGCAACATCGCTGACCATAACGGTA -ACGTAGTATCTGGTGTGTTCGATATCCATAGCAGCGATTACGTTCTGAACGCTGATCTGGTGAACGACCG -TACCTGGGATACTTCCAAGTCTAACTACGGTTACGGTATTGTTGCTATGAACTCTGATGGTCACCTGACT -ATCAACGGTAACGGCGACGTAGACAACGGTACTGAACTGGATAACAGCTCTGTAGACAATGTTGTTGCTG -CAACCGGTAACTACAAAGTTCGTATCGACAACGCAACTGGCGCTGGCGCTATCGCTGATTACAAAGATAA -AGAAATTATCTACGTAAACGACGTCAACAGCAACGCGACCTTCTCTGCTGCTAACAAAGCTGACCTGGGT -GCATACACCTATCAGGCTGAACAGCGCGGTAACACCGTTGTTCTGCAACAGATGGAGCTGACCGACTACG -CTAACATGGCGCTGAGCATCCCGTCTGCGAACACCAATATCTGGAACCTGGAACAAGACACCGTTGGTAC -TCGTCTGACCAACTCTCGTCATGGCCTGGCTGATAACGGCGGCGCATGGGTAAGCTACTTCGGTGGTAAC -TTCAACGGCGACAACGGCACCATCAACTATGATCAGGATGTTAACGGCATCATGGTCGGTGTTGATACCA -AAATTGACGGTAACAACGCTAAGTGGATCGTCGGTGCGGCTGCAGGCTTCGCTAAAGGTGACATGAATGA -CCGTTCTGGTCAGGTGGATCAAGACAGCCAGACTGCCTACATCTACTCTTCTGCTCACTTCGCGAACAAC -GTCTTTGTTGATGGTAGCTTGAGCTACTCTCACTTCAACAACGACCTGTCTGCAACCATGAGCAACGGTA -CTTACGTTGACGGTAGCACCAACTCCGACGCTTGGGGCTTCGGTTTGAAAGCCGGTTACGACTTCAAACT -GGGTGATGCTGGTTACGTGACTCCTTACGGCAGCGTTTCTGGTCTGTTCCAGTCTGGTGATGACTACCAG -CTGAGCAACGACATGAAAGTTGACGGTCAGTCTTACGACAGCATGCGTTATGAACTGGGTGTAGATGCAG -GTTATACCTTCACCTACAGCGAAGATCAGGCTCTGACTCCGTACTTCAAACTGGCTTACGTCTACGACGA -CTCTAACAACGATAACGATGTGAACGGCGATTCCATCGATAACGGTACTGAAGGGTCTGCGGTACGTGTT -GGTCTGGGTACTCAGTTTAGCTTCACCAAGAACTTCAGCGCCTATACCGATGCTAACTACCTCGGTGGTG -GTGACGTAGATCAAGACTGGTCCGCGAACGTGGGTGTTAAATATACCTGGTAATATTCTTCACTCCGAAG -AAATACTGGTAATTTAATCTAAATAATGCCCGTCAAGGATTTGACGGGCATTACTGCAAAGGACGCGCAA -ATGTTATCTGTAGTTAAACCTCTTCAGGAATTTGGTAAGCTCGATAAATGTTTGTCCAGATACGGTACGC -GCTTCGAGTTTAATAATGAAAAGCAAGTTATATTTTCCAGTGATGTCAATAACGAAGATACTTTCGTTAT -TTTAGAGGGAGTTATCTCTCTGCGTAGAGAAGAAAACGTACTTATCGGTATTACCCAGGCTCCTTATATT -ATGGGGCTGGCTGATGGTTTAATGAAAAACGATATACCATACAAATTAATATCAGAAGGAAATTGTACGG -GATATCATCTACCAGCCAAACAAACCATTACGCTTATTGAACAAAATCAACTCTGGCGAGACGCTTTTTA -CTGGTTAGCCTGGCAAAATAGAATTCTGGAATTACGCGACGTGCAGCTCATTGGGCATAATTCCTACGAA -CAAATCCGCGCAACATTATTATCAATGATTGACTGGAATGAAGAATTGCGATCACGTATTGGTGTGATGA -ATTATATCCATCAACGTACACGCATATCGCGTTCTGTCGTCGCAGAAGTTCTCGCTGCTTTGCGTAAAGG -CGGCTATATCGAAATGAATAAAGGCAAACTGGTCGCTATCAACCGTTTGCCTTCAGAGTATTAATCAGGA -CGCGGGGATAACCAACGGTTTATTCCCGCTTAGCTCGGTCACCAGGTCATTGATGCCATCGCTCATATTT -TTAAAGCGCGTCAACGGCGAACGAGTGACCACCACAAACGCGCCAATATTCTTCTGCGGGATCATCGCCA -TATAGGTAATGAAACCGCCACCACCGCCTGTCTTCTGAATAATCCCCGGACGACCCTCTTTCGGGGCCAT -ATATACCCAACCTAAACCAAGCGCATCCGCTTTGCCGGGGACATCCATGCCAATCACTTTCGTAAACTGC -GCGCGCTGATAAATCAACGTCTGCATGCGATCTGCCTGGTTACTGCGCTGATAAAAATCAGATGACAAAT -ACTGCTGCATCCAGCGCATCATATCGCCAGGCGTGGAATAGACGCCGCCGCTGCCAATTGCCGCCAGCGT -GTTATTGCACGGACTGGCACCGCGCTCAGCAACCATTAAACGGCGGCACTGATCCGGTGAGGGGGTGTAG -GTGGTGTCTTTCATCCCCAATGGACGGGTAATCTGCTCTTCAAACAACTGGGTATAAGGCTTGCCGGACG -CATTCGCCAGTGCATCTGCCAGCAGGTCGAACGCAAGGTTAGAGTACGCCGCCTGACTGCCTGGCGCGGC -TTTCAGCTTCGCCGTAGAAAGGTATTTCCAGCGTTGCTCGCGCGTTGGCCAGACAAACACCGGACGATGT -GCCGCGCCACCGGGCTGTTCACGGGGCAGGGCGCTGGTATGGGTTGCCAGATTGACCAGCGTAATGGGCG -TCCCATTGTAGGTTGGCACGCGTGCGCCTGGCGGAGCATATTTACTTAGCGGATCGTTTAACTTCACGGT -CCCCTGGTCGAGCAATTTCACCAGCATCTCACTGGTCATTAGCTTGGTGAGGGAAGCAATACGCACGACC -GAATCCAGCTGCGGGCGAACGTTATTACCAGGTCGCGTTTCGCCATAACTGCGAAAGACGCGCTGGTTAC -CGTCGATAACAACCAGAGCCATCCCCGTGGCACCGCTGCCGTAAAAAATATGATCGGCATAACGATCGAC -AATATCAGAGGCAAACTCCGGTTCAGTGATCGGCTGCGCCGCATGGACGGAGGTCAATGACGCCGCACAC -AGCACGGCAGAAAAAAGCAGACTACGTTTCAACGGTGGTGTCCATAGATTGAATGAAGGTAACTGAGCGT -ATTTATACTACTCATTGATAGATTGCAAAGGGCGAATTAGTGCAATAATAGTGTTAAAAACGTAACGGCG -CGTAAACACGATCTTTTTCCTGCTCACCAATGCCTGCATTTGTGATCCTGCGCGTGTTAATCCGCTTATG -TAAACAATCTTTGGTTTGTGAAATCCGTCGAAACAATTCTTATGGTCAGGCTGGCGAACTAAGCGCCTTG -CTATGGGTCACAATGGGCGGTTTCATTTGGCTGACGCTTTGTAGCGGTCATGCGGTTAATACACAGCAGT -TGTTAAAACGATAAGAAGTTAGCAGGAGTGCATATGTTTAAGTCTTTTTTCCCAAAGCCGGGAACGTTTT -TTCTCTCGGCCTTCGTTTGGGCATTGATTGCCGTTATCTTCTGGCAAGCCGGTGGGGGTGACTGGGTGGC -GCGTATCACCGGCGCTTCCGGGCAGATCCCGATTAGCGCCGCGCGTTTCTGGTCGTTGGATTTCCTGATT -TTTTACGCTTACTACATTGTTTGCGTAGGACTTTTTGCATTGTTCTGGTTTATCTACAGCCCGCATCGTT -GGCAATACTGGTCAATACTCGGTACTGCACTGATCATCTTCGTCACCTGGTTTTTGGTGGAAGTCGGGGT -CGCCGTCAACGCCTGGTATGCGCCGTTCTATGATCTGATTCAAACCGCGCTAAGTTCGCCGCATAAAGTC -ACCATCGAACAATTTTACCGCGAAGTGGGCGTCTTTCTGGGGATTGCGCTGATCGCTGTGGTGATCAGTG -TGCTGAACAACTTCTTTGTCAGTCACTACGTGTTCCGCTGGCGTACAGCGATGAACGAATATTACATGGC -GAACTGGCAACAACTGCGTCATATCGAAGGGGCCGCACAGCGTGTGCAGGAAGACACCATGCGTTTTGCT -TCAACGCTGGAGAATATGGGCGTCAGTTTTATCAACGCCATCATGACGTTGATCGCCTTCCTGCCGGTGC -TGGTAACGCTCTCCGCGCATGTGCCGGAGCTGCCGATTATCGGGCACATTCCGTATGGTCTGGTGATTGC -CGCAATCGTCTGGTCGCTGATGGGGACCGGATTGCTGGCAGTGGTAGGGATCAAACTGCCGGGGCTGGAG -TTTAAAAACCAGCGTGTAGAGGCTGCCTACCGTAAAGAGCTGGTTTATGGTGAAGACGATGCCACGCGCG -CGACGCCGCCTACGGTACGCGAGCTGTTTAGCGCCGTACGGAAAAACTATTTCCGCCTCTATTTTCACTA -TATGTATTTCAACATCGCCCGCATTCTCTATTTGCAGGTCGATAACGTTTTCGGTTTGTTCTTGCTGTTT -CCGTCAATTGTTGCCGGTACGATTACGCTCGGCCTGATGACGCAGATTACCAACGTTTTTGGTCAGGTTC -GCGGTGCTTTCCAGTACCTGATTAACTCATGGACCACACTGGTTGAGTTGATGTCTATCTACAAACGTCT -GCGCAGCTTTGAACATGAGCTGGATGGTGACAAAATTCAGGAAGTAACCCATACCTTGAGCTAAAAAGGA -GAAGTAATGTCGCGCGTCAATCCTCTATCTTCGCTGTCATTGTTGGCGGTTCTGGTTTTAGCGGGGTGTA -GTAGTCAGGCTCCGCAACCGTTGAAAAAGGGCGAAAAAGCGATAGATGTAGCGAGCGTCGTGCGGCAGAA -GATGCCTGCGAGCGTGAAAGACCGCGATGCCTGGGCGAAAGATCTCGCCACCACCTTTGAAAGTCAGGGG -CTGGCACCGACGCTGGAAAACGTCTGCTCGGTGCTGGCGGTGGCGCAGCAGGAGTCAAATTATCAGGCAG -ATCCGGCCGTTCCGGGCTTAAGCAAGATCGCCTGGCAAGAGATTGACCGTCGTGCTGAACGGATGCACAT -TCCTGCTTTTCTGGTTCATACCGCGCTAAAAATCAAATCGCCAAACGGCAAAAGTTATAGCGAACGGTTA -GATTCGGTGCGTACAGAAAAGCAATTGAGCGCGATTTTTGACGATCTGATCAACATGGTGCCAATGGGGC -AGACGCTGTTTGGTTCGCTCAATCCGGTGCGCACCGGTGGGCCGATGCAGGTCAGCATTGCTTTTGCCGA -ACAGCATACCAAAGGGTATCCGTGGAAAATGGACGGTACAGTCCGTCAGGAAGTCTTCAGTCGCCGCGGC -GGGTTGTGGTTTGGTACTTACCATTTACTGAATTATCCCGCCAGTTATAGCGCACCGATATACCGTTTTG -CTGATTTTAACGCTGGCTGGTACGCCAGCCGTAATGCCGCGTTTCAGAACGCGGTCAGTAAGGCCAGCGG -CGTGAAGCTGGCACTGGACGGTGATTTAATTCGTTACGACAGTAAAGAACCCGGGAAAACCGAACTGGCA -ACGCGCAAACTGGCTGCAAAACTGGGGATGAGCGACAGCGAAATTCGCCGTCAGTTAGAGAAAGGTGACA -GCTTCTCTTTTGAGGAGACGGCGCTGTACAAGAAAGTTTATCAACTTGCCGAAACGAAAACGGGTAAATC -ACTCCCCCGCGAAATGTTGCCTGGCATTCAACTGGAAAGCCCGAAAATCACCCGCAACCTGACTACGGCC -TGGTTTGCGAAGCGCGTAGACGAACGGCGGGCGCGTTGTATGAAACAGTGATCAAACAGGAATGTCAGGC -CAGATAAGGCGTTTCAGGCCGCATCTGACAATGTAAAACTTACTGGCGGCGATGTCGCCAGTGCAGCCAT -AGCGCCACCACTGCAAAAATGAGGCAGCCTACTAAAAACGGGATCAGCCCGAAAATGGTGCCGACACCTA -AACCAATTTCCACCCGTGGGCGACCTGTTTCCTGGACCTGCATTAAACGCTCATAGACGCCGGGCGCATG -CACTAACAGGTTCAGCAATTGCGCCCCAGCCCAAAAGCAAAACAGCACAAACAACGCATAGGCAATGTTG -CCAGGCGTTGAAGAGGCATTGCGATATTTTCCGCTAAACAGCGATTTTGACAGGGTGAAATCAGCCATAA -AAACCTCCGGAAGTCATCTGCTTCTCTTCTGGTGTGATACCAGCGGCTTATGGCAAGTCTGACAGGTCAT -TTAGATTGTCAATATCAGAATCATGGTAAATTGATGTTGGGAATATTCCCGAAGCGTGAATCTTCGTTGT -GAGTCACAAAATGGCAACCTTAAGTTAAATTTATTAACAATTACGAAAATGTTGTCTACACCACAGACGG -TTGTTGCAGAATATGCAAGGATGTTGTTTTTCGTTAACGGAGCTGCCATGAATCTGCCTGTAAAAATCCG -CCGTGACTGGCACTACTATGCGTTCGCCATTGGCCTTATATTCATTCTTAATGGCGTGGTGGGGTTACTG -GGATTTGAAGCAAAAGGTTGGCAGACCTATGCCGTCGGTCTGGTGACGTGGGTGATTAGTTTCTGGCTGG -CGGGGTTGATTATTCGTCGTCGCGATGAAGAAACTGAAAACGCCCAATAAGAATATTATCGGGCGTTAAA -ATATTACATTGTGGTTTTCAATGCGTTATCCGCAGCGTGACGCTCCAGCGCCAGTTCAATCAAACGTGTG -ATCAGATCGGTGTAACCCAGACCGCTGGCTTGCCACAGCTTCGGATACATACTGATATTAGTGAAGCCAG -GCAGGGTGTTGATCTCGTTGATCACCACTTCGTTCTCTGGGGTTAAAAACACGTCTACACGCGCCATGCC -TGCGCATCCCAACGTTTGATAAGCCTGAACGGCAATCGCCCGGATCTTATCGTTGATTTCTGGCGCAATG -GCTGCCGGAACTACCACTTTCGCGCCATCTTCGTCAATGTACTTGGTGTCGTAGGCATAGAAATCGCTGG -TGAGTACGATCTCTCCACAGGTGCTGGCTTGCGGATTGTCGTTGCCCAGAACTGCGCATTCGATCTCACG -ACCTTTGATCCCTTGCTCAACGATCACTTTATGATCGAACTCGAACGCCAGATCGACGGCAATTGCGTAC -TGTTCTTCACTGGTTACTTTGCTGACACCAACAGAAGAGCCCTGATTAGCCGGTTTTACAAACAGTGGTA -ACCCCAGTTTAGACTCCACTTCGGCAAAACTAATGTTGTGACGATTGGCGCGCGTCAGGGTAATAAATGG -CGCAATGTTCAGCCCGGCATCGCGTAGCAGACGTTTGGTGACATCTTTGTCCATACAGGCTGCTGAAGCC -AGAACATCAGAACCTACAAACGGTAAATTGGCGACCCGCAGCATTCCCTGCAAGGAACCATCTTCGCCCA -GCGTACCGTGGACAATCGGGAAAATGACATCCACCGTCGGCAACGGCTGACCGTTTTGCGCGTCGATAAG -CTGATGCTCATGTTTACCTGGCACCTGCGCAAGGCTGGTCGCCGAAGGGCGCAACGCAATATGGGCAGGA -TCGTCTGCATTTAGCAGATAATTGCTGGCATCGCTGACGTGCCATTGCCCTTGTTTATCAATGCCCAGCA -GCACAACGTCGAAGCGACTTTTATCAATGGCATCGACAATGTTTTTTGCCGATTGCAGAGACACTTCATG -TTCCGCTGATTTACCACCAAAAACGATTCCTACCCGCAGTTTTTCCATCTTAAAAACCTATCCCGTCTAA -CACAAAGTGCATACATTACCACGACAAAACGGGGGATTCGCGGCCTTCTGAAAGATTGTTGCAATCTTCT -GCTGACAAAGCGTGCAACGTACTGGTGAAGAAAGTGCGTTATCTCAAAGATGTGCGCAAGATCACAAAAA -TGATGAACGGGAAGCTAATTTATTCCTGGCTTAAATGGCCATGCGGTGAGTTTTTTTCTCTTAATTATAA -GTTAACGAAGAGAATATATTTCATAACTTTTATTTATAATAAAGGTTGATAATTAAAAGCCTATATTTTG -TGTGGGTAATTATTTAAATAAGAGAAACGTTTCGCTGGTAATCAAACAAAAAATATTTGCGCAAAGTATT -TCCTTTGTCATAAAAATAATACTTCCAGACACTATGAAGTTGTGAAACATAATGTTAACTTCTCCATACT -TTGGATAAGGAAATACAGACATGAAAAATCTCATTGCTGAGTTGTTATTTAAGCTTGCCCAAAAAGAAGA -AGAGTCGAAAGAACTGTGTGCGCAGGTAGAAGCTTTGGAGATTATCGTCACTGCAATGCTTCGCAATATG -GCGCAAAATGACCAACAGCGGTTGATTGATCAGGTAGAGGGGGCGCTGTACGAGGTAAAGCCCGATGCCA -GCATTCCTGACGACGATACGGAGCTGCTGCGCGATTACGTAAAGAAGTTATTGAAGCATCCTCGTCAGTA -AAAAGTTAATCTTTTCAACAGCTGTCATAAAGTTGTCACGGCCGAGACTTATAGTCGCTTTGTTTTTATT -TTTTAATGTATTTGTACATGGAGAAAATAAAGTGAAACAAAGCACTATTGCACTGGCACTCTTACCGTTA -CTGTTTACCCCTGTGACAAAAGCCCGGACACCAGAAATGCCTGTTCTGGAAAACCGGGCTGCTCAGGGCG -ATATTACTGCACCCGGCGGTGCTCGCCGTTTAACGGGTGATCAGACTGCCGCTCTGCGTGATTCTCTTAG -CGATAAACCTGCAAAAAATATTATTTTGCTGATTGGCGATGGGATGGGGGACTCGGAAATTACTGCCGCA -CGTAATTATGCCGAAGGTGCGGGCGGCTTTTTTAAAGGTATAGATGCCTTACCGCTTACCGGGCAATACA -CTCACTATGCGCTGAATAAAAAAACCGGCAAACCGGACTACGTCACCGACTCGGCTGCATCAGCAACCGC -CTGGTCAACCGGTGTCAAAACCTATAACGGCGCGCTGGGCGTCGATATTCACGAAAAAGATCACCCAACG -ATTCTGGAAATGGCAAAAGCCGCAGGTCTGGCGACCGGTAACGTTTCTACCGCAGAGTTGCAGGATGCCA -CGCCCGCTGCGCTGGTGGCACATGTGACCTCGCGCAAATGCTACGGTCCGAGCGCGACCAGTGAAAAATG -TCCGGGTAACGCTCTGGAAAAAGGCGGAAAAGGATCGATTACCGAACAGCTGCTTAACGCTCGTGCCGAC -GTTACGCTTGGCGGCGGCGCAAAAACCTTTGCTGAAACGGCAACCGCTGGTGAATGGCAGGGAAAAACGC -TGCGTGAACAGGCACAGGCGCGTGGTTATCAGTTGGTGAGCGATGCTGCCTCACTGAATTCGGTGACGGA -AGCGAATCAGCAAAAACCCCTGCTTGGCCTGTTTGCTGACGGCAATATGCCAGTGCGCTGGCTAGGACCG -AAAGCAACGTACCATGGCAATATCGATAAGCCCGCAGTCACCTGTACGCCAAATCCGCAACGTAATGACA -GTGTACCAACCCTGGCGCAGATGACCGACAAAGCCATTGAATTGTTGAGTAAAAATGAGAAAGGCTTTTT -CCTGCAAGTTGAAGGTGCGTCAATCGATAAACAGGATCATGCTGCGAATCCTTGTGGGCAAATTGGCGAG -ACGGTCGATCTCGATGAAGCCGTACAACGGGCGCTGGAATTCGCTAAAAAGGAGGGTAACACGCTGGTCA -TAGTCACCGCTGATCACGCCCACGCCAGCCAGATTGTTGCGCCGGATACCAAAGCTCCGGGCCTCACCCA -GGCGCTAAATACCAAAGATGGCGCAGTGATGGTGATGAGTTACGGGAACTCCGAAGAGGATTCACAAGAA -CATACCGGCAGTCAGTTGCGTATTGCGGCGTATGGCCCGCATGCCGCCAATGTTGTTGGACTGACCGACC -AGACCGATCTCTTCTACACCATGAAAGCCGCTCTGGGGCTGAAATAAAACCGCGCCCGGCAGTGAATTTT -CGCTGCCGGGTGGTTTTTTTGCTGTTAGCAACCAGACTTAATGGCAGATCACGGGCGCATACGCTCATGG -TTAAAACATGAAGAGGGATGGTGCTATGAAAATAACATTACTGGTTACCTTGCTTTTCGGTCTGGTTTTT -TTAACCACCGTCGGCGCTGCCGAGAGAACTTTAACCCCACAACAACAGCGTATGACCTCCTGTAATCAGC -AGGCGACGGCGCAGGCGTTGAAAGGGGATGCTCGTAAGACCTACATGAGTGATTGCCTGAAGAACAGCAA -GTCTGCGCCTGGCGAAAAAAGTTTGACGCCACAGCAGCAAAAGATGCGCGAATGCAATAATCAAGCAACA -CAACAATCTCTGAAAGGTGATGATCGTAATAAGTTTATGAGTGCCTGCCTCAAGAAAGCCGCCTGATACC -TGATAGTGCTAACGGGTGAGCTACGAAAATGGCTCACCCGAAATATCATACTTCTGCCTTTAGCTCCGTC -TCTATAATTTGGGAAAATTGTTTCTGAATGTTCCCAAAAATAATGAATGATGAAAACTTTTTCAAAAAAG -CGGCGGCGCACGGGGAGGAACCTCCTTTAACTCCTCAAAACGAACATCAGCGGTCCGGGCTGCGCTTCGC -CCGTCGCGTCAGACTACCCCGTGCGGTTGGCCTGGCTGGCATGTTCTTACCGATTGCTTCAACGCTGGTT -TCACACCCGCCGCCGGGCTGGTGGTGGCTGGTGTTGGTCGGCTGGGCGTTCGTCTGGCCGCATTTAGCCT -GGCAGATAGCGAGCAGGGCCGTCGATCCGCTTAGCCGGGAAATTTACAACTTAAAAACCGATGCAGTATT -AGCGGGAATGTGGGTAGGCGTAATGGGCGTAAACGTGCTGCCTTCCACCGCGATGTTGATGATTATGTGT -CTGAATTTGATGGGGGCAGGCGGCCCCCGTCTGTTTGTCGCGGGTCTGGTGTTGATGGTGGTTTCCTGCC -TTGTCACCCTCGAGCTGACGGGCATTACCGTGTCGTTCAATAGTGCGCCGCTGGAATGGTGGCTCTCCCT -TCCCATTATTGTCATTTATCCTCTGCTGTTTGGCTGGGTCAGCTACCAGACGGCAACCAAACTGGCGGAA -CATAAACGCAGGTTGCAGGTCATGAGTACCCGCGACGGCATGACGGGCGTGTATAACCGACGTCATTGGG -AAACTATGTTACGCAATGAATTTGATAACTGTCGGCGGCATAATCGCGATGCAACGTTACTGATTATCGA -TATCGACCATTTCAAGAGCATCAACGATACCTGGGGCCATGATGTGGGCGATGAAGCGATTGTGGCGCTT -ACCCGACAGTTACAAATTACCCTGCGCGGTAGCGATGTGATTGGTCGGTTTGGCGGCGATGAGTTTGCAG -TAATCATGTCCGGTACGCCAGCTGAGAGCGCCATTACCGCCATGTTACGGGTGCATGAAGGGCTAAATAC -ATTACGTTTGCCGAATACGCCACAGGTAACTTTACGGATTAGTGTGGGGGTTGCGCCGCTGAACCCACAA -ATGAGTCACTATCGTGAGTGGTTGAAATCGGCAGATTTGGCGCTTTACAAAGCAAAGAAAGCCGGACGTA -ACCGCACCGAAGTGGCGGCCTGACGTCCGGCGAAAGTCATCAGGATTTGCTGAGTTTTTCTGATTTTTCC -ATACACTTCGTCATCGCTTCGATCACTGCAGCACGGAAGCCTTTCTCTTCCAGTACGCGTACCGCTTCAA -TGGTGGTGCCTCCCGGTGAGCAGACCATATCTTTCAGTGCCCCCGGATGTTCTCCCGTTTCCAGCACCAT -TTTTGCGGAACCCATTACCGCCTGAGCGGCAAATTTATACGCCTGGGCGCGTGGCATCCCGCCCAGCACG -GCGGCGTCGGCCATCGCTTCGATAAACATAAATACGTAGGCTGGCGAAGAACCGCTCACACCGACCACCG -GGTGGATCATCGGCTCAGCAATTACTTCCGCTTCGCCAAAGCAGCGGAAAATATTCAGCACATCAGCGGT -ATCTTCTGGGGTTACCAGCGCGTTTGGCGTTACGGAGGTCATCCCGGCATTAACCAGTGCGGGAGTGTTC -GGCATGGCGCGGATAATTTTCCGGTCATGGCCCAGCGCGCGGGCAAGCTGGTCGAGCGTGACACCTGCAG -CAATAGAAACGACCAGAGAGTCTTTATTCAGGCTGGAGGTGATTTCGCTAAGCACTTTAATCATGATGCC -AGGTTTAACGGCAGCAAAAATGATGTCGGCGATTTGCGCCACTTCTTGCGCCGATTCTGCGGCGTTGATG -CCGAACTGGTCATGCAGGGCGGCGACTTTATCCGGGGAGGGGGTGTATACCCAGATTTGCCCTGGAAGCA -CCTGACCGCTGGCAATCAGACCGCCGAGAATGGCTTTTCCCATATTGCCGCAGCCAATAAAACCGATTTT -CTTTTCCATTGCCTCACTCCTGCCGTGAAATTCATTGTTTTGATAATCGCTGGCAGAAGCATAAACAGAA -CTATGCCGGAAGGCAAAAGCGCGACACAATAGAGGATTACCCAACAAAGGATGACTTTATGACAATTTGG -GTGGATGCCGACGCGTGTCCCAATGTAATTAAAGAGATTTTGTATCGCGCGGCGGAACGTATGCAGATGC -CGCTGGTACTGGTAGCAAACCAGAGTTTACGCGTGCCGCCATCGCGATTTATTCGTACGCTGCGCGTCGC -GGCAGGTTTCGACGTTGCCGATAACGAAATTGTCCGGCAGTGTGAAGCGGGCGATTTGGTGATCACCGCA -GATATACCTTTGGCTGCTGAAGCCATCGAGAAAGGCGCTGCGGCGCTTAATCCGCGCGGCGAACGTTACA -CGCCAGCGACCATTCGTGAGCGCCTGACGATGCGCGATTTTATGGATACCTTACGTGCCAGTGGGATCCA -GACCGGCGGACCAGATAGCCTTTCACAACGTGACCGCCAGGCCTTTGCCGCGGAGCTGGAGAAGTGGTGG -CTGGAAGTGCAACGTAGTCGTGGCTAAATGTAATTTATTATTTACACTTCATTCTTGAATATTTATTGGT -ATAGTAAGGGGTGTATTGAGATTTTCACTTTAAGTGGAATTTTTTCTTTACAATCGAAATTGTACTAGTT -TGATGGTATGATCGCTATTCTCATGACACCGGCTTTCGCCGCATTGCGACCTATTGGGGAAAACCCACGA -TGACACAACCTCTTTTTCTGATCGGGCCTCGGGGCTGTGGTAAAACAACGGTCGGAATGGCCCTTGCCGA -TTCGCTTAACCGTCGGTTTGTCGATACCGATCAGTGGTTGCAATCACAGCTCAATATGACGGTCGCGGAG -ATCGTCGAAAGGGAAGAGTGGGCGGGATTTCGCGCCAGAGAAACGGCGGCGCTGGAAGCGGTAACTGCGC -CATCCACCGTTATCGCTACAGGCGGCGGCATTATTCTGACGGAATTTAATCGTCACTTCATGCAAAATAA -CGGGATCGTGGTTTATTTGTGTGCGCCAGTATCAGTCCTGGTTAACCGACTGCAAGCTGCACCGGAAGAA -GATTTACGGCCAACCTTAACGGGAAAACCGCTGAGCGAAGAAGTTCAGGAAGTGCTGGAAGAACGCGATG -CGCTATATCGCGAAGTTGCGCATATTATCATCGACGCAACAAACGAACCCAGCCAGGTGATTTCTGAAAT -TCGCAGCGCCCTGGCACAGACGATCAATTGTTGATTTTCGAGCGCCTATACTTAACGTTCATCCCGTGAA -ATAAGGAAGAACGATGCCAACGAAACCGCCTTATCCTCGTGAAGCATATATAGTGACGATTGAAAAAGGA -AAGCCAGGACAGACGGTAACCTGGTACCAACTCAGAGCCGATCATCCTAAACCAGACTCGTTGATCAGTG -AACATCCGACCGCTCAGGAAGCGATGGATGCGAAAAAACGCTATGAGGACCCTGACAAAGAGTGACCGCA -TCAGACTGCTCGGAAGGGATTCTGAGTGCCACTACAAGGGATCTGCGTCACATTTTTCATAATTCATGTT -TTTCTAATAATTAGAATATTAAACAATAACAATCCATTACTGGAATCATTTGGAATCTTTACATTATGCC -GTGCACGTCTGCTGCTACGCTTTTTGTCATTTGTAGCACAAGTAAGTGTCAGCAGTGGTGCTTCACACTT -GCCCGGTAATTAACGACGAAAGAAAAGTAAGGTGGATGAACAATGAGTGCGTCGTTGGCGATCCTGACCA -TCGGCATTGTACCTATGCAGGAAGTTTTGCCGCTCCTGACGGAATACATTGACGAAGATAATATTTCCCA -TCATAGCCTGCTGGGGAAGTTAAGTCGTGAAGAAGTGATGGCGGAGTACGCGCCAGAAGCAGGCGAAGAC -ACCATTCTCACATTATTAAATGACAACCAGCTGGCCCATGTTTCGCGTCGCAAAGTGGAGCGTGACCTGC -AAGGTGTGGTTGAAGTGCTCGATAATCAGGGTTATGACGTCATTTTATTAATGAGTACAGCAAACATTAG -TAGTATGACTGCGCGTAATACGATCTTTCTTGAGCCGTCGCGAATATTGCCTCCACTGGTTTCCTCTATT -GTTGAAGATCATCAGGTGGGGGTTATCGTTCCGGTTGAGGAGATGCTGCCCGTTCAGGCGCAAAAATGGC -AAATTTTGCAGAAATCGCCGGTATTTTCATTGGGTAACCCCATTCATGATTCAGAACAAAAAATCATTGA -TGCCGGGAAAGAATTACTGGCAAAAGGGGCTGATGTCATCATGCTGGATTGTTTAGGATTTCACCAACGT -CATCGCGATTTACTGCAAAAACAGCTCGATGTTCCTGTCTTGCTGTCTAACGTATTGATTGCACGGCTGG -CTGCGGAATTACTGGTGTAATTTTGCGTGACAGCCAGCGCCTCTGGCCCCTATAGTGAAGTAGATGTTCA -ACTACCAAACAGGGCCAGTTTATGCTTCAAAGTAATGAGTACTTTTCCGGCAAAGTGAAATCAATCGGCT -TTTCCAGCAGCAGCACTGGTCGCGCCAGCGTGGGTGTTATGGTTGAAGGCGAATACACCTTCAGCACCGC -TGAGCCGGAAGAGATGACGGTAATCAGTGGCGCGCTGAATGTGTTACTGCCTGACGCGACCGACTGGCAG -GTGTATGAAGCCGGTTCGGTGTTTAATGTTCCCGGTCACAGTGAGTTTCATCTGCAAGTTGCCGAACCCA -CCTCTTATCTGTGCCGCTATCTGTAATTCCTCGCCTTCCCCTTGAACGGGAGGGCATTTTTCTGAAATAT -CCTTTCTTTAGCCCATAATAATATTTCCTTTGCTGCGATTTTTTCAATTTCCGATATATTCATAATTTAT -CAAGGTTGATATAAATATCAGTGAAGATCTCCAGATATTGTTGCGGAACTGGCTACGATAAAAGATAAAT -CAGATGATGAATGGTGGCGTGCATTGCTGCAAAGTCGCAATGATCATTTACGCCAAACGGCATTGCGCAA -CGCACATACCCCGGCGTTGTTGTTAACGACATTGACTGAGCCTCAGGATCGGTCGCTGGCTATTAATAAT -CCACAGCTGGCTGCCGATGTGAAAACGGCGTGGTTAAAAGAGGATCCATCATTACTCTTATTTGTCGAAC -AACCCGATCTTTCGCTGTTACGTGATTTAGTGAAAACCGGGGCAACGCGGAAAATTCGCAGTGAAGCGCG -TCACCGGCTTGAGGAAAAACAATGACACAACGTCCATGGAGCAAGTTACAGCGTAAAACGCATAATATTG -CTGCGCTAAAAATTATTGCTCGCCGTAGCGAATAATTATATGCCTGGTGTGGCTTCGTACGCCGGATAAG -ACGCGGCAGGCGTCGCATCCGGCATTAAAGGAAAATCAGCAATTAACGTTGTGCTTCGCCACCTAATCCT -TCAATCAGGTTTTGAATTAACGCTGCCAGTTCACCAGTCATCAGGATGAAATCGGCATCAAAACGCTGGG -CGAAATCTTCACGGTCGATATCTTCGTTTTGATCGCGCAGCTCGTCGCAGAACTTCAGACGCTTGAGCGA -ACCATCGTCGCACATCACAAACTGAATGCGCTGCTGCCAGTCGAGCGCCAGTTTAGTCACCACTTTTCCG -GCTTCAATGTGATTGGTGATCTCTTCGCTGGTCAGATCTTGTTTCTTCGCGCGGATCACGCCGCCATCTT -CCAGCAACGATTTCAGCTCGGCTTCATCAAGCAGCTGGAAGCCCTGTGCCGCACTACCGGAGCGAACCCA -TTCGGTCAGCGTCAGTTCAATCGGGTTTTCCATGCTCAATGGTACAACCGGTAACGACCCCAGGCTTTTA -CGCAGTAATGCCAGCGTATCTTCCGCTTTTTTGGCACTGGCGCAGTCCACCATAATCAAACCGTTAACCG -TGTCGATCCACATCATTGTCTGGCTAAAACGGCTGAAAGCACGCGGCAGCAGAGAGTGCAGCACTTCGTC -TTTCAGCGAATCTTTTTCGGTTTTCTTCAGCTTACGCGCCTGTTCCGCTTCCAGTTTGGCGATTTTCGCT -TCCAGCGCCTGTTTAATCACCGGAGACGGGAGGATTTTTTCTTCTTTGCGCGCGCAGATAACAATTTGAC -CATTGGCAACGTGCGTTAACGCATCGCTGTGCGATCCCATCGGAGGAACCCAGCCCATCTTCGCCATGTC -CTGGCTGCCGCATGGGGTAAATGCCATCGAGGCTAGCTGTTTTTCCATCTCTTCTGCACGCAGCGAAATC -TCGCGGCTAAGACGGTAAACCATTAAATTTTTGAACCACAGCATGATAATTTCCACGGCCTTGTCGTTAA -ATTTAGCGGGCATGATAACGAATTGTCGGCGGCCTTGCATTGCCAATCCGGTTGTCCGTCTCTACGCTAT -TGATATTGAAAAAAATAAGGAGAGTACCGTGCGTATAGGTATCGATTTAGGCGGCACCAAAACTGAAGTG -ATTGCACTGGGCGATGCAGGGGAGCAGTTGTACCGCCATCGTCTGCCCACGCCGCGTGATGATTACCGGC -AGACTATTGAAACGATCGCCACGTTGGTTGATATGGCGGAGCAGGCGACGGGGCAGCGCGGAACGGTAGG -TATGGGCATTCCTGGCTCAATTTCGCCTTACACCGGTGTGGTGAAGAATGCCAATTCAACCTGGCTCAAC -GGTCAGCCATTCGATAAAGACTTAAGCGCGAGGTTGCAGCGGGAAGTGCGGCTGGCAAATGACGCTAACT -GTCTGGCGGTTTCAGAAGCAGTAGATGGCGCGGCAGCGGGAGCGCAGACGGTATTTGCCGTGATTATCGG -CACGGGATGCGGCGCGGGCGTGGCATTCAATGGGCGGGCGCATATCGGCGGCAATGGCACGGCAGGTGAG -TGGGGACACAATCCGCTACCGTGGATGGACGAAGACGAACTGCGTTATCGCGAGGAAGTCCCTTGTTATT -GCGGTAAACAAGGTTGTATTGAAACCTTTATTTCGGGCACGGGATTCGCGATGGATTATCGTCGTTTGAG -CGGACATGCGCTGAAAGGCAGTGAAATTATCCGCCTGGTTGAAGAAAGCGATCCGGTAGCGGAACTGGCA -TTGCGTCGCTACGAGCTGCGGCTGGCAAAATCGCTGGCACATGTCGTGAATATTCTCGATCCGGATGTGA -TTGTCCTGGGGGGCGGGATGAGCAATGTAGACCGTTTATATCAAACGGTTGGGCAGTTGATTAAACAATT -TGTCTTCGGCGGCGAATGTGAAACGCCGGTGCGTAAGGCGAAGCACGGTGATTCCAGCGGCGTACGCGGC -GCTGCGTGGTTATGGCCACAAGAGTAAAAAACGTAGGCAATTGGCGCATCATGCCTGATGCGACGCTTGC -CGCGTCTTATCAGGCCTACAAAAGGTGCCAGAACCGTAGGCCGGATAAGGCGTTCACGCCGCATCCGGCA -ATAAGTGCTCCGATGCCTGATGCGACGCTTGCCGCGTCTTATCAGGCCTGCAAAATGTGCCAGAACCGCG -TAGGGCGGATAAGGCGTTCACGCCGCATCCGGCAATAAGTAATGAGCACCGAGACTATAACCTACCCCAG -TGGTTTCGCCAGCACCGGAGTATCCGCCGCTTGCTGGCGCTTATAGCGACCATACAGCAGCAACGACGAC -ATCGCAGCAAACGAAAGCAGGGCGGCAGGCAGCGCCACGTAATTATATGCCAGCCCCAGCGTCAGCATCA -TACCTCCGCAATATGCGCCGACGGCGCTACCGAGGTTAAACGCTATTTGCCCACCTGCGGCACCTAATAA -CTCTCCGCCTTTGGCGTTTTGTAGTAACAATATTTGTAGCGGTGCTGAAAGGGCAAATAATCCCGCGCAA -CAAATAAAAGCAAAAATAAGCGACGTTGTTTTCATGCCGCCGCAGAAAAAGAGCATCAGCAGTGCCAGTA -CAATTATAAAGTCAGTCACTGCTGCAATGCGCAGTGGTGAATAACGTCCTGAAATCCTGCCACTTAGCAT -ATTTCCCAGCACCATCCCTAGCCCAACTAACATCATAATAAAGGTCATCGCCGTTTCCGAAAAACCGGAA -ATAAACATCATGTATGGCTTTACGTAGCTGAACCAGGCAAACACACCTGCGTTGCCAAACATCGTGGCGG -CGAAAATTAACCACGGGGCCGGGCTGCGCAAAAAGTGAAATTGTTCGCGCAGATTTCCTTTCGCCTCGTC -GCGAATATCTGGCACCCAAAAATAGACCGATGCCATCACCGCAATATTAAAAACAGCGATCAATAAAAAG -GTGTAACGCCAGCTAAATTCCTGACTTAAATACGTTCCCAGCGGAATGCCCAGCAAATTGGCGACTGTCA -TCCCGGAAACCATCCCCGCCACGGCGGCGGTGACTTTTCCGGGTTTGATAATTTTTGATAACACGATCGC -TCCGACGCCAAAAAATGCGCCATGCGGAAAGCCGGATACCAGCCGACCAATGGCGAGCATCAGGTAAGAC -GAAGAGAGCGTGAACATGGCGTTGCCAATGACGCACAACGCCACCAGAAACAACAAGATATGTTTGAGTG -AGTAGCGGCTGGAAAAGAGTGCGATGATTGGCGCACCGACCACCACCCCCAGTGCATAATACGAGATCAT -ATGCCCGGCGGCAGGAATCGAAATTCCTACGTTATGCGCCAGCTCCGTGAGCACGCCCATAATGCCAAAT -TCGGCCATCCCCAAACCAAACGTGCCCAGAGCCAAAGATAAAATGACTTTTTTCATACCACCATCACAAC -CACCAGAACGGCTACCAATCACCGTAGCCAATAAAGTGATAGCTTGCAGGATAACGACCAGCAAGGCCAA -GAGATAATTCGCCCCTCTGTATTCATTATCCTGCTGAATAGTTATTTCACTGCAAACGTACTTTCCAGTT -TGCTGTAGCCCAGGCCGTTGATCTTTTTCACTTTGATCTGCACCGGAATACGCTCTTTCATCGCTTCTAC -GTGGCTAATCACACCGATGGTTTTGCCACTGGCGTTCAGGGCATCCAGCGCATCAAGGGCGGTATCCAGC -GTTTCGCTATCCAGCGTGCCAAAACCTTCATCAAGGAACAGCGAGTCAATACGTGTTTTATGGCTGACCA -GATCCGAAAGCGCCAGCGCCAGCGCCAGACTAACGAGGAAACTTTCGCCGCCGGAAAGGGTACGGGTATC -GCGTACCGCATCTGCCTGCCAGGTATCAACAACCTCGACTTCCAGCGCCTCGCTGGCTTTGCGCTGTAAC -AGATAGCGCCCGTGCAGCCGGGTAAGTTGCTGATTAGCGAGATGGACTAAATTATCCAGCGTCAGCCCCT -GGGCAAACTTGCGGAATTTATCGCCCTCTTTGGAACCTATTAGCGAATTCAGATATCCCCAGTCCTCAAC -CTGCTGCGTCATTTGAGCAATTTGCTGCATTAAGGTTTGTTGTTGCTGACGGTTATCTGCATCCTGCTTC -AGCTGCTGGCGAATCTCGCCTTGACTCGTGGTGTTTTCACGCAACTTTTGGTGAGTTTGCGCTAACTCTT -GCTGAATCTGCTCCACCGTCACAGTGAGAGCCAACCCGTCGTCAGGTCGGTGTTGTTGATGCTGTGCCAG -CGTTTCTGCTGTCTGAGTGACCAGAGTTTGCGCCTGACGGCGCTGGTTTTCCAGATTCTGCTTGAGCTGT -TCCAGCTGCGTTAGTGTTTGTTCATCCATTAGCGCCGCAAGGAACGCCTGCTGATCGTCAAAGACGCTGG -CCTGTAGCGCGGTGTCAAACTGCGCCTGGGCTTTTTGCAGACTTTGCGCCGCCAGAACATCCTGTTGCTG -TAACGTCTGCTGCTGGCTGTGTAATGCGAGACATTGTTCATGTACCTGCCGCCAGTTTTCCAATACCACA -GTTTCTTCGCAGTGCGGGAGTTCATCACTTTGCGGCAACGTTTCCAGAATCGGCGTCAGCTGCTGAATAC -GGTTTTGCAGCGCGGTTAATTCGTTCTGGCGTTGCTGCCAGCTCTGCGCTTCTTGCTGACGTGTCGCCAA -CCAGCTCTCTTCTTCATCTTCCTGTGGCAATGTCAGTGCATAACCCGTCAATGTCGTTAAAAGTAGTTGC -TGGCGTTGTTCAATTTGCTGTTGATACTGGATAATTTGCTGATTATGCGCGGCAATCTGCCCTTGTAATT -CATGCCGTTGGCTGAGTAACCGCAGCTGGCGTTCGTGCTCATCTTGTGCATCCAGCCACGGTTGAATATC -GTCCAGTGGCTGCAAGGTGATATTGAGGCTGGCCGTGACGGCTTGCCATTGTTGAGTAAGTGCTTGCTCA -TCTTGTCGGAGGCTTTGCGCTTCGTTTTCATCACGCTGAAGCTGCTTTGTTATGGCGTCCAGTTGCCCAC -GTAGCGTCGCACCTTCTTCACCGAGCTTTTTAACTTCGTTTTCCAGCGCCAGTAATCGAGACTGATTAAC -GCCAGGCTCCAGCGCCTGATACGCCTCGACCGCCGGGTGGCTGGTGGAACCACAAAGTGGGCAAGGCTGA -CCCGCCTGTAACTGTGCACGTTGAGCTTCCAGCGTTTTGATGCGCGCTTCCTGCTCGCAAATGGTTTTCA -CATCGGCAAGTTGCTGCGTCTTTTCTTTATAACGCTGGCGCATTTCGTTAAGTGCGGCGTTACGTTGCGT -CTGTTCTTGCGTGACATTCTGGATAGCGACCTGTAACTGCGCCAGACGTTTTTGTTGGGGAACAATCTGT -CCATGCAGCGCGACCAGGTGCTGACGCAGTGGGCGTTGCTCAGCATGTTGCGCCAGGGCGGTAGCAACTT -CATCGGCGGTTAACGTCAACGTGATCGCCGCAAGCGCATTAAGTTTTTGCTCAGCATGGGTTAACTGTTG -CTGCCATTGCCGCAGATGCTCGCGATCGCTGGTTTGTTGGGAGAACTGCGCACGCCAACCCGCCGGTTCG -TTGTTCCACTGACGGAAGCGGTCGTGTTCCTGTAACCAGGTATTCAGGCTTTGTTGCTGCTGCTGTAATT -CTGCTGACTGCTTCGCCGCGTGGTGGCGAATGCTCGCGCGAAGCGCCATTGTGCTCTGTAAGCGAGTATT -TACTTCTTCAATCTGCTGGCGAATATGCGCCAGCGCCGCGCTGTGTTCTGCGATGCGTTCCCAGTGTGGA -CGAAGATTTCGTGCCGGTTGTGCCAGACTAAGCGCCGCCAGTTGAGGTTGCGCTTTTTCTTCTTCGGCTA -ACGCCTGTTGCAAGGCCTGCTGACGGCGGCTGGCTTCTTGCTGCAATTCGTCCTGACGCGTTAACCAGTT -TAGCGATTGTTGTTCTTGCTGCTGCGCGGTAATTAACTGTTTTTCTTCGTCAGTAAGTACCTGCAAACTC -GCTGTCAGCGATTGCACTTGTTCCGGCGTGAGCAACGTGACGCCGCTGGCCTGCGCTTGCAGCTTCTCCA -GCTCTGTGCGGGCCGATTTGTGCTGCTCAAAAACCATCGCCGAGATTTGCCCGTAGATTTCAGTGCCGGT -TAACTCCTCGAGCAATTCCGCGCGTTCTTTGGGTTTGGCATTCAGGAAGGCAGCAAATTGCCCCTGCGAA -AGCAGCATCGAACGGGTGAAGCGCCCGTAATCCAGCCCGGTTAACGTCGCTGTCAGTTCCAGCTTATCTT -TCACTTTGTCGGCGAGAATTTTGCCGTCGGCGCAGCGCGCCAGCTCTACGCGTGGCACCTGCAAATTACC -GTCGGGTTGGTTACGCGCCCGATTCTGGCTCCAGAATGCACGGTACGCTTCACCTTTCACTTCAAACTCC -ACCTCCGCCAGACATTCGGCGGTATCGCGGGTCATGAGATCATTTTGCGATTGTGAAACGTTAGAGAGAC -GCGGAGTTTCGTGATACAGCGCCAGACAAATGGCGTCCAGCAGGGTGGTTTTCCCCGCACCTGTTGGGCC -GGTAATAGCAAACAGCCCGTTGCTGGCGAACGGCTCGCGGGTGAAATCAATCTTCCATTCGCCTTTTAAT -GAGTTCAGGTTTTTCAGGCGCAGGCTGAGAATTTTCATGCTTCGTGTTCTCCGGCGAGGGTATGCAACGT -CGTGGTGAAAAGATGCTGCAGACGTTGCTGCTGCGATTCATCCAGTTCTTCCAGTGCCAGACGGCGATTG -AACACCTCTTCGACGCTGAGTTCGCTGAGGGTTTCACGCTGTTGGCTGGCTAACACACGCTCGCGCTGTT -CACGACTCCGACGTACCAGCAATACTTCGACAGGCAATGATTCGGTTAATGCCTGGATTTTGCGCTGAAT -ATCATGCAGATACTCATCAGTAGTGATTTCGATATCCAGCCAGACAGGTGGCTCCTGCGATACATCGCGC -CACTGTTCCAGCTGTGCGGTAATCGACGCCAGATCGCCTTTCAGCACTGCCATGGGTTGCGTTACCGGTA -CGTTCAGGTTTTCCACGCTCTCTAATTTGCCGTTTGAAAATGTCACCAGATGGACATATTTACTCTTACC -GCATTCATCAAAACTCAGTGGAATGGGGGAGCCGCAATAGCGAACATGTTCCATGCCGCCAATAATCTGT -GCGCGGTGAATATGCCCGAGCGCGATGTAGTCGGCTGGTGGAAAGTTTTGTGCCGGAAACGCGTCCAGCG -TGCCAATATAAATGTCACGCACGGCGTCACTTTTACTGGCCCCCACGGTCGTTAAATGTCCCGTGGCGAT -GATGGGCAGAGGCTGATCGCCGCGCAGTTTGCAGGCATCGGCATAGTGTTGTTGGTAATAATCGGTAATC -GCTGCCAGTAAATGCTGCTGTTTTTCAATACCGTTAAGCCCCGCCTGGCTGGTAATAATGTCACGCGGAC -GTAAAAACGGAATGGGGCACAGCACTGCGCCTGGCGTCCCGTCGCGACGAGGCAAGATTTGCGGCGCATG -TCCGGCGCTGGCGACCACGGTAGTATTGAGGAACGCCATGATATCGCGCGATTCATTCAGCGTGGCGACC -GAGTCATGGTTTCCTGCCAGTACCACCAGATGACAGCCAGTTTGCTGTAAATTGACAACAAAACGGTTGT -ATAACGTGCGGGCGTAACTGGGCGGCGAGCCGGTATCGAAAACATCACCGGCAACAATAATCGCATCCAC -CTGATGGGTTTGTGCTGTCTCCAGCAGCCAGTCAAGAAAAGCCTGATGTTCAGCTTCGCGGCTTTTACTG -TAGAAGTTCTGGCCGAGATGCCAGTCTGAGGTGTGAAGGATGCGCATAACGGTTCCCTGGCGAAAAAGCA -TGGGCGCGATTATACCCAAACAGATGTGCCATTTGCTTTTTTCTGCGCCACGGAAATCAATAACCTGAAG -ATATGTGCGACGAGCTTTTCATAAATCTGTCATAAATCTGACGCATAATGACGTCGCATTAATGATCGCA -ACCTATTTATTACAACAGGGCAAATCATGGCGAGACGTATTCTGGTCGTAGAAGATGAAGCTCCAATTCG -CGAAATGGTCTGCTTCGTGCTCGAACAAAATGGCTTTCAGCCGGTCGAAGCGGAAGATTATGACAGTGCT -GTGAATCAACTGAATGAACCCTGGCCGGATTTAATTCTCCTCGACTGGATGTTACCTGGCGGCTCCGGTA -TCCAGTTCATCAAACACCTCAAGCGCGAGTCGATGACCCGGGATATTCCAGTGGTGATGTTGACCGCCAG -AGGGGAAGAAGAAGATCGCGTGCGCGGCCTTGAAACCGGCGCGGATGACTATATCACCAAGCCGTTTTCG -CCGAAGGAGCTGGTGGCGCGAATCAAAGCGGTAATGCGCCGTATTTCGCCAATGGCGGTGGAAGAGGTGA -TTGAGATGCAGGGATTAAGTCTCGACCCGACATCTCACCGAGTGATGGCGGGCGAAGAGCCGCTGGAGAT -GGGGCCGACAGAATTTAAACTGCTGCACTTTTTTATGACGCATCCTGAGCGCGTGTACAGCCGCGAGCAG -CTGTTAAACCACGTCTGGGGAACTAACGTGTATGTGGAAGACCGCACGGTCGATGTCCACATTCGTCGCC -TGCGTAAAGCACTGGAGCCCGGCGGGCATGACCGCATGGTGCAGACCGTGCGCGGTACAGGATATCGTTT -TTCAACCCGCTTTTAACGCCTTGCTCATCGGACGCAGAGCAGGGCTTATGATTTCTTAACTGGAGTATCT -TACGTGCTGGAACGGCTGTCGTGGAAAAGGCTGGTGCTGGAGCTGCTACTTTGCTGCCTCCCGGCTTTCA -TCCTGGGTGCATTTTTTGGTTACCTGCCCTGGTTTTTGCTGGCATCGGTAACAGGACTGCTTATCTGGCA -TTTCTGGAATTTATTGCGCCTTTCATGGTGGCTGTGGGTGGATCGCAGTATGACCCCGCCACCGGGGCGT -GGTAGCTGGGAACCGCTACTATACGGCTTACACCAGATGCAGCTGCGAAATAAAAAACGCCGCCGTGAAC -TGGGCAATCTGATTAAACGCTTTCGTAGCGGCGCGGAGTCGCTGCCCGACGCGGTGGTGCTGACCACGGA -AGAGGGCGGTATTTTCTGGTGTAACGGTCTGGCGCAACAAATTCTTGGTTTGCGCTGGCCGGAAGATAAC -GGGCAGAACATCCTTAACCTACTGCGTTACCCGGAGTTTACGCAATATCTGAAAACGCGTGATTTTTCTC -GCCCGCTCAATCTGGTGCTCAACACCGGGCGGCATCTGGAAATTCGCGTCATGCCTTATACCCACAAACA -GTTGCTGATGGTGGCGCGTGATGTCACGCAAATGCATCAACTGGAAGGGGCGCGGCGTAACTTTTTTGCC -AACGTGAGCCATGAGTTACGTACGCCATTGACCGTGTTACAGGGTTACCTGGAGATGATGAATGAGCAGC -CGCTGGAAGGCGCGGTACGCGAAAAAGCGTTGCACACCATGCGCGAGCAGACCCAGCGGATGGAAGGACT -GGTGAAGCAATTGCTGACGCTGTCGAAAATAGAAGCCGCACCGACGCATTTGCTCAATGAAAAGGTTGAT -GTGCCGATGATGCTGCGCGTTGTTGAGCGCGAGGCTCAGACTCTGAGTCAGAAAAAACAGACATTTACCT -TTGAGATAGATAACGGCCTCAAGGTGTCTGGCAACGAAGATCAGCTACGCAGTGCGATTTCGAACCTGGT -CTATAACGCCGTGAATCATACGCCGGAAGGCACGCATATCACCGTACGCTGGCAGCGAGTGCCGCACGGT -GCCGAATTTAGCGTTGAAGATAACGGACCGGGCATTGCACCGGAGCATATTCCGCGCCTGACCGAGCGTT -TTTATCGCGTTGATAAAGCGCGTTCCCGGCAAACCGGCGGTAGCGGATTAGGGTTAGCGATCGTGAAACA -TGCTGTGAATCATCACGAAAGTCGCCTGAATATTGAGAGTACAGTAGGAAAAGGAACACGTTTCAGTTTT -GTTATCCCGGAACGTTTAATTGCCAAAAACAGCGATTAATCCGCCTTTGTCATCTTTTATTGCCATAAGC -CAGTCGATGCTGGCTTATTTTCTTTGCAGTCAAAATACGGGCGTTAGATTTTACAACGATTGGTGATTTT -TTGTTCGCGTGATTAGCCATGTCTTTTTCACGGAAATAGTGTTTTATACTGGTTGGTGATTTCTTATCGC -TATATACCTCTGGTTTTTAGATCCCTCCTTGCTTTAAAACGTTATAAGCGTTTAAATTGCGCTTCAGGTG -CTGTCATACTGACTGCATTAACGCGGTAAATCGAAAAACTATTCTTCGCCGCGCCTGGTTGGGAGTATTT -CCCGCTAAAATTGTTTAAATATACCGCTGTATCATCCCCAGGGATTGGCACAAAAATTTAACGTTACAAC -ACCACATCCACAGGCAGTATGATTTATGACCCATCAATTAAGATCGCGCGATATCATCGCTCTGGGCTTT -ATGACATTTGCGTTGTTCGTCGGCGCAGGTAACATTATTTTCCCTCCAATGGTCGGCTTACAGGCAGGCG -AACACGTCTGGACTGCGGCATTCGGCTTCCTCATTACTGCCGTTGGCCTGCCGGTATTAACGGTAGTGGC -GCTGGCAAAAGTTGGCGGCGGTGTTGACAGCCTCAGCACGCCAATCGGTAAAGTCGCTGGCGTACTGCTG -GCAACGGTTTGTTACCTGGCGGTGGGGCCGCTTTTCGCTACGCCGCGTACAGCTACCGTTTCCTTTGAAG -TGGGGATTGCGCCGCTGACGGGTGATTCCGCGCTGCCGCTGTTTATCTACAGCCTGGTCTATTTCGCTAT -CGTTATTCTGGTTTCGCTCTATCCGGGCAAGCTGCTGGATACCGTGGGCAACTTCCTTGCGCCGCTGAAA -ATTATCGCGCTGGTCATCCTGTCTGTTGCCGCTATTGTCTGGCCGGCGGGTTCTATCAGCACGGCGACTG -AGGCTTATCAAAACGCTGCGTTTTCTAACGGCTTCGTTAACGGCTATCTGACCATGGATACGCTGGGCGC -AATGGTGTTTGGTATCGTTATTGTTAACGCGGCGCGTTCTCGTGGCGTTACCGAAGCGCGTCTGCTGACC -CGTTATACCGTCTGGGCTGGCCTGATGGCGGGTGTTGGTCTGACTCTGCTGTACCTGGCGCTGTTCCGTC -TGGGGTCAGACAGCGCGTCGCTGGTCGATCAGTCTGCAAACGGCGCTGCTATTCTGCATGCTTACGTTCA -GCACACCTTTGGCGGCGGCGGTAGCTTCCTGCTGGCGGCGTTAATCTTCATCGCCTGCCTGGTAACGGCA -GTTGGCCTGACCTGTGCTTGTGCAGAATTCTTTGCCCAGTACGTACCGCTCTCTTATCGTACGCTGGTGT -TTATCCTCGGCGGCTTCTCGATGGTGGTTTCTAACCTCGGCTTAAGCCAGCTGATCCAGATCTCCGTACC -GGTGCTGACCGCTATTTATCCGCCGTGTATCGCACTGGTTGTATTAAGTTTTACACGCTCATGGTGGCAT -AATTCGTCCCGCGTGATTGCTCCGCCGATGTTTATCAGCCTGCTTTTTGGTATTCTCGACGGGATCAAAG -CATCTGCATTCAGCGATATCTTACCGTCCTGGGCGCAGCGTTTACCGCTGGCCGAACAAGGTCTGGCGTG -GTTAATGCCAACAGTGGTGATGGTGGTTCTGGCCATTATCTGGGATCGCGCGGCAGGTCGTCAGGTGACC -TCCAGCGCTCACTAAATCACTGAACATTTGTTTTAACCACGGGGCTGCGATGCCCCGTGGTTTTTTATTG -TGTTGATGGGTTAGGAATTGATGGAAAGTAAGAACAAGCTAAAGCGTGGGCTAAGTACCCGCCACATACG -CTTTATGGCACTGGGTTCAGCAATTGGCACCGGGCTGTTTTACGGTTCGGCAGACGCCATCAAAATGGCC -GGTCCGAGCGTGTTGTTGGCCTATATTATCGGTGGTATCGCGGCGTATATCATTATGCGTGCGCTGGGGG -AAATGTCGGTACATAACCCGGCCGCCAGCTCTTTCTCGCGTTATGCGCAGGAAAACCTCGGCCCGCTGGC -AGGTTACATTACCGGCTGGACCTACTGCTTTGAAATCCTTATTGTCGCCATCGCCGATGTGACCGCTTTT -GGTATCTATATGGGTGTCTGGTTCCCGACGGTGCCGCACTGGATTTGGGTACTGAGCGTGGTGCTGATCA -TTTGCGCCGTAAACCTGATGAGCGTGAAGGTATTCGGTGAGCTGGAATTCTGGTTCTCGTTCTTTAAAGT -CGCCACCATCATCATCATGATTGTCGCCGGTTTCGGCATCATCATCTGGGGGATTGGCAACGGCGGGCAA -CCGACCGGTATTCATAACCTGTGGAGCAACGGCGGCTTCTTCAGTAACGGCTGGCTTGGCATGGTAATGT -CGTTGCAAATGGTGATGTTTGCTTACGGTGGGATCGAAATTATCGGGATTACCGCCGGTGAAGCGAAAGA -TCCTGAGAAATCGATACCGCGTGCGATTAACTCCGTGCCGATGCGTATTCTGGTGTTCTACGTCGGTACG -CTGTTCGTCATTATGTCTATCTACCCGTGGAATCAGGTTGGCACTGCCGGTAGCCCGTTCGTGCTGACGT -TCCAGCATATGGGCATTACCTTTGCCGCCAGCATTCTTAACTTTGTTGTGCTGACTGCTTCGCTGTCGGC -AATTAACAGTGATGTATTTGGCGTAGGCCGTATGCTCCACGGTATGGCAGAGCAGGGCAGCGCGCCGAAA -ATTTTCAGCAAAACGTCGCGTCGCGGTATTCCGTGGGTTACGGTGCTGGTGATGACTACCGCGCTGCTGT -TTGCGGTGTATCTGAACTACATCATGCCGGAAAACGTCTTCCTGGTGATCGCTTCGCTGGCAACCTTCGC -CACGGTGTGGGTGTGGATTATGATCCTGCTGTCGCAAATTGCCTTCCGTCGCCGTTTGCCGCCAGAAGAA -GTTAAGGCGCTGAAATTTAAAGTGCCGGGTGGGGTAGCAACGACCATCGGCGGGCTGATTTTCCTGCTCT -TTATTATCGGGTTGATTGGTTATCACCCGGATACGCGTATCTCGCTGTATGTCGGTTTCGCGTGGATTGT -TGTGCTGTTGATTGGCTGGATGTTTAAACGCCGCCACGATCGTCAGCTGGCTGAAAACCAGTAATCCTTG -CGTTCTGTAAGCCGGTTCAGGAGGAAATCCTGATCCGGCTATTCCGAAAGTTATCCGCCCCCGTCCTCCT -CCCCCAAATATCCTTCAGATGATGAGTGATCCTGCATTAGGCTATGGCAAGGTGATCAGATTTTCATCAC -AGGGGAATTATGATGTTAAATGCATGGCACCTGCCGGTGCCCCCATTTGTTAAACAAAGCAAAGATCAAC -TGCTCATTACACTGTGGCTGACGGGCGAAGACCCACCGCAGCGCATTATGCTGCGTACAGAACACGATAA -CGAAGAAATGTCAGTACCGATGCATAAGCAGCGCAGTCAGCCGCAGCCTGGCGTCACCGCATGGCGTGCG -GCGATTGATCTCTCCAGCGGACAACCCCGGCGGCGTTACAGTTTCAAACTGCTGTGGCACGATCGCCAGC -GTTGGTTTACACCGCAGGGCTTCAGCCGAATGCCGCCGGCACGACTGGAGCAGTTTGCCGTCGATGTACC -GGATATCGGCCCACAATGGGCTGCGGATCAGATTTTTTATCAGATCTTCCCTGATCGTTTTGCGCGTAGT -CTTCCTCGTGAAGCTGAACAGGATCATGTCTATTACCATCATGCAGCCGGACAAGAGATCATCTTGCGTG -ACTGGGATGAACCGGTCACGGCGCAGGCGGGCGGATCAACGTTCTATGGCGGCGATCTGGACGGGATAAG -CGAAAAACTGCCGTATCTGAAAAAGCTTGGCGTGACAGCGCTGTATCTCAATCCGGTGTTTAAAGCTCCC -AGCGTACATAAATACGATACCGAGGATTATCGCCATGTCGATCCGCAGTTTGGCGGTGATGGGGCGTTGC -TGCGTTTGCGACACAATACGCAGCAGCTGGGAATGCGGCTGGTGCTGGACGGCGTGTTTAACCACAGTGG -CGATTCCCATGCCTGGTTTGACAGGCATAATCGTGGCACGGGTGGTGCTTGTCACAACCCCGAATCGCCC -TGGCGCGACTGGTACTCGTTTAGTGATGATGGCACGGCGCTCGACTGGCTTGGCTATGCCAGCTTGCCGA -AGCTGGATTATCAGTCGGAAAGTCTGGTGAATGAAATTTATCGCGGGGAAGACAGTATTGTCCGCCACTG -GCTGAAAGCGCCGTGGAATATGGACGGCTGGCGGCTGGATGTGGTGCATATGCTGGGGGAGGCGGGTGGG -GCGCGCAATAATATGCAGCACGTTGCCGGGATCACCGAAGCGGCGAAAGAAACCCAGCCGGAAGCGTATA -TTGTCGGCGAACATTTTGGCGATGCACGGCAATGGTTACAGGCCGATGTGGAAGATGCCGCCATGAACTA -TCGTGGCTTCACATTCCCGTTGTGGGGATTTCTTGCCAATACCGATATCTCTTACGATCCGCAGCAAATT -GATGCCCAAACCTGTATGGCCTGGATGGATAATTACCGCGCAGGGCTTTCTCATCAACAACAATTACGTA -TGTTTAATCAGCTCGACAGCCACGATACTGCGCGATTTAAAACGCTGCTCGGTCGGGATATTGCGCGCCT -GCCGCTGGCGGTGGTCTGGCTGTTCACCTGGCCTGGTGTACCGTGCATTTATTACGGTGATGAAGTAGGA -CTGGATGGCAAAAACGATCCGTTTTGCCGTAAACCGTTCCCCTGGCAGGTGGAAAAGCAGGATACGGCGT -TATTCGCGCTGTACCAGCGAATGATTGCGCTGCGTAAGAAAAGTCAGGCGCTACGTCATGGCGGCTGTCA -GGTGCTGTATGCGGAAGATAACGTGGTGGTATTTGTCCGCGTGCTGAATCAGCAACGTGTACTGGTGGCA -ATCAACCGTGGCGAGGCCTGTGAAGTGGTGCTACCCGCGTCACCGTTTCTCAATGCCGTGCAATGGCAAT -GCAAAGAAGGGCATGGGCAACTGACTGACGGGATTCTGGCTTTGCCTGCCATTTCGGCTACGGTATGGAT -GAACTAACGTTTTATAACGCCTTGCGTGACGCCTGCGCCATCATCCGCGGATAAAACTGCCAGAAGCGGG -TTTCGAGGGCGTCATAATGAGCGTCTAAATCGTACCAGGAGTCACGCAGGGCATCCAGACGTGGGCGGCG -GCTTGCCATGCCGTTTAACACGTTCTGGATGAAATCCATATCGCGATAGCGCACCAGCCACTGCTCTGAC -CACAAGTAATTGTTCAGATTGATAAAACGTGGCGGTGAGTCCGGCAAAATCGTCATCACTTGCTCGCGGG -CATAACAGACAAATTCCTGTAGCGGAAAGTCCGGCGACAGCTGCGACCAGTGGCGGGAAAGAAAGTGATC -CCACATGACATCCAGCGTAATAGGCGCAACGCGGCGCGTTTCACTACGAAACCACTCCCGTGCTTCGCGG -ACTTCCGGCAGATTGTCAGTCAATACGTCGATACGTCGATGCATATGAATGCCAGCCACGACGTCGGGCG -GAAAACTTTCTTCAGGATTTCCGCGTACGAAATCAGCCAGTAAATTGCCGGAAAGCGAGCTTTCCGCGAG -ATGGGCTAAATGCAGGTGAGCTAAAAAATTCATCGATTATATTCTATCCAAAAGGGGGTAAAGGTTGCAG -GGAGAGCGCCCCGGCACTAGACTACCCGCCTCTTATTTTAGTCTGAGTCAGTGTCATGCGCGTTACCGAT -TTCTCCTTTGAATTGCCCGAATCCCTGATTGCCCACTATCCCATGCCTGAACGCAGTAGCTGTCGTTTAC -TGTCGCTGGACGGGCCGACGGGCGCGCTGACGCACGGTACTTTCACCGATTTACTTGATAAGCTCAACCC -CGGCGATCTTCTGGTTTTTAATAATACCCGCGTGATCCCGGCGCGCCTGTTTGGGCGTAAAGCCAGCGGC -GGCAAGATTGAAGTGCTGGTTGAACGGATGCTCGACGACAAACGCATTCTTGCGCATATTCGCGCCTCGA -AAGCGCCAAAACCTGGCGCAGAACTGCTGCTGGGCGATGACGAAAGTATTAACGCAACAATGACCGCGCG -CCACGGCGCACTGTTTGAAGTCGAATTTAATGATGAACGCTCGGTGCTGGATATTCTCAACAGCATCGGC -CATATGCCGCTGCCGCCGTATATCGACCGTCCGGACGAAGACGCTGACCGCGAACTTTATCAAACCGTTT -ATAGCGAAAAACCGGGCGCGGTTGCAGCCCCGACCGCAGGTCTGCATTTTGACGAGCCTTTGCTGGAAAA -ATTGCGCGCCAAAGGCGTGGAGATGGCGTTTGTGACGTTGCACGTTGGTGCGGGCACCTTCCAGCCGGTG -CGCGTCGACACCATTGAAGATCACATCATGCACTCGGAATACGCTGAAGTACCGCAGGATGTGGTAGACG -CGGTACTGGCGGCGAAAGCGCGCGGTAACCGGGTGATTGCGGTTGGCACCACTTCAGTACGTTCGCTGGA -AAGCGCGGCTCAGGCAGCGAAAAACGATCTCATTGAACCGTTCTTCGACGATACCCAAATCTTTATCTAT -CCGGGCTTCCAGTACAAAGTGGTCGATGCGCTGGTGACGAACTTCCACTTGCCAGAGTCGACGCTGATTA -TGCTGGTTTCGGCCTTTGCCGGTTATCAACACACCATGAACGCCTATAAAGCAGCGGTAGAAGAGAAATA -TCGCTTTTTTAGTTACGGTGATGCGATGTTTATCACGTACAATCCGCAGGCAATTAATGAGCGCGTCGGG -GAGTAATTCCGCGGCGCTGGTTTAAAACGTTGGACTGTTTTTCTGACGTAGTGGAGAAAAAATGAAATTT -GAACTGGACACCACCGACGGTCGCGCACGCCGTGGCCGCCTGGTCTTTGATCGTGGCGTAGTGGAAACGC -CTTGTTTTATGCCTGTTGGCACCTACGGCACCGTAAAAGGGATGACGCCGGAAGAAGTTGAAGCCACTGG -CGCGCAAATTATCCTCGGCAACACCTTCCACCTGTGGCTGCGCCCGGGCCAGGAAATCATGAAACTGCAC -GGCGATCTGCACGATTTTATGCAGTGGAAGGGGCCGATCCTCACCGACTCCGGCGGCTTCCAGGTCTTCA -GCCTTGGCGATATTCGTAAAATCACCGAACAGGGCGTGCACTTCCGTAACCCGATCAACGGCGATCCGAT -TTTCCTCGATCCTGAAAAATCAATGGAGATTCAGTACGATCTTGGTTCGGATATCGTCATGATCTTTGAT -GAGTGTACGCCGTATCCTGCTGACTGGGATTACGCAAAACGCTCCATGGAGATGTCTCTGCGTTGGGCGA -AGCGTAGCCGTGAGCGTTTTGACAGTCTCGGAAACAAAAATGCGCTGTTTGGTATCATCCAGGGCAGCGT -TTACGAAGATTTACGTGATATTTCTGTTAAAGGTCTGGTAGATATCGGTTTTGATGGCTACGCTGTCGGC -GGTCTGGCTGTGGGTGAGCCGAAAGCAGATATGCACCGCATTCTGGAGCATGTATGCCCGCAAATTCCGG -CAGACAAACCGCGTTACCTGATGGGCGTTGGTAAACCAGAAGACCTGGTTGAAGGCGTACGTCGTGGTAT -CGATATGTTTGACTGCGTAATGCCAACCCGCAACGCCCGAAATGGTCATTTGTTCGTGACCGATGGCGTG -GTGAAAATCCGCAATGCGAAGTATAAGAGCGATACTGGCCCACTCGATCCTGAGTGTGATTGCTACACCT -GTCGCAATTATTCACGCGCTTACTTGCATCATCTTGACCGTTGCAACGAAATATTAGGCGCGCGACTCAA -CACCATTCATAACCTTCGTTACTACCAGCGTTTGATGGCGGGTTTACGCAAGGCTATTGAAGAGGGTAAA -TTAGAGAGCTTCGTAACTGATTTTTACCAGCGTCAGGGGCGAGAAGTACCACCTTTGAACGTTGATTAAT -ATTAATAATGAGGGAAATTTAATGAGCTTTTTTATTTCTGATGCGGTAGCGGCAACGGGTGCACCGGCGC -AAGGTAGCCCGATGTCTTTGATTTTGATGCTGGTGGTATTCGGTCTGATTTTCTATTTCATGATCCTGCG -TCCACAGCAGAAGCGCACCAAAGAACACAAAAAGCTGATGGACTCCATTGCCAAAGGTGATGAAGTTCTG -ACGAACGGTGGCCTGGTTGGTCGCGTAACCAAAGTAGCGGAAAACGGCTACATTGCTATCGCGCTGAATG -ACACCACTGAAGTAGTTATTAAACGTGACTTCGTAGCTGCCGTCCTGCCGAAAGGCACCATGAAGGCGCT -GTAATTAAAATTTTTCCCTAAGGGAATTGCCGTGTTAAACCGTTATCCTTTGTGGAAGTACGTCATGCTG -ATCGTGGTGATTGTCATCGGTCTGCTGTATGCGCTTCCCAACCTGTTTGGTGAGGATCCGGCTGTTCAGA -TCACTGGTGCGCGCGGAGTCGCCGCCAGTGAGCAAACGCTGATCCAGGTCCAGAAAACGTTACAAGAAGA -AAAAATAACTGCTAAGTCTGTGGCACTGGAAGAGGGCGCTATTCTTGCGCGCTTCGACTCCACTGACACC -CAGTTGCGCGCTCGTGAAGCATTAATGGGCGTTATGGGTGACAAATACGTCGTGGCGCTTAACCTTGCCC -CGGCAACGCCGCGCTGGCTGGCAGCTATTCACGCTGAGCCGATGAAGCTCGGCCTTGACCTGCGTGGCGG -CGTTCACTTCCTGATGGAAGTGGATATGGACACCGCGCTTGGCAAACTCCAGGAACAAAATATCGATAGC -CTACGCAGTGACCTGCGCGAAAAGGGCATCCCGTATACCACTGTTCGTAAAGAAAACAACTACGGCCTGA -GCATCACTTTCCGCGATGCTAAAGCTCGTGATGAAGCCATTGCGTATCTGAGCAAGCGCCATCCGGACCT -GGTGATTAGCAGCCAGGGCAGCAACCAGCTGCGTGCGGTAATGAGCGATGCTCGTCTGAGTGAAGCGCGT -GAATATGCGGTGCAGCAGAACATTAATATCCTGCGTAACCGTGTAAACCAACTTGGCGTGGCGGAGCCGG -TGGTTCAGCGTCAGGGTGCTGACCGTATCGTTGTTGAACTGCCAGGTATTCAGGACACTGCGCGTGCGAA -AGAGATTCTGGGTGCGACGGCAACGCTGGAATTCCGTCTGGTAAACACCAACGTTGACCAGGCCGCTGCG -GCATCCGGTCGCGTACCGGGCGACTCTGAAGTGAAACAGACCCGCGAAGGTCAGCCAGTTGTGCTGTACA -AACGCGTAATTCTGACCGGTGACCATATCACCGACTCCACTTCCAGCCAGGACGAATACAACCAACCGCA -GGTTAACATCTCGCTCGATAGCGCTGGTGGTAACATCATGTCTAACTTCACTAAGGACAACATCGGCAAA -CCGATGGCAACCCTGTTTGTGGAGTACAAAGACAGCGGTAAGAAAGATGCAAATGGTCGTGCGGTTCTGG -TGAAACAGGAAGAGGTGATTAACATCGCCAACATCCAGTCTCGTCTGGGTAACAGCTTCCGTATCACCGG -CATCAACAACCCGAACGAAGCCCGTCAGCTGTCACTGCTGCTGCGTGCCGGTGCGTTGATCGCGCCGATT -CAGATTGTTGAAGAACGTACCATTGGCCCAACCCTGGGTATGCAGAACATTGAACAGGGGCTGGAGGCTT -GCCTTGCCGGTCTGCTGGTTTCTATTCTGTTCATGATCATCTTCTATAAGAAGTTTGGTCTGATTGCGAC -CAGTGCTCTGATTGCCAACTTGATCTTAATCGTCGGCATTATGTCGCTGTTGCCAGGCGCAACGCTGAGT -ATGCCAGGTATCGCGGGTATCGTCTTAACCCTTGCGGTGGCGGTCGATGCGAACGTACTGATCAACGAAC -GTATTAAAGAAGAGTTGAGCAACGGACGTACTGTTCAACAGGCAATTGATGAAGGTTATCGTGGCGCATT -CAGTTCTATCTTCGATGCGAACATCACCACGCTGATTAAAGTCATCATCCTGTACGCAGTGGGTACCGGG -GCAATTAAAGGGTTCGCGATTACTACCGGTATCGGTGTGGCGACGTCGATGTTTACCGCGATTGTCGGTA -CGCGTGCCATCGTAAACCTGCTATATGGCGGCAAGCGCGTCAAGAAGCTGTCAATCTGAGGAGTGCGATG -TGGCACAGGAATATACTGTTGAACAACTAAACCACGGCCGTAAAGTCTATGACTTTATGCGCTGGGACTA -CTGGGCTTTCGGCATCTCTGGTCTGCTGTTAATCGCTGCTATCGTTATTATGGGCGTGCGCGGCTTTAAC -TGGGGGCTGGATTTCACCGGTGGTACGGTTATTGAAATTACGCTCGAAAAACCGGCTGAAATTGACGTAA -TGCGTGATGCATTGCAAAAAGCCGGTTTTGAAGAGCCGATGCTGCAAAACTTTGGTAGCAGCCATGACAT -CATGGTCCGTATGCCGCCTGCTGAAGGCGAAACCGGCGGTCAGGTGTTGGGCAGCCAGGTTCTGAAGGTG -ATTAACGAATCCACCAATCAGAATGCAGCAGTGAAGCGTATTGAGTTCGTCGGTCCGAGCGTGGGGGCAG -ACCTTGCGCAAACCGGTGCGATGGCGTTGATGGCAGCGCTGCTGTCTATCCTCGTGTACGTAGGTTTCCG -CTTTGAGTGGCGACTGGCGGCAGGGGTGGTTATTGCGCTGGCGCACGACGTTATCATTACGCTGGGTATT -TTGTCGTTATTCCATATCGAGATTGACCTGACCATTGTGGCATCGTTGATGTCGGTTATCGGTTACTCGC -TTAACGACAGTATCGTGGTATCGGACCGTATTCGTGAAAACTTCCGCAAGATCCGTCGCGGTACGCCTTA -CGAAATCTTTAACGTGTCCTTGACCCAGACGCTGCACCGTACCTTGATCACATCCGGTACTACCTTGATG -GTTATCCTGATGCTGTACCTCTTCGGTGGTCCGGTACTGGAAGGCTTCTCGCTGACCATGCTTATCGGTG -TTTCCATCGGTACTGCATCTTCCATCTATGTGGCATCTGCGTTGGCTCTGAAACTGGGTATGAAGCGCGA -ACACATGTTGCAGCAGAAAGTGGAAAAAGAAGGGGCGGATCAGCCGTCAATTCTGCCGTAATCAAGTTCC -CGTTGATGTTGAAAATCCCGGTCAGAAGATCGGGATTTTTTTTGATGTATGGAGATTGCGAAAATCCCCG -CATCTTGGGAAACTGCGCGTAACCCTACATTTCATCCAGGTAACTTTTCATGGCTATCATCCCAAAAAAC -TATGCGCGGTTAGAAAGCGGCTATCGCGAAAAAGCATTAAAAATCTATCCGTGGGTCTGCGGTCGCTGTT -CCCGCGAGTTTGTTTATTCCAACCTGCGTGAACTTACCGTTCACCACATTGATCACGACCATACCAATAA -CCCGGAAGATGGCAGTAACTGGGAATTGTTGTGTCTCTATTGCCACGATCATGAGCATTCGAAATATACC -GAAGCGGATCAGTATGGTACGACCGTTATCGCAGGGGAAGATGCGCAGAAAGATGTCGGTGAAGCGAAGT -ACAACCCATTCGCTGACCTGAAAGCGATGATGAACAAGAAGAAGTGATTAAAACGTAAAATTGCCTGATG -CGCTACGCTTATCAGGCCTACGTTATTTCAGCAATATATTGAATTTACGTGCTTTTGTTGGCCGGACAAA -GCGTTTACGCCGCATCCGGCATGAACAAAGCACACGTTGTTAACAATCAGAAATGCCGGGAATAAATCCC -GGCATTTTCATAATCAGAAGTTGTAACCTACTACCAGGTAACCACCCCAGCCGGTAGAGCGAACGTTGAA -GTTGCCGTTGCCGAAGTTCAGTTCTGCATCGTCGTTCCACTGACCACCGTCGTGCCAGTAACGAGCTACG -ACAGAGTAGTGCCAGTGATCGTAGTTCAGAGCCAGAATATGGCTGGAAGCGATAGAGTTATTAGTACGGG -TCTTAATACCGTTGATTGCGTTACCGCTGTCATCCCCTAAATCGGAACCCCAGTCGAAGTTGGTGAAGCC -GATGTAGCTCAGCTGACCGCCCCACAGATCGGTAATCGGCACAAAGTATTTAATTTTGAAACGGTAACCG -TCCCACTCGTTTTCGTTCGCTGCGCCATAGTTCTGCCACTGGTATTTCGCATAGACGTTCATGGACAGGC -TCATCGGCAGGCCAGTGTCGATATCGGTACCCAGACCCATGTACCAGGTGCTCTGGCGACCATCTTTATT -ACGACCCATGTCGTAAATGTAGTTGTTCGCGAAGTACCACTCTTTGAACGGACCGAAGCTAAGGTCAGTA -TTGGTCAGCTTGTCGATGGAGAAACGTGGTTCGATTTCCATAAACAGCGGAGAACCGTGGTTCCAGATAC -CTTTAGCATCGGAGTTACCGCCGAAGAATACCGGCGCATCCGCATAACCATAGAAGTCGAACCAGTCTTT -TTTAGCGAATGCTTCGTACTCAAGGTAGGTATCGTTGCGGATCTGCGGTCCGAAACGGGTGTGATAGCTT -CCGACAACGTTAACGCTCTGGTGCCACCAGTCGGAAAGATACTGCGGTTTGTCGTTTTCAGCTGCGTTGA -CAGTAAAAGACGAAGAGAGCGCCAGTACCGCACCGGCTGCCAGTAATGTTTTTTTCATATGTATGCCACT -GTTTGAAAATCCCTTGCGGGAGTGAAAAAGGCGCAAATTGCGTTTCTAAATATTTCGTATACAGAGGAGC -CTATTATAAAAATCATTGCTCACAAAAATATGTTTCGTTTCACAGTTCTATCATTTACGTAATCGATTGC -GTTCACGTTTACACACATTCGGGCGGGGATTGTACTGACTTTCGCCCTTGTTGCAAACTTTTACTATCAA -TCCAGGTGATGTAAGCAGAGTAACAAAATGACGGGGAAAGATGTTGCGGGACGCACAAAATCGTCCCGAA -ATACGTTTACTGCATAACAGGTTGAATGTCGTGGATACGTACAAAGCCTAACTGATCCACAGAAATCCCC -TTTAACTGTAACGGAATATCAACATCGCTGGGGGCGAGGACGCTGGCAGGGGCATTAATCAATTGATTCT -GCACATTGATTTCCTGAAAGTTGTCTATTGTTCCCTGAATTTGCCCATATTCAACAGTTCCGCTGAATGC -GGGCAAGGGATCATTCGACTCACCCTGAATACGTAGTGTAAGGGTGGTGCCATCTGCATCAGGCGTAATA -TTCACCAGCGACATACGTAAAGTACCGATCTGGCTTTCCAGTCTTGCCGGTGTTTTCGCTCCAGGCAGAA -GGTAAACCCCACTGCTGGATTTTGCATTCAGCCTGTTTTGCTGAGTGATTTTGACTGTTTCTTGATTGAG -TTGCGTCATCTCCTGGTTCAGCGTGCTGACGCTGTGTTTCATCTGTCGCACTTCACTTTGCTGCACACAG -GCGCTAAGGCTGAACAGGCTTCCCAGCAGGAGCAGTCGAAAAACGTTAGTATTCATAGGTCGTCCCTTTC -TCGTCGCAATTAGCCTAATGGTAGAGGGTAAAAGCAGCGAAAGCATCGATCCTTTATCTCAAAAGCGTTG -CGCCTTTGTTGTATCGTCAGTTCAGGGTAAAATAGATTTCCGTTAACCACCTGGTCAGGACGCCGTATGC -ATTGCCCATTCTGTTTCGCCGTGGACACTAAGGTAATTGACTCTCGTCTCGTGGGCGAGGGTTCATCCGT -ACGCCGCCGTCGGCAGTGTCTGGTGTGTAATGAACGTTTCACCACCTTTGAAGTGGCGGAGCTGGTTATG -CCGCGTGTTGTAAAAAGCAACGACGTGCGTGAACCGTTTAATGAAGAGAAATTGCGTAGCGGAATGCTGC -GGGCGCTGGAAAAACGTCCGGTGAGTTCCGATGACGTCGAAATGGCAATCAATCATATTAAATCGCAGCT -GCGCGCCACCGGTGAGCGCGAAGTGCCGAGCAAGATGATTGGCAATCTGGTGATGGAGCAATTGAAAAAG -CTCGATAAAGTCGCCTATATCCGTTTTGCCTCTGTCTACCGCAGTTTCGAAGATATCAAAGAATTTGGCG -AAGAGATCGCGCGCCTGGAGGACTAAGCCGTGCAGGACGAGTATTACATGGCGCGGGCGCTAAAGCTGGC -GCAACGAGGACGTTTTACCACGCATCCCAACCCGAATGTCGGGTGCGTCATTGTCAAAGATGGCGAAATT -GTCGGTGAAGGTTACCACCAACGTGCGGGTGAACCACATGCCGAAGTACACGCGTTGCGTATGGCGGGTG -AAAAAGCCAAAGGTGCGACCGCCTATGTCACACTCGAACCCTGTAGCCATCATGGTCGTACGCCACCGTG -CTGTGACGCACTCATCGCCGCTGGCGTAGCGCGCGTGGTTGCCTCGATGCAAGATCCTAACCCGCAGGTC -GCTGGGCGTGGACTTTACCGTCTGCAACAGGCTGGCATTGACGTCAGCCACGGCCTGATGATGAGTGAAG -CCGAGCAATTGAATAAAGGCTTTCTCAAGCGGATGCGCACCGGCTTTCCTTATATTCAGTTAAAACTTGG -CGCATCGCTTGATGGTCGCACGGCGATGGCGAGCGGCGAAAGCCAGTGGATCACTTCGCCCCAGGCGCGG -CGTGATGTACAACTACTGCGCGCGCAAAGTCATGCCATTTTAACCAGCAGCGCCACGGTGCTGGCGGATG -ATCCTGCCTTAACGGTGCGTTGGTCTGAACTGGATGAACAAACTCAGGCGCTCTATCCGCAACAAAATCT -CCGTCAGCCGATACGTATTGTGATTGATAGCCAAAATCGCGTGACGCCGGTACATCGCATTGTGCAGCAG -CCCGGCGAAACCTGGTTCGCGCGTACGCAGGAAGATTCTCGTGAGTGGCCGGAAACGGTGCGTACCTTGC -TGATTCCAGAGCATAAAGGTCATCTGGATCTGGTTGTACTGATGATGCAACTGGGTAAACAGCAAATTAA -CAGCATCTGGGTGGAAGCGGGGCCAACGCTCGCTGGCGCATTGCTGCAGGCGGGTTTAGTCGATGAGCTG -ATTGTCTATATCGCACCTAAACTATTAGGCAGCGACGCCCGCGGATTATGCACGCTGCCAGGGCTTGAGA -AATTAGCCGACGCCCCCCAATTTAAATTCAAAGAGATACGTCATGTAGGCCCGGATGTTTGCCTGCATTT -AGTGGGTGCATGATCTCCCGGCTCGAAAGGGAAGCAGCGCACGAAATATTATGCTAAAATCCGCCCCCCT -GCGGGGCCATACTCGAACCCGAAGGAAGAAAATGAACATTATTGAAGCTAACGTTGCTACCCCGGACGCT -CGCGTCGCCATCACCATCGCGCGTTTCAACAACTTTATCAATGACAGCCTGCTGGAAGGTGCAATTGACG -CACTGAAACGTATCGGTCAGGTAAAAGATGAAAACATTACCGTTGTTTGGGTGCCTGGTGCCTATGAGCT -GCCGCTGGCGGCGGGTGCACTGGCTAAAACCGGTAAATACGACGCGGTGATTGCGCTGGGTACGGTTATT -CGTGGTGGCACTGCCCACTTTGAATATGTCGCTGGTGGTGCAAGCAACGGCCTGGCGCATGTTGCCCAGG -ACAGCGAAATTCCGGTTGCTTTTGGGGTTCTGACCACTGAAAGCATTGAACAAGCGATCGAACGTGCTGG -CACCAAAGCTGGCAACAAAGGTGCAGAAGCTGCACTGACCGCGCTTGAAATGATTAATGTATTGAAAGCC -ATCAAGGCCTGAAATTAGTAAGGGGAAATCCGTGAAACCTGCTGCTCGTCGCCGCGCTCGTGAGTGTGCC -GTCCAGGCGCTCTACTCCTGGCAGTTGTCCCAGAACGACATCGCTGATGTTGAATACCAGTTCCTGGCTG -AACAGGATGTAAAAGACGTTGACGTCCTGTACTTCCGTGAGCTGCTGGCCGGGGTGGCGACTAATACCGC -ATACCTCGACGGACTGATGAAGCCATACCTGTCCCGCCTGCTGGAAGAACTGGGACAGGTAGAAAAAGCA -GTACTGCGCATTGCGCTGTACGAACTGTCTAAACGTAGCGATGTGCCATACAAAGTGGCCATTAACGAAG -CGATCGAACTGGCGAAATCGTTCGGCGCAGAAGACAGCCATAAGTTCGTCAACGGCGTACTCGATAAAGC -AGCACCTGTGATTCGCCCTAACAAAAAGTGATATCCAGGCCGGTAGATTCACGGAAGACCGTTCCATGAT -CGCCGGCCTTTTCTTTTTTACCTGCTGAGGCATAACGTATGGCATGTGGCGAGTTCTCCCTGATTGCCCG -TTATTTTGACCGTGTAAGAAGTTCTCGTCTTGATGTCGAACTGGGCATCGGCGACGATTGCGCACTTCTC -AATATCCCCGAGAAACAGACCCTGGCGATCAGCACTGATACGCTGGTGGCGGGTAACCATTTCCTCCCTG -ATATCGATCCTGCTGATCTGGCTTATAAAGCACTGGCGGTGAACCTAAGCGATCTGGCAGCGATGGGGGC -CGATCCGGCCTGGCTGACGCTGGCATTAACCTTACCGGACGTAGACGAAGCGTGGCTTGAGTCCTTCAGC -GACAGTTTGTTTGATCTTCTCAATTATTACGATATGCAACTCATTGGCGGCGATACCACGCGTGGGCCAT -TATCAATGACGTTGGGTATCCACGGCTTTGTTCCGATGGGACGAGCCTTAACGCGCTCTGGGGCGAAACC -GGGTGACTGGATCTATGTGACCGGTACACCGGGCGATAGCGCCGCCGGGCTGGCGATTTTGCAAAACCGT -TTGCAGGTTGCCGATGCTAAAGATGCGGACTACTTGATCAAACGTCATCTCCGTCCATCGCCGCGTATTT -TACAGGGGCAGGCACTGCGCGATCTGGCAAATTCAGCCATCGATCTCTCTGACGGTTTGATTTCCGATCT -CGGGCATATCGTGAAAGCCAGCGACTGCGGCGCACGTATTGACCTGGCATTGCTGCCGTTTTCTGATGCG -CTTTCTCGCCATGTTGAACCGGAACAGGCGCTGCGCTGGGCGCTCTCTGGCGGTGAAGATTACGAGTTGT -GTTTCACTGTGCCGGAACTGAACCGTGGCGCGCTGGATGTGGCTCTCGGACACCTGGGCGTACCGTTTAC -CTGTATCGGGCAAATGACCGCCGATATCGAAGGGCTTTGTTTTATTCGTGACGGCGAACCTGTTACATTA -GACTGGAAAGGATATGACCATTTTGCCACGCCATAAAGATGTCGCGAAAAGTCGCCTGAAGATGAGTAAT -CCGTGGCATCTACTTGCTGTCGGATTCGGAAGTGGATTAAGCCCGATCGTTCCTGGGACGATGGGCTCGC -TGGCAGCGATTCCGTTCTGGTATCTGATGACCTTTTTGCCCTGGCAGCTCTACTCGCTGGTGGTGATGCT -GGGGATCTGTATCGGCGTCTATCTTTGTCATCAAACGGCGAAAGACATGGGTGTGCACGATCATGGCAGC -ATTGTCTGGGACGAATTTATTGGTATGTGGATCACGCTCATGGCGCTGCCGACCAATGACTGGCAGTGGG -TTGCCGCCGGGTTTGTGATTTTCCGTATTCTGGATATGTGGAAGCCGTGGCCGATCCGCTGGTTTGATCG -CAATGTGCATGGCGGCATGGGGATCATGATCGACGATATTGTCGCCGGGGTGATTTCCGCAGGCATCCTG -TATTTTATCGGTCATCACTGGCCGCTGGGTATTCTGTCGTAGTTGTGCACCGATGCCTGATGTGACGCTT -GTCACGTCTCATCAGGCCTGGACTCTTATTTAAATCCTACGACAGGATGCGGTTTATACGGCGTTTCCAG -TTCGGCAATCTGTTCCGGCTTCAAAGTGATATCCACCGCGTTCAATAGCTCATCAAGCTGTTCTTCGCGC -GAAGTTCCGATAATCGGTGCGGCAATGCCCGGTTTACTCAACAACCAGGCCAGCGCAACTTGTGCTCGTG -TCGCCCCCAGTTCTTCACTGACGCCTGTTAACCGCTCTGCGATCTGCGCGTCATTTTCATCGCTTTCTTT -ATAGAGATTTTTCCCCACCTCATCAGACACCAGTCGTGCGGTAGTTTCTCCCCACGGACGCGTCAGACGG -CCCCTTGCCAGCGGGCTCCATGGAATTACCGCCACGCCCTCCTGATAACACAGTGGTAGCATCTCGCGCT -CTTCTTCACGATAAATCAGATTGTAGTGATCCTGCATACTGACAAACTGCGCCCAGCCGTGCTGTTTTTG -GAGTTCCAGTGCCTGAGCAAACTGCGAAGCGTGCATTGATGACGCGCCGATATAACGCGCTTTCCCGGCT -TTTACCACGTCGTTGAGGGCTTCCAGCGTCTCTTCGATCGGCGTGTTGTAATCCCAGCGATGAATTTGCA -GGATATCGACATAATCCATGCCGAGACGTCGCAGGCTGTCGTCGATAGAGCGCAAAATTTGCGCACGGGA -TAATCCTTCCGGTAAATCACCAACGCGATGGAACACTTTGGTCGCAACGACCACGTCTTCACGACGGGCG -AAATCCCGCAGTGCGCGACCGACGATCTCTTCGCTGCTGCCGTCAGAATAACTGTTGGCGGTATCAAAGA -AATTTATGCCGCCTTCCAGTGCACGTTTAATTATGGGACGGCTGCTTTCTTCCGGCAGTGTCCATGCGTG -ATTACCGCGATCTGGCTCGCCAAAGGTCATACAGCCGAGGCAAAGTCGGGAAACGCGAAGGTCGGTTTTT -CCTAAGGGGTTGTATTGCATGCTGCCACTCCTGCTATACTCGTCATACTTCAAGTTGCATGTGCTGCGGC -TGCATTCGTTCACCCCAGTCACTTACTTATGTAAGCTCCTGGGGCTTCACTCGTTTGCCGCCTTCCTGCA -ACTCGAATTATTTAGAGTCTATGAATAATTTCTTAAGCATAGCAGGAGTGGAGTAGGGATTATGCCAGCC -AGGCCTTGATTTTGGCTTCCATACCAGCGGCATCGAGGCCGAGTTCGGCGCGCATTTCTTCCTGAGTTCC -TTGCGGAATAAAGAAGTCCGGCAGGCCAATGTTCAGCACGGGTACTGGTTTACGATGGGCCATCAGCACT -TCGTTCACGCCGCTGCCTGCGCCGCCCATAATGGCGTTTTCTTCTACGGTGACCAGCGCTTCATGGCTGG -CGGCCATTTCCAGAATTAACGCTTCATCAAGCGGTTTCACAAAACGCATATCGACCAGCGTGGCGTTCAG -CGATTCGGCGACTTTCGCCGCTTCTGGCATCAGCGTACCAAAGTTAAGGATCGCCAGTTTCTCGCCACGA -CGCTTCACAATGCCTTTGCCAATTGGTAGTTTTTCCAGCGGCGTCAGTTCCACGCCGACCGCGTTGCCAC -GCGGGTAGCGCACCGCTGACGGGCCATCGTTATAGTGATAGCCGGTATAGAGCATCTGGCGACATTCGTT -TTCATCGCTCGGGGTCATAATGACCATTTCCGGTATGCAGCGCAGGTAAGAGAGATCAAAAGCACCCTGA -TGGGTTTGACCGTCAGCACCAACAATGCCCGCGCGGTCGATGGCGAACAGGACCGGAAGCTTTTGAATCG -CCACGTCATGCAGCACCTGATCATAGGCGCGTTGCAGGAAAGTGGAGTAAATCGCGACAATGGGTTTGTA -CCCACCAATCGCCAGACCCGCAGCAAAGGTCACCGCGTGTTGCTCGGCAATTGCCACGTCGAAGTAGCGA -TCCGGGAATTTACGTGAAAACTCGACCATGCCGGAACCTTCACGCATCGCCGGAGTAATCGCCATCAGCT -TGTTGTCTTTCGCTGCCGTTTCGCACAACCAGTCGCCAAAGATTTTTGAATAGCTCGGCAAACCGCCGCT -ACTTTTCGGCAAACAACCGCTGGAGGGATCAAATTTAGGCACGGCGTGGAAAGTGATCGGGTCTTTTTCT -GCCGGTTCATAACCACGACCTTTTTTGGTCATGATATGCAGGAACTGCGGGCCTTTCAGGTCGCGCATGT -TCTTTAGCGTGGTGATAAGCCCCAGCACATCGTGACCGTCCACCGGGCCGATGTAGTTAAAGCCCAGCTC -TTCAAACAACGTGCCAGGCACTACCATGCCTTTAATATGTTCTTCGGTGCGTTTGAGCAGCTCTTTAATT -GGCGGCACGCCAGAGAAAACTTTTTTCCCGCCTTCGCGCAGTGAAGAGTAAAGCTTACCGGAAAGCAGCT -GTGCCAGATGGTTGTTGAGCGCGCCGACATTTTCGGAAATCGACATTTCATTGTCGTTGAGAATCACCAG -CATATCAGGACGGATATCGCCCGCGTGATTCATCGCTTCAAACGCCATGCCTGCGGTAATCGCGCCATCG -CCAATGACACAGACGGTGCGGCGATTTTTGCCTTCTTTTTCGGCAGCAACCGCAATACCAATTCCGGCAC -TGATGGAGGTTGATGAATGCCCGACGCTTAATACGTCATATTCGCTTTCGCCGCGCCACGGGAACGGGTG -CAGACCGCCTTTCTGACGGATGGTGCCGATTTTGTCGCGGCGTCCGGTCAAAATTTTATGCGGATAAGCC -TGATGCCCCACATCCCAAATCAATTGGTCAAACGGGGTGTTGTAGACATAGTGCAGCGCCACGGTCAGTT -CGACCGTGCCCAGCCCGGAGGCGAAGTGCCCGCTGGAACGGCTCACGCTGTCGAGTAAATAGCGGCGCAG -TTCGTCGCAGAGTTTCGGTAAACTCTCTTTCGGCAACAGTCGTAACTCCTGGGTGGAGTCGACCAGTGCC -AGGGTCGGGTATTTGGCAATATCAAAACTCATCAGGGGCCTATTAATACTTATTGTTTATTTATTACGCT -GGATGATGTAGTCCGCTAGCGCTTCCAGTGCCGAGGTATCGAGTGACTGTTCAGCCAGTTGTTTCAGCGA -CTGACGGGCATCGTCGATCAGATCCCGGGCTTTCTTCCGGGCTTGCTCAAGACCCAGAAGTGCAGGGTAG -GTACTTTTACCAAGTTGCTGGTCGGCACCCTGGCGTTTTCCCAACGTTGCAGTATCTCCCACCACATCCA -GGATGTCATCCTGAACCTGGAAGGCAAGGCCGATGCTCTCTGCATACTTGTCGAGTACCGGCAGAGCACG -ACGTCCTTTATCTCCGGCGCTTAATGCACCAAGGCGAACGGCGGCGCGAATCAATGCGCCGGTTTTATGA -CGATGAATACGCTCAAGCGCGTCCAGAGGTACGTGTTTGCCTTCCGCGTCTAAATCTAATGCCTGACCAC -CGCACATTCCGGCAATACCACTGGCGCTCGCCAGTTCAGAAATCATCGAAATTCTGTCGCGGTCCGACAC -TTCCGGCATATCGGCATCGCTTAAAATCGAGAACGCCAGCGTTTGTAAAGCGTCGCCAGCGAGAATCGCG -TTTGCTTCGCCAAACTTCACATGGCAGGTTGGCAAACCGCGACGCAGATCGTCATCATCCATTGCCGGTA -AATCATCATGAATTAATGAGTAAGCGTGGATACACTCAACGGCGGCAGCGGGTGCGTCCAGCGTGTTTGT -GCTAACGCCGAACATATGACCGGTGGCATAAACCAGGAAAGGTCGCAGGCGCTTACCACCTAATAATGCG -CCATACTGCATGGTTTCGACCACGGGAGTGTTCTGAAAGGGCAGTGGGGCGATAAAACGGCTCAGCGCCT -GGTTGGCCTGCTTAACGCAGGCTTCGAGTTGCTGCGGAAAGTCCATTACTCATTGTCCGGTGTAAAAGGG -GTTAGAGAGGCGTCTTCATTGTCAGACAGCAGAATTTGTACGCGCTGTTCGGCTTGTTGTAATTTGGCCT -GCCCCTGACGTGCCAGCTGCACGCCGCGTTCGAACTCGTTCAGCGCCTCTTCCAGCGGCAGGTCGCCACT -TTCCAGACGGGTTACAATCTGTTCCAGCTCGCTCAGCGCCTTTTCAAAGCTGGCGGGCGCCTCATTTTTC -TTCGGCATAATGAATGTCTGACTCTCAATATTTTTCGCCCCGTCATGGTAACGGACTCAGGGCAAATAGC -AAATAACGCGCAATGGTAAGGTGATGTGCACAGCAAAGCGATGTTAGTGGTATACTTCCGCGCCTGGATG -CAGCCGCAGGTGTGGGCTGCTGTATTTTTCCCTATACAAGTCGCTTAAGGCTTGCCAACGAACCATTGCC -GCCATGAAGTTTATCATTAAATTGTTCCCGGAAATCACCATCAAAAGCCAATCTGTGCGCTTGCGCTTTA -TAAAAATCCTTACCGGGAACATTCGTAACGTTTTAAAGCACTATGATGAGACGCTCGCTGTCGTCCGCCA -CTGGGATAACATCGAAGTTCGCGCAAAAGATGAAAACCAGCGTCTGGCTATTCGCGACGCTCTGACCCGT -ATTCCGGGTATCCACCATATTCTCGAAGTCGAAGACGTGCCGTTTACCGACATGCACGATATTTTCGAGA -AAGCGTTGGTTCAGTATCGCGATCAGCTGGAAGGCAAAACCTTCTGCGTACGCGTGAAGCGCCGTGGCAA -ACATGATTTTAGCTCGATTGATGTGGAACGTTACGTCGGCGGCGGTTTAAATCAGCATATTGAATCCGCG -CGCGTGAAGCTGACCAATCCGGATGTGACTGTCCATCTGGAAGTGGAAGACGATCGTCTCCTGCTGATTA -AAGGCCGCTACGAAGGTATTGGCGGTTTCCCGATCGGCACCCAGGAAGATGTGCTGTCGCTCATTTCCGG -TGGTTTCGACTCCGGTGTTTCCAGTTATATGTTGATGCGTCGCGGCTGCCGCGTGCATTACTGCTTCTTT -AACCTCGGCGGCGCGGCGCATGAAATTGGCGTGCGTCAGGTGGCGCATTATCTGTGGAACCGCTTTGGCA -GCTCCCACCGCGTGCGTTTTGTCGCTATTAATTTCGAACCGGTCGTCGGGGAAATTCTCGAGAAAATCGA -CGACGGTCAGATGGGCGTTATCCTCAAACGTATGATGGTGCGTGCCGCATCTAAAGTGGCTGAACGTTAC -GGCGTACAGGCGCTGGTCACCGGCGAAGCGCTCGGCCAGGTGTCCAGCCAGACGCTGACCAACCTGCGCC -TGATTGATAACGTCTCCGACACGCTGATCCTGCGTCCGCTGATCTCTTACGACAAAGAGCACATCATCAA -CCTGGCCCGCCAGATTGGCACCGAAGACTTTGCTCGCACGATGCCGGAATATTGTGGTGTGATCTCCAAA -AGCCCGACGGTGAAAGCAGTTAAATCGAAGATTGAAGCGGAAGAAGAGAAGTTCGACTTCAGCATTCTCG -ATAAAGTGGTTGAGGAAGCGAATAACGTTGATATCCGCGAAATCGCCCAGCAGACCGAGCAGGAAGTGGT -GGAAGTGGAAACCGTCAATGGCTTCGGCCCGAACGACGTGATCCTCGATATCCGTTCTATCGATGAACAG -GAAGATAAGCCACTGAAAGTCGAAGGGATTGATGTGGTTTCTCTGCCGTTCTATAAACTGAGCACCAAAT -TTGGCGATCTCGACCAGAACAAAACCTGGCTGCTGTGGTGTGAGCGCGGGGTGATGAGCCGTCTGCAGGC -GCTCTATCTGCGCGAGCAGGGCTTTAACAATGTGAAGGTATATCGCCCGTAATTTGTGGTTTTTACGTCG -CATCTGGTCAGATGCGACGTTTGCCGCATCCGACACTACTCGTAATAATTATAAATCCCTGCCGCCATCA -CCAGTTGTGATGCCACTTCATGGGCTTTTTCACGCCCAACCAACAGGTCGATAATTTTCAGACCAAAGTC -GATAGCTGTACCCGGCCCCTGGCTGGTCAGCAATTTTACCCGTGCATCCCAGACGACGCGCTTGTCCAGC -CATTGTTCGGCGGGAATTTTGTCTTTCAGCGTCGGGAAGCCGGTCATATTACCAATCGGGAAGATATCGT -GCGGCACCAGCACGGTGGCTGGCGCGGCGCAAATAGCCGCGACGATACGCCCGGAACGGTGGAACTGTTT -AACGGTTTCAACCAGCAGAGTGCTATCGCGAAAACACTCCGCGCCTTTAATGCCACCAGGCAGCACGATC -ACGTCATATTCGCCATCAGCCACTTCGACCAGCGGCGCATCCGCCAGCAGCTTCACGCCGCGCGAGCAGG -TAATCGCCAGGTTACCATCGCTGGCGACGCTGGCAGTGGTGACTTTGATACCGCCGCGAACCAGCAGATC -GATAGTGGTGACGGCTTCAGTCTCTTCACTACCAGGGGCGAGGCAAACCAGTGCCGATGCGCTCATATTC -ACTCTCCTTTCTTTTTACCATTTCAAACAGGCGGGTGTTTTCCGGTACGGCAATCCCATGCGCGCGGGCG -CGGCGTAAGAGAAAACCATTGATATAGTCGATTTCAGTGTGGCGCAGCGCGCGGATATCCTGCAACATCG -ACGAGATATTTTCCGCTGTGGCATCAATCACCTGCATCACGTAATCACGCAAATCTTCTGCTGAAGTATG -ATGCCCTTCGCGTTCGATCACCGCCGCGACTTCTTCGCATATCTGCATAATTTCTTGCGGATGATGACGT -AATTCACCGTTCGGGCAATTCCAGATGGCAGTCAGTGGATTAATCACGCAGTTGACTGCCAGCTTGCGCC -ACAGCTCGGCGCGAATATTGTTATGCCAGGCAACGTCAGGCAACACGGTTTGCAAAATATCCGCCAGATA -ACTGTAATCCCCGTCCTGTTGCCGTGCCGGGCCAATATGCGTGATACCGTTTGCCACATGAATAATGACA -TTGCCGTCGCGGCGGGCTGCATGGGTGGTGGTGCCCATCAGTAATGGCTGCTGAATGTTTTGCAACTCTT -CGATGGTGCCCATGCCGTTGTGAATTAACAGTATTGGCGTAGTTACAGGCAGTGTGGACGCGAGGCTTTT -GACGGCATCGGAAACCTGCCATGCTTTCAGCGTCACCAGGAGCAGATCGCTGGTGGCGAGAAAATCGGGA -TCGTTGGCGGTCAGCGATTCGTTAAATATCGAACCATCTGTCTCAACCAGATTCACGCTACAATAAGGTT -GCGGTACGCGCAGCCAGCCCTGAACTTCATGACCCTGTTTGCAAAGTGCTGTAAGCCATAATTGCCCTAA -GGCACCGCATCCCAATACGGTAATTTTCATTGTTCCTCCTCACCCGCAACCACTCCGGGTGTTCAATAAG -GCTATCCCTTAATTGTGCATGCTGTTGCGACTATGCACAATTAAGGGATACGTCCTGGTGCAGGACTGTC -GGTTATTTAACTTTGCGGGTATTATGCTTCGCATCAAAAATGAAGGGAGAGGAAAAGATGCCATCTTTCG -ATATTGTCTCTGAAGTTGATCTTCAGGAAGCACGTAACGCGGTCGATAACGCGAGCCGCGAAGTGGAGTC -CCGTTTTGACTTCCGTAACGTTGAAGCCTCATTTGAGCTGAACGACGCCAGCAAAACCATCAAAGTGTTG -AGCGAGTCCGATTTCCAGGTCAATCAGTTGCTGGATATTCTGCGTGCCAAGCTGCTGAAGCGCGGCATTG -AAGGCAGTTCGCTGGATGTACCGGAGAATATCGTTCATAGCGGTAAAACCTGGTTTGTGGAAGCGAAACT -GAAACAGGGCATTGAGAGCGCGACCCAGAAGAAAATCGTCAAGATGATCAAAGACAGCAAACTGAAAGTG -CAGGCGCAAATTCAGGGCGATGAAATCCGCGTAACGGGCAAATCTCGTGATGATTTGCAGGCTGTCATGG -CGATGGTACGTGGTGGCGATCTCGGTCAGCCGTTCCAGTTCAAAAACTTCCGCGATTAATCGCGACTATG -TGCGTTTTGTTCATGTCAGATGCGGCATGAACGCCTGATTCGGCCTACAAAGGTTTGTAATTCAGAAACT -TTGTAGGCCTGATAAGCGTAGCGCAGCAGGCAATTCGCCGCGTTTTTTATGCCTGACGAATTGCCTGTTC -TATCTCAAAGCGATTCGTCACTTTGCTGTCGATTTTCACATAAGCTGAATGTTCTTCTTCTGCAATCAAC -ACTTCTTTGATGCCTTCAGTTTCTAGCAAACGCACTTTTAACGCCTCGTTTGCGGCAATGTTCGCCGGGA -TTTCAATGCGCAAACTGCTGACATACGGCGGTTCTTTCATGGTACTGGCGACTGTCAGCCACACTGCGGC -CAGCATTGCGCCAGCGAGAAATACCCCCTGACCGTCAAACATGCCGTTAATCCAGCCGCCCAGCGAACCG -CCAATCGCCACGCCAAGAAACTGGCTGGTGGAGTAAACACCCATCGCCGTACCTTTGTAACCTGCTGGCG -ACTCTTTACTGATAAGTGAGGGCAGGAGGGCTTCCATCAAATTAAACGCCACAAAGAAAAGCTGCACGCC -GACCACCAGTTGCCAGAACTGCGTTTGCGCGTTCCACAACACAATTTCCGCAACCACGATCAACCCGACG -CAGAAGACAAAGACTTGCTTCATTTTGCGCTTAACTTCAGCGTAGATAATGAAAGGCACGACCGAGCCAA -AGGCGATTAGCATTGTCGCCAGATAGACCTTCCAGTGTTCAGCCGCCGGGAACCCTGCATCAGCCAGTTG -TCCGGGCAGGGCAACAAACGTCGACATCAGCAAAATATGCAGACACATAATGCCAAAGTTGAGTTTCAGC -AGCCGCGGTTCCGCCAGCACTTTACTGAAACTGCCTTTCACCATTCCGGACTCACGATTAAGTACGTGAG -TGCTACTGTTGGGCACAACCCAAATGGTCAACGCAATGCCGGTCGTTGCCAGAATAGCGATCATCCAGAA -CAGCGCGTGCAGCCCAAGTTTGTGAGTGATGATCGGGCCAAGCACCATCGCAATGGCAAAGGTAATGCCA -AAGCTCACGCCGATAAACGCCATCGCTTTGGTGCGGTTTTGTTCGCGCGTGAGATCGGAAAGCAGCGCCA -TAACGGCGGCGGCAATTGCTCCAGAGCCTTGTAGCGCCCGGCCCAGAATAATTCCCCAGATGGAGTCGGA -AAGCGCAGCGATAACGCTACCGGCGGCAAACACCGCCAGCCCACCGACAATTAATGGTTTGCGACCAATG -CGGTCGGAAAGCAGGCCAAACGGAATCTGAAAAACGGCCTGAGTCAGACCATAAATACCAATGGCAATAC -CGATTAATGCTTCGCTGGCACCTTGCAGAGCCATGCCGTACGTGGTCAGAACCGGCAGAACCATAAACAT -GCCCAGCATGCGCAACGAGAATACGGTCCCTAAACCCCAGGTCGCGCGCCTCTCACCTGGCGTCATTTTA -TAATCGTTCATTACCACCTCTGTTTTAAATTCGCGACTAGTGTAAAGCGGCAAACGAATGGGGTAAACAT -GCGGATTTTTTAGTAAATATTTCGAGAGGGATATGTTTCTAATGCTAAGAAAAAAGGTGCCGTAGCACCT -TTTTAATAGAGAGGTTTTGTTACCACACAGCAGCCAGCAGCGTATGCGAGTCCGGTACCATAAAATCAAC -GGACATCATCACCGAGAGGGCAGTGATGGCGATGATAGAGAAGCCGAACAGCTTGCGCGCCCAGATTCTG -TCATCAGCAACTTTATAACCGCGCAGAGCCATACCTAACCACCAGACGCTAACCGCCGCGGCGACCACCA -GATATTTATACCCAGCGTAACCGCCAAGAGAGAGCATCAGCGTGGCAACGGCAAAGGCGATGATATACAG -CGTGATGTGATTCTTCGCCACCGAAATGCCTTTTACCACTGGCAATACCGGAATGTTTGCCGCCTGGTAA -TCCTTAAAGCGGAAAATGGCGATGGCATAGGAGTGAGGCATCTGCCACAGGCTGAAGATAGCCAGCAGGA -TCGCTGCGCCGCTATCGAACTCACCGGTTACCGCACAGTAGCCGATCACCGGCGGCGCAGCGCCGGAGAG -CGAACCAATCAACGTGCCGTAGACAGAGTGGCGTTTCATGTACAGGCTATAAACGCCGACATAAACCACA -AAGCCCATCACCCCCAGCCAGCAGGCCAGCGGATTCGCGCCAAACCACAGCAGCATAAAGCCAGCAATAC -CCAGCAACGTGGCGTACACCAGCGAGACAGCAGGAGAGATCAGGCCTTTCACCAGCACCCGATTCTTCGT -CCTTTCCATCTTTCTGTCGATATCCCTGTCGATGTAGTTGTTAAACACACAACCCGACGCCACAACCAGT -GACACCCCAACCAGCGTGTAGATAAACAGGGGATAATCAATGCTGCCCTTTGAGGCCAGCAGGAATCCCC -CAATCACCGAGATCAGGTTGCCAAAGATGATGCCTGGTTTCGTTACTTGCAGGTATTGCTTAAACATCAT -AACCGCCGCTCTTAGTGCATCATCATGTTGTAGTTGAGGTTCCACATAATCCAGATGGAGCCTACAACCA -GGATAGCGATGATTAGCACGGTGAAGACAAACGCCGTCATGTTCCAGCCTTCATCTGATTTGGTATTCAT -GTGCAGGAAGCACACCAGATGCACCAGAACCTGTACCACTGCCATTGCCAGGATTGTTCCCAGAATTACG -GCCGGAGAGGCAGCTCCTGTCATCACCATCCAGAACGGAATCACCGTCAGAATGATCGACAGGATAAAGC -CTGTCATGTAGGTTTTTACGCTGCCATGGGACGCGCCGCTGTGATCGGTAGAATGACTCATTACATCGCC -CCCATCAGATAAACAACAGTGAACACACAGATCCAAACCACATCCAGGAAGTGCCAGAACAGGCTCAGGC -ACATGATGCGGGTACGGTTAGTGCTGGTCAGGCCGCGACGGGCGATTTGCACCATCAGCACCGCCATCCA -GATAAGACCAGAAGTGACGTGCAGACCGTGCGTGCCGACCAGCGCAAAGAACGCTGACAGGAAGCCGCTG -CGATCCGGACCCATGCCGTTAACAATCAGGTGATGGAATTCATAGATTTCCATCCCGATAAATCCGGCAC -CAAACAACCAGGTCAACGCCAGCCAGGAGATAACCTGGCTTTTGTTGTTTTTGTACATGGCGATAGCCGC -CATGCCGTAGGTGATGGAGCTGAACAACAGCAAGAAAGTTTCAACCAGAACGAACGGCAGTTCGAAAATG -TCCTTACCTGTCGGGCCGCCTGCGGTGCCGTTCACCAGAACGGCATAGGTAGCAAACAAGATAGAGAACA -GAATGCAGTCGCTCATCAGGTAGATCCAAAATCCGAAGATTTTGGTTCCGCCTGCATCGTGGTGCCCGTG -TTCGTGCGCGTGGGCAGTCGCGTGCGTCAAAGTATCAGTTGCCATTTTTCAGCCCTGCCTTAGTAATCTC -ATCGAAATGCTGGTTTTCCAGTTTTTCGATTTCTGCCACCGGCACGTAGTAATCCACGTCCTCGTCGAAG -CTTTTCACGATCCAGGTGATGATCATGCCTGCGAAGCCAACAATCGCCAGCCACCAGATATGCCAGATCA -TGGCGAAACCGAAGATGGTGGAGAAAGCTGCAATGACGATACCTGCACCGCTGTTTTTCGGCATATGAAT -TTCTTCATAGTGGTCAGGCTTTTTATACGCTTCGCCTTTCTCTTTCATTTCCCAGAATGCATCACGTTCG -TGAACGTGCGGCACTACGGCAAAGTTATAGAACGGAGGCGGGGAAGAGGTTGCCCACTCCAGCGTACGGC -CACCCCACGGGTCGCCAGTCAGGTCACGGTTCTGGTCGCGGTCGCGAATAGAAACGTACATCTGAATAAC -GAGGCAGAGAATACCCAGCGCAATCAGTACTGCACCGCTGGCTGCAATCATCAGCATGGTGTGGAACTGC -GGGTCAATCTGCTGGCTCAAACGACGGGTCATGCCCATGAAGCCCAGCGCATACAGTGGCATAAAGGCAA -CGAAGAAGCCGATGATCCAGAACCAGAACGCGCGTTTACCCCAGGTTTCGTTCAGTTTGAAACCGAACGC -TTTAGGCCACCAGTAGGTCATCCCTGCGAAGCAGCCGAAGACCACGCCGCCGATGATCACGTTATGGAAG -TGCGCAATCAGGAACAGGCTGTTATGCAGAACGAAGTCCGCGCCCGGTACGGCCAGCAGCACGCCAGTCA -TCCCGCCCACCGAGAAGGTGACGATAAAACCGATGGTCCACAGCATCGCAGAATGGAACACGATGCGGCC -CTGATACATGGTGAACAGCCAGTTGAAGATCTTCACCCCGGTCGGGATGGCGATAATCATTGTGGTGATA -CCAAAGAAGGCGTTTACGTTCGCGCCCGCACCCATCGTAAAGAAGTGGTGCAGCCAAACGATGAACGACA -GCACGGTGATACAGACGGTTGCCCATACCAGCGAGGTATAACCAAACAGACGTTTACGCGAGAAGGTTGC -CGCAATTTCGGAGAACACACCGAAAACAGGCAGGATCAGGATGTAAACTTCCGGGTGGCCCCAGGCCCAA -ATCAGGTTGATGTACATCATCATGTTGCCACCCATATCGTTGGTAAAGAAATGGGTGCCCAGATAGCGAT -CCAGGGTCAACAACGCGACGGTAACCGTCAGAATTGGGAAGGAAGCAATAATCAGTACGTTCGCGCACAG -TGATGCCCAGGTAAATACTGGCATCTTGAACATGGTCATGCCCGGTGCGCGCATCTTCAGAATGGTAACG -AAGAAGTTGATACCGGTAAGCGTCGTACCTATACCGGATAGCTGGAGACTCCATATCCAGTAATCGACAC -CGACTCCCGGACTGTACTCTATTCCCGATAGCGGTGGATAGGCCAGCCAGCCGGTCTGCGCAAATTCGCC -CACGCCGAGAGAAACGTTAACCAGAATCACACCAACAACGGTAAACCAGAAGCTTAAGTTGTTGAGGAAC -GGGAACGCAACGTCACGCGCGCCGATCTGCAGCGGAACCACCAGGTTCATCAGACCGATAACGAAAGGCA -TCGCCACGAAGAAGATCATAATCACGCCGTGCGCGGTAAAGATCTGATCGTAGTGGTGAGGTGGCAGGAA -GCCCGCTTCGCCCGCCGAGGCAAGAGCCTGCTGGCTACGCATCATAATGGCGTCAGCAAAACCACGCAGC -AACATCACAATCGCCACGATGATATACATGATACCGAGGCGTTTATGGTCGACGGAGGTCAGCCACTCTT -TCCACAGGTAGGTCCACTTACCGAAGTAAGTGATCAGGCCAACGAGCGCCAGACCTCCCAAAATAATGCC -AGCGATCGTAACCATGACGATAGGTTCATGGAACGGGACTGCATCAAGTGATAATTTTCCGAACATCTTT -ATTCTTCCTCAACCCCTTTAATGGGCGGATTCCGCGTGGCTCATGTCCATGCCTTCCATACCTTCGTGTG -CGCTGTGCTCACCTTCTGGCTGGGTCATGTCCATGCTCTTACCGTGAGCCATAAACTTGTTAATTACATC -GGCAAACAAGTCTGGTTTCACGTTGGAGAAATATTCCACCTGGTTGTATTCGCTAGGCGCGGCCAGTTTT -TCGAACGCAGCCATGTCAGACATGGTGTTCGGCGACTGCTTCGCTTTTGCGACCCACTGGTCGAATGCGG -CGCGATCCGGTGTTGCAATAGCTTTGAACTTCATGCCTGAGAAGCCCGGGCCGCTGTAGCTGGCGGAGAT -ACCGTCATAAGTGCCGGGTTCGTTGGCGATCAGATGCAGGCGAGTCTGCATACCGGCCATGGCATAAATC -TGGCTACCCAGACGCGGAATGAAGAAGGAGTTCATCACGGAGTTGGAGGTCACTTTGAAGTACACCGGAG -TGTTCGCCGGGAAAGCGATTTCATTCACGGTAGCAATGCCCTGTTCCGGGTAGATGAAGAACCATTTCCA -GTCCATGGAAACCACTTCGATGGTAATGGGCTTCTCGTCGTGTGCCAGCGGCTTGCTAGGCTCAAGAGCG -TGAGTGGTTTTCCAGGTCAGTACTGCAAGGAAGATGATGATTAAGATAGGTACCGTCCAGACCACAGCTT -CCACTTTATTGGAGTGTGACCAGTTCGGGCTGTACTTAGCATCTTTATTGCTCGCACGGTACTTCCAGGC -GAAACCAACAGCCATCAAGATTGCGGGAATAACGACAATCAACATCAGGCCAAATGCCGTCAGTATCAGT -GAACGTTGCTCCAGACCAATCTGTCCTTTGGGATCTAACAGCGCAGAATTACAGCCACTGAGCAATACAG -TGCCTGCAAATAATGACAACCATCCCAAACTTTTATTGTATTTCCTGAGTCTCATTTAACGACCTCAATT -CCACGGGATCTGGTGGCGTTTAAAGTGTGTGGGCATTTTACGGGAAGGTTACATTACTGTAAACATGATT -AAATTCCTGTTACTTGGATTTGGCTGCCAGGTCACATATGTTGCAAAACATATCAGGTTGATTTTAAGAA -GCTGTTGCAAAAGGGCGTTATAACAAAAGGGGAGTGCTGAAGGAGTCTGGGCGGGCAATTGGTATAACCA -ATGTGAAATAAAACAATTATTTAACAAATAATTATCATTAGAGTGACAACTGGGTGATGAGAAAATAAAG -ACTCATTAGCTGAATCGTGTAAGAAAAATAGAATTTATAAATGGCGCCAATAATTTCCAAACGCTAAGCC -GCACAAAAGAACAAATATTAATAAGCGATACTGATGTTTATTTAGCCGTAATAATTACGGCGAGTGATTA -CTACAGCTAAATAATATTTACAGATTACGTCAGATGCGTTTTTCGTAGCGCCAGATAATCCAGCAAACCA -CCAAGCACGACGCCAGAAAGGGCGACTAAAACCCCGACTTCCAGCAGAGCAGGCAGGAAAGAGAAGTGCG -TCAAATCCAGCGCGTCCATCGTCAATAGCAGTAACCACACGGCCAACAGGCTGACGCCCGCCGCCAGTGT -CCACATGGCAAAGGCATAACCTGCCGGATATGCGGTACGGGAGATAAAGTTGTCATTTACTCGTGTATAT -TCAAGCGTCTGGCGGCAAACCAGCAGCAAAATAAGCCCTGGTACGGCAGCGGCGACGGAGAATAGATAGA -ATGTCGACCAGCCGTGTGCTTCAACAAACCAACCCGCCACGGGGCCGACATAAACTCGCCCTACAGCAGA -AAGCGCTGAGAGCAGGGCAAATTGAGTAGCGGAAAATGACTTATTACATAGCGTCATTAACAGCGCGACA -AAGGCTGATGTGCCCATCCCGCCACAGAGGTTTTCGAAAAAGACGGCTGCGCCCATGCTGTAGAGATGCT -TATCAGTAATCGACAGCAGCCAGTAACCGGCGTTAGACGCACCTTGTAAAATGCCGAAAATCAGCAGTGC -CCGGAACAGTGACAGGCGCTGCATCAAAATCCCACCGTACAATGCGCCAACAATGGTCGCTAGTAAGCCA -AGCGTTTTGTTAACCACGCCTACTTCACCCGCATCAAACCCGACGCCGCGAATCAAAAACGTGGTTGTCA -GGCTCATGGCGAATGCGTCGCCCAGCTTATACAGCACGATAAGAAGCAAAATAAGCCAGGCATTATTGCG -ACCAAAGAAATCTCGCAGAGGTGCAACAACCGCTTGTTCCAGCGTTTTGGGCACAGGAATGGTGTCGGTT -GGTTCTGGTGCAAGCAACGTCGCGATAATACAGGGGATCAACAGTGCCGCCATTAACCAGTACATGCCCT -GCCAGCCCAGCCATTTATCTGCCAGCCACAGGGCTAGGCCGCCGGAAACCAGCATCCCTAAACGGTAACC -CAGCACGCTGATTGCCGCGCCCGCACCACGTTCTTCTGCCGGAAGCACATCGGTTTTCCACGCATCGAAG -ACTATATCCTGGGAAGCAGAGCAAAAAGCGATCACCACTGCCAGCGCCGCCATCCAGCGGAGTTGGGTGC -CTGGTTCGAGAAAACCCATCGCCGCAATGGCGACTAATAACAGGATTTGCGTGGCGAGCAGCCAACCGCG -CCGCCGCCCAAAAAATGGAGGCGTGTAGCGGTCCATCAGCGGTGACCAGAGGAATTTAAAAACGTAAGCC -TGGCCTACCAGAGAGAAGAAACCAATGGTTTTGAGATCGATATTCTCGACCGTCATCCAGGCCTGTAAGG -TACCGGATGTCAGGGCGAGCGGTAGCCCGGAAGCAAAACCCAGGATCAGCAATATGGCTGAACGCGGCTG -TTGAAAAATACGTAAATATTGACTGGACATGGGCGTCTACAGGCCCGGCTTGCACCGGGCCAGAGGGCAG -AAATTAACGCGCGTTCTGCTTGATGAATTCGTGGATGCTGGTGTCCTGAGACATATCAGCGATGGTATCG -GTCAGCACACTGTTAACCGCATCGGCGATATTTTTGTTGGAGGCCTGGAACGCACCTTCAACGTTGTAGC -TGGCACGATAGTTTTTGGTCATTTTGTTGCCATTCTGCGCGGTAGCGATGATGGCGATATCCGCTTTGGT -CGCGATGTTGTAGCGCACGTTGCCCTGGGACACGTCAGCATACAGTTGGCTAACGATGATTTGCAGATTA -ACCGGGCCATTCGGACCAACCATGTAACCACGCGCGGTCATCTGTTTTTCCAGCACTTCTTGCAGCAGGA -AACGCAGATCGCGGGAGGCGGTCAGGGTAACGATTTGATTATCGCGGGTGACTTTTGCCAGCGCCTGATC -GGTACGCTGATCGGCACCATTAATGCTTACGGTGACGCCCATCAGGCTTGGATCCTGCTGTGGCAGTGTA -ATCGTCGGGGAAACTTCAATAGTTGTTGGCGGTTTTGCGCATCCTGCAAGCATAAACAGAGCAACTAACG -GGAAGAGGATTTTTTTGAACATGTTCGGGCTCTCAGAGACTCTTAAGCGTGTTTGGTAAAAATTCCCGCC -ATCATAACATTGCCAACGGCGAGGGGAAGTGGGTAAGGCATGTAAATTCATCATGTTGACGAAATAATCG -CCCCTGGTAAAAGAAACACTGATGCGAGGCCTGTGTTTCAATCTTTAAATCAGTAAACTTCATACGCTTG -ACGGAAAAACCAGGACGAAACCTAAATATTTGTTGTTAAGCTGCAATGGAAACGGTAAAAGCGGCTAGTA -TTTAAAGGGATGGATGACATCTCAGCGTTGTCGGAGGAGATATTTCATGATGATACGTGAGCGGATAGAA -GAAAAATTAAGGGCGGCGTTCCAACCCGTATTCCTCGAAGTAGTGGATGAAAGCTATCGTCACAATGTCC -CAGCCGGCTCTGAAAGCCATTTTAAAGTTGTGCTGGTCAGCGATCGTTTTACGGGTGAACGTTTTCTGAA -TCGTCATCGAATGATTTACAGTACTTTAGCGGAGGAACTCTCTACTACCGTTCATGCGCTGGCTCTGCAT -ACTTACACTATTAAGGAGTGGGAAGGGTTGCAGGACACCGTCTTTGCCTCTCCTCCCTGTCGTGGAGCAG -GAAGCATCGCGTAAAAACGCATTTGCAACTGTCGGCGCTTTTCCAGTATGTTGCTAAAGATTTTATGAAA -AACGGCCTGCGGGCCGTTTTGTTTTGTCTGGATTTTGCGCTTTTTGCCCAGCATTCAGACGAAAATTGCC -CGGGAATTGTGAAAAAATACGCGACAGCGCGCAATAACCGTTCTCGACTCATAAAAGTGATGCCGCTATA -ATGCCGCGTCCTATTTGAATGCTTTCGGGATGATTCTGGTAACAGGGAATGTGATTGATTATAAGAACAT -CCCGGTTCCGCGAAGCCAACAACCTGTGCTTGCGGGGTAAGAGTTGACCGAGCACTGTGATTTTTTGAGG -TAACAAGATGCAAGTTTCAGTTGAAACCACTCAAGGCCTTGGCCGCCGTGTAACGATTACTATCGCTGCT -GACAGCATCGAGACCGCTGTTAAAAGCGAGCTGGTCAACGTTGCGAAAAAAGTACGTATTGACGGCTTCC -GCAAAGGCAAAGTGCCAATGAATATCGTTGCTCAGCGTTATGGCGCGTCTGTACGCCAGGACGTTCTGGG -TGACCTGATGAGCCGTAACTTCATTGACGCCATCATTAAAGAAAAAATCAATCCGGCTGGCGCACCGACT -TATGTTCCGGGCGAATACAAGCTGGGTGAAGACTTCACTTACTCTGTAGAGTTTGAAGTTTATCCGGAAG -TTGAACTGCAGGGTCTGGAAGCGATCGAAGTTGAAAAACCGATCGTTGAAGTGACCGACGCTGACGTTGA -CGGCATGCTGGATACTCTGCGTAAACAGCAGGCGACCTGGAAAGAAAAAGACGGCGCTGTTGAAGCAGAA -GACCGCGTAACCATCGACTTCACCGGTTCTGTAGACGGCGAAGAGTTCGAAGGCGGTAAAGCGTCTGATT -TCGTACTGGCGATGGGCCAGGGTCGTATGATCCCGGGCTTTGAAGACGGTATCAAAGGCCACAAAGCTGG -CGAAGAGTTCACCATCGACGTGACCTTCCCGGAAGAATACCACGCAGAAAACCTGAAAGGTAAAGCAGCG -AAATTCGCTATCAACCTGAAGAAAGTTGAAGAGCGTGAACTGCCGGAACTGACTGCAGAATTCATCAAAC -GTTTCGGCGTTGAAGATGGTTCCGTAGAAGGTCTGCGCGCTGAAGTGCGTAAAAACATGGAGCGCGAGCT -GAAGAGCGCCATCCGTAACCGCGTTAAGTCTCAGGCGATCGAAGGTCTGGTAAAAGCTAACGACATCGAC -GTACCGGCTGCGCTGATCGACAGCGAAATCGACGTTCTGCGTCGCCAGGCTGCACAGCGTTTCGGTGGCA -ACGAAAAACAAGCTCTGGAACTGCCGCGCGAACTGTTCGAAGAACAGGCTAAACGCCGCGTAGTTGTTGG -CCTGCTGCTGGGCGAAGTTATCCGCACCAACGAGCTGAAAGCTGACGAAGAGCGCGTGAAAGGCCTGATC -GAAGAGATGGCTTCTGCGTACGAAGATCCGAAAGAAGTTATCGAGTTCTACAGCAAAAACAAAGAACTGA -TGGACAACATGCGCAATGTTGCTCTGGAAGAACAGGCTGTTGAAGCTGTACTGGCGAAAGCGAAAGTGAC -TGAAAAAGAAACCACTTTCAACGAGCTGATGAACCAGCAGGCGTAATTTACGCAGCATAACGCGCTAAAT -TCGCACAAAGGCCCGTCACCGCCAGGTGGTGGGCTTTTTTTTGTCATGAATTTTGCATGGAACCGTGCGA -AAAGCCTCTTTCGGTGTTAGCGTAACAACAAAAGATTGTTATGCTTGAAATATGGTGATGCCGTACCCAT -AACACAGGGACTAGCTGATAATCCGTCCATAAGGTTACAATCGGTACAGCAGGTTTTTTCAATTTTATCC -AGGAGACGGAAATGTCATACAGCGGCGAACGAGATAACTTTGCACCCCATATGGCGCTGGTGCCGATGGT -CATTGAACAGACCTCACGCGGTGAGCGCTCTTTTGATATCTATTCTCGTCTACTTAAGGAACGCGTCATT -TTTCTGACTGGCCAGGTTGAAGACCACATGGCTAACCTGATTGTGGCGCAGATGCTGTTCCTGGAAGCGG -AAAACCCAGAAAAAGATATCTATCTGTACATTAACTCCCCAGGCGGGGTGATCACTGCCGGGATGTCTAT -CTATGACACCATGCAGTTTATCAAGCCTGATGTCAGCACCATCTGTATGGGCCAGGCGGCCTCGATGGGC -GCTTTCTTGCTGACCGCAGGGGCAAAAGGTAAACGTTTTTGCCTGCCGAATTCGCGCGTGATGATTCACC -AACCGTTGGGCGGCTACCAGGGCCAGGCGACCGATATCGAAATTCATGCCCGTGAAATTCTGAAAGTTAA -AGGGCGCATGAATGAACTTATGGCGCTTCATACGGGTCAATCATTAGAACAGATTGAACGTGATACCGAG -CGCGATCGCTTCCTTTCCGCCCCTGAAGCGGTGGAATACGGTCTGGTCGATTCGATTCTGACCCATCGTA -ATTGATGCCAGAGGCGCAACTGTGCCGCTATACTTATCCAGGGCGGCACAACGCTGTAAGCGGCTTGCGC -CTGAGAATGGCATTTGCGTCGTCGTGTGCGGCACAAAGAACAAAGAAGAGGTTTTGACCCATGACAGATA -AACGCAAAGATGGCTCAGGCAAATTGCTGTATTGCTCTTTTTGCGGCAAAAGCCAGCATGAAGTGCGCAA -GCTGATTGCCGGTCCATCCGTGTATATCTGCGACGAATGTGTTGATTTATGTAACGACATCATTCGCGAA -GAGATTAAAGAAGTTGCACCGCATCGTGAACGCAGTGCGCTACCGACGCCGCATGAAATTCGCAACCACC -TGGACGATTACGTTATCGGCCAGGAACAGGCGAAAAAAGTGCTGGCGGTCGCGGTATACAACCATTACAA -ACGTCTGCGCAACGGCGATACCAGCAATGGCGTCGAGTTGGGCAAAAGTAACATTCTGCTGATCGGTCCG -ACCGGTTCCGGTAAAACGCTGCTGGCTGAAACGCTGGCGCGCCTGCTGGATGTTCCGTTCACCATGGCCG -ACGCGACTACACTGACCGAAGCCGGTTATGTGGGTGAAGACGTTGAAAACATCATTCAGAAGCTGTTGCA -GAAATGCGACTACGATGTCCAGAAAGCACAGCGTGGTATTGTCTACATCGATGAAATCGACAAGATTTCT -CGTAAGTCAGACAACCCGTCCATTACCCGAGACGTTTCCGGTGAAGGCGTACAGCAGGCACTGTTGAAAC -TGATCGAAGGTACGGTAGCTGCTGTTCCACCGCAAGGTGGGCGTAAACATCCGCAGCAGGAATTCTTGCA -GGTTGATACCTCTAAGATCCTGTTTATTTGTGGCGGTGCGTTTGCCGGTCTGGATAAAGTGATTTCCCAC -CGTGTAGAAACCGGCTCCGGCATTGGTTTTGGCGCGACGGTAAAAGCGAAGTCCGACAAAGCAAGCGAAG -GCGAGCTGCTGGCGCAGGTTGAACCGGAAGATCTGATCAAGTTTGGTCTTATCCCTGAGTTTATTGGTCG -TCTGCCGGTTGTCGCAACGTTGAATGAACTGAGCGAAGAAGCTCTGATTCAGATCCTCAAAGAGCCGAAA -AACGCCCTGACCAAGCAGTATCAGGCGCTGTTTAATCTGGAAGGCGTGGATCTGGAATTCCGTGACGAGG -CGCTGGATGCTATCGCTAAGAAAGCGATGGCGCGTAAAACCGGTGCCCGTGGCCTGCGTTCCATCGTAGA -AGCCGCACTGCTCGATACCATGTACGATCTGCCGTCCATGGAAGACGTCGAAAAAGTGGTTATCGACGAG -TCGGTAATTGATGGTCAAAGCAAACCGTTGCTGATTTATGGCAAGCCGGAAGCGCAACAGGCATCTGGTG -AATAATTAACCATTCCCATACAATTAGTTAACCAAAAAGGGGGGATTTTATCTCCCCTTTAATTTTTCCT -CTATTCTCGGCGTTGAATGTGGGGGAAACATCCCCATATACTGACGTACATGTTAATAGATGGCGTGAAG -CACAGTCGTGTCATCTGATTACCTGGCGGAAATTAAACTAAGAGAGAGCTCTATGAATCCTGAGCGTTCT -GAACGCATTGAAATCCCCGTATTGCCGCTGCGCGATGTGGTGGTTTATCCGCACATGGTCATCCCCTTAT -TTGTCGGGCGGGAAAAATCTATCCGTTGTCTGGAAGCGGCGATGGACCATGATAAAAAAATTATGCTGGT -CGCGCAGAAAGAAGCTTCAACGGATGAGCCGGGTGTAAACGATCTTTTCACCGTCGGGACCGTGGCCTCT -ATATTGCAGATGCTGAAACTGCCTGACGGCACCGTCAAAGTGCTGGTCGAGGGGTTACAGCGCGCGCGTA -TTTCTGCGCTCTCTGACAATGGCGAACACTTTTCTGCGAAGGCGGAGTATCTGGAGTCGCCGACCATTGA -TGAGCGGGAACAGGAAGTGCTGGTGCGTACTGCAATCAGCCAGTTCGAAGGCTACATCAAGCTGAACAAA -AAAATCCCACCAGAAGTGCTGACGTCGCTGAATAGCATCGACGATCCGGCGCGTCTGGCGGATACCATTG -CTGCACATATGCCGCTGAAACTGGCTGACAAACAGTCTGTTCTGGAGATGTCCGACGTTAACGAACGTCT -GGAATATCTGATGGCAATGATGGAATCGGAAATCGATCTGCTGCAGGTTGAGAAACGCATTCGCAACCGC -GTTAAAAAGCAGATGGAGAAATCCCAGCGTGAGTACTATCTGAACGAGCAAATGAAAGCTATTCAGAAAG -AACTCGGTGAAATGGACGACGCGCCGGACGAAAACGAAGCCCTGAAGCGCAAAATCGACGCGGCGAAGAT -GCCGAAAGAGGCAAAAGAGAAAGCGGAAGCAGAGTTGCAGAAGCTGAAAATGATGTCTCCGATGTCGGCA -GAAGCGACCGTAGTGCGTGGTTATATCGACTGGATGGTACAGGTGCCGTGGAATGCGCGTAGCAAGGTCA -AAAAAGACCTGCGTCAGGCGCAGGAAATCCTTGATACCGACCATTATGGTCTGGAGCGCGTGAAAGATCG -AATCCTTGAGTATCTTGCGGTTCAAAGCCGTGTCAACAAAATCAAGGGACCGATCCTCTGCCTGGTAGGG -CCGCCGGGGGTAGGTAAAACCTCTCTTGGTCAGTCCATTGCCAAAGCCACCGGGCGTAAATATGTCCGTA -TGGCGCTGGGCGGCGTGCGTGATGAAGCGGAAATCCGTGGTCACCGCCGTACTTACATCGGTTCTATGCC -GGGTAAACTGATCCAGAAAATGGCGAAAGTGGGCGTGAAAAACCCGCTGTTCCTGCTCGATGAGATCGAC -AAAATGTCTTCTGACATGCGTGGCGATCCGGCCTCTGCACTGCTTGAAGTGCTGGATCCAGAGCAGAACG -TAGCGTTCAGCGACCACTACCTGGAAGTGGATTACGATCTCAGCGACGTGATGTTTGTCGCGACGTCGAA -CTCCATGAACATTCCGGCACCGCTGCTGGATCGTATGGAAGTGATTCGCCTCTCCGGTTATACCGAAGAT -GAAAAACTGAACATCGCCAAACGTCACCTGCTGCCGAAGCAGATTGAACGTAATGCACTGAAAAAAGGTG -AGCTGACCGTCGACGATAGCGCCATTATCGGCATTATTCGTTACTACACCCGTGAGGCGGGCGTGCGTGG -TCTGGAGCGTGAAATCTCCAAACTGTGTCGCAAAGCGGTTAAGCAGTTACTGCTCGATAAGTCATTAAAA -CATATCGAAATTAACGGCGATAACCTGCATGACTATCTCGGTGTTCAGCGTTTCGACTATGGTCGCGCGG -ATAACGAAAACCGTGTCGGTCAGGTAACCGGTCTGGCGTGGACGGAAGTGGGCGGTGACTTGCTGACCAT -TGAAACCGCATGTGTTCCGGGTAAAGGCAAACTGACCTATACCGGTTCGCTCGGCGAAGTGATGCAGGAG -TCCATTCAGGCGGCGTTAACGGTGGTTCGTGCGCGTGCGGAAAAACTGGGGATCAACCCTGATTTTTACG -AAAAACGTGACATCCACGTCCACGTACCGGAAGGTGCGACGCCGAAAGATGGTCCGAGTGCCGGTATTGC -TATGTGCACCGCGCTGGTTTCTTGCCTGACCGGTAACCCGGTTCGTGCCGATGTGGCAATGACCGGTGAG -ATCACTCTGCGTGGTCAGGTACTGCCGATCGGTGGTTTGAAAGAAAAACTCCTGGCAGCGCATCGCGGCG -GGATTAAAACAGTGCTAATTCCGTTCGAAAATAAACGCGATCTGGAAGAGATTCCTGACAACGTAATTGC -CGATCTGGACATTCATCCTGTGAAGCGCATTGAGGAAGTTCTGACTCTGGCGCTGCAAAATGAACCGTCT -GGTATGCAGGTTGTGACTGCAAAATAGTGACCTCGCGCAAAATGCACTAATAAAAACAGGGCTGGCAGGC -TAATTCGGGCTTGCCAGCCTTTTTTTGTCTCGCTAAGTTAGATGGCGGATCGGGCTTGCCCTTATTAAGG -GGTGTTGTAAGGGGATGGCTGGCCTGATATAACTGCTGCGCGTTCGTACCTTGAAGGATTCAAGTGCGAT -ATAAATTATAAAGAGGAAGAGAAGAGTGAATAAATCTCAATTGATCGACAAGATTGCTGCAGGGGCTGAT -ATCTCTAAAGCTGCGGCTGGCCGTGCGTTAGATGCTATTATTGCTTCCGTAACTGAATCTCTGAAAGAAG -GGGATGATGTAGCACTGGTAGGTTTTGGTACTTTTGCCGTTAAAGAGCGTGCTGCCCGTACTGGCCGCAA -CCCGCAGACCGGTAAAGAGATCACCATCGCTGCTGCTAAAGTACCGAGCTTCCGTGCAGGTAAAGCACTG -AAAGACGCGGTAAACTAAGCGTTGTCCCCAGTGGGGATGTGACGAAGTTCAAGGGCGCATCTACTGATGT -GCCTTTTTTATTTGTATTCGGTGACTTTCTGCGTCTTGTGGGCTGACAATTGCCCCCGTTTCTTGTCACA -ATAGGCCTTTGCGCGCATCGATACGTTGCGTGAGGTACACAGTCATCTACAGCGGAGTGTTGTTACACCA -TGATGGACAGCTTACGCACGGCTGCAAACAGTCTCGTGCTCAAGATTATTTTCGGTATCATTATCGTGTC -GTTCATATTGACCGGCGTGAGTGGTTACCTGATTGGCGGAGGCAATAACTACGCCGCAAAAGTGAATGAC -CAGGAAATCAGCCGTGGGCAATTCGAGAACGCCTTCAACAGCGAGCGTAATCGCATGCAGCAACAGCTGG -GCGATCAATACTCCGAGCTGGCAGCGAACGAAGGCTATATGAAAACCCTGCGTCAACAGGTGCTGAATCG -TCTGATCGACGAGGCGCTGCTGGATCAGTACGCACGTGAGCTGAAACTGGGTATCAGCGATGAGCAGGTT -AAACAGGCGATTTTCGCGACCCCAGCCTTCCAGGTTGACGGCAAATTTGATAACAGCCGCTATAACGGTA -TCCTCAACCAGATGGGGATGACCGCCGATCAGTACGCCCAGGCGCTGCGTAACCAGCTCACTACCCAACA -GCTGATTAACGGCGTTGCCGGTACCGATTTTATGCTGAAAGGTGAAACCGACGAGCTGGCGGCACTGGTC -GCGCAACAACGCGTGGTGCGTGAGGCGACTATCGATGTTAACGCGCTGGCGGCGAAGCAGCCTGTGACCG -AACAGGAGATTGCCAGCTACTACGAACAAAACAAAAACAATTTCATGACGCCGGAACAATTCCGCGTGAG -TTACATCAAGCTGGATGCCGCAACGATGCAGCAACCGGTTAGCGATGCGGATATCCAGAGCTACTACGAC -CAGCATCAGGATCAATTCACCCAGCCGCAGCGTACCCGCTACAGCATCATCCAGACCAAAACTGAAGATG -AAGCGAAAGCGGTACTTGATGAGCTGAATAAAGGCGGTGATTTTGCTGCATTAGCCAAAGAAAAATCTGC -CGATATTATCTCTGCTCGTAACGGCGGCGATATGGGTTGGTTAGAAGATGCCACTATCCCGGACGAACTG -AAAAATGCTGGTCTGAAAGAAAAAGGCCAACTGTCTGGTGTCATCAAATCTTCGGTCGGTTTCCTGATTG -TACGTCTGGACGACATTCAGCCAGCGAAAGTGAAATCGTTAGACGAAGTACGTGACGACATTGCGGCGAA -AGTGAAACACGAAAAAGCCCTCGATGCGTACTACGCGCTGCAGCAGAAAGTGAGCGATGCGGCAAGCAAC -GACACCGAGTCTCTGGCCGGTGCAGAGCAAGCTGCCGGCGTTAAAGCCACTCAGACGGGTTGGTTCAGCA -AAGATAACCTGCCGGAAGAGTTGAACTTCAAGCCGGTTGCCGACGCTATCTTTAACGGCGGTCTGGTAGG -TGAAAACGGCGCGCCGGGCATCAACTCTGACATCATCACCGTAGACGGCGACCGCGCATTCGTGCTGCGC -ATCAGCGAGCACAAACCGGAAGCGGTGAAACCGTTGGCAGATGTTCAGGAACAAGTTAAGGCATTGGTTC -AGCACAACAAAGCTGAACAACAGGCGAAAGTGGATGCTGAGAAACTGCTGGTTGATTTGAAAGCCGGCAA -AGGTGCGGAAGCTATGCAGGCTGCCGGTCTGAAATTTGGCGAGCCGAAAACCTTAAGCCGTTCCGGTCGT -GACCCGATTAGCCAGGCGGCGTTTGCACTGCCACTGCCAGCGAAAGACAAACCGAGCTACGGTATGGCGA -CCGATATGCAAGGTAATGTGGTTCTGCTGGCGCTGGATGAAGTGAAACAAGGTTCAATGCCGGAAGATCA -GAAAAAAGCGATGGTGCAGGGTATCACCCAGAACAACGCACAAATCGTCTTTGAAGCTCTGATGAGTAAC -CTGCGTAAAGAGGCGAAAATCAAAATTGGCGATGCGCTGGAACAGCAATAATCCTGAAGCCGCCTCGCAA -AAAAATGCGTTGCAGCTGTAACAAGAAAAGGTCGCTTTCGCGGCCTTTTCCATTTCTGAACATTGCCATT -TGTTTACTGTTTTCACTGCCGTTAAGGTGATTCCACTGTTAACAAACAAGGAGAAAACAGTATGAAACAC -GGAATTAAAGCACTGCTCATTACCCTGTCCCTGGCCTGTGCCGGAATGTCTCATAGCGCGCTGGCGGCAG -CTTCTGTGGCGAAACCGACGGCGGTAGAAACCAAAGCGGAAGCTCCTGCAGCACAAAGTAAAGCAGCAGT -ACCGGCGAAAGCCAGTGACGAAGAAGGCACCCGGGTCAGCATTAATAATGCCAGCGCGGAAGAGCTAGCC -CGCGCGATGAATGGCGTTGGCCTGAAGAAAGCGCAGGCGATTGTCAGTTATCGCGAAGAGTACGGTCCGT -TTAAAACTGTGGAGGATCTAAAGCAGGTGCCGGGGATGGGCAATTCGCTGGTGGAACGTAATCTGGCGGT -ATTAACCCTGTAATTAATTTGCATAGTGGCAATTTTTTGCCAGACTGAAGAGGTCATACCAGTTATGACC -TCTGTACTTATAACAACAACGTAAGGTTATTGCGCTATGCAAACACAAATCAAAGTTCGTGGATATCATC -TCGACGTTTACCAGCACGTCAACAACGCCCGCTACCTTGAATTTCTCGAAGAAGCCCGCTGGGATGGGTT -GGAAAATAGCGACAGTTTTCAGTGGATGACGGCCCATAACATCGCCTTCGTCGTGGTCAATATCAATATT -AACTATCGTCGCCCAGCGGTATTAAGTGACCTGTTAACTATTACCAGTCAGTTGCAGCAATTAAACGGTA -AAAGCGGCATCTTAAGCCAGGTCATTACACTGGAGCCGGAAGGGCAGGTGGTAGCGGATGCGCTTATTAC -GTTTGTTTGTATTGATCTTAAAACGCAGAAAGCATTAGCTCTGGAAGGGGAATTGCGCGAAAAGCTGGAG -CAGATGGTTAAGTAAACGTTTTGTGGTGCCGGATGCTCAAGCCGCATCCGGCGACACCCGGAATAATTAC -CTCAACCCGGTTTTCTGCTTCATCGCTGCCATCACCGTCGGTTTATCGGCCAGATAATGATTCAAACCGT -TGGCGCGTAAATTACATGCCGCACAATGACCGCAACCGTCGCCTTTAAAGCCGTTATAGCAGGTCAACGT -TTCGTTACGGACTAAATCCAGTTTGCCGTAATAATCTGCCAGCGCCCAGGTTTCCGCTTTATCAATCCAC -ATCAGCGGCGTTTCAAAACGAATATCTTTCGCCATGCCCAAACTGACGGCATGGTTTAGTGCTTTCACAA -ACTCATCGCGGCAATCCGGGTAGCCGGAGAAATCCGTTTCGCAGACGCCAGTAATTACGGCTTCTGCTTT -TACCTGATACGCATATATTGCCGCCAGCGTCAGGAACAAAATATTACGCCCTGGGACAAACGTATTCGGG -ATACCATCGGCTTCAGGTTCATAATCAGGCACCGGAATGCTGTCACGCGTCAGGCTACTGACCGCCAGCT -CGTTGAGCAGGGTGACATCCAGCACCTTATGCGCGCGTGCCCCCAGTTTCAGCGCCAGTTCGCGTGCCAC -GTCGATTTCTGCGCGATGCCGCTGACCGTAATCGAACGTCACGCAATGGACTTCATCATATTGTTGTAAT -GCCTGCACCAGACAGGTGGTGGAATCCTGACCTCCACTGAACACAACGACAGCACGTTTCATAGATAATC -CTGCTTGAACAATAAAAGCGTTATGGTAACGCCTGCGATTAACCCGGACCAGCTATTCATTGCGATGGCG -CGGGAAGCCAGGCTTCGGTAAATTCAAACCAGCCGCGCGGTGTCAGTCGCACACCGTTCACGCCGGGAGG -GGCACTAATGCGATAGTGATAGTTGAACAGCGGCGTCAGCGTCGCATCTGTCATTAACTGGCTAAAAACC -GCTTTCAGGGCATTAAATCGGTTTTCTTCATCAGGCATTATTTGCACGGCATCCAGTGTCGATTGTAGAT -GTGCGTATGCTGGAGCGTCGAAAACATGTGGCCACAGCGGATCGCAGCGCAGCCATTGCTCCAGAGTATA -TTCCGGTGCTTCGCCAATTAATCTGTCGCCCATCATGAGGTCTGCGTGTGCCTGTAGGGTCGTGTCGTCC -CAGTTTTTTGCGTTATGAAAAATAATTGTGAGTTCACAGCCTTCCGCTGCCAGTGTCGCCTGTAGGCGTT -CTGCCATGGTATGAAGTTCTATCGGTAGGTGATAAACCAGCGTCAAGGTTTTCGGTAGTTTGACTTCATC -CGGTACCTGCCAATGCGGAATAGTCCAGCCTGGCAGTAATGCATGACTGGCGGTGATCAGGTTTTCTCCG -ACTTCTAACGTTTGTAATAAACCGGATTGATGAATAATGGAGATCACTTTTCGCGCCTGCCAGAGGGAGA -GTCGGGGACTTTTGCGCAACGTCAAATAGCAAAAACCTAAACTGATGCCGCTACTGACCTGGCTGACCCG -TTGCAGCTCCTCCGGTTTGCCGATGGTGATTTGCACGGGATGCCGACAACTGGTTCCCAAATCTTTTTCG -AAAAGCGGCGGAGTTATCCAGTACTCAACCGCTTTAAGCAGCGGATGACGTAAATGGTAATAATCATGGC -TTTCCAGGCGCACCAGCTCTGCTGTGAATTGTGTTAAGCGAAAAGGACCCGTGCCGATCAGTGGGAATTG -CGGATGCGCCAGATGGCTGCAATAGCTCGCCAGCCGGTGCGCAAGCCAGTAATCAGGGCGATGTAAAAAG -AAGGTCAGACACTGCGGATGGGTGACTTCAATACGCTTCACGCTAATAAATAATTGATCCAGTGCTGGCA -GTTGTAACAGCATCAATAATCGCTGGTGTAAGTGTGAGGCTTTTACTGCATCGCCGTTATGCCAGTGTAG -GGTTGAACGAAGATAAAAGTCCCAGCGTAACCCGTCAGTAGAGGTTTCCCAGTGATGCGCTAAATCGCCA -ATCGGGCGCTGAGTATTATTATCGAAGCGGGTCAGGCCGGAAAATATCTGCCCGGCGAGATGCTGCTCGG -CACGGCCGGGCAAAAAGCCTGGTTGTAGCGGTTCGAGCGGGCGATAGTAGGGAATACGCAACGTGGGTGT -ATCGTTTTGCCATTGTCCGCCCATAAACGGCTGTAACAGAGTGCGCAGCTCACCTGGGGCCAGTTGCGCC -AGCTCCAGCACATCTTGCTGCTTTCCGGTTTCCAGTGCCTGTTCCATCATCGCATTGCGTAGCGATTCCG -GCGTGACCAGAAAGCGTAATTGTCCGCGCTTTCCGCGTCCTGACTGCGCCTGCCACTCCAGCCATCCCGC -CTCCTGTGCCTGACGCAACAGCGTACGAACATGGCGTTCGCTGCAAAAACAGCGTTCGGCCAGTTCGCTG -ACGGTGACGGTTTGCGGCTTTCCGGCGGAAGGTTGCCACAGACGTTGATACTGGTTAAGACGGTTGAGCA -ATCGCATATAAACCCGGAACAATATTATTTAACTATTCACTATTACTTCCGTATATATCAGGTGATACTC -AATCACCATTAACCGTGTCACAGAGTGGAGAAAGAAATGGCTCGTCTGGCAGCATTTGATATGGATGGCA -CTTTATTGATGCCCGACCATCATTTAGGTGAGAAAACCCTCTCTACTTTGGCGCGACTGCGTGAACGCGA -CATTACCCTCACTTTTGCCACGGGGCGTCATGCGCTGGAGATGCAGCATATTCTCGGGGCGCTATCGCTG -GATGCGTATTTGATTACCGGCAACGGAACGCGCGTGCATTCTCTGGAAGGTGAACTTTTACATCGTGATG -ATTTACCTGCGGATGTCGCGGAGCTGGTGCTGTATCAGCAATGGGATACCCGAGCCAGCATGCATATCTT -CAATGACGACGGTTGGTTTACCGGGAAAGAGATCCCTGCGTTGTTGCAGGCATTTGTCTATAGCGGTTTT -CGTTATCAGATAATCGATGTCAAAAAAATGCCACTCGGCAGCGTCACCAAGATCTGCTTCTGTGGCGATC -ACGACGATCTTACACGCTTGCAGATCCAGCTATACGAAGCATTAGGCGAGCGTGCACATTTGTGTTTTTC -CGCCACGGATTGCCTCGAAGTGCTGCCGGTGGGCTGCAATAAAGGCGCTGCATTGACGGTGCTGACCCAA -CATTTAGGTTTATCGTTGCGCGATTGCATGGCCTTTGGTGATGCGATGAACGATCGCGAAATGTTAGTCA -GCGTCGGTAGCGGATTTATTATGGGCAATGCGATGCCGCAACTGCGCGCGGAGCTCCCGCATTTACCGGT -GATTGGACATTGCCGAAATCAGGCTGTCTCTCACTATTTGACGCACTGGCTGGACTATCCACATCTACCT -TATTCCCCCGAATAACGAGATCCCTTCCAGCACCGGGCAATTGCCCGGTTTTTTTTGCGTTGAATTTGTC -ATTTTGTGCCGTGGTGTTTAAACCGCACAGAATAAATTGTCGTGATTTCACCTTTAAAATAAAATTAAAA -GAGAAAAAAATTCTCTGTGGAAGGGCTATGTTAGATAAAATTGACCGTAAGCTGCTGGCCTTACTGCAGC -AGGATTGCACCCTCTCTTTGCAGGCACTGGCTGAAGCCGTTAATCTGACAACCACCCCTTGCTGGAAGCG -CCTGAAACGGCTGGAGGACGACGGTATCCTTATCGGCAAAGTCGCCCTGCTGGATCCGGAAAAAATAGGC -CTCGGCCTGACCGCTTTTGTGCTGATAAAAACGCAACATCACAGCAGCGAATGGTATTGCCGCTTTGTCA -CGGTGGTTACCGAAATGCCAGAAGTGCTGGGGTTCTGGCGCATGGCTGGTGAATACGATTATCTGATGCG -CGTCCAGGTTGCCGACATGAAACGCTACGACGAGTTTTATAAGCGTCTGGTAAACAGCGTGCCGGGGCTG -TCGGACGTCACTTCCAGCTTCGCGATGGAACAGATTAAATACACCACTTCTTTACCCATCGAATAAATAT -CCAGAATCAGGTCAGGACACAACGCGTGCGATTATTTGCTCAATTAAGCTGGTATTTCCGTCGGGAATGG -CGTCGCTATCTCGGGGCTGTCGCCTTGCTTGTCATTATCGCGATGCTGCAACTGGTTCCGCCAAAAGTGG -TTGGTATTGTTGTCGATGGCGTGACAGAACAACACTTTACTACCGGGCAGATCCTGATGTGGATCGCCAC -CATGGTGCTGATTGCCGTTGTGGTTTATCTCCTGCGTTACGTCTGGCGGGTATTGCTGTTTGGTGCGTCT -TATCAACTGGCTGTTGAACTGCGTGAAGATTATTACCGTCAGCTAAGCCGGCAGCATCCTGAGTTTTACC -TGCGTCATCGCACCGGTGACCTCATGGCTCGTGCGACCAATGACGTCGATCGCGTCGTGTTTGCCGCCGG -AGAAGGGGTGCTGACGCTGGTGGATTCACTGGTGATGGGCTGCGCTGTGTTGATTATGATGTCTACGCAA -ATTAGCTGGCAGTTGACCTTATTTTCCCTGTTGCCGATGCCAGTGATGGCGATCATGATTAAGCGCAACG -GCGATGCTTTGCATGAACGCTTTAAGCTGGCACAGGCGGCGTTTTCCAGTCTTAATGACCGCACCCAGGA -AAGCCTCACCAGTATCCGCATGATCAAAGCCTTTGGTCTGGAAGATCGCCAGTCGGCGTTATTTGCCGCG -GATGCCGAAGATACCGGCAAAAAAAACATGCGGGTGGCGCGTATTGATGCTCGTTTCGACCCGACCATCT -ATATCGCGATTGGTATGGCGAACTTGCTGGCGATTGGCGGCGGTAGTTGGATGGTGGTGCAGGGCAGTTT -AACGCTGGGCCAGCTCACCAGTTTTATGATGTATTTAGGTCTGATGATTTGGCCAATGCTGGCGCTGGCA -TGGATGTTTAACATTGTGGAACGTGGTAGTGCTGCGTACAGCCGTATTCGCGCGATGCTGGCGGAAGCGC -CGGTGGTGAACGATGGTAGCGAACCCGTGCCGGAAGGGCGTGGCGAACTGGATGTAAATATTCACCAGTT -CACGTATCCGCAGACTGACCATCCTGCGCTGGAAAACGTCAATTTCGCCCTGAAACCCGGTCAGATGCTG -GGTATCTGCGGGCCGACTGGTTCCGGCAAAAGTACCCTGTTGTCGCTCATTCAGCGTCATTTCGACGTCA -GCGAGGGGGATATTCGCTTTCATGATATTCCTCTGACGAAGTTACAACTCGATAGCTGGCGTAGCCGCCT -GGCGGTAGTTAGCCAGACGCCATTCCTTTTTTCTGACACTGTGGCGAATAACATCGCGCTGGGTTGCCCG -AATGCCACCCAGCAAGAGATTGAGCATGTCGCGCGGTTAGCCAGCGTACATGACGATATTTTGCGTCTAC -CGCAAGGTTACGATACAGAGGTGGGCGAGCGCGGTGTGATGCTTTCCGGCGGGCAAAAACAGCGTATCTC -CATTGCTCGTGCGTTATTAGTCAACGCGGAAATCCTCATCCTTGATGATGCGCTTTCGGCGGTGGACGGA -CGCACTGAGCACCAGATCCTGCATAACCTGCGTCAGTGGGGGCAGGGAAGAACGGTAATCATCAGTGCCC -ATCGCCTTTCTGCACTGACGGAAGCCAGTGAAATTATTGTGATGCAGCACGGACATATCGCCCAGCGTGG -CAATCATGATGTGCTGGCACAACAAAGCGGCTGGTATCGCGATATGTATCGCTATCAACAACTGGAGGCG -GCGCTCGACGACGCTCCGGAAAATCGCGAGGAGGCCGTCGATGCGTAGTTTTAGCCAACTGTGGCCGACT -CTCAAGCGCCTGTTAGCGTACGGTTCGCCGTGGCGTAAACCGCTGGGGATTGCGGTCCTGATGATGTGGG -TTGCGGCGGCGGCAGAAGTCAGTGGGCCGCTGCTTATCAGCTATTTTATCGACAATATGGTAGCGAAAAA -TAACCTGCCGTTGAAAGTGGTTGCAGGGCTGGCTGCGGCGTATGTTGGGCTGCAACTGTTTGCCGCCGGG -CTACATTACGCGCAGTCGCTGCTGTTTAATCGGGCGGCAGTAGGCGTAGTGCAACAGTTGCGTACCGACG -TGATGGATGCTGCGTTACGCCAGCCATTAAGCGAGTTTGATACCCAACCCGTCGGGCAGGTGATTTCCCG -CGTCACTAATGACACTGAAGTGATCCGCGATCTCTACGTTACCGTAGTGGCAACTGTCCTGCGCAGTGCC -GCGCTGGTGGGCGCGATGCTGGTGGCGATGTTCAGCCTCGACTGGCGAATGGCACTGGTGGCGATAATGA -TTTTCCCGGTGGTGCTGGTGGTAATGGTGATATACCAGCGTTACAGCACGCCGATTGTCCGTCGTGTGCG -CGCCTATTTGGCGGATATCAACGACGGCTTTAACGAAATCATCAATGGCATGAGCGTTATCCAGCAGTTT -CGTCAGCAGGCGCGATTTGGCGAACGTATGGGGGAGGCCAGTCGTTCACACTATATGGCGAGGATGCAAA -CCCTGCGCCTCGACGGTTTTCTGCTGCGTCCGCTGCTGAGTCTGTTTTCATCGCTCATTCTTTGTGGCTT -GTTGATGCTGTTTGGCTTCTCCGCCAGCGGCACCATTGAAGTGGGCGTGCTGTATGCGTTTATCAGCTAT -CTTGGGCGACTTAACGAACCATTAATCGAACTGACCACGCAACAGGCGATGCTGCAACAGGCTGTTGTTG -CTGGTGAGCGCGTGTTTGAACTGATGGACGGACCGCGCCAGCAATATGGCAATGATGATCGCCCGTTACA -GAGTGGCACCATCGAAGTCGATAACGTGTCATTTGCTTATCGCGATGACAATCTGGTGCTAAAGAACATT -AATCTCTCTGTGCCTTCGCGCAATTTTGTGGCGCTGGTCGGGCATACCGGCAGTGGCAAAAGCACCCTCG -CCAGTTTATTGATGGGCTATTACCCGCTAACGGAAGGTGAGATTCGCCTTGATGGTCGTCCATTAAGTTC -GCTAAGTCACAGCGCGCTGCGCCAGGGCGTGGCAATGGTGCAGCAAGATCCGGTGGTGCTGGCGGATACC -TTCCTCGCCAACGTGACGCTGGGGCGGGATATCTCCGAAGAACGCGTCTGGCAGGCGCTGGAAACCGTGC -AACTGGCGGAGCTGGCGCGTAGCATGAGCGACGGTATTTACACGCCGCTGGGCGAGCAGGGGAATAATCT -CTCAGTTGGGCAAAAGCAACTGCTGGCACTGGCGCGCGTGCTGGTCGAGACGCCGCAAATCCTGATCCTT -GATGAGGCAACCGCCAGCATTGACTCCGGTACTGAACAGGCGATTCAACATGCTCTGGCGGCGGTGCGTG -AACATACCACGCTGGTAGTGATTGCTCACCGCTTATCGACCATTGTTGATGCCGACACCATTCTGGTGCT -TCATCGTGGGCAAGCCGTGGAGCAGGGCACTCACCAGCAACTGCTGGCGGCCCAGGGACGCTACTGGCAG -ATGTATCAACTGCAACTTGCGGGCGAAGAGCTGGCAGCCAGCGTGCGTGAAGAGGAATCATTGAGCGCCT -GAATAGCGCAATATTTCATCGTTGGTGCAAAAATGTAACGCACTGTGCACTGTCATAGTGCGTTTTCATT -TTCAAACTTCTTAACTTCCTGCTCTCTTTCTCGTTTTTCATTTCTGGCACACCGCTTGCAATACCTTCTT -CGTGTAGCAGAACCATTACCGAATTCTGACCGGAGGGGATCTATGAAGCTGGTGACCGTGATAATCAAAC -CATTCAAGCTGGAAGACGTTCGTGAAGCGTTATCTTCCATTGGTATTCAGGGCCTGACCGTCACCGAAGT -GAAAGGTTTCGGGCGTCAGAAAGGGCATGCCGAGCTGTACCGGGGGGCGGAATACAGCGTCAATTTCCTG -CCAAAAGTAAAAATTGATGTGGCGATTGCTGATGACCAACTCGATGAAGTGATCGATATCGTCAGTAAGG -CGGCTTACACCGGAAAAATTGGCGACGGCAAAATCTTCGTCGCTGAATTGCAACGCGTCATTCGTATTCG -TACCGGCGAAGCCGACGAAGCGGCGCTGTAATCTCTGGCACACAGCAACAGGAACGAAAAATGAAGATAG -CGACGATAAAAACTGGGCTTGCTTCACTGGCGATGCTTCCGGGACTGGTAATGGCTGCACCTGCGGTGGC -CGATAAAGCCGACAATGCGTTTATGATGATTTGTACTGCGCTGGTGCTGTTTATGACTATTCCGGGGATT -GCCCTGTTTTACGGTGGGTTGATTCGCGGCAAAAACGTGCTGTCGATGCTGACGCAGGTGACGGTGACAT -TTGCACTGGTCTGTATTCTCTGGGTGGTTTACGGTTACTCGCTGGCGTTTGGTGAGGGCAACAACTTCTT -CGGCAACATTAACTGGTTGATGCTGAAAAACATCGAACTGACGGCGGTGATGGGCAGCATTTATCAGTAT -ATCCACGTGGCGTTTCAGGGATCGTTTGCCTGCATTACCGTCGGCTTGATAGTTGGGGCGCTGGCGGAAC -GAATCCGCTTCTCAGCTGTGTTGATTTTCGTGGTGGTATGGCTGACGCTCTCTTACATTCCGATTGCGCA -TATGGTGTGGGGCGGTGGTTTGCTGGCTTCTCACGGTGCGCTGGATTTCGCGGGTGGCACCGTGGTGCAC -ATTAACGCCGCAATCGCCGGTCTGGTGGGCGCGTATCTGATAGGAAAACGCGTGGGCTTCGGTAAAGAGG -CGTTTAAACCGCACAACCTGCCGATGGTCTTCACCGGGACTGCCATTCTCTATATCGGTTGGTTTGGCTT -TAACGCCGGGTCAGCGGGCACGGCGAATGAAATCGCGGCACTGGCATTTGTGAATACTGTGGTCGCAACG -GCGGCGGCAATTCTTGGCTGGATCTTCGGTGAATGGGCGCTGCGTGGTAAGCCTTCACTGCTGGGGGCGT -GTTCTGGCGCGATTGCCGGTCTGGTCGGCGTGACGCCAGCCTGCGGCTACATTGGGGTTGGCGGCGCGTT -GATTATCGGCGTGGTAGCTGGTCTGGCGGGCTTGTGGGGCGTTACCATGCTCAAACGCTTGCTGCGGGTG -GATGATCCCTGCGATGTCTTCGGTGTGCACGGCGTTTGTGGCATTGTCGGCTGTATCATGACCGGGATTT -TTGCCGCCAGCTCGCTGGGCGGCGTGGGCTTCGCTGAAGGTGTGACGATGGGCCATCAGTTGCTGGTACA -GCTGGAAAGCATCGCCATTACGATCGTCTGGTCCGGTGTTGTGGCATTTATCGGCTACAAATTGGCGGAT -CTGACGGTTGGTCTGCGTGTACCGGAAGAGCAGGAGCGAGAAGGGCTGGATGTCAACAGCCACGGCGAGA -ATGCCTATAACGCGTAACAAGCACTGCAAAAAACAGCCGGACGGTTTTCACCTCCGGCTATTTTTTTAAT -TGTGATTACGCATCACCCCTTCCTGAACGGTCGAGGCAACCAGTACGCCGTCTTGGGTATAAAACTCACC -GCGCACAAAGCCACGTGCGCTGGACGCCGAGGTGCTCTCCACGCTATACAGCAGCCATTCATTCAAATTA -AACGGGCGATGGAACCACATGGAATGGTCAATGGTGGCAATCTGAATCCCCGGTTCGAGAAAACCGATGC -CGTGCGGCTGTAGAGCTACCGGCAGGAAGTTAAGATCAGAAGCGTAACCGAGCAGATACTGATGAACGCG -CAGGTCATCCGGCACGCTACCATTTGCGCGGATCCACACCTGACGATGTGGTTCTGCGACGTGACCTTTC -AGTGGGTTATGAAACTCCACCGGACGGACTTCCAGCGGACGATCGCAGATGAATTTATCTTTCAGCACTG -GCGGCAGCAGGTGCGCCAGCGATTGGGCGATTTGCGTTTCCGAAGGGAGGCCATCAGGCGCTGGCGCGGA -CGGCATTGTTTTTTGATGTTCGAAACCCGCTTCTGGTGCCTGGAAAGAGGCAGTCATATAAAAAATCGGT -TTGCCGTTTTGAATAGCAGCAACCCGGCGGGCGCTGAAGCTGTTACCGTCACGCAGCGTTTCGACATCAT -AAATAATCGGCTTCTTACTATCGCCAGGGCGAAGAAAGTAGCTGTGAAACGAATGTACCAGCCGCTCTTC -AGGGACGGTCTCTTTTGCAGCATACAAGGCCTGACCCACGACCTGGCCGCCAAACACCTGGCGTAAACCT -AAATCTTCACTCTGGCCGCGAAAGAGTCCTTCCTCAATTTTTTCCAGATTTAACAATGTCAGTAAATTTT -TTAGCGCCTGACTCATATAACTCTCCAGTAACAAAGCTGCCGCAGCAAGCCAAAGTGAGTTGAGTATAAC -GCAAATTTGCTACTGGTCCGATGGGTGCAATGGTCTGAATTACGGGCTAATTACAGGCAGAAATGCGTGA -TGTGTGCCACACTTGTTGACGTTACTATTTTGTTAACCACTCTTCCGGCGAGGAAAGTTAGCCCGCTGGT -GCATTGATAATAAGGAGAAATGAATGAAACTCGTGCACATGGCCAGTGGTTTAGCGGTTGCGATTGCGTT -GGCGGCTTGCGCAGATAAAAGCGCGGATATTCAGACGCCAGCACCGGCTGCAAATACGTCTATTTCAGCA -ACACAACAACCAGCTATCCAGCAACCGAATGTCTCCGGTACCGTCTGGATCCGTCAGAAAGTCGCACTGC -CGCCTGATGCTGTGCTGACCGTGACACTTTCTGACGCGTCGTTAGCCGATGCACCGTCAAAAGTGCTGGC -GCAGAAAGCGGTGCGTACTGAAGGTAAACAGTCACCATTCAGCTTTGTTCTGTCATTTAACCCGGCAGAT -GTTCAGCCGAACGCGCGTATTCTGTTGAGTGCGGCGATTACCGTGAATGACAAACTGGTATTTATCACCG -ATACCGTTCAGCCGGTGATCAACCAGGGCGGAACTAAAGCCGACCTGACATTGGTGCCGGTACAGCAAAC -CGCCGTGCCGGTTCAGGCCAGCGGTGGCGCAACGACTACCGTACCTTCGACTTCACCAACTCAGGTGAAT -CCGTCTTCGGCAGTTCCAGCTCCTACGCAATATTAAGCGACGTTAACCCTCTCCGCCCGGAGAGGGTTAG -TAGTTCCAGCGATAACGCTGCAAGTCGATTTGCCCGCTTCCCGATACCATCACACCTTCTGCCAGTAATG -CCTGTCGCTGACGCTGTAAATCCGGTCCGGTTAGCGAAATTGTGCCGTGGCGATTAACCACCCGGTGCCA -GGGTAAGGTGCTGCCTTCAGGGAGACGCTTTAACACACCGCCCACCTGGCGCGCGGCGCGGGGCGATCCC -GCCAGTTTCGCCACATCACCGTAAGTGGTGACATAGCCTTCGGGAATAGCGGCGACGATTTGCCAGACGC -GTTGGGGAAATGAATCTTCTTTTTCCATCTTTTCTTCCTGAGGTAATTTTTCAGCATAATCTGGAAAAAC -GCCCGAGTGAAGTCGCATTGCGCAAGAAACCAGCATCTGGCACGCGATGGGTTGCAATTAGCCGGGGCAG -CAGTGATAATGCGCCTGCGCGTTGGTTCTCAACGCTCTCAATGGGGGCTCTGTTGGTTCTCCCGCAACGC -TACTCTGTTTACCAGGTCAGGTCCGGAAGGAAGCAGCCAAGGCAGATGACGCGTGTGCCGGGATGTAGCT -GGCAGGGCCCCCACCCATTTCTGCCTCCCACCGTTTCGTCAAAAAATCCCAACATGGCTAAACTTTAACC -ACAACTGACGTCGCAAGAATTGTCTGGCTGCGCAGTACGCTTCGGAGGTATGTCTGATGAAGTATGTTGA -TGGTTTTGTGGTTGCCGTTCCTGCCGATAAAAAGGATGCCTATCGGGAAATGGCCGCTAAGGCTGCGCCA -TTGTTTAAAGAGTTTGGCGCGCTTCGTATTGTCGAATGCTGGGCCAGCGATGTACCGGATGGCAAAGTGA -CCGATTTTCGTATGGCGGTGAAAGCGGAAGAGAATGAAGAGGTTGTCTTTAGCTGGATTGAATACCCTTC -AAAAGAGGTCCGCGACGCTGCTAATCAAAAGATGATGTCGGACCCACGGATGAAAGAGTTCGGCGAGTCC -ATGCCGTTTGACGGCAAGCGAATGATCTATGGCGGATTCGAGTCAATCATCGACGAATAGGTAGCGTGAC -GGGCTGTGCGGCGTGCCGTCAGCCCAAAAATTCACAAATGTTGCTCGGCCCAGCGTAAGAAATCTTCTTT -CGGTAATGCCTTGCTGTAGAGCCAGCCCTGACCGTAGTGCACGCCATGCTGGCGTAACCACTCTTCTTGT -TTACTGGTTTCGATTCCCTCCGCTACCATTTTCAGTTTCAGTGTTTTTGCCATTTCGATGATATGCGGCG -TGACATTTTTATATTCCAGCGCATCAACGAAAGATTTATCGATCTTCAGAATGTCGACATCCAGATCCTG -TAAATAACTTAAACTTGAATACCCCGTACCAAAATCATCAAGATAAATTTCATGGCCCGCCTCCCGGTAG -CGAGAAATTATCGGGGCGCTGGTTTTCGGATCGGCAAACTCGCGTTCAGTGAGTTCAAGCGCGATCTGTC -TGGGATTAACCTGATAGTGATTGATCATGTCACGCAGCAATTGCGGGATTTTTTCCGAGGTGAGCACGGG -GGATTCAAGATTGATCGAAATATGCTGCTGTGGATGCTGACGCAGCCAGTCGCCCATATCTTCAAAGACG -CTTCTTATAATCAGTAGCGTCAATGGCTCAGAAAGGCCCGTTTGCTGTGCCAGCGGAATAAAACTATCTG -GTGACAACCAACTACCGTCTGTCTGCGGCCAGCGCGCCAGTGCCTCAGCACCGACAATTTTGCCATTGGC -TAAGGAGACAATCGGCTGATAGTGCACGCAAATATCACGATTTTCGATAGCATCCTGCAGCCGATGATGC -GGTGACTGAATACGGCGCAAAATACGCAGCACAAACATCGCTGCCAGCAGGCCAATCACCAACCCGAGCG -GTAACCAAATAAAGACTTGCCGATGCCAGCCTTTCTGCAACATTTTCGTTGAAGCCCATGTGATGATCGA -AATATTCATCTCCGGTAAGGGCAGGATATCGTAAATGATTCCATTATTTTCGATATGCTCACCGGGTGTT -TTTTGTAGCCTGGTAATAATTCCCTGAGCAATTTCATCGCTGCTGGTTATGACAACGTTATGGGCATTGC -CAATAATGGCGGCATCAATTTGCCATGAGCTATAGGGAATGACATCAATAAAGGAAGCGGGGTCGATCAT -GACGACATAATGTGCCGTTCCCATGGCGACCATGTAACGGATAATGCCTAAATCGTTATGCGATGTTAAC -CAGACACGATAACCATCTTTCGAAATTTTACCTGGCTCGGGGAAGGTATCGGGCGGACTTTCATGCTCCA -GAGACGAACACTGGGGAACGTTGTTATCGATATAAGCCACTTCCTGAATATAGCGATAACTGTAAGATAC -CCGACGCATTTCCATGAGATGGGCTTCGCTACAGGCAGCGCCTTGCCATCTTTCCAGCTCCTGCAGCGCA -TCTTTCCCTTGTGTCGCCACCTTATTGGCTCGAATAGCGACGCGGGAGGAATAGGTATCCAGCTCTTCAA -TAAACGATGTTTCTACCTGCTGATGGGCCAGCCAGATGCTTAAGCCGACAGGCAGCAATACTGAAAGAAT -CAGTACTCCCGAAATAAGGCCGACCAGATGTCGTGTTCTCACCAGCATATCCTTATTAACACAGTGTAGG -GAAAGTATATCTGATTGTGGAAAAAGGCTGGCTGGAGATAAGGAGGTAGAGCTGGTATTTCATGAAGTGA -TGGGTGGAAACGATCATTGTCATTTGACCAGGCGCAGAGCTTTACGCCTGGTATGTAACCCTAACTTAAG -ATGTTGATTCGGCGCGAGCGAGGGTAAAAATATCGTAAAAAGACAGTTCACCTTTACGGACGATCATTTT -TTGCAGTTGTTCCTTATGAACATCCGCGACACGCGGAGAGTTCAAGATGGCTTCAACCAGCGCGGCAGGT -ACAAAGCGCGTGTTGTACCATTCGCCGTTATAGCAAACGCGGAAATCCAGCACGTCGATATCTTCATAGC -GGTAGCGTGGGTAGACATCGAAAAAGAAGAAACCATTAAGCAGGATAAATAATACAACCAGTAGCCAGAC -AGAGCCTGACAGCGTTTCGGACTGCAACATCACCGCCAGGGTGGCAAAAAAAGCAACGTACATACCGATA -AACAGCCCCGGATGTTTACGGATAAAACTGATACTAAAGCGGGGTTTGTTGTCGCGTTTTTCGCGGGTAT -TCAGAGACTCAATCGTTTCGGTCAGCAGGCGTTGTATTTCGGTCATCGTTTGCCTTCGTGGTATCTGCAA -CTTTCCAGGGAACACCCTATTTTAACGTGGGAATAGTAGAGGGGAAGTAACAGATCTACCACAATTTTGC -ATAACAGTTGCGAAAAACCGATTACAATTTTTTAATTATTCTGGCTGGATTACCGCCCACGACAACGTTG -TCCGGGACATCTTTTGTGACAACTGCACCTGAGGCTACCACGACGTTATCACCAATGGTCACACCAGGGT -TAATGACCGCGCGTCCGCCAATCCAGACGTTATTACCGATGGTGACGGGTTTCCCCAGTTCAGCACCGCT -ATTACGTGCTACAGGGTCGATGGGATGTGTTGCCGTGTAGATATGAACGCCTGGTGCCAACATACAGTTA -TCACCGATGCGAATAGGGCAGACATCAAGCATCACGCAATCGAAGTTGGCGAAAAAATTATTACCGAGAA -AAATGTTATAGCCATAGTCACAGCGAAACGTTGGCTCAATATAAGCCTCTGTCACCTGACCGAATAGATC -AGCGAGAATTTGCTGGCGTAATGTGTGCTCTTCCGCCAGGGAATGATTGTATCGGTGAATAAGCTGACGA -GCGCGCAGGCGATCGCGAGATAACGTCTCATCTGCCGAGCGATACAACTCACCAGCAATCATCTTTTCTT -TTTCTGTGCTCATTACTGACCTCCGGTTGCTGAAAATGCGGCAACACAGTAAGACGAAAAGTCAGTGAAG -AGAACGTTCCCATTACATCTGTGTGATAAAGATCACATAGGGTATGTCTTCATGGCGAAAAAGTATAAAA -TTCTTAATAAACAGCCGGTTATAGCTCCGAAAGCGAATTATTTATTAGCGAATAAATTTCCATACTGAGG -AAGGGATCTTGTCGTACAGTTTATTCATGGTCAATTCGGCGAGGCGGTGATCTGCGGCTGAGTAAAATAC -CGCCAGTTCATTATCTGATAATTCGTATTTATTTTTCTCGATAACACGCTCCAGCGTGTCAATTGTCTGG -CAACGACGTAAACGCATTAAATAATCGGTTTTCGTTAAAAATTTTTCGGACATACTTCTACCTATGGTTG -TAATAATTCTAACAAGATAAACTCGCAGGATTCTCTTTCGTCGCATTGACAAAACAACGGAATAGTCGAT -TACCTGACTTCCGCCATTTCTGAAGATCCTGCATATTAATACCATAACTACTGAACAACATAAAGGTGTC -ATCCAGATATTCGTCGATCTGCTCAATGAGCTTATTGTCTTCATTATACTTAATTTTGTAATTAAGTGCG -AAGGTCGCAATATGCTCAATCAGTTCATTCAACTGGAGGTTGATCGCCGAGGTTGGGTCGTTTACCCAGC -CATGATTGCTTTCTTCAAGGTTTGCAAGGCAGTCATGATACAGGGTTTCACAGAGAAACTTAAGCTGTGC -GATATCATGTCTTTTGGGTGAGTATTCATCCATAACGCGTCCCCTTCTTAGCGGTTGAACTAACGGACAC -CTTTCGGGATGGAAAAAACTTACTGACCTGGACTTGCCCTCTCGTTTGTTAGCTTAACTATAAGCCACTC -TTTGCAGGTTTTCATCGCATTATTACGAAAAATTACAATTAGGAAGGAAGCGGGACAGGACTCACTTTTT -CATACTAGCACTAACCCGCAGCAGGTAAAAGCAGTTTGCTCGAACTATTCATAACATTTCAGGATTATCG -CCAGATGAAATTGGTGACACTAATACCAGGATTGCTCTGAATATGACGTAATAACCGAGGAATGAATAAA -GAATTACCGCAAATAATTAAGAATAGCCTCTAAATGATTATGGATTATTAAATCTATTAGCGCTACTTAA -TATAAATTAACTAACAATCAGTATTTTTTATGAATTTTATCCGTGGTTAATACTGGTTTTCGTATGAGAT -CCTGAGTTGGTGGTTCAATTACTCCTTAATGTTCGTAGGTTATGCATAAAAAAGGCCGCTTACGCGGCCT -TAGTGATTACACGTTGTATCAATGATGATCGACAGTATGGCTGTGCTCGATATCTTCATTCTTGCGGCTA -AAGCGGCGGCGAACCACCACAAAGAATACCGGAACGAAGAAGATTGCCAGTACCGTTGCGGTCACCATCC -CGCCCATTACACCGGTACCTACTGCGTTCTGCGCGCCGGAACCAGCACCAGTACTGATAACCAGCGGCAT -AACGCCGAGGATAAACGCCAGCGAGGTCATCAGGATCGGACGTAAACGCATCCGCACCGCATCAAGCGTC -GCTTCAATCAGACCTTTACCTTCTTTATCCATCAAGTCTTTGGCGAATTCGACGATAAGGATCGCGTTCT -TCGCCGACAACCCAATGGTTGTGAGCAGGCCTACCTGGAAGTAAACGTCATTGGTCAGGCCACGGAAGGT -GGCAGCCAGCAACGCACCGATAACCCCCAGCGGAACGACCAGCATAACGGAGAACGGAATCGACCAGCTC -TCGTACAGCGCCGCCAGACACAGGAACACGACAATCAACGAAATCGCGTACAGTGAAGGTGCCTGGTTGC -CGGAGAGACGTTCCTGATAGGACATCCCCGTCCAGTCATAGCCAACACCGGTAGGCAGTTTGCTCGCCAG -TTGTTCCATCAGCTCCATTGCTTCACCGGTACTTTTACCCGGTGCCGCCTGGCCTAAGATTTCCATGGAT -GGCAGGCCGTTGTAACGTTCCAGACGCGGCGAACCGTACTCCCAACGAGAAGAGGAGAACGCCGAGAATG -GCACCATCTGACCATCAGCAGCACGAACATACCAGTCGCCGATATCATCCGGCAGCATACGGTATTTCGC -TTCTGACATGACATAAACTTTCTTCACACGACCGCGGTCGATAAAGTCGTTCACATAGCTGCCGCCCCAT -GCAGCGCCCAGAGTGGTGTTAATGTCGTTGATAGAAACACCCAGCGCCTGCGCTTTTTCCTGGTCGATAT -CAATCTTAAACTGCGGGGTATCTTCCAGACCGTTTGGACGTACGCTGGTCAACATATCAGGGTGCTTCGC -TGCTTCTGCAAGCAACTGGTTACGCGCCTGAGTCAGTTTTTCGTGACCAAGGCCAGCCTGGTCAATCAGC -TCAAAGTCAAAGCCGGTTGCAGTACCCAGTTCCACGATTGCGGGCAGGTTAAAGGCGAAAACCATCGCAT -CTTTGATTTGCGAGAAAGCGCGTGTTGCACGCATGGTAATCGCTTCAACTTTGTTTTCTTCGCCCGGACG -ATCGGCCCAGTCCTTCAAGGAAACGAACGCAATACCGGTATTCTGACCACGTCCCGCAAAGCCGAAGCCG -TTAACGGCGAACACCGACTCAACGTTGTTCTTTTCTTTGGTCAGATAGTAATGCGTTACCTCATTGAGCA -CTTTCTGTGTACGTTCCTGCGTTGCACCTGCTGGCAGCTGAACCATGGTCATAAACACGCCCTGGTCCTC -ATCTGGCAAGAAGGAGCTTGGCAGACGCACGAACAGATAGGCCATGCCGACCACGATGATCAGATACAGC -ACCAGGTAACGCCCCGTACTGCGCAGAATACCGCCTACGCTGTCGGTGTAGTGGTGCGTGCTCTTCTCGA -ACATGCGGTTAAACCAGCCGAAGAAGCCTTTTTTACCTTCCCCGTGATCGCCTTTGGCAATCGGTTTCAG -CATGGTGGCACAAAGAGCTGGAGTCAGGATCAACGCCACCAGTACCGACAGCGCCATTGCTGAAACAATG -GTAATAGAGAACTGACGATAGATAGCACCAGTAGAACCGCCAAAGAAGGCCATCGGTACGAATACCGCCG -ACAGTACCATCGCGATACCGACCAGAGCGCCCTGAATCTGCCCCATCGACTTACGGGTAGCTTCTTTTGG -CGGCAAACCTTCTTCCGCCATAACACGCTCAACGTTTTCTACCACAACGATGGCGTCATCCACCAACAGG -CCGATGGCGAGCACCATCCCGAACATTGTTAGCGTGTTTATCGAGAAGCCAAAGGCGGCAAGGACGGCAA -AGGTCCCGAGCAATACCACCGGTACGGCAATGGTCGGAATCAACGTCGCGCGGAAGTTCTGCAGGAACAG -ATACATAACCAGGAACACGAGGATGATCGCTTCGACCAGCGTTTTAACCACTTCGTGAATAGAGATTTTC -ACGAACGGCGTGGTGTCGTATGGGTAAACAATTTTCAGACCCGACGGGAAGAACGGTTCCATCTTCGCCA -GTTCAGCACGGATTGCCGCAGCGGTATCCAGCGCGTTTGCACCGGTCGCCAGCTTGATCCCCAGACCGGA -AGCCGGTTGGCCGTTAAACTCTGCGATGATGTCGTAGTTCTCACCACCCAGCTCAATCTTCGCGACGTCA -CGCAGCAGCACGCGGGAACCATCCTGATTCACTTTCAGCAGGATTTTGCCGAACTCTTCAGTAGAGGTCA -GACGCGTCTGAGCAATAATAGAGGCGTTAAGCTGTTGGCCTTTCACCGGCGGCGTACCACCGAGCTGACC -CGCCGCAACCTGGGCGTTCTGCGCTTTGATGGCGGTAATGACATCAACCGGCGTTAGCTGGAATTTGTTC -AGCTCATTCGGGTTCATCCAGATACGCATCGCGTACTGTGAACCGAACAACTGAACATCACCCACGCCCG -ACGTACGGCTGATGGCATCTTTCATATTCGCCGCCACGTAGTCGGAGATATCCTCCTGCGTCATGGTGCC -ATCGGTGTTGATAACGCCGACAACCATCAGGAAGCTGCTGGATGATTTCTCAACGCTCACCCCTTGCTGC -TGAACTTCTTGCGGCAGCAACGGCATCGCCAGCTGCAGTTTGTTCTGCACCTGAACCTGCGCGATATCCG -CATCAGTACCAGACTCAAAGGTCAGGGTGATCTGCACGGTACCCGTGGAGTCACTGTTAGAGGACATGTA -CATCAGGTTATCGATACCGTTCATATTCTGTTCGATAACCTGTGTCACCGTGTCCTGCACTGTTTTCGCA -TCAGCGCCGGGGTAGGAGGCGGAGATCGTTACTGCCGGCGGTGCAATCGTAGGATATTGCGCCACCGGCA -GTTTGAGGATCGCCAGCCCCCCTGCCAACATGATGATAATGGCGATCACCCACGCAAAAATCGGGCGATC -GATAAAGAAATTAGGCATGTCTTAACGGCTCCTGTTTAAGTTAAGACTTGGACTGTTCAGGCTGAGCACC -GCTTGCGGCTTGCTGGTTATTATCAGCGGTAACTTCTTGTGCTTTTACCTGGACACCAGGACGCACTTTC -TGCAGCCCACTTATTACTACGCGATCGCCTGCTTTCAGACCTTCTGTCACCAGCCACTTATCGCCAATAG -CCTGGCTTGCAACGATCGGACGGGTTTCCACTTTGTCATCCGCGCCAACTACCAGTACGGTGGCATCGCC -ACGCGGCGTACGGGTTACGCCCTGTTGCGGGACTAAAATAGCGTTTGGATTAAGCCCTTCTTCCAGACGT -GCGCGCACGAACATACCCGGCAGCAGAGTGTGATCCGGGTTCGGGAAGATAGCGCGTAGGGTGATAGACC -CAGTGGTCTGATCAACGGTAACGTCAGAGAATTCCAGCGTACCGTCCTGCGGGAACTTAATGCCGTCACT -GGTGATCAGTGACACTTTGGCTTTGCCGTTCTCTTGTTTCAGCGTGCCATTCGCCAGTTCCTGTTTCAGG -CGCAGGAAGTCGTTGCTGGACTGGGTCACATCAACGTAGATCGGATCAAGTTGCTGCACGGTTGCCAGCG -CAGTCGCCTGACCGTTCTGTACCAATGCGCCTTCCGTCACGTTCGACTTACCAATGCGACCGCTAATCGG -AGAGGTGACTTTGGTGTAAGCCAGATTGATCCGCGCAGTTTCAACGGCAGCTTTCGCCGCAGTTACCGCA -GCATTCGCCTGTTGCGCATCAGCCAGAGCCTGATCGTACTCTTGCTTACTGATGTACTGAGTACCGAGCA -GTTTCTGATAACGATTCACCGTCAATTGCGCGATATTGGCTGCAGCCTGGGCTTTCGCCAGATCACCTTT -CGCACTGTCGTATGTCGCCTGATAGGTCGCAGGATCAATCTGATAGAGAGAGACACCTGCTTCGATGTCG -CTACCTTCTTTGAAATTACGCTTCAGGATAATCCCGCTAACTTGAGGACGAACTTCTGCGATCCGGTAGG -CACTGGTGCGACCCGGAAGCTCGGTTGTGATCTGCAGAGGTTCAGTTTTGACTGTTACTACGCCAACGGC -GGGCATCTGCTGGCCACCTTGTTGGGCCTGTTTGTCGTCACATCCTGTTAGGGCTAAGCTGCCTGAGAGC -ATCAGAACGACCGCCAGAGGCGTAAACCCTCTGTTTTTGTTCATATGTAAACCTCGAGTGTCCGATTTCA -AATTGGTCAATGGTCAAAAGTTAATAAACCCATTGCTGCGTTTATATTATCGTCGTGCTATGGTACATAC -ATTCACAAATGTATGTAAATCTAACGCCTGTAAATTCACGAACATATGGCACGAAAAACCAAACAAGAAG -CGCAAGAAACGCGCCAACACATCCTCGATGTGGCTCTACGTCTTTTCTCACAGCAGGGGGTATCATCCAC -CTCGCTGGGCGAGATTGCAAAAGCAGCTGGCGTTACGCGCGGTGCAATCTACTGGCATTTTAAAGACAAG -TCGGATTTGTTCAGTGAGATCTGGGAACTGTCAGAATCCAATATTGGTGAACTAGAGCTTGAGTATCAGG -CAAAATTCCCTGGCGATCCACTCTCAGTATTAAGAGAGATATTAATTCATGTTCTTGAATCCACGGTGAC -AGAAGAACGGCGTCGATTATTGATGGAGATTATATTCCACAAATGCGAATTTGTCGGAGAAATGGCTGTT -GTGCAACAGGCACAACGTAATCTCTGTCTGGAAAGTTATGACCGTATAGAACAAACGTTAAAACATTGTA -TTGAAGCGAAAATGTTGCCTGCGGATTTAATGACGCGTCGCGCAGCAATTATTATGCGCGGCTATATTTC -CGGCCTGATGGAAAACTGGCTCTTTGCCCCGCAATCTTTTGATCTTAAAAAAGAAGCCCGCGATTACGTT -GCCATCTTACTGGAGATGTATCTCCTGTGCCCCACGCTTCGTAATCCTGCCACTAACGAATAACCCTGAA -TCTGACTCCAGGATTTTTCCTGGACATTTTCGTCGTTGCTATTCTGGTTCACTGCGTCGTGATATTCTTG -CGGTTTGACTTTTTCAGGTCGTTCTTCAGGTTCAGAAACCTTCATTCATCATGACTATGTTCCAGTATTA -CAAACGATCACGGCATTTTGTTTTTTCAGCATTTATTGCTTTTGTTTTTGTCTTGTTATGCCAGAACACG -GCGTTTGCGCGGGCGTCATCGAATGGTGATCTGCCGACAAAAGCGGACCTGCAGGCGCAACTTGACTCAC -TAAATAAACAAAAAGATCTTTCTGCTCAGGACAAACTGGTGCAGCAGGATCTGACAGATACATTAGCCAC -CCTCGATAAAATCGATCGCATAAAAGAAGAGACAGTTCAGCTACGGCAAAAAGTCGCTGAAGCGCCGGAA -AAAATGCGCCAGGCGACCGCGGCGTTAACAGCACTTAGCGATGTCGATAACGACGAAGAAACGCGCAAAA -TTCTGAGCACGCTGTCGTTGCGCCAGCTGGAAACTCGCGTTGCCCAGGCGCTGGACGATTTGCAAAACGC -ACAAAACGATCTGGCGTCTTATAACAGCCAGCTGGTTTCGTTACAGACGCAGCCCGAACGCGTGCAAAAT -GCGATGTATAACGCTTCGCAGCAGCTGCAACAAATTCGCAGTCGTCTGGATGGGACTGATGTCGGCGAGA -CAGCCTTACGTCCCAGCCAGAAAGTGTTAATGCAGGCCCAGCAGGCGTTGCTGAATGCGGAGATTGACCA -GCAGCGTAAAAGCCTGGAAGGGAACACCGTCTTGCAGGATACCTTGCAAAAGCAACGTGATTACGTGACG -GCGAACAGCGCTCGTCTGGAGCACCAGTTACAACTGTTGCAAGAAGCGGTAAACAGCAAGCGCCTGACTT -TAACCGAAAAAACGGCGCAGGAAGCCGTCTCCCCGGATGAAGCCGCGCGTATTCAGGCTAATCCGCTGGT -GAAGCAGGAACTGGAAATTAACCAGCAGTTAAGTCAGCGTCTGATTACCGCGACTGAAAACGGTAATCAG -TTGATGCAGCAAAACATTAAAGTCAAAAACTGGCTGGAGCGGGCGCTGCAATCGGAACGCAATATTAAAG -AGCAGATTGCCGTCCTGAAGGGCAGCCTGCTGTTGTCTCGTATCCTTTACCAGCAACAACAAACGCTGCC -CTCGGCGGATGAACTGGAAAACATGACCAACCGCATCGCGGATTTGCGTCTCGAACAGTTTGAAGTTAAC -CAGCAGCGTGATGCACTCTTCCAGAGCGATGCGTTCGTCAACAAACTGGAAGAAGGTCACACCAACGAAG -TCAACAGCGAAGTTCACGATGCGTTATTGCAAGTGGTTGATATGCGTCGCGAATTGCTGGATCAACTCAA -CAAACAGTTGGGTAACCAGCTGATGATGGCCATTAACCTGCAAATCAACCAGCAGCAGTTAATGAGTGTG -TCGAAAAACCTGAAATCCATCCTGACTCAGCAAATCTTTTGGGTGAACAGTAACCGTCCAATGGACTGGG -ACTGGATCAAAGCGTTCCCGCAAAGCCTGAAAGATGAATTTAAGTCGATGAAAATCACGGTGAACTGGCA -AAAAGCCTGGCCCGCCGTTTTTATCGCTTTCCTCGCTGGTTTGCCGCTGCTGTTGATTGCCGGGCTGATC -CACTGGCGTCTGGGCTGGCTGAAAGCGTATCAACAAAAACTGGCTTCCGCTGTGGGTTCCCTGCGTAACG -ACAGCCAGCTCAACACACCAAAAGCGATCCTTATCGACCTGATCCGTGCGCTGCCGGTGTGCCTGATTAT -TCTCGCGGTTGGCCTGATTCTGTTGACCATGCAGCTCAACATCAGCGAACTGCTATGGTCGTTCAGCAAA -AAACTGGCGATATTCTGGCTGGTGTTTGGCCTGTGCTGGAAGGTACTGGAGAAAAACGGCGTTGCCGTAC -GTCACTTCGGCATGCCGGAACAGCAGACCAGCCACTGGCGTCGGCAAATTGTCCGCATCAGTCTCGCATT -GCTGCCTATCCATTTCTGGTCTGTGGTGGCAGAACTTTCCCCGCTGCATCTGATGGATGATGTGCTGGGG -CAAGCGATGATTTTCTTCAACCTGCTGCTGATTGCCTTCCTGGTATGGCCGATGTGCCGCGAAAGCTGGC -GTGATAAAGAGTCGCACACCATGCGACTGGTCACCATTACCGTGCTGTCGATAATCCCGATTGCGCTGAT -GGTGCTGACTGCTACAGGCTACTTCTACACTACGCTGCGTCTGGCAGGACGCTGGATTGAAACCGTTTAT -CTGGTGATCATCTGGAACCTGCTGTACCAGACGGTACTGCGTGGCTTAAGCGTAGCGGCGCGGCGTATCG -CCTGGCGTCGTGCGCTGGCGCGTCGGCAGAATCTGGTGAAAGAGGGCGCAGAAGGTGCTGAACCGCCGGA -AGAACCCACCATTGCACTGGAGCAAGTTAACCAGCAGACGCTGCGTATTACCATGTTGCTGATGTTTGCG -CTGTTCGGTGTCATGTTCTGGGCAATTTGGTCCGATTTGATCACCGTGTTCAGCTATCTCGACAGCATCA -CGCTCTGGCATTACAACGGCACTGAAGCTGGCGCTGCGGTGGTGAAAAACGTCACCATGGGCAGTCTGTT -GTTTGCGATTATCGCCTCAATGGTGGCCTGGGCGTTGATTCGCAACCTGCCTGGTTTACTGGAAGTGCTG -GTGCTCTCGCGACTGAATATGCGCCAGGGCGCGTCGTATGCCATTACTACCATCCTTAACTACATCATTA -TTGCTGTTGGTGCGATGACGGTGTTCGGATCGCTGGGCGTCTCTTGGGATAAACTCCAGTGGCTGGCCGC -AGCATTATCCGTAGGTCTTGGTTTTGGTTTACAAGAAATTTTCGGTAACTTCGTCTCCGGTTTGATCATT -CTATTCGAACGTCCGGTGCGTATTGGCGATACGGTAACCATTGGTAGCTTCTCGGGGACGGTAAGTAAGA -TCCGTATTCGTGCGACAACGATTACCGATTTCGATCGCAAAGAAGTGATCATCCCGAACAAAGCGTTTGT -TACCGAGCGTCTGATCAACTGGTCGTTGACTGACACTACTACGCGTCTGGTGATCCGTCTCGGCGTGGCC -TATGGCTCCGATCTGGAAAAAGTGCGTAAAGTGTTACTGAAGGCGGCGACTGAGCACCCAAGGGTGATGC -ACGAACCAATGCCGGAAGTCTTCTTTACGGCATTTGGTGCCAGCACGTTGGATCATGAGCTGCGTCTGTA -TGTGCGTGAACTGCGTGACCGTAGTCGTACTGTCGATGAGCTGAACCGTACTATCGATCAGCTGTGCCGT -GAAAACGACATCAACATTGCCTTTAACCAGCTTGAAGTGCATCTGCACAACGAGAAGGGCGATGAGGTGA -CGGAAGTAAAACGCGACTACAAAGGCGATGACCCGACGCCAGCGGTAGGGTAAAAACGAAAGGGGGCAAC -ATTTAGTTGCCCCGAGATTGCTAACAAAGTGCGCGTTGTTCATGCCGGATGCGGCGTGACCGCCTTATCC -GGCCTACGAAACCGCAAGAATTCAATATATTGCAGGAGCGGTGTAGGCCTGATAAGCGTAGCGCATCAGG -CAGTTTTGCGTTTGCCCGCAACCTTAGGGGACATTTAGCGACCCCATTTATTTCTCACTTTTCCGCCTCA -TCATCGCGCGTTAATTTCTTTTCATAATCACGCTTTACAATATCCAGCGCGCGCAGCACGGTACTGGCAG -GGATCTGATTTTCCTCCAGCAGCACAATCAAATCGACAGCCAGTTTGACATCGTCAGGGGCATTTTCCAG -TGACATATTCTCTCCATTGCTAGCGGGTTAAACGCGCTAACCTGTTTTCGATTTTTTCCAGCGCATGGCG -GCAGCGTGCCAGGCGCGCTTCATAGGCTTCCACTTCACGATGCAGCGTTTGCTGTTCCACGAGATCGGTC -ACCCGCGCCAGACGGGCTCTGCGTTCGGCAACCATCTCACGTAGCCGCCGCTCAAAATCCTGATGCTGAA -TACGTTTACGCTGCCAGCGGGCAATTTTCGGTGGTGCACTGTCCCACTCGCGCAATGACCAGGCGGAGGC -TTCACGCGCGATGGCTTCCAGTTGTGCCGCCAGATGTTCCGCCAGCCAGGCCACTTGCGGCAGCTGTTGC -TGCTCAACTGCATGACGAAGCGCAGCCAGATTATCGCCCGCCTCGTCGAGACAAGCCTGTAGTGTTGTCG -CACGAGTCTGAAAAAGATGCCTGTCGAAACGAGCACTTAGCGTGGCGAACTGTGACACCGGGGCACAACG -CTGACGCAGCGTAGCGAGCTGTCCTTCCAGTTTTTCCAGCAGCAGGGCGGTTTTCACGATAAGACCTCAA -TGAAAATGATAATTGTTATGCTAAAGTAGCCACTCTGTAAGCTGACAACACTCAATATGCAACGAATCAT -TTTAATCATCATTGGCTGGCTGGCGGTAGTGCTGGGTACGCTGGGCGTGGTATTACCGGTATTACCGACG -ACGCCGTTTATCCTGCTGGCGGCCTGGTGCTTTGCCCGTTCTTCCCCGCGCTTTCACGCCTGGTTGCTGT -ACCGCTCATGGTTTGGCAGCTATCTACGTTTCTGGCAGAAACATCATGCGATGCCGCGCGGCGTCAAACC -GCGGGCGATTTTGCTTATTTTGCTCACGTTTGCCATTTCTCTGTGGTTCGTCCAGATGCCATGGGTGCGC -ATCATGTTGCTGGTAATTCTCGCCTGTTTGCTTTTCTATATGTGGCGAATTCCGGTGATTGATGAAAAGC -AAGAAAAGCACTGAAGCACAACAATCGCAGTTGCAATTATTGCGTACAGCCAGTACATTCTGGCGTTTTC -GAGCACAGGCGCAGGCGGTCAAAGGTTAAACAACTGTTACTTTTGATACGTTTAAAACGCGCCGTGAGTA -CCACCGTAACAAGCAGGCATACACTTATGACCGCGACTGCACAGCAGCTTGAGTATCTCAAAAATAGCAT -CAAAAGCATTCAGGACTACCCAAAACCCGGCATTCTTTTCCGCGATGTCACCAGCTTACTGGAAGACCCG -AAAGCTTACGCTCTCAGCATCGACTTGCTGGTTGAGCGTTACAAAAATGCGGGCATTACCAAAGTTGTCG -GCACCGAAGCGCGTGGCTTCTTGTTTGGCGCTCCGGTAGCTCTGGGTCTGGGCGTTGGCTTTGTACCGGT -CCGTAAACCGGGCAAACTGCCGCGTGAAACCATCAGTGAAACTTACGACCTGGAATACGGCACCGATCAG -CTGGAGATCCACGTTGATGCCATCAAACCGGGCGACAAAGTTCTGGTGGTGGACGACCTGCTGGCAACCG -GCGGCACTATCGAAGCGACCGTTAAACTGATCCGTCGTCTGGGTGGTGAAGTGGCTGACGCTGCGTTCAT -TATCAACCTGTTCGATCTCGGCGGCGAACAGCGTCTCGAAAAACAGGGCATTACCAGCTACAGCCTTGTC -CCGTTCCCGGGCCATTAATTATCGCCAGTCTTGTGCTGCCCACGCTACGGACAGCACAAGATGTGCATTC -AGCCTCGCCGTTCTGACGGGGCTGTGTTAGCATTACCCCTTCGTGAATCCACCTTCCAGCGTTTCAGAGC -CTGCCAATGAGTTATCAGGTCTTAGCCCGAAAATGGCGCCCACAAACCTTTGCTGACGTCGTCGGCCAGG -AACATGTGCTGACCGCACTGGCGAACGGCTTGTCGTTAGGGCGTATTCATCATGCTTATCTTTTTTCCGG -CACCCGTGGCGTCGGAAAAACCTCTATCGCCCGACTGCTGGCGAAGGGGCTAAACTGCGAAACCGGCATT -ACCGCGACGCCGTGCGGCGTGTGCGATAACTGTCGTGAAATCGAGCAGGGGCGCTTTGTCGATCTGATTG -AAATCGACGCCGCCTCGCGCACCAAAGTTGAAGATACCCGCGACCTGCTGGATAACGTCCAGTACGCTCC -GGCGCGTGGTCGTTTCAAAGTTTATCTGATCGACGAAGTGCATATGCTGTCGCGCCACAGCTTTAACGCA -CTGTTAAAAACCCTTGAAGAGCCGCCGGAGCACGTTAAGTTTCTGCTGGCGACGACCGATCCACAGAAAT -TGCCGGTGACGATTTTGTCACGCTGTCTGCAATTTCATCTCAAGGCGCTGGATGTCGAGCAAATTCGCCA -TCAGCTTGAGCACATCCTCAACGAAGAACATATCGCTCACGAGCCGCGGGCGCTGCAATTGCTGGCACGC -GCCGCTGAAGGCAGCCTGCGAGATGCCTTAAGTCTGACCGACCAGGCGATTGCCAGCGGTGACGGCCAGG -TTTCAACCCAGGCGGTCAGTGCGATGCTGGGTACGCTTGACGACGATCAGGCGCTGTCGCTGGTTGAAGC -GATGGTCGAGGCCAACGGCGAGCGCGTAATGGCGCTGATTAATGAAGCCGCTGCCCGTGGTATCGAGTGG -GAAGCGTTGCTGGTGGAAATGCTCGGCCTGTTGCATCGTATTGCGATGGTACAACTTTCGCCTGCTGCAC -TTGGCAACGACATGGCCGCCATCGAGCTGCGGATGCGTGAACTGGCGCGCACCATACCGCCGACGGATAT -TCAGCTTTACTATCAGACGCTGTTGATTGGTCGCAAAGAATTACCGTATGCGCCGGACCGTCGCATGGGC -GTTGAGATGACGCTGCTGCGCGCGCTGGCATTCCATCCGCGTATGCCGCTGCCTGAGCCAGAAGTGCCAC -GACAGTCCTTTGCACCCGTCGCGCCAACGGCAGTAATGACGCCAACCCAGGTGCCGCCGCAACCGCAATC -AGCGCCGCAGCAGGCACCGACTGTACCGCTCCCGGAAACCACCAGCCAGGTGCTGGCGGCGCGCCAGCAG -TTGCAGCGCGTGCAGGGAGCAACCAAAGCAAAAAAGAGTGAACCGGCAGCCGCTACCCGCGCGCGGCCGG -TGAATAACGCTGCGCTGGAAAGACTGGCTTCGGTCACCGATCGCGTTCAGGCGCGTCCGGTGCCATCGGC -GCTGGAAAAAGCGCCAGCCAAAAAAGAAGCGTATCGCTGGAAGGCGACCACTCCGGTGATGCAGCAAAAA -GAAGTGGTCGCCACGCCGAAGGCGCTGAAAAAAGCGCTGGAACATGAAAAAACGCCGGAACTGGCGGCGA -AGCTAGCGGCAGAAGCCATTGAGCGCGACCCGTGGGCGGCACAGGTGAGCCAACTTTCGCTACCAAAACT -GGTCGAACAGGTGGCGTTAAATGCCTGGAAAGAGGAGAGCGACAACGCAGTATGTCTGCATTTGCGCTCC -TCTCAGCGGCATTTGAACAACCGCGGTGCACAGCAAAAACTGGCTGAAGCGTTGAGCATGTTAAAAGGTT -CAACGGTTGAACTGACTATCGTTGAAGATGATAATCCCGCGGTGCGTACGCCGCTGGAGTGGCGTCAGGC -GATATACGAAGAAAAACTTGCGCAGGCGCGCGAGTCCATTATTGCGGATAATAATATTCAGACCCTGCGT -CGGTTCTTCGATGCGGAGCTGGATGAAGAAAGTATCCGCCCCATTTGATCGTAAGCACAGCTTACGTTCG -TCATCCTTAACGTGATTGAGAGAGAAACCTATGTTTGGTAAAGGCGGTCTGGGTAACCTGATGAAGCAAG -CCCAGCAGATGCAAGAAAAAATGCAGAAAATGCAGGAAGAGATCGCGCAGCTGGAAGTCACCGGCGAATC -TGGCGCAGGTCTGGTAAAAGTGACCATCAACGGTGCACACAACTGCCGTCGCGTAGAGATCGACCCGAGC -CTGCTGGAAGACGACAAAGAGATGCTGGAAGACCTGGTGGCTGCAGCATTCAACGACGCAGCACGTCGTA -TTGAAGAAACGCAGAAAGAAAAAATGGCCTCTGTATCCTCCGGAATGCAGCTGCCGCCTGGCTTTAAGAT -GCCGTTCTGATGCAAACCAGCCCGCTGTTAACACAGCTTATGGAAGCACTGCGCTGTCTGCCGGGCGTTG -GCCCGAAGTCGGCGCAGCGTATGGCGTTCACGCTGCTTCAGCGCGATCGTAGCGGCGGGATGCGTCTGGC -GCAGGCGCTCACCCGGGCGATGTCGGAAATCGGCCACTGCGCCGATTGCCGCACTTTCACCGAACAGGAA -GTCTGTAACATCTGTTCGAATCCGCGTCGTCAGGAAAACGGTCAAATCTGCGTGGTGGAGAGTCCGGCGG -ACATCTACGCCATTGAGCAGACGGGGCAGTTTTCAGGTCGTTATTTTGTGTTGATGGGGCATCTGTCACC -GCTGGACGGCATCGGTCCGGATGATATCGGGCTTGATCGTCTGGAACAGCGTCTGGCAGAGGAAAAAATC -ACTGAAGTGATCCTCGCCACCAACCCCACGGTTGAAGGTGAAGCTACCGCTAACTACATTGCCGAGCTTT -GCGCGCAATATGACGTGGAAGCCAGCCGAATCGCTCATGGCGTTCCGGTTGGCGGCGAGCTGGAAATGGT -CGACGGCACCACGTTGTCACACTCCCTTGCCGGGCGTCATAAGATTCGTTTTTAAGCAAACGAGAGCAGG -ATCACCTGCTCTCGCTTGAAATTATTCTCCCTTGTCCCCATCTCTCCCACATCCTGTTTTTAACCTTAAA -ATGGCATTATTGAGGTAGACCTACATGAAAGGACAAGAAACTCGTGGTTTTCAGTCAGAAGTGAAACAGC -TTCTGCACCTGATGATCCATTCTCTCTATTCCAATAAAGAAATCTTCCTGCGTGAGCTTATCTCTAACGC -CTCCGATGCGGCGGACAAGCTGCGTTTCCGTGCGCTCTCTAACCCGGACCTGTACGAAGGTGATGGCGAA -CTACGCGTTCGTGTCTCTTTCGATAAAGACAAGCGTACGCTGACCATCTCCGATAACGGCGTGGGGATGA -CCCGCGACGAAGTGATTGACCATCTGGGGACTATCGCTAAATCCGGTACCAAATCATTCCTCGAATCCCT -GGGTTCTGACCAGGCGAAAGACAGCCAGCTGATCGGTCAGTTTGGTGTTGGTTTCTACTCTGCGTTTATC -GTGGCCGACAAAGTGACCGTGCGTACTCGCGCGGCAGGCGAAAAACCAGAAAATGGCGTCTTCTGGGAAT -CGGCTGGCGAAGGTGAATACACCGTTGCCGACATCACCAAAGAAGATCGTGGTACTGAAATCACCCTGCA -TCTGCGTGAAGGCGAAGACGAGTTCCTCGATGACTGGCGCGTGCGTTCCATCATCAGCAAATACTCCGAC -CATATCGCGCTGCCGGTAGAGATCGAAAAACGCGAAGAGAAAGACGGCGAAACCGTTATCTCCTGGGAGA -AAATCAACAAAGCGCAGGCGCTGTGGACTCGTAACAAGTCGGAAATCACCGATGAAGAGTACAAAGAGTT -CTACAAACACATCGCCCACGACTTTAATGATCCGCTGACCTGGAGCCACAACCGTGTTGAAGGTAAGCAG -GAGTACACCAGCCTGCTGTACATCCCGTCCCAGGCTCCGTGGGATATGTGGAACCGCGATCATAAACACG -GCCTGAAACTGTATGTTCAGCGTGTGTTCATCATGGACGACGCAGAACAGTTCATGCCGAACTATCTGCG -CTTCGTGCGTGGTCTGATTGACTCCAGCGATCTGCCGCTGAACGTTTCCCGTGAAATCCTCCAGGACAGC -ACGGTAACGCGTAACCTGCGCAATGCGCTGACCAAGCGTGTGCTGCAAATGCTGGAAAAACTGGCGAAAG -ACGACGCGGAAAAATACCAGACCTTCTGGCAACAGTTTGGCCTGGTACTGAAAGAAGGTCCGGCGGAAGA -TTTCGCTAACCAGGAAGCGATCGCCAAACTGCTGCGTTTTGCTTCTACCCATACCGATTCTTCTGCGCAG -ACCGTATCTCTGGAAGACTACGTTTCCCGCATGAAAGAAGGGCAGGAGAAAATCTACTACATCACCGCAG -ACAGCTATGCGGCAGCGAAGAGCAGCCCGCACCTGGAACTGCTGCGTAAGAAAGGCATCGAAGTTCTGCT -GCTTTCCGACCGCATCGATGAGTGGATGATGAACTATCTGACTGAGTTCGACGGTAAACCGTTCCAGTCG -GTGTCTAAAGTTGACGAGTCGCTTGAAAAACTGGCTGACGAAGTTGATGAGAGCGCGAAAGAAGCGGAGA -AAGCACTGACTCCGTTCATCGACCGTGTGAAAGCCCTGCTCGGCGAGCGCGTGAAAGATGTCCGTCTGAC -TCACCGTCTGACCGATACGCCAGCGATCGTTTCGACCGACGCGGACGAAATGAGCACTCAGATGGCGAAA -CTGTTCGCTGCGGCGGGCCAGAAAGTGCCAGAAGTGAAATACATCTTCGAACTGAACCCGGATCACGTAC -TGGTGAAACGTGCGGCAGATACTGAAGATGAAGCGAAGTTCAGCGAGTGGGTAGAACTGCTGCTGGATCA -GGCGCTGCTGGCAGAACGCGGCACGCTGGAAGATCCGAACCTGTTTATTCGTCGTATGAACCAGCTGCTG -GTTTCCTGATGTAATGCCGGATGACCTTCGTGTCATCCGGCATTTTTCTTTTCATCATCTGCACTTTCCG -CAAATTATCTCGCCATTAACCGTTTCAGCCCCAGGTGCCTTTCTTGAGGCAATCGCCTGTTGGTGGTATC -GTTTATCGCTTTTTCAAAAAATTCGACACATTTTAAGGGGATTTTCGCAATGCGTATCATTCTGCTTGGC -GCTCCGGGCGCGGGGAAAGGGACTCAGGCTCAGTTCATCATGGAGAAATATGGTATTCCGCAAATCTCCA -CTGGCGATATGCTGCGTGCTGCGGTCAAATCTGGCTCCGAGCTGGGTAAACAAGCAAAAGACATTATGGA -TGCTGGCAAACTGGTCACCGACGAACTGGTGATCGCGCTGGTTAAAGAGCGCATTGCTCAGGAAGACTGC -CGTAATGGTTTCCTGTTGGACGGCTTCCCGCGTACCATTCCGCAGGCAGACGCGATGAAAGAAGCGGGCA -TCAATGTTGATTACGTTCTGGAATTCGACGTACCGGACGAACTGATCGTTGACCGTATCGTCGGTCGCCG -CGTTCATGCGCCGTCTGGTCGTGTTTATCACGTTAAATTCAATCCGCCGAAAGTAGAAGGCAAAGACGAC -GTTACCGGTGAAGAACTGACTACCCGTAAAGATGATCAGGAAGAGACCGTACGTAAACGTCTGGTTGAAT -ACCATCAGATGACAGCACCGCTGATCGGCTACTACTCCAAAGAAGCAGAAGCGGGTAATACCAAATACGC -GAAAGTTGACGGCACCAAGCCGGTTGCTGAAGTTCGCGCTGATCTGGAAAAAATCCTCGGCTAATTCGAA -AGCGCGCACGGACAGTCCCCTCGCCCCCTCGGGGAGAGGGTTAGGGTGAGGGGAACAGGCCCGCACAAGC -AAACTTATCAGCAATCTCAGGCCGGATATTCATTCGGCCTTTTACAAAAACCTCAATCTGCGCTATTCCT -TTTTCTGATTTGACCTCTCACAGCAATTAGTTCTTCTTCCTCACTTTTCCGCTACAATTATCAACAAGTT -GAATCGATAAGAGGCGGTAATGCGTCAGACTAAAACCGGTATCCTGCTGGCAAACCTGGGTACGCCCGAT -GCCCCCACACCTGAAGCGGTAAAACGCTATCTGAAACAATTTTTAAGCGACAGACGCGTGGTTGATACCT -CACGGTTGTTATGGTGGCCATTGCTGCGCGGCGTGATTTTGCCGCTGCGCTCGCCGCGTGTGGCGAAGCT -GTATGCCTCTGTCTGGATGGAAGGTGGCTCGCCGCTGATGGTTTACAGCCGCCAGCAACAGCAGGCGCTG -GCACAACGTTTACCGGAGATGCCCGTAGCGCTGGGAATGAGCTACGGCTCGCCATCACTGGAAAGCGCCG -TAGATGAACTCCTGGCAGAGCATGTAGATCATATTGTGGTGCTGCCGCTTTATCCGCAATTCTCCTGTTC -TACGGTCGGTGCGGTATGGGATGAACTGGCACGCATTCTGGCGCGCAAACGTAGCATTCCGGGGATATCG -TTTATACGTGATTACGCCGATAACCACGATTACATTAATGCACTGGCGAACAGCGTACGCGCTTCTTTTG -CCAAACATGGCGAACCGGATCTGCTACTGCTCTCTTATCATGGCATTCCCCAGCGTTATGCAGATGAAGG -CGATGATTACCCGCAACGTTGCCGCACAACGACTCGTGAACTGGCTTCCGCATTGGGGATGGCACCGGAA -AAAGTGATGATGACCTTTCAGTCGCGCTTTGGTCGGGAACCCTGGCTGATGCCTTATACCGACGAAACGC -TGAAAATGCTCGGAGAAAAAGGCGTAGGTCATATTCAGGTGATGTGCCCGGGCTTTGCTGCGGATTGTCT -GGAGACGCTGGAAGAGATTGCCGAGCAAAACCGTGAGGTCTTCCTCGGTGCCGGCGGGAAAAAATATGAA -TATATTCCGGCGCTTAATGCCACGCCGGAACATATCGAAATGATGGCTAATCTTGTTGCCGCGTATCGCT -AAAGCTGAGCGGTAAAGAACTGAGCGCCGTCGCGAAGAGCCTCGTCGGCGGTTTTCATCATCCGTGAATA -ATGCAAAAAGGCGTGCAGCGTGCCTGGGTAGAGTTTGAACTCACAGGGCTGCTGATGCGCCGCTAACGTC -TGGTAAAGCAGACGGCTGTCATCCAGCAGCGGATCGAACTCCGCCCCGGCAATAAAACAGGGCGGAACTT -CGCGAGTGAGATCATTATTAAACAGACAGTAATACGGCGACTCGCGGTCCGCGTCGTTGCTTAAATATGC -CTCTTCGTACATCTGCAAATCCTGTTGCGTTAAGCCATCCCAGACACCGCCCAACAGACGACGAGTCACG -GAATCCCGTAATCCGTAAAGCCCATACCACAGCAAAACGCCCGCAACTTTACCGCAATCGATCTGTTTAT -CACGCAACCACAACGCACTGGCGAGCGCCAGCATGGCACCTGCGGAATCACCGGCAAAGCCAATGCGGGA -CATATTGATTTGATAATCCTCCGCCTGCTGGTGGAAATAACAACAAGCAGCCACAATTTCCTCTATCGCT -TGCGGAAAACGCGCTTCAGGTGAAAGGGTGTAATCAATACCAATCACCGTACATTGGCTGTAGCTTGCCA -GCAGGCGCATGATGCGATCGTGGGTATCGAGATTGCCGAGAATAAAACCGCCTCCATGCAAATAAAATAG -CGTCGCTGGGCTATCTGGCTGCGGACAAAAGAGACGTGTTTCCACCTGCCCATATTTTGTTGGAACCATG -TAAGCTCTGGTTGCCATTTCTGGAGCGCCCGCATTCCAGAATCGGCGCTCAAGCGTGTAATACTGTCGTT -GCTCAGCAATCGTTCCCGTTGCGGGCCAGGGCGGTAAATCCGGCTGAAGAGTATTCACAACGGTCTTCAT -TTCAGCAGAAATAAGGTCCAGAACAGGTAGTTTGTTTTCCGGCTTCATACAAAAACTCCTTTCAAATTAC -GTCATTGTAAGGAACCACTGCCATGAAAATGCGATCCCGCCTGCTGATATTGAAACTGGCTGCGTCTCGC -GCGCTCCCGTCAGATTGTGTTAACATTCGCCGCTCAGTTAACCACCCGTAAAAACAACCATGAAATTTCC -CGGTAAACGTAAATCCAAACATTACTTCCCCGTAAACGCACGCGATCCGCTGCTTCAGCAATTCCAGCCA -GAAAACGAAACCAGCGCTGCCTGGGTAGTGGGTATCGATCAAACGCTGGTCGATATTGAAGCGAAAGTGG -ATGATGAATTTATTGAGCGTTATGGATTAAGCGCCGGGCATTCACTGGTGATTGAGGATGATGTAGCCGA -AGCGCTTTATCAGGAACTAAAACAGAAAAACCTGATTACCCATCAGTTTGCGGGTGGCACCATTGGTAAC -ACCATGCACAACTACTCGGTGCTCGCGGACGACCGTTCGGTGCTGCTGGGCGTCATGTGCAGCAATATTG -AAATTGGCAGTTATGCCTATCGTTACCTGTGTAACACTTCCAGCCGTACCGATCTTAACTATCTACAAGG -CGTGGATGGCCCGATTGGTCGTTGCTTTACGCTGATTGGCGAGTCCGGGGAACGTACCTTTGCTATCAGT -CCAGGCCACATGAACCAGCTGCGGGCTGAAAGCATTCCGGAAGATGTGATTGCCGGAGCCTCGGCACTGG -TTCTCACCTCATATCTGGTGCGTTGCAAGCCGGGTGAACCCATGCCGGAAGCAACCATGAAAGCCATTGA -GTACGCGAAGAAATATAACGTACCGGTGGTGCTGACGCTGGGCACCAAGTTTGTCATTGCCGAGAATCCG -CAGTGGTGGCAGCAATTCCTCAAAGATCACGTCTCTATCCTTGCGATGAACGAAGATGAAGCCGAAGCGT -TGACCGGAGAAAGCGATCCGTTGTTGGCATCTGACAAGGCGCTGGACTGGGTAGATCTGGTGCTGTGCAC -CGCCGGGCCAATCGGCTTGTATATGGCGGGCTTTACCGAAGACGAAGCGAAACGTAAAACCCAGCATCCG -CTGCTGCCGGGCGCTATAGCGGAATTCAACCAGTATGAGTTTAGCCGCGCCATGCGCCACAAGGATTGCC -AGAATCCGCTGCGTGTATATTCGCACATTGCGCCGTACATGGGCGGGCCGGAAAAAATCATGAACACTAA -TGGAGCGGGGGATGGCGCATTGGCAGCGTTGCTGCATGACATTACCGCCAACAGCTACCATCGTAGCAAC -GTACCAAACTCCAGCAAACATAAATTCACCTGGTTAACTTATTCATCGTTAGCGCAGGTGTGTAAATATG -CTAACCGTGTGAGCTATCAGGTACTGAACCAGCATTCACCTCGTTTAACGCGCGGCTTGCCGGAGCGTGA -AGACAGCCTGGAAGAGTCTTACTGGGATCGTTAAGTTATCGTCGGTTCGTAGGCCAGATAAGGCGTTCAC -GCCGCATCTGGCATTTGGCTCTCGATGCCTGATGCGACGCTGGCGCGTCTTATCATGCCTACATATTTTT -CATATTTTACATCCGGCAACCACCGTTTACCCCGTCACCACCTCACCCGCCGGTGGCGTTTCCAGCAGTT -CCAGCATGGTACGGGCGATTTCACGCTCGCCCATCACTACCTGATTCGCACCACGTTCGGTGATATACGC -CACTTCATCGTCATAATGGGCGCGGGCAATAATCTCAATATCCGGATTTTTCGCGCGGGCAGATGCCACA -ATCTCACCCGCTTCATAACCGTTGGGAATCGTCAGGATCAGCCATTTTGCACATTCCAGATGCGCCAGTT -GCATAATTTCTTCGTTCGCCGCATTGCCCAATACTGCGCGGACCCCGCGCTCTCGCAGCTCATCAACACG -GGTTCGTGACGTCTCAATCACCACCAGCGGAATATCAGAGGCGAGCAATTTCTCCCCCAGCAGGCTGCCT -ACACGACCGTAACCCACCAGTAGCGCATGGTTGCAAATATCCACTGGGATCTGCTTCTCTTCTTCGATTG -CCTCTTCCAGCGTCTGCTCTTCCAGCGTTTCGGTCTTCGCCAGATATTTCTCCAGTAGTGCGAACAGTAC -CGGGTTGAGCATAATCGACAGGATCGCCCCTGCCAGTACCAGGTTTTGTCCGGCCTGCGGCAGTAAATTC -AATGCCATTCCCAGTCCCGCCAGGATAAACGCGAACTCACCAATCTGCGCCAGGCTGGCGGCGATGGTTA -ATGCCGTACGTTGGGAGTGACCAAACAGTCGCACCAGGAAAAATGCGGCTAACGACTTACCAAACAGAAT -AATCGCCAGCGTCGCCAGCACTGCCAGCGGTTGCTGAATCAGAATTAACGGATCAAACAACATCCCGACG -GAGACAAAAAACAGCACCGCAAACGCGTCGCGCAATGGCAGCGTATCGTGGGCGGCACGGTGACTCAGTT -CAGACTCGTTCAGTACCATCCCGGCAAAGAACGCACCGAGTGCAAAGGAGACATCAAACAGCTCTACCGC -ACCAAAGGCAACCCCTAACGCCAGCGCCAGCACCGACAGGGTAAACAGCTCGCGAGAACCGGTTGCCGCG -CTGCGTGCCATAATCCACGGCACCAGACGGCGACCTACCAGCATCATAATGGCGATAAATGCGATCACTT -TGCCGATGGTGATCCCCATATCGACTGCAAGAGTGGCAAAGCCCACATCGCCCTGTTCCATCATTCCTGC -CACTGCGGGCAGCAACACCAGCGTCAGAACCATTACCAGGTCTTCCACAATCAACCAACCGATGGCGATT -TGCCCACGCTGACTGTCAATTAATTGCCGTTCTTCAAGTGCGCGCAGTAACACCACGGTACTGGCGGTGG -AAAGACATAAACCGAACACGATACCGGTCATTAACGACCAGCCCAGCACGGCAGAGAGCGCCATACCCAG -CAGCGTCGCCACGGCTATCTGGGCGATCGCACCGGGAATGGCGATGGCCTTTACCGCCATCAAATCCTTC -AGCGAAAAGTGCAAACCGACGCCAAACATCAACAGAATGACGCCCAGTTCAGCCAGTTCCGGGGCAAGCT -TGGTATCGGCAACAAAGCCCGGAGTGAATGGTCCTGCCAGCACACCCGCTAACAGATATCCCACCAGAGG -AGAAATACGTAGTTTATTGGCCAGCATGCCGAGGATAAAGGCGAGCACAAGGCCGCCAACAATGGTGGTG -ATAAGCGGGGTGGCGTGATGCATTCCGTCTCCTTTTCCTGGTGGTTATTGTCCATTTTTGGCCGGGAAAA -CCAAAATTACAGGTAATAGTTTATGACAATTTCATTGATGATGTTCATGAATAATTATTGAATTTTGCAG -AAAAATGGAATTAGCTGCAAAAAAAGCACGGATCGGAAAACAGAAGGCGGTTTAACAGAGGAAAGGCTTA -TGGCGACTGTAAAACGATGCAGCCAAAGTTTGCCTTTGGCTGCAATGAAATCAGTCTTTATGCCGGTTAT -CAGGCAGGAATATGGTCAACATCCCCAATAGTGGCAGGAAAGCACAGATTTTATAGACTAACTCGATGCT -GGTGTGATCGGCGATAAGCCCCAGAACTGCCGCTCCCAGACCTCCCATGCCAAAAGCAAAACCGAAAAAG -AGTCCAGAAACCATACCGATACGTCCTGGAAGCAGCTCCTGAGCGTAGACCAGAATGGCAGAGAATGCCG -AAGCGAGGATAAATCCAATAATCACCGTTAAAACCCCCGTCCAGTGCAGGCTGGCGTAGGGTAAAATCAG -CGTAAACGGCGCAACGCCGAGGATAGAGCCCCAAATCACATATTTCCGCCCAATTTTATCCCCTACAGGC -CCGCCGATCACCGTACCTGCCGCAACGGCAAACAGGAAGGCAAACAGATGAAGCTGAGCATTCTGGATAG -ATAATCCGAATTTTTGCATCAGATAAAAGGTGTAATAGCTGCTGATGCTCGCCATATAGAAATATTTCGA -GAAAATGAGGATTAACAGAATGCTGACCGCCAGTACAACTTTATTGCGCGGCAGTGGATTGATAATCGTC -GCTTTGGGTTTTCCTTTATTCATTCGGTGCTGTGCCGAGTACCAACGGCTGATTTGCGCCAACACCACGA -TCGCCAGCAGTGCCGCAAGCACAAACCAGGCAACGTTGCCTTTGCCATAAGGCGCGATAATCACCGCCGC -CAGCAAGGGTCCCAGGGAACTGCCAAAGTTGCCGCCGACCTGAAAGATAGATTGCGCCAGGCCATGCCGC -CCGCCGGAAGCCATACGGGCCACGCGAGAAGATTCCGGATGAAAGACCGATGAACCGGTACCGACCAGCG -CCGCCGCCAGCAGAACTGCGCCAAAACTGCCCGCCAGCGCAAGCAGCACCAGACCGCTTAAGGTAAAGCA -CATGCCAATTGGCAACGACCATGGCATCGGATATTTATCGGTCCAGTAGCCGACCACTGGTTGCAGTAGC -GAAGAGGCGAGCTGGAAGGTGAGGGTTATCATGCCAATCTGCATAAATGTCAGAGAAAATTCTGACTGAA -GCAGCGGATAAATCGCCAGAATCAGCGATTGGATCATGTCGTTCAGCAGATGTGAGAGGCTGATAGCACC -TAAAATACCAAACGATGTTCGGGCCTTGGTCGTTGACGCAGCCGCGCCCGCCACAGGCTGGGGTTGTTCA -CTCATTGCCATAGGAAAGTCACTTTTTCAGGGTTGCGATGTAAAGAATGATCTTATTTGTGATTATTACC -AGACTAACATACCTGTATGCGTCGTCTGAAGGAAGTCTCAACGCCGAATACAGAATTTCTAATCTGGATG -CAGATTTATCTTCACCGGACGCAGACTTGTCTATGATGTCGCGTCATACTATTTTTCAACACGTTGAAAT -CAGGTCAGGGAGAGAAGTATGAAATTATTGCAGCGGGGCGTGGCGTTAGCGCTGTTAACCACATTTACAC -TGGCGAGTGAAACTGCTCTGGCGTATGAGCAGGATAAAACCTACAAAATTACAGTTCTGCATACCAATGA -TCATCATGGGCATTTTTGGCGCAATGAATATGGCGAATATGGTCTGGCGGCGCAAAAAACGCTGGTGGAT -GGTATCCGCAAAGAGGTTGCGGCTGAAGGCGGTAGCGTGCTGCTACTTTCCGGTGGCGACATTAACACTG -GCGTGCCCGAGTCTGACTTACAGGATGCCGAACCTGATTTTCGCGGTATGAATCTGGTGGGCTATGACGC -GATGGCGATCGGTAATCATGAATTTGATAATCCGCTCACCGTATTACGCCAGCAGGAAAAGTGGGCCAAG -TTCCCGTTGCTTTCCGCGAATATCTACCAGAAAAGTACTGGCGAGCGCCTGTTTAAACCGTGGGCGCTGT -TTAAGCGTCAGGATCTGAAAATTGCCGTTATTGGGCTGACAACCGATGACACAGCAAAAATTGGTAACCC -GGAATACTTCACTGATATCGAATTTCGTAAGCCCGCCGATGAAGCGAAGCTGGTGATTCAGGAGCTGCAA -CAGACAGAAAAGCCAGACATTATTATCGCGGCGACCCATATGGGGCATTACGATAATGGTGAGCACGGCT -CTAACGCACCGGGCGATGTGGAGATGGCACGCGCGCTGCCTGCCGGATCGCTGGCGATGATCGTCGGTGG -TCACTCGCAAGATCCGGTCTGCATGGCGGCAGAAAACAAAAAACAGGTCGATTACGTGCCGGGTACGCCA -TGCAAACCAGATCAACAAAACGGCATCTGGATTGTGCAGGCGCATGAGTGGGGCAAATACGTGGGACGGG -CTGATTTTGAGTTTCGTAATGGCGAAATGAAAATGGTTAACTACCAGCTGATTCCGGTGAACCTGAAGAA -GAAAGTGACCTGGGAAGACGGGAAAAGCGAGCGCGTGCTTTACACTCCTGAAATCGCTGAAAACCAGCAA -ATGATCTCGCTGTTATCACCGTTCCAGAACAAAGGCAAAGCGCAGCTGGAAGTGAAAATAGGCGAAACCA -ATGGTCGTCTGGAAGGCGATCGTGACAAAGTGCGTTTTGTACAGACCAATATGGGGCGGTTGATTCTGGC -AGCCCAAATGGATCGCACTGGTGCCGACTTTGCGGTGATGAGCGGAGGCGGAATTCGTGATTCTATCGAA -GCAGGCGATATCAGCTATAAAAACGTGCTGAAAGTGCAGCCATTCGGCAATGTGGTGGTGTATGCCGACA -TGACCGGTAAAGAGGTGATTGATTACCTGACCGCCGTCGCGCAGATGAAGCCAGATTCAGGTGCCTACCC -GCAATTTGCCAACGTTAGCTTTGTGGCGAAAGACGGCAAACTGAACGACCTTAAAATCAAAGGCGAACCG -GTCGATCCGGCGAAAACTTACCGTATGGCGACATTAAACTTCAATGCCACCGGCGGTGATGGATATCCGC -GCCTTGATAACAAACCGGGCTATGTGAATACCGGCTTTATTGATGCCGAAGTGCTGAAAGCGTATATCCA -GAAAAGCTCGCCGCTGGATGTGAGTGTTTATGAACCGAAAGGTGAGGTGAGCTGGCAGTAATCCGAAAGT -GCCGGATGTTTGCATCCGGCACAATGCTTAATCGCGGCGGGCGATATCAGCAAATTTGGCATCGAGGATC -TTTGCCAGATCGCCTGCCGCCAGTTCGATATCCAGTCCGCGCTTGCCGCCGGAAACATAAATAGTGGCAA -ATTCTTGTGCGGGGGCGTCGATAATCGTTGGCAGACGTTTTTTCTGCCCCAGTGGGCTAATCCCCCCAAC -CAGGTATCCCGTCGAACGCTGCGCGACCATCGGATCGGCCATCTCAACTTTCTTGGCACCCAGCGCTTTT -GCTACTTTTTTAAGATCCAGTTGACCTGCGACCGGCGTAACGGCCACGGCAAGGTGTTTCATATCACCGT -TCACTGCCACCAGCAGCGTTTTGTAGACCTGATCCGGATTCAAACCTAATTTTTTGACGACTTCATCGCC -AAAATTGGTTTCAGCCGGATCGTGCTCGTAGGTATGGATTTGAAACGAAATCTTGTTTTTTTCGAGTAAT -TTAACTGCGGGTGTCATGGTAATTTTCCTGCCTTAAACAAAAAAACGAAGCAAGCATACGCCTGATGGCG -GTCCAAAAAAAAGAGTCATCTTGCCTAAGAGTATTGGCAGGATGGTGAGATTGAGCGACAATCGAGTTAC -ACCGTCGCTTAAAGTGACGGCATAATAATAAAAAAATGAAATTCCTCTTTGACGGGCCAATAGCGATATT -GGCCATTTTTTTAGCGCAACATTTGCGGCAAATTCCCTTCTCCATACAGGTGTAGTGCACCGACCGCGAC -CACATATCGCCCCGGCGGCATGGCGCGTAATTTATCCCGCCAGGCGAGATTTCGCTGATGCATCAGCACA -TCGTACAGCGACTGACTGAACGTATTGGGCAGCGTTATATCATTATTTTGCGGCGGTGCATTCAGCCACC -AGCTCATCATTTGTTGCAGCAACCGTGCGTTGGTATGCCAGTGGGTCAGCGTATCGTCCAGCAGCGCCAG -TCCTTTGTCAGGGAGCTGGAGCAACATGGCAATCTGGTTTTCAGCCCCTTCCAGTTCAATCACGGGTTTA -TGTTGTTGCTTCGCCGCCTGCAATAGCTGGTAATCGATACCGTATTCTGCCCGCAGCCCCAGTTTTTGTG -CCTGCGTCGCCTGAAGAACCATCGCGATTTGCCACAGCGGTTGGGTAGAAAAGAGTGAGGGAGAAATGCC -CATCTCCTGGCTAATGTGCTGCAGGTTTTGGAGTTGCTCCTCGCTAATGCGCTCTTCCAGCGCCTCGCAG -GCAGGCAAATTAGCAAAAGGCGTATCGCTGGTGGAAACATCCGCCTCGACGATCAGCGCATCGGCGTTTT -TGAGCTTTTTGAGCAAACGGGTGGGCAGGGGAGCCATATCGTGGCTACCCATATGAATACTGCCAATCAG -ATGAAAATGGCGATTGCCGGGGAGGGTGATATCGATGGCAGGCCAGGTGTAATGATTACCGCGCAGCGCG -GCCCAAAGCGTTTTTACCCGGTACAACAGATCCATACGACCTCCCTTTGTGAAATATCATGCTAGCGCGC -GGTGAGGGATGGCGCAAATGGAGTTGGAGACTTGTTTAATGTGTTTGTATGATTCAGTATGTTCTTGCAT -CGCTATTCACAAGGAAGCAACAGTTAAAAACCATGAAACAGGCAACAAGAAAACCGACGACACCCGGAGA -TATTCTTCTCTATGAATATCTGGAACCGCTCGATTTGAAAATCAATGAGTTAGCAGAGTTGCTGCATGTT -CATCGTAATAGCGTCAGTGCACTGATCAATAACAATCGTAAACTCACTACTGAGATGGCATTTCGTCTGG -CGAAAGTTTTTGATACCACAGTCGATTTTTGGCTAAACCTCCAGGCGGCGGTTGATCTTTGGGAAGTTGA -AAACAACATGCGCACCCAGGAAGAATTGGGACGGATTGAAACAGTGGCTGAATATTTGGCACGCCGTGAA -GAGCGTGCAAAAAAGGTCGCGTAAGGCCAAAACATCGCTTCATCTCGTAGGCCGGATAAGGCGTTCACGC -CGCATCCGGCATCCGAGCACCATTGCCTGATGCGACGCTTACCCGTCTTATCAGGCCTACAAACTTGTGC -CTGAACCGTAGGCCGGATAAGGCGTTTACGCCGCATCCGGCATCCGAGCACCATTGCCTGATGCGACGCT -TACGCGTCTTATCAGGCCTACAAACCTGTGCCTGAACCGTAGGCCGGATAAGGCGTTTACGCCGCATCCG -GCAGTCATGCGTCGATGCCAAATGCGCCACCCTAAAGCAGCGCATCCGCAATGATGTACTTATTCCTTCG -GTTTAAACCGCAGCAACCGGTTGGCGTTACTCACTACGGTAATCGACGAGAGCGCCATTGCCGCTCCGGC -AACTACCGGGTTAAGCAGTGTTCCAGTGAACGGCCACAAAATACCGGCGGCGACCGGAATACCGATACTG -TTGTAGATAAACGCACCGAGCAGGTTCTGCTTCATGTTGTGCAGCGTTGCGCGGGAAATAGCGAGCGCAT -CCGCAACGCCCATCAGGCTATGGCGCATCAGGGTAATCGCCGCGGTTTCAATGGCAACATCACTGCCGCC -ACCCATCGCAATGCCGACATCCGCCTGAGCCAGCGCTGGCGCGTCGTTAATGCCGTCGCCCACCATTGCC -ACCTGACGTCCTTCACTTTGCAGATGTTTGATCGCTTCGGCTTTACCGTCCGGCAGCACCCCGGCGATCA -CCTCATCAATCCCTGCTTCTTTGGCGATCGCATTGGCGGTGGTTGGGTTATCCCCGGTCAACATCACCAG -ACGATATCCCGCTTTATGCAGGCGTTGCAGCGCCGCCACGCTATCACTACGCAACGGATCGCGTACTGCC -AGCAGGGCTACCGCTTTCCCGTCAACCGCCAGCAGCACAGGCGTTGCCCCTTGCGATGCCTGAGCAGTAA -TCTCCGCTTCGATAGCTTTGGTACCAACCTGTTGCTCATTTAACAGCGCCTGATTGCCCAGCAATAACGC -ATGACCTTCAGCTTCACCGCTCACGCCCAGCCCGCGCAATGTGCGGAAACCGTTGACCTGCGGTAGCTGC -ATATCACCTGCTTTATCGAGGATCGCTCGTGCCAGCGGATGGCTGGAACCTTGCTCCAGTGCCGCCGCCA -GACGCAATGCCTGCGCTTCATCAACATCAGCAAATGTTTTCACTGCGACAACCTGCGGCTTCCCTTCAGT -CAGCGTCCCGGTTTTATCGAACACTACAGTGTCGAGTGTACTGGCGCGTTGCAGCGCGTCAGCGTCCCGC -ACCAGCACGCCAAACTCAGCCGCCCGCCCGACGCCGGAAATAATCGACATCGGCGTCGCCAGCCCCAGCG -CACACGGACAGGCAATAATCAGTACCGTGGTGGCAATCACCAGGGTATAGACAATCTGCGGTGCCGGACC -AAAGAAATACCAGATTGCCGCACTGACAAGCGCAATAACCACCACTACCGGCACAAATACGGCTGAGATT -TTATCCGCCAGCTGACCGATTTCTGGCTTGCTGCTCTGGGCCTGGCGCACCATGCGAATGATTCGTGACA -GCGTAGTATGGCTGCCAACCGCACTGGCACGAAACAGCACACTGCCGTCCTGTACCACTGTCCCGGCATG -GACGCTATCGCCTTCGCCTTTTTGCTGCGGGATTGGTTCGCCCGTCAGCATCGCTTCATCCAGCCATGCT -TCGCCCTGGGTAATCTCGCCATCTACCGGCACGCGATCGCCGGTCGTCAGGCGCAGCAACATACCTGGCT -GCACTTCTGCCAGAGGCACGCTTTTTTCACCTTCGTCAGTAACCAGGCGTGCCGTCGGCGGGGTTAAATC -GAGTAACTTTTCCAGCGCCTTAGAAGAACGCTGGCGTGCGCGCGCTTCCAGCATATGGCCGAGATTGATC -AGACCGATAATCATCGCGCTGGCTTCGTAATAAAGATGTCGCGCTTCCATCGGGAACCACTGCGGCCACA -GGTTGACGCTCATCGAATAGAGCCACGCCACGCCAGTACCCAGCGCCACCAGCGTATCCATCGTCGCCGC -ACCGTTCAGCAGGCTTTTCCATGCACTGCGGTAAAAATGGCCGCCGGCGAAAACCATCACTGCCAGGGTT -ATCAGGCCGATAACCAACCACAGGCTGCGGTTGTCAGCGGTGACCATCATGTTATCGCCGATCATCCCCC -AGACCATCACCGGGATACCCACCGCCAGTGCGACAATTGCCTGCCAGCGGAAGCGCTTCATCGTAGCGAC -GGCGGTTTCTTGCTGGCGCTCGCGGCGTTTAGCGTCATCTTCAATCGCTTCCGCGCCGTAGCCCGCTTTT -TCCACCGCCTGCACTAAATCTTGTGGGGAGGCACTGCCCATCACCAGCGCAGTACGCTCCGCCAGGTTTA -CCCGTGCCTGAGTGACGCCCGGTACGCTTTGCAGCGCATTTTGTACGCGGGTGACACAGCTGGCGCAGCT -CATGCCGCTCAGCAGCAACTGCTGGCTGTCATCGTCATCGGCGGTCGCTGCCGGAAGCGCCTCAGAAACC -GCTGTCAGTGCTTCCGACGGGATTGATGACTCCGCCAGCGGTTTAGCCTTTGGGTGGCTTACAGATGCGT -CATAACCCGCTTGTTTGATGGTTTCGATCAGCTGTTCTGCACTGGCAGTCCCGGTAACGTGCGCTTCAGT -GATAGACACATCCGCCTGCTCAACATCCGGACGCTGTTCAAGACTTTCTTTCACGCGTTTAACGCAGTGA -CCGCAGGACAGGCCGTCCAGGGTCAGGTCGATAGTTTGTGACATAAAACACTCCTTTAAGACAGTTTTGA -CTGGCTGTGATAAAGGTTAAACCTTCCAGCAAGGGGAAGGTCAAGAAATTAATAAACCAGGCGGGTAAAA -GTCCGTAAAGATTAAAAAATCGGCTCGATTTGCATCAGGATTAGACATTTATCTCTTTGTTTTCCTGTAG -TTAAGTTGCGGGTGCTAAGTTAAATCAGGATGCCTGAAAATCGGCACCGGGGTGAGGAATTACCTCCCGC -ATCTATAAAAAGGAGTTAACAAAAGATGTTAGATGCAAACAAATTACAGCAGGCAGTGGATCAGGCTTAC -ACCCAATTTCACTCACTTAACGGCGGACAAAATGCCGATTACATTCCCTTTCTGGCGAATGTACCAGGTC -AACTGGCGGCAGTGGCTATCGTGACCTGCGATGGCAACGTCTATAGTGCGGGTGACAGTGATTACCGCTT -TGCACTGGAATCCATCTCGAAAGTCTGTACGTTAGCCCTTGCGTTAGAAGATGTCGGCCCGCAGGCGGTA -CAGGACAAAATTGGCGCTGACCCGACCGGATTGCCCTTTAACTCAGTTATCGCCTTAGAGTTGCATGGCG -GCAAACCGCTTTCGCCACTGGTAAATGCTGGCGCTATTGCCACCACCAGCCTGATTAACGCTGAAAATGT -TGAACAACGCTGGCAGCGAATTTTACATATCCAACAGCAACTGGCTGGCGAGCAGGTAGCGCTCTCTGAC -GAAGTCAACCAGTCGGAACAAACAACCAACTTCCATAACCGGGCCATAGCCTGGCTGCTGTACTCCGCCG -GATATCTCTATTGTGATGCAATGGAAGCCTGTGACGTGTATACCCGTCAGTGCTCCACGCTCCTCAATAC -TATTGAACTGGCAACGCTTGGCGCGACGCTGGCGGCAGGTGGTGTGAATCCGTTGACGCATAAACGCGTT -CTTCAGGCCGACAACGTGCCGTACATTCTGGCCGAAATGATGATGGAAGGGCTGTATGGTCGCTCCGGTG -ACTGGGCGTATCGTGTTGGTTTACCGGGCAAAAGCGGTGTAGGTGGCGGTATTCTGGCGGTCGTCCCTGG -AGTGATGGGAATTGCCGCGTTCTCACCACCGCTGGACGAAGATGGCAACAGTGTTCGCGGTCAAAAAATG -GTGGCATCGGTCGCTAAGCAACTCGGCTATAACGTGTTTAAGGGCTGATCATGATGAACACGGAAGGTAA -TAACGGTAACAAACCTCTCGGTCTATGGAACGTCGTTTCCATCGGCATTGGGGCAATGGTGGGGGCGGGG -ATCTTCGCGCTGCTGGGGCAGGCTGCATTGCTAATGGAAGCCTCGACCTGGGTCGCCTTTGCTTTTGGCG -GTATTGTGGCGATGTTTTCCGGTTATGCCTATGCGCGTCTGGGGGCGAGCTATCCCAGCAATGGCGGCAT -TATCGACTTCTTTCGTCGCGGATTAGGCAACGGCGTCTTTTCGCTGGCGCTCTCGTTACTGTACCTGTTG -ACGCTGGCGGTGAGCATCGCCATGGTCGCCCGTGCTTTTGGCGCTTATGCCGTGCAGTTTTTGCATGAAG -GCAGCCAGGAGGAGCACCTTATTTTGCTCTACGCGTTGGGGATCATTGCGGTGATGACGCTTTTCAACTC -CTTAAGCAACCATGCGGTAGGGCGGCTGGAAGTGATCCTCGTCGGCATTAAAATGATGATCCTGTTATTG -CTGATTATTGCCGGTGTCTGGTCGCTGCAACCGGCGCATATTTCCGTCTCTGCGCCCCCCAGCTCCGGTG -CGTTCTTCTCCTGTATTGGGATAACTTTCCTTGCCTATGCGGGCTTTGGCATGATGGCGAACGCGGCGGA -TAAAGTGAAAGATCCGCAGGTCATTATGCCACGGGCGTTTCTGGTGGCGATTGGCGTTACCACGTTGCTT -TATATCTCGCTGGCACTGGTTTTGCTTAGCGATGTATCGGCATTAGAGTTAGAAAAATATGCCGATACCG -CCGTAGCGCAGGCTGCTTCTCCGCTGCTCGGGCATGTGGGTTATGTGATCGTCGTCATCGGCGCTTTACT -GGCGACGGCTTCAGCCATTAACGCGAACCTGTTCGCCGTGTTTAACATCATGGACAACATGGGCAGCGAA -CGCGAACTGCCGAAGCTAATGAATAAATCCCTGTGGCGGCAGAGTACCTGGGGCAACATTATTGTCGTGG -TGTTGATTATGCTGATGACGGCGGCACTGAATTTAGGCTCACTCGCCAGCGTTGCCAGCGCCACCTTTTT -GATTTGCTACCTGGCGGTGTTTGTGGTGGCGATCCGCCTGCGTCATGATATTCACGCCTCGTTGCCGATT -CTTATCGTTGGTACGTTGGTGATGTTGTTGGTGATCGTTGGCTTTATCTACAGTCTGTGGTCCCAGGGTA -GCCGTGCGTTGATATGGATTATTGGCTCACTCTTACTCAGCCTTATTGTGGCAATGGTCATGAAGCGCAA -TAAAACCGTATAACATCTCTCTGTGCGCAGTACTTCCTGTATTATTGTGGTGGCGGTCGATATTCGCACT -GGCAAAAAAACGTGCTTGAATATCTGTTGAAACCCTTTAACAAAGCACAGGAGGCGTTGCGCGAACGATG -AACATCAGCGATGTAGCAAAAATTACCGGCCTGACCAGCAAAGCCATTCGCTTCTATGAAGAGAAGGGGC -TGGTGACGCCGCCGATGCGCAGCGAAAACGGTTATCGCACCTACACGCAGCAGCATCTCAACGAACTGAC -CTTACTGCGCCAGGCACGGCAGGTGGGCTTTAACCTGGAAGAGAGCGGCGAGCTGGTGAATCTGTTTAAC -GACCCGCAGCGGCACAGCGCCGACGTCAAACGGCGCACGCTGGAGAAGGTGGCGGAGATCGAACGACACA -TTGAGGAGCTGCAATCCATGCGCGACCAGCTGCTGGCACTGGCGAATGCCTGCCCTGGCGATGACAGCGC -CGACTGCCCGATTATCGAAAATCTCTCCGGCTGCTGTCATCATCGGGCAGGGTGATTAAGACGAGACGGC -TCGGATATGTAGGGTTATCCCTTCTATCGCAATGACTTCAACATGCGTACCTGCACCGAGATCCTCGCTG -GCGCTGACAGGCCATGAACTGTCACCGACGCGCATATGACCGCGCCCGTTGACCAGCGGAGATTCCAGCA -CAAAACGTCGGCCAATCAGCTGCTGCCCGCGCTGGTTTAAATGACTATCGCTGTGCTTTTGTTCGCGCAC -CCGCCGCGACAACCATTTCCACCACAGCCAGGCGGCGAGCAGCGTCAGGATGGCAAACATTACCCCTTGC -CACTCCCAACCCAGCGGCACCAGCCAGACCACCAGGCCGGTAATCACCGCTGCCACGCCGCTCCACAACA -AATAACCATTTCCGCCCAGCATCTCGGCTGCCAGCAGCAAACCGCCGAGACTGAGCCAGAAAATATGTGG -ATGAACGACCATTAACTCCATCATGGCTGAGTCCGTTTGTTGGCGCTGTCTTTCACCAGCTCGGCAATCC -CGGCAATCGACCCCATCAGGCTGCTGGCCTCTAATGGCATCATCACTACTTTGCTGTTACTGGAGGAACC -GATCTGCTGTAACGCTTCGGTGTATTTCTGCGCTACGAAGTAGTTCACCGCCTGAATATCACCGGAGGCG -ATAGCTTCAGACACCATTTTGGTGGCGCGGGCTTCTGCTTCGGCGGAACGTTCACGCGCTTCAGCCTGTA -AAAACGCCGACTGACGTTCGCCTTCCGCTTTCAGGATTTGCGACTGTTTTTCACCTTCGGCTTTGAGGAT -TTCCGCCTGACGGATCCCTTCCGCTTCAAGAATGTAAGCGCGTTTGGTACGTTCCGCTTTCATCTGCGCG -TTCATTGAAGAGATAAGCTCTGCCGGTGGGCGCACGTCGCGAATTTCAATACGGGTGACTTTAATCCCCC -ACGGGTTGGTGGCTTCATCGACAATACGCAGCAGGCGTGAGTTGATGCTGTCGCGCTGAGAGAGCATTTC -GTCAAGTTCCATTGAACCCAGCACGGTACGGATGTTAGTCATGGTCAGGTTGATGATCGCCAGCTCCAGA -TTGCTGACTTCATAAGCCGCGCGCGGCGCGTCAATCACCTGAATAAAGCACACGGCGTCGATGGTAACGT -TGGCGTTATCTTTCGAGATAACTTCCTGGGAAGGGATATCGAGCACTTGCTCCATCATATTGATCTTGCG -ACCAATGCGATCCATAAACGGCACCACCAGACTGAGCCCCGGCTGTAACGTTTTGGTATAGCGACCAAAG -CGTTCTACTGTCCACTGATAGCCCTGCGGTACGATTTTGACACCCGCGCCGACAATGACCAGCGCGACAA -AAATGAGAATCGGGATAAAGATAAGCATCGGAAAAACCTCCTGTTGTACCGTCCATAATCAGCAAAATTG -CTGCTTGATTAAACAAATTATACCTGATTACTGAAAGAGAGTTCCCCCTTATTCCTGCGAAGGATAAACT -GTTTTTAGTAAAAATCAGAAAAAGGGAACAGCGATGCAGGAAAATAGTCCTTTGCTTCAGCTACAAAACG -TAGGATATCTGGCGGGTGATGCGAAGATTCTTAATAACATCAATTTTTCGCTGCGTGCTGGCGAATTTAA -GTTAATTACCGGTCCTTCTGGTTGTGGCAAAAGTACGCTGCTAAAAATAGTTGCTTCATTGATCAGCCCA -ACCAGCGGAACGTTACTGTTTGAAGGTGAGGATGTCAGCACACTAAAGCCAGAAATCTACCGCCAACAAG -TCTCTTACTGCGCCCAGACACCGACGCTGTTTGGCGATACGGTATACGATAATCTGATCTTTCCCTGGCA -GATCCGTAACCGGCAGCCTGACCCAGCCATTTTTCTCGATTTTCTCGAACGCTTCGCCTTGCCGGACAGC -ATTTTGACGAAGAATATCGCCGAGCTATCTGGTGGTGAAAAACAACGCATCTCATTGATTCGTAACCTGC -AATTTATGCCGAAGGTTTTATTGCTGGATGAAATAACCAGTGCGCTGGATGAAAGTAATAAACATAACGT -CAATGAGATGATCCATCGTTATGTGCGCGAGCAAAATATTGCCGTGCTGTGGGTGACACACGATAAAGAC -GAAATTAATCATGCGGATAAAGTGATTACACTGCAACCGCATGCCGGAGAAATGCAGGAAGCACGCTATG -AACTCGCATAATATTACTAACGAATCATTAGCACTGGCATTAATGCTGGTGGTGGTGGCAATCTTAATTA -GCCATAAAGAAAAACTGGCGCTGGAGAAAGATATTCTCTGGAGCGTCGGGCGAGCGATAATTCAGCTGAT -TATTGTCGGCTATGTGCTGAAGTATATTTTCAGCGTGGATGATGCCAGCCTGACATTATTGATGGTGTTA -TTTATCTGCTTTAATGCGGCGTGGAACGCGCAAAAACGCAGTAAATATATTGCTAAAGCTTTTATCTCAT -CGTTTATTGCCATTACGGTCGGGGCGGGAATTACCCTGGCGGTGCTGATTCTCTCAGGGTCGATTGAATT -TATCCCGATGCAGGTGATCCCTATCGCCGGGATGATTGCCGGTAACGCCATGGTAGCGGTGGGGTTGTGT -TACAACAATTTAGGGCAACGGGTCATTAGCGAACAGCAACAGATTCAGGAGAAACTGAGTCTTGGTGCGA -CGCCGAAGCAGGCTTCAGCGATATTGATTCGCGACAGTATTCGCGCGGCTTTAATTCCGACGGTCGATTC -AGCAAAAACGGTTGGCTTAGTGAGTTTACCAGGAATGATGTCCGGGCTGATATTTGCCGGGATTGATCCG -GTGAAGGCGATTAAATATCAGATTATGGTGACCTTTATGCTGCTCTCAACCGCCAGCTTGTCGACCATTA -TTGCCTGCTATTTAACCTATCGTAAGTTTTATAATTCGCGCCACCAGTTGGTGGTGACGCAATTGAAGAA -GAAATGATGCGATGCCGGATGCGCAGCATCGCATCCGGCGTTGTGGTTCATGTGCCGATCAACGGAATAT -CAATACAACAATGCATACAGCTGGCGGCGATACTTCGACGCCAGTGCATCACCCGTACCCAGCGCAGCGA -GGATCTCCTGGAACGTTTTACGCGTCTGACCGTCTGCGGCGGTGAGATCTTTACGCAGATGCCCGAACAG -CAACTCCAGCGCCTCTTCATTGCGCCCAACCTGATGCAGTTGCAGCGCCAGTTGCGTCGCCAGTGCGGCA -TCTTCTGGATTCTCCGCCACCTGCTGTTGCAACTGTTGAATTTCCGGCGTATCAGCCGCCTGCTTCAGCA -GTTCGATTTGCGCCACCAGCCCCTGGTAGCGGGTGTCCTGATCCTGCAACGGAATGGTTTTCAGCACCGC -TTCCGCATCTTCAGAACGGTTCAGCGCAATCAGCGTTTCTGCCAGCAGCAGGCCGATCTCCCCGTTCTGA -TTCGACAACTGCCAGGCGTCTTTCAGCAATGGCAGGGCATCGGTGTAATTGCTTTCCTGCATCAGTTGCA -TCGCCTGCTGCGCTTTCAGCTCTTCTTCGCGCGGCAGCACTTTATCCAGCAGGGCGCGGATCGCCTCTTC -CGGTTGCGGCCCCTGGAAGCCATCTACCGGTTGCCCGTTCTGGAACAGATACACGGTCGGAATCGCACGC -AGACCAAACTGCGCGGCAATCATCTGCTCCGCGTCGCAGTCCAGCTTCGCCAGAATAAATTGCCCGTTGT -ACTGCGCCGCGAGGCTTTCCAGAATTGGGGTTAACTGCAAACAGTGCTGGCTACGTTCAGACCAAAAATA -GAACAGCACCGGAGTGGTCATCGACTGTTCAAGAACCTGTTGCAGGTTAGATTCGTTAATGTTGACAATA -TTTTCTACGGACATGGAGTCGCTCTCTGTTGTCGATATTTTCTTTGACATGGGGGCTTAAGCGCGCGCTT -CAACTCACCCCTGCAATATTTTGTCCATCACGCGCCCCGGCAGCAGGCGCTTAAGCACCATTACCGCCCA -GGTCACCAGCGTCACCGGATAGCGCATCTTCGGCTTCTCGCTAATAAAAGCATGGCGTACTTTGTCCACC -ACCGCTTCCGGTCCCAACGTAAAGCGGGCGGCGATGCCGGGATTTTCGACTGGTTTATCACTTTGCGTCT -GGTTGACGTTGTCGGTGAAGCGAGTACGAATGGGACCGGGTTCGATCAGGCTGACTTTAATTCCGCTGTG -GCGCAGCTCCATGCGCAGTGCATCTGACCACGCCTCCAGCGCATATTTACTGGCCGCGTAAGCGCCACGA -CCCGGCGTGGAGATTAATCCCATCACCGATGATGTCATCACAATACGCCCTTCACCGTGCGGTAACATCG -CGGGTAACAGGCGCATGGTGAGCTGGTGTGCGCCGAAAAAGTTGGCGGAAAACTGCTGTTCCATCTGCGC -ACGGCTGATGGTGGAAAGGGGGCCATACATGCCGAATCCGGCATTGTTAAAGATCCCATACAGACAATTA -TCGGTCAGGGCGATCACCTCGTCGGCTGCGCGATCAACACTTTCTGGTGAATCCAGATCGATCAACACGC -CGGTAAATCCCATGCTGTTCATGCGCTCAACATCATCCGGTTTCCGGCAACCTGCCAGCACATGAAAACC -CTGGCGTTTTAATTCGAGCGCGCTTTCCAGGCCAATTCCACTGGAACATCCGGTAATTAAGACCGATTTT -TGCATAACTTTACCTGTCAGGATCTCCGTTGCTTTATGAGTCATGATTTACTAAAGGCTGCAACTGCTTC -GCCATCCAGTCGGCAATAAACGGCTGGGCGTCGCGGTTGGGATGAATACCGTCATCCTGCATCCATTGTG -GCTTGAGGTAGACCTCTTCCATAAAAAAGGGCAGCAGCGGAACATCAAACTCTTTGGCGAGTTTGGGGTA -AATGGCGCTAAAGGCTTCATTATAACGGCGACCATAGTTTGCAGGCAGACGTATTTGCATTAACAATGGT -TCAGCGTTGGCGGCTTTGACATCCTGCAAAATCTGGCGCAGCGTTTGCTCGGTTTGCTGTGGCTGAAAAC -CACGCAAACCGTCATTGCCGCCCAGTTCAACCAGCACCCAACGCGGCTGATGCTGTTTCAGCAGAGCCGG -AAGGCGCGCCAGTCCTTGTTGCGAGGTGTCGCCGCTGATGCTGGCATTAACTACCGACGTTTTACTCTGC -CACTTATCATTCAACAAGGCAGGCCAGGCCGCGCTGGCAGACATTCGATACCCGGCGCTCAGGCTATCAC -CCAGAATCAATAACGTGTCCGCTGCGGCGGCACGGAAGGTTAACAGGACCAGGAACAGGAAGGGCAAATG -CCAGCGGAAAACATTGTTGAAGTTCATCATCTTAAGAAGTCCGTCGGTCAGGGGGAGCATGAACTCTCCA -TCCTCACCGGAGTTGAGCTGGTTGTCAAACGTGGCGAGACCATCGCACTGGTGGGCGAGTCGGGATCGGG -TAAGTCAACCTTGCTGGCGATCCTCGCCGGGCTTGATGACGGCAGCAGTGGCGAAGTGAGTCTGGTGGGA -CAACCGCTACATAATATGGACGAAGAAGCGCGGGCAAAGTTGCGCGCGAAGCACGTCGGCTTTGTTTTTC -AGTCATTTATGTTAATTCCTACCCTTAACGCGCTGGAAAACGTCGAGCTTCCGGCTCTGCTGCGCGGTGA -GAGTAGCGCGGAAAGTCGTAACGGGGCGAAAGCGTTGCTCGAACAGTTAGGGCTGGGTAAACGTCTGGAT -CATCTTCCGGCACAGCTTTCCGGCGGTGAACAGCAACGAGTGGCGCTGGCACGAGCCTTTAATGGTCGAC -CTGATGTGCTGTTTGCCGACGAACCCACCGGCAACCTTGACCGCCAGACGGGCGATAAAATTGCCGACCT -GCTGTTTTCCCTCAACCGTGAACATGGCACCACGTTGATTATGGTGACCCACGACCTGCAACTGGCGGCA -CGCTGCGACCGCTGCTTACGGCTGGTGAACGGGCAGTTGCAGGAGGAAGCATGATTGCACGTTGGTTCTG -GCGCGAATGGCGTTCGCCGTCGCTATTAATTGTCTGGCTGGCGCTAAGCCTGGCGGTGGCCTGCGTGCTG -GCGCTGGGCAATATCAGCGATCGCATGGAGAAGGGCTTAAGCCAGCAAAGCCGTGAGTTTATGGCGGGCG -ATCGGGCGTTGCGCAGTTCACGCGAAGTGCCGCAAGCGTGGCTGGAGGAAGCGCAAAAGCGCGGCCTGAA -AGTCGGCAAGCAGCTGACTTTCGCCACAATGACCTTTGCAGGCGACACACCGCAGCTGGCGAACGTCAAA -GCGGTGGATGATATCTACCCGATGTATGGCGATCTGCAAACTAATCCCCCTGGCCTGAAACCGCAGGCGG -GCAGCGTATTGCTGGCCCCACGCCTGATGGCACTGCTTAACCTGAAAACGGGCGACACCATTGACGTGGG -CGATGCCACCTTGCGGATTGCCGGAGAAGTGATTCAGGAACCGGATTCCGGTTTTAACCCCTTCCAGATG -GCTCCGCGTCTGATGATGAATCTGGCGGATGTCGATAAAACCGGAGCCGTGCAGCCGGGGAGTCGGGTCA -CCTGGCGTTATAAATTCGGCGGCAACGAGAACCAGCTCGACGGCTATGAGAAATGGTTGTTACCTCAGCT -TAAACCCGAACAACGCTGGTACGGTCTGGAACAGGACGAAGGCGCGCTGGGGCGATCGATGGAACGCTCG -CAACAGTTCCTGCTGCTTTCGGCGCTTCTGACCTTGCTGCTGGCAGTGGCAGCGGTGGCGGTAGCGATGA -ATCATTACTGTCGCAGTCGCTACGATCTGGTGGCGATCCTCAAAACGCTGGGGGCAGGGCGAGCGCAACT -GCGTAAGCTAATCGTCGGTCAGTGGTTGATGGTGCTGACGCTTTCAGCCGTTACCGGTGGGGCCATAGGC -CTGTTGTTCGAAAACGTGTTGATGGTGCTGCTCAAGCCCGTTCTGCCTGCTGCACTACCGCCAGCCAGCC -TCTGGCCGTGGCTGTGGGCGCTTGGCACCATGACGGTCATCTCGCTGCTGGTGGGGCTACGACCATATCG -CTTGTTGCTGGCAACGCAGCCTTTACGCGTATTACGTAATGATGTGGTAGCGAACGTCTGGCCGCTGAAG -TTTTATCTGCCGATTGTCAGTGTGGTGGTTGTGCTGCTGCTCGCCGGATTAATGGGTGGCAGCATGCTGC -TTTGGGCGGTGCTGGCGGGCGCGGTAGTACTGGCTTTGCTGTGCGGTGTGCTGGGCTGGATGCTGCTGAA -TGTACTTCGCCGCATGACGCTGAAATCGCTGCCTCTGCGCCTGGCGGTTAGCCGCCTGTTACGTCAGCCG -TGGTCAACGTTAAGTCAGCTTTCGGCATTTTCGCTCTCCTTTATGCTGCTGGCACTGCTGCTGGTGTTGC -GTGGCGATCTGCTCGACCGCTGGCAGCAGCAGCTACCTCCAGAAAGCCCGAACTACTTTTTAATTAACAT -CGCCACAGAACAGGTAGCACCGCTAAAAGCGTTCCTCGCGGAACATCAGATAGTCCCGGAATCGTTTTAT -CCGGTGGTGCGGGCGCGGCTGACGGCGATTAACGATAAGCCGACAGAAGGTAATGAAGATGAGGCGCTTA -ACCGCGAACTCAATCTTACCTGGCAAAATACGCGGCCCGATCATAATCCGATTGTCGCCGGTAACTGGCC -GCCAAAAGCCGATGAAGTGTCGATGGAAGAGGGGCTGGCGAAACGCTTAAACGTTGCCCTCGGTGATACC -GTGACTTTTATGGGCGATACCCAGGAGTTCCGCGCTAAAGTGACCAGCCTGCGCAAAGTGGACTGGGAAA -GTCTGCGGCCTAATTTCTATTTTATTTTCCCTGAAGGGGCATTAGACGGGCAACCGCAGAGCTGGCTTAC -CAGTTTCCGCTGGGAGAATGGCAACGGCATGTTGACACAACTCAACCGCCAGTTCCCGACCATTAGCCTG -TTAGATATTGGCGCGATTTTAAAACAGGTCGGTCAGGTGCTGGAGCAGGTAAGTCGGGCGCTGGAAGTGA -TGGTGGTACTGGTCACCGCCTGCGGTATGTTGCTGTTGCTGGCACAGGTGCAGGTGGGAATGCGTCAGCG -TCATCAGGAGCTGGTGGTGTGGCGCACACTCGGTGCGGGGAAAAAACTGCTGCGTACCACGTTGTGGTGT -GAGTTCGCCATGCTTGGGTTTGTTTCCGGCCTGGTGGCCGCAATTGGTGCGGAAACGGCGCTGGCAGTGT -TGCAGGCGAAAGTGTTTGATTTTCCGTGGGAGCCAGACTGGCGATTGTGGATTGTTCTGCCGTGCAGCGG -AGCGCTGCTGCTGTCGCTTTTCGGCGGCTGGCTGGGTGCGCGACTGGTTAAGGGTAAGGCGCTGTTCAGG -CAGTTTGCGGGGTGATGAGAGTAAATAAGGGGCGTTCTGGTTGAATGGAACGCCTTGTTTAAATTAATTC -TACAATATGTTTCATTGATGATGTTATTGAATTGGTGATTTCCTATCTTTCTATTGCTGATATTAATCTG -AATCGGTGGAGTTTATTGATTTTAAATATAGCCCTACAAAAATAACTCAGACTAATAAAATCATAAATCA -TATGCGTTGAATGGATATTATCCATATAGTGAATTTGTTGATGATGAATTCATCTGTGCTAAAAATGTTA -GTTTAATAAAATATTGAAAGTGACCTGTAATAACAGTTGTTGTTGATTGAGAACAAATAAGTTTATGTGA -AAAATATATAAATACATTAGCTGGTCTTGTGTGTCATTTTATTTTTTTTTGTTGCTAACACAGGGATATG -AACAATAACTAAAAGGGCACTTTATATGAGCGGAAAACCAGCGGCGCGTCAGGGAGATATGACTCAGTAT -GGCGGTCCCATTGTCCAGGGTTCGGCAGGTGTAAGAATTGGCGCGCCCACCGGCGTGGCGTGCTCGGTGT -GTCCGGGCGGGATGACTTCGGGCAACCCGGTAAATCCGCTGCTGGGGGCGAAGGTGCTGCCCGGCGAGAC -GGACCTTGCGCTGCCCGGCCCGCTGCCGTTCATTCTCTCCCGCACCTACAGCAGCTACCGGACGAAGACG -CCTGCACCGGTGGGCGTTTTCGGCCCCGGCTGGAAAGCGCCTTCTGATATCCGCTTACAGCTACGTGATG -ACGGACTGATACTCAACGACAACGGCGGGCGGAGCATTCACTTTGAGCCGCTGCTGCCGGGGGAGGCGGT -GTACAGCCGCAGTGAGTCAATGTGGCTGGTGCGCGGTGGTAAGGCAGCACAGCCGGACGGCCATACGCTG -GCGCGGCTGTGGGGGGCGCTGCCGCCGGATATCCGGTTAAGCCCGCATCTTTACCTGGCGACCAACAGCG -CACAGGGGCCGTGGTGGATACTGGGGTGGTCTGAGCGGGTGCCGGGTGCTGAGGACGTACTGCCAGCGCC -GCTGCCGCCGTACCGGGTGCTTACCGGGATGGCGGACCGCTTCGGGCGGACGCTGACGTACCGGCGTGAG -GCCGCCGGTGACCTGGCCGGGGAAATCACCGGCGTGACGGACGGTGCCGGGCGGGAGTTCCGTCTGGTGC -TGACCACGCAGGCGCAGCGTGCGGAAGAGGCCCGCACCTCTTCGCTATCTTCTTCTGACAGTTCCCGCCC -TCTCTCAGCCTCAGCGTTCCCCGACACACTGCCCGGTACCGAATACGGCCCCGACAGGGGTATCCGCCTT -TCGGCGGTGTGGCTGATGCACGACCCGGCATACCCGGAGAGCCTGCCCGCTGCGCCACTGGTGCGGTACA -CGTATACGGAAGCCGGTGAACTGCTGGCGGTATATGACCGCAGCAATACGCAGGTGCGCGCTTTCACGTA -TGACGCGCAGCACCCGGGCCGGATGGTGGCGCACCGTTACGCGGGAAGGCCGGAGATGCGCTACCGCTAC -GACGATACGGGGCGGGTGGTGGAGCAACTGAACCCGGCAGGGTTAAGCTACCGCTATCTTTATGAGCAGG -ACCGCATCACCGTCACCGACAGCCTGAACCGGCGTGAGGTGCTGCATACAGAAGGCGGGGCCGGGCTGAA -ACGGGTGGTGAAAAAAGAACTGGCGGACGGCAGCGTCACGCGCAGCGGGTATGACGCGGCAGGAAGGCTC -ACGGCGCAGACGGACGCGGCGGGACGGAGGACAGAGTACGGTCTGAATGTGGTGTCCGGCGATATCACGG -ACATCACCACACCGGACGGGCGGGAGACGAAATTTTACTATAACGACGGGAACCAGCTGACGGCGGTGGT -GTCCCCGGACGGGCTGGAGAGCCGCCGGGAATATGATGAACCGGGCAGGCTGGTATCGGAGACATCGCGC -AGCGGGGAGACAGTACGCTACCGCTACGATGACGCGCACAGTGAGTTACCGGCGACGACAACGGATGCGA -CGGGCAGCACCCGGCAGATGACCTGGAGCCGCTACGGGCAGTTGCTGGCGTTCACCGACTGCTCGGGCTA -CCAGACCCGTTATGAATACGACCGCTTCGGCCAGATGACGGCGGTCCACCGCGAGGAAGGCATCAGCCTT -TACCGCCGCTATGACAACCGTGGCCGGTTAACCTCGGTGAAAGACGCACAGGGCCGTGAAACGCGGTATG -AATACAACGCCGCAGGCGACCTGACTGCCGTTATCACCCCGGACGGCAACCGGAGCGAGACACAGTACGA -TGCGTGGGGAAAGGCGGTCAGCACCACGCAGGGCGGGCTGACGCGCAGTATGGAGTACGATGCTGCCGGA -CGTGTCATCAGCCTGACCAACGAGAACGGCAGCCACAGCGTCTTCAGTTACGATGCGCTGGACCGGCTGG -TACAGCAGGGCGGCTTTGACGGGCGGACGCAACGTTATCATTATGACCTGACCGGAAAACTCACACAGAG -TGAGGATGAGGGACTTGTCATCCTCTGGTACTACGATGAATCGGACCGTATCACTCACCGCACGGTGAAC -GGCGAACCGGCAGAGCAGTGGCAGTATGATGGCCACGGCTGGCTGACAGACATCAGCCACCTGAGCGAAG -GCCACCGTGTTGCCGTCCACTATGGCTATGACGATAAAGGCCGCCTGACCGGCGAATGCCAGACGGTGGA -GAACCCGGAGACGGGGGAACTGCTGTGGCAGCATGAGACGAAACACGCATACAACGAGCAGGGGCTGGCA -AACCGCGTCACGCCGGACAGCCTGCCGCCGGTGGAGTGGCTGACGTATGGCAGCGGTTACCTGGCGGGAA -TGAAGCTGGGCGGGACGCCGCTGGTCGAGTATACGCGGGACAGGCTGCACCGTGAGACGGTGCGCAGCTT -CGGCAGCATGGCAGGCAGTAATGCCGCATACGAACTGACCAGCACATACACCCCCGCAGGCCAGTTACAG -AGCCAGCACCTGAACAGCCTGGTATATGACCGTGACTACGGGTGGAGTGACAACGGCGACCTGGTGCGCA -TCAGCGGCCCGCGACAGACGCGGGAATACGGCTACAGCGCCACGGGCAGGCTGGAGAGTGTGCGCACCCT -CGCACCAGACCTGGACATCCGCATCCCGTATGCCACGGACCCGGCGGGCAACCGGCTGCCGGACCCGGAG -CTGCACCCGGACAGTACACTCACAGTGTGGCCGGATAACCGCATCGCGGAGGATGCGCACTATGTCTACC -GCCACGATGAATACGGCAGGCTGACGGAGAAGACGGACCGCATCCCGGCGGGTGTGATACGGACGGACGA -CGAGCGGACCCACCACTACCACTACGACAGCCAGCACCGCCTGGTGTTCTACACGCGGATACAGCATGGC -GAGCCACTGGTCGAGAGCCGCTACCTCTACGACCCGCTGGGACGGCGAATGGCAAAACGGGTCTGGCGGC -GGGAGCGTGACCTGACGGGGTGGATGTCGCTGTCGCGTAAACCGGAGGTGACGTGGTATGGCTGGGACGG -AGACAGGCTGACGACGGTGCAGACTGACACCACACGTATCCAGACGGTATACGAGCCGGGAAGCTTCACG -CCGCTCATCCGGGTCGAGACAGAGAACGGCGAGCGGGAAAAAGCGCAGCGGCGCAGCCTGGCAGAGACGC -TCCAGCAGGAAGGGAGTGAGAACGGCCACGGCGTGGTGTTCCCGGCTGAACTGGTGCGGCTGCTGGACAG -GCTGGAGGAAGAAATCCGGGCAGACCGCGTGAGCAGTGAAAGCCGGGCGTGGCTTGCGCAGTGCGGGCTG -ACGGTGGAGCAACTGGCCAGACAGGTGGAGCCGGAATACACACCGGCGCGAAAAGCTCATCTTTATCACT -GCGACCACCGGGGACTGCCGCTGGCGCTTATCAGCGAAGACGGCAATACGGCGTGGAGCGCGGAATATGA -TGAATGGGGCAACCAGCTTAATGAGGAGAACCCGCATCATGTGTATCAGCCGTACCGTCTGCCAGGGCAG -CAGCATGATGAGGAATCAGGGCTGTACTATAACCGTCACCGGTACTACGATCCGTTGCAGGGGCGGTATA -TTACTCAGGACCCGATGGGGTTGAAAGGGGGATGGAATTTATATCAGTATCCTTTAAATCCACTACAACA -AATTGACCCTATGGGATTATTGCAGACTTGGGATGATGCCAGATCTGGAGCATGTACGGGGGGAGTTTGT -GGTGTTCTTTCACGTATAATAGGACCAAGTAAATTTGATAGTACTGCAGATGCTGCGTTAGATGCTTTGA -AAGAAACGCAGAATAGATCTCTATGTAATGATATGGAATACTCTGGTATTGTCTGTAAAGATACTAATGG -AAAATATTTTGCATCTAAGGCAGAAACTGATAATTTAAGAAAGGAGTCATATCCTCTGAAAAGAAAATGT -CCCACAGGTACAGATAGAGTTGCTGCTTATCATACTCACGGTGCAGATAGTCATGGCGATTATGTTGATG -AATTTTTTTCAAGTAGCGATAAAAATCTTGTAAGAAGTAAAGATAATAATCTTGAAGCATTTTATCTCGC -AACACCTGATGGACGATTTGAGGCGCTTAATAATAAAGGAGAATATATTTTTATCAGAAATAGTGTCCCG -GGATTGAGTTCAGTATGCATACCGTATCATGATTAATTTTAGTGCTTTTATTAGTGGGGCCTATAAGGAG -ATTCAATGAAATATAGTTCAATATTTTCGATGCTTTCATTTTTTATACTATTTGCCTGTAATGAGACAGC -TGTTTACGGTTCTGATGAAAACATTATTTTTATGAGGTATGTGGAAAAATTACATTTAGATAAATACTCT -GTTAAAAATACGGTAAAAACTGAAACAATGGCGATACAATTAGCTGAAATATATGTTAGGTATCGCTATG -GCGAACGGATTGCAGAAGAAGAAAAACCATATTTAATTACGGAACTACCAGATAGTTGGGTTGTTGAGGG -AGCAAAGTTACCTTATGAAGTTGCGGGTGGTGTATTTATTATAGAAATTAATAAGAAAAATGGATGTGTT -TTGAATTTCCTACATAGTAAATAATGCTGGCGCTGATGGATGCGGATGGAAACATTGCGTGGAGCGGGGA -GTATGATGAGTGGGGCAACCAGCTGAATGAAGAGAACCCGCATCACCTGCACCAGCCGTACCGGCTGCCG -GGGCAGCAGTATGATAAGGAGTCGGGGCTGTACTACAACCGGAACCGGTACTACGATCCGTTGCAGGGGC -GGTATATCACTCAGGACCCGATAGGGCTGGAGGGGGGATGGAGTCTGTATGCGTATCCGCTGAATCCGGT -GAATGGTATTGATCCATTAGGGTTAAGTCCCGCAGATGTAGCGCTAATAAGAAGAAAAGATCAACTAAAC -CATCAAAGAGCATGGGATATATTATCTGATACTTATGAAGATATGAAGAGATTAAATTTAGGTGGGACTG -ATCAATTTTTCCATTGTATGGCATTTTGTCGAGTGTCTAAATTAAATGACGCTGGTGTTAGCCGATCGGC -GAAAGGGCTGGGTTATGAAAAAGAGATTAGAGATTACGGGTTAAATCTGTTCGGTATGTACGGCAGAAAA -GTAAAGCTATCCCATTCTGAAATGATTGAAGATAATAAAAAAGACTTGGCTGTAAATGACCATGGGTTGA -CATGTCCATCAACAACAGATTGCTCAGATAGATGTAGTGATTATATTAATCCAGAGCATAAAAAAACGAT -AAAGGCTTTACAAGATGCTGGCTATCTCAAGTAATCTATCAAAGATGATAATATTTATTTTTGCTATTAT -AATCATTGTTGTTTTATGCGTAATTACTTATCTTTATTTATACAAAGATGAATCTCTTGTAAGTAAACAT -TACATAAACTATATGGCAATACCAGAAAATGATGGAGTTTTTACATGGCTCCCAGATTTTTTTCCGCACG -TAGCGGTGGATATATCAATATACACAAATGTAGAAGATGATTATTTTTTTCTTATTTTTCCCTAACAAAT -GATGATGGGGGTAGGTTTAAGAAAACATTGACAGTGAGGGCCAGGGAACAAGTGGCGAAAATCGTATCAA -AGAATGATCCAGATACAAAAAAAGTGTGGTGTAAATATGGTAAGATACCAGGGCAAGGGGATGGTGTAAA -CCTTTTTTTTGTTGGTGAAATTAATGTTACGCATTATTTTATAACAAATATTGGAGCTGGATTGCCTGAT -GCTTGTGCAGAGTAATTGCTTGAATTAAGAGTCTATCCCATATCGAAGTCGTCAACTTCGTAGTGAGGAA -AAGTAAAATTCCTGACTGAGAAAAGACATGTCGGCTATTGTGTAAAGCCATATAGCTCAGACGATGAATA -TCTACTCGTATTCAGTTGTTTATTGAGGGTGAGTTCCGACCCTGAAACAACAAATAAAATGAACAGTCAG -AGAGTTTACATAGAATTGCACTGGTCTTTTACGATATCTGACATTGTGTAATACATATTCAGCCATGCAT -TAATTAAAATGTTACGTGTTTAATGTGAGTCCCTATCTGAAAATAAATAATCCTTCCGGATTAAAATAAA -TTCTTGCCGGGAAAGAAAGAGGAAATAAACCATTAGCGGAAAACCAGCGGCACGCCAGGGTGACATGCCC -CAGTACGGCGGCCCGATAGTCCAGGGTTCAGCGGGGGTACTGATAGTCGCGCCGACTGCATCGAGAACTC -CATACAACTTTTTACGGAACGTCACCTGATAAAATTTGTTCAGTATCGTCTTTTGAGATTCTCAAGGTTA -TGGAGTAACCAGACAGAACGGACACCACTGTCGGAGATAAAAACCCCCTGTTTACGCAGCTCGTTGCTGG -CCCGGTGCTGACCATGTGTCGGGAAAGCGACGGCGTAATCAACAACAGCCTGTTCAGTTGCCTCATCGGT -ACGGTTCTTAAGGTTAGGAGCGCGGCGACTACGATTAATCTGCGCATCCACACCGCCTTCAGCGACCAGT -TCGCGGTAACGATAAAACGTATCACGCGAAACGCCCATGATTTTACAGGCTTTTGATACGTTGCTGAGTT -CTTCAGCCAGATTGAGCAAACCGGCTTTGTGTTTGATGACGGGATTGGCAGTATGAAGCATGAGAGTTAC -CTCTTGTTTTGGATAAGGATTCGACACTCATATCAAAACCGGTAACTCTCAACCTTTCAAGGCCATGTGT -CAGATCAAGTCGCGACTAATACAAATACGTCCCTCATTACCGCGCCTTAACCCATTCCGCCACTTCCGCC -CACTCACCGCGAAAGACAACTTTTTCCGCTTTTTTCTCAAGCTGATAGCGATACATCGGGTCGTAATATT -CTTCAAGTAACGGCACCAGCCAGGCCAGATGACCGTCGGTGCTGCCGGTGGTGAGTTGCGTTGTCAGTGC -TGCATCCAGCCTTGCAGCCAGTTCGTTATAGCGCTGTAGCCCCAGCCGACGCTTAATCGCCGAAAGTCCG -TGATGCAGGTATTCGCAATACTCCTGCCAGCCCTGTTCGTCGCCGTACGCGTGGGTAAAATCATGATGCA -TACGCAAGAAATACTCTTCGTTCAGGCGCTCAAGACGGATCTCAAACGGATCTTCTACCACCGCAATCGC -CGCCTGAGTCATTCGCTCGCGCAGGCATTCCGGCAGGTGATTCGAACCGATCATCCGGCTTTCGTCTTCC -AGCACCCACAGGCGCAAATTCTGACGGGCGTCGGTTTTTAGCATTTCGGCAGCCAGCAGGTTTTCAAAAC -TCGCCTGGCTAAGTTGTGGTTGTAACGTGCGACCAAACGCCGAACCGCGATGACGCGCCAACCCTTCCAG -ATCAACACCGTTCGGCTGTTGCTGCACTAACAGCGTTTTACCGCTGCCGGTACAACCGCCAATCAGCACT -ATCGGTTTTTGTGCCAGTTCAATAGTCGCCTGAATCGCGGTCTGGCGCAGTGCCTTATAACCGCCTTCCA -CCAGCGGATAATCAATCCCCGCTGCATGCAACCAGCTTTGCACAATATGTGAGCGCTGACCGCCACGGGC -GCAGCAGAGAATACCTTGCGGATTTTGCAGGCACGCTGCCCGCCAGGCGTCCATGCGCTGCTGACGAATT -TCACCCGCCACCAGTTTATGTCCCAGCGCCAGCGCTGCGTCTGAGCCTTGCTGTTTATAGCAGGTGCCAA -CGGCGGCGCGTTCATCGTTATTCATTAACGGCAGATTGATAGCGGCGGGCATTGCGCCGTGCTCAAACTC -GATAGGGGCGCGAACATCAATAATGGGCGTATCAGCAATCAGCAGGGCACGATAGTCCTGTTCCGTGTGT -CTCTCTTGCATAGTTAAAAGTGAACCTCAAATCAGCTTGCGCGCTATTTTACGCGCCAACGCGCAAGGAA -ACTTGATTTTTAACTGCGTGGGTTGCCGAAAATTTCTAAAAATCCGCTGATTTCCGGCCTGCGCTGGGTA -AACAAGGTCACAATATCTTCTACCGCTTTGCCGCTGCCAAATTTGCGCCATGCCAGACTCAATGGCGAAG -GAGGGCGCATCGTTGGGATTACCCGGCTGACCAGTTGTTGATTATCGATCATTGACTGGCAAAGCGATTT -TGGCAAAAAACCAATGCCAACGCCCGCCAGATGGGCGGCGATTTTCGTTTCCATATCGGGAACAATAATC -TCTTTTTGCCCTGGCAATCGCCAGGCGACGCGTTTGGTTAAGGTGCGGGCGCTGTCTTCAATATTGACCG -CCGGAAAGCGCCGCAACTGCGCTTCTGTTAGCGGCTCTTCAACGTTCGCCAGCGGATGATCCGCCGCCAT -GACAAAGCGCCATTGCACCGATCCTAAGGGATCAAGACTAAAGGTATTTGCCAGCGCCTCAGTTCCCGTG -ACGCCGATAGCCAGCGAAAAACCTTCGTACAATAGCGAGTCCCAGACGCCCATATAGATTTGTCGGGAGA -TGTGAAACTGGGTAAAGGGGTAACGCTCATTCAGCCACGCCAGCAACTGGGCGACGGCCTGGGGGTTGTA -GAGCAGGTTGTTGATGACAATATTCACCTGGCGTTCCACGCCATCATTCACCTGTTGCAGCTCGCTTGGC -ATACTTTCCAGCCAGCTCAGCCAGTCTCTGGCCTGGGAAAGTAGATGCTCGCCAGCCGCTGTCAACGTCA -CGCTGCGAGTCGTACGGAAAAACAGCGCTACTCCGGTATTCTCTTCCAGAAGTTTAATGCGATAACTGAT -CGTCGCCGTGGTTTTACATAATCGTTCTGCCGCTTTTGAAAAACTTCCTGTTTCAGCAACCGCAATGAAA -GTCCGCAAGGTTTCTGGATCGAACATCTTCAGGTATCCCCTTTTAAATCCGCAAGTTGCGTGATTTTCTT -ATCCTCTGATTTATCAGTATTTTTACATGATAACCCTGTTCAATTTGTGGACTAAATCTAGTTTTGGAAA -AATATTCCAACTTTTGTATTGATGTTGTTCTCTTAAGGTTTTAGATTGCCTGTTATTGAAACCAAGCTGA -CCGGTCGGCGGTGGTTGAACGGAATTATGTTACAAGGACAAAAAGATGAAACTTCAGGTATTACCGTTAA -GTCAGGAAGCCTTTAGTGCTTATGGCGACGTAATCGAAACGCAGCAACGGGATTTTTTCCATATTAACAA -TGGCCTGGTGGAGCGTTACCACGATTTGGCGCTGGTTGAGATTCTTGAGCAAGACTGTACGCTTATCAGC -ATTAACCGCGCGCAACCGGCGAATCTGCCGCTGACCATTCACGAACTCGAACGTCATCCGCTGGGTACTC -AGGCCTTTATCCCGATGAAAGGTGAGGTGTTTGTGGTGGTCGTGGCGTTAGGTGACGACAAACCAGACCT -GTCAACGCTGCGGGCGTTTATCACCAACGGCGAACAGGGAGTGAATTACCATCGTAACGTCTGGCATCAC -CCACTTTTCGCCTGGCAGCGCGTCACCGATTTTCTGACCATCGATCGCGGCGGCAGTGACAACTGTGATG -TTGAAAGTATTCCTGAACAGGAACTCTGTTTTGCGTGACGCCTGCAACCGACTTGCATAAGATAAACTAA -TTGTTCATTGTTTATGCTCACTTGTAGGTCGGAGTTAACGTAGGTATGACGGAAGTTAGACGGCGCGGCA -GGCCAGGACAGGCGGAGCCTGTGGCACAGAAGGGCGCACAGGCGTTAGAGCGGGGAATTGCGATTCTGCA -ATATTTGGAAAAAAGTGGGGGAAGTTCGTCGGTTAGCGATATTTCTCTCAATCTGGATTTGCCGCTCTCC -ACGACCTTTCGCTTGCTGAAGGTTTTACAGGCAGCGGATTTTGTCTATCAGGACAGTCAATTAGGCTGGT -GGCATATAGGATTAGGTGTCTTTAACGTCGGTGCGGCGTACATCCATAACCGCGATGTCCTCTCCGTCGC -CGGGCCGTTTATGCGCCGCCTGATGTTACTTTCCGGCGAAACGGTCAATGTCGCGATCCGTAACGGCAAT -GAAGCGGTATTAATTGGTCAGTTAGAGTGTAAATCGATGGTCAGGATGTGTGCGCCACTGGGCAGTCGTC -TGCCACTGCATGCTTCCGGTGCGGGCAAAGCGCTGCTTTATCCGCTGGCGGAAGAGGAGTTGATGAGCAT -CATTCTGCAAACCGGTTTGCAGCAGTTTACGCCAACTACGCTTGTGGATATGCCCACCTTGCTGAAGGAC -CTGGAACAAGCGCGTGAACTGGGCTATACCGTAGATAAAGAAGAGCATGTTGTAGGTCTGAATTGCATAG -CTTCAGCAATTTACGATGATGTCGGTAGTGTTGTTGCCGCTATCTCCATCTCCGGGCCTTCATCAAGACT -GACAGAAGATCGTTTTGTCAGTCAGGGTGAGCTGGTCAGAGACACCGCCCGCGATATCAGCACGGCGTTG -GGACTGAAAGCACATCCATAATGTCTGTCGCATCCCGCTCTGCGGAGCGGGTTTTTTTGACAAAATTTGA -AAGTTGGAAAAATTTTCCAATAAATAGAGGTAGGAATAAAATGGCAAAAATGAGAGCCGTTGACGCGGCA -ATGTATGTGCTGGAGAAAGAAGGTATCACTACCGCCTTCGGTGTTCCGGGAGCTGCAATCAATCCGTTCT -ACTCAGCGATGCGTAAGCACGGCGGTATTCGTCACATTCTGGCGCGTCATGTGGAAGGTGCTTCGCACAT -GGCGGAAGGTTATACCCGCGCAACGGCAGGGAATATCGGCGTATGTCTGGGGACTTCCGGTCCTGCGGGC -ACGGACATGATCACCGCGCTCTATTCCGCTTCTGCTGATTCCATTCCTATTCTGTGCATTACCGGCCAGG -CACCGCGCGCCCGTCTGCATAAAGAAGATTTTCAGGCCGTAGATATTGAAGCAATTGCTAAACCGGTCAG -CAAAATGGCGGTTACAGTTCGTGAAGCGGCGCTGGTGCCTCGCGTGCTGCAACAGGCATTTCACCTGATG -CGTTCTGGTCGTCCGGGTCCGGTACTGGTGGATTTACCGTTCGACGTTCAGGTTGCGGAAATCGAGTTTG -ATCCTGACATGTACGAACCGCTGCCGGTCTACAAACCTGCTGCCAGCCGTATGCAGATCGAAAAAGCTGT -AGAAATGTTAATCCAGGCCGAACGTCCGGTGATTGTTGCCGGGGGCGGGGTAATTAATGCTGACGCAGCT -GCACTGTTACAACAGTTTGCTGAACTGACCAGCGTTCCGGTGATCCCAACGCTAATGGGCTGGGGCTGTA -TCCCGGACGATCATGAACTGATGGCCGGGATGGTGGGTCTGCAAACCGCGCATCGTTACGGTAACGCAAC -GCTGCTGGCGTCTGACATGGTGTTTGGTATCGGTAACCGTTTTGCTAACCGTCATACCGGCTCGGTAGAG -AAATACACCGAAGGGCGCAAAATCGTTCATATTGATATTGAGCCGACGCAAATTGGTCGCGTGCTGTGTC -CGGATCTCGGTATTGTCTCTGATGCTAAAGCGGCGCTGACACTGCTGGTTGAAGTGGCGCAGGAGATGCA -AAAAGCGGGTCGTCTGCCGTGTCGTAAAGAATGGGTCGCCGACTGCCAGCAGCGTAAACGCACTTTGCTG -CGCAAAACCCACTTCGACAACGTGCCGGTGAAACCGCAGCGCGTGTATGAAGAGATGAACAAAGCCTTTG -GTCGCGATGTTTGTTATGTCACCACCATTGGTCTGTCACAAATCGCTGCGGCACAAATGCTGCATGTCTT -TAAAGACCGCCACTGGATCAACTGTGGTCAGGCTGGTCCGTTAGGCTGGACGATTCCGGCTGCGCTAGGG -GTTTGTGCCGCTGATCCGAAACGCAATGTGGTGGCGATTTCTGGCGACTTTGACTTCCAGTTCCTGATTG -AAGAGTTAGCTGTTGGCGCGCAGTTCAACATTCCGTACATCCATGTGCTGGTCAACAACGCTTATCTGGG -GCTGATTCGTCAGTCACAACGCGCTTTTGACATGGACTACTGCGTGCAACTCGCTTTCGAGAATATCAAC -TCCAGTGAAGTGAATGGCTACGGTGTTGACCACGTAAAAGTAGCGGAAGGTTTAGGTTGTAAAGCTATTC -GGGTCTTCAAACCGGAAGATATTGCGCCAGCCTTTGAACAGGCGAAAGCCTTAATGGCGCAATATCGGGT -ACCGGTAGTCGTGGAAGTTATTCTCGAGCGTGTGACCAATATTTCGATGGGCAGCGAACTGGATAACGTC -ATGGAATTTGAAGATATCGCCGATAACGCAGCGGACGCACCGACTGAAACCTGCTTCATGCACTATGAAT -AAGGGAGATAAATAATGTTACGTTTCTCTGCTAATTTATCGATGTTATTTGGAGAATATGATTTTCTCGC -CCGTTTTGAGAAAGCTGCGCAGTGTGGTTTTCGCGGCGTTGAATTTATGTTTCCTTATGACTACGACATT -GAAGAATTAAAACATGTGCTGGCGAGTAATAAACTCGAACATACGCTGCACAATTTACCGGCGGGTGACT -GGGCGGCGGGGGAGCGCGGTATTGCCTGTATTCCTGGCCGTGAAGAAGAGTTTCGGGATGGCGTAGCAGC -AGCGATTCGTTATGCCCGTGCGCTGGGTAATAAAAAAATTAACTGTCTGGTCGGTAAAACGCCGGCTGGT -TTCAGCAGTGAACAGATTCACGCAACGCTTGTAGAAAACCTGCGTTATGCCGCGAATATGCTGATGAAAG -AAGATATTTTATTACTGATTGAACCTATTAACCATTTTGATATTCCTGGTTTCCATCTCACCGGAACTCG -GCAGGCGCTGAAATTGATTGATGATGTTGGTTGCTGCAATTTGAAAATTCAGTATGACATTTATCATATG -CAGCGGATGGAAGGTGAATTAACCAACACCATGACTCAGTGGGCTGATAAAATTGGTCACCTGCAAATTG -CCGATAATCCGCATCGCGGCGAACCGGGAACCGGAGAAATTAATTATGATTATCTCTTTAAGGTAATCGA -AAATTCTGACTACAACGGTTGGGTTGGGTGTGAATATAAACCCCAAACCACCACGGAAGCCGGTTTACGC -TGGATGGATCCGTACCGTTAAAACGTAACGCTATTCAGACAATGCTTTTTTAGGCCGCTAAGTTGGCAGG -GGATCGTGTTGTCTGAATTCAGGAAAAGCGAAATTTAAAAGAGGTTAATTATGAAACTGGGATTTATTGG -CTTAGGCATTATGGGTACACCGATGGCCATTAATCTGGCGCGTGCCGGTCATCAATTACATGTCACGACC -ATTGGACCGGTTGCTGATGAATTACTGTCACTGGGTGCCGTCAGTGTTGAAACTGCTCGCCAGGTAACGG -AAGCATCGGACATCATTTTTATTATGGTGCCGGACACACCTCAGGTTGAAGAAGTTCTGTTCGGTGAAAA -TGGTTGTACCAAAGCCTCGCTGAAGGGCAAAACCATTGTTGATATGAGCTCCATTTCCCCGATTGAAACT -AAGCGTTTCGCTCGTCAGGTGAATGAACTGGGCGGCGATTATCTCGATGCGCCAGTCTCCGGCGGTGAAA -TCGGTGCGCGTGAAGGGACGTTGTCGATTATGGTTGGCGGTGATGAAGCGGTATTTGAACGTGTTAAACC -GCTGTTTGAACTGCTCGGTAAAAATATCACCCTCGTGGGCGGTAACGGCGATGGTCAAACCTGCAAAGTG -GCAAATCAGATTATCGTGGCGCTCAATATTGAAGCGGTTTCTGAAGCCCTGCTATTTGCTTCAAAAGCCG -GTGCGGACCCGGTACGTGTGCGCCAGGCGCTGATGGGCGGCTTTGCTTCCTCACGTATTCTGGAAGTTCA -TGGCGAGCGTATGATTAAACGCACCTTTAATCCGGGCTTCAAAATCGCTCTGCACCAGAAAGATCTCAAC -CTGGCACTGCAAAGTGCGAAAGCACTTGCGCTGAACCTGCCAAACACTGCGACCTGCCAGGAGTTATTTA -ATACCTGTGCGGCAAACGGTGGCAGCCAGTTGGATCACTCTGCGTTAGTGCAGGCGCTGGAATTAATGGC -TAACCATAAACTGGCCTGATACCCGCAATAAAAATGGCCGATATCAGAAAATGAATCGGCCAGCAATATT -AAAAAAGAAAGCAGCCAAAGATGTTGCTTCAGTATTAAAAATAATATTTTTATTTTATTTGTTCCTCATA -GCTAGATTAAAACAACGTTATTCGATACGTGAAATTAAGAGGGATTTATGGAACATCAGAGAAAACTATT -CCAGCAACGCGGCTATAGCGAAGATCTATTGCCGAAAACGCAAAGCCAGCGGACCTGGAAAACATTTAAC -TATTTTACCTTATGGATGGGTTCGGTTCATAACGTTCCCAATTATGTGATGGTCGGCGGCTTTTTTATTC -TCGGCTTGTCTACCTTTAGTATTATGCTGGCAATTATCCTCAGCGCCTTTTTCATTGCCGCGGTAATGGT -ATTAAACGGTGCTGCGGGCAGTAAATACGGTGTGCCTTTTGCCATGATCCTGCGTGCTTCTTACGGTGTA -CGTGGTGCACTGTTTCCCGGATTATTAAGGGGCGGAATTGCCGCCATCATGTGGTTTGGTTTGCAATGTT -ACGCGGGGTCACTGGCCTGCTTGATTCTGATTGGCAAAATCTGGCCGGGATTTTTAACTCTCGGTGGTGA -TTTCACTCTGTTAGGCCTTTCTCTACCGGGCTTAATTACTTTCTTAATCTTCTGGCTGGTCAACGTTGGT -ATAGGTTTTGGCGGTGGCAAAGTTTTAAATAAATTCACTGCCATTCTTAACCCGTGCATCTATATCGTTT -TCGGCGGTATGGCGATTTGGGCGATTTCACTGGTCGGGATCGGTCCAATCTTTGACTACATTCCGAGCGG -TATTCAGAAAGCAGAAAACGGTGGCTTCCTGTTCCTGGTGGTGATTAACGCGGTAGTTGCGGTCTGGGCG -GCACCGGCGGTGAGCGCATCCGACTTTACGCAAAACGCCCACTCGTTTCGTGAGCAGGCGCTGGGGCAAA -CGCTGGGTTTAGTTGTGGCCTATATTCTGTTTGCGGTCGCCGGGGTATGTATTATTGCCGGAGCCAGTAT -TCACTACGGCGCTGATACCTGGAACGTGCTGGATATTGTTCAGCGTTGGGACAGCCTGTTCGCCTCGTTC -TTTGCGGTACTGGTTATTCTGATGACAACTATCTCCACTAACGCGACCGGTAATATTATTCCAGCCGGTT -ATCAGATTGCCGCCATTGCACCGACAAAACTGACCTATAAAAACGGCGTACTGATTGCCAGTATTATCAG -CTTGCTGATCTGCCCGTGGAAATTAATGGAAAATCAGGACAGCATTTATCTTTTCCTCGATATTATCGGC -GGAATGCTTGGTCCGGTAATTGGTGTCATGATGGCGCATTATTTTGTGGTGATGCGCGGACAAATTAATC -TTGATGAACTGTATACCGCACCTGGCGATTATAAATATTACGATAACGGTTTTAACCTCACTGCGTTTTC -AGTAACTCTGGTGGCCGTTATTTTATCTCTTGGCGGTAAGTTTATTCACTTTATGGAACCGTTATCGCGT -GTTTCATGGTTTGTCGGCGTCATCGTCGCCTTTGCGGCCTACGCCTTATTAAAGAAACGTACAACAGCAG -AAAAAACAGGAGAGCAAAAAACCATAGGTTAATTAATCCCGATATTGAACATTGAGTTAAAAACCAATCT -GTATTTTACAAGGAGTTTGTTATGTCTTTTGATTTAATCATTAAAAACGGCACCGTTATTTTAGAAAACG -AAGCTCGCGTTGTAGATATCGCCGTTAAAGGCGGAAAAATTGCTGCTATCGGTCAGGATCTGGGCGATGC -AAAAGAAGTTATGGATGCGTCTGGTCTGGTGGTTTCGCCGGGCATGGTTGATGCGCACACCCATATTTCT -GAACCGGGTCGTAGCCACTGGGAAGGTTATGAAACCGGTACTCGCGCAGCGGCAAAAGGTGGTATCACCA -CCATGATCGAAATGCCGCTCAACCAGCTGCCTGCAACGGTTGACCGCGCTTCAATTGAACTGAAGTTCGA -TGCCGCTAAAGGCAAGCTGACTATTGATGCGGCACAACTCGGTGGCCTGGTGTCTTACAACATCGACCGT -CTGCATGAGCTGGATGAAGTGGGCGTTGTCGGCTTCAAATGCTTCGTTGCGACCTGTGGCGATCGCGGTA -TCGACAACGACTTCCGTGATGTAAACGACTGGCAGTTCTTCAAAGGTGCGCAGAAGCTGGGCGAACTGGG -TCAGCCGGTGCTGGTGCACTGCGAAAACGCGCTGATTTGTGACGAACTGGGCGAAGAAGCGAAGCGTGAA -GGTCGCGTAACCGCTCATGACTATGTGGCTTCGCGTCCGGTATTTACCGAAGTGGAAGCAATTCGCCGCG -TACTGTATCTGGCGAAAGTTGCTGGTTGCCGTCTGCACGTTTGCCACGTCAGCAGCCCGGAAGGTGTTGA -GGAAGTGACTCGTGCACGTCAGGAAGGTCAGGACGTTACTTGTGAATCCTGCCCGCATTACTTTGTACTG -GATACCGATCAGTTCGAAGAAATCGGTACTCTGGCGAAGTGTTCACCGCCGATCCGCGATCTGGAAAACC -AGAAAGGCATGTGGGAAAAACTGTTTAACGGTGAAATCGACTGCCTGGTTTCCGACCACTCTCCATGCCC -GCCGGAAATGAAAGCCGGTAACATCATGAAAGCATGGGGCGGTATCGCCGGTCTGCAAAGCTGCATGGAC -GTGATGTTCGATGAAGCGGTACAGAAACGCGGTATGTCTCTGCCAATGTTCGGCAAATTAATGGCGACTA -ACGCAGCAGATATTTTCGGTCTGCAGCAAAAAGGCCGTATCGCCCCAGGAAAAGATGCCGACTTCGTCTT -CATTCAGCCGAATAGCAGCTATGTTCTTACCAATGACGATCTGGAATATCGCCACAAAGTCAGCCCGTAT -GTTGGCCGTACCATTGGCGCGCGTATCACGAAAACCATCTTACGTGGTGATGTGATTTACGACATTGAAC -AGGGCTTCCCTGTTGCGCCGAAAGGTCAATTTATCCTTAAACATCAGCAGTAATCTGGCCCCTGCAATGC -CCGTCCTTGCGGCGGGCATTCTCCGGTTAAGGTGTGTTTATGTTCAATTTTGCAGTCAGCCGCGAAAGCC -TGTTATCAGGATTTCAGTGGTTTTTCTTTATTTTTTGCAACACGGTTGTGGTTCCTCCTACGCTACTTTC -TGCTTTTCAGTTGCCGCAAAGTAGCCTGCTTACGCTCACGCAATATGCTTTTCTTGCTACCGCACTGGCC -TGCTTCGCTCAGGCGTTTTGCGGTCATCGTCGCGCTATTATGGAAGGGCCAGGTGGCCTGTGGTGGGGAA -CCATCCTTACTATCACCCTTGGTGAAGCATCGCGCGGGACACCGATCAACGATATCGCCACCAGCCTGGC -AGTGGGGATTGCACTCTCCGGCGTGCTGACGATGTTGATTGGTTTTAGCGGATTAGGCCATCGCCTGGCA -CGGTTATTTACGCCGTCGGTGATGGTCTTGTTTATGTTGATGCTGGGCGCGCAGCTGACCACTATCTTTT -TCAAAGGTATGCTCGGGCTGCCGTTTGGCATAGCCGACCCGAATTTTAAAATTCAGTTACCGCCGTTCGC -GCTCTCGGTGGCGGTGATGTGCCTGGTACTGGCGATGATTATCTTCCTGCCGCAACGTTTTGCCCGTTAT -GGCCTGCTGGTCGGCACCATAACCGGCTGGTTGTTGTGGTACTTTTGCTTTCCTTCTTCGCACTCGCTCT -CCGGTGAGTTGCACTGGCAGTGGTTCCCGCTCGGCAGTGGCGGTGCTTTGTCGCCGGGAATTATTCTGAC -GGCGGTGATTACAGGTCTGGTAAATATCAGCAATACCTACGGTGCGATTCGGGGCACGGATGTTTTTTAT -CCGCAGCAGGGCGCAGGGAATACGCGTTATCGTCGTAGCTTTGTGGCGACCGGATTTATGACGCTGATAA -CCGTACCGCTGGCGGTAATTCCATTTTCACCGTTTGTTTCATCCATTGGTTTATTAACCCAGACTGGCGA -TTACACGCGGCGTTCGTTTATTTATGGCAGCGTTATTTGCCTGCTGGTGGCGCTGGTTCCTGCACTCACG -CGACTGTTTTGCAGTATCCCTTTACCCGTGAGTAGTGCGGTCATGCTGGTTTCTTATCTGCCTTTACTCT -TTTCCGCGCTGGTGTTTAGCCAGCAAATAACGTTTACCGCTCGCAATATTTATCGACTCGCATTGCCGTT -ATTTGTCGGCATATTTTTAATGGCATTACCGCCTGTGTATCTGCAAGACCTTCCATTAACGCTTCGTCCT -CTGCTCAGTAACGGCTTATTGGTCGGGATTTTACTGGCTGTTCTTATGGATAACCTTATTCCGTGGGAAC -GCATCGAATAATTTGTTGAAAAAGGATTGATAATGAAGATTGTCATTGCGCCAGACTCTTTTAAAGAGAG -CTTAAGTGCAGAAAAATGTTGTCAGGCAATTAAAGCCGGGTTTTCGACCCTCTTTCCCGATGCGAACTAT -ATCTGTTTGCCGATAGCGGATGGCGGCGAAGGGACGGTGGATGCGATGGTCGCCGCGACGGGCGGCAACA -TCGTGACGCTTGAAGTCTGCGGGCCGATGGGCGAAAAAGTGAATGCTTTTTATGGCCTTACCGGCGACGG -GAAAACGGCGGTGATTGAGATGGCGGCAGCAAGTGGCCTGATGCTGGTCGCGCCTGAAAAGCGTAATCCG -TTGCTGGCCTCCAGTTTTGGTACGGGGGAGTTAATTCGTCATGCGCTGGATAACGACATTCGCCATATTA -TTCTCGGCATTGGCGGCAGTGCGACGGTCGACGGCGGTATGGGCATGGCGCAGGCGCTCGGTGTGCGTTT -CCTTGATGCCGACGGTCAGGCGCTGGCGGCAAACGGTGGTAATTTAGCGCGCGTGGCAAGCATTGAGATG -GATGAATGCGATCCGCGTCTGGCGAATTGCCATATTGAAGTAGCATGTGACGTTGATAACCCGCTGGTAG -GGGCACGCGGCGCGGCGGCGGTGTTTGGCCCGCAAAAAGGGGCAACGCCGGAGATGGTCGAAGAACTTGA -ACAGGGGCTGCAAAATTACGCCCGTGTTTTACAACAGCAAACTGAAATTAATGTCTGCCAGATGGCGGGC -GGCGGCGCTGCGGGCGGTATGGGTATTGCGGCGGCGGTATTTCTCAATGCGGATATTAAACCGGGCATTG -AAATTGTGTTGAATGCGGTCAATCTTGCGCAGGCAGTGCAGGGCGCAGCACTGGTGATTACCGGGGAAGG -GCGCATCGACTCGCAAACGGCAGGCGGTAAAGCGCCGCTGGGTGTGGCGTCGGTGGCGAAGCAGTTTAAT -GTACCGGTGATTGGGATTGCTGGCGTATTGGGTGATGGCGTGGAAGTGGTGCACCAGTACGGCATTGACG -CGGTATTCAGCATTTTGCCTCGTCTGGCACCTTTAGCCGAAGTGCTCGCCAGCGGTGAAACCAATCTCTT -CAACAGCGCGCGAAATATTGCCTGCGCCATTAAAATAGGTCAGGGAATTAAAAACTAACCCTTACCTTTA -AAGCGGATGCGATTTATATCGCATAAGAGTGCAGTACTCATGCCGGATGCGGCATGAGTACCATATCCTT -CCTGAAAATCGCGCAAATTCTATATATTGCAGAGATCATGTAGGCCTGATAAGCGAAGCGCATCAGGCAA -TGTTACAAAAAAAGCCACGGTATAAACCGTGGCAAAATCCAACATAGCTAAAAATAATCAGGCGAGTGGT -ATGACTTAAATCTCTACGTCGCGGTTACAATCTTTCGAGTAAATATAGCTGAACGCTTCACCACGCCCTA -CACCATAACCAGCCTGTAAAGAATAAGCGCCCATAAAGATGTAATCGCCTTTTTTCACCGGGATCCAGTT -ATTGTCGAGGTTATAAACCCCCTGACCGGAAAGAATATAGGCACCGTGTTCCTGAACGTGTGTTTCGATA -TAACCGTGGCTGGCACCTGGTGCAAAAGAGAGGATATGCATGTTCATATCAAAACCTAACTCTTTGGGCA -GAAAATCCAGCAGAATAACATCGTCCATGCCTTCATAATGAATGCGTTCCAGTTCGCTGGCATTGCCAGA -AACCAGCCACGGTGCATAGCCTTCTACCGGAACATAGCGGCGCTTATATAAAAAGATTTGGCTGTCTTCG -GCCTGGGCGTTAACAAACGTCATTAAGGAGCCTGGCGGGCAATAAAGATAGCCACCTTCGCTTAAGGCAA -ATGTTTTGCCTTCGGCTTTGGCAGTGATATTTCCAGAGATCACATACAGGAACGTTTCAATGCCTTCGCC -ACCGAAGCCCTGTTGGTTGCCACCGTTTTGATGCAGTGTGACCAGATAATCAACAAAAGAGGCACCCAGC -TTTGGCGTGGAGAGGATTGTCGCGTCACAATTTTCAAAGCCCGGAATAATATTTTTTACCAGACCATCCG -GGGTTAACAGTGCGAAATTACCGTGTTTAACAATCGCACGGTTAGCCAGTAAATCTTCGCGGTAACCGGT -GACGTTATTTAAATATCCCATTTATGACTCCTTATTTCTGCCAGGCAAGTTGATAAAGCATGAGTGCCAA -CGTTTTGACCCCTTCGGCAAGGTCGGTAATATTGGTGCGTTCCGCCGGGTTATGGCTGATCCCGTTGATG -CTGGGGATAAAAATCATGCAGGTTGGTACGCGAGGCGCGAAAATTTGCGCGTCGTGCCCGGCACCACTGT -GCATCACCCGGTAATTCAGTTTTTCTCTTTCACACAATTCTGTCAGGGTGGCGACCAGCTCCTTATTCAT -CGGCACGGGTTCTTCGTCCATCCATAAATCGATATCAATACCAATGTCCATTTCATCGCAAATCGCCCGC -ATGTCGTTTTCTAACTGTTGGGTGAAATCGCGCAGCACGGCAGCGTCGGTATGACGACAATCAATGGTGA -ACGTGGTTTTACCCGGCACCACATTTACCGTATTCGGGCGCGGCTCTACTTTGCCAAAGGTCAGAACCAG -CGGATCGCCCATCCTTTTCGCTTTTTCGACCGACTGATGGCAAATGCGACTGAAAGCGTAAACTGTATCA -CGACGATAACCCATCGGCGTGGTGCCTGCATGGTTTGATTCGCCGTTCAGCGTTACCGTATAACGACGCT -GCCCGACAATTGCATTCACCACGCCAATTGATTGCCCATTACTTTCCAGCACACAGCCCTGTTCAATATG -CAGTTCAACAAAGGCTTTAATATCCTGACGCGGAGTTAGTGGGGCGTTCGGAAGAGTAAATCCGCAAGCC -TTCATCGCATCGACAAAACTATTTCCTTTGGCATCACAGATATTCCGCACGTCGTCAGGATTCGCCAGCC -CAAAAATATTTTTACTGCCCCAGAAGACATACGGGAAGCGGCTGCCTTCTTCTTCTGCCATCGCCACCAC -TTCGACCGTACGTAGCGGCGCGCCGTATTGCGTTTTCAGCCAGTCAATTGCCAGCCACGCCGCCAGCGCG -CCGAATTGCCCGTCAAGGTTACCGCCGTTAACCACGGTATCGATATGCGAACCGCTCAGAACCACTTCCT -GTGGATATTCGGTGCCATTCAGGCGACCGTATAAATTCCCCACTTCATCGAAACGTGTTTCCAGCCCGCT -TGCTGCCATTCTTTTTTTAAATTGCTGCTGGGTTTCCAGCCATTCCGGCGAATAAAGTAAACGGGTCATC -CCACCCGCTGGGTCAGCGCCAAAAGAGGAAAGCCAGGGCAGCGTTTCTTCTATAGCTTGACGGAAATGTG -TAATCATAAGAAAGTCCTGTCTCAATAATTATTGCGCAAAGGGATTTTTCGTTTCGTATGACGTGTTATA -AAGCGCGTCGGAAATTAAATACTGGTAAATATCATCAACAATTTCGATGCCTTCGACGGCGGCTTTGCGT -TGTTTAATATCCTGATCCTGTCCGGGATAATAAACCTGATTAAAACCGGGCGCGGGGGTAATGGCATTTA -ATTCGCGCATGGTCTGGCTAAGATGTTGACGGAATAATTCGCTGGAGGAGAAAAAGTTCGGATTAATAAC -TATATGTAATTGCCCCAAATTACGCCCTGCGTGTAAATCGTCATACATCGAACTAACCTGTCGCCCGAAC -GGTAAGCCGAGTAAGACGCCTGAGAGGACGTCAATCATCATCATCAGGCCATACCCTTTTGGCCCGGCGG -CGGGGAGCAGAGCATGTACCGCGAACGGATCGGTTGTTGGTACACCGTTTTTATCGACCGCCCAGGTATC -CGGGATAGACATATTACGCGAGCGGGCGTCGAGCACTTTTCCCCATGCCTGTACGGTAGTCGCCATATCA -AAGGTAAGGATCTCGTCGCCTTCTCCCGGCGCGGCAAAGGCCAGGGGGTTAGTACCGTAGTAAATTTCCG -CGCCGCCAAACGGCACCACCATTGGATCGGACTGGCACATCGAAATGCCAATGAATCCGGCGCGGGCTGC -CTGCTGCACAAAATAAGAGATTGCGCCGCTGTGACCCATCCGGCTGATACCGACCACCGCAACGCCATTT -TGCTGGGCGGTTTTGATGGCATGTTCCATACCCATTTTCGCCGCGACCTGTCCGGCGGCATTGTCGGCAT -GTAAAATTGCCGAGCACGGCCCGGTTTCCTCAAGACGAAACTCCGGTTCGCGGTTGGTGCCGCCTTTTGA -AATGCGTTCCGCGTAGTATTCCACGCGCACCGCGCCATGAGAGTGGATCCCTCTGGCATCGGCGTAAACC -AATACTTCAGCCACGGTTGCAGCGTGCTCACGTTTTAACCCAGCCTGGCAGAGTTTATTCTCAATTAGCT -GGTGGAGTGTTTCCCGACTGATTTTCATCTGTCTTCCTTTTTAACGACGGTGTGAAGCATGACTGCAATT -AACATACAGGGAAAATATCTGGATTATGTGATCCAGACAGGCAAAAAAATATAGTTAGAATTTATTTGAT -AATCCGCTCACTTTTAACCTGATTTTTAAAACAACAACGCTTATTAAAAAATAATGAGTAATAGCCTGGT -GGTTATTTGAATTCTTTTGTTAATAATTCCTGTGTGATATTCATCACCTTATTTACTCGTTGTCATCGAT -ACCGTAATCGCCACATTAACACTGCTCGTGCAATTGCCATGGGTGCAATTTTTAAGGAGTTGTTATGATC -CACGCCTTTATTAAAAAAGGGTGTTTTCAGGATTCGGTCAGTTTAATGATTATTTCACGAAAACTCAGCG -AATCAGAAAATGTTGATGATGTTTCCGTAATGATGGGTACGCCCGCCAATAAAGCGTTATTAGATACCAC -AGGTTTCTGGCATGACGATTTTAATAACGCCACGCCGAACGATATTTGCGTGGCAATTCGTAGCGAAGCG -GCGGATGCGGGGATCGCGCAGGCGATTATGCAGCAGCTTGAAGAGGCGCTAAAACAACTGGCGCAGGGGT -CAGGCAGCAGCCAGGCGTTGACGCAGGTGCGTCGCTGGGACAGTGCCTGTCAGAAATTACCCGATGCCAA -TCTGGCGCTGATTTCAGTGGCTGGCGAGTATGCGGCGGAGCTGGCAAACCAGGCGCTGGATCGCAACCTC -AACGTGATGATGTTCTCCGATAACGTCACGCTGGAAGATGAAATCCAACTTAAAACCCGCGCGCGGGAAA -AAGGCTTGCTGGTGATGGGGCCGGACTGCGGTACGTCGATGATTGCCGGCACACCGCTGGCTTTTGCTAA -CGTGATGCCGGAAGGCAATATTGGCGTCATTGGCGCTTCCGGTACCGGGATTCAGGAGCTGTGTTCGCAG -ATTGCGCTGGCAGGGGAGGGAATTACTCACGCGATTGGCCTTGGCGGGCGCGACCTCAGCCGTGAAGTGG -GCGGCATCAGTGCGCTAACAGCGCTGGAAATGCTCAGTGCAGACGAGAAAAGCGAAGTGCTGGCATTTGT -TTCAAAACCACCTGCCGAAGCTGTGCGTCTGAAAATTGTTAATGCCATGAAAGCAACCGGCAAACCGACG -GTGGCGCTGTTTTTAGGTTATACCCCGGCGGTGGCCCGCGACGAGAATGTCTGGTTTGCCTCCTCGCTGG -ATGAGGCCGCACGCCTGGCTTGCCTGCTTTCACGCGTCACGGCGCGACGTAACGCAATAGCGCCTGTCAG -CAGCGGATTTATTTGCGGTTTGTATACCGGCGGTACGCTGGCTGCCGAAGCGGCGGGATTACTTGCCGGA -CACCTTGGCGTGGAAGCCGACGATACCCATCAACATGGCATGATGCTGGACGCCGATAGCCACCAGATTA -TTGACCTCGGCGATGATTTCTACACCGTCGGGCGTCCCCATCCGATGATCGACCCAACCTTACGCAACCA -GTTAATTGCCGATCTCGGCGCTAAACCGCAAGTGCGCGTGTTGCTGCTTGATGTCGTGATTGGCTTCGGT -GCGACCGCCGATCCTGCCGCCTCGCTGGTGAGCGCCTGGCAAAAAGCCTGTGCCGCGCGTTTAGATAATC -AACCACTGTATGCCATTGCCACGGTGACAGGCACTGAACGTGACCCGCAATGCCGCTCGCAGCAAATCGC -CACGCTGGAAGATGCGGGGATTGCGGTCGTGAGTTCGCTACCGGAAGCCACCTTGCTGGCGGCAGCGTTA -ATTCATCCGCTCTCGCCTGCCGCACAGCAACACACACCGTCATTACTGGAAAACGTCGCCGTGATTAACA -TCGGATTACGCAGCTTTGCGCTGGAGCTACAAAGCGCCAGCAAACCGGTTGTGCATTACCAATGGTCGCC -AGTCGCCGGTGGCAATAAAAAACTGGCTCGTTTATTAGAACGTTTGCAATAAGGGGTTCCCATGTTTACA -TCAGTGGCGCAAGCCAATGCTGCGGTTATCGAACAAATTCGTCGCGCTCGTCCACACTGGCTGGATGTGC -AACCGGCTTCTTCACTTATCAGCGAACTAAACGAGGGCAAAACACTGCTTCACGCCGGGCCGCCAATGCG -CTGGCAGGAGATGACCGGACCCATGAAAGGGGCGTGCGTGGGCGCATGTCTGTTCGAAGGTTGGGCGAAA -GATGAAGCGCAGGCGCTGGCAATACTGGAGCAGGGGGAAGTGAACTTCATTCCTTGTCACCATGTGAATG -CCGTCGGGCCAATGGGCGGTATTACTTCTGCCAGTATGCCGATGCTGGTGGTTGAGAACGTGACCGACGG -CAACCGGGCGTACTGCAACCTCAACGAAGGTATCGGCAAAGTGATGCGTTTTGGCGCTTACGGCGAAGAT -GTCCTGACTCGCCATCGCTGGATGCGCGATGTGTTAATGCCAGTATTAAGCGCGGCGCTGGGGCGCATGG -AGCGCGGTATCGATCTCACGGCGATGATGGCGCAGGGCATTACGATGGGCGATGAGTTCCATCAACGCAA -TATTGCTTCCTCTGCACTGTTAATGCGTGCGCTGGCCCCACAAATTGCTCGCCTCGATCATGATAAACAG -CACATCGCCGAAGTGATGGATTTCCTCAGCGTGACCGATCAGTTCTTCCTCAACCTCGCGATGGCTTACT -GCAAGGCGGCGATGGATGCTGGCGCGATGATCCGCGCAGGCAGCATCGTCACGGCAATGACCCGCAACGG -CAATATGTTCGGGATTCGGGTAAGCGGGCTGGGCGAACGCTGGTTTACTGCGCCTGTAAACACTCCGCAA -GGTCTGTTTTTCACCGGCTTCTCGCAGGAGCAGGCGAACCCGGATATGGGCGATAGCGCGATTACCGAAA -CCTTTGGTATCGGAGGTGCGGCAATGATCGCAGCGCCTGGCGTAACGCGCTTTGTCGGTGCGGGTGGCAT -GGAAGCGGCAAGAGCGGTATCTGAAGAGATGGCGGAAATTTACCTTGAACGCAATATGCAGTTGCAGATC -CCAAGCTGGGATTTTCAGGGCGCGTGCCTGGGGCTGGACATTCGTCGCGTGGTAGAAACCGGCATTACGC -CACTCATCAATACCGGTATCGCCCATAAAGAGGCGGGGATCGGGCAGATTGGCGCAGGCACCGTGCGGGC -ACCGCTGGCGTGCTTTGAACAGGCGCTGGAAGCACTGGCTGAAAGCATGGGTATTGGTTGAGGAACGCGC -AATGACGATCATCCATCCTCTGCTTGCCAGTAGTAGCGCACCGAATTATCGCCAGTCCTGGCGGTTAGCG -GGAGTGTGGCGGCGGGCGATTAACCTGATGACGGAAAGCGGCGAACTGTTAACGTTGCATCGTCAGGGTA -GTGGTTTCGGCCCCGGAGGATGGGTGCTTCGCCGTGCGCAATTCGATGCGTTATGCGGTGGATTATGCGG -CAATGAACGACCACAGGTTGTGGCTCAAGGGATTCGCCTCGGGCGTTTCACGGTTAAACAGCCACAGCGT -TATTGTTTGCTGCGTATTACGCCGCCTGCGCATCCTCAACCACTTGCAGCTGCATGGATGCAACGCGCGG -AGGAAACCGGGCTTTTCGGGCCACTGGCGTTGGCGGCAAGCGATCCGCTGCCTGCTGAGTTACGCCAGTT -TCGTCACTGTTTTCAGGCCGCGCTCAATGGCGTTAAGACCGACTGGCGGCACTGGCTGGGTAAAGGCCCC -GGATTAACGCCGAGTCATGATGACACGCTGAGCGGAATGCTGCTGGCGGCCTGGTATTATGGCGCTTTAG -ATGCGCGCTCCGGTCGTCCGTTTTTTGCCTGTTCCGACAATCTGCAACTCGTTACCACAGCGGTGAGCGT -CAGTTATTTACGTTATGCCGCGCAAGGATATTTCGCCTCGCCACTCCTGCACTTTGTTCATGCTCTGAGT -TGCCCGAAACGTACCGCTGTTGCGATTGATTCGCTGCTGGCGCTGGGGCATACGTCAGGGGCAGATACGC -TGCTGGGGTTCTGGCTTGGCCAACAATTATTACAAGGAAAACCATGAAAACACTGGTTGTGGCTCTTGGG -GGCAACGCCTTACTCCAGCGCGGTGAGGCGCTGACGGCAGAAAATCAATATCGCAATATCGCCAGTGCTG -TACCCGCGCTGGCACGCCTGGCCCGTTCTTATCGGTTGGCGATTGTTCACGGCAACGGGCCGCAGGTGGG -GCTGCTGGCATTGCAGAATCTGGCGTGGAAAGAGGTAGAACCGTATCCGCTGGATGTGCTGGTTGCGGAA -AGCCAGGGGATGATTGGCTATATGCTGGCGCAGAGTTTGAGCGCACAGCCGCAGATGCCGCCCGTGACGA -CGGTGCTGACGCGCATTGAGGTTTCGCCTGATGATCCGGCGTTTTTGCAGCCAGAGAAATTTATTGGTCC -GGTTTATCAGCCAGAAGAACAAGAGGCACTGGAAGCGGCTTACGGCTGGCAGATGAAACGTGATGGTAAA -TATTTGCGCCGGGTGGTGGCGTCTCCGCAACCGCGTAAAATTCTCGACAGCGAAGCCATCGAGTTGTTGC -TCAAAGAGGGGCATGTGGTGATTTGCAGTGGCGGCGGCGGTGTGCCTGTGACGGATGACGGAGCAGGGAG -TGAAGCAGTGATTGATAAAGATCTCGCCGCTGCGTTGCTCGCCGAGCAGATTAATGCAGATGGACTGGTG -ATCCTCACCGATGCTGATGCGGTATATGAAAACTGGGGAACGCCGCAGCAACGTGCCATTCGCCATGCCA -CACCGGATGAGTTAGCGCCATTTGCCAAAGCCGATGGTTCGATGGGGCCGAATGTAACGGCGGTGAGTGG -TTATGTCAGAAGCCGTGGTAAACCCGCGTGGATTGGGGCGTTATCGCGAATTGAAGAGACGCTGGCGGGC -GAAGCGGGGACCTGTATTTCGCTGTAGTCGTAGGCATTAGACATTTGTGCCTGATGCGACGCTTGACGCG -TCTTATCAGGCCTACAACCGGTGCCGCATCCGGCAATTGGTGCACAATGCCTGATGCGATGCTTGACGCA -TCTTATCAGGCCTACAATGGGTACCGGATCGGTAGGCCGGATAAGGCGTTTACGCCGCATCCGGCAAGAA -TAGAGCACCAGTTAACCGAACTTACTCTGCGCCCAAATCACGCCGCTGGCATATTCCGGCGGCAGCAGCG -GGATTAAGGCTTCCAGCGTCGCAGTCAGACGCGATGTGTCGCTGTCGGTCAAATTCAGATGCCCCACTTT -ACGCCCCGGACGGACTTCTTTGTCGTACCAGTGCAGATGCACCAGCGGCAGTTTCAGCCAGTCATAATTC -ACATCGCTACCAATCAGATTGATCATCACCGACGGATTATTCACCACTGGTTGCGGTAACGGCAGATCGG -TAATCGCCCGCAGATGCAGCTCAAACTGGCTGATGCTGGCACCGTTTTGTGTCCAGTGACCGCTGTTATG -CACACGCGGTGCCAGTTCGTTGATCAACAGACCTTGCGGGGTGACAAAACACTCCATCGCCATCACGCCC -ACATAGCCCAGCTCCTGCATAATCGCCGACAGCATCTCTTCGGCTTGCGCCTGCTGCTGTGCGTTGGCCT -GCGGAAAAGCGACGCTGGTGCGCAAAATACCGTCCTGATGCAGGTTATGCGTCAGCGGATAAAACACGGT -GCTGCCATCAAAGCCGCGCGCGCCAACCAGCGACACTTCACCAGAGAAGTTAATGCCCTGCTCGACAATA -CATTCGCCGTAACACTCTGCCGGTAACTGTTCGGTTTCATTTGCGCGTAAACGCCATTGACCGCGACCGT -CATAACCACCAGTGCGACGCTTAACAATCGCCAGCTCACCTAAACGATCAAACACCGCAGGCCACTCGCT -GCGTTCGGCAAGTAACTGCCACGGTGCAGTCGGCAGGTGGAGCTTATCGAAAAGCTGCTTCTGAGTCAGA -CGGTCAGCAATAATCGGGAACACATCGCGGTTCACAAAGGCCGGATGGCGCGCCAGCTCGCGGGTTAATG -CGGTTTCCGGCCAGCGTTCTATCTCAGCGGTAATCACGCTTTGTTGAAAAGGCACCGCCGCCGGTTCAGC -GTCCAGCCCGACTGGCCAGACAGCAATGCCTAACGGTTCGCCTGCCTGACGCAGCATACGGCCTAACTGC -CCGTTACCGAGGACGCAAACCTGTTTCATGCCGCACCTCGCGGGTCCGGGTTTTCCAGCACTTCGTCGGT -CTGGGCTTTGCGCCAGTCATTCAGACGCTGGTGCAGTTCTTTATCATGAGTCGCAAGAATTTGTGCTGCC -AGTAACGCCGCGTTTGCCGCGCCAGCTTTACCAATCGCCAGCGTACCCACCGGAATGCCGCGCGGCATTT -GTACGATGGAGTAGAGGCTATCGACACCGCTCAGTGCGGCGCTCTGTACTGGCACGCCCAGCACCGGCAC -CAGCGTTTTGGCGGCAATCATGCCTGGCAGATGCGCTGCGCCGCCTGCGCCCGCAATAATCACCTGATAA -CCGTTCTCTTCGGCGCTTTCGGCGAAGCTGAACAGTTTATCGGGGGTGCGGTGAGCAGAAACCACTTCAA -CGTGGTGCGGGACATTCAGGATTTCGAAGATTTCGGCGGCGAACTGCATGGTAGCCCAGTCGCTTTTGGA -CCCCATCACGATGGCGACACGCGCCGGATTATTGCGGGAAGACATGCGTCTTAAAACTCCTGTGGTGCAC -AACTCTCGGCTTTAGAGGGCACAGAGAATAGCACGAAAAGAGAGCAAGGAAAACGGTTGCGTGGCTGTGA -AATCAGCAAAGTTGCGGGTTTTTTAAAACGGAAAATGAATCAGCTCAACGTCATCCGCCGTGACTTTCAC -CATTGAACCTTCCGTATGCCAGGCACCCAGTACCACGCGAAAAGCAGGTTGCTGATTGGCGATAAGTTCA -TGCACCGCCGGGCGATGGGTATGCCCGTGGATCAGCCATTGCACCTGATGTTTTTCCATCGCACTGACCA -CCGCGTTTTGGTTAACGTCCATGATCGCCAGCGATTTACTGCTGTTGGCTTCTTTGCTGTTCGCGCGCAT -TCGCGCGGCAATGCGTTTGCGCACAAACAACGGCAGGGCGAGGAATAGCGTCTGCAGCCAGGGTTTGTGG -ACCTTGGCGCGAAAAGCCTGATAACCCGCGTCATCGGTGCACAGCGTGTCGCCATGCATAATCAACACCC -GGCGACCATAAAGTTCGAGCACCTTTTCTTCCGGCAATAACGTCATGCCACTTTCACGGGCAAAGCGTTT -GCCGAGCAGAAAATCACGGTTGCCATGAATGAAATAACAGGGAACGCCGGAATCGGACACCGCTTTGATC -GCCGCCGCCATCTTGCGATGGAGTGGGTTGGGATCGTCGTCGCCAATCCATGCTTCAAACAGATCGCCAA -GAATATACAGCGCGTCGGCCTTGCGGGCTTCCCCCGCTAAAAAACGCAGAAAACCGGCGGTGATCGCCGG -TTCTTCCACGCAGAGATGAAGATCTGCAATAAAGAGTGTCGCCACGATTACTCGCTAACGGTCACGCTTT -CAATGATAACGTCTTCTTTTGGCACGTCCTGGTGCATACCGCTACGACCGGTTGCAACACCTTTGATTTT -GTCTACCACGTCCATGCCGTCAACCACTTCAGCAAACACGCAGTAGCCCCAACCTTGCAGGCTTTCGCCA -GAGAAGTTCAGGAAGTCGTTATCAACCACGTTGATGAAGAACTGTGCAGTTGCAGAGTGCGGAGCCTGAG -TACGTGCCATTGCCAGCGTACCACGGGTATTTTTCAGGCCGTTGTTGGCTTCGTTTTTGATCGGTTCTTT -GGTGGCTTTTTGTTTCATGCCCGGTTCAAAACCGCCGCCCTGAATCATAAAGCCGTTGATAACACGGTGG -AAAATGGTGTTGTTGTAAAAACCTTCGCGGCAGTAGTCCAGGAAGTTTTTAACTGTTTCAGGTGCTTTAT -CGTCAAAAGTTTTGATGACAATATCGCCGTGATTGGTGTGGAAAGTAACCATTTTTGCATCCTGTTCCGT -TTGATTGGTGCTTCAACCCAGTTCGGGTCATATATAGGGTGGTGTTATAGCATAACCGCACGATCGGATC -ATCACGCAATGTATGCTGATTCGCGCGGGAAATATGGGTATTATACGCAACTCAATTACCCACACATGTC -TAAACGGAATCTTCGATGCTAAAAATCTTCAATACTCTGACACGCCAAAAAGAGGAATTTAAGCCTATTC -ACGCCGGGGAAGTCGGCATGTACGTGTGTGGAATCACCGTTTACGATCTCTGTCATATCGGTCACGGGCG -TACCTTTGTTGCTTTTGACGTGGTTGCGCGCTATCTGCGTTTCCTCGGCTATAAACTGAAGTATGTGCGC -AACATTACCGATATCGACGACAAAATCATCAAACGCGCCAATGAAAATGGCGAAAGCTTTGTGGCGATGG -TGGATCGCATGATCGCCGAAATGCACAAAGATTTTGATGCTTTGAACATTCTGCGCCCGGATATGGAGCC -GCGCGCGACGCACCATATCGCAGAAATTATTGAACTCACTGAACAACTGATCGCCAAAGGTCACGCTTAT -GTGGCGGACAACGGCGACGTGATGTTCGACGTCCCGACCGATCCAACTTATGGCGTGCTGTCGCGTCAGG -ATCTCGACCAGCTGCAGGCAGGCGCGCGCGTTGACGTGGTCGACGACAAACGCAACCCAATGGACTTCGT -TCTGTGGAAGATGTCGAAAGAGGGCGAACCGAGCTGGCCGTCTCCGTGGGGCGCGGGTCGTCCTGGCTGG -CACATTGAATGTTCGGCAATGAACTGCAAGCAGCTGGGTAACCACTTTGATATCCACGGCGGCGGTTCAG -ACCTGATGTTCCCGCACCACGAAAACGAAATCGCGCAGTCCACCTGTGCCCATGATGGTCAGTATGTGAA -CTACTGGATGCACTCGGGGATGGTGATGGTTGACCGCGAGAAGATGTCCAAATCGCTGGGTAACTTCTTT -ACCGTGCGCGATGTGCTGAAATACTACGACGCGGAAACCGTGCGTTACTTCCTGATGTCGGGCCACTATC -GCAGCCAGTTGAACTACAGCGAAGAGAACCTGAAGCAGGCGCGTGCGGCGCTGGAGCGTCTCTACACTGC -GCTGCGCGGCACAGATAAAACCGTTGCGCCTGCCGGTGGCGAAGCGTTTGAAGCGCGCTTTATTGAAGCG -ATGGACGACGATTTCAACACCCCGGAAGCCTATTCCGTACTGTTTGATATGGCGCGTGAAGTAAACCGTC -TGAAAGCAGAAGATATGGCAGCGGCGAATGCAATGGCATCTCACCTGCGTAAACTTTCCGCTGTATTGGG -CCTGCTGGAGCAAGAACCGGAAGCGTTCCTGCAAAGCGGCGCGCAGGCAGACGACAGCGAAGTGGCTGAG -ATTGAAGCGTTAATTCAACAGCGTCTGGATGCCCGTAAAGCGAAAGACTGGGCGGCGGCGGATGCGGCGC -GTGATCGTCTTAACGAGATGGGGATCGTGCTGGAAGATGGCCCGCAAGGGACCACCTGGCGTCGTAAGTA -ATTGCGCTATTGCCGGATGCGAGTTTTCGCATCCGGTTATCGTCTGCGCCACCACAACATTCCCATCAGT -AGCATCCCCGGCAACCACACCCACATCAATTCAGAAATAATCACCTGATGCCCGTACGGCGTGGTGTAAC -GAGACAATGCAAACGGCGCGACTTTTATCACCTGCCAGGGAGCGAAAAAGCGTTCATCTGACCACGGCCA -CAGCCAGCCAACGCCTTTACCGCCAGTGGTTACCGAATCCAGCAAGCTGTGCGATAGCAACGAGACGGTT -AAAAACAGCCAGCAGCGAATCAGCCCAGCCCTGAACCATCGGCGTCCAATAAACACACATAACAGCGGGA -CAACAAACGCAAACACCAGCGAATGGGTAAACCCGCGATGACCAAAAACATTGCCGTAAGCAACGCCAAA -TTTAAACGACAATACGTCGGCGTCGGGCAGCATCGCCAGGATGATTCCGGCAAATAACAGACGCGGAGGG -ATGACTTTCGAACCCAACCCTAAACCAATGCATAGGGGAACGGCGGCGTGCGTAATAACGGTTGGCATGA -TGGTCGCTTCGGCAAAATGTCGATGCTATCAGCATGGATGAACGGGGCGTAGAGGGCAAAAGTCTGAAAA -GAGAACCGGCCTGTTGATACAGGCCGGGAAAGGGATCAGGCAACAACCTGTACGCTGTGACCTGCAAAAC -TCACTGTCTGACCGGCGACGATTTTGCAGCGTTTGCGCGTTTCAACCGCACCGTCGACTTTCACCTGGCC -TTCGGCAATCGCGATTTTCGCCTGCGCGCCGCTTTCGCTCCAGCCTTCCAGTTTCAGCAAGTCGCACAGC -TCAACGTGCGGATGTTTACCTAAAGAAAATGTCGCCATGTTACTCATCCTGTGGATCATGATATTCAACG -CACGCCTGTAGCGTGTTTTCAATCAGCGTGGCAACCGTCATCGGGCCAACGCCGCCGGGAACAGGCGTAA -TGTATGAGGCGCGTTTAGCCGCGTCTTCAAACACGACGTCGCCCACAACTTTGCCATTTTCCAGACGGTT -GATGCCGACATCAATCACAATTGCGCCTTCTTTGATCCAGTCACCGGGAATAAAGCCTGGCTTGCCAACG -GCAACGATCAATAGATCGGCATTTTCTACGTGATGACGCAGATTTTTAGTGAAGCGGTGAGTCACTGTAG -TGGTGCAACCTGCCAGCAGCAGTTCCATGCTCATCGGGCGGCCAACGATATTCGATGCGCCAATCACCAC -GGCGTTGAGGCCGAAGGTATCAATGTTGTAACGCTCAAGCAGCGTGACGATACCGCGCGGGGTGCAGGGA -CGCAGACGCGGCGCGCGCTGGCACAGACGACCGACGTTGTAAGGATGGAAACCGTCCACGTCTTTGTCCG -GATGAATACGTTCCAGCACTTTGACGTTATCAATACCCGCCGGTAACGGCAGTTGAACCAGAATGCCATC -GATGGTGTTGTCGGCATTCAGCGTATCGATAAGCTCCAGCAGCTCCGCTTCGCTGGTGGTTTCCGGGAGG -TCATAAGAGCGGGAGACGAACCCGACTTCTTCACAAGCCTTGCGTTTGCTTGCGACATAAATTTGCGATG -CAGGGTTACTACCCACCAGCACAACGGCCAGTCCTGGTGCCCGCAGTCCGGCTGCAATACGCGCCTGAAC -TTTTTGAGCAACTTCAGAGCGCACCTGCTGCGCAATCGTTTTACCGTCAATAATCTTTGCTGCCATCAGA -GAGAGGATTCCATCTGTTACGTAGATCGAAGGGGATGCGCCTATTTTGTCAGAAGCGGGGCGCGCTGTCA -GGTTTCGTTTCAGATTTATCGCGTGAAGCGACCTCTTGCGAAGGTGAGGCGCACCGTCGCTGAGACTGAA -AGCTTCATTTTTCGTCCATGATGGCGTTGTAAATCTGGAACTGATTTATTTCCTTGTCTAAGGATTAAGA -TAATTTAAGAAATACCTGACAATATAAAAAGAATTTTCAGCCTGGTAATTTACCGCTTCAGGTCTATATT -TGTGTTGAATATATTTTGCGCGGAAGTATTCATCTAACGGGGCTCTCTATTTTTTAGAATAGAGTGCATA -TTTTCAATTAAGACATTCTTAGAGGATAAAAAGGAATTTACTACTATCAGTGTCTTAAATAAAGTAATCG -GTTATATACGGATGTGGAGTCGATAAATGAGATTGAAGGAATATATATGAAATTAAGATTTATTTCGTCT -GCGCTGGCTGCCGCACTATTCGCCGCTACGGGTAGTTATGCTGCCGTTGTAGATGGCGGTACAATTCACT -TTGAAGGCGAACTGGTGAATGCTGCCTGTTCAGTGAATACTGACTCGGCAGACCAGGTTGTCACACTCGG -TCAATATCGTACCGATATTTTCAATGCTGTTGGTAATACCTCTGCATTAATTCCATTCACCATTCAGTTG -AACGACTGCGATCCTGTTGTTGCCGCTAATGCTGCCGTTGCATTTTCTGGTCAGGCTGATGCAATCAATG -ATAATTTATTGGCCATTGCATCCAGTACCAATACAACAACAGCAACGGGTGTCGGTATTGAAATACTTGA -TAATACATCCGCAATTCTCAAACCTGATGGGAATAGCTTCTCAACCAACCAGAACTTGATCCCCGGGACC -AACGTTCTTCATTTTTCTGCACGTTATAAAGGCACCGGTACAAGTGCATCAGCAGGGCAAGCAAATGCTG -ACGCGACTTTTATTATGAGATATGAATAATCAAAACCACGTTGTTTTGAATTATATATCACGTCTTATAA -CAAAGTAATGTACCGGTTGTCTGAAGCGGTATGGTGGCAATGTAAATCGAAATCATGTTCACTTTGTATC -ATGCCGCTTTATTAAATGAAAAGGGAATGATGTGTTGTAAGAAACCAAAGCAATCATTTCTTTATATTCC -TTATTTTTGCCGTCAGGAATACACAAGGCGTATTAACTATGATGACTAAAATAAAGTTATTGATGCTCAT -TATATTTTATTTAATCATTTCGGCCAGCGCCCATGCTGCCGGAGGGATCGCATTAGGTGCCACGCGTATT -ATTTATCCCGCTGATGCTAAACAGACTGCGGTATGGATTAGAAATAGCCATACCAATGAGCGCTTTCTGG -TCAATTCGTGGATTGAAAACAGCAGCGGTGTAAAAGAAAAGTCATTCATCATTACACCGCCACTGTTTGT -TAGTGAACCCAAAAGCGAAAATACTTTGCGTATTATTTACACCGGTCCACCGCTGGCAGCAGATCGTGAG -TCTCTGTTCTGGATGAATGTTAAGACGATCCCTTCGGTAGATAAAAATGCATTGAACGGCAGGAATGTTT -TGCAACTGGCGATTTTATCGCGCATGAAATTATTTCTCCGTCCAATTCAATTACAAGAATTACCCGCAGA -AGCGCCGGACACACTCAAGTTTTCGCGATCCGGTAACTATATCAATGTTCATAATCCATCACCTTTTTAT -GTCACCCTGGTTAACTTACAAGTGGGCAGCCAAAAGTTGGGGAATGCTATGGCTGCACCCAGAGTTAATT -CACAAATTCCCTTACCCTCAGGAGTGCAGGGAAAGCTGAAATTTCAGACCGTTAATGATTATGGTTCAGT -AACTCCGGTCAGAGAAGTGAACTTAAACTAACCGAATCATCTGACAATATCAGAGCTAATTATGAAAATA -CCCACTACTACGGATATTCCGCAGAGGTATACCTGGTGTCTGGCCGGAATTTGTTATTCATCTCTTGCCA -TTTTACCCTCCTTTTTAAGCTATGCGGAAAGTTATTTCAACCCGGCATTTTTATTAGAGAATGGCACATC -CGTTGCTGATTTATCGCGCTTTGAGAGAGGTAATCATCAACCTGCGGGCGTGTATCGGGTGGATCTCTGG -CGTAATGATGAGTTCATTGGTTCGCAGGATATCGTATTTGAATCGACAACAGAAAATACAGGTGATAAAT -CAGGTGGGTTAATGCCCTGTTTTAACCAGGTACTTCTTGAACGAATTGGCCTTAATAGCAGTGCATTTCC -CGAGTTAGCCCAGCAGCAAAACAATAAATGCATCAATTTACTGAAAGCTGTACCTGATGCCACAATTAAC -TTTGATTTTGCAGCGATGCGCCTGAACATCACTATTCCTCAGATAGCGTTGTTGAGTAGCGCTCACGGTT -ACATTCCGCCTGAAGAGTGGGATGAAGGTATTCCTGCTTTACTCCTGAATTATAATTTCACCGGTAACAG -AGGTAATGGTAACGATAGCTATTTTTTTAGTGAGCTCAGCGGGATTAATATTGGCCCGTGGCGTTTACGC -AACAATGGTTCCTGGAACTATTTTCGCGGAAATGGATATCATTCAGAACAGTGGAATAATATTGGCACCT -GGGTACAGCGCGCCATTATTCCGCTGAAAAGTGAACTGGTAATGGGAGACGGCAATACAGGAAGTGATAT -TTTCGATGGCGTTGGATTTCGTGGTGTACGGCTTTATTCTTCTGATAATATGTATCCTGATAGCCAGCAA -GGGTTTGCCCCAACGGTACGTGGGATTGCCCGTACGGCGGCCCAGCTAACGATTCGGCAAAATGGTTTTA -TTATCTATCAAAGCTATGTTTCCCCCGGCGCTTTTGAAATTACAGATTTGCACCCGACATCTTCAAATGG -CGATCTGGACGTCACCATCGACGAGCGCGATGGCAATCAGCAGAATTACACAATTCCGTATTCAACAGTG -CCAATTTTACAACGCGAAGGGCGTTTCAAATTTGACCTGACGGCGGGCGATTTTCGTAGCGGTAATAGTC -AGCAATCATCGCCTTTCTTTTTTCAGGGTACGGCACTCGGCGGTTTACCACAGGAATTTACTGCCTACGG -CGGGACGCAATTATCTGCCAATTACACCGCCTTTTTATTAGGGCTGGGGCGCAATCTCGGGAACTGGGGC -GCAGTGTCGCTGGATGTAACGCATGCGCGCAGTCAGTTAGCCGACGCCAGTCGTCATGAGGGGGATTCTA -TTCGCTTCCTCTATGCGAAATCGATGAACACCTTCGGCACCAATTTTCAGTTAATGGGTTACCGCTATTC -GACACAAGGTTTTTATACCCTTGATGATGTTGCGTATCGTCGAATGGAGGGGTACGAATATGATTACGAC -GGTGAGCATCGCGATGAACCGATAATCGTGAATTACCACAATTTACGCTTTAGCCGTAAAGACCGTTTGC -AGTTAAATGTTTCACAATCACTTAATGACTTTGGCTCGCTTTATATTTCTGGTACCCATCAAAAATACTG -GAATACTTCGGATTCAGATACGTGGTATCAGGTGGGGTATACCAGCAGCTGGGTTGGCATCAGTTATTCG -CTCTCATTTTCGTGGAATGAATCTGTAGGGATCCCCGATAACGAACGTATTGTCGGACTTAATGTTTCAG -TGCCTTTCAATGTTTTGACCAAACGTCGCTACACCCGGGAAAATGCGCTCGACCGCGCTTATGCCTCCTT -TAACGCCAACCGTAACAGCAACGGGCAAAATAGCTGGCTGGCAGGTGTAGGTGGGACCTTACTGGAAGGC -CACAACCTGAGTTATCACGTAAGCCAGGGTGATACCTCGAATAATGGGTACACGGGCAGCGCCACGGCAA -ACTGGCAGGCCGCTTACGGTACGCTGGGGGGCGGGTATAACTACGACCGCGATCAACATGACGTTAACTG -GCAGCTGTCTGGCGGTGTGGTCGGGCATGAAAATGGCATAACGCTGAGCCAGCCTTTAGGGGATACCAAT -GTTTTGATTAAAGCGCCTGGCGCAGGCGGTGTACGCATTGAAAATCAAACTGGCATTTTAACCGACTGGC -GCGGCTATGCGGTGATGCTGTATGCCACGGTTTATCGGTATAACCGTATCGCGCTTGATACCAATACGAT -GGGGAATTCCATCGATGTTGAAAAAAATATTAGCAGCGTTGTGCCGACGCAAGGCGCGTTGGTTCGTGCC -AATTTTGATACCCGCATAGGCGTGCGGGCGCTCATTACCGTTACCCAGGGCGGAAAACCGGTGCCGTTTG -GATCACTGGTACGGGAAAACAGTACCGGAATAACCAGTATGGTGGGTGATGACGGGCAAGTTTATTTAAG -TGGTGCGCCATTGTCTGGTGAATTACTGGTTCAGTGGGGAGACGGCGCGAACTCACGCTGCATTGCGCAC -TATGTATTGCCGAAGCAAAGCTTACAGCAAGCCGTCACTGTTATTTCGGCAGTTTGCACACATCCTGGCT -CATAAAGGAAATTATCAATAAGATAATCTGCAGATTATTATTGGCGATGGCATGTTTGTGTCTGGCAAAC -ATATCCTGGGCTACTGTTTGTGCAAATAGTACTGGCGTAGCAGAAGATGAACACTATGATCTCTCAAATA -TCTTTAATAGCACCAATAACCAGCCAGGGCAGATTGTTGTTTTACCGGAAAAATCCGGCTGGGTAGGTGT -CTCAGCAATTTGTCCACCCGGTACGCTGGTGAATTATACATACCGTAGTTATGTCACCAACTTTATTGTT -CAGGAAACTATCGATAATTATAAATATATGCAATTACATGATTATCTATTAGGTGCGATGAGTCTGGTTG -ATAGTGTGATGGATATTCAGTTCCCCCCGCAAAATTATATTCGGATGGGAACAGATCCTAACGTTTCGCA -AAACCTTCCATTCGGGGTGATGGATTCTCGTTTAATATTTCGTTTAAAGGTTATTCGTCCCTTTATTAAC -ATGGTGGAGATCCCCAGACAGGTGATGTTTACCGTGTATGTGACATCAACGCCTTACGATCCGTTGGTTA -CACCTGTTTATACCATTAGTTTTGGTGGCCGGGTTGAAGTACCGCAAAACTGCGAATTAAATGCCGGGCA -GATTGTTGAATTTGATTTTGGTGATATCGGCGCATCGTTATTTAGTGCGGCAGGGCCGGGTAATCGACCT -GCTGGTGTCATGCCGCAAACCAAGAGCATTGCGGTCAAATGTACGAATGTTGCTGCGCAGGCTTATTTAA -CAATGCGTCTGGAAGCCAGTGCCGTTTCTGGTCAGGCGATGGTGTCGGACAATCAGGATTTAGGTTTTAT -TGTCGCCGATCAGAACGATACGCCGATCACGCCTAACGATCTCAATAGCGTTATTCCTTTCCGTCTGGAT -GCAGCTGCGGCAGCCAATGTCACACTTCGCGCCTGGCCTATCAGTATTACCGGTCAAAAACCGACCGAAG -GGCCGTTTAGCGCGCTGGGGTATTTACGCGTCGATTATCAATGAGGTACGGAGAATGAGAAGAGTACTCT -TTAGCTGTTTCTGCGGGCTACTGTGGAGTTCCAGTGGATGGGCAGTTGACCCTTTAGGAACGATTAATAT -CAATTTGCACGGTAACGTTGTTGATTTCTCCTGTACCGTAAACACAGCGGATATTGATAAGACGGTAGAT -TTAGGCAGATGGCCTACGACACAACTACTGAACGCTGGCGATACCACGGCACTCGTCCCTTTTAGCCTGC -GGCTGGAGGGATGTCCTCCGGGTTCAGTTGCGATTTTATTTACGGGAACGCCGGCATCCGATACCAACCT -GCTGGCTCTGGATGATCCCGCAATGGCACAAACCGTCGCCATCGAATTACGTAATAGCGATCGCTCCCGG -CTCGCACTGGGGGAGGCGAGCCCGACTGAGGAAGTAGATGCAAATGGCAATGTCACACTAAACTTTTTTG -CCAATTATCGAGCGTTAGCCAGCGGTGTTCGGCCAGGTGTGGCGAAAGCGGATGCGATATTTATGATCAA -TTATAATTAATATTATATTAATTCGTATAATTTGGCGTAGTCGATAAGCTCTACAATTGAATGCAAACCT -AGCTTGCCATAAATATTAGATTTATGCGCACTAACTGTTTTATTGCTAAGTAATAACTTATCGGCAATTT -CTTTATTAGATAATCCGCTAACCAGATAACGTAATATGGTCACTTCACGATTAGATAGCACAGTGACCGT -TGAACTATTCGTACTACATTTATTGCTTTTTATATAGTTAAGCGTTTCGCTGGGAAAAAACGTGTATCCG -GAGAGGATCATCTGAACGGCATGAAAAATATCATTCTGATCATTGCATTTACTGACAAAACCGTTAGCAC -CAGCTTGTATCGCTCTGCCAGCATAAAAGCATTCTGATTTCGATGATAAAAATAACACTTTCACTGTGCT -CTGGATTTGTTTGATCCTTTTCAGGAAGGTAAAACCGTCTGTTCCGGGCAAGTCTATATCCATAATGATT -AAATCAACAGGACGGGTTCGGAGATAATCGATGGTTATGCGATAATCATCCGTTTTCAGGACAATCTGCA -ATTCACTGTTTTTTTGCAACAGAACTTCAATAGACATTCTGATGATAGGATGAGTATCCATAATGATCAC -CGACGTTGGTTTCATAGTTACCAGTCTCATAGGAGCGGACAATTTTCCGTTAGGTCGGGAAATTGTACTT -TGATACATGAAAATACGGGTTTTCTTGATTCAGACGCGCAGCGGTGTGCGTTTGTTTGCCGCTATAGCGA -AATAAATCAGAAAATCAGACGCGGTCGTTCACTTGTTCAGCAACCAGATCAAAAGCCATTGACTCAGCAA -GGGTTGACCGTATAATTCACGCGATTACACCGCATTGCGGTATCAACGCGCCCTTAGCTCAGTTGGATAG -AGCAACGACCTTCTAAGTCGTGGGCCGCAGGTTCGAATCCTGCAGGGCGCGCCATTACAATTCAATCAGT -TACGCCTTCTTTATATCCTCCATAATTTCAGAGTGGGACATATTTGGGACATTATCACCAAAAATGTCGT -CTATTTTCCTCGCATGCTCTGTCAAATGATTAGGCGCAAGGTGAGCATACCTACGAACCATTTCTATGGA -CTCCCATCCGCCCATTTCCTGAAGCACTGATAATGGGACGCCTGACTGAATCAGCCAGCTTGCCCAGGTG -TGTCTGAGGTCATGGAAACGGAAATCTTCAATTCCTGCACGACGACAAGCTGATAGCCATGATGTCTTGC -TGTCGATGCGCATCTTCCTGACCGCAGGCGTTGATGTTCCATCTGCTCGCTTAGCCGCCTTGGTATGTAC -AAACACCCATTTGTGATGCTTGCCTATTTGATCACGCAACACTTTACAGGCGGTATCGTTCAGCGCCACA -CCAATGGCGCGGTTTGATTTGCTCTCTTCTGGATTCACCCAGGCAACTCGTCGCTGCATGTCGATTTGTT -GCCATTCCAGATTTATGATGTTCGACTTTCTCAGACCAGTTGCCAGCGCAAACTTGACGACAGATTTCAG -TGGTTCGGGGCACTCATCAATAAGGCGTTTTGCTTCCTCCTTTTCCAGCCATCTGACTCGCTTGTTTCTG -ACCGCTGGTATCTTGATGACAGGCGCTTTTTCCAGCCACTTCCAGTCGCGTTCTGCAGCACGGAGAATGG -CCTTTATCATGGCAAGATGCTTTGCCTTTGTCTGAGTTGATACTGGCTTTGGTTCATAAACAGGCAGTTC -TTTACCTTTCCTGATGGCGGCCTGAACTTTCTGTTTCCATATTTCTTTCGTCTTTCTGTTATGCATTCTG -CTTACAGCAGAGTAAATCTTTGCCTCCGAGATATCTTTAAGCCTTATACCCTCAAAATGTTCAAGCCAGA -ACTCAATCCGGCTTTTATCTGAATCGAGAGATTTTTTATCAGCTTTTTCCTCAAGCCATCTTAGGCAGGC -CTCTTCAAAAGTGACATCAGGTAAATCCCCTAGCTTTTCTACTCGCCAGAGTTCTGCTTTTCGCTTGTCG -TGCAACTCCTGAGCTTGCCGTTTGTCCTTTGTGCCAAGAGATTCCTTAATTCGTTTCCCGCCCGGGAGCG -AATACGAGGCATACCATATTTCATTTCTGCGGAAGAGTGACATTTTCTTTCCTCTGTTATGCCATCACCC -GCGCTCACCTGGACAGTATGCAGCGGAGACTGAAGCGCCGCAATGCAGGCTTGCCGTGTTGTGAGGTACC -CGGATATTATCGTGAGGATGCGTCATCGCCATTGCTCCCCAAATACAAAACCAATTTCAGCCAGTGCCTC -GTCCATTTTTTCGATGAACTCCGGCACCATCTCGTCAAAACTCGCCATGTACTTTTCATTCCGCTCAATC -ACGACATAATGCAGGCCTTCACGCTTCATGCGCGGGTCATAGTTGGCAAAGTACCAGGCATCTTTTCGCG -TCACCCACATGCTGTACTGCACCTGGGCCATGTAAGCCGATTTTATTGCCTCGAAACCACCGAGCCGGAA -TTTCATGAAATCCCGGGAGGTACGAGTATTGCCGGAAGCGTGGCCTGTATCCGGATGCAGAGTCTTATCC -GTGGAAATCGAACGCGCATTACTGGTTGGTTACCAACTTGTACCAGAACATGCGGGCCAATGCGCTGGCT -GACGCGGAATTACGGCGCAAGGCTGCCGATGAACTGACCTGTATGACAGCGCGAATTAACCGTGGTGAGA -CGATACCTGAACCAGTAAAACAACTTCCTGTTATGGGCGGTAGACCTCTAAATCGTGCACAGGCTCTGGC -GAAGATCGCAGAAATTAAAGCTAAGTTCGGACTGAAAGGAGCAAGTGTATGACGGGCAAAGAGGCAATTA -TTCATTACCTGGGGACGCATAAGAGCTTCTGTGCACAGGACGTTGCCGCGGTAACAGGCGCAACCGTAAT -CTGATCTTACCCAGCAATAGTGGACACGCGGCTAAGTGAGTAAACTCTCAGTCAGAGGTGACTCACATGA -CAAAAACAGTATCAACCAGTAAAAAACCCCGTAAACAGCATTCGCCTGAATTTCGCAGTGAAGCCCTGAA -GCTTGCTGAACGCATCGGTGTTACTGCCGCAGCCCGTGAACTCAGCCTGTATGAATCACAACTCTACAAC -TGGCGCAGTAAACAGCAAAATCAGCAGACGTCTTCTGAACGTGAACTGGAGATGTCTACCGAGATTGCAC -GTCTCAAACGCCAGCTGGCAGAACGGGATGAAGAGCTGGCTATCCTCCAAAAGGCCGCGACATACTTCGC -GAAGCGCCTGAAATGAAGTATGTCTTTATTGAAAAACATCAGGCTGAGTTCAGCATCAAAGCAATGTGCC -GCGTGCTCCGGGTGGCCCGCAGCGGCTGGTATACGTGGTGTCAGCGGCGGACAAGGATAAGCACGCGTCA -GCAGTTCCGCCAACACTGCGACAGCGTTGTCCTCGCGGCTTTTACCCGGTCAAAACAGCGTTACGGTGCC -CCACGCCTGACGGATGAACTGCGTGCTCAGGGTTACCCCTTTAACGTAAAAACCGTGGCGGCAAGCCTGC -GCCGTCAGGGACTGAGGGCAAAGGCCTCCCGGAAGTTCAGCCCGGTCAGCTACCGCGCACACGGCCTGCC -TGTGTCAGAAAATCTGTTGGAGCAGGATTTTTACGCCAGTGGCCCGAACCAGAAGTGGGCAGGAGACATC -ACGTACTTACGTACAGATGAAGGCTGGCTGTATCTGGCAGTGGTCATTGACCTGTGGTCACGTGCCGTTA -TTGGCTGGTCAATGTCGCCACGCATGACGGCGCAACTGGCCTGCGATGCCCTGCAGATGGCGCTGTGGCG -GCGTAAGAGGCCCCGGAACGTTATCGTTCACACGGACCGTGGAGGCCAGTACTGTTCAGCAGATTATCAG -GCGCAACTGAAGCGGCATAATCTGCGTGGAAGTATGAGCGCAAAAGGTTGCTGCTACGATAATGCCTGCG -TGGAAAGCTTCTTTCATTCGCTGAAAGTGGAATGTATCCATGGAGAACACTTTATCAGCCGGGAAATAAT -GCGGGCAACGGTGTTTAATTATATCGAATGTGATTACAATCGGTGGCGGCGGCACAGTTGGTGTGGCGGC -CTCAGTCCGGAACAATTTGAAAACAAGAACCTCGCTTAGGCCTGTGTCCATATTACGTGGGTAGGATCAA -CCAGCATAAATCAGGCTGCGGCTAAAATGGCGCGGGCAGGAATCCTGGTCGTTGATGGTAAGGTCTGGCG -AACGGTGTATTACCGGTTCGCTACCAGAGAAGAATGGGAAGGAAAGGTGAGCACGAATCTGATTTTTAAG -GAGTGTCGCCAGAGTGCCGCGATGAAACGGGTATTGAGGGTATATAAAAGAACATCAATGGGAACACAAT -GATGAAACAGGTGAGTTGAGTTCAAACTGTAGTACAATTCTCTCCAGTTTGAACAGGAAAGAATATGCTA -TGAACCCTTATATTTATCTTGGTGGTGCAATACTTGCAGAGGTCATTGGTACAACCTTAATGAAGTTTTC -AGAAGGTTTTACACGGTTATGGCCATCTGTTGGTACAATTATTTGTTATTGTGCATCATTCTGGTTATTA -GCTCAGACGCTGGCTTATATTCCTACAGGGATTGCTTATGCTATCTGGTCAGGAGTCGGTATTGTCCTGA -TTAGCTTACTGTCATGGGGATTTTTCGGCCAACGGCTGGACCTGCCAGCCATTATAGGCATGATGTTGAT -TTGTGCCGGTGTGTTGATTATTAATTTATTGTCACGAAGCACACCACATTAAAATAATTTGTTTCTAAAC -GACTAAAATATGGAGGCTCTTATATTTATATGAGCCTCGTTTTATGCTTTTTGTTAATGTCTTTATTTTT -TATGTATTCTTTTGTGCTTTCAAGATTATGGCGTAAGAAAATTGCAATACGATTATTGTTGTATATTCAA -GATAATGTGACCTTAATTGTCTTTTTAAATAAAAAATAAACAAAAATTATATCCCACCACTAAGGTTTAT -AAAAGCATACGTTAGCAGGTGTCACCATGAAAAAAGCCATAGCATATATGCGATTTTCATCACCAGGTCA -GATGTCTGGCGACTCATTAAACCGACAGAGAAGACTTATTGCTGAATGGTTAAAGGTAAATAGTGATTAT -TATCTTGATACCATAACATATGAAGATTTAGGATTAAGTGCATTCAAAGGAAAGCATGCACAATCAGGAG -CTTTTTCGGAATTTTTAGATGCTATAGAGCATGGTTATATATTGCCAGGAACTACATTGTTAGTTGAAAG -TCTGGACAGACTTTCAAGAGAAAAAGTCGGTGAAGCGATTGAACGTCTGAAATTGATTTTGAATCACGGT -ATTGATGTTATAACTCTTTGCGACAATACAGTCTATAATATTGACTCTTTGAATGAGCCATATTCATTAA -TAAAAGCCATACTTATAGCACAAAGGGCAAATGAAGAAAGCGAGATAAAGTCAAGTCGGGTTAAATTATC -ATGGAAGAAAAAACGGCAGGATGCACTGGAATCAGGTACGATTATGACGGCGTCTTGTCCGAGATGGCTC -TCCTTAGATGACAAAAGAACGGCTTTTGTTCCAGACCCCGACAGGGTGAAAACTATTGAGCTAATTTTTA -AACTCAGGATGGAAAGGCGCTCATTGAATGCAATAGCCAAGTATTTAAATGATCATGCTGTAAAGAATTT -CTCAGGAAAAGAAAGTGCATGGGGACCTTCTGTAATTGAAAAATTATTAGCGAATAAAGCTCTGATAGGT -ATTTGCGTACCTTCATATCGTGCAAGAGGGAAAGGGATAAGTGAAATCGCTGGCTATTATCCCAGAGTCA -TATCAGATGATTTGTTTTACGCTGTACAGGAAATTCGGTTGGCACCTTTTGGTATTAGCAATAGTAGCAA -GAATCCTATGCTAATAAATCTACTTCGAACAGTTATGAAGTGTGAGGCTTGTGGTAATACCATGATTGTT -CATGCGGTATCTGGAAGTTTGCATGGCTATTATGTTTGTCCGATGAGAAGATTACATCGATGTGACAGGC -CATCAATAAAAAGAGATTTGGTTGATTATAATATCATTAATGAATTGCTTTTTAATTGTAGCAAAATTCA -ACCAGTTGAAAACAAGAAAGATGCTAATGAAACTTTAGAGTTAAAAATTATTGAGCTTCAGATGAAAATT -AATAATTTAATCGTTGCATTGTCTGTCGCGCCTGAAGTTACCGCTATAGCAGAGAAAATAAGACTATTAG -ATAAGGAATTACGAAGGGCTTCGGTATCATTGAAAACTTTGAAGAGTAAAGGTGTAAATTCATTCAGTGA -TTTTTATGCTATTGACTTAACCAGTAAAAATGGACGAGAGTTATGCCGTACACTTGCCTATAAAACATTC -GAAAAAATCATAATTAATACGGATAATAAAACCTGTGATATCTATTTTATGAATGGCATTGTTTTTAAAC -ACTATCCTTTAATGAAAGTAATATCCGCCCAGCAGGCGATAAGTGCTCTCAAATATATGGTTGATGGTGA -GATTTATTTCTAAATAATGATCTCGGATTTTAAGTTATGCTATGGTGATAAAGTGCAAGACAGAATTAAT -TATCTTTGACGAAACTTAATGGGTAATTACTTTGTTTGCTCCCACAAGCGAGTTTTGTACGGCTGTATTG -GGGTAGTAAATGAGCTATACAATCTTAATCATTTGTTAGGTGAGAACTCTTGGTCGCAGATTCAAATACT -GAAAATACGTGACAAATTATTATGAGCAAAATGGTGTATGTCACGTATTTTGAATGGTAGGTTAAAAAAT -AACACCGACTTTCGTAGGTGTTACTAATAATAAAGCAGAGTTTTTAGATAGTATCAATGTGCTTTGTGTA -TATTGTGGCAAATAATTGGGTTGGGGGTACAATTGTGATTGCTTTTGCATGAACATTGCGCCTTTATGCA -TAATGAGATAAAGGAATATCAAATAAAATAACGATAGGTCATAACAAAGAGGTTTTTATGAAAACACTTA -TCGTTTCAACTGTATTGGCATTCATAACATTTTCTGCGCAGGCTGCAGCATTTCAGGTCACTAGTAATGA -AATAAAAACAGGAGAGCAACTTACAACGTCTCATGTCTTTTCTGGATTTGGGTGTGAAGGTGGTAATACA -TCGCCCTCATTAACCTGGTCTGGTGTTCCTGAAGGTACCAAAAGCTTTGCCGTAACTGTATATGATCCAG -ATGCACCTACAGGCAGTGGTTGGTGGCATTGGACTGTTGTTAATATTCCAGCAACAGTAACATATTTGCC -CGTTGATGCAGGGAGACGTGATGGAACAAAACTGCCGACTGGTGCTGTTCAAGGCCGAAATGATTTTGGC -TATGCTGGGTTTGGTGGCGCATGTCCTCCTAAAGGAGATAAACCACATCATTACCAGTTTAAAGTATGGG -CTCTAAAAACTGAAAAGATTCCTGTAGATTCTAACTCCAGCGGAGCGTTAGTTGGTTATATGCTTAATGC -TAATAAAATCGCAACCGCTGAGATAACACCAGTTTATGAGATAAAGTAGGGTGAGAGTATGCTGGCAAGA -GGTAAGACTAACTTAAAGATCGAAGAAATACGGATGCATAAACATCATGAGATTCATAGGGTTAAGCCTC -TTATGCCAGCTTTGTGTCGTATCCGTCAGGGAAAGAAAGTTATCAATTGGGAGACGCATACTTTAACTGT -TGATAATAATCAAATAATATTATTTCCTTGTGGTTATGAATTTTATATTGAGAATTATCCTGAAGCAGGG -CTTTATCTTGCAGAAATGCTTTACTTACCCATTGATTTAATTGAGAGTTTCCAAAAACTTTATACGGTAA -CTGATCAAATACGTAACAAAACAAGTTTCTTTTTACCTCAGAATCCTGAGTTAATATATTGTTGGGAGCA -ACTAAAAACATCTGTTTCCCGAGGCTTCTCAACTAAAATTCAGGAGCACTTAGCAATGGGCGTTCTACTT -TCGTTAGGAGTGAATCATGTTAATCATTTACTTTTATCATATAGTAAACAATCATTGATAAGTCGTTGTT -ATAACCTGCTGCTATCCGAACCCGGCACAAAATGGACAGCAAACAAGGTTGCTCGATATCTCTACATTTC -TGTTTCTACATTACATCGCCGTCTAGCAAGCGAGGGGGTAAGTTTCCAAAGTATACTGGACGATGTGAGG -TTAAATAATGCGTTGTCTGCTATACAAACGACGGTAAAACCTATAAGCGAGATTGCCAGAGAAAATGGTT -ATAAGTGTCCTTCTCGTTTTACTGAAAGATTTCATAATCGTTTTAATATAACACCAAGAGAGATAAGAAA -AGCTTCCAGAGAGTAAAAGTGTTTTAAGAAGGAGCAATTCTATCGATTTTGATTTTGGGAAATCAACACG -GCATAATTATGTCACCGGAGCCTGAACAACTCCGGTGACTTCTGCGCTAAACGGGGACGTTTATGCGCAC -ATACAATCCAAACTCTCTTCTCCCTTCACAGATGCAGAAATGCACCTGCAATTCTTTGCATCTAGCGTTT -GACCTCTGCGGAGGGGAAGCGTGAACCTCTCACAAGACGGCATCAAATTACATCGCGGCAACTTCACCGC -TATCGGTCGGCAGATCCAGCCTTATCTGGAGGAGGGCAAATGCTTTCGCATGGTGCTTAAACCGTGGCGT -GAGAAACGCAGTCTTTCCCAGAATGCACTCAGCCACATGTGGTACAGCGAAATCAGTGAATACCTCATCA -GCAGGGGTAAAACGTTCGCCACTCCAGCTTGGGTAAAAGATGCTCTCAAACACACATATCTCGGTTATGA -AACCAAAGACCTGGTTGATGTCGTAACCGGTGATATCACCACTATCCAGTCGTTACGCCATACCTCCGAT -CTTGATACCGGAGAGATGTATGTCTTCCTGTGTAAGGTTGAAGCCTGGGCGATGAATATTGGTTGCCACC -TGACTATTCCACAGAGCTGCGAGTTCCAGCTGCTGCGCGACAAGCAGGAGGCGTAATGGCTACACCGCTT -ATTCGTGTCATGAACGGACACATCTACAGAGTACCAAATCGTCGTAAGCGTAAACCTGAGCTGAAGCCAT -CCGAAATACCAACACTGCTCGGATATACCGCCAGCTTGGTTGATAAAAAATGGTTGCGACTGGCAGCAAG -GAGGAGTCATGGCTGATTTGAGAAAAGCAGCGCGTGGTCGGGAATGCCAGGTAAGAATCCCTGGCGTATG -TAATGGCAACCCTGAAACGTCTGTACTGGCACATATCCGGCTGACTGGATTGTGCGGCACCGGTACGAAA -CCGCCAGACCTGATTGCCACCATTGCATGTTCTGCCTGCCACGACGAAATCGACCGCCGCACGCATTTTG -TTGACGCTGGATATGCAAAAGAATGCGCGCTGGAAGGTATGGCGAGAACACAGGTTATCTGGCTGAAAGA -GGGGGTTATTAAGGCGTGAATACCTACAGCATCACATTACCCTGGCCTCCGAGCAATAATCGCTATTACC -GCCATAATCGCGGGCGCACGCACGTCAGCGCAGAGGGGCAGGCATACCGCGATAACGTCGCCCGAATCAT -TAAAAACGCAATGCTGGATATCGGCCTGGCTATGCCTGTGAAAATCCGCATTGAGTGCCACATGCCGGAT -CGCCGTCGCCGTGACCTGGATAATCTGCAAAAAGCCGCTTTTGACGCACTCACTAAAGCAGGTTTCTGGC -TGGATGATGCTCAGGTCGTTGATTACCGCGTTGTGAAGATGCCTGTTACCAAAGGTGGGAGGCTGGAACT -GACCATCACCGAAATGGGGAATGAATGATGTTTGAGTTTAATATGGCAGAACTTCTTCGCCACCGCTGGG -GGCGTCTGCGCTTATATCGTTTCCCCGGTTCTGTTTTGACCGATTACCGAATACTGAAGAATTACGCCAA -AACCCTGACAGGAGCAGGAGTATGAAGTCAGAGATAACAATCAACTAATACTGTTTTGTTGATTTTTGCT -TGTAATTGGCGTTCTGGTCTGATTTTTGTGGAGTAAGTTGATGCGTGATATTCAGATGGTTCTTGAGCGT -TGGGGAGCGTGGGCGGCTAATAATCATGAAGATGTGACCTGGTCGTCCATTGCCGCCGGTTTTAAGGGAT -TAATTACTTCAAAAGTAAAATCTCGCCCGCAATGTTGTGACGATGACGCGATGATCATTTGCGGGTGCAT -GGCCCGTCTGAAAAAGAACAACAGCGATTTGCACGATTTATTAGTAGATTATTATGTAGTCGGTATGACA -TTCATGTCACTGGCAGGTAAGCATTGCTGCTCTGATGGTTATATCGGGAAAAGGTTACAGAAGGCTGAGG -GCATAATTGAAGGGATGTTAATGGCATTAGATATCCGGTTAGAGATGGATATCGTTGTTAATAACTCTAA -TTAATATGCCAATTGTTTACTAAAAATTATTAAAAATGGGGCGTTGAGACGCCCCCAAAAATAAAGGGTA -ATATATAACAGAAGGTTTATATAGTTAGAAGCAAGGTTGTGCTTCTAAAGGAAGTGGCTTGAGGGAGCCA -CTTATATGTTGGGGAGGCAACGCCTCCCGCAACATATCTTTTTCGTAATCAGATTAGAACTGGTAAACCA -GACCTACAGCAACGATGTCATCAGTGCTTACACCGAGTGCTTTAGGGAAGGTGCGAATAAGCGGGGAAAT -TCTTCTCGGCTGACTCAGTCATTTCATTTCTTCATGTTTGAGCCGATTTTTTCTCCCGTAAATGCCTTGA -ATCAGCCTATTTAGACCGTTTCTTCGCCATTTAAGGCGTTATCCCCAGTTTTTAGTGAGATCTCTCCCAC -TGACGTATCATTTGGTCCGCCCGAAACAGGTTGGCCAGCGTGAATAACATCGCCAGTTGGTTATCGTTTT -TCAGCAACCCCTTGTATCTGGCTTTCACGAAGCCGAACTGTCGCTTGATGATGCGAAATGGGTGCTCCAC -CCTGGCCCGGATGCTGGCTTTCATGTATTCGATGTTGATGGCCGTTTTGTTCTTGCGTGGATGCTGTTTC -AAGGTTCTTACCTTGCCGGGGCGCTCGGCGATCAGCCAGTCCACATCCACCTCGGCCAGCTCCTCGCGCT -GTGGCGCCCCTTGGTAGCCGGCATCGGCTGAGACAAATTGCTCCTCTCCATGCAGCAGATTACCCAGCTG -ATTGAGGTCATGCTCGTTGGCCGCGGTGGTGACCAGGCTGTGGGTCAGGCCACTCTTGGCATCGACACCA -ATGTGGGCCTTCATGCCAAAGTGCCACTGATTGCCTTTCTTGGTCTGATGCATCTCCGGATCGCGTTGCT -GCTCTTTGTTCTTGGTCGAGCTGGGTGCCTCAATGATGGTGGCATCGACCAAGGTGCCTTGAGTCATCAT -GACGCCTGCTTCGGCCAGCCAGCGATTGATGGTCTTGAACAATTGGCGGGCCAGTTGATGCTGCTCCAGC -AGGTGGCGGAAATTCATGATGGTGGTGCGGTCCGGCAAGGCGCTATCCAGGGATAACCGGGCAAACAGAC -GCATGGAGGCGATTTCGTACAGAGCATCTTCCATCGCGCCATCGCTCAGGTTGTACCAATGCTGCATGCA -GTGAATGCGTAGCATGGTTTCCAGCGGATAAGGTCGCCGGCCATTACCAGCCTTGGGGTAAAACGGCTCG -ATGACTTCCACCATGTTTTGCCATGGCAGAATCTGCTCCATGCGGGACAAGAAAATCTCTTTTCTGGTCT -GACGGCGCTTACTGCTGAATTCACTGTCGGCGAAGGTAAGTTGATGACTCATGATGAACCCTGTTCTATG -GCTCCAGATGACAAACATGATCTCATATCAGGGACTTGTTCGCACCTTCCTTAGTGAAGTCATTTTTGTC -AAGCAGGTTGATTTTGTAATCAACGAAAGTAGACATATTTTTGTTGAAGTAATAGGTTGCACCTACATCA -ACATATTTGACTAAGTCCTGATCGCCCCATACTCCAAGATCCTTACCTTTAGATTGCAGGTAAGCAACGG -ACGGACGCAGACCGAAATCGAACTGATATTGTGCAACAGCTTCGAAGTTTTGGGCTTTATTAGCAACGAA -GTGATCAGCAAATACAGTCATATTCTGGGTTTCAGAATAGGTAGTGGCCAGGTAAATGTTGTTAGCGTCA -TATTTCAGACCTGCGGCCCAAACTTCTGCATTTTTACCGGAAGCAAATACTTCAGGAAGAACTTTCCCTG -CATTAACTTGAGTGTCGGTACGATCAGATTTCGCATAAGTTGCACCGATACCGAATCCTTCGTATTCATA -GGTAGCAGAGAAACCGAAGCCATCACCGTTACCTTCAGTGTAGTTATCGAAATCGCTACGATCGTTTTTG -CCTTGGTACTGAGCAGCAAAGTTCAGACCATCAACCAGACCAAAGAAGTCGTTGTTACGATAGGTTGCAA -CACCAGTTGCACGTTGAGTCATGAACACGTCGGTTTGAGTCCAAGTGTCACCACCGAATTCTGGCAGGAC -GTCAGTCCACGCACCGATGTCGTATGCTACACCGTAGTTACGGCCGTAATCGATGGAGCCGTAGTCACCG -AATTTCAGGCCAGCGAAGGCAAGACGGGTTTTATCTTTGGAGGAACCTTGAGATTCAGCGCGGTTGCCTT -TGAATTCATATTCCCACTGACCGAAACCAGTCAGTTGATCGTTGATTTGGGTTTCACCTTTGAAGCCAAG -ACGGGCATAAGTAGTATCACCATCATCTGCATCATTAGAGGAGAAGTAGTGCTTAGCATTAACTTTCCCG -TACAGATCCAGCTTGTTACTGTCTTTATTATAAATTTCAGCTGCCTGAGCAGACATCGCCATTAGTACTG -ATGCAGCTACAGCAGAAATTGCCACTGTTAATTTTTTCATCGTGAGCCCTTTTTTTGAACTATTATTAAA -AAATGATGTCACTGCGCGATAAATATTCATCTAATCAATGTGATTATTTCAAGATGTAAGTTTTGGTTTC -TCGTTTGATTTGTGAAGTAGATCTCTATTTTTATCTGAACTTTTTTCTATCGAATCCTATTCATGGCTCT -TGGCTGAATAAAAATAAATCTATTAGCCAATTTATATTAACGGCTGTTATTTATAAGTGCTCTATAATTT -GAAGGTTCAATTTAAACCGGCTAAAAATAACACTGGAAATTATTTTTTGGTTATTTGTTGAGATTTGCTT -ATGTATTTGTAGTGGTGTTTTCAATACTCGGTAGCATTCTCTCAAATATCATTTAGTGGTTTACGTACGT -AAAAAATTGGTTATGCTGTTAAGAGTGGTTACTTCGTCACACAGCTTAAACCCGCCGTCGAGCGGGTTTT -TCCATTTTTTGAGTCTCGATATTAGCTGATAACCCAATACCTGAGTTATTCACTGACTCCGAGTCTGTTA -CGTTTCGTAGTATTCCCTCAATTTACACCCGCTTTGTCTGCGAGGTGGGGTTATGAAATCCATGGATAAG -TTAACAACGGGTGTCGCCTATGGCACCTCAGCAGGTAGTGCCGGGTACTGGTTTTTACAGCTGCTAGATA -AAGTCACTCCCTCACAGTGGGCAGCAATAGGTGTGCTGGGTAGCCTGGTATTTGGCCTGCTGACGTACCT -GACAAACCTTTATTTCAAGATTAAAGAAGATAAGCGCAAGGCTGCGAGAGGTGAATAATGCCTCCATCAT -TACGAAAAGCCGTTGCTGCTGCTATTGGTGGCGGAGCAATTGCTATAGCATCAGTGTTAATCACTGGCCC -AAGTGGTAACGATGGTCTGGAAGGTGTCAGCTACATACCATACAAAGATATTGTTGGTGTATGGACTGTA -TGTCACGGACACACCGGAAAAGACATCATGCTCGGTAAAACGTATACCAAAGCAGAATGCAAAGCACTCT -TGAATAAAGACCTTGCCACTGTCGCCAGACAAATTAACCCGTATATCAAAGTCGATATACCGGAAACAAC -GCGCGGCGCTCTTTACTCATTCGTTTACAACGTGGGTGCTGGCAATTTTAGAACATCGACGCTTCTTCGC -AAAATAAACCAGGGCGATATCAAAGGCGCATGTGATCAGCTGCGTCGCTGGACATACGCTGGCGGTAAGC -AATGGAAAGGCCTGATGACTCGTCGTGAGATTGAGCGTGAAGTCTGTTTGTGGGGGCAACAGTGAGCAGA -GTAACCGCGATTATATCCGCTCTGATTATCTGCATCATCGTCAGCCTGTCATGGGCGGTCAATCATTACC -GTGATAACGCAATCGCCTACAAAGTCCAGCGCGACAAAAATGCCAGAGAACTGAAGCTAGCGAACGCGGC -AATTACTGACATGCAGATGCGTCAGCGTGATGTTGCTGCGCTCGATGCAAAATACACGAAGGAGTTAGCT -GATGCGAAAGCTGAAAATGATGCTCTGCGTGATGATGTTGCCGCTGGTCGTCGTCGGTTGCACATCAAAG -CAGTCTGTCAGTCAGTGCGTGAAGCCACCACGGCCTCCGGCGTGGATAATGCAGCCTCCCCCCGACTGGC -AGACACCGCTGAACGGGATTATTTCACCCTCAGAGAGAGGCTGATCACTATGCAAAAACAACTGGAAGGA -ACCCAGAAGTATATTAATGAGCAGTGCAGATAGAGCTGACCATATCGATGGGCAACTCATGCAATTATTT -TGAGCAATACACACGCGCTTCCAGCGGAGTATAAATGCCTAAAGTAATAAAACCGAGCAATCCATTTACG -AATGTTTGCTGGGTTTCTGTTTTAACAACATTTTCTGCGCCGCCACAAATTTTAGCTGCATCGACAGTTT -TCTTCTGCCCAATTCCAGAAACGAAGAAATGATGGGTGATGGTTTCCTTTGGTGCTACTGCTGTCTGTTT -GTTTTGAACAGTAAATGTCTGTTGAGCACATCCTGTAATAAGCAGGGCCAGCGCAGTAGCGAGTAGCATT -TTTTTCATGGTGTTATTCCCGATGCTTTTTGAAGTTCGCAGAATCGTATGTGTAGAAAATTAAACAAACC -CTAAACAATGAGTTGAAATTTCATATTGTTAATATTTATTAATGTATGCCAGGTGCGATGAATCGTCATT -GTATTCCCGGATTAACTATGTCCACAGCCCTGACGGGGAACTTCTCTGCGGGAGTGTCCGGGAATAATTA -AAAACGATGCACACAGGGTTTAGCGCGTACATGTATTGTATTATGCCAACACCCCGGTGCTGACACGGAA -GAAACCGGACGTTATGATTTAGCGTGGAAAGATTTGTGTAGTGTTCTGAATGCTCTCAGTAAATAGTAAT -GAATTATCAAAGGTATAGTAATATCTTTTATGTTCGTGGATATTTGTAATCCATCGGAAAACTCCTGCTT -TAGCAAGATTTTCCCTGTATTGCTGAAATGTGATTTCTCTTGATTTCAACCTATCATAGGACGTTTCTAT -AAGATGCGTATTTCTTGAGAATTTAACATTTACAACCTTTTTAAGTCCTTTTATTAACACGGTGTTATCG -TTTTCTAACACAATGTGAATATTATCTGTGGCTAGATAGTAAATATAATGTGAGACATTGTGACGTTTTA -GTTCAGAATAAAACAATTCACAGTTTAAATCTTTTCGCACTTGATCGAATATTTCTTTAAAAATGGCAAC -CTGAGCCATTGGTAAAACCTTCCATGTGATACGAGGGCGCGTAGTTTGCATTATCGTTTTTATCGCTTCA -ATCTGGTCTGACCTCTTTGTGTTTTGTTGATGATTTATGTCAAATATTAGGAATGTTTTCAATTAATAGT -ATTGGTTGCGTAACAAAGTGCGGTCCTGCTGGCATTCTGGAGGGAAATACAACCGACAGATGTATGTAAG -GCCAACGTGCTCAAACCTTCATACAGAAAGATTTGAAGTAATATTTTAACCGCTAGATGAAGAGCAAGCG -CATGGAGCGACAAAATGAATAAAGAACAATCTGCTGATGATCCCTCCGTGGATCTGATTCGTGTAAAAAA -TATGCTTAATAGCACCATTTCTATGAGTTACCCTGATGTTGTAATTGCATGTATAGAACATAAGGTGTCT -CTGGAAGCATTCAGGGCAATTGAGGCAGCGTTGGTGAAGCACGATAATAATATGAAGGATTATTCCCTGG -TGGTTGACTGATCACCATAACTGCTAATCATTCAAACTACTTAACCTGTGACAGAGCCAACACGCAGTCT -GTCACTGTCAGGAAAGTGGTAAAACTGCAACTCAATTACTGCAATGCCCTCGTAATTAAGTGAATTTACA -ATATCGTCCTGTTCGGAGGGAAGAACGCGGGATGTTCATTCTTCATCACTTTTAATTGATGTATATGCTC -TCTTTTCTGACGTTAGCCTCCGACGGCAGGCTTCAATGACCCAGGCTGAGAAATTCCCGGACCCTTTTTG -CTCAAGAGCGATGTTAATTTGTTCAATCATTTGGTTAGGAAAGCGGATGTTGCGGGTTGTTGTTCTGCGG -GTTCTGTTCTTAGTTGACATGAGGTTGCCCCGTATTCAGTGTCGCTGATTTGTATTGTCTGAAGTTGTTT -TTACGTTAAGTTGATGCAGATCAATTAATACGATACCTGCGTCATAATTGATTATTTGACGTGGTTTGAT -GGCGTAGATGCACGTTGTGACATGTAGATGATAATTATTATCATTTTGTGGGTCCTTTCCGGCGATCCGA -CAGGTTACGGGGCGGCGACCTCGCGGGTTTTCGCTATTTATGAAAATTTTCCGGTTTAAGGTGTTTCCGT -TCTTCTTCGTCGTAACTTAATGTATTTATTTAAAATACCCCCTGAAAAGAAAGGAAACGACAGGTGCTGA -AAGCGAGCTTTTTGGCCTCTGTCGTTTCCTTTCTCTGTTTTTGTCCGTGGAATGTGCAATGGAAGTCAAC -AAAAAGCAGCTGGCTGACATTTTCGGTGCGAGTATCCGTACCATTCAGAACTGGCAGGAACAGGGAATGC -CCGTTCTGCGAGGCGGTGGCAAGGGTAATGAGGTGCTTTATGACTCTGCCGCCGTCATAAAATGGTATGC -CGAAAGGGATGCTGAAATTGAGAACGAAAAGCTGCGCCGGGAGGTTGAAGAACTGCTGCAGGCCAGCGAG -ACAGATCTCCAGCCAGGGACTATTGAGTACGAACGCCATCGACTTACGCGTGCGCAGGCCGATGCACAGG -AGCTGAAAAATGCCAGAGACTCCGCTGAAGTGGTGGAAACCGCATTCTGTACTTTCGTGCTGTCGCGGAT -CGCAGGTGAAATTGCCAGTATTCTCGACGGGATCCCCCTGTCGGTGCAGCGGCGTTTTCCGGAACTGGAA -AACCGACATGTTGATTTCCTGAAACGGGATATCATCAAAGCCATGAACAAAGCAGCCGCGCTGGATGAAC -TGATACCGGGGTTGCTGAGTGAATATATCGAACAGTCAGGTTAACAGGCTGCGGCATTTTGTCCGCGCCG -GGCTTCGCTCACTGTTCAGGCCGGAGCCACAGACCGCCGTTGAATGGGCGGATGCTAATTACTATCTCCC -GAAAGAATCCGCATACCAGGAAGGGCGCTGGGAAACACTGCCCTTTCAGCGGGCCATCATGAATGCGATG -GGCAGCGACTACATCCGTGAGGTGAATGTGGTGAAGTCTGCCCGTGTCGGTTATTCCAAAATGCTGCTGG -GTGTTTATGCCTACTTTATAGAGCATAAGCAGCGCAACACCCTTATTCCAGCTGGCTTCGTGGCTGTTTT -CAACAGTGATGAGTCATCGTGGCATCTCGTTGAAGATCATCGGGGTAAAACGGTTTATGACGTAGCGTCA -GGGGACGCGTTATTTATTTCTGAACTCGGTCCGTTACCGGAAAATGTTACCTGGTTATCGCCGGAAGGGG -AGTTTCAGAAGTGGAACGGTACAGCCTGGGTGAAAGATGCAGAAGCAGAAAAACTGTTCCGGATTCGGGA -GGCGGAAGAAACAAAAAACAGCCTGATGCAGGTAGCCAGTGAGCATATTGCGCCACTTCAGGATGCTGTA -GATCTGGAAATCGCAACGGAGGAAGAAACCTCATTGCTGGAAGCCTGGAAAAAATATCGGGTGTTGCTGA -ACCGTGTTGATACATCAACTGCACCTGATATTGAGTGGCCTACGAACCCTGTCAGGGAGTAATCATTGGG -ATTATGCCGCAGCACGTCTTAAGCAAGAACATGCTGCGGTTGGATGCTATTTTTTTCCTGAAGCGGAAAA -CATTACTACAGTACCTTGAACCTTGGTTTTAACATTCTCGAAATGCTCTGAGAGTATATGTGTTAAGCCT -TCTTCGGAATCTTTTGTGTTTGAAAAGATGCCTTTCTGATTGTAAATGCGCATCAGTTTTTGACCGAAGC -TATTGTGCACAACTCCATCGCCAAGAATTGTGGCTCCGTATAGAGTTCCATCGTCAGTTAAGGCCTGCGC -CGCATTGCGTATTACACAGCTTTTTGTAGATATATTTCCAGGCAGGCAGTGAAGAAGGTAAGACATGGAA -ATGGAATCAAATTGACCATGTAACGCCGCGGGATAAGGTTCAAAAACATCATGGCTAATTTTATGTTTAA -TTTTTGATTCCCCAGCCCTTGTAGATGCCGCGTTCAGGCTAGCTTCGTTCAAATCCATTAAAGATATCAG -ACTACTCTCAGGTACGTGAGTAAGGTAAAACCCAGTTCCAACACCAATATCCAGATGGTTGTTACCTAAA -TGTTCCAGAAAGTGTGGAAGAAGGTGTTCCTTTGTAGGACATCCCCATGCAAGCCGATTTGATACTCCCA -AAACCCACCAGTCATAAAGCTTTAGGGTAAGTGGTGTGTAAATTCTAGCCCCATCATCTGTGTTTTTTTA -TTAATTTCACCATGTTATAGTTTTATTTGTGAATTAAATCAATTATGGCAATGAATTACAAGGGGTTAAA -TGCTGCCGCAGCATAGCGATATTGAAATAGCCTGGTATGCTTCAATACAGCAGGAGCCGAATGGCTGGAA -GACCGTCACCACACAGTTCTACATCCAGGAATTCAGTGAGTATATTGCGCCACTGCAGGATGCTGTAGAT -CTGGAAATCGCAACGGAGGAAGAAAGATCGTTGCTGGAAGCCTGAAAAAAGTATCGGGTGCTGCTAAACC -GTGTGGACACTTCCGTAGCACCAGATATCGAGTGGCTTATTCAACCATAATAAACAGTATGTATATCATA -GGTTATTAATTGTGAGTTTTTTCGGTGTGTTATTTGTTTGTTTGATGTTATGCTTTTGCGCCCCAAAAGG -TTGTTTAGATGTATTTTATCAATTGATTTTCAATATCGTTTAATAAAGAAAAATTAAGCAAGCTGGATGT -TGGTTTTTTGTTAATTGAATGGTTCTAATAATGTTTTTTTACTGTTGTTGAATGTGACTTGATAAGAAAT -GCAAGTAAAAATGATACTCTTTTTATTTTAAATTCAAACGGTTGACATATATATAGCAAGAGGTTTCAGG -TGCGTTGTAGTGAGTTTATGTTAATAAAAAGCATAGTAAGCGTTGAAAAATGTAACTTTGAAATAAGTTA -GAATAAAAAACAACATACATATAATAATTTAATCTTAAATGAAATTTATTAAAATTTGCAAACTATAATT -TTGTGTATAAAAATATAAATGCACATCATCCTGATTATGATTGTGTATTTAATTGGTTGTTATTTGACTA -CTATCAACTTGTTTTAATTTTATGATAGGTGCAAGATGGATTATGTTTGCTCCGTAGTTTTCATCTGTCA -ATCATTTGATTTAATTATAAACAGGAGAGTTATCTCGTTCAAAAAAAATTCATTGTTTATTGTAAGCGAC -AAAATTAGAAGGGAGTTACCAGTATGCCCCTCTAAACTAAGAATTGTTGATATAGATAAGAAAACATGTT -TATCCTTTTTTATCGACGTGAATAATGAGCTGCCTGGCAAATTTACTCTTGATAAGAATGGCTATATTGC -TGAAGAGGAACCTCCATTATCGCTTGTTTTTTCTCTGTTTGAAGGGATTAAAATAGCAGACTCACACTCC -CTTTGGTTAAAAGAAAGACTATGTATATCCTTACTTGCCATGTTCAAAAAACGCGAAAGTGTAAATTCAT -TTATACTAACAAATATAAATACATTTACCTGTAAAATTACTGGAATAATCAGTTTTAATATTGAGCGGCA -ATGGCATTTAAAAGATATTGCGGAATTGATTTATACGAGTGAAAGTTTAATAAAAAAAAGATTAAGGGAT -GAAGGAACGTCATTTACTGAAATATTGAGAGATACTAGGATGAGGTATGCAAAAAAACTCATAACTTCAA -ACTCTTATTCTATCAATGTCGTAGCCCAGAAATGTGGCTATAACAGTACTTCATATTTCATATGTGCATT -TAAAGATTATTATGGTGTCACGCCATCTCATTATTTTGAGAAAATAATCGGCGTCACAGATGGAATAAAC -AAAACAATTGACTGATAATGTTTATTACAAGTTGTCTACATGTTAATTATAATATTATACAGCGTTTTTT -TTGATGTGATATTCTGGAACCATTAATTTGTAATTGGGTTGCTGTCGCCTATTTTATACATACTATAATT -GATGGTTTTCTATGTGATTTAGTTAATAACCTTCTGGGTTTATTTTAAGGGTTAATTGTTACATTGAAAT -GGCTAGTTATTCCCCGGGGCGATTTTCACCTCGGGGAAATTTTAGTTGGCGTTCTTAAAATGTGTACTTA -AGACCAGCAGTAGTGATGAAGTTATAGTTTTCTATACCTGCTCCATTTTTGCTGTAGTCTGAAGTGTTAT -TATTGTGATCATAAAGTGAAGTATTACCTTTTTTATTCGTAACCCGATTCCATGCGCCTTCAACATAAAC -TTTTGCGTTAGGTGTGACGTAATAACCTGCATTGACTGCAACAGAATAGTAATTTTGGTCTTTGACCTTA -CTGCGATAAGTGATTCTTTTTCCCGGGTCATAGTGTTCATCGTTATCAGATGATTCCACCCAGCCGCTGT -ATTTAAATGTGCCACCGAGTTCAAAATCTTCATAACGATAACTTCCAGTCAAGCCAATGTAGGGCATTTT -AAAACGTTGTTTGTAGCCGATTGCTCTTTCTCCATTCGGGAAGGAGCCGATATCATCTCTGAATCCCTCC -TCAGAACTGTAGATATAGGAACCACCTCTGGCTGTAAAGCTATAACGGCTTTCCTGATATCCGGCCATGA -GTCCCAGGCGGTAATTGGGTTCGTTGAGGAGCCAGCCTTTGATATTCAGATCAAATTCGTTGGCATAATT -GAGTTGTGTATCAGGGTGTCTACTTTCATCCGTCCAGGTTCCGGGGTTACTGGAATCCATCCAGTCCTGA -TCGACCATATTGCCACCTCGGCTGCCGAGAGTTGTCCAGCCAGCAGCCCCGATAGATATCTGGGGCATCA -AATCCCAATTAATTGCACCTTTAATAATTGCAGCGTTATTGAATTTCCAGTCGAGTTGACTGACTTTTCG -GCCTCCTTCTTCGGCTAGATAAACACGCTCTTTTGTTTTTCCGCTCAGAGTTCCAAGACTAATGTCCGCA -TTTATGTTGTCAGGAGTAAACGATAAAGTCTCGGTAGAAGCAAAAGAGCTGATCGCAATAGGGGTTGTCA -GGACTATTCCCAGAAGTTTCGCCCGCATAAAAGTTCTCCATTCAATCGTTTTAATGATTGAATATGTATT -TTTTATATCTAACTTAATGAGTCAATTACATATTGCTCCACTGTTTATATTTTGTTTAGTATTGAATGAT -TATCACAATGCGCTATCTGTTTTTGGTTTAATTATCTGTTATTGTTTCATATTTCGGTTTTACTGTGTGG -TTTTTTTATGCTTTTGTGGTGCTTTTATCTATTTAAGTGCCATGCCTTTAGAGGCATATAAGCGAAAATA -GCATGAGGTTTATCCTCAATTACTATGTTTTTTAGTACAAAAAAGAGGGACAAAACTGAGACACATAAGG -CCTCGCAATGGCTTGCAAGGCTTTACATGTTTTGAGGTAGTGGGACGTGTGAGCGCAGAGATGGCGCGGT -AAGTTGTTGACTTAAAATGTCGTTCTAGGAACTTCTAAGTCGTGGGCCGCAGGTTCGAATCCTGCAGGGC -GCGCCATTTCTTCCTCATTTATGCCCGTCTTATCCGTTTCCGCTTTGCCCTTCACCACATCACTTTTTGT -CGCTGTTTGGCGAGATAATTCAACGGTGTCAGGCCGTAAAACGCCTTAAAAACAGAGATAAAGTACGACG -TGCTGCTATAGCCACATAATTGCGCCACCTGAGTGATATTTTTGTTATCCATCAATAACATCTGTACGGC -GTAACGCATACGACACTCTGTGACAATCTGGCTATAGCTGGTATTTTCGTTTTTTAATTTCTTTTTGAGC -AGGCTGGGGCTTAAACATAGCGAACTGGCGACAATTCGCAGATTCCAGTAATGCTGAATATCGCTTTGAA -TAATGCGGCAGACGCTGTCGCGGACGCTGCTGCGTAAGATATACATCAGTAGGGCAATAAACCGCGATTG -CTCAAGAAAGTTAGACAATACGGTAAAAAGCAATGCGCGCGTCAACTCCGCTTCGCAGGGTCTGCTGGGT -TGCTGCTTGCTGTGGTTGGCGGCTAGCCGGAACACTTCCGGTGTACGGCTATGACAAGCGATAACCGGGG -TTGCCAGCCGCGACCAGGGCTTTACACAGGTTAAGTTCTTATTTAAAAACAACAGATAATCGTTGATGAT -GTTACGGTTGATGTGGGTGATTAATACGTGATTTAACGTTGAGAGTTCAATGACGTTATTGTTGCACGCG -AAGGCGGCCAGGTAGTTTTTCGGAAGGGTAAACGTAGCATGGTTATTGACGCTTACCTCTACCTCTTTTT -CGGTCAGGATCACCACGCAAGGTTCACTGCTGCTCAATTGCATTTCGCACTCCTCAGATATCAGAAACTC -CGCTCAAAGGATCTATGCTTCCTGCATGAGTGATCGGCCCGTTCGCCGATAACGATCTTCTTTCTTTAGC -ACGCTTTTTAGCAATTAATCTTGATGGAATTCTGATGAGAGCGAAAGAGGTAAGCCAGGTCGTACCCGAC -TTACCTGGAGGAGATTTAATACTCGAGAATGCCGTGCGCGACGGGCAAATAGCGCAGAGAGAAATAGAGA -GTGTCTTTACCGCAAGAGGAACGTTTCGCTAACAGCGAGGCAATTTCTGCGTCCGGTTTCGGTTTCGCTG -TAAAGGTTTTGCCTTTGCCGGCGACAAAAAGTTCATAAACAACGCCGCTGGCAGGGGCGGGACTTTGGCA -ATCGGCGCTGGCCTGTAAATAACGTTCACGCTGTTCAGCGGTCAGTTTATCCACGCCGCTGCCATCCTGT -ACCCAGACATTAACGCCGGTTGCTTTAACGTGTTCCAGCAGTTGGCGATAGCCATCGGGCGACATGTTTC -CGGCGAAAAAACTACTGATATAAACCGGTTTTGCTGAAACATCGCTAATCAGCCGCTGCGCGTTGTTTAA -CCATGTTAGCAAAGGCTGACGGGCGGCTTCGCTGCGCCAGTTCAGGTCGTCAATTTCCGCGCTGATGTAC -CAGCCATCCGGCGTTATGCCAGGCGCGGCGCTCCATAATCTGGCTTGCTGGAGATCGGCAGCCAGCAGGC -GATTAAGATAGCTTTCCAGCGCTGCGGACGACTGTTTCTGGTGCATAAAAAATTCCGGATCGGCGTTCAG -CCCGACAATAAGCTTCAGACCAGCCTGTTGCGCAGCTGCGGCCCGCTTAAACAATAACGTGCGCTGTTCT -GGCTGGGTAAATGCATCGCCGTAACGGGTCCATTGCAAAACAAGGGTATCGAAGCCTTGCAAACGTAACT -GACTCATCAGCCCCTGCCACTGGGTATCGGTAACCTGACTATCTCGGTTTTGTGGTTGCCAGATAATACC -TTTCATCGCAAAGGAAAAAGGGCTGACCAAAAGCAGTGTCAGCAATACGAAAATGAACTTACGCATTTAC -CAGTGCACTCCAATGGTGAGAAACGCGTTGTTGCGCTCTCCGTTACGTTGATTAATCGCCTTAAAGGTAT -GTTGATACTCGACGCCGAGACTGACTTTGTGCGGCCAGGCGTCGTAGTGCGTCTCGCCGGTCCAGATATT -CCAGCGGACCCCGACTCCGCCAAGCTGCGCGCCCTGAGTGCCTTTATCACGATAGCCGTTGTCCTGAACG -TGAGCGTAAGGCTCAATAGTCTGTCCGTTAGCTACCTTCTGATGCCAGCTGACGCGATAATCTGCCGTCC -ACGCCTGAATATCCTGGCGGATATATTGCGCCGCATCGAGGTACAGGTTTTGGGCAAACCAGCCTGAACC -GTTCGGGTGCCATTCGTCGCTGTATTTGCCGCCATTAAAGAATGAGGCGCTGGCGCGCAGCATGGTATCG -GATGCGCCATTTTGGCCGTTCAGCGGCAACTGCTGTTCGACGGCGATGAAAAAGATCTGATCGCGCAGCG -GCTTCCAGCGCAGACCGGTGCCGGACATCGGATTTTTCACCGGCATCATCACCCCGTTTTCTCCGGTATC -GGCAAAGACGCGGCTATAAACTGAGAGCAGGTCGCCTTCCAGCAGCATATTGCGTCCGATGCGGTACTCG -GCTTCCAGTTGTCCGTAGCTACGATAGCTTTTCCCTGGCGCTGCGCCGCCGACATTATTGTTAGCGGTAC -TCATTGCGCCGGAACGCAAGCCGATGGAAGAATCGAAACTGAACGTCCAGCGGCGACCGACCTCCTCATG -CAAACGGCGGAAATTGAAGCGTTGTTGATTTTGTTCTGGGGTCAGTGGGGTTATCAGCGCCTGATTATCA -ATGTCATCAATCACCAGCCGGGCGTAGTGCTGCGTCGCAGGCATGTCATCCAGACGCTGGTTCACGTAGG -CCAGTTGTCGGATCAGTGCCGGATCGTCCGGAAGCCCTTTATGCGCCGGTTCGAGCATTTCCCGCGACTG -TGCGATATCACCGCTATCCCACAAGGCGTAACCAAGCGCTGCCTGGGTGTTGCTATTATTCGGTTCCAGT -TCCAGCGCGGCGCGCAAATCACTCACCGCGGCCGGGACATTATGACGTTGGCGATAAATTGTCGCCCGCG -CAACGTAAGCGTTGGCAGAAGGCGCAATATTGATTGAGCGCGTGAGATCGTTCAGTGCGAGTTCCGGCTG -ACCAGGAATGTAACGTTGCGCATGCAGCCACCAGTAGAGGGCATTGCTTCCCAGTCCACGTTTTTCTGCC -TGTTGTAGCCAGCGATCGCGAGCCGCACCATTTCCTGCCGCCTGGGCGGTATTGGCAGCAGCAAGCAGAT -CCTCATTGCTCATGTCGTGAAGACTGATTTTCTGCCAGGCCGCCAGTGCGGTGGCGTAGTCCTCAACCTG -ATACGCCTGATAGGCTACCGCACGATGTTGCCAGGCGCTCGGTTGTCGTTGTTCGGCCTGAAGCCATGCA -TACAACGCCACACCGGGTAGCGTGTCCCGATAACACTTTGCCAGACGGTTCCAGGCGGCGGCATCGTAGG -AAGGCGACATATCGCCCAGCAAGCGAACTATTGCCGGGCAATTATCTGCAATACCCGGCAACTGACTTTG -CCACTGACGTTGCTCCGCCAGCGGTAAGGGTTTCGATAAAATCGCCACCTTCGCCGGCGTTGCCAGGTAA -GGATGACTTTCCAGCAGAGACGCCAGTCGCGCCATTAAAGTCTGGCTGACACGCGCATCGCCCTGGAAAG -GATAGCGTTGCAGCAATAAATCGGCAGCTTCGCGTGACTGCTCGTTCTGCATCAGTTGCCAGGTTAGTTG -ATCCAGGCGGGTAAGATTTGCCGGTTCTTGCTGATACAGCAATCGTGCCAGACGCAGAGCTTCAGCCTTG -TTACGGGTCGCCACGCTGACAGCATAACGCTCCTCAAGCATTTCATTGGCGGGGAGGGTGGCGAGCAGTT -TTTGCGCTGCGTCGTACTGACCTTCTTTTAACAGCACCGGTAGCGTCGCGCCAACAACATACTGGCGGTT -GTCGGCAAACTGTACCGTATAATTCGCCAACGCCTGAACGGGGTTAGCGCTGTATTTAGATAACAGATAG -AGCCAACTTTTCTCTTGTGCGTCCGTGGTAAATAGTGGCTTATTTTCAATGAGATAATGCTGGAGGCGTG -CTTTTTCGCCACGATAAGCCAGCGCGGTCGCGTAAGTAATATATGACTGAGGATCGGTGAAGATCCCCTG -TGATTGCAGTGCCAGGATCCGATCGTCCAGCTGCCCGGCAAGAAGCACGTCAAACCACTGACGGCGTTCT -GCCGCGCTTAATGTGTTCTGCTGGCGTGCTTCATTGTATAGCGTATCTGCCTGGGACCATTGTTTCAGGT -AGATTGCCCGTTGCAGCAGATCGGTTCGCAGCGTTTTTCCTTCCGGCGATGCAGCAAACGTCGCATCGTT -CAGTTGCGCTCTGGCGACAGGTAACTGTGCCAGCCGCAGGGCATTCTGCCCGACTTCACTGCGACAACGC -AGGGTCGGCGCAGCATCGCACGCTTTTTGCTGGGCAAGCAGTTCTTCAACTGTCGTAACGCTTTTCACTT -CAACCGGAATAGCCGCCAGACTGCGCTCAAGTCGGGCATCTCCTGGGTGACGTTTCAGTTGATCCTCAAG -CAACAGCCGCGCCCGGTCATCATGACCAAAATGGCGATAGGCTTCCGCAAGGTATAAAGTCAGCGGAATA -TTATCCGGCACCTGCTGGTGTATATATTCAAATTCGCGGATGGCGGTTGCTTCGTCGTTATTTTTCTGTG -CCTTCAGCGCTTTATCGAGACGGGGATAAATAACAAAATGGCGATAATCGCTCAGCCCCAGCTCTTCTGC -GCTGGTGCCGATATTGTCTGCGAGTGCGCTGGTACTCAATAAAGACGTCAGCAGTAAACCAGACCATCCG -ATGACGCGATTAAGGTTATTCTCCTTCATTTTCGGACTCCAGTTGCGCAACCTGTTCTGTGTTTAAACCT -GCTTTGAGTAATAGTGATTGCATCGAAACTTGTAATTCGCGTTGAATTGTCAGGACGCGATCCAACGTTT -CCTGGCTGATAACGCCTTCGGTGACCAAAAACTTGCCGAGCGGCAGAGAACTGCGTTCATGGCGCAATAA -CAACACGTTAATTGCTGAACGATTAATATGACCGAGCGTGGTCAGTATTTCGGCGAACAGGAACTGATGC -GGCACATATTGCCGCCAGATTTCACCGGCCTGCTGTTCCGTGAGCCACTGATGCTGAACCGCATTGTACA -ACATTGCCCGCGGATCGTGACCGCGTCGGCGTGCATACCAGTGACGTAACCCTGTGACAATTTGTCCCCG -CAGAACAATGACGTAACGCACTTTGCGTCCGACTTTACGCGTCAGGGCCGCCAGCGAAACCGGGTCAATA -CCATCTTCACTGCCGACAATTAACTCGTCATTTTCCAGACGCAGCGGCAGTACCGCATAATGCAGCGCCA -CGGAGGCCGGCATTTCGGCAATCAGCGAGGAAGGGATCTGCCAGGCATCGATGGATTCCCACGCCACGCC -GTTTTGCTCTGCCAGCGCCTGTGCCAGCTGCTCGGCGCTAATCAGCCCCTGCATCAGCATTGAACCGCCC -AGGCGTAGACCTTCGACGCGATTACGCAGTGCTGTATCGAGTTGTTCTTCAGTGATGACCTGATTTTCCA -GCAGAATTTGACCTAACGGGCGCAACGAGCGGGTATCGCCAGTCACGCTGGGGAAGTCATGCGTTGTTTT -ATCCCACGCCACGCGACGTGGATCGCCGTGTTGAAGTACCTGTTTTAGCGCGCGCCAGTTGGCCATGAAG -TTAATCAGGTTGCCCCAGAAAAGACGCAGGACGGAAAGCAGCCCCTGCGTCAGGCCGTAGTAGCCAGTAA -CGAAAATCACCCGCTGCACGATGCGGTTAACCATCAAACCAAAGTTTAGCCACAGCAGGGTCATTAACCA -TGCGCTGCCGCTGAAAATAGAAAGGAAATGCCAGGCATCGGGCCACAAACTTTCATACGCCAGCAACAGC -AAAAGCTGGATCATCACCAGCATCGCGAGGAAGCTGACAAAGTTACTGATTGCCCCTTTGCGGTCGCGCC -AGAGAAAGTAGTTCAGCGTCAGGCTGGAGGTCCATTTATGGGTTTTAAAGCCTTGGAAAACAATGCCGAT -GATCCAGCGGGATTTTTGTCGAACCGCAGTCGAAAAGGTATCGGGGAAATATTCGCGCACGCAGATCATG -TTTGATGTCCGCGCGTGCTGTAAAAATTTACGCTGCTCGCGTTCTTTGGCTTCGTCCACCACCGGAAAAC -GGACAAAAATTTCCGTCATACCTTTTTCTTTCAGGCGGAAGCCAATGTCGTAATCTTCAGTAAGACTCTG -CACGTCGAAAGCAATACCGTCACCGTCAGCTAACAGTGCGGTCACGGCGCGGCGGCTGAAACAGGTGCCG -ACGCCTGCGCTGGGCACTTGTCCGGCGAGGGCTTCACGCACCGGAACATCTTTGCCATGCAGCTCTGAAA -ACTCATCAATGTAAGTCATGCTGGTGAAGTGCGTCCATTCGCGTTCGAACGGATACACCGGGATCTGAAT -CAGATCTTTACGCTCGACCAGATAGTTGAACAGACGCAATTCCATCGGTGAAATCACATCTTCGGCGTCA -TGCAGAATAAAACCAGCAAAAGCGAAATTGGCGCTACGCTCAAATTGGGTGATGGCGTCCAGCACGTTGT -TCAGACAGTCGGCTTTGCTGGTGGGGCCAGGACGCGCGCAGACTACCTTATGCACATTCGGGAAGCGAGC -GCACACTTCGTCAACATCACGCTGAGTATCGGGGTCGTTGGGGTAGGTGCCAACAAAGATATGATAGTTT -TCGTAGTCGAGCGTGGTCGCCGCCAGCTCGGCCATATTGCCGATGACGCCCGTTTCATTCCACGCCGGAA -CCATAATCGCTAACGGTTTTTCATCTGGTTTATACAGTTCGCGGTAACTCATTCGCGGGTAGCGGCGATA -AACACTCAACTTGCGTTTAATGCGGCGTACCCAGTAGACGACATCAATAAAAAAATCGTCCAGCCCGCTG -ATGAACATGATGACCGCTAACGTTATCGCGATTACTTTTAAGCCGTAGAGCCAGGTAGCAAAAACATCAA -GAAGCCAGTCCACACAAAAACCTTACATTAACGCTGGTTATGTTTAGGGTGGCGTATATTAAGGTTTTTT -ATGAATTGTGACAGCTTTTTACCATTAATAGGTATGACTATTGCGGCACGTTATTTTTACACTGGTTATA -AAAGTTGCCGTTTGCTGAAGGATTAAGCGGGTAATGTGATAACAAACCTTGTCCCCCGCGCATCCGACGT -TACCGCAACCGTGCCTTTATGCGCGACAACAATCGATTTCACTATCGCCAGGCCAATACCGCTACCTTCA -CCTTTTCGCTGGCGGGAGGGGTCAACGCGATAGAAACGGTCAAACAATCGCGGTAAGTGCTCGGGCGCAA -TGGGCGTACCGGGGTTTTCGACGATAACTTGCACCAGGTGATCGACCGTCTGACAGCGCACTACAATTGT -CTCTCCGGTTGGCGTATAACGCAGGGCGTTCGAAAGCAGGTTGCTTAGCGCCCGACGCAGCATCAGCGGA -TCGCCCGCGACCTGACACTTGTCGCCAACAAACCGCAACTCCACGCCGCGATCTTCCGCTAACGCCTCGA -AAAAATCGAACACTTTGCCGACTTCATCCGCCAGGTTGAGCATTTTCTTTTCGGGGATTAGCTGGTTGTT -ATCGGCCTGAGCGAGAAACAGCATATCGCTGACCATTTTCGCCATTCGCGTCAGCTCTTCGAGATTAGAG -TAGAGCACATCTTCCAGCTCCTTCTGGCTGCGCGACTGGCTGAGGGCGATTTCGGTTTGCGTTATGAGAT -TCGTAATTGGTGTGCGAATTTCGTGAGCGATATCCGCTGAGAAATTGGACTGGCGGGTAAAGACATCCTC -AATACGCTCGATCATATGGTTGAACGACAGTACCAGCTGTTCCAGCTCAATGGGCACGGTCTGCGGGTCG -AGGCGAACGTCGAGATCTTTCGAGGTAATATTCTGGATTTGACGGCTGACGCTGCGGATCGGCGCGTGAC -CTTTATGTACCGCCAACAGTACGATAAAGACGATCAGGATGCTGATTACCGATGCGGTCATAATAAGTTT -ATTCATCAAATCATTTATGTAATGAAGATGAAAATCGATCGAAAGCGCGATGTAGAGCGTATAAATCGGT -TTGCCGTCCACCAACGGGCCAACCGGCAAGTTAATCATCCGCCAGTTGCTGTGTTCCATATGCCCGTGAC -CGTGGCCTGGCATCATCATCGTCGGGCCGGAAAGGAGATACACCTCGCCACCCTGAGCGTCTTTATCGGG -TATGGCGTCACGCGTAAACTCGCGGATATCCGGCGCACCGGGGGAGTGATACACCGTTTTACCCTGACTA -TCTGCCAGGGAAATCAACACATTGGAATAACCACTGACGATATCTTCCAGCGTCATTAAGCGTCGGGCTT -GCGTTTCGTCAGGGTGATTTAGTACCCGTTCAAGGGTGGCGCTAATCTCTTTTAAATCATTAATATCCTG -CTCGGCAAAATGAACTTTTACTGAGTGGATCATGATCCATGCAAAGGCGAAAAACGCCGCGATGGTGGCC -AGGCTGATAAAAAAGGTCAGGCGGGTTGCCAGCGAAAACGGGCGCTGAAATGGCTTACTGACCATCCGGC -ACCTCAAGCATGTAACCCACGCCGCGCACGGTCTGAATTAGCTTCGGCTCAAAGTCGTTGTCGATTTTGC -CGCGCAGCCGCTTCACCGCCACATCAATAGCATTGGTATCGCTGTCAAAATTCATGTCCCATACCTGCGA -GGCGATAAGCGAGCGGGGCAGCACTTCGCCCTGATGGCGAAGGAAGAACTCCAGCAGAGTAAACTCTTTA -CTGGTCAAAGTGATGCGCGTGCCGCTGCGGGTGACTTTGCGGCTGACGAGATCGACCATCAAATCGGCAA -CCTGAAACTGACTTTCGATAATCACCGCCGCCCCGCGCCGCAGTAATGTGCGCACCCGCGCCAGCAGTTC -AGCAAAAGCGAATGGCTTCACCAGGTAGTCATCTGCCCCCAACTCCAGCCCCTTGACGCGATGTTCAATG -GTGCCAAGCGCGGTAAGCAACAGAATCGGCATCCCTTTATTGGCGGAGCGTAACATGCGCACGATATCCC -AGCCGTTCACGTCCGGCAGCATAATATCGAGGATTATCAGATCATAATCACCGGTCATCGCCAGATGGTA -GCCATTCAGCCCGTTGTCGGCCAAATCGACCACAAAACCGGCTTCGGTTAACCCTTTGGTCAAGTATTCT -CCGGTTTTCTTTTCATCTTCGACAATCAACAGTTTCATATTTCCTCCGCATGTTGCCCGGGCAATTCTAG -AGTAGCGGGATCAGATGGCAATCGCTTATTGGCAAAATGACAATTTTGTCATTTTTCTGTCACCGGAAAA -TCAGAGCCTGGCGAGTAAAGTTGGCGGCATAAAATCACCAGAAATTATGAGCCTATGTCTCCTTGTAAAC -TTCTGCCATTTTGTGTGGCCCTTGCGCTAACCGGTTGTTCACTGGCACCGGATTATCAGCGTCCGGCAAT -GCCCGTGCCGCAGCAGTTCTCACTCAGCCAGAACGGCCTGGTTAACGCAGCAGATAACTATCAGAACGCG -GGCTGGCGCACCTTTTTTGTTGATAATCAGGTGAAGACGCTGATTAGCGAGGCGCTGGTGAATAATCGGG -ATTTGCGCATGGCGACGCTGAAAGTGCAGGAGGCACGGGCGCAATATCGTCTGACCGATGCCGACCGCTA -CCCACAGCTCAATGGCGAGGGCAGCGGCAGCTGGAGCGGTAATCTTAAAGGGAATACCGCCACGACACGG -GAGTTTTCGACCGGCCTTAACGCCAGCTTTGACCTCGATTTTTTCGGTCGCTTAAAGAACATGAGCGAAG -CCGAGCGACAAAATTATTTAGCCACTGAGGAAGCTCAGCGCGCGGTGCATATTCTGCTGGTTTCTAATGT -CGCGCAAAGCTATTTCAATCAGCAACTGGCGTATGCGCAATTGCAAATAGCCGAAGAAACGCTGCGTAAT -TATCAGCAGTCATATGCGTTTGTCGAAAAACAACTGTTGACAGGTAGCAGTAATGTTCTGGCGCTGGAAC -AGGCTCGCGGGGTGATAGAAAGTACCCGCAGCGACATCGCTAAACGTCAGGGGGAACTGGCGCAGGCGAA -TAATGCATTGCAACTGTTGCTGGGAAGCTACGGCAAGCTGCCGCAAGCGCAGACAGTAAACAGCGACAGC -CTGCAAAGCGTTAAATTACCGGCGGGATTGTCGTCGCAAATCTTATTGCAGCGCCCGGATATTATGGAAG -CTGAACACGCGTTAATGGCGGCTAATGCCAATATTGGCGCTGCACGCGCGGCATTTTTTCCGTCTATAAG -CCTGACCAGCGGAATATCGACCGCCAGTAGCGATCTATCGTCATTATTTAACGCCAGCAGCGGGATGTGG -AATTTTATACCCAAAATTGAGATCCCCATTTTTAATGCCGGACGCAACCAGGCCAATCTGGATATCGCCG -AAATTCGCCAGCAGCAGTCGGTGGTGAATTATGAACAGAAAATCCAGAACGCCTTTAAAGAAGTGGCAGA -TGCGCTGGCATTACGTCAAAGCCTGAACGATCAAATTAGCGCCCAGCAGCGTTATCTGGCATCGCTGCAA -ATTACTTTGCAACGGGCGCGGGCATTATATCAGCACGGCGCAGTAAGTTATCTGGAAGTGCTGGATGCCG -AGCGTTCTTTATTTGCAACCCGACAAACTTTACTTGATCTGAATTATGCCCGTCAGGTTAACGAAATTTC -TTTGTATACCGCACTTGGTGGCGGTTGACAGCAATATACTCGTCATACTTCAAGTTGCATGTGCTGCGTC -TGCGTTCGCTCACCCCAGTCACTTACTTATGTAAGCTCCTGGGGATTCACTCGCTTGTCGCCTTCCTGCA -ACTCGAATTATTTAGAGTATGACTTTTAACTCCAGGAGAGAATAAATGAAAAAAGCACTGCAAGTCGCAA -TGTTCAGTCTGTTTACCGTTATTGGCTTTAATGCCCAGGCTAACGAACATCATCATGAAACCATGAGCGA -AGCACAACCACAGGTTATTAGCGCCACTGGCGTGGTAAAGGGTATCGATCTGGAAAGCAAAAAAATCACC -ATCCATCACGATCCGATTGCTGCCGTGAACTGGCCGGAGATGACCATGCGCTTTACCATCACCCCGCAGA -CGAAAATGAGTGAAATTAAAACCGGCGACAAAGTGGCGTTTAATTTTGTCCAGCAGGGCAACCTTTCTTT -ATTACAGGATATTAAAGTCAGCCAGTAACCCAGGTTTAATGAGATGAAAAAAATCGCGCTTATTATCGGC -AGCATGATCGCGGGCGGTATTATTTCTGCGGCAGGTTTTACCTGGGTTGCAAAGGCGGAACCGCCTGCAG -AAAAAACGTCGACCGCAGAACGTAAAATCTTATTCTGGTACGACCCAATGTATCCCAATACGCGGTTCGA -TAAACCAGGTAAATCGCCGTTTATGGATATGGATCTGGTGCCGAAATATGCCGATGAAGAGAGTTCTGCG -TCTGGTGTGCGCATTGACCCGACTCAGACGCAGAATCTGGGGGTGAAAACGGCTACCGTCACGCGCGGAC -CGCTGACTTTTGCCCAGAGTTTCCCGGCGAATGTCAGTTACAACGAGTATCAGTATGCCATTGTGCAGGC -TCGCGCTGCCGGGTTTATCGACAAGGTGTATCCGCTTACCGTGGGCGATAAAGTACAAAAGGGCACACCG -CTTCTCGACCTGACCATTCCTGACTGGGTGGAAGCGCAGAGTGAGTATTTACTGCTGCGCGAAACCGGCG -GTACGGCGACCCAGACTGAAGGCATTCTTGAGCGGCTGCGACTGGCGGGAATGCCGGAGGCGGATATTCG -CCGCCTGATCGCCACGCAAAAAATCCAGACTCGCTTTACGCTCAAAGCGCCCATTGATGGCGTGATCACC -GCGTTTGATCTGCGCGCGGGAATGAATATCGCCAAAGATAACGTGGTAGCGAAAATTCAGGGTATGGACC -CGGTGTGGGTCACTGCTGCGATCCCGGAGTCTATCGCCTGGCTGGTGAAAGATGCCTCGCAGTTTACCCT -CACCGTTCCGGCGCGACCGGATAAAACACTCACCATCCGCAAATGGACGCTGCTACCTGGCGTGGATGCC -GCGACCCGCACGCTGCAGCTGCGTCTGGAAGTCGACAACGCCGACGAGGCGCTAAAACCGGGCATGAACG -CCTGGTTGCAACTCAACACCGCCAGCGAACCGATGCTGCTCATTCCGTCACAAGCGCTGATTGATACCGG -CAGCGAACAGCGGGTGATTACCGTTGATGCCGACGGGCGCTTTGTACCGAAACGCGTTGCTGTTTTCCAG -GCATCGCAAGGCGTCACCGCATTACGCTCTGGTCTGGCGGAAGGTGAAAAGGTGGTTTCCAGCGGCCTGT -TCCTGATTGATTCCGAAGCCAATATTTCTGGCGCACTGGAGCGGATGCGCTCTGAAAGTGCTACCCATGC -GCATTGAGGGAATAACCAATGATTGAATGGATTATTCGTCGCTCGGTGGCGAACCGTTTTTTGGTGCTGA -TGGGCGCGTTGTTTCTGAGCATCTGGGGCACCTGGACCATCATTAATACGCCAGTGGATGCGCTGCCGGA -TCTCTCCGATGTGCAGGTTATTATTAAAACCAGCTATCCCGGTCAGGCACCACAAATCGTTGAAAATCAG -GTGACTTATCCGCTAACCACCACCATGTTGTCGGTGCCTGGCGCGAAGACTGTGCGCGGTTTCTCACAGT -TTGGCGACTCTTATGTGTATGTCATTTTCGAAGATGGCACCGATCCGTACTGGGCGCGTTCGCGGGTGCT -GGAGTACCTCAACCAGGTACAGGGTAAGCTGCCTGCGGGAGTCAGCGCCGAGCTGGGGCCAGATGCCACG -GGTGTTGGCTGGATCTATGAATATGCACTGGTGGATCGCAGCGGTAAGCACGATCTGGCCGATTTACGCT -CATTACAGGACTGGTTTCTCAAATATGAGCTGAAAACCATCCCTGACGTTGCGGAAGTGGCGTCGGTGGG -CGGTGTGGTGAAAGAGTATCAGGTGGTTATCGATCCCCAGCGCCTGGCGCAGTATGGCATCAGTCTCGCC -GAAGTAAAAAGCGCGCTGGATGCTTCAAACCAGGAAGCGGGCGGTTCGTCGATCGAACTGGCGGAAGCGG -AATATATGGTGCGCGCCAGCGGCTATCTGCAAACGCTCGACGACTTTAATCACATCGTTTTAAAAGCCAG -TGAAAATGGCGTGCCCGTTTATCTGCGCGATGTTGCGAAGGTCCAGATTGGCCCGGAGATGCGCCGGGGC -ATTGCCGAACTAAACGGCGAAGGCGAAGTGGCGGGCGGGGTGGTGATCCTGCGATCCGGCAAAAACGCCC -GAGAAGTGATCGCCGCCGTGAAGGACAAACTGGAAACGCTGAAAAGTAGTCTGCCGGAAGGCGTGGAGAT -AGTTACAACATACGATCGCAGCCAGCTCATTGACCGCGCCATCGACAACCTCAGCGGCAAGTTGCTGGAA -GAGTTTATTGTGGTGGCGGTAGTCTGTGCGCTGTTTCTCTGGCATGTGCGCTCGGCGCTGGTGGCGATTA -TTTCGTTGCCGCTGGGGTTGTGTATTGCTTTTATTGTCATGCACTTCCAGGGACTGAATGCCAATATTAT -GTCGTTGGGTGGCATTGCGATTGCCGTCGGGGCGATGGTCGATGCTGCTATCGTCATGATCGAGAATGCG -CATAAACGGCTGGAAGAGTGGCAGCACCAGCATCCTGACGCCACGCTGGATAATAAAACGCGCTGGCAGG -TGATCACCGATGCGTCTGTTGAAGTGGGGCCGGCGCTATTTATCAGTCTGCTGATTATCACGTTGTCGTT -TATCCCGATCTTCACCCTGGAAGGGCAGGAAGGGCGTCTGTTTGGCCCGTTGGCGTTCACCAAAACGTAT -GCGATGGCGGGTGCGGCGCTGCTGGCGATCGTAGTGATCCCGATCCTGATGGGCTACTGGATCCGTGGCA -AAATTCCGCCGGAAAGCAGTAACCCGCTCAATCGCTTTTTGATTCGTGTTTATCATCCGCTGTTGCTGAA -AGTACTGCACTGGCCGAAAACCACGCTGCTGGTGGCGGCGCTTTCGGTGCTGACGGTTCTCTGGCCGCTC -AATAAAGTTGGCGGGGAATTTTTACCGCAGATCAATGAAGGCGACTTGTTGTATATGCCATCGACGCTGC -CGGGGATTTCCGCAGCAGAGGCGGCGAGTATGCTGCAAAAAACCGACAAGCTAATTATGAGCGTACCTGA -AGTGGCGCGGGTATTTGGCAAAACCGGGAAAGCGGAAACCGCCACCGATTCTGCTCCGCTGGAGATGGTA -GAAACGACCATCCAGCTTAAGCCGCAGGAGCAGTGGCGGCCAGGCATGACGATGGACAAAATCATTGAGG -AACTGGATAACACCGTGCGGCTGCCGGGGCTGGCGAATCTGTGGGTGCCGCCAATTCGTAACCGTATCGA -TATGCTCTCAACCGGCATTAAAAGCCCCATCGGCATTAAAGTTTCCGGCACTGTGCTGGCGGATATCGAC -GCGATGGCTGAGCAAATTGAAGAAGTAGCGCGAACGGTGCCAGGCGTAGCTTCTGCGCTTGCCGAGCGGC -TGGAAGGTGGGCGCTATATCAACGTTGAGATTAACCGTGAAAAAGCCGCACGTTACGGTATGACGGTGGC -GGATGTGCAGTTGTTTGTGACTTCTGCGGTGGGCGGGGCGATGGTTGGCGAAACGGTGGAAGGGATTGCC -CGTTATCCAATTAATCTGCGTTATCCGCAAAGCTGGCGCGATAGTCCGCAGGCACTGCGCCAGCTGCCGA -TCCTGACGCCGATGAAGCAGCAAATCACCCTGGCAGACGTGGCCGACATTAAAGTCTCTACCGGACCGTC -GATGCTGAAAACCGAGAATGCGCGCCCGACGAGCTGGATTTATATCGATGCCCGCGATCGTGACATGGTG -TCGGTGGTTCACGATTTGCAAAAAGCGATAGCTGAAAAAGTGCAGTTAAAACCGGGCACCAGCGTGGCAT -TCTCCGGGCAGTTCGAGCTACTGGAGCGCGCCAACCATAAGCTTAAACTCATGGTGCCGATGACGTTGAT -GATTATCTTCGTGCTGTTGTATCTGGCGTTCCGTCGGGTGGGCGAAGCGTTGCTGATTATCAGCAGCGTA -CCGTTTGCGCTGGTGGGCGGCATCTGGTTGCTGTGGTGGATGGGCTTTCATCTTTCCGTGGCGACGGGCA -CTGGCTTTATCGCCCTCGCCGGGGTCGCCGCCGAATTTGGCGTGGTGATGCTGATGTATTTACGTCACGC -CATAGAGGCCGTGCCGTCGTTGAATAATCCACAAACATTCAGCGAGCAGAAGCTGGATGAGGCGTTATAT -CACGGCGCGGTCCTGCGCGTGCGCCCGAAAGCGATGACGGTGGCGGTGATTATCGCCGGTCTGCTGCCGA -TTCTGTGGGGAACGGGGGCTGGTTCAGAGGTGATGAGCCGGATTGCCGCGCCGATGATTGGCGGCATGAT -CACCGCACCTTTGCTGTCGCTGTTTATTATCCCGGCGGCGTATAAGCTGATGTGGCTGCACCGACATCGG -GTACGGAAATAAAAGCAGGATACCCCGTTTAACCGTGTGGATTGTGTCTTGCGACGATGGGCACTAAATG -TTAAAAGGTGCCCCTCAACAAAAAAGACACACAGGGGAAAGGCGTGAAAAACGCGTCAACCGTATCGGAA -GATACTGCGTCGAATCAAGAGCCGACGCTTCATCGCGGATTACATAACCGTCATATTCAACTGATTGCGT -TGGGTGGCGCAATTGGTACTGGTCTGTTTCTTGGCATTGGCCCGGCGATTCAGATGGCGGGTCCGGCTGT -ATTGCTGGGCTACGGCGTCGCCGGGATCATCGCTTTCCTGATTATGCGCCAGCTTGGCGAAATGGTGGTT -GAGGAGCCGGTATCCGGTTCATTTGCCCACTTTGCCTATAAATACTGGGGACCGTTTGCGGGCTTCCTCT -CTGGCTGGAACTACTGGGTAATGTTCGTGCTGGTGGGAATGGCAGAGCTGACCGCTGCGGGCATCTATAT -GCAGTACTGGTTCCCGGATGTTCCAACGTGGATTTGGGCTGCCGCCTTCTTTATTATCATCAACGCCGTT -AACCTGGTGAACGTGCGCTTATATGGCGAAACCGAGTTCTGGTTTGCGTTGATTAAAGTGCTGGCAATCA -TCGGTATGATCGGCTTTGGCCTGTGGCTGCTGTTTTCTGGTCACGGCGGCGAGAAAGCCAGTATCGACAA -CCTCTGGCGCTACGGTGGTTTCTTCGCCACCGGCTGGAATGGGCTGATTTTGTCGCTGGCGGTAATTATG -TTCTCCTTCGGCGGTCTGGAGCTGATTGGGATTACTGCCGCTGAAGCGCGCGATCCGGAAAAAAGCATTC -CAAAAGCGGTAAATCAGGTGGTGTATCGCATCCTGCTGTTTTACATCGGTTCACTGGTGGTTTTACTGGC -GCTCTATCCGTGGGTGGAAGTGAAATCCAACAGTAGCCCGTTTGTGATGATTTTCCATAATCTCGACAGC -AACGTGGTAGCTTCTGCGCTGAACTTCGTCATTCTGGTAGCATCGCTGTCAGTGTATAACAGCGGGGTTT -ACTCTAACAGCCGCATGCTGTTTGGCCTTTCTGTGCAGGGTAATGCGCCGAAGTTTTTGACTCGCGTCAG -CCGTCGCGGTGTGCCGATTAACTCGCTGATGCTTTCCGGAGCGATCACTTCGCTGGTGGTGTTAATCAAC -TATCTGCTGCCGCAAAAAGCGTTTGGTCTGCTGATGGCGCTGGTGGTAGCAACGCTGCTGTTGAACTGGA -TTATGATCTGTCTGGCGCATCTGCGTTTTCGTGCAGCGATGCGACGTCAGGGGCGTGAAACACAGTTTAA -GGCGCTGCTCTATCCGTTCGGCAACTATCTCTGCATTGCCTTCCTCGGCATGATTTTGCTGCTGATGTGC -ACGATGGATGATATGCGCTTGTCAGCGATCCTGCTGCCGGTGTGGATTGTATTCCTGTTTATGGCATTTA -AAACGCTGCGTCGGAAATAAGGCATTCACGCTACATCCGACAAAACGATGTCAACCATCCGAAACCGCTC -TCATCCATTCGATGAGAGCGGTTTTTTTAATTACTGCTTAAATGCACCCGCCAGAGAGCGAATATCATTG -CCGGTTGGCGACTGATGAAGTCGCAGACCAAACTCTTCGACAATCGCAAATATGTGATCGAATATATCAG -CCTGAATGCTTTCATATTCCAGCCACACCACGGTGTTAGTAAACGCGTAGATCTCGAGCGGTAAACCGTT -ATCACCTGGAGCCAGTTGGCGTACCATTAAGGTCATATCTTTACGAATCCGCGGATGGTTACGCAGATAT -TCGTTCAGATAGGCACGAAAGGTTCCAATATTGGTCATTCGGCGCAGATTTAATACCGACTCCGTAGAAC -CTTGCTGGCGATTCCACTCATTAATTTCCTGATGGCGGCTGGTTAAATAAGGCTTTAACAAATGCGCTTT -ATTCAGACGTTGCATTTCGTCTTCATCAAGAAAACGAATACTGGTGACATCAATACTGATACTGCGCTTA -ATACGTCGCCCGCCAGATGCTGACATCCCGCTCCAGTTTTTAAAGGAGTCAGAAACCAGAGACCAGGTGG -GAATAGTGGTAATGGTATTGTCCCAGTTACGCACTTTGACGGTGGTTAACCCAATATCGATCACCGCGCC -ATCCGCGCCGTATTTCGGCATCTCCAGCCAGTCGCCCAGTTTCAGCATATCGTTCGCGGAAAGCTGAATA -CCTGCCACCAGACCAAGAATCGGATCTTTAAATACCAACATCAGCACGGCAGCCATTGCACCAAGACCGC -TGATCAGAATCGCTGGCGACTGACCAATCAGCAGCGAGATCATCAAAATGCCGACCAGAATCGCGCCGAT -CAGTTTAATCCCCTGAAATATCCCTTTCAGCGGTAACTGAGATGCTGCCGGGAATTTCTGCGCCAGATTC -AAAATAACATCCAGCAACGAGAAGACTGAAAGCAGCGCATACATCATGATCCACAACTGCGCGCAGGTAG -TCAGAATATCTGCCGCTTCGGTGCCTTTTTGCAGCCAGAATACCGCCTGAATATTGACGATAATCCCCTG -CAGGGTAAAAGCTAAACGGTGGAAGAGTTTATTCTGGGTAATGATTTGCAACCAAAGCCGTGAACTGGCG -ATGGCACGTTTTTCGAAGGTCCGCAGTACCACCCAATGCAAAATAATATGCACCACGACGGCGGTCAGAA -AAATAATACCGAAAATCATCACCATCGAGGTGGTGTGATCGATCTCAATACCCGCTAAATCTTCAACCTG -GGATATTAAATCCTGCATAACGTCTCCTTTATACAACAGCAGCCTATGATGACGGCTGAAACAGGGTTAT -GCAAATCAGGAGAATCTGAGAGGAAATAGCCGGGCAGATGCCCGGCAAGAGAGAATTACACTTCGGTTAA -GGTGATGTTTTGCGGCAGACGAGATTTCGGCAGCGTAGCGTTAAAATCTTCAACGCTGTGATGACCTACC -GGAACAACCACCAGACTGGTGTAGCCTTTCTCTTTCAGACCAAATTCTGCATCGAGGATGGCGGCGTCAA -AACCTTCGATGGGTACCGCGTCCAGACCCAGAGCCGCCACGCCGAGCAGGAAGTTACCGACGTTGAGATA -AACCTGTTTTGCCATCCACTCTGCATCATCATGCAGATCTTTACGGTGCATATCAGCGAAGAACTTGCGA -CCTTTATCGTTCGCGGCTTTCGCTTCCGGCGTGGCAAAGCGGCCATCGGCATCTTCCTGGTCAACAACCA -GCTTCAGCCAGACATCGTCCATCGCGGTTTTTGCACAGAACACCACGACGTGCGAGGCATCAAGCATTTT -ACGCTCGTTGAACACGTAATTACCGGCAGCGGATTTGGCAACACGCGCTTTACCTTCTTCCGTGCTGGCA -ACAATAAAATGCCACGGCTGGGAGTTGGTGCTGGATGGGCTGTATTGCAGTAGCGTTTTGATCTGCTCGG -CCTGTTCCGGGGTAAGTTTTTTGCTGGCATCAAATGCCTTAGTGGAATGACGCTTTAAGGCGACAGAAAT -GATATCCATAAAGACTCCATGTGAAAGTAATTTTGCGTGCCAGCAGATTACAAGGTTCAACGAGAAATGG -TAAGCGAGAAAAATGCGCTATAGATTTCCGCTTTAGCCTGGACGCACTCTTTTTTGATCGCGTTTAGCCA -GACCATCAACCACCAGATTCCACGAATCGTTGATCAGATCGCGAAGTAACGCTTCGGAGATTTCTTCGCC -GGGATACACTGAAATCCAGTGCTTTTTATTCATGTGATACCCTGGCTTAATGCTTGGGTATATTTGCTGA -TTTAACAGGGATTTTTGTGGATCGGACTTCAGATTGATAAAGGGGACGCCGCGTAGCTCCGACGACAGCA -TAAAAATCTTGCCGCCAATTTTAAAAACATCGAACTCCGGGCCAAAAGGCCAGCAAAGCTCGACAAAGGG -TAACTCAAGGGCCAGGCGTTTCGCCGTTTCGTGCAGTGATTGCTTATCCATAAACGTTCCTTTAGGCGAA -GGAGAATAAGCAAAGTATGCCGCGAAGTACGGCGATAATCGACGTTTAATCCGCCAGCGAGAACCAGCGT -CGCCAGATAAAGCGCAGAACAAAATACTCAATAGCGCCCAGCACTAAAAACCACAGACAAAACAATAAAG -TGTAAAGCTGACTAAGATCCATCAGATGGAACATGGTCACCAGTTTTTGTGCCAGCGCCAGCCCCAGTGC -GGGGGCGGGCAGCAGCAGGCAAGAGAGGAAAGCCATCAGCAAAATGCCTGCTGCGGTGGTCAAGGTTTCT -AAAGGGTGTTTCATAACATTGTTAAATGTAAGTTAAAACACCATTGTCAGGGATATTCTTCTGTAAGGCA -ATTCCCGGCTTAGTCACCGGCCCAGATCTCACAATGCTTTTTCACCAGCCCAATCAGCGAGCCGCCATCG -GCGACGAAATCGCGCATTAGCTGCGCTTCATTCAGACCGCTGACGACCTGGCGATGCAGGGCCTCAATCG -CGCTCGATGCACCAATTTTATGTGCGGAAGGGGCGATTTTTTCCAGCAATCGCAAGGTATCTTCCGTTAG -CGGTCGACGATCTCCAGTGTGCGGATCGGTGATGACGCCTTCAAGCCCATAGCGACAGGCCTGGAAACGG -TTGAATTTATACAGCAGGTAATCTTTTTCCTGATGTTTAAACGGGCGTTCCGTCAGTAACCAGTGGGCGG -TAGCCTGAATTAATCCCGCCATATTTACTGCGTGGCTAAGGGTTAACGGGGTATCCATCACCCGAACCTC -CACCGTGCCAAAATGAGGACTGGGGCGAATATCCCAGTGCAGATCTTTAATGCTGTCGATCATCGTGGTG -TAACTCAGACAGCGAAACAGGGCTTCAAATTGTTGCCAGTTACTGACCCACGGCATCGGGCCATTATCAG -GAAAGGCGGAAAAAATATTCGGTCGTGAGGAGGCAAAACGCGTATCCGTTCCCTGCATATATGGCGACGC -GGCGGAAAGGGCGATAAAGTGCGGCACAAATCGTGACAAGCCGTGCAGCAAATAAATGGCGTCATCGCCA -CTGGCGCAGCCAACATGGACATGCTGACCAAAAACGGTCGCCTGCTGAATGAGATAACCAAAGTTTTCCA -GCGTGCGTTGATAGCGTTCGTTATCGCATACCTCCTGACGCTGCCATTTCTGAAACGGGTGCGTGCCACC -GCCGCAAATTTCCAGATGATGGTCTGTGGCTGCCTGCAATACGACTTTCTGCATCGCTGAAAACTGCCCG -GCAGCCTGGTTGATATCACGGCAAACATCCGTCGCCAGCTCCAGCATACTTTCGGTGATATCGTGCTTTA -CCTCTCCGGCCGTGATCTTATTTTTAACCGCGTCAATCAGCATTGAAGAGTCCTGGCTTAAGTCATAGCC -CGGCGGATTAACCACCTGCATTTCCAGTTCAATACCGAGGGTAAAAGGTTCAGAAACATGAAAATCGGGT -AATGGCATAGGTTTCTCTTATGTTGGCGTTTTCTATTCAGTATAGAAGTCGGAGCGGCTGGGCGAGATGC -GGAAGTTCTGGAATGTTTCTTTTTTTTGGTGATGGTGAACTGATGGTGCCTGAAGCAATTTGGCTACTTT -TGCAATGTGACAAGTTATGGCAGTGCTGACTGGTGGCGAAGAATTTTGACGATTGAGTCATGCAGAAAAA -AACGGGTTCAGCTTCAGTTGATTAAATGAGGAGTGAGAAGTCCGAAACAGGACTCACTGTATAAATAAAC -AGCTATTTTGTTGAGGAAGGGTAAGATAACGGCGGGTGCCTGAAGCTTTCCGGTTTCAGGTTTACTCTGA -GGTCTGGAAAGATGAAGCCCCAGGAGATATTTCTATCAACCCTGGGGCTGCCACTCCAAACCCGAACAAT -TTGGATGGTAGTCCCTTCTTCGCATGGAGGCAATATAAACATGCTGACGAAATATGCCCTTGCGGCAGTC -ATAGTGCTGTGTTTAACGGTGCTGGGATTTACGCTTCTGGTCGGAGACTCGCTGTGTGAGTTTACGGTGA -AGGAACGTAATATTGAGTTTAAGGCTGTTCTCGCTTACGAACCGAAGAAGTAGCCGTTGTGCGGGGAGTA -ATCCCATAAGCGCTAACTTAAGGGTTGTGGTATTACGCCTGATATGATTTAACGTGCCGATGAATTACTC -TCACGATAACTGGTCAGCAATTCTGGCCCATATTGGTAAGCCCGAAGAACTGGATACTTCGGCACGTAAT -GCCGGGGCTCTAACCCGCCGCCGCGAAATTCGTGATGCTGCAACTCTGCTACGTCTGGGGCTGGCTTACG -GCCCCGGGGGGATGTCATTACGTGAAGTCACTGCATGGGCTCAGCTCCATGACGTTGCAACATTATCTGA -CGTGGCTCTCCTGAAGCGGCTGCGGAATGCCGCCGACTGGTTTGGCATACTTGCCGCACAAACACTTGCT -GTACGCGCCGCAGTTACGGGTTGTACAAGCGGAAAGAGATTGCGTCTTGTCGATGGAACAGCAATCAGTG -CGCCCGGGGGCGGCAGCGCTGAATGGCGACTACATATGGGATATGATCCTCATACCTGTCAGTTCACTGA -TTTTGAGCTAACCGACAGCAGAGACGCTGAACGGCTGGACCGATTTGCGCAAACGGCAGACGAGATACGC -ATTGCTGACCGGGGATTCGGTTCGCGTCCCGAATGTATCCGCTCACTTGCTTTTGGAGAAGCTGATTATA -TCGTCCGGGTTCACTGGCGAGGATTGCGCTGGTTAACTGCAGAAGGAATGCGCTTTGACATGATGGGTTT -TCTGCGCGGGCTGGATTGCGGTAAGAACGGTGAAACCACTGTAATGATAGGCAATTCAGGTAATAAAAAA -GCCGGAGCTCCCTTTCCGGCACGTCTCATTGCCGTATCACTTCCTCCCGAAAAAGCATTAATCAGTAAAA -CCCGACTGCTCAGCGAGAATCGTCGAAAAGGACGAGTAGTTCAGGCGGAAACGCTGGAAGCAGCGGGCCA -TGTGCTATTGCTAACATCATTACCGGAAGATGAATATTCAGCAGAGCAAGTGGCTGATTGTTACCGTCTG -CGATGGCAAATTGAACTGGCTTTTAAGCGGCTCAAAAGTTTGCTGCACCTGGATGCTTTGCGTGCAAAGG -AACCTGAACTCGCGAAAGCGTGGATATTTGCTAATCTACTCGCCGCATTTTTAATTGACGACATAATCCA -GCCATCGCTGGATTTCCCCCCCAGAAGTGCCGGATCCGAAAAGAAGAACTAACTCGTTGTGGAGAATAAC -AAAAATGGTCATCTGGAGCTTACAGGTGGCCATTCGTGGGACAGTATCCCTGACAGCCTACAAAACGCAA -TTGAAGAACGCGAGGCATCGTCTTAACGAGGCACCGAGGCGTCGCATTCTTCAGATGGTTCAACCCTTAA -GTTAGCGCTTATGGGAGTAATCCCCGCATATCCGGTTGTCAGGTCAGGATGGTAAGGCACCTGCTTTACA -CTTTCGCCCGTGGTCAGTGATGGCTGCGGGCGAATCGTACCAGATGTTGTCAATTAATCGTGTTGGCACA -GCGTTATGACTATCTTTTCTTTTATCTGCCAGTGCACAGCAAACATCTCATTCTCACGATGAATGATGAC -CTGCTGTTTATTCCAGCTAATTATCTGATAGTCCAGAAAACCTGCATCAGTTTGGATCTCACTTGCCTTA -AATGCGCTCTCTTTGGCGGAAAATGCCAGTGTCAGCGCCAGAGAAAAGGCTAAACCGCAGTCTGCGAGTC -GCTCGTGTTCCGCTGGTGTAATAATGTTGTCTGTCAATTCTCTTGCGGTTTGTACAGAAAAAATTTCTTC -TATATCAATGCCAATCGGTTGACGAGATACCACGGCTAATGCCGTAGTCCCACAGTGGCTAATACTGCCG -TATACCTCCGCAGGCCAGACAGGTTGGCGTAGCTCGCCGATTGCGGGCACACATTTATAGCCATATTCCC -GCAAAGCATAAACAGCAGCGATCCGTCCGGCTAAATGCTCTGTTTTACGTTTACGTCCAGCGTGTTGCAG -TTGTGCGTAGTGCGGCAGCCAGAGTAAATCCTGCTCACAAAAATTCGCCGGATCGAACTCAACAAAATGC -AGCGTATGTCCGGCAAAGGGGAGGGAGGTATGCGTAGTTTTCATATCGACCATATTCGAGACTGATGACA -AACGCAAAACTGCCTGATGCGCTACGCTTATCAGGCCTACATGGTCCTGCAATATATTGAATTGGCAAGA -TTTTTGTAGGCCGGATAAGGCGTTCACGCCGCATCCGGCATGAACGACGCGCACTTTGTCAACAATCTGA -CGTTAGCATCAGAAGTGGGTGTTTACGCTCATATACCACGTACGTCCCGGCTCGTTATAGGTATACGCCC -CGGCACCGGCGATATAGTTGGCCCCTGCCAAATCGCCCGTGGTCTGGGCATTACCCGCACGCCACAAACG -TTTGTCGAACAGATTGTCCACGCCGCCGGTCAGACTGACATTCTTCGTCACATCCCAGGTCGCGCTCAGG -CCAACAATGCTGTAAGGACTAATTTCTTTGGTTTCCGGTCCAACCGCTGGCTGACCTTTATAGTTGTACT -TCTTCGGCTGCTGCTTGCCGTACCAGGTGAAGGTCGTTTGCATCGACAAATCTTCCCGTGCCTGCCAGCT -CAGCGTTGAGTTCAACGTATACTCCGGGATGATCGACAAACGGTCGCCCGTGGTTTTGTTTTCACTCTTC -AGCATATAAGTGATGTTATTGGTCCACATCACCGTTTCGCTAACCGGTACGTTTAACGATCCTTCCAGAC -CTTCAACCACCGCTTTCGGCACGTTATCCCACTGATAGAGATCGGTGCCGACTGCGTTTTGCCCTACAGC -CACATAGCCCGCTTCAATCTTATTGCGATAATCGTTACGGAACCAGGTGACGCCCGCCAGCCACCCGTCG -CGTTTGAACTCCAGACCAATCTCTTTGTTGATGCTGGTTTCTGCTTTCAGGTCATCGTTACCTTGCAGAT -AGCAGCCGCCCGCGCTGGCATAGCAACCCTGACCTTTACTGTAGAGAATGTAGTTCGGGTTAGTCTGGTA -CAGGCTCGGCGCTTTATAAGCACGGGCGATGCCCATTTTCAGCGTGAAGTCATCGCCTAAACCTTGCGAT -ATGTTCAGCGCCGGGCTCCAGTTATTGCCGACAATACTGTGATGATCGAAACGCAGCCCCGGCGTTACGA -TGGTGCTGTCAGTCAGCTCCATGTTGTTTTCGGCAAACAGCGAGAAAATTTCTGCTTTTGAATACGGGCT -ACGGTCGGTGGTACTCACGCCATCAATAGCGCCACCGGTATTCGTTCCGGTCAGTGCCTGGGTGTTGGAA -CTTAAGTCCTTCATCCGTTGCTGATTCCACTCCGTACCCAGCGTCAGCGTCTGGTTAACGAGGAAATCAA -TCGGCAGGTTAACTTCGCTGTGCAGCATCACGTCATCAAGATCGATATCGACGAAATCCTGTGTCGCTTT -TTCGTTAAATTTCCCTTCGGTACCGCCCGCCAGACCTTCCGGAATACGCGAGTTACGGGTGTGTTCGTAC -TGCACCCAGTTGCTGGTGGTCACGCCGTTATCCCAGCCACCGTTCCAGGTCAGCGCGTAGTTCTGGCGAT -ACAGACGGTTGGTTTCATCGCCATATTTCGAGCGGGTATAGGAATCGGAGTTGGTATTCTGGGTGTCGCC -CGCATACAGGTTACCCTGGCGGCTGTAACCTGCTTCCAGTTCCAGCGATTGCAATGGCGCGAAATCCCAG -CGCACCACGCCATTAATATCTTTGTTGATTACCCCTTCGCGCCCGGCTGGTAACGTCGTGGCATACGTTC -CGGCACGCGCGGACTGATGGCCCTGGTTGATATCCCACGCGTCAGCCTGGGTTTTGTCGAGGTTGCCATA -CAAACGGAAGCTGAATTCGTCGCCCAGCGGACCGGTCAGGCTAAAGTTAGTGCGTTTGGTGGCACCTTCC -TCTTTATGTTCTGGCGCATTGAAATATGCGTCCCAGGAGCCGTGCCACTCGCCGCTGCCTTTTTTGGTAA -TGATGTTAACCACGCCGCCCGCCGCGCCGTTGCCATAACGCGCAGCTGCCGGACCACGCAGAACTTCAAT -ACGTTCAATCATTTCAGGTGGCACCCAGGAAGTATCACCACGGGTATCGCGCTCGCCACGCCAGCCCTGA -CGCACCGAGTTACGGCTGCTTACCGGCTTGCCGTCAATCAAAATCAGCGTGTTTTCCGGACCCATACCGC -GAATATCAATCTGTCGGTTATTCCCACGCTGACCACTGGTGGAGTTACCGGTCAGGTTAACGCCTGGCAT -GGTACGGATGATCTTCGACACATCGCGGGCAACCGGGTTTTTGCGGATTTCATCTGCGGTGATGGTCGAA -ACGCCAGGCGCCTGTAAGTTCTGCTCGGCGGCGGTAACGACAATAGTATCGTCATGTGAAACAGGAGTAT -CGGTCGGCTCTTGTGCCTGCGCTACCCCATAAATCCCCAGATTGACCAACAAGGCCAGGGAATGAATCTT -CTTGTTCATTGTTTTATTCCTGCATTTTTGCCACGAATTGCAACTGTCGGGCATGGTCGTCATCAACACG -ACGCATCCCGCTACCGCGAAAACCTTTGATCCTGAAAGACACGCAGTGCAGTTGGTTAATTAATGTCCGC -GCTTCCCACGGCGCGCCATTACGCTATTGCAAATGCAAATAGTTATCAATAATATTATCAATATATTTCT -GCAATCAATGAAAAATTGCACAGTAAACATGGGGTTATGGTGTGACGGCGTTAAAAGTAGGAAGTGAGAG -CTGGTGGCAGTCGAAACATGGCCCGGAATGGCAGCGTCTGAATGACGAAATGTTTGAGGTCACTTTCTGG -TGGCGTGATCCCCAAGGTTCTGAAGAATACTCGACGATAAAGCGCGTATGGGTCTACATCACTGGTGTGA -CCGATCACCATCAGAACAGCCAGCCCCAGTCGATGCAGCGAATTGCAGGCACTAACGTCTGGCAGTGGAC -GACACAACTCAATGCCAACTGGCGCGGCAGCTACTGCTTTATTCCCACCGAACGCGATGACATTTTTTCT -GTACCATCCCCCGATCGCCTCGAATTGCGCGAAGGCTGGCGAAAACTATTACCCCAGGCGATAGCCGATC -CGCTGAACCTACAAAGCTGGAAAGGCGGGCGAGGGCACGCTGTTTCTGCACTCGAAATGCCGCAAGCGCC -TCTGCAACCGGGATGGGATTGTCCGCAAGCGCCAGAAATACCTGCCAAAGAAATTATCTGGAAAAGTGAA -CGGTTGAAAAAGTCACGGCGTGTATGGATTTTTACCACCGGCGATGCAACAGCAGAAGAACGCCCGCTGG -CAGTTTTGCTCGATGGCGAATTTTGGGCGCAAAGTATGCCCGTCTGGCCAGTGCTGACTTCGCTGACCCA -TCGTCAGCAACTTCCTCCCGCCGTGTATGTGTTGATCGACGCTATCGACACCACGCACCGCGCCCACGAA -CTGCCGTGTAATGCGGATTTCTGGCTCGCAGTACAGCAAGAGTTATTACCCCTGGTGAAAGCTATTGCCC -CTTTTAGCGATCGTGCCGATCGCACCGTGGTTGCCGGGCAGAGTTTTGGTGGGCTTTCCGCGCTGTATGC -CGGACTGCACTGGCCTGAACGCTTTGGCTGTGTATTAAGCCAGTCAGGATCGTACTGGTGGCCGCATCGG -GGCGGGCAGCAAGAGGGCGTGTTACTTGAAAAGCTAAAAGCTGGTGAAGTTAGCGCCGAAGGTCTGCGCA -TTGTGCTGGAAGCGGGTATTCGCGAGCCGATGATCATGCGGGCCAATCAGGCGCTGTATGCGCAATTACA -CCCCATAAAAGAATCCATTTTCTGGCGTCAGGTTGACGGCGGACATGATGCGCTTTGTTGGCGCGGTGGC -TTGATGCAGGGGCTAATCGACCTCTGGCAACCACTTTTCCATGACAGGAGTTGAATATGGCATTCAGTAA -TCCCTTCGATGATCCGCAGGGAGCGTTTTACATATTGCGCAATGCGCAGGGGCAATTCAGTCTGTGGCCG -CAACAATGCGTCTTACCGGCAGGCTGGGACATTGTGTGTCAGCCGCAGTCACAGGCGTCCTGCCAGCAGT -GGCTGGAAGCCCACTGGCGTACTCTGACACCGACGAATTTTACCCAGTTGCAGGAGGCACAATGAGCCAG -CATTTACCTTTGGTCGCCGCACAGCCCGGCATCTGGATGGCAGAAAAACTGTCAGAATTACCCTCCGCCT -GGAGCGTGGCGCATTACGTTGAGTTAACCGGAGAGGTTGATTCGCCATTACTGGCCCGCGCGGTGGTTGC -CGGACTAGCGCAAGCAGATACGCTGCGGATGCGTTTTACGGAAGATAACGGCGAAGTCTGGCAGTGGGTC -GATGATGCGCTGACGTTCGAACTGCCAGAAATTATCGACCTACGAACCAACATTGATCCGCACGGTACTG -CGCAGGCATTAATGCAGGCGGATTTGCAACAAGATCTGCGCGTCGATAGCGGTAAACCACTGGTCTTTCA -TCAGCTGATACAGGTGGCGGATAACCGCTGGTACTGGTATCAGCGTTATCACCATTTGCTGGTCGATGGC -TTTAGTTTCCCGGCCATTACCCGCCAGATCGCCAATATTTACTGCACATGGCTGCGTGGCGAACCAACGC -CTGCTTCGCCATTTACGCCTTTCGCTGATGTAGTGGAAGAGTACCAGCAATACCGCGAAAGCGAAGCCTG -GCAGCGTGATGCGGCATTCTGGGCAGAACAGCGTCGTCAACTGCCGCCGCCCGCGTCACTTTCTCCGGCA -CCTTTACCGGGGCGCAGCGCCTCGGCAGATATTCTGCGCCTGAAACTGGAATTTACCGACGGGGAATTCC -GCCAGCTGGCTACGCAACTTTCAGGTGTGCAGCGTACCGATTTAGCCCTTGCGCTGGCAGCCTTGTGGCT -GGGGCGATTGTGCAATCGTATGGACTACGCCGCCGGATTTATCTTTATGCGTCGACTGGGCTCGGCGGCG -CTGACGGCTACCGGACCCGTGCTCAACGTTTTGCCGTTGGGTATTCACATTGCGGCGCAAGAAACGCTGC -CGGAACTGGCAACCCGACTGGCAGCACAACTGAAAAAAATGCGTCGTCATCAACGTTACGATGCCGAACA -AATTGTCCGTGACAGCGGGCGAGCGGCAGGTGATGAACCGCTGTTTGGTCCGGTACTCAATATCAAGGTA -TTTGATTACCAACTGGATATTCCTGATGTTCAGGCGCAAACCCATACCCTGGCAACCGGTCCGGTTAATG -ACCTTGAACTGGCCCTGTTCCCGGATGTACACGGTGATTTGAGTATTGAGATCCTCGCCAATAAACAGCG -TTACGATGAGCCAACGTTAATCCAGCATGCTGAACGCCTGAAAATGCTGATTGCCCAGTTCGCCGCGGAT -CCGGCGCTGTTGTGCGGCGATGTCGATATTATGCTGCCAGGTGAGTATGCGCAGCTGGCGCAGCTCAACG -CCACTCAGGTTGAGATTCCAGAAACCACGCTTAGCGCGCTGGTGGCAGAACAAGCGGCAAAAACACCGGA -TGCTCCGGCGCTGGCAGATGCGCGTTACCTGTTCAGCTATCGGGAAATGCGCGAGCAGGTGGTGGCGCTG -GCGAATCTGCTGCGTGAGCGCGGCGTTAAACCAGGGGACAGCGTGGCGGTGGCACTACCGCGCTCGGTCT -TTTTGACCCTGGCACTCCATGCGATAGTTGAAGCTGGAGCGGCCTGGCTACCGCTGGATACCGGCTATCC -GGACGATCGCCTGAAAATGATGCTGGAAGATGCGCGTCCGTCGCTGTTAATTACCACCGACGATCAACTG -CCGCGCTTTAGCGATGTTCCCAATTTAACAAGCCTTTGCTATAACGCCCCGCTTACACCGCAGGGCAGTG -CGCCGCTGCAACTTTCACAACCGCATCACACGGCTTATATCATCTTTACCTCTGGCTCCACCGGCAGGCC -GAAAGGGGTAATGGTCGGGCAGACGGCTATCGTCAACCGCCTGCTTTGGATGCAAAATCATTATCCGCTT -ACAGGCGAAGATGTCGTTGCCCAAAAAACGCCGTGCAGTTTTGATGTCTCGGTGTGGGAGTTTTTCTGGC -CGTTTATCGCAGGGGCAAAACTGGTGATGGCTGAACCGGAAGCGCACCGCGACCCGCTCGCTATGCAGCA -ATTCTTTGCCGAATATGGCGTAACGACCACGCACTTTGTGCCGTCGATGCTGGCGGCATTTGTTGCCTCG -CTGACGCCGCAAACCGCTCGCCAGAGTTGCGCGACGTTGAAACAGGTTTTCTGTAGTGGTGAGGCCTTAC -CGGCTGATTTATGCCGCGAATGGCAACAGTTAACTGGCGCGCCGTTGCATAATCTATATGGCCCGACGGA -AGCGGCGGTAGATGTCAGCTGGTATCCGGCTTTTGGCGAGGAACTGGCACAGGTGCGCGGCAGCAGTGTG -CCGATTGGTTATCCGGTATGGAATACGGGTCTGCGTATTCTTGATGCGATGATGCATCCGGTGCCGCCGG -GTGTGGCGGGTGATCTCTATCTCACTGGCATTCAACTGGCGCAGGGCTATCTCGGACGCCCCGATCTGAC -CGCCAGCCGCTTTATTGCCGATCCTTTTGCCCCAGGTGAACGGATGTACCGTACCGGAGACGTTGCCCGC -TGGCTGGATAACGGCGCGGTGGAGTACCTCGGGCGCAGTGATGATCAGCTAAAAATTCGCGGGCAGCGTA -TCGAACTGGGCGAAATCGATCGCGTGATGCAGGCGCTGCCGGATGTCGAACAAGCCGTTACCCACGCCTG -TGTGATTAACCAGGCGGCTGCCACCGGTGGTGATGCGCGTCAATTGGTGGGCTATCTGGTGTCGCAATCG -GGCCTGCCGTTGGATACCAGCGCATTGCAGGCGCAGCTTCGTGAAACATTGCCACCACATATGGTACCGG -TGGTTCTGCTGCAACTTCCACAGTTACCACTTAGCGCCAACGGCAAGCTGGATCGCAAAGCCTTACCGTT -GCCTGAACTGAAGGCACAAGCGCCAGGGCGTGCGCCGAAAGCGGGCAGTGAAACGATTATCGCCGCGGCA -TTCTCGTCGTTGCTGGGGTGTGACGTGCAGGATGCCGATGCTGATTTCTTCGCGCTTGGCGGTCATTCGC -TACTGGCAATGAAACTGGCAGCGCAGTTAAGTCGGCAGGTTGCCCGCCAGGTGACGCCGGGGCAAGTGAT -GGTCGCGTCAACTGTCGCCAAACTGGCAACGATTATTGATGCTGAAGAAGACAGCACCCGGCGTATGGGA -TTCGAAACCATTCTGCCGTTGCGTGAAGGTAATGGCCCGACGCTGTTTTGTTTCCATCCTGCGTCCGGTT -TTGCCTGGCAGTTCAGCGTGCTCTCGCGTTATCTCGATCCACAATGGTCGATTATCGGCATTCAGTCACC -GCGCCCCAATGGCCCCATGCAGACGGCGGCAAACCTGGATGAAGTCTGCGAAGCGCATCTGGCAACGTTA -CTTGAACAACAACCGCATGGCCCTTATTACCTGCTGGGGTATTCCCTTGGCGGTACGCTGGCGCAGGGTA -TTGCGGCGCGACTGCGTGCCCGTGGCGAACAGGTGGCATTTCTTGGCTTGCTGGATACCTGGCCGCCAGA -AACGCAAAACTGGCAGGAAAAAGAAGCTAATGGTCTGGACCCGGAAGTGCTGGCGGAGATTAACCGCGAA -CGCGAGGCCTTCCTGGCAGCACAGCAGGGAAGTACTTCAACGGAGTTGTTTACCACCATTGAAGGCAACT -ACGCTGATGCTGTGCGCCTGCTGACGACTGCTCATAGCGTACCGTTTGACGGTAAAGCGACGCTGTTTGT -TGCTGAACGCACACTTCAGGAAGGTATGAGTCCCGAACGCGCCTGGTCGCCGTGGATAGCGGAGCTGGAT -ATCTATCGTCAGGATTGTGCGCATGTGGATATTATCTCTCCAGGGACGTTTGAAAAAATTGGGCCGATTA -TTCGCGCAACGCTAAACAGGTAAATTAATATTATTTATAAACCCATAATTACAGAAAATAATTATGGGTT -TTTTATTTGTTTGATTTATAGGTTTGATGAATATTTCTCTTAAATAGAGTGAATGTTGCATTCAGTGGAA -GGAATTTACAAACTTCAGCTTCGGATAATTATCACCAACTGGTAAAGTGAGCGCCGTGGAGATTTCCCCC -TATTGGACTCATTTTCAGGTTATACCCCATGTCATCACTGAATATTAAACAGGGAAGTGACGCTCATTTT -CCCGATTATCCTCTGGCGTCGCCCAGTAATAATGAAATTGATTTACTTAATCTAATCTCAGTTTTATGGC -GGGCCAAAAAAACGGTCATGGCGGTCGTTTTTGCGTTTGCCTGCGCAGGCTTGCTGATCTCTTTCATCCT -GCCGCAAAAATGGACCAGCGCGGCGGTTGTCACGCCTCCAGAACCTGTTCAGTGGCAAGAGTTGGAGAAA -TCATTCACTAAGCTTCGTGTGCTGGATCTGGATATCAAAATTGATCGTACAGAAGCATTTAACCTGTTTA -TCAAGAAGTTTCAGTCGGTTAGCTTGCTGGAAGAGTACCTGCGTTCATCACCTTATGTGATGGACCAATT -AAAAGAGGCGAAAATCGACGAACTGGATTTGCATCGCGCAATTGTCGCATTGAGCGAAAAAATGAAAGCG -GTTGATGACAATGCCAGTAAGAAAAAAGATGAACCGTCACTGTATACCTCCTGGACGCTAAGTTTTACCG -CGCCAACCAGTGAAGAGGCGCAGACCGTTTTGAGCGGGTATATCGATTATATCTCTACGTTGGTGGTGAA -AGAGTCGCTAGAAAACGTCCGTAATAAACTGGAGATCAAAACCCAGTTTGAAAAAGAAAAACTGGCTCAG -GATCGCATTAAAACGAAAAATCAACTTGATGCAAACATTCAGCGCCTCAATTATTCACTCGACATTGCCA -ACGCGGCAGGAATTAAAAAGCCCGTTTACAGTAATGGTCAGGCCGTTAAAGATGACCCCGATTTTTCTAT -TTCTCTCGGTGCAGACGGTATTGAACGCAAACTGGAAATAGAAAAAGCGGTCACTGACGTTGCGGAACTG -AACGGTGAATTACGTAATCGGCAGTATCTTGTCGAGCAATTAACAAAAGCACATGTCAACGATGTGAATT -TTACGCCGTTTAAATATCAGTTAAGCCCGTCATTGCCAGTGAAAAAAGACGGTCCGGGTAAGGCGATTAT -TGTGATCCTTTCCGCGTTGATCGGCGGGATGGTGGCTTGTGGTGGCGTGCTGTTGCGCTATGCGATGGCA -TCCAGAAAACAGGATGCCATGATGGCAGACCACTTAGTTTAACTATTTGCGGTTGAAGGTGCCGTTCGTC -CGAGCGGCACCACAAGCGGCGTTCCGGCAACTGGATCGTCAATGATCATGCAGCGCAGACCATAAATGCG -CTCAATCAGTTCAGCAGTGACAATCTCCTTCGGCGCTCCCTGAGCAACAATTTTCCCTTCCCGCAATGCA -ATCAAATGGCTGGCGTAACGACAGGCCTGATTAAGATCGTGCAGCACCGCCGCCAGGGTATAGCCTTTTT -CGCGGTTCAGTTCGCTTAACAACTCCAGCAAATCAATCTGATGACTGATATCCAGCCAGGTCGTGGGTTC -GTCGAGCAGCATAATTGCCGTTTCCTGGGCCAGCACCATCGCGATCCACGCTCGCTGGCGTTGTCCGCCA -GAAAGGGTATCCACGCTTTGATCTGCCAGATGAGTTATTCCCGTGGCCTGCATTGCTTTCGTTACCGCTT -CTTCATCCTCTTTGCGCCAGCGGGTAAACAGCGGTTGATGCGGATAACGTCCACGCGCCACCAGCTCCTG -CACGGTGATATCGCCCGGCGTGGTAGCATTTTGCGCCAACAGACCAATCCGGCGTGCAACCTCTTTACTG -GCGTAATGTTGAATGTGCTCGCCATCCAGCCAGACATGCCCATGAGCAGGCGTCATCAGGCGGCTTAAGG -TACGCAGTAACGTGGATTTACCGCAGCCATTTGGCCCGATAATTGCCGTGAAGTGACCATCAGGTATTTC -TACAGTCAGATTTTCCGCAACGGTATATTTGCCATATCCCAGGGTTAACTGTTCGCCGCGCAAACGGGCT -ACTGATTCGGTCATTTTTTGCGAGACTCCTGAATTAACAAGACGATAAGGTAAATACCGCCGAGGCTGAC -GGTAACGACGCCAACCGGAAGTTGATACGGCATAAACAGTTGTTGGGCGCAGAGATCGGCCGCCAGCAGT -AACAGCGCCCCGCATAGCGCCGCCTGGGTTAGCCCCCAGCGAGCGGTGCCGCTAATGCGTCGGGCAATGT -GCGGTGCGACTAAAGCAATAAAGGAAATCGGCCCGGCAAGCGCTGTTGCCGCAGCGGTAAGCACCACTGC -AACCAGCATCATTAACAGACGCGAACGTTCGACGCTGACGCCCAGCGCACACGCGGTATCATCGCCCATT -TCCAGCAAGCGCATCCGGCGTACCAGTAAGGCGGCGGCAATGAGCATCAATATAATGATGGGTGCGGAAG -GCGAGGTTTTTGCCCACGTCAGGCCGTTGAGCGATCCGGCATTCCACAAACCTGCTGTTAGCGCCGTTTC -TAAAGACGCTTTCAGCAACAGCCAGGTATTAAAGGCCACCAGCATGGCGCGAACGCCGATACCGATAATA -ATCAACCGAAAGGTGTCGATGCCGTTGCGCCAGGCGAGCAGCCAGACCAGCAGCGAAGTGACAATGCCGC -CCACCATTGCTGACAGCGCGATAGCCGTCAGGTCCTGACCAAACAGCACCATCGCCACCAGCACGCCGCT -CCACGCCCCGGTGTTAAAGCCCATTACGTCAGGGCTGCCGAGCGGGTTACGCATCAGCGACTGAAAAATC -GCGCCACTGACGCCCAGTGCTGCGCCAATCAACAGCGCCATCAGCACGCGTGGTAAACGCCATTCGGTGA -CCACCATCGTCATACTGCGCGGCGCATCGCCCATCAGCGCGGCGAATACCTGCGAGGTTTCCAGCGTGAC -GGCACCGCTGCGTAATCCCCAGATACCTGCAACCACACAGGCGGAAACCAGCAGCAAACAGGTGATGAGT -AATCGGCGAGAGACGTAAATCATGCACCACCTCGCGTTTTACGTCGCACGAGGAAGATCAGCACCGGTGC -ACCAATAAACGCACTGACCACAGAAACGCGCAGTTCGCCGGGCACAATCACCCGCCCGATGATATCGGCA -AACAGCAGCAGGGCAGGGGTAGCAAGTAGCGTGACGGGCAGCGACCAGCGATGATCGGCACCCACCAGCC -AACGCGCCATATGCGGCATCATCAGGCCAATAAAGGCAATCGGGCCAACTATTGCCGTCGCACTACCACA -AAGCACGGTAATCGCCAGCAGACCAATCAACTGTGTGCGCGCCACGCGACTGCCCAGCGCCGTCGCGGTG -TCGCTGCCGAGGCTCAAACTGTTCAGCGCGCGACTCAGTAATAGCGCAGTTGCTCCGGCGATCAGCACCG -GGATCAGCACCACTTTTAAGGTATGTAGATTGCGAATATCCAGCGAACCGGCTTGCCAGAAACGCAACTG -ATCGTAGACGTCAGGATTAAGCAGGGCGATGCCGCTGGTCAGTCCTTCCAGCACCGCCGCCAGCGCCACG -CCCGCCAGGGTTAAACGCACCGGACTTAACTGCCCGCCGCCCTGACTGCCGGTAAAGGCAACAATCAATG -AGGCCACCAGCGCCCCGGCGAAGGCCATCGCCAGTTGTTCCTGCGCGGAAGAGTAACCAAACAGCGCCGC -ACCCAGCACAATGGCAAAGCTGGCTCCGGCGTTCACGCCAAGCAAGCCGGGGTCGGCAAGTGGGTTTCGG -GTGAGGGTTTGCATTAACGCCCCGGCAAGGCCAAGCGCGCCGCCTGCCAGTAAACCGGCAAGGGTACGCG -GCAGCCGCGCGTCGAGCACGATGGTGCAGTCGGCGCTCTGGCAGGTGCCGGAGAAGGCCTCCAGCACTAC -GGAAGCGGGGAGTGATTTTGCCCCAATGAGCAGGCTTAATGCCGTCGCGATAATCAGTAATAACAGCAAT -CCGGGCACGGCAATGGCGCGTGTCACGGCAACAGAACCAGACATACGAACTTCCATGATAATGAAATTAA -TTATCGTTATCGATCTTATTTGGATATGTTAGCATGTGCAGCCTAAGAATAGGTATTTAAAATATTTGAT -GGCAAGGCATTGTAATGAATAAACAATCCTGGCTGCTTAACCTCAGCCTGTTGAAAACGCACCCGGCGTT -TCGCGCAGTATTCCTCGCTCGTTTCATCTCAATTGTGTCTCTGGGTTTGCTCGGCGTCGCGGTGCCGGTG -CAGATCCAGATGATGACACATTCCACCTGGCAGGTGGGGCTTTCGGTGACGCTGACCGGCGGCGCGATGT -TTGTTGGCCTGATGGTCGGCGGTGTGCTGGCGGATCGCTATGAGCGCAAAAAAGTGATTTTGCTGGCGCG -CGGCACCTGTGGCATTGGCTTCATTGGACTGTGCCTTAATGCACTGCTGCCGGAGCCGTCATTGCTGGCA -ATCTATTTACTTGGTTTATGGGATGGTTTTTTCGCATCGCTTGGCGTTACGGCGCTATTGGCGGCGACAC -CAGCACTGGTAGGGCGTGAAAACTTAATGCAGGCCGGGGCGATCACCATGTTGACCGTGCGTCTGGGGTC -GGTGATTTCGCCCATGATTGGCGGTTTATTGCTGGCGACCGGTGGCGTAGCCTGGAACTACGGGCTGGCG -GCGGCGGGCACGTTTATTACCTTGCTACCGTTGTTAAGCCTTCCGGCGTTGCCACCGCCACCGCAGCCGC -GTGAGCATCCGTTGAAATCATTACTGGCAGGATTTCGTTTTCTGCTTGCCAGCCCGCTGGTGGGCGGGAT -TGCGCTGCTGGGTGGTTTATTGACGATGGCGAGCGCGGTGCGGGTACTGTATCCGGCGCTGGCTGACAAC -TGGCAGATGTCAGCGGCACAGATTGGTTTTCTCTACGCGGCGATCCCGCTCGGCGCGGCTATTGGTGCGT -TAACCAGCGGGAAGCTGGCACATAGTGCGCGACCAGGGTTATTGATGCTGCTCTCCACGCTGGGATCGTT -CCTCGCCATTGGTCTGTTTGGCCTGATGCCGATGTGGATTTTAGGCGTGGTTTGTCTGGCGCTGTTCGGC -TGGTTGAGTGCGGTCAGCTCGTTGCTGCAATACACAATGCTGCAAACGCAAACCCCGGAAGCGATGTTAG -GGCGGATTAACGGTTTGTGGACGGCGCAGAACGTGACGGGCGATGCCATAGGCGCGGCGCTGCTGGGTGG -TTTGGGCGCGATGATGACACCGGTTGCTTCCGCAAGCGCGAGCGGTTTTGGTTTGTTGATTATCGGCGTG -TTGTTATTGCTGGTGCTGGTGGAGTTGCGACATTTTCGCCAGACGCCGCCGCAGGTGACAGCGTCCGACA -GTTAATGCTTAAAACAGCGCCTTAAGCCTATCCAGCACTTGCATGGCGCTGTAGTAATCCAGACGGAACG -TCTCGGTTCCCAGCGCATAAACCTGCTTGTTTTGTACTGCAGGCAGGTGCGCGAGCAGCGGATTAGCATA -AATAGCATCGGCATCTTTCTGATCACCGGCGAACAGGAATAGTGACTCGCCATTTAACCCTGCAGCCAGA -TTTTCCCCACCAAGCTGAATGATGTCATGGCGTTTACCCTGACTTTGGCTGGCATTTAACCCTGCGGGTA -ACTTCGCCAGCGTAAAGCCGAGTTGTTCCAGCATCTGCCCTTGTGCTGATTCTGGCGTCCAGAGATTGGC -ACTGTGTGCAGCGGCAGTATAGACAATGGCAGTGACCGGCTGCGGCGGTAATTTGATTTGCTCTTTCGCC -GCCGCCAGTTGCTTATCAAACTGCGCAATCCGCTCTGCCGCTTGTTTCTCATGCCCGGTAATTTCGCCAA -GTTGCGTTAACAGCGACTGCCAGCTTTTGTCGTCGTAATTGATGATTAATGTCGGGGCGATGGTGGAAAG -CTGATCATACAGTGCCAGCGCCGAATCCCCGCCGGTTGCGCTAATTAAAATCAGATCCGGCATTTGCGCG -GCAACGGCTTCGGCGCTCGGTTCGCCGATATAGAGCCGTTGCAGTTTGCGTTCTTTCGCCACCTTGCTCC -ACTGGCGTAAAAAGCCCTGGTCATCCGCGACGCGGTTATTCGGCGTGGTCGCGCCGCTGGCGATCACCGG -AGCATCAATCGCCAGCAGTGAGCCGGTCAGGGTGACGCTGGTGGAAACAATACGCTGCGGCTGGCTTTCC -AGTGTATGTGTGCCACGGCTGTCAGTAATCTGACGCGGCCAGTCAGCGGCCTGAACTGCGGCTATTCCTG -AAAGCAAAAGTCCTGTTAATAGAAGGGCGTTGCGGTAGAGCGGGGCGAGTCTCACAAATCAGCTTCCTGT -TATTAATAAGGTTAAGGGCGTAATGACAAATTCGACAAAGCGCACAATCCGTCCCCTCGCCCCTTTGGGG -AGAGGGTTAGGGTGAGGGGAACAGCCAGCACTGGTGCGAACATTAACCCTCACCCCAGCCCTCACCCTGG -AAGGGAGAGGGGGCAGAACGGCGCAGGACATCACATTGCGCTTATGCGAATCCATCAATAATGCTTCTCA -TTTTCATTGTAACCACAACCAGATGCAACCCCGAGTTGCAGATTGCGTTACCTCAAGAGTTGACATAGTG -CGCGTTTGCTTTTAGGTTAGCGACCGAAAATATAAATGATAATCATTATTAAAGCCTTTATCATTTTGTG -GAGGATGATATGGATACGTCACTGGCTGAGGAAGTACAGCAGACCATGGCAACACTTGCGCCCAATCGCT -TTTTCTTTATGTCGCCGTACCGCAGTTTTACGACGTCAGGATGTTTCGCCCGCTTCGATGAACCGGCTGT -GAACGGGGATTCGCCCGACAGTCCCTTCCAGCAAAAACTCGCCGCGCTGTTTGCCGATGCCAAAGCGCAG -GGCATCAAAAATCCGGTGATGGTCGGGGCGATTCCCTTCGATCCACGTCAGCCTTCGTCGCTGTATATTC -CTGAATCCTGGCAGTCGTTCTCCCGTCAGGAAAAACAAGCTTCCGCACGCCGTTTCACCCGCAGCCAGTC -GCTGAATGTGGTGGAACGCCAGGCAATTCCGGAGCAAACCACGTTTGAACAGATGGTTGCCCGCGCCGCC -GCACTTACCGCCACGCCGCAGGTCGACAAAGTGGTGTTGTCACGGTTGATTGATATCACCACTGACGCCG -CCATTGATAGTGGCGTATTGCTGGAACGGTTGATTGCGCAAAACCCGGTTAGTTACAACTTCCATGTTCC -GCTGGCTGATGGTGGCGTCCTGCTGGGGGCCAGCCCGGAACTGCTGCTACGTAAAGACGGCGAGCGTTTT -AGCTCCATTCCGTTAGCCGGTTCCGCGCGTCGTCAGCCGGATGAAGTGCTCGATCGCGAAGCAGGTAATC -GTCTGCTGGCGTCAGAAAAAGATCGCCATGAACATGAACTGGTGACTCAGGCGATGAAAGAGGTACTGCG -CGAACGCAGTAGTGAGTTACACGTTCCTTCTTCTCCACAGCTGATCACCACGCCGACGCTGTGGCATCTC -GCAACTCCCTTTGAAGGTAAAGCGAATTCGCAAGAAAACGCACTGACTCTGGCCTGTCTGCTGCATCCGA -CCCCCGCGCTGAGCGGTTTCCCGCATCAGGCCGCGACCCAGGTTATTGCTGAACTGGAACCGTTCGACCG -CGAACTGTTTGGCGGCATTGTGGGTTGGTGTGACAGCGAAGGTAACGGCGAATGGGTGGTGACCATCCGC -TGCGCGAAGCTGCGGGAAAATCAGGTGCGTCTGTTTGCCGGAGCGGGGATTGTGCCTGCGTCGTCACCGT -TGGGTGAGTGGCGCGAAACAGGCGTCAAACTTTCTACCATGTTGAACGTTTTTGGATTGCATTAAGGAGC -GAGGATGAGCATTCCATTCACCCGCTGGCCGGAAGAGTTTGCCCGTCGCTATCGGGAAAAAGGCTACTGG -CAGGATTTGCCGCTGACCGACATTCTGACGCGACATGCTGCGAGTGACAGCATCGCGGTTATCGACGGCG -AGCGACAGTTGAGTTATCGGGAGCTGAATCAGGCGGCGGATAACCTCGCGTGTAGTTTACGCCGTCAGGG -CATTAAACCTGGTGAAACCGCGCTGGTACAACTGGGTAACGTCGCTGAATTGTATATTACCTTTTTCGCG -CTGCTGAAACTGGGCGTTGCGCCGGTGCTGGCGTTGTTCAGCCATCAGCGTAGTGAACTGAACGCCTATG -CCAGCCAGATTGAACCCGCATTGCTGATTGCCGATCGCCAACATGCGCTGTTTAGCGGGGATGATTTCCT -CAATACTTTCGTCACAGAACATTCCTCCATTCGCGTGGTGCAACTGCTCAACGACAGCGGTGAGCATAAC -TTGCAGGATGCGATTAACCATCCGGCTGAGGATTTTACTGCCACGCCATCACCTGCTGATGAAGTGGCCT -ATTTCCAGCTTTCCGGTGGCACCACCGGCACACCGAAACTGATCCCGCGCACTCATAACGACTACTACTA -CAGCGTGCGTCGTAGCGTCGAGATTTGTCAGTTCACACAACAGACACGCTACCTGTGCGCGATCCCGGCG -GCTCATAACTACGCCATGAGTTCGCCAGGATCGCTGGGCGTCTTTCTTGCCGGAGGAACGGTTGTTCTGG -CGGCCGATCCCAGCGCCACGCTCTGTTTCCCATTGATTGAAAAACATCAGGTTAACGTTACCGCGCTGGT -GCCACCCGCAGTCAGCCTGTGGTTGCAGGCGCTGATCGAAGGCGAAAGCCGGGCGCAGCTTGCCTCGCTG -AAACTGTTACAGGTCGGCGGCGCACGTCTTTCTGCCACCCTTGCGGCGCGTATTCCCGCTGAGATTGGCT -GTCAGTTGCAGCAGGTGTTTGGCATGGCGGAAGGGCTGGTGAACTACACCCGACTTGATGATAGCGCGGA -GAAAATTATCCATACCCAGGGTTACCCAATGTGTCCGGATGACGAAGTATGGGTTGCCGATGCCGAAGGA -AATCCACTGCCGCAAGGGGAAGTCGGACGCCTGATGACGCGCGGGCCGTACACCTTCCGCGGCTATTACA -AAAGTCCACAGCACAATGCCAGCGCCTTTGATGCCAACGGTTTTTACTGTTCCGGCGATCTGATCTCTAT -TGATCCAGAGGGTTACATCACCGTGCAGGGGCGCGAGAAAGATCAGATTAACCGTGGCGGCGAGAAGATC -GCTGCCGAAGAGATCGAAAACCTGCTGCTGCGCCACCCGGCGGTGATCTACGCCGCACTGGTGAGCATGG -AAGATGAGCTGATGGGCGAAAAAAGCTGCGCTTATCTGGTGGTAAAAGAGCCGCTGCGCGCGGTGCAGGT -GCGTCGTTTCCTGCGTGAACAGGGTATTGCCGAATTTAAATTACCGGATCGCGTGGAGTGTGTGGATTCA -CTTCCGCTGACGGCGGTCGGGAAAGTCGATAAAAAACAATTACGTCAGTGGCTGGCGTCACGCGCATCAG -CCTGAAGGAGAGAACACGATGGCTATTCCAAAATTACAGGCTTACGCACTGCCGGAGTCTCACGATATTC -CGCAGAATAAAGTTGACTGGGCCTTTGAACCGCAACGTGCCGCGTTGTTAATCCATGATATGCAGGACTA -TTTTGTCAGCTTCTGGGGCGAGAACTGCCCGATGATGGAGCAGGTGATCGCGAATATTGCTGCGCTGCGC -GACTACTGCAAACAGCACAATATCCCGGTTTATTACACCGCCCAGCCGAAAGAGCAGAGCGATGAAGATC -GGGCGCTGTTGAATGATATGTGGGGGCCGGGCCTGACCCGCTCGCCGGAACAGCAAAAGGTGGTGGATCG -CCTGACGCCAGATGCCGACGACACGGTGCTGGTGAAGTGGCGCTACAGCGCGTTTCATCGTTCTCCGCTG -GAGCAAATGCTGAAAGAGAGTGGACGTAACCAGCTGATTATTACCGGGGTATATGCCCACATTGGCTGTA -TGACCACCGCAACCGACGCATTTATGCGCGATATTAAACCGTTTATGGTGGCGGATGCGCTGGCCGATTT -CAGCCGTGACGAGCATTTGATGTCGCTGAAATATGTGGCCGGACGTTCTGGCCGGGTGGTGATGACTGAA -GAATTACTGCCAGCACCTATCCCCGCCAGCAAAGCGGCGCTGCGTGAGGTGATCCTGCCGTTGCTGGACG -AGTCCGATGAACCGTTCGATGACGACAACCTGATCGACTACGGTCTGGATTCGGTGCGCATGATGGCGCT -GGCGGCGCGCTGGCGCAAAGTGCATGGTGATATCGACTTTGTCATGCTGGCGAAAAACCCGACCATCGAC -GCCTGGTGGAAGCTACTCTCCCGCGAGGTGAAATAATGGATTTCAGCGGTAAAAATGTCTGGGTAACCGG -CGCAGGTAAAGGTATCGGCTACGCCACGGCGCTGGCGTTTGTTGAGGCGGGAGCGAAAGTTACAGGTTTT -GATCAAGCGTTCACTCAGGAGCAATATCCCTTTGCGACCGAAGTGATGGATGTTGCCGACGCTGCGCAGG -TCGCGCAAGTGTGTCAGCGACTGTTAGCTGAAACGGAGCGACTGGACGCGCTGGTCAATGCGGCGGGAAT -TTTACGCATGGGCGCGACCGATCAGCTCAGTAAAGAGGACTGGCAGCAGACTTTTGCGGTTAACGTCGGC -GGTGCGTTTAACCTGTTCCAGCAAACCATGAACCAGTTTCGCCGTCAGCGGGGCGGGGCGATTGTCACTG -TGGCGTCCGACGCCGCGCACACGCCGCGTATTGGCATGAGTGCTTATGGCGCATCGAAAGCGGCGCTGAA -AAGCCTGGCGTTGAGCGTCGGGCTGGAACTGGCGGGTAGCGGCGTGCGCTGTAATGTGGTTTCGCCTGGC -TCCACCGACACCGATATGCAACGCACGCTGTGGGTGAGCGATGACGCCGAAGAACAGCGTATTCGCGGCT -TTGGCGAGCAGTTTAAACTCGGCATTCCGCTGGGGAAAATCGCCCGTCCACAAGAGATCGCCAACACGAT -TTTGTTCCTCGCCTCTGACCTCGCCAGCCATATTACCCTACAGGATATTGTGGTCGATGGCGGCTCAACG -CTGGGGGCATAAGCATGATCTGGAAACGCCATTTAACGCTCGACGAACTGAACGCCACCAGCGATAACAC -AATGGTGGCGCATCTGGGAATTGTGTATACCCGTCTGGGCGATGATGTGCTGGAAGCCGAAATGCCGGTT -GATACCCGTACTCATCAGCCGTTCGGTTTACTACATGGCGGCGCGTCGGCGGCGCTGGCGGAAACGCTGG -GATCGATGGCCGGATTTATGATGACCCGCGACGGACAGTGTGTGGTAGGCACAGAACTTAATGCAACACA -CCATCGCCCGGTGTCTGAGGGAAAGGTACGCGGCGTCTGCCAGCCGCTGCATCTTGGTCGGCAAAATCAG -AGCTGGGAAATCGTCGTTTTCGATGAACAGGGGCGGCGTTGCTGCACTTGTCGGCTGGGTACGGCAGTTT -TGGGATGAACCCGACAGAATTAGATGAGATTGCAGGAAAACTCGGTTAACGGAGTGATCGAGTTAACATT -GTTAAGTTAAATATTGGTTTCAACTCCGATTTACATGGTTGCTGTGTTGTTAAATTGTACAAAGATGTTA -TAGAAACAAAATGTAACATCTCTATGGACACGCACACGGATAACAACTATGAACAAATCAGGGAAATACC -TCGTCTGGACAGTGCTCTCTGTAATGGGAGCATTTGCTCTGGGATACATTGCTTTAAATCGTGGGGAACA -GATCAACGCGCTGTGGATTGTGGTGGCGTCGGTCTGTATCTATCTGATCGCTTACCGTTTTTATGGGCTG -TATATCGCCAAAAATGTGCTGGCGGTTGACCCGACGCGTATGACGCCAGCGGTGCGCCATAACGACGGGC -TGGACTATGTGCCGACGGACAAGAAAGTGCTGTTCGGTCACCATTTTGCGGCCATTGCCGGAGCAGGTCC -GCTGGTGGGGCCGGTACTGGCGGCGCAAATGGGCTACCTGCCGGGGATGATCTGGCTGCTCGCTGGGGTG -GTTCTCGCCGGTGCGGTGCAGGATTTCATGGTGCTGTTTGTTTCTACGCGCCGTGACGGTCGCTCGCTGG -GTGAGCTGGTCAAAGAAGAGATGGGGCCAACCGCCGGGGTGATTGCGCTGGTGGCCTGCTTTATGATCAT -GGTCATTATCCTTGCAGTGCTGGCGATGATCGTGGTGAAAGCCCTGACTCATAGCCCGTGGGGAACATAT -ACCGTTGCGTTCACCATTCCGCTGGCGCTGTTTATGGGGATCTACCTGCGCTATCTGCGTCCGGGGCGTA -TTGGCGAAGTGTCGGTCATCGGTCTGGTATTCCTGATTTTCGCCATTATCTCTGGCGGCTGGGTGGCAGA -AAGTCCGACCTGGGCACCGTACTTTGACTTTACCGGCGTGCAGTTGACCTGGATGCTGGTGGGTTACGGT -TTTGTGGCGGCGGTGCTGCCGGTGTGGTTACTGCTGGCCCCGCGTGACTACCTCTCTACCTTCCTGAAAA -TCGGGACTATCGTCGGTCTGGCGGTAGGCATTTTGATTATGCGCCCGACGCTGACCATGCCTGCGCTGAC -CAAATTTGTCGATGGCACTGGCCCGGTATGGACCGGTAACCTGTTCCCGTTCCTGTTTATCACCATCGCC -TGTGGCGCGGTGTCTGGCTTCCATGCGCTGATCTCTTCTGGGACCACGCCGAAGATGCTGGCGAACGAAG -GGCAGGCGTGCTTTATCGGCTACGGTGGGATGTTAATGGAATCCTTCGTGGCGATTATGGCGCTGGTTTC -CGCCTGTATCATCGATCCGGGCGTGTATTTTGCCATGAACAGCCCGATGGCGGTGCTGGCTCCGGCAGGG -ACGGCGGATGTGGTCGCTTCTGCCGCGCAGGTGGTGAGTAGCTGGGGCTTTAGCATTACACCAGATACGC -TAAACCAGATTGCCAGCGAAGTGGGTGAACAGTCGATCATTTCCCGTGCGGGCGGTGCGCCGACGCTGGC -GGTGGGGATGGCCTACATTCTGCACGGCGCGCTGGGCGGCATGATGGATGTGGCGTTCTGGTATCACTTC -GCCATTTTGTTTGAAGCACTGTTTATTCTGACGGCGGTGGATGCAGGTACGCGTGCTGCGCGCTTTATGT -TGCAGGATCTGCTGGGCGTGGTGTCTCCTGGCCTGAAGCGGACCGATTCACTGCCTGCTAACCTGCTGGC -AACAGCGCTGTGCGTACTGGCGTGGGGCTACTTCCTCCATCAGGGCGTGGTCGATCCGCTGGGCGGCATT -AACACTCTGTGGCCGCTGTTTGGTATTGCCAACCAGATGCTGGCAGGGATGGCGCTGATGCTCTGTGCCG -TGGTGTTGTTCAAGATGAAACGTCAACGTTACGCCTGGGTGGCGCTGGTACCAACGGCCTGGCTGCTGAT -TTGTACCCTGACCGCAGGCTGGCAGAAAGCGTTTAGCCCGGATGCGAAAGTCGGCTTCCTGGCCATTGCT -AATAAGTTCCAGGCAATGATCGACAGCGGCAATATTCCGTCGCAGTATACTGAGTCACAGCTGGCGCAAC -TGGTGTTCAACAACCGTCTGGATGCCGGGTTAACCATCTTCTTTATGGTGGTCGTGGTGGTTCTGGCACT -GTTCTCGATTAAGACGGCACTTGCGGCATTGAAAGATCCGAAGCCAACGGCGAAAGAAACGCCGTATGAA -CCAATGCCGGAAAATGTCGAGGAGATCGTGGCGCAGGCAAAAGGCGCACACTAAAGTCAGAGTGAGGGGG -GGATGTTGGCGAATGTTGGCTTAGTGCCCAGGGTTCCCTCTCACCCTAACCCTCTCCCCGGTGGGGCGAG -GGGACTGACCGAGCGCGTTGATAGCATTTGTAGGCCGGATAAGGCGTTCACGCCGCATCCGGCACTCTTT -CAGCAACATGGTTAGCGGAGGCCAAGATGTTTGATTCACTGGCAAAAGCCGGAAAATATTTAGGTCAGGC -GGCGAAGCTGATGATTGGTATGCCTGATTACGACAACTATGTCGAACATATGCGGGTTAACCATCCCGAT -CAAACGCCGATGACCTACGAAGAGTTTTTCCGTGAGCGGCAGGACGCGCGCTACGGTGGAAAAGGCGGCG -CGCGCTGCTGCTAAATTTGTACGTCAGGCTTTAAACGATTCCACTTTTTTGAACGCTGCACGCAACGTAT -CTGGTGTCAGCGTGACTGGCAGGTAATGAATGGACTCCACCGGACGCAGGGTGTGGGCAATCACTTTGTC -GATCTCCGCCTGATTATTGATATCCACTTCCAGCTCCGCCAGTGTAGTCGGCAGATGAAAACGCTGATAC -GCTCCAGTTAATTGCGCCAGCACATCATCCTGACCCAGCAAGGCGCTTTGCACCAGAATTCCGTAGGCGA -CTTTGGTGCCGTGGAGAAACTTCTCGGTTTGCGGCAGCACGGTCAGACCGTTATGCACGGCATGAGCTGC -CGCCACACGCGTAAAACGATCGCCCAGACCACCAACCATCCCACCACCAGCAATAATAGCATCCACCACA -TCGCAAAATGATTGCGTTAACTGTTGATTTTGCTGATCGCTCAGCGCCTGTTCGCTACTGTTTAACAAGA -CGTCGCGAATGGCTTGCGCATTATTGATCCCCAGTCGCACGGTTAGCGGCAACGTTTCTGGTTGCGGAGC -CAGCACCACCGCTTCATACCATTTCGCCAGCGTGTCACCGATCCCCGCCAGCAGATATTGTTGCGGTGCA -TTGAGGATAATCTCCGGTTCCACCAGCACCATAAAATTGGCGTCGTCGAAAATCTCATAATGCAGCGCCT -GTCCGGCATCATTATACCAGACGGAGAGCGGTGTCCAGGCGGCGCAGGTGGCGGCGATCGTCGGAACGGC -AACAAACGGCAGACCGAGACGGCGGGCGAGGGCTTTCGCGGTGTCGAGCAGTGCACCGCCACCGACGCCA -ATCACCACGCTGCGGTCGTCACCGGACTCAGCCGCCAGTTGTTGTACATCGCTTTCGCTGCAATGACCGC -GAAACAAAATATGCTTTGCCCCTGGCAGTCCAAACGCTGGCGGAAGTTTGGTTTGCGCCGCAGCAATGGC -GCGTTTGCCGTAGATCCACACCGCGCGAGAAAGTTGTTCATCAGTGAAAAAATCGTGCAGGTGATTGAAA -CTTCCTGGATGTGAAAAGTAGTTAGCCGGGCCGACGACCACGCGGATAGGATTGTGAGGCATGTTGTGTT -GTCCTTATTGTTTTATTTAGACATCTAAACGTCTTGATTGCCAAATACTAGCATCGTGTTATAGTGCCTT -CAACACGCAACTTCGTCAGGTACAATAAAAATGACAAATAACCCTCTGATTCCACAAAGCAAACTTCCAC -AACTTGGCACCACTATTTTCACCCAGATGAGCGCGCTGGCGCAGCAACACCAGGCGATTAACCTGTCGCA -AGGCTTTCCTGATTTTGATGGTCCGCGCTATTTACAGGAGCGGCTGGCGCACCACGTTGCACAGGGGGCA -AACCAATACGCGCCCATGACCGGCGTGCAGGCCTTGCGCGAGGCGATTGCTCAGAAAACGGAACGTTTGT -ATGGCTATCAACCAGATGCCGATAGCGATATCACCGTAACGGCAGGGGCGACGGAAGCGTTATACGCGGC -GATTACCGCACTGGTGCGCAATGGCGATGAAGTGATTTGTTTTGATCCCAGCTATGACAGTTACGCCCCC -GCCATCGCGCTTTCTGGGGGAATAGTGAAGCGTATGGCACTGCAACCACCGCATTTTCGCGTTGACTGGC -AGGAATTTGCCGCATTATTAAGCGAGCGCACCAGACTGGTGATCCTCAACACTCCGCATAACCCCAGTGC -AACTGTCTGGCAGCAGGCTGATTTCGCCGCTTTGTGGCAGGCGATCGCCGGGCACGAGATTTTTGTCATT -AGCGATGAAGTCTACGAGCACATCAACTTTTCACAACAGGGCCATGCCAGTGTGCTGGCGCATCCGCAGC -TGCGTGAGCGGGCAGTGGCGGTTTCTTCATTTGGCAAGACCTATCATATGACCGGCTGGAAAGTGGGTTA -TTGTGTTGCGCCAGCGCCCATCAGCGCCGAAATTCGCAAGGTACATCAGTATCTGACCTTTTCGGTGAAT -ACCCCGGCACAGCTGGCGCTTGCTGATATGCTACGTGCAGAACCTGAGCATTATCTTGCGTTACCGGACT -TTTATCGCCAGAAGCGCGATATTCTGGTGAATGCTTTAAATGAAAGCCGGCTGGAGATTTTACCGTGTGA -AGGTACATACTTTTTGCTGGTGGATTACAGCGCGGTTTCTACCCTGGATGATGTTGAGTTTTGCCAGTGG -CTGACGCAGGAGCACGGCGTAGCGGCGATTCCGCTGTCGGTGTTTTGCGCCGATCCCTTCCCACATAAAC -TGATTCGTCTCTGTTTTGCCAAGAAGGAATCGACGTTGCTGGCAGCAGCTGAACGCCTGCGCCAGCTTTA -GCTATTTAACCGTCCAGGCGCGGGAATATTGACGGTCGGCAAACAACTCTTGCAGGCCGTTAATTTGCTT -CAGGCGCAGCACTTCGTCGCTGTCCATTCCCAGCTCTTTGCCAATTTTATTATCGTCCCATCCCAACTGG -CTAAGTTCACGGACGATTTCCGACATGGCGGTGATTTGATGGCGTCCACGAGCGCGATTATGACGAATAG -TCGCGGCGATGCGTTGATTACGCGTACCTTCCAGACAGGTCACCGGCAAATAACCTTTTAAGCGTAATTT -TAATGATGATGAGCCTTTACCAATTTCATGGCGGTGAAAACCATCCACGATTTCCATGGCATTTTTATCC -GTATGTGTGACCACAATGGGTTGGGTAAAACCATCTATTTCAATGGATTTTTGCAGCAGTTTTTTTTCGG -GTGGTGCCACGTTGTTTGGGTTGTAATCATTAGGCATAAGTTGGCTGTTTTTAACCCACAGAACGCAATC -CACTGGCTCTTCACGAAAGGGGCTAACCTGATGGATCGCCATGCGGATTTCATTAATCGCTTTGATGCGA -TCATCTTCCGGCAAGCTGGCGAGAAATTGCGTTAAATCCTGCGTTAATCGTTGTTGCATAGTATCCCCCA -TTCCTGACGTTTTCCTTTTATCCGTTCGTTATAACGCTGATAGTTCTTCGATTTTGTGGGGCTAAATGAT -AATGCCCGACACCAGTAATCGTTATTGAGTAAAACTTTGCATATCCGCCGCCAGGAGGGGATATCTTTCG -CGCCAATGTCCCCTTGCTGGGTTTGTGGAACCTCGATGCCTTTTTTCTGATACCAGTGCAAATAAATGGC -GATTTTATTGCGGTAATGCTCAGCTGTTTTTTCCGGCATGCTATTGAGCAGCAATAATGCATATTCTTGC -CAGTCTAAATGTTCTGGCTTGAGGATTTTCCGATGCCCATAGAAATGATTGTCATGTCCGGCGTAAATGC -CGCCACTTTTTACCCCGCTGACTCGTGCGCACATAGCAGCCCAGCGATCCGGTTCGATAACGTGATAGAG -CCATAATCCTTGTCGTTGCTCCGGGCCAAAAGGTTCGCAAATTCGCATATGACGCAGAGGAACGCCTGCC -TGATACATTAGGTTATACAGTGGGTTGCAGAGACTTTGATGATTTGCATACCAGGTCCAGATATCAGCCA -CTTTCCAGTCGTAAATGGGGTAAATGTACCAGCTATGACCGCCTGGTGCGGCCGTAGTCCAGGGTTTATC -GTCGGCAAAACGTTGTTTATTTAAACTGGCGATGGCGACAAAACGGTTGTAGGACTCATCCGCACGGATG -CCGATCATCATCGCCGCCGGACGTTTTTGTGAAAACCATTCGGCAAACTCACGTACAAATTGTTCGAAGG -TCATGCCTGGCTGGTAAAAGCAGAAAAAGTCAGGGTCGGTTATCGCATCTTGGGGAGGTTGACGTACCCA -TTCGACATCAGGTTCCCAGCACTGCCATTCGGGTTGGTATTGTGAAAGGGAATTTTGCGTCGTAAGCGGG -AGCGCAACCCAGTAAAACTCTTCGATGACATCGGTGTACAACTCGCGCAGGGACTGAACATAGTTAATGG -TGCAAGAGAATTGCGCCTCCCAGTCGATAAACAAAACGCAGATTTTTTTGCCCATTTGTCGGGCAAGTTC -GGCTGTCAGATGCAGCATTAAACCAGAGTCTTTGCCGCCAGAAAATGAGACACAAACGCGGGGTAGGGTG -TTGAGTGTCCAGGTAATACGCTCTCGTGCAGCTTCCAGAATATTGAGCGGAAGAGGAATTTTATAAATAG -ACATCTGAAGACGCTCTCTGAACGTTACAGGGTGATCAGTGAGATAAGTCTGTTAATTATAAAGTAAACA -CTGTAAAGCAGAGTGTTTTATTTTTCATTCGCGCTGTGAATAAATAGATGAAAGTTATAGTAGCTGTCTG -TAGTTATATATCAAAAACTCTCATTTAGACGGTCAATAAATCGGGAGAACACCAAATTATTTAAAGAAGA -TTTATTATAGGAAATGTAAAGCTTTATTGAAGGTAACGGATGTTCTAGTTTTATCTCTTTTAAGTTAAGA -AAGTCACGGTAGGAATTATAAAGTTCATAGGGGACTATTCCCAGTAAATCTGTAACTGCAATGCTATTAA -TGATTGTCAGCAAAGAGGAACCACGAAATGAGATTTTGCGATTCATAAATCTCTCGTCTATTTCCATTTG -AATATCATCAACCCCTGCTGATTTAGATATTAATTGGGTGAACTCTTCTGCCATAATTTGTTCATAAGTG -CTATTGTCAGTAATTCGTGGATGCCTATTACTACAAATTAGAGTATTGCGAATCGTATGCAATGGCATGC -AAATGACGGAACGGCTGATCACTGGCATTTGGGTGATCACCAGATCGGCTTTGCGGTGAACCAACAGTTC -TTCAGCATTCTCTGCTGACATGAGGATATCATGGCACTCAATCTCGACAGAGGAATCTTGCCGTAGGCAG -CGGATCAGCATACTATTATTAGAGCAAGAAATGAGCTGAGGGCCGTAGATAATAAAGTTTTTCTTTAGTT -CGGACTTATTGACTATATTAATTGTTTGTTCAAGGCCTCTGAGATTTTTCTCAAGATGGTGATGCAGATT -TAACCCTGTTGTCGTCGGCGCGATACCTTTTCCTGAGCGAATGAATAAAGGGTCATTAAATTGCGCACGT -AAGCGTTGTAACGACTGGCTCACGGCTGATGGGGTGATATATAGTGATTCAGCAGCTTTGCTAATGCTTA -AATGCTGGTAAATACACTCAAATATGACAAGAAGATTTAAGTCGAACTTTTTCAAGTCGTAGAGATTGGC -CATACACTACTCCGGTTATATTTTTCTTCCATGATATATTCACTTAATCAATGTTTTTTGCGTATATATT -TTTATTGATTATGTTTTTTTGCTTAACTCAGGATTAAGTTTTTCTAAAATAGCACAGCCACTTAGGGCAG -AGCGAGCAATTCATGCTTTTTTAGGATGGTTGAAAAGCAGGGATATAGTTCAACCATCCATGAATTACCT -TTTATTTATTCCCCATAATGATATTAAGCGTTTTCTGATCGGGCAACCCCACGGCCTGTTGTAGCGTATT -TTCCTTACTCATGTAATAGATAGCCGGCGTGACATTTGCCCCCAGATCGTCCATCAGTTTCTCATTGTCA -CTTAACACTTTCATTTGCTCTGTACTTACGTTTGCAGGCACGTTTAGCTTAAGCTTGCCACCAGAGGCTT -CATATTGTTGCCAGGTTTTTGCGGGATCTTTGGAGGCAAGAATTGCCGCTGCTGTCGCCGGGCTTTCTGG -CTTGATAACCCCAACCAACAATGTTCTTAATTGCACTTTGCCAGAATCTACCCACGGGCGCGCCTGCTGC -CAGAACTGTTTACAATATGGGCAGAACGGATCGGCGAAGACGTAGACAATGACCGGCGCATCTTTTTTAC -CGTCGAGGAGCCAGTGGGATTGTTCCATCCGTTGCCACATTTCGCGTCCGGCTGGTGCGTAAATTTCTTT -TTCGATAAGTGTGTTACTCAGGTTTTCACCTTTCTCGTTGTACATGTAACCAGAGATAGCGTGCTTACCA -TCTGGAGTCAGGTAGATGGTGACGCCCATATCCTGATACTTTCCGAGATAACCTTTCATTCCTCCGGGGG -CATCGAATGTTTTGATGATTGTAATGCCCTGTTTTTCAATCGCTTTTACTGGAGCAGGAAGTTCCTCTGC -GAAGGCGATTGCAGGAAGCAGAGCCAGTAAAAGTATCTTTTTTAACATTAATTTGTCCTTTTCAGTCAGT -GCAAAAGTCGAGTAAAAGGCATAACCTATCACTGTCATAGGTAAGAGCTTAGATCAGGTGATTGCCCTTT -GTTTATGAGGGTGTTGTAATCCATGTCGTTGTTGCATTTGTAAGGGCAACACCTCAGCCTGCAGGCAGGC -ACTGAAGATACCAAAGGGTAGTTCAGATTACACGGTCACCTGGAAAGGGGGCCATTTTACTTTTTATCGC -CGCTGGCGGTGCAAAGTTCACAAAGTTGTCTTACGAAGGTTGTAAGGTAAAACTTATCGATTTGATAATG -GAAACGCATTAGCCGAATCGGCAAAAATTGGTTACCTTACATCTCATCGAAAACACGGAGGAAGTATAGA -TGTCCTTGATTAACACCAAAATTAAACCTTTTAAAAACCAGGCATTCAAAAACGGCGAATTCATCGAAAT -CACCGAAAAAGATACCGAAGGCCGCTGGAGCGTCTTCTTCTTCTACCCGGCTGACTTTACTTTCGTATGC -CCGACCGAACTGGGTGACGTTGCTGACCACTACGAAGAACTGCAGAAACTGGGCGTAGACGTATACGCAG -TATCTACCGATACTCACTTCACCCACAAAGCATGGCACAGCAGCTCTGAAACCATCGCTAAAATCAAATA -TGCGATGATCGGCGACCCGACTGGCGCCCTGACCCGTAACTTCGACAACATGCGTGAAGATGAAGGTCTG -GCTGACCGTGCGACCTTCGTTGTTGACCCGCAGGGTATCATCCAGGCAATCGAAGTTACCGCTGAAGGCA -TTGGCCGTGACGCGTCTGACCTGCTGCGTAAAATCAAAGCAGCACAGTACGTAGCTTCTCACCCAGGTGA -AGTTTGCCCGGCTAAATGGAAAGAAGGTGAAGCAACTCTGGCTCCGTCTCTGGACCTGGTTGGTAAAATC -TAAATTTCCTTCGTCTTTCACGCCATAGCGGCGTTGGCGTCGCCCGCTCACCCCGGTCACTTACTTGTGT -AAGCTCCCGGGGATTCACAGGCTAGCCGCCTTGCTCTGACGCGAAATACTTCGGAAATTCACCTAATTCT -TCGGGTGCTGCGGCACCCGATTTTCTTCCCCGCACCATGATGCAAGCTGCATCCAGGTAGCCGCAGAGGC -CGCTTGCATGATGATGTTTAAAGCCCAGGAGATAAACATGCTCGACACAAATATGAAAACTCAACTCAAG -GCTTACCTTGAGAAATTGACCAAGCCTGTTGAGTTAATTGCCACGCTGGATGACAGCGCTAAATCGGCAG -AAATCAAGGAACTGTTGGCTGAAATCGCAGAACTGTCAGACAAAGTCACCTTTAAAGAAGATAACAGCTT -GCCGGTGCGTAAGCCGTCTTTCCTGATCACCAACCCAGGTTCCAACCAGGGGCCACGTTTTGCAGGCTCC -CCGCTGGGCCACGAGTTCACCTCGCTGGTACTGGCGTTGCTGTGGACCGGTGGTCATCCGTCGAAAGAAG -CGCAGTCTCTGCTGGAGCAGATTCGCCATATTGACGGTGATTTTGAATTCGAAACCTATTACTCGCTCTC -TTGCCACAACTGCCCGGACGTGGTGCAGGCGCTGAACCTGATGAGCGTACTGAACCCGCGCATCAAGCAC -ACTGCAATTGACGGCGGCACCTTCCAGAACGAAATCACCGATCGCAACGTGATGGGCGTTCCGGCAGTGT -TCGTAAACGGGAAAGAGTTTGGTCAGGGCCGCATGACGTTGACTGAAATCGTTGCCAAAATTGATACTGG -CGCGGAAAAACGTGCGGCAGAAGAGCTGAACAAGCGTGATGCTTATGACGTATTAATCGTCGGTTCCGGC -CCGGCGGGTGCAGCGGCAGCAATTTACTCCGCACGTAAAGGCATCCGTACCGGTCTGATGGGCGAACGTT -TTGGTGGTCAGATCCTCGATACCGTTGATATCGAAAACTACATTTCTGTACCGAAGACTGAAGGGCAGAA -GCTGGCAGGCGCACTGAAAGTTCACGTTGATGAATACGACGTTGATGTGATCGACAGCCAGAGCGCCAGC -AAACTGATCCCAGCAGCAGTTGAAGGTGGTCTGCATCAGATTGAAACAGCTTCTGGCGCGGTACTGAAAG -CACGCAGCATTATCGTGGCGACCGGTGCAAAATGGCGCAACATGAACGTTCCGGGCGAAGATCAGTATCG -CACCAAAGGCGTGACCTACTGCCCGCACTGCGACGGCCCGCTGTTTAAAGGTAAACGCGTAGCGGTTATC -GGCGGCGGTAACTCCGGCGTGGAAGCGGCAATTGACCTGGCGGGTATCGTTGAGCACGTAACGCTGCTGG -AATTTGCGCCAGAAATGAAAGCCGACCAGGTTCTGCAGGACAAACTGCGCAGCCTGAAAAACGTCGACAT -TATTCTGAATGCGCAAACCACGGAAGTGAAAGGCGACGGCAGCAAAGTCGTTGGTCTGGAATATCGAGAT -CGTGTCAGCGGCGATATTCACAACATCGAACTGGCCGGTATTTTCGTCCAGATTGGTCTGCTGCCGAACA -CCAACTGGCTCGAAGGCGCAGTCGAACGTAACCGCATGGGCGAGATTATCATTGATGCGAAATGCGAAAC -CAACGTGAAAGGCGTGTTCGCAGCGGGTGACTGTACGACGGTTCCGTACAAGCAGATCATCATCGCCACT -GGCGAAGGTGCCAAAGCCTCTCTGAGTGCTTTTGACTACCTGATTCGCACCAAAACTGCATAAGAAGAAG -TAAGATTCACCTGCAATTGCTTAGCCGCCGGGGTCAAACCTGGCGGCTTTTTTATGGCATTAAAAAGCCC -CGCCGGGATGGCTCCGGGCAGGGCGGGATACTTATTCTGGCAATTAACGCACAACCAGCACCGGCAGATT -GGCGTGGCGGATCACGCTCGAGGCGTTAGAACCTAACAGATGGGTCGAAATCGATGGGTTGCGAGAACCA -ATAACTACAACATCAGCCCCCAGTTCTTCTGCCAACTCATTGACTTCATCCCGCACGCTACCAAAACGGA -CATGTTGTTTAATGCGGGAAGGATCGATGGTGAAGTGGCTGACCATCGTTTGCAGACGTTCTTGTGCTTC -ATGTTGCAGATGCTCTTCAAAACGACGCACATCAGCGGCAAAACGGTGCAGGCTCAGGCTGGCTGACCCG -GGTAGTACGTGAAGTAGATGAATAACTCCGTCATCCTGGGCGAGGAATTCAGCGTGGCGAACAGCTTTGT -CGCTCAATTCCATTTCAAATACATCAACTGGCATAATGATTGTCTTATACATAACCCTTTCTCCCTGTTA -ATCATGAACAAATCATTCGCCATGATTATAATATTTATCCCTGATATTTGTCTGGTTCTTTTTCCTTACG -AACTGTTTCTGTGATGAATATATTCTCACTGAACACCAGGAATTCTCCCAAAACCTGTGGTACCGCCCGT -TTTCCCGCTGTGATAGCTACCCTTAAAGACTGACTCTTTTTTGAACTGTCTCTGGAGGTTGCATGAAAGC -ATTGACTTATCACGGCCCACATCACGTTCAGGTAGAAAATGTTCCCGATCCGGGCGTTGAACAGGCAGAT -GATATTATTCTGCGTATTACGGCAACGGCGATCTGTGGCTCTGACCTCCATCTTTATCGAGGCAAAATAC -CTCAGGTTAAACATGGCGATATTTTTGGTCATGAATTTATGGGGGAAGTAGTTGAAACCGGAAAGGACGT -AAAAAATTTGCAAAAAGGCGACCGAGTGGTAATTCCGTTCGTCATTGCTTGTGGCGACTGTTTTTTCTGT -CGATTGCAACAATATGCCGCCTGCGAAAATACCAATGCGGGTAAAGGCGCTGCGCTCAATAAAAAACAGA -TACCAGCTCCAGCGGCATTGTTTGGTTATAGTCACCTGTATGGCGGCGTTCCTGGTGGGCAGGCGGAATA -TGTCCGCGTCCCTAAAGGGAATGTGGGGCCGTTTAAAGTACCGCCTTTGCTTTCAGATGATAAAGCGCTT -TTCCTTTCTGATATTCTGCCAACGGCATGGCAGGCAGCAAAAAATGCGCAGATCCAACAAGGTTCAAGCG -TTGCAGTCTATGGTGCTGGTCCTGTGGGATTGTTGACAATCGCCTGTGCACGGTTGCTCGGTGCGGAACA -GATTTTTGTTGTTGATCATCATCCCTACCGCTTGCATTTCGCCGCCGACCGCTACGGCGCGATCCCGATT -AATTTTGATGAAGACAGCGATCCGGCACAGTCAATTATTGAACAAACGGCAGGTCACCGGGGCGTGGATG -CAGTAATAGACGCCGTCGGTTTTGAAGCGAAAGGCAGCACCACGGAAACGGTGCTGACTAACCTGAAACT -GGAGGGCAGCAGCGGTAAAGCGTTGCGTCAGTGTATTGCGGCGGTCAGGCGTGGCGGCATTGTTAGCGTA -CCGGGCGTCTACGCTGGATTTATTCACGGTTTCCTGTTTGGCGACGCCTTTGATAAAGGGTTGTCGTTTA -AAATGGGACAGACCCACGTTCACGCATGGCTGGGAGAATTATTACCGTTAATTGAGAAAGGATTACTGAA -ACCAGAAGAAATTGTTACCCACTATATGCCGTTTGAAGAGGCCGCCCGGGGATATGAGATTTTCGAAAAA -CGTGAAGAGGAGTGCCGTAAGGTGATTCTGGTACCCGGTGCACAAAGCGCAGAGGCGGCGCAGAAGGCGG -TTTCAGGTCTGGTGAATGCGATGCCGGGGGGAACAATATGATCGTCAGGAGTGGTTTTCGAGGTAAAGGA -CAGCCATGACGATAATCGCCGCCATAATCAGAAATCCTATCAGGATGTAAAATGCTTCTGCCATGGTTAT -TCCCACAAACGAAACGGAATAATTTTGCAGCAAAAGTGAACAGTGAGAACCAGGAAAAATTGCTGATTTT -GCGTAAAGAGGATGCGAGTGCATCCTCTGGGCAAAGCGAGTTATCGCTTGTGCAGATGGGATTAAAGCAG -GTAGTCGCCAGCAGCTTCTGGCTGGTATTCGAGTTCCAGCACTTCAAGGTGGGTTGCAACGCCGCCCGGA -AGTTCCCAGTGAATGGAATCGCCAACGCGCAGCCCCAGCAGTGCGGCACCTACCGGAGCCATAACGGAAA -GCTGAGTATTGCTATCGGTCATTTTTGCCGGATACACCAGCGTGCGCACACGCACTTCGCCATCGCTAAG -ATTGCGGAATTTAACCCGGCTGTTCATTGTCACCACGTCGTGTGGCATCTCTTCTGGCGAACACATTTGG -GCGCGATCCAACTCTGCGTTTAACGCGTCGGCGATTGGCAAACCAGCATAGGCGGGTTGCTCCAGCAGAA -TATCGATGCGTTCGGCATCCAGGTCGTTAATGATGATAGTTGGTCTGGACATTTTTACTCCATGTCGTCG -GTGCTGCGAGTGTCGCAGATAAACATACCCAAAAGAAAACCCTCACCGTCAGGCGGCGAGGGTTTAACTC -ACATGATGATACTGACTGTTGCTCACTCTTTGAAGTGATTTGCGTCACATTCAGGGAATTCCTCAATGCA -GCGCATTATGTATAAATCTTAATCGCCTTGGTTTATGGAAGACGAATTAGCGTGTTTTGTAAATCAGATG -ATTAATAACCCGCTTTATCAATCACAAAGGTTTTGCCACAGTTACCTGGGTGAGGTTGTGGCAAGAATGA -GTTTGCAGAAAGCGGAGCGTTGATGGCGTCAGCTTTGATCGAGATCTGAATTTCAGTCAAATACGCAGGG -TTACCCTGGCACGTTAGCTTAACTGCTTTCACGTTCTCTTTTCCCCAGCTTTTGGCAAAGGCGGCGTCAA -AGTCACGGCGGCTCACTGTTTTACCGTAATTATCCGCAAGGAATTTTCCGGCTTCGCTCTCTTTAATTTC -TTGATTCAGGCGTACCATCGTACCGAAGTATGCGTCCGGATCAAAACCAAAGCAGGCACCGTGTTTGGCA -TATTCGTAGCGTTCCAGGCAGGAACGTCCGCCAGCTCCTGGCATGACTTCACTTAGTTTAGCGGCCGTTT -CCAGTGATAATCCGGTTTCCGGCGATGAACACATTCGGCTGGCGCGCGCTTCTGGTAGATTCGGGATTGG -GCGAGTAGCGCAACCGAAGCGCATCCAGCGGCGTTCATCAACACCACGGGCAGCAACCGATTTAGGCAAT -CCTGGCCACAGACCATGTACGGTCAGAAAATCAGCTTTGTTGGTCGTTTCGGTTTGCAGGCGACATTCAT -CTCGTTCGTTACGATTTCGATCGTGTTGACTCTGGCAAAATCCGGTTTGCCAGGAGAGGGCCAGGACATA -GCGATCAAAATCGCCATACTGTTTTGCCTGCAACGCTAAGGCGTTGGCAGAAGAGAAGGGAAGCAGAGAA -ACCGCGAGCAACGCGGCGTTACGCCAGAATGCTTTCATAATGGGTGTGGAACTCATACATACACTGAATA -CTATCTATTAAATCATAAAAAAGCCCGCCAGGTGGGCTTACCTGGCGGGCGTGATGATTTATTCAGCGTT -TGGCGAACGTATTAGTTCCACATGGCGAGAATCGGCCAGCCAACCAACAGCAACATAGAGATGTAAATCA -CCCCGAAGATTGCGCCAAGACGCCAGTAATCTTTTGATTTCACATAGCCACAGCCGTAAATAATCACCCC -AGGACCGGTTGCATACGGCGTCAGACAGCCCATGATACCGATAGACAGCACCAGCAGGATACACAGTTGT -TCCATTGGTACGCCCGGAATACCTTTACCGACGGCCAGAATAACCGGCAGCATGGTTGCGGTGTGCGCAG -ACAGGCTGGCAAACAGGTAGTGTGCAAAGTAGAACACCAGAACCAGTACAATCACCGTTGCGTTTGGTGA -GAATCCTTCCAGGTGCGTACTCATGGTACCGGCGAACCAGTCAATAAAACCAGAACGAGTCAGGCCGTTA -GCCATCACAACCAGAGTTGCCAGGTTGACCAGTGTGTTCCATGCGCTGTTATAGCGGGTAATGTCTTTCC -AAGGCACAACGTGCAGGGCCAGCATTAGCGAAACTGCCAGCAGACCAACCGCAGTAGCATTAATGACTTC -ACTGCCAAATACCCACAAACCTAAGCTGAGCAATACAAGGCCAATCAGTGTCCACTCTCTGCGTGTCAGC -GCACCCATGGTTTTCAGTTCATCACCCGCCCAGGTTGCCACTTCTTCACTGTGTGTGATTTCCGGTTTGT -ACAGCACGTAGGAAAGCCACGGCGCAATGATAAGCAAGATAACCCCAACCGGCAGGAAGCAGAGGAACCA -CTGCAACCAGCTAATCTGGATACCGGCAATTTTGCTGACGAACTCCAGACCCAGCACGTTTGGTGCCGCA -CCGGTGACAAACATGGACGAACTCAGACTGGTACTAATGACCATCATCCACATCAAATAGCCGCCAATAC -GACGCGCGGACGGATCGTTCGGGAATGATTTAAACAACGGCGGCAGGTTTTTAATGACCGGAAAAACCGT -ACCCCCGGTACGCGCGGTGTTGGAAGGTGTAAACGGTGCCAGCAGAATGTCGATAATGACAATCGCATAA -CCCAACGTCAGCGTGCGTTTGCCCATGAATTTCACCAGGAAAAGGGCAATGCGACGACCTAACCCGGAAA -CTTCATACCCTAATGCAAAAATAAATGCGCCAAATACCAGCCATACCGTGGTGCTGGAAAAACCAGCCAG -GCCCCATTTCAGCGCCTGTTTTTGCGCATTAAACGCTGGGTCAGCTAATTCTTTGGCATCAAAGAGCAGG -TAATTACTGCCAATAACGCAAATAGTAACCGCAATAAAACTGATCGCTGTTGCCGGAATTGGCTCGAGGA -TCATGCCGACAATCATTGCCACAAACACAGCGAAGTAATGCCATGCCTGCGGCGGCATACCGTCGGGGAC -AGGGATAAGAAACATGACACCCATCACCACCAGTGGGGCCAATAGTTTCCATATATTATCTTTTGCTAAA -GACATACGGGTTCTCCGAAAATTAATATTTCCAAATTTATCAAGTGCTTAAATAATTAAATCTGTGCTAA -AAACCAGGTAAGGATCAGTAGGTCAGCACTGCCGCCTGGACTGAGATTTCGTTCGATACACTCCCTGTCG -AACTGCCGGAGATAATCGAGATCGGCGGGGGTTCGAATGCCCCCTTTTTGCAATAATGTTTGCGCCTCGC -GCTGTAGCCAGCGCAGGCCCCCCTCGCCACCGCGCGATGCAACGTTGGTATCGCCGTTGATCGCCATCAG -TAGGAGCAAGGTATCGAGCAATGCCAGTTCAGGATCTAACCCCTGATCCAGCAGAGTGAGGTAATGCGGC -AAGGCGTGATTGATCACCAGTGGATAACCCGCTTCGGCTTCACCGCGTGCGCCGGTAAGGCCAAGCTGTT -GGTACAACCGTTGACCTGCCGTCAGTTGTGAATTATTGGTACGCAGTTCGCGATCGGTCAGGCCACGGCA -GAAACTTGCCGCCGTAGAACAAACGGTTGTTGGCGTTACCGGTTGGTTGAGTTGAAGCAAACGGCCAATT -GCCGCACATAGCAGCCCTAAAGAAAAAATGCTGCCTTTATGCGTGTTTACGCCCGCAGTGGCGCGGAACA -TATCACCTTCGCAAGCCATACCAATTGGGCGTAATCCGTGGAGTACCGCTTCTGGTGCCATTTCCGCACT -ACAGGCACCAAATTCAATGAAACGGGGTAGCCAGCCCTGAATCGCCAGCGCGCTGCGGTGGAAATCTTCC -AGCGCCATATCTTTGTGCGCACCGCAGTTAATGCGATCCACGAGGCCTGGTTTCGGTGACAGATTGACTT -CAGTCAGCATGGCGCGCCAGCCCAGCAGGGCGTACTCATCGATTAATGACGTCGCAAGCTTTGTGGTTTT -AGTTGACGTTGCAGGCATCGACATCGTTCAGCAGTGCCTCCATGCGGTTGAGTAAATCGGTCAGTTGATG -GGTTTTTCCACGCGCGCAGACGGCTGCGCTTTGTTCGCACAACAGGCAGCGGCGAGGCGGCAGTGAATAG -TCGCGGCGGGAGAGAATTTCGCCTTCGGGCGTCAGGACATCGATATCCCATAACCGCCCGAGAGGATGAC -TATGTTCAAGCTCAATGGTGGCGAGCTTGAGGTCGCGAGCCGGGGCGGCAATGCTCAACATGCCCTCCGG -CCCGCTGGCGGAAACCAGTGCAGCCTGCTCCTGAATTTGCCAGCCCTGTTTTGCGGCTAAGGCACGCAAG -GCTGTCACGCCATGATTAAAAATTCGGCGTGTGACCTCGCTGTCTTTAATCGGCCCAGGCGCAACCACGG -TAAAGGAGACCAGTGGAACAGGATGGCGCTTGAGCCAGACGTGTTGCCGTGCTTGCCTTTCATCCCGGCT -GACGAGCAGCTCGGGAATTGATACCGCATGGTGGCTGGCGAGTTCAGGAAGCAGGTGCATGGCTTATTCC -TTCACCTGATGCACAACATCGATCACCGAGCCATCGCGGTAACGCACAACGGCAACGACGCGGTCTGTGA -ATTCAATCGGCTGTGGTTCACCGGTCAGCAGACGCGCACGTTCGCGCAGCCACTCAATGGAAACCACTTT -AATGCCCGCTTCCTGCAGACGTTCTGCCAGTTCCGGACGTGCCGGGTTAACTGCGATACCGTGGTCTGTG -ACCAGAATATCGACACTGGAGCCTGGGGTGATGCAGGTCAGTACGTTATCCACCAGAGTCGGAATACGAC -CGCGTACCAGCGGCGCGACGATGATGGAAAGCGCAGAGGCAATCGCGGTATCGCAGTGACCACCGGAAGC -ACCACGCAGTACGCCGTCAGAGCCGGTCAGCACGTTAACGTTGAACTGGGTGTCAATTTCCAGCGCGCTC -AGTACCACCACGTCGAGACGATCAACCGATGCGCCTTTCGAACCCCAGTTAGCGTACTGGTTGGCGCTGA -TTTCGATGTGATTGGGGTTACGGGCCAGCGATTGCGCAGCATGGCTGTCAAAGCTCTGCACATCCAGCAG -TTTGCGGATCAGACCTTTTTCGTGCAGGTCAACCATCGTCGCGGTAATACCGCCAAGGGCGAAGTCGGCG -CGAATATCGCGGCTACGCATTTTGTCTTCCAGGAAACGGGTTACCGCCAGCGATGCGCCGCCGGTGCCGG -TTTGCATGGAGAAACCTTCTTTGAAGTAGCCAGAGTTGACAATCACATCCGCAGCGCTACGGGCAATAAG -CAGTTCGCGCGGGTTAGTGGTCATACGGGTCGCGCCAGCGCCGATTTTTGCAGCATCGCCAACGCGGTCA -ACTTTGACGATCAAATCAACCTGATCTTGCTCAATGCTTGCCGGATTATGCGGATAAGGCAGCAGTTCTT -CGGTAAGCATCACGACCTGTTTTGCGTTGTCGGCATCAACTATTGCATAGCCGAGGGAGCCGCAGCAGGC -TTTACCGGTGTAGCCGTTGGCATTACCGAATTCATCACAGGACGGGACGCCGAGGAAAGCCACGTCGATA -TTCAGTTCGCCGCTCTGTACCAGATGCACACGACCGCCGTGAGAGTGGATCTGCACCGGTTCTGCCAGCA -GACCACGGGAGATCTCTTCCGCCAGTGGACCACGCAGGCCGGAGGTATAAATGCGGGTAACCACGCCCTG -GCGAATGTGTTCTACCAGCGGCGCATGGCAATCACTCAGGGAGCTGGACGCCAGGGTCAGGTTTTTAAAG -CCCATCTTCGCGATGACGTCCATCACCATATTGACGGTCAGGTCACCGCCACGGAAAGCGTGATGGAAGG -AAACCGTCATGCCGTCCTGTAAACCAGAGCGACGAATCGCTTCTTCCAGGTTGGCGCACAGTTTGCGATC -GCGCGCTTTTTCAGCCTGGTAGGTTTGCTTTGGCGAGTTCTGGAAAGCGGCAAGATCGCATTCAGCGCGA -CGATTCCAGGCCGCTACCCGTTCTTGTCGTTGAGATTGTTCAATTTTCTGCGTCATTTTGATTGCCTTAT -TCTTCGCGGATGCCGGAAAGTTCTGCACGGGAGAGCACCAGACGGGCGCGATCGATAACCGGACCGTCCA -CCATCTTGCCGTTCAGGGAAACCACGCCGAGGCCTTCGCGAGCGGCGGCTTCAGCGGCTTCTACGACGCG -GCGGGCGTGATCCACTTCTTTCTGGGTCGGTGCGTAGAGGTTGTGCAGCAGATCAATCTGACGCGGGTTG -ATCAGCGATTTGCCGTCAAAGCCCAGCTGTTTGATGTGGGCGGCTTCTTGCAGAAATCCGGCTTCGTTGT -TAGCGTCGGAATAGACGGTATCGAACGCCTGAATACCCGCAGAGCGCGCGGCCTGCAAAATGGAACAGCG -TGCGAACAGCAGTTCAGTTCCTTCCGGGGAGCGTTCTGTACGCAGGTTGCGCACATAGTCTTCTGCACCG -AGGGCGATACCGATCAAACGCTCGGAAGCGTGAGCGATTTCCACTGCGCGGGTAATCCCCAGCGGAGATT -CAATCGCCGCCAGCAGGCCGGTGCTGCCGGGTTCACGACCACAGGCTTTTTCGATACGCAGGATCTCTTT -TTCAATATCCAGAACATCCTGAGCGGTATCGGTTTTCGGCAGACGCACAACGTCCGCACCACCGCGAACG -ACGGCTTCCAGGTCGTTAACACCCCATTCGGAATCCAGCGCGTTGACACGCACAATGGTTTCAATATCGC -GATACAGCGGATGTTGCAGCGCGTGGTAAACCATGCGGCGGGCGGTGTCTTTTTCACGCAATGCTACGGA -GTCTTCGAGGTCAAACATCAGGGCATCAGCCGGGTAGATGAAGGAGTTGCTGACCATCGCGGCATTGGCA -CCAGGCACAAACAACATGCTGCGGCGGGTGCGAGTTTTACGTTGTTGCAGCGAAGCGGAAATCATTGGCA -ATCCTCCCATGGCAGAGCCGGGATACCGCTGGCGCGTGCCAGCAGGGCTTCCAGTCGTGCACGTAAAATG -CAGTCCAGTGCGCCTTTGTCATCGACATTCAGCTGTACGCCGCGCACGTTGTAGCGGGCGAGAACGTCCA -GAATGGTGGTGCGAATTGCATCGCCAAACTGTTTCTCAACGCTGCTATTGATTTGCAGGTCGATATCCTG -CGTATCGAGTGGGGCGATGCGTATCATCACATCCCCAGACTCAAGGGTGCCTGCAACGGCGGGCTGGTTT -ATTTTCATTTTTCACCTGTTTCTCATGCGGGGGTCTTTTGACGAGCTGCCGCGTCCTGGCGGGAGTGCTC -AAGCAGGTTCTGCAAATAATGCAGCGTGACTGCAGGGACCAGCGGCGCGATAGCCGTGAGATCGTTTTTC -GCCAGCAGTTGACGTACCCGGGAAGCGGATATCGGCATCTCCTGGTAACGCAGCCGCTCAATTTCAACCA -GTTCGATGGGCGGTGCGGAGATAGTCGGCGTTTCCAGCCAGTAGCGCATATCCTGGTTGTACTGGGCGGT -AACGCGACAAAAGGGTTCAGTACCGACAAAGCGGTGAGTTACACCCAGCGCGGGAGCGAGGTACTGACGG -AAAATCTTCAGATCAATTTCGGTGTAACAATGGTTAATGACGCTCTGTTCTTTAATGAAGTAGCAAGGGA -ACGTAGCGCGGGAGATGATGTATTCGGAGCCACGATGCACAGTCAGGCGTGGAATATCGGCGGTGCCTTT -TAACACCAAATCCAGCCGGTCTTCATAGGGGAAGCGTGAAGAATCTTCTTTGACTAAAAACAGATGCAAC -CAGTCGCACTGTGCCGCAGCCTGTTGAATCAGATAACGGTGACCATTCGTAAAGGGATTGGCGTTCATCA -CAATGCAGCCAATCTTGTTCCCTGGATGACGAAATTTTTTCAGCGATTCGGCATAGCGTTTCAGTCGCGT -GGCGCTGTTTTCCATCAGCACCATCACGCCGGGTACGCTGGTCAGCGTGGAAAAACCGCACTGGCGGAAC -AGCGCCTCGTATTCGGTTTTGGTATAAATAAACAGATGCGTGCTGTGCCGCTCATAGGCGAGGTTTATCA -ATTCAGTGGCTAATGTCAGCGCCAGTCCTTCACCGCGGACGGATTCACTGATAGCAACGCATTTAATAAT -ATTTCCGGCAATTCCACCGCACGCGATAAGCTTTTCATCGCGGGTTACGGTAATAAATACTTCGACTGTG -GTGTCAACGCTCAAATCATTTTCATGCAGGAATTGGGCGATTTCCGCCATTTTTTTATTTTCTGAACGTT -TTACGCGGGTGAAAATATCATTGCCGAACATAATAAATAGTATCCTGAAGGTGCATGTTGTTATCGATTT -GCAACGAATGTTGTTCAATGTTGCAAACTGATAACCTTTTATTTTCACTTGGGAGAAAGGGGGTGATCGA -GGTATATCTTTTTCTCCTTTCGCTATACATCCTAAGGAGTATTTCGGCGTGAAATTTTGATTTATTTCAC -ATAGAGTTAGTGGTTTTTTATTTATTTAATGATTTTAAGTTTTTTAATTAATGTAATTACGAAATGACTC -GCAGGTTTAAGTGATTTAATTGATTTAATGAATAAAATTTGCCACGATCATAATTAATATCTATGTATTT -TGATTCAACATTTTAATTACATCCGTCAAAGAGGCTCGGGACAACCCGCAAGGAAAACAATGTTGCAGCT -TAACGAGAATAAACAGTTTGCATTTTTCCAAAGACTGGCATTTCCGCTGCGTATCTTTTTGCTGATTCTG -GTGTTCTCAATATTTGTCATTGCAGCCCTGGCGCAATATTTTACGGCCAGTTTTGAGGACTATTTAACGC -TTCATGTACGCGACATGGCAATGAATCAGGCGAAAATTATTGCCTCCAATGACAGTGTCATCTCTGCGGT -GAAAACGCGTGACTACAAACGGCTGGCGACCATCGCTAACAAATTACAAAGAGATACCGATTTTGATTAT -GTGGTGATTGGGGACCGGCACTCGATCCGCCTTTACCATCCTAATCCGGAGAAAATTGGTTATCCTATGC -AGTTCACCAAACAGGGCGCGCTGGAGAAAGGGGAGAGCTACTTCATTACCGGGAAAGGGTCAATGGGGAT -GGCGATGCGCGCCAAAACGCCAATCTTTGATGACGATGGAAAAGTCATCGGCGTGGTGTCGATTGGCTAC -CTGGTGAGTAAAATCGATAGCTGGCGGGCTGAGTTTTTATTACCGATGGCAGGTGTGTTTGTCGTGCTGT -TAGGGATTCTGATGTTGCTGTCGTGGTTCCTGGCCGCGCATATCCGTCGGCAGATGATGGGCATGGAGCC -AAAGCAAATCGCACGCGTGGTCCGTCAGCAAGAGGCGCTGTTTAGTTCGGTTTATGAAGGGCTGATTGCG -GTGGATCCGCATGGTTACATTACCGCCATCAATCGTAACGCAAGAAAGATGCTGGGGCTGAGTTCCCCCG -GACGGCAATGGTTGGGTAAACCCATTGTTGAAGTGGTCAGGCCCGCCGATTTCTTTACCGAACAGATTGA -TGAAAAACGTCAGGATGTGGTGGCGAACTTTAACGGTCTGAGCGTTATTGCCAACCGGGAAGCTATTCGT -TCAGGTGATGATTTGCTGGGGGCCATTATCAGCTTTCGTAGTAAAGACGAAATTTCCACCCTCAATGCGC -AACTGACGCAAATAAAACAATACGTTGAGAGCCTTCGTACATTGCGACACGAGCATCTCAATTGGATGTC -GACGCTCAATGGTCTGTTGCAGATGAAAGAGTATGATCGCGTGCTGGCGATGGTGCAGGGGGAGTCTCAG -GCCCAGCAACAGCTTATTGACAGCCTGCGCGAGGCGTTTGCCGATCGCCAGGTGGCGGGGCTGCTTTTTG -GTAAAGTGCAGCGCGCCCGGGAACTGGGGCTAAAAATGATCATTGTCCCCGGTAGCCAGCTTTCGCAACT -GCCGCCAGGACTGGATAGCACCGAGTTTGCAGCCATTGTGGGCAATTTACTTGATAACGCCTTCGAAGCC -AGCCTGCGTAGCGATGAAGGAAACAAGATCGTTGAATTATTCCTCAGCGATGAAGGCGATGATGTGGTGA -TTGAAGTCGCCGATCAGGGCTGCGGCGTTCCAGAGTCTCTACGAGACAAAATATTTGAGCAGGGGGTCAG -TACGCGTGCTGACGAGCCCGGTGAACATGGCATTGGGTTGTACTTGATTGCCAGCTACGTAACGCGCTGC -GGTGGTGTTATCACTCTCGAAGATAATGATCCCTGCGGTACCTTATTTTCAATCTATATTCCGAAAGTGA -AACCTAATGACAGCTCCATTAACCCTATTGATCGTTGAGGACGAAACGCCGCTGGCAGAGATGCATGCGG -AATATATTCGTCACATTCCCGGATTCAGTCAGATATTACTGGCGGGAAATCTGGCGCAGGCCCGAATGAT -GATCGAGCGTTTTAAGCCGGGGCTAATCTTGCTCGATAACTATCTTCCTGACGGTAGAGGGATTAATTTA -CTGCATGAACTGGTGCAGGCGCATTATCCCGGCGACGTGGTGTTTACCACTGCAGCCAGCGATATGGAAA -CGGTGTCTGAAGCCGTACGTTGTGGTGTATTTGATTATCTCATTAAGCCCATTGCCTATGAACGGCTGGG -GCAAACGCTAACCCGTTTCCGCCAGCGTAAACATATGCTGGAAAGTATTGATAGCGCCAGCCAGAAGCAA -ATTGATGAGATGTTTAATGCTTATGCTCGCGGTGAACCTAAGGACGAGCTACCGACCGGCATTGACCCCT -TGACGCTAAACGCGGTGCGAAAACTGTTTAAAGAGCCTGGTGTGCAACATACGGCAGAAACGGTGGCGCA -GGCACTGACCATCAGCCGCACCACTGCCAGGCGTTATCTTGAATATTGCGCCAGCCGCCATCTGATTATT -GCTGAAATTGTTCACGGCAAAGTTGGCAGACCACAACGCATATACCACAGTGGGTGACATGATAAAGCCG -GAGGAAACTTGCCTCCGGCATTACTATTTACTTGCCTGTGACCGCTGCTGCCGTTCCTGGCACCATCAGC -TCTGTAGCAACGATAACAATCACCAAACCAACAAGCACCGGTACCGAGGTGCGTTTTACGACTTCAAACG -GCGAGATCTTCGCCATCCCGGCAACCGCAACGACTACGCCAGAAACGGGCGAAAGGGTACGGCCAAGGTT -TGACGCCTGCAGCATCGGGATAGTCAAATACGCCGGGTTAATGCCGGAAGAGTGCGCCAGTTTCGGGATC -ATCTCAACAAACGCATAAAACGGCGCATTGCCTGAACCGGTCGTGACTGCCGCCAGCATTGTCAGAATCA -CCAATACCAGCATCAGGATGATACTCGCCGAACCAAACGAGGTAGCGATAGAAATCAGACTTTGAATAAA -GCCGATGGTGCTAAGCCCCTGAGCGAATACCCCAGCGGCAACCAGCAGCATCACCACGTTAGCAAACGCA -TCTGCCATCCCGCGATAAGCCACTTCCAGACCAGAGAAAACTTTCTGGGTATTAAAGCTGCGGAGGAACT -CCAGAATGGAGGCAATCAGCATACAAATCACCAGAATAGTGATGATGTGTAATTGCGGACCCCATTTACC -GTCAAAAATCAGTACACCGATGATCGGCGTGAACGGCAAAATGGCATAAAACGCAGGAGCAGTGGTGGTG -ATTTCACTGACATCTAACATTTCATGAGAGATGTGCTCTTTTTTATCCAGATAACGTTGCCAGAAGAAGT -GGGCGATCGCCATGCCGATAATTGCAGCAATTGAGATAGGCAGCGTCGTTTTGAAGGCGAAGTCAATCAG -CGACATTTCGGAAGCTTGCGCCGCCAGCACCACATCCCCTGAAGTCGGTGCGAGAATAATCGCCGCCGGG -GAGGCACAAATGGCAGCAGCTGCGCCACGACTGATACCAACGTTTACCATCACCGGAAATAGGGTTGCCA -TCAGCAAAACACCCAGACCGGTTGCGGAAGAGACGGCCAGAGACATCAGACAGGCGACAAAATAGGCGGC -AATCATCAGCAGGTAAGGGGAGTTAATATACTGCAATGGTTTTGACGCCAGCTTGACCACCATATCATTC -GCGCCGATATGGGTCATGTAAGCGGCAAATCCACACAGCATCATAATCATCATGCCGAGGTCGCCGCCGC -GGCTCATTAGTAATATTTTAACGTATTCAACGATATCCGTGGCGCTGTAGCCTGTTGAAGCCTGGCTGGA -CGGTAACACTTTGTGCCCCATAATGGCACTGATAATCAGCAATAACAGGCCACCGACAAATAACACACCA -GTGGCGGAATACCCTTTAATGATGTAGCGAGCTACACCCACAATAACCACAACCCCAATAAGGAGCTCAA -TGAATGTCAGCATAATTTTTCCTGTCTCCAGGCCCCAAAGTAAATAATAAAAAATTCCTAAAGCTTAAGG -AAAAAATATGCCCAATAAATTGGCGATGAATGCTGATTAAAATCAAGAAAAACTGCCATTAAGACATTGA -AGTTGCTGTTTTTATACATAGATAACAAAACGCATATTTAGCGGTTGGCAATTATCACATAATAATGTGT -GCAAATTGATGGTGGATTGATGCAAATTTGTTAATTGCAATGGTGTTAGCTGCGGCTGTGCGCTCAAAAA -ATAATCTAATATGAGCATAGGTTGACGATATATATTATATACTTCGTTAAGATGATTGTTGTATCTCGTT -AAAAAATAAAATAATTTTTCCTTGATTGCATTTTGTCATCAAAAAAGACTTGGTTTTTCTTTTTTGACTA -TTCCCATCGCAGAAAACGACGCATCATCTTTAATCGATGCGCGGAAATATTTAACTTGAACAAGCGGAAA -TAAATAGAGCAGCTATTCAGATTATTCTTTATGTTGGGTCTATTAAGGTTATGTTAATTGTAGCTTTGCT -ATGCTAGTAGTAGATTTTTGATAAATGTTTTATGGTCACAAATGAACGTGAGTAAATATGTCGCTATCTT -TTCCTTTGTTTTTATTCAGTTAATCAGCGTTGGTAAAGTTTTTGCTAACGCAGATGAGTGGATGACAACG -TTTAGAGAAAATATTGCACAAACCTGGCAACAGCCTGAACATTATGATTTATATATTCCTGCCATCACCT -GGCATGCACGTTTCGCTTACGACAAAGAAAAAACCGATCGCTATAACGAGCGACCGTGGGGTGGCGGTTT -TGGCCTGTCGCGTTGGGATGAAAAAGGAAACTGGCATGGCCTGTATGCCATGGCATTTAAGGACTCGTGG -AACAAATGGGAACCGATTGCCGGATACGGATGGGAAAGTACCTGGCGACCGCTGGCGGATGAAAATTTTC -ATTTAGGTCTGGGATTCACCGCTGGCGTAACGGCACGCGATAACTGGAATTACATCCCTCTCCCGGTTCT -ACTGCCATTGGCCTCCGTGGGTTATGGCCCAGTGACTTTTCAGATGACCTACATTCCGGGTACCTACAAC -AATGGCAATGTGTACTTTGCCTGGATGCGCTTTCAGTTTTGAGACAAATGAAGTTTTAGTAACTTCTTTA -AAATCAATAGCTAAAATAAGTAACATCAAAAATAACGCGACTTTTATCACTTTTTAGTAAAGTTACACTG -GACAAAGCGTACCACAATTGGTGTACTGGTAACCGACACAGCATTTGTGTCTATTTTTCATGTAAAGGTA -ATTTTGATGTCTAAGATTAAAGGTAACGTTAAGTGGTTTAATGAGTCCAAAGGATTCGGTTTCATTACTC -CGGAAGACGGCAGCAAAGACGTGTTCGTACACTTCTCTGCAATCCAGACTAATGGTTTTAAAACTCTTGC -TGAAGGTCAGCGCGTAGAGTTCGAAATCACTAACGGTGCCAAAGGCCCTTCTGCTGCAAACGTAATCGCT -CTGTAAGATACGTCAGCAAGAATTCAAAACCCGCTTAATCAGCGGGTTTTTTTTGGTCTTTAGTGTGCGG -TTGAGGCCGAAAACAGCCAGAATGCCAGTGCGGTCATGGCAAAAGACCCCAGAAGGTTGACGAAAACGTT -CAGTAATGCCCAGCCAAAGCGGCCCTCTTGTAACAAAAACACCACTTCTGCCGAAAATGTTGAGAAGGTT -GTTAGACCGCCACAAAATCCGGTGGTGATTAATACTTTCCACACTGGATCAATGTTCGTCATCCTGCTGA -ACCATGCGAATCCTATTCCTATGATGAATGCCCCAATCAGGTTTGCTGTCAGCGTCCCCAACGGAATCGC -CTGATGCAGTGGGTTAAATCGCATACTTAACAGCCATCTCGCCACGCTTCCCGTACCACCGCCAATAAAA -ACTGCTAAAAGAAGTTGTAACACTGCAAAATCCTGCTATTTGATTTGTATGAGTGATAAGTGTAACGCCG -AATAATCGTCGTTGGCGAATTTTACGACTCTGACAGGAGGTGGCAATGCTGGTTGCCGCAGGACAGTTTG -CTGTTACATCTGTGTGGGAAAAGAACGCTGAGATTTGTGCCTCGTTGATGGCGCAGGCGGCGGAAAACGA -CGCATCGCTGTTTGCCCTGCCGGAAGCATTGCTGGCGCGCGATGATCATGATGCAGATCTATCGGTTAAA -TCAGCACAGCTGCTGGAAGGCGAATTCCTCGGACTTTACGGCGAGAAAGTAAACGTAACATGATGACGAC -AATTCTGACGATTCATGTTCCTTCAACGCCGGGGCGCGCATGGAATATGCTGGTGGCACTTCAGGCAGGA -AACATCGTCGCCCGTTATGCCAAACTGCATCTCTATGATGCATTTGCCATTCAGGAATCACGCCGTGTTG -ATGCTGGTAATGAAATCGCTCCGTTACTGGAGGTGGAAGGGATGAAGGTCGGTCTGATGACCTGTTATGA -CTTACGCTTTCCAGAGCTGGCGCTGGCACAGGCATTACAGGGAGCTGAAATCCTGGTACTTCCTGCCGCC -TGGGTTCGCGGGCCGCTCAAAGAGCATCACTGGTCAACGTTGCTTGCCGCTCGTGCGCTGGATACCACCT -GTTATATGGTGGCGGCGGGGGAGTGCGGGAACAAAAATATCGGTCAAAGCCGGATTATAGATCCCTTTGG -CGTCACCATTGCGGCAGCGTCAGAAATGCCTGCACTCATTATGGCGGAAGTGACGCCCGAACGTGTGCGT -CAGGTGCGCGCGCAACTGCCCGTCTTAAACAACCGTCGCTTTGCGCCGCCGCAATTATTATGATGTTTTT -TTACTCGGCGCTTGATTCACCTTGTTACAGATTGCTATTGTGTGCGCGCGTCGAATGACCGTTAATATTC -TCTGGTTTTTAAGGCGCGTTCTGTTGCCGGTTATATGTCAAGAAGGTATCTATGGGTGAGATTAGTATTA -CCAAACTGCTGGTAGTTGCGGCGCTGGTCGTTCTGCTGTTTGGGACTAAGAAGTTACGTACGCTGGGCGG -AGACCTTGGAGCGGCCATTAAAGGGTTCAAGAAGGCGATGAATGATGACGATGCTGCGGCGAAAAAAGGC -GCAGACGTTGATCTTCAGGCTGAAAAGCTCTCTCATAAAGAGTGACGTGGCGAGCAGGACGCTCCCTCAA -TATCTTGTTCGATACAAAAAACCCGCTTCAAAAAGCGGGTTTTTTATCAGACAGATGTAAGTAATTATTA -CAGGATTACTTAACTTCCATCCCTTTCGCCTGCAAATCGGCGTGGTAAGAAGAGCGGACAAACGGACCGC -ATGCAGCATGGGTAAAGCCCATCGCCAGCGCTTCGGCTTTCATTTCGTCGAACTCATCCGGGCTAACGTA -ACGTTGAACCGGCAGGTGATGGCGGCTTGGCTGCAAATATTGCCCCAGCGTTAACATCGTCACACCATGA -CGGCGCAGGTCGCGCATTACCTCAATAATTTCTTCATTGGTTTCACCCAGTCCCACCATCAGACCAGACT -TGGTCGGGATTTCCGGATGCGCTTCTTTAAAGCGTTCCAGCAGCTTCAGCGACCAGTTGTAATCTGCACC -AGGCCGTACCTGACGGTAAATACGCGGTACGTTTTCCAGGTTATGGTTGAACACATCTGGTGGCGTTGCA -GTCAGAATATCCAGAGCACGATCCATACGACCGCGGAAATCCGGCACCAGAGTTTCAATTTTGATTTGCG -GGCTTTTTTCCCGAATGGCAGTAATGCAATCCGCAAAGTGCTGGGCACCGCCATCGCGCAGGTCATCACG -GTCAACGGAGGTGATAACCACATAACGCAGCGCCATATCGGCAATGGTCTGCGCCAGTTTCACTGGTTCA -TTGGCATCAGGAGCTACCGGGCGACCGTGGGCAACATCACAGAACGGACAACGGCGGGTACAAATAGCGC -CGAGGATCATAAACGTTGCTGTGCCGTGGTTGAAGCATTCCGCCAGGTTAGGGCAGGAGGCTTCCTCGCA -GACAGAATGCAGGCCATTTTTGCGCATTGCGGCTTTGATGCCCTGGATACGTGTAGAGTCCGCTGGAAGC -TTGATTTTCATCCATTCCGGCTTGCGCAGCAGGGCTTCGCGCTCTGTTGCCACGTTTTTAACCGGGATAA -GGGCCATCTTATCGGCATCGCGGTATTTAACACCGCGTTCCATCACAATGGGTTTACTCATAGCGTGCGT -GTTCCAGTTGCGAATTACGAAGGAAAGCGTTTCAATTCAATAGATTGTTGTAATTATCAACTATTTTTGA -ATTAACGACTGGCAGTATATCATTGAAACGGACCTGAAAGCAGCCAAAGCGGTCGCGAAAATGTAAAATT -GTTGTTGGATTGTGCCATTTTATCGTTCTGCGCTGTGATCTGGCTGTAACAATACTTTTTCAAAATGCAT -TACGGATAACATCTATTACTCCGTGCAGGATGGGATCACGCAGGCTGAATTTGTTGTAGTGGATAGAGAA -ATCTATTTGCTCCTCATTTAAGGACGGAAAAGGCAGTTTTTCCAGCGGCCAGCAGCGGCTAAACAGGTTA -TAAAAACGGCTGGGAATAATCGCTAACATGTCACTGTTGGCAACCAGTGCAGCGATTGTCAAAATGTTGT -AGCTGGTGAAATTGATTTGCCGGTCCGGAAACATTTCTTGAACTCTCTGCCGCAGACCGCTGAAATTTTG -CTCTTCCGGTAACAGAAGTACATGCGCAGCGTTGTCGATAGTCTCTCTGTCATCTTCTAAAGAGAGTAGT -GGATTTCCCTCGCGGCAAATTAACACCATATTGTCGGTGAACAGAACATGATGTTGCACCGTACGATTGG -TGCAAAACATGTTATCGATGATGAGATCGGTTTGAAACTGACTGAGTTGGTTTTCCGCGTCGCTGATGGG -CGGGTTGCGCAGTAAAAGCTGCGGATAGTGAGTTTTAATCGCCCGATAGATGACAGGAAGGACCAGTGCT -CCGACCGAGGGAGTGGTCGCAATAGTTATCGTTCGTTGCTTATCATAGCTTCCTTCGATATCCAGCGCGC -CAAGAATGGACTCAAGGCCCTGACTGATATACTCATGTAGATGCATCGCAAATGCGGTAGGAGTGACACC -CTGGCCTTTGCGAATAAACAATGGGTCAGGGAATATAACGCGCAGTTTCTGAATAGACTGACTGATTGCC -GAGGGGGTCAGATTAAGCACTTTCGCTGCATTAACGATCCCTTTATGTACATATACAGCTTCAAAAATAG -TCAGAAGGTTAAGATCAATATTTCGTAAGGTTGTAAATATTTGTGGTTTACCTTCTGACGACTTTCTGCT -TAAACAGGGTTCAATTTGATTATTACTATCCACGCACTTACTCCAATTTTATTCATGGAAAAATAATATT -TAAAAAATTACAATAATCTTATGTCTAATTGGAACGGAACGCTTTTGCTCACCATAATCAACTATTTCAA -TAGGTTAATCAATGGGGTGAGTTACGGAGCAAGGCGTGGCACCGCATTTCTGCAAGTGATAAAGAAAATA -TACAAACGCGAAGGAGATGTAAAGCATTAGCAGATATTATGAGTAATGACCCAGTGTAAATTGGGCCATT -GATGTATGGAATTAAGCGGTAATATATTCGAAGTCCGGATTGTTTAGTAGCGCTAAAATATTTTCCAGTA -AACGTGGAGCAATATTATTAGTCGTCGCTTCGGGTTTCCATTGTGATATTTTAGCCATTTCCATTCCGGC -ATACCCACAAGGATTAATACGTAAAAATGGTGAAAGATCCATATTGACGTTTAATGCCAGACCGTGGAAT -GAACAACCGCGTCGAATACGTAAACCCAGTGAGCAAATTTTCTTTTCCCCAACATAGACACCTGGCGCGT -CAGCCCGAGGATGCGCTTCTATACCCAGTTCAGCCAGGGTATTCACCACTGTTTGCTCAAGCAAGGTCAC -CAGTTCACGCACACCGAGTTTACGGCGTTTCAGGTTAAGCAACACATACATCACCTGTTGCCCCGGCCCG -TGATAAGTCACCTGCCCACCGCGATCGCTCTGGATCACCGGAATATCACCCGGCATTAAAATGTGCTCCG -CTTTTCCTGCCTGACCTTGGGTGAATACCGGATAGTGCTCGACCAGCCAGATTTCATCAAGGGTACTATC -ATCGCGGGTATCGGTGAATTCATGCATAGCCTGGGAGATTGGCTCGTAAGGCTGAAGACCGAGCTGGCGG -ACAAGAATTTTATCCTGATACAAAACGGCATCTCCGTGGAGAATGAGTAAAAGTGGGGGAAAAGTATATC -ACAGCGAGGAGAGGGGAGTTACCCGACCAGGAGCCGGGTAACGGAGAAGCGAGTTACAGAACCATGCGGA -CAATATCGATTTTGCCCAGTTCTTCATACAGTGTTTCAACCTGCTCGATATGAGTGGCGTTGATAGTGAT -AGATACCGAGTGGTAGTTGCCTTTGCTGCTTGGTTTTACCGTTGGGGTGTAGTCACCTGGCGCATGGCGC -TGTACCACTTCAACCACCTGATCAACCAGCTCAGGTAACGCCTGCCCCATAACTTTGTAAGTAAAAGGAG -TAGGGAATTCAAGCAGTTCGTTAAGTTTGGTTTTCATGTCAGCTCCGGCGTAACGTAATTAAATAGCAAC -TCCCGCCAGAAGGCGGGAGTTTTTTACTGATGCTTAGTATATGGGGACGGAAATTACACTTTCAAGTGTT -TAATTTTTAACCAAACCAGTGATGGAACATTAATTTAATGTAATCAATGATTTTGCCGAAGAAGTTACCT -TCCGGGATTTCTTGCAACACAACCAGCGGGCGTTGCTCGATCGTTTTGCCATCAAGCTGGAAGTTGATAG -TTCCGACGACCTGATTCTTTTGCAGCGGCGCATGCAATTCACTGCTGTTCAGCACATAGCTGGCTTTCAG -ATCTTTCATGCGACCACGCGGAATGGTCAGGTACACGTCTTTATCAACCCCTAACGAAGCGCGATCAGAA -TCACCAAACCAAACCGGTTCAGAGGCGAACTCTTTACCTACTTTCAGTGGGTTAACGGTTTCAAAGAAAC -GGAAGCCCCAGGTTAGCAGTTTTTTACTTTCGGCTTCACGGCCTTTAAAAGTACGTCCGCCCATTACCGC -AGAAATCAAGCGCATCTGGCCTTCAGTCGCAGAAGCAACAAGGTTGTAACCTGCTTTGTCAGTGTGTCCG -GTTTTGATGCCGTCGACATTCAGGCTGTTATCCCATAACAGGCCGTTACGGTTCAGCTGGCGAATACCGT -TAAACGTAAATTCTTTTTCTTTATAGATCGAGTATTCATTCGGTACGTCACGGATCAATGCCTGGCCGAT -CAGCGCCATATCTCGCGCGGAGCTGTACTGACCATCAGCATCCAGACCATGTACCGTCTGGAAGTGGGTA -TTTTTCAGGCCCAGTGCGTTAACGTAGCTGTTCATCAAGCCAACAAAAGCGTCCTGGCTACCAGCGGCAA -AATCGGCCATGGCGACACAAGCATCGTTACCCGATTGCAGGTTAATACCGCGGATCAGCTGAGAAACCGG -AACCTGCATGCCCGGTTTGAGGAACATCAGCGAAGAACCTTTAAACACCGGGTTACCGGTGGCCCATGCG -TCGTTGCCGATAGTGACTAAATCAGTTTCTTTAAATTTACCGGCTTTCATTGCCTGGCCGATAACGTAAC -TGGTCATCATTTTGGTCAGGCTGGCAGGATCGCGGCGGACATCTGCGTTCTGTTCGGCGAGCACTTTGCC -GGAGTTATAGTCAATCAGGATGTAGGACTCCGCATCGATCTGCGGTACACCCGGGATCATAGTTTTGATA -TTCAGGTCATCGGCATGTGCAGCAGAGATAAAGGCTGTGCAAAGAGCCGTGGTGAGCGCCAGGCGCTTCA -TGATACGAGCGGAAAAAATGGTATTCATGGTCTGAACTACGACATCCGTGATGGAATTAAAAAAGTGCCC -TACTATAGCAAATGCACTACCGGCAGGCATCTGACTTTCCGCGTGACTTTGTTAACGTCATTTACAGAAA -TTGACACATCAGATGCCTGCTTTACGCTACTGCGCGGTAGTAATAAATGACTGTAATTGGGCTTCGGTTT -GCAAACGTTGCTGCAAGGTACTGGCTTCGGCTTTGCTGGCGAATGGGCCAAGCTGGATCCGCCAGACCGC -GCCATTTTGAGTTACGCGACCGGGGACGCCGAACTTCTGTCCCAGTTGCTGTTGGTACTGTTGCGCACGA -GCCTGATCGCTTACGGCCCCGACTTGCACCATAAAGTTGCCGCTGGCGCTTTGCGAGACGGCTTGCGGTG -TCACCATTGCAGGCGAGGTTGCAGGCGTTGTCGACGGAGCTGTAACAACGGGCTGTGGCGCAGGCGTCGG -TTCGCTGCCTTCCAGTACACCAGGCGCTAAGGTCGTTGGTGCGCCGAGGAAACCGCTACTGGTTACCGGC -GCGCCGGTCGGATCTTCGCTTTTTAGCGTCGAATTACTGACCGGAAGAATGTCACCCTGCGGGCCAGACA -CTGAACTTGTTCCCGCGCCACCGCTTAAATCGGGAGGTGCAGGCAGGGCGTAAGTCTGTTTGGCGACTGT -GGTACAAGCCATACCAGGACCAGAAAGCGAACCATCCTGGGCAACAATAATCGGATCGATACGAACTTTG -GTGTTGTTTGACGTGTTAAGACGGTCAGCTGCCGCGCGAGAAAGTGAAATAACGCGGTCGTTGCCGTAAG -GGCCGCGATCATTAATGCGCACCACGATCATTCGCCCGTTAGCCAGGTTAGTGATTCTGGCGTAGCTGGG -GATCGGAAGCGTTGGATGGGCTGCCGTCAGCTGTGTCGGATCGAATGCTTCGCCAGAGGCCGTCAGGTTA -CTGCCGGGTTCGGCATCATAGATTGCCGCCAGTCCCGCCTGGCTAAATCGAGACGGATCCTGCACGATTT -TGTAGCTTTTACCGTCGCGCTGGTAATCCTGATTTGCCGTCGCGTTCAGTGGTTCGAAACGCGGGTCCGC -CCCGCTAATTTCAACTATAGGGCCGTTACATACCGCAGGCTGCGGTACACTTACCGTCTGTTGCTGACCA -TCATCGCTTGTACATGCCGCGAGCATTCCTGCCGCGATGCAGATCCCGAGCCACTGCTTACGCATTGCGC -ACCTCTTACACGCTTTTCGACAACATTTTCCTGTGGGTGTGGATTGACATTACAATCCCGAACCCAGCCA -TCAGCACAATTAGCGCCGATCCTCCATAACTGACCAGTGGGAGCGGAACCCCTACAACCGGCAGAATACC -GCTTACCATACCAATATTTACGAAGACATAAACGAATAATATCAGCATTAAGCCGCCAGCCATGACGCGA -CCAAAGGTGGTTTGCGCTCTGGCGGCTATCCACAGCCCGCGCATGATCAGCAGAATGTAGAGAGCGAGCA -GAATCAGAATGCCCACTAATCCCAGCTCTTCCGCCAGTACCGCGAAGATAAAGTCAGTATGGCGTTCGGG -GAGAAATTCAAGCTGTGACTGAGTGCCGTGCAGCCAGCCTTTGCCGCGTAATCCGCCGGAGCCAATAGCA -ATTTTAGACTGAATAATGTGATAGCCCGCGCCGAGTGGGTCTGATTCCGGGTCCAGGAGCATCATTACGC -GCTGGCGCTGGTAATCATGCATCAGGAAGAACCACAGAATCGGAATGAACGCCGCTACCAGCACTACTGC -GACGCCAATCAGACGCCAGCTAAGGCCAGAGAGGAACAGTACAAACAGACCGGAAAGCGCAACGAGGATT -GATGTTCCCAGGTCAGGCTGTGCAGCCACCAGCAGCGTGGGCATAAATATCAGCACCAGCGCGATGCCAG -TGTTCTTCAACGATGGCGGGCAAACGTCGCGGTTGATAAAGCGCGCAACCATCAGTGGTACGGCTATTTT -GGCAATTTCCGACGGCTGAAAACGAACAATACCGAGGTCCAGCCAGCGTTGAGCACCTTTAGAGATGGCA -CCGAAAGCATCTACCGCCACCAGCAAAATAATACAGATGATATAGAGATAGGGGGCCCAGCCTTCATAAA -CGCGTGGAGGAATTTGCGCCATCACCACCATGATGACCAGACCCATCGCGATTTGGCCGATTTTACGCTC -CATCATGCCAATATCCTGACCGCTGGCGCTCCAGATAACCAGGGCGCTGTAAACCAGCAATGCCAGTAAG -ATCAGCAGCATTGTGGGATCGAGATGGACTTTATCCCAGAATGTTTTTTTATTCGGATTATCCGTCATGA -TTAATGGTCCTCCGCTGCGGCAACCGCTGGATTTTCCGCAGGCAGATCGGTGTTGTTATCACCCAGCATA -ATGTGGTCGAGGATCTGGCGCATCAGTGTACCAACCGCCGGACCCGCACCACCGTTCTCCAGAATCATGG -CGACAGCCACTTGCGGATTGTTGTATGGCGCAAAGGCGGTCATCAGTTTGTGGTCACGTAAACGCTCGGC -AATTTTGTGCGCATTATAGGTTTCGTTCGCTTTCAGACCGAAGACCTGAGCGGTACCGGATTTCGCCGCA -ATTTTGTACGGTGCGCTAGCAAAGTATTTATGCGCCGTACCGTTAGGGCGGTTAGCAACACCGTACATAC -CGTCTTTCGCCAGCTCCCAGTAACCGGAATGAATATCGCCGACGGGCGGTTCATGCGGCTGTACCCATGG -CACCTGTTTGCCGTCTTCGGCGGTGCTCATCAGCAAATGAGGAACCTTCACGATACCGTCATTAATCAGG -ATCATCAGTGCCTTACTCATCTGGATTGGGGTCGCTGTCCAGTAACCCTGACCGATACCAACCGGAATGG -TGTCACCCTGATACCACGGTTTTTTAAAGCGTTTCTGTTTCCATTCGCGGGTAGGCATGTTGCCGGAACG -TTCTTCCGCCAGGTCGATACCGGTGTAATGACCATAACCGAATTTACCCATCCATTCGGAGAGGCGATCG -ATCCCCATATCGTAGGCCACCTGATAGAAGAAGGTATCCGCAGATTCTTCCAGCGATCTTGTGACATTCA -GACGCCCGTGGCCCCATTTTTTCCAGTCACGATAACGTTTTTCCGAACCTGGCAGTTGCCACCAGCCTGG -GTCAAACAGCGTCGTATTGCGCGTGATCACCCCGGCGCTCAATGCCGAAACCGCCACATAGGGTTTAACT -GTAGACGCGGGAGGATAAACCCCCTGTGTGGCGCGGTTCACCAGCGGTGTATTCGGATCGTTCAACAAGG -CGGAATAATCTTTGCTGGAGATACCGTCAACAAACAAGTTTGGGTCATAACTAGGCGTGGAAACCAGCGC -CAGCACCCCACCTGTACGCGGATCGGTGACTACCACAGCTGCGCGGCTACCCGCCAGCAGCGTTTCAATA -TATTGCTGGAGTTTGAGATCCAGCGTCAGGTAAATATCGTGTCCGGCTTGCGGTGGTACTTCTTTTAACT -GGCGAATAACACGCCCACGGTTGTTAACTTCAACCTCTTCATAACCGGTCTGACCGTGCAGCACATCTTC -ATAGTAACGCTCAATGCCCAGCTTACCGATATCATGCGTTGCCGCATAGTTGGCCAGTTTGCCGTCATTA -TTCAGGCGTTCGACGTCTTTATCGTTGATTTTCGACACATAGCCGATGACGTGGGTCAACGCCGAACCGT -AAGGATAGTAACGACGTTTATAGCCTTTAACTTCGACACCCGGAAAACGGTACTGATTGACGGCAAAGCG -AGCTACTTGTACTTCGGTCAGGTTAGTTTTCACCGGAATAGAGGTGAAACGGTGTGAACGTGCGCGCTCT -TTTCGGAATGCAGCAATATCGTCATCGGTCAGATCTACCACGCTGCGCAAAGCGTCCAGCGTTTGCTGCA -CGTTATCGACTTTCTCCGGCATCATTTCTATCTGGTAGATAGTGCGGTTGAGGGCCAGAGGGATACCGTT -ACGATCGTAGATAATGCCGCGGCTGGGCGCGATAGGCACCAGCTTAATGCGGTTTTCATTAGAGCGGGTC -TGGTAGTCGGTAAAGCGAACAATTTGCAGATTATACAGGTTGGCGATAAGCACGCCGGTCAGCAGCAAAA -TCCCCAAAAAGGCGACCAGCGCCCGGCGCACAAACAGCGCGGACTCTGCCGTATAGTCGCGAAAAGAGTT -CTGTAGTTTCATCCGCTGCGTTTTCTACTCAAAGCTCCCTTATCACTCACGGTGATAAGGATGGTTGGTG -GTGATGCTCCACGCCCGGTACAGACTCTCTGCGACCAGCACGCGAACCAGCGGATGGGGGAGGGTAAGCG -CCGACAGCGACCAGCTCTGCTCAGCCGCCGCTTTACAGGCAGGCGACAACCCTTCAGGCCCGCCAATCAG -TAGACTGACGTCGCGACCATCCAGCTTCCAGCGTTCCAGCTCAGCGGCTAACTGCGGCGTATCCCAGGGC -TTGCCTGGAATATCGAGGGTGACAATGCGGTTTTTGCCTGCGGCCGCCAACATCTGCTCACCCTCTTTGT -CGAGTATGCGCTTGATGTCCGCATTCTTGCCGCGTTTTCCGGCCGGAATTTCAATCAGCTCGAAGGGCAT -ATCTTTCGGAAAACGACGCAGGTACTCGGTAAAACCGGTTTGTACCCAGTCCGGCATTTTCGTTCCCACG -GCGACAAGTTGCAGCTTCACGCATTAACTCCAGAGTTTTTCCAGTTCATACAGGCGACGGCTCTCTTCCT -GCATGACATGGACAATCACATCGCCCAAATCCACGACAATCCAGTCGGCGCTGTTTTCACCTTCTACGCC -GAGCGGTAACAGGCCCGCTGCGCGAGACTCCTGCACAACGTGGTCAGCAATGGACATAACATGACGGCTG -GACGTACCCGTACAGATGATCATGCAGTCGGTGATGCTGGATTTGCCCTGAACGTCTAAGGCGATGATGT -CCTGACCTTTGAGGTCATCAATTTTGTCGATAACAAAATCCTGGAGTGCTTTACCCTGCAAGTTTTCCCC -CTGGGTGAATCAAATAGATAAAAATGGTCTGTCAGTATACCTGAACCAGAGGCGATTTCGGGACAATTGT -CGCCGAATCGGCTTTCGAAAGTGGGCTATCATCCCACCCCGCGCCGCAGATTGCATCGCCATTTTTGTAA -AACAATTTCTACAAAGTCGTGTCTGGCGGAAAAAGTCTGGCTGCGGAGAATATCAGCCTGCCCGGGTCTG -TCAATGGTCGTTGCGGCTTACCCGTAAAAAAACAGAAAAGTCATGCATTCTCGACCCCGATGGCACGGCT -ATTGAGGACGCGTAGCGTCGCGAATTTTTGGTTGATATCAATGGCGCTCCAACACCCCTGGTCAACGCGA -AAATGCCACATAGCTTCGGCAGGCATGCCAATTAAACGGGCGATTAACAGACTCAGTACACCCTGATGGC -TGACGACTAAAATATTCTGATAGTGCTGAAATTCACTAAGCCTTGCGATAAAGCGTTCCACACGTTGCGA -AAATGCCTGAAATCCTTCACCGTTCGTGGGGATTGCATGCTGCCAGTCATTGCACCACGCGCTATAGTTT -TCGGCATCTTCTTGCATGAGGTCGCGATGATGTCGCATCTCCCAGTCGCCAAAAAACATTTCGTTGAGTT -CAGGTATGATTTGCACGGGGAGCTGGCGGTCACTGAGAACCAGTCGCGCGGTATGCTGTGCCCGTTCCAG -TTCACTGCATAAAACCAGATCAAAGGAAACACCATGTAGCAGCGTATGCAGATTTTGCGCTTGCTCAATA -CCGCGCGCGGTCAGGGGGGTGGGCGCATGACCGCTGTAAAGACCATCGATATTCGCTTGCGTTTCACCAT -GACGAATTAACCACAGTCGCATCATGCCCTCCGTAACGACAGGTATCAGCGATACAAGCCTTGTTGGTTA -ATGTAAGTCAGTACCGGTTCCGGCAATAAATCCTCACATGATTCACCGTTTTGCAAACGTTCGCGGATGA -TGGTCGCCGAGATGTTAAACCACGGCGTTTCAGCCAGATAAATTTTACCGGCAGGCTGAAGGTGAAGATC -TTCCGGGTTATGTGTCAAATGATCTTCCAGCCATTGCTGGTATTGCGGTTGCGCCATTTCAAGTGGGTAA -CCTGGACGCCGACAGACGATCAAATGTGCATTGTCGAGTATCGTTTCGTATTCGTACCAGGTCGGAAAGG -TCAGCAGTGAATCCTGACCAATAATAAACGCCAGCGGCACGTCCGGTCCTTGTTCCTGCCGCCACTCTTT -CAGTGTTTGCGCAGTGTAAGAGGGGGCATTGCGCTTTAGCTCGCGTTCATCAAGAGTAAATAATGGCTTG -TCGGCAATCGCCAGTTCAAGCATGTGTTTACGCTGCACGCTGTTCGCTTCCGGCTGGGGACGATGCGGAG -GAACATTATTAGGGATGATTGTGACCCGCGTCAGACCAATCAAATTCGCCAGCGTTTCCACGGGTTTTAG -ATGACCATAGTGCACCGGATCAAAGGTGCCGCCAAACAGAGCCTGTAAAGATTTCATATCAACCGTCGAT -AAATACGTCCGCCAGGGGTTTATGGCACAACAGAAGAGATAACCCTTCCAGCTCTGCCCACACTGACTGA -CCGTAATCTTGTTTGAGGGTGAGTTCCGTTCGTGTCAGGAGTTGCACGGCCTGACGTAACTGCGTCTGAC -TTAAGCGATTTAACGCCTCGCCCATCATGCCCCGGCGGTTCTGCCATACCCGATGCTTATCAAACAACGC -ACGCAGTGGCGTATGGGCAGACTGGCGTTTCAGGTTAACCAGTAACAACAGTTCACGTTGTAATGTGCGC -AACAAAATAACCGGTTCGCTGCCTTCCAGACGCAGTTGCTGAAGAATATGCAATGCGCGCTTACTTTTTC -CCATCAACAAAGCATCAACCCAATGAAAAGGGGTGAAATGCGCGGCATCATTCACCGCCTGTTCAACGCG -CGGTAATGTCAATTTGCCGTCTGGCCAGAGCAGCGATAAACGCTCCAGTGCCTGAGCCAGCGCCAGCAGG -TTACCTTCATAACAGTAGCAGAGCACCTGATTTGCCGCGTCATCCAGTTCTAAGTTGAGCTGTTTTGCGC -GCGCAGCAACCCAGCGGGGAAGCTGAGCCTGCTCCGGTGTCTGACAGGTCACCTGCACGCTGCGATTCGC -AAGCGCAGTAAACCAGGCGGCATTTTCTTGCGCTTTGCTTAATTTATTACCGCGGACGATCAACAGCAGG -TCGTCATGCAGAAGTCCGGTGAGTGTGAGAAGTTGCTCATTGATCGCCGCATTCGGTCCGTTTTCTGGTA -ACAACAGCAATAGCGTTTGTCGACTGGCAAACAGACTCATAGCCTGGCATAACGAAAAGATCGCATTCCA -GTCAGTGTTGGGATCAATGGAAAAAGTGTGGTGTTCTTCGAATCCTTGTGCCGCAGCTACCTGACGAACA -GCGTCCTGGCTTTCCTGCAATAACAGAGGATCGTTACCAAGTAAAAGATACGCCGCGCGCAGCCCTTCAT -TGAGCTGCGCGCGGAGTTGTTCCGGGTACAACCGAATCATCAGTTACCCAGCGTGGTGGAGACGCGTGCA -GGCGTTGCCGGAGTATCCGTTGTGGTCGACGTCTGTTCTTCGTCGGAACGAATATCCGCAGCACGGATGC -TTGGCAGCTTACGAATCAGCTGTTCGGCAGCACGGTCGTACATCTCTTTTACGATCATGTCTTGTTCGTT -ATCTTTCGCTAACGCCATTTGCGGGTTATCGAAGAACGAACGGAAGACTTTGGCGCTAATCGGGTAGATA -TCACGGCCGGGGATCAACACGGTCGCATTAACCGTCATGATCATCTGATACTCTGCTGTTTGACCGTTAC -GGAATACCGATGCGGTATCTTTCGCGATGCTCACTTTACCCAAACGCAAGGATGGAACGTCCTTACGCGT -GGTTTCTTTATCAAGCAACTCGACACCATTCAGACGTAACTGGTTACGCACCGCACGGCTTAATGGCCCG -TTCGGATCGCCTGAGTCCAGGATCATGACCTTCATAGTGGAAGGAACCTGCGTGGTATCACGCAGATGCC -AGCCACACCCGGCGGTGATTAACACCGCCAGAGATAACAACAATGTTGCCAGATATCGCACGCTTCCTCC -CGCGCTTAGCCAACGACCAGATTGAGGAGTTTACCTGGTACGTAAATCACTTTACGTACAGTAACGCCAT -CAAGATATTTTGCTACCAGATGTTCCTGGCCAGCACGTTCGCGAACCTGTTCTTCCGTTGCGTCCACCGG -AACGGTGATTTTGGCACGGACTTTACCGTTAACCTGCACCACGACCAGCGTGGAGTCTTCCACCATCGCT -TTTTCGTCAGCAACCGGCCACGGCGCGTTGTCGATATCGCCTTCGCCTTTCAGTTCCTGCCACAGCGTGA -AGCAGATGTGCGGGGTGAACGGGTTAAGCATACGGACAACGGCCAGCAGTGCTTCCTGCATCAGAGCGCG -ATCCTGCTCGCCATCGGTTGGTGCTTTCGCCAGTTTGTTCATCAGCTCCATAATCGCCGCAATTGCGGTG -TTGAAGGTCTGACGACGGCCGATATCATCGGTCACTTTAGCGATCGTTTTATGCACATCGCGACGCAGCG -CTTTCTGATTTTCAGTCAGCGCATCAACGTTCAGTGCCGCAACATCACCTTTTGCTGTGTGCTCGTAAAC -CAGTTTCCAGACACGTTTCAGGAAGCGGTTAGCCCCTTCCACACCGGATTCCTGCCATTCGAGAGTCATA -TCAGCCGGAGAAGCAAACATCATAAACAGACGAACGGTGTCCGCGCCGTAACGTTCAACCATCACCTGCG -GGTCGATACCGTTGTTCTTCGACTTGGACATTTTGCTCATGCCGGTATAAACCAGTTCATGGCCTGCCGC -ATCTTTCGCTTTCACGATACGGCCTTTCTCGTCACGTTCAACGATAGCATCAACCGGGGAAACCCAGTTA -CGTTCGCCGTTTTCGCCAACATAGTAGAAGGCATCTGCCAGCACCATACCCTGACACAGCAACTGTTTCG -CTGGTTCGTCAGAGTTCACCATGCCTGCATCACGCATCAGTTTGTGGAAGAAGCGGAAGTAGAGCAGGTG -CATAATGGCGTGTTCAATACCACCAATGTAGATATCCACCGGCAGCCAGTAGTTAGCCGCTTCGGAATCC -AGCATACCTTCTTTGTACTGCGGGCAAGTGTAGCGCGCATAGTACCAGGAGGACTCCATAAAGGTGTCGA -AAGTGTCGGTTTCACGCAGTGCTGGCATACCGTTAACGGTAGTTTTCGCCCACTCCGGATCTGCTTTAAT -CGGGCTGGTAATGCCGTCCATTACCACATCTTCCGGCAGGATCACCGGCAGCTGGTCGTCCGGGGTCGGC -ATTACGGTACCGTCTTCCAGCGTCACCATCGGAATCGGCGCGCCCCAGTAACGCTGACGGGAAACACCCC -AGTCGCGCAGGCGGTAGTTCACTTTACGCTCGCCAACGCCCATCGCAGTCAGTTTATCGGCGATGGCGTT -GAAGGCCGCTTCATGGTCAAGACCGTTGAACTCGCCAGAGTTGAACAGCACGCCTTTTTCAGTCAGGGCT -TGCTGAGAAAGATCTGGCTCAGAGCCGTCAGCTGCCAGGATAACCGGTTTGATGTTCAGGCCGTATTTAG -AGGCAAACTCGTAGTCGCGCTGGTCGTGCCCCGGTACCGCCATAACTGCGCCCGTGCCGTACTCCATCAA -TACGAAGTTTGCTGCCCAAACGGGAATTTCTTCGCCCGTTAATGGGTGAACCGCTTTAAAGCCAGTATCG -ACGCCTTTTTTCTCCATCGTCGCCATTTCAGCTTCGGCAACTTTGGTGTTACGGCATTCGTCAATAAAGG -CCGCCAGTTCAGGATTATTTTCCGCCGCTTTCTGCGCCAGCGGATGACCCGCAGCTACCGCCAGGTAGGT -ACAACCCATAAAGGTGTCCGGGCGGGTAGTGTAAACGGTCAGCGTGTTGTCATAGTCGTTAACGTTGAAG -GTGATCTCCACGCCTTCGGAACGACCGATCCAGTTACGCTGCATGGTTTTAACGGTGTCTGGCCAGTGAT -CCAGTTTATCCAGATCGTTGAGCAGCTCGTCAGCGTAAGCAGTGATTTTGATAAACCACTGCGGGATCTC -TTTACGTTCAACTTTGGTATCGCAGCGCCAGCAGCAGCCGTCGATAACTTGTTCGTTCGCCAGTACGGTC -TGGTCGTTCGGGCACCAGTTGACCGCAGAAGTCTTCTTATATACCAGGCCTTTTTTATACAGCTCGGTGA -AGAATTTCTGTTCCCAACGGTAGTATTCCGGCGTACAGGTTGCCAGCTCGCGGCTCCAGTCATAACCAAA -GCCCAGCATTTTGAGCTGGTTTTTCATATACGCGATGTTGTCGTACGTCCACGGTGCCGGAGCGGTGTTG -TTTTTCACCGCCGCGCCTTCCGCAGGCAGACCAAACGCGTCCCAGCCGATCGGCTGCAGGACGTTTTTGC -CCAGCATACGCTGGTAGCGGGCGATCACGTCACCGATGGTGTAGTTACGTACGTGGCCCATGTGTAGTCG -ACCAGAAGGATAGGGAAGCATAGACAGGCAGTAATACTTCTCTTTGCTCTCGTCTTCGGTTACTTCAAAT -GTGCGCTTCTCATCCCAATGAAGCTGTACTTTGGATTCTATCTCTTCCGGGCGGTATTGCTCTTGCATGG -CAGCCAGTGGTCCTGTTTTCAATACGGCTACAAATGTAGCGTTGAGGTGGTTTTTCAGATCCGCATAGCA -TAGCCCAAACGTCCGCGTCAAAACAGCCTTTCGCGCACTCGACGTTGAAATGATGCCCGGATTATTCATA -CATTAATTTACAGAGTTTGTGGGCGTATTAGCAAAGCAAGGAACAAAGAACGTCTATTATTATAGTCAGT -TAACGACCCGGGAGATGAAACGATGAACAAGGTTGCTCAATATTACCGTGAACTGGTTGCGTCACTGAGC -GAACGCCTGCGCAATGGCGAACGTGATATCGACGCACTGGTGGAACAGGCGCGCGAGCGCGTAATAAAAA -CAGGGGAGTTAACGCGAACCGAGGTCGATGAGCTGACGCGAGCTGTCAGACGTGACCTGGAAGAGTTCGC -CATGAGCTATGAAGAGAGCCTGAAAGAAGAATCTGACAGCGTCTTTATGCGGGTGATTAAAGAAAGCTTG -TGGCAGGAGCTGGCAGACATCACCGATAAAACGCAGCTTGAATGGCGCGAAGTTTTCCAGGACCTCAATC -ATCATGGGGTTTATCACAGCGGAGAAGTGGTCGGGCTGGGAAATCTGGTCTGCGAGAAATGTCACTTCCA -TCTCCCGATCTACACACCGGAAGTGCTGACGCTATGCCCGAAATGTGGTCATGACCAGTTCCAGAGACGC -CCGTTTGAGCCGTAATAGTCTGATTTCGCACAGCAATAAAGAGAATATGGGCCGAATGAAATTCCCCGGC -CCTTGTTTTTATCTCTACAGTAAATCTTCAGTCTCACGAATTTCCTGACTGACATCTCTGGTTCCGGATG -ACTGAACTTTACGATACAGGTCGAGAGCCTGTCGGAGATCGACAGGTCTTCCTTCTCCGTAGTGATACAT -AATGGCCAGGTTATACCAGGCAGTGGCGTCATTGCATTCAGCGGCTTTCGTAAACCATTCAAAGGCAGCC -TGATAATCTTTCTCAACGCCTTGTCCGTGTTTATACATATAACCGATGTTGACGTAAGCGCCGACGCTCC -CCTGAGCGGCAGCCTTCAGATACCAGTACATCGCTTGCTTATAGTCCTGGTCCACCCCTTCGCCAGCGTT -ATAATCCCATGCAATTTGAAACTGGGCGTGCCGATTACCCTGCTGTGCGCTTTTCAAATACCAGAATGCG -GCGAGTGTCTTGTTTTGAGCAACGCCTTTTCCGTCTTCATAAAGATCGGCCAGATTGTTTTGCGCGTCAC -TATGGCCTTGTAATGCAGCTTGTTTGTACCAGAAAAATGCCAGCGCATAGTCTTTTGCGACTCCGTTGCC -ATTTCTGTACATCCACCCAAGATTATTTTGCGCATAAGACATTCCGCTCTCCGCGGCTATCTGATACCAG -ACAACCGCTTCTTTATAATTGGGGGCTTCTCCACGATCCAGTGTCCAGCCAAGGGCGTTGGAAGCGAAAG -TATGGCCTTGTAGGGCAGCTTTTTTCAGCCAGAAGATGGCTTGCTCATTATCTTTATGACGGCTTTTATC -CTCGGTATACTTTTGCCCTAAGGAATACTGTGCTTCACAATGACCTTGCTCAGCGGCCAGCTTCAGCCAG -TAAAAGGCTTTTTCGTCGTCCGGAGAATCAATTGCGCTATCGCGATTATAATAAAACCCAACAATATATT -GAGCCTCGCAATCGCCTTTTTCAGCACGTTCGATAATCTCATCTATTGATAAATTATCGCAGCAACTTGA -CGTGAAAATCATTATCATTTCCTTATGGTTGCAGATAAAACATATTATATTTTTATGTGTTCCATTTTTG -CGTAAGCCTTATTTTATGCGTATTATGTCGCGTCAGAAAAGTATAAATAAACGAGCCTCGCAATGCGGCT -AATATTCATTTAATGAATATTTAAGGATAAATTATATGGACATGGAGTCGCAAAAAATATTGTTTGCACT -TTCCACTCCGATGGAAATACGCAATGAATGCTGTTTACCTTCGCATTCATCACCCAAAATGTATTTAGGT -ACATGCTTTTTTGACCTTTCTTCCTCATGGGGAATTGATGACCGTGATGACCTGCTGCGCACAATTCACC -GAATGATCGATAACGGTCATGCCGCTCGGTTGGCAGGGTTTTATCACCGCTGGTTTCGTTATTCGCCATG -TGAATGGCGTGACTATCTTGCTGAACTAAATGAGCAAGGTCAGGCTTATGCGCAATTTGTCGCCAGCACC -GCCGAATGCTGTGGCGAAGGGGGAATCAAAGCCTGGGATTATGTCCGGATGGGTTTTTTAAGCCGAATGG -GCGTACTTAATAACTGGTTGAGCGAAGAAGAAAGTCTATGGATCCAGTCGCGCATTCATCTACGGGCTCT -ACGTTATTATAGTAACTGGCGGCAATACTTTGCCGGTTATACCTTTGGTCGGCAATATTGGCAGTCTCCC -GAAGATGATCATCTGCCTTTATTACGCGAATTCTTAGCGCGTAAAGAATACGACGATTCCGGCAATGATA -TGTTTTATCAATTATTTGCCAGTGATGATGCGTATTACCCTACCTTGTCCTGGCAACCATTGGCTTACTA -TTCTGCATGCCCGGAAACGCTTAAGGATATGAGCGACCTATGAAAAATTGCTGGAAGATCCTCGATATAG -AGGAAACGACTGACGTCGATATTATCCGCCGCGCTTATCTGGCGCTGTTACCGTCCTTTCATCCAGAAAC -CGATCCGCAGGGTTTTAAACAACTTCGTCAGGCGTATGAGGAGGCGCTACGGATTGCGCAGTCGCCTGCT -AAATCTGTTTGGCAACCAGAAGAATATGAGGTAGCAGAACATGAAATTCTGCTCGCCTTTCGTGCGTTAC -TTGCCTCTGATAGTGAACGTTTTCTGCCCTCCGCCTGGCAGCGATTCATTCAGCAATTAAATTATTGCTC -GATGGAGGAGATTGATGAATTACGCTGGTCGCTGTGCACAATCGCCATGAACACTGCCCATTTATCCTTC -GAGTGCGTGGTGTTATTAGCAGAAAGATTGCGGTGGTTACAGGAGGAAAATACCGGGGAAATAGACGAAG -AAGAACTGGAATCCTTTTTATATGCCATTGCGAAGGGGAATGTTTTTAACTTCCAGACCATTCTGCATCT -GCCCGTTGCCGTGCAAAATGACACCATCGATTTTTACCAAATGTTCGCTCGGATTTGGTCATCGCATCCA -CAATGGCTGACATTGTATTTAGCGCAACATCGCGCAGTGATTATCCCCGATGATGCAAAACTGCACAGAA -ATTTACTCCGCTGGTATAGCGCAGGTCGCCTGGATATCCCCGAACTTCTGGATTACGCCCAGTCATGGCG -GGAAACTGAACCTGATAATGAAGATGCGCCTTATTATGAATACGCGCAACGCGTCTATTGTGGAGAAGGC -GAAAGCCTGTTGGCAGAACTTTGTGACTACTGGCGCGAGTATCCCTCCACCCAGGCGGATGCTTTAATGT -TGCAATGGTGCCGTCAGCATCGGGTCGATTATTACCCATTACTGGTGATGATGATTGAAGCGCGTGATCT -GGTTAACGATCAGGGAAAACCGCTACTTTATGTCCCCGGCGACAGCGCCCGTACGCGTTTTCATTTATAC -GAAATACTCAGCGATGAAAAACTCTCTGCGCTGGGGCGTTCACTGGTCGAGATGGTTTTGCACAAAGGAC -GTAAGCCGCGGATCTCACTCACGCGTGATACAGAACATACCTTATGGCCATTATATCTAGTTGCCAAACA -ATTAGTGCAGGCCTGCCAACCTACAGAAGAATCATTAATGCCGATTGTGAGCCGCCTTGATGCAGAAAAT -CGTTGTCCACTGGAAGCATTAATTATTCGTCGATTATTAATTCAGGCGGCGAATTTTACCGAGAAGCAAA -CTGTTGAACCGGAGCCGCAACCGCAGCCAATGCCCGTTGACGATGGTGGGCCAGGCTGTCTGGGCATCAT -TAAAATTATTTTCTATATTTTTATCTTTGCTGGTTTGATAGGGAAAATACTCCATCTGTTCGGGTGACAG -TCGACGTTAATGTGCGGGAAGCCCGGCAAGTAATCTTTCCGCATTTTTGTAATGTTGTTTGGCGGTCAGT -TTTAACCATTTTTGAGATTCATAATGGTTAACATTAATACCTGAGCCATTTCTGTAGATCAAACCTAAAG -TATATTGAGCATGAGCATACCCTTGTTCAGCTGCTTCCTTATACCAGAGAATTGCTTTACGGGTGTCGGG -TTTGACCCCCAGACCTTTGAGGTAGATCCACCCCAGTTTACTTTGCGCGCGTGGATTTTCCTGTTCCGCT -GATTGCTCATACCAGTATCTCGCCTGTGTATAATCCAGTGGTTTACCGTCGCTACCATGAAGATAAAATT -CTCCAAGGCGATATTGCGACGTTGAGTGACCATGAATCGCGGAAAGCTCCGTGGCTGCCGTGGTGAATGG -AAGACTGCCCGGTGAGCTTAAATAATCAAAGGCATAATTCACCATGGCTTTATCACGCAACGTCGTTTTC -TTGGGTTGGCTAATACAGGTAATTGCTGCAACTATAAAAATTGCGAATATATACATTAATTTTTTATTCA -TGTGTGAATGCTTCGATTTTCTTTTTATTTTGAAAGCGTCAAGTTTATACTCATCAATAATAAAAAAGTA -GTCAGTTAATGCACTTAAGGGATTATTAACAAATGAATAAGGAAGAACAATATCTTCTTTTTGCGCTTTC -TGCGCCCATGGAAATACTTAATCAGGGTTGCAAACCCGCGCATGACTCGCCAAAAATGTATACTGGGATA -AAAGAATTCGAGCTCTCATCATCCTGGGGAATAAATAATCGTGATGATTTAATTCAGACTATTTATCAGA -TGACTGATGATGGTCATGCCAATGATTTAGCTGGCTTATATCTGACATGGCATCGCTCTTCCCCTGAAGA -GTGGAAAGCATTAATTGCTGGTGGCTCGGAGAGAGGGTTGATTTATACCCAATTCGTTGCCCAAACCGCT -ATGTGCTGTGGGGAAGGGGGAATCAAAGCCTGGGATTATGTTCGAATGGGGTTTCTGTCACGGGTCGGTG -TGCTCAACAAGTGGCTGACGGAAGAAGAGAGTTTATGGCTGCAATCGCGCGTCTATGTACGAGCTCACCA -TTACTATCACAGCTGGATGCACTATTTTTCCGCCTATTCGTTAGGACGTCTCTACTGGCAATCTTCTCAG -TGCGAAGACAACACTTCGCTACGCGAGGCGCTAACCCTGTACAAATACGATAGCGCCGGGAGTCGTATGT -TCGAAGAGCTGGCAGCGGGAAGCGATCGTTTCTATGCCACGCTTCCCTGGCAGCCATTAACTGTCCAGTC -TGAATGCCCGGTAACGCTTAAGGATGTGAGCGACCTATGAAAACATGTTGGCAAATCCTCGAAATTGAAA -GCACGACGCAAATAGACATTATCCGCCAGGCTTATCTTGCTCGCTTACCGTTGTGTCATCCCGAAACCGA -TCCGCAAGGGTTTAAAGCATTACGCCAGGCCTATGAAGAGGCCCTGCGACTGGCGGTAAATCCTGTCGAG -GAAGCAGATGATGAAGAAAAAGATGCTGCCGCTGAACATGAAATACTACGTGCATTCAGGACATTACTGG -ATTCAGAAAGTGATCGTTTTCAGCCTTCCGCCTGGCAGAAATTTATTCAGCAATTAAATACCTGGAACAT -GGAGGATGTCGATCAATTACGCTGGCCGCTGTGTGCAATCGCCATAGAAGCGCGATATCTTTCATTAAAT -TGTGCTTCTTTGCTGGCAGAGCGTTTGAACTGGCATTCATTTAATGACAGCGAAGGAATGGATGAGGAAG -AAAGGGAGGCTTTTCTTGAGGCCATTCAGGCTGGTGATTGTTTCGATTTCCTTAGCCTTCTGGAATATCC -CATTGCGTTGCAGAACCAGACTGTTGAGTATTACTTCGCGCTGGAACGTTGCTGCCGTTACCATCCTGAC -TATGTCACTGCGTTTTTGGCGATGGAAGGTCCGTGGTTAATTCCTGATGATGCAAAGTTACATCGCAAAC -TGTTGCGCTGGTACAGCTCGGTGCAAACAGGTATGGCGGAACTCATTCCTGTCGCTCAACAGTGGCAAAC -GGAAGAACCAGAAAGCGAAGATGCCCGGTATTACTTGTGTGCACAACGTTTGTACTGCGGCGAGGGGGAA -AGCCTGCTTGCCGATCTCTGCGCGTACTGGGAAAGTTACCCATCTACACAAGCTGATAATTTGTTGTTGC -AGTGGAGCAAGCGTCATTGCCCGGATTATTTCGCGTTATTAGTGATGGTTATCGAAGCGCGGAGCATGGT -AGATGCGCAAGGTCAACCGCTGAAATATGTTCCTGGTGAGAGCGCCCGGACGCGGCTGTTATGGGCGGAG -ATTTTACATAGCGGAAAATTATCGCCGTTAGGTCAATCGTTTATTGAGTCGTTATTCTTCAAGCGCAAAG -CATGGGCGTGGTGGAAATCGAGAGTCGGTAGCGAGACAGAGCAAGATTCACCGTTCCTGGATTTGTATCG -GGTAGCGGAACAGGTAGTACTTGAAGCGTTTCCGAAACAAGAGATGCTGGCCCGTCTTAATACAAGGCTG -GAAGGCGGAGATGCTCATCCATTAGAGGCCATTGTCACCCGGATGCTTTTGACGAAAGTGAAACTCGAGC -CGGAGGATGAAGATGTCGATGAGCCAACACCTGAAAATCATGAAGAAAAAAATGATGAGGGTGAAAAACC -ACAGAGCATTACCAGCATTATCAAAATCAGTTTAACGGTGCTGGTGATAGGTTATGCTCTCGGCAAAATC -GCGATGTTGTTTAGCTGACGATGTGTTTTTTGCGCCGATGCCGGATGCAGCGTTTACGCCGCATCCGGCA -GCCGTGTTTATGGGATCTCAATGGCTAAATAATCGCTCGCCCGCCGCCGAACTTCATCCACGCGGGCCAT -ATCGTTTGACTGCAACGCCGCATCAAAATCGGTGATCACCCGGCCGATCTCTTCTCGCTCGTCACCCAGC -GCCCGCGCCCACAACTCTTCCAGTTTGGCTTTAAAGGTGCGATTGATGAGCATATCGCGCGGATAAATTT -TCAATGCGGATAACCGCGTCCGACTCTCTTCAATCTGCTGCGCGCTCAATGTTACCGGGCTGTGGTTAAT -CACTCTGGACTTAACGCTGCCGTCTTCCAGAAGCACGTCAACTTCAAGCAACCCGTTGATATCATAACTA -AAGCGAATATCAATCGACTGATAAGCCCCGGTTTTCTTCAACGGCACATCGAAGGATTCCACCAGAATGT -TGTTTTTAACTTTGTGGTTTTCTCCCTGATAGACGTTAACCGTAATTGAATCCTGTTCCGGGTGCATGGT -TGAATAAGTTTCTACACGCGACACGGGCACAGTGGTGTTTCGTTCAATAATCGGCGAGAAAATGCCGGAA -ACGCCCTGGCGGTTAACTTCAACGCCCAACGAGTAAGGGCAAATATCAGTGAGGATTACCTCTTCAATAT -CTTCACTGCGTAAGCGGCAGGCGGCCTGGATTGCTGCGCCCAGCGCGACAATGGTGCTCGGATCGTAACT -TTGATACGGTAATTTGCCAAACAGACGCACGGCGATTCGCTGCACCAGCGGCATTTGTGACGCGCCGCCA -ACCAGCACCAGACTGTCGATTTGACTCGGCTTCAGACGCGCATCGCGCAACGCCTGTTCAATCGGCACTC -GCAAGCGATTGAGCAGCGGCAACCACAAATCTTCCAGTTCGTTCTCGTAAAATTCGCATTCCCGCGTTTC -TTCCTGATACTGCCAGCGAATGTGCAATGGCGATTGATTGCTACATTTTGCCGCTTCCACACAGGCGTAC -AAGGCTGCCAGTTCACTCTCGTTAAGCGTGGTCCTGGCGACATCCGCGCGTTTTAAAACCTCATCGACCA -GCATATGGGTAAAATCTTCGCCACCAAGAAAGTTGTCGCCAGCGGAGGCGTGAACTTCAATCACCGGCGT -GGCGTACTCAAGCACCGTAACGTCAAACGTGCCGCCACCGAGATCAAACACCAGCGAACGGGTATTTTGT -TGGGTATGCAGGCCATACGCCATCGCAGCTGCTGTGGGTTCATTAATTAAGCGTACCGCATTTAACCCGG -CTAACTCCGCTGCTAAACGGGTATGCTTGCGTTGTTCATCGCTGAAATAAGCCGGAACGGAGATCACCAC -ATCTTTAATCGGACGTTGCAGAAATTCTTCGGCATCTTCTTTTAATGAGCGTAATACCAAAGAGGACAGT -TCTGGCGCGTTAAATGTGTCGCTGCCTAACCGCCAGTTGGTATTACTGCCCATTGCACGTTTAAATAACG -CTGCCGTTTTATCCGGATGCGAAGTACGCCGTGATACAGCCGGTTTTCCGACTAAAATATGATTATTTTC -ATCCATGCTAATTATGGATGGTGTTAAATATTCACCGAACTTATTTGGAATTAATTGCGCGGCACCGTCT -TTCCAGACGGCAATTAAACTATTGGTAGTACCGAGATCGATACCAATGGCGAGTTCTGCATTATCCATTG -CATTTATATCTTGAAAGAAAAAGAGATAAACAGATTAAGACCACCCAGGTAACGCGTGGTGATCTTAATC -AATGACGTGTGTTAAGCGTAAAATTTCAGACGATCAGCCAGTAAATCAACAAAGCCCTGACGATCAACAT -CGACCATTACGGTGGCATTCGGTTTATTGCCTGTCAGATAATAATAATCAACAACCGTCATACCCTGGGT -ATATTTCCCCTGTGTTTCCACGCCAACCCAGCGCTCAACAGAGGTAAATAACTCCGGTTTCAACAGCCAG -GCGATGGTGCATGGGTCATGCAGTGGTGCGCCGACAAAGCCCCATTTTTCGTCTTTATGATATTCGAGGA -AGAAATCCAGCAGTTCGGCAACAATGGTTGAAACAGGGTTACCAATCGCGCGGAAACGCTCGGTGTCTTC -AACGTGGATTTGTGCTTTATGAGTAACATCCAGACCGGCCATCACCACCGGGATCCCTGACTGGAAGACA -ATTTCTGCCGCTTCCGGGTCAACGTAAATATTAAATTCAGCCGCAGGCGTCCAGTTACCCAGCCCCATAG -CGCCACCCATAATCACGATACGGGCAATTTTGCTATGCAGTTCCGGATGGCTATTGAGCAGCAAGGCAAC -GTTAGTTTGCGGTCCGGTAGACACAATGGTGACAGGTTCCGCACTTTCACGCAGCGTTTTCGCCATCAGC -TCTACCGCCGTACAGTTTTGCGGTGCGAATGTCGGTTCCGGTAATGCCGGGCCGTCGAGACCGCTTTCGC -CGTGCACATTGTCCGCGATAATCAACTCACGCATTAACGGTTTTACCGCGCCGCCTGCTACCGGAATATC -GGTGCGATTAAGCAAGGTCAGCATACGCAGAACATTGCGTAAGGTTTTTTCTGGTGTCTGGTTTCCGGCG -GAAGACGTAATTGCTTTGACATCAAGCTCTGGTGAGGCGAGGGCGAGAACTATTGCGATAGCGTCGTCAT -GACCTGGGTCGCAATCTAACAGAATTGGCAGTGCCATTGTTGCTCCTTGTTGTGTGCTTCTTTGCGACAA -GGGTAACGCCAGGATGTAACAGATACGAGGGGCGAAACGATAAAGCGTGAGATGGCGCGCAATTGGGTAT -GCGCGCCAGAGTGATTAATGCAGGATTTTCGCGAGGAAGTCTTTTGCGCGGTCCGATTTCGGATCATCGA -AGAAAGCGTCTTTCGGCGAGTCTTCGACAATTTTACCCTCGTCCATAAAGATCACCCGATTCGCCACTTT -ACGGGCAAAGCCCATTTCGTGGGTCACCACCATCATGGTCATTCCTTCGTTCGCCAGTTCCACCATCACG -TCCAGTACTTCGTTGATCATCTCCGGATCCAGCGCCGATGTCGGTTCGTCAAACAGCATCGCAATAGGAT -CCATACACAACGCGCGAGCGATTGCCACACGCTGCTGCTGACCGCCGGAAAGCTGCGCCGGAAACTTATT -GGCGTGAGCAGAAAGCCCGACACGCTCCAGCAGTTTCAGGGCTTTTTCACGAGCCGGCGCTTTATCGCGT -TTAAGCACTTTCACCTGCGCCAGGGTCAGGTTTTCGATAATCGACAGATGAGGGAACAGCTCGAAATGCT -GGAATACCATCCCGACGCGGGAACGCAGCTTTGCCAGATCGGTTTTCTTGTCGTTAACCACGATACCATC -GACGGTGATTTCACCTTGCTGCACCGGTTCGAGGCCGTTGACGGTTTTAATCAGCGTTGATTTGCCGGAA -CCAGACGGGCCGCAAACCACCACCACTTCGCCTTTTTTCACTTCGGTTGAGCAGTCGGTCAGCACCTGAA -AGTGACCATACCATTTTGAAACATTTTTCAGGGTAATCATTATGCTGTCCTTCTTTTCAAGTAGCTGACC -AACAACGACGCGCTAAGACTAATAACGAAATAAACAAATCCGGCAAACAGGATCATCTCAACCTGCGTAC -CATCACGCTCACCAATGGTTGAGGCGGTACGGAAGAAATCGGCCAGGGATAACACATACACCAGTGAGGT -ATCCTGGAACAGTACGATGCCCTGAGTGAGCAGCAGCGGCACCATCGCGCGGAACGCCTGCGGCAGAATA -ATCAGTTTCATCGACTGCCAGTGAGTCATTCCCAACGCCAGCGCGGCGCTCGATTGACCACGAGAAATAC -TTTGAATACCAGCACGGATAATCTCTGAATAGTAGGCCGCTTCAAACATCGAAAACGCCACCATCGCCGA -AATTAAACGGATATCATTTTTTGGCGATAATCCCAGCACGTTTTGCAGAAAACCCGGCACGATCAGGTAA -AACCACAGCAAAACCATAACTAAAGGAATCGAGCGGAATACGTTAACGTAGGCTTTGGCAAACCACGCCA -CGGGCGCAAAGCTGGATAAACGCATCACCGCCAGCATCGTGCCCCACAAAATACCAATCACTACCGCCGT -GACGGTGATTTTCAGGGTGATCACCAGCCCGTCGAGCAGATATGGCAGGGAAGGGACAATGGAACTCCAG -TCAAACTCGTACATTATTTGCCCCCCATGTTGCCAGGCAGGCGAACTTTACGTTCAACCAGCGTCATCAC -CAGCATGATAAAAGCGTTAATCAACACATACGCCAGCGTAATGGCGGTAAACGACTCCCAGGCATGGGCT -GAGTAATCGAGCAATTTACCCGCCTGCGCCGCCATATCCACCAGACCGATAGTCGAGGCGATGGCGGAGT -TTTTCACCAGGTTCATCATCTCTGAGGTCATCGGCGGGACGATAACGCGATAAGCATTAGGCAGCAGTAC -GTATCGATAAGCCTGCGGTAGCGTCAGGCCCATCGCCAGCGCGGCATTTTTTTGCCCTCGCGGCAGCGAC -TGAATCGCGGCGCGTACCTGTTCGCAAACACGGGCGGCGGTAAACAGCCCCAGGCAGAGCATGGATGAAA -GGAAAAACTGAATATTGGGATCCAGCTCGGCCTTAAACCACATGCCGATTTTCTCCGGCAGCAGCTCCGG -GATCACCAGATACCAGGTAAAGAATTGCACAATCAACGGCACGTTGCGGAACAGTTCGACATACAACGTA -CCCAGACCAGAGAGAAAACGGTTTGGAACGGTACGTAAAATGCCGAAAAATGAACCGACGAGGAAAGCGA -TAATCCAGGCGCAGATCGACAAAGCGATCGTCACCTGAAAACCACTCCAGATCCAACCAAGATAGGTGGT -GTTGCCGAACGGGGCTTGTTGTAAAAAAATACCCCAGTTCCAGTCTATAGACATAAATCTACTCCAGAAA -AAAGAGGGTAGCAGCGTTAACTGCTACCCTCGAAGATTGTTACCCAGCGTATTGCGGTTTTCAGGCCCGA -TGGGGAACGACCATCAGGCGTATAGTCTGTCCGTGCTACGTAACAATCGAGAGGGCTGGAATTTCCGCCC -CTGGTTCTTGTAATTAGTTCAGTGCCTTGTCATTCGGTTCTTTGAACAGTGCTTTCATTTCGTCTGACAG -TTCGAAATTCATGTTCAGGTTTTTCGGCGGAATTGGATTTTTGAACCACTTATCAAACCATTTTTCCGCT -TCACCGGAGGTCTGCACCTGAGCGATGGTGTCATCCATCAGCTTTTTGAACTGCGGATCATCTTTACGCA -ACATACAACCGTAGGCCTCCTGAGACTGCGGCTTGCCGACGATTTCCCAGTTGTCTGGTTTCTTCGCTTT -CGCACGTTCACCGGCCAGCAGAGCGTCATCCATCATAAAGGCAACGGCACGACCGCTTTCCAGGGTGCGG -AAAGAGTCACCGTGATCTTTGGCGCTGATGATGCGCATATTCATTTTTTGCTCTTCATTCAGTTTGTTGA -GCAAAACTTCAGAGGTAGTGCCGGAAGTGACGACTACGGCTTTGTCTTTCAGGTTGGCAAAATCTTTGAT -ATCGCCACCCTTTTTGGTCAACAGGCGCGTACCGACCACGAAAATAGTGTCAGAGAAAGCCGCCTGTTTT -TGGCGTTCGACGTTGTTGGTGGTAGAACCACATTCAAAATCGAAAGTGCCGTTTTGCAGCAGTGGAATAC -GGTTTTGTGAGGTAATCGGAATCAGTTTTACCTGCAAGTCCGGTTTGTTGAGTTTCTTTTTCACTGCTTC -AACAATGGCGTTGGAGTAATCCTGCGAGTAACCCACCACTTTTTGCTGATTGTCGTAATAAGAGAAAGGC -ACTGAAGATTCACGGTGACCGACGACAATCACACCGTTTTTGGCGATTTTGTCCAGAGTACTGCCCGCTG -CCGGGGCGGCGTCATCTGCCTGTGCCAGTCCTGCGGAAAGCGCCAGGGCGAGGATTGCTGTGGCAGGTTT -ACGTAATTGCATATCCAACTCCTTTATCTTCTGCGTTAAGAACGCATGGATACCCGTTGTGAGTGTTTGT -GTTGTTATCGTCTGCAACTTTATTGTGCAGTGTTGTGCCTGTTAGGGAAGGTGCGAATAAGCGGGGAAAT -TCTTCTCGGCTGACTCAGTCATTTCATTTCTTCATGTTTGAGCCGATTTTTTCTCCCGTAAATGCCTTGA -ATCAGCCTATTTAGACCGTTTCTTCGCCATTTAAGGCGTTATCCCCAGTTTTTAGTGAGATCTCTCCCAC -TGACGTATCATTTGGTCCGCCCGAAACAGGTTGGCCAGCGTGAATAACATCGCCAGTTGGTTATCGTTTT -TCAGCAACCCCTTGTATCTGGCTTTCACGAAGCCGAACTGTCGCTTGATGATGCGAAATGGGTGCTCCAC -CCTGGCCCGGATGCTGGCTTTCATGTATTCGATGTTGATGGCCGTTTTGTTCTTGCGTGGATGCTGTTTC -AAGGTTCTTACCTTGCCGGGGCGCTCGGCGATCAGCCAGTCCACATCCACCTCGGCCAGCTCCTCGCGCT -GTGGCGCCCCTTGGTAGCCGGCATCGGCTGAGACAAATTGCTCCTCTCCATGCAGCAGATTACCCAGCTG -ATTGAGGTCATGCTCGTTGGCCGCGGTGGTGACCAGGCTGTGGGTCAGGCCACTCTTGGCATCGACACCA -ATGTGGGCCTTCATGCCAAAGTGCCACTGATTGCCTTTCTTGGTCTGATGCATCTCCGGATCGCGTTGCT -GCTCTTTGTTCTTGGTCGAGCTGGGTGCCTCAATGATGGTGGCATCGACCAAGGTGCCTTGAGTCATCAT -GACGCCTGCTTCGGCCAGCCAGCGATTGATGGTCTTGAACAATTGGCGGGCCAGTTGATGCTGCTCCAGC -AGGTGGCGGAAATTCATGATGGTGGTGCGGTCCGGCAAGGCGCTATCCAGGGATAACCGGGCAAACAGAC -GCATGGAGGCGATTTCGTACAGAGCATCTTCCATCGCGCCATCGCTCAGGTTGTACCAATGCTGCATGCA -GTGAATGCGTAGCATGGTTTCCAGCGGATAAGGTCGCCGGCCATTACCAGCCTTGGGGTAAAACGGCTCG -ATGACTTCCACCATGTTTTGCCATGGCAGAATCTGCTCCATGCGGGACAAGAAAATCTCTTTTCTGGTCT -GACGGCGCTTACTGCTGAATTCACTGTCGGCGAAGGTAAGTTGATGACTCATGATGAACCCTGTTCTATG -GCTCCAGATGACAAACATGATCTCATATCAGGGACTTGTTCGCACCTTCCTTAGTGAAGTCATTTTTGTC -AAGCAGGTTGATTTTGTAATCAACGAAAGTAGACATATTTTTGTTGAAGTAATAGGTTGCACCTACATCA -ACATATTTGACTAAGTCCTGATCGCCCCATACTCCAAGATCCTTACCTTTAGATTGCAGGTAAGCAACGG -ACGGACGCAGACCGAAATCGAACTGATATTGTGCAACAGCTTCGAAGTTTTGGGCTTTATTAGCAACGAA -GTGATCAGCAAATACAGTCATATTCTGGGTTTCAGAATAGGTAGTGGCCAGGTAAATGTTGTTAGCGTCA -TATTTCAGACCTGCGGCCCAAACTTCTGCATTTTTACCGGAAGCAAATACTTCAGGAAGAACTTTCCCTG -CATTAACTTGAGTGTCGGTACGATCAGATTTCGCATAAGTTGCACCGATACCGAATCCTTCGTATTCATA -GGTAGCAGAGAAACCGAAGCCATCACCGTTACCTTCAGTGTAGTTATCGAAATCGCTACGATCGTTTTTG -CCTTGGTACTGAGCAGCAAAGTTCAGACCATCAACCAGACCAAAGAAGTCGTTGTTACGATAGGTTGCAA -CACCAGTTGCACGTTGAGTCATGAACACGTCGGTTTGAGTCCAAGTGTCACCACCGAATTCTGGCAGGAC -GTCAGTCCACGCACCGATGTCGTATGCTACACCGTAGTTACGGCCGTAATCGATGGAGCCGTAGTCACCG -AATTTCAGGCCAGCGAAGGCAAGACGGGTTTTATCTTTGGAGGAACCTTGAGATTCAGCGCGGTTGCCTT -TGAATTCATATTCCCACTGACCGAAACCAGTCAGTTGATCGTTGATTTGGGTTTCACCTTTGAAGCCAAG -ACGGGCATAAGTAGTATCACCATCATCTGCATCATTAGAGGAGAAGTAGTGCTTAGCATTAACTTTCCCG -TACAGATCCAGCTTGTTACTGTCTTTATTATAAATTTCAGCTGCCTGAGCAGACATCGCCATTAGTACTG -ATGCAGCTACAGCAGAAATTGCCACTGTTAATTTTTTCATCGTGAGCCCTTTTTTTGAACTATTATTAAA -AAATGATGTCACTGCGCGATAAATATTCATCTAATCAATGTGATTATTTCAAGATGTAAGTTTTGGTTTC -TCGTTTGATTTGTGAAGTAGATCTCTATTTTTATCTGAACTTTTTTCTATCGAATCCTATTCATGGCTCT -TGGCTGAATAAAAATAAATCTATTAGCCAATTTATATTAACGGCTGTTATTTATAAGTGCTCTATAATTT -GAAGGTTCAATTTAAACCGGCTAAAAATAACACTGGAAATTATTTTTTGGTTATTTGTTGAGATTTGCTT -ATGTATTTGTAGTGGTGTTTTCAATACTCGGTAGCATTCTCTCAAATATCATTTAGTGGTTTACGTACGT -AAAAAATTGGTTATGCTGTTAAGAGTGGTTACTTCGTCACACAGCTTAAACCCGCCGTCGAGCGGGTTTT -TCCATTTTTTGAGTCTCGATATTAGCTGATAACCCAATACCTGAGTTATTCACTGACTCCGAGTCTGTTA -CGTTTCGTAGTATTCCCTCAATTTACACCCGCTTTGTCTGCGAGGTGGGGTTATGAAATCCATGGATAAG -TTAACAACGGGTGTCGCCTATGGCACCTCAGCAGGTAGTGCCGGGTACTGGTTTTTACAGCTGCTAGATA -AAGTCACTCCCTCACAGTGGGCAGCAATAGGTGTGCTGGGTAGCCTGGTATTTGGCCTGCTGACGTACCT -GACAAACCTTTATTTCAAGATTAAAGAAGATAAGCGCAAGGCTGCGAGAGGTGAATAATGCCTCCATCAT -TACGAAAAGCCGTTGCTGCTGCTATTGGTGGCGGAGCAATTGCTATAGCATCAGTGTTAATCACTGGCCC -AAGTGGTAACGATGGTCTGGAAGGTGTCAGCTACATACCATACAAAGATATTGTTGGTGTATGGACTGTA -TGTCACGGACACACCGGAAAAGACATCATGCTCGGTAAAACGTATACCAAAGCAGAATGCAAAGCACTCT -TGAATAAAGACCTTGCCACTGTCGCCAGACAAATTAACCCGTATATCAAAGTCGATATACCGGAAACAAC -GCGCGGCGCTCTTTACTCATTCGTTTACAACGTGGGTGCTGGCAATTTTAGAACATCGACGCTTCTTCGC -AAAATAAACCAGGGCGATATCAAAGGCGCATGTGATCAGCTGCGTCGCTGGACATACGCTGGCGGTAAGC -AATGGAAAGGCCTGATGACTCGTCGTGAGATTGAGCGTGAAGTCTGTTTGTGGGGGCAACAGTGAGCAGA -GTAACCGCGATTATATCCGCTCTGATTATCTGCATCATCGTCAGCCTGTCATGGGCGGTCAATCATTACC -GTGATAACGCAATCGCCTACAAAGTCCAGCGCGACAAAAATGCCAGAGAACTGAAGCTAGCGAACGCGGC -AATTACTGACATGCAGATGCGTCAGCGTGATGTTGCTGCGCTCGATGCAAAATACACGAAGGAGTTAGCT -GATGCGAAAGCTGAAAATGATGCTCTGCGTGATGATGTTGCCGCTGGTCGTCGTCGGTTGCACATCAAAG -CAGTCTGTCAGTCAGTGCGTGAAGCCACCACGGCCTCCGGCGTGGATAATGCAGCCTCCCCCCGACTGGC -AGACACCGCTGAACGGGATTATTTCACCCTCAGAGAGAGGCTGATCACTATGCAAAAACAACTGGAAGGA -ACCCAGAAGTATATTAATGAGCAGTGCAGATAGAGCTGACCATATCGATGGGCAACTCATGCAATTATTT -TGAGCAATACACACGCGCTTCCAGCGGAGTATAAATGCCTAAAGTAATAAAACCGAGCAATCCATTTACG -AATGTTTGCTGGGTTTCTGTTTTAACAACATTTTCTGCGCCGCCACAAATTTTAGCTGCATCGACAGTTT -TCTTCTGCCCAATTCCAGAAACGAAGAAATGATGGGTGATGGTTTCCTTTGGTGCTACTGCTGTCTGTTT -GTTTTGAACAGTAAATGTCTGTTGAGCACATCCTGTAATAAGCAGGGCCAGCGCAGTAGCGAGTAGCATT -TTTTTCATGGTGTTATTCCCGATGCTTTTTGAAGTTCGCAGAATCGTATGTGTAGAAAATTAAACAAACC -CTAAACAATGAGTTGAAATTTCATATTGTTAATATTTATTAATGTATGCCAGGTGCGATGAATCGTCATT -GTATTCCCGGATTAACTATGTCCACAGCCCTGACGGGGAACTTCTCTGCGGGAGTGTCCGGGAATAATTA -AAAACGATGCACACAGGGTTTAGCGCGTACATGTATTGTATTATGCCAACACCCCGGTGCTGACACGGAA -GAAACCGGACGTTATGATTTAGCGTGGAAAGATTTGTGTAGTGTTCTGAATGCTCTCAGTAAATAGTAAT -GAATTATCAAAGGTATAGTAATATCTTTTATGTTCGTGGATATTTGTAATCCATCGGAAAACTCCTGCTT -TAGCAAGATTTTCCCTGTATTGCTGAAATGTGATTTCTCTTGATTTCAACCTATCATAGGACGTTTCTAT -AAGATGCGTATTTCTTGAGAATTTAACATTTACAACCTTTTTAAGTCCTTTTATTAACACGGTGTTATCG -TTTTCTAACACAATGTGAATATTATCTGTGGCTAGATAGTAAATATAATGTGAGACATTGTGACGTTTTA -GTTCAGAATAAAACAATTCACAGTTTAAATCTTTTCGCACTTGATCGAATATTTCTTTAAAAATGGCAAC -CTGAGCCATTGGTAAAACCTTCCATGTGATACGAGGGCGCGTAGTTTGCATTATCGTTTTTATCGCTTCA -ATCTGGTCTGACCTCTTTGTGTTTTGTTGATGATTTATGTCAAATATTAGGAATGTTTTCAATTAATAGT -ATTGGTTGCGTAACAAAGTGCGGTCCTGCTGGCATTCTGGAGGGAAATACAACCGACAGATGTATGTAAG -GCCAACGTGCTCAAACCTTCATACAGAAAGATTTGAAGTAATATTTTAACCGCTAGATGAAGAGCAAGCG -CATGGAGCGACAAAATGAATAAAGAACAATCTGCTGATGATCCCTCCGTGGATCTGATTCGTGTAAAAAA -TATGCTTAATAGCACCATTTCTATGAGTTACCCTGATGTTGTAATTGCATGTATAGAACATAAGGTGTCT -CTGGAAGCATTCAGGGCAATTGAGGCAGCGTTGGTGAAGCACGATAATAATATGAAGGATTATTCCCTGG -TGGTTGACTGATCACCATAACTGCTAATCATTCAAACTACTTAACCTGTGACAGAGCCAACACGCAGTCT -GTCACTGTCAGGAAAGTGGTAAAACTGCAACTCAATTACTGCAATGCCCTCGTAATTAAGTGAATTTACA -ATATCGTCCTGTTCGGAGGGAAGAACGCGGGATGTTCATTCTTCATCACTTTTAATTGATGTATATGCTC -TCTTTTCTGACGTTAGCCTCCGACGGCAGGCTTCAATGACCCAGGCTGAGAAATTCCCGGACCCTTTTTG -CTCAAGAGCGATGTTAATTTGTTCAATCATTTGGTTAGGAAAGCGGATGTTGCGGGTTGTTGTTCTGCGG -GTTCTGTTCTTAGTTGACATGAGGTTGCCCCGTATTCAGTGTCGCTGATTTGTATTGTCTGAAGTTGTTT -TTACGTTAAGTTGATGCAGATCAATTAATACGATACCTGCGTCATAATTGATTATTTGACGTGGTTTGAT -GGCGTAGATGCACGTTGTGACATGTAGATGATAATTATTATCATTTTGTGGGTCCTTTCCGGCGATCCGA -CAGGTTACGGGGCGGCGACCTCGCGGGTTTTCGCTATTTATGAAAATTTTCCGGTTTAAGGTGTTTCCGT -TCTTCTTCGTCGTAACTTAATGTATTTATTTAAAATACCCCCTGAAAAGAAAGGAAACGACAGGTGCTGA -AAGCGAGCTTTTTGGCCTCTGTCGTTTCCTTTCTCTGTTTTTGTCCGTGGAATGTGCAATGGAAGTCAAC -AAAAAGCAGCTGGCTGACATTTTCGGTGCGAGTATCCGTACCATTCAGAACTGGCAGGAACAGGGAATGC -CCGTTCTGCGAGGCGGTGGCAAGGGTAATGAGGTGCTTTATGACTCTGCCGCCGTCATAAAATGGTATGC -CGAAAGGGATGCTGAAATTGAGAACGAAAAGCTGCGCCGGGAGGTTGAAGAACTGCTGCAGGCCAGCGAG -ACAGATCTCCAGCCAGGGACTATTGAGTACGAACGCCATCGACTTACGCGTGCGCAGGCCGATGCACAGG -AGCTGAAAAATGCCAGAGACTCCGCTGAAGTGGTGGAAACCGCATTCTGTACTTTCGTGCTGTCGCGGAT -CGCAGGTGAAATTGCCAGTATTCTCGACGGGATCCCCCTGTCGGTGCAGCGGCGTTTTCCGGAACTGGAA -AACCGACATGTTGATTTCCTGAAACGGGATATCATCAAAGCCATGAACAAAGCAGCCGCGCTGGATGAAC -TGATACCGGGGTTGCTGAGTGAATATATCGAACAGTCAGGTTAACAGGCTGCGGCATTTTGTCCGCGCCG -GGCTTCGCTCACTGTTCAGGCCGGAGCCACAGACCGCCGTTGAATGGGCGGATGCTAATTACTATCTCCC -GAAAGAATCCGCATACCAGGAAGGGCGCTGGGAAACACTGCCCTTTCAGCGGGCCATCATGAATGCGATG -GGCAGCGACTACATCCGTGAGGTGAATGTGGTGAAGTCTGCCCGTGTCGGTTATTCCAAAATGCTGCTGG -GTGTTTATGCCTACTTTATAGAGCATAAGCAGCGCAACACCCTTATTCCAGCTGGCTTCGTGGCTGTTTT -CAACAGTGATGAGTCATCGTGGCATCTCGTTGAAGATCATCGGGGTAAAACGGTTTATGACGTAGCGTCA -GGGGACGCGTTATTTATTTCTGAACTCGGTCCGTTACCGGAAAATGTTACCTGGTTATCGCCGGAAGGGG -AGTTTCAGAAGTGGAACGGTACAGCCTGGGTGAAAGATGCAGAAGCAGAAAAACTGTTCCGGATTCGGGA -GGCGGAAGAAACAAAAAACAGCCTGATGCAGGTAGCCAGTGAGCATATTGCGCCACTTCAGGATGCTGTA -GATCTGGAAATCGCAACGGAGGAAGAAACCTCATTGCTGGAAGCCTGGAAAAAATATCGGGTGTTGCTGA -ACCGTGTTGATACATCAACTGCACCTGATATTGAGTGGCCTACGAACCCTGTCAGGGAGTAATCATTGGG -ATTATGCCGCAGCACGTCTTAAGCAAGAACATGCTGCGGTTGGATGCTATTTTTTTCCTGAAGCGGAAAA -CATTACTACAGTACCTTGAACCTTGGTTTTAACATTCTCGAAATGCTCTGAGAGTATATGTGTTAAGCCT -TCTTCGGAATCTTTTGTGTTTGAAAAGATGCCTTTCTGATTGTAAATGCGCATCAGTTTTTGACCGAAGC -TATTGTGCACAACTCCATCGCCAAGAATTGTGGCTCCGTATAGAGTTCCATCGTCAGTTAAGGCCTGCGC -CGCATTGCGTATTACACAGCTTTTTGTAGATATATTTCCAGGCAGGCAGTGAAGAAGGTAAGACATGGAA -ATGGAATCAAATTGACCATGTAACGCCGCGGGATAAGGTTCAAAAACATCATGGCTAATTTTATGTTTAA -TTTTTGATTCCCCAGCCCTTGTAGATGCCGCGTTCAGGCTAGCTTCGTTCAAATCCATTAAAGATATCAG -ACTACTCTCAGGTACGTGAGTAAGGTAAAACCCAGTTCCAACACCAATATCCAGATGGTTGTTACCTAAA -TGTTCCAGAAAGTGTGGAAGAAGGTGTTCCTTTGTAGGACATCCCCATGCAAGCCGATTTGATACTCCCA -AAACCCACCAGTCATAAAGCTTTAGGGTAAGTGGTGTGTAAATTCTAGCCCCATCATCTGTGTTTTTTTA -TTAATTTCACCATGTTATAGTTTTATTTGTGAATTAAATCAATTATGGCAATGAATTACAAGGGGTTAAA -TGCTGCCGCAGCATAGCGATATTGAAATAGCCTGGTATGCTTCAATACAGCAGGAGCCGAATGGCTGGAA -GACCGTCACCACACAGTTCTACATCCAGGAATTCAGTGAGTATATTGCGCCACTGCAGGATGCTGTAGAT -CTGGAAATCGCAACGGAGGAAGAAAGATCGTTGCTGGAAGCCTGAAAAAAGTATCGGGTGCTGCTAAACC -GTGTGGACACTTCCGTAGCACCAGATATCGAGTGGCTTATTCAACCATAATAAACAGTATGTATATCATA -GGTTATTAATTGTGAGTTTTTTCGGTGTGTTATTTGTTTGTTTGATGTTATGCTTTTGCGCCCCAAAAGG -TTGTTTAGATGTATTTTATCAATTGATTTTCAATATCGTTTAATAAAGAAAAATTAAGCAAGCTGGATGT -TGGTTTTTTGTTAATTGAATGGTTCTAATAATGTTTTTTTACTGTTGTTGAATGTGACTTGATAAGAAAT -GCAAGTAAAAATGATACTCTTTTTATTTTAAATTCAAACGGTTGACATATATATAGCAAGAGGTTTCAGG -TGCGTTGTAGTGAGTTTATGTTAATAAAAAGCATAGTAAGCGTTGAAAAATGTAACTTTGAAATAAGTTA -GAATAAAAAACAACATACATATAATAATTTAATCTTAAATGAAATTTATTAAAATTTGCAAACTATAATT -TTGTGTATAAAAATATAAATGCACATCATCCTGATTATGATTGTGTATTTAATTGGTTGTTATTTGACTA -CTATCAACTTGTTTTAATTTTATGATAGGTGCAAGATGGATTATGTTTGCTCCGTAGTTTTCATCTGTCA -ATCATTTGATTTAATTATAAACAGGAGAGTTATCTCGTTCAAAAAAAATTCATTGTTTATTGTAAGCGAC -AAAATTAGAAGGGAGTTACCAGTATGCCCCTCTAAACTAAGAATTGTTGATATAGATAAGAAAACATGTT -TATCCTTTTTTATCGACGTGAATAATGAGCTGCCTGGCAAATTTACTCTTGATAAGAATGGCTATATTGC -TGAAGAGGAACCTCCATTATCGCTTGTTTTTTCTCTGTTTGAAGGGATTAAAATAGCAGACTCACACTCC -CTTTGGTTAAAAGAAAGACTATGTATATCCTTACTTGCCATGTTCAAAAAACGCGAAAGTGTAAATTCAT -TTATACTAACAAATATAAATACATTTACCTGTAAAATTACTGGAATAATCAGTTTTAATATTGAGCGGCA -ATGGCATTTAAAAGATATTGCGGAATTGATTTATACGAGTGAAAGTTTAATAAAAAAAAGATTAAGGGAT -GAAGGAACGTCATTTACTGAAATATTGAGAGATACTAGGATGAGGTATGCAAAAAAACTCATAACTTCAA -ACTCTTATTCTATCAATGTCGTAGCCCAGAAATGTGGCTATAACAGTACTTCATATTTCATATGTGCATT -TAAAGATTATTATGGTGTCACGCCATCTCATTATTTTGAGAAAATAATCGGCGTCACAGATGGAATAAAC -AAAACAATTGACTGATAATGTTTATTACAAGTTGTCTACATGTTAATTATAATATTATACAGCGTTTTTT -TTGATGTGATATTCTGGAACCATTAATTTGTAATTGGGTTGCTGTCGCCTATTTTATACATACTATAATT -GATGGTTTTCTATGTGATTTAGTTAATAACCTTCTGGGTTTATTTTAAGGGTTAATTGTTACATTGAAAT -GGCTAGTTATTCCCCGGGGCGATTTTCACCTCGGGGAAATTTTAGTTGGCGTTCTTAAAATGTGTACTTA -AGACCAGCAGTAGTGATGAAGTTATAGTTTTCTATACCTGCTCCATTTTTGCTGTAGTCTGAAGTGTTAT -TATTGTGATCATAAAGTGAAGTATTACCTTTTTTATTCGTAACCCGATTCCATGCGCCTTCAACATAAAC -TTTTGCGTTAGGTGTGACGTAATAACCTGCATTGACTGCAACAGAATAGTAATTTTGGTCTTTGACCTTA -CTGCGATAAGTGATTCTTTTTCCCGGGTCATAGTGTTCATCGTTATCAGATGATTCCACCCAGCCGCTGT -ATTTAAATGTGCCACCGAGTTCAAAATCTTCATAACGATAACTTCCAGTCAAGCCAATGTAGGGCATTTT -AAAACGTTGTTTGTAGCCGATTGCTCTTTCTCCATTCGGGAAGGAGCCGATATCATCTCTGAATCCCTCC -TCAGAACTGTAGATATAGGAACCACCTCTGGCTGTAAAGCTATAACGGCTTTCCTGATATCCGGCCATGA -GTCCCAGGCGGTAATTGGGTTCGTTGAGGAGCCAGCCTTTGATATTCAGATCAAATTCGTTGGCATAATT -GAGTTGTGTATCAGGGTGTCTACTTTCATCCGTCCAGGTTCCGGGGTTACTGGAATCCATCCAGTCCTGA -TCGACCATATTGCCACCTCGGCTGCCGAGAGTTGTCCAGCCAGCAGCCCCGATAGATATCTGGGGCATCA -AATCCCAATTAATTGCACCTTTAATAATTGCAGCGTTATTGAATTTCCAGTCGAGTTGACTGACTTTTCG -GCCTCCTTCTTCGGCTAGATAAACACGCTCTTTTGTTTTTCCGCTCAGAGTTCCAAGACTAATGTCCGCA -TTTATGTTGTCAGGAGTAAACGATAAAGTCTCGGTAGAAGCAAAAGAGCTGATCGCAATAGGGGTTGTCA -GGACTATTCCCAGAAGTTTCGCCCGCATAAAAGTTCTCCATTCAATCGTTTTAATGATTGAATATGTATT -TTTTATATCTAACTTAATGAGTCAATTACATATTGCTCCACTGTTTATATTTTGTTTAGTATTGAATGAT -TATCACAATGCGCTATCTGTTTTTGGTTTAATTATCTGTTATTGTTTCATATTTCGGTTTTACTGTGTGG -TTTTTTTATGCTTTTGTGGTGCTTTTATCTATTTAAGTGCCATGCCTTTAGAGGCATATAAGCGAAAATA -GCATGAGGTTTATCCTCAATTACTATGTTTTTTAGTACAAAAAAGAGGGACAAAACTGAGACACATAAGG -CCTCGCAATGGCTTGCAAGGCTTTACATGTTTTGAGGTAGTGGGACGTGTGAGCGCAGAGATGGCGCGGT -AAGTTGTTGACTTAAAATGTCGTTCTAGGAACTTCTAAGTCGTGGGCCGCAGGTTCGAATCCTGCAGGGC -GCGCCATTTCTTCCTCATTTATGCCCGTCTTATCCGTTTCCGCTTTGCCCTTCACCACATCACTTTTTGT -CGCTGTTTGGCGAGATAATTCAACGGTGTCAGGCCGTAAAACGCCTTAAAAACAGAGATAAAGTACGACG -TGCTGCTATAGCCACATAATTGCGCCACCTGAGTGATATTTTTGTTATCCATCAATAACATCTGTACGGC -GTAACGCATACGACACTCTGTGACAATCTGGCTATAGCTGGTATTTTCGTTTTTTAATTTCTTTTTGAGC -AGGCTGGGGCTTAAACATAGCGAACTGGCGACAATTCGCAGATTCCAGTAATGCTGAATATCGCTTTGAA -TAATGCGGCAGACGCTGTCGCGGACGCTGCTGCGTAAGATATACATCAGTAGGGCAATAAACCGCGATTG -CTCAAGAAAGTTAGACAATACGGTAAAAAGCAATGCGCGCGTCAACTCCGCTTCGCAGGGTCTGCTGGGT -TGCTGCTTGCTGTGGTTGGCGGCTAGCCGGAACACTTCCGGTGTACGGCTATGACAAGCGATAACCGGGG -TTGCCAGCCGCGACCAGGGCTTTACACAGGTTAAGTTCTTATTTAAAAACAACAGATAATCGTTGATGAT -GTTACGGTTGATGTGGGTGATTAATACGTGATTTAACGTTGAGAGTTCAATGACGTTATTGTTGCACGCG -AAGGCGGCCAGGTAGTTTTTCGGAAGGGTAAACGTAGCATGGTTATTGACGCTTACCTCTACCTCTTTTT -CGGTCAGGATCACCACGCAAGGTTCACTGCTGCTCAATTGCATTTCGCACTCCTCAGATATCAGAAACTC -CGCTCAAAGGATCTATGCTTCCTGCATGAGTGATCGGCCCGTTCGCCGATAACGATCTTCTTTCTTTAGC -ACGCTTTTTAGCAATTAATCTTGATGGAATTCTGATGAGAGCGAAAGAGGTAAGCCAGGTCGTACCCGAC -TTACCTGGAGGAGATTTAATACTCGAGAATGCCGTGCGCGACGGGCAAATAGCGCAGAGAGAAATAGAGA -GTGTCTTTACCGCAAGAGGAACGTTTCGCTAACAGCGAGGCAATTTCTGCGTCCGGTTTCGGTTTCGCTG -TAAAGGTTTTGCCTTTGCCGGCGACAAAAAGTTCATAAACAACGCCGCTGGCAGGGGCGGGACTTTGGCA -ATCGGCGCTGGCCTGTAAATAACGTTCACGCTGTTCAGCGGTCAGTTTATCCACGCCGCTGCCATCCTGT -ACCCAGACATTAACGCCGGTTGCTTTAACGTGTTCCAGCAGTTGGCGATAGCCATCGGGCGACATGTTTC -CGGCGAAAAAACTACTGATATAAACCGGTTTTGCTGAAACATCGCTAATCAGCCGCTGCGCGTTGTTTAA -CCATGTTAGCAAAGGCTGACGGGCGGCTTCGCTGCGCCAGTTCAGGTCGTCAATTTCCGCGCTGATGTAC -CAGCCATCCGGCGTTATGCCAGGCGCGGCGCTCCATAATCTGGCTTGCTGGAGATCGGCAGCCAGCAGGC -GATTAAGATAGCTTTCCAGCGCTGCGGACGACTGTTTCTGGTGCATAAAAAATTCCGGATCGGCGTTCAG -CCCGACAATAAGCTTCAGACCAGCCTGTTGCGCAGCTGCGGCCCGCTTAAACAATAACGTGCGCTGTTCT -GGCTGGGTAAATGCATCGCCGTAACGGGTCCATTGCAAAACAAGGGTATCGAAGCCTTGCAAACGTAACT -GACTCATCAGCCCCTGCCACTGGGTATCGGTAACCTGACTATCTCGGTTTTGTGGTTGCCAGATAATACC -TTTCATCGCAAAGGAAAAAGGGCTGACCAAAAGCAGTGTCAGCAATACGAAAATGAACTTACGCATTTAC -CAGTGCACTCCAATGGTGAGAAACGCGTTGTTGCGCTCTCCGTTACGTTGATTAATCGCCTTAAAGGTAT -GTTGATACTCGACGCCGAGACTGACTTTGTGCGGCCAGGCGTCGTAGTGCGTCTCGCCGGTCCAGATATT -CCAGCGGACCCCGACTCCGCCAAGCTGCGCGCCCTGAGTGCCTTTATCACGATAGCCGTTGTCCTGAACG -TGAGCGTAAGGCTCAATAGTCTGTCCGTTAGCTACCTTCTGATGCCAGCTGACGCGATAATCTGCCGTCC -ACGCCTGAATATCCTGGCGGATATATTGCGCCGCATCGAGGTACAGGTTTTGGGCAAACCAGCCTGAACC -GTTCGGGTGCCATTCGTCGCTGTATTTGCCGCCATTAAAGAATGAGGCGCTGGCGCGCAGCATGGTATCG -GATGCGCCATTTTGGCCGTTCAGCGGCAACTGCTGTTCGACGGCGATGAAAAAGATCTGATCGCGCAGCG -GCTTCCAGCGCAGACCGGTGCCGGACATCGGATTTTTCACCGGCATCATCACCCCGTTTTCTCCGGTATC -GGCAAAGACGCGGCTATAAACTGAGAGCAGGTCGCCTTCCAGCAGCATATTGCGTCCGATGCGGTACTCG -GCTTCCAGTTGTCCGTAGCTACGATAGCTTTTCCCTGGCGCTGCGCCGCCGACATTATTGTTAGCGGTAC -TCATTGCGCCGGAACGCAAGCCGATGGAAGAATCGAAACTGAACGTCCAGCGGCGACCGACCTCCTCATG -CAAACGGCGGAAATTGAAGCGTTGTTGATTTTGTTCTGGGGTCAGTGGGGTTATCAGCGCCTGATTATCA -ATGTCATCAATCACCAGCCGGGCGTAGTGCTGCGTCGCAGGCATGTCATCCAGACGCTGGTTCACGTAGG -CCAGTTGTCGGATCAGTGCCGGATCGTCCGGAAGCCCTTTATGCGCCGGTTCGAGCATTTCCCGCGACTG -TGCGATATCACCGCTATCCCACAAGGCGTAACCAAGCGCTGCCTGGGTGTTGCTATTATTCGGTTCCAGT -TCCAGCGCGGCGCGCAAATCACTCACCGCGGCCGGGACATTATGACGTTGGCGATAAATTGTCGCCCGCG -CAACGTAAGCGTTGGCAGAAGGCGCAATATTGATTGAGCGCGTGAGATCGTTCAGTGCGAGTTCCGGCTG -ACCAGGAATGTAACGTTGCGCATGCAGCCACCAGTAGAGGGCATTGCTTCCCAGTCCACGTTTTTCTGCC -TGTTGTAGCCAGCGATCGCGAGCCGCACCATTTCCTGCCGCCTGGGCGGTATTGGCAGCAGCAAGCAGAT -CCTCATTGCTCATGTCGTGAAGACTGATTTTCTGCCAGGCCGCCAGTGCGGTGGCGTAGTCCTCAACCTG -ATACGCCTGATAGGCTACCGCACGATGTTGCCAGGCGCTCGGTTGTCGTTGTTCGGCCTGAAGCCATGCA -TACAACGCCACACCGGGTAGCGTGTCCCGATAACACTTTGCCAGACGGTTCCAGGCGGCGGCATCGTAGG -AAGGCGACATATCGCCCAGCAAGCGAACTATTGCCGGGCAATTATCTGCAATACCCGGCAACTGACTTTG -CCACTGACGTTGCTCCGCCAGCGGTAAGGGTTTCGATAAAATCGCCACCTTCGCCGGCGTTGCCAGGTAA -GGATGACTTTCCAGCAGAGACGCCAGTCGCGCCATTAAAGTCTGGCTGACACGCGCATCGCCCTGGAAAG -GATAGCGTTGCAGCAATAAATCGGCAGCTTCGCGTGACTGCTCGTTCTGCATCAGTTGCCAGGTTAGTTG -ATCCAGGCGGGTAAGATTTGCCGGTTCTTGCTGATACAGCAATCGTGCCAGACGCAGAGCTTCAGCCTTG -TTACGGGTCGCCACGCTGACAGCATAACGCTCCTCAAGCATTTCATTGGCGGGGAGGGTGGCGAGCAGTT -TTTGCGCTGCGTCGTACTGACCTTCTTTTAACAGCACCGGTAGCGTCGCGCCAACAACATACTGGCGGTT -GTCGGCAAACTGTACCGTATAATTCGCCAACGCCTGAACGGGGTTAGCGCTGTATTTAGATAACAGATAG -AGCCAACTTTTCTCTTGTGCGTCCGTGGTAAATAGTGGCTTATTTTCAATGAGATAATGCTGGAGGCGTG -CTTTTTCGCCACGATAAGCCAGCGCGGTCGCGTAAGTAATATATGACTGAGGATCGGTGAAGATCCCCTG -TGATTGCAGTGCCAGGATCCGATCGTCCAGCTGCCCGGCAAGAAGCACGTCAAACCACTGACGGCGTTCT -GCCGCGCTTAATGTGTTCTGCTGGCGTGCTTCATTGTATAGCGTATCTGCCTGGGACCATTGTTTCAGGT -AGATTGCCCGTTGCAGCAGATCGGTTCGCAGCGTTTTTCCTTCCGGCGATGCAGCAAACGTCGCATCGTT -CAGTTGCGCTCTGGCGACAGGTAACTGTGCCAGCCGCAGGGCATTCTGCCCGACTTCACTGCGACAACGC -AGGGTCGGCGCAGCATCGCACGCTTTTTGCTGGGCAAGCAGTTCTTCAACTGTCGTAACGCTTTTCACTT -CAACCGGAATAGCCGCCAGACTGCGCTCAAGTCGGGCATCTCCTGGGTGACGTTTCAGTTGATCCTCAAG -CAACAGCCGCGCCCGGTCATCATGACCAAAATGGCGATAGGCTTCCGCAAGGTATAAAGTCAGCGGAATA -TTATCCGGCACCTGCTGGTGTATATATTCAAATTCGCGGATGGCGGTTGCTTCGTCGTTATTTTTCTGTG -CCTTCAGCGCTTTATCGAGACGGGGATAAATAACAAAATGGCGATAATCGCTCAGCCCCAGCTCTTCTGC -GCTGGTGCCGATATTGTCTGCGAGTGCGCTGGTACTCAATAAAGACGTCAGCAGTAAACCAGACCATCCG -ATGACGCGATTAAGGTTATTCTCCTTCATTTTCGGACTCCAGTTGCGCAACCTGTTCTGTGTTTAAACCT -GCTTTGAGTAATAGTGATTGCATCGAAACTTGTAATTCGCGTTGAATTGTCAGGACGCGATCCAACGTTT -CCTGGCTGATAACGCCTTCGGTGACCAAAAACTTGCCGAGCGGCAGAGAACTGCGTTCATGGCGCAATAA -CAACACGTTAATTGCTGAACGATTAATATGACCGAGCGTGGTCAGTATTTCGGCGAACAGGAACTGATGC -GGCACATATTGCCGCCAGATTTCACCGGCCTGCTGTTCCGTGAGCCACTGATGCTGAACCGCATTGTACA -ACATTGCCCGCGGATCGTGACCGCGTCGGCGTGCATACCAGTGACGTAACCCTGTGACAATTTGTCCCCG -CAGAACAATGACGTAACGCACTTTGCGTCCGACTTTACGCGTCAGGGCCGCCAGCGAAACCGGGTCAATA -CCATCTTCACTGCCGACAATTAACTCGTCATTTTCCAGACGCAGCGGCAGTACCGCATAATGCAGCGCCA -CGGAGGCCGGCATTTCGGCAATCAGCGAGGAAGGGATCTGCCAGGCATCGATGGATTCCCACGCCACGCC -GTTTTGCTCTGCCAGCGCCTGTGCCAGCTGCTCGGCGCTAATCAGCCCCTGCATCAGCATTGAACCGCCC -AGGCGTAGACCTTCGACGCGATTACGCAGTGCTGTATCGAGTTGTTCTTCAGTGATGACCTGATTTTCCA -GCAGAATTTGACCTAACGGGCGCAACGAGCGGGTATCGCCAGTCACGCTGGGGAAGTCATGCGTTGTTTT -ATCCCACGCCACGCGACGTGGATCGCCGTGTTGAAGTACCTGTTTTAGCGCGCGCCAGTTGGCCATGAAG -TTAATCAGGTTGCCCCAGAAAAGACGCAGGACGGAAAGCAGCCCCTGCGTCAGGCCGTAGTAGCCAGTAA -CGAAAATCACCCGCTGCACGATGCGGTTAACCATCAAACCAAAGTTTAGCCACAGCAGGGTCATTAACCA -TGCGCTGCCGCTGAAAATAGAAAGGAAATGCCAGGCATCGGGCCACAAACTTTCATACGCCAGCAACAGC -AAAAGCTGGATCATCACCAGCATCGCGAGGAAGCTGACAAAGTTACTGATTGCCCCTTTGCGGTCGCGCC -AGAGAAAGTAGTTCAGCGTCAGGCTGGAGGTCCATTTATGGGTTTTAAAGCCTTGGAAAACAATGCCGAT -GATCCAGCGGGATTTTTGTCGAACCGCAGTCGAAAAGGTATCGGGGAAATATTCGCGCACGCAGATCATG -TTTGATGTCCGCGCGTGCTGTAAAAATTTACGCTGCTCGCGTTCTTTGGCTTCGTCCACCACCGGAAAAC -GGACAAAAATTTCCGTCATACCTTTTTCTTTCAGGCGGAAGCCAATGTCGTAATCTTCAGTAAGACTCTG -CACGTCGAAAGCAATACCGTCACCGTCAGCTAACAGTGCGGTCACGGCGCGGCGGCTGAAACAGGTGCCG -ACGCCTGCGCTGGGCACTTGTCCGGCGAGGGCTTCACGCACCGGAACATCTTTGCCATGCAGCTCTGAAA -ACTCATCAATGTAAGTCATGCTGGTGAAGTGCGTCCATTCGCGTTCGAACGGATACACCGGGATCTGAAT -CAGATCTTTACGCTCGACCAGATAGTTGAACAGACGCAATTCCATCGGTGAAATCACATCTTCGGCGTCA -TGCAGAATAAAACCAGCAAAAGCGAAATTGGCGCTACGCTCAAATTGGGTGATGGCGTCCAGCACGTTGT -TCAGACAGTCGGCTTTGCTGGTGGGGCCAGGACGCGCGCAGACTACCTTATGCACATTCGGGAAGCGAGC -GCACACTTCGTCAACATCACGCTGAGTATCGGGGTCGTTGGGGTAGGTGCCAACAAAGATATGATAGTTT -TCGTAGTCGAGCGTGGTCGCCGCCAGCTCGGCCATATTGCCGATGACGCCCGTTTCATTCCACGCCGGAA -CCATAATCGCTAACGGTTTTTCATCTGGTTTATACAGTTCGCGGTAACTCATTCGCGGGTAGCGGCGATA -AACACTCAACTTGCGTTTAATGCGGCGTACCCAGTAGACGACATCAATAAAAAAATCGTCCAGCCCGCTG -ATGAACATGATGACCGCTAACGTTATCGCGATTACTTTTAAGCCGTAGAGCCAGGTAGCAAAAACATCAA -GAAGCCAGTCCACACAAAAACCTTACATTAACGCTGGTTATGTTTAGGGTGGCGTATATTAAGGTTTTTT -ATGAATTGTGACAGCTTTTTACCATTAATAGGTATGACTATTGCGGCACGTTATTTTTACACTGGTTATA -AAAGTTGCCGTTTGCTGAAGGATTAAGCGGGTAATGTGATAACAAACCTTGTCCCCCGCGCATCCGACGT -TACCGCAACCGTGCCTTTATGCGCGACAACAATCGATTTCACTATCGCCAGGCCAATACCGCTACCTTCA -CCTTTTCGCTGGCGGGAGGGGTCAACGCGATAGAAACGGTCAAACAATCGCGGTAAGTGCTCGGGCGCAA -TGGGCGTACCGGGGTTTTCGACGATAACTTGCACCAGGTGATCGACCGTCTGACAGCGCACTACAATTGT -CTCTCCGGTTGGCGTATAACGCAGGGCGTTCGAAAGCAGGTTGCTTAGCGCCCGACGCAGCATCAGCGGA -TCGCCCGCGACCTGACACTTGTCGCCAACAAACCGCAACTCCACGCCGCGATCTTCCGCTAACGCCTCGA -AAAAATCGAACACTTTGCCGACTTCATCCGCCAGGTTGAGCATTTTCTTTTCGGGGATTAGCTGGTTGTT -ATCGGCCTGAGCGAGAAACAGCATATCGCTGACCATTTTCGCCATTCGCGTCAGCTCTTCGAGATTAGAG -TAGAGCACATCTTCCAGCTCCTTCTGGCTGCGCGACTGGCTGAGGGCGATTTCGGTTTGCGTTATGAGAT -TCGTAATTGGTGTGCGAATTTCGTGAGCGATATCCGCTGAGAAATTGGACTGGCGGGTAAAGACATCCTC -AATACGCTCGATCATATGGTTGAACGACAGTACCAGCTGTTCCAGCTCAATGGGCACGGTCTGCGGGTCG -AGGCGAACGTCGAGATCTTTCGAGGTAATATTCTGGATTTGACGGCTGACGCTGCGGATCGGCGCGTGAC -CTTTATGTACCGCCAACAGTACGATAAAGACGATCAGGATGCTGATTACCGATGCGGTCATAATAAGTTT -ATTCATCAAATCATTTATGTAATGAAGATGAAAATCGATCGAAAGCGCGATGTAGAGCGTATAAATCGGT -TTGCCGTCCACCAACGGGCCAACCGGCAAGTTAATCATCCGCCAGTTGCTGTGTTCCATATGCCCGTGAC -CGTGGCCTGGCATCATCATCGTCGGGCCGGAAAGGAGATACACCTCGCCACCCTGAGCGTCTTTATCGGG -TATGGCGTCACGCGTAAACTCGCGGATATCCGGCGCACCGGGGGAGTGATACACCGTTTTACCCTGACTA -TCTGCCAGGGAAATCAACACATTGGAATAACCACTGACGATATCTTCCAGCGTCATTAAGCGTCGGGCTT -GCGTTTCGTCAGGGTGATTTAGTACCCGTTCAAGGGTGGCGCTAATCTCTTTTAAATCATTAATATCCTG -CTCGGCAAAATGAACTTTTACTGAGTGGATCATGATCCATGCAAAGGCGAAAAACGCCGCGATGGTGGCC -AGGCTGATAAAAAAGGTCAGGCGGGTTGCCAGCGAAAACGGGCGCTGAAATGGCTTACTGACCATCCGGC -ACCTCAAGCATGTAACCCACGCCGCGCACGGTCTGAATTAGCTTCGGCTCAAAGTCGTTGTCGATTTTGC -CGCGCAGCCGCTTCACCGCCACATCAATAGCATTGGTATCGCTGTCAAAATTCATGTCCCATACCTGCGA -GGCGATAAGCGAGCGGGGCAGCACTTCGCCCTGATGGCGAAGGAAGAACTCCAGCAGAGTAAACTCTTTA -CTGGTCAAAGTGATGCGCGTGCCGCTGCGGGTGACTTTGCGGCTGACGAGATCGACCATCAAATCGGCAA -CCTGAAACTGACTTTCGATAATCACCGCCGCCCCGCGCCGCAGTAATGTGCGCACCCGCGCCAGCAGTTC -AGCAAAAGCGAATGGCTTCACCAGGTAGTCATCTGCCCCCAACTCCAGCCCCTTGACGCGATGTTCAATG -GTGCCAAGCGCGGTAAGCAACAGAATCGGCATCCCTTTATTGGCGGAGCGTAACATGCGCACGATATCCC -AGCCGTTCACGTCCGGCAGCATAATATCGAGGATTATCAGATCATAATCACCGGTCATCGCCAGATGGTA -GCCATTCAGCCCGTTGTCGGCCAAATCGACCACAAAACCGGCTTCGGTTAACCCTTTGGTCAAGTATTCT -CCGGTTTTCTTTTCATCTTCGACAATCAACAGTTTCATATTTCCTCCGCATGTTGCCCGGGCAATTCTAG -AGTAGCGGGATCAGATGGCAATCGCTTATTGGCAAAATGACAATTTTGTCATTTTTCTGTCACCGGAAAA -TCAGAGCCTGGCGAGTAAAGTTGGCGGCATAAAATCACCAGAAATTATGAGCCTATGTCTCCTTGTAAAC -TTCTGCCATTTTGTGTGGCCCTTGCGCTAACCGGTTGTTCACTGGCACCGGATTATCAGCGTCCGGCAAT -GCCCGTGCCGCAGCAGTTCTCACTCAGCCAGAACGGCCTGGTTAACGCAGCAGATAACTATCAGAACGCG -GGCTGGCGCACCTTTTTTGTTGATAATCAGGTGAAGACGCTGATTAGCGAGGCGCTGGTGAATAATCGGG -ATTTGCGCATGGCGACGCTGAAAGTGCAGGAGGCACGGGCGCAATATCGTCTGACCGATGCCGACCGCTA -CCCACAGCTCAATGGCGAGGGCAGCGGCAGCTGGAGCGGTAATCTTAAAGGGAATACCGCCACGACACGG -GAGTTTTCGACCGGCCTTAACGCCAGCTTTGACCTCGATTTTTTCGGTCGCTTAAAGAACATGAGCGAAG -CCGAGCGACAAAATTATTTAGCCACTGAGGAAGCTCAGCGCGCGGTGCATATTCTGCTGGTTTCTAATGT -CGCGCAAAGCTATTTCAATCAGCAACTGGCGTATGCGCAATTGCAAATAGCCGAAGAAACGCTGCGTAAT -TATCAGCAGTCATATGCGTTTGTCGAAAAACAACTGTTGACAGGTAGCAGTAATGTTCTGGCGCTGGAAC -AGGCTCGCGGGGTGATAGAAAGTACCCGCAGCGACATCGCTAAACGTCAGGGGGAACTGGCGCAGGCGAA -TAATGCATTGCAACTGTTGCTGGGAAGCTACGGCAAGCTGCCGCAAGCGCAGACAGTAAACAGCGACAGC -CTGCAAAGCGTTAAATTACCGGCGGGATTGTCGTCGCAAATCTTATTGCAGCGCCCGGATATTATGGAAG -CTGAACACGCGTTAATGGCGGCTAATGCCAATATTGGCGCTGCACGCGCGGCATTTTTTCCGTCTATAAG -CCTGACCAGCGGAATATCGACCGCCAGTAGCGATCTATCGTCATTATTTAACGCCAGCAGCGGGATGTGG -AATTTTATACCCAAAATTGAGATCCCCATTTTTAATGCCGGACGCAACCAGGCCAATCTGGATATCGCCG -AAATTCGCCAGCAGCAGTCGGTGGTGAATTATGAACAGAAAATCCAGAACGCCTTTAAAGAAGTGGCAGA -TGCGCTGGCATTACGTCAAAGCCTGAACGATCAAATTAGCGCCCAGCAGCGTTATCTGGCATCGCTGCAA -ATTACTTTGCAACGGGCGCGGGCATTATATCAGCACGGCGCAGTAAGTTATCTGGAAGTGCTGGATGCCG -AGCGTTCTTTATTTGCAACCCGACAAACTTTACTTGATCTGAATTATGCCCGTCAGGTTAACGAAATTTC -TTTGTATACCGCACTTGGTGGCGGTTGACAGCAATATACTCGTCATACTTCAAGTTGCATGTGCTGCGTC -TGCGTTCGCTCACCCCAGTCACTTACTTATGTAAGCTCCTGGGGATTCACTCGCTTGTCGCCTTCCTGCA -ACTCGAATTATTTAGAGTATGACTTTTAACTCCAGGAGAGAATAAATGAAAAAAGCACTGCAAGTCGCAA -TGTTCAGTCTGTTTACCGTTATTGGCTTTAATGCCCAGGCTAACGAACATCATCATGAAACCATGAGCGA -AGCACAACCACAGGTTATTAGCGCCACTGGCGTGGTAAAGGGTATCGATCTGGAAAGCAAAAAAATCACC -ATCCATCACGATCCGATTGCTGCCGTGAACTGGCCGGAGATGACCATGCGCTTTACCATCACCCCGCAGA -CGAAAATGAGTGAAATTAAAACCGGCGACAAAGTGGCGTTTAATTTTGTCCAGCAGGGCAACCTTTCTTT -ATTACAGGATATTAAAGTCAGCCAGTAACCCAGGTTTAATGAGATGAAAAAAATCGCGCTTATTATCGGC -AGCATGATCGCGGGCGGTATTATTTCTGCGGCAGGTTTTACCTGGGTTGCAAAGGCGGAACCGCCTGCAG -AAAAAACGTCGACCGCAGAACGTAAAATCTTATTCTGGTACGACCCAATGTATCCCAATACGCGGTTCGA -TAAACCAGGTAAATCGCCGTTTATGGATATGGATCTGGTGCCGAAATATGCCGATGAAGAGAGTTCTGCG -TCTGGTGTGCGCATTGACCCGACTCAGACGCAGAATCTGGGGGTGAAAACGGCTACCGTCACGCGCGGAC -CGCTGACTTTTGCCCAGAGTTTCCCGGCGAATGTCAGTTACAACGAGTATCAGTATGCCATTGTGCAGGC -TCGCGCTGCCGGGTTTATCGACAAGGTGTATCCGCTTACCGTGGGCGATAAAGTACAAAAGGGCACACCG -CTTCTCGACCTGACCATTCCTGACTGGGTGGAAGCGCAGAGTGAGTATTTACTGCTGCGCGAAACCGGCG -GTACGGCGACCCAGACTGAAGGCATTCTTGAGCGGCTGCGACTGGCGGGAATGCCGGAGGCGGATATTCG -CCGCCTGATCGCCACGCAAAAAATCCAGACTCGCTTTACGCTCAAAGCGCCCATTGATGGCGTGATCACC -GCGTTTGATCTGCGCGCGGGAATGAATATCGCCAAAGATAACGTGGTAGCGAAAATTCAGGGTATGGACC -CGGTGTGGGTCACTGCTGCGATCCCGGAGTCTATCGCCTGGCTGGTGAAAGATGCCTCGCAGTTTACCCT -CACCGTTCCGGCGCGACCGGATAAAACACTCACCATCCGCAAATGGACGCTGCTACCTGGCGTGGATGCC -GCGACCCGCACGCTGCAGCTGCGTCTGGAAGTCGACAACGCCGACGAGGCGCTAAAACCGGGCATGAACG -CCTGGTTGCAACTCAACACCGCCAGCGAACCGATGCTGCTCATTCCGTCACAAGCGCTGATTGATACCGG -CAGCGAACAGCGGGTGATTACCGTTGATGCCGACGGGCGCTTTGTACCGAAACGCGTTGCTGTTTTCCAG -GCATCGCAAGGCGTCACCGCATTACGCTCTGGTCTGGCGGAAGGTGAAAAGGTGGTTTCCAGCGGCCTGT -TCCTGATTGATTCCGAAGCCAATATTTCTGGCGCACTGGAGCGGATGCGCTCTGAAAGTGCTACCCATGC -GCATTGAGGGAATAACCAATGATTGAATGGATTATTCGTCGCTCGGTGGCGAACCGTTTTTTGGTGCTGA -TGGGCGCGTTGTTTCTGAGCATCTGGGGCACCTGGACCATCATTAATACGCCAGTGGATGCGCTGCCGGA -TCTCTCCGATGTGCAGGTTATTATTAAAACCAGCTATCCCGGTCAGGCACCACAAATCGTTGAAAATCAG -GTGACTTATCCGCTAACCACCACCATGTTGTCGGTGCCTGGCGCGAAGACTGTGCGCGGTTTCTCACAGT -TTGGCGACTCTTATGTGTATGTCATTTTCGAAGATGGCACCGATCCGTACTGGGCGCGTTCGCGGGTGCT -GGAGTACCTCAACCAGGTACAGGGTAAGCTGCCTGCGGGAGTCAGCGCCGAGCTGGGGCCAGATGCCACG -GGTGTTGGCTGGATCTATGAATATGCACTGGTGGATCGCAGCGGTAAGCACGATCTGGCCGATTTACGCT -CATTACAGGACTGGTTTCTCAAATATGAGCTGAAAACCATCCCTGACGTTGCGGAAGTGGCGTCGGTGGG -CGGTGTGGTGAAAGAGTATCAGGTGGTTATCGATCCCCAGCGCCTGGCGCAGTATGGCATCAGTCTCGCC -GAAGTAAAAAGCGCGCTGGATGCTTCAAACCAGGAAGCGGGCGGTTCGTCGATCGAACTGGCGGAAGCGG -AATATATGGTGCGCGCCAGCGGCTATCTGCAAACGCTCGACGACTTTAATCACATCGTTTTAAAAGCCAG -TGAAAATGGCGTGCCCGTTTATCTGCGCGATGTTGCGAAGGTCCAGATTGGCCCGGAGATGCGCCGGGGC -ATTGCCGAACTAAACGGCGAAGGCGAAGTGGCGGGCGGGGTGGTGATCCTGCGATCCGGCAAAAACGCCC -GAGAAGTGATCGCCGCCGTGAAGGACAAACTGGAAACGCTGAAAAGTAGTCTGCCGGAAGGCGTGGAGAT -AGTTACAACATACGATCGCAGCCAGCTCATTGACCGCGCCATCGACAACCTCAGCGGCAAGTTGCTGGAA -GAGTTTATTGTGGTGGCGGTAGTCTGTGCGCTGTTTCTCTGGCATGTGCGCTCGGCGCTGGTGGCGATTA -TTTCGTTGCCGCTGGGGTTGTGTATTGCTTTTATTGTCATGCACTTCCAGGGACTGAATGCCAATATTAT -GTCGTTGGGTGGCATTGCGATTGCCGTCGGGGCGATGGTCGATGCTGCTATCGTCATGATCGAGAATGCG -CATAAACGGCTGGAAGAGTGGCAGCACCAGCATCCTGACGCCACGCTGGATAATAAAACGCGCTGGCAGG -TGATCACCGATGCGTCTGTTGAAGTGGGGCCGGCGCTATTTATCAGTCTGCTGATTATCACGTTGTCGTT -TATCCCGATCTTCACCCTGGAAGGGCAGGAAGGGCGTCTGTTTGGCCCGTTGGCGTTCACCAAAACGTAT -GCGATGGCGGGTGCGGCGCTGCTGGCGATCGTAGTGATCCCGATCCTGATGGGCTACTGGATCCGTGGCA -AAATTCCGCCGGAAAGCAGTAACCCGCTCAATCGCTTTTTGATTCGTGTTTATCATCCGCTGTTGCTGAA -AGTACTGCACTGGCCGAAAACCACGCTGCTGGTGGCGGCGCTTTCGGTGCTGACGGTTCTCTGGCCGCTC -AATAAAGTTGGCGGGGAATTTTTACCGCAGATCAATGAAGGCGACTTGTTGTATATGCCATCGACGCTGC -CGGGGATTTCCGCAGCAGAGGCGGCGAGTATGCTGCAAAAAACCGACAAGCTAATTATGAGCGTACCTGA -AGTGGCGCGGGTATTTGGCAAAACCGGGAAAGCGGAAACCGCCACCGATTCTGCTCCGCTGGAGATGGTA -GAAACGACCATCCAGCTTAAGCCGCAGGAGCAGTGGCGGCCAGGCATGACGATGGACAAAATCATTGAGG -AACTGGATAACACCGTGCGGCTGCCGGGGCTGGCGAATCTGTGGGTGCCGCCAATTCGTAACCGTATCGA -TATGCTCTCAACCGGCATTAAAAGCCCCATCGGCATTAAAGTTTCCGGCACTGTGCTGGCGGATATCGAC -GCGATGGCTGAGCAAATTGAAGAAGTAGCGCGAACGGTGCCAGGCGTAGCTTCTGCGCTTGCCGAGCGGC -TGGAAGGTGGGCGCTATATCAACGTTGAGATTAACCGTGAAAAAGCCGCACGTTACGGTATGACGGTGGC -GGATGTGCAGTTGTTTGTGACTTCTGCGGTGGGCGGGGCGATGGTTGGCGAAACGGTGGAAGGGATTGCC -CGTTATCCAATTAATCTGCGTTATCCGCAAAGCTGGCGCGATAGTCCGCAGGCACTGCGCCAGCTGCCGA -TCCTGACGCCGATGAAGCAGCAAATCACCCTGGCAGACGTGGCCGACATTAAAGTCTCTACCGGACCGTC -GATGCTGAAAACCGAGAATGCGCGCCCGACGAGCTGGATTTATATCGATGCCCGCGATCGTGACATGGTG -TCGGTGGTTCACGATTTGCAAAAAGCGATAGCTGAAAAAGTGCAGTTAAAACCGGGCACCAGCGTGGCAT -TCTCCGGGCAGTTCGAGCTACTGGAGCGCGCCAACCATAAGCTTAAACTCATGGTGCCGATGACGTTGAT -GATTATCTTCGTGCTGTTGTATCTGGCGTTCCGTCGGGTGGGCGAAGCGTTGCTGATTATCAGCAGCGTA -CCGTTTGCGCTGGTGGGCGGCATCTGGTTGCTGTGGTGGATGGGCTTTCATCTTTCCGTGGCGACGGGCA -CTGGCTTTATCGCCCTCGCCGGGGTCGCCGCCGAATTTGGCGTGGTGATGCTGATGTATTTACGTCACGC -CATAGAGGCCGTGCCGTCGTTGAATAATCCACAAACATTCAGCGAGCAGAAGCTGGATGAGGCGTTATAT -CACGGCGCGGTCCTGCGCGTGCGCCCGAAAGCGATGACGGTGGCGGTGATTATCGCCGGTCTGCTGCCGA -TTCTGTGGGGAACGGGGGCTGGTTCAGAGGTGATGAGCCGGATTGCCGCGCCGATGATTGGCGGCATGAT -CACCGCACCTTTGCTGTCGCTGTTTATTATCCCGGCGGCGTATAAGCTGATGTGGCTGCACCGACATCGG -GTACGGAAATAAAAGCAGGATACCCCGTTTAACCGTGTGGATTGTGTCTTGCGACGATGGGCACTAAATG -TTAAAAGGTGCCCCTCAACAAAAAAGACACACAGGGGAAAGGCGTGAAAAACGCGTCAACCGTATCGGAA -GATACTGCGTCGAATCAAGAGCCGACGCTTCATCGCGGATTACATAACCGTCATATTCAACTGATTGCGT -TGGGTGGCGCAATTGGTACTGGTCTGTTTCTTGGCATTGGCCCGGCGATTCAGATGGCGGGTCCGGCTGT -ATTGCTGGGCTACGGCGTCGCCGGGATCATCGCTTTCCTGATTATGCGCCAGCTTGGCGAAATGGTGGTT -GAGGAGCCGGTATCCGGTTCATTTGCCCACTTTGCCTATAAATACTGGGGACCGTTTGCGGGCTTCCTCT -CTGGCTGGAACTACTGGGTAATGTTCGTGCTGGTGGGAATGGCAGAGCTGACCGCTGCGGGCATCTATAT -GCAGTACTGGTTCCCGGATGTTCCAACGTGGATTTGGGCTGCCGCCTTCTTTATTATCATCAACGCCGTT -AACCTGGTGAACGTGCGCTTATATGGCGAAACCGAGTTCTGGTTTGCGTTGATTAAAGTGCTGGCAATCA -TCGGTATGATCGGCTTTGGCCTGTGGCTGCTGTTTTCTGGTCACGGCGGCGAGAAAGCCAGTATCGACAA -CCTCTGGCGCTACGGTGGTTTCTTCGCCACCGGCTGGAATGGGCTGATTTTGTCGCTGGCGGTAATTATG -TTCTCCTTCGGCGGTCTGGAGCTGATTGGGATTACTGCCGCTGAAGCGCGCGATCCGGAAAAAAGCATTC -CAAAAGCGGTAAATCAGGTGGTGTATCGCATCCTGCTGTTTTACATCGGTTCACTGGTGGTTTTACTGGC -GCTCTATCCGTGGGTGGAAGTGAAATCCAACAGTAGCCCGTTTGTGATGATTTTCCATAATCTCGACAGC -AACGTGGTAGCTTCTGCGCTGAACTTCGTCATTCTGGTAGCATCGCTGTCAGTGTATAACAGCGGGGTTT -ACTCTAACAGCCGCATGCTGTTTGGCCTTTCTGTGCAGGGTAATGCGCCGAAGTTTTTGACTCGCGTCAG -CCGTCGCGGTGTGCCGATTAACTCGCTGATGCTTTCCGGAGCGATCACTTCGCTGGTGGTGTTAATCAAC -TATCTGCTGCCGCAAAAAGCGTTTGGTCTGCTGATGGCGCTGGTGGTAGCAACGCTGCTGTTGAACTGGA -TTATGATCTGTCTGGCGCATCTGCGTTTTCGTGCAGCGATGCGACGTCAGGGGCGTGAAACACAGTTTAA -GGCGCTGCTCTATCCGTTCGGCAACTATCTCTGCATTGCCTTCCTCGGCATGATTTTGCTGCTGATGTGC -ACGATGGATGATATGCGCTTGTCAGCGATCCTGCTGCCGGTGTGGATTGTATTCCTGTTTATGGCATTTA -AAACGCTGCGTCGGAAATAAGGCATTCACGCTACATCCGACAAAACGATGTCAACCATCCGAAACCGCTC -TCATCCATTCGATGAGAGCGGTTTTTTTAATTACTGCTTAAATGCACCCGCCAGAGAGCGAATATCATTG -CCGGTTGGCGACTGATGAAGTCGCAGACCAAACTCTTCGACAATCGCAAATATGTGATCGAATATATCAG -CCTGAATGCTTTCATATTCCAGCCACACCACGGTGTTAGTAAACGCGTAGATCTCGAGCGGTAAACCGTT -ATCACCTGGAGCCAGTTGGCGTACCATTAAGGTCATATCTTTACGAATCCGCGGATGGTTACGCAGATAT -TCGTTCAGATAGGCACGAAAGGTTCCAATATTGGTCATTCGGCGCAGATTTAATACCGACTCCGTAGAAC -CTTGCTGGCGATTCCACTCATTAATTTCCTGATGGCGGCTGGTTAAATAAGGCTTTAACAAATGCGCTTT -ATTCAGACGTTGCATTTCGTCTTCATCAAGAAAACGAATACTGGTGACATCAATACTGATACTGCGCTTA -ATACGTCGCCCGCCAGATGCTGACATCCCGCTCCAGTTTTTAAAGGAGTCAGAAACCAGAGACCAGGTGG -GAATAGTGGTAATGGTATTGTCCCAGTTACGCACTTTGACGGTGGTTAACCCAATATCGATCACCGCGCC -ATCCGCGCCGTATTTCGGCATCTCCAGCCAGTCGCCCAGTTTCAGCATATCGTTCGCGGAAAGCTGAATA -CCTGCCACCAGACCAAGAATCGGATCTTTAAATACCAACATCAGCACGGCAGCCATTGCACCAAGACCGC -TGATCAGAATCGCTGGCGACTGACCAATCAGCAGCGAGATCATCAAAATGCCGACCAGAATCGCGCCGAT -CAGTTTAATCCCCTGAAATATCCCTTTCAGCGGTAACTGAGATGCTGCCGGGAATTTCTGCGCCAGATTC -AAAATAACATCCAGCAACGAGAAGACTGAAAGCAGCGCATACATCATGATCCACAACTGCGCGCAGGTAG -TCAGAATATCTGCCGCTTCGGTGCCTTTTTGCAGCCAGAATACCGCCTGAATATTGACGATAATCCCCTG -CAGGGTAAAAGCTAAACGGTGGAAGAGTTTATTCTGGGTAATGATTTGCAACCAAAGCCGTGAACTGGCG -ATGGCACGTTTTTCGAAGGTCCGCAGTACCACCCAATGCAAAATAATATGCACCACGACGGCGGTCAGAA -AAATAATACCGAAAATCATCACCATCGAGGTGGTGTGATCGATCTCAATACCCGCTAAATCTTCAACCTG -GGATATTAAATCCTGCATAACGTCTCCTTTATACAACAGCAGCCTATGATGACGGCTGAAACAGGGTTAT -GCAAATCAGGAGAATCTGAGAGGAAATAGCCGGGCAGATGCCCGGCAAGAGAGAATTACACTTCGGTTAA -GGTGATGTTTTGCGGCAGACGAGATTTCGGCAGCGTAGCGTTAAAATCTTCAACGCTGTGATGACCTACC -GGAACAACCACCAGACTGGTGTAGCCTTTCTCTTTCAGACCAAATTCTGCATCGAGGATGGCGGCGTCAA -AACCTTCGATGGGTACCGCGTCCAGACCCAGAGCCGCCACGCCGAGCAGGAAGTTACCGACGTTGAGATA -AACCTGTTTTGCCATCCACTCTGCATCATCATGCAGATCTTTACGGTGCATATCAGCGAAGAACTTGCGA -CCTTTATCGTTCGCGGCTTTCGCTTCCGGCGTGGCAAAGCGGCCATCGGCATCTTCCTGGTCAACAACCA -GCTTCAGCCAGACATCGTCCATCGCGGTTTTTGCACAGAACACCACGACGTGCGAGGCATCAAGCATTTT -ACGCTCGTTGAACACGTAATTACCGGCAGCGGATTTGGCAACACGCGCTTTACCTTCTTCCGTGCTGGCA -ACAATAAAATGCCACGGCTGGGAGTTGGTGCTGGATGGGCTGTATTGCAGTAGCGTTTTGATCTGCTCGG -CCTGTTCCGGGGTAAGTTTTTTGCTGGCATCAAATGCCTTAGTGGAATGACGCTTTAAGGCGACAGAAAT -GATATCCATAAAGACTCCATGTGAAAGTAATTTTGCGTGCCAGCAGATTACAAGGTTCAACGAGAAATGG -TAAGCGAGAAAAATGCGCTATAGATTTCCGCTTTAGCCTGGACGCACTCTTTTTTGATCGCGTTTAGCCA -GACCATCAACCACCAGATTCCACGAATCGTTGATCAGATCGCGAAGTAACGCTTCGGAGATTTCTTCGCC -GGGATACACTGAAATCCAGTGCTTTTTATTCATGTGATACCCTGGCTTAATGCTTGGGTATATTTGCTGA -TTTAACAGGGATTTTTGTGGATCGGACTTCAGATTGATAAAGGGGACGCCGCGTAGCTCCGACGACAGCA -TAAAAATCTTGCCGCCAATTTTAAAAACATCGAACTCCGGGCCAAAAGGCCAGCAAAGCTCGACAAAGGG -TAACTCAAGGGCCAGGCGTTTCGCCGTTTCGTGCAGTGATTGCTTATCCATAAACGTTCCTTTAGGCGAA -GGAGAATAAGCAAAGTATGCCGCGAAGTACGGCGATAATCGACGTTTAATCCGCCAGCGAGAACCAGCGT -CGCCAGATAAAGCGCAGAACAAAATACTCAATAGCGCCCAGCACTAAAAACCACAGACAAAACAATAAAG -TGTAAAGCTGACTAAGATCCATCAGATGGAACATGGTCACCAGTTTTTGTGCCAGCGCCAGCCCCAGTGC -GGGGGCGGGCAGCAGCAGGCAAGAGAGGAAAGCCATCAGCAAAATGCCTGCTGCGGTGGTCAAGGTTTCT -AAAGGGTGTTTCATAACATTGTTAAATGTAAGTTAAAACACCATTGTCAGGGATATTCTTCTGTAAGGCA -ATTCCCGGCTTAGTCACCGGCCCAGATCTCACAATGCTTTTTCACCAGCCCAATCAGCGAGCCGCCATCG -GCGACGAAATCGCGCATTAGCTGCGCTTCATTCAGACCGCTGACGACCTGGCGATGCAGGGCCTCAATCG -CGCTCGATGCACCAATTTTATGTGCGGAAGGGGCGATTTTTTCCAGCAATCGCAAGGTATCTTCCGTTAG -CGGTCGACGATCTCCAGTGTGCGGATCGGTGATGACGCCTTCAAGCCCATAGCGACAGGCCTGGAAACGG -TTGAATTTATACAGCAGGTAATCTTTTTCCTGATGTTTAAACGGGCGTTCCGTCAGTAACCAGTGGGCGG -TAGCCTGAATTAATCCCGCCATATTTACTGCGTGGCTAAGGGTTAACGGGGTATCCATCACCCGAACCTC -CACCGTGCCAAAATGAGGACTGGGGCGAATATCCCAGTGCAGATCTTTAATGCTGTCGATCATCGTGGTG -TAACTCAGACAGCGAAACAGGGCTTCAAATTGTTGCCAGTTACTGACCCACGGCATCGGGCCATTATCAG -GAAAGGCGGAAAAAATATTCGGTCGTGAGGAGGCAAAACGCGTATCCGTTCCCTGCATATATGGCGACGC -GGCGGAAAGGGCGATAAAGTGCGGCACAAATCGTGACAAGCCGTGCAGCAAATAAATGGCGTCATCGCCA -CTGGCGCAGCCAACATGGACATGCTGACCAAAAACGGTCGCCTGCTGAATGAGATAACCAAAGTTTTCCA -GCGTGCGTTGATAGCGTTCGTTATCGCATACCTCCTGACGCTGCCATTTCTGAAACGGGTGCGTGCCACC -GCCGCAAATTTCCAGATGATGGTCTGTGGCTGCCTGCAATACGACTTTCTGCATCGCTGAAAACTGCCCG -GCAGCCTGGTTGATATCACGGCAAACATCCGTCGCCAGCTCCAGCATACTTTCGGTGATATCGTGCTTTA -CCTCTCCGGCCGTGATCTTATTTTTAACCGCGTCAATCAGCATTGAAGAGTCCTGGCTTAAGTCATAGCC -CGGCGGATTAACCACCTGCATTTCCAGTTCAATACCGAGGGTAAAAGGTTCAGAAACATGAAAATCGGGT -AATGGCATAGGTTTCTCTTATGTTGGCGTTTTCTATTCAGTATAGAAGTCGGAGCGGCTGGGCGAGATGC -GGAAGTTCTGGAATGTTTCTTTTTTTTGGTGATGGTGAACTGATGGTGCCTGAAGCAATTTGGCTACTTT -TGCAATGTGACAAGTTATGGCAGTGCTGACTGGTGGCGAAGAATTTTGACGATTGAGTCATGCAGAAAAA -AACGGGTTCAGCTTCAGTTGATTAAATGAGGAGTGAGAAGTCCGAAACAGGACTCACTGTATAAATAAAC -AGCTATTTTGTTGAGGAAGGGTAAGATAACGGCGGGTGCCTGAAGCTTTCCGGTTTCAGGTTTACTCTGA -GGTCTGGAAAGATGAAGCCCCAGGAGATATTTCTATCAACCCTGGGGCTGCCACTCCAAACCCGAACAAT -TTGGATGGTAGTCCCTTCTTCGCATGGAGGCAATATAAACATGCTGACGAAATATGCCCTTGCGGCAGTC -ATAGTGCTGTGTTTAACGGTGCTGGGATTTACGCTTCTGGTCGGAGACTCGCTGTGTGAGTTTACGGTGA -AGGAACGTAATATTGAGTTTAAGGCTGTTCTCGCTTACGAACCGAAGAAGTAGCCGTTGTGCGGGGAGTA -ATCCCATAAGCGCTAACTTAAGGGTTGTGGTATTACGCCTGATATGATTTAACGTGCCGATGAATTACTC -TCACGATAACTGGTCAGCAATTCTGGCCCATATTGGTAAGCCCGAAGAACTGGATACTTCGGCACGTAAT -GCCGGGGCTCTAACCCGCCGCCGCGAAATTCGTGATGCTGCAACTCTGCTACGTCTGGGGCTGGCTTACG -GCCCCGGGGGGATGTCATTACGTGAAGTCACTGCATGGGCTCAGCTCCATGACGTTGCAACATTATCTGA -CGTGGCTCTCCTGAAGCGGCTGCGGAATGCCGCCGACTGGTTTGGCATACTTGCCGCACAAACACTTGCT -GTACGCGCCGCAGTTACGGGTTGTACAAGCGGAAAGAGATTGCGTCTTGTCGATGGAACAGCAATCAGTG -CGCCCGGGGGCGGCAGCGCTGAATGGCGACTACATATGGGATATGATCCTCATACCTGTCAGTTCACTGA -TTTTGAGCTAACCGACAGCAGAGACGCTGAACGGCTGGACCGATTTGCGCAAACGGCAGACGAGATACGC -ATTGCTGACCGGGGATTCGGTTCGCGTCCCGAATGTATCCGCTCACTTGCTTTTGGAGAAGCTGATTATA -TCGTCCGGGTTCACTGGCGAGGATTGCGCTGGTTAACTGCAGAAGGAATGCGCTTTGACATGATGGGTTT -TCTGCGCGGGCTGGATTGCGGTAAGAACGGTGAAACCACTGTAATGATAGGCAATTCAGGTAATAAAAAA -GCCGGAGCTCCCTTTCCGGCACGTCTCATTGCCGTATCACTTCCTCCCGAAAAAGCATTAATCAGTAAAA -CCCGACTGCTCAGCGAGAATCGTCGAAAAGGACGAGTAGTTCAGGCGGAAACGCTGGAAGCAGCGGGCCA -TGTGCTATTGCTAACATCATTACCGGAAGATGAATATTCAGCAGAGCAAGTGGCTGATTGTTACCGTCTG -CGATGGCAAATTGAACTGGCTTTTAAGCGGCTCAAAAGTTTGCTGCACCTGGATGCTTTGCGTGCAAAGG -AACCTGAACTCGCGAAAGCGTGGATATTTGCTAATCTACTCGCCGCATTTTTAATTGACGACATAATCCA -GCCATCGCTGGATTTCCCCCCCAGAAGTGCCGGATCCGAAAAGAAGAACTAACTCGTTGTGGAGAATAAC -AAAAATGGTCATCTGGAGCTTACAGGTGGCCATTCGTGGGACAGTATCCCTGACAGCCTACAAAACGCAA -TTGAAGAACGCGAGGCATCGTCTTAACGAGGCACCGAGGCGTCGCATTCTTCAGATGGTTCAACCCTTAA -GTTAGCGCTTATGGGAGTAATCCCCGCATATCCGGTTGTCAGGTCAGGATGGTAAGGCACCTGCTTTACA -CTTTCGCCCGTGGTCAGTGATGGCTGCGGGCGAATCGTACCAGATGTTGTCAATTAATCGTGTTGGCACA -GCGTTATGACTATCTTTTCTTTTATCTGCCAGTGCACAGCAAACATCTCATTCTCACGATGAATGATGAC -CTGCTGTTTATTCCAGCTAATTATCTGATAGTCCAGAAAACCTGCATCAGTTTGGATCTCACTTGCCTTA -AATGCGCTCTCTTTGGCGGAAAATGCCAGTGTCAGCGCCAGAGAAAAGGCTAAACCGCAGTCTGCGAGTC -GCTCGTGTTCCGCTGGTGTAATAATGTTGTCTGTCAATTCTCTTGCGGTTTGTACAGAAAAAATTTCTTC -TATATCAATGCCAATCGGTTGACGAGATACCACGGCTAATGCCGTAGTCCCACAGTGGCTAATACTGCCG -TATACCTCCGCAGGCCAGACAGGTTGGCGTAGCTCGCCGATTGCGGGCACACATTTATAGCCATATTCCC -GCAAAGCATAAACAGCAGCGATCCGTCCGGCTAAATGCTCTGTTTTACGTTTACGTCCAGCGTGTTGCAG -TTGTGCGTAGTGCGGCAGCCAGAGTAAATCCTGCTCACAAAAATTCGCCGGATCGAACTCAACAAAATGC -AGCGTATGTCCGGCAAAGGGGAGGGAGGTATGCGTAGTTTTCATATCGACCATATTCGAGACTGATGACA -AACGCAAAACTGCCTGATGCGCTACGCTTATCAGGCCTACATGGTCCTGCAATATATTGAATTGGCAAGA -TTTTTGTAGGCCGGATAAGGCGTTCACGCCGCATCCGGCATGAACGACGCGCACTTTGTCAACAATCTGA -CGTTAGCATCAGAAGTGGGTGTTTACGCTCATATACCACGTACGTCCCGGCTCGTTATAGGTATACGCCC -CGGCACCGGCGATATAGTTGGCCCCTGCCAAATCGCCCGTGGTCTGGGCATTACCCGCACGCCACAAACG -TTTGTCGAACAGATTGTCCACGCCGCCGGTCAGACTGACATTCTTCGTCACATCCCAGGTCGCGCTCAGG -CCAACAATGCTGTAAGGACTAATTTCTTTGGTTTCCGGTCCAACCGCTGGCTGACCTTTATAGTTGTACT -TCTTCGGCTGCTGCTTGCCGTACCAGGTGAAGGTCGTTTGCATCGACAAATCTTCCCGTGCCTGCCAGCT -CAGCGTTGAGTTCAACGTATACTCCGGGATGATCGACAAACGGTCGCCCGTGGTTTTGTTTTCACTCTTC -AGCATATAAGTGATGTTATTGGTCCACATCACCGTTTCGCTAACCGGTACGTTTAACGATCCTTCCAGAC -CTTCAACCACCGCTTTCGGCACGTTATCCCACTGATAGAGATCGGTGCCGACTGCGTTTTGCCCTACAGC -CACATAGCCCGCTTCAATCTTATTGCGATAATCGTTACGGAACCAGGTGACGCCCGCCAGCCACCCGTCG -CGTTTGAACTCCAGACCAATCTCTTTGTTGATGCTGGTTTCTGCTTTCAGGTCATCGTTACCTTGCAGAT -AGCAGCCGCCCGCGCTGGCATAGCAACCCTGACCTTTACTGTAGAGAATGTAGTTCGGGTTAGTCTGGTA -CAGGCTCGGCGCTTTATAAGCACGGGCGATGCCCATTTTCAGCGTGAAGTCATCGCCTAAACCTTGCGAT -ATGTTCAGCGCCGGGCTCCAGTTATTGCCGACAATACTGTGATGATCGAAACGCAGCCCCGGCGTTACGA -TGGTGCTGTCAGTCAGCTCCATGTTGTTTTCGGCAAACAGCGAGAAAATTTCTGCTTTTGAATACGGGCT -ACGGTCGGTGGTACTCACGCCATCAATAGCGCCACCGGTATTCGTTCCGGTCAGTGCCTGGGTGTTGGAA -CTTAAGTCCTTCATCCGTTGCTGATTCCACTCCGTACCCAGCGTCAGCGTCTGGTTAACGAGGAAATCAA -TCGGCAGGTTAACTTCGCTGTGCAGCATCACGTCATCAAGATCGATATCGACGAAATCCTGTGTCGCTTT -TTCGTTAAATTTCCCTTCGGTACCGCCCGCCAGACCTTCCGGAATACGCGAGTTACGGGTGTGTTCGTAC -TGCACCCAGTTGCTGGTGGTCACGCCGTTATCCCAGCCACCGTTCCAGGTCAGCGCGTAGTTCTGGCGAT -ACAGACGGTTGGTTTCATCGCCATATTTCGAGCGGGTATAGGAATCGGAGTTGGTATTCTGGGTGTCGCC -CGCATACAGGTTACCCTGGCGGCTGTAACCTGCTTCCAGTTCCAGCGATTGCAATGGCGCGAAATCCCAG -CGCACCACGCCATTAATATCTTTGTTGATTACCCCTTCGCGCCCGGCTGGTAACGTCGTGGCATACGTTC -CGGCACGCGCGGACTGATGGCCCTGGTTGATATCCCACGCGTCAGCCTGGGTTTTGTCGAGGTTGCCATA -CAAACGGAAGCTGAATTCGTCGCCCAGCGGACCGGTCAGGCTAAAGTTAGTGCGTTTGGTGGCACCTTCC -TCTTTATGTTCTGGCGCATTGAAATATGCGTCCCAGGAGCCGTGCCACTCGCCGCTGCCTTTTTTGGTAA -TGATGTTAACCACGCCGCCCGCCGCGCCGTTGCCATAACGCGCAGCTGCCGGACCACGCAGAACTTCAAT -ACGTTCAATCATTTCAGGTGGCACCCAGGAAGTATCACCACGGGTATCGCGCTCGCCACGCCAGCCCTGA -CGCACCGAGTTACGGCTGCTTACCGGCTTGCCGTCAATCAAAATCAGCGTGTTTTCCGGACCCATACCGC -GAATATCAATCTGTCGGTTATTCCCACGCTGACCACTGGTGGAGTTACCGGTCAGGTTAACGCCTGGCAT -GGTACGGATGATCTTCGACACATCGCGGGCAACCGGGTTTTTGCGGATTTCATCTGCGGTGATGGTCGAA -ACGCCAGGCGCCTGTAAGTTCTGCTCGGCGGCGGTAACGACAATAGTATCGTCATGTGAAACAGGAGTAT -CGGTCGGCTCTTGTGCCTGCGCTACCCCATAAATCCCCAGATTGACCAACAAGGCCAGGGAATGAATCTT -CTTGTTCATTGTTTTATTCCTGCATTTTTGCCACGAATTGCAACTGTCGGGCATGGTCGTCATCAACACG -ACGCATCCCGCTACCGCGAAAACCTTTGATCCTGAAAGACACGCAGTGCAGTTGGTTAATTAATGTCCGC -GCTTCCCACGGCGCGCCATTACGCTATTGCAAATGCAAATAGTTATCAATAATATTATCAATATATTTCT -GCAATCAATGAAAAATTGCACAGTAAACATGGGGTTATGGTGTGACGGCGTTAAAAGTAGGAAGTGAGAG -CTGGTGGCAGTCGAAACATGGCCCGGAATGGCAGCGTCTGAATGACGAAATGTTTGAGGTCACTTTCTGG -TGGCGTGATCCCCAAGGTTCTGAAGAATACTCGACGATAAAGCGCGTATGGGTCTACATCACTGGTGTGA -CCGATCACCATCAGAACAGCCAGCCCCAGTCGATGCAGCGAATTGCAGGCACTAACGTCTGGCAGTGGAC -GACACAACTCAATGCCAACTGGCGCGGCAGCTACTGCTTTATTCCCACCGAACGCGATGACATTTTTTCT -GTACCATCCCCCGATCGCCTCGAATTGCGCGAAGGCTGGCGAAAACTATTACCCCAGGCGATAGCCGATC -CGCTGAACCTACAAAGCTGGAAAGGCGGGCGAGGGCACGCTGTTTCTGCACTCGAAATGCCGCAAGCGCC -TCTGCAACCGGGATGGGATTGTCCGCAAGCGCCAGAAATACCTGCCAAAGAAATTATCTGGAAAAGTGAA -CGGTTGAAAAAGTCACGGCGTGTATGGATTTTTACCACCGGCGATGCAACAGCAGAAGAACGCCCGCTGG -CAGTTTTGCTCGATGGCGAATTTTGGGCGCAAAGTATGCCCGTCTGGCCAGTGCTGACTTCGCTGACCCA -TCGTCAGCAACTTCCTCCCGCCGTGTATGTGTTGATCGACGCTATCGACACCACGCACCGCGCCCACGAA -CTGCCGTGTAATGCGGATTTCTGGCTCGCAGTACAGCAAGAGTTATTACCCCTGGTGAAAGCTATTGCCC -CTTTTAGCGATCGTGCCGATCGCACCGTGGTTGCCGGGCAGAGTTTTGGTGGGCTTTCCGCGCTGTATGC -CGGACTGCACTGGCCTGAACGCTTTGGCTGTGTATTAAGCCAGTCAGGATCGTACTGGTGGCCGCATCGG -GGCGGGCAGCAAGAGGGCGTGTTACTTGAAAAGCTAAAAGCTGGTGAAGTTAGCGCCGAAGGTCTGCGCA -TTGTGCTGGAAGCGGGTATTCGCGAGCCGATGATCATGCGGGCCAATCAGGCGCTGTATGCGCAATTACA -CCCCATAAAAGAATCCATTTTCTGGCGTCAGGTTGACGGCGGACATGATGCGCTTTGTTGGCGCGGTGGC -TTGATGCAGGGGCTAATCGACCTCTGGCAACCACTTTTCCATGACAGGAGTTGAATATGGCATTCAGTAA -TCCCTTCGATGATCCGCAGGGAGCGTTTTACATATTGCGCAATGCGCAGGGGCAATTCAGTCTGTGGCCG -CAACAATGCGTCTTACCGGCAGGCTGGGACATTGTGTGTCAGCCGCAGTCACAGGCGTCCTGCCAGCAGT -GGCTGGAAGCCCACTGGCGTACTCTGACACCGACGAATTTTACCCAGTTGCAGGAGGCACAATGAGCCAG -CATTTACCTTTGGTCGCCGCACAGCCCGGCATCTGGATGGCAGAAAAACTGTCAGAATTACCCTCCGCCT -GGAGCGTGGCGCATTACGTTGAGTTAACCGGAGAGGTTGATTCGCCATTACTGGCCCGCGCGGTGGTTGC -CGGACTAGCGCAAGCAGATACGCTGCGGATGCGTTTTACGGAAGATAACGGCGAAGTCTGGCAGTGGGTC -GATGATGCGCTGACGTTCGAACTGCCAGAAATTATCGACCTACGAACCAACATTGATCCGCACGGTACTG -CGCAGGCATTAATGCAGGCGGATTTGCAACAAGATCTGCGCGTCGATAGCGGTAAACCACTGGTCTTTCA -TCAGCTGATACAGGTGGCGGATAACCGCTGGTACTGGTATCAGCGTTATCACCATTTGCTGGTCGATGGC -TTTAGTTTCCCGGCCATTACCCGCCAGATCGCCAATATTTACTGCACATGGCTGCGTGGCGAACCAACGC -CTGCTTCGCCATTTACGCCTTTCGCTGATGTAGTGGAAGAGTACCAGCAATACCGCGAAAGCGAAGCCTG -GCAGCGTGATGCGGCATTCTGGGCAGAACAGCGTCGTCAACTGCCGCCGCCCGCGTCACTTTCTCCGGCA -CCTTTACCGGGGCGCAGCGCCTCGGCAGATATTCTGCGCCTGAAACTGGAATTTACCGACGGGGAATTCC -GCCAGCTGGCTACGCAACTTTCAGGTGTGCAGCGTACCGATTTAGCCCTTGCGCTGGCAGCCTTGTGGCT -GGGGCGATTGTGCAATCGTATGGACTACGCCGCCGGATTTATCTTTATGCGTCGACTGGGCTCGGCGGCG -CTGACGGCTACCGGACCCGTGCTCAACGTTTTGCCGTTGGGTATTCACATTGCGGCGCAAGAAACGCTGC -CGGAACTGGCAACCCGACTGGCAGCACAACTGAAAAAAATGCGTCGTCATCAACGTTACGATGCCGAACA -AATTGTCCGTGACAGCGGGCGAGCGGCAGGTGATGAACCGCTGTTTGGTCCGGTACTCAATATCAAGGTA -TTTGATTACCAACTGGATATTCCTGATGTTCAGGCGCAAACCCATACCCTGGCAACCGGTCCGGTTAATG -ACCTTGAACTGGCCCTGTTCCCGGATGTACACGGTGATTTGAGTATTGAGATCCTCGCCAATAAACAGCG -TTACGATGAGCCAACGTTAATCCAGCATGCTGAACGCCTGAAAATGCTGATTGCCCAGTTCGCCGCGGAT -CCGGCGCTGTTGTGCGGCGATGTCGATATTATGCTGCCAGGTGAGTATGCGCAGCTGGCGCAGCTCAACG -CCACTCAGGTTGAGATTCCAGAAACCACGCTTAGCGCGCTGGTGGCAGAACAAGCGGCAAAAACACCGGA -TGCTCCGGCGCTGGCAGATGCGCGTTACCTGTTCAGCTATCGGGAAATGCGCGAGCAGGTGGTGGCGCTG -GCGAATCTGCTGCGTGAGCGCGGCGTTAAACCAGGGGACAGCGTGGCGGTGGCACTACCGCGCTCGGTCT -TTTTGACCCTGGCACTCCATGCGATAGTTGAAGCTGGAGCGGCCTGGCTACCGCTGGATACCGGCTATCC -GGACGATCGCCTGAAAATGATGCTGGAAGATGCGCGTCCGTCGCTGTTAATTACCACCGACGATCAACTG -CCGCGCTTTAGCGATGTTCCCAATTTAACAAGCCTTTGCTATAACGCCCCGCTTACACCGCAGGGCAGTG -CGCCGCTGCAACTTTCACAACCGCATCACACGGCTTATATCATCTTTACCTCTGGCTCCACCGGCAGGCC -GAAAGGGGTAATGGTCGGGCAGACGGCTATCGTCAACCGCCTGCTTTGGATGCAAAATCATTATCCGCTT -ACAGGCGAAGATGTCGTTGCCCAAAAAACGCCGTGCAGTTTTGATGTCTCGGTGTGGGAGTTTTTCTGGC -CGTTTATCGCAGGGGCAAAACTGGTGATGGCTGAACCGGAAGCGCACCGCGACCCGCTCGCTATGCAGCA -ATTCTTTGCCGAATATGGCGTAACGACCACGCACTTTGTGCCGTCGATGCTGGCGGCATTTGTTGCCTCG -CTGACGCCGCAAACCGCTCGCCAGAGTTGCGCGACGTTGAAACAGGTTTTCTGTAGTGGTGAGGCCTTAC -CGGCTGATTTATGCCGCGAATGGCAACAGTTAACTGGCGCGCCGTTGCATAATCTATATGGCCCGACGGA -AGCGGCGGTAGATGTCAGCTGGTATCCGGCTTTTGGCGAGGAACTGGCACAGGTGCGCGGCAGCAGTGTG -CCGATTGGTTATCCGGTATGGAATACGGGTCTGCGTATTCTTGATGCGATGATGCATCCGGTGCCGCCGG -GTGTGGCGGGTGATCTCTATCTCACTGGCATTCAACTGGCGCAGGGCTATCTCGGACGCCCCGATCTGAC -CGCCAGCCGCTTTATTGCCGATCCTTTTGCCCCAGGTGAACGGATGTACCGTACCGGAGACGTTGCCCGC -TGGCTGGATAACGGCGCGGTGGAGTACCTCGGGCGCAGTGATGATCAGCTAAAAATTCGCGGGCAGCGTA -TCGAACTGGGCGAAATCGATCGCGTGATGCAGGCGCTGCCGGATGTCGAACAAGCCGTTACCCACGCCTG -TGTGATTAACCAGGCGGCTGCCACCGGTGGTGATGCGCGTCAATTGGTGGGCTATCTGGTGTCGCAATCG -GGCCTGCCGTTGGATACCAGCGCATTGCAGGCGCAGCTTCGTGAAACATTGCCACCACATATGGTACCGG -TGGTTCTGCTGCAACTTCCACAGTTACCACTTAGCGCCAACGGCAAGCTGGATCGCAAAGCCTTACCGTT -GCCTGAACTGAAGGCACAAGCGCCAGGGCGTGCGCCGAAAGCGGGCAGTGAAACGATTATCGCCGCGGCA -TTCTCGTCGTTGCTGGGGTGTGACGTGCAGGATGCCGATGCTGATTTCTTCGCGCTTGGCGGTCATTCGC -TACTGGCAATGAAACTGGCAGCGCAGTTAAGTCGGCAGGTTGCCCGCCAGGTGACGCCGGGGCAAGTGAT -GGTCGCGTCAACTGTCGCCAAACTGGCAACGATTATTGATGCTGAAGAAGACAGCACCCGGCGTATGGGA -TTCGAAACCATTCTGCCGTTGCGTGAAGGTAATGGCCCGACGCTGTTTTGTTTCCATCCTGCGTCCGGTT -TTGCCTGGCAGTTCAGCGTGCTCTCGCGTTATCTCGATCCACAATGGTCGATTATCGGCATTCAGTCACC -GCGCCCCAATGGCCCCATGCAGACGGCGGCAAACCTGGATGAAGTCTGCGAAGCGCATCTGGCAACGTTA -CTTGAACAACAACCGCATGGCCCTTATTACCTGCTGGGGTATTCCCTTGGCGGTACGCTGGCGCAGGGTA -TTGCGGCGCGACTGCGTGCCCGTGGCGAACAGGTGGCATTTCTTGGCTTGCTGGATACCTGGCCGCCAGA -AACGCAAAACTGGCAGGAAAAAGAAGCTAATGGTCTGGACCCGGAAGTGCTGGCGGAGATTAACCGCGAA -CGCGAGGCCTTCCTGGCAGCACAGCAGGGAAGTACTTCAACGGAGTTGTTTACCACCATTGAAGGCAACT -ACGCTGATGCTGTGCGCCTGCTGACGACTGCTCATAGCGTACCGTTTGACGGTAAAGCGACGCTGTTTGT -TGCTGAACGCACACTTCAGGAAGGTATGAGTCCCGAACGCGCCTGGTCGCCGTGGATAGCGGAGCTGGAT -ATCTATCGTCAGGATTGTGCGCATGTGGATATTATCTCTCCAGGGACGTTTGAAAAAATTGGGCCGATTA -TTCGCGCAACGCTAAACAGGTAAATTAATATTATTTATAAACCCATAATTACAGAAAATAATTATGGGTT -TTTTATTTGTTTGATTTATAGGTTTGATGAATATTTCTCTTAAATAGAGTGAATGTTGCATTCAGTGGAA -GGAATTTACAAACTTCAGCTTCGGATAATTATCACCAACTGGTAAAGTGAGCGCCGTGGAGATTTCCCCC -TATTGGACTCATTTTCAGGTTATACCCCATGTCATCACTGAATATTAAACAGGGAAGTGACGCTCATTTT -CCCGATTATCCTCTGGCGTCGCCCAGTAATAATGAAATTGATTTACTTAATCTAATCTCAGTTTTATGGC -GGGCCAAAAAAACGGTCATGGCGGTCGTTTTTGCGTTTGCCTGCGCAGGCTTGCTGATCTCTTTCATCCT -GCCGCAAAAATGGACCAGCGCGGCGGTTGTCACGCCTCCAGAACCTGTTCAGTGGCAAGAGTTGGAGAAA -TCATTCACTAAGCTTCGTGTGCTGGATCTGGATATCAAAATTGATCGTACAGAAGCATTTAACCTGTTTA -TCAAGAAGTTTCAGTCGGTTAGCTTGCTGGAAGAGTACCTGCGTTCATCACCTTATGTGATGGACCAATT -AAAAGAGGCGAAAATCGACGAACTGGATTTGCATCGCGCAATTGTCGCATTGAGCGAAAAAATGAAAGCG -GTTGATGACAATGCCAGTAAGAAAAAAGATGAACCGTCACTGTATACCTCCTGGACGCTAAGTTTTACCG -CGCCAACCAGTGAAGAGGCGCAGACCGTTTTGAGCGGGTATATCGATTATATCTCTACGTTGGTGGTGAA -AGAGTCGCTAGAAAACGTCCGTAATAAACTGGAGATCAAAACCCAGTTTGAAAAAGAAAAACTGGCTCAG -GATCGCATTAAAACGAAAAATCAACTTGATGCAAACATTCAGCGCCTCAATTATTCACTCGACATTGCCA -ACGCGGCAGGAATTAAAAAGCCCGTTTACAGTAATGGTCAGGCCGTTAAAGATGACCCCGATTTTTCTAT -TTCTCTCGGTGCAGACGGTATTGAACGCAAACTGGAAATAGAAAAAGCGGTCACTGACGTTGCGGAACTG -AACGGTGAATTACGTAATCGGCAGTATCTTGTCGAGCAATTAACAAAAGCACATGTCAACGATGTGAATT -TTACGCCGTTTAAATATCAGTTAAGCCCGTCATTGCCAGTGAAAAAAGACGGTCCGGGTAAGGCGATTAT -TGTGATCCTTTCCGCGTTGATCGGCGGGATGGTGGCTTGTGGTGGCGTGCTGTTGCGCTATGCGATGGCA -TCCAGAAAACAGGATGCCATGATGGCAGACCACTTAGTTTAACTATTTGCGGTTGAAGGTGCCGTTCGTC -CGAGCGGCACCACAAGCGGCGTTCCGGCAACTGGATCGTCAATGATCATGCAGCGCAGACCATAAATGCG -CTCAATCAGTTCAGCAGTGACAATCTCCTTCGGCGCTCCCTGAGCAACAATTTTCCCTTCCCGCAATGCA -ATCAAATGGCTGGCGTAACGACAGGCCTGATTAAGATCGTGCAGCACCGCCGCCAGGGTATAGCCTTTTT -CGCGGTTCAGTTCGCTTAACAACTCCAGCAAATCAATCTGATGACTGATATCCAGCCAGGTCGTGGGTTC -GTCGAGCAGCATAATTGCCGTTTCCTGGGCCAGCACCATCGCGATCCACGCTCGCTGGCGTTGTCCGCCA -GAAAGGGTATCCACGCTTTGATCTGCCAGATGAGTTATTCCCGTGGCCTGCATTGCTTTCGTTACCGCTT -CTTCATCCTCTTTGCGCCAGCGGGTAAACAGCGGTTGATGCGGATAACGTCCACGCGCCACCAGCTCCTG -CACGGTGATATCGCCCGGCGTGGTAGCATTTTGCGCCAACAGACCAATCCGGCGTGCAACCTCTTTACTG -GCGTAATGTTGAATGTGCTCGCCATCCAGCCAGACATGCCCATGAGCAGGCGTCATCAGGCGGCTTAAGG -TACGCAGTAACGTGGATTTACCGCAGCCATTTGGCCCGATAATTGCCGTGAAGTGACCATCAGGTATTTC -TACAGTCAGATTTTCCGCAACGGTATATTTGCCATATCCCAGGGTTAACTGTTCGCCGCGCAAACGGGCT -ACTGATTCGGTCATTTTTTGCGAGACTCCTGAATTAACAAGACGATAAGGTAAATACCGCCGAGGCTGAC -GGTAACGACGCCAACCGGAAGTTGATACGGCATAAACAGTTGTTGGGCGCAGAGATCGGCCGCCAGCAGT -AACAGCGCCCCGCATAGCGCCGCCTGGGTTAGCCCCCAGCGAGCGGTGCCGCTAATGCGTCGGGCAATGT -GCGGTGCGACTAAAGCAATAAAGGAAATCGGCCCGGCAAGCGCTGTTGCCGCAGCGGTAAGCACCACTGC -AACCAGCATCATTAACAGACGCGAACGTTCGACGCTGACGCCCAGCGCACACGCGGTATCATCGCCCATT -TCCAGCAAGCGCATCCGGCGTACCAGTAAGGCGGCGGCAATGAGCATCAATATAATGATGGGTGCGGAAG -GCGAGGTTTTTGCCCACGTCAGGCCGTTGAGCGATCCGGCATTCCACAAACCTGCTGTTAGCGCCGTTTC -TAAAGACGCTTTCAGCAACAGCCAGGTATTAAAGGCCACCAGCATGGCGCGAACGCCGATACCGATAATA -ATCAACCGAAAGGTGTCGATGCCGTTGCGCCAGGCGAGCAGCCAGACCAGCAGCGAAGTGACAATGCCGC -CCACCATTGCTGACAGCGCGATAGCCGTCAGGTCCTGACCAAACAGCACCATCGCCACCAGCACGCCGCT -CCACGCCCCGGTGTTAAAGCCCATTACGTCAGGGCTGCCGAGCGGGTTACGCATCAGCGACTGAAAAATC -GCGCCACTGACGCCCAGTGCTGCGCCAATCAACAGCGCCATCAGCACGCGTGGTAAACGCCATTCGGTGA -CCACCATCGTCATACTGCGCGGCGCATCGCCCATCAGCGCGGCGAATACCTGCGAGGTTTCCAGCGTGAC -GGCACCGCTGCGTAATCCCCAGATACCTGCAACCACACAGGCGGAAACCAGCAGCAAACAGGTGATGAGT -AATCGGCGAGAGACGTAAATCATGCACCACCTCGCGTTTTACGTCGCACGAGGAAGATCAGCACCGGTGC -ACCAATAAACGCACTGACCACAGAAACGCGCAGTTCGCCGGGCACAATCACCCGCCCGATGATATCGGCA -AACAGCAGCAGGGCAGGGGTAGCAAGTAGCGTGACGGGCAGCGACCAGCGATGATCGGCACCCACCAGCC -AACGCGCCATATGCGGCATCATCAGGCCAATAAAGGCAATCGGGCCAACTATTGCCGTCGCACTACCACA -AAGCACGGTAATCGCCAGCAGACCAATCAACTGTGTGCGCGCCACGCGACTGCCCAGCGCCGTCGCGGTG -TCGCTGCCGAGGCTCAAACTGTTCAGCGCGCGACTCAGTAATAGCGCAGTTGCTCCGGCGATCAGCACCG -GGATCAGCACCACTTTTAAGGTATGTAGATTGCGAATATCCAGCGAACCGGCTTGCCAGAAACGCAACTG -ATCGTAGACGTCAGGATTAAGCAGGGCGATGCCGCTGGTCAGTCCTTCCAGCACCGCCGCCAGCGCCACG -CCCGCCAGGGTTAAACGCACCGGACTTAACTGCCCGCCGCCCTGACTGCCGGTAAAGGCAACAATCAATG -AGGCCACCAGCGCCCCGGCGAAGGCCATCGCCAGTTGTTCCTGCGCGGAAGAGTAACCAAACAGCGCCGC -ACCCAGCACAATGGCAAAGCTGGCTCCGGCGTTCACGCCAAGCAAGCCGGGGTCGGCAAGTGGGTTTCGG -GTGAGGGTTTGCATTAACGCCCCGGCAAGGCCAAGCGCGCCGCCTGCCAGTAAACCGGCAAGGGTACGCG -GCAGCCGCGCGTCGAGCACGATGGTGCAGTCGGCGCTCTGGCAGGTGCCGGAGAAGGCCTCCAGCACTAC -GGAAGCGGGGAGTGATTTTGCCCCAATGAGCAGGCTTAATGCCGTCGCGATAATCAGTAATAACAGCAAT -CCGGGCACGGCAATGGCGCGTGTCACGGCAACAGAACCAGACATACGAACTTCCATGATAATGAAATTAA -TTATCGTTATCGATCTTATTTGGATATGTTAGCATGTGCAGCCTAAGAATAGGTATTTAAAATATTTGAT -GGCAAGGCATTGTAATGAATAAACAATCCTGGCTGCTTAACCTCAGCCTGTTGAAAACGCACCCGGCGTT -TCGCGCAGTATTCCTCGCTCGTTTCATCTCAATTGTGTCTCTGGGTTTGCTCGGCGTCGCGGTGCCGGTG -CAGATCCAGATGATGACACATTCCACCTGGCAGGTGGGGCTTTCGGTGACGCTGACCGGCGGCGCGATGT -TTGTTGGCCTGATGGTCGGCGGTGTGCTGGCGGATCGCTATGAGCGCAAAAAAGTGATTTTGCTGGCGCG -CGGCACCTGTGGCATTGGCTTCATTGGACTGTGCCTTAATGCACTGCTGCCGGAGCCGTCATTGCTGGCA -ATCTATTTACTTGGTTTATGGGATGGTTTTTTCGCATCGCTTGGCGTTACGGCGCTATTGGCGGCGACAC -CAGCACTGGTAGGGCGTGAAAACTTAATGCAGGCCGGGGCGATCACCATGTTGACCGTGCGTCTGGGGTC -GGTGATTTCGCCCATGATTGGCGGTTTATTGCTGGCGACCGGTGGCGTAGCCTGGAACTACGGGCTGGCG -GCGGCGGGCACGTTTATTACCTTGCTACCGTTGTTAAGCCTTCCGGCGTTGCCACCGCCACCGCAGCCGC -GTGAGCATCCGTTGAAATCATTACTGGCAGGATTTCGTTTTCTGCTTGCCAGCCCGCTGGTGGGCGGGAT -TGCGCTGCTGGGTGGTTTATTGACGATGGCGAGCGCGGTGCGGGTACTGTATCCGGCGCTGGCTGACAAC -TGGCAGATGTCAGCGGCACAGATTGGTTTTCTCTACGCGGCGATCCCGCTCGGCGCGGCTATTGGTGCGT -TAACCAGCGGGAAGCTGGCACATAGTGCGCGACCAGGGTTATTGATGCTGCTCTCCACGCTGGGATCGTT -CCTCGCCATTGGTCTGTTTGGCCTGATGCCGATGTGGATTTTAGGCGTGGTTTGTCTGGCGCTGTTCGGC -TGGTTGAGTGCGGTCAGCTCGTTGCTGCAATACACAATGCTGCAAACGCAAACCCCGGAAGCGATGTTAG -GGCGGATTAACGGTTTGTGGACGGCGCAGAACGTGACGGGCGATGCCATAGGCGCGGCGCTGCTGGGTGG -TTTGGGCGCGATGATGACACCGGTTGCTTCCGCAAGCGCGAGCGGTTTTGGTTTGTTGATTATCGGCGTG -TTGTTATTGCTGGTGCTGGTGGAGTTGCGACATTTTCGCCAGACGCCGCCGCAGGTGACAGCGTCCGACA -GTTAATGCTTAAAACAGCGCCTTAAGCCTATCCAGCACTTGCATGGCGCTGTAGTAATCCAGACGGAACG -TCTCGGTTCCCAGCGCATAAACCTGCTTGTTTTGTACTGCAGGCAGGTGCGCGAGCAGCGGATTAGCATA -AATAGCATCGGCATCTTTCTGATCACCGGCGAACAGGAATAGTGACTCGCCATTTAACCCTGCAGCCAGA -TTTTCCCCACCAAGCTGAATGATGTCATGGCGTTTACCCTGACTTTGGCTGGCATTTAACCCTGCGGGTA -ACTTCGCCAGCGTAAAGCCGAGTTGTTCCAGCATCTGCCCTTGTGCTGATTCTGGCGTCCAGAGATTGGC -ACTGTGTGCAGCGGCAGTATAGACAATGGCAGTGACCGGCTGCGGCGGTAATTTGATTTGCTCTTTCGCC -GCCGCCAGTTGCTTATCAAACTGCGCAATCCGCTCTGCCGCTTGTTTCTCATGCCCGGTAATTTCGCCAA -GTTGCGTTAACAGCGACTGCCAGCTTTTGTCGTCGTAATTGATGATTAATGTCGGGGCGATGGTGGAAAG -CTGATCATACAGTGCCAGCGCCGAATCCCCGCCGGTTGCGCTAATTAAAATCAGATCCGGCATTTGCGCG -GCAACGGCTTCGGCGCTCGGTTCGCCGATATAGAGCCGTTGCAGTTTGCGTTCTTTCGCCACCTTGCTCC -ACTGGCGTAAAAAGCCCTGGTCATCCGCGACGCGGTTATTCGGCGTGGTCGCGCCGCTGGCGATCACCGG -AGCATCAATCGCCAGCAGTGAGCCGGTCAGGGTGACGCTGGTGGAAACAATACGCTGCGGCTGGCTTTCC -AGTGTATGTGTGCCACGGCTGTCAGTAATCTGACGCGGCCAGTCAGCGGCCTGAACTGCGGCTATTCCTG -AAAGCAAAAGTCCTGTTAATAGAAGGGCGTTGCGGTAGAGCGGGGCGAGTCTCACAAATCAGCTTCCTGT -TATTAATAAGGTTAAGGGCGTAATGACAAATTCGACAAAGCGCACAATCCGTCCCCTCGCCCCTTTGGGG -AGAGGGTTAGGGTGAGGGGAACAGCCAGCACTGGTGCGAACATTAACCCTCACCCCAGCCCTCACCCTGG -AAGGGAGAGGGGGCAGAACGGCGCAGGACATCACATTGCGCTTATGCGAATCCATCAATAATGCTTCTCA -TTTTCATTGTAACCACAACCAGATGCAACCCCGAGTTGCAGATTGCGTTACCTCAAGAGTTGACATAGTG -CGCGTTTGCTTTTAGGTTAGCGACCGAAAATATAAATGATAATCATTATTAAAGCCTTTATCATTTTGTG -GAGGATGATATGGATACGTCACTGGCTGAGGAAGTACAGCAGACCATGGCAACACTTGCGCCCAATCGCT -TTTTCTTTATGTCGCCGTACCGCAGTTTTACGACGTCAGGATGTTTCGCCCGCTTCGATGAACCGGCTGT -GAACGGGGATTCGCCCGACAGTCCCTTCCAGCAAAAACTCGCCGCGCTGTTTGCCGATGCCAAAGCGCAG -GGCATCAAAAATCCGGTGATGGTCGGGGCGATTCCCTTCGATCCACGTCAGCCTTCGTCGCTGTATATTC -CTGAATCCTGGCAGTCGTTCTCCCGTCAGGAAAAACAAGCTTCCGCACGCCGTTTCACCCGCAGCCAGTC -GCTGAATGTGGTGGAACGCCAGGCAATTCCGGAGCAAACCACGTTTGAACAGATGGTTGCCCGCGCCGCC -GCACTTACCGCCACGCCGCAGGTCGACAAAGTGGTGTTGTCACGGTTGATTGATATCACCACTGACGCCG -CCATTGATAGTGGCGTATTGCTGGAACGGTTGATTGCGCAAAACCCGGTTAGTTACAACTTCCATGTTCC -GCTGGCTGATGGTGGCGTCCTGCTGGGGGCCAGCCCGGAACTGCTGCTACGTAAAGACGGCGAGCGTTTT -AGCTCCATTCCGTTAGCCGGTTCCGCGCGTCGTCAGCCGGATGAAGTGCTCGATCGCGAAGCAGGTAATC -GTCTGCTGGCGTCAGAAAAAGATCGCCATGAACATGAACTGGTGACTCAGGCGATGAAAGAGGTACTGCG -CGAACGCAGTAGTGAGTTACACGTTCCTTCTTCTCCACAGCTGATCACCACGCCGACGCTGTGGCATCTC -GCAACTCCCTTTGAAGGTAAAGCGAATTCGCAAGAAAACGCACTGACTCTGGCCTGTCTGCTGCATCCGA -CCCCCGCGCTGAGCGGTTTCCCGCATCAGGCCGCGACCCAGGTTATTGCTGAACTGGAACCGTTCGACCG -CGAACTGTTTGGCGGCATTGTGGGTTGGTGTGACAGCGAAGGTAACGGCGAATGGGTGGTGACCATCCGC -TGCGCGAAGCTGCGGGAAAATCAGGTGCGTCTGTTTGCCGGAGCGGGGATTGTGCCTGCGTCGTCACCGT -TGGGTGAGTGGCGCGAAACAGGCGTCAAACTTTCTACCATGTTGAACGTTTTTGGATTGCATTAAGGAGC -GAGGATGAGCATTCCATTCACCCGCTGGCCGGAAGAGTTTGCCCGTCGCTATCGGGAAAAAGGCTACTGG -CAGGATTTGCCGCTGACCGACATTCTGACGCGACATGCTGCGAGTGACAGCATCGCGGTTATCGACGGCG -AGCGACAGTTGAGTTATCGGGAGCTGAATCAGGCGGCGGATAACCTCGCGTGTAGTTTACGCCGTCAGGG -CATTAAACCTGGTGAAACCGCGCTGGTACAACTGGGTAACGTCGCTGAATTGTATATTACCTTTTTCGCG -CTGCTGAAACTGGGCGTTGCGCCGGTGCTGGCGTTGTTCAGCCATCAGCGTAGTGAACTGAACGCCTATG -CCAGCCAGATTGAACCCGCATTGCTGATTGCCGATCGCCAACATGCGCTGTTTAGCGGGGATGATTTCCT -CAATACTTTCGTCACAGAACATTCCTCCATTCGCGTGGTGCAACTGCTCAACGACAGCGGTGAGCATAAC -TTGCAGGATGCGATTAACCATCCGGCTGAGGATTTTACTGCCACGCCATCACCTGCTGATGAAGTGGCCT -ATTTCCAGCTTTCCGGTGGCACCACCGGCACACCGAAACTGATCCCGCGCACTCATAACGACTACTACTA -CAGCGTGCGTCGTAGCGTCGAGATTTGTCAGTTCACACAACAGACACGCTACCTGTGCGCGATCCCGGCG -GCTCATAACTACGCCATGAGTTCGCCAGGATCGCTGGGCGTCTTTCTTGCCGGAGGAACGGTTGTTCTGG -CGGCCGATCCCAGCGCCACGCTCTGTTTCCCATTGATTGAAAAACATCAGGTTAACGTTACCGCGCTGGT -GCCACCCGCAGTCAGCCTGTGGTTGCAGGCGCTGATCGAAGGCGAAAGCCGGGCGCAGCTTGCCTCGCTG -AAACTGTTACAGGTCGGCGGCGCACGTCTTTCTGCCACCCTTGCGGCGCGTATTCCCGCTGAGATTGGCT -GTCAGTTGCAGCAGGTGTTTGGCATGGCGGAAGGGCTGGTGAACTACACCCGACTTGATGATAGCGCGGA -GAAAATTATCCATACCCAGGGTTACCCAATGTGTCCGGATGACGAAGTATGGGTTGCCGATGCCGAAGGA -AATCCACTGCCGCAAGGGGAAGTCGGACGCCTGATGACGCGCGGGCCGTACACCTTCCGCGGCTATTACA -AAAGTCCACAGCACAATGCCAGCGCCTTTGATGCCAACGGTTTTTACTGTTCCGGCGATCTGATCTCTAT -TGATCCAGAGGGTTACATCACCGTGCAGGGGCGCGAGAAAGATCAGATTAACCGTGGCGGCGAGAAGATC -GCTGCCGAAGAGATCGAAAACCTGCTGCTGCGCCACCCGGCGGTGATCTACGCCGCACTGGTGAGCATGG -AAGATGAGCTGATGGGCGAAAAAAGCTGCGCTTATCTGGTGGTAAAAGAGCCGCTGCGCGCGGTGCAGGT -GCGTCGTTTCCTGCGTGAACAGGGTATTGCCGAATTTAAATTACCGGATCGCGTGGAGTGTGTGGATTCA -CTTCCGCTGACGGCGGTCGGGAAAGTCGATAAAAAACAATTACGTCAGTGGCTGGCGTCACGCGCATCAG -CCTGAAGGAGAGAACACGATGGCTATTCCAAAATTACAGGCTTACGCACTGCCGGAGTCTCACGATATTC -CGCAGAATAAAGTTGACTGGGCCTTTGAACCGCAACGTGCCGCGTTGTTAATCCATGATATGCAGGACTA -TTTTGTCAGCTTCTGGGGCGAGAACTGCCCGATGATGGAGCAGGTGATCGCGAATATTGCTGCGCTGCGC -GACTACTGCAAACAGCACAATATCCCGGTTTATTACACCGCCCAGCCGAAAGAGCAGAGCGATGAAGATC -GGGCGCTGTTGAATGATATGTGGGGGCCGGGCCTGACCCGCTCGCCGGAACAGCAAAAGGTGGTGGATCG -CCTGACGCCAGATGCCGACGACACGGTGCTGGTGAAGTGGCGCTACAGCGCGTTTCATCGTTCTCCGCTG -GAGCAAATGCTGAAAGAGAGTGGACGTAACCAGCTGATTATTACCGGGGTATATGCCCACATTGGCTGTA -TGACCACCGCAACCGACGCATTTATGCGCGATATTAAACCGTTTATGGTGGCGGATGCGCTGGCCGATTT -CAGCCGTGACGAGCATTTGATGTCGCTGAAATATGTGGCCGGACGTTCTGGCCGGGTGGTGATGACTGAA -GAATTACTGCCAGCACCTATCCCCGCCAGCAAAGCGGCGCTGCGTGAGGTGATCCTGCCGTTGCTGGACG -AGTCCGATGAACCGTTCGATGACGACAACCTGATCGACTACGGTCTGGATTCGGTGCGCATGATGGCGCT -GGCGGCGCGCTGGCGCAAAGTGCATGGTGATATCGACTTTGTCATGCTGGCGAAAAACCCGACCATCGAC -GCCTGGTGGAAGCTACTCTCCCGCGAGGTGAAATAATGGATTTCAGCGGTAAAAATGTCTGGGTAACCGG -CGCAGGTAAAGGTATCGGCTACGCCACGGCGCTGGCGTTTGTTGAGGCGGGAGCGAAAGTTACAGGTTTT -GATCAAGCGTTCACTCAGGAGCAATATCCCTTTGCGACCGAAGTGATGGATGTTGCCGACGCTGCGCAGG -TCGCGCAAGTGTGTCAGCGACTGTTAGCTGAAACGGAGCGACTGGACGCGCTGGTCAATGCGGCGGGAAT -TTTACGCATGGGCGCGACCGATCAGCTCAGTAAAGAGGACTGGCAGCAGACTTTTGCGGTTAACGTCGGC -GGTGCGTTTAACCTGTTCCAGCAAACCATGAACCAGTTTCGCCGTCAGCGGGGCGGGGCGATTGTCACTG -TGGCGTCCGACGCCGCGCACACGCCGCGTATTGGCATGAGTGCTTATGGCGCATCGAAAGCGGCGCTGAA -AAGCCTGGCGTTGAGCGTCGGGCTGGAACTGGCGGGTAGCGGCGTGCGCTGTAATGTGGTTTCGCCTGGC -TCCACCGACACCGATATGCAACGCACGCTGTGGGTGAGCGATGACGCCGAAGAACAGCGTATTCGCGGCT -TTGGCGAGCAGTTTAAACTCGGCATTCCGCTGGGGAAAATCGCCCGTCCACAAGAGATCGCCAACACGAT -TTTGTTCCTCGCCTCTGACCTCGCCAGCCATATTACCCTACAGGATATTGTGGTCGATGGCGGCTCAACG -CTGGGGGCATAAGCATGATCTGGAAACGCCATTTAACGCTCGACGAACTGAACGCCACCAGCGATAACAC -AATGGTGGCGCATCTGGGAATTGTGTATACCCGTCTGGGCGATGATGTGCTGGAAGCCGAAATGCCGGTT -GATACCCGTACTCATCAGCCGTTCGGTTTACTACATGGCGGCGCGTCGGCGGCGCTGGCGGAAACGCTGG -GATCGATGGCCGGATTTATGATGACCCGCGACGGACAGTGTGTGGTAGGCACAGAACTTAATGCAACACA -CCATCGCCCGGTGTCTGAGGGAAAGGTACGCGGCGTCTGCCAGCCGCTGCATCTTGGTCGGCAAAATCAG -AGCTGGGAAATCGTCGTTTTCGATGAACAGGGGCGGCGTTGCTGCACTTGTCGGCTGGGTACGGCAGTTT -TGGGATGAACCCGACAGAATTAGATGAGATTGCAGGAAAACTCGGTTAACGGAGTGATCGAGTTAACATT -GTTAAGTTAAATATTGGTTTCAACTCCGATTTACATGGTTGCTGTGTTGTTAAATTGTACAAAGATGTTA -TAGAAACAAAATGTAACATCTCTATGGACACGCACACGGATAACAACTATGAACAAATCAGGGAAATACC -TCGTCTGGACAGTGCTCTCTGTAATGGGAGCATTTGCTCTGGGATACATTGCTTTAAATCGTGGGGAACA -GATCAACGCGCTGTGGATTGTGGTGGCGTCGGTCTGTATCTATCTGATCGCTTACCGTTTTTATGGGCTG -TATATCGCCAAAAATGTGCTGGCGGTTGACCCGACGCGTATGACGCCAGCGGTGCGCCATAACGACGGGC -TGGACTATGTGCCGACGGACAAGAAAGTGCTGTTCGGTCACCATTTTGCGGCCATTGCCGGAGCAGGTCC -GCTGGTGGGGCCGGTACTGGCGGCGCAAATGGGCTACCTGCCGGGGATGATCTGGCTGCTCGCTGGGGTG -GTTCTCGCCGGTGCGGTGCAGGATTTCATGGTGCTGTTTGTTTCTACGCGCCGTGACGGTCGCTCGCTGG -GTGAGCTGGTCAAAGAAGAGATGGGGCCAACCGCCGGGGTGATTGCGCTGGTGGCCTGCTTTATGATCAT -GGTCATTATCCTTGCAGTGCTGGCGATGATCGTGGTGAAAGCCCTGACTCATAGCCCGTGGGGAACATAT -ACCGTTGCGTTCACCATTCCGCTGGCGCTGTTTATGGGGATCTACCTGCGCTATCTGCGTCCGGGGCGTA -TTGGCGAAGTGTCGGTCATCGGTCTGGTATTCCTGATTTTCGCCATTATCTCTGGCGGCTGGGTGGCAGA -AAGTCCGACCTGGGCACCGTACTTTGACTTTACCGGCGTGCAGTTGACCTGGATGCTGGTGGGTTACGGT -TTTGTGGCGGCGGTGCTGCCGGTGTGGTTACTGCTGGCCCCGCGTGACTACCTCTCTACCTTCCTGAAAA -TCGGGACTATCGTCGGTCTGGCGGTAGGCATTTTGATTATGCGCCCGACGCTGACCATGCCTGCGCTGAC -CAAATTTGTCGATGGCACTGGCCCGGTATGGACCGGTAACCTGTTCCCGTTCCTGTTTATCACCATCGCC -TGTGGCGCGGTGTCTGGCTTCCATGCGCTGATCTCTTCTGGGACCACGCCGAAGATGCTGGCGAACGAAG -GGCAGGCGTGCTTTATCGGCTACGGTGGGATGTTAATGGAATCCTTCGTGGCGATTATGGCGCTGGTTTC -CGCCTGTATCATCGATCCGGGCGTGTATTTTGCCATGAACAGCCCGATGGCGGTGCTGGCTCCGGCAGGG -ACGGCGGATGTGGTCGCTTCTGCCGCGCAGGTGGTGAGTAGCTGGGGCTTTAGCATTACACCAGATACGC -TAAACCAGATTGCCAGCGAAGTGGGTGAACAGTCGATCATTTCCCGTGCGGGCGGTGCGCCGACGCTGGC -GGTGGGGATGGCCTACATTCTGCACGGCGCGCTGGGCGGCATGATGGATGTGGCGTTCTGGTATCACTTC -GCCATTTTGTTTGAAGCACTGTTTATTCTGACGGCGGTGGATGCAGGTACGCGTGCTGCGCGCTTTATGT -TGCAGGATCTGCTGGGCGTGGTGTCTCCTGGCCTGAAGCGGACCGATTCACTGCCTGCTAACCTGCTGGC -AACAGCGCTGTGCGTACTGGCGTGGGGCTACTTCCTCCATCAGGGCGTGGTCGATCCGCTGGGCGGCATT -AACACTCTGTGGCCGCTGTTTGGTATTGCCAACCAGATGCTGGCAGGGATGGCGCTGATGCTCTGTGCCG -TGGTGTTGTTCAAGATGAAACGTCAACGTTACGCCTGGGTGGCGCTGGTACCAACGGCCTGGCTGCTGAT -TTGTACCCTGACCGCAGGCTGGCAGAAAGCGTTTAGCCCGGATGCGAAAGTCGGCTTCCTGGCCATTGCT -AATAAGTTCCAGGCAATGATCGACAGCGGCAATATTCCGTCGCAGTATACTGAGTCACAGCTGGCGCAAC -TGGTGTTCAACAACCGTCTGGATGCCGGGTTAACCATCTTCTTTATGGTGGTCGTGGTGGTTCTGGCACT -GTTCTCGATTAAGACGGCACTTGCGGCATTGAAAGATCCGAAGCCAACGGCGAAAGAAACGCCGTATGAA -CCAATGCCGGAAAATGTCGAGGAGATCGTGGCGCAGGCAAAAGGCGCACACTAAAGTCAGAGTGAGGGGG -GGATGTTGGCGAATGTTGGCTTAGTGCCCAGGGTTCCCTCTCACCCTAACCCTCTCCCCGGTGGGGCGAG -GGGACTGACCGAGCGCGTTGATAGCATTTGTAGGCCGGATAAGGCGTTCACGCCGCATCCGGCACTCTTT -CAGCAACATGGTTAGCGGAGGCCAAGATGTTTGATTCACTGGCAAAAGCCGGAAAATATTTAGGTCAGGC -GGCGAAGCTGATGATTGGTATGCCTGATTACGACAACTATGTCGAACATATGCGGGTTAACCATCCCGAT -CAAACGCCGATGACCTACGAAGAGTTTTTCCGTGAGCGGCAGGACGCGCGCTACGGTGGAAAAGGCGGCG -CGCGCTGCTGCTAAATTTGTACGTCAGGCTTTAAACGATTCCACTTTTTTGAACGCTGCACGCAACGTAT -CTGGTGTCAGCGTGACTGGCAGGTAATGAATGGACTCCACCGGACGCAGGGTGTGGGCAATCACTTTGTC -GATCTCCGCCTGATTATTGATATCCACTTCCAGCTCCGCCAGTGTAGTCGGCAGATGAAAACGCTGATAC -GCTCCAGTTAATTGCGCCAGCACATCATCCTGACCCAGCAAGGCGCTTTGCACCAGAATTCCGTAGGCGA -CTTTGGTGCCGTGGAGAAACTTCTCGGTTTGCGGCAGCACGGTCAGACCGTTATGCACGGCATGAGCTGC -CGCCACACGCGTAAAACGATCGCCCAGACCACCAACCATCCCACCACCAGCAATAATAGCATCCACCACA -TCGCAAAATGATTGCGTTAACTGTTGATTTTGCTGATCGCTCAGCGCCTGTTCGCTACTGTTTAACAAGA -CGTCGCGAATGGCTTGCGCATTATTGATCCCCAGTCGCACGGTTAGCGGCAACGTTTCTGGTTGCGGAGC -CAGCACCACCGCTTCATACCATTTCGCCAGCGTGTCACCGATCCCCGCCAGCAGATATTGTTGCGGTGCA -TTGAGGATAATCTCCGGTTCCACCAGCACCATAAAATTGGCGTCGTCGAAAATCTCATAATGCAGCGCCT -GTCCGGCATCATTATACCAGACGGAGAGCGGTGTCCAGGCGGCGCAGGTGGCGGCGATCGTCGGAACGGC -AACAAACGGCAGACCGAGACGGCGGGCGAGGGCTTTCGCGGTGTCGAGCAGTGCACCGCCACCGACGCCA -ATCACCACGCTGCGGTCGTCACCGGACTCAGCCGCCAGTTGTTGTACATCGCTTTCGCTGCAATGACCGC -GAAACAAAATATGCTTTGCCCCTGGCAGTCCAAACGCTGGCGGAAGTTTGGTTTGCGCCGCAGCAATGGC -GCGTTTGCCGTAGATCCACACCGCGCGAGAAAGTTGTTCATCAGTGAAAAAATCGTGCAGGTGATTGAAA -CTTCCTGGATGTGAAAAGTAGTTAGCCGGGCCGACGACCACGCGGATAGGATTGTGAGGCATGTTGTGTT -GTCCTTATTGTTTTATTTAGACATCTAAACGTCTTGATTGCCAAATACTAGCATCGTGTTATAGTGCCTT -CAACACGCAACTTCGTCAGGTACAATAAAAATGACAAATAACCCTCTGATTCCACAAAGCAAACTTCCAC -AACTTGGCACCACTATTTTCACCCAGATGAGCGCGCTGGCGCAGCAACACCAGGCGATTAACCTGTCGCA -AGGCTTTCCTGATTTTGATGGTCCGCGCTATTTACAGGAGCGGCTGGCGCACCACGTTGCACAGGGGGCA -AACCAATACGCGCCCATGACCGGCGTGCAGGCCTTGCGCGAGGCGATTGCTCAGAAAACGGAACGTTTGT -ATGGCTATCAACCAGATGCCGATAGCGATATCACCGTAACGGCAGGGGCGACGGAAGCGTTATACGCGGC -GATTACCGCACTGGTGCGCAATGGCGATGAAGTGATTTGTTTTGATCCCAGCTATGACAGTTACGCCCCC -GCCATCGCGCTTTCTGGGGGAATAGTGAAGCGTATGGCACTGCAACCACCGCATTTTCGCGTTGACTGGC -AGGAATTTGCCGCATTATTAAGCGAGCGCACCAGACTGGTGATCCTCAACACTCCGCATAACCCCAGTGC -AACTGTCTGGCAGCAGGCTGATTTCGCCGCTTTGTGGCAGGCGATCGCCGGGCACGAGATTTTTGTCATT -AGCGATGAAGTCTACGAGCACATCAACTTTTCACAACAGGGCCATGCCAGTGTGCTGGCGCATCCGCAGC -TGCGTGAGCGGGCAGTGGCGGTTTCTTCATTTGGCAAGACCTATCATATGACCGGCTGGAAAGTGGGTTA -TTGTGTTGCGCCAGCGCCCATCAGCGCCGAAATTCGCAAGGTACATCAGTATCTGACCTTTTCGGTGAAT -ACCCCGGCACAGCTGGCGCTTGCTGATATGCTACGTGCAGAACCTGAGCATTATCTTGCGTTACCGGACT -TTTATCGCCAGAAGCGCGATATTCTGGTGAATGCTTTAAATGAAAGCCGGCTGGAGATTTTACCGTGTGA -AGGTACATACTTTTTGCTGGTGGATTACAGCGCGGTTTCTACCCTGGATGATGTTGAGTTTTGCCAGTGG -CTGACGCAGGAGCACGGCGTAGCGGCGATTCCGCTGTCGGTGTTTTGCGCCGATCCCTTCCCACATAAAC -TGATTCGTCTCTGTTTTGCCAAGAAGGAATCGACGTTGCTGGCAGCAGCTGAACGCCTGCGCCAGCTTTA -GCTATTTAACCGTCCAGGCGCGGGAATATTGACGGTCGGCAAACAACTCTTGCAGGCCGTTAATTTGCTT -CAGGCGCAGCACTTCGTCGCTGTCCATTCCCAGCTCTTTGCCAATTTTATTATCGTCCCATCCCAACTGG -CTAAGTTCACGGACGATTTCCGACATGGCGGTGATTTGATGGCGTCCACGAGCGCGATTATGACGAATAG -TCGCGGCGATGCGTTGATTACGCGTACCTTCCAGACAGGTCACCGGCAAATAACCTTTTAAGCGTAATTT -TAATGATGATGAGCCTTTACCAATTTCATGGCGGTGAAAACCATCCACGATTTCCATGGCATTTTTATCC -GTATGTGTGACCACAATGGGTTGGGTAAAACCATCTATTTCAATGGATTTTTGCAGCAGTTTTTTTTCGG -GTGGTGCCACGTTGTTTGGGTTGTAATCATTAGGCATAAGTTGGCTGTTTTTAACCCACAGAACGCAATC -CACTGGCTCTTCACGAAAGGGGCTAACCTGATGGATCGCCATGCGGATTTCATTAATCGCTTTGATGCGA -TCATCTTCCGGCAAGCTGGCGAGAAATTGCGTTAAATCCTGCGTTAATCGTTGTTGCATAGTATCCCCCA -TTCCTGACGTTTTCCTTTTATCCGTTCGTTATAACGCTGATAGTTCTTCGATTTTGTGGGGCTAAATGAT -AATGCCCGACACCAGTAATCGTTATTGAGTAAAACTTTGCATATCCGCCGCCAGGAGGGGATATCTTTCG -CGCCAATGTCCCCTTGCTGGGTTTGTGGAACCTCGATGCCTTTTTTCTGATACCAGTGCAAATAAATGGC -GATTTTATTGCGGTAATGCTCAGCTGTTTTTTCCGGCATGCTATTGAGCAGCAATAATGCATATTCTTGC -CAGTCTAAATGTTCTGGCTTGAGGATTTTCCGATGCCCATAGAAATGATTGTCATGTCCGGCGTAAATGC -CGCCACTTTTTACCCCGCTGACTCGTGCGCACATAGCAGCCCAGCGATCCGGTTCGATAACGTGATAGAG -CCATAATCCTTGTCGTTGCTCCGGGCCAAAAGGTTCGCAAATTCGCATATGACGCAGAGGAACGCCTGCC -TGATACATTAGGTTATACAGTGGGTTGCAGAGACTTTGATGATTTGCATACCAGGTCCAGATATCAGCCA -CTTTCCAGTCGTAAATGGGGTAAATGTACCAGCTATGACCGCCTGGTGCGGCCGTAGTCCAGGGTTTATC -GTCGGCAAAACGTTGTTTATTTAAACTGGCGATGGCGACAAAACGGTTGTAGGACTCATCCGCACGGATG -CCGATCATCATCGCCGCCGGACGTTTTTGTGAAAACCATTCGGCAAACTCACGTACAAATTGTTCGAAGG -TCATGCCTGGCTGGTAAAAGCAGAAAAAGTCAGGGTCGGTTATCGCATCTTGGGGAGGTTGACGTACCCA -TTCGACATCAGGTTCCCAGCACTGCCATTCGGGTTGGTATTGTGAAAGGGAATTTTGCGTCGTAAGCGGG -AGCGCAACCCAGTAAAACTCTTCGATGACATCGGTGTACAACTCGCGCAGGGACTGAACATAGTTAATGG -TGCAAGAGAATTGCGCCTCCCAGTCGATAAACAAAACGCAGATTTTTTTGCCCATTTGTCGGGCAAGTTC -GGCTGTCAGATGCAGCATTAAACCAGAGTCTTTGCCGCCAGAAAATGAGACACAAACGCGGGGTAGGGTG -TTGAGTGTCCAGGTAATACGCTCTCGTGCAGCTTCCAGAATATTGAGCGGAAGAGGAATTTTATAAATAG -ACATCTGAAGACGCTCTCTGAACGTTACAGGGTGATCAGTGAGATAAGTCTGTTAATTATAAAGTAAACA -CTGTAAAGCAGAGTGTTTTATTTTTCATTCGCGCTGTGAATAAATAGATGAAAGTTATAGTAGCTGTCTG -TAGTTATATATCAAAAACTCTCATTTAGACGGTCAATAAATCGGGAGAACACCAAATTATTTAAAGAAGA -TTTATTATAGGAAATGTAAAGCTTTATTGAAGGTAACGGATGTTCTAGTTTTATCTCTTTTAAGTTAAGA -AAGTCACGGTAGGAATTATAAAGTTCATAGGGGACTATTCCCAGTAAATCTGTAACTGCAATGCTATTAA -TGATTGTCAGCAAAGAGGAACCACGAAATGAGATTTTGCGATTCATAAATCTCTCGTCTATTTCCATTTG -AATATCATCAACCCCTGCTGATTTAGATATTAATTGGGTGAACTCTTCTGCCATAATTTGTTCATAAGTG -CTATTGTCAGTAATTCGTGGATGCCTATTACTACAAATTAGAGTATTGCGAATCGTATGCAATGGCATGC -AAATGACGGAACGGCTGATCACTGGCATTTGGGTGATCACCAGATCGGCTTTGCGGTGAACCAACAGTTC -TTCAGCATTCTCTGCTGACATGAGGATATCATGGCACTCAATCTCGACAGAGGAATCTTGCCGTAGGCAG -CGGATCAGCATACTATTATTAGAGCAAGAAATGAGCTGAGGGCCGTAGATAATAAAGTTTTTCTTTAGTT -CGGACTTATTGACTATATTAATTGTTTGTTCAAGGCCTCTGAGATTTTTCTCAAGATGGTGATGCAGATT -TAACCCTGTTGTCGTCGGCGCGATACCTTTTCCTGAGCGAATGAATAAAGGGTCATTAAATTGCGCACGT -AAGCGTTGTAACGACTGGCTCACGGCTGATGGGGTGATATATAGTGATTCAGCAGCTTTGCTAATGCTTA -AATGCTGGTAAATACACTCAAATATGACAAGAAGATTTAAGTCGAACTTTTTCAAGTCGTAGAGATTGGC -CATACACTACTCCGGTTATATTTTTCTTCCATGATATATTCACTTAATCAATGTTTTTTGCGTATATATT -TTTATTGATTATGTTTTTTTGCTTAACTCAGGATTAAGTTTTTCTAAAATAGCACAGCCACTTAGGGCAG -AGCGAGCAATTCATGCTTTTTTAGGATGGTTGAAAAGCAGGGATATAGTTCAACCATCCATGAATTACCT -TTTATTTATTCCCCATAATGATATTAAGCGTTTTCTGATCGGGCAACCCCACGGCCTGTTGTAGCGTATT -TTCCTTACTCATGTAATAGATAGCCGGCGTGACATTTGCCCCCAGATCGTCCATCAGTTTCTCATTGTCA -CTTAACACTTTCATTTGCTCTGTACTTACGTTTGCAGGCACGTTTAGCTTAAGCTTGCCACCAGAGGCTT -CATATTGTTGCCAGGTTTTTGCGGGATCTTTGGAGGCAAGAATTGCCGCTGCTGTCGCCGGGCTTTCTGG -CTTGATAACCCCAACCAACAATGTTCTTAATTGCACTTTGCCAGAATCTACCCACGGGCGCGCCTGCTGC -CAGAACTGTTTACAATATGGGCAGAACGGATCGGCGAAGACGTAGACAATGACCGGCGCATCTTTTTTAC -CGTCGAGGAGCCAGTGGGATTGTTCCATCCGTTGCCACATTTCGCGTCCGGCTGGTGCGTAAATTTCTTT -TTCGATAAGTGTGTTACTCAGGTTTTCACCTTTCTCGTTGTACATGTAACCAGAGATAGCGTGCTTACCA -TCTGGAGTCAGGTAGATGGTGACGCCCATATCCTGATACTTTCCGAGATAACCTTTCATTCCTCCGGGGG -CATCGAATGTTTTGATGATTGTAATGCCCTGTTTTTCAATCGCTTTTACTGGAGCAGGAAGTTCCTCTGC -GAAGGCGATTGCAGGAAGCAGAGCCAGTAAAAGTATCTTTTTTAACATTAATTTGTCCTTTTCAGTCAGT -GCAAAAGTCGAGTAAAAGGCATAACCTATCACTGTCATAGGTAAGAGCTTAGATCAGGTGATTGCCCTTT -GTTTATGAGGGTGTTGTAATCCATGTCGTTGTTGCATTTGTAAGGGCAACACCTCAGCCTGCAGGCAGGC -ACTGAAGATACCAAAGGGTAGTTCAGATTACACGGTCACCTGGAAAGGGGGCCATTTTACTTTTTATCGC -CGCTGGCGGTGCAAAGTTCACAAAGTTGTCTTACGAAGGTTGTAAGGTAAAACTTATCGATTTGATAATG -GAAACGCATTAGCCGAATCGGCAAAAATTGGTTACCTTACATCTCATCGAAAACACGGAGGAAGTATAGA -TGTCCTTGATTAACACCAAAATTAAACCTTTTAAAAACCAGGCATTCAAAAACGGCGAATTCATCGAAAT -CACCGAAAAAGATACCGAAGGCCGCTGGAGCGTCTTCTTCTTCTACCCGGCTGACTTTACTTTCGTATGC -CCGACCGAACTGGGTGACGTTGCTGACCACTACGAAGAACTGCAGAAACTGGGCGTAGACGTATACGCAG -TATCTACCGATACTCACTTCACCCACAAAGCATGGCACAGCAGCTCTGAAACCATCGCTAAAATCAAATA -TGCGATGATCGGCGACCCGACTGGCGCCCTGACCCGTAACTTCGACAACATGCGTGAAGATGAAGGTCTG -GCTGACCGTGCGACCTTCGTTGTTGACCCGCAGGGTATCATCCAGGCAATCGAAGTTACCGCTGAAGGCA -TTGGCCGTGACGCGTCTGACCTGCTGCGTAAAATCAAAGCAGCACAGTACGTAGCTTCTCACCCAGGTGA -AGTTTGCCCGGCTAAATGGAAAGAAGGTGAAGCAACTCTGGCTCCGTCTCTGGACCTGGTTGGTAAAATC -TAAATTTCCTTCGTCTTTCACGCCATAGCGGCGTTGGCGTCGCCCGCTCACCCCGGTCACTTACTTGTGT -AAGCTCCCGGGGATTCACAGGCTAGCCGCCTTGCTCTGACGCGAAATACTTCGGAAATTCACCTAATTCT -TCGGGTGCTGCGGCACCCGATTTTCTTCCCCGCACCATGATGCAAGCTGCATCCAGGTAGCCGCAGAGGC -CGCTTGCATGATGATGTTTAAAGCCCAGGAGATAAACATGCTCGACACAAATATGAAAACTCAACTCAAG -GCTTACCTTGAGAAATTGACCAAGCCTGTTGAGTTAATTGCCACGCTGGATGACAGCGCTAAATCGGCAG -AAATCAAGGAACTGTTGGCTGAAATCGCAGAACTGTCAGACAAAGTCACCTTTAAAGAAGATAACAGCTT -GCCGGTGCGTAAGCCGTCTTTCCTGATCACCAACCCAGGTTCCAACCAGGGGCCACGTTTTGCAGGCTCC -CCGCTGGGCCACGAGTTCACCTCGCTGGTACTGGCGTTGCTGTGGACCGGTGGTCATCCGTCGAAAGAAG -CGCAGTCTCTGCTGGAGCAGATTCGCCATATTGACGGTGATTTTGAATTCGAAACCTATTACTCGCTCTC -TTGCCACAACTGCCCGGACGTGGTGCAGGCGCTGAACCTGATGAGCGTACTGAACCCGCGCATCAAGCAC -ACTGCAATTGACGGCGGCACCTTCCAGAACGAAATCACCGATCGCAACGTGATGGGCGTTCCGGCAGTGT -TCGTAAACGGGAAAGAGTTTGGTCAGGGCCGCATGACGTTGACTGAAATCGTTGCCAAAATTGATACTGG -CGCGGAAAAACGTGCGGCAGAAGAGCTGAACAAGCGTGATGCTTATGACGTATTAATCGTCGGTTCCGGC -CCGGCGGGTGCAGCGGCAGCAATTTACTCCGCACGTAAAGGCATCCGTACCGGTCTGATGGGCGAACGTT -TTGGTGGTCAGATCCTCGATACCGTTGATATCGAAAACTACATTTCTGTACCGAAGACTGAAGGGCAGAA -GCTGGCAGGCGCACTGAAAGTTCACGTTGATGAATACGACGTTGATGTGATCGACAGCCAGAGCGCCAGC -AAACTGATCCCAGCAGCAGTTGAAGGTGGTCTGCATCAGATTGAAACAGCTTCTGGCGCGGTACTGAAAG -CACGCAGCATTATCGTGGCGACCGGTGCAAAATGGCGCAACATGAACGTTCCGGGCGAAGATCAGTATCG -CACCAAAGGCGTGACCTACTGCCCGCACTGCGACGGCCCGCTGTTTAAAGGTAAACGCGTAGCGGTTATC -GGCGGCGGTAACTCCGGCGTGGAAGCGGCAATTGACCTGGCGGGTATCGTTGAGCACGTAACGCTGCTGG -AATTTGCGCCAGAAATGAAAGCCGACCAGGTTCTGCAGGACAAACTGCGCAGCCTGAAAAACGTCGACAT -TATTCTGAATGCGCAAACCACGGAAGTGAAAGGCGACGGCAGCAAAGTCGTTGGTCTGGAATATCGAGAT -CGTGTCAGCGGCGATATTCACAACATCGAACTGGCCGGTATTTTCGTCCAGATTGGTCTGCTGCCGAACA -CCAACTGGCTCGAAGGCGCAGTCGAACGTAACCGCATGGGCGAGATTATCATTGATGCGAAATGCGAAAC -CAACGTGAAAGGCGTGTTCGCAGCGGGTGACTGTACGACGGTTCCGTACAAGCAGATCATCATCGCCACT -GGCGAAGGTGCCAAAGCCTCTCTGAGTGCTTTTGACTACCTGATTCGCACCAAAACTGCATAAGAAGAAG -TAAGATTCACCTGCAATTGCTTAGCCGCCGGGGTCAAACCTGGCGGCTTTTTTATGGCATTAAAAAGCCC -CGCCGGGATGGCTCCGGGCAGGGCGGGATACTTATTCTGGCAATTAACGCACAACCAGCACCGGCAGATT -GGCGTGGCGGATCACGCTCGAGGCGTTAGAACCTAACAGATGGGTCGAAATCGATGGGTTGCGAGAACCA -ATAACTACAACATCAGCCCCCAGTTCTTCTGCCAACTCATTGACTTCATCCCGCACGCTACCAAAACGGA -CATGTTGTTTAATGCGGGAAGGATCGATGGTGAAGTGGCTGACCATCGTTTGCAGACGTTCTTGTGCTTC -ATGTTGCAGATGCTCTTCAAAACGACGCACATCAGCGGCAAAACGGTGCAGGCTCAGGCTGGCTGACCCG -GGTAGTACGTGAAGTAGATGAATAACTCCGTCATCCTGGGCGAGGAATTCAGCGTGGCGAACAGCTTTGT -CGCTCAATTCCATTTCAAATACATCAACTGGCATAATGATTGTCTTATACATAACCCTTTCTCCCTGTTA -ATCATGAACAAATCATTCGCCATGATTATAATATTTATCCCTGATATTTGTCTGGTTCTTTTTCCTTACG -AACTGTTTCTGTGATGAATATATTCTCACTGAACACCAGGAATTCTCCCAAAACCTGTGGTACCGCCCGT -TTTCCCGCTGTGATAGCTACCCTTAAAGACTGACTCTTTTTTGAACTGTCTCTGGAGGTTGCATGAAAGC -ATTGACTTATCACGGCCCACATCACGTTCAGGTAGAAAATGTTCCCGATCCGGGCGTTGAACAGGCAGAT -GATATTATTCTGCGTATTACGGCAACGGCGATCTGTGGCTCTGACCTCCATCTTTATCGAGGCAAAATAC -CTCAGGTTAAACATGGCGATATTTTTGGTCATGAATTTATGGGGGAAGTAGTTGAAACCGGAAAGGACGT -AAAAAATTTGCAAAAAGGCGACCGAGTGGTAATTCCGTTCGTCATTGCTTGTGGCGACTGTTTTTTCTGT -CGATTGCAACAATATGCCGCCTGCGAAAATACCAATGCGGGTAAAGGCGCTGCGCTCAATAAAAAACAGA -TACCAGCTCCAGCGGCATTGTTTGGTTATAGTCACCTGTATGGCGGCGTTCCTGGTGGGCAGGCGGAATA -TGTCCGCGTCCCTAAAGGGAATGTGGGGCCGTTTAAAGTACCGCCTTTGCTTTCAGATGATAAAGCGCTT -TTCCTTTCTGATATTCTGCCAACGGCATGGCAGGCAGCAAAAAATGCGCAGATCCAACAAGGTTCAAGCG -TTGCAGTCTATGGTGCTGGTCCTGTGGGATTGTTGACAATCGCCTGTGCACGGTTGCTCGGTGCGGAACA -GATTTTTGTTGTTGATCATCATCCCTACCGCTTGCATTTCGCCGCCGACCGCTACGGCGCGATCCCGATT -AATTTTGATGAAGACAGCGATCCGGCACAGTCAATTATTGAACAAACGGCAGGTCACCGGGGCGTGGATG -CAGTAATAGACGCCGTCGGTTTTGAAGCGAAAGGCAGCACCACGGAAACGGTGCTGACTAACCTGAAACT -GGAGGGCAGCAGCGGTAAAGCGTTGCGTCAGTGTATTGCGGCGGTCAGGCGTGGCGGCATTGTTAGCGTA -CCGGGCGTCTACGCTGGATTTATTCACGGTTTCCTGTTTGGCGACGCCTTTGATAAAGGGTTGTCGTTTA -AAATGGGACAGACCCACGTTCACGCATGGCTGGGAGAATTATTACCGTTAATTGAGAAAGGATTACTGAA -ACCAGAAGAAATTGTTACCCACTATATGCCGTTTGAAGAGGCCGCCCGGGGATATGAGATTTTCGAAAAA -CGTGAAGAGGAGTGCCGTAAGGTGATTCTGGTACCCGGTGCACAAAGCGCAGAGGCGGCGCAGAAGGCGG -TTTCAGGTCTGGTGAATGCGATGCCGGGGGGAACAATATGATCGTCAGGAGTGGTTTTCGAGGTAAAGGA -CAGCCATGACGATAATCGCCGCCATAATCAGAAATCCTATCAGGATGTAAAATGCTTCTGCCATGGTTAT -TCCCACAAACGAAACGGAATAATTTTGCAGCAAAAGTGAACAGTGAGAACCAGGAAAAATTGCTGATTTT -GCGTAAAGAGGATGCGAGTGCATCCTCTGGGCAAAGCGAGTTATCGCTTGTGCAGATGGGATTAAAGCAG -GTAGTCGCCAGCAGCTTCTGGCTGGTATTCGAGTTCCAGCACTTCAAGGTGGGTTGCAACGCCGCCCGGA -AGTTCCCAGTGAATGGAATCGCCAACGCGCAGCCCCAGCAGTGCGGCACCTACCGGAGCCATAACGGAAA -GCTGAGTATTGCTATCGGTCATTTTTGCCGGATACACCAGCGTGCGCACACGCACTTCGCCATCGCTAAG -ATTGCGGAATTTAACCCGGCTGTTCATTGTCACCACGTCGTGTGGCATCTCTTCTGGCGAACACATTTGG -GCGCGATCCAACTCTGCGTTTAACGCGTCGGCGATTGGCAAACCAGCATAGGCGGGTTGCTCCAGCAGAA -TATCGATGCGTTCGGCATCCAGGTCGTTAATGATGATAGTTGGTCTGGACATTTTTACTCCATGTCGTCG -GTGCTGCGAGTGTCGCAGATAAACATACCCAAAAGAAAACCCTCACCGTCAGGCGGCGAGGGTTTAACTC -ACATGATGATACTGACTGTTGCTCACTCTTTGAAGTGATTTGCGTCACATTCAGGGAATTCCTCAATGCA -GCGCATTATGTATAAATCTTAATCGCCTTGGTTTATGGAAGACGAATTAGCGTGTTTTGTAAATCAGATG -ATTAATAACCCGCTTTATCAATCACAAAGGTTTTGCCACAGTTACCTGGGTGAGGTTGTGGCAAGAATGA -GTTTGCAGAAAGCGGAGCGTTGATGGCGTCAGCTTTGATCGAGATCTGAATTTCAGTCAAATACGCAGGG -TTACCCTGGCACGTTAGCTTAACTGCTTTCACGTTCTCTTTTCCCCAGCTTTTGGCAAAGGCGGCGTCAA -AGTCACGGCGGCTCACTGTTTTACCGTAATTATCCGCAAGGAATTTTCCGGCTTCGCTCTCTTTAATTTC -TTGATTCAGGCGTACCATCGTACCGAAGTATGCGTCCGGATCAAAACCAAAGCAGGCACCGTGTTTGGCA -TATTCGTAGCGTTCCAGGCAGGAACGTCCGCCAGCTCCTGGCATGACTTCACTTAGTTTAGCGGCCGTTT -CCAGTGATAATCCGGTTTCCGGCGATGAACACATTCGGCTGGCGCGCGCTTCTGGTAGATTCGGGATTGG -GCGAGTAGCGCAACCGAAGCGCATCCAGCGGCGTTCATCAACACCACGGGCAGCAACCGATTTAGGCAAT -CCTGGCCACAGACCATGTACGGTCAGAAAATCAGCTTTGTTGGTCGTTTCGGTTTGCAGGCGACATTCAT -CTCGTTCGTTACGATTTCGATCGTGTTGACTCTGGCAAAATCCGGTTTGCCAGGAGAGGGCCAGGACATA -GCGATCAAAATCGCCATACTGTTTTGCCTGCAACGCTAAGGCGTTGGCAGAAGAGAAGGGAAGCAGAGAA -ACCGCGAGCAACGCGGCGTTACGCCAGAATGCTTTCATAATGGGTGTGGAACTCATACATACACTGAATA -CTATCTATTAAATCATAAAAAAGCCCGCCAGGTGGGCTTACCTGGCGGGCGTGATGATTTATTCAGCGTT -TGGCGAACGTATTAGTTCCACATGGCGAGAATCGGCCAGCCAACCAACAGCAACATAGAGATGTAAATCA -CCCCGAAGATTGCGCCAAGACGCCAGTAATCTTTTGATTTCACATAGCCACAGCCGTAAATAATCACCCC -AGGACCGGTTGCATACGGCGTCAGACAGCCCATGATACCGATAGACAGCACCAGCAGGATACACAGTTGT -TCCATTGGTACGCCCGGAATACCTTTACCGACGGCCAGAATAACCGGCAGCATGGTTGCGGTGTGCGCAG -ACAGGCTGGCAAACAGGTAGTGTGCAAAGTAGAACACCAGAACCAGTACAATCACCGTTGCGTTTGGTGA -GAATCCTTCCAGGTGCGTACTCATGGTACCGGCGAACCAGTCAATAAAACCAGAACGAGTCAGGCCGTTA -GCCATCACAACCAGAGTTGCCAGGTTGACCAGTGTGTTCCATGCGCTGTTATAGCGGGTAATGTCTTTCC -AAGGCACAACGTGCAGGGCCAGCATTAGCGAAACTGCCAGCAGACCAACCGCAGTAGCATTAATGACTTC -ACTGCCAAATACCCACAAACCTAAGCTGAGCAATACAAGGCCAATCAGTGTCCACTCTCTGCGTGTCAGC -GCACCCATGGTTTTCAGTTCATCACCCGCCCAGGTTGCCACTTCTTCACTGTGTGTGATTTCCGGTTTGT -ACAGCACGTAGGAAAGCCACGGCGCAATGATAAGCAAGATAACCCCAACCGGCAGGAAGCAGAGGAACCA -CTGCAACCAGCTAATCTGGATACCGGCAATTTTGCTGACGAACTCCAGACCCAGCACGTTTGGTGCCGCA -CCGGTGACAAACATGGACGAACTCAGACTGGTACTAATGACCATCATCCACATCAAATAGCCGCCAATAC -GACGCGCGGACGGATCGTTCGGGAATGATTTAAACAACGGCGGCAGGTTTTTAATGACCGGAAAAACCGT -ACCCCCGGTACGCGCGGTGTTGGAAGGTGTAAACGGTGCCAGCAGAATGTCGATAATGACAATCGCATAA -CCCAACGTCAGCGTGCGTTTGCCCATGAATTTCACCAGGAAAAGGGCAATGCGACGACCTAACCCGGAAA -CTTCATACCCTAATGCAAAAATAAATGCGCCAAATACCAGCCATACCGTGGTGCTGGAAAAACCAGCCAG -GCCCCATTTCAGCGCCTGTTTTTGCGCATTAAACGCTGGGTCAGCTAATTCTTTGGCATCAAAGAGCAGG -TAATTACTGCCAATAACGCAAATAGTAACCGCAATAAAACTGATCGCTGTTGCCGGAATTGGCTCGAGGA -TCATGCCGACAATCATTGCCACAAACACAGCGAAGTAATGCCATGCCTGCGGCGGCATACCGTCGGGGAC -AGGGATAAGAAACATGACACCCATCACCACCAGTGGGGCCAATAGTTTCCATATATTATCTTTTGCTAAA -GACATACGGGTTCTCCGAAAATTAATATTTCCAAATTTATCAAGTGCTTAAATAATTAAATCTGTGCTAA -AAACCAGGTAAGGATCAGTAGGTCAGCACTGCCGCCTGGACTGAGATTTCGTTCGATACACTCCCTGTCG -AACTGCCGGAGATAATCGAGATCGGCGGGGGTTCGAATGCCCCCTTTTTGCAATAATGTTTGCGCCTCGC -GCTGTAGCCAGCGCAGGCCCCCCTCGCCACCGCGCGATGCAACGTTGGTATCGCCGTTGATCGCCATCAG -TAGGAGCAAGGTATCGAGCAATGCCAGTTCAGGATCTAACCCCTGATCCAGCAGAGTGAGGTAATGCGGC -AAGGCGTGATTGATCACCAGTGGATAACCCGCTTCGGCTTCACCGCGTGCGCCGGTAAGGCCAAGCTGTT -GGTACAACCGTTGACCTGCCGTCAGTTGTGAATTATTGGTACGCAGTTCGCGATCGGTCAGGCCACGGCA -GAAACTTGCCGCCGTAGAACAAACGGTTGTTGGCGTTACCGGTTGGTTGAGTTGAAGCAAACGGCCAATT -GCCGCACATAGCAGCCCTAAAGAAAAAATGCTGCCTTTATGCGTGTTTACGCCCGCAGTGGCGCGGAACA -TATCACCTTCGCAAGCCATACCAATTGGGCGTAATCCGTGGAGTACCGCTTCTGGTGCCATTTCCGCACT -ACAGGCACCAAATTCAATGAAACGGGGTAGCCAGCCCTGAATCGCCAGCGCGCTGCGGTGGAAATCTTCC -AGCGCCATATCTTTGTGCGCACCGCAGTTAATGCGATCCACGAGGCCTGGTTTCGGTGACAGATTGACTT -CAGTCAGCATGGCGCGCCAGCCCAGCAGGGCGTACTCATCGATTAATGACGTCGCAAGCTTTGTGGTTTT -AGTTGACGTTGCAGGCATCGACATCGTTCAGCAGTGCCTCCATGCGGTTGAGTAAATCGGTCAGTTGATG -GGTTTTTCCACGCGCGCAGACGGCTGCGCTTTGTTCGCACAACAGGCAGCGGCGAGGCGGCAGTGAATAG -TCGCGGCGGGAGAGAATTTCGCCTTCGGGCGTCAGGACATCGATATCCCATAACCGCCCGAGAGGATGAC -TATGTTCAAGCTCAATGGTGGCGAGCTTGAGGTCGCGAGCCGGGGCGGCAATGCTCAACATGCCCTCCGG -CCCGCTGGCGGAAACCAGTGCAGCCTGCTCCTGAATTTGCCAGCCCTGTTTTGCGGCTAAGGCACGCAAG -GCTGTCACGCCATGATTAAAAATTCGGCGTGTGACCTCGCTGTCTTTAATCGGCCCAGGCGCAACCACGG -TAAAGGAGACCAGTGGAACAGGATGGCGCTTGAGCCAGACGTGTTGCCGTGCTTGCCTTTCATCCCGGCT -GACGAGCAGCTCGGGAATTGATACCGCATGGTGGCTGGCGAGTTCAGGAAGCAGGTGCATGGCTTATTCC -TTCACCTGATGCACAACATCGATCACCGAGCCATCGCGGTAACGCACAACGGCAACGACGCGGTCTGTGA -ATTCAATCGGCTGTGGTTCACCGGTCAGCAGACGCGCACGTTCGCGCAGCCACTCAATGGAAACCACTTT -AATGCCCGCTTCCTGCAGACGTTCTGCCAGTTCCGGACGTGCCGGGTTAACTGCGATACCGTGGTCTGTG -ACCAGAATATCGACACTGGAGCCTGGGGTGATGCAGGTCAGTACGTTATCCACCAGAGTCGGAATACGAC -CGCGTACCAGCGGCGCGACGATGATGGAAAGCGCAGAGGCAATCGCGGTATCGCAGTGACCACCGGAAGC -ACCACGCAGTACGCCGTCAGAGCCGGTCAGCACGTTAACGTTGAACTGGGTGTCAATTTCCAGCGCGCTC -AGTACCACCACGTCGAGACGATCAACCGATGCGCCTTTCGAACCCCAGTTAGCGTACTGGTTGGCGCTGA -TTTCGATGTGATTGGGGTTACGGGCCAGCGATTGCGCAGCATGGCTGTCAAAGCTCTGCACATCCAGCAG -TTTGCGGATCAGACCTTTTTCGTGCAGGTCAACCATCGTCGCGGTAATACCGCCAAGGGCGAAGTCGGCG -CGAATATCGCGGCTACGCATTTTGTCTTCCAGGAAACGGGTTACCGCCAGCGATGCGCCGCCGGTGCCGG -TTTGCATGGAGAAACCTTCTTTGAAGTAGCCAGAGTTGACAATCACATCCGCAGCGCTACGGGCAATAAG -CAGTTCGCGCGGGTTAGTGGTCATACGGGTCGCGCCAGCGCCGATTTTTGCAGCATCGCCAACGCGGTCA -ACTTTGACGATCAAATCAACCTGATCTTGCTCAATGCTTGCCGGATTATGCGGATAAGGCAGCAGTTCTT -CGGTAAGCATCACGACCTGTTTTGCGTTGTCGGCATCAACTATTGCATAGCCGAGGGAGCCGCAGCAGGC -TTTACCGGTGTAGCCGTTGGCATTACCGAATTCATCACAGGACGGGACGCCGAGGAAAGCCACGTCGATA -TTCAGTTCGCCGCTCTGTACCAGATGCACACGACCGCCGTGAGAGTGGATCTGCACCGGTTCTGCCAGCA -GACCACGGGAGATCTCTTCCGCCAGTGGACCACGCAGGCCGGAGGTATAAATGCGGGTAACCACGCCCTG -GCGAATGTGTTCTACCAGCGGCGCATGGCAATCACTCAGGGAGCTGGACGCCAGGGTCAGGTTTTTAAAG -CCCATCTTCGCGATGACGTCCATCACCATATTGACGGTCAGGTCACCGCCACGGAAAGCGTGATGGAAGG -AAACCGTCATGCCGTCCTGTAAACCAGAGCGACGAATCGCTTCTTCCAGGTTGGCGCACAGTTTGCGATC -GCGCGCTTTTTCAGCCTGGTAGGTTTGCTTTGGCGAGTTCTGGAAAGCGGCAAGATCGCATTCAGCGCGA -CGATTCCAGGCCGCTACCCGTTCTTGTCGTTGAGATTGTTCAATTTTCTGCGTCATTTTGATTGCCTTAT -TCTTCGCGGATGCCGGAAAGTTCTGCACGGGAGAGCACCAGACGGGCGCGATCGATAACCGGACCGTCCA -CCATCTTGCCGTTCAGGGAAACCACGCCGAGGCCTTCGCGAGCGGCGGCTTCAGCGGCTTCTACGACGCG -GCGGGCGTGATCCACTTCTTTCTGGGTCGGTGCGTAGAGGTTGTGCAGCAGATCAATCTGACGCGGGTTG -ATCAGCGATTTGCCGTCAAAGCCCAGCTGTTTGATGTGGGCGGCTTCTTGCAGAAATCCGGCTTCGTTGT -TAGCGTCGGAATAGACGGTATCGAACGCCTGAATACCCGCAGAGCGCGCGGCCTGCAAAATGGAACAGCG -TGCGAACAGCAGTTCAGTTCCTTCCGGGGAGCGTTCTGTACGCAGGTTGCGCACATAGTCTTCTGCACCG -AGGGCGATACCGATCAAACGCTCGGAAGCGTGAGCGATTTCCACTGCGCGGGTAATCCCCAGCGGAGATT -CAATCGCCGCCAGCAGGCCGGTGCTGCCGGGTTCACGACCACAGGCTTTTTCGATACGCAGGATCTCTTT -TTCAATATCCAGAACATCCTGAGCGGTATCGGTTTTCGGCAGACGCACAACGTCCGCACCACCGCGAACG -ACGGCTTCCAGGTCGTTAACACCCCATTCGGAATCCAGCGCGTTGACACGCACAATGGTTTCAATATCGC -GATACAGCGGATGTTGCAGCGCGTGGTAAACCATGCGGCGGGCGGTGTCTTTTTCACGCAATGCTACGGA -GTCTTCGAGGTCAAACATCAGGGCATCAGCCGGGTAGATGAAGGAGTTGCTGACCATCGCGGCATTGGCA -CCAGGCACAAACAACATGCTGCGGCGGGTGCGAGTTTTACGTTGTTGCAGCGAAGCGGAAATCATTGGCA -ATCCTCCCATGGCAGAGCCGGGATACCGCTGGCGCGTGCCAGCAGGGCTTCCAGTCGTGCACGTAAAATG -CAGTCCAGTGCGCCTTTGTCATCGACATTCAGCTGTACGCCGCGCACGTTGTAGCGGGCGAGAACGTCCA -GAATGGTGGTGCGAATTGCATCGCCAAACTGTTTCTCAACGCTGCTATTGATTTGCAGGTCGATATCCTG -CGTATCGAGTGGGGCGATGCGTATCATCACATCCCCAGACTCAAGGGTGCCTGCAACGGCGGGCTGGTTT -ATTTTCATTTTTCACCTGTTTCTCATGCGGGGGTCTTTTGACGAGCTGCCGCGTCCTGGCGGGAGTGCTC -AAGCAGGTTCTGCAAATAATGCAGCGTGACTGCAGGGACCAGCGGCGCGATAGCCGTGAGATCGTTTTTC -GCCAGCAGTTGACGTACCCGGGAAGCGGATATCGGCATCTCCTGGTAACGCAGCCGCTCAATTTCAACCA -GTTCGATGGGCGGTGCGGAGATAGTCGGCGTTTCCAGCCAGTAGCGCATATCCTGGTTGTACTGGGCGGT -AACGCGACAAAAGGGTTCAGTACCGACAAAGCGGTGAGTTACACCCAGCGCGGGAGCGAGGTACTGACGG -AAAATCTTCAGATCAATTTCGGTGTAACAATGGTTAATGACGCTCTGTTCTTTAATGAAGTAGCAAGGGA -ACGTAGCGCGGGAGATGATGTATTCGGAGCCACGATGCACAGTCAGGCGTGGAATATCGGCGGTGCCTTT -TAACACCAAATCCAGCCGGTCTTCATAGGGGAAGCGTGAAGAATCTTCTTTGACTAAAAACAGATGCAAC -CAGTCGCACTGTGCCGCAGCCTGTTGAATCAGATAACGGTGACCATTCGTAAAGGGATTGGCGTTCATCA -CAATGCAGCCAATCTTGTTCCCTGGATGACGAAATTTTTTCAGCGATTCGGCATAGCGTTTCAGTCGCGT -GGCGCTGTTTTCCATCAGCACCATCACGCCGGGTACGCTGGTCAGCGTGGAAAAACCGCACTGGCGGAAC -AGCGCCTCGTATTCGGTTTTGGTATAAATAAACAGATGCGTGCTGTGCCGCTCATAGGCGAGGTTTATCA -ATTCAGTGGCTAATGTCAGCGCCAGTCCTTCACCGCGGACGGATTCACTGATAGCAACGCATTTAATAAT -ATTTCCGGCAATTCCACCGCACGCGATAAGCTTTTCATCGCGGGTTACGGTAATAAATACTTCGACTGTG -GTGTCAACGCTCAAATCATTTTCATGCAGGAATTGGGCGATTTCCGCCATTTTTTTATTTTCTGAACGTT -TTACGCGGGTGAAAATATCATTGCCGAACATAATAAATAGTATCCTGAAGGTGCATGTTGTTATCGATTT -GCAACGAATGTTGTTCAATGTTGCAAACTGATAACCTTTTATTTTCACTTGGGAGAAAGGGGGTGATCGA -GGTATATCTTTTTCTCCTTTCGCTATACATCCTAAGGAGTATTTCGGCGTGAAATTTTGATTTATTTCAC -ATAGAGTTAGTGGTTTTTTATTTATTTAATGATTTTAAGTTTTTTAATTAATGTAATTACGAAATGACTC -GCAGGTTTAAGTGATTTAATTGATTTAATGAATAAAATTTGCCACGATCATAATTAATATCTATGTATTT -TGATTCAACATTTTAATTACATCCGTCAAAGAGGCTCGGGACAACCCGCAAGGAAAACAATGTTGCAGCT -TAACGAGAATAAACAGTTTGCATTTTTCCAAAGACTGGCATTTCCGCTGCGTATCTTTTTGCTGATTCTG -GTGTTCTCAATATTTGTCATTGCAGCCCTGGCGCAATATTTTACGGCCAGTTTTGAGGACTATTTAACGC -TTCATGTACGCGACATGGCAATGAATCAGGCGAAAATTATTGCCTCCAATGACAGTGTCATCTCTGCGGT -GAAAACGCGTGACTACAAACGGCTGGCGACCATCGCTAACAAATTACAAAGAGATACCGATTTTGATTAT -GTGGTGATTGGGGACCGGCACTCGATCCGCCTTTACCATCCTAATCCGGAGAAAATTGGTTATCCTATGC -AGTTCACCAAACAGGGCGCGCTGGAGAAAGGGGAGAGCTACTTCATTACCGGGAAAGGGTCAATGGGGAT -GGCGATGCGCGCCAAAACGCCAATCTTTGATGACGATGGAAAAGTCATCGGCGTGGTGTCGATTGGCTAC -CTGGTGAGTAAAATCGATAGCTGGCGGGCTGAGTTTTTATTACCGATGGCAGGTGTGTTTGTCGTGCTGT -TAGGGATTCTGATGTTGCTGTCGTGGTTCCTGGCCGCGCATATCCGTCGGCAGATGATGGGCATGGAGCC -AAAGCAAATCGCACGCGTGGTCCGTCAGCAAGAGGCGCTGTTTAGTTCGGTTTATGAAGGGCTGATTGCG -GTGGATCCGCATGGTTACATTACCGCCATCAATCGTAACGCAAGAAAGATGCTGGGGCTGAGTTCCCCCG -GACGGCAATGGTTGGGTAAACCCATTGTTGAAGTGGTCAGGCCCGCCGATTTCTTTACCGAACAGATTGA -TGAAAAACGTCAGGATGTGGTGGCGAACTTTAACGGTCTGAGCGTTATTGCCAACCGGGAAGCTATTCGT -TCAGGTGATGATTTGCTGGGGGCCATTATCAGCTTTCGTAGTAAAGACGAAATTTCCACCCTCAATGCGC -AACTGACGCAAATAAAACAATACGTTGAGAGCCTTCGTACATTGCGACACGAGCATCTCAATTGGATGTC -GACGCTCAATGGTCTGTTGCAGATGAAAGAGTATGATCGCGTGCTGGCGATGGTGCAGGGGGAGTCTCAG -GCCCAGCAACAGCTTATTGACAGCCTGCGCGAGGCGTTTGCCGATCGCCAGGTGGCGGGGCTGCTTTTTG -GTAAAGTGCAGCGCGCCCGGGAACTGGGGCTAAAAATGATCATTGTCCCCGGTAGCCAGCTTTCGCAACT -GCCGCCAGGACTGGATAGCACCGAGTTTGCAGCCATTGTGGGCAATTTACTTGATAACGCCTTCGAAGCC -AGCCTGCGTAGCGATGAAGGAAACAAGATCGTTGAATTATTCCTCAGCGATGAAGGCGATGATGTGGTGA -TTGAAGTCGCCGATCAGGGCTGCGGCGTTCCAGAGTCTCTACGAGACAAAATATTTGAGCAGGGGGTCAG -TACGCGTGCTGACGAGCCCGGTGAACATGGCATTGGGTTGTACTTGATTGCCAGCTACGTAACGCGCTGC -GGTGGTGTTATCACTCTCGAAGATAATGATCCCTGCGGTACCTTATTTTCAATCTATATTCCGAAAGTGA -AACCTAATGACAGCTCCATTAACCCTATTGATCGTTGAGGACGAAACGCCGCTGGCAGAGATGCATGCGG -AATATATTCGTCACATTCCCGGATTCAGTCAGATATTACTGGCGGGAAATCTGGCGCAGGCCCGAATGAT -GATCGAGCGTTTTAAGCCGGGGCTAATCTTGCTCGATAACTATCTTCCTGACGGTAGAGGGATTAATTTA -CTGCATGAACTGGTGCAGGCGCATTATCCCGGCGACGTGGTGTTTACCACTGCAGCCAGCGATATGGAAA -CGGTGTCTGAAGCCGTACGTTGTGGTGTATTTGATTATCTCATTAAGCCCATTGCCTATGAACGGCTGGG -GCAAACGCTAACCCGTTTCCGCCAGCGTAAACATATGCTGGAAAGTATTGATAGCGCCAGCCAGAAGCAA -ATTGATGAGATGTTTAATGCTTATGCTCGCGGTGAACCTAAGGACGAGCTACCGACCGGCATTGACCCCT -TGACGCTAAACGCGGTGCGAAAACTGTTTAAAGAGCCTGGTGTGCAACATACGGCAGAAACGGTGGCGCA -GGCACTGACCATCAGCCGCACCACTGCCAGGCGTTATCTTGAATATTGCGCCAGCCGCCATCTGATTATT -GCTGAAATTGTTCACGGCAAAGTTGGCAGACCACAACGCATATACCACAGTGGGTGACATGATAAAGCCG -GAGGAAACTTGCCTCCGGCATTACTATTTACTTGCCTGTGACCGCTGCTGCCGTTCCTGGCACCATCAGC -TCTGTAGCAACGATAACAATCACCAAACCAACAAGCACCGGTACCGAGGTGCGTTTTACGACTTCAAACG -GCGAGATCTTCGCCATCCCGGCAACCGCAACGACTACGCCAGAAACGGGCGAAAGGGTACGGCCAAGGTT -TGACGCCTGCAGCATCGGGATAGTCAAATACGCCGGGTTAATGCCGGAAGAGTGCGCCAGTTTCGGGATC -ATCTCAACAAACGCATAAAACGGCGCATTGCCTGAACCGGTCGTGACTGCCGCCAGCATTGTCAGAATCA -CCAATACCAGCATCAGGATGATACTCGCCGAACCAAACGAGGTAGCGATAGAAATCAGACTTTGAATAAA -GCCGATGGTGCTAAGCCCCTGAGCGAATACCCCAGCGGCAACCAGCAGCATCACCACGTTAGCAAACGCA -TCTGCCATCCCGCGATAAGCCACTTCCAGACCAGAGAAAACTTTCTGGGTATTAAAGCTGCGGAGGAACT -CCAGAATGGAGGCAATCAGCATACAAATCACCAGAATAGTGATGATGTGTAATTGCGGACCCCATTTACC -GTCAAAAATCAGTACACCGATGATCGGCGTGAACGGCAAAATGGCATAAAACGCAGGAGCAGTGGTGGTG -ATTTCACTGACATCTAACATTTCATGAGAGATGTGCTCTTTTTTATCCAGATAACGTTGCCAGAAGAAGT -GGGCGATCGCCATGCCGATAATTGCAGCAATTGAGATAGGCAGCGTCGTTTTGAAGGCGAAGTCAATCAG -CGACATTTCGGAAGCTTGCGCCGCCAGCACCACATCCCCTGAAGTCGGTGCGAGAATAATCGCCGCCGGG -GAGGCACAAATGGCAGCAGCTGCGCCACGACTGATACCAACGTTTACCATCACCGGAAATAGGGTTGCCA -TCAGCAAAACACCCAGACCGGTTGCGGAAGAGACGGCCAGAGACATCAGACAGGCGACAAAATAGGCGGC -AATCATCAGCAGGTAAGGGGAGTTAATATACTGCAATGGTTTTGACGCCAGCTTGACCACCATATCATTC -GCGCCGATATGGGTCATGTAAGCGGCAAATCCACACAGCATCATAATCATCATGCCGAGGTCGCCGCCGC -GGCTCATTAGTAATATTTTAACGTATTCAACGATATCCGTGGCGCTGTAGCCTGTTGAAGCCTGGCTGGA -CGGTAACACTTTGTGCCCCATAATGGCACTGATAATCAGCAATAACAGGCCACCGACAAATAACACACCA -GTGGCGGAATACCCTTTAATGATGTAGCGAGCTACACCCACAATAACCACAACCCCAATAAGGAGCTCAA -TGAATGTCAGCATAATTTTTCCTGTCTCCAGGCCCCAAAGTAAATAATAAAAAATTCCTAAAGCTTAAGG -AAAAAATATGCCCAATAAATTGGCGATGAATGCTGATTAAAATCAAGAAAAACTGCCATTAAGACATTGA -AGTTGCTGTTTTTATACATAGATAACAAAACGCATATTTAGCGGTTGGCAATTATCACATAATAATGTGT -GCAAATTGATGGTGGATTGATGCAAATTTGTTAATTGCAATGGTGTTAGCTGCGGCTGTGCGCTCAAAAA -ATAATCTAATATGAGCATAGGTTGACGATATATATTATATACTTCGTTAAGATGATTGTTGTATCTCGTT -AAAAAATAAAATAATTTTTCCTTGATTGCATTTTGTCATCAAAAAAGACTTGGTTTTTCTTTTTTGACTA -TTCCCATCGCAGAAAACGACGCATCATCTTTAATCGATGCGCGGAAATATTTAACTTGAACAAGCGGAAA -TAAATAGAGCAGCTATTCAGATTATTCTTTATGTTGGGTCTATTAAGGTTATGTTAATTGTAGCTTTGCT -ATGCTAGTAGTAGATTTTTGATAAATGTTTTATGGTCACAAATGAACGTGAGTAAATATGTCGCTATCTT -TTCCTTTGTTTTTATTCAGTTAATCAGCGTTGGTAAAGTTTTTGCTAACGCAGATGAGTGGATGACAACG -TTTAGAGAAAATATTGCACAAACCTGGCAACAGCCTGAACATTATGATTTATATATTCCTGCCATCACCT -GGCATGCACGTTTCGCTTACGACAAAGAAAAAACCGATCGCTATAACGAGCGACCGTGGGGTGGCGGTTT -TGGCCTGTCGCGTTGGGATGAAAAAGGAAACTGGCATGGCCTGTATGCCATGGCATTTAAGGACTCGTGG -AACAAATGGGAACCGATTGCCGGATACGGATGGGAAAGTACCTGGCGACCGCTGGCGGATGAAAATTTTC -ATTTAGGTCTGGGATTCACCGCTGGCGTAACGGCACGCGATAACTGGAATTACATCCCTCTCCCGGTTCT -ACTGCCATTGGCCTCCGTGGGTTATGGCCCAGTGACTTTTCAGATGACCTACATTCCGGGTACCTACAAC -AATGGCAATGTGTACTTTGCCTGGATGCGCTTTCAGTTTTGAGACAAATGAAGTTTTAGTAACTTCTTTA -AAATCAATAGCTAAAATAAGTAACATCAAAAATAACGCGACTTTTATCACTTTTTAGTAAAGTTACACTG -GACAAAGCGTACCACAATTGGTGTACTGGTAACCGACACAGCATTTGTGTCTATTTTTCATGTAAAGGTA -ATTTTGATGTCTAAGATTAAAGGTAACGTTAAGTGGTTTAATGAGTCCAAAGGATTCGGTTTCATTACTC -CGGAAGACGGCAGCAAAGACGTGTTCGTACACTTCTCTGCAATCCAGACTAATGGTTTTAAAACTCTTGC -TGAAGGTCAGCGCGTAGAGTTCGAAATCACTAACGGTGCCAAAGGCCCTTCTGCTGCAAACGTAATCGCT -CTGTAAGATACGTCAGCAAGAATTCAAAACCCGCTTAATCAGCGGGTTTTTTTTGGTCTTTAGTGTGCGG -TTGAGGCCGAAAACAGCCAGAATGCCAGTGCGGTCATGGCAAAAGACCCCAGAAGGTTGACGAAAACGTT -CAGTAATGCCCAGCCAAAGCGGCCCTCTTGTAACAAAAACACCACTTCTGCCGAAAATGTTGAGAAGGTT -GTTAGACCGCCACAAAATCCGGTGGTGATTAATACTTTCCACACTGGATCAATGTTCGTCATCCTGCTGA -ACCATGCGAATCCTATTCCTATGATGAATGCCCCAATCAGGTTTGCTGTCAGCGTCCCCAACGGAATCGC -CTGATGCAGTGGGTTAAATCGCATACTTAACAGCCATCTCGCCACGCTTCCCGTACCACCGCCAATAAAA -ACTGCTAAAAGAAGTTGTAACACTGCAAAATCCTGCTATTTGATTTGTATGAGTGATAAGTGTAACGCCG -AATAATCGTCGTTGGCGAATTTTACGACTCTGACAGGAGGTGGCAATGCTGGTTGCCGCAGGACAGTTTG -CTGTTACATCTGTGTGGGAAAAGAACGCTGAGATTTGTGCCTCGTTGATGGCGCAGGCGGCGGAAAACGA -CGCATCGCTGTTTGCCCTGCCGGAAGCATTGCTGGCGCGCGATGATCATGATGCAGATCTATCGGTTAAA -TCAGCACAGCTGCTGGAAGGCGAATTCCTCGGACTTTACGGCGAGAAAGTAAACGTAACATGATGACGAC -AATTCTGACGATTCATGTTCCTTCAACGCCGGGGCGCGCATGGAATATGCTGGTGGCACTTCAGGCAGGA -AACATCGTCGCCCGTTATGCCAAACTGCATCTCTATGATGCATTTGCCATTCAGGAATCACGCCGTGTTG -ATGCTGGTAATGAAATCGCTCCGTTACTGGAGGTGGAAGGGATGAAGGTCGGTCTGATGACCTGTTATGA -CTTACGCTTTCCAGAGCTGGCGCTGGCACAGGCATTACAGGGAGCTGAAATCCTGGTACTTCCTGCCGCC -TGGGTTCGCGGGCCGCTCAAAGAGCATCACTGGTCAACGTTGCTTGCCGCTCGTGCGCTGGATACCACCT -GTTATATGGTGGCGGCGGGGGAGTGCGGGAACAAAAATATCGGTCAAAGCCGGATTATAGATCCCTTTGG -CGTCACCATTGCGGCAGCGTCAGAAATGCCTGCACTCATTATGGCGGAAGTGACGCCCGAACGTGTGCGT -CAGGTGCGCGCGCAACTGCCCGTCTTAAACAACCGTCGCTTTGCGCCGCCGCAATTATTATGATGTTTTT -TTACTCGGCGCTTGATTCACCTTGTTACAGATTGCTATTGTGTGCGCGCGTCGAATGACCGTTAATATTC -TCTGGTTTTTAAGGCGCGTTCTGTTGCCGGTTATATGTCAAGAAGGTATCTATGGGTGAGATTAGTATTA -CCAAACTGCTGGTAGTTGCGGCGCTGGTCGTTCTGCTGTTTGGGACTAAGAAGTTACGTACGCTGGGCGG -AGACCTTGGAGCGGCCATTAAAGGGTTCAAGAAGGCGATGAATGATGACGATGCTGCGGCGAAAAAAGGC -GCAGACGTTGATCTTCAGGCTGAAAAGCTCTCTCATAAAGAGTGACGTGGCGAGCAGGACGCTCCCTCAA -TATCTTGTTCGATACAAAAAACCCGCTTCAAAAAGCGGGTTTTTTATCAGACAGATGTAAGTAATTATTA -CAGGATTACTTAACTTCCATCCCTTTCGCCTGCAAATCGGCGTGGTAAGAAGAGCGGACAAACGGACCGC -ATGCAGCATGGGTAAAGCCCATCGCCAGCGCTTCGGCTTTCATTTCGTCGAACTCATCCGGGCTAACGTA -ACGTTGAACCGGCAGGTGATGGCGGCTTGGCTGCAAATATTGCCCCAGCGTTAACATCGTCACACCATGA -CGGCGCAGGTCGCGCATTACCTCAATAATTTCTTCATTGGTTTCACCCAGTCCCACCATCAGACCAGACT -TGGTCGGGATTTCCGGATGCGCTTCTTTAAAGCGTTCCAGCAGCTTCAGCGACCAGTTGTAATCTGCACC -AGGCCGTACCTGACGGTAAATACGCGGTACGTTTTCCAGGTTATGGTTGAACACATCTGGTGGCGTTGCA -GTCAGAATATCCAGAGCACGATCCATACGACCGCGGAAATCCGGCACCAGAGTTTCAATTTTGATTTGCG -GGCTTTTTTCCCGAATGGCAGTAATGCAATCCGCAAAGTGCTGGGCACCGCCATCGCGCAGGTCATCACG -GTCAACGGAGGTGATAACCACATAACGCAGCGCCATATCGGCAATGGTCTGCGCCAGTTTCACTGGTTCA -TTGGCATCAGGAGCTACCGGGCGACCGTGGGCAACATCACAGAACGGACAACGGCGGGTACAAATAGCGC -CGAGGATCATAAACGTTGCTGTGCCGTGGTTGAAGCATTCCGCCAGGTTAGGGCAGGAGGCTTCCTCGCA -GACAGAATGCAGGCCATTTTTGCGCATTGCGGCTTTGATGCCCTGGATACGTGTAGAGTCCGCTGGAAGC -TTGATTTTCATCCATTCCGGCTTGCGCAGCAGGGCTTCGCGCTCTGTTGCCACGTTTTTAACCGGGATAA -GGGCCATCTTATCGGCATCGCGGTATTTAACACCGCGTTCCATCACAATGGGTTTACTCATAGCGTGCGT -GTTCCAGTTGCGAATTACGAAGGAAAGCGTTTCAATTCAATAGATTGTTGTAATTATCAACTATTTTTGA -ATTAACGACTGGCAGTATATCATTGAAACGGACCTGAAAGCAGCCAAAGCGGTCGCGAAAATGTAAAATT -GTTGTTGGATTGTGCCATTTTATCGTTCTGCGCTGTGATCTGGCTGTAACAATACTTTTTCAAAATGCAT -TACGGATAACATCTATTACTCCGTGCAGGATGGGATCACGCAGGCTGAATTTGTTGTAGTGGATAGAGAA -ATCTATTTGCTCCTCATTTAAGGACGGAAAAGGCAGTTTTTCCAGCGGCCAGCAGCGGCTAAACAGGTTA -TAAAAACGGCTGGGAATAATCGCTAACATGTCACTGTTGGCAACCAGTGCAGCGATTGTCAAAATGTTGT -AGCTGGTGAAATTGATTTGCCGGTCCGGAAACATTTCTTGAACTCTCTGCCGCAGACCGCTGAAATTTTG -CTCTTCCGGTAACAGAAGTACATGCGCAGCGTTGTCGATAGTCTCTCTGTCATCTTCTAAAGAGAGTAGT -GGATTTCCCTCGCGGCAAATTAACACCATATTGTCGGTGAACAGAACATGATGTTGCACCGTACGATTGG -TGCAAAACATGTTATCGATGATGAGATCGGTTTGAAACTGACTGAGTTGGTTTTCCGCGTCGCTGATGGG -CGGGTTGCGCAGTAAAAGCTGCGGATAGTGAGTTTTAATCGCCCGATAGATGACAGGAAGGACCAGTGCT -CCGACCGAGGGAGTGGTCGCAATAGTTATCGTTCGTTGCTTATCATAGCTTCCTTCGATATCCAGCGCGC -CAAGAATGGACTCAAGGCCCTGACTGATATACTCATGTAGATGCATCGCAAATGCGGTAGGAGTGACACC -CTGGCCTTTGCGAATAAACAATGGGTCAGGGAATATAACGCGCAGTTTCTGAATAGACTGACTGATTGCC -GAGGGGGTCAGATTAAGCACTTTCGCTGCATTAACGATCCCTTTATGTACATATACAGCTTCAAAAATAG -TCAGAAGGTTAAGATCAATATTTCGTAAGGTTGTAAATATTTGTGGTTTACCTTCTGACGACTTTCTGCT -TAAACAGGGTTCAATTTGATTATTACTATCCACGCACTTACTCCAATTTTATTCATGGAAAAATAATATT -TAAAAAATTACAATAATCTTATGTCTAATTGGAACGGAACGCTTTTGCTCACCATAATCAACTATTTCAA -TAGGTTAATCAATGGGGTGAGTTACGGAGCAAGGCGTGGCACCGCATTTCTGCAAGTGATAAAGAAAATA -TACAAACGCGAAGGAGATGTAAAGCATTAGCAGATATTATGAGTAATGACCCAGTGTAAATTGGGCCATT -GATGTATGGAATTAAGCGGTAATATATTCGAAGTCCGGATTGTTTAGTAGCGCTAAAATATTTTCCAGTA -AACGTGGAGCAATATTATTAGTCGTCGCTTCGGGTTTCCATTGTGATATTTTAGCCATTTCCATTCCGGC -ATACCCACAAGGATTAATACGTAAAAATGGTGAAAGATCCATATTGACGTTTAATGCCAGACCGTGGAAT -GAACAACCGCGTCGAATACGTAAACCCAGTGAGCAAATTTTCTTTTCCCCAACATAGACACCTGGCGCGT -CAGCCCGAGGATGCGCTTCTATACCCAGTTCAGCCAGGGTATTCACCACTGTTTGCTCAAGCAAGGTCAC -CAGTTCACGCACACCGAGTTTACGGCGTTTCAGGTTAAGCAACACATACATCACCTGTTGCCCCGGCCCG -TGATAAGTCACCTGCCCACCGCGATCGCTCTGGATCACCGGAATATCACCCGGCATTAAAATGTGCTCCG -CTTTTCCTGCCTGACCTTGGGTGAATACCGGATAGTGCTCGACCAGCCAGATTTCATCAAGGGTACTATC -ATCGCGGGTATCGGTGAATTCATGCATAGCCTGGGAGATTGGCTCGTAAGGCTGAAGACCGAGCTGGCGG -ACAAGAATTTTATCCTGATACAAAACGGCATCTCCGTGGAGAATGAGTAAAAGTGGGGGAAAAGTATATC -ACAGCGAGGAGAGGGGAGTTACCCGACCAGGAGCCGGGTAACGGAGAAGCGAGTTACAGAACCATGCGGA -CAATATCGATTTTGCCCAGTTCTTCATACAGTGTTTCAACCTGCTCGATATGAGTGGCGTTGATAGTGAT -AGATACCGAGTGGTAGTTGCCTTTGCTGCTTGGTTTTACCGTTGGGGTGTAGTCACCTGGCGCATGGCGC -TGTACCACTTCAACCACCTGATCAACCAGCTCAGGTAACGCCTGCCCCATAACTTTGTAAGTAAAAGGAG -TAGGGAATTCAAGCAGTTCGTTAAGTTTGGTTTTCATGTCAGCTCCGGCGTAACGTAATTAAATAGCAAC -TCCCGCCAGAAGGCGGGAGTTTTTTACTGATGCTTAGTATATGGGGACGGAAATTACACTTTCAAGTGTT -TAATTTTTAACCAAACCAGTGATGGAACATTAATTTAATGTAATCAATGATTTTGCCGAAGAAGTTACCT -TCCGGGATTTCTTGCAACACAACCAGCGGGCGTTGCTCGATCGTTTTGCCATCAAGCTGGAAGTTGATAG -TTCCGACGACCTGATTCTTTTGCAGCGGCGCATGCAATTCACTGCTGTTCAGCACATAGCTGGCTTTCAG -ATCTTTCATGCGACCACGCGGAATGGTCAGGTACACGTCTTTATCAACCCCTAACGAAGCGCGATCAGAA -TCACCAAACCAAACCGGTTCAGAGGCGAACTCTTTACCTACTTTCAGTGGGTTAACGGTTTCAAAGAAAC -GGAAGCCCCAGGTTAGCAGTTTTTTACTTTCGGCTTCACGGCCTTTAAAAGTACGTCCGCCCATTACCGC -AGAAATCAAGCGCATCTGGCCTTCAGTCGCAGAAGCAACAAGGTTGTAACCTGCTTTGTCAGTGTGTCCG -GTTTTGATGCCGTCGACATTCAGGCTGTTATCCCATAACAGGCCGTTACGGTTCAGCTGGCGAATACCGT -TAAACGTAAATTCTTTTTCTTTATAGATCGAGTATTCATTCGGTACGTCACGGATCAATGCCTGGCCGAT -CAGCGCCATATCTCGCGCGGAGCTGTACTGACCATCAGCATCCAGACCATGTACCGTCTGGAAGTGGGTA -TTTTTCAGGCCCAGTGCGTTAACGTAGCTGTTCATCAAGCCAACAAAAGCGTCCTGGCTACCAGCGGCAA -AATCGGCCATGGCGACACAAGCATCGTTACCCGATTGCAGGTTAATACCGCGGATCAGCTGAGAAACCGG -AACCTGCATGCCCGGTTTGAGGAACATCAGCGAAGAACCTTTAAACACCGGGTTACCGGTGGCCCATGCG -TCGTTGCCGATAGTGACTAAATCAGTTTCTTTAAATTTACCGGCTTTCATTGCCTGGCCGATAACGTAAC -TGGTCATCATTTTGGTCAGGCTGGCAGGATCGCGGCGGACATCTGCGTTCTGTTCGGCGAGCACTTTGCC -GGAGTTATAGTCAATCAGGATGTAGGACTCCGCATCGATCTGCGGTACACCCGGGATCATAGTTTTGATA -TTCAGGTCATCGGCATGTGCAGCAGAGATAAAGGCTGTGCAAAGAGCCGTGGTGAGCGCCAGGCGCTTCA -TGATACGAGCGGAAAAAATGGTATTCATGGTCTGAACTACGACATCCGTGATGGAATTAAAAAAGTGCCC -TACTATAGCAAATGCACTACCGGCAGGCATCTGACTTTCCGCGTGACTTTGTTAACGTCATTTACAGAAA -TTGACACATCAGATGCCTGCTTTACGCTACTGCGCGGTAGTAATAAATGACTGTAATTGGGCTTCGGTTT -GCAAACGTTGCTGCAAGGTACTGGCTTCGGCTTTGCTGGCGAATGGGCCAAGCTGGATCCGCCAGACCGC -GCCATTTTGAGTTACGCGACCGGGGACGCCGAACTTCTGTCCCAGTTGCTGTTGGTACTGTTGCGCACGA -GCCTGATCGCTTACGGCCCCGACTTGCACCATAAAGTTGCCGCTGGCGCTTTGCGAGACGGCTTGCGGTG -TCACCATTGCAGGCGAGGTTGCAGGCGTTGTCGACGGAGCTGTAACAACGGGCTGTGGCGCAGGCGTCGG -TTCGCTGCCTTCCAGTACACCAGGCGCTAAGGTCGTTGGTGCGCCGAGGAAACCGCTACTGGTTACCGGC -GCGCCGGTCGGATCTTCGCTTTTTAGCGTCGAATTACTGACCGGAAGAATGTCACCCTGCGGGCCAGACA -CTGAACTTGTTCCCGCGCCACCGCTTAAATCGGGAGGTGCAGGCAGGGCGTAAGTCTGTTTGGCGACTGT -GGTACAAGCCATACCAGGACCAGAAAGCGAACCATCCTGGGCAACAATAATCGGATCGATACGAACTTTG -GTGTTGTTTGACGTGTTAAGACGGTCAGCTGCCGCGCGAGAAAGTGAAATAACGCGGTCGTTGCCGTAAG -GGCCGCGATCATTAATGCGCACCACGATCATTCGCCCGTTAGCCAGGTTAGTGATTCTGGCGTAGCTGGG -GATCGGAAGCGTTGGATGGGCTGCCGTCAGCTGTGTCGGATCGAATGCTTCGCCAGAGGCCGTCAGGTTA -CTGCCGGGTTCGGCATCATAGATTGCCGCCAGTCCCGCCTGGCTAAATCGAGACGGATCCTGCACGATTT -TGTAGCTTTTACCGTCGCGCTGGTAATCCTGATTTGCCGTCGCGTTCAGTGGTTCGAAACGCGGGTCCGC -CCCGCTAATTTCAACTATAGGGCCGTTACATACCGCAGGCTGCGGTACACTTACCGTCTGTTGCTGACCA -TCATCGCTTGTACATGCCGCGAGCATTCCTGCCGCGATGCAGATCCCGAGCCACTGCTTACGCATTGCGC -ACCTCTTACACGCTTTTCGACAACATTTTCCTGTGGGTGTGGATTGACATTACAATCCCGAACCCAGCCA -TCAGCACAATTAGCGCCGATCCTCCATAACTGACCAGTGGGAGCGGAACCCCTACAACCGGCAGAATACC -GCTTACCATACCAATATTTACGAAGACATAAACGAATAATATCAGCATTAAGCCGCCAGCCATGACGCGA -CCAAAGGTGGTTTGCGCTCTGGCGGCTATCCACAGCCCGCGCATGATCAGCAGAATGTAGAGAGCGAGCA -GAATCAGAATGCCCACTAATCCCAGCTCTTCCGCCAGTACCGCGAAGATAAAGTCAGTATGGCGTTCGGG -GAGAAATTCAAGCTGTGACTGAGTGCCGTGCAGCCAGCCTTTGCCGCGTAATCCGCCGGAGCCAATAGCA -ATTTTAGACTGAATAATGTGATAGCCCGCGCCGAGTGGGTCTGATTCCGGGTCCAGGAGCATCATTACGC -GCTGGCGCTGGTAATCATGCATCAGGAAGAACCACAGAATCGGAATGAACGCCGCTACCAGCACTACTGC -GACGCCAATCAGACGCCAGCTAAGGCCAGAGAGGAACAGTACAAACAGACCGGAAAGCGCAACGAGGATT -GATGTTCCCAGGTCAGGCTGTGCAGCCACCAGCAGCGTGGGCATAAATATCAGCACCAGCGCGATGCCAG -TGTTCTTCAACGATGGCGGGCAAACGTCGCGGTTGATAAAGCGCGCAACCATCAGTGGTACGGCTATTTT -GGCAATTTCCGACGGCTGAAAACGAACAATACCGAGGTCCAGCCAGCGTTGAGCACCTTTAGAGATGGCA -CCGAAAGCATCTACCGCCACCAGCAAAATAATACAGATGATATAGAGATAGGGGGCCCAGCCTTCATAAA -CGCGTGGAGGAATTTGCGCCATCACCACCATGATGACCAGACCCATCGCGATTTGGCCGATTTTACGCTC -CATCATGCCAATATCCTGACCGCTGGCGCTCCAGATAACCAGGGCGCTGTAAACCAGCAATGCCAGTAAG -ATCAGCAGCATTGTGGGATCGAGATGGACTTTATCCCAGAATGTTTTTTTATTCGGATTATCCGTCATGA -TTAATGGTCCTCCGCTGCGGCAACCGCTGGATTTTCCGCAGGCAGATCGGTGTTGTTATCACCCAGCATA -ATGTGGTCGAGGATCTGGCGCATCAGTGTACCAACCGCCGGACCCGCACCACCGTTCTCCAGAATCATGG -CGACAGCCACTTGCGGATTGTTGTATGGCGCAAAGGCGGTCATCAGTTTGTGGTCACGTAAACGCTCGGC -AATTTTGTGCGCATTATAGGTTTCGTTCGCTTTCAGACCGAAGACCTGAGCGGTACCGGATTTCGCCGCA -ATTTTGTACGGTGCGCTAGCAAAGTATTTATGCGCCGTACCGTTAGGGCGGTTAGCAACACCGTACATAC -CGTCTTTCGCCAGCTCCCAGTAACCGGAATGAATATCGCCGACGGGCGGTTCATGCGGCTGTACCCATGG -CACCTGTTTGCCGTCTTCGGCGGTGCTCATCAGCAAATGAGGAACCTTCACGATACCGTCATTAATCAGG -ATCATCAGTGCCTTACTCATCTGGATTGGGGTCGCTGTCCAGTAACCCTGACCGATACCAACCGGAATGG -TGTCACCCTGATACCACGGTTTTTTAAAGCGTTTCTGTTTCCATTCGCGGGTAGGCATGTTGCCGGAACG -TTCTTCCGCCAGGTCGATACCGGTGTAATGACCATAACCGAATTTACCCATCCATTCGGAGAGGCGATCG -ATCCCCATATCGTAGGCCACCTGATAGAAGAAGGTATCCGCAGATTCTTCCAGCGATCTTGTGACATTCA -GACGCCCGTGGCCCCATTTTTTCCAGTCACGATAACGTTTTTCCGAACCTGGCAGTTGCCACCAGCCTGG -GTCAAACAGCGTCGTATTGCGCGTGATCACCCCGGCGCTCAATGCCGAAACCGCCACATAGGGTTTAACT -GTAGACGCGGGAGGATAAACCCCCTGTGTGGCGCGGTTCACCAGCGGTGTATTCGGATCGTTCAACAAGG -CGGAATAATCTTTGCTGGAGATACCGTCAACAAACAAGTTTGGGTCATAACTAGGCGTGGAAACCAGCGC -CAGCACCCCACCTGTACGCGGATCGGTGACTACCACAGCTGCGCGGCTACCCGCCAGCAGCGTTTCAATA -TATTGCTGGAGTTTGAGATCCAGCGTCAGGTAAATATCGTGTCCGGCTTGCGGTGGTACTTCTTTTAACT -GGCGAATAACACGCCCACGGTTGTTAACTTCAACCTCTTCATAACCGGTCTGACCGTGCAGCACATCTTC -ATAGTAACGCTCAATGCCCAGCTTACCGATATCATGCGTTGCCGCATAGTTGGCCAGTTTGCCGTCATTA -TTCAGGCGTTCGACGTCTTTATCGTTGATTTTCGACACATAGCCGATGACGTGGGTCAACGCCGAACCGT -AAGGATAGTAACGACGTTTATAGCCTTTAACTTCGACACCCGGAAAACGGTACTGATTGACGGCAAAGCG -AGCTACTTGTACTTCGGTCAGGTTAGTTTTCACCGGAATAGAGGTGAAACGGTGTGAACGTGCGCGCTCT -TTTCGGAATGCAGCAATATCGTCATCGGTCAGATCTACCACGCTGCGCAAAGCGTCCAGCGTTTGCTGCA -CGTTATCGACTTTCTCCGGCATCATTTCTATCTGGTAGATAGTGCGGTTGAGGGCCAGAGGGATACCGTT -ACGATCGTAGATAATGCCGCGGCTGGGCGCGATAGGCACCAGCTTAATGCGGTTTTCATTAGAGCGGGTC -TGGTAGTCGGTAAAGCGAACAATTTGCAGATTATACAGGTTGGCGATAAGCACGCCGGTCAGCAGCAAAA -TCCCCAAAAAGGCGACCAGCGCCCGGCGCACAAACAGCGCGGACTCTGCCGTATAGTCGCGAAAAGAGTT -CTGTAGTTTCATCCGCTGCGTTTTCTACTCAAAGCTCCCTTATCACTCACGGTGATAAGGATGGTTGGTG -GTGATGCTCCACGCCCGGTACAGACTCTCTGCGACCAGCACGCGAACCAGCGGATGGGGGAGGGTAAGCG -CCGACAGCGACCAGCTCTGCTCAGCCGCCGCTTTACAGGCAGGCGACAACCCTTCAGGCCCGCCAATCAG -TAGACTGACGTCGCGACCATCCAGCTTCCAGCGTTCCAGCTCAGCGGCTAACTGCGGCGTATCCCAGGGC -TTGCCTGGAATATCGAGGGTGACAATGCGGTTTTTGCCTGCGGCCGCCAACATCTGCTCACCCTCTTTGT -CGAGTATGCGCTTGATGTCCGCATTCTTGCCGCGTTTTCCGGCCGGAATTTCAATCAGCTCGAAGGGCAT -ATCTTTCGGAAAACGACGCAGGTACTCGGTAAAACCGGTTTGTACCCAGTCCGGCATTTTCGTTCCCACG -GCGACAAGTTGCAGCTTCACGCATTAACTCCAGAGTTTTTCCAGTTCATACAGGCGACGGCTCTCTTCCT -GCATGACATGGACAATCACATCGCCCAAATCCACGACAATCCAGTCGGCGCTGTTTTCACCTTCTACGCC -GAGCGGTAACAGGCCCGCTGCGCGAGACTCCTGCACAACGTGGTCAGCAATGGACATAACATGACGGCTG -GACGTACCCGTACAGATGATCATGCAGTCGGTGATGCTGGATTTGCCCTGAACGTCTAAGGCGATGATGT -CCTGACCTTTGAGGTCATCAATTTTGTCGATAACAAAATCCTGGAGTGCTTTACCCTGCAAGTTTTCCCC -CTGGGTGAATCAAATAGATAAAAATGGTCTGTCAGTATACCTGAACCAGAGGCGATTTCGGGACAATTGT -CGCCGAATCGGCTTTCGAAAGTGGGCTATCATCCCACCCCGCGCCGCAGATTGCATCGCCATTTTTGTAA -AACAATTTCTACAAAGTCGTGTCTGGCGGAAAAAGTCTGGCTGCGGAGAATATCAGCCTGCCCGGGTCTG -TCAATGGTCGTTGCGGCTTACCCGTAAAAAAACAGAAAAGTCATGCATTCTCGACCCCGATGGCACGGCT -ATTGAGGACGCGTAGCGTCGCGAATTTTTGGTTGATATCAATGGCGCTCCAACACCCCTGGTCAACGCGA -AAATGCCACATAGCTTCGGCAGGCATGCCAATTAAACGGGCGATTAACAGACTCAGTACACCCTGATGGC -TGACGACTAAAATATTCTGATAGTGCTGAAATTCACTAAGCCTTGCGATAAAGCGTTCCACACGTTGCGA -AAATGCCTGAAATCCTTCACCGTTCGTGGGGATTGCATGCTGCCAGTCATTGCACCACGCGCTATAGTTT -TCGGCATCTTCTTGCATGAGGTCGCGATGATGTCGCATCTCCCAGTCGCCAAAAAACATTTCGTTGAGTT -CAGGTATGATTTGCACGGGGAGCTGGCGGTCACTGAGAACCAGTCGCGCGGTATGCTGTGCCCGTTCCAG -TTCACTGCATAAAACCAGATCAAAGGAAACACCATGTAGCAGCGTATGCAGATTTTGCGCTTGCTCAATA -CCGCGCGCGGTCAGGGGGGTGGGCGCATGACCGCTGTAAAGACCATCGATATTCGCTTGCGTTTCACCAT -GACGAATTAACCACAGTCGCATCATGCCCTCCGTAACGACAGGTATCAGCGATACAAGCCTTGTTGGTTA -ATGTAAGTCAGTACCGGTTCCGGCAATAAATCCTCACATGATTCACCGTTTTGCAAACGTTCGCGGATGA -TGGTCGCCGAGATGTTAAACCACGGCGTTTCAGCCAGATAAATTTTACCGGCAGGCTGAAGGTGAAGATC -TTCCGGGTTATGTGTCAAATGATCTTCCAGCCATTGCTGGTATTGCGGTTGCGCCATTTCAAGTGGGTAA -CCTGGACGCCGACAGACGATCAAATGTGCATTGTCGAGTATCGTTTCGTATTCGTACCAGGTCGGAAAGG -TCAGCAGTGAATCCTGACCAATAATAAACGCCAGCGGCACGTCCGGTCCTTGTTCCTGCCGCCACTCTTT -CAGTGTTTGCGCAGTGTAAGAGGGGGCATTGCGCTTTAGCTCGCGTTCATCAAGAGTAAATAATGGCTTG -TCGGCAATCGCCAGTTCAAGCATGTGTTTACGCTGCACGCTGTTCGCTTCCGGCTGGGGACGATGCGGAG -GAACATTATTAGGGATGATTGTGACCCGCGTCAGACCAATCAAATTCGCCAGCGTTTCCACGGGTTTTAG -ATGACCATAGTGCACCGGATCAAAGGTGCCGCCAAACAGAGCCTGTAAAGATTTCATATCAACCGTCGAT -AAATACGTCCGCCAGGGGTTTATGGCACAACAGAAGAGATAACCCTTCCAGCTCTGCCCACACTGACTGA -CCGTAATCTTGTTTGAGGGTGAGTTCCGTTCGTGTCAGGAGTTGCACGGCCTGACGTAACTGCGTCTGAC -TTAAGCGATTTAACGCCTCGCCCATCATGCCCCGGCGGTTCTGCCATACCCGATGCTTATCAAACAACGC -ACGCAGTGGCGTATGGGCAGACTGGCGTTTCAGGTTAACCAGTAACAACAGTTCACGTTGTAATGTGCGC -AACAAAATAACCGGTTCGCTGCCTTCCAGACGCAGTTGCTGAAGAATATGCAATGCGCGCTTACTTTTTC -CCATCAACAAAGCATCAACCCAATGAAAAGGGGTGAAATGCGCGGCATCATTCACCGCCTGTTCAACGCG -CGGTAATGTCAATTTGCCGTCTGGCCAGAGCAGCGATAAACGCTCCAGTGCCTGAGCCAGCGCCAGCAGG -TTACCTTCATAACAGTAGCAGAGCACCTGATTTGCCGCGTCATCCAGTTCTAAGTTGAGCTGTTTTGCGC -GCGCAGCAACCCAGCGGGGAAGCTGAGCCTGCTCCGGTGTCTGACAGGTCACCTGCACGCTGCGATTCGC -AAGCGCAGTAAACCAGGCGGCATTTTCTTGCGCTTTGCTTAATTTATTACCGCGGACGATCAACAGCAGG -TCGTCATGCAGAAGTCCGGTGAGTGTGAGAAGTTGCTCATTGATCGCCGCATTCGGTCCGTTTTCTGGTA -ACAACAGCAATAGCGTTTGTCGACTGGCAAACAGACTCATAGCCTGGCATAACGAAAAGATCGCATTCCA -GTCAGTGTTGGGATCAATGGAAAAAGTGTGGTGTTCTTCGAATCCTTGTGCCGCAGCTACCTGACGAACA -GCGTCCTGGCTTTCCTGCAATAACAGAGGATCGTTACCAAGTAAAAGATACGCCGCGCGCAGCCCTTCAT -TGAGCTGCGCGCGGAGTTGTTCCGGGTACAACCGAATCATCAGTTACCCAGCGTGGTGGAGACGCGTGCA -GGCGTTGCCGGAGTATCCGTTGTGGTCGACGTCTGTTCTTCGTCGGAACGAATATCCGCAGCACGGATGC -TTGGCAGCTTACGAATCAGCTGTTCGGCAGCACGGTCGTACATCTCTTTTACGATCATGTCTTGTTCGTT -ATCTTTCGCTAACGCCATTTGCGGGTTATCGAAGAACGAACGGAAGACTTTGGCGCTAATCGGGTAGATA -TCACGGCCGGGGATCAACACGGTCGCATTAACCGTCATGATCATCTGATACTCTGCTGTTTGACCGTTAC -GGAATACCGATGCGGTATCTTTCGCGATGCTCACTTTACCCAAACGCAAGGATGGAACGTCCTTACGCGT -GGTTTCTTTATCAAGCAACTCGACACCATTCAGACGTAACTGGTTACGCACCGCACGGCTTAATGGCCCG -TTCGGATCGCCTGAGTCCAGGATCATGACCTTCATAGTGGAAGGAACCTGCGTGGTATCACGCAGATGCC -AGCCACACCCGGCGGTGATTAACACCGCCAGAGATAACAACAATGTTGCCAGATATCGCACGCTTCCTCC -CGCGCTTAGCCAACGACCAGATTGAGGAGTTTACCTGGTACGTAAATCACTTTACGTACAGTAACGCCAT -CAAGATATTTTGCTACCAGATGTTCCTGGCCAGCACGTTCGCGAACCTGTTCTTCCGTTGCGTCCACCGG -AACGGTGATTTTGGCACGGACTTTACCGTTAACCTGCACCACGACCAGCGTGGAGTCTTCCACCATCGCT -TTTTCGTCAGCAACCGGCCACGGCGCGTTGTCGATATCGCCTTCGCCTTTCAGTTCCTGCCACAGCGTGA -AGCAGATGTGCGGGGTGAACGGGTTAAGCATACGGACAACGGCCAGCAGTGCTTCCTGCATCAGAGCGCG -ATCCTGCTCGCCATCGGTTGGTGCTTTCGCCAGTTTGTTCATCAGCTCCATAATCGCCGCAATTGCGGTG -TTGAAGGTCTGACGACGGCCGATATCATCGGTCACTTTAGCGATCGTTTTATGCACATCGCGACGCAGCG -CTTTCTGATTTTCAGTCAGCGCATCAACGTTCAGTGCCGCAACATCACCTTTTGCTGTGTGCTCGTAAAC -CAGTTTCCAGACACGTTTCAGGAAGCGGTTAGCCCCTTCCACACCGGATTCCTGCCATTCGAGAGTCATA -TCAGCCGGAGAAGCAAACATCATAAACAGACGAACGGTGTCCGCGCCGTAACGTTCAACCATCACCTGCG -GGTCGATACCGTTGTTCTTCGACTTGGACATTTTGCTCATGCCGGTATAAACCAGTTCATGGCCTGCCGC -ATCTTTCGCTTTCACGATACGGCCTTTCTCGTCACGTTCAACGATAGCATCAACCGGGGAAACCCAGTTA -CGTTCGCCGTTTTCGCCAACATAGTAGAAGGCATCTGCCAGCACCATACCCTGACACAGCAACTGTTTCG -CTGGTTCGTCAGAGTTCACCATGCCTGCATCACGCATCAGTTTGTGGAAGAAGCGGAAGTAGAGCAGGTG -CATAATGGCGTGTTCAATACCACCAATGTAGATATCCACCGGCAGCCAGTAGTTAGCCGCTTCGGAATCC -AGCATACCTTCTTTGTACTGCGGGCAAGTGTAGCGCGCATAGTACCAGGAGGACTCCATAAAGGTGTCGA -AAGTGTCGGTTTCACGCAGTGCTGGCATACCGTTAACGGTAGTTTTCGCCCACTCCGGATCTGCTTTAAT -CGGGCTGGTAATGCCGTCCATTACCACATCTTCCGGCAGGATCACCGGCAGCTGGTCGTCCGGGGTCGGC -ATTACGGTACCGTCTTCCAGCGTCACCATCGGAATCGGCGCGCCCCAGTAACGCTGACGGGAAACACCCC -AGTCGCGCAGGCGGTAGTTCACTTTACGCTCGCCAACGCCCATCGCAGTCAGTTTATCGGCGATGGCGTT -GAAGGCCGCTTCATGGTCAAGACCGTTGAACTCGCCAGAGTTGAACAGCACGCCTTTTTCAGTCAGGGCT -TGCTGAGAAAGATCTGGCTCAGAGCCGTCAGCTGCCAGGATAACCGGTTTGATGTTCAGGCCGTATTTAG -AGGCAAACTCGTAGTCGCGCTGGTCGTGCCCCGGTACCGCCATAACTGCGCCCGTGCCGTACTCCATCAA -TACGAAGTTTGCTGCCCAAACGGGAATTTCTTCGCCCGTTAATGGGTGAACCGCTTTAAAGCCAGTATCG -ACGCCTTTTTTCTCCATCGTCGCCATTTCAGCTTCGGCAACTTTGGTGTTACGGCATTCGTCAATAAAGG -CCGCCAGTTCAGGATTATTTTCCGCCGCTTTCTGCGCCAGCGGATGACCCGCAGCTACCGCCAGGTAGGT -ACAACCCATAAAGGTGTCCGGGCGGGTAGTGTAAACGGTCAGCGTGTTGTCATAGTCGTTAACGTTGAAG -GTGATCTCCACGCCTTCGGAACGACCGATCCAGTTACGCTGCATGGTTTTAACGGTGTCTGGCCAGTGAT -CCAGTTTATCCAGATCGTTGAGCAGCTCGTCAGCGTAAGCAGTGATTTTGATAAACCACTGCGGGATCTC -TTTACGTTCAACTTTGGTATCGCAGCGCCAGCAGCAGCCGTCGATAACTTGTTCGTTCGCCAGTACGGTC -TGGTCGTTCGGGCACCAGTTGACCGCAGAAGTCTTCTTATATACCAGGCCTTTTTTATACAGCTCGGTGA -AGAATTTCTGTTCCCAACGGTAGTATTCCGGCGTACAGGTTGCCAGCTCGCGGCTCCAGTCATAACCAAA -GCCCAGCATTTTGAGCTGGTTTTTCATATACGCGATGTTGTCGTACGTCCACGGTGCCGGAGCGGTGTTG -TTTTTCACCGCCGCGCCTTCCGCAGGCAGACCAAACGCGTCCCAGCCGATCGGCTGCAGGACGTTTTTGC -CCAGCATACGCTGGTAGCGGGCGATCACGTCACCGATGGTGTAGTTACGTACGTGGCCCATGTGTAGTCG -ACCAGAAGGATAGGGAAGCATAGACAGGCAGTAATACTTCTCTTTGCTCTCGTCTTCGGTTACTTCAAAT -GTGCGCTTCTCATCCCAATGAAGCTGTACTTTGGATTCTATCTCTTCCGGGCGGTATTGCTCTTGCATGG -CAGCCAGTGGTCCTGTTTTCAATACGGCTACAAATGTAGCGTTGAGGTGGTTTTTCAGATCCGCATAGCA -TAGCCCAAACGTCCGCGTCAAAACAGCCTTTCGCGCACTCGACGTTGAAATGATGCCCGGATTATTCATA -CATTAATTTACAGAGTTTGTGGGCGTATTAGCAAAGCAAGGAACAAAGAACGTCTATTATTATAGTCAGT -TAACGACCCGGGAGATGAAACGATGAACAAGGTTGCTCAATATTACCGTGAACTGGTTGCGTCACTGAGC -GAACGCCTGCGCAATGGCGAACGTGATATCGACGCACTGGTGGAACAGGCGCGCGAGCGCGTAATAAAAA -CAGGGGAGTTAACGCGAACCGAGGTCGATGAGCTGACGCGAGCTGTCAGACGTGACCTGGAAGAGTTCGC -CATGAGCTATGAAGAGAGCCTGAAAGAAGAATCTGACAGCGTCTTTATGCGGGTGATTAAAGAAAGCTTG -TGGCAGGAGCTGGCAGACATCACCGATAAAACGCAGCTTGAATGGCGCGAAGTTTTCCAGGACCTCAATC -ATCATGGGGTTTATCACAGCGGAGAAGTGGTCGGGCTGGGAAATCTGGTCTGCGAGAAATGTCACTTCCA -TCTCCCGATCTACACACCGGAAGTGCTGACGCTATGCCCGAAATGTGGTCATGACCAGTTCCAGAGACGC -CCGTTTGAGCCGTAATAGTCTGATTTCGCACAGCAATAAAGAGAATATGGGCCGAATGAAATTCCCCGGC -CCTTGTTTTTATCTCTACAGTAAATCTTCAGTCTCACGAATTTCCTGACTGACATCTCTGGTTCCGGATG -ACTGAACTTTACGATACAGGTCGAGAGCCTGTCGGAGATCGACAGGTCTTCCTTCTCCGTAGTGATACAT -AATGGCCAGGTTATACCAGGCAGTGGCGTCATTGCATTCAGCGGCTTTCGTAAACCATTCAAAGGCAGCC -TGATAATCTTTCTCAACGCCTTGTCCGTGTTTATACATATAACCGATGTTGACGTAAGCGCCGACGCTCC -CCTGAGCGGCAGCCTTCAGATACCAGTACATCGCTTGCTTATAGTCCTGGTCCACCCCTTCGCCAGCGTT -ATAATCCCATGCAATTTGAAACTGGGCGTGCCGATTACCCTGCTGTGCGCTTTTCAAATACCAGAATGCG -GCGAGTGTCTTGTTTTGAGCAACGCCTTTTCCGTCTTCATAAAGATCGGCCAGATTGTTTTGCGCGTCAC -TATGGCCTTGTAATGCAGCTTGTTTGTACCAGAAAAATGCCAGCGCATAGTCTTTTGCGACTCCGTTGCC -ATTTCTGTACATCCACCCAAGATTATTTTGCGCATAAGACATTCCGCTCTCCGCGGCTATCTGATACCAG -ACAACCGCTTCTTTATAATTGGGGGCTTCTCCACGATCCAGTGTCCAGCCAAGGGCGTTGGAAGCGAAAG -TATGGCCTTGTAGGGCAGCTTTTTTCAGCCAGAAGATGGCTTGCTCATTATCTTTATGACGGCTTTTATC -CTCGGTATACTTTTGCCCTAAGGAATACTGTGCTTCACAATGACCTTGCTCAGCGGCCAGCTTCAGCCAG -TAAAAGGCTTTTTCGTCGTCCGGAGAATCAATTGCGCTATCGCGATTATAATAAAACCCAACAATATATT -GAGCCTCGCAATCGCCTTTTTCAGCACGTTCGATAATCTCATCTATTGATAAATTATCGCAGCAACTTGA -CGTGAAAATCATTATCATTTCCTTATGGTTGCAGATAAAACATATTATATTTTTATGTGTTCCATTTTTG -CGTAAGCCTTATTTTATGCGTATTATGTCGCGTCAGAAAAGTATAAATAAACGAGCCTCGCAATGCGGCT -AATATTCATTTAATGAATATTTAAGGATAAATTATATGGACATGGAGTCGCAAAAAATATTGTTTGCACT -TTCCACTCCGATGGAAATACGCAATGAATGCTGTTTACCTTCGCATTCATCACCCAAAATGTATTTAGGT -ACATGCTTTTTTGACCTTTCTTCCTCATGGGGAATTGATGACCGTGATGACCTGCTGCGCACAATTCACC -GAATGATCGATAACGGTCATGCCGCTCGGTTGGCAGGGTTTTATCACCGCTGGTTTCGTTATTCGCCATG -TGAATGGCGTGACTATCTTGCTGAACTAAATGAGCAAGGTCAGGCTTATGCGCAATTTGTCGCCAGCACC -GCCGAATGCTGTGGCGAAGGGGGAATCAAAGCCTGGGATTATGTCCGGATGGGTTTTTTAAGCCGAATGG -GCGTACTTAATAACTGGTTGAGCGAAGAAGAAAGTCTATGGATCCAGTCGCGCATTCATCTACGGGCTCT -ACGTTATTATAGTAACTGGCGGCAATACTTTGCCGGTTATACCTTTGGTCGGCAATATTGGCAGTCTCCC -GAAGATGATCATCTGCCTTTATTACGCGAATTCTTAGCGCGTAAAGAATACGACGATTCCGGCAATGATA -TGTTTTATCAATTATTTGCCAGTGATGATGCGTATTACCCTACCTTGTCCTGGCAACCATTGGCTTACTA -TTCTGCATGCCCGGAAACGCTTAAGGATATGAGCGACCTATGAAAAATTGCTGGAAGATCCTCGATATAG -AGGAAACGACTGACGTCGATATTATCCGCCGCGCTTATCTGGCGCTGTTACCGTCCTTTCATCCAGAAAC -CGATCCGCAGGGTTTTAAACAACTTCGTCAGGCGTATGAGGAGGCGCTACGGATTGCGCAGTCGCCTGCT -AAATCTGTTTGGCAACCAGAAGAATATGAGGTAGCAGAACATGAAATTCTGCTCGCCTTTCGTGCGTTAC -TTGCCTCTGATAGTGAACGTTTTCTGCCCTCCGCCTGGCAGCGATTCATTCAGCAATTAAATTATTGCTC -GATGGAGGAGATTGATGAATTACGCTGGTCGCTGTGCACAATCGCCATGAACACTGCCCATTTATCCTTC -GAGTGCGTGGTGTTATTAGCAGAAAGATTGCGGTGGTTACAGGAGGAAAATACCGGGGAAATAGACGAAG -AAGAACTGGAATCCTTTTTATATGCCATTGCGAAGGGGAATGTTTTTAACTTCCAGACCATTCTGCATCT -GCCCGTTGCCGTGCAAAATGACACCATCGATTTTTACCAAATGTTCGCTCGGATTTGGTCATCGCATCCA -CAATGGCTGACATTGTATTTAGCGCAACATCGCGCAGTGATTATCCCCGATGATGCAAAACTGCACAGAA -ATTTACTCCGCTGGTATAGCGCAGGTCGCCTGGATATCCCCGAACTTCTGGATTACGCCCAGTCATGGCG -GGAAACTGAACCTGATAATGAAGATGCGCCTTATTATGAATACGCGCAACGCGTCTATTGTGGAGAAGGC -GAAAGCCTGTTGGCAGAACTTTGTGACTACTGGCGCGAGTATCCCTCCACCCAGGCGGATGCTTTAATGT -TGCAATGGTGCCGTCAGCATCGGGTCGATTATTACCCATTACTGGTGATGATGATTGAAGCGCGTGATCT -GGTTAACGATCAGGGAAAACCGCTACTTTATGTCCCCGGCGACAGCGCCCGTACGCGTTTTCATTTATAC -GAAATACTCAGCGATGAAAAACTCTCTGCGCTGGGGCGTTCACTGGTCGAGATGGTTTTGCACAAAGGAC -GTAAGCCGCGGATCTCACTCACGCGTGATACAGAACATACCTTATGGCCATTATATCTAGTTGCCAAACA -ATTAGTGCAGGCCTGCCAACCTACAGAAGAATCATTAATGCCGATTGTGAGCCGCCTTGATGCAGAAAAT -CGTTGTCCACTGGAAGCATTAATTATTCGTCGATTATTAATTCAGGCGGCGAATTTTACCGAGAAGCAAA -CTGTTGAACCGGAGCCGCAACCGCAGCCAATGCCCGTTGACGATGGTGGGCCAGGCTGTCTGGGCATCAT -TAAAATTATTTTCTATATTTTTATCTTTGCTGGTTTGATAGGGAAAATACTCCATCTGTTCGGGTGACAG -TCGACGTTAATGTGCGGGAAGCCCGGCAAGTAATCTTTCCGCATTTTTGTAATGTTGTTTGGCGGTCAGT -TTTAACCATTTTTGAGATTCATAATGGTTAACATTAATACCTGAGCCATTTCTGTAGATCAAACCTAAAG -TATATTGAGCATGAGCATACCCTTGTTCAGCTGCTTCCTTATACCAGAGAATTGCTTTACGGGTGTCGGG -TTTGACCCCCAGACCTTTGAGGTAGATCCACCCCAGTTTACTTTGCGCGCGTGGATTTTCCTGTTCCGCT -GATTGCTCATACCAGTATCTCGCCTGTGTATAATCCAGTGGTTTACCGTCGCTACCATGAAGATAAAATT -CTCCAAGGCGATATTGCGACGTTGAGTGACCATGAATCGCGGAAAGCTCCGTGGCTGCCGTGGTGAATGG -AAGACTGCCCGGTGAGCTTAAATAATCAAAGGCATAATTCACCATGGCTTTATCACGCAACGTCGTTTTC -TTGGGTTGGCTAATACAGGTAATTGCTGCAACTATAAAAATTGCGAATATATACATTAATTTTTTATTCA -TGTGTGAATGCTTCGATTTTCTTTTTATTTTGAAAGCGTCAAGTTTATACTCATCAATAATAAAAAAGTA -GTCAGTTAATGCACTTAAGGGATTATTAACAAATGAATAAGGAAGAACAATATCTTCTTTTTGCGCTTTC -TGCGCCCATGGAAATACTTAATCAGGGTTGCAAACCCGCGCATGACTCGCCAAAAATGTATACTGGGATA -AAAGAATTCGAGCTCTCATCATCCTGGGGAATAAATAATCGTGATGATTTAATTCAGACTATTTATCAGA -TGACTGATGATGGTCATGCCAATGATTTAGCTGGCTTATATCTGACATGGCATCGCTCTTCCCCTGAAGA -GTGGAAAGCATTAATTGCTGGTGGCTCGGAGAGAGGGTTGATTTATACCCAATTCGTTGCCCAAACCGCT -ATGTGCTGTGGGGAAGGGGGAATCAAAGCCTGGGATTATGTTCGAATGGGGTTTCTGTCACGGGTCGGTG -TGCTCAACAAGTGGCTGACGGAAGAAGAGAGTTTATGGCTGCAATCGCGCGTCTATGTACGAGCTCACCA -TTACTATCACAGCTGGATGCACTATTTTTCCGCCTATTCGTTAGGACGTCTCTACTGGCAATCTTCTCAG -TGCGAAGACAACACTTCGCTACGCGAGGCGCTAACCCTGTACAAATACGATAGCGCCGGGAGTCGTATGT -TCGAAGAGCTGGCAGCGGGAAGCGATCGTTTCTATGCCACGCTTCCCTGGCAGCCATTAACTGTCCAGTC -TGAATGCCCGGTAACGCTTAAGGATGTGAGCGACCTATGAAAACATGTTGGCAAATCCTCGAAATTGAAA -GCACGACGCAAATAGACATTATCCGCCAGGCTTATCTTGCTCGCTTACCGTTGTGTCATCCCGAAACCGA -TCCGCAAGGGTTTAAAGCATTACGCCAGGCCTATGAAGAGGCCCTGCGACTGGCGGTAAATCCTGTCGAG -GAAGCAGATGATGAAGAAAAAGATGCTGCCGCTGAACATGAAATACTACGTGCATTCAGGACATTACTGG -ATTCAGAAAGTGATCGTTTTCAGCCTTCCGCCTGGCAGAAATTTATTCAGCAATTAAATACCTGGAACAT -GGAGGATGTCGATCAATTACGCTGGCCGCTGTGTGCAATCGCCATAGAAGCGCGATATCTTTCATTAAAT -TGTGCTTCTTTGCTGGCAGAGCGTTTGAACTGGCATTCATTTAATGACAGCGAAGGAATGGATGAGGAAG -AAAGGGAGGCTTTTCTTGAGGCCATTCAGGCTGGTGATTGTTTCGATTTCCTTAGCCTTCTGGAATATCC -CATTGCGTTGCAGAACCAGACTGTTGAGTATTACTTCGCGCTGGAACGTTGCTGCCGTTACCATCCTGAC -TATGTCACTGCGTTTTTGGCGATGGAAGGTCCGTGGTTAATTCCTGATGATGCAAAGTTACATCGCAAAC -TGTTGCGCTGGTACAGCTCGGTGCAAACAGGTATGGCGGAACTCATTCCTGTCGCTCAACAGTGGCAAAC -GGAAGAACCAGAAAGCGAAGATGCCCGGTATTACTTGTGTGCACAACGTTTGTACTGCGGCGAGGGGGAA -AGCCTGCTTGCCGATCTCTGCGCGTACTGGGAAAGTTACCCATCTACACAAGCTGATAATTTGTTGTTGC -AGTGGAGCAAGCGTCATTGCCCGGATTATTTCGCGTTATTAGTGATGGTTATCGAAGCGCGGAGCATGGT -AGATGCGCAAGGTCAACCGCTGAAATATGTTCCTGGTGAGAGCGCCCGGACGCGGCTGTTATGGGCGGAG -ATTTTACATAGCGGAAAATTATCGCCGTTAGGTCAATCGTTTATTGAGTCGTTATTCTTCAAGCGCAAAG -CATGGGCGTGGTGGAAATCGAGAGTCGGTAGCGAGACAGAGCAAGATTCACCGTTCCTGGATTTGTATCG -GGTAGCGGAACAGGTAGTACTTGAAGCGTTTCCGAAACAAGAGATGCTGGCCCGTCTTAATACAAGGCTG -GAAGGCGGAGATGCTCATCCATTAGAGGCCATTGTCACCCGGATGCTTTTGACGAAAGTGAAACTCGAGC -CGGAGGATGAAGATGTCGATGAGCCAACACCTGAAAATCATGAAGAAAAAAATGATGAGGGTGAAAAACC -ACAGAGCATTACCAGCATTATCAAAATCAGTTTAACGGTGCTGGTGATAGGTTATGCTCTCGGCAAAATC -GCGATGTTGTTTAGCTGACGATGTGTTTTTTGCGCCGATGCCGGATGCAGCGTTTACGCCGCATCCGGCA -GCCGTGTTTATGGGATCTCAATGGCTAAATAATCGCTCGCCCGCCGCCGAACTTCATCCACGCGGGCCAT -ATCGTTTGACTGCAACGCCGCATCAAAATCGGTGATCACCCGGCCGATCTCTTCTCGCTCGTCACCCAGC -GCCCGCGCCCACAACTCTTCCAGTTTGGCTTTAAAGGTGCGATTGATGAGCATATCGCGCGGATAAATTT -TCAATGCGGATAACCGCGTCCGACTCTCTTCAATCTGCTGCGCGCTCAATGTTACCGGGCTGTGGTTAAT -CACTCTGGACTTAACGCTGCCGTCTTCCAGAAGCACGTCAACTTCAAGCAACCCGTTGATATCATAACTA -AAGCGAATATCAATCGACTGATAAGCCCCGGTTTTCTTCAACGGCACATCGAAGGATTCCACCAGAATGT -TGTTTTTAACTTTGTGGTTTTCTCCCTGATAGACGTTAACCGTAATTGAATCCTGTTCCGGGTGCATGGT -TGAATAAGTTTCTACACGCGACACGGGCACAGTGGTGTTTCGTTCAATAATCGGCGAGAAAATGCCGGAA -ACGCCCTGGCGGTTAACTTCAACGCCCAACGAGTAAGGGCAAATATCAGTGAGGATTACCTCTTCAATAT -CTTCACTGCGTAAGCGGCAGGCGGCCTGGATTGCTGCGCCCAGCGCGACAATGGTGCTCGGATCGTAACT -TTGATACGGTAATTTGCCAAACAGACGCACGGCGATTCGCTGCACCAGCGGCATTTGTGACGCGCCGCCA -ACCAGCACCAGACTGTCGATTTGACTCGGCTTCAGACGCGCATCGCGCAACGCCTGTTCAATCGGCACTC -GCAAGCGATTGAGCAGCGGCAACCACAAATCTTCCAGTTCGTTCTCGTAAAATTCGCATTCCCGCGTTTC -TTCCTGATACTGCCAGCGAATGTGCAATGGCGATTGATTGCTACATTTTGCCGCTTCCACACAGGCGTAC -AAGGCTGCCAGTTCACTCTCGTTAAGCGTGGTCCTGGCGACATCCGCGCGTTTTAAAACCTCATCGACCA -GCATATGGGTAAAATCTTCGCCACCAAGAAAGTTGTCGCCAGCGGAGGCGTGAACTTCAATCACCGGCGT -GGCGTACTCAAGCACCGTAACGTCAAACGTGCCGCCACCGAGATCAAACACCAGCGAACGGGTATTTTGT -TGGGTATGCAGGCCATACGCCATCGCAGCTGCTGTGGGTTCATTAATTAAGCGTACCGCATTTAACCCGG -CTAACTCCGCTGCTAAACGGGTATGCTTGCGTTGTTCATCGCTGAAATAAGCCGGAACGGAGATCACCAC -ATCTTTAATCGGACGTTGCAGAAATTCTTCGGCATCTTCTTTTAATGAGCGTAATACCAAAGAGGACAGT -TCTGGCGCGTTAAATGTGTCGCTGCCTAACCGCCAGTTGGTATTACTGCCCATTGCACGTTTAAATAACG -CTGCCGTTTTATCCGGATGCGAAGTACGCCGTGATACAGCCGGTTTTCCGACTAAAATATGATTATTTTC -ATCCATGCTAATTATGGATGGTGTTAAATATTCACCGAACTTATTTGGAATTAATTGCGCGGCACCGTCT -TTCCAGACGGCAATTAAACTATTGGTAGTACCGAGATCGATACCAATGGCGAGTTCTGCATTATCCATTG -CATTTATATCTTGAAAGAAAAAGAGATAAACAGATTAAGACCACCCAGGTAACGCGTGGTGATCTTAATC -AATGACGTGTGTTAAGCGTAAAATTTCAGACGATCAGCCAGTAAATCAACAAAGCCCTGACGATCAACAT -CGACCATTACGGTGGCATTCGGTTTATTGCCTGTCAGATAATAATAATCAACAACCGTCATACCCTGGGT -ATATTTCCCCTGTGTTTCCACGCCAACCCAGCGCTCAACAGAGGTAAATAACTCCGGTTTCAACAGCCAG -GCGATGGTGCATGGGTCATGCAGTGGTGCGCCGACAAAGCCCCATTTTTCGTCTTTATGATATTCGAGGA -AGAAATCCAGCAGTTCGGCAACAATGGTTGAAACAGGGTTACCAATCGCGCGGAAACGCTCGGTGTCTTC -AACGTGGATTTGTGCTTTATGAGTAACATCCAGACCGGCCATCACCACCGGGATCCCTGACTGGAAGACA -ATTTCTGCCGCTTCCGGGTCAACGTAAATATTAAATTCAGCCGCAGGCGTCCAGTTACCCAGCCCCATAG -CGCCACCCATAATCACGATACGGGCAATTTTGCTATGCAGTTCCGGATGGCTATTGAGCAGCAAGGCAAC -GTTAGTTTGCGGTCCGGTAGACACAATGGTGACAGGTTCCGCACTTTCACGCAGCGTTTTCGCCATCAGC -TCTACCGCCGTACAGTTTTGCGGTGCGAATGTCGGTTCCGGTAATGCCGGGCCGTCGAGACCGCTTTCGC -CGTGCACATTGTCCGCGATAATCAACTCACGCATTAACGGTTTTACCGCGCCGCCTGCTACCGGAATATC -GGTGCGATTAAGCAAGGTCAGCATACGCAGAACATTGCGTAAGGTTTTTTCTGGTGTCTGGTTTCCGGCG -GAAGACGTAATTGCTTTGACATCAAGCTCTGGTGAGGCGAGGGCGAGAACTATTGCGATAGCGTCGTCAT -GACCTGGGTCGCAATCTAACAGAATTGGCAGTGCCATTGTTGCTCCTTGTTGTGTGCTTCTTTGCGACAA -GGGTAACGCCAGGATGTAACAGATACGAGGGGCGAAACGATAAAGCGTGAGATGGCGCGCAATTGGGTAT -GCGCGCCAGAGTGATTAATGCAGGATTTTCGCGAGGAAGTCTTTTGCGCGGTCCGATTTCGGATCATCGA -AGAAAGCGTCTTTCGGCGAGTCTTCGACAATTTTACCCTCGTCCATAAAGATCACCCGATTCGCCACTTT -ACGGGCAAAGCCCATTTCGTGGGTCACCACCATCATGGTCATTCCTTCGTTCGCCAGTTCCACCATCACG -TCCAGTACTTCGTTGATCATCTCCGGATCCAGCGCCGATGTCGGTTCGTCAAACAGCATCGCAATAGGAT -CCATACACAACGCGCGAGCGATTGCCACACGCTGCTGCTGACCGCCGGAAAGCTGCGCCGGAAACTTATT -GGCGTGAGCAGAAAGCCCGACACGCTCCAGCAGTTTCAGGGCTTTTTCACGAGCCGGCGCTTTATCGCGT -TTAAGCACTTTCACCTGCGCCAGGGTCAGGTTTTCGATAATCGACAGATGAGGGAACAGCTCGAAATGCT -GGAATACCATCCCGACGCGGGAACGCAGCTTTGCCAGATCGGTTTTCTTGTCGTTAACCACGATACCATC -GACGGTGATTTCACCTTGCTGCACCGGTTCGAGGCCGTTGACGGTTTTAATCAGCGTTGATTTGCCGGAA -CCAGACGGGCCGCAAACCACCACCACTTCGCCTTTTTTCACTTCGGTTGAGCAGTCGGTCAGCACCTGAA -AGTGACCATACCATTTTGAAACATTTTTCAGGGTAATCATTATGCTGTCCTTCTTTTCAAGTAGCTGACC -AACAACGACGCGCTAAGACTAATAACGAAATAAACAAATCCGGCAAACAGGATCATCTCAACCTGCGTAC -CATCACGCTCACCAATGGTTGAGGCGGTACGGAAGAAATCGGCCAGGGATAACACATACACCAGTGAGGT -ATCCTGGAACAGTACGATGCCCTGAGTGAGCAGCAGCGGCACCATCGCGCGGAACGCCTGCGGCAGAATA -ATCAGTTTCATCGACTGCCAGTGAGTCATTCCCAACGCCAGCGCGGCGCTCGATTGACCACGAGAAATAC -TTTGAATACCAGCACGGATAATCTCTGAATAGTAGGCCGCTTCAAACATCGAAAACGCCACCATCGCCGA -AATTAAACGGATATCATTTTTTGGCGATAATCCCAGCACGTTTTGCAGAAAACCCGGCACGATCAGGTAA -AACCACAGCAAAACCATAACTAAAGGAATCGAGCGGAATACGTTAACGTAGGCTTTGGCAAACCACGCCA -CGGGCGCAAAGCTGGATAAACGCATCACCGCCAGCATCGTGCCCCACAAAATACCAATCACTACCGCCGT -GACGGTGATTTTCAGGGTGATCACCAGCCCGTCGAGCAGATATGGCAGGGAAGGGACAATGGAACTCCAG -TCAAACTCGTACATTATTTGCCCCCCATGTTGCCAGGCAGGCGAACTTTACGTTCAACCAGCGTCATCAC -CAGCATGATAAAAGCGTTAATCAACACATACGCCAGCGTAATGGCGGTAAACGACTCCCAGGCATGGGCT -GAGTAATCGAGCAATTTACCCGCCTGCGCCGCCATATCCACCAGACCGATAGTCGAGGCGATGGCGGAGT -TTTTCACCAGGTTCATCATCTCTGAGGTCATCGGCGGGACGATAACGCGATAAGCATTAGGCAGCAGTAC -GTATCGATAAGCCTGCGGTAGCGTCAGGCCCATCGCCAGCGCGGCATTTTTTTGCCCTCGCGGCAGCGAC -TGAATCGCGGCGCGTACCTGTTCGCAAACACGGGCGGCGGTAAACAGCCCCAGGCAGAGCATGGATGAAA -GGAAAAACTGAATATTGGGATCCAGCTCGGCCTTAAACCACATGCCGATTTTCTCCGGCAGCAGCTCCGG -GATCACCAGATACCAGGTAAAGAATTGCACAATCAACGGCACGTTGCGGAACAGTTCGACATACAACGTA -CCCAGACCAGAGAGAAAACGGTTTGGAACGGTACGTAAAATGCCGAAAAATGAACCGACGAGGAAAGCGA -TAATCCAGGCGCAGATCGACAAAGCGATCGTCACCTGAAAACCACTCCAGATCCAACCAAGATAGGTGGT -GTTGCCGAACGGGGCTTGTTGTAAAAAAATACCCCAGTTCCAGTCTATAGACATAAATCTACTCCAGAAA -AAAGAGGGTAGCAGCGTTAACTGCTACCCTCGAAGATTGTTACCCAGCGTATTGCGGTTTTCAGGCCCGA -TGGGGAACGACCATCAGGCGTATAGTCTGTCCGTGCTACGTAACAATCGAGAGGGCTGGAATTTCCGCCC -CTGGTTCTTGTAATTAGTTCAGTGCCTTGTCATTCGGTTCTTTGAACAGTGCTTTCATTTCGTCTGACAG -TTCGAAATTCATGTTCAGGTTTTTCGGCGGAATTGGATTTTTGAACCACTTATCAAACCATTTTTCCGCT -TCACCGGAGGTCTGCACCTGAGCGATGGTGTCATCCATCAGCTTTTTGAACTGCGGATCATCTTTACGCA -ACATACAACCGTAGGCCTCCTGAGACTGCGGCTTGCCGACGATTTCCCAGTTGTCTGGTTTCTTCGCTTT -CGCACGTTCACCGGCCAGCAGAGCGTCATCCATCATAAAGGCAACGGCACGACCGCTTTCCAGGGTGCGG -AAAGAGTCACCGTGATCTTTGGCGCTGATGATGCGCATATTCATTTTTTGCTCTTCATTCAGTTTGTTGA -GCAAAACTTCAGAGGTAGTGCCGGAAGTGACGACTACGGCTTTGTCTTTCAGGTTGGCAAAATCTTTGAT -ATCGCCACCCTTTTTGGTCAACAGGCGCGTACCGACCACGAAAATAGTGTCAGAGAAAGCCGCCTGTTTT -TGGCGTTCGACGTTGTTGGTGGTAGAACCACATTCAAAATCGAAAGTGCCGTTTTGCAGCAGTGGAATAC -GGTTTTGTGAGGTAATCGGAATCAGTTTTACCTGCAAGTCCGGTTTGTTGAGTTTCTTTTTCACTGCTTC -AACAATGGCGTTGGAGTAATCCTGCGAGTAACCCACCACTTTTTGCTGATTGTCGTAATAAGAGAAAGGC -ACTGAAGATTCACGGTGACCGACGACAATCACACCGTTTTTGGCGATTTTGTCCAGAGTACTGCCCGCTG -CCGGGGCGGCGTCATCTGCCTGTGCCAGTCCTGCGGAAAGCGCCAGGGCGAGGATTGCTGTGGCAGGTTT -ACGTAATTGCATATCCAACTCCTTTATCTTCTGCGTTAAGAACGCATGGATACCCGTTGTGAGTGTTTGT -GTTGTTATCGTCTGCAACTTTATTGTGCAGTGTTGTGCCTGTTAGGGAAGGTGCGAATAAGCGGGGAAAT -TCTTCTCGGCTGACTCAGTCATTTCATTTCTTCATGTTTGAGCCGATTTTTTCTCCCGTAAATGCCTTGA -ATCAGCCTATTTAGACCGTTTCTTCGCCATTTAAGGCGTTATCCCCAGTTTTTAGTGAGATCTCTCCCAC -TGACGTATCATTTGGTCCGCCCGAAACAGGTTGGCCAGCGTGAATAACATCGCCAGTTGGTTATCGTTTT -TCAGCAACCCCTTGTATCTGGCTTTCACGAAGCCGAACTGTCGCTTGATGATGCGAAATGGGTGCTCCAC -CCTGGCCCGGATGCTGGCTTTCATGTATTCGATGTTGATGGCCGTTTTGTTCTTGCGTGGATGCTGTTTC -AAGGTTCTTACCTTGCCGGGGCGCTCGGCGATCAGCCAGTCCACATCCACCTCGGCCAGCTCCTCGCGCT -GTGGCGCCCCTTGGTAGCCGGCATCGGCTGAGACAAATTGCTCCTCTCCATGCAGCAGATTACCCAGCTG -ATTGAGGTCATGCTCGTTGGCCGCGGTGGTGACCAGGCTGTGGGTCAGGCCACTCTTGGCATCGACACCA -ATGTGGGCCTTCATGCCAAAGTGCCACTGATTGCCTTTCTTGGTCTGATGCATCTCCGGATCGCGTTGCT -GCTCTTTGTTCTTGGTCGAGCTGGGTGCCTCAATGATGGTGGCATCGACCAAGGTGCCTTGAGTCATCAT -GACGCCTGCTTCGGCCAGCCAGCGATTGATGGTCTTGAACAATTGGCGGGCCAGTTGATGCTGCTCCAGC -AGGTGGCGGAAATTCATGATGGTGGTGCGGTCCGGCAAGGCGCTATCCAGGGATAACCGGGCAAACAGAC -GCATGGAGGCGATTTCGTACAGAGCATCTTCCATCGCGCCATCGCTCAGGTTGTACCAATGCTGCATGCA -GTGAATGCGTAGCATGGTTTCCAGCGGATAAGGTCGCCGGCCATTACCAGCCTTGGGGTAAAACGGCTCG -ATGACTTCCACCATGTTTTGCCATGGCAGAATCTGCTCCATGCGGGACAAGAAAATCTCTTTTCTGGTCT -GACGGCGCTTACTGCTGAATTCACTGTCGGCGAAGGTAAGTTGATGACTCATGATGAACCCTGTTCTATG -GCTCCAGATGACAAACATGATCTCATATCAGGGACTTGTTCGCACCTTCCTTAGGTAACATTTAGTTTGG -CTAAATGTAAAGATATTGCTGTTTTATTGTTTGTTTTTGCGAGATGCGCCGCACCATTCCGAAGCAAAAT -TCTTAAAATGCACTCTTTTAGTGCTACCGCTGGATTACTGTGGTGCAACTAGGTTGTACTGATGCTGTTT -CAGGGTTTGCCTTGTATAACAAAGCAATAGATGTGCCAAAGTTGGATAGGAGAATATTGTTATCCGGATA -ATGCACTGATGCCGCATCCGGTGAGCGTGCCGAAATATGGGATGTATTCCGGCACGATAAGAAGGGATTA -TTTACGTCGCTGACGCAGACTCATCAACACAGCAGCAAAACCAAACAATGCCGTCAGCACCCACAGCGGC -CAGTTGCCGGTACGTGCGTATGGTGTGAGTCCGGTGGTCGGCGTCACGTTAGTGGTTAACACCTCGCGGG -TGAACTGCGGGATCATCGCCTGAATCTCACCCTGCGGGCCAATCACCGCCGTAATGCCGTTGTTGGTGCT -GCGCAACAGTGGGCGCGCCAGCTCCAGCGCACGCATTCGCGCCATCTGGAAGTGTTGCCATGGACCAATA -GATTTACCAAACCACGCATCGTTGGAGATAGTCAGCAGATAGTCGGTATCCGGGCGGAAGTTATCGCGCA -CTTGCTCGCCGAGAATGATCTCGTAGCAAATAGCCGCAGTAAGCTCAATACCATTTGCCGACAGCGGCGG -CTGGATATATGGCCCACGGCTGAACGACGACATCGGCAGATCAAAGAACGGTGCTAACGGACGCAGAATC -GACTCCAGCGGGACAAACTCGCCAAACGGCACCAGATGGTTTTTGTTATAGCGATCGGCTGATTCGTAGC -TGTACGGCGCACCTTTACCCAGCGTGATGATGGTGTTGTAGGTATCGTAGCGGTTCTGCTTATTGAGACG -CGCGTCGACAATCCCGGTTACCAGCGAGCTACCTTTATCACGCAACTCACCGTCCAGTGCTTTGAGGAAC -GGTTGCTGATTAATTTCCAGATCGGTTATCGCCGACTCCGGCCAGATAATCAACGATGATTTGCCCATCA -GCGGTGCCGTTGCGTTGTAGTAAATCTTCAGCGTATTAAGAAGCTGGCCTTCGTCCCATTTCAGCGATTG -CGGAATATCGCCCTGAACCATCGAAACCTGAATGGTTTTCTCCGGTTGTGGGGTAAACCACTGGATGTAA -CGCAGCGGGAAGGGAAGGGCAAACAGCACGACGGCCACCACCAGCGGACGCCAGTTGCGTTTGACCAACG -CCAGTGCCAGCAGGCCACTAACCATCATCAGCAGGAAGTTAATGGCTTCCACGCCCATTATCGGTGCCAG -CCCTTTTAACGGGCCATCAATCTGGCTATAGCCGAACTGTAACCACGGGAAGCCGGTCAGTACCCAACCG -CGCAGAAACTCGGTCACTTGCCAGAGGGCAGGGGCGGCAATCGCTACGCGCAGCCAGGTGGTTTTCGGCC -ACAGACGCGACAGCACGCCAGCAAACAGTCCGGTATACAGCGACAAATACGCCGCCAGCAGCACCACCAG -GAAGATGTTAACCGGGCCAGGCATTCCGCCAAAGGTCGCGATGCTGACATAGACCCAGTTAATACCGCTG -CCAAAGAGGCCAAATCCCCAGCAAAAGCCAATAGCGGCAGACTGGAGTGGACGGCGGTTAAAGGTCAACG -CCTGAAGCCCCATCAGCGAAATAATCGCCGCAGGCCAGACGTCGTAAGGAGAGAAGGCCAGCGTTCCGCA -GGCACCGAATAATAACGCCAGCAGCAGGCGAATGCGCTGGCGTTCAATTAATGAGGCAAAAGCCATGTAG -TTATCTATCCAGTTTCGGTTTTATTCATCCAGCTTCGGCTGGGGTGAGTCATCCGGGATTTTAACATGAA -CCTGAATAATACGCCGACTGTCGGCCATCGCCACTTTGAACTGGTAACCGTCGATGTCGATAGTTTCGCC -ACGCGCCGGAAGATGCCCAAATGCCTGCATCACCAGACCACCGATAGTGTCGACTTCTTCATCGCTAAAG -TGGGTGCCGAACGCTTCGTTGAAGTCTTCAATGGAAGCCAGTGCGCGTACGGTCCAGGTATGACGACTCA -GCTGACGGAAGTCGATATCATCTTCTTCGTCATACTCGTCTTCAATCTCACCAACAATCAGTTCCAGGAT -GTCTTCAATGGTCACCAGACCGGAAACCCCACCGAATTCGTCAATAACGATCGCCATGTGGTAACGCTGA -GAGCGAAACTCTTTCAGCATCCGGTCTACGCGCTTACTTTCAGGAACGACAACCGCCTGACGTAACACTT -TGTCCATGCTGAAGGCTTCAGCATCGCTGCGCATAAACGGCAGCAAGTCTTTCGCCATCAGAATCCCTTC -AATGTGATCTTTGTCTTCGCTAATCACCGGGAAACGTGAGTGGGCGGACTCGATGATGACATCAAGACAT -TCGTCCAGCGTCTGGTTGCGTTTCAGGGTAATCATCTGGGAGCGGGGGATCATGATGTCGCGAACGCGTT -GGTCTGCGATGTCCATCACCCCTTCGAGCATATCGCGCGTATCTTCGTCGATAAGGTCGTTCTGCCCGGA -ATCACGGATCAGCGCCAGCAGTTCGTCACGGTTTTTCGGTTCACCGTGGAAAAGTTGGCTGAGTAACAGG -GAGAAAAATCCCTTCTTGTTGCTTATCGTGTCACTACTGTGTGAATTGTCGTCGCTCATGGCGTCGTATG -GGTTCTCATGTTAGTTAATCAAAACGCCGTCGTTAATCACCAACGGCGGGGACGTCTGCCAGTCAAATGC -CTGGCAAATTATTCTTTCTCGGCAATGTACGGATCCTCATAGCCCAGAGCAAGCATAATCTCTGTTTCGA -GGGCTTCCATTTCTTCTGCTTCGTCATCTTCGATGTGATCGTAACCTAACAAATGCAGACTGCCGTGCAC -CACCATATGCGCCCAGTGCGCCTCCAGTGGTTTGCCTTGCTCCTGAGCTTCCTTCTCAACCACCTGACGG -CAGATAACCAGATCGCCCAGTAGCGACATTTCCATGCCAGGCGGCACTTCAAACGGGAAGGAGAGCACGT -TGGTCGGCTTATCCTTACCGCGATAGGTCAGATTCAGACTGTGGCTTTCGGCGGTATCGACCACGCGAAT -CGTCACTTCCGATTCTTCCTGAAACTGCGGGATCACCGCATTCAGCCATGTCTGAAACTGGCTCTCTTCC -GGTAACCCGGAATTATCTTCACATGCCAGTTGTAAATCGAGGATCACCTGACTCATTTTTGTTCCTGTTC -TTCGCGCTTGCGTTCTGCTGCCAGCGCCGCTTTTCGTTTTTGTTCGGCTTCTTCCCAGGCTTCATAGGCG -TTAACGATACGCGCCACCACAGGGTGACGAACCACGTCTTCGCTGTGGAAGAAGTTAAAGCTGATCTCTT -CGACATCGGCCAGCACTTCGATGGCGTGACGTAAGCCTGATTTAGTATTACGCGGCAGGTCGATCTGTGT -GACGTCGCCGGTGATAACCGCTTTTGAGTTAAAACCGATACGGGTCAGGAACATCTTCATCTGTTCGATG -GTGGTGTTCTGGCTCTCATCGAGAATGATAAACGCGTCGTTCAGCGTACGACCACGCATATAGGCCAGCG -GTGCGACTTCAATAACGTTGCGCTCAATCAGTTTCTCGACTTTCTCAAAGCCCAGCATTTCAAACAGCGC -GTCGTACAGCGGGCGCAGATACGGGTCTACTTTCTGGCTTAAATCGCCAGGCAGGAAGCCCAGTTTCTCA -CCGGCTTCTACTGCCGGACGAGTCAGCAGAATACGGCGAATTTCCTGACGCTCCAGGGCATCAACTGCCG -CAGCCACTGCCAGGTAGGTTTTACCCGTACCCGCCGGGCCAACGCCGAAGGTAATGTCATGGTCGAGAAT -ATTGGCGATGTACTGCGCCTGGTTTGGCGTGCGCGGCTTAATTACGCCGCGTTTGGTTTTGATATTGACC -GCTTTGCCGTACTCCGGCACGCTCTCCGCGCTTTGCTCCAGTACCCGCGCTTCTTTAATCGCAAGGTGGA -TCTGTTCCGGTTCGATATCCTGAATCTGACCGCGCATCGGGGCAGTATCGACATACAGGCTACGCAGAAT -GTCTGCCGCAGCGGTGACGCAAATCGGACGGCCGGTCAGTTTAAAGTGGTTATCGCGGCGATTGATCTCG -ATGCCGAGACGGCGTTCGAGCTGCTTGATGTTGTCATCAAACGGGCCGCACAGGCTCAACAGACGCGCAT -TGTCTGCTGGCTCCAGGGTGATTTCGCGAGTGTCTATGTTCAAACCGTTCCTCTTATCTGTATGCCGCCG -GAAGCTGAACATTCACCGGCCTATAAGGAAATTATTCACGCCACAGGAAAAAGGCGCAAGCATTGCAATA -AAGATGGGGATAAAGAGAGAAAAAACAAGGCCCACCGGAACGGCAGGCCTGAGAATTACGGCTGATAATA -ACCCACGCCAAGGTCGTTTTCTTTGCGGGTACGGGCAATCACTGATTCCGGTGTTTCTGCCACGCGCAGA -CCCATTTCATCTTCAGTACGCACCACTTTACCGCGCAGAGAGTTCGGGTAGACGTCGGTAATTTCTACAT -CGACGAATTTACCGATCATATCCGGCGTGCCTTCGAAGTTGACCACGCGGTTATTTTCCGTACGCCCGGA -AAGCTCCATGATGCTCTTACGCGATGTACCTTCTACCAGAATACGCTGGGTGGTGCCGAGCATCCGGCGG -CTCCACGCCATCGCTTGCTGATTAATGCGCTCTTGCAGAATATACAGACGCTGCTTCTTCTCTTCTTCCG -GAACATCATCAACCATATCGGCGGCTGGTGTACCCGGACGTGCAGAGAAGATAAAGCTGTAGCTCATGTC -GAAATTGACGTCGGCAATCAGCTTCATCGTTTTCTCGAAGTCTTCGGTGGTTTCGCCAGGGAAGCCAACG -ATGAAATCAGAACTGATCTGAATATCTGGACGCGCCGCACGCAGTTTACGGATGATCGCTTTGTACTCCA -GCGCCGTATGGGTACGGCCCATCAGGTTCAGAATGCGATCGGAACCGCTCTGTACCGGCAGATGCAGGAA -GCTCACCAGCTCCGGCGTGTCGCGATACACTTCGATGATATCGTCGGTGAATTCGATCGGATGGCTGGTG -GTAAAGCGAATACGATCGATCCCGTCGATCGCAGCAACCAGACGCAGCAGATCGGCAAACGATCCGGTGG -TGCCGTCGTAGTTTTCACCACGCCAGGCGTTCACGTTCTGACCGAGCAGGTTGACTTCACGCACGCCCTG -AGCCGCAAGCTGGGCAATCTCAAACAGAATATCGTCGGACGGACGGCTTACCTCTTCACCACGGGTGTAA -GGCACCACGCAGTAGGTGCAATATTTATTGCAGCCTTCCATGATGGAGACAAACGCGGTCGGCCCTTCGG -CGCGCGGTTCCGGTAGACGGTCAAACTTCTCGATTTCCGGGAAGCTGATATCTACAACCGGGCTGCGGTC -GCCACGCACGGAGTTGATCATCTCCGGCAGACGGTGCAGCGTTTGCGGCCCAAAAATAATATCGACATAG -TGGGCGCGCTGGCGAATGTGCTCGCCTTCTTGCGATGCCACGCAGCCACCGACGCCGATAATCAGGTCTG -GATTCTTCTCTTTTAACAGTTTCCAGCGACCCAACTGATGGAAGACTTTTTCCTGAGCCTTCTCGCGGAT -TGAGCAGGTGTTCAGCAGCAGCACATCCGCTTCTTCCGCCACGTCGGTCAGTTGATAGCCGTGGGTGGCA -TCCAGCAGATCGGCCATCTTCGATGAATCGTACTCGTTCATCTGACAGCCCCAGGTTTTAATATGGAGTT -TTTTGGTCATCGACTTGCTCTTGCGAAATAGTAGCCAGGAATGCAGGGCGCATAGTGTAATGCTTTGCTG -CCGTTGTGACCAGTATGAGCGTTATCAGCCCTTAGGGGTAAAAATCCTGTAAACTTAAAGCATATTGCTA -ACAGGATGATTGACCATGACAAATCAACCAACGGAAATTGCCATTGTCGGCGGAGGAATGGTCGGCGGCG -CACTGGCGCTGGGGCTGGCACAGCACGGATTTGCGGTAACGGTGATCGAGCACGCAGAACCAGCGCCGTT -TGTCGCTGATAGCCAACCGGACGTGCGGATCTCGGCGATCAGCGCGGCTTCGGTATCATTGCTTAAAGGG -TTAGGGGTCTGGGATGCAGTACAGGCTATGCGTTGCCATCCTTACCGCAGACTGGAAACGTGGGAGTGGG -AAACGGCGCATGTGGTGTTTGACGCCGCTGAACTTAAGCTACCGCTGCTTGGCTATATGGTGGAAAACAC -TGTCCTGCAACAGGCGTTGTGGCAGGCGCTGGAAGCGCATCCGAAAGTAACGTTACGTGTGCCAGGCTCG -CTGATTGCGCTGCATCGCCATGATGATCTTCAGGAGCTGGAGCTGAAAGGCGGTGAAGTGATTCGCGCGA -AGCTGGTGATTGGTGCCGACGGCGCAAATTCGCAGGTGCGGCAGATGGCGGGAATTGGCGTTCATGCATG -GCAGTATGCGCAGTCGTGCATGTTGATTAGCGTCCAGTGCGAGAACGATCCCGGCGACAGCACCTGGCAG -CAATTTACTCCGGACGGACCGCGTGCGTTTCTGCCGTTGTTTGATAACTGGGCATCGCTGGTGTGGTATG -ACTCTCCGGCGCGTATTCGCCAGTTGCAGAATATGAATATGGCACAGCTCCAGGCGGAAATCGCGAAGCA -TTTCCCGTCGCGTCTGGGTTACGTTACACCGCTTGCCGCTGGTGCGTTTCCGCTGACGCGTCGCCATGCG -TTGCAGTACGTGCAGCCAGGGCTTGCGCTGGTGGGCGATGCCGCGCATACCATCCATCCGCTGGCGGGGC -AGGGAGTGAATCTTGGTTATCGTGATGTCGATGCCCTGATTGATGTTCTGGTCAACGCCCGCAGCTACGG -CGAAGCGTGGGCCAGTTATCCTGTCCTCAAGCGTTACCAGATGCGGCGCATGGCGGATAACTTCATTATG -CAAAGCGGTATGGATCTGTTTTATGCCGGATTCAGCAATAATCTGCCACCACTGCGTTTTATGCGTAATC -TCGGGTTAATGGCGGCGGAGCGTGCTGGCGTGTTGAAACGTCAGGCGCTGAAATATGCGTTAGGGTTGTA -GCCTTACAACATTGCCGGATGCGTGCCAACCGTAGGTCGGATAAGACGCGGCAGCGTCGCATCCGACATT -GAAGGATAAGACGTGTCAACATCGCATTCGACATTGAATGAACGCAGAAAAGCAAAAAGCTCGCCGAAGC -GAGCTTTTTTAATGTGGCTGGGGTACGAGGATTCGAACCTCGGAATGCCGGAATCAGAATCCGGTGCCTT -ACCGCTTGGCGATACCCCAACTGGGTGCACTTACAAGGTAAGCGTCTTGAATAAATTGGCTGGGGTACGA -GGATTCGAACCTCGGAATGCCGGAATCAGAATCCGGTGCCTTACCGCTTGGCGATACCCCAACAAATTGG -TTTTGAATTTGCCGAACATATTCGATACATTCAGAATTTGGTGGCTACGACGGGATTCGAACCTGTGACC -CCATCATTATGAGTGATGTGCTCTAACCAACTGAGCTACGTAGCCAGATTGTTTCTTCGATGGCTGGGGT -ACCTGGATTCGAACCAGGGAATGCCGGTATCAAAAACCGGTGCCTTACCGCTTGGCGATACCCCAATAAC -CGGGCGGTGAACCGCTTACTCGAAGAAGATGGCTGGGGTACCTGGATTCGAACCAGGGAATGCCGGTATC -AAAAACCGGTGCCTTACCGCTTGGCGATACCCCATCCGTACAACGCTTTCTGGTGAATGGTGCGGGAGGC -GAGACTTGAACTCGCACACCTTGCGGCGCCAGAACCTAAATCTGGTGCGTCTACCAATTTCGCCACTCCC -GCAAAAAAAGATGGTGGCTACGACGGGATTCGAACCTGTGACCCCATCATTATGAGTGATGTGCTCTAAC -CAACTGAGCTACGTAGCCATCTTTTTTTTCGCGATACCTTATCGGCGTTGCGGGGCGCATTATGCGTATA -GAGCCTTGCAGCGTCAACCTCTTTTTCAAGGAAAATTGCTCGAAAGTGACTGTTTGGTTAGGTTGCGAAC -AGCGTGGCGCTATATTCGTCAATTATTGTTTACTTTGTGTTTTTTCCCACCCTACAGCCATTCTTTTGTC -ATACAGGATGAAATTCGGAATTTAACAATAGTGGTGGGAAATTAATCTATGAAATACTGGCCTACAGTGA -TGAGTTGTCAAACAGTGATGTGGCAAACCCGGAACATTTCCTTACTGCATATCAGAATCAACAAGCACCT -CAATAACTGAAACAGCCCCGGATTTCACCGGGGCTGTTTCGCATTTCTTACTTATACGCCGACTGGTGAA -CACCAACCGCGCGACCAGACGGATCGTCCATTTTCTTGAACGCTTCATCCCATTCGATCGCTTTAGCGGA -AGAACAAGCGACGGAAGGACCGCCCGGCACGCACTCAGCGGCGCTCGGAAGCGGGAATAGTTCTTCAAAG -ATCTCCCGATACAAGTACGCTTCTTTAGAGGTTGGCGTGTTGTACGGGAAGCGGAAGCGGGCAGTTTCCA -GTTGCTGATCAGAAACCTGCTGCGCAGCCACTTCTTTCAGGGTGTCGATCCAACTGTAACCGACGCCATC -GGAGAACTGCTCTTTCTGCCGCCAGGCCACGCTTGCAGGCAGATACGCTTCAAAACATTCACGCAGGATG -TGTTTTTCCATTTTGCCGTTACCGCACATTTTATCCTGTGGGTTAATACGCATCGCCACATCAAGGAATT -TTTTGTCGAGGAACGGAACGCGTGCTTCCACGCCCCAGGCTGACATCGCTTTGTTGGCACGCGCGCAGTC -ATACATATGCAGGGCCAGCAGTTTACGCACCGTCTCTTCATGCAGTTCTTTGGCATTCGGTGCTTTGTGG -AAGTAAAGATAACCGCCGAACACTTCATCAGAACCTTCACCGGACAGCACCATTTTAATGCCCATCGCCT -TGATCTTACGCGACATTAAATACATCGGTGTTGAAGCGCGAATAGTGGTCACATCATAAGTTTCGATGTG -GTAAATCACGTCGCGGATGGCATCCAGACCTTCCTGTACAGTGAAGTGAATTTCGTGATGCACCGTGCCC -AGATGGTTTGCCACTTCCTGGGCTGCTTTCAGATCCGGTGAACCCGGCAGACCTACAGCAAAGGAGTGTA -ACTGCGGCCACCAGGCTTCAGAGCGTTCCTGATCTTCCACGCGACGGGCTGCGTATTTCTTGGTGATAGC -GGAAATAATTGAGGAATCCAGACCACCAGAAAGCAGCACACCGTAAGGCACATCAGACATCAGATGGCTT -TTAACTGAATCTTCCAGTGCCTGACGCAGCTCGTTTTTGTCGGTCACGTTATCTTTCACCGCATCGTAGT -CGAACCAGTCGCGATGATAGTAAGAACGGATTTCGCCGTCCTGGCTCCACAAATAGCTCCCCGCCGGGAA -CTCTTTAATCGTGCGGCAAACTGGCACCAGCGCTTTCATTTCTGAGGCCACATACAGCTGACCGTGTTCG -TCATACCCCATATACAGTGGGATGATCCCCAGATGGTCGCGACCAATCAGGTAGGCATCTTTTTCGCTGT -CGTACAGTGCAAAGGCAAACATGCCCTGCAAGTCGTCGAGAAATTCCGGCCCTTTTTCCTGATACAGCGC -GAGGATCACTTCACAGTCAGACCCGGTCTGGAACTGGTAACGATCGCCATATTCGGCGCGCAATGCCTGG -TGGTTGTAGATTTCACCGTTTACCGCCAGTACGTGGGTTTTTTGTTGGTTGTAGAGAGGTTGCGCCCCCG -CGTTAACGTCAACAATTGACAGACGTTCGTGGGCGAGAATGGCGTTATCGCTGGCATAAATACCGGACCA -GTCCGGGCCACGATGACGCATCAGGCGTGACAGCTCGAGGGCTTTCTTACGCAGCTCAACTGCGTCTGTT -TTGATATCGAATACGCCAAAAATTGAACACATAACCTTCTCCGTTAACCTGGTATTTGTTGCTTGTTGTG -TTTGCTTGTTTAAAAAAATGCCGCAAAGCAGCACTGTGCGCAAGCGATTTGGCGGTGAAAAAATAAAAAA -CGTAATGGTGATTGTCGATTGGTGAAAAAAGGTCTGGTGTGAGGATATATTTATTGATGAATCGATAATT -TTTAGCGGGTTTTATTGAATGTTTATATTTTACGGGGGCCAAATTGCTGACAAAGTGCGATTTGTTCATG -CCGGATGCGGCGTGAACGCCTTATCCGGCCTACAAAAGCATGAAAATTCAATATATTGCAGGAGCTGCGT -AGGCCTGATAAGCGTAGCGCATCAGGCAGTTTGGCGTTTGTCATCAGAGCCAACCACGTCCGCAGACGTG -GTTGCTATTCAGATAACGTCGATTTCAGCGACTGACGGGTAAATCCAGCTGGGGCGGAAAGGCATACTGT -CGATATCGTCGAGCGACGAAACACCAGAAAGCACCAGAATCGTCTCCAGACCTGCCTGGAAGCCGGCCAG -AATATCGGTACGCAGGTTATCGCCGACAATCACCGTTTCTTCCGAATGCGCCTGCATTTTGTTTAATGCT -GCGCGGATGATCCACGGGCTGGGCTTACCAACATAGAACGGTTTGCGCCCGGAGATTTTCTCAATCCCTG -CACACAACGCGCCACAAGCGGGATAAAAACCGCGCCCGTGGGTGTCCGGATTGGTGGCGATAAAACGTGC -ACCGTTAGCGACGAAATAGGCTGCTTTATGCATCATGTCCCAGTTGTAGGAACGCGTTTCGCCAACAATC -ACGAAATCAGGGTTCACATCGGTAATAGTGAAACCGGCTTTGTACAGTTCATAAATCAGTGCGCCTTCGC -CCACCACATACGCTTTCTTGCCTTCCTGGCGACGCAGGAAATCGGCAGTCGCCATCGCAGAGGTATAAAA -CACGCTGTCAGGTACATCGACACCTGCGGTGGCAAAGCGGTTCGCCAGATCTTGCCCAGTCTGCGAAGGA -TAGTTGGTCAGCAACACCAGCGGCAGGCCTTTATCCATAATCCCGTGCAAAAATTCCGCTGCACCCGGTA -CGGCGACGTTATCGTGCATCAGCACGCCGTCGATATCGCAAATTACATTTTTAATGGTCATGGACTACCC -AGAATATTGACAACAATAAGCGCCACTATAAAAGCACATTAATTTTCCAGCAAATGCTGGAGCAAAATAC -CGTTGAGCATGGCGCGTTTTACCAGCGCAAAAGCGCCGATTGCCGAGCGGTGATCCAGCTCAGAACGTAC -CACCGGCAGATTAGTGCGAAACGCCTTCAGCGCCTGGGTATTAATGCAGCTTTCAATAGCAGGGAGCAGC -ACTTTATCGGCTTCGGTGATTTCACCGGCAATAACAATTTTTTGCGGATTAAATAAGTTGATAGCAATGG -CGATGGTTTTACCCAGATGACGACCGACATACTCAATTACTTCCGACGCCAGACTATCGCCTTTGTTCGC -GGCTTTGCAGATAGTTTTGATGGTGCAGTCGTCCAGCGGCACGCGGCTCTGGTAGCCCTGCTTTAACAGA -TTCAACACCCGTTGTTCAATGGCAGCGTTGGCAGCGATAGTTTCCAGGCAGCCAAAGTTGCCGCAGTGGC -AGCGTTCACCCAGCGGTTCGACCTGAATATGGCCAATTTCACCGACGTTGCCGTTGCGGCCAATAAAAAT -GCGCCCGTTAGAGATAATCCCGGCCCCGGTTCCGCGATGGACACGCACCAGAATGGAGTCTTCGCAATCC -TGACTTGCACCGAAGTAGTGCTCCGCCAGCGCCAGACTACGGATATCGTGACCAACGAAACAGGTCACTT -TAAAACGTTCTTCCAGAGCTTCTACCAGCCCCCAGTTTTCTACCTGAATATGCGGCATGTAATGAATTTT -GCCGCTGTCCGGGTCAACAAGCCCTGGCAGGATCACCGAAATCGCGATCAGCTCGCGCAGTTTGCGCTGG -TAGCTATCAATAAACTGAGCAATGGCATTCAACAGGGCATGTTCCAGCGTTTGCTGGGTACGTTCCGGCA -GCGGGTAATGTTCTTCTGCCAGCACTTTGCTGCTGAGATCAAACAGAGTGATGGTGGCGTCATGACGACC -AAGCCGTACGCCGATTGCGTGGAAATTGCGGGTTTCGGTGACGATGGAGATAGCGCGGCGGCCCCCGGTG -GAGGCCTGCTGATCAACTTCTTTGATCAGCCCGCGTTCGATAAGCTGACGCGTAATTTTGGTTACGCTGG -CGGGGGCAAGCTGGCTTTGCTCGGCAATCTGAATCCGCGAGATTGGCCCGTACTGGTCAATCAGGCGATA -AACCGCCGCGCTGTTAAGCTGTTTTACGAGATCAACATTACCTATCTGAGCTTGTCCGCCTGGTGTCATA -CTTTCTCTTATTGAGTTACGACCTCGTTACCGTTAACGATGGTCTTGGTGATTTTAAAATCAGGTGTGAA -TGCAGTCAGGTTGGCTACTTTACCTGCGGCGAGTGTGCCGAGACGTTTCTCAACGCCAATCGCACGCGCC -GGATAGAGCGTCGCCATACGTAGCACTTCATCCAGTGCGATACCGCAATGTTCGACCAGATTACGCACGC -CTTCAATCATGGTTAAGGATGAACCGCTTAACGTACCGTTCTCATCCACACAAAGTCCGTTACGGTAGTA -TATTGTTTTACCCGCAAAAATGAACTGTTCAATGTTGGCACCTGCTGGCGCGGTGGCGTCAGTAACCAGA -CACAGTTTGTCGCCTTTCAGACGTTTAGCGTTGCGAATGTTGGCGTAATCAACATGCAGGCCATCAGCAA -TAATACCGCAATAAATGTCAGCTTCGTCGAGGATCGCGCCCGCCAGGCCAGGTTCACGACCGGTAATATA -CGGCATCGCGTTGTACAGATGGGTGGCAAAGGTAATCCCCGCGCGGAAACCGGCTTTTGCTTCTTTCAAC -GTCGCGTTGGAGTGACCGGCAGAAACCACAATCCCGGCATTTGCCAGTTTGCTGATGACTTCCGCAGGAA -CCATTTCCGGTGCCAGGGTCACTTTGGTAATGACGTCGGCGTTTTCACACAGGAAATCGACCAGCGCGGC -ATCAGGCTTACGCACAAAATTCGGATTATGGGTGCCTTTTTTTACCAGATTCAGCCACGGACCTTCCAGA -TGCAGACCTAACGCCTGATTCGGATGTTTTGCCAGGTACTCGCGCATAACGCGCACGCCCTGTTTCATCA -GCTCATCGCTGGTGGTGATAAGCGTCGGCAGATAGTTAGTACAGCCTGATTTCTCATTGGCTTTCTGCAT -GATTTCCAGCGTTTCCACGCTGACCGCTTCAGCGGTGTCGTTAAACTGTACGCCGCCGCAGCCGTTTAAC -TGCACATCGATAAAACCGGGGGAGAGAATGGCCCCGTTCAGTGAACGTTGTTCGATCTCTGGCGGCAGTT -CCGCTACCGGACAGACGCTTTTAATCAGGCCATCAGCGATAACAACCGCGTGGTCATCAAGAAATTCGTG -GCCGGTAAAGATCCGGCCCTGGGTTAATGCATACATTCTGACCCCCGATTTTAAAAAATATTGCCCTGAG -CAAGGAGCCAGGGCAGGGATAACAATTACAGACCTTTGATATTTTCTGCTTCTAATTCATTGAAATATCT -TAAAGTCTTAACTTTCAGCTCCATGGTGGAAGGTTCATCGCACACCATGATCGCTTTCGGATGCAGTTGC -AGACAGCTGATGGTCCACATATGGTTCACGCAACCTTCAACGGCGGCCTGCAGCGCCAGTGCTTTCTGGC -TACCCAGCACCAGAATCATCACTTCTTCGGCATCCAGCAGTGTACCAACACCGACAGTCAGGGCATATTT -TGGCACCTGATTAACATCGTTATCAAAGAAACGAGAGTTTGCGACGCGAGTGTCATGAGTCAGGGTTTTG -ATACGAGTACGAGAAGCCAGAGAAGACGCCGGTTCGTTAAATGCAATATGACCGTCGTTACCTACACCGC -CCATAAACAGATGAATTTTTCCGTAAGAACGGATTTTTTCTTCATACTGGCGGCACTCGGCGTCGATATC -CGGGGCGTTGCCGTTGAGAAGGTTGATGTTTTCTGCTGGAATATCAACGTGATCGAAGAAATTACGGTGC -ATAAAGCTGTAGTAGCTTTCCGGATGCTCTTTCGGCAGACCGACATATTCGTCCATGTTGAAGGTGACAA -CGTGCTTAAAGCTGACCTGGCCTGCTTTATGCATTTCGACTAACGCTTTATAGGTGGTCATCGGCGTGCC -GCCAGTCGGCAGGCCCAGTACAAACGGACGATCGGCAGTCGGTTTGAACGCATTGATACGATTGACGATA -TGGCGAGCAGCCCATTTGCCGACCTGTTCAGCGGTAGTCAGGGGGATCAGTCTCATTATTCACCTCAATA -AGTAAAATGTAAGCCGTTGGCGGATTAGGCATCTTTAAGCGTAACCTGGATTTGCGCAGACAGGCGTCAA -TCCGACCTGATTTTTTGAATGATAAAATAAGTTTTCTGGTTTAGCCAGTAAAAGGGAGTGATAATAACGA -TATTTGGTGACAAAACTCACAAAAGACACGCGTTTAATTTGCGATACGAATTAAATTTTCACACACTCTG -TAGCAGATGATCTAACAATCTGATTACAGAACATCGGCAGTACAATTTGCAGCAAAATAAAAATACGGCT -TGAAACGAGCCAAATAGGGTTCTCGTAGGGGGAATAAGATGAATATTTTAGGTTTTTTCCAGCGACTCGG -TAGGGCGTTACAGCTCCCTATCGCGGTGCTGCCGGTGGCGGCACTGTTGCTGCGATTCGGTCAGCCAGAT -TTACTTAACGTTGCGTTTATTGCCCAGGCGGGCGGTGCGATTTTTGATAACCTCGCATTAATCTTCGCCA -TCGGTGTGGCATCCAGCTGGTCGAAAGACAGCGCTGGTGCGGCGGCGCTGGCGGGTGCGGTAGGTTACTT -TGTGTTAACCAAAGCGATGGTGACCATCAACCCAGAAATTAACATGGGTGTACTGGCGGGTATCATTACC -GGTCTGGTTGGTGGCGCAGCCTATAACCGTTGGTCCGATATTAAACTGCCGGACTTCCTGAGCTTCTTCG -GCGGCAAACGCTTTGTGCCGATTGCCACCGGATTCTTCTGCCTGGTGCTGGCGGCCATTTTTGGTTACGT -CTGGCCGCCGGTACAGCACGCTATCCATGCAGGCGGCGAGTGGATCGTTTCTGCGGGCGCGCTGGGTTCC -GGTATCTTTGGTTTCATCAACCGTCTGCTGATCCCAACCGGTCTGCATCAGGTACTGAACACCATCGCCT -GGTTCCAGATTGGTGAATTCACCAACGCGGCGGGTACGGTTTTCCACGGTGACATTAACCGCTTCTATGC -CGGTGACGGCACCGCGGGGATGTTCATGTCCGGCTTCTTCCCGATCATGATGTTCGGTCTGCCGGGTGCG -GCGCTGGCGATGTACTTCGCAGCACCGAAAGAGCGTCGTCCGATGGTTGGCGGTATGCTGCTTTCTGTTG -CTGTTACTGCGTTCCTGACCGGTGTGACTGAGCCGCTGGAATTCCTGTTCATGTTCCTTGCTCCGCTGCT -GTACCTCCTGCACGCACTGCTGACCGGTATCAGCCTGTTTGTGGCAACGCTGCTGGGTATCCACGCGGGC -TTCTCTTTCTCTGCGGGGGCTATCGACTACGCGTTGATGTATAACCTGCCGGCCGCCAGCCAGAACGTCT -GGATGCTGCTGGTGATGGGCGTTATCTTCTTCGCTATCTACTTCGTGGTGTTCAGTTTGGTTATCCGCAT -GTTCAACCTGAAAACGCCGGGTCGTGAAGATAAAGAAGACGAGATCGTTACTGAAGAAGCCAACAGCAAC -ACTGAAGAAGGTCTGACTCAACTGGCAACCAACTATATTGCTGCGGTTGGCGGCACTGACAACCTGAAAG -CGATTGACGCCTGTATCACCCGTCTGCGCCTTACAGTGGCTGACTCTGCCCGCGTTAACGATACGATGTG -TAAACGTCTGGGTGCTTCTGGGGTAGTGAAACTGAACAAACAGACTATTCAGGTGATTGTTGGCGCGAAA -GCAGAATCCATCGGCGATGCGATGAAGAAAGTCGTTGCCCGTGGTCCGGTAGCCGCTGCGTCAGCTGAAG -CAACTCCGGCAACTGCCGCGCCTGTAGCAAAACCGCAGGCTGTACCAAACGCGGTATCTATCGCGGAGCT -GGTATCGCCGATTACCGGTGATGTCGTGGCACTGGATCAGGTTCCTGACGAAGCATTCGCCAGCAAAGCG -GTGGGTGACGGTGTGGCGGTGAAACCGACAGATAAAATCGTCGTATCACCAGCCGCAGGGACAATCGTGA -AAATCTTCAACACCAACCACGCGTTCTGCCTGGAAACCGAAAAAGGCGCGGAGATCGTCGTCCATATGGG -TATCGACACCGTAGCGCTGGAAGGTAAAGGCTTTAAACGTCTGGTGGAAGAGGGTGCGCAGGTAAGCGCA -GGGCAACCGATTCTGGAAATGGATCTGGATTACCTGAACGCTAACGCCCGCTCGATGATTAGCCCGGTGG -TTTGCAGCAATATCGACGATTTCAGTGGCTTGATCATTAAAGCTCAGGGCCATATTGTGGCGGGTCAAAC -ACCGCTGTATGAAATCAAAAAGTAATCTGCTTTATGCCTGATGCGACGCTTGAGCGTCGCATCCAACAAT -GACAAGCGGTGGAGATCTTCTCTGCCGCTTTTTTTTTCATCAATCATCCCCATAATCCTTGTTAGATTAT -CAATTTTAAAAAACTAACAGTTGTCAGCCTGTCCCGCTTATAAGATCATACGCCGTTATACGTTGTTTAC -GCTTTGAGGAATCCACGATGAGTGAGGCAGAAGCCCGCCCGACTAACTTTATCCGTCAGATCATCGATGA -AGATCTGGCCAGTGGTAAGCACACCACAGTACACACCCGTTTCCCGCCGGAGCCGAATGGCTATCTGCAT -ATTGGCCATGCGAAATCTATCTGCCTGAACTTCGGGATCGCCCAGGACTATAAAGGCCAGTGCAACCTGC -GTTTCGACGACACTAACCCGGTAAAAGAAGATATCGAGTATGTTGAGTCGATCAAAAACGACGTAGAGTG -GTTAGGTTTTCACTGGTCTGGTAACGTCCGTTACTCCTCCGATTATTTTGATCAGCTCCACGCCTATGCG -ATCGAACTGATCAATAAAGGCCTGGCGTACGTTGATGAACTGACGCCGGAACAGATCCGCGAATACCGCG -GCACCCTGACGCAACCGGGTAAAAACAGCCCGTACCGCGACCGCAGCGTTGAAGAGAACCTGGCGCTGTT -CGAAAAAATGCGTGCCGGTGGTTTTGAAGAAGGTAAAGCCTGCCTGCGTGCGAAAATCGACATGGCTTCA -CCGTTTATCGTGATGCGCGATCCGGTGCTGTACCGTATTAAATTTGCTGAACACCACCAGACTGGCAACA -AGTGGTGCATCTACCCGATGTACGACTTCACCCACTGCATCAGCGATGCCCTGGAAGGTATTACGCACTC -TCTGTGTACGCTTGAGTTCCAGGACAACCGTCGTCTGTACGACTGGGTACTGGACAACATCACGATTCCT -GTTCACCCGCGCCAGTATGAGTTCTCGCGCCTGAATCTGGAATACACCGTGATGTCCAAGCGTAAGTTGA -ACCTGCTGGTGACCGACAAGCACGTTGAAGGCTGGGATGACCCGCGTATGCCGACCATTTCCGGTCTGCG -TCGTCGTGGTTACACTGCGGCTTCTATTCGTGAGTTCTGCAAACGCATCGGCGTGACCAAGCAGGACAAC -ACCATTGAGATGGCGTCGCTGGAATCCTGCATCCGTGAAGATCTCAACGAAAATGCGCCGCGCGCAATGG -CGGTTATCGATCCGGTGAAACTGGTTATCGAAAACTATCAGGGCGAAGGCGAAATGGTTACCATGCCGAA -CCATCCGAACAAACCGGAAATGGGCAGCCGTCAGGTGCCGTTTAGCGGTGAGATTTGGATTGATCGCGCC -GATTTCCGCGAAGAAGCTAACAAGCAGTACAAACGTCTGGTGCTGGGTAAAGAAGTGCGTCTGCGTAATG -CTTATGTGATTAAGGCAGAACGCGTCGAGAAAGATGCCGAAGGTAATATCACCACCATCTTCTGTACTTA -TGACGCCGATACCTTAAGCAAAGATCCGGCAGATGGTCGTAAAGTCAAAGGTGTTATTCACTGGGTGAGC -GCGGCACATGCGCTGCCGGTTGAAATCCGTTTGTATGACCGTCTGTTCAGCGTGCCTAACCCAGGTGCTG -CGGATGATTTCCTGTCGGTGATTAACCCGGAATCGCTGGTGATCAAACAGGGCTTTGCTGAACCGTCGCT -GAAAGATGCGGTTGCGGGTAAAGCATTCCAGTTTGAGCGTGAAGGTTACTTCTGCCTCGATAGCCGCCAT -TCTACGGCGGAAAAACCGGTATTTAACCGCACCGTTGGGCTGCGTGATACCTGGGCGAAAGTAGGCGAGT -AATTTTAAGTTTCGCTATGCCGGATGGGGCGTTTACGTCGCATCCGGCAAGGAACAGACAAACAGTTTCA -AACGCTAAATTGCCTGATGCGCTACGCTTATCAGGCCTACATGATCTCTGCAATATATTGAGTTTGCGTG -CTTTTGTAGGCCGGATAAGGCGTTCACGCCGCATCCGGCAAGAAACAGCAAACAATCCAAAACGCCGCGT -TCAGCGGCGTTTTTTCTGCTTTTCTTCGCGAATTAATTCCGCTTCGCAATTTATCCATAAAATAAATTTA -AAATAACAAAACATAATTAAATAAAATGTAACCGCTTTCATCTTGCTGGAATTTCACGCTTTTATTCTTC -TGCAAGCCTTTCAACCGCAAACTTAAGCCTTGTAACAAAAATCATCAAAATATGTGCGGTTGCTCATGTT -CTTACATTCTGGTTACAGAAAGAGATTGATAATTCGCGTCGCGAAAAATAGTCTGTTCCTGTAGTCAGCG -AGACTTTTCTCAACGCTACTTTTTTAATTTTTATTTTTTCGCTGTTCACCTTTGGTGCAGCAATTTATAC -GTCAAAGAGGATTAACCCATGCGTACGTTTAGTGGCAAACGTAGTACGCTGGCGCTGGCTATCGCCGGTG -TTACAGCAATGTCGGGCTTTATGGCAATGCCGGAGGCTCGCGCCGAAGGATTCATCGACGATTCAACCTT -AACCGGCGGTATCTATTACTGGCAGCGTGAACGCGACCGTAAAGATGTTACCGACGGCGACAAATACAAA -ACCAACCTTTCTCACTCCACCTGGAATGCCAACCTCGATTTTCAGTCCGGTTATGCTGCTGATATGTTCG -GCCTTGATATTGCTGCGTTTACGGCGATTGAAATGGCGGAAAACGGCGACAGCTCCCACCCGAACGAAAT -CGCGTTTTCAAAAAGTAATAAAGCCTATGACGAAGACTGGTCCGGCGACAAAAGCGGTATAAGCCTGTAT -AAAGCTGCGGCCAAATTTAAATACGGTCCGGTTTGGGCGAGGGCAGGTTACATTCAGCCAACTGGTCAAA -CGCTGTTAGCGCCGCACTGGAGCTTTATGCCAGGTACTTATCAGGGGGCGGAAGCCGGGGCGAATTTTGA -TTACGGCGATGCTGGTGCGTTGAGTTTCTCCTACATGTGGACCAACGAATACAAAGCGCCGTGGCATCTG -GAAATGGATGAGTTTTATCAGAACGATAAAACCACCAAAGTTGATTATCTGCACTCCTTTGGGGCGAAAT -ACGACTTCAAAAATAACTTCGTACTGGAAGCGGCATTTGGTCAGGCGGAAGGGTATATCGATCAATATTT -TGCCAAAGCCAGCTACAAATTTGATATCGCCGGTAGCCCGTTAACCACCAGCTACCAGTTCTACGGTACC -CGAGATAAAGTTGACGATCGCAGCGTCAACGACCTTTATGACGGCACCGCCTGGCTGCAAGCGTTGACCT -TTGGTTACCGGGCGGCTGACGTAGTGGATTTGCGCCTCGAAGGCACCTGGGTTAAGGCTGACGGTCAGCA -GGGATACTTCCTGCAACGTATGACTCCAACCTACGCTTCCTCAAACGGTCGCCTGGATATCTGGTGGGAT -AACCGTTCTGACTTCAACGCCAACGGCGAAAAAGCGGTCTTCTTCGGTGCGATGTATGACCTGAAAAACT -GGAATCTTCCAGGCTTCGCCATCGGCGCTTCCTACGTTTACGCATGGGATGCTAAACCTGCGACCTGGCA -GAGCAATCCGGATGCGTACTACGACAAAAACCGGACTATTGAAGAGTCTGCCTACAGCCTGGATGCGGTC -TATACCATTCAGGACGGTCGCGCCAAAGGCACGATGTTCAAACTGCATTTCACCGAATACGACAACCACT -CCGACATCCCAAGCTGGGGCGGTGGTTACGGCAACATCTTCCAGGATGAGCGTGACGTGAAATTTATGGT -AATCGCACCATTCACCATCTTCTGATGCCCGACGCGGCAGGTTTTGTGCCTGCCGCACGTTTGAGGAATT -TGCTATGAAAAAACTGATTCTCATCGCCATAATGGCATCGGGGCTGGTAGCTTGTGCGCAATCAACCGCG -CCACAGGAAGACAGTCGTCTGAAAGAGGCATACAGCGCCTGTATCAACACCGCACAAGGTTCGCCAGAAA -AAATTGAAGCCTGCCAGAGCGTGTTAAACGTGCTGAAGAAAGAGAAACAACATCAGCAGTTTGCCGACCA -GGAAAGTGTACGCGTACTGGATTATCAGCAGTGTCTGCGTGCAACGCAAACCGGAAATGATCAGGCGGTG -AAAGCCGATTGTGATAAAGTCTGGCAGGAAATACGCAGTAATAACAAATAAGTGAGAGCTGTAACTCTCG -CTTTTCTTATTTCCCTTGCATAAAAAAGCCAACCCGCAGGTTGGCTTTTCTCGTTCAGGCTGGCTTATTT -GCCTTCGTGCGCATGTTCATCTTCGCGGCAATCGCCTTCGGCACAGTGACCGTAAAGATAGAGACTGTGG -TTAGTCAGGCGAATGCCATGTTTTGCGGCAATTTCACGCTGACGCGCTTCGATGGAATCATCACTAAATT -CGATAACCTTGCCGCAGTCGAGGCAGATCAGGTGATCGTGGTGATGTTGCTGTGTCAGTTCAAATACGGA -TTTACCGCCTTCAAAATTGTGGCGGGTGACGATACCAGCGTCGTCAAACTGGTTCAGTACGCGATATACC -GTAGCCAGACCAATTTCTTCACCCATATCGATCAGACGTTTGTATAAATCTTCCGCACTGACGTGATGGT -TGTCCGGCTCCTGAAGAACTTCCAGGATTTTTAAACGAGGAAGCGTTACTTTCAGGCCAGCTTTCTTTAG -GGCGGTATTGTTATCAGTCATGCGGAATCTGTCCTGTTACTAAGCGGTTCACTTCATTAGAAGAAGTGAC -AGAATTTGCTCTTGAGATAATGCGTATCATTATAGAATTGCCACGCCTAAATGAAAACCACAAGTCCCTG -GCAAATATTGTTAATAAAAACGTGGCACAGCTTACATTTACAACGGCAAGGCCACTTGAACACCGGGACA -TTGTACAGGTACAACAGCAAAAGTTACAAATTTGTAGCAATTATTTTGATTGGCATTATCTATTAATACG -GCGTAGACATGAGTCTACGCCGCATCACATCAGGCATTGAGAATTTCGTCGAGATGCAACTCTTCAGAAA -TCTGTTTAACCCATTTTTCTACACGTTCAGCGGTCAGTTCCGGCTGACGGTCTTCGTCGATAGCCAGACC -GACAAAGTGGTCGTCATCTGCCAGACCTTTTGATGCTTCGAAATGATAGCCCGCAGTTGGCCAGTGACCA -ACGATGGTTGCACCGCGCGGTTCAATGATGTCGCGGATGGTGCCCAATGCGTCGCAGAAATATTCGGCGT -AATCTTCCTGGTCACCACAACCAAACAGCGCAACCAGTTTGCCGTTGAAATCAATCTCTTCGAGAGTCGG -GAAGAAGTCATCCCAGTCACACTGCGCTTCGCCGTAATACCAGGTTGGGATGCCCAGCAGCAGAATGTCA -TAAGCTTCCAGATCTTCTTTGCTGCTTTTTGCAATGTCATGGACATCGGCAACGTCTTTACCAAGCTGTT -TTTGAATCATTTTTGCGATATTTTCGGTATTACCGGTGTCGCTGCCGAAAAAGATGCCAGTGATAGCCAT -GAGTGAAATAACCTCTTGAAACTTATTGAAATGGGGGTGGAAAATTGCCCACGGATAAAGGCAATCATAG -CAGAACAGGCAGTCTTGCGGAATCAGCAAACGAGCAGGACTGCACACTGTGCTACATGAAAGTGGAAATT -TAAACGATGCCCTGACTACGCAGCGCCGCCAGTTGCTGCATTAACATCTCTTCGATCAGTTCGCTACGGC -TCATATTGCGCGACTCCGCCAGCTCGTTCAGCGCCTCGACAGCTTCCGCGTTCAGCTTCAGTTCGACACG -CTTAAGGCCACGTACTTTGTCGCGTTTTAGCTGGTTGCGTTTATTAATACGCAGCTGTTCATCGCGCGAA -AGCGGATTAGTTTTCGGTCGTCCCGGTCGACGCTCGTGCGCGAACAGATCTAATGTCGTACGGTCCGTTT -GTTCTTTGGCCATGATCTTGGTGACTTCGGGGGAAACAATCAGCCAGGCCTCTGCCCGGATGGATAGCGC -GCCATAATACATCAGCGCGATGAGTCACGCCAACGCCCACGCGCGGAAAGCGACGCGGACGCTGGGTTTT -TAATCAGTTGCGTTAATCATTGAGATAGCGACGGATAGCGCGTAATACCGCATCCGGTTTTTCAGCATGG -ACCCAGTGACCCGCGCCTGCAATCACATGCGCCCGTGCCTGTGGAAATTGAGCCAGTAAATCATCACGGT -ACTGCTCGCTAACATACGGAGAATTGCCGCCAGGGATAAACAGGGCAGGGTGATCCCATGCCGGGATTTT -CTCCCAACCTACAATATGCGGATACTGATCCCACAATACCGGCACGTTAAAGCGCCACTCCCCGTCAACA -AAAGATTTCAGCAGAAACTGAATCACCCCTTCTTCATTAAGATGCTGGCGCATTATTGCTGCTGCTTGCT -GGCGAGTTTGTGCGTCCGATTCACTGACCGCGTTGATAGCCGCAAAAATCTCATCATGACGGCGTACGTG -ATAGTCGACCGGCGCGATATCGATCGCCACCAGTTTATCGATGCGATCGGAGGCTAGTGCAGTAAGTGCC -ATTACCGCTTTACCGCCCATGGAGTGACCGATAAATGTTGCTTTGTCGATCTGCTGTGCATCCAGAGTAT -CAACAAGATCCTGCGCCATCGCCGGGTAATTCATTACCGGATCTCTCGGTGAAAGACCGTGGTTACGCAT -ATCAACCTGGATGATATTGTGATCGTTTACCAGATCGCGAGCCAGTACGCCAAGGTTGTCGAGGCTGCCA -AACAGACCGTGGACAAGAACGATGGGAGAATTATTGTGCTGGTTTTGTGCAGTTTGCGCGCGGATATTCA -ATTTCATGGCAAAGTTCTTTTTTTCGCGTTGTCGGGTTAGGGTATTATGTTGACCATTGTGCCACAGGGC -TGCAACAAATAAGGTTTATTCCGAGTTTTTCTGCAAGCCAGGCTTGACGCTATCCGCTGCCGGGATTTAT -TCATATACTCCTGGCGACTTGTATTCAGCTAAGACACTGCACTGGATTAAGATGAAAACGATTGAAGTTG -ATGATGAACTCTACAGCTATATTGCCAGCCACACTAAGCATATCGGCGAGAGCGCATCCGACATTTTACG -GCGTATGTTGAAATTTTCCGCCGCATCACAGCCTGCTGCTCCGGTGACGAAAGAGGTTCGCGTTGCGTCA -CCTGCTATCGTCGAAGCGAAGCCGGTCAAAACGATTAAAGACAAGGTTCGCGCAATGCGTGAACTTCTGC -TTTCGGATGAATACGCAGAGCAAAAGCGAGCGGTCAATCGCTTTATGCTGCTGTTGTCTACACTATATTC -TCTTGACGCCCAGGCGTTTGCCGAAGCAACGGAATCGTTGCACGGTCGTACACGCGTTTACTTTGCGGCA -GATGAACAAACGCTGCTGAAAAATGGTAATCAGACCAAGCCGAAACATGTGCCAGGCACGCCGTATTGGG -TGATCACCAACACCAACACCGGCCGTAAATGCAGCATGATCGAACACATCATGCAGTCGATGCAATTCCC -GGCGGAATTGATTGAGAAGGTTTGCGGAACTATCTAAAACGTTGCAGACAAAGGACAAAGCAATGGCAAT -CCACAATCGTGCAGGCCAACCTGCACAACAGAGTGATTTGATTAACGTCGCCCAACTGACGGCGCAATAT -TATGTACTGAAACCAGAAGCAGGGAATGCGGAGCACGCGGTGAAATTCGGTACTTCCGGTCACCGTGGCA -GTGCAGCGCGCCACAGCTTTAACGAGCCGCACATTCTGGCGATCGCTCAGGCAATTGCTGAAGAACGTGC -GAAAAACGGCATCACTGGCCCTTGCTATGTGGGTAAAGATACTCACGCCCTGTCCGAACCTGCATTCATT -TCCGTTCTGGAAGTGCTGGCAGCGAACGGCGTTGATGTCATTGTGCAGGAAAACAATGGCTTCACCCCGA -CGCCTGCCGTTTCCAATGCCATCCTGGTTCACAATAAAAAAGGTGGCCCGCTGGCAGACGGTATCGTGAT -TACACCGTCCCATAACCCGCCGGAAGATGGTGGAATCAAATACAATCCGCCAAATGGTGGCCCGGCTGAT -ACCAACGTCACTAAAGTGGTGGAAGACAGGGCCAACGCACTGCTGGCCGATGGCCTGAAAGGCGTGAAGC -GTATCTCCCTCGACGAAGCGATGGCATCCGGTCATGTGAAAGAGCAGGATCTGGTGCAGCCGTTCGTGGA -AGGTCTGGCCGATATCGTTGATATGGCCGCGATTCAGAAAGCGGGCCTGACGCTGGGCGTTGATCCGCTG -GGCGGTTCCGGTATCGAATACTGGAAGCGTATTGGCGAGTATTACAACCTCAACCTGACTATCGTTAACG -ATCAGGTCGATCAAACCTTCCGCTTTATGCACCTTGATAAAGACGGCGCGATCCGTATGGACTGCTCCTC -CGAGTGTGCGATGGCGGGCCTGCTGGCACTGCGTGATAAGTTCGATCTGGCGTTTGCTAACGACCCGGAT -TATGACCGTCACGGTATCGTCACTCCGGCAGGTTTGATGAATCCGAACCACTACCTGGCGGTGGCAATCA -ATTACCTGTTCCAGCATCGTCCGCAGTGGGGCAAAGATGTTGCCGTCGGTAAAACGCTGGTTTCATCTGC -GATGATCGACCGTGTGGTCAACGACTTGGGCCGTAAACTGGTAGAAGTCCCGGTAGGTTTCAAATGGTTT -GTCGATGGTCTGTTCGACGGCAGCTTCGGCTTTGGCGGCGAAGAGAGTGCAGGGGCTTCCTTCCTGCGTT -TCGACGGCACGCCGTGGTCCACCGACAAAGACGGCATCATCATGTGTCTGCTGGCGGCGGAAATCACCGC -TGTCACCGGTAAGAACCCGCAGGAACACTACAACGAACTGGCAAAACGCTTTGGTGCGCCGAGCTACAAC -CGTTTGCAGGCAGCTGCGACTTCCGCACAAAAAGCGGCGCTGTCTAAGCTGTCTCCGGAAATGGTGAGCG -CCAGCACCCTGGCAGGTGACCCGATCACCGCGCGCCTGACTGCTGCTCCGGGCAACGGTGCTTCTATTGG -CGGTCTGAAAGTGATGACTGACAACGGCTGGTTCGCCGCGCGTCCGTCAGGCACGGAAGACGCATATAAG -ATCTACTGCGAAAGCTTCCTCGGTGAAGAACATCGCAAGCAGATTGAGAAAGAAGCGGTTGAGATTGTTA -GCGAAGTTCTGAAAAACGCGTAAACACATTTAATAAAAAAAGGGCGGTCGCAAGATCGCCCTTTTTTACG -TATGACAAACACAGAATTGCCTGATGCGCTACGCTTATCAGGCCTACGAGGATGGTGCAATATATTGAAT -TTAAGCGATTTTGTAGGCCGGATAAGGCGTTCACGCCGCATCCGGCAAAAACAACGAACACTTTGTCAAC -AAACTGAGTAGCTCAAGGAAATCCCAATGAAGACCAACAGGAGTCTGGTCGTCATAGTGTCACTAATTAC -CGCCACATTACTGCTGACTGCATGCGCCCAACCTGAACAATCATCATTAGCTGGCGACTGGTTACTGACC -CCTAAAGATAAAACCAGAGGATTAACGGGTAGCATTGCGGTAAATATTGCACCTTTCCGGTGTAAGACAA -ATTGCCGTGGTGATAACTTACCTGATAATACCCGCCGCTGGCAGTTGTCAGGCGGGAACGAAAAAGAACT -TACTTATCTTCATAATATGTCAGCACAAGAAAAGGTCGGTTTAAATCCCGGTTGGCAATGCTACACCTCA -TTTTTTATGCGGGTTTGCCAGGGCAAGCCCGGCACTCGACCGATAGTCAATGAGGATTATGTCAGCGAAA -GCGGATTTTTTGGCTCGATGATGCATGTCGGGATTATTGAGTTACGACGCTGCCAGTCAGAAAATTGCCA -GCAAGAATTGAAAGCGATAAATACACATTAAAATAGTGAGTCCGGGAATGAAACCCGGACCTGAACATGT -CTTATTGCGTGAATGTTTCTTTCATTTGATACTGCATTTCCCAGAGTTCAGTAAGCGAAATAACTTTTCT -TGTTCTTGCTTCTTCACTTTGTACCCATAAGAAAGGGTAGAACGTGAAGGCTTCCGTTGCCGATAATTTT -ATTACGTCTTCTCGCCATTGCTGCCATCGTACATTTTCATAGAAGGTATCTAAATCACCGGATAATGCCC -ACTGAAGAAACTCAGAATATCCAACTTCCAGACTTTCCCAATTCAGCGTATCTGGCGCAAAATAATAAAC -GCAGCCAGTATCTTCCCCAAGATCGCCACCATTAAGAGCAAAAATTACCCCTGCGACATCGTCAGCGATG -GGTAAAGCCCGCACGCCTGCGAATTCAGGGCGTTGTGTCCAACTTACTGGATCTCGTGGCAACCGGGGGT -GACCAGATCCTGCTATGCGTAACTAACCATTATCAATCAGCAGACCTCCGGAGCCATAGACAAGCGCACC -CATCGGTGATTTTGTTGTCACCTGTAATTGATAAAGTGCGGTTTCGGCTAAATCTTTATTAACCGGTAAG -AGTTCGGTATGGTTTGTGGCGTCTTTTAACCAGTTCTGGATTATTGGCCAGGCTGAATCTTCAGTATTTA -CTAACTGATTCATTTCACGCATCGCTACTTGCTCCTTGTGTGCTACGGTGTCATTTATGATGAGGAATTG -TATGGAACATTTTTTAAATATTAAGTTCCTTATATTTGAATAAAAAATGACTTTATCCATACATTGCCAC -TTTTTTCAAAGCATAAACCGATACCCAATACCGGTTTCAGTAATAAAATGGCGAGGCCGGGCCGGATCCT -GTTCCAGTTTTTGTCGCAGATGCCCCATATAATTACGCAAATAGTTGCTGTGTTCGATCGCGTTTAGACC -CTACATCTGCCGGATGCGGCATAAATAACGAACTATTTGCCAACAAACAGAAAGGGCGATCATTCAATCG -CCCTTTTTTACTTTGTTTTATTAACCGTGTTTATTTTTCAGTTCAAAGCGTGGTGATACCAGACCATACA -GTGTCCAACCAAGGAAGGTCACGATGGAACCGTACAGCATGGCTTCTTCCCCGGATGAGTACAGCGCATA -AAAGCTATACATCGCGCCAACAAAAGCAACAAAGTTTGCAACTTTCGCTTTTGAGGGGGGCACATTAGCG -ACCTTCTGAATAATGACTAATGCCGCCATTGACAGAATATACGGAATGATATTGGTCACCACGGCCAGGT -TAACCAGCACGTTGAACTGACTGTTTAGCGACGGGCTAATGGTCATCAGTGCCAATCCACTCTGAATAAT -CACAATGGTCAACATTCCCTGCACCGGTGCATCCACTTTGGTTACACGGGAGAAAATTTTAGGGAAGTAG -CCTTCATCAGATGAAGATTTAAACACCTGGGCAATGGTGAACTGCCAGCCAAGTAGCGAACCGCAGCAGG -ACATCACCATCAGCGCCATAATGACTTTACCCACTTCCGGCGTGAACATCTGCGCGAAGGCCAGACCAAA -TGGTGCCGTTGAATTTGCCAGCTCCATATTTGGCACAATCCCGGCAATCACGTTGGTGGAGACGATATAA -ATCACCGCCGCACCTAACGTACCGCCGAGTACCGCGATTGGCACATTACGTTCCGGGTTTTCCACTACAT -CAGTATTCGCACACGCAGACTCCAGACCAAGAAAAGCCCACAGCGTCATAGCGATGGAAGAACCTACCGC -ACTGAAGAACGGTGCATGATGCGGATTCCAGGAATCAACGTACAGCGTCGGGCTAAACCAGAACCAGCCA -ATAATGCACAGACCGACGACCGGAATAATGACCCCCCACACGGTAATGCTACTGATTTGCCCGGTAATGC -GCGCACCACCAAAGTTAGCCACGGTACAAATCCACAGCACCCCGATGGTCGCAAGACCAATCTGCACTGG -CGACAAACTCGCGCCGAGCAGTTCGGTGCCGTAACCAACCGCCGAAATAGCAATCGCGACGTTAGCAATC -AGCAGTGAGACGCCGTAGGTATAGTTCGCCATAAAGTTACCGGATTTACCGAAAGCATACTCGGCATAAC -CGCCCATACCGCCTGATTTACGGCTGAACATACCGCATTTTGCGAATGCCCATGCCAGTGCCATTGAGCC -TACGGCTGTCACCAGCCAGGAGATAATTGAGATTGTCCCGACTTCGGCAAGCTTTGTCGGCAGCATGATG -ATACCGGAGCCCATCATGTTGACCATCGTCAGTATGGTTAACTGAACGACGCCCATTTTGTTCGATTTAG -CCTGACTCATAATTTTTCCCCTTTCAACAGGGTGCTTTGCGCATCACGAGGCTTGATGACATAGCACCAA -ACTTGCTTACGACCATCATGTTCTTCGATATAGACACCCTGCAGCTCCGGTGCAAAACCTGGCAGCAGGT -TGATCCCTTCTTCCAGAGCGCTGAAGTAACGCAGAACAGCACCACCCCAGATTTCACCCGGAACAACACA -CAGCACACCCGGAGGATAAGGAAGCGCACCTTCGGCAGCGATACGGCCTTCTGCATCCGGCAGACGAACC -AGTTCCACTTCACCGCGTAAATAGGCGTAGTTGGCTTCTTGCGGATTCATGCTGACGCGTGGGAAGTGCT -CCTTACGGAACATCTCTTTTTGCAGTTGTTTCACGTTGTGGCGGGCATACAAATCATGCATTTCCTGACA -CAACTGACGCAGGGTATAACCGGCGTAGCGCTCTTCATGCTGTTTGTAGATGGAAGGTAGCACTTCTGCT -AATGGCGCGTCGGACTCAAGCAGTTTTTCGAAGCGTACCAGCAGGGCAACAAGTTGCTGAAGTTTGGCCA -TATCTTCTGCCGGAGTCAGCAGGAAGAGGATGGAGTTAAGATCGCATTTTTCCGGCACTACGCCATTTTC -GCGCAGGAAGTTAGCAAGAATCGTCGCGGGTACACCGAACGCTTCATATTCGCCGTTACGTGCATCAATA -CCTGGGGTTGTCAGCAACAGTTTGCATGGATCGACAAAGTATTGATTCTCTGCATAGCCTTCAAAAGAAT -GCCAGTGTTCCCCTGGTACAAACTGGAAGAAGCGCAGATCAACCGCAATTTGCGCTGTTTCATACGACTG -CCAGGGTTTACCATCCACCAGTTCAGGTACGAACGGACGAATATGCTGACAGTTATCGAGGATCAGTTTG -CGGGCATTAATGCCATTTACCACACAATCCATCCACATATTACGACCGCTGACACCTTCATGCATTTTGG -CGTTGATATTCAGTGCGGCAAACAGCGGATAGAACGGGCTGGTGGAGGCGTGCATCATAAAGGCGTTGTT -CATGCGTTTGTGCGGTACATAACGCTGTTGCCCTTTGATGTGGCTGTCTTTTTTATGAATTTGTGAAGTC -TGAGAAAAACCAGCCTGTTGTTTATGCACAGATTGCGTAACCAGAATACCCGGATCGTTCTCATTAAGAT -CCAGCAACAGCGGCGAACAGTCCGCCATCATCGGAATAAACTGTTCATAGCCGACCCATGCTGAGTCAAA -CAGGATGTAGTCACACAGATGACCAATTTTATCCACCACTTGGCGGGCGTTATAAATCGTACCGTCGTAG -GTGCCTAACTGAATCACAGCGAGGCGGAAAGGACGAGCCTCTTTTGCCCGCTGCGGTGCGACTTCCGCGA -TCAGCTCACGCAGGTAACTTTCTTCAAAACAGTGCGCATCAATGCCACCGATAAAGCCATACGGGTTACG -TGCCGTTTCCAGATAAACCGGTGTTGCACCAGCCTGTAGCAACGCTCCGTGGTGGTTAGATTTGTGGTTA -TTGCGATCAAACAGCACCAGATCACCCGGTGTTAGCAGGGCGTTTAAAACCACTTTGTTAGAAGATGAAG -TGCCATTTAAAACGAAGTAGGTTTTATCGGCATTAAACACTTTTGCCGCATGTTGCTGTGCAATGCATGG -CGCGCCTTCGTGAATCAGCAGATCGCCCATCGCTACGTCGGCGTTGCACAAGTCGGCACGGAACAGCGCC -TCACCAAAGTATTCCACAAACTGATTCCCCGCCGGATGGCGACGGAAAAATTCGCCGCCCTGATGACCAG -GGCAATCAAACGCGCTGTTACCTTGATTGACATAATCGACCAGTGCGCGGAAGAAAGGTGGGCGCAGTTG -AGTTTCATAATGGCTGGCAGCGGTTTCTAACTGGCGACCATAAAATTCTCGTCGCGATTCGCAATTCTCA -AAGACACCCGAAATACGGGGCAAATACTCTGCGGGTACACGTTCTTGATTTTCAGTAGCAATAAATACCG -GGATGCCATAACCCGTGGCATCGATTTCATCGAGTTTTCCGCATGTAACATCGTTGAGCGATAAAACTAT -TGCCGCCACATCGATATTACGACTTTCATTAATGTAGATACATTCTCGCTGCGTGGTAAAACAGTCCGGG -CAAGAATCACTAACCGCAATTTTTAATTTTGACATTTTTCATCTCTTTATTTTAGGTAATAGCAGGTCCT -CAATTTCTCGAATGAGAAATCGATCGTGCCGGAAAAAAGCAAAGTTACCCCGCTGATAAATAAATCAGGT -AGATTGCTTTTTTCAGAATGCAGAAACCCTTACCAGTCAGGTGGCTGATAATACAAGGGTTAACAGAGAA -TGAGCACTGCGGAATACAGGCATATGCCTGTAATACAGAGAGTCAGGAAGACCTGTACGCTGAAGTGCCC -TTAGTCGGTAGACTAACGGGCATTGAAGAAGTGAAAGTCGAAGCTATTGCGATGAGCAAACTTCATAATA -TGAGTTGTCCGCCTTATATGGGGCATAGTGCGGCTGTTATTTTCCATTTAATTTACCTTTCCTGATGTGA -ATGAAGGTGAAGATATTCTATCCAGGAAATACGGTTGAACTGTGAAGGTGATCAATAAAAAATGATCAAT -CTTAATTTATTTAATGATGAGCTTTTTACTCAGTAATATAAAATATTGAATTGTTATTTTTGTGTGTTGT -TTAAGATAAAAAGCCGTATTTATTATTACGGCTTTAATTAATAAAAGGCAGGCTGTATTAAAATTAATAT -TCAAAGCATAAACCGATAGCCAATACCGGTTTCAGTAATGAAATGGCGTGGGCGGGCGGGATCCTGTTCC -AGTTTTTGTCGCAGATGTCCCATATAAATACGCAAATAGTGACTGTGTTCGACCGCGTTTGGCCCCCACA -CCTGGTTAAGGAGCTGGCGCTGGGTGAGTACTTTTCCGGCATTGTTGAGCAGCACCGCCAGCAGGCGGAA -CTCAATTGGTGTGAGATGCACCTCTTCCTCACCCCGGTGAATCACGCGGGCGGCTAAATCGACGGTAACA -TCGGAAAATTTTACCAGCGGATCGGGCGCGGTGGTGGCAGAGTGGCGGCGTAATGCGACGCGCAGACGGG -CCTGCAATTCGCCAATGCCAAACGGCTTACTCAGATAATCATCCGCTCCGGCATCCAGCGCGGCGATTTT -GTCGCTCTCTTCGCTGCGTGCGGAAAGCACAATCACCGGCACCGCGCTCCACTGGCGCAGGTCGCGGATA -AACTCAATCCCATCACCATCGGGCAGGCCGAGATCGAGAATAATCAAATCTGGCTTACGGGTTGCCGCTT -CCAGCAAGCCGCGTTGCAGCGTTTCGGCCTCAAAGACGCGCATCCCGTCGCCCTCCAGCGCCGTGCGCAG -AAAGCGACGAATAGCCTGTTCATCTTCAACAATCAGAACGTTTGTCACATATCCTCATGAAATTCTTCAA -GTTCAGGGGCAGTTTGCTGGGGAAGTGTAACACGAAAACAGGCACCACCTTCCGGTCGGTTGAACGCGGT -AATAGTGCCCCCGTGTACATCCACTATCGCCCGACAAATTGCCAGTCCAAGCCCTACCCCCGGTACTGCC -GACTCTTTATTCCCGCGAGCAAACTTATCAAATATCGTCTGCTCCTGGCCTGGCGGAAGACCGGGGCCGT -TATCCCAGACATCCAGTTGTAGATTTTCGCCCTCAACGTGGGCATCGATACCAATTTCGGCCTGCGCACC -CGCATATTTCACCGCGTTCTCCAGCAGATTAATCAGCACCCGTTCAAAGAGTGGCCCGTCAACGTGGATT -AAGGTCAGCGGTTCTGGCAGAGAAAGATTGATGGGCGACGATAAACCCGGTTCCAGCATTTGCAGCGCGC -TGCCGACTACTTCTTCCAGCGTTAACCACTCTTTCTTCAAATTAAAGCCGCCGGACTGAATTCGCGCCAT -ATCCAGTAGATTATTCACCAGTCGGGTAGTGTTCAGCACATGCTGACGGATCTCGCTGGCCTGGCGGGCG -TGGGGTGATCCTTCGCTTGCCAGATCGAGCGTTAAGATTTCTGCCTGACCAAACAGCACCGTAAGCGGCG -TGCGTAAATCATGCGAAAGCGCCGCCAGCAGGGCGTTGCGGATCTGTTCACGTTCGCTTGCCATCCGCGC -CTGTTCTTCGCTGGCGGTTAGCGTCAGCCGCTCAAGGGCATTGGCGACTAACAGCGTAAACGTCTCCAGC -AGGCGCTGCTGTTCCGGGATCATCAACTGGCGCAGATTCCCCGGCTCCACCACCACCAGCCCGTAGGTTT -TCTCGCCGCTTTTTAGCGGCAAAATCTGGTACGGTACACCGGGTAACGTGTCGGTGCCCGCGCCCGCAGG -CAGGCCTTTATCAAAACTCCACTGCGCGATGGCATCGTCCCACGGCGTCATTCCTTGCGGATGTGTTAAC -GGCTGCAATTTACCGTTGTCATCGGGCAACAACACCTGACTGCGGGCATGAAACGTGGAGGCAATAAATT -GTTCGCTGGTGGCAGCGATATCCTGCGGACTGCGGCCCACCGCCAGAGCTTTCGACATTTCATATAAGTG -CCGTGTGCGTTGCTCGCGGTAACGGGCTACCCGCGCCTGATAACGCACGCCAGCAGTAAGGTTCCCGATC -ACCAGCCCGACGGTTAACATCACCGCGAAGGTCAGCAGATATTGCACATCAGAGACGGCGAGCGTGCCGC -GTGGGGCGATAAAAAAGAGATCGAAACTCACTACATTAATGACGGTGGCAACCACTGAAGGCCAGCGTCC -ATAAAATAGCGCCACCACCACCACGCCAAGCAGATACAGCATCACCAGGTTGGCGGCATCAAACGCCATC -AGCCACTGCATGGCAATTAAGGTGATAACGGCGCATAACGCGGCGGCAACCACGCATCCCTGAATTTGTA -CACGCCACTTGTCTTTAAAAGAGCGGTTATCCGGCGCGTTGTTAATCGTGCGGGCGGGTGGTTCATCAAG -CGCGACCAGCACCTGATCGAGATCGGGGGCGATGCGCGCCAGTCGGTCAGCAAACGTTTCCCGACGCCAC -CAGCGGCGCGAGGCCGGGCGACCGAGAATAATCTTGCCGAGATTATGTTCACGGGCATAACGCACTACCG -CTTTCTCTTCCGCTGGATCAGAAAGTGTTGCCGTCTCCGCGCCCAGTTCCTGCGCCAGACGTAAGGCGCT -GAGAATTGCCCGACGTTTTTTTTCCGGTAAGCGGTGCAGGGCAGGGGTTTCAACATACACCGCGTGCCAG -ACGCTACCCAGCCGTGACGCCAGCCGCGCCGCTGCGCGGACCAGTTTTTCGCTGCCGGTGTTATGGCCGA -TGCATAAAAGGATCGCGTCGCGCGTGTGCCACACTTTCTCTTCGCCAGGATGCCCCCGCCAGGCGCGCAT -TTGCTCATCAACGCGATCGGCAGTACGGCGCAGTGCCAGTTCGCGCAGGGCGATCAGATTACCTTTGCGG -AAAAAATGTTCAATGGCGCGCTCCGCCTGCCCGGCAATATAGACTTTGCCTTCTTTCAGCCGCTGGCGCA -GATCGTCCGGGGGCAAGTCCACCAGCACCACGTCGTCGGCGGCATCGAAAAAAGGATCGGGCACGGTTTC -CCGTACCTGAATTCCGGTGACGCCGCTGACCACATCATTCAGACTTTCCAGATGCTGAACGTTGACGGTA -GTGAAAACATCAATGCCAGCTTCCAGCAGTTCTTCGATATCCTGCCAGCGTTTGGGATGACGGGAACCTG -GCGCATTACTGTGCGCCAGTTCGTCCATTAAGATCAGCGCCGGGCGGCGGGCGAGGGCGGCATCGAGATC -AAACTCGCTGATATGCCGCCCACGGTACGCCTGGCGTTTTAACGGCAGAACAGCCAGCCCTTCCAGCATG -GCGGCGGTATCTTTTCGCCCGTGGGTTTCTACCACGCCAACCACAATATCCAGCCCTTGCGCCCGCAGTC -GCTGGGCTTCTGCCAGCATCGCCCAGGTCTTCCCGACGCCTGCACAGGCACCGAAGAAAACTTTCAGCTT -CCCCCGATGCGGCGCGGCAGTTTGTTCCAGCAGACGATCGGGGTCGGGACGTAAGGGTTCGTTATTCATC -AAGTTTATCCAGCGCCAGATTGAGTTCAACAATGTTGACAACCGGCTGGCCGATATATTTCACCAGCGGT -TGTTGGCTGTATTTTGCGATCAGTTGCGTGAGCTGTTCAACGCTGAGATTACGCGCTTTCGCCACGCGTG -GGATTTGCCAGGCCGCCGCTTGCGGGGTGATATTATTGTCCAGCCCGCTTGCCGATGCCGTCACCAGTTC -AACCGGAACGCTCGCGCTGGCATCCGGGTTAGCGGCCCGTAATGCAGCAACGCGTGCGGCTATTAGTTTA -TCCAGCTCAGGGTTACTGACCGCCAGATTGCTCCCGCCAGAAGCCTGTGGATTATAGGGCATTTCTGCCG -TTGCCGACGGGCGACCATGAAAATAGCCGTTGCCGGTAAAATTCTGCCCGATTAATGCCGAACCGCGCAC -CGTATCACCTTCACGAATCAACGAACCATTGGCCTGCCAGGGAAACCACCATTGCCCCAGTACGGTGGTC -AGCAGCGGGTAAACGCCGCCAGTAATCAATAACAGAAAGATAAATGTTGATAATGCCGGACGTAATCCAC -TCATGGTAAACCTCACACCAGACCGCAAACGGTCAGCAGTAAATCAATGACTTTGATACCGATAAACGGC -ACCAGCAGCCCACCCAGACCGTAAATCCATAAGTTACGGCGCAACATGGCAGAAGCGGTAAGCGGTTTAT -AACTCACGCCTTTTAACGCCAGGGGAATCAAAAAGACGATAATCAAGGCGTTGAAAATCACCGCACTGAG -GATTGCGGAGTCGGGCGAATGCAGGCACATGATGTTCAGCGCATTTAACTGCGGATACGTTGCCGCGAAT -GCCGCCGGAATAATGGCGAAGTATTTCGCCACATCGTTGGCAATGCTGAAGGTGGTCAGCGAGCCACGGG -TCATCAGCATCTGTTTGCCAATGTGCACCACCTCGATCAACTTGGTCGGGTTAGAGTCGAGATCGACCAT -ATTGCCCGCCTCTTTCGCCGCCTGGGTGCCGGAGTTCATCGCCACCGCGACATCTGCCTGCGCCAGCGCC -GGAGCATCGTTGGTGCCGTCGCCGGTCATCGCTACCAAACGACCTTCCGCCTGATACTGACGGATCAATG -CCAGCTTGGCCTCCGGTGTCGCTTCGGCGAGAAAATCATCGACACCCGCTTCCGCAGCAATCGCGGCGGC -AGTCAGACGGTTATCGCCGGTAATCATCACCGTTTTAATGCCCATTTTGCGCAGCTGGGCGAAGCGCTCT -TTAATACCGCCTTTGACGATATCTTTCAGCGCAATAACGCCCAGCACACGAGAACCTTCCACCACCACCA -GCGGCGTGGCTCCCTGACGCGCAACCTGATCGACTTTTTGATCAACATCGGTAGGGAAGTGACCACCGTT -AGCCTCAACATGGCGACGAATGGCATCGACAGAACCTTTACGGATCATGCGGTTGTCGATGTTGATCCCG -CTCATCCGGCTTTGCGCAGTAAACGGTACAAAGGTGGCATGGAGCGACTGCACATCGCGCTCGCGCAGGT -TAAAACGCTGCTTGGCGAGGATCACAATACTGCGGCCTTCCGGCGTTTCATCAGCCAGCGAAGCCAGTTG -TGCGGCGTCAGCCAGCGTTTTTTCATCCACGCCCTGCGCGGGGATAAACTCCGACGCCTGACGGTTACCG -AGTGTGATGGTGCCGGTTTTATCCAGTAGCAGAACGTCAACGTCACCTGCCGCTTCAACTGCACGTCCGC -TGGTGGCAATCACATTCGCGCCTAGCATCCGGCTCATCCCGGCGACGCCGATCGCTGACAACAGGCCGCC -AATAGTGGTTGGGATCAGACAGACCAGCAGCGCCACCAGTACCGTTACGCTGACTGCATTACCGCCCCAC -GCGGAAAACGGCCACAGCGTGGCGGTTGCCAGTAAAAAGACGATAGTCAGGGCAATCAGCAGAATGGTCA -GGGCAATTTCGTTCGGCGTTTTGCGTCGCTGTGCGCCTTCCACCATCGCGATCATCCGATCCAGAAATGT -CTCGCCGGGGTTAACGCTACACTCAATCACCAGCCAGTCAGAAAGAATACGCGTGCCGCCGGTGACGGAG -GCAAAATCGCCGCCGGATTCACGGATCACCGGTGCCGATTCCCCGGTGATGGCGCTTTCATCGACCGATG -CACCCCCTTCAATAACTTCACCATCGCAGGGGATAATATCGCCAGCTTCTACCAGTACGATATCGCCTTT -ACGAAGTTGGTCGGCAGGAACTTTGTCCGCCGCAGCGCCATATTTCGGCTCACGCAGCTTGCGGGCAAAG -GCAGTTTTTTTCACCCCTTTCAGACTGTTGGCCTGCGCTTTACTGCGGCCTTCTGCCAGCGCCTCGGCGA -AATTAGCGAACAGTACGGTGATCCACAGCCAACCGCTAATGGCCGCGCTAAACAGCGCATTGCCGGGCAT -CGCACCGCTTGCCATCGCGATGCTAATACAGGTGGTCAGCAGACTGCCGATCCAGACGATAAACATCACC -GGATTGCGCCATTGCGCCTGCGGGTTTAATTTTTTCACCGCTTCTTTCAGCGCCTGAACGACAAGTGTTG -GTTCGAATAGCGCCAGTTGTTTACGACTCATATTCAGTGCTCACTCAATATCATCAGGAGAGATATTCCG -CCACCGGACCAAGCGCCAGGGCAGGGATAAAGGTCAGTGCGCCAACCAGCAACACGGTGCCGATTAACAG -GCCAACAAACAGCGGGCCGTGCGTTGGCAGCGTGCCGGAGCTGGCGGCTTGGCTCTTTTTACTCACCAGC -GAACCGGCAATTGCCATCACCGGGATAATCACCCCGAAGCGACCGACAAACATGCAGAACGCCAGTAAAC -AGTTCCAGAACGGAGAGTTGGCGCTTAATCCGGCAAAGGCGCTGCCGTTGTTGTTAGCGGCGGATGACAC -GGCGTACAGCACTTCGCTAAAACCATGCGGGCCAGGGTTGAGCATGGCGCTACGTCCGGCGTCGGTCATC -ATCGCCAACGCCGCGCCCATCAGCACCAGCGTCGGGGTAACCAGAATTGCCAGTGCAGTCAGTTTCATCT -CGCGTACGTCGATTTTTTTACCCAGATATTCCGGTGTACGACCAATCATCAGCCCGGCAATAAACACCGC -CAGCAGGACAAACAGCATCATGCCGTAAAGACCAGAACCGACACCGCCGAACACCACTTCACCAATTTGC -ATCAGCCACATCGGCACCATGCCACCGAGAGCGGTAAACGAATCATGCATCGCAATCACCGCGCCACAGG -AAGCCGCCGTCGTCACGACCGCAAACAGGCTACTGACCAGCACGCCGAAACGGCTCTCTTTACCTTCCAT -ATTGATGCTGCTGTCCGTGCCCAGTGCCAGCAGATGAGGATTACCCTGAACTTCTGCCCACATCACCACG -CCTACGCAGATGACAAAAATCACTGACATCGCCCACAGCAACATGCGCCCCTGGCGGCGATCGCCCATCA -CTTCACCAAAGGCAAAGCACAGCGCCGTTGGGATCAAGAAGATCGCCAGCATCTGCACGAAGTTGGTCAG -TGCGGTTGGGTTTTCAAACGGATGCGACGAGTTGGCATTAAAGAAGCCACCGCCGTTAGTACCGAGCATC -TTGATCGCTTCCTGAGAAGCTACAGGCCCCATGGGTAACAGCTGTTGCGCTCCTTCAACGGTATTCACAG -CCTGATAAGGCAGAAAGTTTTGCAGCGCACCTTGTTGAATAAAAAACAGTGCAATCAACAACGCCACAGG -GACTAGCACCCATAACGTGATGCGTAGCAGATCGACCCAGGCATTCCCGAGCGTGCTCATGCTCTGGCGG -GTAAACGCACGGATGAGGGCAAAAATCACCGCAATCCCGCTGGCGGCAGAAAGAAAGTTTTGCACCGTTA -AGCCCGCCATCTGGCTGAAATAGCTCAACGTGGTTTCACCGCTATAAGATTGCCAGTTGGTATTGGTGAC -AAAGCTGACGGCGGTATTCAGCGCCAGATCCCACGACAGCCCTGGCAACTGCTGTGGATTAAGCGGCAGA -TAGTGCTGACCGAGCAACATAAAAAACAGCACCGCCAGCCCCAGCATGTTCAGGCCGAGAATGGCACAAA -GATATTGCTTCCAGTTCATCTCACGGTCAGAGACGCCAAGTGCGCGAAAAAGTACGCGCTCAACGCCCGT -TGTACCGGGAAGAGGAATGTCATTAATCAGCCGCGCCAGCCCGCTGCCTAAAGGACGCGCCAGCACCATT -AACACCAGTAAAAACGTGGCGATCAGTAAGAACCCTTGCGCAGCCATCAGAACGCCTCCGCATTGATCAG -GGCATAAACCAGATAACCCAGTAATAAAAACACCAGCAATACGCCGGTTATCACGCCTGCACTCACAGTG -CACCTCCAGTGGCCTAAAAGTGATACCGGAAGGGTAGAATTCTGGCTGCAAAGATTTCGCAAAAATCTGC -GGGCGGGGTGTAAAAAAAGTATAAAAATGGCAAAAGCCATGATTTAACTAATGTTTAGTATTAATTTAAC -TTTTGTGTAACTTAATTACAGGATGAATGTAAATAAACCATCAATAAGCAAAAATAAGTGGTCGGATGAG -TAGTAAAATTACACAAAAGGCGGTACTATTTTCATCAGATAAACAAATTCATTTTTCCGGTGCCATTCAC -CGGGTAGATACAAAAGGGGGAGAAAAGTATGGAACTCTACAGAGAATATCCTGCATGGCTTATCTTTTTA -CGCCGTACTTATGCGGTTGCAGCGGGCGTTCTGGCGCTGCCTTTCATGCTTTTCTGGAAAGACCGCGCCC -GCTTTTACAGCTACCTGCATCGCGTCTGGTCGAAAACCAGCGATAAACCGGTGTGGATGGATCAGGCCGA -AAAGGCAACTGGTGATTTTTATTGATTGCTGAGTTTTGAATACATTGAAAACCGCCAGCGGAAACGCTGG -CGGTTTTTTGTATCAGGAAGATGTTCAGAGGAATATTTAGACATCGTTATACCAATCGAAACATATATTC -ATGAAATATATATAAATATTTTCCTAATTGTTCTTATCTGACAGATATCTCACTTAAGGCTTTCTTATAA -ATCTGTAGGGTTTCGCCTGTCAGCAGACAAATAACCCGATAAAACAAGGATGAGCAGATGAGCGGAAAAC -CGGCGGCGCGTCAGGGCGACATGACGCAGTATGGCGGTAGCATTGTCCAGGGTTCAGCCGGGGTACGCAT -CGGTGCCCCCACCGGCGTGGCCTGTTCGGTGTGCCCCGGCGGGGTGACGTCCGGCCATCCGGTCAATCCG -CTGCTCGGTGCAAAGGTCCTTCCCGGTGAAACCGACATCGCCCTGCCCGGCCCGCTGCCGTTCATTCTCT -CCCGCACCTACAGCAGTTACCGGACAAAAACGCCCGCGCCGGTGGGGAGCCTCGGCCCCGGCTGGAAAAT -GCCTGCGGATATCCGCTTACAGCTGCGCGATAACACACTGATACTCAGTGATAACGGCGGCAGAAGCCTG -TATTTTGAGCACCTGTTTCCCGGTGAGGACGGTTACAGCCGCAGCGAGTCACTGTGGCTGGTGCGCGGCG -GCGTGGCGAAACTGGATGAAGGTCACCGGCTGGCCGCACTCTGGCAGGCGCTGCCGGAAGAACTCCGCTT -AAGTCCGCATCGTTATCTGGCGACAAACAGTCCGCAGGGGCCGTGGTGGCTGCTCGGCTGGTGTGAGCGG -GTGCCGGAAGCGGATGAGGTGCTGCCTGCGCCGCTGCCGCCGTACCGGGTACTGACCGGGCTGGTGGACC -GCTTCGGGCGCACACAGACGTTCCACCGCGAAGCCGCCGGTGAATTCAGCGGCGAAATCACCGGCGTGAC -GGATGGTGCCGGGCGTCACTTCCGGCTGGTACTGACCACGCAGGCGCAGCGGGCAGAAGAAGCCCGGCAG -CAGGCCATTTCCGGCGGGACGGAACCGTCCGCTTTTCCTGATACCCTGCCGGGTTACACCGAATATGGCC -GGGACAACGGCATCCGTCTGTCTGCCGTGTGGCTGACGCACGACCCGGAATACCCGGAGAATTTACCTGC -CGCGCCGCTGGTGCGCTATGGCTGGACGCCCCGCGGCGAACTGGCGGCGGTGTATGACCGCAGCAATACA -CAGGTGCGCAGCTTTACTTACGATGATAAATACCGGGGCCGGATGGTGGCGCACCGTCACACGGGCCGAC -CGGAAATCTGTTACCGTTACGACAGCGACGGGCGGGTGACAGAACAGCTAAACCCGGCAGGCTTAAGTTA -CACGTATCAGTATGAGAAGGACCGCATCACCATCACCGACAGCCTGAACCGCCGTGAAGTCCTGCACACG -CAGGGTGAAGGCGGGCTGAAGCGGGTGGTGAAAAAGGAACACGCGGACGGCAGCGTCACGCAGAGTCAGT -TTGACGCGGTGGGCAGGCTCAGGGCACAGACGGATGCCGCAGGCAGGACAACAGAATACAGTCCGGATGT -GGTGACGGGCCTCATCACGCGCATCACCACGCCGGATGGCAGGGCATCGGCGTTTTACTATAACCACCAC -AGCCAGTTAACGTCAGCCACCGGGCCTGACGGGCTGGAAATACGCCGGGAATATGATGAATGGGGCCGTC -TGATTCAGGAAACTGCCCCTGACGGCGATATCACCCGCTACCGTTATGATAATCCACACAGTGACTTACC -CTGCGCAACGGAAGATGCCACCGGCAGCCGGAAAACCATGACGTGGAGCCGTTACGGTCAGTTGCTGAGC -TTCACTGACTGTTCCGGTTATGTAACCCGCTATGACCATGACCGTTTTGGTCAGGTGACGGCGGTGCACC -GCGAGGAAGGGCTGAGTCAGTACCGCGCATACGACAGCCGTGGACAGTTAATTGCCGTGAAAGACACGCA -GGGCCATGAAACGCGGTATGAATACAACGCCGCCGGTGACCTGACCACCGTCATTGCCCCGGACGGCAGC -AGAAACGGGACACAGTACGATGCGTGGGGAAAAGCCATCTGTACCACGCAGGGCGGTCTGACGCGCAGTA -TGGAATACGATGCTGCCGGACGGGTCATCCGCCTGACCAGTGAAAACGGCAGCCACACCACCTTCCGTTA -CGATGTACTCGACCGGCTGATACAGGAAACCGGCTTTGACGGCCGCACACAGCGTTATCACCACGACCTG -ACCGGCAAACTTATCCGCAGCGAGGATGAGGGGCTGGTCACCCACTGGCACTATGACGAAGCAGACCGCC -TCACGCACCGCACCGTGAATGGCGAAACCGCAGAGCGGTGGCAGTATGACGAACGCGGCTGGCTGACAGA -CATCAGCCATATCAGCGAAGGGCACCGGGTGACGGTGCACTATGGTTATGACAGTAAAGGCCGCCTCGCC -AGTGAACACCTGACGGTGCATCATCCGCAGACGAATGAACTGCTCTGGCAGCATGAGACCAGACATGCGT -ACAACGCACAGGGACTGGCGAACCGCTGTATACCGGACAGCCTGCCCGCCGTGGAATGGCTGACCTACGG -CAGCGGCTGGCTGTCAGGCATGAAACTCGGCGACACACCGCTGGTGGAGTACACCCGCGACCGCCTGCAC -CGGGAAACGCTGCGCAGCTTCGGCCGTTATGAACTCACCACCGCTTATACCCCTGCCGGGCAGTTACAGA -GCCAGCACCTGAACAGCCTGCTGTCTGACCGCGATTACACCTGGAACGACAACGGCGAACTCATCCGCAT -CAGCAGCCCGCGCCAGACCCGGAGTTACAGCTACAGCACCACCGGCAGGCTGACCGGCGTTCACACCACC -GCAGCGAATCTGGATATCCGCATCCCGTATACCACAGACCCGGCAGGTAACCGCCTGCCCGACCCGGAGC -TGCACCCGGACAGCGCCCTCAGCATGTGGCCGGATAACCGTATCGCCCGTGACGCGCACTATCTTTACCG -GTATGACCGTCACGGCAGGCTGACAGAGAAAACCGACCTCATCCCGGAAGGGGTTATCCGCACGGATGAT -GAGCGCACCCACCGGTACCATTACGACAGTCAGCACCGGCTGGTGCACTACACGCGGACACAATATGCAG -AGCCGCTGGTCGAAAGTCGCTATCTTTACGACCCGCTGGGCCGCAGGGTGGCAAAACGGGTATGGCGGCG -TGAACGGGACCTGACGGGCTGGATGTCGCTGTCACGGAAACCGCAAGTGACCTGGTACGGCTGGGACGGC -GACCGCCTGACCACGATACAGAACGACAGAACCCGCATCCAGACGATTTATCAGCCGGGGAGCTTCACGC -CACTCATCAGGGTTGAAACCGCCACCGGTGAGCTGGCGAAAACGCAGCGCCGCAGCCTGGCGGATACCCT -TCAGCAGTCCGGTGGCGAAGACGGTGGCAGTGTGGTGTTCCCGCCGGTGCTGGTGCAGATGCTCGACCGG -CTGGAAAGTGAAATCCTGGCTGACCGGGTGAGTGAGGAAAGCCGCCGCTGGCTGGCATCGTGCGGCCTGA -CGGTGGCGCAGATGCAAAGCCAGATGGACCCGGTATACACGCCGGCGCGAAAAATTCACCTGTACCACTG -CGACCATCGCGGCCTGCCGCTGGCCCTTATCAGCACGGAAGGGACAACAGCGTGGTACGCAGAATACGAT -GAATGGGGTAACCTGCTGAATGAAGAGAACCCGCATCAGCTGCAGCAGCTTATCCGCCTGCCGGGGCAGC -AGTATGATGAGGAGTCCGGCCTGTATTACAACCGCCACCGCTATTATGACCCGCTGCAGGGGCGATATAT -CACTCAGGATCCGATTGGGCTGAAAGGGGGATGGAATTTTTATCAGTATCCGTTGAATCCGATCTCAAAT -ATAGATCCATTAGGATTAGAAACACTAAAATGCATTAAGCCACTGCATTCAATGGGCGGAACTGGTGAAA -GAAGCGGTCCAGATATATGGGGGAATCCGTTCTATCATCAATATCTTTGTGTCCCAGATGGTAAAGGGGA -CTATACTTGTGGTGGCCAAGACCAACGGGGAGAATCAAAAGGAGATGGTCTATGGGGGCCAGGTAAAGCA -AGTAATGATACAAAAGAAGCTGCTGGCCGTTGTGACCTCGTTGAAACCGATAATAGTTGTGTGGAGAACT -GTTTAAAAGGGAAGTTTAAAGAGGTAAGGCCGCGTTATTCTGTATTGCCTGATATATTCACACCTATAAA -TTTAGGGCTATTTAAAAACTGCCAAGACTGGTCTAATGATTCTTTAGAAACATGTAAGATGAAGTGCTCC -GGAAATAACATTGGACGTTTTATTAGATTTGTATTCACCGGAGTGATGTAATGAAATATATTATTTTTTT -ATTCAGAGCTATATGGCTGGCTTTATCGCTTTTAATACTATTCTTTTCCATGCATAGACTTTCACTATTA -GACTCCACTCGTGATGTGAGCGAGTTAATTAGTCTCATGTCTTATGGAATGATGGTAATATGTTTTCCAA -CAGGCATAGTATTCTTTATTGCTCTAATATTTATAGGGACTGTATCAGACATTATTGGCGTAAGGATTGA -TAGTAAGTATATTATGGCGATAATAATATGGCTTTATTTTCTGTCAGGAGGGTATATTCAATGGTTTGTA -TTAAGTAAGCGCATTATAAACAAATAAATTAAGTTAATTGCTCTTATTATTATATGTAACCTGGGCATTG -ATATCCCGTATGCCACAGACCCGGCAGGTAACCGCCTGCCCGACCCGGAGCTGCACCCGGACAGCACCCT -CAGCATGTGGCCGGATAACCGTATCGCCCGTGACGCGCACTATCTTTACCGGTATGACCGTCACGGCAGG -CTGACGGAGAAAACCGACCTCATCCCGGAAGGGGTTATCCGCACGGATGATGAGCGCACCCACCGGTACC -ATTACGACAGTCAGCACCGGCTGGTGCACTACACGCGGACACAATATGCAGAGCCGCTGGTCGAAAGCCG -CTATCTTTACGACCCGCTGGGCCGCAGGGTGGCAAAACGGGTGTGGCGACGTGAACGGGACCTGACGGGC -TGGATGTCGCTGTCACGGAAACCGCAAGTGACCTGGTACGGCTGGGACGGCGACCGCCTGACCACGATAC -AGAACGACAGAACCCGCATCCAGACGATTTATCAGCCGGGGAGCTTCACGCCACTCATCAGGGTTGAAAC -CGCCACCGGTGAGCTGGCGAAAACGCAGCGCCGCAGCCTGGCGGATACCCTTCAGCAGTCCGGCGGCGAA -GACGGTGGCAGTGTGGTGTTCCCGCCGGTGCTGGTGCAGATGCTCGACCGGCTGGAAAGTGAAATCCTGG -CTGACCGGGTGAGTGAGGAAAGCCGCCGCTGGCTGGCATCGTGCGGCCTGACGGTGGAGCAGATGCAAAA -CCAGATGGACCCGGTGTACACGCCGGCGCGAAAAATCCACCTGTACCACTGCGACCATCGCGGCCTGCCG -CTGGCGCTTGTCAGCACGGAAGGGGCAACAGAATGGTGCGCAGAATACGATGAATGGGGCAACCTGCTGA -ATGAAGAGAACCCGCATCAGCTGCAGCAGCTTATCCGCCTGCCGGGGCAGCAGTATGATGAGGAGTCCGG -CCTGTATTACAACCGCCACCGCTATTATGACCCGCTGCAGGGGAGGTATATCACTCAGGATCCGATTGGG -CTGAAGGGGGGATGGAATTTTTATCAGTATCCGCTGAATCCGGTTCAGTATATAGATTCAATGGGACTGG -CATCAAAATATGGACACTTAAATAATGGCGGATATGGAGCGAGACCCAACAAACCGCCTACGCCCGATCC -AAGTAAATTGCCGGACATAGCGAAACAATTAAGACTGCCATATCCTATTGACCAGGCCAGTAGTGCGCCT -AATGTTTTCAAAACATTCTTCAGAGCATTAAGCCCTTACGACTACACACTGTATTGCAGGAAGTGGGTAA -AACCAAATCTGACTTGTACGCCACAGGATGATTCCCAGTATCCAGGGATGGATACAAAGACAGCAAGTGA -TTACCTGCCACAGACAAATTGGCCAACAACTCAATTACCACCAGGATATACTTGTGCAGAACCCTATTTA -TTCCCAGACATTAATAAACCCGATGGGCCAGCAACAGCAGGGATAGATGATTTGGGTGAAATTTTAGCTA -AGATGAAACAGAGAACATCGAGAGGAATAAGAAAATGAAAAGAGTTTTGTTCTTTTTGCTGATGATATTT -GTTAGTTTTGGTGTTATAGCTGATTGCGAAATACAAGCTAAAGATCATGATTGTTTTACTATTTTCGCTA -AGGGTACTATTTTTTCCGCGTTTCCTGTCTTAAATAATAAAGCCATGTGGAGATGGTATCAGAATGAGGA -CATCGGTGAGTATTATTGGCAAACAGAACTGGGTACATGTAAAAATAATAAATTCACACCAAGCGGGGCG -AGACTCTTAATTCGCGTCGGGTCACTACGCCTTAATGAAAATCATGCCATCAAAGGAACGTTGCAGGAGT -TGATAAATACAGCAGAAAAAACGGCGTTTCTCGGCGATCGGTTTAGAAGTTATATAAGAGCGGGTATCTA -TCAAAAAAAGAGCAGTGATCCAGTTCAGTTGTTGGCAGTCCTTGATAATTCAATCATGGTAAAATATTTT -AAAGATGAGAAACCAACTTATGCTCGAATGACAGCACATCTCCCGAACAAAAATGAGTCTTACGAATGTT -TAATAAAGATACAGCATGAACTAATTCGTAGTGAAGAGAAATAAAATCTCTTCCTGAGAAAACAAATTAA -TCATTGTGAAAAATTATATAACTCATGGAATAGGTGTTTATTTTGCGTTCCATTTGCAGGGAAAGATCAC -GTAACGCTACTTTTTTGTACTAAATAATTCGAATTTTAAGTTCAACAATTGAGATACTACTTATTGTCTA -AAGCTGTTTTTCATAGCTTATACATGATCAAATACTCCTTACATAAATAAGGTGAACAAATGGAACTTAA -AAAATTGATGGAACATATTTCTATTACACCCGATTACAGACAAGCCTGGAAAGTGGTGCATAAATTGTCA -GATATTCTACTGTTGACTATTTGTGCCGTTATTTCTGGTGCAGAAGGTTGGGAAGATATAGAGGATTTCG -GGGAAACACATCTCGATTTTTTGAAGCAATATGGTGATTTTGAAAATGGTATTCCTGTTCACGATACCAT -TGCCAGAGTTGTATCCCAGGGAAAGATCACGTAACGCTACTTTTTTGTACTAAATAATTCGCATTTTATG -TTTAAAAATTGAGATATTCCTTATTACCTAAAGCTGTTTTTCATAGCTTATACATGATCAAATACTCCTT -ACATAAATAAGGTGAACAAATGGAACTTAAAAAATTGATGGAACATATTTCTATTATTCCCGATTACAGA -TAAGCCTGGAAAGTAGAGCATAAATTGTCAGGCATCCTACTATTGACTATTTTTGCCGTTATTTCTGGTG -CAGAAAGTTGGGAAGATATAGAGGATTTCGGGGAAACACATCTCGATTTCTTGAAGCAATATGGTGATTT -TGAAAATGGTATTCCTGTTCACGATACTATTGCCAGAGTTGTATCCTGTATCAGTCCTGCAAAATTTCAC -GAGTGCTTTATTAACTGGATGCGTGATTGCCATTCATCAAATGATAAAGACGTCATTGCAATTGATGGAA -AAACGCTCCGGCACTCTTATGACAAGAGTCGCCGCAGGGGAGCGATTCATGTCATTAGTGCGTTCTCAAC -AATGCACAGTCTGGTCATCGGGCAGATCAAGACGGATAAGAAATCCAATGAGATCACAGCTATCCCTGAA -CTTCTTAACATGCTGGATATTAAAGGAAAAATCATCACAACTGATGCGATGGGTTGCCAGAAAGATATTG -CAGAGAAGATACAAAAACAGGGAGGTGATTATTTATTCGCTGTAAAAGGAAACCAGGGGCGGCTTAATAA -AGCCTTTGAGGAAAAATTTCCGCTGAAAGAATTAAATAATCCAGAGCATGACAGTTACGCAATGAGTGAA -AAGAGTCACGGCAGAGAAGAAATCCGTCTTCATATTGTTTGCGATGTCCCTGATGAACTTATTGATTTCA -CGTTTGAATGGAAAGGACTGAAGAAATTATGCGTGGCAGTCTCCTTTCGGTCAATAATAGCAGAACAAAA -GAAAGAGCCAGAAATGACGGTCAGATATTATATCAGTTCTGCTGATTTAACCGCAGAAAAGTTCGCCACA -GCAATCCGAAACCACTGGCACGTGGAGAATAAGCTGCACTGGCGTCTGGACGTGGTAATGAATGAAGACG -ACTGCAAAATAAGAAGAGGAAACGCCGCAGAATTATTTTCAGGGATACGGCACATCGCTATTAATATTTT -AACGAATGATAAGGTATTCAAGGCAGGGTTAAGACGTAAGATGCGAAAAGCAGCCATGGATAGAAACTAT -CTCGCGTCAGTCCTTGCGGGGAGCGGGCTTTCGTAATCTTTCCCTGCTTTTTGTACTAAATAATTCGCAT -TTTATGTTTAAAAATTGAGATATTCCTTATTACCTGAAGCTGTTTTTTATTGCTTATACATGATCAAATA -CTTCTTACATAATTAAGGAGAACAAAATGGAACTTAAAAAATTGATGGAACATATTTCTATTATCCCCGA -TTACAGACAAGCCTGGAAAGTGGAACATAAATTATCGGATATTCTACTGTTGACTATTTGTGCCGTTATT -TCTGGTGCAGAAGGCTGGGAAGATATAGAGGATTTTGGGGAAACACATCCCGATTTTTTGAAGCAATATG -GTGATTTTGAAAATGGTATTCCTGTTCACGATACCATTGCCAGAGTTGTATCCTGTATCTGTCCTGCGAA -ATTTCATGAGAGCTTTATTAACTGGATGCTTGACTACCATTCTTCAGATGATAAAGACGTCATCGCAATT -GATGGAAAAATACACCGGCATTCTTATGACAAGAGTCGCCGTAAGGGAGCGATTCATGTCATTAGTGCGT -TCTCAACAATGCACAGTCTGGTCATCGGACAGATCAAGACGGATAAGAAATCCAATGAGATCACAGCTAT -CCCTGAACTTCTTAACATGCTGGATATTAAAGGAAAAATCATCAAAACCGATGCGATGGGTTGCCAGAAA -GATATTGCAGAGAAGATACAAAAACAGGGAGGTGATTATTTATTCGCTGTAAAAGGAAACCAGGGGCGGC -TAAATAAAGCCTTCGAGGAAAAATTTCCGCTGAAAGAATTAAATAATCCCAAGCATGACAGTTACGCAAT -TAGTGAAAAGAGTCACGGCAGAGAAGAAACCCGTCTTCATATTGTTTGCGATGTCCCTGATGAGCTTATT -GATTTCACGTTTGAATAGAAAGGGCAGCTATGGTTAGAAACTACCTGACGTCAGTCCTTGCGGGGAGCAG -GCTTTCGTAAATTTGTCCTGCTACAACAGGATTAACTTCACAAATATCATTTCTCAACGTCTACACTTAC -TCCTGTAAACCGCTCAGGAGCAGTAATGAATCTACAACGATTTGATGACAGCACCCTAATCCGTATCTTT -GCCCTTCATGAGTTACATCGACTGAAAGAACATGGCTTAACGCGCGGGGCGCTTCTCGATTATCACAGCC -GCTATAAACTCGTCTTTCTGGCGCATTCTCAGCCGGAGTACCGCAAACTTGGCCCGTTCGTGGCTGATAT -TCACCAGTGGCAAAATCTGGATGACTATTACAACCAGTACCGCCAACGCGTAGTTGTTTTGCTTTCTCAC -CCCGCCAACCCGCGCGATCACACCAATGTTTTGATGCACGTTCAGGGTTATTTTCGCCCGCATATTGATT -CCACAGAACGCCAGCAGCTGGCTGCGCTTATCGACAGTTATCGCCGTGGCGAGCAACCACTTCTTGCGCC -GCTGATGCGTATCAAACACTATATGGCGCTTTATCCTGACGCCTGGCTTTCAGGGCAGCGTTATTTCGAA -CTTTGGCCGCGTGTGATTAACTTGCGCCATTCAGGAGTTTTATGACTACCCATCTGGTCTGGTTTCGCCA -GGATTTACGTCTGCACGATAATCTCGCACTGGCTGCCGCCTGCCGCAATTCGTCTGCACGCGTGCTGGCG -TTGTATATCGCTACACCACGCCAGTGGGCGACGCATAACATGTCGCCGCGTCAGGCTGAACTTATCAATG -CTCAACTGAATGGGCTACAAATAGCGCTTGCGGAAAAAGGTATTCCTTTATTGTTCCGTGAAGTGGATGA -CTTTGTCGCCAGTGTCGAAATAGTTAAACAGGTGTGCGCGGAAAACAGCGTTACCCACCTGTTTTATAAC -TATCAGTATGAAGTGAATGAGCGGGCGCGGGATGTGGAAGTTGAAAGAGCGCTGCGTAACGTGGTGTGTG -AAGGATTTGATGACAGCGTGATCCTGCCGCCTGGCGCGGTGATGACCGGTAATCACGAGATGTACAAAGT -CTTTACGCCTTTTAAGAATGCCTGGCTGAAACGGCTGCGGGAAGGGATGCCGGAGTGCGTCGCTGCGCCA -AAAGTTCGTAGTAGCGGATCGATAGAGCCCTCGCCATCCATTACGCTGAATTATCCTCGTCAGTCTTTCG -ATACTGCGCATTTTCCGGTGGAAGAAAAAGCGGCGATTGCGCAATTACGCCAGTTTTGCCAGAACGGTGC -CGGAGAATATGAGCAACAACGAGATTTTCCGGCAGTGGAAGGCACCAGCCGTTTGTCGGCCAGCCTGGCA -ACGGGCGGGTTATCGCCTCGCCAGTGCTTGCATCGCTTGTTGGCTGAACAGCCGCAGGCGCTGGACGGTG -GGGCCGGTAGTGTCTGGCTTAATGAGCTGATCTGGCGCGAGTTTTACCGTCACCTGATAACGTATCACCC -CTCGTTGTGTAAACATCGTCCATTTATTGCCTGGACGGATCGTGTACAGTGGCAGAGCAATCCCGCACAT -TTACAGGCCTGGCAGGAAGGCAAAACGGGATACCCGATTGTTGATGCCGCTATGCGTCAGCTTAACAGCA -CTGGCTGGATGCATAACAGGCTACGGATGATTACAGCCAGTTTTCTGGTGAAAGATTTATTGATCGACTG -GCGCGAAGGCGAGCGATATTTCATGTCGCAGCTGATTGATGGTGATTTGGCAGCCAATAACGGTGGCTGG -CAGTGGGCCGCTTCAACCGGAACCGATGCAGCGCCGTATTTTCGTATTTTCAACCCGACAACCCAGGGCG -AGAAATTTGATCATGAGGGCGAGTTTATCCGCCAGTGGCTACCGGAACTGCGCGATGTGCCAGGGAAAGT -GGTGCATGAGCCGTGGAAGTGGGCGCAGAAAGCAGGTGTGACGCTGGATTATCCGCAACCGATAGTCGAG -CACAAAGAAGCGAGAGTACAAACGTTGGCAGCGTATGAGGCGGCGCGGAAGGGGAAATAACAGACGCGTC -AGGCAATCGAGCCCAGATGCCGGATGCGGCGTGAACGCCTTATCCAGCCTACAAATTTGTGCAAATTCAA -TAAATTGCAGGAAATACGTAGGCCTGATAAGACGCGTCAAGCGTCGCATCAGGCATCGGTGCTGGCCTAT -TAAGACTCCAGCGCCAGCGCGCGGTTTCTGAATTTCAGCGCCTGATACAGCCAAATCATCAGTACCAGTC -CTACACACGCCAGTGCGCCCCAGGTAATTTGATCAAATACTTCAATATATGCATTGATGGAGTAGTTGAT -CGCCCCGGAAGCATCAAACGAAGCCTGCGATGTCTGATCGGCAATCACGCCCGCCAGATAGTTCGCGATC -GCGCCAGAAAGCAGCATGTAGATGCCGGTTAATACGCCGGTCACACCGGGGATTTCAATGCGCGTAATTT -GCGACATGGCAACCGGGTCGATAAACAGTTCCGCAAAGCCCATCACCGCCAGGCCTAATACCATCAGTGG -CAGAGAAGAGTGACCATACATTGCGGACCAGCGGGCGCTTAAGGTCAGAATGCAGAATCCGGCGCTCATC -AGGCCAAGGCCAAGAGCAAATTTCCCCCAGATGCGCACGGTACGATTACCCGCGACACTCTCTTTTACCA -CCCACGCCAGGAACACACCGCACAGCATAACTGCGAAGGCATTAATCGACTGGAACATCGCGGTCGGAAC -GGTATAACCAAACATATCGCGGTTAACGAAGCGGTCGATATAAAGGCTAATCGAGCTACCGCCCTGTTGT -GCGAAGGCCCAGAACAACATACTGAAGAAGGTGAGCGTCACAATCAGCCCCAGCTCCTTCCGCTGTTTCT -GGTTTTCTGCTTTGCGATAAATTTTTGCCAGTACACCCAGGCCAATAATAGTCGCGACAATTAAGGCGTA -TACCGACCACTCTTTCCAGAACAGTATGGTAATCAGTGCAGGCGTTGCCACCAGCAGAACCAGCAGCCAT -CCCCAGTTCGGCAGGAGAAAGTTTGTCGCACGCAGTACTTTTTTGTTAACGCCGCGGGTATGAGTGAAAT -GACGATTGCCACATAAGAAAATGACCAGACCCGCGATCATGCCAACCGCCGCCAGGCCAAAGCCCATCGC -CCAGCTGTACTCTTCCTGGGCGTAACCACAGGCGATAGGTGCGATAATAGACCCCACGTTACCCGCCGCA -TACATCAGCGAGAAACCGCCATCACGACGCGGATCGGTTGGCTCATACAGCTCGCCGAGCAGACAGCTTA -CGTTAGATTTAAACAGGCCATAGCCGCAGACGATAATCGCCAGGGACAGATAGAGGAATGACGGATGGAT -CTCACTGGCACCCAGCACCACATGACCGATCGCCATCAACAACGCCCCCAGCATCACCGCCATGCGATTG -CCGAGAACTTTATCCGCCAAAAAGCCACCGAGGATTGGCGTGACATACACCAGCGAACAGTAGGCGCTAA -ATAACTCGTAGGCGTGAGTATCGTTGTATTTTAGTTGATTGGTGAGATAGAGAATCAGCAGGGCACGCAT -GCCGTAAAAGCTAAAATATTCCCAGATTTGCAGCGCAACGACATAGTAAATAGCGCGCGGCTGTGATGCG -TGTTTATTCATAATAATTCCACAATTGACGGCAACGTCACGTAATAGTTGCGCGGCGTGCTTGTGTTTCC -TTAAAGTTAAAACTTTGATACAGATCTGATTATTTATGCAATATGCTGTCTGATTGCATAAATATACATT -AGCTGAAGCGTGATGATATAAACAATTTGCGTCTTTTGGCGTCGGGTTTGTTTCTTAATATGTCAAAAGA -TTGGCTATCGACGAACTGGCGAGGTAACGCTATGTTAACGGTGTAGCTATCAGAATACGGAAGGCGCGAA -GATGAAAAACACCGAACTGGAACAACTGATTAACGAAAAACTGAACAGCGCGGCGATTAGTGATTACGCG -CCGAATGGTTTGCAGGTGGAAGGCAAAGAGACGGTGCAAAAAATTGTTACCGGTGTCACCGCCAGCCAGG -CTTTGCTCGATGAGGCAGTGCGTCTGGGCGCGGATGCGGTCATTGTGCATCATGGCTACTTCTGGAAAGG -AGAGTCTCCGGTCATTCGCGGAATGAAGCGTAACCGTTTAAAAACGTTGCTGGCGAATGATATCAACCTG -TATGGCTGGCATTTGCCGCTTGACGCACATCCTGAGCTGGGCAATAACGCACAGCTGGCGGCGTTACTGG -GGATCACGGTCATGGGCGAAATTGAGCCGTTGGTGCCGTGGGGCGAACTGACCATGCCTGTGCCGGGACT -GGAGCTGGCTTCCTGGATTGAAGCGCGTCTGGGACGTAAGCCGTTATGGTGTGGCGATACCGGACCTGAG -GTGGTCCAGCGCGTCGCCTGGTGCACGGGCGGCGGGCAAAGTTTTATCGATAGCGCCGCGCGTTTTGGCG -TGGATGCTTTTATTACTGGCGAAGTTTCTGAACAGACCATTCATTCAGCCCGCGAGCAGGGATTGCATTT -TTATGCTGCAGGTCACCATGCCACTGAACGTGGTGGTATTCGCGCATTGAGCGAGTGGCTGAATGAAAAT -ACCGATCTTGATGTGACCTTTATTGATATTCCTAATCCTGCATAACGAATAATCAGAGGGATCGAAAGTG -CAACGAGCGCGTTGTTATCTGATAGGTGAAACGGCGGTAGTGCTGGAACTGGAACCGCCGGTGACGCTGG -CTAGCCAGAAACGGATCTGGCGACTGGCGCAGCGTCTGGTGGATATGCCGAATGTGGTTGAAGCCATTCC -CGGCATGAACAATATCACGGTGATTTTGCGTAATCCTGAGTCGCTGGCGCTGGATGCCATAGAGCGTTTG -CAACGCTGGTGGGAGGAGAGCGAGGCGCTGGAGCCGGAGTCTCGCTTTATTGAAATTCCGGTGGTTTACG -GTGGTGCAGGCGGACCGGATTTGGCGGTGGTCGCGGCGCATTGCGGGTTGAGCGAAAAACAGGTTGTTGA -ATTGCACTCCTCCGTGGAATACGTGGTCTGGTTTTTAGGTTTTCAACCGGGCTTCCCGTATCTCGGGAGT -TTGCCGGAACAACTACACACGCCACGGCGCGCTGAACCGCGCTTACTCGTTCCGGCAGGTTCTGTCGGGA -TCGGCGGGCCGCAGACTGGTGTTTATCCGCTGGCAACGCCGGGTGGCTGGCAGTTGATTGGTCATACCTC -ACTCAGCCTGTTTGATCCGGCGCGTGACGAACCCATCTTATTACGTCCGGGAGACAGCGTGCGCTTTGTA -CCGCAGAAGGAGGGAGTATGCTGAAGATTATTCGTGCGGGCATGTATACCACTGTGCAGGATGGCGGTCG -TCACGGTTTTCGCCAGTCGGGTATCAGCCACTGCGGCGCACTGGATATGCCCGCGTTACGCATTGCTAAC -CTACTGGTGGGTAATGACGCCAATGCCCCCGCGCTGGAGATCACGCTCGGTCAGTTAACTGTTGAGTTCG -AAACTGATGGGTGGTTTGCTCTGACGGGTGCCGGTTGCGAAGCGCGGCTGGATGATAATGCCGTCTGGAC -CGGCTGGCGATTGCCGATGAAAGCAGGCCAGCGTTTAACGCTTAAACGCCCGCAGCACGGGATGCGCAGT -TATCTGGCGGTCGCGGGTGGTATTGATGTTCCGCCGGTAATGGGCTCATGCAGCACCGATCTCAAAGTGG -GGATTGGCGGGCTGGAAGGCCGTTTACTGAAGGATGGTGACCGACTCCCGATTGGCAAATCGAAGCGTGA -TTCTATGGAAGCGCAGGGCGTTAAACAGCTGCTGTGGGGCAACCGCATTCGCGCCTTGCCGGGGCCGGAA -TATCATGAGTTCGATCGCGCCTCGCAGGATGCATTCTGGCGTTCGCCCTGGCAGCTTAGCTCGCAAAGTA -ACCGCATGGGCTATCGCTTACAGGGGCAAATTTTAAAACGCACCACCGATCGCGAACTGTTATCTCACGG -TTTGTTACCGGGCGTGGTGCAGGTGCCACATAACGGGCAGCCGATTGTGTTGATGAACGACGCACAGACC -ACCGGTGGTTACCCGCGTATTGCCTGTATCATTGAGGCTGATATGTACCATCTGGCGCAAATTCCGCTCG -GTCAGCCGATTCATTTTGTCCAGTGTTCACTGGAAGAGGCACTAAAAGCACGGCAAGATCAGCAACGTTA -TTTTGAACAATTAGCGTGGCGGCTGCACAATGAAAATTGACCTGAACGCCGATCTGGGCGAAGGCTGCGC -CAGCGACGCAGAGCTATTAACGCTGGTTTCCTCTGCCAATATTGCCTGTGGATTTCATGCAGGCGATGCG -CAAATCATGCAGGCTTGCGTGCGTGAAGCAATAAAAAATGGTGTCGCGATTGGCGCTCACCCGAGTTTTC -CCGACAGGGAAAATTTTGGTCGCAGCGCCATGCAGCTGCCGCCAGAAACCGTTTACGCCCAGACGCTGTA -TCAAATTGGCGCGCTGGCAACGATTGCCCGTGCGCAAGGCGGCGTAATGCGTCATGTCAAACCGCACGGC -ATGTTGTACAACCAGGCGGCGAAAGAAGCACAACTGGCAGACGCCATCGCCAGAGCGGTATACGCTTGCG -ATCCAGCATTGATTCTCGTCGGGCTGGCGGGAAGCGAGCTGATTCGTGCAGGCAAGCAATATGGTCTGAC -AACGCGCGAGGAAGTGTTTGCCGATCGCGGTTATCAGGCTGACGGCTCGCTGGTGCCGCGAAGCCAGTCA -GGCGCGTTGATTGAAAACGAAGAACAGGCGCTGGCGCAAACGCTGGAGATGGTGCAACACGGCAGAGTCA -AAAGTATCACCGGCGAATGGGCAACGGTCGCGGCGCAAACGGTCTGCCTGCATGGCGACGGCGAGCACGC -ACTGGCGTTCGCCCGCCGACTACGCTCTGCATTTGCCGAAAAGGGGATTGTTGTCGCAGCATAACCCCGA -TTAATAAAGAATGAAAAAAGGATATCACCATGCCTGAAGGCCCGGAGATCCGCCGTGCAGCGGATAACCT -GGAGGCGGCGATCAAAGGCAAACCACTAACTGATGTCTGGTTTGCCTTCCCGCAGTTAAAACCTTATCAA -TCACAACTTATCGGTCAACACGTTACCCATGTGGAAACGCGTGGTAAGGCGTTGTTAACTCATTTTTCCA -ACGACTTAACGCTCTACAGCCATAATCAGCTTTACGGCGTCTGGCGCGTGGTTGATACCGGCGAAGAGCC -GCAGACCACGCGAGTATTGCGGGTAAAACTGCAAACGGCTGACAAAACCATTCTGCTTTATAGCGCCTCG -GATATTGAGATGTTGACCCCGGAACAACTGACCACGCATCCGTTTTTACAACGCGTTGGTCCCGATGTGC -TGGATCCGAATCTGACGCCGGAGGTGGTGAAAGAACGATTATTGTCGCCGCGCTTTCGTAACCGTCAGTT -TGCTGGATTACTGCTCGATCAGGCGTTTCTGGCTGGGCTTGGCAATTATTTGCGGGTGGAGATCCTCTGG -CAGGTTGGGTTGACTGGAAATCATAAAGCGAAAGATCTCAATGCGGCGCAACTGGATGCACTCGCACACG -CGTTACTGGAGATTCCTCGATTTTCCTACGCTACGCGGGGGCAGGTGGATGAGAATAAGCATCATGGGGC -GCTGTTTCGCTTTAAGGTTTTTCATCGAGATGGCGAACCGTGCGAACGTTGTGGCAGCATCATTGAGAAA -ACCACGCTGTCATCTCGCCCGTTTTACTGGTGCCCTGGCTGCCAGCACTAGGCCGACCGCTTCGGCGCAT -AGGTTGAAATAAACCGCGCAATGGCAGGCCCTGTCAGCAAAATACTGAACAGGCGTAGGGTTTGCATCGC -CATAATGAGCGCCATATCGGCATTGCTCCCTGCGGCGATGACCGCCACGGTATCAAGCCCGCCGGGGCTG -GTGGCGAGGTAGGCAGTCATAAAATCAATGTGCATAAACCGGGTCAGCCCCCACGCCATACCCGCACAAA -TAGCCAGCAGAGCAAAAATCGACAGCAGGATTTGCGGTAGCGGGCGTAGTGCCCGCAGTAAGATTTGTTT -ATCGAAACCAAGACCAATCCGCCAGCCAATTGCCATATACGCCATCGCCAGCAGCCATTCCGGTAGTTCG -ATGGTGATGAGCTGACCAGACTGGAGCACTGCGCCCGCCAGCATCGGGATGAGCATCGTGCCGGAAGGAA -GACGCAGCAGGCATCCCACTGTACCGGCAACGACCGCGAGCAAAATAGTAAGCAGGAGATTAATGCTCAC -TGGCGGGAACCAGACGATATGCTGGTTAACCGCTTCAGCGTTATCGCCCAGCATCATGCGGGTGACCAGA -ACAGCGGCCCCCGCGACGAACAGCACTCGCAGATATTGCATAAACGCCACCAGGCGAATATCTGCGCCGT -AATCTTGCGCCATAGCGACCATTGCCGCCGCGCCGCCAGGAGAGGAGCCCCAGGCACCGGTATTTCCAGG -CAATGAGCTATAGCGCACCAATAACCAACCCACAATGGCGCTGGAAAGCAGCGTTACCAGTAAAATTGCA -AGCACGATCGGCCAGTTGACGGCCAGGGTGGTGAGAATCGAACCAGTGAGGTTTTGCGCAATCATGCAGC -CAAGAATGGCCTGGGCGGCGAGAAAAGCAGAGCGGGGAAGTTGCAGAGTAATTCCGCGCATACTAAAGAT -GATCCCGGCGATCATCGGCCCAAGTAATAGCGCCGCCGGGAGATGTACCGCGAGGAAACCAATAGAAAGG -AGAAGTGATAGCACACATAACATTCCCCACTGCAAAACTGGCATCCTTCGCTCCCTCATTATTTTCTCTT -TGGTGTATCGATACAGCATAAAGAAAGCTGGGCCAGGAAAAAATAACAGCAATCAAGGAAAAGGGGAAAA -TCAGCAATTTTCTGAAAGAGATGCCCTTTCCGGCGGCAAAGGGCATCATGGTAAATCAGTTATAGTTAAT -CTTAAAAAGCACCACTGTATCGAAGGGGCCAGCCTCGATGGGGGTGCCTGGAATGGACGAAAGTTCAGCC -GTATAGGTTTTTTCGTAGACCAACATGTCACTGGTGAAATCGGCGTATTCAGCATATTTATTGAAGGTAT -AAGGCGAGGCGTTTTCATCCAGTAAACGTAGCTTCAGACCATTACCAATCAACAATGCTTTATCTTCTTC -AACCAACGTTTCTTCGGTATAAAAGGAGGAACTGACTTTAAATCCGTCGGTGCATTGATCGTTTTGGCTC -TTGGTCGTTTTAATACTGAACGTTTTCGACATTGTGTGGCGACGTATATCCAGCAAATTAAATTTACCAA -AATCAATCACCTGTGTTTCCGGTGAAATGGAAAAATTGACGCTGCAATCCAGCACGCGAATGTTTTCCAG -ACCAGTAATATGATATTTCAGGTTTTGGGCAGTAGGGTCTTCGTTAACGCTACCGGCACCGTCAAATTGC -ACGACGATATAGTCGCTAAGCGTACTTTGATAATCATGCGGCGGCATTTCTCGTATTTTGACGTATAACC -GCATGCGAGCGAGAAAGGTACGCGACATATGAATATTAGCGGGATCGCCCGAGCAAATTTTGTTCTGCCA -TCCCATCGCGATGATCTGCTCAGGGGTATAAATATCAATGTTCTTACTGTCGATACACTGGTTAGTGTCG -ATGCGACTTTTTCCCAGACTGGCATCGTAATCGACACCGTTGTATGTCACGCCGAGTTGATAATAACGAT -CCTGCACCCCCGGATAGGGGTTTACCCAGGCGTAGACATGCTCGCTTTCAAAGTTGCCGTTGGTATTGTT -GTCACAATAGACGGGAATTTTAATATCGTCAGATTCCCAGATCTTATCACCGGGTTTGGCATTGCCTGGT -ACAGCAAACGGTTGAATCGCTTCTGATTTTTCTACTGCGCCACCAGATGTACCAAAATAGCAGTTCAGCG -CCATTGCAGACTTCAACGGCAGAAATAACAGGCAGATGACGAGCAACAATCCCTTGCCAGCACTCATTTC -GCCTCCACTGCTTGTAAACGGCATTGTCCGCTGCAGTTGAGCGTCGTCATGCGTAATGCGCCGTAATCAT -CCATGTAACCGAGATAAAACTGGCTGCCGCTATAACTTCCGGTGTTTGTGTTGACCGTACTAAAAGGTGC -AACCATCACGGTTTTGAAGCCTGGGAGAACGCCTTTTTCATTTCTCCCCAGATAGGCAATGGTCAGATAA -TACGCGGTAGGATTTTTCAGTGTCAGTTGGTTGCCCTGCTGGCTGACCTGTAACTGCAGTTCGACCTTTT -CTCCTGCTTTCTTGCGTAATGCAGCCGGTCGCCAGAACAATTTAATACGACTTTGAATAGCGACCTGAAG -TATCGCATGGTCGCTGCTTTTATCCGGAGCGGGAGGAATTTCGCGCATATTGTAGAAAAATAGCGTTTCG -CGATCGCCAGGTAATTGTGTGGTTGAGGCTTGTTTCACAACCCGCACCTGCGATGTCGCTTTCGGTTCCA -GACGTTGAATAGGGGGCAAAGCGACCAGAAGAGCATCGCTTTTCTCCCCTTTTTCATTTTCTATCCAGGA -ATAAGCAAGATAAGGCAGTTTGTCACTTTGGTTTTCGATACGCAGGCTGGTGGCTTTGTCATTGGCGTTA -AACACAATGCGTGTGCGATCGGGTTGCACCGCAGCATTGCAACCCAAGCTGATGGTTAACAACATTAAGG -GTAATCCTTTAATAAATGTCATTCTCTTTTCCTTAATTAATGACAAGGTAAAATCAGGCGTTTGGTCGTG -TCTTCCAGACGTTCTGGCAGATGAATAATGCAGCTTTGCTCACCCCAGACCACGGTAAACAGTTGATTTT -CAGCGACACCGCTTAACCAGGCATGTCCTTCCTCGCCAACCATACCCACGCTAATGCCGCTGTCATCCTG -GCGGATATCCGCACCGAGGGGAGGGAACTGACCGCTGGCGTTGCGTATGATGACGTTAACGTCTTTACCG -GAACGGGAAGCCAGTGATTTGTAACCTATCGCGCCTTCAATCCATGTTTCCTTGATGACGTTTTCTGCAA -CTGTTACGCCGTCGGGTAAGTCATTCATGTTCACCGCCACGGTGGAAGGCTGGTAACTGGAAATCAACGG -CACCACCGCAATGCCAAAATGGTTGGTGTAGTCGAGATTGCCCTGAACCGGAATATCTGCCACGCCATCG -GTGCTGACCATCAGGCGTGGTTCATTGGTGGAGCTGCGGCGATGAAATGCTGCACCATATTGGGTTGCGG -TGAAAGAACCGCTCCAGCTGCTGCTGACGGAACTGTAATCACTGGCGGCATAGGTACCAGAAATATCCCA -CTCACCCGCTGAACTCAGGTGCTGATAGTTACCGCTCACCTGGGCTCCATTGTCCGGACGATCGGATTGC -AGTCCGGCAGACATGCCCCAGCTATTACGTTCATCCAGCGTATCGTTCCACGACATGCGGTGTATGGTGC -TGTGGCTACTGTTTTGCATGTCATAGCCAACCCGACCACCGTTACCGAAGGGGAGCGAAATCGACAGATA -AATCTGGTTGTCGCGATCTTTATCTTCGTAGTGGGTCGTATTGAATGACGTCGAAATCGAGATATCTCTC -CAGTCACCAATATCAACATTAAAACCTGCTGTGATGTTGGCGGTCGTGGAGGCGTCTGCATTCCACCAGG -TTTGATGTAGCAGGTTGGCGTAAAGATTGAGGTTTAGTGGGGTAATCGGTTGGCCCACGGATAAGCTGAT -CGTCTGTTTTTCGTCCTGCGCATCGCTGTCGTTGTATTTGTGATCCAGATAGTTGGCGTAGCTGTGAAAA -TGACGATCTGAGAAGCGATAAGCGGCGAGCGAAATCGTGCTGTTGGTGGCATCCACTTGTTTGCTGTAAT -TAAAACGGTAGCTTAAGCCCCGCTCGTCCTGCTGAGTATCAAAATGGCTACTGGCCCAGGTGACATCAAA -GGACAGTGCGCCAAGCCACAGCATATTTTGCCCGATACCCATTGCGGCAGAATGGTAGTCATCATCAGAA -ATCAGCAGGCCGCCGTACAGCGAGGTGTTTGAGAGCATCCCCCAGGAAACTTCATTGCTAAAAAAGGTTT -CATTTTCAGTTTGATGTGACATGGAAGGCCGTGGCTGACCCGCGGCCAATTTATAGCGAACCTGTCCCTG -GCGAGTCAGGAAGGGCGTCGATGCTGCCGAAACCTGGAAATTGTTCACCCGACCATCTTCTTCCGTCACT -TTGACATCCAGCGTGCCCTGAACAGACTGATTGAGGTCATCAATAATAAACGGGCCTGGCGGGACTTTTT -TCTGGTAAATGACGCGGCCTGATTGACTGATCGTCACCGTGGCATTGGTCTGTGCAATACCGCTAATTTG -TGGGGCGTAGCCACGCAGCTCCCACGGTAACATTCGATCGTCACTCGCCAGTGCCGCGCCGGTATAAGAA -AAACCATCGAAAATATTGGAACTGAAATCGGTTTCGCCGAGGGTTAACTTAGAGCCTAATTGCGGTAATG -GACGAAAAAGATAGGTGCGCGATATTCCGCCTGACTGGTCATGGTTATCTTCGCTATCGGTCTTATTAAG -CTGGTAATCACTGCGTAAGCGCCATGCCCCGGCGTTAATTCCGGCGGTACCGTAGGCATTCAGGTTAGTG -CTGCTGCTGCCGTCCTGTGGGCGGTAGCTGCTGGCAAACAAGTTGTAATCCATCAGGACACCGGCAACAC -CTTCTTTCCATGTAGAGGGGGGAGCCCAGTTTTCTGAGTGCCACGCCAGCCAGGCTTGCGGAATACTAAT -ATTCAGTTGCTGATTGGCTTGATCGAAATTGAAGAGCATTTCAGGTCGGGAACTGAAATCAATACACCGA -TCTATCTGTGGCAAGGACTGACGGATATCTGGTTTTAAACCAAATTTATCGACCAGTGAATCATTGATGC -ATGGAATGGTTTTGTCACCCTTTTTTTGCCAGTTAATTTTTTGCCCATTACTGATTTTGTTGTTATTCAC -CGCAACGCTAACAAAATATTCACCGGGAGCAATGACTCCTTTTTCCTTTAATAATGAAATATCAATGCGG -TCGCGCATTGATTTATCGAGAACATTCAGATTGAATTCGACCGCCATTGCGCAAGGCATCGCCATGACCA -GGCAGGATACAAAAGAGAGTCGATAAATATTCACGGTGTCCATACCTGATAAATATTTTATGAAAGGCGG -CGATGATGCCGCCAAAATAATACTTATTTATAATCCAGCACGTAGGTTGCGTTAGCGGTTACTTCACCTG -CCGTGACATCGACTGCATTATCAATTTGTTCCATCCAGGCGAAAAAGTTCAGCGTCTGTTCTGATGAGCT -TGCATCCAGGTCAAGATCTGGCGCGGCTGAACCTAATACGATGTTACCGTCATTTTTGTCCATCAGTCGT -ACACCGACCCCAGTTGCTTCGCCTGCACTGGTGTTGCTCAACAAAGGCGTAGCACCAGTTGTCTTAGCCG -TGCTATCGAAGGTTACGCCAACTTTGGATACCGGCATTCCGCTACCGTTGTCAGAAGCAGGCAGATCACA -GTTGATCAAGCGAATGTCGACGGCCACTTTATTGCTATGATGCTCCCGGTTTATATGGGTTGTCGTGACT -TGTCCAAGATCTATGTTTTTATCAATATCTTCTGGATGAATTTCACAAGGTGCTTCAATAACCTCCCCCT -TAAAGTGAATTTCGCCAGAACCTTCATCAGCAGCATAAACAGGTGCAGTGAACAGCAGAGATACGGCCAG -TGCGGCCAATGTTTTTTGTCCTTTAAACATAACAGAGTCCTTTAAGGATATAGAATAGGGGTATAGCTAC -GCCAGAATATCGTATTTGATTATTGCTAGTTTTTAGTTTTGCTTAAAAATATTGTTAGTTTTATTAAATG -CAAAACTAAATTATTGGTATCATGAATTTGTTGTATGATGAATAAAATATAGGGGGGTATAGATAGACGT -CATTTTCATAGGGTTATAAATGCGACTACCATGAAGTTTTTAATTGAAAGTATTGGGTTGCTGATAATTT -GAGCTGTTCTATTCTTTTTAAATATCTATATAGGTCTGTTAATGGATTTTATTTTTACAATTTTTTGTGT -TTAGGCATATAAAAATCAACCCGCCATATGAACGGCGGGTTAAAATATTTACAACTTAGCAATCAACCAT -TAACGCTTGATATCGCTTTTAAAGTCGCGTTTTTCATATCCTGTATACAGCTGACGCGGACGGGCAATCT -TCATACCGTCACTGTGCATTTCGCTCCAGTGGGCGATCCAGCCAACGGTACGTGCCATTGCGAAAATGAC -GGTGAACATGGAAGACGGAATACCCATCGCTTTCAGGATGATACCAGAGTAGAAATCGACGTTCGGGTAC -AGTTTCTTCTCGATAAAGTACGGGTCGTTCAGCGCGATGTTTTCCAGCTCCATAGCCACTTCCAGCAGGT -CATCCTTCGTGCCCAGCTCTTTCAGCACTTCATGGCAGGTTTCACGCATTACGGTGGCGCGCGGGTCGTA -ATTTTTGTACACGCGGTGACCGAAGCCCATCAGGCGGAAAGAATCATTTTTGTCTTTCGCACGACGAACA -AATTCCGGAATGTGTTTAACGGAGCTGATTTCTTCCAGCATTTTCAGCGCCGCTTCGTTAGCACCGCCGT -GCGCAGGTCCCCACAGTGAAGCAATACCTGCTGCGATACAGGCAAACGGGTTCGCACCCGAAGAGCCAGC -GGTACGCACGGTGGAGGTAGAGGCGTTCTGTTCATGGTCAGCGTGCAGGATCAGAATACGGTCCATAGCA -CGTTCCAGAATCGGATTAACTTCATACGGTTCGCACGGCGTGGAGAACATCATATTCAGGAAGTTACCGG -CGTAGGAGAGATCGTTGCGCGGGTAAACAAATGGCTGACCAATGGAATACTTGTAACACATCGCGGCCAT -GGTCGGCATTTTCGACAGCAGGCGGAACGCGGCAATTTCACGGTGACGAGGATTGTTAACATCCAGCGAG -TCGTGATAGAACGCCGCCAGCGCGCCGGTAATACCACACATGACTGCCATTGGATGCGAGTCGCGACGGA -AAGCATGGAACAGACGGGTAATCTGCTCGTGGATCATGGTATGACGGGTCACCGTAGTTTTAAATTCGTC -ATACTGTTCCTGAGTCGGTTTTTCACCATTCAGCAGGATGTAACAAACTTCCAGGTAGTTAGAATCGGTC -GCCAGCTGATCGATCGGGAAACCGCGGTGCAGCAAAATACCTTCATCACCATCAATAAAAGTAATTTTAG -ATTCGCAGGATGCGGTTGAAGTGAAGCCTGGGTCAAAGGTGAACACACCTTTTGAACCGAGAGTACGGAT -ATCAATAACATCTTGACCCAGCGTGCCTTTCAGCACATCCAGTTCAACAGCTGTATCCCCGTTGAGGGTG -AGTTTTGCTTTTGTATCAGCCATTTAAGGTCTCCTTAGCGCCTTATTGCGTAAGACTGCCGGAACTTAAA -TTTGCCTTCGCACATCAACCTGGCTTTACCCGTTTTTTATTTGGCTCGCCGCTCTGTGAAAGAGGGGAAA -ACCTGGGTACAGAGCTCTGGGCGCTTGCAGGTAAAGGATCCATTGATGACGAATAAATGGCGAATCAAGT -ACTTAGCAATCCGAATTATTAAACTTGTCTACCACTAATAACTGTCCCGAATGAATTGGTCAATACTTCC -ACACTGTTACATAAGTTAATCTTAGGTGAAATACCGACTTCATAACTTTTACGCATTATATGCTTTTCCT -GGTAATGTTTGTAACAACTTTGTTGAATGATTGTCAAATTAGATGATTAAAAATTAAATAAATGTTGTTA -TCGTGACCTGGATCACTGTTCAGGATAAAACCCGACAAACTATATGTAGGTTAATTGTAATGATTTTGTG -AACAGCCTATACTGCCGCCAGGTCTCCGGAACACCCTGCAATCCCGAGCCACCCAGCGTTGTAACGTGTC -GTTTTCGCATCTGGAAGCAGTGTTTTGCATGACGCGCAGTTATAGAAAGGACGCTGTCTGACCCGCAAGC -AGACCGGAGGAAGGAAATCCCGACGTCTCCAGGTAACAGAAAGTTAACCTCTGTGCCCGTAGTCCCCAGG -GAATAATAAGAACAGCATGTGGGCGTTATTCATGATAAGAAATGTGAAAAAACAAAGACCTGTTAATCTG -GACCTACAGACCATCCGGTTCCCCATCACGGCGATAGCGTCCATTCTCCATCGCGTTTCCGGTGTGATCA -CCTTTGTTGCAGTGGGCATCCTGCTGTGGCTTCTGGGTACCAGCCTCTCTTCCCCTGAAGGTTTCGAGCA -AGCTTCCGCGATTATGGGCAGCTTCTTCGTCAAATTTATCATGTGGGGCATCCTTACCGCTCTGGCGTAT -CACGTCGTCGTAGGTATTCGCCACATGATGATGGATTTTGGCTATCTGGAAGAAACATTCGAAGCGGGTA -AACGCTCCGCCAAAATCTCCTTTGTTATTACTGTCGTGCTTTCACTTCTCGCAGGAGTCCTCGTATGGTA -AGCAACGCCTCCGCATTAGGACGCAATGGCGTACATGATTTCATCCTCGTTCGCGCTACCGCTATCGTCC -TGACGCTCTACATCATTTATATGGTCGGTTTTTTCGCTACCAGTGGCGAGCTGACATATGAAGTCTGGAT -CGGTTTCTTCGCCTCTGCGTTCACCAAAGTGTTCACCCTGCTGGCGCTGTTTTCTATCTTGATCCATGCC -TGGATCGGCATGTGGCAGGTGTTGACCGACTACGTTAAACCGCTGGCTTTGCGCCTGATGCTGCAACTGG -TGATTGTCGTTGCACTGGTGGTTTACGTGATTTATGGATTCGTTGTGGTGTGGGGTGTGTGATGAAATTG -CCAGTCAGAGAATTTGATGCAGTTGTGATTGGTGCCGGTGGCGCAGGTATGCGCGCGGCGCTGCAAATTT -CCCAGAGCGGCCAGACCTGTGCGCTGCTCTCTAAAGTCTTCCCGACCCGTTCCCATACCGTTTCTGCGCA -AGGCGGCATTACCGTTGCGCTGGGTAATACCCATGAAGATAACTGGGAATGGCATATGTACGACACCGTG -AAAGGGTCGGACTATATCGGTGACCAGGACGCGATTGAATATATGTGTAAAACCGGGCCGGAAGCGATTC -TGGAACTCGAACACATGGGCCTGCCGTTCTCGCGTCTCGATGATGGTCGTATCTATCAACGTCCGTTTGG -CGGTCAGTCGAAAAACTTCGGCGGCGAGCAGGCGGCACGCACTGCGGCAGCAGCTGACCGTACCGGTCAC -GCACTGTTGCACACGCTTTATCAGCAGAACCTGAAAAACCACACCACCATTTTCTCCGAGTGGTATGCGC -TGGATCTGGTGAAAAACCAGGATGGCGCGGTGGTGGGTTGTACCGCACTGTGCATCGAAACCGGTGAAGT -GGTTTATTTCAAAGCCCGCGCTACCGTGCTGGCGACTGGCGGAGCAGGGCGTATTTATCAGTCCACCACC -AACGCCCACATTAACACCGGCGACGGTGTCGGCATGGCTATCCGTGCCGGCGTACCGGTGCAGGATATGG -AAATGTGGCAGTTCCACCCGACCGGCATTGCCGGTGCGGGCGTACTGGTCACCGAAGGTTGCCGTGGTGA -AGGCGGTTATCTGCTGAACAAACATGGCGAACGTTTTATGGAGCGTTATGCGCCGAACGCCAAAGACCTG -GCGGGCCGTGACGTGGTTGCGCGTTCCATCATGATCGAAATCCGTGAAGGTCGCGGCTGTGATGGTCCGT -GGGGGCCACACGCGAAACTGAAACTCGATCACCTGGGTAAAGAAGTTCTCGAATCCCGTCTGCCGGGTAT -CCTGGAGCTTTCCCGTACCTTCGCTCACGTCGATCCGGTGAAAGAGCCGATTCCGGTTATCCCAACCTGT -CACTACATGATGGGCGGTATTCCGACCAAAGTTACCGGTCAGGCACTGACTGTGAATGAGAAAGGCGAAG -ATGTGGTTGTTCCGGGACTGTTTGCCGTTGGTGAAATCGCTTGTGTATCGGTACACGGCGCTAACCGTCT -GGGCGGCAACTCGCTGCTGGACCTGGTGGTCTTTGGTCGCGCGGCAGGTCTGCATCTGCAAGAGTCTATC -GCCGAGCAGGGCGCACTGCGCGATGCCAGCGAGTCTGATGTTGAAGCGTCTCTGGATCGCCTGAACCGCT -GGAACAATAATCGTAACGGTGAAGATCCGGTGGCGATCCGTAAAGCGCTGCAAGAATGTATGCAGCATAA -CTTCTCGGTCTTCCGTGAAGGTGATGCGATGGCGAAAGGGCTTGAGCAGTTGAAAGTGATCCGCGAGCGT -CTGAAAAATGCCCGTCTGGATGACACTTCCAGCGAGTTCAACACCCAGCGCGTTGAGTGCCTGGAACTGG -ATAACCTGATGGAAACGGCGTATGCAACGGCTGTTTCTGCCAACTTCCGTACCGAAAGCCGTGGCGCGCA -TAGCCGCTTCGACTTCCCGGATCGTGATGATGAAAACTGGCTGTGCCACTCCCTGTATCTGCCAGAGTCG -GAATCCATGACGCGCCGAAGCGTCAACATGGAACCGAAACTGCGCCCGGCATTCCCGCCGAAGATTCGTA -CTTACTAATGCGGAGACAGGAAAATGAGACTCGAGTTTTCAATTTATCGCTATAACCCGGATGTTGATGA -TGCTCCGCGTATGCAGGATTACACCCTGGAAGCGGATGAAGGTCGCGACATGATGCTGCTGGATGCGCTT -ATCCAGCTAAAAGAGAAAGATCCCAGCCTGTCGTTCCGCCGCTCCTGCCGTGAAGGTGTGTGCGGTTCCG -ACGGTCTGAACATGAACGGCAAGAATGGTCTGGCCTGTATTACCCCGATTTCGGCACTCAACCAGCCGGG -CAAGAAGATTGTGATTCGCCCGCTGCCAGGTTTACCGGTGATCCGCGATTTGGTGGTAGACATGGGACAA -TTCTATGCGCAATATGAGAAAATTAAGCCTTACCTGTTGAATAATGGACAAAATCCGCCAGCTCGCGAGC -ATTTACAGATGCCAGAGCAGCGCGAAAAACTCGACGGGCTGTATGAATGTATTCTCTGCGCATGTTGTTC -AACCTCTTGTCCGTCTTTCTGGTGGAATCCCGATAAGTTTATCGGCCCGGCAGGCTTGTTAGCGGCATAT -CGTTTCCTGATTGATAGCCGTGATACCGAGACTGACAGCCGCCTCGACGGTTTGAGTGATGCATTCAGCG -TATTCCGCTGTCACAGCATCATGAACTGCGTCAGTGTATGTCCGAAGGGGCTGAACCCGACGCGCGCCAT -CGGCCATATCAAGTCGATGTTGTTGCAACGTAATGCGTAAACCGTAGGCCTGATAAGACGCGCAAGCGTC -GCATCAGGCAACCAGTGCCGGATGCGGCGTGAACGCCTTATCCGGCCTACAAGTCATTACCCGTAGGCCT -GATAAGCGCAGCGCATCAGGCGTAACAAAGAAATGCAGGAAATCTTTAAAAACTGCCCCTGACACTAAGA -CAGTTTTTAAAGGTTCCTTCGCGAGCCACTACGTAGACAAGAGCTCGCAAGTGAACCCCGGCACGCACAT -CACTGTGCGTGGTAGTATCCACGGCGAAGTAAGCATAAAAAAGATGCTTAAGGGATCACGATGCAGAACA -GCGCTTTGAAAGCCTGGTTGGACTCTTCTTACCTCTCTGGCGCAAACCAGAGCTGGATAGAACAGCTCTA -TGAAGACTTCTTAACCGATCCTGACTCGGTTGACGCTAACTGGCGTTCGACGTTCCAGCAGTTACCTGGT -ACGGGAGTCAAACCGGATCAATTCCACTCTCAAACGCGTGAATATTTCCGCCGCCTGGCGAAAGACGCTT -CACGTTACTCTTCAACGATCTCCGACCCTGACACCAATGTGAAGCAGGTTAAAGTCCTGCAGCTCATTAA -CGCATACCGCTTCCGTGGTCACCAGCATGCGAATCTCGATCCGCTGGGACTGTGGCAGCAAGATAAAGTG -GCCGATCTGGATCCGTCTTTCCACGATCTGACCGAAGCAGACTTCCAGGAGACCTTCAACGTCGGTTCAT -TTGCCAGCGGCAAAGAAACCATGAAACTCGGCGAGCTGCTGGAAGCCCTCAAGCAAACCTACTGCGGCCC -GATTGGTGCCGAGTATATGCACATTACCAGCACCGAAGAAAAACGCTGGATCCAACAGCGTATCGAGTCT -GGTCGCGCGACTTTCAATAGCGAAGAGAAAAAACGCTTCTTAAGCGAACTGACCGCCGCTGAAGGTCTTG -AACGTTACCTCGGCGCAAAATTCCCTGGCGCAAAACGCTTCTCGCTGGAAGGCGGTGACGCGTTAATCCC -GATGCTTAAAGAGATGATCCGCCACGCTGGCAACAGCGGCACCCGCGAAGTGGTTCTCGGGATGGCGCAC -CGTGGTCGTCTGAACGTGCTGGTGAACGTGCTGGGTAAAAAACCGCAAGACTTGTTCGACGAGTTCGCCG -GTAAACATAAAGAACACCTCGGCACGGGTGACGTGAAATACCACATGGGCTTCTCGTCTGACTTCCAGAC -CGATGGCGGCCTGGTGCACCTGGCGCTGGCGTTTAACCCGTCTCACCTTGAGATTGTAAGCCCGGTAGTT -ATCGGTTCTGTTCGTGCCCGTCTGGACAGACTTGATGAGCCGAGCAGCAACAAAGTGCTGCCAATCACCA -TCCACGGTGACGCCGCAGTGACCGGGCAGGGCGTGGTTCAGGAAACCCTGAACATGTCGAAAGCGCGTGG -TTATGAAGTTGGCGGTACGGTACGTATCGTTATCAACAACCAGGTTGGTTTCACCACCTCTAATCCGCTG -GATGCCCGTTCTACGCCGTACTGTACTGATATCGGTAAGATGGTTCAGGCCCCGATTTTCCACGTTAACG -CGGACGATCCGGAAGCCGTTGCCTTTGTGACCCGTCTGGCGCTCGATTTCCGTAACACCTTTAAACGTGA -TGTCTTCATCGACCTGGTGTGCTACCGCCGTCACGGCCACAACGAAGCCGACGAGCCGAGCGCAACCCAG -CCGCTGATGTATCAGAAAATCAAAAAACATCCGACACCGCGCAAAATCTACGCTGACAAGCTGGAGCAGG -AAAAAGTGGCGACGCTGGAAGATGCCACCGAGATGGTTAACCTGTACCGCGATGCGCTGGATGCTGGCGA -TTGCGTAGTGGCAGAGTGGCGTCCGATGAACATGCACTCTTTCACCTGGTCGCCGTACCTCAACCACGAA -TGGGACGAAGAGTACCCGAACAAAGTTGAGATGAAGCGCCTGCAGGAGCTGGCGAAACGCATCAGCACGG -TGCCGGAAGCAGTTGAAATGCAGTCTCGCGTTGCCAAGATTTATGGCGATCGCCAGGCGATGGCTGCCGG -TGAGAAACTGTTCGACTGGGGCGGTGCGGAAAACCTCGCTTACGCCACGCTGGTTGATGAAGGCATTCCG -GTTCGCCTGTCGGGTGAAGACTCCGGTCGCGGTACCTTCTTCCACCGCCACGCGGTGATCCACAACCAGT -CTAACGGTTCCACTTACACGCCGCTGCAACATATCCATAACGGGCAGGGCGCGTTCCGTGTCTGGGACTC -CGTACTGTCTGAAGAAGCAGTGCTGGCGTTTGAATATGGTTATGCCACCGCAGAACCACGCACTCTGACC -ATCTGGGAAGCGCAGTTCGGTGACTTCGCCAACGGTGCGCAGGTGGTTATCGACCAGTTCATCTCCTCTG -GCGAACAGAAATGGGGCCGGATGTGTGGTCTGGTGATGTTGCTGCCGCACGGTTACGAAGGGCAGGGGCC -GGAGCACTCCTCCGCGCGTCTGGAACGTTATCTGCAACTTTGTGCTGAGCAAAACATGCAGGTTTGCGTA -CCGTCTACCCCGGCACAGGTTTACCACATGCTGCGTCGTCAGGCGCTGCGCGGGATGCGTCGTCCGCTGG -TCGTGATGTCGCCGAAATCCCTGCTGCGTCATCCGCTGGCGGTTTCCAGCCTCGAAGAACTGGCGAACGG -CACCTTCCTGCCAGCCATCGGTGAAATCGACGAGCTTGATCCGAAGGGCGTGAAGCGCGTAGTGATGTGT -TCTGGTAAGGTTTATTACGACCTGCTGGAACAGCGTCGTAAGAACAATCAACACGATGTCGCCATTGTGC -GTATCGAGCAACTCTACCCGTTCCCGCATAAAGCGATGCAGGAAGTGTTGCAGCAGTTTGCTCACGTCAA -GGATTTTGTCTGGTGCCAGGAAGAGCCGCTCAACCAGGGCGCATGGTACTGCAGCCAGCATCATTTCCGT -GAAGTGATTCCGTTTGGGGCTTCTCTGCGTTATGCAGGCCGCCCGGCCTCCGCCTCTCCGGCGGTAGGGT -ATATGTCCGTTCACCAGAAACAGCAACAAGATCTGGTTAATGACGCGCTGAACGTCGAATAAATAAAGGA -TACACAATGAGTAGCGTAGATATTCTGGTCCCTGACCTGCCTGAATCCGTAGCCGATGCCACCGTCGCAA -CCTGGCATAAAAAACCCGGCGACGCAGTCGTACGTGATGAAGTGCTGGTAGAAATCGAAACTGACAAAGT -GGTACTGGAAGTACCGGCATCAGCAGACGGCATTCTGGATGCGGTTCTGGAAGATGAAGGTACAACGGTA -ACGTCTCGTCAGATCCTTGGTCGCCTGCGTGAAGGCAACAGCGCCGGTAAAGAAACCAGCGCCAAATCTG -AAGAGAAAGCGTCCACTCCGGCGCAACGCCAGCAGGCGTCTCTGGAAGAGCAAAACAACGATGCGTTAAG -CCCGGCGATCCGTCGCCTGCTGGCTGAACACAATCTCGACGCCAGCGCCATTAAAGGCACCGGTGTGGGT -GGTCGTCTGACTCGTGAAGATGTGGAAAAACATCTGGCGAAAGCCCCGGCGAAAGAGTCTGCTCCGGCAG -CGGCTGCTCCGGCGGCGCAACCGGCTCTGGCTGCACGTAGTGAAAAACGTGTCCCGATGACTCGCCTGCG -TAAGCGTGTGGCAGAGCGTCTGCTGGAAGCGAAAAACTCCACCGCCATGCTGACCACGTTCAACGAAGTC -AACATGAAGCCGATTATGGATCTGCGTAAGCAGTACGGTGAAGCGTTTGAAAAACGCCACGGCATCCGTC -TGGGCTTTATGTCCTTCTACGTGAAAGCGGTGGTTGAAGCCCTGAAACGTTACCCGGAAGTGAACGCTTC -TATCGACGGCGATGACGTGGTTTACCACAACTATTTCGACGTCAGCATGGCGGTTTCTACGCCGCGCGGC -CTGGTGACGCCGGTTCTGCGTGATGTCGATACCCTCGGCATGGCAGACATCGAGAAGAAAATCAAAGAGC -TGGCAGTCAAAGGCCGTGACGGCAAGCTGACCGTTGAAGATCTGACCGGTGGTAACTTCACCATCACCAA -CGGTGGTGTGTTCGGTTCCCTGATGTCTACGCCGATCATCAACCCGCCGCAGAGCGCAATTCTGGGTATG -CACGCTATCAAAGATCGTCCGATGGCGGTGAATGGTCAGGTTGAGATCCTGCCGATGATGTACCTGGCGC -TGTCCTACGATCACCGTCTGATCGATGGTCGCGAATCCGTGGGCTTCCTGGTAACGATCAAAGAGTTGCT -GGAAGATCCGACGCGTCTGCTGCTGGACGTGTAGTAGTTTAAGTTTCACCTGCACTGTAGACCGGATAAG -GCATTATCGCCTTCTCCGGCAATTGAAGCCTGATGCGACGCTGACGCGTCTTATCAGGCCTACGGGACCA -CCAATGTAGGTCGGATAAGGCGCAAGCGCCGCATCCGACAAGCGATGCCTGATGTGACGTTTAACGTGTC -TTATCAGGCCTACGGGTGACCGACAATGCCCGGAAGCGATACGAAATATTCGGTCTACGGTTTAAAAGAT -AACGATTACTGAAGGATGGACAGAACACATGAACTTACATGAATATCAGGCAAAACAACTTTTTGCCCGC -TATGGCTTACCAGCACCGGTGGGTTATGCCTGTACTACTCCGCGCGAAGCAGAAGAAGCCGCTTCAAAAA -TCGGTGCCGGTCCGTGGGTAGTGAAATGTCAGGTTCACGCTGGTGGCCGCGGTAAAGCGGGCGGTGTGAA -AGTTGTAAACAGCAAAGAAGACATCCGTGCTTTTGCAGAAAACTGGCTGGGCAAGCGTCTGGTAACGTAT -CAAACAGATGCCAATGGCCAACCGGTTAACCAGATTCTGGTTGAAGCAGCGACCGATATCGCTAAAGAGC -TGTATCTCGGTGCCGTTGTTGACCGTAGTTCCCGTCGTGTGGTCTTTATGGCCTCCACCGAAGGCGGCGT -GGAAATCGAAAAAGTGGCGGAAGAAACTCCGCACCTGATCCATAAAGTTGCGCTTGATCCGCTGACTGGC -CCGATGCCGTATCAGGGACGCGAGCTGGCGTTCAAACTGGGTCTGGAAGGTAAACTGGTTCAGCAGTTCA -CCAAAATCTTCATGGGCCTGGCGACCATTTTCCTGGAGCGCGACCTGGCGTTGATCGAAATCAACCCGCT -GGTCATCACCAAACAGGGCGATCTGATTTGCCTCGACGGCAAACTGGGCGCTGACGGCAACGCACTGTTC -CGCCAGCCTGATCTGCGCGAAATGCGTGACCAGTCGCAGGAAGATCCGCGTGAAGCACAGGCTGCACAGT -GGGAACTGAACTACGTTGCGCTGGACGGTAACATCGGTTGTATGGTTAACGGCGCAGGTCTGGCGATGGG -TACGATGGACATCGTTAAACTGCACGGCGGCGAACCGGCTAACTTCCTTGACGTTGGCGGCGGCGCAACC -AAAGAACGTGTAACCGAAGCGTTCAAAATCATCCTCTCTGACGACAAAGTGAAAGCCGTTCTGGTTAACA -TCTTCGGCGGTATCGTTCGTTGCGACCTGATCGCTGACGGTATCATCGGCGCGGTAGCAGAAGTGGGTGT -TAACGTACCGGTCGTGGTACGTCTGGAAGGTAACAACGCCGAACTCGGCGCGAAGAAACTGGCTGACAGC -GGCCTGAATATTATTGCAGCAAAAGGTCTGACGGATGCAGCTCAGCAGGTTGTTGCCGCAGTGGAGGGGA -AATAATGTCCATTTTAATCGATAAAAACACCAAGGTTATCTGCCAGGGCTTTACCGGTAGCCAGGGGACT -TTCCACTCAGAACAGGCCATTGCATACGGCACTAAAATGGTTGGCGGCGTAACCCCAGGTAAAGGCGGCA -CCACCCACCTCGGCCTGCCGGTGTTCAACACCGTGCGTGAAGCCGTTGCTGCCACTGGCGCTACCGCTTC -TGTTATCTACGTACCAGCACCGTTCTGCAAAGACTCCATTCTGGAAGCCATCGACGCAGGCATCAAACTG -ATTATCACCATCACTGAAGGCATCCCGACGCTGGATATGCTGACCGTGAAAGTGAAGCTGGATGAAGCAG -GCGTTCGTATGATCGGCCCGAACTGCCCAGGCGTTATCACTCCGGGTGAATGCAAAATCGGTATCCAGCC -TGGTCACATTCACAAACCGGGTAAAGTGGGTATCGTTTCCCGTTCCGGTACACTGACCTATGAAGCGGTT -AAACAGACCACGGATTACGGTTTCGGTCAGTCGACCTGTGTCGGTATCGGCGGTGACCCGATCCCGGGCT -CTAACTTTATCGACATTCTCGAAATGTTCGAAAAAGATCCGCAGACCGAAGCGATCGTGATGATCGGTGA -GATCGGCGGTAGCGCTGAAGAAGAAGCAGCTGCGTACATCAAAGAGCACGTTACCAAGCCAGTTGTGGGT -TACATCGCTGGTGTGACTGCGCCGAAAGGCAAACGTATGGGCCACGCGGGTGCCATCATTGCCGGTGGGA -AAGGGACTGCGGATGAGAAATTCGCTGCTCTGGAAGCCGCAGGCGTGAAAACCGTTCGCAGCCTGGCGGA -TATCGGTGAAGCACTGAAAACTGTTCTGAAATAAATATCTGTAATAAGAAATAGCCCTCGCCGCTTCCCT -CTACAGGAATGGCGAAGGGCTGTCGGTTTCGACATGGTTGGCCATCGTATGATGGCCTTTTTTGTGCTTA -TCGCGATGATTTTCGCTGCGCTATCAGGGTAAATTTATAGTCATCGGTATTAAAAGCGTTGCGGCTATAT -TCAAACACCCGACCATCAACTAAATATCCACGCGATACTTTTTCAAGAATCGGCTTTGTCTGGCTGATAT -TAAGCAGACGGCTCATCTCTTCGGTTGGCATCAGAGGAATGATTTCCTGTTCGCTACGATCGATAACCAT -TTTCTTCACTTCTTCGATAAAGTGATATTTCGAATTTTCCATGACCTGCCAGGTGAGATCCGGGAACAAC -GCAAGCGGCATCCAGGTTTCTTCCAGCGCCATTGGCTTTTGCTTGCGATAGCGCACGCGCTTCACATGCC -ACACACGATCCTGCGGGGTGATTTGTAGCTGTTGCTGAAGAAAATCGTCAGCCGGAATCACTTCGAATAT -CAGAACTTCACTGTGTGTATCGACGTGACGGTCCGACAGTTTTTCATCAAAACTGGTTAACTGAAAAATA -TCGTAATTGACCCGCTCTTCTTTGACGTAAGTCCCGCTGCCCTGAATGCTTTCGAGGATCTGCTGCTCGA -CTAGCTGGCGCAAAGCCTGACGCACCGTAACCCGGCTGACGCCAAACTCTGTTTGTAGCGCTGATTCAGT -GGGTAACGCATCGCCAGGTTTAAGCTCGCCACGCGCAATTTGTTCACGAATGCGATCGGCAATCTGCCGG -TATAAGGGCTTGTGTCCCATTTTTAGTATCTCATTAATACGAATTTAACCATTATGCCCGATAAATTCAT -CCTGTAAATAATACAAATACAATACAAATAATTTCAATCAAGTGAAATTGATCACATAATGGTATTGTTT -TATCGGGCACACTGGCGCGACTATAAAAACGATCAAGTGAGGATCATGATGAATCTGACGACTCTGACCC -ACCGCGATGCGTTGTGTCTGAATGCGCGCTTTACCAGCCGTGAAGAGGCCATCCACGCGTTGACTCAACG -TCTTGCTGCTCTGGGGAAAATTTCCAGTACTGAGCAATTTCTGGAAGAAGTGTATCGCCGTGAAAGCCTT -GGCCCGACCGCCTTAGGTGAAGGGTTGGCTGTGCCGCATGGCAAAACTGCTGCGGTAAAAGAAGCGGCGT -TTGCGGTCGCCACACTCAGCGAGCCGCTTCAGTGGGAAGGCGTTGATGGCCCGGAAGCAGTTGATTTAGT -GGTGCTGCTGGCGATTCCCCCCAATGAAGCGGGTACTACGCATATGCAACTGCTGACAGCGCTGACCACG -CGCCTTGCGGATGATGAGATTCGGGCGCGTATACAGTCGGCGACGACGCCTGATGAGTTGCTCTCGGCGC -TGGATGACAAGGGAGGCACGCAACCTTCTGCCTCTTTTTCCAACGCGCCAACTATCGTCTGCGTAACGGC -CTGTCCGGCGGGTATTGCTCACACCTATATGGCTGCGGAATATCTGGAAAAAGCCGGACGCAAACTCGGC -GTAAATGTTTACGTTGAAAAACAAGGCGCTAACGGCATTGAAGGGCGTTTAACGGCGGATCAACTCAATA -GTGCAACCGCCTGTATTTTTGCGGCTGAAGTCGCCATCAAGGAGAGTGAGCGTTTTAATGGCATTCCCGC -GCTTTCAGTGCCTGTTGCCGAGCCGATTCGCCATGCAGAAGCGTTGATCCAACAAGCGCTTACCCTCAAG -CGTAGCGATGAGACGCGTACCGTACAGCAAGATACGCAACCGGTGAAAAGTGTCAAAACGGAGCTGAAAC -AGGCACTGTTGAGCGGAATCTCTTTTGCCGTACCGTTGATTGTCGCGGGGGGCACGGTGCTGGCGGTCGC -GGTATTACTGTCGCAAATCTTCGGGCTACAAGATCTGTTTAATGAAGAAAACTCCTGGCTGTGGATGTAC -CGCAAGCTGGGCGGCGGGCTGCTCGGAATTTTGATGGTACCGGTGCTCGCGGCCTATACCGCCTATTCTC -TGGCAGATAAACCGGCGTTAGCGCCAGGCTTTGCGGCTGGACTTGCCGCCAACATGATCGGCTCCGGGTT -TCTCGGCGCGGTCGTTGGCGGATTGATAGCCGGTTACTTGATGCGCTGGGTGAAAAATCACTTGCGTCTT -AGCAGTAAATTCAATGGATTCCTGACTTTTTATCTCTACCCGGTGCTCGGTACGTTGGGAGCGGGCAGTC -TGATGCTGTTTGTGGTGGGGGAACCTGTCGCCTGGATCAATAACTCGCTTACCGCCTGGCTGAACGGTCT -GTCAGGAAGTAACGCGCTGTTGCTGGGTGCCATTCTCGGTTTTATGTGTTCCTTTGACCTTGGAGGGCCA -GTGAATAAAGCCGCTTATGCATTCTGCCTGGGCGCAATGGCGAACGGCGTTTACGGCCCGTATGCCATTT -TCGCCTCCGTCAAAATGGTTTCGGCATTTACCGTAACCGCTTCCACGATGCTCGCACCGCGCCTGTTTAA -AGAGTTTGAAATTGAGACCGGGAAATCCACCTGGCTGTTAGGGCTGGCAGGTATTACCGAAGGGGCGATC -CCGATGGCGATTGAAGATCCGCTGCGGGTTATTGGTTCGTTTGTGCTGGGCTCTATGGTAACGGGCGCTA -TTGTCGGTGCGATGAATATCGGCCTTTCGACACCCGGTGCCGGCATTTTCTCGCTCTTTTTACTTCATGA -TAATGGCGCGGGCGGTGTTATGGCGGCAATTGGCTGGTTTGGCGCGGCATTGGTGGGGGCTGCAATCTCG -ACTGCAATTCTCCTGATGTGGCGGCGTCACGCGGTTAAGCATGGCAACTATCTGACTGATGGCGTAATGC -CATAAACAAAAAGGAAACGACGATGAAAGCAGTATCTCGCGTTCACATCACCCCGCATATGCACTGGGAT -CGAGAGTGGTATTTCACCACCGAAGAGTCACGTATTCTGCTGGTCAATAATATGGAAGAGATCCTGTGCC -GACTGGAACAGGACAACGAATACAAATATTACGTACTCGACGGGCAAACGGCGATCCTCGAAGATTATTT -CGCGGTGAAACCGGAAAACAAAGACCGTGTGAAGAAACAGGTAGAAGCCGGCAAGTTGATTATCGGCCCC -TGGTATACCCAGACCGATACCACGATTGTTTCTGCGGAATCCATCGTCCGTAATCTGATGTACGGAATGC -GTGACTGCCTCGCGTTTGGCGAGCCGATGAAAATAGGTTATTTACCAGATTCCTTTGGCATGTCCGGGCA -ACTGCCGCATATCTACAATGGATTTGGCATTACCCGCACCATGTTCTGGCGCGGATGTTCGGAGCGCCAC -GGTACTGATAAAACCGAGTTTTTGTGGCAAAGCAGTGACGGTAGCGAAGTGACGGCGCAGGTGCTGCCGC -TGGGCTACGCCATCGGTAAGTACTTACCTGCCGACGAAAACGGATTACGTAAACGCCTCGACAGTTATTT -TGACGTGCTGGAAAAAGCGTCTGTAACCAAAGAGATTTTGCTGCCGAATGGGCATGACCAGATGCCATTG -CAGCAAAATATCTTCGAAGTGATGGATAAGCTACGTGAGATCTACCCTCAACGTAAGTTTGTGATGAGCC -GCTTTGAAGAGGTATTTGAGAAGATCGAAGCGCAGCGAGATAATCTGGCAACCCTGAAAGGGGAATTTAT -TGATGGCAAATATATGCGCGTGCATCGCACCATCGGTTCTACGCGTATGGATATCAAAATTGCCCACGCG -CGTATTGAAAATAAGATTGTTAATCTGCTGGAACCGCTGGCAACACTGGCCTGGACGTTGGGTTTTGAAT -ACCACCACGGCTTGCTGGAGAAAATGTGGAAAGAGATCTTAAAAAATCATGCCCACGACAGTATCGGCTG -CTGCTGTAGTGACAAAGTTCATCGCGAAATCGTCGCCCGCTTCGAACTGGCTGAAGACATGGCGGATAAT -CTGATTCGTTTCTACATGCGCAAAATTGCCGACAACATGCCGCAGAGCGACGCCGACAAACTCGTCCTGT -TTAACCTGATGCCCTGGCCGCGTGAAGAAGTTATCAACACCACTGTGCGGCTGCGCGCCAGCCAGTTTAA -TTTGCGGGACGATCGCGGTCAGCCTGTACCGTATTTTATTCGCCATGCCCGTGAGATCGATCCAGGCCTA -ATCGATCGGCAAATAGTTCATTACGGTAATTACGATCCCTTTATGGAGTTTGATATACAGATCAACCAGA -TTGTCCCTTCTATGGGCTATCGCACGCTTTATATCGAAGCGAATCAGCCTGGCAACGTAATTGCGGCAAA -AAGTGACGCTGAAGGGATACTGGAAAATGCTTTCTGGCAAATTGCGCTCAATGAGGATGGTTCTCTGCAA -CTGGTAGATAAAGACAGCGGTGTGCGCTATGACCGGGTATTGCAAATTGAAGAAAGCTCTGATGATGGTG -ATGAATATGACTATTCACCCGCAAAAGAAGAGTGGGTAATTACCGCAGCGAACGCGAAACCGCAATGCGA -TATTATTCATGAAGCCTGGCAGAGCAGGGCTGTTATCCGCTATGACATGGCAGTGCCGCTCAATTTGTCA -GAACGCAGCGCCCGGCAATCCACTGGCAGAGTAGGGGTGGTGTTGGTTGTCACTCTTAGTCATAACAGCA -GGCGTATTGATGTGGATATCAATCTTGATAACCAGGCTGACGATCATCGCCTTCGTGTCCTGGTCCCTAC -ACCTTTTAACACCGACAGTGTTCTGGCAGATACGCAGTTTGGTTCGCTAACGCGCCCCGTGAACGACAGT -GCAATGAACAACTGGCAGCAAGAAGGCTGGAAAGAAGCGCCGGTTCCGGTATGGAATATGCTCAACTATG -TTGCCTTACAGGAAGGGCGTAACGGCATGGCTGTCTTTAGCGAAGGGTTACGTGAATTTGAAGTCATCGG -TGAAGAGAAGAAAACCTTTGCCATTACGTTGCTGCGTGGCGTGGGCTTACTGGGCAAAGAAGATCTGCTT -TTAAGGCCTGGGCGGCCTTCGGGAATTAAAATGCCAGTCCCGGACTCACAACTACGTGGTCTGCTTTCTT -GTCGCCTAAGTTTATTGAGTTATACCGGTACGCCAACCGCCGCTGGTGTAGCTCAGCAGGCGCGAGCATG -GCTGACTCCAGTACAGTGTTACAACAAAATCCCATGGGATGTGATGAAGCTCAACAAAGCCGGATTCAAC -GTGCCGGAAAGTTATAGTTTGTTGAAAATGCCCCCAGTGGGATGCCTGATAAGCGCACTTAAGAAAGCTG -AAGACCGACAAGAAGTGATTTTACGGCTGTTTAATCCGGCTGAATCAGCAACCTGTGATGCGACTGTTGC -TTTCAGTCGCGAGGTGATTTCTTGCTCAGAAACGATGATGGATGAACACATTACCACCGAGGAAAATCAA -GGTTCAAATCTATCGGGGCCTTTTTTACCCGGCCAGTCACGGACGTTCAGTTACCGGCTTGCCTGAATAG -CAATCAAACCGAAGCCACATATGCGCGGCCAGATTGTTGACAAAGGGCGCTTTGTTCATGCCGGATACGG -CATGAACGCTTTATTCGGTCTACAAAAGCAGGCAAATTCAATATATTGCAGAGATGATGTAGACACTGGC -AAGCGTAGCGCATCAGGTAATTTTGCGTTTATCTTCACTCTCAAGCCACGTATATGTGGCTTTATTTTTA -ACAAAATAATAACCCTGGGTGAGTTAATTATAATATAATTATAAGTTAACTAAATGTTAATATTGGCGGG -GTGGATTTATGCCTTTATTAGTAATCCTGAAACTCTGCGTCGTATTAGCCAGTGACCAAAAAAAGAATTA -AGGTCAACCGTGCTGTTTTTGCTTCGTCTCTTTTTATCTTTAATTGCCAACCGAAACTAATTTCAGCCTT -ATAACTCACACATTTTAAACATAAATGTCACTAAAGTTACCTTATTGAAACATGATTAACATAATTTGTA -GGAATTGATATTTATCAATGTATAAGTCTTGGAAATGGGCATCAAAAAGAGATAAATTGTTCTCGATCAA -ATTGGCTGAAAGGCGGTAATTTAGCTATAAATTGATCACCGTCGAAAAATGCAAATTTGCTTCAACAAAA -ACCTGTTTATTGTAAGGATTTTGCGGCGTAATATATACGTGGGATCAATTTGAGTTTTTATTAACATGTT -TGCAACCTTTCTTTACGCCGTTTTTGTGTGCATTCACATGGTATGATGAAAGTGTTCAAACAAATTTCTA -TTGGGGCATGCGTGTGACCCTTTCTAACGGGGTTCACTCTCGGAGTCTTCATGCGATGAGCAAGGAGTCA -TGATGTTAGATATAGTCGAACTGTCGCGCTTACAGTTTGCCTTGACCGCGATGTACCACTTCCTTTTTGT -GCCACTGACGCTCGGTATGGCGTTCCTGCTGGCCATTATGGAAACGGTCTACGTCCTCTCCGGCAAACAG -ATTTATAAAGATATGACCAAGTTCTGGGGCAAGTTGTTTGGTATCAACTTCGCTCTGGGTGTGGCTACCG -GTCTGACCATGGAGTTCCAGTTCGGGACTAACTGGTCTTACTATTCCCACTATGTAGGGGATATCTTCGG -TGCGCCGCTGGCAATCGAAGGTCTGATGGCCTTCTTCCTCGAATCCACCTTTGTAGGTCTGTTCTTCTTC -GGTTGGGATCGTCTGGGTAAAGTTCAGCATATGTGTGTCACCTGGCTGGTGGCGCTCGGTTCAAACCTGT -CCGCACTGTGGATTCTGGTTGCGAACGGCTGGATGCAAAACCCAATCGCGTCCGATTTCAACTTTGAAAC -TATGCGTATGGAGATGGTGAGCTTCTCCGAGCTGGTGCTTAACCCGGTTGCTCAGGTGAAATTCGTTCAC -ACTGTAGCGTCTGGTTATGTGACTGGCGCGATGTTCATCCTCGGTATCAGCGCATGGTATATGCTGAAAG -GTCGTGACTTCGCCTTCGCTAAACGCTCCTTTGCTATCGCTGCCAGCTTCGGTATGGCTGCTGTTCTGTC -TGTTATTGTTCTGGGTGATGAATCCGGCTACGAAATGGGCGACGTGCAGAAAACCAAACTGGCTGCTATT -GAAGCCGAGTGGGAAACGCAACCTGCGCCTGCTGCCTTTACTCTGTTCGGCATTCCTGATCAGGAAGAGG -AGACGAACAAATTTGCGATTCAGATCCCTTACGCACTGGGCATCATTGCAACGCGTTCCGTGGATACCCC -GGTTATCGGCCTGAAAGAGCTGATGGTGCAGCATGAAGAACGCATTCGTAACGGGATGAAGGCGTACTCT -CTGCTCGAACAACTGCGTTCTGGTTCTACCGACCAGGCGGTTCGTGACCAGTTCAATAGCATGAAGAAAG -ACCTCGGTTACGGTCTGCTGCTGAAACGCTATACGCCAAACGTGGCTGATGCGACTGAAGCGCAGATTCA -ACAGGCAACCAAAGACTCCATCCCGCGTGTAGCGCCGCTGTACTTTGCGTTCCGTATCATGGTGGCGTGT -GGCTTCCTGCTTCTGGCAATCATCGCGCTCTCTTTCTGGAGTGTCATCCGCAACCGCATTGGCGAGAAAA -AATGGCTTCTGCGCGCCGCGCTGTACGGTATTCCGCTGCCGTGGATTGCTGTAGAAGCGGGCTGGTTCGT -GGCTGAATATGGCCGCCAACCGTGGGCTATCGGTGAAGTGCTGCCGACAGCTGTGGCGAACTCGTCACTG -ACCGCAGGCGATCTCATCTTCTCAATGGTGCTGATTTGCGGCCTGTATACCCTGTTCCTGGTGGCAGAAT -TGTTCTTAATGTTCAAGTTTGCACGCCTCGGCCCAAGCAGCCTGAAAACCGGTCGCTATCACTTTGAGCA -GTCTTCCACGACTACTCAGCCGGCACGCTAAGACAGGAGTCGTCAAATGATCGATTATGAAGTATTGCGT -TTTATCTGGTGGCTGCTGGTTGGCGTTCTGCTGATTGGTTTTGCAGTCACTGACGGTTTCGACATGGGGG -TGGGCATGCTCACCCGTTTCCTCGGTCGTAACGACACCGAGCGTCGAATTATGATTAACTCCATTGCACC -ACACTGGGACGGTAACCAGGTTTGGCTGATCACCGCGGGCGGCGCACTCTTTGCTGCCTGGCCGATGGTC -TATGCCGCTGCGTTCTCCGGCTTCTATGTGGCGATGATCCTCGTGCTGGCGTCTTTGTTCTTCCGTCCGG -TCGGTTTTGACTACCGCTCCAAGATTGAAGAAACCCGCTGGCGTAACATGTGGGACTGGGGCATCTTCAT -TGGTAGCTTCGTTCCGCCGCTGGTAATTGGTGTAGCGTTCGGTAACCTGTTGCAGGGCGTACCGTTCAAC -GTTGATGAATATCTGCGTCTGTACTACACCGGTAACTTCTTCCAGTTGCTTAACCCGTTCGGCCTGCTGG -CAGGCGTGGTGAGCGTAGGGATGATCATTACTCAGGGCGCAACCTATCTGCAAATGCGTACCGTGGGCGA -ACTGCACCTGCGTACCCGTGCAACGGCTCAGGTGGCTGCGCTGGTGACACTGGTCTGTTTCGCACTGGCT -GGCGTATGGGTGATGTACGGTATCGATGGTTATGTCGTGAAATCGACAATGGACCATTACGCAGCCTCTA -ACCCACTGAATAAAGAAGTGGTTCGTGAAGCTGGCGCATGGCTGGTTAACTTCAACAACACGCCAATTCT -GTGGGCTATTCCGGCACTGGGTGTGGTTCTGCCGCTGCTGACCATCCTGACTGCACGTATGGATAAAGCC -GCGTGGGCGTTTGTGTTCTCCTCCCTGACGCTGGCCTGCATCATCCTGACAGCCGGTATCGCAATGTTCC -CGTTTGTGATGCCGTCCAGCACCATGATGAACGCAAGTCTGACAATGTGGGATGCAACTTCCAGCCAGCT -GACGCTTAACGTCATGACCTGGGTTGCGGTGGTTCTGGTACCGATCATTCTGCTCTACACCGCCTGGTGT -TACTGGAAAATGTTCGGTCGTATCACCAAAGAAGATATTGAACGTAACACCCACTCTCTGTACTAAGTAA -GGAGCTAAAAATGTGGTATTTCGCATGGATTCTGGGAACGCTTCTTGCCTGTTCGTTTGGGGTAATCACC -GCGCTGGCGCTTGAACACGTCGAATCAGGCAAAGCCGGTCAAGAAGACATCTGATGAGTAAGATTATCGC -GACTTTGTATGCGGTAATGGACAAGCGCCCCCTGCGGGCGCTTTCCTTCGTGATGGCGCTTCTGTTAGCA -GGATGTATGTTTTGGGACCCATCTCGTTTTGCCGCGAAGACCAGTGAACTGGAAATCTGGCATGGTTTAT -TGCTGATGTGGGCCGTCTGTGCTGGTGTGATTCACGGCGTGGGCTTTCGTCCGCAGAAGGTTCTTTGGCA -AGGGATTTTTTGCCCATTGCTTGCCGATATTGTTCTCATTGTCGGGCTGATTTTCTTCTTCTTTTAAATC -AGAATTCTCTTTAAAAAATTATGGGCCGCTCCAGGCCCATAAATTTTTACGCTCCCTTAACTTGCCCTCA -TTCCCAAACCTCAATCGCGCGCGTATAGTAGCAGCGTTTAAAAGCTCTAACTTTTGTTGCATTACCGGGA -TGTAAAGTGAATACAACGCTGTTTCGATGGCCGGTTCGCGTCTACTATGAAGATACCGATGCCGGTGGTG -TGGTGTACCACGCCAGTTACGTCGCTTTTTATGAAAGAGCACGCACAGAGATGCTGCGTCATCATCACTT -CAGTCAGCAGGCGCTGATGGCTGAACGCGTTGCCTTTGTGGTACGTAAAATGACGGTGGAATATTACGCA -CCTGCGCGGCTCGACGATATGCTCGAAATACAGACTGAAATAACATCAATGCGTGGCACCTCTTTGGTTT -TCACGCAACGTATTGTCAACGCCGAGAATACTTTGCTGAATGAAGCAGAGGTTCTGGTTGTTTGCGTTGA -CCCACTCAAAATGAAGCCTCGTGCGCTTCCCAAGTCTATTGTCGCGGAGTTTAAGCAGTGACTGACATGA -ATATCCTTGATTTGTTCCTGAAGGCTAGCCTTCTGGTTAAACTTATCATGTTGATTTTGATTGGTTTTTC -AATCGCATCTTGGGCCATTATTATCCAGCGGACCCGTATTCTTAACGCAGCGGCGCGCGAAGCCGAAGCG -TTTGAAGATAAATTCTGGTCTGGAATCGAACTCTCTCGCCTCTATCAAGAGAGCCAGGGGAAACGGGATA -ATCTGACTGGTTCGGAACAAATCTTTTACAGCGGGTTCAAAGAGTTTGTGCGCCTGCATCGTGCCAATAG -CCATGCGCCGGAAGCCGTAGTGGAAGGGGCGTCGCGTGCTATGCGTATCTCCATGAACCGTGAACTTGAA -AATCTGGAAACGCACATTCCGTTCCTCGGTACGGTTGGCTCCATCAGCCCGTATATTGGTCTGTTTGGTA -CGGTCTGGGGGATCATGCACGCCTTTATCGCCCTCGGGGCGGTAAAACAAGCAACACTGCAAATGGTTGC -GCCCGGTATCGCAGAAGCGTTGATTGCGACTGCAATTGGTCTGTTTGCCGCTATCCCGGCAGTTATGGCC -TACAACCGCCTCAACCAGCGCGTAAACAAACTGGAACTGAATTACGACAACTTTATGGAAGAGTTTACCG -CGATTCTGCACCGCCAGGCGTTTACCGTTAGCGAGAGCAACAAGGGGTAAGCCATGGCCAGAGCGCGTGG -ACGAGGTCGTCGCGATCTCAAGTCCGAAATCAACATTGTACCGTTGCTGGACGTACTGCTGGTGCTGTTG -CTGATCTTTATGGCGACAGCGCCCATCATCACCCAGAGCGTGGAGGTCGATCTGCCAGACGCTACTGAAT -CACAGGCGGTGAGCAGTAACGATAATCCGCCAGTGATTGTTGAAGTGTCTGGTATTGGTCAGTACACCGT -GGTGGTTGAGAAAGATCGCCTGGAGCGTTTACCACCAGAGCAGGTGGTGGCGGAAGTGTCCAGCCGTTTC -AAGGCCAACCCGAAAACGGTCTTTCTGATCGGTGGCGCAAAAGATGTGCCTTACGATGAAATAATTAAAG -CACTGAACTTGTTACATAGTGCGGGTGTGAAATCGGTTGGTTTAATGACGCAGCCTATCTAAACATCTGC -GTTTCCCTTGCTTGAAAGAGAGCGGGTAACAGGCGAACAGTTTTTGGAAACCGAGAGTGTCAAAGGCAAC -CGAACAAAACGACAAGCTCAAGCGGGCGATAATTATTTCAGCAGTGCTGCATGTCATCTTATTTGCGGCG -CTGATCTGGAGTTCGTTCGATGAGAATATAGAAGCTTCAGCCGGAGGCGGCGGTGGTTCGTCCATCGACG -CTGTCATGGTTGATTCAGGTGCGGTAGTTGAGCAGTACAAACGCATGCAAAGCCAGGAATCAAGCGCGAA -GCGTTCTGATGAACAGCGCAAGATGAAGGAACAGCAGGCTGCTGAAGAACTGCGTGAGAAACAAGCGGCT -GAACAGGAACGCCTGAAGCAACTTGAGAAAGAGCGGTTAGCGGCTCAGGAGCAGAAAAAGCAGGCTGAAG -AAGCCGCAAAACAGGCCGAGTTAAAGCAGAAGCAAGCTGAAGAGGCGGCAGCGAAAGCGGCGGCAGATGC -TAAAGCGAAGGCCGAAGCAGATGCTAAAGCTGCGGAAGAAGCAGCGAAGAAAGCGGCTGCAGACGCAAAG -AAAAAAGCAGAAGCAGAAGCCGCCAAAGCCGCAGCCGAAGCGCAGAAAAAAGCCGAGGCAGCCGCTGCGG -CACTGAAGAAGAAAGCGGAAGCGGCAGAAGCAGCTGCAGCTGAAGCAAGAAAGAAAGCGGCAACTGAAGC -TGCTGAAAAAGCCAAAGCAGAAGCTGAGAAGAAAGCGGCTGCTGAAAAGGCTGCAGCTGATAAGAAAGCG -GCAGCAGAGAAAGCTGCAGCCGACAAAAAAGCAGCAGAAAAAGCGGCTGCTGAAAAGGCAGCAGCTGATA -AGAAAGCAGCGGCAGAAAAAGCCGCCGCAGACAAAAAAGCGGCAGCGGCAAAAGCTGCAGCTGAAAAAGC -CGCTGCAGCAAAAGCGGCCGCAGAGGCAGATGATATTTTCGGTGAGCTAAGCTCTGGTAAGAATGCACCG -AAAACGGGGGGAGGGGCGAAAGGGAACAATGCTTCGCCTGCCGGGAGTGGTAATACTAAAAACAATGGCG -CATCAGGGGCCGATATCAATAACTATGCCGGGCAGATTAAATCTGCTATCGAAAGTAAGTTCTATGACGC -ATCGTCCTATGCAGGCAAAACCTGTACGCTGCGCATAAAACTGGCACCCGATGGTATGTTACTGGATATC -AAACCTGAAGGTGGCGATCCCGCACTTTGTCAGGCTGCGTTGGCAGCAGCTAAACTTGCGAAGATCCCGA -AACCACCAAGCCAGGCAGTATATGAAGTGTTCAAAAACGCGCCATTGGACTTCAAACCGTAATCGCGATG -TTGACTGTTCGGACGGTCAACATCAGGCACCGGTTGCCACGGGGTTCTGGTAGTTTTGTGTATTTTAGTT -TGTTAACATTCTGCTAAATTATCGTGGGCCATCGGTCCAGATAAGGGAGATATGATGAAGCAGGCATTAC -GAGTAGCATTTGGTTTTCTCATACTGTGGGCATCAGTTCTGCATGCTGAAGTCCGCATTGTGATCGACAG -CGGTGTAGATTCCGGTCGTCCTATTGGTGTTGTTCCTTTCCAGTGGGCGGGGCCTGGTGCGGCACCTGAA -GATATTGGCGGCATCGTTGCTGCTGACTTGCGTAACAGCGGTAAATTTAATCCGTTAGATCGCGCTCGTC -TGCCACAGCAGCCGGGTAGTGCGCAGGAAGTACAACCAGCTGCATGGTCCGCACTGGGCATTGACGCTGT -AGTTGTCGGTCAGGTCACTCCGAATCCGGATGGTTCTTACAATGTTGCTTATCAACTTGTTGACACTGGC -GGCGCACCGGGTACTGTACTTGCTCAGAACTCGTACAAAGTGAACAAGCAGTGGCTGCGTTATGCTGGTC -ATACCGCCAGTGATGAAGTGTTTGAAAAACTGACCGGCATTAAAGGTGCGTTCCGTACTCGTATTGCCTA -CGTTGTTCAGACCAACGGCGGTCAGTTCCCGTATGAACTGCGCGTATCTGACTATGACGGTTACAACCAG -TTTGTCGTTCACCGTTCACCGCAGCCGCTGATGTCTCCGGCGTGGTCACCAGACGGTTCTAAACTGGCTT -ATGTGACCTTCGAAAGCGGTCGTTCCGCGCTGGTTATTCAGACGCTGGCAAATGGCGCTGTACGTCAGGT -GGCTTCATTCCCGCGTCACAACGGTGCACCTGCATTCTCGCCAGACGGCAGCAAACTGGCATTCGCCTTG -TCGAAAACCGGTAGTCTGAACCTGTACGTAATGGATTTGGCTTCTGGTCAGATCCGCCAGGTGACTGATG -GTCGCAGTAACAATACCGAACCGACCTGGTTCCCGGATAGCCAGAACCTGGCATTTACTTCTGACCAGGC -CGGTCGTCCGCAGGTTTATAAAGTGAATATCAACGGCGGTGCGCCACAACGTATTACCTGGGAAGGTTCG -CAGAACCAGGATGCGGATGTCAGCAGCGACGGTAAATTTATGGTAATGGTCAGCTCCAATGGTGGGCAGC -AGCACATTGCCAAACAAGATCTGGCAACGGGAGGCGTACAAGTTCTGTCGTCCACGTTCCTGGATGAAAC -GCCAAGTCTGGCACCTAACGGCACTATGGTAATCTACAGCTCTTCTCAGGGGATGGGATCCGTGCTGAAT -TTGGTTTCTACAGATGGGCGTTTCAAAGCGCGTCTTCCGGCAACTGATGGACAGGTCAAATTCCCTGCCT -GGTCGCCGTATCTGTGATAATAATTAATTGAATAGTAAAGGAATCATTGAAATGCAACTGAACAAAGTGC -TGAAAGGGCTGATGATTGCTCTGCCTGTTATGGCAATTGCGGCATGTTCTTCCAACAAGAACGCCAGCAA -TGACGGCAGCGAAGGCATGCTGGGTGCCGGCACTGGTATGGATGCGAACGGCGGCAACGGCAACATGTCT -TCCGAAGAGCAGGCTCGTCTGCAAATGCAACAGCTGCAGCAGAACAACATCGTTTACTTCGATCTGGACA -AGTACGATATCCGTTCTGACTTCGCTCAAATGCTGGATGCACATGCAAACTTCCTGCGTAGCAACCCGTC -TTACAAAGTCACCGTAGAAGGTCACGCGGACGAACGTGGTACTCCGGAATACAACATCTCCCTGGGTGAA -CGTCGTGCGAACGCCGTTAAGATGTACCTGCAGGGTAAAGGCGTTTCTGCAGACCAGATCTCCATCGTTT -CTTACGGTAAAGAAAAACCTGCAGTACTGGGTCATGACGAAGCGGCATACTCCAAAAACCGTCGTGCGGT -ACTGGTTTACTAAGAGAATTGCATGAGCAGTAACTTCAGACATCAACTATTGAGTCTGTCGTTACTGGTT -GGTATAGCGGCCCCCTGGGCCGCTTTTGCTCAGGCACCAATCAGTAGTGTCGGCTCAGGCTCGGTCGAAG -ACCGCGTCACTCAACTTGAGCGTATTTCTAATGCTCACAGCCAGCTTTTAACCCAACTCCAGCAACAACT -TTCTGATAATCAATCCGATATTGATTCCCTGCGTGGTCAGATTCAGGAAAATCAGTATCAACTGAATCAG -GTCGTGGAGCGGCAAAAGCAGATCCTGTTGCAGATCGACAGCCTCAGCAGCGGTGGTGCAGCGGCGCAAT -CAACCAGCGGCGATCAAAGCGGTGCGGCGGCATCAACGACGCCGACAGCTGATGCTGGTACTGCGAATGC -TGGCGCGCCGGTGAAAAGCGGTAATGCAAACACGGATTACAATGCAGCTATTGCGCTGGTGCAGGATAAA -TCCCGCCAGGATGACGCAATGGTGGCATTTCAGAATTTCATCAAAAATTACCCTGATTCAACTTACCTGC -CAAACGCCAATTATTGGCTGGGTCAGTTAAACTACAACAAGGGTAAAAAAGATGATGCGGCGTACTATTT -TGCTTCGGTAGTGAAAAACTATCCGAAGTCACCAAAGGCTGCAGATGCGATGTTTAAAGTCGGCGTCATC -ATGCAGGACAAAGGTGACACCGCAAAAGCGAAAGCCGTATACCAGCAGGTTATCAGTAAATACCCTGGTA -CTGATGGCGCTAAACAGGCACAAAAACGTCTGAACGCGATGTAATGCATAACACACGACCAGAAGTCGCA -TTATTTCTGGTCGTGTCGTGCGAATCATAAGCAGTTGAGTGATCTACATCGAAATTTTTGTTGCGCTCAA -GTCTGAAATCAGTAATATATGCCGCCGTTGCCACGGGATATCAAACAAACCGAAAGCAACGAAAAAGTGG -GTCGTTAGCTCAGTTGGTAGAGCAGTTGACTTTTAATCAATTGGTCGCAGGTTCGAATCCTGCACGACCC -ACCAATCGCTAAGGTGGAAGCGGTAGTAAAACGTGAAGGATAACGTTGCATGAGCAACGGCCCGAAGGGC -GAGACGAAGTCGAGTCATCCTGCACGACCCACCACTAACATAGTTAGTTGTAGTATCCAGCGTAGTATCG -GGTGATTAGCTCAGCTGGGAGAGCACCTCCCTTACAAGGAGGGGGTCGGCGGTTCGATCCCGTCATCACC -CACCACCGGGTCGTTAGCTCAGTTGGTAGAGCAGTTGACTTTTAATCAATTGGTCGCAGGTTCGAATCCT -GCACGACCCACCAGTTTTAACATCGAAGACAGATGTTAAGCGTGTAGGATAACGTTGCGTCAGCAACGGC -CCGTAGGGCGAGCGAAGCGAGTCATCCTGCACGACCCACCACTAATGACGGTGGGTTCGGTGGAAGTAGT -TTGTAGTATCCAGCGCAGTATCGGGTGATTAGCTCAGCTGGGAGAGCACCTCCCTTACAAGGAGGGGGTC -GGCGGTTCGATCCCGTCATCACCCACCACTCGGGTCGTTAGCTCAGTTGGTAGAGCAGTTGACTTTTAAT -CAATTGGTCGCAGGTTCGAATCCTGCACGACCCACCAGTTTTAACATCAAACTCAGATGTTAAGCGTGAA -GGATAACGTTGCGCCAGCAACGGCCCGTAGGGCGAGCGAAGCGAGTCATCCTGCACGACCCACCAATCTT -AAAGATTGGCCCCGAGTAAAAATCTTTCAGGTAACACCCGTATGGGTCGTTAGCTCAGTTGGTAGAGCAG -TTGACTTTTAATCAATTGGTCGCAGGTTCGAATCCTGCACGACCCACCAATTTAAAGGTGGTTACTGGTA -GAGAACGTGAAGGATAACGTTGCGTTAGCAACGGCCCGAAGGGCGAGACGAAGTCGAGTCATCCTGCACG -ACCCACCATCCTGAATGATTAAGGCAGCATAATCCCGCAAGGGGTCGTTAGCTCAGTTGGTAGAGCAGTT -GACTTTTAATCAATTGGTCGCAGGTTCGAATCCTGCACGACCCACCAATGTAAAAAAGCGCCCTAAAGGC -GCTTTTTTGCTATCTGCGATACTCAAAGATTCGAACCTGCAGCAGGTTTGAGTTGAGCGCAGCGAAACAA -CGGAGCCGCTCGCGGCGACGGCCCGAAGGGCGAGCGAAGCGAGTCATCCTGCACGACCCACCAATGTAAA -AAAGCGCCCTAAAGGCGCTTTTTTGCTATTCAGGCATCCTCAATTTCACTTTGTAAACCTGATGACATCG -TCAGAGCTTACTGTGCAAGCAACTCTATGTCGGTGGAATTAGGCGTAAAATGACGCATCCTGCACATTAG -GCGTAATTCGAGTGACTTTTCCCCACCATTCGACTATCTTGTTTAGCATATAAAACAAATTACACCGATA -ACAGCGAATATTACGCTAATGTCGGTTTTAACGTTAAGCCTGTAAAACGAGATGGTAAGATGAGCGTAAT -GTTTGATCCAGACACGGCGATTTATCCTTTCCCCCCGAAGCCGACGCCGTTAAGCATTGATGAAAAAGCG -TATTACCGCGAGAAGATAAAACGTCTGCTAAAAGAACGTAATGCGGTGATGGTTGCCCACTACTATACCG -ATCCCGAAATTCAACAACTGGCAGAAGAAACCGGTGGCTGTATTTCTGATTCTCTGGAAATGGCGCGCTT -CGGTGCAAAGCATCCCGCTTCTACTTTGTTAGTCGCTGGGGTGAGATTTATGGGAGAAACCGCCAAAATT -CTCAGTCCGGAAAAAACAATTCTGATGCCGACACTTCAGGCTGAATGTTCACTGGATCTCGGCTGCCCTG -TTGAAGAATTTAACGCATTTTGCGATGCCCATCCCGATCGTACTGTCGTCGTCTACGCCAACACTTCTGC -TGCGGTAAAAGCGCGCGCAGATTGGGTGGTAACTTCAAGCATTGCCGTCGAACTTATTGATCATCTTGAT -AGTTTGGGTGAAAAAATCATCTGGGCACCCGACAAACATCTGGGGCGTTACGTGCAAAAACAGACGGGTG -GAGACATTCTATGCTGGCAGGGTGCCTGTATTGTGCATGATGAATTTAAGACTCAGGCGTTAACCCGCTT -GCAAGAAGAATACCCGGATGCTGCCATACTGGTGCATCCAGAATCACCACAAGCTATTGTCGATATGGCG -GATGCGGTCGGTTCCACCAGTCAACTGATCGCTGCTGCGAAAACATTGCCACATCAGAGGCTTATTGTGG -CAACCGATCGGGGTATTTTCTACAAAATGCAGCAGGCGGTGCCAGATAAAGAGTTACTGGAAGCACCAAC -CGCAGGTGAGGGTGCAACCTGCCGCAGCTGCGCGCATTGTCCGTGGATGGCCATGAATGGCCTTCAGGCC -ATCGCAGAGGCATTAGAACAGGAAGGAAGCAATCACGAGGTTCATGTTGATGAAAGGCTGCGAGAGAGGG -CGCTGGTGCCGCTCAATCGTATGCTGGATTTTGCGGCTACACTACGTGGATAACGAATAATAAGGCGTAA -CGTTACGCTTTGGGGGAAAGATGGATTTTTTTAGTGTGCAGAATATCCTGGTACATATACCAATAGGGGC -AGGCGGTTATGATCTCTCATGGATCGAAGCGGTAGGCACGATCGCCGGGTTGCTGTGTATTGGCCTTGCC -AGTCTGGAGAAGATCAGCAACTACTTCTTTGGCCTGATCAACGTCACCTTGTTTGGCATTATTTTCTTTC -AGATTCAGCTGTATGCCAGCCTGCTATTACAGGTGTTTTTCTTTGCCGCGAATATTTACGGTTGGTATGC -GTGGTCGCGACAAACCAGTCAGAACGAGGCGGAGTTGAAAATTCGCTGGTTGCCATTGCCGAAGGCACTC -AGCTGGTTGGCGGTTTGCGTTGTTTCGATTGGTCTGATGACGGTATTTATCAATCCGGTGTTTGCATTTT -TGACCCGCGTGGCAGTCATGATCATGCAAGCATTAGGATTACAGGTTGTGATGCCTGAACTGCAACCGGA -CGCTTTCCCGTTCTGGGATTCATGCATGATGGTGTTATCTATCGTGGCAATGATTCTGATGACGCGTAAG -TATGTGGAAAACTGGCTGTTGTGGGTGATTATTAACGTGATTAGCGTCGTTATTTTTGCACTTCAGGGCG -TTTACGCCATGTCTCTGGAGTACATCATCCTGACCTTTATTGCGCTCAACGGCAGCCGGATGTGGATCAA -CAGCGCACGTGAAAGAGGCTCACGCGCGCTGTCCCATTAATGGTGATGATGTGAATGGCCAGACACCCCT -TCATTCAGGTGGCAGTCTGGCCCATGACAAGGTTGATATTCCATCTGAATGGTGGCGTGCTCAATCTGAT -AGTGATCCATCAGGTAGTGTTGGATCTGATCCAACAAGGCATCGTGATCGTGTGGCGGGATCACCTGCAC -ATGCAACGTCATCACCGGCTTCTCGCCTACCATCCATACATGTACATGGTGCACATTGCGGACTTCCGGG -ATTTCCCGGCACATACGACGCTTCAGTTCAGCGATATCCAGCGATACCGGTGCACCTTCAAGTAATTCAT -TCACGCTATCTTTCAACAGTCGCCACGCGCTACGCAGAACCAGAAGCGACACCAGTATCGAGAGAATGGG -GTCAGCAGGTGTCCAGCCAGTCCAGATAATAATCAACGCGGCAATAATAGCCCCAACCGAACCCAGCAGG -TCCCCGAGCACATGCAGTGCCGCTGCTCGTACGTTGAGGTTTTTCTCTTCGCTGCCGTGATGAAGTAACC -AGAAAGAAAGTATATTTGCCAGCAACCCAGCCACGGCAATTGCCATCATCATGCCGCCCTCGACCGGACG -CGGCGTGCGGAAGCGTTCTATCGCCTCCCAGACAATCAAAATGGTAATTACCACGAGGGCTATGGCATTC -ACAAACGCCGCGAGCGTGGTCAGTCTTAGCCAACCGAAAGTGTGGCGAATGGTGGGAGGACGACGTGAAA -ATTGCACGGCGAGTAGGGCGAAAAGCAGGGCGGCAGTATCGGTCAACATATGACCCGCATCGGCCAGCAA -TGCCAGAGAACCAGAAAGAAAACCACCAACGACTTCTACCAGCATAAACCCGGCAGTCACGCCGAAAGCA -TACAACAAGCGACGAGCATTATTATCTTCTGGCAGGTGTGAGGACGTGTGTGAGTGTGAGTGCGCCATGA -CGAGTCATCCCTTAATTATTCTCACTTAACTTTATGACATCATACTGCTTTTAGAAGTGAAAAATTAAAA -GGGAGAGACTCCGCTCTCCCATTATTGGCTATTTTGCAGGGTTACTGCGTGGTACCGTCGGTTTTGGTAT -CGACATCATTATTGATGCCATCACCGGTTTGTACCTTTTTATTGATATCCGGACAGCGACCATCTTTGCA -CATGGTGTTCTTGTGCTCTTCATCTTTGGTCATTCCGTCATTGTTCATTGAAGAACCATCCGAATGCAGC -ATTGTGCCGCCAGAACCGGTATTTACCCCGTTATTGTCGACGTTATTTGGCGCGACATTTTCACGGGCGT -CAGGGGCTACCTGGCCCGCATCAGCTGCGGCGTTTGCCTGGCCGTTATTAGTTTGCGCTCCGCTATCGGC -AGCCAGTGCGGCACCGCTGGCAAGGCTTAGAGTGGCAGTCAGAAATAATGTGGCCAGTTTTGTCATTTTC -ATAGGATGCTCCTGTTATGGTCGTTATGTCGGATAACCTCTTCCAACAGTGCATTTGCAGGTGAATATAA -GGCATTGGTTTAAGATTTCAGCCAGGTTATGAAACGCAGCAGAGAATCTTGAAATAATTAACAAACAAAG -GAGTTACAGTTAGAAATTGTAGGAGAGATCTCGTTTTTCGCGACAATCTGGCGTTTTTCTTGCTAATTCC -AGGATTAATCCGTTCATAGTGTAAAACCCCGTTTACACATTCTGACGGAAGATATAGATTGGAAGTATTG -CATTCACTAAGATAAGTATGGCAACACTGGAACAGACATGAATTATCAGAACGACGATTTACGCATCAAA -GAAATCAAAGAGTTACTTCCTCCTGTCGCATTGCTGGAAAAATTCCCCGCTACTGAAAATGCCGCGAATA -CGGTTGCCCATGCCCGAAAAGCGATCCATAAGATCCTGAAAGGTAATGATGATCGCCTGTTGGTTGTGAT -TGGCCCATGCTCAATTCATGATCCTGTCGCGGCAAAAGAGTATGCCACTCGCTTGCTGGCGCTGCGTGAA -GAGCTGAAAGATGAGCTGGAAATCGTAATGCGCGTCTATTTTGAAAAGCCGCGTACCACGGTGGGCTGGA -AAGGGCTGATTAACGATCCGCATATGGATAATAGCTTCCAGATCAACGACGGTCTGCGTATAGCCCGTAA -ATTGCTGCTTGATATTAACGACAGCGGTCTGCCAGCGGCAGGTGAGTTTCTCGATATGATCACCCCACAA -TATCTCGCTGACCTGATGAGCTGGGGCGCAATTGGCGCACGTACCACCGAATCGCAGGTGCACCGCGAAC -TGGCATCAGGGCTTTCTTGTCCGGTCGGCTTCAAAAATGGCACCGACGGTACGATTAAAGTGGCTATCGA -TGCCATTAATGCCGCCGGTGCGCCGCACTGCTTCCTGTCCGTAACGAAATGGGGGCATTCGGCGATTGTG -AATACCAGCGGTAACGGCGATTGCCATATCATTCTGCGCGGCGGTAAAGAGCCTAACTACAGCGCGAAGC -ACGTTGCTGAAGTGAAAGAAGGGCTGAACAAAGCAGGCCTGCCAGCACAGGTGATGATCGATTTCAGCCA -TGCTAACTCGTCCAAACAATTCAAAAAGCAGATGGATGTTTGTGCTGACGTTTGCCAGCAGATTGCCGGT -GGCGAAAAGGCCATTATTGGCGTGATGGTGGAAAGCCATCTGGTGGAAGGCAATCAGAGCCTCGAGAGCG -GGGAGCCGCTGGCCTACGGTAAGAGCATCACCGATGCCTGCATCGGCTGGGAAGATACCGATGCTCTGTT -ACGTCAACTGGCGAATGCAGTAAAAGCGCGTCGCGGGTAAGGTTTAATTGTCGGATGCGCCGTCAGAGTG -GCGTATCCGATGAATCACCACAGGCCTGATAAGTCGCGCAGCGTCGCATCAGGCAATGTGCTCCATTGTT -AGCAACAAAAAAGCCGACTCACTTGCAGTCGGCTTTCTCATTTTAAACGAATGACGTTTACTTCGCTTTA -CCCTGGTTTGCAACCGCCGCTGCTTTCGCTGCGATCTCGTCAGCATTACCCAGATAATAGCGTTTCAGCG -GTTTGAAATTCTCGTCGAACTCATACACCAGCGGCACGCCAGTCGGGATATTAAGCTCAAGAATCTCTTC -TTCGCTCATGTTATCAAGATATTTCACCAGCGCACGTAAAGAGTTACCGTGTGCAGCGATGATCACGCGC -TCACCGCTCTTCATACGCGGCAGAATAGTTTCATTCCAGTAAGGGATCACGCGGTCAATGGTCAGCGCCA -GGCTTTCCGTCAGCGGCAGTTCTTTCTCGCTCAGTTTCGCGTAACGCGGATCGTGACCCGGATAACGCTC -ATCATCTTTAGTCAGTTCCGGCGGAGTCACTGCAAAACCACGACGCCACTGTTTCACCTGCTCGTCGCCA -TACTTTTCAGCAGTTTCCGCTTTGTTCAGACCCTGCAACGCACCGTAGTGACGTTCGTTCAGTTTCCAGG -ATTTCTCAACGGGCAGCCATGCCTGATCCAGTTCGTCCAGCACATTCCACAGGGTATGGATAGCGCGTTT -CAGCACAGAAGTGTAAGCAAAGTCAAAGCTGTAACCTTCCTCTTTCAGCAGCTTACCTGCTGCTTTTGCT -TCGCTTACGCCTTTCTCAGACAGATCCACGTCGTACCAACCGGTGAAACGGTTTTCTTTGTTCCACTGAC -TTTCGCCATGACGAACCAGAACCAGCTTAGTTACAGCCATATACTTACTCCTCAAATCATCTTTTAATGA -TAATAATTCTCATTATATTGCCGCGACGAAGCAACAGCAATGCTTACGCATAACCATAGCGAAAATAGTG -GCGCAGTGTAAGGTTGTTGTGAATATTGAGTTGCAAATATGTCGGTGTTTGCTGGTGATTTGAACAATAT -GAGATAAAGCCCTCATGACGAGGGCGTAACATTACTCAGCAATAAACTGATATTCCGTCAGGCTGGAATA -CTCTTCGCCAGGACGCAGGAAGCAGTCCGGTTGCGGCCATTCAGGGTGGTTCGGGCTGTCCGGTAGAAAC -TCGCTTTCCAGAGCCAGCCCTTGCCAGTCGGCGTAAGGTTCGGTTCCCCGCGACGGTGTGCCGCCGAGGA -AGTTGCCGGAGTAGAATTGCAGAGCCGGAGCGGTGGTGTAGACCTTCAGCTGCAATTTTTCATCTGCTGA -CCAGACATGCGCCGCCACTTTCTTGCCATCGCCTTTGGCCTGTAACAAGAATGCGTGATCGTAACCTTTC -ACTTTGCGCTGATCGTCGTCGGCAAGAAACTCACTGGCGATGATTTTGGCGCTGCGGAAATCAAAAGACG -TTCCGGCGACAGATTTCAGGCCGTCGTGCGGAATGCCGCCTTCATCAACCGGCAGATATTCGTCCGCCAG -AATCTGCAACTTGTGATTGCGCACGTCAGACTGCTCGCCGTCAAGATTGAAATAGACGTGATTAGTCATA -TTCACCGGGCAAGGTTTATCAACTGTGGCGCGATAAGTAATGGAGATACGGTTATCGTCGGTCAGACGAT -ATTGCACCGTCGCGCCGAGATTACCCGGGAAGCCCTGATCACCATCATCTGAACTCAGGGCAAACAGCAC -CTGACGATCGTTCTGGTTCACAATCTGCCAGCGACGTTTGTCGAACCCTTCCGGCCCGCCGTGCAGCTGG -TTAACGCCCTGACTTGGCGAAAGCGTCACGGTTTCACCGTCAAAGGTATAACGGCTATTGGCGATACGGT -TGGCATAACGACCAATAGAGGCCCCCAGAAACGCGGCCTGATCCTGATAGCATTCCGGGCTGGCACAGCC -GAGCAGCGCCTCGCGGACGCTGCCATCGGAAAGCGGAATACGGGCGGAAAGTAAAGTCGCACCCCAGTCC -ATCAGCGTGACTACCATCCCTGCGTTGTTACGCAAAGTTAACAGTCGGTACGGCTGACCATCGGGTGCCA -GTGCGGGAGTTTCGTTCAGCACTGTCCTGCTCCTTGTGATGGTTTACAAACGTAAAAAGTCTCTTTAATA -CCTGTTTTTGCTTCATATTGTTCAGCGACAGCTTGCTGTACGGCAGGCACCAGCTCTTCCGGGATCAGCG -CGACGATACAGCCGCCAAATCCGCCGCCGGTCATGCGTACGCCACCTTTGTCGCCAATCACAGCTTTGAC -GATTTCTACCAGAGTGTCAATTTGCGGCACGGTGATTTCGAAATCATCGCGCATAGAGGCATGAGACTCC -GCCATCAACTCGCCCATACGTTTCAGGTCGCCTTGCTCCAGCGCGCTGGCAGCTTCAACGGTGCGGGCGT -TTTCAGTCAGTATATGACGCACGCGTTTTGCCACGATCGGGTCCAGTTCATGCGCAACAGCGTTGAACTC -TTCAATGGTGACATCACGCAGGGCTGGCTGCTGGAAGAAACGCGCACCGGTTTCGCACTGTTCACGACGG -GTGTTGTATTCGCTGCCAACCAGGGTACGTTTGAAGTTACTGTTGATGATGACGACAGCCACACCTTTGG -GCATGGAAACTGCTTTGGTCCCCAGTGAGCGGCAATCGATCAGCAAGGCATGATCTTTCTTGCCGAGCGC -GGAAATTAGCTGATCCATGATCCCGCAGTTACAGCCTACAAACTGGTTTTCTGCTTCCTGACCGTTAAGC -GCGATTTGTGCGCCGTCCAGCGGCAGATGATAAAGCTGCTGCAATACGGTTCCGACCGCGACTTCCAGTG -AAGCGGAAGAACTTAACCCGGCACCCTGCGGCACATTGCCGCTGATCACCATGTCCACGCCGCCGAAGCT -GTTGTTACGCAGTTGCAGATGTTTCACCACGCCACGAACGTAGTTAGCCCATTGATAGTTTTCATGTGCG -ACAATGGGCGCATCGAGGGAAAACTCGTCGAGCTGATTTTCATAATCGGCTGCCATCACGCGAACTTTAC -GGTCATCGCGTGGTGCACAACTGGATTTGCCCCTATATTTCCAGACATCTGTTATCACTTAACCCATTAC -AAGCCCGCTGCCGCAGATATTCCCGTGGCGAGCGATAACCCAGCGCACTATGCGGATGCCATTCGTTATA -ATGCTCGAACGCCTCTGCAAGGTTCTTTGCTGCCGTTAACCCGTCTGGTTTGGGCATGATACTGATGTAG -TCACGCTTTATCGTTTTCACGAAGCTCTCTGCTATTCCGTTACTCTCCGGACTCCGCACCGCCGTGTTCT -TCGGTTCAAGTCCCAACATCCGGGCGAACTGGCGTGTTTCATTAGCCCGGTAGCATGAACCATTATCCGT -CAGCCACTCCACTGGAGACGACGGAAGATCGTTGCCGAAGCGGCGTTCCACCGCTCCCAGCATGACGTCC -TGTACTGTTTCACTGTTGAAGCCGCCGGTAGTGACCGCCCAGTGCAGTGCCTCACGATCACAGCAGTCCA -GCGCGAACGTGACACGCAGTCTCTCTCCGTTATCACAGCAGAACTCGAACCCGTCAGAGCACCATCGCTG -ATTGCTTTCTTTCACGGCCACTCTGCCTGTATGTGCCCGTTTCGATGGCGGTACAGCAGGTTTTCGCTCA -AGCAACAGCGCATTCTGGCGCATGATCCGGTAAACACGTTTGGCATTGATCGCAGGCATACCATCAAGTT -CTGCCTGTCTGCGAAGCAGCGCCCATACCCGACGATAACCATACGTTGGCAGCTCTCCGATAACATGGTG -TATACGGAGAAGCACATCCGTATCATCAGTGTGACGACTGCGGCGGCCATCCATCCAGTCATCGGTTCGT -CTGAGAATGACGTGCAACTGCGCACGCGACACCCGGAGACAACGGCTGACTAAGCTTACTCCCCATCCCC -GGGCAATAAGGGCGCGTGCGCTATCCACTTTTTTGCCCGTCCATATTCAACGGCTTCTTTGAGGAGTTCA -TTTTCCATCGTTTTCTTGCCGAGCAGGCGCTGGAGTTCTTTAATCTGCTTCATGGCGGCAGCAAGTTCAG -AGGCAGGAACAACCTGTTCTCCGGCGGCGACAGCAGTAAGACTTCCTTCCTGGTATTGCTTACGCCAGAG -AAATAACTGGCTGGCTGCTACACCATGTTGCCGGGCAACGAGGGAGACCGTCATCCCCGGTTCAAAGCTC -TGCTGAACAATTGCGATCTTTTCCTGTGTGGTACGCCGTCTGCGTTTCTCCGGCCCTAAGACATCAATCA -TCTGTTCTCCAATGACTAGTCTAAAAACTAGTATTAAGACTATCACTTATTTAAGTGATATTGGTTGTCT -GGAGATTCAGGGGGCCAGTCTAACAACTGATCACGGTTTGATAATCAATCGCGCAGGGCAGAACGAAACC -GTCGTTGTAGTCGGTGTGTTCACCAATCAAATTCACGCGGCCAGGCGCCTGAATGGTGTGAGTGGCAGGG -TAGCCAAATGCGTTGGCAAACAGAGATTGTGTTTTTTCTTTCAGACTCATTTCTTACACTCCGGATTCGC -GAAAATGGATATCGCTGACTGCGCGCAAACGCTCTGCTGCCTGTTCTGCGGTCAGGTCTCGCTGGGTCTC -TGCCAGCATTTCATAACCAACCATAAATTTACGTACGGTGGCGGAGCGCAGCAGAGGCGGATAAAAGTGC -GCGTGCAGCTGCCAGTGTTGATTCTCTTCGCCATTAAATGGCGCGCCGTGCCAGCCCATAGAGTAGGGGA -AGGAGCACTGGAAGAGGTTGTCATAACGACTGGTCAGCTTTTTCAACGCCAGCGCCAGATCGCTGCGCTG -GGCGTCGGTCAAATCGGTGATCCGTAAAACGTGGGCTTTGGGCAGCAGTAGCGTTTCGAACGGCCAGGCA -GCCCAGTAAGGCACGACGGCTAACCAGTGTTCGGTTTCGACAACGGTACGGCTACCGTCTGCCAGCTCGC -GCTGAACATAATCCACCAGCATTGGTGATTTCTGTTCGGCAAAATATTCTTTTTGCAGGCGGTCTTCGCG -CTCAGCTTCGTTAGGCAGGAAGCTATTTGCCCAAATCTGACCGTGCGGATGCGGGTTAGAGCAGCCCATC -GCCGCGCCTTTGTTTTCAAAAACCTGCACCCATGGGTACGTTTTCCCCAGTTCTGCGGTTTGCTCCTGCC -AGGTTTTGACGATTTCCGTCAATGCTGCAACGCTGAGCTCTGGCAGCGTTTTACTGTGATCCGGTGAAAA -GCAGATCACCCGGCTGGTGCCGCGCGCGCTCTGGCAACGCATCAGCGGATCGTGACTTTCTGGCGCATCT -GGCGTGTCAGACATCAAAGCCGCAAAGTCATTAGTGAAAACGTAAGTCCCGGTGTAATCGGGGTTTTTAT -CGCCTGTCACCCGCACATTACCTGCGCAGAGGAAGCAATCTGGATCGTGCGCAGGTAACACCTGTTTGGC -TGGCGTTTCCTGCGCCCCCTGCCAGGGGCGCTTAGCGCGGTGCGGTGAAACCAGAATCCATTGCCCGGTG -AGCGGGTTGTAGCGGCGATGTGGATGATCAACGGGATTAAATTGCGTCATGGTCGTTCCTTAATCGGGAT -ATCCCTGTGGATGGCGTGACTGCCAGTGCCAGGTGTCCTGCGCCATTTCATCGAGTGTGCGCGTTACGCG -CCAGTTCAGTTCACGGTCGGCTTTGCTGGCGTCCGCCCAGTAGGCCGGAAGGTCGCCCTCGCGACGCGGT -GCAAAATGATAATTAACCGGTTTGCCGCAGGCTTTGCTGAAGGCATTAACCACGTCCAGCACGCTGTTGC -CTACGCCAGCGCCGAGGTTGTAGATGTGTACGCCTGGCTTGTTCGCCAGTTTTTCCATCGCCACGACGTG -ACCGTCCGCCAGATCCATTACGTGGATGTAATCGCGTACGCCAGTACCATCTTCGGTCGGATAATCGTTA -CCAAAAATCGCCAGCGAGTCGCGACGGCCTACAGCAACCTGGGCGATGTATGGCATCAGGTTATTCGGAA -TGCCTTGCGGATCTTCGCCCATATCGCCCGACGGATGCGCGCCAACCGGGTTGAAGTAGCGCAGCAGGGC -AATGCTCCAGTCCGGCTGGGCTTTTTGCAGATCGGTGAGGATCTGTTCCACCATCAGCTTGCTTTTGCCG -TAAGGGCTTTGCGGTGTGCCGGTCGGGAAGCTTTCAACGTATGGAATTTTGGGCTGATCGCCATAAACGG -TGGCGGAGAAGCTAAAAATAAAGTTTTTGACGTTAGCGGCGCGCATGGCGCTAATCAGGCGCAGAGTGCC -GTTGACATTGTTGTCGTAATATTCCAGCGGTTTTTGTACCGATTCGCCCACGGCTTTCAGCCCGGCGAAG -TGGATCACGGTGTCGATAGCGTGATCGTGCAGGATCTCGGTCATCAACGCTTCGTTACGAATATCGCCTT -CAACAAACGTTGGATGTTTGCCGCCTAAACGCTCGATAACAGGCAGTACGCTGCGCTTACTGTTACAGAG -GTTATCAAGAATGATGACATCATGACCGTTTTGCAGTAATTGCACACAGGTATGACTTCCAATGTAACCG -CTACCACCGGTAACCAGAACTCTCATAATTCGCTCCATTAGGCTTATGGTATGAAATAACCATAGCATAA -CAAAGATGCGAAAAGTGTGACATGGAATAAATTAGTGGAATCGTTTACACAAGAATTTAGCCGTTTTTTA -TGCGCGATTAAGTGATTATAAAACAGAGGGTTTATGAATGATTGCGCTTTTTATCTGAAAAAAGACGCGG -TTTCATGCCTGCATGCGTCGAACCGTTGGCCGGAGAGGGTGCTAAGGCCGCCTCCGGCAAGGTCAGCACT -ACCGACTCAATATATTTTTGTCAGCACATAGCGATAGAGTCCACCGTCCGGCACGAACTCAAGACGATGG -GTAATACAGGCAGGCGCATCTTCAGCGTGGTGCGAAACAAACAACAATTGCGTTTCACCTTCGCTAATCA -GCACATCAACAAAACGGCGGATAAGCTGGCGATTCAGCGGATCAAGCCCCTGTAGTGGTTCATCGAGAAT -AAGCAACGTCGGATGTTTCACCAGTGCGCGGACAATCAGCGCCAGACGCTGCTGTCCCCAGGAAAGACTA -TGGAACGGAGCGTCAGCCGTGCGTTTATCAATGCCGAGAATATCCAGCCACTGCTGCACCAGTTTTTGCT -GGCGATCCGAAACGGCCTGATAAATGCCAATCGAATCAAAATAGCCAGAAAGAATCACATTACGCACGGT -AGTGCTGACCCGGTAATCCAGATGCAAACTACTGCTGACGTAACCGATATGCTTTTTGATATCCCAGATG -GTTTCGCCGCTGCCGCGACGTCGTCCGAAAAGCGTCAAATCGTTGCTGTAACCTTGCGGATGATCGCCAG -TAACCAGGCTTAATAACGTCGATTTTCCTGCACCATTTGGCCCGACAATTTGCCAGTGTTCGCCTGGATT -CACCTGCCAGCTAAGGTTATTAAGAATGGGGCGATCGTTATAAGAAACCACGCCATTGTTCAGCACAATG -CGCGGTTCGTTGGCGGGTAAGGCGTGACGTGCTGAAGGTTCATCCGGCTCCGGCAGTTGCACACCTTCAA -GCTGTTCACTATGCGCCAGTTGCGCGACGAGTGCTTGTTGGAGCAGTTCCTCTTTAGCGCCAGTTTCCGC -TAACGTGCAATCCGCCAGCACGCCAGCAAACTGGACAAACTCCGGGATCTCATCGAAGCGATTGAGCACC -AGTACCAGAGTAATACCGGACTGATGTAACGAGGCGAGTCGCTCAGCCAGCTGCTGACGTGAGGCAACAT -CCAGGCCATCGAACGGCTCATCAAGAATCAACAAGTCAGGCTCCGACATCAGCGCCTGACACAGCAGGGT -TTTTCGCGTCTCGCCAGTGGAAAGGTATTTAAAGCGTCGGTCGAGGAGGGCGGTAATACCGAACTGCTGC -GCCAGTTGCATGCAACGCGGTGCATCCTTTACTTCATCCTGAATGATCTCAGCCGTAGTGCGTCCGGTGT -CATCTTCGCCAGGGCCGAGCATATCGGTGTTATTCCGCTGCCATTCGTCGCTGACGAGTTTTTGCAATTG -CTCGAAGGAGAGACGAGTGATGTGGGAAAACTGGCTTTGCCGTTCACCTTTCAAAAGCGGAAGTTCCCCC -GCCAGCGCGCGGGCCAGGGCCGATTTCCCGCTTCCATTCGAACCGACAAACGCCCAACTATCACCCGCGT -TTAACGTTAGCTGAGGCAATTGCAGCGTTTTTGTGTCGCTAAGACGAAACGTGCCTTGCAAAATTTGCAA -CGATGACATTTTATATCCCACTTTGTGCAGCGATTACTGACAGGGATACGTGTTTCATAACAAATTGTCA -ACACGCTTAGCACAGCGTGGCGATAATCACGCTGTCGGCATTAAAGTAGGCCGTGACATTCTGTCCTTGC -TGAAGAGAAGTCGCTTCATTTACCGGCACTGTGGCGCACAGTGTTTGCCCGTCGGGTAGCGCCATTAATA -CTTCGCACTGCTCTGCGCCGCGCTCAATATGACTAATAATACCCGGTAATTGGTTGTCAGCGTTTTGCGC -GACCGCCTCGTCCTGAGTAATACCTACCCACGGCGCTTTTAGCAATATCAACACTTCTTTGCCTTCATCC -AGCCCCAGACGCGCGCCGCTTTGTGCGGTAATTGCGACTTTCAGGCGTGTTTTTCCGTCAGCCAGTAAGA -CATCAACATGCTGTTGAACGTCATCATGATCGCGGGCGGTGATGGTACCGAACCACTGGTTACGGGCGCT -GGTTTGCAGTGAAAAACGTGAGATCGCGGCCAGCAGGCTGTTCAGCGGCAGGGCGTCATCGTCACTTAAC -ACATCAAAGGCTTTTTGCTGGATTTGCGCCAGTAAGTCATAGAGCTGAATCAGTCGCTGACCATAGCGGG -TCAGTACTGCGCCGCCGCCACCTTTACCGCCTGTTGCGCGCTCGACCAGAATATGCTCACTTAACTGATT -CATCTCGTTAATGGCATCCCAGGCGCTTTTATAGCTAATACCGGCATCTTTCGCTCCCTGGCTAATGGAA -CCGGAAAGCGCAATGTGTTTTAGTAGCGAAATGCGGCGCGGGTCGGCGAATAATTTTTGTTGGAGCTTAA -GGGTGAGAAGGATTTCGGCCTGCATAACAATGTCCTGGCAAAAGTCTTATTGTGACGGAAAACGAACGCC -ACGCAAAGCTGACCGCACAAAAGGGGAGTGCTTTTCTGTGCTTAGCGGTTAGAATAGTCTCATGACTATA -TCTGGAGTTGACCATGTTAGAGTTATTAAAAAGTCTGGTATTCGCCGTAATCATGGTACCTGTCGTGATG -GCCATCATCCTGGGTCTGATTTACGGTCTTGGTGAAGTATTCAACATCTTTTCTGGTGTTGGTAAAAAAG -ACCAGCCCGGACAAAATCATTGATTCCCTGAATGCCCGCTTAGTCGGGCATTTTCTTTTTCTCAACTTCC -TGCTTTTCCTGCCGATATTTTTTCTTATCTACCTCACAAAGGTTAGCAATAACTGCTGGGAAAATTCCGA -GTTAGTCGTTATATTGTCGCCTACATAACGTTACATTAAGGGGTTACCAATGGCTCGTAAATGGTTGAAC -TTGTTTGCCGGGGCGGCACTCTCTTTCGCTGTTGCTGGCAATGCACTGGCAGATGAAGGGAAAATCACGG -TGTTCGCCGCCGCATCACTGACTAACGCAATGCAGGACATTGCTACGCAGTTTAAAAAAGAGAAAGGCGT -GGATGTGGTTTCTTCTTTCGCTTCGTCATCTACTCTCGCCCGTCAGATTGAAGCGGGTGCGCCTGCGGAT -CTGTTTATTTCTGCCGATCAGAAATGGATGGATTATGCGGTTGATAAAAAAGCGATCGATACAGCTACGC -GTCAGACACTGCTCGGCAATAGCCTGGTCGTTGTAGCACCGAAAGCCAGCGTGCAGAAAGATTTCACCAT -CGACAGCAAAACCAACTGGACTTCACTGCTGAATGGCGGTCGCCTGGCGGTTGGCGATCCGGAACATGTT -CCCGCTGGCATTTATGCAAAAGAAGCACTGCAAAAACTGGGCGCATGGGATACGCTCTCTCCGAAACTGG -CCCCAGCGGAAGATGTTCGTGGGGCGCTGGCGCTGGTCGAACGTAACGAAGCGCCTCTGGGCATTGTCTA -CGGTTCTGACGCAGTTGCCAGCAAAGGGGTAAAAGTGGTTGCCACCTTCCCGGAAGATTCACATAAAAAA -GTGGAATATCCGGTTGCTGTTGTGGAAGGGCATAACAATGCGACAGTGAAAGCATTTTATGATTATCTGA -AGGGACCGCAGGCAGCGGAAATCTTTAAACGTTACGGATTTACAATCAAGTAATGATACTGACCGATCCA -GAATGGCAGGCAGTTTTATTAAGCCTGAAAGTTTCTTCCCTGGCTGTGCTGTTTAGCCTGCCGTTTGGGA -TCTTTTTTGCCTGGTTACTGGTGCGTTGCACGTTTCCGGGCAAAGCTCTGCTCGACAGCGTACTGCATCT -ACCGCTGGTGTTACCGCCCGTGGTCGTCGGTTACTTATTATTAGTTTCGATGGGACGGCGCGGATTTATC -GGTGAACGTCTGTATGACTGGTTTGGTATTACCTTCGCCTTTAGCTGGCGCGGCGCGGTTCTCGCTGCCG -CCGTCATGTCGTTTCCGCTGATGGTGCGGGCAATTCGTCTGGCGCTGGAAGGGGTTGATGTCAAACTGGA -ACAGGCCGCAAGAACACTGGGGGCCGGGCGCTGGCGCGTTTTCTTTACTATCACGTTACCGCTGACCTTA -CCGGGAATTATTGTTGGTACGGTACTGGCTTTTGCTCGTTCTCTCGGTGAGTTTGGTGCAACCATCACCT -TTGTGTCGAACATTCCTGGTGAAACGCGAACCATTCCTTCTGCCATGTATACCCTGATCCAGACCCCCGG -CGGGGAAAGTGGAGCGGCGAGACTGTGCATTATTTCTATTGCGCTGGCGATGATCTCCCTGTTGATTTCA -GAATGGCTGGCCAGAATCAGCCGTGAACGGGCGGGGCGCTAATCATGCTGGAACTGAATTTTTCCCAGAC -GTTGGGCAACCATTGCCTGACTATTAATGAAACGCTGCCCGCCAATGGCATCACTGCTATCTTTGGCGTC -TCCGGTGCCGGAAAAACTTCGCTGATTAACGCCATCAGTGGACTGACGCGCCCGCAAAAAGGGCGGATTG -TCCTCAATGGGCGGGTACTAAATGATGCCGAAAAAGGTATCTGCCTGACGCCGGAAAAGCGTCGCGTTGG -CTATGTTTTTCAGGATGCGCGGCTGTTCCCGCATTACAAAGTGCGTGGCAATCTGCGCTACGGCATGTCG -AAAAGTATGGTCGATCAGTTCGATAAGCTGGTGGCGCTTTTAGGCATTGAACCGTTGCTTGACCGTTTAC -CAGGCAGCCTGTCCGGAGGCGAAAAACAGCGCGTGGCGATTGGTCGGGCTTTGCTGACAGCACCGGAATT -GCTGTTGCTGGATGAACCGCTGGCGTCACTGGATATTCCGCGTAAACGCGAACTGTTGCCTTATCTGCAA -CGGCTGACACGGGAAATCAACATTCCGATGTTGTATGTCAGCCATTCGCTGGATGAGATCCTCCATCTGG -CAGACAGAGTGATGGTACTGGAAAACGGTCAGGTGAAAGCCTTTGGCGCGCTGGAGGAAGTGTGGGGCAG -TAGCGTGATGAATCCGTGGCTGCCGAAAGAGCAACAAAGTAGCATTCTGAAAGTGACGGTGCTTGAGCAT -CATCCGCATTACGCGATGACCGCGCTGGCGCTGGGCGATCAGCATTTGTGGGTCAATAAGCTGGACGAAC -CGCTGCAAGCTGCGCTACGTATCCGCATTCAGGCTTCCGATGTTTCTCTGGTTTTACAACCGCCGCAGCA -AACCAGCATTCGTAACGTATTGCGGGCAAAAGTTGTTAATAGTTATGACGACAACGGCCAGGTGGAAGTG -GAACTGGAAGTCGGCGGTAAAACGCTGTGGGCGCGTATCAGCCCGTGGGCCAGGGATGAACTGGCGATCA -AACCTGGCCTGTGGCTGTACGCGCAAATTAAAAGTGTGTCGATAACCGCCTGATTAAATCAGGTGGCTAT -AAATGAACTGGGCAATGCTGTCGGTGGTGTTATCACCAATCACAATGTTGGCGCGCGCTTTTACCGCGTC -ATCGGCGTTGCCCATCGCCACGCCTGTACCAGCGGCTTCCAGCATACTGATATCATTAAAGTTATCGCCG -AATGCCACGACGTTTTCCATCGACCAACCTTGCGCCTCAACCCATTTCGTCAAACGTTTACCTTTGCTGT -TGCCGCCGCGTGCAATATCAACCTGATCGTGCCAGGACCATTCACACTCCAGTCCCAGTTCATGTTCGAC -ATGCTTACCAAAATGCTGCAATTGCGGCAGGTCATCGTGCGTCAGGGCGAACTTCCATACGGCGTTAACT -TGTTGCGCCGTTTCAGCCAGAGAAGCGACTTGTGTGAAAGTCGGACGCTGTTCCGGCGGCAGGGTTTGCG -CCCAGTTAGATGTGCGAATGACATGCCCGGTCGGGTGCTCATAGACCATTGCATCATCGACATACATCAG -ACCGTGAATGTGGTGTTCATTCAGCATCTCAATGAGTTGCAGGGCTTTAATAACGGGCATTGGGTCCGCT -TCCAGCACGGTTTTTGCATGATAATCATACAAATAGGTGCCATTACAGCAAATAGCAGGTGTATCCAGCG -CCAGCGCCTGATAAAAAGGATGAATAGCGACGTGATGGCGACCTGTGACGATGATTAATTGATAGCCTGC -TTCGCGAGCGCGGGCCAGGGCTTCTATCGATGAAGGAAGCAGGGTCTTTTTCGGGGTCAATAAGGTGCCG -TCTAAGTCGAGAGCAATCACGCGTGTGGTCATGGCGTATTCCAGATTAAGGTTAAGAATTTTCGTCTGCG -CGAATGGTACACCGATACCACTATCGGACAAAATTCTGCGTTTTAATTCAGCATTCACCGCCAAAAGCGA -CTAATTTTAGCTGTTACAGTCAGTTGCTAAATGCAAAGGAGCATTCATGAAGCAAACAGTTTATATCGCC -AGCCCTGAGAGCCAGCAAATTCACGTCTGGAATCTGAATCATGAAGGCGCACTGACGCTGACACAGGTTG -TCGATGTGCCGGGGCAGGTGCAGCCGATGGTGGTCAGCCCGGACAAACGTTATCTCTATGTTGGTGTTCG -CCCTGAGTTTCGCGTCCTGGCGTATCGTATCGCCCCGGACGATGGCGCACTGACCTTTGCCGCAGAGTCT -GCGCTGCCGGGTAGTCCGACGCATATTTCCACCGATCACCAGGGGCAGTTTGTCTTTGTAGGTTCTTACA -ATGCGGGTAACGTGAGCGTAACGCGTCTGGAAGATGGCCTGCCAGTGGGCGTCGTCGATGTGGTCGAGGG -GCTGGACGGTTGCCATTCCGCCAATATCTCACCGGACAACCGTACGCTGTGGGTTCCGGCATTAAAGCAG -GATCGCATTTGCCTGTTTACGGTCAGCGATGATGGTCATCTCGTGGCGCAGGACCCTGCGGAAGTGACCA -CCGTTGAAGGGGCCGGCCCGCGTCATATGGTATTCCATCCAAACGAACAATATGCGTATTGCGTCAATGA -GTTAAACAGCTCAGTGGATGTCTGGGAACTGAAAGATCCGCACGGTAATATCGAATGTGTCCAGACGCTG -GATATGATGCCGGAAAACTTCTCCGACACCCGTTGGGCGGCTGATATTCATATCACCCCGGATGGTCGCC -ATTTATACGCCTGCGACCGTACCGCCAGCCTGATTACCGTTTTCAGCGTTTCGGAAGATGGCAGCGTGTT -GAGTAAAGAAGGCTTCCAGCCAACGGAAACCCAGCCGCGCGGCTTCAATGTTGATCACAGCGGCAAGTAT -CTGATTGCCGCCGGGCAAAAATCTCACCACATCTCGGTATACGAAATTGTTGGCGAGCAGGGGCTACTGC -ATGAAAAAGGCCGCTATGCGGTCGGGCAGGGACCAATGTGGGTGGTGGTTAACGCACACTAACCGCTGAT -TTACCCGGCGCAGTCTCTCCTGCGCCGGTGTATTAACCTATCTCCTGTAACGCGTGTCTCTGGCGTTCGA -CGATATTGGTCCACAAATTGTCTTTATCGTCAGTCCATAAATTAATCAGCAAGGCAAAAAAGCGTTCTGC -TGCTGGAGAAAGTACGGCATCTTTACGGCGAATTATTCCCAATGTTCGACGTATAACGGGTTCCACCAAT -GGGATACCAATAATCGAAGAATAGGGCGCATGAGGCATTGCCAGGCCAGGAAGCGCCGAAATCCCCAGTC -CCGCCTCCACCAGTCCTAATGACGTCGAAAGATGACGCACTTCGTAAAACCAGTCCAGCTTCCAGGGCTT -GTCGGCCAGCTGTTGTTCTATCAACAGTCGGTTGCCGCTGGAGGAGCGTACGCCAATCATTTTGTAACCC -ACTAACTCCTGCCATTCTACAAGCTGCTTTTTGGCCAATGGATGGTCACGCCGACAGGCCAGCACGAACG -GCTCGTTGACCAGTGGGGTAAAATCAATGGATGAATTTGTGACGTTGTTCATGTTTATGCCAAAGTCTGA -TTCGTTACACAGCACCGATTCCATGCAATTATTCGTGCCTTGTTCCAGAATCCGCACTTTAATATTGGGA -TACAGCTCATTAAATTTACCGATTGCCAGCGGTAAAAAATAAAATACTGCGGTCGGAATACACGCTAACG -TCACCATACCACGATGATAAGCATTCATATCACGAATATTAAAAAGCGTTTCATCGAATTTCTTTATTAA -TTCCCGCGCCTCCGGGAGCAACCTTTTTCCTGCTTTTGTTAACGTAACCTTGCGAGTTGTACGCTCAAAT -AGTTGAACATGTAAATCTTCCTCCATCTTTTTTATTCTTCGCGTTAATGCAGGTTGCGTAATATTGAGTA -ATTTAGCGGCATTGTTAAACGAACTGGACTCTGCCAGTATGACAAATGCCTTCATACTTGATAATTCATG -CTTCATTATTACTCCGGAAAATGGAAGCGACGATTTTGGGTGGCTGGCCGTTAAAAATTTTAACTGCATT -TAGCCAACTTAAATTAATGAAAAAATGTTATTAATCGTTGAGCTAAAGTCATTAGAGATGCTTTGCCCTT -AATGTAACCATATCGCAATAAGTTATGTTTTTAAATTGAGGGCATTATTATGAAAAAAATACCCTGCGTG -ATGATGCGAGGTGGAACCTCGAGGGGCGCGTTCCTGTTAGCGGAACATTTACCCGAAGATCAAACGCAGC -GCGATAAAATATTGATGGCAATTATGGGTTCCGGTAACGATCTGGAAATTGACGGTATTGGCGGCGGTAA -TCCACTGACCAGTAAAGTCGCCATTATTAGCCGTTCCAGCGATCCGCGTGCTGATGTCGATTATCTGTTT -GCGCAGGTAATCGTTCATGAGCAACGTGTCGATACCACGCCTAACTGCGGCAATATGCTGTCTGGTGTTG -GGGCATTCGCCATTGAAAATGGTTTGATTGCAGCGACTTCGCCAGTTACTCGCGTACGTATCCGCAACGT -CAATACGGGTACGTTCATCGAAGCTGATGTGCAAACGCCAAATGGTGTTGTCGAGTACGAGGGTAGCGCC -AGAATTGACGGCGTACCGGGTACTGCCGCACCGGTTGCGCTCACTTTCCTGAATGCCGCTGGAACCAAAA -CCGGAAAAGTTTTCCCGACTGATAATCAGATTGATTATTTTGACGATGTCCCGGTGACCTGTATCGATAT -GGCGATGCCAGTCGTCATTATTCCGGCTGAATATCTGGGAAAAACAGGTTATGAATTACCGGCGGAACTG -GATGCCGACAAAGCATTATTAGCCCGCATTGAATCTATCCGTCTACAAGCGGGTAAAGCAATGGGCTTAG -GTGATGTCAGTAATATGGTTATCCCTAAACCTGTGCTTATTTCTCCAGCGCAGAAAGGCGGGGCAATTAA -TGTGCGTTATTTTATGCCGCATTCTTGCCATCGCGCGCTGGCGATAACCGGTGCTATTGCTATTTCCAGT -AGTTGTGCATTGGAAGGCACCGTCACCCGACAAATCGTCCCTTCTGTAGGATACGGCAATATCAATATTG -AACACCCCAGTGGTGCGCTCGACGTTCATTTAAGTAATGAAGGTCAGGATGCCACGACGTTACGCGCATC -TGTTATTCGGACGACCAGAAAAATATTTTCCGGTGAAGTTTATCTTCCCTGAAAAAATTCGTTGTCAGGA -TAAGGACAATCAATAAAGGACTTCTGTATGAGTCATACAGAAAGAACAGGATTTTAAATGAATAAGAAAT -CGTTATGGAAGCTAATTCTGATATTAGCGATCCCATGTATTATTGGTTTTATGCCAGCTCCGGCAGGATT -AAGCGAACTGGCGTGGGTGCTTTTTGGTATTTACCTGGCGGCCATTGTGGGGCTGGTTATCAAGCCTTTC -CCGGAACCTGTCGTACTGTTAATTGCCGTTGCTGCCTCAATGGTGGTGGTCGGTAACTTATCCGACGGTG -CGTTTAAAACCACCGCCGTATTAAGCGGTTACTCTTCAGGTACCACCTGGCTGGTGTTCTCGGCGTTTAC -CTTAAGCGCCGCATTTGTGACCACCGGTTTAGGTAAACGTATTGCCTATCTGCTGATTGGTAAAATCGGT -AACACCACGCTGGGTCTGGGTTACGTTACGGTATTCCTCGATCTGGTACTGGCTCCGGCAACACCGTCTA -ACACCGCGCGTGCGGGCGGCATTGTGTTACCGATCATCAACAGCGTGGCGGTGGCTTTGGGGTCCGAACC -GGAAAAAAGTCCGCGTCGTGTCGGACATTACCTGATGATGTCCATTTACATGGTCACCAAAACCACCAGC -TATATGTTCTTTACCGCAATGGCGGGGAACATTCTGGCGCTGAAAATGATCAACGACATTCTGCACCTGC -AAATTAGCTGGGGTGGATGGGCGCTGGCAGCCGGATTGCCGGGCATCATTATGCTGCTGGTCACCCCGCT -GGTGATTTACACCATGTATCCACCAGAAATTAAGAAGGTGGATAACAAAACCATCGCTAAAGCGGGCCTT -GCCGAACTAGGACCGATGAAAATCCGCGAAAAAATGCTGCTCGGTGTCTTTGTGCTGGCGCTGCTGGGCT -GGATTTTCAGTAAGTCTCTGGGGGTTGATGAATCCACCGTGGCAATCGTTGTTATGGCAACCATGCTGCT -GCTGGGTATCGTTACCTGGGAAGACGTGGTTAAAAATAAAGGCGGCTGGAATACCTTAATCTGGTACGGC -GGTATTATCGGCTTAAGCTCCTTATTATCGAAAGTTAAATTCTTCGAATGGTTAGCTGAAGTCTTTAAAA -ATAACCTGGCATTTGATGGTCACGGTAACGTTGCTTTCTTCGTTATTATTTTCCTCAGCATTATCGTGCG -TTATTTCTTCGCTTCCGGTAGTGCCTATATCGTTGCTATGTTACCGGTATTTGCCATGCTGGCGAACGTC -TCCGGCGCACCGTTAATGTTAACCGCGCTGGCACTGTTGTTCTCCAACTCCTATGGCGGCATGGTTACTC -ACTATGGCGGCGCGGCAGGTCCGGTCATCTTTGGCGTGGGTTATAACGATATTAAATCCTGGTGGTTGGT -CGGTGCGGTACTGACGATATTAACCTTCCTGGTGCATATCACCCTCGGCGTGTGGTGGTGGAATATGCTG -ATCGGCTGGAACATGCTGTAAATATTCTCGTCATACTTCAAGTTGCATGTGCTGCGTCTGCGTTCGCTCA -CCCCAGTCACTTACTTATGTAAGCTCCTGGGGATTCACTCGCTTGTCGCCTTCCTGCAACTCGAATTATT -TAGAGTATATCCATTTATTATCTTTCTGCGCACTTCACGGTGCGCAGATATCTGGAGCATTTGATGATCA -AGTTATCTGAAAAAGGCGTGTTTCTCGCCAGTAATAACGAAATAATTGCCGAAGAACATTTCACCGGCGA -AATTAAAAAAGAAGAAGCCAAAAAAGGCACTATTGCCTGGTCTATTCTCTCTTCGCATAATACGTCCGGA -AATATGGATAAACTTAAAATTAAGTTTGATTCATTAGCCTCTCACGATATTACCTTTGTTGGTATTGTAC -AGACCGCTAAAGCGTCCGGTATGGAACGTTTCCCGCTGCCGTATGTGCTGACCAACTGCCATAACTCACT -CTGCGCCGTCGGCGGCACTATTAACGGTGATGACCATGTTTTTGGTTTATCGGCGGCCCAGCGTTATGGC -GGTATTTTTGTGCCTCCGCATATTGCGGTCATCCATCAATATATGCGTGAGATGATGGCAGGCGGCGGCA -AAATGATCCTCGGGTCAGACAGCCACACCCGTTACGGTGCATTAGGGACAATGGCAGTCGGTGAGGGCGG -CGGTGAGTTGGTAAAACAGCTGCTTAATGACACCTGGGATATCGACTATCCGGGCGTGGTTGCGGTGCAT -CTGACCGGAAAACCTGCGCCGTATGTGGGGCCACAGGATGTGGCGCTGGCTATCATTGGCGCGGTGTTCA -AAAACGGTTACGTCAAAAACAAAGTCATGGAGTTCGTTGGACCGGGCGTTAGCGCGCTCTCTACCGATTT -CCGTAACAGCGTTGACGTGATGACCACTGAAACGACCTGTTTAAGTTCTGTCTGGCAAACCGATGAAGAA -GTCCATAACTGGCTGGCGCTGCACGGTCGCGGCCAGGATTACTGCCAGCTTAACCCTCAACCGATGGCGT -ACTACGATGGCTGCATCAGCGTTGATTTAAGCGCCATCAAACCAATGATTGCGCTGCCGTTCCACCCGAG -CAACGTGTATGAAATCGACACACTGAACCAGAACCTGACCGACATTCTGCGTGAGATTGAAATTGAGTCC -GAACGCGTGGCGCACGGTAAAGCCAAACTCTCGCTGCTGGATAAAGTGGAAAATGGTCGCCTGAAAGTGC -AGCAGGGGATTATCGCGGGCTGTTCTGGCGGTAACTACGAAAACGTCATCGCGGCGGCGAATGCACTGCG -CGGTCAATCCTGTGGCAATGACACCTTCTCGCTGGCAGTTTACCCGTCATCACAGCCGGTGTTTATGGAT -CTCGCCAAAAAAGGTGTGGTAGCAGATTTGATTGGCGCAGGCGCAATCATCAGAACCGCGTTCTGCGGCC -CATGCTTTGGCGCGGGCGATACGCCAATCAACAACGGTTTGAGTATTCGCCACACCACGCGTAACTTCCC -GAACCGCGAAGGCTCTAAGCCAGCTAATGGGCAGATGTCAGCGGTGGCGTTGATGGACGCTCGTTCTATC -GCTGCGACTGCGGCAAACGGTGGCTATTTAACCTCTGCCAGCGAACTTGATTGCTGGGACAACGTGCCGG -AGTACGCCTTCGATGTAACGCCGTATAAAAACCGTGTTTATCAGGGCTTTGTGAAAGGGGCAACTCAGCA -ACCGCTGATTTACGGGCCGAACATTAAAGACTGGCCGGAATTGGGTGCGCTGACTGACAATATCGTCCTG -AAAGTGTGCTCGAAGATCCTCGACGAAGTGACCACCACCGACGAACTGATTCCTTCCGGTGAAACCTCTT -CTTATCGTTCAAATCCGATTGGTCTGGCGGAGTTTACCCTGTCTCGCCGCGATCCCGGTTATGTTAGCAG -AAGTAAAGCGACTGCTGAGCTGGAAAATCAGCGTCTGGCGGGGAATGTCAGCGAGCTGACAGAGGTGTTT -GCGCGCATTAAGCAGATTGCTGGTCAGGAGCATATTGATCCGCTGCAAACTGAAATTGGCAGCATGGTCT -ATGCGGTGAAACCAGGCGATGGTTCTGCGCGTGAACAGGCGGCGAGCTGCCAGCGTGTGATTGGCGGTCT -GGCGAATATTGCCGAGGAGTACGCGACTAAACGCTATCGTTCTAACGTCATCAACTGGGGGATGTTACCG -CTGCAAATGGCGGAAGTACCAACCTTTGAAGTGGGGGATTACATTTACATCCCTGGCATTAAAGCGGCGC -TGGATAATCCGGGTACGACGTTTAAAGGTTATGTGATCCATGAAGATGCGCCGGTAACGGAAATTACGCT -CTATATGGAAAGTCTGACTGCTGAAGAGCGCGAGATTATCAAGGCGGGTAGTTTGATTAACTTCAATAAA -AACCGTCAGATGTAAAAAGCGCCATGTGAATGTAGGTCGCATTCGGCACTTATTGTCGGATGCGATGCTT -GCGCATCTTATCCGACCTACGAATCGCATCGAATCTGTAGGCCAGATAAGGCATTTTCGCAGCATCCGGC -ACTTATTGTCGGATGCGATGCTTGCGCATCTTATCCGACCTACAAATCGCATCGAACCGTAGGCCGGATA -AGGCGTTTACGCCGCATCCGGCAAATAGTTAATTGCTCTTACTTCTTCGCCTCTGCAACCACTTTACTAC -CCACGCCGCGGTTATTGTATTCCCACATGCGGTTGTAGTTAGTGTCATTCAGATTGCGCTGTATTTCGTC -GTTATCATCTACGCTGCCGGTATTACCCGCAAACGGACGATTAGAGATCACCGCATCGGCCCACGGTTTA -GCCGTGTTAAAACCTTCGTTGATGGCGCTATCACGGATCACCACCTGACCGTTGGTATTGGCATCAACAT -CCAGCGAGCGGCCCAGTTGCGCCACACCATCACCGAAAGCATTGAAACGGCTGTTTACGGCGAGGAAACC -GTAGTAAATGTTGGACAGCGTAGCCGGTGCAAACACATACGCTTCTTGCTGAGTACGTGAGTTCACCACG -CGGAATTCGGTGTTATCGAACACCACTGCGCCGCGACCAGAAACGATATCCACATCCCCTTCAATGTAGC -TGTTGGTCACCAGCGTACGCGGCTGACGATTCGTTTCCAGACGGTTCTGCACACCGCTGTTGGTGACAAA -GAAGGTGTTCTGACGACCGAGAATGTTAACGTTGTTAATCTGTACCTGGTCACCATCAGTACGCAGTGCC -ACCGCCGGATGGTTACCTGCATCTACGCTATCGCCCAGCGTGTTTTCGATGGTCAGATTTTGCAGTTGCA -GGCCATTGTTTTGTGACCAGAAGACCGCAGAGCAGAGAACACCGATACTGTCGCTGCGTTTGCTCTGGCA -GCTATCGTACATATACCACGCTGGTTTACCTGGCATATATTTGCCGCGCGGGTTGACGTCGTGACGCCAG -TCGGCAGGGCTCATGCCACCATCAAGGGAAAGCCCAATCTTCACATCAATCGGTTTTTCACCTGTACCGT -ACAGAGTAATTCCACCCGGAGCGGCAGGGACATATACCGTTCCCTGATACTCACCAGGCATCACGGCAAT -ATACTGGCGCTTGTTGGTACGCTTGATAATTGCCGCATCTACCGCCGCCTGAATCGTGGTATGCGTTACA -CCTTGAGTGCCCGCCGGGCCGACAACAAAGTCAGGTTGCGCAGGCAGGGTAATCGGGGAAGGATTCCACG -CTGCAGCACCTGGTGTCAGGGATGCAAAATAGTGTTGAGCATCGAAATTCTGCGCTTCTTTTGCCGACAG -AATCGGGCGAGAAGAGGTACCAGGCGCGGTTTGATCAGAAGGACGTTGATCGGGCGGGGTTGAGCTACAG -GCGGTCAGCGTCACGCCAAAAGCCAATGCCAGCGCCAGACGGGAAACTGAAAATGTGTTCACAGGTTGCT -CCGGGCTATGAAATAGAAAAATGAATCCGTTGAAGCCTGCTTTTTTATACTAACTTGAGCGAAACGGGAA -GGTAAAAAGACAAAAAGTTGTTTTTAATACCTTTAAGTGATACCAGATGGCATTGCGCCATCTGGCAGAG -TGATTAACTAAACATCGCAGTAATCGAGGCGCTTGCCAGAGAGTGGAAATGAACGTTAAACCCGACCATC -GCGCCGCTGGCACCTTCATCGACATCAATACGTTCTATATCCAGCGCGTGAACGGTAAAAATGTAGCGAT -GAGTTTCGCCTTTCGGCGGTGCTGCGCCATCGTACCCGGTTTTACCAAAGTCGGTACGCGTCTGCAAAAC -GCCGTCTGGCATTGCTACCAGACCAGAGCCAAACCCTTGCGGTAATACGCGGGTATCAGCGGGTAAGTTA -ACAACTACCCAGTGCCACCAGCCGGAGCCGGTTGGCGCATCCGGGTCGTAGCAGGTGACAACAAAACTTT -TCGTTCCCGCAGGAACATCATCCCACGCCAGATGCGGTGAAATATTATCGCCATCGTAACCCATGCCGTT -AAAGACATGACGATGCGGCAATTTATCGCCATCGCGCAGATCGTTACTGATGAGTTTCATGAACCCTCCT -TTCTTGTTTGCAGAAAGTGTAGCCAGAAACCCTCACGCGGACTTCTCGTTATTGGCAAAAAAATGTTTCA -TCCTGTACCGCGCGGTTAACCGCTGCGGTCAGACGCTGCAACTGTTGCGGGAGAATAATATAGGGCGGCA -TCAGGTAAATCAGTTTGCCAAAAGGCCGGATCCAGACACCCTGTTCGACAAAGAATTTTTGCAGCGCCGC -CATATTCACCGGATGAGTGGTTTCGACCACGCCAATGGCCCCCAGTACGCGCACATCGGCAACCATTTCG -GCATCACGGGCGGGGGCAAGTTGCTCGCGCAGCTGTACTTCAATATCCGCCACCTGTTGCTGCCAGTCGC -CAGATTCGAGAATCGCCAGGCTGGCGTTTGCTGCCGCGCAGGCCAGCGGATTGCCCATAAAAGTTGGCCC -ATGCATAAAGCAACCGGCTTCACCGTTACTGATGGTTTCTGCAACCTCGCGCGTGGTGAGTGTGGCGGAA -AGGGTCATTGTGCCGCCGGTTAAGGCTTTACCGAGGCACAAAATGTCCGGCGCGATTTCTGCATGTTCAC -AGGCAAACAGTTTCCCGGTACGACCAAATCCAGTGGCGATCTCGTCGGCAATCAGCAAGATACCTTCGCG -ATCGCATATTTTGCGGATTCGTTTTAACCATTCCGGATGGTACATGCGCATCCCGCCTGCGCCCTGGACA -ATCGGCTCAATGATCACCGCCGCGATTTCATGACGATGCGCCGCCATCAGGCGGGCAAAGCCCACCATAT -CGCGCTCATCCCATTCGCCATCCATGCGGCTTTGCGGGGCGGGAGCAAACAGGTTTTCTGGCAGGTAGCC -TTTCCACAGACTGTGCATTGAGTTATCCGGATCGCACACCGACATCGCGCCAAAGGTATCGCCATGATAA -CCATTGCGGAAGGTCAGAAAACGCTGGCGCGCTTCGCCTTTGGCTTGCCAGTACTGCAACGCCATTTTCA -TCGCCACTTCCACCGCTACGGAACCGGAGTCCGCGAGAAAAACGCACTCCAGCGGTTGCGGCGTCATCGC -CACCAGTTTGCGGCACAGCTCAATGGCTGGCGCATGGGTGATACCGCCAAACATCACATGCGACATGGCA -TCAATTTGCGACTTCATCGCCGCATTAAGCTGCGGGTGATTGTAGCCGTGGATCGCCGCCCACCAGGACG -ACATACCGTCAACCAGGCGTCTGCCGTCAGACAAAATCAGCTCGCAACCTTCGGCGCTCACCACCGGATA -AACCGGCAGAGGGGAGGTCATGGATGTGTATGGGTGCAGGATATGGCGTTGGTCAAAGGCAAGATCGTCC -GTTGTCATAATCGACTTGTAAACCAAATTGAAAAGATTTAGGTTTACAAGTCTACACCGAATTAACAACA -AAAAACACGTTTTGGAGAAGCCCCATGGCTCACCGCCCACGCTGGACATTGTCGCAAGTCACAGAATTAT -TTGAAAAACCGTTGCTGGATCTGCTGTTTGAAGCGCAGCAGGTGCATCGCCAGCATTTCGATCCTCGTCA -GGTGCAGGTCAGCACGTTGCTGTCGATTAAGACCGGAGCTTGTCCGGAAGATTGCAAATACTGCCCGCAA -AGCTCGCGCTACAAAACCGGGCTGGAAGCCGAGCGGTTGATGGAAGTTGAACAGGTGCTGGAGTCGGCGC -GCAAAGCGAAAGCGGCAGGATCGACGCGCTTCTGTATGGGCGCGGCGTGGAAGAATCCCCACGAACGCGA -TATGCCGTACCTGGAACAAATGGTGCAGGGGGTAAAAGCGATGGGGCTGGAGGCGTGTATGACGCTGGGC -ACGTTGAGTGAATCTCAGGCGCAGCGCCTCGCGAACGCCGGGCTGGATTACTACAACCACAACCTGGACA -CCTCGCCGGAGTTTTACGGCAATATCATCACCACACGCACTTATCAGGAACGCCTCGATACGCTGGAAAA -AGTGCGCGATGCCGGGATCAAAGTCTGTTCTGGCGGCATTGTGGGCTTAGGCGAAACGGTAAAAGATCGC -GCCGGATTATTGCTGCAACTGGCAAACCTGCCGACGCCGCCGGAAAGCGTGCCAATCAACATGCTGGTGA -AGGTGAAAGGCACGCCGCTTGCCGATAACGATGATGTCGATGCCTTTGATTTTATTCGCACCATTGCGGT -CGCGCGGATCATGATGCCAACCTCTTACGTGCGCCTTTCTGCCGGACGCGAGCAGATGAACGAACAGACT -CAGGCGATGTGCTTTATGGCAGGCGCAAACTCGATTTTCTACGGTTGCAAACTGCTGACCACGCCGAATC -CGGAAGAAGATAAAGACCTGCAACTGTTCCGCAAACTGGGGCTAAATCCGCAGCAAACTGCCGTGCTGGC -AGGGGATAACGAACAACAGCAACGTCTTGAACAGGCGCTGATGACCCCGGACACCGACGAATATTACAAC -GCGGCAGCATTATGAGCTGGCAGGAGAAAATCAACGCGGCGCTCGATGCGCGGCGTGCTGCCGATGCCCT -GCGTCGCCGTTATCCGGTGGCGCAAGGAGCCGGACGCTGGCTGGTGGCGGATGATCGCCAGTATCTGAAC -TTTTCCAGTAACGATTATTTAGGTTTAAGCCATCATCCGCAAATTATCCGTGCCTGGCAGCAGGGGGCGG -AGCAATTTGGCATCGGTAGCGGCGGCTCCGGTCACGTCAGCGGTTATAGCGTGGTGCATCAGGCACTGGA -AGAAGAGCTGGCCGAGTGGCTTGGCTATTCGCGGGCACTGCTGTTTATCTCTGGTTTCGCCGCTAATCAG -GCAGTTATTGCCGCGATGATGGCGAAAGAGGACCGTATTGCTGCCGACCGGCTTAGCCATGCCTCATTGC -TGGAAGCTGCCAGTTTAAGCCCGTCGCAGCTTCGCCGTTTTGCTCATAACGATGTCACTCATTTGGCGCG -ATTGCTTGCTTCCCCCTGTCCGGGGCAGCAAATGGTGGTGACAGAAGGCGTGTTCAGCATGGACGGCGAT -AGTGCGCCACTGGCGGAAATCCAGCAGGTAACGCAACAGCACAATGGCTGGTTGATGGTCGATGATGCCC -ACGGCACGGGCGTTATCGGGGAGCAGGGGCGCGGCAGCTGCTGGCTGCAAAAGGTAAAACCAGAATTGCT -GGTAGTGACTTTTGGCAAAGGATTTGGCGTCAGCGGGGCAGCGGTGCTTTGCTCCAGTACGGTGGCGGAT -TATCTGCTGCAATTCGCCCGCCACCTTATCTACAGCACCAGTATGCCGCCCGCTCAGGCGCAGGCATTAC -GTGCGTCGCTGGCGGTCATTCGCAGTGATGAGGGTGATGCACGGCGCGAAAAACTGGCGGCACTCATTAC -GCGTTTTCGTGCCGGAGTACAGGATTTGCCGTTTACGCTTGCTGATTCATGCAGCGCCATCCAGCCATTG -ATTGTCGGTGATAACAGCCGTGCGTTACAACTGGCAGAAAAACTGCGTCAGCAAGGCTGCTGGGTCACGG -CGATTCGCCCGCCAACCGTACCCGCTGGTACTGCGCGACTGCGCTTAACGCTAACCGCTGCGCATGAAAT -GCAGGATATCGACCGTCTGCTGGAGGTGCTGCATGGCAACGGTTAATAAACAAGCCATTGCAGCGGCATT -TGGTCGGGCAGCCGCACACTATGAGCAACATGCAGATCTACAGCGCCAGAGTGCTGACGCCTTACTGGCA -ATGCTTCCACAGCGTAAATACACCCACGTACTGGACGCGGGTTGTGGACCTGGCTGGATGAGCCGCCACT -GGCGGGAACGTCACGCGCAGGTGACGGCCTTAGATCTCTCGCCGCCAATGCTTGTTCAGGCACGCCAGAA -GGATGCCGCAGACCATTATCTGGCGGGAGATATCGAATCCCTGCCGTTAGCGACTGCGACGTTCGATCTT -GCATGGAGCAATCTCGCAGTGCAGTGGTGCGGTAATTTATCCACGGCACTCCGCGAGCTGTATCGGGTGG -TGCGCCCCAAAGGCGTGGTCGCGTTTACCACGCTGGTGCAGGGATCGTTACCCGAACTGCATCAGGCGTG -GCAGGCGGTGGACGAGCGTCCGCATGCTAATCGCTTTTTACCGCCAGATGAAATCGAACAGTCGCTGAAC -GGCGTGCATTATCAACATCATATTCAGCCCATCACGCTGTGGTTTGATGATGCGCTCAGTGCCATGCGTT -CGCTGAAAGGCATCGGTGCCACGCATCTTCATGAAGGGCGCGACCCGCGAATATTAACGCGTTCGCAGTT -GCAGCGATTGCAACTGGCCTGGCCGCAACAGCAGGGGCGATATCCTCTGACGTATCATCTTTTTTTGGGA -GTGATTGCTCGTGAGTAAACGTTATTTTGTCACCGGAACGGATACCGAAGTGGGGAAAACTGTCGCCAGT -TGTGCACTTTTACAAGCCGCAAAGGCAGCAGGCTACCGGACGGCAGGTTATAAACCGGTCGCCTCTGGCA -GCGAAAAGACCCCGGAAGGTTTACGCAATAGCGACGCGCTGGCGTTACAGCGCAACAGCAGCCTGCAGCT -GGATTACGCAACAGTAAATCCTTACACCTTCGCAGAACCCACTTCGCCGCACATCATCAGCGCGCAAGAG -GGCAGACCGATAGAATCATTGGTAATGAGCGCCGGATTACGCGCGCTTGAACAACAGGCTGACTGGGTGT -TAGTGGAAGGTGCTGGCGGCTGGTTTACGCCGCTTTCTGACACTTTCACTTTTGCAGATTGGGTAACACA -GGAACAACTGCCGGTGATACTGGTAGTTGGTGTGAAACTCGGCTGTATTAATCACGCGATGTTGACTGCA -CAGGTAATACAACACGCCGGACTGACTCTGGCGGGTTGGGTGGCGAACGATGTTACGCCTCCGGGAAAAC -GTCACGCTGAATATATGACCACGCTCACCCGCATGATTCCCGCGCCGCTGCTGGGAGAGATCCCCTGGCT -TGCAGAAAATCCAGAAAATGCGGCAACCGGAAAGTACATAAACCTTGCCTTGTTGTAGCCATTCTGTATT -TGGTTAAATTGCGAGCGAGATCGCGTCTTCGATTGACTGCAATTTAACCAATTAAATTCTAAAATAATCA -CGAAAAAAATTTTACTTCCGCCTCATGCGGCGAATGTGGGAATTGCCCAGGCGGCGGGGGATAGGGGCTG -GAGACAGTTATCCACTATTCCTGTGGATAACCATGTGTATTAGAGTTAGAAAACACGAGGCAAGCGAGAG -AATACGCGGCTTGCACGCGAATTGGCGTTAAAGACGGCTCAAAGAAATATCTTTTATTTTTTAACTGGTT -AGATAAATGCAATGGCAGTCACTGAACAGGCATCTCTTGCCATAAAACTGTCATCACTCATCTTGACAAA -TGTTAAAAAAGCCGTTGCTTTGGGGATAACCCGGTAAGGCCGGAGTTTTATCTCGCCACAGAGTAAATTT -TGCTCATGATTGACAGCGGAGTTTACGCTGTATCAGAAATATTATGGTGATGAACTGTTTTTTTATCCAG -TATAATTTGTTGGCATAATTAAGTACGACGAGTAAAATTACATACCTGCCCGCCCAACTCCTTCAGGTAG -CGACTCATGAGTAAACCGTTCAAACTGAATTCCGCTTTTAAACCTTCTGGCGATCAGCCAGAGGCGATTC -GACGTCTCGAAGAGGGGCTGGAAGATGGCCTGGCGCACCAGACGTTACTTGGCGTGACTGGCTCAGGGAA -AACCTTCACCATTGCCAATGTCATTGCTGACCTTCAGCGCCCAACCATGGTACTTGCGCCCAACAAAACG -CTGGCGGCCCAGCTGTATGGCGAAATGAAAGAGTTCTTCCCGGAAAACGCGGTGGAATATTTCGTTTCCT -ACTACGACTACTATCAGCCGGAAGCCTATGTACCGAGTTCCGACACTTTCATTGAGAAAGATGCCTCGGT -TAACGAACATATTGAGCAGATGCGTTTGTCCGCCACCAAAGCGATGCTGGAGCGGCGTGATGTGGTTGTG -GTGGCGTCTGTTTCCGCGATTTATGGTCTGGGCGATCCTGATTTATATCTCAAGATGATGCTCCATCTCA -CGGTCGGTATGATTATCGATCAGCGCGCGATTCTGCGCCGACTGGCGGAGCTGCAATACGCTCGTAATGA -TCAAGCATTCCAGCGTGGTACTTTCCGCGTTCGTGGCGAGGTGATAGATATCTTCCCGGCAGAATCGGAT -GACATTGCACTTCGCGTGGAACTGTTTGACGAGGAAGTGGAACGATTGTCGTTATTTGACCCGCTGACCG -GGCAGATTGTTTCCACTATTCCACGTTTTACCATCTACCCGAAAACGCACTACGTCACACCGCGCGAGCG -CATCGTACAGGCGATGGAGGAGATCAAAGAAGAGCTGGCCGCCAGACGCAAAGTGCTGTTGGAAAACAAC -AAACTGCTGGAAGAGCAGCGGCTGACCCAGCGTACCCAGTTTGATCTGGAGATGATGAACGAGCTGGGCT -ACTGTTCGGGGATTGAAAACTACTCGCGCTTCCTCTCCGGTCGTGGACCGGGTGAGCCACCGCCGACGCT -GTTTGATTACCTGCCTGCCGATGGGCTGCTGGTCGTCGATGAATCTCACGTCACCATTCCACAAATTGGC -GGCATGTATCGCGGTGACCGGGCGCGTAAAGAGACACTGGTGGAGTACGGCTTCCGCCTGCCATCAGCGC -TGGATAACCGTCCGCTTAAGTTTGAAGAGTTCGAAGCATTAGCGCCGCAAACCATCTATGTTTCGGCGAC -GCCGGGTAATTACGAGCTGGAAAAATCCGGCGGCGATGTGGTGGATCAGGTGGTGCGTCCAACCGGATTG -CTTGACCCGATTATCGAAGTGCGGCCGGTGGCGACACAGGTTGATGATCTTCTTTCGGAGATTCGTCAGC -GAGCGGCAATTAACGAACGCGTACTGGTCACCACACTGACCAAGCGGATGGCGGAAGATCTTACCGAATA -TCTCGAAGAACATGGCGAGCGCGTGCGTTATCTTCACTCAGATATCGACACCGTCGAACGTATGGAGATT -ATCCGCGACTTGCGTCTGGGTGAGTTCGACGTGCTGGTAGGGATCAACTTACTGCGCGAAGGTCTGGATA -TGCCGGAAGTGTCGCTGGTGGCGATCCTCGACGCTGACAAAGAAGGCTTCCTGCGTTCCGAACGTTCGTT -GATCCAGACCATTGGTCGTGCGGCACGTAACGTTAACGGTAAAGCGATTCTCTACGGCGATAAGATCACC -CCATCAATGGCGAAAGCGATTGGCGAAACCGAACGTCGCCGTGAGAAACAGCAGAAGTACAACGAGGAAC -ACGGAATTACGCCGCAAGGCTTGAACAAGAAAGTGGTCGATATCCTGGCGCTGGGGCAGAACATTGCCAA -AACCAAAGCGAAGGGCAGAGGAAAATCGCGCCCGATTGTTGAGCCGGATAATGTGCCGATGGATATGTCG -CCTAAAGCGTTGCAGCAGAAAATCCATGAGCTGGAAGGGTTGATGATGCAACACGCGCAGAATCTGGAGT -TCGAAGAAGCGGCGCAAATTCGTGACCAGTTGCATCAGCTGCGTGAGCTGTTTATCGCGGCATCGTAACA -GGATAGCGAAGAAGACTGATGACAAACGGAAAACAGCCTGATGCGCTACGCTTATCAGGCCTACATTTTC -TCCGCAATATATTGAATTTGCGCGGTTTGTAGGCCGGATAAGGCGTTCACGCCGCATCCGGCATAAACAA -CGCGCACTTTGTCTTCAATAGGAAGCCGGAATTTTCCTTCGGATTTCCGTTAACCTAAAGCCTGTAACGC -CTTTTCCAGCGCGTTATGTAACAACTGGCGGTCATGACGATACGGAATATCGCTGGCCTCCAGTACCTCC -TGGATCACAATCCGCTCTTTCACCGCCGAGACATCCACTTTTGGCCCGACGATGACCGCATCAATGACCT -TTTTACCAACATACTGCTCCATAATTGCCAGCTTGCTTTCCAGCTTCAAATTAGCCGCAGGTAAACTCAA -CTCACGCCCCAGATTGCCGATATAAACCATCGGCGCTGGCGTGCGGCGTAATGCCTGGGCGATTTCCTTC -AGCAGCAGAATTGGCATCAGGCTGGTATAAAAACTGCCAGGCCCAATAATGATGAGATCCGCTTCATTGA -TAGCGTGAACCGCCTCACGCGTTGCGGGTACATTAGGCGTTAACAATAACTCTTGAATCGGCGTAGTTAA -CTGGTCGATATTGACCTCGCCGTAAACTTCATGCCCCTGATCGTCAATCGCCATCAGATCAACAGGATGC -TCTGACATTGGAATCAAATGCGTATCCACTTTCAGCAGATTACGAATTAAATTGATGGCTTCCAGAGGCC -GCACGCTAAGGTGATCCAGCGCCTTTAACATCAAGTTTCCGAGATTATGACCGGAAAGTTCGCCATTGCC -ACCAAAACGGTATTCAAACATCGCGGAGGCGACGCTCGGTTCCGTTATCAGCTGGTTGAGGCAGTTGCGC -ATATCGCCCCAGGCAATGCCGCCTTCTGAACGGCGAATACGCCCCGTCGAGCCACCATTATCGGTGGTGG -TGACGATACCCGTTAAACGAGAACCCAAAGACGAAAGTGATGAGAGAACGCGTCCCAGTCCATGCCCTCC -GCCGAGAGCAACGACACGATCAAGATCAGCCAGCGTACGATTGCGCATATAGTTTCCTGGAGTCAGATTA -TCCGCGCTACAGTAGCGCAAATTGCGGGGAAACAGCAATTAACCTGCCAATATTGAGGATACAAACTATT -TTCTTCTACCTCTAAAGGACGATGCACGCTATGCCTCCCTGATGATGTATATCAAAGTAAAACCGCCATT -TTCCCTTATTCTGTAGCGAAATAGCACGATCATGACGCTATATACATGATTACATAGCGAAAGTGTGGAT -GGTAAAAATCTCATTTACACGCTAGTATCGGCATAACCACTAAACACTCTAGCCTCTGCACCTGGGTCAA -CTGATACGGTGCTTTGGCCGTGACAATGCTCGTAAAGATTGCCACCAGGGCGAAGGAAGAAATGACTTCG -CCTCCCGTATCTGGAAAGGTGTACATGGCTTCACAACTGACTGATGCATTTGCGCGTAAGTTTTACTACT -TGCGCCTGTCGATTACCGATGTGTGTAACTTTCGTTGCACCTACTGCCTGCCGGATGGCTACAAACCGAG -CGGCGTCACCAATAAAGGCTTTCTTACCGTCGATGAAATTCGCCGGGTTACGCGCGCCTTCGCCAGACTG -GGCACCGAAAAAGTGCGCCTGACAGGAGGAGAGCCGTCTTTACGCCGCGACTTTACCGATATCATCGCCG -CTGTGCGGGAAAACGACGCTATCCGCCAGATTGCGGTCACAACCAATGGTTACCGTCTGGAACGCGATGT -GGCGAGCTGGCGCGATGCGGGACTTACTGGCATTAACGTCAGTGTCGACAGTCTGGACGCCCGCCAGTTT -CACGCTATTACCGGGCAGGATAAATTCAACCAGGTCATGGCAGGGATTGATGCTGCATTTGAGGCCGGTT -TTGAGAAGGTCAAAGTCAATACCGTGCTGATGCGTGATGTTAATCATCACCAGCTCGACACCTTTCTGAA -CTGGATCCAGCATCGCCCTATCCAGCTGCGTTTCATCGAACTGATGGAAACGGGCGAGGGCAGCGAGCTC -TTCCGTAAGCATCACATCTCTGGTCAGGTTCTGCGTGACGAGCTACTGCGTCGCGGCTGGATCCACCAAT -TACGTCAACGCAGCGACGGTCCCGCGCAAGTCTTTTGCCATCCAGATTACGCCGGAGAGATTGGCCTTAT -CATGCCGTATGAAAAAGACTTCTGCGCCACTTGCAACCGCCTGCGCGTTTCCTCCATTGGTAAACTCCAT -CTCTGCCTGTTTGGTGAAGGCGGCGTTAACCTGCGCGATCTGCTGGAAGACGATACCCAGCAACAGGCGC -TGGAAGCGCGTATTTCAGCGGCGCTGCGGGAGAAGAAACAGACCCATTTCCTGCATCAAAACAACACCGG -TATTACGCAAAACTTATCGTACATTGGCGGCTAAAACGTCAAAAGGAGAGATCAGATGAGTCAGGTAAGC -ACTGAATTTATCCCGACCCGTATTGCTATTCTTACGGTTTCTAATCGTCGCGGTGAAGAAGACGATACCT -CCGGTCACTATCTGCGCGATTCGGCGCAAGAAGCGGGCCATCACGTTGTCGATAAAGCCATTGTGAAAGA -AAACCGCTACGCTATTCGCGCTCAGGTATCTGCGTGGATCGCCAGCGACGATGTACAAGTGGTATTGATT -ACGGGTGGTACTGGCCTGACGGAAGGTGATCAGGCTCCCGAAGCATTGCTGCCGTTGTTCGACCGTGAAG -TTGAAGGTTTTGGTGAAGTGTTCCGGATGTTGTCGTTTGAAGAGATTGGCACTTCCACGTTGCAATCTCG -TGCGGTAGCGGGCGTCGCCAACAAAACGCTGATTTTCGCCATGCCGGGTTCGACCAAAGCGTGCCGTACC -GCATGGGAAAATATCATCGCGCCGCAGCTGGATGCCCGTACGCGTCCGTGTAATTTCCATCCACATTTGA -AGAAATAAGTATGTCGCAACTGACCCATATCAACGCCGCTGGCGAAGCGCACATGGTGGATGTCTCCGCC -AAAGCGGAAACCGTGCGTGAAGCGCGGGCGGAAGCCTTTGTCACCATGCGCAGCGAGACGCTGGCGATGA -TTATTGATGGTCGCCACCACAAAGGCGACGTATTTGCCACTGCGCGTATTGCCGGTATTCAGGCGGCAAA -ACGCACCTGGGATCTGATCCCGCTCTGTCATCCGCTGATGCTCAGCAAAGTTGAAGTCAATTTACAGGCC -GAGCCGGAGCACAATCGGGTGCGTATAGAAACCTTATGCCGCCTGACCGGGAAAACCGGTGTCGAAATGG -AAGCATTAACCGCGGCCTCCGTGGCGGCGCTGACCATTTATGACATGTGCAAAGCGGTGCAAAAAGATAT -GGTGATTGGTCCGGTACGTTTGCTGGCGAAGAGCGGCGGCAAGTCGGGTGACTTTAAGGTGGAAGCGGAT -GATTAAAGTTCTTTTTTTCGCCCAGGTGCGCGAGTTGGTGGGAACAGATGCAACCGAAGTGGCTGCGGAT -TTCCCAACTGTTGAAGCGTTACGCCAGCACATGGCTGCGCAGAGCGATCGCTGGGCGCTGGCGCTGGAAG -ATGGCAAATTACTGGCTGCCGTCAACCAGACGCTGGTGAGTTTTGACCATCCGCTGACTGACGGCGACGA -AGTAGCTTTCTTCCCGCCGGTAACCGGAGGTTAAGATGGCAGAAACCAAAATTGTTGTTGGTCCGCAGCC -GTTCAGCGTAGGAGAAGAGTACCCGTGGCTGGCGGAGCGTGACGAAGACGGTGCGGTAGTCACCTTTACT -GGTAAGGTGCGCAACCATAACCTGGGCGACAGCGTCAACGCATTAACCCTCGAACACTATCCGGGGATGA -CTGAAAAAGCACTGGCAGAAATTGTTGATGAAGCGCGTAACCGCTGGCCGCTGGGGCGCGTCACTGTGAT -TCACCGCATCGGGGAATTATGGCCGGGCGATGAAATCGTTTTTGTCGGTGTCACCAGTGCGCATCGCAGC -AGTGCGTTTGAAGCCGGGCAGTTTATTATGGATTATCTCAAAACCCGCGCACCGTTCTGGAAGCGCGAAG -CCACGCCGGAAGGCGACCGCTGGGTTGAAGCTCGGGAGAGCGATCAGCAGGCGGCAAAACGCTGGTAGTT -TTTTGTTAGCCGGATAAGGCACCGCTGCGTCCGGCAATTTCACCGCTCAGTACATACGTTTACGCTGCGT -CGATGCACAGCCTCATCATTTTGCAGTATCCTTAAGATATTCCTTATATCTTCAGGAGATCGTCATGGAC -AGATTCCCACGTTCTGATTCAATCGTACAACCCCGGGCTGGCTTGCAAACTTATATGGCTCAAGTCTATG -GCTGGATGACCGTTGGCTTGTTGCTGACCGCATTTGTTGCCTGGTATGCGGCTAATTCCGCGGCCGTGAT -GGAGCTGTTGTTCACTAACCGTGTCTTTTTAATCGGTCTGATCATCGCGCAATTAGCATTGGTTATTGTG -TTATCAGCGATGATTCAAAAGCTGAGCGCAGGTGTAACGACGATGCTCTTTATGCTTTATTCGGCGCTGA -CGGGTCTTACGCTTTCCAGTATATTCATTGTCTATACCGCTGCTTCTATCGCCAGTACTTTCGTCGTTAC -TGCCGGGATGTTCGGCGCAATGAGCCTGTACGGTTACACCACGAAGCGCGATTTAAGTGGCTTTGGCAAT -ATGCTGTTTATGGCGTTAATCGGCATTGTGCTGGCATCGCTGGTCAACTTCTGGTTGAAAAGCGAAGCAT -TGATGTGGGCAGTTACCTACATCGGCGTGATTGTCTTTGTCGGATTGACGGCGTATGACACGCAGAAACT -GAAAAATATGGGTGAGCAGATTGATACCCGCGACACGTCGAACCTGCGCAAATATTCCATTCTTGGCGCG -TTAACCTTGTATCTGGACTTCATCAACCTGTTCCTGATGTTGTTGCGGATCTTCGGCAACCGCCGTTAAT -TCTTTTTCACCATCACTATCCCGGCCATGTGTCGGGATTTTTTTCTTACTAAAAACGACACTTAACAAGT -ACCAGGTATAAAATATGCCTTATGGACGAGCGGAAGCGTTTTCTGTATCCATAAATGCAAAAGTATTTTG -TATGCGTGGTTTTAAATTTATTGATGGTGAATATTAATATTTTTTCTAAGGATAACTAAAAGAATGGAAT -CATACTCGCAAAACAGCAATAAATTAGATTTTCAGCACGAGGCCAGGATATTAAACGGTATATGGCTCAT -TACCGCTTTAGGTTTGGTGGCAACCGCAGGACTAGCCTGGGGAGCTAAGTATATCGAAATTACGGCAACC -AAATATGATTCACCACCAATGTATGTCGCCATAGGGTTATTATTACTTTGTATGTATGGCTTAAGTAAGG -ATATCAACAAGATAAATGCCGCCATCGCGGGCGTAATATATCTGTTTTTACTCTCTTTGGTGGCGATTGT -CGTTGCAAGTTTAGTTCCTGTATATGCCATTATCATCGTGTTCAGCACTGCGGGCGCGATGTTTTTAATC -AGTATGCTGGCCGGTTTATTATTTAATGTTGATCCTGGTTCTCACCGTTTTATCATTATGATGACGTTGA -CAGGGTTGGCCCTGGTAATCATCGTGAATGCGGCATTAATGAGTGAACGGCCCATTTGGATAATAAGTTG -CTTAATGATTGTGTTATGGTCAGGCATTATCTCGCATGGACGAAATAAGCTCCTTGAATTGGCGGGGAAA -TGCCATAGTGAAGAGTTGTGGAGTCCGGTTCGTTGCGCTTTTACAGGTGCATTAACACTCTATTACTATT -TTATCGGCTTCTTTGGGATACTTGCCGCGATAGCTATAACGCTTGTCTGGCAAAGGCATACGCGTTTTTT -TCATTAGCCGTAAATGCACATACTAAAGAACTTAACTAAACTTCACATCGCCGCTTCATTTTTCGCCCGT -AGCTTCTTCGCCTGGCTTTCCAGCAACAGGTAACAGATCAGCGCCAGCAGCAGTGGGATAAAGTAATACA -GCACACGGTAAGCGAGTAGGGCGGCGATAATTGTACCTTTGGAGGTATGCTCCCCAGCCAGTAGTGCGAT -AAACACCGCTTCCAGCACACCGATCCCCGCCGGAATATGCACGATGACGCCAGCAATACTACTAACCAGT -AACACGCCCAGTACAAAGAAATAGTTCACGCTTTGACCAAGTAACAGCCAGATAATCGCCCCCATTACCA -TCCAGTTAACGCTGGAAATCAGCATCTGAGCGAGGGCGAATTTCCATGAAGGCAGCACCAGCTTTTGCCC -TTTGATGGTCATATGGCGGTGCTTCGCGAAAGCGCAAAACCACAAATAAACCGCGATAATCATCAGTAAG -CCAATGCCGAGAATACGCAGCGTAGTTTGATCGACATACCAGTGATCCGGCAACTCCACCACGCCTGCGG -TAAAGATAATCCCTGCCAGTAAAATGTAGCCCAGCCAGTTGGTGGTAATACTGAGCGAGAAAATCCGCGT -AATAGTGCTACCGGGCAACCCCAGACGAGAGTACAAACGATAGCGCATACCAATGCCGCCGACCCAGGTA -CTGAGCGTCAGGTTGAAGGCGTAGCAGATAAACGACACCAGCATCACCTGGCGCTTCGCCAGTTTGTGAC -CGCAGTAAAAGCGGGCGAGCAGGTCATAGCAGCCGTAAATCAGATAGCTGACGACCACCAGCCCGACCGC -ACTAAGCAGCGCAACGCGATTGTAGTCGCGGATGACCTTCCAGACCTCTTCCCAGTCCACTTTTTTGGCG -TAGACCACCAGCAACACAATCACCGCGATAAAAAACAGCCAGGTGAGGATCTTCTTTGCTAAGCGCCAGC -GCGGGTGTGATTTACTCATCAGGGTTTTACCCCCGTGTTTTCAGTTTCTACCCGATCCTGCGTTTCCATT -GTCGGTTGTGCGGGCGGATCAACCTGCGCCAGACGTGGCGTGTGTGCCGGAAGCCAGCCAACCAGCGCCG -GGAAGTGGCGTAAAAAGTGGAACGCCAGCACGCTTTTGGTCAGGTTCCACCAGGTGCGTTTGGGCAGCAT -GGTTTCATCCACCTGCTGACAATCTGCGGCAATAATGCCGTTCAGATTATCGCGCAGCGTCTGGTTAAAA -TGACGATCGTGGATGATGACATTTGCTTCGAGATTCAGTGACAAACTGAGCGGATCGAGATTACTGGACC -CTACTGTCGCCCAGTGATCGTCCATCAATGCCACTTTGCCGTGGAGCGGGCGGCGGCGGTACTCAAAAAC -CTGAACGCCGCCTTTAACCAGATAGTTATACAGCAAGCGCGCACCGACTCTGACAATCGGCATATCCGGT -TCGCCCTGAATGATCAGTTTGATCCGCACCCCGCGCCGTGCCGCTTTACGCAAGGCGTGTAAAAATCGAT -AGCCGGGGAAGAAGTAGGCGTTGGCGATAATCACTTCCCGCCGCGCCTGAGTGAGCATTTTCAAATAATG -GCGTTCAATATCATCGCGATGTTCTTCGTTATCGCGCCAGACCAGCAATACCTGCGCTTCTCCCGGCTGG -CGGTTCTCTTCCGCTTTGTGATGACGTCGCCACCAGCGTCGTGCCGCGCTCTGTCCAGGCAGGTTTTCCA -GCTCAAACTGGAGAATATCTTCGACAATCGGCCCTTCAAGGCGTACCGCGTAATCCTGTTTAGCCTCTGG -ACCGTAGCTGGACATATGCTCGGCGGAGTAATTCAGCCCGCCAATAAAGGCTATACGCGCGTCGATCACC -ACAATTTTGCGATGCATCCGGCGAAACACATTGGTGCGCATACCAAAAAGGCGAGGGCGGGGATCGTAGT -AGCGGAACACTACGCCAGCTGCCGTCAGTTCATTGACAAACTCATCGCTGAGATCCGGCGAACCGTAGCC -ATCCAGCAAGACTTCCGCTTTAACCCCGCGTTGCGCTGCTGCCAGTAGTGCCGCATGCAGTTGTTTGCCG -ACGTCATCCTCAAACCAGATAAACGTTTCAAGAATGATGCGTTCTTGTGCCTCGCCAATCGCCTTAAACA -CCGCGGGATAATATTGCTCGCCGTTTTCCAGCAACTGGATCTTATTGCCTTCGCGCCAGCTACATTTCAT -AAATGAATCTCCGCACTTAAAGGGGCATGATCAGAAAGGTGTCGCCATGTCCGCAGCGGCAACGCGGTTG -GCGCGCTGGCGCTGGCATTTTTGACGTAGATCCTGTCCAGTCGTAGTAGAGGAAATTGCACCGGAAACGT -GCGCGCCGGGCGTCCGTGGGCGCGGGTAAAAATCTCATCCAGTCCGGCCTGCACTTTTAACGGATGATTA -GCTTTTTGCCGCCAGTCATTGAAATCACCCGCCACCAATACCGGTTCGCCGTCCGGTAGCTCATTCACCC -ATTCGGCGAGCATCGCAAGCTGCGCCTGACGGTGCGCCTCACGCAGGCCCAGATGTACGCACATCACATG -AATCGCTTTTCCGGTCATCGGCGGCACAATGCGGCAGTAGAGCACGCCGCGCTTTTCCGCACCATCGACC -GAAACATCGCGATTCTCATAATGTTCAATGGGATAACGCGACAGTACGGCGTTGCCGTGATGCCCTTCCG -GGTATACGGCATTGCGACCGTAGGCAAAATCGCTCCACATAGTGTCGGCGAGAAACTCGTAGTGCGAGGT -ATCGGGCCAGTTTTCCACATGCAGCGGATGAACTTCGTGCGCGCCCATCACTTCCTGCAGGCAAACAATA -TCGGCGCTGACGGTACGCACGGCGTCGCGAAGTTCCGGCAAAATGAAGCGTCGGTTAAACGCGGTAAAGC -CTTTGTGAATATTGATGGTGAGCACCTTGAACGAAAATTGTTGTGTTTGATCGGGCATAATTTTCCTGTC -TTTGCCTCTTATCTCATTGAAATAGTGTAGTCGGCGTCACAAAAAGGTGCGGTCTTACGGAATTTTCCGT -AAAGTTCGGTACTCTGAGTAAGTAGAGATAAATTCTTCAGGAGAGAAGCCATGAAGTGGCAACAACGTGT -TCGTGTCGCAACGGGTCTAAGTTGCTGGCAGATTATGTTGCATTTACTGGTAGTGGCGCTGCTGGTGGTG -GGCTGGATGAGTAAGACTCTGGTTCACGTCGGCGTGGGATTATGCGCACTGTATTGTGTCACGGTAGTGA -TGATGCTGGTGTTTCAGCGCCACCCCGAGCAACGCTGGCGTGAGGTGGCAGACGTGCTGGAAGAGCTGAC -CACGACCTGGTATTTTGGCGCAGCGCTGATTGTGCTGTGGCTGTTGTCCCGCGTTCTGGAAAACAACTTT -TTGCTGGCAATTGCAGGGCTGGCAATCCTTGCCGGCCCGGCGGTAGTGTCTTTGCTGGCGAAAGATAAGA -AGTTACATCACCTTACGTCTAAACATCGCGTACGCCGCTGACCCTGTCGTGGCCGTTATCACCAGTAGCG -GCCACAAACTATTCCACACAATATCCAGACTCGCATCCTTCAAATAAATCTGCTTGGTAATGTCCGTAAA -GTGGCGAATAGGGTTAATCCACGTCAGGTTTTGCAGCCATACCGGCATGTTTTCCACCGGAGAAACGTAA -CCGGAAAGGAGAATGGCGGGCATCATAAAGACAAACACGCCGATAAACGCCTGCTGTTGTGTTGAACAGA -GTGATGAAATCAACAGACCGAATCCCACCAGCGATAAACCATAAATCACCATCGTAAAGTAGAACAGCGC -CAGCGATCCGGCGAAGGGGATTTGATACGCCCAGATACCAATCGCCAGCACAATGGTGGCCTGGAAGGTG -GCGACAATTAACGCCGGTACGGCTTTGCCGATGAAGATCTGCCAGGTGGTGAGCGGCGAAACCAGTAGCT -GATCGAGCGTACCTTGTTCACGTTCGCGGGCGACGGAAAGTGAAGTGACGATCATTACGCCGATAGTGGT -GATCATGGCGATCAGTGACGGCACCACAAACCATTTGTAGTCGAGATTCGGGTTATACCAGTTGCGTACC -ACCAGCTCGCTGTTGTTAGGTTTCGGTTTTCCTTCCAGCAGCTCCTGCTGATAATTTTTGACGATCTGTT -GCAGGTAGTTGGCGGCAATTTGCGCACTGTTGGAGTTACGCCCGTCGAGGATCAACTGCAAAGGCGCGGT -CTGGAAGGTATCCAGTTTGCGCGAGAAGTCAGCCGGGAAACGCACCAGTAGTAACGCCTTTTGTGTGTCG -ATGGTTGGGCGGATCTCCTGTGGGCTTTTCAGCAGCAGCACATGAGTAAAGGCGCTGGCGCGGGCAAAAC -GTTGGGTCAGCTCCACCGAATGCTCGCCGTTATCTTCATCGTAGATGGCGATGGTGGCGTTAGTCACTTC -CAGCGTGGCGGCGAACGGGAACAGGATCACCTGAATTAGCACGGGTAAAATCAGAATCGCGCGGGTTTGC -GGTTCGCGCAGCAACGACTGCAACTCTTTGCGGATTAACGTCCATAAGCGATGAAACATGCTCTTCTCCC -TAATCCAGCCGACGTTTGGTTTTCAGCCACGTCAGGCCGATAAACATCACCGCCGAAGCGATCAAAAACA -GCACGTTTACCACCAGCACCACTGGAATATTCCCGGCGAGGAACAGGCTTTGCAGGGTGCTGACGAAATA -ACGAGCGGGAATAATGTACGTCACCGCGCGGATCACCGCGGGCATACTGTCGATCTGAAAAATAAAGCCG -GAAAGCATAATCGACGGCAGAAAAGCGGCGTTCAGGGCGACCTGAGCGGCATTGAACTGGTTGCGGGTAA -TCGTGGAAATCAGCAGCCCCATCCCCAGGGTACTGAGTAAAAACAGGCTGGAGATAAAAAACAGAATCAG -CAGCGACCCGCGATACGGCACGCCGAGAATAAACACTGACACCAGCATACACAGCAACATCGCCAGCATC -CCGAGAAAGTAATAAGGGATCAGCTTACACAGCAGCAGTTCCGTGCGGGTAATCTCCGTAGAGAGCAGAG -CCTCCATGGTGCCGCGTTCCCATTCTCGCGCCACCACCAGCGAGGTGAGAATCGCGCCGATGACCGTCAT -GATAATGGTCACCGCACCGGGGATAATGAAGTGCTGGCTAATCGCCGCCGGGTTAAACCAGTAGCGGGTT -TGTACATCAATAAGCGGTTCAAAAGTCTGCCCGTTGTCCTCCGCTCGCTGCATTTGCCAGATCTGCCAGA -TCCCTTCGACATACCCCTGTACAAAGTTAGCGGTATTCGGCTCACTGCCGTCGGTGATCACCTGAATCGG -TGCGGTGGCGTTGGCGCGCTCCATCTGTTCCGCAAAATCCACCGGAATAACCACCAGACCGCGAATTTTC -CCCGCCTGCATTTTGGCGATCAGTTCCTGACGGTTATCGCTGATGGTGGCGTCGATGTAGGGCGAACCGG -TCATGGTGTGGGTGAAATCCAGCGCCGCTTCGCTACGCTGTTCCAGTAAAATCCCGACCCGCAGCTTGCT -GGAGTCGAGGTTAATGCCGTAACCAAAAATAAACAGCAGTAGCAGCGGGATCACTACCGCAATCAGCCAG -CTACTCGGATCGCGAACGATCTGCCGCGTCTCTTTAACGCACAGCGCCCGTACGCGACGCCAGGACAGGA -TCGGGTTACTCATTGCTATGCTCCTTATCCCAGTCGTGGATCAACTGAATAAAGGCTTGCTCCATGGTGG -GATCGGGTTGCTCATCGTTAGCCGACTGTGCTTTCAAATCGTCCGGCGTGCCGCTGGCGATTAATTTCCC -GCGGTACACCAGGCCGATGCGGTCGCAATATTCCGCTTCATCCATAAAGTGGGTGGTGACCATCACCGTG -ACGCCTTTCTCTACCATGCTGTTGATGTGCAGCCAAAATTCACGGCGGGTGAGGGGGTCAACGCCGGAAG -TCGGTTCGTCGAGAAACAGAATGTCCGGTTCATGCATCAGCGAACAGGCCAGCGCCAGCCGCTGTTTAAA -ACCTAATGGCAGTTCATCGGTGGCGTGGGAGGCGATACTTTTCAGGCCGAACGCCTCGCTCATGCGGGAG -ATTTTTTCGTTCTGCGCCCGACCGCGTAAGCCATACACACCAGAGAAAAAGCGTAAATTCTGTTCGACCG -TCAGGTTACCGTAGAGCGAAAATTTTTGCGCCATATAGCCGAGATGCTGGCGCGCTTTACCGGAACTCTC -TTTCAGATCCATCCCCAGCACCAGCGCCTGGCCGGAAGTCGGCACCAGCAAACCGCACATCATCTTAAAG -GTGGTCGATTTACCCGCGCCGTTTGGCCCCAGCAAACCAAAAATCTCCCCACGTTTAACGGCAAAGTTGA -CGTGATCGGTGGCGGCAAAATCCCCAAATTTCTTGGTCAGTTCTTTCGCTTCGATCACCGTCTCGCCGGG -TGTGCCTTCTACCGTATGTAATATTGCGCCCAGCGGCGATTCCGAGGTTCCGGCACCGCCCAGCAAATCA -ATAAACGCATCTTCAAAACGCGGCGTAGTTTCGTTGATGTTGATTTCCGGCATCCCGTCGGCATGGCGAA -TATCGTCTGGTGTGGCCTCTTTTTTGAGGATCAGACGTACCGATTTCCCCTGAATCATGCCGTCGCTGAC -CTGCGGCAGTTTCAAGGCGCGTTGCAACAGTTTGCGGTTGCCCTCGTGTGGACTGGTCATCAGAAAGCTG -CGTCCGGCCATGGTTTGTGTCAGGGCTTTTGGTTCTCCCTGATACAGCAACTCGCCTTCGTTCATCAGTA -ACACGTCACGGCACTGCTCGGCTTCGTCGAGATACGAGGTACTCCAGAGGATTAACATCCCTTCGCCCGC -CAGCTCATGCACCATCTGCCACAGTTCGCGCCGTGAGATAGGGTCAACGCCGACGCCGGGTTCATCGAGC -AGCAACACTTTCGGTTCGCCCACCAGGGTACAGGCCAGACCGAGTTTTTGTTTCATCCCACCGGAGAGCT -TGCCCGCCAGGCGTCCGGTAAACGGCCCAAGAGACGTAAACTCCAGCAGGCGAGCAAAAGTTTGCTTACG -TGCCTCGCCGGTGACGCTGCGCAAATCCGCGTACAGATTGAGGTTCTCCATCACCGTGAGATCTTCATAC -AGACCAAATTTCTGCGGCATATAACCGAGCACGGCGTGCAGCGCGCCGTCGTTTTTGATCGGATCAAAGC -CAATCACCGTGGCACTGCCGCTGTCGGGTTTCAGTAATCCCGCCAACATCCGCATCAGCGTGGTTTTACC -TGCACCGTCCGGCCCCACCAACCCCGTCACATAACCGGCGTGAATGGTACAATCGAGCGGCGCGACGGCG -GGCTTGTCCATGCCCGGAAAGCGTTTTTCCAGGCCGTTCAGCGTGATAACGGCATCATTCATGTCCTGCC -TCGTCACCGAATTGTACCGTCACTGGCATTCCCTGGCGTAACGCATCATCGGCGTCGGTCACCACAATAC -GCAGGCGATAGACGAGGTCGGTACGCAGATCCGGCGTTTCGACGGTTTTCGGGGTAAATTCAGCAGTCGG -CGAAACGAAACCAATCTGCCCGTGATACGGCTTGTCCGGGCGACCATCGGTATAAAGCAGCACTTTGCGC -CCCGGCTGGGCCTGGTCAAGATTACGTTCATCAACATAAGCGCGCACCCACACCGGACGCGTTAGTGAAA -CGGTAAACACCGTGCCACCTTCATTGAGGACCGTGCCTGGCTCCACCGCGCGCGTTAACAGCGTGCCATC -AGACGGGGCTATCAACGTTGAGTCCTGTAAATTCAACTCCGCCTGCGCCAGTTGCGCCTGCGCCTGTTCG -AGGCTGGCTTTCGCCTGAGCGATGTCCTGTTCACGGTTACCGGAACGGTACTGACGCAATTTATCCTGTG -CTGATTTCAGCGTTGCCTGCGCCTGGTCGCGCGAGGAGCGGGCATTTTCCAGGTCATTTGCCGAAATAGT -GCGGCTTTTCCACAACCCTTGCTGGCGGTTATAGAAGTTCTGCGCATAGTCATAGGCGGCTTGCGCCTGT -TTCACCGCTGCGGCGGCCTGAGCGATTTCTTCATTGCGATACCCGGCAAGCATCAGGTCATACTGCGCCT -GTGCCACCGAAACACCCGCTTTCGCCTGCATCAGGGCAATCTCATACGGCTTGTGATCCAGTTCGCCCAG -CACCTGGCCCGCTTTGATAGCATCACCTTCGTCCACCGCCAGCGATTCAACGCGCCCCCCAACACGGAAA -CTAAGATTTACCGTACGAATATCCACGTTGCCATACAGCGTCAGGCCGTTATCCTGGCGGCTTTGATACC -ACCAGTAGCCTCCGGCAACCACGGCGGCAAGTACCACTACCGCCAATCCGATCACGACAGGTTTTTTCAT -CACTACAAACTCCTTTGCGATAATCCTTGCAAAATCAGGTCGATATGACAGGTCACCGTCTGGTTGATCA -GTTCGGTCTTTTCTTCATCGAACGCGGTCCAGCCGGTACGTAACAGAATTGTTTCTTTGCCAAGACGGAA -CGCCAGAATCTCACCAATCAACGCATGGGTATGAAGGATCATGCGGGTGTCATTGGCGTCGCAGCCGGTC -CAGGCGGCAATCAGGCGTGTCAGGTGGCTGTGTAGCGGACTAATCACCTGTTCGTGCACCAGGTGGTAGG -CTGCCGTGGGAGAGAGCTGCTCACGGGAGATAAACTTGCTGAGGTTGACGGTGTCATCCTGGGTGAGCAG -CTTAATCATGTTCCTGCAGGCGCGAAGGATCAGTTCACGGATGGCAGCCCGATCAGGCTGTGGTTGCGCG -AACAAGCGTTCGGCTTCCTCGGCATGCGGACGGAACTGCTCGCCAATAAAATCGGCAATCCACTGGGCGC -AGGCGAGGTACAAATCTTCTTTCGAACCGAAGTAGTAGGTGATGGCAGCGATATTCTGCCCGGCCTGGGC -GGCTATCTCGCGAGTGGTGGCGTTCATTCCATATTCACCAAACTGCGCCAGTGCGGCAGCAATCAGCTGT -TTTTTCGCCTGTTCACCCTTGATTGTCATGGCAGGATTATTCATCGCACAGTCCATTCTTAATCAAATGA -TTGATTAAGATTATGACTCCATAGGGGAGTTGTCCAGTATGGCTAAGAATTTTAGCAACGCCAGTCACAG -GGATAATTTATGCGCTGCGTCACAAAAACTGCTACACTCCGCTCCCTCATGACATTGTGGTTTTTGTCAT -TTTCCTTTTCAGTATCTCCCTGAAAACTACACCGGTAACGGTCGGGGCGGTTCGGAGTAGTTATGTCTTT -CGATTCTTTGGGTTTAAGCCCTGATATCCTGCGCGCCGTTGCCGAGCAGGGTTACCGTGAACCCACCCCT -ATTCAGCAGCAGGCGATCCCTGCGGTGCTGGAAGGCCGCGACCTGATGGCTAGCGCCCAGACCGGCACCG -GCAAAACAGCGGGCTTTACGCTGCCGCTGTTGCAACACCTGATCACTCGCCAGCCGCACGCCAAAGGGCG -TCGTCCGGTACGTGCGCTCATTCTTACCCCGACCCGTGAACTGGCGGCGCAGATTGGCGAAAACGTCCGT -GATTACAGCAAATACCTGAACATTCGTTCGCTGGTGGTGTTTGGTGGTGTGAGTATTAACCCGCAGATGA -TGAAACTGCGTGGCGGCGTTGATGTGCTGGTGGCAACCCCGGGACGTTTGCTGGACCTGGAACATCAGAA -TGCAGTGAAGCTGGATCAGGTTGAAATCCTCGTCCTCGATGAAGCTGACCGCATGCTCGACATGGGCTTT -ATCCACGATATCCGTCGCGTGTTAACAAAACTACCTGCGAAGCGCCAGAACCTGTTATTCTCCGCGACCT -TCTCTGACGATATTAAAGCCCTGGCGGAAAAACTGTTGCACAACCCGCTGGAAATCGAAGTGGCACGCCG -CAATACCGCGTCTGATCAGGTGACCCAGCACGTTCACTTTGTCGATAAGAAACGCAAACGCGAATTGCTG -TCGCACATGATTGGGAAAGGGAACTGGCAGCAGGTGCTGGTGTTTACCCGTACCAAACACGGCGCTAACC -ATCTGGCTGAACAGCTCAATAAAGATGGCATCCGTAGTGCGGCGATCCACGGCAATAAATCGCAAGGTGC -GCGTACTCGTGCGCTGGCTGATTTTAAATCGGGCGATATTCGTGTACTGGTGGCAACTGACATCGCTGCG -CGCGGCCTGGATATTGAAGAGCTGCCGCACGTCGTCAACTATGAACTGCCAAACGTACCTGAAGATTATG -TCCACCGTATCGGGCGTACCGGTCGTGCGGCTGCTACCGGTGAAGCGTTGTCGCTGGTGTGTGTTGATGA -ACACAAACTGCTGCGTGATATCGAAAAACTGCTGAAAAAAGAGATCCCGCGCATTGCGATTCCGGGCTAT -GAGCCGGACCCGTCAATCAAAGCCGAACCGATCCAGAACGGTCGCCAGCAACGTGGCGGCGGCGGTCGTG -GGCAAGGTGGTGGTCGCGGTCAACAGCAACCACGCCGTGGGGAAGGTGGCGCAAAATCTGCAAGCGCGAA -ACCTGCAGAAAAACCGTCTCGCCGCCTCGGCGATGCCAAACCGGCAGGCGAACAACAACGTCGCCGCCGT -CCGCGTAAACCTGCCGCTGCGCAGTAATCTTTTATGCCGGGCTATGCCCGGCATCAGGCTGATGAACAAA -CGCAAAACTGCCTGATGCGCTACGCTTATCAGGCCTACGTGAACTCTGCAATATATTGAATTTGCATGCT -TTTGTAGGCCGGATAAGGCGTTTACGCCGCATCCGGCATTTCACAACAAGCACTTGTCAGCAATTTGAGA -ACACGGGAAAAAATTTATCTGTTTTACCGCCCATAAGCCACCGAGACGTTACTTCTCTATAGCCAATTGT -TCGCGCAACTCCATTAAAAGGTAGCCCAGTCGATTCTTGCCCTTACCATGACCACCGTCTCCCCAGTAAG -CATCGTTTTCCGTATGCTCAACCAGTTTTGCGGGCGCGGTTGCCAGCAAGAGCGCACGCAGTTCTGCATG -CTGTTCGAATTTAGCGCGAAGTGCTTTTCGCATCACCTGTTCTTTGACCGACTCCCAGTTTTTACGCAGA -GGCTTAGAACGATCGCGCCCCATGCGTGCGGCGACCATAGGGGAAGAAACCCGACGGATCTCTTCGCGGT -ATTTTTCATCAAGGAATTTTTGTGCCTGAAAATAGTGTTCTGAGGTAGGCCAGGTTTTCCCGTCAACCTT -GATGGGCCAGGCGGCAAAGTTAGAAAAATCACCGTAGTCATCGCTGGTGCTGTAGAAATTTATGATGGTG -TCTTGCATGACGTGTTGGATCCTTTGTGCTCGAACGGGCATTAAACCGCATTATGTTGGTGGTTATTGCG -AGCCGCTTTCCAGAAACAGAAAAACCATTACCCCTGAAAACCGAAAAATGCCACAATATTGGCTGTTTAT -ACAGTATTTCAGGTTTTCTCATGGCATTAACCGCCGCGCTTAAAGCGCAAATTGCCGCCTGGTATAAGGC -GCTTCAGGAACAGATCCCCGACTTTATTCCCCGTGCGCCGCAGCGGCAGATGATTGCGGACGTCGCCAAA -ACGCTGGCCGGAGAAGAAGGGCGACATCTGGCGATTGAAGCCCCCACCGGCGTTGGGAAAACGCTCTCTT -ATTTGATTCCCGGCATCGCCATTGCCCGCGAAGAGCAAAAAACGCTGGTGGTGAGTACCGCCAACGTGGC -ATTGCAGGATCAGATTTACAGCAAAGATTTACCGCTGCTGAAAAAGATCATTCCCGATCTTAAATTCACT -GCCGCTTTTGGGCGTGGGCGCTACGTTTGTCCGCGTAATCTGACGGCGCTCGCCAGTACTGAACCCACGC -AACAGGATCTGCTGGCGTTTCTTGACGACGAACTGACGCCGAACAATCAGGAAGAGCAAAAACGTTGTGC -GAAGCTGAAGGGCGATCTCGATACTTATAAATGGGATGGTCTGCGCGATCATACTGATATCGCTATAGAT -GACGATCTCTGGCGTCGTTTAAGTACCGACAAAGCCAGCTGCCTCAACCGCAATTGTTACTACTATCGTG -AATGCCCGTTTTTTGTCGCTCGTCGGGAGATTCAGGAAGCGGAAGTGGTGGTGGCAAACCATGCGCTGGT -GATGGCGGCGATGGAAAGCGAAGCGGTATTGCCTGACCCGAAAAATTTACTGCTGGTGCTGGACGAAGGC -CATCACCTGCCGGATGTGGCGCGGGATGCGCTTGAGATGAGCGCCGAAATCACCGCGCCGTGGTATCGGC -TACAGCTGGACTTGTTCACGAAACTGGTCGCTACCTGCATGGAGCAGTTTCGCCCGAAGACCATCCCACC -GCTGGCGATCCCTGAACGTTTGAATGCGCATTGTGAAGAGTTGTATGAGCTTATCGCCTCGTTAAACAAC -ATTCTCAATCTCTACATGCCTGCCGGGCAGGAGGCAGAGCACCGTTTTGCGATGGGCGAACTGCCAGATG -AAGTGCTGGAGATCTGCCAGCGGCTGGCAAAACTCACCGAGATGCTGCGTGGCCTGGCGGAGTTATTTCT -TAACGATTTAAGTGAGAAAACCGGCAGCCATGACATTGTACGTCTGCATCGGTTGATTTTGCAGATGAAC -CGCGCGTTGGGGATGTTCGAGGCGCAAAGCAAACTCTGGCGGCTGGCTTCGCTGGCGCAATCTTCCGGTG -CACCGGTGACCAAATGGGCGACGCGGGAAGAGCGCGAAGGGCAGCTACACCTCTGGTTTCACTGCGTGGG -AATACGTGTCAGCGATCAGCTGGAAAGGCTGCTGTGGCGCAGTATTCCGCACATTATTGTCACCTCCGCA -ACCTTGCGTTCGCTGAACAGTTTTTCGCGTTTGCAGGAGATGAGTGGTCTGAAAGAGAAAGCGGGCGACC -GTTTTGTGGCGCTGGATTCCCCCTTTAACCACTGCGAACAGGGCAAAATTGTTATTCCCCGGATGCGCGT -TGAGCCTTCCATCGACAACGAAGAGCAGCATATTGCCGAAATGGCGGCCTTTTTCCGTAAGCAGGTGGAG -AGCAAAAAACATCTCGGTATGTTGGTACTGTTTGCCAGCGGACGGGCGATGCAGCGCTTTCTCGACTATG -TGACGGATTTACGTCTGATGTTGCTGGTTCAGGGCGATCAGCCGCGTTACCGTTTAGTTGAACTGCACCG -CAAACGCGTCGCCAACGGTGAGCGCAGCGTGCTGGTGGGCTTACAGTCATTTGCCGAAGGGCTTGATTTG -AAAGGTGATCTGCTCAGCCAGGTGCATATCCACAAAATCGCTTTTCCGCCCATCGACAGCCCGGTGGTGA -TCACCGAAGGGGAATGGCTGAAAAGCCTCAACCGCTATCCGTTTGAGGTGCAAAGCCTGCCGAGCGCCTC -GTTTAACCTGATTCAGCAGGTTGGGCGACTGATTCGAAGCCACGGTTGCTGGGGCGAAGTGGTTATCTAC -GACAAACGCTTGCTGACCAAAAATTATGGCAAGCGACTACTGGATGCATTACCGGTATTTCCGATAGAGC -AACCGGAAGTCCCTGAAGGTATAGTTAAAAAGAAAGAAAAAACGAAATCCCCACGCCGTCGGCGGCGTTA -ATGATGTGAGTCAGGTAAGGAGTCGTAAATGGACTATCGCAAAATCATTAAAGAGATCGGGCGCGGGAAA -AACCACGCGCGCGATTTAGACCGGGATACTGCGCGCGGTCTGTATGCTCATATGCTCAATGGTGAAGTCC -CTGACCTTGAGTTGGGCGGCGTATTGATTGCGCTGCGTATCAAAGGAGAAGGGGAAGCAGAGATGCTCGG -CTTTTACGAAGCCATGCAAAATCACACCATCAAGCTGACGCCGCCAGCAGGCAAGCCGATGCCGATTGTC -ATCCCCAGTTACAACGGCGCGCGTAAACAGGCCAACCTGACGCCGTTGTTGGCGATTCTCCTGCACAAAC -TCGGTTTTCCTGTGGTGGTTCACGGGGTTAGCGAAGATCCAACCCGCGTGCTGACTGAAACCATTTTTGA -ATTGATGGGTATTACGCCAACGTTGCACGGCGGGCAGGCGCAGGCGAAGCTCGACGAACATCAACCGGTG -TTTATGCCAGTCGGCGCGTTTTGCCCGCCGCTGGAAAAACAACTGGCGATGCGCTGGCGGATGGGCGTGC -GTAACAGTGCACATACCCTGGCGAAACTGGCGACGCCATTTGCCGAAGGTGAGGCGCTGCGTCTTTCCAG -CGTTTCGCATCCGGAATACATTGGACGCGTCGCGAAGTTCTTTAGCGATATCGGCGGGCGGGCGCTACTA -ATGCATGGTACTGAAGGTGAAGTGTATGCTAATCCGCAGCGCTGCCCGCAGATCAATCTCATTGACCGTG -AAGGGATGCGGGTGCTGTATGAAAAACAGGACACTGCTGGTAGCGAGTTACTGCCACAAGCAAAAGATCC -GGAAACCACGGCGCAGTGGATTGAGCGTTGCCTTGCTGGCAGCGAACCGATTCCCGAATCGCTGAAAATC -CAGATGGCTTGCTGCCTGGTGGCTACGGGTGAAGCGGCAACTATCAGCGACGGCCTGGCGCGCGTTAATC -AGGCATTTTAATTCTTTTCTCAGCCGGATGAGCCATGTCATCCGGCTTTTACCCCACCGCAATATGAAAT -TCCTGCATCTTTATTGACCTTCCCACGCCCGGCGTGCAGCATAAAAATACAACAAACACATAACATAAAC -AGGAGTTAACCATGGAAAGTGGTCATCGCTTTGATGCTCAGACGCTGCACAGTTTTATTCAGGCTGTATT -TCGTCAGATGGGTAGCGAGGAACAAGAAGCGAAATTAGTTGCCGATCATTTAATCGCGGCAAACCTGGCA -GGGCATGATTCACATGGTATTGGCATGATCCCAAGCTATGTACGCTCCTGGAGTCAGGGGCACCTGCAAA -TTAACCATCATGCCAAAACCGTTAAAGAGGCGGGGGCGGCGGTCACGCTCGATGGCGATCGCGCATTTGG -TCAGGTCGCGGCACATGAAGCGATGGCGCTGGGGATTGAGAAAGCGCATCAGCACGGTATTGCCGCCGTG -GCGCTACATAACTCGCATCATATCGGCCGTATCGGTTACTGGGCGGAGCAGTGTGCAGCGGCGGGGTTTG -TCTCTATCCACTTTGTTAGCGTGGTCGGTATTCCAATGGTCGCGCCGTTCCACGGTCGCGACAGCCGCTT -TGGCACCAATCCGTTCTGTGTGGTTTTCCCTCGTAAAGATAATTTCCCGCTGTTGCTTGATTACGCCACC -AGCGCCATTGCATTTGGCAAAACCCGCGTCGCCTGGCATAAAGGCGTCCCCGTGCCGCCAGGTTGCCTGA -TTGACGTTAACGGCGTGCCGACGACCAATCCGGCGGTAATGCAGGAGTCGCCGTTGGGTTCGCTGTTGAC -CTTTGCCGAACATAAAGGCTACGCCCTTGCAGCGATGTGTGAAATTCTTGGCGGGGCGCTTTCCGGCGGT -AAAACGACGCATCAGGAAACGTTACAAACCAGTCCCGATGCCATTCTTAACTGCATGACCACTATCATCA -TCAACCCGGAACTCTTCGGCGCGCCGGATTGTAACGCGCAGACCGAAGCCTTTGCCGAGTGGGTGAAAGC -CTCGCCGCATGATGATGATAAGCCGATTTTGCTACCGGGCGAGTGGGAAGTGAACACGCGTCGCGAACGG -CAGAAGCAGGGGATTCCACTGGATGCGGGAAGCTGGCAGGCCATTTGTGATGCAGCGCGGCAGATTGGTA -TGCCGGAAGAGACGTTGCAGGCTTTCTGTCAGCAGTTAGCCAGCTAAAAAAAAGCCCGTCCAGTGGCGGA -CGGGCAAACAAGGGTAACATAGGATCAATGAGGGTTAGAGCATATGCGTCTGTCGGCAAACAGACAGGGA -AATACTTGTGCTGGACGTAGCGTAAACGCCTGATCCGTCCAACGGTTCGGATTTTGTAGGCCTGATAAGA -CGCGGTAGCGTCGCATCAGGCATCTGTTGCCGGATGCGGCGTAAACGCCTTATCCGTCCTACGAATTACT -TATAAATTACCGCAGTACCGCTTAATTTATTGTTGTTGGTGGCGGAAGTGATGCTGTATCCACTGGCACC -GGCTGCCGCGGCTTTCTCAGCCAGTTTCGCTTCCAGGGCATCGAGGGTGGATGCGCCATCGGCAGAAACC -ACGCCGATTTTATTCATGTTCTGTGCCTGGGATGCCGTTACCGGTTCCGCCGCGAACACGCCAAATGACA -GAGTTGAAAGAGCCATAGCAGCAACAACAGTATTGATAGTTTTCATAATTAATCTCTCGCAGGTGATTTT -TGTATAAGTGACGTTGTTTCGTCGATGTGATGAGTATCACGTTTTTTTACGAGAGATAAAATCGAAGAGA -ATTGACCGCCTTGTTCAAATAAATTGATTGATATCTAACCTACTGATAAACCATTTATTTGTTGTACTTA -TGAACTTGTTTTATACCGCGTGGCAGTCACAGCAGCGTTAAAGGCACGGAATGACACGCAAAATACAAAT -TATACTCGCTATGCATCTCGCCAGTTGTAGTTAACGTAACTGGCTGTCTTTCGAACCTCTGCGATTATAT -CCTGTATAAGCTGGTTTTTGTAAATCTTTCTCCTGCTGACAATGAATACATAAGCGCACGCCAGGAATGG -CTTCCCGACGGGCCTGCGGGATGGGGGCACCGCACTCTTCACATTCATCCAGGCTTTCGCCGCGCGGAAT -TTCACCCCGAGCGCGGGCAATCGCATCTTCAATTGTACTGTTGATCTGTTCGTTGACGGCGTCATCGTTA -GCCCAACCGGATGCCATATCGACCTCCCCATATCAATACTTGTACAGTTAAGTGTAGCTAATCCAGGGAC -GAACTCGGGCAGTTCAAGCATCAGATCTCCGACCATTCCCGCAGCAGATTATGATAAAGATTAAGCAGCG -ACAGGATCTCTTCACTTTCGCCGTAGCGGCTTTTCAGCGACTGAATATTGTTGTCCAGTTCAAACAGCAT -GGCGCGCTTTTTATCATCGCGGATCATCGACTGGATCCACATAAATGATGCCACTCGTACGCCGCGGGTT -ACGGGTGTCACGCAATGCAGGCTGCTGGAGGGATACAACACGAGATCGCCTGCCGGGAGTTTTACCCGAT -GTTGTCCGAAGGTGTCATTAACGACCAGTTCGCCGCCGTCGTAGCTTTGTGGATCGCTTAAAAACAGCGT -GGCAGAAAGGTCAGTACGCATCCAGCCGTTTTGTGGATGGCTGCGTACTGCGCCATCCACATGGAAACCA -TAGGTTTCATTGTTCTGATAGCGATTAAACAGCGGCGTGGAAAGGGTACGCGGCAAGGCCGCGGCAAAGA -ATAAAGCATGTTGGTTAACCGCGTTCAGCACCTCATTTTGCAGGGCGGCGTATAACGTGCTGCGGGTGTC -GACCTGTTGATTGTTCTTAACTTGCGCACCTTGTGCGCCGGTGGTGACGCGTCCATCCACCCATTCGGCT -TGTTCCAGTTGTTCGCGAAAACGAGCGACGTCCTGTGGCGATAACACGCCGGGAATGTGGTACATCATAC -AATTTCTCCAAAAAGTGGGGCCTGCGCCCCACATCTGAATCAGAAATGCATATTGGCTGTGAGCAAGAAG -GTTCTTGGCTCGCCCGGGTGATAACGGTAGCCGCTCTTGTTGATTGAGGCGACGTAATCGGTATCAAACA -GGTTGTAAACGTTTAGCTGGAAGTCGAGATTGCGATTAACTCGATACCCCAGTTTGGCATCGGCGACCCA -GTAACCTTCGGTAAACGCTGGCGTTCCCACCGCGCCGTCTGAACCTTTATGCATACTGCCGATATAGCGT -GCGCCCGCGCCAACAGAGATATCGTCGGTTGCCTGATATTGGCTCCATAAGGTGAAGGCGTGCTCCGGGG -TATACGGCAGCGATGAGGAACCATCCTGGGCAACATCTTTGCCGTTTTTGATGGTTGCTTTTTGCTGGGT -ATAGCCGCCAATCACCTGCCACGCGGGAGTGATATTCCCGGCCACGGATATCTCATAGCCTTCGACGCGT -TTCTTACCGTATTGCGAGTAAGTTCCGTCATCATTTTGCTCAACTTCATTTTCGATATCAGTGCGGAACA -GCGCGGCGGTGAGCAACAGACGTTTATCCAGAACCTGCCATTTGGTGCCAATCTCGCTGGTGTTGGCTTT -TTGCGGTTTAAAATCGGTGCGGTTGGCACTGTTACCGCTGCCAGACTGCGCAAGGGCGAAGTTGTTGCCG -CCCGGAGGCTGCTGGGAAACGGCATAGTTAATATAGACATTGCCGTTTTCCGTCAGGTGATACAGCGCCC -CGGCTTTCCAGTTCATCAGATTGCCCGACTTGGCGGTGTCGACGGTGGTGACCGGAGAACCTTTTGCCAC -ACCAGTTGGGCAGGTGATGGCACCGCGTCCGCTGCCGCCGCAGGCGGTGGCACTGTCATATTCAGTATGA -TAATTATCCAGACGGATCCCGCCGTTCAGCTCAAAATCACGGGTGATTTGCAGCGTATCAAAGGCGTAAA -TTGCGAAGGTATCCGTCTGACCATTGGCGTTTGCGCCGTTGCGCGTCAGGCCGCCGGGATGAATGCTGCT -GTCAGGATGATAAATATTTACCGCGGGTAACGTCACCGGATTAACGCCGTAGTTAGTCTGCGTTTCACGG -GTAAATTCCACGCCGGTACTGACATCATGACCGATAGAACCGGTATAGAACGTCGAGGTCAGGTTGGTCT -GGTTGGTGAGAATTTTATTACTCACATCTTTGGTATTCGCCGTGCGTGACCAGGTCCAGCTATTCACATC -GCTGGTGGGCTGAGTAATATTCGACGCCCCGCCCATAATCGCCGTCATCAGGTAATCCTGCTTTACGCGC -GACCAACGGGTAGTATTGCGAATGGTGGTGTTATCGTTGATGTCGTGCTCAAAACGCATGGTGGCGGTGT -CGGTGGTCGAATCGTCGTAATCGGAATCCGTGCCGTAAAAGTTATGAGTATCAACTTTTCCGGAATGATT -CAGGGCCGCCGTTCCCGCAGATGGGGCAGAATAGCCCGGCAAACCGATGGTCGGAATGCCGCCGTCTGGC -GTGTTGTGCTGGGTGACATGCAGATAATTAAGATACAAACGATTCGCTGTACCAAGGCCAAAAGCGACAG -AAGGGGCGACGCCGTAACGCTCATTTTTGACTTTGTCGCGTCCGGCATCGTGCGTTTTTTCGCCCATTAC -ATTCAGGCGCACCGCGGTGGTATCACCAATGACCTGATTGACGTCCAGCGTGCCGCGGCGGAACCAGGCG -CTGCCAATACTGGCGGAGGCGTCAATGCCGGAATCATTGCGCGGCTGCTTGCTGATCATATTGATCGAGC -CTGTCGGTGCGCTGCGCCCGTAGTCGGTGCCGGACGGCCCTTTAATCACTTCGACCTGCTCGGTATTGAA -GGTGTCGCGCGAGACGCTGCCGATATCGCGAATGCCATCAATATAAATACTGTTAGAGGTATCGGCACCA -CGCATATAAATGGCGTCGCCAGTGGTGGAGTTACCGTTCTCACCCGCAAAAAACGCACCCACGCCGGGGA -CGTTTTTGAGCGCGTCGGTAAGGTTGGTTGCGCCCTGATCTTTAATCACTTGTTCAGAAATTACCGTCAT -CGTGCGGGTAGTATCCGCTACCGGACGCGAGAATTTCGGATCGGCAGATTGTTGTGGCGCATAAAGCGAA -GGCGTTGATGCTTCGACAACCAGCGTGTCATCCGCGTTAGTTTGCCCTTCGGCGGCGAGTGCCTGAGCCA -CAGGCGTGATGCCAATACAAAGACCGGCAAAGAACGTGAGCGAATGAAATTGTCTGGCAGGGAAATTGCG -ATTGTTTTCCATTTTGCAGGTGACTTTTTCTTATATGTTGAAATTTTCACTGCCACGAGAAAGCCTCTCT -GCGGATGCGATGCCACTGTTAATCCCGTGATAGTGCTCGTGAAAGTGATAATAATTTTGATAAGCATTAT -CACTTGGAGCGATTTTCTATCACCCATTGCGCGAAAAAGAAATACATTTATTTACATTGAGTTCATATTT -GATGTTTTTTGATTACAAAACAGACGAAAACTGCATCCAGAGGCGAATGCAGTTACGTTGGTGGGGTTAT -TTGTAGATGGTTGCAGTACCGAACATCTGGTCATTTCCGCCTGCGGAATTAATGACATAACCTTTCGCGC -CTTGTTCGCGCGCTTTTTCTGCCAGTTTATCCTCCAGATCGCTTAGGTTTGATGCGCCAGTTGCCGAAAC -GGTACCGGCGGGCCGTAGCTGACCGCTGTCCAGGTTACTCATCGGTTGCGCGGCATAAGCCGTGAGAGAG -ATTCCGCTCAGGACGGTGGCAATCAGTAGTGTGAGGCACTTTTTCATAATGACATCCTCATAAATACAAC -GGGTAGTGCCTGATAAGTGTAGGTCGCCTGCGCGATGCAAATGACGCAAAAAATTGACAGAGATGTGCTT -ATTTTTTGAACGATATATTTTTACAAAATAAGACAAATCAATGACATGCATAATGCTGATTTTTATGATG -AATTGCCATAAACCATAGCCATGTTAAGGTTTTGGGGAATGATAAACGCAGCCAGATATTTACCCTGTCG -CGTTATGCGGGTATCTTACGCCGCTGCTTAAAGGAGAATGCTATGTCCGCCCAGAAACCGGGGTTGCATC -CGCGCAACCGTCATCACAGCCGCTACGATCTCGCCACGCTTTGTCAGGTCAATCCTGAACTCAGGCAATT -CCTCACGCTTACACCCGCCGGGGAGCAAAGCGTAGACTTTGCCAATCCGCTGGCGGTGAAGGCGCTCAAT -AAGGCGTTGCTGGCCCATTTTTACGCCGTAGCGAACTGGGATATCCCCGACGGTTTTCTCTGCCCACCAG -TACCGGGCCGGGCGGATTATATTCATCACCTTGCCGATTTACTGGCAGAAGCAAGCGGAACAATTCCAGC -GAATGCCAGCATTCTGGATATCGGCGTTGGTGCGAACTGTATTTATCCGCTGATTGGCGTACATGAATAT -GGCTGGCGTTTTACCGGTAGTGAAACCAGCAGCCAGGCGTTAAGCAGTGCGCAGGCGATTATCAGTTCTA -ATCCGGGGCTTAACCGCGCCATTCGTCTGCGTCGGCAAAAAGAGAGTGGGGCGATTTTTAACGGCATCAT -CCATAAAAACGAGCAATACGACGCGACCTTGTGTAACCCGCCATTCCACGATTCCGCCGCTGCGGCACGG -GCAGGTAGTGAGCGTAAACGCCGTAACCTGGGGCTGAACAAAGACGATGCACTGAACTTTGGCGGCCAGC -AACAGGAGTTGTGGTGTGAAGGCGGTGAAGTCACCTTTATCAAAAAGATGATTGAAGAGAGCAAAGGCTT -CGCGAAGCAGGTGATGTGGTTTACATCACTGGTATCTCGTGGTGAAAACTTACCGCCGTTGTATCGTGCC -CTGACGGACGTGGGCGCGGTGAAGGTGGTTAAAAAAGAGATGGCCCAGGGGCAAAAGCAGAGTCGCTTTA -TTGCCTGGACCTTTATGAACGACGAGCAGCGCCGCCGTTTTGTCAATCGCCAGCGTTAAAGCGTTGGTTC -CCCCGGCGGTAACGGTTCAGCCGGGGTCGCGCCCGGAGCAGGCAGCACCTGATAAGTCTGCACTGGCGCG -CGAACGCCCGCCAGGTCGAAATGTTTTTTCACCTGGCTGTCGAGGGCAAAGCGTACCGTCCACTGTTTGA -GTGGCAGCGTGGTGAACGAAACACGCAGTGTAAACGCGGTATTGCTTAAGCCGACAATCCCGGCAAAATT -CGGTTCACCAATAATCAGCCCGCGAATTTCTTCGTTTTCCATTAATTCCGCTACCGCATCTTTCAGTGCC -TGATTGGCTTTATCAGCATCTTCATGGCGATCAACATCATAATTTGCCACCACCGAACCAATGCCGCGGA -CAAAGTTAGCAAAGGTGGTTATCGAAGACCACGGAATGATGTGATACGCCCCGGTATCCTGTCGTACGCC -CACGGAGCGAATCGACATCCGTTCCACTGTGCCGGTCAACGGCCCGATAGTCACCAAATCTCCAGTGTTC -ATGCCGTTTTCAAACTGAATAAATACCCCGGTGATAATATCTTTCACCAGCGTTTGCGAACCAAACGAGA -TAGCCAGACCTAATGCCCCGGCACCTGCCAGCAATGGCGCGATATTGACGCCGATTTCCGACAACACAAT -CATGATGGTGATGGTACTGATAATCACCGCCAGCGCGTTACGAAACAGCGTAAGCAGGGTACGCGTGCGG -GCGCTGGGTAGCGGGCGGCCATGAATATCCGAAGCCAGCCGGTTTTCGATCAAACTGGCGAGCACCGTCC -AGCCAACCGCCGAGAAGAAAAGAATGAGTGCGATACGGATCAGGATATCTACGGTTTTCTGCCCCGCGCC -GTTTTGCAGCCAGTTCCAGAAATCGAACAATCCCCATGCGCTCAACAGCAACATTACCGCCACGCAGACT -GTCAGAATACGCGCCGTTTTCAGCGCCGCCGACAGCCAGCCATTCAACCGTTTTTGCAGCTCCGGATAGT -TACGCTGAGTATGTGGCGAGAGAGTGATGGTTTTCGCCAGCCAGCGGGAAAACATACCGGAAACAAACGC -TGCGATACCAATAATCGCCAGGCTGCGCACCGTTGCACCCATCATAAATTTCAGGCTGTTGCCCGGATCG -AACAACGAAAAGAAAAACAGCACGATAAAATAGGCGCTTGCCAGCCAGTGCCACACCAGCGCAAAGGCGC -GGATAAACAGGCTGAAAAAGGCCAGCGAATGCTCCGCGAAGTTGAGCAAATGCTGGGTAATCTCTTTTTT -ATTACGAAAGATCAGGTACAACGCCCAGACGGTCATGCACAGCATAATGATGACGTTCGCCAGCGCACCT -ATCTGTACATTCACCTGATTAGAGATAATCGGCACGGCCACAATCAGGCCATAACCTATCAAACTGCTTA -ACCAGCTCAGGCGACGACTCCAGTAACGGGCGCTCTCGTCCTGAATCGTGAACGGGCGCAGCTCCGCCAC -GTTTGGGCAAAAAATCAGGCGTAGTACGGCTTTGAAAAATTCAATGAGGGCAAAGGCGTTGAGAAACAAA -CTTTGTTGGAAAGCGATGGTGCGACTGCCTGCATTCAGGTTGTCGCTTAATACCTGGCCGACAAATAATG -TCAGGGCCAGTAACAGCAGGTCGATAATAAACGCCCCGATAATCATCGCCGGAAGCTGCAACCAGTTGCT -GCGCTCACGATTTTTTTGCCGCGCCCACTGACCCATTTTGCGATACAGCGGCAGTGCGCACAGGCGAATC -AGCCAGTAAAAACCAAACACTAATACCGCTAACATTGAAAAATGGGTCAGCGCATTGCTGAAGGTTTGTG -GATTAAACGGCTTATGCGGGGAGCCGGTGATATTGCGATAAAGTTGCCCGAAGCGGGCGGAAAGGGCTTC -ACCATAATGGCGGCTGACTTCGGTGACCTTTTGCAGCACGGTTTGCTCTTCGACCAGCGTCGGCGGCACT -ATTTTTGGTACCGGTTCAGCAGGGGGCGTAGCGGCAACGGTGCGCAACTGGTCGATCAACTCTTTACGCG -AGGTGTCATTATCCAGCACATCCGCCAGTGCGCCATAGGCCGCTTTTTTTTGTTCGATATCCGGTTCCGG -GGCCGGTTCAGTCGTTGAGTCCGTTGTCGTTGTGGTTGTAACGCCGGGTATGGATACCGCGTGGGCAGGT -GCGCCCAGCAGGCAGAAGAGGATGAACAGGATCCACCGCATGACTCCTCCAGTGAGAAAATAGAGCAAAA -AGATAAGTATAGATGCTGGAGGAGGGGCGATTTTAAATGAGAGGAATCTGGTGTGCCTCCCTTTCGGGTG -AAAGGGAGGAAGGGATATTAAGCAGGTTGCTGACAACGTGCGGGCTTTTTTGCCGGATGCGGCGTGAACG -CCTTATCCGTCCTACAAGTTCATGCAATTTTAATAAGTTGCCAGATATCCTGTAGGCCTGATAAGCGTAG -CGCATCAGGCAATGTGTCTTATTAAGAGACGTGCTGCAAAAATTCCTGCAAGCGCTGGCTCGGCGGGTTC -TTGATCAACACCTGCGGATTGCCATCTTCCGCAATCCGGCCTTTGTCGATAAAGATCAGCCGCGAAGCTA -CTTTCTCGGCAAAACCGATTTCGTGGGTCACGATCACCATCGTCATCCCTTCTTCAGCCAGATCCTGCAT -AACCTTCAGCACTTCATGGCGCAGTTCCGGGTCAAGAGCGGAAGTCGGTTCATCAAACAGCATCATTTTC -GGCTTCACCGCCAGCGCGCGGGCAATCGCCACACGCTGCTGTTGACCACCAGAAAGTTCGGAAGGGTAGT -GATGTGCACGTTCTGCCAGACCGACTTTCGCCAGCAGCTCACGTGCCAGTTTTTCCGCCTCTTCTTTGTT -CGCGCCACGCACGCGTAGCGGGCCAAACATGACGTTTTCCAGCGCTGTCAGATGCGGGAAGAGGTAAAAC -TGCTGGAACACCATACCTGCTTCCTGGCGAATCAGGCGCTCGTCAACTTTCGGATCGTTAACCTTCAGGC -CATCGACAATCAGATCGCCGGAGGTGATTTCTTCCAGTTTGTTGATGCAGCGCAGCAGGGTCGATTTACC -GGAACCGGACGGCCCGATAATCACCACGACTTCGCCCTGGGCAATGTTCAAATCGATATTGTGCAGCACC -TGGGTTGGGCCAAAGTGCTTGGAGACGTTTTTAAATTCAATCACAGGATTTTCATCCTTCTTTCCAGACG -ACGCAGAATAAAGCTCAGCACCAGGGTAATAATCAGATAGAACACCGCCACGGCGCTCCAGATCTCAAGG -GCGCGGAAGTTACCGGCAATAATTTCTTGCCCCTGACGGGTCAGTTCCGCCACGCCGATCACAATAAACA -GCGAGGTGTCTTTAATGCTGATGATCCACTGGTTACCCAGCGGCGGCAGCATACGACGCAGTGCCAGCGG -TAAAATGACGTAGCGAATGGTTTCCCAACGTGAAAGACCGAGCGCCAGTCCTGCTTCACGAAAACCTTTG -TGGATAGACAGCACCGCACCACGCGTGATTTCCGCAATATACGCGCCGGAGTTGATCATGATGGTGACCA -CCGCCGCAGTAAATGGGTCGATGCGTAAGTCGTTAAACGCCATCGGCAGGGCGAAATAAATAAACATCAC -CTGGACGACGATAGGTGTGCCGCGGATCACTTCAATAAAGACCAGCGCGACGTGGTTGGCTATCCAACCT -CCGAAGGTGCGTGCAAAACCTGCCAGCAATCCGATTACCAGACCGCCTGCCAGACCGAGGACCGAAATCC -ACAGGGTCATTTTGGCACCTTCAATCAGAAGCGGAATGGCAGGCCAGATGGCACTCCAGTCAAACTGCAT -ATGTTGTTCCTGTTACCGTGGTGTAAATAATCAAATTCAGGGTAATTAATGGCCCCGGAGCGGGTTTGCG -CCCCTCACCCTAATCCTCTCCCCATAGGGGAGAGGGAACTGCCAGTGCGTTTTACAGGTGTAGCGTTATT -ATTTCGGTTCAGTACCGAACCATTTTTTGTAGATTTCGTTGTAAGTTCCGTTCTCGCGCAGGGTTTTCAA -CGCGCCGTTGACTTTGTCACGCAGCTCGTCGCTACCTTTCGGGAACGCAATACCGTATTGCTGCGCTTCC -AGAGAGTCACCTACCGCTTTGAACTGACCGTTACCGGCGGTTTTGATGAAGTACAGAATGTTTGGCGTAT -CGTGCAGAACGGCGTCTGCGCGGTTGGTGCCCAGTTCCATATAGGCGTTATCGATGTTCGGGAACTGACG -CAGATCTTTAGTTTTGATGTTTGCTTTCGCGTAATCAACGGAGCCAGTACCGCTCTTCACAGCAACCACT -TTCCCGTCGAGATCTTTCACGCTTTTCACATCGTTATTGTTAGCTTTCACCATCACTAACAGGCCGCTTT -TGTAGTAGCCGTCAGAGAAATCGATCGCTTTTTTACGCTCGTCGGTGATGGTAATGCCCGCCAGCGCCAG -ATCGACGTTTTTGGTTTGCAGTGCCGGAATGATCCCACTGAAATCCATCGGCTTCAGTTCGTAATCCAGC -TTCAGCTCTTTAGCGATGGCAGCCCACAGATCAACGTCAAAGCCCACATATTTATCGCCCTGTTTAAATT -CAAACGGAACGAAGGCGGTATCCGTCGCGACAACTAATTTTTTATCCGCGGCATGAGAAGAAACCGCAAA -AGCCAGGGTCAGTGCAGCCAGTGAAACTTTTAATACAGACTTCATAGCATTTCCTTTTTTCTATCCACGG -GACGATCCCCTGCGTGACATTCACATATATGAAAAAATCGTGCCAGTTTTGCAACTCCTTGATTTTTCGA -GATGCGGCAAAAACGTGATGCACGATTTATAGGGCAATACCCTGAAGATGCACCATTCTGGGGCACCAAT -CTGGTGCGCTAAAATTGTGCACTCAACACAGTGATTATTTAGCGTAAAACCTGATGAAAAAACAATCTTT -ATGTAACGATTGTGTGATGATGTGGATACAAAAAATTTACTTAATCAGCTGGAGATAGCAGATGGATGCA -CTAAATAAGTGCGTTGAGGTGGGCTGCAAAACAAAACGGCCTCCTGTCAGGAAGCCGCTTTTATCGGGTA -CTAAAGTTCTGCACCATCAGCGATGGATTTATTCGATGTTAGACTCGATAAACCACAGGAATTTATCCAG -GTCGCGAGACGCGGCGGTCAGGATATCTGCGGTGTCGTCATCTTTCGCTTCGCCAATCGCTTTGCGTACG -TCATTAGCGACGATTGCGTAACGGTCAGCCAGTTCTTTCAGGTGATCCTGAACGTTGTGGATGTCCAGCG -GGTAACTTTTCAGCGGGGTTTTGCTGTTGATAACTTGAGTGGTCCCCAGAGCTACACCGCCCAGCTGCAC -TGCACGTTCTGCCATGGTATCCAGATGATCGATCAGTGCGGTGCGGAAGCCATCCAGCATTTCATGTACG -GCAATGAAGTTAGCGCCGCGCATGTTCCAGTGCGCTTGTTTGGTAATCAAAGAAAGATCAATAAACTGGA -TAACCTGGCGATTCAGCAACTCTACTGTTGCTTTTTTCTCGCTGTCGGAGACATCGTTGCGGGTATAAAG -CAGATTGGTCGCTTTTGATTTAACTAATTTAGCGGTACTCATAATTTCATATCCTCTTGATGTTATGTCC -CAGTAATTAACGAGATTAAGTATAGCACCGGCTATGTGTTCCGCTATTCTGGCTGTTCCTATCACACTAA -TAGTGGTAACAAGCGTGAAAAACAAAACTAATAAAGATTCAATGAGTTAGATATATTGATAAGAACAATT -CTTATTTATCTGCTCGCCAGGAATTTTCGGAATAAATATGCTTTTGCATAATTCGATATATAAAGACGGT -GTAGAGGAAAAGTAGCGAGAAATTCTGCATGGTTATGCATAACCATGCAGAAATGTAAATTTAATTAATG -TCTAATTCTTTTATTTTGCTCTCTTTGCGTACTGTCAGCGTAGACCCCATTGAAGCGGCGATGATAGCGC -CGAGCGCCAGTAGCTGTATGGGTGTCAGTGTTTCTCCGAGGAAAATCATCCCGGAAACGGCAGCCAGCGC -CGGTTCCATGCTCATCAGCGTACCAAATGTCCGTGTTGGCAAACGGGTGAGGGCAATCATTTCCAGCGAA -TAAGGCAGAGCGGTCGAGAGAATAGCGACAGCCAGACCCAATGGAATAACCGACCAGTGCCAGAGTGCTT -CACCAGCCTGAAGCGCTCCAATTGGCACGAAAATTAACGCTGCAATCAACGAACCAATTGCCACCGTCGC -AGGGCCATGTTCCGCTCCTGCGCGTTGCCCACTTAAAATGTAAATAGCCCAACAAGCCCCGGCCCCCAGT -GCCAGCGCACAGCCGGTTAAATCGACATGGGAAACGTCTTGCCCCAGCGGTAGCAGGAACCACAGACCAA -GAACCGCCAGCACAACCCAGACGAAATCTACCGGGCGACGAGAAGAGAACAGCGCCACCGCCAGTGGTCC -GGTGAACTCCAGCGCCACCGCAATACCCAGCGGTACTGTCTGAATAGAAAGATAAAAAAGATAATTCATC -CCACCCAGCGAAACGCCGTAAAACAACAGCGGTAACCGTTGCTCTTTGGCAAAGCGCAGTCGCCATGGCT -TAAAGAACGCGATGAGGATCAGCGTTCCTAATGCCAGACGCAGCGCAGTGACACCCGGTGCGCCCACCAG -AGGAAAAAGTGACTTAGCTAACGAGGCTCCACCCTGAATAGACGCCATGGCAACGAGCAATATGACTATT -GGTAACCAGACCGGCATTTTACGTAATGAACCAGGCATCCTTTCTCCCACAAATATCTAGACTTAAGTAA -AGCGTGGAGTGTACTGGATATACCCAATGCTGGTTGAGCATTTGTTGAAAAAATTTTCCCCCGTTTTGAC -TAAAATGCGCCAGGATTGATGGAATCATTAGTCTGGTGATTAGGAATAATCTGGATGAATGACAGGGAAA -ACATGCGTAATACTTACGCAGTTCTCTGAAAAAGTGATTTAAATTTAGATGGATAGCGGTGTATGGAAAC -GTTCTGTTACATGAAATGGCCCGTTAGACATCACAAATCGCGAAGAGTTTCCCATTAATTTTTGATATAT -TTAAAACTTAGGACTTATTTGAATCACATTTGAGGTGGTTATGAAAAAAATTGCATGTCTTTCAGCACTG -GCCGCAGTTCTGGCTTTCACCGCAGGTACTTCCGTAGCTGCGACTTCTACTGTAACTGGCGGTTACGCAC -AGAGCGACGCTCAGGGCCAAATGAACAAAATGGGCGGTTTCAACCTGAAATACCGCTATGAAGAAGACAA -CAGCCCGCTGGGTGTGATCGGTTCTTTCACTTACACCGAGAAAAGCCGTACTGCAAGCTCTGGTGACTAC -AACAAAAACCAGTACTACGGCATCACTGCTGGTCCGGCTTACCGCATTAACGACTGGGCAAGCATCTACG -GTGTAGTGGGTGTGGGTTATGGTAAATTCCAGACCACTGAATACCCGACCTACAAACACGACACCAGCGA -CTACGGTTTCTCCTACGGTGCGGGTCTGCAGTTCAACCCGATGGAAAACGTTGCTCTGGACTTCTCTTAC -GAGCAGAGCCGTATTCGTAGCGTTGACGTAGGCACCTGGATTGCCGGTGTTGGTTACCGCTTCTAATCAC -TTTGGTGATATAAAAAATCCGCCTCTCGGGGCGGATTTTTGTTTTTAAGGTTTCGGGTCGAAAATATCGG -TTCCGAGATGGTTGTAATCCACCTTCTGTAACTGGAAGTTGGTGATGTATATCGGCCCGGCTTTCTTCTC -AGATATAAACGGGTATTTGATGTTAATTTCCTTCGCTTTAATCCCCGTCCACTGGGAGAAAAAGCCTAAG -AAGTCATTGGCTGAGCGGCGGGCTTTAATCACACGATGCGCTTTATCGTCGCTGGAAATGACCATAAAAG -GCACCTGGAAATTTTGCTGATATTTATCATCATGGGCAAGGTATTGCACGTCTTTACCGCGCTCTTTAAA -GGCCAGACCGTGGTCAGAAAAGTAAACCAGCGAGAAGCTGCTGCCGCTGTTGCGTAACTGATCGTACAGC -TTGCGCAGTAAATCGTCCGTTTGCGTCATGGTATAGAGATAGCACGACGTTTCTTTCGATTGCACAAAGG -TTTCGTATTTTCCTTGTGTCCTGTCGCAGGCCTGCGGATGTGAGCCCATCAGATGTAGAACAATCAGCTG -CGGTTGCGAGTGCTCTTGCGCCAGCACTTGAGCGGTCATATCCAGTAACGCTTCGTCTTTGGTGTTTTTA -TCTGCTTCAAAATTACCTTCTTTCAGGAAGTACACTTCATCTGCTCGTTTGGCGATGCTGGCGATAGCGG -TATCGTATTCGCCGATTTGACCCTGGTTGGAAAACCACCAGGTCTGGAAGCCCGCGCGATTTGCCAGGGT -GACAAAGTTATCCTGAAACTGTGGTTTGCCATCGACAACGCGATTGAGCGTTAAGCCAAGCGATTTCTGC -GTGGAGCCACTGGCGGCAATGTAGTCAGCAAATATCAAACCGTTAACGCTGCTGGCAAACGGGGTATTGT -CCCAGTGACCGCCAAAGGCACCGAGGGCATCGCGACGCGCGCTTTCACCGATCACCACCACATAGGTCTG -ATACTTCGGCTTAACGGCAGTGACCGTCCAGGTATCTTTCATTCCGGAAAGTTTTGCCATCCGTTCTTGC -TCTTCAATCACCTCGTTATTATTGACGATGACATCCTTAGCAAAACGAAATACCGGATAGCCAGTATCTT -TCAGTTTAAATACGCCACCCCAGGCCAGGTTTTGCACGGGAGCAACAAAAAATGTCGCCACACTGAATAC -CAGACACAGGCTGTCGAAGGTATTCCAGCGCGCTTTTTCATTCTCTTTTTTTCGCCTGATTGCTATTACG -CCGAGCGCAAAAATAAATAAGCCGACCAGGTAGCTGTACCACGGAAAAATCGTCAGGATTTCGGTCGACT -CTTCCATATTGGTGGAGTGCAATGCCAGCAATGTATTGAAATTAGGCGCGCCGTAGGCCTGAGCAAAAGG -GAAATAACAAGCCGCCACCAGCGAACTGACACCGACCAGAACTTTTTGTACGCGAGGCAATGTTCGCCAT -AGCAAAAGCAAAATAGCCGTAAACGCAGCGGTGTAGAGCAAACTGAAGGGGTAACCTAAGCCGAGGTTAA -TTAATAGCGACTGTAAAAAGTAGAACGCAGTCCACGGGCTAAATACCCGGCTACGGGTAACAAGCGATTC -TTTGAGGGTTAAATTCATATGCCACTATCGTAACAAACGCCATGTGCTTACCCTGGCGTCAAGGGTCAAT -ACCTGCAAGAGTGCGTGAAGAGTGGAAAGGGGTCCGCATCCGCGAGCCGCAATATACGCAGGGCTGCAAG -AAGATAGAGCGAGCCGCCGTTCAGGTCAACTACTGACGAACAAATCTTTTGCGAAGGGGATTGCAAATCC -GACAAAAAGTGGGGTTTTTCAGACCAAAACGCGTTATGCCTGCATGAAAGCAGGAGTGAAGCGGCGTACC -GCGACGCCGCTATTTATCGGAAGGTTTATCTTGCTGCGGTTTGTTGTTGACCATATCGCACAACATAGAG -AGCAGCATTAACCGTACTTTAAAGGGAGAATGACTAAACACGCGCATACACCTCTTGAACTCATTCATAA -GACCTCCTGACTTGCTAATCCCGTCGATCCTTGAGGGATGATTGCATTACATACAGATATAGCACAGGCT -ATATTATATAGCTATTGCTAAAACGTTAATTTTTTGTACCTTCGCAACTCTGGTTTACAATGTGCGCACG -AAATGAGAACGCTATGTATGCGTCACCATAATGAGGAAGCACAATGAGTCGTCGCGCAGGTACGCCAACA -GCAAAAAAAGTGACGCAGTTAGTGAACGTGGAAGAGCACGTTGAAGGGTTCCGCCAGGTCAGAGAGGCGC -ATCGGCGCGAGCTTATTGATGATTACGTTGAGCTGATTTCTGACTTGATCAGGGAAGTGGGGGAAGCTCG -TCAGGTGGACATGGCTGCTCGTCTGGGAGTTTCGCAACCGACGGTGGCTAAAATGCTTAAGCGGCTGGCA -ACCATGGGGCTGATTGAAATGATCCCCTGGCGTGGCGTGTTTTTAACGGCAGAAGGAGAGAAGCTGGCGC -AGGAAAGCCGCGAGCGACATCAGATAGTCGAAAATTTCTTGTTGGTGTTGGGCGTCAGTCCGGAAATCGC -CCGTCGCGACGCGGAAGGCATGGAGCACCATGTTAGTGAAGAGACGCTCGACGCTTTTCGTTTGTTTACC -CAGAAACACGGTGCCAAATGAGCCTGCCTTTTTTACGCACGCTGCAAGGCGATCGTTTTTTTCAGTTATT -AATTCTTGTTGGTATCGGATTAAGCTTTTTCGTGCCCTTTGCACCGAAATCCTGGCCTGCTGCTATCGAC -TGGCACACCATCATCACCTTAAGCGGCCTGATGCTGCTGACCAAAGGTGTGGAGTTAAGCGGTTATTTTG -ATGTGCTGGGGCGCAAAATGGTGCGCCGCTTTGCTACGGAGCGTCGGCTGGCGATGTTTATGGTGCTGGC -GGCGGCGCTGCTTTCTACCTTTCTGACCAACGATGTCGCGCTGTTTATTGTTGTTCCGCTGACTATCACG -CTAAAAAGACTGTGTGAGATCCCGGTTAATCGGCTGATTATTTTTGAGGCGCTGGCAGTCAACGCTGGTT -CGCTACTGACGCCAATTGGCAACCCGCAAAATATTCTTATCTGGGGACGTTCTGGTCTTTCGTTTGCCGG -ATTTATTGCCCAAATGGCACCGCTGGCTGGCGCAATGATGCTGACGCTCCTGCTCCTGTGCTGGTGTTGT -TTCCCTGGAAAGGCGATGCAATACCATACGGGGGTGCAAACACCGGAGTGGAAACCGCGGCTGGTGTGGA -GTTGTCTGGGGCTGTATATCGTCTTTCTGACGGCGCTGGAGTTCAAACAAGAGCTGTGGGGACTGGTGAT -TGTGGCGGCAGGCTTTGCGCTGCTGGCACGTCGCGTGGTGCTCAGTGTGGACTGGACGCTGCTGCTGGTG -TTTATGGCGATGTTTATCGACGTCCATTTACTGACCCAGCTTCCAGCGTTGCAAGGCGTGTTGGGTAACG -TGAGTCATCTATCTGAACCCGGGTTATGGTTAACGGCAATCGGTTTATCGCAGGTGATCAGTAACGTGCC -GAGTACCATATTGTTGCTGAACTATGTGCCGCCGTCTTTATTACTGGTATGGGCGGTAAACGTAGGTGGC -TTTGGGTTATTACCCGGATCGCTGGCAAATTTGATTGCGCTACGTATGGCGAACGATCGCCGCATCTGGT -GGCGTTTCCATCTCTATTCAATACCGATGCTGTTGTGGGCGGCGTTGGTGGGATATGTTTTGTTAGTTAT -ACTCCCGGCCAACTAGGGTCTGGCAAATAAAAAAGGCGGATTATGAGTCCGCCTTTTGCTTTAAGTTTTG -AAGATTAATTCAGACGAACCGGCATCCCGGAGCGGTTTTTAATCGCTTCATCAAGAACAACCTGGTCAAC -ATCTGGCTGACCGGTCACTGTCTGCACGCTCTTCGTCAGGGTAATTGGCACAATTTCCTGACCTTCAAAC -TGGGCTTCGGTGGTAGACAGCGGGTTATGGACTTCAATATAACGGCTGCCGTCTGGCTCGGTGGTCGCTT -TTACCGGCTCATCAATAAACTGTACGCGGGTACCGACCGGTACTTTCTCGAACAGGAATTTGATGTCTTC -GTTACGCAGACGCACACAACCATGACTTACACGCAGGCCGATACCGAAGTTGGCGTTGGTGCCATGGATA -GCATACAGGCGACCGATATAGAGTGCATACAGCCCCATCGGGTTATCCGGACCTGCCGGAACGACAGCCG -GAAGCGGTTCGCCCGCAGCGCGGTACTCTGCGTGCATTTTGGCGGTCGGCGTCCAGGTCGGGCCTGCTTT -TTTACGCTCAACTTTGGTGGTCCAGTTGATAGGCGTATCTTTGCCTAACTGACCAATGCCGATCGGCAGC -ACGATAACGGTGTTGGTCCCTTTCGGATAGTAATAAAGACGCATCTCAGCACTGTTAATGACGATGCCTT -CATGAACGGTATCCGGCAGGATCAGCTGCTGCGGAATGTTCAGTACAGTACCGCCTTTCGGCAGGAAGGT -ATCCACACCCGGGTTCGCTTCCATCATATTGGAAAGCCCCATCTGGTACTCGGCGGCAAAATACTCCAGC -GGCTGAGTGTTACCTTCAGGAATGGTGATCACCTGATTCTGACCAACCAGGCGACTCCCGTCGGTTGGCA -GAGGATAAGTTACCGCAGAGGCGGTACTGCAAAAGCCGACAACAGCGAAGGCCGCTGCGAATAATGTTTT -CAATTTCATATTCATGTTAAGCGAGATTTTGTGCCTGGCAGGCCATTGGGTTGAGAATATTAGAGTATTG -GAAGCGCATTATAAGTTCATTCCAGCTCACAGTGAAATCAGATGTGTACGAAATCACATTTTTTGCCTTT -GGCTTGAGTGTAGACCTTAAGCGAGGAGCAGGATCTTCTTTCAGACTTATGGCATAATGCGCGGTTTGTC -ATATCTCTTTTCAGGATACGCCTGTGTTAGTTTCCAGTAACGTCACCATGCAGTTCGGCAGTAAGCCGTT -GTTTGAAAACATTTCCGTCAAATTTGGCGGCGGCAACCGTTACGGCCTGATTGGCGCGAACGGTAGTGGT -AAATCCACCTTTATGAAGATCCTCGGCGGCGACCTTGAGCCGACGCTGGGTAACGTTTCCCTCGATCCCA -ACGAGCGCATTGGTAAACTGCGTCAGGATCAGTTTGCCTTTGAAGAGTTCACTGTGCTGGATACGGTGAT -CATGGGGCATAAAGAGTTGTGGGAAGTGAAGCAGGAGCGCGACCGCATCTATGCTTTGCCGGAAATGAGT -GAAGAAGACGGCTATAAAGTGGCCGATCTGGAAGTTAAATACGGCGAAATGGACGGTTACTCTGCGGAAG -CTCGCGCCGGTGAACTGTTGCTTGGCGTGGGAATTCCAGTGGAACAGCACTACGGCCCGATGAGTGAAGT -TGCTCCTGGCTGGAAGCTGCGTGTGCTTCTGGCGCAGGCGCTGTTTGCTGATCCGGATATTCTCCTGCTC -GACGAACCGACCAACAACCTCGACATCGACACCATTCGCTGGCTGGAACAGGTGCTGAACGAGCGTGACA -GCACCATGATCATCATCTCGCACGACCGTCACTTCCTTAACATGGTCTGTACCCACATGGCGGATCTGGA -TTACGGCGAGCTGCGCGTTTATCCGGGTAACTACGATGAGTACATGACGGCGGCGACCCAGGCGCGTGAA -CGTCTGCTGGCCGATAACGCCAAGAAGAAAGCGCAGATTGCTGAGTTGCAATCTTTCGTTAGCCGCTTTA -GCGCCAACGCCTCGAAATCTCGCCAGGCAACTTCGCGCGCGCGCCAGATTGATAAAATCAAACTGGAAGA -GGTGAAAGCCTCCAGCCGTCAGAACCCGTTCATCCGTTTTGAACAGGATAAGAAACTGTTCCGTAACGCG -CTGGAAGTGGAAGGTCTGACCAAAGGGTTTGATAACGGTCCGCTGTTTAAAAATCTCAACCTGCTGCTGG -AAGTGGGTGAAAAACTGGCGGTACTGGGTACCAACGGCGTCGGTAAATCAACGCTGCTGAAAACGCTGGT -GGGCGATCTGCAACCGGACAGCGGCACCGTAAAATGGTCTGAGAACGCGCGCATTGGTTACTATGCTCAG -GACCACGAATATGAGTTTGAAAATGATCTGACCGTGTTCGAATGGATGAGCCAGTGGAAGCAGGAAGGCG -ATGACGAGCAGGCGGTACGCAGTATTCTCGGTCGTTTGCTGTTCAGCCAGGACGACATCAAAAAGCCAGC -TAAAGTGCTTTCCGGTGGGGAAAAAGGGCGGATGCTGTTTGGTAAGTTAATGATGCAGAAGCCGAACATT -CTGATCATGGACGAACCGACCAACCACCTGGATATGGAATCCATTGAGTCGCTGAACATGGCACTGGAAC -TGTATCAGGGCACGCTGATCTTTGTTTCACACGACCGTGAGTTCGTAAGCTCCCTGGCGACCCGCATTCT -GGAAATCACCCCGGAACGCGTGATCGACTTTAGCGGTAATTACGAAGATTACCTGCGTAGTAAAGGGATC -GAGTAAGTGATTATCCGTCACCCCGATACTGTCGGGGTGACGGCGGCTGATGACAAATGCAAAATAGCCT -GATGCGCTACGCTTATCAGGCCTACGCAGTACCTGCAATATATTGAATCTGCAGGACTTTGTAGGCCGGA -TAAGGCGTTAACGCCGCATCAGGCATTAACAAAGCGCATTTGTCAGCAATCTGAGTAACGTCGAATCGAT -TTTCTTAATCCCACATCAATTCACTTCCATTAATTCTCAAACATCCATGCCCAACGCTCGCTTACCGTGA -ATGTTGAGGTCGGCAAGCGTAAAGCGTCCTTCCCAGTTTGTTTCATAGTCCTCGCGCGGGAAGTCGCCCG -GCGATGCGCCTTTTTCCAGTGCGGCCTTCACCTTGTGCGCGTAGGCAAGATTTTTCTCGCACATCGGTGC -CGCAGGAATGTACATCACGTTGCCCCAACCTTGTTGATTTTCAACGGGGGCAACGGAATGGATGACGTCG -CAGTGCCACCAGACGGAGTCTCCGGCTTCGAGTTTTGGAATGCTGGTTAACGCCTCAATCAACAGTGGAT -GCCATTGCTCTGATACCGGCAATACTCTTCCGGGCGCTACGCCGCACAGTTCATCCTCCGGCACATCATC -AAGCAGCGGACGTAACAGTACGTACGCCATAGCTTCAGGAATGGGCACGACGTGCAGCAGCCCCTGACCA -GGCAGCATATCAGAGAGCGCTGTCCAGCCCTGGAATGTCCGAAACACGGAACATTTGGTGGTGTTGTCCA -CCGTGTACTCTTCAACTTCCGTACGATGTGCCGCATGCCAGGGATCATATTGCGCCAGATTGCCATTAAA -GACGTTGGCGAAAACGCGCTGATACGCTGGAAGCAGCCAGCGTTCCAGTGCCCCGGAGTCGGTATGCGCT -CCAAGACCTTTGGAGGTCGTTCCGGGCGGACGGCGGCGGATACGGTCAGGGTAGATGACGCTCACATCCG -GGTTAAACCATTGCTTTCCATCACTTTCAAATGTCCACAGACGATTGAGAAACGACTGCGCATTCGCCAT -TTCTTCACTCTGGCGGGCCTGCATTTGCGCCTGCGACCAGTAGATGGGGTAAATCTCGGGACGTGAAGCG -CTGAGCGTCCCGAAGAAATTATCGCCGGGGCCTTTGTAGACCTCGTCAAAGCGGTTGCGGTCCAGATAGT -CCAGCATCGACTGATCCCAGCCTAGCGCTTGTTCGCGGGGGAAATGGCCTTTTATCACCGCACAACCGCG -ACGTTTAATCTGTTCGCGCTGCTCTGCAGTAACATGACCTGCTTTGATATCGGCATAAGACAGCACCGGC -CAGACGGCATCGCCCTGTGCTTTGAGTGCGTTGATTTCAGCCACTCGCGTGGCAATGTCATCGCTTAGCT -GATTAAAGATCTGCTGGACGTCGCCAAGCTGCGCCCGCAGCGCGTGCTTCATCTGACGGATAGCTGCTTT -GTGATCGGCAGGCAATGTGTCGCTGGTAAAAGTAGAAGCCATAACCACCTCTCATTAACTTTCATTCGAA -ACCATTCTGATTTGCATGTGACAATATAAGTTATAAATAAGTTAATGCAAGTTTAATGATTTGATGTGAT -GTACAGGATGTAAAAAGAAGGGAAAACCGGAGCGCACGGCTCCGGTAGAGAGGTCAGCTGTTAAAAGGGG -ATGTGTTATCCAGCACCGCCTGAATCACATTCAGCGCGCCTTCATGATTATTATCATCGGTAGCGTAACG -GGCGATTTGTTTAATGTTTTCCGCAGCATTGCCCATCGCAAAGGAATAACGCGCCATTTTCAGCATCTCC -GCATCGTTACCGCTGTCGCCAATCGCTACCACATTTTGCGGTGACAGATCCCAGCGTTTCAGTAACCGCG -AAATACCGTTTGCTTTATGTAGACCGGGAATAATCAGGTCGATAAAGCCAAAACCACTGGTAACGGGTTT -CATAATGCCATCGAGCGCTACGTGCAGTTTGTCGATCACTAACGGGATTTGTTCATCCGGCAGGTTGAGC -GAAAACTTGAACAGTACGTCGTCAATCTCCTGATAATCTTTTACAGGTTTCAGGCGATGGTAGTGTTTTG -CCATCAGTGCGACAAATGCTTCGGGGGCATTTTCGCTGACATATGCACTTTGCAGACCGCAGGCGACAAA -ATTGAGTTGCTTATCTTTTAGCAACTCGCCAATAACAATCCGCGATTCATGTCGGGTCAGTTCGCCGTGG -AACAACTGCTTGCCATGTTCGTAAACCAGTGCGCCGTTTTCCGCGACAAAAGAGATCTCATCCTTTAGCT -CAGGAAAGAATGAAATAAGCTGGTAATACTGATTACCGCTGGCAACAACGAACTTAATGCCGCGCTTTTT -CAGTTCCTGATATTGCGCCATAAAACGTGGTTGGTTGTACGTTTTGGCGTCGTTAAGAAAAGTACCGTCC -ATGTCTGTGACGATAACTTTTACGCTCATAGGTGTGCTCCTGGCTCGAAAATGAAACCGTAACAGTGTAA -TAACAATGTGACGCAGAGCACAAATTATATTTCGAATGAAAGTAAGGATGAAATTGATGATGTGAATGAT -TTAGCCCGGCGACGACGCCGCCGGGCCGAGGAGATTACAGCATATGTTCAGTACGGGCGATGATATCGTC -CTGAGCGTCTGGAGAGAGCGCGGTGAAGAACGCGGAATAGCCCGCGACACGCACTACCAGATCGCGATAC -TGATCGGGATGTTTTTTCGCATCCAGCAGCGTTTCGCGGGAAACGATGTTGTACTGAATATGCCAGCCTT -TATGCACTTCAAAGAAGGTACGCAGCAGGATCATCAGTTTCTGCTTGTCAGATTCGTTCTCCAGCGTTGC -CGGATTCAGTTTCTGGTTGAGCAACACGCCGCCGAGAATCGCTGCCGTAGGCAGTTTACCCACTGAGCCA -ATGACCGCAGTAGGGCCAAGATGGTCAGTACCGGAGGCCGGGCTTGCGCCTTCTGCCAGCGGGGTGTGGG -CTTTACGCCCGTCCGGTGTTGCCATAGTCTGCGCGCCAAACGGTACGTTAGCGGAGATTGATGACGTACC -CGCGTAATAGTTGCCGCCAACCGGACCACGACCGTAGCGCGGATTATGGTACTGTTTCAGTTCGTCGATA -TAGGTCTGATAAGCGCGAGCCAGCAGCGTATCGACAGTATCATCGTCGTTGCCGTACTTCGGCGCACCGT -TAATCAGCCGCTGACGCAGCTGCTCGTGAGTCAGGCCGTCGAAGTCATCTGCCAGTGCGGCAGCAAGCTG -TTGCTGACCAATCGCACCTTGTTCAAACACCAGTTTCTTCACTGCCGCCAGGCTGTTGCCGAGGTTGGCA -ATGCCGACCTGCAGGCCAGAAACCCAGTCATATTTCGCGCCGCCTTGCTTGATACTTTTCGCTCGCTCAA -TACAGTCATCCACCAGCGCCGAGCAGAGAATATCGTGCACGTTCTCTTCCAGCATGGTGTCGACGACATA -TTCGATTTCGATTGATTTGCGGGTGTAGTAACGGATTTGCGTATCCCACGCGTCCATCACTTCATCGAAG -TTGTTGAAGTTACCTGCCGACAACGCTTTTTCTTGTGGCAGGAACACTTTGCCGCTGGTGGCATCATGCC -CGCCTTCCAGCGCCGCCAGCATCACGCGGGCGAAGTTGATAAAGCTCATGCCGGTACAGCGATAGCCCCA -TTTGCCACCGACGGCGGTTTCTATACAACCAATCGCTGCGTAGTCATAAGCGTCCTGCGGTTCAATACCG -AGTTTAATAAATTCCGGGATCACGATTTCGTCGTTGTTGAACGCCGGCATCCCGAAGCCGCAACGGATCA -CCTGTACGCAGGCGTCGAGGAAATCGTTGCTCATTCCTGCATGGTAACGCACGCTGAGGTTAGGCTGAGT -GGAACGCAGGCGACCGCAGGATTCGAGGATCGCGTAAGAGAGTGGATTCACCGCGTCCATTGGTTGACCA -TCAACCAGATTTTGCCCGCCAATAGTGACGTTCTGATACAGCGGACTTCCCGCAGAGGCTTTTGAGTGTG -AGCCGGAGCGGATCTTGTTCACTTCCAGCAGTTTCAGCCAGCAGCTATGCAGCATCTCGATGGCGTGTTC -GCGATCCAGCGTCTGGTTGAGTTCAACGTCGCGGCGATAGTACGGGTAGAGATACTGGTCCATACGACCA -AACGATACTGAGTGACCGTTAGATTCGATCTGCAAAATCAACTGGATGAAGTAACACAGTTGCAGCGCCT -GCCAGAAAGTCTGCGGCGGCTGGTGGGCGATAAGATCGCAGTTTTCTGCCATCGCCAGCAGTTCATCGCG -ACGGCTTTCGCGGGTTTCGGTCGCGGCCATTTCACGCGCCAGGGCAGCGAAACGTTCAATGTGTTCACTG -ACTGCCACCAGCACGATATCAATCGCTTTCAGGAATTGCTCACCGTGTAAATCTTCCAGCACCGTCAGGT -TGATGCGCGAGCGACGTTCCGCTACTTCCTCGCGCAGACCATCAAGCCCTTTTTCCAGCAGCAGCGGGAA -ATTCACCGCCAGGTGCGCATCGCCGGAGGTCATATTGCCTTCCGCTTTAATGATTCCGGTCGCCAGCAGA -CCTTTTTGCTCATCGGTAAACATGCCGTAGCAGCGATCCTGTACGGTCTGACCGCGCCACCACGGGCACA -CTTCATGCAGAACGCGTTTGTTCTCTTCGCTCACCGCAAAGCCAGCACCGGGACGATCTGCCAGATCATC -AATCTCTTTTTCGATCCACGAGACAGTATATTCCGGGAAGATCGGCGCGGCGCGAACTTCGCTTGCCTGG -TTGCCAATGATCAACTCATCGTGTTTGATCCAGATGGTGCGATTCGCCAGGTGATGCGCCAGTGCCAGCG -CGCGACGTACCGGGATCGGCTTATCGAGATGTTGTTGATACATCTCGGTATAGTGCTGCGCGCGCTCGGT -ACAGACTGGCGGTTTCACAATATGCACCAGCGCATTTTTGTGCGCTTTAATGCGGTCGCTGAGCGTGTCC -AGTTTCAGTGTGGTCATGGTTGTTATCCTCGTAAGGTCGCGGTTAACCCTTTCTGGCAGGCATACTGCTG -GGCAAAGTCGAGCAGTTCTGGCGCATCAAGCGGTTTTTCCGGGGCGTCATAGGGCAGATTAAGTAAGTGA -TATTTGTTGATGCCCAGCGTGTGGTAGGGCAGAAAATGAATTTCGCCAACGTGCAGCTCGTCGGCGGCAA -AATCGGTAATGGCTTTTACAGAGGTTTCGTCGGCATTAAAGCCCTGAATCAGCGGCACGCGGATAATGAT -TTTTTTGCCCGCTGCGGCGAGTTTTTTCAGGTTATCCAGCACTCTGGCGGCGTTACCGTCGGTCCACTGT -TTAAACGGCGCGTCGGCAACGTGTTTTAAATCGGCAAGAAACAGATCGATATAGGGCAGAGAAGGGGCGA -TATATTTCCACGGCACATGCAGACAGGTTTCTACCGCAGTATGAATGCCTGCCTCGTGGCTGGCTTGCAG -TAGCGCCATCGCCATTTCCGGCTGCATAAAGGGCTCACCACCCGAAAGCGTTAAACCGCCGCCGCTGCGA -TCGTAAAACGGTTTATCGCGCAGAACGGTCGTCATGATCTCCTCAACGCTTTTCACTTCACCACACACGG -TTAATGCCTGTGTCGGACAGCAGTCGGTTAACGCCGTCAGATGCTCCGGGGTTAACTTTTCCCGATGAAT -AAGCAAACCATTCAGCGCGCGCTCAATCACTTCCGGCGCGGCCTTAGCGCACAGCTCGCAGCCTTCCAGA -CACAGTCGTGCGTCATACAGCAGATCCTGCGTGCGGGCGCGGCTTTCCGGGTTCTGACACCAGCGGCAGC -CCAGCGAACAGCCTTTAAGAAATACGACCGTGCGGATACCGGGGCCATCATGGGTCGAGTAGCGCTGAAT -ATTGAAAATCATAGTTGCCTCTCTATTTCGTTCAAGCATTAAAATACTTTCGAATGAAAGTTAGATTGAT -GTGCGTCAACTGTTCAGAGAGTTTTCCCGTGATAGTCTACATTCAGACAAAAAGTACATTTTGAGGATGG -TTATGGAACTGTATCTGGATACTTCAGACGTTGTTGCGGTGAAGGCGCTGTCACGTATTTTTCCGCTGGC -GGGTGTGACCACTAACCCAAGCATTATCGCCGCGGGTAAAAAACCGCTGGATGTTGTGCTTCCGCAACTT -CATGAAGCGATGGGCGGTCAGGGGCGTCTGTTTGCCCAGGTAATGGCTACCACTGCCGAAGGGATGGTTA -ATGACGCGCTTAAGCTGCGTTCTATTATTGCGGATATCGTGGTGAAAGTTCCGGTGACCGCCGAGGGGCT -GGCAGCTATTAAGATGTTAAAAGCGGAAGGGATTCCGACGCTGGGAACCGCGGTATATGGCGCAGCACAA -GGGCTGCTGTCGGCGCTGGCAGGTGCGGAATATGTTGCGCCTTACGTTAATCGTATTGATGCTCAGGGCG -GTAGCGGCATTCAGACTGTGACCGACTTACACCAGTTATTGAAAATGCATGCGCCGCAGGCGAAAGTGCT -GGCAGCGAGTTTCAAAACCCCGCGTCAGGCGCTGGACTGCTTACTGGCAGGATGTGAATCAATTACTCTG -CCACTGGATGTGGCACAACAGATGATTAGCTATCCGGCGGTTGATGCCGCTGTGGCGAAGTTTGAGCAGG -ACTGGCAGGGAGCGTTTGGCAGAACGTCGATTTAACCGGACGTTCTGCATCCTCATAAATTGCTGATGAC -GTGGCGGAGTGCCGCGTCTTATCAGGCCTGGAGGTGGCAATTACTGCCCACACACCTCACACCCCGGATT -ACGCATCAGTTTCATTTCGCGAAACTGACAGGTCATCGCATCGTACATGACGATTTTCCCGCTGGCCGGT -TTGCCATAACCTGCCAGCATTTTGATCGCTTCCATTGCCTGCAACGAACCAATTACGCCGATCAACGGTG -CCATTACGCCTGCTTCCACGCAGGTTAATGCATTTTCACCAAACAAACGGCTAAGGCAGCGATAGCACGG -TTCACCGTCCTGATAAGTAAAGACGGTGATTTGACCTTCCATACGAATTGCCGCGCCGGAAACCAGCGGT -ACCTTCGCGGCAAAACAGCCTGCGTTCAGTTGATTACGTACCGCAACGTTATCCGTACAGTCGAGCACCA -GATCGTGTTCAGCAATCAATGCTGCAAGTTCTGCGTCATCCAGCAGTGCATTGACTGGCGTAATCGCGAT -ATGTGGGTTGATCCGCGTCAGGGCGTCACGGGCGGATTCCACCTTCGGTTGCCCGACCGTGGCATCACTG -TGCAGTGTCTGGCGTTGCAGATTCGAGAGCGAAACCGTGTCGAAGTCGAGCAGCGTCAGGTTACCGACAC -CGGCGCTTGCCAGATACTGCGAGGCTGCACAGCCGAGGCCGCCCAGGCCCACTATCAGCACGCGAGAATC -TTTCAGCGCCTCCTGGCCGTCAAAATCAAAGCCGCGCAGAATGATTTGCCGGTTGTAGCGCAGCATCTCC -TGATCGCTGAGTTCCGCCATTACAGGCCTCCGAACAACGCGTTAAACGGTTCTACTTCCACCCATTCGCC -CACTTCCACATTGCCGCGATCGCGTTCCAGCACGATAAAGCAGTTGCCGAGGCTAAAGGAGCTAAATATA -TGTGAACCCTGATGTCCGGTGGTCGTCACTTCCAGTTCGCCATCGGCGTTGCGTTGCAGCACGCCGCGCT -GGAAATCAAGACGTCCTGGCGTTTTTTTCAGGCGGGACGCTGTGCGTACGCGCTGGCGCGCGGGCAGGCC -GCTGGCGGTGTTACCGCTTAGTTTTGCCAGCAAAGGCTGTACCAGTTGATAGAAGGTCAGCGTCGCTGAA -ACCGGGTTGCCCGGCAGGCCGCAGAACCAGCTATTGCTGAGTTTACCGAACGCGAACGGTTTACCTGGTT -TAATCGCCAGCTTCCAGAAGGCGATCTCCCCCAGCTCTTCAAGAATCGTTTTGGTGTAATCCGCCTCACC -CACTGAAACACCGCCGGAACTGATCACCACATCCGCCTGGCTGTCGGCTTCAATAAATGCGGCGCGCAGG -GCATGGGGATCGTCGCGGATAATCCCTAAGTTAATTACCTCGCATCCCAACTGTTCTAACATCAGGTGTA -CGGCGAGACGGTTGGTATCGTAGATTTGGCCGTCGCCCAGCGGCTGACCGGGCAACTGGAGTTCATCACC -GGTAGAAAAAAGCGCTACACGCACTTTACGAATCACCGGAACTTCGGCAATCCCCAGTGAAGCAATTACT -GGCAGCTCTGCGGTAGTCAGGCGAGTTCCCGCCGGGAAAACAACCGCACCTGCAGAGATATCTTCACCGC -GACGGCGAATATTTTGCCCGCTACGCACTTCAGCAGTAAAACGCACGCCATTGTCCATTTGTTCAGTCTG -CTCCTGCATCACCACCGCTTCGCAGCCTTCCGGCACCGGCGCACCGGTCATAATACGAATGCAGGTACCC -GCAGGCCATTCACCATGGTATGGCTGACCGGCAAAGGATTTACCGGCAACGGGCAGCGGTTGCCCGGAGG -CAATATCGGCTAAACGCACCGCGTAGCCGTCCATTGCGGAGTTATCAAACCCCGGAACATCAAGCGGCGA -AACGACATCGCTCGCCAGAATACGACCAAAACACTGTACCAGTGGCAGCGTTTCCTGGGCGGTCAGTGGG -GTGACGCGAGAAAGCATCTCATTAAGCGCGGTGTCGAGCGACATCAATCCGGTGGTAAATTCCATGAAAA -CACTCCTGCGGAGGCAAAATCGAATTTGCCTATTATGTCAGAAAAACGCCACAGACTGTATGCCACCTCG -GGCGTAGCGCTGGGTCCTGCCTTTACATGCCATATCCATCTTTCTATATTCAAAAATTGAATGAGTAATT -CATAAAAATTCTGATATTTATAGCAAAAGTGGCGAACCACCCTTAATGGACGAATACTATGGGCAAAGCA -GTCATTGCAATTCATGGTGGCGCAGGTGCAATTAGCCGCGCGCAGATGAGTCTGCAACAGGAATTACGCT -ACATCGAGGCGTTGTCTGCCATTGTTGAAACCGGGCAGAAAATGCTGGAAGCGGGCGAAAGTGCGCTGGA -TGTGGTGACGGAAGCGGTGCGTCTGCTGGAAGAGTGTCCACTGTTTAACGCCGGAATTGGCGCTGTCTTT -ACGCGTGATGAAACCCATGAACTGGACGCCTGTGTGATGGATGGTAACACCCTGAAAGCCGGTGCGGTGG -CGGGCGTTAGTCATCTGCGTAATCCGGTTCTTGCCGCCCGGCTGGTGATGGAGCAAAGCCCGCATGTGAT -GATGATTGGCGAAGGGGCAGAAAATTTTGCGTTTGCTCGTGGCATGGAGCGCGTCTCGCCGGAGATTTTC -TCCACGTCTTTGCGTTATGAACAACTACTGGCAGCGCGCAAGGAAGGGGCAACCGTCCTCGACCATAGCG -GTGCGCCACTGGATGAAAAACAGAAAATGGGCACCGTGGGGGCCGTGGCGTTGGATTTAGACGGCAATTT -GGCGGCAGCCACGTCCACAGGCGGAATGACCAATAAATTACCCGGACGAGTTGGCGATAGTCCCTTAGTG -GGTGCCGGATGCTACGCCAATAACGCCAGTGTGGCGGTTTCTTGTACCGGCACGGGCGAAGTCTTCATCC -GCGCGCTGGCGGCATATGACATCGCCGCGTTAATGGATTACGGCGGATTAAGTCTCGCGGAAGCCTGCGA -GCGGGTAGTAATGGAAAAACTCCCTGCGCTTGGCGGTAGCGGTGGCTTAATCGCTATCGACCATGAAGGG -AATGTCGCGCTACCGTTTAACACCGAAGGAATGTATCGCGCCTGGGGCTACGCAGGCGATACGCCAACCA -CCGGTATCTACCGTGAAAAAGGGGACACCGTTGCCACACAGTGATGAACTTGATGCCGGTAATGTGCTGG -CGGTTGAAAATCTGAATATTGCCTTTATGCAGGACCAGCAGAAAATAGCTGCGGTCCGCAATCTCTCTTT -TAGTCTGCAACGCGGTGAGACGCTGGCAATTGTTGGCGAATCCGGCTCCGGTAAGTCAGTGACTGCGTTG -GCATTGATGCGCCTGTTGGAACAGGCGGGCGGTTTAGTACAGTGCGATAAAATGCTGTTGCAGCGGCGCA -GTCGCGAAGTGATTGAACTTAGCGAGCAGAACGCTGCACAAATGCGCCATGTTCGCGGTGCGGATATGGC -GATGATATTTCAGGAGCCGATGACATCGCTGAACCCGGTATTTACTGTGGGTGAACAGATTGCCGAATCA -ATTCGTCTGCATCAGAACGCCAGTCGTGAAGAAGCGATGGTCGAGGCGAAGCGGATGCTGGATCAGGTAC -GCATTCCTGAGGCACAAACCATTCTTTCACGTTATCCGCATCAACTCTCTGGCGGGATGCGCCAGCGAGT -GATGATTGCGATGGCGCTGTCATGCCGCCCGGCGGTGCTGATTGCCGATGAGCCAACCACCGCGCTGGAT -GTCACTATTCAGGCGCAGATCCTGCAATTAATCAAAGTATTGCAAAAAGAGATGTCGATGGGCGTTATCT -TTATCACTCACGATATGGGCGTGGTGGCAGAGATTGCCGATCGGGTACTGGTGATGTATCAGGGCGAGGC -GGTGGAAACGGGTACCGTCGAACAGATTTTTCATGCACCGCAACATCCTTACACCCGTGCGCTGTTAGCT -GCTGTTCCGCAACTTGGTGCGATGAAAGGGTTAGATTATCCCCGACGTTTCCCGTTGATATCGCTTGAAC -ATCCAGCGAAACAGGCCCCCCCCATCGAGCAGAAAACGGTGGTGGATGGCGAACCTGTTTTACGAGTGCG -TAATCTTGTCACCCGTTTCCCTTTGCGCAGCGGTTTGTTGAATCGCGTAACGCGGGAAGTGCATGCCGTT -GAGAAAGTCAGTTTTGATCTCTGGCCTGGCGAAACGCTATCGCTGGTGGGCGAGTCTGGCAGCGGTAAAT -CCACTACCGGGCGGGCGTTGCTGCGCCTGGTCGAATCGCAGGGCGGCGAAATTATCTTTAACGGTCAGCG -AATCGATACCTTGTCACCCGGCAAACTTCAGGCATTACGCCGGGATATTCAGTTTATTTTTCAGGACCCT -TACGCTTCGCTGGACCCACGTCAGACCATCGGTGATTCGATTATCGAACCGCTGCGTGTACACGGTTTAT -TGCCAGGTAAAGACGCGGCTGCACGCGTTGCGTGGTTGCTGGAGCGCGTGGGCCTGTTACCTGAACATGC -CTGGCGTTACCCGCATGAGTTTTCCGGCGGTCAGCGCCAGCGCATCTGCATTGCTCGCGCGTTGGCATTG -AATCCAAAAGTGATCATTGCCGACGAAGCCGTTTCGGCGCTGGATGTTTCTATTCGCGGGCAGATTATCA -ACTTGTTGCTCGATCTCCAGCGTGATTTCGGCATTGCGTATCTGTTTATCTCCCACGATATGGCGGTGGT -AGAGCGGATTAGTCATCGTGTGGCGGTGATGTATCTCGGGCAAATTGTTGAAATTGGTCCACGGCGCGCG -GTCTTCGAAAACCCGCAGCATCCTTATACGCGTAAATTACTGGCGGCAGTTCCGGTCGCTGAACCGTCCC -GACAACGACCGCAGCGTGTACTGCTGTCGGACGATCTTCCCAGCAATATTCATCTGCGTGGCGAAGAGGT -GGCAGCCGTCTCGTTGCAATGCGTCGGGCCGGGGCATTACGTCGCACAACCACAATCAGAATACGCATTC -ATGCGTAGATAACATTCAGGCGGAGAATAAAATGGCAAGAGCTGTACACCGTAGTGGGTTAGTGGCGCTG -GGCATTGCGACAGCGTTGATGGCATCTTGTGCATTCGCTGCCAAAGATGTGGTGGTGGCGGTAGGATCGA -ATTTCACCACGCTCGATCCGTATGACGCAAATGACACGTTATCTCAGGCCGTAGCGAAATCGTTTTACCA -GGGGCTGTTCGGTCTGGATAAAGAGATGAAACTGAAAAACGTGCTGGCGGAGAGTTATACCGTTTCCGAT -GACGGCATTACTTACACCGTGAAATTGCGGGAAGGCATTAAATTCCAGGATGGCACCGATTTCAACGCCG -CGGCGGTGAAAGCGAATCTGGACCGGGCCAGCGATCCGGCGAATCATCTTAAACGCTATAACCTGTATAA -GAATATTGCTAAAACGGAAGCGATCGATCCGACAACGGTAAAGATTACCCTCAAACAGCCGTTCTCAGCG -TTTATTAATATTCTTGCCCATCCGGCGACCGCGATGATTTCACCGGCAGCGCTGGAAAAATATGGCAAGG -AGATTGGTTTTTATCCGGTGGGAACCGGACCGTATGAACTGGATACCTGGAATCAGACCGATTTTGTGAA -GGTGAAAAAATTCGCGGGTTACTGGCAGCCAGGATTGCCCAAACTGGACAGCATAACCTGGCGTCCGGTG -GCGGATAACAACACCCGCGCGGCAATGCTGCAAACCGGTGAAGCGCAGTTTGCTTTCCCCATTCCTTACG -AGCAGGCCACACTGCTGGAGAAAAACAAAAATATCGAGTTGATGGCCAGTCCGTCAATTATGCAGCGTTA -TATCAGTATGAACGTGACGCAAAAGCCGTTCGATAACCCGAAGGTCCGTGAGGCGCTGAATTACGCCATT -AACCGTCCGGCGCTGGTGAAAGTTGCCTTTGCGGGCTATGCAACGCCAGCTACTGGTGTGGTACCGCCAA -GTATCGCCTACGCGCAAAGTTATAAACCGTGGCCTTACGATCCAGTGAAAGCGCGCGAATTACTGAAAGA -GGCGGGATATCCCAACGGTTTCAGTACCACGCTGTGGTCGTCACATAACCACAGCACCGCGCAGAAAGTG -CTGCAATTTACCCAGCAGCAGTTAGCGCAGGTCGGGATTAAAGCCCAGGTGACTGCGATGGATGCCGGAC -AGCGGGCGGCAGAAGTTGAAGGTAAAGGGCAAAAAGAGAGCGGCGTGCGGATGTTCTACACTGGCTGGTC -GGCTTCAACCGGCGAAGCGGACTGGGCACTATCGCCGCTGTTTGCCTCGCAGAACTGGCCACCGACGCTG -TTTAATACCGCGTTTTACAGCAATAAACAGGTGGATGACTTCCTGGCTCAGGCACTGAAAACTAATGATC -CGGCGGAAAAGACCCGCTTATATAAGGCGGCGCAGGATATCATCTGGCAAGAATCGCCGTGGATCCCGCT -GGTGGTAGAAAAACTGGTGTCGGCACACAGTAAAAACCTGACCGGTTTTTGGATCATGCCAGACACCGGC -TTCAGCTTTGAAGACGCGGATTTGCAATAAGCAACGCAGGGAGTGGAATGCTTAATTACGTTATCAAACG -CTTACTGGGGTTGATTCCGACGCTGTTTATCGTCTCGGTGCTGGTGTTTTTATTTGTCCATATGCTGCCC -GGCGATCCGGCGCGATTGATTGCCGGGCCCGAAGCTGATGCGCAGGTTATAGAACTGGTGCGTCAGCAGC -TGGGGTTGGATCAGCCGCTGTATCACCAGTTCTGGCACTATATCAGCAATGCTGTGCAGGGGGATTTTGG -CCTGTCGATGGTGTCGCGTCGTCCGGTTGCCGATGAGATTGCCAGCCGCTTTATGCCAACGCTGTGGCTG -ACCATAACCAGTATGGTCTGGGCGGTTATATTTGGTATGGCGGCGGGAATTATCGCCGCCGTCTGGCGTA -ACCGTTGGCCGGATCGATTGAGTATGACCATTGCGGTGTCGGGGATCTCGTTTCCGGCATTTGCTCTGGG -GATGCTTTTAATTCAGGTATTCTCCGTTGAACTGGGCTGGCTGCCTACCGTGGGAGCAGACAGTTGGCAG -CACTACATTTTACCCTCCCTGACGCTCGGCGCGGCAGTGGCCGCCGTGATGGCGCGCTTTACCCGCGCGT -CGTTTGTCGATGTTTTAAGCGAAGATTATATGCGTACCGCGAGGGCGAAAGGGGTGAGCGAAACCTGGGT -TGTCCTCAAACACGGGCTACGTAACGCGATGATCCCGGTAGTGACCATGATGGGCTTACAGTTTGGCTTT -TTGCTCGGTGGTTCCATCGTTGTGGAGAAAGTTTTCAACTGGCCGGGACTTGGACGCTTACTCGTTGACT -CCGTAGAAATGCGTGATTACCCGGTGATTCAGGCGGAAATTCTGCTTTTCTCGCTGGAATTTATTCTTAT -CAACTTAGTGGTGGATGTGCTTTACGCCGCCATTAACCCGGCTATCAGGTACAAGTAAGGATGCGACTAT -TTAACTGGCGACGTCAGGCGGTGTTAAACGCCATGCCACTGGTCAAACCTGACCAGGTACGTACACCGTG -GCATGAATTCTGGCGACGATTTCGCCGTCAGCATATGGCGATGACCGCCGCATTATTCGTTATTTTATTG -ATTGTGGTGGCCATTTTTGCACGCTGGATCGCTCCCTATGACGCCGAAAATTATTTTGATTATGACAATC -TGAATAACGGACCTTCTTTGCAGCACTGGTTTGGCGTCGATTCACTGGGGCGTGACATTTTCAGCCGTGT -CCTGGTTGGTGCGCAAATCTCGCTGGCGGCGGGCGTGTTTGCCGTGTTTATCGGTGCGGCGATCGGGACG -TTGCTGGGCTTGCTCGCTGGATATTATGAAGGCTGGTGGGATCGGCTGATCATGCGCATTTGCGATGTGC -TGTTTGCCTTCCCGGGTATTTTACTGGCGATCGCTGTTGTTGCGGTGTTGGGAAGCGGCATTGCTAACGT -GATTATTGCAGTCGCCATTTTTTCCATCCCCGCGTTTGCCCGCCTGGTGCGCGGCAACACGCTGGTGTTG -AAACAGCAAACCTTTATTGAGTCAGCACGCAGTATTGGTGCCAGCGATATGACCGTTTTGTTGCGTCATA -TCCTGCCTGGGACCGTCTCTTCTATCGTGGTGTTTTTCACCATGCGCATTGGTACCTCGATTATCTCTGC -CGCCAGCCTCTCATTTCTCGGCCTCGGTGCGCAGCCGCCGACACCAGAGTGGGGAGCAATGCTCAATGAG -GCTCGAGCGGATATGGTTATCGCGCCGCATGTCGCTGTTTTTCCGGCCCTGGCTATTTTTCTGACCGTAC -TGGCGTTCAATTTGTTGGGCGATGGTTTACGCGATGCGCTGGATCCGAAAATTAAAGGATAGTTACGTTT -GAATATTGCTTGAAAGGGTAATCACCTCACAGGAAATTATTGCCCTAAGCAAGTGTTGTAACTTTCTGCT -GATTTTGTAGAATCGGGTAATTTGGTTAAAAAGCCGCAGCAAGGGACAATTTTTGCAGCGGCACAGCGTT -CAGATAGTTATTTTGTTAAATGTATTAACATGCTGAGTTTATACGAAAAGATAAAGATAAGGCTGATAAT -TTTATTTTTATTGGCAGCACTGTCATTTATTGGTCTTTTTTTCATCATTAACTATCAACTGGTATCGGAG -CGCGCGGTAAAACGTGCCGATAGCCGCTTTGAACTTATTCAGAAAAACGTTGGCTATTTCTTTAAAGATA -TTGAACGTTCGGCCCTGACATTAAAGGACTCACTGTATTTATTAAAAAATACAGAGGAGATTCAACGCGC -CGTGATTCTTAAAATGGAAATGATGCCATTTTTAGACTCGGTGGGACTGGTACTTGATGATAATAAATAT -TATCTTTTTTCGCGGAGGGCGAATGATAAAATCGTTGTTTATCATCAGGAACAAGTAAATGGACCGCTTG -TCGACGAGTCAGGGCGGGTTATTTTTGCCGATTTTAACCCATCGAAACGACCGTGGTCGGTGGCTTCAGA -TGACTCTAACAACAGCTGGAATCCGGCATACAATTGCTTTGATCGTCCGGGTAAAAAATGTATCTCTTTT -ACGCTACACATCAACGGCAAAGATCACGATTTGTTAGCGGTGGATAAAATTCATGTCGATTTAAACTGGC -GATATCTGAACGAGTATCTTGATCAAATCAGCGCTAATGATGAAGTTCTATTTTTGAAACAAGGCCATGA -GATCATTGCCAAGAATCAACTCGCTCGTGAAAAACTGATTATTTATAATAGCGAAGGTAATTATAATATT -ATTGATTCTGTCGATACTGAATATATCGAAAAAACATCAGCGGTGCCAAACAACGCATTATTCGAAATCT -ATTTTTATTATCCTGGCGGTAATTTATTGAACGCATCAGATAAACTTTTTTATCTGCCGTTTGCGTTCAT -TATTATCGTATTGCTGGTGGTTTATTTAATGACCACTCGTGTGTTCCGTCGGCAATTTTCTGAAATGACA -GAGCTGGTTAATACGCTGGCGTTTTTGCCTGACTCAACGGATCAAATCGAGGCTCTGAAAATTCGTGAAG -GCGATGCGAAAGAGATTATCAGCATCAAAAATTCGATCGCGGAAATGAAAGATGCCGAAATTGAACGGTC -AAATAAATTGCTCTCACTGATCTCTTACGATCAGGAAAGTGGTTTTATTAAAAATATGGCGATTATTGAG -TCTAACAATAATCAGTATCTGGCTGTGGGGATCATCAAACTGTGTGGTCTGGAAGCCGTGGAAGCGGTGT -TTGGTGTTGATGAGCGCAATAAAATCGTCAGGAAATTGTGTCAGCGAATTGCCGAGAAATATGCGCAATG -CTGCGATATCGTGACATTCAATGCCGATCTCTATTTACTTCTGTGTCGGGAAAATGTACAGACATTTACC -CGTAAAATAGCGATGGTAAACGATTTTGACAGCAGCTTTGGCTACCGCAATCTGCGCATCCATAAGTCTG -CCATTTGTGAACCTTTGCAGGGGGAAAACGCCTGGAGTTACGCAGAAAAACTGAAACTGGCGATTTCCAG -TATCCGTGACCATATGTTCTCAGAGTTTATTTTCTGTGATGACGCGAAACTCAACGAAATAGAAGAGAAT -ATCTGGATTGCGCGTAATATTCGCCATGCAATGGAAATTGGCGAACTATTCCTCGTCTATCAACCGATCG -TTGATATTAACACCCGCGCCATTCTGGGCGCGGAGGCGTTGTGCCGTTGGGTGTCTGCGGAGCGGGGGAT -CATTTCACCGCTGAAGTTCATTACCATTGCTGAAGATATCGGGTTTATCAATGAGCTGGGTTATCAGATT -ATTAAAACGGCAATGGGTGAATTCAGACATTTTAGTCAGCGTGCGTCGCTGAAGGATGATTTCTTACTGC -ATATTAATGTTTCGCCCTGGCAGTTAAACGAACCACACTTTCATGAGCGTTTTACCACCATCATGAAAGA -AAATGGCCTGAAGGCGAACAGCCTCTGTGTTGAGATCACTGAAACCGTGATCGAGCGAATTAATGAACAT -TTTTATCTCAATATTGAACAACTGCGTAAACAAGGGGTACGGATATCGATTGATGACTTTGGCACCGGTT -TGTCAAACCTGAAACGTTTTTATGAAATTAATCCAGACAGCATAAAGGTGGACTCGCAATTCACCGGCGA -TATTTTCGGTACTGCGGGAAAAATTGTGCGCATTATTTTCGACCTGGCACGCTATAACCGGATCCCGGTG -ATTGCGGAAGGCGTAGAGAGCGAAGACGTTGCGCGCGAATTAATCAAATTAGGATGTGTTCAGGCTCAGG -GGTATCTGTACCAGAAACCCATGCCATTCTCCGCCTGGGATAAAAGTGGAAAATTAGTAAAAGAGTAGTT -TACGTATGTCCAGAATCAATAAGTTCGTACTTACAGTCAGTCTGCTGATTTTTATCATGATTTCAGCAGT -TGCCTGCGGGATCTACACTCAAATGGTAAAGGAACGGGTGTATAGCCTGAAACAGTCCGTTATTGATACT -GCTTTTGCGGTGGCAAATATTGCTGAATATCGGCGTAGCGTGGCAATTGATCTTATCAACACGCTAAATC -CCACGGAGGAACAGCTGTTGGTTGGTTTGCGCACAGCTTACGCCGACTCGGTTTCCCCCTCTTATTTGTA -CGATGTCGGTCCTTATCTGATTTCCAGTGACGAATGTATTCAGGTAAAGGAGTTCGAGAAAAATTATTGT -GCAGATATTATGCAGGTTGTGAAGTATCGACATGTCAAAAATACAGGGTTTATCTCTTTTGACGGTAAAA -CCTTCGTCTATTACCTCTATCCGGTAACTCACAATCGTAGTCTGATATTTTTGCTTGGTCTGGAGCGTTT -TTCTTTACTGTCAAAATCGCTGGCGATGGACAGCGAGAACCTGATGTTCTCTCTATTTAAGAACGGTAAA -CCGGTGACCGGTGATGAATATAATGCTAAAAACGCCATCTTCACCGTTTCGGAAGCGATGGAGCACTTCG -CCTATTTGCCGACCGGATTGTATGTATTTGCGTATAAAAAAGATGTTTATTTGCGGGTTTGTACATTGAT -TATTTTCTTTGCCGCATTGGTGGCAGTGATATCGGGTGCCAGTTGCCTCTATCTGGTACGCAGAGTGATT -AATCGTGGTATTGTGGAGAAAGAAGCCATCATTAATAACCATTTTGAACGCGTACTGGATGGCGGGCTTT -TCTTTTCGGCTGCCGATGTCAAAAAACTCTACAGTATGTATAACTCGGCGTTCCTGGACGACCTGACCAA -AGCAATGGGCAGAAAATCCTTTGACGAAGATTTAAAAGCGCTGCCGGAAAAAGGCGGTTATTTGTGCCTG -TTTGACGTCGATAAATTCAAAAACATTAACGACACCTTCGGTCATTTGCTGGGCGATGAAGTGTTGATGA -AAGTGGTGAAAATCCTTAAATCACAGATCCCGGTAGATAAAGGTAAAGTCTACCGCTTCGGCGGTGACGA -ATTTGCGGTGATTTATACGGGTGGAACGCTGGAAGAGTTGCTATCGATTCTAAAAGAAATCGTTCATTTC -CAGGTGGGAAGCATTAATTTAAGTACCAGTATCGGTGTAGCACATTCAAATGAATGTCCTACCGTCGAAC -GCTTGAAAATGCTGGCGGATGAGCGGCTGTATAAGAGTAAGAAAAACGGCAGGGCACAGATTAGCTGGCA -GTAATCATTATTCGCAGGCCGGACAAATGATTTTGCCCGGCCTGAATTAATTAAACCCGGCTACCCCACA -AATCGTACTCATCGGCGTGCTCGACTTTCACACGCAGGATATCACCCGGCTTAACGTTGGTTTCACCATT -GAGATAAACCGCGCCGTCGATTTCCGGTGCATCTGCCATGCTGCGACCAATCGCGCCTTCTTCGTCCACT -TCGTCGATAATCACCAGAATTTCACGGCCCACTTTCTCTTGCAGGCGCTCGGCGGAAATCTGCTGCTGCA -GCTGCATGAAACGGTTCCAGCGTTCTTCTTTAACTTCTTCCGGAACCTGGTCAGGCAGGGCATTGGCGTC -TGCACCTTCAACCGGGCTGTATTTAAAGCAGCCAACGCGATCCAGACGCGCTTCTTTCAGGAAGTCGAGT -AGCATCTGGAAATCTTCTTCTGTCTCGCCAGGGAAGCCGACAATAAAGGTTGAGCGTAGGGTCAGTTCCG -GGCAGATTTCGCGCCACTGTTTGATGCGCGCCAGTTGGCGATCTACAGAACCCGGACGCTTCATCAGTTT -GAGAATGCGCGGGCTGGCGTGCTGCAACGGAATGTCCAGATACGGCAGGATTTTGCCTTCTGCCATCAGT -GGGATGACGTCGTCCACATGCGGATAAGGGTAAACGTAGTGCAGACGTGTCCAGATCCCCAGTTTCGATA -ACTGTTCGCACAGGCTGACCATGCTGGTTTTTACCGGCTCGCCGTTGTGGAAGCCAGTACGATGTTTAAC -ATCAACGCCATAGGCGGAAGTATCCTGCGAGATCACCAGAATCTCTTTAACGCCCGCATCTACCAGACGT -TTCGCTTCACTTAACACTTCGCCAATCGGACGGCTCACCAGGTCGCCGCGCATAGACGGAATAATGCAGA -AGGTGCAGCGGTGATTACAGCCTTCAGAAATTTTCAGATAGGCATAATGACGCGGCGTCAGTTTCACACC -TTGTTCTGGCACCAGGCTCAGGAATGGGTTGTGTTTCGGTTTTGGCACGTAGTGATGAACGTGCTCCAGA -ACCTGCTCATAGCTATGAGGCCCGGTGATTTCCAGCACTTTCGGGTGGACTTCGCGGATCTGATCTTCTT -TTGCCCCCAGACAACCGGTCACAATAACCTTGCCGTTTTCATTCAACGCTTCACCAATGGCTTCCAGTGA -TTCTTGTACCGCGCTGTCAATAAAGCCGCAGGTGTTGACGATCACCATGTCCGCATCGTCATAGCTCGGT -ACCACGTCATAACCTTCAGTGCGGAGTTCGGTGAGAATACGCTCTGAATCAACAAGGTTTTTCGGACAGC -CAAGGGAAACAAAGCCGATTTTCGGCTGGGGAGTTACTTTGCTCATAGCTTAAAAAATATTCAGTTACAG -GAAAGGTCAGGGCAGGGATTCTACAGAGTTCTGGATAAAATTTGTATCGCAATCTCATTCGCTGGCGGAG -GCGAAGGAAATGTAAATTTTGTTAATTCGGCGTGAAGAATTGATCCTGGACAGCATTTTGCTCAAAAAAT -AGCCATACTATTTAATTGCAACAAGGCTGGGAAGAGGAGGATCGAAGTATGTTCGTTGACAGACAGCGAA -TCGATCTGCTGAACCGGTTGATCGACGCACGCGTTGACCTCGCCGCATACGTGCAACTGAGGAAGGCAAA -AGGATACATGTCCGTCAGCGAAAGCAATCATCTACGAGATAACTTTTTTAAACTGAATCGCGAACTGCAC -GATAAATCGCTGCGGTTGAATCTTCATCTGGATCAGGAAGAGTGGAGTGCTCTTCATCATGCTGAAGAAG -CATTAGCGACAGCCGCAGTATGTTTGATGAGTGGGCACCATGATTGCCCGACTGTTATTACCGTCAACGC -CGATAAGCTTGAAAATTGTCTGATGAGCTTAACGCTGAGTATCCAGAGCCTGCAGAAGCACGCCATGCTT -GAGAAGGCCTGAAAACTAAGGGGGAGAAAGCGTCTCCCCCTTCATGTTTAAGTTTTTGTAAAAATGAATT -TGTTATCTCCTCCACTGACTACGCTTTAAGCCAGAGTCAATCCGGAGGCGTTATGCATCGACAATCCTTT -TTCCTTGTGCCCCTTATTTGTCTTTCTTCCGCTCTCTGGGCGGCTCCTGCAACGGTAAATGTCGAAGTAC -TGCAAGACAAACTCGACCATCCCTGGGCACTGGCCTTTTTACCCGATAATCACGGTATGTTAATCACTCT -GCGCGGCGGCGAGTTGCGTCACTGGCAAGCAGGAAAAGGATTATCTGCGCCGCTTTCCGGAGTTCCGGAC -GTTTGGGCGCACGGGCAGGGCGGCCTGCTGGACGTGGTTTTAGCGCCTGATTTTGCTCAGTCTCGCCGCA -TCTGGTTAAGTTATTCCGAAGTTGGCGATGATGGCAAAGCCGGAACTGCTGTGGGTTATGGCCGCTTAAG -TGATGATCTCTCAAAAGTGACCGACTTCCGCACCGTCTTTCGCCAGATGCCAAAACTGTCTACCGGCAAC -CATTTTGGCGGGCGGCTGGTATTCGACGGTAAAGGTTATCTTTTTATTGCTCTGGGCGAAAACAATCAGC -GCCCGACGGCGCAGGATCTGGATAAATTACAGGGCAAACTGGTGCGTCTGACCGACCAGGGCGAAATCCC -GGATGATAATCCTTTTATAAAGGAATCCGGTGCGCGCGCCGAGATCTGGTCTTATGGCATTCGTAATCCG -CAAGGAATGGCGATGAATCCGTGGAGTAATGCACTGTGGCTGAATGAACATGGCCCGCGCGGTGGTGATG -AAATTAATATCCCGCAAAAAGGCAAAAACTACGGCTGGCCGCTGGCAACCTGGGGAATCAACTATTCAGG -CTTTAAGATACCGGAAGCGAAAGGGGAGATCGTCGCCGGGACCGAGCAACCTGTTTTTTACTGGAAAGAT -TCGCCCGCTGTGAGCGGCATGGCCTTCTATAACAGCGATAAATTCCCCCAGTGGCAGCAAAAATTATTTA -TTGGCGCGCTGAAAGATAAAGATGTCATTGTGATGAGCGTCAACGGCGACAAAGTGACAGAAGATGGCCG -TATTTTAACGGACAGAGGGCAGCGAATTCGTGATGTTCGCACTGGACCCGACGGTTATTTATACGTTCTC -ACCGACGAGTCCAGTGGGGAATTACTTAAAGTTAGCCCACGCAATTAGCTAACGGGAATCATCACCACTT -TGCGCACTGCGGGGCGTTCAGTGAGTTGCTGATACCAGCGTTGCAGATTTGGACGCGGTGTCCAGGTCAG -GCCAACGTTAAACAAATTGTAGATGAACGGTGCGATAGCGATATCGCCCACACCAAACTCGTCGCCAGAG -AACCATTTTACTTTTGCCAGTTCCGCATCGAGCAGGGCAAACAGGGCGTCGCACTCTTTGCAACTGGCAT -CAATGGCGGCCTGATCGCGCTCTTCCGGTGGTGTTCTGACTAATCCCATCAGGATCCCGCGATGAGCATT -ACTGAGCGTCTGGTTTGCCCAGTCCATCCATTTTTCCGCTTCCGCACGACGTGCCGGTGAGTCGATCCAC -AGGCGTTTTTGCCCGTACTGTGCCGCCAGATAGCGGACAATGGCGTTTGATTCCCAAAGAATGAGATCAC -TTTCGTCGTCACGCAACAACGGCACCAGCCCGTTAGGGTTCATCGCCAGAAAATCAGCATCGTGATTTAT -CCCAAACTCACGGCCCGCGAGAATTTGCTCATAAGGTAGTTCCAGTTCTTCGAGCGTCAGCAATACTTTT -TTTACGTTAGTTGAATTATTCCGACCCCACAGCGTAATCATACTCACCCCTTTTCCGACAGGCAGCCACA -GGCTGAACAGGACTCCGATGGTGAAGTAAAGTTAACTTTTAAGCAACAGCTGGCAAAAAAATGACACCAG -AAGCAGCGAAGCGGCAGGATATTGCATAAACTTTAAAAACTTTACCAACTTACGGTTTCTTTAAGTTTGT -GTGTGCGTTATTAATCACCAAACTTATCATACGGCGATATAACGTATTTTTTTTGAATGGATACTCGGGT -GGCATTTATGACGCAATACTCCTCTCTCCTTCGTGGTCTTGCAGCGGGTTCTGCATTTTTATTCCTTTTT -GCCCCAACGGCATTCGCGGCGGAACAAACCGTTGAAGCGCCGAGCGTGGATGCGCGTGCATGGATTTTAA -TGGATTACGCCAGCGGTAAAGTGCTGGCAGAAGGCAATGCGGATGAGAAACTGGATCCCGCGAGCCTGAC -TAAAATCATGACCAGCTATGTGGTTGGGCAGGCGCTTAAGGCCGATAAGATTAAACTCACCGATATGGTG -ACGGTCGGTAAAGATGCCTGGGCGACGGGAAATCCGGCACTGCGTGGTTCATCGGTAATGTTCCTCAAAC -CGGGCGATCAGGTTTCGGTGGCAGACTTGAACAAAGGTGTGATTATCCAGTCCGGTAATGACGCCTGTAT -TGCGCTGGCTGATTACGTTGCCGGGAGCCAGGAGTCATTTATTGGTCTGATGAATGGTTATGCCAAAAAA -CTGGGTCTGACCAACACTACCTTCCAGACGGTGCACGGCCTGGATGCGCCGGGGCAGTTCAGCACCGCGC -GCGATATGGCATTGCTGGGTAAAGCATTGATCCACGATGTGCCGGAAGAGTACGCCATTCATAAAGAGAA -AGAGTTCACCTTCAACAAAATTCGTCAGCCTAACCGTAACCGTCTGCTGTGGAGCAGCAATCTGAATGTT -GATGGCATGAAGACAGGAACCACGGCAGGCGCGGGATATAATCTGGTTGCTTCGGCTACCCAGGGCGATA -TGCGTTTAATCTCCGTAGTGTTGGGGGCGAAAACCGACCGTATCCGTTTTAATGAGTCTGAGAAATTATT -GACCTGGGGTTTCCGCTTCTTTGAAACCGTGACGCCAATTAAACCTGATGCCACCTTTGTGACTCAGCGC -GTCTGGTTTGGTGATAAGAGCGAAGTGAATCTCGGGGCAGGTGAAGCGGGCTCAGTGACCATACCGCGTG -GGCAGCTGAAAAACCTGAAAGCGAGTTATACGTTAACGGAACCGCAGCTTACCGCACCGCTGAAAAAAGG -TCAGGTTGTCGGGACCATTGATTTCCAGCTTAACGGTAAATCCATTGAGCAGCGTCCGCTGATCGTGATG -GAAAATGTGGAAGAGGGCGGATTCTTTGGTCGGGTGTGGGATTTCGTGATGATGAAATTCCATCAGTGGT -TCGGCAGCTGGTTCTCTTAATCTTCTGATAACCGGATGGCGCGAAACGTCATCCGGTTATACGTCATTAA -TACATCAACTTAATGCGCTGCGTCTGCGCGTACTTCACATACTCATCTTCCGGGCAACAATCGCTCACCA -CAATATCAAAGCGTTTCAGGTCACCCATGCGCGCCGGACGCACCTTGCCAAATTTACTGTGGTCGACAAC -CAGCACATGCTTTTGCGCCATCGACATGGCCCAGTGTTTTACCGGCAACTCTTCAAGATTAAAACAGGTA -GCGCCTTTACTGACATGCACGCCCGCCGCAGAATAAAAAGCGATATCCGGGCAAAAATTATTCAGCGTTT -GCTGAAAATCGATGGGTTTGAAAATGGCGTTGCTGGCGTGAAATTCACCACCGCAAAGAAACGCGCGGCA -ATGGGGTTTCTCTTTCAGCGCCAGAAAGGTATTTAGCGAATAACAAACGGCGGTAAAAGGGATTTCATTA -TCAATCGCTTCAATAATCCACGGCGTGGTGGTGCCACAGTCAAAAAAGAGGGTCTGATCGGGTTCTACCA -GCGTCGCAGCCAGTTTTGCCGCCCGGCGTTTTTCTTCCACCAGGCGGGATTTTTGATCGCTTAACAGGTA -ATGGCTGGCACTGCGCGGTTCCAGAACAATATAGCCGCCGAGCAAAACGACGGGCGCACTGTGGTTGTTC -AGATCGCGACGAATCGTCATCTCCGAAACCCCAAGCAGGGCGGCGGCGTCTTTAAGATGTAACTTATCGC -TGCGTTTTAATTCTTGCAGCAGCTGCCCGATACGCTCTTCGCGACGTGTTTCCATAATCCCTCTGAATAG -TTATTGAAGCGAGCCGCTCAATACTACACTTTTTAGCAGAGATCAGTCACGCACCCAGCCTTTGCGGATC -GGTAATGCAAAACAGACGCGATACCACGATTGCAGACGTTGATAGAGTTTATGCCCCATCGCTTGCCAGA -TAATCTGGGCACTAAGGCAGCCAATCATACCTGCCAGCAATCCACCGAGCATATCCAGCGGCCAGTGGAC -GCCAAGATAAACGCGCGACCAGGCAATGACGACGGCCAGCACCATTAAAAGTGAGCCGGACCACAGGCGA -TGCCAGCATAAAAATGCCAGTGCAAAGGTGAAAATCACCGTACCGTGATCGCTTGGGAATGAGTCATCCG -CCGCATGATGCAGGAAGTTATAGCCGATATTTTCGACAAAGGGTCGGTCGTGCGGAAAAAGATGTCCCAT -CGTCCAGGACACAAACAGGCTGACCGCCAGCGCGATAGCGATTTTTATCACCAGTTGCCGTTGTGCTGTA -AGCCCCCACAACCAAAGTACCACGGCCAGCAACGGCACCACGGTAATCAAATCTTTAGCAATAAAAATCG -CCAACGAGATCATCCACGGAGCCGAGTCTGGCGTCGCGTTAATAAGAGAGAATAGAGAGAGATTCAAATT -TTCCAGCATAACTTCCCGACGCAAAGTGATTAAAAGGGAGCCAATACAGGCAAGTCGTTGAGAATAAAGT -GCAGGTTAAACTGGGTAAAGCGGCATCGTCTTATTTCCCTCAAGCGGCCTGTTTACGGTGGGTGATTGTA -ACGGGCATAGGTTAAATAAAACTTAAAGAAAGCGTAGCTATACTCGTAATAATGTAAGAATGTGCTTAAC -CGTGGTTTCAGCTACAAAATTCGCTTTCTCGTTAGCTGCGCTTTTATTAAACTCTGCGCGATTATTATTG -GCGAAGAAATTGCATGCAAAATAAATTAGCTTCCGGTGCCAGGCTTGGACGTCAGGCGTTACTTTTCCCT -CTCTGTCTGGTGCTTTACGAATTTTCAACCTATATCGGCAACGATATGATTCAACCCGGTATGTTGGCCG -TGGTGGAACAATATCAGGCGGGCATTGATTGGGTTCCTACTTCGATGACCGCGTATCTGGCGGGCGGGAT -GTTTTTACAATGGCTGCTGGGGCCGCTGTCGGATCGTATTGGTCGCCGTCCGGTGATGCTGGCGGGAGTG -GTGTGGTTTATCGTCACCTGTCTGGCAATATTGCTGGCGCAAAACATTGAACAATTCACCCTGTTGCGCT -TCTTGCAGGGCATAAGCCTCTGTTTCATTGGCGCTGTGGGATACGCCGCAATTCAGGAATCCTTCGAAGA -GGCGGTTTGTATCAAGATCACCGCGCTGATGGCGAACGTGGCGCTGATTGCTCCGCTACTTGGTCCGCTG -GTGGGCGCGGCGTGGATCCATGTGCTGCCCTGGGAGGGGATGTTTGTTTTGTTTGCCGCATTGGCAGCGA -TCTCCTTTTTCGGTCTGCAACGAGCCATGCCTGAAACCGCCACGCGTATAGGCGAGAAACTGTCACTGAA -AGAACTCGGTCGTGACTATAAGCTGGTGCTGAAGAACGGCCGCTTTGTGGCGGGGGCGCTGGCGCTGGGA -TTCGTTAGTCTGCCGTTGCTGGCGTGGATCGCCCAGTCGCCGATTATCATCATTACCGGCGAGCAGTTGA -GCAGCTATGAATATGGCTTGCTGCAAGTGCCTATTTTCGGGGCGTTAATTGCGGGTAACTTGCTGTTAGC -GCGTCTGACCTCGCGCCGCACCGTACGTTCGCTGATTATTATGGGCGGCTGGCCGATTATGATTGGTCTA -TTGGTCGCTGCTGCGGCAACGGTTATCTCATCGCACGCGTATTTATGGATGACTGCCGGGTTAAGTATTT -ATGCTTTCGGTATTGGTCTGGCGAATGCGGGACTGGTGCGATTAACCCTGTTTGCCAGCGATATGAGTAA -AGGTACGGTTTCTGCCGCGATGGGAATGCTGCAAATGCTGATCTTTACCGTTGGTATTGAAATCAGCAAA -CATGCCTGGCTGAACGGGGGCAACGGACTGTTTAATCTCTTCAACCTTGTCAACGGAATTTTGTGGCTGT -CGCTGATGGTTATCTTTTTAAAAGATAAACAGATGGGAAATTCTCACGAAGGGTAAAAAAATGCCTGACT -GCTTTGTGCGATCAGGCATTCTCGAATTAATGGTGATGGTCGTCAATCTGGTGTTCGATAACCATCCCTT -CACCTACGCTGGCAAGATGGCGAACATAAGGATGCGGGCGGTAAGCCGGAGCTGGCGCAGGAGCCACATA -GACGGTTTGCGGCACAGTCGCGACGCTGACCGCTTGTGGAACGCTGACTGAATCAGGAACCACAACCACT -TTGTATCCACTCGGCACATCGACGGTGACACTTTGCGCCATCGCCACACCAGTAAAGCCCATTAAAAGCG -CGCCCAACAGTAGACAATTTTTCATAATCATTTCGCCTGAAATAATGCAGCGGGTTAATTTCCGCGAATT -ATGCAGCCTTCATTCAGGCATTGTGTTGCCGGGCGTGCTGCCGGTTTTATTGGTCAAATGGCGCTTCGTG -TTTAAGAACTTTATCGATCACATCCAGTACGCCTTCACGGTTATTGGAGCCTGCGCGGTATTTTGCCGCT -GCGACGACCGCGCTACCGGCATTTTCCATTGCAAAACTAAAGCCTGCCTGACGCAGCATCTCAATATCGT -TACCGCCATCGCCAAAGACCACCACTTCGCTGTCGTCTATTCCCCATAATTTCTGCAGTTGGCGAAGGCC -ATTGGCTTTATGTACGCCGGGGATAATCAGATCGATGCTGCCGTTGCCGGTGTGGACCGACACCATAATA -TCGCCGATGGCCTCATGTAATGCTTTTTGTACTTGTGGAATCAGTTCATCGGAAAGATTCAGGCCAAACT -TAAAGAAGATATCCTCTAAGTTGTCAAAGTTATCGACGTATTCCAGACGGTGATAATACATTTCCGCCAC -CGTTTTCATGGCATCGTCATATTTTTTGAGTGTATAGGCACTATTTTTTCCGCAGGCAATAATTTCCACT -TCCGGGCGCGTCAGCAAATGTTCCACGACAGTAGCAAACGCATCCTTCGATAGCTCGCCATTAAAAACAT -CTTTGCCTTCGCTCACTACCCAGCCGCCGTTTTCAGCCACAAAGGCAATTTCATTAGCAATTTCAGGGAA -GAAAGAGATCAACTGATAATATTGATTCCCGCTGGCGACTACAAAGCGAATTCCTTGTGCTTTCATTTGC -TGATACTGAGCCATAAACCGCTCACGGTTATAGGTTTTTTGATCGCTTAAGAAAGTACCATCCATGTCTA -CCGCAATTAATTTAATGCTCATCAACTATTCTCCATCGCCGTCTGCGTTTTGGTATCGGGTTTGGCGACG -GCTTTCGCGACAATAGCCGCGAGAATAACCAGCGCCAGTACAACCAGCATTGCACTACGTAATCCATAAT -GTTCGCCGAGATAGCCCAGCAGCGGCGGCCCGACGAGGAAAGCCAGATAACCGGTCGTTGCTACCACACT -GACGCGGGTTGGTGCATCGGGGCCGGTATCGCTGGCGGCAGAAATGGTCAGCGGGAAGCCCAGCGAGGCA -CCCAGTCCCCAGAGTACAACAGACACCCCAGCGACCCAGGCGCTATCGACAAAAATAATCAGCCCAATAC -CCAACGCCCCCATTAGTGCACTGGCCCGAACCACGGCAACGCGACTGTAACGGTCGATGAACCAACCGCC -GGTGAAGCGTCCAACGGTCATCCCCAGGGTAAAACCGGCATAAATCAGCGAGCCGGAAGTAGGGCTAAAA -CCGTGACCGTCAACCATTAATAAGGGTAACCAGTCGTTGGCAGAACCTTCGGCAAAGGCCATCGCCAGCA -CCACAACACCTATCAGCAGCAACTGGATATCGCGATAAAAAGGTACGCCTTTTTCGCCATGCTGGGTGCC -ATCGGCAGCATTTTTGCCCGTACCGTCAGGGATTGCCTGAATGGCGATATAAATAGGTGCGATACCTACC -AGCGCCGCCAATAAAATGTGCACCGTTGCCGGAACGCCAAAGGCCGTCAGTGCCATCCCGACACCTGCGC -CTGCCAGCGTGCCCAGGCTATAAAAACCGTGCATCATCGGCAAAACCGTCTTATTCATTTCTCGCTCAAC -GGCAGCACCTTCAACGTTTATCGCCACTTCCGCAGAACCAAAACTTGCCCCAAAGACGCCGAGACCAACG -GCAAAGAGCAGGGGCGATGTCAGCCAGAGTGCCAGACTTAATATCATCATCCCGATCAATGCGCAGGACA -TCGTGACCAGGATGACATTACGTGTCCCAAAGCGTTTCACTAACCACGCCGAGCAGAGAATACCGCTCAT -CGAACCGATCGACAGACCAAAGAGAACACCGCCCATTTCAGCGATCGAGACAGAGAGAATATCGCGGATA -GCAGGCGTACGGGTTGCCCAGGACGCCATTAACAGGCCTGGCAAAAAGAAGAACATAAACAGCGCCCAGG -TTCGGCGTTTCAATGCATTACGTGAAGAATTTACGGTCATAGATCACGTCAAAATAAGAAGAGGGAAGAC -AACATTAGCAAGGTTGTGTACATTTGTACACAATTGCAGAGAGAGGAAATGACATGCGTCGCGCTAACGA -TCCGCAACGGCGAGAAAAAATTATCCAGGCCACGCTGGAGGCGGTGAAACTTTACGGAATACATGCTGTT -ACGCACCGCAAAATTGCTACCCTTGCCGGGGTACCGTTGGGATCGATGACCTACTATTTTTCAGGAATTG -ATGAGTTGTTACTGGAGGCGTTCAGCAGTTTTACTGAGATCATGTCCCGGCAATATCAGGCATTTTTTAG -CGATGTTAGTGATGCTCCGGGCGCATGCCAGGCTATCACCGATATGATCTACAGCTCACAGGTTGCAACG -CCGGATAACATGGAGCTGATGTACCAGCTCTACGCGCTGGCTAGCCGAAAACCGCTATTAAAAACGGTAA -TGCAAAACTGGATGCAGCGCAGTCAGCAAACGCTCGAACAATGGTTTGAACCCGGAACCGCCCGCGCGCT -TGATGCGTTTATTGAGGGGATGACGCTGCATTTTGTCACCGACCGTAAGCCGCTATCGCGCGAGGAGATT -TTGAGGATGGTTGAGAGGGTTGCAGGGTAGTAGATAAGTTTTAGATAACAAAAAACCCATCAACCTTGAA -CCGAAATGGCGGGGTTGATGGGCTCCACAAAATGGGGACATCAAAGAAAAGCAGTGGCACTAATTAAGAC -TGATGCCCTGCGGAAAAGTTCTGCGGTTGTGCAAAAAAATTTCATTTTCAGGGCAACTTCAGTTTTATCC -TAATCCTGGCCATACCATGACGATGATTGTCCCTGCCAGCGTCAGCAGGACGTTGGCGATTGCATAGGTG -CCCGCATAGCCCAGCGCCGGGATGTTACTGCGAGCTGTATCACTGATGATCTCCATTGCCGGCGCGCAGG -TACGTGCGCCCATCATTGCGCCGAACAACAGCGCGCGGTTCATTCGCAATACATAAGCACCGAACAAGAA -ACAGATAACCACGGGCACCAGACTGACAATCAATCCGGCAATCAACATCTGACCGCCAATCGCGCCCAGG -CCGTTATTAATACCGCTACCGGCGCTCAGACCAACGCCTGCCATAAACACCATCAAGCCGAACTCTTTCA -CCATGCTTAATGCACCCTGCGGAATGTAACCGAAGGTCGGGTGGTTAGCACGCATAAAGCCCAGCATAAT -TCCGGCGAATAACAACCCGGCAGCGTTCCCCATGCCGAAACTGAATGTGCTGAACTGGAAGGTGATCATC -CCGATCATCAGCCCAATAACAAAGAAGGCGCAGAATGCCAGCAGGTCAGTGACCTGGCTGTGAATCGAGA -TAAAGCCGATGCGATCGGCGATGGTTTTTACGCGGCGGGCATCGCCGCTGACTTGTAAAACGTCACCTTT -GTTAAGCACGACGTTGTCATCTATCGGCATCTCAATCTGGCTACGAATGACGCGGTTAAGGAAGCAACCG -TGATCGGTCAACTTCAGTTGTGCGAGACGTTTACCTACAGCGTTATGGTTTTTAACGACCACTTCTTCAG -TGACGATACGCATGTCGAGAAGGTCACGATCGAAAACTTCTTTACCGTTACGGAAGCTGGGATCGAGTCG -GGCATGGGCGTCGGGATAGCCTACCAACGCTATTTCATCGCCCATTTGTAGCACGGCATCACCGTCTGGA -TTTGCCAGAATCCCGTTACGTCGAATACGTTCAATGTAGCAGCCGGTTTGTCGATAAATACCCAGTTCAC -GCAGATTTTTGCCGTCGGTCCAGGCCACCAGTTCCGGGCCGACGCGATAGGCGCGGATCACCGGTAAATA -AACCTTACGGTTGGCATCAGTGTCCAGGCCACGTTCGCGGGCGATTTGCTGGGCGCTGGTCTGTAAGTCC -TGATGCTGCAATTTCGGCAAGTAACGCGCACCAACAATCAAACTCACCAGACCGATTAAATAGGTTAAGG -CATACCCGAGGCTCAGATTATCCAGTGCCAGTGAGAGCTGCCTGCTTTCCATGCCGGAATGACGCAGTGT -ATCGCCAGCACCGACCAGAACCGGTGTCGACGTCATAGAGCCTGCTAACATACCGGCCGTCAGGCCAATA -TCCCAGCCAAACAGCTTACCTAACCCTAAGGCGATCACCAGCGCACTGCCAACCATCACCAGTGCTAACA -TTAGGTAATTTTTCCCATCGCGAAAAAAAATGGAAAAAAAGTTCGGTCCGGCTTCGACCCCGACGCAGAA -AATAAACAGCATAAAGCCAAGATTAAGCGCATCGGTGTTAATGCTGAAATGTTGTTGGCCTAATAACAGC -GATACGACTAAAACGCCAATGGAATTACCCAGTTGGATCGAACCAAGTCGTAACTTTCCGAGACATAGCC -CAAGCGCGAGGACCACAAATAATAACAGAATGTAATTCCCATTTAACAATTCGGCGACGTTTATATTCAC -GGAGGCTAACTTCTTGTTTACTAGTAAGCTGTTGAAAGAAATGGTAATTTACGATAATGTTTTTTACCAG -AATTCAGGGCGCAGATTCATTCAGCGCACCTAAACGATAGTAAAGTAACAATATATTTTACTAGTGTAAT -CACATTAGGTATCAACGGCTATATGAATTGCGTTGGCCTATATTAGCATGGAATGCGAAGCGGCTTTATC -TTACTGAACGCCACACTGGCGAAAAATGTGTTCGATAGACGCAGTGTCAGGAGGAACGAGTGAAACATAA -ACAACGTTGGGCGGGGGCAATCTGCTGTTTTGTCCTCTTCATTGTGGTGTGCCTTTTTCTGGCGACGCAC -ATGAAAGGCGCTTTTCGGGCTGCCGGGCATCCTGAAATCGGCTTGCTATTTTTCATTCTTCCTGGAGCAG -TCGCCAGCTTCTTTTCACAGCGTAGAGAAGTCCTGAAACCTCTGTTTGGCGCAATGCTGGCGGCACCCTG -TTCGATGCTCATTATGCGGCTGTTTTTTTCACCGACGCGCTCATTCTGGCAAGAGCTGGCATGGTTACTA -AGCGCGGTGTTCTGGTGTGCGCTGGGGGCACTGTGTTTCTTATTTATCAGTAGTTTGTTTAAACCACAGC -ACAGAAAAAATCAGTAAAGCCCTCAACGCGAGGGCTTGTCAGACGATCAGGCGTCCAGATTTTCTTTCAC -CCATGCAGCAAAATCGGTATAGCCGCCGATATGTTGCTGATCGACAAAAATCTGCGGCACGGTTTCTACG -GGTTTACCTGCCTTTTGTTGTAGATCTTCTTTAGTGATCCCTTCCGCACGAATATCTACATACTGATACT -GAAAATCATCGCGTTCATTGCTCAATTTCTCAGCCAGATCTTTTGCACGCACACAGTAAGGGCAACCCGA -ACGACCAAAAATAACGGTTTGCATTATTTCTCTCCTCATAGATTTATGCCTGTAATGATCACGCTAAAAT -GTATTCGCTGAAAGTAGGTTTAACCTGTTGCATTAATTGCTAAAAGCTATAACTGTTAAACACAATACAG -TGAAAAGTTTTAGACTGAAGGCTCACTTTGCAGAGGGAAGCGTATGCGCGCGATCGGTAAATTGCCTAAA -GGCGTGTTGATACTGGAATTTATCGGAATGATGCTACTGGCGGTGGCGCTGCTGTCGGTAAGCGACTCCC -TGTCGCTGCCTGAGCCATTTTCTCGGCCAGAAGTGCAGATTCTGATGATTTTTCTCGGTGTTTTGCTCAT -GCTTCCCGCTGCGGTGGTGGTTATTCTTCAGGTGGCAAAACGTCTTGCCCCACAGCTGATGAACCGTCCA -CCGCAATATTCACGTTCAGAAAGAGAAAAAGATAATGACGCCAACCATTGAACTTATTTGTGGCCATCGC -TCCATTCGCCATTTCACTGATGAACCCATTTCCGAAGCGCAGCGTGAGGCGATTATTAACAGCGCCCGTG -CGACGTCCAGTTCCAGTTTTTTGCAGTGCAGTAGCATTATTCGCATTACCGACAAAGCGTTACGTGAAGA -ACTGGTGACGCTGACCGGCGGGCAAAAACACGTAGCGCAAGCGGCGGAGTTCTGGGTGTTCTGTGCCGAC -TTTAACCGCCATTTACAGATCTGTCCGGATGCTCAGCTCGGCCTGGCGGAACAACTGTTGCTCGGTGTCG -TTGATACGGCAATGATGGCGCAGAATGCATTAATCGCAGCGGAATCGCTGGGATTGGGCGGGGTATATAT -CGGCGGCCTGCGCAATAATATTGAAGCGGTGACGAAACTGCTTAAATTACCGCAGCATGTTCTGCCGCTG -TTTGGGCTGTGCCTTGGCTGGCCTGCGGATAATCCGGATCTTAAGCCGCGTTTACCGGCCTCCATTTTGG -TGCATGAAAACAGCTATCAACCGCTGGATAAAGGCGCACTGGCGCAGTATGACGAGCAACTGGCGGAATA -TTACCTCACCCGTGGCAGCAATAATCGCCGGGATACCTGGAGCGATCATATCCGCCGAACAATCATTAAA -GAAAGCCGCCCATTTATTCTGGATTATTTGCACAAACAGGGTTGGGCGACGCGCTAAAACCGCCACGTCG -ATGTATGATACGCGGGCTTTTGACCAGGTCTGACAGAGAGGTGCAGGGTGAAAATTGCCATATTGTCCCG -GGATGGAACGCTCTATTCGTGTAAGCGGCTGCGTGAAGCCGCTATACAGCGCGGTCACCTGGTTGAAATT -CTTGATCCGCTTTCTTGCTACATGAACATAAATCCTGCGGCGTCTTCTATTCACTACAAAGGCCGCAAGT -TACCCCATTTTGACGCAGTGATCCCGCGTATTGGCACCGCCATTACCTTTTATGGGACGGCGGCACTGCG -CCAGTTCGAGATGCTGGGGAGCTATCCGCTCAATGAGTCGGTCGCCATTGCCCGGGCGCGTGACAAATTG -CGTTCCATGCAACTGCTGGCGCGTCAGGGCATCGACCTGCCTGTCACGGGCATTGCGCATTCGCCGGATG -ATACCAGCGATTTAATCGACATGGTCGGTGGTGCGCCGCTGGTGGTCAAGTTGGTTGAAGGCACGCAGGG -AATTGGCGTCGTGCTGGCGGAGACGCGTCAGGCGGCGGAAAGCGTGATTGACGCTTTCCGCGGTCTGAAC -GCGCATATTCTGGTGCAGGAATATATCAAAGAGGCGCAAGGGTGCGATATCCGCTGTCTGGTTGTTGGCG -ATGAAGTGGTCGCTGCGATTGAACGGCGGGCGAAAGAGGGCGATTTTCGTTCCAATTTGCATCGTGGCGG -CGCGGCAAGCGTCGCCAGTATCACACCACAGGAGCGTGAAATCGCGATAAAAGCCGCGCGAACGATGGCG -CTGGACGTTGCTGGTGTGGATATTCTGCGTGCTAATCGCGGGCCGTTGGTGATGGAGGTGAATGCGTCGC -CGGGGCTGGAAGGAATAGAAAAAACCACCGGTATCGACATCGCGGGTAAAATGATCCGCTGGATCGAACG -CCACGCTACGACAGAATATTGCCTGAAAACGGGTGGTTAGTCGCAATCACATTACTGATCATGGTTTTGC -CTGCGCTTTTTGCGTAAGCTGTGCCGGTCTTTTTATCGAAAGAGGTTGTACAAAATTATGACATCGCTGG -TCGTTCCTGGTCTGGATACGCTGCGTCAATGGCTCGATGACCTGGGGATGAGTTTTTTTGAATGTGATAA -CTGTCAGGCTCTGCATCTGCCCCATATGCAGAATTTCGACGGTGTCTTTGATGCCAAAATCGATCTGATC -GATAACACGATCCTGTTTTCTGCCATGGCGGAAGTCCGACCTTCAGCCGTATTGCCGCTGGCGGCGGATT -TATCTGCCATCAATGCCAGTTCGCTGACCGTGAAAGCATTTCTTGATATGCAGGATGATAATCTGCCAAA -GCTGGTGGTTTGCCAGTCTTTATCCGTTATGCAGGGCGTAACCTATGAGCAGTTTGCATGGTTCGTGCGT -CAGAGCGAAGAGCAGATTTCGATGGTCATTCTTGAAGCTAATGCCCATCAACTGCTGTTACCGACTGATG -ATGAAGGGCAAAACAACGTTACCGAAAACTATTTCCTCCACTGATAACTCCTTTCGAGCACGCAGTCGCT -GGTGCAGTGGCTGCGCGCTGCAAAATTATCTGCTGTTTTTAACCTTTTCTTAAAGATTATTTCACTTCTC -TTGTGTCGATTTGGCTTTATCACATAGAGCAAATATGCATAAAAATTTGTTAAATACCGTTTTTTAATCC -GAGCTATAGTCTCAAACCCTGGCTAAAGTTATTCTTGCGATGCTTTTATATAGCGAGCAGTGCTGGCCGG -GAGAAAGTTCTCTTTTCTTACACCGCGCCGATAAAAAATATGCACGTTTATTGCATATCTTTCAGTGTGA -CAACTTTTGTTCGTTTGTTAACGAACTTTCAGAAGGAAAGAGATATGACCGCCTTAAATAAAAAATGGCT -ATCGGGTCTGGTTGCGGGTGCTCTGATGGCCGTCTCTGTCGGCACGCTCGCGGCTGAACAAAAAACACTC -CACATTTATAACTGGTCTGATTATATCGCCCCGGACACGGTGGCCAATTTTGAAAAAGAAACCGGTATTA -AAGTCGTCTACGATGTTTTCGACTCTAACGAAGTACTGGAAGGCAAATTAATGGCCGGGAGTACCGGCTT -TGATCTGGTGGTTCCATCTGCCAGCTTTCTGGAGCGCCAGTTGACTGCGGGAGTTTTCCAGCCGCTGGAC -AAAAGCAAATTGCCGGAGTGGAAGAATCTCGACCCGGAACTGCTGAAGCTGGTCGCCAAACACGATCCCG -ACAATAAATTTGCTATGCCCTATATGTGGGCGACGACCGGGATTGGCTATAACGTTGATAAAGTTAAAGC -GGTGCTGGGCGAAAACGCGCCCGTCGATAGCTGGGACTTGATCCTCAAACCTGAAAATCTGGAAAAACTG -AAAAGCTGCGGTGTCTCTTTCCTGGATGCGCCAGAAGAAGTTTTTGCTACCGTGTTGAATTATCTCGGCA -AAGATCCCAACAGCACTAAAGCGGATGATTACACCGGACCGGCAACAGATCTGCTGTTAAAGCTGCGCCC -GAACATTCGTTATTTCCATTCATCTCAATACATTAACGACCTGGCAAACGGCGATATTTGCGTCGCTATC -GGCTGGGCAGGTGATGTCTGGCAGGCGTCAAACCGCGCGAAGGAAGCGAAGAATGGCGTGAATGTCTCGT -TCTCGATTCCAAAAGAAGGGGCGATGGCGTTCTTTGATGTATTCGCCATGCCTGCGGATGCCAAAAACAA -AGACGAAGCCTATCAGTTCCTGAATTACCTGCTGCGCCCGGATGTAGTAGCGCATATTTCCGACCATGTG -TTCTATGCCAACGCCAATAAAGCAGCCACGCCGCTGGTGAGTGCGGAAGTCCGTGAGAACCCAGGTATTT -ATCCGCCTGCGGATGTTCGTGCGAAGCTGTTCACTCTGAAAGTGCAGGATCCGAAAATCGACCGTGTGCG -CACCCGCGCGTGGACCAAAGTGAAGAGCGGAAAATAATCCGCAGTCGTAGATGCCGGAGGGGCGCACCAC -ACCCGCCGGCAATTCGCACCATTATGGTGCGCTTGCACACATTCAATGCCGGAGAGCAGCCGTGAATGAC -GCTATCCCTCGCCCGCAGGCGAAAACCCGTAAGGCGCTGACGCCGCTATTAGAAATCCGCAACCTGACCA -AATCCTACGATGGTCAACATGCGGTGGATGATGTCAGCCTGACCATCTACAAAGGTGAAATCTTCGCGCT -GCTGGGCGCATCCGGCTGTGGCAAGTCCACGCTGCTGCGTATGCTGGCAGGTTTCGAACAACCTTCTGCC -GGACAGATAATGCTTGATGGCGTCGATTTGTCACAGGTTCCGCCTTACCTGCGCCCCATCAATATGATGT -TTCAGTCTTACGCGCTGTTTCCGCATATGACCGTGGAACAGAACATCGCTTTTGGCCTGAAACAGGACAA -ACTACCGAAAGCGGAAATTGCCAGCCGGGTCAATGAGATGCTCGGCCTGGTGCATATGCAGGAGTTCGCC -AAACGCAAACCGCATCAGCTTTCCGGTGGTCAGCGACAACGTGTGGCCCTGGCCCGAAGCCTTGCGAAGC -GCCCGAAACTATTACTGCTCGATGAGCCGATGGGCGCGCTGGATAAAAAGCTGCGTGACAGGATGCAGCT -TGAAGTGGTGGATATTCTGGAGCGCGTCGGTGTGACTTGTGTGATGGTCACCCACGATCAGGAAGAGGCG -ATGACCATGGCGGGGCGCATCGCCATTATGAATCGTGGGAAATTTGTCCAGATTGGCGAACCGGAAGAGA -TCTACGAGCATCCGACTACCCGCTATAGCGCCGAATTTATTGGCTCGGTAAACGTCTTTGAAGGCGTACT -CAAAGAGCGTCAGGAAGATGGCCTGGTGCTTGATTCGCCGGGGCTGGTGCATCCACTGAAAGTCGACGCG -GATGCCTCGGTGGTCGATAACGTGCCGGTACATGTGGCGCTGCGCCCGGAAAAAATCATGCTTTGCGAAG -AGCCGCCCGCCAATGGTTGTAACTTCGCGGTGGGGGAGGTGATACACATTGCCTATCTCGGCGATCTTTC -GGTGTATCACGTTCGTCTGAAAAGTGGGCAGATGATTAGCGCCCAGCTACAAAACGCCCATCGTCATCGT -AAAGGGTTACCGACCTGGGGCGACGAAGTGCGTTTGTGCTGGGAAGTGGACAGCTGTGTGGTGCTGACGG -TTTAAGGAGCAAAGATGAGTACACTTGAACCTGCTGCCCAGTCGAAACCGCCGGGCGGATTTAAGCTGTG -GTTGTCGCAGCTGCAAATGAAGCATGGGCGCAAACTGGTCATTGCGTTGCCATATATCTGGTTGATCTTG -CTGTTTCTGCTGCCATTTCTGATTGTCTTTAAAATAAGCCTGGCGGAGATGGCGCGCGCTATTCCACCTT -ATACCGAACTGATGGAGTGGGCTGACGGGCAACTGTCCATCACTCTTAATCTCGGTAATTTTCTGCAACT -GACCGACGATCCGCTCTATTTCGATGCTTATCTCCAGTCGCTACAGGTGGCTGCGATTTCGACATTTTGC -TGTTTACTGATCGGCTATCCGCTGGCGTGGGCGGTGGCGCACAGTAAGCCTTCGACCCGTAATATTTTAT -TACTACTGGTGATCCTGCCGTCGTGGACCTCGTTTCTGATCCGCGTTTATGCCTGGATGGGAATATTAAA -AAACAACGGTGTGCTGAATAATTTTCTGCTGTGGCTGGGGGTTATCGATCAACCGCTGACCATTCTGCAT -ACCAATCTGGCCGTTTATATCGGCATTGTTTACGCTTACGTGCCGTTTATGGTACTGCCGATTTATACCG -CGTTGATTCGTATTGATTATTCGCTGGTGGAAGCAGCGCTGGATCTCGGTGCACGACCGCTGAAAACGTT -CTTTACTGTGATCGTGCCGCTGACTAAAGGTGGGATTATTGCCGGATCGATGCTGGTGTTTATCCCGGCT -GTGGGCGAGTTTGTGATCCCGGAACTGCTCGGTGGCCCGGACAGCATCATGATCGGGCGCGTGCTATGGC -AAGAGTTTTTCAATAACCGCGACTGGCCGGTGGCCTCGGCGGTAGCGATCATCATGTTGCTGCTGCTAAT -TGTGCCGATAATGTGGTTCCACAAACACCAGCAAAAAAGCGTGGGAGAACACGGATGAATAATTTACCGG -TAGTTCGTTCGCCCTGGCGGATTGTGATTTTGCTGCTGGGCTTTACCTTTCTCTACGCGCCAATGCTGAT -GCTGGTTATCTATTCGTTTAACAGCTCGAAGCTGGTGACGGTGTGGGCCGGCTGGTCAACGCGCTGGTAT -GGTGAGTTATTGCGCGATGACGCGATGATGAGTGCGGTTGGTTTAAGTCTGACAATTGCGGCCTGTGCGG -CGACGGCGGCGGCGATCCTCGGAACTATTGCGGCGGTGGTGCTGGTGCGCTTTGGCAGGTTTCGCGGATC -AAATGGCTTTGCCTTTATGATCACCGCGCCGCTGGTAATGCCAGATGTCATCACGGGCTTGTCGCTGTTG -TTATTATTCGTCGCGCTTGCTCATGCCATTGGCTGGCCTGCGGACCGCGGTATGCTCACCATCTGGCTGG -CGCATGTCACTTTTTGTACGGCTTATGTGGCGGTCGTTATTTCTTCAAGATTGCGGGAACTGGATCGCTC -GATAGAAGAAGCAGCGATGGATCTCGGTGCGACGCCGCTGAAAGTGTTTTTCGTCATTACGCTACCGATG -ATCATGCCCGCGATCATTTCTGGCTGGTTACTGGCTTTTACTTTGTCGCTTGATGATCTGGTGATCGCCA -GCTTTGTTTCCGGGCCGGGAGCCACCACGTTACCGATGCTGGTCTTTTCCAGCGTGCGGATGGGGGTGAA -TCCGGAAATCAACGCCCTGGCAACATTGATCCTCGGCGCGGTCGGAATTGTCGGATTTATCGCCTGGTAT -CTGATGGCTCGCGCAGAAAAACAGCGGATACGCGACATCCAGCGTGCAAGACGTGGCTGAAGACACTAAA -ATTTGCCAACCTGGCTACATAATGCCGCGCATGTCGCGGCATTGTTTTCATGGAAGACGAAACGTTGGGA -TTTTTTAAGAAAACATCTTCATCTCATGCTCGCCTGAATGTGCCTGCGCTGGTGCAGGTGGCGGCGCTCG -CCATTATTATGATCCGTGGCCTCGACGTGCTGATGATTTTCAATACGCTGGGCGTGCGCGGTATTGGCGA -GTTCATTCATCGCAGCGTACAAACCTGGAGTTTAACGCTGGTCTTTTTAAGCAGTCTGGTGCTGGTTTTC -ATTGAGATCTGGTGTGCGTTTTCACTGGTGAAAGGGCGTCGCTGGGCGCGCTGGCTATATCTGCTGACAC -AAATCACCGCCGCAAGTTACTTGTGGGCGGCTTCGCTGGGGTACGGTTATCCGGAGCTGTTCAGCATTCC -CGGTGAATCAAAACGTGAAATCTTCCATAGCCTGATGCTGCAGAAGCTGCCGGATATGCTCATCCTGATG -CTGCTGTTCGTTCCCTCGACCAGTCGGCGGTTCTTCCAGTTGCAATAATGTGTATAATCGTCGCCCCTGA -TGATGTGAAGGTCAATGTATGCAGTGCGCACTTTACGACGCGGGTCGCTGTCGTTCCTGTCAGTGGATAA -TGCAGCCGATTCCAGAGCAACTCTCCGCTAAAACCGCCGATCTTAAAAATCTGCTCGCCGACTTTCCGGT -TGAGGAATGGTGCGCGCCGGTGTCAGGCCCGGAACAAGGGTTTCGTAATAAAGCCAAAATGGTGGTGAGT -GGTAGCGTTGAAAAACCACTGCTCGGTATGCTGCATCGCGATGGCACACCAGAAGACCTTTGTGACTGCC -CGCTTTATCCTGCCTCATTTGCGCCCGTTTTTGCGGCGCTAAAACCGTTTATCGCCCGAGCGGGGTTAAC -GCCCTACAACGTGGCGCGTAAGCGTGGCGAACTGAAATACATTCTGCTGACTGAAAGCCAGAGTGATGGA -GGCATGATGCTGCGCTTTGTACTGCGTTCTGATACCAAGCTGGCGCAACTGCGTAAGGCGCTGCCGTGGT -TACACGAACAACTACCGCAGCTGAAAGTTATTACCGTCAATATTCAGCCGGTACATATGGCGATTATGGA -AGGGGAGACGGAGATCTACCTGACCGAACAACAGGCACTGGCGGAGCGTTTTAATGACGTACCGCTGTGG -ATCCGTCCGCAAAGTTTCTTCCAGACTAATCCGGCGGTCGCCAGCCAGTTGTACGCCACCGCGCGCGACT -GGGTACGACAGCTGCCGGTTAAACATATGTGGGATCTGTTCTGCGGTGTGGGGGGCTTTGGTTTACACTG -CGCGACGCCTGACATGCAGTTAACCGGGATCGAAATTGCATCAGAGGCCATTGCCTGTGCAAAGCAGTCA -GCCGCTGAACTGGGCTTAACGCGTTTGCAATTTCAGGCGCTGGACTCCACTCAGTTTGCCACCGCTCAGG -GGGATGTGCCGGAGCTGGTGCTGGTTAACCCGCCGCGCCGCGGCATTGGTAAACCGCTGTGTGATTATCT -CTCAACGATGGCACCGCGTTTTATCATCTACTCCAGCTGTAACGCCCAAACTATGGCGAAAGATATCCGC -GAACTGCCTGGGTTTCGTATTGAACGGGTGCAGCTTTTCGATATGTTCCCGCATACCGCGCACTATGAAG -TGCTGACGCTGCTGGTGAAGCAATAAAAAAGCCGCATGTGCGGCTTCAGATTGCTGACAAAGTGCGCGTT -GTTTATGCCGGATGCGGCGTAAACGCCTTATCCGGCCTACAAAAGCGTGCAAATTCAATACATTGCATGG -GCCATGTAGGCCTGATAAGCGTAGCGCATCAGGCAATTTTACCTTTGTCATCAGTCTCAAGCCGCGGTTG -CGGCTTTCTGAATCTTACTGTGGGAACCACTGGTCACTGATTTTTTGATAAGTACCGTCAGCTTTAATTG -CTGCCAGCGCGTTATTCAGTTTTTCCAGCAGGGCTTTGTTATCCGGACGTACAGCGATGCCCAGGCCGGT -GCCAAAATATTGCGGATCGGTCACTTTCTCAGTAGCAACACCAAGTTGTGGATTGGTTTTCAGCCATTCG -TTTACCACCGCTGTGTCACCAAATACCCCATCAATACGACCATTTTTCAGATCGATAAAGGCATTCTGAT -AACTGTCATAAGAGACAGTTTTCACTTCCGGGTGCTGATCCTGAATATATTTCTGGTGCGTAGTACCGTT -TTCCATCCCAATACGTTTGCCTTTCAGATCGGCAAACGTTTTGTAGGTATCTTTTTTGGCAATCACGACG -GCTGAGTTTTCATAGTAGGGCGTGGTAAACGATACCTGTTTGCTACGCTCCGGGGTGATATCCATACCGG -AGATTACGGCGTCATATTTTCTGAATTTCAGGGACGGGATCAGGCTGTCGAACGCGTGATTAGTAAAAGT -ACATTCTGCCTGCATTTGTTTGCACAAGGCTTTTGCCAGATCGATATCAAAGCCGACAATCTCATTATTA -GCACCTATAGATTCAAAGGGTGGATAGGTGGCTGAAACGCCAAAATTGATTTTCTCTGCGGCAGAAGCAC -CGAAAGTAAAGGAAGCAAGTAAAGCGGCAAGAACTAACTTTTTCATGATGGAACTCCCGTCTGTCAATCT -TATGATTTTTGGCCGTGTCTGCGGCATGGGATAACAATGCCATCAAGTGAATTTATATGCAATAAACATG -ATTAAATAATTTAAATGAAATAAAAAAGACGGACAACTTAGTGGGTTGTCCGTCTTCATTATAAGAATTT -ATGCACTATGTAGGCCGGATAAGGCGTCCCCGCCGCATCCGGCACAGGCACCGTGCTGATGTCTGATGCG -ACGCTGGCGCGTCTTATCAGACCTACAAAACCCCCCGGCGAATGTACGCAGCCACATTAATTTCGCCGTT -CGAATGCCAGCGCTTTGCGCTCGATCAGACGCATCATCAGCGTCAGCAGGCCGTTAACGACCAGGTAAAT -AATCCCTGCCGCACCGAACACCATTACATCGTAGGTGCGTCCGTACAACAACTGGCTGTATCCCATCACT -TCCATCAGCGTAATGGTGTATGCCAGAGAGGTACTTTTGAATACCAGCACCACTTCGTTGGAATAAGAAG -AGAGCGAGCGTTTAAAGGCATACGGCAGCAGGATCGCCAGCGTATCTTTTTTGCTCATTCCCAGGGCGCT -ACAGGACTGCCACTGACCTTCCGGGATCGCACGAATTGCACCGTAAAACAGCTGCGTGGTATACGCCGCA -CTATTCAGCGACAACGCAATCAGCGCACATAACCACGGTTCTGACAACAAATGCCACAGTGCCGGATACT -CCTGCAAAGTCGGAAACTGGCCCGGCCCGTAATAAATCAGGAAGATCTGCACCAGCAGCGGCGTACCGGT -AAACAGCGTGATATAACCCCGCACCAGCCACACCAGCACCGGCGTTTTCAGCGTCAGGATGATGGTAAAA -ATCAATGCCAGAATCAGTGCCACAATCAGCGAGGCAACGGTTAGCGTCAGGCTGGTGTGTAGCCCTTTCA -TCAGTTCGGGTAAATACTCAAACATTAGCTGGGCCTCCGCTCAAAACGTGTCGCGCGCAGGTCAATGCGT -TTGAGAATGTACTGACTGAGCAGGGTGATCACCAGGTAAATCGCCGCCGCCACAATGTACCAGGTAAATG -GTTCCTGGGTACGAGTAGCGATGCTTTTTGTTTGCAGCATTAAATCATTCACACTAATCAAACTGACCAG -CGCGGTATCTTTCAGCAGCACCAGCCACTGGTTACCGAGGCCAGGCAGCGCATGACGCCACATCTGCGGC -ATCACCAGACGGAAAAAGATAGCCGATTTCGACAGCCCCAGCGCCTGACCAGACTCCCACTGACCCACCG -GCACCGCTTTCAACGCGCCCCGAAGCGTTTGCGAGGCATAGGCGGCATACAGCAGTGACAGAGCGATGAC -ACCACAAAGGAACGGGCTAACGTCGAAGTTCTCAATGTCCATCTGCACTGGGATCTGCACGAACCCAAGA -TTGATAGTGAAGCCATCCGAAAGCGTCAGCAGCAGCTGCGAGGAGCCAAAATAGATAAACAGCACCACCA -GAATTTCTGGCAGGCCACGCAGAATGGTTACCAGCGCTGAACCTGCCCACGCGACAGGACGCCATTTTGC -CGACTCCCATACCGCAAAGAACATCGCCAGCGCCAGCCCGACAATCAATGCACAAACGGCAAGGCCGACG -GTCATCCCGGCGGCGCTTGCTAAAGGAAAAAATTCATTCATCAGGAATTACTTCTGGAACCATTTGTTGT -AGATGGTTTCGTAAGTGCCATCTTTCTTCACTTTTTCCAGCGCAGTGTTGAGTTTCTGCTGCAGCTCAGT -GTTGCCCTGACGTACCGCGATGCCGAGGCCAGTGCCGAAGTAATCTTTATCGGTCACTTTGTCGCCCACC -GCCGCCAGTTTCGGGTTATCTTTCAGCCACTCAGTGACCACTGCGGTGTCACCGAAGACGCCGTCGATAC -GCCCGTTTTGCAGATCCAGTTTTGCGTTCTGGTAGCTGTCATACGGAACGGTAGTGATTTCCGGGTGCTT -ATCCATAATGAATTTCTGGTGTGTCGTCCCGTTCTGTACGCCGACTTTTTTGCCTTTCAGCTGATCAACA -CTGGTGTATTTGCCTTGCTGACCCACAAACAGGGCAGAGTTGTCATAGTACGGGGTGGTAAACAGCACCT -GCTTTTCACGCTCCGGAGTGATATCCATGCCCGCCATCACGGCTTCTACGCGACGGAATTTCAGGCTTGG -GATCAGGCTGTCAAACGCCTGGTTAGAGAAAGTGCAGGTTGCATCAATCTCTTTACACAGCGCTTGTGCC -AGGTCGACGTCAAAACCAACGATCTGGTTGTTTGCATCAATCGATTCAAACGGAGGATAGGAGGCTTCGG -TAGCAAAACGAATGGTTTCGGCAGCTGTGGCGGAAAGACTAAAACCTGCAATTAACGCGGCAATCAGAAC -TTTTTTCATTGTTGTTATCCCGAATCTTAGTGAGAGAGATAGTTTTTAAATGCTTCGGTTTGCGGCTCGG -TAAAGCAGCTCGCGTCGCCTTGTTCTACGATATGACCATTTTCCATATACACCACTCGGCTGGCGGTTTT -ACGCGCCACTTCAACTTCGTGGGTGACGATCACCTGGGTAATATTCGTTTCTGCCAGCTCACGAATGATG -CTGACGATTTGTGCCGTAATTTCCGGGTCCAGTGCGGCGGTCGGTTCATCGAACAGCAGTACCTGCGGTT -CCATCATCAACGCACGGGCAATAGCAACACGCTGCTGCTGACCACCAGAAAGATGCAGCGGGTAACGATC -GCTATAAGGTTTGAGACGCAGACGTTCCAGCAGTTTTTCTGCACGGGCCAGCGCCTGATCTTTACTCAAC -CCCAGTACACGGCAGGGCGCTTCAATCAGGTTTTGCTGCACGGTCAGATGCGGCCACAGGTTGTATTGCT -GAAACACCATGCCAACGTTACGACGCAAATCGCGAATCGCTTTGTCAGAGGGTGTTTTGGTGAAATCGAA -ATGGTTGCCTGCAATGTTGAGCGTACCGGAGCGCGGCATCTCAAGCAGATTGAGTACACGCAGCAGCGAG -CTTTTACCCGCGCCGCTGGGGCCAAGTAACACCAGCGTTTCGCCCTGTGGGCAATCCAGCGTGATATCGA -ACAGCGCCTGATGCGCGCCGTAGAAGCAATTAATGCCGTTTAATTGAATACTCATTGACACTCGTATACT -GGCAGTCTGATAGCTATTGAGGTCGAAGATAGTACCTTTGACAGAATAATTATGCAATATTTCTGCTTTA -AAAGTTAAAAGCAAAGCGCATTATTCAATAAACATAGCACAAAATAACGGGGGCGGTGGTCGGCGAGCAT -AAATGTCGGCATTCCTCACGAAATGCCGGACAATTTACGGGGTTTATTGGTTGATCAAGGCGTTAGCGAT -TCTCGATGGACTGACGGAGCGTACCCGCCGTGGCATGAACGCTACCGCCTAAGTAACGCACATCGTCGAT -GACCCAACACTGGCCTTCCTGAATCATTAACACTTCATCCTGCCAACCCTGGTCACCCTGTTTGAGATCC -ACGCGCAATGGAATGTTACGGGCATCACGATTAGGGATAGTCGATGCACTGGCAACGTGGGCGCTATCTG -GCAAGGTGGTTCGACTGGAGAATGGATCGTTGGTCAGTAGTTCCCGATGGTTATTATCCCGGGAGGCATC -GCTAAGCAGTGTCGCCAGTTTGTCGCTCAGATAAGGGCGCAAGGCGGTGATGTCGTTGCTGCGGTGCAAA -ATGCGGTAGTCATAAAATTGCTGGGCCACGTTATCCGGGCCTCCTTCAACGCAAGGACCACTGCGTGTGC -CGTTATCTTTATAAGCTGGAGTGACTGTGGTGCAGGCACTGAGGAGCAGTGCGCAGGGGATAAGCATTGT -CAATTTGCTGTAGCGCATAATGATTTCCTTATAAGCGATCGCTCTGAAAGCGTTCTACGATAATAATGAT -ATCCTTTCAATAATAGCGTATCAGTCTGATAATGCTTTTGAGATCGAAGGCTTAGCAAACAAGGAGATCG -ATCATGCAATTTTCTACAACCCCAACTCTGGAAGGCCAGACCATCGTTGAATATTGCGGTGTGGTGACCG -GCGAAGCGATTTTAGGTGCCAATATTTTCCGTGATTTCTTTGCCGGTATCCGCGATATCGTTGGCGGACG -TTCCGGTGCGTATGAAAAAGAACTGCGTAAAGCACGGGAGATCGCCTTTGAGGAATTAGGCTCCCAGGCG -CGGGCGCTGGGGGCCGATGCCGTCGTCGGTATTGATATCGACTACGAAACGGTCGGGCAAAACGGCAGTA -TGCTGATGGTTAGCGTCAGCGGTACGGCGGTGAAAACGCGTCGATGAGAAGATTCTTCTGGCTGGTCGCT -GCCGCTCTGTTATTGGCAGGGTGTGCAGGCGAAAAAGGCATTGTCGAGAAAGAGGGATATCAGCTTGATA -CCCGACGCCAGGCGCAGGCGGCGTATCCGCGCATTAAAGTGCTGGTGATCCACTACACCGCAGATGATTT -TGATAGCTCGCTGGCGACACTGACCGATAAGCAGGTCAGCTCGCATTATCTGGTCCCTGCGGTACCACCG -CGATACAACGGTAAACCGCGCATCTGGCAACTGGTGCCGGAACAAGAACTGGCCTGGCATGCGGGGATTA -GCGCCTGGCGCGGGGCAACGCGCCTTAACGACACCTCTATTGGCATTGAGCTGGAAAACCGTGGCTGGCA -AAAATCGGCCGGAGTGAAATATTTTGCCCCGTTTGAACCGGCACAGATTCAGGCGCTTATTCCACTGGCG -AAAGATATTATTGCCCGTTATCACATCAAGCCGGAAAACGTAGTGGCACATGCGGATATCGCACCGCAGC -GCAAAGACGATCCGGGGCCATTATTTCCCTGGCAGCAACTGGCGCAGCAGGGGATTGGTGCCTGGCCGGA -TGCGCAGCGGGTTAACTTTTACCTTGCCGGGCGCGCGCCGCACACACCGGTAGATACCGCGTCATTGCTG -GAGCTTTTGGCGCGCTACGGTTATGACGTTAAACCTGATATGACACCGCGCGAGCAGCGGCGCGTGATTA -TGGCATTCCAGATGCATTTCCGCCCGACGTTATATAACGGCGAAGCGGATGCAGAAACTCAGGCGATTGC -CGAAGCATTGCTGGAGAAATACGGGCAGGATTAGCGCGGCAGTTTTCCGTGGTCGCGTAGCCAGGCGGCA -GTTTTCTCGATACCTTCATCCAGGGTGATGACCGGCTGATAACCTAACTCTTCCTGCGCACGCGTAATAT -CCAGCGTAAAGTCAAAATTCAACTTGGAGACGCCGTAGTGGGTCAGCGGCGGCTCTTTTGCTGACTTGCG -GCCTAAACGCTCCATGCTGCGGGCGATCATATCCAGCATCGGGTAGGGGACGGAACGAATACGACAGTCA -ATATTCAACTCGTCGATCAGCTTCTGCACGATGCTGCGCAGTGTGCGATGCTCGCCGTTGGTGATGTTGT -ACACACGCCCGGAAGGTAGCTTATCGCAGGCTTCCTGGCTTGCCAGCCACATTGCGTGCACGGCATTTTC -ATAGTAGGTCATATCGACCAGCGCACTGCCGCCATGCGGTAACAGAATACTGCCGTAGTGGTGCATCATA -TGCGCCAGACGGGGAATAAAGACTTTATCGTGCGGTCCGAACAGACTTTGTGGGCGCAGAATAGTAAAGC -GCGTTTGTGGATTCGCCTGCGAAAGCATATTGATCACTTCTTCGCTGGCTGCTTTGCTGCGGGCAAACTC -GTTGGCGAAGCGGTGAGGGCGAAAATCTTCTTTAATATCGCGATGGTGGTGATAATCGAAGTACAGGGAG -GGGGAAGAGATATGAATAAAGTTACGCACACCCCAGGCGACAGCCCATTCACCCAGGCGGCGAGTGGCGC -GAACGTTAGCCAGATCGAAAGCCTGTTGTGTCCCCCAGGGTGAGGTAAAGCTGGAGCAGTGCCACAGCGT -ATCAATGCCCGCGAGCATCACTTTAGCTTGTGATGAAACCAGCTCGGTCAGATCCGCCGGAACAAACTCT -GCGCCCATTTTTTCCAGCAATTTGCCCATTGCCTCGTTGCGACCGGTCGCTCGCACGCTGATGCCTTTCT -GGCATAAAAACTCTACCGCGTTTCGACCTAAGCCGCTGGTGGCGCCGGTAACCAGTACCTTCATATCAAT -CCACTGTTGTTGAGAAAATAACGTGCGCATTCTTCCGTGATTTCCCCCATGATGCAATGGGAAACATGAA -AGAATAACGCAGGTTTTGTCGATTAATCTGTGCTTTGTTCTGCCAGTCTGGCGATTTGTTTTGCCATTCC -GCGAAAAATAAACAGATGCGCGGGGATCATCAATAACCAGTAAAACAGCCCCGGCATACCGTGCGGATGC -CAGAAAGCGCGGACATCGATAGTACGATAGTCGCCTTTATCTTCCAGGCTAAAACACAGTCGTCCCAGCC -CCGGCGCTTTCATGCCAAATAACAACGTAAGTTGTTTTTCCGGTTCAACGACAATCACTTTCCAGCTATC -CACCGCATCGCCAGTCTGTAAATATTCGCGCTCCGGGCGGCCTTTCGCCAGCTTATGACCGATCGCGCGG -TCCATCAACGCCCGTGTCTGCCACAAAATATTGCCAAAGAAATAACGCTCTTTACCGCCGATTTGGTTCA -CTACCTGCCATAAAGCAGCAAGGCTGGCGGACGTTTTAACGGTAAACCCCGCCTGTTTGGCAAAATAACC -GTACTCCGGTCGCCAGCGGGCAAAGGCCTGAGCGTCGTAGCCCCAGTCGCTGGAGTTGACCAGTTTTTCC -TCCTCTTTCAACGTGCTACGTACCGCGTCATCGAAAGCGATCAGCCGTTGTGGGATGAGTGCACGTAGCG -CGGTATCATCCGCCAGCAGATCGTGTTTCAGCCCCTGAATCAACGCCCTGGCGGTGGTGGGCGGTACGGA -AGTAATCACATTGAGAAACCACACCGAAATCCAGCGGGTGGGGAGGGGGATGGGGATCAACCAGCGGCGC -TTACCGCTCACCGCCATAAAATGTTCAAACTGTTGCTGATAACTGAGCACCTCTGGTCCGGCGGCTTCGA -AGATGCGGTGTTCGCTGGCCGGATGATCTAACAACGCAACCAGATAGTGCAGCAAGTTTTCCAGCGCAAT -GGGCGTGGTGCGTGAACGAACCCAGCGCGGAGGCGTTAAGACTGGCAGGTTGTAGACCATATCGCGCATG -ACTTCGAACGCCGCGGAACCTGCGCCAACGATAATTCCGGCCCGCAGTTCGGTCACGGGTACATTCGCTT -CACGCAGAATGTCCGCCGTAGCCTGACGAGCACGCAGATGATCCGACTGCTCATGTGGCGGGGCCTGCAA -CGAACTAAGAAAGATTAATTGCTTAACTGGTACTTCACGTAGCGCATCGCGGACGTTGAGAGCCACCTGG -CGCTCCTGAGCGATAAAATCGCCGCCTTCGCCCATGCTGTGCACCAGAAAATAGACCGTATCGATATCCT -GCAACAGGGCCGGTAGGTTATCCGGCCAGCTGAGATCGACTTTATGGCAACTGACGTTTGCCAGTTGCAG -CTTTGCAAGCCTGTCGACATGACGTGCCGCCGCCAGGATCTGATGCCCTTGCTGGCTGAGTGTGCGCACC -AGATGCTGACCAATGTAGCCACTGGCACCGAGAACTAAAATGCGTTGCGGCACGTCTCTCTCCTTAACGC -GCCAGGAATGCACGCCAGTGGGCGGCGACTTCCGCCAGTTGTTCGCGCGAGACGTCAAGATGCGTCACCA -GGCGGACAATCGGCGAGGCGTTAATCAGCACGTTTCTCGCTTTCATGTATTCGCCTAACGCGGCAGCATT -TTCTTCCCCGACGCGAACAAACAGCATATTGGTGTCCTGACGCATCACATCCGCGCCTGCTTCACGCAGC -TGCTCCGCCATCCAGGCAGCGTTGTCGTGGTCTTCCTGCAAGCGCGCAACGTTATTTTTCAGGGCATATA -TCCCGGCGGCAGCCAGAATGCCGGACTGGCGCATCCCGCCACCTGTCATTTTCCGCCAGCGAATGGCACG -TTTAATGTAATCACGATTACCGACGAGTAATGAACCGACTGGCGTCCCAAGACCTTTCGACAGGCAAATG -GTGAACGAATCACAATATTGCGTGATCTCTTTCAGTTCGCAGCCGTAAGCCACCACGGCATTAAAGATGC -GCGCACCGTCAACATGCAGCGCCAGATTGCGCTCGCGGGTAAATTCCCATGCTTCTTTCAGGTATTCCCG -CGGCAACACTTTGCCGTTGTGGGTGTTTTCCAGACTGAGTAATTTGGTGCGGGCGAAATGGATATCGTCG -GGTTTGATTTTCATCGCCACTTTATCCAGCGGTAGCGTGCCGTCGGCAGCCGCGTCTATGGGTTGCGGTT -GAATACTGCCCAGCACCGCCGCGCCACCGGCTTCAAACAGATAGTTATGCGCGGCCTGACCGACAATATA -CTCTTCGCCGCGTTCGCAGTGACTGAGCAGAGCGACCAGGTTGGCCTGAGTGCCGGTAGGCAGAAAAATG -GCGGCTTCTTTACCGGAAAGCTCTGCTGCGTAGTCCTGCAGAGCATTAACGGTAGGGTCGTCTCCGTAAA -CGTCGTCCCCAACCGGGGCGGCCATCATCGCTTCGAGCATGGCGCGGCTTGGTCGGGTAACGGTATCACT -GCGTAAATCAATCATGGCATGTCCTTATTATGACGGGAAATGCCACCCTTTTTACCTTAGCCAGTTTGTT -TTCGCCAGTTCGATCACTTCATCACCGCGTCCGCTGATGATTGCGCGCAGCATATACAGGCTGAAACCTT -TGGCCTGTTCGAGTTTGATCTGCGGTGGAATGGCTAACTCTTCTTTGGCGACCACCACATCCACCAACAC -CGGACCGTCGATGGAGAAGGCGCGTTGCAGGGCTTCATCAACTTCAGACGCTTTTTCTACACGGATACCC -GTAATGCCGCACGCTTCGGCAATGCGGGCAAAGTTTGTGTCGTGTAGTTCGGTGCCGTCAGTCAAATAGC -CACCAGCTTTCATCTCCATCGCCACAAAGCCCAGCACGCTGTTGTTAAAGACGACAATTTTCACTGGCAG -TTTCATCTGCACTACTGAGAGGAAATCGCCCATCAACATGCTAAAACCGCCATCGCCGCACATGGCGACC -ACCTGACGTTCTGGCTCTGTCGCCTGCGCACCCAGCGCCTGCGGCATGGCGTTAGCCATCGAACCGTGGT -TAAACGAACCTAACAGGCGACGCTTGCCGTTCATTTTTAGATAACGTGCCGCCCACACCGTTGGCGTACC -AACGTCACAGGTGAAAATAGCGTCATCGGCGGCAAAATGACTAATTTGCTGCGCCAGATATTGCGGGTGA -ATGGCTTTCTCGCTCGGTTTAGCTAAATCGTCCAGCCCTTTGCGGGCGTCGCGGTAATCTTCCAGCGCTT -TATCCAGAAACTTGCGATCGGCTTTTTCTTCCACCAATGGAAGCAATGCACGCAGAGTCGACTTGATATC -GCCGACCAGTGCCATATCCACCTTGCTGTGAGCGCCGATGCTGGCTGGGTTGATATCAATCTGAATGATT -TTGGCATCGGTCGGGTAGAAGGCGCGGTAGGGAAATTGCGTGCCGAGTAGCACTAACGTGTCGGCGTTCA -TCATGGTATGGAAACCTGACGAGAAGCCGATTAACCCGGTCATTCCAACATCATACGGATTATCGTATTC -GACATGTTCTTTACCGCGCAGGGCATGAACAATAGGCGCTTTAATTTTCCCGGCAAACTCAACTAACTCT -TTATGCGCCCCCGCGCAGCCGCTGCCACACATCAGGGCGATATTGCTGGAATAACGCAGCAGTTGCGCCA -GTTTGCGTAACTCTTCTTCTTCCGGCGTCACGACTGGTTGTGGCGCATGATACCAGTGCATGGTTGCCCC -TTCTGGCGCAGGTTTTAACGCCACGTCGCCTGGTAACACGACAACCGAAACGCCACGGTTAAGCACCGCT -TTGCGCATGGCAATCGCCAGTACTTGTGGGATCTGCTCCGGGCTGGAAACCAGCTCGCAATAGTGACTAC -ATTCGCGGAATAGCTCTTGTGGGTGGGTTTCCTGGAAATAGCCGCTGCCAATTTCGCTGGAGGGAATATG -AGCGGCAATCGCCAGTACCGGAACGTGATTGCGGTGGCAATCGAACAGGCCGTTGATTAAGTGCAGGTTG -CCGGGGCCGCACGATCCGGCGCAGACCGCCAGTTCTCCGCTAAGTTGTGCTTCAGCGCCAGCGGCAAAGG -CCGCCACTTCTTCGTGGCGGGTGGACATCCACTCGATGGTGCCCATGCGATTAAGACTGTCACTAAGACC -GTTCAGAGAGTCGCCTGTGACTCCCCAGATGCGTTTCACCCCTGCCGATTCGAGTGTTTTGGCGATATAA -GCTGCAACCGTTTGTTTCATGGTTCTCCATCTCCTGAATGTGATAACGGTAACAAGTTTAGTTCATCTGA -CGGAGGGGGAAGGGATGGGAGAGAAAGGAGGCACTAACGGTTAAATAGCCCGATGAAAGGAATATCATCG -GGCATAAGGCGATTATGCGAGAACCAAATCCCCCTGCGGATGGCAGGAGCAGGCCAGTACGTAACCTTCA -GCGATTTCGGCGTCGGTCAGCGTCATTGTGCTGCTCACCGTATATTCACCGGAAACCACTTTTGTCTTAC -AGCAGCCGCAAACACCCGCACGGCAGGCAGCGACAACCGGAACGTTATTGCTTTCCAGCGCCTCCAGTAG -CGTGGTGCCAACCGGGGCGTAAAATTCTCGTGCCGGTTGCAGTTTGGTGAATTTCAGACCGCTGGTCGCC -GCTTCTGCTACTGGGGTGAAGAATTTCTCTTTAAAGAAACGCGTCACGCCGAGCGCTTTCACTTCCTGCT -CTACCCAATCCATATACGGAGCCGGGCCGCAGGTCATCACGGTACGTGAAGCTAAGTCAGGTACACCTGC -CAGCAGTTCGCGAGTGAGACGACCAGCGATAAAGCCTTCGGTAACGTTATTTTCTGCCACCAGCGTTACC -GGATAGTTACGCCACTCATCGGCGAAAATAACATCCTGCGGCGTACGCACGTTGTAGATCACCCGCACAT -CGGCCTGTGGACGGTTCTTCGCAAGCCAGCGACGCATCGACATAATCGGCGTGACGCCGCAGCCTGCCGC -CAGCAACAGGAATTTATCTTCTGCTTTATCGTCGCAGGTAAATTCCCCCATCGCGTCCGAAAGCCAGAGA -TAATCACCGCGTTTTACATCGCGCGTCAGCCACTGGGAGCCGACACCGTCATCAATCCGCCGCACGGTCA -GGGTGATATATTCACTCACGCCTGGCGTGGAGGAAATGGTGTAAGCACGCAGCGTTTCCGCTGAGTTTCG -CACGCTGACCAGTGCATATTGCCCGGCGCGATATGGGTAGTAATCGTGGCAAATCAGGGAAATCGTCCAC -ACATCCGGCGTTTCTTGCGTAATGTGATGAACCTGCATCCGCCACGGGCATTGATTCGTTGGCATCGTCA -TCGACAAACTCCTTACGCGCTCAACAGTTGCTTCATGTCTTCTTCAACAGTGGTGATAGAACGCAGGCCG -AATTTCTCGTTCAGCACCGCCAGCAGGTCTGGTGTCAGGAAACCAGGTGCAGTCGGGCCGGTGACGATAT -TTTTCACGCCCAGAGAAAGCAGCGTCAGCAGAATGACGATCGCTTTCTGTTCAAACCAGGAGAGCACCAG -CGACAGCGGCAGATCGTTGACACCGCAGCCCAGTTTCTCTGCCAGAGTGACAGCCAGAATAATCGCTGAG -TAAGCATCGTTACATTGACCTGCATCTACCAGACGCGGCAGACCTTCGATATCGCCAAACTCAAGTTTGT -TAAAGCGATATTTACCACAGGCGAGGGTCAGGATCAGGCAGTCATCCGGCACGCTGGTGGCGAAATCGGT -GAAGTAGTGGCGCTCGCCGCGTGCGCCGTCACAGCCACCAAGCAGGAAGATATGACGCAGTTTTTCACGG -CTCACCAGATCAATCAGCGTATCAGCAGCGCCAAGCAGCGTCTGGCGACCAAAACCCACGGTGATAAGGT -GCGGAATTTCGCTGTACGGGAAGCCTGCCATCTGTTGCGCCTGGGTGATAACCGCAGAGAAATCATCACC -GTCCAGATGACGCACGCCAGGCCAGCCAACAATGCTGCGGGTCCAGATACGATCGTCATAAGCGCCTACG -GTTGGGTCGATGATGCAGTTCGAGGTCATCACGATGGGGCCAGGGAAACGAGCGAACTCCACTTGCTGAT -TCTGCCAGCCGCTGCCGTAGTTACCGACCAGATGCTTGAATTTACGCAGCTCCGGGTAGCCATGCGCAGG -CAGCATTTCGCCGTGGGTGTAGACATTAACGCCCGTGCCTTCGGTCTGTTCCAGCAGGTTGTAGAGATCT -TTGAGATCGTGACCGGAAATCAGAATGCATTTACCCGCCGTCGCTTTGACGTTGACCTGGGTTGGCGTCG -GGTGACCGTATTTACCGGTTTCGCCTGCATCCAGAATGCTCATCACTTTGAAGTTCATCTGGCCGATTTC -CATTGAACACTCAAGAAGCGCGTTCATATCGGCAGGCCAGGTCCCCAGCCACGCCATGATTTTATGGTAC -TGGGCATAAATATCGTTGTCGTATTGACCGAGAACATGCGCGTGTTCCATATAGGCCGCCGCACCTTTCA -GGCCATACAGGCACAGCAGACGCAGGCCGAGAATGTTTTCGCCAATCGCCGCTTTATCTTTGTTAGGGGT -AAATTCTGCTGCCTGACGTTGCAGCTCGCCGAGATCGTCGCTCACCAGTTGCAGGTCAGCCATCGGGTTA -TCGACGCGCGCGTTGGCATCTACAGCCAGGCATTGCGCTTTCAGCGCCTCGCGCAGGGCAATCGCTTCAC -GAGCGTAGCCGACAATACGCGGAGAATCGAAGTTAACGTTGGTCAGGGTTGAGAAAAAGGCACGTGGCGC -GAAGCTGTCAACATCGTGGTTGATGATGCCGTATTCACGCGCTTTTACCGCCCAGGCAGAAAGCCCTTGC -AGCGCCGCGATGAGTAAATCCTGAAGGTCAGAAGTTTCCGCCGTTTTACCACACATCCCCTGCGCGTATG -AGCAGCCGTTTCCTGCCGGAGTACGGATAGTTTGTTCACATTGCACACAAAACATGATCACACCTTTTAA -AGTTATATTTAATATACATGTTTAAGGTTAAGACGCTTAACGCGGGGATAAAAGGGATTTTTCATGCAAC -TTTAAGGGAGATTGATTTAGCGCAATTTTGGCGGCAGGGATCTACCGCCAGAGAGGTATTACGCAGAGAA -AAAGGCGATGAGGATCGGCACTAACAGGCTAAGAATAAAACCGTGAACAATTGCCGCCGGGACCATATCC -AGCCCGCCAGTACGTTGAAGAACGGGCAGGGTGAAATCCATTGATGTGGCACCGCATAAGCCCAGTGCAG -TAGAGCGGCTGCGGCGAATCAGCCCAGGGATCAACATAATAGCAATCAGTTCACGGGCCAGATCATTAAA -AAACGCCGCGCTCCCGATTACCGGACCAAAAGATTCGGTCAATAAAATACCGGAAAGAGAATACCAGCCG -AAACCGGAGGCCATTGCCAGCGCGGTATTGATGGGGAGATCAAGAATAAAGGCGTTAATTAAACCACCAA -TTAATGAACTGACAACCACCACCACGGCGACAATCATTCCCCGGCGATTAAGGACAATCTGCTTTAAGGT -CATGCCATTATTGCGCAACTGAATACCAACGAGGAAAAGTAGCAAAATTAACGTGTATTCACTGGCTTCG -GTCGCGTGTTGTAAGAAAGCCAGTCCACTTAGACCAATGGCAAAACCAATCACTACTACGCCGCACAGTT -TTAGCGACTCCAGCGCCATCGCAATACGCGACGGGAGTTTTTCTTGCTGATGGTGGTTGCGCCACGGCAG -GCCTCGCTCCAGCCACATCAGGGCGGCAATATTACACAGTAAAATAACGGTAATACTGACGGCAGAATAA -TGCAGAATCGCCAACAGGTTACTGGCGAGGTTATCGAGAAACGCCAGACTGATACCCATAAAAAAGAGAA -TAAGGTAAACCATCCAGCTTAATAGCTGATTAATAACTTTTAACGCAGCTTGTTGGCGAAGCGGAATGAG -GTAACCCACAATCAGGGGAACCAGAATGATTAACAGCCCAGAAAACATGAAAACCCAGTCCTTGCAAAGA -TGAAGTCGAAATGCGCGATGACACACTACTGAAAGCGGAAGGACGAGTAAAGTTGCAATTAAAAGGAAAT -GTTATGCATAAGGAGCAGTAGAGTATTCGTTTTCATTTAAAGATATTCTTGCGCTTTAATTACAAACTGC -ACCGATGTTGGTGGCGTCAAAATCGCCGAGGCGTTCCCTGAAGGCCGGGGCAGCCCACATGGATGTGGGC -TGAGGGCGCGTTTTACAGGGATGTTACCTCGCGCCCGACCCGGTAGCCGTAAGGGATAAGTCGAGGGCAC -CGCGCAGCGGCGATTTTGTTCGCCAGAGCCCGGGGGTGCAGGGGGCGGCGGCGATTGGCCGCCCCCTGCG -CGCTCCTTGCGCCAGTGGCAATATGTTGCTTAGCTCATGAAAGGAGCGCAACAAGATGATGAATCAACAT -ATAACAACATCTTAAAAAAAGGCCTGACATTACGCCAGGCCTTCTGCGTTAATTAATCACGCTTTTCCAG -CAGGGTCCGGTAAATCAGACCACCGATAATGCCGCCGACAATTGGCACCACCCAGAAGAACCACAGTTGT -TCTAATGCCCAGCCGCCCTGGAAGATAGCAACCGCGGTGCTGCGCGCCGGGTTAACAGAAGTGTTAGTCA -CCGGAATACTAATTAAGTGAATCAGGGTTAAGGCCAGACCAATAGCGATCGGCGCAAAACCTGCCGGCGC -GAATTTGTCGGTTGCGCCGTGGATCACCAACAGGAAACCTGCACTCAATACCAGTTCAACTACCAGCGCG -GAAAGCATGGAATAACCGCCTGGTGAATGCTCGCCATAACCGTTAGAAGCAAAACCGCTGGCTGCCGCGT -CAAAACCCGTTTTACCACTGGCAATTAAATACAGCAGCGCCGCTGCAACAATACCGCCGACAACCTGGGC -AATTACGTAGCCAACGACTTCTTTTGCCGGAAAACGTCCGCCAGCCCATAAACCAATAGTGACCGCCGGG -TTAAAATGACCACCAGAAATATGACCAACAGCAAAGGCCATCGTCAGAACGGTCAGACCGAACGCCAACG -CCACGCCGGCAAAACCAATGCCTAATTCCGGGAAGCCTGCGGCCAGTACAGCACTACCACAGCCACCAAA -AACAAGCCAGAAAGTACCAAAACATTCAGCTGCTAATTTTCTGAACATATCCACCACAATTAAAAATTGA -CCCTGTGAAAAATATGGTCGTTTTATAGGGTCGTCGTAAAAAAGTGACGACGGAAATAATGCGCGGCTAT -TTTAAAAACGAAGGCGAGTCATTCACCAGATAAATAAATCCAGTAAATTTGATTTAGGGCAACAGCGGGT -TGCCCCATATAGTCATTTGTCTGATTGACAGTGTAGTGCACGCAAAAGATTTAATCCTTTAGGCGTAATA -AAAAATAATTTATCATGCTAATTATTTGATTTTGTTGTTTTTGCAGACTTATCAGCAAGAGGGAGTATAA -CGCGATTATTCGCTCATTTTTCAGACATTTGCCATGCTTAAATGTGATGTCATCACGTATTAGCAAGGCC -TTTCCCGTTATACTGCCAGCGTAAAGGATAAGTCACATATTTCTGGAGGGGATATGATTCTTGAGCGCGT -TGAAATTGTGGGTTTTCGCGGTATCAACCGTTTGTCGTTGATGCTGGAACAAAACAACGTCCTGATTGGG -GAGAACGCGTGGGGTAAATCCAGCTTGCTGGACGCCTTAACTCTGCTGCTATCGCCAGAATCAGATCTCT -ACCATTTTGAGCGCGACGATTTCTGGTTCCCGCCGGGAGATATCAACGGGCGAGAACATCATCTGCATAT -TATTTTGACCTTCCGCGAATCGCTGCCAGGCCGACATCGGGTTCGCCGTTATCGGCCGCTGGAAGCGTGC -TGGACGCCATGCACCGATGGCTATCACCGTATTTTTTATCGTCTGGAAGGGGAGAGTGCGGAAGACGGCA -GCGTGATGACACTGCGCAGTTTTCTCGATAAAGACGGACATCCGATTGATGTCGAGGATATTAACGATCA -GGCACGCCATCTGGTGCGTTTAATGCCGGTGCTGCGCTTGCGTGATGCCCGTTTTATGCGCCGTATTCGT -AACGGCACGGTGCCAAATGTCCCTAATGTGGAAGTCACCGCGCGCCAGCTCGATTTCCTCGCCCGTGAGT -TATCCTCACATCCGCAAAATCTCTCTGATGGGCAGATTCGTCAGGGACTTTCCGCAATGGTACAGCTGCT -TGAGCATTATTTCTCTGAGCAGGGGGCCGGACAGGCGCGATATCGTTTAATGCGGCGGCGAGCCAGCAAT -GAGCAACGAAGCTGGCGCTATCTGGATATCATCAACCGGATGATTGACCGACCTGGTGGGCGCTCGTATC -GGGTTATTTTGCTCGGCCTATTTGCTACTTTGTTGCAGGCAAAAGGCACATTGCGACTGGATAAAGACGC -CCGTCCATTGTTGCTGATCGAAGATCCAGAAACCCGTTTACACCCCATTATGCTTTCAGTTGCCTGGCAT -CTGTTGAATCTTCTGCCATTGCAGCGCATTGCCACCACCAACTCGGGTGAGTTGCTTTCGTTAACGCCGG -TAGAGCATGTTTGCCGACTGGTACGTGAGTCCTCGCGCGTTGCCGCCTGGCGTCTGGGGCCGAGTGGCTT -GAGTACCGAAGATAGCCGACGCATATCCTTTCACATTCGTTTTAACCGTCCGTCATCGCTGTTTGCACGC -TGCTGGTTGCTGGTGGAAGGGGAAACGGAAACCTGGGTTATCAATGAACTGGCGCGTCAGTGCGGACATC -ATTTTGATGCCGAAGGGATCAAGGTCATTGAGTTTGCCCAGTCCGGGCTAAAGCCACTGGTTAAATTTGC -CCGCCGAATGGGGATTGAATGGCATGTACTGGTCGATGGCGATGAAGCAGGGAAGAAATATGCCGCTACG -GTACGCAGCCTGTTGAATAACGATCGGGAAGCCGAACGAGAACATTTAACGGCGTTACCGGCGCTGGATA -TGGAACATTTTATGTATCGCCAGGGATTTTCCGATGTGTTCCACCGCATGGCGCAAATCCCGGAAAATGT -ACCGATAAATCTACGCAAAATTATCTCGAAAGCGATCCATCGCTCTTCCAAACCCGATCTTGCCATTGAA -GTGGCAATGGAGGCAGGACGTCGTGGTGTGGACTCCGTACCGACGCTGCTGAAAAAAATGTTCTCACGCG -TGCTGTGGCTGGCGCGCGGTCGCGCGGATTAACCGCGAAACATCGTGGCCATTTGTGGCTGAATAGCGTC -GAGCATCTCATAGCGCCGACGGTATTCAGCCCGTTTTTTACTGGCGATTTCGGCAATCTCTTTTCGTGCT -ATCTGTGCTGGAAGGCGGTAATGGCGTTCAGCATCACATACGCCGCCAACCGATTCCCAGAAAGCGTTGT -AATCAGCGTGGATCTTGCCTTCTTTATCGCGATAACGCAGGCTGCGGTAAATATGCGTTTCATTGCTGAC -GGCAATAATCTGCTCTACCTGCAAACGTTGGGCAAACAGACAGGCCGCTTCCATCACGAGGCGTTTGGGA -AATAGCCCGTGGCAGGCTTTCGTCGCATTCTGGATTTCCTGATGTGGAATTTCCCATTTTGCGCCTTGCA -GTCCGCCAATAAACATCGTTCTTTTCCCCTGATATTCACACAGGGTAAACGTGATCTCTGCCAGAGGAAT -ACCTTCGCTGTTGCGGAACAGGATTGTGCTGTCACCTTCTTTATCCATTGAGATCATCATGGTCAGCTCA -AGCGTGAACTGCTCGCCGTTTTTGCCTTCCAGCTTCGCCAGTTGCAGCCCGGGGGTATTCAAATATAAGC -TGAATTCTTCCGCCGACATACATTCGCGGAGTAACGCATAATGGTAACGTAACGCCTCCAGCAATTGCTT -ACGGCTAAGATTCGCCGCAAGGTAAGGGCGATGCAGACGCACAGGCAGTCGCGGCTGGCGCGTTAACAAT -ACATTGAGATTAGGCCAGTGGGAAAGTTCGTTCATCCACTCAACGCTTAAACGCGGCATAATCAACGAGC -GCAGCAAAAATTTCTGGCGAAAACTACGGCGATGCCAGAATTTACCCGGCCGACACTGTCCACGTGCCAG -ACTAAGAAAAAGTGACAGGCTGCTGAGAGATTCAGATGGCGTAAAGGTCCGTTCAGTTAGCTGCGACATA -TTCATGAAATCAATGGTTATACATGGCGTCGATTTCACCATTGCGTATCTTAACCAAACATCAATAGTGT -GATTACTAACGTAAATTTTAGGGTTTTGTTGATATTTCGTTGAAGTTAATGACCCGGATTGGCATATGGA -GTATTCAGAAAATTTATGAAAAAGCGGAAAACCGTGAAGAAGCGTTACGTTATTGCGCTGGTGATAGTCA -TCGCCGGACTGATTACGTTATGGAGAATTCTTAACGCACCCGTGCCGACTTATCAGACGCTGATTGTGCG -CCCCGGTGATTTACAGCAAAGCGTGCTGGCGACCGGAAAGCTGGACGCGCTGCGTAAGGTTGATGTGGGC -GCGCAGGTCAGCGGTCAGTTGAAAACTCTGTCGGTGGCGATTGGCGATAAAGTAAAAAAAGACCAGCTTT -TAGGGGTTATTGATCCTGAACAGGCTGAAAACCAGATTAAGGAGGTCGAAGCAACGCTGATGGAGCTACG -TGCGCAGCGGCAGCAGGCGGAAGCGGAGCTGAAACTGGCGCGGGTGACGTATTCCCGTCAGCAACGTCTG -GCACAAACGAAGGCTGTTTCACAGCAGGATCTCGACACCGCCGCGACGGAGATGGCTGTGAAACAGGCGC -AAATTGGCACCATTGACGCGCAAATCAAGCGCAATCAGGCTTCTCTCGATACGGCTAAAACCAATCTCGA -TTACACTCGCATCGTTGCCCCGATGGCCGGGGAAGTCACGCAAATCACCACTCTGCAAGGCCAGACGGTG -ATTGCCGCACAACAAGCACCGAACATTCTGACGCTGGCAGATATGAGCGCCATGCTGGTAAAAGCGCAGG -TTTCTGAAGCGGATGTAATCCACCTGAAGCCGGGGCAAAAAGCCTGGTTTACGGTGCTTGGCGATCCACT -GACGCGCTACGAGGGGCAAATCAAGGATGTACTACCGACGCCGGAAAAGGTTAACGACGCTATTTTCTAT -TACGCCCGTTTTGAAGTCCCCAACCCCAATGGTTTGCTGCGGCTGGATATGACTGCGCAAGTGCATATTC -AGCTCACCGATGTGAAAAATGTGCTGACGATCCCTCTGTCGGCGTTAGGCGATCCGGTTGGCGATAATCG -TTATAAAGTCAAATTGTTGCGTAATGGTGAAACACGCGAGCGTGAAGTGACGATTGGCGCACGTAACGAT -ACCGATGTTGAGATTGTCAAAGGGCTTGAAGCGGGCGATGAAGTGGTGATTGGTGAGGCCAAACCAGGAG -CTGCACAATGACGCCTTTGCTCGAATTAAAGGATATTCGTCGCAGCTATCCTGCCGGTGATGAGCAGGTT -GAGGTGCTGAAGGGCATCAGCCTCGATATTTATGCGGGTGAGATGGTCGCGATTGTTGGCGCTTCGGGTT -CCGGTAAATCGACCCTGATGAATATTCTCGGCTGTCTGGATAAGGCCACCAGCGGCACCTATCGCGTCGC -CGGTCAGGATGTTGCCACGCTGGACGCCGATGCGCTGGCGCAACTGCGCCGCGAGCATTTCGGCTTTATT -TTCCAGCGTTACCATTTGCTTTCGCATTTAACCGCCGAGCAGAACGTTGAAGTACCCGCCGTCTATGCTG -GTCTTGAGCGGAAACAGCGACTGCTTCGTGCCCAGGAGTTGCTGCAACGGCTGGGGCTGGAAGACCGTAC -AGAGTATTATCCGGCACAGCTTTCGGGTGGTCAGCAACAGCGCGTCAGCATCGCGCGGGCATTGATGAAC -GGTGGTCAGGTAATTCTTGCCGATGAACCAACCGGCGCACTGGACAGCCATTCTGGCGAAGAGGTGATGG -CGATCCTGCATCAGCTGCGCGATCGTGGGCATACGGTGATTATCGTCACCCACGATCCGCAGGTCGCTGC -TCAGGCCGAGCGGGTGATCGAAATTCGCGACGGCGAAATTGTGCGCAATCCTCCCGCCATTGAAAAAGTG -AATGTTACTGGCGGGACGGAACCTGTTGTCAACACGGTGTCTGGCTGGCGGCAGTTTGTCAGCGGTTTTA -ACGAGGCGCTGACGATGGCATGGCGGGCGCTGGCAGCGAATAAAATGCGTACTTTACTGACCATGCTGGG -GATTATTATCGGTATTGCGTCGGTGGTTTCCATTGTCGTGGTGGGTGACGCCGCCAAACAAATGGTGCTG -GCGGATATTCGTTCTATTGGTACGAATACTATTGATGTCTATCCCGGGAAAGATTTTGGCGATGACGATC -CGCAATATCAGCAGGCGCTGAAGTACGACGACTTAATCGCCATCCAAAAACAACCGTGGGTCGCCTCAGC -CACACCTGCCGTCTCGCAAAACCTGCGCCTGCGTTATAACAATGTTGATGTTGCTGCCAGTGCCAATGGC -GTGAGCGGCGATTATTTTAATGTCTATGGCATGACCTTCAGTGAAGGAAACACCTTTAATCAGGAGCAGC -TGAACGGTCGTGCGCAGGTCGTGGTTCTCGACAGTAATACTCGCCGCCAGCTTTTCCCCCATAAAGCAGA -TGTGGTTGGCGAGGTGATTCTGGTCGGCAATATGCCCGCCAGAGTCATTGGTGTGGCGGAAGAAAAACAG -TCGATGTTTGGTAGCAGTAAAGTGCTGCGTGTCTGGCTACCTTACAGCACGATGTCCGGGCGAGTTATGG -GCCAGTCGTGGCTTAACTCCATTACTGTCAGGGTGAAAGAAGGATTTGACAGCGCCGAGGCGGAACAGCA -ACTCACGCGTTTACTTTCACTGCGCCACGGAAAGAAGGATTTCTTTACCTGGAACATGGACGGCGTCTTG -AAAACTGTTGAAAAGACCACACGTACTTTACAACTGTTTCTGACGCTGGTGGCGGTGATTTCGCTGGTGG -TGGGCGGTATTGGTGTAATGAATATTATGCTGGTGTCAGTGACCGAGCGGACGCGGGAAATTGGCATTCG -CATGGCTGTAGGTGCGCGAGCAAGCGATGTTTTGCAACAGTTCCTGATCGAAGCCGTACTGGTTTGCCTG -GTCGGTGGCGCGTTGGGAATAACACTGTCACTGTTAATTGCTTTCACCTTGCAGCTTTTCTTACCCGGCT -GGGAGATTGGTTTTTCACCGTTGGCGCTGCTGCTGGCGTTTCTCTGCTCGACGGTCACCGGGATTTTATT -TGGCTGGTTACCCGCACGAAATGCGGCACGACTGGATCCAGTAGATGCTCTGGCACGAGAGTAATTTTTG -AGATAAAAATGCCAGCCGATCGGGCTGGCATTTTGCCTTTAGGATGTACACAATGAGACAGAAGAGCTAT -GCGACTGCCGCTTCTACTTCGACGGGCACAATAACACTGGCGTGATTGCCTTTTGGCCCCTGGTGGACAT -CAAACTGAACGGATTGTCCAGCTTTTAGCGTTCTGTAACCATCCATCTGAATGGTGGAATAATGAGCGAA -AATATCTTCGCCGCCGCCTTCAGGGCAGATGAAACCAAACCCTTTGGCATTGTTGAACCACTTAACAGTA -CCCTTTTCCATGCTTCGACATCCTTCGCAAATCTTATACAAGTAAGATGGAATAAACCGGGGTCAGAGAG -GGGGCTGTTCAAAACCTCGCCAACTCTAGAAATACAATTTAGAGAATTAGGGCGAGCCGTCAAGCATTTG -ACAGGGGACAAGGGGCAGGTATGAATCAAAAATTTGAAGCAGTTAACGCTATTGACAGGAATGTGACAGA -TGTCGCTGATGCCAACGATAGATGATAGTTATCTATCATGTGGAGTAGATTGGTCAGGCAAATAAGCTCT -TGTCAGCGGCAGGGCGTTCTGCCGATAACCGTAACCGAAGATGATAACTGACAATGGGTAAAACGAACGA -CTGGCTGGACTTTGATCAACTGGCGGAAGAAAAAGTTCGCGACGCGCTAAAACCGCCATCTATGTATAAA -GTGATATTAGTCAATGATGATTACACTCCGATGGAGTTTGTTATTGACGTGTTACAAAAATTCTTTTCTT -ATGATGTAGAACGTGCAACGCAATTGATGCTCGCTGTTCACTACCAGGGGAAGGCCATTTGCGGAGTCTT -TACCGCCGAGGTTGCAGAAACCAAAGTGGCGATGGTGAACAAGTACGCGAGGGAGAATGAGCATCCATTG -CTGTGTACGCTAGAAAAAGCCTGAATGCAGGCATAAAAATTGGGGGAGGTGCCTATGCTCAATCAAGAAC -TGGAACTCAGTTTAAATATGGCTTTCGCCAGAGCGCGCGAGCACCGTCATGAGTTTATGACCGTCGAGCA -CTTGTTACTGGCGCTGCTCAGTAACCCATCTGCCCGGGAGGCGCTGGAAGCGTGTTCTGTGGATTTGGTT -GCGCTCCGTCAGGAACTGGAAGCCTTTATTGAACAAACCACACCCGTTCTGCCTGCCAGTGAAGAGGAGC -GCGACACACAGCCGACGCTGAGTTTTCAGCGTGTACTGCAACGTGCGGTCTTCCATGTCCAGTCCTCCGG -TCGCAATGAGGTTACCGGTGCAAACGTTCTGGTCGCTATCTTTAGCGAACAGGAGTCGCAGGCGGCATAT -CTGTTGCGTAAACATGAAGTCAGCCGTCTCGATGTGGTGAACTTTATCTCTCATGGCACGCGTAAAGACG -AGCCGACACAGTCTTCTGATCCTGGCAGCCAGCCAAACAGCGAAGAACAAGCTGGTGGGGAGGAACGTAT -GGAGAATTTCACGACGAACCTGAATCAGCTTGCGCGCGTGGGCGGAATCGACCCACTGATTGGTCGTGAG -AAGGAGCTGGAGCGTGCTATTCAGGTTCTCTGCCGTCGCCGTAAAAACAACCCGCTGCTGGTGGGGGAAT -CTGGTGTCGGTAAAACCGCGATTGCGGAAGGTCTTGCCTGGCGAATTGTTCAGGGCGATGTGCCGGAAGT -GATGGCTGACTGTACGATTTACTCTCTCGATATCGGTTCTCTGTTAGCGGGCACAAAATATCGCGGCGAC -TTTGAAAAACGTTTTAAAGCGTTGCTCAAGCAGCTGGAGCAGGACACTAACAGCATCCTGTTTATTGATG -AGATCCACACCATTATCGGTGCGGGTGCAGCGTCTGGTGGTCAGGTCGATGCGGCTAACCTAATCAAACC -GTTGCTCTCCAGCGGTAAAATTCGTGTAATTGGTTCGACAACCTATCAGGAGTTCAGCAACATTTTCGAG -AAAGACCGTGCTCTGGCGCGTCGCTTCCAGAAAATTGATATTACTGAACCGTCGATCGAAGAAACTGTTC -AAATCATCAATGGCCTGAAACCGAAGTATGAAGCGCACCACGACGTGCGTTATACCGCAAAAGCGGTGCG -TGCGGCGGTAGAGCTGGCGGTGAAATACATTAACGATCGTCATCTGCCGGATAAAGCCATTGATGTTATC -GACGAAGCGGGCGCTCGCGCACGCCTGATGCCGGTAAGCAAACGCAAGAAAACCGTTAATGTGGCGGATA -TTGAGTCCGTGGTGGCCCGTATTGCACGCATTCCAGAGAAGAGTGTTTCTCAGAGTGATCGTGATACCCT -GAAAAACCTCGGCGATCGCTTGAAAATGCTGGTCTTCGGTCAGGATAAAGCCATTGAGGCGCTGACTGAA -GCCATTAAGATGGCGCGTGCAGGTTTAGGTCACGAACATAAACCGGTTGGTTCGTTCCTGTTTGCCGGCC -CTACCGGGGTCGGGAAAACAGAGGTGACGGTACAGCTTTCGAAAGCTTTGGGCATTGAGCTTCTGCGCTT -TGATATGTCCGAGTATATGGAACGCCATACCGTCAGCCGTCTTATTGGTGCGCCTCCGGGATACGTTGGT -TTTGATCAGGGCGGTTTGCTGACTGATGCGGTCATCAAGCATCCACATGCGGTGCTGCTGCTGGACGAAA -TCGAGAAAGCGCACCCGGACGTGTTCAATATTCTGTTGCAGGTGATGGATAACGGTACGCTGACCGATAA -CAACGGACGCAAAGCAGACTTCCGTAACGTGGTGCTGGTGATGACCACCAACGCCGGGGTACGGGAAACT -GAGCGCAAATCCATTGGTCTTATCCACCAGGATAACAGCACCGATGCGATGGAAGAGATCAAGAAGATCT -TTACACCGGAATTCCGTAACCGTCTCGACAACATTATCTGGTTTGATCATCTGTCAACCGACGTGATCCA -TCAGGTGGTGGATAAATTCATCGTCGAGTTGCAGGTTCAGCTGGATCAGAAAGGTGTTTCTCTGGAAGTG -AGCCAGGAAGCGCGTAACTGGCTGGCCGAGAAAGGTTACGACCGGGCAATGGGCGCTCGTCCGATGGCGC -GTGTCATCCAGGACAACCTGAAAAAACCGCTCGCCAACGAACTGCTGTTTGGTTCGCTGGTGGACGGCGG -TCAGGTCACCGTCGCGCTGGATAAAGAGAAAAATGAGCTGACTTACGGATTCCAGAGTGCACAAAAGCAC -AAGGCGGAAGCAGCGCATTAATCTGATTGTTAGGTAGGTTGGTCAAGTCCGTAATCTCGAAAGAGGTTAC -GGACTTTTTGTTTATGGGGTGGAGGAGGTTCAGACCCTTTTTTTAATGATGATGGTAAGTTGTTGATAAT -TAGTGCTGCGGGAAGGTAAGGATAAAAAAGGGTGCTGCAGGAGAATGGGATGGTTTTGCTTTATTAACAA -CGGGCTAAACGTGTAGTATTTGAGTTCACTGCCGTACAGGCAGCTTAGAAATTCACAGGTAACATACTCC -ACCCGCCCACCATGTTCACTGCCGTACAGACAGATAAAATGCGAAAAAAAAGCTCGCACTTTCGTACGAG -CTCTTCTTTAAATATGGCGGTGAGGGGGGGATTCGAACCCCCGATACGTTGCCGTATACACACTTTCCAG -GCGTGCTCCTTCAGCCACTCGGACACCTCACCAAATTGTTTTGCTACCAAACCTCATGGGTGGCAACGGG -GCGCTACTATAGGGAGTTGGAGTAAAACGGTCAAGAAGAATTTTAATGATAATTATTGTTTGCTCATACT -GTAAACAAGTTGTGCAGTATATCTACATCGAGACAAGTTACGGACTTATACTTCCAAAGTACTTCATACA -TATCACAAAATAAAAAGGCCGGTTAAACCGACCTTTTACTCGTTCTTTCTCTTCGCCCATCAGGCGGTAA -AACAATCAGCGACTACGGAAGACAATGCGGCCTTTGCTCAGGTCGTACGGGGTCAGTTCAACAGTCACTT -TGTCGCCCGTCAGGATGCGGATGTAGTTTTTGCGCATTTTACCGGAGATGTGTGCAGTAACCACGTGACC -GTTTTCTAACTCTACGCGGAACATGGTATTAGGCAACGTTTCAAGAACGGTACCTTGCATTTCAATATTG -TCTTCTTTGGCCATCTAATCCTCTGGGGTATCACTACCGTAATTTGAACCGGCAAGATAATGCCGAAGTT -CTGTAAATAAGTAAAGATTTGCGCGCTAAATCGCAACAAACAGGTTCGGCACATTACTCCGAAAACACAC -GGCTAAGCCGCACCAAAAGCGCAACGTATAAGGGAGCGGTGAGATAAACGATGGGCGTTACCTGACGCGA -AAAATTCCTTATCGGCAGCGGGGTAATGAGCGTAACCAACTCTGCGACCGCAATTATAACACTCTGGGGA -GAAATGTGCCGAAAACATTCATTCTTGTGGTGAAAACAAGCATCGTGGTACCCAGAAATTATTCGGCAAT -CGTCCGAGGCGCATTTGATTGAGATAATTAAGGTAATCCCGGCGGGGAATTTCGCAGGCACCAAGCGATG -CTGTGTGATCGTTAAGGACCTGGCAGTCGATAAGCTTACCGCCATGACCGATAAATTCCTCACAGAATAC -CAGAAGCGCCGTTTTAGACGCATTTTCCATCCGGCTGAACATGGACTCGCCACAAAATAGCGTTCCCTGG -GCCACGCCGTACATACCGCCGACAAGCTCATCTTCACGCCAGACTTCAATGGAGTGGGCATGGCCGAGTT -CGTGAAGGCGATGGTAGGCTTCGACCACGCCACGCGTGATCCAGGTTCCTTCTTCGCGATCGCTGGCACA -GCCTTCAATGACCTGACCAAAAGCGTAATTCATCGTGACACGATAGGGCGAGCGTTTATGAAATCGCTTC -ATACTACGGCTGATATGCAGTGATTCTGGCCATAGCACCGCGCGGGGATCGGGCGACCACCAGAGGATGG -GGTCGCCTGGAGAAAACCACGGAAAAATACCACGCTGGTAAGCCATTAACAGGCGCGCAGGGCTAAGATC -GCCCCCAAGTGCCAGCAGGCCGTTAGGCTCACGTAATGCGCCTTCCGGGGAAGGGAAGGCTATTGAATGG -CGAGAAAGCTGAACCAGGCGCATGACCGCAAAACTCCACGCAAGTCGGATCGTTCAATAATAGCTTACAA -ACCCTGCTTGAACTGGTAATAACGCCCCTGTCTGGCAAGCAGTTCTGCGTGAGTACCTTGCTCAATAATT -TGCCCGTTGTCCATCACTATTATTTGTTGGAAACGAGAGAGTCCGCGAAGTCGATGGGTGACCATTAACA -CCGTTTTCTCACGCATCATTTCTGCAAGCAATTCAAGGATCTGGCTTTCGGTTGTGGCATCTAAGCCTTC -GGTAGGTTCATCCAGCAACACCAGTGGCGCATCATGTAACAGCGCACGGGCGATAGCCAGACGGCGCAGT -TCACCACCGGAGAGCTGGCGTCCGCCTTCACCTAACCAACTGTTGAGACCTGCATCCTCGAGCAGCTTTT -CCAGGCCAACGCGACGCAAGATCTCCGACAGAGCCTCATCACTACTGCCAGGCGAGGCGAGTAAAAGATT -ATCACGCAGCGTGGCGCTAAACAGATGCACTCGCTGAGGAACAACGCTGATGGTCTGTCGTAGAGCCGCT -TCATTCAGGCTGGCTATGGGGCTATCGTTAAGCAAAATCTCGCCCTGTTGCGGGTCCCATGCGCGGGTCA -GCTGTTGTAACAGTGTTGATTTGCCGCATCCGGTTCGCCCGAGAATCGCTATATGTTCCCCGGCGTTTAC -CTGAAGAGAAATCCCTTTAAGTGCCTGTTGAGATTGCTCCGGATAAGTGAACTGAACATCCCGTAACGTC -AGCGAAACGCGATCGGCAACACGAGTTTGGGTATCAGGAAAGGTGACCTCCGGTTTTTGATCCGTTAAGT -CAGAGATACGTACGGCAGAGGCAATGACTTGCCCCAGATGCTGAAATGCACCCGTTACTGGTGCCAGTGC -TTCAAACGCGGCTAACGCGCAGAAGACAAACAGGGCAATTAACGCGCCGGGTTGAGCATTGCCGCCAACG -CCGCCAGACGCCATCCACAGCATCAGGATCACCGCTAACGCGCCAATGAGCAGCATTATCGCTTGCGACA -ATGCGGTCAGTTCAGATTGACGGCGTTGCGCTTCCAGCCATTGAATTTCTGTATTCTCTAGTTGCGTGCG -ATAACGATCGCTGGCACCAAAAATGGTCAGCTCAGCTTGCCCTTGCAGCCAGGCCGTCAGTTGTTGGCGA -TACTGTCCGCGAAGATGAGTCAGATTTTGCCCGGTGCTTTTTCCCGCACGATAAAACAGCGGTGGCATCA -GGAAAAGCGTCAGTAACATAATGCCGCCCAGCGTAAAGGCGAGGGTGAAATCAAGGAAACTTAACCCGAT -TGTCACCACCATAATCACCACAAAAGCGCCCACCAGCGGCGAGATAACGCGCAGGTAAAGATGATCGAGC -GTATCAACATCCGCCACCACGCGATTGAGCAATTCGCCCTGACGATAGCGCGCCAGTCCGGCAGGGGAGA -GGGGCAGCAATTTGCTGAAGGTGTAAATGCGCAGATGCTGCAACACGCGGAAAGTCGCGTCGTGACTTAC -CAGACGTTCAAAATAGCGCCCGGCAGTACGGGTGATTGCTGCGCCACGCACGCCCGCAGCGGGTAGCATA -TAGTTGAAGCTGTACAGTCCGGCAACCCCCGCAACCGCTGAGGCCGAGAGGAACCAGCCGGAAAGTGTCA -ACAGACCGATACTGGCGAGCAGCGTCACAATTGCCAGCACAATACCAAGACTTAACATCCATTTATGACG -TTTATACAGTGCCAGATAGGGTAGCAAAGCGCGCATTTAAATCTCCTCCTGACGATGGGCCAGTAATGTG -GCGAATGGGCCACCAGCCACACTTAATTCCGCGTAACGTCCTTGCTCAATAATCCGGCCATCCTGCATAA -CCCAAATGACATCCCAGTCAGCAAGATCTTCTAACTGGTGGGTGACCATTAACGTTGTCTGGCGCAGAGA -GGCGGCATTCAGCGCCTCCATTACGCGCTGTTCACTGTGAGCATCAAGGCTGGCAGCGGGTTCATCCAAC -AGTAATAGCGAACAGGGATTTAGTAACGCACGGGCCACCGCCACGCGCTGCGCCTGCCCCACGGAAAGGC -GGGCAGCCTGGTCGCCAACAGGCGTATCAACGCCTTGTGGGAGGAGCGGTAGAAACTCGCTGACCCAGGC -GTTATCCAGCGCTGCTTGTAATTCTTGTTCGCTGGCATCAGGTCGCGCCAGTAGTACGTTATCCCGCAAT -GTTGCTGCCGGTAATTGTGGGTTTTGCCCAACCCAGGAGAGATGTTTACGCCATGATTCTGGTGATAAAT -CGCGTAATTCTATCCCGTTGATTCGTAGCGATCCCTGATATGAGAGAAAACCAGAAAGCGCGTTCAGCAG -TGAGCTTTTACCTGAACCGCTGCGACCAACCAACACCGCACGTTGGCCTGCTGGCAAAGTAAAGTTCAGC -GGTCCGGCCAGCGTTTTACCTTCCGGCGACGTGATAAACAGCTCCTCGGCCTCAATGGTCACCGGATCGG -TCGATGCTAATTCCGCCTCACCACGTTGCGGATGGGCGAGCGGGGTTTCCATAAACGTTTTCAGACTGTC -AGCTGCGCCAACAGCCTGGGCTTTAGCATGATAAAACGTACCGAGATCGCGTAATGGCTGGAAAAACTCT -GGCGCAAGGATCAGGGCCAGAAAACCCGCAGCCAGCGTCACACCGGTATCGTAGTGACCAAAATCCAGCT -CGCCGAGATAGGAAAAACCAAAGTAGACCGCCACCAGAGCAATTGACAGCGAGGTAAAAAATTCGAGAAT -GCCGGAGGATAAAAACGCCAGCCGTAGCACTTCCATTGTCCGTTGGCGGAAATCTTCCGAAGCAGAACGA -ATACTTTCAATTTCAGCTTCACCACGACCAAAAATACGCAATGTTTCCATGCCGCGCAGGCGATCGAGGA -AATGCCCACTTAAGCGAGCAAGAGCGAGAAAGTTACGTCGGTTAGCATCGGCAGCCCCCATTCCAACCAG -CGCCATAAACAACGGAATTAACGGTGCAGTGCCCAGCAGAATGAGCGCCGCAGCCCAGTTAGAGGGGAAG -ATTGCCACCACAATCAGCAACGGCACCGACACTGCCAGCGCCATTTGCGGCAGATAGCGTGCATAGTAAT -CATGCATATCGTCAATTTGCTCGAGTACCAGCGTCGCCCAGCTCCCCGCAGGTTTACCCTGAATCCACGC -TGGCCCTGCTTGTTGCAGACGGTCGAGAACCTGACGGCGGATGGCAAAGCGGATATGCTGCCCGGCGTGA -TAACCCACCCGTTCGCGTAACCAGACCACCCATGCGCGCAGTACAAAGGTCAGAACCAGTAACGTAAAGG -GAAGCAGCAGGGCTTCACGGGGAATATTCTCCATAATCATATGTTGCAGAATTCGCGCCATGAACCAGGC -CTGGGCAATGATCAATATGCCGCTCACAAAGCCCAGCAGACGAGAAATATTCAGCCAACGTTGGGAGATG -ACGCTTTGCTGTTTTAACCAGCGGGTTAACTCTTTTTGACGAGATTTATTCATTGCACGCTTAGCAGGTG -AGTTATCAGAATTATTTGCAGAGCAATGTTACAACGGGGAAAAAATAAAGGCGACCCATAGTCGCATGGT -GTCGCCTTCTTTACTTTTGTTACTGATTTGTAAAATTATTTTGCGTCAGCTAAACCATCGAGGTAGCGTT -CCGCATCAAGTGCTGCCATGCAGCCTGTACCGGCCGAAGTAATGGCCTGGCGATAAATGTGATCCATCAC -GTCGCCTGCGGCAAAGACGCCAGGAATGCTGGTCTGGGTGGCATTACCATGAATACCCGACTGTACTTTG -ATGTAGCCGTTTTCCAGTTCCAGCTGCCCTTCGAAAATCGCAGTATTCGGGCTGTGACCGATAGCAACAA -ACAGACCGGCAACGTCGAGTGACTCGATGTTATCGCTGTTTTGCGTATCGCGCAGACGAACGCCAGTGAC -ACCCATTTGATCGCCGGTCACTTCTTCCAGCGTACGGTTGGTGTGCAGAATGATGTTGCCGTTCTCCACT -TTATCCATCAGGCGCTTAATGAGGATTTTTTCCGCGCGGAAACCGTCACGGCGGTGAATCAGATGCACTT -CCGAAGCGATGTTAGACAGATACAGCGCCTCTTCAACCGCGGTATTGCCGCCGCCGATGACCGCAACTTT -CTGGTTGCGATAGAAGAAACCGTCGCAGGTTGCACAAGCAGAAACCCCACGGCCTTTAAAGGCTTCTTCA -GAGGGCAGGCCGAGATAGCGTGCAGAAGCTCCGGTGGCAATAATCAGCGCGTCGCAAGTGTATTCGCCGT -TATCGCCATTCAGACGGAACGGACGGTTTTGCAGATCCACCTTGTTGATATGATCAAAAATGATCTCAGT -TTCAAACTTGGTGGCATGTTCGTGCATGCGCTCCATTAATAACGGACCGGTCAGATCGTTTGGATCGCCA -GGCCAGTTTTCCACTTCCGTGGTGGTGGTCAGTTGGCCGCCTTTTTCCATGCCGGTAATCAGCACAGGTT -GCAGGTTGGCGCGCGCCGCGTAGACAGCAGCGGTGTATCCCGCCGGGCCTGAACCCAGGATAAGCAGTTT -ACTGTGTTTGGTCGTGCCCATGAGATCCCCATAGTTGTTGGCAGACAATGGGCAGGATTGTAGGGAATTT -ACAGACGTAAAAAAAGAGTATGACGATTTTGTTAACAATTTGTGCAATCGGCAGCATCGATAAGCAGGTC -AAATTCTCCCGTCATTATCACCTCTGCTACTTAAATTTCCCGCTTTATAAGCCGATTAAATGATGAATAA -ACGCCCCTGTTAATGAATATCTGGCATGTTGTACTAAAAATCGATGTTTTGCTTTGACAATCCCCTGGTG -TTTTGCGAAAACATTCGAGGAAGAAAAAAAACAGTATTCTTATATGCGCATAACCATGCATGTAAATACC -ATGTTTACCGTGCTAGTGAAATCTACGTATGGCGTGGACAGACGCCATTCGTGATGTCGATAGCTGCCAC -AAGGCAACGGTCTTCTCACCGTAGACCCAGGCATTGCGCGCCGTGAATCTTCATGATTTCGGTCTATCGT -GACGGGTAGCGACTCTGAACAGTGATGTTTCAGGGTCAGACAGGAGTAGGGAAGGAATACAGAGAGACAA -TAATAATGGTAGATAGCAAGAAGCGCCCTGGCAAAGATCTCGACCGTATCGATCGTAACATTCTTAATGA -GTTGCAAAAGGATGGGCGTATTTCTAACGTCGAGCTTTCTAAACGTGTGGGACTTTCCCCAACGCCGTGC -CTTGAGCGTGTGCGTCGGCTGGAAAGACAAGGGTTTATTCAGGGCTATACGGCGCTGCTTAACCCCCATT -ATCTGGATGCATCACTTCTGGTATTCGTTGAGATTACTCTGAATCGTGGCGCACCGGATGTGTTTGAACA -ATTCAATACCGCTGTACAAAAACTTGAAGAAATTCAGGAGTGTCATTTAGTATCCGGTGATTTCGACTAC -CTGTTGAAAACACGCGTGCCGGATATGTCAGCCTACCGTAAGTTGCTGGGGGAAACCCTGCTGCGTCTGC -CTGGCGTCAATGACACACGGACATACGTTGTTATGGAAGAAGTCAAGCAGAGTAATCGTCTGGTTATTAA -GACGCGCTAACACGGAACAGGTGCAAAATCGGCGTATTTTGATTACACTCCTGTTAATCCATACAGCAAC -AGTACTGGGGTAACCTGGTACTGTTGTCCGTTTTAGCATCGGGCAGGAAAAGCCTGTAACCTGGAGAGCC -TTTCTTGAGCCAGGAATACATTGAAGACAAAGAAGTCACATTGACAAAGTTAAGTAGCGGCCGCCGCCTT -CTGGAGGCGTTGCTGATCCTTATTGTCCTGTTTGCCGTCTGGTTGATGGCTGCCTTACTAAGCTTTAACC -CTTCGGACCCCAGCTGGTCGCAAACGGCCTGGCATGAACCTATCCATAATTTAGGTGGGATGCCCGGTGC -GTGGTTGGCAGATACGCTGTTCTTTATTTTTGGCGTGATGGCTTACACCATTCCCGTCATTATTGTCGGC -GGTTGTTGGTTTGCCTGGCGTCATCAGTCCAGCGACGAATACATTGATTATTTTGCCGTTTCGCTACGCA -TCATTGGCGTTTTGGCGCTCATCCTTACCTCCTGTGGTCTGGCGGCAATCAACGCTGACGATATCTGGTA -TTTTGCCTCCGGTGGCGTCATTGGCAGCTTACTAAGCACTACGCTACAACCACTGCTACACAGTAGCGGG -GGAACTATTGCGCTGCTCTGCGTTTGGGCAGCGGGCCTGACGTTGTTCACCGGTTGGTCATGGGTGACCA -TTGCTGAAAAACTCGGCGGCTGGATTTTAAACATTCTCACCTTCGCCAGTAATCGTACCCGTCGCGATGA -TACCTGGGTCGATGAAGATGAGTATGAAGACGACGAAGAGTATGAAGATGAAAATCACGGCAAACAGCAT -GAATCACGCCGTGCCCGTATTCTTCGCGGCGCGCTAGCGCGTCGTAAACGGTTGGCGGAAAAATTCATTA -ATCCGATGGGGCGGCAAACAGACGCTGCGTTGTTCTCCGGTAAGCGGATGGATGATGACGAAGAGATTAC -CTACACTGCACGCGGTGTGGCTGCCGACCCGGACGACGTCCTATTTTCGGGCAATCGTGCAACGCAGCCA -GAATATGACGAATACGATCCATTATTAAACGGTGCGCCAATTACCGAACCTGTCGCTGTAGCAGCTGCTG -CTACCACGGCGACACAAAGCTGGGCTGCGCCGGTTGAACCTGTGACTCAGACGCCGCCTGTTGCCTCTGT -TGATGTTCCACCTGCGCAACCTACAGTAGCCTGGCAGCCTGTACCGGGTCCACAAACGGGAGAGCCGGTT -ATTGCTCCTGCACCGGAAGGTTACCCACAGCAGTCACAATATGCGCAGCCTGCAGTGCAATATAATGAGC -CGCTGCAACAACCAGTACAGCCGCAGCAGCCGTATTATGCACCTGCAGCTGAACAACCTGCGCAACAGCC -GTATTATGCCCCTGCGCCAGAACAACCGGTGGCAGGTAACGCCTGGCAAGCCGAAGAGCAGCAATCCACT -TTTGCTCCACAGTCTACATACCAGACTGAGCAAACTTATCAGCAGCCAGCCGCTCAGGAGCCGTTGTACC -AACAGCCGCAACCCGTTGAACAGCAGCCTGTTGTGGAGCCTGAACCCGTTGTAGAAGAGACAAAACCCGC -GCGTCCGCCGCTTTACTACTTTGAAGAAGTTGAAGAGAAGCGAGCCCGTGAACGTGAACAACTTGCGGCC -TGGTATCAACCGATTCCAGAACCGGTTAAAGAACCAGAACCGATCAAATCTTCGCTGAAAGCACCTTCTG -TTGCAGCAGTACCTCCAGTAGAAGCCGCTGCCGCTGTTTCCCCGCTGGCATCTGGCGTGAAAAAAGCGAC -ACTGGCGACGGGGGCTGCCGCAACCGTTGCCGCGCCAGTCTTCAGTCTGGCAAATAGCGGTGGACCGCGT -CCTCAGGTCAAAGAGGGGATTGGTCCGCAGTTGCCACGACCGAAACGTATCCGCGTGCCAACTCGTCGTG -AACTGGCGTCTTACGGTATTAAGCTGCCCTCACAGCGTGCGGCGGAAGAAAAAGCCCGTGAAGCCCAGCG -CAATCAGTACGATTCTGGCGATCAGTACAACGATGATGAAATCGATGCGATGCAGCAGGATGAACTGGCA -CGTCAGTTCGCCCAGACACAGCAGCAACGCTATGGCGAACAGTATCAACATGATGTGCCCGTAAACGCAG -AAGATGCAGATGCTGCGGCAGAGGCTGAACTGGCTCGTCAGTTTGCGCAAACTCAACAACAACGTTATTC -CGGCGAACAACCGGCTGGGGCGAATCCGTTCTCGCTGGATGATTTTGAATTTTCGCCAATGAAAGCGTTG -CTGGATGATGGTCCACACGAACCGTTGTTTACGCCAATTGTTGAACCTGTACAGCAGCCGCAACAACCGG -TTGCACCGCAGCAGCAATATCAGCAGCCGCAACAACCAGTTCCGCCGCAGCCGCAGTATCAGCAGCCACA -ACAGCCGGTTGCGCCGCAGCCACAATATCAGCAGCCGCAACAACCGGTTGCGCCACAGCAGCAATATCAG -CAGCCGCAACAACCGGTTGCGCCGCAGCAGCAGTATCAGCAGCCACAACAGCCAGTTGCGCCACAACCGC -AGGATACCCTGCTTCATCCGCTGTTGATGCGTAATGGCGACAGCCGTCCGTTGCATAAACCGACGACGCC -GCTGCCTTCTCTGGATTTGCTGACACCGCCGCCGAGCGAAGTGGAGCCGGTAGATACCTTTGCGCTTGAA -CAAATGGCTCGCCTGGTGGAAGCGCGTCTGGCTGATTTCCGTATTAAAGCCGATGTCGTCAATTACTCTC -CGGGGCCGGTTATCACTCGCTTTGAATTGAACCTGGCACCGGGCGTAAAAGCGGCGCGCATTTCTAACTT -GTCACGGGACCTTGCCCGTTCACTTTCGACGGTGGCGGTGCGTGTCGTTGAAGTTATTCCTGGCAAACCC -TATGTAGGTCTGGAGTTACCGAATAAAAAACGACAAACCGTTTATCTGCGCGAAGTTTTGGATAACGCCA -AATTCCGCGATAATCCGTCGCCATTAACCGTGGTGCTGGGTAAAGATATCGCCGGTGAGCCGGTGGTTGC -CGATCTGGCGAAAATGCCGCACTTGTTGGTTGCGGGGACTACCGGTTCCGGTAAATCTGTCGGTGTGAAC -GCGATGATCCTGAGCATGCTTTATAAAGCACAGCCAGAAGATGTGCGTTTCATCATGATCGACCCGAAAA -TGCTGGAGCTTTCGGTTTATGAAGGCATTCCGCATCTGTTAACGGAAGTCGTTACTGATATGAAAGATGC -CGCCAACGCGCTGCGCTGGTGTGTTAACGAGATGGAGCGTCGGTATAAACTGATGTCTGCGCTGGGTGTG -CGTAATCTGGCGGGTTATAACGAAAAAATTGCTGAAGCCGATCGCATGATGCGTCCGATTCCAGACCCGT -ACTGGAAGCCGGGTGACAGTATGGATGCCCAGCATCCGGTGCTGAAAAAAGAACCATACATTGTGGTGTT -GGTTGACGAATTTGCCGACCTGATGATGACGGTAGGTAAAAAAGTGGAAGAGCTGATAGCACGTCTGGCG -CAAAAAGCCCGTGCCGCGGGTATCCACCTCGTACTGGCAACTCAGCGTCCATCGGTTGATGTTATTACTG -GTCTGATTAAAGCGAATATTCCGACCCGTATCGCCTTTACCGTATCCAGTAAGATTGACTCACGTACCAT -TCTTGATCAGGCTGGCGCGGAATCACTGCTGGGTATGGGGGATATGCTCTACTCTGGGCCGAACTCCACG -TTGCCGGTACGTGTCCATGGTGCTTTTGTTCGCGATCAGGAAGTTCATGCCGTGGTGCAGGACTGGAAAG -CGCGTGGTCGCCCACAGTATGTTGATGGCATCACCTCCGACAGCGAAAGCGAAGGTGGTGCGGGTGGTTT -CGATGGCGCTGAAGAACTGGATCCGTTGTTCGATCAGGCGGTGCAGTTTGTCACTGAAAAACGCAAAGCG -TCAATTTCTGGCGTACAGCGTCAGTTCCGCATTGGTTATAACCGTGCAGCGCGTATTATCGAACAGATGG -AAGCGCAGGGGATTGTCAGCGAACAGGGGCACAACGGTAATCGTGAAGTGCTGGCCCCACCGCCGTTTGA -CTAACTAATGCATCGTATGCCGGATAAGGCGCGGTAGCGTCGCATCCGGCACTCTATCAACTGAAAATTC -AGTATTTTCTTCTTTCCTCAAGCTGATTATTAGCCTGGAATAGAGAGTAGAGGGAACTCCCGATCGGGAG -TGACGTAATTTGAGGAATAATGATGAAAAAAATTGCCATCACCTGTGCATTACTCTCAAGCTTAGTAGCA -AGCAGCGTTTGGGCTGATGCCGCAAGCGATCTGAAAAGCCGCCTGGATAAAGTCAGCAGCTTCCACGCCA -GCTTCACACAAAAAGTGACTGACGGTAGCGGCGCGGCGGTGCAGGAAGGTCAGGGCGATCTGTGGGTGAA -ACGTCCAAACTTATTCAACTGGCATATGACACAACCTGATGAAAGCATTCTGGTTTCTGACGGTAAAACA -CTGTGGTTCTATAACCCGTTCGTTGAGCAAGCTACGGCAACCTGGCTGAAAGATGCCACCGGTAATACGC -CGTTTATGCTGATTGCCCGCAACCAGTCCAGCGACTGGCAGCAGTACAATATCAAACAGAATGGCGATGA -CTTTGTCCTGACGCCGAAAGCCAGCAATGGCAATCTGAAGCAGTTCACCATTAACGTGGGACGTGATGGC -ACAATCCATCAGTTTAGCGCGGTGGAGCAGGACGATCAGCGCAGCAGTTATCAACTGAAATCCCAGCAAA -ATGGGGCTGTGGATGCAGCGAAATTTACCTTCACCCCGCCGCAAGGCGTCACGGTAGATGATCAACGTAA -GTAGAGGCACCTGAGTGAGCAATCTGTCGCTCGATTTTTCGGATAATACTTTTCAACCTCTGGCCGCGCG -TATGCGGCCAGAAAATTTAGCACAGTATATCGGCCAGCAACATTTGCTGGCTGCGGGGAAGCCGTTGCCG -CGCGCTATCGAAGCCGGGCATTTACATTCTATGATCCTCTGGGGGCCGCCGGGTACCGGCAAAACAACTC -TCGCTGAAGTGATTGCCCGCTATGCGAACGCTGATGTGGAACGTATTTCTGCCGTCACCTCTGGCGTGAA -AGAGATTCGCGAGGCGATCGAGCGCGCCCGGCAAAACCGCAATGCAGGTCGCCGCACTATTCTTTTTGTT -GACGAAGTTCACCGTTTCAACAAAAGCCAGCAGGATGCATTTCTGCCACATATTGAAGACGGCACCATCA -CTTTTATTGGCGCAACCACTGAAAACCCGTCGTTTGAGCTTAATTCGGCACTGCTTTCCCGTGCCCGTGT -CTATCTGTTGAAATCCCTGAGTACAGAGGATATTGAGCAAGTACTAACTCAGGCGATGGAAGACAAAACC -CGTGGCTATGGTGGTCAGGATATTGTTCTGCCAGATGAAACACGACGCGCCATTGCTGAACTGGTGAATG -GCGACGCGCGCCGGGCGTTAAATACGCTGGAAATGATGGCGGATATGGCCGAAGTCGATGATAGCGGTAA -GCGGGTCCTGAAGCCTGAATTACTGACCGAAATCGCCGGTGAACGTAGCGCCCGCTTTGATAACAAAGGC -GATCGCTTTTACGATCTGATTTCCGCACTGCATAAGTCGGTACGTGGTAGCGCACCCGATGCGGCGCTGT -ACTGGTATGCGCGAATTATTACCGCTGGTGGCGATCCGTTATATGTCGCGCGTCGCTGTCTGGCGATTGC -GTCTGAAGACGTCGGTAATGCCGATCCACGGGCGATGCAGGTGGCAATTGCGGCCTGGGATTGCTTTACT -CGCGTTGGCCCGGCGGAAGGTGAACGCGCCATTGCTCAGGCGATTGTTTACCTGGCCTGCGCGCCAAAAA -GCAACGCTGTCTACACTGCGTTTAAAGCCGCGCTGGCCGATGCTCGCGAACGCCCGGATTATGACGTGCC -GGTTCATTTGCGTAATGCGCCGACGAAATTAATGAAGGAAATGGGCTACGGGCAGGAATATCGTTACGCT -CATGATGAAGCAAACGCTTATGCTGCCGGTGAGGTTTACTTCCCGCCGGAAATAGCACAAACACGCTATT -ATTTCCCGACAAACAGGGGCCTTGAAGGCAAGATTGGCGAAAAGCTCGCCTGGCTGGCTGAACAGGATCA -AAATAGCCCCATAAAACGCTACCGTTAATGTTATCGTTGCGGTAATGTTGTTACTGTATCCCTGTGGTCG -CAGGCTGTGGCCACATCTCCCATTTAATTCGATAAGCACAGGATAAGCATGCTCGATCCCAATCTGCTGC -GTAATGAGCCAGACGCAGTCGCTGAAAAACTGGCACGCCGGGGCTTTAAGCTGGATGTAGATAAGCTGGG -CGCTCTTGAAGAGCGTCGTAAAGTATTGCAGGTCAAAACGGAAAACCTGCAAGCGGAGCGTAACTCCCGA -TCGAAATCCATTGGCCAGGCGAAAGCGCGCGGGGAAGATATCGAGCCTTTACGTCTGGAAGTGAACAAAC -TGGGCGAAGAGCTGGATGCAGCAAAAGCCGAGCTGGATGCTTTACAGGCTGAAATTCGCGATATCGCGCT -GACCATCCCTAACCTGCCTGCAGATGAAGTGCCGGTAGGTAAAGACGAAAATGACAACGTTGAAGTCAGC -CGCTGGGGTACCCCGCGTGAGTTTGACTTTGAAGTTCGTGACCACGTGACGCTGGGTGAAATGCACTCTG -GCCTCGACTTTGCAGCTGCAGTTAAGCTGACTGGTTCCCGCTTTGTGGTAATGAAAGGGCAGATTGCTCG -CATGCACCGCGCACTGTCGCAGTTTATGCTGGATCTGCATACCGAACAGCATGGCTACAGTGAGAACTAT -GTTCCGTACCTGGTTAACCAGGACACGCTGTACGGTACGGGTCAACTGCCGAAATTTGCTGGCGATCTGT -TCCATACTCGTCCGCTGGAAGAAGAAGCAGACACCAGTAACTATGCGCTGATCCCAACGGCAGAAGTTCC -GCTGACTAACCTGGTGCGCGGTGAAATCATCGATGAAGATGATCTGCCAATTAAGATGACCGCCCACACC -CCATGCTTCCGTTCTGAAGCCGGTTCATATGGTCGTGACACCCGTGGTCTGATCCGTATGCACCAGTTCG -ACAAAGTTGAAATGGTGCAGATCGTGCGCCCAGAAGACTCAATGGCGGCGCTGGAAGAGATGACTGGTCA -TGCAGAAAAAGTCCTGCAGTTGCTGGGCCTGCCGTACCGTAAAATCATCCTTTGCACTGGCGACATGGGC -TTTGGCGCTTGCAAAACTTACGACCTGGAAGTATGGATCCCGGCACAGAACACCTACCGTGAGATCTCTT -CCTGCTCCAACGTTTGGGATTTCCAGGCACGTCGTATGCAGGCACGTTGCCGCAGCAAGTCGGACAAGAA -AACCCGTCTGGTTCATACCCTGAACGGTTCTGGTCTGGCTGTTGGTCGTACGCTGGTTGCAGTAATGGAA -AACTATCAGCAGGCTGATGGTCGTATTGAAGTACCAGAAGTTCTGCGTCCGTATATGAACGGACTGGAAT -ATATTGGCTAATACCCAATTTTTCTGAATCTAAAAAGCGCCTGCGGGCGCTTTTTTTGTCTCCCTTTGAT -ACCGAACAATAATTACTCCTCACTTACACGTAATACTACTTTCGAGTGAAAATCTACCTATCTCTTTGAT -TTTCAAATTATTCGATGTATACAAGCCTATATAGCGAACTGCTATAGAAATAATTACACAATACGGTTTG -TTACTGGAATCAATCGTGAGCAAGCTTGAGTGAGCCATTATGAAAACGAAAATCCCTGATGCGGTATTGG -CTGCTGAGGTGAGTCGCCGTGGTTTGGTAAAAACGACAGCGATCGGCGGCCTGGCAATGGCCAGCAGCGC -ATTAACATTACCTTTTAGTCGGATTGCGCACGCTGTCGATAGCGCCATTCCAACAAAATCAGACGAAAAG -GTTATCTGGAGCGCCTGTACAGTTAACTGTGGTAGTCGCTGCCCGCTACGTATGCACGTCGTGGACGGTG -AAATCAAATATGTCGAAACGGACAATACCGGCGATGACAATTACGACGGCCTGCACCAGGTTCGCGCCTG -CCTGCGTGGGCGTTCCATGCGTCGCCGTGTCTACAATCCGGACCGCCTGAAATATCCGATGAAACGAGTC -GGGGCGCGCGGTGAAGGCAAATTCGAGCGCATTAGCTGGGAAGAAGCCTACGACATCATCGCGACCAATA -TGCAGCGCCTGATCAAAGAGTACGGCAACGAGTCTATCTATCTGAACTATGGCACCGGTACGCTGGGCGG -CACCATGACCCGCTCCTGGCCGCCGGGAAATACCCTGGTCGCGCGGCTGATGAACTGCTGCGGCGGCTAT -CTGAACCATTACGGCGACTACTCCTCCGCGCAAATTGCGGAAGGTTTGAACTATACCTACGGCGGCTGGG -CAGATGGCAACAGCCCGTCGGATATCGAAAACAGTAAGCTGGTAGTGCTGTTTGGTAATAACCCTGGCGA -AACGCGAATGAGTGGCGGTGGGGTGACTTACTATCTTGAACAGGCACGCCAGAAATCTAATGCCCGCATG -ATCATCATCGATCCGCGCTATACCGACACCGGTGCCGGGCGCGAAGATGAGTGGATCCCTATTCGTCCGG -GAACAGATGCCGCACTGGTTAACGGTCTGGCGTACGTCATGATCACTGAAAACCTGGTGGATCAGGCATT -CCTCGATAAATATTGCGTTGGCTACGATGAGAAAACCCTGCCAGCCAGTGCGCCGAAAAATGGCCACTAT -AAAGCTTATATTCTGGGTGAAGGGCCAGATGGCGTGGCTAAAACGCCGGAATGGGCCTCGCAAATCACTG -GTGTTCCGGCAGACAAAATCATCAAATTGGCTCGTGAAATCGGTAGTACCAAACCGGCGTTTATCAGCCA -GGGATGGGGCCCGCAGCGTCACGCTAACGGTGAAATCGCAACCCGTGCTATCTCGATGCTGGCGATTCTG -ACCGGTAACGTTGGTATTAACGGAGGCAACAGCGGCGCGCGTGAAGGTTCATACAGCTTACCGTTTGTCC -GTATGCCGACCTTGGAAAACCCGATCCAGACCAGCATTTCGATGTTTATGTGGACCGATGCCATTGAACG -TGGCCCGGAAATGACGGCGCTGCGTGATGGTGTACGCGGGAAAGATAAGCTGGATGTGCCGATCAAAATG -ATCTGGAACTATGCCGGTAACTGCCTGATTAACCAGCATTCTGAAATCAACCGTACCCATGAAATCCTTC -AGGATGATAAGAAGTGCGAGCTGATTGTGGTTATCGACTGCCACATGACCTCATCGGCGAAATATGCTGA -CATCCTGCTGCCTGACTGCACCGCTTCCGAACAGATGGACTTTGCGCTGGATGCATCCTGCGGGAATATG -TCTTACGTGATTTTCAACGATCAGGTGATTAAACCGCGCTTTGAATGTAAGACCATCTATGAAATGACCA -GCGAACTGGCAAAACGTCTTGGCGTTGAGCAACAGTTTACTGAAGGCCGTACCCAGGAAGAGTGGATGCG -GCATCTGTATGCCCAGTCGCGGGAAGCGATTCCTGAACTGCCAACGTTTGAAGAGTTCCGCAAGCAGGGG -ATCTTTAAAAAGCGCGACCCACAAGGGCATCACGTTGCTTATAAAGCCTTCCGTGAAGATCCGCAGGCAA -ACCCACTGACTACGCCATCGGGCAAAATTGAGATTTATTCGCAGGCGCTGGCTGACATTGCCGCTACCTG -GGAATTGCCTGAAGGCGATGTGATCGATCCACTGCCGATCTACACGCCGGGCTTTGAAAGTTATCAGGAT -CCGCTGAACAAACAGTATCCGCTGCAGCTTACAGGTTTCCACTATAAATCTCGCGTTCACTCAACTTACG -GCAACGTTGATGTGCTGAAAGCGGCTTGCCGTCAGGAAATGTGGATCAACCCGCTTGATGCCCAAAAACG -CGGTATCCACAACGGCGATAAAGTCAGGATCTTTAACGATCGTGGTGAGGTTCATATTGAGGCGAAAGTG -ACGCCACGAATGATGCCGGGTGTGGTCGCACTGGGTGAAGGTGCCTGGTATGACCCGGATGCAAAACGTG -TCGATAAGGGTGGTTGTATTAACGTACTGACCACTCAACGTCCGTCTCCTCTCGCTAAGGGGAATCCGTC -ACATACAAACCTTGTTCAGGTTGAAAAGGTGTAAGGAGTAACCGATGACAACCCAGTATGGATTTTTTAT -TGATTCCAGCCGTTGCACCGGTTGCAAAACCTGCGAGCTGGCCTGTAAAGACTACAAAGATTTGACGCCA -GAAGTCAGCTTCCGCCGCATTTATGAATATGCTGGCGGCGACTGGCAGGAAGATAACGGTGTCTGGCACC -AGAACGTGTTTGCCTACTATCTGTCGATTTCATGTAACCACTGCGAAGATCCGGCTTGTACTAAAGTCTG -CCCGAGCGGTGCGATGCATAAACGTGAAGATGGTTTTGTTGTGGTCGATGAAGATGTGTGCATTGGCTGC -CGCTACTGCCATATGGCTTGCCCGTATGGCGCACCGCAATATAACGAAACGAAAGGCCATATGACCAAAT -GCGATGGTTGTTATGACCGTGTTGCGGAGGGTAAAAAGCCGATCTGTGTTGAATCTTGTCCGCTGCGGGC -GCTGGATTTCGGCCCTATCGACGAGCTGCGTAAAAAACATGGCGATCTGGCGGCCGTTGCGCCGTTGCCG -CGAGCTCACTTTACCAAACCGAATATTGTGATCAAACCCAATGCCAATAGCCGCCCGACCGGGGATACCA -CTGGCTATCTGGCAAACCCGAAGGAGGTGTGAGATGGGAAGTGGATGGCATGAATGGCCGCTGATGATCT -TCACGGTCTTCGGGCAATGTGTAGCAGGTGGTTTTATCGTTCTGGCTTTGGCGCTGCTCAAAGGCGACCT -GCGAGCAGAAGCCCAGCAGCGTGTTATCGCCTGCATGTTTGGTTTATGGGTGCTGATGGGCATTGGCTTT -ATCGCCTCTATGCTCCATCTTGGTTCACCAATGCGCGCTTTTAACTCGCTCAACCGGGTAGGGGCTTCAG -CACTCAGTAACGAAATCGCCAGCGGTTCGATCTTTTTTGCCGTAGGCGGCATCGGCTGGTTGCTGGCAAT -GCTGAAAAAGCTGTCACCGGCATTGCGTACGCTGTGGCTGATAGTGACGATGGTTCTTGGCGTCATCTTT -GTCTGGATGATGGTGCGTGTGTATAACAGCATTGATACCGTTCCGACCTGGTACAGCATCTGGACGCCGA -TGGGCTTCTTCCTGACGATGTTTATGGGCGGCCCGTTACTGGGTTACCTGTTGTTGAGTCTGGCTGGCGT -CGATGGCTGGGCGATGCGTCTGCTGCCAGCAATTTCTGTACTGGCACTGGTAGTGAGTGGCGTGGTGTCA -GTGATGCAGGGCGCAGAGCTGGCGACTATTCATAGTTCTGTGCAGCAGGCCGCAGCGCTGGTGCCGGACT -ATGGTGCGCTGATGTCCTGGCGGATCGTGCTTTTGGCCGTTGCCCTGTGCTTGTGGATTGCACCACAGCT -AAAAGGTTATCAGCCTGCGGTTCCGCTACTTTCTGTATCATTCATTCTGCTTCTGGCAGGGGAATTAATC -GGTCGCGGCGTATTCTATGGTTTGCATATGACCGTGGGGATGGCCGTCGCAAGCTAATCATAACAACCGG -GGTTTCGGCCCCGGTTCTCTTTTATTTCTGCTTCGTTAACGTGTCATAACTGGTCATCAAATTACGATAA -TCAGGAATGTGGTTAGAGAACAACGTCGCCAGTCCTTCAATATCATTACGCCAGTCGCGATGCAGCTCGC -ACGCCACGCCGAACCATGTCATCAATTGCGCACCAGCTTGCGACAAGCGATCCCATGCCGAATGCCGGGT -AATTTCATTAAAGGTCCCTGACGCGTCAGTCACGACAAAGACGTCAAACCCTTCTTCAATGGCTGAAAGC -GCCGGGAATGCCACGCAAACTTCGGTTACCACACCGGCAATAATTAACTGTTTTTTACCTGTCGCTTTGA -CAGCTTTTACAAAATCTTCGTTATCCCAGGCGTTAATATTTCCCGGGCGAGCAATGTAAGGTGTATCGGG -GAATTGTGCTTTCAGTTCTGGAACTAATGGGCCGTTAGGACCGGTTTCAAAACTGGTGGTAAGAATAGTT -GGTAAGTTGAAATACTTAGCCAGGTCACCCAGCGCCAGCACGTTATTTTTAAACTTATCGGGTTCGATAT -CCCGTACAAGGGAAAGTAAACCAGCCTGGTGATCAACAAGCAAAACGGCAGCATCATTTTTATCAAGACG -AACATACGGTTTGGTCATCCTCTTCTCCTTTCGAGAGTCAGTGGTACGTCTGAAATCGATCAGACGCGAT -GCATTGCTCTGAAAGCATAGACGGGAAATATGAGTTTGCTGTGACCATGAAATTTTTCGACTGAACGAAG -CGTATGAAATTTGTGTTAGTTCAATAAAAACAATCAGATGAGACTAATCATCTCTTCAGCATTAGCGTTA -TGAATGAGTAATATAAATCGATAATACCGCCGCTGGGATATCGCGTATTTTCACCCATTGACAATGTTTT -TGGCGGTGGCATGATGCGCATGAAATTTGAACTTCCTCACGGTTTTAATTCATGTCCACGTATACCCAGC -CTGTCATGCTTTTGCTGTCTGGCCTGCTTTTGTTGACTCTGGCGATTGCGGTGTTAAATACACTCGTGCC -GCTTTGGCTCGCCCAGGAACACATGTCCACATGGCAGGTAGGCGTTGTCAGCTCATCCTATTTTACCGGC -AACCTTGTCGGTACATTGCTGACAGGGTATGTCATTAAGCGCATTGGCTTTAACCGCAGCTATTATCTGG -CCTCCTTCATTTTTGCCGCTGGCTGTGCCGGCCTTGGCCTGATGATTGGATTCTGGAGCTGGTTGGCTTG -GCGTTTTGTCGCGGGCGTCGGCTGTGCCATGATTTGGGTGGTTGTTGAGAGCGCGCTGATGTGCAGTGGG -ACGTCACGTAACCGTGGGCGTTTGCTTGCTGCGTATATGATGGTTTATTACGTGGGAACGTTTTTAGGCC -AGTTACTGGTCAGCAAAGTTTCAACCGAGCTGATGTCCGTATTGCCGTGGGTTACAGGTTTGACGTTGGC -AGGGATCTTACCGCTGTTGTTTACGCGTGTGCTGAATCAGCAGGCTGAAAACCATGATTCGACGTCAATT -ACGTCAATGCTAAAACTCCGTCAGGCGCGGCTTGGCGTGAATGGCTGCATTATCTCAGGAATCGTTCTGG -GATCTCTATATGGCCTGATGCCGCTGTACCTCAATCACAAAGGGGTGAGCAATGCCAGCATTGGTTTCTG -GATGGCGGTACTGGTCAGTGCGGGTATCCTTGGACAATGGCCGATTGGACGTCTGGCGGATAAGTTTGGT -CGACTGCTGGTGTTGCGTGTTCAGGTCTTTGTCGTCATTCTCGGCAGTATCGCGATGCTTAGCCAGGCGG -CGATGGCCCCAGCGTTATTCATCCTCGGTGCCGCTGGCTTTACGCTATATCCGGTGGCGATGGCATGGGC -TTGCGAGAAAGTTGAACATCATCAACTGGTGGCGATGAACCAGGCCTTACTGTTGAGCTATACTGTGGGA -AGTCTGCTTGGCCCGTCATTTACCGCTATGCTAATGCAGAATTTCTCCGATAATTTATTGTTTATCATGA -TCGCCAGCGTATCGTTTATCTATTTGCTGATGCTGCTGCGCAACGCCGGTCATACGCCGAAACCCGTTGC -TCACGTGTAAATGAATTCAAGCAGAGTGTGAACTTACTGTTTCACACTCTGCTTTTTTGTTTCTTCTATC -TGACTTGCTTTATTCCAAATTTTATTCGTTTAAAAATAAAATGTGCAGCAGGTTATAATTTTGCATTTCG -CTATTTCCGCACTTCTTATTTGCCGCGCATAATCCCTCGTTTTACCGATGCCCCTTTAATTTTGGCGAAG -GATTTGTCTATGGCTGGGAATGTTCAGGAAAAACAGTTGCGATGGTACAACATTGCGCTGATGTCTTTTA -TCACTGTCTGGGGTTTTGGCAACGTTGTTAATAACTATGCCAACCAGGGGCTGGTGGTTGTTTTTTCATG -GGTGTTTATCTTTGCACTCTATTTCACACCTTATGCGCTAATTGTTGGTCAGTTAGGCTCGACCTTCAAA -GATGGGAAGGGCGGGGTCAGTACCTGGATTAAACACACGATGGGACCCGGACTGGCTTATCTCGCCGCGT -GGACCTACTGGGTGGTGCATATTCCCTATCTGGCACAAAAACCCCAGGCAATTCTGATTGCGCTCGGTTG -GGCGATGAAAGGCGACGGTTCGCTAATCAAAGAATATTCAGTCGTAGCGTTACAGGGGTTAACGCTGGTG -CTGTTTATCTTCTTTATGTGGGTTGCTTCACGCGGTATGAAATCGCTGAAAATCGTCGGTTCTGTGGCAG -GGATTGCTATGTTTGTTATGTCACTCCTGTATGTGGCGATGGCGGTAACCGCGCCTGCAATTACTGAAGT -GCATATTGCGACCACAAACATTACCTGGGAAACGTTCATTCCTCATATCGACTTTACCTACATTACCACT -ATTTCAATGCTGGTTTTCGCGGTTGGCGGAGCAGAGAAGATTTCTCCTTACGTTAATCAAACGCGCAACC -CAGGAAAAGAATTTCCAAAAGGGATGTTATGCCTGGCGGTGATGGTTGCGGTTTGTGCCATTCTGGGCTC -GCTGGCGATGGGGATGATGTTTGATTCGCGTAATATCCCGGATGACTTAATGACCAACGGTCAGTATTAC -GCCTTTCAGAAGCTGGGCGAGTATTACAACATGGGTAATACTTTAATGGTGATTTACGCCATTGCGAATA -CCCTGGGACAAGTAGCGGCGCTGGTATTCTCGATTGATGCCCCGCTTAAAGTGCTATTAGGTGATGCTGA -CAGCAAATATATTCCAGCCAGTTTATGTCGTACCAACGCTTCTGGTACGCCCGTTAATGGCTATTTTCTG -ACCCTGGTACTGGTGGCGATTCTGATTATGCTGCCGACTCTCGGCATTGGTGATATGAACAATCTCTATA -AATGGCTGTTGAACCTTAATTCGGTAGTGATGCCGCTGCGTTATTTATGGGTATTTGTTGCATTTATTGC -AGTCGTTCGCTTGGCGCAGAAATATAAACCAGAATATGTCTTTATTCGTAATAAGCCTCTGGCAATGACC -GTCGGGATTTGGTGTTTTGCCTTTACCGCCTTTGCCTGTTTGACGGGGATCTTCCCGAAAATGGAAGCCT -TCACTGCAGAGTGGACCTTCCAGTTGGCGCTGAATGTTGCAACGCCGTTTGTGCTGGTAGGATTAGGACT -GATATTCCCGCTGCTGGCGCGTAAAGCGAATAGTAAATAATTATTGTGGTCGGTGACGCTGACTCTGGCA -GATCTGACCCGTTTTTACATAATCGAGAAATGCGCGCAAGCCGCAGGACATATACTGGCGGTTTGGATAA -TAGATCTGGAAGCCTGGACGCTCTGTGCTCCAGTCTTCCAGTACACATTCTAAACGACCAGTATCAAGGT -ACTCCTTGATCTGTTCATAGAGCAGATACCCGATACCAGCACCCATCAAAACGGCCTCCAGTTCAGCATC -AACATCATCCAGAATGATATTTCCTGCGACAGCAATTTCCAGCTCCTTTGCAAATTGCCAGTGGAAAGGT -TTGCCGCTGGGATAACGAAAAACAACACATTGATGATTAAGCAGATCATGAGGATGGCGGGGTTTGCCAT -ATCTTGCAAAGTACTCTGGCGTTGCTGCTACACATAATTTCACTGGCGGGCCGATCGCCACGCTGATCAT -ATCTTTTTCGACGATGCAACTAAGTCGAACGCCAGCGTCAAAGCCCTGTTGGACGATATCGACAAGAGAG -TCGTCAGTTGTGAGCTCGACTTTAATATCAGGATATTCACGTGTGAAACCAACCAGTAAAGACATTAAAA -ATATACGTGCAGCTACCCGGGCGGCATTGATTTTGAGCGTTCCTGTCGGTGTCAGACGAAAATCATTCAT -CTCATCTAACATGATCTGAATTTCGTCGAAAGCTGGGCGCAATCGTTCATAGAGATTAGAACCCGCTTCC -GTTAACGATACGCTTCGGGTTGTCCGATTGAATAAGCGAATTTTAAGACGTTGTTCCAGTGTTTTAATAC -TATGGCTAATGGCGGACGAGGATAAGCCTAACTCATCGCCCGCTGCACGAAAGCTTTGATTACGGGCCAC -GGCAAAGAAAGTGGCAAAGTCAGACATATTCATCCGCATTAGTGAAAATCCTTCATTAACTCATCCTGAA -TCATCACGTTTACAGGATTATGCCGCCTGCGTAAAGTGCGCTCCAGAACTTAACGTGGAGGTAAAATTAT -GCAGTCTGAACGTATTTATTTGGTATGGGCCCATCCTCGTCATGATTCATTGACCGCACATATTGCTGAT -GCGATCCATCAGCGGGCAATGGAGCGGAAAATACAGGTGACGGAACTCGATTTATATCGGCGTAATTTCA -ACCCAGTGATGACGCCGGAAGATGAACCAGACTGGAAGAATATGGATAAACGTTATTCTCCAGAGGTTCA -TCAGCTTTATTCAGAGCTGCTTGAACATGACACGTTAGTGGTGGTTTTTCCTCTCTGGTGGTACAGCTTC -CCGGCAATGCTAAAAGGATATATTGACAGAGTATGGAATAATGGGCTGGCTTATGGAGATGGGCACAAAT -TACCATTCAATAAAGTTCGTTGGGTGGCGCTGGTTGGAGGAGACAAAGAATCATTTGTCCAGATGGGCTG -GGAAAAAAATATAAGCGATTATTTAAAAAATATGTGCAGTTATCTTGGTATTGAAGATGCCGATGTCACT -TTCTTGTGTAATACAGTGGTATTCGATGGGGAAGAACTTCACGCGAGCTATTATCAGTCGTTATTATCTC -AGGTACGGGATATGGTAGATGCACTATAAGATGTGTTAAAAACGCTGTAGCAGAATGAAGCGCGGAATAA -AAAAGCGGCAACTCAATAAAGTTGCCGCTTTACGGGGAAATTAGAACATTACCTTATGACCGTACTGCTC -AAGAATGCCTTTCACGCGTTCCATGGTCTCTTTCTTCGGTGGTTTAACACCGTCGAGTTTGTACTCTTCA -CCCATTGCCACCCATTTGTGTTTGCCCAGCTCGTGGTAGGGGAGAAGCTCGATTTTCTCAACGTTGCCCA -TATCACGGGTAAATTCACCGAGGCGATGCGCTGAATCGTCATCGTCAGACCAGCCTGGGACAACAACGTA -GCGGATCCACACCTTCACATTTTTGTTCGCCAGATATTTAGCGAACTCCAGCGTGCGGTGGTTGGAAACT -CCAACCAGATTTTGGTGGATCTCGTCGTTCATCTGTTTGAGATCGAGCATTACCAGGTCGGTTACTTCCA -GCAGTTCATCAATCACCGGATCGTAACGACGAACAAAACCGTTGGTGTCCAGACAGGTATGAATGCCTTC -TTTTTTGCAGGCGCGGAACCAGTCACGAACAAACTCAGCTTGCAGGATTGCTTCACCGCCGGATGCGGTA -ACGCCGCCGCCGGAAGCGTTCATAAAGTGGCGATAGGTCACCACTTCCTTCATCAAATCTTCAACGGTAA -CTTCTTTACCGCCATGCGTGTCCCAGGTGTCGCGGTTATGACAATACAGGCAGCGCATCAGGCAGCCCTG -GAAAAAGGTGATAAAGCGAATACCTGGGCCGTCTACGGTTCCACAGGATTCAAAGGAGTGAATGCGACCA -ATAACTGACATTGCGGTGTTTCTCCAGATGTGGCCCATCTGAGGCCGTGTTGGTGCGCAGCTCGAAGGCT -ACGTCGAGTCTGTTTTGGCAGTCACCTTAAAGTATAGATAGCTGACAAAAAAGGCTCTCGCGCTAAAAAA -GGCCCCACTTTCGTGGAGCCTTTATTGTACGCTTTTTACTGTACGATTTCAGTCAAATCTAATTACATAG -ATTGAGTGAAGGTACGAGTAATAACGTCCTGCTGCTGTTCTTTAGTCAGCGAGTTGAAACGTACTGCGTA -GCCAGATACACGGATGGTCAGCTGCGGATATTTTTCCGGGTTTTCCATCGCGTCGAGCAGCATTTCACGG -TTCATCACGTTAACGTTCAGGTGCTGACCACCTTCGATGGATGCTTCGTGGTGGAAGTAACCATCCATCA -GACCAGCCAGGTTGGTCTTACGAACTTCGTCGTCTTTACCCAGTGCGTTCGGAACGATAGAGAAGGTGTA -GGAGATACCATCTTTAGCGTAAGCAAACGGCAGTTTAGCAACGGAAGTCAGAGAGGCTACTGCACCTTTC -TGGTCACGACCGTGCATCGGGTTAGCACCCGGTCCGAACGGCGCGCCAGCACGACGACCGTCTGGGGTGT -TACCCGTTTTCTTACCATACACAACGTTAGAAGTGATGGTCAGAACAGACTGAGTCGGGATAGCGTCACG -GTAGGTGTGCAGTTTCTGAATTTTCTTCATGAAACGTTCTACCAGGTCAACAGCCAGGTCATCTACACGC -GGATCATTGTTACCAAACTGCGGGTATTCGCCTTCGATTTCGAAGTCGATAGCCAGACCGTCTTCGTCAC -GAATCGGTTTAACTTTCGCATATTTGATTGCAGACAGGGAGTCAGCAGCAACGGACAGACCAGCGATACC -ACACGCCATGGTGCGGATAACGTCACGGTCGTGCAGCGCCATCAGAGAGGCTTCGTAGCTGTACTTGTCG -TGCATGTAGTGGATGATGTTCAGTGCAGTGATGTACTGTTTAGCCAGCCAGTCCATGAAGTGATCCATGC -GCTCCATCACTTCATCATAGTTCAGGACATCGCCTTTGATCGGTTCAGACTTCGGACCAACCTGCATTTT -CAGTTTTTCGTCAACGCCGCCGTTGATTGCGTACAGCATGGTTTTCGCCAGGTTTGCACGCGCACCGAAG -AACTGCATTTGTTTACCAACGATCATCGGGCTTACGCAGCAAGCAATAGCGTAGTCATCGTTGTTGAAGT -CCGGACGCATCAGGTCATCGTTCTCATACTGCAGAGAAGAGGTGTCGATGGACACTTTAGCGGCGAATTT -CTTGAAGTTCAGCGGCAGTTTTTCAGACCACAGAATGGTCATGTTCGGTTCCGGAGACGGACCCATGGTG -TACAGGGTGTTCAGGAAACGGAAGCTGTTTTTGGTAACCAGGGTACGACCGTCGAGGCCCATACCACCGA -TAGATTCGGTTGCCCAGATCGGGTCGCCAGAGAACAGTTCATCGTATTCCGGAGTACGCAGGAAGCGAAC -CATACGCAGTTTCATGACCAGGTGGTCAACCATTTCCTGCGCTTCTTGTTCGGTGATCTTGCCAGCTTTC -AGGTCACGTTCGATGTACACATCCAGGAAGGTGGAGGTACGACCGAAGGACATTGCAGCACCGTTCTGAG -ACTTAACAGCAGCCAGGTAGCCGAAGTAAGTCCACTGGATAGCTTCCTGAGCGTTGGTAGCCGGACCAGA -GATGTCGTAGCCGTATTTCGCAGCCATTTCTTTCATCTGACCCAGAGCGCGGTGCTGTTCAGCGATTTCT -TCGCGCAGACGGATAGTCTGTTCCAGGTTTACGCCGTTTTCCAGATCAGCCTGCAGAGAAGTGAACTGTG -CCAGTTTGTCTTTCATCAGGTAGTCGATACCGTACAGCGCAACGCGACGGTAGTCACCGATGATACGGCC -ACGGCCATATGCATCTGGCAGACCGGTCAGAACACCAGATTTACGGCAACGCAGGATGTCCGGAGTGTAA -ACGTCGAACACGCCCTGGTTGTGAGTTTTACGGTATTCAGTGAAGATTTTTTTGATCATCGGATCCAGTT -CGCGGTTGTACGCTTTGCAGGAACCTTCGATCATTTTGATACCACCGAACGGGATAAGAGCACGTTTCAG -CGGAGCTTCAGTCTGCAGACCAACGATTTTCTCAAGCTGCTTGTTGATGTAGCCAGCGTCGTGAGAGGTG -ATGGTGGAAGCAACAGCGGTGTCAAAGTCAACTGGCGCGTGAGTGCGGTTTTCCAGTTTAACGCCTTCCA -TTACTTTGTCCCACAGGGTGGTGGTCGCTTCAGTAGCGCCAGCCAGGAAGGACTCGTCACCCTCGTACGG -AGTGTAGTTTTTCTGAATGAAGTCACGGACGTTTACTTCATTCTGCCAGTCACCTTTGGTAAAACCTTCC -CAGGCTGTGGCTAACTTTTCATTAAGCTCGGACATGTAACACCTACCTTCTTAAGTGGATTTTTTATTTA -CTGCGTACTTCGACAACCATTAATGGTGGTCGTTTTCACGCAGGTAAATGACCCAGTATGTCAACCCAAC -CAACAAACCACCACCGATAATGTTGCCGATCGTAACCGGAATCAGGTTATCAGTGATGAAATTCATCACG -GTCAGGTGAGAAAAATTTTCCGGTGCAGAACCGACTGCGGTCCAAAATTCCGGGGATGCGAAGTCGCGGA -TTACAATACCCATCGGGATCATAAACATGTTTGCGATACTGTGCTCAAAACCGCTGGCAACAAACATCGC -GACCGGCAGCACCATAATGAACGCTTTGTCCATCAGGCTGCGGCCAGAATAACTCATCCATACTGCCAGA -CATACCATCAGGTTTGCCAGGATACCAAGACAGACGGCCTCAATAAAAGTATGGTGCACTTTGTGGTCGG -CGGTTTGTAGGACGTTTAGTCCCCATTGACCATTTGCGGTCATATACTCGCCGGAAAGCCACATTAAAAG -TACAAACAGCAGTGCGCCGACCAGGTTGCCAAAATAGACATTTAGCCAGTTTTTCGCCAACTGACCCCAG -GTGATGCGCCCACTCGCCTTAGCAACAACAATCAACACGGTGGAAGTAAAGAGATCGGCTCCGCAGACAA -CACAAAGAATCAGCCCCAGAGAGAAGCAAATGCCGCCAACCAGTTTTGCCATGCCGAAGGGCATTGTGCC -TGTGCCAGTGGTTGCTGTGATATAGAAGACGAATGCGATTGAGATGAAAACACCGGCGGTAATCGCCAGA -TAGAAAGTCTTAAGCGGATGTTTCGTTGCTTTATAGACACCCGCCTCTTCGGCCACTTTGGCCATTGCAG -CAGGAAGTAAAAGATCAAAAGGGTTGTCAGCTTTCACACTAACTCTCTCTTTATTAAGTCGGCGACGAGA -TACTAACAAAGCATTATAGATGAGAAATTGATATAGATCATATCTCGCCTGGCTTATAGGCCCGTAACTC -GCATGGTTTTTATGCAAATACGGAGTAAATATTTGATTATCCAAATAAAAATAAATTTTAAAAATTAACA -AATGAGTTGAATTTTTTCCGCATCCTCCGCTAAAACAGTTAATTAAAAGGGAGCATCAGGCGAATAAAGT -AACAATATCGATCGTATTTATTAAATACAAATTACCGATATTTAACCTTATAATTACAATTATTTTATTA -ATGCAAATATATGTAAAGCGGGGCATTAAAAAAACGCCCCGTAATATAACTCAGACTAATCATTAAGCCT -ACATTGCGTAGGCTATTTGATTTTATTTTGCCCAGAATGCTGCTTTGGCGCGCTGCAGCTTTTCGTAGGC -CTTCAACAACGACTGATGTGCAGCAAACGCGTGCAGATCGCTATCTACCGGTTGCAGGCCGTAAAACGCC -GCTTCGCCGCTCATTGCCGCACTGGCGGCTTCTACGGCATCTGCGCCGTACATGCGAACAAACGCATTCA -GATATTGCAGCGGCTGGCGATCTTCTTCCTGTGCCAGTAATAACAACGTTTGCAGGCAGCGATAATAGTT -GGCGCGTTCCGGACTAAATACTGATGAGTTAAACTCCATCGTCCATTCGGTCCAGACCAGAGCCTGTTCC -AGATCGCCACCAGCCAGCGCCAGCATGGCTTTTAATTCACCGATACGCAGGGTGTACCAACCGTTATCCG -ACCCGGTCGCCAGACCCAACAGCTCACGCACGCGGGTAAAGTCATCAAAACCTTCTTCATCCAGTTGCTC -GATGAGGTTCAGGTAATCTTCTTTTTCCCACTCGCTGCCTGGTAGCGAAAGAATCGTTTCACGTAAATGG -CTGCCCATACTGTTATTCGCGAGCCACAGATCTTCAGCCGGATAAATATCGGACATGCCAGGCACGATAA -TACGGCAAGCATAAACGCCCAGATGCTCGTAATCGGCAATATAAACTTCTTTATCTTCTTTGTTGAAGAT -AGCCATCAGTGTGGCGAACTCTTCTTCCGTGGTGCCGGAGAAATTCCAGTCCACAAACGGATAATCGGCA -TCCTGCTTGAACAGGTCCCAGGAGATTAAACCGCTGGAATCGATAAAGTGCGTTTCGAGGTTGGTATGTT -CAGCGACTTCTTCATCATCGAAGGTTGGCGGAGTAAACACATCCAAATCTTTCAGGCCACGACCTTGCAG -CAGCTCGGTCACGGTACGTTCCAGTGCTACGCCAAAATCAGGATGCGCACCGAAAGAGGCAAAGCAGGTA -CCGTTAGCAGGATTGAACAGTACCACGCAAATCACCGGATACTGGCCGCCAAGCGAACCGTCATAAGCGA -AGATTGGGAAACCCTCCGCTTCCAGCGTTTCGATGGCTTCAACTACTGCTGGGTAACGCGCCAGCACGTC -TGCCGGGATCTCTGGCAGGCTGATGCTTTCAGCAATAATGCGGTTTTTCACGTAGCGTTCGAAAACTTCA -GACAATCCCTGAACGCGTGCTTCGTTGCGGGTATTACCTGCGGACATACCGTTGGAGACGTACAGGTTAC -CAATGATATTCATCGGAATATAAACGGTCTGATTGTCGGACTGACGCGTAAACGGCAGGCCGCAAATACC -ACGATCTTCGTTACCGGATTGTAGGTCAATCAGCATGCTGCCGGTCAGTTCATTCTCCGGATCATAAAAC -GCGCGCAGACGGTCATCGAGCAGCCCTTCTGGCACATCGTCATTTTCGGTCAGTGGGAACCATTTTTCGT -TGGGATAATGCACGAACGGACCGTTGGCGATGGTTTCGCCCAGCCAGAAGTCCGCAAAAAAGTAGTTGGT -TGAGAGACGCTCGAAATATTCACCGAGTGCAGAAGCCAGCGCCGCTTTCTTGGTTGCGCCTTTACCGTTG -GTAAAACACAGTGCGCACTCTTTGTCGCGAATATGTACAGACCAGACGTTAGGCACGGGATTCAGCCAGG -AGGCCTCTTCAATCTGAAAGCCGAGGTCTGAAAGTTTTTGCTGGAAGCGAGCGATGGAATCTTCCAGAGC -GGCATCTTTGCCGGGGATAAATGTTTGCGTCATGAAAATCACTTTAGTCGTACGGAAAGCGCGCAATAAT -ACGGGTTTTATCTCAAAGGCGCTATCACCGCCGCCATGCCGATGAACTGTTGACTATGCTTTTAGCGGAT -AAACCACGTTAAGAGCATAAAAATGAAGGCGTTCGATCTCCACCGTATGGCATTTGATAAAGTGCCTTTT -GATTTCCTTGGCGAAGTTGCACTACGTAGTCTTTATACCTTTGTACTGGTCTTTTTGTTCCTCAAAATGA -CCGGAAGACGCGGTGTGCGGCAGATGTCGCTGTTTGAAGTTTTAATCATTCTGACGCTGGGATCAGCGGC -GGGAGATGTGGCGTTTTATGATGATGTGCCGATGGTCCCGGTACTTATCGTCTTTATTACTCTGGCGTTG -TTATACCGCCTGGTAATGTGGTTGATGGCGCACAGTGAAAAACTGGAAGATCTTCTGGAAGGCAAGCCAG -TTGTCATTATTGAAGATGGCGAGCTGGCCTGGTCGAAACTCAATAACTCCAACATGACGGAATTTGAGTT -CTTTATGGAGCTACGATTGCGTGGCGTGGAGCAGCTGGGGCAGGTACGTCTGGCGATTCTCGAAACCAAC -GGGCAAATCAGTGTCTATTTCTTTGAAGATGACAAGGTGAAACCGGGTTTACTTATTTTACCCAGTGATT -GTACGCAGCGTTACAAAGTGGTGCCGGAGTCGGCGGACTATGCCTGTATTCGTTGTAGTGAAATCATTCA -TATGAAAGCGGGGGAAAAACAATTATGTCCGCGCTGTGCAAATCCAGAATGGACGAAGGCAAGTCGGGCA -AAACGGGTGACCTGACAGTAAAAACATCGGCTTTTTGCTAATAATCCGAGAGATTCTTTTGTGTGATGCA -AGCCACATTTTTGCCCTCAACGGTTTTACTCATTGCGATGTGTGTCACTGAATGATAAAACCGATAGCCA -CAGGAATAATGTATTACCTGTGGTCGCAATCGATTGACCGCGGGTTAATAGCAACGCAACGTGGTGAGGG -GAAATGGCTCAAATCTTCAATTTTAGTTCTGGTCCGGCAATGCTACCGGCAGAGGTGCTTAAACAGGCTC -AACAGGAACTGCGCGACTGGAACGGTCTTGGTACGTCGGTGATGGAAGTGAGTCACCGTGGCAAAGAGTT -CATTCAGGTTGCAGAGGAAGCCGAGAAGGATTTTCGCGATCTTCTTAATGTCCCCTCCAACTACAAGGTA -TTATTCTGCCATGGCGGTGGTCGCGGTCAGTTTGCTGCGGTACCGCTGAATATTCTCGGTGATAAAACCA -CCGCAGATTATGTTGATGCCGGTTACTGGGCGGCAAGTGCCATTAAAGAAGCGAAAAAATACTGCACGCC -TAATGTCTTTGACGCCAAAGTGACTGTTGATGGTCTGCGCGCGGTTAAGCCAATGCGTGAATGGCAACTC -TCTGATAATGCTGCTTATATGCATTATTGCCCGAATGAAACCATCGATGGTATCGCCATCGACGAAACGC -CAGACTTCGGCGCAGATGTGGTGGTCGCCGCTGACTTCTCTTCAACCATTCTTTCCCGTCCGATTGACGT -CAGCCGTTATGGTGTAATTTACGCTGGCGCGCAGAAAAATATCGGCCCGGCTGGCCTGACAATCGTCATC -GTTCGTGAAGATTTGCTGGGCAAAGCGAATATCGCGTGTCCGTCGATTCTGGATTATTCCATCCTCAACG -ATAACGGCTCCATGTTTAACACGCCGCCGACATTTGCCTGGTATCTATCTGGTCTGGTCTTTAAATGGCT -GAAAGCGAACGGCGGTGTAGCTGAAATGGATAAAATCAATCAGCAAAAAGCAGAACTGCTATATGGGGTG -ATTGATAACAGCGATTTCTACCGCAATGACGTGGCGAAAGCTAACCGTTCGCGGATGAACGTGCCGTTCC -AGTTGGCGGACAGTGCGCTTGACAAATTGTTCCTTGAAGAGTCTTTTGCTGCTGGCCTTCATGCACTGAA -AGGTCACCGTGTGGTCGGCGGAATGCGCGCTTCTATTTATAACGCCATGCCGCTGGAAGGCGTTAAAGCG -CTGACAGACTTCATGGTTGAGTTCGAACGCCGTCACGGTTAATGCCGAAATTTTGCTTAATCCCCACAGC -CAGCCTGTGGGGTTTTTATTTCTGTTGTAGAGAGTTGAGTTCATGGAATCCCTGACGTTACAACCCATCG -CTCGTGTCGATGGCACTATTAATCTGCCCGGTTCCAAGAGCGTTTCTAACCGCGCTTTATTGCTGGCGGC -ATTAGCACACGGCAAAACAGTATTAACCAATCTGCTGGATAGCGATGACGTGCGCCATATGCTGAATGCA -TTAACAGCGTTAGGGGTAAGCTATACGCTTTCAGCCGATCGTACGCGTTGCGAAATTATCGGTAACGGCG -GTCCATTACACGCAGAAGGTGCCCTGGAGTTGTTCCTCGGTAACGCCGGAACGGCAATGCGTCCGCTGGC -GGCAGCTCTTTGTCTGGGTAGCAATGATATTGTGCTGACCGGTGAGCCGCGTATGAAAGAACGCCCGATT -GGTCATCTGGTGGATGCGCTGCGCCTGGGCGGGGCGAAGATCACTTACCTGGAACAAGAAAATTATCCGC -CGTTGCGTTTACAGGGCGGCTTTACTGGCGGCAACGTTGACGTTGATGGCTCCGTTTCCAGCCAATTCCT -CACCGCACTGTTAATGACTGCGCCTCTTGCGCCGGAAGATACGGTGATTCGTATTAAAGGCGATCTGGTT -TCTAAACCTTATATCGACATCACACTCAATCTGATGAAGACGTTTGGTGTTGAAATTGAAAATCAGCACT -ATCAACAATTTGTCGTAAAAGGCGGGCAGTCTTATCAGTCTCCGGGTACTTATTTGGTCGAAGGCGATGC -ATCTTCGGCTTCTTACTTTCTGGCAGCAGCAGCAATCAAAGGCGGCACTGTAAAAGTGACCGGTATTGGA -CGTAACAGTATGCAGGGTGATATTCGCTTTGCTGATGTGCTGGAAAAAATGGGCGCGACCATTTGCTGGG -GCGATGATTATATTTCCTGCACGCGTGGTGAACTGAACGCTATTGATATGGATATGAACCATATTCCTGA -TGCGGCGATGACCATTGCCACGGCGGCGTTATTTGCAAAAGGCACCACCACGCTGCGCAATATCTATAAC -TGGCGTGTTAAAGAGACCGATCGCCTGTTTGCGATGGCAACAGAACTGCGTAAAGTCGGCGCGGAAGTGG -AAGAGGGGCACGATTACATTCGTATCACTCCTCCGGAAAAACTGAACTTTGCCGAGATCGCGACATACAA -TGATCACCGGATGGCGATGTGTTTCTCGCTGGTGGCGTTGTCAGATACACCAGTGACGATTCTTGATCCC -AAATGCACGGCCAAAACATTTCCGGATTATTTCGAGCAGCTGGCGCGGATTAGCCAGGCAGCCTGAATGA -ACAACGGGCAATAAATAGCCAAATCTTTCTTTATCAAAACGTCGGCACATTGTCGGCGTTTTTTTTCGGA -CCTTGTGAGTCATTTTGATTAATGGTAGCGTCGCTTGTCAATGTAAGTTGTTGATACATAATATTTATAT -ATGATTAATCAACGGATGATTCACATGAAGAATACTAAATTACTGCTGGCGATTGCGACCTCTGCAGCAT -TACTGACAGGGTGTCAAAATACCCACGGTATTGATACCAATATGGCTATCAGCTCCGGTTTAAATGCCTA -TAAAGCAGCAACATTAAGCGATGCCGATGCAAAAGCGATTGCCAATCAGGGCTGTGCCGAAATGGACAGC -GGCAATCAAGTCGCAAGTAAATCCAGCAAGTACGGTAAACGTCTGGCAAAAATCGCCAAAGCATTGGGTA -ACAATATTAATGGCACGCCGGTCAACTATAAGGTTTATATGACCAGCGACGTCAACGCATGGGCGATGGC -GAACGGCTGTGTTCGTGTCTACAGTGGCCTGATGGACATGATGAATGACAACGAAATTGAAGGCGTTCTG -GGCCATGAACTGGGCCACGTCGCGTTGGGTCACTCGCTGGCTGAAATGAAAGCTTCTTATGCGATCGTTG -CCGCACGCGATGCCATTTCAGCTACCAGCGGTGTGGCTTCCCAGCTTTCCCGCTCACAATTAGGTGATAT -CGCAGAAGGCGCTATCAATGCTAAATACTCCCGTGATAAAGAGTCCGAAGCAGATGATTTCTCCTTTGAT -CTGTTGAAGAAACGTGGCATCAGCACCCAGGGGCTGGTTGGCAGCTTTGAAACACTGGCTAGCCTGGATG -GCGGTCGCACCCAGTCCATGTTTGACTCTCACCCACCATCAACAGAGCGTGCGCAACACATCCGTGATCG -TATCGCCTCTGGTAAGTAAATCATTGTCATCTTTCGGGCTGGTCTTCTGCCAGCCCGCTATAATTGCGCA -ATAAATCCCCATCTGAATACAGACAAAACTGGTTTTTGCACACAACGTTAACGATTTGTGGCGTCGGCGC -GTATAATGCGCGCGGTTATGTTAACGGTACGCCTGTTTTAAGGAGATAAAGATGACGGCAATTGCCCCGG -TTATTACCATTGATGGCCCAAGCGGTGCAGGGAAAGGCACCTTGTGTAAGGCTATGGCGGAAGCGTTGCA -ATGGCATCTGCTGGACTCGGGTGCAATTTATCGCGTACTGGCATTGGCGGCATTACATCACCATGTTGAT -GTTGCGTCGGAAGATGCGCTGGTACCGCTGGCATCCCATCTGGATGTACGTTTTGTGTCGACCAATGGCA -ATCTGGAAGTGATCCTCGAAGGGGAAGATGTCAGCGGCGAAATTCGTACTCAGGAAGTGGCGAATGCAGC -TTCACAAGTCGCGGCATTCCCACGCGTTCGTGAAGCATTATTGCGTCGCCAACGCGCGTTTCGCGAATTA -CCAGGTCTGATTGCCGATGGCCGCGACATGGGAACGGTGGTATTCCCTGATGCACCAGTGAAAATTTTCC -TTGACGCCTCCTCGGAAGAACGTGCGCATCGCCGCATGCTACAGTTGCAGGAGAAGGGCTTTAGTGTTAA -CTTTGAGCGCCTTTTGGCCGAGATCAAAGAACGCGACGACCGCGATCGTAACCGAGCGGTAGCGCCACTG -GTTCCGGCAGCCGATGCTTTAGTGTTGGATTCCACCACCTTAAGCATTGAGCAAGTGATTGAAAAAGCGC -TACAATACGCGCGCCAGAAATTGGCTCTCGCATAAGCGACCGAATTTGCAGTACCCCCGTTGCAATGGAA -TGACAGCGGGTATGTTAAACAACCCCATCCGGCATGGAGCCAGGTGGACGTTAAATATAAACCTGAAGAT -TAAACATGACTGAATCTTTTGCTCAACTCTTTGAAGAGTCCTTAAAAGAAATCGAAACCCGCCCGGGTTC -TATCGTTCGTGGCGTTGTTGTTGCTATCGACAAAGACGTAGTACTGGTTGACGCTGGTCTGAAATCTGAG -TCCGCCATCCCGGCTGAGCAGTTCAAAAACGCCCAGGGCGAGCTGGAAATCCAGGTAGGTGACGAAGTTG -ACGTTGCTCTGGACGCAGTAGAAGACGGCTTCGGTGAAACTCTGCTGTCCCGTGAGAAAGCTAAACGTCA -CGAAGCCTGGATCACGCTGGAAAAAGCTTACGAAGATGCTGAAACTGTTACCGGTGTTATCAACGGCAAA -GTTAAGGGCGGCTTCACTGTTGAGCTGAACGGTATTCGTGCGTTCCTGCCAGGTTCTCTGGTAGACGTTC -GTCCGGTGCGTGACACTCTGCACCTGGAAGGCAAAGAGCTTGAATTTAAAGTAATCAAGCTGGATCAGAA -GCGCAACAACGTTGTTGTTTCTCGTCGTGCCGTTATCGAATCCGAAAACAGCGCAGAGCGCGATCAGCTG -CTGGAAAACCTGCAGGAAGGCATGGAAGTTAAAGGTATCGTTAAGAACCTCACTGACTACGGTGCATTCG -TTGATCTGGGCGGCGTTGACGGCCTGCTGCACATCACTGACATGGCCTGGAAACGCGTTAAGCATCCGAG -CGAAATCGTCAACGTGGGCGACGAAATCACTGTTAAAGTGCTGAAGTTCGACCGCGAACGTACCCGTGTA -TCCCTGGGCCTGAAACAGCTGGGCGAAGATCCGTGGGTAGCTATCGCTAAACGTTATCCGGAAGGTACCA -AACTGACTGGTCGCGTGACCAACCTGACCGACTACGGCTGCTTCGTTGAAATCGAAGAAGGCGTTGAAGG -CCTGGTACACGTTTCCGAAATGGACTGGACCAACAAAAACATCCACCCGTCCAAAGTTGTTAACGTTGGC -GATGTAGTGGAAGTTATGGTTCTGGATATCGACGAAGAACGTCGTCGTATCTCCCTGGGTCTGAAACAGT -GCAAAGCTAACCCGTGGCAGCAGTTCGCGGAAACCCACAACAAGGGCGACCGTGTTGAAGGTAAAATCAA -GTCTATCACTGACTTCGGTATCTTCATCGGCTTGGACGGCGGCATCGACGGCCTGGTTCACCTGTCTGAC -ATCTCCTGGAACGTTGCAGGCGAAGAAGCAGTTCGTGAATACAAAAAAGGCGACGAAATCGCTGCAGTTG -TTCTGCAGGTTGACGCAGAACGTGAACGTATCTCCCTGGGCGTTAAACAGCTCGCAGAAGATCCGTTCAA -CAACTGGGTTGCTCTGAACAAGAAAGGCGCTATCGTAACCGGTAAAGTAACTGCAGTTGACGCTAAAGGC -GCAACCGTAGAACTGGCTGACGGCGTTGAAGGTTACCTGCGTGCTTCTGAAGCATCCCGTGACCGCGTTG -AAGACGCTACCCTGGTTCTGAGCGTTGGCGACGAAGTTGAAGCTAAATTCACCGGCGTTGATCGTAAAAA -CCGCGCAATCAGCCTGTCTGTTCGTGCGAAAGACGAAGCTGACGAGAAAGATGCAATCGCAACTGTTAAC -AAACAGGAAGATGCAAACTTCTCCAACAACGCAATGGCTGAAGCTTTCAAAGCAGCTAAAGGCGAGTAAT -TCTCTGACTCTTCGGGATTTTTATTCCGAAGTTTGTTGAGTTTACTTGACAGATTGCAGGTTTCGTCCTG -TAATCAAGCACTAAGGGCGGCTACGGCCGCCCTTAATCAATGCAGCAACAGCAGCCGCTTAATTTGCCTT -TAAGGAACCGGAGGAATCATGACCAAGTCAGAATTGATAGAAAGACTTGCCACCCAGCAATCGCACATTC -CCGCCAAGACGGTTGAAGATGCAGTAAAAGAGATGCTGGAGCATATGGCCTCGACTCTTGCGCAGGGCGA -GCGTATTGAAATCCGCGGTTTCGGCAGTTTCTCTTTGCACTACCGCGCACCACGTACCGGACGTAATCCG -AAGACTGGCGATAAAGTAGAACTGGAAGGAAAATACGTTCCTCACTTTAAACCTGGTAAAGAACTGCGCG -ATCGCGCCAATATTTACGGTTAAGTTTTTTACTCAAACTTGAACGAGAGAAAAGCACCTGTCGGGTGCTT -TTTTCATTTCTCTAATCTGGAACTGGAAGCTGCCTCGCAGAGTTTTGAACAGTTTTCACCCTTTCGTTAA -ATTCTTCTGAATATGCCTCGGGGAACGCAAAATTCCCACCAGACAACCGCTCAACAAAGTTGCACACTTT -CCATAAACAGGGAGGGGTGCATGAAAATAACGACAGTCGGTGTATGCATAATTAGCGGAATTTTTCCGTT -GCTGATTTTGCCCCAATTGCCTGGGACATTAACCCTTGCGTTTCTGACTCTCTTCGCCTGCGTACTGGCA -TTTATCCCTGTTAAAACCGTCCGTTATATCGCGCTGACGTTGCTGTTTTTCGTTTGGGGCATATTATCAG -CAAAGCAAATTTTGTGGGCAGGAGAAACCTTAACTGGCGCGACGCAGGATGCAATTGTTGAGATCACTGC -AACTGACGGCATGACCACTCATTACGGTCAAATTACTCATCTACAAGGTCGACGTATATTCCCTGCGTCA -GGTCTCGTGATGTATGGCGAATATCTTCCGCAAGCGGTTTGTGCTGGACAACAATGGTCAATGAAACTCA -AAGTTCGTGCAGTTCATGGCCAACTTAATGATGGCGGCTTTGATAGCCAGCGTTATGCCATTGCCCAGCA -TCAGCCGCTCACCGGCCGTTTTCTGCAGGCAAGTGTCATTGAACCGAATTGTAGCCTGCGTGCACAGTAT -CTGGCGTCACTACAAACAACGCTGCAACCCTATCCGTGGAATGCGGTTATTCTTGGTTTAGGTATGGGGG -AACGGTTATCCGTCCCCAAAGAAATCAAAAATATCATGCGCGATACTGGAACGGCGCATTTAATGGCGAT -ATCGGGATTGCACATCGCTTTTGCGGCGTTGCTGGCTGCCGGACTCATTCGCAGTGGACAAATTTTTCTG -CCTGGGCGCTGGATCCACTGGCAAATACCATTAATTGGCGGAATCTGCTGTGCTGCTTTTTATGCCTGGT -TGACGGGAATGCAACCTCCTGCATTGCGTACCATGGTGGCGCTTGCTACGTGGGGAATGCTTAAGTTAAG -TGGGCGACAGTGGAGTGGCTGGGATGTATGGATATGTTGTCTGGCGGCAATTTTGCTGATGGATCCTGTT -GCCATTCTCTCGCAAAGTTTATGGCTCTCTGCCGCTGCGGTCGCGGCATTGATATTTTGGTATCAGTGGT -TTCCCTGTCCTGAGTGGCAACTGCCGCCGGTATTGCGTGCAGTTGTTTCCCTCATCCATCTGCAACTGGG -AATCACACTTCTGCTTATGCCCGTGCAAATCGTCATATTTCATGGCATTAGTCTGACCTCGTTTATTGCA -AATCTATTAGCAATTCCCTTGGTGACATTTATCACGGTTCCGTTGATCCTCGCCGCGATGGTTGTGCATT -TAAGCGGGCCGTTAATCCTGGAGCAAGGGTTATGGTTTCTTGCCGACCGGTCTTTGGCTTTACTTTTCTG -GGGGTTAAAGAGTTTGCCGGAAGGGTGGATCAACATTGCTGAATGTTGGCAATGGCTATCATTTTCCCCA -TGGTTCTTACTGGTGGTATGGCGATTAAACGCCTGGCGAACGTTGCCAGCAATGTGTGTGGCTGGAGGCT -TGCTGATGTGCTGGCCGCTGTGGCAAAAACCTCGACCTGACGAGTGGCAGCTGTACATGCTTGATGTCGG -GCAAGGGCTGGCAATGGTGATAGCCAGAAACGGCAAAGCGATTCTCTATGACACAGGACTGGCCTGGCCT -GAAGGGGATAGTGGGCAACAACTGATTATCCCCTGGCTCCACTGGCATAATCTTGAACCGGAAGGCGTTA -TTCTGAGCCATGAACATCTGGATCACCGGGGAGGGCTGGATTCAATATTGCATATATGGCCGATGTTATG -GATCAGAAGTCCGTTAAACTGGGAACATCATCAGCCCTGTGTGCGTGGCGAAGCGTGGCAATGGCAAGGA -TTGCGTTTCAGCGCGCACTGGCCTTTACAAGGTAGCAACGATAAAGGAAATAACCATTCCTGTGTGGTTA -AGGTTGATGACGGGACGAATAGCATTCTTCTAACCGGTGATATTGAAGCCCCAGCTGAACAAAAGATGCT -AAGCCGTTACTGGCAGCAAGTGCAGGCAACATTGCTTCAGGTACCTCACCATGGCAGTAATACCTCATCA -TCGTTGCCATTAATTCAGCGAGTGAATGGAAAAGTGGCACTCGCATCGGCATCGCGCTATAACGCATGGC -GACTGCCCTCTAACAAAGTTAAGCATCGCTATCAACTGCAAGGATATCAATGGATTGATACTCCACATCA -AGGTCAAACAACGGTCAATTTTTCAGCGCAAGGCTGGCGGATTAGCAGCCTCAGGGAGCAAATTTTACCT -CGTTGGTATCATCAGTGGTTTGGCGTGCCAGTGGATAACGGGTAGAATATGCGGCTATTTCAACAAATGC -TGGTTTTTTGAATGCATAACGACAAAGATCTCTCTACGTGGCAGACATTCCGCCGACTGTGGCCAACCAT -TGCGCCTTTCAAAGCGGGTCTGATCGTGGCGGGCGTAGCGTTAATCCTCAACGCAGCCAGCGATACCTTC -ATGTTATCGCTCCTTAAGCCACTTCTTGATGATGGCTTTGGTAAAACAGATCGCTCCGTGCTGGTGTGGA -TGCCGCTGGTGGTGATCGGGCTGATGATTTTACGTGGTATCACCAGCTATGTCTCCAGCTACTGTATCTC -CTGGGTATCAGGAAAGGTGGTAATGACCATGCGTCGCCGCCTGTTTGGTCACATGATGGGAATGCCAGTT -TCATTCTTTGACAAACAGTCAACGGGTACGCTGTTGTCACGTATTACCTACGATTCCGAACAGGTTGCTT -CTTCTTCTTCCGGCGCACTGATTACTGTTGTGCGTGAAGGTGCGTCGATCATCGGCCTGTTCATCATGAT -GTTCTATTACAGTTGGCAACTGTCGATCATTTTGATTGTGCTGGCACCGATTGTTTCGATTGCGATTCGC -GTTGTATCGAAGCGTTTTCGCAACATCAGTAAAAACATGCAGAACACCATGGGGCAGGTGACCACCAGCG -CAGAACAAATGCTGAAGGGCCACAAAGAAGTATTGATTTTCGGTGGTCAGGAAGTGGAAACGAAACGCTT -TGATAAAGTCAGCAACCGAATGCGTCTTCAGGGGATGAAAATGGTTTCAGCCTCTTCCATCTCTGATCCG -ATCATTCAGCTGATCGCCTCTTTGGCGCTGGCGTTTGTTCTGTATGCGGCGAGCTTCCCAAGTGTCATGG -ATAGCCTGACTGCCGGTACGATTACCGTTGTTTTCTCTTCAATGATTGCACTGATGCGTCCGCTGAAATC -GCTGACCAACGTTAACGCCCAGTTCCAGCGCGGTATGGCGGCTTGTCAGACGCTGTTTACCATTCTGGAC -AGTGAGCAGGAGAAAGATGAAGGTAAGCGCGTGATCGAGCGTGCGACTGGCGACGTGGAATTCCGCAATG -TCACCTTTACTTATCCGGGACGTGACGTACCTGCATTGCGTAACATCAACCTGAAAATTCCGGCAGGGAA -GACGGTTGCTCTGGTTGGACGCTCTGGTTCGGGTAAATCAACCATCGCCAGCCTGATCACGCGTTTTTAC -GATATTGATGAAGGCGAAATCCTGATGGATGGTCACGATCTGCGCGAGTATACCCTGGCGTCGTTACGTA -ACCAGGTTGCTCTGGTGTCGCAGAATGTCCATCTGTTTAACGATACGGTTGCTAACAACATTGCTTACGC -ACGGACTGAACAGTACAGCCGTGAGCAAATTGAAGAAGCGGCGCGTATGGCCTACGCCATGGACTTCATC -AATAAGATGGATAACGGTCTCGATACAGTGATTGGTGAAAACGGCGTGCTGCTCTCTGGCGGTCAGCGTC -AGCGTATTGCTATCGCTCGAGCCTTGTTGCGTGATAGCCCGATTCTGATTCTGGACGAAGCTACCTCGGC -TCTGGATACCGAATCCGAACGTGCGATTCAGGCGGCACTGGATGAGTTGCAGAAAAACCGTACCTCTCTG -GTGATTGCCCACCGCTTGTCTACCATTGAAAAGGCAGACGAAATCGTGGTCGTCGAGGATGGTGTCATTG -TGGAACGCGGTACGCATAACGATTTGCTTGAGCACCGCGGCGTTTACGCGCAACTTCACAAAATGCAGTT -TGGCCAATGATCGAAAAAATCTGGTCTGGTGAATCCCCTTTGTGGCGGCTATTGCTGCCACTCTCCTGGT -TGTATGGCCTGGTGAGTGGCGCGATCCGTCTTTGCTATAAACTAAAACTGAAGCGCGCCTGGCGTGCCCC -CGTACCGGTTGTCGTGGTTGGTAATCTCACCGCAGGCGGCAACGGAAAAACCCCGGTCGTTGTCTGGCTG -GTGGAACAGTTGCAACAGCGCGGTATTCGCGTGGGGGTCGTATCGCGGGGATATGGTGGTAAGGCTGAAT -CTTATCCGCTGTTATTGTCGGCAGATACCACAACAGCACAGGCGGGTGATGAACCTGTGTTGATTTATCA -ACGCACTGATGCGCCTGTTGCGGTTTCTCCCGTTCGTTCTGATGCGGTAAAAGCCATTCTGGCGCAACAC -CCTGATGTGCAGATCATCGTAACCGACGACGGTTTACAGCATTACCGTCTGGCGCGTAATGTGGAAATTG -TCGTTATTGATGGTGTGCGTCGCTTTGGCAATGGCTGGTGGTTGCCGGCGGGGCCAATGCGTGAGCGAGC -GGGGCGCTTAAAGTCGGTTGATGCGGTAATCGTCAACGGCGGTGTCCCTCGCAGCGGTGAAATCCCCATG -CATCTGCTGCCGGGTCAGGCGGTGAATTTACGTACCGGTACGCGTTGTGACGTTGCTCAGCTTGAACATG -TAGTGGCGATGGCGGGGATTGGGCATCCGCCGCGCTTTTTTGCCACGCTGAAGATGTGTGGCGTACAACC -GGAAAAATGTGTACCGCTGGCCGATCATCAGTCTTTGAACCATGCGGATGTCAGTGCGTTGGTAAGCGCC -GGGCAAACGCTGGTAATGACTGAAAAAGATGCGGTGAAATGCCGGGCCTTTGCAGAAGAAAATTGGTGGT -ATTTGCCTGTAGACGCACAGCTTTCAGGTGATGAACCAGCGAAACTGCTTACGCAACTAACCTTGCTGGC -TTCTGGCAACTAGTTACGCCGCGGCAGCGTTCGATTGATGGAGTCATGAATGTCGCTGCCGCACCTCTCC -CTTGCTGATGCGCGTAATCTTCACCTTGCCGCACAAGGCCTGTTAAACAAACCCCGCCGTCGAGCGTCGT -TGGAGGATATTCCGGCAACGATCTCCCGCATGTCCTTGCTGCAAATCGATACCATCAATATTGTTGCCCG -TAGTCCATATCTGGTGCTTTTCAGTCGTCTGGGAAATTATCCTGCCCAGTGGCTGGATGAGTCTCTGGCG -CGTGGCGAATTAATGGAATACTGGGCGCATGAAGCCTGCTTTATGCCGCGTAGCGACTTTCGTCTTATTC -GCCACCGCATGCTGGCACCTGAAAAAATGGGCTGGAAATACAAAGACGCCTGGATGCAGGAACATGAGGC -GGAAATTGCACAGTTAATTCAGCATATTCATGATAAGGGGCCGGTACGTTCAGCCGATTTTGAGCATCCT -CGTAAAGGTGCAAGCGGCTGGTGGGAATGGAAGCCGCATAAACGGCATCTGGAAGGTTTATTTACTGCCG -GAAAGGTGATGGTGATTGAACGGCGCAACTTCCAGCGCGTTTATGATTTAACCCACCGTGTCATGCCTGA -CTGGGATGATGAGCGCGATCTCGTTTCGCAAACAGAAGCAGAAATCATCATGCTGGATAACAGTGCGCGT -AGCCTGGGAATATTCCGCGAACAGTGGCTGGCAGATTACTATCGGCTGAAACGTCCGGCACTGGCGGCGT -GGCGCGAAGCGAGGGCTGAACAGCAGCAAATCATTGCTGTGCATGTTGAAAAATTGGGCAATCTTTGGCT -GCATGATGATTTGCTGCCGCTACTCGAGCGAGCGCTGGCCGGAAAGCTCACTGCAACGCACAGCGCGGTA -CTTTCGCCTTTTGATCCTGTTGTCTGGGATCGCAAACGCGCAGAGCAGCTTTTTGATTTTAGCTACCGGC -TGGAGTGCTATACCCCAGCGCCGAAACGCCAGTATGGCTATTTTGTTCTGCCGTTATTACATCGTGGGCA -ATTAGTTGGGCGAATGGATGCCAAAATGCATCGCCAGACAGGCATCCTTGAAGTTATCTCTCTGTGGTTA -CAGGAAGGTATTAAACCAACGACAACGCTGCAAAAAGGGCTACGTCAGGCGATTACTGATTTCGCTAACT -GGCAGCAGGCAACGCGGGTGACATTAGGATGCTGCCCGCAAGGCCTCTTTACTGATTGCCGCACCGGCTG -GGAAATAGACCCCGTCGCATAAATGATTATGATAAGATTTATGCATTCATAACCCGATCCATCTGGAGGA -ACTATGGATCATCGTCTGCTTGAAATCATTGCCTGCCCGGTTTGCAACGGAAAACTTTGGTATAACCAGG -AAAAACAAGAGCTTATTTGCAAACTGGACAACCTCGCTTTCCCGCTGCGTGATGGCATTCCAGTGTTGCT -GGAAACGGAAGCCCGCGTGCTGACTGCTGATGAGAGTAAATCATGAGTTTTGTGGTCATTATTCCCGCGC -GCTACGCGTCCACGCGTCTGCCCGGTAAACCATTGGTTGATATTAACGGCAAACCCATGATTGTTCATGT -TCTTGAACGCGCGCGTGAATCAGGTGCCGAGCGCATCATCGTGGCAACCGATCATGAGGATGTTGCCCGC -GCCGTTGAAGCCGCTGGCGGTGAAGTATGTATGACGCGCGCCGATCATCAGTCAGGAACAGAACGTCTGG -CGGAAGTTGTCGAAAAATGCGCATTCAGCGACGACACGGTGATCGTTAATGTGCAGGGTGATGAACCGAT -GATCCCTGCGACAATCATTCGTCAGGTTGCTGATAACCTCGCTCAGCGTCAGGTGGGTATGGCGACTCTG -GCGGTGCCAATCCACAATGCGGAAGAAGCGTTTAACCCGAATGCGGTGAAAGTGGTTCTCGACGCTGAAG -GGTATGCACTGTACTTCTCTCGCGCCACCATTCCTTGGGATCGTGATCGTTTTGCAGAAGGCCTTGAAAC -CGTTGGCGATAACTTCCTGCGTCATCTTGGTATTTATGGCTACCGTGCAGGCTTTATCCGTCGTTACGTC -AACTGGCAGCCAAGTCCGTTAGAACACATCGAAATGTTAGAGCAGCTTCGTGTTCTGTGGTACGGCGAAA -AAATCCATGTTGCTGTTGCTCAGGAAGTTCCTGGCACAGGTGTGGATACCCCTGAAGATCTTGAGCGCGT -TCGCGCTGAAATGCGCTAATTTCACTTCACGACACTTCAGCCAATTTTGGGAGGAGTGTCGTACCGTTAC -GATTTTCCTCAATTTTTCTTTTCAACAATTGATCTCATTCAGGTGACATCTTTTATATTGGCGCTCATTA -TGAAAGCAGTAGCTTTTATGAGGGTAATCTGAATGGAACAGCTGCGTGCCGAATTAAGCCATTTACTGGG -CGAAAAACTCAGTCGTATTGAGTGCGTCAATGAAAAAGCGGATACGGCGTTGTGGGCTTTGTATGACAGC -CAGGGAAACCCAATGCCGTTAATGGCAAGAAGCTTTAGTACGCCCGGAAAAGCCCGACAACTGGCATGGA -AAACCACCATGCTGGCAAGAAGTGGGACTGTCCGTATGCCGACTATTTATGGTGTGATGACGCATGAAGA -ACACCCCGGCCCCGATGTCCTGCTACTGGAGCGGATGCGTGGTGTTTCGGTGGAGGCACCAGCCCGAACA -CCAGAACGCTGGGAACAACTCAAAGACCAAATCGTTGAAGCCTTACTGGCCTGGCACCGTCAGGACAGTC -GCGGTTGCGTCGGCGCGGTCGACAATACTCAGGAAAATTTCTGGCCCTCATGGTACCGGCAACATGTTGA -AGTGCTATGGACCACGCTCAATCAGTTCAATAACACCGGTCTGACGATGCAGGATAAGCGGATCCTGTTT -CGCACTCGCGAATGTCTCCCGGCATTATTTGAAGGCTTTAACGACAATTGTGTGCTGATTCACGGTAACT -TCTGTTTACGCAGCATGTTGAAAGATTCGCGCAGCGATCAGTTACTGGCGATGGTCGGGCCGGGACTAAT -GCTTTGGGCACCGCGAGAATACGAACTGTTCCGACTAATGGATAATTCTCTGGCGGAAGATTTGCTCTGG -AGTTACCTGCAACGCGCGCCAGTGGCGGAGTCGTTCATCTGGCGGCGTTGGTTGTATGTGTTATGGGATG -AAGTTGCGCAACTGGTTAATACCGGACGATTTAGTCGGCGCAACTTCGATCTGGCATCAAAATCACTCTT -GCCGTGGCTCGCCTGACGAACCTTTTAGCCACTGCCAGATACGGCCAAGCGTTTCATAGCCAACACGATC -GCTATGCATCAACCAGACCGGAGAAGGGATTGCCCGTTCCCACGGGTTAAGCGGCGAGTCGATGGCCAAC -TGATTCGCCGGGGCTGGTAGCGGATTTAACCCTTCCTGCTGAAAAAAGATCATCGCCCGCGGCAGATGTG -ATGCGGAGGTCACCAGCAGGAAAGGGGCGTCACCAATCGCCTGTTTCACTGCTGCAGCTTCTTCTTCGGT -ATCTTTTGGCAAATCCAGGGTGATAATTTGCTCGCGCGGCACGCCCAGCGATTGCGCAACTCTGGCACCT -ACTTCCGCTGTACTCACCGTATTGGTTTTTGCTACGCCTCCCGTGAAGATCAGTTTTGATCCCGGATTTT -CGCGCCATAAGCGAATACCTTCATTCAGGCGTGGCAGACTGTTATTGATTAAATTAGAGCTCGGTGCCCA -CTGCGGGTTCCAGGTATAACCACCTCCGAGCACCACGATATAGTCCACTTTTTGCGAATTATTCCATGTC -GGATAGGTGCTTTCGATGGGACGCAGCAGGCGGTCGGCTACCGGTTGCAAACTCAATAACAAGAGCGCCA -GCCACCCAATGCTAATAAAAATCTTCCCGGTTTTTTGAAAACGGCTAAACCACAGCAGCGCCAGGCCAGC -GCCAATAATCAACAACATCAGCGGAAGTGGCAGCAACATATTGCCAATCACTTTTTTCAGTGTAAAAAGC -ATCCTTTCTGGTTCCTTTTTTAACCATATAGCAAGGGATCGCCAGCGATATTACACCAGACGGGTTCATT -CTCGCCGTGGCTGTGACAAAATAGCGTCTTTATCAGAAAACGTCTTAGCCAACCGGTGGAGAAAGCAATG -CAGGATCGCAATTTTGATGATATTGCGGAAAAGTTTTCCCGTAACATTTACGGCACCACCAAAGGGCAGC -TTCGACAGGCTATTCTGTGGCAGGATCTCGATCGCGTGCTGGCGGAAATGGGCCCGCAAAAACTGCGTGT -GCTGGATGCTGGCGGTGGAGAAGGGCAGACCGCAATCAAAATGGCCGAGCGTGGGCATCAGGTCATTTTA -TGCGATCTTTCTGCGCAGATGATCGACCGCGCAAAACAGGCGGCAGAAGCAAAAGGTGTGAGCGACAACA -TGCAATTTATACATTGCGCCGCTCAGGATGTTGCTTCGCATTTGGAAACGCCCGTTGATCTGATATTGTT -CCATGCGGTGCTCGAGTGGGTGGCTGATCCCCGCAGCGTATTGCAGACCCTCTGGTCAGTGTTGCGTCCA -GGCGGCGTGTTGTCGTTAATGTTCTACAATGCGCATGGTTTGTTGATGCATAACATGGTCGCCGGGAATT -TTGATTACGTGCAGGCGGGAATGCCGAAAAAGAAAAAACGGACGCTTTCGCCAGATTATCCACGCGACCC -GGCGCAGGTTTATCTGTGGCTGGAAGAAGCTGGTTGGCAAATTATGGGTAAGACAGGCGTTCGCGTGTTT -CATGATTATCTGCGCGAGAAACACCAGCAGCGCGACTGCTATGAAGCATTACTTGAATTAGAAACGCGTT -ATTGCCGTCAGGAACCGTATATTACCCTGGGGCGTTATATTCATGTCACCGCGCGCAAACCGCAGAGCAA -GGATAAAGTATGAGTGAATTTTCCCAGACAGTCCCCGAACTGGTTGCCTGGGCCAGAAAAAATGACTTCT -CCATCTCGCTGCCGGTAGACCGACTCTCTTTTCTGCTGGCGGTTGCCACGCTGAACGGCGAGCGTCTGGA -TGGTGAGATGAGTGAAGGCGAGCTGGTGGATGCATTCCGCCATGTGAGTGATGCGTTTGAGCAAACCAGC -GAAACCATCGGCGTGCGCGCCAATAACGCGATCAACGACATGGTGCGTCAACGTCTGCTGAACCGCTTTA -CCAGCGAGCAGGCGGAAGGGAACGCAATTTACCGTCTGACGCCGCTCGGCATCGGCATTACTGACTACTA -CATCCGTCAGCGCGAGTTTTCTACGCTGCGTCTTTCTATGCAGTTGTCGATTGTGGCGGGTGAGCTCAAA -CGCGCAGCAGATGCCGCCGAAGAGGGCGGTGATGAATTTCACTGGCACCGTAATGTCTATGCGCCACTGA -AATATTCGGTAGCAGAAATTTTCGACAGTATCGACCTGACGCAACGTCTGATGGACGAACAGCAGCAGCA -GGTGAAGGACGATATCGCCCAGTTGCTGAACAAAGACTGGCGGGCGGCGATTTCCAGCTGTGAATTGTTG -CTTTCGGAAACTTCCGGAACGCTGCGTGAATTGCAGGATACGCTGGAAGCGGCAGGCGACAAATTGCAGG -CTAATCTGTTGCGCATTCAGGATGCGACGATGACCCATGACGATCTGCATTTCGTCGATCGTCTGGTGTT -CGATCTGCAGAGCAAACTCGATCGTATTATCAGTTGGGGCCAGCAATCCATCGACTTGTGGATTGGCTAC -GACCGCCACGTACACAAATTTATTCGTACCGCGATCGATATGGATAAAAACCGCGTCTTTGCTCAGCGGT -TACGTCAGTCGGTACAAACCTATTTTGATGAGCCGTGGGCGCTAACTTATGCCAATGCCGATCGTCTGCT -GGATATGCGTGACGAAGAGATGGCACTGCGCGATGAAGAAGTGACTGGGGAACTTCCTGAGGATCTGGAA -TACGAAGAGTTTAACGAGATCCGCGAACAGCTGGCGGCGATCATCGAAGAACAACTTGCCGTGTACAAAA -CCAGACAAGTGCCGCTGGATCTTGGTCTGGTGGTACGCGAATATCTGTCACAGTATCCGCGTGCACGTCA -CTTTGACGTTGCGCGTATTGTTATTGATCAGGCGGTACGTCTTGGCGTAGCGCAAGCAGATTTCACCGGA -CTGCCAGCGAAATGGCAGCCGATTAATGATTACGGAGCCAAGGTACAGGCGCATGTCATCGACAAATATT -GAACAAGTGATGCCGGTTAAGCTGGCGCAGGCGCTGGCGAATCCGTTATTTCCGGCGCTGGACAGCGCCT -TACGTTCAGGACGCCATATTGGCCTCGACGAACTGGATAATCATGCATTCCTGATGGATTTTCAGGAATA -TCTGGAAGAGTTTTACGCGCGTTATAACGTTGAGCTTATTCGCGCACCAGAAGGGTTCTTCTATTTACGC -CCACGTTCCACCACGCTGATCCCTCGTTCCGTCTTGTCGGAACTGGATATGATGGTCGGGAAAATCCTCT -GTTATCTCTATCTCAGCCCGGAACGGCTGGCGAATGAGGGGATTTTCACCCAGCAGGAACTGTACGACGA -ACTGCTCACCCTGGCCGATGAAGCAAAACTGCTGAAACTGGTGAACAACCGTTCAACCGGTTCAGACGTT -GACCGTCAGAAGTTGCAGGAGAAAGTACGTTCTTCGCTCAACCGTCTGCGTCGTTTAGGCATGGTGTGGT -TTATGGGCCACGACAGCAGCAAGTTTCGCATTACCGAATCGGTGTTCCGCTTCGGAGCCGATGTGCGTGC -TGGCGACGATCCCCGTGAAGCACAGCGTCGCCTGATTCGTGATGGCGAAGCAATGCCGATTGAAAATCAT -CTGCAACTCAACGATGAAACCGAAGAGAATCAGCCAGATAGCGGAGAGGAAGAATAATGATTGAACGCGG -TAAATTTCGCTCACTGACGCTGATTAACTGGAACGGCTTTTTTGCCCGAACTTTTGACCTTGACGAGCTG -GTCACGACGCTTTCTGGCGGTAACGGGGCGGGTAAATCCACCACCATGGCGGCGTTCGTTACGGCGCTGA -TCCCCGACCTGACCCTGCTGCATTTCCGTAACACTACGGAAGCCGGGGCCACCAGCGGTTCGCGCGATAA -AGGTCTGCACGGTAAGCTGAAAGCGGGTGTCTGTTATTCGATGCTCGACACCATTAACTCGCGCCACCAG -CGCGTGGTGGTCGGTGTGCGTCTGCAACAGGTTGCCGGACGCGATCGTAAAGTGGATATCAAGCCGTTTG -CCATTCAGGGACTGCCGATGTCGGTGCAGCCGACACAGCTGGTGACCGAAACCCTGAACGAACGCCAGGC -GCGCGTGCTGCCGCTTAACGAGCTGAAAGACAAGCTCGAGGCGATGGAAGGCGTGCAGTTTAAACAGTTC -AACTCCATTACTGATTACCACTCGCTGATGTTCGATCTGGGCATCATCGCGCGTCGTCTGCGCTCCGCAT -CTGACCGTAGCAAATTCTATCGTCTGATCGAAGCTTCGCTGTATGGCGGGATCTCCAGTGCCATTACCCG -TTCTCTGCGCGACTACCTGTTGCCAGAAAACAGCGGCGTGCGTAAAGCGTTCCAGGACATGGAAGCGGCG -CTGCGTGAAAACCGTATGACGCTGGAAGCGATTCGTGTCACCCAGTCGGACCGCGACCTGTTTAAGCATC -TGATCAGCGAAGCCACCAACTACGTGGCGGCGGACTACATGCGTCACGCCAACGAGCGCCGTGTCCATCT -CGACAAAGCCCTGGAGTTTCGTCGCGAGCTACATACTTCGCGTCAGCAACTGGCGGCTGAGCAGTACAAA -CACGTCGATATGGCGCGTGAGCTGGCAGAGCACAACGGTGCCGAAGGCGATCTGGAAGCGGATTATCAGG -CGGCCAGTGATCACCTGAACCTGGTGCAAACCGCACTGCGTCAGCAGGAGAAGATCGAACGCTACGAAGC -GGATCTCGATGAGCTGCAGATCCGTCTGGAAGAGCAAAATGAAGTGGTGGCAGAAGCCATCGAACGCCAG -CAAGAGAATGAGGCTCGTGCGGAAGCTGCCGAACTGGAAGTGGACGAGCTGAAAAGCCAGCTTGCTGACT -ACCAGCAGGCGCTGGACGTCCAGCAAACGCGCGCGATCCAGTATAACCAGGCGATTGCTGCGCTTAATCG -TGCCAAAGAACTGTGCCATCTGCCGGACTTAACCGCCGACTGCGCCGCCGAATGGCTGGAAACCTTCCAG -GCGAAAGAGCTGGAAGCGACTGAAAAAATGCTCTCTCTTGAGCAGAAAATGAGCATGGCGCAAACCGCGC -ACAGCCAGTTTGAGCAGGCTTATCAGCTGGTGGTGGCAATCAACGGCCCACTGGCGCGTAACGAGGCGTG -GGATGTCGCTCGCGAACTATTGCGCGAAGGGGTCGATCAGCGTCACCTGGCAGAGCAGGTTCAGCCGCTG -CGGATGCGATTAAGCGAACTGGAACAGCGTCTACGCGAGCAGCAAGAAGCTGAGCGTCTGCTGGCAGATT -TCTGCAAACGTCAGGGCAAGAATTTTGATATCGACGAACTGGAAGCCCTGCATCAGGAACTGGAAGCACG -CATTGCCTCTCTTTCCGATAGCGTGTCTAACGCCCGTGAAGAGCGCATGGCACTGCGCCAGGAGCAGGAA -CAGCTGCAGTCTCGCATTCAGAGTTTGATGCAGCGTGCGCCGGTTTGGCTGGCAGCGCAAAACAGTCTCA -ACCAGTTGAGCGAACAGTGCGGCGAAGAGTTTACCTCCAGCCAGGACGTCACCGAATATCTGCAACAGTT -GCTGGAGCGTGAGCGAGAGGCGATTGTTGAACGCGATGAAGTGGGCGCGCGCAAAAACGCCGTCGATGAA -GAGATCGAACGTTTAAGCCAGCCTGGCGGCTCTGAAGATCAGCGTCTGAACGCGCTGGCGGAGCGTTTTG -GTGGTGTGCTGCTGTCAGAAATTTATGACGACGTTAGCCTGGAAGATGCGCCGTACTTCTCAGCGCTGTA -TGGCCCGTCACGCCACGCCATCGTGGTGCCAGATCTGTCACAGGTAACTGAACACCTGGAAGGCTTGACC -GATTGCCCGGAAGATCTCTATCTGATCGAAGGAGATCCGCAGTCATTCGATGACAGCGTGTTCAGCGTTG -ATGAGCTGGAAAAAGCGGTAGTGGTGAAAATCGCCGATCGTCAGTGGCGTTATTCACGTTTCCCGGAAGT -GCCGCTGTTTGGTCGTGCTGCGCGTGAAAGCCGTATTGAAAGCCTCCATGCCGAGCGTGAAGTGCTTTCC -GAACGCTTCGCCACGCTCTCCTTTGATGTACAGAAAACTCAGCGTCTGCATCAGGCGTTCAGCCGCTTTA -TCGGCAGTCATCTGGCGGTTGCGTTTGAGTCTGACCCGGAAGCAGAAATCCGTCAACTGAACAGCCGTCG -CGTCGAACTGGAGCGGGCGTTAAGTAATCATGAAAATGATAACCAGCAGCAGCGTATTCAGTTTGAGCAG -GCGAAAGAGGGCGTTACGGCGCTGAACCGCATTCTGCCGCGTCTCAACCTGTTGGCTGATGACAGCCTGG -CGGATCGCGTCGATGAAATCCGCGAACGTCTGGATGAAGCCCAGGAAGCCGCGCGTTTTGTTCAGCAGTT -TGGCAATCAACTGGCGAAACTGGAACCGATTGTTTCGGTATTGCAGAGCGACCCGGAACAGTTCGAACAG -TTAAAAGAAGATTACGCGTACTCTCAGCAGATGCAGCGCGATGCCCGTCAGCAGGCGTTTGCCCTGACGG -AAGTGGTGCAGCGTCGTGCGCACTTTAGCTATTCTGACTCGGCAGAAATGCTTAGCGGTAACAGCGATCT -CAACGAAAAACTGCGTGAACGTCTGGAACAGGCGGAAGCGGAGCGTACCCGCGCTCGCGAAGCGTTGCGC -GGTCACGCAGCGCAGTTGAGTCAGTACAACCAGGTGCTGGCTTCGCTGAAAAGTTCTTACGACACCAAAA -AAGAGCTACTCAACGATCTGCAACGTGAATTGCAGGATATCGGCGTGCGTGCTGATAGCGGGGCAGAAGA -GCGGGCGCGTATTCGCCGTGACGAGCTGCATGCGCAACTGAGCAATAACCGTTCACGCCGCAATCAACTG -GAAAAAGCGCTTACCTTCTGCGAAGCGGAGATGGACAACCTGACCCGCAAACTGCGCAAGCTGGAGCGGG -ATTACTTTGAGATGCGCGAGCAGGTAGTGACCGCCAAAGCGGGCTGGTGTGCGGTGATGCGCATGGTGAA -AGATAACGGCGTTGAGCGCCGCTTACACCGTCGTGAGCTGGCTTATCTCTCCGCTGATGATTTGCGTTCC -ATGTCGGATAAGGCGTTAGGTGCGCTGCGTCTGGCGGTGGCGGATAACGAACATCTGCGCGACGTGCTGC -GCATGTCGGAAGATCCGAAACGTCCGGAGCGTAAAATTCAGTTCTTCGTGGCGGTTTATCAGCATCTGCG -TGAACGTATTCGTCAGGATATTATTCGTACCGATGATCCGGTGGAAGCTATCGAACAGATGGAGATTGAA -CTTAGCCGTCTGACCGAAGAATTAACCTCCCGTGAACAGAAACTGGCGATCAGTTCCCGCAGCGTGGCGA -ACATCATTCGCAAAACCATTCAGCGCGAGCAGAACCGTATCCGTATGCTCAACCAGGGGTTGCAGAACGT -ATCGTTTGGTCAGGTGAACAGCGTGCGTCTCAACGTGAACGTGCGTGAAACGCACGCCATGCTACTGGAT -GTGCTCTCTGAACAGCACGAGCAGCATCAGGATCTGTTTAACAGCAACCGTTTGACCTTCTCGGAAGCGC -TGGCGAAACTGTATCAACGTCTTAACCCGCAGATTGATATGGGGCAGCGCACGCCGCAGACCATCGGTGA -AGAACTGCTGGATTACCGCAACTATCTGGAAATGGAAGTTGAGGTTAACCGTGGTTCCGATGGCTGGCTG -CGCGCAGAGTCTGGTGCATTGTCGACCGGTGAGGCGATTGGTACCGGTATGTCGATTCTGGTGATGGTGG -TACAAAGCTGGGAAGATGAATCTCGCCGCCTGCGCGGTAAAGATATCTCTCCTTGCCGCCTGCTGTTCCT -CGATGAAGCAGCGCGACTGGATGCTCGTTCTATCGCCACGCTGTTTGAATTGTGTGAGCGTTTGCAAATG -CAACTCATCATCGCAGCGCCGGAAAATATCAGCCCGGAGAAAGGCACCACCTATAAACTGGTGCGTAAAG -TCTTCCAGAATACCGAACACGTTCATGTCGTCGGCCTGCGAGGATTTGCGCCGCAACTCCCTGAAACGCT -TCCAGGAACTGACGAAGCGCCTTCTCAGGCGAGTTAAAATTAAGGCGGCAGCAATGCCGCCTTTTCTTTT -TCCGAAAACTCCGTTTCTGCACTAAAAAAGTGGCACATTACGGCGCGCTTTTCTTTAAACTTCTTTACAT -TAGGTTATGTAAAAACGTATCGGCGTTTATATACTGAAGATAAGCCTGATGAGTAACAGGCTTGCTCGTC -ATACTTTCGTGAGTATTGGCGTTGTACAGGCAAGTCGTAAAATAACAGCCTGGCTATTCAGAGTATGATA -AAAACAGGGGGCAAGGGATGTTGCTTAATATGATGTGTGGTCGTCAGCTGTCGGCAATCAGTTTGTGCCT -GGCCGTAACATTCGCTCCACTGTTCAATGCGCAGGCCGATGAGCCTGAAGTAATCCCTGGCGACAGCCCG -GTGGCTGTCAGTGAACAGGGCGAGGCACTGCCGCAGGCGCAAGCCACGGCAATAATGGCGGGGATCCAGC -CATTGCCTGAAGGTGCGGCAGAAAAAGCCCGCACGCAAATCGAATCTCAATTACCCGCAGGTTACAAGCC -GGTTTATCTTAACCAGCTTCAACTGTTGTATGCCGCACGCGATATGCAACCCATGTGGGAAAACCGTGAT -GCTGTTAAAGCCTTCCAGCAACAGCTGGCAGAGGTGGCGATTGCCGGTTTCCAGCCGCAGTTTAATAAAT -GGGTAGAGTTACTGACCGATCCTGGTGTTAACGGGATGGCACGCGACGTGGTGCTCTCTGATGCGATGAT -GGGCTATCTCCATTTCATTGCAAATATTCCGGTCAAAGGCACTCGCTGGCTATATAGCAGTAAACCTTAT -GCACTTGCAACGCCGCCGCTCTCGGTGATTAACCAATGGCAGCTGGCGCTGGATAAAGGTCAATTGCCTA -CGTTTGTTGCAGGACTGGCACCGCAGCATCCGCAATATGCGGCGATGCATGAATCGTTACTGGCCTTACT -CTGTGACACCAAACCGTGGCCCCAACTGACCGGCAAAGCAACGTTGCGCCCAGGGCAGTGGAGTAACGAC -GTACCGGCGTTGCGCGAAATATTGCAACGCACAGGCATGTTGGACGGGGGGCCGAAAATTACTCTACCTG -GCGATGACACGCCAACTGACGCGGTAGTCAGCCCATCCGCTGTTACTGTTGAAACAGCAGAAACTAAGCC -GATGGATAAGCAAACGACGTCTCGTAGTAAACCTGCGCCTGCCGTTCGCGCCGCCTACGATAATGAACTG -GTGGAAGCCGTTAAACGTTTTCAGGCATGGCAAGGATTGGGGGCAGATGGTGCTATTGGCCCGGCAACAC -GTGACTGGTTAAACGTAACGCCCGCCCAGCGTGCTGGTGTGTTGGCTCTCAACATCCAGCGATTGCGCTT -GCTGCCAACAGAGCTTTCTACCGGGATCATGGTTAACATTCCGGCCTATTCGCTGGTCTACTATCAGAAC -GGCAATCAGGTGCTGGATTCGCGAGTCATTGTCGGTCGCCCCGATCGCAAAACGCCGATGATGAGCAGTG -CCCTTAACAACGTAGTGGTAAACCCGCCGTGGAACGTACCTCCAACTCTGGCACGCAAAGATATTCTGCC -AAAAGTGCGCAACGATCCGGGATATCTCGAAAGCCATGGCTATACGGTGATGCGCGGCTGGAACAGCAGA -GAAGCGATTGACCCATGGCAGGTTGACTGGTCTACAATCACGGCCTCGAATTTACCGTTCCGCTTCCAGC -AGGCTCCAGGCCCACGGAACTCGCTGGGGCGCTATAAATTCAATATGCCGAGTTCAGAGGCCATTTATTT -GCATGACACGCCGAACCACAATCTGTTCAAGCGTGATACACGCGCATTGAGCTCAGGCTGTGTACGAGTG -AATAAAGCTTCCGATCTGGCGAATATGCTGTTGCAGGATGCAGGCTGGAATGACAAACGTATTTCTGATG -CGCTGAAGCAGGGTGATACACGTTACGTCAATATTCGGCAGTCGATTCCGGTGAATCTCTACTACCTGAC -GGCCTTTGTTGGTGCAGATGGTCGTACCCAGTATCGTACAGATATTTACAATTATGATCTGCCTGCGCGA -TCCAGCTCGCAAATCGTATCGAAAGCGGAACAATTAATCAGGTAAATGAAGTAGTTCGGGGAAATCAGTT -GTCGTAATAATTAGCATGATTGGGGGCGATTCTCTGCAGCCCCCGTCACTGCTGGGGTTGAGTCATCTTG -ACGTCTGCTTTACGGGCGGTTAAGGTGCCTCTTGTGCGCCAGAAGTGCATATAAACGATAACATTGACCT -GTAGACTTGATTATCATGGACAAATTCGACGCTAATCGCCGCAAATTGCTGGCGCTTGGTGGCGTTGCAC -TCGGTGCCGCCATCCTGCCGACCCCTGCGTTTGCAACACTCTCTACCCCACGCCCGCGCATTTTGACACT -CAATAATCTTCATACCGGAGAGTCAATCAAAGCGGAGTTTTTCGATGGCAGAGGCTATATTCAGGAAGAA -TTGGCAAAACTTAACCATTTTTTCCGCGATTACCGCGCGAACAAAATAAAGTCCATCGACCCAGGATTAT -TCGACCAGTTGTATCGCCTGCAAGGGTTGTTAGGCACGCGCAAACCGGTGCAACTCATTTCCGGTTATCG -TTCTATTGATACCAACAATGAACTACGCGCCCGCAGCCGTGGAGTAGCGAAGAAAAGCTATCACACTAAA -GGCCAGGCGATGGATTTCCATATTGAAGGTATCGCGTTAAGCAATATTCGCAAAGCCGCGTTATCTATGC -GCGCAGGTGGTGTAGGATATTATCCACGTAGTAACTTTGTGCATATTGATACCGGGCCAGCACGGCACTG -GTAGTAATTGCTTAACGAAACAGGGGCAGTATGAACTATCGTATTATTCCGGTCACCGCATTCTCCCAGA -ACTGTTCATTAATCTGGTGTGAACAAACCCGTCTGGCCGCACTGGTCGATCCTGGCGGCGATGCGGAAAA -AATCAAACAGGAAGTTGATGACAGCGGCCTGACACTGATGCAGATCCTGCTGACGCATGGTCATCTGGAC -CACGTTGGCGCAGCGGCGGAACTGGCGCAACATTACGGCGTGCCGGTTTTCGGCCCGGAAAAAGAAGATG -AGTTCTGGCTGCAAGGCTTGCCTGCGCAAAGTCGTATGTTTGGTCTGGAAGAGTGCCAGCCGCTGACGCC -AGATCGTTGGCTGAACGAAGGCGATACCATCAGCATAGGGAATGTGACTTTACAGGTGTTACATTGCCCT -GGGCATACGCCGGGTCATGTCGTGTTTTTTGATGATCGGGCAAAGCTGCTGATTTCTGGCGATGTTATTT -TCAAAGGCGGAGTAGGGCGCAGTGACTTCCCGCGTGGCGATCATAATCAACTGATTTCTTCAATCAAAGA -TAAATTGCTGCCACTGGGGGATGACGTGATATTTATTCCGGGTCACGGACCATTATCCACACTTGGTTAT -GAACGCCTGCATAATCCCTTCCTGCAAGACGAAATGCCCGTCTGGTAAGGCACATAAAAAAGCCCGCTTT -TAATGCTGGCCTGGATTTCTGGCAAAGTGCGCTTTGTTTATGCCGGATGCGGCACGAGCGCCTTATCCGG -CCTACAAAATCGTGCAAATTCAAAATATTGCAGGGGACGCGTAGGCCTGATAAGCGTAGCGCATCAGGCA -ATGTTGCGTTTGTCATCAGTCTCAGCCCGCTTTTCAGCGGGCTTCATTGTTTTTAATGCTTACAGCACTG -CCACAATCGCTTCGCACAGCGGAGCCATGTTATCTGGTGTCATCCCGGCCACATTTACGCGACCAGAAGC -AACCGCATATACGCCAAACTCTTCGCGCAGACGCAGCACTTGTTCTTTTGTCAGGCCACTGAAGGAGAAC -ATGCCGTTCTGTTTGATGATAAAGCTGAAGTCGCGGTTTGCGCCTTTTTCCTGCAGCGTATTGACGAACA -ACTGACGCATACGCTGAATACGCTGGCGCATATCAGTCAGCTCTTGTTCCCAAATCGCACGTAACGCATC -GTTGCTCAGGATGGTGGCAACAACAGAAGCGCCGTGTGCTGGTGGGTTAGAGTAGTTAGCGCGAATCGCC -GCTTTCATTTGGCTGAATGCGCGATCAACGGTTTCACTGTCGGCAGCAACCAGAGTACAAGCGCCAACAC -GCTCGTTGTACAGGCCAAAGTTTTTAGAGTAGGAACTGGCAACAATCAGCTCTTTATGCATAGCCGCGAA -AGCGCGCAGTCCTTCAGCATCTTCTTCCAGACCACGGGCAAAACCCTGGTAAGCGAAGTCAAACAGCGGT -AACCAGCCTTTCTCAACGGAGAGTTGTGCCAGTGTTTGCCATTGTTCCAGCGTAGGGTCGATACCGGTTG -GGTTATGGCAGCAGCCATGGAACAGCACTACGTCGCCAGCCTGAGCTTCATTCAGGCTGTTAATCAGTGC -ATCGAAGTCAAGAGTGTGATTTTCCGCATCATAATAAGCGTATTCACGAACTTCCAGACCTGCAGAGTTA -AAGACGCTCTTATGGTTCGGCCAGCTTGGGTTGCTCACCCACACACGCTTAACGCTGGTATTTTTTGCCA -GGAAATCGGCAGCCACGCGTAGTGCGCCAGTGCCCCCCGGAGTCTGTGCCGTGCGAGCACGTTTGTCATT -GATCAGGGCGCTACCTTTACCAAACAGCAGTTCCTGAGTGCAGCGACCAAATTCAGGGATGCCGTCAATG -CCGAGGTAATTTTTGGTGGTTTCATTTTCGAGCAGATACTGTTCAGCCTTTTTCACGCTGGTCAGTACCG -GGGTTTTGCCCGTCTCATCTTTATAGACACCAATCCCGAGGTTAATTTTGCCGGGACGTTCATCGGCACG -AAACAGATCGGCCAGGCCCAGAATCGGGTCGGCAGGAGCGGCGGTAATGTTCTCAAACATGACGAGGTTC -CATTATGGTTACAGAAGGGAAGTCCGCTATCAGGGTAACGGGAGATTTACAAAATTCCAACTATTACTGA -TGAAAACGCAGGCTGTTTTTGCAAGACGTGAGATTGCTCTGGAAGGTATAAAAAAAACAGGACCAAAGTC -CTGTTTTTTCGGCATTTAACAAAGAGGTGTGCTATTAGAACTGGTAAACGATACCCACAGCAACGGTGTC -GTCTGAACCTACGCCCAGTTTGTTGTCAGAATCGATCTGGTTGATGATGTAGTCAACATAGGTGGACATG -TTTTTGTTGAAGTAGTAGGTTGCGCCCACTTCAAAGTAGTTCACCAGATCAACATCACCGATACCTTCTA -CGTCTTTCGCTTTAGATTTGGTGTAAGCGATGGACGGACGCAGACCGAAATCGAACTGGTATTGCGCAAC -TAACAGAACGTCTTGCGTTTTGTTGGCGAAGCCGCTGGTGTTTGTAAATTTATTAGTGATCGGCGTAGCG -TTACGGGTTTCACCGTAGTTCGCTGCCAGGTAGATGTTGTTCGCGTCGTACTTCAGACCAGTAGCCCACT -GTTCAGCTTTTTTACCGTTGCCAAGAGGTTGAGCTTCTTGCAGGTTGGTACGGTCAGCTGCACCATAAGC -ACCAACGATACCAAAGCCTTCGTATTCGTAGCTGATAGAACCGCCAACACCGTCGCCGTTAGAACGGCGT -GCAGTGTCACGCTCGTTTTTACCCAGGTACTGAACAGCGAAGTTCAGGCCATCAACCAGACCAAAGAAGT -TGGAGTTACGATAGGTAGCAACGCCGCCAACACGACCAACGAAGAAGTCATCGCTGTATGCAGTATCACC -ACCAAATTCTGGCAGCATATCGGTGTAACCCAGTGCATCATAAACCACACCGTAGTTACGGCCGTAATCG -AAAGAACCAACGTCAGCGTATTTAAGACCCGCGAATGCCAGACGCGTTTTGTTACCAGTTTGAGCGTCAG -CGCCTTCAGAGTTGTTACCCTGGAAGTTATATTCCCACTGACCATAACCGGTCAGATCGGAATTGATTTG -AGTTTCCCCTTTAAAACCAAGACGGGCATAGGTCATGTCGCCATTGCCACCGTAACTGTTTTCACCGTTA -CCCTTGGAAAAATAATGCAGACCAACAGCTTTACCGTACAGATCTACTTTGTTGCCATCTTTGTTATAGA -TTTCTGCAGCGTTTGCAGTACCTGCTACTAACAGAGCAGGGACGATCACTGCCAGAATATTGCGCTTCAT -CATTATTTATTACCCTCATGGTTTTTTTTATGACACCTGCCACTGCCGTCAATAAGTTCTGTCAATAAAA -ATTTACGGAACTATTGATGAGAGTTTGGTGTCTTTATGTGTCTGCAGGCATCTTTCCATTCAAACTAACG -TTTCGCTACCGTGAAAGTGCTACAAAGATAAAGATTTGGTTTCAAAAAGAAAAAATATGTAACCAAAAGT -AAAATTTAAGGAACTTTGTGAACACCGTCATATTTCCATAGAGACGTGATGATATTTACAGCAATTTTAA -TCTATTTATATGATTTCCTTATATTTAAATTAACTAAACGGAAATTTTGTTTCTGATGGAAACTTTATCG -ACCTGGCACAAAATCTTCTTTCAGACATCCAGAATGCCAAAAAATAGTATGAAAATTGTGCTATTAGCTA -AGAAAAAACTAATCCGCAATAAGAATGCGGATTAGTTTTTGCGCGTAAATGTTGCAATGTAATATTCCGT -AACAGGATGATCGTTATGGCGGGGTTGCAAATAGATTGCTTGACTTAACAAACAGATAACTTGACAGAAA -AGATAAAAAAAGAGCCAGCGGGCGCTGGCTCTTGAAGACGCTAAATTAGAAGCTGGCGTTACGCGGAGTA -CGTGGGAACGGAATCACATCACGTACGTTTTGCACGCCAGTTACGTAAGCAATCAGACGTTCAAAACCAA -GACCGAAACCTGAATGCGGAACAGTACCGTAGCGACGCAGATCGCGATACCACCAGTAATCTTCTTTATT -CAGGCCCATTTCCAGCATACGCTCGTCCAGCACGTCCAGACGTTCTTCACGCTGGGAGCCACCAATGATC -TCACCGATGCCCGGAGCCAGAACGTCCATAGCCGCAACGGTTTTACCGTCTTCGTTAAGGCGCATATAGA -ACGCTTTAATATCTTTCGGATAGTTTTTAACCACTACCGGTGCTTTAAAGTGTTCTTCCGCCAGATAACG -CTCATGCTCAGAAGAGAGATCGACTCCCCAGTAAACCGGGTTTTCAAACTTCCTGCCGCAGTTTTCGAGA -ATGGTCACTGCGTCGGTATAATCCACCTGCGCAAAATCGGCTTCAATGAAGCGTTCCAGACGTGAAACGG -CATCTTTATCTACGCGTTCAGCGAAGAATTTCATGTCGTCAGCGCGTTCTTCGAGAACCGCTTTGAAGAC -ATATTTCAGCATGGCTTCAGCCAGACCCGCAATATCGTTCAGGTTAGCAAACGCCACTTCCGGCTCCAGC -ATCCAGAATTCCGCCAGGTGACGGCTGGTGTTGGAGTTTTCAGCACGGAAAGTCGGGCCGAAGGTATAAA -TTTTGGACAATGCGCAAGCGTAGGTTTCGCCGTTCAACTGGCCAGATACGGTCAGGAAAGACTCTTTACC -AAAGAAGTCTTTGTCGAAATCCACTTTGCCCTGATCGTTACGCGGCAGGTTTTCCAGATCCAGCGTAGAA -ACGCGGAACATTTCGCCTGCACCTTCGGTATCAGATGCGGTAATCAGTGGCGTTGAAACCCAGAAGAATC -CCTGCTCGTTAAAGAAGCGATGCAGCGCCTGCGCCAGCGTATGGCGAACGCGCGCGACGGCACCAATCAG -GTTTGTGCGCGGACGCAGGTGAGCGACTTCACGCAGATACTCAATGCTGTGGCGTTTTGCCGCCATCGGG -TAAGTGTCTGGATCTTCAACCCAACCAGCAACTTCAACCTTGCTGGCCTGAATTTCAAATTGTTGCCCCT -GGCCCGGCGACGCCACGACTTTACCCGTCACAATGACCGAGCAGCCGGTGGTCAGACGCAGGACGTCTTC -ATTGTAATTGGGCAGAGAATTATTGATGACAGCCTGTACAGGATCAAAGCAGGAACCGTCATAAACGGCG -AGGAAGGAGATGCCAGCTTTTGAATCTCGGCGGGTACGTACCCATCCGCGCACGGTGACTTCGCTGTCAA -CGGCTACACGGCCCTGGAGTACGTCGGCTACAGGCACAACGCTCATAATATTCTCTCTGTTAATAGTCGG -AAAAAATAAACACTTGTCCACCCGTAAATGGGGGGATACCTATGTTACCTGGCATCTGCAATCAGACAAG -CAGAATTCGCAAATGCAGCGAAAGATTTCGGAATTAAAGGTAAAAAAAGGGAGCCGATTAGCTCCCTGAT -GATATTAACTGGCTTTTTTAATATGCGGAAGGTCGAACGCTTTGCGCAGCGCCCGAACAAACGCTTTATC -ATGGCAGATAGTTTTGCCAGGGCTGTCAGAAAGTTTCGCCACCGGTTTACCGTTACACTCTACCAACTTA -ATGACAATATTCAGGGGTTTTACCTGGGGGATATCGCAGGTCAGGCGAGTCCCAATACCAAAACTTAATT -GCACGCGGGAAGAGAAGTGGCGGTATAGCTCAACCGCTTTGCGTAAATCCAGATTGTCAGAGAAAACCAG -CGTTTTACTCTGTGGATCAATTCCCAGCTTTTCATAATGTGCAATGGCTTTTTCACCCCATTCAACCGGG -TCGCCAGAGTCATGACGCAGGCCCTGATACCGACTAGCGAACTCGACACCGAAATCACGCAGGAAAGCAT -CCATAGTGATGCAGTCGGTTAATGCAATGCCAAGTTGGTCGGGATACTCTTCCAGCCAGGCAGCAAGTGC -AGCTCGCTGGCTGTTGGCTAGATCCGGGCTGATTTGCTGATGTGCCTGGAACCATTCGTGTGCCTGTGTT -CCCATCGGCGTGAGGGAAAGCCGACGCGCCAGATCGTAGTTGCTGGTGCCCACAAACCAGGATTCCTGTT -GCAGACGCTTAACGATGGTTTCTTGTACTTCGCGAGAAAAACGGCGACGGGTGCCAAAATCCATCAGATG -GAAGCGCGACATATCAAGACCGGCGGTTAACGCCGAGAAGTCGACTAATTTGCTTTCCAGCGTGTCGAGG -GCTTGCGCAACGTCGGCCTGCGGTGAGCGATAGCGATGTACCATTTCACTGATAACCGCCAGCAAAGGAA -CTTCCCAGAGGATGACTTCACGCCACGGGCCGCTTAAACGAATATCCAGCTTGCCATTATCGTTGGACAC -GGTGACTTGTTCCGGGTTAAAGCGGAACTCGCGTAACCAGTTAAGATAGTCGGCCTTAAAGAAAGGCAGG -GCAGAAAGCCACTGATATTCATCATCCTGCAGGCGCAGGTGCTGCATCGCCTGAACCTGTTCACGAATAG -CATCGGCATAAATACCCAGCAGATCGTCACCTCGGCAACGAAACTCCGCCGCGACATGCACATCGTAATA -GTGATGAAACACGGCTTGCTGCATATGCAACTTATAAGCATCTGTATCCAGCAACGAGTGCAGAACAGGA -GAAGCGAATTGTGTCATAGGTGCGCAGTAGCGTCCTCGTACAGGAGCGTTTAGTACAATAAACATCTTCA -GGAACTGCTGGAGTATACCTTGTTTCGCAATTTATTGAACCCCGATCACACCATATGCCACCTTTCTGGT -CGATGGCATTACGCGGTGTATGTTATAAAAATGTAGCAATAAAGGCGTTTGTACCTGAAAAGATGAAGAT -TCTGCATAGCGCGATTTACGCAACAGGAATAGACTGAACACCAGACTCTATAAAAGATGCTAAAGGTTAT -TTATGACTCAACAGCCACAAGCCAAATACCGTCACGATTATCGTGCGCCGGATTACCAGATTACTGATAT -TGACTTGACCTTTGACCTCGACGCGCAAAAGACGGTCGTTACCGCGGTCAGCCAGGCTGTCCGTCATGGT -GCATCAGATGCTCCCCTTCGTCTCAACGGCGAAGACCTCAAACTGGTTTCTGTTCATATTAATGATGAGC -CGTGGACCGCCTGGAAAGAAGAAGAGGGCGCACTGGTTATCAGTAATTTGCCGGAGCGTTTTACGCTTAA -GATCATTAATGAAATAAGCCCGGCGGCGAATACCGCGCTGGAAGGGCTTTATCAGTCAGGCGATGCGCTT -TGCACCCAGTGTGAAGCCGAAGGTTTCCGCCATATTACGTATTATCTCGACCGCCCGGACGTGCTGGCGC -GTTTTACCACCAAAATTATTGCCGATAAAATCAAATATCCCTTCCTGCTTTCCAATGGTAACCGCGTTGC -GCAAGGCGAACTGGAAAACGGACGCCATTGGGTACAGTGGCAGGACCCGTTCCCGAAACCGTGCTACCTG -TTTGCGCTGGTGGCAGGCGACTTTGATGTACTGCGCGATACCTTTACCACGCGTTCTGGTCGCGAAGTAG -CACTGGAGCTGTACGTCGATCGCGGCAACCTTGATCGCGCGCCGTGGGCGATGACCTCGCTGAAAAACTC -CATGAAATGGGATGAAGAACGCTTTGGCCTGGAGTATGACCTCGACATCTATATGATCGTCGCGGTGGAT -TTCTTCAATATGGGCGCAATGGAGAATAAGGGGCTGAATATCTTTAACTCCAAATATGTGCTGGCCCGCA -CCGACACCGCCACCGACAAAGATTACCTCGATATTGAACGCGTTATCGGCCATGAATATTTCCATAACTG -GACCGGTAACCGAGTGACCTGTCGCGACTGGTTCCAGCTCAGCCTGAAAGAAGGTTTAACCGTCTTCCGC -GATCAGGAGTTCAGCTCTGACCTTGGTTCCCGCGCAGTTAACCGCATCAATAATGTACGCACCATGCGCG -GATTGCAGTTTGCAGAAGACGCCAGCCCGATGGCGCACCCGATCCGCCCGGATATGGTCATTGAGATGAA -CAACTTCTACACCCTGACCGTTTACGAGAAGGGCGCGGAAGTGATTCGCATGATCCACACCCTGCTTGGC -GAAGAAAACTTCCAGAAAGGGATGCAGCTTTATTTCGAGCGTCATGATGGTAGTGCAGCGACCTGTGACG -ACTTTGTGCAGGCGATGGAAGATGCGTCGAATGTCGATCTCTCCCATTTCCGCCGTTGGTACAGCCAGTC -CGGTACACCGATTGTGACCGTCAAAGACGACTACAATCCGGAAACCGAGCAGTACACCCTGACCATCAGC -CAGCGCACGCCAGCCACGCCGGATCAGGCAGAAAAACAGCCGCTGCATATTCCGTTTGCCATCGAACTGT -ATGATAACGAAGGCAAAGTGATCCCGTTGCAGAAAGGCGGTCATCCGGTGAATTCCGTGCTGAACGTCAC -TCAGGCGGAACAGACCTTTGTCTTTGATAATGTCTACTTCCAGCCGGTGCCTGCGCTGCTGTGCGAATTC -TCTGCGCCAGTGAAACTGGAATATAAGTGGAGCGATCAGCAACTGACCTTCCTGATGCGTCATGCGCGTA -ATGATTTCTCCCGCTGGGATGCGGCGCAAAGTTTGCTGGCAACCTACATCAAGCTGAACGTCGCGCGTCA -TCAGCAAGGTCAGCCGCTGTCTCTGCCGGTGCATGTGGCTGATGCTTTCCGCGCGGTACTGCTTGATGAG -AAGATTGATCCAGCGCTGGCGGCAGAAATCCTGACGCTGCCTTCTGTCAATGAAATGGCTGAATTGTTCG -ATATCATCGACCCGATTGCTATTGCCGAAGTACGCGAAGCACTCACTCGTACTCTGGCGACTGAACTGGC -GGATGAGCTACTGGCTATTTACAACGCGAATTACCAGAGCGAGTACCGTGTTGAGCATGAAGATATTGCA -AAACGCACTCTGCGTAATGCCTGCCTGCGTTTCCTCGCTTTTGGTGAAACGCATCTGGCTGATGTGCTGG -TGAGCAAGCAGTTCCACGAAGCAAACAATATGACTGATGCGCTGGCGGCGCTTTCTGCGGCGGTTGCCGC -ACAGCTGCCTTGCCGTGACGCGCTGATGCAGGAGTACGACGACAAGTGGCATCAGAACGGTCTGGTGATG -GATAAATGGTTTATCCTGCAAGCCACCAGCCCGGCGGCGAATGTGCTGGAGACGGTGCGCGGCCTGTTGC -AGCATCGCTCATTTACCATGAGCAACCCGAACCGTATTCGTTCGTTGATTGGCGCGTTTGCGGGCAGCAA -TCCGGCAGCGTTCCATGCCGAAGATGGCAGCGGTTACCTGTTCCTGGTGGAAATGCTTACCGACCTCAAC -AGCCGTAACCCGCAGGTGGCTTCACGTCTGATTGAACCGCTGATTCGCCTGAAACGTTACGATGCCAAAC -GTCAGGAGAAAATGCGCGCGGCGCTGGAACAGTTGAAAGGGCTGGAAAATCTCTCTGGCGATCTGTACGA -GAAGATAACTAAAGCACTGGCTTGATAAATAACCGAATGGCGGCAATAGCGCCGCCATTCGGGGAATTTA -CCCCTGTTTTCTCAGGCGAGTTTCAGATTCACCACGTTGCATCACCCGTTGCAACACCTCCGCTTCCAGC -TCCGCTAATCGCACCGACCCTAATCGACGCGGACGGGGGATATCCACTGTCAAATCCAGACCAATTTTTC -CCTCTTCAATTAACAGCACCCGGTCAGCCATCGCTACCGCTTCGCTCACATCATGCGTCACCAACAGTAC -GGTAAAGCCGTGCTCCTGCCAAAGTGACACAATCAAATCCTGCATCTCGAGTCGCGTTAAGGCGTCCAGC -GCCCCGAGCGGTTCATCAAGCAACAATAATCCCGGTCGATGAATCAACGCTCTTGCCAGCGCCACTCGCT -GTTTCTGCCCGCCAGAAAGTGCGGCAGGCCATTCCCCTGCGCGATTCTCCAGTCCTACCGCAGCCAACGC -TCGACGTGCGGCATCGCGCCACTGGCCTTTAAGGCCTAACCCAACGTTATCAATCACCGATTTCCACGGT -AGCAGACGCGCATCCTGAAACATCATTCGCGTGTCTTCCTGAATTTCAGCCAGCGGTGTGGTGCCCGCTA -ACACATCGCCTGCGGTTGGCGTTTCCAGACCTGCCAGCAGGCGCAGCAGGGTACTTTTGCCACCACCGCT -GCGGCCCACCACCGCCACAAACTGACCTGCCGGAATATGTAAATCCAGTTGGTTCAGGACGATATTTTCC -GCGTAATGTTTGCTTACTGCATTGAGCAACAATGGCGTGCCCTGGTTCAGACGAGCAGTATTCATACCGT -GGCCTCCTTCAAATGATAAGCCGGGTTCCAGCGCAACCAGAGGCGCTCTAACAGCTGCGCGCTGACGTCA -GCCAGTTTGCCGAGCAGGGCGTAAAGAATAATAGCGACTACCACCACGTCCGTTTGCAAAAACTCCCGCG -CATTCATCGCCAGATAACCAATGCCTGAATTGGCAGAAATGGTTTCGGCAACAATCAGCGTCAGCCACAT -CAGGCCCAACGCAAAACGCACGCCGACCATAATTGAGGGCAGGGCACCAGGCAGGATCACATGGATAAAC -AGCGGTATGCCGGATAATCCATAGCTACGCGCCATCTCCACCAACCCGCGATCGATATTACGGATGCCAT -GCCAGGTGTTGATATAAATGGGGAATAGCGTACCGAGCGCCACCAGAAAGATTTTTGCGGATTCATCAAT -GCCAAACCACAAAATCACCAGCGGGATCAGCGCCAGATGCGGCACGTTGCGCAACATCTGAATTGAGGTA -TCCAGCAGCCGTTCTCCCCAGCGAGATAGCCCGCTAATCAGTCCCAAAATCAACCCCAGCGATCCGCCAA -TTGAAAAGCCAATCAGCGCCCGCCAGGAGCTGATCGCCAGATGCTGCCACAGTTCGCCGCTGGCGGAGAG -CGTCCAGAACGCCGTCACCACTCCTTCCGGTGAAGGCAAAATACGCGTCGACAGCCAGCCAACCGAGGAG -GCCAGTTGCCACACCGCCACGATGCCCACCGGTAAAAACCAGGGGGCAACGCGCAATAACCACTTCTTCA -CTGGCGTTGCCATTATTTCTTCCTTAGCTTTGCGCGACTTTACGGGGGATAAAATCATTCGCCACCGCTT -CGCCTTGCGGATTCAGCGGCTGCGGCTGGGGAATTTCCGGGATGGCGACATCCAGAAGCGGGAACAGCAA -CTCGCCAACCCGATACGCTTCTTCCAGATGCGGATAGCCCGAAAGCACAAAACTGTCGATGCCAAGCGCG -GCATATTCGTTGATTCGCGCAGCGACCGTAGGACCATCGCCCACCAGCGCCGTCCCGGCACCGCCGCGCA -CTAAGCCAACGCCCGCCCATAAATTGGGGCTGATCTCCAGATTGTCGCGCTTGCCGTTATGTAACGCCGC -CATTCGCTGTTGCCCTACGGAATCCGTCCGGGCGAATGCGGCCTGTGCTTTGGCGATAGTTTCATCATCA -AGATGCGAGATTAACCGCTCGGCGGCCTGCCACGCTTCGTCGTTAGTTTCACGAACAATCACATGCAGAC -GAATACCGAAACGAATTTTGCGTCCATGCGCGGCAGCTTTCGCCCGCACTTGTTCGATTTTCTCTTTAAC -CAGTTCCGGCGGTTCGCCCCAGGTGAGGTAGAGATCAACCTGTTCTGCCGCCAGCTCCTGGGCGACATCT -GACGATCCGCCAAAGTAAAGTGGCGGATACGGCTGTTGAATCGCCGGGAAGAGCAGTTTTGCTCCGCGCA -CATGAATATGTTTACCGTTGAAATCGACGGTTTCTCTCTGCAATAAACGCCGCCAGACCTGGGTAAATTC -CGCCGAGGCTTCGTAGCGCTCGCTATGATCAAGGAACACTCCGTCGCCTGCCAGCTCTTGTGGATCGCTG -CCTGTGACCAGGTTAAACAACGCACGTCCATTTGAGAGACGGTCAAGCGTGGCGGCCTGGCGGGCGGCAA -CGGTAGGTGAGGTTACGCTGGGACGCAGGGCGACAAGAAACTTCAGCCGCTGCGTCACCGGGATCATCGA -TGCGGCAACCAGCCACGCATCTTCGCAGGAGCGCCCCGTTGGAATTAGCACACCGGTATAGCCAAGACGA -TCCGCCGCTTGCGCAATTTGTTGCAGATAACCGTGATCAACCGGGCGTGAACCTTCTTCCGTTCCCAGAT -AATGCCCGTCACCGTGGGTCGGTAAAAACCAGAACATATTCAGACTCATAATTGTTTTCCTTCCAGTTGA -GTGGGCTGCCAGATGCGCTGGCGAATATCGACTTTTTTCGGCACCAGACGATTTTCATAAAACAGATCTG -CCGTTTGCTGCTGTAAGGCGGCAACCTCGGCGTTAACCGGTTTGATGGTGGTAGGAGGGCGATGATCTAA -GTAAGAGGCAATCACCGGTGCCGGTAAGCCCATCGTTTTTGCCAGTAAAGCGATGCTTTGCTCGCGCTGG -CTGCGGGTTAACGCATCGGCCTCACTAAAGGTTGCCAGTACGCCCTGAATAAAAGCGCCGTTTTTTTCTG -CATAGGGACGAGCTGCCAGATAAAACGATCCAGTTTGATTGAGATCGGTGCCGTCTTTCAGCACCCGCAC -GCCGCCCTGTAATAATGCAGCAGAGTAGTAGGGATCCCAGATAGCCCAGGCGTCAACGTTACCTTGCTGG -AACGCGGCGCGGGCATCAGCGGGCGTCAGGTAAGTGGGTTGGATATCGGTAAACTTAAGTCCGGCCTGAC -GCAGTGCACGCAGTAAAAGGTTGTGTGAACTGGAACCTTTCTGAAAGGCAACTTTGTGACCTTTAAGATC -GGCTACGGTTTTGATCGGGCTGTTTTCTGCCACCAGAATCACTTCGGCTTTGGGCTTCGGTGGCTCGACG -CCCACGTACACCAAATCAGCCCCGGCAGCCTGGGCAAAGATTGGCGGAATATCCCCGGTACTGCCGAGAT -CAATACTGCCAACGTTTAACGCTTCCAACATTTGCGGACCCGCGGGGAACTCCACCCAGGAGATTTTTGA -TTCCGGATAGCGTTTTTCCAGTAACTGGTGGCTTTTTGCCAGCACCATACCAATACTGCCTTTCTGATAG -CCTATACGTAACGCTTCAGGCGAGGATTCTGCAGCAACCGCAAAAGTAGAGACGCTAAGCAATCCCGCCA -GCGCCAGTTTAATGATGTTACGCATGGGCATTACCTCGCAGAGACAGAAGGTCAGGAACCTGAACATCGC -GGCGGTGCAATGCCTGCCAGAAAGTTTCTAGCGCGGTATCAAGACGGGTTTGCAGATTTGGCGTGAACTG -GGGTCTGTGATGGTAATCAATTACTTGTGAGTCATCGGCAAACACGCCGTGCAGGATCTCCTGAGCTTTC -AGTGCGCTTAAAACTGGTTTAAGGGCATAATCGACCGCCAGCAGATGGGCCACGGTACCGCCCGTCGCCA -GCGGTAGCACCACTTTGCCTTGCAAAGCGCGTTCTGGCAGCAGGTCGAGCAGGGTTTTCAACGCACCGGA -ATAGGCGGCTTTATACACAGGCGTGGCGACAATCAGCCCATCGGCCTGTTGCAGCTGTTCGGTGAAGGTC -TTGAGTGCCGGACTATCGAAACGAGCATAAAGTAGATCTTCCGGGGCGAAGTTTTGCAGATTCCAGTGAT -AAACCTCTACATCCAGGCCATTTAGTTTTTCCCGCGCATATTCCAGCAAGGAGCTGGAGCGAGAAGGAAA -GCGAGGACTACCCGCCAGGGTGATGACACGCATACTCTCTCCTTATAACCAATTGTTCTTTTTTTGTTAA -CATTGATAACAATTCGGTCAGTCTGTCGGAGAGACAAGAAAATTCCAAATATAAATTTTGTGTATCTTTT -TCTGAAAATAAACTAAAGAAAGGGCTTTATATATCACGCATATTTATTTATTGGATAGTCATTAGATGTT -GAATCAATGAATTACTCGTTCAGTTAATATTTAAATATTCATGAAATCTATAAATTAAAGATTTGTCACT -TATTGGATTTAGTATGCTTGATTTAAATGGCGGACAATTATTGTTATTATTAAGTCTAATGTCATTTAAA -GGCATTATCATATTTACGAAGAGATCAGGATGATAACGATGAAAAAAAGTGTATTGACGGCGTTTATAAC -TGTGGTATGTGCAACGTCCAGCGTTATGGCTGCTGATGATAATGCTATCACGGATGGCTCAGTAACATTT -AATGGTAAAGTTATTGCTCCAGCTTGTACCCTGGTAGCTGCGACGAAAGATTCCGTGGTGACTTTGCCAG -ATGTTAGTGCCACGAAGTTGCAAACCAATGGTCAGGTTTCTGGCGTGCAAATTGATGTGCCAATTGAATT -AAAAGATTGTGATACTACCGTAACAAAAAATGCAACGTTCACCTTTAATGGCACTGCGGATACTACTCAG -ATTACAGCGTTTGCTAACCAGGCCTCATCTGATGCTGCTACAAACGTGGCCCTGCAAATGTATATGAATG -ATGGTACAACGGCCATCACGCCAGACACAGAAACCGGGAACATTTTGTTGCAGGATGGAGATCAGACGTT -GACTTTTAAAGTTGATTATATCGCTACGGGGAAAGCGACTTCAGGTAATGTGAATGCGGTAACAAATTTC -CATATTAACTATTATTAATAGAACTCATTAATTGTTTTATTAATTAGTACCCCTCCAGTGTTCTGGAGGG -GATATTCATATTTTTTAAGAGTGACTATTTATGAAAACTTGCATAACAAAGGGAATTGTGACCGTAAGTT -TAACGGCAATATTACTCAGCTGCTCATCCGCATGGGCGGCAGGTAAAGGCGGGATTGGACTTGCAGCAAC -ACGTCTTGTTTATTCAGAAGGTGAAGAGCAAATTTCACTGGGTGTACGTAACACCAGTCCGGATGTTCCT -TATCTTATTCAGTCATGGGTGATGACCCCAGATAATAAAAAATCAGCAGACTTTATTATTACACCACCGC -TATTTGTGCTGAATCCGGCAAATGAGAATCTGTTACGCATTATGTACATTGGAGCGCCGTTGGCGAAAGA -CAGAGAAACCCTTTTCTTCACTAGCGTACGGGCAGTCCCTTCAACAACGAAGCGGAAAGAGGGAAATACC -CTGAAGATTGCCACACAAAGCGTCATCAAACTTTTCTGGCGACCAAAAGGTTTAGCGTATCCCTTAGGCG -AGGCTCCGGCGAAACTGCGTTGCACTTCGTCAGCTGACATGGTTACGGTCAGTAACCCAACACCTTATTT -CATTACCCTGACAGACCTGAAAATAGGTGGAAAAGTAGTTAAAAATCAAATGATTTCCCCCTTTGATAAA -TACCAATTTTCTCTGCCAAAGGGGGCCAAAAATAGCAGCGTAACGTATCGAACCATCAATGACTACGGGG -CGGAAACGCCGCAACTCAACTGTAAATCGTAAGCCGTCTTCAGTTAAGAGAGCGAGATGTATAGAACTCA -TCGACAACACAGCCTGTTAAGCTCTGGTGGAGTGCCATCGTTTATTGGTGGGCTGGTGGTGTTTGTGTCG -GCAGCGTTCAATGCACAAGCTGAAACCTGGTTCGATCCTGCTTTTTTCAAAGATGATCCCTCAATGGTGG -CCGATTTGTCTCGTTTCGAAAAAGGACAAAAAATAACGCCAGGGGTTTATCGTGTCGATATTGTTCTGAA -TCAGACAATTGTAGATACGCGCAACGTCAATTTTGTTGAGATAACGCCAGAGAAGGGGATTGCCGCCTGT -TTGACGACTGAAAGCCTGGATGCAATGGGTGTTAATACTGATGCGTTTCCGGCTTTTAAACAACTGGACA -AACAAGCGTGTGTGCCATTGGCGGAGATTATTCCGGATGCCAGCGTAACGTTTAATGTGAATAAACTCCG -TCTGGAAATTTCAGTACCGCAAATCGCCATCAAAAGTAATGCCCGTGGTTATGTCCCCCCTGAACGTTGG -GATGAAGGGATCAACGCGCTATTACTGGGATATTCGTTTAGCGGGGCTAACAGTATTCATAGCAGCGCAG -ACAGTGATTCTGGCGACAGCTATTTTCTGAATTTAAACAGTGGCGTTAATTTAGGCCCATGGAGATTGCG -CAACAATTCAACATGGAGTCGTAGTAGTGGCCAAACCGCAGAATGGAAGAATCTCAGCAGCTATTTGCAA -CGGGCGGTTATTCCTCTGAAAGGCGAACTGACCGTAGGTGATGATTATACTGCAGGCGATTTTTTCGATA -GTGTCAGCTTTCGTGGTGTGCAGCTGGCGTCAGATGACAACATGCTGCCAGACAGCCTGAAAGGGTTTGC -GCCTGTGGTGCGTGGTATCGCCAAAAGCAATGCCCAGATAACGATTAAGCAAAATGGTTACACCATTTAC -CAAACTTATGTATCGCCTGGTGCTTTTGAAATTAGTGATCTCTATTCCACGTCGTCGAGCGGTGATTTGT -TAGTTGAAATCAAAGAAGCGGACGGCAGCGTCAATAGCTACAGCGTACCGTTCTCCAGTGTGCCATTACT -CCAGCGTCAGGGGCGAATCAAATACGCGGTGACACTGGCGAAATACAGAACCAATAGTAATGAACAGCAG -GAGAGCAAATTTGCCCAGGCCACGTTGCAGTGGGGCGGACCGTGGGGAACGACCTGGTATGGTGGTGGAC -AATATGCTGAATATTACCGTGCCGCCATGTTTGGTCTGGGATTTAACCTCGGCGATTTCGGAGCAATTTC -GTTCGATGCGACCCAGGCGAAGAGTACGCTAGCAGATCAAAGCGAACATAAAGGTCAGTCATATCGTTTT -CTGTATGCCAAAACGCTCAACCACTTGGGCACTAACTTTCAATTGATGGGCTATCGCTATTCGACGTCGG -GTTTCTACACCCTTTCCGACACCATGTATAAACATATGGATGGCTACGAATTTAATGACGGTGATGATGA -AGATACGCCGATGTGGTCGCGTTATTACAATTTGTTTTACACCAAACGTGGCAAACTGCAGGTCAATATC -TCCCAGCAATTAGGCGAGTACGGTTCGTTTTATTTAAGTGGTAGCCAGCAAACTTACTGGCATACGGATC -AACAGGATCGGCTATTACAGTTTGGCTACAACACGCAAATTAAAGATCTTTCGCTGGGGATTTCCTGGAA -CTACAGTAAGTCCCGTGGTCAACCTGATGCTGATCAGGTGTTTGCTCTAAATTTTTCCCTGCCGCTCAAT -CTGTTGCTCCCCAGAAGTAATGATAGCTATACCAGGAAAAAAAATTACGCCTGGATGACCTCTAACACCA -GTATCGATAACGAAGGGCACACTACACAAAACCTGGGTTTAACGGAGACATTACTCGATGACGGTAACCT -GAGCTACAGCGTGCAACAGGGATATAACAGCGAGGGGAAAACGGCTAATGGTAGCGCCAGCATGGATTAC -AAAGGGGCGTTTGCGGATGCCCGAGTGGGCTACAACTACAGCGATAACGGCAGTCAACAACAACTGAACT -ACGCTCTTTCAGGCAGTTTAGTTGCCCATTCACAGGGCATTACCCTGGGGCAATCGCTGGGGGAAACTAA -CGTTCTGATTGCAGCACCAGGCGCAGAGAATACTCGTGTGGCGAACAGCACCGGGCTGAAAACTGACTGG -CGCGGATATACCGTTGTTCCTTATGCCACTTCTTATCGGGAAAATCGAATCGCACTTGATGCGGCGTCGT -TAAAACGTAACGTGGATCTTGAAAATGCAGTAGTCAACGTGGTTCCCACCAAAGGGGCGTTGGTTCTGGC -GGAGTTCAATGCCCATGCGGGTGCAAGGGTATTAATGAAAACATCAAAGCAGGGTATACCGCTGCGTTTT -GGCGCGATAGCGACGCTGGACGGCGTACAGGCTAATAGCGGCATAATTGATGATGATGGCTCGCTCTATA -TGGCGGGTTTACCGGCGAAGGGAACAATAAGCGTGCGCTGGGGCGAAGCTCCCGATCAAATTTGTCATAT -CAATTACGAGCTTACCGAACAACAAATTAACTCTGCGATTACGCGAATGGATGCCATATGCAGATAATCT -TTGGAGAAAAATGCGTGTCATTACTACGACTATTTTTTGCCGCCGTCTTAATGTTATGGTGCGCTCAAAC -CGCTGCTTATAGCGGGCAGTGTCATACTACTCAGGGGAATCCGTATATTGGCGTCAATTTTGGCGTTAAA -ACCCTGGAGGAAGAAGCAAATACGGCAGGGGTAGTTAAAGACAAATTTTATCAGTGGAACGAATCGAATG -ATTATTATGTTTCCTGTGATTGCGATAAAGACAATGTCAGAAGTGGCCGATGGGCATTCGCCGCGGATTC -ACCGTTAGTCTATTTAGGCGACAACTGGTACAAAATTAATGACTATCTTGCCGCCAAAGTTTTATTGCAG -GTTAAAGGCAGTTCTCCTACTGCGGTTCCTTTCGAAAACGTGGGCACAGGGGGGGATACCCGATGGCATA -TTTGCGACCCTGGCGGTCAACGTTTAGGTGGGCAGGGGGCAAGCGGTAATAGCGGTAGCTTTTCCCTGAA -AATATTGCAGCCGTTCGTTGGCTCGGTCGTCATTCCTCCTATGGCGCTGGCGCGATTATATGAATGCTAC -AACATACCCGCAGGTGATTCCTGCACGACTACAGGTACACCGGTTTTAGTGTATTACCTGTCTGGTACGA -TCAATTCACTTGGCTCATGTTCCGTCAATGCCGGAGAGACAATTGAAGTTGATTTAGGTGATGTCTTCGC -TGCCAATTTCCGTGTTGTAGGGCATAAACCTCTTGGGGCCAGAACGGCAGAACTTGCAATTCCAGTCAGG -TGTAACACGGGAAACGCGGGATTAGTTAATGTCAACCTGAGTCTGACGGCAACCACAGACCCCAGCTATC -CCCAGGCGATTAAGACGTCACGTCCTGGCGTGGGCGTGGTGGTGACCGATAGCCAGAACAACATTATTTC -CCCTGCTGGTGGAACATTACCGCTCTCTATTCCTGATGATGCAGACAGTATCGCGCGAATGAATGTCTAT -CCAGTCAGCACGACAGGTGTACCACCAGAAACCGGGCGATTTGAAGCCACGGCAACGGTGAGAATAAATT -TTGATTAACGCGTGAACGTATGAAGAAAAAAACGATATTTCAGTGCGTTATCTTGTTCTTTAGCATTCTT -AACATCCATGTCGGGATGGCTGGGCCTGAACAAGTTAGTATGCATATTTATGGGAATGTGGTCGATCAGG -GCTGTGATGTCGCCACCAAAAGTGCATTACAAAATATTCATATTGGTGATTTTAATATCAGTGATTTTCA -GGCCGCGAATACCGTAAGCACTGCTGCTGATTTGAATATCGATATCACCGGTTGTGCCGCTGGTATTACT -GGCGCGGACGTCCTTTTTAGCGGCGAGGCTGACACCCTTGCGCCGACACTGCTCAAACTAACTGACACAG -GCGGAAGCGGTGGTATGGCAACGTGGATTGCCGTGCAAATTCTTGATGCGCAAAGTCAGCAAGAAATCCC -GCTCAATCAGGTCCAGCCTCTTACGCCCTTAAAAGCCGGGGATAACACACTCAAATATCAACTTCGTTAT -AAGTCCACAAAGGCGGGAGCAACGGGCGGTAATGCGACGGCGGTTCTCTATTTTGATCTGGTTTACCAGT -GAAGGAGTGATGTTGAAACGGATAATCTGGATTCTGTTCTTATTGGGATTAACGTGGGGCTGTGAGCTAT -TTGCCCATGATGGCACGGTCAACATTAGCGGATCGTTTCGCCGTAATACATGCGTGCTGGCACAGGATAG -CAAGCAAATCAATGTGCAGTTAGGCGATGTCTCGCTGACACGTTTTTCTCATGGGAATTATGGCCCGGAG -AAATCTTTCATCATTAATTTGCAGGATTGCGGAACAGATGTCAGCACGGTTGACGTCACCTTTTCAGGAA -CCCCCGACGGAGTGCAGAGCGAAATGTTGTCCATTGAAAGTGGTACGGATGCAGCCAGCGGGCTGGCAAT -TGCGATTCTGGATGATGCGAAGATATTGATTCCGCTTAACCAGGCGAGTAAAGACTACAGCCTACATAGC -GGTAAGGTGCCATTAACTTTTTATGCGCAATTGCGACCTGTCAATAGCGATGTGCAGTCGGGTAAAGTGA -ATGCCAGCGCGACATTTGTACTTCATTATGACTAATACGTGGAACAGATTGGCGCTCTTGATTTTCGCCG -TTTTATCGCTGCTGGTGGCGGGTGAATTGCAGGCAGGAGTGGTGGTCGGCGGAACGCGATTTATCTTTCC -GGCAGACAGAGAATCGATATCTATTTTACTGACTAATACCAGTCAGGAATCCTGGCTTATTAACAGTAAA -ATCAACCGCCCAACGCGTTGGGCCGGGGGGGAAGCGTCGACAGTGCCAGCACCATTACTGGCCGCTCCGC -CACTTATTCTCCTGAAGCCCGGTACGACAGGCACGTTGCGCTTGCTGAGAACGGAAAGCGACATCTTGCC -TGTGGATCGCGAAACGCTATTTGAGTTAAGCATTGCCAGCGTGCCATCCGGCAAAGTTGAAAATCAGAGC -GTAAAAGTGGCGATGCGCTCGGTATTTAAACTGTTCTGGCGACCCGAAGGTTTGCCGGGCGACCCGCTGG -AAGCTTATCAACAATTACGCTGGACACGGAATTCGCAGGGTGTACAACTCACTAACCCAACGCCTTATTA -CATTAACCTGATTCAGGTGAGTGTAAATGGTAAAGCGTTAAGTAATGTGGGAGTTGTGCCGCCTAAAAGC -CAGCGTCAGACAAGCTGGTGTCAGGCAATCGCACCGTGTCATGTCGCCTGGCGGGCGATAAATGATTACG -GCGGGTTGAGTGCAAAGAAGGAGCAAAATCTGCCCTGAAACAGGTTCGGAAAACGTTTGCGTTTTTTTTG -CCGCAGGTCAATTCCCTTTTGGTCCGAACTCGCACATAATACGCCCCCGGTTTGCACACCGGGAATCCAG -GAGAGTTCATGTACTACCCCTTCGTTCGTAAAGCCCTTTTCCAGCTCGATCCAGAGCGCGCTCATGAGTT -TACTTTTCAGCAATTACGCCGTATTACAGGAACGCCGTTTGAAGCACTGGTGCGGCAGAAAGTGCCTGCG -AAACCTGTTAACTGCATGGGCCTGACGTTTAAAAATCCGCTTGGTCTGGCAGCCGGTCTTGATAAAGACG -GGGAGTGCATTGACGCGTTAGGCGCGATGGGATTTGGATCGATCGAGATCGGTACCGTCACGCCACGTCC -ACAGCCAGGTAATGACAAGCCGCGTCTCTTTCGTCTGGTAGATGCCGAAGGTTTGATCAACCGTATGGGC -TTTAATAATCTTGGCGTTGATAACCTCGTAGAGAACGTAAAAAAGGCCCATTATGACGGCGTCCTGGGTA -TTAACATCGGCAAAAATAAAGATACGCCAGTGGAGCAGGGCAAAGATGACTATCTGATTTGTATGGAAAA -AATCTATGCCTATGCGGGATATATCGCCATCAATATTTCATCGCCGAATACCCCAGGATTACGCACGCTG -CAATATGGTGAAGCGCTGGATGATCTCTTAACCGCGATTAAAAATAAGCAAAATGATTTGCAAGCGATGC -ACCATAAATATGTGCCGATCGCAGTGAAGATCGCGCCGGATCTTTCTGAAGAAGAATTGATCCAGGTTGC -CGATAGTTTAGTTCGCCATAATATTGATGGCGTTATTGCAACCAATACCACACTCGATCGTTCTCTTGTT -CAGGGAATGAAAAATTGCGATCAAACCGGTGGCTTAAGTGGTCGTCCGCTTCAGTTAAAAAGCACCGAAA -TTATTCGCCGCTTGTCACTGGAATTAAACGGTCGCTTACCGATCATCGGTGTTGGCGGCATCGACTCGGT -TATCGCTGCGCGTGAAAAGATTGCTGCGGGTGCCTCACTGGTGCAAATTTATTCTGGTTTTATTTTTAAA -GGTCCGCCGCTGATTAAAGAAATCGTTACCCATATCTAATTATTTCTTCGAATTCCTCTTTATAAGATAA -TCAGGGCTTTATTTTCAGCCCTGGTTGTTTTATATTCATCGCTGTTGCTTATTTAGACATTTTGTACTTT -TATTGTTGAGGTTATTAAGCGAAGCGACAATGGATTGTGTTGCTGCGGTTTTATAGGGTAGGGGAGAGGC -AGATGCGAATTAAACCAGACGATAACTGGCGTTGGTATTACGATGAAGAGCACGATCGAATGATGCTCGA -TTTAGCCAATGGTATGCTATTTCGCTCACGTTTTGCGCGCAAGATGTTGACTCCAGATGCCTTTTCTCCC -GCAGGCTTTTGCGTTGACGACGCCGCGCTCTATTTCTCTTTTGAAGAAAAGTGCCGCGATTTTAATTTAT -CTAAAGAACAAAAAGCCGAACTGGTGCTGAATGCACTGGTAGCAATTCGCTATCTCAAACCGCAAATGCC -GAAAAGCTGGCATTTTGTTTCCCATGGTGAAATGTGGGTGCCCATGCCGGGCGATGCGGCCTGCGTTTGG -TTGAGCGATACTCACGAGCAGGTCAATTTGCTGGTCGTTGAATCTGGCGAAAATGCCGCACTATGCCTGC -TGGCACAACCCTGCGTTGTTATTGCGGGTCGCGCGATGCAGTTGGGCGACGCCATTAAAATCATGAACGA -CAGGCTGAAACCGCAGGTTAATGTTGACAGCTTCAGCCTCGAACAGGCAGTCTAACGCGCCAACTTAAGT -GCAGTCTTCGGTACACAGCTACAGCAAAGAATGGTGCCATCATCGCCCATTGCTGATTTTTTCAGCGGCG -TGACTTCGCCTTCTAAAAGCTGAACACGGCAACTTCCACAAATGCCCGCGCGGCAAGAATAAGGGATACG -AATTCCCTGATTTTCTAATTGCTCCAGCAACACCTGTTGGTTATTTCCACGAAATGCCTGTCCCTGCCAG -TCAATATCTACATTTGCGTCCGGTTGTTGCGTGATGTTGGCGGTATCATCAGCGGCAGCTGCGCCGTAAA -TTTTTGCCGGAGCCGTTGCCAGAATTTCCACCTCATCGCCAACGCGAATCACGCCGCTATTACGGGCAAT -TAAATTCTGACCAAAATCGACATCGCCGTTATCCTGGGCAGTGCGGAAAGATTGCAATGTTTTTAATGGT -TCGCCTGCCGGATGTTTTTGCCCTTTTTCTGGGCTGACGGTGGTGAAAATACAGCGGCTACAAGGTTTAA -CCACATCAAACACCACATCACCAATGCGAATCACTTTCCAGCGATCTTCTTCCCAGGCTGACGCGCCGGA -AACCACCAGATTGGGGCGGAATTGCTCCATTTTTACACTGGCCGGACAACGTTGTTGGAGATCACGTAAC -GAGGCTTCGTTAGCAAGAAGGTAAGGATAGCCATCAGCAAATGACAGAGGTACAGTGTTGTGGCGTTTCA -CGCGCCGGGTCATTTGTGGCCCCACCCAGCGTAATTGCACTTCGCGGGAGAAAAATCCACTTAGCCATTT -GTTGATCGCGTCTGGCGCAATTCGCGCGGTAAAATGTGTGCCCCAAACTTCGGTTGGTGCGTCTTGTGTG -GCGAAATCAGCAAAACGAACATATGCGCTACTGCCATCTGGTGCGGTGAGATGCAAGCCATCATGCACAG -GTGAAGGAGTAAACCGTACCATCTGGGGAAACTGGCGAGCGGTAATAAACGTACCGTCAGGTTCCGTGAT -CATAAAGATGCGATCGAAGGCCAGACCACTGACATCTGCCAGAGCATGTGTAAGACCAATGCCGCGCATC -GATTTAACAGGATGAATAAAAAGCCGGATTAATGTCGCCACGGTGCGGTCCTCAAATGAAAATAAGCCCT -CAACTTTATGACATGACGCGCTTATTAGCTATAATGCGCAACAATTTTCTTAGCGCCTGTCCCATTAGGC -TATTTTATTTGTCAGTTTGGCCCTGGGTTATGCTCGAAATCCTCACGTACTTGTGTACGCTCCGGTTTCT -CCGCGCTGTCCATGTCCAGACTGACTGCAACAATTACGCCTACTGCGGTAGGCTCTTAGAGTAAAAGTGA -CGATATGAATTCTCTGTTTGCCAGTACGGCCCGTGGGCTGGAAGAGCTGTTAAAAACTGAACTGGAAAAC -CTGGGGGCCGTTGAATGCCAGGTGGTTCAGGGTGGGGTCCATTTCAAGGGCGACACACGGCTTGTTTACC -AGAGCCTGATGTGGAGCCGCCTGGCCTCGCGTATTATGTTGCCGCTGGGCGAGTGTAAGGTTTACAGCGA -TTTAGACCTCTATCTCGGTGTTCAGGCGATCAACTGGACAGAGATGTTTAATCCTGGCGCGACCTTCGCT -GTCCACTTCAGTGGTTTGAATGACACCATCCGCAACAGTCAGTACGGCGCGATGAAAGTGAAAGACGCGA -TCGTCGATGCTTTCACGCGGAAAAATCTGCCGCGTCCAAATGTTGATCGCGATGCGCCGGATATCCGCGT -TAACGTCTGGCTGCATAAAGAAACCGCCAGTATCGCTCTTGATCTGAGTGGTGATGGTTTACATCTGCGT -GGCTATCGCGATCGTGCTGGTATTGCGCCGATCAAAGAAACCCTGGCAGCCGCTATTGTGATGCGATCCG -GCTGGCAGCCAGGAACACCGCTGCTCGATCCGATGTGTGGTTCCGGTACGTTGCTGATTGAAGCAGCGAT -GCTGGCGACCGATCGCGCACCAGGCTTGCACCGTGGGCGTTGGGGCTTTAGCGGCTGGGCGCAGCATGAT -GAAGCTATCTGGCAGGAAGTGAAAGCGGAAGCGCAAACTCGCGCCCGTAAAGGCCTGGCTGAGTATAGCT -CTCATTTTTACGGTTCGGACAGCGACGCACGGGTGATTCAACGTGCACGCACTAACGCCCGTCTTGCGGG -GATTGGTGAACTGATCACCTTTGAGGTGAAAGATGTCGCGCAACTGACCAATCCGCTGCCGAAAGGGCCG -TACGGCACAGTGTTGAGCAACCCGCCATACGGGGAACGTCTGGACAGCGAACCGGCGCTGATTGCGCTGC -ATAGCCTGCTGGGTCGGATCATGAAAAACCAGTTTGGTGGCTGGAATCTCTCTTTGTTTAGTGCCTCGCC -GGATCTGCTAAGCTGCTTGCAGCTGCGTGCAGACAAACAGTACAAGGCGAAAAACGGCCCGCTGGACTGC -GTACAGAAAAATTACCACGTTGCCGAAAGCACTCCAGACAGCAAACCGGCGATGGTAGCGGAAGACTACA -CCAACCGCCTGCGTAAGAACCTCAAAAAATTCGAGAAGTGGGCTCGCCAGGAAGGGATTGAATGTTACCG -CCTGTATGACGCCGATCTGCCAGAATATAACGTTGCCGTTGACCGTTATGCCGACTGGGTGGTGGTGCAG -GAGTATGCGCCGCCAAAAACTATTGATGCTCACAAAGCGCGTCAGCGTCTGTTCGATATTATCGCTGCAA -CCATTTCGGTACTGGGGATTGCGCCAAACAAACTGGTGCTGAAAACCCGTGAACGCCAGAAGGGCAAAAA -CCAATACCAGAAACTGGGCGAGAAGGGCGAGTTTCTTGAAGTTACCGAATATAACGCTCACTTGTGGGTG -AACCTGACGGATTATCTCGATACTGGTCTGTTCCTCGATCACCGCATCGCCCGTCGTATGCTCGGTCAGA -TGAGCAAAGGCAAAGATTTCCTCAACCTGTTCTCTTATACCGGCAGCGCCACCGTGCATGCGGGATTAGG -CGGTGCACGCAGCACCACCACCGTGGATATGTCGCGTACTTATCTGGAATGGGCAGAACGCAACCTGCGT -CTGAATGGCCTGACCGGGCGTGCGCATCGCCTGATTCAGGCCGATTGCCTGGCGTGGCTGCGTGAGGCAA -ATGAACAGTTCGATCTGATCTTTATCGATCCGCCAACCTTCTCTAACTCAAAACGAATGGAAGATGCGTT -TGATGTTCAGCGCGATCATCTGGCGCTGATGAAAGATTTGAAACGTCTGCTGCGTGCAGGTGGGACGATC -ATGTTCTCGAACAACAAACGTGGCTTCCGTATGGATCTCGACGGCCTGGCAAAACTGGGACTGAAAGCAC -AAGAAATTACGCAAAAAACGCTCTCCCAGGATTTCGCCCGTAACCGCCAGATCCACAACTGCTGGCTGAT -TACCGCAGCCTGAAAGGAATAGTAATGTCATTAATCAGTATGCATGGCGCATGGCTGTCGTTCAGCGACG -CGCCGCTTCTCGATAACGCAGAACTGCATATCGAAGATAACGAACGTGTTTGTCTGGTGGGCCGCAACGG -CGCAGGCAAATCGACGTTAATGAAAATCCTCAACCGTGAACAAGGGCTGGATGACGGTCGCATTATTTAC -GAGCAAGATTTGATTGTAGCGCGTCTGCAACAGGATCCGCCGCGTAACGTTGAGGGTAGCGTTTATGATT -TCGTTGCCGAAGGCATTGAAGAACAAGCGGAATATCTGAAACGCTATCACGATATTTCGCGCCTGGTGAT -GAACGACCCGAGCGAGAAAAATCTCAACGAACTGGCGAAGGTTCAGGAACAGCTGGATCACCACAACCTG -TGGCAGCTGGAAAACCGCATCAACGAAGTGCTGGCGCAACTGGGGTTAGATCCTAACGTTGCGCTGTCGT -CGCTTTCCGGCGGCTGGTTGCGTAAAGCGGCATTAGGACGCGCGCTGGTGAGTAATCCGCGCGTGCTGTT -GCTTGATGAACCGACAAACCACCTGGATATTGAAACCATCGACTGGCTGGAAGGGTTTTTGAAAACTTTC -AACGGGACGATTATTTTCATCTCCCACGACCGTTCGTTTATCCGCAATATGGCGACGCGCATTGTTGATC -TCGATCGCGGCAAGCTGGTGACCTATCCAGGGAATTACGACCAGTACCTGCTGGAAAAAGAAGAAGCCCT -GCGCGTGGAAGAATTACAAAATGCCGAGTTCGATCGCAAACTGGCGCAGGAAGAGGTGTGGATCCGCCAG -GGGATCAAAGCACGCCGTACCCGTAATGAAGGCCGCGTACGCGCCCTGAAAGCGATGCGTCGCGAACGTG -GTGAACGTCGCGAAGTGATGGGTACCGCAAAGATGCAGGTGGAAGAGGCCAGCCGCTCCGGTAAAATCGT -TTTCGAAATGGAAGACGTTTGCTACCAGGTTAACGGTAAGCAACTGGTGAAAGATTTTTCTGCCCAGGTT -CTACGTGGCGACAAAATTGCCCTGATTGGTCCGAATGGGTGCGGCAAAACCACGCTGCTAAAACTGATGC -TCGGTCAGCTTCAAGCGGACAGCGGGCGTATTCACGTTGGCACCAAACTGGAAGTGGCTTATTTCGATCA -GCACCGCGCGGAACTGGATCCCGATAAAACGGTGATGGATAACCTTGCCGAAGGTAAGCAAGAGGTGATG -GTTAACGGCAAGCCACGCCACGTATTGGGCTATTTGCAGGACTTTCTGTTCCATCCGAAACGGGCGATGA -CGCCGGTACGTGCGCTTTCTGGCGGTGAGCGGAACCGCTTGCTGCTGGCGCGTTTGTTCCTCAAACCAAG -CAACTTATTGATTCTTGACGAACCGACCAACGATCTTGATGTCGAAACGCTGGAACTGCTGGAAGAACTG -ATCGACAGCTATCAGGGCACGGTATTGCTGGTTAGCCACGATCGTCAGTTTGTCGATAACACCGTTACAG -AATGTTGGATCTTCGAAGGCGGCGGTAAAATTGGTCGTTATGTCGGCGGTTATCATGATGCCCGTGGTCA -GCAAGAGCAGTATGTGGCGCTCAAACAGCCTGCGGTGAAAAAAACCGAAGAAGCCGCCGCGGCAAAAGCA -GAAACTGTAAAACGCAGCAGTAGCAAACTAAGCTATAAATTGCAGCGCGAACTGGAGCAGCTACCGCAAT -TGCTCGAAGATCTGGAGGCGAAGCTGGAAGCCCTACAGACGCAAGTGGCGGATGCTTCCTTCTTCAGTCA -GCCGCATGAGCAGACGCAAAAAGTGCTTGCTGATATGGCTGCTGCAGAGCAGGAGCTGGAGCAAGCCTTT -GAACGCTGGGAGTATCTTGAAGCGTTAAAAAATGGTGGCTGATCGCAAAATAGTCGATTTAAACAGAGAC -AGCTGACAACGGTAAAATTGCCTGATGAACTGGGTTTATCAGGCATGAAAACCAACACTTTGTTAGTCAT -CTGTAAAATAGCGCATCATTAAGGAGTACCAATGTGCGAACATCATCATGCCGCGAAGCACATCCTGTGC -TCGCAGTGTGACATGCTGGTGGCGTTACCGCGCCTTGAGCATGGTCAGAAAGCGGCATGTCCCCGGTGTG -GCACAACGTTAACCGTGGCGTGGGATGCCCCTCGGCAGCGTCCCACCGCCTATGCGTTGGCTGCACTGTT -CATGCTGTTGCTGTCCAACTTGTTTCCTTTTGTGAATATGAACGTTGCAGGAGTTACCAGTGAAATTACA -TTACTGGAAATTCCCGGCGTGCTTTTTTCTGAGGACTACGCCAGCCTCGGCACCTTTTTCCTGTTGTTTG -TGCAACTGGTTCCCGCGTTTTGTCTGATAACCATTCTGTTACTGGTGAATCGCGCGGAATTACCGGTCCG -TTTAAAAGAGCAACTGGCACGGGTGCTTTTTCAACTCAAAACCTGGGGAATGGCGGAGATTTTCCTCGCG -GGTGTGCTGGTCAGTTTCGTTAAACTGATGGCTTACGGCAGCATTGGGGTAGGCAGCAGCTTTCTCCCCT -GGTGTTTATTTTGTGTCCTGCAACTGCGCGCTTTTCAGTGCGTTGATCGTCGCTGGTTATGGGACGACAT -CGCCCCGATGCCAGAACTGCGCCAGCCGCTAAAACCAGGCGTCACGGGGATACGTCAGGGGCTGCGTTCG -TGCTCCTGTTGTACGGCAATCCTTCCTGCTGATGAACCCGTGTGCCCGCGTTGTAGTACCAAAGGGTACG -TTCGGCGTAGAAACAGCCTGCAGTGGACACTCGCGCTGCTTGTAACGTCCATCATGCTGTATCTTCCGGC -TAATATTTTGCCCATCATGGTGACGGATTTATTAGGCTCGAAGATGCCGTCGACGATTCTCGCTGGGGTC -ATTCTGTTATGGAGCGAAGGCTCTTATCCCGTCGCTGCGGTGATCTTTCTGGCCAGTATTATGGTGCCAA -CGTTAAAGATGATCGCCATCGCGTGGCTGTGTTGGGATGCCAAAGGGCATGGCAAGCGCGACAGTGAAAG -AATGCATTTGATTTATGAAGTTGTTGAGTTTGTAGGCCGCTGGTCGATGATTGACGTTTTCGTTATCGCG -GTGCTCTCGGCGCTGGTGCGTATGGGAGGTTTAATGAGTATTTATCCGGCAATGGGTGCATTAATGTTTG -CTTTAGTCGTCATAATGACAATGTTTTCTGCTATGACGTTTGACCCGCGTTTGTCGTGGGATCGTCAACC -TGAATCAGAGCATGAGGAGTCCTGACAGTATGGAATCTAATAATGGGGAAGCCAAAATCCAGAAAGTGAA -GAACTGGTCTCCCGTGTGGATATTTCCTATCGTCACGGCGCTCATTGGGGCCTGGGTTCTTTTTTATCAT -TACAGCCATCAGGGACCGGAAGTGACCCTGATCACCGCGAATGCGGAAGGAATTGAAGGTGGCAAAACCA -CCATTAAAAGCCGTAGCGTTGACGTCGGCGTGGTTGAAAGCGCCACACTGGCTGATGATTTGACGCACGT -TGAAATCAAAGCGCGGCTGAATTCCGGTATGGAAAAATTGCTGCATAAAGACACCGTCTTTTGGGTGGTG -AAACCGCAGATTGGTCGCGAAGGGATTAGCGGCCTGGGAACGCTGCTGTCTGGAGTTTATATCGAACTGC -AGCCAGGCGCGAAAGGCAGCAAAATGGATAAATACGATTTGCTGGACTCGCCACCGTTGGCCCCGCCTGA -TGCGAAAGGTATCCGTGTGATTCTCGATAGCAAAAAAGCCGGGCAGCTCTCGCCAGGAGATCCGGTGCTG -TTCCGTGGCTATCGGGTAGGTTCGGTTGAAACCAGCACCTTCGATACACAAAAACGCAATATCAGCTATC -AACTGTTCATCAATGCACCTTATGACCGACTGGTGACCAACAATGTTCGCTTCTGGAAAGATAGTGGCAT -TGCGGTTGATCTGACGTCAGCAGGGATGCGTGTGGAGATGGGCTCATTGACAACGCTGCTGAGTGGCGGT -GTCAGCTTTGATGTGCCGGAAGGTCTGGATTTAGGGCAGCCAGTGGCACCGAAAACAGCTTTCGTTTTGT -ATGATGATCAGAAGAGCATTCAGGATTCGTTGTACACCGATCACATTGATTATCTGATGTTCTTTAAAGA -TTCGGTACGCGGTCTGCAACCGGGAGCTCCGGTAGAGTTCCGGGGTATTCGCCTGGGTACCGTAAGCAAA -GTGCCATTCTTTGCGCCGAATATGCGTCAGACATTTAACGATGATTACCGTATTCCGGTACTGATTCGTA -TCGAGCCAGAGCGGCTGAAAATGCAGCTTGGCGAAAATGCGGATGTTGTTGAGCACCTTGGCGAATTGTT -GAAACGTGGTTTACGCGGATCGCTGAAAACCGGAAACCTGGTCACTGGTGCACTGTATGTTGATCTCGAT -TTCTATCCAAATACGCCTGCAATAACCGGTATTCGTGAATTTAATGGTTATCAGATTATCCCGACCGTTA -GCGGCGGCCTGGCGCAAATCCAGCAACGACTGATGGAAGCGTTGGATAAGATCAACAAACTGCCATTGAA -TCCGATGATTGAACAGGCAACCAGTACGCTTTCTGAAAGTCAGCGCACAATGAAAAACCTGCAAACGACG -CTGGATAGCATGAACAAGATCCTCGCTAGCCAGTCGATGCAGCAGTTGCCGACGGATATGCAGTCAACGT -TGCGTGAATTGAATCGCAGCATGCAGGGCTTCCAGCCTGGCTCCGCAGCCTACAACAAGATGGTGGCGGA -TATGCAGCGCCTTGATCAGGTGTTGCGAGAACTGCAACCGGTGCTGAAAACGCTCAATGAGAAGAGTAAC -GCGCTGGTATTTGAAGCGAAGGACAAAAAAGATCCAGAGCCGAAGAGGGCGAAACAATGAAAAAGTGGCT -AGTGACGATTGCAGCACTGTGGCTGGCCGGATGCAGCTCCGGCGAAATTAATAAAAACTATTACCAGTTA -CCTGTGGTGCAGAGCGGTACACAAAGTACCGCCAGCCAGGGCAATCGTCTGTTATGGGTAGAGCAGGTCA -CTGTTCCTGACTATCTGGCGGGGAATGGTGTGGTTTATCAAACCAGTGATGTGAAGTATGTGATTGCCAA -CAACAACTTGTGGGCCAGCCCGTTGGATCAACAGTTGCGCAACACCCTGGTTGCCAACCTGAGTACGCAA -CTGCCCGGCTGGGTGGTTGCCTCCCAGCCTCTGGGAAGCGCCCAGGACACGCTCAATGTTACCGTAACGG -AGTTTAACGGTCGCTATGATGGCAAGGTCATTGTCAGTGGTGAGTGGCTGTTGAACCACCAGGGACAACT -GATCAAACGTCCGTTCCGTCTGGAAGGAGTGCAAACTCAGGATGGTTACGATGAGATGGTTAAAGTGCTG -GCCGGTGTCTGGAGTCAGGAAGCCGCTTCTATTGCACAAGAGATAAAGCGTCTACCTTAATTATAAAGAT -TTGTAAATATAACCGTCTCCGGTATGTTGCCTGAGGCGGTTTTTTTGTCTCTAACGTGCGGAAAAATTTG -TTCCTCTTCACATTTTTTGTACAACCGACATGCCCGTGTAGCTCACAAATATGACAGTGGCGTGAATTTT -GCGCATTGACGGCAGTTATGATTCGCGGTATTGCTTAACTGTGATTGCACATTTAGTAATCACTGTTTTC -TTTTCCACCAGAAACCAGTATGAGGGAAACGAGGCATGAAGAGACAAAAACGAGATCGCCTGGAACGGGC -ACATCAACGTGGTTATCAGGCCGGCATCGCCGGACGCTCAAAAGAAATGTGTCCCTATCAGACGCTGAAT -CAAAGGTCACAATGGCTGGGAGGCTGGCGAGAAGCCATGGCGGACAGGGTAGTAATGGCCTGATTCTGTC -TCTTTAAAAAGAAACCTCCGCATTGCGGAGGTTTCGCCTTTTGATACTCTGTCTGATTATAATCAGAAGG -CAGACGTATCCTGGAACAGACCGACTTTCAGGTCGCTGGCGGTATAGATCAGACGACCATCAACCAGCAC -TTCGCCATCCGCCAGGCCCATAATCAGACGACGGTTAACAATGCGTTTAAAGTGAATACGGTAGGTCACT -TTTTTCGCTGTCGGCAGTACCTGACCAGTGAATTTCACTTCGCCAACGCCCAGCGCGCGGCCTTTACCTT -CGCCGCCCAGCCAGCCGAGGTAGAACCCTACCAGCTGCCACATTGCGTCCAGGCCCAGGCATCCCGGCAT -AACCGGATCGCCAATAAAGTGGCATCCGAAGAACCACAGATCCGGATTGATATCCAGTTCTGCTTCAACA -TACCCTTTGTCGAAGTTACCACCCGTTTCGGTCATTTTGACCACACGGTCCATCATCAGCATGTTCGGTG -CTGGCAATTGCGGGCCTTTAGCGCCAAACAGTTCACCGCGACCAGAGGCAAGAAGGTCTTCTTTTGTATA -GGATTCGCGTTTATCTACCATGTTCTCTGTAAGCCTTATTTTATTGAAGCACGCAGGATAGCTAACACGT -GTACGCTGAACAAGTCCGATCAGTTCGGAATAAACCAGTTCAGCCAACGTAATGGCCATGGAAAACGGTG -ACGTCCTTCCTGTTGCGATGCTTGCGCGATACGTTCCTGGATGGTTTGCATCAGCGTCGTTTGGCCTTCG -CCATCCCACACCAGATTTAATAATAACGGCAGTGCGTCAGTCACATCGTCTACTGCCCAGATGGTGAATT -TGCCTTCTTCTACCGCTTTCACCAGTTCACTGTGAAGACTTAAATGGCGAACGTTAGCTGTGGGGATAAT -GACACCTTGTTTCCCGGTTAACTCACGTTGCTGGCAAATAGCAAAGAAGCCTTCGATTTTCTCATTTAAA -CCACCGACCGGCTGGGCGCGACCGAACTGATCGACTGAACCTGTGATAGCGATACTCTGATTCACCGGCA -CATCGGCGAGGGCGCTTATCAGGGCGCAGAGTTCAGCCATCGAGGCACTATCTCCATCAACTTCACTGTA -TGACTGCTCAAATGTCAGCGATGCTGAGAAGGGGATCTGTTGCTCAAGCTGTAGTTCCGACATCAGGAAC -GCTTGCATGATCATCATCCCTTTCGCATGGATATTGCCGCCAAGCTCCGCTTTGCGTTCGATGTCGGTGA -ATTCACCATCGCCAATATGCACAACGCAGCTAATGCGAGAAGGTTCGCCAAAAGCGCGTGGATGACCCGG -AAATTCAATGACCGAAAGGGCGTTAATTTGCCCGATGCGTTCGCCTTCGGTTTCAATCAGGATTTGCTCC -TGAAGGATCTCATCCTGCATACGTTCAGCGAGGAAACCTTCGCGCCATTCACGCTGCTGCAGCATTAAGT -TTAGCTGCTCGCCGGAGAAGGTGTCGCCATCACACAGGGAGGCGACCTCTTTACACTGGCGGAGGATCCA -CTGCGGGCTAAGCGGAAGTGTTTCTTGTTCACCGGTGTAGCGTGCTGCTTCGCGGATAAGTATCGGCCAG -GCATCCGCTCCCGGTGCAGGTAAGTGATTATGTCTGGCGGTAAATGTCACCCAGCGACACCACTGGGTTA -CTGACTCCGCATCGACAATCTGCAGAGTATCTTCAAATTCGCTATAAATAGCCTGCTCTGAAAGCTCTGG -CTCCATCTCCTGGAAATCAGCCAATGATTCGCGTTCGCCTACCAGAATGACTTTCAGCTTCAATGGCATC -GAAGGCACAGAGACGGGGAGAGGGCGCGACTCATCAAACGCAACCCAGTCAAAACGCTCGCGGTTAACGA -TATTTTTCAGCCGCATCCACAGCAGAGGTTGCGCCAGCAGTGTACGCAAAGAGATAATGAGAATACCGCC -ATTTGCCTGATGCACCAGACCAGGCTGCAGGGTAATGTCGCCATTAAACTGGCGCAGGCAGCCAAAGAGT -TGCTCCGCTTCTACCCAGTCGGCAGCGACAACTTGCGTTAAAGTCGCAAAATTATCATCTGCACTCACTG -CGTGACGTAAGCGGATGGAGTGGCCGGAAACCTCATAGTGACCGCCCACCAGTTGGCCTGCATCGCTTTG -TAGCGTACGCGCGGCATTGGCAATAAGATTCAGATACTCAGACTCTTCCGGGGCCTTCGCCAGCATAAAA -GAGGAGGATGCTCGCGTATGCAGCAACTGCTCCAGCGCAAATTGCAGCCGCGGTTGAGTATCACTGAATA -AAGGATCGTTTTCGTCAATCAAATGTGGCTGAGCAAATATTTCCTGATAGCTATCGGTATCAGGAACCAG -GTCACGCCATGCAAGTTTCGTAATGGTCAAAGTTGATGTTTTTTAGTCTGTTGTCAAAGCCGCGATTATA -CCGTAACCGGCACTACAGCACACGTAGAAAGCACCGACAATACTCCTGGCATGGGCGTTAAAGCTCACAG -GATGGAGATTCTTTTCTTCACTGGCCTAAAAAGCTGATATTCTGTAAAGAGTTACACGGTAACATTGAGA -TCGCTATGAAATATCAACAACTTGAAAATCTTGAAAGCGGTTGGAAATGGAAGTATCTGGTTAAGAAGCA -TCGCGAAGGGGAGTTAATCACCCGTTACATAGAAGCCAGTGCCGCCCAGGAAGCCGTCGATGTGTTGCTC -TCGCTGGAAAATGAACCCGTGCTGGTAAATGGCTGGATTGACAAGCATATGAATCCGGAACTGGTCAATC -GCATGAAGCAAACCATTCGGGCAAGACGAAAGCGCCATTTTAATGCGGAACACCAGCATACGCGCAAAAA -ATCGATCGATCTGGAATTTATTGTCTGGCAACGTCTGGCTGGTCTTGCGCAGCGTCGCGGTAAAACGCTT -TCTGAAACGATTGTTCAGCTGATTGAAGATGCGGAAAACAAAGAGAAATACGCGAATAAAATGTCTTCTC -TGAAGCAGGATCTGCAGGCATTGCTGGGTAAGGAATAACTGACGAAAGTCAGTTCAATTTACTAAAGGCA -AAAAAAACCCCGCAGCAGCGGGGTTTTTCTACCAGACGAGAACTTAAGCCTGCGGCTGAGTTACAACGTC -TTTGATACCTTTAACTTCGATCTCTACGCGACGATCCGGAGCCAGGCAGTCGATCAGTGCAGCACGCTGT -TTCACGTTGTCACAGGTGTTGCCAGTAACCGGGTTGGATTCGCCCATACCACGTGCGGAGATCTTGTCTG -CCGGGATACCTTTGGAGATCAGGTAATCAACAACAGACTGAGCACGGCGCTCGGACAGACCCTGGTTGTA -AGCGTCAGAACCGATGCGGTCGGTGTAACCCAGAACAACTACGGAACCGTCTTTCGGATCCAGGTTGCTC -AGCTGGCTGTACAGCTGATCCAGAGCAGCCTGACCTTCCGGTTTCAGGGTTGCTTTGTTGAAGTTGAACA -GAACGTCAGACTTCAGAGTGAAGTGCTTGGTCTGTACTTCCGGTGCCGGAGCTGGAGCCGGAGCAACTAC -TGGAGCTGCTTCGCCCTGACCGAAACGGTAGGAAACACCCAGGCTCAGCATGCCGTTGTCCGGACGAGTG -CCGATGGTGTGTGCGTCACCGATGTTGTTGGTCCACTGGTATTCCAGACGGGTAGCGATTTCAGGAGTGA -TCGCGTACTCAACACCGCCAGCGAAGACCGGAGAAACGCCGGTGTCGTGGTTTTTACCATAAACGTTGGA -TTTAGTGTCTGCACGCCATACCATGCCACCCAGACGAGTGTAGATGTCCAGGTCGTCAGTGATTGGGTAA -CCCAGTTTAGCGGTCAGTTGAACGCCCTGAGCTTTGTATGCACCGTTTTCAACGCTGCCTTTGTACGGCA -TACGACCTAACCAGTCGTAACCCATTTCAAAGCCAACATACGGGTTAACCTGGTAACCACCAAAAGCACC -AGCGCCCAGTTGGTTTTCATGGGTCGGGCCATTGTTGTTGATGAAACCAGTGTCATGGTACTGGGACCAG -CCCAGTTTAGCACCAGTGTACCAGGTGTTATCTTTCGGAGCGGCCTGCGCTACGGTAGCGAAACCAGCCA -GTGCCACTGCAATCGCGATAGCTGTCTTTTTCATTTTTTGCGCCTCGTTATCATCCAAAATACGCCATGA -ATATCTCCAACGAGATAACACGGTTAAATCCTTCACCGGGGGATCTGCTCAATATTAACTCTACCGATAT -CTTCGGCTTATGCCGAGCACCCCTGGCGATGTAAAGTCTACAACGTAGTTGAAAACTTACAAGTGTGAAC -TCCGTCAGGCATATGAAAAAAAAGTCTTGTATAAGGTATGTTTAATCTTTTTTGTCAGCGACAATTTACA -GAAGAGAATCGCGGAAACCGCTTCAGACAAGCCTCCGCAAGGAAAATTAGTCACGACTGAAAGCATTGGC -TGGGCGACAAAAAAAGTTCCAGGATTAATCCTAAATTTACTTAATGATACAAATTAGAGTGAATTTTTAG -CCCGGAAAGTTGTCTCGTGGCGTGAGAGGATGCGCTTACCGGACGCATAATAAACCCCATAGCGTTACCT -TCATTTGCCGCATCAACAAGTTCAGCATGCTCTTCTTCAGTCAAATCATCTGCCAACCAACCGATCACCA -CACTGTAATTGCCCGTGCGTAAAGCGCGAACCATTGACTCCACAGTGTGGCAAGGGGAGAGCTGGCTAAT -CTGCATTACTTTCGTTAAGGGTAGCCCAGATGCCTGAACCCATTCCCGACTCAGTTTTTGTTGCGGTGTT -AACCAGAGTTGCCAGCGCGATTGCTGACCGAGTTGCTGTAACAATGGCAACAGTAGAAGTTGCGTCATCA -TGGGCTGATCTTCGCGATAGACAACTTCACTGATAAGCCCGGCTGTAGTGTTTTCCGTAGAGACACGCGC -AATTTTACTTGCTGCGGATGAGAACGACGAAGAACGATGTGCATAGCCTGAAGTGTACATAATCAATCCA -GCCCCTGTGAGTTACTGTATGGATGTACAGTACATCCAGTGACAACAAAGATCAACCCTATTTTCGGAAA -GAGCCTCGCAAATTTTGTCGTTGGTGACGGGAAAACATAAATTAATCTTGCCCCTTAAGAATAAGTTGCC -TATTTTCGTAGTTAACGGATCCGTTAATGTGAATCATTCTTTTATGTTATGATTTTAAAAGGAATTTTAT -GAAAAGCCTCTCCTATAAGCGGATCTATAAATCACAAGAATACCTGGCAACGTTGGGCACAATTGAATAC -CGATCATTGTTTGGCAGTTACAGCCTGACCGTTGACGACACGGTGTTTGCGATGGTTTCTGATGGTGAGT -TGTATCTTCGGGCTTGTGAGCAAAGTGCACAGTACTGTGTAAAACATCCGCCTGTCTGGCTGACATATAA -AAAGTGTGGCCGATCCGTTACCCTCAATTACTATCGGGTTGATGAAAGTCTATGGCGAAATCAACTGAAG -CTGGTGCGTCTGTCGAAATATTCTCTCGATGCAGCGCTGAAAGAGAAAAGCACGCGCAATACCCGGGAAA -GACTGAAAGATTTGCCCAATATGTCTTTTCATCTGGAAGCGATTCTCGGGGAGGTGGGGATTAAGGATGT -ACGGGCGTTACGTATACTTGGGGCAAAAATGTGTTGGTTGCGACTGCGGCAGCAAAACAGTCTGGTGACA -GAAAAGATTCTGTTTATGCTTGAAGGTGCCATTATCGGCATTCATGAAGCTGCGCTCCCGGTGGCACGCC -GCCAGGAGCTTGCAGAATGGGCTGACTCTCTTACGCCGAAACAGGAGTTTCCTGCGGAACTTGAGTAATC -TGGCGTTGCAGACGACCAATCTCAGGCAGTAATGCAATCAATAATCCAACTTGTTGTACGACCAGAGGTT -CTTTGCTGTCTGCCCGTGGTTCAAGTTGCTGCATCCGCTGTTTCAGGCTAGCTAATGCCTCATTGACGCG -TTCTTCATCAGCAGGTTGATGATGTAACGCGTCATCAACATAGCAAACTGCGTCATCAAGAAACGCCAGA -ATTTCAGGATTAGTTAACTGCTCCCGGTGAGCACCGAGGGCTGAGATATAGCTGGTAAACGTATGGTTAA -GGCACAGCAACCGAAACGCGGCTTCGCGAATTTGCGGGGTAACGTTCGGCTCGCTGGACATATTTGATAC -CACCGACGCCAGCTCAGCATCACGGTTGTGTGCATCGCGGCGGGCAATACGATACGCCAGACGGTTATCA -CGCCCCTGATGGTATTGCTCCAGTATGGCATCGAGATACCGACAGTTGGCCTCTGTGGCGCGTTCGAGCA -TGCGCGGCAGATTGCGAAACTGCCAGTCAGGCCAGATGTAGCTCACTGCCGCCCACGCAATGGCACAACC -AATCAGCGTATCGATTACGCGAGGTAACGCTACTTCAAAACCTTCACCCAGTAAGTTAAAACACAGTAGC -ACCAAAAGTGTGATGAACATCGTTGCATGAGCGTATTGCACGTTACGGAAGGCAAAAAAGAGCACGCCGG -TAATAACCAGCAGCACCAGCTGCCCTTCCAGTGATGGCACAAACCACAGCACAGGAATGCCAATGGCGAT -ACCTACCAGCGTACCAATAATCCTTAACTTCAGGCGGTGGCGCGTGGCGTTATAGTTTGGCTGGCAGACA -AACAAACTTGTCAGCAAGATCCAATACCCGTGATGCATTCCGGTTATCTGAATGATGGCGTAGCCGAAGC -ACAACACCAGCGACATTCTTACCGCATGACGGAAGAGGGCGGATTCCGGCGTGAAGTGACGGCTAAGACG -CAGCCAGATATCACTCAACCCGTGCGGGCTGTCATCAGCGAGCTCATTTTCGTCATTATTATGGGGTAGT -GCCTGGGCCTGTTCTGATTCAATTGTTGCCAGTTGGGCATCAATGGCGCGTAAATTGTTCAGCAAAAATC -CCAGTGTTTTGAGTAAATCGGCGGGTGCGCCGTTATCGCGCATCCGCTCCAGCGCAGCATCAATATGCGT -AAAAGCGCGCTCAAAATGCGGATCATGTTGATAAGGCTGACGCAACAAAATACAGCGTGACAGTTGCTGG -CACGCCTGGCCCTGCATCGACATCAGCCGCTGAAAACGGAACAGCACGTCGCTGTGGCGAAAATGTTCAC -GCAATGTTTGATACTGAATATGAGAAGAGCTGGCACGCTCGTGAATATCCTGTGCGACAAAGTAATAATG -CAGCGTGCGACGCGTTCCCCGTTGACCACGATCGCCACGTAAGCGGGTCAGCAGCGAGAGTTTCGTCTGA -TTCAATGTCGCCATCAGCAGACCGTTGGCGAGAGCCAAATCGTACAGCGGTGCCTGGCTTTGATCTTCAA -TATCAGGATCAAACATGCGCGACTTGAGCTCAAGATAACGCGCCAGTTGTTCATAGCAACGCGCCAGGTT -GTCCTGCAGCGGGCGGACCGGGAACAGCAGATGACCAATAAGTGTCAGGACGTTGTACCAGACGGCACCG -GCCAGCAGATACATCGGCTGCTGATACCAGTGCTCATACAGTGATGTTCCCAACATAGTGTAAATGGCGA -TCAGCAATGCACCGAAGGCAATTGTTGCATAGCGTTGACCCAGACCGCCGAGCAAAATGAAGCCGCTGGT -AGAGAGCGTTAAGCCAATCGCAAATAGCCAGGGCCAGGGAAACAGCAATTCTACTGAGGCCGAGGCGATA -AAAAAGCAGAACAGCGTAATGATGAGGTTACGCAAACGTCCCGCCAGTCGGTCATCGAGATCGGTCAGCG -CCGCTGCCACCATCCCCAGCGTTAGCGGAATCGTCAGTTTTACATCACCCAGCCACCACGGAAACGCTGT -GGTTCCACAAAGCGCAATAAAAATACGCGCGTAATACAGCCAGGCGCTGTTCCAGGTATAGCGTTTGAGC -AAAGGACTTAGCATAAAGGCCATATTAGTGGATTATTCAAAACGACGACGTGCATTGGCTTCACGCGCAG -CTTGCGCTGTTTCTACCGATACCACGCGACGACCAACCGGCCATAGTGCAATAGCGGCAATTTTAAAGTT -CGCAATGCCGACAGGAATGCCAATGATTGAAATACATTGTGCGATGCCCGTTGCAATGTGCATCAGGCAT -AACCACCAGCCAAAGAAAATCAGCCAGAAAATATTCAATACCGTACCGCCAGTATTCAGCAGCACATTTT -TGCCAGCCGGGTTCAGTTCATCGACATGAATAGCTTCATTGCCATAAGGCACCAGAGACAGTTTAGTGAT -CTCCCAGCAGGATCGTGTCAGCGGTAAGGTAAAAATCAGCACAATACTGACCAGAGTCGCCAACAGCCAG -CCCAGAGTGGTGGCAAATCCGCCAAGCACAAAGTTCAGAATGTTCAAAACGGTACGCATAAAACCTCGCT -TTACTGTGGTTTTCAGTAATGGGCGGCAATTGTAACGTTTTTTTGGGCTGGAGCACGTTTTCTCTGACGG -TTACACTGATAAGAAATAATTTCGTGTGGATCTACAGAGTCATGGAACTGAAAGCGACAACGCTTGGAAA -ACGTCTGGCACAGCACCCTTACGATCGGGCGGTGATCCTCAATGCCGGGATTAAAGTCTCCGGCGATCGC -CACGAATACCTTATTCCTTTCAATCAATTACTGGCGATTCACTGTAAGCGCGGTCTGGTATGGGGCGAGC -TGGAATTTGTACTGCCGGACGAAAAAGTGGTGCGTCTGCACGGCACCGAATGGGGCGAGACGCAGCGTTT -TTACCATCATCTTGATGCTCACTGGCGGCGGTGGAGTGGCGAGATGAGCGAAATTGCGTCTGGTGTTTTA -CGCCAGCAACTGGATTTGATTGCCACGCGCACTGGGGAAAATAAATGGCTGACGCGTGAGCAAACCTCTG -GCGTGCAGCAACAAATCCGCCAGGCTTTGTCGGCGTTGCCGTTGCCGGTTAACCGACTGGAAGAATTCGA -TAACTGCCGTGAGGCGTGGCGTAAATGTCAGGCCTGGTTGAAAGATATTGAAAGCGCTCGGTTGCAGCAT -AACCAGGCGTATACCGAAGCCATGCTTACCGAGTATGCGGATTTTTTCCGCCAGGTCGAGTCTTCACCGC -TGAATCCGGCGCAGGCCCGGGCAGTCGTTAATGGCGAGCATTCTCTGTTAGTGCTGGCAGGTGCAGGAAG -CGGAAAAACGTCGGTGCTGGTGGCCCGTGCAGGCTGGTTGCTGGCGCGTGGTGAAGCGTCCCCTGAGCAA -ATTTTATTGCTGGCGTTTGGTCGCAAAGCCGCTGAAGAGATGGACGAGCGGATTCGCGAACGGCTACATA -CCGAAGACATTACCGCACGCACGTTTCATGCGCTGGCGCTGCATATTATTCAGCAGGGCAGCAAAAAAGT -TCCGATAGTCAGCAAACTGGAAAATGATACCGCTGCCCGTCATGAACTCTTTATTGCTGAGTGGCGCAAG -CAATGCAGCGAAAAGAAAGCGCAGGCGAAGGGCTGGCGGCAATGGCTGACGGAAGAAATGCAGTGGTCAG -TGCCAGAAGGTAACTTCTGGGATGATGAAAAATTACAGCGTCGCCTTGCCTCTCGCCTCGATCGCTGGGT -AAGTCTGATGCGGATGCACGGTGGTGCACAGGCAGAAATGATTGCCAGTGCACCCGAAGAGATTCGCGAT -CTGTTCAGTAAACGTATCAAGTTGATGGCCCCGTTATTAAAAGCCTGGAAAGGTGCGCTGAAGGCAGAAA -ACGCTGTCGATTTTTCGGGCCTTATTCATCAGGCGATTGTGATTCTGGAGAAAGGTCGCTTTATCAGCCC -GTGGAAGCATATTCTGGTTGATGAATTTCAGGATATCTCGCCGCAGCGGGCAGCGTTGTTAGCGGCATTA -CGCAAGCAAAACAGTCAGACGACGTTGTTCGCTGTTGGTGATGACTGGCAGGCGATTTACCGATTCAGCG -GTGCGCAAATGTCGCTCACCACCGCTTTCCATGAAAACTTTGGTGAAGGCGAACGCTGTGATTTAGACAC -GACTTACCGTTTTAACAGTCGTATCGGTGAGGTGGCAAACCGGTTTATTCAGCAGAACCCAGGCCAGCTG -AAAAAGCCGCTAAACAGCTTAACCAATGGAGACAAAAAAGCCGTCACGTTATTGGATGAGAGTCAACTTG -ACGCTTTGCTGGATAAGCTCTCTGGTTATGCCAAACCGGAAGAGCGCATTCTGATCCTGGCGCGTTACCA -TCACATGAGGCCTGCCAGCCTGGAAAAAGCGGCAACACGCTGGCCGAAGTTGCAAATCGACTTTATGACC -ATTCATGCCAGCAAAGGGCAACAGGCGGATTACGTCATCATCGTTGGCTTGCAGGAGGGAAGTGATGGTT -TTCCGGCTGCGGCGCGGGAGTCGATTATGGAAGAGGCGCTACTGCCACCGGTTGAGGATTTCCCGGACGC -TGAAGAACGGCGGTTAATGTACGTGGCGCTGACCCGGGCACGCCATCGGGTATGGGCACTGTTTAACAAA -GAGAATCCCTCTCCCTTTGTGGAAATACTGAAAAATCTGGATGTGCCGGTGGCGAGAAAACCGTAAGAAA -CAGGTGGCGTTTGCCACCTGTGCAATATTACTTCAGACGGTCCGCGAGATAACGCTGATAATCGGGGATC -AGAATATCGACCGCGTCGTTGAAATGCGGCGACTGGATTATGAAGTCTGCCGTTGCCACGTTGGTGGCGA -CCGGAATGTTCCATACCGTCGCCAGACGCAGCAAGGCTTTCACGTCAGGATCGTGCGGCACGGCATTTAG -TGGATCCCAGAAGAAAATCAATACATCAATTTTCCCTTCTGAGATCAATGCGCCAACCTGCTGGTCACCC -CCCATTGGGCCACTCAACATCGCGTTGACGTTCATGCCGGTCGCGCGGGAAATTAAGTTACCGGTAGTGC -CTGTTGCATACAGTACGTGTTGTTCCAGTAACGGTTGATGCCGTTCCACCCAGCTCATCAGCATTTGTTT -GCAGTGATCGTGTGCCACCAGCGCAATATGTTTCCGCGCAGGTAAAGTGCGAGTCGTCAGTTCCATAATG -TACATCCGTAGTTAACTTTCCTACAGATTACTGTAAGCACTTATCGCTGCAAGATAAAGACCGAAAAAGC -CTGCGCACAGGCACAAAAATCTCAGGAAGATGGTTGTTTTTCCGCCCACTGCAGGAAAGTATTTCGCGTT -TGTGGGTCAGCCAGTTTAAACCAATACTTCAGCCGTTGTTCTGTGAGCACCTGAGACTGCGGTGGAATAG -CATCCAGCTCGGAAACACCCGAAAGCAGCGTACTGTCATCTGCCATCATCGTGGCAAATTGCGGTAGTGA -AGCGCGTTTCGCGGATTTGTTATAGCGTTCAACCTCGACCTCATAATCAATCGTTTTTGCCGTTGAGGTA -ATGGCGAGAATATCCAGCTTTACCGGAATCGGCGTCGCATCGCCATCCAACAATTCAAGGCGCGGCGCGG -CATCAAAATGGTTAGCTTCCCGCTCATTCTCCAGGCGAGGCAGGCGAAAATTGACCTGGTTGATGAGCTG -GGTATTAAAACTGACCACCAGCGGTGGGGAGATATACAGCCGTTCTTCACTATTGGAAAGATGAATCGTC -TTCTCAACGCGAAACACTAACTGATGCGGTCCATTATCCAGTTCAATGCTGTCCGCACCGCGCAGCAGAG -AGCTGGAAACCTTCTTGCCGTCGAGTACCAGAAGATCGACATCGGTTGAAAGCCGCAGCGTGGTGGCAAA -AACGGATACCGGCAAACATAATGCAATCAAGGTGGTCACGATGCCGGTTTTCATAGGTAGCTCCTGTCAA -AAGACCGCCCGAATAATAATGTGTCAAAATTTTTCTTTAATCATACTTACTAACATATAGACATATTTCC -CGCTTTTGCTCTCATTCATTCGTATTAGCTGCATGGTTGGCATGTCGGCTTTGTCGTACACTTTGTTAAA -CAGTCTGGAGGAAATAATGAAAGAAACCGATATTGCAGGCATTTTAACGTCCACTCACACCATTGCGCTG -GTGGGGGCAAGCGACAAACCCGATCGTCCCAGCTATCGCGTGATGAAATATCTACTCGACCAGGGGTATC -ACGTCATTCCGGTTTCGCCAAAAGTTGCCGGCAAAACGCTGCTGGGCCAGAAGGGGTATGGCACGCTGGC -AGACGTTCCGGAAAAAGTCGATATGGTCGATGTTTTCCGTAATTCAGAAGCGGCGTGGGGCGTGGCACAG -GAAGCTATTGCCATTGGCGCGAAAACTCTCTGGATGCAACTGGGGGTGATTAATGAGCAAGCGGCAGTAC -TGGCACGGGATGCCGGGTTAAATGTGGTGATGGATCGCTGCCCGGCTATTGAGATCCCTCGCCTGGGCCT -GGCCAAATAAAAAATCCCCGGAAGGCAAAAACCTTCCGGGGATTTGTTCAGGGATTAGTTACGCAGACGC -GGGGCCTGGAGTTGTTTGCGGATGGTCTGCGCCAGCTCATCCATGGATGGCTGTTCAGGATGTTCATCCT -GCAATTCGCTACTTAGCTGGGCTTCAGCCAGGTAGGTATGAACCGGTAGGCCGTTATCGTCCTCCATCAC -TACGTGATACCACGGAGCGGCGCGAAGCTCGTCATTCACCGCCAGCTCATCAGGCGACGGTTCAGAGAGC -GAATAAACCGGGTCGATATCCACGACCACTCCGAGATAACCTAACAGGGAATGGCGGACCTGCTGGCCGA -TACCGAATTTGCTGGCAATCATAGTCACCTCCCGGGAAATCTTTACCTTTGATATAAGGGTAAAATTCCA -CATTTCAAGTTACATGACGCGACAGGCAAACCCTTTCAGATATAGCCCTTCCGGATAGGTAGCGATCACC -GGATGATCGGCTGCCTGACGGAACTGCTCTATAAATTGTACATCACGACCGGCATCAATTGCGGCATCCG -CGATGATTTTCTGAAATAAATCGCTGGTCATCAGACCGGAACAGGAGAAAGTCAGGAGAATACCGCCTTC -ATTCAGCAGCTGAATCGCCAGCATGTTGATGTCTTTATAACCACGACACGCGCCCATCAACTGGCTTTTA -TTCTCAACAAACTTCGGCGGGTCCATCACGATAACGTCAAATTTTTCACCGCGATCGCGATAAGTACGCA -GCAATTTAAAGACATCATCACGGACAAACTCAGCCTTGCTCAGATCCAGTTTGTTCAGCTCAACGTTCTG -CCGTGCAATATCCAGCGCTTCCTGGGAGGTATCAACGCTGACAACCTGGCTGCAACCGCCCATCAGTGCC -GATACGGCGAAACCACCGGTATAGGAGAAACAGTTCAGCACACGTTTATTTTCAACGTAGCGGCGGGTAG -CCAGGCGGCTATCACGCTGGTCCAGGTAGTAGCCCGTTTTGTGTCCGTGCTGAATATCCACCAGCAGTTT -CATTCCGTGTTCTTCAATCGGCAGCAGGGCAGGTGGCAACTCGCCGGTGACGGGGCCCTGGGTCAGCTCC -ATTCCTTCTTTTTTACGTACCGCGACGTCGCTGCGATCGTAAATCGAACATTCCGGGTACAGCGTTTGCA -GGGCACTAATTAATGCCGCGCGCTGATATTCTGCCCCAGCACTCAGCAGTTGCAGCACCAGAAAATTACC -GAAACGATCGATAGTAATACCCGGCAGGCCATCAGATTCTCCGGCGATTAAACGATAGCTGTCGAGGCCA -TCTTTTTGCGCCAGCCAGTCACGCCATTTTTGTGCTTGTTGCAAACGGCGGGAAAAAAAAGCAATGTCGA -TAGACTCAGACGGGTCAAACGTCCAGACGCGCGCCCGGATTTGCGAAGCTGGCGAATAAGCGCCGCGTGC -TAACCATTTTCCCTGATGATCAACAATATCGATGGTTTCACCGAGGCTGGCTTTACCTTCCATGCGGGCA -ACGGCCCCGGAAAAGACCCACGGATGGCGACGAAGTAATGATTTTTCGCGCCCTTTGGCTAACACTAAAC -GTACACTCATAATTTACTTTTCTGTCGATGCAAAGAAATGGGCGTCATTGTCCGGAGTTTTCCATGGATT -TGCAACGCGTCCATTAAGGATAAGGAGAGCAGCAATGTCGAAAGTCTGCATAATTGCCTGGGTTTACGGG -CGAGTTCAGGGCGTAGGATTTCGCTACACCACACAGTACGAAGCGAAAAGACTGGGTTTAACCGGGTACG -CCAAAAATCTTGACGATGGCAGCGTGGAAGTGGTTGCTTGCGGTGAAGAAGGGCAGGTGGAAAAATTAAT -GCAGTGGTTAAAGAGTGGCGGCCCGCGTTCTGCGCGTGTAGAACGGGTGCTCAGCGAGCCGCATCATCCC -TCGGGGGAATTAACCGATTTTCGTATCCGTTAAATACATTTTACCGGTTTTGGCAGGCCAGCAATTTTGG -TGGCTTGCTTAGCCGGACCTTTCGGAAACAGTCGGTATAAATAGCGGCTGTTACCTTTTTCTTCGCCAAA -TTTATTCGCCATCGCTTTTACCAGCATACGAATCGCCGGAGAAGTATTGAATTCCAGATAGAAATCACGC -ACAAAACGCACCACTTCCCAGTGTTCCGGTGACAGCGAAATCCCTTCGTTCTCTGCAATCACCACAGCCA -GCGGCTCACTCCACTGGCTGCTTTCTTTGAGATAGCCTTCGGTATCCGTTTCTATCTCTTTACCTTCGAA -GATCAGCATAATTATTACTACCTTAATCAGACTGGCGGCAGTGTAACAAAAAACAAAGCCCCGCATAAAG -CGAGGCTATGAAAGTGTTAGCGGGTGAGATTAATCGCGGCTAGCGAAGCCCAGAATGCTCAGCAGGCTGA -CGAAGATGTTGTACAGCGAAACATACAGGCTAACCGTGGCACGAATATAGTTCGTCTCACCGCCATGAAT -GATGTTGCTGGTTTCAAACAAGATAGCGCCAGAGGAGATCAGAATGAAGACCGCGCTGATCGCCAGATGC -AGAGCAGGCAGCTGCAGGAAGATATTCGCAACCATACCAATCAGCACCACCACAATACCCGCCATCAGCA -TACCGCCGAGGAACGACATATCTTTGCGGGTGGTCAGCACATATGCAGAGCAGCAGAAGAACACTAACGC -CGTTCCGCCCAGTGCCATAGCGATTACGTCACCCATTCCGGCAGACAGATAGGTGTTCAGAATAGGTCCG -AGGATATAACCCAGAAAACCGGTAAAGGCGAATGCGGAGATAATCCCGGTCGGCTTATTCGCCGTTTTAT -AGGTCAGGAACATCAAACCATACATACCCACCAGCGTCAGAATCAGACCCGGAGATGGCAGCATCAGCAC -CGTACTGGCAGTTGCGGTAATCGCCGAAAAGGCCAGCGTCAGGCTCAGCAGAAAATAGGTATTACGCAGC -ACCTTATGGGTGCTAAGCAGTGATGTACGGTCATGTGAAGAACTAACAATACGATCCATTGAGTCACTCT -CTATGACAGATGTAATTAATTAAGCAGCATAATGATAATGCGTAAGGGCACCCAGAAGTTTTACCCATCT -TTACGCATTTGATCTGGAACAGGTTTAACAGCGGATTATCAGGTCATTAAGCAAATATAACGCCCTGAGA -ATTTCGACAGGCAAAAGAAAAAGGGGTTAGCATTTAGCTAACCCCTTATCTTATTTGGCGGAAGCGCAGA -GATTCGAACTCTGGAACCCTTTCGGGTCGCCGGTTTTCAAGACCGGTGCCTTCAACCGCTCGGCCACACT -TCCGGAATGACGCGCACTATAAACATCCCGATGCGGCGTGTAAACCCCTAATTTGTTTGTTTGCCTGAAA -AACAGCCAAAAGTGCATTGATAGCGTGAAATAACAGCAGATTGATCATTTCATCACCATGAATTCCTTCT -CTTTTACTCGTTTAGCAACCGGCTAAACATCCCCACCGCCCGGCCAAAAGAAAAATAGGTCCATTTTTAT -CGCTAAAAGATAAATCCACACAGTTTGTATTGTTTTGTGCAAAAGTTTCACTACGCTTTATTAACAATAC -TTTCTGGCGACGTGCGCCAGTGCAGAAGGATGAGCTTTCGTTTTCAGCATCTCACGTGAAGCGATGGTTT -GCCTTGCTACAGGGACGTCGCTTGCCGACCATAAGCGCCCGGTGTCCTGCCGGTGTCGCAAGGAGGAGAG -ACGTGCGATATGAATAACGAGGAAACATTTTACCAGGCCATGCGGCGTCAGGGCGTTACCCGGCGCAGCT -TTCTCAAATATTGTAGTCTGGCTGCCACGTCGCTGGGATTAGGCGCGGGAATGGCACCAAAGATTGCCTG -GGCGCTGGAGAACAAACCGCGCATTCCGGTGGTATGGATCCACGGTCTGGAATGCACCTGCTGTACCGAA -TCTTTTATCCGCTCCGCTCACCCACTGGCGAAGGACGTCATCCTTTCCCTGATTTCCCTCGATTACGACG -ATACTTTGATGGCTGCCGCCGGAACCCAGGCGGAAGAAGTCTTTGAAGACATCATCACGCAATACAATGG -CAAATATATCCTCGCAGTAGAAGGTAATCCGCCGCTGGGCGAGCAGGGGATGTTCTGTATCAGCAGCGGT -CGACCGTTTATTGAGAAACTCAAACGTGCCGCTGCCGGAGCCAGCGCGATTATCGCCTGGGGAACCTGCG -CGTCCTGGGGCTGCGTGCAGGCCGCGCGACCCAATCCGACGCAGGCAACGCCTATCGACAAAGTCATCAC -CGACAAACCCATTATCAAAGTACCTGGCTGCCCGCCGATCCCGGATGTGATGAGCGCCATCATTACTTAC -ATGGTGACCTTTGATCGCTTGCCAGATGTCGACAGAATGGGCCGTCCGCTGATGTTCTATGGTCAGCGAA -TCCACGATAAATGCTATCGCCGCGCCCACTTCGACGCCGGAGAGTTCGTCCAGAGTTGGGATGATGACGC -TGCCCGCAAAGGTTACTGCCTGTACAAAATGGGCTGCAAAGGGCCTACCACCTATAACGCCTGTTCCTCC -ACACGCTGGAATGATGGCGTTTCTTTCCCAATCCAGTCTGGTCACGGCTGCCTGGGCTGTGCGGAAAATG -GTTTCTGGGATCGCGGTTCGTTCTACAGCCGCGTGGTCGATATTCCGCAAATGGGTACTCATTCCACCGC -CGATACCGTCGGTTTAACCGCGCTTGGCGTGGTGGCAGCGGCTGTTGGTGTGCACGCAGTCGCCAGCGCC -GTTGACCAGCGCAGACGTCATAACCAGCAACCTACAGAAACCGAACATCAGCCAGGCAATGAGGATAAAC -AGGCATGAGCACTCAGTACGAAACTCAGGGATACACCATCAATAATGCCGGACGCCGCCTGGTGGTCGAC -CCGATTACGCGCATCGAAGGCCACATGCGCTGCGAAGTGAATATTAACGATCAGAATGTGATCACCAATG -CCGTCTCCTGCGGCACCATGTTTCGCGGGCTGGAGATCATCCTACAAGGGCGCGACCCGCGCGATGCGTG -GGCGTTCGTTGAACGTATCTGCGGCGTCTGTACTGGCGTACACGCCCTGGCTTCGGTTTACGCCATCGAA -GATGCTATCGGTATTAAAGTGCCGGACAACGCCAATATCATCCGCAACATTATGCTGGCAACGCTCTGGT -GCCACGATCATCTGGTGCACTTCTATCAGCTTGCCGGGATGGACTGGATCGATGTGTTAGATGCGCTGAA -AGCCGACCCGCGGAAAACCTCCGAACTGGCGCAAAGTCTCTCCTCTTGGCCGAAATCATCCCCTGGCTAT -TTCTTCGACGTACAAAACCGCCTGAAAAAATTTGTTGAAGGCGGGCAGTTGGGGATCTTCCGCAATGGCT -ACTGGGGGCACCCGCAGTACAAACTGCCGCCAGAAGCTAACCTGATGGGCTTTGCCCACTATCTCGAAGC -TCTCGATTTCCAGCGTGAAATTGTCAAAATCCACGCGGTCTTTGGCGGTAAAAACCCGCATCCAAACTGG -ATTGTCGGCGGGATGCCTTGCGCCATCAACATTGACGAAAGCGGCGCGGTCGGGGCAGTCAATATGGAAC -GCCTGAACCTGGTGCAGTCAATTATCACCCGCACGGCGGACTTCATTAACAACGTGATGATCCCCGACGC -CTTAGCCATCGGTCAGTTCAACAAACCGTGGAGCGAAATCGGCACTGGTCTTTCTGATAAATGCGTTCTC -AGCTACGGCGCATTCCCGGATATTGCCAACGACTTTGGCGAGAAAAGTCTGCTGATGCCTGGCGGCGCGG -TGATTAACGGCGACTTCAACAATGTGCTGCCAGTGGATTTGGTTGATCCGCAGCAGGTGCAGGAGTTTGT -CGACCACGCCTGGTATCGATATCCCAACGATCAGGTCGGGCGTCATCCGTTCGATGGCATCACCGACCCG -TGGTACAACCCCGGCGATGTCAAAGGCAGCGATACCAACATTCAGCAGCTGAATGAACAGGAACGCTACT -CGTGGATCAAAGCGCCACGCTGGCGCGGTAACGCGATGGAAGTGGGGCCGCTGGCGCGCACGTTAATCGC -TTATCACAAAGGCGATGCTGCGACCGTTGAGTCGGTCGATCGCATGATGTCGGCGTTGAACCTGCCGCTT -TCCGGTATCCAGTCAACGTTAGGCCGCATTTTGTGCCGCGCGCACGAAGCGCAGTGGGCCGCAGGTAAGT -TGCAGTATTTCTTCGACAAGCTGATGACCAACCTGAAAAACGGCAATCTCGCCACTGCTTCCACGGAAAA -ATGGGAACCTGCAACCTGGCCGACAGAGTGCCGTGGTGTCGGTTTTACCGAAGCGCCGCGCGGGGCGTTA -GGCCACTGGGCCGCCATTCGCGATGGCAAGATTGATCTCTACCAGTGCGTGGTGCCGACCACCTGGAACG -CCAGCCCGCGCGATCCCAAAGGGCAGATTGGCGCTTATGAAGCGGCGCTGATGAACACCAAAATGGCGAT -CCCCGAGCAACCGCTGGAGATCCTGCGTACTCTGCACAGCTTTGACCCGTGCCTCGCCTGTTCAACACAC -GTGCTGGGCGACGACGGTAGCGAGCTGATCTCCGTGCAGGTGCGTTAACAGCGAAGGAGAATCATCATGC -AACAGAAAAGCGACAACGTTGTCAGCCACTATGTCTTTGAAGCGCCAGTGCGCATCTGGCACTGGTTGAC -GGTGTTATGCATGGCGGTGTTGATGGTCACCGGATACTTTATCGGCAAGCCGCTACCTTCCGTCAGCGGC -GAGGCGACGTATCTGTTCTATATGGGCTACATCAGGTTAATTCACTTCAGCGCCGGGATGGTTTTTACCG -TGGTTTTGCTGATGCGGATCTACTGGGCTTTTGTTGGCAATCGATACTCCCGCGAGCTGTTTATCGTGCC -GGTATGGCGTAAAAGCTGGTGGCAGGGCGTGTGGTATGAAATCCGCTGGTATCTGTTTCTGGCAAAACGT -CCGAGTGCCGATATAGGCCATAATCCCATCGCCCAGGCGGCGATGTTCGGCTATTTCCTGATGTCGGTCT -TTATGATCATCACTGGTTTTGCGCTGTACAGCGAACACAGCCAGTACGCTATTTTTGCGCCGTTCCGTTA -TGTGGTGGAATTTTTCTACTGGACGGGTGGCAACTCAATGGACATTCACAGCTGGCATCGGCTGGGGATG -TGGCTGATTGGCGCGTTTGTGATCGGTCATGTCTACATGGCGCTGCGTGAAGACATCATGTCCGACGACA -CGGTGATCTCCACCATGGTCAACGGCTACCGTAGCCACAAATTTGGCAAAATAAGTAACAAGGAGCGTTC -ATGAGCGAGCAACGCGTGGTGGTCATGGGGCTGGGCAACCTGCTGTGGGCCGATGAAGGCTTCGGCGTGC -GGGTGGCGGAACGGCTGTATGCCCATTACCACTGGCCCGAGTATGTGGAGATTGTCGATGGCGGTACTCA -GGGACTGAACTTGCTGGGGTATGTCGAAAGCGCCAGCCATCTGTTGATTCTCGATGCCATTGACTACGGG -CTGGAACCTGGAACGCTGCGAACCTATGCCGGAGAACGCATTCCGGCTTATCTCAGCGCGAAGAAAATGA -GCCTGCATCAGAACAGTTTCTCCGAAGTGTTGGCGCTGGCGGATATCCGCGGACATCTGCCAGCACATAT -TGCCCTCGTCGGTCTGCAACCCGCAATGCTCGACGACTACGGCGGTAGCCTGAGCGAACTGGCACGGGAG -CAACTGCCCGCTGCGGAACAGGCGGCGCTGGCGCAGCTTGCTGCGTGGGGAATTGTGCCGCAACCGGCTA -ATGAATCGCGCTGTCTCAATTATGACTGTCTGTCGATGGAAAATTACGAAGGCGTTCGCTTGCGCCAGTA -CCGGATGACACAGGAGGAGCAGGGATGAGCAACGACACGCCATTTGATGCGTTGTGGCAACGAATGCTGG -CGCGCGGCTGGACGCCAGTCAGTGAATCCCGTCTTGACGACTGGCTTACGCAAGCGCCAGACGGCGTGGT -GTTATTAAGCAGTGACCCGAAACGCACGCCAGAGGTCAGCGATAATCCGGTAATGATTGGCGAATTACTG -CGCGAGTTTCCCGACTATACATGGCAGGTGGCGATTGCTGACCTTGAGCAGAGCGAAGCCATCGGCGATC -GCTTTGGCGTCTTTCGCTTTCCTGCCACTTTAGTGTTTACCGGCGGAAACTATCGCGGCGTGCTGAATGG -TATTCACCCGTGGGCGGAACTGATAAACCTGATGCGCGGGCTTGTCGAACCGCAGCAGGAGCGTGCCTCA -TGAGCGAAACTTTTTTCCATCTGCTGGGGCCAGGAACGCAACCGAACGATGACAGTTTCAGCATGAATCC -ACTGCCGATCACCTGTCAGGTGAATGATGAACCGAGTATGGCGGCCCTGGAGCAATGTGCTCACAGCCCG -CAGGTGATTGCGCTGTTAAACGAGTTACAACATCAACTAAGCGAACGCCAACCGCCGTTGGGCGAGGTGC -TGGCAGTCGATCTGTTAAATCTCAACGCCGACGATCGTCACTTTATCAATACGCTTCTCGGGGAAGGGGA -AGTGTCAGTGCGCATTCAGCAGGCTGACGACAGTGAAAGTGAAATACAGGAGGCGATCTTCTGCGGATTA -TGGCGGGTGCGCAGACGTCGCGGCGAAAAGTTGCTGGAGGACAAACTGGAGGCTGGCTGCGCGCCGCTGG -CGTTGTGGCAGGCGGCAACGCAAAATCTCTTGCCGACAGATTCGCTGTTACCGCCGCCCATTGATGGCCT -GATGAATGGCCTACCGTTGGCGCATGAGTTACTGGCACATGTACGTAACCCCGACGCGCAGCCGCACAGC -ATTAATCTGACGCAATTACCCATCAGCGAGGCTGATCGGCTTTTTCTCTCACGTCTCTGTGGGCCGGGAA -ATATTCAGATTCGTACCATTGGCTATGGCGAGAGCTATATCAACGCCACGGGGTTACGCCATGTCTGGCA -TTTACGCTGTACGGACACCTTAAAAGGCCCGTTACTGGAAAGTTATGAAATCTGCCCAATACCGGAAGTG -GTGCTGGCAGCGCCAGAAGATTTGGTCGACTCTGCGCAGCGGCTTAGCGAGGTATGTCAGTGGCTGGCGG -AAGCTGCACCGACGTAAAAAGACGGTAAGTATCGCTTTCAGTCTTATGAATATCGCAATCGGCGAATACC -TCTGGTCGTAGAGTTTCAGGATAAAGAGGGAGATCTACCATTATCGGGTTATTTTTCTCTCTTCGCCTAC -AGGAGTGCGCATGTGGGATGTCATTGATTTATCGCGCTGGCAGTTTGCTCTGACCGCGCTGTATCACTTT -TTATTTGTACCCCTTACCCTGGGGCTGATTTTTTTGCTGGCTATTATGGAAACCATTTACGTGGTCACCG -GCAAAACAATCTACCGCGATATGACGCGCTTCTGGGGTAAGCTCTTCGGTATCAATTTTGCTCTTGGCGT -GGCTACCGGCCTGACCATGGAGTTTCAGTTTGGTACTAACTGGTCATTCTATTCCAACTATGTGGGCGAT -ATTTTTGGCGCACCGCTGGCGATGGAAGCATTAATGGCCTTCTTCCTCGAATCCACCTTTGTCGGGCTGT -TCTTCTTCGGCTGGCAACGGCTGAATAAATACCAGCACCTGCTGGTGACGTGGCTGGTGGCGTTCGGTTC -AAATCTCTCTGCGTTGTGGATATTGAATGCCAACGGTTGGATGCAATACCCGACCGGTGCGCATTTTGAT -ATCGACACCCTGCGTATGGAGATGACCAGCTTCAGCGAGCTGGTCTTTAATCCGGTCAGCCAGGTGAAAT -TTGTGCACACCGTAATGGCGGGCTACGTGACCGGGGCCATGTTTATTATGGCGATCAGCGCCTGGTATTT -ACTGCGCGGACGGGAGCGCAATGTCGCATTACGCTCGTTTGCCATCGGTTCCGTCTTCGGTACTCTGGCG -ATTATCGGTACCCTGCAACTCGGAGACAGTTCTGCGTATGAAGTCGCGCAAGTACAACCGGTAAAACTGG -CGGCGATGGAAGGGGAGTGGCAAACGGAACCTGCACCTGCACCGTTCCATGTGGTTGCCTGGCCGGAACA -GGATCAAGAGCGTAACGCCTTTGCCCTCAAAATTCCCGCGCTGCTAGGGATCCTCGCCACTCACTCATTA -GATAAACCCGTGCCGGGTCTGAAGAATTTGATGGCTGAAACCTACCCACGCTTGCAACGCGGACGTATGG -CCTGGCTGTTAATGCAGGAAATATCGCAAGGCAATCGTGAGCCGCATGTGTTGCAGGCATTCCGGGGACT -GGAAGGTGACCTGGGCTACGGCATGTTGCTCTCCCGCTATGCGCCGGATATGAATCATGTCACAGCCGCA -CAGTACCAGGCGGCGATGCGTGGCGCGATACCTCAGGTTGCGCCGGTATTCTGGAGTTTCCGCATCATGG -TGGGCTGTGGTTCCCTGCTGCTACTGGTGATGCTGATTGCGCTTGTCCAGACGCTGCGTGGCAAAATCGA -CCAGCATCGCTGGGTGCTGAAAATGGCGCTCTGGAGTTTGCCGTTGCCGTGGATTGCGATTGAAGCCGGG -TGGTTTATGACCGAGTTTGGTCGTCAGCCGTGGGCGATACAGGACATCTTACCGACATACTCCGCGCACT -CCGCTTTAACCACAGGACAACTGGCTTTCTCACTGATCATGATCGTAGGGCTTTACACCCTGTTCTTAAT -CGCCGAAGTCTACCTGATGCAGAAATATGCCCGTCTGGGGCCGAGCGCGATGCAGAGTGAACAACCGACG -CAGCAACAGGGGTAAAGGAGAAAATCATGTTTGATTATGAAACATTGCGCTTCATCTGGTGGCTGCTGAT -TGGCGTGATCCTGGTGGTCTTTATGATCTCCGACGGATTTGACATGGGGATCGGCTGTCTGCTGCCGCTG -GTGGCGCGTAATGATGATGAACGCCGGATAGTGATAAACAGCGTTGGTGCACACTGGGAAGGCAACCAGG -TCTGGTTGATCCTCGCTGGTGGGGCATTATTTGCCGCCTGGCCCAGAGTGTATGCAGCGGCGTTTTCCGG -CTTTTATGTGGCGATGATCCTGGTGCTGTGCTCACTGTTCTTCCGCCCGCTGGCCTTTGATTATCGCGGA -AAAATCGCCGATGCACGCTGGCGTAAAATGTGGGACGCCGGTCTGGTCATCGGCAGTCTGGTGCCGCCGG -TAGTCTTCGGTATCGCCTTCGGCAACTTGTTGCTCGGCGTGCCGTTTGCCTTCACACCGCAATTACGCGT -GGAGTATCTCGGCAGCTTCTGGCAACTGCTGACGCCATTCCCTTTATTGTGCGGATTGCTCAGCCTTGGG -ATGGTGATTTTGCAAGGTGGCGTCTGGTTACAACTGAAAACTGTTGGTGTGATTCATCTGCGTTCACAGC -TGGCGACCAAACGCGCTGCACTGTTGGTGATGCTGTGCTTTTTGCTGGCGGGTTACTGGCTGTGGGTCGG -TATTGATGGCTTTGTACTGCTCGCCCAGGATGCTAACGGTCCTTCCAATCCGTTAATGAAACTGGTGGCA -GTGCTACCTGGTGCCTGGATGAATAATTTTGTCGAGTCGCCCGTTTTGTGGATCTTCCCGCTGCTGGGAT -TCTTCTGCCCATTGCTTACGGTGATGGCGATTTATCGTGGTCGCCCGGGTTGGGGATTTTTGATGGCATC -ATTGATGCAATTTGGCGTGATTTTCACGGCAGGCATCACGCTGTTCCCCTTTGTCATGCCGTCAAGCGTG -AGTCCGATCTCCAGCCTGACGTTGTGGGACAGTACTTCCAGTCAGCTGACGCTGAGCATTATGTTGGTAA -TCGTGCTGATATTTTTGCCCATTGTGTTGCTCTACACTCTCTGGAGCTACTACAAAATGTGGGGGCGCAT -GACAACAGAAACTCTCCGCCGTAACGAAAACGAGTTGTACTAAGGAGCAGAAACAATGTGGTATTTACTT -TGGTTCGTCGGCATTTTGTTGATGTGTTCGCTCTCCACCCTTGTGTTGGTATGGCTGGACCCGCGTCTGA -AAAGTTAACGAACGTAGGCCTGATGCGGCGCATTAGCATCGCATCAGGCAATCAATAATGTCAGATATGA -AAAGCGGAAACATATCGATGAAAGCGATCTTAATCCCATTTTTATCTCTTCTGATTCCGTTAACCCCGCA -ATCTGCATTCGCTCAGAGTGAGCCGGAGCTGAAGCTGGAAAGTGTGGTGATTGTCAGTCGTCATGGTGTG -CGTGCTCCAACCAAGGCCACGCAACTGATGCAGGATGTCACCCCAGACGCATGGCCAACCTGGCCGGTAA -AACTGGGTTGGCTGACACCGCGCGGTGGTGAGCTAATCGCCTATCTCGGACATTACCAACGCCAGCGTCT -GGTAGCCGACGGATTGCTGGCGAAAAAGGGCTGCCCGCAGTCTGGTCAGGTCGCGATTATTGCTGATGTC -GACGAGCGTACCCGTAAAACAGGCGAAGCCTTCGCCGCCGGGCTGGCACCTGACTGTGCAATAACCGTAC -ATACCCAGGCAGATACGTCCAGTCCCGATCCGTTATTTAATCCTCTAAAAACTGGCGTTTGCCAACTGGA -TAACGCGAACGTGACTGACGCGATCCTCAGCAGGGCAGGAGGGTCAATTGCTGACTTTACCGGGCATCGG -CAAACGGCGTTTCGCGAACTGGAACGGGTGCTTAATTTTCCGCAATCAAACTTGTGCCTTAAACGTGAGA -AACAGGACGAAAGCTGTTCATTAACGCAGGCATTACCATCGGAACTCAAGGTGAGCGCCGACAATGTCTC -ATTAACCGGTGCGGTAAGCCTCGCATCAATGCTGACGGAGATATTTCTCCTGCAACAAGCACAGGGAATG -CCGGAGCCGGGGTGGGGAAGGATCACCGATTCACACCAGTGGAACACCTTGCTAAGTTTGCATAACGCGC -AATTTTATTTGCTACAACGCACGCCAGAGGTTGCCCGCAGCCGCGCCACCCCGTTATTAGATTTGATCAA -GACAGCGTTGACGCCCCATCCACCGCAAAAACAGGCGTATGGTGTGACATTACCCACTTCAGTGCTGTTT -ATCGCCGGACACGATACTAATCTGGCAAATCTCGGCGGCGCACTGGAGCTCAACTGGACGCTTCCCGGTC -AGCCGGATAACACGCCGCCAGGTGGTGAACTGGTGTTTGAACGCTGGCGTCGGCTAAGCGATAACAGCCA -GTGGATTCAGGTTTCGCTGGTCTTCCAGACTTTACAGCAGATGCGTGATAAAACGCCGCTGTCATTAAAT -ACGCCGCCCGGAGAGGTGAAACTGACCCTGGCAGGATGTGAAGAGCGAAATGCGCAGGGCATGTGTTCGT -TGGCAGGTTTTACGCAAATCGTGAATGAAGCACGCATACCGGCGTGCAGTTTGTAATGCATAAAAAAGAG -CATTCAGTTACCTGAATGCTCTGAGGCTGATGACAAACGAAGAACTGTCTAATGCGTAGACCGGAAAAGG -CGTTCACGCCGCATCCGGCCACTTTCAGTTTTACTCTTTCTCGGAGTAACTATAACCGTAATAGTTATAG -CCGTAACTGTAAGCGGTGCTGGCGCGTTTAATCACACCATTGAGGATAGCGCCTTTAATATTGACGCCTG -CCTGTTCCAGACGCTGCATTGACAAACTCACCTCTTTGGCGGTGTTCAAGCCAAAACGCGCAACCAGCAG -GCTGGTGCCAACAGAACGCCCCACGACCGCGGCATCACTCACCGCCAGCATCGGCGGCGTATCGACAATC -ACCAGATCGTAATGGTCGTTCGCCCATTCCAGTAATTGACGCATCCGATCGCGCATCAGCAGTTCAGACG -GGTTAGGTGGCACCTGACCGCGAGTAATCACATCAAAGCCTCCTTTGCCAAAATGCTGGATCACTTTGTT -GAGCTCATCTTTACCTGCCAGATATTCCGACAAGCCATGTTCATTACTCACGGTAAACAGGTTATGCGAA -TAACCACGGCGTAAGTCGGCATCAATAAATAACACTTTTTGATCGGACTGGGCGATCACCGCTGCCAGAG -TTGAACTGACAAACGTTTTACCACTGTCTGGCGTCGCACCGGTGATCATTAGAATGTTATTCTCCGTCTC -CATCATAGCGAAATGCAGACTGGTTCGTAGCGCACGTACGGCTTCCACAGCAGAATCCGCCGGGTTATCC -ACCGCCAGGAAGGGGATATTTTTAGTACGATGGCGCTGCTGATTAGAAAATAAATTTTTCTTACGCAGAC -GGGTGCGTTTATCCAGCCACTCGGACATTGGGATAGTGGCATAAACGCTGATGCCGTGCTCTTCCAGTTG -TTCCGGGGCTTCTACACCACGACGCAACATCGCACGCGCCAGCACGGCACCCACAGAAATAAACAGGCCA -AGAATAAAACCAAGCACCACGTTCAACGCTTTTTTCGGTTTCACTGGCTGCGGCTGAGTGACTGCCGGGT -CGATAATCCGCACGTTACCAATGGCACTGGATTTCGAAATACTCAACTCCTGCTGGCGGTTAAGTAATTG -CAGATATACCGCACGGCCCGCTTCTACGTCACGACTTAAACGCAACACTTCCTGTTGGGTGGAAGGCATT -GCCGATACCCGCTTATTCAGGCGTTTGCGTTCTTGCTCCAGCGTCTGGCGTTTTTCCAGCAGCGCACGAT -AAGTTGGGTGATCTTTCTTATACAGCTGGGAGATCTCTGCCTCGCGGAAGGTCAGCTCATTGAGTTGATT -ATCAACGTTCACAATCTGCTCAAGAACGGCTTTGGCTTCCAGGTTAAGGTCAACCGAATCGCGCTGCTGG -CGATAAACGTTGAGTTTTTCTTCCGCTTGGTCCAGCTCGCTGCGCACTTCAGGTAACTGGCGCTGTAAGA -ATTCAAGGCTTTGTGAATCCTGCGCCGCCTGGCGAGCGATATTCTGTTGCAAATAGTTGTTAGCGATGCT -GTTCAGAATACGAGTAATCAACTGGGGATCATCACCAGTCATGGTAAGTTCCAGCATCCCGCTTTCTTTA -CTGCGTTCGCTAACGGTAAAGGTTTCCTGCAATGCGTTAATCGCTTCCAGTTCGGTACGCTGGCTCAGGA -CAAACTGTGTTCCTGGTTTGGCCTTAATGTCCGCGATAGTCAGCGCAACGCCATCTTTTTCCAGACGCTG -GCCGACCATACCATTGACGGTGAACTCTTCACCTTCCAGTGTATAGTGGCCGTTTTCCCCAACCGTGAGT -GTCAGTTGCTGATCCTGACCATTCAGTTGTGGAATATGCATCCAGCTGATCGCCAGCTCACCTGGTTTTT -CTTTGGTTAATCTCGCCCAGCCGCGACCCACAATCGGAAAATACTTCTGCTCAACTATGTCGCGCAGATT -CAGTTCAGCAATGGTTTTACCGAGAATCATGCGCGATTGCAGCAGTTGGATCTCCGGTGCAGACTCGGGC -GATGAGTTAGGGATCATATCGCTCAGGCCGCTGAGAATGGCGTTGCCCTGTTTTTGCTCAACCTGGACCA -GAGTATCTGCCTGATAAATTGGTGTGCTTAACAGCGAGTAAGCGACAGCGATCAGCGTGAATAACGCGGT -CACGCTGATAATAAACTTACGGTGATCCCATAACTCGCCGACCAGACGAAGCAGATCGATCTCATTTTCC -TGAGTGCTGCCTGGTGGCGTATTCATATTTTTAGTTGTCATCGTATTTTATAAACTCAAATTACCGGCTG -AGGCGCTTCGCCCATTCCTGACTGGCGCGCTCCAACATACCGTAGACATGTTCAAATGCGTCCTGACTTT -TACGATAGGGATCCGGGATCTCTTTCTGTTCCAGCCATTGCCCAAACAGCATTGTCTTCCCGCGGACCTC -GGGAGCAATTGCGGTAACCTGAGCAATATGTTCCGACTCCATTGCCAGAATCAGATCGTAATTTCGTGCC -ATCTCAGCAGTGAGCTTACGTCCGGCATGTCCTTCAAGAGATACGCCATGATTAGCGGCAACATCTGCCG -CTGTCGCATCTGCAGGGTGTTTTACCAGACCATGAACACCTGCCGATTTGACTTTTACGCCCGGCAGACG -TTTACGCAGCAAGCGCTCGCCAATGGGCGAACGGCAAATGTTGCCGGTACAAACCACCAGGATTGAGTTA -AATTTTAGTTGGGCCATGTTTGAATCCACCGTGAAGTCTCTGTCAGGTCATGCACCCCGGAAATCGTCGG -TACCAGCAGAGAAATCACACGGTTCCAACGAGCCAGCGGCGCGGTAGTGACATAAACAATGTCGTAAGGT -TCAAGCTGGAATTCCGTTCCGAGTATCATTGCCGATGCGTCCTTCGCATTCAGCTGATAAATATTGGCGA -TTTTGCCATTCTGCTTGTTTTGCGTTGCACGAATAACAAAAATCCCCGTCGCATCAGCGACATCCTGATT -CATACCCTCAGCGTTACCCAGCGCTTCCGCCAGGGTCATACCGCTGCGGTCCATTTTCAGCGTGCTCTGT -TTACCCACTTCACCCATCACGAAGACTTTCAGATCATCGTTGCGCGGAATAAATAAAATATCGCCCGGGT -GCAGCAGTTTGTTCTGGCGCAAGTCGCCACGCTGCATCAGCGCATAGAGGTTCACTTTGGTCTTTACGCC -ATTCTGGGTGAGCACCACGTTGCGCCAGTCTGCATCTGCGGTCAGACCGCCCGCGGCGTTAATCGCATCC -ATGATGGTCAGAGGAATATTGGTAATCGGCTGCTGACCCGATTTGCTGACTTCGCCGGTGACGTACGCTT -TTTGCGATCGGAACGCCGCGACGCTGACATCGACTTGCGGGCTTTCAATGACTGAATCGAGACGCGCTGT -AATCTCGTTGCGTACCTGGGTAAGTGTTTTCCCGGCCACTTTCAGGCGACCAATATAGGGGTAGAAAATC -GCACCATCGGCGTTAACCCAGTTGCCGGTATCACTGGCGCTACGGTATTGCCCTGCGGGGGTGGTTAGTT -CCGGGTGATCCCAGACCGTAACCATCAACACATCACCAATCCCGATACGATATTCATAGTTTGCGATTTG -CTGCTCCAGCTCCGGGTTAGCCTGCGACATAATCGGTTTGGCGCGCAACTGATCAATCAATCCTGGCGTG -ACGGGATAGATATTGACCATTTTGTCCAGGTCATACTGATTGTCAGGTAGTTCAATGACATCCTTGTTAC -TGGTCGATAAATTCTGACCAGGAACAAGGGTACATGCTGTCAAAGACAGAACAGCCAATGTCAGTACCGA -AAACTTAAAAATGTTCTTTTTCATTGGTTTATATTTATCAGTCAATGTAATGTTATGAATTACGTCAGGT -TATTGTCCAACCGGTACTTCTCGCTCTGCCGTCATTGGATAGAGCTGGTATTTGCGTGACAGCATTTGTC -CACCATCACGCGTCAATGGTGTCCACGAAACCACCGCGCGGTTGCGGTTAGGTCCAATGGTCATCAAGTC -GAATGGAATCGAGATATAAAAACCTTTACTAAAGCCGCCTTCGCCGTAGTCATCTTTAGATACGTTACTG -ATTGCCGCCCATACCCCTACCGCCACGCCGCTGTCAAAGCGTTTGGCGACGTCGATCGTTGCGCCTTTAT -CTTTTGCCAGATATTGCCCAACGCTAAGTTTCATCAGTACGCCATTGAGCGTCGGCGGGTTCCAGTAAGC -CGTCACGAAACCTGTTGGCGTGGAATAATCGGTGAAACGCATCATGTTGTCCCAGTCACGTTGCTTCACG -TAGTTAACGTCCACACCCAGCGCCCAGCAGGCATCTAGCGGGCGATAAAGCAGCTCGGAACCGACACCGG -CGTACATCGTTTCCAGATAACCGCCATACACCTGGCCATAGAAACCATTGCCTAAGTCAGCAAAATAGTT -CGCCTGCAAGTTGTTGAGATAAACGTCATTGCGAACGTAGTCACGGATATGCGTGCGCACGCGGGGCAGG -GTAGAGTCCGCGGGCAACAGCGAAGACTTAAACTTGTCGTAGTTGTTGTAAATATTGGTGAAAATACCGC -CATCAAGCAGCAGGTGGTCGGTAAACCAGTAGCGGGCACTGGACATCAGCCCCAGCTGGAACATATAGAA -ATCTTCCGGGCCGCCCAGCGACTGTGAAAGTGTTGGGTTGAAAGAGTAGCTAAAGCGATCTTCACGAATA -CGGTAGCCCCGACCAAAGGCAGAAAGATCTTCAGCTTCAACACGTTGTTGTTGCAGTGGCTCTGATTGAC -CAGGCGCTGTACCTGCCAGCTGTTTGCGCAGGCTGGCTACGTCGGTTTCGGTAGTCACCATCGCCATATG -CTCGCGCTTTTGCGTCACGCTAATCTTCTCAACGCCTTGCGGCAGGTTATTCACCAGAATCCGGTTGGCA -CGATCGACCGCTTCACGAGAGTCACGGTATTTGTATTGCTGACCAGACATATACAGTGTCTTATCGCGTA -GCTGAATTTCTGGCGCGTCAAAGCCCGCGTTATACTTCAGGGCGGTAAGTTGGTTTGCTACCGTGGTGTA -CTGCAATCCTTCAGATTCAGGCGCAGGTTGATATGCCGGTTTTGGCGTATCGCGCAGGGCAGGGCGCAGA -TCGTTGAAATTGGTCCGTAACGTGAAGCCAAACATCAACGTGTTACCGCGTTCATAACTCAGGTTGAGAT -CTGCCCAGCTGGCAGCGCGATAAACTGCGCCGACGTTGAAATGGCTTGCCTGAGGCAGTTTGCCAGCGAA -ATCATTCTGGTAATTGTTTCCATCGTATTCGAGTTTCAGACGCAGGGGATTCCACGGCGTTTGATACTCA -ATGCCGCCAAAGATGGAAGCCGGGCCACGAAAGATATCGCTAAAGCTGATATCGCCCGCATCGTGAGACT -CTGCGCGATGACAATATTTATCGCTCACCCGGCAAAACGGGTTGGTAATATTGCCCGCATTACCGGCGTA -GCCCCATGCCATCCCGAGGGTGAAATCAAATGGCCCCGCTTGCTTGCTGGCCACCAGATACTCACCGTCA -AACAGACCCGTACCAGCAATATCACGTTTACCAAACGCCACTTGCGGTAGCCAGTAACCTTCTTCCCACA -GGCGAAGTTTAAAATCGAATGATTTGTCTTTGTATGACTGATCGCCGCTGAAATCTTCCCACTGGCTATA -TTTGCGTGTGCGCACATCCGTATAACGAATGGTGCCTTCCAGCCATGGGAACAGCGCCACGGAGGTGGAG -TAGAACCGGTATTGATCGTTATCCCGGTAGTTGACGCTGAATTCACCTTCCGGTGCGATGCGCGCATTTG -GCATCTGCAACAATCCTGTGCCGCCAAAGTCTGATTGCGACGAACCCAGCGGATCCGGGTAGGTTAATAC -TTCAGCATGACAGGCACTGGAGACGGCAATGGCCAGGCAGCTTAAAAGATAAGAATTCTTCTTCATCAGT -CAGGAACACGTTGCGTTAAAACAGACACAATCTGGTCATTTAAATCAGCATATTTTTCGGGCAGTACATG -CGCAGAAAAGCCCAACCAAAGCTGGCTGCCAGGCGGTGGTTCCACATGTCTTTTATTCCACAGGGCAACA -GGGGCGACGACAGTCTCACCCTCAGGCGTAATCACCATAACGTTATTCTTGTCCGCGCCTGCAAGGCGGG -GGTGATCTTGCAGATAATCGGTAACGCTACGGCCTGCCTGCCAGGGCAATTGCCCGGCCCCAGAAACCGC -ACCCAGCAGAGTAATAGTCACCGGACGCTGTACGGTATAGAGCGTATAGTCCCCGACCAACGGGGGATTG -CTGTTCTCATCCACTCGTACAAAATCAGGGTCCAGTTTGACCGGTAAGCGACCAGTGATATTGAGATTGA -GTAACTGCTGGCGCACGGATTTAATCGTTGCCGCCACATCGTCGTCAGCTTCTGCTTCCCAGGAAGCAAG -CTGTGCCATGACATGTTGGTAGTCTTTAAGCGCTTTAGCTTTCGCCGCAGAGTCGGTCAGCAAGGCACCA -GGCCACCAGAGGCGATCGCGCAGTTGCGGTTGTGTCACCAACTGGACAACATTTTCCACGGGGCCAACGG -AAAGTGTCTGTTGTTCGCCAGGCAGATAAATAGTCACCGTTCCTTGCGCAAAGGCATGGGGTGTCATTAC -GTAAAGTACGCTGGCAATGAAATACGACTGTAATTTATTCATGGTGCGGGTTTAAGAAACGTCATTTCTA -CGGGAATAACCCCTGCGCCTAACATTTGCCGACTTTGACGAACCTGGCCAGTAGCCGAATCGACCCAGAA -TGTGTTTTGCCACTGTTTTTCTGGCCGCGTGGAAGTCACCTCTTCCTGCCAGACATTACACAGCACATTG -CGACCCGCAATATTCAGCGTCTCTAATCCAGCAAAGGAAAAAGTAGAACTCAGGGTCGCAGAGCGAAAAT -GGTTGTCTTCACTCCAGAGAATATCGCGCGTCCAGCGGCTGCCATCTTTTATTGCCAGCGCGTTACGCAG -AGGGTCCTGCCCGGAATTTGTCACTTCCAGCAGATTATTATTAAGTTTGACGGTTTTTAAAAGACGTCCA -TTGTGGGTAACCAGCATGGCGTTATCCTGGGATAACCATTTGCTTTGTTCTTGTTCTATATATCCCAGTA -CCACAAAGATTCGTTGCCCTTCATTAAGGCGTAAATACATAGTGGAATAAGGCAACGCCTGGATCTGCTG -ATCCGCTACGGTGATATCCTGATTATCGAAAAGGCTGGCGCGAAATGTATCGACCATACTTTGCTGGCTG -TGCGTACATCCCGCAAGAAATAGTGCGAAAATCGATAAAATAAGAGGGCGCACCTTTAATCCTTGAAAGG -TTAATTAAAAAAATGCAAATCTCTAAAGCCCGGTACGAATATCGCAACCGGGTATCATTTAACTTTAATT -TCGACGCGTTAAAGCAGTATTAGCGTGTAGTGGACGTGGTGGTTGAGGTGTTATGAGAACCGCCATCGCC -ACTGTCATTTGCTGCAACAACTGCCAACGTCGCCACACCAACAGCCGTTGCCACACCGACAACTGTCGCC -GTGCCGACAGCGCCAGCAGCCACGCCACCAGTGGTAGTAGCAGTCGTGGTTGCGCCGGTAGTGGTCGTTG -TGGTGCCAGTAGTACCCGTCGTTGCCTCGGTCCCGTTTGTTGCTTCAGGGGCAGCAAACGCAGCTGGCGT -CGTCAACATGAAGGCCATAAGGATTGCAGAAAGCTTGTGTTTCATAACTTTTCCTTTATTCATCGCATGG -ACAATACGGGTGATGCTGCCAACTTACTGATTTAGTGTATGATGGTGTTTTTGAGGTTCTCCAGTGGCTT -CTGTTTCTATCAGCTGTCCCTCCTGTTCAGCTACTGACGGGGTGGTGCGTAACGGCAAAAGCACTGCCGG -ACATCAGCGCTATCTCTGCTCTCACTGCCGTAAAACATGGCAACTGCAGTTCACTTACACCGCTTCTCAA -CCCGGTACGCACCAGAAAATCATTGATATGGCCATGAATGGCGTTGGATGCCGGGCAACAGCCCGCATTA -TGGGCGTTGGCCTCAACACGATTTTCCGCCATTTAAAAAACTCAGGCCGCAGTCGGTAACCTCGCGCATA -CAGCCGGGCAGTGACGTCATCGTCTGCGCGGAAATGGACGAACAGTGGGGATACGTCGGGGCTAAATCGC -GCCAGCGCTGGCTGTTTTACGCGTATGACAGGCTCCGGAAGACGGTTGTTGCGCACGTATTCGGTGAACG -CACTATGGCGACGCTGGGGCGTCTTATGAGCCTGCTGTCACCCTTTGACGTGGTGATATGGATGACGGAT -GGCTGGCCGCTGTATGAATCCCGCCTGAAGGGAAAGCTGCACGTAATCAGCAAGCGATATACGCAGCGAA -TTGAGCGGTATAACCTGAATCTGAGGCAGCACCTGGCACGGCTGGGACGGAAGTCGCTGTCGTTCTCAAA -ATCGGTGGAGCTGCATGACAAAGTCATCGGGCATTATCTGAACATAAAACACTATCAATAAGTTGGAGTC -ATTACCGACAATACGTACGCTTGAGATCAGGATTGTCTACTTTGAGTATAACATCCTTGTGAAATCTCCC -TTTCCTCATACCGCTTGCACTATATACTGCGGGTAGGAAAGGCGCGCAGAGGGAAATATAAGATTGTTAA -CTATCCCCCTCTGGAAATACGACTTGTGAGCATAAGATAAATCTTAGCAAAATACAAATTAAAGATAAGG -AAATTGTTACGAAAGCTATTAATTATTGTTGGTAATATAGTTTCAAGTGGTACTATAACTGGCTGTTAAA -TGGCATTTATAACTATTAGGTGCAGAGATATTCGCTTAAATGGATTAGTTTCTTTGTGGAAAAGTAACTG -ATGTTATAATGTATGATGTTGACTATTTCACTATTCCAATAAAACCAGTCAGCTTTAAACAAGCAGCGTC -ATATTAAGAGAGATAAACATTTGCCGCTGTTGGTCCTCGCAGGCCATTTACGCGGCAAAATTCCACACGT -AATCCTGGTATAAGCACTTCTGCGTCGCGGGGAGTGAATGCGGAAATATGGACCTGAACTTCTTTACGAC -CGTCGGAGGGGATAATGAATCCTTTGCCGCTTTTGCGATCAAAGGTTTTGACAATTCCTGTCATTTTACG -GGACAAACAAATTCCTTACTGAAAATACTGCGCTGCACTATACGGGGTTAATAAAATAAAGCCAGCGATA -TTTAAGACCGCCGGACGGCTAAAATAAAATTTGCTTAATCTCAATTATCATGCGTTAATAGCTGCGTCGG -TTTGAAAGACAGACAGCATACAAAGTAGTTTACTAAAGCAGTTCTCATTATCAGGCATTATCCCCTTCTT -TTGAGTCTCTCTCCTGAACACTAAGTAGTTTCTGTATTAAAGCCCTGTTTGCCGAAAGGCCCAAAATGAA -GGAAGTAAAATATGTCTAATAAAATGACTGGTTTAGTAAAATGGTTTAACGCAGATAAAGGTTTTGGCTT -TATCACTCCTGATGATGGCAGCAAAGACGTTTTCGTCCATTTCACCGCCATCCAGAGCAATGAATTCCGC -ACGCTGAACGAAAATCAGAAAGTTGAATTTTCTATTGAGCAGGGGCAACGTGGCCCCGCGGCAGCGAACG -TTGTTACGCTCTAAGGTTGCCATTATTACTCAACATCTCCATTTCCGCTGTCCATGTTGTCATGGTTCAC -AGTACCGCACATCGGCATTCGATGTGACGGAGCGAAACCCTTTGGGCGCTAAGTGTATTTTTTGTAAATC -GACGATGATCACCTTTGATAACGTCGCGCTGCAAATACGCACTGACCATGCGCCGCTGGATTTCACAAAA -TAATATCAGGCTCCCTCGTGGAGCCTTTTTTATATCTGCCTTATTTTTCTTCAACGCTGTATGTATAGTA -AGCGATAACCTGTTGATTATTGAATCTTTCGGGGAGATGGCTTATAACATTTCTTACCTGACCAGGGTAC -CGGGAACCAACACCTTACTGGCGTGTTGCTGTCTTTTAAGACCAGAAGAGGTTAACAGTGAATATTGAAG -AGTTAAAAAAACAAGCCGAAACGGAAATCGCCGACTTTATCGCGCAAAAAATCGCCGAGCTGAACAAGAA -TACAGGGAAAGAAGTCTCTGAAATTCGCTTCACCGCACGAGAAAAAATGACCGGGCTTGAAAGTTATGAT -GTCAAAATCAAAATAATGTGATTTTGTGAACATCACCCCGTGCGAGGTGATGTTCCGCTTGTTGCTAATT -TAGTGACCAATCATTGGCGCTTGTGGAATTAAGCGTCGGTACAATTCCTCCGGCACCGGGCTTTGCCATA -CTCCCGCATACATTGCGTAACCAATCACCGCAAACATAATCCCCAGAACCAGTAGCGTCATTAACCAGCC -AGACAACGCAAAGGCTTTTTTATTTGCCGCAGGTTTTTGCAGTGAAAAGGTCAATGTTGAGGCTACCGGA -CATGACTCTACGCAAGTCATACAGCCGGTACATTCCACTGTTCGTACCTGAATTAATTTATCGACCGGGA -TCCGTGATGGGCAATTTTTTGCGCATTTGCCACAGTCGATACAACTTTCGGCATTGCGACGAATCTTAAA -CGGCGACAATAGCGAAACCACGCCCATCAGCGCGCCATATGGGCAAAGATAACGACACCAGGCATGGCGA -ATAAACAGGCTGGCAATCAGCAAAACGGTCACGCTGATTAATGTCGCGGTCCCCATATGACGAAAGAAAT -CGAGCATTTTAACGTCCATCACCACGCTGTAGGGCGACAACATAAAATAGTGAATCGCCTGAGCGGGCAT -CAATAACGCGATATAGATAAAAAAACTCAACAGCAAATACTTCACGCCGCGCAGAGGAATATCCAGCCAG -CGGGGAAGGACACATTGCCGACCAAACAGTTTGTTACCGAGATCGCCGATTAATTCAGAAAGCGTACCAA -CCGGGCATAACCATGAGCAAAAGGCCTTTTTGAGTAATAGACTGATGACGATAAAAGCGACCAATAACAG -CATCGCGGCGGCGTGGACGGACGGTAACTGACCTGTTACAAGGCTATATTTCAGATTCATCAGCCCGGCA -ATCGGTAGCCAGCCTTCGATACCTCCCGGTCTGGCGACAAATGTCGTGCTACTTGCCGTTTCGTAATAGC -GCACCCAATACCAGAACGTGATGGCAATATAAATATTCATTGCCAACAGTAATAATTGCGTCGCTTTACG -CCAGGTCGTGGCATTACGCCAGTCATTCCACGGTAATTTGCCGCCCGTCGTGCCTGGCCGCCGCTGCCAG -CGGGTTCTTTTATTCTCTGCCATGATTTTGCCAGTCCGTTAAGTTGTATACCAAATGCCACTATTCTAGT -TGTTCTTAACTGGCTGATATTGATTCAAATCGCGTTCAGGTCTTTCTTATGCAACCATGCTTCCAGAGCG -GCAACACTGCGTGTAATTTCTTCGTGTGGAAGGGGGGCAGATAATGGCTGCTGCTCCAGTTGTGCGCATA -GCTGGCTGGCGATATGCATTCCCAGACTCGAGCAACTGCTTTTTAGCTGATGCGCGGCACGCTTTATTTT -CTCGCTATCCTGACTGGCGCGGGCAATGTCGATTTCATCGAGAAGCGGCAGGGCATGTTGTGTAAATAAT -ACCAGCCATTCGTGGATCTTCTCCGTCCCCATTAACTGAGCATCTTCATTGAGTTGCGATACATCCAGCG -ATTGATCATTATTGACTTGCAGTTGGAGATAGTGCGCCAGTAACTGACCGAGCACTTCACGCGGCACCGG -TTTAGGGATAATCCCGCGGAATAATGAACTGGTACGCTGGCGCAGCGTTTCGTCAATGACATGGGCGCTA -AAGCCAATCAAAACCAGCGACGGATATTGCTGTGCCAGTTGTCGGGCAAGCGTAATGCCGTCGATATCCG -GCAGATCAAAATCCACCAGTGCGGCAGCAAACGGTTCGCTATTTTGCAGTGTCTCTAAAGCCTGCGCGGC -ATTGCCAACAGCAACAATCTGCGCACCACTGGTTTTCAGCATCTCAATGGTAATTCGCTGGGTTAGCGGG -TTATCTTCAATTAACAGCAAACGTAAACCGTCAAGACGCACCGCCTGATTGACTGTTTTTGGCACGGGTG -CCGTGGCAACACGTAACGGCAAGCGTAAACAAAAACAGCTTCCAACCTCCGGCGTGCTGGTGGCGCTCAG -TTCGCCGCCCATCGCCTGGGCCAGACGGCTACTGATAGTCAGTCCCAGCCCGGTGCCGCCGCGTTTGCCG -CTTACCTGCACAAATGGCTGGAAGATTTCTGCCAGTTTCGCGGGATCAATACCGCAGCCGCTGTCTTCCA -CTTCGACCAGCCATTGCTCGCCATCAGTGCGACTACGCAGGATAATGTACCCTTCGTCAGTAAAACGCAG -GGCGTTGCTCAACAGGTTGGTTATAACCTGACGAATACGTCGTGGATCGCCCATTAACGCGCACGGCATA -TCATCGGCAATTGCCGTTGCCAGGCGAATCGGGCGACCTTTCACCCGTCCGCTCATTAATTGCAGGGTAC -TTTCCAGCAGCGGGCGCGGTTCAAAGGGCTCATCGCTGACCGAAACATTCTTGCCACCTGCTTCGATAGC -GGAATAATCGAGAATATCGTTGAGGATGGTCAGCAACGATTCACCAGAGTCAGTAATTGCCCGCAAATCA -TCACGCTGGGCGTTAAGTGCGGGGTTATCTGCCAGCAGTTGAGCAGTGCCGAGAATACCGTACAGCGGTG -TGCGGATCTCATGGCTCATCGCCGCCAGAAACGCCGATTTTGCCTGGCTGGCTTTTTCTGCTTCCGCCCG -TGCCTGTCGGTGTTCTATCACCAGTTCCTGCAATTCAGCTGTACGCGCTTTGACCTGCGCCGCCAGCTGT -TCGCGGTGGCGATTCAGTGCATGAACATTGCTGCGAAACGCATCCATCAGCCGCCCGATGGTATCCAGCT -CCCGTACGCCAGCGGTTTCCGGGAAAGGGGAGTCAATATCACCGTCCAGCAGCCGTTGCAGCGCCTGCGT -TTGTTCGGCAAGTGGACGCGTGACTGAGCGATAAACCACGCGCCAGAGGATCAGAATCAGTGCGCAAAGT -GAAACCATCCCCAGCAATAACAGGCTGTATTGCCCGCGTGCACTCGCTTTTTCCAGATGCGCCAGTCCGT -GCTGATTACGCAGCTCAATGGTGTCGACCAGCTGACTGACTTCGCTACTAAACTGCGCGAACTGGGCGAT -GTTATTTTGTGCGAGAGTTTGTAGGTGATTGCTGATTTCACTGTCCTGCTGATACAGCGCCAGCAAATCG -CTATATTGGCTAACGGTAGTTAACGTTGTTGCGACCTGCGCACGAACACCCGGATCTTCAATGCGTATTT -GCCGACGTTGCAGAATTTTCACCGCATTATTGAGCTGCTTTTCCAGCGTTGGTGCATTTTTCTGGATCTG -CTCCAGCCCCAGATTCATCACCATTTGCTGCACCCGCAGAGCGCTAAGGCGCAGTTCATTCATCTGGTTA -ACATACTCAAGATCGATATCAATCAGCCGATCGAGTGCACTTTCAGCAGCCTGACGCTGATCTTGTTCGA -TCAAATCGTAAATCCCGGCCTGGGTCGCTCCAGCGGAAGTTGTCGCATTATTCGCCTGACCTTGCGCCAG -GCGTGCGATCTCATCGGCGGCAGCGACTATCTGCTGACTGAGTTGCTGTTGTTGCTGGCGCAGTTGCAAA -CGCTGCCCCACCAGTTCCCCTTGCTGACGTAACGAACGGGAGATCTCCTGCTCCTGTTGTTCAATAGCGG -TGGTATCAAAACCTTGTTCCCGTAACGCTTGCAGCAACGCATTAATCTTCAGGCTTTGTGCGGTGAGCAT -TCGCCCCTGCGCCTGCCACATCTTTTCGTTATCGGCACTGGTCAGGTTCTGCGCGGCGAAAAGTTCCCAG -GCGCTGGCTTCGCTCAACTGGCGCGCCATATTCATGGTAGGAATCAATGCCTGAGTGTTGTCTTTTTCCA -CCTGGCTGATAAAGCGCAGGTTGTACCATCCCACCAGGGTACTGGTCAGGGTTAACAGCGCCATCAGGGC -AAAGCCCATCCAGAGTCTTCGGGTCAGGGTTAAATTCACGGTCGGTGCACTTTAGGTGAAAAAGGTTGAG -TCGCAAAGCGGAATGCATCTAGCATAAAGCCTTATTATTGATGAGGCTATCATGCGCGTACTGCTATTTT -TACTTCTTTCCCTTTTCATGTTGCCGGCATTTTCGGCTGATAACCTGTTGCGCTGGCATGATGCGCAGCA -TTTCACGGTGCAAGCCTCTACGCCGCTTAAAGCCAAACGCGCATGGAAACTGTGCGCGCTTTATCCCAGC -CTGAAAGATTCATATTGGTTATCGTTGAACTATGGTATGCAGGAGGCTGCTCGCCGCTACGGTGTGGATT -TAAAAGTGCTGGAGGCAGGCGGCTACAGCCAGTTGGCTACCCAGCAAGCACAAATCGACCAGTGTAAACA -GTGGGGCGCAGAGGCCATTTTGCTCGGTAGTAGCACGACCTCATTTCCCGACCTGCAAAAGCAGGTAGCA -AGTCTGCCGGTGATCGAACTGGTAAATGCTATTGATGCTCCCCAGGTGAAAAGCCGCGTTGGTGTGCCCT -GGTTTCAGATGGGCTATCAACCGGGGCGATATCTGGTGCAATGGGCGCACGGTAAACCACTGAATGTGCT -GTTGATGCCCGGACCCGATAACGCCGGGGGCAGTAAGGAGATGGTCGAGGGTTTTCGCGCAGCCATTGCC -GGAAGCCCGGTGCGTATTGTTGATATTGCGCTTGGTGATAACGATATTGAAATCCAGCGTAACCTGTTGC -AGGAGATGCTGGAACGCCATCCAGAAATCGACGTCGTTGCCGGAACGGCCATTGCGGCAGAGGCGGCAAT -GGGGGAAGGGCGTAACCTGAAAACGCCGCTTACCGTGGTGTCGTTTTATCTTTCACATCAGGTGTATCGC -GGGCTGAAGCGGGGAAGAGTGATTATGGCTGCCAGCGATCAAATGGTCTGGCAGGGGGAACTGGCGGTTG -AGCAGGCCATCAGGCAATTACAGGGGCAATCGGTTTCTGATAATGTCAGCCCACCGATTTTAGTTCTGAC -GCCGAAAAATGCCGACCGTGAACATATTCGCCGCTCGCTGTCACCAGGGGGATTTCGTCCGGTCTATTTT -TATCAGCACACATCAGCGGCTAAGAAATAACCTTCACCATGTTGCGTCACCAGTAAATCCGCGCTGAGTT -TATGACGTAAACGACGAATTAACACATCGACGGTGCGCAGGTCAGGGTTTTCCACCCGACGCGCAGAAAG -CATACGTAGCAGACGTTCACGGCTGAGAATTTCGCCCGGATTCGTCACAAATGCCACCAACATTTCATAC -TCTGCGCGGGTCAGTTTAATCGGCTCGCCATCCCGCTCCAGCGTATGGCGCGACACATTCAGGCAATAAC -CGGCAAAGCGATAGCAGTTGTCCTGAGTGTGCGGTTGAGCTTGTCGCGCGAGGTCGATTCGCCAGAGCAG -ATTTTTCACCCGTACTACCAGTTCGCGCAGTTCCAGCGGTTTGGTGACGTAATCGTCTGCGCCCATTTCC -AGCCCAACAATACGGTCAATCCGATCGCTGCGTCCGGTAACCAGAATAATCCCCACCGTTGAGCGTTCTC -GCAGGGCGCGGGTTAACATCAGGCCATTTTCATCGGGTAAGTTGATATCCAGCAGAATTAAATCTACCGA -CTGATTCTGCATAATTTCCCGTAGCCCAGCACCGCTCGCCGTAACGGAAACGGTATACCCCTCCTGAGTG -AAGTAGGATTGTAATCGCGCCTGGGTAACCGGCTCATCTTCAACAATAACAATGTGATGTGGCATCAGAG -GGTTTTACTCATTCTGTTCATATCTGTTCATATTCTGCCGTAAGCCGTTCATCCTGACCAGTGCCGCTGT -TCATATTTGCTCATTAAGATCGCTTCACTAAACCATAATTCTACAGGGGTTATTATGCGGAAACTCTGGA -ACGCGCTACGCCGACCCAGTGCTCGTTGGTCGGTACTGGCGCTGGTCGCAATTGGGATTGTGATTGGCAT -TGCGCTGATTGTATTGCCACACGTTGGGATCAAAGTCACCAGCACAACCGAATTTTGTGTCAGTTGCCAC -AGTATGCAACCGGTGTATGAAGAATATAAACAGTCGGTGCATTTCCAGAACGCCTCCGGCGTGCGAGCTG -AATGCCATGACTGTCATATCCCGCCGGATATTCCAGGCATGGTGAAGCGCAAACTGGAAGCGAGCAATGA -TATCTACCAGACCTTTATTGCTCACTCCATTGATACACCTGAAAAATTCGAAGCCAAACGCGCGGAACTT -GCCGAGCGTGAATGGGCGCGAATGAAAGAAAACAACTCGGCAACCTGCCGCTCCTGCCATAACTACGATG -CGATGGATCATGCGAAGCAGCATCCTGAAGCAGCACGTCAGATGAAGGTGGCAGCGAAAGATAATCAATC -CTGCATCGACTGTCATAAAGGTATTGCCCACCAGTTACCGGATATGAGTAGCGGCTTCCGTAAGCAGTTC -GATGAGCTGCGCGCCAGTGCTAATGACAGTGGTGACACGCTGTACTCTATTGATATTAAGCCAATTTATG -CGGCGAAAGGCGATAAAGAAGCCTCTGGTTCTCTGCTGCCTGCTTCGGAAGTGAAAGTCCTTAAACGTGA -CGGCGACTGGCTGCAAATTGAAATTACCGGCTGGACGGAAAGCGCCGGACGTCAGCGTGTACTCACCCAA -TTCCCAGGTAAACGCATCTTTGTTGCCTCGATTCGTGGTGATGTGCAGCAGCAGGTAAAAACGCTGGAGA -AAACCACCGTTGCCGACACCAATACCGAGTGGAGCAAGTTGCAGGCCACTGCGTGGATGAAGAAAGGCGA -CATGGTGAACGATATCAAACCGATCTGGGCTTATGCGGATTCGTTGTACAACGGCACCTGTAACCAGTGC -CACGGCGCACCGGAAATCGCCCACTTTGACGCTAACGGTTGGATCGGCACGCTCAACGGCATGATTGGCT -TTACCAGTCTCGATAAACGTGAAGAACGCACCTTGTTGAAATATCTGCAAATGAATGCGTCTGACACCGC -AGGTAAGGCTCACGGCGATAAGAAGGAAGAAAAATAATGAACAATAACGATCTCTTTCAGGCATCACGTC -GGCGTTTTCTGGCACAACTCGGCGGCTTAACCGTCGCCGGGATGCTGGGGCCGTCATTGTTAACGCCGCG -ACGTGCGACTGCGGCGCAAGCGGCGACTGACGCTGTCATCTCGAAAGAGGGCATTCTTACCGGGTCGCAC -TGGGGGGCTATCCGCGCGACGGTGAAGGATGGTCGCTTTGTGGCGGCAAAACCGTTCGAACTGGATAAAT -ATCCGTCGAAAATGATTGCCGGATTGCCGGATCACGTACACAACGCGGCGCGTATTCGTTATCCGATGGT -ACGCGTGGACTGGCTGCGTAAGCGCCATCTCAGCGATACCTCCCAGCGCGGTGATAACCGTTTTGTGCGC -GTGAGCTGGGATGAAGCCCTCGACATGTTCTATGAAGAACTGGAACGCGTGCAGAAAACTCACGGGCCGA -GTGCCTTGCTGACCGCCAGTGGTTGGCAATCGACGGGGATGTTCCATAACGCTTCGGGGATGCTGGCGAA -AGCTATTGCCTTGCATGGTAATAGCGTTGGTACGGGCGGAGATTACTCTACCGGTGCTGCGCAGGTGATC -CTGCCGCGCGTAGTCGGTTCGATGGAAGTGTATGAACAGCAAACCTCCTGGCCGCTGGTATTGCAGAACA -GCAAAACCATTGTGCTGTGGGGCTCCGATTTGCTGAAAAACCAGCAAGCGAACTGGTGGTGCCCGGATCA -CGATGTTTATGAATATTACGCGCAGCTAAAAGCGAAAGTCGCCGCCGGTGAAATTGAGGTCATCAGCATC -GATCCGGTTGTCACATCCACCCATGAGTATCTGGGGCGCGAGCATGTGAAGCACATTGCGGTTAACCCGC -AAACTGACGTGCCGCTGCAACTGGCGCTGGCACATACGCTGTACAGTGAAAACCTGTACGACAAAAACTT -CCTTGCTAACTACTGTGTGGGTTTTGAGCAGTTCCTGCCGTATCTGCTGGGTGAGAAAGACGGTCAGCCG -AAAGATGCCGCATGGGCTGAAAAACTGACCGGCATTGATGCCGAAACCATTCGTGGGCTGGCGCGGCAGA -TGGCGGCGAACAGAACGCAAATTATTGCTGGCTGGTGCGTGCAGCGTATGCAGCACGGTGAACAGTGGGC -GTGGATGATTGTGGTTCTGGCGGCGATGCTGGGGCAAATTGGCCTGCCAGGTGGTGGTTTTGGTTTTGGC -TGGCACTACAACGGCGCAGGCACGCCGGGGCGTAAAGGCGTTATTCTGAGTGGTTTCTCCGGCTCTACGT -CGATTCCGCCTGTTCACGACAACAGTGACTACAAAGGCTACAGCAGCACTATTCCGATTGCCCGTTTTAT -CGATGCGATCCTCGAACCGGGGAAAGTGATCAACTGGAACGGTAAATCGGTAAAACTGCCGCCGCTGAAA -ATGTGTATTTTTGCCGGAACTAACCCATTCCATCGCCATCAGCAGATCAACCGCATTATTGAAGGCTTGC -GCAAGCTGGAAACGGTTATCGCCATAGATAACCAGTGGACCTCAACCTGCCGCTTTGCCGATATCGTACT -GCCTGCGACCACGCAGTTTGAGCGTAACGATCTCGACCAGTACGGCAATCACTCCAACCGTGGCATTATC -GCCATGAAACAGGTGGTGCCGCCGCAGTTCGAGGCGCGCAACGACTTCGATATTTTCCGCGAGCTGTGCC -GTCGCTTTAATCGCGAAGAAGCCTTTACCGAAGGGCTGGACGAAATGGGCTGGCTGAAACGCATCTGGCA -GGAAGGTGTACAGCAAGGCAAAGGACGCGGCGTTCATCTGCCAGCGTTTGATGACTTCTGGAATAACAAA -GAGTACGTCGAGTTTGACCATCCGCAGATGTTTGTTCGCCACCAGGCATTCCGCGAAGATCCGGATCTCG -AACCGCTGGGCACGCCGAGTGGCCTGATTGAGATCTACTCGAAAACTATCGCCGATATGAACTACGACGA -TTGTCAGGGGCATCCGATGTGGTTTGAGAAAATCGAACGCTCCCACGGTGGGCCTGGCTCGCAAAAGTAT -CCGTTGCATCTGCAATCTGTGCATCCGGATTTCCGACTTCACTCGCAGTTATGTGAGTCGGAAACGCTGC -GTCAGCAATATACGGTAGCGGGTAAAGAGCCAGTATTCATTAACCCGCAGGATGCCAGCGCGCGCGGTAT -TCGTAACGGTGATGTGGTACGCGTCTTTAACGCTCGCGGTCAGGTGTTGGCAGGGGCAGTGGTTTCTGAC -CGCTATGCACCCGGCGTGGCACGAATTCACGAAGGGGCATGGTACGATCCAGATAAAGGCGGCGAGCCTG -GTGCGCTGTGCAAATACGGTAACCCCAACGTGTTGACCATCGACATCGGTACATCGCAGCTGGCGCAGGC -GACCAGTGCGCACACTACGCTGGTGGAAATTGAGAAGTACAACGGAACAGTGGAGCAGGTGACGGCGTTT -AACGGCCCCGTGGAGATGGTGGCGCAGTGCGAATATGTTCCCGCGTCGCAGGTGAAATCATGACCACGCT -GACAGCACAACAGATTGCCTGTGTTTACGCCTGGCTAGCGCAGTTGTTCTCCCGTGAGCTGGACGATGAA -CAACTGACGCAAATCGCCAGTGCGCAGATGGCTGAATGGTTTTCGTTGCTGAAAAACGAACCGCCGCTCA -CTGCGGCGGTGAACGAGCTGGAAAACCGTATTGCCACGCTGACAGTACGTGACGATGCCCGTCTGGAACT -GGCCGCGGACTTTTGCGGCCTGTTTCTGATGACCGACAAACAAGCGGCGCTGCCGTATGCATCGGCCTAC -AAACAGGACGAGCAAGAGATTAAACGCTTGTTAGTTGAGGCAGGGATGGAAACCAGCGGCAATTTCAACG -AACCGGCAGATCATCTGGCGATCTATCTCGAATTGCTCAGCCATCTGCATTTTTCGCTGGGAGAGGGGAC -CGTTCCTGCGCGAAGAATCGACAGTTTGCGGCAAAAAACACTGACGGCGCTGTGGCAATGGTTACCAGAG -TTTGTTGCGCGTTGTCGTCAGTATGACAGCTTTGGTTTTTACGCGGCACTAAGCCAGTTATTGCTGGTGT -TAGTGGAGTGCGACCACCAAAACAGATAACGTCGTTTGTGCGCCTGAAAAGACGCGTTTAGCGTCGCATC -AGGCATTATGGCGCAGTTGCCGGATGCGGCGTGAACGTCTTATCCGGCCCACAGGAACTGTAATCTTTGT -AGACCGGTTAAGATGCGTCATCGCATCCGGCAAACACACATCACGGATGAGCTACAAACCGGGAAAGCCG -CTGGCGCAGCAGGCGGTTTTCCTGCTTCAGGTGCGCAATATCATCCATTAACGTCAGCGCCACCGCGATC -CCCGGCCAGTCCAGAGCCAGTTCATGACGCAGGCGTACCGCGCGTTGCACCACAATGGCGGCATGGTCGT -CAAATACCCAGGTTGTTTCCTGGATCTCACGCGGTTCAACCACCCCCAAACCGACAATTTCATTCAACTC -CTCTTCAGAGATGCCGGTATGCAGGCAAAATTCGGTAATAGTAAAAGTCACCGTAACATTAGCCATTATG -CTTTCCCCCAATCTTTACGTGGATCAAAAGACGACTGGGCGTCTGCCAGTTGCTGCCACAGCGCGGCAGT -GTTTTCATCCGGTTTCGGCGGCATCACGATTTTCAGTACCGCATACAGATCGCCGGTCTGTTTTTTGCTC -ACCAGACCTTTGCCTTTAACGCGCAATCGTTGCCCGGCCTGGCTGCCTGGCGGGATAGTCAGCAAAATGC -TTTCTTTCAGTGTTGGAACGGTGACTTTAGCACCCAGCGCCGCTTCCCACGGGCTAACCGGCACCACAAT -TTCCAGATCCTGGCCGACAATATCAAACAGCGGATGTGGCGCAATATGAATCACCAGCCACAAATCGCCA -TTTGGACCGCCGTTTTCGCCCGGCGTCCCCTGGCCTTTCAGACGGATGCGTTGACCATTGCCGACGCCCG -CCGGGATCTTCACATTCAGCGTTTTCGGAATTTCCTGTTCGATCATGCCAAAGGCGTTATAAACCGGCAG -GTTATAGCTGATGGTACGCTTATGCTCAGTAAGCGTTTCTTCGAGGAATACCGCCACTTCGATTTCAATA -TCGTGGCCGCGTGTGGCGGGGCGTTGACGGCTCTGGCGGGCATGCTGACCGAAAATTGACGAGAAGATAT -CGTCAAAATCTTCGGCGTTAAAACTCTGACCGTCGCCATGGTGGAACTGACGGTTAAATTGCGGATCGTT -GCGATGTTGCCACATCTGATCATACTCAGCGCGACGTTGTTCATCACTTAACACTTCCCAGGCTTCAGCG -ACCTCTTTGAAGCGGGCTTCGGCATCCGGTTCTTTGCTGACATCAGGATGGTATTTGCGGGCAAGTCGAC -GATAGGCGGTCTTGATTGTCTTGAGATCGTCCGTCGGTTTCACGCCCATGATGGCGTAATAATCCTTTAA -TTCCATAGCGTTATCTCGCGTAAATCAACACAAATTGAAGGAACCCCTGTAAGGTAACTCCTATAAGTGT -AGGGTAATCCTCAAAATTTCATATGCCAACACAGAATATGTTATTGAAATCATCGCGGAGAGGAGGTCGC -CATCAAGATGGGTTGCTGAACATATTTTAAACAGGTGAAAAAGGGTGAGCGATTTTTGATAGTTGAACCA -GGCACTTTAAGTTTAACTAGGGCGTCATTATTTATTAAATTTTATAGACGCTATATATGGGTAGTAATAT -ACATGGAATTAGTTGCACTGCAAATAATTATTTGAAACAGGCCTGGAACGATATAAAAAATGAGTACGAA -AAAAATCAAACATATTCAATCACGCTTTTTGAAAACACACTGGTGTGTTTTATGCGGTTATACAATGAAC -TCAGACGTAAAGTAAATGAAGAGGATACTCCATGTCTGGAATGTGAATCACTAGAAAAAGAATTTGAGGA -AATGCAGAATGATAATGATCTATCATTATTTATGAGAATATTGCGTACTAATGATACACAAATTTATTCA -GGGGTTTCAGGAGGTATTACATATACTATACAATATGTTCGAGATATTGATATTGTTAGAGTGTCCTTGC -CGGGCAGAGCTTCAGAGTCTATCACAGATTTTAAAGGTTATTATTGGTATAACTTTATGGAGTATATTGA -AAACATTAATGCGTGTGATGATGTTTTTTCTGAGTATTGTTTTGATGATGAAAATATAAGTGTCCAGCCA -GAGCGGATAAATACGCCGGGAATATCTGATTTGGATTCTGACATTGATTTGTCTGGTATATCTTTTATTC -AGCGTGAAACTAACCAGGCATTAGGATTAAAATATGCTCCTGTAGATGGCGATGGATATTGTCTGTTAAG -AGCTATACTGGTTTTAAAACAACATGATTATTCATGGGCGCTGGTCAGTTATAAGATGCAAAAGGAAGTT -TACAACGAATTCATTAAAATGGTTGATAAAAAAACGATCGAGGCTCTTGTTGATACGGCATTCTATAATC -TCAGGGAAGATGTAAAGACGTTATTTGGCGTTGATCTACAATCTGACAACCAAATTCAGGGGCAGAGTAG -TCTTATGTCATGGAGCTTTCTGTTTTTTAAAAAACAATTCATTGATAGTTGCTTGAATAACGAAAAATGT -ATCCTGCATTTACCCGAGTTTATATTTAATGATAACAAGAACTTGCTTGCTTTAGATACCGACACGTCGG -ATAGGATTAAAGCGGTGAAGAATTTTCTTGTTGTTCTTTCAGATAGCATTTGCTCATTATTTATTGTTAA -TAGTAATGTGGCATCAATCTCCTTGGGGAATGAATCCTTTTCAACAGATGAAGATCTTGAGTATGGTTAT -TTAATGAACACTGGCAATCATTATGACGTTTACCTCCCTCCTGAACTTTTTGCTCAGGCTTACAAGTTAA -ACAATAAGGAAATGAATGCGCAACTCGACTATTTAAATCGTTATGCAATTTAATGGCAAAGGCATATGCT -AAAAACCATTGTTATTAGTCTCACACTTTTTTATTGGTAAATATTGTCTCTGTATTGGTAACGCCGCAGA -TATTCTGTTTAGCCACAGGTGCAATTATCAGCGGCGTACGCGAGGCAGGGGCTAATCAGGCATAGTTTGC -GTCAAACCTTGCCTGTTTTTGAAGATGTATATAGAAAAACAGGCGTTCAACAAGCCATTTTGCGAACCTG -TTCCCGGAAAAAAGTCATATTTCTGTCACACTCTTTAGTGATTGATAACAAAAGAGGTGCCAGGAATGAA -CAAAACGCTAATCGCCGCAGCTGTGGCAGGGATAGTTTTACTCGCTTCAAACGCTCAGGCACAAACCGTA -CCGGAAGGCTATCAGCTACAGCAAGTGCTCATGATGAGCCGCCATAACTTACGTGCGCCGCTGGCGAACA -ATGGCAGTGTGCTGGAGCAGTCGACGCCGAATAAATGGCCAGAATGGGACGTCCCCGGTGGGCAACTCAC -CACCAAAGGTGGCGTGCTCGAAGTGTATATGGGCCATTACATGCGTGAATGGCTGGCAGAGCAGGGGATG -GTGAAATCGGGGGAATGCCCGCCGCCGTACACCGTTTATGCCTATGCCAATAGTCTGCAACGTACCGTTG -CGACCGCACAGTTCTTTATTACCGGCGCATTCCCGGGGTGTGATATTCCTGTGCATCACCAGGAAAAAAT -GGGCACTATGGACCCAACCTTTAACCCGGTGATCACCGATGATTCCGCCGCATTCAGTGAACAGGCGGTG -GCGGCAATGGAGAAAGAGCTCAGCAAACTCCAGCTTACCGACAGCTACCAGCTACTGGAAAAAATCGTTA -ACTATAAAGATTCCCCTGCCTGTAAAGAGAAACAACAGTGTTCGCTGGTGGATGGCAAAAATACCTTTAG -CGCCAAGTATCAACAAGAACCAGGTGTTTCCGGGCCGCTGAAAGTCGGCAACTCGCTGGTAGATGCGTTT -ACTTTGCAATATTACGAAGGTTTTCCGATGGATCAGGTGGCCTGGGGAGAAATCAAATCTGACCAGCAGT -GGAAGGTGTTGTCGAAGCTTAAAAACGGCTACCAGGACAGCCTGTTTACCTCACCGGAAGTGGCGCGCAA -TGTTGCGAAACCGCTGGTCAGTTATATCGACAAAGCTCTGGTCACCGATCGCACCAGCGCACCGAAAATT -ACAGTGTTGGTTGGGCACGACTCCAACATTGCCTCTCTGTTAACGGCGCTGGATTTCAAACCGTATCAGT -TGCATGACCAGAACGAACGCACGCCGATTGGCGGCAAAATCGTTTTCCAGCGTTGGCATGACAGCAAAGC -CAATCGCGATTTGATGAAAATTGAATATGTGTATCAGAGTGCGGAACAGTTACGTAATGCCGATGCGTTA -ACCCTGCAGGCACCTGCGCAGCGTGTGACGCTGGAATTAAGCGGTTGCCCGATAGACGCTGATGGTTTCT -GCCCGATGGATAAGTTTGATAGCGTGTTGAATGAAGCGGTGAAATAACAGAAAACTCCCCCGCGAGAAGC -GGGGGAGTCGCTGGTTAAACGTTTTTACGTTCGATGGTCTGTTCGCCCCAAAAAAGCGAATCTTTATCGG -TCTTAGCAAAGGCTTTGACTAACACTTCATCACTACCTTCTTCCCAAATCTTTTCCGCCATTTTTTCGTC -GTACCCGGCGACTTCGAAAATGGCCTCGGCTATTTCCGGCGACGTATTGCGCAGAGATGCCCATTCACCG -ACGTGATGAGCTTTCGCTTCTTGAGTTGGCATGCGTATCCTCCTGTTGAAGATTAGCCGTTAAGTTTAAC -TGCCAGACCTGCGACATATTCCCCTTGATAACGAGCAATAGACAGTTCTTCCTGGCTGGGCTGGCGTGAA -CCGTCACCGCCTGCGATGGTGGTTGCGCCGTACGGCGTACCGCCGCGAACCTGTGAAACGTCAAATAATT -CCTGCGCTGCGTAGCCAATAGGGACAATTACCATGCCGTGATGCGCAAGGGTCGTCCAGGTGGATGTGAT -GGTTTGTTCCTGACCGCCGCCAGTACCGGTGGAACTAAAGACGCTCGCCAGTTTTCCGTATAGTGCGCCG -GAAGCCCACAGGCCGCCCGTCTGGTCGAGGAAGGTACGCATTTGACCGGACATGTTGCCAAAGCGGGTAG -GTGTACCAAAAATAATGGCGTCGTAATCGGCCAGTTCTTGCGGGGTTGCAACCGGTGCAGTTTGCGTTTT -ACCGCCTGCTTTTTCAAATAATTGCGGCGGCATGGTTTCCGGTACACGCTTAACGACAACTTCAGCGCCA -TCCACTTTGCTTGCACCCTCAGCGACTGCGCGTGCCATCGTTTCAATATGTCCGTACATGGAATAATAAA -GCACCAGAACTTTAGCCATTTCTAACCACTCCTCGTGTTATCTCTATTCCGTAGCGATTCGCTACCACTT -ATTTAAAGATAAGACGTCCTTTTCAGAGTGCAAATTTCACAACCACTTATTTGATTTATAACAACTTTCA -CAAGCACGTAATTTTGTCGCAAAATGACACATTTTTATCTCATCGCGTTTTTTTAATCATAAGAGCGGCT -TATGGATAATTATTGGAGATGATATCTATTCTCGCTAAGAAGCTGTTGCAGGATATTACCAAACGCGGGT -CTGCCCGCGTCAGTTCACTAAGCTTAGTCCCACGTAGCGAAAATATGGCAGCCGCCATACGCCGCGTTAA -TTCTATGCAATATGATGTCTATACCCAGACGGAGGTCAGTAATGGCAAACCATCGAGGCGGTTCCGGCAA -TTTTGCAGAAGACCGCGAAAGAGCATCAGAAGCAGGTAAAAAAGGTGGACAGCACAGCGGGGGTAATTTC -AAGAATGACCCGCAGCGCGCATCTGAAGCAGGTAAAAAAGGTGGTAAGAGCAGTCACGGCAAAAGCGACA -ACTAGCCGGGCTAATCAATGACGAATGCATTTTTGTCTGTAGCTCGTCAAAAAGCCATCACCGCCGGTTA -CCCGGTGGTTGATACTGATGACAAATGTAAGCTTGCCTGATGCGCGATGCTTATCAGGCCTACCAGAAGA -TTGCAATATATTGAATTTGCACTGTTTTGTAGGCCGGATAAGGCGTTTACGCCGCATCCGGCATGAACAA -TGCGTACGTTGTCAACAATCTGCACCGCCGGTAACCCCGGCGGTTTTCTGTTTATGGCTCCTGATGAACA -ACTTCTGGCGGTGGAACGTCAACCAACTTTCTGCTTAACAACGCATTGAGTAAAATCGCGCCAAAGGTTG -CTGTACCAATCCCTCCCAACGTAAAACCGCCCAGCGTGAGAGCAAAATCACCCGCGCCCAGCACTAAGGT -TACTGCGACCATAATCAAATTACCGTTCTGGCTTAAATCGACACGGTTTTGTACCCATATCCTTGCGCCT -GCGACGGCAATCAGCCCGAACACAACAATTGATGCACCACCAATAACCGCGGCCGGAATGGTATGAATCA -GCGCACCAAATTTCGGTGAAAAGCCCAACAGCATGGCGATGACGGCAGCAGCAACAAACACCAGCGTCGA -GTAGACTTTGGTCACGGCCATCACACCGATATTTTCAGCATAGGTGGTCACGCCGCTACCGCCGACAGAG -CCGGAAAGCATCGTTGCCAGACCATCGCCTACGAATGCCCGCCCCATATACGGGTCCATATTGCGTCCGG -TCATCCCGGCGACTGCCTTGAGATGACCTAAGTTTTCCGCCACCAGAATCACCGCCACGGGCGCAATCAG -CATCATTGCCTGACCATTAAAAGCAGGAGTGGAAAAATGTGGCAGACCGAACCAGGCAGCATGGCTGACG -AGAGTAAAATCGACGGCTTTTCCCAGCCCTAAAACGTTGGTCATCACGCCATACAGCAGACAGGCGACAA -TTAATCCTACGAGAATCAATAACCGCTGGATCATGCCACGGGTAAACACCGCCACCAGCCCAATACACAG -CACCGTCATTACCGCCATCCAGCTATCAAAGGCCGAAGCCGATACACTTTTCACTGCGATAGGCGCTAAG -TTCAGGCCAATCGCCATCACCACCGCACCCGTCACCACCGGCGGCATCAGTCGTTCAATCCAGCGCGTAC -CGATTTTCATCACCACCAGGCCAATGACGGTATAAACCAGCCCACAGGCGATAATCCCGCCCAGCGCAAT -GCTGATATTCGGGTTAATGCCCTGACCGTTAAAGCCCGTCGCGGCGATCACCACGCCGACAAAAGCCGCG -CTGGAGCCGAGATAACTGGGGACGCGCCCGCCGGTAATAAAGAAAAACAGTAACGTGCCGATCCCCGACA -TTAAAATGGAAAGATTGGGATCCAGCCCCATCAGAATCGGCATTAACACCGTCGCGCCAAACATCGCCAC -CGCGTGTTGAACGCCCATTACTGCCGTCTGAGCAAACGGCAATCGTTCATCCGGCGCGACCACGCCGCTC -TCTGTAGAGGTCGATTTTAACTGCCAGTGAGGAAAACCGAACATTGCCATCAGCTGTCTCCTTAAGGAGG -TTAACAAGCAGGGCGCATCAGCGCGTGATAACTGCGATCGAACCACACCAGCCCGTAGGGTGTGGTGTGA -CGATGAATCGCTTCGATGGCGCAAAACAGAATGTCGTGGGTGCCGACGCTCACCACCTGGCTGATACGGC -AGTCAAACGAAACCAGAGCCTCTTCCAGTTGCGGGCATCCGGTCACCCCCGTCTGCCAGCGGGCGGCGGC -AAAGCGGTGTTCCATGGGCGTTTTGCCGCCAAAAAGGTTTGAAAGCGGCTCCTGCCCGGCGCTAAGTGTA -TTTACACACAGCGTTCGATTTTCATTGAATGCCGGCCAGACGGACGCCCCACGATTCAGGCACACCAGTA -ATGTGGGCGGCGTATCGGTCACACTGCAGACGGCGCTGGCGGTGAACCCGGCGCGCCCGGCTGGACCGTC -CGTGGTGATAATATTGACCGCCGCGCCCATGCAGGACATCGCATCGCGAAAAGTTTGTTGATCGACAATG -TTCATAGTTTGCTCCTTACAACAGCCCGCAGGCTTCTTCAAAGGACAGACGTGGCAGGCGCGCATAAAGC -TTGCTGCTATCGCCATAGCCGATATTAATCAGCAGATTGCTCTTCAGCGTGCTGCCCGTAAAAAAGGCGT -CGTCCACGTGTTGACGGTCAAAGCCCGACATCGGGCCGGTATCCAGTCCCAGCGCCCGGCAGGCGACGAT -CAGATAGGCCGCCTGCATGGAACTGTTGCGAAACGCTGTTTCTTCGGCAAGTTGTGGGCTGGAGGTAAAC -CAACTGCGGGCATCACCGTGGGGAAACAGTAGTGGTAACCGTTCATAAAATTCACTGTCCCAGGCGACGA -TAGCGGTGACGGGCGCGGTCAGGGTTTTTTGCAGATTGCCGCTGGAAAGTGCCGGGCGCAGACGTTCTTT -TCCTTCTGCCGTGCGGGTAAACACGATCCGTGCCGGAGAACAGTTAGCTGATGTCGGCCCCCATTTCATC -AGGGCATAAATCTCCCGTAACGTCTCATCGCTGACGGGTGTCTCCCGCCAGCCGTTGTGAGTGCGGGCAT -CGGTGAACAGGGTGCTAAGCGCACCTGGGCTAACGGCTTCGTTCATAGCAATTCCTTACAGGGCGGCTTC -ACGGTGATGTAACAGGCTGGCAAGCCCGTTGAGTAACAGAGCATTAAACGTTTCGGGATCGGTCACGTTG -CAGGCGTGTCCGCCATAGGGCATCACCATTTTCTGGCTATCGGGCAGGGCGGCATGAAGTTCACTGGAAC -ATGCTGTTGGCACCAGCAGATCATCACTGGCGCAGATGATTTGCACCGGGCAGCGGATGCGATCCGCATG -GTGACTAAAGTCAGCGCGTTTGAGGGCGTTAAGTCGACGCAGTAAATTATTTTTGCCCTGAAAATGCGCC -AGTGCCAGCGCGTCTTCTGCCTCCAGGCGAGGTGCGCGGGCCGCCATCCAGTCGGCGGGATAGAGGAACA -ACGGCTGCGCTTCCACCCATGCCTGCGCGCCGCCGCTATACAGTAATCGTTCGCGAACCTGAAAACAGCG -GCGCGTATGGGCGTTTATTCGTAGCCAGCCGTTAACGCTGATCAGCACAGTTACCGACGCGGGATAATCC -AGCGCCAGCTGCATTCCCACCAGCGCACCGAGCGCATGGCCGACCACTGCGTAATGCTCAATCCCTGCGG -CTACCAGCGCCTGATGCAGTTCCGCTGCCATCTGGGCGATACTGTAATCTTCTGCCAGCGTGTCGGGATT -ATTGCCGGTGCCGCGCTGGTCGTAACAGACTACCTGATACTCCTGCTCCAGCACCGCCAGTTGCGGTAAC -CAGTAACTGCCGCTACCCCCAAGACCCGAAATCAACACCACTACGGGCGCATCAGCATAAGGGGGAGGTG -AGAGTGAAAGTTTCATCGCGGCCTCACTTGGCGATATGCGCAATTGTGGCGATTTCCACCAGCGCGTCAG -GTTTTACCAGTCCGCACTGAATGCAGAATCGCGCCGGTTTATCACCCGGAAAAAACTCGGCGTAGATTTC -GTTAATCGCGGCGTAATTTTTCCAGTCGGTAATAAAGATGCTGTTGAAGGTCACATCCGCCATCGTGCCA -CCCGCCGTCTCGATCACCTTGCGGATAGTTTCCAGAACGTGGCGGGTTTGCGCCTTTGGGTCATCGGCAA -ACAGCACGTTATTATGTTGATCAAAAGCCAGCGTACCGGAGACATACACCACGCCATCAGCCAGCGTGCC -GGGAACGAAGGGGGCCAGCGGTGCGCTGCTGCCAGCGGGAATAATTACGGATTTTGGCATCGTTAAACTC -CTTAAGCGATATGAGCAAAGGACGTGGGAGAAAGCGCGTCGCAGAATGTTTCGACGTCGCTGACCCAGCC -AAAAAAGGTTTCGATATTGAACAACGCGGCTTTCTGCGCAAATTTCGGCCCCGCCTGGTGAGTTGCGTCT -TCAAGCACCACGCCGAAATACTCCAGAAAAAAGCCGTCGCGTAGCGTCGATTCGACGCAGACGTTGGTAG -CGATGCCGGTGAAAACCAGATGGCGTATTCCGCGGCTGCGCAAAATGCTGTCCAGCGGCGTATTGAAGAA -ACCGCTGTAGCGCGGCTTCGGCAGCACAATATCGCCAGGCTGCGGCACCAGTTCATCCACCAGTTGATAA -TCCCAGGAGCCTTTCGCCAGCAATTTCCCCTGCAGCTGCGGCTGCTTACGCATGGTTTTCAGGGCGTTCG -ATTTATGAAAATTCGGTGAGCCGGGTCCGCCAGCCTCGACATACTGTTCATCCCAGCCATTTTGAAACCA -GATGATCAGCATCCCTGCCGCTCGCGCTGCGGTCACGGCGGTTTGAATGTTGGCAATGACCGGGCGAGTG -GTTGAGACATCAAACCCGGCGAGATCTAAGTAGCCGCCTGGCGTGGCATAAGCGTTTTGCATATCCACCA -CGATCAGCGCACTTTGCTGCGGATCGAAGGTAATGGCTTCCGGTCGAGCGGTTAAGGTCGTCATCATGCC -ACCTCCTGAGTCAGCGCAGGTAGATGGGCGCGGCATTGCATCAGTGGTTGAATGCGCTCGCCGAAGGTTT -CGATTCCCGACAGAAAATCGTCGAAGGTTAACAGCACGCCTTCGGCACCAGGCACGCTTGCGACTTCATC -TAACATGCGCGCGACACTGGCGTAAGAACCGACTAACGTCCCCATATTGATGTTTACCGCCGAAGTGGGA -TCGGCCATCTGACGAACGTTGGTGTCAGTACCGGAGCGGGTATCTTTCTGACTTTGTTCGGTTAGCCAGC -TTAACGCCTCTTCATCCGCGCCCGCTTTGTAGTGTTCCCATTTGGCGCGAGCGGCATCGTCGGTTTCATC -GGCAATCACCATAAACAACACATAAGAGCCAACGTCGCGTCCGGTTTGCTCTGCGGCCTGTTTCATCCGC -GCAGCGGTCGGGGCGAAAGCCGTGGGTGTATTTACGCCTTTGCCGAAACAGAAGTTGAAATCGGCATACC -GGGCGGAGAACGCCATGCCAGCGTCGCTTTGCCCGGCGCAGATCACTTTCATGGGGACACTCGGTTGCGG -ACTCACGCGACAATCATTCATGGTGAAAAAATCGCCTTTAAAATCGCTTTTCCCCGTGCCCCACAGGTCG -CGCAGCACCTGAACATATTCGGTGAGATAGTCGTAACGACGGGAGAAATAGTCATCGCCAGGCCAGATAC -CCATCTGCTCATACTCGGGCTTTTGCCAGCCAGTCACGAGGTTGACGCCAAAACGCCCGCCAGAGATGGA -GTCGATGGTTGCGGCCATACGGGCGACGATTGCCGGAGGTAACGTTAAGGTGGCAGCAGTGGCGTAAATC -TGAATGCGCGAGGTCACGGCCGCCAGCCCCGCCATCAAGGTGAACGACTCAAGGTTGTGATCCCAGAACT -CAGTTTTGCCGCCAAAGCCACGCAGTTTGATCATCGACAGGGCGAAATCGAAATGGTAGTGCTCCGCTTT -TTGCACAATGGCTTTATTCAGTTCAAAGGTCGGCATGTACTGCGGCGCGTGGGTCGAAATGAGCCAGCCG -TTGTTGCCAATAGGTACGAATACGCCAATTTTCATCATCAACCTCTCTTCGTCTCGTAAAGTGAAAGTCA -GACGGGGCGCTGCATCCTGCATATCCTTTTCAGCCGCGTATTGGCTTGTTTGCAAAGCGGATGCCAGTTT -TTAAAAAGTTAATGTTATTAATCTGTTAACATTACGTTATCTAAAATATCTGGTAAAAAGTGGACTAAAC -GGTCAAAACAGTTGCACATAAAACATGCATCTGTGCGCGATGAGAGTGCAGAAGGTCGAGGCCGGGCGGG -GGTTTTGCTATCCTGTTGCCAATCTACAAGAGGGGAGAGCGCATGACGCAAGGCGCAGTGAAAACAACGG -GTAAACGTTCGCGCGCAGTAAGCGCGAAGAAAAAAGCGATTCTTAGCGCAGCACTGGACACTTTTTCACA -ATTCGGTTTTCACGGCACAAGGCTGGAGCAGATCGCAGAGTTGGCGGGTGTTTCAAAAACCAATCTGCTG -TATTACTTTCCGTCAAAAGAGGCGCTGTATATTGCCGTGCTGCGGCAGATTCTCGATATCTGGCTGGCAC -CGTTAAAAGCGTTTCGTGAAGATTTCGCCCCGCTGGCGGCGATCAAAGAGTACATCCGTCTGAAGCTGGA -AGTCTCACGCGATTATCCGCAGGCTTCGCGCCTGTTCTGTATGGAGATGCTGGCAGGCGCGCCGCTGTTA -ATGGATGAACTGACGGGCGATTTGAAGGCATTAATTGATGAGAAATCGGCGCTGATTGCCGGTTGGGTCA -AAAGCGGCAAACTCGCGCCGATTGATCCGCAGCATTTGATTTTTATGATTTGGGCTTCCACTCAACATTA -CGCCGATTTCGCCCCTCAGGTGGAGGCGGTGACAGGCGCGACGTTGCGCGATGAGGTATTTTTCAATCAA -ACGGTTGAAAACGTGCAGCGGATTATTATTGAGGGGATTCGACCACGTTAAAGATGCCGGAGGAGGTTGT -AACATCCTCCGGCTACCTGTTTAACCTATAGTCATTAAGCTGGCGTTACCGCCAGCGGCAGCGGTATTCA -CACTCAGCGAACGCTCGATATACAGCCGTTCCAGAAGGATATTGCTTTCGCCACGGGCAAAACCCTGCAC -CGAAACAATTGTGCCATCCCGCGCGGCAACTGCTTCACACAATGCGCGAAGCTGATCCGAATCACCGTGG -AAGATCACCGCATCAAACGGTTGAGCGGTTATATTTTCCGCTTTCGCCAGTTGAATACGTTCGCTGACTG -CCGATGGCAATGCCTTCACTAACTGACGATGCAGCGCGTCATCCGGCCACAGTACCTGGCTGCCCACCGC -CAGCACGGCGGCGAGCTGAGTCAGCGCATCCTGCTCATCATCGGCAATACACAACACGCGCTCACGCGGC -AGCAGCGTCCAGGTGTTGCGTTCACCCGTCGGCCCCGGCAGCAATCGTTGTGTTCCTGCCTGCGCCAGCT -CGCCATATTGCGTACATAACGCCTGCAATTCTGGACGATTTGCTGCCCATTCCCGCAGTGCATTTAGCGG -CTGAGTCAATGCGGCTTTCAACTGCGCATCGACCGGATACTTTGCATCCTGACGCGCGAGCGTCACTGCC -AGCGCACTTTCCGGGCGATTCGCCAGCAGACGGTAGAGATAGAGCGGACCGCCTGCTTTCGGCCCGGTAC -CGGACAACCCTTCGCCGCCGAACGGCTGCACACCAACCACTGCGCCCACCATATTACGGTTAACATACAG -GTTACCAACATGGGCCGAGCCAGTGACCTGGGCGATGGTTTCATCAATGCGCGTATGGACGCCAAGCGTC -AGACCATAACCGGAAGCGTTAATCTGCTCGATCAGCTCTGGTAGCTGGTTACGGTTGTAACGCACCACAT -GCAGCACCGGACCAAAGACCTCTTTTTGCAATTCGGCAAAGTCATCCAGTTCGATCAGCGTCGGGGCGAC -AAAGGTGCCGCTTTGCCATTCACGGGCATCTTCGCTGTTTTCCCGCACCGCCTGGAACACCGGACGGCCT -TTGCTACGCATGGTCTGAATATGGCGCTCAATATTGGCTTTCGCTTCGCTATCAATCACTGGACCGATAT -CGGTGGTCAGGCGACCCGGATTACCCATCCGGCATTCGGCCATTGCGCCGCGCAGCATTTTCAACGTGTG -GTCGGCAATCTCATCTTGCAGGCACAGCACGCGCAGCGCCGAACAACGCTGACCCGCACTGTCGAACGCC -GAGGCCAGTACATCCACGACGACCTGTTCGGTCAGTGCTGAAGAATCGACAATCATCGCGTTCATGCCGC -CGGTTTCAGCGATGAGCGGAATAGGGCGACCCTGAGCGTCCAGGCGGCTGGCGATATTGCGCTGCAGTAA -CGTAGCGACTTCGGTTGAACCGGTAAACATCACCCCGCGCACGCGATCATCACCCGTCAGTTGCGCGCCC -ACGGTTTCACCCCGACCTGGCAGCAATTGCACCACGCCTGGCGGTACACCCGCTTCCAGCAAAATGGCGA -TCCCTTGCGCGGCAATCAGCGGCGTTTGTTCTGCCGGTTTTGCCAGCACGCTGTTACCTGCCGCCAGTGC -GGCGGCGATCTGCCCGGTGAAAATAGCCAGCGGGAAGTTCCACGGACTGATACACACCACAGGCCCTAAT -GGACGGTGGGTTTCGTTAGCGAAATCATCCCGCACCTGTCCGGCGTAGTAGTGGAGAAAATCGACCGCTT -CGCGCACTTCGGCAATGGCGTTACTGAAGGTTTTTCCGGCCTCACGCACCAGAATACCAATCAGTTGCTG -CATCTGGCTTTCCATCAGCACGGCAGCGCGGTGCAAAATCGCTGCGCGTTCAGCCGGAGGCGTGGCAAAC -CAGATTGGCGCGTTATTAACCGCACTTTCCAGCGCCTGTTCTACTTCACGCGGCGTGGCTTCACGCACAT -AGCCCACAATATCTTTCGGTTCCGCAGGGTTAATAACGGGCGACATCTCACCTGCCGCTACCGGTTGTTC -CAGCATTGGCAAGGCCTGCCATTTTTGCAGTGCACTATTGAGCAGGGCAGAGGAGAGCGAGGCCAGGCGG -TGTTCGTTAGCGAGATCCAGCCCTGCCGAGTTGTCGCGCCCGTGACCGTAAAGATCGCGCGGCAGGGGAA -TTTTCGGATGCGGTAATCCAGTTTGCCCTTCCTGTTGCGCCAGTTTTTCTACAGCAGTGACCGGATCGGC -GACCAGTTCATCCAGTGGCAAAGAGGTGTCGGCAATACGGTTAACAAACGAGGTGTTAGCACCGTTTTCC -AGCAGGCGACGCACCAGATACGCCAACAGCGTTTCATGTGTGCCAACCGGAGCATAAATACGACACGGAC -GGTTAAGTTTGCCGTCGGCAACTTTCCCGGTGACCTGCTCATACAGTGGCTCGCCCATACCATGCAGGCA -CTGGAACTCGTACTGACCCGGGTAGTAGTTCTGCCCCGCCAGTTGATAAATCGCCGCCAGCGTATGGGCG -TTGTGCGTCGCGAACTGCGGGTAGATTAGATTCGGCACCGCCAGCAGCTTTTTCGCACAGGCGAGATAAG -AAACGTCGGTATACACCTTGCGGGTATAAACCGGATAACCTTCAAGGCCGTCCATCTGCGCACGCTTAAT -TTCACTATCCCAGTACGCGCCTTTCACCAGGCGAATCATCAGACGGCGACGGCTGCGGGTGGCGAGATCA -ATCAGGTAATCGATCACCAACGGGCAGCGTTTTTGATAAGCCTGAATAACAAAACCGATGCCGTTCCAGC -CTGCCAGTTCCGGCTCGAAACAGAGTTTTTCCAGCAGATCGAGGGAGATCTCCAGGCGATCGGACTCTTC -GGCGTCAATGTTGATACCAATATCGTACTGACGCGCCAGCAGGGTGAGTGATTTCAGACGCGGGTAAAGC -TCTTCCATTACCCGGTCATACTGGGCGCGGCTATAACGCGGATGCAGCGCCGACAGTTTGATTGAAATGC -CCGGCCCTTCATAGATGCCACGACCGTTAGACGCTTTACCGATGGCGTGAATCGCCTGCTGATAGGAAAC -CATATACGCCTGTGCATCTGCGGCGGTCAGCGCGGCTTCGCCCAGCATATCGTAAGAGTAACGGAAACCT -TTCTCTTCCAGCTTGCGGGCATTGGCTAACGCTTCCGCGATGGTTTCGCCAGTGACGAACTGCTCACCCA -TCAGGCGCATCGCCATATCCACACCTTTGCGGATCAGCGGTTCACCGCTTTTACCGATAATGCGGTTCAG -CGAGCGGGAGAGGCTGGCTTCGTTATGGGTGGAAACCAGTTTGCCAGTAAACAGCAGCCCCCAGGTGGCG -GCATTAACAAACAGTGACGGGCTACGACCAATGTGTGACTGCCAGTTACCGTTGCTGATTTTGTCGCGAA -TTAACGCGTCGCGGGTGGCTTTGTCGGGAATACGCAACAACGCTTCCGCCAGACACATCAGCGCCACGCC -TTCCTGCGATGACAGCGAAAACTCCTGCAATAACCCCTGGACCATACCTGCGCGACCACTGGCATTTTTT -TGATTACGCAGTTTATCGGCCAGCTGATACGCCAGTTTGTGCGCCTGTTCAGCAACTGGCTGCGGCAGGC -GGGCTTGTTCCAGCAGCATAGAAACCGCTTCGGTTTCCGGGCGGCGATAGGCCGCGGTGATCGCGGCGCG -GGAAACCGACTGGGGCAATATTTGCTCGGCAAAGTCGAGGAATGGCTGGTGTGGTTCCTCTGCCGGAGTC -GGTGCTTCATCGCTCTCATTGGCCGCGCCAGAAAGCAGCGCAGGTAGCTCCGGCAGAGTATCGCTGTTTT -CCAGTTGTTCGAGATAAGAAAAAATCGCCTGCTTAATTAACCAGTGTGGTGTGCGATCGATACGTGTCGC -GGCAGACTTAATACGCTCACGCGTCGCGTCGTCCAGCTTAACCCCCATGGTGGTGGTTCCCATGCCATTA -CTCCTGTTGTTCAGAAAGGTGCAACTTAACGTTATCGTGAAATATCCATGATGTTGCAACTTTGTGCAAC -CATGTTAAATGTGACATGCGTAGCAAGCTTAAAAATGAATGAAATGTTAATAAAAGAAATCGATATGACA -GGGATTAAAAAAATAACTCAGACTTTTTCTCTGCGGCAGTTAACATTTTTGAAAGGTGCAACCGCAAAAA -ATGTGAGAGAGTGCAACCTGATGAAAAATAGTGTCGCTGAGCACTAAAATTTAATGTAAATGGTGTGTTA -AATCGATTGTGAATAACCAGCGCTTCCGGCAGGATACGGTCGCCCTGGTAAAACATAAACTCTGTTACCC -CGTTCCGGTGGCAGATATAACGGCAAGTTTCGACATTGCCGATAATAATTTTTTGGAGACTTTAGATGGC -TATTAGCACACCGATGTTGGTGACATTTTGTGTCTATATCTTTGGCATGATATTGATTGGGTTTATCGCC -TGGCGATCAACGAAAAACTTTGACGACTATATTCTGGGCGGTCGTAGTCTTGGGCCATTCGTGACGGCAT -TATCGGCGGGTGCGTCGGATATGAGCGGCTGGCTGTTAATGGGGTTGCCGGGCGCTGTTTTTCTTTCCGG -GATTTCCGAAAGCTGGATCGCCATTGGCCTGACATTAGGCGCGTGGATTAACTGGAAGCTGGTGGCCGGG -CGGTTGCGTGTGCATACCGAATACAACAATAACGCCTTAACACTGCCGGATTATTTCACCGGGCGCTTTG -AAGATAAAAGCCGCATTTTGCGCATTATCTCTGCGCTGGTTATTTTGCTGTTCTTCACCATTTATTGCGC -TTCGGGCATTGTGGCAGGCGCGCGTCTGTTTGAAAGTACCTTTGGCATGAGCTACGAAACGGCTCTGTGG -GCGGGCGCTGCGGCGACGATCCTTTACACCTTTATTGGCGGTTTCCTCGCGGTGAGCTGGACTGACACTG -TACAGGCCAGCCTGATGATTTTTGCCCTGATCCTGACGCCGGTTATCGTCATTATCAGTGTCGGTGGCTT -TGGTGACTCGCTGGAAGTGATCAAACAAAAGAGCATCGAAAACGTTGATATGCTCAAAGGTCTGAACTTT -GTTGCCATTATCTCACTGATGGGTTGGGGGCTGGGTTACTTCGGGCAGCCGCACATTCTGGCGCGTTTTA -TGGCGGCGGATTCTCACCACAGCATTGTCCATGCGCGTCGTATTAGTATGACCTGGATGATCCTCTGCCT -GGCAGGGGCGGTGGCTGTCGGCTTCTTTGGGATTGCTTACTTTAACGATCATCCGGCGTTGGCTGGTGCG -GTAAATCAGAACGCCGAGCGTGTGTTTATCGAACTGGCGCAAATTCTGTTTAACCCGTGGATTGCCGGGA -TTCTGCTGTCGGCAATTCTGGCGGCGGTAATGTCAACCTTAAGTTGCCAGCTGCTGGTGTGCTCCAGTGC -GATTACCGAAGATTTGTACAAAGCGTTTCTGCGTAAACATGCCAGCCAGAAAGAGCTGGTGTGGGTAGGG -CGTGTGATGGTGCTGGTGGTGGCGCTGGTGGCGATTGCGCTGGCGGCAAACCCGGAAAACCGCGTGCTGG -GCTTAGTGAGCTACGCGTGGGCAGGCTTTGGCGCGGCGTTTGGTCCAGTGGTGCTGTTCTCGGTGATGTG -GTCACGCATGACGCGTAACGGTGCGCTGGCGGGGATGATCATCGGTGCGCTGACGGTTATCGTCTGGAAA -CAGTTCGGCTGGCTGGGACTGTACGAAATTATTCCGGGCTTTATCTTCGGCAGTATTGGGATTGTAGTGT -TTAGTTTGCTGGGTAAAGCGCCGTCAGCGGCGATGCAAAAACGCTTTGCCGAGGCCGATGCGCACTATCA -TTCGGCTCCGCCGTCACGGTTGCAGGAAAGCTAAGGGACTTAGCCTGCGGCGGTTTTGTTTGGCTTCAGC -AGCGGGTTGCGCTCCCTTAATGTGCCTCGCCATATAAATTGAATGGTGCAGGGAGCGCGCAGGGGGCGGC -CAATCGCCGCCGCCCCCTGCTGTCCCGGCCTTCGGGGAACGCTTCAGCGATTTTGACGCCACCAACACCC -GAGCTGTTATTATGTTCCGGGCAAAAAGTTAGATTTGATAATCGCGGATGGACGAAATTGCTTGATACAC -CCGCTTATCAGTTTTACATGGAAGCTCTGATGCATTGAGTCTGGACAGTTTTGTCGGCTGGATACGGCGT -TTACGCGGCATCCGGCAAGAACACATGGTTCTTTGCAAACAATCCCATCTTTCTACCCTGGAATAATCGT -TTATATCCCTTGGCATTACCTCTCTTTGTTTACATTCCAACATCATTTTATAAACATTCCGCTTGTGTTT -TTCTTTGCCGTAATGATAATCGCTATCACTGCGATTTACTTTTCTTTGCATAGATTGACTCAGAAAAACG -TTTAAGGGTGGGTGGCATGTTTGTTCCGTTTCTCATTATGTTGCGCGAAGGACTTGAAGCCGCGCTGATT -GTCAGTTTGATTGCCAGCTATCTTAAGCGTACCCAGCGAGGCCGATGGATTGTGTGATGTGGATTGGCGT -GTTGCTTGCCGCTGCGTTGTGCCTGGGCTTGGGTATCTTCATTAACGAAACCACCGGCGAATTTCCGCAA -AAAGAACAGGAACTGTTTGAAGGTATCGTGGCGGTGATCGCCGTGGTGATCCTTACCTGGATGGTTTTCT -GGATGCGCAAAGTGTCGCGCAACGTCAAAGTGCAACTGGAACAGGCAGTCGATAGCGCATTGCAGCGTGG -AAATCATCATGGCTGGGCGCTGGTGATGATGGTCTTTTTTGCCGTTGCAAGGGAAGGGCTGGAGTCGGTC -TTTTTCCTGCTGGCGGCATTTCAACAAGATGTCGGGATCTGGCCGCCGCTGGGTGCAATGCTCGGTCTTG -CTACTGCCGTGGTGCTAGGCTTCCTGCTCTACTGGGGCGGTATTCGCCTCAATCTTGGTGCATTTTTTAA -ATGGACCAGCCTGTTTATTCTCTTCGTCGCCGCAGGGCTGGCAGCTGGTGCCATTCGCGCATTTCATGAA -GCCGGATTGTGGAACCACTTTCAGGAAATCGCCTTCGATATGAGTGCGGTGCTCTCAACTCACTCGCTGT -TTGGCACGCTGATGGAAGGGATTTTTGGCTATCAGGAAGCGCCGAGCGTCAGCGAAGTCGCCGTCTGGTT -TATTTATCTCATCCCGGCGCTGGTGGCATTTGCTCTGCCACCACGCGCAGGGGCGACAGCGTCTCGCTCC -GCGTAACAAATACGACGCAAACTCTTGCTTAGTTACAACATACTTTAAAGGGATAGTCTCGTCATGACCA -TTAACTTCCGCCGTAACGCATTGCAGTTGAGCGTGGCTGCGCTGTTTTCTTCTGCTTTTATGGCTAACGC -CGCTGATGTGCCGCAGGTCAAAGTGACCGTGACGGATAAGCAGTGCGAACCGATGACCATTACGGTTAAC -GCCGGGAAAACACAGTTCATTATTCAGAACCACAGCCAGAAGGCGCTGGAGTGGGAGATCCTCAAAGGCG -TGATGGTGGTGGAAGAGCGGGAAAATATCGCCCCTGGCTTTAGCCAGAAAATGACGGCGAATTTACAGCC -TGGCGAATACGATATGACCTGCGGTCTGCTGACTAACCCGAAAGGGAAGTTGATCGTCAAAGGTGAGGCA -ACGGCGGATGCGGCGCAAAGTGATGCGCTGTTAAGTCTTGGTGGTGCAATTACTGCATATAAAGCGTATG -TCATGGCGGAAACCACGCAGCTGGTGACCGACACCAAAGCCTTTACCGACGCGATTAAAGCAGGCGATAT -CGAAAAAGCGAAAGCACTGTATGCACCGACGCGCCAGCACTATGAGCGTATTGAACCGATTGCTGAACTG -TTCTCCGATCTGGATGGCAGCATTGACGCCCGTGAAGATGATTACGAGCAAAAAGCCGCCGACCCAAAAT -TCACTGGTTTCCACCGTCTGGAAAAAGCATTGTTTGGCGACAACACCACCAAAGGGATGGATCAGTACGC -TGAGCAGCTTTATACCGATGTGGTCGATTTGCAAAAACGCATCAGTGAACTGGCTTTCCCACCTTCAAAA -GTGGTCGGCGGCGCAGCCGGACTGATTGAGGAAGTGGCAGCCAGCAAAATTAGCGGTGAAGAAGATCGCT -ACAGCCACACCGATCTGTGGGATTTCCAGGCTAACGTTGAAGGCTCGCAGAAAATTGTCGATTTGCTGCG -TCCACAACTGCAAAAAGCCAACCCGGAACTGCTGGCAAAAGTCGATGCCAACTTTAAAAAGGTCGATACC -ATTCTGGCGAAATACCGTACTAAAGACGGTTTTGAAACCTACGACAAATTGACCGATGCCGACCGGAATG -CACTGAAAGGACCGATTACTGCGCTGGCGGAAGATCTGGCGCAACTTCGCGGTGTGCTGGGACTGGATTA -AGCGTTATGCAGTATAAAGATGAAAACGGCGTGAATGAACCGTCACGCCGACGTTTACTGAAAGTGATAG -GTGCACTGGCGCTGGCGGGAAGTTGTCCGGTCGCTCATGCACAAAAAACGCAAAGTGCGCCGGGTACGCT -TTCACCGGATGCTCGCAATGAGAAACAGCCGTTTTATGGTGAGCATCAGGCAGGGATCCTGACGCCACAA -CAGGCCGCAATGATGCTGGTGGCGTTTGATGTGCTTGCCAGCGATAAAGCCGATCTTGAGCGGTTGTTTC -GCTTGTTGACTCAGCGTTTTGCTTTTCTGACTCAGGGCGGAGCAGCACCAGAAACGCCAAATCCGCGCCT -GCCACCACTCGATTCCGGCATTCTTGGCGGCTACATTGCGCCCGATAATCTCACCATCACGTTATCGGTG -GGTCACTCATTGTTTGATGAGCGCTTTGGCCTTGCGCCACAGATGCCAAAAAAGCTGCAGAAGATGACGC -GTTTCCCCAACGACTCGCTGGATGCGGCGTTATGTCATGGTGATGTGTTGCTACAGATTTGCGCCAACAC -CCAGGACACGGTTATCCATGCGCTGCGCGATATCATCAAACACACGCCGGATTTGCTCAGTGTGCGCTGG -AAGCGGGAAGGGTTTATTTCCGATCACGCGGCGCGTAGTAAAGGCAAAGAGACGCCGATTAATTTGCTGG -GTTTCAAAGACGGCACTGCCAATCCCGATAGCCAGAATGATAAGTTGATGCAAAAAGTGGTGTGGGTAAC -GGCAGATCAGCAGGAGCCTGCGTGGACAATCGGTGGCAGCTATCAGGCAGTACGCTTGATTCAGTTTCGA -GTGGAATTTTGGGACAGAACGCCGCTGAAAGAACAGCAGACGATTTTTGGCCGTGATAAGCAAACCGGTG -CGCCGCTGGGAATGCAGCATGAGCATGATGTGCCTGATTACGCCAGCGACCCGGAAGGGAAGGTGATCGC -GCTGGACAGCCATATCCGGCTGGCGAATCCCCGCACGGCGGAGAGTGAGTCCAGCCTGATGCTGCGTCGT -GGCTACAGTTATTCACTGGGCGTCACCAACTCCGGGCAACTGGATATGGGGTTGCTGTTTGTCTGCTACC -AACACGATCTGGAAAAAGGCTTCCTGACAGTACAAAAAAGGCTCAATGGCGAAGCGCTGGAGGAATACGT -TAAACCTATCGGCGGCGGTTATTTTTTTGCGCTGCCGGGGGTGAAGGACGCGAACGATTATTTCGGAAGC -GCGTTATTGCGGGTTTAATGTTTTTAGGCGGATAAGGCATTTGTGCGCAGATGCCTGATGCGACGCTTGC -GCGTCTTATCATGCCTACAATCAGTGCGGGTTTGGTAGGCTGGATAAGGCGTTCACGCCGCATCCGGCGA -TCGTGCACTGATGCCTGATGCAAATCCTGCTGAAAGCACACAGCTTTTTTCATCACTGTCATCACTCTGT -CATCTTTCCAGTAGAAACTAATGTCACTGAAATGGTGTTTTATAGTTAAATATAAGTAAATATATTGTTG -CAATAAATGCGAGATCTGTTGTACTTATTAAGTAGCAGCGGAAGTTCCCGGCAGTGATAGTCAGTCACTA -TGGAGATCGCGGATGGTAACGTCCTGTACTGGACATGTTTTAGATAATCAACGCGCCACCACTCGCGGAG -TTTTCTCCTCCGGTAGTCATCTCGTCACTTTGCATTTTCAACCTCATCCTTTCTTTTCATGTGTTACCGA -CGCCGTAAACGGTGCGCGTAGCCGTTTTTCGGCATTTTATCCAAAAGCAAACTATGGCTTACAAGGAAGC -CAACCCTCTGATGTTCGTGCGCATAATCGCGCTGCCAACGGCGCGTGTGATGAATACAAACAACTCAAGG -TGCTCTCCATGGGAAGACAAAAAGCAGTGATCAAAGCTCGTCGCGAGGCAAAACGTGTGCTGAGACGGGA -TTCGCGCAGCCATAAGCAGCGTGAAGAAGAATCGGTCACCTCGCTTGTGCAGATGGGCGGCGTAGAAGCC -ATTGGTATGGCCCGCGACAGTCGCGATACTTCGCCCATCCTCGCGCGAAATGAAGCGCAATTGCACTATC -TGAAGGCTATTGAGAGTAAGCAGCTGATATTCGCCACGGGCGAAGCCGGGTGCGGAAAAACCTGGATCAG -CGCAGCAAAAGCGGCAGAGGCCCTGATACATAAGGATGTCGACAGGATTATCGTCACCCGTCCAGTTCTG -CAAGCCGATGAAGATCTTGGCTTCTTACCTGGAGATATCGCAGAAAAGTTTGCTCCCTATTTTCGCCCGG -TCTACGACGTGCTGGTCCGGCGCTTAGGGGCTTCCTTTATGCAGTACTGCCTGCGACCGGAAATAGGGAA -GGTGGAAATTGCGCCGTTCGCCTATATGCGTGGACGTACCTTTGAAAATGCAGTCGTCATTCTTGACGAG -GCGCAGAATGTGACTGCCGCGCAAATGAAAATGTTTTTAACCCGCCTCGGGGAGAACGTGACGGTTATCG -TCAACGGTGATATCACGCAATGCGATTTGCCTCGCGGCGTGTGCTCCGGATTAAGTGACGCGCTGGAACG -TTTCGAAGAAGATGAAATGGTTGGGATCGTCCGGTTCGGTAAAGAGGACTGCGTACGTTCGGCACTTTGC -CAACGTACGCTGCATGCCTACAGTTAAGTGTGTTATCGGTGCAGAGCCCGGGCGAACCGGGCTTTGTTTT -GGGTGTTTATGCCCGGACTAGCGCTTTTTCTGAAACAACCATTTTTATTTGCCCCTGGCTGGTGAAGTGT -ACGCTCATCCTGTGGCTTTTTTGTAGTTGCTGATAGAGCTCATCAGGTATTGCTAAGCTCTCTGCATATT -CTTGCGGCGTATATTGGTAGGCTGCATGATGCTGCTGTTTTTGAAAACGCAGCTTATTGTACAGCGCCCA -GACAATTAACACGACGGCATTCGCCACTGCCAGCAAAAAATAGAACTGAAGTCGGCTTCTGGCCTCGCTT -TGCCAGTAATAACCCGTCAGCAGATCCATGGCGAATAAGAATATGAACAACGCAAATAATGTCCACAAGA -TGGTTGTGGCAACATAATCAACCAGTAAACGTACTGGTGATTGTCGGGTCGTAATAATTAAATTGTTCAT -ATTAACCTCTCAGAATCCCGCGATCGGGACTTACCCAACGGGCGCGTTGCTTTTTAGGCATCAACATGAC -TCGTGTAAATGATACCAATGTCGTTGCCAGGCTCAGCATCCAGAAAATAACCGGGAACCAAATAATCCAG -AAAAGCGATGAAGTCAGATTATGCTCATAGCGATTCTCGATCATCAGGCTGACAATAAATTGCAGTAAAC -ATAACGTACACAATAATATTCCGGCAGTATGTGTCGCAGCGATATGTGTCAATTCAATATTTAACGGTAC -ACCGGCAAGTTGGACTGCGTAAATAATGAAACCGACCAGGCAGGTGAAGGCCCATATTGTCGTCAGGCAG -TATTCAAAAAACAGCGGCCACATTCGAAAGTTTTCTTTGCGCCACAACCTTGTCATATTTTTGAGGAATA -CTTCTGCACCGCCCTGAGCCCAGCGCAGGCGCTGTTTCCACAGCCCTTTTAACGTTTCAGGCATTAATAT -CCAGCACAGTGCCCGTGGCTCGTAAAAAATCGTCCACTGATTCAACTGCAGCTTCCAGCTAATATCAATA -TCTTCGGTGATCATATCGTCACTCCAGTAACCCACTTCTGCCAGGGCGCTGCGACGAAATGCGGCAATAA -CACCGGAAACGGTAAATACGTTTCCATAGATACGCTGGGTTCGCTTGATCAAACCAATAATTGAGGAATA -CTCGCCAACCTGAATTTTACCCACCAGGGTAGAACGTGTTCGAATACGAGGATTACCGGTTACGGCACCC -ACACGCGGGTTGTACAACATCGGTTCCACAATATATGCCGCCGCATCGCGGTCTAATAACGCATCGCCAT -CAATGCACACCAGATATTCACTTTTCGCCGCGGCAGCTCCGGTTTTAAGCGCAATGGCTTTCCCCTGGTT -TTGCGCCAGATGAATGACCCGCAAATGGGGAATTTGTGCAGCCATGCGATCCAGGATGGCACGGGTTTTA -TCTGTTGAACCGTCATTTACGGCAATAACTTCAATGTTCTCATAACGCTGTGCTAAAGCGGCGTGTATGG -TTTCCTCAACGTTTTTCTCCTCATTAAAACAGGGAATGATAATGGAGATAGACGGATTATCTTTCAACTG -GGGAGCTGGTGCGTTTTCTCCCCACGGCCAGTGGCGTTCACGATAGACCCAGAAATAGACGCCGCCAACA -ATCCACATAATGGACATAAAAAACGGCCAGAAGAAAACGAACCTCATCATCAGTTCACCAGAGTGAAAGT -ACGCTACGCATAGGGGTATGCATAACACCAGACATAATATAAAAAACGATACGATGCGATTAATCATTTT -TCGGATACCAGGCTGTTGAAAACTCAGGACGAATAAGGTCTATTTCAGGTTGGTTATGCAGAAAATTGTC -GGGATAATAACCATAGTTTTTCACTCCATTCAGTTGTAATAGGCTCATCCAGTGAGCGAGTTGTTGCGAA -GAAATAGCCTGATGCTGACCATTTTTCTGCCAGTTTTGTGCCTGTAATTCTAAAATAGATTTGTCTTTAG -CCTGAGGGATGTTTTTAATTTGATTGGTCAATTGTATTAACCATTGGTCAGCCGATTTTTCTGCGACACC -TTCCAGATAAGGCATAGCCATAATAGCGGTCCAGTCATAGCTTTTTAGGAAATCAGCATAATTCTGTGCA -AACCAGGCTTCACTTTCAGGTTGTATTACCGGAAGTGCAAAAATATTTCGTGCAGTTTTAATATGTGGAC -CGCGAATGGCTTTTACGCGCGCACTAAGTTCTAAAGTGAAGTCAGTTAACGCACGACTTTTAAAGCGGGC -CCACTGTTTAAATTGCTCCGGGTTTTGTCGAATTTCGCTCAGACTCCCGCTAAAGCCTGCTTGCTGATAA -GCCGTGATAGCCGGTGCACTGGCATCTTCATAATCTGAAAGCAAAGCATCATCGTGGAACAATATGCCAT -CAAAAGCAGCATGTCCGGCAAGATCTTCATATAACATGCCAACTTGTGCTCTGACTCTGTCATCGAAAGG -AGAGAGACGGTGATATTGTTCAGGATGAATTTGTGCTTTTTTCTCCCCTGTTGGTAAGTATTTTACTCGC -GTTAATGTGGGATCTAAATCCCAGCTTAATACCGGCATCCACGCATAGATGTTTACACCTGAGCGGGTAC -GTAATTGCCAGGCAACCCGACTAAAAATATCTGCTTTCATTGGTAGCAAACGATTTGGAAACCAGACCTC -TTTGACCAGCCCATCACCATCGGGATCAGCAAATGCCTGCAAATACACGGTTGATATTTGCATATCTTTC -ACCCGCTGAATTAGCACATCAATATTGCGATCCATTTGCTGGAGGTTTTCGTCATAAACGTAATCAAGAT -CGATATGCATTATCCGTTGTGGTGATTTTTCCTGTACGGTAATAATTTGCTGGGCAAACTCTTTTAATGA -GGGATTATTGGCGATTAATACCCGCGGAATGGAATCCAATTGCGACGCATTTGCCAAACCTGATTCAAGG -GTGAAGAACATGTCATAACCGAGTTTTTTTAATTCCTCTATCGCTATGCCATTCGCTTCGCCATAAGGCC -AAACAAAAACGTGTGGATTTACCTCAACCTTTGTACGCAGGTATTCCGTCATTTTTACAGCATCCAGACG -AATTCTTTCCCGGTATTCTGCTGCGGTTTCATACCGTGCGTGGTCAGTAAAATATGCACGATTTACATAT -ACAGGCAATAAGCTGCCGGTGGCATTAGCCTGAATACCGTAGTGAGAATTCCATGTATGAGAAGCGAGCT -CAACGAGCCGGGAACGCGCAACTTCTCGCACTTGTTGCCACGTGGCAAAATATTCTCGATCGACCAACTC -ATCGCCAAATTTTACTTGTTTATCCGCTGGCGTATCGACCCAACTGCCGACGGGGGCCCATACAGCAGGC -CACTGGAAGGCCTGAAGAATTGGGAAGACGCGGGTATAAAAACTCTGGTAGCCGTCATCAAAAGTCAGCA -CTACAGCTTTTTCCGGTAGCGGTTTTCCTCCTCGATGTGCTTCACGAATTTGAGCAATACTGACCGGTTG -ATAACCGTTCTCGCGCAGCCAGGCAAATTGTTCACGCAGTGCTGATGTCCGCACTGACATAAAACGCTGG -TCGGCAGCTTCGTCTTCAACGTTATGCCATGAAATCGCTACAAAACCATTATGCGGCCACGGTTGCTCGG -CGAGTAAAGATTCGCGATCCTGTGGCGGTATAAATGATGTTCTTGACTGGCTAATGCACGCGGTGAGCAT -AATTATACTCACCAGCATCAGGAGATATTTATTTCCATTACGTAACATATTTATCCTTAAAATCTGAATG -TCATATCGAATTCAACGTATAAGTTGTGTTCTCTGTCACCGTCATAAGGTCGTTTTTCCCAGCGTAGCGT -TGCGCCAGCATCAATCACGTCATTCCAACTAATGCGTTGCCCGTAGCCGAGTTGGGTGACGACATCCGTG -CCATAATGTTTTTGCCAGGAGGCACCAACACCTGCGCTGAATATTTGCTCCCAGCTATTTTCATAGCTTC -GCCATAACAAATGGCTTGCCTCAAATGCCGGAACAATATCGAACGTTTTTATAGGGTTGTAGTATGGGGT -ATCGTGTTCTGTATTTTGTTCGTAATACAGACTGGGTAGGAAATCGACAATCAAATATGGTGAAGACCAG -ATGCGTTCCTGACCCTCAAGTGAGACTTCATGACGCTGGTTACTGTCGGAAAAATCAGTGAAAGCCCAGG -AGACACCGTACTTACGCCGCTCATTTTGATACCAGCGAACATAAGCCTGAGCACTGTTGCCTGTAACACC -ATTTTTCATTGCCCGTAATGGAACGCGGTGAGAGAGGCGTTCCAGTTGCGAACCAATACGCCAGTTATCA -TTAAAATCATACCAGCCAGACAGGCGCGCGCCGGGTTTATGCTCATGATTGAAAACGCGTTCAGCGTACT -CTGCCTCGAGCCAGATATTACGTGACCGCCACTCAACACCCGCAAGCCAGTCGCGAACAATCCCTTTTCC -TTCGCTAAATTGTCCATCGGCATAACCGAATCCAGCAAAACCGCGCCAGTTATCCTTCAGCGGTGGTGAA -TAAACGATGGTGGTTAAGTCGACATCATGTTTACCACTATCCGGGCCTTCGGCATCAATTCCTGTTGAGC -CAGCGATACGAAGCTCTGCAAGATTATGTACATCAACCGCACGTTTTAATCGTACAACGCCGGGATCTTG -CGGTTCACGTTCGACAACATCGTGCGTTAAGACAGCTGCCTGCTGCCATTCTTGTAACGTTAATGCTGTC -CAGGCTTGTTCAACCTCCAGATTAATATTACGTGGCTCGATCACTTCTGCTTTTTTTAATTCATTTTCTG -CTGCACGAGGCCAACCGCGGGCTTGTAACACACTCGCGTAATCAATGCGCAGTCCCTGATTTCCTGGTGC -GTTATAAGCAAGCTCTCTGGCTGTCATTTCAGCCTGAGGAAGATCATTACTATATTTTGCTACGGTTGAG -AGAAACGAATGCCCCTGTAACCAGGTATCATTCGGGATGCTCGTAGGCGTGCCCATTAACCGAAGGAAAG -GCGGCGAAGTATTAATGGTATGTTGGGTGACAGTTAGCGCGCCCGGATAATTTTCACTCTCCAGGTGGCT -GTAAAAGAGATCCGCAAGTTCTTCATCGGATAAATCCGGGGCAATGGTCTCCTTGTGATAAAAGAGCTCG -GTCATTATTGACTGTGCTTTTTTCGGCTGATGATCTTTGAGATAAGCCGATGCAACCCAATATTGCCCCC -AGGGCGGAATAATTTGCCCCGTCTTTTTTAATCGCTGATAGTGAGAAATAACGTCTTTATAACGATCGCG -AGTTAATAACGCGCCAAGATGATCAACCTGAATACGCTGGTACTGGGCAGTGCGGTCTGGGTTATCGTGC -CACAGAATTTCTAATGCAGCGTATTGGGCGAGGGCGCGATCGGCAATGGCATAACGTTCACTTTCACTGC -GCGTAGGCATAAACGACAGTCTGACCAGTTCGGCATGAATATCAGCGCGAATATCTGGCGTTAAATTGGC -ATCGTCAATCGCGGCAGCAAGTTGATTATTACGTAATGCCTGCACGTATTCTGTGGGATATTGTTGCGTA -GATGCATTTTCAGGTAATGACTCTGTCATCGCCCGTAATTCATCCTGATGACGCCCCGCCAGTTTATAGA -TATAGGCTTCTGCGAGTAAATTGGCTTTGTCCGGTGCTCCAGAGTTAAGCTGCTTAAGTTTAACCAGCGC -AGTATCATAGTGACCAGCATCTGCCAGGGTTAAAATTTGTCCCCGTTGATAATCCTTATTTTGCGGCTCC -AGAGAGAGCGCCTTTTGCCACAGTGTAAGCGAGTTTTGCCATTGTTGCAGGTTACGATAAGCGACGGCGA -CAGCTGCATAACCACGCGCTGGTAATTGCTGATGACGGTAGCGGTTGTAAACGGTAATAACCTGTTTATC -TTGCCCGGCCCATAAGGCAATCTGTAACCAGTCAGCAATTTGGTTATTGCTGAGTGCTGATTTTAGTGCA -AACCATGACAAAGCTGGCTGAGTATTACCCTTGCGAGCTTCAATAATCAATGCATCATAGGCGTTATTAA -CAGCACTCTTCGCCGCGGGACTCGCTGCTAAAAATGCGGCAGTAAGAAGTTTCAAAGCCCATTTGGTTTT -CGGGCACCTTTTTCTGCTACTTGAATACATCCTGTATTACTCCATGTATTGCCAAAATCTCTCTCTGTAT -CTAATTACAGGTAACTGAAAAGAAAGATATTTTTGCACCTCATAATCCGTTATTAAACGCGGAAGAGAGA -CGTGAATTGTTGATGATGAGAAGAAGAAATGATGAGCAGAGTGTCCATATAAAATCCTTTTCTCGCCCGA -AAATCCATTCCAATGATGAGGATCTTCAGGAATACGGCATAAATCCCAATGCCTTTTTCAAAATAAATTA -GGATTAAAATAATTAAATCAGTAAATTCCGATGCATGATTTCGGATTTTTCGAAAGTCCTGATGAAAGGC -TGCGCTACGGCACTCACGGATTTAATTGTTATTCCTAATGTATCTATGAATTAATGTTTTATAAGGATTT -TCTATAACCATTTATAAGTATTTTCAAGCCTGGCTTGTTGCAAACAATGTATAAAGCACTTAGGCAATAA -TAATTACATTCAGCAACTATCATCATCGGTATTGTTTGTGGGCGGAATTTCATATTGACAACAGTACAGT -TCTTATATCTATTAATAATAGAAAGGGATCTACAACCTACAGATTGGTGTAGCTTTATGGAAAAAGACTA -TTTGAGAATTAGTAGTACTGTATTAGTGAGCTTATTGTTTGGGCTTGCTTTGGTTTTGGTGAATAGTTGG -TTTAATCAGCCAGGCGTTGAGGAAGTTGTTCCACGATCAACCTATCTGATGGTAATGATTGCTTTATTTT -TTATCGATACTGTTGCATTTATTTTTATGCAGTTGTATTTCATTTATGACCGTAGGCAATTTTCAAACTG -TGTACTTAGTTTGGCTTTTCTGAGTTGTTTGATTTACTTTGTTATAACCGTCATTATCATTCAGCAAATT -ATTGAGGAGCGTTTGACAAGCAGTGTTGTCCAAAATGACATTGCAATCTATTATTTGTTTCGTCAGATGA -GTTTGTGCATATTAATATTTCTGGCATTGGTGAATAAAGTTAGTGAAAACACAAAACAGCGCAATTTATT -TTCCAAAAAAATGACTTTGTGCATAAGTTTGTTTTTTGTTTTTGGGGGGCCGATAGTTGCTCACATACTT -TCTAGTCATTATGAGAGCTACAATTTACACATTGCCGAGTTAACCAATGAAAATGGTCAGGTGGTTTGGA -AAGCCTCATATGTTACCATAATGATTTTCATGTGGTTAGACTGGCCCCCTGAATCTCCAGACAACCAATA -TCACTTAAATAAGTGATAGTCTTAATACTAGTTTTTAGACTAGTCATTGGAGAACAGATGATTGATGTCT -TAGGGCCGGAGAAACGCAGACGGCGTACCACACAGGAAAAGATCGCAATTGTTCAGCAGAGCTTTGAACC -GGGGATGACGGTCTCCCTCGTTGCCCGGCAACATGGTGTAGCAGCCAGCCAGTTATTTCTCTGGCGTAAG -CAATACCAGGAAGGAAGTCTTACTGCTGTCGCCGCCGGAGAACAGGTTGTTCCTGCCTCTGAACTTGCTG -CCGCCATGAAGCAGATTAAAGAACTCCAGCGCCTGCTCGGCAAGAAAACGATGGAAAATGAACTCCTCAA -AGAAGCCGTTGAATATGGACGGGCAAAAAAGTGGATAGCGCACGCGCCCTTATTGCCCGGGGATGGGGAG -TAAGCTTAGTCAGCCGTTGTCTCCGGGTGTCGCGTGCGCAGTTGCACGTCATTCTCAGACGAACCGATGA -CTGGATGGATGGCCGCCGCAGTCGTCACACTGATGATACGGATGTGCTTCTCCGTATACACCATGTTATC -GGAGAGCTGCCAACGTATGGTTATCGTCGGGTATGGGCGCTGCTTCGCAGACAGGCAGAACTTGATGGTA -TGCCTGCGATCAATGCCAAACGTGTTTACCGGATCATGCGCCAGAATGCGCTGTTGCTTGAGCGAAAACC -TGCTGTACCGCCATCGAAACGGGCACATACAGGCAGAGTGGCCGTGAAAGAAAGCAATCAGCGATGGTGC -TCTGACGGGTTCGAGTTCTGCTGTGATAACGGAGAGAGACTGCGTGTCACGTTCGCGCTGGACTGCTGTG -ATCGTGAGGCACTGCACTGGGCGGTCACTACCGGCGGCTTCAACAGTGAAACAGTACAGGACGTCATGCT -GGGAGCGGTGGAACGCCGCTTCGGCAACGATCTTCCGTCGTCTCCAGTGGAGTGGCTGACGGATAATGGT -TCATGCTACCGGGCTAATGAAACACGCCAGTTCGCCCGGATGTTGGGACTTGAACCGAAGAACACGGCGG -TGCGGAGTCCGGAGAGTAACGGAATAGCAGAGAGCTTCGTGAAAACGATAAAGCGTGACTACATCAGTAT -CATGCCCAAACCAGACGGGTTAACGGCAGCAAAGAACCTTGCAGAGGCGTTCGAGCATTATAACGAATGG -CATCCGCATAGTGCGCTGGGTTATCGCTCGCCACGGGAATATCTGCGGCAGCGGGCTTGTAATGGGTTAA -GTGATAACAGATGTCTGGAAATATAGGGGCAAATCCAGTGGTTAACCTTGCTTTCGGTTAATCTATACTT -TAATGGTTTACGCTATGATATCTGGAATGGAGTGACGGTGATTGCTTTTTGTGCCGTACTGTACAATATC -TCTCTGTTATTTATGAGCAGGTATAGCGTGTCCACTTGGTATATTAGTCGCACTATTGAAGTAGTCAGTA -AGTTAACCGTTATGGTAATATTTATGTGCCATATATTCAGTGCGCTACGAGTAACAAAGAACATTGCACA -TCGCGATCCCTTAACCAATATATTTAACAGAAATTATTTTTTTAATGAACTGACAGTTCAATCAGCATCA -GCCCAAAAAACGCCTTATTGCGTCATGATTATGGATATCGACCACTTCAAAAAAGTCAACGACACCTGGG -GGCATCCGGTTGGCGATCAGGTGATAAAAACAGTGGTGAATATCATTGGGAAAAGCATACGACCAGATGA -CCTTTTAGCGCGCGTCGGCGGCGAAGAGTTTGGCGTCTTGCTGACGGACATCGATACTGAACGTGCGAAA -GCTTTAGCGGAAAGGATTCGGGAAAATGTTGAGCGTTTAACTGGCGATAATCCTGAATACGCTATACCAC -AAAAAGTGACGATTAGTATTGGCGCTGTTGTGACTCAGGAAAATGCGTTAAACCCAAATGAGATCTATCG -ACTGGCTGATAACGCACTTTACGAGGCGAAAGAGACCGGGCGTAATAAGGTGGTTGTGAGGGATGTGGTG -AATTTTTGTGAGTCACCATAAAGCGGCATTTTGATCCTACCCACGTAATATGGACACAGGCCTAAGCGAG -GTTCTTGTTTTCAAATTGTTCCGGACTGAGGCCGCCACACCAACTGTGCCGCCGCCACCGATTGTAATCA -CATTCGATATAATTAAACACCGTTGCCCGCATTATTTCCCGGCTGATAAAGTGTTCTCCATGGATACATT -CCACTTTCAGCGAATGAAAGAAGCTTTCCACGCAGGCATTATCGTAGCAGCAACCTTTTGCGCTCATACT -TCCACGCAGATTATGCCGCTTCAGTTGCGCCTGATAATCTGCTGAACAGTACTGGCCTCCACGGTCCGTG -TGAACGATAACGTTCCGGGGCCTCTTACGCCGCCACAGCGCCATCTGCAGGGCATCGCAGGCCAGTTGCG -CCGTCATGCGTGGCGACATTGACCAGCCAATAACGGCACGTGACCACAGGTCAATGACCACTGCCAGATA -CAGCCAGCCTTCATCTGTACGTAAGTACGTGATGTCTCCTGCCCACTTCTGGTTCGGGCCACTGGCGTAA -AAATCCTGCTCCAACAGATTTTCTGACACAGGCAGGCCGTGTGCGCGGTAGCTGACCGGGCTGAACTTCC -GGGAGGCCTTTGCCCTCAGTCCCTGACGGCGCAGGCTTGCCGCCACGGTTTTTACGTTAAAGGGGTAACC -CTGAGCACGCAGTTCATCCGTCAGGCGTGGGGCACCGTAACGCTGTTTTGACCGGGTAAAAGCCGCGAGG -ACAACGCTGTCGCAGTGTTGGCGGAACTGCTGACGCGTGCTTATCCTTGTCCGCCGCTGACACCACGTAT -ACCAGCCGCTGCGGGCCACCCGGAGCACGCGGCACATTGCTTTGATGCTGAACTCAGCCTGATGTTTTTC -AATAAAGACATACTTCATTTCAGGCGCTTCGCGAAGTATGTCGCGGCCTTTTGGAGGATAGCCAGCTCTT -CATCCCGTTCTGCCAGCTGGCGTTTGAGACGTGCAATCTCGGTAGACATCTCCAGTTCACGTTCAGAAGA -CGTCTGCTGATTTTGCTGTTTACTGCGCCAGTTGTAGAGTTGTGATTCATACAGGCTGAGTTCACGGGCT -GCGGCAGTAACACCGATGCGTTCAGCAAGCTTCAGGGCTTCACTGCGAAATTCAGGCGAATGCTGTTTAC -GGGGTTTTTTACTGGTTGATACTGTTTTTGTCATGTGAGTCACCTCTGACTGAGAGTTTACTCACTTAGC -CGCGTGTCCACTATTGCTGGGTAAGATCAGTGCCTGGCACACGCGTTTGATGGAAGACGGCGTTCAGGCA -ATGCGCGATTATCTTGCCGGACTGGATATCGCTTCGCCAGAGCATCAGGTTCTGATGAACGTAACAGCAA -AAAGCGAGGTCGCTCCGTCAATTATCAAAGAAAATCTCTCATTACACTTAACTCATACGGTGAAATGGAC -TGAATCTCTCGATACATTTCTGAATATGCCAACCCCGGTAGCTTTCCTTGAAATAAGTAATAAGCCCTAT -TTGGGGAATATGTTAAATGATTTTGCTGGCGTGGATCAGCAACGAGTTATGCATTGTCGTAAAGCATTTA -GTGATGCAAAGGTATTCAAATGATTCCTGATTATTTAACTTTTATTCGCTTTCAGGATAAACGAAATCTG -ATATACATTTATGCTATTGGACTTATTCTGATAGGCTTTTATTGGAAGAATGCAGGGTTTACTTTTCCAT -CAGAGGATATTGGTGTAGTTAGTGGGATTCTGGCTCTGGTGCTGTATAATTTTATTTTTGATCTCAAGGC -GTACTGGGCTTATAAATGCGTCACGAAGAATATCGATTTTTCGTGGTTTAAGAAAAAGCAGAACCACAAA -ATAGAATTATTTCTTACACAACCTCTGGTGGCAGGATTTCTGTCGTTAATCATGTTGAGTGCAATGAGTT -GGGGGCTATACCAGCTTCTACCCTCGTTATATGCGCTGTTCCTGATTTCGTTACTTGGGCCGTTGGTCAT -CTTTCTGCTGTTTCGGATGATCCGCACCAGTTATGTCAAGCAGGTCGCTATTTCAGTAGCGAAAAAAGTA -AAATATAAAAGTCTGACTCGCTATGTGCTGCTTTCGGTGTGCATCTCAACGGTTGTTAACCTGCTTACTA -TCAGCCCGTTGCGTAACAGTGATTCTTTTGTGACAGAGGGGCAGTGGTTAACGTTTAAATCGATAATTGC -ATTGCTCATTCTTTGTGGCGTAGTGTTGGCGATTAATCTGTTTTTTCTGCGCTTCTCCAAGCGGTACGCT -TTTCTGGGCAGGCTTTTTTTGCAGGAAATCGATCTGTTTTTCTCCAGTGAAAATGCGTTGTCGACCTTTT -TTGCCAAGCCGCTTTGGCTTCGGTTATTCATATTGCTGGTTATTGAAGTGATGTGGATTACGCTGGTGTC -GGTATTGGCAACGCTTGTAGAATGGCGGATTTGGTTTGAAGCCTATTTTTTACTCTGCTATGTACCGTGC -TTAATTTACTATTTTTTCTATTGTCGATTCCTCTGGCATAACGATTTTATGATGGCATGTGACATGTATT -TCCGTTGGGGGCATTTTAATAAGTGAGGAAGTGATAGGAAGTGACCAGATAATACATATATGTTCTGTAC -TCTCTTGCGCATTTTGATTGTTGACTGAGTAACCAGACAGTTGATGTGCACGATTTCCCCTCGCCCTAAC -AGACGTGGGCGGGGGCACCCGGTGTGTGCAATATACGAAAAAAAAGCCCGTACTTTCGTACGAGCTCTTC -TTTAAATATGGCGGTGAGGGGGGGATTGACTCGCTTCGCTCGCCCTGCGGGCAGCCCGCTCACTGCGTTC -ACGGTCTGTCCAACTGGCTGTCGCCAGTTGTCGACCCCCGGTCGGGGCTTCTCATCCCCCCGGTGTGTGC -AATACACGAAAAAAAAGCCCGTACTTTCGTACGAGCTCTTCTTTAAATATGGCGGTGAGGGGGGGATTGA -CTCGCTTCGCTCGCCCTGCGGGCAGCCCGCTCACTGCGTTCACGGTCTGTCCAACTGGCTGTCGCCAGTT -GTCGAACCCCGGTCGGGGCTTCTCATCCCCCCGGTGTGTGCAATATACGAAAAAAAAGCCCGTACTTTCG -TACGAGCTCTTCTTTAAATATGGCGGTGAGGGGGGGATTGACTCGCTTCGCTCGCCCTGCGGGCAGCCCG -CTCACTGCGTTCACGGTCTGTCCAACTGGCTGTCGCCAGTTGTCGAACCCCGGTCGGGGCTTCTCATCCC -CCCGGTGTGTGCAATATACGAAAAAAAAGCCCGTACTTTCGTACGAGCTCTTCTTTAAATATGGCGGTGA -GGGGGGGATTGACTCGCTTCGCTCGCCCTGCGGGCAGCCCGCTCACTGCGTTCACGGTCTGTCCAACTGG -CTGTCGCCAGTTGTCGAACCCCGGTCGGGGCTTCTCATCCCCCCGGTGTGTGCAATATACGAAAAAAAAG -CCCGTACTTTCGTACGAGCTCTTCTTTAAATATGGCGGTGAGGGGGGGATTCGAACCCCCGATACGTTGC -CGTATACACACTTTCCAGGCGTGCTCCTTCAGCCACTCGGACACCTCACCAAATTGTCGTTCCTGTCTTG -CTGGAACGGGCGCTAATTTAGGGAAATCATGACCTGAGGTCAACAAACTTTTTGAAAAAATCGCGCGTTT -ATTCAAACTTCAATCAATGTGTGGTTTTAATAAGCGAAATCTGCTTTTTTTGCCACCGACCACGGATTTG -TTATGCTGGTGGCCTTTGTAGATCATAACGATAAGTGCGAATAAATTTCGCACAACGCTTTTCGGGAGTC -AGTATGGATATCATCTTTTATCACCCAACGTTCGATACCCAATGGTGGATTGAGGCACTGCGCAAAGCTA -TTCCTCAGGCAAGAGTCAGAGCATGGAAAAGCGGAGATAATGACTCTGCTGATTATGCTTTAGTCTGGCA -TCCTCCTGTTGAAATGCTGGCAGGGCGCGATCTTAAAGCGGTGTTCGCACTCGGGGCCGGTGTTGATTCT -ATTTTGAGCAAGCTACAGGCACACCCTGAAATGCTGAACCCTTCTGTTCCACTTTTTCGCCTGGAAGATA -CCGGTATGGGCGAGCAAATGCAGGAATATGCTGTCAGTCAGGTGCTGCATTGGTTTCGACGTTTTGACGA -TTATCGCATCCAGCAAAATAGTTCGCATTGGCAACCGCTGCCTGAATATCATCGGGAAGATTTTACCATC -GGCATTTTGGGCGCAGGCGTACTGGGCAGTAAAGTTGCTCAGAGTCTGCAAACCTGGCGCTTTCCGCTGC -GTTGCTGGAGTCGAACCCGTAAATCGTGGCCTGGCGTGCAAAGCTTTGCCGGACGGGAAGAACTGTCTGC -ATTTCTGAGCCAATGTCGGGTATTGATTAATTTGTTACCGAATACCCCTGAAACCGTCGGCATTATTAAT -CAACAATTACTCGAAAAATTACCGGATGGCGCGTATCTCCTCAACCTGGCGCGTGGTGTTCATGTTGTGG -AAGATGACCTGCTCGCGGCGCTGGATAGCGGCAAAGTTAAAGGCGCAATGTTGGATGTTTTTAATCGTGA -ACCCTTACCGCCTGAAAGTCCGCTCTGGCAACATCCACGCGTGACGATAACACCACATGTCGCCGCGATT -ACCCGTCCCGCTGAAGCTGTGGAGTACATTTCTCGCACCATTGCCCAGCTCGAAAAAGGGGAGAGGGTCT -GCGGGCAAGTCGACCGCGCACGCGGCTACTAATAAAGCATCAGGATTCCTGCTATCCTTGGCGGGAATTG -AATACAGGAGAGAGTTATGTATCCCGTCGACCTTCATATGCATACCGTTGCCAGCACACATGCATATAGC -ACATTAAGTGATTACATTGCCCAGGCCAAACAAAAGGGCATTAAACTTTTTGCGATCACCGATCATGGCC -CGGATATGGAAGATGCGCCGCATCACTGGCACTTCATTAACATGCGTATCTGGCCGCGAGTGGTTGATGG -GGTAGGGATCCTGCGCGGCATCGAAGCTAACATTAAAAATGTTGATGGTGAAATTGACTGCAGCGGTAAA -ATGTTTGACTCGCTGGATCTAATTATTGCCGGTTTTCATGAGCCGGTTTTTGCGCCACATGACAAAGCGA -CCAATACACAAGCGATGATCGCCACTATCGCCAGCGGCAATGTGCATATAATAAGCCATCCCGGAAATCC -CAAATATGAAATAGATGTGAAAGCCGTTGCTGAAGCAGCCGCGAAACATCAGGTGGCGCTGGAAATCAAT -AATTCCTCATTTTTACACTCACGTAAGGGCAGTGAAGACAACTGTCGTGAGGTAGCCGCAGCGGTACGTG -ATGCTGGAGGTTGGGTGGCATTAGGCTCGGATTCTCACACCGCGTTTACCATGGGGGAATTTGAAGAGTG -TCTTAAAATCCTCGACGCGGTAGATTTTCCGCCAGAGCGCATTTTGAATGTTTCTCCGCGCCGCTTACTG -AACTTCCTTGAATCTCGCGGTATGGCACCGATTGCGGAATTTGCAGACCTTTAATTACTAGTAATGGAAA -TATATTAATGAACGAGTTTTCTATCCTCTGTCGTGTGCTGGGTTCGCTCTATTACCGCCAACCACAAGAT -CCTTTACTGGTGCCGCTGTTTACCCTGATTCGTGAGGGGAAACTGGCTGCGAACTGGCCACTGGAGCAGG -ATGAGTTGCTGACACGTTTGCAGAAAAGCTGTGATATGACGCAAGTCTCTGCCGATTACAATGCGTTGTT -TATCGGCGATGAATGTGCTGTGCCGCCATATCGTAGCGCATGGGTTGAGGGCGCGACGGAAGCGGAAGTG -CGCGCTTTTCTTTCTGAGCGAGGGATGCCATTAGCGGATACGCCAGCCGATCACATCGGCACATTGCTGC -TCGCAGCTTCCTGGCTGGAAGATCAGTCAACGGAAGATGAGAGCGAAGCACTGGAAACACTGTTCAGTGA -GTATCTGTTACCCTGGTATGGTGCGTTCCTTGGCAAAGTGGAGGCCCATGCAACCACGCCTTTCTGGCGC -ACCATGGCACCGCTAACCCGCGATGCCATTAGTGCAATGTGGGACGAGCTGGAAGAAGATTCTGAAGAAT -AAGTGTGATCTACGTCACTCATAACTGCAACGGATAATTTGTTGTTGCATAAAATGTGTGCTCGATCTCA -TTCATGGCCGCGTTTTCTGCTATCATGCGCGGCATGAACATACTTCTCTCTATTGCAATCACAACAGGCA -TTCTCTCCGGTATCTGGGGATGGGTGGCTGTTTCCCTGGGCTTACTAAGCTGGGCGGGCTTCCTGGGCTG -TACGGCCTACTTTGCCTGCCCGCAAGGTGGGCTGAAAGGGCTGGCGATCTCCGCTGCAACCCTGCTTAGT -GGCGTGGTGTGGGCGATGGTCATTATTTACGGTAGTGCACTGGCACCACATCTGGAAATTCTCGGTTATG -TCATAACCGGTATTGTCGCGTTTCTGATGTGTATTCAGGCCAAACAGCTGCTGCTTTCATTTGTTCCGGG -GACGTTTATAGGCGCATGCGCGACGTTTGCCGGGCAGGGTGACTGGAAACTGGTGTTACCTTCGCTGGCG -CTTGGGCTGATATTTGGTTACGCAATGAAAAACAGTGGCCTGTGGCTGGCGGCGCGTAGTGCAAAGACGG -CGCACCGTGAGCAGGAAATCAAAAATAAAGCGTGAGGGGCACTCACGCTTTCGCTTAAACAGTAAAATGC -CGGATGATAATTCCGGCTTTTTTATCTGTCAGGATTCCGGTGGAACCGACATATGGCGGTATTTCACCAG -AATGTCATTCTGCCGTTCTGCTTTATTTTGCAAATCCCACAGACCACGGTCGATACCATCATTAATCAGG -AAAATGACCCCTGTTTCGATAGCCGACATCAGGCACAGCATAACAGGTTCGTTCGAGGTGTAACCCACTT -CCCCTTCAAGCAAGCGCTGGTAGTCAATAAAGCGGAAAACCCCGGCCTGAACTTCATAGGAAAGTATCGT -CTTACTGGTGTTCACCGAAGAAAGGATCTCGCCGGTACTCACATTGACGACGCGCAGGTTCACGGCAATC -TGATCGAGCTGGTATTGCGTGTCGGCACCGATGCCAAAATATCTTGCCCCAACCCCGCCAGATTTGACGT -TGCTTTCATAACCGATAATCGAACCTTCAACCATGATATTTGCCGCCGTTAAAGATTGCAGCGGGATTCG -GTTATTAATGGCAACCGTGCCGTTTTCTTGTGCCGCACGAATAATCTTGCGCTCGTTAAGCAGGTTTTGT -AAGCCCTGGCGCTCCAGCGGTATAAACCAGCGAGAATCTTTCAGTGCCGTGACCAGCATTGCCGTGGCGC -TTTGCGGAACAGCAGTGGAGAAGTTACTTGCCGGGTAGGGTTTAAATTGCCCGGTTTCGTCCTGAATGTT -GTATACCGAAACAAAGATTTTACCCGTCGGCGCTGGCAGATGGGTCAAATCTTTGTAGCTCTGAGCACGA -GGCATTAATGTCGGTCTGGCGGCTTCTTTAGGCGGGGCGGTTAAGCATCCGCTCAGTAACATGACGGCAA -CCAAAAGAAATAAGCGCTGCATGATTATTTTCCTTATGAAGCTGGGGCTTAAAAATCGGTTGAGTTATTT -TGTAAACCCGAAACCTGGATGGTCGAGGTTTGTCCGGTTTTACGATCTGTCACGTTCAACTGCAATTGAC -CATCGCGGTTGGCAATATCGACAATATAATCGTTGGTCACCATGCGGCCCGGTTTACCGGTATTAATATT -CGACAGTAGCCCACCTAAAATTTGTGACTGGATGGCCTGAGTAAAGTTATCTAACGCTGAGGGTGTTTCA -ATACCAAAGTCATCGTTATAGCTCGGATCTTTATAAGAGTTTTGGGCCTGAGCGCTATTTAATAAAAAAG -CGCCATTATTTGGGTTACCACCAAAGTTTGGATTACGGAACTGGAAAGTCATGGTTCCAGCCCAACTTAA -TGGCGAAATAAGCATGAGTAGAACTACTGCATGTTTGACACGCATTGCAGCCTCCGAACAATTTTTTATT -TAGAATTCATCATGCGCCAAATCGCCCGTACTTAATAACGCCTGATTTATCTGGCGACGATTTAGTGCTT -CTTCAGTTTGAATCAGTGCAAAGACGACAGTTTTCTCGAAGTCTCTTTTCAACGGAAATAAAAAAGTCTG -GAAAATAACGTCCTGATTGACCGTTATAGTGATCCAGCTTCCCCATCGTGCACTGGGCCTTTCATTAATC -GTTAAGTTACCCGTATAGTCACTTTCCCATTTATCACTAAAGGCTCGGTAAAAATCATGGCCAATAGATG -AAACAGTATGGTCAGTTAGCAATCCCGGGACTTCTACCTCAACGGCGTGAAGATTCCCTGCGGCGAACAG -AAATTCTGCCGCCACAATCCAGCGTAAATAACGTTTCATGGCTTTATCGCCTGAGGTTATCGTTTGCCCA -GGAAACCGCTTGTGTCCGGTTTTTTACGGCTATCTTCTTGAAAAGATTATAAAGATGCGTTTTAACCGTA -TTTTCGCTGATGAACAACGAACGAGCGATCTCGTTATTAGACGCGCCGATACGCAGCTTATTCAGGATCT -CTTTTTCCCGATGAGTAAGGAGGGCTGATTCCGTGCTGTTATAACGATAGTTACCTGAATGCGTAATCAG -GTAGCTGGCAAGCTTTTGCGTAAAGTAGCATTCGCCGCGCAGGACGCCTTGCAACCCATTGACAACACGT -TCTTGATCCTCCATGGAATAAAAAACGCCGTTGATATGAGGCCAGTTTTCAATGTCGCGGTACGGGTAAT -CTTCAGGCGTATTTAGCAACAATATTTTGATATTGTTGTTTTTCCTGCTCAAAGTATCCTGCCAATAATG -GATAAGCTTTTTATCCGCTTCCATCATATCCAGAAGAATAATAGAGCCTGAAGAGATATCGTCCAGAGAA -CGTTGAATATTATGTAATTTTCCTGTAATTGCCAGCGATTGTTTAAGGTGCTGCAAGAGAGCTGTCGCCT -GCAAAGAAGATTTAGTGATCAACAATAATGTATGACCATGAATACTATGGACTTCATTAAACATGATGAA -ACCCCGCTTTTTTTATTGATCGCACACCTGACAGCTGCCTCTAAAATAGAAGCACCAGAAGTACTGACAG -ATGTTGCACTGCTGTGTGTAGTAATAAATCAGCCCTAAATGGGTAAAATATAAAACTAATGGATTACATC -TGATTTCAATCTAGCCATTACAAATCTTAAATCAAGTGTTAAACATGTAACTAAATGTAACTCGTTATAT -TAAAATGTTAACCTTAAGGTTTTATTAAGTTTAGAAATGATAGAAAAGTTGTACATTTGGTTTTTATTGC -ACAATTTTAAAAAATCATACAAATGGTGATAACTTACTAATAATGCATATAAAAAATATTTCGGTGTAGT -CCTTTCGTCATGTAAAACGTTCTTGTTTTTTCTCCACACCTCCGTGGACAATTTTTTACTGCAAAAAGAC -GAGGTTTGTCACGGCTTGTGCGCAAGACATATCGCAGCAATCAGCGACGGGCAAGAAGAATGACTGTCTG -GTGCTTTTTGATAGCGGAAAACGGAGATTTAAAAGAAAACAAAATATTTTTTTGCGTAGATAACAGCGTA -TTTACGTGGGTTTTAATACTTTGGTATGAACTAAAAAAGAAAAATACAACGCGCGGGTGAGTTATTAAAA -ATATTTCCGCAGACATACTTTCCATCGTAACGCAGCGTTAACAAAATACAGGTTGCGTTAACAACCAAGT -TGAAATGATTTAATTTCTTAAATGTACGACCAGGTCCAGGGTGACAACATGAAAAACAAATTGTTATTTA -TGATGTTAACAATACTGGGTGCGCCTGGGATTGCAGCCGCAGCAGGTTATGATTTAGCTAATTCAGAATA -TAACTTCGCGGTAAATGAATTGAGTAAGTCTTCATTTAATCAGGCAGCCATAATTGGTCAAGCTGGGACT -AATAATAGTGCTCAGTTACGGCAGGGAGGCTCAAAACTTTTGGCGGTTGTTGCGCAAGAAGGTAGTAGCA -ACCGGGCAAAGATTGACCAGACAGGAGATTATAACCTTGCATATATTGATCAGGCGGGCAGTGCCAACGA -TGCCAGTATTTCGCAAGGTGCTTATGGTAATACTGCGATGATTATCCAGAAAGGTTCTGGTAATAAAGCA -AATATTACACAGTATGGTACTCAAAAAACGGCAATTGTAGTGCAGAGACAGTCGCAAATGGCTATTCGCG -TGACACAACGTTAATTTCCATTCGACTTTTAAATCAATCCGATGGGGGTTTTACATGAAACTTTTAAAAG -TAGCAGCAATTGCAGCAATCGTATTCTCCGGTAGCGCTCTGGCAGGTGTTGTTCCTCAGTACGGCGGCGG -CGGTAACCACGGTGGTGGCGGTAATAATAGCGGCCCAAATTCTGAGCTGAACATTTACCAGTACGGTGGC -GGTAACTCTGCACTTGCTCTGCAAACTGATGCCCGTAACTCTGACTTGACTATTACCCAGCATGGCGGCG -GTAATGGTGCAGATGTTGGTCAGGGCTCAGATGACAGCTCAATCGATCTGACCCAACGTGGCTTCGGTAA -CAGCGCTACTCTTGATCAGTGGAACGGCAAAAATTCTGAAATGACGGTTAAACAGTTCGGTGGTGGCAAC -GGTGCTGCAGTTGACCAGACTGCATCTAACTCCTCCGTCAACGTGACTCAGGTTGGCTTTGGTAACAACG -CGACCGCTCATCAGTACTAATACATCATTTGTATTACAGAAACAGGGCGCAAGCCCTGTTTTTTTTCGGG -AGAAGAATATGAATACGTTATTACTCCTTGCGGCACTTTCCAGTCAGATAACCTTTAATACGACCCAGCA -AGGGGATGTGTATACCATTATTCCTGAAGTCACTCTTACTCAATCTTGTCTGTGCAGAGTACAAATATTG -TCCCTGCGCGAAGGCAGTTCAGGGCAAAGTCAGACGAAGCAAGAAAAGACCCTTTCATTGCCTGCTAATC -AACCCATTGCTTTGACGAAGTTGAGTTTAAATATTTCCCCGGACGATCGGGTGAAAATAGTTGTTACTGT -TTCTGATGGACAGTCACTTCATTTATCACAACAATGGCCGCCCTCTTCAGAAAAGTCTTAATTTGTTGAA -ATATCGAGCATAAGATGAATCTGGAGAGAATGGTCTGCTGCGAATCAGCCAACCTGAAAGTATGGATAAC -ACAACCCTCAAGGATGACTAATCATTGAGGAAATAGAATAAATGTTCAGACCTTTTTTAAACTCTCTTAT -GCTCGGCAGTTTGTTTTTTCCTTTTATTGCCATTGCTGGAAGCACCGTGCAAGGGGGCGTGATCCATTTT -TATGGCCAAATTGTGGAACCGGCATGTGACGTCAGCACCCAGTCATCACCCGTAGAAATGAACTGCCCAC -AGAATGGTTCTATTCCGGGCAAAACCTACTCCAGCAAAGCGTTAATGAGCGGCAATGTCAAAAACGCGCA -AATAGCCTCAGTAAAAGTGCAGTATCTTGATAAACAGAAAAAGCTGGCTGTAATGAACATCGAATATAAC -TAAGTTTCTGAACAACTCACGTTGCTGAGCAGAAAAATGCGATTTAACCAAAAAGCCTGCTGTACACTTA -AGAAACAAGAAGGTGTAAGGAGGCGTTATGAAAACGCGTATTCATGTTGTGCAGGGTGATATTACCAAAC -TGGCCGTTGATGTGATTGTGAATGCGGCTAATCCGTCATTAATGGGAGGCGGCGGCGTCGATGGGGCCAT -TCATCGCGCAGCGGGTCCGGCCCTGCTGGATGCTTGTTTAAAAGTCAGGCAACAGCAGGGCGATTGCCCT -ACGGGGCATGCCGTTATTACGCTTGCAGGCGATCTTCCCGCTAAAGCCGTAGTGCACACCGTCGGGCCAG -TCTGGCGTGGTGGTGAACAAAACGAAGACCAGCTTTTGCAGGATGCCTATCTCAATAGCCTACGACTGGT -GGCGGCAAACAGCTATACGTCAGTGGCTTTTCCTGCAATCAGTACTGGGGTTTATGGTTACCCTCGTGCG -GCAGCGGCTGAAATCGCAGTAAAAACCGTTTCAGAATTTATTACCCGTCACGCTTTACCCGAACAGGTAT -ACTTTGTCTGTTATGATGAAGAAAACGCCCACCTCTACGAAAGACTCCTTACCCAACAAGGAGATGAATG -ATTTGCCCCGGCTGGCGAGCGCGGTGCTGCCACTGTGTTCGCAACATCCCGGTCAGTGTGGCCTTTTTCC -TCTGGAGAAAAGTCTGGATGCGTTTGCCGCCCGGTATCGTCTGGCCGAAATGGCAGAGCATACGCTCGAT -GTTCAGTATTACATCTGGCAGGACGATATGTCGGGTCGGTTACTGTTTTCCGCCCTGTTAGCCGCAGCAA -AGCGTGGCGTTCGCGTCCGTTTGTTGCTGGACGACAACAATACGCCCGGACTTGACGACATTTTACGCTT -GCTTGACAGTCATCCACGCATTGAAGTCCGGCTTTTTAATCCTTTCTCGTTTCGCTTGCTGCGTCCGCTT -GGTTATATCACCGACTTTTCCCGTCTTAATCGCCGTATGCACAATAAAAGTTTCACTGTCGATGGCGTGG -TGACCCTGGTGGGAGGACGAAATATTGGTGATGCCTATTTTGGAGCAGGGGAGGAGCCACTTTTTTCGGA -TTTAGATGTCATGGCAATAGGACCCGTGGTAGAGGACGTTGCCGATGATTTCGCCCGCTACTGGTATTGC -AAATCGGTTTCACCCTTACAGCAGGTGCTGGATGTCCCGGAGGGTGAAATGGCGGATCGCATCGAGTTAC -CCGCCTCCTGGCATAACGATGCCATGACGCATCGTTATTTACGCAAAATGGAATCCAGTCCATTTATAAA -TCATCTGGTTGATGGAACATTGCCGCTTATCTGGGCGAAGACACGTTTATTAAGTGATGATCCGGCGAAA -GGGGAGGGCAAGGCAAAACGGCATTCACTGTTACCGCAGCGCCTGTTCGATATCATGGGCTCACCCAGTG -AACGCATCGATATTATCTCTTCCTATTTTGTACCGACACGCGCAGGTGTGGCGCAACTCTTACGGATGGT -GAGAAAAGGGGTAAAGATTGCGATCCTAACCAATTCTCTTGCCGCTAACGATGTTGCTGTCGTCCATGCC -GGATACGCGCGCTGGCGCAAAAAATTGCTCCGCTATGGCGTGGAATTATATGAACTCAAGCCGACGCGTG -AACAAAGTAGTACGTTACACGATCGCGGCATAACCGGTAATTCCGGAGCCAGCCTGCATGCTAAAACCTT -TAGCATCGATGGTAAAACGGTGTTTATCGGCTCTTTCAATTTCGATCCGCGTTCAACATTGCTCAATACT -GAAATGGGCTTCGTGATAGAGAGCGAAACGCTGGCACAGTTAATTGATAAACGCTTTATTCAGAGCCAGT -ATGATGCGGCCTGGCAGCTCCGTCTGGACAGGTGGGGACGGATCAACTGGGTTGATCGTCATGCAAAGAA -AGAGATTATTCTCAAAAAAGAACCCGCCACCAGTTTCTGGAAGCGGGTTATGGTCAGACTGGCGTCGATA -TTGCCCGTGGAATGGTTATTGTAAATGTGGCTTAACGGGCTGGTGCTTTATCGTTCTCACGCTTAACAAC -CGGTTTACCAGAGAACAAAAACTTCAGTAACGGGATGCGCAAATGAATTTCATACAGAATTATCGCAATC -CCTACTACAAATATCAGGCCACAGAGAAAACCAAGCCAGTTGGAGGTGATGTGCGGTGTAATGTATGCGC -CGAAAAACAGCGTTAACGGGTGGTGAACCAGATAGATAAACAGCGATGCGTTAACAAAATAAGTCACCCG -CGCTGACTGGAAGTTAAGCAAACGGTGGCCAAAGGAGAAGACCACATTCACCATCCACAGACCGAGGACC -ATGGTGATCACCGACTCGGTTTCGTACATCCAGGCATCGCCACTGCCATAGCGCTGGTTGAGTAAATAAG -CGACAAACGCCAATGCTGCTGCAAGGGTACAGCCACGAGACGGCGTGGTAAACAAGGCTTTAAGATGAGG -GAAAATGAAAGCCAGTGCGCCGAGGATAAAGAACGGCAAATAAAACAGCGTTTGCATGACAATAAAATTG -AACATGCCATTACTCAGAATGGGCGGATACACAATAAAAATCGTTCTTCTTATTACCGCATAACCGATGC -CGAGGCATAAAAAAATCACCGATAGTTTTACCATCGAGAATTTTTTATTCGTTTTATCAGAATTTTCTAA -ATTATTTCTGATGCGCTTAAATATCCATACGCACAGCGTCGTCATGACCACTAACACCAGTAAAAACCAC -AGGTGTGATATTAATTCCCAGGCCAACGTATTATATTTGTCATACAATGACAGCCCAGGCCAACTTTCCG -CTTTTCCTTTGACATATTGCAGCATAATAAATTGCGGTAATGTCAGTAGGGGGATGGCTGTTAACATCGG -GATACCTACACGTTCGACACGTACTTTCCACCATTTTTTCAAGGGATAGCGTAAAAAAAGCATGTAGGAA -AAGTAGCCGGATATAACGAAAAATACCTGCATGCGGAACGAGTGGATGAAGTCATTAAAAAGGGTCAGCC -ACAATGATGATTCGGCGCTATTCACATGCCATGTATGGCTCGAATAGATTAAAGAAATATGAAAAGGTAT -CCCTAACAACATCAGCCAGGCGCGGATGGAGTCGAGGAAATATTCACGTTGCGCGGGTACTGGGTTCATA -TATGGTTAACTAATCTCGGATTTTTCGTCTTATCCCTGTCGGGTTATGCCTTTAGGCTTGTTGCCATAGT -GACACCGACCTGACCGCGCCAGGCGCAGGCTTCAAGGTTTTTATGCATAGCATCATCGCTACCACTAACC -AGAATGGAAGCGTCTGTAAGACGGTTGATAAATAAATTTGCTGGCAAACCCTACACGAAGTCGATGCTTC -TGTCTTTAGGAGAAGCACGGAAAGTGAAAACGGTTGCAATCAGGTGCTTAATCCATGAGCCAGCGTGCTG -AACGATACCGGGATTCTGTTGTCGGAATGGCTGGTTATCCATTAAAATAGATCGGATCGATATAAGCACA -CAAAGGGGGAAGTGCTTACTAATTATGAAACATAAACTACAAATGATGAAAATGCGTTGGTTGAGTGCTG -CAGTAATGTTAACCCTGTATACATCTTCAAGCTGGGCTTTCAGTATTGATGATGTCGCAAAGCAAGCTCA -ATCTTTAGCCGGGAAAGGCTACGAGACGCCCAAAAGCAACTTGCCCTCCGTTTTCCGCGATATGAAATAC -GCGGACTATCAGCAGATCCAGTTTAATCATGACAAAGCGTACTGGAACAATCTGAAGACCCCATTCAAAC -TCGAGTTCTACCATCAGGGTATGTACTTCGATACCCCGGTCAAAATAAATGAAGTGACTGCCACCGCAGT -CAAACGAATCAAATACAGCCCGGATTATTTCACTTTCGGCGATGTTCAGCATGACAAAGATACGGTAAAA -GACCTTGGCTTTGCCGGTTTTAAAGTGCTTTACCCGATCAACAGCAAAGATAAAAACGATGAAATCGTCA -GCATGCTCGGGGCCAGCTATTTCCGCGTGATTGGTGCAGGTCAGGTTTATGGCCTTTCTGCCCGCGGCCT -GGCAATTGATACCGCCTTGCCATCGGGTGAAGAATTTCCGCGCTTCAAAGAGTTCTGGATCGAGCGTCCA -AAACCGACTGATAAACGTTTAACCATCTATGCATTGCTTGACTCGCCGCGTGCGACAGGTGCTTACAAAT -TCGTGGTTATGCCAGGGCGTGACACGGTTGTGGATGTGCAGTCGAAAATCTATCTGCGCGATAAAGTCGG -CAAACTGGGGGTTGCACCGTTAACCAGTATGTTCCTGTTTGGGCCGAACCAACCGTCGCCTGCAAATAAC -TATCGTCCGGAGTTGCACGACTCTAACGGTCTCTCTATCCATGCCGGTAATGGCGAATGGATCTGGCGTC -CGTTGAATAACCCGAAACATTTAGCGGTCAGCAGCTTCTCCATGGAAAACCCGCAAGGCTTTGGTCTGTT -GCAGCGCGGTCGTGATTTCTCCCGCTTTGAAGATCTCGATGATCGTTACGATCTCCGTCCAAGCGCATGG -GTGACTCCGAAAGGGGAGTGGGGTAAAGGCAGCGTTGAGCTGGTGGAAATTCCAACCAACGATGAAACCA -ACGATAACATCGTCGCTTACTGGACGCCGGATCAGCTGCCGGAGCCGGGTAAAGAGATGAACTTTAAATA -CACCATCACCTTCAGCCGTGATGAAGACAAACTGCATGCGCCAGATAACGCATGGGTGCAACAAACGCGT -CGTTCAACGGGGGATGTGAAGCAGTCGAACCTGATTCGCCAGCCTGACGGTACTATCGCCTTTGTGGTCG -ATTTTACCGGCGCAGAGATGAAAAAACTGCCAGAGGATACCCCGGTCACAGCGCAAACCAGCATTGGTGA -TAATGGTGAGATAGTTGAAAGCACGGTGCGCTATAACCCGGTTACCAAAGGCTGGCGTCTGGTGATGCGT -GTGAAAGTGAAAGATGCCAAGAAAACCACTGAAATGCGTGCTGCGCTGGTGAATGCCGATCAGACGTTGA -GTGAAACCTGGAGCTACCAGTTACCTGCCAATGAATAAGACAACTGAGTACATTGACGCAATGCCCATCG -CCGCAAGCGAGAAAGCGGCATTGCCGAAGACTGATATCCGCGCCGTTCATCAGGCGCTGGATGCCGAACA -CCGCACCTGGGCGCGGGAGGATGATTCCCCGCAAGGCTCGGTAAAGGCGCGTCTGGAACAAGCCTGGCCA -GATTCACTTGCTGATGGACAGTTAATTAAAGACGACGAAGGGCGCGATCAGCTGAAGGCGATGCCAGAAG -CAAAACGCTCCTCGATGTTTCCCGACCCGTGGCGTACCAACCCGGTAGGCCGTTTCTGGGATCGCCTGCG -TGGACGCGATGTCACGCCGCGCTATCTGGCTCGTTTGACCAAAGAAGAGCAGGAGAGCGAGCAAAAGTGG -CGTACCGTCGGTACCATCCGCCGTTACATTCTGTTGATCCTGACGCTCGCGCAAACTGTCGTCGCGACCT -GGTATATGAAGACCATTCTTCCTTATCAGGGTTGGGCGCTGATTAATCCTATGGATATGGTTGGTCAGGA -TTTGTGGGTTTCCTTTATGCAGCTTCTGCCTTATATGCTGCAAACCGGTATCCTGATCCTCTTTGCGGTA -CTGTTCTGTTGGGTGTCCGCCGGATTCTGGACGGCGTTAATGGGCTTCCTGCAACTGCTTATTGGTCGCG -ATAAATACAGTATATCTGCGTCAACAGTTGGCGATGAACCATTAAACCCGGAGCATCGCACGGCGTTGAT -CATGCCTATCTGTAACGAAGACGTGAACCGTGTTTTTGCTGGCCTGCGTGCAACGTGGGAATCAGTAAAA -GCCACCGGGAATGCCAAACACTTTGATGTCTACATTCTTAGTGACAGTTATAACTTGGATATCTGCGTCG -CAGAGCAAAAAGCCTGGATGGAGCTTATCGCTGAAGTCGGTGGCGAAGGTCAGATTTTCTATCGCCGCCG -CCGTCGCCGCGTGAAGCGTAAAAGCGGTAATATCGATGACTTCTGCCGTCGCTGGGGCAGCCAGTACAGC -TACATGGTGGTGCTGGATGCTGACTCGGTAATGACCGGTGATTGTTTGTGCGGGCTGGTGCGCCTGATGG -AAGCCAACCCGAACGCCGGGATCATTCAGTCGTCGCCGAAAGCGTCCGGTATGGATACGCTGTATGCGCG -CTGTCAGCAGTTCGCGACCCGCGTGTATGGGCCACTGTTTACAGCCGGTTTGCACTTCTGGCAACTTGGC -GAGTCGCACTACTGGGGACATAACGCGATTATCCGCGTGAAACCGTTTATCGAGCACTGCGCACTGGCTC -CGCTGCCGGGCGAAGGTTCCTTTGCCGGTTCAATCCTGTCACATGACTTCGTGGAAGCGGCGTTGATGCG -CCGTGCAGGTTGGGGGGTCTGGATTGCTTACGATCTCCCGGGTTCTTATGAAGAATTGCCGCCTAACTTG -CTTGATGAGCTAAAACGTGACCGCCGATGGTGCCACGGTAACCTGATGAACTTCCGTCTGTTCCTGGTGA -AGGGTATGCACCCGGTTCACCGTGCGGTGTTCCTGACGGGCGTGATGTCTTATCTCTCCGCTCCGCTGTG -GTTTATGTTCCTCGCGCTCTCTACTGCATTGCAGGTAGTGCATGCGTTGACCGAACCGCAATACTTCCTG -CAACCACGGCAGTTGTTCCCAGTGTGGCCGCAGTGGCGTCCTGAGCTGGCGATTGCACTTTTTGCTTCGA -CCATGGTGCTGTTGTTCCTGCCGAAGTTATTGAGCATTTTGCTTATCTGGTGCAAAGGAACGAAAGAATA -CGGCGGCTTCTGGCGCGTTACATTATCGTTGCTGCTGGAAGTGCTTTTTTCCGTGCTGCTGGCTCCGGTA -CGCATGCTGTTCCATACGGTCTTCGTTGTCAGCGCGTTCCTTGGCTGGGAAGTGGTGTGGAATTCACCGC -AGCGTGATGATGACTCCACTTCCTGGGGTGAAGCGTTCAAACGCCACGGCTCACAGCTGCTGTTAGGGTT -AGTGTGGGCTGTTGGGATGGCGTGGCTGGATCTGCGTTTCCTGTTCTGGCTGGCACCGATTGTCTTCTCG -TTGATCCTGTCACCGTTTGTTTCGGTGATTTCCAGCCGTGCCACCGTTGGTCTGCGCACCAAACGCTGGA -AACTGTTCCTGATCCCGGAAGAGTATTCGCCGCCGCAGGTGCTGGTTGATACCGATCGGTTCCTTGAGAT -GAATCGTCAACGCTCCCTTGATGATGGCTTTATGCACGCAGTGTTTAACCCGTCATTTAACGCTCTGGCA -ACCGCAATGGCGACCGCGCGTCACCGCGCCAGTAAGGTGCTGGAAATCGCCCGTGACCGCCACGTTGAAC -AGGCGCTGAACGAGACGCCAGAGAAGCTGAATCGCGATCGTCGCCTGGTGCTGCTAAGCGATCCGGTGAC -GATGGCCCGTCTGCATTTCCGTGTCTGGAATTCCCCGGAGAGATATTCTTCATGGGTGAGTTATTACGAA -GGGATAAAGCTCAATCCACTGGCATTGCGTAAACCGGATGCGGCTTCGCAATAAAAACGTAGTTGCCTGA -TGCGCTACGCTTATCAGGCCTACATCGTTCCTGCAATTTATTGATTTTGCAAGACTTTGTGGGTCGGATA -AGGCGTTCACGCCGCATCCGGCAAAAACAACGAGCCAATAAAAATACCGGCGTTATGCCGGTATTTTTTT -ACGAAAGAGGTATCAAATGCGTTTAATTGTGGTGAGCATCATGGTGACCTTGCTGAGTGGCTGTGGCAGC -ATTATTAGTCGCACTATACCGGGGCAGGGGCATGGCAACCAATATTATCCCGGTGTGCAATGGGATGTGC -GTGACTCCGCCTGGCGTTATGTCACGATCCTTGATCTGCCATTCTCTCTGGTTTTTGATACTTTACTGCT -GCCGATCGACATTCATCATGGCCCGTATGAGTGATTAACGTTCATCCCACTCATCAGCTGCTGCGCGTCC -TTCCTCGGTATCCAGCGGTGGCTCAAGCTGAAATTCCCCCTCGTCCCATTCATGTAATGTATTCTCTTCC -TGCCACTCCTGGCGTATCTCTATCTCATCATAGTCGCCATCAAAAACACTTTGCGCGGCTTCACCGCTAA -GCATAGGTAAACATTCACCTTCTTCCCCTTCGTCGGCAAAAAACTCAACTTGCCACATGATGTCGCCGTC -CTGCAAAACGTATTTTTGGGCATTGAACTGTTGCACATTCGCATCTTCGGCGTCGATGCCGGGGTTGTCT -GCAAGAAATTCTTCGCGTGCAGCGTCAATGGCTTCTTCAAGCGTTGCGTACATGGTCATCACGATTCTCC -CTTTGAGTTGATGAGGTTTCAGGGAAAAGGATAGCTGATTCTCCGCTTTTGCAAGTATGAAAGGCGAAAA -ATCAGTTCGATACCTGGGGTATTCGACGACGACGTAGACTGTTCCATGAATAGACTGCGTTGAATAACAC -TACGCCAGCGGTGACGAGAAATACCGCTCTGAAACCGTAGTTCGCTGAAATCGCTGCTCCCATCAATGGT -CCGGTAACGTTGCCAATATCACGAAACGATTGGTTATAGCTGAAGATACGCCCGGCGATCTGGTTGCTCG -AGTTGTAAACCAACAGTGTCTGTACGGCGGGGAGTAGTGCACCATCGGCGGCACCGAGCAAAAAACGTAA -AATCCCAAGTTGCAATGGCGTCTGAACGTAAGACATTGGGATCAACAGCAGTACAGAAAAGATCAGCGCT -GTAATCAGGATCTTTTCGGGTCCGATTCGATCGCCAAGTTTGCCGAGTCGTGGTGCACTTAGCAGAGCCG -CCACGCCTGGCACCGAGGCGATCATGCCACTGATAAAGGCGACGTTACTGACGTTACCCGCCAGTTCGCG -GACATACAGCGTCAGAATGGGGGCAATTGAGCCCGTCGCCACCTGGATGATTAACGTAGTGACAAACAGG -CTGAGTACCAGTTTCGGGTTTTTAAGTGATGTCACCACTTCCCGCATGTGCAGCATCTCTTTTTTGCTGA -CCGGCTGGAATTTTTCTCTGATGCAAAACAGGGTGACGAAAAAGCAGAGTATGAGCACACTGGCGGTAAT -AAAGAATACCGGACGTAAGCCGTAGCTATCGGCGAGCAGGCCGCCAGCCATTGGGCCGAGCAACGCACCA -CTAACGCCGCCTGTGGAGAGCGTACCCAGCGCCCAGCCGCTTTTATTACGCGGTACTTGTGTGGCGATAA -GAGCATTAGCGTTGGGGACAAATCCGCCAAGTAACCCAAGAAGCGCCCGCAGGATCAAAAACTGCCAGAT -ATTTTGTGCCAGCCCCATCAACACCATCACGATGCCCATGCCGAGGGCAGAGCGTAATAGCATGAGTTTT -CGGCCTTTACGGTCGGCGAGTCCACCCCAAAACGGTGAGGCGATGGCCGAAAATAAAAATGTAATGCTGA -AGACAATACCGGACCACATATTCAGGGCGGAGTGACCGGTAACGCCAAGCTGCTCAACGTAGAGGGGTAA -GAAGGGCATTACCAGACTGAAGGCGGCACCGGTAAGAAAACAGCCTAGCCAGGCGACGATCAGGTTTCGT -TTCCAGTTTATAGGGGTGTCATTTTCACAGGGTGACATAGCAATCCGCTGTTGGTGCGCCAGGCGCGGTG -AACATAAGAAGAAAAGATAAGCACACTAATTATGCGCCCGACTTCCAGGGGGCGCAATCCAGAGAGCTTT -TATCGCTAAATCAGGGGGATTTGCTGTGGTAATGCCGGATGCCATTCTGAAGCATCCGGCATGGGAGATT -TAATAGCGTGAAGGAACGCCTTCCGGGCGTGTTTTAAAGCGACGGTGTAACCACATATACTGCTCTGGTG -CCATCATGATGCATTTTTCGACCACTTTGTTCATCCACGCGGCGGTAGTTTCGGCATCATCCAGTGGCGG -AGAACACTCTGGCGGCAGCATAATCAATTGATACCCTTTGCCATCTGGCTTACGGCGTGGAACGAAGGGC -ACCAGACATGCGCCGGACATCCGTGCCAGCATCCAGGTTCCGGTCGTGGTCGCAGCCTGCTCAACGGCAA -ACAACGGGACGAAAACGCTTGAGCGCGGGCCGTAATCATGATCCGGTGCGTACCAGACCACTTCGCCTTT -TTTCAGGGCTTTAATCATGCCTTTTAAATCTTTGCGGTCGAGCATCGATTTATTTGAGCGCAAACGGCCC -CAGGTTTGTAGCCAGTCAATCAGTGGATTATCGTTCGGGCGATAAACGCCAATACCCGGTTCCTGCATAC -CAAACTGCCGCGCACCCAGCTCCAGTGTCAGAAAATGGATGCCAACTAACAGGATGCCGCGTTTTTGCGC -CTGCACGTCACGAATGTGTTCCATGCCGATCACTTCCGTCCAGCGGGCGATTCGGCGGTCCGGCCAGAAC -CACGCCATGCCGGTTTCCATCAGGCCCATGCCAACGGATTCGAAATTCTTCACCACCATTTTACGGCGTT -CTTGTTCGCTCATTTCCGGGAAGCACAGTTCCAGGTTGCGATGCACAATTTTTGCGCGTCGTTTCATAAA -ACGTAACGCCAGTTTTCCTAATCCACAACCGAGGCGGTAGATAACCGGGTAGGGCAATTGCACGACTAAC -CAAAGTACGCCAATACCCAACCAGGTTAACCAATAACGCGGATGAAGCAGTGCGGTGGAGAACTTGGGTA -GATTCGTCATATCAATCCTGTTTTTCAACCTATTCGGGCAATTGTATGTATTGTCGCATTTTTTCGCCCG -CAACCAAAATTTGTGGCTGAAGACTGGGCGAAATTGCCGCGCTTGTAAATAACAAATAATTTTTAATGCG -CAAATGTAGCGTAAAATGTGTGGATGTTAATTATCGATAATTGCTATATCATGCCGCGGATTTTTACTTT -CCCATCTCGCAGGAACCGTACACCATGCCAGTGTTACACAACCGCATTTCCAACGACGCGCTAAAAGCCA -AAATGTTGGCTGAGAGCGAACCGCGAACCACCATTTCGTTTTACAAGTATTTCCACATCGCCGATCCTAA -GGCGACCCGTGACGCTTTATATCAGCTGTTTACCGCGCTGAATGTTTTTGGGCGAGTGTATCTGGCGCAT -GAGGGCATTAACGCGCAAATCAGCGTACCTGCGAGCAATGTTGAAACATTTCGCGCGCAGCTCTATGCCT -TCGACCCGGCTTTAGAGGGTTTACGCCTGAATATCGCGTTGGATGATGACGGGAAATCCTTCTGGGTACT -GCGCATGAAGGTACGCGATCGCATTGTTGCCGACGGTATTGACGATCCTCACTTTGATGCCAGCAATGTT -GGTGAGTATCTGCAAGCGGCGGAAGTGAACGCCATGCTTGACGATCCCGATGCACTATTTATCGACATGC -GTAACCACTATGAGTATGAAGTGGGGCACTTTGAAAACGCGCTCGAAATTCCGGCAGATACCTTCCGTGA -GCAGCTGCCAAAAGCAGTCGAGATGATGCAGGCACATAAAGATAAAAAAATCGTCATGTACTGCACCGGC -GGCATTCGTTGTGAAAAGGCCAGTGCCTGGATGAAACATAACGGATTCAACAAAGTCTGGCATATCGAGG -GCGGAATTATTGAATACGCCCGTAAGGCGCGCGAGCAGGGCTTGCCGGTGCGTTTTATTGGCAAAAATTT -TGTTTTTGACGAGCGGATGGGCGAACGTATATCGGATGAGATTATCGCGCATTGCCACCAGTGCGGCGCG -CCGTGCGACAGCCATACCAACTGTAAAAATGATGGCTGCCACCTGCTGTTTATTCAGTGTCCAGTATGCG -CGGAAAAATACAAAGGTTGTTGTAGTGAGATTTGCTGCGAAGAAAGCGCGTTACCGCCAGAAGAACAGCG -ACGCCGTCGGGCAGGACGTGAAAATGGCAATAAGATCTTTAATAAGTCTCGTGGACGTCTGAATACAACA -CTGTGCATTCCTGATCCAACAGAATAAATATCATTGCCGGATGCGTGCCATCCGGCAACATTTCACGCTT -ACTTCTGCTGTACGCCTTCCACTGAAATAATCAGATCCACTTCCTGAGAAGCTGGACCTAAATCTGTCTT -GATATTGAAGTCCTTGAGCTTAATTTTGCCTTCGGCCTCGAAGCCTGCACGTTTACCACCCCATGGGTCG -TCGCCCTGACCAATTAATTTCGCTTCCAGCGTGACGGGTTTGGTTACGCCATTCAGCGTCAGATCGCCGG -TAATATCCAGTTCGTCACCGTCTTTCTTCACGCTGGTGGAGGTGAATGTTGCCTGTGGATATTTTGCGGT -ATTGAGGAAATCTGCACTGCGAAGATGTTTATCGCGTTCGGCGTGATTAGTATCGACGCTGGTGGTGTTA -ATTGTCACATTCACTTTATCGGCAGCCGGATTTTTTTCGTCAAAGGTAAAAGTACCGTCGAAATCTTTAA -AGGTGCCGTATAACCAGCTATAGCCAAGGTGCTGGATGCGGAAATTAACAAAGGCGTGCTGACCTTCTTT -GTCAATTTTGTAATCGGCGGCAACCGCTGAACCGGCAGAGAACATCAGGGACGCGAAGGTTAAACCAAGC -AGGCTTTTTTTCATTTTTTATACTCCATAGTCAGATGACGACTTTCCCAGCATGCGCTTCAGAGTGTCGT -CTTTATCGATGAAATGATGCTTCAGGGCCATAAATCCGTGCATAACGGACAGTACTACGACGCTCCACGC -GAGCCAAAAATGCAGGGCACCGGCAAAGTCTGCCTGTGCGCCAGCGTCGGCAAGGGTCGCGGGGACGTCA -AACCAGCCAAAAACGCTGATCGGTTTACCATCGGCAGTTGAGATCAGATAGCCGCTGATGCCGATGGCGA -AAAGCAATAGGTACAATGCGAGATGTCCAGCTCTTGCGGCAAGACGAGTCATGGGCGAATAACTCGGCAG -CGGACCCGGCGGTGGAGATATGACACGCCACAGAACGCGAATAACCAGCCCCATCATTAACAAAATACCG -ATGCTTTTATGCAGTTCGGGTGCTTTGTGATACCAGCCATCGTAATAACTGAGCGTGACCATCCACAGAC -CTAAAGCAAACATGCCGTAGACAATAATTGCGCTTAGCCAATGGAAGGCCGCAGATATAACACCATAGCG -TTCAGGGGTATTTGTGAATGACATAAGTGCATCCAAAACGAATTTGCGAGAGAAAGAAAATGGCGTGTCG -GAGAATGAATTGCAACACAAAAATAACAAATTGAATGATATTTATTTTTATTTCAATAATTTTGAATTAA -TAATGAAAGAATCTTCATAAGTTTAGTGGGTTCAGCATCAGAGATGTCTGGTGAGTGCTGTAGAAGCAGG -AATAATCTCATTCAATTTTTCACGCTAAATGAAAGGGAGATTAAATATTTGTCAGTTTATGTCAGTGCGG -AAAACTAAAAATAAAACACATAGATCAGATCCATAATTGCCAACAATCCCCAGAGAAAAAGATAAAGCAT -CAGATGCTCGCGAATATTATTGATGAGATAGTGCAACAGCCGACGCATTAAATACTCCTGTAAAAACGGC -CTCATTCTGGAGGCCGTAATGATGATTATTGGAAGCGGGAAAGCCTGAATGGCGTCAAATCAAAATCGCT -TTTTTTGTCTTGCGCAAAATCGGCAGCTATTTCCCCTAAAACTGACGCAAATTTAAAACCGTGCCCACTC -AGGCCGGTAATGAGCAGTGTATTATCGTGGCCGGGTAGGGTATCGATAATAAAATCTTCGTCAGGCGAAT -TATCATAGGTGCAGGCAGCGCCGTACAGGCAGCAACCGATACCCGGCAATACATTGCGCAAGAACGGGAA -GGCTTCTGACCCATCACTGGCCACTTCCGCAAACGGAACACGTTCATCCGCTGAATGGATAACCTGGCCT -CCGTTATGTTTGCCAATCTTCAACGCGTCGTTTTCTGCCGGAAAACCATAATATTGATCGCCATTGGGCA -GTTCACCGGTAAACGCCGGGAATTTATTCTTCACGCTATAGCGGCCATCGGCCTGATACCAGGCAAATAC -TTTGCGTACGGGCTGGACAGGCAGCTCCGGGAGCAGGTCTTTTACCCATGTTCCCGCGCAGACAATCGCT -TTTTTCGCCTGATACTCACCGTCAGCCGTTTCAATAGTTACGCCATCATCGTCATGACGAATTGCGGTGA -CCGGGCAGTTGAACAGTTGCGCACAGCCCGCTTCCTTCGCCAGTTGGATCCAGGTTTTAATCGCCAGTTC -GCTGCGCAAAAAACCGGAATCAGTTTCAAATAAGCCGATGTAGTTGTCCGGGACGCGTATTTCCGGCCAG -CGGGCCATAATCCCTTGCGCATCGAGCTTTTCAACGTTGAGTTGCCATTGTTCGGCGCTGTGGGCGACGT -TGGCGAGAAATGTGGAATCAGCCGGGCCAAGGTTAATGACGCCAGAGCGTACAAAAATGGGATCTTCTTC -GTTGTGGCGGGAGAGTTCATCCCACAGCGTTTGCGCGCGGAGGACCAGCGGGACATACTTTTCGCCTTCA -CCATAAGCATGGCGAATTAATCGCGTATCGCCGTGGTGGCTGCCGTGTTGATGCGGTGGCATATGGGCGT -CGGTCATTAGCACGTTTAAACCGGCGCGGGTTGCATAATACCCGGCGGCAGCGCCTACGGAACCGCTGCC -AATAATGATGAGATCGTATTTCATTTTTTTCTCTCTGCTCTCATGGTTTAAGCAGAGTAATTAACTGAAT -GCAGATATACAACCCAGAAATGGTAAAGGCACCGGTGAGGTGCCTTTTGGGTGGATGGTCATGTCATGTT -AATGACGCCGATACTCGTTTACCTGGAAATCACCGGATTCAATTTTGGCGATTCCTGCTTCTAATATCGA -AATAAATTGTCTGGCAACATCAGTGGTTAACCAGAGCGTCTGACCAACTTCAGTCCCTTCCTGCTCGGAC -TTATTTGGGGTCTGGTAGTGCAAACGCAACATCAGCGCATCATAGCTATCAACGGTGCTGATGTCCCACC -CTACGAGCGGATGAGTCTGAATGACTTCATTATTTTTTTCCATCATGGCCCCCTAATTCGTGTTACTAGA -CAACGTTATTCGAGGTTCAATGCGTTTTTATCTGAAGCAACTTCAGTATACCAATAAGTAAGGGTATTCA -CCGAATTTTTAAAGGGGGAAACAGATAAATTTCTGCTTTTAAGATTTATATGAACAATAAAACAGCATGT -CATTCATATTTTTTTAGCATATTGTGCAATTATTTTGAGGAAGTGTAGAAATTTTGTACTCAAAATTCGT -AAGTAAAATAAAAAAGCCGGGGCGACCCGGCAAAAAAAATCACTGCATATTATTCGCTGACAAACCAGTC -ATCGGCGCTTTCCCACGTTTCCTGGAGAATTTCACTAATGCGCTGTTTATCTTCTTTTGTCGCGCCAATA -ACCGATAAATTATTCGCTGCGGCATAACGTACCGATACGTGGCCTTCATTATCAGGAAACGCATACTGAA -TACGGCGGGAAAGTTCGCCAGCCAGGGCGTCAATAGCCCCAGCTGGCAATGGAGAAGTTTTCGCTATGGT -GACTTCAATTCGCATAATAGCCCCCTGTTGAATATACTGGTTATTTATACAGGTAAAATAACCTAATGAC -AACAGGAAGCTACGATTTTTATTGTTTAACGGACCAGCGTACCGTTTCCCCGGCGAGGAATGGCACCAGC -GTGTCATCAGTCAGTGCGATGCTTTCAGCAACCTGTTGCTCTTCACGTACCAGTTCGATGAATGTGTCGT -TGACCGGCAACCCATAGAACTGCGGGCCGTTTACAGAACAGAATGCTTCAAAGTGCTGCAAAGCATTCAT -TTCTTCAAAGACGGTAGCGTAACTGCCCAGCGCGGTTGGGGCGTTGAAGCAGCCCGCGCAGCCGCAACTG -CTCTCTTTGCGATGACGTGCATGTGGCGCAGAATCCGTACCGAGGAATACTCGATTAAAACCGCTGGCGA -CCAGTTCACGCAATGCCTGTTGGTGAATATTACGTTTGAGGATGGGTAGACAATACAGGTGCGGACGCAC -GCCTCCAACCAGCATATGGTTGCGGTTAAACATCAGATGCTGCGGAGTGATGGTGGCAGCCAGCCGTTCA -TTTCCGTCACGGACATAGTCGGCAGCATCTTTGGTGGTGATGTGCTCAAAAACGACTTTCAGCGCAGTCA -GGCGCTGGCGCAGAGGTTCCATCACGCTTTCTATAAAGCGCGCTTCACGATCAAAAATGTCGATATCTGC -ATGTGTCACTTCACCATGCACCAGTAGCGGCATACCGATTTTTTCCATGCGCTCAAGTACCGGCATGATT -GCGTCAATTGACGTCACGCCGTGGCTGGAGTTAGTGGTTGCGTTTGCCGGGTAAAGTTTTGCAGCGGTGA -ACACGCCTTCGTTAAATCCGCGCTCCAGCTCATTAGGATCCAGCGAATCTGTTAAATAACAGGTCATCAA -TGGGGTGAAATCGTGCCCGGCAGGTACGGCGTCAAGAATACGCTGGCGATACGCCACGGCAGCCTCAACG -GTGGTCACGGGCGGAGCCAGATTGGGCATTACGATAGCCCGTCCATAAATTTCGCTGGTATATGGCACGA -CAGTTTTTAACATGTCGCCATCGCGGAGGTGAAGGTGCCAGTCGTCTGGGCGGCGGATCTTTAATACCTG -GGATGGTGCAGTCATTAATCTCTATGCTCCGGCTGAAGGGATGTTTTTGCCGGACACAAAGGATAAGCGG -AAACGTTTTCCTTTGCACGAAAAATAAAGGGCGCGAATGCGCCCTCGTGATTAATCAGTAAATGGAATGA -CAATTTCGCCTGGCTTCACTTCAATGCCTTTCGCCAGTTTTTTCGCCATTGCTTCGCCCTGGCTGCCATC -TTCGCGCAGGACGTAAGCAGGTTGCTGGTTAAAGTAATTGCGTAATGCCTGGTTCAAATAGGGAAGCAAC -GTTTGCATCACCGTTTGCATTTTTTCCGGTTGTACCGTCGCATCGACCACTTCCATCTCTTTCAGGAAGA -TCGCACCTTTTTCTTTATCAAACACGGGCAGCGCTTTCAGCTTCAGTTTCATGGTCGCTTTCTGACTACC -GAACAGGGAGTTCATGTCCAGATTGGCGTCTCCGGTTAGGGTAACCTTATTCGGCTCTTCGCGACCAATT -TGGCTGGTCAGGTTTGTCAGAACAATATGGGCGTCAGCCACGCCGGGTAAACCGATATCTTTTGAGAAAT -TATTATGTTTCGCAAGCGACTGGTTAATTTCTTGTTCGGTGATGGTGTATTGGGTGAGTTGATTACAGCC -AACGAGCAGGCCACTGACGATCAATGCAGCGGCAAATAAAAACTTGTTCATGGTAGTCCTCGACATGAAA -TCTGCGTCAATATCCTGACACAACGCAGCATGTGTCACCAGCGATAAACTCGCCAGCAGAAAAAACTGAA -AACGGCGGCAACCCGCGAATACAGGCTGCCGCGGCGGGTCAGGATTAAATCGCCATTGATGATAACAAAT -TGATTTGTGTCTGTTTCGCCATATTATCGCGGTAATCAGCAACGCGGCTTGGCCAGTTAATTCCGGCTAC -CAGCGTCAGATTACGCAGTAGCGGGAATAGCTGAATATCATCTTCCGAAAGTTTGCCATTCACGGCGTTC -GGTTTGACGATCAGTTTGTCCAGCGCACGTAAATCATCGCTGATATTCTTAATCAGACCGTCAGAGTGGG -CCAGCAGGTCGGCAAAATTACCCGCGCTGGCCTCTTTCTTGTCGACGAAATATTTGCGCGCGGCGGGAGT -AGAAAACTCATCAAATGCCGATTTGGCAAAACGCGGCAACAGCAGTTTGTTGGCGTAGCCATTGACCTTG -CGCAGCCACTCTTCAATGGCAGGGGAACGTTTGCCGGTCAGTAACGGTTTGCCGTCGAGTTTATCGACAT -AGTGAACGATGTCCATGCTTTCTGGCATATAGCGGCTGTCATCTTTTTGCAGAATGGGAACCTGTTTTTG -ACCGACCATCCGGGTGGGTGTTTCTGCGTCGTCGTTGAGCAGAACATGTAATTCGACGGGGATATTTTTC -AGGCCGAAAATCATGCGGGCTTTGAGGCAGTAAGGGCAGTGATCGTAAATGTATAGCTTCACGTGACTCC -TCCATTTGGCTGTCAGTTCACTTTCAGTATGAAGGAGTCAGGGGGGAGTATCAAATCAGGCGTCGCGTTC -AAGCAAACGACGCGCGGCGCGTTTCTGGCTAAACTGCCAACCCAGCGCAAGGAAAGTGAAGATGCCAATA -ATGCCCAGCATCATCCACGGAAGCTCTGGCTGGTGCGCCGATTTGCCCAGGTCAAACAGCCAGCCGCCAC -CGATATAACCAATAGCGCCGCCAATCGCCAGACCCAGACGGCTAAACCCCATATAGCTGCCGCGAGCTCT -TGCGTCCGCCAGCGAAGCACTTAAGGTTTCACGCGCAGGCTCGGCAATGATCGACCCGATATAAAACAGA -CAAATCAGGGTGAAAAGTTGTTGCAGGCCGCTGACCATGCCCACCGGCATCATGCTTAATGACATTATCA -ACAGCCCAGCCATCAACCGGTGTTCCAGACGAAAATGCTTTTCACTCCAGCGGGCGATAGGGTAGAGCAA -CGTTAACGACAGACACGCTTCAATGGCATACATCCATTTAACGGCAGAGGGCGCGCCAGCCACGTCGTTG -ACCATAATTGGCAGCATCAGCATCACTTGTACAGCCAGCATGTAGTAACCCGCCAGCGTCAGAACATAGG -TGACAAAACGCTTGTCACGCATCACGCGGGTCATGCCTTCGCGAACGGGCGTGCGTACGGTGGAGAGTTT -CCATGCTGGTAACAACCACGCATTGAACGCCGCACATAGCACAAATAGAACTGCCCCTGTGGCGCAGACC -AGGCGAAAGTCGTATTGCAACAGCCAGCTCCCCAACAATGCGCCAATGACCGCACCGGCACTGTCCTGCA -TCATCAACAGCGAGAAAAAACGACCACGCTGCTGTGGACGGATTAATTTCACCACCAGCGCCGAACGCGG -CGGATCAAACAACGTGCCACCGAGTCCCGAGAGCAGGCATGAAAACCACAATAGCCACGGTTCGTGGGCG -ATACCCATTGTGGCGAATCCGGCGGCGCGCATCAGCATACCGGTAACAATCATCGGTTTGGCACCAAAGC -GGTCGGCAATTGCACCGCCGAAAATACCCAGACCTTGCTGAATAAATTGGCGTAGACCGAGAGCAATACC -GACCATGACGGCGGCCCAGCCCATTTGATCAACGAAGCGGATAGAGATCAGCGGGAAGACAACAAAGAAC -CCCAGCACGACCAGCATATTATCGATGAGCAGGAAATATTTACCCAGGTTCCTCGCCTGCGACACGCGGG -ACATTTCCCCTCCCGGGAAATAAAAGATGAGCACTTTCTATTCTGCATTGCCGCTAAGACTTTTCCCATC -ACTTCGGGGACAATATTTTTTTATCAAAACGTCGCTTTGATAGAGAGTTTTTATCAAATATGTGAATAAT -GCAGAAAATGGCATTTTGGACTTTTCACAGGGTCTGGTTGCGCAGGTATAGTAATACTTACAGCGTATTA -AAGACGTTACGGGAAGGAGTAGGTATAGAATGTTTGGCTATCGCAGTAACGTGCCAAAAGTGCGCTTAAC -CACAGACCGACTGGTCGTGCGTCTGGTGCATGATCGTGATGCCTGGCGTCTTGCGGATTATTACGCAGAG -AATCGCCATTTCCTCAAGCCCTGGGAGCCAGTGCGCGACGAAAGCCACTGTTATCCATCAGGCTGGCAGG -CCAGGCTGGGGATGATTAACGAATTTCATAAACAAGGTTCAGCTTTCTACTTTGGCTTATTCGACCCGGA -CGAAAAAGAGATTATTGGCGTTGCCAATTTTTCCAATGTTGTTCGTGGCTCTTTTCATGCCTGCTATCTC -GGTTATTCGATTGGGCAAAAATGGCAGGGCAAAGGACTCATGTTTGAAGCCCTGACCGCAGCCATTCGTT -ATATGCAGCGCACCCAACATATTCATCGCATTATGGCTAATTATATGCCGCACAATAAACGCAGCGGTGA -TTTACTGGCGCGACTGGGTTTTGAAAAAGAAGGCTATGCGAAAGACTATCTGTTGATTGATGGACAATGG -CGCGATCACGTACTGACGGCATTAACTACCCCAGACTGGACGCCCGGCCGCTAAGGAGAATCTCATGAAA -TATCAACTTACTGCCCTTGAAGCTCGCGTGATTGGTTGCTTGCTGGAAAAGCAGGTGACCACGCCGGAGC -AATACCCGCTCTCAGTCAATGGTGTAGTCACGGCCTGTAATCAGAAAACGAACCGTGAACCGGTCATGAA -TCTGAGTGAATCCGAAGTGCAGGAACAGCTGGATAATCTGGTCAAACGTCATTATCTACGCACAGTGAGC -GGTTTTGGTAATCGGGTCACCAAATATGAGCAACGTTTTTGTAATTCAGAATTTGGCGATCTGAAACTGA -GCGCAGCGGAAGTGGCGTTAATCACCACGTTGTTATTGCGTGGTGCCCAGACGCCAGGTGAACTGCGCAG -CCGCGCCGCGCGAATGTATGAATTCAGCGATATGGCGGAAGTGGAGTCGACGCTGGAACAACTGGCAAAT -CGCGAAGATGGTCCTTTTGTGGTGCGTCTGGCCCGCGAACCGGGTAAACGCGAAAACCGCTACATGCATC -TTTTCAGTGGTGAGGTTGAAGATCAGCCGGCGGTGACGGATATGTCGAACGCGGTTGACGGTGATTTACA -GGCCCGCGTCGAAGCCCTGGAAATCGAAGTGGCAGAACTGAAACAGCGTCTTGATTCGTTGCTGGCCCAT -CTGGGAGATTAAAGTGAAAAAATTACGTATCGGCGTAGTGGGATTAGGTGGCATTGCGCAAAAAGCGTGG -TTACCGGTGCTGGCGGCAGCGTCTGACTGGACGTTACAAGGAGCCTGGTCGCCTACGCGCGCGAAAGCCC -TGCCAATTTGTGAAAGCTGGCGCATTCCTTATGCCGATTCGTTATCCAGCCTTGCCGCCAGTTGCGATGC -GGTTTTTGTGCATTCCAGCACCGCCAGCCACTTTGACGTGGTCAGTACGTTACTCAATGCGGGGGTACAT -GTCTGTGTCGATAAACCGCTGGCAGAAAATCTGCGCGATGCTGAACGGCTGGTGGAACTGGCGGCGCGGA -AAAAACTGACGTTGATGGTCGGTTTTAACCGTCGTTTCGCACCACTCTACGGTGAGTTAAAAACGCAACT -CGCCACCGCAGCCTCGCTAAGAATGGATAAACATCGTAGCAATAGCGTCGGGCCACACGATCTTTATTTC -ACGTTGCTGGATGATTATCTGCATGTGGTGGATACCGCGCTGTGGTTGTCGGGCGGCAAAGCCTCTCTGG -ATGGCGGTACGCTACTGACTAACGACGCTGGCGAAATGCTGTTTGCCGAGCACCATTTTTCGGCTGGTCC -TTTGCAGATCACCACCTGTATGCATCGCCGTGCCGGAAGTCAGCGTGAAACCGTGCAGGCCGTGACTGAC -GGTGCGCTCATCGACATTACGGATATGCGCGAATGGCGTGAGGAGCGCGGGCAGGGCGTAGTGCATAAAC -CGATTCCTGGTTGGCAGAGTACGCTTGAGCAACGTGGGTTTGTCGGCTGTGCGCGGCACTTCATTGAATG -TGTGCAAAACCAGACAGTTCCGCAAACCGCCGGCGAACAGGCCGTGCTGGCGCAACGTATCGTTGACAAG -ATCTGGCGCGATGCGATGAGTGAATAAACCCTGTAACATCTGGCGGTAGCAATTCACCATAATCCAGGTA -GACTATTCGCCTCTTTCAGCGCCTGCCTTGCAGGCGTTTTGCCCGTGGGTCTGGATTAGAACACCGATGA -ATTTATTAAAATCGCTGGCCGCCGTCAGCTCGATGACCATGTTTTCGCGTGTGCTTGGCTTCGCACGAGA -CGCAATTGTCGCCAGAATCTTTGGCGCAGGGATGGCAACCGACGCCTTTTTCGTCGCTTTTAAACTTCCT -AACTTGTTACGCCGTATCTTTGCCGAAGGGGCATTTTCCCAGGCATTTGTACCGATTCTGGCGGAATATA -AAAGTAAGCAGGGTGAAGACGCCACGCGGGTCTTTGTCTCTTATGTTTCTGGCCTGCTGACACTTGCGCT -GGCGGTTGTGACGGTCGCTGGCATGCTCGCCGCACCGTGGGTGATCATGGTGACCGCGCCAGGCTTCGCT -GACACAGCTGACAAATTTGCCCTGACCAGCCAGCTACTAAAGATTACCTTTCCCTATATCTTGCTGATCT -CCCTGGCGTCGCTGGTGGGAGCGATTCTGAATACGTGGAACCGCTTCTCGATTCCGGCGTTTGCTCCAAC -ACTGCTTAACATCAGCATGATTGGTTTCGCGCTGTTTGCCGCACCGTACTTTAACCCACCGGTGCTGGCG -CTGGCGTGGGCTGTTACGGTCGGCGGCGTCCTGCAGCTGGTGTATCAGCTACCGCACCTGAAGAAGATCG -GCATGCTGGTCCTGCCGCGCATTAACTTCCACGATGCCGGAGCAATGCGCGTGGTGAAACAGATGGGACC -GGCGATCCTTGGCGTCTCTGTGAGCCAGATCTCCTTAATCATCAACACCATTTTTGCCTCGTTTCTTGCT -TCCGGTTCGGTGTCTTGGATGTATTACGCCGACCGCTTAATGGAGTTTCCGTCCGGTGTGCTGGGCGTGG -CGCTTGGCACCATTTTGCTGCCGTCGCTGTCGAAAAGTTTTGCCAGTGGCAATCATGATGAATACAACCG -TTTGATGGACTGGGGGTTGCGTCTTTGTTTCCTGTTGGCGCTGCCGAGTGCGGTTGCGTTGGGCATTCTT -TCCGGTCCGTTGACCGTTTCGCTGTTCCAGTACGGTAAATTTACCGCGTTTGATGCGCTGATGACCCAGC -GGGCGTTAATTGCCTACTCGGTGGGTTTGATTGGCCTGATTGTAGTGAAAGTGTTGGCTCCTGGCTTTTA -TTCCCGCCAGGACATTAAAACGCCAGTGAAAATTGCCATCGTTACGCTGATTTTAACGCAATTGATGAAC -CTGGCGTTTATTGGTCCGTTGAAACATGCCGGGCTGTCACTTTCTATTGGTCTGGCGGCGTGTCTGAATG -CTTCGCTGCTTTACTGGCAGTTGCGTAAGCAGAAAATCTTTACCCCGCAACCCGGCTGGATGGCGTTTCT -GTTGCGTCTGGTGGTGGCGGTACTGGTGATGTCTGGCGTGCTTTTAGGTATGTTACATATCATGCCGGAG -TGGTCATTGGGTACCATGCCCTGGCGTTTACTGCGTTTAATGGCGGTCGTGCTGGCGGGGATTGCCGCGT -ACTTCGCTGCACTGGCGGTACTGGGCTTCAAAGTTAAAGAATTTGCCCGCCGGACGGTGTAACAATGCAT -TCCGGCCTGCAGTGCAGGCCGGAGATAATCTTCAGATCGAAATCTTTTTACCGCCGCGATGGGTTGTTGA -GGTCTGACCGTTCGCCCCATATAGCGTCGGTTCCTGATGCGGTTTCAACATTTCCAGCGCCTGTTGATTG -CGCTCAATCTGTCCTTCCAGTAACCAGCCGTTATGTTGATTCATTTGGCGTAGTTGCTGCGTTTTCACAG -TAATTTCCTGCCAGCGTTGACTAATATCAACGCTATTTGCTGTATTGGGTTCTTTCCTGCGTAACTGTTC -GAGGTAATCCAGCGTCGCCAGCAGTGAGCTTTTTTGTTCTGTAATCCATTGCAACTGGCTGCCGTTGATC -TGCCCCATAGAGAGATGTTGCTGCTCTTGATCCATTACCGTTTTGAGATCGTTAAGCACAGCGGACATCT -GGTCGAGGATCTCTGCAAGACGTGTCATACGATCAGTTACTCTGCAAGTCTTGCTGCGCTTCGTTGATCA -GCGCATCGGCAATTTTGCCGGTGTCCATTTTTAGTTCACCGTTACGAATCGCCAGTTTTAACGCTTCGAC -ACGTTCAAGATTGATATCACTGCTGCCGGGTTGCATCAGTTTTGCTTGCGCGTCGCTTAACGTCACACTG -GTGCTGGTGGAGGCGGTTGTTTTTGCCGCCCGGCTGTTCGTTACCGGCGCGTCAGTGGTTTCGCGCGGTT -GAACGGTGCTTACAGGCTTCAGAGGCGAAGTGCGATCAATACTCATGGTTTATTCCTCATTGAGGGCGCT -TTTATCATGTGTTGCTTATTTATCGGCAAGGGACGGGTAATCTTTAACAGCTTACAGGTTTATAAGAATA -TTCCCATCTGCATCAACAACGCCGCTGACTACCTGTCCCGATACCATGCGCACCCGCGCATTCTGTGCGA -CGGCTGCATTGTTCAGCGCCTGACCTTCTGCGTTGGCGCTAAACCCATCACCGCTGGCGATCACATTGAC -GCGTTGTCCCGCTTTTACCCGCCATGCCTGGCGAAACTGGGTTAACTGGATAGGTTGATCGGGTGATAGA -TCGCGCAGGCTAATGGCATCAACAAGTTGATTGATATCCAGCACCGTACGCGGTGGCAGGGTATCCAGCC -GTCCGCGTTTCAGTTTGACATTGCCAGCTTCCAGCTTTCCTCCCCGCGCAATGGGCATCGCGGCAACCAC -ATAATTTCCTGTGGCCTGTACATTAACCTGTAAATATCGTTTGTCGTTACCGCAGCGTGCCAACACATTC -ACATTGCCCCACAGGCGGGAATTATTGCTCATCGAAAGCAATGGCTGCTCGCATGGCGGTAGTAGATTGG -GCGCTGTACGAATAGAAACACGAACCTCATCACTTACCCCCGCGAGTTGGGCGCTAAAAAAGTTGTGCAA -TTGCGATGTGAGATTGCTCGCCGTACTTAACGGACTGAACAGTATCGCGATGATCGCCACGCTACGTTTT -ATTATCAGCATTTTCGCCCCCAGCCATTTCTACAACGTGAATTGTACCTGTCCGCAATGACCATCAACGG -CATAAATAGCGACCCATTTTGCGTTTATTCCGCCGATAACGCGCGCGTAAAGGCATTTAAGCTGATGGCA -GAATTTTGATACCTGCGGAGGAGATATGCTCGATAAGCTCGACGCCGCCTTACGTTTTCAACAAGAGGCG -CTCAATCTGCGCGCCCAGCGTCAGGAAGTGCTGGCAGCAAACATCGCCAATGCCGATACCCCTGGTTATC -AGGCGCGCGATATCGATTTTGCCAGTGAACTTAAAAAAGTCATGCAACGTGGACGGGATGCAACCAGTGT -GGTTGCACTGACGATGACCTCAACGCAACACATTCCGGCGCAGGCGCTGACGCCTCCTACCGCAGAACTG -CAATACCGTATTCCGGACCAGCCTTCGCTTGACGGTAATACCGTCGATATGGATCGCGAACGCACCCAGT -TTGCCGATAACAGCCTGCAATACCAGATGAGCCTTAGCGCGTTGAGCGGGCAAATCAAAGGCATGATGAA -CGTTTTACAGAGCGGAAATTAACGGATGGCACTGCTGAATATTTTTGATATCGCCGGGTCGGCGTTAACT -GCCCAGTCCCAGCGCCTGAACGTGGCGGCCAGTAATCTGGCGAATGCTGATAGCGTGACCGGTCCCGATG -GACAGCCATATCGGGCAAAACAGGTGGTATTCCAGGTTAACGCTGCACCAGGTGCTGCGACAGGCGGCGT -AAAGGTTGCCGATGTTATAGAAAGTCAGGCCCCGGACAAACTGGTTTATGAACCGGGTAATCCGCTGGCA -GATGCAAAGGGCTACGTAAAAATGCCGAACGTTGATGTTGTCGGAGAGATGGTTAACACCATGTCGGCGT -CACGCAGCTATCAGGCCAATGTTGAAGTGCTCAACACGGTGAAAAGCATGATGCTGAAAACCCTTACGCT -CGGTCAATAAAGGAGAAAGCTATGTCCATTGCGGTAACCACCACCGATCCGACAAATACCGGCGTCAGTA -CCACCAGCAGTAGTTCGCTCACGGGCAGCAACGCCGCAGATTTACAAAGCAGTTTTCTGACTTTGCTGGT -GGCGCAGCTGAAAAACCAGGACCCGACCAATCCAATGGAAAACAACGAGCTGACGTCGCAATTGGCACAA -ATCAGCACGGTCAGCGGGATTGAAAAACTCAATACCACGCTCGGATCTATTTCCGGACAGATTGATAACA -GCCAGTCGTTACAGGCCAGTAACCTGATCGGTCACGGCGTGATGATCCCCGGCACCACTGTTCTTGCGGG -AACCGGCAGTGAAGAAGGGGCTGTGACCACGACCACGCCGTTTGGTGTTGAGCTGCAACAGGCGGCAGAC -AAAGTTACGGCCACCATCACCGATAAAAATGGCGCGGTTGTGCGCACCATTGATATTGGTGAACTGACCG -CCGGAGTTCACAGTTTCACCTGGGACGGTACGTTGACTGATGGCAGCACTGCGCCGAACGGTTCTTACAA -TGTAGCGATTAGCGCCAGTAACGGTGGTACACAACTGGTTGCCCAGCCGCTGCAGTTTGCTCTGGTGCAG -GGTGTGATCCGCGGCAACAGCGGTAATACGCTGGATCTCGGCACTTACGGCACCACCACCCTCGACGAAG -TACGGCAGATAATTTAAGCCTTCACATTTCAGGAGTCAGTCATGGCCTTTTCTCAAGCGGTTAGCGGATT -AAACGCTGCCGCCACCAACCTCGATGTTATTGGCAACAATATCGCCAACTCCGCCACCTACGGCTTTAAA -TCAGGCACGGCCTCTTTTGCCGATATGTTTGCCGGTTCGAAAGTGGGACTGGGGGTAAAAGTTGCCGGTA -TCACTCAGGACTTTACCGATGGCACGACCACCAACACCGGGCGAGGTCTGGACGTTGCTATCAGCCAGAA -CGGTTTTTTCCGTCTGGTAGACAGCAACGGTTCGGTGTTCTACAGCCGTAACGGACAATTTAAGCTGGAT -GAAAACCGTAACCTGGTGAATATGCAAGGTTTACAGCTGACGGGTTACCCGGCAACCGGTACGCCGCCGA -CTATTCAGCAAGGGGCGAATCCGACCAATATTTCGATCCCGAATACCCTGATGGCAGCGAAAACTACCAC -CACGGCATCGATGCAGATCAACCTGAATTCCAGTGATCCGCTTCCTACTGTTACGCCATTCAGCGCCAGC -AATGCGGATAGCTATAACAAAAAAGGTTCGGTGACTGTTTTCGACAGTCAGGGTAATGCTCATGACATGA -GCGTCTACTTTGTGAAGACCGGGGATAATAACTGGCAGGTCTACACCCAGGATAGCAGTGATCCAAACAG -CATTGCGAAGACAGCGACAACACTGGAATTTAATGCTAATGGCACATTAGTGGATGGTGCGATGGCGAAT -AATATCGCAACCGGCGCAATTAACGGTGCAGAACCCGCCACGTTTAGTCTGAGCTTCCTCAACTCCATGC -AGCAAAATACCGGCGCTAACAATATTGTGGCAACCACCCAGAACGGCTACAAACCGGGCGATCTGGTGAG -TTATCAAATCAATGATGACGGTACGGTTGTCGGCAACTATTCCAACGAACAAACCCAACTGCTGGGGCAG -ATTGTACTGGCGAACTTTGCCAACAACGAAGGTCTGGCATCCGAAGGCGACAACGTCTGGTCTGCGACGC -AATCTTCTGGCGTGGCGCTGTTGGGGACAGCCGGGACGGGAAACTTTGGCACCCTGACCAACGGTGCGCT -GGAAGCGTCCAACGTCGATCTCAGTAAAGAACTGGTCAATATGATCGTTGCCCAGCGTAACTATCAGTCT -AACGCCCAGACCATCAAAACCCAGGACCAGATCCTCAACACGCTGGTTAACTTACGCTAATCGCTGACGG -GATAGCTCAATGGATCACGCAATTTATACCGCGATGGGAGCAGCCAGCCAGACACTGAATCAACAGGCGG -TAACCGCCAGTAATCTGGCCAATGCCTCAACGCCCGGTTTTCGCGCGCAGTTGAATGCTTTACGCGCGGT -GCCAGTGGAAGGGCTTTCTCTGCCCACGCGCACGTTGGTCACGGCGTCAACGCCGGGCGCAGATATGACG -CCCGGCAAAATGGATTACACCTCGCGCCCGCTGGACGTCGCGTTGCAGCAGGATGGCTGGCTGGCCGTGC -AGACCGCTGACGGCAGCGAAGGGTATACGCGTAATGGCAGCATTCAGGTTGATCCCACCGGGCAACTGAC -AATTCAGGGGCATCCGGTGATAGGCGAGGCTGGGCCAATTGCTGTGCCGGAAGGGGCGGAAATCACTATT -GCTGCCGATGGCACAATCTCGGCGCTCAATCCGGGCGATCCGGCAAATACGGTTGCGCCAGTAGGGCGTC -TTAAACTGGTGAAAGCCACGGGCAGCGAAGTGCAGCGCGGTGACGACGGCATTTTTCGTTTAAGCGCAGA -AACCCAGGCCACGCGTGGGCCGGTACTGCAGGCAGATCCAACCTTGCGTGTGATGTCGGGGGTTCTGGAA -GGCAGTAACGTCAATGCCGTTGCGGCAATGAGCGACATGATTGCCAGCGCGCGGCGTTTTGAAATGCAGA -TGAAGGTGATCAGCAGCGTCGATGATAACGCAGGCCGTGCCAACCAACTGCTGTCGATGAGTTAATTGAA -AGGATACATGACAAGTATAAGTTGCCCGATGCGCAAGTTTATCGGGTCTATGGGGGCAATCGCAATTTAT -CGATTTTGCGAGCACTTGTAGGCCGGATAAGGCGTTTACGCCGCATCCGGCAAGAAGACATATGCACTTT -GTCACTAATCCACTACAGGACATTTTATGATCAGTTCATTATGGATCGCCAAAACGGGCCTTGACGCCCA -GCAAACCAATATGGACGTCATTGCCAACAACCTGGCAAACGTCAGTACTAACGGTTTTAAGCGTCAGCGC -GCGGTGTTTGAAGATCTGCTTTATCAAACCATTCGCCAGCCGGGGGCACAGTCTTCCGAACAAACCACCT -TACCCTCCGGATTACAAATCGGCACGGGGGTACGCCCGGTCGCCACTGAACGCTTACACAGCCAGGGAAA -CCTGTCGCAGACCAACAACAGCAAAGATGTCGCGATTAAAGGGCAGGGCTTTTTCCAGGTGATGTTGCCA -GATGGTTCATCAGCCTATACCCGTGACGGCTCTTTCCAGGTGGATCAGAACGGGCAGCTGGTGACGGCTG -GTGGTTTTCAGGTGCAGCCAGCGATCACCATTCCGGCGAATGCGTTAAGTATCACCATCGGTCGTGATGG -CGTGGTCAGCGTAACCCAACAAGGCCAGGCAGCTCCGGTTCAGGTTGGGCAGCTCAATCTCACCACCTTT -ATGAATGACACCGGGCTGGAGAGCATTGGCGAAAACCTCTACACCGAAACGCAATCCTCTGGTGCACCGA -ACGAAAGCACGCCGGGCCTGAACGGCGCGGGACTGCTGTATCAAGGGTATGTTGAAACGTCTAACGTCAA -CGTGGCGGAAGAACTGGTCAATATGATTCAGGTGCAACGCGCTTACGAAATCAACAGTAAAGCGGTGTCC -ACCACCGATCAGATGCTGCAAAAACTGACGCAACTCTAAGGCTTAACCGGTGGCAGGTTCACCGGTTTAC -TGATTTTTGAAGATGATAGCCATGCAAAAAAACGCTGCGCATACTTATGCCATTTCCAGCTTGTTGGTGC -TTTCACTAACCGGCTGCGCCTGGATACCCTCCACGCCGCTGGTGCAGGGGGCGACCAGTGCACAACCGGT -TCCCGGTCCGACGCCCGTCGCCAACGGTTCTATTTTCCAGTCTGCTCAGCCGATTAACTATGGCTATCAA -CCGCTGTTTGAAGATCGTCGACCACGCAATATTGGCGATACGCTGACCATCGTGTTGCAGGAGAACGTCA -GCGCCAGCAAAAGCTCCTCTGCGAATGCCAGCCGTGACGGTAAAACTAATTTTGGCTTTGATACTGTGCC -GCGCTATTTGCAGGGGCTGTTTGGTAACGCTCGTGCCGATGTCGAAGCCTCCGGTGGTAACACGTTCAAC -GGAAAGGGCGGGGCCAATGCCAGCAATACCTTTAGCGGCACGTTGACGGTGACGGTTGACCAGGTACTGG -TCAACGGCAACCTGCATGTGGTGGGTGAAAAACAGATTGCCATTAATCAGGGTACCGAATTTATTCGCTT -CTCTGGCGTGGTTAATCCACGCACTATCAGCGGCAGCAATACCGTACCGTCTACTCAGGTGGCGGATGCG -CGCATTGAATACGTAGGCAATGGCTACATTAACGAAGCGCAAAATATGGGCTGGTTGCAGCGTTTCTTCC -TTAACCTGTCGCCAATGTAAGTGAGGCTGTGGTGATTAAATTTCTCTCTGCATTAATTCTTCTACTGGTC -ACGACGGCGGCTCAGGCTGAGCGTATTCGCGATCTCACCAGTGTTCAGGGGGTAAGGCAAAACTCACTGA -TTGGCTATGGTCTGGTGGTGGGGCTGGATGGCACCGGTGACCAGACAACCCAGACGCCGTTTACCACACA -AACGCTTAATAACATGCTCTCACAGCTGGGAATTACCGTTCCGACGGGCACCAATATGCAGCTAAAAAAC -GTCGCTGCGGTAATGGTGACAGCGTCACTTCCTCCGTTTGGACGTCAGGGGCAAACCATCGATGTGGTGG -TTTCTTCCATGGGAAATGCCAAAAGCTTGCGTGGAGGTACGTTGTTGATGACACCGCTTAAGGGCGTTGA -CAGTCAGGTGTATGCGCTGGCGCAGGGCAATATTCTGGTTGGCGGCGCAGGAGCCTCCGCTGGCGGTAGC -AGTGTTCAGGTTAACCAACTGAACGGTGGACGGATCACCAATGGTGCGGTTATTGAACGTGAATTGCCCA -GCCAGTTTGGCGTCGGGAATACCCTTAATTTGCAACTTAACGACGAAGATTTCAGCATGGCGCAGCAAAT -CGCTGACACCATCAACCGCGTGCGTGGATATGGCAGCGCCACCGCGTTAGATGCGCGGACTATTCAGGTG -CGCGTACCGAGTGGCAACAGTTCCCAGGTCCGCTTCCTTGCCGATATTCAGAATATGCAGGTTAATGTCA -CCCCGCAGGACGCTAAAGTAGTGATTAACTCGCGCACCGGTTCGGTGGTGATGAATCGCGAAGTGACCCT -CGACAGCTGCGCGGTAGCGCAGGGGAATCTCTCAGTAACAGTTAATCGTCAGGCCAATGTCAGCCAGCCA -GATACACCGTTTGGTGGTGGACAGACTGTGGTTACTCCACAAACGCAGATCGATTTACGCCAGAGCGGCG -GTTCGCTGCAAAGCGTACGTTCCAGCGCCAGCCTCAATAACGTGGTGCGCGCGCTCAATGCGCTGGGCGC -TACGCCGATGGATCTGATGTCCATACTGCAATCAATGCAAAGTGCGGGATGTCTGCGGGCAAAACTGGAA -ATCATCTGATGATCAGCGACAGCAAACTACTGGCAAGTGCGGCCTGGGATGCGCAATCACTCAACGAACT -AAAGGCGAAAGCGGGCGAAGATCCGGCGGCAAATATCCGTCCGGTGGCCCGTCAGGTGGAAGGGATGTTC -GTGCAGATGATGTTGAAAAGCATGCGCGACGCTTTACCAAAAGATGGCCTGTTCAGCAGCGAGCACACTC -GCCTGTATACCAGTATGTATGACCAGCAGATTGCCCAACAGATGACGGCGGGCAAAGGTCTGGGGCTTGC -AGAGATGATGGTTAAACAGATGACGCCAGAACAACCATTGCCAGAGGAGTCCACGCCAGCAGCACCGATG -AAATTCCCGCTCGAAACTGTGGTGCGTTATCAAAATCAGGCGCTTTCGCAGCTGGTGCAAAAGGCCGTGC -CACGTAACTACGATGATTCGCTGCCGGGTGACAGTAAAGCATTCCTCGCGCAACTCTCGCTGCCCGCCCA -ACTGGCAAGCCAGCAAAGCGGTGTGCCACATCATTTGATCCTCGCTCAGGCGGCACTGGAATCTGGTTGG -GGGCAACGGCAAATCCGCCGCGAAAACGGCGAGCCGAGCTATAACCTGTTTGGTGTCAAAGCCTCTGGCA -ACTGGAAAGGGCCAGTTACTGAAATCACCACGACTGAATATGAAAACGGCGAAGCGAAGAAAGTAAAAGC -GAAGTTTCGCGTCTACAGCTCGTATCTGGAAGCCTTGTCGGATTACGTTGGGCTGTTAACGCGTAACCCG -CGCTACGCCGCCGTGACGACCGCCGCGAGTGCGGAACAGGGGGCGCAGGCCCTACAGGACGCGGGCTATG -CCACCGATCCTCACTATGCCCGCAAACTCACCAACATGATTCAGCAGATGAAATCGATAAGCGACAAGGT -GAGCAAAACCTACAGTATGAACATTGATAATCTGTTCTGAATAACTCAAGTCCGGCGGGTCGCTGCCGAT -AATACTCTGTAATTGAAGGCTTATAAGGAACCTCCATGTCCAGCTTGATTAATAACGCCATGAGCGGACT -GAACGCGGCCCAGGCGGCGTTAAATACGGCAAGTAATAATATCTCCAGCTATAACGTTGCCGGATATACC -CGCCAAACCACTATTATGGCGCAGGCCAATAGCACGTTGGGCGCTGGCGGCTGGGTTGGCAATGGTGTCT -ACGTTTCTGGTGTGCAGCGTGAGTATGATGCGTTTATTACCAACCAGTTACGTGCGGCGCAGACGCAAAG -TAGCGGTCTGACTGCCCGCTATGAGCAGATGTCGAAAATCGACAATATGCTCTCCACCAGTACCTCTTCG -CTGGCAACACAGATGCAGGATTTCTTCACCAGCCTGCAAACGCTGGTGAGTAACGCGGAAGACCCGGCAG -CGCGCCAGGCGCTGATTGGGAAATCAGAAGGATTGGTGAATCAGTTTAAAACCACCGATCAATATCTGCG -CGACCAGGACAAACAGGTCAATATCGCGATAGGTGCCAGCGTTGATCAGATCAACAACTACGCTAAACAA -ATTGCCAGCCTGAACGATCAAATCTCGCGCCTGACAGGCGTGGGGGCAGGGGCGTCACCTAACAATCTGC -TGGATCAACGCGATCAACTGGTGAGCGAATTAAACCAGATTGTTGGTGTAGAAGTCAGCGTTCAGGATGG -CGGCACTTATAACATCACGATGGCCAATGGTTACTCACTGGTTCAGGGAAGTACGGCGCGGCAACTGGCG -GCAGTTCCTTCCAGCGCTGACCCTTCTCGTACGACTGTCGCTTATGTTGATGGGACGGCAGGCAATATTG -AGATCCCGGAGAAATTACTGAATACCGGGTCGCTGGGCGGCATTCTGACATTCCGTTCTCAGGATCTGGA -CCAGACGCGTAATACGCTTGGACAACTGGCGCTGGCATTTGCCGAGGCTTTCAACACCCAACACAAAGCC -GGATTTGATGCTAACGGCGATGCCGGTGAAGATTTCTTTGCTATCGGTAAGCCCGCGGTTCTGCAAAACA -CGAAAAACAAAGGTGACGTTGCGATCGGTGCCACGGTAACTGATGCCTCCGCGGTACTGGCGACAGATTA -CAAAATCTCGTTCGATAATAATCAGTGGCAGGTCACCCGCCTTGCCAGCAATACCACTTTTACGGTGACG -CCGGATGCCAACGGTAAAGTGGCATTTGATGGTCTGGAGTTGACGTTTACAGGAACGCCTGCCGTTAACG -ACAGCTTCACGCTGAAACCAGTAAGTGACGCCATCGTCAACATGGATGTATTAATCACCGACGAAGCGAA -AATAGCGATGGCGAGCGAAGAAGATGCGGGTGATAGCGATAACCGCAACGGTCAGGCCCTGCTGGATCTG -CAAAGCAACAGTAAAACGGTGGGCGGTGCGAAATCCTTTAACGACGCTTATGCCTCGTTAGTGAGTGATA -TCGGTAATAAAACCGCGACGTTGAAAACCAGTAGCGCCACGCAAGGTAATGTGGTGACGCAGCTTTCCAA -TCAGCAGCAGTCGATTTCCGGTGTCAATCTCGATGAGGAGTACGGAAATCTGCAACGTTTTCAGCAGTAT -TACCTGGCGAATGCGCAGGTTCTGCAGACGGCAAACGCGATTTTTGATGCGCTGATTAACATTCGCTAAG -GGGAGATAAGATGCGTTTCAGTACACAGATGATGTACCAGCAAAACATGCGTGGTATCACCAATTCTCAG -GCAGAATGGATGAAGTACGGCGAACAGATGTCGACGGGTAAGCGAGTCGTTAACCCTTCTGACGATCCCA -TTGCTGCATCACAAGCCGTAGTTCTCTCCCAGGCACAGGCGCAAAACAGCCAGTACACGCTGGCGCGTAC -TTTCGCCACTCAAAAAGTGTCACTGGAAGAGAGTGTACTTAGCCAGGTCACCACTGCTATCCAGAATGCT -CAGGAAAAAATTGTCTACGCCAGCAATGGCACCTTGAGTGACGATGACCGGGCCTCGCTGGCTACGGATA -TTCAGGGGCTTCGTGACCAGTTGCTGAATCTGGCAAACACCACTGACGGTAACGGGCGCTACATTTTTGC -CGGTTATAAAACAGAGACTGCGCCGTTTAGCGAAGAGAAAGGGAAATACGTCGGTGGAGCAGAAAGTATT -AAACAACAGGTCGATGCTTCGCGTTCGATGGTGATAGGGCACACGGGTGACAAAATTTTCGACAGTATTA -CCAGCAACGCGGTAGCGGAACCAGACGGTAGCGCTTCTGAAACCAATCTTTTTGCCATGCTGGATAGTGC -CATCGCAGCCCTGAAAACGCCGGTCGCGGATAGCGAAGCGGATAAAGAAACCGCCGCTGCGGCGTTAGAT -AAAACCAACCGCGGACTGAAAAACTCGCTGAACAATGTGCTGACTGTTCGCGCGGAATTAGGCACGCAGC -TGAACGAACTGGAGTCGCTGGATTCATTAGGTAGCGATCGCGCTTTAGGGCAAACGCAGCAGATGAGCGA -TCTGGTTGATGTGGACTGGAATGCAACTATTTCATCTTACATCATGCAGCAAACGGCATTGCAGGCATCG -TATAAAGCATTTACCGATATGCAGGGATTGTCGCTCTTCCAGCTCAGCAAATAATTTCGCTTTAAAACAT -ATCATGAAACTGGGTATGTTTTGTCTGCCTGCTCTGGGATCGCTGGGGCGGGCATTTTTTTGCCTATTTT -GCATTGTTGGTTAGCAAGGATGCCATTCGATGAATTTTAATATGTTGATTCAAAGATGAAATAAAAAAGC -CCTGGCAGTTACCAGGGCTTGATTACTTTGAGCTAATTATTACTCAACAGGTTGCGGACGCGCAGGAGCG -GCAGAGGCATGATGTGTTGCCGTATGACCACCTGCGGCACCTTTACCTTCGAAGGCAAAAGTAGGGCGCT -GCCAGTCACTGTGACGCGGTGCCTCCGGAACATATTCCGGTGCTGGAGCGCGCGTCATTGGCGCGGTAGC -GTGGTTATGCTCAACGGTGACCTCAGGTTCGACCGCAGCTACCGTTTCAACTTCTGCTGCGACTTCAGCG -ACTACTGGCGCGGCAGGTTGAGCAACAACTTCAGGTTCAGCAACTACAACCTCAGCAGTTTCGACAACTT -CTTCAATATCTGCCGTCTCTTCCTGCGGTTCAACCACCGGTTCTGCTTGTTCTGCAACTTCCTGGGCTAC -GGCAACATCAGACTCGGTAATCACCTGCGGCTGTTCAGTTACCGCGGCAGCGATCACTTCAGGATGCGTC -GTTTCAACCACTTCCGGTTGCGGTTCGGCAACCTGAACGGGGGCTTCTACGACACCGGCCACTTCTTCAA -CAACTGGCGCGCTAACAACCGGTTCGATAGCGGCGGCGACAGGGACCTCAGTCACCATCGGCTGCACATG -TACTTCTTCCTGTTCGCGCTGCTCTTCAACCTGTACATCTTGCGGACGTACAATTGGATAGCGGATCCAG -ACTTTGCCAGAGGCCAGTTCCGGAGACGCGCACGCTACGGTCAACGGCATTGGCGACTGGGTTGGATAAC -GCTCGTCACGATAGCGACGACGACGCTGACCACTTACGCGCAGGTGACGAGGCGAGCGGCGAGAACGACG -CGGCATGCCACCGTTGTCACGGTTATCAGCATTGTTCTCTTCTTGCTGTTCTGGTGCAGTTTGCGCTACG -ACTGGCAGCGGGACTTTCACCAGTTCTGTGCGTGGAGCTGGCGCTTCCTGAACAATTGGTTCGGCAGCGA -CAGTTTCTTCAACCACCGGTGCGACTACCGCTTCTTCGGCTACGCTTTGCTCGTAACGCACTTTCTGATT -GAGCTGACGCTGTTTACGACGCGGCTGAACCGGACGTACACGTTCTTCCTGTTCGGTTTCCTGAACAGAT -TGCTCTTCAACATTCAGCGCCTTCGCTTCTTGTTGCGCCTGACGTTTATCATCATTACGGCGGCGGCTAC -GTTCACGACGCGGCGCTTGCTGCTCGTCGGCGGTACGCGCTTTTTCCGTTACCTCAGCCTGCTGACGGCT -CTCACGCGTCTCGGCAGTCTGCTGCTGTGCCTGGCGACGATTACGACGGTTTTCTTCGCGATTATCGCTG -CCTTCAGTACGTTCACTACGGGTGTCGCGGCGCTCATTACGGTCACGGCGGTTGTTCTGACGAGGCTTGC -GACGATCCTGTTGACGTTCCGGTTTCGCTTCTGCTTTCGGTGCTGGTTGCTCGGTCGGTTTGGTTTCTTC -ACCACCGCTGAACAGCGCTTTCAGTGCGCCGAAGAAGCGGCTCAACAGCCCAGGTTGTGCAGGAGCTGCT -GGTGTTGCCGGTGCAGCTTTCGGTGCTGGAGCTACAACAGGCGCGGCAGGTTCAGCTGGCGTTGGCGCAG -GCGGCACATCCGGCATGGCAAAGGTTGCCAGCGCAGGTTGTTCCGGACGCTTACGTTCAGCGAACTCTTC -TTCAGACGGCAGCGCCATCGCTTCTTCATGCAGCTTCGGCAGCATGTAGCTTAAGGTTGGGGTTTCTTCC -CCTTTACGCACGCGCAGCACGTGGTAGTGCGGGGTTTCCATCTGATCGTTTGGCACAATTACACAGCGCA -CACCGTCCTGACGAGTTTCAATGGCATTTACCGCAGAACGTTTTTCATTCAGCAGGTAAGAAGCGATTGG -CACAGGAACAATGGCGTGAACTTCCTGGGTGTTCTCTTTCAGCGCTTCTTCTTCGATCAGACGCAGAATA -GAGAGCGACAGCGATTCGTTGTCACGCACGGTGCCAGTACCAGAACAACGCGGACAAACGTGATGACTGG -ATTCACCCAGTGATGGGCTCAGGCGCTGACGGGACATTTCCAGCAGGCCAAAGCGAGAAATATGGCTGAT -TTGAATACGCGCACGGTCCTGACGCACCGCTTCACGCAGACGGTTTTCTACCGCACGCTGGTGGCGTACT -GGCGTCATGTCGATGAAGTCGATAACAATCAGGCCGCCGAGGTCACGCAGGCGCAGCTGACGAGCAATCT -CATCGGCAGCTTCGAGGTTAGTGTTAAACGCGGTTTCTTCGATATCGCCGCCGCGGGTCGCGCGTGCGGA -GTTGATGTCGATGGCCGTTAACGCTTCGGTGCTGTCGATAACAATGGAACCACCAGACGGCAGACGAACT -TCACGCTGGAAGGCGGACTCGATCTGTGACTCGATCTGGTAGTGGCTGAACAGCGGGATCTCGCCGGTGT -ACAGTTTGATTTTGCTGCTGAAATCCGGGCGACCTAATGCAGCGATATGCTGACGTGCCAGTTCGAGCAC -TTTCGGGTTATCGATAAGGATTTCGCCGATGTCCTGACGTAAGTAATCGCGGAATGCGCGAACGATTACG -TTGCTCTCCTGATGAATCAGGAACGGGGCCGGGCGGCTTTCAGCGGCTTTTTTGATGGCTTCCCAGTGTT -TCAGACGGAAGCTTAAATCCCATTGCAGCGCCTCAGCAGATTTGCCGACGCCAGCGGTGCGCACGATAAG -CCCCATGCCTTCCGGCAGTTCAAGGCTTGCCAGTGCTTCTTTTAATTCGGTACGGTCGTCGCCTTCGATA -CGGCGAGAAATGCCACCCGCGCGCGGGTTGTTCGGCATCAGAACCAGATAGCTACCCGCCAGACTGATAA -AGGTGGTTAATGCCGCGCCTTTGTTGCCGCGCTCTTCTTTATCGATCTGAACAATGACTTCCTGACCTTC -ACGCAACACATCTTTAATGTTGGGACGACCATGAGCACTGTAGTTAGCAGGGAAATATTCGCGGGCAATT -TCTTTTAGTGGGAGGAAACCGTGACGTTCAGCGCCGTAATCAACAAAAGCAGCTTCCAGACTCGGTTCAA -TGCGGGTGATTTTACCTTTGTAGATGTTTGCCTTTTTCTGCTCGTGCCCTGGACTTTCGATATCCAGGTC -ATACAGACGCTGCCCATCTACAAGGGCAACGCGCAACTCTTCCTGCTGAGTTGCGTTGATTAACATTCTT -TTCATCGTAACTTACTCATTATTCTTACATTGACGACTAAGCTGCGGGCAAAGTAACGCCTTTCCGGGTG -TGAACCGATGGCCTCGTGTCTAGTCGCGTCGCCAACCTCACGGTTATCGTCAGCTCAAAGAGGCGCAGAG -TGTCGGTTGCCCGTTTTTCATGCGGAAAAACAGCGCAATTATCAAAGAAACAGACTGGGTATTACTCTCC -AGAAATATTTCCATCTACCGGTAAGGACTGCAACCCGCAGCCCGCTAACTGCCTGAAAGATCAATACGTC -TTACGCCATTGCTGCGTGGATGATCGGTCGGGCAAAATGGGTTATTCCGTAAAATTTCTTGTTTTAACAA -GGATGGACACGGAAACGGCCTCATTATTCCACTGCAAGCCTTGTTATAGCAAGATGACTTTTACCATTTA -TCACCCGCTTACTCACAGTTTTTTCACTTCTTGCTGGTGATTGGTTTAATAACCATCAATAAAGTGATCA -CGCAGTGAAGTAATAAGGTGCAAAAGTAAATATAAGCATAGAAAAATGAGTGGCGCGAATCCTGTTGGCT -AATTAGAATCGCCAACCATGAAAACAGAGACTCCATCCGTAAAAATTGTTGCTATCACCGCTGACGAAGC -GGGGCAACGTATCGATAACTTTTTGCGTACCCAATTGAAAGGCGTACCAAAAAGTATGATTTACCGTATT -TTGCGTAAAGGCGAAGTGCGGGTGAACAAAAAACGTATTAAGCCTGAATATAAACTCGAAGCGGGTGATG -AGGTGCGTATTCCACCGGTTCGCGTTGCTGAGCGGGAAGAAGAGGCGGTTTCGCCACATCTGCAAAAGGT -GGCGGCGCTGGCGGACGTCATCTTATATGAAGATGATCACATCCTGGTGCTGAATAAACCTTCCGGTACG -GCGGTACATGGCGGCAGTGGTTTAAGCTTCGGCGTTATTGAAGGTTTGCGGGCGTTGCGCCCGGAAGCGC -GGTTCCTTGAACTGGTTCATCGTCTTGACCGGGACACCTCAGGTGTTTTGCTGGTAGCGAAAAAACGCTC -GGCGTTGCGTTCTCTGCATGAGCAATTACGTGAAAAAGGGATGCAAAAAGATTACCTGGCGCTGGTGCGC -GGTCAGTGGCAGTCGCATGTGAAGAGCGTTCAAGCACCGTTACTGAAAAATATTCTGCAAAGCGGCGAAC -GTATCGTGCGTGTGAGTCAGGAAGGCAAACCGTCGGAAACACGCTTTAAAGTGGAAGAACGCTATGCATT -TGCCACCCTGGTGCGTTGTAGCCCGGTAACAGGGCGTACTCACCAGATCCGTGTGCATACACAATATGCG -GGTCATCCGATTGCCTTTGACGATCGCTACGGTGACCGTGAATTTGACAGGCAGCTCACTGAAGCAGGCA -CGGGATTAAATCGCCTGTTCCTGCACGCTGCAGCGTTGAAGTTTACTCATCCGGGGACCGGTGAGGTGAT -GCGTATCGAAGCTCCGATGGATGAAGGTTTGAAGCGTTGTTTGCAAAAGCTGCGTAACGCGCGCTAATAC -AAGCATATAAACCTGATAATGGGCGGTTGGCCTGATAAGGCGTTTACGCCGCATCAGGCCGCCAGCACCG -ATTGCCGGATGCGACGTAACCACATCCGGCGCAAAAAACTATCCCATCAGCGGGTTTTTCCCTTCCCGAC -GTAACATCTGACACAGCGCGATTAGCGGTAAACCAACCAGCGTGTTAGGATCACGCCCCTCTAAACGCTC -AAACAGCGTAATGCCAAATCCTTCACTCTTAAAGCTACCCGCGCAGTGCAGGGGATGCTCTTTACGCACG -TAATTATCAATCTCCGCCTCGCTCAGGTGACGGAAATGGACGTCAAAAGGCTCCACTTCTGTTTGCAGAT -GCCCATTCGCCGAATTAAACAACGCCAGTCCAGTATAGAAGGTGACGATATTGCCGCTGGCTTTGCGTAA -TTGCAGACGGGCATTTTCTTCCGTTAACGGTTTACCGGTGATTTCGCCATCAAGAACACATACCTGGTCT -GAACCAATAATTAAATGATCCGGATAACGTGACGCCAGAGATTGCGCTTTTTCTTGTGCCAGTCGAAGCA -CCAACTGTCGCGGTGATTCGTCGCTGCGTGGGGTTTCGTCGACCTCTGGTGCTGCACATTCAAAAGAGAT -TTGCAGTTTTTCCAGAAGAGCGCGACGCCATGGCGAGGTGGAGGCTAAAATAAGTTTAGGCATATTTTTT -TCCATCAGATATAGCGTATTGATGATAGCCATTTTAAACTATGCGCTTCGTTTTGCAGGTTGATGTTTGT -TATCAGCACTGAACGAAAATAAAGCAGTAACCCGCAATGTGTGCGAATTATTGGCAAAAGGCAACCACAG -GCTGCCTTTTTCTTTGACTCTATGACGTTACAAAGTTAATATGCGCGCCCTATGCAAAAGGTAAAATTAC -CCCTGACTCTCGATCCGGTTCGTACGGCTCAAAAACGCCTTGATTACCAGGGTATCTATACCCCTGATCA -GGTTGAGCGCGTCGCCGAATCCGTAGTCAGTGTGGACAGTGATGTGGAATGCTCCATGTCGTTCGCTATC -GATAACCAACGTCTCGCAGTGTTAAACGGCGATGCGAAGGTGACGGTAACGCTCGAGTGTCAGCGTTGCG -GGAAGCCGTTTACTCATCAGGTCTACACAACGTATTGTTTTAGTCCTGTGCGTTCAGACGAACAGGCTGA -AGCACTGCCGGAAGCGTATGAACCGATTGAGGTTAACGAATTCGGTGAAATCGATCTGCTTGCAATGGTT -GAAGATGAAATCATCCTCGCCTTGCCGGTAGTTCCGGTGCATGATTCTGAACACTGTGAAGTGTCCGAAG -CGGACATGGTCTTTGGTGAACTGCCTGAAGAAGCGCAAAAGCCAAACCCATTTGCCGTATTAGCCAGCTT -AAAGCGTAAGTAATTGGTGCTCCCCGTTGGATCGGGGATAAACCGTAATTGAGGAGTAAGGTCCATGGCC -GTACAACAGAATAAACCAACCCGTTCCAAACGTGGCATGCGTCGTTCCCATGACGCGCTGACCGCAGTCA -CCAGCCTGTCTGTAGACAAAACTTCTGGTGAAAAACACCTGCGTCACCACATCACTGCCGACGGTTACTA -CCGCGGCCGCAAGGTCATCGCTAAGTAATCACGCATCTGCGTGATGAAGCTTAGTGAGGATTTTCCCCAG -GCAACTGGGGAAAGACCAAACCGGGCGGCGACGATACCTTGACACGTCTAACCCTGGCGTTAGATGTCAT -GGGAGGGGATTTTGGCCCTTCCGTGACAGTGCCTGCAGCATTGCAGGCACTGAATTCTAATTCGCAACTC -ACTCTTCTTTTAGTCGGCAATTCCGACGCCATCACGCCATTACTTGCTAAAGCTGACTTTGAACAACGTT -CGCGTCTGCAGATTATTCCTGCGCAGTCAGTTATCGCCAGTGATGCCCGGCCTTCGCAAGCTATCCGCGC -CAGTCGTGGGAGTTCAATGCGCGTGGCCCTGGAGCTGGTGAAAGAAGGTCGAGCGCAAGCCTGTGTCAGT -GCCGGTAATACCGGGGCGCTGATGGGGCTGGCAAAATTATTACTCAAGCCCCTGGAGGGGATTGAGCGTC -CGGCGCTGGTGACGGTATTACCACATCAGCAAAAGGGCAAAACGGTGGTCCTTGACTTAGGGGCCAACGT -CGATTGTGACAGCACAATGCTGGTGCAATTTGCCATTATGGGCTCAGTTCTGGCTGAAGAGGTGGTGGAA -ATTCCCAATCCTCGCGTGGCGTTGCTCAATATTGGTGAAGAAGAAGTAAAGGGTCTCGACAGTATTCGGG -ATGCCTCAGCGGTGCTTAAAACAATCCCTTCTATCAATTATATCGGCTATCTTGAAGCCAATGAGTTGTT -AACTGGCAAGACAGATGTGCTGGTTTGTGACGGCTTTACAGGAAATGTCACATTAAAGACGATGGAAGGT -GTTGTCAGGATGTTCCTTTCTCTGCTGAAATCTCAGGGTGAAGGGAAAAAACGGTCGTGGTGGCTACTGT -TATTAAAGCGTTGGCTACAAAAGAGCCTGACGAGGCGATTCAGTCACCTCAACCCCGACCAGTATAACGG -CGCCTGTCTGTTAGGATTGCGCGGCACGGTGATAAAAAGTCATGGTGCAGCCAATCAGCGAGCTTTTGCG -GTCGCGATTGAACAGGCAGTGCAGGCGGTGCAGCGACAAGTTCCTCAGCGAATTGCCGCTCGCCTGGAAT -CTGTATACCCAGCTGGTTTTGAGCTGCTGGACGGTGGCAAAAGCGGAACTCTGCGGTAGCAGGACGCTGC -CAGCGAACTCGCAGTTTGCAAGTGACGGTATATAACCGAAAAGTGACTGAGCGTACATGTATACGAAGAT -TATTGGTACTGGCAGCTATCTGCCCGAACAAGTGCGGACAAACGCCGATTTGGAAAAAATGGTGGACACC -TCTGACGAGTGGATTGTCACTCGTACCGGTATCCGCGAACGCCACATTGCCGCGCCAAACGAAACCGTTT -CAACCATGGGCTTTGAAGCGGCGACACGCGCAATTGAGATGGCGGGCATTGAGAAAGACCAGATTGGCCT -GATCGTTGTGGCAACGACTTCTGCTACGCACGCTTTCCCGAGCGCAGCTTGTCAGATTCAAAGCATGTTG -GGCATTAAAGGTTGCCCGGCATTTGACGTTGCAGCAGCCTGCGCAGGTTTCACCTATGCATTAAGCGTAG -CCGATCAATACGTGAAATCTGGGGCGGTGAAGTATGCTCTGGTCGTCGGTTCCGATGTACTGGCGCGCAC -CTGCGATCCAACCGATCGTGGGACTATTATTATTTTTGGCGATGGCGCGGGCGCTGCGGTGCTGGCTGCC -TCTGAAGAGCCGGGAATCATTTCCACCCATCTGCATGCCGACGGTAGTTATGGTGAATTGCTGACGCTGC -CAAACGCCGACCGCGTGAATCCAGAGAATTCAATTCATCTGACGATGGCGGGCAACGAAGTCTTCAAGGT -TGCGGTAACGGAACTGGCGCACATCGTTGATGAGACGCTGGCGGCGAATAATCTTGACCGTTCTCAACTG -GACTGGCTGGTTCCGCATCAGGCTAACCTGCGTATTATCAGTGCAACGGCGAAAAAACTCGGTATGTCTA -TGGATAATGTCGTGGTGACGCTGGATCGCCACGGTAATACCTCTGCGGCCTCTGTCCCGTGCGCGCTGGA -TGAAGCTGTACGCGACGGGCGCATTAAGCCGGGGCAGTTGGTTCTGCTTGAAGCCTTTGGCGGTGGATTC -ACCTGGGGCTCCGCGCTGGTTCGTTTCTAGGATAAGGATTAAAACATGACGCAATTTGCATTTGTGTTCC -CTGGACAGGGTTCTCAAACCGTTGGAATGCTGGCTGATATGGCGGCGAGCTATCCAATTGTCGAAGAAAC -GTTTGCTGAAGCTTCTGCGGCGCTGGGCTACGACCTGTGGGCGCTGACCCAGCAGGGGCCAGCTGAAGAA -CTGAATAAAACCTGGCAAACTCAGCCTGCGCTGTTGACTGCATCTGTTGCGCTGTATCGCGTATGGCAGC -AGCAGGGCGGTAAAGCACCGGCAATGATGGCCGGTCACAGCCTGGGGGAATACTCCGCGCTGGTTTGCGC -TGGTGTGATTGATTTCGCTGATGCGGTGCGTCTGGTTGAGATGCGCGGCAAGTTCATGCAAGAAGCCGTA -CCGGAAGGCACGGGCGCTATGGCGGCAATCATCGGTCTGGATGATGCGTCTATTGCGAAAGCGTGTGAAG -AAGCTGCAGAAGGTCAGGTCGTTTCTCCGGTAAACTTTAACTCTCCGGGACAGGTGGTTATTGCCGGTCA -TAAAGAAGCGGTTGAGCGTGCTGGCGCTGCCTGTAAAGCGGCGGGCGCAAAACGCGCGCTGCCGTTACCA -GTGAGCGTACCGTCTCACTGTGCGCTGATGAAACCAGCAGCCGACAAACTGGCAGTAGAATTAGCGAAAA -TCACCTTTAACGCACCAACAGTTCCTGTTGTGAATAACGTTGATGTGAAATGCGAAACCAATGGTGATGC -CATCCGTGACGCACTGGTACGTCAGTTGTATAACCCGGTTCAGTGGACGAAGTCTGTTGAGTACATGGCA -GCGCAAGGCGTAGAACATCTCTATGAAGTCGGCCCGGGCAAAGTGCTTACTGGCCTGACGAAACGCATTG -TCGACACCCTGACCGCCTCGGCGCTGAACGAACCTTCAGCGATGGCAGCGGCGCTCGAGCTTTAAAAGAG -GAAAATCATGAATTTTGAAGGAAAAATCGCACTGGTAACCGGTGCAAGCCGCGGAATTGGCCGCGCAATT -GCTGAAACGCTCGCAGCCCGTGGCGCGAAAGTTATTGGCACTGCGACCAGTGAAAATGGCGCTCAGGCGA -TCAGTGATTATTTAGGTGCCAACGGCAAAGGTCTGATGTTGAATGTGACCGACCCGGCATCTATCGAATC -TGTTCTGGAAAAAATTCGCGCAGAATTTGGTGAAGTGGATATCCTGGTCAATAATGCCGGTATCACTCGT -GATAACCTGTTAATGCGAATGAAAGATGAAGAGTGGAACGATATTATCGAAACCAACCTTTCATCTGTTT -TCCGTCTGTCAAAAGCGGTAATGCGCGCTATGATGAAAAAGCGTCATGGTCGTATTATCACTATCGGTTC -TGTGGTTGGTACCATGGGAAATGGCGGTCAGGCCAACTACGCTGCGGCGAAAGCGGGCTTGATCGGCTTC -AGTAAATCACTGGCGCGCGAAGTTGCGTCACGCGGTATTACTGTAAACGTTGTTGCTCCGGGCTTTATTG -AAACGGACATGACACGTGCGCTGAGCGATGACCAGCGTGCGGGTATCCTGGCGCAGGTTCCTGCGGGTCG -CCTCGGCGGCGCACAGGAAATCGCCAACGCGGTTGCATTCCTGGCATCCGACGAAGCAGCTTACATCACG -GGTGAAACTTTGCATGTGAACGGCGGGATGTACATGGTCTGACCGCGATTTGCACAAAATGCTCATGTTG -CGCGCAGTCTGCGTGGTTATGAGTAATAATTAGTGCAAAATGATTTGCGTTATTGGGGGGTAAGGCCTCA -AAATAACGTAAAATCGTGGTAAGACCTGCCGGGATTTAGTTGCAAATTTTTCAACATTTTATACACTACG -AAAACCATCGCGAAAGCGAGTTTTGATAGGAAATTTAAGAGTATGAGCACTATCGAAGAACGCGTTAAGA -AAATTATCGGCGAACAGCTGGGCGTTAAGCAGGAAGAAGTTACCAACAATGCTTCTTTCGTTGAAGACCT -GGGCGCGGATTCTCTTGACACCGTTGAGCTGGTAATGGCTCTGGAAGAAGAGTTTGATACTGAGATTCCG -GACGAAGAAGCTGAGAAAATCACCACCGTTCAGGCTGCCATTGATTACATCAACGGCCACCAGGCGTAAG -TGAACATCTCCAGGCGGTCGTTCGACCGCCTGAGTTTTATCTTTTTGTCCCACTAGAATCATTTTTTCCC -TCCCTGGAGGACAAACGTGTCTAAGCGTCGTGTAGTTGTGACCGGACTGGGCATGTTGTCTCCTGTCGGC -AATACCGTAGAGTCTACCTGGAAAGCTCTGCTTGCCGGTCAGAGTGGCATCAGCCTAATCGACCATTTCG -ATACTAGCGCCTATGCAACGAAATTTGCTGGCTTAGTAAAGGATTTTAACTGTGAGGACATTATCTCGCG -CAAAGAACAGCGCAAGATGGATGCCTTCATTCAATATGGAATTGTCGCTGGCGTTCAGGCCATGCAGGAT -TCTGGCCTTGAAATAACGGAAGAGAACGCAACCCGCATTGGTGCCGCAATTGGCTCCGGGATTGGCGGCC -TCGGACTGATCGAAGAAAACCACACATCTCTGATGAACGGTGGTCCACGTAAGATCAGCCCATTCTTCGT -TCCGTCAACGATTGTGAACATGGTGGCAGGTCATCTGACTATCATGTATGGCCTGCGTGGCCCGAGCATC -TCTATCGCGACTGCCTGTACTTCCGGCGTGCACAACATTGGCCATGCTGCGCGTATTATCGCGTATGGCG -ATGCTGACGTGATGGTTGCAGGTGGCGCAGAGAAAGCCAGTACGCCGCTGGGCGTTGGTGGTTTTGGCGC -GGCACGTGCATTATCTACCCGCAATGATAACCCGCAAGCGGCGAGCCGCCCGTGGGATAAAGAGCGTGAT -GGTTTCGTACTGGGCGATGGTGCCGGTATGCTGGTACTTGAAGAGTACGAACACGCGAAAAAACGCGGTG -CGAAAATTTACGCTGAACTCGTCGGCTTTGGTATGAGCAGCGATGCTTATCATATGACGTCACCGCCAGA -AAATGGCGCAGGCGCAGCTCTGGCGATGGCAAATGCTCTGCGTGATGCAGGCATTGAAGCGAGTCAGATT -GGCTACGTTAACGCGCACGGTACTTCTACGCCGGCTGGCGATAAAGCTGAAGCGCAGGCGGTGAAAACCA -TCTTCGGTGAAGCTGCAAGCCGTGTGTTGGTAAGCTCCACGAAATCTATGACCGGTCACCTGTTAGGTGC -GGCGGGTGCAGTAGAATCTATCTACTCCATCCTGGCGCTGCGCGATCAGGCTGTTCCGCCAACCATCAAC -CTGGATAACCCGGATGAAGGTTGCGATCTGGATTTCGTACCGCACGAAGCGCGTCAGGTTAGCGGAATGG -AATACACTCTGTGTAACTCCTTCGGCTTCGGTGGCACTAATGGTTCTTTGATCTTTAAAAAGATCTAAGT -TGTCATTTTCCACCCTTATAAAAGGTCCGCTTGCGGGCCTTTTTTCTTAGCTTTTATTCCGACTTGTTCC -GTAGTGAACATGCTGCCACACTAACAATTCTCTGATAAGGAGCCGGTATGTTCTTAATTAACGGTCATAA -GCAGGAATCGCTGGCAGTAAGCGATCGGGCAACGCAGTTTGGTGATGGTTGTTTTACCACCGCCAGAGTT -ATCGACGGTAAAGTCAGTTTGTTATCGGCGCATATCCAGCGACTACAGGATGCTTGTCAGCGGTTGATGA -TTTCCTGTGACTTCTGGCCTCAGCTTGAACAAGAGATGAAAACGCTGGCAGCAGAACAGCAAAATGGTGT -GCTGAAAGTCGTGATCAGTCGCGGTAGTGGCGGGCGAGGGTACAGCACATTGAACAGCGGACCGGCAACG -CGGATTCTCTCCGTTACGGCTTATCCTGCACATTACGACCGTTTGCGTAACGAGGGGATTACGTTGGCGC -TAAGCCCGGTGCGGCTGGGGCGCAATCCTCATCTTGCAGGTATTAAACATCTCAATCGTCTTGAGCAAGT -ATTGATTCGCTCTCATCTTGAGCAGACAAACGCTGATGAGGCGCTGGTCCTTGACAGCGAAGGGTGGGTT -ACGGAATGCTGTGCGGCTAATTTGTTCTGGCGGAAGGGCAACGTAGTTTATACGCCGCGACTGGATCAGG -CAGGTGTTAACGGCATTATGCGACAATTCTGTATCCGTTTGCTGGCACAATCCTCTTATCAGCTTGTCGA -AGTGCAAGCCTCTCTGGAAGAGTCGTTGCAGGCAGATGAGATGGTTATTTGTAATGCGTTAATGCCAGTG -ATGCCCGTATGTGCCTGTGGCGATGTCTCCTTTTCGTCAGCAACGTTATATGAATATTTAGCCCCACTTT -GTGAGCGCCCGAATTAGTCATGAAAAAAGTGTTATTGATAATCTTGTTATTGCTGGTGGTACTGGGTATC -GCCGCTGGTGTGGGCGTCTGGAAGGTTCGCCATCTTGCCGACAGCAAATTGCTTATCAAAGAAGAGACGA -TATTTACCCTGAAGCCAGGGACCGGACGTCTGGCGCTCGGTGAACAGCTTTATGCCGATAAGATCATCAA -TCGTCCACGGGTTTTTCAATGGCTGCTGCGTATCGAACCGGATCTTTCTCACTTTAAAGCCGGGACTTAC -CGCTTTACACCGCAGATGACCGTGCGCGAGATGCTGAAATTGCTGGAAAGCGGTAAAGAAGCACAGTTCC -CTCTGCGACTGGTAGAAGGGATGCGTCTGAGCGATTACCTCAAGCAATTGCGTGAGGCCCCGTATATCAA -GCATACGCTGAGCGATGATAAGTACGCCACCGTAGCGCAGGCACTTGAACTGGAAAACCCGGAGTGGATT -GAAGGTTGGTTCTGGCCAGACACCTGGATGTATACCGCCAATACCACCGATGTCGCGTTACTCAAGCGAG -CGCACAAGAAAATGGTGAAAGCGGTCGATAGCGCCTGGGAAGGGCGTGCGGACGGTCTGCCTTATAAAGA -TAAAAACCAGTTGGTGACGATGGCATCAATTATCGAAAAAGAAACCGCCGTTGCCAGTGAACGCGATAAG -GTTGCCTCAGTATTTATCAACCGTTTACGCATTGGTATGCGCCTGCAGACCGACCCGACCGTGATTTACG -GGATGGGAGAGCGTTATAATGGCAAACTTTCTCGTGCAGACCTGGAAACGCCGACAGCGTATAACACCTA -TACCATTACCGGTCTGCCGCCAGGTGCGATAGCGACGCCGGGGGCGGATTCGCTGAAGGCTGCTGCGCAT -CCGGCAAAAACGCCGTATCTCTATTTTGTGGCCGATGGTAAAGGTGGTCACACGTTTAATACCAATCTTG -CCAGTCATAACAAGTCTGTGCAGGATTATCTGAAAGTGCTTAAGGAAAAAAATGCGCAGTAAGTATATCG -TCATTGAGGGGCTGGAAGGCGCAGGCAAAACTACCGCGCGTAATGTGGTGGTTGAGACGCTCGAGCAACT -GGGTATCCGCGACATGGTTTTCACTCGGGAACCTGGCGGTACGCAACTTGCCGAAAAGTTAAGAAGCCTG -GTGCTGGATATCAAATCGGTAGGCGATGAAGTCATTACCGATAAAGCCGAAGTTCTGATGTTTTATGCCG -CGCGCGTTCAACTGGTAGAAACGGTCATCAAACCAGCTCTGGCTAACGGCACCTGGGTGATTGGCGATCG -CCACGATCTCTCCACTCAGGCGTATCAGGGCGGCGGACGTGGTATTGACCAACATATGCTGGCAACACTG -CGTGATGCTGTTCTCGGGGATTTTCGCCCCGACTTAACGCTCTATCTCGATGTTACCCCGGAAGTTGGCT -TAAAACGCGCGCGTGCGCGCGGCGAGCTGGATCGTATTGAGCAAGAATCTTTCGATTTCTTTAATCGCAC -CCGCGCCCGCTATCTGGAACTGGCAGCACAAGATAAAAGCATTCATACCATTGATGCCACCCAGCCGCTG -GAGGCCGTGATGGATGCAATCCGCACTACCGTGACCCACTGGGTGAAGGAGTTGGACGCATGAGATGGTA -TCCATGGTTACGACCTGATTTCGAAAAACTGGTAGCCAGCTATCAGGCCGGAAGAGGTCACCATGCGCTA -CTCATTCAGGCGTTACCGGGCATGGGCGATGATGCTTTAATCTACGCCCTGAGCCGTTATTTACTCTGCC -AACAACCGCAGGGCCACAAAAGTTGCGGTCACTGTCGTGGATGTCAGTTGATGCAGGCTGGCACGCATCC -CGATTACTACACCCTGGCTCCCGAAAAAGGAAAAAATACGCTGGGCGTTGATGCGGTACGTGAGGTCACC -GAAAAGCTGAATGAGCACGCACGCTTAGGTGGTGCGAAAGTCGTTTGGGTAACCGATGCTGCCTTACTAA -CCGACGCCGCGGCTAACGCATTGCTGAAAACGCTTGAAGAGCCACCAGCAGAAACTTGGTTTTTCCTGGC -TACCCGCGAGCCTGAACGTTTACTGGCAACATTACGTAGTCGTTGTCGGTTACATTACCTTGCGCCGCCG -CCGGAACAGTACGCCGTGACCTGGCTTTCACGCGAAGTGACAATGTCACAGGATGCATTACTTGCCGCAT -TGCGCTTAAGCGCCGGTTCGCCTGGCGCGGCACTGGCGTTGTTTCAGGGAGATAACTGGCAGGCTCGTGA -AACATTGTGTCAGGCGTTGGCATATAGCGTGCCATCGGGCGACTGGTATTCGCTGCTAGCGGCCCTTAAT -CATGAACAAGCTCCGGCGCGTTTACACTGGCTGGCAACGTTGCTGATGGATGCGCTAAAACGCCATCATG -GTGCTGCGCAGGTGACCAATGTTGATGTGCCGGGCCTGGTCGCCGAACTGGCAAACCATCTTTCTCCCTC -GCGCCTGCAGGCTATACTGGGGGATGTTTGCCACATTCGTGAACAGTTAATGTCTGTTACAGGCATCAAC -CGCGAGCTTCTCATCACCGATCTTTTACTGCGTATTGAGCATTACCTGCAACCGGGCGTTGTGCTACCGG -TTCCTCATCTTTAAGAGAGACATCATGTTTTTAGTCGACTCACACTGCCATCTCGATGGTCTGGATTATG -AATCTTTGCATAAGGACGTGGATGACGTTCTGGCGAAAGCCGCCGCACGCGATGTGAAATTTTGTCTGGC -AGTCGCCACAACATTACCGGGTTATTTACATATGCGGGATCTGGTAGGCGAACGTGACAACGTCGTATTT -TCTTGTGGCGTGCATCCACTCAACCAGAATGATCCCTACGATGTAGAAGATTTACGCCGTCTGGCGGCAG -AAGAGGGTGTTGTAGCGCTGGGTGAAACCGGGCTGGATTATTATTACACGCCGGAAACTAAAGTACGTCA -GCAAGAGTCCTTCATCCATCATATCCAGATTGGTCGTGAACTGAACAAGCCGGTTATCGTCCATACCCGT -GACGCCCGTGCCGATACGCTGGCAATTCTGCGCGAAGAAAAAGTGACGGATTGCGGTGGCGTACTACACT -GTTTTACAGAGGACAGAGAAACGGCGGGTAAATTACTGGATCTCGGATTTTACATCTCCTTTTCCGGCAT -TGTGACCTTCCGTAATGCGGAGCAACTGCGCGATGCTGCGCGTTATGTCCCCCTGGATCGGTTACTGGTG -GAAACTGACTCACCTTACCTTGCGCCGGTACCGCATCGAGGAAAAGAGAATCAACCTGCGATGGTTCGTG -ACGTTGCAGAATACATGGCTGTGTTGAAAGGTGTTGCCGTTGAAGAACTGGCGCAGGTAACCACCGATAA -CTTCGCCCGTCTGTTTCACATCGACGCTTCCCGCCTTCAATCCATCCGTTGAATGAGTTTTTTTAAAGCT -CGTAATTAATGGCTAAAACGAGTAAAGTTCACCGCCGAAAATTGGGCGGTGAATAACCACGTTTGAAATA -TTGTGACATATGTTTTGTCAAAATGTGCAACTTCTCCAATGATCTGAAGTTGAAACGTGATAGCCGTCAA -ACAAATTGGCACTGAATTATTTTACTCTGTGTAATAAATAAAGGGCGCTTAGATGCCCTGTACACGGCGA -GGCTCTCCCCCCTTGCCACGCGTGAGAACGTAAAAAAAGCACCCATACTCAGGAGCACTCTCAATTATGT -TTAAGAATGCATTTGCTAACCTGCAAAAGGTCGGTAAATCGCTGATGCTGCCGGTATCCGTACTGCCTAT -CGCAGGTATTCTGCTGGGCGTCGGTTCCGCGAATTTCAGCTGGCTGCCCGCCGTTGTATCGCATGTTATG -GCAGAAGCAGGCGGTTCCGTCTTTGCAAACATGCCACTGATTTTTGCGATCGGTGTCGCCCTCGGCTTTA -CCAATAACGATGGCGTATCCGCGCTGGCCGCAGTTGTTGCCTATGGCATCATGGTTAAAACCATGGCCGT -GGTTGCGCCACTGGTACTGCATTTACCTGCTGAAGAAATCGCCTCTAAACACCTGGCGGATACTGGCGTA -CTCGGAGGGATTATCTCCGGTGCGATCGCAGCGTACATGTTTAACCGTTTCTACCGTATTAAGCTGCCTG -AGTATCTTGGCTTCTTTGCCGGTAAACGCTTTGTGCCGATCATTTCTGGCCTGGCTGCCATCTTTACTGG -CGTTGTGCTGTCCTTCATTTGGCCGCCGATTGGTTCTGCAATCCAGACCTTCTCTCAGTGGGCTGCTTAC -CAGAACCCGGTAGTTGCGTTTGGCATTTACGGTTTCATCGAACGTTGCCTGGTACCGTTTGGTCTGCACC -ACATCTGGAACGTACCTTTCCAGATGCAGATTGGTGAATACACCAACGCAGCAGGTCAGGTTTTCCACGG -CGACATTCCGCGTTATATGGCGGGTGACCCGACTGCGGGTAAACTGTCTGGTGGCTTCCTGTTCAAAATG -TACGGTCTGCCAGCTGCCGCAATTGCTATCTGGCACTCTGCTAAACCAGAAAACCGCGCGAAAGTGGGCG -GTATTATGATCTCCGCGGCGCTGACCTCGTTCCTGACCGGTATCACCGAGCCGATCGAGTTCTCCTTCAT -GTTCGTTGCGCCGATCCTGTACATCATCCACGCGATTCTGGCAGGCCTGGCATTCCCAATCTGTATTCTT -CTGGGGATGCGTGACGGTACGTCGTTCTCGCACGGTCTGATCGACTTCATCGTTCTGTCTGGTAACAGCA -GCAAACTGTGGCTGTTCCCGATCGTCGGTATCGGTTATGCGATTGTTTACTACACCATCTTCCGCGTGCT -GATTAAAGCACTGGATCTGAAAACGCCGGGTCGTGAAGACGCGACTGAAGATGCAAAAGCGACAGGTACC -AGCGAAATGGCACCGGCTCTGGTTGCTGCATTTGGTGGTAAAGAAAACATTACTAACCTCGACGCATGTA -TTACCCGTCTGCGCGTCAGCGTTGCTGATGTGTCTAAAGTGGATCAGGCCGGCCTGAAGAAACTGGGCGC -AGCGGGCGTAGTGGTTGCTGGTTCTGGTGTTCAGGCGATTTTCGGTACTAAATCCGATAACCTGAAAACC -GAGATGGATGAGTACATCCGTAACCACTAATCCGTAAGACGTTGGGGAGACTAAGGCAGCCAGATGGCTG -CCTTTTTTACAGGTGTTATTCAGAATTGATACGTGCCGGTAATGCTGAAATTACGCGGTGTGCCGTAGAC -GATAGAACCTTCCACGTTGGTATCGTAGGTTTTGTCGAACAGGTTATTGACGTTCCCCTGTAACGAGAAG -TTTTTCGTCACCTGGTAGCGGGTGAAGAGATCCACCAGCGCGTAGCTACCTTGCTCGGCGCGGAAGGTGC -CATACGGCGTCACGGTGTCGGTATACACGCGATTTTGCCAGTTAACACCACCGCCGACCGTCAACTCTGG -CATGACAGGCAACCGATAGCTGGTGAACATTTTAACCGTGGTGCGTGGCAGATTAGGATTAACGGCGTTT -CCTTCGTTATCCTCTGCAATATAGCGCGTTGCGCCAAATGTCAGCTGCCAGTTGTCGGTAATTGCGCCGT -TGAGTTCAAATTCCACCCCTTTACTGACTGTCCCATCCACCGCTTTATAGGCGGTTTCGCCGTTGCTGCC -GGGGATAGGTGTACCGGTGGACTGAGCGACATTATCCTGCTCAATACGGAAGATGGCTAACGTGGTGGTC -AGACGGCTATTCATCCAGTCCGATTTCAGACCCAGCTCGTAGTTGTTACCGGTGATTGGAGCCAGATATT -TGCCTGAACTGTCACGATCATTTTGCGGCTGGAAAATAGAGGTATAGCTGGCGTAGGTCGACCAGTTGTC -ATTGATGTCAAACACCAGACCAGCGTAAGGCGTGGTGTGGTTTTTCTCCATGCTGTAAGTCAGCGTATCA -ACCCGCCAGTTGGTATAACGTGCGCCGAGGATCAGATGCAGCGGATCGGCAAGGGTGACACGAGTGGCAG -CATATAACGATTTCATATGTGTGGTATCGTCCTGCGCCAGGCTCTGTGGTGACCAGTCGGTTTGTGGGAA -ATTGCCATTAAAGTTGTAGAAACTGCCAATTTCATCCGGGAAGATGTTGGCCCATGAACTGAAGTAACGA -TTGTTTTGTTTGCTGTAACTGCCACCAAACATTAGATTGTGCTGACGACCAAACAATTCATAACTACCGT -CAGCGAACAAATCCAGCGCATCAACTTTACGTTTGCCACTGTTCCAACCGGTGCCGCCGACATAATCAAA -GCCAGGTCCATAATTACTGTATGGCCCAACCAGCATACCATCCGCTTTGTTTACATAGGCATCGACATAC -ATCATTTTGCTGTCAAATTCGACTTCAGAGTGGGTGGCATTCAGTGTCGCTTGCCAGGTATCAGCAAACT -GCTGCTTCAGGGTCATAAAGACCTTGTTGATCTCTTTATCGTTGTACGCCCAGTCAGGTGCGGTACTGCG -TGCGCGATCGTAACTGTTGCTGCTGCCATCAGTATTCCAGCGCGGTAAACCGCCCCAGGTAGGGCTATTA -ACATCAATGCGCTGATATTCGTAACCGGCTGAAAGCGTCGTAAGATCGCCTAAATCAGCATCGACAATGC -CCGAGAAGAAGGTCTTTTCACTGTTGTAGCGGTCCAGCCATGAGTCGTTATTCTGGTAGCCGCCGACAAT -TCGCGCGCGGATTTTACCGTCTTCGGTGAGTGGGCTTTGTAAATCCGCCACATACCGTTCTTTGTTCCAG -CTACCGTATTCCGCCGAGACATCGCCTTTAAATTCACGACTGGTCGCGTGTTTTCGAACCATATTAATTG -CCGCAGATGGATTACCCGTCCCGGTCATGAGTCCTGTCGCGCCACGCACTACTTCTACGCGTTCAAAGAG -TGCCATATCAGAAAGTGCGTCGCCCAGATTCCAGCGCGATTCAAAATAGGTGGGGATACCATCAACCATA -TAGTTATCGATCTGGAATCCGCGGGAATAATAAAGAGCACGATCGGAATCCGCCTGACTTTTGCTGATCC -CCAGCGTGTTTTCCATCACTTCGCCCAGCGTTTGTAACTGCTGATCTTCCATCCGCTGCTGGCTAACAAT -AGTGACCGACTGAGGAATATCACGTTGAGTCATCTGCATTTTGGTACCCGCAGAGGTAGACGTTACGCTG -TAATCATTTTCGCCATCATCTGGAGCTGTGGCTGAACCCTCAACAATCACCGTTTCTTCAGTGGCTGGTG -CAGCAAAAGCGGCAGAAGGTAATAGTGCCAGTGCTATGCAACCGGCAAGTAGTGACGGTTTGGTGATGGC -TTGATATTGATTATCCCTGTTAAATTGTGTTGAAAGCATTTGAAATCTCTTGGTTTATGTTGTCGTCAGG -CTCATGCCGGAGGAGGGTGATGAGCGATTATATTTAGTGTGCGAATAATTTTGTTTGTAAATGCAAATGA -GAAATATACGCATTCATATTTGTCATGTAAACCAAACAGAGAATGTCTTTTCAGCGCATTCGCAGGCAGA -AATGGGAATAATGGCGATATATACGGCAGCAAAACGATTTTTTGCTTAAGAAATCGTGAGTTAAGGTTGA -AAGAGCAGGTTTAACTCGACCATACTCTATACTCGCAGTGTGGCGCGGCGTAGCATGGCGCAACGCATGG -CTATTTGAAAAAGGAAAATGTCGTGGCAGAAGAAACTATATTCAGCAAAATTATTCGTCGTGAGATCCCC -TCCGATATCGTCTACCAGGATGATCTGGTAACGGCGTTTCGCGATATTTCGCCGCAAGCGCCAACGCATA -TTCTGATCATTCCGAATATCCTCATTCCGACTGTGAACGACGTCTCAGCTGAGCATGAGCAGGCGCTGGG -ACGCATGATCACCGTAGCGGCAAAAATTGCTGAGCAAGAAGGTATTGCCGAAGATGGCTATCGTCTGATC -ATGAATACCAACCGCCATGGCGGACAAGAGGTTTACCACATCCATATGCACTTGTTGGGTGGCCGTCCGC -TGGGACCAATGCTGGCGCATAAAGGTCTGTAACGATGAGAAAAGGATGCTTTGGGCTGGTGTCTCTGGTG -TTGTTACTGCTGGTGGGCTGTCGTTCACATCCGGAAATTCCGGTGAATGATGAGCAATCGCTGGTGATGG -AGTCATCTTTATTGGCTGCGGGCATCAGTGCAGAAAAGCCCTTCCTTTCGACGTCTGATATTCAACCTTC -AGCATCCTCAACGCTTTATAACGAAAGGCAAGAACCCGTTACCGTTCATTATCGTTTTTACTGGTATGAC -GCCAGAGGGCTGGAGATGCATCCTCTGGAAAGGCCACGCAGCGTTACCATTCCCGCACATTCGGCGGTAA -CGCTGTACGGCAGCGCCAATTTTCTGGGGGCGCACAAAGTCAGACTTTATCTATATTTGTAAGGGGTGAA -TCTTGATGACAAAAATGAGTCGCTACGCCTTGATTACCGCGCTGGCGATGTTTCTCGCCGGGTGTGTGGG -GCAACGTGAACCTGCACCGGTAGAAGAAGTGAAACCAGCGCCGGAACAACCAGCCGAGCCACAACAGCCT -GTCCCCACAGTGCCCTCGGTGCCGACGATCCCGCAGCAGCCAGGCCCAATTGAGCACGAAGATCAAACTG -CACCGCCTGCGCCGCATATTCGCCATTATGACTGGAATGGCGCAATGCAGCCGATGGTCAGTAAGATGCT -TGGGGCTGACGGGGTGACTGCGGGTAGCGTCCTGCTGGTTGATAGCGTTAACAACCGTACTAACGGTTCG -CTGAATGCCGCAGAAGCGACCGAAACGCTGCGAAATGCGCTGGCTAATAACGGGAAATTTACCCTGGTTT -CCGCCCAGCAACTGTCGATGGCGAAGCAACAGTTAGGTTTGTCGCCGCAGGACAGTTTAGGCACCCGTAG -TAAAGCCATAGGCATTGCCCGCAATGTCGGCGCTCATTACGTGCTGTACTCCAGCGCCTCTGGCAACGTT -AACGCTCCGACCCTACAAATGCAGCTGATGCTGGTGCAGACGGGCGAAATTATCTGGTCAGGTAAAGGTG -CCGTTTCGCAGCAATAATCCCATCACGCGCGACGAATTGCTGTCGCGCTTTTTCCCGCAGTATCATCCCG -TCACGACGTTTAATAGTGGGCTTAGTGGCGGGAGTTTTCTCATTGAACATCAGGGCCAGCGTTTTGTTGT -GCGTCAGCCGCACGATCCTGATGCGCCGCAGTCCGCGTTCTTGCGCCAGTATCGGGCTTTATCACAACTA -CCCGCATGCATTGCACCGAAGCCGCATTTATATCTCCGTGACTGGATGGTAGTCGACTATCTGCCCGGCG -CGGTAAAAACGTATTTGCCGGATACCAACGAACTGGCAGGCTTGCTGTATTATCTACATCAACAACCACG -TTTTGGCTGGCGAATAACGCTGTTGCCGTTACTGGAACTGTACTGGCAGCAAAGCGATCCGGCGCGGCGG -ACAGTGGGTTGGCTGCGAATGTTAAAACGTCTGCGCAAAGCGCGGGAACCACGGCCTTTACGCTTAAGTC -CATTGCATATGGATGTCCACGCCGGAAATTTAGTGCATAGCGCGTCAGGGTTAAAACTCATCGACTGGGA -GTATGCCGGAGATGGTGATATCGCGCTGGAACTGGCGGCGGTGTGGGTGGAAAATACTGAACAGCACCGG -CAATTGGTCAATGACTATGCCACTCGCGCGAAGATTTATCCGGCGCAATTATGGCGTCAGGTCAGGCGAT -GGTTTCCCTGGCTGCTGATGCTCAAAGCAGGGTGGTTTGAGTACCGCTGGCGACAAACCGGCGATCAACA -ATTTATCAGGCTGGCCGATGACACCTGGCGGCAGCTATTAATAAAACAATAAGGAGAGCAGTGTGGGTCC -AGTAATGTTGGATGTCGAAGGTTACGAACTGGACGCGGAAGAGCGTGAAATACTGGCGCATCCGCTGGTG -GGAGGGCTGATTCTCTTTACGCGTAACTATCATGATCCTGCCCAGTTACGTGAACTGGTGCGCCAGATCC -GCGCAGCTTCGCGCAATCGTCTGGTGGTGGCGGTTGATCAGGAAGGTGGACGCGTGCAGCGTTTTCGTGA -AGGTTTTACCCGCTTGCCAGCGGCGCAATCATTCGCTGCGCTGTCAGGAATGGAAGAGGGTGGCAAACTG -GCGCAGGAGGCAGGTTGGTTGATGGCCAGCGAAATGATCGCTATGGATATTGATATCAGCTTTGCGCCTG -TGCTGGATGTCGGGCATATCAGCGCGGCGATTGGCGAGCGTTCTTATCATGCCGATCCACAAAAAGCCCT -GGCAATTGCCAGCCGGTTTATTGATGGTATGCATGAAGCCGGAATGAAAACGACCGGGAAACACTTCCCA -GGACACGGTGCAGTAACGGCAGACTCACACAAAGAAACACCGTGCGATCCACGTCCACAAGCGGAGATTC -GCGCTAAAGATATGTCGGTCTTCAGTTCCTTAATCCGCGAAAATAAACTCGACGCCATTATGCCTGCGCA -TGTGATCTACAGTGATGTTGATCCGCGTCCGGCGAGCGGTTCTCCCTACTGGCTGAAAACCGTTTTGCGT -CAGGAACTGGGTTTTGACGGCGTGATTTTCTCTGACGATTTATCGATGGAAGGTGCCGCGATTATGGGCA -GTTATGCCGAACGCGGGCAGGCTTCACTGGATGCGGGTTGCGATATGATCCTGGTCTGCAATAATCGTAA -AGGGGCCGTCAGCGTGTTAGATAATCTGTCACCGATCAAGGCAGAACGTGTTACACGTTTGTATCATAAA -GGTTCATTTTCGCGACAGGAACTGATGGACTCGGCTCGCTGGAAAGCGATCAGCACCCGTCTGAATCAGT -TACATGAACGCTGGCAGGAAGAGAAAGCAGGTCACTAACCCTGGCTTATGTGAGGAAGCGATGATTATCT -ATTTACACGGTTTTGACTCTAACAGTCCGGGTAACCACGAGAAAGTCTTACAATTGCAGTTTATTGACCC -GGATGTACGCTTGATAAGCTACAGTACGCGGCATCCGAAACATGATATGCAGCATCTGCTTAAAGAAGTG -GACAAAATGTTGCAACTGAACGTTGACGAGCGTCCGCTAATTTGCGGCGTTGGCTTGGGCGGATACTGGG -CGGAACGGATTGGTTTTCTTTGCGACATCCGCCAGGTGATCTTCAACCCTAATTTGTTCCCTTATGAGAA -CATGGAAGGCAAGATTGATCGCCCGGAAGAGTATGCCGATATTGCCACTAAGTGTGTGACCAACTTCCGT -GAGAAGAATCGCGATCGTTGCCTGGTGATTTTGTCGCGTAATGATGAAGCGCTTAACAGCCAGCGGACAT -CTGAAGAGTTGCATCATTATTACGAGATTGTCTGGGACGAAGAGCAGACGCACAAATTCAAGAATATCTC -CCCGCATTTACAGCGCATTAAAGCGTTCAAAACCCTCGGGTAAATGCCCTCGTCGCATCAGGTAACCTTG -CCGGTACCTGATGCGCTCCGAATTCTGTGGGTCGGATAAGGCGTCCACGCCGCATCCGACAGTCGAGCAT -CAATGCCTGATGCGCTTCTTATCAGGCCTACCGAACGCCCTGCATACACCCCTCACTCTATATCACTCTC -ACAAATTCGCTCAAATAATAAACAATAAACTCTGTTTTTTGATCTCACCCGGTAAAGTCGCCTATCTTTT -CAGCAACAAAACTTGATTAACATCAATTTTGGTATGACCAATGCACCATTCATGTTATTCTCAATAGCGA -AGAACATTTTCATTGCTGTAACCTGTTGTTAATTAAGAGCTATGTTAATAACCATTAATTAACAATTGGT -TAATAAATTTAAGGGGGTCACGTTGACTACGCCATTGAAAAAGATTGTGATTGTCGGCGGCGGTGCTGGT -GGGCTGGAAATGGCAACACAGCTGGGGCATAAGCTGGGACGCAAGAAAAAAGCCAAAATTACGCTGGTCG -ATCGTAACCACAGCCACCTGTGGAAACCGCTGCTGCACGAAGTGGCGACTGGCTCGCTTGATGAAGGCGT -CGATGCGTTGAGCTATCTGGCCCATGCGCGCAATCATGGTTTCCAGTTCCAGCTGGGTTCCGTCATTGAT -ATTGATCGTGAAGCGAAAACAATCACTATTGCAGAACTGCGCGACGAGAAAGGTGAACTGCTGGTTCCGG -AACGTAAAATCGCCTATGACACCCTGGTAATGGCGCTGGGTAGCACCTCTAACGATTTCAATACGCCAGG -TGTCAAAGAGAACTGCATTTTCCTCGATAACCCGCACCAGGCGCGTCGCTTCCACCAGGAGATGCTGAAT -TTGTTCCTGAAATACTCCGCCAACCTGGGCGCGAATGGCAAAGTGAACATTGCGATTGTCGGCGGCGGCG -CGACGGGTGTAGAACTCTCCGCTGAATTGCACAACGCGGTCAAGCAACTGCACAGCTACGGTTACAAAGG -CCTGACCAACGAAGCCCTGAACGTAACGCTGGTAGAAGCGGGAGAACGTATTTTGCCTGCGTTACCGCCA -CGTATCTCTGCTGCGGCCCACAACGAGCTAACGAAACTTGGCGTTCGCGTGCTGACGCAAACCATGGTCA -CCAGTGCTGATGAAGGCGGCCTGCACACTAAAGATGGCGAATATATTGAGGCTGATCTGATGGTATGGGC -AGCCGGGATCAAAGCGCCAGACTTCCTGAAAGATATCGGTGGTCTTGAAACTAACCGTATCAACCAGCTG -GTGGTGGAACCGACGCTGCAAACCACCCGCGATCCAGACATTTACGCTATTGGCGACTGCGCGTCATGCC -CGCGTCCGGAAGGGGGCTTTGTTCCGCCGCGTGCTCAGGCTGCACACCAGATGGCGACTTGCGCAATGAA -CAACATTCTGGCGCAGATGAACGGTAAGCCGCTGAAAAATTATCAGTATAAAGATCATGGTTCGCTGGTA -TCGCTGTCGAACTTCTCCACCGTCGGTAGCCTGATGGGTAACCTGACGCGCGGCTCAATGATGATTGAAG -GACGAATTGCGCGCTTTGTATATATCTCGCTATACCGAATGCATCAGATTGCGCTGCATGGTTACTTTAA -AACCGGATTAATGATGCTGGTGGGGAGTATTAACCGCGTTATCCGTCCGCGTTTGAAGTTGCATTAATCG -ACGTACACTGGCGGATGTGGCATAAACGCCTCATCCGCCCTTGAGGAACAGCGCGATCGGCAGCCGCGTT -GTATCAGGCATCCTTTCAGACTCCTCCGAATCCTTAAGTATTTCCAGCCATTCCCGCGCTTTTCATCTTC -TGTCTGATAGCTGCTTTTCTCCTTCGCTTGCATGATTGGCATAACTGCAAAGAAGGAGGTGTTCCCGTGA -ATAAATCAATGTTGGCGGGTATCGGGATTGGTGTCGCAGCTGCGCTGGGCGTAGCGGCAGTGGCCAGTCT -GAACGTGTTTGAACGGGGCCCGCAATACGCTCAGGTTGTTTCTGCAACCCCAATCAAGGAAACGGTTAAA -ACACCGCGTCAGGAGTGTCGCAACGTCACAGTGACCCATCGTCGACCGGTGCAGGATGAAAATCGCATTA -CCGGGTCGGTGCTCGGCGCTGTTGCTGGCGGCGTGATAGGGCATCAGTTTGGTGGTGGTCGCGGTAAAGA -TGTCGCCACTGTTGTGGGGGCGCTGGGTGGTGGATATGCCGGTAACCAGATCCAGGGCTCTCTCCAGGAA -AGCGATACTTACACGACTACGCAACAGCGTTGTAAAACGGTGTATGACAAGTCAGAAAAAATGCTCGGTT -ATGATGTGACCTATAAGATTGGCGATCAGCAGGGCAAAATCCGCATGGACCGCGATCCGGGTACGCAGAT -CCCGCTAGATAGCAACGGGCAACTGATTTTGAATAACAAAGTATAACAAGGCTGTACTCTGCAATTTGGC -CCCTCATTCGCTCAGGCTGAGGGGCTTTTTTTGCGACTTATTTCACCAGTTCGGGCCATAAACGCAAAGT -CGTTCCGGCAATCTGCATCAGTTTTTCCAGCGATGCACCTTCGCGTGCGCTGATCGACATCCCCTGAATA -ATACAATTAAGGAATTCTGCCAGATGTGTCACGTCACAGTGGGGCGGGATTTCCCCGCGCGCTTGTCGTT -GACATAAAAACTGCTGCAAAGTGCGCTCTTGCATCGCATGGCGTGATTTCAACGTATTGGCGATATCTCC -TGAATCTGGGGAGAGGGTGGTGCAGTTGTTGATCATGAAGCAGCCTGCCGGGGTGTCTTTGCTGGTAAAG -CAGTTGGCGATGGCAGCAAAATAGTCAGCCAGCGCAGACTCCACGCTTTTCTCTTCACAAAACAGCTGTG -CTTCATGCTTAGCGGCAAAACGATCGATATAGCGGTCGAGAACGGCACGAAATAACCCCTCTTTGTTGGT -AAATTCCGCGTATAGCGTGGGCGCTTTGGCTCCGGTCGCTTCGACGAGGTCCGCAAGAGAAGTCGCTTCA -TAACCGTGTTGCCAGAACAATTTCATGGCCTTATCAAGCGCGGCATCCCTGTCGAACACTTTTGGGCGGC -CACGGCTTTTTTTTACACATTGTGTTGAGTCAGTTGCCATGATGCCGTTGTACCTGGTGACTGTGAATGA -AAGGTTATTATAAAAATAATCACCTCCGTTCACCAGTCCAGATCCCATAAAAATAATTGCTTTCTATTTA -ACTGAAATTTAAAGATTTTTAAATTAATTAATGATTGTTATAAAAAATATCTTGTATGTGATCCAGATCA -CATCTATCATTTAGTTATCGATCGTTAAGTAATTGCTTGCGACGTCATTCATCTGCATAAGGCCACTATT -ATGAAAAACGTAAAAACCCTCATCGCTGCGGCGATTTTAAGCTCCATGTCATTTGCCAGCTTTGCGGCTG -TCGAAGTTCAGTCAACGCCAGAAGGCCAACAAAAAGTCGGTACAATCAGTGCTAACGCGGGGACAAATCT -GGGATCGCTGGAAGAGCAGCTGGCGCAAAAAGCGGATGAGATGGGCGCAAAATCTTTCCGTATTACTTCT -GTAACCGGTCCGAATACCCTCCATGGAACAGCAGTAATTTATAAATAAGCATTAACCCTCATTAATGCCT -GCTACTGCTGATTTTTTCCCCGCGACATGCCGTGTCGCGGGGATTTTTTTATCCGGGCTTTACAGCGTTT -GTGGGCTCACTTGATGACGGCGGACATCCACCGGCATCCCGGAACGGACATCCATCACATGTTGCATCAC -TTCAGCGTCAGTTTGTGCTGCATCTTTAAATGATTGCATTGCGCTATTCAGCGTAATTGGCAGCAGCTGC -GGATCGTCATCAATCTTCTCTGACAGCGGCTGATGTACTTCAACCAGACGCGCACCGTTTGGTTCGGCAG -AGACTTTTATCGGAGTGTTGATGATATTCACTTTGGTGCCTGGGGTGACCTGGCTAAAGAGTGTTTTGAT -ATCGTCATCCCGCAGACGAATACAGCCAGAACTTACCCGCATGCCAATGCCGAAATCGGCGTTCGTACCA -TGAAGCAAATAAACGCCGCCATAGGCCGCCAGACGAATCGCATGATGGCCCATTGGGTTATCCGGTCCAG -CCGGCACTACCGCAGGCAACTCAATTCCCTGTGCTTTATAACGGGCGCGGATGTTTGCCGTTGGCGTCCA -GGTTGGGTTTGCACGTTTGTCTGAAACGGTGGTCACCATTGTCGGTGTCAGCGTGTCACCACCTAACTGA -CCAATACCTATTGGATACACGGTTACCGAATTTTTACCCGGCGGGTAGTAATAGAGACGCAGCTCCGCAA -TGTTGATCACAATGCCTTCGCGCGGCGCATCTGGAAGTAGGGTTTGCAACGGGATCGTTAACACGCTGCC -CGCGCGCGGTACGTAAGGATCAACGCCGGGGTTAGCCTGTAACAGAGCGAGAAAGCCGACGTTGTATTTT -TTGGCGATGGCTTCCAGAGAACCACCGTCATTTTCCACCACATGAAATTTGTTTTCGCCAACCAGACGAC -TGCCCGCTGGCGGCAGCGGCCAGGTGTTGGCTTTTGCCGGTAGCGCCAGCGCCACGGCAGCGGCGAACGT -AAAAAACGTTAGCCAGCGAGAAAAACGCGTTTTGATCATCACCAAAAATCCATAATAAATATAAGGTTAT -TGTAATAAACAGATAAGCCTGAATTATGGATGGTGACAGTGTCGGATAGTGCAGGGAAGTGCAAAGAATT -TGTAAATGTTGCAGATGGGGGCGCAGAAACGCCCCCGATTTACCATTAAGCGATCGCGTTCTCTTCCAGT -TCACGCATAAACTGGCGTACCCATTCGATACGCGTTTTCCGCTCACTCAAATCCTGAATAAATTTCAGGC -GCGTCGGACCATCAAGGCGGTAATGCTGCGGCTGTTTTTGCAGCAAACCAATCAACCAGGCCGGATTAAC -GTGATTCTTCTCGGCAAATTCGATCACCCCGCCTTTCTCATTACCTTCCAGCTTCCTGATCCCCAGTTTC -TGCGCTTGCTGGCGCAGACGGGCAATATCCAGCAGGGTACGCGCCGGATCTGGCAGCAGGCCGAAGCGAT -CGATAAGCTCGACTTTGATCTCTTCCAGTTCGTTTTCCGTTTTGGCGCTGGCAATACGTTTGTAGAACGA -CAGACGCGTGTTCACGTCAGGGATGAAATCATCTGGCAATAGCGACGGCATCCGCAGCTCGACTTCTGTT -TGCTGGCTGGTGAGATCTTCCAGCGACGGCTCGCGTCCGGCTTTCAGTGCATCGACGGCGTTTTCCAGCA -ACTCCATATACAGCGAGAAACCGATGGTTTCCATTGAGCCGCTTTGTTCTTCGCCAAGCAGTTCACCCGC -GCCGCGAATCTCCAGATCGTGCGTTGCCAGCGCAAAACCTGCCCCGAGATCTTCCAGCGAGGCAATTGCT -TCAAGACGTTTTTGTGCATCGGTAGTCATCGCTTTTGGATGCGGTGTCAGCAACCATGCATATGCCTGAT -GATGCGAACGTCCGACGCGACCGCGTAACTGGTGCAGCTGCGCCAGACCGAAGTGATCCGCGCGTTCAAT -GATAATAGTGTTGGCTGTCGGGATGTCGATCCCGGTTTCGATAATGGTTGTACAAACCAGCACGTTGAAA -CGTTGATGATGGAAATCATTCATCACCCGTTCCAGTTCGCGCTCGCGCATCTGCCCGTGACCGATGGCGA -TCCGCGCTTCTGGCACCAGTTCTGCCAGCCGTTCGGCGGCTTTCTGAATGTTTTCCACATCATTGTAGAG -ATAATAAACCTGTCCTCCGCGCAAAATTTCACGCAGGATCGCCTCCCGGACCACCATGCTGTCATACTCA -CGGACAAAGGTTTTAACTGCCAGACGACGGGCGGGCGGCGTGGCGATAATCGACAGGTCACGCATTCCGC -TCATTGCCATATTCAGCGTACGTGGGATCGGCGTTGCAGTAAGCGTCAGAATATCCACGTTCGCGCGCAT -CGCTTTAATGCGCTCTTTATGACGCACCCCGAAGCGGTGTTCTTCATCGACAATCAGCAGGCCTAAATCT -TTAAACTTGACGTCACTTTGCAGCAGTTTGTGCGTACCGATCAGAATATCGATTTTCCCTTCCGCCACTT -CCGCAAGGATTTGCGTCTGCTCTTTGGCGCTGCGGAAACGGGAGATCATTTCGATACGTACCGGCCAGTT -GGCGAAACGGTCGCGGAAGTTGTCGTAATGCTGCTGCGCGAGAAGGGTGGTAGGCACCAGCACCGCCACC -TGCTTGTGGTTATCTACTGCCAGGAAAGCTGCGCGCATCGCCACTTCTGTTTTACCAAAGCCAACATCGC -CGCACACCAGACGATCCATTGCCAGCGGCTGACACATGTCGCTAAGTACCGCATTAATGGCCTGCGCCTG -ATCCGGCGTGGTTTCAAACGGGAAGCTGTCGCAGAACAACTGATACTGCTCACGATCGTGTTTAAACGCG -AAGCCCTCTTTGGCGGCGCGTTGCGCGTAGATATCCAGCAATTCCGCCGCCACATCACGCACTTTTTCCG -CCGCTTTCTGCCGCGCGCGTGACCACGCATCGCCGCCAAGTTTATGCAGCGGGGCGTTTTCTTCCGCGCC -ACCTGCGTAACGGCTAATCAGATGCAGTGACGACACCGGAACATACAGTTTGGCGTCGTTGGCATAGGTG -AGCATCAGATACTCGCCAGTAATGCCACCCGCTTCCAGCGTGGTCATTCCGGCATAACGACCGACGCCGT -GCTCCAGATGGACCACCGGCTGACCAATATGCAGTTCCGCAAGGTTACGGATCAGTGTATCGGGGTTGAT -GGTGCGGCGAGAATCCTGACGACGACGGGCAACGCGTTCACCGAGCAGATCGCTTTCGCAAATCAGCGCC -AGATTACGCACCGTATCGACAAAACCATGTTCGGCAGCGCCAATCATCAGATAACGCCCACGGTCGCTGG -CTTCATCAAGACGCATAATGCGTTGCGGAGCAATTTTAATTCGTGCGAGCAGTTCACCCAGCGCTTCACG -GCGACCTTCACTTTCTACCGAGAACACCACCGGACCGTCGAAAGTCTCGAGGAACTTACGCAGCGCATCC -AGCGGCGCTTTTTGTTGTGCCTGAACGGCCAGGTCTGGCAGTTTCTGGAAACCTAAATTGGCATTCGCGG -CTTTTGTCGGTAAATGTTCAGTTTTTAGCTGCACCCGGGGCCAGTTTTTCAGCTCTGAGAAGAGCTCGTC -CACCCGCAGCCAGAGCGATTGTGGTGGCAACAGCGGGCGCATCGGATCGACGCCGCGATTCTCAAAACGC -GCCAGCGTGTCAGCCTGGAAACGTTCGGCACTGGTTTCCAGATCGCCAGTATTCACGAGCAAGGTATTGG -CAGGGAAATAACTGAACAGCGGCGGCAGTGGTTCGCTGAAGAACAATGGCTGCCAGTACTCGATCCCGGC -AGGTAATGTGCCTTTACTCACTTGCTGGTAAATATGTTCTGGATCGCGCTTCACTTCGAAGGTATCGCGC -CACTGGCTGCGGAACAGTTCAATTGCCGCTTTATCGGTCGGAAATTCGTGCGCGGGCAGCAGATTGATCG -CTTCTACTTCCTCCAGCGTGCGCTGGCTGTCGACGTCAAACACCCGCAGGCTGTCGATTTCATCATCAAA -GAAATCAAGACGATAAGGCAGCTCACTCCCCATCGGGAAGAGATCCAGCAACGCGCCGCGCGTGGCGTAT -TCGCCGTGCTCCATCACCTGGTCAACATGGCGATAACCGGCGCTGTCCAGTTGGGTTCGTAATGCATCTC -GTGACAGGCGCTGACCTTTTTTCATCACCAGCGCATGACCGTGGAGAAAACTGTGTGGGCAAACGCGCTG -CATAAGCGTATTCACCGGAACAATCAGTACGCCACGCTGCATCGTCGGTAGCTGGTAAAGGGTGGAAAGG -CGCGAGGAGATAATGTCCTGATGAGGCGAAAAACTGTCGTAGGGAAGAGTTTCCCAGTCCGCCAGATTCA -TCACCATTTGATCGGTAAACTGGCTGATTTCATCATGCAAACGCAGAGCATTTTGCATATCTGGTGCAAT -GAGTACCACCGGACCGGCGTGACGTTCGGCAATTTCCGCTACCAGCGTTGCACAGGCTGCGCCGGTTAAC -TCGCCCAGCAGACGCTGCTCACCCGCTTTGACGGGCAGCGTATAACGATATTGTTCAGGCATAACGGTTG -TCAGATTCTCGTTAGGATATGCCTCAACATATGGGGGCATATCTCTGATAAGCAATGCTGTTCATTATCC -GTAATCGACATGGTTTAGCAAATTGAATCGCCCCGGCTGGGGCGATGGCTTAGCGGGAGTAACTGACGGC -AGCGGGCAGTGAAGGCGGGGAGAACAACAGATCGCTGAATGCACGCTGTGAAAGTTTTCTTACCAGCAAG -CCCGCAACAGTACAGATGAACAAACTGACAAAGGGATAAACCAGCAGGAGTGTCAGTTCGACTTGCGGCG -ACCAGCGTGCTGCGTTCATTTGCGCAAGCAGAGTTAAGCTGAATATTTCAACCAGAATGCGATGGGTGGT -GTAGATAGCAATGGTGTTGGAGCCAATCACATTCAGCAGGCTGGTGGAGCGCATACCGAATCGTTGCTCG -TATTGATAAAACAGCTTCATGATCACCACAATCGATACCAGCGACAACAGCAGCGAGATAGTAAACAACC -AGGCACCGACCGCCAGAACGGTAAGCAAAGAAGCCATCAGCAGATGGCGGCGCAACGGCACCTCTTTAAC -ACAGGTCATTATTGTTGCGCCAAACCATGCGCCAAGGCTGTAATAAGGCAAATTGCGGATCACACTGTTC -ATTCCCCACCACGGCGTGGGAACGAAATTAACCGCCACACTCAGCAGTACAAACAAGGCGAATAGTGGCA -GCGCCAGACGGCTAAAAATTTTACATACCACGAAATAGACAATTAACGCATACAGATACCACAAGCTGGT -GCTGGCGGTGATCATCCCGTGCAGGAACTCACCGGTGGAATCGGCATAAGCGGCATTGGAGGCATTGCTT -AAATCGCGCTCAGGTGCCAGCCACTGGTTCAGCGCACTTAACGCCAGCCACTGCACCACGCCCCAAAGCG -CCAGCACCCAGAAGATGTTCCAGATCCGTTTATCGAGACAATTTCCCCACGGTACGCTGTCGATATAGCG -GCGAATCAAATAGCCGGATATAAAGAAAAAAACCGGCATACGAAAGGGGGCAAGGTAAAGATTGAAATAG -ATCCAGCATTTGCTCAGGACTTCCGATAACGGATGCTGAAAAGTGGTCAGATGCGGATAAAAGGTAATGA -CCGAGTGATAAATCACCACCAGACAAATACATAACCCTTTGATCTGGTTAATCCATAGCTCTTTTTGTTT -CATCAGGACAACACGCTCTTTTTTAATTTACATGCGGTTGATCCTGCGGGTTATGACCCGAGGTGTAATG -GGTATCTGTCTGTATTGGATGATTTTTCAGATTAAGATCAGGCGGCAAGATTGATGATAAAACATGGCAA -TTTAGCCGATTGATTTACGGGGGCTTTTCAGATTAGCCCTGACGATCACTTACAGTTCAGACGTTTACCC -ATCTTGCTTTCGCTTATATACTCGTGTCTTTGCTACAGCAACCAGACGGATTTCATGTACCAACCTGTCG -CTCTATTTATTGGCCTGCGTTACATGCGTGGGCGTGCAGCGGATCGCTTCGGTCGTTTCGTCTCCTGGCT -TTCTACCATCGGCATTACCCTCGGGGTGATGGCGCTGGTCACAGTATTGTCAGTGATGAACGGCTTTGAG -CGCGAGCTGCAAAACAACATCCTTGGCCTGATGCCACAGGCAATTCTCTCTTCTGAGCATGGCTCTCTTA -ACCCGCAGCAACTCCCAGAAACGGCAGTCAAACTGGACGGCGTTAATCGCGTCGCACCTATTACTACCGG -TGATGTGGTACTGCAAAGCGCGCGCAGCGTGGCGGTCGGGGTGATGCTCGGTATCGACCCGGCGCAAAAA -GATCCACTTACACCGTATCTGGTCAATGTGAAACAAACTGACCTCGAGCCGGGGAAATATAATGTCATCC -TCGGCGAACAACTTGCCTCACAGCTAGGCGTTAATCGCGGTGATCAAATCCGCGTGATGGTACCATCTGC -CAGCCAGTTCACGCCGATGGGGCGTATTCCAAGCCAGCGCCTGTTCAATGTGATTGGCACTTTCGCCGCC -AACAGTGAAGTCGATGGCTATGAAATGCTGGTGAATATTGAGGATGCCTCGCGTCTGATGCGTTATCCGG -CAGGCAATATTACCGGCTGGCGTTTGTGGCTGGATGAGCCGCTGAAAGTCGACTCATTAAGTCAGCAAAA -ACTGCCTGAAGGCAGCAAATGGCAGGACTGGCGTGATCGTAAAGGCGAGTTGTTCCAGGCCGTACGCATG -GAAAAAAATATGATGGGTTTACTGCTGAGCCTGATTGTCGCCGTTGCGGCGTTTAACATTATTACCTCAC -TAGGGCTGATGGTAATGGAGAAGCAGGGCGAAGTAGCGATCCTGCAAACGCAAGGCTTAACTCCGCGACA -AATCATGATGGTCTTTATGGTGCAAGGGGCCAGCGCCGGGATTATCGGTGCGATCCTCGGAGCGGCGCTT -GGCGCCCTGCTTGCCAGCCAGTTAAATAATCTGATGCCGATAATCGGCGTCCTGCTTGATGGCGCGGCGC -TGCCGGTGGCTATCGAACCTTTACAGGTCATTGTTATTGCGCTGGTGGCGATGGCTATCGCGCTGCTGTC -TACGCTTTACCCTTCATGGCGCGCTGCCGCCACTCAACCCGCTGAGGCTTTACGTTATGAATAAGATCCT -GTTGCAATGCGACAACCTGTGCAAACGCTATCAGGAAGGCAGTGTGCAAACCGATGTGCTGCACAATGTC -AGTTTCAGCGTCGGCGAAGGTGAAATGATGGCGATCGTCGGTAGCTCTGGTTCCGGTAAAAGTACCTTGC -TGCACCTGCTGGGCGGGCTGGATACGCCAACCTCCGGCGATGTGATTTTTAATGGTCAGCCAATGAGCAA -ACTGTCGTCGGCAGCGAAAGCTGAACTGCGCAACCAGAAGCTGGGCTTTATTTATCAGTTTCACCACCTG -CTGCCGGATTTTACCGCCCTGGAAAACGTGGCTATGCCGCTGCTGATTGGCAAGAAAAAGCCCGCTGAAA -TCAACAGCCGTGCACTTGAGATGTTAAAAGCGGTGGGGCTGGATCATCGTGCGAATCACCGCCCATCTGA -ACTTTCTGGCGGCGAACGCCAGCGTGTGGCGATTGCCCGTGCGCTGGTGAATAACCCGCGCCTGGTACTG -GCGGATGAACCTACCGGTAACCTCGATGCGCGTAACGCCGACAGCATCTTCCAGTTGCTTGGGGAATTGA -ATCGCTTGCAGGGCACCGCCTTCCTGGTGGTTACTCACGACCTGCAACTGGCGAAACGTATGAGCCGCCA -GTTAGAAATGCGTGATGGTCGTCTGACGGCGGAACTGAGCCTGATGGGGGCGGAGTAATGGCGATGCCTT -TATCGTTATTAATTGGCCTGCGTTTTAGTCGCGGACGGCGGCGCGGCGGCATGGTGTCGCTGATCTCCGT -TATTTCTACCATTGGCATTGCCCTCGGCGTGGCGGTATTGATCGTCGGCTTAAGCGCGATGAACGGCTTT -GAACGCGAACTGAACAACCGTATTCTGGCGGTGGTGCCGCATGGTGAAATCGAGGCGGTGGATCAGCCGT -GGACTAACTGGCAGGAAGCACTGGATCACGTGCAAAAAGTGCCGGGTATTGCCGCTGCCGCGCCGTATAT -CAATTTCACCGGGCTGGTGGAAAGTGGCGCGAATCTTCGCGCAATCCAGGTGAAGGGCGTTAACCCGCAA -CAGGAACAGCGTCTGAGCGCATTACCCTCGTTTGTCCAGGGCGATGCGTGGCGCAATTTTAAAGCGGGCG -AACAGCAAATTATCATCGGCAAAGGCGTGGCGGATGCGCTGAAAGTGAAGCAGGGGGATTGGGTGTCGAT -TATGATCCCCAACTCGAATCCCGAGCATAAACTGATGCAGCCAAAACGTGTGCGTTTGCACGTTGCCGGT -ATTTTGCAGTTGAGTGGTCAACTCGATCACAGTTTTGCCATGATCCCGCTGGCGGATGCCCAACAATATC -TTGATATGGGTTCCAGCGTGTCAGGTATTGCCCTTAAAATGACGGATGTTTTCAACGCCAATAAGCTGGT -ACGCGATGCGGGTGAAGTGACCAACAGCTATGTTTATATTAAAAGCTGGATTGGTACTTACGGCTATATG -TATCGCGATATCCAAATGATCCGCGCCATTATGTATCTGGCGATGGTACTGGTGATTGGCGTGGCCTGTT -TCAACATCGTCTCCACCTTAGTGATGGCGGTGAAAGACAAGAGTGGCGATATCGCAGTATTAAGAACGCT -GGGGGCGAAAGATGGTTTAATTCGCGCCATCTTTGTCTGGTATGGATTGCTGGCAGGGCTGTTCGGCAGC -CTGTGTGGTGTGATTATCGGCGTAGTGGTTTCACTGCAACTTACCCCGATTATTGAGTGGATTGAAAAGT -TGATCGGTCATCAGTTCCTCTCCAGCGATATCTATTTTATTGATTTCCTGCCATCGGAATTGCACTGGCT -GGACGTCTTCTACGTACTGGTCACAGCATTGTTGCTGAGTCTTTTGGCAAGTTGGTATCCGGCGCGGCGC -GCCAGTAATATTGACCCTGCGCGAGTCCTTAGCGGCCAGTAAAGGCAGTACATTAAAACAAGGAGCGGCA -ATGTATTACGGGTTTGATATTGGTGGAACAAAAATTGCGCTTGGCGTGTTTGATAGCGGTCGGCAGTTGC -AGTGGGAAAAGCGGGTGCCGACACCGCGTGACAGCTATGACGCATTTTTAGATGCAGTGTGTGAGCTGGT -AGCTGAAGCTGACCAACGTTTTGGCTGTAAAGGTTCTGTCGGCATCGGTATTCCGGGAATGCCGGAAACA -GAAGATGGTACGCTGTATGCCGCCAATGTCCCCGCTGCCAGCGGTAAACCGCTGCGTGCCGACCTGAGCG -CACGTCTTGATCGCGATGTACGCCTTGATAACGATGCCAACTGTTTTGCCCTTTCAGAAGCCTGGGATGA -TGAATTTACTCAATATCCACTGGTGATGGGGTTGATTCTCGGCACCGGTGTTGGCGGCGGGCTGATTTTC -AACGGCAAACCGATTACCGGTAAAAGCTACATTACCGGCGAGTTTGGCCATATGCGTCTGCCGGTTGATG -CGTTAACCATGATGGGGTTGGATTTCCCGTTACGCCGCTGCGGCTGTGGTCAGCATGGCTGCATTGAAAA -TTATCTGTCTGGTCGCGGTTTTGCGTGGCTGTATCAACACTATTATCATCAACCGTTGCAGGCTCCCGAA -ATTATTGCGCTTTATGATCAAGGCGATGAGCAGGCAAGGGCGCACGTTGAGCGTTATCTGGATTTATTAG -CGGTTTGTCTGGGAAATATCCTGACCATCGTTGACCCTGACCTGGTCGTCATTGGTGGTGGCTTATCGAA -TTTCCCGGCAATCACAACGCAACTGGCGGACAGGCTGCCTCGTCATCTCTTACCTGTAGCTCGTGTTCCG -CGCATTGAACGCGCGCGCCACGGTGATGCGGGAGGAATGCGTGGTGCGGCCTTCCTACATCTAACCGATT -AAACAACAGAGGTTGCTATGCTGTCGCGTCGGGGTCATCGGTTAAGTCGTTTTCGTAAAAATAAACGCCG -CCTGCGCGAGCGTTTGCGTCAGCGTATTTTTTTCAGAGATAAAGTGGTGCCGGAAGCAATGGAAAAACCA -AGAGTACTCGTACTGACAGGGGCAGGAATTTCTGCGGAATCAGGTATTCGTACCTTTCGCGCCGCAGATG -GCCTGTGGGAAGAACATCGGGTTGAAGATGTGGCAACGCCGGAAGGTTTCGATCGCGATCCTGAACTGGT -GCAAGCGTTTTATAACGCCCGTCGTCGACAGCTGCAGCAGCCAGAAATTCAGCCTAACGCCGCGCATCTT -GCGCTGGCTAAACTGCAAGACGCCCTCGGCGATCGCTTTTTGCTGGTGACGCAGAATATCGACAACCTGC -ATGAACGCGCAGGTAATACCAATGTGATTCATATGCATGGGGAACTGCTGAAAGTGCGTTGTTCACAAAG -TGGTCAGGTTCTCGACTGGACAGGAGACGTTACCCCAGAAGATAAATGCCATTGTTGCCAGTTTCCGGCA -CCCTTGCGCCCGCACGTAGTGTGGTTTGGCGAAATGCCACTCGGCATGGATGAAATTTATATGGCGTTGT -CGATGGCCGATATTTTCATTGCCATTGGCACATCCGGGCATGTTTATCCGGCGGCTGGGTTTGTTCACGA -AGCGAAACTGCATGGCGCGCACACCGTGGAACTGAATCTTGAACCGAGTCAGGTTGGTAATGAATTTGCC -GAGAAATATTACGGCCCGGCAAGCCAGGTGGTGCCTGAGTTTGTTGAAAAGTTGCTGAAGGGATTAAAAG -CGGGAAGCATTGCCTGATGCACTACGCTTATCAGGCCTGCAAGGGGACGCAATTAATTGAATTTGCGGGT -TTTGTGGGCCGGATAAGGCGTTCGCGCCCCATCCGGAATAATACACGCGCACTTTTCCGGCCTCTTTTAT -CGTTTACTCGTCAATAACAATGCGGCAATAAACGTACAGACACCAATTAGCCCTGCCCAGAGTGGCGATA -TTCTGGTAATCGCAAAGCTATTATCGATATACAAACATAAAGCCTGATAACCCATATTGGCAATAGTCAT -CGCCACTGCAAATTTTAACGCATAAATAAAACGAGTCGTGTAGTAAAAGATCCTGGAAAATAAGATAAAC -GTCGCAGCCCAGGCGATAAAACCTAATGTGTTGGTGCTGCCGGGGGGAGCATTTTCATGCTGTTGTCCTG -GATGCGGATAATACGTTAGTGGCGGCGTCGATTGTTTTAATATCTGTGCTTGTAGAACAGCCAATGCATT -ATTGATTCCCTGATACCAGAGATCTGCATTTAAATAAGCCAGCGTGTGATTTTCTATCAGAAGGCCGAGA -TGTTTATCGTCCAGACCACTTTCAACCTGGCCGTTGGTGATCATAATTAACCGTGGTTCGCGGGTAGTAA -ATAGTAACAGAACACTTCCTTTTACATCACTCAATGAAGATGACGCATGCGCCAGCATCGCTTTACCATT -TTGTCTGAGACTGGCTTCATTATTAATGTCGGGTAAAACCACAATAAACGGTGCAATTCCCGTTTGTTGG -CGAAAAAGCTCGGCTTTATGCGCGATCTCTTCAGCATCTGGTACAGTACCGGTAACGTCCGTAAAAAGTG -TCTTCATTATTGGAATTAATGGCTTGCTGGCTGCTGTCAGAGGCAGGAGTATCAGTAAACTGAGCAGTAT -AATGAATTTTTTCATGGGCGGGACTTCCGTTTCCTGCGTGATTTTTTAGAGGAGGGCATACTTATTAATA -AACCGACGGCGATAAAAATAACGCCCATAATGCCGATAAACCCCCATTTAAAAAAATTAACCCACGGGTT -ATTTATCTCAGCCTTTTCAGGATGCCCGGGAGAATAATAAACATTAACTTTATCGCCTTCGCTGTCTTCA -TAAAAATCGCTGCCGATACTCGAATTGAAAATTAGCGTGTAATCTGGCGTCGGTCGAAAGGCAACGACGG -GATACCACGAACCATCTTTACCCGTGCGATGAGAATGACTGGAGTGCCAGACGGTATCAACAATGACGCC -TTCGGTATGAATCGCGTCTTTGCTATAGGTGAACTGGTTATAAAAGACAACAACAGAAATGAGGATCAGT -ACCAGACCGATACCGAGGAATATACGAAAGAAAACTTTACTGTCCTGACTCATTAGCCACATCCTTGCTA -ACTAAAAAACGGGCGGTAATACCACCGCCCGCTTGCTGAATTAACGTCCTGCTTTCAGCTTCTGATAATA -CTCTTCATAAATGCTGCTGGCTGCGCCAACGTCATTCTGCCATTCGCCATTTTTAATGGTTTCAGCATCC -GGGTAGAGTGTTTTATCGTTCGCCACTTCTGGACTTAACAGCTTACGCGCCGCAAGGTTTGGCGTTGGAT -AACCGATAGTTTCAGCAACCTGTTTTGCCACATCCGGGCGCAGCAGGAAGTTGATCAATTTCAGCGCGCC -TTCTTTGTTTTTGGCATTTGCCGGGATCGCCAGGCTGTCCATCCAGAAAATGCCGCCTTCTTTCGGCCAC -ACCACGTCAATTGGCGTACCCGCCTGGCGTGCAACGAAAGCAGAACCGTTCCAGATCATGCCGAGGTTAA -CTTCGCCTTCCATGTACGGGTTCGCCGGGTTATCGGAGTTAAAGGCTGCCACGTTTGGCATCAGTTTTTT -CAGCTCGTTATATGCAGCTTCAATCTCTTTCGGATCGGTGGTGTTACCGGAGTAGCCCAGCTTACGCAGC -GCCATCTGGAACACTTCACGGGCATCGTCGGTCAACAGCAGGCTGCCTTTGTACTCTGGCTTCCACAGAT -CGGCCCAGCTGGTGACAGATTTCGGATCCACCGCATCACCGTTAACACCAATCGCCGTCGCACCCCAGAT -ATACGGAATGGAGTAGTCGTTATTCGGGTCAAAAGGCTTGTTGAGCATGTCTGGATCGAGATTGCTGAAG -TTTGTTAACTTCGACTTGTCGATCTTCTGGATCATCCCTTCTTTACGCATTTTATCAACGTAATAGGTTG -AAGGAACCACCAGATCATAGGCACCGTCTTTGTATGTTTTCAGCTTGGCGTACATGGTTTCGTTCGACTC -GTAAGTCGAATAGATAACCTTAATACCGGTTTCTTTGGTGAACTGTTCAAGCAGTCCTGGCGGCACGTAC -TCGGTCCAGTTGTAGAAATACAGCGTGTTGTTGTCATCGGCGTGAGCGGCGCTCATGCCCAGTGCCAGAG -CACCCGCCGCGAGCAGGTGGCGTGACCATTTTTTCATTTAACGTCCCCTGTGTTACCTTTCGTTTTATCA -CGAGCAATAAGCTGGCTGGCAATAACCATCACCAGCGACAGCACCAGTAATATGGTTGCCAGCGCGTTAA -CTTCCGGCGATACGCCGACTTTGACCATCGAATAAATTTTTAACGGCAGAATTTCATAACTTGGTCCGGT -GACGAACGAAGAAACTACCACATCGTCCATCGACAGGGTAAAGCTTAACACCCAGCCCGCCGCCACCGCT -GGCATTGCCAGTGGCAGAATGATTTTTCGCAGAATGGTAAATTCGCTGGCACCGAGATCTTTCGCCGCTT -CCAGCATTCGCACGTCAAAACCTTTCAGGCGCGAATACACCGTCACCACCACAAATGGCAGGCAGAAGGT -GATATGCGAGAACAGCAGCGACCAGAAGCCAAGCTGAATACCCAGCAGCATAAACAGCACCAGCAGCGAA -ATCGCCATCACGATATCTGGTGACATCATCACCACAAACAGCATTCCGCTAACGAACGGCTTACCACGAA -AGCGATAACGGTACAGCGCAACTGCCGTCAGTGAACCGATAAGCGTAGCAAACGTCGCCGAAAACACCGC -CATTGTTAGTGAATGCTGCGCTGCCTGTAACAGGCTGTCGTTGTTCATCAGCAGGCTATACCATTTGGTG -GTAAAGCCCTGCCAGTTGATGCCAAAGCGCGAGCTGTTAAAGGAGTTCACAATCAAAATAATGATTGGGA -TATACAGGTACGCGTAGATAGCGGTCATAAAACCGCCGCGAAGCAGTCGACCGATCATTCGAGTTCCACC -TTCTTATTCAGCAAACGAGAAGCGCGCCAGTAAACCAGCAACATCAGGCCCATTACGATAGTCAGCGTAA -TGCTGGTAGCTGCACCAAACGGCCAGTCACGAATATTAAGGAACTGGACCTTGATGACGTTACCGATCAG -CAGGTTTTTCGCACCGCCCATCAGGTCGGATACATAGAACAGGCCCATCGCTGGCAGCATCACCAGCAGA -CATCCGGCAATAATTCCCGGCATCGTCAGTGGAATAATGATACGGATAAAAGTCTGTAACTTGCTGGCAC -CGAGATCGCGCGCCGCCTCAAGCAACGGCTTATCCAGTTTTTCGATACTGGAGTACAGCGGCATCACCAT -AAACGGCAGCAGAATGTAAACCAGACCGATAATCACCGCACTGGGCGTGAACATGATACGGATTGGTGTG -TCGATAACGCCCAGCCAGAGCAAAAACTCGTTGAGATAGCCTTTGGTGCTGAGGAAAATTTTCAGCCCGT -AGATACGAATTAATGAGTTGGTCCAGAACGGAACAATCAGCAGAAACAGCAGCAGCGGACGCACCTTGTG -TGGCAACTTCGCCAGAAACCAGGCAAACGGGTAGCCCAGCACCAGGCAGGCGAGGGTGGCGATCAGCGCC -ATATTCAGCGAGTGCAATAGCACTTCAAAATAGAGCGGATCGAGCAGACGCGTGTAGTTATCCAGCGTAA -AGACCATTTTGACAAAACTGGCGTCGTCGCGGGTCAAAAAGCTGGTGCCAATGATCATCAGGTTGGGCAG -AAAGACAAACAACACAAGCCAACCGACAATAGTGACAATCACTACATTCTGGAACTTACTTGTGTTCTTC -ATCAGCCAGTACGACCTCCCAGCTTTCTACCCAATTAATGGCCATTTTTTGGTCGAGAGAGTGGTCAAAG -TCAGGATCGTCTTCATTGAAGAATTCGCTGACCATCACCATCTTGCCATTTTCCAGTTCAACAACCGACT -CCAGCGTCATGCCTTTGTAGTTACGCTCGCGAACGTAACCAATCAGCCCTTCAGCGTGGTTGTCGTCGTT -AATCTCTTCAACACGTAAGTCTTCCGGGCGCAGCAGAACATGCAGTTTTTGCCCCGGTTCAACGGCGAAG -TTAACGTAGATATTACATTCGCGGCCTTCAACGTTGGCGCGTACGCGCTGCTCGTCTAGACGTTCGATGA -CAGTGGCGTTAAACATATTGATTTCGCCAATGAAGCCGGCAACAAACAGGTTTTTCGGCTCTTCGTAGAT -TTCACGCGGCGTGCCGTCTTGCTCAATGCGACCATCGCGCATCACCACAATCCTGTCTGACATGGTGAGT -GCTTCTTCCTGGTCGTGAGTCACAAAGACGAATGTAATGCCAAGCTTACGCTGTAACGCTTTCAGCTCGT -TCTGCATTTGCTTACGCAGTTTGTAATCCAGCGCTGAGAGCGACTCATCCAGCAACAACAGACGAGGCTT -GTTAACCACCGCGCGAGCAATGGCGACGCGTTGCTGTTGACCACCAGAGAGCTGATGCGGTTTGCGTTGA -GCGAAGGTTTCCAACTGCACCATCCGCAGGGCTTCCATCACGCGGGGCGTAATTTCAGCAGCGGGGGTTT -TTTGCATGCGCAACCCAAAGGCCACATTTTCGAACACGGTCATGTGGGGGAAAAGTGCGTAGCTTTGGAA -AACAGTGTTCACATAGCGGTTTTCCGCCGGAACGTGGGTGATGTCCTCGTTATCCAGCATGATGCGTCCG -GAATCAACAGTTTCCAGACCTGCAATCAGGCGAAGAACGGTTGTTTTACCGCAGCCAGAAGGGCCAAGCA -GCGTGAGGAACTCGCCATTGTTGATAGTCAGATCCAGCTGGGGAATGACCTCTTTACCATCAAAGCATTT -GCGAATTCCCGCCAATTGCACCAGCGGTGAAAGCGAACTCGGTTGTTTATTCAATTTTTTACTCTGTCCC -ATGTAAACGCAACGGATGGCTTACCGATGCGGGGTTTGTGGTTAACCACCTTGGTGACTCTTAATGAGGG -CGGTAATTCTACGGCAAACCGCTTGAATCGCCAATCTTTGTTGTGAATTACTGGCTTAGCTTTATATTCA -TTAAGGTAATGCTGATAAATATTCCCGCTTGCAGGGGTAAAAGTGACCTGACGCAATATTTGTCTTTTCT -TGCTTCTTAATAATGTTGTCACAAAAAGTGAGGGTGACTACATGGATAAACTACTTGAGCGATTTTTGAA -CTACGTGTCTCTGGATACCCAATCAAAAGCAGGGGTGAGACAGGTTCCCAGCACGGAAGGCCAATGGAAG -TTATTGCATCTGCTGAAAGAGCAGCTCGAAGAGATGGGGCTTATCAATGTGACCTTAAGTGAGAAGGGCA -CTTTGATGGCGACGTTACCGGCTAACGTCCCTGGCGATATCCCGGCGATTGGCTTTATTTCTCATGTGGA -TACCTCACCGGATTGCAGCGGCAAAAATGTGAATCCGCAAATTGTTGAAAACTATCGCGGTGGCGATATT -GCGCTGGGTATCGGCGATGAAGTTTTATCACCGGTTATGTTCCCGGTGCTGCATCAGCTACTGGGTCAGA -CGCTGATTACCACCGATGGTAAAACCTTGTTAGGTGCCGATGACAAAGCAGGTATTGCAGAAATCATGAC -CGCGCTGGCGGTATTGCAACAGAAAAAAATTCCGCATGGTGATATTCGCGTCGCCTTTACCCCGGATGAA -GAAGTGGGCAAAGGGGCGAAACATTTTGATGTTGACGCCTTCGATGCCCGCTGGGCTTACACTGTTGATG -GTGGTGGCGTAGGCGAACTGGAGTTTGAAAACTTCAACGCCGCGTCGGTCAATATCAAAATTGTCGGTAA -CAATGTTCATCCGGGCACGGCGAAAGGAGTGATGGTAAATGCGCTGTCGCTGGCGGCACGTATTCATGCG -GAAGTTCCGGCGGATGAAAGCCCGGAAATGACAGAAGGCTATGAAGGTTTCTATCATCTGGCGAGCATGA -AAGGCACCGTTGAACGGGCCGATATGCACTACATCATCCGTGATTTCGACCGTAAACAGTTTGAAGCGCG -TAAACGTAAAATGATGGAGATCGCCAAAAAAGTGGGCAAAGGGTTACATCCTGATTGCTACATTGAACTG -GTGATTGAAGACAGTTACTACAATATGCGCGAGAAAGTGGTTGAGCATCCGCATATTCTCGATATCGCCC -AGCAGGCGATGCGCGATTGCGATATTGAACCGGAACTGAAACCGATCCGCGGTGGTACCGACGGCGCGCA -GTTGTCGTTTATGGGATTACCGTGCCCGAACCTGTTCACTGGCGGTTACAACTATCATGGTAAGCATGAG -TTTGTGACTCTGGAAGGTATGGAAAAAGCGGTGCAGGTGATCGTCCGTATTGCCGAGTTAACGGCGCAAC -GGAAGTAAGCGAAAAGGGATGCGGCATGTGATGCCGCATCCGGCTTAAATCCAAACTTACCCTTCGAAGA -ACCAATACCCGCTATTGACCAGCGCCGCGAGCATCGCGAGGAATGACGGATCTTCCAGCGCATCGCCAAA -ATTCTCCGCAGTCAGCGCAATGTTGCTGGCGAGTGCATCCAGTGCCGGACGGTGCGGGGAATCGATCTTC -TCACCATTGGCATACACGTCGTCGCCAATGCGCAATACGCGCAGACCACCCAGGCGCACCAGCACTTCAC -CTTGTTTCAGCGCATCGTAGATTTCATCCGGCTGATAAGGCGGCTCTGGCGGCGCGATATCCAGTTCATG -ACGTGACTGGGATATAAACTCGCCAAACCATTGCTTAAAGTGTTCCGGCTGGTTGATCAATTCGAGCATC -ATCTCACGCAGTTTATCCATCTCTTGCGGCAGAACATCCGCAGGATGAGCGCGAGGTGGAACATCCGGAT -CGCTGTAGTAGTTGCCGCCCAGTTCACGTTGCAGCACATAATCGGCAAATCCACTAATCAGTTCCCGCGT -ATTTGGCGCGCGAAAGCCCACGGAATAGTTCATCGCATTTTCCAGCGCGTAGCCTTCATGCGGGAATCCT -GGCGGAATATAAAGAATATCACCAGGCTCCAGCTCTTCATCGATGATGGCTTCGAACGGATCGACCTGTA -ACAGATCCGGATGTGGGCAGTGCTGTTTCATTTGCAGCTTTTCGCCCACTCGCCAGCGACGACGTCCGGT -ACCCTGAATGATAAACACGTCGTACTGATCGAGATGCGGGCCGACGCCGCCGCCGGGTACAGAAAAAGAA -ATCATCAGATCATCAATACGCCAGTCCGGTAGTTCACGGAACGGTCGCATCAGCGCGGCGGTCGGCTCAT -GCCAGTGGTTCACTGCCTGTACCAGTAATGACCAGTTGGTTTCACCGAGATGATCGTAGCTTTCGAACGG -GCCGTGGCTGACCTGCCATTTGCCATCCTGGTGACTGACCAGTCGACTGTCAACTTCGCTTTCCATCGCC -AGACCCGCCAACTCGTCTGGAGAGATCGGGTCAATAAAATTATTAAAGCCGCGTTTTAACACCACCGGGC -GTTTCTGCCAGTGACGTTCAAGAAAATCGGGCCAGTTAAGAGTGAGTTGGTATTCCATGTTAAGCATCCA -CAGGCTGGTATCTGCAACCGATTATAACGGATGCTTAACGTAATGCGTGAAGTATGGGCATATTTATTCA -TCTTTCGGCGCAGAATGCTGGCGACCAAAAATCACCTCCATCCGCGCACCGCCCAGCATGCTCTCTCCGG -CGACGATTTTACCCTCATATTGCTCGGTGATTTCGCGGGCTACCGCCAGCCCTACACCTTGCCCAGGGCG -TAAAGTATCAACCCGTTGACCACGGTCGAAAATGACCTCTCGCTTGCTTAATGGAATACCGGGGCCATCA -TCCTCGACCACAATATAGAGATGCTCGTCGGTTTGCCTTGCAGAAATTTCGACAAACTCGAGGCAATATT -TACAGGCATTATCCAGCACGTTGCCCATCACCTCGACAAAATCGTTCTGCTCACCGACAAAGCTGATCTC -TGGCGAAATATCGAGAGAGATATTGACCCCTTTGCGTTGATACACTTTGTTCAGCGCTGAGGTGAGATTG -TCCAGCAGTGGGGCGACCGGATGCAGCTCGCGGCTGAGCAATGTCCCGCCGCGCATACTGGCACGATGCA -GGTAGTAGCCAATTTGCTGTGAAATGCGGCTGATTTGCTCCAGCATTACCGGCTCAGCATCACTGACGCT -CATCTTTTCACTACGCAGAGAACGCAGCGTACTTTGCAGCACCGCCAGTGGCGTTTTCAGACTATGGGTC -AGGTCGGTGAGCGTCGTACGGTATTTGTCGTAACGTTCGCGTTCACTTTTTAACAATCGGTTCAGGTTTC -GTACCAGACTGGTCAGTTCTCGCGTTGTGGCTGGATTGAGCAATTCGCGGTTATGTTCTTCCAGTTCGCG -GACTTCTTTTGCCAGGGCTTCGATGGGGCGTAAACTCCACCAGGCGGCGACCCACAGCAGCGGGATCACT -AACAGCAGATTGGCTGAGAGCACATAGATAAACCAGCTCCAGACCATATAGGAACTTTTTAGCTCCACCG -GAATGGTATCCACCACCACAATGGTTAATTTTGGCATCCGCGATGTTGCCGGGTAGACGTTTACTGCCAC -CGAGTGGGTCATCTCCGCGTCGTCATCATCTTCCCGCACTTCCTGCAACTGTTGCTGTATCGAATGATCT -CCACTCAGCAAGAGGCTGGTATCGTTAACATCCGCTTCAATTTCATGAAAACCATTCGATTTCAGCCAGT -CAGGCTGGATCATCTTCATCAGCCAGGGCACGTCACGTTGCGCCCATAAAAGCTGCCCGTTCTCATCATA -AATTAGCGTCATGGTGGGGCTTTGCTTGTCGATATTTTCGGGTAACTCGACATGCAACTTATTGTTTTCC -CACTTCGCAAGGGTATAGAACAGATTGCTCTCGCCACGTAACAGCCGAAACGTAGTTTTATCGAAACTGA -CGCTATAACCGATCAGCGCGACCATTCCGTAGGCAAGCGAAAGCACCAGTACTACCGCTGCCGTTGCCAA -CAGAAAACGTACCCGCAGCGAGAGCGGGAAAAAAAGACGCAGTAATTTTTTCATCAGCGCAATTCGAACA -GATAGCCCTGGCCGCGAACGGTGGTAATCACTTCTTGGGGATATTGTGCCTGAATTTTTTTGCGCAGACG -TCCCATCAGTACATCAATGGTATGGCTTTCCCGCAGCTCCGCATCCGGATAGAGTTGGAGCATTAACGAA -TCTTTGCTGACCACTTTGCCATTATTGCGTATCAACGTTTCCATAATGGTGTATTCGAACGCGGTCAGTT -TGATCACTTCGTCATTAATAGATAATTCACGGCGAGAGAGATCAACCTGAAACGGGGGGAGCGAAATGAC -CTGTGAAGCCAGACCGCTATTACGCCGCATTAATGCCTGCATTCGCGCCATCACCTCTTCAATATGAAAC -GGTTTAGTCACATAATCATCAGCACCGGCACTTAATACTTCGACTTTGTCCTGCCAGCTTTCACGGGCGG -TTAATACCAGAATCGGCAGTGAAACATCGTTGCTACGCCAGCGGCGAATCAGTGACAGACCGTCCTCGTC -TGGCAATCCGAGATCGACAATCGCAATATCCGGTATATGTTCATTGAGATAATAATCGGCTTCTTTGGCA -TCTTCTGCGTCATCGACCTGATGACCAGCATCCTGAATCTGAACTTTAAGGTGGTGACGTAACAACGCAT -TGTCTTCAACAACCAGTACGCGCATTTTTATTTCTCCCTGTCTTAATTATTAAAATAGTGTAACGCGATT -ATGTGGTTATGGGGGTAAACATTAAATAAACCAGCGGGGAGGGGAGGTAAAGTGAAAAAATAAAAAGCGG -ATAATCTTAATAAGCAGGCCGGACAGCATCGCCATCCGGCACTGATACGAGGTTTATTTCAGCTCATCAA -CCATCGTGATAGCTCGACCAATATAGTTAGCCGGCGTCATCGCTTTCAGGCGGGCTTTCTCTTCTTCTGG -CAACGCCAGACCATCGATAAACTGCTTCATGCCTTCGGCGTCAACGCGCTTACCGCGAGTCAGCTCTTTC -AGCTTCTCGTACGGTTTTTCGATGCCATAGCGACGCATAACTGTCTGGATTGGTTCAGCCAGCACTTCCC -AGTTGTGATCCAGTTCATCCAGCAGATGGTCACGGTTCACTTCCAGTTTGCTCACGCCTTTCAGGGTGGA -TTGATATGCAATCAAGGCATAACCGATACCCACGCCGAGGTTACGCAGCACGGTAGAGTCGGTCAGGTCA -CGCTGCCAGCGGGAAACCGGCAGTTTGCTTGCCAGATGCTGCAATACCGCGTTGGAAAGGCCCAGATTCC -CTTCGGAGTTTTCGAAGTCGATCGGGTTAACTTTATGCGGCATGGTGGAAGAACCAATCTCACCAGCAAT -GGTTTTCTGTTTGAAGTGGTTAAGGGCGATATAACCCCAGACGTCACGGTCAAAGTCGATCAGAATAGTG -TTGAAGCGCGCAACGCAATCAAACAGTTCGGCAATGTAGTCGTGCGGTTCGATCTGGGTGGTGTACGGGT -TCCACTGAATACCCAGCGAGGTGACGAACTCTTCGCTGAACTGATGCCAGTCAACTTCCGGGTAAGCGGC -GATGTGGGCGTTATAGTTACCGACCGCGCCGTTGATTTTGCCGAGGATCTCCACCTGGTTAAGCTGGCGG -TACTGGCGCTCCATACGGTAGGCGACGTTTGCCATCTCTTTACCGATGGTTGACGGCGTGGCTGGCTGAC -CGTGGGTACGAGACAGCAGCGGGATATCGCGATACTGAACGGCGAGATCTTTAATGCCATCAATCAGTTG -ACGCCAGTATGGCAGGATCACTTCATCACGCGCGGTTTTCAGCATTAATGCGTGGGAGAGGTTATTGATA -TCTTCCGAAGTACAGGCAAAGTGGATGAATTCAGAAACCGCGTGCAGTTCCGGGATCTCCGCCACTTTTT -CTTTCAGGAAATACTCAACCGCTTTAACGTCGTGGTTAGTGGTACGCTCGATAGTTTTGATGCGCGCCGC -ATCTTCTTCGCTGAAACTGGCGACGATTGCATCAAGGTAACCGATTGCGTCGGCAGCAAAAGCAGGAACT -TCCTTGATCGCTGCGTGCGCGGCCAGTTTTTGCAGCCAACGTACTTCAACTTGTACACGGAATTTCAGCA -AACCATATTCGCTGAAAATCCCGCGCAGCGCGCTGACTTTATCGCCGTAGCGTCCATCGACAGGGGAAAC -GGCGGTCAGTGAGGATAATTCCATAGATCACAACTCCGGGGTTAAATGAGCAAGAATTTGTTTTGCCTGA -GTGGTCAGGCGATTACGAGAAAACATCAGTTGCAGACGTCCGCCGCCGACCTGGTGCCAGAGCACGGCGG -CGCGAATGCCTGCCAGCAGGGTTGCGCGAACTTTCGCCTGCACTTGTGGGCTTTGCAGTACAGCAGGGGA -ACCGGTGACCTGAATGCGCGGGCCAAGCGGGCTAATCACATCAACATAGATAGCAGCCATCGCGCTCATC -AGCGTTTCGGACTGTAAATCGAAGTGTTCGAGCTGGCGTTGCAGGCCGTTGATCCGGTTGCCCAGAGTGT -CGAGCGCGCCTTTCGCTGAGGAGAGTTTGCGCTCAAGCACCATCAAGCTGAGTGTGTAGCGGGTTAATTC -GGCGTTTAAGCCCTGGCGACTGCTGGCATTGAGCACGCCGAGCAGGGTTTCCAGCCCGACGCGCAGGTTG -GCTTCGCTACCGCCAAAAACCGCCAGCGTCGAGCTGGGGTTCATATCAATAATACTGTTGAGTGAGACGT -GTAGCGCATCGGCATCACAATGCCCCTGGTGAGCGAGTTGTTGCACCAGGCGTGCCGACTGACAAATACC -GGCCAGGGCGAGGGTGATGTCATAGTAATTCTTTGCCACGTTCACTGCTTCCTTGTTTTAAGTAAAGATA -ATAATCAGACCGGCAGCGGCAGACGCTGCTCAATAATACCGCCACCGAGGCACACTTCACCGTTATAGAA -GACGGCAGACTGGCCCGGCGTCACGGCGGCAACCGGTTCATCGAAAATCACTTCAATGCGATCATCGTCC -AGCGCCTTGACGGTGCAAGGGATATCGGTCTGGCGATAGCGGGTTTTTACCGTGCAACGCATAGTGCCGG -TGAATGGTTCGCGATCGACCCAGTGCAACTGCTGGGCAATCAACCCGACAGACATCAGCCGCGGGTGTTC -ATGGCCCTGAGCGACAACCAGAATGTTGTTTTCGACGTCTTTGTCCACCACATACCACGGTTCTTCGGTA -CCTTCTTTGGTGCCACCGATACCCAGACCTTTACGCTGACCGAGAGTGTGATACATCAGCCCCTGGTGCT -CACCAATTTCATCGCCATCGACGGTAATGATTTTGCCCGGTTGCGCCGGGAGATAACGGCCCAGGAACTC -GCGGAATTTACGTTCGCCAATGAAGCAAATGCCGGTAGAGTCTTTTTTCTTCGCGGTGACCAGACCAAGA -TCTTCAGCAATCTTACGCACCTGCGGTTTTTCCAGTTCGCCGACCGGGAACAGGCTTTGCGCAATCTGCT -CATGGCTGAGCGTATAAAGGAAGTAGCTCTGGTCTTTATTGCTGTCCAGACCACGCAGCAGGCGGCTCTT -GCCATCGACATCGGCCCGACGTACGTAATGACCGGTAGCGATATAATCGGCACCTAAATCTTCGGCGGCA -AATTCGAGGAAGGCTTTAAATTTGATCTCTTTGTTGCACAGAATATCCGGATTCGGCGTGCGACCGGCTT -TATATTCGGCAAGGAACAGTTCGAAGACGTTGTCCCAGTACTCGGCAGCAAAGTTAACGGTGTGCAGTTC -AATGCCGAGCTTGTCGCAGACAGCCTGGGCATCAGCCAGATCCGCTGCCGCTGTGCAATATTCCTCACCG -TCGTCTTCTTCCCAGTTCTTCATAAACAGGCCTTCGACCTGATATCCCTGTTGTTGCAACAGCCAGGCAG -AAACGGAGGAATCGACACCGCCGGACATGCCGACGATTACTTTTTTTGCGGTTTCAGACATTGGATCACT -CACGACATTGAACTTCAAGGCGGCGTATTCTATCACGCAGCCTTTTAGATGACACCCTTTGTAAAAGGCC -AGTTAAAATCGCCAATCATCTCCAGCGGATAACGTTGCCCGCTTTGATAACAACGAATACTTTCCGCCAC -CAGCGGCGAACGAAGATTTGACGCCTGTAAAATTTCTTCGGCGCTGACCCAACGGCAGCAGTCGATATCG -CTGTCATGAGGCTGGGTCGGGCATATTTGCTCAAGCTCAATGGCAAAGAGGAAACGCAAAAACGGCGTTT -TATCTGGCGCAATCCACTGATGCATACGAATAAAGTGTTGCGGCTGCGCGCTGATGCCGGTTTCTTCCCA -CAGTTCACGGGCGGCGGCTTCCACTAAGGTTTCATCGGCTTCCAGATGCCCGGCAGGTTGGTTCCATAAC -GCTTTACCATTAATCGTCTCTTCAACGACTAAAAATTTGCCTTCTGCGTGCACCACGCAAGCAACGGTAA -CGTGCGGTTTAAACATTTTGCATCCTTAATCTGTCACTTCTCGCCATTCACCATTGGCAAGATTATCCAA -AGAGTAATCACCCATCGCATAGCGAATCAGTCGCAGCGTGGGGAAGCCAACATGGGCGGTCATGCGGCGC -ACCTGGCGATTACGTCCTTCATATAAGGTGATCTTCAGCCAGCTGGTGGGAATACTTTTGCGTTCACGAA -TTGGTGGATTCCGCGGCCATAACCACGCGGGTTCGTCAACCAGCTCCGCGCCGGCGGGCAGGGTAGGGCC -ATCATTTAAGGTTACGCCATTGCGCAAGGCTTCAAGTGCGTCTTGTGTGGGAATACCTTCCACCTGCACA -TAATAGATTTTTCCGGTGCGTTTACCCGGCTGGGTTAAACGCGCCTGCAACGCGCCGTTATTGGTCAGCA -CCAGCAACCCTTCGCTATCGCGGTCAAGGCGACCTGCTGCATAAACACCCTGAACCGGGATGAATTCTTT -TAATGTTTTGCGTCCGGCTTCATCGGTGAACTGCGGAAGAACATCGTAGGGTTTATTGAACAGGATCACA -CGCGTGGGCTGGTTTTCAGGTTTACGCCTGGTAGAACGTTGCGAGCTGAATCGCTTAACCTGGTGATTTC -TAAAAGAAGTTTTTTGCATGGTATTTTCAGAGATTATGAATTGCCGCATTATAGCCTAATAACGCGCATC -TTTCATGACGGCAAACAATAGGGTAGTATTGACAAGCCAATTACAAATCATTAACAAAAAATTGCTCTAA -AGCATCCGTATCGCAGGACGCAAACGCATATGCAACGTGGTGGCAGACGAGCAAACCAGTAGCGCTCGAA -GGAGAGGTGAATGGAAAGTAAAGTAGTTGTTCCGGCACAAGGCAAGAAGATCACCCTGCAAAACGGCAAA -CTCAACGTTCCTGAAAATCCGATTATCCCTTACATTGAAGGTGATGGAATCGGTGTAGATGTAACCCCAG -CCATGCTGAAAGTGGTCGACGCTGCAGTCGAGAAAGCCTATAAAGGCGAGCGTAAAATCTCCTGGATGGA -AATTTACACCGGTGAAAAATCCACACAGGTTTATGGTCAGGACGTCTGGCTGCCTGCTGAAACTCTTGAT -CTGATTCGTGAATATCGCGTTGCCATTAAAGGTCCGCTGACCACTCCGGTTGGTGGCGGTATTCGCTCTC -TGAACGTTGCCCTGCGCCAGGAACTGGATCTCTACATCTGCCTGCGTCCGGTACGTTACTATCAGGGCAC -TCCAAGCCCGGTTAAACACCCTGAACTGACCGATATGGTTATCTTCCGTGAAAACTCGGAAGACATTTAT -GCGGGTATCGAATGGAAAGCAGACTCTGCCGACGCCGAGAAAGTGATTAAATTCCTGCGTGAAGAGATGG -GGGTGAAGAAAATTCGCTTCCCGGAACATTGTGGTATCGGTATTAAGCCGTGTTCGGAAGAAGGCACCAA -ACGTCTGGTTCGTGCAGCGATCGAATACGCAATTGCTAACGATCGTGACTCTGTGACTCTGGTGCACAAA -GGCAACATCATGAAGTTCACCGAAGGAGCGTTTAAAGACTGGGGCTACCAGCTGGCGCGTGAAGAGTTTG -GCGGTGAACTGATCGACGGTGGCCCGTGGCTGAAAGTTAAAAACCCGAACACTGGCAAAGAGATCGTCAT -TAAAGACGTGATTGCTGATGCATTCCTGCAACAGATCCTGCTGCGTCCGGCTGAATATGATGTTATCGCC -TGTATGAACCTGAACGGTGACTACATTTCTGACGCCCTGGCAGCGCAGGTTGGCGGTATCGGTATCGCCC -CTGGTGCAAACATCGGTGACGAATGCGCCCTGTTTGAAGCCACCCACGGTACTGCGCCGAAATATGCCGG -TCAGGACAAAGTAAATCCTGGCTCTATTATTCTCTCCGCTGAGATGATGCTGCGCCATATGGGTTGGACT -GAAGCGGCTGACCTGATTGTTAAAGGTATGGAAGGCGCAATCAATGCCAAGACCGTAACTTATGACTTCG -AACGTCTGATGGAAGGCGCTAAGCTGCTGAAATGTTCAGAGTTTGGTGAAGCGATCATCGAAAACATGTA -ATCTCTCCATGTGTTAAATATTGAAACGGGCGTATAACACGCCCGTTGTTTTATTTATGTGGATATTATT -AATAGCATATCGAGCATATTTATATGAAGCCCATTACTTGAGCCCATATGGGCATATTTTTATAATGCAA -CTATTATGTAAACATTTATTTGTTATTTTGCTTTCTCCTGGAGGACACTCTTGACTGCTTTTGAGTAAAC -TCCATAAATCCTTGTTGAATGGTGCGATGTGATAAATAGTAATAGGATATTCTTTATCCTTAAGGATAAT -ACCAGACTTAACCGGTGTAAATATACTGCCAGGAGGGAGAAATATAGTAGATTGATACCAGATGATCATT -TTCATATTACCCCATATGGCTGAAAAAGATATACCACATGTAGGTTGAATTACCGTGTCAATTACTATCC -ACTTCATTTGTTATGTCTTATCCCACGGTATTTAATATGGTTCATTAGGATGTTTATTTCTTGATTTTGC -ATATGAGTATATTACCCCCCCCTCAAAAAAATAAATTAATTAAAATGATGGCTTATATAAAATAAAATTT -AAAGCAAGGAATCTCAATGGATGTTAAACAAAATGAGATTTTGTGAAAGCAATAAATTATTGACTTCGTT -TTAGATTTGTTTAGCTATAATGTTATACATTCAAATGACTGAACATCCTGTAATTAAAACATAGCCTTTA -TGCTACTTTGTGCCAATTTGCTAAACATTATGGTTGCCTTTTTATATAACGATAATAATGAATATAAGCA -TGACATGAGAATAAGGTTTCAATTTTTGAGTTATATAGGAATGATTTAACCTGTTCCTGGCTAAAATACA -TATAACCGGATGATGACTAAACCAAAATACATGTGCGTTAAGTATTGAAACGGACGTGTGGCACGGCCGT -TGTTTTTATAAATATGTTAACCGTTATAAAATAACGTATCAAAAGTCAAGTGATCACATTTCAAATATCA -AGTTGATAGTATTAGTCTGGTGATTATTTATGGGTGACAATAAAAAGACAGTATTAATCATCCATAGAGA -TAGTCTCTGCACTTTTATTTCCATTATGCTAATGCCTTACTGAATTATGAAGCATTTCTTAAGTATCCAA -CTTTAGCTAGATTAATGGTTTATTATTTTCTACATCTTCAATATATAAAAGCGTATTATCAATGGCGTAG -TAACTGCGTTTGTTATGATTAACATCAGTAACCCACCGGAAAACGCCCGCGCCTGCCAGTGTTGAACAGT -ATTCCCGAAATGTAGATTTTCCGCAAATATGAAGCAATGCGGCCTCTTTTATTTTAGCAGGGTTCTTGGT -CGTACTAACTTTTAACAGGTTCCTGGTTCCTCTTAATAACAAAACCGTATCATCGTGAGTAATAATTCTG -ATGTTATCCGTAGCCAGATAATAAATGTAATGTGCAATACGGTGATGTTTTAATTCTGAATAAAACCAGG -AGAAGTTTTGCTCTTTTCTCACTTGCTCAAACATCTTTTGAAAAACAACGACCTGATCCATCAGGATAAT -AACCTCTTGTTAGTTGTGAGACTGCGTAGTGTGCACGATCGGTTTTACCACTTCAATCTGGTCTGTCCTT -TGGCTGTGATATGTACAGAGTGTGATAGAGGGAATATCTGAATTCTCCCGGTGAGCATTTTGCAACGGAC -CAGCTCCGGTACAAACGCTGTTGTGGGTTCAGATTATAACATTCTGTCTAAGGGGCGGGATAAAGGTGAA -ATTAGGGGGCATGAAAGATGACTTTATAACCTTGCTCACCCCAGTGTTGTAAAAGTTCGTTTTGCCTTCT -CGTTGGTGCCATGCCTGTCCAGACAATCAATGTTTGCGTCGGGAACAGTTCCGGGCGCGGCGATTCAATG -GGATCAGCAAGAACAGAAATGTGCCATCCTGACAATGATAAACGCCATGCTTCCAGCCACAATCGTGCTC -TCTCTTCAACATTCCACGCCATCAGAATGGCTTCTTTACCGGGCTTACGGCGCATTTCGAAAAGCGAGGT -TGCTGCGTATTCAATTAATGCGCCGTCAAACATACTGCTCATAATGCGGGAGGTGTTGTGATCAAGCACG -AGACGCTGGCGAACAGGAAGGTAAACATGATTAATCAATTGATCTACTGGGTACTCTCGACCCAGTGAAA -TAATTCTCGCGCGTAGTTTGGCAGGATTAGCCATGCGAAGAATTGACATCATCTCTTCTTGCAGGCGGCT -CCAGTCATCTTCCGTATCCTGGCTGGTGGTTTCCAGTAATGCTTTAACTTTGCCTACAGGGACGCCATTA -CTTATCCAACGCTTGATCTCTTCGATGCGTTGTATGTCTTCTTCATCAAAGAGTCGGTGTCCGCCTTCAC -TGCGCTGTGGTTTTAACAAACCGTAGCGGCGTTGCCAGGCCCGGAGAGTGACAGGATTAATCCCGCAACG -TTCAGCAACATCACCAATGCTGTAATAAGCCACAATTCCTCCTTGCGGTCACAAATCTCCGTCGCCTGTA -CACGACCCAATAATACTTTGTACAATATACGCTAAAATTGTACAAAGTATAAATAAGATTTCAGCTAAAT -TGGATGAAACATTATTTTTAATGTGGATTAAATTTAAACGTAACGTATTCATTTTCACGATGATTTACTG -AAATCATGTGAAAGAATGTGCTGAAAATTATTTTTTCTCTGGCCACGCTATGGAAGGGATACCATTCAAT -TTAGCTTTAGCAAACAGATCTCCCTGAAACATCTCAATTCCTGCGGATTCAAGCCACATCCACTCTTCTG -GTGTTGCCACGCCCATAGCACTGACTTGAATTTCAAGTGATGTACAGCATTTTATGATCGCCTGAATAAT -TGCCTGCCGTGGCCCACTTTTATGAACATTGGTAATCAATTCCTGACTGATTTTAATTCTGTCAGGCTGG -AAGCGTGACAGGAGTAACAAACCAGCAAAACCTGCGCCAAAATGATCAATTGCTACACTGATACCAGCAG -CCTTTAGCGATTTAATCGCTTCGGCAAACTCATCAAACCGAGATATGACTTCACTTTCAGTAAATTCAAC -GATGATTTGTTCAGGCACCAGAGCATTGGCCTTTATTTCATTAAGTAAAAAAGAGACTGCGTCAGGTTCG -TTAACCAGGGTCATAGGTAATAGATTGATTGAAATCATTTTATCACCGAGCTCAAGTGCGTGTGCCATCG -TGAATGCAAGCGCCTTACTTTTGAGATCCGCTGTGTAGATTTCCCCGTCTTTACGCTGCCCAACCGCTAT -GGCTGATGGGCTATCTTCATTTTTTTGCACAATGGCTTCAAAAGCGATTATCCGCCGCGATAAGGGATCG -ACAATAGGATGAAAGGCAAAGTGGTCGTTTATAGTTGGTGAAAGGGCACAGGAATCAAGTTCTTTATCAG -ATCCGTCAGCGATAAAAAGCCAGGAGTCTTCGGCAGGGATCTCGAAATAGGTTGATTGTTCGGTTGCAAG -GACAAAAGTACGAAAAAATTGTAGCGCTCTGTCATCATAAGTTAGCTGAAATTTTGATGTGCCTTTGTCG -AATACGGCCTGTAAAACGTCATCTCGCTCGTGCAGGCGCAAATCAAATAATTCCATTCCCGCTTTGCCAA -AACGGCGAGCAGGCGCGTAATCGCACAGCAGCTCAACAATATTATAGTGCCGTGGATCCTGGCATATAGC -CCGATATATCATTTTAACCTGTTCTTCCGGACCTTCCAGAAGCTGGAAAAAATGAGAACCATTAAACAGT -AAGATCCCTGTTACGTCAGACTGCATGTTCCTGCGATTTGCTATCGAAACCATTTCTTCGATTTTTTTGA -CAGGTTCGTCGTCACGTATATGGCTACGATAAATAAGGGTGGTAAGCATTAACAATCCAGGGTAATGGGT -GAGGCGAGAGTAAGACGGTAACAGACATATCTTCTTGTGTCTTTCTTTTAATACCAAAACATAACCGTTT -CTTTACATTGATAAAAAATGGAAAAAGTTGAACACTAGTTGGCGAAAAATCTTGTATAGATTGTCAGTTA -AATGATGCAATATGTTTTATCATAACACATTGTTTTATATGCATTAGCACTAATTGCAAAAAATTAATTT -ATCATTCTGTACACATATTTCGTACAAGTTTGCTATTGTTACTTCACTTAACATTGATTAACATTTTTAA -CAGAGGCGTAGCATGCATCAAAATTCAGTGACTTTAGATTCTGCGGGAGCAATCACTCGTTACTTTGCAA -AAGCTAACTTGCATACTCAGCAGGAAACTCTCGGGGAAATTGTGACTGAGATTTTGAAAGATGGACGTAA -TCTGAGTCGAAAGTCGCTTTGTGCCAAACTTCTTTGCCGACTGGAACACGCGACTGGGGAAGAGGAACAG -AAACATTATAATGCACTAATTGGGTTGCTTTTTGAATAATGCAACAGCCTGATTATTTAACAGGTTAGCT -ATGAAGTCGTTATGAAGACATCTGATAATGAACGTATAAAATATGAAATTACTGGCCAGGCGGTGCTCCA -GATACTGCGCATGAAGATAAATTTTTCATTGCAGACTCTTATTAAGCAATTACTCGTAATGAAATCGGCT -GAGGAAGATGCTTTCCGACGCGATTTAATTGACAGCATAATTCGTGATTTTAGCAATAGTGATTCAGGAG -GGCCAAACCGAAGAACAGCGACAGCTGACAATAAAAGTATGTTCAATGGTAAGAAAATAAACAGAATACA -TTAAAATTTCATAAGTAAGATGAGAGGTTACCATGCTTGAAGATACTACAATTCATAATGCAATAACTGA -TAAAGCGTTAGCAAGTTACTTTCGCAGTTCGGGTAATTTGTTAGAAGAAGAATCAGCAGTGTTAGGGCAG -GCTGTCACCAATTTAATGCTTTCAGGCGATAATGTTAATAATAAAAATATTATCTTAAGTCTGATACACT -CCTTGGAAACAACAAGTGATATTCTCAAAGCTGATGTGATTAGAAAAACACTGGAAATCGTGTTGCGATA -CACAGCTGATGATATGTAACTTCTAATTATTAAGTATAAGTTTATAGAAAACTCATTCATCTTATTTTTG -TCTGTCGCTTTAGACTATACACAGCATAATTTTATTGGGTTAATATTTCTACGAGGCTGACATGAATAAT -TCAATCCCAGAGAGATTTATTTTTCAATGTGCTTTGTTTAAAAATCTCGAGAGGGAGGTGTTCATGACGC -ATGGGTATGTTGATAGTCATATTATTGATCAGGCTTTACGCTTGCGTTTAAAAGATGAAACCAGTGTGAT -TCTTTCTGATCTCTATCTGCAAATATTGCAGTACATTGAAATGCATAAGACTACACTAACGGATATCATT -ATTAATGACAGGGAATCCGTGCTCTCTTAGAACTTGAGTAAGGTTTTAGAATAAACATCAGCTGTATCAC -CATGCTGATGCAAAGTGAGCATTTCAGGCGTTATGCTTTCTTATTATGTCCGCAATATCAGGTGTCAAGA -ATGGAGAGTTCTCGCTCTCCATTCTTGACGCCTGATATCCCGCCTAACTTATTTTGTACTGCCTACATTA -TGCTCAATAATTAATGGGTTAGATCAAGATGGAGAAAATTTTATCTTCGGCGTGGATATTTCTTATGCTC -TCTACCATGCTCTCTGTAGATGCCAGCGCGAGCGAATGAATGGCATTTTCATGTATTAAACCCTTTGGCC -GGGACAAGCAAATGCGCAATACACTCATACCCATCCTCGTTGCGATATGCTTGTTTATTACCGGTGTCGC -TATTTTGAACATCCAGCTCTGGTATTCCGCAAAAGCAGAGTACCTGGCGGGAGCGAGATATGCCGCCAAC -AATATCAATCATATACTTGAAGAAGCGTCACAAGCGACTCAAACAGCGGTTAACATTGCCGGGAAGGAAT -GCAACCTCGAGGAGCAATATCAGCTTGGCACTGAAGCAGCTCTGAAACCTCACCTGCGCACAATCATCAT -TCTCAAACAGGGAATAGTCTGGTGTACATCCCTGCCTGGGAATCGGGTCCTGTTGTCTCGTATTCCTGTT -TTCCCGGACAGTAATTTACTGTTGGCTCCAGCAATCGACACCGTTAATAGATTACCTATCCTGCTCTATC -AGAACCAATTTGCAGATACGCGCATTTTGGTTACGATAAGCGATCAGCATATTCGTGGGGCACTTAATGT -ACCCTTGAAAGGGGTAAGGTATGTATTACGCGTGGCGGATGACATTATTGGACCAACGGGTGATGTGATG -ACGCTTAATGGACATTATCCCTATACCGAGAAGGTTCACTCCACAAAATATCATTTCACTATTATCTTTA -ACCCGCCGCCACTCTTTAGCTTCTACAGACTTATCGATAAAGGCTTTGGGATTTTAATATTTATTCTGTT -AATCGCCTGCGCCGCTGCCTTCCTGCTTGATAGATATTTCAATAAAAGCGCAACGCCTGAAGAGATCCTG -CGACGGGCAATAAATAATGGGGAGATCGTCCCTTTTTACCAACCTGTGGTAAATGGTCGGGAAGGGACAT -TGCGGGGAGTTGAGGTGTTAGCCCGCTGGAAACAACCTCACGGTGGATATATATCACCCGCGGCATTTAT -TCCACTTGCTGAAAAATCCGGATTAATCGTTCCGCTTACGCAAAGCCTGATGAATCAGGTTGCCAGACAG -ATGAACGCTATCGCGAGTAAATTGCCGGAAGGTTTTCATATTGGAATTAATTTTAGCGCTTCGCATATTA -TTTCGCCGACGTTTGTCGACGAGTGTTTAAATTTCCGTGACAGTTTTACCCGCCGCGATTTAAACCTTGT -TCTGGAAGTCACCGAGCGTGAGCCATTGAATGTTGATGAAAGTCTGGTTCAGCGGTTGAACATACTGCAT -GAAAATGGTTTTGTCATCGCACTGGATGATTTCGGTACTGGCTACTCAGGGCTTTCTTATCTTCATGACC -TGCATATTGATTATATCAAAATTGATCACAGTTTCGTTGGCCGCGTAAACGCAGACCCAGAATCAACCCG -AATTCTGGATTGTGTATTGGATCTGGCGCGTAAACTTTCGATCAGTATCGTCGCTGAAGGTGTCGAAACG -AAAGAACAACTTGACTATCTGAACCAAAATTATATCACATTTCAGCAGGGTTATTATTTCTATAAACCTG -TTACATACATCGACCTGGTCAAAATTATCCTTTCTAAACCGAAGGTGAAGGTTGTGGTTGAGTGAAAATT -GATCAGTAAGGCCATAGTGCGGTGTAATTATAGACAGCTAATTAGCTCGTTGCCTCTTGTTACTATTGTT -CATTATTTTGTTTGCTATAATTGTTTGAAAGTTTTGACAGGATTGCCATTAGTAGCATGAACAATAGTAA -TAATCTGGATTATTTCACTCTCTATATCATATTTTCCATTGCATTTATGCTGATCACCCTCCTGGTCATC -CTTATTGCAAAACCCAGTACCGGGCTGGGAGAAGTGCTTGTGACGATAAATTTGCTTAATGCCCTTGTTT -GGCTGGCGATCAATCTGGTTAATCGATTAAGAGAAAGACTCGTCAACCACAGGGATCAGCAATAATCTTT -CAGTTTCTCACTGTCAGTATGCGGCTGAATGGGTTGCTGGCAGTGAACGCCTGGATCATTGAAGGAAAGG -CATTATTGCGCAAATAGTTGTCAACCCTGGTGTTATCACGGTTGTTTTTATATATCACCGAAATAATCCT -CATCGCAACTATTAACAATTTTGATGTCGAAGAGTTATTTGTTAAACAAAATCGTCACCTCAAAGTGATC -AATGTCATGAAAATAAGGTGAAAAATGATAATGCCGACTTATTTATCATTTATATATTGTCGCTGTTTAT -CTATTTAAATTTTTTGTGCTTTTGTTTTTGTCTTTACCCTCCGTTTTGGTAATCTGAGCTCATAGGTTAT -TTGACCAGGAATGTTTGTTAATCCAATGAATGGATGGTTAATCTATGAAACTGAAAAAACTCCCCGGGTT -TAGTTTGGGACTTATTGCTCTGGCGGTGGGTAATGCATATGCAACACAATTGTTGGATGATTATAGTATA -ATTTCCTATATGACTGATGAAGAATCGCCGATTGAAATCAAAGATAATAATCCGATAAGTAATGGAGAGT -ATCTAACCACTGAAGACGAAAGCCATGCTGTGAAAGTGGATGACGGTGTAACTGGATATATAAATAATGC -CAGTGTGATGACTAGTGGTGATGGATCTTATGGTATTTCTGTTGATAGTCAAAACAAAGTATTATATATA -AGCGATAGCGATATTAAGACCTCTGGAAGCGTATCTGACAAAGAAAATGGAGGGATAACAGCCAGCGCAG -TAGTCAGTGAATTTGGTGGCACCATCTTTATGAATGGTGATAATTCAGTCGAGTCGGGTGGGGCATATTC -AGCGGGACTTTTAAGCCAGGTTAATGATTCTGAAAAGATGGTAAATAACACCCGTCTTGAAACCACAGAT -AAAACGAACATTGTTACCTCTGGGGAAAATGCAGTAGGTGTTCTTGCATGTTCAAGTCCTGGAGAGTCTC -GAACATGTGTCGATGCTGTAGATGATGAAGTTAGTGATTCTAACAGTTACGAAGTTATTAGCCGTGCTGA -TTTAAAAATGAATGGTGGTTCCATAACAACTAATGGCATTAATAGCTATGGTGCTTATGCTAATGGGAAA -AAAGCATATATTAATTTAGATTATGTGGCACTTGAAACTGTGGCTGATGGAAGTTATGCAGTTGCTATTC -GACAAGGTAACATTGATATAAAAAATAGTTCTATTACAACAACAGGCACTAAAGCCCCCATTGCAAAAAT -ATACAATGGTGGAGAGTTATTTTTTTCCAATGTCACCGCGGTATCAAAACAAGATAAAGGAATATCAATT -GATGCATCAAATATCGATTCTCAAGCCAAAATAGCACTATTAAGTGTTGAACTTTCAAGTGCTTTGGATA -GTATTGATGTTAACAAAACTACAACGGATGTAAGTATCCTTAATCGAAGTATTATCACACCTGGTAATAA -TGTTCTGGTTAATAATACTGGAGGTGACTTAAACATAATTTCGTCCGACTCTATTCTAAATGGAGCGACT -AAACTCGTCAGCGGCACAACCACGCTGAAGCTTTCAGAAAATACAATCTGGAATATGAAAGATGACTCCG -TTGTTACCCATCTGACTAATTCAGACAGTATTATCAATCTTTCGTATGATGATGGTCAAACATTTACCCA -AGGAAAAACATTAACCGTAAAAGGTAATTATGTCGGTAATAATGGTCAGCTTAATATCCGCACCGTATTA -GGTGATGATAAATCGGCTACGGACAGACTTATTGTTGAGGGTAATACTTCGGGTTCAACTACCGTCTATG -TGAAAAATGCTGGAGGAAGCGGCGCGGCCACGCTAAACGGGATCGAACTCATAACTGTGAATGGCGATGA -ATCTCCAGCAGATGCCTTCAGATAAGGTGATGCAAGGATTGCAGCTGGAGCTTTCGAATATCAACTAAAA -CAACAAGGCAAAAACTGGTATTTGACAAGTTATCAGTCAGTGAATGAGGAGGATAACAGCTCAGAGGGAA -ATTCAGAATCAACAGAAACGCCTACCCCCGTCCTGCGCCCCGAAGCTGGAAGTTACGTCGCTAACCTGGC -AGCTGCTAACACTCTTTTTGTTATGCGTCTGAACGACCGTGCGGGTGAAACGCGCTACATCGATCCTGTA -ACTGAACAGGAGCGTTCAAGCCGACTTTGGCTACGTCAAATTGGCGGGCATAATGCCTGGCGTGACAGCA -ACGGACAGTTGAGAACGACCTCGCATCGCTACGTCTCGCAGTTAGGGGGCGATCTGTTAACCGGTGGTTT -TACCGATAGTGACAGTTGGCGTTTGGGAGTGATGGCTGGTTATGCCCGCGACTACAACTTAACTCATTCC -AGCGTGTCGGATTATCGTTCGAAAGGGAGTGTCAGAGGCTATAGCGCAGGGCTGTATGCCACCTGGTTTG -CCGATGACATCAGTAAAAAAGGCGCATACATTGACTCCTGGGCGCAATATAGCTGGTTTAAAAACTCGGT -GAAAGGGGATGAATTAGCCTATGAATCCTATAGCGCGAAAGGTGCAACCGTCTCGCTGGAAGCGGGTTAC -GGTTTTGCCCTGAATAAATCCTTTGGTCTGGAAGCGGCGAAATATACGTGGATCTTCCAGCCACAGGCAC -AGGCTATCTGGATGGGCGTCGATCATAATGCGCACACGGAAGCCAATGGCTCACGTATTGAGAATGACGC -AAATAACAACATCCAGACCCGACTCGGCTTCCGCACCTTTATTCGTACTCAGGAGAAAAACAGCGGTCCG -CACGGTGACGACTTTGAACCTTTTGTTGAAATGAACTGGATCCATAACAGTAAAGATTTTGCTGTCTCAA -TGAACGGTGTGAAAGTCGAACAAGATGGGGCGAGTAATTTGGGGGAAATTAAACTTGGCGTAAATGGCAA -CCTGAATCCAGCGGCCAGCGTCTGGGGAATGTGGGCGTGCAGCTGGGTGATAATGGCTACAATGACACCG -CAGTGATGGTGGGCCTGAAATATAAGTTCTGATCCCGCCGTTAGCTAAAAAACCGCGTCGTATTCATCGA -CGCGGTACATATGAAATATTATTTTTTGCCGATAGCACGCATGGTGTCATCAATTGCCGTGATCAACAGC -ATTTGCGGGTCTTTAGCGCAAACCTGATTCAGTTTTTCTACCACTTTGGCGCTCAGTTCCGGAGATTGCT -CAATTTTTAAATCACGGCTGGCAACGCTGGCATTACCCATTACCGCAACAATTTCTGCAACCTGTGCGCT -GTCAGTTTTTGCCATTTCGTTGGCTTCTGCGCAAGTAATATAGGTTTCTGACGGCAAACCGTTTTTAATA -TTGTAGTCCTGCGCCCAGGTCATTGGTGCGAAAACAAACAGGCCCGCCAGTAAAGCAAATTTTTTCATCA -TCATTCCTTATTTCATTTTACCCAGAATTGCACCACCCGTACCGCCAATCACGGCACCTTTAATCGCCCC -TTCGAGGCCATTGCCGGTCAGAACGCCAGTGACAGCACCAACGGCGGCACCCACTTTTGCACCTTTACGC -GCATTTTTACCGTCGCGGCCTTTTTCTGTTACTGCACCAACACCAGCGCCAACAGCTGCACCTTTCAGTA -CGCCATTAACACCATTGCCAGTAAGTAAACCAACGCCTGCGCCTAGCAATGCACCTTTCGTGGTGCGGTT -CATATCCGCCATCGCTGGCGTGGAGCAGAACAATGCTGAGATAAGCCCGAAGGCAAGTATTTTTTTCTTC -AACTTAGATGTCCGGTATTAAGTAAGTTGCACACACAATAATTTCGTCTTCAATTAAGATCTGCTTAACT -AAAGAACGCTCGCTATTATTCAGATAATTCAAAATGAGCGTGGCTGTGATGATAGGAATTATGTTTTTTA -CGTGAATGAGAATAATCTTAAATGAGGAATAACTCATTGATTGACAATATTTTTATTCAAGAAGTGTCAT -TGACTGTTAACGCAATGTTGTAAAGGTAAGATAATCTGATTTATCAATATTATTGTGTGATTTTTATGTG -AGCAGAAGATATTCATCAGCAACGATTACATTAGTCATTTTATTTTGCCGACGGCCTCATTGTCGAAAGA -TAAGCGTACGACAGTATTATCAGAAAAGAGTGATTTTTTATCCAACTACACTTCAGCGCACTGCGTGTAA -AAAATGCCTCTTTCTTATGCGGGATATCATCATTTCATCATGATGTCTTTGGTGAGCGGTGAACACAATA -CACCTGCGCTGTCTCTTCAGGATGAATCCCCTGGTCTGGTGCCTGCGGGCTGATGTTGCAGCAGAGCTTA -GGTCACTTAGACGCTACTATCATTTATCCAATGGCATGGAATCGAAATCAGTCGATACCCGCAGTATATA -TCGTGAACTGGGTGCAACGCTGAGTTACAACATGCGCCTGGGGAACGGTATGGAAATGAACCCTGGCTGA -AGGCGGCTGTGCGCAAAGAATTTGTCGATGATAACCGGGTGAAGGTGAATAATGACGGTAATTTCGTCAA -TGATTTGTCGGGCAGACGTGGAATATACCAGGCAGCTATTAAAGCCTCATTCAGCAGTACGTTTAGCGGA -CATCTCGGGGTGGGGTATAGCCATGGTGCCGGTGTGGAATCCCCGTGGAACGCGGTGGCTGGTGTGAACT -GGTCGTTCTGACCATCAACGATTAAACTGCGCTTCGGCGCAGTTTTCGTTTACAGGATGTTGAAAGGGAA -AATTCTGGGGCAAAAAAAGCCCGCCAGTTACGGCGGGAAACCTCATCCTATGGGAGAACAATGAATAATG -AAATTGCGGGGTTATCATCTCCCAGTATATCCATACTAACAATAAGGTTATTTACTCAACCAGGCATAAA -CATTTTGTTTTGTGCGTGGGAACAGCCTTAAGGTGTAAAGGGGGAGGTGGAAATAGCAATGAGGAGTATC -AGCAAGAATACTCGCCGCTTTACCACAACGTGGATGAGAGGGATGAAAAACTCAAGGCAGAGATAACTCT -GCCTTGAAGATAAATGCGCTTTTACAGCGGGCTTATTTCAGCTCTTCTGCTTCCGGTAAGGTCACGTTCA -GCTCAAGAATAGAAATATCGCCATCTTTTTGCTCAAGCTGTACGGTTACCATCTCAGGATCAATTTGTAC -GTATTTACAAATGACCTCAAGAATATCTTTACGCAACTGCGGCAGATAATGCGGTTCTGCATCGCTGCGA -CGGCGTTCAGCAACAATAATCTGCAGCCGTTCTTTTGCAATGTTGGCTGTGTTTTTCTTCCGCGAGAGAA -AGAAATCGAGTAATGCCATAACTTATCCTCCGAACAAGCGTTTGAGGAAGCCTTTCTTCTCTTCTTCAAT -GAAGCGGAAAGGACGTTCTTCTCCCAACAGACGTTCTACGGTATCTGCGTAGGCTTTACCCGCATCGGCG -TTAATGTCGAGAATGACCGGTTCACCCTGGTTAGAGGCGCGCAATACTGATTGATCCTCTGGGATCACGC -CGACGAGTTTGATGCGCAGGATCTCCAGCACATCTTCCATGCTCAGCATGTCACCTCTGCTTACGCGGCC -TGGGTTATAGCGCGTTAACAGCAGGTGCTCTTTAATAGGCTCTTCGCCATTTTCTGCGCGGCGTGATTTC -GACGCCAGAATGCCTAAAATACGGTCAGAGTCGCGTACTGAGGAGACTTCCGGGTTGGTGGTAATAATGG -CTTCGTCTGCAAAATAGAGTGCCATTAACGCACCGGTTTCAATCCCTGCCGGGGAGTCACAAACGATAAA -TTCAAAATCCATCGCTTTCAGATCATCAAGAACTTTGGCGACCCCTTCACGGGTGAGGGCATCTTTATCG -CGTGTTTGCGATGCCGGCAGAATATAGAGATTTTCAGTACGCTTATCTTTAATTAACGCCTGATTTAGCG -TTGCATCGCCCTGAATGACGTTGACGAAATCGTAAACGACCCGGCGTTCACAACCCATAATCAGGTCGAG -ATTACGCAGGCCGATATCAAAATCTATCACGACAGTTTTCTTTCCCTTCTGGGCCAAACCAGTGGCGATG -GCCGCGCTGGAGGTTGTCTTACCAACACCCCCTTTGCCCGAAGTAACAACAATAATGCGTGCCATAGAAA -TTCCTTGTTAAAAAGGGATCAATTTAACGGTTGAACGGTCAAAGCGTTTTCGACTAACTGCAGTCGCGCC -GCTTTGCCATAAAATTCTGCTGGGATTTGATCACTCAGCCAGTATTCACCTGCGATGGACACCAGTTCCG -CCATCAGGTTCGTACAAAATATTTGCGTTTCCCGGTCACCACTTGCCCCTGCCAGCGCACGACCGCGCAT -CATGCCATAGACATGAATGTTCCCATCGGCAATCAATTCGGCCCCAGCGCTAACGTGGCTTGTAACAATC -AGATCACATTGTGGAGCATAAATACGCTGACCGGAACGCACCGGGGTATCTATTAAACGCGTTTTTGTGA -CCGGCGTTGTATTTTGCGCTGGAGCCTGCGGTGTGGGAGCTGGACGTGGCGCTTTTTCCTTTCCTTCCGT -CAGGATAGGCAGCCCCATCTTTTCAATTTCGGCTTTAAGTTGCGCATCTTTGCAGCCACTTACGCCAATA -ACCCGCAAACCGGTTGCCGAAACCGCCTTATGCATCGCTGACCAGTTTACCGGGTCTTCCAGTGCACTGA -CGTTGAGTACAACGGGGGCATGTTTTAAAAATGCGGGGGCCTGAGCGATTTTGTCTTCCAGCGCCTGATG -GATAACCTTAGGTTCTGCCTCATGCAGATGAACCACAGATAAAGTGAAGCTACTGCCTTTAAGCTCGATT -GGCGTGTTTGACATCCTGGCCTTACTCAATTAGCTATTAATCATCGCCAGCGCGCGATGATGTTCCGAAG -ACTATAAGGCATGTTATAGTCTGGATTATATTGAGGCAAGTCACCCTCCCATTTATTCAGAGTAAAAGTC -TATTCTGTGATAAATGGCGCTGATTCATAGCTTAAAAAATACCCTTGTCAATCAACCCATTGCCGTCGTA -CTTTTGATTGTTCTTATTTACGCTTCCTTTTTCCGCACCCTAATCGTGACAGCATCTCCAGACCTGTTTA -AATATCCAGTATTGAGGCAAGTGTATTTTTTCACCACGCCAGGCTTTCTTAACTTTCCATTTTTTGCGGC -ATCATTAAAGAACAGATACCCGTTATCTTAATATCCGCCACAGAATTGCTCTATCATAGAAACCGCAGAA -GACGTCTGATACTTCTGTCAGGTCATCGTAACTCGTCCAGGTCAGCGGTTTTGATTACGGATTGATGATG -AAATGAGCATAAGTGTTGTACGGTTGGATTATCAGGATGTGCTATGAATATGATGCGTATTTTTTATATC -GGATTGTCAGGTGTGGGGATGATGTTCTCATCAATGGCGTCTGGAAATGACGCTGGCGGACTTCAATCTC -CGGCGTGCGGCGTTGTTTGCGACCCGTATATTTGTGTGAACTCAGATGGCATTTCCCCAGAGTTAACAAG -GAAATATCTCGGCGAAAAAGCCGCTGAAAACTTACAATCATTACAAGGCTACGATCCCAGCGAATTTACA -TTCGCTAACGGTGTATTTTGCGATGTTAAAGAAAAATTATGTCGTGATGATCGTTATTTTGGTGTGGATG -GTAAGCGGAGTGGAAAAATCAATCAAACCACCACAAAGATGTTATTTATGTGTCGTGAGTGATGTCTTGT -TTACATTATGTTCTATTCGTCATTAACCTCTTGAGCGACAGAGAGGAGTGGGGCATTAACGTTTATGACG -GGGAGAGTCCCCGTCGGTTGACATTTACTTAATTTGAATATCGACGTTATATTTTTTAGTTTTGTTTTTA -CGGGCGTCGTTTCGGGTTTGCAACACTCGCAGCTCATATTTGCCAGAAGCAGGGAGTGAGTATTGTCCGT -GACTATCGAGTTCTGGGGAATATCTGGATAAATCAACTGAATCATCGATTCCTGGCCCGAAGAGGTAAGT -ATCAGCGCCTTCATTAGAGATACTCACATGCACTTTCTGACCTTTTTTGGCATAGAAGGTATATGTATCG -TAATCGTATCCCTTTATTTCGCCGGAGTACTGAGCGCTGCTATGGCCTTTTCTGAACTCAACATTGACAT -TCTTACCCGCAGCAAAGCTCGTGGAGGTTAGCAGTGCAAGCAGCAATACAGCCTTCCTGATGCTCTTGAT -TTTCATTGGTAGTCTCCTGTTCAGAATGAGTACGATGAACTGTTATAATATAACAATCCCTAACGGGAGA -ATTCCAGTGGCTTTCCTGCGTTCGGTAAAATCACGTTGCGGCATTTTTGCCGGGGGGATTACTTATAAAG -GGGGCATGGACTCAACAAACCGTAGAAATCTACAGCTGGCTGGCTTGTGGCGCGGGTTTCATTGATGTTA -GCTTATGCCAAAACCTGGCATCTTAAAGAGTAAAAGTATGTTTTGTGTGATTTATCGAAGCAGCAAGCGT -GACCAGACCTATTTATATGTCGAAAAAAAAGACGATTTTTCGCGTGTTCCTGAGGAACTGATGAAAGGTT -TTGGTCAGCCTCAGTTAGCGATGATTCTGCCGCTGGATGGGCGGAAGAAACTGGTCAATGCCGATATTGA -AAAGGTTAAACAGGCATTAACCGAGCAAGGTTACTATTTGCAGTTACCGCCACCACCCGAAGATTTGCTG -AAGCAACATCTTTCCGTCATGGGGCAGAAAACAGACGACACTAACAAATAACCGATATCCGGCGGTGGCA -TTATCTTTGTCGGCGCGGGTTTTCATATCCACGATAAGGTGAGGGGAACGTTATGTATCAACATCACAAC -TGGCAAGGTGCGCTGCTGGATTATCCGGTGAGTAAAGTAGTCTGTGTTGGCAGTAACTATGCCAAACATA -TTAAAGAGATGGGCAGCGCAGTGCCCGAAGAGCCAGTGCTGTTTATTAAACCAGAAACGGCACTGTGCGA -TCTGCGGCAGCCATTGGCGATCCCATCCGATTTCGGTTCAGTTCATCATGAAGTCGAACTGGCGGTGTTG -ATTGGCGCGACACTGCGTCAGGCTACGGAAGAGCATGTCCGCAAAGCCATTGCCGGTTATGGCGTGGCGC -TCGATCTGACATTGCGTGATGTTCAGGGAAAAATGAAGAAAGCCGGGCAGCCGTGGGAAAAGGCTAAAGC -GTTTGATAACTCTTGTCCGCTTTCCGGGTTTATTCCCGCGGCGGAATTTACCGGCGACCCGCAAAATACA -ACGCTGAGCCTGAGCGTAAACGGCGAACAACGCCAGCAAGGTACGACTGCGGACATGATCCATAAAATCG -TTCCGCTGATCGCTTATATGAGCAAGTTTTTTACCCTCAAGGCCGGTGACGTTGTGTTGACAGGCACGCC -TGATGGCGTCGGCCCGTTGCAAAGCGGTGATGAGCTGACAGTCACTTTCGATGGGCATTCTTTGACAACT -CGCGTTTTGTAATACTTTTTGCCGCCTGAAAGCGGCGGCAAAACTTGCATCGCTGTGCCAGACTGGTTAT -AAGGTGCGTTTTAACGTAATGGCGGAACACCTGATGAGCGATGTACCTTTCTGGCAAAGTAAAACCCTGG -ACGAAATGAGCGATGCGGAATGGGAGTCGTTGTGTGATGGTTGCGGTCAGTGTTGCCTGCATAAACTGAT -GGATGAAGACACCGACGAAATCTACTTCACTAACGTCGCCTGTCGCCAGCTCAATATTAAAACCTGTCAA -TGTCGGAACTACGAACGTCGTTTCGAGTTTGAACCCGACTGCATTAAATTAACCCGTGAAAATCTGCCAA -CATTCGAATGGCTGCCAATGACCTGCGCTTATCGTTTGCTGGCGGAAGGTAAAGATTTACCTGCGTGGCA -TCCGCTACTTACTGGTTCGAAAGCGGCAATGCATGGTGAACGTATCTCTGTGCGTCATATCGCAGTGAAA -GAATCAGAAGTGATTGACTGGCAGGATCATATCTTAAATAAACCTGACTGGGCGCAGTGATAAATTTAAT -AGATGCTGATGGGGGCTTTCTTAATATACGTCTGGATGCTCGCCATTTCGTAGCCCTGTTTTTGAAAGCG -CTCTGTCATAATGAGAGTTACCCGATACCTTATTATCAACAGGTAACTCTCAATCTTTAAAAAACGTCTG -TGTTTTTAAATGTGATAAACCTTATACCTTGAGTACATGGAGAGAATAATCGCTTATCAGACTTCAGGTA -CCTCAAAGAGTGTCTTTTTACCGTGTCTTTTCTGATACTCATTACAGGTGTTAATCATTTTTTTGGCCGC -TTCTTTTAGCAAAGAAAGCATTAAATCATCATAATCAACGTAGAATCTGGTTGTTTCAGTTTCCGTTTTT -ATCTCACCGATGGCGGCTATTTCGGTGGTTAATTTCAATTTGGCGGCATCGATATCTTTATTCGCTTGTT -TAACCGTGTTAGACAGGGTGGTAAAGAAATTCTGCACAGATTTTAACTTGTTCTTCAATTCTGGAATCAG -TTTTCCTTCAACTACGCCCGCAGCAATAGAATAGGAAATGATTAATCCAAATGGACCGGCGACGACACCG -GCTGCGGCACCGGCATATGCTTCCTTCCTGATTTTATCTACCTGTGACTGGAAATAGCTGCTTTTTTCTG -AAAAATCATTGGTTAACTGGCTATCTAACGCCAGCAGTTTCCCGGAAGCGTTGTTGAAACTTTGTGAGCT -TACCAGCAGGGATTTTTGCGCTTCATTCAGCTTCGTGATGCCGTCATCCAGTACCTTAATGAGAATGTCT -TTCTGGGCGGATGCTTTCTTCTCATTGTACTCATCAAATAGCAAAATATACGCTGCGAGCAATTGCGTCG -CAACACCACACCATTCATACACTGTTTGGGTTGCTTCAAAATACTTATCCTGGCTATCCATAAGTAAGGT -TTTAATATCGCCGACTAAAACGGAGGCTGCCTGTGAATACTCCTGTTTAAAGCGACTTAACTCTTTTATG -GTTTCATCAAAGGTCTGCCAGGGGATGACCTGATCGAGATATTTATTATAAAGATCTAATGCTCCATCTG -CGGTTTCGATTGCGTTTTTAACTACTTCTACCGTTTTATCTGCAACGATTTCAGTCATAATCATTCGCCT -CTTTAAATATATAAATTGTAATGAAACTCCTGTTTTACAACTATTAATAAATTTTACTTCATCTAATTCA -TAGTTAGCCGGGCGGGATGCGTCAATGTCTTTATTTCTATTAATATGATAAATATCAAACAATGTTTAAT -GTCATTATGGCGAATGCTTCTATTCTATTTTTTAGCCGGGTGATATTTTTCATTTCTGCTGGATGAGCGT -CGTCGCCAGAAGGCCACGTGAGCACAAGATAAGAGAACGAAAAATCAGCAGCCTATGCAGCGACAAATAT -TGATAGCCTGAATCAGTATTGATCTGCTGGCAAGAACAGACTACTGTATATAAAAACAGTATAACTTCAG -GCAGATTATTATGTTGTTTATCAAGCCTGCGGATCTCCGCGAAATTGTGACTTTTCCGCTATTTAGCGAT -CTTGTTCAGTGTGGCTTTCCTTCACCGGCAGCAGATTACGTTGAACAGCGCATCGATCTGAATCAACTGT -TGATCCAGCATCCCAGCGCGACTTACTTCGTCAAAGCAAGTGGTGATTCTATGATTGATGGTGGAATTAG -TGACGGTGATTTACTGATTGTCGATAGCGCTATTACCGCCAGCCATGGTGATATTGTCATCGCTGCTGTT -GACGGCGAGTTTACGGTGAAAAAATTGCAACTACGCCCGACGGTACAGCTTATTCCCATGAACAGCGCGT -ACTCGCCCATTACCATCAGTAGTGAAGATACGCTGGATGTCTTTGGTGTGGTGATCCACGTCGTTAAGGC -GATGCGCTGATGTTTGCCCTCTGTGATGTAAACGCGTTTTATGCCAGCTGTGAGACGGTGTTTCGCCCTG -ATTTATGGGGTAAACCGGTGGTTGTGCTATCGAATAATGACGGTTGCGTTATCGCCCGAAACGCTGAGGC -AAAGGCGCTTGGCGTTAAAATGGGCGATCCCTGGTTCAAACAAAAAGATCTGTTTCGTCGCTGTGGCGTG -GTTTGCTTTAGCAGCAATTATGAGCTTTACGCAGACATGAGCAATCGGGTGATGTCGACGCTGGAAGAGC -TATCGCCCCGCGTCGAGATTTACAGTATTGATGAGGCATTCTGCGATCTGACAGGTGTGCGTAATTGTCG -CGATCTGACTGATTTTGGCAGAGAAATTCGCGCAACGGTGCTACAACGTACCCATCTTACTGTTGGTGTG -GGGATCGCCCAGACCAAAACGCTGGCTAAGCTTGCCAATCATGCGGCAAAAAAATGGCAGCGGCAGACGG -GTGGGGTGGTGGATTTATCAAATCTGGAACGCCAGCGTAAATTAATGTCTGCTCTCCCCGTGGATGACGT -CTGGGGGATTGGACGGCGGATCAGCAAAAAACTGGACGCGATGGGGATCAAAACCGTTCTCGATTTGGCG -GATACAGATATCCGGTTTATCCGTAAACATTTTAATGTCGTGCTCGAAAGAACGGTGCGTGAACTGCGCG -GCGAACCCTGTTTGCAACTGGAAGAGTTTGCACCGACGAAGCAGGAAATTATCTGTTCCCGCTCGTTTGG -TGAACGCATCACGGATTATCCGTCGATGCGGCAGGCCATTTGTAGTTACGCTGCCCGGGCGGCGGAAAAA -CTTCGCAGCGAGCATCAATATTGTCGGTTTATCTCCACGTTTATTAAGACGTCACCATTTGCGCTCAATG -AACCTTATTACGGCAATAGCGCGTCGGTAAAACTGCTGACGCCCACTCAGGACAGCAGGGATATCATTAA -CGCTGCTACGCGATCTCTGGATGCCATCTGGCAAGCGGGCCATCGTTACCAAAAAGCGGGCGTGATGCTG -GGGGATTTCTTCAGTCAGGGAGTCGCGCAGCTCAATTTATTCGATGACAACGCACCGCGCCCCGGGAGTG -AGCAATTGATGACGGTAATGGATACACTGAATGCTAAAGAGGGCAGAGGAACACTCTATTTTGCCGGGCA -GGGGATCCAGCAACAATGGCAGATGAAGCGAGCCATGCTTTCACCACGTTATACAACGCGAAGTTCTGAT -TTACTGAGGGTCAAATAAATATAGCGGCAGGAAAAAAGCGCTCCCGCAGGAGCGCCGAATGGATTAGCGA -CCGAACAGATCACGTTTTTTCGCTTTAAACGGCTGGGAAATCACCACCAGCACTGCGACAATCAGGTAAG -CGATAAAAATACCGAGCAGCCACTGCGGCATTTCCAGACCTAAAAAATCCCACTGACGCTCGGCGCAATC -GCCAGAGGCGACAAACACTTGCGGCACCCACTTATCCAGCGGCAGCCATTCCGGGAAACGAACCATAAAA -TCACAGGTGGCAAACGGCGAAGGATAGAGCTGAAGCATGGTGTGCTCGTAAGTTAACTGCACACCGCGGA -ACGCACTATACAACCAGATAACCATCGCTACATAACGCAGCGGAGTTTTCGGGGCGATCGCGCCAATCAG -CGCAGCACCCAGAACGCCGAATAACGCGCAGCGTTCATAAATACAGAGCACGCAAGGTTTCAGTAACATC -ACATGCTGGAACCACAGCGCCGTCAGTTCCAGTGCCAGAGCAGTAAACGCCATCAACAGCCACGCGCCCC -GGCCTTGTGAACATTGGTTCAAAAATCGCAACATAATCATTTCCCTGCAATATGCATAGAGTGCGCAGTT -TAAACCAATTCATTCGCTGCGCCACCAGGAGGCAGCAAAAATAGGACGCAATTGGACAATTATCGGGCGA -AAAGGCAAACCGGGCATTTATATGCCCGGTAAGTTGTTATCAAAGCGTTGCTATCCAGCCCATTTGCATA -AACCATTCGGTTACAGGGGCAAGCGTAAACTCGACGCAGAGCAAGCCGACGAGTGTCAGGACGAGGGTGT -AAGGCAGGGCCATCCACACCATGCGGCCATAAGAGAGGCGAATCAATGGCGCGAGTGCAGAGGTCAGCAG -GAACAGGAACGCAGCCTGACCGTTCGGCGTAGCGACGGAGGGCAGATTGGTACCGGTATTAATGGCGACC -GCCAGCAGCTCGTATTGCTTCAACGTGATAGCGCCACTTTCCATTGCCGCTTTCGCTTCGTTGATATAAA -TCGTCCCCACGAAGACGTTATCCGAAATGGATGACAGCAGACCGTTGAAAATATAGAACAGCGACAGCTG -AGCATGTTCCGATGCCTGCAACACAAACTGAATAATTGGCGAAAACAGTTGTTGGTCGATAATCACCGCG -ACTACCGAGAAAAACACCGTCAACAGTGCGGTGAATGGCAGAGATTCGGTGAAGGCTTTACCGATAGCAT -GCTCATCGGTGACACCGGTCAATGATGTTGCCAGAATAATGACTGACAAACCAATCAAGCCAACTTCCGC -CAGATGCAACGCCAGCGCAGTCACCAGCCAGACGCCAATAATCGCCTGGACAATCAGACGGATTTTATCC -TGACGGGTACGCTGGTGGCGGCTTTGATCGTCAAACTGTTGCAACACTTCGCGGACTTTCTCCGGCAGCG -TTTCACCGTAGCCAAACCAACGCAGCTTCTCTACCAGCAGGCAGGTTAACAGGCCACAAATCAGAACCGG -AACGGTCACCGGCGACATGCGCAGGAAGAAATCGCCAAAATGCCAGCCAGCCGCTTTAGCGATGATCAGG -TTCTGTGGTTCGCCCACCATGGTCATTACGCCGCCTAATGCGGTGCCGACACCGGCATGCATCATCAGGC -TACGCAGAAAGCCACGGAACTGTTCCAGAACCACTTTGTAATGCTTGTCGATATGACTATCGTCTTGCAG -GTCGGTGTCTTCGGTACGGGAAGAGGCTACGCGGTGATAAATACCATAAAAACCGACTGCAACGCTGATC -ACCACCGCCACGACGGTTAAGGCATCGAGGAACGCGGAGAGGAACGCAGCCGCCACGCAAAAAGAGAGCG -ACAGCAGCATTTTGGAGCGAATGCTTAACAGCAAACGGGTAAATATGAACAGCAACAGCTGTTTCATAAA -ATAGATACCCGCCACCATAAACATCAGTAACAGCAAGACTTCAAGATTTGCCGCCACCTCTTCACGGACG -TGTTCCGCGCTGGTCATGCCGATGAATACCGCTTCGATAGCCAACAGACCACCGGGGAGCAGCGGGTAGC -ATTTCAGGGCCATCGCCAGAGTGAAAATAAATTCCGCTACCAGCAACCAGCCCGCGACGAAAGGGCTGAT -GAGGAAAATTAACGGGTTTACGATTAAGAAAATGATGAGGGCGAGTTTGTACCAGTCGGGGGACTGGCCC -AAAAAATTGCGCCATAGCGCGCGGCCCCAGGAGATCTCCATGATGGTTTCCCTTACCTTACAAATAATCA -ATGATGTTTTTATGTTTAAACGCAAAGCTTAACGGTCAGGCAGGAGTGAGGCAAGTCTTGATAGTCAAGG -GGAAAGAGATGCGGAAAATGAAGCCTTGATCCCTTTTTCTTCTTTTTGTCTGCTATCAGCGTAGTTAGCC -CTCTGGTATGATGAGTCCAACTTTGTTTTGCTGTGTTATGGAAATCTCACTATGGTCATTAAGGCGCAAA -GCCCGGCGGGTTTCGCGGAAGAGTACATTATTGAAAGTATCTGGAATAACCGCTTCCCTCCCGGGACTAT -TTTGCCCGCAGAACGTGAACTTTCAGAATTAATTGGCGTAACGCGTACTACGTTACGTGAAGTGTTACAG -CGTCTGGCACGAGATGGCTGGTTGACCATTCAACATGGCAAGCCGACGAAGGTGAATAATTTCTGGGAAA -CTTCCGGTTTAAATATCCTTGAAACACTGGCGCGACTGGATCACGAAAGTGTGCCGCAGCTTATTGATAA -TTTGCTGTCGGTGCGTACCAATATTTCCACTATTTTTATTCGCACCGCGTTTCGTCAGCATCCCGATAAA -GCGCAGGAAGTGCTGGCTACCGCTAATGAAGTGGCCGATCACGCCGATGCCTTTGCCGAGCTGGATTACA -ACATATTCCGCGGCCTGGCGTTTGCTTCCGGCAACCCGATTTACGGTCTGATTCTTAACGGGATGAAAGG -GCTGTATACGCGTATTGGTCGTCACTATTTCGCCAATCCGGAAGCGCGCAGTCTGGCGCTGGGCTTCTAC -CACAAACTGTCGGCGTTGTGCAGTGAAGGCGCGCACGATCAGGTGTACGAAACAGTGCGTCGCTATGGGC -ATGAGAGTGGCGAGATTTGGCACCGGATGCAGAAAAATCTGCCGGGTGATTTAGCCATTCAGGGGCGATA -ATCCCTTCCGTTTAAAGAGCAAACCCCTCAAACGAGGGGTTTTTTGTTGTTTTTACAGATTTCCCATTCT -TGGCGGGCAACGTTCCAGCAACTCGATGCTGCCGTCTTCGTTTTGCTGTTCGAGCATCACATCAAATCCC -CACAGGCGATGCACATGCTTCAGGACTTCTTTGCGCCCCCGATCCAGCGGTGCGCGATTATGTGGAATAT -AACGCAGCGTCAGCGAACGGTCGCCGCGCAAATCCACGTTCCAGATCTGAATATTCGGCTCCAGATTACT -TAAGTTATATTGCGACGATAACCGGTTACGGATCTCCCGATAACCTTCTTCATTATGAATAGCGGAAATC -TCCAGATAATTATGCCGATCGTCATCCAGCACGGTGAAGAAGCGGAAATCACGCATCACTTTCGGTGACA -GGAACTGGCTGATAAAACTCTCATCTTTGAAATCACGCATCGCGAAATGCAGCGTTTCCAGCCAGTCGGA -ACCGGCGATATCCGGGAACCAGTATTTGTCTTCTTCCGTTGGCGACTGACAAATCCGTTTAATATCCTGG -AACATGGCGAACCCGAGGGCATACGGGTTGATGCCGCTGTACCACGGGCTGTTATAGGGGGGCTGGAAGA -CCACATTGGTGTGGCTGTGCAAAAACTCCAGCATAAAACGTTCCGTTACTTTCCCTTCATCATACAGATG -GTTAAGGATGGTGTAGTGCCAGAAGGTCGCCCAGCCTTCGTTCATCACCTGAGTCTGTTTTTGCGGATAA -AAATACTGGCTCACCTTACGCACAATACGCAGGATTTCACGCTGCCATGATTCCAGCAGTGGCGCATTTT -TCTCCATAAAATAGAGCAGGTTTTCTTGTGGTTCGGACGGATAGCGGCGCGCTTCAGCAACCGTTTTCTC -TTCCTCGCGCTTCGGCAGGGTACGCCAGAGCATATTGACCTGACTTTGCAGATACTCTTCGCGACTTTTC -TGCCGGGCTTTCTCTTCTTGCAGCGAGATTTTTTGCGGGCGTTTGTACCGGTCCACGCCGTAGTTCATCA -GCGCGTGGCACGAGTCCAGAAGCCGTTCTACTTCATCAACGCCATAACGCTCTTCGCACTCGGTAATATA -TTTACGGGCAAAAATCAGATAATCGACAATCGAACTGGCGTCGGTCCAGCTACGGAATAAGTAATTGTTT -TTGAAGAAAGAGTTATGCCCATAGCAGGCATGAGCCATCACCAGCGCTTGCATGGTAATGGTGTTCTCTT -CCATCAGGTAAGCGATACACGGGTTAGAGTTAATGACGATTTCATAGGCCAGTCCTTGCTGACCGTGCTT -ATACAGCCGTTCAGTCTCGATAAACTTTTTACCGAATGACCAGTGCGGATAGTTAATTGGCATGCCGACG -CTGGAGTAGGCATCCATCATCTGTTCTGAGGTTATCACTTCAATCTGGTGCGGGTAGGTATCCAGCCGGT -AGAGTTTCGCCACCCGGTCTATCTCTGCCAGATAAACATCCAGCAGGTCGAACGTCCAGTCGGGTCCATC -GCTCAAACGTGTGGTGTCCTTATTCATAGAATCGATCGTCGCCATACGCGCACCTCATTGTTGTCGGCGC -TCTCTGTGTGGAGCACCTCATTTCAAGCATAGAACACCTGTTAAAAACCGCGTCGCCGGAGAATTTTTTT -CTTTGCGATTTCTTATTATCAGAGTGCCACTAATCCGCTTCTGAACGGAATTTTATGCTGGATAAAAAGG -GCGTTCAGCAGGAGATACTAAAGACGCCATATTGCCGCAGAGTCAGGGAGATGTGAGCCAGCTCACCATA -AAAAAGCCGCATGTTGAATAATATTTTCAACTGAGTTATCAAGATGTGATTAGATTATTATTCTTTTACT -GTATCTACCGTTATCGGAGTGGCTATGCGAGTTGTCATACTGGGAAGTGGTGTGGTAGGCGTTGCCAGCG -CCTGGTACTTAAATCAGGCAGGACATGAGGTCACCGTCATTGATCGGGAGCCGGGGGCCGCCCTGGAAAC -CAGTGCCGCGAATGCCGGGCAAATCTCCCCCGGATATGCTGCACCGTGGGCGGCACCAGGTGTGCCTTTA -AAAGCGATTAAATGGATGTTCCAGCGCCATGCGCCGCTGGCGGTTCGTCTCGACGGTACGCAGTTCCAGT -TGAAATGGATGTGGCAAATGTTACGTAACTGCGACACCAGCCACTACATGGAAAACAAAGGGCGGATGGT -GCGTCTGGCGGAATACAGCCGTGATTGCCTGAAAGCATTGCGCGCCGAAACCAATATTCAGTATGAAGGG -CGTCAGGGTGGGACGCTGCAACTGTTCCGTACCGAACAACAGTATGAAAATGCGACCCGCGATATCGCCG -TGCTGGAAGATGCCGGCGTACCGTATCAGCTGCTGGAATCCAGCCGCCTGGCGGAAGTGGAGCCCGCGCT -GGCAGAAGTGGCGCACAAACTGACGGGCGGCCTGCAGTTACCCAATGATGAAACCGGAGACTGTCAGCTA -TTTACCCAGAATCTGGCGCGGATGGCGGAGCAGGCGGGGGTTAAATTCCGCTTTAATACGCCCGTTGACC -AACTGCTTTGCGACGGCGAGCAAATCTACGGCGTGAAGTGTGGCGATGAAGTGATTAAGGCCGATGCGTA -TGTGATGGCGTTTGGTTCTTACTCGACGGCGATGCTCAAAGGCATTGTTGATATTCCGGTGTATCCGCTG -AAAGGCTACTCGCTGACCATTCCAATTGCGCAGGAAGATGGTGCGCCGGTATCCACCATTCTTGATGAAA -CCTACAAAATCGCCATTACCCGTTTCGATAACCGCATTCGTGTTGGCGGAATGGCGGAGATTGTTGGTTT -TAATACCGAGCTGTTGCAACCGCGTCGTGAAACGCTGGAGATGGTGGTTCGCGATCTCTATCCACGCGGC -GGTCATGTCGAGCAGGCGACTTTCTGGACTGGTCTGCGCCCGATGACGCCAGACGGCACGCCGGTTGTCG -GGCGTACACGCTTTAAAAATCTGTGGCTGAATACCGGTCACGGCACGCTCGGCTGGACGATGGCTTGCGG -TTCCGGTCAGTTGTTAAGCGATCTGCTCTCTGGTCGCACGCCAGCGATCCCATATGAGGATCTAAGCGTA -GCGCGCTACAGCCGTGGATTTACGCCATCACGTCCGGGCCATTTACATGGCGCACACAGCTAAGGAAACG -AGATGACCCGTCCGATACAGGCCAGCCTCGATCTGCAGGCATTAAAACAGAATCTGTCCATTGTCCGCCA -GGCCGCGACGCACGCGCGCGTCTGGTCGGTGGTAAAAGCGAACGCTTACGGGCATGGTATTGAGCGTATC -TGGAGCGCGATCGGGGCCACCGATGGCTTTGCATTGCTTAACCTGGAAGAGGCAATAACGTTACGTGAGC -GCGGCTGGAAAGGACCGATCCTGATGCTGGAAGGATTTTTCCATGCTCAGGATCTGGAGATTTATGACCA -GCACCGCCTGACCACCTGCGTACACAGCAACTGGCAGCTCAAAGCACTGCAAAATGCGCGGCTAAAAGCA -CCGTTGGATATTTATCTTAAAGTGAACAGTGGGATGAATCGGTTGGGCTTCCAGCCCGATCGCGTGCTTA -CCGTCTGGCAGCAGTTGCGGGCAATGGCGAATGTTGGCGAAATGACCCTGATGTCGCATTTTGCCGAAGC -GGAACATCCTGATGGAATTTCCGGCGCGATGGCGCGTATTGAGCAGGCGGCGGAGGGGCTGGAGTGTCGG -CGTTCGTTGTCCAATTCGGCGGCGACTCTGTGGCACCCGGAAGCGCATTTTGACTGGGTTCGGCCTGGCA -TTATTTTGTATGGCGCTTCGCCGTCCGGTCAGTGGCGTGATATCGCCAATACCGGATTACGTCCGGTGAT -GACGCTAAGCAGTGAGATTATTGGTGTCCAGACGCTAAAAGCGGGCGAGCGTGTGGGCTACGGCGGTCGC -TATACTGCGCGCGATGAACAGCGAATCGGCATTGTCGCCGCAGGGTACGCCGACGGTTATCCGCGCCACG -CGCCTACCGGTACCCCTGTTTTAGTGGACGGCGTGCGCACCATGACGGTGGGGACCGTCTCGATGGATAT -GCTAGCGGTCGATTTAACGCCTTGCCCGCAGGCGGGTATTGGTACGCCGGTTGAGCTGTGGGGCAAGGAG -ATCAAAATTGATGATGTCGCCGCCGCTGCCGGAACGGTGGGCTATGAGTTGATGTGCGCGCTGGCGCTAC -GCGTCCCGGTTGTGACGGTGTAACTTGTTGTAAGCCGGATCGGAGGCAACGTCTTCTGGGTGCAAAAAAA -TCATCCATCCGGCTGGTCAGCAACTGTAGTTGTTAATGTGACAGAGCCATTGCCCATGATAGTGTCCATT -AAAAGGATGGACACTATTTCCCCGGAACCTGAACTCACCGCACAGGCGTTCTACATAAAACGCTTACGCT -TCATTGTTGACTCGAACTCGACTTCAGATAAATCACGCTTTACCCTTGATGGAGCCTGTACATAGATTTG -TGTAATTGCCTGATTTTGATATGTTCAATTCAACATCAAATGAAGGTTAAATTATGGACGACAAACAATT -GCAGGCTCAGGCTGCGTTCAGCAAAGCATCGCAACCGGCGATAGATGCTTCATTAAATTTAAGATTCAGC -TTCCTCTTCAGCCACCCGTACGCCAATCTTCAACACTTCATTATCTTCTTTCTCGGCCACCGTCCAGATC -ATCCCGGCAAACTCTACCTGGTCACCGACAACCGGTGCCGCGCCTAACAACTGCTGGACAATTTCACCCA -GCGTTTGCTGCTTATCACGATATTCTCGCCCGTCTTCCAGGCCATATATCAGCGCAACATCAGCATATTT -GGCGCTGGCTTCGAGAATGAAGTCACCAAAGAAGCGTTGATCCAGCGCGACCGGCGGCGACTGGCTGAAC -AGTTTACCGAGCGCCGGAAGATCGCGTTCCCGACCAATTACACACAACACATCGCCTTCGCGCAGTCGGG -TGCTGCCGGTAGGATGAAGCAACTGGTTATCACGAAACAGTGCCGCAATACGCGTCTCTTTTGGCATATG -CAAATCGCGCAGTGCCGCGCCCACGCACCATTTATCGGCACTCAATTGATAAACAAACTGCTCCCACGGA -TTTTCCGGATGAATATCCAGGCCAACGCGTGACACCGGACGTCCCACTGGCGGAACCACCACTTTGGCTT -TTTTAGCCGCCCACGAGAGTGATGTTCCCTGCAAGAGCAGTGAAACCAGAACCACAAAGAAGGCGACATT -AAAGAACAGACGTGCATTCTCCAGCCCCGCCATCATCGGGAACACGGCCAGGATGATTGGCACCGCGCCG -CGTAATCCTACCCAGCTGATAAACACGCGCTCACGCAGATTGAAACCGCGGAAGGGGAGCAATCCAGCAA -ATACCGAAAGGGGACGGGCGAAGAATATCATCCATGCGGACAAAATGAGCGCCGGAATGGCAATAGGCAG -CAGATCGCTTGGGTTAACCAACAGCCCCAGCACCAGGAACATGGCGATTTGCGCCAGCCAGGCGAGGCCG -TCGAAATTTTGCAGGATGCCGTAGCGGTTGCGAATAGGGCGATTACCCAGCAGAAAACCGCACAGATACA -CCGCCAGAATACCGCTACCTTCCAGCGCAGTAGTTAATGAGAAAATCAGAATACCGCCACTTAATGCCAG -CAATGGATATAATCCGGCGGGCAGGGCGATGCGGTTGATCATTTGCAGTAGTAAATAACCGCCGCCAAGA -CCTATTACAATGCCCAGACCAAATTGTTGCAGAATATCGACAATGAACATCCAGCTAATATTGCTCTCAT -GATGCTGGATCATCGCAATTAGGGTAATCGTCAGAAAGACCGCCATTGGATCATTACTGCCGGATTCAAT -TTCCAGCGTCGAGCCAACACGTTCGTTAAGCCCCTTACCACCCAGCAGAGAAAAGACCGCTGCAGCATCG -GTAGAGCCGACGATAGCGCCGATTAATAAGCCTTCAATCAAATCAAGATTAAACAGCCACGCCGCCATCA -TGCCGGTTAAACCAGAGGTGATAAGCACGCCCAGCGTCGCCAGCGACAGTGCCGGTCCTAACGCCACACG -AAAGGAACTGGCCTGAGTGCGCATCCCGCCGTCGAGCAAAATAATCGCCAGTGCCAGGTTACTTACCATG -TAGGCGAAGGGGTAATTATCAAACGGGATACCGCCGACGCCATCGACTCCTGCCAGCATGCCGATCGCCA -GAAAAATAACCAGAATAGGAATGCCAAGACGGGAAGAAAATGAACTAAGTAATATACTGCTGGTGACAAG -GATGGATCCTAAGATGAAAAGGCTAATTATTGTTGTGGCATCCAACGGTCGGTTACTCCTGATTACGCTG -TCTCTTATATAAACCCTACCATATTAGCGGCAGAGACAGCGTTTTACTTAGCCCTGAAGCGTGATTTTTT -TACATTTTAAGAACAGGATGACCGCTAATCGTCAACTGAGTGCCTTCCCGGGTGTTATTCAGAATGGCAT -GTGCGCCCAACGGCAGCGTAACCGTGCGTTGTTCATGACCAAAATCGAGGCCGGTAATGAGTGGAATCGA -CAGGCGGGAACGCAAAAACGCGTACACTGACTCCAGGTTGTAACCTGCGTCATAATCATTGGGCGTGCTG -CCGCTAAAGCTACCGAGAATAATCGCCTTCTGACGTGGCAAAATTCCCGCATGATAGAGCTGCAACAGCA -TACGTTCGACCCGGAAAGGGTGCTCGTTAATATCTTCCAGCACCAGAATACCGTTCTCAATTTTTGGCAT -CCACGGTGTACCGATCAGTGAAATCAGCATCGCAAGATTGCCTCCCCACAACGTGCCTTCGGCCCGACAT -GTCGGGCCTTCCCCTTGCCATTCAATGGTGAAGGTTTCATTGCGTAACGCCAGCCAGAAATGGTGCTCGG -TAAAGGCGTTCAGTTCATCCGCGCCAAAGTTTGCTACCAGCATGGGGCCGCTAAAGGTGATGACATTGCC -ATGCGCCAGAAGACCGCACTGAATGGCGGTAAAATCGCTATGTCCGCAAATGAGCAACGGGTCATGTTGT -TGGCGAGCCACCAGTGCCTGCCAGTCAATATCTGCCAGTAAACGACTGGCACCGTAACCGCCGCGTACAG -CCAGCACGATGGTGTTGGGGGTAGTCAGTCTGGCAAGGGAATTGAGATCTTCCAGACGCTCTGTTTCCGT -ACCCGCAAAACGCTCACAACGACGGGCAATAACCTCGACGTTATTGACTTGATGCCCCGCGTCGGTAAGG -CGCTGGATACCACGCAGCGCGGCGTGCTGTTTAATGCAGTAACCCGATGGGGCAATTAAGTGAAACAGAG -ACATGGCAATTCCTTGCTGACAACAGAAACGAAATGTATATCATGCCGCTTAGGTGTGCCGTTGTCACCT -CAACGGCGATTCCAGGCTATAAGGATAGAAGAAGTGAAATTGAGATGGTTTGCCTTTTTGATTGTGTTAT -TAGCGGGTTGTTCATCAAAGCATGACTATACGAACCCGCCGTGGAACGCGAAAGTTCCGGTGCAACGTGC -GATGCAGTGGATGCCAATAAGCCAGAAAGCCGGTGCAGCCTGGGGCGTCGATCCACAATTGATCACGGCG -ATTATCGCTATCGAATCGGGTGGTAATCCGAACGCGGTGAGTAAATCGAATGCCATTGGTTTGATGCAGT -TAAAAGCTTCAACCTCCGGACGTGATGTTTATCGCCGTATGGGCTGGAGTGGTGAGCCGACGACCAGCGA -GCTGAAAAATCCAGAGCGTAATATTTCAATGGGGGCGGCTTACCTGAATATTCTGGAAACCGGCCCGCTG -GCAGGCATTGAAGATCCGAAGGTACTGCAATATGCGCTGGTGGTGTCATACGCTAACGGGGCAGGTGCGC -TGCTACGGACTTTCTCGTCAGATCGGAAAAAGGCGATCAGCAAAATCAACGATTTGGATGCTGACGAGTT -CCTCGAACACGTAGCGCGAAATCACCCTGCGCCGCAGGCTCCGCGCTATATCTACAAACTTGAGCAGGCA -CTGGACGCGATGTAAATCAGTCGCGCACTTTGTCCGCTTTTTCCCGGGCTTCTCGCTCGAGAGAGAAAAT -AATCCGCTGTAATTGCCGCTCCACCGTCGGGCTGACGTTAAGAAAACGGAAGCTCAGACGGGGAGTGGTG -ATGGTTTCATTCTTGCCATCAATCACTTTGCGCTCGCTGATGGAGATTAACTGGGCGTCAAAGTGAAAAA -CACCCCATTGCCCCATGTTGACTTCAATCTGAGCGAAGCGCATGCCTTCTTGTAATTCGGCAGGCTTTGC -TGTTTCCAGTAATGCGCCCATGCCGCCTAACGACAAATCATACAGGCGGAAACGTAACGTACTGTTATCC -GCCAGTTTGGTCTGGCAAAAATAAGGCGGATGGAGTGGGGCGGAGATGCGGAAATATCGGCGTCGTTGTA -CAAACCATAAGGTGGGAGGCGGTACGGTAATAAATGCCGGAAGCTGCAAGTATTCACTCTGCTGTAGTTG -TTCAACAGTAAACTCGACTTTCGCACCCTGAGTTTCGGCGGTAATGGTAATGTGCTGTGCCTTTAGCACG -GCGATGTTGTCTTCGGCTTGACTGCCGAAATCCAGCACCAGTTTATCCGGGGTTATTGCCAGTAATTTGC -TGATCAGCTGCCCGCCATTCCAACTGAGACGCAAAGGAATTGCGGCTTTGTGCAAATCGCGTAACACGCC -CAGGACGGCTAACGGATTTTGTTTCAGGAACTGCTCATGGTAATGACTCACGCGGAAAAACTCCTGACTG -ACAAACTGTCTTTGGTTTATCGGTCACAGTTAACAAAACTTAATACAAATGCGTGAATATTTTTTACATG -TTGTTCTTAAATCAGCCGACATACGCCCAGCATCGATCCCGCCCTTGCCTATACTTAGAGCGTTGATGTA -AGCATTTCTTGCGTCCGATTCATCGAAACGAGGGCCTGAACATGGGAATTATTGCCTGGATTATTTTTGA -CCTGATAGCCGGCATTATCGCCAAGCTAATCATGCCGGGGCGTGATGGTGGTGGATTTTTCCTGACCTGT -ATTCTCGGGATAGTCGGTGCGGTGGTCGGCGGCTGGCTGGCGACCATGTTTGGCATTGGCGGCTCCATCA -GTGGTTTTAATCTGCACAGCTTCCTGGTGGCGGTGGTGGGAGCTATTCTCGTTCTGGGCATATTCCGCCT -CCTGCGAAGAGAATAAGATTTTCATAAGGCGGATAGCGATACAGATGCCGCTATCCGCTTTCACATCAGA -ACGTATACTCGACACCTGCTTTACGGGTGAAAAAAATCAATATAGCACTTCGATATCCGATAAAGTCGGT -TCCCGGTAACAACAACAGAATCCTTTTTTAATTATTGTTTCGTTGTTTTTGGTGTGATTCAGAAAATAAA -TATTTTAGACAGTAGCCAGTCAGGCGTTAAAAATGGGGCGGATAGTGAGGCGGTTTTGGCTGCGCTTATT -GAACATTTAGAATTGATCAATCCTTCTGGCAGATTAAGCCAAAATACCCGTTCGGCAATGCTTCAGTTAC -GCGAAGAGGAATGGTCTGAATTCTTTTTTTGGTTGCTAAATTCTCTGGAGTGTCTGGATTATGTGATTAT -TAATTTAACTCCAGAAAGCAAAAAAACGTTGATGAGTGAACACCGTAACAATATTCAGGTAGCAATTGAT -GCTTTATATAGCCAACGTCGGCGTAAATCGCCGGGTGATGAAAGTGAAACACTTACCCGTAGAAATGACG -CTATCTTCGGCAACCACGTATGGCAAACATTTGCGCAATACTTCCCGCCAGGACTTGAAAAACCGTCTGT -GTAGAAAAAACCATAGCTATGGTGTTATCTGCCGACAACGCCATCCGGAGAAGCCGAATGACGTTGTCGG -AGTAAGCGCTGGTTAAGGTGTGGGTTGTGCCTCTTTGGTTGAGGGTTGCGTCGTTGCTGACTTAACGGTC -GGACGCGTCGCCGGAACATTGTCACACGGTTGCTCTTTCGGGCAGATCAAATCCAGCATTTTCAGCGTCA -CGCCATTGGTCCAGCCAAAGCCATCCTGTAATGGATATTCGCCACCGCCGCCCCCCGTTCCGGTGGTGCT -GACATCATATTTTTCCACCAGCTTTTTCTCCCGGTCATAGGTGTGCTGAACATTGGTCAGGAAGTGCCAG -CTAATGTCCATCGCCACCTCTTTTTGCCCGTAGTTTTGTAATCCTTCTGTCGCGACCCACTGTAACGGTG -CCCAGCCATTTGGCGCATCCCATTGTTGCCCACTTTTCACCGACGTGGTGTTCAGGCCGCCGGGTTGCAG -CAGATGTGTTTTCGTCGCCGTCGCCATTTTGTTGGCGCGATCTTTCGCTGCCGCATTGACGTACAGCGGG -AACAGGGCGGCCGCGGTTAACTGATTGCGCACTTTATGACTTTTCAGGTCGTAATCGGCATACCAGCCTT -GTTGATCGTTCCACAGGTATTTTTCGATCCCTTTTTGACGGGCATTTGCCAGCGTTTCGTACTGGTTTGC -CATCGCGTTATCTCCGGCAGCTTTGCTGGCGCGGGCGAGGATTTTTTCCATTTTAAACATCAGGCTGTTC -AGATCGACCGGTACGATGCTGGTGGTGCGTAAGGTATTTAACTGCTGCGGGTTGTCCATCCAGCGCGAGC -TGAAATCCCAGCCAGACGCAGCGGCAGAGCGCAGGTCGCGGTAAATTTCAGTGGCAGGTCGATTCGGATT -GCTTTTGGCGGTGGCAATATCTTCCACCCATGACTCTGGTCGTGGCGTATCGCGATCGTCCCAGTAGCGG -TTGAGAAGGGTACCATCCTGAAGTTTGACAACGCGTTTTTCCTGTTGTCCGGCTTGCAGGTTTTCAACAC -CGTCCATCCAGTAAGCATATTCTTTTTGCATTTGCGGCAGGTATTGCTTCAACGCGGCATCGCCTTCATG -CTGCGCCAGTAACTCTACCATCAGGGCAAAGAAGGGCGGTTGCGAGCGGCTTAAATAGTAACTGCGGTTG -CCGTTGGGAATATGACCGTAAGTGTCTATTTCATGAGCAAAATTGGCCACCATATCCGCGACTTTATCCC -AGTGACCGCTTTCGGCAAGTCCTAACATGGTGAAGTAACTGTCCCAGTAATATACCTCGCGAAAGCGTCC -GCCCGGCACGACATAAGGTTCCGGCAGCGGTAACAGAGAATCCCATTTTTCGGTGTTTTCGGTAGAACGC -GTTAATACCGGCCAAAGTCCGTCAATATGTTCGCGCAGTGACTGCCCCTCTGGCGGAACATATTTCTCGC -CTTCTTTCGGCAGGGTGAAATTGACGTTAACGAAATGGCGCAGATCAAATCCGCTCTGGTTTTGCTGCAT -CCGATAATCAGCAAGGATCATCAGCGGATCGCTGTTCGGCACGGCATCGGCAAAGGTTTTTTGGTCCGGA -AAAAGTTTGGCGTTTTGCACATCATTAAACAGCGGCCCTAATAAAATATCAGGCGGCTGTGGTGTTACCG -GTGTTTCTTCTGCCTGCACCGATAGCGCAGCGAAACACAAAAAGATACAGGCTGGAATTAACGCCATTTT -TTGCGGGCGAGAAGGTGCGGGGGATTTCATCAATCATTCTCCTTTGGCGAAACCGAATAAAACGGTATTC -AAGTATCAGAAAACCTTAGTTCAGGATCGCACTAGCTGCATGATCGAAATCTCATTCTGCGAACTGTCAG -GCATTTTAGAAAAGGGAATTAAAGGGATAAATAACGGCGAAATAGAGTGATCAAATAACGTCTGTTTATT -AGCCAGCCAGCGGCGTTGGGTTCGTGATTAGCGAAGAAAAATCATCATAAATTGGTGAAAAATATAACAG -GTAGTTAAAAACCATTAGTGCTGAGTAAATTGCCGGATGACATCAGAACGATGCCATCCGAACAGTGGCT -TAACCCTGACGGTTGAAACGTTGCGTTTTAACGTCCAGCGTTAGCGTTTCTTCTGGTTGTATCGCATACA -GTTTCTCACCCTGCTGGCAAATCCAGCCAATCCCCAGTTCACGGGCGATTAGGGCGCTGTGGGATACCGG -ACTTCCGGCGCTAAGGCAGATACCTTTTACAACCGCCGGATCCAGTTGCAGTACTGTGGAAGGATAAATG -TTCTCCGCCAGTAGAATAGTTGGCGAGTTAAACTGCGGGAGTTCTTCTTTCGTTTGGGTCAGGTGGACCA -GGGTGCGATGCAGAAGATCGTCCACATCAATATAGCGAGCTTGTAGATATTCATCATCCAGTTGCTGGTA -TTGCTGGCTAAGTTCTTTAAGAACTTGCTGCCAGGCATATTCTGCCGTGCAATGTTCATGCTGAAGGAGT -TCGCTTGCCGCCGCCAGCAGTTCCGGATCATCTAACAGTGTATGGTGACCAGAAAAGATTGCGGCAATAT -CGTCAAGCCCGCTGGCTTCTGCTTTCGCTGTTAACGTCATCAGATCTAATAACGTGAAGTCAATAGCCTG -GCGTAATCGATCTTGTTCTTCTTCCACGGTCAGGGTTGATTTTGCCTGTACCGTACATAAAACTGGTTGA -TAATAAAAGGCTTTACCCGAAACAGGCGGAACGGGACGCAGAGTAGGTGGAGCGACTTCCTCCGTTTCAC -CAAAGTTATCTTCAGCCAGCTGACGGAAAGCGATCAGTGCCTCTTCAGCTTCTGGCCCTTTCGCAATCAG -GCGCAGCGTATCGTTATAGCGAACTTGTAGTAACGCAATCTGGTTAATACTCTCTGGTGTGACGCATTTG -CCGTTTTTTTCCAGCAACATATCGGCATTAAATGTCGATAAGGTATAAACCAGCCGGGAGGCCGGACGTA -CATGCAGGCCGTTACGGTTTTTTATGACCACCGCCAGAGAACGGGCTTCTTCATCGTACGCAGGACATGT -GTCAGAGATTTCAGTGTCGGAGGACGGTAAACCCAGTTGTTCACGTTTGGCTTCCAGCGCATGCATGGCG -TCAAAGATAACTTTGTCGATATCCGCCCCCGAGGCCGCGCTGACCGTTGCTGCCAGTGTACCTTCGACCA -ACGGCGCAGCACACAAACGTACTTTTGCGGCGATCTCGGGAGCCAGCAATTCCAGCGCAGTTTCAGCACT -CAATAATGCGCTACCCATATCCATCATGACCAGCACATGGTCGGCATCAGCAACAGATTCGATGGCCTCC -ATCACTTTGACGGCATCGGTACCAATGGGATTTTGTGGATCGTCAATTCCCGCGGCAATGGCGATTTTAC -AACTATCACTCATTAACATCTGACGGGCTAATTCACCGACACCTTCTCCCAGTCGGCTGCTATGTGAAAC -TATGACCAGGTTTACCATCACCAATTCCTTACTCTTTTGCGGCTAACGCCAACATTTGCATCATAAACAT -CACCGAGGTCGCGCCGGGATCCTGGTGACCAATACTGCGTTCACCGAGATAACTGGCGCGGCCTTTGCGG -GCTTGCATCGTAATCGTACTTTGTGCAGCGGATTCGGCGATGCTACTGGCAGCTTCGAGCGCCACCGGAA -CAGAGAGATTTTGCTCGCTGGACTGACGTAACGATTCCACCACCGGCACCCACACATCACACATGGTTTT -ATCGCCAGGTTCGGCTTTCCCGCGACTGATTACGCCGTCCGCGCCATCGCGGAACATCTGATAAAGCTCT -TCCAGTGTCAGGCTTTGCCGTGCCTGGGTCGCCTGTGCGGCGCGGATAAAGAAGGTACCGAACAGCGGAC -CACTGGCACCACCGACGCTGGAAAGCAGCGTCATACCGGTATTCTTGAGAATGAAACCGATATCTTTATC -TGCGATAGCAGGGAGTTTTTCCACCACTTTGCTAAAGCCTCGGTTCATATTTAGCCCGTGGTCAGCATCG -CCAATTTCGCGATCCAGTCCGGTAAGATACTCGCTCTCGGTGCTGAAAATATCGCCACAACGAGTGAGCC -AGTTAACAATTTGAGTTCTGCTCAGTGACATTGCTTTCTCCTTATTTACCCCAGTTAAGGGCCGGGGTGT -GGACCGGGGCGTCCCAGAGTGCCAGCGTTTCGTCATCAACTTTCAGTAAGGTGATTGAGAAACCGGTCAT -ATCCAGTGAGGTGCAGTACGCGCCAATTAAATTACGTTCGATAGTCAATCCCGCTTGCTGGCAACGTGTG -GTCAGGCGGTTATAGACGCCGTACAGCTCAGAAAGCGGAGTTGCGCCAAGATTGTTAACCAGCGCAATCA -CCCGATCGCCAGACTGGAGCGGTTGTTTGGTTTGTTGTTCTTCCTGCCAACTGCCTTGTTGATAATCCCA -GAAACGCAAAGTGCGATGGTATGAGCCATTTACCAGCAGGGTGTCGAACATTTCATCGACGGTTTGATCA -AGGGAAGAGAAGGGGCGGCGGTCAATACCCGGCTCACCATGAATGCCGACGCCAAACTCCATCTCATTAT -CCGCCAGGGTAAAAGAAGGTTTGCCCGCGGCAGGAACGGTACAGGCACCGAGAGCGATACCTATTGAGTG -GCCTTGATTATTCAGCTTACGCCCCAGTTCCGCACAGGCGTCCAGTGAGTCGCCACGCTCCGCCGCTGCG -CCTACGAGTTTTTCAATTAATACGGTGTTGGCAACGCCGCGTCGCCCGGCAGTATAAAGACTGTCTTTTA -CCGCAACGTCGTCATCAATGACCACAGTGGTCACTTTTACGCCGCTATCGTGCAGTAACTCGGTCGCTGT -TTCAAAGTTAAGAATATCGCCGGTGTAATTTTTGATAATCAACAGTACACCTTCGCCGCCATCAACTTGC -ATGGCGCATTCAAAGATTTTATCGGGCGTCGGTGAGGTGAAAATTTCGCCCGGACAGGCCCCCGAAAGCA -TCCCCTGACCGATATAACCACAGTGCATCGGCTCGTGTCCGCTGCCGCCACCCGACAGCAGGGCGACTTT -TCCTGCAACAGGGGCATCAGCTCGGGTGACATACACCGGATCCTGATGCAGTGTCAGCGATGGATGCGCT -TTCGCCAGTCCTGCCAGTTGTTCGTCCAGTACGTCTTGCACATCATTGATCAATTTTTTCATTATTTTGC -TCCAGCAATTACGGTAGGGCATGGATGATGTTCAACGACACGGCGACCACTGACTGCCGATGAATCCATT -GTGCATCAGGCAAGGGAAAAGAAAATTAGCCCAAATTATGTTTCATAGTGAAACATATGCTTTAATGAAT -GTTCCATATTGAAACTTTTACGTGTATTAATACTTAAAATTGCGAGCCGGAACACCTTTTGTCATAAGGG -ATGCGGGATATGAGTGGCGCTTTTAACAACGATGGTCGGGGCATATCTCCCTTAATTGCAACCTCCTGGG -AGCGATGCAATAAGCTGATGAAACGGGAGACATGGAACGTACCACATCAGGCCCAGGGCGTGACATTTGC -TTCTATTTATCGGCGTAAGAAAGCGATGCTGACGCTCGGGCAGGCTGCGCTGGAAGATGCCTGGGAATAT -ATGGCACCGCGAGAGTGTGCGCTGTTTATCCTCGATGAAACCGCCTGCATTCTCAGCCGTAATGGCGATC -CGCAAACCTTGCAGCAGCTAAGTGCACTGGGATTCAATGACGGCACGTATTGCGCCGAGGGAATTATTGG -TACTTGTGCGCTATCGTTAGCGGCTATCTCTGGTCAGGCCGTGAAAACGATGGCCGATCAACATTTCAAA -CAGGTACTCTGGAACTGGGCCTTTTGTGCAACGCCGTTGTTTGACAGCAAGGGCCGATTGACGGGAACAA -TAGCGCTGGCGTGTCCGGTTGAGCAAACTACCGCAGCTGATTTGCCGTTGACGTTGGCAATCGCCCGCGA -GGTCGGAAATTTACTGCTGACGGACAGTTTGCTCGCTGAAACTAACCGTCATTTAAATCAACTTAATGCC -CTGTTAGAAAGTATGGATGATGGCGTGATTAGCTGGGACGAGCAGGGTAATTTGCAATTTATTAATGCCC -AGGCGGCGCGGGTCTTGCGCCTTGACGCGACGGCAAGTCAGGGACGGGCAATCACTGAACTCTTAACGTT -ACCCGCCGTATTGCAACAAGCAATAAAACAGGCACATCCGCTCAAACACGTAGAAGCAACCTTTGAAAGC -CAGCACCAGTTTATTGATGCGGTGATAACCCTTAAACCGATAATAGAAACGCAGGGAACCAGCTTTATTT -TGTTGCTCCATCCTGTGGAACAGATGCGGCAGTTGATGACCAGTCAATTAGGAAAAGTCAGCCATACCTT -CGCTCATATGCCACAGGACGATCCGCAAACCCGCCGCTTGATTCATTTTGGTCGCCAGGCGGCGCGCAGT -AGCTTTCCTGTCCTGCTTTGTGGAGAAGAGGGCGTGGGCAAGGCACTGCTAAGTCAGGCAATTCATAATG -AAAGCGAGCGTGCTGCAGGTCCTTATATCGCCGTCAATTGTGAGTTATATGGTGATGCTGCGCTGGCGGA -AGAATTTATTGGTGGCGATCGCACGGACAATGAAAATGGCCGTCTGAGTCGGCTGGAACTGGCACACGGC -GGCACGCTGTTTCTTGAAAAGATTGAATATCTGGCGGTGGAGTTACAGTCTGCTTTGCTTCAGGTTATCA -AGCAGGGGGTTATCACGCGACTGGATGCGCGGCGTTTAATACCAATTGATGTCAAAGTGATTGCAACAAC -GACCGCGGACCTCGCAATGCTGGTGGAACAAAATCGTTTTAGTCGCCAGCTGTATTACGCGCTGCATGCA -TTTGAAATTACCATCCCGCCTCTGCGTATGCGGCGTGGCAGCATTCCGGCGCTGGTGAATAACAAATTAC -GCAGTCTTGAAAAACGCTTCTCTACGCGGCTGAAAATTGATGACGATGCCCTCGCTCGCCTGGTTTCTTG -TGCATGGCCAGGCAACGATTTTGAACTTTACAGCGTCATCGAGAATCTTGCTCTGAGTAGTGATAACGGG -CGCATTCGCGTCAGTGATTTGCCGGAACATCTGTTTACCGAGCAGGCGACAGATGATGTCAGCGCCACCC -GCCTTTCCACCAGTCTGTCATTTGCGGAAGTTGAAAAAGAGGCAATTATTAACGCAGCCCAGGTCACAGG -CGGTCGCATTCAGGAAATGTCGGCTTTACTTGGGATCGGCCGCACTACGCTGTGGCGGAAAATGAAGCAA -CATGGCATTGATGCAGGGCAGTTTAAGCGCCGGGTATGAAAGACAGAAACGATTTCTGATACATCAGAGT -GATCTGTATTTCATTCCGGCGCACGCTAACAATTTTCAGCATCGTTTAAGGGCTTGTCTATCCCGCACTT -AAAAGCTGAAGCGATATCCTCCGTTGACTTGCTTCTGATCAAAGAGGTTACCCTGCGTGTAATCCGCTTC -GAGATAGAATGTGTGCTGTTTGTTATACTGTGCACTGACTCCCACGCCGTTATTCCAGCCATTACCTTTG -AAACTGTACTTCTCCCGGGAGTTGTTCAACAGATATTCGGTATCCCCTGAAAACTCGCGGATAGCGCCAG -TCTTCACATAGACATTCAGCTGGCTGTTGCCTGCGGTGATGTCATACCCCAGTATCATGCTGGCACGCCC -CAGCAGCGATTCGTAGTGATTCAGATGTATATTGAGGCCATTACTCGCCTTCATAGTCATCTCATTCTGG -TGGCTGTATGTAAGCTGGGTTTGCGGCTCTATATAGAACCCATAACCAGTAGGGGACAGGTTGAACCTCT -GCCCGGCTTCCAGGGAGATGCTCATTCCATTCGCAGTGCCGTTGGCGTTAACGCCGTTGTTCTGACTGTC -CAGTACGTGGAAACTATTTTTCTGGCGCGATGCTTTTATAACGAGATCGCTGTAAAAACCGTTTTGTGCC -ATGTAACTGGCGTACATTCCCATGTAGTCTGAACGTGCGGTACCGTCGCCTCCGCTATAGTCCGGCGATG -CATGTGTTGAGCCAATATACAGACCGACATACAACGGCATTACATCAGAGAGACGTTTATCCCCACCAAA -CTGGATACCGCTGTAACCCATGTCAAAGCCGCTCAGTTTGCCACTGGCAAAGGAGTCCAGGCTTCCCCCA -TAACTGCGCAACCAGATATTACCGTCTTTACTCTGATTTCGCAGGTCACCCATCCGTTGCATCAGCGTAC -GGTTTTCAACATAGTTCAATAAGTAACCGACATTGAGATAATTGCCGCCAGCATCTGCGGTCGTGGTGGG -TTTAGGCGTGGGAGCGGGTTCAGGCGTAGGATCGGGGTTGACTATGGGAGGCTGAGCGGGAGCTGGTGTG -GGTTCAGGATTAGGAGTCGGTTCCGGAACTGTCCCGGAAGCGTAAAGCTCCCAGTTAGTGCCATTTTTAC -GCACATCGTACAGATATCCCCCCAACTCAACCTGAGAAGACGCGCTGAACGAGGCCGCGCCGTCAGTGGT -TTTTACCACTGTCAGAACTTCATTTCCCGTTGTGGCCTCGCTGCCCTGGTTGCGGATAGCCAATACGTGA -TTACCAGCACTACTCCCGCTGATATTCAATAAATCCCCTTTATTATTAACGCCATTACCCTCGCCAACAA -CATCAGCACGCATAATAAAGGTACTGTTACCGCTCAGGTTCTCTACGTTTAATGTGGCAAATGTGCCGGC -AGTTGACCCGTGGCTGGCAAAATCGACAGTTGAATGGCTCAGCGCCAGCGTGTCGAGATTAGAATTACTT -GTTACGTTCCAGACGCTGTTATTCATTGCAACGTCCAGTTTTCCGCCATTGACATTATCGCTGAGGGAGG -AACCTGTCCAAACCGACCCAGGGTGCATATCCAGATTGATTAGCCCACCTTTGGAAAGAACGCTACCGTT -GATAAGCATACGACCCGAGGCGTTGATGCGGCTGGCGGCATAACCATCGTCATGTTGCGTTGCGATGGCC -ATCTGGTCGGGTGTACTCATATCAATGACCAGATCGCTCGTGAGGTCGATCTGGCTGTTGGTCATGGCAT -AAATTCCCCTGGCTCCTGCCGCGCCGGTGATAGCCAAACTGTCTCCGGTTATTCTACCGCCGCTGAGAGC -CCACAAACCCAGCGCCAGACTGCCATTACGATCAACTGTAATATCGGTATTTTGCATGTTGACAACAGCC -GTTGCCGTCTGGGCCGAGGCACCATAAGAACCGCCGGAAAAGATGCTGTTTCGTTGCGCTGCCGTGCCAG -TAAAATTGATTATCGCGTCTGAACCACTGGTGACGAGGCCACCGCCCTGCGCGGAAGAAATATGGCTATC -TGCACCGATAGTGGTTGTACCACCACGAACTTCGACGCCATTGGCCGCGGCTCCAGTTACATCAACAGTG -AGTGCATTCGCGCTAACCTGGCCAAAGCTCCAGAGGCCGTGAGCATTATCGCCATTGGTTTTAATGGTAC -TGTTTGTTCCGAGATCGACAACAGAGTTTTTCTGTACGTTTATCCCCATGGCGCTGTAGCCCTGAACATC -GATTGTCAGGTCTGTAGCCGTAAAACGCGCAGCACCATTGGCGTTATTGCCGTTGAGACCACCGATATAA -ACACCTGTACTTCCATCGGTCGTGATTTTACTTCCGCTTCCAAGATCGACACTGGTGCCATAGTCATTGA -TGGTTAGGCCTATACCGTTCGAGTTTTCAATGGTGAATTGAGTGGCTGTTAGTGTTGAGCTATGCCCAAT -AATGATGCCGTCATCGTTACTCTTAATGGTGCTGCCTGTGCCTAAGTCAGCATGGGTATAGTCACCAATT -AAGTTAATGCCGATGGCAGAGGTTTGACCAACAACATCTACTGTGAGTCGGTTAGCTGTCAGGGAGCTGT -TTTTGCCCTGAATAATGATTCCTTTTGCATATCCAGAGGCGTCGTTGACATTGACGGTGACATCATTACC -CAGGTTGATATTGCCAGGCGTGTTTCCTGCTGGGGTCATTACACCATAGAGGTTTCCTGATGGATCGGCG -GTATCTCCTGTAATTCTGTCACCATCATTAATAGTAATATTGGTGCCATATTGACTTCCTGTATCAGCAG -CTATCAGCAGGGGGGAAAAGATAATTGCATTCAAACCAATAGCGCCAAATTTTATCAGTTGAATTGAGGG -CGAACGGATTTTTAATTCAGCGAGACGATCTGCTTTGGTATTCCCATTGTGTTGTTTGATGCCCATACCA -CTCCTATATAGTACCCAGACTATGGGTCTATGGATTTTGTCATTTTGTTTAAATCAATGAATAATATCCT -CTTATCATCATGATATTTGTATGGTGCAATCATGATGAGCTTCTCAGAGAATAATTCTCTATTACCGGGC -AAAATCAGGAACACAGGAATTAATATATATTTAACATCCCCCTTACAAAGGTGAGTTTATATCGAGTTAT -TCCCTAAGTTGTCGTTACTTATTCCAATTCGTTACTATAAATATGGCAAAAATATTACAACAAACAGCGG -TTAAAAAATTTGGTGAAGATTTTTTGTAATAATCCTAATTAGTTATGGGAATTTCGCTTGATGTATCTGC -ATAACAAAAACAATATGCGCCATTTTTGCATTACTAATAAGAAAAAGCAAAAAACATCGATATTCATTTT -TGGTCAATGGGTTTTCTGGCCTATCGTTGTTATTGTGCTACTGGTTATCATTTTCATCTTGCCAGCATAT -TGGAGCGTGATCAATTTTGATCAGCTGTGAAGGGGGCTGATGTGTAGTGATACAAAAACTTACGTTATAT -CACTGCTAATGAGATATCCGGCATCTGAACACTTATGTCTTTAATTATTCTCGTGGTTCACTATAGGCAA -TAAGCACAAAAGTGTAGGATGTTACAAGAATGATTAGGACTCGGTGAAATGAAAAATCCACGCAATTGCG -TGGATTTTATATACTTTTGCGCTCTTCATGAGATTTAGCGAAACCTCATGAGACAATAAATTAATTAGAC -GTTGAAAAGGAAGTTCATCACATCGCCATCTTTCACGATGTAATCTTTACCTTCTGCACGCATTTTGCCT -GCTTCTTTCGCGCCTTGTTCACCTTTGTAAGTGATGAAATCTTCAAACGAGATGGTTTGTGCACGGATAA -AGCCTTTTTCAAAATCAGTATGGATTTTGCCCGCTGCCTGCGGCGCGGTTGCTCCAACCGGAATGGTCCA -TGCACGCACTTCTTTCACCCCAGCGGTGAAGTAAGTTTGCAGGTTCAGCAGTTTATAACCGGCACGGATC -ACACGGTTCAGGCCCGGCTCTTCCAGCCCAAGCTCCTGCATAAACTCGTCACGTTCTTCGTCGTCCAGTT -CGGCAATGTCTGCTTCAACAGCAGCACAAACCGGAACCACAACAGAACCTTCTTTCGCCGCGATTTCACG -CACCTGGTCAAGATATGGGTTGTTTTCAAAACCGTCTTCGTTGACGTTGGCGATGTACATTGTTGGTTTC -AGCGTCAGGAAGCTCAGGTAACGAATAGCCGCTTTCTCTTCAGCGCTTAAATCCAGCGCGCGCAGCATAC -CTGCATTTTCCAACTGGGGCAGGCATTTTTCCAGGACCGCCAGCTCAGCTTTCGCGTCTTTATCGCCACC -TTTGGCTTTCTTCTGTACGCGATGAATCGCACGTTCGCAGGTGTCGAGGTCTGCCAGCGCCAGTTCGGTG -TTGATAACTTCAATATCGTCAGCCGGGTTAACTTTGCCGGAAACGTGAATGATGTTGTCATTTTCAAAGC -AGCGAACAACGTGACCGATCGCTTCGGTTTCACGGATGTTGGTCAGGAACTGGTTACCCAGACCTTCGCC -TTTCGATGCGCCTTTTACCAGACCGGCGATATCGACAAATTCCATGGTCGTGGGAAGCGTACGCTGCGGT -TTTACGATTTCAGCCAGTTGATCCAGGCGAGGATCAGGCATTGGTACGACGCCTGTGTTCGGCTCAATGG -TGCAGAATGGAAAGTTGGCCGCTTCAATACCGGCTTTGGTCAGCGCGTTGAACAGGGTAGATTTCCCGAC -GTTGGGCAAACCGACGATACCGCATTTGAATCCCATGATTTAAATCACCTTAATATCTTAATAATCAACC -TGTTATTGCTAACAGATTGCAGAAATGGAAATAACTTTGCCTATTATACACGGCACTCGGCAAAAATGCC -GCAGACAACGACTTATTGCGCTTTAAAGGCGTGCAATCGGTTCGTTGCTTTGGTCAAGCCATCTGTAAAC -CACATTTCAGTACAACGCGCCGCTTCGTCAATGGCTTCATCAATTAACTTCTGTTCACTAACAGGCGGTT -TGCCTAACACAAAACCGACAACTTTATTTTTATCGCCCGGATGACCGATTCCGATGCGTAAACGGTGAAA -GTTAGGGTTATTACCCAATTTACTGATGATGTCTTTCAGTCCATTGTGACCACCATGGCCACCGCCCAAT -TTAAATTTGGCGACGCCAGGAGGCAGATCCAGTTCGTCGTGGGCCACCAGAATTTCGTCCGGATTAATGC -GGAAAAAACTGGCCATCGCCGCAACGGCTTTGCCGCTGAGATTCATAAATGTAGTCGGGACTAACAGGCG -GACATCTTCGCCTCCAAGAGTGACTCGCGAAGTATAACCAAAGAATTTAGCCTCTTCGCGCAGCGGAGCG -CGCAAACGCTCTGCCAGTAAGTCAACGAACCAGGCACCAGCATTATGTCGCGTTGCGGCGTATTCAGCAC -CGGGGTTCGCCAGGCCGACAATCAATTTAATCGTCACGTTTTTTTGTCCTGAGTGTGTACATAACTGGCG -CGTAGTTTACTGGTTGCGGCCCCGCTTGACAAAAAACTGCGTATCAAATGCAGATAACGTAATAATTGCC -TGAGTGGACTATTAGAAAGTCAAGGTGTTCAGGCGTTTATTTGTAAAGTTTTGTTGAAATAAGGGTTGTA -ATTGTGATCACGCCCGCACATAACCCACTGGGTGTTGTCTATACTTTACACATAAGGAAGAGGGGTATTC -CCTGTTACAACCCAGAAAGTTCCGGAGGTGACATATGAAACGCAAAAACGCTTCGTTACTCGGTAACGTG -CTCATGGGGTTGGGTCTGGTGGTAATGGTGGTCGGCGTGGGGTATTCAATCCTCAACCAGTTACCACAGT -TTAATATGCCCCAGTATTTCGCACATGGTGCAGTGCTAAGTATTTTCGTCGGTGCCATTCTCTGGCTGGC -GGGTGCCCGTGTTGGCGGGCATGAACAGGTGTGCGACCGTTACTGGTGGGTTCGCCACTATGACAAACGT -TGCCGCCGTAGCGATAATCGCCGTCATAGCTAACAAATAATGCAGTTTGCTGACCAGTCAGTTTGCGCTG -ACTGGTCAATCTCGTACTTATAAATCCGCCATCGCCGCGCGACGATTCGGGAAGAACGCCAGGCGTCCCG -GGATCGGTTGAATGCCAGCGCGAGCCATAGTGCGCAGTGGCTGGAATTCCACGTTGCACACGCGCAGTTC -ACATCCCTCGGGCAGACGCTTCACAAAACGCTGGAACGCATCAAGACCACCAGCATCAAGTACCGGAACG -GCATCCCACTTCAGAATCACAATCCGTTTGCCTTCAAGACGTGACTCCAGGTCCGTGAATAAGCCTTCAG -CAGCAGCAAAAAACAGCGGGCCAATAACGCGCAGAACCAGGACATCGTCTGGAACATCTACGACTACCGG -TGCCAGGCGAGTCATACGTGCGATACGACGCATAAACAGCAGCGATGCCAGCACGATCCCCACGCTGATG -GCAATAACCATATCAAACAACACGGTCAGCGACATGCACAGCAGCATGACGATGATGTCATCTTTCGGCG -CATGACGCAGCAAGTCGACCACTTTGTGCGCTTCACTCATGTTCCACGCCACCATCAACAGCAGGGCTGC -CATGGCGGAAAGCGGCAGCCAGGAGAGCAGCGGTGCCAGTACCAGCAGGGCAAGAATAACCAGAATAGAG -TGGATCACCGCCGAGATAGGGGACGTTGCCCCGGCACGGACGTTAGCGGCAGAACGCGCGATGGCAGCTG -TAGCGGTAATACCACCAAAGAACGGAGCGATAATATTCCCCAGTCCCTGTCCAACCAGTTCGCTGTTCGC -CTTGTGTTTCGTCCCGGTCATACCATCCAGCACCACGGCGCAGAGCAGAGATTCGATTGCGCCGAGCATT -GCCATTGAGAATGCCGCAGGCAGCAGTGTGCGAATAGAATCCCAGGTTAGCGTGAATTCTGAATTAGGCA -GATCCCACGGCAGCACCAGTTGCGGCAGCAGTTGCGGAATACCGTTACCCTGAGAACCATCGGCCAGGAC -GTAGTGGAATTGCGAACCGATGGTAGCAACATGTCCGCCGAGCAGGTTAACAATCCCCATCACCGCGCAA -CCAGCCAGCAAGGCCGGAAGGTGACCGGGTAAACGAATGCCCAGACGCGGCCAAAAAACAAGAATACCTA -GCGTCACAATGCCAATGGCAGCATCACCCACATTAATGGTCGGCAGCGCCATAAATAATGCGCCGACTTT -TTGTAGATAATGTTCCGGGACATGGGCCATTTGCAGACCGAGAAAATCTTTAATCTGCATGGTACCGATG -GTGATCCCGATACCCGAGGTGAAACCTAAGGTGACGGAAACCGGAATATACTCAATCAGGCGACCAAAGC -GTGCCAGACCCATCAGAATCAAAAAGATCCCCGACAGCAAGGTCGCAACCAGCAGTCCTGCCAGTCCAAA -CTGTTGCGACACGGGATAGAGAATTACCACAAATGCCGCAGTCGGACCGGAAACGCTAAAGCGTGACCCA -CCCGTCAGAGCAATGACAATCCCCGCAACAGCTGCGGTATATAAACCGTACTGGGGTGCCACACCACTAC -CAATAGCCAACGCCATCGCCAGCGGGATAGCAATAATCCCGACGGTTATCCCGGCAATCAGGTCACGGGT -AAACCGTGCGGCAGTATATTTTTCTTTCCAGCAAGCGTCGATCAGAGCGCGGAAAGGCATCACATGTGAG -GAAAATATTTTGTTCACAATAATGTTTCATCCGTGAGCGCATCATCTGTCAACTAAATGGCAGGTGAAGG -AGGCATAGGTCATACAAATGGATATTACAGACAAAAAAACCCGCCGCAGCGGGTCTTTGAGCCGGGTTCG -ATTAGTGTTCGAACATGGCAGAGATCGATTCTTCGTTGCTGATACGACGAATCGCTTCGGCCAGCATACC -TGACAGGGTCAGAGTACGCACGTTCGGCAGTGATTTGATTTCATCGCTCAGCGGAATGGTATCGCAGACA -ACGACTTCATCAATTACAGAGTTACGCAGGTTGTTCGCCGCGTTGCCAGAGAAGATCGGGTGAGTCGCGT -ACGCAAATACACGTTTAGCACCACGTTCTTTCAGAGCTTCAGCAGCTTTACACAGCGTACCGCCAGTGTC -GATCATATCATCGACCAGTACGCAGTCACGACCTGCAACGTCACCGATGATATGCATCACCTGTGAAACG -TTCGCACGCGGACGACGTTTGTCGATGATTGCCATATCGGTATCGTTCAGCAGCTTAGCGATAGCGCGGG -CACGCACAACGCCGCCGATGTCCGGAGAAACCACAATTGGGTTATCCAGATTCAGCTGCAGCATGTCTTC -CAGCAGGATCGGGCTACCAAATACGTTATCAACCGGAACGTCGAAGAAACCCTGAATCTGTTCAGCGTGC -AGATCCACTGTCAGCACACGGTCAACACCGACGCTGGAGAGGAAGTCTGCAACCACTTTCGCAGTGATTG -GTACACGAGCGGAACGGACGCGACGGTCCTGGCGCGCATAGCCAAAGTAGGGGATAACAGCGGTGATACG -ACCTGCGGAAGCACGACGCAGGGCATCAACCATAACGACTAATTCCATCAGGTTGTCGTTAGTAGGGGCA -CAAGTGGACTGGATGATGAAAATATCACCACCGCGTACATTTTCATTAATTTGTACGCTGACTTCGCCAT -CGCTAAAGCGACCTACAGCGGCGTCGCCGAGTGAAGTGTACAGGCGGTTGGCAATACGTTGTGCTAGTTC -CGGGGTGGCGTTACCAGCAAAAAGCTTCATATCAGGCACGAGAAGAACCTCAGGCATGCGTCCATTGGTG -GAAAGAATCTGCCGAAAACTGTGCGGGCCAGGCATGATCCTTTCCAGGCGGTGTATTAAAGAGCGCGATG -CAACGTCTGGAACAAGGTGACGTTGTCACCGAAACTCAGCTTGCCCGGCTTAAAGCATGGCTCTGTGCAA -TGGGGAAAGATTAGCGCCTTTCGCCACAAAGCCATTGAGCCATTCCGGGGCTTGCTCTAGCACCTGGCGG -GCTTCAGACTCTGTATCAAATTCAGCAAAGACACAGGCCCCTGTCCCAGTCAGGCGCGACGGGGCGTATT -CTAACAGCCAGGAAAGCACCGCATCAACCTCGCGAAAACGTTTTCTTGCGATAACCTCGCAATCATTGCT -GAATTCACATTTTAGCAACGTTTCTATTGACCTTTTTGGCGTATTGCGCGGGAGTTCAGGATCTTTAAAA -ATCACCGGAGTCGGAATACTTACACCAGGGTGCGCCACCAGATACCACTTCTCTGGCGGATCCACCGGCG -TTAGTATTTCACCAACGCCTTCGGCAAACGCGGCATGCCCCCGAACAAAGACAGGAACATCTGCGCCCAG -CGTCAGCCCCATTTCCGCCAGCTCATCCATGCTTAGCCCGCATTGCCAGAGATGATTTAATGCCACCAGG -ACCGTCGCGGCATTGGATGAACCACCGCCGAGACCGCCGCCCATCGGCAAACGCTTGTCAATGCTGATAT -TCGCACCGCTTCCCGTCGGAAGACGCCCGCTGTCTGCCGCAGTTTTCATCAACAATCGCGCTGCGCGAAC -GATCAGGTTATCTTCATGTTCCACGCCTTCAACGGGCGTTAACAGACGAATATCCCCATCGTCACGAAGC -TCAATGCTGATGGTGTCGCCGTAATCAAGAAACTGAAACAGCGTTTGCAGCGTGTGGTAACCATCCGCAC -GCTGACCGGTAATGTATAAAAACAGATTAAGTTTTGCCGGAGAGGGCCACTGTGTCCGCATTATTTCACT -ATCCAGTTATCCATTTTTAACTTGATGCGTTGACCACCGTCGGTGAGTTCCATATTGGCTGGCATCGCAG -GTTGCGTTTTGGTGTCATAACCACCATAAACAACCTTCCAGTTTTTGCCATTCTGGCTGTAGGTAATTTC -GCTCAGGCGGTACTGGTCGTCCAGTTTGTAGTCGGTTGCATCACCCGGTAAACCTAAAATCCACTGGCGC -AAGCTGTTGAGCGGAATTGGCATTCCGGTCAATTTGCCAATCATCTCTTCGGCGTCATCGGCGGTATAAC -GCTGACCTTTATTGTCGACTAACTGCACGTTACCCGGTTGAGCATTCAGCTCCAGTTCCGTGCTGCCCAA -TGGGTTAGTGAGCAGCAGACGGTAGCGATCCTGGCCGGTTTGCTGCCAGAAAAAGCGGGCGTACACTTTT -TGTTGGTCAGAAATATAAGCGAACGCGCCGCGAGTCTGATACTGATTAAGATTGCGCACGTCTTGCTGAT -GCTGACGCCATTGTGGCGAATCCGGGCTTTTGCCAGGACCTTTGGGCGTGGTAACGGAACAGGCAGTGAG -CACAAGAGCAGCCAGCGGTAGCAGGCGGATAAGACGAAAATCGGGCAGGGGCATAGTGATGACAAGTCCT -TGAGATACGTTGCAGTTATAACCCTTAATGCTAGCGTTACCGTCCGCTATCGTCTATGTTCAAGTTGTCT -TAATTGCCAGAATCTAACGGCTTTCGGCAATTACTCCAAAAGGGGGCGCTCTCTTTTATTGATCTTACGC -ATCCTGTATGATGCAAGCAGACTAACCCTATCAACGTTGGTATTATTTCCCGCAGACATGACCCTTTTAG -CACTCGGTATCAACCATAAAACGGCACCTGTATCGCTGCGAGAACGTGTATCGTTTTCGCCGGATAAGCT -CGATCAGGCGCTTGACAGCCTGCTTGCGCAGCCGATGGTGCAGGGCGGCGTGGTGCTGTCGACGTGCAAC -CGCACGGAACTTTATCTTAGCGTTGAAGAGCAGGACAACCTGCAAGAGGCGTTAATCCGCTGGCTTTGCG -ATTATCACAATCTTAATGAAGAAGATCTGCGTAAAAGCCTCTACTGGCATCAGGATAACGACGCGGTTAG -CCATTTAATGCGTGTTGCCAGCGGCCTGGATTCACTGGTTCTGGGGGAGCCGCAGATCCTCGGTCAGGTT -AAAAAAGCGTTTGCCGATTCGCAAAAAGGTCATATGAAGGCCAGCGAACTGGAACGCATGTTCCAGAAAT -CTTTCTCTGTCGCGAAACGCGTTCGCACTGAAACAGATATCGGTGCCAGCGCTGTGTCTGTCGCTTTTGC -GGCTTGTACGCTGGCGCGGCAGATCTTTGAATCGCTCTCTACGGTCACAGTGTTGCTGGTAGGCGCGGGC -GAAACTATCGAGCTGGTGGCGCGTCATCTGCGCGAACACAAAGTACAGAAGATGATTATCGCCAACCGCA -CTCGCGAACGTGCCCAAATTCTGGCAGATGAAGTCGGCGCGGAAGTGATTGCCCTGAGTGATATCGACGA -ACGTCTGCGCGAAGCCGATATCATCATCAGTTCCACCGCCAGCCCGTTACCGATTATCGGGAAAGGCATG -GTGGAGCGCGCATTAAAAAGCCGTCGCAACCAACCAATGCTGTTGGTGGATATTGCCGTTCCGCGCGATG -TTGAGCCGGAAGTTGGCAAACTGGCGAATGCTTATCTTTATAGCGTTGATGATCTGCAAAGCATCATTTC -GCACAACCTGGCGCAGCGTAAAGCCGCAGCGGTTGAGGCGGAAACTATTGTCGCTCAGGAAACCAGCGAA -TTTATGGCGTGGCTGCGAGCACAAAGCGCCAGCGAAACCATTCGCGAGTATCGCAGCCAGGCAGAGCAAG -TTCGCGATGAGTTAACCGCCAAAGCGTTAGCGGCCCTTGAGCAGGGCGGCGACGCGCAAGCCATTATGCA -GGATCTGGCATGGAAACTGACTAACCGCTTGATCCATGCGCCAACGAAATCACTTCAACAGGCCGCCCGT -GACGGGGATAACGAACGCCTGAATATTCTGCGCGACAGCCTCGGGCTGGAGTAGCAGTACATCATTTTCT -TTTTTTACAGGGTGCATTTACGCCTATGAAGCCTTCTATCGTTGCCAAACTGGAAGCCCTGCATGAACGC -CATGAAGAAGTTCAGGCGTTGCTGGGTGACGCGCAAACTATCGCCGACCAGGAACGTTTTCGCGCATTAT -CACGCGAATATGCGCAGTTAAGTGATGTTTCGCGCTGTTTTACCGACTGGCAACAGGTTCAGGAAGATAT -CGAAACCGCACAGATGATGCTCGATGATCCTGAAATGCGTGAGATGGCGCAGGATGAACTGCGCGAAGCT -AAAGAAAAAAGCGAGCAACTGGAACAGCAATTACAGGTTCTGTTACTGCCAAAAGATCCTGATGACGAAC -GTAACGCCTTCCTCGAAGTCCGAGCCGGAACCGGCGGCGACGAAGCGGCGCTGTTCGCGGGCGATCTGTT -CCGTATGTACAGCCGTTATGCCGAAGCCCGCCGCTGGCGGGTAGAAATCATGAGCGCCAGCGAGGGTGAA -CATGGTGGTTATAAAGAGATCATCGCCAAAATTAGCGGTGATGGTGTGTATGGTCGTCTGAAATTTGAAT -CCGGCGGTCATCGCGTGCAACGTGTTCCTGCTACGGAATCGCAGGGTCGTATTCATACTTCTGCTTGTAC -CGTTGCGGTAATGCCAGAACTGCCTGACGCAGAACTGCCGGACATCAACCCAGCAGATTTACGCATTGAT -ACTTTCCGCTCGTCAGGGGCGGGTGGTCAGCACGTTAACACCACCGATTCGGCAATTCGTATTACTCACT -TGCCGACCGGGATTGTTGTTGAATGTCAGGACGAACGTTCACAACATAAAAACAAAGCTAAAGCACTTTC -TGTTCTCGGTGCTCGCATCCACGCTGCTGAAATGGCAAAACGCCAACAGGCCGAAGCGTCTACCCGTCGT -AACCTGCTGGGGAGTGGCGATCGCAGCGACCGTAACCGTACTTACAACTTCCCGCAGGGGCGCGTTACCG -ATCACCGCATCAACCTGACGCTCTACCGCCTGGATGAAGTGATGGAAGGTAAGCTGGATATGCTGATTGA -ACCGATTATCCAGGAACATCAGGCCGACCAACTGGCGGCGTTGTCCGAGCAGGAATAATGGAATATCAAC -ACTGGTTACGTGAAGCAATAAGCCAACTTCAGGCGAGCGAAAGCCCGCGGCGTGATGCTGAAATCCTGCT -GGAGCATGTTACCGGCAGAGGGCGTACTTTTATTCTCGCCTTTGGTGAAACGCAGCTGACTGACGAACAA -TGTCAGCAACTTGATGCGCTACTGACACGTCGTCGCGATGGTGAACCCATTGCTCATTTAACCGGGGTGC -GAGAATTCTGGTCGTTGCCGTTATTTGTTTCGCCAGCGACCTTAATTCCGCGCCCGGATACGGAGTGTCT -GGTGGAGCAGGCACTGGCGCGGTTGCCTGAACAACCTTGCCGTATTCTCGATCTCGGGACGGGTACCGGG -GCGATTGCGCTTGCGCTGGCTAGCGAGCGCCCGGACTGCGAAATTATCGCTGTAGATCGTATGCCTGATG -CTGTCTCCCTGGCACAACGTAATGCCCAGCATCTGGCGATCAAAAATATCCACATTCTGCAAAGCGACTG -GTTTAGCGCGCTAGCCGGGCAGCAGTTTGCGATGATTGTCAGCAATCCGCCGTATATTGACGAGCAGGAC -CCTCATCTTCAACAAGGCGATGTCCGCTTTGAGCCGCTCACTGCGCTGGTTGCGGCAGACAGTGGAATGG -CAGACATCGTGCATATCATCGAACAGTCGCGTAACGCGCTGGTATCCGGCGGCTTTCTGCTTCTGGAACA -TGGCTGGCAGCAGGGCGAAGCGGTGCGACAAGCATTTATCCTCGCGGGGTATCATGACGTCGAAACCTGC -CGTGACTATGGTGATAACGAGCGCGTAACGCTCGGCCGCTATTATCAATGACAAGTTTTTCTACACTGCT -TAGTGTTCATCTTATTAGTATCGCGCTTTCTGTTGGGCTATTAACCTTACGTTTCTGGCTACGTTATCAG -AAGCATCCACAGGCATTTGCTCGCTGGACGCGCATTGTGCCGCCGGTTGTCGATACGCTGTTACTGTTAA -GCGGCATTGCGTTGATGGCTAAAGCGCACATCCTGCCATTTTCCGGGCAGGCACAGTGGCTGACTGAAAA -GCTGTTTGGAGTTATCATTTATATCGTTTTGGGTTTTATTGCACTCGATTATCGTCGTATGCACAGTCAG -CAGGCGCGCATTATTGCCTTCCCGCTGGCGTTGGTGGTGCTGTACATCATCATTAAACTCGCCACCACAA -AAGTACCGTTACTGGGGTAAGTCATGAGATCGTTAGCTGATTTCGAATTTAATAAAGCGCCATTGTGCGA -AGGCATGATCCTGGCTTGCGAAGCAATCCGCCGCGATTTTCCCTCGCAAGATGTTTACGACGAACTGGAG -CGTCTCGTTAGTCTGGCGAAGGAAGAAATCAGCCAGCTTCTGCCTTTAGAAGAGCAGTTGGAAAAACTGA -TCGCGCTGTTTTACGGCGACTGGGGATTTAAAGCCTCACGCGGTGTTTATCGTCTTTCCGATGCATTATG -GCTGGACCAGGTGTTAAAGAATCGACAGGGCAGTGCGGTATCATTAGGTGCGGTTTTATTATGGGTCGCG -AATCGTCTCGATTTGCCGCTGCTGCCGGTGATTTTCCCTACGCAGCTGATATTGCGCATTGAATGTCCGG -ATGGCGAAATTTGGCTGATTAATCCTTTTAACGGTGAATCGTTAAGCGAACATATGCTGGACGTATGGTT -AAAGGGAAATATCAGCCCGTCGGCGGAACTGTTTTATGAAGACCTTGATGAAGCTGATAACATTGAGGTA -ATCCGCAAATTGCTGGATACACTCAAAGCCTCGTTGATGGAAGAAAATCAGATGGAGCTGGCGTTACGCA -CCAGCGAAGCTTTATTACAATTCAACCCTGAAGATCCCTATGAAATTCGCGATCGCGGGTTGATTTATGC -GCAACTGGATTGCGAACACGTTGCGTTGAACGATTTAAGTTATTTCGTTGAACAGTGTCCGGAAGACCCG -ATCAGCGAAATGATCCGTGCGCAAATAAATAACATCGCGCATAAACATATTGTGCTGCATTAATTAATCG -ACATTTTACTCAAGATTAAGGCGATCCTATGAAACAAAAAGTGGTTAGCATTGGCGACATCAACGTAGCA -AATGACCTGCCGTTCGTACTGTTTGGCGGTATGAACGTGTTGGAATCTCGCGATCTGGCGATGCGCATTT -GCGAGCACTACGTAACTGTGACCCAGAAACTGGGTATCCCTTACGTGTTCAAAGCCTCTTTTGACAAAGC -CAACCGCTCCTCCATCCACTCTTATCGTGGACCGGGCCTGGAAGAAGGGATGAAAATCTTCCAGGAGTTG -AAGCAGACTTTTGGCGTGAAAATTATCACCGACGTTCACGAACCAAGTCAGGCACAGCCCGTTGCTGATG -TCGTGGATGTGATTCAGTTGCCGGCGTTTCTTGCTCGCCAGACTGACCTGGTTGAAGCCATGGCGAAAAC -CGGTGCGGTAATTAACGTCAAGAAACCACAGTTTGTCAGCCCGGGACAGATGGGTAATATCGTTGATAAA -TTCAAAGAAGGCGGCAACGAAAAAGTGATTCTTTGCGATCGCGGTGCTAACTTCGGCTATGACAACCTGG -TTGTCGATATGCTGGGCTTCAGCATTATGAAGAAAGTGTCTGGTAACTCGCCGGTGATTTTCGACGTGAC -CCACGCACTGCAATGCCGCGATCCGTTTGGCGCAGCTTCCGGTGGTCGTCGTGCTCAGGTGGCTGAGCTG -GCACGAGCCGGTATGGCGGTAGGTCTGGCGGGGCTGTTTATTGAAGCGCATCCGGATCCGGAACATGCGA -AATGTGATGGTCCATCCGCGCTGCCGCTGGCTAAACTGGAACCGTTCCTCAAGCAGATGAAAGCGATTGA -TGATCTGGTGAAAGGTTTCGAAGAACTGGATACCAGCAAGTAATCTTTTTTGCTTGAAAAATAAAGTATT -AGCGTTCTGCGTTAAGACTTTTTTCATGGGTGCCGGATACAAAAAAGGCCGCAGGCTGTTACCCCTGCGG -CCGGTTTCGGGCGCATATTGCCATCACGGCAGCCTGACGCCCGTTTTCACCTTACTTCCGGTTACGCCAC -CAGCTGACAATCGCTGCGGTAATAATTCCCGCCAGGATCGGTGCTGCCAGGTCGTGCCAGAAAATCATGG -CAAACTGCGCGAGCGTCATATAGCCGCCTTGTTGTAATGACAACATTTTGCGGCTATTCTTGAATTGTTC -TGGTTCAAGATTAGCCCCCGTTCTGTTGTCAGGTTGTACCTCTCAACGTGCGGGGGTTTTCTCTTTCCAG -CAACCAATGCCACCAGGGATAAAGCCCCCGCAACATTGCGCCTCACCGGATAACGCCGGCTTGGTGTGGA -TACTACGACTCAATTCATCTTCACTTCATCCCTGAAATGTTTGCAATGAAGAGTGCATTCCGGTTTTTCA -ACAGCTGTTACAGTCATTTCATGAGTGCTCTGGATGAGGCTTCCAGCTCGGGTTGCCAATATTTACTTGT -GGAAGTGATAAAGACAAAAATGGCCGCAGGCTGTTACCCCTGCGGCCGGTTTCGGGCGCATATTGCCATC -ACGGCAGCCTGACGCCCGTTTTCACCTTACTTCCGGTTACGCCACCAGCCGACAATCGCTGCGGTAATAA -TTCCCGCCAGGATCGGTGCCGCCAGGTCGTGCCAGAAAGTCATGGCAAACTGCGCGAGCGTCATATAGCC -GCCTTGTTGTAATGACAACATTTTGCGGCTATTCTTGAAGTGTCTGGTTTCAAGATTAGCCCCCGTTCTG -TTGTCAGGTTTTACCTCTCAACGTGCGGGGGTTTTCTCTTTCCAGCAACCAATGCCACCAGGGATAAAGC -CCCCGCAACATTGCGCCTCACCGGATAATTCCGGCTTGGTGTGGATACTACGTCTCAATTCATCTTCACT -TCATCCCTGAAATGTTTGCAATAAAGAGTACATTCCGGCTTTTCAACAGCTGTTGCAGTCGTTTCATGAG -TGCTCTGGATGATGCTTCCAGCTCGGGTTGCCAATATTTACTTGTGGAAGAGATAAAGACAAAAATGGCC -GCAGGCTGTTACCCCTGCGGCCGGTTTCGGGCGCATATTGCCATCACGGCAGCCTGACGCCCGTTTTCAC -CTTACTTCCGGTTACGCCACCAGCTGACAATCGCTGCGGTAATAATTCCCGCCAGGATCGGTGCTGCCAG -GTCGTGCCAGAAAATCATGGCAAACTGCGCGAGCGTCATATAGCCGCCTTGTTGTAATGACAACATTTTG -CGGCTATTCTTGAAGTGTCTGGTTTCAAGATTAGCCCCCGTTTTGTTGTCAGGTTTTACCTCTCAACGTG -CGGGGGTTTTCTCTTTCCAGCAACCAATGCCACCAGGGATAAAGCCCCGCAACATTGCGCCTCACCGGAT -AACGCCGGCTTGGTGTGGATACTACGTCGCAATTCATCTTCACTTCATCCCTGAAATGTTTGCAATGAAG -AGTACATTCCGGCTTTTCAACAGCTGTTGCAGTGGTTTCGTGCAGGGTGTGGTACAGGCTCGCAATTCTG -ATTAACGACCTGTCCAGGTAGTATGAAGAAATACAATAAGCAGGAATTTATATTATCTCCCCCGATTACC -GTCATCGGAGGAGATATAACTGTCAGGCAAATATCGTCATCAAATAGGCGGCAAACAGTGCCAGATGCGC -TGCGCCATTGAGCACGTTAGTACGTCCGGTGGAGAAGGAGATATGGCACAGCACTAAAGAGGCCACCATC -ACCACCATTTCTGGCGCACCAAGTGCAAACTGCAATTCGTTACCCGTCATAAAGGCAATTAGCGTGACGA -CAGGTACGGTAAGCGAAATGGTTGCTAACACTGAACCAAAGAACAGATTCATCGCGCGCTGAACCTGGTT -GTTCAACACTGCTTTTAATGCACCTAAACCTTCCGGCGACAGAATCAACAGTGCCACCAGGAAGCCAGTA -AAGGCGACAGGGGCATTCATGCTGTCGAGCAATGTCTCCAGCGAGCTGGCGTTCATTTTGGTCACCGCAA -TAACGGCAATCAGATGGATAATCAACCAGATAGCATGCCACAGGCTGCTATGGGCAGACGGTTTACCGTG -ATGCGGGTCGTCATCATCACTGTCATCTTCGTGCTCGTAGACAAACAAACTTTGATGCGTTTTGGTCTGG -ATCAGCAAAAATACGCCATACATTGCCGCAGAAATTAATGCTACCAGTAACGCCTGACCGGTTGAAAAAT -TCGCCGCAGGCAGAGCCATTGGAAATACCAGTACGATTATCGCCAGGGGGAACAGCGCAATTAAATACTG -CTTGATACCAAACAGATTCATATATTGGGTGGCAAACTTACGACCGCCCAACAATAATGAAAAGCCAACC -AGCCCACCGGTAACAATCATAATGATTGAATAGAGCGTATCACGCATTAGCGTTGGCGCGGCGTCGCCGG -TTGCCATTAAAGCTGAAATCAAACTGACTTCAAGAATAACCACTGAAAGGCTAAGAATAAGCGAACCGTA -AGGTTCTCCCAGGCGATGGGCTAATACGTCCGCATGACGGACAACACTAAAGGCGCTACTTAAAATACCA -ATAAGCGCAAGAAGATTGATGGCAATGACCACTGGTAGTGTCTGGCTGCTTCCCCACAGGAACAGCACTA -CCAGCGCCAGAACCGGGAAAATAAGCGAAGTCTCCTTGTGGCGGGTTTTTACCGCCTCTTGAGCATTTGA -CATTATGGTTATCCCTTTGCAGATGAATTTATCGAAAATGTAAAAAATAGGTAGGAAAAATAACAGAAAG -TGTCTGGATATCGGTAACATTTTACGAATTTTTACCCCGCTGTCGATTTTTTACTCATTGGGGCATAAAA -ATAAGTATTACGTTTAGACAATGTTTGTTTTAGCGTCTCTTAAGAAGAGTCTGACCTGAAAATTCTTATG -TTTTGGCAAGAGTAGATATTGTTGACCACACTTAATGTTCAACTTTGTAAAAGGAGTCAACGATGCCGTA -TAAAACGAAAAGCGATCTGCCGGAAAGCGTAAAGCACGTTCTACCGTCTCATGCCCAGGATATCTATAAA -GAAGCGTTCAACAGCGCATGGGATCAATATAAAGATAAAGAAGATCGGCGTGATGACGCCAGTCGCGAAG -AAACCGCGCATAAAGTGGCCTGGGCTGCTGTGAAGCATGAATATGCCAAAGGGGATGATGATAAATGGCA -TAAAAAATCGTAAAACCGGTCGCTTAGTTAAAGCTATTCGTGCGGTGTTGCCTTGCAAGTGGTCCGTGGA -TTGCATATTGTCCCGTTAGTGGTTTCAAAATGAGCAGTAAAAATGTCCGGAAGACACCAAAAAGTTGTCG -CAGGGAAGTATGCAGTGGCGGAAGTGTAAGGTGATAACGCGTGATTTCTTGATGAATGCCGATTGTAAAA -CGGCATTTGGTGCCATTGAAGAATCACTCTTATGGTCAGCAGAACAACGGGCGGCTTCGCTGGCGGCGAC -GCTGGCTTGTCGACCTGATGAGGGACCGGTGTGGATCTTCGGCTATGGATCGTTGATGTGGAATCCGGCA -CTGGAGTTTACCGAATCGTGCACCGGTACACTGGTTGGATGGCATCGCGCATTTTGCCTGCGCCTGACCG -CCGGGCGCGGGACTGCGCACCAGCCGGGACGGATGCTTGCACTGAAAGAGGGCGGACGCACCACAGGCGT -CGCCTATCGACTGCCAGAAGAGACGCTGGAGCAGGAACTAACCCTGTTGTGGAAGCGAGAGATGATTACC -GGCTGTTATCTGCCAACCTGGTGTCAGCTTGATCTTGATGATGGACGCACAGTAAACGCCATTGTGTTTA -TTATGGACCCGCGACATCCAGAATATGAATCTGATACTCGCGCTCAGGTCATCGCGCCGTTGATTGCGGC -GGCGAGCGGTCCGCTGGGAACCAACGCACAATACCTGTTTTCACTGGAACAGGAGCTTATCAAACTGGGA -ATGCAGGACGATGGGCTGAATGATTTGCTGGTATCGGTAAAAAAACTGCTGGCGGAGAATTTTCCGGATG -GTGTGTTACGTCCGGGATTCGCCTGAGTAAACTTCCCGCATAGTGGGGCGTCAGACGCCCCCTCAAACAT -TAAAATGTGAGCACTTTATCGGCTGACAGCGTCCATTGCGCCAGTTCCACAAGAGTACCGATTTCCACCC -CATCAATCAGAGGAAGTGTACTAATCCCGCGCCCGTCGGTACAGGTTTTGCACAATTTCACCGGTACATT -CTGAGCGGTAAGGATCTCCAGCATTTGCTGAATGTTGTAGCCTTCCCCTGGTTTTTGCCCGCGCAACCCG -GCTGTGACCGCATCAGACATGAGGAACAGACGCAGATCCAGATTGCTCTCCTGCTCTCGTAACGCAATGG -CCAGCCGCAAGCTGTTAAACAAGGATTCGCTCCCGTAAGGTGCGCCATTGGCAACGATCACGATTTTTTG -CATTATTTACTCCTGTATTCAGGGAATTAGACACTCATCTTCTATCTTACTGCTTCTGCAGCGTCTGACC -AATCGGTCACATTTTTAAGGATTTTCCTGAAAGCGCGAGAAAATACGACAAAAGTTGCCAGTAATCGTTA -TTCTTTAAGGCTATGGTTTTTCATTATTACCGGAAGTTACCGACGTTTTGAGCCGTTTCGTTCCTCGCAT -TATCCCGTTTTATTTACTCTTGCTTGTAGCAGGCGGTACAGCTAACGCACAATCTACCTTCGAGCAAAAA -GCGGCAAATCCCTTTGATAATAACAATGATGGTCTGCCGGATTTAGGCATGGCTCCCGAAAATCATGATG -GGGAAAAACACTTTGCTGAAATTGTGAAAGATTTCGGCGAAACCAGTATGAATGATAACGGGCTGGATAC -TGGCGAGCAGGCAAAAGCTTTCGCATTGGGAAAAGTCCGCGACGCGCTTAGTCAACAGGTTAATCAGCAC -GTAGAGTCCTGGCTATCACCGTGGGGAAATGCCAGTGTTGACGTCAAAGTGGATAACGAAGGACATTTCA -CCGGCAGTCGTGGAAGCTGGTTTGTGCCGTTACAAGATAATGATCGTTATCTCACCTGGAGCCAGCTTGG -TCTTACTCAGCAGGATAATGGGTTGGTGAGCAATGTGGGCGTTGGGCAACGCTGGGCGCGCGGCAACTGG -CTGGTGGGTTATAACACTTTTTATGACAACTTGCTGGACGAAAATCTTCAGCGAGCGGGCTTTGGTGCCG -AAGCGTGGGGCGAATATTTGCGATTATCGGCAAACTTTTATCAGCCGTTTGCTGCATGGCATGAACAGAC -AGCCACGCAGGAACAACGGATGGCGCGCGGGTACGACCTGACAGCTCGGATGCGCATGCCGTTCTATCAA -CACCTCAATACCAGTGTCAGCCTAGAACAGTATTTTGGTGATCGTGTTGATTTGTTTAACTCTGGTACGG -GTTATCACAATCCCGTCGCGTTGAGTCTGGGATTAAATTACACCCCTGTGCCATTAGTCACTGTGACGGC -CCAGCATAAACAGGGTGAAAGTGGCGAAAATCAAAATAACCTCGGGCTGAATCTTAATTACCGCTTTGGT -GTACCGCTCAAAAAACAACTTTCTGCGGGCGAGGTTGCCGAAAGTCAGTCGTTACGTGGTAGTCGCTATG -ACAATCCGCAGCGAAATAATCTACCGACTCTTGAGTACCGACAGCGAAAAACGTTAACGGTGTTTCTGGC -GACACCGCCGTGGGATCTAAAACCTGGCGAAACAGTGCCGCTGAAATTACAAATCCGCAGTCGTTACGGT -ATTCGGCAACTGATTTGGCAGGGCGATACGCAGATATTAAGTTTGACGCCGGGCGCACAAGCCAACAGCG -CGGAGGGCTGGACGCTGATCATGCCTGACTGGCAGAACGGGGAAGGGGCAAGCAATCACTGGCGATTGTC -TGTGGTGGTGGAAGATAACCAGGGGCAGCGTGTCTCCTCCAATGAGATCACGCTAACGCTTGTCGAACCG -TTCGATGCATTGTCAAACGACGAACTGCGCTGGGAACCGTAATCAGAAAATGCGCTCCTGATGCACCCAT -ACCGCTGCTTCCACGCGAGACTTGAGCTTCATTTTCTTCAGCATGTGCTTGACGTGCACTTTTACTGTGC -TTTCGGTGATATCCAGGCGGCGGGCAATCATCTTGTTCGGCAAACCCTGGGCAATCAGCTTGAGAATATC -GCGCTCGCGTGGGGTTAACTGGTTAACATCGCGCTCAGTAGTGGCACGGTTAGCGCGCAAGCTGGCGGCC -AGAACAGGCGTTAATGCTTCGCTTAATACCATTTCGCCAGCAGCTGCCTGATGCAATGCTTTCAGCAGAT -CTTCCGGTTCCATATCTTTTAACAGATAGCCATCCGCGCCGCGTTTCAGTGCGGTGACCACATCTTCTTC -ATGGTTAGAGACGCTGAATACCACAATGCGCCCTGAGAGGGACTTTTCGCGCAGTTTATCCAGCGTTTCC -AGACCGTTCATGCCGGGCATATTGAGATCTAACAGGATCAGATCGGGATCAAGAGACTCCGCCAGTTCAA -TACCCTGTTCGCCATTACTCGCTTCGCCAACCACGGTGATATCTGGTGCCATACTGATAAGCTGTTTTAC -GCCAGTTCGCAGCATCGGGTGATCGTCAATCAGCAGGATAGTAGCCGGTTCCTGATTACTCATGGGTATC -TCCTTGGACGTCTGTGAAAGTTTTTTCGGGAATAAAGGTGACCACCACTTCGGTGCCACCTGATTCACGA -CGGCGGACGCGGCAATCGCCTCGTAAACTTTGCGCACGATCGCGCATTATTATCATGCCGTAGTGATTGC -TGCGGATGGCATTTTCAGGCACGCCGCAGCCGTTATCCTGGACGGTCAGTTTGACCTGATTATCGTTTTG -CGCCACCGTCACCACGACTTCACTCGCTTGCGAATGTTTGAGGGCGTTACTTAATGCCTCACGGGCAATT -TGCAACAAGTGGATTGCCTGATGCGAAGGCACCAGGCGAGGCGGCAATTGATAATCCAGCTTCACCGGGA -AGCCAAATTTGGCGCTGTACTCTTCGCAACTCGCCTCCAGCGCCGGACGTAATCCAGGCTCGGTGAGCTG -CAAGCGGAATGTGGTGAGCAATTCACGCAACTGCGCCCAGGATGCATTCAGTTCGTTACGGATCTGACTT -AACAGTTCGCGGCTGCTTTCTGGCAGCGCATCGCCCTGCATCTGTAAACAACTCACCTGCATCTTCATGC -AAGAGAGAGATTGGGCAATAGAATCATGCAGTTCGCGCGCAATGGTGGCACGCTCTTCCATCACGATCAA -CTGTTGCTGACGTTCCTGATGGCGATCCAGCGCCAGCGTGGCGGTGAGTTGTTCAACCAGGGTATCCACC -AGTTGTTGTTGATCATGGCTAAGATGACGCCCCTGCGGCAGGGTCGCCAGCAAAATACCGTACTGCGTAT -GAGAGTCAGCCAGCCGCCACTTCAGGGTCGTGCCGCGATCACCAACGGGTAATACGCCGCGCGGGCAGAG -CTGGCAGCCTTTATCATCACAAGTCATATCTGGCTGGCAGGTAAACTCCTGATGATTCTCTTCATCATCA -GTGTCATACACCCGCAATTCGATATCACGTAGCAGGGTTAAATTCTGTAAGCCGTTGAGTACAGGTGACA -GGCGTTCACACAGCGGGGCGCGGGAATGCAAACGGCGGTTAGCCTGCCATAAAAAAGAGAGGATCTGATT -TTTATGCTCCAGCCCGGCGGTTTTCTCCTGAACCCGCTGCTCAAGTACGGCATAACTTTCGGCCAGTTCT -GCAGACATATTGTTCAACGCAGTTCCAAGCATCGCCATTTCGTTGCGCCCGCTGATGTTTGCGCGTTGGG -TAAAATCGCGATGACTGACGGCACTCGCCATTGCCAGCAGTTGCCGCCACGGTTGTAGCAGTCGCGCCCG -CAACCAGATAATAGTGAACACCAGTAAAAGTGCCATAAATACCGCCATTACCCGATGGACCAGTACCACT -GTCTCGATGCGCATTTCCGTGGTGCGGTCAAAACCAGATACCAGTTGATCAAGCCCGGCAACAAACTGGC -TGACATCCGCTGACACCGTTTCTCGGTTTTGTGCACGCATCAGCGCAGGGATCAGTTCATTACGCCAGTA -ATCTTGTAAACCCTGTAATTGCGCCAGTTGTCCGTCTCGTTCTGCTGCTCGAGTCAACTCGGCGCTAAAT -GCCGTTTGTTCCATCTCTTTAATTAAGGGCTTGTCTTTCTCGCTTAATGGCACTGCCGCCAACAGACGGT -AACTTTGCATGCGCAGCGATCCCGCTTTGTTGATCGCATGGGCGCTGCCCTGAACGCCTTGCACCAGCCA -GCCAGAAACCGCCATCCCTGCCAGTCCAATAGCAGTAGAAAGCAACACAATAAGCGCAACCTGATTAACC -AGGGTGAGCGGAGAGAGACAACGTTTAAGCATGTAAACCTCTTCCTTCAGGCTTTAAATGAGCAATAACC -TTAATGAATGTGACGATACATTCTGGAATGGCAGTATTCTCGGCTATTGGCTGAAGTATACCCATACCCG -GAAAGAGTTACTCCTTATTTGCCGTGTGGTTAGTCGCTTTACATCGGTAAGGGTAGGGATTTTACAGCAC -CGTGAAAAATCTCATAATTTTTATGAAGTCACTGTACTCACTATGGGTAATGATAAATATCAATGATAGA -TAAAGTTATCTTATCGTTTGATTTACATCAAATTGCCTTTAGCTACAGACACTAAGGTGGCAGACATCGA -AACGAGTATCAGAGGTGTCTATGAGTCACTCATCCGCCCCCGAAAGGGCTACTGGAGCTGTCATTACAGA -TTGGCGACCGGAAGATCCTGCGTTCTGGCAACAACGCGGTCAACGTATTGCCAGCCGCAACCTGTGGATT -TCCGTTCCCTGTCTGCTGCTGGCGTTTTGCGTATGGATGTTGTTCAGCGCTGTTGCGGTGAACCTACCGA -AAGTCGGCTTTAATTTTACGACCGATCAGCTATTTATGTTGACTGCGCTGCCTTCGGTTTCTGGCGCGTT -ATTACGTGTTCCATACTCCTTTATGGTTCCTATCTTCGGTGGTCGTCGCTGGACGGCGTTCAGCACCGGT -ATTCTGATTATTCCTTGCGTCTGGCTGGGTTTTGCCGTGCAGGATACCTCCACGCCTTATAGCGTCTTCA -TCATCATCTCTCTGCTATGCGGCTTTGCTGGCGCGAACTTCGCATCCAGTATGGCAAACATCAGCTTCTT -CTTTCCGAAACAGAAGCAGGGTGGCGCGCTGGGTCTGAATGGTGGTCTGGGAAACATGGGCGTCAGCGTC -ATGCAGTTGGTTGCTCCGCTGGTGGTATCACTGTCGATTTTCGCAGTATTTGGTAGCCAGGGCGTCAAAC -AGCCGGATGGGACTGAGCTGTATCTGGCGAATGCGTCCTGGATATGGGTGCCGTTCCTTGCCATCTTCAC -CATTGCGGCGTGGTTTGGCATGAACGATCTTGCTACCTCGAAAGCCTCCATCAAGGAGCAGTTGCCGGTA -CTCAAACGGGGTCATCTGTGGATTATGAGCCTGCTGTATCTGGCAACCTTCGGCTCCTTCATCGGCTTCT -CCGCGGGCTTTGCAATGCTGTCAAAAACGCAGTTCCCGGATGTTCAGATTCTGCAATACGCTTTCTTCGG -GCCGTTTATTGGTGCGCTGGCGCGTTCTGCAGGTGGTGCATTATCTGACCGTCTGGGCGGAACTCGTGTC -ACGCTGGTGAACTTTATTCTGATGGCGATTTTCAGCGGCCTGCTGTTCCTGACCTTACCGACTGACGGGC -AGGGCGGAAGCTTCATGGCGTTCTTCGCGGTCTTCCTGGCGCTGTTCCTGACAGCTGGGCTGGGTAGTGG -TTCCACTTTCCAGATGATTTCAGTGATCTTCCGTAAACTGACAATGGATCGCGTGAAAGCAGAAGGGGGT -TCTGACGAACGTGCGATGCGTGAAGCGGCAACCGACACGGCGGCGGCGCTGGGTTTCATCTCTGCGATTG -GCGCGATTGGTGGCTTCTTTATCCCGAAAGCGTTTGGTAGCTCGCTGGCATTAACGGGTTCGCCAGTCGG -CGCAATGAAGGTATTTTTGATTTTCTATATCGCCTGCGTAGTGATTACCTGGGCGGTATATGGTCGGCAT -TCTAAAAAATAAACCGTTACTCGTCATACTTCGGGTTACATGTGCTGCGGCTGCGTTCATTCACCCCAGT -CACTTACTTTAGTAAGCTCCTGGGATTCATTCACTTGCCGCCTTCCTGTAAACCGAATTATATAGAGTAA -AATATTTGATTATCCTTTGCGCGGCATGATGTCGCGCTTTTTTTATGCGTCATTTAGTTACAACATACTA -ATGTTATATGGTTTATTTCGCCGGATTTCATTAAGAGCCATTAATATGTTACCCATGGGGAATACTCCTT -AATACCCATCTGCATAAAAATCTTAATAGTTTAAATAACTACAGGTATAAAACGTCTTAATTTACAGTCT -GTTATGTGGTGGCTGTTAATTATCCTAAAGGGGTATCTTAGGAATTTACTTTATTTTTCATCCCCATCAC -TCTTGATCGTTATCAATTCCCACGCTGTTTCAGAGCGTTACCTTGCCCTTAAACATTAGCAATGTCGATT -TATCAGAGGGCCGACAGGCTCCCACAGGAGAAAACCGATGAGTAAATTCCTGGACCGGTTTCGCTACTTC -AAACAGAAGGGTGAAACCTTTGCCGATGGGCATGGCCAGCTTCTCAATACCAACCGTGACTGGGAGGATG -GATATCGCCAGCGTTGGCAGCATGACAAAATCGTCCGCTCTACCCACGGGGTAAACTGCACCGGCTCCTG -CAGCTGGAAAATCTACGTCAAAAACGGTCTGGTCACCTGGGAAACCCAGCAGACTGACTATCCGCGTACC -CGTCCGGATCTGCCAAACCATGAACCTCGCGGCTGCCCGCGCGGTGCCAGCTACTCCTGGTATCTTTACA -GTGCCAACCGCCTGAAATACCCGATGATGCGCAAACGCCTGATGAAAATGTGGCGTGAAGCGAAGGCGCT -GCATAGCGATCCGGTTGAGGCATGGGCTTCTATCATTGAAGACGCCGATAAAGCGAAAAGCTTTAAGCAG -GCGCGTGGACGCGGTGGATTTGTTCGTTCTTCCTGGCAGGAGGTGAACGAACTGATCGCCGCATCTAACG -TTTACACCATCAAAAACTACGGCCCGGACCGTGTTGCTGGTTTCTCGCCAATTCCGGCAATGTCGATGGT -TTCTTACGCATCGGGTGCACGCTATCTCTCGCTGATTGGCGGTACTTGCTTAAGCTTCTACGACTGGTAC -TGCGACTTGCCTCCTGCGTCTCCGCAAACCTGGGGCGAGCAAACTGACGTACCGGAATCTGCTGACTGGT -ACAACTCCAGCTACATCATCGCCTGGGGGTCAAACGTGCCGCAGACGCGTACCCCGGATGCTCACTTCTT -TACTGAAGTGCGTTACAAAGGGACCAAAACTGTTGCCGTCACACCAGACTACGCTGAAATCGCCAAACTG -TGCGATCTGTGGCTGGCACCGAAACAGGGCACCGATGCGGCAATGGCGCTGGCGATGGGCCACGTAATGC -TGCGTGAATTCCACCTCGACAACCCAAGCCAGTATTTCACCGACTATGTGCGTCGCTACACCGACATGCC -GATGCTGGTGATGCTGGAAGAACGCGACGGTTACTACGCTGCAGGTCGTATGCTGCGCGCTGCTGATCTG -GTTGATGCGCTGGGCCAGGAAAACAATCCGGAATGGAAAACTGTCGCCTTTAATACCAATGGCGAAATGG -TTGCGCCGAACGGTTCTATTGGCTTCCGCTGGGGCGAGAAGGGCAAATGGAATCTTGAGCAGCGCGACGG -CAAAACTGGCGAAGAAACCGAGCTGCAACTGAGCCTGCTGGGTAGCCAGGATGAGATCGCTGAGGTAGGC -TTCCCGTACTTTGGTGGCGACGGCACGGAACACTTCAACAAAGTGGAACTGGAAAACGTGCTGCTGCACA -AACTGCCGGTGAAACGCCTGCAACTGGCTGATGGCAGCACCGCCCTGGTGACCACCGTTTATGATCTGAC -GCTGGCAAACTACGGTCTGGAACGTGGCCTGAACGACGTTAACTGTGCAACCAGCTATGACGATGTGAAA -GCTTATACCCCGGCCTGGGCCGAGCAGATTACCGGCGTTTCTCGCAGCCAGATTATTCGCATCGCCCGTG -AATTTGCCGATAACGCTGATAAAACGCACGGTCGTTCGATGATTATCGTCGGTGCGGGGCTGAACCACTG -GTATCACCTCGATATGAACTATCGTGGTCTGATCAACATGCTGATTTTCTGCGGCTGTGTCGGTCAGAGC -GGGGGCGGCTGGGCGCACTATGTAGGTCAGGAAAAACTGCGTCCGCAAACCGGCTGGCAGCCGCTGGCGT -TTGCCCTTGACTGGCAGCGTCCGGCGCGTCACATGAACAGCACTTCTTATTTCTATAACCACTCCAGCCA -GTGGCGTTATGAAACCGTCACGGCGGAAGAGTTGCTGTCACCGATGGCGGACAAATCCCGCTATACCGGA -CACTTGATCGACTTTAACGTCCGTGCGGAACGCATGGGCTGGCTGCCGTCTGCACCGCAGTTAGGCACTA -ACCCGCTGACTATCGCTGGCGAAGCGGAAAAAGCCGGGATGAATCCGGTGGACTATACGGTGAAATCCCT -GAAAGAGGGTTCCATCCGTTTTGCGGCAGAACAACCAGAAAACGGTAAAAACCACCCGCGCAACCTGTTC -ATCTGGCGTTCTAACCTGCTCGGTTCTTCCGGTAAAGGTCATGAGTTTATGCTCAAGTACCTGCTGGGGA -CGGAGCACGGTATCCAGGGTAAAGATCTGGGGCAACAGGGCGGCGTGAAGCCGGAAGAAGTGGACTGGCA -GGACAATGGTCTGGAAGGCAAGCTGGATCTGGTGGTTACGCTGGACTTCCGTCTGTCGAGCACCTGTCTC -TATTCCGACATCATTTTGCCGACGGCGACCTGGTACGAAAAAGACGACATGAATACTTCGGATATGCATC -CGTTTATTCACCCGCTGTCTGCGGCGGTCGATCCGGCCTGGGAAGCGAAAAGCGACTGGGAAATCTACAA -AGCCATCGCGAAGAAATTCTCCGAAGTGTGCGTCGGCCATCTGGGTAAAGAAACCGACATCGTCACGCTG -CCTATCCAGCATGACTCTGCCGCTGAACTGGCGCAGCCGCTGGATGTGAAAGACTGGAAAAAAGGCGAGT -GCGACCTGATCCCAGGTAAAACCGCGCCACACATTATGGTCGTAGAGCGCGATTATCCGGCGACTTACGA -ACGCTTTACCTCTATCGGCCCGCTGATGGAGAAAATCGGTAATGGCGGTAAAGGGATTGCCTGGAACACC -CAGAGCGAGATGGATCTGCTGCGTAAGCTCAACTACACCAAAGCGGAAGGTCCGGCGAAAGGCCAGCCGA -TGCTGAACACCGCAATTGATGCGGCAGAGATGATCCTGACACTGGCACCGGAAACCAACGGTCAGGTAGC -CGTGAAAGCCTGGGCTGCCCTGAGCGAATTTACCGGTCGTGACCATACGCATCTGGCGCTGAATAAAGAA -GACGAGAAGATCCGCTTCCGCGATATTCAGGCACAGCCGCGCAAAATTATCTCCAGCCCGACCTGGTCTG -GTCTGGAAGATGAACACGTTTCTTACAACGCCGGTTACACCAACGTTCACGAGCTGATCCCATGGCGTAC -GCTCTCTGGTCGTCAGCAACTGTATCAGGATCACCAGTGGATGCGTGATTTCGGTGAAAGCCTGCTGGTT -TATCGTCCGCCGATCGACACCCGTTCGGTGAAAGAAGTGATAGGCCAGAAATCCAACGGCAACCAGGAAA -AAGCGCTCAACTTCCTGACGCCGCACCAGAAGTGGGGTATCCACTCCACCTACAGCGACAACCTGCTGAT -GCTGACTTTAGGTCGCGGTGGTCCGGTGGTCTGGTTGAGTGAAGCCGATGCCAAAGATCTGGGTATCGCC -GATAACGACTGGATTGAAGTCTTCAACAGCAACGGTGCTCTGACTGCCCGTGCGGTTGTCAGCCAGCGTG -TTCCGGCAGGGATGACCATGATGTACCACGCGCAGGAACGTATCGTTAACCTGCCTGGTTCGGAAATTAC -CCAACAGCGTGGTGGTATCCATAACTCGGTCACCCGTATCACGCCGAAACCGACGCATATGATCGGCGGC -TATGCCCATCTGGCATACGGCTTTAACTACTATGGCACCGTAGGTTCTAACCGCGATGAGTTTGTTGTAG -TGCGTAAGATGAAGAACATTGACTGGTTAGATGGCGAAGGCAATGACCAGGTACAGGAGAGCGTAAAATG -AAAATTCGTTCACAAGTCGGCATGGTGCTGAATCTCGATAAGTGCATCGGCTGCCACACCTGTTCAGTTA -CCTGTAAAAACGTCTGGACCAGCCGTGAAGGCGTGGAATATGCGTGGTTCAACAACGTGGAAACCAAGCC -GGGCCAGGGCTTCCCGACTGACTGGGAAAACCAGGAAAAATACAAAGGCGGCTGGATCCGTAAAATCAAC -GGCAAACTGCAGCCGCGCATGGGTAACCGTGCCATGCTGCTGGGTAAAATCTTCGCTAACCCGCATCTGC -CGGGGATCGACGATTATTACGAGCCGTTCGATTTTGACTATCAGAACCTGCATACCGCGCCGGAAGGCAG -CAAATCGCAGCCGATTGCCCGTCCGCGTTCGCTGATTACCGGGGAACGGATGGCGAAAATCGAAAAAGGG -CCGAACTGGGAAGATGACCTGGGCGGTGAGTTTGACAAACTGGCGAAAGACAAGAACTTCGACAACATCC -AGAAGGCGATGTATAGCCAGTTCGAAAACACCTTCATGATGTATTTGCCGCGCCTGTGCGAACACTGCCT -GAACCCGGCATGTGTGGCGACCTGCCCGAGCGGTGCGATTTACAAGCGTGAAGAAGATGGCATCGTCCTG -ATCGACCAGGATAAATGCCGTGGCTGGCGTATGTGCATCACTGGATGCCCGTACAAAAAAATCTACTTCA -ACTGGAAGAGCGGTAAGTCTGAGAAGTGCATCTTCTGCTATCCGCGTATTGAAGCGGGTCAGCCGACCGT -GTGCTCAGAAACCTGTGTCGGTCGTATCCGTTATCTTGGCGTGCTGTTGTACGATGCCGACGCTATTGAA -CGTGCAGCCAGCACCGAGAACGAGAAAGATCTTTACCAGCGTCAGCTGGACGTGTTCCTCGATCCGAACG -ATCCGAAAGTCATCGAGCAGGCGATTAAAGACGGTATTCCGCTGAGCGTTATTGAAGCCGCACAGCAGTC -GCCGGTTTATAAAATGGCAATGGAATGGAAACTGGCGCTGCCGCTGCATCCGGAATATCGCACACTGCCG -ATGGTCTGGTACGTGCCGCCTCTGTCTCCGATTCAGTCTGCAGCAGACGCGGGTGAGCTGGGTAGCAACG -GCATTCTGCCAGACGTCGAAAGCCTGCGTATTCCGGTACAGTATCTGGCGAATCTGCTGACCGCCGGTGA -TACCAAACCGGTACTGCGCGCACTGAAACGTATGCTGGCGATGCGTCATTACAAACGTGCTGAAACCGTT -GACGGTAAAGTTGATACCCGTGCGCTGGAAGAGGTCGGTCTGACCGAAGCCCAGGCACAGGAGATGTACC -GTTATCTGGCGATTGCTAACTACGAAGATCGCTTTGTGGTGCCGAGTAGTCATCGTGAACTGGCACGGGA -AGCCTTCCCGGAGAAAAATGGCTGCGGCTTTACCTTTGGTGATGGCTGCCACGGTTCAGATACCAAATTC -AATCTGTTCAACAGCCGTCGTATCGATGCCATCGATGTGACCAGCAAAACGGAGCCGCATCCATGATCGA -ACTCGTGATTGTATCGCGTCTCCTTGAATATCCGGATGCTGCCTTATGGCAGCATCAACAAGAGATGTTT -GAGGCGATTGCCGCGTCGAAAAATCTGCCAAAAGAGGATGCCCATGCGCTGGGCATTTTCCTGCGCGATT -TAACGACGATGGATCCGCTCGATGCCCAGGCGCAGTACAGCGAACTGTTCGACCGTGGCCGCGCCACGTC -ACTGTTGCTGTTTGAACATGTGCACGGCGAATCCCGCGACCGCGGCCAGGCGATGGTGGACCTGCTGGCG -CAGTACGAGCAGCACGGCTTGCAGTTAAACAGCCGCGAATTGCCGGACCATCTGCCGCTGTATCTGGAGT -ACCTGGCGCAGCTGCCGCAAAGCGAAGCCGTGGAAGGTTTGAAAGATATCGCGCCGATTCTGGCATTGCT -GAGCGCGCGTCTGCAACAGCGTGAAAGCCGTTATGCCGTGCTGTTTGATCTGCTGCTGAAACTGGCGAAT -ACCGCTATCGACAGCGACAAAGTGGCGGAAAAAATTGCCGACGAAGCGCGCGATGATACGCCGCAGGCGC -TGGATGCTGTCTGGGAAGAAGAGCAGGTTAAATTCTTTGCTGACAAAGGCTGCGGTGATTCAGCAATCAC -TGCGCATCAGCGTCGCTTTGCCGGTGCCGTCGCGCCGCAATATCTGAATATCACCACCGGAGGACAGCAC -TAATGCAATTCCTGAATATGTTCTTCTTTGATATCTACCCGTACATAGCCGGGGCGGTCTTCCTGATTGG -TAGCTGGCTGCGTTATGACTACGGGCAGTACACCTGGCGCGCGGCGTCCAGCCAGATGCTGGATCGCAAA -GGGATGAACCTGGCGTCGAACCTGTTCCATATCGGGATTCTGGGGATTTTTGTCGGTCACTTCTTCGGTA -TGCTGACGCCGCACTGGATGTATGAAGCCTGGCTGCCGATTGAAGTGAAACAGAAAATGGCAATGTTTGC -TGGTGGTGCCAGCGGCGTGCTGTGTCTGATTGGCGGCGTGCTGTTGCTGAAACGTCGTCTGTTCAGCCCA -CGCGTGCGTGCAACCACTACCGGAGCGGATATCCTGATCCTGTCGCTGCTCGTTATCCAGTGCGCGCTGG -GCCTGTTGACCATTCCGTTCTCCGCTCAGCATATGGACGGTAGCGAGATGATGAAACTGGTTGGCTGGGC -GCAGTCGGTGGTGACCTTCCACGGTGGCGCTTCTCAACACCTCGATGGTGTGGCGTTTATCTTCCGTCTG -CACCTGGTGCTGGGGATGACGTTATTCCTGCTGTTCCCGTTCTCGCGTCTGATACACATCTGGAGCGTAC -CGGTGGAGTATCTGACACGTAAGTACCAGCTGGTGCGCGCTCGTCACTAAGCGAATTTTAGTTCACATAG -ACCCTGCTTCGGCGGGGTTTTTTTATGGGCACGGTGCGGGGTGAGTTGTCGGATGCGCTTCGCTTATCCG -ACCTACAGGGGAGGATATTGTAGGCCCGGTAAACGTGGTGCCATCGGGCAAAATTAGCTCGGAGTAACAG -GTTTTGATTATTTAAGGAAGCGATGGTGGTGGGGGAAGGATTACTCAGCGCTGCGCGCTTCGCCCTTCGG -GTCGTTGCCTGCGGCAACGCTCTCTCGCTGGCGCTCAAGTCGAACCTTGGTCGAAGCTTCTCATCCTTCC -CCGCTTGGGCAGAATATTTGATTGCGGATTCGTTTGAGAATTCCGGGGCTTTTGAAAGTGATGGTGGTGG -GGGAAGGATTACTCAGCGCTGCGCGCTTCGCCCTTCGGGTCGTTGCCTGCGGCAACGCTCTCTCGCTGAC -GCTCGAGCCGAACCTTAGTCGAAGCTTCTCATCCTTCCCCGCATGGGCAGAATATTTGATTGCGGATTCG -CTTGAGAGTTCAGGGACTTTTGAAAGTGATGGTGGTGGGGGAAGGATTACTCAGCGCTGCGCGCTTCGCC -CTTCGGGTCGTTGCCTGCGGCAACGCTCTCTCGCTGGCGCTCGAGTCGAACCTTGGTCGAAGCTTCTCAT -CCTTCCCCGCATGGGCAGAATATTTAATTGCGGATTCGTTGGGAAGTTCAGGGACTTTTGAAAGTGATGG -TGGTGGGGGAAGGATTCGAACCTTCGAAGTCGATGACGGCAGATTTACAGTCTGCTCCCTTTGGCCGCTC -GGGAACCCCACCAGGGGTAATTCAAATTTTGAGGTAATGCTTGAGATGGTGGTGGGGGAAGGATTATTCG -TCGCTTCGCTCCTCACCCTTCGGGCCGTTGCCTGTGGCAACGTTCTCTCGCTTTCGCTCGAATCGAACCT -TAGTCGAAGGTTCTCACCCTTCCCCGATGAGTGCAAACTTTCACAATCTCACCGAAGTTACCACATCGCT -GTGGTGAATTATGGTGGTGGGGGAAGGATTCGAACCTTCGAAGTCGATGACGGCAGATTTACAGTCTGCT -CCCTTTGGCCGCTCGGGAACCCCACCACGGGGTAATGCTTTTTACTGGCCTGCTCCCTTATCGGGAAGCG -GGGCGCATCATATCAAATGACGCGCCGCTGTAAAGTGTTACGTTGAGAAAAATGAACTGGTTGCGTAATT -TTCATCCGTAACGGATTAAAGGTAACCAGTTATTTTTGCTGGCGATTAAAGAATAATCGTTCGATTACCG -TAAACAAAGACGCGCTGTGCCAGTACTTTGTATAGTGCACGACTTAAGACGTTTTTCTCGACGTCACGAC -CTGCGCGCATCATATCTTCAGCTGTGTAGGTATGATCGACATGAATAACGTCCTGCATGATGATTGGGCC -TTCGTCCAGATTGTCATTCACATAGTGAGCGGTTGCGCCAATAATCTTCACACCACGTTCATAGGCCTGG -TGATAAGGACGTGCGCCAATAAACGCTGGCAGGAATGAATGGTGAATATTGATGATCTTATTCGGGAAGC -GTGCCACAAATTCCGGCGTTAATACCCGCATATACTTCGCCAGCACCACGTAGTCAGGTTGATAAGCATC -AATGGCATCCGCCATCTTTTGATCGTGCTCGTTGCGGGTTAACCCTTCATGGCTTACCAGCTCAAACGGA -ATATCAAAACGCTCAACCAGAGAACGTAAAGTATCGTGGTTACCAATAACTGCCGCGATTTCGACATCCA -GGCCGCCGTAATTGGCTTTCATCAACAAATCGCCAAGGCAATGCGCTTCTTTAGTGACCAGAATCACTAT -CCGGCGACGACCGGCAGGATTCAGCTCACGCACGGAGCCTTCTGGCAATGCGCTATCGAGATCCGCCAGC -AGGGTGGAATCATTAAAAATCCCTTCCAGTTCCGTGCGCATAAAAAAGCGCCCGGTACGGTGATCAACAA -ATTCATTGTTCTGTACGATATTTAACTCGTGCTTGTAGCAAATATTGGTAATACGTGCGATCAGACCTTT -TTGGTCCGGACAAATAGTACGCAGAACTTTACGTTGGAGTGAATGCATTGCTGGAAAAACCTTGTTGAGA -GTGTTTGCTAAACCGTACCGTCAACCATTATTGGCCGCAGCACTTTTTAAATTTTTTACCTGAACCACAA -GGGCAGGGATCGTTGCGACCAAACTGCGGACGTGTACCGTCAATATAGTACCATTGACCGTTTTCTTTCA -AAAATCGCGAACGTTCAATTATTGCACCTGTTTTACCACCTTCGGTAAATCGAGCAACAAAACTGACAAA -TCCGATATTGTCGGCGTCCTGCCAACAATGTTCAAATACGGTCAATCCCAACCATTCAGTATGCGCAAAT -CCGGCCATCAATTCGGCACGTAACGCCGCTGCTCCACAAGAGGGATGCCAGGTCTTTATTAAATAATCTG -CGTCTTGCATCACAAAAGCGCAGTAACGCGAACGCATGAGATGTTCTGGATCAGGTGCAACCTTTTCACC -AGACACATAAGGGTGGCAACATAGGCTATACTCGACAGCACTACCACAGGGACAAAGCTGAGACACAAAT -AATCTCCCTGGAAACAATAACGGCGTATTAACCGCCTGAGTAGCACTATGTTAACCGAGCAGTAGCGATG -TGGCTACGATTGCATTCCAGGGGAATCTTGCGGGAATAATGAGAAAGATAAAAATAGGGCTGGCGCTGGG -ATCTGGCGCGGCGAGAGGTTGGTCGCATATTGGCGTTATTAATGCGCTAAAAAAAGTGGGTATTGAAATT -GATATCGTTGCAGGATGTTCAATTGGTTCGCTGGTGGGCGCTGCCTATGCATGCGATCGATTATCTGCGC -TGGAAGATTGGGTGACCTCTTTCAGTTATTGGGATGTTTTACGCCTGATGGATCTCTCCTGGCAGCGCGG -TGGGTTACTGCGCGGCGAGCGTGTCTTCAATCAATACCGCGAAATAATGCCGGAAACAGAGATCGAAAAT -TGTTCCCGTCGCTTTGCGGCTGTTGCCACCAATTTAAGTACGGGACGTGAATTATGGTTTACTGAAGGCG -ATCTCCATCTTGCTATTCGCGCATCATGCAGTATTCCAGGACTCATGGCACCTGTTGCACATAACGGCTA -CTGGCTGGTTGATGGAGCAGTCGTTAACCCAATTCCTATTTCCCTCACGCGTGCATTGGGGGCTGATATT -GTGATAGCGGTTGACCTGCAGCACGATGCTCATTTGATGCAACAAGATTTGCTCTCCTTTAATGTCAGTG -AAGAAAATAGCGAGAATGGTGATTCTCTGCCGTGGCATGCGCGTCTGAAAGAAAGGTTAGGCAGCATAAC -GACACGTCGGGCGGTGACAGCGCCAACGGCAACAGAGATTATGACCACTTCTATCCAGGTGCTGGAGAAC -CGCCTTAAAAGGAACCGCATGGCAGGTGATCCGCCCGATATTCTGATTCAACCTGTTTGCCCGCAAATAT -CTACGCTTGATTTCCATCGCGCGCACGCTGCCATTGCGGCCGGACAGCTGGCAGTGGAAAGGAAAATGGA -CGAACTTTTGCCGTTGGTACGCACCAACATTTGACCAGAATTTTTATCTACACTTAAGTTAATTCTGACA -GGCGCAGGTGGCAATAGCATGCCACTATTGAGTAAAGCCAGTCAGGGGAGAGAACATGACGCAGCCATTG -GTCGGAAAACAGATTCTCATTGTTGAAGATGAGCAGGTATTTCGCTCGCTTCTGGATTCATGGTTTTCCT -CATTGGGAGCGACAACGGTACTGGCGGCTGATGGGGTGGATGCCCTTGAGTTGCTGGGAGGTTTCACTCC -AGACCTGATGATATGTGATATCGCGATGCCACGAATGAACGGGCTTAAACTGCTGGAGCATATACGTAAC -AGAGGCGACCAGACCCCAGTTCTGGTGATATCTGCCACTGAAAATATGGCAGATATTGCCAAAGCGTTAC -GTCTGGGCGTTGAAGATGTTTTGCTGAAACCAGTTAAAGATCTGAATCGCTTGCGCGAGATGGTTTTTGC -CTGTCTCTATCCCAGCATGTTTAATTCGCGCGTTGAGGAAGAGGAAAGGCTTTTTCGCGACTGGGATGCA -ATGGTTGATAACCCTGCCGCAGCGGCGAAATTATTACAGGAACTACAACCGCCGGTTCAGCAGGTGATTT -CCCATTGCCGGGTTAATTATCGTCAATTGGTTGCCGCGGACAAACCCGGCCTGGTGCTTGATATTGCCGC -ACTTTCGGAAAACGATCTGGCATTTTATTGCCTTGATGTCACCCGAGCTGGACATAATGGCGTACTTGCT -GCCTTGTTATTACGCGCATTGTTTAACGGATTATTACAGGAACAGCTTGCACACCAAAATCAACGGTTGC -CAGAGTTGGGCGCGTTATTGAAGCAGGTAAACCATTTACTTCGTCAGGCCAATCTGCCGGGGCAGTTTCC -GCTATTAGTTGGCTATTATCATCGCGAACTGAAAAATCTCATTCTGGTTTCTGCGGGTCTGAATGCGACG -TTAAATACCGGCGAACACCAGGTGCAAATCAGTAATGGTGTTCCGTTAGGCACTTTAGGTAACGCTTATT -TGAATCAATTGAGCCAGCGATGCGATGCCTGGCAATGCCAAATATGGGGAACCGGTGGTCGACTGCGCTT -GATGTTGTCTGCAGAATGAGCAAACGATAACGCGGGCTAAATTTGCATTACCTGCTAATGTCGGCTGGTG -GTACTATCGTCGCCATTCGTATAAGTAATTGTCTTAATTATGCTAACTCGCCTCCTTTTCAGAACTTAGC -CCCTTCGGGGTGCTGATATACTGGGATGCGATACAGAAATATGAACACGTTCAAAACACGAACAGTCCAG -GAGAATTTAAATGGCTGCCATTAATACGAAAGTCAAAAAAGCCGTTATCCCCGTTGCGGGATTAGGAACC -AGGATGTTGCCGGCGACGAAAGCCATCCCGAAAGAGATGCTGCCACTTGTCGATAAGCCATTAATTCAAT -ACGTCGTGAATGAATGTATTGCGGCTGGCATTACTGAAATTGTGCTGGTTACACACTCATCTAAAAACTC -TATTGAAAACCACTTTGATACCAGTTTTGAACTGGAAGCAATGCTGGAAAAACGTGTAAAACGTCAACTG -CTTGATGAAGTGCAGTCTATTTGTCCACCGCACGTGACTATTATGCAAGTTCGTCAGGGTCTGGCGAAAG -GCCTGGGACACGCGGTATTGTGTGCTCACCCGGTAGTGGGTGATGAACCGGTAGCTGTTATTTTGCCTGA -TGTTATTCTGGATGAATATGAATCCGATTTGTCACAGGATAACCTGGCAGAGATGATCCGCCGCTTTGAT -GAAACGGGTCATAGCCAGATCATGGTTGAACCGGTTGCTGATGTGACCGCATATGGCGTTGTGGATTGCA -AAGGCGTTGAATTAGCGCCGGGTGAAAGCGTACCGATGGTTGGTGTGGTAGAAAAACCGAAAGCGGATGT -TGCGCCGTCTAATCTCGCTATTGTGGGTCGTTACGTACTTAGCGCGGATATTTGGCCGTTGCTGGCAAAA -ACCCCTCCGGGAGCTGGTGATGAAATTCAGCTCACCGACGCAATTGATATGCTGATCGAAAAAGAAACGG -TGGAAGCCTATCATATGAAAGGGAAGAGCCATGACTGCGGTAATAAATTAGGTTACATGCAGGCCTTCGT -TGAATACGGTATTCGTCATAACACCCTTGGCACGGAATTTAAAGCCTGGCTTGAAGAAGAGATGGGCATT -AAGAAGTAACATCCGTATCGGTGTTATCCACGAAACGGCGTTGAGCAATCGACGCCGTTTTTTTATAGCT -TATTCTTATTAAATTGTCTTAAACCGGACAATAAAAAATCCCGCCGCTGGCGGGATTTTAAGCAAGTGCA -ATCTACAAAAGATTATTGCTTGATCAGGAAATCGTCGAGGGATTTACCTTGCTCATCCATTGCTTTTTTG -ATTACAGCTGGAGTACGGCCTTGGCCAGTCCAGGTTTTAGTTTCGCCGTTTTCGTCAACGTAGCTATATT -TTGCCGGACGCTGAGCACGTTTAGCTTTGGTGCCAGATTTAACGGCAGCAAGGCTATTCAGCAGTTCGTT -CGGGTCAATACCGTCAGCGATCAGCATTTCGCGATATTGCTGCAGTTTACGAGTGCGCTCTTCAACTTCA -GCAGCAGCCGCGCTTTCTTCTTCGCGACGTTCGTTAACAACAACTTCTAATTTTTCCAGCATTTCTTCCA -GCGTTTCAAGTGTACATTCTCTTGCCTGCGCACGAAGAGTACGGATGTTGTTCAGAATTTTAAGTGCTTC -GCTCATTGTAGTAATCTCAAACTTATATTGGGGTGGTTTGTTGAGGTAATAATAGAGCCTTAAATTCAGT -TGTGCAATAGCCAGGAATGTAAGGAATTCAAAATTGTTCTTTATTTTGTGCCGCCAATAAATATCTTTTC -ATAAAATTAGCCAGAAAAGACGCGGCATATAGCCCTATTTACACCGATGATTTCGCAGCACGTGAGGTTA -AAACTTCCTGATTCATGTCACATTTTATGGGGAGATTATCGTAGGCTGACGACCTTTCAGTCTTCTGTAT -TAGTTGTGTTTACGAGAATTCCCTATTAAGCGAATGATGAAAAGTAGAACAGTCGCAATAAGAGCATGGA -CTTAGTATTGCACTATCTCCTGGAGGTCAACAGAGGGCTATTACTTGCGCAACAGGTTAAAGATTGTGAA -TAGTTACCAGCAGTCATTTACCCGCTTATAACAAGCGAGGCAGTTGTAATGATAGCTCAGAAGGATTATG -CAAGGCTTCGTAAGGGAGAACGCATATACCCACTTCTGTGCATACTGTTGAGCTGAAAAACTGACGAATT -ATGATAAACTCCAGCCAACTTTATTTCATATCATTGAGGGCCTGTGGCTGATGGCACAGCTATATTTCTA -CTATTCCGCAATGAATGCGGGTAAGTCTACAGCATTGTTGCAATCTTCATACAATTACCAGGAACGCGGC -ATGCGCACTGTCGTATATACGGCAGAAATTGATGATCGCTTTGGTGCCGGGAAAGTCAGTTCGCGTATAG -GTTTGTCATCGCCTGCAAAATTATTTAACCAAAATTCATCATTATTTGATGAGATTCGTGCGGAACATGA -ACAGCAGGCAATTCATTGCGTACTGGTTGATGAATGCCAGTTTTTAACCAGACAACAAGTATATGAATTA -TCGGAGGTTGTCGATCAACTCGATATACCCGTACTTTGTTATGGTTTACGTACCGATTTTCGAGGTGAAT -TATTTATTGGCAGCCAATACTTACTGGCATGGTCCGACAAACTGGTTGAATTAAAAACCATCTGTTTTTG -TGGCCGTAAAGCAAGCATGGTGCTGCGTCTTGATCAAGCAGGCAGACCTTATAACGAAGGTGAGCAGGTG -GTAATTGGTGGTAATGAACGATACGTTTCTGTATGCCGTAAACACTATAAAGAGGCGTTACAAGTCGACT -CATTAACGGCTATTCAGGAAAGGCATCGCCACGATTAATAAGAATTTCTTTACTGACAGGGTGAGCAGGG -CACTTTTATCCTGTCAGTTCGTTTTACGCACTTCTTCCGGGCTATATACCCTTCTCGGCAGTTTTTTAAC -GCCGCTATACGCCTCACAGGGCTCTTAAGCACCGACGTTGACTTGTGACCTGTAAAGTACAATATCCCTG -TGTTTAGGCGTTATACATCGTCGCAAATATGATGAAGGCTAATGCTGTCGGTTTATGGAAAAGTTGCTTT -GGGTAAACAAAAAATACGGCCCCAGAAGGGCAATGCCGTTCACTTAAGAGGAGCGGCACTATGTTTCACA -GGATAACGGGTTTTTGATATCTTAACCGACCTCGGCCTTGATGGTCGGGGGCGTTTTGTTATGAACACCA -CTTCCAGAGCACCCCGAAGATGCTCCAGTCGTTTCGGGATGGTCCCTGGTGACGCCGTGTTTCCCAGCTC -TATCATTTCTGATGCGATATTCTTCCACGCAGGCAGTAGCCAGTGGCGGTTACAACCCTTCTGGTTCAGC -GTCAGCAGCAGGTCTTCGCTGTAAAAAAGTTTATCAAACAACGTAATAGAGTTATCCGGGATGGTGGCGA -GCATGGAGTGGGCCAGCACAGTTTCGCTCTGCCGGTAAGGTGCGGTCACGGCATTCAGCAGAATGTGACT -TCCCAGGTTCATTAAGGCCACCAGACGCATAACCGGGTAGGCGTTCTGCCGCTTAGTGGATGTGTTGGCA -GACCCATAATATTCACGCAGCTCGGGTTTATCAGGTGTCCTGAACTGTGCGCCATCAATGGCAAAAAGTT -GCAGGCCGTGCCAGTCATCCTTCAGGTAACGTTCCGCGCCCCTGTCTGTGCGGTCTGGCGGAAGAGCCAT -TCCACTGGGGCGGCCCCCACGCGCTGACGCGCCTGGGTGACAGCGCTGCGGGCCAGCAGGTTCATCCCCG -CTTCGCCATCCGCGCTCAGGTTCAGACGGCGAACAACATCGGTAATTGGCTCATTGCACCACCATCCAGA -TAACCATGTCCCCCGGTAAACGACGGCGGCGAACGGTCGCATGAGCAGAAAGCGTCAGGCAGTGTTGTAT -CCACTCGGTGGGAAGGTGTTCTGCAAATAGTTGTGCAGAGGGCGGAGGCATAAGCGGATGGTCACTGAAA -TCGAGCAGATCATTGAGAAGTGGCATAAGAAAACGGCTCCCTGTTGTGGAAGCCGTTATAGTGCCTCAGT -TTAAGGATCGGTCAACTAATCCTTAACTGATCGGCATTGCCCAGAAGGGGCCGTTTATGTTGCCAGACAG -CGCTACTGATTAAGCGGATTTTTTCGCTTTTTTCTCAGCTTTAGCCGGAGCAGCTTCTTTCTTCGCTGCA -GTTTCACCTTCTACATAATCACGACCGTAGTAGGTATCCAGCAGAATCTGTTTCAGCTCGGAGATCAGCG -GGTAACGCGGGTTAGCGCCGGTGCACTGGTCATCGAATGCATCTTCAGACAGTTTATCCACGTTCGCCAG -GAAGTCTGCTTCCTGAACGCCAGCTTCACGGATAGATTTCGGAATACCCAGTTCAGCTTTCAGCGTTTCC -AGCCATGCCAGCAGTTTCTCGATCTTAGCAGCAGTACGGTCGCCCGGTGCGCTCAGACCCAAGTGGTCGG -CAATTTCAGCATAACGACGGCGAGCCTGCGGACGGTCATACTGGCTGAATGCAGTCTGCTTGGTCGGGTT -GTCGTTCGCATTGTAGCGAATAACGTTACAAATCAGCAGGGCGTTTGCCAGACCGTGCGGAATATGGAAC -TGGGAACCCAGTTTGTGCGCCATTGAGTGACATACACCCAGGAAGGCGTTCGCAAACGCGATACCCGCGA -TAGTCGCTGCACTGTGAACACGTTCACGCGCTACCGGATTTTTAGACCCTTCGTGGTAGGACGCTGGCAG -ATATTCTTTCAGCAGTTTCAGTGCCTGCAGAGCCTGACCATCAGAGAACTCAGATGCCAGTACAGAAACA -TAAGCTTCCATGGCGTGAGTTACTGCGTCCAGACCACCGAAAGCACACAGGGACTTCGGCATGTCCATAA -CCAGGTTGGCGTCGACAATCGCCATATCCGGAGTCAGCGCATAGTCTGCCAGCGGATATTTCTGACCAGT -AGCGTCGTCAGTTACAACCGCAAACGGAGTGACTTCAGAACCTGTACCAGAAGTGGTGGTGACAGCGATC -ATTTTCGCTTTCACGCCCATTTTCGGGAACTTGTAGATACGTTTACGGATATCCATAAAGCGCAGCGCCA -GCTCTTCGAAGTGAGTTTCCGGATGTTCGTACATAACCCACATGATCTTCGCGGCGTCCATCGGGGAACC -ACCACCCAGCGCGATAATCACGTCTGGTTTGAAGGAGTTTGCCAGTTCTGCACCTTTACGAACGATGCTC -AGGGTCGGGTCCGCTTCTACTTCGAAGAAGACTTCAGTTTCAACGCCTGCTGCTTTCAGTACGGAAGTGA -TCTGATCAGCATAACCATTGTTGAACAGGAAGCGGTCAGTCACGATGAGCGCACGTTTGTGGCCATCAGT -AATCACTTCATCCAGCGCGATTGGCAGGGAGCCACGGCGGAAGTAGATAGATTTCGGAAGTTTGTGCCAC -AACATGTTTTCAGCTCGCTTAGCAACGGTTTTCTTGTTGATCAGGTGTTTCGGACCAACGTTTTCAGAGA -TGGAGTTACCACCCCAAGAACCACAACCCAGAGTCAGGGAAGGTGCGAGTTTGAAGTTATACAGGTCACC -GATACCACCCTGAGACGCTGGGGTGTTAATCAGGATACGCGCCGTTTTCATTTTCTGACCGAAGTAAGAA -ACGCGAGCCGGTTGGTTATCCTGGTCAGTGTACAGGCAAGAGGTATGACCGATACCGCCCATAGCAACCA -GTTTCTCTGCTTTTTCTACCGCGTCTTCGAAATCTTTAGCGCGGTACATTGCCAGAGTCGGGGACAGTTT -TTCATGTGCGAACGGTTCGCTTTCATCAACAACGGTCACTTCACCGATCAGAATCTTGGTGTTTTCTGGT -ACAGAGAAGCCTGCCAGTTCAGCAATTTTATAGGCTGGCTGACCAACGATAGCCGCGTTCAGCGCACCGT -TTTTCAGGATAACATCCTGAACAGCTTTCAGCTCTTTACCCTGCAACAGATAGCCGCCGTGGGTTGCAAA -ACGTTCACGTACAGCGTCATAAACAGAGTCAACAACAACAACAGACTGTTCAGAAGCACAGATTACGCCG -TTGTCGAAGGTTTTGGACATCAGTACAGATGCAACTGCACGTTTGATATCAGCAGTTTCATCGATAACAA -CTGGAGTGTTGCCCGCGCCTACACCGATAGCTGGTTTACCGGAGCTGTATGCGGCTTTAACCATGCCCGG -ACCACCAGTCGCGAGGATCAGGTTGATGTCTGGGTGGTGCATCAGTGCGTTAGACAGTTCAACAGAAGGT -TGATCGATCCAGCCGATCAGATCTTTCGGAGCACCGGCAGCGATAGCAGCCTGCAGAACGATATCAGCCG -CTTTGTTGGTGGCATCTTTTGCACGCGGGTGCGGGGAGAAGATAATGGCGTTACGGGTCTTCAGACTGAT -CAGCGATTTGAAGATAGCAGTTGAAGTCGGGTTAGTGGTCGGAACGATACCGCAAATAATACCGATTGGT -TCAGCGATAGTGATGGTACCAAAAGTGTCGTCTTCAGACAGAACACCACAGGTTTTTTCATCTTTATAGG -CGTTGTAGATATATTCAGAAGCAAAGTGGTTTTTGATCACTTTATCTTCGACGATACCCATGCCGGATTC -GGCAACGGCCATTTTCGCGAGTGGGATTCGAGCATCTGCAGCAGCCAGAGCGGCGGCGCGGAAGATTTTG -TCTACTTGCTCTTGAGTGAAACTGGCATATTCACGCTGGGCTTTTTTTACACGCTCTACGAGTGCGTTAA -GTTCAGCGACATTAGTAACAGCCATAATGCTCTCCTGATAATGTTAAACTTTTTTAGTAAATCATCTGCT -CGAATACGAGAGTATAGTCAGTGCGGTGATGATTTGCTTAACCTATGAAAATCAAAAGCTTACTCGCGCT -CACACTCACTGTGATTTACTAAAAGAGTTTAAACATTAGAGTTATTATCTCTAATGCGTCACTTCCAGGT -GGCGTAAGCAAGATTACTCACTTCTGGGTACTGATTACGTGATCCAAATCAAATTTTTGCAAAGCTGACA -CCTTTCAGCATCGCTTTTCGCCATTATAGCTAACAGTTAATAAATTGTAGTATGATTTGGTGGCTACATT -AGCATGTTTTGCACAACTAGATAACAATAACGAATGATAGCAATTTTAAGTAGTTAGGAGGTGAAAAATG -CTGTCAAAAGGCGTATTGTCAGCGCGTCTTTTCAACCTTATTTATGGCTAACATTATCCGGCTTTTGCTT -CGGAGCTAACCGTGATTCAGACCTTTTTTGATTTTCCCGTTTACTTCAAATTTTTCATCGGGTTATTTGC -GCTGGTCAACCCGGTAGGGATTATTCCCGTCTTTATCAGCATGACCAGTTATCAGACAGCGGCAGCGCGA -AACAAAACTAACCTTACAGCCAACCTGTCTGTGGCCATTATCTTGTGGATCTCGCTTTTTCTCGGCGACA -CGATTCTACAACTTTTTGGTATATCAATTGATTCGTTCCGTATCGCCGGGGGTATCCTGGTGGTGACAAT -AGCGATGTCGATGATCAGCGGCAAGCTTGGCGAGGATAAACAGAACAAGCAAGAAAAATCAGAAACCGCG -GTACGTGAAAGCATTGGTGTGGTGCCACTGGCGTTGCCGTTGATGGCGGGGCCAGGGGCGATCAGTTCTA -CCATCGTCTGGGGTACGCGTTATCACAGCATTAGCTATCTGTTTGGTTTCTTTGTGGCTATTGCATTGTT -CGCTTTATGTTGTTGGGGATTGTTCCGCATGGCACCGTGGCTGGTACGGGTTTTACGCCAGACCGGCATC -AACGTGATTACGCGTATTATGGGGCTATTGCTGATGGCATTGGGGATTGAATTTATCGTTACTGGTATTA -AGGGGATTTTCCCCGGCCTGCTTAATTAATTCCTTTCAAATGAAACGGAGCTGCCATGCTCCGTTTACTT -CGTCATTATTTTTACTTTGTTCCCGCGCAGTTATCAAAAGCAAAAGGAATAGGTAAAAATATTCTTCTCA -AATTACAGTTAGTTATAAGGATTTCCTTAACTGCTTCTCCTCACCATCATGTTATTTTCGCCACATCATA -ATCCTGGGCTTGCTGAAGAATAATTGAAATGATATTATTAATTCCACTGCCTTTGGTAGAGGAAAGTGCT -AAATAATAATCAATTGTTAAATTATTGTGCATTTCACTACTGGAACTGTAATCAGAAAAGATAGACATGC -TTAGCCAATCTCTATTTGATTGAATTGAAAGATGTTTGTTAAGGCATGGATGCAAGCTATAGATTCTGAT -ACGGTCAATAAAAGAGAATTGCTTAACAATTTTGCAAAATGTATTGGCGAGTAAGAACCGCATTTGGTAC -TTTCCGGGCAACCGCCAGACGATTCTTTATTGGTAATGAGAATAATTAACAATTAAAGAGCGTCGCGAAA -GAATAATGTGTCTCGACAGGGGAGACACAGTACGAATCGACATAAGGTGATCGTCTGAATCACCAGAATA -AATAAAGTCGGTGGGTGATGCTGCCAACTTACTGATTTAGTGTATGATGGTGTTTTTGAGGTGCTCCAGT -GGCTTCTGTTTCTATCAGCTGTCCCTCCTGTTCAGCTACTGACGGGGTGGTGCGTAACGGCAAAAGCACC -GCCGGACATCAGCGCTATCTCTGCTCTCACTGCCGTAAAACATGGCAACTGCAGTTCACTTACACCGCTT -CTCAACCCGGTACGCACCAGAAAATCATTGATATGGCCATGAATGGCGTTGGATGCCGGGCAACAGCCCG -CATTATGGGCGTTGGCCTCAACACGATTTTACGTCACTTAAAAAACTCAGGCCGCAGTCGGTAACCTCGC -GCATACAGCCGGGCAGTGACGTCATCGTCTGCGCGGAAATGGACGAACAGTGGGGCTATGTCGGGGCTAA -ATCGCGCCAGCGCTGGCTGTTTTACGCGTATGACAGTCTCCGGAAGACGGTTGTTGCGCACGTATTCGGT -GAACGCACTATGGCGACGCTGGGGCGTCTTATGAGCCTGCTGTCACCCTTTGACGTGGTGATATGGATGA -CGGATGGCTGGCCGCTGTATGAATCCCGCCTGAAGGGAAAGCTGCACGTAATCAGCAAGCGATATACGCA -GCGAATTGAGCGGCATAACCTGAATCTGAGGCAGCACCTGGCACGGCTGGGACGGAAGTCGCTGTCGTTC -TCAAAATCGGTGGAGCTGCATGACAAAGTCATCGGGCATTATCTGAACATAAAACACTATCAATAAGTTG -GAGTCATTACCAAGTCGGTGATAGTAATACGTAACGATAAAGTAACCTGACAGCAGAAAGTCTCCGAGCC -TGTGCAGGGTCCCAATCCGGGATTACACATGCTGGTTAATACCAGTAATTATAATGAGGGAGTCCAAAAA -ACAATGACCAACATCACCAAGAGAAGTTTAGTAGCAGCTGGCGTTCTGGCTGCGCTAATGGCAGGGAATG -TCGCGCTGGCAGCTGATGTACCCGCAGGCGTCACACTGGCGGAAAAACAAACACTGGTACGTAACAATGG -TTCAGAAGTTCAGTCATTAGATCCGCACAAAATTGAAGGTGTTCCGGAGTCTAATATCAGCCGAGACCTG -TTTGAAGGCTTACTGGTCAGCGATCTTGACGGTCATCCAGCACCTGGCGTCGCTGAATCCTGGGATAATA -AAGACGCGAAAGTCTGGACCTTCCATTTGCGTAAAGATGCGAAATGGTCTGATGGCACGCCAGTCACAGC -ACAAGACTTTGTGTATAGCTGGCAACGTTCTGTTGATCCGAACACTGCTTCTCCGTATGCCAGTTATCTG -CAATATGGGCATATCGCCGGTATTGATGAAATTCTTGAAGGGAAAAAACCGATTACCGATCTCGGCGTGA -AAGCTATTGATGATCACACATTAGAAGTCACCTTAAGTGAACCCGTTCCGTACTTCTATAAATTACTTGT -TCACCCATCAACTTCACCGGTGCCAAAAGCCGCTATCGAGAAATTCGGCGAAAAATGGACCCAGCCTGGT -AATATCGTCACCAACGGTGCCTATACCTTAAAAGATTGGGTCGTAAACGAACGAATCGTTCTTGAACGCA -GCCCGACCTACTGGAACAACGCGAAAACCGTTATTAACCAGGTAACCTATTTGCCTATTGCTTCTGAAGT -TACCGATGTCAACCGCTACCGTAGTGGTGAAATCGACATGACGTATAACAGCATGCCGATCGAATTGTTC -CAGAAGCTGAAAAAAGAGATCCCGGACGAAGTTCACGTTGATCCATACCTGTGCACTTACTATTACGAAA -TTAACAACCAGAAACCGCCATTCAACGATGTGCGTGTGCGTACCGCACTGAAACTAGGTATGGACCGCGA -TATCATTGTTAATAAAGTGAAAGCGCAGGGCAACATGCCCGCCTATGGTTACACTCCACCGTATACTGAT -GGCGCAAAATTGACTCAGCCAGAATGGTTTGGCTGGAGCCAGGAAAAACGTAACGAAGAAGCGAAAAAAC -TGCTGGCTGAAGCGGGTTATACCGCAGACAAACCGTTGACCATCAACCTGTTGTATAACACCTCCGATCT -GCATAAAAAGCTGGCGATTGCTGCCTCTTCATTGTGGAAGAAAAACATTGGTGTAAACGTCAAACTGGTT -AACCAGGAGTGGAAAACGTTCCTCGACACCCGTCACCAGGGTACTTTTGATGTGGCCCGTGCAGGCTGGT -GTGCTGACTACAACGAACCAACTTCCTTCCTGAACACCATGCTTTCGAACAGCTCGATGAATACCGCGCA -TTATAAGAGCCCGGCCTTTGACAGCATTATGGCGGAAACGCTGAAAGTGACTGACGAGGCGCAGCGCACA -GCTCTGTACACTAAAGCAGAACAACAGCTGGATAAGGATTCGGCCATTGTTCCTGTTTATTACTACGTGA -ATGCGCGTCTGGTGAAACCGTGGGTTGGTGGCTATACCGGCAAAGATCCGCTGGATAATACCTATACCCG -GAATATGTACATTGTGAAGCACTAATGGCAATACGTGGGGCAGGAGTGTCCTGCTCCACGGTGTCTGATT -TTTATCGCATTACAGAAGGCACAGGCCAGAAGGTAGGGCAATGTTAAAATTTATTCTACGTCGCTGTCTG -GAAGCGATTCCGACGCTATTTATTCTTATTACTATTTCGTTCTTTATGATGCGCCTCGCGCCGGGAAGCC -CTTTTACCGGCGAACGTACTTTACCGCCAGAAGTGATGGCCAATATCGAAGCGAAATATCATCTTAATGA -TCCGATCATGACACAGTATTTCAGCTACCTGAAACAACTGGCGCACGGTGATTTCGGTCCATCGTTTAAA -TATAAAGATTATTCGGTCAATGACTTGGTTGCATCCAGTTTTCCCGTTTCTGCCAAACTGGGAGCCGCAG -CATTTTTCCTTGCGGTAATACTGGGTGTTAGTGCTGGCGTTATTGCCGCATTAAAACAAAACACCAAATG -GGACTATACCGTGATGGGGCTGGCAATGACCGGGGTTGTTATCCCCAGTTTTGTGGTTGCACCATTATTA -GTCATGATATTTGCGATCATTTTGCATTGGCTGCCGGGCGGTGGCTGGAATGGTGGGGCGCTTAAATTCA -TGATATTGCCGATGGTGGCGTTGTCACTCGCTTATATCGCCAGTATTGCGCGTATTACCCGTGGCTCTAT -GATTGAAGTATTACACTCCAATTTTATTCGTACTGCCCGGGCGAAAGGGTTACCTATGCGGCGGATCATT -TTACGTCACGCATTAAAACCTGCTCTGTTACCCGTGCTCTCTTATATGGGCCCCGCATTTGTCGGCATTA -TTACCGGTTCTATGGTTATCGAAACCATTTATGGTTTGCCGGGGATTGGACAACTGTTCGTTAATGGCGC -ATTGAACCGTGACTATTCCTTAGTGTTAAGCCTGACCATCCTGGTTGGTGCTTTAACCATTTTGTTTAAT -GCCATTGTCGATGTGCTATATGCGGTTATCGACCCGAAAATCCGTTACTGATACTGGAGCTCGCGATGAT -GTTAAGTAAGAAAAACAGCGAGACGCTGGAAAATTTCAGTGAAAAGCTGGAGGTCGAAGGGCGCAGCTTG -TGGCAGGACGCACGTCGACGTTTTATGCATAACCGTGCGGCGGTTGCCAGTCTGATAGTGCTGGTGCTGA -TCGCGTTATTTGTAATCCTGGCACCGATGCTTTCCCAGTTTGCCTATGACGATACTGACTGGGCGATGAT -GTCCAGCGCCCCGGATATGGAGTCCGGTCACTACTTTGGTACTGACTCATCCGGTCGCGACCTGCTTGTG -CGCGTTGCGATTGGCGGGCGTATCTCACTCATGGTCGGTGTTGCTGCGGCACTGGTGGCTGTGGTCGTCG -GGACACTTTATGGTTCGCTTTCCGGTTATCTGGGCGGTAAAGTGGATTCGGTAATGATGCGTCTGCTGGA -AATCCTCAACTCCTTCCCATTCATGTTCTTCGTCATTTTGCTGGTGACCTTTTTCGGTCAAAACATCCTG -CTGATTTTCGTGGCGATAGGCATGGTTTCCTGGCTGGATATGGCTCGTATTGTGCGTGGGCAAACCCTGA -GTCTGAAGCGCAAAGAGTTTATTGAGGCGGCACAAGTTGGCGGTGTATCGACATCGGGCATTGTTATTCG -CCACATTGTGCCGAATGTACTCGGTGTGGTGGTGGTCTACGCATCACTTCTGGTGCCCAGCATGATCCTC -TTTGAATCTTTCCTTAGCTTCCTGGGGTTGGGTACGCAAGAGCCGTTAAGCAGCTGGGGTGCATTGCTGA -GTGATGGCGCGAACTCGATGGAAGTCTCTCCATGGTTATTGTTGTTCCCAGCGGGATTCCTCGTGGTGAC -GCTGTTTTGTTTCAACTTTATCGGCGATGGCTTGCGTGATGCCCTCGACCCGAAAGATCGTTAAGGAGTG -CAGCCATGAGCGTAATTGAAACTGCAACTGTGCCGCTCGCACAACAACAGGCTGACGCACTGCTGAACGT -GAAAGATTTGCGTGTCACCTTTAGTACCCCGGACGGCGACGTCACGGCGGTCAATGATTTGAATTTTTCC -CTACGTGCCGGAGAAACGCTGGGTATTGTAGGTGAGTCTGGTTCGGGTAAATCGCAAACTGCATTTGCGT -TGATGGGCCTGTTGGCTGCCAACGGACGTATTGGCGGATCGGCAACCTTCAATGGGCGTGAAATCCTCAA -TTTGCCAGAGCATGAACTCAATAAACTGCGCGCTGAACAAATCTCAATGATTTTTCAGGACCCAATGACT -TCGTTGAATCCCTATATGCGCGTCGGTGAGCAGTTGATGGAAGTGCTGATGCTGCATAAGAACATGAGCA -AAGCTGAGGCGTTTGAAGAGTCGGTGCGGATGCTCGATGCGGTAAAAATGCCGGAAGCGCGTAAACGCAT -GAAAATGTACCCGCACGAATTTTCTGGCGGCATGCGTCAGCGAGTCATGATTGCGATGGCCTTGTTATGT -CGACCTAAGCTGCTGATTGCGGATGAACCAACAACTGCGCTGGACGTCACCGTACAGGCGCAGATCATGA -CGCTATTAAATGAACTGAAGCGGGAATTTAATACCGCCATCATTATGATCACCCACGATCTTGTCGTGGT -GGCGGGGATCTGCGACAAAGTGCTGGTAATGTACGCCGGGCGCACGATGGAATATGGCAACGCGCGCGAT -GTCTTTTATCAACCCGTTCATCCTTATTCTATCGGTTTGCTCAACGCGGTGCCGCGTCTCGATGCGGAAG -GTGAAACAATGTTGACCATCCCGGGTAATCCGCCAAACCTGCTGCGATTACCGAAAGGTTGCCCGTTCCA -GCCACGTTGTCCGCATGCGATGGAAATTTGTAGTAGCGCACCGCCGCTGGAAGAGTTTACGCCTGGCCGT -CTGCGTGCTTGCTTTAAACCGGTGGAGGAACTGTTATGAATGCTGTAACTGAAGGAAGAAAAGTCCTCCT -TGAAATCGCCGATCTTAAAGTGCACTTTGAAATCAAAGATGGCAAACAGTGGTTCTGGCAACCGCCGAAA -ACGCTCAAAGCCGTCGATGGTGTCACTCTTCGCCTGTATGAAGGGGAAACATTAGGTGTGGTAGGGGAAT -CGGGATGCGGTAAGTCCACCTTTGCTCGCGCCATCATCGGTTTGGTCAAGGCGACCGACGGTCATGTTGC -CTGGTTAGGTAAAGAGTTGCTGGGCATGAAACCCGATGAATGGCGTGCCGTTCGCAGTGATATTCAGATG -ATTTTCCAGGATCCGTTGGCATCGCTAAACCCGCGTATGACCATCGGCGAGATCATCGCTGAACCACTGC -GTACTTATCATCCGAAAATGTCACGCCAGGAAGTTCGCGAGCGCGTGAAGGCGATGATGCTGAAAGTCGG -GTTATTGCCTAACCTGATTAACCGCTATCCGCATGAGTTCTCTGGTGGGCAGTGCCAGCGTATCGGGATT -GCGCGTGCTCTTATTCTTGAACCGAAGCTGATTATCTGTGATGAGCCGGTGTCGGCGCTGGACGTGTCAA -TTCAGGCACAGGTGGTCAACCTGCTCCAGCAATTGCAACGTGAGATGGGATTGTCATTAATTTTTATCGC -TCATGACCTGGCCGTGGTAAAACACATTTCCGATCGTGTGTTGGTGATGTATCTCGGCCATGCGGTAGAA -CTGGGGACCTATGATGAGGTCTACCACAATCCACTACATCCTTACACCAGGGCATTGATGTCGGCAGTCC -CCATACCTGATCCGGATCTGGAGAAGAACAAAACCATCCAGTTACTGGAAGGGGAATTACCGTCGCCGAT -CAACCCGCCTTCCGGTTGTGTTTTCCGTACCCGTTGCCCGATTGCCGGTCCAGAGTGCGCCAAAACACGT -CCTGTTCTGGAGGGGAGTTTCAGACACGCCGTTTCTTGCCTGAAAGTCGATCCGCTTTAAAAACAATAAG -GGCTGACAGTTGTCAGCCCTTTTTCACGCTAAAAGCGATTATTTATTCCCGCCAGATGATATGGCAAAGT -TTGTGATCTTTTTCGCGGCATAACAGAATGCGGGCAAAAACATCGTTGATTTCACCATCTTCACTGTCCG -CCAGACCAATCACCACTTCGGCAAAAAAGTCCGGGTTCAAATCGAAATCAACATGTTCCTGCCAGTCTTC -CGCCGGATCGAATAACTCCGCGCCGCCGCGCTCTTCAAACTGAAGATTGAACAGCAGAACATCAGCTGGA -TCGAGATTGTCGGCAGCCAGTTCGAGAAAAATATCGTAGGCCTGTTCAAGCGTTTCATCTTCAGTCAGGC -GATTGTTTAGATCCATATCCATAGTTACTACCTGTTTAACCTCTGTTGGCGACGTTTTACAGCAACGGAC -TGAAGAAGTAAAACAGTCGCTCGGCGACACGTTGCCATAATGGACGTTTTAGCCATAAACGGGCATCGAG -CAGACGTGAACGCGAAATATAATCGTCCTGAACGGCGGCGAGGTCAGCACCAAAACCTTTATCGTCGATT -GCCAGGGTAATCTCGAAATTTAGCCACAGACTACGCATATCAAGGTTAACTGTGCCAACCAGACTTAGTT -CGCCATCGACCAGCACGCTCTTGGTATGCAGTAACCCGCCTTCAAACTGATAAATTTTAACCCCAGCAGC -CAGCAGTTCCGTAAAGAATGCGCGACTGGCCCAGCCGACCAGCATCGAGTCATTTTTTCGCGGAAGGATA -ATACTGACATCCACCCCGCGCTGCGCCGCCGTGCAAATCGCATGAAGTAAATCATCGCTTGGCACAAAGT -AGGGCGTGGTCATGATCAAATATTCACGCGCCGAATAAGCCGCAGTCAATAATGCCTGGTGAATGAGATC -TTCCGGAAAGCCGGGGCCAGAAGCAATTGTGTGAATGGTGTGACCGCTGGCCTGTTCAAACGGCATAATA -TTGACATCTGGTGGTGGCGGCAGAATACGTTTTCCGGTTTCAATCTCCCAGTCGCAGGAATAAATAATCC -CCATCGCGGTGGCGATAGGGCCTTCCATACGCGCCATCAGATCAATCCATTGCCCTACGCCCGCATCTTG -TTTGAAGTAGCGAGGATCGACCATATTCATGCTGCCGGTGTACGCGATGTAATTATCGATCATGATCATC -TTGCGATGTTGGCGCAGGTCCATACGGCGTAAAAACACACGCATCAGATTGACCTTTAAGGCTTCGACCA -CTTCAATACCGGCATTACGCATTAGCTCGGGCCACGGGCTGCGGAAAAAAGCCACACTCCCGGCGGAGTC -GAGCATCAATCGGCAATGAATGCCGCGTCGCGCAGCCGCCATTAATGATTCAGCCACCTGGTCCGCCATG -CCGCCGGGCTGCCAGATATAAAACACCATCTCAATATTATGGCGCGCGAGCTGGATGTCGCGGATTAACG -CCTGCATCACATCATCTGACTCGGTCATCAGTTGTAGCTGATTCCCTTTGACCCCAGCGATCCCCTGACG -ACGCTCGCAAAGCTTGAATAATGGCGCAGCGACACTGCTATTTTCTTCGGCGAAGATATGCTTACAGGCT -TTAAGGTCGTTAAGCCATTTTGCGGTGGAAGGCCACATCGCTCTGGCGCGCTCAGCGCGGCGTTTGCCTA -AATGGAGCTCGCCAACGGCAAGATAGGCAATAATTCCGACTAACGGCAGAATGTAAATAATCAACAGCCA -GGCCATCGCGGAGGGAACTGCGCGTCGTTTCATTAGAATGCGTAAAGTTACGCCTGCAATGAGCAACCAG -TATCCCAGAATGGCCAACCAACTCACCAACGTATAAACGGTTGTCATAGATTAGAAATCCTTTTGAAAGC -GCATTGTTATGAGTTTACGCATATGGATTCATCTGGCAAATAAAAACGCGGGAAAAGCACTGGTCAGCGT -CGGGGGTGGGGGTATAATGACCATTCTGTTATTGCATAGAGTAGTTAACATGAAGCGGAGTAGAACGGAA -GTGGGGCGCTGGCGCATGCAGCGTCAGGCTAGCCGACGTAAATCGCGTTGGCTTGAGGGGCAATCGCGCC -GAAATATGCGTATCCACAGCATCAGGAAGTGCATTCTAAACAAACAGCGTAACTCGTTATTGTTTGCGAT -CTACAATATCTAAATGTACTGGGCACCATTGCGGTGCCCAATAAGTTTACTCTTCCGTCTTTAAACTCTA -TTTTTGCGCCGATTCTTTACTGTCAGCTTTCGTTTCTAGTTCATCGTTATCGCTGAAAATACCATGACCT -GAGTTCAACAACATTGAAACGAGCATATCATTATTAATCTCTTCACCATTTAAAACTCGCGCCAGAATTT -CGCTGCCAAACAGTTGCGGTGAGAGAATGATATCCGGATGTACCATCTTAATCTTATTCAGGTTTTTGCT -ATCACTGACGGCGAGAACTGTTTTGACATCACTGCTCATATCTTTTGCCGAGAGTACAACAAACGCGTTA -TCTGCATCGTTATCACTCAGCGCCAGAATGGCCCGGCAACGATCGATTCCCGCTTTCTTTAATACAGAAC -TGTCATTACTGTCACCGGGGATAACATCAGCATTATCGCCTAAGCGTTGCTCAAGTTGCTTGATATCATC -TTCAGGCAAGTTGCTGATAACCGTTACGTTTTGTCCGCGTTGATTCAGTTGCAGGATCGTATTGATGGCG -AGAATCGAATGTCCGCAAACAATAAAATGATCTTTACGATGCATTGTATGATTGTTTCCTTTTACAAGTT -TGTTGAATCCCCCGCGGATAAGCGGACCAAAAATTGAGGTCATAGATGTGGCAAAAACGGTAATGCCGGA -AATAATGACCGAAATAGTGAACAATCGTGCTGATTCAGAAACAGGGACAATATCGCCATAGCCGACGGTT -GACATGGTTTCTATCGAAAAATAGAACGCGGTCATCAAACTTTCTATTCGCGGATTAAAACCTTCGCTTA -AATAAAGCGCACCGTAGGTTGAGTAAAACAGTAATGTCGTGAAACTAATAAATGCAAAAATTGTCCCGGC -TGCGGCGCTACTGTGGGAGAAGTCTTTGCGCAGTATCAGCAAAAACACCAGCGTAAAAATGCAAAATCCA -ATACTAAATTTCAGCCAGGGATAAAAATGCAGGGTGTAAATTAGCGCTATCAACAACAAAATGATACTGA -TTGCCCATGCGAGCTTTGCCCGGAACAGTAAGCCAATGGAGTTCAGGACAAGAAAGACGCCGAGCATAAA -GAGTGGGGCGTTTGCCAGCAAGGAGAGATCCAACTCTGAAAATGCTTTGATATGGAAAATATCAAGCAAA -TTGACCGACATACCATAGATTGTTTTAAAAATAAGCAATCCATTTAAAAAGACGGCCAGCGCGAGAATGT -CGTGCCGAAGGGTCACCCATAAATTTGTTGCTGTTTGTTTGAATGTAGCCCAGTGACTCACTGATACCTC -TGTAACCACAATTTTGTTTAATTATCTTAGCGTGCACATTTTCTGAACATACATGCAGCGCGTGAATGTG -TTAAACAATAGTAGATGACTTTATCCGCAGTAATCAAAGGATTTGAGCGAGCAACTGTACCTCAGGAAAG -GTCATTTTTCCTGAATATGCTCACATCATATAAAGAAATACAGATAAAGTTATTATCTGCTTGTGGTGGT -GAATGCACTGACCGGCTATAAGGAAAGGCCAAACAAGAACACGGTTGCAAAAACCGTGCCCTTAAATATT -GAATCTCTATTCAGAACACTTTCTTAAATTGTCATTTGGCATATTACGAACAATTCCGCGTAAAAACGTT -CTGTTACGCTAAACCCTTATCCAGCAGGCTTTCAAGGATGTAAACCATAACACTCTGCGAACTAGTGTTA -CATTGCGTGTAGCTTTGAGTGGGCAACTTTGTGTACACTTTTGTGTACCCAAAAACAAAAATGTGTACCC -ATTCAATGATCACCGACACAAAGCTCAGGAAGGCGCTCGGCAAGAAAAGAGATGATATCGAGATTATTTC -TGATTCGCACGGGCTCAACGCCAGAATCAGCCAGGCCGGAAAAATATCATTTTTCTATCGGTATCGCTGG -GCCGGTAAAGCGGTAAAACTCAATGTTGGTGATTATCCTGCAATGAGTATCACCCAGGCAAGAGAGCGTC -GCCAACAATTCAGAAACTGGTTAACTGAGGGACTGGATCCGCGAGAGCAGGTGAAGCTGGATAAGCAGAC -CCGACAGGAAGCGATGTCCGTTGCCGAAGCGTTCAATTACTGGATTGAAAGGCACTGTATCGCTAACGGG -CTAGTTAAAGTCGATTACTATCGCCAGGTGTTTGAGAAACATATCGCCGAACCGATGAAGAATGTCAAAG -TCGATAACACAGCGAAAATGCACTGGATCAACGTCTTCGATTCTATAGAAAGCAGGGTGATGGCTCATTA -CATGCTTTCGCTGTGCAAACGGGCGTTTAGGTTCTGCGTTAACAGAAGTGTGATCGCCTCAAACCCACTC -GAGGGATTACTGCCATCTGATGTCGGGCAAAAGCCTAAAAAGAGAACTCGCAGGATGGACGATGACGATC -TGCGCAAAATCTATCAGTGGTTGAAAAGCCATATGTCGATAGAGTCCGTTTTCCTGGTGAAATTTATTAT -GCTTACCGGATGCCGTACGGCTGAGATTCGACTTAGTGAGAGATCATGGTTTCGATTGGATGATAATGAG -TGGGTCGTGCCTGCGGGCAGTTATAAAACTCGGGTACATATTAGAAGGGGACTCTCAGACGCCGCCGTTA -ACCTGGTCAGAAATCACCTCAAGAAAATAAACACCAATCACCTGGTGACTTCACAACGTAAAATTGATGG -CGGGATCAAAGATTCGCCCGTTCATTCACCTGTGGCATCCAATTACGCCCGTTCTATTTGGAATGGAACA -GGTATGGCAGAGTGGTCGCTTCATGATATGAGGCGGACGATAGCCACAAATCTCTCTGAGTTAGGTTGCC -CGCCGCACGTAATTGAAAAGCTGCTCGGGCATCAGATGGTGGGGGTTATGGCGCATTACAACCTTCATGA -CTATATCGATGATCAGAAACACTGGCTCCGCGTTTGGCAGAGCCATCTTGAAGAGATCATCGGAGAGCCC -TTCAGTTAATTTATCTTCTTTTTATCCTCCCACTCTTTGATTGACTCAGAGCGCCAGCGGTTAGGGTTGC -CGGGCCAGTCAGGGGGTGGGAACGGGCATACGAAGCCCCGAGGCATTGTGTCTGCACTTTGCCATGACCA -AAGGGTTTTGCGTGAAATTTTGTAGCGACTGGTCAGGTCTGACGTTACCAAAATATCATCCATAGCTCTC -TCCAGTTGCCCGTTCGGGCCATTCAAAATCTTTTTCAACCAACCTGCCCGGGCAGGGAGCGGAGACGGCG -CATGCCGGTCATCGCTGTGGCCACGTAGCTCGCCTTTCGGTTCACCACCTCCACCCAGACTTTCACGCCT -TCAACCTTCACCGTATAAGTCTCTTTCATCTTGCTTCGCCCATAGTCGCCATATGTTTGCAAGTGAGCTG -CCAGCGCAACATCGCAAGCGCGGCGACCAATAGGTGATTGCTTACTGCGATTAATCAGCTTCATCATCAC -TGCACTCCCAAAGTGGCTACGACATCACTCGCTGTTTCGCGGGTACTGCCTTTGCTGGATATAGCCCGGC -GAGCACTGACGCGGTGCAGATTGAAGCCGTGCTGTTCGTAAAGTTCAATTACGCGCGGTGCGGTAGAATT -GCTGATCACCACTTTTGCCCCCCGCTGGTGGGCTGCCACACAGCTTTCCGCAAGCTCTACCTGGCTATCC -CATGAGAACCCACCAGCCGCGTAGTTAGTGAAACCAGCGGTGCCGGGAAGCGGCTCATAAGGCGGATCGC -AGTAAACGACGTCACCATCACCTGCCAGCGCGAGCGTGCGCCTGAAGCCTGCATTCATGAATACGCATGC -GTGAGCCTTCCGCTTAAATGCCTTGATCTCTTCTTCCGGGAAATATGGCGCTTTATATTTCCCAAAGCCG -ACGTTAAAAAAAACCGTCCAGGTTGTAACGAATCAGGCCGTTGAAGCAGTGCCGATTGAGGTAAAGGAAT -GCTGCTGCACGCTCGACCGCATCCAGCCGCTGCGCGTTGAATGCTTCACGAATTAACGTATAGTTTTCGG -CATCATTAAGATGCCTGAATGCCTTCATTGCCTCATAGATCACCGAATCGGGGACCACCGCCAGCATCTG -ATACAGGTTAATCAGGTCAGCGCTGACGTCAGCCAGAAGGAAGCGTTCGTGCTTGTCTGAGTTAAGGAAC -ACCGAGCCGCCACCCACAAAAGGCTCAATAAGGCGTTTACCTGCGGGGATCAAACGATCCAGTTCCGGCA -GCAGCGAATATTTGCCGCCAGCCCATTTAAGGAACGGGCGCTGCCAGCTGCGCAGCGCCGGTTCTTCTAT -GGGCATCGCCGCAGCTCCACTGCAAACAGATCCGTATCTCATGCTGCCTCCTGCCTTTCCCGATATTCCT -CAGCGAGCCGCTGCGCCTTTAATGGATTGCTGACCACTTCACCCCATGGTATTAGCCAGCAGTTACCAAT -GAAGGGGAGGCACAGTGTGCCTACGCTGATGTCGTCGTGAGCGTGAGTCATAGGATGGACTCCATTTCGT -CGATATAGAGGCCCTGAGCAATCAGGCGGCGACGGCGTGCTGCACGTTCAATGCACTCCTGCCGCCTGCC -TTCCTGCGACTGCTCTATGGCGCGCCGGGTGAACAGCCGAGATTTACCCTGCGGCGTAATGACCTTTGGC -TTCGTAACCAGGTCGAATGTCCGGTCGCAGATGCCGTCCTCGTTGATCCATTTTTCCGACTCAACGATCT -GCGCTATCTGTCCGGTGCCGCGGGTGATGCCGTTGGCGACCCGGTTAAACTCAATGAGCGATACGCCAAA -CTTCTCGGCGATTTCGCTGCCAGTGACCGGGCGGCCGCGCGTCTGAATCATCCAGATAACGCGTTCACGG -AGGCCGGAGAATTGCCCGGCTCGCCCGGGCCTGCGGTAGAATGGTGTGCGTTTCATTTCCACTGTTCCCC -GAACGTGAAGCCGATCTCTGCCAGCGCCTCGTCCATCTTCTCGATGAACTCCGGCACCATTTCGTTGAAA -TCGGACATGTACTGAGGATCCCGCTCAACGACGACGTGGTGAATGCCTTCGCGTTTCATGCGCGGGTCGT -AGTTTGCAAAGAACCATGCGTCTTTTCCGGTCACCCACATGCTGTACTGCACCTGGGCCATGTACGCAGA -CTTGATGGCTTCGAAACCGCCAAGGCGGAATTTCATGAAGTCGCGGGAGGTGAAAGGGCATTTAAGCTCA -AGGCCGAACCCGTTACTGCACAGGCCGTCAGGGGAGCAGGCGGTGCGCATGCTCTCGTCACGGAACAAGA -TCGGAGACTCCGTGACTTTCACGTCAGTGGTGAACTCGAAGAGGGTGCGGGCGTCTTCTTCGTACTGCTT -GCCCCAGGCCAGCGCCTTGGCGTTAACCTCTGGCGCTACACCGGTGCATACCTCGGCGAGCAAGGTGTGG -AAGTAGGACATTTTCATGTCTGTCCATTTGCTGCCAGATCGAGGCTTGGAAATGACGTTGTGAGCGTCAG -AGGCAGTAATAACTCCGAGCCTTAATTTGGCCCATGCTTCATCACCTTGCTCTACGGTGGACACATCTAT -GCCGGTCCGGGCCAGGATAATTTCTGGTGTCATGCTGCCGCCTTCTTCTTGAGGAAGCCTAAGGCCTTAA -CTGCCTCGGCTTGGGTAAGCTCGGATGAATCGCGAATATCACGACGGAAAATTTGCGAACAGACTGGGAG -CAGGTTTTCTTCCCATGTCTTATCCATTGCGATAAGGACGTCGTTAATCTCCTTGATAATTTCGTCTCCT -GCTGGGGTTACATCGCGTTCTGGCTGGCGTTCTGCTGAGAAGTTGATACCTTCCTCACCCTCGGTATTAA -CATGGTCGATGGCGGCATCCAGGCGCTCACGTCGAGGCCAGTATTTTGCTGCCTGCTTCACGACCGTCTT -TAGGATCATCTGCTCTTCATCGGTGACCCATGGACACTTCTTGCTGTTGTCAGATTTGTACTTCTTCCAT -GCTTCAGACCGGTCACGGATGGAGTAGATGGCATCGATGCGCATCGTATGGGTAAGGTAATCACCATCGT -CAGTTTTTACCGTTACATACGCCCCTACAATGTCCCCGCGCTGCTCTTCAGTATCAAAGTCGTTGTAGAT -GTGGATCGGCGGCTTATCGAGCCCCTCGCGGCGGAACTGGTCGTTTCTTCGAACAATAGCCGACTGGCAC -CACTTAATGGCGCCAGACTGCTGCGCGATGTGCATCAGGCCCATGTAACTGATGTCGAGGCAAATAGCCC -CTTTACGCGGAACCAGGTAAGCCAGCTTCTGAGCTGGGTTTAGCGAAATACCGATAGCCGCAACGTTGAT -GATCGCGTTCTGTGTGCTGGTCTGGTTCTGGAATGCAACTTTCGCGAGGTAGTCGTTGTTCTGAAATAGC -TGGATGGCGAACTGACTTTCCTTCGCCCACACCATCCGCTCGTCAGTGGCCGCCTTAATGAAAAGCGGCT -CCTGTTGTTTGACGAAATCAACAAGGGTTAAGCTCATAGTCCCTCCTTAAAATGGGCAGATTGGATGAAG -GCGATCCCACTCTTCTTCGGCGCGGTCGTAACAGATGCGTGTGACATAGTCGTTATAGGCTTCCTCTGCC -TTTTCACCGACTAGTGCCATTTGCGCTTCTTTTGGGAGAAACAGGCTACTCATTTGCAGAGCATATTTCG -GGAACATGGCGATCAGTTCTTTCGCCCGGTCGTCGATCCACTTCTCTTTCTCGTCGGTGAGTTGCTGCTC -AACCCAGCGCCGTTCTTCGATGCGGTCGTAAGTGAGGTATGCGTTCATGTTTGCCTCAATATTTGATGTG -CGCGTCCTGCACTTTGCCGCCAGCGATCGCCAGCACTGCTTTCTGTGCGTATTCTTCTGGGATGCCCTGA -GCAATCAGATCTGCGTAGACACGACGATTGACGGTGCGGCGGTGCTCTTTGTCTGCGGCTCGGCGCGCTT -CTTCTTCAGCTTTGCGCTGCTCTTCGACCAAACGGGCGGCTTCTGCCTCTTCCTGGCGGCGGCGCTCGGC -GGCAACGGCTTCTTCTTTTTCGCGGCGCGCACGCTCTTCGGTTTCCTTCTTCTCGCGTTCCGCACGCTGT -TCCGCTTCAATGCGCTGGCGTTCAGCCAGCTCTGCACGTGCTTTCTCTTCAGCTTCACGGCGCGCTGCGG -CTTCAATCTCCGCTTTGTGCTTCGCTTCGGCATCTCGGCGGGCTTGTTCTGCTGCTTCGCGCTTAATGCG -CTCTTCGTGCTCACGCCGAGCCTGTTCCGCCAGGCGGCGCTGCTCTTCGCGGTCACGGTCGAAATCCTTG -TTCATCAGCAGAGCCATTTCGTGGTCTGCTTCGAACTTGGCCGCCAACTCCTGATCGAACTTGATGTTCA -TTTCCAGCGCTTCGGCGTGCAGCGCGTTCATGGCTTCTTCAGCCTTAATGCGTTCCTGCTCGGCTTCCCA -TTCGGTGAGTGGGCGGCGGGTTGCGTCGCGAAGCTCGTCACATGCATCAACGAAACGCTTAATTTCGGCC -TCAGCAGGTCGCACAGCCTCTTTCAGGCGCTTCAGGTACTCTCGGCCCGGCTTTTCAATTGCCGTCTTAC -TGCGTGATACCTGCGCTGCCAGAGAGGCGACACGGTCACGTCCTTTCTTCGTGGACAGGTCCGGCACTTC -GTTTACTGCCTGGCGGATTTGCTCGAGATAAGCATCAAGGCCGCCCGCTACGTAAAGCACTGGGGCCTGT -TCCGGCTTGATTTCGATGACAGTTAAGTCCGTTACTTCGCTCATGGTTTCTCCTGAAATTTTGATGTGCA -GATCTCGCCCTCTGGTGACAGGCAGCAGTTGAATTGGTTAAGGGTTATTTGCCTATGGATCTGAAAATGC -GTATATGGCTAGTTGATTGCTTCGTTAAGCATTTTCTCTATAGCCAGCTTGCCGTCATTTATCTGAGCAA -CTTGCTTATCGAAGTTCTCTTGGTAGTGGGCGAGATTCTTTTCCGATGCAGAGAATAGGCGTTCTTTGAT -TTTTTGTAACTCATCCCTGCTGAAAACAATGCCCATATTGCGGCACTTTTTGACATCATCAATGCTCAGG -CCGTTACCATTGAGTTTTTCCAGGGCAATGCGCTTAACACACTGCCTGGCTTCTTCAATAGTCTTGTAGA -ACTCAACCGTATCGCTTCCACCACTGCCATCTGAATAGCAATTTACTCGTAAAGCTATATCTCCATTAGT -GCTGCCCAAAAGAGATAAGCACTTGATACCTTCAAATTTCTTACGCCCATAGTAGTTGTCAATTGAAGAC -ATAAAATCTTCATATCTTTCAATGGACGGCACACCGTAATCACGACGAATGGCAAATTTAACCTGCCCGG -TCATTACATCTGCGAAATGGTCCAGGTCAGCATCATTGATATGATCTGAGAACGCTTTTACCTGCTTAAC -CATTTCTCTCCAGAAACTTAATGTATTCTGTAGGTTGCTAATTTCCGAGTTGATCTTTTCAATTTTCAAC -TTCGCATCAGCAAGGGCTTTTTCTTGTTTTGCTTTTTCACGAGACAACCATGATTCAACTGGCTGGTCAT -GTAGACTCTTCACCACAAAACGCTCGCCACCAGGGATTTCATCACCCTGCTGCGTGACAAACACTTCCTG -GACGATCGTTTCCTGATTATTCAACGCACCAACGACAACGACCTTACGGCCGTCAGAAAGAAATTTAGTT -TCCATGACAAAGTCCTTAATGGGTGAGAGGGTTGCCGTGACCGTCCAGAAGGACGTCAATCACGCAGTCA -CTGAGGCGGATGATTTCTGCGTCGGTGTGCAGGTAGACCCATTTGCGCTCCTGAATGACTGCTGAGACGC -GATATGTGCGGCCTTCATGCAATGCCATCATGCCGGGCGTGACGCACTGGCGAATGAGCGGGGTGGTGCC -GTAGTGGTTGATCATGCCTTCACCTCAACCTGTTCCAGGAGGCCAGCCAGCTTCATATGCCAGCGGTTCA -TCGTCAGCTTTTCACGCGGGTTAGATACCGACGTCAGCTGCCACTCGTTATCGTTGAGCTTTTTGGCGGT -GTACTGCTTGCCGTTGTGGGTGACTGTCATCTCACACCACCTTGAATAAGAACCAGCCCATACCGCACAC -AATCAGGCCCACAATGGTTATTGCGGAAGACATGCGTACATGGTCAATGGCTAGTTTTGAAAGTGGCTGG -CGATGTTCTTTTTTCGTCAGCGAGTTGATTGCTATGTCGAGCAGAAACGTCCCGACAAACCATAATGCGT -ATATCTTTAAGCCCAACTCCAAATCACTCATAAATCCTCTTGGCCTTATCGCGGCGAACGGAACGGTTAA -TACAAGACTTCAACGCATTTATTCAGTGTTTCAATGGTCGGTGGATGGCCGCCGGTTGTCATAACTTGAG -CCACTCGTAAATGACTCCAGGTATGAAAAAGCCGCTGGTTAGGCGGCTATTGAGGTTCGCGCGGCTTGTG -GTCGAATCGGTGCCACCCGTCAGTTAATTCAAATGGAGCATAACTTTCCCGGCGCTCAGCGAACCCAAGC -TCAACAGACAGAGCGTGCAGCTCATGCCGACGCTTAATCTGTTCCATCGCAATCCAGTCAGCATCGGCAT -TGCGCTTTTGAGCTTGCTTCGGCGACAGGTCTAAACTGTTTATTTCACTTAGTTTCTGCTGACGCTTGAT -GTCCTGTTTCATATTGCGAAGCGCATTTATCATTGAGTCGATGCGCTTGATGTCGTCGATCATCCCCTTA -CCCTCTGTCGTTACCCGCTGATGCGGGAGAAATGCTTTGGCGATGTGGTAGGTGGGAGACCCATTTCGAC -CCGATTCGGCCTACTTATCTTCGGCAATAGCTCCTCGGGCCTCGCCGCTTTACGTGCGACATATTCCCGT -CCATGAACCCTTCACCACATCCCATAACATTCCCTGTATTGGTCAGCGCCAACTCCCTGCCAGTGTTGCC -CGTTCTCACGCCGTTCTCGCTCTCGCGCGGGGATACTCTCTCACCGACCGGATCGCACCCGGTGATACAG -CACGTTTACGTGTAGGGGTCTTAACAGGTCATTGACGCTGTAAATCTGCATGTTGTTAAAAAGCAGGCGA -CTTGCTGTCCGCCGCTGGCTAACTTCGCTCAGCTGTCGATGTTTCGTTTCGATGGAGTAATTAAACATCA -TGTGGATTTGTAGGTCAACACCTTGTGGATTTATTTTGTTGATTTAATCGTTTACTGTTGATTTTTATGT -TGATTTATTTTTTGGTGGCATAAGTGATATGCTGAAAAAAACATCAAAAAGGAGTGGGTAATGGACTTGG -ATGAAGAAAGAGTGAACATGATGGTTCACGCCATGGGGCGGGCGGTCATGGAGTTGTCACTGGCAGATTT -ACCTATGACCCAGCAAAACATCATCGACAAGCTGGAACGGTACCGGAAGGAAACGGGAAACGTGATAGGT -AAGGGTGTGAACAGGGATGCAGCTGAGATAGTCAGGAAGGGTAGTAAAGCTGTGAAGTAGGCACAAAAAA -CCCGGCGCGGTGGCCGGTTGTTAAAGCTCAATATCAACTATGAAAAGTTTACTAATAGCCCCTTTTCTAA -CTGCTGCTTTGGCAGTTACTTTTACCGCTGACTCATGACTTAGACCCGTTGACAGAAAACGACTAAGTGA -AATGAGATACGGGTTGTCTGCCTTTGAAGCAGATGGATCGCTTATTTGTGCTGAGATGCGCTTATCTGAA -TCATCACCTTCTATAATGACTTTAGCGGTCATTCGGTGAGCGTCGAATTCAGTAAGGAAGATTCGATACT -CCCTTAAGCCAAGAACTTCGTCGTCGTCCAACTGGTCTATTACTGCTTTATCTTGCTCATCAATTACAGC -AGGCTTGAAACCATTCCCCGGTGTGACGCTTATCTTATTACAGGTGGTACCGATGGGGGAAACTGCCTGT -CTAACTGATGGGCGTAACTCACTAGCCATCTTGTCAATCACTGAGATTAGACCTGAGATGGTATCTTTAT -CTTTATTTCCGAGGGCCTCAATTGCCTTCTCAAGTGCTTCTTTTAGGTATTTCATTTCCTCTTTCTTCTG -CGAGTTTTTAGCGAAGATATAAGGCACTAATGCGCCAAGTATAGCCCCCGCAGACCCTGAGAACAATTGA -GACTGACTGATAAAATTCATGATAGTATCAAGAGAAAAACAATTGGCCCTAGCTTCGGTAGCGTAAATTT -TAACCTCTTGAGTTGAGGTGCTTCGCGAGTACTTTTGGGTTAATGCGAAGGTTCCAGCTGTAGCTAATAT -CTTCGAAAATCCCTTTAGCGATTCACCGAGCGAAGAAAGTTCAATCTCATGCTTTTCAGCATCCAAACCG -TCATATCTAAGTGAAAAATTAACATCGTGTAAGCCAGTGTTTTCCATCAACAGTCCTTATATGCTTTCAC -CAAAACGTCTCATCAGGCCACCATAAGCACGATCGCAACAACCGAGAGCAAAGTAACCACGCCTACTATC -AGATATTCTCTCATCACCCAAACGTCTCTTCAGGCCACTAAAATTATCGGCGATATCGCAATACCGAGTA -CCAGAACACAAAACCGATTATCTCGACATCTGCCTCATCGGCCTCTTCGTCGTCATAATCACGATTAATG -CTTCTGATTAGAATTTTTCCGCCTGGTTTGCGATAAAGTTGCTTGATGCGCTTCAGATCTCCCTGGTTGA -TGGCGTAGAGTTCGCCGTCAATAACTCGCTTATTACCAGTATCAACAGCTACAGTTGCACCATCAGGAAT -GACTGGCTCCATACTGTCTCCTGATGCAGGAAAACACAGGACACCAGAACCATCACTATTGGCTCCAACT -CGACGGAGCGTTGCTTTTGAAAAGCGCAATTTAAAACCGTTGTGATCCTCATCGTGTACTCGTCCATCAC -CACACGCAAACTCGATATCCTTCAGAAACGGTACTTCCACCTCATCGTCAGGTAGGGGGGTATTTTTGTC -CCAAGCGTCGACAGTTCCCCACTCAGACTCTGGCGGGATGTTGCTCTCCAGATCCTTCTTTGGAGAACCC -TCTCCATTTAATAACCAGTCAAGAGAATAACCGAATTTTTCAGATATTTGTTGCGCCGCCTCACGACTTA -ACGCGTCTCTTTTTATCCAGTTGTTGACGGTCTGTGGGCTAGTCGACAAAGCCTCAGCCAAATCCCGCTG -CTTCAAGCCTTCCCTTGCCAGTAAAAATTTAATTCTTTCAGAAATGCTGCTCATAAAACCCTCCGCTCCA -TGCATGGTAAACAACATGTGGATTTTTTCCATCACCATAATGTTGATTTAATCCACGCCATGAATTAACA -TGGTGTTGATTACACATGAGCGGAGCAAAACATGATCAACAAAAAATCCAACGCCAGCACCCCGCTTGAG -AAAGCCATTAATGCAGTGGGCGGCTCTCAAAAGGTGCTTGCTGAAAAGGTCGGCGTAACGCCTCAGGCCA -TCAATATGCTTAAAAAGCGAGGTGGCAGCCTTCCAGTAACAAAAATGCGTAAATACGAAGAAGTAACCGG -ACTTCCTCGCGAAGTTCTATATCCAGGTATCTTTGCCGCCTAACCGGCGGCTCTAACCACGAAATGGAAA -GCAATGCATTCACTTGCGTATCAACACAATACCGGAATACACCCGGGAGCGATGATAAACCGCGCTCAAC -CTAAGGCGGAGCCAGGTCACGACAAAATCCGCGATGCGGTCCGTGCATGGTCGTCGTCCCTGGACAATCA -GGACGTAGTGTCAGCGCTGATCATCAACGAATACCGGGAGCAGGGCGGTACCGCCATCAGCTTCCCAGAA -GACATCAGCAGGGCGCGCCAGAAACTTTTTCGCTTTCTGGATAACCGCTTCGACTCCGATCAGTACCGCG -AGAACGTTAGAGAACTGACCCCGGCAATCATGGCTGTTCTTCCTGTTGAGTTTCGTACACGCCTGGCGCC -GCAGAACGACACCATGTCGCTGATCGCATCTGCCATGAAGGAATGTTCAGAAGCAAAGCAAGCCGTTCTC -CTGAACGCGCCTGAGCACCAGAAAATGAAGGAGGTAAGCGAGGGCATAGCGTCATTGTTTCGCCTCATGC -CGGAGCAGGTAGGACCGCTGATGACGATGGTTACATCGATGCTGGGGGTTATATGAGAGGCACAAGAAAA -GAAAAAGCCCTTGAAGCGGTAACTTCAAAGGCCCTTATCACACTGTGTTACGGCAAGTAACGGGAGTAAG -TATGTCAAACACCGCTGAAATAATCAATTTCCCAAATAAAACCGAACAACCGGGAGGTCGTATGGCCGAC -CTGTCGAACGGGTATACCAAGGTCGCTAACGAGATCCAACAGCTTAAGCCTCGCCTGAGACTGTCAGGCC -GGGAATGGCAATGTTTTGAGGCGGTGATCTGGCTTACCTACGGCTGGAACAAGAAACAGGACCGCGTGAC -AAATACGGTTATTGCCGAGCTTACGGGCCTGAGCGATACGCATGTATCGGACGCGCTTAAGTCTCTCGCA -GAACGCAAAATCATCTTTTCACAGAAGCAGGGCATGATGAAAATCGTCGGTGTAAACACTGACCTTTCAG -CATGGATTTTAGACAAACCGGAAACGGGAAGAAAATTCCCGAAAACGGGAAAATCCTTCCCGAAATCAGG -AATAACCTTCCCGAAAACGGTAGACACCCAATACAAGAACAAGAACAGTATTAAAAGATCTTCGTCCGAG -AATTCTGACGAATCCTCTGACGCACGTCTGAAGAAATTTTTATCAACTCATCCTGAAGCTGCGGTCTACA -CACCATCCGGTGCGAAGTGGGGCTCTGCTGAAGACCTCGAGACAGCTAAGTGGATTTCCTCCAGGGTGAA -GCTGATTAACCCAACCTGCAAAGCCCCGGACATGACCTCCTGGTCTAACACTGTTCGCCTGATGCGCCAG -ATAGACAACCGGTCGCACCAGGACATCTGCGCGCTGTATGACTGGGCTAGCAAACACCACTTCTGGCAGA -CCAACATCCTGAGTCCCGAAAGCCTGCGTAAGCAGTGGGACAAGCTGACAATGCAGCGTAACGCCGGAGG -TGAGCAGCGCGCTGTCAAGCCAGATCTGGACTTCAACAACACTGACTGGGCCTATGGGGTGATCCGATGA -AATCTCTTGCAGAGCAGATGCGTAACCACGACCGCGAGCAGATGAGCCGCATGGCCCATAACCTGCCAGA -GCAGTACCAGGAGTGCGCGCCGGTCGAGCAGGTGGCGCAGGTATTCAACAAGCTGTTCAACGAGCTGCGC -GCCGCGTTCCCGGCCAGCATGGCGAACTTCCGCACCCAGGAAGACCTGAACGAATTCCGCCGTCAGTGGC -TGCTGGCGTTTCAGGAGAACGGGATCCACACCATGGCTCAGGTCGATGCCGGCATGCGCATTGCCCGCCG -CCAGGAGCGCCCATTCCTGCCGTCGCCGGGCCAGTTCGTCGCCTGGTGCAAGCAGAGCGGCGGCGCGCTG -GGCGTCAACGTTGACCAGGTGATCGCCGAGTACTGGGAATGGCGTAATCGTTCGTTCGAATTCATCTCCA -GCGAGCAATTTCCATGGTCGCAGCCGGTCATGTACCACATTTGCGTAGAATTGCGCCACCGCAGCACCGA -GCGCCAGTTAACGCATGGTGAACTGGCACGCGAGGCAGGCGATCTGCTGGACATGTGGGAAAGGCGCGTC -ACCGAGGGTAAGCCAGTGCCGCCGGTACGCCGGGCTATTGCCGCACCAGCTGCCGAGCAAGGGCCGACGC -CGATCCAGCTGCTGCTGGCCAAGTACAACCGCAACAAGTCGAACGGGATGGTGTGACATGAACATAACAA -TCCGCGGGCAGATTCTTGCAGCCCTGCGTAGGATACTGAGGACTAACCCATGAGCACCATTACCAAAGAA -TGGCTACTGAAGACTATCGCGGAGCTTGAAGAAGAGCGAGATGCTACGCCAGGCGCAGTGAACGAAGACG -CGGCGATGGCGCTCGCTGCGATGAAGCTAGCGCTGGCATCGCTCGAAGCGGAGCCTGTGGCGTGGCTACT -GTCAGGCGGCGGCGCAAAAAACAACGTCAGCTTCGATAGTGGCAATGCTTATGCCGCCCAGCTGCGAGAA -GTAACGCCGCTTTACACCGCCCCGCCAGCGCCGGTATCTGTGCCCGCTGCGATGGAAATTGATGATGACT -TTGACAGCGCGTTTGAACACGGAAAAGCTGTCGGCTGGAACGCCTATCGCGCCGCCATGCTTCAGGCCGA -ACCTGTAAGTAATAGTGATGAGTTACCGCTGGACTATCTGCAAGGACACAAAGACGGCCTGGAGTGGGCT -GCACAATTGGCAGAAGCCAATCATCCGCAAACAGGTGACTGGTTGTACGACGACCAAATCGAACTTGCCA -GGGCGATTCGCAAAGGTCCGGATATGCCTACTGTTCAGGGTGGCAACTCTCCGGTGATTCCAGATGGTTG -GGTGATGGTGCCGGTTGAGCTTACTCCGGATATGCGTGCAGCATGGGATTCGGCTCCGTACACAGACGAT -GATGACAACGACATGCAGGCTGCATACCGCGCGATGATTGCAGTAGCACCGCAGTGGAAGGTGAAGTGAT -GCAGAACCCATTCGACGCATAACTAAACGTCAAGCAACGTTTGATAAAACACTATCAACGAGCCATAATA -AATCTGCCAGCGGCCTGAACAACCCTGGCAGACTTCTGCGCATTTAAGGGGACTTAAATGCGACCACAAT -ATGAACTTCTCACCTTGTCACAGATGCAGAAATGCACCTGCGATTTTCTGTATTCTTCGGTTTCCGTCAA -GGAGGCCGTATGATTATCCCCAAAGACGGCATCAAGCTACACCGTGGAAATCTTGGTGCTATCACTCAGC -ATCTGAAGCCACTTCTCGAAAACGGTGAGTGCTTCCGGCTCCAACTCAAAGACTGGCGCGAGAAGAGAAG -CCTTTCACAAAATAGTCTGAGCCACGTTTGGTACAAGGAAATAAGCGACTACCTGATCAAGTCTGGGCGC -ACTGACGCAACGCCTGCATGGGTAAAGCGAAACCTCAAAAAAACTTATCTGGGTTATGAAGAGGTTGAGT -ACACCGATTTCGTCACCGGAATTAAGACGATTGAATTAGAACTCCGCCACACGTCCGATCTGGACACTGG -CGACATGCACCATTTCATGTGCCAGGTGGAAGGCTGGTGCGCTCAGTTTGGCCTGGTGCTCACAATCCCT -CAAAGCAGCGAATTTCAGGTGCTGCGCGATAAGCAGGAGGCCTGATGTCAACTCCACTTTCCCGCGTCAT -CACAAACGAAATCTTTCGCGTTCCGGCGCGCCGCAAGCCTAAGCCCGCGGTTAAGCCATCCGATATCCCG -ACCCTGAAAGACTACACCGCCCGCCTGGTGGATCAGAAATGGCTGCGACTCGCGGCGAGGAGAAAATCTG -CATGAGCATGTATCAACGCATTAATGGCGCTGACTGGCGCAATATTTTCGTCGTCGGCGATCTGCATGGG -TGCTACACGCTGCTGATGAATGAACTCGAAAAGGTTTCGTTCGACCCTGCGTGTGATTTGCTGATTTCGG -TTGGAGACCTTGTTGACCGCGGCGCGGAAAACGTCGAGTGCCTGGAGCTGATTACTATGCCTTGGTTCCG -GGCTGTGCGAGGTAACCATGAGCAGATGATGATTGATGGGCTATCGGAGTATGGAAACGTTAACCACTGG -CTGGAAAACGGCGGCGTGTGGTTCTTCAGTCTTGATTATGAAAAAGAGGTGCTGGCTAAGGCTCTGGTTC -ATAAATCGGCCAGCCTGCCATTCGTCATCGAGCTGGTTACCGCTGAACGTAAAATCGTTATCTGCCACGC -TGACTACCCGCATAACGAATATGCGTTCGACAAGCCGGTCCCGAAAGACATGGTCATCTGGAATCGTGAA -CGGGTTAGCGACGCTCAGGACGGCATTGTCTCGCCGATAGCTGGTGCTGATCTGTTTATCTTCGGCCACA -CCCCTGCGCGCCAGCCCCTGAAGTATGCCAACCAGATGTACATCGATACTGGTGCCGTGTTCTGCGGAAA -CCTCACGCTGGTACAGGTTCAAGGTGGTGCCCATGCGTAAACCATCCCGCCGTAAGTGCAAAGTATGCGG -TGAATACTTCGTGCCGAAATTCCACGACATCCGGATCCGGTGGTGCAGCCCGGAGCATGGCGCAATCCTC -GCAATGGAAGAACGCAAGAAGGAGAAGGTGAAAGCCGCGGCTAAGCGCATCAAGGAGCAAAAAGAGGCTG -AAAAGGACGGGCGCAAACGCCGCAAGGAGCGGCTGGCAGAGCTCAGGCCAGACGGATACTACAAGGCTCA -GGCTCAGAAAGCTTTCAACGCCTTTATCCGTGCGCGCGACGCCGATTTGCCATGCATCAGCTGCGGCGAG -ACCAATCCGCCTGATCTGCATGGTGGCCAGTGGGATTGCGGCCATTTCAAGACAGTAGGTGCTTACCCTG -AACTGCGCTTTGAAGAACGCAACGCCCATAAGCAGTGCAAATCCTGTAATGCCGGAGCTGGCAAGTACAC -CGCCAAAGAGGCGACCGTGGCGCAGCAATACGAAGCTGGGTTGGTCGCTCGTTACGGTCAGGGATACGTC -AACTGGCTCAATGGTCCCCACGAAATGACCAACTACCGCCGTGAAGACTTCATCCGGATCCGGGATGAGT -ACCGCGACAAGCTCAAAGCACTGAAACAGCGGGAGGCAGCATGAAACCAATGATATTCGATCTCAAGCTA -CCTCATTGGGCTTTTCTGCTTGAGTGTCCGTTCTGTGGCGGCGGCGCAGAACTTTTTTCTGATGGTGATG -GTGTCTACGCCGGTTGTTCAACAAAGCAATGCTTGATTAAGCCGATAACTGACACCTATCCAACAAAGCG -CGATGCAATTCGCGCCTGGAATCGGAGGCCATCATGACCAGAGACGAGATAACCCGATACCAGGCCGAAA -GCGTTAAGCGCGCCAGCATGCCGCCAATAGTAAAGCACAGCCAGACCAAAACCCACCAGCCACAGAAGGA -AGCCGCATAATGAACCTCGAATCAATCGCTAAATACTTTGCGCCTAAATCACCGATGTTCAGTGACTCTC -CTCGCGCAACCGCATCAGACAGTCTCACCGGCACTGACGTTATGGCGGCGCTTGGCCTTGCTGGCCACAA -GTGCGGGTTTGGTTTCGATCTTTACCTCTCGAAAATCGGCATTAGCAGCCCAGATATAGCACTGGAGAGA -CTCTATGAGCAGGCACGTAAGTTATCAGGTAAATTCAGAGCACTGTCTGAACTCGATGAATCAGCTCGGT -CAGGCGTGCTTAAGGTTCTCTGCGCTTTTGCATACCAGGATTATTCAAGAAGTGCTGCCAGCACTCGAAA -ATGTGATTGCTGTGATGGTGGCGGATTTACAGAGGCGCAAGTGTTTACCAACAAGGTCTCATACCCATGG -GGGAAACCGCCTTACTGGTCGAAAATGTCGCGTGCCGTTCGCCCAAGCGACTGGGAGAGCTGGACACAGG -CGCGTGAGGTGGTGCGAGTTAAGTGCAAGCCGTGTAACGGAAAAGGCGTTATCAGCAATTCGTGTCGCTG -CCATGGCAAAGGTAAGGTGCTGGACAAGGCAGAAAGCGATCGCCAGGGCGTTCCAGTAATGAAAGCCTGC -GACCGCTGCGGTGGTAGAGGTTACGCCAGGCTTAAGTTCTCAACGGTAATTGAGGGCGTTAATACTGTTG -CGGAGATAAAGAAAACGGCGGCATATGAGCAACTTCAGCCGCTATTTGAGGAGTTGGTCGCCGAATGCCA -TAAACAGGAGTCTATGGCTGATTCCATTCTCTCAAAAGTAACGAGATGAAAATAATTTTCCCTAATGTTG -AAAATATATAGGAAATAGGTATTGCATTTCGCGGAAAAACTGGATAGATTCATCTCTAACGCTGGGAATA -CGTTCAGTCGTTCCGAAGCCAAAAAAATTCAAGCCCGAGGTTAACGCCTTGGGCTTTTTTTATTTCTTTG -TGGCCTAAATCGCTTCGAGCCAAAAAAACGCGGAGAACGACATCACCCCTCTCCGCAATAACGACTCAAT -CTCATACCCGCTTGTCTTTCTTTTATCCACAAAGAGGTAAAGCCATAACTTAGTGGAAATGGTAACAGCT -AAAAACTATTTGAAAAGCTAATTATTTTTTGCATCAACTGGCTATTCTTAAGGATTGTTTAATTTTTTGC -TTTCCTAGCGAGAAAGAAGCTCCGGAAACTATCAATCAATACAAGGCTGCCGTTCGGCGGCCTTTTTTAT -TCCTAGCAACAGCACTCGCACAAAGCGAGGTGAGAGTATGTATCGCATGGACAAACTAACCACTGGTGCT -GCCTATGGCGCTTCAGCCGGGAGCATCCTAAACGGCATGTTGAATGCCTACAGCCCCGAGCAGTGGAACG -CTATCGGCGTGCTGGTGGGTATCATCATTGCCGTAATGACGTATCTGACAAATCTCTATTTCAAAATCCG -CGAAGACAACCGCCGCAGCAGGAGCCGAGATGAACCCAACGTTGAGGAATAAGCTGGTGGGTGCCATTGT -TGGCGGATCAGGGGCAATCACTATTGCTGCAGTAATGCTGGGCAATGCGGATGGACTCGAAGGTCGGCGT -TATTACGCCTATCAGGATGTGGTCGGCGTCTGGACCGTTTGCGATGGGCACACTGGTACCGACATTCGCC -GCGGTCACCGATATACCGACAAAGAGTGTGACAACCTGCTTAAGGCAGATCTGCGAAAGGTGGCAAGCGC -CATCGACCCGCTGATCAAGGTTCGCATCCCTGAGCCAACCCGCGCCGCGCTTTACTCCTTCACCTATAAC -GTTGGCTCTGGTGCTTTTGCCAGCTCGACGCTGCTGAAGAAGCTGAACTCCGGTGATGTTCCGGGTGCGT -GTAAAGAACTGCAGCGCTGGACTTATGCTGGCGGCAAGCAGTGGAAGGGGCTGATCACCCGGCGCGAGAT -TGAGCGTGAAGTCTGCGAGTGGGGCCAGAAATGAGCCGATTAACCGCAATCATCTGCGCTGTCGTTATCT -GCCTGCTGGTTTCCATGGCCTGGGCCATTAACCACTACCGCGACAACGCCATCACCTACAAAGACCAGCG -CGACAAAGCCACCAAAAGTCTCCGCCTGGCTAACGACACCATCAAAGACATGCAGACCCGTCAGCGTGAT -GTCGCTGCACTGGATGCCAAATACACCGGAGAACTGGCTGATGCGAAAGAAACCATTGAGCGTCTGCATA -GCGATGTCATTGCTGGCCGTAAGCGGCTGCAAGTCGCCGCCACCTGTGCAAAGTCAACGACCGGAGCCAG -CAGCATGGGCGATGGAGAAAGCCCAAGACTTACAGCAGATGCTGAACTCAATTATTACCGTCTCCGAAGT -GGAATCGACAGGATAACCGCGCAGGTTAACTACCTGCAGGAATACATCAGGACGCAATGCCTGAAATAAT -TTTTTTGCAAATCACAAAGTCAATTTAATGAGCCTCGCGATGCGGGGCTTTTTTATGTCCGCAGTAAACG -CGCATCTCACGCGCATATTAACGAGAGCCTTTCAGTAAGCGAGCCTGAGAAATGCCGTTATAGGTGGCGA -CCTCTCTCGGGCGGCTTTTCTGTGAGACAGGCTCACTTTCTAAAAGGTAAAGACGCTATGAATAATCCGT -CAGTTATTCCGGCCTTCGACTTCCGCGAAATGGTCACGACCCTCGACAACAAGATAATCACCACATCACT -CAAGGTGGCGGATTACTTTGGCAAGCGACACAAAGACGTTTTGCGTGCCATACGTAACCTGAAATGCTCC -GATGACTTCACCCAGCGCAATTTTGCGCCCATTGATTTCATTGATAAAAATGGCGATGTTCAGCCTATGT -ATAACATCACCCGCGACGGATGCATGATGCTAGTGATGGGATTCACTGGCAAAACAGCTGCCGCAGTGAA -GGAGTGTTACATCAATGCCTTCAACTGGATGGCCGAGCAGCTAAACCGGCGCATGGCGATGGGTGAAGAA -TTGCAGCATCGCTACGCCATCAAAGAAACGCGCTCAAAGCTGAAAGGCACGATCGGAAGCCGTTTGATGA -ACGAGCGGAAGAAAGAGAAGCGCGTCCTGGAGCTCGAACATGAGCACATCATGCAGGTAACGCAGCCAGA -ATTGTTGATTGGCTGATCGCGGCATTACAGCAGGCATTCACTGAGTGCCTGTGATAATGCAACAGCCCGT -ACAAAACGGGCTTGGATTTATCTCTTTGTTGCGTTCATGGTCACATGGTAAACGAATTGGCTAAATTGGT -TATCCCAGCGCCCATTATGATTAGCTGCAACTAATTGCATTAACGCCTGCATTAACTTGCTGAACAGCAA -GATTAACTTAAGTCTGTTTTTTGAACTGTCACTATCTAAGGAAACTTCTTCGGTTAATTGATTCTCGGCG -TTAAAAATACCCAGTTTTGATTCTTCCATGCTGGGTTCCGTTGGATGCTGTTTAAAGTATTCAGTCAGAG -TATCCTTCAGGCTCTGGATCCTTGAATCAGCAATGCTTTGTATTGATGGATTGTGTGCAAGGTCATTACG -CATTGAGTTGATGGTTTTAAGTGATTTCATAAGTTCCGGGGGGATTCCCAGGTTTCCCGCCATGGATATT -TTAGTATTACATTCGATTAAAAGTTTGTTTTTATCTCTTCCAAAGAGATCTTGGCAGTCACAGCATGCGC -ATATCCATGCTTCGACCATGCGCTCACAAAGTAGGTGAATGCGCAATGTAGTACCCACATCGTCATCGCT -TTCCACTGCTCTCGCGAATAAAGATGGAAAATCAATCTCATGGTAATAGTCCATGAAAATCCTTGTATTC -ATAAATCCTCCAGGTAGCTATATGCAAATTGAAACAAAAGAGATGGTGATCTTTCTAAGAGATGATGGAA -TCTCCCTTCAGTATCCCGATGGTCAATGCGCTGGATATGGGATAGATGGGAATATGCTGATTTTTATGGG -ACAGAGTTGCGAACTGTTCCCAACTAAAATCATTTTGCACGATCAGCGCACTACGAACTTTACCCACAAA -TAGTCAGGTAATGAATCCTGATATAAAGACAGGTTGATAAATCAGTCTTCTACGCGCATCGCACGCGCAC -ACCGTAGAAAGTCTTTCAGTTGTGAGCCTGGGCAAACCGTTAACTTTCGGCGGCTTTGCTGTGCGACAGG -CTCACGTCTAAAAGGAAATAAATCATGGGTCATAAAATTATCACGTTGTCCGGCGCGGCGACGGATGTTC -TGTATGCGCTGTTTTTCCGTGGCGCGTTGCTGTCTGGTGATCTGCCTTCTAAATCTGGCACAGCCGAATT -GCGCGAGCTTGGTTTTGCTGAAACCAGACACACAGCAACTGAATACCAGAAAGAAAATCACTTTACCTTT -CTGACATCAGAAGGGCAGAAATTTGCCGTTGAACACCTGGTCAATACGCGTTTTGGTGAGCAGCAATATT -GCGCTTCGATGACGCTTGGCGTTGAGATTGATACCTCTGCTGCACAAAAGGCAATCGACGAGCTGGACCA -GCGCATTCGTGACACCGTCTCCTTCGAACTTATTCGCAATGGAGTGTCATTCATCAAGGACGCCGCTATC -GCAAATGGTGCTATCCACGCAGCGGCAATCGAAACACCTCAGCCGGTGACCAATATCTACAACATCAGCC -TTGGTATCCAGCGTGATGAGCCAGCGCAGAACAAGGTAACCGTCAGTGCCGATAAGTTCAAAGTTAAACC -TGGTGTTGATACCAACATTGAAACGTTGATCGAAAACGCGCTGAAAAACGCTGCTGAATGTGCGGCGCTG -GATGTCACAAAGCAAATGGCAGCAGACAAGAAAGCGATGGATGAACTGGCTTCCTATGTCCGCACGGCCA -TCATGATGGAATGTTTCCCCGGTGGTGTTATCTGGCAGCAGTGCCGTCGATAGTATGCAATTGATAATTA -TTATCATTTGCGGGTCCTTTCCGGCGATCCGCCTTGTTACGGGGCGGCGACCTCGCAGATTCTCGCTATT -TATGAAAATTTTCAGGCATTTGCCGTTTCCGTTCTTCTTCTCGCTAATTCATTGTTTTAACTGTAAACAC -CCCCTGAAAAGAAAGGAAATGATAAGCCTTAAAAACGGCTAAATAGCCAGAGGGCGTTTCCTTTCTCTGT -TTTTGTGTATGGAGTGAGCTATGGAGGTCAACAAAAAGCGTCTTTCTGAAATATTTGGGGTCAGCGTGCG -AACCATTCAGAACTGGCAGGATCAGGGAATGCCTGTAGCACGTGGCGGTGGAAAAGGTAATGAGGTCCTC -TATGAATCTTCCGCGGCTATCGAATGGTATTCCGCACGCGACGCGGCGATTGAGAATGAGAAATTACGGA -AGGAGGTGGAAGACCTTCGTCTTGCATCGGAATCCGACCTTCAGCCTGGTACGATTGACTATGAGCGTCA -CCGCCTCACCCGAGCGCAGGCAGATGCCCAGGAACTAAAAAATGCAAAAGATTCCGCTGAGGTGGTGGAA -ACCGCATTCTGCACGTTCGTGCTGTCGCGGATGGCCGGAGAAGTAGCCAGCATTCTTGATGGAGTTCCTC -TGTCGGTTCAGCGGCGCTTCCCGGAGCTGGAAAACCGACATATTGATTTCCTCAAGAAGGACATCATTAA -AGCCATGAACAAAGCAGCTGCGCTGGATGAAATAATACCGGGGTTGCTGAGTGAATATATCGAACAGTCA -GGTTAAGGGGCTGCAGCACTCTGCGCGCGCGGGTCTACTTTCGCTGTACCGACCTGAGCCGCAAACGGCG -GTTGAATGGGCAGACGATAATTACTATCTCCCCAAAGAGTCGGCCTACCAGGAAGGGCGCTGGGAAACGT -TGCCGTTTCAACGCGCGATCATGAATGCGATGGGTAACGATTACATACGTGAGGTCAACGTTGTTAAGTC -TGCCCGTGTTGGCTATTCAAAAATGTTGCTGGGTGTTTATGCGTATTTTATTCAGCACAAGCAGCGAAAT -TCCCTTATCTGGCTGCCTACTGATGGTGACGCCGAAAACTTTATGAAGTCGCATGTTGAGCCGACGATTC -GCGATATTCCGTCACTTCTGGCGCTGGCCCCCTGGTATGGAAAAAAGCACCGGGACAATACGCTCAGTAT -GAAACGCTTCTCCAACGGTCGCGGGTTCTGGTGTCTGGGTGGTAAAGCGGCGAAAAACTATCGTGAGAAA -TCGGTCGATGTCGCCGGTTACGATGAACTGGCGGCATTCGATGAAGATATTGAGAAAGAGGGATCCCCGA -CGTTCCTGGGTGATAAACGTATTGAGGGGTCTGTCTGGCCCAAATCTATTCGCGGCTCAACGCCAAAAAC -AAAGGGGACCTGCCAGATTGAGCGTGCTGCCAGCGAGTCCGGGCATTTCATGCGTTTTCATGTTGCCTGT -CCGCACTGTGGTGAAGAGCAGTACCTTAAATTCGGCGACAAAGAGACCCCGTTCGGGCTGAAATGGACAC -CGGGCGAACCCTCCAGCGTCTTTTACCTGTGTGAACATAATGCCTGCGTCATTAAGCAGCAGGAGCTGGA -TTTCACTGAAGCTCGTTACATCTGCGACACCACCGGGATCTGGACGCGCGACGGTTTATCCTGGTTTTCA -TCAACAGGCACCGAAATCGACCCGCCAGACAGCGTGACGTTTCACATCTGGACGGCATACAGCCCGTTTA -CCACCTGGGTTCAGATCGTTAAAGACTGGCTAAAAACGAAAGGGGATACAGGAAAGCGTAAAACCTTCGT -GAACACCACTCTGGGCGAAACATGGGAGCCTAAAATTGGTGAACGGCCTGACGCGGAGCTCATGGCCGAA -CGCAAAGAGTTCTTCGGGGCATCCGTACCGGAGCGTGTTGCTTATCTGACAGCCGGGATCGACTCCCAAC -TGGATCGATATGAAATGCGCGTCTGGGGATGGGGGCCCGGTGAGGAAAGCTGGCTGATTGACCGGCAGAT -CATTATGGGCCGTCATGATGATGAAGCGACCCTCGTCAGGGTGGACGAGGCGATTAACAAAACCTATCTC -CGAAAGAATGGCGTGGAAATGTCGGTATCCCGTATCTGCTGGGATATCGGCGGTATTGACCCCACCATCG -TCTACAACCGCTCAAAAAAACACGGTCTGTTTCGTGTGATCCCTATAAAGGGGGCGTCGGTTTATGGAAA -GCCGGTGGCGAACATGCCACGCAAGCGTAACAAGAATGGTGTTTACCTCACAGAGGTAGGAACAGACACC -GCAAAAGAGCAGATTTATAACCGTTTCACGCTGGTGGCGCAAAGAGACGAGCCGCTGGCGGGAGCGGTTC -ATTTCCCGAATAACCCAGAAATCTACGATCTAACAGAGGCCCAACAACTAACAGCTGAAGAGCAGGTGGA -AAAATGGGTAGACGGAAAGAAAAAGATCGTCTGGGACAGCAAAAAACGACGAAATGAGGCGCTCGATTGC -TTTGTTTATGCACTGGCGGCGCTGCGTATAAGCATATCCCGCTGGCAGCTTAACCTTGATTCACTTCTTG -CCAGCCTGCTGGAGGAAGAAGGCACCCGTAACAATAACAAGACCCTGGCGGATTACGCGCGGGCATTGTC -TGGAGAGGAATAATGGCAACACAGACTGAACTGGATGCCGCGCGCGCTGCGTTACATGACCTGATGATGG -GAAAGCGCGTGGCGACGGTACAGAAAGACGGTCGAAGAGTGGAATTTACAGCTACCTCAGTCACCGATCT -CAAAAAGTATATTGCTGACCTTGAATCTCAGGTTGGTACCACATCACGACGCCAGGGGCCTGCAAGGTTT -TACGTATGAAAATACCATCTTTAGTGGGTCCTGACGGGAAAACATCCCTCCGGGAATACGCGGGGTATCA -TGGCGGCGGCGGAGGGTTTGGTGGTCAGTTGCGGGGCTGGAATCCACCAAGCGAAAGTGCTGATGCGGCT -CTTCTGCCTAACTTCTCGCGCGGAAATGCCCGTGCTGACGATCTGGTCAGAAATAATGGCTATGCGGCAA -ACGCCGTGCAGCTCCACCAGGACCACATCGTCGGGTCATTTTTCAGACTCAGCTATCGACCGAGCTGGCG -CTATCTTGGCATCAATGAGGAGGATTCACGCGCATTTTCGCGGGATGTAGAAGCCGCCTGGAACGAGTAT -GCCGAGGACGACTTTTGCGGGATTGATGCCGAGCGTAAGCGAACGTTTACGATGATGATCCGAGAAGGTG -TGGCCATGCACGCGTTTAACGGTGAATTATGCACGCAGGCGACCTGGGACAGCGATTCAACGCGTCTTTT -CCGTACTCAGTTCAAAATGGTCAGTCCGAAGCGCGTCAGCAATCCGAATAATATCGGTGATACCCGGAAC -TGTCGCGCCGGTGTGAAAATAAATGATAGCGGTGCTGCGCTGGGATATTACGTCAGCGACGATGGTTATC -CCGGCTGGATGGCGCAGAACTGGACCTACATTCCTCGCGAACTACCCGGCGGTCGACCTTCATTTATCCA -TGTATTCGAACCGATGGAGGATGGACAGACCCGTGGGGCCAATGCGTTTTACAGCGTGATGGAGCAGATG -AAAATGCTCGATACCCTGCAAAATACCCAGCTCCAGAGCGCGATAGTGAAGGCTATGTATGCCGCTACCA -TCGAGAGTGAACTGGATACCCAATCGGCGATGGACTTTATTCTCGGCGCGGATAATAAAGAGCAGCAGAG -CAAACTTACGGGCTGGCTCGGTGAAATGGCGTCCTATTACTCAGCTGCGCCTGTTCGCCTGGGTGGGGCA -AGGGTTCCACACCTGTTGCCGGGTGATTCTCTCAACCTTCAGTCGGCGCAGGATACCGATAACGGCTACT -CGACTTTTGAACAGTCCCTGCTGCGTTATATTGCCGCTGGGCTTGGTGTGTCGTATGAGCAGCTTTCGCG -AAACTATTCGCAGATGAGCTACTCGACCGCACGCGCAAGTGCTAACGAGTCCTGGGCGTACTTTATGGGG -CGTCGCAAGTTTGTGGCATCCCGACAGGCCTGTCAGATGTTTCTTTGCTGGCTTGAAGAGGCGATTGTCC -GCCGCGTGGTCACGCTTCCTTCGAAAGCCCGGTTCAGTTTCCAGGAGGCGAGAACAGCCTGGGGGAATGC -CAACTGGATTGGCTCTGGTCGAATGGCAATTGACGGGCTGAAAGAGGTACAGGAGGCCGTCATGCTCATT -GAGGCAGGTCTCAGCACGTATGAAAAAGAGTGCGCCAAACGCGGTGATGATTATCAGGAGATTTTTGCCC -AGCAGGTCCGGGAAACCATGGAGCGTCGTGCTGCGGGTCTGAAACCACCGGCATGGGCCGCTGCAGCTTT -TGAGGCCGGAGTGAAAAAATCAAACGAGGAGGAGCAAGATGGCGCACGAGCTGCGTAATCTTCCGCATAT -TGCCAGTATGGCCTTTAATGAGCCGCTGATGCTTGAACCCGCCTATGCGCGGGTTTTCTTTTGCGCGCTG -GCTGGCCAGTTGGGCATCACCCGGCTGACAGATACCGTCTCTGGCATCACGCTTGATGCCGGACAAATAG -CCGAACCGCTGGCGCTGTTTGGTGAGGATGATGACATGGATCCCCGTCCATCACGCAGCTATCAGGTGGC -AAATGGTATCGCGGTCTTGCCGGTTTCCGGCACGCTGGTCAGTAAAACCCGTGCGCTTCAGCCTTATTCC -GGGATGACGGGTTACAACGGGATCATTGCTCGCCTGCAGCAGGCAATCAGTGACCCCGGCGTTGACGGCA -TTCTTCTGGATATGGATACGCCGGGTGGAATGGTGTCCGGGGCGTTTGACTGCGCCGACATTATTGCCCG -TATGCGCGATATCAAACCCATCTGGGCGCTGGCCAATGACATGAACTGCAGTGCAGGTCAGCTTATTGCC -AGTTCGGCATCGCGACGGCTGGTCACACAAACGGCCAGAACCGGCTCCATTGGGGTCATGATGGCGCACA -GTAACTATGGCGCTGCGCTCAAAACTAACGGCGTTGAGGTCACGCTGATTTACAGCGGCGATCGCAAGGT -CGACGGCAACCCTTACGAAAAGCTTCCGAAAGATGTGCGTGCTGATTTCCAGACGCGTATCGATGCCACT -CGTCAGATGTTTGCCGAAAAGGTTTCCGCTTATACCGGCATGTCTGTTCAGGACGTGCTGGACACCGAAG -CGGCAGTATTCTCCGGCCAGGAATCTTTGGATAACGGGCTGGCGGATGAACTTGTTAACAATACCGATGC -GCTCGGCGTGATGCGCGAAGCACTCGACAGACGCAAAAAAACAACCCTTGGAGGAACTATGCCATCACCT -TCTGCATCAGCTGTGACCACTAAGCCAGTTGACCAGGCAGCAACTCAGACAACTGCATCAGCTGAACAGG -CCACTACCGTTGACACGACAATTGCTTCCGTAGCAGCCCCTGTAGATGTCAGTGCGCAGGTTACTGCAGC -AGTAGCTGCAGAGAATAGTCGCATCATGGGCATCCTGAACTGCGACGAGGCTAAAGGGCGTGAGTCACAG -GCGCGAGCACTGGCCGAAACGCCGGGTATGACGGTAGAGAGCGCACAGCGCATTCTGGCTGCTGCACCGC -AAAGTGCCCAGATGCGTACCGATACGGCGCTGGATCGTTTGATGGAAACAGCACCCGGTGCACTCCAAGC -AGGTAGCGCATCTTCTGATGCCGCTGACGATTTGTTAAACACCCCCGTTTAAGAGGCTATCATGGCAATT -ACTGAAGTTTTCACACATAACCAGCCGCTCGGTAACAGCGACCCGGCGCACACTGCGTATGGTCCTGGCG -AACTGACGGCTTCCACTCCAGCCATGACGCCGCTCATGCTGGATGCCACTTCTGGCAAGCTGACCGTCTG -GGATGGTGCTCATGCTGGCGCGGCAATGGGCATCCTGGCTGTAACCGCAGACCAGAACAGCGCGGAACTG -GCATATTACAAATCTGGCTCTTTCCGTATTGAAGATGTCCTCTGGCCATCTGCCGTCACCGACGACAACA -TTAAACGTAACGCGTTCGCCGGTACTGCAATCAGCATCGTTTAATCCGCATTTCTACAACCATCATCATT -CATAAAAGCCGCTTGCGCGGCTTTTTTTACGGGAAAAATCTATGTCCGTTTACACCACTGCCCAACTGCT -GGCGGTCAATGAGAAGAAATTCAAATTCGATCCGCTTTTCCTGCGTATCTTTTTCCGCGAAACCTATCCC -TTCAGTACAGAGAAGGTTTACCTGTCGCAAATTCCTGGCCTGGTCAATATGGCGCTTTACGTCTCGCCGA -TTGTCTCCGGCAAAGTGATCCGCTCCCGTGGCGGCAGCACGTCTGAATTCACGCCGGGTTATGTGAAGCC -GAAACACGAAGTTAACCCACTGATGACTCTCCGCCGCCTGCCGGATGAGGATCCGCAGAATCTCGCTGAC -CCGGTCTATCGCCGTCGCCGCATTATCCTTCAGAACATGAAGGATGAAGAGCTGGCGATTGCTCAGGTCG -AAGAGAAACAGGCTGTTTCGGCGGTGCTCAGCGGTAAATACACCATGACCGGGGAAGCGTTCGAGCCTGT -TGAAGTCGATATGGGCCGCAGCGCTGGTAACAACATTGTCCAGGCCGGTGCGGCTGCATGGTCAACCCGC -GACAAAGAAACGTATGACCCGACCGATGACATTGAAGCCTACGCGCTCAACGCCAGCGGTGTGGTCAACA -TCATTGTGTTCGATCCGAAAGGCTGGGCGCTGTTCCGTTCCTTCAAGGCTGTTGAGAAGAAGCTGGATAC -GCGTCGTGGTTCTAACTCTGAGCTGGAAACTGCCGTGAAAGACCTGGGTATGGCTGTTTCATACAAGGGG -ATGTTTGGCGATGTGGCAATCGTGGTGTACTCCGGCCAGTACGTCGAAAACGACGTCAAAAAGAATTATC -TGCCGGACCTGACAATGGTGCTGGGGAATACCCAGGCTCGTGGCCTGCGTACCTATGGCTGCATTCTTGA -TGCTGATGCCCAGCGCGAAGGTATCAATGCCTCGACACGCTACCCGAAAAACTGGGTGCAGTCGGGGGAT -CCGGCGCGCGAATCCACCATGATTCAGTCACAAATTAACCGCAATATTCGTCTTGATCTTGCCGATGCCA -TTTTGCTCAGCAAAGCTAAAAAAGATCTCTCATTTGCCGAGATTGCCGACGGCACCGGTCTGGCAGAAGC -CTTTGTAACCGCGGCTTTGCTGGGTCAGCAGGCGCTTCCTGCCGACGCCGCCCGCCTGGTCGGGGCGAAG -CTGGATCTCGACGAAGACTCCATTCTACTGTTGCAGATGATTCCACTGCGTGGCTGCATTGATGACCGTA -TTCCAACTGACCCAACGATGTATCGTTTCTATGAAATGTTGCAGGTGTACGGTACAACCCTGAAAGCGTT -GGTTCATGAGAAATTTGGCGATGGCATTATTAGCGCGATTAACTTCAAACTCGACGTTAAGAAAGTGGCG -GACCCGGAAGGTGGCGAACGTGCGGTCATCACCTTAGATGGTAAATATCTGCCGACCAAACCGTTCTGAC -AGCCATGCGCAACCATCAAAAGACGTTCACGATGCTGCTGGTACTGGTGCTGATTGGTCTTAATATGCGA -CCACTGCTCACCTCCGTCGGGCCACTGCTACCGCAATTGCGCCAGGCGAGCGGAATGAGCTTTAGCGTGG -CTGCCCTGTTGACCGCTCTGCCGGTGGTTACCATGGGCGGGCTGGCGCTGGCCGGAAGCTGGCTTCATCA -GCATGTCAGCGAACGTCGCAGTGTCGCCATCAGTCTGTTGCTGATTGCCGTCGGTGCATTGATGCGTGAG -CTTTACCCGCAAAGTGCGCTGCTGCTTAGCAGCGCACTGCTTGGTGGGGTGGGGATCGGCATCATTCAGG -CGGTGATGCCTTCGGTGATTAAACGGCGGTTTCAGCAGCGCACGCCACTGGTGATGGGGCTGTGGTCCGC -GGCTCTGATGGGCGGCGGTGGGCTTGGTGCCGCCATAACGCCCTGGTTAGTTCAACATAGCGAAACCTGG -TATCAAACACTCGCCTGGTGGGCGCTGCCTGCCGTTGTTGCGCTCTTTGCCTGGTGGTGGCAAAGCGCCC -GCGAGGTCGCCTCTTCCCACAAGACAACAACCACTCCGGTTCGCGTGGTATTCACTCCCCGCGCGTGGAC -GCTGGGTGTTTACTTCGGTCTGATTAACGGCGGTTACGCCAGCCTGATTGCCTGGTTACCCGCTTTCTAT -ATTGAGATTGGTGCCAGCGCGCAGTACAGCGGTTCCTTACTGGCATTGATGACGCTTGGGCAAGCCGCAG -GAGCTTTGCTGATGCCTGCTATGGCTCGCCATCAGGATCGGCGCAAACTGTTAATGCTGGCGCTGGTGTT -ACAACTGGTGGGGTTCTGCGGCTTTATCTGGCTGCCGATGCAATTGCCGGTATTGTGGGCGATGGTGTGT -GGGTTAGGTCTGGGCGGCGCGTTTCCGCTCTGTTTGCTGCTGGCGCTCGATCACTCTGTGCAACCGGCTA -TTGCTGGCAAGCTGGTGGCGTTTATGCAGGGAATCGGTTTTATCATCGCCGGGCTTGCCCCGTGGTTTTC -TGGCGTGCTGCGTAGTATCAGCGGCAATTACCTGATGGACTGGGCATTTCATGCGCTGTGCGTCGTTGGG -CTGATGATCATAACCCTGCGTTTTGCACCAGTACGTTTTCCGCAGCTGTGGGTCAAAGAGGCATGATGCG -ACGCTTGTTCCTGCGCTTTGTTCATGCCGGATGCGGCTAATGTAGATCGCTGAACTTGTAGGCCTGATAA -GCGCAGCGTATCAGGCAATTTTTATAATTTAAACTGACGATTCAACTTTATAATCTTTGAAATAATAGTG -CTTATCCCGGTCGTTTATTTCGCGAATAACCCGACAAGGAACGCCAGCCGCCACGACGTTTGGTGGAATG -TCTTTTGTGACGATACTACCCGCGCCAATAACAGAATTATCCCCGATGGTGACGCCTGGATTAATAACCA -CATGACTTCCGATCCAGACGTTATTGCCAATCGTTATCGGAAAAGAGTACATCTCGCCGTTTTTTCTCAA -TTCATGGTGTACAGGGTGTCCCGTAACGGAAAGAGTAACGTTGGGTGCAATCAGTACGTTATCACCGATT -GTTACCGTGTAGTCATCGACAATGGTTAAATTGAAATTTGCATAAAAATTGCGGCCTATATGGATGTTGG -AACCGTAAGAGAAATAGACAGGCGGTTCTACCCAGGCGTTTTCCCCTACCGTGGCAAACATTTCTTTAAT -CAGGCTTTCTCTTTTTTCAACTTCTGATGGATGCGAGTGATTAAACTCATACATTAACGTTTTCCCACGA -AGTCTTTTTTCCGGTAAGCCTTCGCACATATCGGTAAATAGCTTGCCTGCTCTTATTCTTTCGGTCATTG -GCATGTTCAATGCGATCACTCCGTTATGATATGTTGGTCGGATAAGGCGCTCGCGCCGCATCCGACATTG -ATTGCTTAAGCGACTTCATTCACCTGACGACGCAGCAGGGAAAGCGGGCCGGGGCCGCTAAGCGTGAACA -CGGAAATTAAGGTGAAGCCCAGCGCCACCAGACCCAGCACCAGATAAGCGCCCTGGAAACCGATGCTTTC -ATACATATTGCCCGCCAGTACAGACATAAAAATCATCGCCAGTTGCTTAAAGAAGCAGAAACAGACCAGA -TAAATCGTCGCTGAAAAACGCACTTCAAACTGGCTGGTAATATATTTAAAGCAGCCCACCAGCAGGAACG -GTACTTCAAACATATGCAGCGTTTTCAGAATAACCACTTCCAGCGCTGAGGTGGCGAACGATGAGCCAAT -AATACGTACAGACATAATAGTGCCAGCCAGCAGCAGGGCGTTTTTCCCACCGATGCGATTAATGATCAGT -GGCGCAAAGAACATAATCGAGGCGTTAAGTAATTCGCCCATTGTCGTTACGTAGCCAAATACCCGCGTAC -CCTGTTCACCGGTAGCAAAGAACGAAGTAAAGAAATTAGCAAACTGTTGGTCAAAAACATCGTAGGTGCA -GGAAACGCCAATAACATACAGTGACAAAAACCACAGTTTTGGCTGTCTGAACAGTTCCAGTGCCAGCTTA -AGGCTAAATGCCGAATGGTTGGCACCTACCGCATTGGCAACCGTGGCAGAAGAGGGCGCATCCGTTTTGG -CGAAAAAGAGTAAAACGGCGAGGATGAGTGCACAGCCAGAGCCCAGCCAGAAAACAAACTGATTATTGAT -GGTGAACATGATGCCGACAATCGAGGCACACAGCGCCCAGCCAACACAGCCAAACATCCGCGCGCGACCA -AATTCGAAATTACTGCGACGGCTGACTTTCTCAATAAATGCCTCTACTGCTGGCGCACCGGCGTTAAAAC -AAAAGCCTAGATAAATACCACCAACAATCGATCCTACTAAAATGTTGTATTGTAACAGTGGCCCGAAGAT -AAAAATAAAGAACGGCGCAAACATCACTAACATGCCGGTAATAATCCACAGCAGGTATTTGCGCAGCCCG -AGTTTGTCAGAAAGCAGACCAAACAGCGGTTGGAATAATAGCGAGAACAGAGAAATAGCGGCAAAAATAA -TACCCGTATCACTTTTGCTGATATGGTTGATGTCATGTAGCCAAATCGGGAAAAACGGGAAGTAGGCTCC -CATGATAAAAAAGTAAAAGAAAAAGAATAAACCGAACATCCAAAAGTTTGTGTTTTTTAAATAGTACATA -ATGGATTTCCTTACGCGAAATACGGGCAGACATGGCCTGCCCGGTTATTATTATTTTTGACACCAGACCA -ACTGGTAATGGTAGCGACCGGCGCTCAGCTGGAATTCCGCCGATACTGACGGGCTCCAGGAGTCGTCGCC -ACCAATCCCCATATGGAAACCGTCGATATTCAGCCATGTGCCTTCTTCCGCGTGCAGCAGATGGCGATGG -CTGGTTTCCATCAGTTGCTGTTGACTGTAGCGGCTGATGTTGAACTGGAAGTCGCCGCGCCACTGGTGTG -GGCCATAATTCAATTCGCGCGTCCCGCAGCGCAGACCGTTTTCGCTCGGGAAGACGTACGGGGTATACAT -GTCTGACAATGGCAGATCCCAGCGGTCAAAACAGGCGGCAGTAAGGCGGTCGGGATAGTTTTCTTGCGGC -CCTAATCCGAGCCAGTTTACCCGCTCTGCTACCTGCGCCAGCTGGCAGTTCAGGCCAATCCGCGCCGGAT -GCGGTGTATCGCTCGCCACTTCAACATCAACGGTAATCGCCATTTGACCACTACCATCAATCCGGTAGGT -TTTCCGGCTGATAAATAAGGTTTTCCCCTGATGCTGCCACGCGTGAGCGGTCGTAATCAGCACCGCATCA -GCAAGTGTATCTGCCGTGCACTGCAACAACGCTGCTTCGGCCTGGTAATGGCCCGCCGCCTTCCAGCGTT -CGACCCAGGCGTTAGGGTCAATGCGGGTCGCTTCACTTACGCCAATGTCGTTATCCAGCGGTGCACGGGT -GAACTGATCGCGCAGCGGCGTCAGCAGTTGTTTTTTATCGCCAATCCACATCTGTGAAAGAAAGCCTGAC -TGGCGGTTAAATTGCCAACGCTTATTACCCAGCTCGATGCAAAAATCCATTTCGCTGGTGGTCAGATGCG -GGATGGCGTGGGACGCGGCGGGGAGCGTCACACTGAGGTTTTCCGCCAGACGCCACTGCTGCCAGGCGCT -GATGTGCCCGGCTTCTGACCATGCGGTCGCGTTCGGTTGCACTACGCGTACTGTGAGCCAGAGTTGCCCG -GCGCTCTCCGGCTGCGGTAGTTCAGGCAGTTCAATCAACTGTTTACCTTGTGGAGCGACATCCAGAGGCA -CTTCACCGCTTGCCAGCGGCTTACCATCCAGCGCCACCATCCAGTGCAGGAGCTCGTTATCGCTATGACG -GAACAGGTATTCGCTGGTCACTTCGATGGTTTGCCCGGATAAACGGAACTGGAAAAACTGCTGCTGGTGT -TTTGCTTCCGTCAGCGCTGGATGCGGCGTGCGGTCGGCAAAGACCAGACCGTTCATACAGAACTGGCGAT -CGTTCGGCGTATCGCCAAAATCACCGCCGTAAGCCGACCACGGGTTGCCGTTTTCATCATATTTAATCAG -CGACTGATCCACCCAGTCCCAGACGAAGCCGCCCTGTAAACGGGGATACTGACGAAACGCCTGCCAGTAT -TTAGCGAAACCGCCAAGACTGTTACCCATCGCGTGGGCGTATTCGCAAAGGATCAGCGGGCGCGTCTCTC -CAGGTAGCGAAAGCCATTTTTTGATGGACCATTTCGGCACAGCCGGGAAGGGCTGGTCTTCATCCACGCG -CGCGTACATCGGGCAAATAATATCGGTGGCCGTGGTGTCGGCTCCGCCGCCTTCATACTGCACCGGGCGG -GAAGGATCGACAGATTTGATCCAGCGATACAGCGCGTCGTGATTAGCGCCGTGGCCTGATTCATTCCCCA -GCGACCAGATGATCACACTCGGGTGATTACGATCGCGCTGCACCATTCGCGTTACGCGTTCGCTCATCGC -CGGTAGCCAGCGCGGATCATCGGTCAGACGATTCATTGGCACCATGCCGTGGGTTTCAATATTGGCTTCA -TCCACCACATACAGGCCGTAGCGGTCGCACAGCGTGTACCACAGCGGATGGTTCGGATAATGCGAACAGC -GCACGGCGTTAAAGTTGTTCTGCTTCATCAGCAGGATATCCTGCACCATCGTCTGCTCATCCATGACCTG -ACCATGCAGAGGATGATGCTCGTGACGGTTAACGCCTCGAATCAGCAACGGCTTGCCGTTCAGCAGCAGC -AGACCATTTTCAATCCGCACCTCGCGGAAACCGACATCGCAGGCTTCTGCTTCAATCAGCGTGCCGTCGG -CGGTGTGCAGTTCAACCACCGCACGATAGAGATTCGGGATTTCGGCGCTCCACAGTTTCGGGTTTTCGAC -GTTCAGACGTAGTGTGACGCGATCGGCATAACCACCACGCTCATCGATAATTTCACCGCCGAAAGGCGCG -GTGCCGCTGGCGACCTGCGTTTCACCCTGCCATAAAGAAACTGTTACCCGTAGGTAGTCACGCAACTCGC -CGCACATCTGAACTTCAGCCTCCAGTACAGCGCGGCTGAAATCATCATTAAAGCGAGTGGCAACATGGAA -ATCGCTGATTTGTGTAGTCGGTTTATGCAGCAACGAGACGTCACGGAAAATGCCGCTCATCCGCCACATA -TCCTGATCTTCCAGATAACTGCCGTCACTCCAGCGCAGCACCATCACCGCGAGGCGGTTTTCTCCGGCGC -GTAAAAATGCGCTCAGGTCAAATTCAGACGGCAAACGACTGTCCTGGCCGTAACCGACCCAGCGCCCGTT -GCACCACAGATGAAACGCCGAGTTAACGCCATCAAAAATAATTCGCGTCTGGCCTTCCTGTAGCCAGCTT -TCATCAACATTAAATGTGAGCGAGTAACAACCCGTCGGATTCTCCGTGGGAACAAACGGCGGATTGACCG -TAATGGGATAGGTCACGTTGGTGTAGATGGGCGCATCGTAACCGTGCATCTGCCAGTTTGAGGGGACGAC -GACAGTATCGGCCTCAGGAAGATCGCACTCCAGCCAGCTTTCCGGCACCGCTTCTGGTGCCGGAAACCAG -GCAAAGCGCCATTCGCCATTCAGGCTGCGCAACTGTTGGGAAGGGCGATCGGTGCGGGCCACGACGGCCA -GTGAATCCGTAATCATGGTCATAGCTGTTTCCTGTGTGAAATTGTTATCCGCTCACAATTCCACACAACA -TACGAGCCGGAAGCATAAAGTGTAAAGCCTGGGGTGCCTAATGAGTGAGCTAACTCACATTAATTGCGTT -GCGCTCACTGCCCGCTTTCCAGTCGGGAAACCTGTCGTGCCAGCTGCATTAATGAATCGGCCAACGCGCG -GGGAGAGGCGGTTTGCGTATTGGGCGCCAGGGTGGTTTTTCTTTTCACCAGTGAGACGGGCAACAGCTGA -TTGCCCTTCACCGCCTGGCCCTGAGAGAGTTGCAGCAAGCGGTCCACGCTGGTTTGCCCCAGCAGGCGAA -AATCCTGTTTGATGGTGGTTAACGGCGGGATATAACATGAGCTGTCTTCGGTATCGTCGTATCCCACTAC -CGAGATATCCGCACCAACGCGCAGCCCGGACTCGGTAATGGCGCGCATTGCGCCCAGCGCCATCTGATCG -TTGGCAACCAGCATCGCAGTGGGAACGATGCCCTCATTCAGCATTTGCATGGTTTGTTGAAAACCGGACA -TGGCACTCCAGTCGCCTTCCCGTTCCGCTATCGGCTGAATTTGATTGCGAGTGAGATATTTATGCCAGCC -AGCCAGACGCAGACGCGCCGAGACAGAACTTAATGGGCCCGCTAACAGCGCGATTTGCTGGTGACCCAAT -GCGACCAGATGCTCCACGCCCAGTCGCGTACCGTCTTCATGGGAGAAAATAATACTGTTGATGGGTGTCT -GGTCAGAGACATCAAGAAATAACGCCGGAACATTAGTGCAGGCAGCTTCCACAGCAATGGCATCCTGGTC -ATCCAGCGGATAGTTAATGATCAGCCCACTGACGCGTTGCGCGAGAAGATTGTGCACCGCCGCTTTACAG -GCTTCGACGCCGCTTCGTTCTACCATCGACACCACCACGCTGGCACCCAGTTGATCGGCGCGAGATTTAA -TCGCCGCGACAATTTGCGACGGCGCGTGCAGGGCCAGACTGGAGGTGGCAACGCCAATCAGCAACGACTG -TTTGCCCGCCAGTTGTTGTGCCACGCGGTTGGGAATGTAATTCAGCTCCGCCATCGCCGCTTCCACTTTT -TCCCGCGTTTTCGCAGAAACGTGGCTGGCCTGGTTCACCACGCGGGAAACGGTCTGATAAGAGACACCGG -CATACTCTGCGACATCGTATAACGTTACTGGTTTCACATTCACCACCCTGAATTGACTCTCTTCCGGGCG -CTATCATGCCATACCGCGAAAGGTTTTGCGCCATTCGATGGTGTCAACGTAAATGCATGCCGCTTCGCCT -TCCGGCCACCAGAATAGCCTGCGATTCAACCCCTTCTTCGATCTGTTTTGCTACCCGTTGTAGCGCCGGA -AGATGCTTTTCCGCTGCCTGTTCAATGGTCATTGCGCTCGCCATATACACCAGATTCAGACAGCCAATCA -CCCGTTGTTCACTGCGCAGCGGTACGGCGATAGAGGCGATCTTCTCCTCCTGATCCCAGCCGCGGTAGTT -CTGTCCGTAACCCTCTTTGCGCGCGCGCGCCAGAATGGCTTCCAGCTTTAACGGTTCCCGTGCCAGTTGA -TAGTCATCACCGGGGCGGGAGGCTAACATTTCGATTAATTCCTTGCGGTCTTGTTCCGGGCAAAAGGCCA -GCCAGGTCAGGCCCGAGGCGGTTTTCAGAAGCGGCAAACGTCGCCCGACCATTGCCCGGTGAAAGGATAA -GCGGCTGAAACGGTGAGTGGTTTCGCGTACCACCATTGCATCAACATCCAGCGTGGACACATCTGTCGGC -CATACCACTTCGCGCAACAGATCGCCCAGCAGTGGGGCCGCCAGTGCAGAAATCCACTGTTCGTCACGAA -ATCCTTCGCTTAATTGCCGCACTTTGATGGTCAGTCGAAAACTATCATCGGAGGGGCTACGGCGGACATA -TCCCTCTTCCTGCAGCGTCTCCAGCAGTCGCCGCACAGTGGTGCGATGCAGGCCGCTGAGTTCCGCCAGC -AGCCCGACGCTGGCACCGCCATCAAGTTTATTTAACATATTTAATAACATTAGACCGCGGGTTAAGCCGC -GCACGGTTTTGTATTCCGTCTGCTCATTGTTCTGCATATTAATTGACATTTCTATAGTTAAAACAACGTG -GTGCACCTGGTGCACATTCGGGCATGTTTTGATTGTAGCCGAAAACACCCTTCCTATACTGAGCGCACAA -TAAAAAATCATTTACATGTTTTTAACAAAATAAGTTGCGCTGTACTGTGCGCGCAACGACATTTTGTCCG -AGTCGTGAGGTACTGAAATGGCAATACAACACCCTGACATCCAGCCTGCTGTTAACCATAGCGTTCAGGT -GGCGATCGCTGGTGCCGGCCCGGTTGGGCTGATGATGGCGAACTATCTCGGCCAGATGGGCATTGACGTG -CTGGTGGTGGAGAAACTCGATAAGTTGATCGACTACCCGCGTGCGATTGGTATTGATGACGAGGCGCTGC -GCACCATGCAGTCGGTCGGCCTGGTCGATGATGTTCTGCCGCACACTACGCCGTGGCACGCGATGCGTTT -TCTCACCCCGAAAGGCCGCTGTTTTGCTGATATTCAGCCAATGACCGATGAATTTGGCTGGCCGCGCCGT -AACGCCTTTATTCAGCCGCAGGTCGATGCGGTGATGCTGGAAGGGGTGTCGCGTTTTCCGAATGTGCGCT -GCTTGTTTTCCCGCGAGCTGGAGGCCTTCAGTCAGCAAGATGACGAAGTGACCTTGCACCTGAAAACGGC -AGAAGGGCAGCGGGAAATAGTCAAAGCCCAGTGGCTGGTAGCCTGTGACGGTGGAGCAAGTTTTGTCCGT -CGCACTCTGAATGTGCCGTTTGAAGGTAAAACTGCGCCAAATCAGTGGATTGTGGTAGATATCGCCAACG -ATCCGTTAAGTACGCCGCATATCTATTTGTGTTGCGATCCGGTGCGCCCGTATGTTTCTGCCGCGCTGCC -TCATGCGGTACGTCGCTTTGAATTTATGGTGATGCCGGGAGAAACCGAAGAGCAGCTGCGTGAGCCGCAA -AATATGCGCAAGCTGTTAAGCAAAGTGCTGCCTAATCCGGACAATGTTGAATTGATTCGCCAGCGTGTCT -ACACCCACAACGCGCGACTGGCGCAACGTTTCCGTATTGATCGCGTACTGCTGGCGGGCGATGCCGCGCA -CATCATGCCGGTATGGCAGGGGCAGGGCTATAACAGTGGTATGCGCGACGCCTTTAACCTCGCATGGAAA -CTGGCGTTGGTTATCCAGGGGAAAGCCCGCGATGCGCTGCTCGATACCTATCAACAAGAACGTCGCGATC -ACGCCAAAGCGATGATTGACCTGTCCGTGACGGCGGGCAACGTGCTGGCTCCGCCGAAACGCTGGCAGGG -TACGTTACGTGACGGCGTTTCCTGGCTGTTGAATTATCTGCCGCCAGTAAAACGCTACTTCCTCGAAATG -CGCTTCAAGCCGATGCCGCAATATTACGGCGGTGCGCTGATGCGTGAGGGCGAAGCGAAGCACTCTCCGG -TCGGCAAGATGTTTATTCAGCCGAAAGTCACGCTGGAAAACGGCGACGTGACGCTGCTCGATAACGCGAT -CGGCGCGAACTTCGCGGTAATTGGCTGGGGATGCAATCCACTGTGGGGGATGAGCGACGAGCAAATCCAG -CAGTGGCGCGCGTTGGGCACACGCTTCATTCAGGTGGTGCCGGAAGTGCAAATTCATACCGCACAGGATA -ACCACGACGGCGTACTACGCGTGGGCGATACGCAAGGTCGCCTGCGTAGCTGGTTCGCGCAACACAATGC -TTCGCTGGTGGTGATGCGCCCGGATCGCTTTGTTGCCGCCACCGCCATTCCGCAAACCCTGGGCAAGACC -CTGAATAAACTGGCGTCGGTGATGACGCTGACCCGCCCTGATGCCGACGTTTCTGTCGAAAAGGTAGCCT -GATATGCACGCTTATCTTCACTGTCTTTCCCACTCGCCGCTGGTGGGGTATGTCGACCCGGCGCAAGAGG -TGCTCGATGAGGTCAATGGCGTGATTGCCAGCGCCCGCGAGCGTATTGCGGCATTCTCCCCTGAACTGGT -GGTGCTGTTTGCGCCAGATCACTACAACGGCTTTTTCTATGACGTGATGCCACCGTTCTGTTTAGGCGTT -GGAGCGACGGCAATTGGTGATTTCGGCAGTGCGGCAGGAGAGCTGCCCGTGCCTGTGGAGCTGGCGGAGG -CCTGTGCGCATGCCGTCATGAAGAGCGGGATCGATCTTGCCGTTTCTTACTGTATGCAGGTGGACCACGG -GTTCGCCCAGCCGCTGGAGTTCCTGCTCGGTGGGCTGGATAAGGTGCCAGTTCTGCCTGTGTTCATCAAC -GGTGTCGCCACGCCGCTGCCCGGTTTCCAGCGTACCCGCATGTTGGGTGAAGCCATTGGACGTTTCACCA -GCACTCTCAATAAACGCGTGCTGTTCCTGGGTTCCGGTGGGCTTTCCCATCAGCCGCCGGTGCCCGAACT -GGCGAAAGCCGATGCCCATATGCGCGACCGTCTGTTGGGGAGCGGGAAAGATTTACCCGCCAGTGAGCGC -GAATTGCGTCAGCAACGGGTGATTAGCGCCGCTGAGAAGTTTGTTGAGGATCAGAGAACGCTGCATCCGC -TCAACCCGATTTGGGATAACCAGTTCATGACTTTGCTGGAGCAGGGACGCATACAGGAACTGGATGCCGT -CAGTAACGAAGAGCTTTCCGCCATTGCCGGAAAGTCGACACATGAAATCAAAACCTGGGTCGCCGCTTTT -GCCGCTATTTCTGCGTTTGGCAACTGGCGTAGCGAAGGGCGTTATTACCGCCCAATCCCGGAGTGGATTG -CCGGATTTGGCTCGTTAAGCGCCAGAACAGAGAACTGAATATGCAGGAGAAGATGATGAGTTATCAGCCA -CAAACCGAAGCCGCCACCAGCCGTTTTCTGAATGTAGAAGAAGCGGGTAAAACGCTGCGCATCCATTTTA -ATGACTGCGGACAAGGCGACGAAACCGTTGTCCTGCTGCATGGTTCCGGCCCGGGTGCTACTGGCTGGGC -GAACTTCAGCCGCAATATCGATCCGCTGGTAGAGGCGGGCTATCGGGTGATCCTGCTGGATTGTCCGGGT -TGGGGCAAGAGCGATTCGGTCGTTAATAGTGGTTCGCGATCGGATCTTAATGCACGAATCCTGAAAAGCG -TGGTGGATCAACTGGATATCGCCAAAATCCACCTGCTGGGCAACTCGATGGGGGGCCATAGTTCTGTGGC -GTTCACCCTTAAATGGCCGGAGCGCGTCGGCAAACTGGTGCTGATGGGCGGCGGTACGGGCGGCATGAGT -TTGTTTACGCCGATGCCAACCGAAGGTATTAAGCGACTGAATCAGCTTTATCGTCAGCCGACTATCGAAA -ACCTGAAGCTGATGATGGATATCTTCGTTTTTGATACCAGCGATTTGACCGACGCCCTGTTTGAAGCGCG -CCTGAATAATATGCTGTCGCGCCGCGATCACCTGGAAAACTTCGTTAAGAGCCTGGAAGCTAATCCGAAA -CAGTTCCCGGATTTTGGCCCACGTCTGGCGGAAATCAAAGCGCAAACCCTGATTGTCTGGGGGCGCAACG -ACCGCTTTGTGCCGATGGATGCGGGTCTGCGTCTGCTGTCCGGCATTGCCGGTTCTGAACTGCATATCTT -CCGCGACTGTGGTCACTGGGCGCAGTGGGAACATGCCGACGCTTTCAATCAACTGGTGCTGAATTTCCTC -GCACGCCCTTAAGGAATGGTCATGACGAAGCATACTCTTGAGCAACTGGCGGCGGATTTACGCCGCGCCG -CAGAGCAGGGCGAAGCGATTGCACCGCTGCGCGATCTGATTGGTATCGATAACGCTGAAGCGGCTTACGC -CATTCAGCACATAAATGTGCAACATGACGTTGCGCAGGGGCGTCGCGTGGTAGGGCGTAAAGTGGGCCTG -ACACATCCGAAAGTGCAACAACAACTGGGCGTTGATGGGGTTTGAGGGCCAATGGAACGAAAACGTACGT -TTATGGTATAACTTATTGATTATAATACAGTATACAAAGGTCCCTTTTCAGGGACCCTTTCGTATGTTGT -AGCTGATTTTATTTTCTTCTTTTCTTTTGGGTGCTTTTAATAGCCATATATGATGTTTCATATAAAGTTA -AAAGTTTCCCCATCTGTCTATCTATAGCGTCATGTTTTTCAGGATTTCTTAATTTCTGCAGCAGTTTAGA -TATATATTTCGCAGGTAACTTTATTATTAATGAATTATGGGATTGATACATTTCCTTTGTCCAATCTAAA -TCTTTTCCTGATTTCAATACCTCACTCTCATCTCTATTAATTATAAAACCGAGCTTTCCATACGGACCTG -TTAAATATGATTGTAATTGTCTATACTCAGATGGACCTAATTCTTCAAAATTTTTAGCATCAAAAACAAC -TTGTCTTGTTTTATAGTCCTCCAATACTCGTTTCCAAAAATCAGATTTGCCACCATTGGTGCCTATAATA -TCTCGTCTCTGAACTGCGTTACCATTTGGATGGGACTTGATGTCTGTTAGGTGGGATGCAAATACTATTC -TTAGTGCGTCTAAACACCATTGTTCAAATTCAGTGGCACCTTCATTTCCTATCGGTATCTGATCTAGATG -AGTAGTTATTTGACCTATTGTTTTATTTCTAATGGCTGAATTATCTGAAATAATATTAATATCATATTCG -TCATTTATCTCCTCTGCTTCCTCTGGAGCAAGTGCATTACGATTTAGATTCAAACCAAGCCAGTAACATG -GATGAATTAATAATTTCTCATTACTTTCAAAACCTTTATCTGGAGTTCGCCCGTCATGGCAAAATGAATA -GGATGAGGTGTTTTTATCACGAATACCAACAAATCCTACACTATACAAACTTTGGAGAATTCCACTTGCC -TTTAACAACTGTATTTCAGACGTTATTTTAGGATCTCCATTTTCTTCGATTAATTCGAAAGATGCTTCTA -TTTTTTTTAAGCACGTATAAACTGTTAATTCAGGTTCAATGCTACGAAATGCACTAGTTATAACCTGTAT -TGAAGGAAAGATCTTCTGATACTCTTTCCAGAGATCTTCAAGTCTGGCCATGGAAATTGACTTGGCTGCA -TATTCTAGGTCAGTGTTTATGATAGTTTCTCTATTCTCTCTGAATGCGGAAAAAAAAGCTTCATTCAACA -ATGATAGTAAATCCCTGGGCCGGTAAAGGGTAAATTGCAAACATCGCTTAAAACCATTCCTCCCTTTAAG -ATCATCCGCTGTGCATCTATCCCAAACTCGTTGATCTTTCTCAATATCTAGCTTAAATGCTACTTTCATT -CTTTTAGCTGACAGCATTAGGAGTTGTGCCCAGTCCCAATGCAACCTTATGACTTGACCCTCTATATTTC -TCGAGTAATCAGGATCTTCCTTTGATAGCGACCTAAATATATTATCCCTTAAAAAAATTATTGGACGAAT -GCATTTTGCTTTTTGATTTAATTCAATAGATGCATATGCTAGACCTGCAATGATTCCAATTCCTATATTA -TCCGGTTCATACGCCTCATCTAGCTTATCCATTAATATGACAACTTTCCTGTCTGAGCGTTCAAGAAGTG -ATACTATATTATTTTCTATTTCTGAGATATTCAAATTGAATTGAAGATCACCAATTGATTCTTCTGGGTT -ATTTTCATCTAAATACTCCTTTGCGACAAGCCTACACTTTCTTAAAATGTCACCTTGTGCAGAATTCCAT -TTTTTCAAATGTTCATTCAACAATGTTTCTGATGATATTTGAGATGACAATTTGTAATGAGATGATATAT -ATGATGCTATCTCCATTAGCATAGCGTATCGCCATAATAGTCTTGTTGCTGCCCTTGCTAAATTAAATGA -TCCTGTAAATGGTTTCAACATTGATCTGAAACCAATAATTTGAGAATCGTCTGGTGAGAAACTCAGGATT -AATATTTTTTTGTCTTTCTTCCAATGCTCATTTAGCTGAATAAATAAAGCACTTTTACCTGTCCCTCGTC -TACCAACAACAATGGTCCTGTCATCAGTTTCAATTAGAGTCCTAAAGTCAGCAGTTTCAATGAAAGCATT -ACTCAACATCTTTTTATCATTTTCTGCTGTCGTATCACCAAACGGATTAGACTTTGAAGTAATATTCAAT -TCCATATTCAACCTTTTATGTTAGTTGCTTTCATTTATTACTTTATATACTGTTGAACGAGCAATATTCA -TTGTTTTTGATATATGTGAGGCACCTAACCCCTGTTGCCACATATTTAATACTGCATCTCTATCTATTTT -TCTTTTTCTACCAAAAACAACTCCTTTTGCCATTGCCTCTTGGCGACCTTCATTGGTACGCTCTAGTATT -CTCTGTCGTTCTGCCTGGGCCACTGCAGATAGAATAGTGACAACCATTTTACCCATCTCCCCATCGGTAC -TGATTCCGTCATCAATAAACCGAATGGATACACCTTGGGCGTCAAACTCTTTTATTAACTGGATCATGTC -AGCAGTATCGCGCCCAAGGCGGTCAAGTTTCTTCACCAAGATGACGTCACCTTCCTCCACCTTCATCCTC -AGCAAGTCCAGCCCTTTCCGATCGCTTGAACTGCCCGATGCCTTGTCAGTAAAGATGCGATTTGCTTTCA -CGCCTGCGTCTTTGAGTGCCCGAACCTGAATATCGAGAGATTGCTGGCTGGTTGATACCCGTGCGTAACC -AAAAAGTCGCATAAAAATGTATCCTAAATCAAATATCGGACAAGCAGTGTCTGTTATAACAAAAAATCGA -TTTAATAGACACATTAACAGCACTGTTTTTATGTGTGCGATAATTTATAATATTTCGGACGGTTGCAAAA -TTGTTAATGAATAACTGTCAGGTAGGGAGCCTGATATGCCTGTCGACTTTCTAACCTCTGACCAAAAACA -GAATTACGGTTGTTATGCTGCAGAACCTAATGACGTGCAACTGGCGCGCTATTTTCATCTTGATGAACGG -GATCTGGCCTTCATTAACCAACGACGGGGCAAACATAATAGGCTGGGCATTGCGCTTCAGCTCACCACAG -CCCGTTTTCTGGGAACATTTCTGACGGATTTAACTCAGGTTCTGCCTGGTGTTCAACATTTTGTCGCGGT -ACAGCTTAATATCCACCGTCCAGAAGTTCTCTCCCGCTATGCTGAACGGGACACTACCCTTAGAGAACAT -ACTGCATTAATTAAGGAATATTACGGCTATCATGAATTTGGTGATTTTCCATGGTCTTTCCGCCTGAAGC -GTCTGCTATATACCCGGGCGTGGCTCAGTAATGAGCGACCGGGTCTGATGTTTGATTTTGCCACTGCATG -GTTGCTTCAAAATAAGGTATTACTGCCCGGAGCAACCACACTAGTACGTCTCATCAGTGAAATTCGTGAA -AGGGCAAATCAGCGGCTGTGGAAAAAGCTGGCCGCACTGCCGAACAAATGGCAGGCAGCTCAAGTGATGG -AGCTTCTGGTCATTCCGGAAGGTCAGCGTGTATCAGCACTGGAACAGTTGAAAAAAGGCCCTGTTACAGT -CAGTGGACCTGCGTTTAATGAAGCGCTGGAACGATATATCCGATTACGAAGTCTTGAGTTTTCCCGACTG -AACTTTTCCGGTCTGCCTGCCATTCAACTGCGTAATCTGGCTCGTTATGCTGGCATGGCGTCGGTAAAAT -ATATCGCTCGAATGCCACAGCAGAGAAAGCTTGCTGTACTTACTGCATTCGTTAAAGCACAGGAAATAAC -GGCATTAGACGATGCCGTTGATGTGCTTGATATGCTAATTCTGGACATTATCCGCGAAGCAAAGAAAACC -GGGCAAAAAAAAAGACTCAGGACACTGAAAGATCTTGATCAGGCCGCATTGTTACTGGCGCGGGCATGTG -CATTGTTGCTGGATGATAATACAGATGTCCCAGATCTCAGGCAGGTTATCTTCAAGTGCGTACCCAAAAA -CAGACTGGCAGAATCTGTAAGCAAGGTTAATGAACTTGCTCGTCCACAGAACAATAATTTCCATGACGAA -ATGGTTGAGCAGTACGGTCGGGTTAAACGTTTTCTTCCGGCGGTGTTGCGGGACCTGCATTTCCGTGCGG -CACCGGCAGGTGAACATGTACTGGCTGCGATTCATTATCTGGCAGAACTGAATGGTTCGAAAAAGCGCAT -CCTTGATGATGCGCCTGAACATATTATCACCGGTCCCTGGAAACGCCTCGTATACGATGCGGAGGGACGG -ATACAGCGTGCAGGTTATTCACTATGTTTGCTGGAACGCCTTCAGGATGCACTGCGCCGCCGGGACATCT -GGCTTGAAAACAGTGATCGCTGGGGAGATCCTCGCGAGAAGTTGTTGCAAGGTGAAGAGTGGCAGACTCA -GCGTATTCCTGTCTGTCGGGCACTGGGACATCCTGTCGATGGACGTAAAGGTGTGCAACAACTGGCTATT -CAGCTGGATGAGACCTGGAAAGCCGTGGCATCACGATTTGAAAAGAATGCGGAAGTTCATATCTGTAATG -AAGGTAAATATCCATCCCTGACTATCAGTTGTCTGGAGAAACAGGAAGAGCCACCATCATTGCTTCGTCT -AAATAATCGGATCAAACAGCTACTCCCACCGGTAGATTTAACGGAACTGTTACTTGAGATAGATGCCCAG -ACAGGATTTACACATGAGTTTGCGCATGTCAGTGAATCTGGTGCTCGAGCGCAAGATTTGCACATCAGTT -TATGTGCGGTATTGATGGCTGAAGCCTGTAATATCGGACTGGAACCGCTGATAAAGCACAATATACCAGC -ACTGACCCGCCATCGGCTCAGTTGGGTGAAACAGAATTACCTTCGTGCAGAAACGCTGGTCAGCGCCAAT -GCCCGCCTGGTTGATTTTCAGTCCACACTGGAGCTTGCTGGTCGTTGGGGAGGTGGAGAAGTGGCATCAG -CTGACGGCATGCGCTTTGTCACACCAGTGAAGACCATCAACTCAGGATCTAACAGAAAATATTTTGGTTC -TGGACGAGGCATCACCTGGTATAACTTCGTATCTGATCAGTACTCTGGGTTCCATGGCATTGTGGTACCC -GGTACATTACGGGATTCGATTTTTGTACTGGAAGGACTTCTTGAGCAGCAGACAGGGCTGAATCCAGTTG -AAATCATGACAGACACTGCGGGTAGCAGCGATATTATTTTCGGTCTGTTCTGGCTACTGGGGTATCAGTT -TTCCCCCCGGCTTGCCGATGCAGGTGAGGCGGTGTTCTGGCGGGTGAATAAATCGGCAAACTACGGAGTA -CTGGATAAGTTGGCCCGAGGATATGCAGATCTGTCAAAAGCGGAGAGTCAGTGGGATGAGATGATGCGAA -CCGCTGGTTCGCTGAAGTTGGGTACAATTCATGCGTCAGAACTCATTCGCTCTTTACTGAAAAGCTCGCG -CCCATCAGGACTGGCACAGGCAATTATGGAAGTAGGGCGTGTAAACAAAACGCTATATCTCCTCAATTAT -ATTGATGATGAAGATTATCGTCGGCGGATCCTGACGCAGCTTAATCGAGGAGAAGGCCGCCACGCTGTGG -CTCGTGCGATTTGTTACGGACAACGCGGAGAGATCAGAAAGCGTTATCGTGAAGGGCAGGAAGATCAACT -GGGGGCGCTGGGCCTGGTTACTAATGCAGTGGTTCTGTGGAACACGCTCTATATGGAGGAAGCGTTGAGC -TGGATGCGCCGTAATGGCGAAGAAATTATAGATGAAGATATCGCTCGGCTATCTCCCCTGATGCACGGGC -ATATCAATATGTTGGGCCATTATACATTCACGTTGCCAGAGGATATTTTAAAAGGGGAACTGAGAGCTCT -AAATTTAAATATAAACAACGAATTATCTCCTTAACGTACGTTTTCGTTCCATTGGCCCTCAAACCCCTTT -TACAAGTTTGTTGAATCCCCCGCGGATAAGCGGACCAAAAATTGAGGTCATAGATGTGGCAAAAACGGTA -ATGCCGGAAATAATGACCGAAATAGTGAACAATCGTGCTGATTCAGAAACAGGGACAATATCGCCATAGC -CGACGGTTGACATGGTTTCTATCGAAAAATAGAACGCGGTCATCAAACTTTCTATTCGCGGATTAAAACC -TTCGCTTAAATAAAGCGCACCGTAGGTTGAGTAAAACAGTAATGTCGTGAAACTAATAAATGCAAAAATT -GTCCCGGCTGCGGCGCTACTGTGGGAGAAGTCTTTGCGCAGTATCAGCAAAAACACCAGCGTAAAAATGC -AAAATCCAATACTAAATTTCAGCCAGGGATAAAAATGCAGGGTGTAAATTAGCGCTATCAACAACAAAAT -GATACTGATTGCCCATGCGAGCTTTGCCCGGAACAGTAAGCCAATGGAGTTCAGGACAAGAAAGACGCCG -AGCATAAAGAGTGGGGCGTTTGCCAGCAAGGAGAGATCCAACTCTGAAAATGCTTTGATATGGAAAATAT -CAAGCAAATTGACCGACATACCATAGATTGTTTTAAAAATAAGCAATCCATTTAAAAAGACGGCCAGCGC -GAGAATGTCGTGCCGAAGGGTCACCCATAAATTTGTTGCTGTTTGTTTGAATGTAGCCCAGTGACTCACT -GATACCTCTGTAACCACAATTTTGTTTAATTATCTTAGCGTGCACATTTTCTGAACATACATGCAGCGCG -TGAATGTGTTAAACAATAGTAGATGACTTTATCCGCAGTAATCAAAGGATTTGAGCGAGCAACTGTACCT -CAGGAAAGGTCATTTTTCCTGAATATGCTCACATCATATAAAGAAATACAGATAAAGTTATTATCTGCTT -GTGGTGGTGAATGCACTGACCGGCTATAAGGAAAGGCCAAACAAGAACACGGTTGCAAAAACCGTGCCCT -TAAATATTGAATCTCTATTCAGAACACTTTCTTAAATGGTTTCACTGAAACGTGTTCATAGACTCCTGCC -GCTACGTACGGGTCAGCATCGGCCCAGGCCTGAGCTGCTTCCAGCGATTCAAATTCAGCAATAACGGTTG -AGCCAGTAAATCCCGCAGCCCCTGGATCGTTACTGTCTACCGCTGGCATTGGACCAGCTGTCAACAAACG -ACCTTCATCGTGCAGTAACTGTAAACGTGCTAAATGTGCCGGACGAACGGAAAGGCGTTTTTCGAGGCTA -TCAGCTTTGTCTTGAGCGTAAATAACATACAACACGGGCACAACTCCTTGTTCGGGAAAGTTGTAAAGTA -CGTTATTTGAAAGGGCGAAGATCTGCAACGGAAAGATGATGTCTTTGTTAAGGCCATGCATAAAGTAAGG -GTAATTACGCCAAAAATGACATTTTCACTGATCCTGATCGTCTTGCCTTATTGAATATGATTGCTATTTG -CATTTAAAATCGAGACCTGGTTTTTCTACTGAAATGATTATGACTTCAATGACCCTTGATTTACCTCGCC -GCTTCCCCTGGCCGACGTTACTTTCGGTCTGCATTCATGGTGCTGTTGTGGCGGGTCTGCTCTATACCTC -GGTACATCAGGTTATTGAACTACCTGCGCCTGCGCAGCCGATTTCTGTCACGATGGTTACGCCTGCTGAT -CTCGAACCGCCACAAGCCGTTCAGCCGCCACCGGAGCCGGTGGTAGAGCCAGAACCGGAACCTGAGCCGA -TCCCCGAACCGCCAAAAGAAGCACCGGTGGTCATTGAAAAGCCGAAGCCGAAACCTAAGCCAAAACCGAA -GCCGGTGAAAAAGGTACAGGAGCAGCCAAAACGCGATGTCAAACCCGTAGAGTCGCGTCCGGCATCACCG -TTTGAAAATACGGCACCGGCACGCCTGACATCAAGTACAGCAACGGCTGCAACCAGCAAGCCGGTTACCA -GTGTGGCTTCAGGACCACGCGCATTAAGCCGTAATCAGCCGCAGTATCCGGCACGAGCACAGGCATTGCG -CATTGAAGGGCAGGTTAAAGTTAAATTTGACGTTACGCCGGATGGTCGCGTGGATAACGTACAAATCCTC -TCAGCCAAGCCTGCGAACATGTTTGAGCGTGAGGTGAAAAATGCGATGCGCAGATGGCGTTATGAGCCGG -GTAAGCCAGGCAGTGGGATTGTGGTGAATATCCTGTTTAAAATTAACGGCACCACCGAAATTCAGTAAGC -AGAAAGTCAAAAGCCTCCGACCGGAGGCTTTTGACTATTACTCAACAGGTAAGGCGCGAGGTTTTCCTTC -AGGATCAACCGCGACATACTTAAATAATGCTTCTGTCGCTTTATAGCGTTGCCCAATTGGTTCAGACGCT -ACTTTTTTCACCCACACTTCAATATTAATGCTGACCGATGTCGTCCCTTTCTGGACACAGCGTGCATAGC -AGCACACCACATCGCCGACCGCAACCGGCCGTAAGAAAGTCATTCCTTCAACCCGCACAGTCACTACGCG -ACCGTGGGCAATTTCTTTTGCCAGAATAGCGCCGCCAATATCCATTTGTGACATTAACCAACCACCAAAG -ATGTCACCATTGGCATTGGTATCGGCGGGCATGGCTAAAGTACGTAAAACAAGATCGCCCTGAGGGACGT -TATGTGTTGTAGACATGGTAAAACCGACTTAAAAGGAAAATCACAGGCGCGATGCTACTATGATTTTCCT -GAGGAGAACAGAGGAGATACAGCGCCAGCCCCGAAGGACTGGCAGTCTGGTTAGGATTTATCTTCCTGCG -GCATGTGGCGGTAGATATAGATACCGCTTAACAATGTGAAGATTAAGGTAAGGGCGGTCAGGCCAAAGAC -TTTAAAGTTGACCCAAATATTTTGCGGCAGCCAGAATGCGATGTAGATGTTTGCCAGACCGCAAAGGATA -AAGAAAACAGCCCAGGCCAGATTCAGCTTCGACCATACCGGTTGCGGCAGCGTGAGTTCTTTACCCAGCA -TCCGCTGAATTAGCGGCTTTTTCATCACCCATTGGCTGACTAACAGGGCTCCCGCAAATAGAGCATAAAT -GACAGTAACCTTCCATTTAATAAACTCATCATTGTGGAAGAACAGCGTCAAGCCACCGAAGACGACCACC -AGAACAAAAGTGATCAGGGCCATCTTCTCAACCTTACGAAAGCGAACCCAGCTATAGATAAGCACAATCG -CCGTGGCGACGATCAGCGCCGCAGTAGCCGCATAGATGTCATAAATCTTGTAAAACGCGAAAAAGACAAC -CAGCGGTAAAAAATCAAGAAACTGCTTCATTTTACGATTCCGTAATCAAATGCTTAAGGTTATTGGCGAA -TCAACATATACAGGCGGAACAGATAGATGAGCAATATGGCTGAAATCAGGTTGCTCAAGGTGTTCGCCAG -TACGGCACCAATTTCCGGGGTTAATGCGGCAAAAGAAGAGGCAAAAAGCAGCAACAGTGTTTTTGCCAGC -AACCAGCTCAGTACTGCGGGTGCCACCAGACGCATATTCGCCCAAGTCAGCCGCATACTGCTACGCATCG -AGGCAAAAACGCCCATTTTGTCCTGTACCAACATCACCGGTGCCAGGGCCAGTAAAATGGCCATGATAAT -TCCCGGAACGACCACCAGCATGATGCCAATCTGTACTAAAAGGGTAGTCAGAAAAATCAGAATAAATAAC -TTTGGCAATATCGGCGCACTGGCACCAATAGCTCGCAGCGCACTGACTCTCTGACCCGCAGACACCAGCT -GGATAATTAATATTACGCCTCCGGCGAGAATGGCGTTACCGATTAATCCTGAAAAAGTGGACGCCGCTGA -AGCCTGCAGCAAAATTTGTTGCTGTTCCGGTGACATATTCTGAACCAGGTCGAACAACCCACTACTGCCG -CTAACGGGCACGCCGTCATTGAGCTGCGCAAGCTGTGCATCACTGGGTGAGAAAACATGCCCTAACACCA -CTGTGATAAACGCACATAGCAACGATACCAACAGAATGGTCATAAATTGATTACGGAAGAAATTTCCGGT -GTCACGGTATACGGACTGCGCCGTGATAGACATGCACTCTCCTTGAGTTTTATGCAGGTGTTAATTAGCG -GGCAATTGTACCCTGGTTAAGCCTCGGGTGGCAGCATCAGGTCTTGTATGGAAAAGCATATCTTTGTAAA -GCGGAGGTAATTGCTGGCCTTCAGGCATGGGCAAATCGCGGCAAGTGGCGACCGAGTTAATATTTGCGTA -GCGAAAATATTTAAAAATTGATTTAAATCACATTAACCAGGATTCTCAATGCAACTTCTAAATTAATCCA -GATCAATAAAGGGTGAATTATCATATGTAATGTGATCTATGTAGGATCATTTGTTACTCCAATGTAGGTA -TATTCGTCACGTTTTTATAACCATAACGACGGAGCGGATATGAAAAAGTTAACAGTGGCGGCTTTGGCAG -TAACAACTCTTCTCTCTGGCAGTGCCTTTGCGCATGAAGCAGGCGAATTTTTTATGCGTGCAGGTTCTGC -AACCGTACGTCCAACAGAAGGTGCTGGTGGTACGTTAGGAAGTCTGGGTGGATTCAGCGTGACCAATAAC -ACGCAACTGGGCCTTACGTTTACTTATATGGCGACCGACAACATTGGTGTGGAATTACTGGCAGCGACGC -CGTTCCGCCATAAAATCGGCACCCGGGCGACCGGCGATATTGCAACCGTTCATCATCTGCCACCAACACT -GATGGCGCAGTGGTATTTTGGTGATGCCAGCAGCAAATTCCGTCCTTACGTTGGGGCAGGTATTAACTAC -ACCACCTTCTTTGATAATGGATTTAACGATCATGGCAAAGAGGCAGGGCTTTCCGATCTCAGTCTGAAAG -ATTCCTGGGGAGCTGCCGGGCAGGTGGGGGTTGATTATCTGATTAACCGTGACTGGTTGGTTAACATGTC -AGTGTGGTACATGGATATCGATACCACCGCCAATTATAAGCTGGGCGGTGCACAGCAACACGATAGCGTA -CGCCTCGATCCGTGGGTGTTTATGTTCTCAGCAGGATATCGTTTTTAATTCCGCACAAAAACGACCCCGT -AATATACGGGGTCAATAAGGACATGGTATAAAGGGTATTATTTCTTCGCTTCTACGCCATCAGTTTCAGA -GCGAATTAAAAATTTCTCAGTTGTTTGCGGAATATTCTGAATCAGCCAGTCGGCCATTTGCTTTTCCTCA -TTTAAAATCGCTTCGATGGTTGGAATTGAAGCTGTATCACCGGCATTTTTTGCTGCTGCTAATAGTGAGG -TGTAACAGGCGATTTCAAATTGCTCGAAGACATATCCGCTAATAGAGCCTTTGACTATTTCATCAGAAGG -GAATATACCACCGATTGACTGCCCAAGCGCAGCCATTTTACTCATGGAATCTTTAATGACTGAACGTGAA -ATGTCATTACGATCAAGAATAGTTTCCAGTTGAACAATCTGGTTTTTGGTTTCACTAAGATGTTGTTCAA -TACGAGCGCGTAGTTCAGGATAATTATCTATACGGCTGGCCATGGATTCAAGCATAGATTCGGCTTGCTT -TTCCATTGCGTGGGCGTCACGTAACCAGTCATGATAATGTTCAATACGATTCATGAAAATGTCCTCTTTA -TAAAATGACTAAAAGTTAAAATTCATATTTCAGGCTTTATTTTCGGCTTTCTTATTTACGTTATTAATGG -CCAGATCAGTCAGTTTGATGTCGGTGGCCTTTTCTTCTTCCAGGGTTTCTTTCAGAAGCTTCGCTGCTTT -ACGGTAACCTAATTGTTCAGCCAGCGTCGCTAATGTCCCGTAACTGGCAATCTCATAATGCTCGACTTTC -TGTGCTGCGGCAATCAGTGCGGCATCACGCACTTCGTTTTTCTCGGTACTTTCGATGACCTCATTAGCTT -CTTCAATAAGACCTTCCATTGCCACACATTTCATGCGCTTAATTTTCAGGTTCGATTCGGACTCCACAAC -TTGATCAATACGTTCAATCTGTCCATGAGTTTCCTCGAGGTGCGCATGAAAAGCCTGACTTAATTTTTCA -TTTGATGTTGCTCTTGCGAGTTTTGCCAGTGCCCGGGTTAATTGTTTTTCTGCGCTGTAGGTATCTGAAA -GCAGGTGAATAAATACATCTTCAATGGTCTTCATATTCATATTTTTCTCCAGTGAAATCACTGCGAGCCA -TACGGCCCGCAGATGCAATTATCTTTATCAGCTGATATTAATAATTAACGGTGAATCAGGATTTGCCTGA -TTTATTACCACCGCTTTGTTGACCGCCTTTTTTACCCGCTTCAGATGCGCGTTGCGGATCATTTTTAAAA -TTACCGCCGCTATGCTGACCGCCTTTACGGCCTGCGTCGGATGCCTTCTCACGGTCTTCGGCGAAATTTC -CTGAACCACCACGATGTTCGGCCATGTTATTTCTCCCGTTGCGTTGCATTGTTTCATTAATATGAGTGTT -GTGTGTCGACACTCATTAAAATTAGTCGCTAATGAGAATTAGTCAAATTAAGCGCAACGAGAAGATAGAG -GGAAAATATATTTTGAGGAACATTCTGGATATATTAACAATTACCTGAGGAATAAGTGACTTAGAGAAAA -TTATTGATTTTACTGGTGTTATGTTGCGGGATTAATTTGTTTGATTATATTACTGTTGGGCGGAAAAATG -ACGTAAGTTGACGTTCGACCGGGGTAAGCGAAACGGTAAAAAGATAAATATTAAATGAATTTAGGATTTT -TCCGGCTTCATTAAAGAAAGTTAAAATGCCGCCAGCGGAACTGGCGGCTGTGGGATTAACTGCGCGTCGC -CGCTTTCATCGGTTGTACAAAAACTTTCAGTGCCGCCAGCATTTTCTCTGGCTCATTAATATGTTGCTCG -ATGATTTTAACAATGGCCGAACCAGAAATCGCGCCCGCAGCTCCTGCATCAATCGCTGCTTTTACCTGAT -CCGGGGCGGAAATACCAAATCCCTGCAATGGAGGTGCAGCGTTGTACTCTTTCAGCTTCGCAACCAGATG -ATTGAGGGGTAACGCGGCGCGGTTTTCTGCGCCGGTCACGCCTGCTCGTGACAGCAAATAGGTGTAACCA -CGACCGTAAGAGGCTATCTGGCGCAGCAGGTCGTCATCGGCATTTGGCGGGCAGATGAAGATAGGTGCGA -CATTATGACGCAACGCGGCCTGGCGGAAGGGCGCGGACTCTTCAACTGGCACATCGGCAACCAGCACCGA -ATCGACGCCGACTTTTTCGCACTGGGCATAAAACTCATCAATGCCTTTGTTAAACACCAGATTGGCATAC -ATCAACAGGCCAATGGGAATGGTCGGGTGTTTCTGGCGAATCAGTGCCAGCATTTCAAAACATTGTGCCG -GAGTCACACCTGCCGCAAAGGCGCGCAGAGTGGCGTTTTGAATCGTCGGGCCATCCGCCAGTGGGTCGGA -GAAGGGGATACCTAACTCCAGCGCGTCAGCACCGGCTTCAATTAGCGTATCGATAATTTTCAATGACTGC -TCAATGCCCGGATCACCGAGCGTGACGAAAGGAACGAATGCGCCTTCTTTGCGCTCCTTCAACTGGGCAA -ACAGAGATTCGTAGCGTTCCATCAGATTTCCCCTCGTGCTTTCAAAATATCGTGAACGGTGAAGATGTCT -TTATCGCCGCGACCGGAAAGGTTAACCACCAGTAGCTGCTCTTTATCCGGGTTTTCGCGCATCATTTTCA -ACGCATGGGCCAGGGCGTGGGAGGATTCCAGCGCCGGGATGATCCCTTCGTGCAGGCACAGCGTTTTGAA -GGCTTCAAGGGCTTCATCATCGGTAATAGACACGTAATCAGCGCGTCCAGTGCTGTTAAGATACGCGTGT -TGTGGGCCGACAGACGGGAAATCCAGTCCGGCGGAGATGGAGTAAGATTCTTCAATCTGCCCGTCTTCGG -TTTGCATCATCGGCGCTTTCATACCGAAATAGATACCCACGCGACCATGTTTTAGCGGTGCGCCGTGCTC -GCCAGTTTCGATACCGTGACCACCTGGCTCCACACCAATCAGGCCGACGTTGGTTTCATTGATGAAATCA -GCAAACATGCCGATGGCATTCGAACCGCCGCCAACACAGGCGATAACGGCATCCGGCAGGCGACCTTCTC -TTTCCAGAATCTGCGCTTTGGTTTCTTCGCCAATCATCCGCTGAAACTCACGCACAATGGTCGGATAAGG -ATGCGGGCCAGCTGCGGTGCCCAGCATATAGTGCGCGGTTTCGTAACTACCGGACCAGTCGCGCAGCGCC -TCGTTACAGGCATCTTTCAGCGTCGCGGAACCGCTATGCACCGGGATCACTTCCGCACCCATTAAGCGCA -TACGAAAAACGTTAGGCGACTGGCGTTCAACGTCTTTGGCACCCATATAAATACGGCATTTCAGGCCGAG -CAGGGCGCTGGCAAGGGCCGACGCCACGCCATGCTGACCGGCACCGGTTTCGGCGATGATTTCGGTTTTA -CCCATCCGCTTCGCCAGCAACGCCTGCCCCAGCACCTGGTTAGTTTTATGCGCGCCGCCGTGCAGCAAAT -CTTCACGCTTGAGATACAGCGTGGTGTTCGTCCCGGCTGTAATGTTCTGGCATTTGGTCAGCGCGGTTGG -ACGCCCGGCATAGTTTTTCAGCAGGTCGTTGAACTGAGCCTGAAATTCAGGATCTTTTTGCGCACTGACA -AAAGCTTCTTCCAGCTGGCGCAGAGCAGGCATCAGGATTTGTGGCACGTACATGCCGCCAAACTCACCAA -AATAGGGGTTAAGTAATGTTGTCATTGTTCCTTTCCTTAATATGCGCGCAGCGTCTGGAAAACCGAGGCC -AAAAGACGTGCGTCTTTGATGCCCGGTTGCGACTCTACAGCAGAATTAAAATCAAGTCCGGCGCAGCCGG -TTTGTGCCGCTTCCACGCAGTTATCTGCGCCTAAGCCCCCCGCCAGCAGAACGTTGCCAAGCGATTGACC -ATTTAATAGTGACCAGTCAAAACGTTGCCCGCTTCCACCCTGGCCGTTGTCTAAAACATATTTATCAACG -TGCTGAAACTCGCGGGCGGGCAGGGTTTCACCGACGCTTAATGCTTTCCAGATGGCAACATGTGCTGGCA -GAGCTTCACGCAGCGTATCGATATACAGCTGTTCTTCATTACCATGCAGTTGCACTGCCGCCAGCGATAA -CACCTTAGCTTTGTCCACCACATCGGCAATATCGTGATTGCGGAACACGCCAACATACTGCAACGGTGCC -GCAGCCATCACTTCCTGCGCCTGTTCAACGTTGACGCAACGCGGTGATGTCGCAACAAAAATCAACCCAC -CGTAAATCGCGCCCGCGTCATAAGCTGCTTTAGCATCTTGCCCACGCGTCAGGCCACATACTTTATTCTC -ACCCAGCAACACCCGGCGCACGGCGGCGTGCAAATCGTCATGGGCCATCAACGCCGAACCAATCAGAAAA -CCGTTAGCGAAGTGGCTTAACTCGCGCACCTGAGCGTAAGTATTGATGCCGGATTCGCTGATTACCGTCA -CGTTGTGCCCCAGTTTCGGCGCAAGCTCGCGGGTACGGTTGAGATCAATCGACAAATCACGCAGATCGCG -GTTGTTGATGCCAACGACCTTTGCTCCCAATGCAATGGCGCGCTCCTGTTCCTCTTCATTACTGACTTCG -GTCAGCACCCCCATCTCCAGACTGTGAGCGACGGCGGCAAGCTGGCGATATTGGTCGTCATCCAGTACTG -AAAGCATTAATAAGCAGGCATCGGCCTGGTAATAGCGCGCCAGATAGATCTGGTAAGGGTCGATAATGAA -GTCTTTACATAAAATCGGCTGCGGGGCGATTTGGCTGACGATGGGGAGGAAATTAAAGCTCCCCTGAAAA -TATTTCTCATCAGTCAGCACCGAAATTGCCGAAGCGTAATGTTTATAAATGGCGGCAATGCGTGCTGGAT -CGAAATCATCACGGATCACGCCTTTTGACGGCGACGCTTTCTTGCACTCCAGAATAAACGCCGTGCGCGC -ACCCTGTAGCGCATCATAAAAATGTCGCGTGCTCGGCTGAACCTCATTCTGAAAACTGGCCAGCGGTTGC -TGCTGTTTGCGGGCTTCTACCCAAATCGCCTTGTCTGCGACGATTTTCGCTAAAACGGTTTGCATCATTT -ACCCTCGTGCCGCCAGTGCGGTGACTCTGTCGTAAGCGGAACCACTGCGCAGTACCTCAAGAACGGTTTG -CGCATTGGCTTGCAGATCTTCATGGCCATGCAGGCGCATTAACATGGCGACGTTCGCAGCGACGGCTGCT -TCATGGGCGGCGTCGCCTTTACCTTGTAACAAACGTGTTAAAATGTCACGGTTTTCTTCCGGTGTTCCGC -CTGCCAGTTGCTCCTGGTGGTAGGGTGTCAGGCCAAAGTCTTCTGCGGTGAGCTGATAGCTTTTAATTTC -GCCGTCATGCAGTTCGGCAACGATTGTCGGCGCGTGTAATGAAACTTCATCCATCCCGCCGCTGTGCACC -ACCGCCGCGCGTTGATACCCCAGCACGCGCAAGGTTTCGGCAATCGGCAGCACCAGTTCCGGACTATAAA -CACCAATTAACGCCAGCGGCGGATGCGCCGGGTTAATCAATGGCCCCAGCACATTGAACAGGGTGCGGGT -TTTCAGTTGCTGGCGAACCGGCATCGCGTGGCGGAATCCGGTGTGATACTTCGGCGCAAAGAGGAAACAT -ACACCTAACTCATCCAGCGCCTGGCGCGATTTATCGGCGTTCATATCAAGATTAATACCGAACGCCGCCA -GCAGATCGGACGAACCAGATTTACTGGAGACGCTACGGTTGCCGTGTTTCGCCACTTTCAGCCCACAGGC -CGCGGCGACAAACGCACTGGCGGTAGAAATATTGATACTGTTGCTGCCGTCACCGCCAGTACCGACGATA -TCAGCAAACAGATAATCCGGGCGCGGGAACGGCGCTGCGTTTTCCAGTAGCGCGGTTGCTGCCCCGGCGA -TCTCGTTCGGGTGCTCACCGCGAATTTTCATGCTCACCAGCGCCGCCGCCAGTTGTTCCGGCTTCAGCTC -GCCACGCACCACCGCTGAAAACAGCTGGTGGCTTTCTTGTTGGCTAAGCGTCTGCGCCTGATACAGTTTT -TCCAGAATCGGTTGCAGCGTGTTGGCTGGCTCTAGTTTCTGCTGCGCCCAGGCCAGCGTTTGTTCCAGCA -GGCGAGCGCCCTGGGTGGTGAGAATGGATTCCGGATGGAACTGGAATCCACAAACGCGATCCGCATCGTG -ACGTACTGCCATCACCATGCCATTAAAATGGGCGTTGATGGTTAAACCGGCCGGAATGTTACTGCCAACC -AGCGAGTGATAACGCGCCACCGGCAGCGGGTTTGTTAATCCGGCAAACATCGCCTGACCGTCATGTTCAA -TGCTGGAGGCTTTACCGTGGAGAATTTCGCCCGCCTGACCGACATAGCCCCCGTAAGCTTCGACAATCGC -CTGATGTCCGAGGCAAATGCCAATAATGGGCAGCTTGCCACGCAAGCGGGTGAGGAGTTCCGGCATACAA -CCGGCTTCGCTCGGCACACCGGGGCCAGGAGAAAGCATCAGCACCGGATTGCTCATGGTCGCCAGGCGTT -CAATTAAGGTTTGCGCCGGAATATGGTTGCGGTAAATCACCACGTTATGCCCATTGCTGCGCAACTGATC -TGCCAGGTTGTACGTAAAAGAGTCGATATTATCGAGCAGCAGAATGTCAGCCATCAGAAAGTCTCCTGTG -CATGATGCGCGGTGGCAATAGCGCGCAGTACAGCGCGGGCTTTGTTACGGGTTTCGTCGGCTTCCGACTG -CGGAACAGAATCAAGGACTACACCAGCACCCGCTTGCACGGTGGCGATACCGTTTTCCACCAGCGCCGAG -CGGATCACAATGCAGGTGTCGAGATCGCCATGCGCGGTGAAATAACCTACCGCGCCGCCGTAGCTGCCGC -GGCGACGACCTTCCGCCTCGGCAATTAACTGCATAGCGCGTACTTTCGGCGCACCGCTTAACGTCCCCAT -ATTCATACAGGCGCGATAAGCGTGCAGGGCGTCAAGATCGTGACGCAGTTCGCCGACTACGCGAGAGACG -AGGTGCATCACATAGGAATAACGGTCAACTTTGGTGAGATCGGCGACGTAGCGGCTGCCGGGGGTGCAAA -TGCGTGCCAGATCATTACGGGCGAGATCAACCAGCATCAGATGTTCAGACAGCTCTTTATGATCGGTACG -CATTTCCAGTTCAATACGGCTGTCGAGATCTCTGTCCAGTGAACCATCGGCGCGACGACCGCGTGGGCGT -GTTCCGGCAATCGGGTAGATCTCAATCTGGCGGCTGGTGGCATCATACTTGAGCGAGCTTTCCGGCGACG -CGCCAAATAGGGTGAAATCATTATCCTGCATAAAAAACATGTACGGGCTGGGATTACTCTTTTTCAGCAC -GTAATAGGCCGCCAGCGGTGACGGGCAGGGCAGAGAGAAACGGCGAGATGGCACCACCTGGAAAATTTCT -CCAGCGCGAATCGCTTTTTGCAACAAACGCACTACGCCACCGAACTCTTCATCGCTCTGATTACATTCAC -AACGCATATGCGGCACGGAAACCACTGGCAGCGGCGGCGCGGCTTCGGTCAGTTGCTGACGTAGTTCGTT -CAGGCGAGCAGTGAGACGTTGTTTTTCTTCTTCATTCGGAGCAAACAGGCTGGCCTGAATACGGGTGCTT -TTTTTCTGATGGTCAATCACCATCAGCGTTTCAGCGAGATAAAAACAGAAATCAGGGCAGTTATTTTCCG -CTGACAGTTGCGGTAAATCTTCAAATCCCGCCACAAGGTCATAAGAGAACAGGCCGCCGAAGAACATGGC -TTCTCGTTCTTCCTTCGGTACATTCAACAGATTCTGCAATAAACGGAAAGCGTCAAAAACCGAAAGGGAG -CATAAGCGGGCGTCTTCATCCAGCAGTGGACTGACAGGGGGGAAGCGCAGCACACGGCAGTTTGGTGATT -GTTCACTTTCCACACCCGCAGGCAGGGCGTTATCCAGTAGTGCCAGGAGGGCTTCGCCGTTGCCGGAAAG -TGCCTGGATTGTGACAGTGTCACCTAAAGCTGTAATGCGCAGCGCACTGTCTACCAGCAGCAGGCTTTTT -AAATCATCTTTGCTGTCGATATCTGCGGATTCCAGCAGCAGCGTTGCCGGACGATCCCCACACAACTGGT -GAAAAAGCGCGGTGGGATTGTCGCGATAAGCGCCTTCGCAGGTTAGCAGTTCGAGAGTCGGTTTTTGTGT -TTGCATTGTTATTCTCTAATTTTGTTCAAAAAAAAGCCCGCTCATTAGGCGGGCTGGGTATCTGATTGCT -TTACGCATGGTGAATACACTGCCCGTTTCAGGAAGTGCGCCACCAACCTTTCAGTACGAAAATTGCTTTC -ATTGTCGATACCCTTTTTACGTGAACTTGCGTACTAGTTAACTAGTTCGATGATTAATTGTCAACAGCTC -ATTTCAGAATATTTGCCAGAACCGTTATGATGTCGGCGCAAAAAACATTATCCAGAACGGGAGTGCGCCT -TGAGCGACACGAATTATGCAGTGATTTACGACCTGCACAGCCATACCACAGCTTCCGATGGCTGCCTGAC -GCCAGAAGCATTGGTGCACCGTGCAGTCGAGATGCGCGTCGGCACCCTGGCGATCACCGACCATGACACC -ACAGCTGCAATCGCGCCAGCAAGAGAGGAAATTTCACGTTCGGGACTGGCGTTGAATCTTATTCCCGGCG -TGGAAATTTCCACGGTCTGGGAAAATCATGAAATTCATATTGTCGGGCTGAATATTGATATTACTCATCC -GCTAATGTGTGAGTTCCTCGCGCAGCAGACAGAACGGCGCAATCAGCGGGCGCAGCTGATTGCCGAAAGA -CTTGAAAAAGCGCAAATACCTGGGGCGCTGGAAGGCGCACAACGACTGGCGCAGGGCGGCGCAGTGACGC -GCGGTCATTTTGCGCGTTTCCTTGTTGAGTGCGGCAAAGCCAGTTCAATGGCGGATGTCTTTAAAAAGTA -TCTGGCGCGCGGGAAAACCGGATACGTTCCGCCACAGTGGTGTACAATAGAACAAGCTATTGATGTCATT -CATCATTCTGGCGGTAAGGCGGTGCTAGCTCATCCTGGGCGGTACAATCTTAGTGCTAAATGGCTGAAAA -GATTGGTTGCGCATTTTGCCGAACACCACGGTGACGCGATGGAAGTCGCGCAGTGCCAGCAATCGCCCAA -TGAACGTACCCAGCTGGCGGCCCTTGCGCGTCAGCATCATTTATGGGCATCACAAGGATCTGATTTTCAT -CAGCCATGCCCGTGGATCGAACTGGGTCGTAAACTCTGGCTGCCCGCAGGCGTTGAAGGCGTCTGGCAGC -TATGGGAACAGCCGCAGAACACCACAGAGAGGGAATTATGAGCCAGTTTTTTTATATTCATCCTGATAAC -CCACAGCAACGTCTGATCAACCAGGCGGTGGAGATCGTGCGTAAAGGCGGGGTGATTGTTTATCCAACTG -ATTCCGGCTATGCGCTCGGCTGTAAAATTGAAGATAAAAACGCGATGGAGCGTATTTGTCGTATTCGCCA -GCTGCCGGACGGTCACAACTTTACCCTGATGTGTCGCGATCTTTCTGAACTCTCGACCTATTCATTTGTT -GATAACGTTGCGTTTCGTTTAATGAAAAACAACACGCCGGGCAACTATACCTTCATCCTGAAGGGGACGA -AGGAAGTGCCACGCCGTCTGTTGCAGGAAAAACGCAAAACCATCGGTATGCGTGTGCCTTCTAACCCTAT -CGCTCAGGCGTTACTTGAAGCATTGGGCGAACCGATGCTTTCCACTTCGCTAATGCTGCCAGGCAGCGAA -TTTACCGAATCGGACCCGGAAGAAATTAAAGATCGTCTGGAAAAACAGGTAGATTTGATTATTCACGGCG -GCTATCTCGGGCAGAAACCGACAACGGTTATTGATCTTACCGATGATACGCCGGTCGTGGTGCGTGAAGG -CGTAGGTGATGTGAAGCCTTTCTTATAACAAATTGCGTTCCACGGATGGAAGACTATGGCAGGGAAGTTT -CGCTGCATTTTGCTGTTGATAGCAGGGCTGTTTGTATCATCTCTAAGTTATGCAGAAAACACGGAGATCC -CTTCTTATGAAGAAGGGATCTCGCTCTTTGATGTTGAAGCCACTCTGCAACCAGATGGGGTGCTCGACAT -CAAAGAAAATATTCATTTTCAGGCGCGAAATCAGCAGATTAAGCACGGCTTTTATCGTGATTTACCACGA -CTATGGATGCAGCCTGATGGGGACGCTGCACTGCTGAACTATCATATTGTTGGCGTCACCCGTGATGGTA -TTCCTGAACCCTGGCATCTTGACTGGCATATCGGGTTAATGAGTATTGTCGTGGGCGATAAACAACGTTT -CTTGCCTCAAGGCGACTATCATTATCAAATTCATTATCAGGTTAAAAATGCTTTCCTGCGTGAGGGGGAT -TCTGATCTGCTAATCTGGAACGTGACCGGTAACCACTGGCCGTTTGAAATTTATAAGACCCGTTTTTCTC -TCCAGTTCTCTAATATTGCGGGTAATCCATTTAGCGAAATCGATCTTTTTACCGGAGAAGAGGGCGACAC -ATATCGTAATGGCCGCATCCTTGAGGACGGAAGAATTGAATCCCGCGATCCGTTTTATCGTGAAGATTTC -ACGGTCCTCTACCGCTGGCCTCACGCTTTACTTAGCAATGCCTCGGCTCCGCAAACGACGAATATTTTCA -GCCATCTTCTTTTACCCTCCACGTCATCGTTGTTAATTTGGTTTCCGTGTCTGTTCCTGGTTTGTGGATG -GTTATATCTCTGGAAGCGCAGGCCGCAATTTACGCCGGTAGATGTGATTGAAACCGATGTCATTCCGCCA -GATTACACGCCCGGCATGTTACGTCTCGATGCGAAGCTAGTTTACGACGATAAAGGTTTTTGTGCCGATA -TCGTAAATCTGATTGTGAAAGGAAAAATTCATCTGGAAGATCAGTCTGACAAGAACCAGCAAATCCTGAT -TCGTGTTAATGAAGGCGCGACCAGAAATAATGCGGTATTACTGCCCGCAGAGCAGTTATTACTGGAAGCG -TTATTTCGTAAAGGCGATAAGGTCGTTCTTACGGGGAGACGCAACAGAGTCTTACGCAGGGCATTTTTAC -GGATGCAGAAATTTTATCTGCCGCGTAAAAAGTCTTCGTTTTACCGGTCTGATACTTTTTTGCAATGGGG -TGGACTGGCAATATTGGCGGTCATTCTTTACGGTAACTTGAGTCCTGTAGGCTGGGCAGGAATGAGTCTG -GTGGGCGATATGTTTATTATGATCTGCTGGATTATTCCTTTTTTATTTTGTTCCCTTGAGCTTTTGTTTG -CCCGCGATGATGACAAGCCTTGCGTTAATCGTGTAATCATCACTTTGTTTTTACCACTGATTTGTTCAGG -CGTGGCCTTCTATTCTCTCTACATCAATGTCGGAGATGTATTCTTTTACTGGTATATGCCAGCGGGTTAT -TTTACCGCTGTTTGCCTGACCGGTTATCTCACTGGCATGGGGTATATTTTTCTGCCAAAGTTTACCCAAA -CTGGACAGCAACGTTATGCCCACGGTGAAGCTATCGTTAACTATCTTGCGCGTAAAGAGGCAGCAACACA -CAGTGGACGTCGGCGGAAAGGGGAAACACGGAAACTGGATTACGCGTTGCTAGGTTGGGCTATATCGGCA -AATTTGGGGAGGGAATGGGCGTTACGCATTGCCCCTTCGCTTTCTTCGGCGATTCGCGCTCCAGAGATTG -CCCGTAACGGCGTTTTATTCTCATTACAGACGCACCTAAGTTGCGGGGCCAATACCAGTTTGTTGGGGCG -AAGTTATTCCGGTGGTGGTGCTGGCGGCGGCGCGGGTGGCGGAGGCGGTGGTGGCTGGTAATTAAGCTGA -TGTTAATCGAAACAAGCTTTAACCATAAAGATAGTGTAGTATGTTGCGCCTCAAAGCCAGGCCGATAAAC -GTCGAGTCGTTTACTTAAGGCCTGAAGAGTTCAAACAGACTTTACTATCAGTGAGTCAGATGTAAGTTCT -GACTCACTGTTGCACAAAAGCATATCAGACGCCTGGGAAGGCGACACCAAAAGGAAGCTCTATGAGCGAA -AAGCTACAGAAAGTGCTGGCGCGTGCCGGCCACGGTTCTCGCCGTGAAATCGAATCTATTATTGAAGCCG -GTCGTGTGAGTGTTGATGGCAAAATTGCTAAACTCGGCGATCGTGTTGAAGTTACCCCTGGATTGAAAAT -CCGTATCGATGGTCACCTGATTTCGGTACGTGAGTCCGCTGAACAAATTTGTCGCGTTCTGGCCTATTAC -AAACCGGAAGGTGAGTTGTGTACCCGTAACGATCCGGAAGGACGTCCAACGGTGTTTGACCGTCTGCCAA -AACTGCGTGGCGCACGCTGGATTGCCGTGGGTCGCTTGGACGTTAATACCTGTGGTCTGCTGCTGTTCAC -CACCGATGGTGAACTGGCAAACCGTTTAATGCACCCAAGCCGTGAAGTTGAACGTGAATATGCCGTGCGT -GTATTTGGTCAGGTTGACGACGCGAAACTGCGTGATTTGAGTCGTGGCGTGCAGTTGGAAGATGGTCCGG -CAGCTTTTAAAACCATCAAGTTCAGCGGCGGCGAAGGGATCAACCAGTGGTACAACGTGACTCTGACCGA -AGGCCGTAACCGTGAAGTTCGTCGTCTGTGGGAAGCGGTTGGTGTGCAGGTGAGCCGCCTGATCCGTGTT -CGTTACGGTGATATCCCACTGCCAAAAGGTCTGCCACGCGGTGGCTGGACGGAGCTGGACCTCGCCCAGA -CTAACTATCTGCGCGAACTGGTGGAGCTACCGCCAGAAACCAGCTCTAAAGTCGCTGTAGAAAAAGACCG -TCGTCGCATGAAGGCGAATCAGATTCGTCGTGCGGTGAAACGTCACAGTCAGGTGAGCGGCGGTCGTCGT -TCTGGCGGACGTAATAATAACGGTTAATCAAAGTATGCCGGACGTCATATCCGGCATTTTTACAGATTAA -TAATCGATCCCTATCTGCGCTTTTACACCGGCATCAAACGCATGTTTGACGGGGCGTAATTCACTTACCG -TATCTGCCAGTTCAAGAATATCCCGATGACAACCACGACCCGTGATAATCACCGTCTGTTGATGTGGACG -TTCATTTAACGCCTGCACCACTTCTTCCAGTGGCAAATAGTCATACGCCACCATATACGTCAGTTCATCA -AGCAAAACCATATCCAGTGAGGAATCAGCAAGCATCCGCTTTGCATGTTGCCAGACTTCGCGGCAGGCGG -CGGTATCAGACTCGCGGTTTTGTGTATCCCAGGTAAAGCCCGTTGCCATCACCTGAAACTCAACGCCATG -TGGCTCCAGCAGATTGCGTTCGCCATTAGGCCAGGTGCCTTTAATAAACTGCACGACGCCTACTTTTTTT -CCGTGACCAACTGCGCGTGTTGCCGTACCAAATGCCGCGGTGGTTTTGCCTTTTCCATTGCCGGTAAAGA -CGATGATAATACCGCGTTCATCCTGGGCCTGGGCCACACGAGCATCTACTTTTTCTTTCACTCGCTGCTG -ACGCTGTTGGTAGCGTTCATCACTCATTGGGAAATTCCTGGTTTACGGCCCGGTTGGGCGTCAAAGGTCA -TGCCGGTTTTACGGCGGCTGTCATCGCCCATCAGCCAGAGGTAGAGCGGCATGATATCAGCGGGTGTTTT -AAGTTTCTGTGGATCTTCGGTCGGGAAGGCGCTGGCACGCATTGCGGTGCGCGTACCGCCTGGGTTAATG -CAGTTGACACGCAGGCGCTGCTGATATTCATCGGCCAGTACCTGCATCATCCCTTCGGTGGCAAATTTCG -ACGCTGCATATGCACCCCAGTTGGCTCGTCCCTGACGTCCAACGCTTGATGAAGTAAAGACCAGTGAACC -GGCGTCCGATTTGAGTAATAAAGGAAGCAGTGCCTGGGTGAGCATAAAGGTGGCATTAACGTTGACCTGC -ATGACGTCCTGCCAGACCTGCGGATTTTGTTCGCTCATTGGGCAAACATCGCCGAGCAATCCGGCATTAT -GCAAAACACCATCCAGACGCGGATAATTAACGGCAATGCGCTGTGCCAGTTGTTGGCAATTTTCGGACGT -GCAGGTCAGCAAATCGAGAATAAACCACTGTGGCTGACGCCCAGTTTCTTCGTTTATGTGGCTGGCTACC -TGACGTAATTTTTCTTCATTACGGCCCAACAGAATCACTGTCGCACCATAGCGTGCATACGTCATCGCGG -CTTCACGACCAATACCATCGCTGGCTCCCGTCACCAGGATAATGCGATCATTGAGTAAATCTTGTTTTGG -CTGGTAATGCATGGCTACTCCTCAACGACGTTGTCTGTCGCGCTGCCAGTGTACTTTATGACTTTGGGGC -TTTATGCCTGAAACAGAAGGGCATTTCAATCAGCCTGGGGCGATAACACCGCAAAATGGATACTTTGTCA -TACTTTCGCTGCAATAACATCTCTGCGAGACGGCTTAACATGCCTGTTGTAAACTGTGAGCCAAAGCGTT -GTTTAACCAAGGTGGGGACTCGTGGAATTGTTGTCTGAATATGGTTTGTTTTTGGCGAAAATCGTTACCG -TTGTGCTAGCGATTGCGGCGATTGCCGCCATTATTGTCAATGTTGCTCAACGTAATAAACGCCAGCGTGG -CGAGTTACGGGTCAACAATCTCAGCGAACAGTATAAGGAGATGAAAGAAGAACTGGCCGCGGCGCTGATG -GACTCACATCAGCAAAAACAGTGGCACAAAGCGCAGAAGAAAAAGCATAAGCAAGAAGCGAAAGCAGCAA -AAGCGAAAGCCAAACTGGGCGAGGTGGCAACTGACAGTAAACCCCGCGTCTGGGTGCTGGATTTTAAAGG -CAGCATGGACGCCCATGAAGTGAACTCGCTACGTGAAGAGATAACGGCTGTACTCGCAGCATTCAAACCG -CAGGATCAGGTTGTGCTCCGTCTGGAAAGCCCTGGTGGCATGGTGCATGGTTACGGGCTGGCGGCTTCGC -AACTGCAGCGTCTGCGCGATAAAAACATTCCTTTAACTGTTACGGTAGACAAAGTCGCTGCCAGCGGCGG -TTACATGATGGCCTGTGTGGCGGACAAAATTGTTTCCGCACCGTTTGCTATTGTGGGTTCCATTGGCGTG -GTGGCGCAAATGCCCAACTTTAACCGCTTCCTGAAAAGCAAAGATATTGATATCGAACTGCACACTGCCG -GGCAGTATAAGCGCACGCTGACGTTGCTGGGTGAAAATACCGAAGAAGGGCGGGAGAAATTCCGCGAAGA -GTTGAACGAAACGCATCAGTTGTTTAAAGATTTTGTGAAGCGTATGCGTCCTTCTCTGGATATTGAACAG -GTGGCAACGGGTGAACACTGGTACGGACAACAGGCGGTAGAGAAAGGCCTGGTTGATGAAATCAACACCA -GTGATGAAGTTATTCTTAGCCTGATGGAAGGCCGTGAAGTGGTCAATGTACGCTATATGCAGCGTAAACG -ACTCATTGACCGATTCACCGGCAGCGCGGCAGAGAGCGCCGATCGATTGTTGCTACGCTGGTGGCAGCGG -GGTCAAAAGCCATTGATGTAAAAGACAAACGCGAGGCTAAGACCTCGCGTTTTGCTTTAATCAACCAGAT -GATATTTTTCTGAAAGCACATGGGCCAGGTGTTTGAACATATTAAACACCGCGGTGCTTTTGGCTGTTGG -CAATCCTTGTTCATCTAAAAAGTAGTCGCCGGTAAATACCAGCACGCCATTACGCTGCGTGACGCCGGTG -GCTTCAATCCCTGCGAGCGTATCCTCATGCTCACGAATGATTTTGTTGGCCTCTTTCAACAGCGTTTCGC -GGTCGATGGGTTGTGTCTCTTTGTTCATTATTTACTCCTTAAACAAGGACATTAGTCTACGCCAGGCATG -GCTTGCAGACAAATATACCACGCTGGTGGCAAGAGCGCCTTACTGGCAACTTTGGATTTTGCATGCTAAT -AAAGTTGCGTATCGGATTTTATCAGGTACAGTGTGACGCTTTCGTCAATCTGGCAATAGATTTGCTTGAC -ATTCGACCAAAATTCCGTCGTGCTATAGCGCCTGTAGGCCAAGACCTGTTAACTCAGTCACCTGAATTTT -CGTGAACAGAGTCACGACAAGGGGTTGATATCCGCAGAGAGCGAGTCCATATCGGTAACTCGTTGCCAGT -GGAAGGTTTATCAACGTGCGACGCATTCCTGGAAGAATCAAATTAGGTAAGGTGAATATGGGTAAAGCTC -TTGTCATCGTTGAGTCCCCGGCAAAAGCCAAAACGATCAACAAGTATCTGGGTAGTGACTACGTGGTGAA -ATCCAGCGTCGGTCACATCCGCGATTTGCCGACCAGTGGCTCAGCTGCCAAAAAGAGTGCCGACTCTACC -TCCACCAAGACGGCTAAAAAGCCTAAAAAGGATGAACGTGGCGCTCTCGTCAACCGTATGGGGGTTGACC -CGTGGCACAATTGGGAGGCGCACTATGAAGTGTTGCCTGGTAAAGAGAAGGTCGTCTCTGAACTGAAACA -ACTGGCTGAAAAAGCCGACCACATCTATCTCGCAACCGACCTTGACCGCGAAGGGGAAGCCATTGCATGG -CACCTGCGGGAAGTGATTGGGGGTGATGATGCGCGCTATAGCCGAGTGGTGTTTAACGAAATTACTAAAA -ACGCGATCCGCCAGGCATTTAACAAACCGGGTGAGCTGAATATTGATCGTGTTAATGCCCAGCAGGCGCG -TCGCTTTATGGACCGCGTGGTGGGGTATATGGTTTCGCCGCTGCTATGGAAAAAGATCGCTCGTGGCCTG -TCTGCCGGTCGTGTGCAGTCGGTGGCGGTTCGCCTGGTGGTCGAGCGTGAGCGTGAAATTAAAGCGTTCG -TGCCGGAAGAGTTCTGGGAAGTCGATGCCAGCACGACCACGCCATCTGGTGAAGCGTTGGCGTTACAGGT -GACTCATCAGAACGACAAACCGTTCCGTCCGGTCAACAAAGAACAAACTCAGGCTGCGGTAAGTCTGCTG -GAAAAAGCGCGCTACAGCGTGCTGGAACGTGAAGACAAACCGACAACCAGTAAACCTGGCGCTCCTTTTA -TTACCTCTACGCTGCAACAAGCTGCCAGCACCCGTCTTGGATTTGGTGTGAAAAAAACCATGATGATGGC -GCAGCGTTTGTATGAAGCAGGCTATATCACTTACATGCGTACCGACTCCACTAACCTGAGTCAGGACGCG -GTAAATATGGTTCGCGGTTATATCAGCGATAATTTTGGTAAGAAATATCTGCCGGAAAGTCCGAATCAGT -ACGCCAGCAAAGAAAACTCACAGGAAGCGCACGAAGCGATTCGTCCTTCTGACGTCAATGTGATGGCGGA -ATCGCTGAAGGATATGGAAGCAGATGCGCAGAAACTGTACCAGTTAATCTGGCGTCAGTTCGTTGCCTGC -CAGATGACCCCAGCGAAATATGACTCCACGACGCTGACCGTTGGTGCGGGCGATTTCCGCCTGAAAGCAC -GCGGTCGTATTTTGCGTTTTGATGGCTGGACAAAAGTGATGCCTGCGTTGCGTAAAGGCGATGAAGATCG -CATCTTACCAGCAGTTAATAAAGGCGATGCTCTGACGCTCGTTGAACTTACACCAGCCCAGCACTTTACC -AAGCCGCCAGCCCGTTTCAGTGAAGCATCGCTGGTTAAAGAGCTGGAAAAACGCGGTATCGGTCGTCCGT -CTACCTATGCGTCGATCATTTCGACCATTCAGGATCGTGGCTACGTGCGAGTAGAAAATCGTCGTTTCTA -TGCGGAAAAAATGGGCGAAATCGTCACCGATCGCCTTGAAGAAAATTTCCGCGAGTTAATGAACTACGAC -TTTACCGCGCAGATGGAAAACAGCCTCGACCAGGTGGCAAATCACGAAGCAGAGTGGAAAGCTGTACTGG -ATCACTTCTTCTCGGATTTCACCCAGCAGTTAGATAAAGCTGAAAAAGATCCGGAAGAGGGTGGTATGCG -CCCGAACCAGATGGTTCTGACCAGCATTGACTGCCCGACTTGTGGTCGCAAAATGGGGATTCGCACAGCG -AGCACCGGGGTATTCCTTGGCTGTTCTGGCTATGCGCTGCCGCCGAAAGAGCGTTGCAAAACCACCATTA -ACCTGGTGCCGGAAAACGAAGTGCTGAACGTGCTGGAAGGCGAAGATGCTGAAACCAACGCGCTGCGCGC -AAAACGTCGTTGCCCGAAATGCGGCACGGCGATGGACAGCTATCTCATCGATCCGAAACGTAAGTTGCAT -GTCTGTGGTAATAACCCAACCTGCGACGGTTACGAGATCGAAGAGGGCGAATTCCGCATTAAAGGTTATG -ACGGCCCGATCGTTGAGTGTGAAAAATGTGGCTCTGAAATGCACCTGAAAATGGGGCGTTTCGGTAAATA -CATGGCCTGCACCAACGAAGAGTGTAAAAACACACGTAAGATTTTACGTAACGGCGAAGTGGCACCACCG -AAAGAAGATCCGGTGCCATTACCTGAGCTGCCGTGCGAAAAATCAGATGCTTATTTCGTGCTGCGTGACG -GTGCTGCCGGTGTGTTCCTGGCTGCCAACACTTTCCCGAAATCGCGTGAAACGCGTGCGCCACTGGTGGA -AGAGCTTTATCGCTTCCGCGACCGTCTGCCGGAAAAACTGCGTTATCTGGCCGATGCGCCACAGCAGGAT -CCGGAAGGTAATAAGACCATGGTTCGCTTTAGCCGTAAAACCAAACAGCAATATGTCTCTTCGGAAAAAG -ACGGAAAGGCGACTGGCTGGTCAGCATTTTATGTTGATGGCAAATGGGTTGAAGGAAAAAAATAACCTTT -AATTCTGTCAGGTTTTTATAAACAAAGGGTCGCGAAAGCGGCCCTTTTTTATTGCATATTATTTTTTCTT -CACACCTATACACTAAGGCTATAAATGATATAGTGGTTATAGTTAGCACCTTTTTTATTATTAAATCGTA -TTAGTCACCCGCCAGGTGTGACGAAAAAACGATGTTCTGATGGCGTCTAAGTGGATGGTTTAACATGAAA -TTACAACAACTTCGCTATATTGTTGAGGTGGTCAATCATAACCTGAATGTCTCATCAACAGCGGAAGGAC -TTTACACATCACAACCCGGGATCAGTAAACAAGTCAGAATGCTGGAAGACGAGCTAGGCATTCAAATTTT -TTCCCGAAGCGGCAAGCACCTGACGCAGGTAACGCCAGCAGGGCAAGAAATAATTCGTATCGCTCGCGAA -GTCCTGTCGAAAGTCGATGCCATAAAATCGGTTGCCGGAGAGCACACCTGGCCGGATAAAGGTTCACTGT -ATATCGCCACCACGCATACCCAGGCACGCTACGCATTACCAAACGTCATCAAAGGCTTTATTGAGCGTTA -TCCTCGCGTTTCTTTGCATATGCACCAGGGCTCGCCGACACAAATTGCTGATGCCGTCTCTAAAGGCAAT -GCTGATTTCGCTATCGCCACAGAAGCGCTGCATCTGTATGAAGATTTAGTGATGTTACCGTGCTACCACT -GGAATCGGGCTATTGTAGTCACTCCGGATCACCCGCTGGCAGGCAAAAAAGCCATTACCATTGAAGAACT -GGCGCAATATCCGTTGGTGACATATACCTTCGGCTTTACCGGACGTTCAGAACTGGATACTGCCTTTAAT -CGCGCAGGGTTAACGCCGCGTATCGTTTTCACGGCAACGGATGCTGACGTCATTAAAACTTACGTCCGGT -TAGGGCTGGGGGTAGGGGTCATTGCCAGCATGGCGGTGGATCCGGTCGCCGATCCCGACCTTGTGCGTGT -TGATGCTCACGATATCTTCAGCCACAGTACAACCAAAATTGGTTTTCGCCGTAGTACTTTCTTGCGCAGT -TATATGTATGATTTCATTCAGCGTTTTGCACCGCATTTAACGCGTGATGTCGTTGATGCGGCTGTCGCAT -TGCGCTCTAATGAAGAAATTGAGGTCATGTTTAAAGATATAAAACTGCCGGAAAAATAATTTCTTGCGTT -ATTTTCGGCACCTTTTATGTAGCGAAGGTGCCGGAATATATTCTCTTTTGTTACTTATTTCTATACCGTG -CACAATATTTTTATCCCTCATATTTATAGGGTAAATTACCTGTAAAGTAGTGTCTAATTACCCGCCTCGC -AAACTCCAGTTTTCAAATATCTATTTCAGGTCAAAAGATTGAATTATTCACTGGAGACGATTCGTAAATT -CGCTGGATTTTTGACTAAAGTTTCTTTAGGATTTGTCTCATCGTATGATTAATTACACCAATCGTTCAAC -GTCTTGCTGATAAGTGATGGCGATTATATGAGGTTAGCAATGCCTTCTGGAAATCAGGAACCCCGCCGCG -ATCCTGAATTAAAACGTAAAGCCTGGCTGGCGGTTTTTCTTGGTTCTGCACTTTTCTGGGTGGTTGTCGC -ACTGCTGATTTGGAAAGTGTGGGGATAACTATGGTCGGTCAGGAGCAACTGGAGTCGTCACCATTATGCC -AGCATAGTGACAATGAAACAGAAACGAAACGGGAATGTTCCGTCGTTATTCCAGACGACTGGCAACTAAC -ATCGCAGCAGCAAGCCTTTATAGAACTGTTTGCTGAAGATGATCAGCCGAAACAATAATTATCATCATTC -TTATTACCCATTTTTAATGAATTAAAGGGCTTTTAATACACCGCAGCAATAACAGCTTGAGTTATCTCAA -CACAAAATAATAACCGTTAAGGGTGTAGCCTATGATCAACACAAATATGAAATATTGGTCCTGGATGGGC -GCGTTTTCTCTGTCGATGCTCTTCTGGGCCGAACTCCTCTGGATCATTACTCACTGATCCTTGACCCCGC -TGCGGCGGGGTTGTCATTTGCTTTGCCACAAGGTTTCTCCTCTTTTATCAATTTGGGTTGTTATCAAATC -GTTACGCGATGTTTGTGTTATCTTTAATATTCACCCTGAAGAGAATCAGGGCTTCGCAACCCTGTCATTA -AGGAGGAGCTATGTCGTCAACCCTACGAGAAGCCAGTAAGGACACGTTGCAGGCCAAAGATAAAACTTAC -CACTACTACAGCCTGCCGCTTGCTGCTAAATCACTGGGCGATATCACCCGTCTACCCAAGTCACTCAAAG -TTTTGCTCGAAAACCTGCTGCGCTGGCAGGATGGTAACTCGGTTACCGAAGAGGATATCCACGCGCTGGC -AGGATGGCTGAAAAATGCCCATGCTGACCGTGAAATTGCCTACCGCCCGGCAAGGGTGCTGATGCAGGAC -TTTACCGGCGTACCTGCCGTTGTTGATCTGGCGGCAATGCGCGAAGCGGTTAAACGCCTCGGCGGCGATA -CTGCAAAGGTTAACCCGCTCTCACCGGTCGACCTGGTCATTGACCACTCGGTGACCGTCGATCGTTTTGG -TGATGATGAGGCATTTGAAGAAAACGTACGCCTGGAAATGGAGCGCAACCACGAACGTTATGTGTTCCTG -AAATGGGGAAAGCAAGCGTTCAGTCGGTTTAGCGTCGTGCCGCCAGGCACAGGCATTTGCCATCAGGTTA -ACCTCGAATATCTCGGCAAAGCAGTGTGGAGTGAATTGCAGGACGGTGAATGGATTGCTTATCCGGATAC -ACTCGTTGGTACTGACTCGCACACCACCATGATCAACGGCCTTGGCGTGCTGGGGTGGGGCGTTGGTGGG -ATCGAAGCAGAAGCCGCAATGTTAGGCCAGCCGGTTTCCATGCTTATCCCGGATGTAGTGGGCTTCAAAC -TTACCGGAAAATTACGTGAAGGTATTACCGCCACAGACCTGGTTCTCACTGTTACCCAAATGCTGCGCAA -ACATGGCGTGGTGGGGAAATTCGTCGAATTTTATGGTGATGGTCTGGATTCACTACCGTTGGCGGATCGC -GCCACCATTGCCAATATGTCGCCAGAATATGGTGCCACCTGTGGCTTCTTCCCAATCGATGCTGTAACCC -TCGATTACATGCGTTTAAGCGGGCGCAGCGAAGATCAGGTCGAGTTGGTCGAAAAATATGCCAAAGCGCA -GGGCATGTGGCGTAACCCGGGCGATGAACCAATTTTTACCAGTACGTTAGAACTGGATATGAATGACGTT -GAAGCGAGCCTGGCAGGGCCTAAACGCCCACAGGATCGCGTTGCACTGCCCGATGTACCAAAAGCATTTG -CCGCCAGTAACGAACTGGAAGTGAATGCCACGCATAAAGATCGCCAGCCGGTCGATTATGTTATGAACGG -ACATCAGTATCAGTTACCTGATGGCGCTGTGGTCATTGCTGCGATAACCTCGTGCACCAACACCTCTAAC -CCAAGTGTGCTGATGGCCGCAGGCTTGCTGGCGAAAAAAGCCGTAACTCTGGGCCTCAAGCGGCAACCAT -GGGTCAAAGCGTCGCTGGCACCGGGTTCGAAAGTCGTTTCTGATTATCTGGCAAAAGCGAAACTGACACC -GTATCTCGACGAACTGGGGTTTAACCTTGTGGGATACGGTTGTACCACCTGTATTGGTAACTCTGGGCCG -CTGCCCGATCCTATCGAAACGGCAATCAAAAAAGGCGATTTAACCGTCGGTGCGGTGCTGTCCGGCAACC -GTAACTTTGAAGGCCGTATCCATCCGCTGGTTAAAACTAACTGGCTGGCCTCGCCGCCGCTGGTGGTTGC -CTATGCGCTGGCGGGAAATATGAATATCAACCTGGCTTCTGAGCCTATCGGCCATGATCGCAAAGGCGAT -CCGGTTTATCTGAAAGATATCTGGCCATCGGCACAAGAAATTGCCCGTGCGGTAGAACAAGTCTCCACAG -AAATGTTCCGCAAAGAGTACGCAGAAGTTTTTGAAGGCACAGCAGAGTGGAAGGGAATTAACGTCACACG -ATCCGATACCTACGGTTGGCAGGAGGACTCAACCTATATTCGCTTATCGCCTTTCTTTGATGAAATGCAG -GCAACACCAGCACCAGTGGAAGATATTCACGGTGCGCGGATCCTCGCAATGCTGGGGGATTCAGTCACCA -CTGACCATATCTCTCCGGCGGGCAGTATTAAGCCCGACAGCCCAGCGGGTCGATATCTACAAGGTCGGGG -TGTTGAGCGAAAAGACTTTAACTCCTACGGTTCGCGGCGTGGTAACCATGAAGTGATGATGCGCGGCACC -TTCGCCAATATTCGCATCCGTAATGAAATGGTGCCTGGCGTTGAAGGGGGGATGACGCGGCATTTACCTG -ACAGCGACGTAGTCTCTATTTATGATGCTGCGATGCGCTATAAGCAGGAGCAAACGCCGCTGGCGGTGAT -TGCCGGGAAAGAGTATGGATCAGGCTCCAGTCGTGACTGGGCGGCAAAAGGTCCGCGTCTGCTTGGTATT -CGTGTGGTGATTGCCGAATCGTTTGAACGAATTCACCGTTCGAATTTAATTGGCATGGGCATCCTGCCGC -TGGAATTTCCGCAAGGCGTAACGCGTAAAACGTTAGGGCTAACCGGGGAAGAGAAGATTGATATTGGCGA -TCTGCAAAACCTACAACCCGGCGCGACGGTTCCGGTGACGCTTACGCGCGCGGATGGTAGCCAGGAAGTC -GTACCCTGCCGTTGTCGTATCGACACCGCGACGGAGTTGACCTACTACCAGAACGACGGCATTTTGCATT -ATGTCATTCGTAATATGTTGAAGTAACAACTATTTGCTTGCCGGTTATTTTGCTTCCGGCAAGCAAATGA -ATTACACAATGCAAGAGGGTTATTTGTTCAGCAAATGGCCCATTTTCTCGGCTTTGGTATCGAGATAATG -TTCGTTATTGGGGTTACGACCTACAATCAATGGTACGCGTTCAACAATATTAATCCCTGCTTCGGTCAGA -ATTTCGACTTTTTTCGGGTTATTGGTTAACAAGCGGACTTCATTGACGCCAAGGAGTTTGAACATATCAG -CGCAAAGAGTGAAGTCGCGCTCATCAGCGGCGAAGCCTAACTGGTGGTTAGCCTCTACGGTATCGTAACC -TTGATCCTGCAGTGCGTAAGCGCGGATTTTATTCAGCAGACCAATGTTACGACCTTCCTGACGGTGATAC -AGCAAAATACCACGGCCTTCCTCGGCAATTTGCGTCAATGCCGCTTCGAGCTGGAAGCCACAATCGCAGC -GCAAGCTGAACAGGGCGTCACCGGTCAGACATTCGGAATGGACGCGCGCAAGTACCGGGGTATGCCCGGA -AATATCGCCATAGACTAGCGCGACATGATCGTGTCCGGTTGCCAGTTCTTCAAATCCCACCATCAGGAAA -TCGCCCCATGGGGTTGGCAGTTTGGCTTCTGCCACACGTTTAAGCTGCATGAAATTCTCCAGATAATGCT -GGTTCTGTATTGGCTTATTTTGCCATAACGAGAAGGGGTTCACCTAATCACGACGCGTCGATCGTTCACG -GAATGGCACAAATCTGTCAATTTTTCCTGGAACTGGCGTTTTCAGTTATGATTGTGGGACTTATCAAAAA -GGAGAGGCCATGCGTTCGATTGCCAGACGTACCGCAGTGGGAGCTGCACTATTGCTTGTCATGCCAGTAG -CCGTATGGATTTCTGGCTGGCGTTGGCAACCTGGAGAACAAAGTTGGCTACTAAAAGCGGCTTTTTGGGT -TACTGAAACTGTCACCCAGCCCTGGGGCGTCATTACACATTTGATTTTATTCGGCTGGTTTCTCTGGTGT -CTGCGTTTTCGCATTAAGGCTGCCTTTGTATTATTTGCCATTCTGGCGGCCGCAATCCTTGTGGGACAAG -GCGTTAAATCCTGGATCAAAGACAAAGTCCAGGAACCACGACCTTTTGTTATCTGGCTGGAAAAAACACA -TCATATTCCGGTTGATGAGTTCTACACTTTAAAGCGAGCAGAACGCGGAAATCTAGTGAAAGAACAGTTG -GCTGAAGAGAAAAATATCCCACAATATTTGCGTTCACACTGGCAGAAAGAGACGGGGTTTGCCTTTCCTT -CCGGTCACACGATGTTTGCTGCCAGTTGGGCACTGCTGGCCGTTGGTTTGCTGTGGCCGCGTCGGCGAAC -GTTAACCATTGCTATCTTGCTGGTCTGGGCAACGGGAGTCATGGGAAGCCGCCTGCTGCTCGGGATGCAT -TGGCCACGCGATCTGGTAGTAGCTACGTTGATTTCGTGGGCGCTGGTGGCGGTGGCAACGTGGCTTGCGC -AACGAATTTGTGGGCCATTAACACCACCTGCGGAAGAAAATCGCGAAATAGCGCAACGAGAACAAGAAAG -TTAACGCTGGTTGATTTTCCGAATTTAGCCCTTAAATCATCAACAATGCGTGTGGATGCCATTTCGCAGA -CGGCGCGAAAATGGTACTTTAAAGGGCTATTGCGGTAAGTTGACCATAATTTATTCGCTCTAACCACATA -ACGGGAAGTAATGTGAAATATTTACTCATTTTCTTACTGGTGTTAGCGATCTTCGTGATTTCGGTCACGT -TGGGTGCGCAGAACGATCAACAGGTGACGTTTAATTATCTGTTAGCGCAAGGGGAGTACCGTATTTCCAC -ATTGCTGGCGGTATTGTTTGCTGCGGGGTTTGCTATCGGTTGGTTGATTTGTGGCCTGTTCTGGCTGCGA -GTTCGTGTTTCCCTGGCGCGCGCTGAACGTAAAATAAAGCGACTGGAAAACCAGCTTTCACCCGCGACTG -ACGTGGCTGTAGTGCCGCACTCGTCAGCGGCGAAGGAATAACTTTCTATGCTGGAGTTGTTGTTTCTGCT -TTTGCCTGTAGCCGCTGCCTATGGCTGGTATATGGGCCGCAGAAGTGCGCAACAAAACAAGCAAGATGAA -GCCAACCGCTTGTCGCGTGATTACGTAGCGGGGGTTAACTTCCTGCTTAGTAATCAACAGGATAAAGCGG -TAGACCTGTTTCTCGATATGCTTAAAGAGGATACAGGCACCGTTGAAGCCCACCTTACGCTCGGAAACCT -GTTCCGTTCGCGTGGCGAAGTTGATCGCGCTATTCGCATCCATCAGACCCTAATGGAAAGCGCCTCGCTG -ACCTATGAACAGCGTCTGTTGGCGATTCAACAACTGGGGCGTGATTACATGGCCGCCGGGTTATATGACC -GCGCGGAAGACATGTTCAATCAGCTGACCGATGAAACTGACTTCCGCATTGGCGCGCTGCAACAGTTGCT -ACAAATCTACCAGGCTACCAGTGAGTGGCAGAAAGCAATTGATGTTGCCGAACGCCTGGTGAAGCTGGGT -AAAGATAAACAGCGCGTCGAAATTGCCCATTTCTACTGTGAGTTAGCCCTGCAGCATATGGCCAGCGACG -ATCTCGATCGTGCCATGACCTTGCTAAAAAAAGGGGCGGCGGCAGATAAAAACAGCGCCCGCGTATCCAT -AATGATGGGACGCGTGTTTATGGCGAAAGGAGAATACGCCAAAGCCGTCGAAAGTCTGCAACGCGTGATA -TCCCAGGACAGAGAACTGGTCAGCGAAACGCTGGAAATGTTGCAAACCTGCTATCAGCAGTTGGGTAAAA -CTGCCGAATGGGCAGAATTCCTGCAGCGTGCGGTGGAAGAGAACACCGGTGCCGATGCTGAATTGATGCT -TGCTGATATCATCGAAGCGCGCGACGGTAGTGAGGCCGCACAGGTCTATATTACGCGCCAGCTTCAGCGT -CATCCGACCATGCGTGTGTTCCATAAGTTAATGGATTACCACTTAAATGAAGCGGAAGAAGGGCGTGCCA -AAGAGAGCCTGATGGTGCTGCGTGACATGGTTGGCGAGAAGGTACGTAGTAAGCCTCGTTATCGTTGCCA -GAAATGTGGTTTTACCGCATACACCCTCTACTGGCATTGTCCGTCTTGTCGGGCCTGGTCAACCATTAAA -CCGATTCGCGGTCTTGATGGCCTGTAATTTTTAAAAAAAATCCGACTTTAGTTACAACATACTAATTATT -AATGTTCCATTGTGCTCCGGCAACGACGGCGCAGAAAAAGCCTGCCAGGGGAGAAATCGCAACTGTTAAT -TTTTTATTTCCACGGGTAGAATGCTCGCCGTTTACCTGTTTCGCGCCACTTCCGGTGCCCATCATCAAGA -AGGTCTGGTCATGACGTTAACTGCTTCATCTTCTTCCCGCGCTGTTACGAATTCTCCTGTGGTTGTTGCC -CTTGATTATCATAATCGTGATGACGCGCTGGCCTTTGTCGACAAGATCGACCCACGCGATTGTCGTCTGA -AGGTCGGCAAAGAGATGTTTACATTGTTTGGGCCACAGTTTGTGCGCGAACTTCAACAGCGTGGTTTTGA -TATCTTTCTTGACCTGAAATTCCACGATATCCCCAACACTGCAGCGCACGCTGTCGCTGCTGCAGCTGAC -TTAGGCGTGTGGATGGTGAATGTTCATGCCTCTGGTGGGGCGCGTATGATGACCGCAGCGCGTGAGGCAC -TGGTTCCGTTTGGCAAAGATGCACCGCTTTTGATTGCTGTGACAGTGTTGACCAGCATGGAAGCCAGCGA -CCTGGTCGATCTTGGCATGACACTGTCACCTGCAGATTATGCAGAACGTCTGGCGGCACTGACGCAAAAA -TGTGGCCTTGATGGTGTGGTGTGTTCTGCTCAGGAAGCTGTGCGCTTTAAACAGGTATTCGGTCAGGAGT -TCAAACTGGTTACGCCGGGCATTCGTCCGCAGGGGAGTGAAGCTGGTGACCAGCGCCGCATTATGACGCC -AGAACAGGCGTTGTCGGCTGGTGTTGATTATATGGTGATTGGTCGCCCGGTAACGCAATCGGTAGATCCA -GCGCAGACGCTGAAAGCGATCAACGCCTCTTTACAGCGGAGTGCATGATGAGTGATTCCAACAGCCGTCT -GGTCTACTCAACGGAAACCGGACGTATTGATGAGCCCAAAGCGGCCCCTGTACGCCCTAAAGGCGACGGT -GTGGTGCGTATTCAGCGTCAGACCAGTGGACGTAAAGGTAAGGGCGTTTGCCTGATTACCGGTGTCGATC -TCGATGATGCCGAACTGACAAAACTTGCAGCGGAACTGAAGAAAAAATGCGGCTGCGGCGGAGCAGTTAA -AGATGGAGTTATTGAAATCCAGGGCGATAAGCGTGATTTATTAAAATCACTACTTGAAGCGAAAGGGATG -AAGGTAAAACTCGCAGGCGGTTAACATAAAAAGCCACGGATATATCCGTGGCTTTCGAATATTTTACTGT -GCGTATTATTCAGTTATTTCGTACTGAACAGAATCAAGCGTATTATAATTGCGAGTCGATAATCGACATT -TATTTACGATTATTTACCGACCTGGTGACCAATAACACCTCCGACAGCTGCACCACCTAATGTACCCAAC -GTACTGCCATCGGTCAGTACTGCACCGCCTAATGCCCCTGCACCCGCGCCGATTGCGGTGTTGCGGTCCC -GTTTAGACCAGTTAGAACAGGCACTCAGAGACATTGCCAAAGTAATTGCCAGAACAGCCGCGGTCATTTT -TTTGCTCGTTACAAACATAATACTCTCTCCTGAATTTATGATTCACGGAAGTAAGCTCTCTATAACTATA -ATAGCTAAGAATAAGTCTGGTGAAATTATTCCGTGAAATCTGCTCGCGCGCAGGGTTATATCACGCAGGT -GATAATGACTTCCTGTTATATCGCTGATAATAATTTTATATCTTGAGAGTGTTAATAACAGGTAAATAGT -CTTAATTATCAACCAGGAATCATCTTAGAGCGGATGATTTGCCAAACTGCAAATCATCCGTAGAGAAGGG -AAATGGTTAAATGTCAACGACGTGAATGGTGAGTTTACTGTGCTCAAGATGCATCAGATCGCTGGCGCGT -ATTTTCGAATCGGTAATCACGCGATTGAATCGCTCAACGGGACCGATGGAGTATGAATGTACAGCACCAA -ATTTCGAGCTGTCAGTCAGGACTATCGCTTCGCACTCTTTTTCCAGCACGGCATTGACCACATCGGTACG -CATCATATCGCGACCGGTAAATCCAGTTTCAGGTTGCCAGCCATCAATACCAATAAATGCTTTGCTGAAA -TGCACCTGTTGGATGCACTGGCGTGTCAAAGGGCCAACCATACTTTCGCTTTTTTTCTGATACACGCCAC -CGAGCAAAATAACTTCACAAGGCGCGTCTTTCAGCAAATGCGCGATGTAGCTGCTGACCGTGATGATAGT -GACATTTTTCTTCTGCTCGCCCAGAGTCCGGGCGAGTAGGGCATTGCTGCTGCCATTTTCGATAAAGATG -GTTTCGCCCGGTTGAACCAGCGACGCGGCAAACTCGGCGAGTTCACGCTTCAGCGTATAGTTGCTCATCA -TACGGGTTTCGACGTCATCACTATCAAGCGAAACAGCAAAGCCATGTGCACGGCGGAGGTAACTCAGTTT -TTCGAGTGTGTTGAGATCCTGGCGAATGGTAACTTCAGAAACTCCAGTGGCTTTTGCCAGATCGGTTACG -CTAACCTGACCCTGGTCAATGACCATCTGTAGAATAGTTTGTTGTCGGGAATTCATCGCTGTAATTCTTA -TAACGTTATAATACTTAATAAAAAAATACTGACGCGCCGGGCATCCTCAAATAGGAAAACCTGAAGGCAC -GATTGTTAAATCTCCCACGGTGCCTTCGGGATGTCTGGCGTAGATTCAGCAACCTGGCGCAAGAGTTCTG -CTTTAAGTATCTCGAGATTATGGATCGCAGAGTGGTAATCGCCTGCCACAAGGATATCTAACACAATATC -AATACGTTCGGCAACGCGCTGGGCATCAAATTCAGACATCAAGGACATCCTTATAGCAAAAGGGGGAAAA -TGAATAATGCAAAAATTGCCGCTAAAAGAGAAGTGTTTAACAGCAACGGCTAATTATCATCCAGGAATAC -GATATATAATGACGGGATATAGCGCTAAGTATATATATTCATCTACTTATGCGCGCTTCAGATAGCGTTT -ATACCAGCGTTCGAAGGCGACGGCGGGCATCGGTTTGGCAAACAAAAATCCTTGCCGCTCATTGATCCCG -TTCTTGGTTAAAAAAGCATCTTCCTTTGCACTCTCTACACCTTCGGCGATCACCTGAAGATTCAATGCCT -GGGCCACAGCGACGATCGCCCGGACCAGTGACTGCGAGACAGGTTGTTTGTGAATATCTCGAACAAAAAC -CTGGTCAAGTTTGATGGCATCGATCGGAAAGCGCGCCAGTTGCGAAAGTGAAGAGTAGCCGGTACCAAAA -TCATCCAGATGCACTTGCGCACCTAGTTGGCTAAATTGTTGAATAACAGACAGTGCCAGTTCATCATTCT -CAATCAGACAACTCTCTGTCAGTTCAACATCTATAGGGCAGTATTCAAAATTGAGTTCCTGGAGAACCTG -TTTCAGGGCGGTGAAAATGGTTTGATCGGCGAGCTGACGTGCAGAAATATTTACCGCCACTCGCAGGTTT -ATGCCTTTATCCCGCCACTTTGCCACCTGGCGTACGACATCGAGAATCACCCAACGGCCTAAAGGCACAA -TTAGCCCTGACTCTTCGGCGTAGGAAATGAAGTCCAACGGTGGAATCAACCCACGTTCAGGTGACTGCCA -ACGTACTAGTGCTTCCAGACTGCGCACTTCGCCACGCCAGGTGATTTTCGGTTGATAGTGAATAACCAAC -TGATCGTTTTCCAGTGCTTTACGCAAGTTGGTATCCAGCCAGAGATATTCAAATACCCGTTGATTCATTT -CTGGGGTAAAAACGCAAAATTGTCCTCGTCCGCCTTCCTTCGCTGTGTACATTGCTGTGTCGGCGTGACG -AATAATAGCCGTGCTGTCTGAACCATGTTCGGGAGAGAGTGCAATACCTACTGAACAGCTGGTATAAACT -TCAATTAAACCAATGCGAAAGGGGAGCCGTAAGCGGGTCAAAATTCGTGATGCCATTGCTTCCAGCGCGC -TTTGTGAGGTGTTGGATGCCAGTACCAGAAACTCATCCCCACCTGGACGCGCCAACACCTGGTCATGTTC -GAGACAGCTTAAAATAGCCAATGACACGTCGCGTAATAACTGGTCACCAAACAAATGCCCATAGGCGTCG -TTGACCTTTTTGAAATTATCCAAATCAAGATACACAACCCCAACTTTATTGTTATCTGCATGATTAATAG -CGTGATCGATTAAATCCTGCATTGCGTTACGATTCGGCAGTCCGGTGATACTGTCGGTATTTGCCAGAAT -ACGCAGTCGCTCCTGAGCGCGGCGCTCTTCGGTAATGTCGGTGCCGGAACAGATTAAAAAAATCTCGTTT -TTGCCACTGCCGCTGTGGACAAATTTATTGCGAAACAGAAACAGCCGCTGGCCTTTACATGTTGGTATCC -ACAGTTCGACTTCATATGCATTGCCGCTTCGAAAAAATACACGGTTATTGCGCCTGGATGCCGCAGCTTC -ACGACGGCTCATAAACAGTTTAAACACGCTTTGCCCAATGACGTCGTGTTCTTTCAACCCTGTGTAATCT -TCACATAACCGATTGAAGCGTTGGATATTCCCCCGGCTGTCGAGAATCACTATTGCGGAATGTGCTTCAG -AAACTACCTGCTCAGCAAAGGAAAGCCCGTGTGATAAATCACGAGCAACCGCCGGTGTGTCATGCCATGC -AGACGCGTTGCCAGCCCATTCCCGTTTATTGATTTTTCGTCCTACCAGATGCACAGAAAGATCGCTTTCA -TCGACGGTCAGACTCATCATCAGGCTGGAGGTGATGACCGTCATTTCCCTGATGCGAGCAGCCTGTTCGG -CAGATAACTGCAATGTACGATCAGGTTCTGTGGTTTCGGTGGTAGAAAAGCGCAAAACATCGCTGCTTTC -CGTCAACCGCCAGTATGGATTGTGCGATCCGAGAAAGTTGTACAACGTTGTGGACTCCCTAACGGTTTTC -ATGATGCATATCCTCCGGTTAACAGCGGAGTCCGCGGTTAAATAAAAGGAACAACATGACTTACATGAAA -TTAACGGCGGCTAAACGCATTGTTTTTTTTATATATTTATTTGTAATCCAGTTTTGGAAAAACGCCAGTT -TTCAAACGAAAGTCAGTTAAAAAATCTGCCTGGATATAACGAAGGTAGAGCGGGGAAATAAACGGCCCAT -CCATGAGGAATGGGCCGTGAAAGGAGATTACGCGACCGGGCGCGCAATAATGCTGCGGGTTTCCATGCGG -ACTTCGGCAATAGTGACGTCAATAACGTCAGTCACTTTGTAAACCGTTTCACCTTTAATTTGTACAGTGC -CGTTTTCCTGGCTGCAAACCAGTTCATCGCGCACAGCGTGTAAGAAAGGTGCCGGAATAAAGGCGATAGC -GCCGTTATCAACCAAACGAACACGCATGCCGCCACGGCTGATATCGACAATTTCCGCTGCGAAACGGGTG -TCGGTCCCGGCTTTGTCTTTCAGGAAGCGTGCGTATAACCAGTCACCAACATCACGTTCTGCCATCCGGT -TGAGACGGCGACGCTCGGCCATTTGGACAGTGATTTCATCCTGTGGGCGCGTCGCAGTTTCGCCTTTGAT -AACCGCTTTCAGCAGACGGTGGTTGATCATGTCGCCATATTTACGGATCGGCGAAGTCCAGGTGGCGTAT -GCTTCCAGACCGAGGCCAAAGTGAGGACCGGGTTCAGTGCTAATTTCAGCAAATGACTGGAAGCGACGAA -TGCGGCTGTCGAGGAAACCAGTTGGTTGCGCGTCCAGTTCACGACGCAGTTTGCAGAAACCGTCCAGCGT -GAGCACTTCTTCGGCATCGACATGCAGACCGTGCGTTTTCAGCAACGCTGCCAGCGCGTCGGCATTCGCC -GGATCAAAGCCCATATGCACGTTATAGATGCCAAAACCGAGCTTATCGCGCAGTACGCGGGCCGCACAAA -TGTTAGCGGCAATCATCGCTTCTTCGACGATACGGTTGGCAATGCGACGAGGCTCGGCGACGATATCCAG -CACTTCACCTTTTTCACCGAGAATAAAGCGGTAATCCGGGCGATCTTTAAACACCAGTGCGTGGTTATGA -CGCCACTCGCCGCGGCGTTGGCAAATTTGCGCTAGCAAACGGACTTGTTCGGCAATTGCTTCACTTTCAG -GCTGCCAGTCACCGGTATTTTCCAGCCAGTCAGAAACCTGGTCATACACCAGCTTTGCTTTGGATTCGAT -GGTGGCGGCAAAGAATTCGATATTATCTTCAATGGTGCCATCAGCGGAGAGCGTCATGCGGCATGCCAGT -ACCGGGCGGACTTCATTGGCGCGCAGTGAGCAGAGATCGTCAGAAAGCTCGCGAGGCAGCATAGGGATGT -TGAAGCCAGGCAGATAGTTGGTGAATGCGCGAATTTTCGCGGCTTTGTCCAGCTTGCTGCCTTCAGCAAT -CCACGCGGTTGGATCGGCAATCGCCACAATCAGCTGAAGTTTGTCATCCGGCAACGCCTTAGCGAAAAGG -GCGTCATCCATATCTTCTGTGCTGGCACTGTCGATGGTGACAAAATCCAGCGCGGTCAGATCTTCACGAA -CCAGACCTTCATCGAGCATTTCGGTAGCGACGCCGTCTGGTGCTTCTTTTTCCAGATTATGGCGTGCAAG -GGTAACCCACCACGGTACAAAGTGATCGTCACCAAAAGTGATGTATTGTGTCAGTTCTGCATAGAAAGAA -CGATCGCCTTTCAGCGGATGACGGCGCATTTCGGCAACCGCCCAGTCGCCTTCTTTAAACTCGTGGTTCA -GGCCACGGGCTGCGCGGCAAGGAATGGCGTCTTTTAAGAGTGGATGATCAGGAACGATGGCCAGACGGTC -ATTTTTGCCCTGAACCTTACCCACGAAACGAGTCAGGAACGGTTCAACCAGTTCTTCTGGCTCTGCGGAT -TCACGTTCTTTTTCACTGTGGATCACCGCGATAATTCGGTCGCCATGCATGACTTTTTTCATCTGCGGCG -GCGGAATGAAATAACTTTTTTGCGCGTCGACTTCCAGGAAGCCAAAGCCTTTTTCTGTGGCTTTTACCAC -CCCTTCAGCGCGTGGCGTCTGGGAATGCAGTTGCTGTTTAAGCTGCGCTAGCAGCGGGTTGTCCTGAAAC -ATAATTGTCTATTTTGGTGGCCATTAGAGCGGCTGACAGTTTTACGCGAATCTGTCTGACGCGGCAAGGT -TAATATGTCTCACCCAACGCGATTTTTAAGCGATTTATCCAGCCACACAGCCCGCTCCATACCAGCAGAT -TAATAATCTGCGTTGATGATTTTTCGTGTTCGAGTAAAGGGCTGAACTGGGCGGCGCTAAAGCGATCGGG -TGCTCGGGTCAGCCATTGTATCGCCTGAACGGTAGCGCGCTCAACAGAATGACGGTCAGCCCATTGGTTA -ATTTCATTTTCGCCCTTGCGCATAAGGGTGCTGATTTTTTTATATTCATTTGATGAATCCATACAGGTGG -CAAAACAAGCAGGACTGCCATTTATACGCGCGCATAACAACGCCGCAAGCTGATTATCCGGCTGTGTATT -GCCCCGTGTGCTGTTTAACAACTTTTCGAGAAGGGAAAGTGAAATAGGGTGGAGAGAGAGTATTTCGGCC -AGTTGGCAAAGTTCTGCAGTTGAACTTTTTGTGTGCTCTTCAGGTAGTTTTTCCACCTCATAGCTGCTTC -GCCAGCGTAATGATTCATCAGCAAACAGTGACGCGTCGGCGTAGTTTTGTATCTCCAGCCCGGGTAACCA -GCGTACCGGATGCCCGAGATAAGCCTGAAATGTCGCAATTGTCCGCGCCTGAAAGCCAATAAAACCAATG -ATTTGGCTAATGATCACACAGTCCCAGGCAGTAAGACCGACGTCATTCAGATGCTGGCGCGATCGGTTGT -CGATAATAGAAGGCGAGCTAGCCAGTTGGCGGGCATATTGCGTGATTTGTGCCAACCGATGATTACTTTC -CCTGGTGGAATCAGGCCCGGGGAGCGGCGTAAGTCGCGCCGAATAGTAGTTACATAACCGCTGGACGCCG -CAAACCTGAGCAACCGTCAGGGCCGTCGACAAGCGTTCATAAGCGGTGAAGGTCTGTGAACGGGTCACGG -TAAGCTGGTCAGGGAACAAATCCACTGCAAGAACACGCGCAGGGTCCAGCCATGAAAGGAAGGGGGCCAG -CGTTTCTTTTTCAAGGATCACGTCGAGTAGAAAGGGATCGCTGACCTTTGCGGCTTCCGGGACCAGAGGC -AGAACGTCATACTCCGTAGTACTGGATTGCGTTTCATGATACCAGTGGCTTTTGCCGGTGATGTGGCGTT -GTTCCATGGGCGCTCCTTGGTCGTAAAGGAAATCGTTATCCTGACGCAAGGCGGGAAGGGGAGAAAGACG -GATCGGCGATAACAAATATCAGAAAGGTATAACAGAGATAACGGGCGGCAGAACGCCGCCCATCTTTACC -AACAGAACGATTATTTCAGTTCGAGTTCGTTCATTGCAGCAATGCTGAAACCGCCGTCAACGTGGACCAC -TTCACCGGAGATACCGGCAGAGAGATCGGAGCACAGGAATGCCGCAGAGTTACCCACATCTTCAATAGTA -ACGGTACGGCGAATCGGGGTAACGGCTTCGCAATGAGCCAGCATTTTGCGGAAGTCTTTGATACCGGAGG -CCGCCAGAGTACGGATCGGACCAGCAGAGATGGCGTTAACACGCACACCTTCCGGACCCATCGCGTTCGC -CATATAGCGCACGTTCGCTTCCAGAGACGCTTTTGCCAGACCCATAACGTTGTAGTTCGGGATAGCGCGC -TCAGCGCCAAGGTAGGAAAGGGTCAGCAGGGCAGAACCCGGATTCAGCATGGAGCGGCAAGCTTTTGCCA -TTGCAACGAAGCTGTAGGAGCTGATGTCGTGGGCAATTTTGAAGCCTTCACGGGTAACGGCGTTAACATA -GTCACCATCCAGCTGATCGCCAGGTGCAAAACCAATAGAGTGTACGAAACCGTCAAATTTCGGCCAAACT -TTCCCCAGTTCAGCGAACATGGTGTCGATGCTGGCATCTTCTGCAACATCGCACTGCAGAACGATGTCAG -AACCCAATTGAGCGGCAAATTCTTCTACGCGGCCTTTCAGTTTGTCGTTCTGGTAGGTGAATGCCAGTTC -AGCTCCTTCGCGGTGCATCGCCTGAGCGATACCGTAGGCGATGGATAGTTTGCTGGCAACACCGGTTACC -AGAATGCGCTTACCGGAAAGAAAACCCATAGCTTTAATCCTTATTGTTGATGCTTGTTGTGCCTGAAAAT -CAGGCGATTCGTCGTTTTAGTAAACAGTACGAACAGATAAACGGTTATTATAATCAACCTGGCTGTGAGT -AGCTATAGTTGCCAGGTCCGACCGGAGCAGGCTGCGGCAGGGGGGGCGCTTTTCCCCTCACCCTAACCCT -CTCCCCAGAGGGGCGAGGGGACCGTATTGTGCAAATATTGTTACCCCAGCAACAAACAGGCTCATACAGC -CCCTAACCCTTTCATGGCGATGGCTGGGACGGTTCAGACCTTGCCGAATATTCTCCAGCACCGTCTCCAT -GTTTTCACCACAACAGCTATTCGGCTCGGTCTGCCCCCTCGCTCTTTCAGGGAGAGGGTGACCGGCGGTT -CAGTTCCTGCAGAATATTCTCCAGCACCGTCTCCTCATTACAATCAATCTCGTTATTCCAGAAACGCAGC -ACGGTCCAGCCCTGCGACTCAAGCCAGCTAGTGCGCCTGGAATCATAGGCAACTGCTAAATCATGCTGCC -CACCATCCAGCTCAACGACTACACGCGCCGAGCAGCAAGCAAAATCGAGAATGTAGCTCCCCACTGGATG -TTGACGGCGAAATTTGAAATCACTAAAACGTCGGCTGCGAAGATATCGCCAGAGCTTTCGTTCCTGCAAA -GTGAGATTGCGTCTTAAATCACGCGCATTTGATTTAATTTTATCTATCACCTCATTCTGACAAGATTTAA -TCTTTTGTCAGAATGAGGTGAATAATCTGGAAGGAGGATTCAGAAAATTAGCGATCTTTACGCCACGCAT -CCGCCGTCAATGCCTCGCCAAAATGACCGGCAATCAGCCGTTTGGTGAGTTCATGCAGCGGCGATGCCAG -CACATCCGCGGTGCTGCCTCGCTCGACAACCTCGCCCTGATGCATCACCAGCACCTGGTCGCTAATGTGC -TTCATCATTCCGATATGCTGGGTAACATAAATATACGAAATGCCCTGTTTTTCCTGTAATTCCAGCATCA -GATTAATCAACTGCGAACGCATCGACATATCCAGTGAAGCGAGGGCTTCATCGGCAATAATGACTTTTGG -GCGCAATATCAGCGCGCGCGCCAGACCCAGACGCTGTTTTTGTCCGGGTGCCAACATATGCGGATAGTAA -CTGACGTGATCCGGTAGCAGCCCAACCATACGCATCGTTTCAATAATCTGTTTGCGACGCTGTTCCGGTT -CCAGGTCGGTGTTCAGGCGCAGTGGAAAATCCAGAATTTGCGAGATACGTTGACGGGGATTCAACGAGGT -CGAAGGATCCTGAAAAATCATGCGAATACGCTGACTGCGGAAGGAATAATCGCCAAAATGCAGTGGATGA -TCGTCAATCAATAACTCGCCGCTGGTAGGCTCTATCATTCCCGCCAGCATTTTTGCCAGCGTGGATTTAC -CCGAACCATTCTCGCCAATAATCGCCAGTGTCTGGCCTTCACGTAGCGTAAAGCTCAAGGGTTTTACCGC -TTCTACGGTCTGACGACGAAACCAGCCGGTCCGGTAGCGGAACGTTTTACTTAAATTACGCACTTCAAGC -AGCGTTTCGATCATCTCACTCTTTCTCCATGTTCAGCGGGAAATGACAGGCATAGAGATGATTTTTCGCC -CCCGTCAAACGTGGCGTCACAATGCATTCTCGTTGTGCATACGGGCAACGTGGCCCCAGACGACAACCAA -TCGGTAACTGTTCCAGCAGTGGGATAGCGCCGGGCAGCGTATTGAGGCGACTTTTATGCGGCATCGCGCT -GCCGAAGTCTGGTATCGCGCGGATCAGCGCCTGGGTATAAGGATGATGTGGCATCGTCACCAACTCCTTA -CTCGGCGCGGTTTCCACTGTTTGACCGCAGTAAAGCACGTTAATTTTATCCGCCCATTGGCTAAGCATTT -GTAAGTCATGGCTGATAAGCAAAATAGTGGTATTGCTGTTTTGGTTGAGACGCGTCAGCAGGCGAAAGAT -TTGCGCCTGGGTTGTTGGCTCCATTGAGTTGGTCGGTTCGTCAGCAATCAGCAGACGCGGTTGATTCGCC -AGTGCAATGGCTATCATCACTTTCTGACATTCACCTTCGGTCAACTCATAGGGAAAACTGCGCATCGCAT -CTTTGTGATCTTTAATCCCCACGCGGTGCAGCAGTTCAATGGCACGGCGTTTGCGCCAGCCAAAACGCTG -CCACCAACGGCCTTTATAGGTCCAGGCTGGGATGTTTTGCATCAACTGGCGGCCCACACGTTCTGAAGGG -TCAAGACACGACTGCGGTTCCTGGAAAATCATCGACACGTTATGGCCAACCAGTTTGCGCCGTTCGCGTG -CGGAGAGACGCAGCAAATCGATATCATCAAAACGCATACGGTCAGCAGTAACACGCCAGTTATCTTTATT -CACCCCACAAATCGCTTTCGCAATCAAACTCTTGCCGGAACCGGATTCACCAACAAGACCGCGGATTTCA -CCTTCGGTTAAGGTCATACTTACCCGGTCGACGGCTTTAACCCACTCATCACCGGTTTTAAATTCAATGG -TCAGGTTACGAATATCGAGTAATGGCATTATTCCACCCCCGCAATAATCGCACGACGAACGCCATCGCCA -AGGAGGTTAACCAACAACACGCTAATCATAATTGCCGCACCTGGCAGCATGACAGTCCACGGGGCGACAT -AAATCAGTTCCAGCGCATCACCGAGCATCGCTCCCCATTCAGGCGAGGGGAGTTGTGCGCCGAGATCGAG -AAAGCCCAGCGCGGCGATATCGAGAATTGCCATCGACAGTGCGCGGGTGATCTCGGTGACCAGCCCGGCG -GTGATGTTTGGCATCACAGCAAACCAGAGAATATTCAGCGTTGATGCGCCATCCAGACGGGCGGCGATAA -CGTACTCTTTTTCCAGTTCGTCATGCACCATGCTGTAAATCGAACGTACCATACGCGGCAGCAATGCCAG -CCAGACAGCAAACATAGCGTGGGACAAACTCGGTCCGGCAAACGCTACAACGATAATTGCCAACAGCAGC -GAAGGGATCGCCAGTAAGGTATCCAGAATATGGTTAAGCACCGCTGAGCGGAGGCCGTGTGTCGCCCCGG -CGAAGGTGCCCAGTACCAGGCCACAGATCGTCGCGGCAAGCGTCACCACAAATGCGCCACCCACGGTTGG -CGCAGCTCCGCTCAGTAAACGGCTTAAAACATCGCGTCCGAGGTCGTCAGTCCCCAGGAAGAAAGAAACT -TCGCCATAGCGCGACCATGACGGCGGCAATAATTGATAACCGAGAAATTGCTGGTCGATGCCGTAAGGCG -CAAACCAGCCGCCAAAAATACACAGTACAGCCAGCCCCGCGCAGCCGTACAGGCCGACCATCGCAGAGGC -GTCACTATAAAATTTGCGCCAGGCGGTACGCAGCGTGCCCGGCGGGCGCTTTTCGCTGTATACGCTATCG -TAAGGCATACCATTCCTTATGTTTCAGAGGGTTAGCCATGGCACCCAAAATATCAGAAATCACGTTAACA -ATAATGACCAGTGAGCCACACACCATCACTCCGGCGGAAATGGCTGCGTAATCCTGCTGGCGGATGGCGT -TAATTAACCAGCGCCCTAAACCCGGCCAGCTAAAAACCATTTCGGTGATCATCGCCAGCGTCAGCATGGT -GGAAAACTGTAAGCCCAGGCGAGGAATAACCGGCGGTAACGCGTTATGCAGAACGTGGCGACGCAAAATA -GTAAAGCGCGACAAACCGCGGGTCGCCGCCGCTTTTACATAGTTCTGGTCATACACTTCGATAGTGCTGA -TACGCATCAGGCGGATCACTTCAGTTGTTGGCGCAACCGACAGGGTGATCACGGGCAATATCATATGGCG -GATTGCGCTCATGATCATTTCATCCCGCCATGGTGAGTCCGAAAGCCAGGCATCAATCAACGCAAAACCG -GTAATCGGTTTCACTTCGTAGAGCAGATCGAAACGCCCTGAAACGGGCAACCAACCTAGCGTGAGTGAAC -AAAACAGCGTCAACAGAAGCGCCAGCCAGAACACCGGGATTGAAAAGCCCAGTAAGGCGATGGCGTTGAT -CAAGTTATCCTGCCACTTATGGCGCGTAATCCCGGCAATCATCCCCACGGGGATGCCAACAATCAGCGCA -AAACCGAAGGCGAGGATGCACAGTTCCATCGTCGCCGGGAAGACCTCTTTTAACTGTTCGGCAATCGGTT -GACCGTTAATGCTGGAAACACCAAAATCCCAGTGGATCAGGCCGTTAAACCAGAACACCCAGGCATTCCA -CAGTGACGCGCCTTGTAACGGCGCATGAGGGGTGAAATAGCTCAAGCTGAAGCCAACGAAGGTCAGCAGG -AACAAGGTGACAATCAATAACAAAATGCGGCGTAAGGTGAAGATAATCATGGTTTTTTCACCTCATCCTG -TTTCTCGCGATACACCCCAGCAAAGGAGGCGTTACCAAACGGGCTAAGTACCAGACCTTTGATATCGTAC -CGATAGGCCTGCAAACGCAATGACGACGCCAGCGGCAAAATGGGCAATTCCTGCGCCAGAATACTCTGCG -CTTCGTCATAGGCTTCAATACGCGCCGCCAGCTGCTGCGAAGAGAGCGCCTTACGCAATACGCTGTCGAA -TTTCGGATCGCACCAGTGGGCGAGGTTGGTCTGCGAATGAATTGCCGCGCAGCTCAGTAACGGACGGAAG -AAACTGTCCGGGTCGTTACTGTCCGTCGCCCAACCGGATAACGTCAGATCATGGCTCATATCCATCAACC -GCGCCTCCTGAAAGCGACCTTCTACCGGCACAATCACCACTTTTACGCCAACCTGCGCCATATCCGCCTG -AATCAGTTCGGCAGTTTTCAGTGGACTGGGGTTCCACGCCTGCGAACGTGTGGGCACCCACAGTTTCAGC -GTTAAATTTTCCAGCCCCAACGACTTCAACTGTTCGCGCGATTTCGCCGGATTGTATTCAGTAATTTTAG -CCTCGTTGTCATAGGCCCACGAGGCGCGCGGTAAAATAGAGGCCGCCGTTTCAGCCGTACCATAATAGAT -GGATTGCATCAGGCGCTGGTTATTAATCGCCAGTGCCAGCGCATGGCGGACAGCGGGATTATTTAGCGGC -GGTTTGGCGGTGTTAAATGCCAGATAGGCGACGTTCATCCCAGGACGCAGCGTTAAACGCAAGCGCGGGT -CGTCACGCAAAATGGATAGCTGGCTGGCAGCAGGCCAGGCCAGAACGTCGCATTCCCCGGTCAGGAGTTT -CGACAGACGTCCGGTGCCGCCGGAGCCTAAATCCACCACTACCTGCGGCATTAACGGTTTACCGCGCCAG -AAGTCATCATGACGTTGTAGGCGAATAAATTGCCCGGCGCGGTATTCCGACAACTGATACGGACCGGTGC -CGACCGGTTGACGGTCGAGTTGCTCCTGGCGATCTTCTTTCTCTAACTTCCGGGCATATTCTGCCGACAT -GACCGAAGCATAATGGGTTGCGAGGTGCCACAAAAAAGAAGCATCCGGCTGGGCGAGTCGGAACTCAACG -GTATGATTATCCAGTTTGCGGACGCTTTTCACGTTATCGGCAAATTGCAGGCTGTCGAAGTAGGGGAAGT -TGCTGCCGTTGACGTTATGCCACGGGTTGTTGCGGTCAAAAATTCGCTGGAAGGTAAACACCACATCGTC -GGCATTCATTTTACGAGTGGGAGTAAACCAGTCGGTTTTTTGAAACGGAACATCGCGACGCAGGTGGAAG -CGATAGGTCGCGCCGTTGTCGAGTACTTCCCAGCTTTCGGCAAGTTCCGGCATCAGGCGATAGGTATAGG -GATCGACATCCAGCAGTCGATCATAAAACTGGGCGGCAAGGGTATCGACAATTAACCCACTGCTCGCTTT -GGATGGGTTAAAGGTGTTGACTTGCCCGCTGACGCAATAGACAAAACCGCTGTCGCGGATATCAGCATGC -GGGGGAGATTCAGGCGCGGCGATTGCCTGACCACTCACAAGTCCAGCAATCACCAAAAGAGACGATAATA -CCTGGCGCATAATATTAAGGGATTTTATGTAAAGAGGCTATCTTACTAATATTTAATGACATTTGCCATT -ACCGTTTGTGTTCAGGGGTCGTAATGAGGGCTGTGTGGTTGGTCGTTGAACAGGTGACGTCGCCATCTGT -TCAACATTCGTACCCGTGATTTCTCTATAACTATAACTCACAGAACAACTTAGCGAGGAGCAGAGCGGTA -CGATCGTGAGAAACCCATTAAAGCACGCTGCAGTGCGTGTCATTGTTAGCCAGATGCGGCGTGAACGCTT -TATCCGGACAACGATACTGACCGATCGTCTGCAATTAAATCATTACTCATTACCCCATTGATTCAAAAAC -TCTGCGATCTCATCAATGCGTACGGGATTAATCCCCGCTTCAGCAGCCATTTCATGTTGGGCTTCTTCGC -TGATCTCTTCATTGTTCATCAAACGGGTGAGCAGTAACTGGAAGTAGTGGGCCAGCGGTGTGCGTTCAGC -CTCTGCGACAGGCTCTGCGCATTCGGTCGCGTACTCATCGGCAATATCAAAATATTTTAGCGGGATATCG -TGGTTCATTATTTGCCCCTGGGGTTAATGCGCTAAGCATAAGGGCGGATGATAGCACTCGTGATCCGGGT -CATACATCTTTTTATAGTTAATGGCGCGGCGCGTTACCCTCAGGCAGGATAATGCGCCGCGCATCCGACT -ATTACGTTTCACTCACCGGCGTTCTGTCACCATCATACAACGGCACTTTGCGATAGCGGCGGATCAGATA -CCATAAATATGCGCCGCCTAACGAAGCCCATACCAGACCGAGTGTCAGTGACGTTGACTCGAGGTTAACC -CACAGCACACCCACCGTCAGCGCGCCAACCAGCGGCATCAGCAAATAGTGGAAGTGATCCTTCCAGCTTT -TATTCATTCCTTTACGCCGCCAGAAATGATTAAACACCGACAGATTCACGAAGGTAAACGCCACCAGAGC -ACCGAAGTTAATTAACGCTGTGGCGGTAACTAAATCGAAGAACAGCGCCGACAACGCGACAATCCCGACC -ATAATGACGTTGAGTGCCGGAGTCCGCCATTTTGGGTGCACATAGCCAAACACGCGCTCCGGAAACACAT -TGTCACGCCCCATCACATACAGCAGACGCGACACGCTGGCATGTGAAGCCAGGCCAGAGGCTAACGTGTT -CACAAACGTGGTGCAGAGGAAAATCGACTGGAAGAGCTTGCCGCCGACGTACAGCGCAATTTCAGGCAGT -GCGGCATCCGGATCTTTAAAGCGGCTGATATCGGGAAAGAACAGCTGCATAAAGAACGACGCCGCGATAA -AGATAACGCCACCGTAGACCGCCGTCAGGAAGATGGCTTTCGGGATCACGCGTGCGGCGTCCGGCGTCTC -TTCCGAAAGCGTGGTCACCGCATCGAAACCGAGGAAGGAGAAACAGACAATCGTCGCCCCGGTAATAATC -GGGATCAGGTGCGCGTTCTCGCTGATAAACGGCTGAAGTGACCAGACGGTGCCAACGCCTTCTCCTTTAT -GCAGTCCCTGAACTACCAGGAAGATAAACACCACCATGATGGAGATTTGCACCAGTACAAACAGGGTATT -GAAGTTAGCGACCAGGTTGACGCTCTTCAGATTCGCGGCGGTTAAAATGGCGACGAAGGTTACCACCCAC -ACCCACGGCGGCACTTCCGGGAAGAGGGCGGAGAGATAGATTTTCGCCAACAAGACGTTAATCATCGGCA -AAAAGAGACAATCCAGCAGCGATGACCAGCCGACCATAAATCCGACGTGCGGGTTAATCGACTTTTGCGC -GTAGGTATAGGCCGAACCGGCCTCCGGAAACTGGCGAACCAGTTTGCCGTAGCTGATAGCGGTAAACAGC -ACACCCGCCAGCGCCAGCAAATAGGACGCCGGAACGTGACCGTCGCTAATGCCGGAGACAATACCAAAAG -TATCAAATACGGTCATCGGCGTGAGATAGGCCAGACCCATCATCACCACCTGCCACAATTTCAGTGATTT -TCGCAGACGGGTTTTGCCGGGTTGCGCAGCAATATTCAGTGGTGAATTAATAGCCATAATTGCTGCCTCC -CCTGCGTAATAAGGTTTGCGGTCGTGTCGACCTGAAATCAAACCTGTTTAGCAAGGGAAGCAAAGGGGGC -GGAGTCCAGTCAGTAGCAGGAGGGGCGCATACGCAGCCTCCCTCGCCATGCGGGGATTTAATCATCGGCA -TCATCTCATTTCCTCGTCACAGTCTTAATCGTTAACGGAAGCCCGTTGCCGCCCGCGCTCCATAACGCGA -CATCCGGGAAATGTCTGGATTACCAGCAAATGTCAGGCCTGGCTCCGCTCAGGCCGATGAAACAACCCCG -CAAGGGGTATTACGCGTTTTTCAACATCCACTCAATTTCTGTTTCTGTGATGAGGCGCTCAAACTGCAAC -AGCTCATCATTTTTACAGGCGTGATAGACATGGCAGAAGCGTTCGCCTAAATAGCGGCGCAGGTGATCAT -TCTCGATAAACTCACCCAGGGCATCGCTCTGGCGAATCGGAAAGGGTAAGCCTTCCTGTTCCAGCCCGTT -GCCTTCGACTTCTTCCTGCAACGGCAGCTCGTTATCAAGGCCATGCAAAATACCGGCAAAAATCGCTGCC -ATCACCAGATATGGGTTGGCATCGGCACCCGCCACGCGATATTCCACGCGGTGATTATGACGGTCGCCGC -ACGGAATACGCAGGGCGACGGTGCGGTTGTTATGGCCCCACGACGCCTGCGTCGGCACATACATTCCCGG -CTGGAAGCGGCGATACGAGTTCACGTTTGGTGCCAGCAACGCCATCGACGACGGCATCAGGTCAATCATC -CCGGCGAGCATCTTTTTCAGCAGCGGCGAATCTTCGCCTTCCGCGTCAGAAAGCACGTTCTCGCCACGAT -TATTTTGCATACTGATATGGATATGCATTCCGCTGCCCGCGTGCTCTTCATACGGCTTCGCCATAAAAGT -GGCGTGCATCTTATGCTTTTCTGCCATCAGACGCACCAGGCGTTTTAGTGCCAGCGCATCATCGCAGGCT -TCCAGCACGTTATCAGTATGGTAAAGGTTGATTTCAAACTGACCCGGCGAGGCCTCAGCGACCGCGCCAT -CTGCCGGAATCAGCTGTAACTGCGCCAGTTCATCAATATCATTGAGCACGTCGGCGAAGTGGTTGAGGTT -ATCAACGGAGTAAACCTGGCTTTGTGTATTGCGGTCATCGGTGCCAGGCGCGCAGGGCGGTTGCAGATAC -CCTTCAGCGTCGCGCTGGCGATCCAGTAAATAGAACTCCAGCTCTACCGCTACGACCGGGAACAATCCGC -GCTGGCGCAGCTGCTGCCACAGGCGGTTAAGAACGTTCCGCGGCTCAACGTCAAAGGGAGCGCCATCTTC -ATCGACCATGGTCAGGAGCATCTGACCGATAAACTCTGGATCGGCGGCAGAAGGAGTTAAGGAACCGAGA -ACAGGAACACAGGTACGATCCGGCTCGCCCATTTCCTGACCCAGACCTGCTTCTTCTACTACGTTGCCCA -GAATATCCATTGCAAATACCGAGGCCGGGAAATAACACCCTTTCTCGAGCTTCTTCAGGCTTGAAACAGG -AATACGCTTTCCACGGAAGCAACCATTTAAATCGGTAAGTAAAACATCAACATATTGCGTATTCGGGTAG -CGCTCCAGGTAGCGTTTCACTTCCTGCGTAAAGGCGCTACCCCGCCTCTCTTCTGACTGCTGAACAAAGT -TCTCTACTTCAACGATATTGGTTTCCATGATTCTTCGCCTTTGGTTTGTTTTCCGCTCGTTATCAAAGCG -TAAAATATAATGACCACCATTCGAATCTGTATGCAAACTAAATGTTTGTCAAATGTTAAATTGAGTTTGC -AAAAATGAAAACCCACTGCTAGATTGAAAAAATATTGAACATAAAGGTCATTTAAAGCGCAGTAATGGCG -ATAATTTAGTCCACTTTGTGAGATTGAGCATGGAAAATATAATGAACAATCCGGTTATCGGTGTCGTAAT -GTGCAGGAACAGGCTTAAGGGTCATGCGACCCAGACTCTGCAAGAAAAGTACCTGAATGCCATCATCCAT -GCAGGCGGCTTGCCTATTGCGCTACCACATGCGCTGGCGGAACCGTCATTACTTGAACAACTTTTGCCGA -AACTCGATGGCATTTATCTTCCTGGTAGTCCCAGCAATGTGCAGCCGCACCTATATGGTGAAAACGGCGA -TGAGCCTGACGCCGATCCCGGGCGTGATCTTCTGAGCATGGCGATAATTAATGCCGCACTCGAAAGGCGC -ATCCCCATTTTCGCCATCTGCCGGGGTTTACAAGAACTGGTGGTGGCAACCGGTGGTTCGTTGCATCGCA -AGCTGTGCGAACAGCCTGAATTGCTGGAACATCGGGAAGATCCCGAACTGCCGGTGGAACAGCAATATGC -ACCGTCGCATGAAGTTCAGGTTGAAGAGGGGGGATTACTGTCTGCGTTGTTACCTGAATGTAGCAACTTT -TGGGTAAACTCTCTACATGGACAAGGGGCGAAGGTCGTTAGCCCACGGTTGCGTGTTGAAGCTCGCTCGC -CGGATGGCTTAGTTGAGGCGGTTAGCGTCATCAATCATCCTTTTGCGCTGGGCGTACAGTGGCACCCGGA -ATGGAACAGTAGCGAGTACGCGCTTTCGCGTATATTGTTCGAGGGCTTTATCACCGCTTGTCAGCACCAT -ATCGCTGAAAAACAGCGACTCTGACCACTACAGTTTAAGGAAATGCAAATATGAGTGATGAGGGACTGGC -GCCAGGAAAACGCTTGTCGGAAATCCGCCAGCAGCAGGGGCTTTCACAACGTCGTGCCGCCGAACTCTCC -GGGCTGACTCACAGTGCTATCAGTACGATAGAACAAGATAAAGTCAGCCCTGCCATCAGTACGCTGCAAA -AGCTGCTGAAGGTGTATGGTCTGTCACTCTCGGAATTCTTTTCCGAGCCGGAAAAACCTGATGAGCCGCA -GGTCGTCATTAATCAGGACGACTTAATTGAGATGGGTAGTCAGGGTGTGTCAATGAAGCTGGTTCATAAC -GGTAACCCGAATCGCACGCTGGCGATGATCTTTGAAACGTACCAGCCGGGCACAACCACTGGGGAAAGAA -TTAAGCATCAGGGTGAGGAAATAGGCACTGTACTGGAAGGTGAAATTGTTCTGACGATTAATGGTCAGGA -TTACCACCTCGTCGCGGGGCAAAGTTATGCCATTAATACCGGCATCCCGCACAGTTTCAGTAATACGTCG -GCAGGTATTTGCCGAATTATCAGCGCCCATACGCCCACCACGTTTTAATCTTTTTGTTCTGTAAGCCGGG -TAAGCGCAATGCGCCCGGCAATCTATACACAAAATCATTCAAGTTGCATCAAGGCGGCAAGTGAGCGAAT -CCCGATGAGCTTACTCAGGTAAGTGATTCGGGGGAGCGAACGCAGCCAAGGCAGAGGCGGCTTGAAGGAT -GAAGTGTATATAAAGAATGTCGCCAGAAATAAACGGGCATACGGCCCGGGGATCTCTGCGCCCTGACGTT -CACAAACTGCATATATCTGATAGACGTGAAACAGGAGTCATAATGAATTTTCATCATCTGGCTTACTGGC -AGGATAAAGCGTTAAGTCTCGCCATTGAAAACCGCTTATTTATTAACGGTGAATATACTGCTGCGGCGGA -AAATGAAACCTTTGAAACCGTTGATCCGGTCACCCAGGCACCGCTGGCGAAAATTGCCCGCGGCAAGAGC -GTCGATATCGACCGTGCGATGAGCGCAGCACGCGGCGTATTTGAACGCGGCGACTGGTCACTCTCTTCTC -CGGCTAAACGTAAAGCGGTACTGAATAAACTCGCCGATTTAATGGAAGCCCACGCCGAAGAGCTGGCACT -GCTGGAAACTCTCGACACCGGCAAACCGATTCGTCACAGTCTGCGTGATGATATTCCCGGCGCGGCGCGC -GCCATTCGCTGGTACGCCGAAGCGATCGACAAAGTGTATGGCGAAGTGGCGACCACCAGTAGCCATGAGC -TGGCGATGATCGTGCGTGAACCGGTCGGCGTGATTGCCGCCATCGTGCCGTGGAACTTCCCGCTGTTGCT -GACTTGCTGGAAACTCGGCCCGGCGCTGGCGGCGGGAAACAGCGTGATTCTAAAACCGTCTGAAAAATCA -CCGCTCAGTGCGATTCGTCTCGCGGGGCTGGCGAAAGAAGCAGGCTTGCCGGATGGTGTGTTGAACGTGG -TGACGGGTTTTGGTCATGAAGCCGGGCAGGCGCTGTCGCGTCATAACGATATCGACGCCATTGCCTTTAC -CGGTTCAACCCGTACCGGGAAACAGCTGCTGAAAGATGCGGGCGACAGCAACATGAAACGCGTCTGGCTG -GAAGCGGGCGGCAAAAGCGCCAACATCGTTTTCGCTGACTGCCCGGATTTGCAACAGGCGGCAAGCGCCA -CCGCAGCAGGCATTTTCTACAACCAGGGACAGGTGTGCATCGCCGGAACGCGCCTGTTGCTGGAAGAGAG -CATCGCCGATGAATTCTTAGCCCTGTTAAAACAGCAGGCGCAAAACTGGCAGCCGGGCCATCCACTTGAT -CCCGCAACCACCATGGGCACCTTAATCGACTGCGCCCACGCCGACTCGGTCCATAGCTTTATTCGGGAAG -GCGAAAGCAAAGGGCAACTGTTGTTGGATGGCCGTAACGCCGGGCTGGCTGCCGCCATCGGCCCGACCAT -CTTTGTGGATGTGGACCCGAATGCGTCCTTAAGTCGCGAAGAGATTTTCGGTCCGGTGCTGGTGGTCACG -CGTTTCACATCAGAAGAACAGGCGCTACAGCTTGCCAACGACAGCCAGTACGGCCTTGGCGCGGCGGTAT -GGACGCGCGACCTCTCCCGCGCGCACCGCATGAGCCGACGCCTGAAAGCCGGTTCCGTCTTCGTCAATAA -CTACAACGACGGCGATATGACCGTGCCGTTTGGCGGCTATAAGCAGAGCGGCAACGGTCGCGACAAATCC -CTGCATGCCCTTGAAAAATTCACTGAACTGAAAACCATCTGGATAAGCCTGGAGGCCTGAAATGACCGAA -CATACCAGCAGTTACTACGCCGCCAGTGCGAATAAATATGCACCATTCGACACGCTGAATGAGTCAATCA -CCTGCGACGTTTGCGTGGTTGGCGGCGGCTATACCGGGCTCTCCTCCGCGCTGCATCTGGCGGAAGCGGG -CTTTGACGTAGTGGTTCTCGAAGCCTCACGCATCGGCTTTGGCGCAAGCGGGCGCAATGGCGGACAGCTT -GTGAACTCCTACAGCCGCGACATCGACGTGATCGAAAAAAGCTACGGCATGGACACCGCCCGTATGCTCG -GCAGCATGATGTTCGAAGGTGGTGAGATCATCCGCGAACGTATCAAACGTTATCAGATTGACTGCGACTA -CCGCCCCGGCGGCCTGTTTGTGGCGATGAATGATAAACAGCTCGCCACACTTGAAGAGCAGAAAGAGAAC -TGGGAACGCTACGGCAATAAACAGCTGGAATTGCTGGACGCCAACGCCATTCGCCGTGAAGTAGCCAGCG -ATCGCTATACCGGTGCGCTGCTGGATCACAGCGGTGGGCATATTCATCCGCTAAACCTTGCCATTGGCGA -AGCGGACGCCATCCGCCTCAACGGCGGGCGCGTGTATGAACTTTCTGCCGTGACGCAGATCCAGCACACC -ACGCCAGCCGTTGTGCGAACTGCCAAAGGTCAGGTGACGGCGAAGTATGTGATTGTCGCCGGGAATGCGT -ATCTGGGCGATAAAGTAGAGCCGGAACTGGCGAAACGCAGCATGCCGTGCGGCACGCAGGTGATCACCAC -CGAACGGCTGTCGGAAGATTTAGCCCGTTCGCTGATCCCGAAAAACTACTGTGTGGAAGACTGTAACTAT -CTGCTTGATTACTACCGTCTTACCGCCGACAACCGCCTGCTGTACGGCGGCGGCGTGGTCTACGGCGCGC -GCGACCCGGATGACGTTGAGCGCCTTGTGGTGCCGAAACTGCTGAAAACCTTCCCGCAGCTGAAGGGCGT -GAAAATTGATTACCGCTGGACGGGCAACTTCCTGCTGACCCTGTCGCGTATGCCGCAGTTTGGTCGCCTC -GATACCAACATCTATTACATGCAGGGCTACAGCGGCCACGGCGTGACCTGTACTCATCTAGCCGGACGTT -TGATTGCCGAACTGCTGCGCGGCGACGCCGAACGTTTCGATGCCTTCGCCAATCTGCCGCATTACCCGTT -CCCCGGCGGGCGCACGCTGCGTGTGCCGTTTACCGCGATGGGCGCGGCGTATTACAGCCTGCGCGATCGT -CTGGGCGTTTAATTTCCGATTAACCGTGAAGAGTCAAAAGGTGTGAAACATGAGCAACAATGAATTCCAT -CAGCGTCGTCTTTCTGCCACTCCGCGCGGGGTTGGCGTGATGTGTAACTTCTTCGCCCAGTCGGCTGAAA -ACGCCACGCTGAAGGATGTTGAGGGCAACGAGTACATCGATTTCGCCGCAGGCATTGCGGTGCTGAATAC -CGGACATCGCCACCCTGATCTGGTCGCGGCGGTGGAGCAGCAACTGCAACAGTTTACCCACACCGCGTAT -CAGATTGTGCCGTATGAAAGCTACGTCACCCTGGCGGAGAAAATCAACGCCCTTGCCCCGGTGAGCGGGC -AGGCCAAAACCGCGTTCTTCACCACCGGTGCGGAAGCGGTGGAAAACGCGGTGAAAATTGCTCGCGCCCA -TACCGGACGCCCTGGCGTGATTGCGTTTAGCGGCGGCTTTCACGGTCGTACGTATATGACCATGGCGCTG -ACCGGAAAAGTTGCGCCGTACAAAATCGGCTTCGGCCCGTTCCCTGGTTCGGTGTATCACGTACCTTATC -CGTCAGATTTACACGGCATTTCAACACAGGACTCCCTCGACGCCATCGAACGCTTGTTTAAATCAGACAT -CGAAGCGAAGCAGGTGGCGGCGATTATTTTCGAACCGGTGCAGGGCGAGGGCGGTTTCAACGTTGCGCCA -AAAGAGCTGGTTGCCGCTATTCGCCGCCTGTGCGACGAGCACGGTATTGTGATGATTGCTGATGAAGTGC -AAAGCGGCTTTGCGCGTACCGGTAAGCTGTTTGCCATGGATCATTACGCCGATAAGCCGGATTTAATGAC -GATGGCGAAAAGCCTCGCGGGCGGGATGCCGCTTTCGGGCGTGGTCGGTAACGCGAATATTATGGACGCA -CCCGCGCCGGGCGGGCTTGGCGGCACCTACGCCGGTAACCCGCTGGCGGTGGCTGCCGCGCACGCGGTGC -TCAACATTATCGACAAAGAATCACTCTGCGAACGCGCGAATCAACTGGGCCAGCGTCTCAAAAACACGTT -GATTGATGCCAAAGAAAGCGTTCCGGCCATTGCTGCGGTACGCGGCCTGGGGTCGATGATTGCGGTAGAG -TTTAACGATCCGCAAACGGGCGAGCCGTCAGCGGCGATTGCACAGAAAATCCAGCAACGCGCGCTGGCGC -AGGGGCTGCTCCTGCTGACCTGTGGCGCATACGGCAACGTGATTCGCTTCCTGTATCCGCTGACCATCCC -GGATGCGCAATTCGATGCGGCAATGAAAATTTTGCAGGATGCGCTGAGCGATTAATAGCCCAACGCAATA -ATGTCTGATGCGCTGCGCTTATCAGGCCTGCAAACGACGTATTGATTATGTATGCCGAATAAAGCATTCA -CGCCGCATCCGGCAAGTTGTATTGCTCAACTTCGCTAAATCTGGTGCTTTTTCAACAACGCGCGGAACTG -ATGATAAGTTAACCCCAGTAATTCAGCCGCGCGCTTCTGGTTATATTTCCCTTGTTGCAAACTGAGTTGC -AGCAACTCTTTTTCCTGCTGCATCTGAAACTCACGTAAATCCAGCGGCAGTGTTGGAAGCGAGGTGGTTT -CTGAAACGGCGATAGCGTCTTCAGGCGGACGCCGTTTAAAGGGATCAATAATGATGTCATCAAGCGGATA -ATCGCTGGTGCCGTGGCGATACACTGAACGTTCCACCACGTTTTTCAATTCACGAATATTTCCCGGCCAA -CGATAATTCAGCAATGTTTCTCTGGCGCGCTCCGTAAACCCCGGGAACAGAGGCAGCTTGATTTCCCGAC -ACATCTGGATGGCAAAGTATTCTGCCATCAACATTATGTCGCTTTCGCGCTCGCGCAGTGGTGGCAGTTG -TACAACATCAAAAGCCAGTCGGTCGAGCAGGTCAGCGCGAAAAGTGCCTTCATTGACCATCGCCGGGAGA -TCGGCATTCGTCGCGCATACCAACCGCACATTCACCTGCAATGGTTGGCTGCCGCCAACGCGCTCCAGTT -CACCGTACTCAATCACGCGCAATAATTTCTCCTGCACCATCATCGGTGCCGTAGCGAGTTCATCAAGAAA -TAGCGTACCGCCGTCGGCACGTTCAAATCTCCCTGGATGACGTTTTTGCGCACCGGTAAACGCCCCCGCT -TCGTGACCAAACAGTTCGGAATCCAGCAGATTTTCATTTAACGCCGCGCAGTTAAGGGAAATAAACGGCC -CTTGCCAACGGGAGGAGAGATAATGCAGGCGGCTGGCAATCAGCTCTTTACCGGTGCCGCGTTCGCCGAT -GATGAGCACCGGTTTGTCCAGCGGTGCGAGATGCGAAACCTGTTCCAGCACTTCGAGAAAGCTGTTCGCC -TCACCAAGTAAATTATCTTTGTATTCTGCCATGATGAAATTCGCCACTTGTTAGTGTAATTCGCTAACTC -ATCCTGGCATGTTGCTGTTGATTCTTCAATCAGATCTTTATAAATCAAAAAGATAAAAAATTGGCACGCA -AATTGTATTAACAGTTCAGCAGGACAATCCTGAACGCAGAAATCAAGAGGACAACATTATGGGTATTTTT -TCTCGCTTTGCCGACATCGTGAATGCCAACATCAACGCTCTGTTAGAGAAAGCGGAAGATCCACAGAAAC -TGGTTCGTCTGATGATCCAGGAGATGGAAGATACACTGGTTGAAGTACGTTCTACTTCGGCGCGCGCGTT -GGCAGAAAAGAAACAGCTGACTCGCCGTATTGAACAAGCGTCGGCGCGTGAGGTTGAATGGCAGGAAAAA -GCCGAACTGGCGCTGCTGAAAGAGAGAGAGGATCTGGCACGTGCAGCGTTAATTGAAAAACAGAAACTGA -CCGATCTGATTAAGTCCCTGGAACATGAAGTGACGCTGGTGGACGATACGCTGGCACGCATGAAGAAAGA -GATTGGCGAGCTGGAAAACAAATTGAGCGAAACACGCGCTCGCCAGCAGGCATTGATGTTACGTCATCAG -GCGGCAAACTCGTCGCGCGATGTGCGTCGTCAGCTGGACAGTGGCAAACTGGATGAAGCAATGGCTCGTT -TCGAATCTTTCGAACGTCGTATTGACCAGATGGAAGCGGAAGCAGAAAGCCACAGCTTCGGTAAACAAAA -ATCGCTGGACGATCAGTTTGCCGAACTGAAAGCCGATGATGCAATCAGCGAACAACTGGCACAATTAAAA -GCCAAAATGAAGCAAGACAATCAATAATAACATCCAGGCGGCGTCCGAACGCGCCGCCGCTCATCGTCTA -AGGAGTACTTATGAGCGCGCTATTTCTGGCTATTCCGTTAACCATTTTTGTGCTGTTTGTTTTACCGATC -TGGTTATGGCTGCATTACAGCAATCGTTCTGGTCGCAGTGAATTGTCGCAAAGTGAGCAGCAGCGATTAG -CGCAACTGGCTGATGAAGCAAAACGGATGCGCGAACGTATTCAGGCGCTGGAATCTATTCTTGATGCAGA -ACATCCGAACTGGAGGGATCGCTAATGGCGGGCATTAATCTCAATAAAAAATTATGGCGTATTCCACAGC -AGGGCATGGTCCGCGGCGTCTGCGCCGGGATTGCCAACTATTTTGATGTACCGGTAAAACTGGTGCGTAT -CCTGGTGGTGCTGTCGATTTTCTTCGGTCTGGCGCTGTTTACCCTGGTTGCTTACATCATTTTGTCATTT -GCGCTTGATCCAATGCCGGACAACATGGCCTTTGGTGAGCAGCTACCTTCCAGCAGCGAATTGCTGGATG -AAGTCGACCGTGAACTGGCGGCAAGTGAAACGCGTTTACGCGAGATGGAACGTTATGTCACTTCCGATAC -TTTCACGTTACGTAGCCGTTTCCGTCAACTGTGAGGAAAGTTATGAATACTCGCTGGCAACAGGCCGGGC -AAAAGGTAAAGCCTGGTTTCAAATTAGCAGGCAAGCTGGTACTTCTTACCGCACTGCGCTATGGCCCGGC -GGGTGTGGCGGGCTGGGCGATAAAATCAGTTGCTCGCCGACCGCTGAAAATGTTGCTGGCTGTGGCGCTG -GAACCGCTGTTAAGTCGGGCTGCTAATAAACTGGCACAGCGTTATAAAAGGTGAGGGGAGTTTCGCAAAA -ATTGTTAAATCTCAGGCGTATAATGGATGGCAATTTTCATCCATAGAAGGACGCTTACATGTTTAAAAAA -GGCTTACTTGCTCTGGCACTGGTGTTTTCACTGCCCGTTTTCGCCGCTGAACACTGGATCGATGTTCGTG -TTCCAGAGCAGTATCAGCAAGAGCACGTTCAGGGGGCCATCAATATTCCCCTGAAGGAAGTGAAAGAGCG -CATTGCCACCGCCGTTCCGGATAAAAACGACACCGTGAAAGTGTATTGCAATGCCGGACGCCAGTCAGGG -CAAGCAAAAGAGATCCTTAGCGAGATGGGATATACCCACGTTGAGAACGCCGGTGGCCTGAAAGACATCG -CAATGCCGAAGGTCAAAGGTTAAAAGAATTCACCATGAGCGGCGCTTATGCGCCGTTTTTTTTTCTGTCA -CACCTTATTTACATCCCCATAGATTATTTGCGTCAGCTCACAAATACGCTTTTTCCCTGGTAAAAAATGA -TTTCCTGCGTGACTAAAACCCTTGTGCTCAATTGACAGTTTATTTTCTGCGGAGTAGTCTCTCGTTTCAT -GGGACCGCTACCACGGAAAGGCAACATGAAACAGAAAATTACGGATTACCTGGACGAAATCTACGGTGGA -ACATTTACCGCAACTCATTTACAGAAACTTGTAACGCGTCTTGAGAGTGCGAAACGATTAATTACACAGC -GACGTAAAAAACACTGGGATGAAAGTGATGTCGTGTTAATTACCTATGCCGATCAATTTCACAGCAATGA -TTTAAAACCATTACCCACATTTAATCAGTTTTACCATCAATGGCTGCAAAGCATTTTTTCACATGTTCAT -TTGTTGCCGTTTTATCCATGGTCATCTGATGATGGCTTTTCGGTAATTGATTATCATCAGGTCGCCAGTG -AAGCGGGGGAGTGGCAGGATATTCAGCAACTCGGTGAATGCAGTCATTTAATGTTTGATTTTGTCTGCAA -CCATATGTCGGCAAAAAGTGAATGGTTTAAAAACTATTTACAACAGCATCCAGGTTTTGAAGATTTTTTT -ATTGCCGTTGACCCGCAAACCGATCTCAGCGCCGTCACTCGCCCGCGTGCGTTACCGTTATTAACGCCAT -TCCAGATGCGCGATCATTCAACGCGCCATTTATGGACCACCTTTAGTGACGATCAAATTGACCTGAATTA -CCGTAGCCCTGAAGTGTTGCTGGCGATGGTGGATGTTTTACTCTGTTACCTTGCGAAAGGTGCTGAGTAT -GTCCGCCTGGATGCCGTTGGCTTTATGTGGAAAGAGCCGGGAACAAGCTGCATCCATCTGGAAAAAACAC -ATCTGATTATCAAACTGTTACGGTCGATTATTGATAACGTTGCGCCAGGTACAGTGATCATTACCGAGAC -CAATGTTCCGCATAAAGACAACATTGCTTACTTTGGCGCAGGCGATGACGAAGCACATATGGTGTACCAG -TTCTCGCTGCCGCCACTGGTGCTGCATGCGGTGCAAAAACAGAACGTTGAGGCGCTTTGTGCGTGGGCGC -AAAACCTGACACTACCTTCCAGCAACACCACCTGGTTTAACTTCCTCGCCTCTCACGATGGCATCGGGCT -AAACCCGCTACGGGGCTTGTTGCCTGAAAGCGAAATATTAGAGCTGGTCGAGGCGTTACAGCAGGAAGGT -GCATTAGTAAACTGGAAAAATAATCCCGACGGTACACGCAGTCCGTATGAAATAAATGTGACCTATATGG -ATGCGTTAAGCCGCCGTGAGAGTAGCGATGAAGAACGTTGCGCCAGGTTTATCCTTGCCCATGCGATTTT -GTTAAGTTTCCCCGGTGTGCCAGCGATATATATTCAAAGTATTCTTGGCTCGCGTAATGATTACGCAGGT -GTCGAAAAACTCGGATATAACCGTGCGATTAACCGTAAAAAATATCACAGTAAAGAGATAACCCGAGAAC -TGAACGATGAAGCTACATTAAGGCATGCGGTATATCATGAGTTGTCGCGTTTAATTACACTTCGTCGCAG -CCATAACGAGTTTCATCCGGATAATAATTTTACCATTGATACGATTAATTCATCCGTAATGCGTATTCCA -AGAAGTAACGCTGATGGTAATTGTCTGACTGGATTGTTTAATGTCAGTAAAAATATTCAGCATGTAAATA -TTACTAATCTGCATGGTCGGGATCTGATTAGTGAAGTTGATATATTGGGTAATGAAATAACGCTGCGCCC -CTGGCAGGTTATGTGGATTAAATAAAAAGGAACATCTCATGATTAAATCAAAAATCGTGCTGTTATCAGC -ACTGGTTTCATGCGCCCTGATTTCAGGCTGTAAAGAAGAAAATAAAACGAATGTATCCATCGAATTTATG -CATTCTTCGGTGGAGCAGGAGCGCCAGGCCGTTATCAGTAAATTGATTGCCCGTTTTGAAAAAGAAAACC -CTGGCATCACCGTTAAGCAAGTGCCCGTGGAAGAAGATGCCTATAACACTAAAGTCATTACTCTTTCACG -TAGCGGTTCGCTGCCGGAAGTGATCGAAACCAGCCATGACTACGCCAAAGTGATGGACAAAGAGCAGCTT -ATCGATCGCAAAGCGGTTGCCACAGTCATCAGCAACGTTGGTGAAGGCGCGTTTTACGATGGCGTACTGC -GTATTGTGCGTACCGAAGATGGTAGCGCATGGACCGGTGTTCCTGTCAGCGCCTGGATTGGCGGTATCTG -GTATCGCAAAGATGTGCTGGCAAAAGCGGGGCTTGAGGAGCCGAAAAACTGGCAACAGCTGCTGGACGTT -GCACAGAAACTGAATGACCCGGCGAATAAAAAATACGGCATTGCGCTGCCTACAGCAGAAAGCGTGTTGA -CGGAACAATCCTTCTCCCAGTTTGCGTTATCCAACCAGGCTAACGTCTTTAACGCCGAAGGCAAAATCAC -CCTTGATACACCAGAGATGATGCAGGCACTGACCTATTACCGCGACCTTACTGCCAACACTATGCCGGGT -TCTAACGACATCATGGAAGTGAAAGACGCCTTTATGAACGGCACCGCGCCGATGGCGATTTACTCCACCT -ATATCCTTCCGGCTGTGATTAAAGAAGGCGACCCGAAAAACGTCGGTTTCGTGGTGCCAACCGAGAAAAA -CTCTGCGGTCTACGGCATGTTGACCTCGCTGACCATTACCGCCGGGCAAAAGACCGAAGAGACGGAAGCA -GCAGAAAAATTTGTCACCTTTATGGAGCAGGCAGACAACATTGCCGACTGGGTGATGATGTCGCCAGGTG -CTGCGCTGCCGGTGAATAAAGCGGTGGTGACTACCGCCACCTGGAAAGACAACGACGTTATTAAGGCGCT -GGGTGAACTACCGAATCAGCTAATCGGTGAACTGCCAAATATTCAGGTTTTTGGCGCAGTAGGGGATAAA -AACTTTACCCGCATGGGTGATGTGACGGGTTCTGGCGTGGTGAGTTCAATGGTGCATAACGTCACCGTGG -GTAAAGCCGATCTCTCTACTACGCTGCAAGCGAGCCAGAAAAAACTGGATGAACTGATCGAACAGCACTA -AACCCAGGACAGGAATCCGCAATGAACAGGCTTTTTTCAGGTCGTTCCGATATGCCCTTTGCGCTGCTGC -TTCTCGCGCCCAGCTTATTACTGCTGGGCGGTCTGGTGGCGTGGCCGATGGTGTCGAATATCGAAATCAG -TTTTTTACGTCTGCCGCTCAATCCCAACATCGAGTCAACGTTTGTTGGGGTGAGCAACTATGTGCGTATC -CTCTCCGATCCCGGCTTCTGGCATTCGCTGTGGATGACGGTCTGGTATACCGCGCTGGTGGTGGCGGGCA -GCACCGTGCTCGGGCTGGCGGTGGCGATGTTTTTCAACCGCGAGTTCCGCCTGCGCAAAACCGCGCGTTC -GCTGGTGATCCTCTCCTACGTAACGCCGTCCATTTCGCTGGTGTTCGCCTGGAAATACATGTTCAACAAC -GGCTACGGCATTGTTAACTACCTCGGCGTCGATCTTCTGCATCTCTATGAGCAGGCACCGCTGTGGTTCG -ATAATCCGGGCAGTAGCTTTGTGCTGGTGGTGCTGTTCGCCATCTGGCGCTACTTCCCGTATGCCTTTAT -CTCGTTTCTGGCGATTTTGCAGACCATCGACAAATCGCTGTACGAAGCGGCAGAGATGGATGGCGCTAAT -GCCTGGCAACGGTTTCGTATCGTCACGCTGCCCGCAATTATGCCGGTCCTGGCGACGGTGGTGACACTGC -GCACCATCTGGATGTTCTACATGTTCGCGGATGTTTATTTGCTGACGACCAAGGTCGATATTCTCGGTGT -ATATCTCTACAAAACCGCCTTTGCCTTTAATGATTTAGGAAAAGCGGCGGCGATCTCGGTGGTGCTCTTC -ATCATTATTTTCGCTGTCATTCTGCTGACCAGGAAACGGGTGAACCTCAATGGCAACAAATAAACGCACA -CTCAGTCGCATCGGTTTTTACTGCGGGCTGGCGCTGTTTCTCATCATCACGCTGTTTCCATTTTTTGTGA -TGCTGATGACCTCGTTCAAGGGCGCGAAAGAGGCGATCTCACTGCATCCTACGCTGCTGCCGCAGCAGTG -GACGCTGGAGCATTACGTCGACATTTTTAACCCGATGATTTTCCCGTTTGTCGACTACTTCCGTAACAGT -CTGGTGGTGTCTGTGGTTTCATCCGTGGTGGCGGTATTCCTCGGCATTCTTGGGGCTTACGCGCTTTCCC -GCCTGCGCTTTAAAGGTCGGATGACCATCAACGCCAGCTTTTACACGGTGTATATGTTCTCTGGCATTTT -GCTGGTGGTGCCGCTTTTCAAAATCATCACCGCGCTTGGCATTTACGACACTGAGATGGCGCTGATCATC -ACCATGGTGACGCAAACTCTGCCCACCGCCGTGTTTATGCTGAAAAGCTACTTCGACACCATCCCCGATG -AGATCGAAGAAGCGGCGATGATGGATGGCCTCAACCGTCTGCAAATTATCTTCCGCATCACCGTGCCGTT -GGCGATGTCCGGGCTGATATCCGTGTTCGTCTACTGCTTTATGGTGGCGTGGAACGACTATCTGTTTGCG -TCGATTTTCCTCTCCAGCGCCAGCAATTTCACCTTACCGGTGGGCCTGAACGCGCTGTTCAGTACGCCAG -ATTACATCTGGGGACGGATGATGGCGGCCTCACTGGTGACCGCATTGCCGGTGGTGATTATGTATGCGCT -TTCGGAACGTTTTATTAAGAGTGGTTTGACCGCCGGTGGCGTGAAGGGCTAAAGCGGCCAGTTTCTTTAC -AAGGAGTTTTAAATGAAAAAGTTAGTAGCCACAGCACCGCGTGTTGCTGCGCTGGTTGAGTATGAAGATC -GGGCGATTTTAGCTAATGAAGTGAAGATCCGCGTGCGTTTCGGCGCACCGAAACACGGAACGGAAGTGGT -CGACTTCCGCGCCGCCAGCCCGTTTATTGATGAAGACTTTAACGGCGAATGGCAGATGTTCACTCCGCGT -CCGGCAGATGCGCCGCGCGGCATTGAGTTTGGCAAATTCCAGCTTGGCAACATGGTGGTTGGCGACATTA -TCGAGTGCGGCAGCGACGTTACCGACTACGCGGTGGGCGACAGCGTATGCGGCTACGGCCCGCTCTCCGA -GACGGTCATCATTAACGCAGTGAATAACTACAAGCTGCGCAAAATGCCGCAAGGCAGCTCCTGGAAAAAC -GCCGTCTGCTACGACCCGGCGCAGTTTGCCATGAGCGGCGTGCGCGATGCCAACGTGCGCGTAGGGGATT -TTGTGGTGGTGGTAGGGCTTGGCGCAATCGGTCAAATTGCCATCCAACTGGCTAAACGCGCTGGCGCTTC -TGTGGTGATTGGCGTCGATCCTATCGCCCATCGCTGTGATATTGCCCGTCGCCACGGCGCGGATTTCTGC -CTTAACCCCATCGGCACTGATGTAGGTAAAGAGATCAAAACGCTGACCGGCAAGCAGGGTGCCGATGTGA -TTATCGAAACCAGCGGCTACGCCGACGCGCTGCAATCGGCGCTCCGCGGTCTGGCTTATGGCGGCACCAT -CTCCTATGTCGCGTTTGCCAAGCCGTTTGCCGAAGGTTTTAACCTCGGACGCGAAGCGCATTTCAATAAC -GCCAAAATTGTCTTCTCTCGCGCGTGCAGCGAACCGAACCCGGATTATCCGCGCTGGAGCCGCAAGCGTA -TTGAAGAAACCTGTTGGGAACTGCTGATGAACGGTTATCTCAATTGCGAAGATTTAATCGACCCGGTGGT -GACCTTTGCCAATAGCCCGGAAAGCTATATGCAGTATGTCGACCAGCATCCGGAACAGAGCATCAAAATG -GGCGTTACGTTTTAATTCAAAGGAATGAAAAAAATGAAAATCGGCACACAGAATCAGGCGTTCTTTCCGG -AAAACATTCTGGAGAAATTTCGTTATATCAAAGAGATGGGCTTCGATGGTTTTGAGATTGACGGCAAACT -GCTGGTTAACAACATCGAAGAAGTCAAAGCGGCGATCAAAGAAACCGGTTTACCGGTGACCACCGCCTGC -GGTGGCTATGACGGATGGATTGGCGACTTTATCGAAGAGCGTCGTCTTAATGGCTTAAAGCAGATCGAGC -GCATTCTCGAAGCGCTGGCAGAAGTGGGCGGTAAAGGCATCGTCGTTCCGGCTGCGTGGGGCATGTTTAC -CTTCCGCTTACCGCCGATGACCTCGCCGCGTAGCCTGGACGGCGACCGCAAAATGGTGAGTGATTCCCTG -CGCGTACTGGAACAGGTCGCCGCGCGTACCGGAACCGTGGTGTATCTCGAACCGTTAAACCGCTATCAGG -ATCATATGATCAACACCCTCGCCGATGCCCGCCGTTACATCGTCGAAAACGATCTTAAACATGTACAGAT -TATCGGCGATTTCTATCACATGAATATCGAAGAAGATAACCTGGCGCAGGCGCTGCATGACAACCGCGAC -CTGCTCGGTCATGTGCATATTGCGGATAACCATCGCTACCAGCCGGGCAGCGGCACCCTGGATTTCCACG -CGCTGTTTGAACAGCTGCGCGCGGATAACTATCAGGGCTATGTAGTGTACGAAGGGCGTATCCGGGCGGA -AGATCCTGCCCAGGCGTACCGTGATTCGTTGGCCTGGTTGCGTACCTGCTAAGAGGTCTTTGTGAAAAGT -GCAATGACAAGCTCTCCGCTGCGGGTCGCGATAATAGGCGCAGGCCAGGTGGCGGATAAGGTTCATGCTT -CGTACTACTGCACCCGCAACGATCTGGAACTGGTGGCTGTCTGTGACAGCCGCCTTTCCCAGGCGCAGGC -GCTGGCAGAAAAATACGGGAATGCATCCGTGTGGGACGATCCGCAGGCCATGCTGCTGGCGGTGAAACCT -GATGTGGTTAGCGTCTGCTCACCTAACCGTTTTCATTACGAACATACCCTGATGGCACTGGAAGCGGGCT -GCCATGTGATGTGCGAAAAACCGCCCGCCATGACGCCAGAACAGGCGCGGGAAATGTGCGATACCGCGCG -CAAACTGGGCAAGGTGCTGGCCTACGACTTTCACCATCGTTTTGCGCTCGATACGCAACAGCTGCGTGAA -CAGGTGACCAACGGCGTTTTGGGAGAGATTTACGTTACCACCGCCCGCGCCCTGCGTCGCTGCGGCGTTC -CCGGCTGGGGTGTCTTTACCAATAAAGAACTGCAGGGTGGTGGCCCGCTGATCGACATCGGCATTCATAT -GCTGGATGCTGCGATGTATGTGCTGGGCTTTCCGGCGGTGAAAAGCGTGAATGCGCATAGCTTTCAAAAG -ATCGGCACGCAAAAGAGCTGTGGTCAATTTGGTGAGTGGGATCCGGCAACTTACAGCGTCGAAGATTCGC -TGTTTGGCACCATTGAATTTCATAACGGCGGCATTCTGTGGCTGGAAACGTCATTTGCACTCAACATCCG -CGAACAGTCGATTATGAACGTCAGCTTTTGTGGTGATAAAGCTGGTGCGACGCTGTTTCCAGCACATATC -TACACCGATAACAACGGTGAATTAATGACGCTGATGCAACGGGAAATAGCAGACGACAACCGCCATTTGC -GCAGCATGGAAGCCTTTATCAATCACGTACAGGGCAAGCCCGTGATGATAGCCGACGCCGAGCAGGGGTA -CATCATCCAGCAACTGGTGGCGGCGTTGTATCAATCCGCAGAAACAGGGACGCGTGTGGAATTATGACCA -GGCCAGTAACGTTATCAGAACCCCATTTCAGCCAGCATACCCTGAACAAGTATGCATCGCTGATGGCGCA -GGGGAACGGCTATCTTGGGCTTCGCGCCAGCCATGAAGAAGATTACACGCGCCAGACGCGAGGGATGTAT -CTGGCGGGGCTGTATCATCGGGCGGGAAAAGGTGAAATCAACGAACTGGTGAACCTGCCTGATGTCGTGG -GGATGGAGATTGCCATAAATGGTGAGGTTTTCTCGTTATCCCACGAAGCCTGGCAGCGTGAGCTTGACTT -TGCCAGTGGCGAATTACGCCGCAATGTTGTCTGGCGTACCAGCAACGGCTCAGGTTACACCATCGCCAGC -CGTCGCTTTGTTTCGGCAGACCAACTGCCGCTCATTGCGCTGGAAATCACTATTACGCCACTGGACGCCG -ACGCGTCAGTGCTGATTTCAACAGGCATTGACGCCACGCAAACCAATCACGGTCGCCAACATCTCGACGA -AACCCAGGTGCGGGTGTTTGGTCAGCATCTGATGCAGGGGAGCTACACCACCCAGGATGGACGCAGTGAT -GTGGCCATCAGCTGTTGCTGTAAGGTGAGCGGTGATGTGCAGCAATGCTATACCGCCAAAGAGCGCCGTT -TACTGCAACATACCAGTGCGCAGCTTCATGCAGGCGAGACAATGACGTTGCAAAAACTGGTGTGGATCGA -CTGGCGGGATGACAGGCAAGCTGCTTTAGACGAGTGGGGCAGCGCGTCGCTTCGCCAGCTTGAAATGTGC -GCGCAGCAGAGTTACGACCAACTTCTTGCAGCATCAACAGAAAACTGGCGTCAATGGTGGCAGAAACGTC -GTATCACGGTAAATGGCGGCGAAGCGCACGATCAGCAAGCGTTAGATTATGCGCTTTATCATCTGCGCAT -CATGACGCCTGCCCACGACGAGCGCAGCAGCATTGCGGCAAAAGGCTTAACCGGCGAAGGCTACAAAGGC -CACGTTTTCTGGGATACAGAAGTATTTTTGTTACCGTTTCATCTGTTTAGCGATCCGACGGTTGCCCGAA -GTTTACTGCGTTATCGCTGGCACAACTTGCCAGGCGCGCAGGAGAAAGCGCGACGCAACGGCTGGCAGGG -CGCGCTATTTCCGTGGGAAAGCGCGCGCAGCGGCGAAGAAGAGACGCCGGAATTTGCCGCCATTAACATT -CGCACCGGGCTGCGGCAAAAAGTGGCCTCGGCGCAGGCGGAACATCATCTGGTGGCCGATATCGCCTGGG -CGGTTATTCAATACTGGCAGACCACGGGGGATGAAAGTTTCATTGCGCATGAAGGCATGGCGCTACTTCT -GGAGACGGCAAAGTTCTGGATTAGCCGCGCGGTGAGAGTTAACGATCGTCTGGAAATTCATGATGTTATT -GGGCCAGACGAATATACCGAACATGTCAATAATAATGCATACACCAGCTATATGGCCCGCTACAACGTTC -AACAGGCGCTGAATATTGCCCGCCAGTTCGGCTGTAGCGACGATGCGTTTATCCATCGCGCCGAAATGTT -CCTCAAAGAGCTATGGATGCCAGAAATTCAGCCCGACGGCGTTTTGCCGCAGGATGATTCGTTTATGGCT -AAGCCGGCGATTAATCTGGCGAAATACAAAGCGGCGGCGGGGAAGCAAACCATACTGCTGGATTATTCAC -GCGCAGAAGTGAACGAGATGCAGATCCTCAAACAAGCTGATGTGGTGATGCTCAATTACATGCTGCCGGA -GCAGTTCTCAGCGGCATCGTGTCTTGCCAATCTGCAATTTTATGAACCGCGCACTATTCACGACTCGTCA -TTAAGTAAAGCAATCCACGGCATTGTTGCCGCACGCTGTGGCCTGCTGACCCAAAGTTATCAGTTCTGGC -GCGAGGGGACTGAAATCGATCTTGGTGCTGATCCGCATAGTTGTGATGATGGTATCCATGCTGCCGCAAC -TGGCGCTATCTGGCTGGGGGCGATTCAGGGTTTTGCCGGGGTGAGCGTGCGTGACGGTGAATTGCATCTC -AATCCGGCGTTACCTGAGCAGTGGCAACAGTTGTCTTTCCCTCTGTTCTGGCAGGGCTGCGAATTACAGG -TCACTCTTGACGCGCAGCGTATTGCGATTCGAACTTCTGCGCCCGTTTCACTGCGTTTGAACGGTCAGCT -TATAACCGTGGCTGAAGAATCTGTTTTCTGTTTGGGTGATTTTATTTTGCCCTTCAATGGGACCGCTACC -AAACATCAGGAGGATGAATGAAACTGCAAGGGGTAATTTTCGATCTGGATGGTGTAATCACCGATACCGC -GCATCTGCATTTCCAGGCGTGGCAGCAGATTGCCGCTGAAATTGGCATCAGCATTGATGCGCAGTTTAAC -GAATCCCTAAAAGGGATCAGCCGCGATGAGTCTCTGCGGCGCATTCTGCAACACGGGGGCAAAGAGGGCG -ACTTTAACTCGCAGGAGAGGGCGCAACTGGCGTATCGCAAAAATCTGCTCTATGTCCACTCACTACGCGA -GTTGACGGTCAACGCTGTTCTACCCGGCATTCGCTCTTTGCTGGCAGATCTCCGTGCACAGCAGATCTCG -GTTGGGCTGGCTTCTGTCTCCCTGAATGCGCCGACGATTTTAGCGGCGCTGGAGCTGCGCGAGTTTTTCA -CCTTCTGCGCGGATGCTTCCCAACTTAAAAACTCGAAACCGGACCCGGAAATCTTTCTCGCCGCCTGTGC -AGGGCTGGGCGTGCCGCCGCAGGCATGTATCGGCATTGAAGATGCGCAGGCGGGCATTGACGCCATTAAC -GCCAGCGGTATGCGCTCGGTGGGGATCGGCGCGGGCTTAACCGGGGCGCAATTACTGTTGCCTTCAACGG -AATCACTCACCTGGCCGCGGTTATCGGCCTTCTGGCAAAACGTATAGCAAAGGAATCAACATGGCTCAGC -TTTCGTTACAACATATTCAAAAAATCTACGATAACCAGGTGCATGTGGTGAAGGACTTCAACCTGGAAAT -TGCCGATAAAGAGTTCATCGTGTTTGTCGGCCCGTCGGGCTGCGGTAAGTCGACCACCCTGCGCATGATT -GCCGGGCTTGAGGAGATCAGCGGCGGCGATCTGTTGATCGACGGCAAACGAATGAATGACGTTCCAGCCA -AAGCACGCAATATAGCGATGGTGTTCCAGAACTACGCGTTGTATCCGCATATGACGGTTTACGACAACAT -GGCGTTTGGTCTGAAGATGCAAAAAATCGCCAAAGAGGTGATTGATGAGCGGGTGAACTGGGCGGCGCAA -ATTCTCGGCCTGCGTGAGTACCTGAAACGTAAGCCGGGGGCGCTTTCCGGCGGGCAACGTCAGCGAGTGG -CGCTTGGGCGGGCGATTGTACGCGAAGCGGGCGTGTTTTTAATGGATGAACCGCTCTCTAACCTTGATGC -CAAGCTGCGCGTGCAAATGCGCGCAGAGATCAGCAAGCTGCATCAGAAACTGAACACCACCATGATCTAC -GTGACCCACGATCAGACCGAAGCGATGACCATGGCGACGCGGATTGTGATTATGAAAGACGGGATTGTTC -AGCAAGTAGGTGCGCCGAAAACCGTTTATAACCAACCCGCGAATATGTTTGTTTCCGGATTTATTGGATC -ACCAGCGATGAATTTTATTCGCGGCACGATCGATGGCGATAAATTCGTTACGGAAACGCTTAAATTAACC -ATTCCCGAAGAGAAATTAGCGGTTCTGAAAACACAGGAAAGTTTGCATAAGCCCATCGTGATGGGAATAC -GACCGGAAGATATTCATCCGGACGCGCAAGAGGAAAATAACATTTCCGCCAAAATTAGCGTGGCAGAATT -AACCGGTGCGGAATTTATGCTCTACACCACGGTTGGGGGCACGAGTTAGTGGTCCGTGCTGGTGCGTTAA -ATGATTATCATGCAGGAGAAAATATCACTATTCATTTTGATATGACGAAATGTCATTTCTTTGATGCAGA -AACGGAAATAGCAATTCGCTAAATACAGGGGGAAGGCATTCCCCCAGGATAATACAAGGAACAATAATGA -AAAAGTTATTACCCTGTACCGCACTGGTGATGTGTGCGGGAATGGCCTGCGCACAGGCCGAGGAAAGGAA -CGACTGGCACTTTAATATCGGCGCGATGTACGAAATAGAAAACGTCGAGGGTTATGGCGAAGATATGGAT -GGGCTGGCGGAGCCTTCAGTCTATTTTAATGCCGCCAACGGGCCGTGGAGAATTGCTCTGGCCTATTATC -AGGAAGGGCCGGTAGATTATAGCGCGGGTAAACGTGGAACGTGGTTTGATCGCCCGGAGCTGGAGGTGCA -TTATCAGTTCCTCGAAAACGATGATTTCAGTTTCGGCCTGACCGGCGGTTTCCGTAATTATGGTTATCAC -TACGTTGATGAACCGGGTAAAGACACGGCGAATATGCAGCGCTGGAAAATCGCGCCAGACTGGGATGTGA -AACTGACTGACGATTTACGTTTCAACGGTTGGTTGTCGATGTATAAATTTGCCAACGATCTGAACACTAC -CGGTTACGCTGATACCCGTGTCGAAACGGAAACAGGTCTGCAATATACCTTCAACGAAACGGTTGCCTTG -CGAGTGAACTATTATCTCGAGCGCGGCTTCAATATGGACGACAGCCGCAATAACGGTGAGTTTTCCACGC -AAGAAATTCGCGCCTATTTGCCGCTGACGCTCGGCAACCACTCGGTGACGCCGTATACGCGCATTGGGCT -GGATCGCTGGAGTAACTGGGACTGGCAGGATGATATTGAACGTGAAGGCCATGATTTTAACCGTGTAGGT -TTATTTTACGGTTATGATTTCCAGAACGGACTTTCCGTTTCGCTGGAATACGCGTTTGAGTGGCAGGATC -ACGACGAAGGCGACAGTGATAAATTCCATTATGCAGGTGTCGGCGTAAATTACTCGTTCTGATAATGGGC -TAAATTGCCGGATGCGGCGCGAGTACTTTATCCGATCTATAAATGTAGGCCGGATAAGATGCGCTAGCAT -CGCATCTGGCATTCAGGCAAGGTAGCTGGTATTTATTTCAGCGTCATATGCGTGGCAACGGTAATATTCT -GTGGTGACGGTTTTCCAGAAATTAAGCGGAATAATAACTCGCAGCTTTGTTGACCTAACTCCTGCGTCGG -AACATCGATGCCGCCCGGTGCAGGCGTTAAAATAAATGACAGCGTTTCATTGCTATAACCCACCACCGCT -AACTGCTGCGGAATAGCAATATTTTTCTCTGCTGCCGCACGATAAATGCTCATTAATTTCAGGCTGTCAG -TGGCAAACACCGCCTCAGGCAACGGTGACTGGCTTAATAATTGCCGTGCTGCTTTTAATGCAGTTTCATG -GGTATAACCGCCATCAACAATCCATTCATCACGCACTGCAATATTATGCGCAGCCAGGCTCTGCTTATAA -CCATTAACGCGATCAACCGAAACATGGACATCAAGCGGAGCATGCAGGCAGGCAATATTTTGATGCCCAC -TTTCAATTAATGCATCGGTCAACGCAATGCTGTCGCCAAAATTATCGGTATCGACAGAATAAACATGGGC -ATATTGACCTTCAACTTTGCCAATCACCACCACCGGAATATCATATTTATCGAGTTGGGCAAAAAATGAC -TCATCCGCTGGCGAACTGAGCATAATAATGCCTTTAATCATTTTCTGCTTAATTTTGCTTTCGCATTTTT -GCAGATCTTCTGCCGGATTGTGCGACGTTTGTAATATCACGTCGAAACCTTCTTCTTCAGCTTTGGCGGT -GATGGCATGCAAAACTTCAGAGAAAAACGGATTACCCGCCGTAGTTTTGGTCGAACGGGTAGAAATCACC -ATAATGGCATCAAAACCCGAAGAGGTCAGCGCGCGGGCCAGCTTGTTTGGCTGATACTGTAATTCTTCAA -TGGCCCGTAACACTTTTTCGCGCGCTTCCGGGGAGATATTAGTTTGCTTATTCAGCACGCGTGATACGGT -GGATTTTGATACGCCTGCAACCCTGGCAATATCATAAATAGTAGGGGACATAGGTCAGGAACTCCGTCCG -AACGTGAATGCTGCACATCTTATGGAGTTCGCCGGTCGATGACAACACGGGCAGTTGATAATCAATGGCC -TGGCCCCCACATTCATATCCTTACGAATGATTTTTTTTCTGGTCTTCAGAGCAGCACAGGACAGCAATGA -AGCGACTTAAAAATGAACTCAATGCGCTGGTGAATCGGGGTGTCGACAGACATCTGCGCCTCGCTGTAAC -CGGACTTAGCCGCAGCGGCAAAACAGCGTTTATCACCGCGATGGTTAATCAGTTGCTTAATATTCACGCC -GGAGCACGTTTGCCGCTGTTAAGTGCGGTGCGTGAAGAGCGCCTGCTGGGCGTGAAACGCATTCCCCAGC -GTGACTTTGGCATTCCGCGCTTCACCTATGACGAAGGGCTGGCGCAGTTATATGGCGATCCACCCGCCTG -GCCAACGCCAACGCGCGGCGTCAGTGAAATCCGCCTGGCGCTACGTTTTAAATCGAATGATTCGCTGCTA -CGCCACTTTAAGGATACCTCCACGCTGTATCTGGAAATTGTGGATTATCCCGGCGAATGGTTGCTCGACC -TGCCGATGCTGGCGCAGGACTATTTAAGCTGGTCGCGCCAGATGACGGGCTTACTCAATGGTCAGCGCGG -AGAATGGTCGGCGAAATGGCGAATGATGAGCGAAGGGCTGGACCCGCTAGCGCCTGCCGACGAAAACCGG -CTGGCGGACATTGCCGCCGCGTGGACCGATTATCTCCACCACTGTAAAGAGCAGGGGCTGCACTTTATTC -AGCCTGGGCGCTTTGTCTTGCCGGGAGATATGGCAGGTGCGCCCGCGCTGCAATTCTTCCCGTGGCCGGA -TGTCGATACCTGGGGCGAGTCCAAACTGGCGCAGGCCGATAAGCATACCAATGCCGGAATGCTGCGCGAG -CGCTTTAATTATTACTGCGAGAAGGTGGTGAAGGGGTTCTATAAGAATCATTTTCTGCGCTTTGACCGCC -AGATTGTGCTGGTGGATTGCCTGCAACCTCTCAACAGTGGGCCACAGGCATTTAATGATATGCGTCTGGC -ACTGACGCAGCTGATGCAAAGTTTTCACTACGGGCAGCGTACCCTGTTCCGGCGTTTGTTTTCGCCGGTT -ATCGATAAGCTATTGTTTGCTGCCACTAAAGCGGACCATGTGACCATCGATCAGCACGCTAATATGGTTT -CATTACTGCAACAACTGATTCAGGATGCCTGGCAAAATGCGGCGTTCGAAGGGATCAGCATGGACTGCCT -GGGGCTGGCGTCAGTTCAGGCGACCACCAGCGGCATTATTGATGTTAACGGTGAGAAAATCCCGGCGCTG -CGTGGTAATCGACTTAGCGATGGCGCACCGCTCACTGTTTATCCTGGCGAAGTTCCCGCACGTTTGCCTG -GTCAGGCGTTCTGGGATAAGCAAGGCTTCCAGTTTGAGGCATTTCGTCCGCAGGTGATGGATGTCGACAA -ACCACTACCGCATATTCGTCTTGATGCTGCGCTGGAATTTTTAATAGGAGATAAATTGCGATGACCGAAC -CGTTAAAACCACGTATTGATTTCGACGGTCCTCTGGAGGTCGATCAGAATCCTAAATTCAGGGCGCAGCA -GACCTTTGACGAAAATCAGGCGCAAAATTTTGCCCCGGCCACGCTCGACGAAGCGCAGGAAGAAGAGGGG -CAAGTCGAAGCGGTAATGGACGCAGCGTTACGTCCGAAACGCAGCCTGTGGCGCAAAATGGTGATGGGAG -GGCTGGCTCTGTTTGGCGCAAGCGTTGTCGGGCAGGGTGTACAGTGGACAATGAATGCCTGGCAAACCCA -GGACTGGGTGGCGCTGGGTGGATGTGCCGCTGGGGCATTGATTATCGGCGCTGGCGTAGGTTCTGTGGTA -ACAGAGTGGCGGCGCTTATGGCGCTTGCGACAGCGCGCCCATGAACGCGACGAAGCGCGTGATTTATTGC -ATAGCCACGGCACGGGCAAAGGCCGCGCATTTTGCGAAAAACTGGCGCAGCAGGCGGGTATTGATCAGTC -GCATCCGGCGCTGCAACGCTGGTATGCCTCAATCCATGAAACGCAAAACGACCGTGAAGTGGTCAGCCTG -TATGCGCATTTGGTCCAGCCAGTTTTAGATGCCCAGGCGCGGCGCGAAATCAGCCGTTCGGCGGCGGAAT -CAACGTTGATGATTGCGGTCAGCCCGCTGGCGTTGGTCGATATGGCGTTTATCGCCTGGCGCAATCTGCG -TTTAATTAATCGCATCGCCACGCTGTATGGCATTGAACTGGGGTATTACAGCCGTTTGCGTCTGTTTAAG -CTGGTATTGCTGAATATCGCTTTTGCCGGAGCCAGCGAACTGGTGCGCGAAGTGGGGATGGACTGGATGT -CGCAAGATCTCGCTGCTCGTTTGTCTACCCGCGCAGCTCAGGGGATTGGTGCAGGACTTCTGACGGCACG -ACTCGGGATTAAAGCTATGGAGCTTTGCCGCCCGCTGCCGTGGATTGACGATGACAAACCTCGCCTCGGG -GATTTCCGTCGTCAGCTTATCGGTCAGGTGAAAGAAACGCTGCAAAAAGGCAAAACGCCCAGCGAAAAAT -AATGCAATATCGGGTGCTGACCGGATATCTTTACGCCGAAGTGCCCGTTTTTCCGTCTTTGTGTCAATGA -TTGTTGACAGAAACCTTCCTGCTATCCAAATAGTGTCATATCATCATATTAATTGTTCTTTTTTCAGGTG -AAGGTTCCCATGCGTCTGGAAGTCTTTTGTGAAGACCGACTCGGTCTGACCCGCGAATTACTCGATCTAC -TCGTGCTAAGAGGCATTGATTTACGCGGTATTGAGATTGATCCCATTGGGCGAATCTACCTCAATTTTGC -TGAACTGGAGTTTGAGAGTTTCAGCAGTCTGATGGCCGAAATACGCCGTATTGCGGGTGTTACCGATGTG -CGTACTGTCCCGTGGATGCCTTCCGAACGTGAGCATCTGGCGTTGAGCGCGTTACTGGAGGCGTTGCCTG -AACCTGTGCTCTCTGTCGATATGAAAAGCAAAGTGGATATGGCGAACCCGGCGAGCTGTCAGCTTTTTGG -GCAAAAATTGGATCGCCTGCGCAACCATACCGCCGCACAATTGATTAACGGCTTTAATTTTTTACGTTGG -CTGGAAAGCGAACCGCAAGATTCGCATAACGAGCATGTCGTTATTAATGGGCAGAATTTCCTGATGGAGA -TTACGCCTGTTTATCTTCAGGATGAAAATGATCAACACGTCCTGACCGGTGCGGTGGTGATGTTGCGATC -AACGATTCGTATGGGCCGCCAGTTGCAAAATGTCGCCGCCCAGGACGTCAGCGCCTTCAGTCAAATTGTC -GCCGTCAGCCCGAAAATGAAGCATGTTGTCGAACAGGCGCAGAAACTGGCGATGCTAAGCGCGCCGCTGC -TGATTACGGGTGACACAGGTACAGGTAAAGATCTCTTTGCCTACGCCTGCCATCAGGCAAGCCCCAGAGC -GGGCAAACCTTACCTGGCGCTGAACTGTGCGTCTATACCGGAAGATGCGGTCGAGAGTGAACTGTTTGGT -CATGCTCCGGAAGGGAAGAAAGGATTCTTTGAGCAGGCGAACGGTGGTTCGGTGCTGTTGGATGAAATAG -GGGAAATGTCACCACGGATGCAGGCGAAATTACTGCGTTTCCTTAATGATGGCACTTTCCGTCGGGTTGG -CGAAGACCATGAGGTGCATGTCGATGTGCGGGTGATTTGCGCTACGCAGAAGAATCTGGTCGAACTGGTG -CAAAAAGGCATGTTCCGTGAAGATCTCTATTATCGTCTGAACGTGTTGACGCTCAATCTGCCGCCGCTAC -GTGACTGTCCGCAGGACATCATGCCGTTAACTGAGCTGTTCGTCGCCCGCTTTGCCGACGAGCAGGGCGT -GCCGCGTCCGAAACTGGCCGCTGACCTGAATACTGTACTTACGCGTTATGCGTGGCCGGGAAATGTGCGG -CAGTTAAAGAACGCTATCTATCGCGCACTGACACAACTGGACGGTTATGAGCTGCGTCCACAGGATATTT -TGTTGCCGGATTATGACGCCGCAACGGTAGCCGTGGGCGAAGATGCGATGGAAGGTTCGCTGGACGAAAT -CACCAGCCGTTTTGAACGCTCGGTATTAACCCAGCTTTATCGCAATTATCCCAGCACGCGCAAACTGGCA -AAACGTCTCGGCGTTTCACATACCGCGATTGCCAATAAGTTGCGGGAATATGGTCTGAGTCAGAAGAAGA -ACGAAGAGTAAGCGCGAATATGCCTGATGGTGCAACACCATCAGGCATATTAAATTATGCTTTCAGTACA -GCCAGAGCTGCTTCGTAATCCGGCTCGGTGGTGATTTCATCCACCAGCTGGCTGAAAATCACATTGTCAT -TTTCGTCAATAACCACAACGGCACGCGCTGCCAGACCTTTCAGTGGGCCATCAGCAATTGCCACACCGTA -AGCTTGCAGAAATTCAGCGTTACGGAAAGTGGAGAGGGTGATAACGTTGTTCAGACCTTCTGCGCCGCAG -AAACGAGACTGGGCGAACGGCAGATCGGCAGAGATACACAGCACAACGGTGTTGTCGATCTCAGTTGCCA -GTTGGTTAAACTTACGTACTGATGCGGCGCAAACACCGGTATCAATACTCGGGAAAATGTTCAGCACTTT -GCGTTTACCCGCAAACTGACCGAGGGTGACGTCAGACAGATCTTTTGCCACGAGAGTAAAAGTCTGCGCT -TTGCTACCCGCCTGCGGGATGGAATTGGCGACTGTAACCGGGTTGCCCTGGAAATGAACGGTTTGTGACA -TGATTATCTTTCCTGTTTACATATAGTTAACGTCACACCTAGTTTATGCTAACTGTCAATAACACAGCAA -ACGCTATTTGCGCTTAATCCGCAGACCACCGCGACAACAAGGAGTAAAGATGAGAACCGTTAAGGTATTC -GAGGAAGCCTGGCCCTTACATACCCCGTTTGTGATTGCCCGGGGAAGTCGCAGTGAAGCGCGCGTGGTGG -TGGTTGAACTGGAAGAAGAGGGTATTAAAGGCACCGGCGAATGCACGCCGTATCCGCGTTATGGGGAAAG -TGATGCCTCGGTAATGGCGCAAATTATGAGCGTCGTGCCGCAACTAGAGAAAGGGCTGACACGGGAGGAG -TTGCAAAAAATTCTCCCTGCCGGCGCAGCACGTAATGCGCTGGATTGTGCATTGTGGGATCTGGCCGCGC -GAAGACAGCAGCAATCGCTGGCTGATTTGATCGGCATAACGCTTCCCGAGACAGTTATCACTGCACAGAC -GGTTGTCATCGGTACGCCTGATCAGATGGCCAATAGTGCATCAACACTCTGGCAGGCAGGCGCGAAATTA -CTGAAAGTGAAGCTGGATAACCATCTTATCAGTGAGCGGATGGTGGCAATTCGCACAGCTGTGCCCGATG -CGACGCTGATCGTTGATGCAAATGAATCCTGGCGTGCAGAAGGGTTGGCGGCGCGTTGCCAGCTATTGGC -GGATTTAGGCGTTGCGATGCTTGAACAACCGCTTCCTGCGCAGGACGATGCGGCGCTGGAGAATTTTATT -CATCCGTTGCCGATTTGTGCTGATGAAAGTTGTCATACTCGTAGCAATTTGAAGGCGCTGAAAGGGCGCT -ATGAGATGGTTAATATTAAGCTCGATAAAACCGGGGGTCTGACGGAAGCGCTGGCGCTGGCGACTGAAGC -GCGTGCACAAGGTTTCAGTCTGATGCTGGGCTGCATGTTGTGTACCTCTCGTGCCATTAGCGCCGCTTTA -CCGCTGGTGCCGCAGGTCAGTTTCGCCGATCTTGACGGACCGACCTGGCTGGCGGTAGATGTGGAACCGG -CGCTTCAGTTCACGACGGGCGAATTGCATCTTTAGGATGCCAGCGCAGCAAGTTTGCCATCGCAAAGAGA -TATTTTTCGCTGGCTTCGTCGGAGGAGATGGGCGGAAACTCTGCGGTGATGCAATGCAAGTTCAGATCTG -CACACCAACTGCCGAAAGAGCCAGGCGTTTCATAACCGACGCTGGTTACCAGAGGCAATTCAAACGCCTG -AGCCAGCCATTCGCCTAATTCGCTGTGTCTGGGATCTTCAATACAGGCCAGTGGATCGTGGAATGAGACC -ACCCAGGCAGGTTGAATGCGGTGTATAAGCTGGCACAGCGCCTGGGTTTCAGGTTCGGAGCCAGGTTTGT -CACCTGTCAGTAATACGACATCGCGTTCTTCAGCGGCGCTGTTCCAGCGATAAACGGTTTCACCTTCCTT -CCAGTTCGCCGCCGGAAAGTTTCTGTTTAAATCCACACCATTAGCATTGGCCCGTAACCCCAACTGGCAG -CCGTCAGGATTCACACACAGCACCACATGATGACGGCGCAAAGAAGGTGTCAACGTCCGCAGAGCACAGG -AGAGCGTGACGACCGAAGAGTTTTCATCACCGTGAGTGCCAGCCAGAATCAAACCACTTTCGCGGCTGGC -TGCAGGGGCAGGAAACCAGATTAACGGCGCGCCCAATAATGAACGTCCGTAATGTTCTGTTCCGGGCGGA -AATGCGCCGCGTTCGGCGCGTGGGCGGGTTACGGTCATGATCGTCTCTGGTTCAGGAAGTATTACAGGCA -GTGTTGTGCAAATTTTGCGGATTATCAAATCCTTTTCTTCAACGCTATGTCATCGATCTTGTATCACTTT -TTTGCCGGAAGTTGTTTGCATTTTATTAGTTGGATAGGGTTTGTGGATTTTTGCTGGCTGACGGGCAAAT -AAAGTTTGTTTAATGGTTTGCTTATCTGCCAGTTGATTAATCACATGGCGGGCTATCTGACCGCCAGCAC -CAAGAATCAGTACATTTTTCATGAAAATTATCCCAGATTATTGGCAGCAATATGCCAGTCCATATCACTA -TTGCGGATTTGAATATGTTTCATTACAGAGTTTCCTCAAAGAACGGAGCTAATACTGAAATTGCTTCAGC -CACATAGGCTTTGCCGTCATAAAGATCCATATGGTTTGCGCCTTCAACAATGTGATAGCGTTTATCCTGG -CTTGATGCTCGATCGTACAGGTCGTCACTCATCCATTTGCTCCCTGCCTGGCTGCCCGCCACAATCTGCG -TCGGCTGAGTCAGGTACACTTCCGCCATATGGTAAGCATCATAGGTAATAATCTGGTTAAGGCTGCGCAA -AGTAGCGTAACCCGGTGCTGTTGGATACTGCGCGCGAGGGGTGTGGTAATACTCCCAGGCCTGACGCAGT -TCTTCGTTCGGCGCATCGGACTCCTTCATTGGTGCCAGTGGCATAATGGCGTATTCTCCGCTGCTAATAT -CGCTGGTTCTGGCGTTTGAACCCGCTTCAACGTATGGCAGGGCATCAATAGATTTCACATTGTTTTCCCA -ACCATTACGGAATATCGAACCAATATTGACCGCACTAACGGTACCGATGGCCTTGATGCGGCGATCCTGA -ATTGCAGCATTGGCTGTATATCCTGCACCGGCACAAATTCCCATCGCACCAATTCGGGTATTGTCGACAT -AAGAAAGCGTTGTCAGGTAATCAATCACGGCACTGATGTCTTCAGTACGAATGTATGGGTTTTCTAACTG -ACGCGGCTCGCCGCCACTTTCACCTTGATAAGATGCGTCATAAGCAATAGTGACAAATCCCTTTTCCGCC -AGTTTTTTGGCATAGGTTCCGGCCGTTTGTTCTTTAACGCCCCCACCTGGGTGAGATAACACAATTGCCT -GATACTGACGGGTTTCATCAAATTTTGGAGGGAAATAGATCACTGCAGACAAAGAGATGGTTGGATTATT -GCTGTTAGTGAAGCTGACTTTATTATTCATCATTCCGTTCCTCATGGAGTTGTCGGTTCGTTTTAACGGT -TGGTGATATCACTATAGATATTGATCATTAAGTTGATTAGACCCAAAATCATGATTAGACCTATCATTTA -AATGATTAATAGATTGCATGGAGATACTGAATGAAGCGTGAAGAAATCGCTGATCTGATGGCGTTTGTCG -TCGTTGCAGAGGAGCGTAGCTTCACTCGTGCAGCAGCCCGCCTGAGCATGGCGCAGTCAGCTTTAAGCCA -GATAGTGCGTCGTATAGAAGAACGATTGGGATTGCGGCTTCTGACGCGAACCACGCGCAGCGTTGTTCCA -ACTGAAGCGGGCGAGCATCTTTTGTCTGTTCTTGGCCCTATGTTGCATGACATAGATTCAGCCATGGCAT -CCCTGAGCGATCTGCAGAACCGCCCATCCGGGACAATACGTATTACTACTGTAGAACATGCAGCAAAAAC -GATATTGTTACCAGCAATGCGCACATTCCTGAAATCGCATCCTGAAATTGATATTCAGCTCACCATTGAT -TATGGTTTGACCGATGTCGTTTCTGAACGTTTTGATGCAGGCGTCCGTCTGGGTGGGGAGATGGATAAAG -ATATGATCGCCATTCGAATCGGGCCAGATATACCAATGGCTATTGTTGGCTCACCGGATTATTTTTCTCG -CCGAAGTGTTCCAACGTCAGTGTCACAATTAATAGATCATCAGGCAATTAATTTGTATCTTCCCACATCG -GGTACAGCAAATCGCTGGAGATTAATACGCGGTGGACGTGAAGTTCGTGTTCGCATGGAAGGTCAGCTTT -TACTGAATACGATAGACCTGATCATTGATGCTGCAATTGATGGGCATGGATTGGCGTATCTACCTTATGA -TCAGGTTGAGCGGGCTATTAAAGAAAAAAAACTGATACGTGTTTTGGATAAATTCACACCAGATTTACCC -GGTTATCACCTGTACTATCCACACCGTCGACATGCTGGCTCGGCATTCTCATTATTTATAGATAGGCTGA -AGTATAAAGGTGCTGTTTAGCACTACTTGCTGATACATTAATTTAATTCTTCTCTTAACGTATTCTCAGT -TCCTTTCAACGTTTTGGTCATTTTTTATTCTTCGTACAATGGCGACAGATGCTGATTATGATACCGAAAA -CGGGTTTGAACGTGCGAAGCCCGAACGTAGTGTTCGGAGTTCTATGTGCTTTACCGCATTTTGGAGACTA -TTATTTACACTAAATCTGATTTGATATATTGATACTTAAAACATTTGATGCTTCCTTTGTCACTTTTTTG -ATGGAAGTTGTTTGCATTTCTTTAAGGCGAAACAAATAATTACGCATCAATTTTAATGTCGGTTAGAGGG -AAACTTATGAAGCACTCTGTTTCAGTCACGTGTTGTGCGCTGTTGGTCAGCAGCATTTCTCTTTCGTATG -CTGCAGAAGTTCCGAGCGGCACAGTACTGGCAGAGAAGCAGGAGCTGGTGCGCCACATTAAAGATGAGCC -TGCGTCGCTGGATCCCGCTAAAGCCGTGGGCCTGCCAGAGATTCAGGTCATTCGCGATCTGTTTGAAGGT -CTGGTGAATCAGAACGAAAAAGGGGAGATTGTCCCCGGCGTTGCGACTCAGTGGAAAAGTAATGACAACC -GTATCTGGACTTTTACCCTGCGCGATAACGCAAAATGGGCGGATGGCACACCGGTAACGGCGCAAGATTT -TGTCTACAGCTGGCAACGTCTGGTGGACCCAAAAACATTGTCGCCATTTGCATGGTTTGCCGCGCTGGCG -GGAATCAACAACGCACAGGCGATTATTGATGGTAAAGCTACGCCTGACCAGCTTGGCGTCACCGCAGTTG -ATGCCCATACTTTGAAAATTCAGCTTGATAAACCGTTGCCGTGGTTTGTGAATTTAACCGCTAACTTTGC -CTTCTTCCCGGTGCAAAAAGCCAACGTAGAAAGCGGTAAAGAGTGGACGAAACCCGGAAATCTGATCGGC -AATGGCGCTTATGTTCTTAAAGAGCGCGTAGTCAATGAAAAACTGGTCGTGGTACCGAATACCCATTATT -GGGATAACGCCAAAACGGTACTGCAAAAAGTGACCTTCCTGCCAATTAATCAGGAATCCGCAGCCACTAA -GCGTTACCTCGCGGGGGATATTGATATCACCGAATCCTTCCCGAAAAATATGTATCAGAAGCTGTTGAAG -GATATTCCGGGGCAGGTTTATACGCCGCCGCAGCTCGGGACCTATTATTATGCGTTTAACACGCAAAAAG -GGCCGACGGCAGATCAGCGCGTTCGTCTGGCATTAAGTATGACGATAGATCGCCGCCTGATGACCGAAAA -AGTATTAGGGACGGGCGAAAAGCCAGCGTGGCATTTTACACCAGATGTTACCGCGGGATTTACGCCGGAA -CCTTCGCCGTTTGAACAAATGAGTCAGGAAGAACTGAATGCGCAGGCAAAAACTTTGTTGAGCGCAGCTG -GTTATGGTCCGCAAAAACCGCTGAAGCTGACGCTTTTGTATAACACTTCAGAAAACCATCAAAAAATTGC -GATTGCTGTAGCATCGATGTGGAAAAAGAACCTTGGCGTAGATGTTAAATTGCAAAATCAGGAATGGAAA -ACCTATATCGATAGCCGTAACACCGGCAATTTTGATGTTATCCGCGCCTCGTGGGTGGGGGATTATAATG -AACCCTCCACTTTCCTGACATTATTAACGTCAACGCATTCAGGAAATATTTCACGCTTTAACAATCCGGC -ATATGACAAAGTTCTGGCCCAGGCATCGACGGAAAATACCGTTAAAGCGCGTAATGCCGATTACAACGCG -GCAGAAAAAATCCTCATGGAGCAAGCACCGATTGCACCAATTTATCAATATACCAATGGACGATTAATCA -AGCCGTGGCTGAAAGGTTATCCCATTAATAATCCTGAAGATGTGGCGTACAGTCGGACTATGTATATTGT -GAAGCATTGATGTGATGGGAACTGGCGTTACCCTTGTGCATAACGCCAGTGATGTCTGATTTAGCGACCC -TGTTCCGGCGGTGTAATGTTATCCATATACAGCGTCTGGCTGGGGAAGGCAAAGTCCGCGCCGTGTGACT -GTACAATATCGATAATCTTCAAATAAACGTCTTGCTGTGCAGCAAGCCATTCAGCCCATACCGTGGTTTT -GGTAAAGCAATAAACCATAATATTCAATGAAGAGTCAGCAAACTGGTTGAAATAAACCAGTAAGGTTTGT -CGCTGGTCGATGGCCGGGTGATTTTTCAGCATCTCACGTACAGCTTCGACAATAACGCCCACTTTTGCCG -CATCCTCATAACGTAAACCAATGGTCGTGGTAATGCGGCGGTTGGTCATTCGTCCTGGGTTTTCTACGCT -GATCGACGAAAACAGCGAGTTCGGTACGTACAATGGACGATTATCAAAGGTCGTAATTTTGGTAATTCGC -CAGCCAATTTCCGCTACTGTACCTTCGATATTTCTGTCCGGTGAACGGATCCAGTCGCCAATACTGAAAG -GACGGTCGAAATAGAGCATAATCCCGGAAAAGAAGTTACTCAGAATATCTTTACCGGCCATACCGACAGC -CAGACCACCAATACCACCAAAGGTCAGCAAGCCAGAAAGGCTCATGCCGAAATGTTCGCCATAAAGCAGA -ACAAGCACCACAATAATGGTGATTTTGATGATACGCGACATAATCCGCGCACTGGTGATATCGCGACCTT -TTTTAATCTGCTGTTTTTCAAACTGATTAATCAGCAGAAATAGCTTAATCGTCAGAATAACCGCAATCAG -GGACGTACAGATAAAATCGATAACGCCTGGGGTGATAAATTTGAGTTTATAGTTTTCTATAACATAATTA -ATAATGCTACCAACAGCACTGATAATTATGGTGTAGATTAAAAATTGCACCGCATGGAATAAAAATCCTT -TTCTTTTACGATTTCCACGGCGAAACCAAAAGCTCATCAGAATCAATGCTGCGCAGCTACCGAAAATAAT -GACCAGATTAAGCGCATTATTTGTAAACAGTTCAGCGATCATTGTTTTATCAGGCTCCTCCAGATAATTG -TCGTCATGCCGGAAACCCCTGGCGGGGCTATTTTACCGCGACAATTCATTCAGATCATCAATAGTCAGGG -AAGGAAGTAGCAACATTAGCTAAGGAAGGTGCGAACAAGTCCCTGATATGAGATCATGTTTGTCATCTGG -AGCCATAGAACAGGGTTCATCATGAGTCATCAACTTACCTTCGCCGACAGTGAATTCAGCAGTAAGCGCC -GTCAGACCAGAAAAGAGATTTTCTTGTCCCGCATGGAGCAGATTCTGCCATGGCAAAACATGGTGGAAGT -CATCGAGCCGTTTTACCCCAAGGCTGGTAATGGCCGGCGACCTTATCCGCTGGAAACCATGCTACGCATT -CACTGCATGCAGCATTGGTACAACCTGAGCGATGGCGCGATGGAAGATGCTCTGTACGAAATCGCCTCCA -TGCGTCTGTTTGCCCGGTTATCCCTGGATAGCGCCTTGCCGGACCGCACCACCATCATGAATTTCCGCCA -CCTGCTGGAGCAGCATCAACTGGCCCGCCAATTGTTCAAGACCATCAATCGCTGGCTGGCCGAAGCAGGC -GTCATGATGACTCAAGGCACCTTGGTCGATGCCACCATCATTGAGGCACCCAGCTCGACCAAGAACAAAG -AGCAGCAACGCGATCCGGAGATGCATCAGACCAAGAAAGGCAATCAGTGGCACTTTGGCATGAAGGCCCA -CATTGGTGTCGATGCCAAGAGTGGCCTGACCCACAGCCTGGTCACCACCGCGGCCAACGAGCATGACCTC -AATCAGCTGGGTAATCTGCTGCATGGAGAGGAGCAATTTGTCTCAGCCGATGCCGGCTACCAAGGGGCGC -CACAGCGCGAGGAGCTGGCCGAGGTGGATGTGGACTGGCTGATCGCCGAGCGCCCCGGCAAGGTAAGAAC -CTTGAAACAGCATCCACGCAAGAACAAAACGGCCATCAACATCGAATACATGAAAGCCAGCATCCGGGCC -AGGGTGGAGCACCCATTTCGCATCATCAAGCGACAGTTCGGCTTCGTGAAAGCCAGATACAAGGGGTTGC -TGAAAAACGATAACCAACTGGCGATGTTATTCACGCTGGCCAACCTGTTTCGGGCGGACCAAATGATACG -TCAGTGGGAGAGATCTCACTAAAAACTGGGGATAACGCCTTAAATGGCGAAGAAACGGTCTAAATAGGCT -GATTCAAGGCATTTACGGGAGAAAAAATCGGCTCAAACATGAAGAAATGAAATGACTGAGTCAGCCGAGA -AGAATTTCCCCGCTTATTCGCACCTTCCCTAACTAATCAATGCGTTGATTGTAAATCCAGCTAAGAGGTG -AGGTTTTCAGAGCAGACAACGGTGAAATGTCATGGTATTGTTACGTTTAGGTAACAAGAAATTTGTCTGC -ACAAGGATTACATCATGATTATGGCGAAACTGAAGTCAGCGAAAGGGAAGAAATTTCTCTTTGGTTTGTT -GGCGGTTTTCATTATTGCGGCGTCGGTTGTGACTCGCGCGACCATCGGCGGCGTTATAGAACAGTACAAT -ATTCCGCTGTCTGAGTGGACGACATCAATGTATGTGATTCAGTCATCGATGATTTTTGTTTATAGCCTGG -TCTTTACTGTGTTGCTGGCAATCCCGTTGGGAATTTATTTCCTTGGCGGCGAAGAGCAGTAAGTAAAAAA -TAGGCCCGATAACTCGGGCCTTGTCAGTTATTGAAGAGTCGTTAATCGTCTTCTTCGTCATCCAGTTCAA -CGGGTGTCTGATACTGGTCAGGTTTAATGACCAGCAGGTCGCAGCGAAGATGATCAATCACCTGTTCCGC -CGTGTTGCCGAGGAATGCTGCTGAAATACCGGTGCGTCCTACCGTGCCCAGAACCACAATCCCCGCCTGT -AAGTGCTCCGCCAAATCAGGAATCACCTCTTCTGGCAGACCTTTTTCTACGTGCGTCATGTTTTCATTAA -TGCCGAATTTCTGCCGCAGGGCTTTCATTGCCAGCAAATGTTGCCCACGAATGGCATCGTTATAAACGCT -CGGGTCAAATTCCGGCAGTTCAATCGCGATATTAATTGGCGTTACCGGATAAGCGCCAACCAGATGAACT -TCGGTATGGTTGACTTGTTCTGCCAGTTCGATCGTCTCTTTGACCAGTTTTTCATTGAGCGCATTATGAT -ACGGCTCTTCACTGGCGAGATTCACCGCCACCAGCGCCTTGCCTCCTTCCGGCCACGGCTGGTCTTTCAC -CATCCACACCGGGCTTGGGCATTTGCGTAACAGATGCCAGTCCGTTGGCGTAAAAATCACCGCTTCCAGA -CGGTCATGTTGGTGCGCCATTTTTAGCACCAAATCGTGTCCGCCGCTGATCACTTCCTGAATGATGGCTT -CGAAAGGACGGTTATGCCAGACCACTTTAATTTCAATGGGAACGCCAGCATTGAGATAATATTTTGCCTG -CTCGTGGATCCAGGCTGTACGCTGGCTGATGACGCCCTGACGCATAGCGGTACGTTCGTCCGGGGAGAGC -AGGGTGGTCATTTCGTATGAGAAGTCATAGATCGGCAAAAAGGCTTTAATTTTGCCACCAATCCGTTGAT -GTAAATAAACAGCTCGCCGCAATGCTGGTTGGTCGTCCTGGTTAGGATCGATAACAACGAGCATGTTCTG -ATACATAGCCATACAGGGTCTCCTTACAACAACTGTCAACGCAGTTTGTAATTAAAAGATTAACCCATAT -CTGGTGAATGAAACAGTGATGAACCTTCTGCCAGATCAATAAATCAGAAAAATTTAATGATATGACAGAA -GGATAGTGAGTTATGCGGAAAAATCAGGCAACGTTACGCGTATGACCAGCAAGCTGGGCCAGCGCATCGT -TATTTTCGATGGTGATGTATTTACCTTTGACTGCCAGCATGCCGCTTTTCTGGAAGCGACCCAGCAGACG -GCTGATGGTTTCTACCGTCAGGCCCAGATAGTTACCGATATCGCCACGAGTCATCGTCAGGCGGAATTCA -CGAGGGGAGAAGCCGCGTTGGGCAAAACGACGGGACAGGTTGTAGATGAATGCAGCCAGACGTTCCTCGG -CATTTTTCTTCGACAACAGCAGGATCATGTCCTGATCGCCTTTGATTTCACCGCTCATCAGACGCATCAT -CTGCTGACGCAGATTCGGCATTTTACCGGACAAATCGTCCAGCGTTTCGAACGGGATTTCACATACCATC -GAGGTTTCCAGCGCCTGCGCGAAGCTCGGGTGATGGCCGCTGCCGATGGCGTCAAATCCCACCAGGTCGC -CTGCTAAATGGAAACCAGTGATTTGCTCGTCGCCTTGCTCAGTGATGGTATAACTTTTAATCGTACCGGA -GCGGATGGCATAAAGCGATTTAAGTTCATCACCAGCCTTAAACAGCGTCTGGCCTTTCTGAATAGGCTTC -TTCCGCTCAATGATATTATCAAGCTGATCAAGCTCATGTTCGTTGAGTGTGAACGGGATGCAAAGCTGGC -TGATGCTGCAATCCTGGCAATGGATAGCACAACCGCCAGACTGAATGCGCCGTATAATTCGCTTTTCCGG -GATCATAGGTCTGCTCAAGCCGTAATTGATATTTGTCAATTTTAACATCTTTTTAGGGAGCAAGTAAGTC -TAAGCAAACCTTAACAGCAGAGAATTCCGATATTAGATGTAAATATATGTCTATCTATTTGAAAACCCTT -AAGTTGTTAAGGGTAACTTTACATAAAAGTGTGAACAAGCTGGCACAAATTGTTTAATGTTTACAGCAAA -AGATAACCTTCATGGCGCAATAACCACTCTTTTCGCTGAACTCCGCCTGCATATCCGGTCATGGTGCCGT -TTCGGCCAATAACCCGATGGCAAGGTACGACGATGCTGATGGGATTCGATCCGTTTGCCGCACCAACGGC -ACGCGCCGCGCCAGGACGGCCCAATTGCTCAGCCAGTTGGCCGTAATGCATTACCTGCCCGCAGGGGATA -GTGCGTAGTGTTTTCCAGACTTCGCGCTGAAATGGCGTCCCCCCCGTAGCAGTGGGAAGCGTATCAATAA -TGCTAAGATTACCGGCAAAATATTCACGAAGCTTGTCGCTTAAACCGCCTGGATTGGTGGCAGAAATGCG -CTCATAGCCTTCTTTGCGATAATGGATGTCCAGCAGCTGCACCATGCGTTCGCTGTACTCTTCCCATTCA -ACCGCCCGCAGGCGAAATTGCTCATCGCAAATCACCCACAGTGGACCCAGTGGCGTGGCAATTTTTTCTT -CAAGTAATCTCAGCATCCGTTCTCTCTTAAGACAAACGTGGGTAAATACCCGGACCTATCGGCAGACCGA -CAAGATACCACGCCAGCAACATCAGCAGCCATACCACCAAAAAGATAAGTGGATAGGGCAAGACTAACGA -ATAGTAAGTACCCAGTTTCGCGTCTGGTTTGTAGCGTTGCAGGAATCCAAGAAACAGTGGAACAAAAGGA -GATACCGGCGCTAAAGGCAATACGGATGAGTCGGCAATACGAAAGAGGATTTGCGCAAATGCCGGGTGAA -AGCCAAGTAGCATAAACATTGGTACGAAAATGGGGGCGAGAATCGACCAGATTGCGGAACCGCTGGCAAT -AAACATGCATAAGAAAGAGGAAAGCAACGCCAGACCGACAAACGCCGGGATGCCGCTAAGCCCTGAACTT -TCCAGTATATCGGTCAGCCCCACGGCGATGAATTTCCCCATGTTGCTCCAGTTAAACATGGCGACAAATT -GGGCGAGGGGAAAAACCATCACGATAAATCCCGCCATCTCTTTCATCGGTTCAATCATTAAATGCGGTAA -ATCCGCCTGACGTCGAATTGTGCGGGTAGCGATGCCATAAGCCAGCGAGACAACAAAGAAAAAAAGAATG -ATCAGTGGCACGATACCTTTAATAAAGGGTGATGGCATCACGGTGTGATTAATCGGATCGCGCAATATCC -CGTTTTGCGGGATCACCATCAGCGCAATCGCAGCAATAAAAAGTAGCGATACGACACCTGCTATGCGTAA -ACCAAAACGCTGACTTTCGGTCAATGTCTGCAGTTTCTCATCGCTGTTTCCCTGCCATTGACCTAACCGT -GGCTCGATGATTTTGTCGGTTATCAGGCCGCCAACAATCGTCAGTACGACTACGGAGCTGGCCATAAAAT -ACCAGTTATCAATTACACTGACGTGCATTTGCGGATTGAACGCAGCTGCCGCTTCCGTGCTGATCCCCGA -CAGCAACACGTCGGTTGTGACAATCAGTAAATTAGCCGTAAAGCCGCAACCTACGCCTGCAATGGCAGCC -AGTAAACCTGCAACTGGATGCCTGCCCACCGCCAGAAAAATCAGCGCACCCATCGGTGGCATGATCACTA -ACGCCGCATCGGAAGAAATGTGGCTGAAAAAAGCAATAAACAGCACCATATAACTGGCGTAGCGGGCATT -AACATGCGATGCCATTTTAACCATTAGTGCTGGCAGTAAGCCGACGCGCTCCGCCAGACCGGCACCTAAA -ACCAGCGCCAGGATCGCACCAAGTGGAGCAAAACCGCTAAAGTTTTTAATAACATTGGGTAAAAACCAGT -GTAATCCTTCCACACTGAGCAGGTTTTTCACCACGACCGGCGTACCATCGGTCGGGTTTTTCGCACTGAC -GCCAAAGGCCGACAAAATTGCCGTCGTCACCATGAGTACGATAATCAAATAGATAAAGAGCAGAAAAGGA -TGGGGAACCTTGTTACCAATTCTTTCGACCCAGCCATAGAGCTTCCCGGATTGGGAGGACGACGGTATGG -ATGACATACTCATGGGCATTCCTCGGTTGTTGTGTTTGCGTTGTTGTTGTTATTTTAAAGGTGACGGTGT -CACGTTTTTCGGGATAGGGCAGTGATACGGTTGCGTGTCCGTTACTTGCTGATGCTCTTGTTGGCATTCT -TGCAATAGCCCTGAATCAAGGAAGAGATTGACTGTGGTTGCTGCCATAGTTTTCGCCGCCAGCAGCATTC -CTTTATGAGCAATAGATGTTCGCCCCTGGCTAACCAGTTGCCACGTATGTAGCGGTGTACCGACGGCAAA -ACAGGGGCTGAAACACTGGGCAACAGGCAGTTTCCAACTGACGTCGCCGACATCAGTCGATGCCGCAAGC -ACGTTATCGGTGGCGGCATATGGAGCGACTTCATTCGCCAGTACCGTTTCACGATGACGTAGTGCAAAAA -CCTTGCCGTTTTCGCCACCGGTTGCGGCGATATTATTCAGACTGTTTTGCCGATCGTTGGAGGTGAGCGT -AGCCTGAATTTGTTTCGCAAAAGCCAGTTCTTCGGAGTTCCATTCCGGGGTACCAAAATGGGATAGGGCC -TGGTACATGGCATTTTCTAAGGTGCGATTCGGGAGATAACTGGAACAGGCTTTGTCGAAGCGGCATTCAA -CCGTGGTTTCGGTCATCAATGCCGCACCTTCGGCGATTTTGGCGACCCGATCATAAATATGCTGCACGTC -GGTCATTTCGGGGGCGCGGATAAGATAAAGCACTTCTGCCTGCGCCTGGACCACGTTGGGCGAGATCCCG -CCGCTATTTGTGATGGCATAGTGTACGCGCGCTTTTTCAATAATATGTTCGTTGAGGAAGTTGGTGCCAG -TGGTCATCAACGTTACGGCATCAAGGGCGCTGCGTCCCAAATGAGGGGAATTCGCGGCATGTGCTGCGAT -CCCTTTAAAGCGCCATGATGCCTGAATGTTTGCCAGCGTGCGGGTATTGAACATACCGGCAAAGGCTTCC -GGGTGCCAGGTGAGTGCCGCATCCACATCATCAAATACCCCCTCGCGAACCATGAACGTTTTACCCGAGC -CGCCTTCTTCGCCAGGACAACCATAAAAGCGCACCGTGCCGCCTTGCCCATATTGTTCCAGCCATTTCTT -GACGGCTATTGCAGCGGCAAAGGCGGCGGTTCCCAGCAAATTGTGTCCGCAACCGTGACCATTTTCACCG -GGCGTCACGGATGTAGGTTGCGCGCAACCTGCTTGCTGACTTAAACCTGCCAGGGCGTCATATTCTCCCA -GCAGGGCGATAACCGGTTTGCCTTGACCAAACGAAGCAATAAAGGCATTTGGGATATTGCCTACGTTGCG -GGTAACGGTGAAGCCTGCAGATTCCAGCGCCGAAGCCAGATGCTCCGCTGACCAGAACTCTTCAAAACGT -GTTTCTGGATGATCCCAGATTTGATCGGCAATATCGGTATAACGTTGGCGATCGGCTTCAATCGCATCGT -CGATAAAACGATAGATTTCCTGCATCAGATACCTCGCGTCCAGGGAAAATTGAGCGCGGTGCGCGCCAGC -GTTTCGACGGCAATAGCGAGAACCTGCTCGTCAAAATCGAATTTTTCGTTGTGATGACCTGCCGCCAGCT -GTGTGCCAAACACCACGTAGGAGGCTTGCCCTTGATGTTGCTGCACGCGGGCCATCATTAATGTGGCATC -TTCGGAACCCGCAGGCGCTTCAACACGTTCAATGGCCTGATTGACCCCCGCGACCTGAGCCGCCTGACTT -TGCAACCATGCGACCCATTGCGGCGAAGGAGAACTGGCGGTAGCTGCACCCATCAGACGAGTTTCAACGC -CGACACCATACATGGTTGCTGCGCCCTGAATCGCTTGTTGTGCACGGTCAAAAACATATTGATTAATGAC -GTCGCTGGCCCCGCGTGTTTCCACTTTCAGCAACGCCGAGGCAGGAACAACGTTACGACCGCTTCCTGCC -TGCATAACGCCCACGTTTACTCTGGAAGCTCCTTCGCTGTGCGGGGCGATTGCATGCAGTGCAAGAGTGG -CTTGTGCTGCCGCCAACAAGGCATTGTGACCGTCTTCTGGTTTTGCGCCTGCGTGAGCGGCGGTACCGGT -GAAGTGCGCGTCAAATTTGGTGGTTGCCATAAAATTATCACTGCCGCACACCACGGTGCCCGCAGGTACG -CCAGTGCCAATGTGCACGGCAGTAAAATAATCAACATCATCTACGACACCTGCATCGACCATCGCCCGCG -CGCCACGCGTACCTTCCTCTGCAGGCTGAAAAATCAGTTTGATGACGCCATGTAGTCCGGACTCGAACTG -TTTAAGGGTATGCGCCAGCCCAAGCCCAATGGCGGTATGTCCATCATGACCACAGGCATGCATCATTCCG -GCGTTACATGACGCAAAACCGTCGCGGTAGGGGCGATGGCTGACATCCTGCTCTTCACTGAGATCCAGCG -CGTCCATATCGACACGGAAAGCCATCACCGGACCGGGGCGACCGGTATCCAGGGTGGCGACGATACCAGT -GAAACCACCTTCAAAAGCCGCAATCCATTGTGCTAGCGCACCCTGTTGACGAGCGCGCTCGAATTCGCGT -TGTAGAGTGAATTCATCAGGTAATCCCATCCGGCTACTTTCATTAACTACTTCGCGACCCAGCGCCAGTG -AATAGCCGAGCTGGTGCAATTCTTCCGCAACAAGGGTGGCAGTGCGGAATTCCACCCAGCCAGACTCTGC -ATAGTGATGAAAATCACGTCGCCAGTGCGATAATTTTGGGGCAAGCGAATTAACAAATTGATTCAAAGAC -TCCATAACCTTTCCCGTCATCAGTAAAAAGTGTGACCCGGTTCACGTAGCGATAGTTTTTACTTATCACT -AACTGATTTTTCACAGTTTTAACCGTTCATAAATTACCCTGACACAATCATCTGCATTAAAGTAGATGCC -AGTTTCTTTGGTCTGATAAATAACGGTTATCGGTGGCGTCATGGCTTTTCAGGTAAAAATTCATCAAATT -CGGGCTTTTGTTGAAGTGGCTCGTCAGGGCAGCATTCGCGGAGCGAGCCGAATGTTGAATATGTCGCAAC -CGGCACTGAGTAAATCTATTCAGGAGCTAGAAGAAGGGTTAGCGGCGCAACTCTTTTTTCGCCGTAGTAA -AGGCGTGACGTTAACTGATGCCGGTGAAAGTTTTTATCAGCACGCCAGTCTAATTCTTGAAGAGCTGCGC -GCAGCCCAAGAGGATATTCGCCAACGACAAGGGCAACTGGCAGGGCAGATTAATATCGGCATGGGGGCCA -GTATTTCCCGCAGTCTGATGCCAGCTGTCATATCTCGTTTTCATCAGCAGCATCCGCAGGTAAAAGTACG -CATTATGGAAGGGCAACTGGTGTCGATGATTAATGAATTGCGTCAGGGAGAATTGGATTTCACCATCAAT -ACCTATTATCAGGGACCGTACGACCACGAATTTACTTTTGAGAAATTACTGGAAAAGCAATTCGCGATCT -TTTGCCGCCCGGGACACCCCGCCATTGGTGCCCGTTCGATCAAACAGTTACTGGATTACAGCTGGACAAT -GCCGACGCCACACGGCAGCTACTACAAACAGTTGAGTGAATTGCTTGACGATCAGGCGCAAACGCCACAG -GTCGGTGTAGTCTGCGAGACGTTCTCAGCCTGTATCAGTCTGGTGGCAAAAAGCGATTTTCTCAGCAAAC -TGCCTGAAGAAATGGGCTGCGATCCCTTGCACGGACAGGGGCTGGTGATGTTGCCGGTTAGCGAAATTTT -ACCGAAAGCGGCCTATTATTTGATTCAGCGGCGTGATAGTCGCCAGACACCACTGACCGCGTCATTAATC -ACGCAATTCCGGCGAGAATGCGGCTATCTGCAAAGTTAAAACTGCATAAAAAAATAGAGTCTGTCGACAT -CCGCCAGACTCTACAGTACACACAGCAGTGCATCCGCGTCTTAAATCCGGCATTGTCTCCTCTGCGCCGG -TGACTGTGTTATAACGGTTTTAACCTTTAGTTGCCAATTTTCTTCAGTGACAGATTTCACGAAAATATAA -GTTACATTATTAATATCGTGAATGAATAATCATGCATAAGTATTTTGCTTAAAATATCGGCAATATTTGG -AACTTATTACTGGAAATTTGGGTAATACGTTGTTGGACCGACCCGGTCTGGTTATCATATCGCGCTCTTA -ATTGCGGGAGGATGTAACATGAACCTTGACGACAAATCGCTGTTTCTTGACGCCATGGAAGATGTCCAGC -CGCTGAAACGTGCTACCGATGTCCACTGGCATCCAACGCGTAACCAACGTGCGCCGCAGCGTATCGACAC -GCTGCAGCTTGATAATTTCCTCACCACCGGATTTCTCGACATCATCCCACTAAGTCAGCCGCTGGAGTTT -CGGCGGGAAGGGTTGCAACATGGGGTGCTGGATAAGCTGCGCAGTGGTAAATATCCGCAACAGGCGAGCC -TGAATCTTTTGCGCCAGCCGGTGGAAGAGTGCCGCAAAATGGTGTTCAGTTTTATTCAACAAGCCCTGGC -GGATGGTTTGCGTAACGTGCTGATTATTCATGGTAAAGGGCGGGATGATAAATCGCATGCCAATATTGTC -CGCAGCTATGTGGCGCGCTGGCTGACCGAATTTGATGATGTTCAGGCATATTGCACCGCGCTACCGCATC -ATGGCGGCAGCGGGGCGTGTTACGTCGCACTACGTAAAACGGCGCAGGCGAAGCAAGAAAACTGGGAGCG -CCACGCTAAGCGCAGTCGTTGATCTCGAGACGCATCCGCGGCTTATGCCGCCAGCACGCGGTTGCGTCCA -TCATTTTTCGCCCGATACAAAGCATCATCAACGCGTTTAAACAGTTCATCGATGCTTTCATTTCCTTCGT -GATGCGCCACACCAATGCTGACGGTAAAGCGTGGTAAGCCCGAAATACTCACTTTTGCCACGCTTACGCG -GATAGTTTCAGCCAGCGAAAGCGCGGTATCCAGTGGGGTTCTTGGTAGCAATAAGACAAACTCTTCGCCT -CCCCAACGAAACACCAAATCGCCTTTGCGAGCGCAACTTTCGAGGGTGCGGGCGAGGGCGCATAACACCT -CATCACCTTTAGAATGCCCATAGAGATCGTTAATGTGTTTAAAACGATCGGTGTCGATGAGCAACAAGCT -GTAATCCTGAGCGATGGCGAGATGCTGCATTTGGCCTGGTTCCGTAATGTGATAAAACTGTCGCCGATTC -AGTAATCCGGTCATCGCGTCATGGTGAGCAGCATGTTCCAGCTGCTCCTCCAGCCGTTTTTGCTCAGTAA -TATCATGCACAATACATAACATGAGCTTGTCGCCATAAATTTCAATCGGTCCGGCATAGGTCTGCACATG -ACGAGTCGAACCATCCGCCAGTTTATGAACAAAATTCAAAGGTTTATGACCACCGGGTAAATGCGAGATT -TCATGCATGATAGGCATGACGCGACGCCCGAGCATATTTATTTCCCAGGTATGTTTCTGGCACATCGTTT -CATGGTTATAACCATAGAAATTGAGCGCGGCGAGGTTAGCATCGACGATTTGTCCATCTCGTGACGGGTC -AATCAACAACATTGGTGCAGAGTTAGTCAGAAAAAAGCGCGCATAAAAACCTTGTTTTTTGCGCTGATAA -TTTGCCGAGCGACTGGCTTTTAAACCCAGCGTTGCCGGCGCTTCGATACCTTCGAAAATAATCACCGGTT -CTGTTTCTGTCAGCTTTCGCAAAACAAGCCGACAGCTCAATGCTGTTTCCTCTTCTTTACGCTGAACAGT -GAGGATTTCGATAATATCGTGTTGGTTTTGCAGATCGGAGAGGTATTTCGGCAGTTCTTTTTGTGAGGAG -ACGGAATAGGGTCCGGTTCGTAGCTGACTAAACGTGAGGTCTTGCATCAACAGTTTCGCCGCGCTATTGG -CATAAATTAACTGTTCCTCAAAGGGCGAAACGATCCAGACAGGACTGGTGAGTAAGTCCAGGGTATTGAA -GTTGTGCGTAATCATTGAGATCCCGTTATTTTTATCAATTTTTGTTGCTATCCGATCGCAAAAAAGCCAC -GTCATATGATCAGATAATTCTGATAATGATAGACGCTATTTAACACTTCACACGGTTTGTATACGGAAAA -GCATTTTGCTTTTTGTATTCAATTTAGACAGAATTTTATTAATCATTTCAGGGTAATGGGGTGATGAGAT -GTTGCGTAACAGGGCCAGAAGGCTAGACTACAAAATAATGCGTTGATGATGGAGGCACTGTGGAAGCGAT -TAAGGGATCGGACGTTAATGTCCCGGATGCAGTATTTGCCTGGATGCTGGATGGTAGAGGCGGCGTTAAA -CCGCTGGAAAATACAGATGTGATTGATGAAGCGCATCCCTGTTGGCTCCACCTTAATTATGTACACCATG -ATAGCGCCCAATGGCTGGCGACAACACCGCTGCTTCCCAATAACGTACGTGATGCGCTGGCGGGCGAGAG -CACGCGTCCCCGAGTCAGCCGTCTCGGTGAAGGCACGCTGATTACATTGCGCTGTATAAACGGCAGCACC -GATGAACGCCCCGATCAACTGGTCGCCATGCGTGTATATATGGACGGGCGGTTAATTGTTTCGACCCGAC -AACGCAAAGTGCTGGCGCTGGACGATGTGGTGAGCGATCTGGAAGAGGGCACGGGTCCGACCGATTGCGG -GGGATGGCTGGTGGATGTGTGCGATGCGTTGACCGATCATTCCAGTGAATTTATCGAGCAGCTGCACGAT -AAAATTATCGACCTTGAAGATAATCTCCTTGATCAGCAAATTCCACCGCGTGGATTCCTGGCTCTGCTGC -GCAAACAATTAATTGTGATGCGTCGCTATATGGCACCGCAACGTGATGTTTATGCTCGTCTTGCCAGTGA -ACGTTTGCCGTGGATGAGCGATGACCAACGCCGTCGGATGCAGGATATTGCCGATCGCCTTGGGCGCGGC -CTTGACGAAATCGACGCCTGTATAGCACGGACTGGCGTGATGGCGGATGAAATCGCTCAGGTGATGCAGG -AAAATTTAGCTCGTCGTACCTATACAATGTCGTTGATGGCAATGGTCTTTTTACCCAGTACCTTTCTGAC -CGGGTTATTTGGCGTCAACCTTGGTGGGATCCCTGGCGGCGGGTGGCAATTCGGATTTTCAATTTTTTGT -ATTCTGTTAGTTGTTCTTATTGGTGGTGTTGCTTTATGGTTGCATCGTAGTAAATGGTTGTAACAAAAGC -AATTTTTCCGGCTGTCTGTATACAAAAACGCCGCAAAGTTTGAGCGAAGTCAATAAACTCTCTACCCATT -CAGGGCAATATCTCTCTTGCAGGTGAATGCAACGTCAAGCGATGGGCGTTGCGCTCCATATTGTCTTACT -TCCTTTTTTGAATTACTGCATAGCACAATTGATTCGTACGACGCCGACTTTGATGAGTCGGCTTTTTTTT -GCCTGTTATTTATCAGCGTCTACCCTTTAAGAGTCCACCCAATGACCAGAGGGAAATATGACGACACTTA -TTTATTTGCAAATTCCTGTCCCTGAACCGATTCCTGGCGATCCTGTTCCAGTGCCCGATCCGATCCCTCG -CCCGCAACCCATGCCTGACCCACCACCCGATGAAGAACCGATTAAATTGTCGCATCGTGAGCGTAGATCT -GCGAGGATACGCGCCTGCTAACTTTGCGTCGATGACCACGAGAATAGATTGTGACCGCTTTTTCTACCCT -GAATGTTTTGCCTCCCGCCCAACTCACGAACCTTAATGAGTTGGGTTATTTAACCATGACGCCGGTGCAG -GCCGCCGCGCTTCCGGCGATCCTTGCCGGAAAAGATGTTCGCGTGCAGGCGAAAACCGGCAGCGGCAAAA -CGGCGGCTTTTGGCCTCGGCTTGTTACAGCAAATTGATGCGTCGCTATTTCAAACCCAGGCTTTAGTGCT -GTGTCCTACGCGTGAACTGGCGGATCAGGTGGCAGGTGAATTGCGTCGGCTGGCGCGTTTTCTGCCAAAT -ACCAAAATTTTGACGTTGTGCGGTGGTCAACCGTTCGGTATGCAGCGTGATTCGTTGCAACATGCGCCGC -ATATTATCGTGGCAACGCCGGGGCGTTTGCTGGATCACCTGCAAAAAGGCACGGTATCACTGGATGCGTT -GAATACGCTGGTGATGGATGAGGCCGACCGCATGCTGGATATGGGATTTAGCGATGCCATTGATGATGTC -ATCCGTTTTGCGCCTGCATCTCGACAGACGCTTCTGTTTTCGGCAACCTGGCCGGAAGCCATCGCTGCAA -TCAGCGGACGAGTGCAACGCGATCCTTTGGCGATTGAAATTGACTCAACAGATGCTTTGCCACCCATTGA -ACAACAATTTTATGAGACATCCAGCAAAGGCAAAATTCCTCTGTTGCAACGGTTATTAAGCTTGCATCAG -CCATCCTCTTGCGTGGTGTTTTGCAATACCAAAAAAGATTGCCAGGCTGTCTGCGACGCGCTGAATGAAG -TAGGGCAAAGTGCATTGTCATTACACGGCGATTTGGAGCAACGCGATCGCGATCAGACCCTGGTACGTTT -TGCTAACGGTAGCGCCCGTGTACTGGTCGCGACTGATGTTGCTGCGCGTGGTCTGGATATTAAATCGCTT -GAGCTGGTGGTGAACTTTGAGCTGGCGTGGGACCCTGAAGTTCATGTACATCGCATCGGTCGTACAGCTC -GTGCAGGAAATAGCGGTCTGGCGATCAGTTTCTGTGCTCCGGAAGAAGCACAGCGGGCCAATATCATTTC -TGACATGTTGCAGATAAAACTTAACTGGCAAACGCCGCCAGCTAATAGTTCCATTGCGACGCTGGAAGCA -GAAATGGCAACGTTGTGTATCGATGGCGGGAAAAAAGCCAAAATGCGCCCGGGTGATGTATTAGGTGCAC -TGACAGGAGATATCGGGCTTGATGGCGCAGATATTGGCAAAATCGCCGTGCATCCGGCGCATGTCTATGT -CGCGGTCCGTCAGGCTGTTGCTCATAAAGCATGGAAACAGTTACAGGGCGGGAAGATTAAAGGAAAAACG -TGCCGGGTGCGGTTATTAAAATAATGAAATGTTGAATTGCCGGGTGCAAGAGTAAACATCTTATTCGGGA -TTGCCGGATGCGACGCTGGCCGCGTCTTATCCGGCCTCCATAAGAGTAGCCCGATACGCTTGCGCATCGG -GCGCTATCCTGGTTATTTCACTTCAACCACATTCAGCCGTAACTCATCCAACTGATTTTCATCTTCTTCT -GGCTGCCAGCACGCCGGTTGTAGTGGGATCTCTTCGCGATCAAACGCCAGATCACCCCCGTTAACCACTT -CAGAACCGTGGGTGATGCCTTTGAAATCGAACAGGTTGGTATCGCACAGATGCGACGGCACCACATTCTG -CATCGCGCTGAACATCGTCTCGATACGCCCTGGATAACGTTTATCCCAGTCACGCAACATGTCAGCAATC -ACCTGACGTTGCAGGTTAGGCTGTGAACCGCACAGGTTGCACGGAATAATCGGGAACGCTTTTGCATCGG -CAAATCGCTGAATATCTTTCTCGCGGCAGTAGGCCAGCGGACGAATAACGATATGTTTGCCATCATCGCT -CATCAGTTTCGGAGGCATACCTTTCATCTTACCGCCGTAGAACATATTTAAGAACAACGTTTGCAGGATA -TCGTCACGATGGTGACCCAACGCGATCTTCGTCGCCCCCAGTTCCGTTGCGGTACGATAAAGGATACCGC -GACGAAGGCGAGAACACAGTGAGCAAGTGGTTTTGCCCTCTGGAATCTTCTCTTTCACGATACCGTAAGT -ATTCTCTTCAACAATCTTGTACTCAACGCCCAGCTTTTCAAGATACTCGGGCAGAACGTGTTCCGGGAAG -CCCGGTTGCTTTTGATCGAGGTTAACAGCCACCAGCGAAAAATTGATTGGCGCGCTTTGCTGCAAATTGC -GCAGAATCTCCAGCATGGTATAGCTGTCTTTACCCCCGGAGAGGCAAACCATGATGCGATCGCCTTCTTC -AATCATATTGAAGTCAGCAATGGCTTCGCCCACGTTACGACGCAGACGTTTTTGTAATTTGTTCAGGTTG -TATTGTTCTTTCTTTGTAATTTGTTGATTTTCTTGCATTATTTCAGTTCTCTGGTACTAAATGGGGCAAA -TTGGGGGCAAACTTTGCAACTACGATAACCGCGCATTCAACATGGCTATCTGTTCGTCGTTCATGTCATC -AATCCACATACCGTAAATTTCATACACCATCTGCGCAGTTTCATGCCCCATTTGGCTGGCTATAAATGCC -GGGTTCGCTCCTGCCGTCAACAGCCAGCAGGCAAAAGTATGCCGCGTATGGTACGGATTACGGCGGCGAA -TACCAGCACGTTTTACTGCTGCATTCCACCTTGCCCCCAAACTGCTTACCGAGTAATAAGGTTTTTGTTT -TCCGTTACACACCCTGGGCATGAAAACAAAATGCAGTTTTTGCTTTTCGGTTCTGCCGTACTCCCGATGA -TAAAAGGTGATTTCGCTTTTGCGATGATGCCCGGTCAGTTTGTATTGCTCCTTCAGTGCTTCAAGAGCAG -GCTGCAGTAGTGTTACTGTTCGGATCCCGGCATTTGTTTTTGGGGGACCGAACATATCAAGTATCGTCAG -GTTTCTTCTGACATTCACTATTCCCTTTTCGAGATCCACATCCTCCCACGCCAGAGCTGCCAGTTCCCCG -TGACGAAGTCCTGAGTAAACGGCAAATTTCCACAAGTTCTGGCTCTGTCCTTTTTCACTTTCCATTAATG -CATTGAATTCTGTTTTAGATAACGGATCAGGCTTTATTCTGTTTCGCTGTAATTTTTTTACTCCTTCAAA -TGGTTTGGTTGATATAAATCCCGACTGATACGCAAAACGCAACAGCGAACAGAGCAGGGCGATATAGTTA -TCAACTGTGCGCACGGTTCTTCCTTTTTTGTTGGATCTTGGATTATCCAGGTAAAGCGTTTCTCCATGCA -GCAGTTCATTCCGGTAGTTTAAGATATCGCTATAACGAATATGTGATATCGGGGTACTTTCACAAATTAT -TATTCTAAGTGTTTTTAATTGTGATTTCGTTTTCTTCATTGTGTTTGTTGTTAACTCTGTCTCTTTAATT -TTTGTCCAGATATCACAAAGCTCTCCGAACGTTTTTATGACTCTCGTTGTCACCATTTTTGCCCCAGTGC -TGGACTGGGGAAAACGTCTTAAATACTCAAATTCACCGGAGTTTATTTCATGAACTATCAGCGCTCTTAA -ATTTCCGGCCTTTTTAATATTACTGTTTGTAATCTCCCAGCCTTTTAATGTTTCCCGACATCGTTTTCCT -CGAAACATGAACCAGATGCGAATGTATCTACCTCTAATCTCGACACCTGTTGGTAATTTAGACATATCAT -GAGTCTTTGATAAACTGATTTATCTTTGGATAGTTGTACCAGATAATCCCTCGTTTGCTGTCTGGCTTAC -CTAAAGGAGATACTCGTTTGAAGTGGAAGCCCTCCACCCAACAGTTCTGGCGGTATGCTTCAATTTGTCT -GGCCCCCAGACCAGTGCGAAGCATCAGGCCGTATTCAACCATCCACTCTTCATTAAAGATTACTTGTGCC -ATCGCATCACCTCTGGCAGGCGCCAATGTTAGACTGAAATTGACGCCCGATGTTGATTATTAATAATCAG -CTATGAAGTTTTAATTTGAATACAATGCAATTCTCGAGGACTGAAGTTTCTCGCAATTAAAATTTATCAG -TTTTACTTTCTGCTCTCTGGAAACGCCTGCTTCTTTTTTACCTGAGAGCATTTTTTCGCATTCTGATTTC -GTTAGTTTAGATTTTGAATATCTTGTCCAGTTAGTAGGAGTGCCACCTTCCTTTTCAATAGTGGCGGTAA -TTTTATACATGAACACCTCCATTATTATTTCCAGTGGTTCGTTTATTCCATCTTTCGAGTGCTTCTTTTT -CACTTCCACCATAACCGGTTCGGGATTCGCATCCGTTACACTTCGCTCGGTAATATCCTGAAATGGCTTT -CACCGTTACTGATGGACAACCACAAAATGGACATGGTTTAACATTGTCATATCTCATAATTTTTCTCATA -AAAAATATTTCAAGTTGGCGGTGCATTACACCGCCAGGCTGAATTATTCCTCTGAATTATCGATTACACT -GTATTCCCCGGTTAATACAGAGGAATCTGCAGGATCGATTGTCAGTGGTTCCTTTTCATCCATTGATACT -GCACGCTGGATCTCAATTGATACGGGCAAATATTTGAACAGGCGACGAATAGCCGTTTTCTTTGCCATTT -CTTCCCAGTGAGTTACCCACGGCCCGTTATTACCAGCTTTACTCAGGCTGCGCACCAGCTCAATCTGTTT -GCGCGTCATAACTTCAAACTGAGTACCTCCGTCTTTCAGTCTTGCGACAGCATAGACGTGGGTAACCGGG -GCATCTTCGTTTTCTCCCGGGCGGTGTATTAACTTTTCATCAAGGCCAAATTCGAAGCTAAACTCGTCAC -CTTCACGGACAACACGGGCTGACAGGCTGGCGATTTGACCAGAACGGCGAGCCAGATCAATCATGCCGCG -ATAGCCAATGATTAGCTGAACGTTCTTTTTACCGCTCTTTTCGTTTTTATTACCAAAAGGCAGTAAATAT -GCATGACCGAGGGCGCTACCTGGCTCAAGTCCGAGCTGTGAACACTGTACGATCGCACTGACAAAACTCA -TAGTGTCACAGTTTCCTAACGCCGGAACTTTACGAATTTCTGTGGTGGCGATACGGATCATACGTTCAGC -CGTCATATGGCGTGGAAGAGCTGCTGCCAGTTGCTCTTTCATTGATGGCTGGTTAATAAAACTAATCACG -TCGCTATTTTTAACTGCTGCTGGTGCACGGTTTCCCTGAGTTTTTTGCAGATCGGCTTTTGCGATTGGTG -GTTGCTTAGTCATTTGCATATTCCTTAGCCCAGCGGGGCAGTGATAATGTCTTAATAGCTGGCCATTCAT -CGGTATTCAGGCAGTCAGACAGGGTTCGCAGATTGCGGTGATATTCCTGTTGACCTGCCAGTTTTGCTTC -TTCGCCCATCATGAAAATTTCAACCGGATAACGTCCGCATTCAATAGTTGTGCTGGCAACCAGAAAAACG -AAAGTTGGCTGCACTCCAAACTGTGCTTCATAACCGTCACTGTAGAATGCATCCTGAACGTGATAGCGGT -AGTCGTAATAAGCGGTTTTGAATCGTTGAATATCCGCCGTAGTTTTCACGTCCATGATCCAGTGAAATTC -AGGGATAATTTTGTCCGGACGGCACCGACACAAAATTCCTGTTTCAGGATCTTCCCAGTAAATTGATGAT -TCAGCGTGTCCGGCGCTTTCAACAAGCCATTGCCCCAGCGGCAAAGCCATAACGCTTTGATACATGAGTT -CAATTTTCCGGCCTTCTTCCGCAGTGATAACCGTTTTTCCTGTGCTTGCGCATTCCATCAGAAACGCTTT -CTCTTCTTCTTTTCCGGCGTTTGTACGGCGGTTAAATTCAGGTGCTACGATAAAGCGGTTACTGAATTCT -TCCGGTTCAAGTACCCGGCAGTGGAAAGCAGTTCCTAAATCGAGCGTTTTTGTCTTTGTGGTGTCCACGG -GGGCATTTTTACGCCACAAATATAGTGCCGGAGTATCAGCAATGTCATCGAGCTGAGACTTACTGATACC -GGGACCCGCGTGGTAATTCTCATTCGAAATTCCGTAATAAATACCTGGCTCTATGTCTTCTACGATTACG -GGATCTGCGACTTCGCCAGTTTCATCACTGCAATCGCGATGCGGATCGCTGCCAGCATTCTCATTGTGCG -GATGTTCAGCGCCTTCCATTTCCTCCGGATCATTTTCCTTAGCTTCAACCTGACTCTCTTCATCGAATGT -TTCCTGGTATGTTGCGTCGCCCATCACCGCACCACAGTCAGGGCAGTTATCCCCGCCAGTCTGGCCGCAG -GCATTGCAGGCTATTTCCGGTTCCTGTTGCACTACTGGCTCAGGTTGATTCATATCTGGGCTGGTTTTTT -CCGTTTCTGGCTGGTTCTGGTACACACAATCGCGAGTCTGGATCCCCTTTACCCATTTCGGATCGTTCGG -GTCGCTAATTCCGTCAACAAATTCACCACGTGATGCAGCAAGCAATTTATCGTCATCGACAGGATTTTTT -GATGGAATGTTTTTCCGGGCTTCATGGAGTTCTGCCCGCAGTTCCTGATATTTCGCATCAACAGAATTTA -CCTGTGACTGAGCATCCAGCGGCTGCGTGTCCTGATGATGTTCAGTTGCGTCCGGTTCCATTGTTTCAGC -CTCTCCCTGTTCAACTGCCGTTGTTCCAGATGGTTGCGGTTTTTCTTCATCATCCTGTTTTCCTTCTTCT -GTTACTCGCTGCGGCATCGGGGCAGAGGAGCGACCGCAGGCAATATCCACGATTTCCGGATCAGGGTTGG -CATGATCGGTTTCAGTCAGTACTTTGTTCAGATATTCAGTGACGTGCGCGGGGATGACCTCGATCCCAAT -TGGTGCTTCTTTTACGGACGCAACCACGATGGCGCGGGAATAATCCAGCCCGCCAGGCATGGTGATGAAT -TTGTCGCGGAAAACAGAAAAGGGCGGTTTATTTTCAGCGATAATTTCCTCAATGCGTTTAGCGTGTGCCG -GATGAAGGTTATAGATGTCCAGATCCATTGAACGGGCCAGTACGCCAGTGGCTACGTCGCGCGCCAGTGA -CGTCAGATCGTGTACGAAACCTTCGCCGCGATCGGTGAGGTTTCCGCCGCCAGCATTAGCACCGGAAGCC -GTGCGAGTGATGTGTGAAACACGATTACCCTTCATCCACTCTTTTGTCAGCAGTCCTCGATCGGTGTAGT -CAGCGTTCAGGTATGCTTCGAAAAAAGCAGTTATCAGTCCCAGGTTTGAATTACCAGGATTAGGGAAAAC -TTTGTCAGTGTCACGAACCAGTTTGTGGAGTTCGCGAATTTCCAGCGGGTCGAGCAGGCTGGTTTTGTGG -GAAACAGCCAGGGCAGTAACAGCCGGTAGTTCTTCAGCCCGAGCAATGTGTAATGCCTGGAGTCCGTCGC -GTGAAACGTGCGTTACCGGTTTTTCGCTGCCGTGTTGAGCAAGCCAACGAATGGGCAGTTCCTGGCCAGA -AATTGGGAGTAGCATATTCTCCTCAATCTCAGTCATGTCTTCGCCGTTGACGTTGGTATTGCCTTGATAG -TGAGCGTTGTCTGGTGCTGCTCCCGGTTTTAGTTCCCATGTCATGGAGTCTTTGCTGAGTTGATAGCGTT -CACTCCAGGTAAAATCGATCTCACCTTCAGCGGGCAGGTCATTAACGACAGGAAAATTCGTGGCAACAGC -TTTAAAATAGCTGCTCAGTTTTTTACCTGACTTAACGATCAGGTAGTCCAGAGTGGCACAGGTCGATTCA -AAATCGTTGCTTGCCCACAGGACGACGTCAGGTTCACCGGATGATTTTTTCGCTTTCCGTAACAGGAAGA -GTGGTTTTGTGCTCATTGTTTTTTAACCTCAACTCAGATTAAAATTCGTTTTGTTCAGTGAATGATCTTG -CCGGATACACACTGTTCATAGCCTGCGCCATACGCAGGCTATTTCTTTCAGATTTCACCTTTTAATTTCA -TTGCAATTAGAGTTGCCAGAAATTCGGCTTTTTTTTCTGCGGGCAGATTCTTTCCGATATGCACCAGGCA -CATTTTTTTGACACCTTCATCAAGTGTTTTTACGTTGCCTGATGGACCATCGATATCAACCACAGTGAAT -GGGGTTTCTTTATTTTCTGTTTTAATTACGTAGCCAATGCGCTTTCCTTCCAGATTCACCTCGTGAACAA -TGTCATCGGTAGTTACAACAGTGGCTTCATAATTGGTAATCATGTTTTTCTCCTTAATTAAGGTTGAGCG -AATACCTGCCATTTCTGGCATAAATTCAGTTTCGAATAGTCAATTAATTAAAGTTCATGTGCCATCTGGT -CTTTTTCGGCACAAGCTTCACTGCAATATTTTCTCGGTTCGTCTTTTGATAAAATCCCGTGCATGAAGTG -AAGCATTCTTTCAATAGCTTTGCTTTCTTCAACGTCTTTTTTGCAAAGGTGGTAAGCACATTTTATTTTC -TTAGTCATCACCATGACTCCGCCTTTACAGGTAAACCATCACGACCGAGGAAGACTTTAATCATGCGGTC -AGTAATGAATGTTTTTGTGGTCAGGTTACGAATATATAGTTTTCGCTTTTTAATATTGTTTGCCGAGGCA -ATATATGTCCGGCCTTCATGAAGAACATAATCGCCAGGAGTCACACACTGACGTGGTATTTCATCAGTTC -CGAAGTGATGTGCAATCATAATTATCTCCATTTTTACAAATGAACTTTGTTGATGCGGTGTCTGGTGCCT -CCAGGTGACTGCAACCAGTTAACAATTACAGTCGGCTTTCCCACCCAAACCAATAAGGACTAACATGACT -TTTAACTGTGCCACGTGCGCTTAGCCGCATTCACCGCATCACAAAATTCACTTTAAAAAGGGCGGACATC -AGCCGAACTTCAAGAAAAAAACTGATGCCGCCAGGACTACACACAGCAATGTCGTTATTTACAACCGGAG -GCGCACTCCCACCATTTAAATTTAACAGACAAGACCGACTCTTTATGGATATCGGAAATGCGCCTTCGTG -TTGTGCCCGGTTTTATTTCACCACCTCCGGGCTTCGGTGGTCTCGGCTATACCCCTACAGCGAGAGCTTG -TGTTAACATTTCAATACCCTTACAGTTGAGAGTTATTGATATGTTGGATGTATTTACTCCATTGTTGAAA -CTTTTTGCTAACGAGCCACTCGAAAGACTTATGTATACGATTATCATTTTTGGTCTCACTCTCTGGCTGA -TACCGAAAGAGTTTACTGTCGCATTCAATGCTTATACTGAAATACCTTGGCTCTTTCAGATTATCGTTTT -TGCCTTTTCTTTCGTGGTCGCCATTTCCTTCTCAAGATTGCGAGCACATATTCAAAAGCATTATTCATTA -CTACCAGAGCAACGAGTATTGCTTCGTTTATCTGAGAAAGAAATCGCTGTATTTAAAGATTTCCTTAAAA -CAGGAAATCTTATTATCACTTCTCCTTGCCGTAACCCGGTTATGAAAAAATTAGAACGGAAGGGCATCAT -TCAACATCAGAGTGATAGCGCAAACTGTTCTTATTATCTCGTCACCGAAAAATACTCCCATTTTATGAAG -TTATTCTGGAACAGCAGGAGTAGACGTTTTAATCGTTAGCTTACTGTGTGCTTCTCCAACCATCGGCGCG -CACCAGTTTCGGTTTTAAATGTTTTGCTTTTGGTATACGTCATGGCAGTGAACGTTCCATCCTGGTTGGG -GAACACGCCGCACACCAGGGATTCGTTGTTGCCGAGGTCGATTTTTTGCATTTTGCGAATCTCACATCTT -GTTGCTACGTATAGCGACTTCTGCCTGCCAGAGATCCCAGTCGTTGCTGCGTAAAGCCTGCACAGCCTGG -TTGTAAGTGATACCGCAACAATCCATCAAATACTGAACTACTTCGTAATGCACCATCTTATCTCTCCCCT -TAACGCCGGGTGGCGGAACTAACTGCTGCACTGCAAAATTTGAATCCCGCCGTCATGTTCATACGCCTCG -GGCTGGCTACTTAACCCCTTACCACTGCCTGGTAACTCGAAGTATTGCCCGGCGTTCTGTGGGGCGGGGT -GGGTGGTATGCTGGAACTATAGGTAATGCCTAATTGATTGTCAATAGGCTATGCCTAATGTTTTGAGCGT -AACCTAATAGGTGATGGCGACAGCAGAAAGTGATGGGGGGGTTAAATAACGGAATCCAGGAGTTTTCCGT -CAGACCATATAAGTTTAAGTTCCAGTTTTTGTGATGTTCTGGCTTTTCCGTTCAGATTCAAGAGCTTTCA -GATACTTACCCACTTTCATTTCCATCGCTGCTATGTAGGCGCGAACATCGTGGTCAACCCAATCTGGTTC -TGTAGCATTTCCAGATAACAGGAAAGCTACAATCGCTCTTATTTCATCAGAGGCTGCTTGATAAAGGTTG -TTTATATCTAAAAGTTCACTTTTTGTATCTGAATTGGTGGGGGTTGGTATGGGGTATTCGTTAAGCCCCC -AATGCTCTGGACCAACAACATCAGAAAAGAAACGCCATAATTCTGGAAGTTTATCTTTACTTATAGAGCC -TTTCTTAATCCAGTCATAAATTGATGGTGGTTGGACTTTAAAGTGGCGTGCGACCTCCGCCTTTGATTTG -ACGGATCCCGATGCGATTTTTTTGTTAATGGCCTGCTCTATCGCTCGGCCTAAGTCTTTACCACTAAGCA -TTGCTTAATATTCTCCTATGCGCATTACATTAGGCAATCCCTACCCTTACTGCATTAGGCACAGCCTATT -GACAATTGCGTTAGGCGTCGCCTAATATTTCTGTGTGTTTTTGGAGTTCATTCGATGAAAAAAGAGAACT -ATTCATTCAAGCAAGCTTGTGCTGTTGTCGGTGGGCAATCAGCAATGGCTAGGCTTTTAGGTGTATCACC -TCCAAGCGTAAATCAATGGATCAAAGGGGTACGTCAATTGCCTGCCGAGAGATGTCCAGCAATTGAACGT -GCAACAAGAGGTGAGGTTCTGTGCGAAGAACTTCGTCCTGATATTGACTGGTCATATTTACGACGTTCGG -CATGTTGTTCGCAGAATATGTCAGTGAAGCAACTAAATGACAGTAACAAATCCTCATTTGATCATACCTG -AAACATCAAGAGGCAAATGATTCATGAAAATCAAGCATGAGCACATCGAATCAGTGTTGTTTGCCCTAGC -AGCCGAAAAAGGGCAGGCATGGGTAGCCAATGCAATTACTGAAGAATATCTGCGCCAGGGGGGCGGCGAA -TTGCCCCTGGTTCCAGGCAAGGACTGGAACAATCAGCAGAATATCTATCACCGTTGGTTGAAAGGTGAAA -CGAAAACGCAAAGAGAAAAAATTCAGAAGCTGATCCCAGCAATTCTGGCAATCCTTCCGCGCGAGCTGCG -TCACCGACTCTGCATCTTCGATACCCTGGAACGCCGTGCATTACTGGCGGCGCAGGAAGCGTTAAGTACG -GCAATTGATGCGCATGATGATGCAGTCCAAGCCGTTTACCGGAAAGCGCATTTCAGCGGCGGCGGTTCTT -CCGACGATTCTGTCATTGTTCATTAAGCAAAAGTTTCCATGCTGTTTGTGCTTATTCTAAGCCACCGGGC -AGCATCATACGGGGCAATTATGGCCGCATTACCATACATGCAACTGTACATAGCTGATTACCTGGCTGAC -ACCATGCATTTGTCAGCAGAGGAGCATGGTGCGTATTTGTTGCTGATGTTCAATTACTGGCAAACAGGAA -AGCCAATACCTAAAAACAGGCTGGCAAAAATTGCCCGTCTGACTAACGAGCGATGGGCTGATGTTGAACC -ATCCTTGCAGGAGTTTTTTTGCGATAACGGCGAGGAATGGGTGCATCTTCGGATTGAGGAAGATCTGGCA -TCAGTCAGGGAAAAATTAACCAAAAAATCAGCCGCAGGAAAAGCATCTGTTCAGGCCAGAAGAAGCAGAA -AGGAAGCAGATGTTCAAACAAAACAAGAGAGAAATTTAACAGGTGTTCAAACAGATGTTGAAGTGGTGTT -TGAACATGATGTCAACACAAAGGCAACTAATAAAGATACAGATAAAGATCTAAAAACAGATCCCCCCCTA -AATCCCCCCCGGGGGAATCGAGGTGTCAAAAAGTTTGACCCTCTGGATATTACTTTGCCGAACTGGATTT -CTGTCTCGCTTTGGCGTGAGTGGGTTGAATTTCGCCAGGCATTGCGAAAACCGATTCGAACGGAGCAGGG -CGCTAACGGGGCGATACGGGAGCTGGAAAAATTCCGCCAGCAGGGTTTTTCACCTGAGCAGGTGATTCGA -CACAGCATCGCCAATGAATACCAGGGCTTGTTCGCGCCGAAAGGTGTTCGACCTGAGACGTTACTCCGAC -AGGTTAACACCGTCTCGTTACCGGATAGTGCGATCCCGCCAGGCTTCAGGGGGTAACTGACCATGAAAAA -TATTGCGACAGGCGATGTTCTTGAACGTATCCGCAGACTGGCCCCGTCACATGTAACCGCGCCATTCAAG -ACGGTAGCGGAGTGGCGCGAGTGGCAACTTTCCGAAGGCCAGAAACGTTGTGAGGAGATCAACCGTCAGA -ATCGTCAGTTGCGGGTGGAAAAAATTCTGAATCGCTCTGGCATCCAGCCATTGCACCGCAAATGCTCGTT -TTCGAATTACCAGGTGCAGAACGAAGGGCAGCGATACGCGTTGAGTCAGGCGAAATCCATCGCTGATGAA -CTGATGACCGGGTGTACAAATTTTGCGTTCAGCGGAAAACCTGGTACCGGGAAGAACCACTTAGCGGCAG -CTATCGGGAATCGCCTGCTGAAAGACGGTCAGACAGTGATTGTGGTTACCGTGGCTGATGTTATGAGTGC -CCTGCACGCCAGCTATGACGATGGGCAGTCAGGCGAAAAATTTTTGCGGGAACTGTGCGAAGTGGATCTG -CTGGTTCTTGATGAAATTGGCATTCAGCGCGAGACGAAAAACGAGCAGGTGGTACTGCACCAGATTGTTG -ATCGCCGGACAGCGTCGATGCGCAGCGTGGGGATGCTGACAAACCTGAACTATGAGGCCATGAAAACATT -GCTCGGCGAGCGGATTATGGATCGCATGACCATGAACGGCGGGCGATGGGTGAATTTTAACTGGGAGAGC -TGGCGTCCGAATGTCGTCCAGCCAGGAATTGCGAAGTAATTTTTACCGGGAGAAAAATTTAATGGAGACT -GTTTTTGACGCACTGAAAGCAATGGGAAAAGCCACATCCATAGAACTTGCTGCGCGACTTGATATCAGTC -GTGAAGAAGTGCTGAACGAACTATGGGAACTGAAAAAGGCTGGTTTTGTTGATAAAAGCGCGTACACCTG -GCGTGTGGCTGATAACAATGTTCAGCAGGAACAGCCAGCGCAGGCAGAACTGCCGGAAGAAATCACCACA -GCAACAGTAGCGAAAATCTCAGAGTGCGATTTAACCGCGACGATTGAACAACGAGGACCACAAACGGCTG -ATGAGCTGGCTACATTGTTTGGTACCACATCACGCAAAGTGGCTTCAACGCTGGCAATGGCAATCAGCAA -AGGTCGTCTGATTCGCGTAAATCAGGGCGGTAAATTTCGTTACTGCATACCGGGCGATAATTTACCAGCA -GAGCCGAAAGCAGCATCGGTATCTCCGCTCTGGTTATCTGCATCGTCGTCTGCCTGTCATGGGGTGTTAA -TCATTACCGTGATAACGCCATCGCCTACAAAGAACAGCGCGACAAAAATGCCAGAGAACTGAAGCTGGCG -AACGCGGCAATTACTGAGATGCAGATGCGTCAGCGTGATGTTGCTGCGCTCGATGCAAAATACACGAAGG -AGTTAGCTGATGCGAAAGCTGAAAATGATGCTCTGCGTGATGATGTTGCCGCTGGTCGTCGTCGGTTGCA -CATCAAAGCAGTCTGTCAGTCAGTGCGTGAAGCCACCACCGCCTCCGGCGTGGATAATGCAGCCTCCCCC -CGACTGGCAGACACCGCTGAACGGGATTATTTCACCCTCCGGGAACGACTGGTAATGATGCAGGCCCAAC -TTGAAGGTGCTCAGCAATACATAACCGAGCAGTGTTTAAAGTAAAATCTTAACTACAATATGATTCATTT -TGATGATTGTTTCATAAGGAACAGTGAAGTAAGATCTAAGAGGAGTTAAATTTTATACAGTATAATCATA -ATATTGCAGCAAGGTGGTTATAATTGAAAGAATATTTAGATATGAATACATCTCATGTAAGAGTTGTTAC -TCATATGTGTGGGTTCCTGGTTTGGCTCTATAGTCTTTCAATGTTGCCACCAATGGTTGTAGCATTGTTT -TATAAAGAAAAAAGCCTGTTTGTTTTCTTTATAACTTTCGTTATATTTTTTTGCATTGGTGGCGGAGCGT -GGTATACAACTAAGAAATCTGGCATTCAATTACGTACCCGTGATGGGTTTATTATAATTGTAATGTTTTG -GATTTTGTTTTCTGTTATTAGTGCATTCCCTTTATGGATTGACTCAGAACTTAATTTAACGTTCATTGAT -GCTCTGTTTGAAGGGGTTTCTGGAATAACAACAACAGGAGCAACTGTAATTGATGATGTTAGTTCATTAC -CTCGGGCATATTTGTACTATCGGTCACAGTTAAATTTTATAGGTGGTTTAGGAGTTATTGTTCTGGCGGT -TGCTGTATTGCCATTATTGGGTATTGGTGGTGCAAAGCTTTATCAGTCAGAAATGCCGGGGCCATTTAAG -GATGACAAACTCACTCCCCGCCTGGCCGATACGTCACGGACACTGTGGATAACTTATTCTTTATTAGGTA -TTGCTTGTATTGTCTGTTATAGACTTGCAGGAATGCCTTTGTTTGATGCTATTTGTCACGGGATTTCCAC -AGTTTCGCTTGGTGGTTTCTCAACTCATAGCGAGAGTATCGGATATTTTAATAACTATTTGGTTGAGCTG -GTGGCTGGTTCTTTTTCCCTGCTATCGGCTTTCAACTTCACTCTTTGGTATATTGTTATTAGCAGGAAAA -CGATAAAACCTTTAATCAGAGATATTGAACTTCGTTTCTTTCTGTTAATAGCCTTAGGGGTGATCATTGT -TACCTCTTTCCAGGTCTGGCATATAGGTATGTATGACTTGCATGGAAGTTTTATTCATTCGTTTTTTCTT -GCCAGCTCCATGCTCACTGATAATGGTTTAGCTACGCAGGATTATGCAAGTTGGCCCACGCACACGATAG -TGTTTTTGCTGTTGTCAAGTTTCTTTGGGGGATGTATAGGTTCAACTTGTGGTGGAATTAAGTCACTTCG -ATTTCTTATACTTTTCAAACAAAGCAAACACGAGATAAATCAGCTTTCTCATCCCAGAGCGTTGTTGAGT -GTAAATGTAGGAGGGAAGATAGTTACAGATCGTGTAATGAGGTCTGTATGGAGTTTCTTTTTTCTTTATA -CTCTCTTCACGGTGTTTTTTATACTGGTGTTAAATGGTATGGGATATGATTTTCTTACATCATTTGCAAC -AGTGGCTGCATGTATTAATAATATGGGATTAGGTTTTGGGGCTACTGCATCGTCATTCGGAGTGCTTAAT -GACATTGCAAAATGCTTAATGTGCATAGCTATGATTCTTGGTCGCCTTGAAATTTATCCTGTTATTATAT -TGTTTTCAGGTTTTTTTTGGCGCTCCTAATATATGGCTGATTTATAATTGTGAGTTTAATATTATGTTGA -CTCACTCATTGATCCAATACCTAACTTTACCAGCAACACCTCCGTCCCCAGTAGCACTGGCTGCTGGGGT -GCGTTTTATTCATAAAGCAAGGCTGTATGAGCGAGAAATTAAAGATAGTCTATCGCCCATTACAAGAATT -GTCACCGTATGCGCACAACGCCAGGACGCACAGTACTGAGCAGGTGGCACAACTGGTAGAAAGTATTAAG -CAATTCGGCTGGACTAATCCGGTGCTGATTGACGAAAAGGGCGAAATTATTGCGGGTCACGGTCGTGTTA -TGGCGGCTGAAATGCTCAAAATGGATTCTGTTCCGGTCATTGTTCTGTCTGGCCTGACGGATGAGCAGAA -GCAGCGATAACGATCAGTATCGCTCCCGTAATGCATTAATCCGTCGCCACATTGAGAAAATGGATGCCAG -TTTGCACGTCGGAACGAAGGAGTTTGATATTTCAAAGGTTTCCGAGGTGGATTCTGTTGATGATTTACTC -ATTGATAATGCCGCTCGTTATCTGCTGAAAGACTGGAAAGGGGTTGGTGAACTGGTTAATGGTGTTGAGG -TTGCACTGGAATATACGGCAGAACGAGGGATCGCGCTGCTTAAGCAGAATCCAGAGTTGTACTGGCAGAT -CCTTGCAGAAGCAGCCAGCATCGCCCAGGGTAAAGAGCAGCAGAAGCAGGATACGATAAAAAAGCCATAG -CTGCCCAGCGGTGGTTATCGGAGTTCGGGGGAGAAAGGGGGGAAAAGGCAAGATGGAAGCGAGAAAAACT -CAGGTTGCCACCGATACCGGAACCAGAAATAGACCCGGTGCTTAAGGAGTTGTTGTACGCCTATTCGGTA -ATATCCCGTGCCCGACGTTATGCTGGAATGGCTGGGGTGCCTTTGCCTTTATCTCTGACAGAGATAAATG -AATATTTAGCCACTCATCCGGTATTGATTGAGCGCGATGAATTTGAAGCAGTGATCTTTGCACTGGATGA -CCAGTATTTTCAGGAGCAGTGTGTGTAGTTGTTAATTACGTACACTCTGTTACAGAGATGTGATGGTGTC -TTTAATTAAATCGATGATGCTCCTGGAGAAAAGCATTGCGTGGCCTCGTAATCGCTATATCTACTATTAT -GTCGCCTGAAACCCACTTCGCGGTGGGTTTTTTGTTGTCAGGAGTTTTAATAAATGGCAGAGCAAACCTC -GCGTCTCGCAATAATTATTGATAGCACTGGAGCGAAAAATAATGCTGACAATCTGACCTCCTCATTAGTC -AAAATGACGCAGGCTGGGGAAACTGCTGCAAATAGCGCAGGGAAAGTGACTAAGGCAACAGAAGATGAGA -AGAACGCGCTCGCAAAATTAAAAGCAGCTATTGATCCAGTTGGTGCCGCAATTGATACTGTCGGTCGACG -CTATTCTGAATTAAAGAAATTTTTCGATAAAGGGCTTATTGATAAAGAAGAATATGAATTTCTTGTCCGT -AAACTTAATGAAACCACAGAGGAATTGAGCGGGGTTGCGCAAGCGCAGAGAGAAGCCGAGAAGGCCGGAA -AACTTGCTGCCGCTCAGCAGGAAGCGCAGGCTCAGGCCTTTCAAAGAATGCTGGACAAGATCGACCCTCT -GGCTGCGGCGCTAAGAAATCTTGAACAACAGCATGATGAACTTAATGCTGCGTTTGCATCCGGGAAAATA -AATGGTTCTCAGTTTGAGAATTATAGCCGAAAAATACAGGAAACACGGCGAGAGCTTACCGGAGAGGCTC -AGGCAGAGCGAGAAGCAGCAAAAGCGCATGATGAACAGGTTGTTGCTTTGCAACGTCTGATTGCTCAACT -TGATCCTGTCGGAACTGCTTTTAATCGTCTGGTAGAACAACAGAAACAGCTCAATGAAGCAAAAGCTAAG -GGGATGCTTTCTCCTGAAATGTATGAGGAGCTTTCTGGAAAACTTCGTGCTATGCGGAGTGAGCTTGAGG -TTACTCAATCACAATTAAGCAAAACCGGAATGTCGGCAAAACAAACGGCTTTTGCTATGCGCATGTTGCC -TGCACAAATGACGGATATTGTTGTTGGGTTGTCCACTGGTCAGTCGCCATTTATGGTGTTAATGCAGCAG -GGCGGCCATTCAGCTATGCAGGAGACAAGAATCGCCAGCTTACCCGTTACAGCGATACCCGCTGGCATGA -AGATTCCGTGCGTAACCGCTGGTTCAGCGTGATGGTGGGGCCGTCTGTGCGCGTGAATGAATGGTTCAGC -GCGTATGCGATGGCGGGTATGGCTTACAGCCGTGTGTCGACTTTCTCCGGGGATTATCTCCGCGTAACTG -ACAACAAGGGAAGGTGCGAATAAGCAGGTCATTTCTTCCCAAGCTGACTCGCTGATTAAAATTTCGCGGA -TCTGGGCCGATTTTTTTCCCGCAAACACATCGAATCAGCCTATTTAGGCTATTTTTTCCACCATTTCTGG -CGTTATTTCCGGTTTTTACTGAGATCTCTCCCACTGACGTATCATTTGGTCCACCCGAAACAGGTTGGCC -AGGGTGAATAACATCGCCAGTTGGTTATCGTTTTTCAGCAGCCCCTTGTATCTGGCTTTCACGAAGCCGA -ACTGCCGCTTGATGATGCGAAACGGGTGCTCCACCCTGGCACGGATGCTGGCTTTCATGTATTCGATGTT -GATGGCCGTTTTGTTCTTGCGCGGATTCTGCTTCAAGGTTTTTACCTTGCCGGGACGCTCGGCGATCAGC -CAGTCCACATCCACCTCGGCCAGCTCCTCGCGCTGTGGCGCTCCTTGGTAGCCGGCATCGGCTGAGACAA -ATTGCTTCTCTCCATGAAGCAGATTACCCAGCTGATTGAGGTCATGCTCGTTGGCCGCGGTGGTGACCAG -GCTGTGGGTCAGGCCACTCTTGGCATCGACACCAATGTGGGCCTTCATGCCAAAGTGCCACTGATTGCCT -TTCTTGGTCTGATGCATCTCCGGATCGCGTTGCTGCTCTTTGTTCTTGGTAGAGCTGGGTGCCTCAATGA -TGGTGGCATCCACCAAAGTGCCTTGGGTCATCATGACGCCTGCTTCGGCCAGCCAGCGATTGATGGTCTT -GAACAATTGACGGGCCAGTTGATGCTGCTCGAGCAGGTGGCGGAAATTCATGATGGTGGTGCGATCCGGC -AGGGCGCTATCCAGGGATAATCGGGCAAACAGGCGCATGGAGGCGATTTCGTACAGGGCATCTTCCATGG -CACCGTCGCTCAGGTTGTACCAATGCTGCATGCAGTGAATACGCAGCATGGTCTCCAGCGGATAGGGCCG -TCGGCCATTGCCCGCCTTGGGATAAAACGGCTCGATGACAGCGGTCATATTCTGCCATGGCAGAATCTGC -TCCATGCGGGAGAGGAAAATCTCTTTTCGGGTCTGACGGCGCTTAGTGCTGAATTCACTATCGGCGAAGG -TGAGTTGATGGCTCATGATGTCCCTCTGGGATGCGCTCCGGATGAATATGATGATCTCATATCAGGAACT -TGTTCGCACCTTCCCAAGGGGAAAACGCACGACGTGCTGACCGGAAGTGATGACGGTCGCCACAGCAACA -CGTCTCTGGCGTGGGGAGCTGGCGTGCAGTTTAACCCGACCGAATCCGTGGCCATTGATATTGCTTATGA -AGGCCCCGGCAGTGGCGACTGGCGCACTGACGGTTTCATCGTGGGTGTCGGTTATAAGTTCTGATTAGCC -AGGTAACACAGTGTTATGACAGCCCGCCGGTTCAGGCGGGCTTTTTTGTGGGGTGAATATGGCAGTAAAG -ATTTCAGGTGTACTGAAAGACGGCACAGGAAAACCGGTACAGAACTGCACAATCCAGCTGAAAGCAAAAC -GTAACAGCACCACGGTGGTGGTGAACACGCTGGCCTCAGAAAATCCGGATGAAGCCGGGCGTTACAGCAT -GGACGTTGAGTACGGTCAGTACAGCGTTATTCTGTTGGTGGAAGGATTCCCGCCGTCACATGCCGGGACC -ATTACCGTGTATGAAGATTCTCAACCCGGTACGCTGAATGATTTTCTCGGTGCCATGACGGAGGATGATG -CCCGTCCGGAGGCACTGCGCCGTTTTGAACTGATGGTGGAAGAGGTGGCGCGTAACGCGTCCGCGGTGGC -ACAGAACACGGCAGCCGCGAAGAAGTCAGCCAGTGATGCCAGCACATCAGCCCGTGAGGCGGCAACCCAT -GCGGCTGATGCTGCGGACTCAGCACGCGCAGCCAGCACGTCAGCCGGACAGGCCGCGTCGTCGGCTCAGT -CAGCGTCTTCCAGCGCAGGAACGGCATCAACAAAGGCCACTGAAGCATCAAAAAGTGCTGCCGCTGCAGA -GTCCTCAAAAAGCGCGGCGGCCACCAGTGCCGGTGCGGCGAAAACGTCAGAAACGAATGCTTCAGCGTCA -CTACAATCAGCAGCCACATCTGCATCCACCGCGACCACGAAGGCATCAGAAGCTGCGACCTCGGCCCGGG -ATGCGGCGGCCTCAAAAGAAGCGGCAAAATCATCAGAAACGAACGCATCATCAAGCGCCAGTAGTGCAGC -TTCCTCGGCAACGGCGGCAGGAAATTCCGCGAAGGCGGCAAAAACGTCCGAGACGAACGCCAGGTCTTCT -GAAACGGCAGCGGGACAGAGCGCCTCGGCTGCGGCAGGCTCAAAAACAGCGGCTGCGTCGTCTGCCAGTG -CAGCGTCAACAAGTGCCGGGCAGGCCTCAGCCAGTGCCACCGCCGCCGGAAAATCGGCAGAAAGCGCCGC -ATCGTCTGCTTCAACAGCCACAACGAAGGCTGGCGAAGCCACTGAACAGGCCAGCGCAGCAGCGAGGTCT -GCTTCCGCAGCGAAGACATCCGAAACGAACGCGAAAGCGTCGGAAACAAGCGCAGAATCCTCAAAAACGG -CTGCCGCATCGTCAGCCAGTTCGGCGGCGTCATCGGCATCATCGGCGTCTGCTTCAAAAGATGAGGCGAC -CAGACAAGCGTCAGCAGCGAAGAGCAGCGCCACGACGGCATCCACGAAGGCGACAGAGGCTGCTGGCAGT -GCGACGGCGGCAGCTCAGAGCAAAAGTACGGCGGAATCCGCGGCAACGCGCGCCGAGACAGCAGCTAAAC -GGGCAGAGGATATTGCATCCGCCGTGGCGCTTGAGGATGCAAGTACGACGAAAAAGGGGATAGTACAGCT -CAGCAGTGCGACCAACAGTACGTCTGAAACGCTGGCGGCAACGCCAAAGGCAGTAAAATCAGCCTATGAC -AATGCAGAGAAACGTCTGCAGAAAGACCAGAACGGCGCTGATATACCCGATAAGGGATGCTTCCTGAACA -ACATTAACGCGGTCAGTAAAACAGACTTTGCTGATAAGCGTGGTATGCGTTATGTGCGGGTTAACGCTCC -TGCAGGTGCAACATCTGGAAAATATTACCCTGTTGTTGTTATGCGTTCTGCTGGCTCAGTAAGCGAACTG -GCATCAAGAGTCATTATCACCACGGCAACGCGAACCGCAGGCGATCCGATGAATAACTGCGAGTTTAACG -GATTTGTTATGCCTGGTGGCTGGACTGACAGGGGGCGTTATGCTTATGGCATGTTCTGGCAATATCAAAA -CAATGAACGAGCCATTCACTCAATAATGATGAGTAATAAGGGCGATGATTTGCGCTCTGTGTTCTATGTT -GATGGCGCTGCTTTCCCTGTTTTTGCGTTTATTGAAGATGGCCTGTCAATATCCGCACCTGGTGCTGATC -TCGTTGTTAATGATACGACCTATAAGTTTGGGGCAACAAATCCGGCGACTGAATGTATCGCGGCGGACGT -TATCCTTGATTTTAAGAGTGGGCGTGGTTTTTATGAGTCTCATTCGTTAATCGTTAACGATAACTTGTCG -TGCAAAAAACTTTTTGCCACAGACGAAATTGTAGCGCGTGGTGGTAATCAGATTCGAATGATAGGTGGGG -AGTATGGTGCATTATGGCGTAATGATGGCGCTAAAACTTACCTGCTGCTTACCAATCAAGGTGATGTTTA -TGGTGGCTGGAATACATTAAGACCGTTTGCTATTGATAACGCAACCGGCGAACTGGTTATTGGAACCAAA -CTGTCCGCAAGTCTGAACGGTAATGCATTAACAGCAACAAAGCTGCAAACGCCAAGACGGGTTTCTGGTG -TTGAGTTTGATGGTTCCAAAGATATTACTTTAACCGCCGCGCATGTGGCTGCTTTTGCCAGAAGGGCAAC -GGATACATATGCCGATGCGGATGGTGGCGTTCCATGGAATGCCGAATCTGGCGCTTACAATGTCACCCGC -TCTGGCGACAGCTATATTCTGGTTAACTTCTATACCGGAGTCGGAAGTTGCCGGACCCTGCAGATGAAGG -CGCATTACAGAAATGGTGGTCTGTTCTACCGTTCTTCAAGAGACGGTTATGGTTTTGAGGAAGACTGGGC -AGAAGTTTATACCTCGAAAAATCTTCCACCAGAAAGCTACCCAGTCGGCGCACCAATCCCGTGGCCATCA -GATACCGTTCCGTCTGGTTATGCCCTGATGCAGGGGCAGGCTTTTGACAAATCTGCTTACCCGAAACTTG -CAGCCGCTTATCCGTCAGGCGTGATCCCTGATATGCGTGGCTGGACGATTAAGGGCAAACCTGCCAGTGG -TCGGGCCGTATTGTCTCAGGAACAGGACGGCATTAAATCGCATACCCACAGCGCCAGCGCATCCAGTACA -GATTTGGGGACGAAAACCACATCGTCGTTTGATTACGGCACTAAATCCACGAATAACACCGGGGCACATA -CACACAGTGTGAGCGGCTCTACAAACTCGGCTGGAGCACACACACACTCACTAGCCAACGTGAACACGGC -TAGTGCTAACTCCGGTGCTGGTAGTGCATCAACAAGATTGTCTGTTGTGCATAATCAAAACTATGCAACA -TCATCTGCTGGCGCACATACCCACTCACTGTCCGGCACTGCTGCAAGCGCAGGTGCACACGCGCATACTG -TCGGTATTGGTGCTCATACGCACTCCGTTGCGATTGGTTCACATGGACACACCATCACCGTTAACGCTGC -TGGTAACGCGGAAAACACCGTCAAAAACATCGCATTTAACTATATTGTGAGGCTTGCATAATGGCATTCA -GAATGAGTGAACAACCACGGACCATAAAAATTTATAATCTGCTGGCCGGAACTAATGAATTTATTGGTGA -AGGTGATGCATATATTCCGCCTCATACAGGTCTGCCAGCAAACAGTACCGATATTGCACCGCCAGATATT -CCGGCTGGCTTCGTGGCTGTTTTCAACAGTGATGAGTCATCGTGGCATCTCGTTGAAGATCATCGGGGTA -AAACGGTTTATGACGTGGCTTCCGGCAACGCGTTATTTATTTCTGAACTCGGTCCGTTACCGGAAAATGT -TACCTGGTTATCGCCGGAAGGGGAGTTTCAGAAGTGGAACGGCACAGCCTGGGTGAAGGATACGGAAGCA -GAAAAACTGTTCCGGATCCGGGAGGCGGAAGAAACAAAAAACAACCTGATGCAGGTAGCCAGTGAGCATA -TTGCGCCGCTTCAGGATGCTGCAGATCTGGAAATTGCAACGGAGGAAGAAATCTCGTTGCTGGAAGCATG -GAAAAAGTATCGGGTATTGCTGAACCGTGTTGATACGTCAACTGCACAGGATATTGAATGGCCAGCACTG -CCGTAGGGTAAAACATATAAATTCTATAATTAGATGTATCTTTCCATTTACGGCAAGGAAGGGGGCTTGG -AAGACGTAAAGCATCTCACACCGAGATTATTTTTTATATGTCAGGTGTCTGAAGTTTTGCTTTGGCTCTT -AAAATGGTTTGCCGCGAGGTTTTGAATTCCCGGGCAATGGCACTTATACTTACACCTGACTTAATTCGTT -CGAATACCACCTGTTTCTGTTCTTCATTTAACACAGGAGGTCGACCAAAACGTTTCCCTGCGCCGCGGGC -TCTTACTATCCCGGAATGAGTGCGTTCAAGTAAAAGGTCTCGTTCAAATTCAGCGACTGCTGAAATTACT -TGCATCATCATTTTTCCTGTTGGACTGGTCAGGTCAATGCCACCCAATGCTAAGCAATGCACTCTGATAC -CTGTTTCGGTCAGTTGTTCCACTGTTTTCCTGATATCCATTGCATTACAACCAAGGCGATCCAGTTTTGT -CACAATCAATTGATCACCACATTTCAGGCGAGCAAGCAACCGGTTAAAACCAGGACGCTCACTGGTTGCT -GCTGAGCCGCTAATGTGTTCTTCGATTATTTGCTGAGGTTTGATTTTAAAACCTGCACTTTCGATTTCCC -GGCGTTGATTTTCGGTGGTCTGATCCAGCGTTGATATCCGACAGTAAGCAAAAATTCGAGACATAGTGAG -ACTCTATACGAAATTGGTGTTCATATCATAATGCATCTCAGAAAATAATTATGATTATTTTTGTGCATAT -TTGTATGTACACGTTCGAAAATAAACGAATGCGTATGCAACCCCGTAATTTTGGTGAGACCCAAAATCGA -TTTTGTGAAAAATGGCTTTAACTCGGTTTGTTTTTCGAGTTCCGGGCGGACTCAAGGAAGAAGAATAGTG -TTGCGTGTTATTTTAACCAGATTTCAAGTTGTTTGGTCGTGGAAAAGTGGAGCAAAATGTTGTTAAAGTG -GAAAAATGATAAAAAAGTAAGTTTATTATATTACATTTTACCATTTAAATTTTGGTTGTCTTTAAGAACT -GATATCGCTGTTTGTAATAATTCTTTGTTATCCAGCCATGATGTTTTCTTTATGTTTCCTTCAATGTAAT -CAAGCAATGTTCTGGTATTGATAGGTCTTCCCTGTTTTGCTACTTCCACTACAGCATCCCCTAGGATAAT -TCTTACTTCAGGAAGCTGCGCAGGGAACCACTTTAGGGTGTCTTTTGATTTCATGAAGATATTCCTTAAA -ATATTATTGATTTTCATTGCGATATTGTATGTCTGATTCAGGATATGTTGACTTATACATCGGTTTTGTC -TGGGTTATTGGATATGCCAATCCCTAATTTTATTAGGGAAGGTGCGAACAAGTCCCTGATATGAGATCAT -GTTTGTCATCTGGAGCCATAGAACAGGGTTCATCATGAGTCATCAACTTACCTTCGCCGACAGTGAATTC -AGCAGTAAGCGCCGTCAGACCAGAAAAGAGATTTTCTTGTCCCGCATGGAGCAGATTCTGCCATGGCAAA -ACATGGTGGAAGTCATCGAGCCGTTTTACCCCAAGGCTGGTAATGGCCGGCGACCTTATCCGCTGGAAAC -CATGCTACGCATTCACTGCATGCAGCATTGGTACAACCTGAGCGATGGCGCGATGGAAGATGCTCTGTAC -GAAATCGCCTCCATGCGTCTGTTTGCCCGGTTATCCCTGGATAGCGCCTTGCCGGACCGCACCACCATCA -TGAATTTCCGCCACCTGCTGGAGCAGCATCAACTGGCCCGCCAATTGTTCAAGACCATCAATCGCTGGCT -GGCCGAAGCAGGCGTCATGATGACTCAAGGCACCTTGGTCGATGCCACCATCATTGAGGCACCCAGCTCG -ACCAAGAACAAAGAGCAGCAACGCGATCCGGAGATGCATCAGACCAAGAAAGGCAATCAGTGGCACTTTG -GCATGAAGGCCCACATTGGTGTCGATGCCAAGAGTGGCCTGACCCACAGCCTGGTCACCACCGCGGCCAA -CGAGCATGACCTCAATCAGCTGGGTAATCTGCTGCATGGAGAGGAGCAATTTGTCTCAGCCGATGCCGGC -TACCAAGGGGCGCCACAGCGCGAGGAGCTGGCCGAGGTGGATGTGGACTGGCTGATCGCCGAGCGCCCCG -GCAAGGTAAGAACCTTGAAACAGCATCCACGCAAGAACAAAACGGCCATCAACATCGAATACATGAAAGC -CAGCATCCGGGCCAGGGTGGAGCACCCATTTCGCATCATCAAGCGACAGTTCGGCTTCGTGAAAGCCAGA -TACAAGGGGTTGCTGAAAAACGATAACCAACTGGCGATGTTATTCACGCTGGCCAACCTGTTTCGGGCGG -ACCAAATGATACGTCAGTGGGAGAGATCTCACTAAAAACTGGGGATAACGCCTTAAATGGCGAAGAAACG -GTCTAAATAGGCTGATTCAAGGCATTTACGGGAGAAAAAATCGGCTCAAACATGAAGAAATGAAATGACT -GAGTCAGCCGAGAAGAATTTCCCCGCTTATTCGCACCTTCCTTAGAGCATGACTAAAAATGCTGAATATG -ATAAGGAGCGAAGTGATTATCAGTATGCTGTTCATATAGCCTCGAATTAGTAATGTGTTATATATGATAT -AGTTGACAATTTTTATCCTGGGTGTTCTTAAAGTTCGTAGATAAACATTGTCGTTTCAGGTATACAGGAA -TGCTAACAGGTGGCGGCAAAAATCAGGCGGTTTATGGCGCAAGCTGAAGTGGCAACTGCAAACTATCTTA -TGCAGAGACTCTACACGGATTGGGTTTAAAAGTATACATAGATAACAGTTTTTATCTGAAGAAGAAAAAT -ATCAAGGTGATATAGCCTATATGCCTTTGATGCGGAGGAATGAATGTGATGGGAGTGATGTATCTGAATA -GTTGAAAAACCGCAGTCACGTCGTATGCAAGAACGTGCTGCGGTTGGTTTGACTTTGATTGAGACGTTTT -GGAATTTTTTTCGGTGGCAAAAATGGGGCAAAACGCTGCAAAAGGGGCAAAAAAGGGGCAAAAAAAGAGT -GGATTATCGTAGCTTATTGTTGTCGCTGATGATATTTAACACATTGAAAAATAAGTAAAATACTTATGAG -TCAGAGAGTTGTGATTTTTGCCCTTACTTGTTCAGGTTGTATTGTTCTTTCTTACTAATTTCTTGATTTT -GCGACATTTAAAAGCGACTCAATTCGTTATATGGCATCAGAAGAGTATGCGTCATGCCGGAACGCCCAGC -ATAAGAAATCTGATATAAAAAACTGTGGCGTGTATGGTACGGATTAGAGGGGAAAATGTCAGCACATTTG -CGAAATGAATCAAAAAGCCCGCAGCAATGTGCGGGCGTTAGTGTCAGCGCACAACCAGCACGGAGCACTC -TGCGTGACGCACTACAGCTGCGGCGTTGGAACCGAGCAGATAAGTGGTGATATCCGGTCGATGGGAAGCA -ATGATGATCATATGAGCGGGGATCTTCTTCGCCAATTCCAGAATGCGGTCTTTGGGCGAGCCTTCCTCAA -CATGGACATGCACTCTGTCGGTTGGCAGTTTAAATTTTTTAATGATCTCTTCCAGTTGCGATTTGGCTTC -CGCTTTCAGGTCATCCATTGCCGGTAATTCTGCGGAATACGCTAAACCCAGAGAGGCATAGTAGGGCAGT -GAAGGTATTACCGTCAGGAAATGAACCTCTGCATCATCAATCTTTGCCTCTTCCTCAACGTGGCTAATCA -CGCGTTGAGTTAATTCTGAATCGGAAATATCGATAGGGACAAGAATCGTTCTGTTCATAAAACCTCCTGT -TTTAGTATCCGCATAAAGTGTAACGCCAGATGACACTTTTTGTGTAATGACGGAGTTCACATTTTTAATT -TAGATCAAAGGAGGAAGAATAAGCAGAAAAAGCCCGCCATAACAGCGGGCAGGAGGATTTAGAACTGATA -AACCAGACCTAAAGCGACAATATCATCGGTAGAGATGCCATTGGCAGCGTAGAAGCTGTCATCTTCATCC -AACAGGTTGATTTTATAGTCAACGTAGGTGGACATGTTTTTATTGAAATAGTAAGTCGCGCCAATATCGG -CGTATTTAACCAGATCTTTATCATCAACACCTGCCGGGTTGTCTGCACCACCCGCAGCGTGCAGGTCACG -GCCTTTAGACATCAGGAAAGAGACTGCCGGACGCAGACCAAAATCAAACTGGTACTGTGCAGTGACTTCA -AAATTCTGGGTTTTGTTTGCCACAGCATAATCGCTGTCGCCAAACGGGGTCATATTACGCGTTTCTGAAT -ACATGGTTGCCAGGTAAATATTGTTAGCATCGTATTTTAGCCCAGCAGTCCACGCGTCTGCTTTATCACC -ACCCGCCGCAGTATGGTTAACCTGGTCATTGGTGCGGTCAGAAGAGGTGTATGCCGCACCAGCGCTAAAG -CCCATGCCTAAATCATATGTTGTGGAAAGACCCCAGCCGTCACCGTTTTCATGGCGAACATCACGTCCGT -TGTTGGTGCCTTCCTGACCATTACTGGCTCCTTCGTTGTTACCTTGATACTGCACCGCGAAGTTCAGACC -ATTTACCAGACCGAAGAAATCAGTATTACGATAAGTCGCGACGCCATTGGCTCGACCAGTCATAAAGTTG -TCTGCATTGGTATAAGAGTCACCGCCAAATTCAGGCAGCATATCGGTCCAGCCTTCGATGTCGTACATTA -CGCCATAATTACGTCCGTAATCGAAAGAACCGTAATCTGCAAATTTCAGCCCGGCAAATGCCAGACGGGT -CCATGACTGGTTTTTTGAAGATTCAGTGTTGTTTGCCTGAATATTGTATTCCCATTGACCGTAGCCAGTG -AGTTGATCGTTAATTTGGGTTTCGCCTTTAAAACCCAGACGCGCATAGCTCTGGTCGCCATCTTTCGCTG -AATTATCAGAAAAATAATGCAGGCCATCAACTTTGCCATACAGATCTAATTTGTTGCCGTCTTTATTATA -AACTTCGGCTGCATGTGCAGCACCTGCGGCGAGCAGGGCAGGAATTAAAAGTGCCAGTACTTTGCTTTTC -ATTGAATAAATCCTTTAGTTATTTTATTTGCCTTTTATCCCCATTTCGGGGAGTGAAAACATCCTAAAGG -AGAAGTTCAGTTAGCCGATAAATATCATTTGTTACGCCTTAAGTAAAACCTTAATCAAATAATTCCTCTG -AAATGATAATAAGTCTGGTGAATGTATCGAAGATAATACATACAAAATAAAAATTATACTTTTAATTTGC -TATACGTTATTCTGCGCGGGTTATATGCCTTTATTGTCACAGAATTTATTTTCTGTTGGGCCATTGCATT -GCCACTGATTTTCCAACATATAAAAAGACAAGCCCGAACAGTCGTCCGGGCTTTTTTTTTAGAATTGGAT -AATCCTTATCCAGAGCATTTAATCGGTGTTGCTTTTTTCCGCTTTTCCGGCCATTTGTGCCAGGAAGTCA -TAGCGTTTTTGCAAATCAGCTGCAGCATCTTTCCATAACTGTTCTGCCACTTCTGGCTGCTGCGAATTCA -GCCGACGGAAACGTTGCTCGTGAAGTAACGTTTCTTCCGGTGCTTCTGACGGCGGGCGTGAATCCAAGGC -CAGCGGCAGTTTGCCTTCATCGGCACGACGCGGATCAAAGCGATATAGCGGCCAGAAGCCGGTAGCTGTG -AGTTGGCGCATCTGGTCGTGGCTGAGTGCCAGATCGTAACCATGCTCTTCACACGGGCTATAAGCAATGA -TCAGCGATGGCCCCGGATACGCTTCCGCTTCCTGAATCGCTTTCACCGTCTGGTTCAGCTGCGCGCCGAG -AGAAATCTGCGCCACATAAACATGACCGTACATCATCATACTGACGCCAAGATCTTTACGCGCTTTACGT -TTGCCGTGCTCGCCAAATTTAGTTACTGCACCCAGCGGTGTCGCTTTCGACGCCTGACCACCGGTGTTGG -AATAGCATTGCGTATCCAGCACCAGAATGTTGACGTTTTCCGTCAAACTCAATACATGATCCAGACCGCC -AAAGCCGATATCGTAAGCCCAGCCATCACCACCAATCAGCCAGATTGATTTTTCCACCAGTGCATCTGCA -TCACGTAGCAGTTCATGTGCTTCGGCAACATCGTTGAGTTGCTGGCGTAAAGCTGCAACCTGTTCACGAC -GAACCTCTGGCGTGGCGTCTGATTTCAACGCCGTCAGTAATTCCGCCGGGATTTTATCGGCAAATTGATC -CAGCAGACGCAGCACGCGGACACGGTGTTGATCGACCGTCAGGCGGAAACCAAGGCCAAATTCGGCATTA -TCTTCAAATAGAGAGTTCGCCCATGCCGGCCCACGACCGTTGGCATCGGTGGTATACGGTGTAGAGGGCA -GGTTACCGCCATAAATTGAAGAACAGCCAGTGGCGTTAGCGATCAACATCCGGTCGCCATAGAGCTGAGT -CAGTAATTTAATATACGGCGTCTCGCCACAACCGGAGCAAGCACCTGAATATTCAAACAGCGGTGTAATC -AGCTGCGATGTACGAATATCAATACGTTCCAGTTTGCTACGGTCGATTTCTGGCAGGTTGAGGAAGAAAT -CGTAATTGATTTTCTCTTCTTCGACATGTTCCAGGCGAGACATCATATTGATGGCTTTAATCTCTGGATT -CTGACGGTCTTTCGCCGGGCAAACTTCGACGCACAGGTTACAACCGGTGCAATCTTCCGGTGCCACCTGC -AAGACATATTTCTGCCCGCGCATATCACGCGATTTCACATCCAGCGAATGCAGGCTGGCAGGGGCGTTTT -CCATCGCTTCAGGCGGCACCACTTTTGCGCGAATAGCTGAGTGTGGGCAAGCGGCAACGCAGTGGTTACA -TTGGGTACAGAGTTCCTCTTTCCAGATGGGGATCTCTTCGGCGATATTGCGTTTTTCCCAGCGCGTAGTG -CCCATCGGCCAGGTGCCGTCTGGCGGCAGCGCCGAAACGGGGAGGGCGTCACCAAGCCCGGCGAGCATCG -CAGCGGTTACGGTTTTCACGAAATCAGGGGCGGCATCGGAAACCACTGGCGGTCGATTGGCGCTGTGCGG -ATTTACCGGTTGCAACGGAACTTCTTCTACGGATTCACGCGCCAGCGCCAGAGCCTGCCAGTTGCGTTCC -ACCAGATCCTGGCCTTTGCTACTGTAACTTTTGGCAATCGCACCCTGCAATTCTGCGAGGGCGCTATCGC -CAGGCAGAATTTGCGTCAGATGGAAAAAAGCCATCTGCATGACGGTATTAATACGGGCCGCCAGGCCACA -TTCGCGGGCGATTTTCGCCGCGTTAATCACATAGAAGCGCGCTTTTTTCTGGTTTAACACGGCCTGAACT -TCTTGCGGCAAGCGCGACCACACTTCATCTGCGCTGTACGGCGTGTTGAGCAGGAAAATGCCGCCAGGTT -TTAAACGCTCAGCCATCTGATATTTATCGATAAACTGCAACTGGTGGCAGCCAACAAAATCAGCCTGGGA -AATGAGATAAGCGGAACGAATCGGCTGTTCGCTCACTCGAAGGTGAGAAACCGTCAGGCCGCCCGCCTTT -TTGGAGTCGTAAACAAAATAGCCCTGTGCGTACCACGGCGTGGAATTACCGATAATCTTGATATTGTTTT -TGGTCGCGGAAACGCTGCCATCACTACCAAGGCCATAAAACAAGGCTTCCAGTTTCGCCGAGTTTGGCAG -GGTGTTTTCCGGCAACGGCAGTGACAGATTGGTCACATCATCGTAAATACCAACCGTAAAGCGCGCTTTC -GGTTTAGCCGCGTTGAGCTCGGCAAATACCGCCAGTACACAGTCTGGGCCAAATTCTTTGGATGAAAGAC -CATAGCGCCCACCAATGACACGGGGCAGAGTTTCGCGCTCGCCATTATTAAAGGCTTCTGCCAGTGCGGT -CATTACATCCAGATAGAGCGGTTCTGCCTGGGCACCGGGTTCTTTGGTTCTGTCCAGTACCGCCACGCTG -CGTACGGATCCCGGCAGAGCTTGCAGTAAATGTTTAGCGGAGAAGGGGCGGTACAGGCGAACTTTCAGCA -CGCCAACTTTTTCGCCACGGGTTAGCAATTCATCAACCACTTCTTCACAGGTGCCAATGGCAGAGCCCAT -CAGGATAATCACCCGTTCCGCTTGCGGATGCCCGTAATATTCAAACGGCTGATACTGACGACCTGTCGCG -GCAGAGAAATCATTCATCGCCTGTTCAACATGGTCATAGACCGCGTTGTACCATGGGTTGGTGGCTTCGC -GAGACTGGAAATAAGTGTCAGGATTGGCGGACGTACCGCGGATCACCGGATGTTCCGGGTTGAGTGCCCG -GGCGCGATGAGCATCAATTTCGACCTGCGGCATGAGATCAAGAATCGTGTCATCGGCCAGCGGGACAATT -TTATTGATTTCGTGGGACGTGCGGAAACCATCAAAGAAATGAATAAATGGCACGCGGCTTTTCAGCGTCG -CGATTTGCGAAATGAGAGCAAAGTCTTGCGCTTCCTGGACGTTTGCTGCACACAACATCGCGCAACCCGT -CTGGCGCACCGCCATAACGTCGGAATGATCGCCAAAAATAGAGAGTGCATGTGTGGCAACGGTACGTGCC -GCTACATGCAGGACAAACGGTGTTAGTTCGCCTGCCAGTTTGTACAGCGTCGGGATCATCAGCAGCAAAC -CCTGCGATGACGTAAACGATGTTGAAAGGGCACCCGTCTGCAAAGCGCCATGCACGGTAGCGATAGCACC -CGCTTCCGACTGCATTTCAACCACGCGTGGTGTGTCTCCCCAAACGTTCTTTAAGCCGTTTCCGGCCCAG -GCATCAGCCTGTTCTGCCATCGTGGAACTGGGGGTAATAGGGTAGATGGCGATAACTTCACTGGTGCGAA -ATGCGACCGAAGCAACCGCGCCATTACCGTCAATAGTAATCATATGACACCCTTACATTGCGCAAATGAG -GGGCGCACGAAATTGCTGCGCGCCCAGTAGTAATCTTTCAATTTTAGCAAATGGCTTTCTTCTGCATTTT -CGCTTTTGTGTCCCCCACATCAGCGTAATGAATGTTTTGATCAAACAGAGGGCAAAAAAATAGCCATAAA -AAAGTAAAAATGCGGGGCAACGCGCAGGACAGCTCTCGACGCCGCCCTCTGTGCTGCCTATTATTTATGG -CGGTGTCGTTTGGCTTGAAGATCAGAGGAAGAAAAGATGCGAGCAGCGTTTTGGGTAGGGTGTGCCGCTT -TATTGTTGTCGGCGTGTAGTAGTGAACCTGTTCAGCAGGCGACTGCCGCGCACGTAGCGCCAGGTTTAAA -AGCGTCGATGTCCAGTAGTGGAGAAGCAAATTGTGCAATGATCGGCGGTTCGCTTTCTGTTGCCCGTCAA -CTGGATGGTACGGCGATTGGGATGTGTGCATTACCCAACGGCAAACGCTGTAGCGAACAGTCACTTGCCG -CCGGGAGCTGTGGCAGCTATTAATTCATTAAATCCGCCAGCTTATAAGTTAATGTCTGTTTTGCGGTCGC -CAGCGTTAACTGGTTCGCGGTCAGATCCACTTGTGCACCTTCTTTCAGCATTTCGCTAATGGTGTTATCG -AGTTCATTAAGCTGCGGGTTAGCGCACATCATACGGGTCATTGCCAGCCCTTTGGCTGTCAGTTCACCAT -TAGACAGTTTGCCTTCACCGCTAAAGCGGTTACACATGCTGCCGGAAATCATCATTTTTTCACCAAAGCT -GATTTCTGGCGGATTTTTATCGCTGGTCACGGGCTTACCGTTTACGCTTTCCAGCACAAAGCGATGATGC -TGTAGCTGTTCTGGCGTAACAGCAATTTTGTCATTACTTACACATCCCGCCATCAGCAGGCTTAGCGCAA -CAAACGCGGCTACTTTCTTCATTGTGGTTCTCAATTACAGTTTCTGACTCAGGACTATTTTAAGAATAGA -GGATGAAAGGTCATTGGGGATTATCTGAATCAGCTCCCCTGGAATGCAGGGGAGCGGCAAGATTAAACCA -GTTCGTTCGGGCAGGTTTCGCCTTTTTCCAGATTGCTTAAGTTTTGCAGCGTAGTCTGAGAAATACTGGT -CAGAGCTTCTGCTGTCAGGAATGCCTGGTGCCCGGTAAACAGCACGTTGTGGCAGGCAGACAGGCGACGG -AATACGTCATCCTGGATCACGTCGTTGGATTTATCTTCAAAGAATAGATCGCGTTCGTTCTCATACACGT -CCATACCCAACGAACCAATTTTCTGATTTTTCAGCGCTTCAATTGCTGCCTGAGAATCAATCAATGCACC -GCGACTGGTATTGACGATCATCACGCCATTTTTCATCTGTTCGAAGGCGGCTTCGTTCAACAGATGATAG -TTTTCCGGTGTCAGCGGGCAGTGCAGAGAGATAACGTCTGATTCAGAGAACAGGGTTGGCAGATCGACAT -ACTCCACACCGAGTTCCAGCGCCGCTGCACTTGGATACGGATCGAACGCCAGCAGACGCATACCAAAACC -TTTCAGAATGCGCAGCATCGCCACACCGATTTTACCGGTACCGATAACGCCTGCCGTTTTGCCATACATA -GTAAAGCCGGTCAGACCTTCCAGAGAGAAGTTAGCATCACGGGTACGCTGATACGCGCGGTGAATACGGC -GGTTCAGCGTCATCATCATACCGATGGCGTGTTCAGCAACGGCCTCTGGATCATAGGCTGGAACACGGAC -TACTTTCAGCCCCAGTTCTTTTGCCGCGTCAAGGTCGACGTTATTGAAACCGGCACAGCGCAGGGCGATA -TATTTAACGCCGTGCTTTTTCAGCTCTTCCAGCACCGGGCGGCTGCCGTCATCGTTTACGAAAATACATA -CCGCTTCGCAGCCATTGGCAGTTTTAGCGGTTTTTTCCGTCAGCAGAAAGTCAAAAAATTCCAGCTCAAA -GCCAAAGGACTCGTTCACCTGTTGCAGGTACTTCTTGTCGTACTGTTTTGTGCTATAAACGGCGAGTTTC -ATAAGACTTTCTCCAGTGATGTTGAATCACATTTAAGCTACTAAAAATATTTTACAAAATTTCAAATTTA -ATTGAAAGCTATGGCGATATTGAAAAATTCATCAACAACTATGCTTAGTGTAGGCGCAACCTTCAACTGA -ACGGTTAAACATGCCACAATACCCGTATTGAATGCTTAATTTTTCGCTAAATCAGGATATTAACTACCCA -TGCTGGGTAAATATAAAGCCGTTCTCGCGCTGTTATTACTGATTATTCTTGTGCCGTTGACGCTGCTGAT -GACGCTCGGGCTGTGGGTTCCCACGCTGGCGGGCATCTGGCTACCGCTCGGGACACGTATTGCATTAGAT -GAAAGCCCACGCATTACGCGTAAAGGTTTAATCATTCCCGATCTCCGTTATCTGGTGGGAGATTGTCAGC -TTGCGCATATCACCAACGCCAGCCTTTCACATCCCAGCCGCTGGTTATTGAACGTCGGCACGGTAGAACT -TGATTCTGCTTGTCTGGCGAAATTGCCGCAGACGGAGCAATCGCCAGCCGCTCCAAAAACACTCGCGCAG -TGGCAGGCCATGCTGCCTAACACCTGGATCAATATCGATAAACTGATTTTTTCTCCCTGGCAGGAATGGC -AGGGAAAACTCTCTCTCGCATTAACCTCTGATATCCAGCAACTGCGTTATCAGGGCGAAAAAGTTAAATT -TCAAGGCCAGCTGAAAGGGCAACAACTTACAGTCAGCGAACTGGATGTCGTCGCGTTTGAAAATCAGCCG -CCGGTAAAACTGGTGGGGGAATTTGCTATGCCGCTCGTGCCGGATGGACTTCCTGTAAGTGGGCATGCTA -CTGCGACGTTAAACTTGCCGCAGGAACCGTCACTGGTGGATGCCGAGCTGGACTGGCAGGAAAATAGCGG -GCAATTGATCGTGCTGGCACGGGATAACGGCGATCCGTTGCTCGATTTGCCGTGGCAAATTACTCGTCAA -CAATTGACCGTAAGCGATGGTCGCTGGAGCTGGCCGTATGCAGGTTTTCCTTTGAGTGGCCGACTGGGTG -TCAAAGTCGACAACTGGCAGGCAGGGCTTGAGAACGCTCTGGTCAGCGGACGACTGAGTGTGCTGACCCA -GGGGCAAGCGGGTAAGGGCAACGCGGTGCTTAATTTTGGCCCAGGAAAATTAAGCATGGATAACAGTCAG -CTGCCTCTGCAGCTGACCGGTGAAGCGAAACAGGCGGACCTCATTTTATATGCCCGTTTACCTGCGCAGC -TAAGTGGAAGTCTGTCTGACCCAACGCTGACCTTTGAGCCAGGCGCGTTACTTCGTTCAAAGGGAAGAGT -CATCGATTCGCTGGACATCGATGAAATCCGCTGGCCTTTAGCGGGTGTAAAAGTCACCCAACGTGGTGTT -GACGGACGTTTGCAGGCCATCTTGCAGGCGCATGAAAATGAACTGGGCGATTTCGTGCTGCATATGGATG -GGCTGGCGAATGATTTTCTCCCTGACGCTGGCCGCTGGCAGTGGCGCTACTGGGGAAAAGGGAGTTTTAC -ACCGATGAATGCCACCTGGGATGTCGCAGGAAAAGGTGAGTGGCATGACAGCACGATTACGCTGACCGAT -CTCTCCACCGGTTTCGACCAGTTACAATACGGTACGATGACGGTAGAAAAGCCGCGATTAATTCTCGACA -AGCCCATCGTCTGGGTACGTGACGCACAGCATCCCTCCTTTAGCGGCGCGCTGTCACTGGACGCCGGGCA -AACGCTGTTCACTGGCGGCAGTGTGTTACCGCCATCAACCTTAAAATTTAGCGTCGATGGGCGCGATCCT -ACCTATTTCCTCTTTAAAGGCGATTTACATGCTGGTGAGATTGGCCCGGTTCGGGTAAATGGTCGCTGGG -ACGGTATTCGTCTGCGCGGTAACGCCTGGTGGCCTAAACAATCACTGACCGTATTCCAGCCGCTGGTGCC -ACCCGACTGGAAGATGAACTTACGCGATGGTGAACTGTATGCTCAGGTTGCATTTTCTGCTGCGCCTGAA -CAAGGATTCCGCGCGGGAGGACACGGCGTGTTGAAAGGCGGTAGTGCCTGGATGCCAGATAATCAGGTTA -ACGGTGTCGATTTTGTCCTGCCTTTCCGTTTTGCCGATGGAGCCTGGCATCTGGGGACTCGCGGCCCCGT -TACGTTGCGAATTGCCGAAGTGATTAATCTGGTGACAGCGAAAAATATTACGGCTGATTTGCAAGGGCGT -TATCCGTGGACTGAAGAAGAACCCTTGCTGTTGACTGATGTTAGCGTCGATGTGTTAGGCGGTAACGTAC -TGATGAAACAATTACGTATGCCGCAACATGACCCGGCGCTGTTGCGGCTGAATAATCTCTCATCCAGCGA -ACTGGTTAGCGCCGTCAATCCGAAACAATTCGCCATGTCCGGGGCATTTAGTGGTGCACTGCCGTTATGG -CTGAACAATGAAAAATGGATTGTGAAAGATGGCTGGCTGGCGAATAGCGGGCCGATGACATTGCGACTGG -ATAAAGACACTGCGGATGCGGTGGTAAAAGACAATATGACTGCGGGTTCAGCAATTAACTGGTTGCGCTA -TATGGAAATTAGCCGTTCATCGACAAAAATTAATTTAGATAATCTCGGTTTATTAACCATGCAGGCCAAC -ATTACAGGTACCAGTCGCGTTGATGGTAAAAGCGGTACGGTAAACCTTAATTACCATCATGAAGAGAATA -TTTTTACGCTGTGGCGCAGTTTACGCTTTGGCGATAATCTCCAGGCATGGCTGGAGCAGAACGCACGTCT -GCCGGGAAATGACTGTCCGCAAGGAAAAGAGTGTGAGGAAAAACAATGAAAATTTTACTGGCTGCGTTGA -CGTCATCTTTTATGCTGGTTGGCTGTACGCCTCGCATTGAAGTCGCTGCACCTAAGGAACCGATCACTAT -CAATATGAACGTTAAAATTGAGCATGAGATCATCATCAAGGCAGACAAAGATGTCGAAGAGCTGCTTGAA -ACTCGTAGCGATCTTTTCTGAGGTGATGATGAAGAAAACATTACTTCTTTGTGCGTTTCTTGTTGGGCTG -GTAAGCAGCAATGTAATGGCATTGACTCTGGATGAAGCCAGAACTCAGGGGCGGGTAGGTGAAACATTTT -ACGGTTATCTGGTTGCGCTGAAAACGGATGCTGAAACAGAGAAATTAGTAGCCGACATTAATGCCGAACG -TAAAGCGAGTTACCAACAACTGGCAAAGCAAAATAATGTGTCGGTAGATGATATCGCGAAACTCGCCGGG -CAAAAGCTCGTAGCTCGGGCCAAACCGGGGGAATATGTACAAGGGATAAACGGTAAATGGGTGCGAAAAT -TTTAATAGCAAAACCGCAATATCGGGATAACGCTACAGGAGAAGGCGATTGATCTATTTTCCTGAAACAA -GGTGAATATTCAAAAACTCCTGTCAAATTGCCTTTTGCCCTGAAAAATGCATAGTCAAATATCTGTTTTA -ACTAATTGGCGTTGCAGTACATGCAACGCCAATTAGTTAGCGGAATTTACGTCGATACTCGCCTGGCGTC -ATCCCAAAGCGTTGCTTAAATACCGTTGAAAAATGACTCTGGTCAGAAAATCCCCAATGAAAGCCGATGC -CTGCCAGTTTTTCATCATCTGCGGCATGGCGAATCGCATCTGCACAAAAATCGAGACGACGGTTACGAAT -ATATTGCGCGACTACCAAACCTTTATCGGCAAACATTCGGTACAAACTACGTACTGACATACCTGTCTCT -CCGGCTATCCACTCCGGGCGTAATATCTCTTCGCGAATATTATCGTCTATCAACGTAACCACTTTTTGAA -ACTGACGTTCACGACGAGGTTGAACAGATTCCCGCTGATGAAGTACCGGGCGCAGCAGACACACCATCGC -CTGTAGCGCAGCTTCACTTTCTGTTTCAGAAAGTGCCGGATTATTCATGCTCTCCTGTAACAGGCGATGA -CTGAGTTGCACCATGGGTAAGTCAGCGTCCAGTCTTTCTGCGCAGATAGGTTTTTGATGGGGAAAATATT -GTTCCAGCAGAGTGCGTGGCAAAAGTAATGAAATCTGTTTAGAAGACTCCTGCCAGTAAAGCGAACAGGG -GCGTGAGGCATCGAGTAACGTAATATCGCCAGCGCCAATCTGCACCTGACGCTCATCCTGCTCCATTATT -GCCTGACCACTAAGCTGAAAAACGGTGTAAAACCAGGCATCGTCGCTGCCTTTTACTTCCTGCCAGGTGC -GGGATAAATTCACCCCGCTGGTTGTCACGGTACTCAGCTTTAGTCCTTTGGCAAAATGCGTGTCCAGTAC -ACCCGTGTAACGCTCAGTCAGCAGGCGTCCGGTAAAATTTCCGCATACCTGATTGATTTGGGAAAGCCAT -TGCTGAAACTCATTATCCACTGCGGGGTTCATGGCACGTTTTCGCTCTGTGAAATGTATTTTTATTGTTG -CATTTGTGTTGCAATAAACGAAGCTAATGAGCCTGACTATAGGAAATAAGTCTTGTCAGGCATAGAGACA -TAAGCGGTTATTGTCACGATTTGCGGAGCTTGTCACAGCTGACAAAGCGAATGTCACAGCGAAAAAAGTG -ACTTTTCTTGTCGCTGCGTACACTGAAATCACACTGGGTAAATAATAAGGAAAAGTGATGACAGAGCCGC -ATGTAGCAGTATTAAGCCAGGTCCAACAGTTTCTCGATCGTCAACACGGTCTTTATATTGATGGTCGTCC -TGGCCCCGCACAAAGTGAAAAACGGTTGGCGATCTTTGATCCGGCCACCGGGCAAGAAATTGCGTCTACT -GCTGATGCCAACGAAGCGGATGTAGATAACGCAGTCATGTCTGCCTGGCGGGCCTTTGTCTCGCGTCGCT -GGGCCGGGCGATTACCCGCAGAGCGTGAACGTATTCTGCTACGTTTTGCTGATCTGGTGGAGCAGCACAG -TGAGGAGCTGGCGCAACTGGAAACCCTGGAGCAAGGCAAGTCAATTGCCATTTCCCGTGCTTTTGAAGTG -GGCTGTACGCTGAACTGGATGCGTTATACCGCCGGGTTAACGACCAAAATCGCGGGTAAAACGCTGGACT -TGTCGATTCCCTTACCCCAGGGGGCGCGTTATCAGGCCTGGACGCGTAAAGAGCCGGTTGGCGTAGTGGC -GGGAATTGTGCCATGGAACTTTCCGTTGATGATTGGTATGTGGAAGGTGATGCCAGCACTGGCAGCAGGC -TGTTCAATCGTGATTAAGCCTTCGGAAACCACGCCACTGACGATGTTGCGCGTGGCGGAACTGGCCAGCG -AGGCTGGTATCCCTGATGGCGTTTTTAATGTCGTCACCGGGTCAGGTGCTGTATGCGGCGCGGCCCTGAC -GTCACATCCTCATGTTGCGAAAATCAGTTTTACCGGTTCAACCGCGACGGGAAAAGGTATTGCCAGAACT -GCTGCTGATCACTTAACGCGTGTAACGCTGGAACTGGGCGGTAAAAACCCGGCAATTGTATTAAAAGATG -CTGATCCGCAATGGGTTATTGAAGGCTTGATGACCGGAAGCTTCCTGAATCAAGGGCAAGTATGCGCCGC -CAGTTCGCGAATTTATATTGAAGCGCCGTTGTTTGACACGCTGGTTAGTGGATTTGAGCAGGCGGTAAAA -TCGTTGCAAGTGGGACCGGGGATGTCACCTGTTGCACAGATTAACCCTTTGGTTTCTCGTGCGCACTGCG -ACAAAGTGTGTTCATTCCTCGACGATGCGCAGGCACAGCAAGCAGAGCTGATTCGCGGGTCGAATGGACC -AGCCGGAGAGGGGTATTATGTTGCGCCAACGCTGGTGGTAAATCCCGATGCTAAATTGCGCTTAACTCGT -GAAGAGGTGTTTGGTCCGGTGGTAAACCTGGTGCGAGTAGCGGATGGAGAAGAGGCGTTACAACTGGCAA -ACGACACGGAATATGGCTTAACTGCCAGTGTCTGGACGCAAAATCTCTCCCAGGCTCTGGAATATAGCGA -TCGCTTACAGGCAGGGACGGTGTGGGTAAACAGCCATACCTTAATTGACGCTAACTTACCGTTTGGTGGG -ATGAAGCAGTCAGGAACGGGCCGTGATTTTGGCCCCGACTGGCTGGACGGTTGGTGTGAAACTAAGTCGG -TGTGTGTACGGTATTAATCTGGTTCGCTCATAAGTAAAAAACGGCACCTGGTGCCGTTTTTTTGTCTGAA -ACAATCACTTATCTTTCTTCAGCGCCCCTAGCGTTGGCGTTTCGTCAAAGAAGTTCCATGGTTTCAGCAG -AGTATGTACCCATTCGGTCGGCATAATCGGCCACTCTTCGGCGCGGGCCACATGTGTGGTGCCGGTGGTC -ATCCAGACAACGGCGTCGGTGTTGTCCAGCGACTCGTTATCCTTACTGTATTGTCCAAGACCGGTGTCAT -GAGTAGAACGGTTCGGATATTTGCCTTCCGGGAAACGCTCGCCAGGATGATAACGCGTTACCCAGAGCTG -CTTGTCCATAAAGCTTAAACGATGATAGATCCACTCGTCCGGCGCGAACTGGGCACCTTTTGCTACCGGG -TGAGTACCACCTGCATAAGGAATAATTTGATAGGAAACCGGATTGCCCATGCGGTTCTCTTTGTTCGGGT -TACTCAACAGACGAATCGTGCCCGGATCAAATTTCTGTGCGGCATCCTGTTCATTGCCGATGTTGTACTG -ATTAACTTGCATGGTACTGGTGCGTGGGCCACCGGCAGTATTCGGTTTTACCACTGGGTCCATCGCCACC -AGGCTGTTATTCTCGCCATCTACATCCAGATCGAGGCGGAAATTATAAATATGTTGGTGTGTAGTACCCA -CGATATTGTGATCGATAAGCGTGCCGTAGCGCGTGTCATCTTTCGCCGTCTCATCGTGCATGGTTTTCGC -TTTAACACCTTTCACCGCTTCGATGCCCGTAGCACCGGCATCGATGCCAATAGTGCCGTTTTCATGGAAG -ATCCAGTCAAAAATGTAGTCATAGTTACCCACTGTACTGATCCAGCGCACCACTAACTCCCGGCGTTCGG -TACTGACGTTGGGCTGGCCCATTTCCTGATGCTTATACTCCGGCCCGGCATAACGTTCAAATACCGCGAT -AGCGCGAGGGATCTCCATCGGCACGCCAGTGTAGTCGGCGATGGTTTCATTAAGGAGCACTGCGTTAGAC -GGGGCATCTTTACCACGAGCAATTGGTGAGGTTAGCGTGCCCATACCGTAGTCACCAGAGTCCAGATACG -CTTTAAAGTACCAGCCAATATCAGGATCACCGTAAGGCACAATCATGCCGCCGAGAGAACCTTCGTACAT -GACTTTGCGTTTGGTGCCATTGTCGTTATAAGTCACGGTGGAGATCATCGGCCCGACGCGAGAGTTCATG -CTGAGGTGAAAATCCCAGTTCCGCCAGTGAATCATATCGCCAGTAATGGTGTAATTTTTACCTTCAGGCT -CAATGATTTGCATAGGCTTAACTGCCGGAGCAACGCGGTCACGGCCATCAAATGGGCGTGCGGTCATTGG -CACCGGAACTACCGGACCTTCTTCAATCTTAACGATTTTTTTCTGTTCTAAATCAACGACCGCCACCAGG -TTTTCGATGGGATGTGCCCAGTAGTTGCCATCACCGACATCAAGATAGCTGATGACTTTGAGCAACCGGG -CATCTTGTTTCAGGCCATCTTTACCATCGAAATAACCTACGGTCAGCGGCGTGGTAATCACTTTTTTCGC -ATCAGTAATACCGCGTTTCTTCACGGCAGCGGCAAATTCTTCACTGTTGTTAATAATGTTCTGCACACTG -GCGAAATCATCCAGCAACACCATACCGTGGGCGTCTTTAATGGGTTGCCAGGAGAGCAGTTTGTTGTTTT -GCAGATCCACCACCGCTTCGATGATATGTTTGCCGTCGAGCATAATGACGTCGGCTTTGCGCGGCTGGTC -AACCGGTTTGTTTTCCAGCGCAAACGCCCAGACAGCTTCTTTATCTGGCGGTAGCAGGGAGATCTCAGTA -AAACGGGTATTGGGTTTGAAGTCCGCGGAAGCTTTAACAATTTCAACGGCCTGTTTAATTTCGTCCGCAG -TTAGCGCATTAAGTGGGTGAGGGCGCTTTTCTACCTGAAAGGTTTGATCCAGCCCGGACTGGAAAACATC -GTTAATAAAGGTGTCAGAAACCCAGGCTTTATTGTCTTTCATCACTACCGGTACTTGCAGTGCCAGAGGC -TGACCATTAACAATTGCTGTTTGCGCACCAGGCTTCACTTTCACGTACGCGCCATCTTTAATCAGGGTAA -AGAGCTGGGCGTAGTCGTCCCACTGCACATCGGCACCAAATTCTTTAAGCGTTTTATCCATTGGCACCAT -ATGCGCTTCACCACCGTGGGCAAATACCGGCGCTTGCCAGGCGAAACTTAAGGCGACTGCCAACGCCAGG -GTTGTTTTACGGGCAGAATACAGAGAGGGGCTTCCCATTATTAACCTCGTCAGATGTTGTGTTCTTGTTA -GCAACCGCGCTCTGTGGGCGGTTTAGTCAGGTTCACATTATCAGTACTGATGCAAAGGGGATTGCCTGCA -CCTGCCAGGTTGTTTGGCAGGTGTGCCAGCTTTTCATACAGTGGATGCCCTGAAAATAGATGTACACATC -ATGCATAATGTGACAACGTCACAAAACTTAGTGAAATAAAAGGGCAACTATTCGCCGTTGCCCTTCATTC -ACCGATTAATCGACAAAATCACCGTGCTGCCTGGCCACCAGCGTCAGAATTGAATACAGCGCCACCGGGG -TTTGATGCTGATTGAATACCTCTACAGCCCATTCCACCACACCTGTTGGTTTTTCTTCTGCGCTACGCTG -TTTTTTCAGCGTCTTGCGCTTACAGGTGAGACGCACCTGGATGGTATCGCCTGGCTTTACGGGTTCGATA -AAACGCAAGCTTTCCAGCCCGTAGTTAGCAATGACCGGACCGACACCGGCATCGACAAACAGACCCGCAG -CCGCAGAAAGCACAAAATACCCATGCACCACCCGCTCACCGAAAATAGATTCGGCAGCAGCAATCTTATC -CATATGTGCATAGAAATGATCGCCGCTGAGGCAAGCAAAGTTAACAATATCGGCCTCTGTCATTGTGCGG -CGGGGAGTCAACAGGCTGTCGCCTGGTTGTAGCTCCTCAAAATATTTGCGGAACGGATGAATACGATCTT -CTTCGACTTTCGCACCGCGCACCCACTGTTTACTGATAGCGGCAAGCATCGTCGGACTACCCTGAACAGC -GGTTCGCTGCATGTAATGTTTCACCGCTCGTAAACCGCCTAATTCTTCACCGCCTCCTGCGCGACCAGGC -CCACCATGTACCAGTTGTGGCAGTGGGGAGCCATGCCCGGTGGATTCTTTTGCCGACTCTTCATTGAGGA -TCTGAATTCGCCCATGCGTACGTGCCGCGTCGGCAATAAACTGACGCGCAATTTGCGGATCAGCCGTCAC -CAGCGTTCCCGCAAGGCTACCGCCGCCTGCACAAGCCAGTTGCAGAGCATGTCGCTGGTTTTGTGCTGGC -ATCAGCGTTGCGACAGGGCCAAAGGCTTCTGTTGCATGTACCGCCGGTGTTTCATCCGGCTGCGGACAGT -ACAATAAGGTTGGCGGGAAGAAGGCACCCGCAGCAGATAAATCCGCCTGACCACCGAGGCGAATCTCGCA -TCCTGCAGCCAGCAATATGTTCACTTTTTCCTGCACATCGGCACGCTGCTCAGCATTTACCAGTGCGCCC -ATTTTCACGCCTTCCTGAGCAGGATCACCGACCACGACTTTCTGTAATCGCGCAACCAGAGCATCACTGA -CAGCATTAACCAATGCCTGCGGCACAATAATCCGCCGGATTGCCGTACATTTTTGCCCGGCTTTTGTGGT -CATCTCACGCACAACTTCACGAATAAACAGCGCAAACTCCGGTTGATCCGGGGTGACATCTTCGCCCAGT -ACGCAGCAGTTCAGGGAATCAGCTTCCATAGTGAAGGGGATAGATTTGGCGACGATATTTGGCTGAACTC -GCAGCATCTGTCCGGTCGCCGCTGACCCCGTGAAAGTCACCACATCCTGGCTGTCCAGATGATCCAACAA -GTCGCCAGCACTACCGCAGATCAGACTAATTGCGCCTTCGGGAACAAGACCACTATCGACAATTGATTTC -ACCATCGCCTGAGTCAGTTGGGCCGTCGCGGTAGCTGGTTTGATGATGGCTGGCATTCCGCCCAGCCACG -TTGGTGCCAGCTTTTCCAGCATTCCCCAGCAGGGGAAGTTAAAGGCGTTAATATGCACTGCCACGCCTGA -CTTTGAGGTCAGTAAATGGCGCGCGGCAAATCCACCTTCTTTCGATAAGGGGATCAATTCATCTTCCGGC -CACAGCGTATCGTCAGGCAGCTCCCGGCTACCGAGGCTGGCGTAAGTAAATAACGTCCCAATGCCACCTT -CAATATCAACCCAACTGTCTGCCCGCGTTGCGCCTGTTTGCGCAGAAAGAGCATAGAAACGCTCTTTTTC -ACTCAGCAGATGTTTAGCGACCGCTTTAAGCATCGCCGCACGTTCGATAAAGGTCATAGCGCGAAGGGCG -GGGGCACCTTTTTCAATGGCAAACTGGCGGGCAGCCGCCATATCAAGACCTTCACTGGTCACTTCCCATA -ACGCCTCGCCGCTAATAGCGTGGTGAATCAAACGGCTACGGCCCCGGCCAGACTGCCAGGTACCGGATAA -GAAACTGGCTAACTGCTGCATCGCTACTCTCCAGATGTTTCACATTTCTGTTGCTAATAGTTAAATCGCG -AATCATAAAAAGCAAAGGATCTTTTAACGAAATGTTAACTATGCGATCTGTATAGCAACTGCGGAAAACA -TTAATGCACTGATAAATAATGATTTATAAAAATAGGGTGCGAAATCCGTCACAGTTCAAACATACAAAAT -TTGTGATTTTACTTAACTATTGTGTAACTTTCATAAAACAATGTGATTCGTGTTTTTAATTAATTCACGA -AAACTGGAATCGTAAAGGTGATGACGTGACCCAAGAAGAACGCTTTGAGCAACGGATAGCCCAGGAAACG -GCTATCGAGCCACAGGACTGGATGCCCGATGCTTACCGAAAGACATTGATCCGCCAGATTGGGCAGCATG -CGCACTCCGAGATTGTTGGTATGTTGCCTGAAGGTAACTGGATCACTCGCGCACCAACCTTGCGGCGTAA -AGCCATTCTGTTGGCCAAAGTGCAGGATGAAGCCGGTCATGGTCTGTATCTCTATAGCGCCGCCGAAACA -CTGGGCTGCGCCAGAGAAGACATCTACCAAAAAATGCTCGACGGACGGATGAAATATTCCTCCATCTTTA -ATTATCCGACATTGAGTTGGGCTGATATCGGTGTTATCGGCTGGCTGGTGGATGGCGCAGCGATCGTCAA -TCAGGTGGCGTTATGCCGCACTTCTTATGGCCCGTATGCCAGAGCAATGGTGAAAATCTGCAAAGAAGAG -AGTTTTCACCAGCGTCAGGGGTTTGAAGCCTGCATGGCACTGGCGCAGGGCAGCGAAGCTCAAAAGCAGA -TGTTGCAAGACGCCATTAACCGTTTCTGGTGGCCAGCCTTAATGATGTTCGGGCCAAACGATGATAACTC -GCCAAACAGCGCCAGAAGTCTCACCTGGAAAATCAAACGTTTCACCAACGACGAACTCCGCCAGCGTTTC -GTGGATAACACCGTTCCACAGGTTGAAATGCTCGGTATGACCGTTCCTGACCCGGATCTGCATTTTGACA -CTGAAAGCGGTCACTACCGCTTTGGTGAGATCGACTGGCAGGAGTTTAACGAAGTAATTAACGGTCGCGG -AATTTGTAATCAGGAGAGGCTCGACGCCAAACGTAAAGCCTGGGAAGAAGGTACCTGGGTACGGGAAGCA -GCGCTGGCCCATGCACAAAAACAACATGCCCGTAAGGTCGCATAAGGAGATTCAAAATGAGTAATGTTTA -CTGGCCGTTATACGAAGTTTTCGTGCGTGGCAAACAGGGCTTATCACACCGCCATGTTGGCAGTTTACAT -GCTGCCGATGAGCGGATGGCACTGGAAAATGCCCGTGATGCTTACACCCGTCGTAGCGAAGGATGTTCAA -TTTGGGTGGTGAAGGCGAGTGAAATTGTTGCCTCGCAACCGGAAGAACGCGGTGAATTTTTTGATCCGGC -TGAAAGCAAGGTCTATCGCCATCCAACGTTTTACACCATCCCTGATGGCATTGAGCACATGTGAGGTCGG -AAATGAATCAGTTAACGGCTTACACCTTGCGCCTGGGCGATAACTGCCTGGTGCTCTCCCAGCGGTTGGG -TGAATGGTGCGGTCACGCACCGGAACTGGAAATCGATCTCGCACTGGCAAACATTGGCCTCGATTTATTA -GGTCAGGCACGCAACTTCTTATCGTATGCCGCTGAATTAGCGGGAGAAGGCGATGAAGATACCCTGGCCT -TCACCCGAGACGAGCGCCAGTTCAGCAACTTATTGTTGGTTGAACAACCAAACGGCAATTTTGCCGACAC -CATTGCACGCCAGTATTTCATCGATGCATGGCATGTGGCGCTCTTTACCCGTCTGATGGAAAGCCGTGAT -CCGCAACTGGCGGCGATTTCTGCCAAAGCAATTAAAGAAGCGCGCTATCACCTGCGTTTTAGTCGTGGCT -GGCTGGAGCGACTGGGCAATGGTACTGACGTATCAGGGCAAAAGATGCAGCAGGCCATCAACAAGTTGTG -GCGTTTTACCGCCGAACTGTTCGATGCCGACGAGATTGATATTGCACTGAGTGAAGAGGGTATTGCGGTT -GATCCACGCACTTTACGCGCAGCGTGGGAAGCCGAAGTTTTTGCCGGGATCAACGAAGCCACATTGAACG -TACCGCAAGAGCAGGCGTATCGCACTGGCGGTAAAAAAGGACTGCATACCGAACACCTTGGACCCATGCT -GGCAGAAATGCAGTATCTCCAGCGTGTCTTGCCCGGTCAGCAATGGTAACAGAGGAGATGGGTATGCAAC -GTCTGGCCACCATTGCACCGCCACAGGTTCATGAGATATGGGCGCTACTCAGCCAGATCCCGGACCCGGA -GATCCCGGTGCTGACCATTACTGATTTAGGCATGGTGCGTAATGTGACACAGATGGGAGAAGGATGGGTG -ATCGGCTTTACGCCGACATATTCCGGTTGTCCGGCAACGGAACATTTGATTGGCGCGATACGTGAGGCAA -TGACAACCAACGGGTTTACCCCCGTTCAGGTTGTGCTGCAACTCGACCCGGCATGGACCACCGACTGGAT -GACCCCCGATGCCCGTGAGCGTCTGCGAGAGTATGGCATTAGCCCGCCCGCCGGACACAGTTGCCATGCC -CATTTGCCGCCAGAAGTACGTTGCCCGCGCTGCGCCAGCGTCCATACCACACTTATCAGTGAATTTGGTT -CCACGGCCTGCAAAGCATTGTACCGCTGCGATAGTTGCCGCGAACCTTTCGATTATTTCAAATGTATTTG -AGGATGCCATGACAACGTTTCATTCCTTAACAGTGGCAAAAGTCGAGTCGGAAACCCGTGATGCGGTGAC -CATTACCTTTGCGGTGCCCCAGCCTTTGCAGGAGGCGTATCGCTTTCGCCCCGGTCAACATTTGACCTTA -AAAGCCAGCTTTGATGGTGAAGAATTACGCCGTTGTTACTCCATTTGCCGCAGCTATCTGCCTGGCGAAA -TTAGTGTGGCGGTGAAAGCCATTGAAGGCGGACGTTTCTCCCGCTATGCCCGCGAACACATCCGCCAGGG -TATGACGCTGGAGGTCATGGTGCCGCAGGGGCATTTCGGCTATCAGCCGCAGGCCGAACGCCAGGGGCGC -TATCTGGCAATTGCAGCAGGATCAGGTATTACGCCAATGCTGGCGATTATCGCCACCACTTTACAAACCG -AGCCTGAAAGTCAGTTCACCCTGATCTACGGTAACCGTACCAGCCAGAGCATGATGTTTCGCCAGGCACT -GGCAGACCTGAAAGACAAATATCCTCAGCGTTTACAGTTGTTGTGCATTTTCAGTCAGGAAACCCTCGAC -AGCGATCTGCTTCACGGGCGTATTGACGGTGAAAAATTACAGTCACTTGGGGCCTCGCTCATTAATTTTC -GTCTTTATGATGAGGCATTTATTTGTGGTCCGGCGGCGATGATGGATGACGCGGAAACCGCCTTAAAAGC -ACTGGGAATGCCAGATAAAACCATTCATCTGGAGCGGTTTAATACGCCTGGCACGCGCGTCAAACGTAGC -GTTAACGTGCAAAGTGACGGACAAAAAGTGACTGTACGTCAGGATGGGCGGGATCGGGAAATCGTGCTTA -ATGCCGACGATGAAAGCATTCTCGATGCGGCATTGCGCCAGGGGGCGGATCTGCCCTATGCCTGCAAAGG -CGGCGTCTGTGCGACCTGCAAATGCAAAGTGCTGCGTGGCAAAGTGGCGATGGAAACCAATTACAGTCTG -GAACCGGATGAACTGGCCGCAGGTTATGTGTTGAGTTGCCAGGCACTGCCGCTGACCAGCGATGTGGTGG -TTGACTTTGACGCGAAGGGGATGGCATGAGCGAACTGATCGTCAGCCGTCAGCAACGAGTATTGTTGCTG -ACCCTTAACCGTCCCGCCGCACGTAATGCGCTAAATAATGCCCTGCTGATGCAACTGGTAAATGAACTGG -AAGCTGCGGCTACCGATACCAGCATTTCGGTCTGTGTGATTACCGGTAATGCACGCTTTTTTGCCGCTGG -GGCCGATCTCAACGAAATGGCAGAAAAAGATCTCGCGGCCACCTTAAACGATACACGTCCGCAGCTATGG -GCGCGATTGCAGGCCTTTAATAAACCACTTATCGCAGCCGTCAATGGTTACGCGCTTGGGGCGGGTTGCG -AACTGGCATTGTTGTGCGATGTGGTGGTTGCCGGAGAGAACGCGCGTTTTGGGTTGCCGGAAATCACTCT -CGGCATCATGCCTGGCGCAGGCGGAACGCAACGTTTAATCCGTAGTGTCGGTAAATCGTTAGCCAGCAAA -ATGGTGCTGAGCGGAGAAAGTATCACCGCTCAGCAAGCACAGCAGGCCGGGCTGGTTAGCGACGTCTTCC -CCAGCGATTTAACCCTCGAATACGCCTTACAGCTGGCATCGAAAATGGCACGTCACTCGCCGCTGGCCTT -ACAAGCGGCAAAGCAAGCGCTGCGCCAGTCGCAGGAAGTGGCTTTGCAAGCCGGACTTGCCCAGGAGCGA -CAGTTATTCACCTTGCTGGCGGCAACAGAAGATCGTCATGAAGGCATCTCCGCTTTCTTACAAAAACGCA -CGCCCGACTTTAAAGGACGCTAATGATGGAATTCATCCTCAGTCATGTAGAAAAGGGCGTGATGACACTA -ACGCTCAACCGCCCGGAACGCCTGAACAGTTTTAATGATGAGATGCACGCACAACTGGCAGAGTGCCTGA -AACAGGTCGAGCGCGACGACACTATCCGTTGCCTGTTACTTACAGGTGCCGGGCGCGGATTTTGTGCTGG -TCAGGATCTTAACGATCGTAACGTTGATCCCACAGGCCCCGCACCGGATTTAGGGATGTCAGTTGAACGT -TTCTATAACCCACTGGTACGTCGCCTGGCAAAACTGCCAAAACCGGTGATCTGTGCAGTCAATGGCGTGG -CGGCAGGGGCAGGCGCAACACTGGCACTGGGGGGCGACATCGTTATTGCTGCCCGTTCAGCAAAATTCGT -CATGGCGTTTAGTAAGTTAGGCTTAATACCCGATTGCGGTGGAACCTGGTTACTGCCACGCGTTGCCGGA -CGAGCGCGCGCCATGGGGCTGGCACTGCTGGGGAATCAACTGAGTGCTGAACAGGCGCACGAATGGGGGA -TGATCTGGCAGGTTGTTGATGATGAAACGCTGGCAGATACCGCGCAACAGCTGGCACGGCATCTGGCGAC -ACAACCGACATTTGGTCTTGGACTTATCAAGCAAGCGATAAATAGCGCTGAAACCAATACGCTCGATACG -CAACTGGATCTGGAACGTGACTATCAGCGACTTGCCGGACGGAGCGCAGATTATCGTGAAGGTGTCAGTG -CGTTCCTGGCTAAACGCTCACCGCAGTTCACGGGGAAATAGCATGATGATAAATGTGCAAACTGTGGCAG -TGATTGGGAGCGGCACCATGGGGGCAGGCATTGCTGAAGTTGCTGCCAGTCATGGACACCAGGTTTTACT -GTATGACATTTCTGCTGAAGCGCTGACCCGCGCAATCGACGGGATACACGCGCGGCTAAATTCACGCGTG -ACGCGGGGAAAACTGACTGCTGAAACCTGTGAACGCACATTGAAACGCCTGATCCCGGTGACCGATATTC -ACGCGCTGGCAGCTGCGGACCTGGTCATTGAAGCGGCGTCTGAACGTCTGGAAGTCAAAAAAGCGCTCTT -TGCACAGCTGGCGGAAGTTTGCCCGCCACAAACGCTATTGACCACTAACACTTCGTCAATCTCTATAACC -GCGATTGCTGCGGAGATAAAAAATCCTGAACGTGTTGCGGGGCTGCATTTTTTTAACCCGGCACCGGTGA -TGAAGTTGGTGGAGGTGGTCAGTGGGCTGGCAACGGCGGCGGAAGTTGTTGAGCAGTTGTGTGAACTAAC -GTTGAGTTGGGGTAAGCAGCCTGTGCGCTGTCATTCGACTCCTGGATTTATCGTTAACCGTGTTGCGCGT -CCTTATTATTCCGAGGCCTGGCGGGCACTGGAAGAGCAGGTTGCTGCACCAGAAGTGATTGACGCTGCAC -TTCGCGATGGCGCTGGTTTCCCGATGGGGCCGCTGGAATTAACCGATCTGATTGGTCAGGACGTCAATTT -TGCTGTCACCTGTTCGGTGTTTAACGCTTTCTGGCAGGAGCGTCGTTTTTTACCTTCGCTGGTGCAACAG -GAACTGGTGATTGGTGGACGGTTGGGCAAGAAAAGTGGGCTGGGCGTGTACGACTGGCGCGCGGAACGTG -AGGCAGTTGTTGGCCTGGAAGCGGTAAGCGACAGTTTTAGCCCAATGAAAGTAGAAAAGAAAAGTGACGG -TGTCACGGAAATTGACGATGTTTTATTGATTGAGACACAAGGCGAGACGGCACAGGCGCTGGCAATACGA -CTGGCACGCCCGGTGGTAGTGATCGATAAAATGGCGGGCAAGGTGGTGACCATTGCTGCTGCAGCGGTGA -ACCCGGACTCAGCGACCCGCAAGGCCATTTATTACCTGCAACAGCAGGGCAAAACAGTGCTGCAAATTGC -AGATTACCCAGGAATGCTGATTTGGCGAACGGTAGCAATGATCATCAATGAAGCCCTTGATGCGCTTCAA -AAAGGCGTGGCCTCTGAACAGGATATCGATACCGCCATGCGTCTTGGGGTGAATTATCCATATGGCCCAC -TTGCCTGGGGAGCGCAACTTGGCTGGCAGCGAATATTAAGGCTCCTTGAAAATCTACAGCATCACTATGG -CGAAGAACGCTATCGCCCATGTTCATTGCTGCGCCAACGGGCGCTTCTGGAGAGCGGTTATGAGTCATAA -GGCCTGGCAAAATGCCCATGCAATGTATGAGAACGATGCCTGCGCCAAAGCGCTTGGCATCGACATTATC -TCAATGGATGAAGGCTTTGCTGTAGTGACCATGACCGTCACTGCACAAATGCTTAACGGTCATCAAAGTT -GCCACGGCGGGCAGCTATTTTCACTGGCTGATACTGCCTTTGCCTACGCCTGCAATAGCCAGGGGCTGGC -AGCCGTCGCTTCTGCCTGCACGATTGATTTTTTGCGTCCAGGCTTTGCCGGAGACACCTTAACTGCTACT -GCGCAGGTACGTCATCAGGGCAAGCAAACCGGTGTTTACGACATCGAAATTGTTAACCAACAACAAAAAA -CGGTTGCGCTGTTTCGCGGTAAATCTCACCGCATCGGCGGCACCATTACAGGAGAAGCCTGATGCGTGAA -GCCTTTATTTGTGACGGAATTCGTACGCCAATTGGTCGCTACGGCGGGGCATTATCAAGTGTTCGGGCTG -ATGATCTGGCTGCTATCCCTTTGCGGGAACTGCTGGTGCGAAACCCGCGTCTCGATGCGGAGTGTATCGA -TGATGTGATCCTCGGCTGTGCTAATCAGGCGGGAGAAGATAACCGTAACGTAGCCCGGATGGCGACTTTA -CTGGCGGGGCTGCCGCAGAGTGTTTCCGGCACAACCATTAACCGCTTGTGTGGTTCCGGGCTGGACGCAC -TGGGGTTTGCCGCACGGGCGATTAAAGCGGGCGATGGCGATTTGCTGATCGCCGGTGGCGTGGAGTCAAT -GTCACGGGCACCGTTTGTTATGGGCAAGGCAGCCAGTGCATTTTCTCGTCAGGCTGAGATGTTCGATACC -ACTATTGGCTGGCGATTTGTGAACCCGCTCATGGCTCAGCAATTTGGAACTGACAGCATGCCGGAAACGG -CAGAGAATGTAGCTGAACTGTTAAAAATCTCACGAGAAGATCAAGATAGTTTTGCGCTACGCAGTCAGCA -ACGTACGGCAAAAGCGCAATCCTCAGGCATTCTGGCTGAGGAGATTGTTCCGGTTGTGTTGAAAAACAAG -AAAGGTGTTGTAACAGAAATACAACATGATGAGCATCTGCGCCCGGAAACGACGCTGGAACAGTTACGTG -GGTTAAAAGCACCATTTCGTGCCAATGGGGTGATTACCGCAGGCAATGCTTCCGGGGTGAATGACGGAGC -CGCTGCGTTGATTATTGCCAGTGAACAGATGGCAGCAGCGCAAGGACTGACACCGCGGGCGCGTATCGTA -GCCATGGCAACCGCCGGGGTGGAACCGCGCCTGATGGGGCTTGGTCCGGTGCCTGCAACTCGCCGGGTGC -TGGAACGCGCAGGGCTGAGTATTCACGATATGGACGTGATTGAACTGAACGAAGCGTTCGCGGCCCAGGC -GTTGGGTGTACTACGCGAATTGGGGCTGCCTGATGATGCCCCACATGTTAACCCCAACGGAGGCGCTATC -GCCTTAGGCCATCCGTTGGGAATGAGTGGTGCCCGCCTGGCACTGGCTGCCAGCCATGAGCTGCATCGGC -GTAACGGTCGTTACGCATTGTGCACCATGTGCATCGGTGTCGGTCAGGGCATCGCCATGATTCTGGAGCG -TGTTTGAGCATATCAACCTGCGAGTACCCTACAATGATAACCAATACAAAGCTTGACCCGATTGAAACCG -CGTCTGTTGATGAGTTACAGGCGTTGCAAACACAGCGTCTGAAATGGACGCTCAAACACGCGTATGAAAA -TGTGCCGATGTATCGGCGCAAATTCGACGCAGCAGGCGTACATCCTGATGATTTCAGGGAACTTTCAGAC -CTGCGTAAATTTCCCTGTACCACCAAACAGGATCTGCGCGACAACTATCCCTTTGACACCTTTGCCGTGC -CAATGGAACAAGTGGTGCGCATTCATGCTTCTTCGGGAACCACAGGTAAACCGACAGTTGTCGGCTATAC -GCAAAACGATATTGATAACTGGGCCAATATTGTAGCGCGTTCTTTGCGTGCGGCAGGGGGCTCGCCCAAA -GACAAAATTCATGTTGCCTATGGTTACGGCCTGTTTACTGGTGGGCTGGGTGCGCACTATGGTGCCGAAC -GTCTGGGCGCTACGGTGATCCCGATGTCTGGCGGGCAGACGGAAAAACAAGCGCAACTGATCCGTGATTT -TCAACCAGATATGATCATGGTTACGCCATCTTATTGCCTTAACCTGATTGAAGAGCTGGAGCGGCAGTTG -GGCGGTGATGCCAGCGGTTGCTCGCTGCGGGTTGGAGTATTTGGTGCTGAGCCGTGGACACAGGCCATGC -GTAAAGAGATTGAGCGTCGCCTGGGGATCACCGCACTGGATATTTATGGCCTGTCAGAAGTGATGGGGCC -GGGGGTGGCGATGGAGTGTCTGGAAACTACCGACGGCCCAACCATTTGGGAAGATCATTTCTATCCTGAA -ATTGTTAATCCTCATGACGGCACACCGCTTGCCGATGGTGAACATGGCGAACTGTTATTCACCACGCTGA -CCAAAGAAGCATTGCCGGTCATTCGTTACCGCACGCGTGATTTAACCCGACTGTTACCAGGAACGGCGCG -GACTATGCGCCGCATGGATCGCATCAGCGGACGCAGCGATGACATGTTGATTATTCGCGGTGTAAATGTC -TTTCCGTCACAACTGGAAGAAGAGATTGTCAAATTCGAACATTTATCGCCGCATTACCAACTGGAGGTGA -ACCGCCGGGGGCATCTTGATTCACTTTCTGTGAAAGTGGAGTTGAAAGAAAGTAGCCTGACATTGACGCA -TGAGCAGCGTTGCCAGGTATGCCACCAGCTGCGCCATCGGATTAAGTCGATGGTGGGGATCTCTACCGAT -GTGATGATCGTTAACTGTGGCAGTATCCCGCGTTCAGAAGGCAAGGCGTGTCGGGTGTTTGATCTGCGCA -ATATTGTTGGTGCCTGACGTATCGTCTGGCCCTGGTGGGGTAAAGCGCCAGGGCCAGAAGTCGATACGAC -CTGTGCTATGATTCATAAATCACAACAATAACAACAGACTGAAGCGAATGAGTAAACTTGATACTTTTAT -CCAACATGCTGTAAACGCTGTTCCGGTCAGTGGCACATCTTTGATCTCCTCTCTGTATGGTGATTCGCTT -TCCCATCGTGGTGGTGAAATCTGGTTGGGTAGTCTGGCTGCTTTGCTGGAAGGGCTGGGATTTGGTGAGC -GTTTCGTGCGCACCGCTTTGTTTCGTCTTAATAAAGAAGGCTGGCTGGATGTTTCCCGCATCGGGCGACG -CAGTTTCTATAGCCTCAGTGATAAAGGCTTGCGCCTGACGCGACGGGCAGAAAGTAAAATTTATCGCGCA -GAGCAACCTGCATGGGATGGTAAATGGCTCCTGTTGCTCTCGGAAGGTTTAGATAAATCAACGCTGGCTG -ATGTCAAAAAGCAGTTGATCTGGCAAGGTTTTGGCGCACTGGCACCCAGCCTGATGGCATCGCCGTCGCA -AAAACTGGCCGATGTACAGACACTTTTGCATGAAGCGGGTGTGGCGGATAACGTGATTTGTTTTGAAGCG -CAAATACCACTGGCGCTTTCTCGCGCAGCACTGCGTGCCAGAGTAGAAGAGTGCTGGCATTTAACTGAAC -AAAATGCCATGTACGAAACCTTTATTCAGTCATTCCGCCCGCTGGTGCCGCTTTTAAAAGAGGCGGCAGA -CGAGTTAACCCCGGAGCGGGCATTTCATATTCAGCTTTTACTGATCCATTTTTATCGCCGTGTCGTCCTT -AAAGACCCATTGTTGCCGGAGGAGTTGCTTCCGGCACACTGGGCAGGGCATACGGCGCGTCAGCTGTGTA -TCAACATTTATCAGCGCGTAGCGCCTGCTGCTTTAGCGTTCGTTAGTGAAAAAGGTGAAACCTCGGTCGG -TGAACTGCCTGCGCCGGGAAGCCTGTATTTTCAACGTTTTGGCGGCTTGAATATTGAACAGGAGGCGTTA -TGCCAATTTATCAGATAGACGGTCTGACTCCGGTTGTGCCAGAAGAGAGTTTTGTCCATCCGACAGCGGT -ATTGATCGGCGATGTTATTCTCGGCAAGGGCGTTTACGTTGGGCCAAATGCCAGCCTGCGTGGCGATTTT -GGTCGTATCGTGGTGAAAGATGGCGCGAACATTCAGGATAATTGCGTTATGCACGGTTTTCCCGAGCAGG -ATACTGTTGTAGGAGAAGATGGACATATTGGTCATAGCGCTATCCTTCACGGCTGCATTATCCGCCGCAA -TGCATTAGTGGGAATGAACGCGGTAGTGATGGACGGTGCGGTGATTGGCGAGAACAGCATTGTTGGTGCA -TCCGCATTTGTGAAAGCCAAAGCAGAAATGCCAGCTAATTACCTGATTGTCGGCAGCCCGGCGAAAGCGA -TTCGTGAACTCAGTGAGCAGGAGTTGGCATGGAAAAAGCAGGGTACGCATGAGTACCAGGTGCTGGTGAC -ACGCTGTAAGCAGACGTTACATCAAGTCGAGCCATTGCGGGAAATTGAACCTGGCAGGAAACGCCTGGTA -TTTGATGAGAATCTGCGACCGAAACAGTAACAGATGTAAAATTATTTTGTCCCTTTAATTATAAAGCAGA -GTTATGTTTAAGCTCTGCTTTATTTATTTGAGTATTAATTCATACCGTTTTTTCATCATATAATTATTTA -TAATGAGAATGTGGTTTTAATTTGTAATTTATATTATATACACAATTTATATATTTCATGGTCTTTTTTT -ATTCACCTGAATTATAATTGTGAATTATAGGAAAGTATGTTTGATTAGATAATAATCTACTGGCAATATT -GGATGTCTTCTATGTTTTAAATAACTAATTGGTCGGGTTAGTGCATCCGGCTTTCTTTATATTCGCCAGA -AGGATTTATTATGCAAAGGAAAACTCTATTGTCGGCCTGTATTGCATTAGCTCTGAGTGGTCAGGGTTGG -GCGGCAGATATCACAGAGGTAGAAACCACCACAGGTGAAAAGAAAAATACCAATGTGACTTGTCCGGCAG -ACCCAGGAAAACTCAGTCCGGAAGAGCTTAAACGCTTACCCTCTGAATGCTCTCCTTTAGTCGAACAAAA -CCTGATGCCATGGCTTTCCACAGGCGCTGCTGCGTTAATCACGGCCTTAGCCGTAGTGGAACTAAACGAC -GATGATGATCATCATCATCGCAACAATTCTCCACTCCCACCGACACCCCCTGATGATGAATCAGACGACA -CTCCAGTTCCCCCAACTCCTGGCGGAGATGAGATAATACCGGACGATCCGGATGATACGCCTACACCTCC -CAAACCGGTTTCGTTTAATAATGACGTTATTCTCGATAAAACAGAAAAAACGTTAACTATTCGCGATTCA -GTTTTTACTTATACCGAGAATGCTGACGGGACTATATCTCTGCAAGATAGCAATGGTCGTAAGGCAACGA -TTAATCTTTGGCAGATTGATGAAGCGAATAACACTGTTGCCCTTGAAGGGGTGAGCGCAGATGGCGCAAC -GAAGTGGCAATATAATCACAACGGTGAGCTTGTTATTACGGGTGATAATGCCACAGTAAACAACAATGGC -AAAACCACCGTTGACGGTAAAGATTCCACCGGTACGGAAATCAACGGTAATAACGGGAAAGTGATTCAGG -ACGGCGATCTGGATGTCAGCGGCGGCGGTCACGGTATTGATATCACCGGTGACAGCGCGACGGTGGATAA -CAAGGGCACCATGACCGTCACCGATCCGGAGTCCATGGGTATCCAGATCGACGGTGACAAGGCCATCGTC -AATAACGAAGGCGAGAGCACCATCACCAACGGTGGCACCGGCACCCAGATTAATGGTGATGACGCCACGG -CAAACAACAACGGCAAAACCACCGTTGACGGCAAGGATTCCACCGGTACGGAAATCAACGGTAATAACGG -AAAAGTTATTCAGGACGGCGATCTGGATGTCAGCGGCGGCGGTCACGGTATTGATATCACCGGCGACAGC -GCAACGGTGGATAACAAGGGCACCATGACCGTCACCGATCCGGAGTCCATCGGTATCCAGGTTGACGGCG -ACCAGGCGGTTGTTAACAACGAAGGCGAGAGCGCCATCACCAACGGTGGCACCGGCACGCAGATTAACGG -TGATGACGCCACGGCAAACAACAACGGCAAAACCACCGTTGACGGCAAGGATTCCACCGGTACGGAAATT -GCTGGCAATAACGGGAAGGTGATTCAGGACGGCGATCTGGATGTCAGCGGCGGCGGTCACGGTATTGATA -TCACCGGCGACAGCGCAACGGTGGATAACAAGGGCACCATGACCGTCACCGATCCGGAGTCCATCGGTAT -CCAGATTGACGGCGACCAGGCCATCGTCAATAACGAAGGCGAGAGCACTATCACCAATGGCGGCACCGGC -ACTCAGATCAACGGTAACGACGCCACCGCGAATAACAGTGGAAAAACCACTGTTGATGGAAAAGATTCCA -CGGGTACCAAAATCGCGGGCAATATCGGCATTGTAAATCTGGATGGTAGCCTGACTGTTACAGGCGGTGC -GCATGGTGTTGAGAACATTGGTGACAACGGCACGGTTAACAACAAAGGAGATATTGTTGTTTCCGATACT -GGATCGATTGGCGTGCTCATCAACGGTGAGGGGGCAACAGTATCCAATACGGGTGATGTTAACGTTAGCA -ATGAAGCGACAGGGTTCAGCATCACAACCAACAGTGGGAAGGTTTCGCTGGCAGGCAGTATGCAGGTTGG -CGATTTCTCGACCGGGGTAGATCTTAATGGCAACAATAACAGCGTGACGCTGGCGGCAAAAGATCTAAAA -GTGGTCGGGCAGAAAGCGACGGGCATAAACGTTTCTGGCGATGCGAATACAGTGAATATCACTGGTAACG -TTCTGGTTGATAAGGATAAAACCGCAGACAATGCGGCGGAATATTTCTTCGATCCATCCGTGGGTATCAA -CGTTTACGGCAGTGATAATAACGTGACGCTGGATGGAAAGTTAACTGTTGTATCAGACAGTGAGGTTACT -TCTCGTCAGAGTAATTTATTTGATGGCAGCGCAGAGAAAACGTCAGGTCTGGTTGTGATTGGCGATGGCA -ATACCGTTAATATGAATGGTGGACTTGAACTGATTGGAGAGAAAAACGCGCTTGCAGATGGGTCGCAGGT -TACTTCCTTGCGCACAGGATATAGTTATACCAGCGTTATTGTCGTTAGTGGTGAGTCGTCGGTATATCTG -AATGGAGATACGACAATCAGCGGAGAATTCCCTCTGGGGTTTGCCGGGGTTATTCGGGTACAGGATAAAG -CTTTGCTGGAAATTGGCAGTGGCGCTACGCTAACAATGCAGGATATTGACAGTTTTGAACATCATGGGAC -AAGAACCCTGGATTTGCCCCTATATTTCCAGACATCTGTTATCACTTAACCCATTACAAGCCCGCTGCCG -CAGATATTCCCGTGGCGAGCGATAACCCAGCGCACTATGCGGATGCCATTCGTTATAATGCTCGAACGCC -TCTGCAAGGTTCTTTGCTGCCGTTAACCCGTCTGGTTTGGGCATGATACTGATGTAGTCACGCTTTATCG -TTTTCACGAAGCTCTCTGCTATTCCGTTACTCTCCGGACTCCGCACCGCCGTGTTCTTCGGTTCAAGTCC -CAACATCCGGGCGAACTGGCGTGTTTCATTAGCCCGGTAGCATGAACCATTATCCGTCAGCCACTCCACT -GGAGACGACGGAAGATCGTTGCCGAAGCGGCGTTCCACCGCTCCCAGCATGACGTCCTGTACTGTTTCAC -TGTTGAAGCCGCCGGTAGTGACCGCCCAGTGCAGTGCCTCACGATCACAGCAGTCCAGCGCGAACGTGAC -ACGCAGTCTCTCTCCGTTATCACAGCAGAACTCGAACCCGTCAGAGCACCATCGCTGATTGCTTTCTTTC -ACGGCCACTCTGCCTGTATGTGCCCGTTTCGATGGCGGTACAGCAGGTTTTCGCTCAAGCAACAGCGCAT -TCTGGCGCATGATCCGGTAAACACGTTTGGCATTGATCGCAGGCATACCATCAAGTTCTGCCTGTCTGCG -AAGCAGCGCCCATACCCGACGATAACCATACGTTGGCAGCTCTCCGATAACATGGTGTATACGGAGAAGC -ACATCCGTATCATCAGTGTGACGACTGCGGCGGCCATCCATCCAGTCATCGGTTCGTCTGAGAATGACGT -GCAACTGCGCACGCGACACCCGGAGACAACGGCTGACTAAGCTTACTCCCCATCCCCGGGCAATAAGGGC -GCGTGCGCTATCCACTTTTTTGCCCGTCCATATTCAACGGCTTCTTTGAGGAGTTCATTTTCCATCGTTT -TCTTGCCGAGCAGGCGCTGGAGTTCTTTAATCTGCTTCATGGCGGCAGCAAGTTCAGAGGCAGGAACAAC -CTGTTCTCCGGCGGCGACAGCAGTAAGACTTCCTTCCTGGTATTGCTTACGCCAGAGAAATAACTGGCTG -GCTGCTACACCATGTTGCCGGGCAACGAGGGAGACCGTCATCCCCGGTTCAAAGCTCTGCTGAACAATTG -CGATCTTTTCCTGTGTGGTACGCCGTCTGCGTTTCTCCGGCCCTAAGACATCAATCATCTGTTCTCCAAT -GACTAGTCTAAAAACTAGTATTAAGACTATCACTTATTTAAGTGATATTGGTTGTCTGGAGATTCAGGGG -GCCAGTCTAAACCCCAGAACTTACTTATGCTGATTCCGGTGCGAAAATTGTTAATAAAGGTACTTGTAGA -TTCAATTGGTCAACGCAACAGTTATGTGAAAACATGGGGTTGCGGAGGTTTTTTGAATGAGACGAACATT -TACAGCAGAGGAAAAAGCCTCTGTTTTTGAACTATGGAAGAACGGAACAGGCTTCAGTGAAATAGCGAAT -ATCCTGGGTTCAAAACCCGGAACGATCTTCACTATGTTAAGGGATACTGGCGGCATAAAACCCCATGAGC -GTAAGCGGGCTGTAGCTCACCTGACACTGTCTGAGCGCGAGGAGATACGAGCTGGTTTGTCAGCCAAAAT -GAGCATTCGTGCGATAGCTACTGCGCTGAATCGCAGTCCTTCGACGATCTCACGTGAAGTTCAGCGTAAT -CGGGGCAGACGCTATTACAAAGCTGTTGATGCTAATAACCGAGCCAACAGAATGGCGAAAAGGCCAAAAC -CGTGCTTACTGGATCAAAATTTACCATTGCGAAAGCTTGTTCTGGAAAAGCTGGAGATGAAATGGTCTCC -AGAGCAAATATCAGGATGGTTAAGGCGAACAAAACCACGTCAAAAAACGCTGCGAATATCACCTGAGACA -ATTTATAAAACGCTGTACTTTCGTAGCCGTGAAGCGCTACACCACCTGAATATACAGCATCTGCGACGGT -CGCATAGCCTTCGCCATGGCAGGCGTCATACCCGCAAAGGCGAAAGAGGTACGATTAACATAGTGAACGG -AACACCAATTCACGAACGTTCCCGAAATATCGATAACAGACGCTCTCTGGGGCATTGGGAGGGCGATTTA -GTCTCAGGTACAAAAAACTCTCATATAGCCACACTTGTAGACCGAAAATCACGTTATACGATCATCGTTA -GACTCAGGGGCAAAGATTCTGTCTCAGTAAATCAGGCTCTTACCGACAAATTCCTGAGTTTACCGTCAGA -ACTCAGAAAATCACTGACATGGGACAGAGGAATGGAACTGGCCAGACATCTAGAATTTACTGTCAGCACC -GGCGTTAAAGTTTACTTCTGCGATCCTCAGAGTCCTTGGCAGCGGGGAACAAATGAGAACACAAATGGGC -TAATTCGGCAGTACTTTCCTAAAAAGACATGTCTTGCCCAATATACTCAACATGAACTAGATCTGGTTGC -TGCTCAGCTAAACAACAGACCGAGAAAGACACTGAAGTTCAAAACACCGAAAGAGATAATTGAAAGGGGT -GTTGCATTGACAGATTGAATCTACACTGTTGAAATTCAGAATTTAGGTTTTGCTTTTGTTACTGGTGAAA -ATACAACAGGTATAAATAGTGGCACGATCTCGTTATTACAAAATGGTAAAGATCCGGCACCGTCTCCCAT -TGTTTTACTGGCTACTAACGGAGGGAGCGCCACTAATGCAGGTACGATCACAGGTAAAGTGACGGAACAA -CATAGCGTATTTAACAAGTATTCAACGGGCACATCGAATTCATTTATTTTTAATAACGATGTCAGTAGCA -TAACAGGGTTAGTCGCTCAATCGAATAGCACAATTATCAATACTGACAGCGGCATCATTGATTTGTATGG -TCGTGGTAGTGTCGGCATGCTTGCTATAGCAGATTCAACAGCAGAAAATCAGGGTAAAATTACACTGGAT -TCTATGTGGGTAGATGCAAATGACACTACCGCAATGCGAGATATAGCTAGCAACAGCGCCATTGACTTCG -GTACAGGTGTGGGAGTTGGTACTGATAGTTATAGTGGTGCAGGGAAAAATGCAACAGCAATTAACCAATT -GGGCGGTGTTATAACTATTTATAACGCCGGCGCAGGTATGGCGGCCTATGGCGCCAGCAATACAGTTATT -AACCAGGGGACGATTAACCTCGAAAAAAATGGTAATTATGACGATAGTCTGGCAGCAAATACTCTGGTAG -GGATGGCTGTTTATGAGCATGGTACTGCTATCAACGACCAGACGGGTGTTATCAATATCAATGTTGGTAC -TGGTCAGGCGTTTTATAACGATGGCACAGGAACAATTGTTAACTATGGTACAATCTGCACTTTCGGCGTG -TGCCAATCGGGGAATGAGTACAATAATACAGATGATTTCACCTCACTGATCTATACCGGTGGCGATACGA -TTACACGAAGCGGAGAAACTGTAACGCTAAATAAATCTGCTGCTGTGACTGATAAGCTGGCTGGGAATGT -TGTTAATAGCGGAACGCTTTCCGGTGATCAAATTACGGTATCAAGCGGTCTTCTGGAAAATACCAGCGGT -GGCATCATCAATAACTTAGTAAAACTTGACAAGGGTGCCGTCATTAAAAATGCCGGGGTGATGACGAATA -ACGTCGATGTTAGCGGTGGAATCCTCAATAATGCCGGAGAAATGACTGCGCAAATTACCATGAATGCTGG -TGCTGATAGTTCGTTAGTGAACAACACCGGAACCATCAATAAAATCGTGCAGAACGCGGGGGTATTCAAT -AATAGTGGCAGTGTAACAGGGCGGATGATGTCGGCTGGCGGGGTCTTTAATAATCAAACTGACGGGGCGA -TTATGAGAGGTGCTGCGCTGACAGGTACTGCAGTGGCAAATAACGAAGGAACCTGGAACCTCGGAAGTAG -TAGTGAGGGTAACAACACCGGGATGCTGGAAGTTAATAATAATTCAGCTTTCAATAACCGCGGCGAGTTT -ATTCTTGATAACGACAAGAATGCTGTGCACATCAACCAGTCCGGTACGCTTTATAATACCGGTCACATGA -ACATCAGTAATTCTTCCCACAACGGAGCCGTTAATATGTGGGGCGGAAATGGTCGTTTTATCAATGACGG -AACGATTGATGTTTCTGCGAAGTCACTGGTAGTCAGCGCTAATAATGCCGGCGATCAGAATGCCTTCTTC -TGGAACCAGGATAACGGGGTCATCAACTTCGATCACGACAGCGCCAGTGCCGTGAAAGTCACCCACAGCA -ACTTTATTGCCCAGAATGACGGCATCATGAACATCAGCGGCACCGGTGCTGTGGCTATGGAAGGTGATAA -GAACGCGCAGCTGGTTAACAATGGCACCATCAACCTCGGTACCGCAGGCACTACTGACACGGGTATGATC -GGTATGCAACTCGATGCCAACGCCACGGCGGATGCGGTAATCGAAAACAACGGCACCATCAATATCTTCG -CCAATGACTCGTTTGCATTTAGCGTACTGGGTACAGTAGGTCATGTGGTTAACAACGGCACGGTGGTGAT -TGCCGATGGGGTTACGGGTTCTGGACTGATCAAGCAGGGCGACAGCATCAATGTTGAAGGTATGAACGGT -AACAACGGTAATAGCAGCGAAGTGCATTATGGCGACTATACGTTGCCGGATGTGCCGAAGCCCAATACGG -TTAGTGTAACGTCGGGAAGTGATGAGGCTGGTGGCAGCATGAACAACCTCAACGGCTATGTCGTCGGTAC -CAACGTTAACGGCAGCGCCGGGAAGCTGAAGGTTAACAATGCCAGCATGAACGGCGTGGAGATTAACACG -GGCTTTACCGCTGGTACGGCAGACACCACTGTGAGTTTTGATAACGTAGTGGAAGGTAGCAACCTGACCG -ACGCTGACGCCATCACCTCAACGTCCGTGGTATGGACTGCCAAAGGCAGCACCGATGCCAGCGGTAACGT -TGACGTCACCATGAGCAAAAATGCCTACACCGATGTGGCAACAGATGCCTCGGTGAATGACATCGCGAAA -GCACTGGATGCGGGTTACACCAACAACGAACTGTTTACCAGCCTGAACGTCGGCACGACTGCTGAACTGA -ACAGTGCTCTGAAACAGGTCAGCGGTAGCCAGGCGACCACGGTATTCCGCGAAGCGCGCGTGTTAAGCAA -CCGCTTTAGTATGCTGGCAGATGCCGCGCCGAAAGTGGGTAACGGTCTGGCGTTCAACGTTGTCGCGAAA -GGCGATCCGCGTGCCGAGTTAGGTAATAATACCGAATACGACATGCTGGCATTGCGTAAAACTATCGACC -TGAGCGAAAGCCAGACGATGAGTCTGGAGTACGGTATCGCTCGTCTCGATGGTGATGGTGCGCAGAAAGC -GGGTGATAATGGCGTTACAGGCGGTTATAGCCAGTTTTTTGGCCTGAAACATCAGATGTCGTTCGATAAC -GGCATGAACTGGAATAACGCCTTGCGTTACGACGTTCACAACCTTGACAGCAGCCGCTCGATTGCATTTG -GCAACACGAACAAAACGGCTGATACCGACGTGAAACAGCAGTACCTGGAGTTCCGCAGCGAAGGGGCGAA -GACTTTCGAACCGAGCGAAGGACTGAAGGTTACGCCATATGCGGGTGTAAAACTGCGTCACACACTGGAA -GGTGGCTATCAGGAGCGCAATGCCGGAGACTTTAACCTGAATATGAACAGTGGCAGCGAAACGGCGGTGG -ACAGCATCGTCGGGCTGAAACTGGACTACGCAGGTAAAGACGGCTGGAGCGCTAGCGCTACGCTGGAAGG -CGGGCCGAACCTGAGCTACGCGAAGAGCCAGCGTACGGCAAGCCTGGCAGGCGCAGGCAGTCAGCACTTT -AACGTCGATGACGGTCAGAAGGGCGGCGGCATCAATAGCCTGACAAGCGTCGGCGTGAAGTACAGCAGCA -AAGAAAGTTCGCTGAATCTGGATGCGTACAACTGGAAAGAGGATGGCATCAGCGATAAAGGCGTGATGCT -GAACTTCAAGAAAACGTTCTAATTTTTAGCATGTGATCCCTAAACCGCAACGCTGATACAGGTTGCGGTT -TTTTTATTGCCGGATGTGGTACGTGACGCGTTTTGTTTTGTGTCTTTCAGGACAATAGAGCAACTCATCC -AGTAATCTTGTTTACACCTTCGCATTATTTATCTCTTTTCGTTTCTATACTGATTTTTCTTAATCCGTTT -TATTACAGGGCAGGGTGCGATGAGCAGCAATACATTTACTCTCGGTACAAAATCCGTTAACCGTCTTGGT -TATGGCGCGATGCAACTGGCAGGTCCTGGAGTTTTTGGCCCCCCACGAGATCGCCACGTCGCTATAACCG -TGCTGCGTGAGGCGCTGGCATTGGGCGTCAATCATATTGATACCAGCGACTTTTATGGTCCGCACGTCAC -CAATCAGATTATCCGCGAAGCGCTTTATCCTTACTCTGACGACCTGACAATTGTCACTAAAATTGGTGCG -CGGCGTGGAGAGGACGCATCCTGGTTGCCCGCATTTTCTCCGGCAGAGCTGCAAAAAGCGGTGCACGATA -ATCTACGTAATCTCGGGCTGGACGTGCTGGATGTGGTTAACCTGCGCGTTATGATGGGGGATGGTCATGG -CCCAGCGGAAGGATCGATTGAGGCCAGCCTGACCGTGCTGGCAGAGATGCAACAACAAGGCCTGGTAAAA -CATATTGGCCTGAGCAACGTCACACCGACGCAGGTTGCAGAGGCGCGCAAGATTGCCGAAATTGTCTGTG -TGCAAAACGAATACAACATCGCGCACCGTGCTGATGATGCAATGATTGATGCTTTGGCCCACGATGGCAT -TGCCTACGTGCCGTTCTTCCCGCTCGGGGGCTTTACACCGCTGCAATCGTCCACACTTTCCGATGTTGCT -GCGAGCCTGGGTGCAACACCAATGCAGGTGGCGCTGGCGTGGCTGTTACAGCGTTCACCGAATATTTTGC -TGATCCCAGGGACGTCTTCGGTTGCGCATTTACGGGAGAATATGGCTGCTGAAAAATTGCATCTTTCTGA -GGAAGTGTTGTCTACGTTGGATGGTATTTCGCGAGAATAACGAATATACAAAAGGGAAAGATGCATTTCC -CTTTTTTTCTTTTTTAATGGCATGGAGTGCATATGTTGAAGGCCAGGAATTGCGGCTGGATACGTTTACT -GCCCCTGTTTATGCTGAGTCTACCAGTACAGGCGGAACTTCGATGTGTTGCAAATGCAGTTGATATTGAA -TCATTTTTTTCTGCGGCTACCGCTGAAGATAAACAACAAGTTGAACAAGCTATCAACAGTAGCGTGAATC -TTGTCCCCTTCGGTTTATCTGCATCGAACTGGAAAGTGCATCGTGGCGATTTAGTGGTAGAAGGTAATAT -AGAGAGTAATCAAAAATTGATTGTTCTTGGGAATTTGACAGTCAAAGGTAATATTTCCACTTTCTCTCTT -TCTAATCCATGGGTTATTCTCGGTAACGTGACGGCAACGAATATAGTTGCGGATTCACCACTGTTAATTA -CCGGTTCGATAAATGCAAGTGGACTGGTATTTATCGACTCATATTACGATAATCCGTCTACGATTAAGGG -GAGTATTAATGCGCGTGGGATATTTATCAATGACATAATTGCACCTGTTGTTGCGTCTTCGACAAATAGT -GAATTCATGGTCCGTGCGAGTGACAAACATGACACTGAAAATGTCAAAAAAGCGCTGATGATAATAAATC -CTGATGCATATTATTGGGGGCTAATTAATGATGAAGATGCTCTGAAAGAAATTTTTAAGCGAAGCAATAT -TCGCATGGCAGGGAATGTCTGTAATCAGATGAAAAAAGAAGCGCTGTTTCGCCCTAAGCCTTCTCCTGAG -TTAGTGCAAGAATTGCAAATGCTGGATGAAGGCAAAGTTGCTGCATTTGAAGGACGAGACATTGCGACAT -TTGATCTTGCCGTAATGCGAACTCTCCCAAGGCTTAAAGGAATTTCAGCTAACCTACGCAAACAACTTAT -TAATAGCAATGATGAACAAACGATTGAAAGTATGGCGAGATATATGCCTGACAATGAGATTCTGGAGTTG -ACCGATCAGCAATTGGGTTACCAGCCTGTTGTTCTGGGGTTGCTCGACCGTGAACCGCTCTCTGTCGAAA -TAATGACGCGAATGAGTCGTCTACCTGATGGTGTCGGTCCGTTGAATCTTGCGCTACGTGAAAATCTCCC -TCTGGATATCGTCATGACTCTGGCGAAAAGAGATTGGGATATGATCATTCAGGAGCTTTATAAAGATGCG -TGGTTATTGCCTGAATCCATTATTGATGGCTATATCCGCAGTGATGATTCCTCTATTCGTCAGGTCGGTG -CTGGAGGACAACTCACCTACAATCAGGCAATGCAGTTGGCGAACGATTCATCAAACAATGTTGTCACAAG -CTTAGCGTTCAAGCTGGCAGAGATGAAACACCATGGTCAATTGTTGCGGATGACGCCACAAGAGAGTGAC -AAAGTTGCAGGCTATTTATACCAAAAATTCGAGAATGACGATGATCTAATACGTGTGTTATTTTTAGCAT -TGCCAGATAACTTACAGTTTAATTTTGTTAAAAGGATGGAGAAAAAATCCCCGGCCTACTTTTGCTGTCG -GGATATGCAGGTAATTCACTCTGACGCTGCTTTACAACGGTTATTGACACGTTTCAACGATCCTGAAGGG -TGGAGTAATCTGGCGAAAAATCAGTATCTGAGCACGTCGATGAAACAAAAAATTTGGCAACGTGCTTTAT -CGCATCGGAAAAATAATCCGAAAGCAGATTCAGATGCATATGAAACCAGCGCTGATATGATTTTGTCTGA -GCTGATTAGCCACGGCGAAGTTGATGACCAGATGCTATTAAATGCCACCGCCCTGATACGTTCGGACGAC -TGGGACTTTTTAGAGAGTGCATTAATTAGTTGGGATAATTTACCCGCTGTTGTTCTCAAGGAATTACAGC -AAAACACGCCACGCAATGATATTTGGGCGAAGTTTTTTCTGAGGCAGGAAAACAGTTCCCGTGCGCAGGT -TGACGAAGCGTTACGTGTTTATTATGCACTAGACCCCGATGCGTTAGCACAACTGGATGTACTGGCAAAA -CAACCGGATCGTATATGGTGGAGTACACTGGCGAAAAGCAATCTCACATTTTTCAAGTTCGGCGCACTTA -ACAACCGCCACACACCGCCTGCAGTACTGGCGGCAGAAATTGATCCCGAGTGGTGGATTGTGGCGATGAA -TAATCCCCGTTTTCCAGTTGATGTATTAAAGGCGAGGCTGAAACGTGATCCTTTGCTGGCGTTAGAGCTT -GTTAACCCTGAACTGGATTTAGTCCGCCAGCTGGCGCTTAACGGTAAGACGCGCGCAATACGGGAACAAG -CGATGAGAAAACTTGATGAGTTGTATTGATCCACAACGTAATGTTTTTTAACTATCTGATTAATTGGGGA -TAATCATTCCTGACAGTGAGTCCCCAATACCTTGATATATTCTGAATTTTTAATGAAACGGCGTGTTGCG -ATATCTCCGTCAGGGGAATTGATGCACCATAGCGCAAACCGAATTATCAAGGATTGATAATGACGCTCTA -CCAGATAAAACCGCTCTTTCAGTCGCTGTTAAGGCCGACGATGTTTTGGCTTTATAAGCACCACGTTACA -GCGAATCACATCACTCTTGCTGCACTGGCGCTTTCTCTTCTTACCGGATTGCTGTTGATGTTGGCGGCAC -AACCCATCCTCTTTTTGCTATTGCCCATCGTGCTTTTTATCCGTATGGCGCTCAATGCGCTGGATGGCAT -GTTGGCGCGTGAGTGCAACCAGCAAACACGTCTGGGGGCGATTTTGAATGAGACTGGCGATGTTATTTCC -GATATTGCGCTCTATTTACCATTTTTATTTTTACCGGAAAGTAACGCATCACTCGTGATACTCATGTTAT -TTTGCACCATATTGACCGAGTTTTGCGGTTTACTCGCGCAGACGATTAACGGTGTTCGCAGTTATGCCGG -TCCATTTGGCAAAAGCGATCGCGCGTTAATATTTGGTCTGTGGGGTCTGGCCGTTGCCATTTATCCACAG -TGGATGCAGTGGAATAATCTTTTATGGAGCATTGCTTCAATTCTGCTTCTCTGGACTGCGATTAATCGTT -GTCGGAGTGTGCTTCTTATGAGCGCTGAAATATAATGCTGGAAAAATCTCTGGCAACACTTTTCGCGTTG -TTAATTTTAGCAACGCTGATAAACCGTTTTCTGCTATGGCGGTTACCGGAGAGAAAAGGGGGTGAGGTTA -CATTACGTATTCGTACCTGGTGGGGCATCGTCATTTGTTTTTCAATGGTGATTTCAGGTCCACGCTGGAT -GACGTTGACGTTTTTTGCGCTGATAAGTTTTCTGGCATTGAAAGAATATTGTACGCTTATATCTGTACAT -TTTCCGCGTTGGTTATATTGGGGTATTCCTCTTAACTATTTGCTTATCGGTTTTAATTGCTTTGAGCTGT -TTCTGTTATTTATACCTTTGGCTGGGTTTCTGATATTAGCCACCGGGCAAGTTTTAGTGGGTGACCCCTC -TGGTTTTCTGCATACCGTGAGCGCCATTTTTTGGGGCTGGATAATGACCGTTTTCGCCTTGAGTCATGCC -GCCTGGTTATTAATGTTGCCAACCACAAATATCCAGGGCGGGGCGTTACTGGTGTTATTTCTTTTGGCAT -TAACCGAGTCAAACGATATTGCACAGTATTTATGGGGAAAATCCTGCGGCAGAAGAAAAGTGGTCCCTAA -AGTCAGCCCGGGAAAAACATTGGAAGGTCTGATGGGCGGCGTCATCACCATCATGATTGCGTCACTGATT -ATCGGACCGTTACTGACACCGCTAAATACATTACAGGCATTATTAGCGGGTTTGTTAATTGGTATTAGTG -GTTTTTGCGGCGATGTCGTGATGTCAGCCATCAAACGAGATATTGGTGTTAAAGATAGCGGAAAACTATT -GCCAGGACATGGCGGACTCCTTGACAGGATTGACTCATTAATTTTCACCGCTCCGGTATTTTTTTATTTT -ATACGCTACTGCTGTTACTGAAGGAAAATAGAGAAAATGGAAAATTCACGCATCCCTGGGGAACATTTTT -TTACCACCAGTGATAATACAGCGTTGTTTTATCGGCACTGGCCCGCTTTACAGCCCGGGGCGAAAAAGGT -CATCGTCTTATTTCATCGCGGGCATGAACATTCTGGTCGTCTACAACATCTCGTTGATGAACTGGCGATG -CCAGATACTGCTTTTTATGCCTGGGATGCCCGAGGGCATGGAAAAAGTTCGGGGCCGCGTGGTTATAGCC -CATCTCTTGCGCGTTCAGTGCGGGATGTCGATGAATTTGTCCGTTTTGCTGCCAGCGACAGCCAGGTTGG -ACTGGAAGAGGTGGTAGTGATCGCGCAAAGCGTCGGCGCAGTGCTGGTTGCCACATGGATTCATGATTAT -GCACCTGCAATTCGCGGGCTGGTGCTGGCTTCTCCGGCCTTTAAGGTTAAATTGTATGTGCCGCTGGCAC -GTCCTGCGCTGGCGTTATGGCATCGTCTGCGTGGTCTGTTTTTTATTAATTCCTATGTGAAAGGACGCTA -TTTGACCCACGATCGGCAACGGGGGGCGAGTTTCAATAATGATCCGCTGATCACACGGGCGATTGCCGTT -AATATCTTGCTCGATCTCTACAAAACGTCTGAACGTATTATTAGAGATGCGGCGGCGATTACGCTCCCCA -CGCAACTTCTGATATCAGGCGATGACTATGTGGTGCATCGCCAACCGCAGATTGATTTTTATCAGAGATT -ACGTAGCCCTCTGAAAGAGCTGCATCTGCTGCCAGGCTTTTATCACGACACGTTGGGTGAAGAGAACAGG -GCGCTGGCATTTGAAAAAATGCAAAGCTTTATTAGTCGTTTATATGCTAACAAATCGCAAAAATTTGATT -ATCAGCATGAAGACTGCACAGGACCATCAGCGGATCGATGGCGGCTACTTTCTGGTGGACCCGTGCCATT -ATCGCCGGTTGATTTAGCGTATCGCTTTATGCGAAAGGCGATGAAATTGTTCGGGACGCACTCTTCGGGC -CTGCATCTCGGAATGAGCACCGGCTTTGATTCAGGCAGTTCGCTGGATTATGTCTATCAAAATCAACCGC -AAGGTAGTAACGCATTCGGGCGTTTAGTCGACAAAATCTACCTGAACAGTGTTGGCTGGCGCGGTATTCG -CCAGCGCAAAACCCATTTACAAATACTGATTAAACAAGCCGTTGCCGATCTCCACGCCAAAGGTTTAGCC -GTCCGCGTGGTTGACATTGCCGCAGGGCATGGGCGCTATGTACTGGATGCGCTGGCAAACGAGCCTGCCG -TAAGCGATATTTTGTTACGTGATTACAGCGAGTTAAATGTTGCACAGGGGCAAGAGATGATTGCTCAACG -GGGAATGTCTGGGCGGGTGCGTTTTGAACAGGGCGATGCGTTTAACCCGGAGGAACTCAGCGCGTTAACT -CCGCGGCCTACGCTGGCGATTGTCTCTGGCCTGTATGAGCTTTTTCCCGAAAATGAGCAGGTAAAAAACT -CACTCGCAGGTCTTGCCAATGCCATCGAACCGGGCGGCATTCTCATCTACACCGGGCAGCCGTGGCACCC -TCAACTGGAGATGATTGCCGGGGTGTTAACCAGTCATAAAGATGGTAAACCGTGGGTAATGCGCGTGCGT -TCGCAAGGGGAGATGGATTCACTCGTGCGTGATGCCGGATTTGATAAATGCACACAACGGATTGATGAGT -GGGGTATTTTTACGGTTTCGATGGCGGTGCGTCGTGATAACTGAACGTCGGAACGTATTGCTACAAGGCG -CTGGCTGGTTATTGTTGCTGGCCCCGTTTTTCTTCTTCACCTATGGATCTCTTAATCAGTTCACCGCGGT -TCAGGACCTTAACAGCCATGATATCCCCAGTCAGGTATTCGGTTGGGAAACGGCGATCCCTTTTCTTCCC -TGGACTATTGTTCCTTACTGGAGTCTGGATCTTTTATATGGATTTTCGCTGTTCGTTTGTAGCACGACAT -TCGAACAGCGCCGACTTGTCCACCGGCTTATTCTGGCAACGGTAATGGCCTGCTGCGGTTTTTTGCTCTA -TCCGCTGAAGTTTAGTTTTATCCGTCCTGAAGTGAGTGGGGTGACGGGATGGCTATTTTCGCAACTTGAA -CTGTTTGATCTGCCTTATAACCAGTCTCCTTCGCTGCATATTATTCTCTGCTGGCTACTTTGGCGTCACT -TTCGTCAGCATCTGGCTGAGAGGTGGCGTAAAGTCTGCGGCGGATGGTTTTTACTCATCGCCATTTCGAC -GCTGACGACCTGGCAGCATCATTTTATTGATGTCATCACAGGGCTGGCGGTAGGTATGTTGATTGACTGG -ATGGTGCCCGTCGACCGTCGTTGGAATTATCAGAAACCTGATCAACGTCGAATCAAAATAGCACTGCCCT -ATGTCGTAGGCGCGGGCTCGTGCATTGTATTGATGGAGCTAATGATGATGATTCAGTTATGGTGGTCAGT -CTGGTTATGTTGGCCAGTATTATCGCTACTCATAATTGGCCGTGGGTACGGTGGGCTTGGCGCGATAACA -ACAGGGAAAGATAGTCAGGGGAAACTACCGCCCGCCGTTTACTGGCTGACATTGCCCTGCCGCATCGGGA -TGTGGCTGTCTATGCGTTGGTTTTGTCGTCGCCTGGAGCCGGTGAGCAAAATGACTGCTGGTGTTTATTT -AGGGGCGTTTCCACGACATATTCCGGCACAGAATGCGGTTCTGGACGTCACCTTTGAATTCCCTCGCGGA -CGAGCCACAAAAGATCGACTCTATTTTTGTGTACCGATGCTGGATCTGGTGGTTCCGGAAGAGGGGGAGC -TCCGACAGGCCGTGGCGATGCTGGAAACATTACGCGAAGAGCAAGGCAGCGTTCTGGTCCATTGTGCATT -GGGATTATCGCGCAGTGCGCTGGTGGTGGCGGCATGGTTGTTATGTTACGGACACTGTAAAACCGTTAAT -GAAGCGATTAGCTATATTCGAGCCAGACGCCCGCAGATTGTGCTGACAGACGAGCACAAAGCGATGCTGA -GATTATGGGAAAACAGGTAAGTGGATTGAGATGTGGACTGAATATCTACAGTCCACATCAAGACCGTGTC -CGGTTATGCAGAAACAATGCTGTCGATGGCTGCTTTTGCGTCAGACTGTGCTTTCGCTGCCATTTCCGGA -CCGTATGCGATCCCTTCGGCGAAGACAAATTTCACATCGGTAATGCCGATAAAGCCGAGGAACGTGGACA -GATACGGCGTCACCAGGTCCGTTGGTCCATCTTTGTGGATCCCGCCGCGGCTGGTAATAACGATGGCTTT -TTTACCCGTTACCAGACCTTCCGGACCGTTCTCGGTATAGCGGAAAGTAACGCCTGCGCGGGCAACCAGG -TCAAAATAGTTTTTCAACTGAGTCGAGATGTTGAAGTTATACATCGGTGCCGCAATAACGATAACGTCGT -GGGCTTTCAGCTCGGCAATCAACTCATCGGAAAGTGCCAGAGCTTCCTGCTGACGCGGAGTCAGCGGCGC -ATCGCTCGGACGCAGAGCGCCAACCAGTTCGCCATCCAGTACCGGAATCGGATTTGCAGCCAGGTCGCGA -ACGGTGATTTCATCAGCGGAGTGCTTTTCGCGCCATTGTTCAACAAAATAATCGGACAACTGATTAGACT -GAGAGTACCCTGCCAGGATGCTGGATTTAAGAACTAATACCTTGCTCATGGTGTTTCCTTATAGATGTTT -GAATGGGCGATGCCCCGTTGCTTGTTGACACTTTATTCACAATCCTGCCACAGAGATAGCGCAATAAATC -GAAGCCTATGTTCGAATTTATTGAACAACGCATAGAAAGCCGCGATGTGGTACTCTATATCTATCATTTA -AAAGAAAATTAATCAGGCAGACTACTGCCCACTAACGTTATGACAGAACAACAAAAATTGACCTTTACGG -CCTTGCAGCAGCGGCTGGATTCGCTGATGCTGCGTGACAGACTGCGTTTTTCTCGCCGTCTGCACGGCGT -GAAGAAGGTTAAAAATCCTGATGCACAACAGGCCATTTTCCAGGAGATGGCGAAAGAGATTGACCAGGCG -GCAGGGAAAGTCCTGCTGCGTGAAGCGGCACGACCGGAAATTACTTATCCTGACAATTTACCGGTTAGTC -AGAAAAAACAGGACATTCTCGAAGCGATTCGTGATCACCAGGTGGTGATCGTCGCCGGGGAAACGGGTTC -TGGTAAAACGACTCAGTTACCGAAAATCTGTATGGAGCTGGGGCGCGGGATTAAAGGACTGATCGGCCAT -ACCCAGCCGCGTCGTCTGGCGGCAAGAACAGTGGCGAACCGTATTGCGGAAGAGCTGAAAACGGAGCCGG -GCGGTTGCATCGGTTACAAAGTGCGTTTCAGCGATCACGTAAGTGATAACACGATGGTCAAGCTGATGAC -CGACGGTATCCTGCTGGCGGAGATCCAGCAAGACCGCCTGCTGATGCAGTACGACACTATCATTATTGAC -GAAGCGCACGAACGCAGCCTGAATATCGATTTTTTGCTCGGCTATTTGAAAGAGTTGCTGCCGCGGCGTC -CTGACCTAAAAATCATTATCACTTCCGCGACTATCGACCCGGAACGCTTTTCGCGCCACTTTAATAATGC -GCCGATTATTGAAGTCTCCGGTCGGACCTATCCGGTGGAAGTGCGCTATCGCCCGATTGTTGAAGAAGCC -GATGACACCGAGCGCGATCAGTTGCAGGCGATTTTTGACGCCGTAGACGAACTGAGTCAGGAAAGCCATG -GCGACATTCTGATCTTTATGAGCGGCGAGCGGGAAATCCGCGATACCGCCGATGCGCTGAACAAGCTGAA -CTTACGCCATACCGAAATCTTGCCGCTTTATGCGCGGCTTTCGAACAGCGAACAAAATAGGGTATTCCAG -TCGCACAGCGGACGGCGCATTGTGCTGGCGACCAACGTCGCGGAAACGTCGCTGACCGTACCGGGGATTA -AATACGTTATCGACCCCGGTACAGCGCGTATCAGCCGCTACAGCTATCGCACCAAAGTGCAGCGTTTGCC -GATTGAGCCGATTTCCCAGGCGTCTGCCAATCAGCGTAAAGGCCGCTGTGGTCGTGTGTCCGAAGGGATC -TGTATTCGTCTCTATTCCGAAGACGATTTCCTCTCGCGCCCGGAGTTTACCGATCCGGAGATTCTGCGTA -CCAACCTGGCCTCGGTTATTTTGCAGATGACCGCGCTGGGGCTGGGCGATATCGCTGCGTTCCCGTTTGT -CGAAGCACCGGATAAACGCAATATCCAGGATGGCGTGCGTCTGCTCGAAGAGCTGGGCGCGATCACCACT -GATGAACAGGCCAGCGCCTATAAACTGACGCCGCTCGGTCGCCAGCTCTCGCAGTTGCCTGTCGACCCAC -GTCTGGCGCGTATGGTGCTGGAAGCGCAAAAACATGGCTGCGTGCGTGAGGCGATGATTATCACGTCCGC -GCTCTCCATTCAGGATCCGCGCGAACGTCCGATGGACAAACAGCAGGCATCGGACGAAAAACATCGTCGC -TTCCACGACAAAGAGTCTGACTTTCTCGCGTTTGTGAATCTGTGGAATTATCTTGGCGAGCAGCAAAAGG -CGCTTTCTTCCAACGCCTTCCGTCGCCTGTGTCGTACCGATTATCTCAACTATCTGCGCGTGCGCGAATG -GCAGGATATCTACACCCAGTTGCGTCAGGTGGTGAAAGAACTTGGCATTCCGGTTAACAGCGAACCGGCG -GAGTATCGCGAAATTCACATTGCGTTGCTGACCGGTTTACTTTCCCATATCGGCATGAAAGATGCCGATA -AACAAGAATATACCGGCGCACGTAACGCGCGTTTCTCCATCTTCCCCGGTTCTGGTTTATTCAAAAAACC -GCCTAAATGGGTAATGGTGGCGGAACTGGTAGAAACCAGCCGCCTGTGGGGGCGCATTGCTGCGCGTATC -GACCCGGAATGGGTGGAGCCAGTTGCTCAGCATTTGATTAAACGCACCTACAGCGAACCGCACTGGGAAC -GGGCGCAGGGCGCGGTGATGGCAACGGAAAAAGTCACTGTTTATGGTTTGCCGATTGTTGCCGCGCGCAA -GGTCAACTACAGCCAGATCGATCCGGCGTTATGTCGTGAACTCTTTATTCGCCACGCGCTGGTGGAAGGT -GACTGGCAGACGCGTCACGCATTCTTCCGTGAAAACCTGAAACTACGGGCGGAAGTAGAAGAGCTGGAAC -ACAAATCACGTCGCCGCGATATTCTGGTTGATGACGAAACGTTGTTTGAGTTCTACGACCAGCGCATCAG -CCACGATGTAATCTCCGCTCGCCACTTCGACAGCTGGTGGAAAAAAGTCAGCCGCGAAACGCCTGATTTG -CTCAACTTTGAAAAAAGCATGTTGATCAAAGAGGGCGCAGAAAAAATCAGCAAGCTGGATTACCCGAACT -TCTGGCATCAGGGCAATCTCAAGCTGCGTTTGAGCTATCAGTTTGAGCCCGGCGCGGATGCTGACGGTGT -GACCGTACATATTCCGCTGCCGTTACTTAACCAGGTTGAGGAAAGCGGGTTTGAATGGCAGATCCCCGGT -CTGCGCCGCGAACTGGTGATTGCTCTGATTAAATCGTTGCCGAAACCGGTACGCCGTAATTTTGTACCCG -CGCCAAACTATGCCGAAGCGTTTTTAGGCCGCGTCAAACCGCTGGAGTTACCGTTGCTCGACAGCCTTGA -GCGCGAGTTACGGCGGATGACCGGCGTTACCGTTGACCGCGAAGACTGGCACTGGGATCAGGTGCCCGAT -CACCTGAAAATTACCTTCCGCGTGGTGGATGACAAAAACAAGAAGCTAAAAGAAGGGCGCTCGCTACAAG -ATCTGAAAGATGCGCTGAAAGGCAAAGTGCAGGAAACGCTATCTGCGGTGGCGGATGACGGTATCGAGCA -GAGCGGCTTACATATCTGGAGTTTTGGTCAGCTGCCGGAAAGCTACGAACAGAAGCGTGGCAACTACAAA -GTGAAGGCGTGGCCGGCGCTGGTGGATGAGCGCGACAGTGTGGCGATCAAACTGTTTGATAACCCGCTGG -AGCAAAAGCAGGCAATGTGGAACGGTCTTCGCCGTCTACTGCTGCTGAATATTCCATCGCCAATCAAATA -TTTACATGAAAAGTTACCGAACAAAGCCAAGCTGGGACTGTACTTTAACCCGTATGGCAAAGTGCTGGAG -CTGATCGACGACTGTATCTCCTGCGGTGTGGATAAATTGATCGACGCCAATGGTGGCCCGGTCTGGACGG -AAGAAGGCTTTGCTGCGCTGCATGAAAAAGTGCGTGCCGAACTGAACGACACGGTGGTGGATATTGCGAA -GCAGGTCGAGCAAATCCTTACGGCAGTGTTCAATATCAACAAACGTCTGAAAGGGCGGGTGGATATGACC -ATGGCGCTGGGGCTTTCTGACATTAAAGCGCAGATGGGCGGGTTGGTATATCGCGGTTTTGTCACTGGTA -ACGGCTTCAAACGGCTGGGCGACACGCTGCGATATTTGCAGGCGATTGAAAAACGGCTGGAAAAACTGGC -GGTTGATCCACATCGCGACCGTGCGCAGATGCTGAAAGTCGAAAACGTCCAGCAGGCGTGGCAGCAATGG -ATCAACAAACTGCCGCCCGCACGTCGTGAGGATGAAGACGTGAAAGAGATCCGTTGGATGATAGAAGAGT -TGCGCGTTAGTTACTTCGCTCAACAACTTGGTACGCCTTATCCGATTTCAGATAAGCGTATTTTGCAGGC -GATGGAGCAGATTAGCGGTTAACCCTGCTATTTGCCTGATAAAGAAAAAACCCGGTAAGCATTTAGCGCC -GGGTTTTTTATTAATTCTAAAACGGTAAGGGTAAAAATTCAGGAATTCAGAAAAATACAATTCTCTGCTG -CAAGATGAATAATGTTTATCTACAGCATTTCCTTAAAAGATATGTCAGGCTTGCGGAGTGGCGGTTAAGG -ACATACGATTTCCTCCTTTCAGAGTGCTCCGCTTCTCACTATTATCTCACGCAGTATTCTTAAGGGAACG -ATAAGGAGGAACCATGAACATTACCCCGTTTCCGACGCTTTCGCCGGCAACTATAGATGCCATAAATGTT -ATCGGACAGTGGCTGGCGCAGGATGATTTCTCCGGTGAGGTGCCGTATCAGGCCGATTGCGTGATCCTTG -CAGGCAATGCGGTTATGCCGACTATCGATGCGGCATGTAAGATTGCCCGCGATCAGCAAATTCCTTTACT -GATTAGTGGTGGTATCGGTCACTCGACAACTTTTTTGTATAGCGCCATCGCACAGCATCCGCACTACAAC -ACTATCCGCACCACTGGCAGAGCAGAAGCGACCATCCTGGCGGATATCGCTCATCAGTTCTGGCACATTC -CGCATGAAAAAATCTGGATTGAAGACCAGTCAACAAACTGCGGTGAAAACGCACGCTTTAGCATCGCGCT -ATTGAATCAGGCCGTAGAACGAGTTCATACGGCTATCGTTGTTCAGGACCCCACCATGCAGCGGCGCACG -ATGGCGACGTTCCGCCGTATGACTGGGGACAATCCCGATGCACCACGCTGGTTAAGTTATCCCGGATTCG -TTCCTCAGTTAGGAAATAACGCAGACAGTGTAATCTTTATTAATCAGTTACAAGGATTATGGCCAGTTGA -GCGTTATCTCTCACTACTCACTGGCGAGCTGCCGCGTTTACGCGATGATAGCGATGGCTACGGTCCCCGC -GGGCGAGATTTTATCGTTCACGTTGATTTTCCGGCAGAAGTCATCCATGCATGGCAAACGCTGAAACATG -ATGCGGTGCTCATCGAGGCGATGGAAAGTCGCTCGTTACGTTAAAAATTGCCCGTTTGTGAACCACTTGT -TTGCAAACGGGCATGACTCCTGACTTTTATTTCTGCCTTTTATTCCTTTTACACTTGTTTTTATGAAGCC -CTTCACAGAATTGTCCTTTCACGATTCCGTCTCTCTGATGATTGATGTTAATTAACAATGTATTCACCGA -AAACAAACATATAAATCACAGGAGTCGCCCATGTCAGTACCCGTTCAACATCCTATGTATATCGATGGAC -AGTTTGTTACCTGGCGTGGAGACGCATGGATTGATGTGGTAAACCCTGCTACAGAGGCTGTCATTTCCCG -CATACCCGATGGTCAGGCCGAGGATGCCCGTAAGGCAATCGATGCAGCAGAACGTGCACAACCAGAATGG -GAAGCGTTGCCTGCTATTGAACGCGCCAGTTGGTTGCGCAAAATCTCCGCCGGGATCCGCGAACGCGCCA -GTGAAATCAGTGCGCTGATTGTTGAAGAAGGGGGCAAGATCCAGCAGCTGGCTGAAGTCGAAGTGGCTTT -TACTGCCGACTATATCGATTACATGGCGGAGTGGGCACGGCGTTACGAGGGCGAGATTATTCAAAGCGAT -CGTCCAGGAGAAAATATTCTTTTGTTTAAACGTGCGCTTGGTGTGACTACCGGCATTCTGCCGTGGAACT -TCCCGTTCTTCCTCATTGCCCGCAAAATGGCTCCCGCTCTTTTGACCGGTAATACCATCGTCATTAAACC -TAGTGAATTTACGCCAAACAATGCGATTGCATTCGCCAAAATCGTCGATGAAATAGGCCTTCCGCGCGGC -GTGTTTAACCTTGTACTGGGGCGTGGTGAAACCGTTGGGCAAGAACTGGCGGGTAACCCAAAGGTCGCAA -TGGTCAGTATGACAGGCAGCGTCTCTGCAGGTGAGAAGATCATGGCGACTGCGGCGAAAAACATCACCAA -AGTGTGTCTGGAATTGGGGGGTAAAGCACCAGCTATCGTAATGGACGATGCCGATCTTGAACTGGCAGTC -AAAGCCATCGTTGATTCACGCGTCATTAATAGTGGGCAAGTGTGTAACTGTGCAGAACGTGTTTATGTAC -AGAAAGGCATTTATGATCAGTTCGTCAATCGGCTGGGTGAAGCGATGCAGGCGGTTCAATTTGGTAACCC -CGCTGAACGCAACGACATTGCGATGGGGCCGTTGATTAACGCCGCGGCGCTGGAAAGGGTCGAGCAAAAA -GTGGCGCGCGCAGTAGAAGAAGGGGCGAGAGTGGCGTTCGGTGGCAAAGCGGTAGAGGGGAAAGGATATT -ATTATCCGCCGACATTGCTGCTGGATGTTCGCCAGGAAATGTCGATTATGCATGAGGAAACCTTTGGCCC -GGTGCTGCCAGTTGTCGCATTTGACACGCTGGAAGATGCTATCTCAATGGCTAATGACAGTGATTACGGC -CTGACCTCATCAATCTATACCCAAAATCTGAACGTCGCGATGAAAGCCATTAAAGGGCTGAAGTTTGGTG -AAACTTACATCAACCGTGAAAACTTCGAAGCTATGCAAGGCTTCCACGCCGGATGGCGTAAATCCGGTAT -TGGCGGCGCAGATGGTAAACATGGCTTGCATGAATATCTGCAGACCCAGGTGGTTTATTTACAGTCTTAA -TGAGTGAAAGAGGCGGAGGTTTTTTCCTCCGCCTGTGCGCGTCAGAGTTTAGCGAATTTTTCGAGGGTGC -GAATAAGCTGTGTGACGAAGCCATATTCGTTATCGTACCAGGCGACCGTTTTCACCAGTTGTAAATCGCC -CACGGCGGTAATTTCCGTTTGCGTGGCATCAAACACCGAACCGAAATGGCTGCCAATGATATCGGAAGAG -ACTATTTCTTCATCGGTATAACCAAATGACTCGTTATTGGTGGTTGCTTGTTTAAGTGCGTTATTCACCT -CTTCGGCAGTCACTTTTTTCCGAGAATCGATACCAGTTCAGTGACCGAACCTGTTTTCACCGGCACGCGT -TGCGCATGACCTTTCAGTTTGCCGCTCAGTTCCGGGATCACCAGACCAATGGCTTTTGCCGCCCCCGTAG -TGTGGGGAATGATATTTTCTGCCGCTGCGCGTGAAGCACGTAAATCTTTACCACGCGGGCCATCCACCAG -TGACTGGGTGCCAGTATAGGCATGAATGGTCGTCATCGTGCCGACTTCTATCCCGAAACTGTCATGCAAG -GCTTTGGCCATCGGCGCAAGACAGTTAGTGGTGCATGACGCCACGGAAACAATGGTGTCGTTGCCATCCA -GAGTGTCGTCATTGACGTTATAAACGATAGTTTTCATTTCACCGGCAGGGGCGGAAATCAACACCTTCTT -CGCACCAGCATCAAGATGCGCCTGCGATTTCTCGGCGGAGGTATAAAAGCCAGTACATTCGACAATGATT -TCTGCACCTTTCGCTTTCCACGGAATATTTTTAGCCTCTTTTTCGGCGTAAACCGCGATACTTTTCCCAT -CAACGATAAGTGAATCTTCCGTAAAATCAACGCTCCAGGGGAATGGTCCGTAGTTTGAATCATGTTTCAG -CAGGTAGGCGAGAATTTATGGGGAAGTGAGATCATTAATAGCGACAACGTCTATGTTGCTTTTGACTTCA -AGTAATCGACCCAACACCAGTCGACCGATACGACCAAAACCGTTAATACCAACTTTACTCATGGTTTTCT -CCTGTCAGGAACGTTCGGATGAAAATTGATCCTTTCCAAGCTTAGACCAGGATGGCGGGATGGGCAATCT -CCATTCTCACAGTGAAACGTAACGTACTGAAAACGGGTGAACAATATTTAATGAAATTTTGAGAAAAGCC -CGTTATGTTAACGGAAAATTATGTTAAAGCAGGAAATGTTATGGAAAATAAATATTCAAGGTTACAAATC -AGCATTCACTGGCTGGTCTTTTTACTGGTTATCGCAGCGTATTGCGCAATGGAGTTTCGTGGTTTCTTCC -CACGTAGCGATCGGCCACTCATCAACATGATTCATGTTTCCTGTGGCATCTCAATTCTCGTGCTGATGGT -CGTTCGTCTTTTGTTAAGGCTGAAATACCCAACCCCGCCGATTATACCTAAGCCAAAACCGATGATGACG -GGACTGGCGCATTTGGGACATTTGGTGATTTATCTCCTGTTTATTGCGCTGCCAGTGATTGGTTTGGTGA -TGATGTATAACCGGGGCAACCCGTGGTTTGCGTTTGGTTTGACGATGCCTTACGCTTCAGAGGCCAATTT -CGAACGGGTAGATAGCTTAAAGTCGTGGCATGAAACGCTGGCGAATCTGGGATATTTTGTCATCGGGTTG -CACGCTGCGGCTGCACTGGCACACCACTATTTCTGGAAGGACAACACACTTCTACGCATGATGCCGCGTA -AACGTTCCTGAAGGATATTTAAAGAAAACGCCTGTACTAAAACCGACCCGTGGTACAGGCGAAGAATACG -GGTCTACATCGGAAGCGCCTATTATATTTATTTGTATGATAAATAAAACCATAATCCTTGCCCATACGTC -CATCTGGCTTATTTTTAATCAATTCACCCGATCTTTGATCTCATCAACGGTATCAAAATAAACCAGCGTA -TAACGTTCAAATCGAACATAAGATTCGATAAACCATGGAGGTTATATGAAAAAACTGGCACTTATTTTGT -TTATGGGAACGCTTGTTTCCTTTTATGCCGATGCCGGGCGCAAACCCTGTTCTGGTTCGAAAGGGGGGAT -CTCACACTGTACGGCAGGCGGCAAATTTGTCTGTAATGATGGTTCTATTAGTGCATCGAAAAAAACATGC -ACTAACTGAAGTGTAAAAGGGGTGCCATGAGAAAATGAATCTGCTAGTCAAATGCGCGGGGAAAATCCCC -GCGCTTGCCCTTACCTGGACGTGCAGGCCATGAGCGCAGCAACCTCCTTATCACCGTCCCGGAACCGCAG -TTCGTAGAGCGTTTGTCGGGTCAGGAGTGTGAATGTCAGAATCGTAATGCAGATAATGAGCAGACACACC -ACCAGAGGGTTGTGCTTCATAGCCTTTCTCCTTGCCGGATGGCGGGTAAGAGGCTAAGATCTGAATTGCT -AGGTTCATTCGTTGGCCTCGGTTGATAGAAATATCGGTCGGGGCCTTCGTCTTTCTGATTCCCGGTTAGC -CTGAAAACAGAAAGTCTCAGGCACCCGCAGGCATCCTATGAGGTTTCCTTAGGGACGAAAATAATCACTT -CACGAAATTGCGTGCTGTTTTCCAGAATTTTTCGTCATTCGGGTTAGCCAGTTTAGCCATTCGTTACTCT -CTTCATTCCAATAGCATTAATTTTCTATGCAATAATTGTTGTAAAAATGTGACGCAAAGAGGTTTTTGGT -CATAAGTAATTACCGTCAAGTGCCGATGACTTTCTATCAGGAGTAAACCTGGACGAGAGACAACGGTAAT -GAATACAACTCCCTCACAGCGATTAGGTTTTTTGCATCACATCAGGTTGGTTCCGTTATTTGCCTGCATT -CTAGGCGGTATCTTAGTTCTATTCGCATTAAGTTCAGCCCTGGCTGGCTATTTCCTCTGGCAGGCCGATC -GCGATCAGCGTGATGTTACTGCGGAGATTGAGATTCGGACCGGGTTAGCGAACAGTTCAGATTTTTTGCG -TTCAGCCCGGATCAATATGATTCAGGCCGGGGCTGCGAGTCGTATTGCGGAAATGGAAGCAATGAAGCGA -AATATTGCGCAAGCCGAATCGGAGATTAAACAGTCGCAGCAAGGTTATCGTGCTTATCAGAATCGACCGG -TGAAAACACCTGCTGATGAAGCCCTCGACACTGAATTAAATCAACGCTTTCAGGCTTATATCACGGGTAT -GCAACCTATGTTGAAATATGCCAAAAATGGCATGTTTGAAGCGATTATCAATCATGAAAGTGAGCAGATC -CGACCGCTGGATAATGCTTATACCGATATTTTGAACAAAGCCGTTAAGATACGTAGCACCAGAGCCAACC -AACTGGCGGAACTGGCCCATCAGCGCACCCGCCTGGGTGGGATGTTCATGATTGGCGCGTTTGTGCTTGC -CCTGGTCATGACGCTGATAACATTTATGGTGCTACGTCGGATCGTCATTCGTCCACTGCAACATGCCGCA -CAACGGATTGAAAAAATCGCCAGTGGCGATCTGACGATGAATGATGAACCGGCGGGTCGTAATGAAATCG -GTCGCTTAAGTCGTCATTTACAGCAAATGCAGCATTCACTGGGGATGACAGTAGGGACTGTTCGACAGGG -CGCGGAAGAGATTTATCGTGGCACCAGCGAAATTTCAGCTGGCAATGCGGACCTGTCATCTCGCACCGAA -GAACAAGCGGCGGCTATCGAACAAACTGCCGCCAGCATGGAGCAACTCACTGCGACGGTGAAACAGAATG -CGGATAACGCGCATCATGCCAGCAAACTGGCGCAAGAGGCTTCTATTAAAGCCAGCGATGGCGGGCAGAC -GGTTTCCGGTGTAGTAAAAACGATGGGCGCTATCTCCACGAGTTCGAAGAAAATTTCTGAGATCACCGCC -GTCATCAACAGTATTGCTTTCCAGACGAATATTCTGGCACTGAATGCTGCCGTTGAAGCCGCGCGAGCGG -GTGAGCAAGGGCGTGGATTTGCCGTTGTCGCCAGCGAAGTACGGACACTCGCAAGTCGCAGCGCTCAGGC -GGCGAAAGAGATTGAAGGCTTGATCAGTGAATCAGTCAGGTTAATTGACCTGGGGTCGGATGAGGTGGCA -ACGGCCGGGAAAACCATGAGCACTATTGTTGATGCCGTCGCGAGTGTCACACATATCATGCAGGAAATCG -CCGCCGCCTCGGATGAACAAAGTAGAGGCATAACGCAGGTTAGCCAGGCGATTTCTGAAATGGATAAGGT -GACGCAACAGAATGCTTCTCTGGTAGAAGAGGCCTCAGCGGCGGCGGTGTCCCTTGAAGAACAGGCGGCA -CGATTAACTGAGGCGGTGGATGTATTCCGTCTGCACAAACATTCTGTGTCGGCAGAACCTCGCGGAGCGG -GTGAACCAGTTAGTTTCGCTACGGTGTGAAAATGTTCAAGGAGGGATCGACAGATCCCTTCACCTTTCAG -AACGGCATTGATTTTCGAATAGCGTTAATCATCAACTGGCAACCAGAAGAGAACGTCGCATCTACGCGGG -TCAGTATTCCAATCGGTTCGCCTGCACCATGTCCCGGAACAGGCAGGGCCACCAGCGTGGCATGACGCAG -GTCGTCTTTTACAGCGCCAGAAGGGACAAACCACACGTAATCGTATTCAACCGTAAGTTGACGAGATAGC -GAAGCAGACAGCGTTTCGATACAACCCGAAGGAATTTTACAGCCCTGGCTCTGCACTAATGCATCTGAAT -GCTGGCGTGGCGCAGTGCCTTCTGGTGATACAACGACCGGCCATTCCAGCACCCGGCTTAGCGTTACGTT -CTCCTGAAGTAGCGGGTGATTAGGGCGGACAACCAGCTTCAACGATTCAAGAAACAGCAGTTCGTAATTA -AGCCCGGTCATCAGTTCAGGATCTGACATCCGACCAATGCCGATATCGATTTCCCCGGTTTTTAAACCCG -CCAGAATCATAGGGTTACTCATTGTCGCAACTTGCAAGGTCGTCTCTTTTTGTTGCTGATGAAACTGACC -TATAACCGAAGGTAATATCCCCAGTGCCGCAGTAGGTAGTGCACCAACCCTGACGACATCATTATTAAGA -CCTTCTTTACGATGAAGCGACCGTCCGGCAGTGTTGATGGCGTCAAGAACTCTGACTGCATGCGTTAAAA -ATTGTTCGCCGGGTAAGGTAAGTTGCGCCCCCTGACGACCACGCTCAAACAAGCGAGCGCCAGTCAGCTG -CTCCAGTTCATTCAATGTCTTAGAGAGCGCAGGTTGACTCAAATTAAGGGTTTCAGCCGCGCGCCCCAAA -GTTCCTTGTTGTGCGACAGCTACGAATGTATGAAGGTGGCGCAAACGGATGCGCTGACTAAACAGACTAT -TTTTTTCCATAAGCGATGTTAAAAACGAAGCGGTGTCGCTGACAAGTGAAGTTGTTTGATTATGATAACT -TGATTGCAAAATATTATTAACAATTAAAGCAATTATGTTACAGCAAAATGGATAATATTGATGTTTTCGC -GGCGAGATCACAGTTTGTAAATTCTTCCCGCAAGAGTGAATGCGGTTACCTACACTCCAGATTACTGACC -ACTGGAGGCAGACACTATGGCGAACAGCATCACGGCGGATGAGATTCGGGAACAGTTTTCGCAGGCAATG -TCAGCCATGTACCAGCAAGAAGTTCCGCAATATGGCACGCTGCTGGAACTGGTAGCTGATGTGAATCTGG -CTGTGCTGGAAAACAATCCTCAACTGCACGAAAAAATGGTAAATGCAGACGAGCTGGCGCGACTGAATGT -TGAACGTCATGGGGCGATTCGCGTTGGGACTGCACAAGAGCTTGCTACTCTTCGGCGGATGTTTGCCATT -ATGGGGATGTACCCGGTGAGCTATTACGATCTCTCGCAGGCAGGGGTGCCGGTACATTCGACAGCATTTC -GGCCCATTGATGATGCTTCTCTGGCGCGTAATCCCTTCCGCGTTTTTACCTCCTTACTCCGCCTTGAGCT -TATCGAGAACGAAATTTTGCGCCAGAAAGCGGCGGAGATTCTGCGTCAGCGCGATATCTTCACCCCACGT -TGTCGACAACTGTTAGAGGAATATGAGCAGCAGGGCGGTTTTAACGAAACACAGGCACAGGAGTTTGTGC -AGGAAGCCCTGGAAACGTTTCGCTGGCACCAGTCAGCAACGGTAGATGAAGAAACCTATCGCGCATTGCA -CAACGAACATCGGTTGATTGCTGATGTGGTCTGTTTTCCTGGATGCCATATCAACCACCTGACGCCACGT -ACGCTGGATATTGACCGGGTGCAGTCGATGATGCCTGAATGCGGAATTGAACCCAAAATTCTCATCGAGG -GGCCGCCGCGCCGCGAGGTACCGATTTTACTACGCCAGACCAGCTTTAAAGCACTGGAAGAGACGGTGTT -GTTTGCGGGGCAGAAACAGGGCACGCATACCGCGCGCTTTGGTGAAATTGAGCAGCGTGGCGTGGCATTA -ACGCCGAAAGGGCGACAACTGTATGATGATCTTCTGCGTAACGCTGGAACCGGGCAGGATAATCTCACTC -ACCAAATGCATTTACAGGAAACCTTCCGCACTTTTCCTGACAGTGAGTTTTTAATGCGTCAGCAAGGGTT -GGCATGGTTCCGGTACCGTCTGACGCCTTCGGGTGAGGCGCATCGTCAGGCGATTCATCCTGGAGACGAT -CCACAGCCCTTAATTGAACGTGGTTGGGTAGTGGCGCAACCCATCACCTATGAAGATTTCTTGCCCGTTA -GCGCGGCGGGGATCTTCCAGTCAAATCTGGGTAATGAAACGCAGACACGCAGTCACGGTAATGCCAGTCG -CGAAGCATTTGAGCAGGCGTTGGGTTGTCCGGTTTTGGATGAGTTCCAGCTTTACCAGGAAGCGGAAGAA -CGCAGTAAACGTCGCTGTGGTTTGCTTTAAAATCTGACCATCCGCCTTTGCAAAAATTTGCCTGATTTTA -CAAACGAATCAGGCTCATCCCATCGACATAAAAAAAATGCCGATTTATGCATATTCTCTCAGTTCAACAA -TTGGATTATTAATAAATATTGTCTAGAGTGAGCGGTCATAAATAAGCACTTTCTTGCCGCTGAAAACGAC -CAGCGCGGGACCATTCACAACACCAGAAGGACTCACTTTCAGGTATGGATCGTAGACGATTTATTAAAGG -TTCAATGGCTATGGCCGCCGTGTGCGGTACCAGCGGCATTGCTTCTCTTTTTTCTCAGGCGGCATTCGCG -GCAGATTCTGATATTGCCGACGGGCAAACCCAGCGTTTTGACTTCTCCATTCTACAGTCAATGGCGCACG -ACTTAGCGCAAACAGCGTGGCGTGGTGCGCCTCGTCCGTTACCTGACACGCTGGCGACAATGACGCCGCA -GGCTTATAACAGTATTCAATACGACGCCGAAAAATCGCTCTGGCATAACGTTGAGAACCGTCAACTGGAC -GCTCAGTTCTTCCATATGGGAATGGGATTCCGTCGCCGCGTTCGTATGTTTTCTGTAGATCCAGCAACAC -ATCTGGCGCGTGAAATTCACTTTCGCCCGGAGTTGTTCAAATACAACGATGCAGGTGTTGATACAAAACA -ATTAGAAGGGCAAAGCGATCTCGGCTTTGCCGGTTTTCGCGTGTTTAAAGCCCCCGAACTGGCGCGCCGT -GATGTAGTATCATTTCTCGGCGCGAGTTATTTCCGCGCCGTTGATGATACATATCAATACGGTTTGTCGG -CCCGCGGCCTGGCGATCGACACTTACACCGACAGTAAAGAAGAGTTCCCCGACTTTACCGCCTTCTGGTT -TGATACGGTAAAACCGGGGGCAACTACCTTTACCGTTTATGCGTTGCTCGATAGCGCCAGCATTACTGGT -GCCTATAAGTTCACTATCCATTGTGAGAAAAGTCAGGTGATTATGGATGTGGAAAATCACCTGTATGCGC -GCAAAGACATTAAACAGCTGGGCATTGCGCCGATGACCAGTATGTTCAGCTGCGGTACTAATGAACGTCG -GATGTGCGATACAATTCATCCGCAAATTCATGACTCTGATCGTCTGTCCATGTGGCGGGGCAACGGCGAG -TGGATTTGCCGTCCGCTGAATAATCCGCAAAAATTGCAGTTCAATGCTTACACCGACAACAACCCGAAAG -GGTTTGGTTTATTGCAACTGGATCGTGACTTCTCCCATTATCAGGACATTATGGGCTGGTATAACAAACG -CCCAAGTCTGTGGGTGGAACCGCGTAACAAGTGGGGTAAGGGCACCATCGGCCTGATGGAAATCCCAACA -ACGGGCGAAACGCTGGATAACATTGTCTGCTTCTGGCAGCCAGAAAAAGCTGTAAAAGCAGGTGATGAGT -TTGCATTCCAGTATCGTCTGTACTGGAGTGCGCAACCGCCTGTTCATTGCCCATTAGCGCGCGTTATGGC -GACGCGTACCGGCATGGGCGGTTTCTCGGAAGGTTGGGCGCCAGGTGAACACTATCCCGAAAAATGGGCG -CGTCGTTTTGCCGTCGATTTCGTTGGTGGTGATCTGAAAGCTGCCGCGCCAAAAGGCATTGAGCCGGTGA -TTACGCTTTCCAGTGGGGAAGCGAAGCAAATCGAAATTCTCTATATTGAACCCATCGATGGTTATCGTAT -TCAGTTTGACTGGTATCCGACTTCGGACTCCACTGATCCGGTCGATATGCGGATGTATCTACGTTGTCAG -GGGGACGCTATCAGTGAAACATGGCTGTATCAGTATTTCCCGCCAGCGCCGGATAAACGTCAGTATGTTG -ACGACCGCGTGATGAGTTAATCGTTTTTTCTTCGGCACCTTCTTCGGGAGGTGCCGTCTGGTTAAACACG -ATCCCGCTCGCATTTTTCCCTAAGTTAAATGAGTAATCTGATGGTGTGTATTTCAGATACACCTTGTCAG -CCACTAACAGGGAGTGCGTATGTTTCCAGAATACCGAGATTTAATATCCCGTCTGAAAAACGAAAATCCT -CGCTTTATGTCCTTGTTCGATAAACACAATAAACTTGATCATGAAATTGCCAGAAAGGAAGGTTCCGACG -GTCGAGGGTACAATGCGGAAGTGGTCCGCATGAAAAAACAAAAGCTACAGTTAAAAGATGAGATGCTCAA -AATCCTGCAGCAGGAGAGCGTCAAAGAGGTGTAAACTTTCCTAAGCCGCCAGCCAGGCGGCTTTTTTAAC -AACTGCATGGATTGACTGGAGATAAGATGACTGAAACGATAAAAGTAAGCGAATCACTTGAATTACATGC -TGTTGCAGAAAATCACGTCAAACCTCTTTATCAGTTAATCTGTAAAAATAAAACCTGGTTACAGCAGTCG -CTAAACTGGCCGCAGTTTGTTCAAAGTGAAGAGGACACGCGAAAAACGGTGCAGGGTAATGTGATGTTGC -ATCAACGCGGCTATGCCAAAATGTTCATGATTTTCAAAGAAGATGAACTTATCGGCGTTATCTCGTTTAA -TCGTATTGAACCACTGAATAAAACCGCTGAAATAGGCTACTGGCTGGACGAATCTCATCAGGGGCAGGGG -ATCATTTCTCAGGCGCTGCAGGCATTGATTCATCATTACGCCCAGTCTGGTGAACTTAGACGCTTCGTGA -TCAAATGTCGGGTGGACAATCCGCAAAGCAACCAGGTCGCTTTGCGCAATGGTTTTATCCTTGAAGGTTG -CCTGAAACAGGCTGAGTTCCTGAATGATGCCTATGATGATGTGAACTTATACGCGCGTATTATCGATTCA -CAATAACCCTGCCAGCGGCGTTCGCGTAATGCGCTCCTCGCCGTTAATGACTTTTGGACCACGGACATGA -ACCGTGTCGCCATCAAAGGCTTCAACGACGGCGTGGTCGGTTAACTCCACATGGTTTTCAATTATCACCG -CACCTGTAATACGGCTCTCACCTTGTATGACAACGTGCTCGTCGAGCAGAATCGGTCCGCCACGTACCAC -GGCATTTCCGCCAACCAAGACATGATGTTTTAACACACAATTACCTTCCACAATGGCATATTCCGCCACC -TGCGAACTGTAATGAATCGTCGGAATGGCATCTTCTTCTATGCCAGCTTTCACCTGCGCGTGACCGTAGA -CTTTAGCGCAATCGCATAGCCAGACATTGTTCTCTTCATTACCTTCAATACTGGCAAAATCAAAAACTTC -GGCGCGATGTTCAATAAAAGCATACCGGACGACGGCATCGCCATAAATTTGTGCCTGGTGGACAATACGC -GAGGCGCTAACCCTTGCGCGATCATAAATTTGGAGCAGGAGTTGATGGTCGGGCGTTAAGCCTTGTGCGG -CGACGATCATAGAATGTTGATCAATTAAGGCGTGACCAAATATTCTACATTGCCCGTAAACTAATGAGTC -ATGAATGGTGACGCTGTCACTTATATATGCACCCTGGCTGATTTCACTATTATCGATCCAGACGTTATCC -GTTGCGTAAACCTCTCCCCACAGCACGCTGGTGCCGGTGATACGCGTATTACCGGAAATCACCGCTCCGC -CGAACGCAATAGCATTCTGGTCGTAAATCCAGCAATTTCCTTCTTGTGCTAACACCGTTTCGCGATCGAT -CCAGCCGCCAGCGGTTCCTGCTATCACATCGTTAAAATCGCTAATGGCGATAATCTGCCGTAATAACACA -TTTTTTTTAGTGCCATCTTCCTGATAACTAAAGGCTCGCTGTTCTTCACTTAGACGATATTTGCGCATAG -CGTTTTCCCACAGGTGACTTACTATAACCGTAGCAAATTCTGCGGCTCTGGCTATGCTCGAGAAAATTCC -ATAAAATGCATTTCAAATATACTTTATAAATTAAACAAAATGAGTAAGAAGATGCAGAGCGATAAAGTGC -TCAATTTGCCGGCAGGCTACTTTGGTATTGTGTTGGGGACGATAGGGATGGGATTTGCCTGGCGCTATGC -CAGCCAGGTTTGGCAGGTCAGCCACTGGTTAGGGGATGGGCTGGTGATTCTGGCGATGATCATCTGGGGA -TTATTGACTAGCGCATTTATTGCCCGACTCATACGCTTTCCGCATAGCGTGCTGGCGGAAGTTCGCCATC -CAGTGCTGAGCAGTTTTGTGAGTTTGTTTCCGGCAACGACGATGCTGGTGGCGATTGGTTTTGTTCCGTG -GTTTCGCCCACTGGCGGTGTGCCTGTTCAGTTTTGGTGTCGTGGTTCAGTTGGCTTATGCCGCCTGGCAA -ACTGCGGGATTATGGCGCGGATCTCACCCTGAAGAAGCTACCACGCCTGGACTGTATCTGCCGACAGTTG -CCAACAACTTTATCAGCGCAATGGCCTGTGGTGCGTTGGGCTACACCGACGCCGGTCTGGTGTTTTTAGG -CGCAGGCGTTTTCTCATGGCTAAGCCTTGAACCGGTGATCTTGCAGCGTCTGCGCAGTTCGGGAGAATTA -CCCACGGCACTGCGGACATCACTCGGCATTCAGCTCGCTCCTGCGCTGGTGGCTTGTAGTGCCTGGCTGA -GCGTCAACGGCGGCGAGGGTGACACGCTGGCGAAAATGCTTTTCGGTTATGGACTGCTGCAACTGCTGTT -TATGCTACGTCTGATGCCATGGTATCTCTCCCAGCCATTTAATGCTTCATTCTGGAGTTTCTCGTTCGGC -GTATCTGCACTGGCAACCACCGGTTTGCATCTGGGGAGTGGCAGCGATAATGGATTTTTCCATACGCTGG -CGGTGCCGCTGTTTATCTTTACCAATTTTATTATTGCAATACTGCTCATCCGTACTTTTGCGCTTCTGAT -GCAGGGAAAATTGTTAGTCAGAACCGAGCGCGCCGTTTTAATGAAAGCAGAGGACAAAGAATGATCATTC -GTGACGAAAACTATTTTACTGATAAATATGAATTAACCCGCACACACTCTGAAGTACTGGAAGCGGTGAA -AGTGGTTAAACCGGGTAAAACGCTGGATCTGGGCTGTGGCAATGGTCGTAACAGTCTTTACCTGGCAGCC -AATGGTTATGATGTTGACGCATGGGATAAAAATGCCATGAGTATCGCCAACGTCGAGCGCATTAAATCCA -TTGAAAATCTGGATAATTTACACACCCGAGTCGTTGATCTGAATAACCTCACATTTGATAGACAGTACGA -TTTTATTCTTTCGACTGTGGTGCTGATGTTCCTTGAGGCTAAAACCATCCCCGGGTTGATTGCCAATATG -CAACGTTGCACTAAACCTGGTGGTTACAACCTGATTGTGGCGGCGATGGATACCGCTGATTATCCATGTA -CCGTCGGCTTCCCGTTTGCCTTCAAAGAGGGAGAATTACGTCGATATTACGAAGGCTGGGAGAGGGTGAA -ATACAATGAAGACGTCGGCGAGCTGCACCGCACCGACGCCAACGGTAATCGTATTAAACTGCGTTTCGCC -ACGATGCTGGCACGTAAAAAATGACCCGGTAAGCACAAAACGCGTGAAAATTCCCCACGCTGAGATGATT -TACTGTTCTTCTTTTCGGTAAGCATATTTTTTATCGAAGGGATGTGAAATTAATCACAGTAGTCGAAGTT -TTTAGCAGCTTAACTTACTGAAATTTAAGTACTGATGATTGACTTAGCCCCTTTTTCGGCATTGACTATG -TCGTCTGAAAAGGGGCTGAAAAATTTATTTTCACCAACACTTTTTTTGCCACAACACGAAGCGGCGCTTT -TTGCTATAACTTAGAAAGTAATATAATCATCTCAGGAAACTATTCATGCGTACCACATCATTTGCGAAAG -TTGCAGCTTTATGCGGCTTATTGGCTCTGTCTGGTTGTGCATCTAAAATCACCCAGCCAGATAAATATTC -TGGTTTTTTAAACAATTACTCTGATTTAAAAGAAACAACCTCGGCTACAGGTAAACCTGTTTTACGTTGG -GTAGACCCGAGTTTTGATCAAAGCAAATATGACAGCATCGTCTGGAACCCAATCACTTATTATCCGGTAC -CGAAACCGTCGACCCAGGTAGGGCAGAAAGTTCTGGATAAAATTTTGAACTATACCAACACCGAAATGAA -AGAAGCGATAGCGCAGCGTAAACCACTGGTTACCACCGCTGGGCCGCGTAGTCTGATTTTCCGTGGGGCC -ATTACCGGTGTAGATACCAGCAAAGAAGGGCTGCAATTCTATGAAGTGGTTCCTGTTGCATTAGTGGTTG -CGGGGACGCAAATGGCTACAGGCCACCGTACCATGGATACTCGCCTCTATTTTGAAGGTGAGCTGATTGA -TGCAGCGACTAATAAACCGGTTATCAAAGTCGTTCGTCAGGGCGAAGGTAAAGACCTGAATAACGAAAGT -ACGCCAATGGCTTTCGAAAATATTAAACAAGTTATTGATGACATGGCGACCGATGCCACCATGTTTGACG -TTAACAAAAAGTAGTTCCAGACGCGCCATCGTTAGATGGCGCTTTTTATCCGGTGCGCCGTAAAACCCCA -TCCTTCAGGGCGGGGATATAAGGCGCGGTTTTCCACCTGACCAGGTGTTTGCTGTTGTTCAATGTATTGG -CGGATGACGGATATTGGCGCACCTCCGCAGCTACTGGCAAAATAGCCAGGACTCCACAAAACGCCTTTGT -AGTAATACCTGAATGCAATATCTGGTCGATCTCGTCGCAGTCACCTACCCGATACGCCTTTGAGGCTGTT -TACCAGACTGGATATCGCCAGTTTGGGAGGATAGTTAATTAACAAATGGACGTGATCTGGTTCGCCATCC -ATTTCAACCAGTTCAGCTTCAAAATCAGCACATACATTTGAAAAGTAAGTGCGTAGTTTTTCTGTCGCGT -CATGGTCAAAAATCTGGCGTCGGTATCTGGTGACAAAGAGCAGGTGAACATGCATCAGGAAAACACAATG -CCTTCCACGCCGGATATCGGTTTCTTTTTTCACAGACCAAAGTATCATTTGACCTGTGAAACGATTACAG -GCATTTAAATTCCAGTTAAGACCCGGTGGTCAACAGGAGTGTGAAATGAGGCGCTTCGCAGGCGCATGTC -GTTTCGTTTTCAATCGTGCTCTGGCACGTCAGAATGAGAATCATGAGGCCGGTAATAAATACATCCCTTA -CGGGAAAATGGCTTCCTGGCTGGTTGAGTGGAAAAATGCCACTGAAACGCAATGGCTTAAAGATTCTCCC -TCACAGCCATTGCAACAGTCACTGAAAGACCTTGAGCGGGCTTACAAAAACTTCTTCCGGAAGCGGGCTG -CTTTTCCCCGATTCAAAAAGCGGGGACAGAATGATGCATTCCGCTACCCGCAGGGCGTTAAGCTCGATCA -GGAAAACAGCCGTATTTTTCTGCCGAAACTGGGCTGGATGCGCTACCGGAACAGCCGTCAGGTCACGGGT -GTTGTGAAAAATGTCACTGTCAGCCAGTCCTGCGGTAAGTGGTACATCAGTATTCAGACAGAAAGTGAAG -TATCAACTCCGGTTCACCCTTCAGCATCAATGGTCGGGCTGGATGCTGGCGTGGCTAAACTCGCCACGCT -GTCAGATGGCACAGTCTTTGAGCCTGTAAACAGTTTTCAGAAAAACCAGAAGAAGCTGGCGAGACTTCAG -CGACAGTTAAGCCGCAAGGTCAAATTCAGCAACAACTGGCAAAAGCAGAAACGCAAAATACAGCGACTGC -ATTCCTGTATCGCAAATATCCGCAGGGACTACCTTCACAAAGTCACAACGGCCGTCAGCAAAAACCACGC -AATGATAGTCATTGAGGATTTGAAGGTCAGCAACATGTCAAAGTCAGCAGCGGGTACGGTCAGCCAGCCG -GGGCGCAATGTCCGGGCAAAATCAGGTTTAAACCGTTCGATACTGGATCAGGGCTGGTATGAAATGCGCC -GCCAGCTTGCGTATAAGCAGCTCTGGCGTGGCGGTCAGGTGCTTGCTGTTCCGCCAGCGTATACAAGCCA -GCGTTGCGCGTACTGTGGTCATACAGCGAAAGAGAACCGCCTGTCACAAAGTAAATTCAGATGCCAGGTA -TGTGGATATACAGCGAACGCCGATGTAAATGGCGCTCGCAACATTTTAGCGGCGGGGCACGCCGTTCTTG -CCTGTGGAGAGATGGTGCAGTCAGGCCGCCCGTTGAAGCAGGAACCCACCGAAATGATTCAGGCGACAGC -CTGAACGTAGCAGGGATCCACGTCCTTCAGGGCGTGGAGGATGTCAATATCGGTTTCTGTCAGCGATTAA -ATTCAACACCACGTAACAAACGCCTCCGGCAATTAATCCCCAAAACGCAGAACCAATCCCGACCAGCGTC -AATCCACTTGCCGTTACCAGAAATGCCACCACCGCCGCGTCTCGCTCACGCTCATTATGCAGCGCCTGAT -ACAAACTGCCGCCGATGGTACTTAACAGCGCCAGACCTGCCAGCATCTGGATCCAACTTACGGGCAGGGC -AGCCATCATCCCGGTAATGGCACTACCAAACAGACCTGCGAGCAAATAGAAAATGCCTGCAACGGCAGCG -GCCAGCCAACGTTGATCTTTATCCGGATGCGCTTCCGGGCTTTGGCAAATAGCCGCGGTGATTGCCGCAA -TACCGACGGAATAAACGCCGAAAGGGGAAAAAACCAGTGCCAGCAATCCAGTAAATACAATTAATGGCGA -AACAGGAGCCGAATATCCAGCTGCTTTCATTGCTGCGATACCCGGTGCGTTTTGCGATGCCATCGTCACC -AGAAAAAGGGGGAGTGCAACGCTCAGGCTGTGAGCAAACGAAAAATCAGGGGTAATATAAGTGGGGAGAA -CGGGTTTAAAGACAACATCAGTTGTGACAACGTCACCTTGCGCGATGACGATCACGATCCCAATAATCAT -CGCGGCAATTACCGCATAGCGCGGCGCAACGGCCTTGGTTGCCAGCCATACCAGCAACATACTTCCACAC -AACGTAAATTGACCGTCCAGACTGGCAAACGCCTGTAAACCAAAGCGTAATAAAATCCCGGCAAGCATTG -CCGCCGCAAGCGAGTGCGGAATAATGCGCATCAGACGAGCAAAGAGTCCCGTTATGCCGCAGAGGACTAT -TAGCGCGTTGGTGACAATAAAAACGCCGATGGCTTCGTTAAGTGTTAGTCCCTGCAATCCGGTGACCAAC -AAAGCCGCGCCAGGCGTTGACCATGCGGTGAGAACAGGTACGCGATACCATAATGTCAGAGTCAGCGTAC -TGACGCCCATTGCCAGCCCCAGCGCCGTCATCCAGCCAGAGATTTGTGCAGTGGTGGCTCCGGCGACAAT -CGCTGCTTGCCAGATTATTGCCGCTGAACTGGCGTAGCCAATTAATACCGCCAGAAACCCCGCCAGTAGC -GTGGGTGGAGGAATAGAAAACAGACGCATAGTCACCTCGTGCGTTATAGCGTACAGGCACCGTAGCATTT -GTCCGTTATAACGCACAAGTGATAAACTTCCGTTTTGCCGGAGGAGTCGCATGGAAAATCTCGCTCGCTT -TTTATCCACCACACTTAAACAACTACGCCAGCAGCGCGGCTGGAGTCTTTCGCGACTGGCAGAAGCGACG -GGCGTTTCTAAAGCAATGTTAGGGCAGATTGAGCGTAATGAGTCCAGTCCGACGGTCGCGACATTATGGA -AAATTGCCACCGGGTTGAACGTACCATTTTCAACATTTATTTCTCCGCCGCAGTCCGCTACGCCTTCAGT -TTATGATCCACAACAGCAGGCGATGGTGATCACTTCGCTGTTTCCTTATGATCCACAACTCTGCTTTGAA -CACTTCTCGATTCAGATGGCATCTGGTGCAATAAGCGAATCGACGCCCCATGAGAAGGGGGTAATCGAAC -ATGTCGTCGTCATTGATGGACAACTTGATCTGTGCGTTGATGGGGAATGGCAGACCCTTAATTGTGGGGA -AGGCGTTCGATTTGCTGCAGACGTCACGCATATCTATCGTAATGGTGGGGAGCAAACCGTACATTTTCAT -TCCCTCATCCATTACCCGCGCAGTTAAGCGGGAAAACTATTTCGCAACGTCGCGCTTGTGGCTAAAATAG -CCGCCATTTTTCAGCTACTGGATAAGAATGTGACCGTATCTTCTCATCGACTTGAACTGTTAAGCCCGGC -ACGCGATGCCGCCATTGCCCGCGAAGCTATTTTGCACGGTGCCGATGCTGTTTATATCGGCGGCCCTGGT -TTTGGTGCCCGTCATAATGCCAGTAATAGCTTGAAAGATATTGCCGAGCTGGTGCCGTTTGCCCATCGTT -ATGGTGCAAAAATTTTCGTCACGCTTAACACCATTTTGCATGATGATGAGCTGGAACCCGCGCAACGGCT -GATTACTGACCTCTACCAGACCGGTGTCGATGCGCTGATTGTTCAGGATATGGGGATTCTGGAACTTGAT -ATTCCGCCGATTGAACTGCACGCCAGTACGCAGTGCGACATTCGTACAGTTGAAAAAGCGAAGTTCCTCT -CTGATGTTGGCTTCACGCAGATTGTGCTGGCGCGAGAGCTGAATCTTGATCAGATCCGCGCGATTCACCA -GGCTACGGACGCGACCATTGAATTCTTTATTCATGGGGCACTGTGCGTGGCCTATTCGGGTCAGTGCTAC -ATTTCTCATGCGCAAACAGGGCGTAGCGCCAACCGTGGCGATTGCTCGCAGGCGTGCCGTTTGCCATACA -CATTGAAAGACGATCAGGGGCGGGTGGTTTCCTATGAAAAACATCTGCTGTCGATGAAAGATAACGATCA -GACTGCCAACCTCGGCGCGCTGATTGATGCTGGTGTACGCTCCTTCAAGATTGAAGGGCGTTACAAAGAT -ATGAGCTACGTGAAGAATATCACCGCCCATTATCGCCAGATGCTTGATGCCATTATTGAAGAACGTGGCG -ATCTGGCGCGCGCTTCATCAGGTCGTACTGAACATTTCTTTGTTCCATCGACGGAAAAGACTTTCCACCG -TGGTAGCACAGATTATTTTGTGAATGCCCGTAAAGGCGATATTGGCGCGTTCGATTCGCCGAAATTTATC -GGCCTGCCGGTAGGCGAAGTAGTGAAAGTGGCGAAAGATCATCTCGATGTTGCCGTTACCGAGCCACTGG -CAAATGGCGATGGCCTGAACGTGTTGATTAAACGTGAAGTCGTCGGTTTTCGTGCCAATACGGTCGAGAA -AACCGGAGAAAATCAGTACCGCGTCTGGCCCAATGAAATGCCAGCAGATTTGCACAAAATTCGTCCACAT -CACCCACTAAACCGTAATCTTGATCATAACTGGCAGCAGGCACTGACAAAAACCTCCAGCGAACGTCGGG -TGGCGGTAGACATTGAACTGGGCGGCTGGCAGGAACAACTGATTCTGACCCTCACCAGTGAAGAGGGTGT -CAGCATCACGCATACGCTGGACGGGCAGTTCGACGAAGCCAATAACGCCGAAAAAGCAATGAACAATCTG -AAGGATGGTCTGGCAAAACTGGGGCAAACCCTCTATTACGCCCGCGATGTGCAAATTAATTTGCCGGGGG -CGCTGTTTGTACCAAACAGTCTGTTAAACCAGTTCCGCCGTGAAGCTGCTGACATGCTGGATGCTGCGCG -TCTTGCCAGTTACCAGCGCGGCAGCCGTAAACCGGTTGCTGATCCTGCGCCGGTTTATCCGCAAACGCAT -CTGAGTTTCCTCGCGAACGTATACAACCAGAAAGCGCGTGAATTTTATCATCGCTATGGTGTGCAGCTGA -TTGACGCGGCGTATGAAGCACATGAAGAGAAGGGCGAAGTCCCGGTGATGATCACCAAGCATTGTCTGCG -CTTTGCCTTTAATCTGTGCCCGAAACAGGCGAAAGGCAATATCAAAAGCTGGAAGGCGACGCCAATGCAA -CTGGTTAACGGCGATGAAGTATTAACGCTAAAGTTTGATTGCCGCCCATGCGAGATGCACGTCATTGGCA -AAATCAAAAATCACATACTGAAAATGCCGTTACCGGGAAGCGTAGTGGCATCCGTAAGTCCGGATGAGCT -GCTGAAAACATTGCCGAAGCGAAAAGGGTAAAACGCCAGTTTTCTGGTTACTCACAACTTATTGAATCTG -CATGATATTGCCTGCCGGGTAAGGCGTTACGCCGCATCCGGCATCAAATGACTCAACGTTGTCCCGCTTC -TGGTTTGCGCGATTTTTGCCAGTAAAAATGCTCGCGCAAACCTTCCGCCGACTCTTCCGCCACAGCACGC -AATTCATCGCTGTCCGCTTCATGACGCAGCTGATGATCCACATTCTTTACCCACACAAATTCATGTCCTT -TGTGCCCTGCCATGAGTTGTCCTGAAAACAGAGCACACGTTAATAAGACAACCGATAACGCCTTCGTAAA -CATCCTGCCACCTTTTTCTTACCTTTTGCCGCTATGATGCCGATCGTTTCTTGAGGTTATTATTCAGTTT -TGCAAATTAGCGCAAAGAAATTCTGGAATCTTCCTTCCTGATTTTGCATTGCATTCTGCCGTTGCGGCGA -TTTAGTGCTATTTTCGAGCAAATTACACACGGAGGTAAACACTAATGTTTACTTTGTTGATATACTCAGC -GGCAGGGAGGCGATGTGAAACAAAGCGAGTTCAGACGTTGGCTCGAATCTCAGGGCGTCGATGTAGCGAA -TGGCAGCAACCATTTGAAACTCAGGTTTCATGGGAGGCGCAGTGTCATGCCGCGTCACCCCTGCGATGAG -ATTAAAGAACCATTGCGTAAAGCAATCCTGAAACAACTCGGTTTGAGTTAATCGCCAATTAAAAAGGTTA -ATGACATGCGAGAGACAGTCGAAATTATGCGTTATCCCGTCACTCTTACACCCGCGCCGGAAGGCGGTTA -TATGGTTTCTTTTGTGGATATCCCTGAAGCGTTGACCCAGGGCGAAACTGTCGCTGAAGCGATGGAAGCG -GCAAAAGATGCTTTACTGACCGCATTTGATTTTTATTTTGAAGATAACGAGCTTATCCCTTTACCTTCGC -CATTAAATAGTCACGATCACTTTATTGAAGTACCTTTGAGCGTCGCCTCTAAGGTATTGCTGTTAAATGC -TTTTTTACAGTCAGAAATCACTCAGCAAGAGTTAGCCAGGCGAATTGGCAAACCTAAACAGGAGATTACT -CGCCTATTTAACTTGCATCATGCGACAAAAATCGACGCCGTCCAGCTCGCGGCAAAGGCGCTTGGCAAAG -AGTTATCGCTGGTGATGGTTTAATTACAGTTAACGAAAAGTTGTCATTTTTAACAACTGATATAGACTGC -CGAATCATCTGCACATAATTACGATTCGATAATGAAAAAATACCAGCAGCTTGCAGAACAATTACGCGAG -CAGATTGCGTCGGGTATCTGGCAACCCGGCGATCGTTTGCCTTCGTTGCGTGACCAGGTGGCGCTTTCAG -GCATGAGCTTTATGACTGTCAGCCATGCCTATCAGTTGCTCGAAAGTCAGGGATATATTATCGCACGACC -GCAGTCGGGTTATTACGTTGCGCCACAGGCAATAAAAATGCCGAAAGCGCCAGTCATTCCAGTCACTCGA -GATGAAGCAGTCGATATCAACACTTATATTTTTGATATGTTGCAGGCCAGTCGCGATCCGTCGGTCGTTC -CGTTTGCCTCGGCCTTTCCCGACCCGCGACTTTTCCCCCTCCAACAACTAAACCGCTCGCTGGCGCAGGT -AAGCAAAACCGCCACAGCGATGAGCGTGATTGAAAACTTACCGCCAGGAAACGCAGAACTGCGTCAGGCT -ATTGCTCGTCGCTATGCCTTACAGGGCATCACCATTTCTCCTGATGAAATTGTCATTACTGCCGGGGCGT -TAGAGGCATTAAACCTCAGTTTGCAAGCGGTAACTGAACCGGGCGATTGGGTGATAGTAGAGAATCCTTG -TTTCTACGGTGCGTTGCAGGCGCTGGAGCGGCTACGGCTGAAGGCGTTATCGGTGGCGACGGATGTTAAA -GAAGGGATAGATCTTCAGGCGCTGGAACTGGCGTTGCAGGAGTATCCGGTGAAAGCGTGCTGGCTGATGA -CTAATAGCCAGAATCCACTCGGATTTACCTTAACGCCGCAAAAAAAAGCACAACTGGTGGCGTTGCTCAA -TCAGTACAACGTAACGCTGATTGAAGATGACGTTTACAGCGAACTTTATTTTGGACGGGAAAAACCGCTG -CCTGCGAAAGCGTGGGATCGCCACGATGGCGTTTTGCATTGCTCTTCGTTTTCGAAATGTCTGGTGCCTG -GTTTTCGTATTGGTTGGGTCGCCGCCGGAAAACATGCACGTAAAATTCAACGCTTGCAGTTGATGAGTAC -GCTTTCCACCAGCTCACCGATGCAACTTGCGCTGGTGGATTACCTTTCCACGCGCCGATACGACGCCCAT -CTTCGTCGCCTGCGTCGCCAGCTTGCGGAACGTAAACAACGTGCCTGGCAGGCACTGCTGCGTTATCTGC -CTGCGGAAGTGAAAATTCATCATAATGACAGTGGTTACTTTCTCTGGTTGGAGCTCCCCGAGCCGTTAGA -TGCCGGCGAATTAAGCCTGGCGGCACTGACGCATCATATCAGTATTGCGCCGGGTAAAATGTTTTCTACC -GGTGAAAACTGGTCACGTTTTTTCCGTTTTAATACCGCGTGGCAGTGGGGAGAGCGTGAAGAACAGGCGG -TAAAACAATTAGGCAAACTTATTCAAGAACGGCTGTAATAGCGTTTAATTTAATTCCTCTTAGATTGGGT -AATATGAATTTCGAATAGCAGTCATATTTCCTAACTCCTTGACTATACTCCAGAAGATAACCTTACAGAC -GGCATAATGCGCGGTAGCTCACAACCTGAATAAATTTTCTCAGGGGCGAAGGTGTGCCTGCAAGCCGCCG -TCTATGGTTAAACAAGGAGATATTTTTACGGCACGGCGGCTGAACAATTAATTACGACAGGAGTAAGACC -TTATGAGCAAGACATTTGCCCGCAGCAGCCTGTGTGCGCTCAGCATGACAATAATGACCGCTCACGCCGC -CGAACCGCCTACCAATTTAGATAAACCGGAAGGGCGACTGGATATTATCGCCTGGCCGGGATACATCGAA -CGCGGACAAACTGATAAACAATACGACTGGGTAACGCAGTTCGAAAAAGAGACAGGCTGCGCGGTGAATG -TGAAAACCGCCGCGACTTCCGATGAAATGGTCAGTCTGATGACCAAAGGGGGTTACGATCTGGTTACGGC -ATCCGGCGATGCCTCGCTGCGTTTGATTATGGGTAAACGCGTGCAGCCGATTAATACCGCATTGATTCCC -AACTGGAAAACGCTCGATCCGCGCGTGGTTAAAGGCGACTGGTTTAATGTTGGCGGCAAAGTTTACGGCA -CACCTTACCAATGGGGGCCGAACCTGCTGATGTACAACACTAAAACCTTCCCGACGCCGCCGGATAGCTG -GCAAGTGGTTTTTGTTGAGCAAAATCTGCCGGACGGCAAGAGCAATAAAGGCCGCGTTCAGGCTTATGAT -GGCCCTATCTATATTGCGGACGCTGCGTTGTTCGTTAAAGCCACTCAGCCGCAGTTGGGCATCAGCGATC -CGTATCAACTCACCGAAGAACAGTACCAGGCGGTGCTGAAAGTGCTGCGCGCTCAACACAGTTTGATCCA -TCGCTACTGGCATGACACTACCGTGCAAATGAGCGATTTCAAAAACGAGGGTGTGGTTGCTTCCAGTGCC -TGGCCCTATCAGGCCAACGCCCTGAAAGCCGAAGGCCAGCCTGTTGCTACCGTTTTCCCGAAGGAGGGTG -TTACCGGTTGGGCTGATACCACCATGCTGCATAGCGAAGCGAAACATCCGGTTTGCGCCTACAAATGGAT -GAACTGGTCATTAACGCCAAAAGTGCAGGGCGATGTGGCGGCCTGGTTTGGCTCGTTACCGGTAGTGCCG -GAAGGGTGTAAAGCCAGTCCGTTATTAGGCGAAAAAGGTTGTGAAACCAACGGTTTTAACTATTTCGACA -AAATCGCCTTCTGGAAAACGCCTATAGCAGAAGGGGGCAAGTTTGTTCCCTACAGTCGCTGGACGCAGGA -TTACATTGCCATTATGGGCGGTCGCTAACTTCGCTGGGGTGCTTTATGACGTACGCAGTGGAGTTTGACA -ACGTCTCGCGGTTGTACGGTGACGTGCGCGCAGTAGATGGCGTCAGTATTGCGATAAAAGATGGTGAGTT -CTTCTCTATGCTGGGGCCGTCCGGCTCCGGCAAAACCACCTGCCTGCGCCTGATTGCTGGCTTCGAACAG -CTTTCCGGCGGGGCTATCTCTATCTTTGGTAAACCCGCCAGCAATCTGCCACCGTGGGAGCGGGACGTGA -ATACTGTCTTTCAGGACTACGCGCTATTTCCGCATATGTCGATTCTTGACAATGTCGCCTATGGGCTGAT -GGTCAAAGGCGTGAATAAAAAGCAGCGGCACGCAATGGCGCAAGAGGCGCTGGAGAAAGTGGCGTTGGGG -TTTGTACATCAACGTAAACCGTCACAACTTTCTGGTGGTCAGCGCCAGCGGGTTGCTATCGCCAGAGCAT -TGGTGAATGAACCGCGCGTATTGCTGTTGGATGAACCGCTCGGCGCACTGGATCTCAAATTGCGTGAGCA -GATGCAGCTGGAACTGAAAAAACTGCAACAGTCTCTCGGTATCACTTTTATCTTCGTTACCCACGATCAG -GGCGAAGCGTTATCGATGTCCGATCGTGTGGCGGTTTTCAATAATGGACGCATTGAGCAGGTCGATTCCC -CGCGCGATCTCTATATGCGCCCGCGCACGCCGTTTGTTGCCGGGTTCGTTGGTACATCGAATGTTTTTGA -TGGACTGATGGCAGAGAAACTTTGTGGCATGACGGGAAGCTTCGCCCTGCGACCGGAACATATCCGCCTC -AACACCCCTGGTGAACTGCAGGCCAATGGCACGATCCAGGCGGTGCAATATCAGGGCGCGGCAACTCGTT -TTGAACTGAAATTGAACGGCGGTGAAAAACTGCTTGTGAGTCAGGCCAATATGACAGGCGAAGAACTGCC -TGCCACGCTCACGCCCGGACAACAGGTGATGGTTTCCTGGTCGCGTGATGTGATGGTGCCGCTGGTTGAG -GAGAGGTGAATGGCGATGAATGTATTGCAATCACCTTCACGTCCAGGTCTGGGTAAGGTGTCCGGTTTCT -TCTGGCATAATCCGGGGCTGGGGCTGTTTTTACTGCTGCTTGGCCCGCTAATGTGGTTTGGCATTGTCTA -TTTCGGCTCGCTGCTGACACTGTTATGGCAGGGATTTTATACTTTTGACGATTTCACCATGTCGGTAACG -CCGGAACTGACGCTGGCGAATATCCGTGCGCTGTTTAATCCGGCGAATTACGACATCATTCTCCGCACGC -TGACTATGGCTGTGGCAGTCACTATCGCCAGCGCCATTCTGGCTTTTCCAATGGCGTGGTATATGGCGCG -CTATACCAGCGGGAAAATGAAAGCGTTTTTTTATATTGCGGTAATGTTGCCGATGTGGGCGAGCTACATT -GTTAAAGCCTATGCCTGGACGTTATTGCTGGCAAAAGATGGCGTGGCTCAGTGGTTTTTACAACATCTTG -GGCTGGAACCACTGCTGACTGCGTTCCTTACATTACCTGCGGTGGGCGGAAATACGCTGTCAACTTCCGG -GCTGGGGCGCTTTCTGGTGTTTCTCTATATCTGGTTGCCGTTCATGATCCTGCCCGTTCAGGCGGCGCTT -GAGCGTTTGCCGCCGTCATTGTTGCAGGCGTCGGCTGATCTCGGCGCACGTCCACGACAAACCTTTCGCT -ATGTGGTGCTGCCGCTGGCAATCCCGGGTATTGCCGCTGGCTCTATCTTTACCTTCTCACTCACACTGGG -CGATTTTATCGTCCCGCAGCTGGTTGGTCCTCCAGGATATTTTATCGGCAATATGGTTTATTCCCAGCAG -GGGGCGATTGGCAATATGCCGATGGCGGCGGCATTCACCCTGGTGCCGATTATTCTCATCGCACTGTACC -TGGCGTTCGTGAAACGTCTGGGAGCGTTCGATGCACTCTGAACGCGCACCGTTTTTCCTCAAACTGGCGG -CCTGGGGCGGCGTTGTTTTCCTACATTTTCCCATCCTGATAATCGCCGCCTATGCGTTTAACACTGAAGA -TGCGGCGTTTAGTTTTCCACCGCAGGGCCTGACGCTGCGCTGGTTTAGCGTGGCAGCACAGCGTAGTGAT -ATTCTTGATGCCGTGACACTGTCACTTAAAGTGGCGGCGCTGGCGACATTAATTGCGCTGGTGTTAGGGA -CGCTGGCAGCTGCCGCGCTGTGGCGACGAGACTTTTTCGGCAAAAACGCCATTTCGCTGTTACTGCTGCT -GCCCATTGCGCTGCCGGGCATTGTCACTGGTCTGGCGTTATTAACCGCCTTTAAAACCATCAATCTGGAG -CCGGGATTTTTCACCATCGTGGTCGGTCATGCGACTTTTTGTGTAGTTGTGGTGTTTAACAATGTCATCG -CCCGTTTTCGCCGCACCTCCTGGAGTCTGGTTGAGGCGTCAATGGATCTTGGGGCCAATGGCTGGCAAAC -CTTCCGCTACGTAGTGTTGCCGAATCTCAGTTCGGCGTTACTGGCAGGAGGAATGCTGGCGTTTGCCTTG -TCGTTCGATGAAATCATCGTTACGACCTTTACGGCAGGTCATGAACGAACGTTACCGTTGTGGTTGCTCA -ATCAGCTTGGGCGACCGCGTGATGTACCGGTAACTAACGTGGTGGCACTGCTGGTTATGTTGGTAACAAC -CTTGCCGATCCTGGGGGCCTGGTGGCTAACCCGCGAAGGCGACAATGGTCAATAACCACTGATACAGGAA -TATGCTATGCAACATAAGTTACTGATTAACGGAGAACTGGTTAGCGGCGAAGGGGAAAAACAGCCTGTCT -ATAATCCGGCAACGGGGGACGTTTTACTGGAAATTGCCGAGGCATCCGCAGAGCAGGTCGATGCTGCTGT -GCGCGCGGCAGATGCAGCATTTGCCGAATGGGGGCAAACCACGCCGAAAGTGCGTGCGGAATGTCTGCTG -AAACTGGCTGATGTTATCGAAGAAAATGGTCAGGTTTTTGCCGAACTGGAGTCCCGTAATTGTGGCAAAC -CGCTGCATAGTGCGTTCAATGATGAAATCCCGGCGATTGTCGATGTTTTTCGCTTTTTCGCGGGTGCGGC -GCGCTGTCTGAATGGTCTGGCGGCAGGTGAATATCTTGAAGGTCATACTTCGATGATCCGTCGCGATCCG -TTGGGGGTCGTGGCTTCTATCGCACCGTGGAATTATCCGCTGATGATGGCCGCGTGGAAACTTGCTCCGG -CGCTGGCGGCAGGGAACTGCGTAGTGCTTAAACCATCAGAAATTACCCCGCTGACCGCGTTGAAGTTGGC -AGAGCTGGCGAAAGATATCTTCCCGGCAGGCGTGATTAACATACTGTTTGGCAGAGGCAAAACGGTGGGT -GATCCGCTGACCGGTCATCCCAAAGTGCGGATGGTGTCGCTGACGGGCTCTATCGCCACCGGCGAGCACA -TCATCAGCCATACCGCGTCGTCCATTAAGCGTACTCATATGGAACTTGGTGGCAAAGCGCCAGTGATTGT -TTTTGATGATGCGGATATTGAAGCAGTGGTCGAAGGTGTACGTACATTTGGCTATTACAATGCTGGACAG -GATTGTACTGCGGCTTGTCGGATCTACGCGCAAAAAGGCATTTACGATACGCTGGTGGAAAAACTGGGTG -CTGCGGTGGCAACGTTAAAATCTGGTGCGCCAGATGACGAGTCTACGGAGCTTGGACCTTTAAGCTCGCT -GGCGCATCTCGAACGCGTCGGCAAGGCAGTAGAAGAGGCGAAAGCGACAGGGCACATCAAAGTGATCACT -GGCGGTGAAAAGCGCAAGGGTAATGGCTATTACTATGCGCCGACGCTGCTGGCTGGCGCATTACAGGACG -ATGCCATCGTGCAAAAAGAGGTATTTGGTCCAGTAGTGAGTGTTACGCCCTTCGACAACGAAGAACAGGT -GGTGAACTGGGCGAATGACAGCCAGTACGGACTTGCATCTTCGGTATGGACGAAAGATGTGGGCAGGGCG -CATCGCGTCAGCGCACGGCTGCAATATGGTTGTACCTGGGTCAATACCCATTTCATGCTGGTAAGTGAAA -TGCCGCACGGTGGGCAGAAACTTTCTGGTTACGGCAAGGATATGTCACTTTATGGGCTGGAGGATTACAC -CGTCGTCCGCCACGTCATGGTTAAACATTAAGGATAATATTGCAGATCGTAAGAGTATGAGATGATCTTG -CGTACTGTCAGAGCACTGATTTCTCTGACAGTACGTGCTGCGTGCAAAATCACTACATCAAATAAACCAG -CCAAATCTCATAGAGATAAGAGTAAACAAACCAACAGCAGCAAAGAAATTTATCAGTACTACAGTTCTAC -TGGAAACATTCATTTTTGCCACCTTTTATCATTGCCCCTATGTGTATAGTACGGGTTAAGAAAATCCGCA -ATAATACTCATTCTGAAGATGGATAAGGGCAAGTTGCTGTTTGATGATTTTTTCTCAAACTGGTGAAAAA -ACTTGATGCACGTCAAAAAATGACGCATATTTGCGCGCGTTTTATTCATCTGGCTGGACGCCCGTACATG -TCTCTCTATCAACACATGCTTGTTTTTTATGCGGTTATGGCAGCAATCGCATTTCTTATCACCTGGTTTC -TTTCTCACGATAAGAAACGCATCCGTTTCTTAAGCGCCTTTCTGGTGGGGGCAACATGGCCGATGAGTTT -CCCGGTGGCGCTGTTGTTTTCACTGTTTTAAATCTTACTCACTGGCTTGACGGCACCACGCAGACTTATA -TCATTTGGATGAATCGATAAATTTCACAAGTGGCTAAGGAGAAAGTATGTCGCATCTGGATGAAGTCATC -GCGCGCGTGGATGCCGCGATTGAAGAGAGCGTCATTGCCCATATGAACGAATTATTAATCGCCCTGAGCG -ATGACGCGGAGTTAAGTCGGGAAGATCGCTACACCCAGCAGCAACGTCTGCGCACAGCGATCGCCCATCA -CGGTCGCAAGCATAAAGAAGATATGGAAGCGCGCCACGAACAGTTAACCAAAGGCGGCACCATCCTCTGA -TTAAAATGAGCGTCTGGCTACCAACCAGGCGCCAACCACAAGTAAAATTGCGCCACAAATTGGGCCGAAC -AACGCCCGTAGTGGTACGCCATGACTGCGGAAGATATCCAGCATCAGACCGCCAATCAGCTGACTGGCGA -CCAGTACAGCAATAGTTGTCGCCGCTCCCACATTCTGATATCCGCTGATACTGGCGAAGACAAAAAACGA -TCCCAGCAAGCCAGGTATAAGTGTCCACCAGCGCACGCTGGACACCAGTTCGCCAAACCCCGCCATGCCT -TGTTTAAACCATAAAATAGAAACAAAGAGCACAATCCCCACCAGTGAGTTCAGCAACATGGCGATGAGAA -TGGTAGAGGAGGTCTGGGTGATGCGCACCATCAGCGTGTTCTGGACAACCAGACCAATTCCGGCGGCAAT -CAAAAAAGCAAGGGTGAGCGACTGATTCATCCAATCGCGTCCGGTTCAGTGCGCTCGTCGAGTTGCAACT -GCATAAATGTCAGATCCAGCCAACGACCAAATTTAGTGCCTACCTGCGGCATTTGCGCGGTGACGACAAA -TCCCAGCGACTGGTGGAGATGCAGCGAGGCCTGATTTTGCGATTCGATCCCGGCGACCATGACATGCTTC -CCGCAATCCCGCGCTTCATCAATCAATCGGCTTAACAATTTACGCCCCAGACCTTTGCCCTGATGATCGG -GATGGACATAAACCGAATGTTCCACGGTATGGCGAAAACCATCGAAACTACGCCAGTCGCCAAACGAGGC -ATATCCCGTCACTACGCCGTTTTCCTCGCTCACCAGCACTGGATAACCTGCTAAAGTCCGCGCTTCAAAC -CAGGCAATGCGGTTATCAGCATCCACCGTTTGGTCATTCCAGATAGCCGCCGTATACAACACGGCGTGGT -TATAAATTTCCGCAATGGCAGCACAGTCGGCTTTGCGGGCAAAACGGATGGACATGTCTGGCCTCAATAA -AATAATGATGATGATGTTATCAATACTATCGAAAACAGCCCGAAGCAACGGATTCCTCGATGAAATTATT -GCGTGTTGCAGAGGGGATGTGACGGCTGCAAACAAAACCAATCCCGTGAGCCTGCTACTATTGATGGATT -CATGCCAAAAGCACAGGAGAGCATTATGGGGCAACAAAAGCAGCGTAATCGACGTTGGGTTCTGGCCTCG -CGTCCACATGGCGCACCTGTTCCGGAGAATTTCCGTCTTGAAGAAGATGATGTCGCCACACCGGGTGAAG -GACAGGTGTTACTGCGCACAGTTTATTTGTCCCTGGACCCGTATATGCGTGGACGTATGAGCGATGAGCC -ATCTTATTCACCGCCTGTTGATATTGGCGGCGTGATGGTCGGCGGTACGGTGAGCCGTGTCGTGGAGTCG -AATCATCCTGATTATCAGTCTGGCGACTGGGTGCTGGGCTACAGTGGATGGCAAGACTATGACATATCCA -GTGGTGATGATCTGGTGAAACTTGGCGATCATCCGCAAAATCCATCGTGGTCGCTGGGTGTGCTAGGGAT -GCCAGGCTTTACCGCTTATATGGGCCTACTGGATATCGGTCAGCCTAAAGAGGGCGAAACGTTGGTGGTA -GCTGCGGCGACAGGACCAGTGGGGGCGACGGTGGGGCAAATCGGCAAACTTAAAGGTTGCAGAGTGGTGG -GGGTAGCCGGTGGCGCGGAAAAATGCCGCCATGCTACCGAGGTGTTAGGCTTCGATGTTTGTCTTGATCA -CCACGCGGATGATTTTGCCGAACAACTGGCGAAAGCGTGCCCAAAAGGTATTGATATCTATTATGAAAAC -GTGGGCGGTAAGGTATTCGATGCGGTGCTACCGTTACTTAATACATCTGCGCGCATTCCCGTCTGCGGAT -TAGTGAGCAGCTATAACGCTACAGAGCTACCACCCGGTCCGGATCGTTTACCTCTGTTGATGGCTACAGT -GCTGAAAAAACGTATTCGCTTGCAAGGTTTTATTATCGCTCAGGATTATGGTCACCGCATCCATGAGTTT -CAGAGGGAGATGGGGCAATGGGTGAAAGAGGATAAAATCCACTACCGCGAAGAAATTACTGACGGTTTAG -AGAATGCGCCACAGACGTTTATCGGCCTGCTGAAGGGTAAAAACTTCGGCAAAGTGGTGATCCGCGTGGC -GGGTGATGATTAAAGTTTCAACGGCGGCGTAAGCCGCCATAAAAATCCAGGCAAAAAGCTTATTTTCAGC -TTTAATTAACTAACCACATCATTGTTCTGCTGCTAATAACAACAAAGGTGAGTGGTTTATGATTATTCAC -TTTAATACACCAGGTGAATTCCTTCTGCCATGCAGGCAGGGTTGGACAGAAAACACGCGAAGGAATTAAA -ATGCCTGGAACGGGAAAAATGAAACATGTCAGTTTGACTCTGCAGGTTGAGAACGACCTGAAACATCAGC -TTAGTATTGGCGCATTAAAACCTGGCGCACGCCTGATTACTAAAAATCTGGCGGAGCAATTAGGTATGAG -TATTACACCTGTGCGTGAAGCATTATTACGTCTGGTTTCGGTGAATGCGCTTTCTGTCGCACCTGCACAA -GCATTTACAGTTCCGGAAGTGGGGAAACGTCAATTAGACGAAATCAATCGGATCCGCTACGAACTGGAAT -TAATGGCAGTTGCTCTGGCTGTTGAAAACCTCACCCCGCAAGACCTTGCGGAACTCCAGGAATTGCTCGA -GAAATTACAGCAGGCGCAAGAAAAGGGCGACATGGAACAAATCATTAATGTAAACAGGCTATTTCGCTTA -GCGATTTATCATCGCTCAAATATGCCCATCCTGTGTGAGATGATTGAGCAACTGTGGGTCAGGATGGGGC -CTGGTTTACATTATCTCTATGAAGCGATTAATCCAGCGGAATTACGGGAGCATATAGAAAACTATCATCT -GTTACTCGCTGCGTTAAAAGCAAAAGACAAAGAGGGATGCAGACATTGTCTTGCTGAAATTATGCAACAA -AATATTGCTATTTTATACCAGCAATACAATCGTTAAAGTAAATGCCCGGCAAATACCGGGCATCAAGGTA -ATTACTCAAATCTCCACGCAATATTCATGCCGACACCATAATTTCGTCCGGGCGAAGGTTCGTAATATCG -CCCGTTTGACTCATTGACAATGACAGAACCAACGTATTCTTTATCGAATAAATTATCGACACGACCAAAT -AAATCCACAGTTAAATTGTGGTAATTGTATTTATACCCGGTGAATAAGCCGACGAGAGTATAAGACGGCG -CTTTTGCCGTATTTTCATCATCTGCCATAATATCGCCCATATAACGCGCTTCCGTGCCTGCATACCAACC -ATCTTCCGGTACATAACCTATCGACGCAAAGCCCATATTACGGGCGATCCCTGGCATCCGATTACCGTTA -CAATCCTGTTCATTGCAAACATTGCTGCGATAGGTCGCATCAAGCCAGGTCCAGGACGCGTTTACGCGAA -AATCTCCTGCGAAACGTTGATCCCATGCCAGTTCAGCGCCTTGACGACGGGTCTTTCCGGCATTTTTGTA -AGTCGTACGCCCACCGCTACTGCTATCGACAACAATTTCATCATCAGTGTCGGTCTGAAACAATGCGAGA -CTAAGCAGCCCATCACCAATACGCGTTTTACTGCCGATCTCAATTGTATCGTTGGTGGATGGTTTTAAAC -CTAAGTTCATACCGCTTTGCCCATCAGCACGATAAGACAGCTCATTAATCGTCGGCGTTTCAAAACCTCG -CCCGGCTGCCAGATAGATATTCCAGGCATCGGTCATTGCATATTTTAACGAACCGGCAGGTAGCCATTTA -TGATAACTGGCATCACCGCTGTCATCGCCGTTACCCGGAGTAACGTAATGGTCGTTGGAATCAAACCACA -CGGAGCTGTAGCGCACGCCAGCATCCAGCGACAGTTTTTCGCTCAGCTGCCACTGCGTCTGTAAATAGGG -ATCGATGTTCCACATCAGATTGCGTTCGTCGCGACGCAACTCACCTTTTTGCCCGTACTCCGGCATGCCG -CTATTCAGGCGGAAGTTATTGTAGCCCTTGCGGTTTTCACTCATGTTTTCGTAGTTCAGGCCGGTAGTGA -ACGTGACCGGAACGCCCAGTTCACCACGGTGTGTCCAGCGGCTGTCTATTCCCTGGTAATGGCGTTGCAG -GGTAATCACGCCGCCCGCATGTGACGGGTTAAGTTGTGGTGCCATGGGTATTGACTGGTACTGGGTCGTT -TCTCGCTCTCCGGCATACATCATCACACTCATATCATCCCGCGAACTCAGGCTACGCTCATAGCGCAACC -CAGCCTGAGTTTGCTTGATGGTTTTTCGCGTGTCGTACTGTTCTGCACGAGGCGCTTGTTGTGGATTAGC -CTTCCATTCTGCTTTGGTTAGCCCACCTGGGTCATCTGCTTTGATATCCACACTATTGAAAATCAGACTT -AATTTGCTGGCTTCATCAATGCGTACGCCCAGTTTGGCATTGGCTAAATTTTTCTGTGCGCCACTATGGT -CACGATAGCCGTGGGTCGTAAAACGCGTGGTTGAGACGGTGTAATCGACATCGCCAGGCTGTGTGCCGTC -TCCCGTTGCGCCCGTTGCTTTCAGCCCATAGCGCCAGCTGCCAAAACTGCCGTAGTAACTACTGGCTTCA -ATGGTTGGTGGCTGTTGTCCGGTCTGGGTGGTGACATTCATTACCCCACCAGACGCGTTGCCATACAGGG -CAGAGAAGGGGCCACGCAGCACTTCCACATTTTGCACACTGCTTAAATCGATGTTGGATGTTTGCCCTTG -CCCGTCGGGCATGGTGGCGGGAATACCGTCCACATACAGGCGAATACCGCGAATACCGTAAGTGGAGCGG -GAGCCAAATCCGCGAATCGACAGCTGTAAATCTTGCGCATAGTTCTGCCGGTTTTGTACCTGCAAACCAG -GCACGCCGGTCAGTGATTCGGACAAGTTAATGCGCGGTGTTGCCAGGCGCATCTCCTCGCCATCCACCAC -GCTTACTGCTGCTGGGGTATCCAGTTCTGAAACCACCTGCGGTGCGGCACTGACAATCATAGTCTGTTCA -TCAGCGGCAAAAACAACGGGGGAAAGGACAAGCAGTGCGGGCAAAACGGTCTGTCGGACGGAAAAAATCT -TCATGAAAAAAGCCAGGTTAAGAATGGGAAAACGCCGTCATGGTAATGAAATTGTAAATTTATGGAAAAT -GAAACGGCACAATACGTTAAGTAATTGAGAAAATTGTAGTCGTAACGGCAAGAAATGCTCCACATTTGAG -AAAATAATGATTACCATTCCCATTTATAACAAGAGCGTAACGATGATTACGCTTAGCGAAGCATTGTGAA -GCAGCAAAAATATCGGTTCATCAAAGGGAGTCGTCATGCATTTACGTCATCTGTTTTCATCGCGCCTGCG -TGGTTCATTACTGTTAGGTTCATTGCTTGTTGTTTCATCATTCAGTACGCAGGCCGCAGAAGAAATGCTG -CGTAAAGCGGTAGGTAAAGGTGCCTACGAAATGGCTTATAGCCAGCAAGAAAACGCGCTGTGGCTCGCCA -CTTCGCAAAGCCGCAAACTGGATAAAGGTGGCGTGGTTTATCGTCTTGATCCGGTCACTCTGGAAGTGAC -GCAGGCGATCCATAACGATCTCAAGCCGTTTGGTGCCACCATCAATAACACGACTCAGACGTTGTGGTTT -GGTAACACCGTAAACAGCGCGGTCACGGCGATAGATGCCAAAACGGGCGAAGTGAAAGGCCGTCTGGTGC -TGGATGATCGTAAGCGCACGGAAGAGGTGCGCCCGCTGCAACCGCGTGAGCTGGTAGCTGACGATGCCAC -GAACACCGTTTACATCAGTGGTATTGGTAAAGAGAGCGTGATTTGGGTCGTTGATGGCGGGAATATCAAA -CTGAAAACCGCCATCCAGAACACCGGTAAAATGAGTACCGGTCTGGCGCTGGATAGCGAAGGCAAACGTC -TTTACACCACTAACGCTGACGGCGAATTGATTACCATCGACACCGCCGACAATAAAATCCTCAGCCGTAA -AAAGCTGCTGGATGACGGCAAAGAGCACTTCTTTATCAACATTAGCCTTGATACCGCCAGGCAGCGTGCA -TTTATCACCGATTCTAAAGCCGCAGAAGTGTTAGTGGTCGATACCCGTAATGGCAATATTCTGGCGAAGG -TTGCGGCACCGGAATCACTGGCTGTGCTGTTTAACCCCGCGCGTAATGAAGCCTACGTAACGCATCGTCA -GGCAGGTAAAGTCAGTGTGATTGACGCGAAAAGCTATAAAGTGGTGAAAACGTTCGATACGCCGACTCAT -CCAAACAGCCTGGCGCTGTCTGCCGATGGCAAAACGCTGTATGTCAGTGTGAAACAAAAATCCACTAAAC -AGCAGGAAGCTACCCAGCCAGACGATGTGATTCGTATTGCGCTGTAATAGATATGGCGAGGGTGAAAACG -GTGAGACTTGCCTGCCTTTTATCACGGCGTATCCGGCACTTTCGTCAGTAATCTGAATTTGCCCGGCACG -TAGCCGGGCAATTTTGCAATTAACTCGCCGTTTCAGGCTTAAACACAATTTCCTGTTTTTCTTCATCTTC -CTCGACGACTGGCGCAGTGCTGTGAATTTCAGCAACGCGTTTGCGCACACCAAACCAGCCTATAACCAGC -AAAATACCGATAATCGGCAGCGCCGCGATAGTATAAGTCCCGTTCGGGTAATCGAACGCCATCAGCACAA -GGACACTCAGTAAAAACAGTAATGTCAGCCAGGAAGTGAAGGGCGCGCCAGGCAGTTTAAAACTGACATC -CGCTGCTTTGCCTTCTTTAATCGCTTTACGCAGGCGCATCTGGCACACGATGATAAACGCCCATGAAGCG -ATGATTCCCAGCGACGCGAAGTTCAACACAATCTCAAATACGCGCGACGGCACCAGATAGTTGAGGAATA -CGCCGACGACATACACAACTAGTGTCGCCAGAATCCCGGCATACGGCACATGCTGACGACTCATTTTCGC -CATAAAACTCGGTGCGGAACCGCCCATCGCCATTGAGCGCAGAATACGTCCGGTGCAGTACAGACCTGAA -TTCAGGCTGGAGAGGGCAGCGGTCAGCACCACAATGTTCATAATGCTGCCGATATATGGCACACCCAGTT -TAGAGAAAAACGTCACGAACGGACTTTGCCCCGCCTGATACGCGCTCCACGGCAATAACATAACCAGCAA -CACCACGGAGCCGACGTAAAACAGGCCAATACGCCAAATCACACTGTTAATGGCTTTAGGCACCATGGTC -TGCGGATCTTTACATTCTCCGGCAGCTGTACCCACCATTTCAATGGAGGCAAAAGCAAACACTACGCCCT -GAATCAACACCAGCGCAGGCAGCAAACCGTGGGGGAAGAAGCCGCCATTATCGGTGATTAAATGAAAGCC -AGTGGTGTTGCCATCCAGCGGCTGACCACTACCGAGGAACACTGTACCCACGACCAAAAAGGTCACAATG -GCGAGCACTTTAATAAGCGCAAACCAGAACTCCATCTCCGCAAACCATTTCACACCGATCATATTCATGG -TGCCAACGATGGTAAGTGCAGCGAGCGCAAAGACCCACTGCGGCACGCCGCCAAACGCACCCCAGTAATG -CATATACAGAGCGACGGCGGTAATATCAACAATCCCCGTCATCGCCCAGTTGATGAAGTACATCCAGCCA -GCAACATAAGCGGCTTTCTCACCCAAAAACTCACGGGCATAAGAAACAAAACTGCCACTGGAAGGGCGGT -GTAGCACCAGCTCACCCAATGCACGCAGAATAAAAAACGAAAACAAGCCACAAATTAAATAAACCAGTGC -CAGTGCGGGCCCCGCCATTTGCAGTCGGGCTCCTGCACCTAAAAACAAGCCGGTGCCAATCGCGCCGCCA -ATGGCGATCATCTGCACCTGGCGATTGCCCATCGCTTTGTGATACCCCTCTTCGTGGGCATTAAGCCAGC -GGCGTTTCGCGGCGTGTTGATCTGAAGTGTCGGTGTCGTGTTTACTCATTGCTCTCCCTGATTGCTTTAA -TGAAAAAGTCATATAAGTTGCCATGAACAATGTTTATTCATCCTGGCGATGATAGTTATCACCATTATTC -TTTATGGGTATAAAACTATCGGCGCAGCATCCTACCCGTTATCGATAAACGATGCAAAACATCCCCTTAC -AATCCTGAAGGGGATTAATACAACTGACGAAAAAATGACAAATCCTTTTGCTGGTTAACCTGTGTACTGT -CCTACACTTAATCTTTAAAAGATTGTGAGGGGCATATGATTAAGGTGTATGGCGTACCCGGATGGGGCTC -TACAATCAGTGAGCTGATGCTAACACTGGCTGATATTCCTTATCAGTTCGTTGATGTCAGTGGTTTTGAC -CACGAGGGAGCTTCACGCGAGTTATTGAAAACCCTGAACCCGTTGTGTCAGGTTCCGACACTGGCATTGG -AAAATGACGAGATTATGACGGAGACAGCGGCGATTGCATTGATGGTTCTCGATCGTCGCCCGGACCTTGC -GCCACCGGTTGGGCGCGCCGAACGTCAGCTGTTTCAACGGCTATTGGTCTGGCTGGTTGCTAATGTCTAT -CCAACATTCACTTTCGCCGATTACCCTGAGCGTTGGGCTCCTGACGCACCTGAACAGTTAAAGAAGAATG -TTATTGAATATCGAAAATCGCTTTATATCTGGTTGAATTCGCAGCTCACTGCTGAACCTTATGCGTTTGG -TGAGCAACTAACGCTGGTGGACTGTTATCTTTGCACTATGCGCACATGGGGGCCTGGGCATGAATGGTTT -CAGGATAATGCCACGAATATCAGTGCGATTGCTGATGCTGTATGTCAGTTACCGAAATTACAAGAAGTAT -TAAAAAGGAATGAAATTATTTGAGTGGGATACCAGAAGATTATGTTATTTATTATTCAGTAACTTTATCC -ACAATGATGGGCGTAATTAATTAAATTCATGGTATGTTTTTTAATTTATATCACTCTCCTTTTCATTCAG -CGTGTCTATTTCATTTCCTCTGAAAAGAAACTAACTATTCACATCGTGCAGATGTTTCAGTTGTTATCAC -AGGCATTCTATAATCTCAAAATGTTTTTAATGATGGATATGCTCGGAGTTGGAGATGCAATTAATATTAA -TACAAATAAAAATATCCGGCAGGTATGCTAAAAGGATAAATGGCGTTCTCTGTATTTATTCGCAATTATC -TGTAGGACAAATATGGAGAGCTTGATGAGTCAGAGCTAAAACAGCAATTGATTAATAAACATGTTGATTT -ATTCAAGAAAATGGATGTATTTTAAATGTTGATTCTTAATATAACCTAATCAATAGATTATCAAGTGAGA -GCTACACATTATTGGAGGGGCAGGGGAAAACACCATTTTGGGAACAATGCATCAGGTACTCTTACCACTG -AAGCAAGATCATCCGGCACCAGGTGGTGGTGCAGTGCTTTGGAAATGGTCCCCTCGGGGGAGTTGTCATT -ATTTTCTATGCTATTTGCTTATTATATTCATCAGGTGAATTTAATAAATTCCTAATTTGAAATATCCACT -ATTAAGCTAGTGTTTAACGACGTTAAGATGGCAATGTGCAGATCATGTTATCAGGGTGGGGCGGTAGCGT -ATATTCCTTATACAAACCATCATTCATTTCAATGATTGTTATTGAATTATTTATTGTTGTGAATAAAAAG -ACATTATGAATATTGGTTTGACTTTGCATATCAGGTTTTTTATTACTCGCTGTAATGTACGAGCCTGTCG -TGAATAACGTCGAGAACCCATCCGTTGCGTTTGTGATTATTTTGTTGACTAAACAGACACCCGTTTCTCT -GAAGTAAAATCCCAGACTAAATCATCACATAACCATGACATTTTTCTGATATTCCCCGGTAACGCCAGAT -GTCGACTCGCTTAACCACCCTCAGCCATACCAGTGAAGGCCACCGCGTGTCGGTCCACTACGGCTATGAC -GATAAAGGCCGCCTGACCGGCGAACGCCAGACGGTGGAGAACCCGGAGACGGGGGAACTGCTGTGGCACC -ATGAGACCGGACATGCGTACAACGAACAGGGGCTGGCAAACCGCGTCACGCCGGACAGTCTGCCGCCGGT -GGAGTGGCTGACCTACGGCAGCGGCTATCTTGCGGGCATGAAGCTGGGCGGGACGCCGCTGCTGGAGTTC -ACGCGCGACCGCCTGCACCGTGAGACGGTGCGCAGCTTCGGCAGCATGGCAGGCAGTAATGCCGCATATA -AACTGACCAGCACATACACCCCCGCAGGCCAGTTACAGAGCCAGCACCTGAACAGCCTGGTGTATGACCG -TGACTACGGGTGGAATGACAACGGCGACCTGGTGCGCATCAGCGGCCCGCGACAGACGCGGGAATACGGC -TACAGCGCCACGGGCAGGCTGGAGAGTGTGCGCACCCTCGCACCAGACCTGGACATCCGCATCCCGTATG -CCACGGACCCGGCGGGCAACCGGCTGCCGGACCCGGAGCTGCACCCGGACAGTACACTCACAGTGTGGCC -GGATAACCGCATCGCGGAGGATGCGCACTATGTCTACCGCCACGATGAATACGGCAGGCTGACGGAGAAG -ACGGACCGCATCCCGGCGGGTGTGATACGGACGGACGACGAGCGGACCCACCACTACCACTACGACAGCC -AGCACCGCCTGGTGTTCTACACGCGGATACAGCATGGCGAGCCACTGGTCGAGAGCCGCTACCTCTACGA -CCCGCTGGGACGGCGAATGGCAAAACGGGTCTGGCGGCGGGAGCGTGACCTGACGGGGTGGATGTCGCTG -TCGCGTAAACCGGAGGTGACGTGGTATGGCTGGGACGGAGACAGGCTGACGACGGTGCAGACTGACACCA -CACGTATCCAGACGGTATACGAGCCGGGAAGCTTCACGCCGCTCATCCGGGTCGAGACAGAGAACGGCGA -GCGGGAAAAAGCGCAGCGGCGCAGCCTGGCAGAGACGCTCCAGCAGGAAGGGAGTGAGAACGGCCACGGC -GTGGTGTTCCCGGCTGAACTGGTGCGGCTGCTGGACAGGCTGGAGGAAGAAATCCGGGCAGACCGCGTGA -GCAGTGAAAGCCGGGCGTGGCTTGCGCAGTGCGGGCTGACGGTGGAGCAACTGGCCAGACAGGTGGAGCC -GGAATACACACCGGCGCGAAAAGTTCATTTTTACCACTGCGACCACCGGGGCCTGCCGCTGGCGCTCATC -AGCGAAGACGGCAATACGGCGTGGCGCGGGGAGTATGATGAATGGGGCAACCAGCTTAATGAGGAGAACC -CGCATCACCTGCACCAGCCGTACCGTCTGCCAGGGCAGCAGCATGATGAGGAGTCGGGGCTGTACTATAA -CCGTCACCGGCACTACGATCCGTTGCAGGGGCGGTATATCACCCCGGACCCGATTGGGTTGAGAGGTGGA -TGGAATATGTATCAGTATCCGTTGAATCCCATACAAGTGATAGACCCAATGGGGTTAGATGCGATTGAGA -ATATGACATCAGGTGGACTAATTTATGCCGTATCTGGTGTACCTGGATTGATTGCTGCAAACAGCATTAC -TAACAGTGCTTACCAGTTCGGTTATGATATGGATGCTATTGTTGGCGGAGCTCATAATGGGGCCGCCGAT -GCAATGAGACATTGTTACTTGATGTGTCGAATGACTAAGACATTTGGATCAACAATAGCTGACGTGATAG -GTAAAAATCATGAGGCGGCAGGGGATAGACAAGGTCAGCCAGCTAAAGAAAGAATCATGGATCTTAAAAA -TAACACTGTCGGTATTGCTTGTGGCGATTTTTCTGCCAAATGTAGCGATGCATGTATTGAAAAATATAAC -ACTGGGCAACTCTTCGGGTTAGATGGTATAAAAGCAGATAATCCAATAAAAGCAAAGCAAGGGAGTTCAG -ATGCTTCAAATTATTAGAGGCAAACTTGTCATTTTTTTAATTACCCTTTGTTTATTTGTTGTTTACCTTG -GGTTTGATAACAATTCAAATTCTGACATCGTATTTTATGGACATAAAACACCAAAGAGCGTTGAGATATA -TCTTTCTGAAAAAAATATTATTTATAAAATAATTAATGACCAAAAAATTAGTAGAGGGAATGGTCATTTT -ATAAGTATAATGGTTAATAATTACAGGACGCACTGTGGAGTGGTTGATATAAATCTTAATTTTTTCAATG -ATATTCTTTATAGCGTGCGATTAAAAAACATTAGTAAACTGGAGAATATGGAGTTCTGCGCTACAAAACA -ACGGGTGTATTTTAGTGATAAAAACAAGAAGGCTAGTTATAAAATAATTAATTATGGAGACTATTATGAT -GTTGATTATTATGATAACAATTTGAAAAATGAAGTTTTTGACTGGATTGGTAAATGGTCATAATGAACAA -CACCAGAAAGAGAAAAATATAAAATACATACAGAAAGACATGAGAGCAAGGGACGGGGCAGGGCAAGATC -ATGAAAATTGTGATGTAAATCACGATTTTCATCTTTGCTTTAACGCCTACAGGTGATCAAAATTTAACCT -TTGGAATAACTAAAAAGATAAAAAAGGACGCCAGGTGAGTATTCAAAGTTTGCTTGATTATATTTCAGTG -ACCCCTGATATACGACAACAAGGAAAGGTTAAACATAAATTATCTGCTATTTTGTTTCTCACCGTATGTG -CAGTAATTGCAGGTGCCGATGAGTGGCAGGAAATTGAAGATTTTGGACATGAAAGACTTGAATGGCTAAA -GAAATATGGTGATTTTGATAATGGCATTCCGGTCGATGACACCATTGCACGCGTTGTGAGTAACATTGAC -AGTTTGGCCTTTGAAAAGATGTTTATTGAATGGATGCAGGAGTGCCATGAAATCACTGATGGTGAAATTA -TAGCAATAGATGGAAAGACCATAAGAGGCTCCTTTGATAAGGGAAAAAGAAAAGGAGCAATCCATATGGT -GAGTGCATTCTCGAACGAAAATGGTGTTGTACTGGGGCAGGTGAAAACGGAAGCCAAAAGTAATGAGATT -ACAGCCATTCCAGAGTTGCTTAACCTACTGTATTTAAAGAAAAATTTGATAACCATTGATGCTATGGGCT -GTCAGAAAGATATCGCTTCGAAGATCAAAGATAAAAAAGCAGATTATCTTCTGGCAGTAAAAGGCAATCA -GGGGAAATTACATCATGCATTCGAGGAAAAATTTCCTGTAAATGTGTTTTCTAATTATAAAGGCGATTCG -TTTAGTACGCAGGAGATAAGTCATGGAAGAAAAGAAACACGTTTGCATATTGTCAGTAACGTAACGCCTG -AACTTTTGTGATTTTGAATTCGAATGGAAGGGATTAAAAAAGCTTTGTGTAGCATTGTCATTCAGGCAGA -AGAAAGAAGATAAATCAGCAGAAGGTGTAAGCATCCGATATTATATTTCATCAAAGGATATGGATGCTAA -AGAATTTGCACATGCTATCAGAGCGCACTGGCTGATCGAGCACAGTCTTCATTGGGTGTTAGATGTAAAA -ATGAATGAAGATGCCAGCCGGATAAGAAGAGGAAACGCAGCCTAAATAATATCTGGAATAAAGAAGATGG -CACTGAATTTATTAAGAGATTGCAAAGACATTAAGGGTGAAGAGGAAAAGAAAGAAGGCTGCGTTAAACA -CAGGGAAAGATCATCAGAAGTTCACTTTTTGTACTAAACAATTCGCATTTTATGTTTAAAAATTGAGATA -TTCCTTATTACCTAAAGCTGTTTTTTATTGCTTACACATGATCAAATACTCCTTACATAATTAAGGAGAA -CAAAATGGAACTTAAAAAATTGATGGGACATATTTCTATTATCCCCGATTACAGACAAGCCTGGAAAATG -GAACATAAGTTATCGGATATTCTACTGTTGACTATTTGTGCCGTTATTTCTGGTGCAGAAGGCTGGGAAG -ATATAGAGGATTTTGGGGAAACACATCCCGATTTTTTGAAGCAATATGGTGATTTTGAAAATGGTATTCC -TGTTCACGACACCATTGCCAGAGTTGTATCCTGTATCAGTCCTGCAAAATTTCACGAGTGCTTTATTAAC -TGGATGCGTGACTGCCATTCTTCAGATGATAAAGACGTCATTGCAATTGATGGAAAAACGCTCCGGCATT -CTTATGATAAGAGTCGCCGCAGGGGAGCGATTCATGTCATTAGTGCGTTCTCAACAATGCACAGTCTGGT -CATCGGACAGATCAAGACGGATGAGAAATCTAATGAGATTACAGCTATCCCAGAACTTCTTAACATGCTG -GATATTAAAGGAAAAATCATCACAACTGATGCGATGGGTTGCCAGAAAGATATTGCAGAGAAGATACAAA -AACAGGGAGGTGATTATTTATTCGCGGTAAAAGGAAACCAGGGGCGGCTAAATAAAGCCTTTGAGGAAAA -ATTTCCGCTGAAAGAATTAAATAATCCAGCGCATGACAGTTACGCAATGAGTGAAAAGAGTCACGGCAGA -GAAGAAATCCGTCTTCATATTGTTTGCGATGTCCCTGATGAACTTATTGATTTCACGTTTGAATGGAAAG -GGCTGAAGAAATTATGCGTGGCAGTCTCCTTTCGGTCCATAATAGCAGAACAAAAGAAAGAGCTCGAAAT -GACGGTCAGATATTATATCAGTTCTGCTGATTTAACCGCAGAGAAGTTCGCCACAGCAATCCGAAACCAC -TGGCATGTGGAGAATAAGCTGCACTGGCGTCTGGACGTGGTAATGAATGAAGACGACTGCAAAATAAGAA -GAGGAAATGCAGCAGAATTATTTTCAGGGATACGGCACATTGCTATTAATATTTTGACGAATGATAAGGT -ATTCAAGGCAGGGTTAAGACGTAAGATGCGAAAAGCAGCCATGGACAGAAACTACCTGGCGTCAGTCCTT -ACGGGGAGCGGGCTTTCGTAATCTTGCCCTGGGCATTATTGTCGTATAAACGCTTTACCGGACACATGAC -ATTCACAATGTGTGTTAATTTTACTGACATCTTTCAAAAGGAGCGTAATCATGCCGCACATCGACATTAA -ATGTTTTCCGCGTGAACTGGACGAACAACAAAAAGCAGCACTTGCTGCAGATATTACCGACGTTATTATT -CGTCATCTGAACAGTAAAGACAGTTCGATAAGCATTGCTCTACAGCAGATTCAACCAGAATCTTGGCAAG -CTATCTGGGATGCCGAAATCGCGCCCCAAATGGAGGCTTTGATAAAGAAACCTGGTTATAGCATGAATGC -TTAACCCGCCGTAACACGCTTGCCGCTGGTAACAAACGTCCCAGCACCTAAATGATGCAACGTATTGAGC -TTATCATCATCAAACTGCCAGCGGCCTTCGACAAATACCCGTGCGTCTGCCGCTGCTGATACTACTTCGC -CAAACAGCGTGTCGTATTCTTCTTGCGCAGAAGTCGCAGGTAGCAATCGACACTCCATCCACGCCAGACA -TTTTTCCTCGACCAGAGGCAAACCAAATACCGGGCCTCTCACAACCGGAATGCCATAGCAATTAAATTTA -TCTTCATCACGCCCCGACACACTTCCCACCGCCCACGTCCAGTTAGTTGCTGCAACGCCCGGGATAACGA -TGCCAAATTTACCGTTATGTTCAATCAACTCCCTGGTCCATGTCGATTTATCTACCACAATCGCCACGCG -TGGAGGTTCAAACTCCACCGGCATTGACCAGGCTGCAGCCATAATGTTACGCCGCTGGGATTGCTCATCG -AAACTGGTGATCAAGACCGTTGGGCCATGATTTAACAGACGGCTGGCATGGTGTAATTCTATGGGGATGA -ATCGGCTCATGGTATCGCCTCGCGAAGAAGGTTTTTTTAAGCGTAGTCCGTAACGCAATAAGTAACGAAA -TTAACGGGATTGGCGATTTGCGAACGTGATGCATGTCCGCGATCGCACAAAATAGCCGGTGCGGCGTCTA -TTCCAGGTTATAAGTTGAGAAAACCACTAAGGGAAACGCCTGATGACGCCCATTCTGAATCACTATTTTG -CCCGTATTAACTGGTCGGGAGCTGCTGCGGTCAATATTGATACGCTTCGTGCATTGCACCTGAAACACAA -TTGCACCATTCCGTTTGAAAACCTCGACGTTTTGCTGCCGAGGGAAATACAGCTTGATAATCAATCGCCG -GAAGAGAAACTGGTGATAGCCCGTCGTGGCGGTTACTGTTTTGAGCAGAATGGCGTGTTTGAGCGGGTGT -TACGCGAGCTGGGGTTTAACGTTCGCAGCTTGTTAGGGCGCGTAGTGTTATCAAATCCGCCAGCATTACC -GCCGCGCACCCATCGTTTGCTGTTGGTGGAACTGGAAGAGGAAAAATGGATTGCTGATGTCGGTTTCGGT -GGGCAGACGCTAACCGCGCCGATTCGTTTAGTTTCCGATCTCGTGCAGACCACGCCACACGGAGAGTATC -GGTTGTTGCAGGAGGGTGATGATTGGGTGTTGCAGTTTAATCATCATCAGCATTGGCAGTCGATGTACCG -TTTTGATCTCTGCGAGCAGCAACAAAGCGATTATGTGATGGGCAATTTCTGGTCGGCGCACTGGCCGCAG -TCGCATTTTCGCCATCATTTGCTGATGTGCCGCCATTTGCCGGACGGCGGCAAGCTGACACTGACCAATT -TTCATTTTACCCATTATGAAAATGGGCACGCGGTGGAGCAGCGAAATCTACCGGATGTGGCGTCATTATA -TGCTGTGATGCAAGAACAGTTTGGTCTGGGCGTGGATGATGCGAAACATGGCTTTACCGTGGATGAGTTA -GCGCTGGTGATGGCGGCGTTTGATACGCACCCGGAGGCGGGAAAATAATTTATGTCAGGTTGCCGGATGC -GGCGTAAACGCCTTATCCGGCATACATTAGCCCGGTTGTAGACCTGACAGGCGAAGCGCATCAGACAACG -GTTTCAGAGTTCAATTGCCCATTCGGCATGAAACAAAATCACCGCTGTGCCTGAAATGGTGACTTTTTCC -GGTTGGTTATCACGAATTGTCACCGTCACTTCAATCATACCGTCACGCCCCAATGCGCGCCCCTGATGGC -CTTTAACACGCAACACGTTGCCATCGTGGGGCAATACGTTGTGATGTACCAACCATGCACCCATCGGGCC -ATTGGCATTGCCAGTCACCGGATCTTCCACAATACCAATCGCAGGCGAGAACATGCGACCATCGGTTTCG -TTTTTGCCTGGGCGGATCTGGAACGGGAAGAAACCATTGCAGCCAATCTTTTTGCTGATAGCGGTCAGCG -CATTAAGGTCAGGCGAAAGGGCGTCGATATCCACTTCCGGTTTCAGTGGGATCATCACTTTTGAGTGTCC -TGTTGTTGCCACCTGAATTGGCAAGCCTGGCAGAATATCGTCCTCAGTGAGATGAAGCGCGTTGATAATC -GCCGCACGTGTTTCACCTTCCAGCGGTGGCTCAAAGCCCGGCGTACCTTGTTCCAGCGAAATACGATAAT -CATCGTTGTGCTTTTCGATAGTCACGCGATGTTTTCCTGCCAGCGATGTTTGCCAGATCGTGCAATTTCC -TAAACCTAACACCTTCGCACGTACATAGTGCGCAGCTACTGTCGCGTGACCGCAAATCGGCACTTCAACC -GTTGGCGTAAAGTAGCGGATGCGCACATCGCTGTCGTCGCTGTGCAGCAGAAAAGCAGTTTCCGAATGGC -CTAACTCGCGGGCGATAAGCTGCATTTGCGCTTCGCTAAGATTATCGGCGGGGAAAACAACACCGGCAGA -ATTGCCGCGAAACGGTTGTGAGGTAAAAGCATCGACGTGGTACACCTGCGGTTTCATTAACGTTCTCCTG -TGACTGGAGAACTATCATAGCCTGCAAGTGGCCGGAGAGCGAAGGGCTATCCGGCCAGGGTGAAATTATC -GCCGCGAACGCACAATTTGATATCGACGAGTAAAGTACTCAAACGGCGCGCTCCACACATGCACCAGTCG -GGTGAACGGGAAGAGCAGGAAGATGGTCATTCCCAACACCAGATGCAGGCGGAAGACGAACGCTACGCCG -TTGAGCATCTCTGACGATCCACCACGGAAAGTGACAATGCTTTGCGCCCAACCCACCAGCTTCATCATTT -CGCTACCATCAGGATACTGTGCTGAAAACGGTATGGTACTTAGCCCCAACAGACACTGGATCAGCAAAAT -GCTCATGATGATGATATCCGGCGTAGTGGAAGTGGCACGCACGCGCTGATTTGTCAGCCTGCGCCACAGC -AGTCCTGCGCCGCCAATCAACGTCAACACACCGCAAATACCGCCGAGCACCATCGCCATGAGTTGTTTCG -CTGCCACTGGCAAAAACCACGCGTACATCCAGTGCGGCGTTAACATGCCGAACAAGTGCCCGAAGAAAAT -CCCCAAAATGCCGATATGGAACAGATTCGACCATATCACCATCCCGCGTTTATCGAGCATTTGACTTGAG -GAGGCGCGCCAGGTGTACTGCCCGTAGTCGTAGCGCAGCCAGCTGCCGAGGAAAAACACCGTCGCACAAA -TGTACGGGTAGATATCGTAAAAAAAGACGTTCAGATACTGAATCATTTCCCACCTCCCGCACTGATGTCG -ACATATTGCGGCGCGACATCCTGGCTAAAGCGTCGCTGATATTGATTAAGCGGCGAGCTGTCACACGCCG -TGGCGTTATCTTCAATAAACTTCACCTGTTCCTCTTCCCACACTGCATCAAGCGCCTGGCGGGTGTCATC -GCGCTCTTCGCTGTTTACTTGTTTTGTGACACTGTCACTTGAAAGGGAGCTTCCCGCCAGTTGCAGCAGA -GCATCAAACAACGCGTACCACGGTGCCTCGCGTTGTTTTAAGCGACCGCCAAGCAGGGCGAGGATCGGCG -CAACATTGAGCAATCCTTCTTTCGCCTGATCGTCAGGCAGTACGCTTAAATACTCCAGATACAGCGGTAG -ATAATCGGGCAGTTCCCGACAATCCAGCTGCAGGCCGACCTTTTCATACTCCGCCAGCAGGTCCACCATT -GCCTGGCCGCGATCGCGGGACTCGGCATGAACATGTTCGAACAGCAGCAGCGACGTGGTGCGCCCGCGGT -CAAACACTTCGCACCATTCGGCCTGTTTATCCAGCAGCGGCGCGTTAAGCAGGTTGTGGGTGAAATCCGT -AAGCATCGGCGCGTCGCGGCGGATCAACGCCAGCGCGTCCTCCTTGCATTCCCACAACAGCTCGTCCGGA -TACTCCATCAACAGGCCGATCACTTTGAGGATCTGCATTATTCGCCCTCCGCTTTGTCGCGCACTTCGGT -GATGTTGATGGCATCGATACGGCTACTGTTGAACAGGTTGAATTTACTGTCCGAACCGTGGCAACCGTCG -CCAAAGGTAAAACCGCAGCCGTTGCGTTCTGCGAAGGCATCGCCCGCCATTTCCCGATGGCTGGTCGGGA -TAACAAAACGATCTTCATAGTTGGCAATGGCGAGATAGCGATACATCTCTTCGACCTGGGCGACGCTCAG -GCCTACTTCGTCGATGGCACGAGTATCAGTAACGCCTTCCACGGTTTGTGAACGCATATAGTGGCGCATC -GCCATCATCCGTTTCAGCGCCCGCAGTACCGGACCGGTATCGCCGGCACTCAACATATTGGCGAGATATT -GCACCGGAATACGCAGGCTTTCGATGGCGGGCAGCACGCCTTCGCTTTTCGGCAAACCGCCCGCATCTGC -GTAGGACTGAATCGGTGACAGCGGAGGAACGTACCAGACCATCGGCAGGGTGCGGTATTCAGGGTGCAAC -GGTAGTGCCAGTTTCCAGTCCATCGCCATTTTGTAGACTGGCGAACGCTGGGCAGCGTCAATCACATTTT -GTGGAATACCTTGTTTCAGGGCTTCCTCGATCACTGAGGGATCGTGTGGATCGAGGAACACTTCGCACTG -GCGTTCATAGAGGTCAACTTCGCGCTCGGTGCTCGCCGCTTCCTCGATGCGGTCGGCGTCGTAAAGCAGC -ACGCCCAGATACCGGATGCGACCCACGCAGGTTTCTGAGCACACGGTCGGTTGACCGGACTCAATTCGTG -GGTAACAGAAGATGCATTTTTCTGACTTGCCGCTTTTCCAGTTGAAGTAGATTTTTTTGTACGGACAACC -GCTTATGCACAAACGCCAGCCACGGCATTTATCCTGATCAATCAGCACAATGCCGTCTTCTTCGCGTTTG -TAGATAGCGCCGCTTGGGCAGGTCGCCACGCAGCTGGGATTGAGGCAGTGTTCGCACAGGCGCGGCAGGT -ACATCATGAAGGTGTTTTCAAACTGCCCGTACATCTCCTTTTGCATGGCCTCGAAGTTGCGGTCGCGGGC -ACGTTTTTCGAACTCACCGCCCAGCAGTTCTTCCCAGTTTGGCCCCCAGATCACTTTGTCCATCCGTTTG -CCGTCAATCAGTGAACGCGGGCGAGCAGTAGGAATATGTTTGCCTTCCGGTGCGCTATGCAAATGTTCGT -AGTCGAAGGTGAAAGGTTCGTAGTAATCATCAATCTGCGGCACCACCGGGTTGGCGAAGATTTTGGTTAT -TACGCCCATCTTGTTGCCCAGACGCGGGCGTATCTTGCCATTCACATCACGCACCCAGCCGCCTTGCCAC -TCTTCCTGATCTTCCCAGTTTTTCGGATAACCAATGCCCGGTTTGGTTTCGACGTTGTTAAACCATGCGT -ACTCCATGCCTTCGCGCCCGGTCCAGACGTTTTTACAGGTCACCGAACAGGTATGGCAGCCGATACATTT -GTCGAGGTTAAGCACCATGCCGACTTGTGAACGGATTTTCATTTTTTCGCCTCCTGTACCTGATCGCGAC -CTTCATCATCCAGCCAGTTAACGTTCTTCATCTTGCGGATCATGATGAACTCATCGCGGTTCGATCCGAC -GGTGCCGTAGTAGTTAAAGCCCCAGGCCAGCTGCGCGTAACCGCCAATCATATGCGTTGGTTTCGGGCAA -ACGCGGGTAACCGAGTTATGAATGCCGCCGCGCATGCCAGTTACTTCCGAACCAGGAATATTCATAATGC -GTTCCTGGGCGTGATACATCATGGTCATGCCCGGCGGTACACGTTGGCTGACCACCGCGCGGGCAGTCAG -CGCGCCGTTGGCGTTGAATACTTCCACCCAGTCGTTATCGACAATGGTCAGTTCTCGGGCATCTGTTTCG -CTGATCCAGACAATCGGTCCACCGCGAGAGAGCGTCAGCATTAGCAGGTTTTCACTGTAGGTTGAGTGAA -TGCCCCATTTCTGGTGCGGCGTCAGGAAGTTAAGTGCTTTTTCCGGGAAGCCGTTTGGCGGTATCTGGCG -CATCTCACTGACGCTACGGGTGTCGATAGGCGGGCGATAAGCCACCAGGCTTTCACCAAAAGCACGCATC -CACGGATGATCCTGATAGAGCTGCTGGCGTCCCGACAGCGTGCGCCACGGAATTAACTCATGAACGTTGG -TGTATCCCGCGTTATAGGAGACGTGATCGCTTTCCAGACCGGACCAGGTGGGGCTGGAGATAATTTTACG -CGGCTGCGCCTGAATATCGCGAAAGCGAATCTTCTCGTCCTCTTTGTGCAGCGCCAGATGGGTATGTTCG -CGCCCGGTGATCTCGCCCAGCGCCTGCCACGCTTTGACTGCAACATGACCGTTGGTTTCCGGTGCCAGTG -CCAGAATCACTTCTGAAGCGTCAATGGCGGTGTCAATCAGCGGACGCCCCTGTGCCGGGCCATCACGCTT -GGTGTAATTGAGTTTGCCGAGGAAATCGATTTCATCCTGGGTATTCCACGAAATCCCTTTACCGCCATTG -CCAAGTTTGTCCATCAATGGCCCGAGCGAGGTAAAGCGTTCATACGTAGCAGGGTAGTCGCGCTCCACCG -CCACAATATTCGGCGCGGTTTTGCCTGGAATCAGATCGCATTCGCCTTTGCGCCAGTCGAGCACTTCACA -CGGCTGTGAGAGCTCTGCCGGAGAGTCATGCAGTAGGGGTTGTAATACCACGTCGGTTTCTTTGCCAAGA -TGACCCACGCACACTTGCGAAAATGCTTTGGCGATACCTTTGTAGATTTCCCAGTCGCTGCGTGATTCCC -ACGCCGGATCGACCGCCGCAGAAAGCGGATGAATAAACGGATGCATATCCGAGGTGTTCATATCGTCTTT -TTCGTACCAGGTGGCGGTGGGCAGAACGATATCGGAGAACAGGCAGGTACTGGACATGCGGAAGTCGAGC -GTCACCAGCAGGTCGAGCTTGCCTTCAATCGCTGCAGTTTGCCACTCGACTTCTTCCGGTTTGATCCCGT -CGCTGGCACCGAGTTCCTCGCCCTGAATCCCGCTTTCGGTCCCCAGCAGATACTTCTGCATATACTCGTG -GCCTTTGCCGGAGGAGCCAAGCAGGTTAGAGCGCCAGACAAACAAATTACGCGGATGATTGCTGCTGCTA -TCTGGTTGTTCGCAGGCCATACGTAAATCGCCCGATTTCAGCGCCTGGGCGGTAAATTCTGTGGGGGATA -ATCCGGCCTTGTCGGCTTCAGCTTTAATCCCGAGCGGGTTACGCCCCAGCTGCGGCGCAGAAGGTAGCCA -GCCCATACGTTCGGCGCGAACGTTGAAATCAATCAGATGACCGCTGTACTTACTGGCATCGGCGAGCGGT -GAAAGTAACTCCTGAGCAGAGACTTTTTCATAGCGCCATTGGCTGGAATGATTGTAGAAAAACGAGGTGC -TGTTCATTTGGCGCGGTGGTCGGTTCCAGTCGAGCGCAAAGGCCAGTGGCAACCAGCCGGTTTGTGGGCG -CAGTTTTTCCTGGCCGACATAGTGTGCCCAGCCGCCACCGCTTTGCCCGACACAACCGCAGAAGATCAGC -ATATTGATCATCCCGCGGTAGTTCATGTCCATGTGATACCAGTGGTTAACACCTGCGCCGAGGATAATCA -TCGAGCGCCCATGCGTTTTATGGGCGGTATCGGCAAATTCACGGGCGATGGTTTCAATATACTGGCGCGG -CACGCCGGTAATTTGCTCACCCCAGGCTGGGGTGTACGGTTTGATTTCAGCGTAATCTTTCGCACTGTTT -TCATCTTCCAGCCCGCGATCGAGGCCGTAATTCGCCAGTACCAAATCATAAACGCTGACCACCGGACAGG -TGTTGCCATCGACTAACGTCAGGTTTTTAACGGGCAATTGGCGCACCAGCACCGGATTGTGTTTTACGCT -GCGAAAATGCGGATTTTCAATGCCGCCAAAGTAGGGGAAGGCCACGCCTGCAACAGCGTCATGTTGACCG -AGCAGGGTTAACGACAATTCGGTTTCCGTACCGGCGGCAATGGATTCCAGATTCCATTTGCCTTTTTCTC -CCCAGCGGAAACCAATCGAACCGTTCGGCACTACCAATTCACCTGCGGTATTAACTGCTACGGTTTTCCA -CTGCGGATTGTTGCTTTCGCCCAGTCCATCCACCAGGTCAGATGCGCGGATCATGCGCCCGGGAACGTAG -CTACCATCGTCGCGAGGCTCCAGCATTACCAGCATCGGCATGTCGCTGTAGCGGCGGCAGTAGTTGATAA -AGTAGTCGCTGGGATTATCGAGATGAAACTCTTTTAAAATCACATGGCCCATTGCCATCGCCAGGGCGCT -ATCAGTGCCTTGTTTCGGTGCCAGCCACTGGTCGCACAATTTGGCCACTTCAGAGTAGTCAGGGGTAATG -GCGATGGTTTTAGTGCCTTTGTAGCGTACTTCGGTAAAGAAGTGGGCGTCCGGCGTACGTGTCTGCGGTA -CGTTAGACCCCCAGGCGATGATGTAGCTGGAGTTATACCAGTCGGCAGATTCCGGTACGTCGGTTTGCTC -GCCCCAGGTCATCGGCGAGGCGGGCGGCAGGTCGCAATACCAGTCGTAGAAACTTAAACAGGTGCCGCCA -AGCAGCGACAGATAACGCGTTCCGGCGGCGTAAGAAACCATCGACATCGCCGGGATCGGCGAGAAACCGG -CAACGCGATCCGGGCCGTAGGTTTTGATGGTCCAGACGTTAGCGGCGGCAATCAGCTGGTTTAGTTCCTG -CCAGTTGGAGCGGATAAACCCGCCGCGCCCACGCACTTGTTTGTAGCTCAGGCACTTTTGCGGATCGTTC -ATAATCGATGCCCACGCCAGTACCGGATCGCTGTGTTGCTTGAGGGCTTCGCGCCACAGTTCAATCAGTC -GTTTACGAATGAGCGGGTATTTCAGGCGGTTAGCGCTGTAAAGATACCAGGAGTAACTTGCGCCACGCGG -GCAGCCGCGAGGTTCATGATTGGGCAGGTCAGGGCGAGTGCGCGGGTAGTCGGTCTGTTGGATTTCCCAG -GTCACCAGACCATTTTTAACGTAGATTTTCCAGCTACAGGAGCCTGTACAGTTAACACCGTGGGTGGAAC -GCACGATTTTGTCGAACTGCCAACGCTGGCGATAGCTGTCCTCCCAGTCGCGGTTGCTATGCATCACCTG -TCCGTGACCATCGGCAAAGGTTTCGCCCTTTTGTTTGAAGTAGCGAAAGCGATCCAAAAGTTTACTCATG -ACATGACTCCTGCTCCAGGAATGAATTGGGATCTGATGCCTTGTCGGATGCGACACGGTTGTACATCAGG -CATCGATCTCTTATTTTTGGCTGAACTTCCGCCGACCATAAACCAGCCAGGTCAGCAGCACACAAACGAT -GTAGAAGATTAAAAACACTTTCATCGCGCCGACCGGAGAGCCGGTCATATTGAGCGACATGCCAAACGCC -TGCGGAATAAAAAAGCCGCCCACTGCGCCAATGGCTGAGATAAAGCCCAGAGCCGCCGCCGTTTCGGTGA -CGGCTTCTTTATGAGCTTGCTCATCACTACCGCCTTTCATCTTTACCCGATAAATGGTTATCTGGCGAAA -GATGACGGCGATCATCTGGAAAGTAGAACCACTTCCCAGACCCGCAGTCAGAAACAGCCCCATAAATACG -GCGTAAAAGGCGATGAAATTACCGGAGCCTGTGCCCGGTAAGGTAAGGAACAGCAGGGCACTGAAAATCG -CCATAAAAATAAAGTTGATCAACGTCACCCGCACGCCGCCGAACTTATCGGAAATAGCACCACCAACCGA -CCGCGCGATGGCACCGATAAATGGGCCAAAGAACGCCAGGCGCAGAATATTCACATCCGGGAACTGGGTT -TTTGCCAGCATGGCAAAACCCGCAGAAAAACCGATAAACGAACCGAAGGTGGCAAGGTAAAGCAGGCTCA -GCAGCCAGAGATGCAGGCGTTGTAAGACAGGGAGCTGGTCGGCAATTGAGGCGCGTGAACTGGCGATATC -ATTCATCCCTGACCATGCGGCGATCGTGGCAATCGCCAGTAGCGGTACCCAAATCCATGCGGCATTCGCC -AGCGACATCACCGAACCGTCGGCCTGCGGTACGCCATTGACGCCGAGAAAGGCAAATACAGGTACAAAAA -TGACCAGCGGTGCAACCAGCTGCATTACACTTACACCTAAGTTTCCTAATCCGCCATTAATCCCAAGAGC -GCTCCCTTGTTTGGCTTTTGGAAAGAAGAAACTGATATTGCCCATGCTCGAAGCAAAGTTTGCACCTGCA -AAACCGCATAGCAAAGCGATAACGATAAATATCCCAAAAGGAGTATTCGGATTTTGCACGGCAATTCCGA -GCCAGACGCAAGGAATAATCAGGATTGCAGTACTAAAAACCGTCCATCGGCGTCCACCGAATATAGGCAC -CATAAAGGAGTAGGGAACACGCAATAATGCGCCAGAAACGGAGGGTAATGCGGTTAATAAAAAGAGTTGA -TCGGTAGTAAAATTAAAACCGATTTTATTGAGATTAACGGTAACTGCGCTAAATAGCATCCAGACACAGA -AGGCAAGAAGTAGACAACTGACTGATATCCAGAGATTTCTTCGAGCAATATGTTTTCCTTTATTTTCCCA -GAAGGCCGGATTTTCTGGTTTCCAGTCGCGCAAAAGATAACGACTATTTTTCTCATTTTGCAGTGCCATA -TTGTTCCTCACATGCACACATTGGTAATGAAAAAAAGACAAAACACGAGGTAAGGCGCAATAGCCAGTTA -TTAGAATTAAGGATGAATTGGGTGAAGTGCTGATTGAAAGAATAGATAAGAAAGCGTAACCGCGGGGGCA -GAATGGGGATTAAGTAGCCAGATATGTGTTACTAAATGTAACTAACAAGCTAACCTTCAAACGGGGTTAA -TCTTTGAACGTATGTCATGTTTCAACCCTTCAGATCGTGAATCTAAAGGGTTACATATTAACTATATTAT -CAACAAGACCAGACACTTATAGAATTAGTGATGATTTATTCACTAAAAAGGCCATGAACTGGAGGAAAAC -GATCTGTCCAGAAGGTCTATCGGTTCCTCTCTTATTGCCTGATTGTAATAATCGTTATTACAGTAAGTAT -TGTTTATTTCATCTAAGGTCATGTTTTTAACTTTTATATTCATCTGGTTTACAACTTCCTCTGTCTTGTA -AGTGTGTATATTATATGGGGTATATGCTTTTTTAATAGGATAGTGAAACAATTCGTTATCCACATCTATT -CCGTCAGAGTGAACTTCAAATGCACCAGGCGAAAGAATTGCCAGGCCAGTATTAAGCTTAAGTGCTGGGG -AAAACAAATTAAATAACATGAGCTGCATAGTAGGGCAATTGTTCTTCCCAGAAACATTTAAAAAATTTAA -GTTTTGCTCTGTTTTATTATGGGGAATAAAGTTCCAATATCGGATGTATTATTAGTATCAATGTGGGTTA -TTTTATTATTGTCCAGTCTTAAACTTTTGATAGATGGAAGATAAGTCAGGAAATCAAGATTTATATATTT -CAACTGGTTGTTAGCAGCGTTTAATGTCTGAACATTGCAGAAGTTGCTATAGAATATTTTAATTTCAGAA -AGCAAATTGTTGTTAATAAGTAACGTATTCAAGTTGGGAAATAAGTCATTGTGTAAACTTGTTAGTTTAT -TATGGGATAGATCCAGCAGTAAGAGTTCATTTTTATTACCTGCAACAATATCAGTTAATTGATTATGGCT -GAGATTCAGGTATTGCAGCCATTCGCAAGATTCTAATTGCACAAACTCTAGTTGATTATGTGCCGCACTA -AAATAAGTAACTGATGAAAGCCTATCTATATCAATATTTCTGAGAGCATTATTATTCATAGATATATGTG -TAATACTTACATTTCTGCCTTGAGGAAAATTTATTGACTCAAGAGCATTACTATTCAGACTTAGCTTTAC -GAGTCTATCGTAGTTGGTTGCATCAAAATGTGTGAATTGGTTATTATCAAGATTGATAGATGTGAAGTTT -TGCAGCCCTGGTGGTTGAGTGGTTAAATTAAGTCCTGATAAATCAATGGTCACTTCATTAGTGTCATCAA -TTATATTTCTTACTGCAGTCCAGTACTGCATTTGTGCAAGTGGATCATTGTTGATGCCGTTAACTAATAC -ATGCCAAAGATGTTTTGATGATATTAGTTGATCAATGTCATTGGTTGGCAGTAAATTGTTATTGCTTAAG -TTTAAATATTCCAGTTTTGTAGTGTTTTTGGCGTTTAAATGTGCAATATGGTTGTCGTTTAAAGTGATTG -TTTTCATCCTGGGATGATTGTGTAATATAAGGTCAGTGATCATATTGTGATGGGCACTTAACTCAATCAG -AGATTCTTGCCGCGCGAGCCGTTGGCTTCATCGTTATAGCCTTTAAAATCATATTCCCAGTGACCAAAAC -CAATCATTTGATCATTGATTTGCGTTTCTCCTTTAAAGCCGAGACGGGCATAAGTTTTATCACCATCGTC -ACGCTTATCATCAGTAAAATAACGTAGAGCGGTAACCTTGCCATAAAGGTCGAGTTTATTACCATCCTTG -TTATAGACTTCGGCAGCGTGTGCTACGTTCGCAGCTAACAAACCAGTTACAACCACCGCAACTATTTTTA -ATTTCATTTAACAGAATCCTTTTAATTATCGTTAAACGTATTTTCTAAACGAATTTTAAACGGCGTCATT -TATAAATGACATACTGTTTTTAAAATAGAATGGTGATTAAAAACAATGAGAAAAATAGATGAAATAATAT -TATTTATCGATATGTGATCGAAGTCGAAATGAGATATAAGGTGAATTACTGGTATTTGAAATTTATTTTT -TTAATATTGTCGGAATTTATCTGATTAACTACCGGGCCGTAGACCCGGCAGTTATTTTAACCACGACGTG -TCGCCAGCCAGCAGAGCAGGGAACCGCCGCAGACCATCAGCGCGCCTTGCCAGAACGAGAACGACAGCGG -GGCGCTGAGCAGCACGGCTGCAAGCGCTGAGGAAAGTACAGGCGTAAAATACGAACCTACCGCCATAATG -GTGACATTGCCATGCAATATACCGACATTCCATGCAGCATAAGCAAATCCTAAGGTAAATGCCGCAGAGA -TGAGTTTAATCATGACGGGCGTGCTAAATATCATTTCTGGTTGTGGCGTAAGAAAATAGTAAACCCACAG -ACTTGCTCCCGTTAGCAGGACAAAAACGGTAATTCCATTAAATCCGCGTGCGTATTTATTCGTTACTGTG -CAATAGGCTGCCCAGATAAACGCACCAATGAACGCCAGGAAATAACTCAATGGGCTGGTGGTGATATTAT -TGATGATTTCATCATAATGTAACCCATTGTCACCGCCTAACACCCAACAGACGCCGACGAGGGCTAATAA -TAATCCAGGTACAATCAACCAGTTGGTTTTCTGACCATTAAACAGAATGGCAAAGAGAATTGTCAGGCTG -GGCCACAGATAGTTCACCATACCCACTTCAATCGCCTGATGATGGGTCGCCGCATACCCTAAGGAAAGCG -CCAGACAGATTTCATAGCTGACGAATAACAGACTCCCGGCGAGTAAATAGCCTTTCGGGATTTGCCGAAT -ACGCGGAAATCCAACCGTGAAGATTAACAGCAGCCCGCTTAATGAATAGATAGCAGCTGCGCCGCCGACC -GGGCCGAGCCCCTCACTGACACCGCGAATCAATCCTACCATCGTGCTCCACAGGACGATCGCTATCAGCC -CTATGAGCGTTGCTTTTTGTCGTGTCATGCTCGCTGTTTTGTCTCTCTTGCCGTTAAAAATTAAGCTGAA -TTTTATAGCATTTTTTTAACTGGCCTGTCAGGCAGTGGTGCGTTTTTCTACCGCTATTGAGGTAGGTCAA -TTTGCGAAGGCGGATTATTTTGTGGCAAACAGATGTTCTTTTTGATTTCGCGCAAAAAGATTCAGAATTT -TACTGTTAGTTTCCTCGCGCAGTAATACCCCTGAAAAAAGAGGAAAGCAATGGACGTCAGTCGCAGACAA -TTTTTTAAAATCTGCGCGGGCGGTATGGCTGGAACAACAGTAGCGGCATTGGGCTTTGCCCCGAAGCAAG -CACTGGCTCAGGCGCGAAACTACAAATTATTACGCGCTAAAGAGATCCGTAACACCTGCACATACTGTTC -CGTAGGTTGCGGGCTATTGATGTATAGCCTGGGTGATGGCGCAAAAAACGCCAGAGAAGCGATTTATCAC -ATTGAAGGTGACCCGGATCATCCGGTAAGCCGTGGTGCGCTGTGCCCGAAAGGGGCCGGTTTGCTGGATT -ACGTCAACAGTGAAAACCGTCTGCGCTACCCGGAATATCGTGCGCCAGGTTCTGACAAATGGCAGCGCAT -TAGCTGGGAAGAAGCATTCTCCCGTATTGCGAAGCTGATGAAAGCTGACCGTGACGCTAACTTTATTGAA -AAGAACGAGCAGGGCGTAACGGTAAACCGTTGGCTTTCTACCGGTATGCTGTGTGCCTCCGGTGCCAGCA -ACGAAACCGGGATGCTGACCCAGAAATTTGCCCGCTCCCTCGGGATGCTGGCGGTAGACAACCAGGCGCG -CGTCTGACACGGACCAACGGTAGCAAGTCTTGCTCCAACATTTGGTCGCGGTGCGATGACCAACCACTGG -GTGGATATCAAAAACGCTAACGTCGTGATGGTGATGGGCGGTAACGCTGCTGAAGCGCATCCCGTCGGTT -TCCGCTGGGCGATGGAAGCGAAAAACAACAACGACGCAACCTTGATCGTTGTCGATCCCCGTTTTACGCG -TACCGCTTCTGTGGCGGATATTTACGCGCCTATTCGTTCCGGTACGGACATTACGTTCCTGTCTGGCGTT -TTGCGCTACCTGATCGAAAACAACAAAATCAACGCCGAATACGTTAAGCATTACACCAACGCCAGCCTGC -TGGTGCGTGATGATTTTGCTTTCGAAGACGGTCTGTTCAGCGGCTACGACGCTGAAAAACGTCAATACGA -TAAATCGTCCTGGAACTATCAGCTCGATGAAAACGGCTATGCGAAACGCGATGAAACACTGACTCATCCG -CGCTGTGTGTGGAACCTGCTGAAAGAGCACGTTTCCCGCTACACGCCGGACGTCGTTGAAAACATCTGCG -GTACGCCAAAAGCCGACTTCCTGAAAGTGTGTGAAGTGCTGGCCTCCACCAGCGCACCGGATCGCACAAC -CACCTTCCTGTACGCGCTGGGCTGGACGCAGCACACTGTGGGTGCGCAGAACATCCGTACTATGGCGATG -ATCCAGTTGCTGCTCGGTAACATGGGTATGGCCGGTGGCGGCGTGAACGCATTGCGTGGTCACTCCAACA -TTCAGGGCTTGACTGACTTAGGCCTGCTCTCTACCAGCCTGCCAGGTTATCTGACGCTGCCGTCAGAAAA -ACAGGTTGATTTGCAGTCGTATCTGGAAGCGAACACGCCGAAAGCGACGCTGGCTGATCAGGTGAACTAC -TGGAGCAACTATCCGAAGTTCTTCGTTAGCCTGATGAAATCTTTCTATGGCGATGCCGCGCAGAAAGAGA -ACAACTGGGGCTATGACTGGCTGCCGAAGTGGGACCAGACCTACGACGTCATCAAGTATTTCAACATGAT -GGATGAAGGCAAAGTCACCGGTTATTTCTGCCAGGGCTTTAACCCGGTTGCGTCCTTCCCGGACAAAAAC -AAAGTGGTGAGCTGCCTGAGCAAGCTGAAGTACATGGTGGTTATCGATCCGCTGGTGACTGAAACCTCTA -CCTTCTGGCAGAACCACGGTGAGTCGAACGATGTCGATCCGGCGTCTATTCAGACTGAAGTATTCCGTCT -GCCTTCGACCTGCTTTGCTGAAGAAGATGGTTCTATCGCTAACTCCGGTCGCTGGTTGCAGTGGCACTGG -AAAGGTCAGGACGCGCCGGGCGAAGCGCGTAACGACGGTGAAATTCTGGCGGGTATCTACCATCATCTGC -GCGAGCTGTACCAGTCCGAAGGTGGTAAAGGCGTAGAACCGCTGATGAAGATGAGCTGGAACTACAAGCA -GCCGCACGAACCGCAATCTGACGAAGTGGCTAAAGAGAACAACGGCTACGCGCTGGAAGATCTCTATGAC -GCTAATGGCGTGCTTATTGCGAAGAAAGGTCAGTTGCTGAGTAGCTTTGCGCATCTGCGTGATGACGGTA -CAACCGCATCTTCTTGCTGGATCTACACCGGTAGCTGGACAGAGCAGGGCAACCAGATGGCTAACCGCGA -TAACTCCGACCCGTCCGGTCTGGGGAATACGCTGGGATGGGCCTGGGCGTGGCCGCTCAACCGTCGCGTG -CTGTACAACCGTGCTTCGGCGGATATCAACGGTAAACCGTGGGATCCGAAACGGATGCTGATCCAGTGGA -ACGGCAGCAAGTGGACGGGTAACGATATTCCTGACTTCGGCAATGCCGCACCGGGTACGCCAACCGGGCC -GTTTATCATGCAGCCGGAAGGGATGGGACGCCTGTTTGCCATCAACAAAATGGCGGAAGGTCCGTTCCCG -GAACACTACGAGCCGATTGAAACGCCGCTGGGCACTAACCCGCTGCATCCGAACGTGGTGTCTAACCCGG -TTGTTCGTCTGTATGAACAAGACGCGCTGCGGATGGGTAAAAAAGAGCAGTTCCCGTATGTGGGTACGAC -CTATCGTCTGACCGAGCACTTCCACACCTGGACCAAGCACGCATTGCTCAACGCAATTGCTCAGCCGGAA -CAGTTTGTGGAAATCAGCGAAACGCTGGCGGCGGCGAAAGGCATTAATAATGGCGATCGTGTCACTGTCT -CCAGCAAGCGTGGCTTTATCCGCGCGGTGGCTGTGGTAACGCGTCGTCTGAAACCGCTGAATGTAAATGG -TCAGCAGGTTGAAACGGTGGGTATTCCAATCCACTGGGGCTTTGAGGGTGTCGCGCGTAAAGGTTATATC -GCTAACACTCTGACGCCGAATGTCGGTGATGCAAACTCGCAAACGCCGGAATATAAAGCGTTCTTAGTCA -ACATCGAGAAGGCGTAAGGGGGCGAACAGATGGCTATGGAAACGCAGGACATTATCAAAAGGTCCGCAAC -TAACTCCATCACGCCGCCTTCTCAGGTGCGTGATTACAAAGCAGAAGTCGCAAAACTTATCGACGTTTCC -ACCTGTATCGGCTGTAAAGCCTGTCAGGTGGCGTGTTCGGAGTGGAACGACATCCGTGATGAAGTGGGGC -ACTGCGTCGGGGTTTACGATAACCCCGCCGATCTGAGCGCCAAGTCCTGGACGGTGATGCGCTTTAGCGA -AACCGAACAGAACGGCAAGCTGGAGTGGCTGATCCGTAAAGACGGCTGTATGCACTGTGAAGATCCCGGC -TGCCTGAAGGCGTGCCCGTCTGCTGGTGCAATCATTCAGTACGCTAACGGGATTGTCGATTTCCAGTCGG -AAAACTGCATCGGCTGTGGTTACTGCATTGCCGGGTGTCCGTTTAATATTCCGCGCCTCAACAAAGAGGA -TAACCGGGTATATAAATGCACGCTCTGCGTCGATCGCGTCAGCGTCGGCCAGGAACCGGCTTGTGTGAAA -ACCTGTCCGACCGGGGCTATCCACTTCGGCACCAAGAAGGAGATGCTGGAGCTGGCGGAACAGCGCGTGG -CGAAACTGAAAGCGCGTGGTTACGAACATGCTGGCGTCTACAACCCGGAAGGGGTCGGTGGTACGCACGT -TATGTACGTGCTGCATCACGCCGATCAGCCGGAGCTGTATCACGGTCTGCCGAAAGATCCGAAGATCGAC -ACCTCGGTAAGCCTGTGGAAAGGCGCGTTGAAACCGCTGGCAGCGGCTGGCTTTATTGCCACTTTTGCCG -GGTTGATTTTCCACTACATCGGTATTGGCCCGAATAAGGAAGTGGACGATGACGAGGAGGATCATCATGA -GTAAGTCGAAAATGATTGTGCGCACCAAATTTATTGATCGCGCCTGTCACTGGACCGTGGTGATTTGCTT -CTTCCTGGTGGCGCTGTCCGGGATTTCGTTCTTCTTCCCGACGCTGCAATGGCTGACGCAAACCTTCGGT -ACGCCGCAGATGGGACGCATTTTGCACCCGTTCTTCGGCATTGCGATTTTCGTCGCACTGATGTTTATGT -TTGTGCGTTTTGTGCATCACAACATCCCGGATAAGAAAGATATTCCGTGGCTGTTGAACATTGTCGAAGT -ATTGAAAGGCAATGAGCATAAAGTGGCGGATGTCGGTAAGTACAACGCCGGGCAAAAGATGATGTTCTGG -TCGATCATGAGCATGATTTTCGTGCTGCTGGTGACCGGGGTGATTATCTGGCGTCCGTACTTTGCGCAGT -ACTTCCCGATGCAGGTTGTTCGCTACAGCCTGCTGATCCACGCGGCTGCGGGTATCATCCTGATCCACGC -CATCCTGATCCATATGTATATGGCATTTTGGGTGAAAGGATCGATTAAAGGGATGATCGAAGGGAAGGTA -AGTCGTCGCTGGGCGAAGAAACACCATCCGCGCTGGTATCGTGAAATCGAGAAGGCAGAAGCGAAAAAAG -AGAGTGAAGAAGGGATATAATCTCTTTTGAACTTTAAGCTGAAAATGGCGCTGTAAAAGGCGCCATTTTC -ATATTGTAGACAACGTAGGCTTTGTTCATGCCGGATGCGGCGTGAACGCCTTATCCGGCATGAAAACCCT -TCAAATCCAATAGATTGCAGTGAACGTGTAGGCCTGATAAGCGTAGCGCATCAGGCAATGTTGCGTTTGT -CATCAGTTTCAAATGGCGCTGTAAAAGGCGTCATTTTCATATTGTAGACAACGTAGGCTTTGTTCATGCC -GGATGCGGCGTGAACGCCTTATCCGGCATGAAAACCCTTCAAATCCAATAGATTGCAGTGAACGTGTAGG -CCTGATAAGCGTAGCGCATCAGGCAATGTTGCGTTTGTCATCAGTTCTAAATGGCGCTTTATAAAGTGCC -ATTTTTTTATTGCGTAACCAGACGGCGTAATCGCGACACATCCACTGTTTTTTCTGCCTCTGCCAGACTC -CAGGCGTTTTGCAGATTCAGCCACATTTGCGGCGAACTGCCGATCACCACGGAAAGTTTAATCGCCATTT -CTGGCGTCAAAGCTGCTTTTCCTGTCAGCAATCGGCTTGCCGTTGAGGGAGCAATTTCCATTGCTCTGGC -AAACTCGCGCAGGCTGACATTAAGTTCGTCCAGTGATTCCTGAATAATGTCCCCCGGGCGGGGATGATTG -GCCATTTTCATTAGTGTCTTTACTCTCAGTAGCGTTCCTTCACTGGGAACACTATCATTATTGTTCCTTC -CTACGCAACAATAATCCATTTAGCCATTTCATGTTGGAGAGTGTGCGATGCTGCGACCCGAACATGGCAG -TCGCAGCAAAGGCCTCTTAGTGACGGAAATCAATCACCATGCGGCCACGGATTTTGCCTTCTTCCATCTC -AGTAAAGATGGTGTTGATGTCCGCTAACGGACGCAGGGCGACTTTCGGCACCACTTTACCTTCGGCGGCA -AACTGGAAGGCTTCAGTTAAATCCTGGCGCGTGCCGACCAGCGAACCGACCACTTCAATACCATCCAGCA -CAAGACGTGGGATATCCAGGCTCATAGACTCCGGCGGTAGACCGACAGCCACAACACGACCGCCTGCACG -GACAGCATCAACTGCCGAGTTAAACGCAGCTTTAGCTACCGCTGTTACCACCGCAGCGTGAGCGCCACCA -GTTTTCTCCTGCACAATTTTGGCGGCGTCTTCGGTGTGTGAGTTAATCGCTAAATCTGCGCCCATTTCGG -TTGCCAGTTTTAACTGCTCATCATTGACATCAATGGCGATCACTTTGGCGTTAAAGACATTCTTCGCGTA -TTGCAGGGCGAGGTTACCCAGACCGCCAAGACCGTAGATAGCAATCCACTGCCCTGGACGAATTTTTGAC -AGCTTAACGGCTTTGTAGGTGGTGACTCCCGCACAGGTAATGCTGCTGGCCGCCGCCGAGTCCAGACCAT -CTGGCACTTTTACCGCGTAATCGGCGACCACGATGCACTCTTCCGCCATCCCGCCATCAACGCTGTATCC -GGCATTTTTAACTGAACGGCAGAGCGTTTCGTTACCACTGTTACAGTATTCGCAATGACCGCATCCTTCG -TAGAACCACGCCACGCTGGCACGATCGCCTGGTTTTAATGAGGTGACACCTGGACCCACTTCTGCCACCA -CACCGATGCCTTCATGGCCCAGAATTACGCCGGTTTTGTCACCAAAATCGCCATTCTTAACATGAAGATC -GGTATGACATACACCACAACACTCCATTTTCAGCAGGGCTTCGCCATGTTTCAGTGAGCGCAGTGTTTTA -TACGTAACGTCAACATGATGATCCTTCGTAACAACTGCAGCCTTCATAGTTCCTCCTTTTCGGATGATGT -TCTGCATAGCAGGTGAGGCAAATGAGATTTATTCGCCACTACCCAGTATGGATGAGATCTGAAAAAGGGA -GAGGGAAATAGCCCGGTAGCCTTCACTACCGGGCGCAGGCTTAGATGGAGGTACGGCGGTAGTCGCGGTA -TTCGGCTTGCCAGAAATTATCGTCAATGGCCTGTTGCAGGGCTTCGGCAGAGGTTTTCACCGCCACGCCT -TGCTGCTGCGCCATTTTGCCAACCGCAAACGCAATTGCGCGGGAGACTTTCTGAATATCTTTCAGTTCCG -GCAGTACCATACCTTCGCCGTTCAGCACCAATGGTGAATACTGCGCCAGCGTTTCACTTGCCGACATCAG -CATCTCATCGGTGATACGTGACGCGCCGGAAGCAATAACACCCAGGCCGATGCCCGGGAAAATAAAGGCG -TTGTTACACTGGGCGATAGGGTAGATTTTATCTTTCCATACCACTGGATTAAACGGGCTGCCCGTGGCGA -CCAGCGCGTTACCTTCGGTCCAGGCGATAATGTCCTGCGGTGTGGCTTCCACGCGTGACGTCGGGTTAGA -CAGCGGCATCACGATCGGACGCGGACAGTGTTTATGCATCTCACGGATGATCTCTTCCGTAAACAGCCCG -GTCTGTCCTGAGACGCCAATCAGAATATCTGGTTTTACATTGCGCACCACATCCAGCAGTGACAGCACAT -CGCTGTCGGTATCCCAGTCACTGAGGTTTTCGCGCTTCTGCACCAGTTTGGTCTGGAAAGGCAGCAGGTT -CGGCATCTTGTCAGTCAGCAAGCCAAAGCGATCGACCATAAAGACTTTCTGCCGCGCCGCTTCCTCGCTT -AATCCTTCGCGCTGGGTCTGGGAGATGATCATTTCGGCAATGCCGCATCCCGCTGAACCTGCGCCAAGGA -AGACGATTTTTTTCTCGCTTAACTGACCACCTGCCGCGCGGCTTGCTGCGATCAGTGTGCCGACTGTTAC -CGCCGCAGTGCCCTGAATGTCATCGTTAAAAGAACAAATTTCATTGCGATAGCGGTTAAGTAACGGCATC -GCATTTTTTTGAGCAAAGTCTTCAAACTGCAACAGCACGTCTGGCCAGCGTTGTTTCACAGCCTGGATAA -ATTCATCAACGAATTCATAGTATTCGTCGTCAGTGATACGCGGATTACGCCAGCCCATATACAGCGGATC -GTTAAGCAGCTGTTGGTTGTTCGTTCCGACATCCAGCACCACCGGAAGGGTATACGCCGGGCTGATGCCG -CCACAGGCGGTATAGAGCGACAGTTTACCGATCGGAATGCCCATCCCGCCGATGCCCTGGTCACCAAGCC -CCAGAATGCGTTCACCGTCAGTCACCACAATCACTTTAATATTATGGTTCGGCACGTTTTGCAGAATATC -GTCCATATTGTGCCGGTTCTGGTAAGAGATAAACACGCCGCGTGAACGGCGGTAGATCTCAGAAAAACGC -TCACAGGCTGCGCCGACGGTTGGGGTATAAATAACAGGCATCATCTCATCAAGATGATTGTTTACCAGAC -GGTAGAAGAGGGTTTCGTTAGTGTCCTGGATGTTACGCAGGTAGATGTGTTTGTCGATTTCGGTTTTGAA -TCCCTGATACTGGATCCATGCTCGTTCCGCTTGTTCTTCGATGGTTTCGACCACTTCCGGCAGTAACCCC -AGCAGGTTGAAGTTACGGCGTTCTTCCATGCTGAAGGCACTGCCTTTATTCAACAACGGAAATTCCAGCA -GTACAGGGCCAGCGTAAGGGATATAAAGCGAACGCTGTTTTTTTGTTTTTGGTTCCATGTCACTCACTCT -TTTTTGAATATCCATCCCTGGGGGGCTTTTATCGTCTTTGCTTTACCGCCAGGGCGTCGGCCTCAAGTAT -AAAGCAGATAAAAACAAAAACACCATTGCGCAGGCAATGGTGTTTAATCGTCATTGAGGACTGATGGTTA -TGAATTACTTTTCAGCGGGGCGTTTTCTGCCGGTTGGGTTATTTACTACGCTGGATTTGTCACCTTCGGT -AACTATTTTGCGCTGGTTAGAAATTTTATGGTCCAGTCCAAGAATATGACGTGCCTGACGGTTCGATTTC -ATTTTAACTCCTCAATCCTGTAGCTAGTTTTAAGGACAACATCGCCGTAGCGAAGAAACACGTGCTAAAC -CCCTAAATTAGGTTGCCGATCAAGCATAGCACCTTAAAGCGTAGGGTGCTGGCCACTGACCACATAATTG -ATCGTTTGCTGGTAGATATCACTGAGGATGTCGTTATCAGAAGCTTCAACCCATTTGGTCAGCTCCATGA -GAATGTCATCTTCAGTGACAACACCATGCTGTGCCCGAAGGCCTTGCTCAATGGCATTAACCAGAGCGGG -TTCTGCTGTTGAATTTTCTGCCTGATAATAAGTAAACATAGTGATTCTCCGTGTCTGTGTATTTATGGTG -TCTGCTACGGATCGCAGATTTATAAAGCACATTCAGCATGGCAAATATTTGCCGCTTCGTTGTTAAGATT -AGTCCTGGTTGATGATTTTTATATTTTAACACCATGATATTCATAGGGATTGTGATTGGTATGATCCGAT -TAATATTGATACAATATCTTTTGGGTTATATATTCCCGGTAATCTATTGTGGGAATTTAATTTAAGTGCA -GAAGTAATATTTTCGCCGGATTTTATTCGGAATATCCTGCTTATCCTCGTGCTGTTTCTCACGTAGTCTA -TAATTTCCTTTTTAAGCCCACAGGAGAGCAACAATGACAATCCATAAGAAAGGTCAGGCACACTGGGAAG -GCGATATCAAACGCGGGAAGGGAACAGTATCCACCGAGAGTGGCGTGCTGAACCAACAGCCGTATGGATT -TAACACGCGTTTTGAAGGCGAAAAAGGAACCAACCCTGAAGAACTGATTGGCGCAGCGCATGCCGCATGT -TTCTCAATGGCGCTTTCATTAATGCTGGGGGAAGCGGGATTCACGCCAACATCGATTGATACCACCGCCG -ATGTGTCGCTGGATAAAGTGGATGCCGGTTTTGCGATTACGAAAATCGCACTGAAGAGTGAAGTTGCGGT -GCCGGGTATTGATGCCTCTACCTTTGACGGCATAATCCAGAAAGCAAAAGCAGGATGCCCGGTCTCTCAG -GTACTGAAAGCGGAAATTACGCTGGATTACCAGTTGAAATCGTAAAGCATTGCCGGATGACGCGTCAGGC -GCGTGAATGCCTGATGCGTTGTTAGCATCTCTACAGCGCCCGCCAGCACCGGAGCTCACGTCCGTCCTCC -CTTATTGCTAATGATTGCCGGACTTCACATCCGTGGGTTGCCAGCGGGCAACGTTCGTAGAAAAAACAGC -CTTGCGGCAACGTGCGGTTTCCCGGCAGATCCGTTTTACGTAATGCCCATTCTTCCTCCAGCGGTTTATC -AATGGCGGGGAGGGAATCCAGCAATAATCGGGTGTATGGATGTGCAGGTGCCGTCAGCACCTGCTGCGCG -TCGCCCAGTTCTACAATCTGCCCGAGATACATCACCGCCACCCGATCGCTCATATGACGTATCACCGAGA -CATTGTGTGAAATCAGCACATAGGTCAGCCCGTGATTTTCCTGTAGCGTTACCAGTAAATTGAGGATCTG -CGCCTGAACGGAGATATCCAGCGCAGAGGTTGGCTCATCAAGCACAATCACGTCAGGCTGCGAAGAGAGT -GCTCTGGCAATGGCGATACGTTGCCGCTGCCCGCCGGAGAACGCATGAGGCAGGCGGTCGAGATACTCCG -GACGAATACCCACCTGCACAGCCAACTCCTCTGCCAACGCTCGCCGCTGTTGTTCACTACTACGCTTAGC -TATCCAGAGCGGTTCTGTGATGATGCGCCACACCGGTAAGCGCGGATTAAGCGAAGAGAGCGGGTCCTGA -AACACCATCTGCATAATGCGTTGTGAGCCAGAACGGATGTACTGCCCGTGGCTCGGTTGCAGCATACCCA -TTAAAAGCTGTGCGAGGGTGCTTTTGCCGCAGCCTGACTCGCCGACGATCCCTAAGGTTTCACCACGGCG -GATCTGTAAATCAATACCATTAATGGCATGAACATGTTCCGTAGTTTTACCAAGCCAGTTTTTACGGGCC -GGGAAATTGATATGGACGTCGCGTAACGTTAATAACGTGTCAGACACTTATAACCTCCTGCTGCGGATAC -CAACAGGCACAGCGCTGGTTGTTGTCACCACACGCTGTCAGCGCCGGGACGTTTTCACACTGTGCACCTG -CCGCATAGCAACGATCGCGAAAAGCGCAGCCGTCAGGCAAATGGGTGAGGTTTGGTACCGTCCCTGGAAT -GGCGGGTAATAGCTGGCGTGGTACTCCATGTTCTGGTGCGCATTGCAGCAAACCAATGGTATACGGATGC -CGGGGATGATGGATAACGTCTGCCGTCACGCCGCTTTCAATTACGCTTCCGGCATACATCACGTAAACGC -TATCGCACAGTTGCGACACCACGGCCATATCATGGCTGATGAACAGAACCGCAGTTCCACTGGCGCGGGC -TTTATGTTTAAGCAAACGCAGTACCTGCAACTGCACCGTGACGTCCAGCGCCGTAGTCGGTTCGTCGGCA -ATAATCAATTGCGGCTCGCAGGAGAATGCCAGCGCAATCATTACCCGCTGGCGCATACCACCTGAAAGCT -CAAACGGATAGCGCGACATAACTTCCACGGCATCCGGGATTTGCATCTCTTCCAGCAGGTCAATCGCTTT -AGCTCTGGCTTCCCGACGACTTATTGGTTGATGATGGCGGATCACGTCCATCATCTGAAGACCTATTCGA -CGTGTCGGATTGAGGGCGGTCATCGGTTCCTGAAAGATCATCGCCACTCGTGCGCCGCGCCACTGACGAA -GCTGTTTTTCCCGCGCGTTAAGAACATCTTCTCCCAGCAGGGAAATCTGCCCCCGATGTACGCAATAACT -GCCCGTCGGTAGCAGACGCATAATCAGCATTGCGGTGACTGATTTACCTGAGCCGGATTCTCCCACCAGA -CCGACAATTTCACCGCGGTTAATCTGCAAGGACACATTGTTGAGCGCGTGAACATCACCGTTAAAACCGG -GGAAACTCAAATGCAGTTGTTGAATGTCCAGAACGGGTTGGGTCATGACTGCTTTCCTCCTGCTTTCGGG -TCAAGCAGATCGCGAATACCATCACCAAAGAGATTAAACCCGACGGCGGTAAGCAAAATCGCTGCCCCCG -GAAATGCGCAATACCACCACTGATCGAGTACATAGTTGCGACCATTTGCTACCATCGCGCCCCATTCAGC -ACTCGGTTGTTGAGCACCCAGGCCAATAAATCCCAACGTGGCGGCCATTAAAATCGCGCTACCGATATCC -AGCGATGCCTGCACGATCAGCGGCGGTAGGGAGTTACGTAAAATATGCCAGTTGATCAGATGCCAACGAG -ACGCGCCAAAGGTTTTCGCCGCCTGAACATAGGTATACTGGCGTACAACTAATGCTTGCCCCCGCGCCAG -GCGCACATAAAAGGGAATTCGCACAATAGCAATAGCCAGCATGGCGTTAAACAAACTCGGCCCGAGAGCG -GCAGCCAGTGCCATTGTCAGTACCAACGAAGGAATCGACAGCATAATGTCCATGATGCGCATGATGATGG -CGTCTGCGCGTCCACCAAGCACACCGGATAGACATCCGAGTAGCGAACCAATCATACCCGCAATGGCAAC -CACGACTAATCCGGCGAGAATTGATTGCTGACTGCCGACCAGTACGCGGCTAAACAGATCGCGTCCCACT -TCATCGGTGCCAAACCAGTGCGCCGCAGAAGGCGGCAAAAGGCGGGCGGTTAAATCAATGGCGTTGGGAT -CATGCGTCGCCAGCCACGGTGAAAAAATCATCATCAATAGCATTAATACAATGATGACTGCGCTGGTCAC -GGTGAGCGGACTGCCTTTCAGCATCCATACCAGTTTTGCACCGTTAAATCGCGTTTGTTTTTGTGGGCGT -ACGGCGGACGTTTCCTCGCTTAGCATCATTCACCACCTCCACGTCCGATACGCGGATCAATCCACAAATA -GAGCAAATCCACCACCAGGTTGACCAGCACATAAGCAAATGAAACCACGACGGCAAAGCCCATCACTGCC -GGGAAGTCGAGCGCCTGTATTGATGTTACTACCCATGCACCCATTCCGGGCCAGGCAAAAACGGTTTCGG -TGAGCACTGCGCCATACAACAAATCGCCCAGCGCCAAACCCAATACGGTAATCGATGGGATCAACGCATT -GGGTAGCGCATAACATAAAACGATATACCAGCCGGGCAAGCCGCTGGCCCGGGCGGTACGAATGTAGTCT -TCACTCAATTGTTCCAGCATCGCTGAGCGGATCTGGCGAGCGACAATTCCCAGGTGAACGAACGCCAGCG -TTAATGCCGGTAAGATGAGATGTTGCAACGCATTGAAGAAGACTTCACCGTTGCCTTCAAGCAGCGCATC -GAGCAGATAAAAGCCGGTAACGTGCGTTGGTGGATCCAGCCAGTCATCAAGCCTTCCGCCGCCGGGAAGA -ATTTGCAGATGACCATAAAACAGCACAATGACGCCCAGCCCAAGCCAGAACGCAGGTGTGGAGATTCCGG -TAATGGCCATTATTCGCACCAGATGATCCAGCCAGCGATTTCGCCAGACTGCAGAGAGTATGCCCAGCGG -GATGCCAATCAGGAGTGCCAGCAGCAGGGCACCAAAAGCCAGCTCCAGCGTCGCCGGGAAAAATATACGC -AACTCTTCCAGCACCGGACGCCCGGTACGAATGGATGTTCCCAGGTCACCATGAAACAGGTCGCTGACGT -AGCGGTAAAACTGTACATACAGTGGCTGGTCCAGTCCCAGTTGCTGGCGAATATTTTCCACGATAGCATC -GCTGGCGCGGTCACCCGCCAGTAACCGCGCCGGATCACCAGGGATCAGATGCGAGATAATAAACGTAATC -ACGCAGACGCCCGCCACCACGAGCACCAGCCCCCAGCAGCGTTGGCGTAAAATACTCCAGAAGGTCACGT -TATTTACTCATGGTATTGATATTGAAGACCTGTTCCAGCATGGGATTGAACACAAAGCCTTTCACCTCTT -TGTTCATCGCCAGTTGGTAGTTTTTCTGGAACAGGTACACATAAGCAGCGTCATCAATGACGATTTTCTG -TGCCTGCTGGTAGTCCCGGGTACGCTGCGTCTGGTCGGTGGTCGCAAGCGCATTGCGCAGTAACTTATCG -ACCTCACTGTTTTCATAGAACGAGCGGTTACCCGGCAGACCTTTTTTGTCTGACTCAAACCAGTAATTCA -TAAACATATACGGGTCGGCAAAATCCGGACTCCAGTTGCCAATCGCAATGTCGTAATCACCTTTACCCAC -TCTGTCGCGCATGGTGGCGTTCGCCAGCTTTTCCAGCTTCACAATGATGCCCAGCTTGTTGAGACTGGAT -TGTGTCGCCAGAGCAATAGGCTCCCAGTTCGGATCGTTATCGGAGTAGAGAAACGTCAGGCTGGTGGGTT -TGCTCGTCACTTTATCCCATTCGGCTTTGGCTTTCGTTTCGTCATGGTTGTATTGCATTGCCGTCGCATC -GTAGCCCCACATGCCTTCCGGAATCGGGCCGCGCATCTGTTTTCCGTTACCACTCAGAATGCCGTTAACC -ATGCCCTGATAATCGGTAGACCAGGAAATGGCCCGACGCAGATCCGCCTGATTAAGAGGCGCTTTGCTGT -TATTCAGATACAGATAGGTAACGCGCAGTGACGGATACTCTGCCACATTGACTTTATTTTCCTGCTTCAG -GGCGTTGAGTTGATCCACCGGCAGCGCATCGGCAATGTCAATGTCGCCACGGGAGAGCTGCAGGCGACGG -GAGGCACTTTCACCAATAATTTTTACCGATACCCGTTTGAAGTTCGGTTTATTGCCTGGGTAATGCGGAT -TTGGCACCAGAACTAATTGCTGACCTTTTTGCCAGCTTTTCAGCATAAATGGTCCGGAACCGGCGGTATT -TTGCGCGAGGAAGCCGCGAGCATCATCCGCTGCATGTTCCTTTAAGACCGCCGGATTGATAATGGATGCA -CCGTCATTCGCCAGCGTGTAGAGGAACGGTGCGAATGGTTGGCTAAGGGTAAACTTCACCGTATGTTCGT -CGGGAGCATCAATCTTTAAATCTTTGGGAAATGCTTCTGCTGGCCCCTGGCCGATTTTTAGTAGCCGCTC -AAAAGAAAGTTTTACTGCTTCGGCAGTGACAGGTGTGCCATCGGCAAATTTAGCATTATCTTTCAGGGTG -AACGTCCACTCTTTTTGATCGTCAGACGCTTTCCAGCTACTTGCCAGATCGCCTTCAACGTCGGTTGAGC -CTTTATCACCGTCCGTTTTGTACTGAACCAGCCGCTGATAAGACGGGTAGGTCACTGTCCAGTCGTTATT -ATCTATTGTTACCGCCGGGTCGAGGGTTTGTGGATCGGCGGCCTTACCAATCACCAGCATATCTTTTGGT -ACGGCGGCGTGCGCAACCGGGAAATTTGTGGCAAGGACGAGCGCGAGCAATGTGGGACGAAACGATATCG -ATCTCTTCATGACAGTTTCCTGATTAACTGACGTGCTGTGTGCCAGGGGATATAAAACAAGAGAATTGAT -CAGCGAGCAGAGGGTAACTCGCTGCCTGGGGTAATTCGAAGTGCCACCATTCGCTGGAGATACCGACAAA -ACCGCCACCAGTCATTATCGCATTCAGCAACAGCCGATTGCGCTGAGCGGCGGGCGGGACGGAAGGGTGA -TAGGCATGGGAGCGCTCGTGCATTTCATCGAACCCTGCGCCCATATCGAGGATGTTCCCGTGCTCATCAC -GAAGCGTCAGGTCGATCGCCGTGCCACGGCTGTGATTAGAACCGACCGTCACATCAACAACATATTGCGG -GTCTGGGCAGGCTTGCCACAACATCGCCTGTGCTTGTTGTGGGCGATACGCATCGTAAATCACCAGTTGT -AACCCTGACAGCTGGGCGATGCTGATACTTTTCGCCAGCGCGGTAATCGCATCCTTGTGTAACAGACAAC -GCGCTTGCTGATAAATAGCTTTACCTGTGATGTTATCAGCGCAGGCGTATTTCAATTCGATCTCCAGATC -AGGGAAGATTACGGCTAAATCAACCAGTTCGGTGGTATCCGACATAAACGGTTCCTGTATAAGACAAAAA -TTGCTGCGCTTTCCGCTTATGCAGATCTCATGCCATGCCGGGATAAGCGCCAGAATGCTGGCTTAAAGTT -ATATTTTTTAACTTTTGATCAACATTTGTGCAGCGTAGTGCAGTTTTGGTGCAAGAGGGGAAGTTAAGGA -AGGAATCTCCCGGAATCGTAGCTGAAATCACAGTATTTAAGTGACAGTGTCACGTTAAATGAAAACCCGC -GAGTGCGGGCGAGAGGAATTTGTCAGATTTTCAGCGGTAACACGCTGCTCATCCAGCCTGGAATTTCTTC -GGCGGGTAGGGGGCGGGAAAAGAAATATCCCTGAATAACGCGACAGTGGATCTTGCGTAGCATCTCAAAT -TGCTCTTTGGTTTCGACGCCTTCCGCCACGACGGTTAAATTGAGGCTTTGCCCAATGCTGGTAATGGCTT -CAAGTAAGGCAAGGATGCGTTTTTCGGTCAGACAACGATCGACAAAACTTTTGTCAATTTTGATTTCCGT -TACCGGAAGACTGACTAAGCGGGATAATCCGGAAAAGCCCGTACCAAAATCATCTACCGATAAGCCCACG -CCCATATCACGCAGGATCTGAATGCGCTTAAAGATTTCGGTATCGTGTTCCATCATCATGCTTTCCGTGA -TTTCTACCGTCAGCTGGTGGCCGTCAATACCCCAGGCGTGCATTGCATCAGACACCTGATTAGGCAGTTG -ATTACTGCGAAAGTGCAGCGCCGACAAGTTCACGGATAACGCCGGGATATGAATATTCTGGCTACGCCAT -TCTGCTAACTGACGGCAAGCTTCCGCGATGACCCAGCGCCCAATATTTTCGATTTCACCAATCTCTTCTG -CGAGAGGAATAAACCGTGAAGGGGGCACATGACCATGCAGGGGATCGTGCCAGCGAGCAAGGGCTTCGAT -GCCGTACAGTTCACCCGTTTCTGCGAAGATTTGCGGCTGGTAAACCAGTTTCAGTTGGTTATTGCTAATC -GCTTCTTTCAGCGCTGCGCCTAAAACCAAACGCTCTTTTACCATTTCGTTCATCGCCGGGCTGAAGAACT -GCCAGCCGTTACCGCCATTCTTGCGAATATAATCCATTGCATTGTGAGCAGTGGAGAGCAAGTAATCGCG -GTTTTTACCCAGGTCGTAGCTGATGCCAATACTCAAGGTAAGCGGGAAGGGTTTATCGTCAATCATTATC -GGCTTGCTGACCACATTCCGTAGCTCATCGGCGATTTGGGTAATGTTACTGACGTCGTTTTCGAGGCTCA -CGAGGACAAACTGCGTACCTTCGATACGACAGAGATACTGATCCGGTTTGAGTTTTTCACGAAAGCGATT -GACCACTTCCAGCAATGCCTGATCGGCCCACGCATAGCCAAGGCTATCAATCACATCCTGAATATGGTCA -ACACCGATGAGATACACCACGGGAGAGACGGCTTTGTCGACCAGGTCATCGAGGTAATTGTGCAGGTTAT -TGCGATTTGGCAGACCGGTCATCGGATCAAATTGGATGAGTTGTTCAATATGCTGACGGCTTTTTTCCTG -TTCCAGCGCCAGCGCGGCCATATGCTGGCTGATATCTGCCACGCGTTCGATAAAGGCGCTGGTTTCTGCT -CCTGACGAGGTTTTAATTTGCAGGATCCCCGCAGGCGCGCCATCACGCTGACGAATGGTCGCTGACCAGC -TTTGCGCATTTTGAATTTCTGCACCGTGGGAAGATGACGCCCAGTGTATCGGCATCCCGTTGCGCAGTGC -GAACAGCGAAACATGCGATTCGTTGAGTACAGATTCGATGTTACGACAAATGATTTCCCCCATTTCATGA -AATGGCGGGCTGCTGCACATGGCGGCGAGAATATTGCCTTCAAGCTGGCGAATCTGCCGTTCTTCGGTGA -TATCCGAGAAAGTCATTACCAGGTTCTGCAGATGCGCGAGCACGTCATAAACCGGGCTGATAGAGGCTTT -AATCCAGATTTTTTCACCGGTGCGCGTCAACAGCAGAAATTCGTCCTGATCGCGGGCGGTTTTCCATAGC -AACTGTTGTAAACGAATGCGGTTATCGGCAGGGAATTCAGGAATGTTCAGGAGTGTATCGGGCTGCATAC -CGCTGGCTTCGCTAATGCAGTAACCAAACATTTCGGTAAATGCGCGATTGCACTGCACAATATGGCGTTC -CGGATCGAGGACAATCACCGGTCGGTCGAGATGGTCAACGGCAATAATCAATTGTCGGGTCTGTTCTTTT -TGCGCCATTTCTACGCTGGCATCCCGTACCAGCGCCAGGTAATAAACTTTCCCCTCGGCGCTCACTTTCG -ATAGCGCAAAACGGGTCCAGATTTTACTGCCGTCTTTTTTCTCCAGCTGCAGCTCCCGACTCATCCCCTC -AACACGCGCTTTACCGCCTTCACGGTTGTGACGAATGTATTCAGGATGCGCAGGACGCAAATCCCGCGGA -ATCAGCATATCAATGTTATTGCCAATGACTTCTTCACGTTTGTATCCCCAGAGCTTCTCTGCGGCGGGGT -TGAAAAACATCACTTCATCATTTTCGTTAATTAACACCGCACCCATCATATTTTGCTCAAGGGCGGGGAA -AAAAATGCCATCGGCGGCATTATCCGCATCGGTTAGCTTCATGATTACCTCTGCATCCTGGCGCATCTAA -AGACTGGCTTTCCAGAGTTCAACACGGTTTCTACCTCGTCTTTTGGCGATATACAGAGCTTCATCGGCTA -TTTGAATGAGGCGCTCATAGTCAGGATGACCATTAAACATGGCGGCACCGATGGAAAGTGAGAGGGCAAT -ATCTTCGCCGTTTGCGGCTTTCAGTTTGGTTTTCTCCACCCGACTGCGAATACGTTCTGCGGTACGTAAC -GTTTCGTTTTCAGAAGCTTCAGTCAAAACAATGATAAATTCATCGCCCCCGTAGCGGAAAACATAATCAC -TACTGCGGACGTTGTCATAAAAGGCCTGAGAGACTTTACGCAGAATTTCATCACCAGTGTTATGGCCCCA -CGTATCGTTGATCTCTTTGAATTTATCAACGTCAATAATCAGCACTGACAGCGGTGTACCGGTCCGGTTG -GCATGGGCAATTTCGCGTTTGAAGATAGTCGGTAGGAAACGGCGGTTAAGTAATTTCGTCAGTACATCCA -TACCGACTTCGTGGCGCGATACTTCTTCAAACAATTCACGCAGCAAGGTAATAATTTGCGATACGGTATT -TCTTATCTGTAATAAAAATTTCACCCGCAGACTTCTGTTATTCAAATTTCTGGTGTTACGCATGGTTTGA -TTGAAAATACCGTCGAAATCCTGAATCAGACGGGAGATATGGCCTACTTCGGCAATACCACTAAAATAAT -GTCGACCTTTATGGTTAAACCACAGGCCAAAATCAGCCTGGCTTAAAGGCAAACTACTGCCTAAATCAGA -ATCCAGCAGGATTTTATAGATAATATCTATTTCCCATGAAAGTATTGAGGCTATTTGCCGTTCTTTTTCT -TCTTCGGCGTTTTCCAGTAACGAGAAGATACGATAGTTTTCATCTTCCTTTGAGGCACTACTGTCACTAA -AGGTAAACGCGCGAGTCATCACTTCCATCGCGATATCAATACTGTTAATCGAGAAATGGTAGACCTGAAG -TTTTTCTGCGGCGGAATAATCCGAAGAGAAGATCACCGGATAGAGGATTTTTTTCAGCACCCGAAACCCC -ATCTCGACAATTTCTACCGGAATTCCTATGCGGGCATGCACTTCCGCGACGGTATGCTGGATTTGTATTA -GCCTTTCGACATCGTCAACCTGGGCAGAAAGCACGTTAATAATCCAGCGTTCCATCGCACTCTTCAACTG -CCGCTCAACTTGTTCATTACTCAAGAATTCTTCGGCATGCGGGTCGATGCGGACAATTCGATAAAACTCG -ATACTCAGATAATGAGCATGCGCAACGGCAATTTCCGCGGCTTTAGCACGAATGGGCGGATCTGCCTGTT -CGACAAGTCCGGTCCACTCATCTTTCATTCTTTTAAAATACATCTCCATAATTCACACCCTTATAAGGCT -GGGAAATCAGACGGAATCAAAATGAAACGCAACGTGCGAGATCGACTAACTGCACCATATTCTCCTGAAA -TATGAAGATATACTGAAAAGAAATAAGCGATTTAGGACAGTTTCAATCTACGCTACTGTTCTTCAGAAGA -GTATAGCCCATCGTAATTATTTTTCGGTGACAGCGAATATCGTATGGTTTTTCATATTCATACATTTTTA -TTAGGGATTTATGGCTGTTTAACTAAGTGTGGTTAATTTGACTTAAGTAAGCATGATTATTAGTGGGATA -GTTTAAGAGGGTAACAAGCCGGTGGGTAAAGCACCGGCTTGTTACAAAGTAAGAATGGGAGTTTAACTGC -CCCAGCGACTTTGCAGATAGCTGACCGCTTGTTGAGTCTGCGGTTTATTCAGATAGTCCTCACGGAACAA -GATGGTGCCGCTAATTTCGGGCACAGCATCGTTAAGATCGAGCTGCTTTTTCAGTTCCGGTACGCCGCCG -TTAATCATCCAGTCTGGCTCTATCTTTGAAGGTTCACCCACTTTATAGAAGGCGATACCGATATACAGGC -GGGTCCTGGTCGGTTTAACGACATCCGCCCACCATTTTGCCAACACGTCATAACGCGCGGCACTCCGTGA -GAACGGCCAGTAAATTTGGGGAGCAATGTAATCCAGCAATCCTTGTTCCACCCATCGACGGGTGTCAGCG -TAGGATTCGTCATAGGCTGCCGCGCCTCGGGTATCGGAACCGAGCGGATCGTGTGATCGGTTACGCCACA -CGCCTGCCGGGCTAACACCAAATTCGACTCCCGGCTTAATGCTTTTAATGGTGTGCGATACCTTTGCAAT -TAACTGCTGAGTATTGTTGCGCCGCCAGTCTGCTTTTGACGCAAATGCGCCTCCGTATTTACGGTACGTT -TCGTTATCATTTAGCCGTGAACCCGGTGACTCCGTATAGAAATAGTCGTCAAACTGCACGCCATCTACGG -GATAGCGGGAAACCACTTCTGCGACTATTGATGTGATCCAGTCCTGAACCTCAGGGATGCCCGGGTCGAG -GACAAAGCGATCGCCAGACGTTCTGATCCAGTCGCGGTGTTGCACATAGACGCTCGCCGGTTGTTGAGAC -AGAGTGCTATTCAGTTCCCTGATAGTACCGGGCTTCGTATTAACCGATACGCGATAGGGGTTAAACCAGG -CGTGTACTTTCATCCCACGCTTGTGGGCTTCGTCGAGCATAAATTGCAGCGGATCGTAACCCGGATTTTC -ACCAATCTTACCGGTCATAAGATCGGACCACGGCAAAATTTTCGATGGCCACAGGGCGGTACCGTCCGGC -TTGACCTGGAAAAAGACCGTGTTTATGCCGAGACGTTGCAGATGATCCAGTTTGTCGATCATCGCCTGTT -GTTGTACACGGGCCCGGCTGGTGGGGTTACTAATGTTAACCGAGGAAACCGGTGGCCAGTCGAGCCGAGA -AACCGTGGCCAGCCAGATGCCACGCATCGGTTGTGACGATTGTTGCGTCGTGGCTGGTGGCTTTGAACCT -GCTGGTGGTGTCACCATGGACTCTGGAGGCGTGCTTTTACAACTACACAGTAAAAGTGCCAGTGCAACTA -GTATCGCTGGTCTTCTAATCGTTAATTTCTTGTTTCGGGAGCAGATATCCATATGTGCTGGTTTCCGGTA -AACAGATGTGCGCTCATTCTCGTACTTATCCCCGTTAAGTCAATACGACAGCAAGCACGAAAAAGGGAGC -GATGAATTATCGCTCCCTTGTCTTATAACCATTCAGACATGGTTAGTGTTTCTTGTCATTCATCACAATA -TAGTGTGGTGAACGTGCACGCGGGTGCAGGAAGAAGTGACCTTTTGGTGCGTTCTGACTGTTGATTGGCT -CCAGAGTGACGCCGGTATTTGCTTTGCCTTTACGATCATGAACAGCATAGAGAATAAAGGGCAGGGCAAG -TACCACCAGGAAACTAACAACCAGTAATTCAACATACATATCGGTAGAATCACCCTGGATGTTATCCGGC -GGCAGGAAGGAAACAATAAACGCCATAATTGAAGTCAGCAGACCGACAATTGCCACGACCAGTTTCACCC -CTTTACCACCAGGGATATTAAATGTGCGTTTTAAGTCAGGATGTTTAAGAACCAACACAATGTAGCCAAT -AAACAGCATGAAATAAGCACACAGATAAATCACCACCGTCAGCGCCAGTGCGATCAGGAAGGACATGTTG -TTACCGCCACCGGTATTGGTGAGGATGATCAACGCGATAGACGTAATCACCAGCTGCGAAATGACCAGCG -TTACCGGTACGCCATTTTTGTTCATTTTAGCGAATGCCGCTGGCAGCAGGTTTTTCTGCGCTGTTACATA -CATCCCGCGAGAAGGACCAACAATCCAGGAGGCGATTTCCGCCAGAACACCCAGCAACAGCAGTGCGGAG -ATCACGCGAACCGTCCACTCAATTTCTGGTGCCACATGGGACATCAGAACGGTAAAGGTTTGCATTACCC -CTGCGGAGAGGTTGATTTCATTACCCGGAATGACCATCGCAATAGACAAACCACCAACAGAGCTTAAGCA -GATTGCCGCCACCATCAGCAGTAACATAGCCAACGGATAGTCGCGCCCTGGGTTGCTCATTTCATTGACG -TGGGTTGCGGATGCTTCTACGCCCATATAACTCAAAATGAAGGCAACAAATACTACCAGGGTGCCCACTT -TAGAGAAGTCAGGGAAGAAGGTCTTCGAATCCATTTCGATAGCAACGGGGGCACCGGAGTGCAGATAAAT -AGCCGCTAATGCGATCAAAATAAATGCAGGTAACAGGATACCGGCGAAGAAGCCAACTTTAGCAATTCGC -GCCGTGTATTTCGTGCCACCAAACTGCGTTAATGCCAGCGCCCAAAGAATGATGAGTGCTGCAATAGTTT -TGGTAATGGGGTCTTCATTCAGCGCTGGCCATTTCAGGATGTAGGAGAGTGCCCCTAACACGAAATAGAG -CATCGGAATAAAACCAATGGCGATTTGCAGATAGCCAAATGAGATCGCTGCAAATCCCCATCTCGGCCCC -AGAGTATTTGATACCCAGGCGAAGACACCACCTTCTTCCCAGCCGTCGACGGTGGCCATTTCCGCAGCAC -AAAGTCCCACGGGAATAAACCATAAAATCCCGCCTAATAGCAGGAAGAAGACTAATGAAAAGCCCGATGT -TGCGAAGGTAGGGTATTCATAAACAGCCATTACCATCGATGCCGTTATGGCAAAGAATCCAAGTAATGTG -AGCTGCTTAGCTTTACCTGTCTGTACTGATGTAGCCATATTATCCCCCTAAAACGGTATTCCTGTCGGAA -CCGCACCTGTTTTGTTCTGAAGCGTATTCAGAACAATATTTTCCGTTGCTAATGCCAGTGAACAGACTTT -GGAAATTGTCCCGAAACGGGTTCGTTTCGGGACACCGTTACCGTTAAACGTTATCAGGTATGTTTAAAGC -TGTTCTGTTGGGCAATACCCTGCAGTTTCGGGTGATCGCTGAGATATTTCAGGGAGGCTTTGTAGTCTTC -CAGCAACAGTTCAGCAAAGTCCATTTCGAAGCCGCGACGACACATAATGCGCATCACCACGATGTCGGTG -GCTTCACCGCCGAGAGTGAAGGCCGGAACCTGCCAGCCGCGCAGACGCAGACGTTCAGAGAGGTCATACA -GGGTGTATCCCGGATCTTCACCATCTTTCAGTTTGAAGCAAACCGCCGGGATGCCTTCGTCCGGGCGACC -CGTACAGATGAACTCATACGGCCCCAGTTTGGCGATTTCATCCGCCAGATAAGCGGCAACCTGGTAAGAG -GCGTTCTGTACTTTGGTATAGCCTTCACGACCGAGGCGCAGGAATTCATAGTACTGTGCAATTACCTGAC -CCGCCGGGCGGGAGAAGTTGATGGCAAAAGTACCAATTTGACCACCCAGGTAGTCAACGTTGAACACCAG -TTCCTGCGGCAGCGCTTCTTCGTCACGCCAGATAACCCAGCCGCAGCCCAGCGGAGCCAGACCGAATTTA -TGGCCTGAAGCACTGATCGATTTCACACGCGGCAGGCGGAAGTCCCAGACGATATCCGGGGCGACGAACG -GTGCCAGGAAGCCACCGCTGGCAGCGTCGATGTGCATGTCGATGTCGATACCGGTATCGGCCTGGAATTT -ATCCAGCGCATCGTGCAGCGGTTGTGGGAACTCATAGTTACCAGTGTAGGTCACGCCGAAAGTCGGCACC -ACGCCGATGGTGTTTTCGTCACAGGCTTCAATCATGCGTTTCGGGTCCATAAACAACTGACCGGGGCGCA -TAGGGATCTCACGCAGCTCCACATCCCAGTAGCGGGCGAATTTATGCCAGCAGATTTGTACCGGACCGCA -CACCAGGTTTGGTTTATCCGTTGGTTTGCCTGCAGCTTCCATACGCTTGCGCCAACGCCATTTCATCGCC -ATCCCGCCGAGCATACAGGCCTCGGAAGAACCAATGGTGTTGGTGCCAACGGCCTGACCATTTTTCGGCG -CAGGCGCATGCCACAGATCGGCAACCATATTTACGCAACGCAGGTCGATGGCTGCGGATTGCGGATATTC -TTCTTTGTCGATCCAGTTTTTGTTAATGGATAAATCCATCAATTTGTGGACATTTTCGTCGTCCCAGGTC -TGGCAGAAAGTGGCCAGGTTCTGACGAGCGTTGCCATCAAGATATAATTCGTCATTGATAATCTGGAATG -CGACATCGTCGCGCATTTCGTGCAGCGGAAAACGTTTTGATTCTGCGATAGTGGAAATAGACTTCGCACC -AAAACGTGAATCGAGTAGTTCCGACCTTAAATCCGTTACTTGCTTCTTATCCATTTTAAACTCCTTAAAA -TGATTGGATCGCATTAAAAAAGTAGGATTTATCGATAAAGTAAGCAAGTGCAAAGGACTCGTGTTTAAAT -AACAAAATCCTAATGTTATTTATCGTGAGATATTACGCGAATAATATTTTTTCATTGAAAAACAATACAA -TATGAAATTCTTGGGTGGTGGTAAGGTGTTTTATGCTGTTATTTTTATGCGCATTCTGTGTCTCCTGAAT -TATCACGTAAAAATCAGACCTTAAAATATCACTATTAGTACTTGATTATTATTTTGAACGCATTTATAAA -ATTATTACATAAAAATAGCGAATATTGCTAAAATCCCCGCCAACGATGTGTTGACGGGGCTGTTATTATT -TTGGCAATAATACTCCGGTATAAGTATTTACCGGATGAGAAAGATATTGTTTAACGGCAGTGTTAACATT -CTCTACCGTCATTTGTTTCAACAATTGCTCCTGCTCAGTCCATGCTGCAGGATCGTCATATTGAATAAGA -CTATTTACAATAGTGTTCGCTAATTGTTGAACGCTACGCTGTTGGATATCGAGGCTGCGCTGAACGTTTT -GCTGGTATTCATTCAGTTCTTGCTCACTGATCCCTTTAGCCAGACGCTTAACCATCACTTCATTCGCTAA -CGTTAACAGTTCATCATGTCGTTCTGGTTGACAAGTAAAAGCCAGCAAATGACTGATATCTTTGGCCTGA -GGATCAACCGAGAGGCGAGAAGAAACGCTGTATGCTCCAGATGCCTGTTCACGAATATTAACACGTAGAT -CTTTTGCCAGTGCGACGTTAAAAGCATCGAGCGCCATACGCGTCGGCAGATTAACAGGTGTCCGGGAATC -ATAACGCTTCCACTGTGAAACCTGTGCCACAGGTTCATTTTGTTCTTTTACAGTAACCGATGCGTTGTCC -GTCGCGCGAGTTAATGGTTTACCTGCGGCTAATGGCGAATCAGAGTGTTTGATTGATCCTAAGTAACGCG -TAATTAACGCCACGAGTTTGTCTTCTGCGACATTACCGACAATGACAAACGTGATATCCGCTGGAGATGA -AAACAATTGGCGATCGGCAGCCAGCGCATCTGCGGCAGTAAACTGTGCAATCTGATTTTCTTGCAGTAAT -TTCGTGCGGTCATCAGCATAGCGCGTCTCATACATCTGCTGGGCGAATTTCTCCGCTGGACGCTGGTCGA -GCGTTTTCAACGCCTGAATTTGAGCATTTTGTAGCGATGCCCAAATATTATCGTTAATCGTGCTGTGGGT -GATTCGCTGGTTAATCAACTGAAAACCAGGTTCAGGGTTATTAGTCCGCGCGCTAACGGAGAGCAACGTA -TTCATGCCACTGACTTTACTGCTCATGGTTACCGAATTTTCCGCACTCCAGCGTTTCAGGCTGGAAGAGG -AGAGTTCGCCAACGCCGCTTCCGCTAACTGCTTTATTTGCCAGCGCGATAAGTGATTTTTGCTGCGCAGG -GAAACTTAAATCGCCTTTATTCGATACGGCAATAATTTGTAGCTTTTGCTCTTCACCCGCGGATTTTGCC -AGAATAACCCTGGCACCATTGGAAAGTGTTAATGATGTCAGATTCTCCGCCAGCGTTTCTTTGCTGCTAA -TTTCCGCCTGTGGGTCTGCGTCTACTGTTAACGATAAATTTCTGCCTGGGAAGACGTAAGCCGCCAGCTT -TTTGTTGGCGTACTCCTTTTCCAGCGCCAGGATAGCCGCAGGAGACAATGCTTTTTTGGCGGCAACCTCA -TTGTTTACCATTTGCTCCCAAAATGCGTCCTGGTTCTTTCTTAACTGCTGCCATTTTTCCGCCAGACTTT -GCACGGTAATTTGCTGCCACAGACGTTTCGAAAGTTGATATGTCTCTTCCGGCGACAAGAACGGCGTATT -ATTTAATGAGCTGGATGCCAGGCGACTGGTCAGCATACGTAAATCACGTTCAGCTTGCTGATCAACCGCA -TTTTTCAGCCAGGTGAGGCGGGTAGATTTGACATCATCGAGTTCTTCAGCAGAAAAACCATGCTGATCAA -TGGTTGCCAACTCTGCCATTAATGCATTCGCAGCATCCTGCATATTATCGTCTCGTGCATTTACACGGAA -AAACAGCGACTGATAATCGGGTGCAATTTTAACGCTGCGCGCAGTGCCGCCAGAAATAGTCTTCAACTCG -CCCGACTGTATGCGTTCCTGCAGACGTTGATTGAACAGCTGAACTAACATGCTCCATTCAGCTTGTTCGA -TAAAGCTTTGCTCATCGTTCACTTGTACCATTGGCAGGCGATAATAGAGTGCGATGCCGTTCACCCGGTT -TTCTTTATCATTAATGATATTAAAGCGCAGGTGGTTTTCGGCTTTTGTCGGCCAGACGCGATTTTCAGCT -GCTTTGTTAGCCGGAAGCTTACTTAAATTATCCTTTATCAGCGCCAGCGCTTCTTTACTGTCGATATCGC -CGACCACGATAAAGGTCATATTATTTGGTTGATACCAGCGTTGATAAAATTGGCGCAATTGTGCCGGTGT -GACCGTGGCGACAGTATCCATCAGGCCGATAGGTTCACGGTCTAAATTACGGGTATTTGCCAGCAGGAAA -GGGCGGCGCGCCTGAGAGGTGCGCCATTTCGCATCCTGATGGGCACGCCATTCCTCAGTAATTACGCCAC -GTTCAGCGTCTACTTCGAGTTTTTCAAAGGTTGCGGCATTACTCCATTCACTGAAGATTGCCATCACTTG -TTGCAGATTTTGTTTCTGCGTAGTCGGCAAACTCACCTGATACACCGTTTCGTCATAGCTGGTATAGGCA -TTAACATCGCGACCAAAACGCAGGCCCATTGACTCAAATGTTTCGATGACTTTATTACCCGGCCATGTTT -TTGTGCCGTTAAACATCATATGTTCTACAAAATGAGCCACGCCGAGCTCATTGTCTTCTTCCTGCAATGA -ACCGGTATGAATTTGCAGCCATAAATTTACCTGATCCTTTGGATGAGCATGCGGATAAATCATATATCGC -AAGCCATTGTCCAGTTGCCCGGTAATTAACTTTTCATCCTGCGGTAAGGCGGCGGCAATCAGCCGCCCGG -GGAGCAACAGAGTTGCCACTAACGTCAGTAAGAAACAGAGGTTTCTCATAATTATCTCCATGCGAAAACC -GGGCGAATTTACCCGGTTAAGTAAAATCCGAACTATTAAAATTTCATGCTGACATCAAGCCAGAAAGTAC -GGCCACTGGCGTAGGTCGCCACACCGGTGTTCGTTGTATCAACAGCGGTTTTGCTATCCAGTACATTGAG -AATATCGGCACTGATCGTCAGGTTTTGTTGTTGCAGAAATTGTGGCGTCCAGGACAAGCGGGTGTCCCAG -GTCAGGCTGCTATCCAGTTTTTCGTCAACATACTGCTTGTAATCTGAATATTCGCTGATGTATTGCGCAT -TTGTCTTACCAAGGATAATGCGAGCTTTACGCGCTTCTTGCCAGGCCAGCGTATTCGCCCACACTAACCC -GCTCGGTTGATGCGTGAAATCCATGTTTAAGGAGATCTTTAATGGGTTATTAAAATCTGCCACTGGAACG -CTATCGTAAGAGACCAGATTACCGTTATAAACCACCTGGTTATCACCGGTATTGCTCTCCTCATAACCAT -TGTTTAACGACAAGTTGCCCTTGCTCTTGATATAGCTAAAGACAATTTGTGGGTTAATATCTACCTGGCG -GATATGCAGGGGTTCGGCCAGTTCAAAACTGAGGCTGAACGAATGCGTTTTGGTTTTGCCATCGTTGTTA -TATTCAGTAATGGTGGTTTTAGTCGCGCTGTCGGTACGACTGCTTTTGCTGATTTGATCATGCGCTTCAC -GGTAAACATAGTTTGCACGCGCAATAACGTTCTTACCGATTTTCTGCTGCAATCCCATTGCCAGTTCATC -GTTATAAGGCGTTTTCAAATCCTGATAACGCGTCAGAGTTTTATTACCTGATACCGATTCCGTCCAGCTA -TTGCGGATATCACGTAATCCCATATCAAGAATATTCCCGCCATAGTAACGGTTATAACCTGCTGTAATCA -TTGAGGTTTGATTAGCAAAAATATCCCATTCCGTCATAAAGCGCGGGGAGATATTGTGGTTTGACAGATA -GTTGTCATAGTCATACCGCACGCCGGGCATTAATGACACATTACGCCAGCTAATGCGATCCGCCATATAC -AGCGTGTAGTTGTCAATTCCCAGGCGGCCTTTACCTTTATGGTAAATGGTATGGTTAGTTTTCTTTCCGG -CAGCATTAATCACATAGGATTCAGACTGGTTATGGCGTTCAGTCCACGCATCGGAATAGATGTATTCCGC -GCCGAAGTAGGGTTGATGCGAAACATTACCCACGGCGAATTTTTGCCAGTCCAGGCGTGTTTTGAAGGTG -TAATTATCTACAGCCTGGGAAATGTGTCCTAATCCGCCACGGGTGCAACGCCCTGTAATATCACCATATG -TACATGAAAGTTCGGTGTACCAGATGTCATGATCGTGACGGGTATAATCACTAATATGATCCCAACCAAC -GGTGGTACGCAGTTTGGCCCATGCGAGCTGCGTATCCATATCCCATGCCAGACCATAGGATTTATTACCC -ATTTCGCGATCAGACTGCGGGAAGGTGCTGGTATTATAATCACGGCTGGAGCCGGTATATTTTAAGGTTA -AATCGTGGGTAAAGCGGTCGCTGGCAAACCAGGTAAATTTGCTTAATGCAGTATCGATAACGTTTTTATA -CTGTGCCCGACCGGCGACAATGCCGTCATTCGAAACATAATCCGCGCGGGTGATATCAGACTGGCGGCGC -GATAAACCGGCGGTAACGCCGAAGTTATCAGCGAGTTCCTGATTAAACGACAAGGTATAAAAGTTCTTTT -TAAAATCTGGGGAGTAATAAGTACTTCCTGAAGAGCCTTGATTAAATGCGCTCTTGTTATTCTCATCGAT -ATGCGATGTTAACCAGTCCGAACGCGTAGTGCGATAACCCAATTTCACCTTGCTATCATCAGCGTTGAAG -CGTTTGATCTTTGCATCAATTACCCCGCCATTGAAGCGACCAAATTCAACCGGCACAAAACTGTCATAAA -GCGTCACATTGTCCAGTAAGCTGACATCAAGATAATACCCCTGTGACATCCCGCTAATATTGGTTGCACT -ACTGGCATCGGACTCATTCGCTGGGTTCAGGTTATTAGTTGCACTAATACCGTCAATCAAATAGGCATTC -TGGTAGGGCGACGCACCGTGAATAGAGATTTTCTCAGGGCGAATATCTCCCTGGTTCAACGAGGTACTTT -GCGTTGAATCCATGCGTACCGCAGGGTTGGTTCTCAGCAGATCGCTGATATTGCCATTCCCGGTCGGTAA -ACGCTCGATGCTTTCACTGGTGTAATGCGTGTTGCCGTTTACGGGTACAGGGACAGGAGCATAGACCGTC -ATCTCTTCAAAAAAATGCATGTACATGTTTTTGTCATCGACGGCCTGCGCCACATCAGCGCCACATAAAA -TGACGCCAGGAATAAGAACTCGCTTCATTTATTTATATCTCCGTACAGCAGGGCTTTTATTGTTTTTATA -AAACCGCGCTAATGTCACAAATATCATCGGCCAGGTTCCAGACACCGGGTTGATGTGTAACCATAATGAC -GCCGCTTGTGGGTAGTTTTTCACGCACTAAACGCAGTAAGCGGATAGCCTCTTGTTCCTCAAGATGAGAG -GTAGTTTCGTCAAGAAATATCCATTTCGGACGTCGTAAAATTAATCGTGCCAGGGCGATACGTTGTTTTT -CGCCGCTGGAAAGAATATCTCCCCAGCGATCGTGGTCATGAATACGCGCAGCCAATTTCCCAAGACCAAC -CTGATGCAGTACTTCGCTCAACGATTTATCGTCTACGGGCAGGGGAAGTGCTTTACAAATAATCTCTTTC -AGTAAGCCGGTTTTGATTAACGGTGTTTGTGACACATACCAACTGTCAGCAGGAGAAGAAATATCACCTT -TAAACCACGGCCAGCAGTGGGATAATGTTTTAAGCAGTGTGGTTTTTCCCGCGCCAGAGTAGCCTTTCAG -TAATAGCCATTTGCCTGGCGAAACATGAAAGTTCAGGTTCTCTAATATGATCTTATTATCAGGCGTACGA -ATACTCGCATCAGCCACTTGTACCGCATGTTGGCAATTTTTAGGCTTATTCGTAGGGCGCTGTTCAGTGA -GTTGATGGAACTCATACAAGCGATCGATAACCGCAGCCAGTTCAGCAAGTTCGTCATATTTATAAATAAA -CCAGCTTAAATTGTTCGATACCAGCATAAATGCCTGGCGCGATTTCATCAGTCCGCCCAGATTGATCTGC -CCGCTAATAAACTGCGGCAATAACAGAAAGTAGGGAAGAACGCTAAGCGAGCGCGAATAAATATTCTGCC -AGTAATCAAGCCACCGCTGACGATTCATTAAACGATGCCAGTTCTCTTTAATGGTATGAAAATTGTCGCT -CAACTCCTGGCGTTGTAGAGACTCAGCATTGCTTAGCGCAATCAGTTCTGCCTGCTTATTATGCTGCACA -AGATTTGTTCGAAATGTCGCTTCGCTACGTTGTTTTTCCACATTAAGCGGACGAATACGTTTACCCACCT -TATGGGTAAATAAAGTTCCACCGATCACAATGAGCACGACGGTATAGACCATATACCCCTGGATATTCCA -TTCTGTTCCACCAACAGTGAATGAGAGCGTACCCGCGCTTTCCCAAAGAATAACGGTAAAGGTGATCAGC -ATGCTAAGTGACTGGATGAAGCCAAATGAAAGACTGAGCGTTTTGCTGATCAGTAAGAGAATGTCTTCAG -CGATACGTTGGTCAGGGTTATCTGTATTTTTATGCTCGCCGTAGATCTGCGTGAAGTAGTAGTTTTTATC -TGCAAACCACCGATTAAGGTAGTAATCTGTTAACCATTCGCGCCAGCGAATAGTCAGTAGTTTAATTAAC -CATGTTTTGTTTACGGATATTAATACAAAGATCCCCAGCAGGGCAGGGAACCAAAGGACAAGCTGCCAAA -GCTTATCGGTTTCTTTCTGGCTTAGCGCATTGAAAAAATCATTATTCCAGTCGTTTAACCAGACCTGAAT -TTTAACCACGCCAAGGATCATGGCGAGGATAATAATGATTAACAACACTGAAGTTTTATTATTCTTACGC -AGCCAAAAGGGCTTCAACAGACAGAGATACTTTGCTATCAACATACGAAGCGTAATGGGAATGGTTATCA -TTAGCGAAAATTGATTGTGCCATCCAATGATTATCTATGGCAATGATTTACTGATGAAATTTATTTAAGT -ATCATTTAACAATATGAAATATAAAGGAATATTTCATTTTCAGTGGTTATGGTTATGCTATTGATAATCA -AGGATATTGCTAATGCCCTGATGCATACCACGTAAGCCAGGATTTTCGCAAGGGAAGATGATGATGACGA -AACACCCGACAGGAATTTATGTCGGGTGCCTTGTTAAGGTCATAAGAAGGAGGCTAAGAATGGAGTTAAA -AGAGAGCGTTATTAATTATTCTCCATTTGTTTTGCAACATCCATAATGTGGTAAAGCGGTACTCTGTTCT -TAGCTAACTCTACCATGGCGTTCATATAAGGTACCATGGTTGAAAAAAGGATTTTATAACCTTCGCAAAA -ATAAGAAACAGTCTCATTGTTTACTTTAGTAATACGATGCTTAGGACAACCGCCATTGCAGATAGGTTTA -TATGCACATTGCTGACATTTCGCTGGAATCCGTTTTTTTTGCGCTGTCAGTTGTACACTGTTCATCGTTT -TGAGTTCAGATTTATTAATGTTTCCAATTTTGTACTGTGGATAGACAAAATGGTCGCATTCGTAAATGTC -TCCATTACTTTCAACAACCAGATTATCCTTGCAGGACTCCTGGAAAATACAACTGGTATGCCCATTCCCC -AAAAAACGGCTGACAAAGCTTTCAAACTGACGGATGAAAATTTCACCCACATCGTTTTTAACCCATTGCA -TAAAAATGGTTGACATAAACTTGCCATAAGCCGTGGGAGGCACAGAAAAATCAATGATACGGAATGTGTT -CTCACTATGACCACTGAAATCAATATTCGGCGTCCCGGTTTCTAGCAATTCGATAAATTGCATATGTTTA -CTGCCGATAGATTTTAAAAAATGATAAACCTCAAGAGGGTAATGGACATTAACGTTATTAATGACGGTTA -ACGTATTAAACTCTACTTGATATGATTTCAGACGCTCGATGGCTGCTATCACTTTTGCAAAAGTACCGTT -ACCTGAATTACTGCGTCTGTAACGGTCATGTAACTCCTGGGGGCCATCGATCGAGATACCAACCAGAAAT -TCATGTTCTTTGAGAAAGGCACACCATTCATTATTCAATAAAATGCCATTCGTTTGTAATGCATTAAAAA -TACGTTTTTGGCCTGCATAGCGTTGTTGATAGTGAATAACTTTACGGAAAAAATCCAGGCCAGCCAGAGT -GGGTTCACCGCCTTGCCAGGTAAAATAGACCTGATTGCCAGACGCTGCGATATATTGTTTGATGAACTCT -TTCAGAGTGCTGTCATCCATCCATTTTTCATGAGTAAACTGCGACTCTTTTTCAAGGTAAAAACAGTAAT -CACATTTGAGATTACATTGAAAACTGGAGGGCTTGGCTGTAACGTGCATCGCTATCTCGCTCAATAAGGC -GGCGGAAAAATCCGCCGCATGAAGGTTTAGTTATTTCGCTTCGCTTAGTGCTTTCTTGATATTGTTAAAC -TTCTCCTGATTTACCTCGCTAAGCGGTGGCTGGCTGCTGTCGATAAACTCTCTTACCACGCCTTGCATCT -CTTTAACGACCTGCGGATTGGCGGCGGCAAGGTTATCTTTTTGCTGTAGATCCGTCAGTTTGTAGAGACC -TAACTGATTGTTTTCTACTGTATAGACAAGCGAATAATCGTTATTTCTCACCGTATAAGAGAATTGGCTT -AAGTCCTCAGTGTTGGGGTTATGCGGGTAATCGTCTGACTGATGGCGAACAAATTTGTGGTAATTATCCC -AGAATGGAATATTTTCCTCGTCAAACCAGTGAGAATAAGAGGTTATCCAGGTCAGATTTTTATGTGGCTC -GCCTTGTTTCTTATCTTGCAACCAGGGCAGCAAGGAAACGCCATCCAGCTTAAGGTCTTTTGGAATGCTG -ATATCGGCTGCATCAAGAGCTGTCGGGTAGAAATCCATTGCGGAAATCAGCTTGTCATAATTACCGGGTT -GAAGTTTTCCTTTCCACCACATAAACATTGGGGTGTGAGTACCGCCAGGATAGGTCTGACTCTTATAGCC -TTTTTGCGCCCCGTTCAGCGGCAGAGGACCATCGATAACCGCACCATTATCGGAGGTAAAGAGAATAATT -GTATTGTCATACTGTCCGTTTTTCTTCAGTTGTTCGAGAATGCGTTTTACACCCTGATCAACAGAATAAA -CGGAAGCGTAGTAGTTATCTGCTGTTTGACTACCGGTATTAAATTGCTTCTGATATTGATCCGGTGCAGG -ATTATCATTTGGCAGGTGCGGAGCATTATAAGCCAGGTAAAGCATAAAAGGCTGGTCAAGTGTTTTGGCA -CGATCAACAACGCCAATTGCCTCATCGGTTAACTGATCGCTGATATAACCTTTTGCGGGGACACGTTCAC -GATTTTTGAACAGTGAAGGGGAGTTGTAATATGCCGTTCCTGCAGCGTGGAATCCCATAAAGTAATCAAA -GCCACGGTTTTGAGGTTGCCATTCTTCCGCAGAAAATGTGGTGAAGTTGTCATGATAGTCACGCGTTTGT -TTATCTTCCGGTACCGGCACATTACTGATTTTTGACAAGTGCCATTTACCTACTGCTGCAGTGTAATAAC -CATGATTCTGGAATAATTCAGGCAAGAAAGTTTCTGTTAGCGGAATACCATCCTGAGCATCGGTATTGGA -ATAGACACCAAAGCGGGCGGGAGCTCGACCGGTCATTATTGCGGCGCGGGAGGGGCCGGAAACACCGTGT -GCCACATAGCCGTTAGTAAAACGTACGCCTTCATCCATTAATGAAAGGAGCGTCGGCGTTGATTTTTGTG -CAGCTTCAATGGCTTTATCTATCCCTATTTTGTAGGTATCGACAACTTCACGATTTTCCATTGTTTTTGG -GTCAAAAGATCCCTTATCAAAAGGAAGTTGTCCATAACCAAGATCATCCATGGTCAGTACGATAATATTT -GGCTTTCCTTTGGTACTGTATTCTGTCGGCGTAAAGTCTGAGAAAGCAACGTTTGTTTTGGTTGCTTTCA -GCTTTACATCATCTGCCGCATGAGCAGCAAATGCAGCCATACCAGATGCCAGTATCAAAGATATCGAGGT -ACTTACGACACTTTTCTTTAATGCAGACTTCATAAATGTTCCTCTTCTTATTGTACTTAATTCCAAAGTA -ATTTTACGAAGAGAAATAAGTGGATGTAAGTGAAGTTAGTCACATAAAGAGATAGCAGATTTAGCTAAAA -AAAGGGAAAAAACAGTCCATAAAGCGTTGACATTACTTTCTGTTCTATTAAGTAATTTCTCGCCGATAAA -CAACTAATTTATTGATATTTAATAAATTATTGCATTTTACTGACAAAATGCAGAATTGAGATCATAAATA -ATCATGCAACAGGTTATGCAAGTGCATAAATATGTGATGGATGTCACTTATTTATTTCAATAAATATATC -GCCTAAAAACAACGCGGGGCAGGGAATGGCTGCCCCATTTAATTCTTACGCAGCGTGTGTGGTTGACTAC -TCGTTAGCAAATAATCAAATAGCTAAAGCATTCATCGTGTTGCCCGTATTCATACCCGTGTGACTTTGAC -AACGGTACTCCTTAGAAACTCTCTTCGGACTGTTGCCGAAATGTTTGCGGAACGCATAAATAAAATAAGA -TGTACTGGCATAACCACATTGTTCGGCAATTTTATTGACTGAACCTTCTACGCGTATCAAATTTTTTGCG -TGCTGCATTCTTGCATCTAAAAGAATCTGTGAGAATGTCGTTTGCTCTTGCTTAAGTTTTTTCTTCAACA -GGCTTTCACTGATGTACAGGCAGTCACAAATATCTTTCAGCTTCCATGGGTGCGCCGGCTTCATGTTGAC -AATATTTCTCACTTTCCCAGAAACGGATAGCACACCGTTAGTTAATAGTGTAATGAAACCTTTGCATGCG -GCAAAAATAGACAGGCAAGAAAAAAGCAAAAGTTCTGAAAAATTATGATGATTGCGTTCTTCCGAGTTGA -GATAAGCAATCATTTCATTAAGCAATCCAGTCGGTACATTTGAAGCACGTAAAAACTTCGCAGGAACAGG -CACCGTCACTGTCTGGATGTTAGTGCATTGTAGATATTTTTTAATGGTATTTTCAGTAAATCCGATCTCT -TTAAAATGCCGCTCATAAGGTTCAAAATGCGTACGAACAGCGTTATCTACCATCAGGATCTCGCCGTCAG -AGAAGGCGTAATCTTTATCTAAAATGTTAGCGTTGAAGGCATGATGAATAAATATAACAGAACAAACGAG -CGACATTTTATCTCCTTAAAACAATAAAGTTTTTATCGATACTTTTTTAACATTTCATATTTATAATTTG -CTGTTTGTTTTCAGCCTTGCAAACTATTGATAATGAAATGTGTAAGATCTCTTGCAATGCGACCCATTTC -TGAAATACTCAGCTGATCAATTGCCGAAAAAATGGCTATCAACGTAAGTGTCAGTAATAAGACAACCACA -ATTGCAGACATGATTTCTTTATAGTTGTCTCTTTGCGTGATTTTGTTTTTCACTGTGGTCGCATGCATTT -CAAATATGTTTATTTAGCGGATAACGTTAAAAATCGTTAATCAGTATGCTTAATATAACAGGCTGGAGAA -AAGAGGAAATAGGACTGGTGCTTCAGTACTGAGCGGAGTTTCTTACAGCTGTAGGCAGAAGTTTATATCT -TATAGTATGTAGTTTAATTTAATCCATGTGAGCAAATTGCGAAATAATAGTCAATGAGGAATTCTTCTGC -TGTGCGGATGACAGCAGAAGAAATGAGAAGAGGCATTAATTTGATGGTTCTAATTCAACCGGAATACTTT -TATAGCCAGGAATGCCACTTAATGGATCGTGGTTATCAAGTGTTAGCATGTGATTCGATTCTGGAAAATA -GGTCACCAGTGAGCGGTCAGCCATAGGGTAAATGACCACTTTTAATCTATCCATGCGGCGTGAGCTGCGC -TTACCGTCTGGCGTAAGCGCAATAAGATTAACTCTTTCGCCGTTTTTTACACGGCAAATTTTAGCTTGTT -TAGCACTCATAAAGACCACATCTCGTTGACCGAATACCCCTCGATAGCGATCATCCATACCATAAATCGT -CGTGTTGTACTGATCGTGGCTGCGTACTGTCGCCATGACCAGCTTACTGTTAAACGCTGAAGAGGGATCT -TCTAACAGCCCTTTGCTGGTAATGAAATTAGCCTTACCTGACGGCGTCATCCAGCGCCTTTCAGCAGCTG -CATTTATCAGGTGAAAACCACCGGGATGACGGATGCGCTGGTTATAGTCGGCGAACTCTGGCAGCACAGC -TTCAATGTCATTGCGAATGCGATCATAATCTTCCACCAGATACTCCCAGGCTACCACGCTCTGGGGTAGT -GCTGCCTGCGCGATTCCCGCGACCACTGCACACTCTGATTTCAGCATTACACCGGCGGGTTTTAACACGC -CACGCGAGGCATGAATCATCGACATTGAATCCTCAACGGTTACCGCCTGCGCACCGTTTTTTTGCATGTC -AATCTCGCTACGTCCCAGGACCGGCAGAATATAGCTATGCCGTGCGGTCAACAGATGAGAGCGGTTAAGC -TTAGTGGCTACGTGTACCGCCAAATCTAATTGCGTTAACGGTACAGCGCTCGCTTCCCGATCTGGCATTG -CCAGCGCAAAATTGCCCCCCATGCAGATCAATGCTCGAGCCTGCCCCGTACATATTGCTTGCATGCTGGC -AATTGCAGCATGTCCAGGTGCATGAGGTGGGGTGAAGCCATAGCGCTCACCCAGACGAGCCAGAAACTCT -GCAGACGGTTTCTCGGTGATACCGACGGTTCGGTCGCCCTGTACATTAGAGTGTCCACGTAGTGGGCAGA -TACCCGCACCAGGCTTGCCAATGTTACCTTTCATCAACAGCAGATTGACCAGTTGCTGTACGTTCTGGGT -ACCATGTTCGTGCTGAGTGATCCCCATTCCGTAACAGATAATGGTGCGTTCGGCAGCGGCATATGCGTCA -GCCAGTTCGGCGATTTGTGTCTGACTTAGTCCAGAAATACGTTCGATATCTTTCCACTCGGAATTGAGAA -CGTCACGGCGTAGCTCGTCAAAGCCGACGGTATGCGTTTGAATAAACTCGTCATCAAGCAATGAAGGCCG -ACCTGCGGCGCTTGCAGCATCATCGCGCTCAATTAACAGGCGCATCATCCCCTTGAGCAACGCCATATCG -CCACCAATGCGCACGTTATAGTAGGCACTGGCCAACTGAGTCTCAGAGTTCGTCAGCATTTCAAACGGGT -TTTGCGGTGCGGTAAATCGCTCCAGGCCACGTTCCTGTAGAGGATTGATGGCGATCATTTTCGCTCCCCG -TTTCACTAAAGCGCGCAACGAAGTCAGCATGCGAGGGTGGTTTGTACCAGGGTTATGCCCAATGCAAATG -ACTAAATCGCACTTCTCAAAGTCTTCCAGCAACACGGTCCCTTTACCTACACCGATACTCGCTGCCAAAC -CCACGCTTGTCGGTTCATGGCACATGTTGGAGCAGTCGGGAAAGTTATTGCTCCCGTATTCACGGGCAAA -AAGCTGATAAAGAAAGGCAGCTTCATTGGAAGTGCGGCCCGAAGTATAGAATTCAACCTGATTGGGATCA -CTATAGCTTTGAAGGCGTGCGCCAATTTCGTCGAAAGCTTGTTGCCAGCTTAATGGCTTGTAACAGTCGC -TGACGGCATCATATTTCAAAGGCTGAGTGAGTCGCCCCGCAGCCTCAAGCTCGTGGTCTCCCCAGGTAAG -TAATGATTGAACCGTATTCTCAGCAAAGAAAGAGGCGTTTACCTGCTTATCCGTGACTTCCCAGGCGATT -GCTTTTGCGCCGTTTTCACAAATGTCGAATGACGCACTGTGCTTAGGATCTGGCCATGCACAACCCGGAC -AGTCAAAGCCCTCTGGCTTATTCATGTCAAACATGGCAATAACATCCTGGCGTATATCCATCTGCTTACG -TACTGCATTCGCTACGGATTTAACAGCACCCCAACCACCTGCAGCACCCTGGTAGGATTCAATTTTTTTC -TTCATCTACTTATCCTGTGTGGAAATGAATTATTAGGATTTGTAATAGCGATGATGCACAGTACATACAA -AGGGATTATCGCCAACATGGATATATAAGAGTAGGGGACTACTCTCTTTCTATTTTTAATCTATTATCGT -TAAACAATAGATTAAATACGATAAGTTAAGCATCATCTCTCATAGTGTTTAAATTAACATATTTTTCAAT -ATAAAAAATAAGACTCTGGCTTCAATTGTGCGCGGATTTTCTTACAGGTGTAGGCTAATAGCCTTCACAA -AATAATTATCCGCGCAATTTTCGTGAATGGAGCGCATAGACTAAGGTCAAAATCACAATTATTCATAGAT -AAAAGTGACACCAATGACTGACTGGACGGTTCCGGCTGAAACCTTGTTTCCTGTTTGTCCATAGGTTGCG -CTTAAACCCAGAGGTACTTTGCTTTTATTTACTGTCCCCAGGGAGACATTTTCTCCCGTAGCCAGTATTT -TTCCATTACGCATTAGAGTGACACCCACTCCCGATGCTTTTGTTGCATCAGGTGCTGTGTTAGCAAACAC -TTGTCGGCTACTGTCAGTGGTGGCACCCGAAAGATAAAATGAGAGCTTTTGTTCGCTTGAGCAATATACG -CCAAGGGGTATTTCTGCGCTTCCAGGAAAGTCCGGGAGATCCACGGTGACATTTCGACTATCAACGGTGC -AGCCGCCTGTTGGCATAACAACATTGTTATTTGAAATAATATTCCACGTAAAATTACGCGGATTTCCGCT -TCCTAATGTTGCAATTTTATACATATGAATACGGGCAATGACTTCCCCCGCTTTTATGACAACTCCACCG -GCCGCCCCAACTGGGGTAATATAGAGTTTTAACGGTAATGGCATCGGTGTCTTATCACCAATATCCAATA -CGTTGGTATTTGTCGTCAACGGGAAGGGGTAGGTCACATTATTCCAGTACAGCGATCCTTTATATGACTG -TAGGGAGCCTGCGAAAGCTGAGCCTTGTACCAGGTTTATATGATCAGTGTCGTACCAGCCGCCGTAATCA -TTCCAGCAACTTATATGCTGAGACAAGTCTACAACCAGATTCTGGCCCGGCTGTATTACAGGGTCGAGAT -TAACATAAACAGAGGTTGTACCTGCTCCAATACTTGACCCGCCATCGACATTACAACTGAAGGCAAAAAC -TTTGCCTGCCATTAATAGAAGATAAATACCGAACAGGACCTTTATACTGATTGTTTTACCCATGATATAT -CCTAAGGTTAAAAATTGATTTAAAAAGAAGGCTAAGAAAATCGAATCGACGTTATTGCCAGGTGTAGATC -ACATTGATTAGCGCCTCGATCGTTCCCTGGCTTGCGTTTCCATTCACCGTGATAGCTCTTGCCTTAAGTG -GAAACTGTGCATTACGAGTGATCTCATCAACAATAACCGTTTTGCTATCGCCATTTTTTAACGCAGCATC -CTGGTCATCCCTCAGCTCTATCTGAATATTTTCGGCAGTACCTTCATTTTTGTAATAACCCGTATTGTCA -GTTGAACCTGTCACGATTGCCGTCACTGCACTTGTTTCAACCGGACAATCGGTTAATGACAAAGTAATAT -TGTGCCAGCCAGATGCAGAACCAGGTTGTTGCAGATTGCGCGTATAAAGATCCCCGAGATTAACGTTAGC -TTCTTTGGTTTGAATAGTGCAGGGTTTAGCGACTACCCGACCATTAACAGTGATAGTGACATCGGCGGCC -TGGAGAGTTGCTGTGAATAACGCGCAAAACGTAGCTAACAGGAACCTCTTGTGAAGTCTTTTCATATCTG -ACTCTGATTATTGAAATTCAAGGGTAAAGGTTGCCGAAGCCCTCACCAGTCCCGGATTGACGGACTTCTG -AGTTGACTTCAGACGAGCGGAGTAAGGCAAAATATTGTTCTGTTCTGGTACCAGTGGGATCCACTGCATC -CCGGCATGAAGATCATTCAGTTTCACCGGACGCATATTTGCGTCCAATATTTCTATACCCAAACCGGAGG -CCGTATTGCTTCCTTCATCCAGTTTCAACAAAGTATTATTTTCTGCATCCTCAATACCGTTAAATGCAAC -CCGAACCCCCGTTGTCCCTTTGCTGCATTCACTTAACGTAATCTGAAAAGGGACGGCTGGACTTGTGCTA -CCGGTCGTTGGAAATTGTCTGGCACTGTTTTTTTGGAGATCTACGGTAAAATTAAGCGAATCCGATGAGA -CTGTGCAGCCATAATCGAGGACGCGCCCGCTAATGTTTTGCCATATATTATTGGAATAGCTGTAATTCAG -CGAAGTCGTAATATCACCAAACGGCACATTTAATCCAAATGATATTTGCTGGTCGCTGCGTGACGTGTTC -CAGTAACTTTGGCGACTGGCACTGAAAAATGTCGTACCGTAATTTCCAAGCTGCTGAGAGATGCTTATTT -GTTCCTGACCACGCTTACTGTAGAACAGATTAAAATAATCAATAAATTGTGTCTGCTCATTGGTGTCTCC -GGTAGGAGGCTTGACGGTGTAACCACTCATTCGACTGTAGGCACTGTCGGATAAGTTATAAAAACCTTGC -GTAGAATAGCGATATCCTGCGACCTGGATATTGGTTCCACAACAAGTTTATTGCTGCACTTGTTGAAGAG -AGTATTTGCAAAAACATTTTATGTCGCTAAATAACATGACGATTTCATTATGCATGTTATTTATAAACCG -TGACTAAACAGAATATTATTGCGAACAAGGGAAGTGTCAGGAAAGGTCAAGAGCTACCAATGGTTAATAT -GGCTATAAATCATTAGCTATGGTTAATGTTTGCTTGCTGAAACTAACACCGAATTGCTCTAAACAGATAA -GTGCAGGGTTTATTAAAGCTGTCCGACAGACTTTCTTAACCTGGTAATATCTCTCTTGGGTGACTCTCCA -AACATCCGCGAATATTCCCGACTGAAATGGGATAGCTTTCGTAACCGACAGCATAGGCTGCTGTGGTGAC -ATCGTAATGTTCATTCAGCATCTGTCGCCTGACTTCATTGAGACGTAGCCATTTCTGATACCGGAGTGGA -CTCATTCCCGCTTGATCCGTCCTTAAATAAGTAACAGCACCCTCTGGTGTTTTCGTATGCAGTGTCTATG -CGACAGACACTGCGCTCTTAGCATGGGGCAGGGAATAACCAGGCTATTTCTCCATGCACAGGCCAATTAT -GAAAGAGGAGAGGCTTAAGTTCTTGAACCCTGAACGAATAACGACTACCAGAAAAGCACTTCGCATCACT -CAGACATGATTTAACATAATATACATTATGCGCACCAATATAAACCAAGGAAGAATCCAGTCGTTGGCGG -TCATGATTGTCATGCTCATTAACAATGACCAAACCCCATATCTCACTTACTACCGTATTCTCGGCTTAAC -CGTCCATGCAACCTCAACACATTGCTTTCAACTGCCGTCACCACGTTCTCCGGAAAATCTGTCGGTAATG -AAGTCTTCACGTTATCCAGTGCTGCTGGAATCATTCTGGCAAAGTCACTCAGGATTTCATGCATCTGCAC -TTCCGGGAATCTCAGCACCTTTGCTGTCGCCAAAAAATGTCGCGGATAAATTTTATCGATTGCCGTTTTT -TTGCCTTTGGATGCGTTAAGCCCCATTGCCAGTTTGAGATCGCTGATGTGTATTCCCGTACCGCCAAGGA -CCGGAAATGCTGAAATGATGTCGTAAAATGGCGTGAGTCGATAACTGCCGCCAGCCTGAATAAATACGGA -GAAGTTTTTTGCATGACCGTCCGTTGCGCCAATCAACCACTGGAAGACCTGGAATTTCATAAAATCATAG -CGATCTTTCAGCGCCTCGCTGGACCCCATCAAAAAAGCCATGATCCGCGCGATGCCTGGGCCTCCATCTG -ATTCATATTTCACCGATGAAGGTAAACCGAATGTCTGACACATATCCTCCTGTGGCAAGCGAAGTAAAAC -CGTTCGCTCAGCATTCCAACGCCTGTCAAAACGTTCGACCGCTAACGCGCGCACATTTCCCGCTTTAATG -ATTTCTGCGTCCGGAACATTCAACCCAAGTTCTTTCGCCAGCAGCAGACAGTAATACTCATTATCAACGC -TTTGGCTGAGATCGAGCGTCGCATTGGGCTGCCTGATTTCGCCAATCGGTAATTTAATGATGTGCGTCGT -CGGCGTTATTCCTTTCGGAATGCACCAGTCATTGCCTATTCTGAGCAGTGCTGTCTTCTCCTGTGCGCCA -GCAACCGAGATGCGAAAGTCATTTTCTTCTCTAATCATGCCTAGCGGGATATCTGCTTTATAAGCCGTTA -ATACTTCTTCAAGTCTGGCTTCAGTAAGCTTTTCCCATGCCATTATCGGATGCGTTACGGTTTCGTCTTC -GGGTATTAACGTCACGGCACCAACGCTGTCTCGCCCTATTTCTGACAATAAATCAAACGGTTGTCTGGAT -TTGGCATGATAACGTTTAACGATCCGGTCACGTACAATCGGGCTATCGGGTAACAGGTTATCGAAGAAGT -TAAATACGGCATCAGAGGTGATATTCCCCCTCTGCAATGGCAGCGAAAGTGACAACGGTCTGGCATAACG -GCTTGCTAACCACTCCGGTGCATACTTAAAGGTGTGCGCGCCGTTGGCTAACTTCGTTAACTCGCCTACC -CGCTGGTTGTTCATCCAAGTGACAAGTTTAGGCATTACCACTCCAGATTTTGCTGTTCTGTTGATTCTGG -CGAGGCATTTTTCGCGTCGCATAGCGTCATTGAGAGTTCAAGCGACTGTAAAATCTTAAAAAATGTCGTG -AGCGTGGTATTGTCAGGGTTGTTTTCGAAATTGGAAATCGTCGCCTGCTTAATACCAATTTTTTTCGCCA -GCTCGCTCTGCGTCCAGCCATTTTGCTGGCGAACCAGTTTCATTGCATTCGCCAATTGCGTTGGGCTATA -GATCTTCTGAAAGCTCATCATGTCATACGTCCACAGCAAGTTTATCCGCTTAAGGGGATATTATAAGTTT -TATCCTTTAGTGAGGATAAGTCAATCTGGAAACACATCTTATCCGCTCTACGGGATAAACGCTGCGATAT -CCGCGATCGCGGATAAAAAGGAGGATTTAAATAAGGCGTTGATGCGCCGTTTGAAGTCGGCAATATTAAG -CCGCATGCCATCTCGACATGCGGCTTATACGGTTTACCAGCTATATTTCACTCCCAGCATGCCCTGAGTA -TCGCTATAGCCTTTATCACCTAGTTGCACACCGACATTCCCCCACAGGCTAAGGTTGTTATTTACTTTCG -CCTCAACCCCGGTACGTACTTCACCGAGATTACGCGCACCTTCACGGCCTACGGTTTGACCATTCATCTT -CACGGCGTAGACTTTGCTATTGTTGATCCAGTTCGCTTCAATGTAAGGCTGGAACTCACGCTGTTTACCA -TCGTCACGCTGGTGATGGCTGTTCAGGTAGGTTTTCACCCCAAGTCGCGTTTGCACATTTCCGTCGCCTT -CCGTTTCAATGCGCGTTCCGTCTTTCCGGGTATGGTCGGAATCTTTCACACCCATCCAGGTGATTTGCGC -CTGTGGCTGGACGTACCAGGTATTCAGCGTCCCTTCGCTGCCGCTAAATGTTCCCGCTTCAAAGGTATAC -CCACCCTCAACAGAGGCCGTCACACCGCGAGAATCATAGTCGTCAGCAGAACGGTTATCGGAACTGACGC -TGTTATCAAACCAGTTATACAGCGCCCAGCTGTCAACATAAGCGCCGGTCTTATTCGCATCGTTCTGATA -CCAGGTCGCGTACAGCCCAGCGCTGTAACCGCTGATGCGCCCATCCGATTTATAACCCACACGATTACTC -TGAGTATTACTGTGCTGATTGGCGTAGCCTGCCATCACGCCAAGATGCCAGCGATCCTGCGCGTTGCTAC -TCCACTGCGCCAAATCGCCGCCTAGCTGCAATACATAGCGGTTAGCCTGAGTATTTAGCTGACCGTCACC -GGCCCTTGAACGTTCGTGCCCTCCGACATGACGCATCCACATACTGCTTGCCGACCCCTGAGAATGCAGT -GAATCTGTATACTGCGGCTCACCCAGACGGTCGTGTAAACGATGGCTAAACAGCGAGTTGGCTGCGGCAA -TGTTGCTGATATAGCTTCCGGCCTCCGGGCGATAAACTGATGGGCCTTCCGGATCCACAACAGGGGGATT -ATTGATGGGATCGGGTGTATCCGCTGGCGTTACGCCGTCCCATTTACTGGTCAGATACCAGTTTTTCTCG -TCATTCCCCTTCCCTTTAGCCAGCGTGTAGACGTAAGCCCCAGCTTCGACAGTTCCGGTGGTCAGCGCGA -AGTTACCTGCAGAATTACCGCCAACCTCAATGAGTTCAATACCGTTGACCGTTTGTGCACCGACGCCGCC -AATGTTATCAACCCGAACGCGAGTGTTCCCTTGGGTATCGCCTTTCACGTTCATCTTATCGGTGGGCGAA -TTATCGCCGCCCAGCGTCGCGTTGAACGTCATCAGGCCATTGTTTCCGGTATAGTTGCCGTTAACGGTCA -GTACATTCCCCGGTTTCCCCCCTTCGCTATTCATTTGAACCGTGCCGCCATTCTCCAGGTTGCCGCCGAT -AGTGGTTTTAGCGACACGCAGTGCCCCCCCCAGGCATAACGTTCATATCACCTGCAGTGGTGACATTTCC -CGACATCACACCGCTGTTATGGATATTAATGTGTTGACTTGCCATATTAATGGCAGAGTCGGAACCGAAA -GCAATTTCCCCCCCCACGATATCCGTCGTACCCTGATACGCCGCGGAATCGTTGTTAAGAGTCAGGATCC -CGGTACCCAGTTTTGTCACATCACCGCTACCGCTGATACTGTGCGTCATCGCCCAGCTACGCTCAGTGGA -GATGGTGAGCAGGCCATTATTGATAACGGAAGCATCACCCAGGTTTTTCTGCTCGTTGACGCTGAGCGCG -CTGCCTGTATCAATGTTGAATTGCCCCACAAAGCGGCTATTATCGCCATCCAACTCTACATCTGTCCTGG -CGGTTGCGCTCACGATACCCTTCCCGCTTATGCTATTACGCAGTTCGCCAGTCACGTTTTTTAGCGTTAA -CAGACCGTCATTGGCAATATTTCCTCTGCCTAACCCCTGAGTATTATCGAGGCTGACTTCCGCATTTGGG -CTAATGCTGGTTAACGCATTGTAGCGTGCATTAAGCCCCTCGATAGCCAGCGTTCCCCCTGTAACATTCA -GGTTTCCGCCACCTGTCAGTTCACCCTGACTGATCCCACCTTTATTTACCGTCAGCGCCCCCTCTTTGAA -CAAAACAGTCGAACCCATCTGCCCGGTGAATGTCTCTACCGTCTGCGTCGATCCATTAAGATCGACGATG -GCCGCGTTGCTGATGTTCAGTTCCCGGGTGTTGCCAAGTGCACCATCCGCATCGGTACGTAATGTCCCCA -TCTGAACGTAGGTTGCCCCCTGATAGTCGTTCTGACCGTTGGAAAGCGAAACCTGTCGCACCGTATTGAT -TGCCAGATCCCCTTCACCACCGATTTTTGCCGACATATCGGCCGTTGCGCCATAGGCTCCGCCATGTTCG -GCTAACGTCAGCTTTTGCCCACCATGGATGTTCAGCGCTTTCAGCCCATAGTTAACGTACAAACCATTAC -CTGGTGCGGTCGTGAGGCGGAATCCATAATCACCCTCGGCGACCACCGTTCCGTTTTGCGCAATGTGTAA -CGTTTTGTCCGCTTCCACCTCGTCGCCCTGTAAATCACGTAACGTTAATGAGCCACCCGACCCAATAACC -GTTTGCGCCTTCACCAGTTGAACGCCGACATGGCTATCGTCGTGTTCCAGCAAATTGAGCGTCGTCAGAG -GGTTATTCGCCATGGGATCATTCCACGGTTTAGGCACGTCGATAAGCACGTCGCCCGTCCCGTTTACCTG -ATAGTTACGGCCTTTCCAGGTGTAGTCACCCGCGCCGACAACCAGCGTATCGACGCTGATATATCCCTCC -GCGAGCGTCGCAGCAGGAATATCCGTATCGAAAATGATGGTACCTCCATTCATGGCCAGTCCACCAATGG -ATTGCTCTCCAACTTTTACCGATGTGGTATTTTCACTGTCAGACTGCAACATCGCGTGAGTAAGCGCAGC -GGTGTTGTCGCGTTCCAGAGTGAAGGTACTGTCTTTCAGTTGGGCAACACCGGCGAATTCAGTCCCTGTT -GCATGGGTAAAGCCAAACATCTTGTCGGAGGATGACAGCTGCACTCGCATCAAGCCATCGCCTTTGAGCG -CATTGGTCAGCGTGTAATCTCCTGCACTGTTCGTTGATGCGAGAATGTCGAGCGTACCGGGGTTTGCAAT -GGTTACTTCACTCGACCCCATGCCCGTTACCCCATCTGCCGTATGAGACGCAATGGTCAGGAGGCCGTCA -TTGACCAGCGTTTTACCGCTATAAGTATTCCCTGCATTGAACACCGTATGGCCTGCATCATGGATCACTT -TTCCGTCTTTATCGTCACCTGTAATCAGCATATCGACCTGGTAGCCGGCATCACTGTTATTGGTATGATT -AAAGACAAAAACGCCTTCGCCAAGACCAAACTCCACTTTCGTCGCATTGGTGATAAATCCGGCATCTGCC -GCCGCCTCACCGTGAGCAGCACCAATGTTTAGCGTTCCTACAGCAGGCTCAAAAACACCTAAGTAAACTT -CTCCACCTTCGACATTCAGCGTACCGTTATTCGTCAGGGTTAACGTACCCGTACCAGATGTCCCTACGTA -CATATTGAATGTTTCAAGAAGAGAGTTCTGCCCATCCACCCTCACGTCGCCCTTACTTTTGTCATTGAGA -GCTATCTGTGTATCACGCGCTTTAACTATACCTCCGGTGGTAATATTCAGTTCACCCGTGCCTAATACAC -CGACCTGTAGCAATTGTGCGTTAGTAGATGATGTCTTTAAATTCCAGAGACTGTCCGTTGAAATATTAAC -TATCCCCTTACCGGAGGCATTTCCTCCGATAAATCCATAGCCCGTTGAATTAAGGGTGGCACCATTACTG -ACATTTACGATACCGCTACCAAAATTACCGACATTGATACCCACAGTATCGAACGATGATGTCGCATCCA -TCAGGTTCAGTGTGCCGATACCGCTTGCTTTATCGCCCAAAAAAGTAATATTTTGCGATACGAACTTACC -GCCATCGCTAATATTGAGGTTTCCGACGCCCGCAACACCAATGGTGGTATAGACATTCTTATTGACCTCC -CACATTCCCCCCGTGGTGATGCTGACATTCCCGACGCCGGTTTCTCCATAACCGAGTGAACTTCCTCCGT -TGCTGACAACAAGCCCCTGATTACTGATATTCATTTCGCCGTGGCCGTCATAACCAAGATTAGTTCCGAG -ATTAGTGATAACGGAGTTCTTATCCTTAACAGTAATGTTGCCTGTGCCTGTTTCTTTCATCCCCGCAGTG -ATAATTCCCGAATCTACTTTGCCTTCACTCGAGACATTAAGTTCACCGTCGCCAGCATCACCGATATAGA -TATAGCGGAAAGCTTCGCCCGTTCCGAGGAAATTCCAATGCCCTTTATCGGTCACGTTGACGACACCGTG -GGAACCGTCCTGAACGCCCACCAATGAATATTCTTTGTTATTAATCAGTCCATTATTGGAAATATTGACT -GTGCCATTACCGAAATATCCATTATAGAGTCTGCGTACCGTGATGACAGAGTCTTGATCCTGCACATTCA -GGGTTCCGATACCGGTGGCATTGCCACCGATAATCGTATTTTCAGCCGTAACCAACCCCCCCTCGCGAAT -AGTCGCCTCCCCAGTTCCTTGATTACCAATTTGAAATTCAATTGAGGAATCATTATTTTTTATTAGCCAC -TCGCCACCCTTTTCAACGACAACCTGGCCATTACTGCCCGCCTGATAGCCTAAAATGGCGACGATTGAAC -TCGTGACGTAACCCTTATCCGTAATATTTAATGAACCTGTGCCATAGCTACCTATTTCGAATAATTCGGT -CGTCAGAACAGAGTCCTCTCCCTCAACATTGACCGTCCCGACGCCTCCTGTCGAAGAACCTAATCTTAAA -TAGCCTCCATCGACGTGACCCTTCTGTTTAATATTCAGCGTCCCCGTTCCGGATTGACCCACATTTAAAG -GCCTTGCATTATTTCCGCTATCATACAATCGCCAGGTGCCACCCAAAACATTAACGGTGCCCTCTGAGTC -CTCATTAGCGCCAATGACGCTGGTAGTAATAGTGGTTAAGGAGGCATTACCGCCAGCCAAAATATTAAGC -ACTCCAGTGCCATACCAGCCAACCAGGTAGGCATCATAAGCAACATCAGTATCAATATTGGTAATCTGAT -CATTATCAACTTCCAGACTTGCACCAGACGCTGAACCGCTTAGTGCCAGCAAAACACCCAGCGTCAATCT -ACTGAATTTCGTTGTCAGTCCAGAGGATTTACGCAAATTAACCGTCGATGTTTTACCTGCCCTGCGAGTT -AATTCCGAGCAGGCCTGAAATACCTGTAGAGTGCAATTCCATATCACGCGATAGATTCTATTCATATAAA -CGCTCCATATACAAACAATACAGCCACGAAAGAGATGAGTCGTCAGACATTAAAAATGAAACTTATTAAA -TTGTCAGAGGGCTGTATTGAGTGTTAGTTGGAGGTGGGAAGGTGTCAATTTGGCTAATTTGCTAATGCTT -TCGAATTGATAGATTAAAAATTGCATAGTTCTTATTTTATTTAAATATGAACTATGAGTTATTGTTGCTT -AATAAGAAAACTGTTTCTTTCAATAGGAAAATTATCATCATCATATTTAACAAAGAATAGCACTAATTGC -TAAAAATCGAAGTTTATTAAACCCCTTTTGCATCCATTAGTGTCTTTAGGAATATTCGCTATAAAATAAG -GGTTGTGCTTAATGCTTTAAGAAAAATAGCAATTTTCCCTTGAATATCGTACTGGTGATGGAACGATGAA -TCTGCAAGCTGGCTTTTAACAAGCCAGCTCTAAAAGAAGGGAAATAAGAATAACTATACTCAAAAACTAA -CAGCCACGGTCATCATGATGTGGCTGTCAATGAAACTATAACCCAGGCGCTTTCCATAACGACGTCGTCA -GTCCATGATCAACCAGCCCCAGCTGATCCTGATAAACTGCCTGCCACTTATCGCGTGAATCCTGATAAAG -TTCATGCTTTTCCGGGTCTGGTGTGTGCGTCCGTTCCCAGCGAACCAGGCGTTCTCCGGTTTCTGCCATT -GATGAAAAAATTCCGGCACCGACGCCAGCTGCAATGGCACATCCTAATGCAGTGGCTTCTTTGACCACCG -GAATATTGACGGGTAATCCCGAGACATCAGCGAGAATTTGACTCCATAATTTCCCTTTTGAACCTCCGCC -TGCAAAGACTAACGATGAAGGATGAATATTCGAGAAATCAGCAATTTGCTGCAAGTTACACGCTGATACA -ATCGCCGCATTTTCTTCCAGCGCACGGAACAATGTCGCTTTGTTACATTTATCCGGGTCAATGGACAAGT -TAATAAAGGAAGGCGCAGCGTGATACCAGGTTTTAAAGCGCATTCTGTCGGAGAAGATCGGCATTACGCC -CCACGACCCAGGCGGCACCCGACTGGCCATCTCTTCCAGCAGCGTATAGGTGTCGATGCCTAAACGTTCG -GCAATCAGTTTTTCTTCGGCACAGAAAGCATCGCGGAACCAGCGCATGGTGAGTCCGGTAAAAAAGCTTA -TAGATTCAGCTTGTACCATGCCAGGAATAACATGAGGATTAACGCGCACGTTCATTTCTGGGTCTGTCAC -CGGCGCGGCTAAATTTACAACTTGCTGCCAGAATGTGCCGCCAAGAACCGCGGTTTGTGCCGGACGCACA -ACGCCTAACCCAAGGCAACCAAGCTGCACGTCGCCTCCTCCAACGACCACCGGAGTGCCCGCCTTCAGAC -CGCAGAGTTCCGCCGCTTGTGAACTTACCACGCCCAGCAATGTGCCGGTTTCTTTGACAGGAGAAAGAAT -ATCGGCACGTAGGCCAGCCATATCCAGCAATGCAGGTTTCCAGTCACGGGTGGTTAGATCAAGAAGTCCC -GTGGTGCCAGCGTTAGAGGGATCCACCGCCAGTTCGCCGCTGAGCATATAGGCCAGCCAGTCGCTGATCA -TGGTGATGGTTGATGCCTGACGGTAAATATCGGAACGATGGTGCGCCAGCCAAAGTAATCTGGGGATGGC -ACTTAAAGCCAGTGTTTGTCCGGTCGCGCGATAAACTTCGTTTTCAAAGGTATTGTTGTGCAGTTCTTTA -AGTTCGCTAACTTCGCGTGCCGCTCTGGCATCCACATTGGCGCAGGCCCAGATCGGGGCTCCTTCATTAT -TATATAAAACAATGCCTTCACGCATCGAACATGCCGAAACGGCAGCGATATACTCCGGGGCTATGCCGGC -GTTGTGCAGCGCCTGGCGCATACACTCACACGCCAGTTGCCAGTTTTTGTTGAGATCAAATTCCATAGAA -CCAGGAACGTCCGGTACTGCCAGATGCCGCCACTCCGCCTGTCCCACTGCTATTTGATTGCCTTCCAGGT -CGAATATCACAGCCCGAATACTTCCGGTGCCTGCATCCAGCGCCATCAGGTAGTACTTTGATTCTGAAAG -GGTAAAGAGTCGAGCCATTAGATTATCCTCGGCTTATGCGTTCTGTCTGTTCCTCTATACGTTCTCCATC -ATTCCCGGTAATAAGGTCATGCAAATTTAACTACGTAAAATCGCCGCTGCTGTGTCCTGATCGGTAACCA -GTGCGTTGATATAACCGCCTTTCATTGCAGCGGCAATTGCTTCGGCTTTATTTTCTCCCCCTGCCACGCC -AACCCGGACGGGTATGGTCTTCAGCGCGCTTAAAGGTAAGCCAATCAGTTCGTTATGTATTTTGATATTC -GTGACAACGTCACCTTTTGCATCAAAAAAGTAGCCTAAAATGTCGCCAACCGCCCCTTTTCGGCCAATCA -TTAACTGTTCGCCCTGGCTGATATAACCGGAGCGAATGATTGTCGCATCGTCCTGTTGACTCACAGCACC -AATGCCGACAATCGCCACATCCGCTGCTTGCGCGGCTAACAGAACATCTTTGACGCAATTTTCATTTTTT -AGCGTACGGGCAATGTCAGCGGAGGATGCCCGCAACGGAGCCGGAATAATATTCACACTGCACGCCGCGT -TAAGCTGCCCGATTCCCGTCATATAAGAACCGACGCCACCGGAGAGCGTGACCAGGCGAATTTGCTGTGA -CGAAATAAAACCACTTAAGCGTTGCAGCGTATTCATGGTTGCCTCGCCAAAACCAATCGCCAGCATCTGT -TGTGGTTGAAGTAAACTCATCAACATATGCGCCGCGCCTATCCCCAGTCGCCCACCGACATCAGCATCCG -CAAGCCCAGGGATCACCCGGACATGTTGCAGCGAAAACTGACGACGTAATTGAGTTTCATATTCCAGACA -GCCTTCAAAGCGAGAATTAATCTGTACGCGAATAATGCCGGACTGATGCCCTTTCTCCAGCAATCGCGAC -ACTTTCAAACGTGTCAGGCCGAGACGATCGCTGATCTCGCTCTGGGTCAGCCCGTCGTGATAGTAAAACC -ACGCGATCCGCGCGACCTGTTCTTCTTCACACATTCCCTGTTCTGAAATTGCCGAATCGTTGATTGTCAT -AATTCATTCTTCACTTTGAACATATTTAAATCTTTAATGCAATTGTTCAGTTCTTGCTCATTTATATCTG -TGATGGCAACCACAGTTTGACTCTACGAGCATGAACAAACGCAACCGTGAAAATCAAAATAGCATAAATT -GTGATCTATTCGTCGGAAATATGTGCAATGTCCACCTAAGGTTATGAACAAATTAAAAGCAGAAATACAT -TTGTTCAAAACTCACCTGCAAAACTGAACGGGGGAAATATGCAAACGAGTGATACCCGCGCGTTACCGCT -ACTTTGCGCCCGCTCGGTTTATAAACAGTATTCAGGGGTCAATGTCCTGAAAGGCATCGATTTTACGTTG -CATCAGGGGGAGGTCCACGCCCTGCTCGGCGGCAATGGTGCCGGTAAATCGACGTTAATGAAGATTATTG -CCGGTATTACCCCTGCTGATAGCGGTACGCTGGAGATTGAGGGCAACAACTACGTCAGATTAACGCCAGT -TCATGCTCATCAGCTGGGTATTTATCTCGTTCCCCAGGAACCGCTGCTTTTCCCAAGCCTGTCGATAAAA -GAAAACATCCTGTTTGGGCTGGCAAAAAAACAGCTCTCCATGCAGAAAATGAAGAACTTGCTGGCGGCGC -TGGGCTGCCAGTTTGATCTGCATAGTCTGGCAGGATCGCTGGATGTCGCCGATCGCCAAATGGTGGAAAT -CCTCCGCGGGCTGATGCGCGACTCGCGGATTCTGATCCTCGATGAACCTACCGCCTCGCTTACCCCTGCG -GAAACCGAACGCTTGTTTAGTCGCTTGCAAGAGCTGCTTGCTACTGGCGTGGGTATTGTTTTTATCTCGC -ATAAGCTGCCGGAAATTCGCCAGATTGCCGATCGAATTAGCGTGATGCGCGACGGAACCATCGCCTTAAG -CGGCAAAACCAGCGAACTGTCTACCGACGACATTATTCAGGCCATCACCCCAGCGGTACGGGAAAAATCG -CTCTCTGCCAGCCAAAAATTATGGCTGGAGTTACCTGGTAACCGCCCACAACATGCCGCCGGAACGCCGG -TGCTGACACTGGAAAATCTGACCGGCGAAGGTTTCAGGAATGTCAGCCTGACGCTCAATGCCGGAGAAAT -TCTGGGCCTGGCTGGGCTGGTGGGGGCCGGACGCACAGAACTGGCCGAGACGCTCTATGGTCTGCGTACT -TTGCGTGGCGGACGCATTATGCTGAATGGTAAAGAGATCAATAAATTATCCACTGGAGAACGTTTACTGC -GCGGTCTGGTTTATCTGCCGGAAGATCGCCAGTCATCCGGACTGAATCTCGATGCTTCGCTGGCCTGGAA -CGTCTGCGCCCTTACTCATAACCTTCGTGGATTCTGGGCGAAAACCGCGAAAGATAATGCCACCCTGGAA -CGTTATCGTCGGGCGCTGAATATTAAATTCAACCAACCGGAACAAGCTGCACGGACATTATCCGGTGGCA -ACCAGCAAAAAATCCTCATTGCCAAATGCTTGGAAGCTTCGCCGCAAGTATTGATTGTCGATGAGCCGAC -GCGCGGCGTGGATGTCTCGGCCCGTAATGATATCTACCAGCTGTTGCGCAGCATCGCCGCACAAAATGTG -GCTGTGCTGCTTATCTCCTCCGACCTGGAAGAGATCGAACTGATGGCAGATCGTGTGTATGTGATGCATC -AGGGCGAAATTACCCACTCTGCACTGACCGAGCGCGATATTAATGTCGAGACTATTATGCGCGTTGCCTT -CGGCGATAGTCAGCGTCAGGAGGCGTCATGCTGAAGTTTATTCAGAACAACCGTGAAATCACGGCACTGC -TGGCGGTGGTGCTGCTGTTTGTATTACCCGGTTTTCTCGACCGCCAGTATTTAAGTGTGCAAACGCTGAC -CATGGTTTATAGCAGCGCGCAAATCCTGATCCTGCTGGCAATGGGCGCGACGCTGGTAATGCTTACGCGC -AATATTGATGTTTCAGTGGGTTCGATTACCGGAATGTGCGCGGTGCTGTTGGGGATGTTACTGAACGCAG -GATATTCACTACCTGTTGCTTGTGTCGCGACTTTACTGCTTGGTTTGCTCGCGGGATTTTTCAACGGTGT -CCTGGTCGCGTGGCTAAAGATCCCTGCCATTGTTGCCACCCTTGGCACGTTAGGGTTGTACAGAGGCATC -ATGTTGCTGTGGACTGGCGGCAAATGGATTGAAGGGTTACCCGCCGAACTGAAACAGCTCTCCGCCCCGC -TGCTGCTTGGCGTTTCAGCAATTGGTTGGTTGACGATAATTCTGGTGGCATTTATGGCCTGGCTGCTGGC -AAAGACGGCGTTTGGACGCAGTTTTTATGCCACGGGCGATAATTTACAGGGCGCTCGTCAACTGGGCGTT -CGTACTGAAGCCATTCGCATTGTGGCATTTTCGTTGAACGGCTGCATGGCGGCACTGGCGGGAATTGTGT -TTGCTTCGCAGATTGGTTTTATCCCCAACCAGACCGGTACCGGGCTGGAGATGAAAGCAATTGCAGCCTG -CGTGCTGGGCGGCATTAGTTTGCTCGGTGGTTCCGGTGCGATCATTGGTGCGGTACTCGGCGCATGGTTC -CTGACGCAGATCGATAGCGTACTGGTGCTGTTGCGCATTCCGGCATGGTGGAATGATTTTATCGCGGGTC -TGGTTCTGCTGGCGGTGCTGGTGTTTGATGGACGCCTGCGTTGTGCGCTGGAACGTAATCTACGGCGGCA -AAAATATGCCCGCTTTATGACGCCACCGCCATCCGTTAAACCCGCTTCGTCAGGTAAAAAACGGGAGGCC -GCATAATGCGTATTCGCTACGGTTGGGAACTGGCTCTTGCCGCACTGCTCGTTATTGAGATTGTCGCATT -TGGTGCAATTAACCCGCGAATGTTAGATCTCAATATGTTGCTGTTCAGCACCAGTGACTTTATCTGCATT -GGCATTGTCGCCCTACCGCTAACGATGGTGATTGTCAGTGGCGGGATCGATATTTCGTTTGGTTCGACCA -TCGGCCTCTGCGCCATTGCATTGGGCGTACTGTTTCAAAGTGGTGTGCCGATGCCGCTGGCGATACTCCT -GACCTTACTGCTCGGCGCATTGTGCGGGCTGATCAACGCCGGATTAATTATCTATACCAAAGTTAACCCG -CTGGTGATTACGCTTGGCACGCTGTATCTGTTTGCCGGAAGCGCTCTGCTGCTTTCCGGTATGGCCGGAG -CGACGGGGTACGAAGGTATTGGTGGATTCCCGATGGCGTTTACAGATTTCGCTAACCTGGATGTGCTGGG -ACTCCCCGTTCCGCTGATTATCTTCCTGATATGTCTCCTCGTTTTCTGGCTCTGGCTGCATAAAACCCAT -GCCGGACGTAATGTGTTTTTGATTGGGCAAAGCCCGCGCGTGGCGCTTTATAGCGCGATTCCAGTTAACC -GTACCTTATGTGCGCTCTATGCCATGACGGGGCTGGCGTCTGCGGTCGCCGCTGTGCTGCTGGTATCGTA -TTTTGGTTCAGCACGTTCCGATCTCGGTGCGTCGTTTCTGATGCCCGCCATCACCGCCGTGGTGCTTGGC -GGGGCCAATATTTATGGTGGTTCCGGTTCCATTATCGGCACCGCCATTGCGGTTTTATTAGTGGGATATT -TGCAACAAGGTTTGCAAATGGCAGGAGTGCCAAATCAGGTGTCCAGCGCCCTTTCCGGTGCGCTACTTAT -CGTCGTTGTCGTAGGTCGTTCCGTTAGCCTGCATCGCCAGCAAATTAAAGAGTGGCTGGCGCGTCGGGCC -AATAACCCATTGCCATAAAGGATATCTTCATGACACTTCATCGCTTTAAGAAAATCGCCTTACTTAGCGC -TCTTGGCATTGCCGCAATCTCTATGAATGTGCAGGCCGCAGAGCGTATTGCATTTATTCCCAAACTGGTT -GGCGTGGGATTTTTTACCAGCGGTGGCAACGGCGCACAACAAGCGGGTAAAGAGCTGGGCGTTGATGTGA -CCTACGACGGGCCGACAGAACCCAGTGTTTCTGGTCAGGTACAGTTGATTAATAACTTCGTCAATCAAGG -TTATAACGCCATTATCGTTTCTGCGGTTTCGCCTGATGGCTTGTGTCCGGCACTGAAACGCGCCATGCAA -CGTGGTGTGAGAGTGCTGACCTGGGACTCTGATACTAAACCGGAGTGCCGCTCTTACTACATTAATCAGG -GAACGCCCGCCCAGTTAGGAGGTATGTTGGTGGATATGGCGGCGCGTCAGGTGAATAAAGACAAAGCCAA -AGTCGCGTTTTTCTACTCAAGCCCCACCGTTACGGACCAAAACCAGTGGGTGAAAGAAGCGAAAGCGAAA -ATCGCCAAAGAGCATCCAGGCTGGGAAATTGTCACTACGCAGTTTGGCTATAACGATGCCACTAAATCGT -TACAAACCGCAGAAGGAATATTAAAAGCGTATAGCGATCTCGACGCCATTATCGCCCCCGATGCCAACGC -CCTGCCCGCTGCCGCACAAGCCGCAGAAAACTTGAAAAATGACAAAGTAGCGATTGTCGGATTCAGTACG -CCAAATGTGATGCGCCCGTATGTAGAGCGCGGCACGGTGAAAGAATTTGGCCTGTGGGATGTGGTTCAGC -AAGGCAAAATTTCAGTGTATGTCGCGGATGCATTATTGAAAAAAGGATCAATGAAAACGGGCGACAAGCT -GGATATCAAGGGCGTAGGTCAGGTTGAAGTCTCGCCAAACAGCGTTCAGGGCTATGACTACGAAGCGGAT -GGTAATGGCATCGTACTGTTACCGGAGCGCGTGATATTCAACAAAGAGAATATCGGCAAATACGATTTCT -GATGTGCATTACTTAACCGGAGTAAGTTATGGCAGATTTAGACGATATTAAAGATGGTAAAGATTTTCGT -ACCGATCAACCGCAAAAAAATATCCCTTTTACCCTGAAAGGTTGCGGTGCGCTGGATTGGGGAATGCAGT -CACGCTTATCGCGGATATTTAATCCGAAAACGGGTAAAACCGTGATGCTGGCTTTTGACCATGGTTATTT -TCAGGGACCGACTACCGGACTTGAACGCATTGATATAAATATCGCCCCGCTGTTTGAACATGCCGATGTA -TTAATGTGTACGCGCGGCATTTTGCGCAGCGTAGTTCCCCCTGCGACCAATAGGCCGGTGGTACTGCGGG -CGTCAGGTGCGAACTCTATTCTGGCGGAATTAAGTAATGAAGCCGTGGCGTTATCGATGGATGACGCCGT -GCGCCTGAACAGTTGCGCGGTGGCGGCGCAGGTTTATATCGGCAGCGAATATGAACATCAGTCGATCAAA -AATATTATTCAGCTGGTTGATGCCGGAATGAAAGTGGGAATGCCGACCATGGCCGTGACTGGCGTGGGCA -AAGATATGGTGCGCGATCAGCGTTATTTCTCGCTCGCGACTCGAATCGCCGCTGAAATGGGGGCGCAAAT -TATCAAAACCTATTATGTCGAAAAAGGTTTTGAACGGATTGTTGCCGGATGTCCGGTACCCATTGTTATT -GCTGGCGGTAAAAAATTACCGGAGCGCGAGGCGCTGGAAATGTGCTGGCAGGCTATCGATCAGGGCGCTT -CTGGTGTGGATATGGGGCGTAATATTTTCCAGTCTGACCATCCGGTGGCGATGATGAAAGCCGTACAGGC -GGTGGTTCACCATAACGAAACGGCTGATCGGGCATATGAACTCTATCTGAGTGAAAAACAGTAACTGCGG -ATCTAAGGAGAAGAATTATGCACGTCACACTGGTTGAAATTAACGTTCATGAAGACAAGGTTGACGAGTT -TATCGAAGTTTTTCGCCAGAACCACCTGGGCTCTGTACAGGAAGAAGGCAATTTGCGCTTCGATGTCTTA -CAGGACCCGGAAGTGAATTCGCGCTTTTATATCTACGAAGCCTATAAAGATGAAGACGCAGTGGCGTTCC -ATAAAACCACGCCCCACTACAAAACCTGTGTCGCGAAACTGGAATCTTTAATGACCGGGCCGCGTAAAAA -ACGTCTGTTCAATGGTTTGATGCCGTGAGGCGAATTTATCAATTTTATCTACAATTGGGGTAACGCGCTG -ACGGGAGTAAAAAAATGTCTGACTGGAACCCCTCTTTATATCTACACTTTTCCGCTGAACGATCGCGTCC -GGCGGTGGAGCTGCTTGCCAGAGTGCCGCTGGAAAATGTCGAATATGTTGCCGATCTTGGCTGTGGCCCA -GGTAACAGCACCGCCCTTCTACAACAACGTTGGCCTGCGGCCAGGATAACAGGCATCGACTCGTCTCCGG -CGATGATTGCTGAAGCGCGCAGTGCTTTGCCAGACTGCCAGTTCGTGGAAGCAGACATCCGCAACTGGCA -ACCGGTACAGGCACTCGATCTGATTTTTGCTAATGCCTCACTGCAATGGCTGCCCGACCACTACGAATTG -TTTCCTCATCTGGTTTCTTTACTTAATCCGCAGGGCGTGCTGGCAGTACAGATGCCAGATAACTGGCTGG -AGCCGACCCATGTGCTCATGCGCGAAGTTGCCTGGGAACAAAACTACCCGGATCGCGGGCGTGAGCCGTT -GGCTGGCGTTCATGCTTACTACGATATTTTGAGCGAAGCCGGATGTGAGGTCGATATCTGGCGAACCACC -TACTATCACCAGATGCCGTCACACCAGGCGATTATCGATTGGGTGACTGCCACTGGATTACGTCCGTGGT -TACAGGATCTGACCGAGAGCGAACAGCAGCTTTTTCTTAAGCGCTACCATCAGATGCTGGAAGAGCAGTA -TCCACTGCAAGAGAACGGACAGATACTGCTGGCATTTCCGCGTCTGTTTATTGTTGCCCGGCGTATGGAG -TAAATATCACGTCAGCTGGTAATGACGATCGGGAAGAATTTTTGCTGGAATTTCGGCTTCATCGTTCATC -TGTAACAGGTCAATTTCAATAGCGTTGCAGATGGCATCCAGTGGTAAATCATTGTTTTCAGTACCGAACG -GATCTTCCAGTTCTTCCGCCAGACAATCCAGCGAAATAAAAGTGTAGGAAATCAGCACAGAGATAAAAGG -CGTCATGTAATGCAGGTCCACGACCAGCGCGAACGGCAGCATGATACAAAACAGATAAACGGTACGATGC -AAAATCAGGGTGTAGGCAAAGGGAATTGGCGTATAGGCAATGCGCTCGCATCCTGCCAGGACCGCTGAAA -TATCATTAAGCCGATCGTTGAGGCTAATAAACAGGATATCTGAAAGCTGTCCATTGCGGCGCTGAACCGC -CAACCATTCTCCCATTATTAACAAGATACGGTTAGCTGGAGAGTTCGAAGCCAGTACACGCTGAAGATCT -TCAGTCTTGAGATAATGAGCCAGCACTTCCGCCTGTGGCTGTTTGCGTAATGTCATGCGTAAACAGTGGG -CGAAAGCGATTTGCAGCCGGGCAAACTCCCTTACACTTGCCGAATCCGGCAATGTCGTTTTTACCTCGCG -CAGTAACGACCGTGAGGCAATCATCAACTGCCCCCAAAGTTTTCGCGCTTCAACGTAACGGGCGTACCCG -GCATTATTACGAAAACCAAGAAAAATGGCGATGGCGACACCGAGAATGCTGAACGGTGCGAGGGTGAATT -TGATGCCCAGATGCGTGTACCAGGGCAGCATGAAAATAACAGCGATAGAAAAGAGAAAATTGAGTAGTAA -GCGCGAGGATATCTTGGATAATACTGAGCCGTGCCAGACAAAAATACGGCGCAGCCAGTGTTGTTGTGGA -CGAACAATCATGGTTATCTTCAGGCGTGGAAAAGTCGCCCTATTAAACGTGATTACGATCACATTCTCAA -GACGCTACTTACAAATTACCTACAAGCTTACAACATTAGCAGGCGCTGCATGTGGCACCTGTTAATGATA -AAGGCATATAGGATGTTGTAACTAATATGGTGAAATAAGAAACCCGGTCGAAACCGGGTTCAGAAGTAAC -GGTGTTATTAGCACAACGGACGTACAGCTTCGCGCATCCCTTTTTCGAGAATCGCATCCAGGTCATTAGC -AACCTGCTCGACCAGACCAGGCACTTGCGTCAGGTCCTGCTCCCAGTGGTCTTTTTCTGCCAAAACAATC -GCTACCAGTTCCTGGGTGCCGATAACACGGTCACGATGCTGGCTCCAGAGTTGCTGATAACGTTCCAGCC -AGTGTGCATCGTCCTGTACCGGATATGTTTCGCCGTTACGCTCACCACGATAGAACGCAATCAATGCCGC -TAATGCGAAAGTAAGGCGCGCCGGAAGTGTGCCGTTTGCCTTCTGCCCTGCCAGCAGCTGTGGCAGGATG -CGGGTGCGGAACTTGGTCATACCGTTGAGCGCGATAGACAGCAGCTGATGCTTAATGTACGGGTTACGGA -AACGCCCGGTGACTGCACTGGCGAAAGATTCCAGTTCATCACGAGGCAAATCCAGTACCGGAATAATTTC -TTCGTAGATAGCTTTTTCAACGAATGCGCAAATTTCAGCATCGTTCATCGCTTCACCTACGGTATCCAGC -CCTGCCTGGAACGCCACCGGCACCAGCGCGGTGTGCGCACCGTTGAGGATTGCCACTTTGCGTTCTTTGT -ACGGTTTAATATCGTCAACAATCAGCACGTTGAGCGGATATTTGTCCAGACGCAGTTCAGTCGCTAAGGA -TTTCGGTCCCTGAATCACAAACAGGTAAAAGTGTTCAGCGGTGTCGAGAAAACCATCGTGATAACCCAGT -TCTTCTTCCAGTTTAGCCACTTCATCGCGCGGATAACCGGTAACGATACGGTCCACCAGCGTAGAACAGA -AGCTGTTAGCCTGAGCCAGCCATTGAATAAATGCTTCTGGCAGTGCCCACTCTTGCGCATAGCGCAGCAC -CAGTTCACGCAACGCGTCGCCATTGTAGTCAATCAACTCACACGGAATGATGATCCAACCTTTATCCAGC -GCACCGTTGAAATGGCTAAAGCGTTCGAACAGCAGACGGGTCAGTTTTGCCGGATAGCTTACCGCTGGCG -CGTCATCGAATTTATCGCCCGCATGGTAGCTGATACCCGCTTCGGTGGTGTTAGAGAAAACAAAGCGCAT -TTCCGGGTTGTGCGCCAGTTTCAGGAATTCATCGTATTCACTGTAGACGCTGATTTCACGATTAACCGAG -CGAATCAGACGCGCGTCGCTGACCGCTTTCCCCTTCTCATTCAGGCCACGGATAATGGTGGTGTACAGAC -CATCCTGCGTGCTCAGTGACGGCGGGAATGAAGTTTCAATCGGACGAACAACGACCACGCCAGAATTCAG -ATCGGTGTGCTCATTCAGGAGATCGATTTGCCAGTCAACAAAGGCGCGCAGGAAGTTACCTTCACCAAAC -TGAATGATACGTTCTGGATACTGTGCACCGGGAAAATCGCGACGATTTAGTGTTTTCACAATGGGTTCCC -TTCTGATTAGTCATACAACCTGTTTGAATTGGTACGACAGGTTAGCAAACTTTAATACGCCGAACCCCTG -TTTTGATCAACTCCTGATGATTAATGAGCAGTTTTATGAGAAAAGTGTGGCGCGGATCATGGTTTAATCG -AGGAAAAACGCCTTTTCCTGGATCATAAAGTGGTAGAACACATTGCATTCAAATCGCGCGTAATGAATAA -AGATGTCAGACAACTTCCTCACCGTAACGCATAGTGCTGGTACGGTTGCGCCCATCTTTCTTCGAGCGAT -ACAGACACGTATCGGCTTCGACCATCAATTTATTAAAGTCATCGGTCAGCGTTAGGTACGATGCGCGACC -ACTACCGACGCCAATACTTACCGTGAGATAAAGCGTTTTTTGTTGCCAGGTGAATGGTTGCAGTTCAACG -CCTTTACGGATTTTTTCCGCCATTAGCAGACCATCGACAGGATTCACCGACGGCACTGCAACAGCAAATT -CTTCGCCGCCCATTCGCGCCACCAGCCCCTTATCACCGACAATCTTCTGAATATGCCGGGCAAACACGCT -TAACACTTTATCGCCACATTCATGTCCATAGTTATCGTTAATGCTTTTGAAATAGTCGATATCAAGCAGC -ATGACAGTCAGATGTTGTGTCTGTTTCAGCGATGGACTTTTCAGCGCCTCATAAAGACCGGACCGTGAGT -AAACCTGAGTCAGAAAATCAAAGTCGGCTCGCAGCGCAACTTGCTTCATTAGCGAATTGATCGCTGCCAC -GCTAAAAGAAACCATAATTGGGCATATCGCCATCGTGGCAATACCGAGACGTGCGGAGAACATTTGCGGA -ATGGAGAACGGCGAACCGACCGAGATATCAATCACCGAATTTGCCACCAGTACGATTTCCACCGCACCGG -TGACAAAGGTCAACAGACATGTTACCTGCGGCGTATAGCGCACTGCACACCAGATTAATGCAGGCAGCGG -GAACGCCAGACTCCCCGCTCCGCCAATGACTACCGAGGCAATAACCGACACAATAAGCGCGATGGCGGGC -ATCATCTGTTCTGCTTTAAAGCGCGGCAGCACTCCAGGAATAGCCAACGTCAGCATACAAGGCACGATCA -ACACGCCCGTTGAGAATTGCTCACTGAACCAGTCCGCAAGCAAAGGCCAGAAATCCAGACTATCAATACT -GACCGAACCAAGATAGCATGTTCGCTGACAGCGGCGGCAAATAAAGGTACCCTGGGAATGCTATTTTGTC -GTTTTCCGCAATTCTCATGGCTGATTCATCTGTACAACCAGCCAGTGATAGATTACCGCCACGATATAAC -GTTGTTGTTCTTCGCTTAACGAAACACCCTGCGGAATGTTATGCCACTTAGCCAGACAACCGCGACAGCA -GGTCGCGGTGGCGTGCTGAGCGATAAACACCGGATGCCCGCGCATGGGGGTTTGCTTACCGTCATTAGCC -GGTAATGCCGGAGCAAGACGTTTAGCGACAAAATCCGCCGCATGTTGTTCGATGACTGGCGCGCCTTTCT -CCAGGCAATACTGACGCTCTTTCATGCCCAGACGAAAGCGAGAGCGAAATTTTGAACGGGATAAACGCGC -GAAGAGTGGATCGAGAGACTGCATTAATAAACCGAACGCCCTAACTGTTTCGTCAATTGTTCAAGAACGG -CAATACCCGCAAGCGAGTTACCTGCATCATCCAGTTCCGGACTCCAGACAGCGATGGCCATTTCATGCGG -AACAATCGCCACAATACCGCCACCAACGCCAGATTTCGCCGGTAGCCCCACCCGCCAGGCAAACTCCCCC -GCGTTCTGGTACATACCACTGGTCGCCATCAGCGCGTTAATTTGCCGCGCCTGCATTGGCGTCACCACTG -GTTCATCAATATGAATAGCTTTCCCCTGATTAGCCAGAAAGACAAACGTCCGGGCCAGCTCTACACAGCT -CATTTTCAGAGCGCAGTAATGAAAGTAGTTTTGCAGAACGGTTGTCACGTCATGATGGAAATTGCCAAAC -GACTTCATCAGCCAGGCGATAGCCGCATTTCGCGCGGAATGTTCAAATTCGGAACGCGCTACCACCGTAT -CGTAGGAAATATCAGACACACCGCTTAAGCCGCGCACGACTTCCAGCATACGTTGCCGTGGTGCGCTTAA -TCGCCCTTGCAACATATCGCAGACCACCAGCGCACCGGCATTAATGAACGGATTACGCGGTATACCCTGC -TCCATTTCCAGTTGCACTAAGGAATTGAACGGTGATCCAGACGGATCTTTGCCGACGCGTTGCCAGATTT -CCTCTTCGGAGTAATGACGCATGGCGACAACGAGACTCAGCACTTTGGAAATAGACTGAATGGAAAAACG -TTCTTGCGCGTCTCCGGCCTGAAAAAGCTGTCCGTCAACGGTACAGATAGCAATCCCCAATCGGGAACCG -TCTACTGTAGCCAGCGCCGGAATATAATCCGCGACTTTACCCTGACCAATGAGCGGCCGCACTTGCCGCA -AGATGTTTTCTAAAATTGCATTATCCATGGCGACTGCCACTTTCTACTCCTGGACCGCAGGTCTGAAAAG -ACCTGCGAGTATATCAGAGCTGAATATGTCGCGTCAGATCCGGTCTTTCCACACCGTCTGGATATTACAG -AATTCGTGTAAGCCGAAATGGGAAAGCTCACGACCAAAGCCACTCTTTTTCACGCCACCAAAGGCCACTC -GCGCGTCGCTGGCACAATAACCATTGATAAACACCCCACCGCATTCCAGACGTGCCGCCATCTGTCTGGC -CTGTGTTTCGTCAGTGGTAAAAATGGTCGCTGAAAGGCCGAACTCACTATCATTAGCCAGTTCCAGTGCA -TGTTCTGCATCTTTCGCAATGGTGATTGCCGCAACGGGGCCAAACATTTCTTCCCGAAACGCGGTCATTT -CTGGGGTAACATTCGCCAGAACCGTTGGCGGATAGTAGTTACCTGCCCCAGCCATCTTTTCCCCGCCCAG -TAACAAACGCGCACCCTGCGCCAGGGTTTTCTCCACCTGATGATGCAGCTCATCACGTAAATCAAAACGA -GCCATTGGTCCGAGAGCGTTCTCTTCGTCACGGGGATCGCCCATTTTCAAGGCTGCCGCAGCTGCCACAA -AACGTTCGGTAAATGCCGAAGCAATTCCCTCTTCGATAATAAAGCGTTTTGCCGCTGCACATACCTGTCC -GGTATTCTGATAACGTCCGGCTACCGCCGCTTTCACCGCCAGTTCCAGATCGGCATCGTTAAGCACAATA -AACGGATCCGAACCGCCCAGTTCCAGTACGCATTTTTTCAGTGCCGCTCCAGCCTGTGCGCCAATAGCCG -CTCCCGCACGAACACTTCCGGTCACCGTGACAGCAGCAATGCGCGAGTCTTTAATCATCTGACTGACACC -GTCGTTGTCGGCATTCAGCCAGCCATATACGCCTTGTGGGATACCCGCATCTTTAAACACCTGGGCAATG -AGCTGTGCACAGCCCATCACATTCGGCGCATGTTTAAGTAAGTAGCCGTTACCTGCAAGAATGATGGGAA -CAGCGCCACGCATCACCTGCCATAACGGAAAATTCCACGGCATAATCGCCAGAATCGTCCCCAACGGTCG -ATACTCAATAACCGCCTGCTGATTTTCCACCAGCGTAGGTTCCGCCTTCAGCATTGCCGGACCATGTTCT -GCATACCAGTCACACAAATTCGCCGATTTCGCCACTTCAGCGCGCGCCTGGTTGATTGGTTTGCCCATTT -CGCGGGTGATCATTTGCGCCATTTCTTCGCTACGAGCGCGCAGAGCCTTACCGATATCACGCAGTTTTTC -AGCACGATAATCTATATTTGTCTCGCGCCAGTCGCGAAAGCCTGCTGCCGCCAGCTGAAGTGCGTTTTCG -ATATCGTCAGCGCCAGCCCACGGCAGCACAGAAAGTTGTTCACCCGTGGCAGGATTTATCGAAATTGCAT -GAGTTGCCGGAGTAATGGTCATCGGGGTATCTCCTTTATGAGTCATGGTATGAAGATACGCAGATTTACT -CTTGCTTTAAAATGAATAATATTAAGCCACTTATTCACGAATCGAGAATGCTATGGATCTGACCCAACTG -GAGATGTTCAACGCGGTTGCCGAAGCTGGCAGCATAACCCAGGCTGCAGCAAAAGTGCATCGCGTGCCGT -CGAATCTCACTACCCGTCTGCGCCAGCTGGAAACAGAACTGGGGGTTGATCTGTTTATTCGCGAGAATCA -GCGTTTACGTCTCTCTCCTGCCGGGCATAACTTTTTACGCTATAGCCAACAAATTCTCGCGTTAGTGGAT -GAAGCGCGGAGCGTTGTCGCTGGCGATGAGCCGCAAGGTTTATTTTCTCTTGGTTCGCTGGAAAGCACCG -CTGCAGTGCGCATTCCAGCCACGCTGGCGGAATTCAACCGTCGTTATCCCAAAATTCAGTTTTCACTTTC -CACCGGCCCTTCCGGCACTATGCTGGATGGTGTACTGGAGGGAAAACTGAATGCGGCGTTTATTGATGGA -CCCATTAACCATACTGCCATCGACGGGATACCGGTATACCGCGAGGAACTGATGATCGTCACGCCACAAG -GATATGCGCCAGTAACCCGTGCCAGTCAGGTTAATGGCAGTAACATTTATGCCTTCCGCGCCAATTGTTC -GTATCGTCGCCACTTCGAGAGCTGGTTTCATGCTGACGGTGCCGCTCCGGGAACTATCCATGAGATGGAG -TCTTATCACGGAATGTTGGCCTGTGTGATCGCAGGAGCAGGCATTGCGCTTATTCCGCGCTCTATGCTGG -AAAGTATGCCGGGGCATCACCAGGTTGAAGCGTGGCCGTTAGCTGAGCAATGGCGTTGGTTAACAACCTG -GCTGGTCTGGCGTCGTGGTGCGAAAACACGTCCGCTCGAGGCATTTATTCAACTGCTGGATGTGCCTGAC -TCGGCAAGACAGGGATATCAATGAGCTATTTTTGATAGTTCTTGCGGTTAATATGCTCTATATAGTGATG -TTCCGATGACTTATGACTATATGGGGCAAATATGGTTACGCCAGTAAGCATCAGCAATTACATATCTCTT -CCTGATGATTTTCCCGTACGTAATATTGCACCGCAGGTAAAAGAAGTTTTAAAGGATTTTATTGATGCAC -TTAGTACAATAATATGTAATGAAGAGTGGCGCACGTCTTTAAACATCAACTCAGCCACAAAAAAGATATT -TAATAACCTTGACAACTTATCATATATTCAGAGGACTTCTTTTCGGGGTAACGACACGCTATACAATGAA -AAGGTTCAGTTTAAACTCACTTATCCCGCCAGGAATGGAAGACACAAAGAAAATATTGAATTTCAGGTAG -TAATAAATTTAAGCCCTATTTATTTAGATAATTTTCGCCATGATGGAGAAATTAATATTTTTTGCGCTCC -CAACCCAAAGCCTGTCACTATGGGGCGCGTATTTCAGACCGGCGTCGAGCGTGTACTCTTTCTGTTTCTG -AATGATTTTATTGAACAATTTCCAATGATCAACCCTGGTGTTCCCATCAAAAGAGCGCATACACCACATA -TTGAACCCCTGCCTTCGGATCACCATACCGCTGCAGATTACTTACGCCAGTTTGATTTGCTTGTCCTGAA -TTTTATCTCTCGCGGTAATTTTGTCATACTCCCCCGATTATGGAATAACTCTGAGGTTCACAGATGGTTC -GTCAATAAAGATCCTAACTTGATCACCGCCATTCTCGACATAACGGACAGCGAATTAAAAGAGGATTTGT -TGCAAAGCCTGATGGATTCATTAGGTTCTAACAAACATGTACTACCCGAAGTCTGCATCTGCTTTTTATC -CCTTTTAGCAGAACAAGAATCTCCTCATTTTCAGAACTTGTTTTTATTTTTCGCCAATATGTTATTGCAC -TATCACCAATTTATGAATCCCAATGAAAGTGATTTGAATGACGTGTTGATGCCAGCATCATTAAGTGATG -ATAAAATTATCAAACATATGGCGCGCAGGACCCTCAAACTGTTTGTAAAAAATGAAACACCGCCAAAAGT -TACTCACGAAGACCTGGTGAAAAACAGGCCTCGCTCCCCTGTCAGACCACCTATACCCGCAACCGCCAAA -ACGCCAGACCTCCCTGAACGTCATTAAACCGTGATGTTACCGACTCTCTGACGCGTGAAAGAATCAGCGT -CAGAGAAACGGAAAACGCGATCCAGATCACAAATGCATTGTATTCACATCATTAACCGTTTTAAGATCAT -TTCATCACTTTTTCGCAACTCACCCGATAATCTGTTATGACAACAAACACTGTTTCCCGCAAAGTGGCGT -GGCTACGGGTCGTTACGCTGGCAGTCGCCGCCTTCATCTTCAACACCACCGAATTTGTCCCTGTTGGCCT -GCTCTCTGACATTGCGCAAAGTTTTCACATGCAAACCGCTCAGGTCGGCATCATGTTGACCATTTACGCA -TGGGTAGTAGCGCTAATGTCATTGCCTTTTATGTTAATGACCAGTCAGGTTGAACGGCGCAAATTACTGA -TCTGCCTGTTTGTGGTGTTTATTGCCAGCCACGTACTGTCGTTTTTGTCGTGGAGCTTTACCGTTCTGGT -GATCAGTCGCATTGGTGTGGCTTTTGCACATGCGATTTTCTGGTCGATTACGGCGTCTCTGGCGATCCGT -ATGGCTCCGGCCGGGAAGCGAGCACAGGCATTGAGTTTAATTGCCACCGGTACAGCACTGGCGATGGTCT -TAGGTTTACCTCTCGGGCGCATTGTGGGCCAGTATTTCGGTTGGCGAATGACCTTCTTCGCGATTGGTAT -TGGGGCGCTTATCACCCTTTTGTGCCTGATTAAGTTACTTCCCTTACTGCCCAGTGAGCATTCCGGTTCA -CTGAAAAGCCTCCCGCTATTGTTCCGCCGCCCGGCATTGATGAGCATTTATTTGTTAACTGTGGTGGTTG -TCACCGCCCATTACACGGCATACAGCTATATCGAGCCTTTTGTACAAAACATTGCGGGATTCAGCGCCAA -CTTTGCCACGGCATTACTGTTATTACTCGGTGGTGCGGGCATTATTGGCAGCGTGATTTTCGGTAAACTG -GGTAATCAGTATGCGTCTGCGTTGGTGAGTACGGCGATTGCGCTGTTGCTGGTGTGCCTGGCATTGCTGT -TACCTGCGGCGAACAGTGAAATACACCTCGGGGTGCTGAGTATTTTCTGGGGGATCGCGATGATGATCAT -CGGGCTTGGTATGCAGGTTAAAGTGCTGGCGCTGGCACCAGATGCTACCGACGTCGCGATGGCGCTATTC -TCCGGCATATTTAATATTGGAATCGGGGCGGGTGCGTTGGTAGGTAATCAGGTGAGTTTGCACTGGTCAA -TGTCGATGATTGGTTATGTGGGCGCGGTGCCTGCTTTTGCCGCGTTAATTTGGTCAATCATTATATTTCG -CCGCTGGCCAGTGACACTCGAAGAACAGACGCAATAGTTGAAAGGCCCATTCGGGCCTTTTTTAATGGTA -CGTTTTAATGATTTCCAGGATGCCGTTAATAATAAACTGCACACCCATACATACCAGCAGGAATCCCATC -AGACGGGAGATCGCTTCAATGCCACCCTTGCCCACCAGCCGCATAATTGCGCCGGAGCTGCGTAGGCTTC -CCCACAAAATAACCGCCACCAGGAAAAAGATCAGCGGCGGCGCAACCATCAGTACCCAATCAGCGAAGGT -TGAACTCTGACGCACTGTGGACGCCGAGCTAATAATCATCGCTATGGTTCCCGGACCGGCAGTACTTGGC -ATTGCCAGCGGCACAAAGGCAATATTGGCACTGGGTTCATCTTCCAGCTCTTCCGACTTGCTTTTCGCCT -CCGGTGAATCAATCGCTTTCTGTTGCGGAAAGAGCATCCGAAAACCGATAAACGCGACGATTAAGCCGCC -TGCAATTCGCAGACCGGGAATCGAAATGCCAAATGTATCCATCACCAGTTGCCCGGCGTAATACGCCACC -ATCATGATGGCAAATACGTACACCGAGGCCATCAACGACTGACGATTACGTTCGGCACTGTTCATGTTGC -CTGCCAGGCCAAGAAATAACGCGACAGTTGTTAATGGGTTAGCTAACGGCAGCAACACCACCAGCCCCAG -GCCAATTGCTTTAAACAAATCTAACATTGGTGGTTGTTATCCTGTGTATCTGGGTTATCAGCGAAAAGTA -TAAGGGGTAAACAAGGATAAAGTGTCACTCTTTAGCTAGCCTTGCATCGCATTGAACAAAACTTGAACCG -ATTTAGCAAAACGTGGCATCGGTCAATTCATTCATTTGACTTATACTTGCCTGGGCAATATTATCCCCTG -CAACTAATTACTTGCCAGGGCAACTAATGTGAAAAGTACCAGCGATCTGTTCAATGAAATTATTCCATTG -GGTCGCTTAATCCATATGGTTAATCAGAAGAAAGATCGCCTGCTTAACGAGTATCTGTCTCCGCTGGATA -TTACCGCGGCACAGTTTAAGGTGCTCTGCTCTATCCGCTGCGCGGCGTGTATTACTCCGGTTGAACTGAA -AAAGGTATTGTCGGTCGACCTGGGAGCACTGACCCGTATGCTGGATCGCCTGGTCTGTAAAGGCTGGGTG -GAAAGGTTGCCGAACCCGAATGACAAGCGCGGCGTACTGGTAAAACTTACCACCGGCGGCGCGGCAATAT -GTGAACAATGCCATCAATTAGTTGGCCAGGACCTGCACCAAGAATTAACAAAAAACCTGACGGCGGACGA -AGTGGCAACACTTGAGTATTTGCTTAAGAAAGTCCTGCCGTAAACAAAAAAGAGGTATGACGATGTCCAG -ACGCAATACTGACGCTATTACCATTCATAGCATTTTGGACTGGATCGAGGACAACCTGGAATCGCCACTG -TCACTGGAGAAAGTGTCAGAGCGTTCGGGTTACTCCAAATGGCACCTGCAACGGATGTTTAAAAAAGAAA -CCGGTCATTCATTAGGCCAATACATCCGCAGCCGTAAGATGACGGAAATCGCGCAAAAGCTGAAGGAAAG -TAACGAGCCGATACTCTATCTGGCAGAACGATATGGCTTCGAGTCGCAACAAACTCTGACCCGAACCTTC -AAAAATTACTTTGATGTTCCGCCGCATAAATACCGGATGACCAATATGCAGGGCGAATCGCGCTTTTTAC -ATCCATTAAATCATTACAACAGCTAGTTGAAAACGTGACAACGTCACTGAGGCAATCATGAAACCACTTT -CATCCGCAATAGCAGCTGCGCTTATTCTCTTTTCCGCGCAGGGCGTTGCGGAACAAACCACGCAGCCAGT -TGTTACTTCTTGTGCCAATGTCGTGGTTGTTCCCCCATCGCAGGAACACCCACCGTTTGATTTAAATCAC -ATGGGTACTGGCAGTGATAAGTCGGATGCGCTCGGCGTGCCCTATTATAATCAACACGCTATGTAGTTTG -TTCTGGCCCCGACATCTCGGGGCTTATTAACTTCCCACCTTTACCGCTTTACGCCACCGCAAGCCAAATA -CATTGATATACAGCCCGGTCATAATGAGCACCGCACCTAAAAATTGCAGACCCGTTAAGCGTTCATCCAA -CAATAGTGCCGCACTTGCCAGTCCTACTACGGGCACCAGTAACGATAACGGTGCAACCCGCCAGGTTTCA -TAGCGTCCCAGTAACGTCCCCCAGATCCCATAACCAACAATTGTCGCCACAAACGCCAGATACATCAGAG -ACAAGATGGTGGTCATATCGATAGTAACCAGACTGTGAATCATGGTTGCGGAACCATCGAGAATCAGCGA -GGCAACAAAGAAGGGAATGATTGGGATTAAAGCGCTCCAGATTACCAGCGACATCACCGCCGGACGCGTT -GAGTGCGACATGATCTTTTTATTGAAGATGTTGCCACACGCCCAACTAAATGCTGCCGCCAGGGTCAACA -TAAAGCCGAGCATCGCCACATGCTGACCGTTCAGACTATCTTCGATTAACACCAGTACGCCAAAAATCGC -TAAGGCGATCCCCGCCAATTGTTTGCCATGCAGTCGCTCCCCGAAAGTAAACGCGCCAAGCATGATAGTA -AAAAACGCCTGTGCCTGTAACACCAGCGAAGCCAGTCCAGCAGGCATACCGAAGTTAATGGCACAAAAAA -GAAAAGCAAACTGCGCAAAACTGATGGTTAATCCATACCCCAGCAGCAAATTCAGTGGTACTTTCGGTCG -TGCGACAAAAAAGATAGCCGGAAAAGCGACCAGCATAAAGCGCAAACCGGCCAGCATCAGCGGTGGCATG -TTATGAAGCCCCACTTTGATGACCACAAAATTTAGCCCCCATACGACCACTACCAGTAGCGCCAACACCC -CATCTTTTCGCGACATTCTACCGCCTCTGAATTTCATCTTTTGTAAGCAATCAACTTAGCTGAATTTACT -TTTCTTTAACAGTTGATTCGTTAGTCGCCGGTTACGACGGCATTAATGCGCAAATAAGTCGCTATACTTC -GGATTTTTGCCATGCTATTTCTTTACATCTCTAAAACAAAACATAACGAAACGCACTGCCGGACAGACAA -ATGAACTTATCCCTACGACGCTCTACCAGCGCCCTTCTTGCCTCGTCGTTGTTATTAACCATCGGACGCG -GCGCTACGCTGCCATTTATGACCATTTACTTGAGTCGCCAGTACAGCCTGAGTGTCGATCTAATCGGTTA -TGCGATGACAATTGCGCTCACTATTGGCGTCGTTTTTAGCCTCGGTTTTGGTATCCTGGCGGATAAGTTC -GACAAGAAACGCTATATGTTACTGGCAATTACCGCCTTCGCCAGCGGTTTTATTGCCATTACTTTAGTGA -ATAACGTGACGCTGGTTGTGCTCTTTTTTGCCCTCATTAACTGCGCCTATTCTGTTTTTGCTACCGTGCT -GAAAGCCTGGTTTGCCGACAATCTTTCGTCCACCAGCAAAACGAAAATCTTCTCAATCAACTACACCATG -CTAAACATTGGCTGGACCATCGGTCCGCCGCTCGGCACGCTGTTGGTAATGCAGAGCATCAATCTGCCCT -TCTGGCTGGCAGCTATCTGTTCCGCGTTTCCCATGCTTTTCATTCAAATTTGGGTAAAGCGCAGCGAGAA -AATCATCGCCACGGAAACAGGCAGTGTCTGGTCGCCGAAAGTTTTATTACAAGATAAAGCACTGTTGTGG -TTTACCTGCTCTGGTTTTCTGGCTTCTTTTGTAAGCGGCGCATTTGCTTCATGCATTTCACAATATGTGA -TGGTGATTGCTGATGGGGATTTTGCCGAAAAGGTGGTCGCGGTTGTTCTTCCGGTGAATGCTGCCATGGT -GGTTACGTTGCAATATTCCGTGGGCCGCCGACTTAACCCGGCTAACATCCGCGCGCTGATGACAGCAGGC -ACCCTCTGTTTCGTCATCGGTCTGGTCGGTTTTATTTTTTCCGGCAACAGCCTGCTATTGTGGGGTATGT -CAGCTGCGGTATTTACTGTCGGTGAAATCATTTATGCGCCGGGCGAGTATATGTTGATTGACCATATTGC -GCCGCCAGAAATGAAAGCCAGCTATTTTTCCGCCCAGTCTTTAGGCTGGCTTGGTGCCGCGATTAACCCA -TTAGTGAGTGGCGTAGTGCTAACCAGCCTGCCGCCTTCCTCGCTGTTTGTCATCTTAGCGTTGGTGATCA -TTGCTGCGTGGGTGCTGATGTTAAAAGGGATTCGAGCAAGACCGTGGGGGCAGCCCGCGCTTTGTTGATT -TAAGTCGAACACAATAAAGATTTAATTCAGCCTTCGTTTAGGTTACCTCTGCTAATATCTTTCTCATTGA -GATGAAAATTAAGGTAAGCGAGGAAACACACCACACCATAAACGGAGGCAAATAATGCTGGGTAATATGA -ATGTTTTTATGGCCGTACTGGGAATAATTTTATTTTCTGGTTTTCTGGCCGCGTATTTCAGCCACAAATG -GGATGACTAATGAACGGAGATAATCCCTCACCTAACCGGCCCCTTGTTACAGTTGTGTACAAGGGGCCTG -ATTTTTATGACGGCGAAAAAAAACCGCCAGTAAACCGGCGGTGAATGCTTGCATGGATAGATTTGTGTTT -TGCTTTTACGCTAACAGGCATTTTCCTGCACTGATAACGAATCGTTGACACAGTAGCATCAGTTTTCTCA -ATGAATGTTAAACGGAGCTTAAACTCGGTTAATCACATTTTGTTCGTCAATAAACATGCAGCGATTTCTT -CCGGTTTGCTTACCCTCATACATTGCCCGGTCCGCTCTTCCAATGACCACATCCAGAGGCTCTTCAGGAA -ATGCGCGACTCACACCTGCTGTCACGGTAATGTTGATATGCCCTTCAGAATGTGTGATGGCATGGTTATC -GACTAACTGGCAAATTCTGACACCTGCACGACATGCTTCTTCATCATTAGCCGCTTTGACAATAATGATA -AATTCTTCGCCCCCGTAGCGATAAACCGTTTCGTAATCACGCGTCCAACTGGCTAAGTAAGTTGCCAGGG -TGCGTAATACTACATCGCCGATTAAATGCCCGTAGGTATCATTAACCAATTTAAATCGGTCAATATCCAA -CAACATTAAATAAAGATTCAGAGGCTCAGCGTTGCGTAACTGATGATCAAAGGATTCATCAAGAACCCGA -CGACCCGGCAATCCCGTCAAAACATCCATATTGCTACGGATCGTCAGCAAATAAATTTTGTAATCGGTTA -ATGCCGCAGTAAAAGAAAGCAACCCCTCCTGAAAGGCGTCGAAATGCGCGTCCTGCCAGTGATTTTCAAC -AATAGCCAGCATTAATTCCCGACCACAGTTATGCATATGTTGATGGGCAGAATCCATTAGCCGAACGTAA -GGTAATTCATCGTTATCGAGTGGCCCCAGATGATCAATCCACCGACCAAACTGGCACAGTCCATAAGAAT -GGTTATCCGTTATTTCTGGCTTACTGGCATCTCTCGCGACCACGCTGTGAAACATACTCACCAGCCACTG -GTAGTGGGCATCGATAGCCTTATTGAGATTTAACAAGATGGCATCAATTTCCGTTGTCTTCTTGATCATT -GCCACTCCTTTTTCACAGTTCCTTGTGCGCGCTATTCTAACGAGAGAAAAGCAAAATTACGTCAATATTT -TCATAGAAATCCGAAGTTATGAGTCATCTCTGAGATAACATTGTGATTTAAAACAAAATCAGCGGATAAA -AAAGTGTTTAATTCTGTAAATTACCTCTGCATTATCGTAAATAAAAGGATGACAAATAGCATAACCCAAT -ACCCTAATGGCCCAGTAGTTCAGGCCATCAGGCTAATTTATTTTTATTTCTGCAAATGAGTGACCCGAAC -GACGGCCGGCGCGCTTTTCTTATCCAGACTGCCACTAATGTTGATCATCTGGTCCGGCTGAACTTCTCGT -CCATCAAAGACGGCCGCAGGAATAACGACATTAATTTCACCGCTCTTATCGCGAAAAACGTAACGGTCCT -CTCCTTTGTGAGAAATCAAATTACCGCGTAGTGAAACCGAAGCGCCATCGTGCATGGTTTTTGCGAAATC -AACGGTCATTTTTTTTGCATCATCGGTTCCGCGATAGCCATCTTCTATTGCATGAGGCGGCGGTGGCGCT -GCATCCTGTTTTAAACCGCCCTGGTCATCTGCCAACGCATAAGGCATGACAAGAAAACTTGCTAATACAA -TGGCCTGAAATTTCATACTAACTCCTTAATTGCGTTTGGTTTGACTTATTAAGTCTGGTTGCTATTTTTA -TAATTGCCAAATAAGAATATTGCCAATTGTTATAAGGCATTTAAAATCAGCCAACTAGCTGTCAAATATA -CAGAGAATTTAACTCACTAAAGTTAAGAAGATTGAAAAGTCTTAAACATATTTTCAGAATAATCGGATTT -ATATGTTTGAAAATTATTATATTGGACGAGCATACAGAAAAAGCAAATCACCTTTACATATAAAAGCGTG -GACAAAAAACAGTGAACATTAATAGAGATAAAATTGTACAACTTGTAGATACCGATACTATTGAAAACCT -GACATCCGCGTTGAGTCAAAGACTTATCGCGGATCAATTACGCTTAACTACCGCCGAATCATGCACCGGC -GGTAAGTTGGCTAGCGCCCTGTGTGCAGCTGAAGATACACCCAAATTTTACGGTGCAGGCTTTGTTACTT -TCACCGATCAGGCAAAGATGAAAATCCTCAGCGTAAGCCAGCAATCTCTTGAACGATATTCTGCGGTGAG -TGAGAAAGTGGCAGCAGAAATGGCAACCGGTGCCATAGAGCGTGCGGATGCTGATGTCAGTATTGCCATT -ACCGGCTACGGCGGACCGGAGGGCGGTGAAGATGGTACGCCAGCGGGTACCGTCTGGTTTGCGTGGCATA -TTAAAGGCCAGAACTACACTGCGGTTATGCATTTTGCTGGCGACTGCGAAACGGTATTAGCTTTAGCGGT -GAGGTTTGCCCTCGCCCAGCTGCTGCAATTACTGCTATAACCAGGCTGGCCTGGCGATATCTCAGGCCAG -CCATTGGTGGTGTTTATATGTTCAAGCCACGATGTTGCAGCATCGGCATAATCTTAGGTGCCTTACCGCG -CCATTGTCGATACAGGCGTTCCAGATCTTCGCTGTTACCTCTGGAAAGGATCGCCTCGCGAAAACGCAGC -CCATTTTCACGCGTTAATCCGCCCTGCTCAACAAACCACTGATAACCATCATCGGCCAACATTTGCGTCC -ACAGATAAGCGTAATAACCTGCAGCATATCCGCCACCAAAAATATGGGCGAAATAACTGCTGCGATAGCG -TGGCGGTATAGCAGGAAGATCCATATTTTCCGCCACCAGCGCCCGCAATTCAAAATCATCGACATCCTGC -ATTGCTTCGTTTTCTTCCAGGCAATGCCAGCGCATATCGAGAAGTGCGGCGCTAAGCAGTTCGCTCATCT -CATACCCTTTGTTGAACAGGCTGGCATTACGCATTTTCTGTTGCAGTTCGTCAGGCATTGCTGCCCCGCT -CTGATAATGCCGGGCGTAGCGAGCGAATACCTGCGGATGCGTTGCCCAGTGTTCGTTGATTTGCGACGGA -AATTCGACAAAATCACGCGGCGTGTTGGTGCCGGAAAGCGTGGCATAACGCTGGCGGGCAAAAAGGCCGT -GCAGCGTATGACCAAATTCATGGAATAAGGTTATGACATCATCCCAGAGTAACAACGCAGGCTCACCGGC -AGCGGGTTTCTGATAATTGCAGACGTTATAAATTACCGGATGTGTTTTATTAAGCGTTGATTGCTCAACA -AAATTGCCCATCCATGCACCGCCGCTTTTTGAATCACGGGCGAAGAAATCACCGTAAAATAACGCCAGCC -CCACGCCATTATGATCAAAAATTTCCCACACACGAACGTCAGGATGGTAGACAGGAATATCAAAACGTTC -GACAAACTTAATACCGAAGAGCTGATTCGCGGTCCAGAATACACCTTCATTTAACACCGTGTTTAATTCA -AAATATGGCTTGAGCTGCGCCTCATCAAGATCAAATTTCTCCCGCCGTACCTGTTCCGCATAAAATGCCC -AGTCCCACGGCTGCGCGCTAAACCCGCCCTGCTGCTTATCGATAACCGCCTGTATGGAGGCTAATTCATC -GCTCGCACGTTGACGCGCCGCTGGAACAATTTCCCGCATAAAGTTAAGTGCTGCTTCAGGTGTTTTTGCC -ATCTGATCGGCGATTTTCCATGCGGCATAATGAGGAAAACCAAGTAGTGTTGCCTGTTGTGCACGGATCT -CCACCAGACGTTGAATGATAGCGCGGGTATCATTGGCATCATTTTTTTCCGCTCGCGTCCAGCCCGCAAT -AAACAGTTTTTCACGCGTCGCACGATCGCGCATTTCGGCAAGCGCCGGTTGTTGGGTGGTATTCAGCAGC -GGAATCAGCCATTTGTTATCCAGACCTTTCTCGCGAGCCGCCTCTGCCGCCAGCGCAATCTCTTGCTCAC -TCATTCCTGCCAGCTGCGCGATATCGTTCACAACCAGACCGCCGGATTTATTTGCTGCCAGTAATCGCTG -GTTAAACTGGCTGGTCAGGGTCGCAGCTTCTGTATTCAGTACTTTTAATTTTGCTTTATCAGCTTGCGCA -AGTTTGGCTCCGGCAAGGACAAAACGTTGATGAATCACCTCCACCAGGCGGATGGATTCACTATCAAGCC -CCAGGGATTCACGGCGCTGCCAGACAGCATCTACCCGCGCGAATAATTCACCGTTCAGATAGATATCATT -AGCCAGTTCCGCCAGTTCAGCGGAAAACTGCTCGTCAAGACGCTGTAATTCATCATTGGTATGCGCCGCA -GTCATCGCAAAAAAGACGCTGGTAACGCGGGTAAGTAATTCTCCGCTTTGTTCCAGTGCCAGAATAGTAT -TGTTGAAATCAGGCATTTGCGGGTTAAGCGCGATGGCAGCAATTTCTGCCCGCTTTTGCTGCATTCCCTC -ATCGAATGCCGGGCGATAGTGATGATTGGCAATTTGATCAAAATGGGGAGCCAGATACGGCAGTGTGCTT -TGCACAAGGAAAGGATTCATTGTTGTCATTTTCTTCTCCTGAACGCGAGGTGTTCCATAGCGTAGGCTTA -CTGATAACGGAGTGCAATCTTGCAATCCAGTATTACCCGCTCTTAAGCATCCCGTGCTATGTTATTGACA -CACAAAAGCGTTGAGGAACAGTGAGATGATCGTTTTAGTAACTGGAGCAACGGCAGGTTTTGGTGAATGC -ATTACTCGTCGTTTTATTCAACAAGGGCATAAAGTTATCGCCACTGGCCGTCGCCAGGAACGGTTGCAGG -AGTTAAAAGACGAACTGGGAGATAATCTGTATATCGCCCAACTGGACGTTCGCAACCGCGCCGCTATTGA -AGAGATGCTGGCATCGCTTCCTGCCGAGTGGTGCAATATTGATATCCTGGTAAATAATGCCGGCCTGGCG -TTGGGCATGGAGCCTGCGCATAAAGCCAGCGTTGAAGACTGGGAAACGATGATTGATACCAACAACAAAG -GCCTGGTATATATGACGCGCGCCGTCTTACCGGGTATGGTTGAACGTAATCATGGTCATATTATTAACAT -TGGCTCAACGGCAGGTAGCTGGCCGTATGCCGGTGGTAACGTTTACGGTGCGACGAAAGCGTTTGTTCGT -CAGTTTAGCCTGAATCTGCGTACGGATCTGCATGGTACGGCGGTGCGCGTCACCGACATCGAACCGGGTC -TGGTGGGTGGTACCGAGTTTTCCAATGTCCGCTTTAAAGGCGATGACGGTAAAGCAGAAAAAACCTATCA -AAATACCGTTGCATTGACGCCAGAAGATGTCAGCGAAGCCGTCTGGTGGGTGTCAACGCTGCCTGCTCAC -GTCAATATCAATACCCTGGAAATGATGCCGGTTACCCAAAGCTATGCCGGACTGAATGTCCACCGTCAGT -AATTTTTATACCCGGCGTAACTGCCGGGTTATTGCTTGTCACAAAAAAGTGGTAGACTCATGCAGTTAAC -TCACTCACAAGCAAGAACGAATGACCGTCGAAACGCAACTTAATCCCACACAGCCTGTCAATCAGCAGAT -TTATCGTATTCTTCGTCGCGACATTGTCCATTGCCTGATTGCTCCAGGCACACCGTTGTCGGAAAAAGAA -GTTTCTGTTCGTTTCAATGTGTCACGCCAGCCGGTTCGTGAAGCCTTTATTAAACTGGCGGAAAACGGCC -TGATTCAAATTCGTCCGCAACGTGGCAGCTACGTCAACAAAATTTCCATGGCCCAGGTGCGCAACGGCAG -TTTTATCCGTCAGGCCATTGAGTGCGCGGTGGCGCGTCGGGCGGCGAGCATGATTACCGAAAGCCAGTGC -TATCAACTGGAACAAAATCTTCACCAGCAACGCATTGCCATTGAGCGCAAGCAACTGGATGATTTTTTTG -AACTTGATGACAACTTCCATCAACTCCTGACGCAGATTGCCGACTGTCAACTGGCGTGGGATACCATTGA -GAACCTGAAAGCGACCGTTGATCGCGTGCGCTATATGAGTTTCGACCACGTTTCTCCACCAGAAATGCTG -TTACGCCAGCATCTTGATATTTTCTCTGCCCTGCAAAAACGTGATGGCGATGCGGTAGAACGTGCAATGA -CGCAACATTTGCAGGAAATCAGCGAATCCGTGCGCCAGATCCGCCAGGAAAACAGCGACTGGTTTAGCGA -AGAGTAATTCATTTCCTCTCATCCCATCCGGGGTGAGAGTCTTTTCCCCCGCCTTATGGCTCATGCATGC -ATCAAAAAAGATGTGAGCTTGATCAAAAACAAAAAATATTTCACTCGACAGGAGTATTTATATTGCGCCC -GTTACGTGGGCTTCGACTGTAAATCAGAAAGGAGAAAACACCTATGACGACCTACGATCGTAACCGTAAC -GCAATCACCACTGGCAGCCGTGTTATGGTTAGCGGCACCGGTCACACTGGCAAGATCCTGTCGATTGATA -CTGAAGGTCTGACCGCTGAGCAAATCCGCCGCGGAAAAACCGTAGTTGTTGAAGGTTGTGAAGAGAAACT -GGCACCACTGGACCTGATTCGTCTCGGCATGAACTAAGCGTGTGAATGCCGCCGATGGCGGCATTGCTTT -TTTACTTCACGGAATATTTTGCCACGGTCGCTTTCGCGCCATGCGCTAATAAAGACAAGTACGTTTCCGT -CACTCTTGCAGTAAACAAACTATTGTCTGGCAAATCATCACCAAAGATCGCCTTAATCGCCAGCAATGAC -TGGACGCGCGCTTTCCCTTCGGCACTACTTTGTACAGCCTTCTGAATAACAGGTAACAGTGGGTCACTGA -TTTCTATCGGATTTCCCTGTTCATCAACACCACCGACATAACGCATCCAACCCGCGACGCCCAGCGCCAG -CAGATCGAACTTGCTGTCATGCGCCAGATGCCAGCGAACAGAATCCAACATCCGCTGTGGCAATTTCTGG -CTACCATCCATCGCAATCTGCCAGGTTCGATGACGTAACGCCGGGTTGCTATAGCGTGCAATTAATCGGT -TAGCGTAATCTTGCAAATCAACGCCCTGCACTTTCAACGTCGGCGCTTGTTCCTGCAACATCAAGCCATA -CGCCGCATAACGATAATGTTCATCTTCCATACAGTCATTAATGTGCTGATATCCTGCAAGATACCCCAGA -TACGCCAGGAATGAATGACTGCCGTTGAGCATGCGCAACTTCATCTCTTCATAAGGCAGCACATCGCTAA -CCAGTTCGGCTCCCGCTTTTTCCCATTCCGGACGTCCGGCAACAAAGTTATCTTCTATTACCCACTGGCG -GAAAGGTTCACAGGCAACGCCCGCAGGATCGCGCACACCGGTAAGTTGTTCGATTTTCGCCAGCGTATCC -TCTGTCACTGCGGGCACAATACGGTCCACCATTGTTGATGGGAAAGTCACGTTATCTTCGATCCATTGTG -CCAGTTTTACATCAACGGCTTGTGCGTAGGAAGTGACAACGTCACGCATAACATGACCGTTTTCTGGCAT -GTTGTCACATGACATGACGGTAAATGCGGGAAGTCCTGCCGCTTTACGGCGAGCCAGCGCCTCAACAATC -ACCCCTGTTGCTGTTTTCGGCTGGTGGGGATTTTGCACGTCGGCAGCTACCATCGGGTGATCGAGCATTA -ACTGTCCGGTCGCCGGAGAGTGGAAATACCCTTTTTCGGTGATTGTCAGAGAGACAATCGCGATTTGCGG -TTCACACATCGCTGCCAACACGGTTTCTAAGCCATCTATCTGTACGTGCAAGGCTTTTTTAACGACGCCA -ACGACGCGAGCCGTCCACACATCGGCCGACATTTCCGCAACGGTATAAAGATTATCTTGCTGTTGTAAAT -CGGCAATTTGCTGTTCGCCGCCGATTAAGTTGACCTCATAATATCCCCAGTCACTGAAATGTTCCGTAGC -AAGAATATCGGCATACACACCCTGATGCGCACGGTGAAATGCACCAAAGCCTAAATGAACAATTCTTGGA -GCCAGGTTATTAAGATCATAAACAGGGAGTGTCGCTTTTGCTGATAACAAATTATTTCCCATAACAATTC -CTTAAATATAAATATGGCAAGCTATATGTTTTGTTATATGAATAAAAATCCCCTCTCCGGTAAGAGAAGG -GATTAAGGGTTTACAGACTTCTGGAAGGTTGCGCAGCTCTTACAACACGCGGTTGATCTTCCGCAGCGTC -TTCCAGCGCACTTAAATCACGGTCTTTCACCTCTGGCATTTTCAGCGCAGAGATTAAACCAATCACTGAA -TATGCCATGATCATAATGGCGATCGGATACCAGGATTCCGTCATGGTGCAGAAAATACCCGCCAGGATAG -GACCAAAACCGGAAGCGATAAGACCACCAATTTCTTTAGAAATAGCCATCCGGGTAAAGCGGTTTTTACA -GCCGAACATTTCTGCCATGGTAATGTTTTCCAGAGCAAATAATCCCAGCACCGCACAGTTATGAATCACA -ATCAGTGCAACCATAATGGTGCTCGGGGCATAGCTTTTATCTACAATGATAGAAAGCATTGGCCATGCCA -GCACAATCGCGGAGGTATTCATAATAATATACGGGATCCGGCGACCAATTTTATCGGATAACCAACCAAG -GAACGGAATGGTCATAAAGCCGAGAATCGAACTGATCATCAATGCATCTGTTGGAATTGCTTTGTTAAAC -AATAACGTCTGCACTAAATAGCCTGCAAGGAAAGTCTGAATTAACCCGGAGTTACCCGCCTGACCAAAAC -GCAGCCCTGTTGCCAGCCAGAAGGATTTGCTCTGGAACATGCTACCAGCAGGTGCAGGTTTTGCTGTCGG -TTGGTTACTGTCGTTAACCTTCTCAAAGACCGGGCTTTCTTTCAGATTCATACGCAACCAGATAGCAAAG -ACCATCACGACAACACTCGCCAGGAACGGTATACGCCATCCCCACGCCAGCAGTTCCTCTTTACTGAGAA -TGAAGAACATAAAGGCCCAGATTGCCGTTGCGCTCAAGGTTCCGCAGTTAGTTCCCATAGCCACAAATGA -GGAGATAATTCCGCGCTTACCTTTTGGCGCATATTCCGCCAGCATCGTACCGGCACCGGAAATTTCCGCA -CCTGCACCCAACCCCTGAATAATACGCAACGTCACCAGCAAGATGGGTGCAAAAACACCAATCTGTGCAT -AGGTCGGTAACACACCAATTAAGGTGGTACAGATCCCCATCATGGTGATGGTAATAAAGAGCACTTTTTT -ACGCCCTATTCTGTCGCCCATTTTGCCGAAAATAAATGCTCCGACAATACGCGCCACATAACCTGCACCG -TAGGTTCCCATTGCCAGAATTAACGCCATTGCCGTTGATGATTCAGGAAAAAATATTTCATGAAACACTA -ACGCTGCGCCGAGCGAATATAACTGGAAATCCATAATTCACAGGTGTTTTTTCCCATCCTGTGGTTTCCT -TGGCGTTTTCTAGGTTTTTTCAGATAGTTGCATTTTTTTAAAAAGCATCCTAAGTTCGATCTCAGTGTCT -ATCTGGGGCCTATTTCTGTCCCATATATGCCCCAAAAAAACTCCCCAACAGATAAGTAGTTTTTTCATGG -ATTTATGCGTAAAATCAAGAACGGCTGGAAATCATTCAATACTCACACTATCGAAAAATTTACCAGCCAA -TCGCAGCACGTTCTTGCATAAGGTGTGTCTGCGGTTTTTCAACTATTCAGATACATCACTCCCATCACAT -TCATTCCTCCGCATCAAAGGCATATAGGCTATATCACCTTGATATTTTTCTTTTTCAGATAAAAACTGTT -ATCTATGTATACTTTTAAACCCAATCCGTGTAGAGTCTCTACATAAGATAGTTTGCAGTTGCCGCTTCAG -CTTGCGCCATAAACCGCCTGATTTTTGCTGCCACCTGTTAGCATTCCTGTATACCTGAAACGACAATGTT -TATCTACGAACTTTAAGAACACCCAGGATAAAAATTGTCAACTATATCATATATAACACATTACTAATTC -GAGGCTATATGAACAGCATACTGATAATCACATCTCTCCTTATCATATTCAGCATTTTTAGTCATGCCCT -AATAAAATTAGGGATTGGCATATCCAATAACCCAGACAAAACCGATGTATAAGTCAACATATCCTGAATC -AGACATACAATATCGCAATGAAAATCAATAATATTTTAAGGAATATCTTCATGAAATCAAAAGACACCCT -AAAGTGGTTCCCTGCGCAGCTTCCTGAAGTAAGAATTATCCTAGGGGATGCTGTAGTGGAAGTAGCAAAA -CAGGGAAGACCTATCAATACCAGAACATTGCTTGATTACATTGAAGGAAACATAAAGAAAAAATCATGGC -TGGATAACAAAGAATTATTACAAACAGCGATATCAGTTCTTAAAGACAACCAAAATTTAAATGGTAAAAT -GTAATATAATAAACTTACTTTTTTATCATTTTTCCACTTTAACAACATTTTGCTCCACTTTTCCACGACC -AAACAACTTGAAATCTGGTTAAAATAACACGCAACACTATTCTTCTTCCTTGAGTCCGCCCGGAACTCGA -AAAACAAACCGAGTTAAAGCCATTTTTCACAAAATCGATTTTGGGTCTCACCAAAATTACGGGGTTGCAT -ACGCATTCGTTTATTTTCGAACGTGTACATACAAATATGCACAAAAATAATCATAATTATTTTCTGAGAT -GCATTATGATATGAACACCAATTTCGTATAGAGTCTCACTATGTCTCAAATTTTTGCTTACTGTCGGATA -TCAACGCTGGATCAGACCACCGAAAATCAACGCCGGGAAATCGAAAGTGCAGGTTTTAAAATCAAACCTC -AGCAAATAATCGAAGAACACATTAGCGGCTCAGCAGCAACCAGTGAGCGTCCTGGTTTTAACCGGTTGCT -TGCTCGCCTGAAATGTGGTGATCAATTGATTGTGACAAAACTGGATCGCCTTGGTTGTAATGCAATGGAT -ATCAGGAAAACAGTGGAACAACTGACCGAAACAGGTATCAGAGTGCATTGCTTAGCATTGGGGGGCATTG -ACCTGACCAGTCCAACAGGAAAAATGATGATGCAAGTAATTTCAGCAGTCGCTGAATTTGAACGAGACCT -TTTACTTGAACGCACTCATTCCGGGATAGTAAGAGCCCGCGGCGCAGGGAAACGTTTTGGTCGACCACCT -GTGTTAAATGAAGAACAGAAACAGGCGGTATTCGAACGAATTAAGTCAGGTGTAAGTATAAGTGCCATTG -CCCGGGAATTCAAAACCTCGCGGCAAACCATTTTAAGAGCCAAAGCAAAACTTCAGACACCTGACATATA -AAAAATAATCTCGGTGTGAGATGCTTTACGTCTTCCAAGCCCCCTTCCTTGCCGTAAATGGAAAGATACA -TCTAATTATAGAATTTATATGTTTTACCCTACGGCAGTGCTGGCCATTCAATATCCTGTGCAGTTGACGT -ATCAACACGGTTCAGCAATACCCGATACTTTTTCCATGCTTCCAGCAACGAGATTTCTTCCTCCGTTGCA -ATTTCCAGATCTGCAGCATCCTGAAGCGGCGCAATATGCTCACTGGCTACCTGCATCAGGTTGTTTTTTG -TTTCTTCCGCCTCCCGGATCCGGAACAGTTTTTCTGCTTCCGTATCCTTCACCCAGGCTGTGCCGTTCCA -CTTCTGAAACTCCCCTTCCGGCGATAACCAGGTAACATTTTCCGGTAACGGACCGAGTTCAGAAATAAAT -AACGCGTCGCCGGAAGCCACGTCATAAACCGTTTTACCCCGATGATCTTCAACGAGATGCCACGATGACT -CATCACTGTTGAAAACAGCCACGAAGCCAGCCGGAATATCTGGCGGTGCAATATCGGTACTGTTTGCTGG -CAGACCTGTATGAGGCGGAATATATGCATCACCTTCACCAATAAATTCATTAGTTCCGGCCAGCAGATTA -TAAATTTTTATGGTCCGTGGTTGTTCACTCATTCTGAATGCCATTATGCAAGCCTCACAATATAGTTAAA -TGCGATGTTTTTGACGGTGTTTTCCGCGTTACCAGCAGCGTTAACGGTGATGGTGTGTCCATGTGAACCA -ATCGCAACGGAGTGCGTATGAGCACCAATACCGACAGTATGTGCATGCGCGCCTGCGCTTGCAGCAGTGC -CGGACAGCGAGTGGGTATGAGCACCATCTGATGATGTCTTCCCTGCATTACGAGTCTGGCCACTACCGCT -TGTTGTGCTCATAATCCCCGCGCTTAGATTTGAAATCGCGGTATAACCATTAGGGAAAATGCTCGTGTTC -GTGCCACCAAATGCACCGGAACTCTTGTGTTGGTGCGCACCGGCACTATTTGCGGTCCCGCTAATACTAT -GGGTATGCGCCCCGGTGTTATTCGTGGATTTGGTTCCGTAATCAAACGACGATGTGGTTTCCGTCCCCAA -ATCCGTACTGGATGCGCTGGCGCTGTGGGTGTGCGATTTAATGCCGTCCTGTTCCTGAGATAATACGGCC -CGACCACTGGCGGGCTTGCCCTTAATCGTCCAGCCACGCATATCAGGGATCACGCCTGACGGATAAGCAA -CTGCAAGTTTCGGGTATGCAGATTTGTCAAAAGTCTGCCCCTGCATCAGGGCATAACCAGACGGAACGGT -ATCTGATGGCCACGGGATTGGTGCACCGACTGGATAAAACTCTGCAGGAGGATGAGCCGAGGTGTAAAGC -TGCGCCCACGGCGACCAGTTTGCGTCGGTCGTATCCCGTCGTGAACGAATAAATGCCGGAGCATGAGCAC -CGCTTGTACCACTCCAGCCGATGAGTAACTCACCTTCGCCAACGGCTGTCATCCCTTTCAGGTGAATGAT -ATTTCCATACGCTGTTGGATATCCGTTGTTATACACCTCGTATAACTCAAGACCTGCTGCCCCCTGCGTA -TTGTCTGTCAGCGCGGTTATATTCACTCAGCAACCCCGGTATCAGTTCATCCAGCGCGGCTGCTTTGTTC -ATGGCTTTGATGATATCCCGTTTCAGGAAATCAACATGTCGGTTTTCCAGTTCCGGAAAACGCCGCTGCA -CCGACAGGGGGATCCCGTCGAGAATACTGGCAATTTCACCTGCGATCCGCGACAGCACGAAAGTACAGAA -TGCGGTTTCCACCACTTCAGCGGAGTCTCTGGCATTTTTCAGCTCCTGTGCGTCGGCCTGCGCACGCGTA -AGTCGATGGCGTTCGTACTCAATAGTCCCTGGCTGGAGATCTGTCTCGCTGGCCTGCCGCAGTTCTTCAA -CTTCCCGGCGCAGCTTTTCGTTCTCAATTTCAGCATCCCTTTCGGCATACCATCTTATAACGGCGGCAGA -GTCATAAAGCACCTCATTACCCTTGCCACCGCCTCGCAGAACGGGCATTCCCTGTTCCTGCCAGTTCTGA -ATGGTACGGATACTCGCACCGAAAATGTCAGCCAGCTGCTTTTTGTTGACTTCCATTGTTCATTCCACGG -CCAAAAACAGAGAAAGGAAACGACAGAGGCCCAAAAGCTCGTTTTCAGCACCTGTCGTTTCCTTTCTTTT -CAGGGGGTATTTTAAATAAAAACATTAAGTTACGACGAAGAAGAACGGAAATGCCTTAAACCGGAAAATT -TTCATAAATAGCGAAAACCCGCGAGGTCGCCGCCCCGTAACCTGTCGGATCACCGGAAAGGACCCGTAAA -GTGATAATGATTATCATCTACATATCACAACGTGCGTGGAGGCCATCAAACCACGTCAAATAATCAATTA -TGACGCAGGTATCGTATTAATTGATCTGCATCAACTTAACGTAAAAACAACTTCAGACAATACAAATCAG -CGACACTGAATACGGGGCAACCTCATGTCAACGAAGAACAGAACCCGCAGAACAACAACCCGCAACATCC -GCTTTCCTAACCAAATGATTGAACAAATTAACATCGCTCTTGAGCAAAAAGGGTCCGGGAATTTCTCAGC -CTGGGTCATTGAAGCCTGCCGCCGGAGACTGTGCTCAGAAAAAAGAGTTTCTTCTGAAGCAAACAAAGAA -AAGAGTGACATTACTGAATTGCTCAGAAAACAGGTCAGACCAGATTGAAGCAATTTAGATAATCGTGCAG -ACTACGCCCCCTCATATCACATGGAAGGTTTATCTATGGATCAGGTAGTCATTTTTAAACAAATATTTGA -TAAAGTTCGAAACGATTTAAACTATCAATGGTTTTATTCTGAGCTAAAACGTCACAATGTCTCACATTAC -ATTTACTATTTAGCCACAGAGAATGTTCATATTGTATTAAAAAATGATAATACAGTGTTATTAAAGGGCC -TAAAAAACATTGTGTCTGTCAAATTTTCAAAGGATAGGCATCTTATAGAAACGACCTCTAATAAGCTGAA -ATCCAGAGAGATCACATTTCAGGAATACAGAAGAAACCTTGCTAAAGCAGGAGTTTTTCGGTGGGTTACA -AATATCCACGAACAAAAAAGATATTACTATACCTTTGATAATTCATTACTATTTACTGAAAGCATCCAGA -AAACTACACAGATCTTACCACGCTAAACCATAACGTCCGGCTTCTCTCACTCCTGAGCCGGACTGCATTG -GTTTAATAAAAACCATCAACAATTGTGATTTAGATATTCGGAACCATTCAAATATAACAAAACCCCGTAA -AAACGAGGTTTATGGATAAATTTTATTATTGAATACATCAGATTAAATTAATCTTGACATCATAGCTTTC -AAGACCCGTCATTTTTTCCCGTGCGGTAAACTGAATACTGGTAACTTCTTTCCCGGTCTTTTTCTTAAGT -TCAATAATTTTTTTTGTTATATATTCAGAAATATCTGCTTCTGCTTTTGTTTTTAAGTTTTCAATATTCA -TCATTTCCTCTTTTAGTCTGTTATGACTTTCCAGTTACACAGTAAGTCGATTATATGGTGCAAACGTGTA -AAAGATAAGATGAAACATCGCAATAATCAACATACGATAGTCTAAATTTTACACAAACAGACAAAGAGAA -TTTTCCTGAATTATCAATGCAATAGCATCAAATCAACTCAAGAGCCTTATTGCTGCTTCCAGAATTTCTT -CTGAAGTAACATGTCGATCCGCGGCTACATAAATGACTTTATGATCTCCGGTCAGAGATGGAAACCCTGC -GGCCATTACAGTAAGGTGTGTTTTTTCGCCATTTGGATATTCACGCATGATGGTGTTAACTCCAGTCATC -GCTGGCACTACCACTGCTGGTTCAGAGTTAAAAAAACTATGATTTTTTTCATGATGTTACCGTAGTATGT -GAGTATCCATCGAATAGACACCAAGCAAAAAAGCTCCCGAAGGAGCCTTCATTTTCACTTTTTTAAATCC -AACGACAGACGGCTGGCATTTAAGTATTGTGAAATATTATCAAATGTAATCATCATTGATTTACAAAAGA -TACATTTTGCCCCGAAAGGATTCATGTCAGAAACATCAAAAGATGATGTTCTATACTGGGAACCATGACA -ACACGGGCATCTAAAGTGAATATGGTTTGTAATATTGTCTACCTCAAAGCGCCACTACATGAACAGCGGC -AGGACCTTTAGGTCCGTTCTCAATACCAAATTCAACTTCCTGATTCTCAGTTAATGTTTTGAAATCGTTG -CTCTGAATTGCTGAGAAATGGACAAACACATCTTTGCTGCCATCTTTCGGCGTGATGAAACCAAAACCTT -TTTCAGGGTTAAACCATTTCACTAAACCAGTCATTTTGTTAGACATAATTATTACCTTTTGAAGAAATTA -GCCCTTGGGCAGAATGGTCCGAAAAAAAATATCAGAGAGAAAAACCAACAAGGAAATCTCAAGAGGTACA -AATAATAAAATTATAACAATGACTGCTTCAGATAAATTTGTAACAAACCAGAACACCATTAACGCATGAT -TAACCACCCATAGCAAGGATTACTTTTGTAAAGAAAAACACAGCAATGAAAGAATAGCTTTATTTATTAA -TAAAACGTGTCATTCTGATTAAGACCTTTTATCTTACCCTTAAGATTTCAGGAATTTTGGCTCATGGAAG -AGTCCTTTTTATTTAAATTTTACATTCCGCGATGTAAATGTTCCGATTTAATATTACCCTACATTTGATG -CTTTTTATCTCTTAAAGATTCATAGATCTGTTGACAAGTCACTCCTGCGATGTAGCGTTCGTCAGCAATT -TCAGCATAAAGCTGAGCTTCTGCTGCAATATCTCCGAGCATGTTGGTGAGCATTCCTTCGGCGGTTTTGG -TTGTTTTGCCTCTGACGGCAGCGGCAAGATCTGCGGTATGCTTCGCTGCGTCAAGGCGTATGGCATATTT -TTTTGCTTCGGCACGCAACTGGTTAACACTATCAGACAGATAAGCAGCCCTGGCAGAAATTTCAGCAGAT -TTCTGTTGCGCATCTTTAACAGCCTCATCACGGGCTATAGTTCGCCCCTGTTCAATTATTCGAGCAGCAA -ATTGAGCATTTACCTCTTGTGATAATGCGGCAGCATCACGTTCCGCCCATTTTTTTTGCCATCCTCGGTC -GCTCCAGACATTTCCGACGATAAATCCTGACAACACGAGAAAAATCACCATGAATATCTGATTCACTGTT -CTATCCCCCAGCAGGTTAATGCGCTCTCCTGGTCACGACGAATAACCTGACCGTAACAGTTATTTGAACG -AATGCGGCAATCGCGTCCGCCATCCTTAATCCACCAGCGAATCGCTTCGCATGCACCTTTACGATCACCA -GCATTCAGCCGCTTATAAAACGTCGACGGGAAACACTTACCGGGGCCAATGTTATAGGGACAAAATGACG -CGATACCCGCTTTTTGTGGTTCGGTCAGTGGTACTTTAATATTGCGCTCCACCCATGCCAGCGCCTTATC -ACGCTCAATGGCGTTGACCTGGTCGCATTTTTCCTTCGACAGTTTCATATTGGGAAAAACGGTTTTTCCA -TCCACCACTGTGGCACCCCGACAGATGGTCCATATGCCAGAACCATCGCGGTATGCCATTGTGTGGTTAC -CTTCTTTTTCGTCCAGAAACTGGTCAAGTATCTGAGGAGCAGATGCGCCAGCACCAATCAGCGCCAGAAC -GGCAGCCGACAGGCCGTATCTGATTTTTGTGTTCATAGATATTTATGATGAGGACGCTCGTGCTTATTGG -CAGGATTTTCAATCTTAAAGGAGTACTGATGCTGCAGATAAGACTCAACTTTTTCTGACAATTTTTCTGC -TACTTCCAGGAAGACTTGCCGGACGCTCCTTCTGGCTGCTGCCTCATAAAACTCCAGCGCAGCTCCTTCA -ACACGGTCCATGGCGACATCCAGGTCAAAAATTTCACCGTCAAAGCGTTCTTTGTCCTGTAAGGCTACAG -TTACCGTAACTTTATTCTCAAAATTACGGACTCCTTTCACAACCAGTTCATAGTCTTGAGTCATTGGATT -ACTCTCCTCTCGCAGCCTTACGCCTGTCTTCTTTAATCTTGAAATAAAGATTTGTCAGATACGTCAGCAG -GCCAAAAACCAGGCTACCCAGCACACCGATTGCAGCCCACTGTGACGGAGTTACTTTATCGAGTAACTGC -AATGCCCAGAAACCAGCATTACCCGCCGATGTGCCATAGGCAACACCTGTTGTTAACTTATCCATTGATT -TCATATCCTCACCCCGATGTACACGGATGGTGCAATATGTTTGAAAAGATCGGAGTCTACGGGGTAGTTT -TGACAGCACACGTTGTTCTCAACGGCGCTAAAAAAACATACACATTAAAAATGTGGGTAATTATTTTGAA -AGAAAGTCATATATAAAATAATAATACGAGAAATGTTTTCATATTTAGTGTACTGTATACGGCCATTTAT -ACAGGAAAAGCCTATGTCAGAACGTAAAAACTCAAAATCACGCCGTAATTATCTCGTTAAATGTTCCTGC -CCAAACTGCACCCAAGAGTCAGAACACAGTTTTTCAAGAGTACAAAAAGGTGCCCTTTTGATCTGCCCTC -ATTGCAACAAAGTATTCCAGACAAATCTTAAAGCTGTAGCCTGATTGATTTTATTAGTAACAAGTATTTT -TTATATTTTAATAATATATTTAAAGCAGATAATAAAAAACCCGCCTGAGCGGGTTTGAGATTGTGGTGCT -TTTTGTGGGAGTCATCCACTTACGCACTTTGTTTTGCCATGCCAGCAGTTAGCTTCTGCTGTAAAACTAT -TCATGCAGCAAACCTGCACTTCACCACAATGGTTAGCATACTTTTCCTGATTAAGATTTTGCCAAATATG -CTAGCCATTGTTTCATGTATTGGACCTCCTTACTTTTTATTAAAGAGATCCAATATTCACTACTCTGTCC -GTATCTCTACTCAGGCATCAGCCTTCTTCGTTATCGTATACAGACGAGCGATGAATTTTAATCAGTAATG -ATGACATTTGCTGCTGCAGGACCTTTAGCACCACTCTCTATAGAGAAGGTAACCTTTTGACCTTCAAATA -AGGTTCGATAATTATCATTCTGAATCGCAGAAAAATGCACAAACACATCTTTACTACCATCAACAGGAGA -AATAAAGCCGAAACCTTTATCAGCGTTAAACCATTTTACTAAACCAGTCATTTTATTTGACATTCTACAT -TCCTTAACTTGAGCCTTTCGGCATAAATGGTTTGCATAACAGAAACGACTTCGTACTTAATTGGAGAGAC -TCAAAGAAGGAATAAGTGAATAACACCTGAAATGAGAACTGCTTTAGTAAACTACTTCGTATATCGTCTG -TTCTTCAAACCGACGCAATCATTAACGCATAGTTGAACATATGAAGCAATGTTTATTTTAGACATCCAGC -CATCTTCAACCCCATCAAAAAACTATAGCTTTCTTCAGGAACGTGTGTATAGTGCGCCAAGTTATCAGTA -TTAAGGAATTTTTTTGTCCCGTAAAATGACAGGAATTGTCAAAACCTTTGACGGCAAAAGCGGCAAGGGT -CTTATCACCCCATCCGATGGTCGTATCGATGTCCAGCTTCATGTTTCAGCGCTCAATCTCCGCGATGCAG -AAGAAATTACCACCGGATTACGCGTGGAATTTTGCCGGATAAATGGTCTGCGTGGCCCTTCAGCTGCCAA -TGTTTACCTTTCATGAGCTATATTAAAGCTTTAATTTCAGGCCCCATCGGATCACACATGGAGAGTTTTT -ATGAATAACCCCGTCTGTCTTGATGACTGGTTGATTGGCTTTAAAAGCTTATGCTGTACTTTGGCCGTAA -TAGCTCTGCTAATAATATAATAAGCAGACTCATTGTGTTTAGGGACATTGTACTGGAAGAAAACATTTTA -AACATCAGGCAAATAACCAAGTCACCAGCTAAATAATAAGTTAACAGACATGAGTCCCGGGATGAGATTC -AACATTACCATTGCCCCATTTAAAGCACAAAACCCGCTCATCAGCGGGTTTTCTACTTTTTCTTAACGTC -GGGTATACAAAGCCCATCGTTGAAAAAATTTTATCCATATTTTTTGAAAAATGCAAACATCATGTCGCCA -TCTTCAGCAAAAATCATTTATCTCGTCACCTTCCTCAATTGCGCTTCCGCGTATGCTTCTTCCTGCCAGC -ACTTTGTTACCAGTTTACCAATGACGTCCGCATACCCCTTATACCACTGATAATCGGTCAGGTCTGGTAC -CAGCTTCTGGACATGACGTCGTGCCAGCGTGGTCGGTAAACGACTAAACCGGTTTCCATTACAACGCCCA -CAAATCTTATATACCGGTACGCCATGAAACCGGGTTCTTTTTTCATCCAGAACAATCCCTTTACCCTTAC -ACCCTCTGCACGCTGTGCTGGCTTCGCCCTTACCATGGCAATGCTGACATAGTTCCTTCACCCATTCTTC -CTTGATTACAGATTCCCCGCGTCTGTAGTGTTTCACCACTTCGCGCAATACATTATAAAATCCCGTACCT -GAACAATGCTCACAGCGAGCCTTACTTGCCGCAGACCTGGAGTAATCAGCAAAGGCAAAACTCACGAGGT -AAGGAATAATCTGTAACCGGATTTCTTCACTCAATTTGTTCAATGTCGGGTTATCCAGTGCCATCGCGTA -ATTTAGCAGGCCTTCAATCGCAAACTGAGGGTCCTGAACACCAACTTTTGCCAGAAATAAGGCCAACCCA -AGTGGTGCTTTCGACTGCACCATCCCCTGCGCTGCCATTACATCCGTAATTGTTAAACAACCGGTGCCTG -TCGCTGGAGCGTCATCGCTCAATTTTGGAGATTTTGGGGAGTAATATTTTGGTAAGGCTTCAAGGTTCAT -GCTCGTTCTCCACTTACGCCAGTACGCCAATTGCCAGCGCGCGATCGATAAAACGAAATATCAGCTCCAG -TTGGGAGCCATACTTATCTTCAAATGCCACTGTATCCGTATGCAGCTCGTTGTGATGCTTTCTGCACAAA -GGCAACACAAAGAGATCATGTGCTTTTGTTCCCATTCCGCCCTGCCCGTGACCAATCAGATGATGCGGAT -CGTCGGCTGGCATACCGCAGCAAGCACACGGCTGTGTCTTAACCCAACGTGTGTATTTCTCCTTAACCCA -GCGGCGACGTTTAGGCAGCTTCATGAAAGATTCCGGAGACTCTGGATCAACGGTGATGCTTACCACCGTC -TTTTCCTGTGGTGATTTTTGTTGCTGGTGGGCGTAAGGCAACGGTGCAAGATTTTTTGTGCGTTGTTTCA -ATATGCTGGTGGCGGTCTGCTCTCCCGGTACGATGTCGCTTTCGCGGTACACCGAGCAGATTTTTTCCGC -TGGTAATCCCAGCGAACGACGCGATACAGCCTCAGGTAGTGCATCCACCACCTGATTGCAGACCGCCCAC -CAGGATAATTCAGCCAAAGATAATTCCCGCTCCTGCGTACCGCTTATTGCGTGACGGATGACGTCAATCA -CCCATGCTGTCAGATTTTGTTGAGCAAGCAGCTCCAGTGATTCCGATGTCTGGTCACGCAGTTGGTTGTC -GCAGTGCCAGCACAACACCATTGCGCCGGTACCATAACGGTGAATGACTGTTTCAGTGTGATGGTAATCG -CCATTAGGCCACTGGCAGGATGTAACATGACGTAATAGCCAGTCGGACAATGCGCCAACGCCGCCAGCAG -CACGAATCACCCGTTCGTTACTAAAAAACGGCAGCAATGTTTTGTCTTCCGCCAGCGGCTGGCGAACGGC -AGGAACGACTCCGGATGGCAGATTACGCATGCTTTTTGGTTCCGGTTCCACCAGCACTCGAGGATTATGA -AATATCTGTATGGATTCACGGCCCGGCTTAAGGACCACCAGCCCAAGCTCAGGCACCAGAACAGGTCTAA -GTAATACCCGCACGTTACCTCCAGATCCGTTGCTGGAAAGTGCGGGACGCACGTGGTGGGCGTTCGGAAT -AAGGCAGCCTGACAGAGATTATCCAGTGCCGATAGTCGAGACTGAGAGCTTTCTTAACCTCGAACCCGCG -CCTGCGGTAAGAATGAATCAGCCATTCGGCCTGTTCTGCAGTGCATGGAGGGTGCTGGAACCATTCAGAC -TTGAATGCGTGAGAATACCGCCCGTGCGTGCAGGCAAGAACGGGCGAATTATCAGAATTGTAATATTTTG -CGTTGCGTGCCATCGGTTTTCTCCGGTGGCACGGTGTTACTCAGCGGGAGTTCAGCCCCGCGCAAGATTG -TAGATGAGTTTATTCTCCTGAAAAAGCAGAAAAGCCAGCTTTTATTCCGATCTCTTTCAATGCCTGTAAT -GAAGTGACAAACTCACCTTCGCGCAAGATAAATCCGTCCGTGACCCGAGCATCCACAAAATTAATTAACG -CAGCCCCATTCTTTCGCAAACACATAATGCGGTAATGACTAACAAGATTTCCATTTTCAACGCACACAGC -ATAGAGGCCATCTTCACAAAAAATTTTACGCAGTTCTTCGATGTTCATCATCAGAATCCTTCCGGATAAT -TAGCTCTCCCCTTTAAGGGACCATCCCTCTTATCCCTGCGCGCTACTTAAGTATTTTTGATTCTATTCCG -GCACCGTCCAGAACTTCAAACGCGTTGAAAATAAAAACAAAAACCCGCCGAAGCGGGTTAAGTGCGGGTG -CGTTGAGGATGCCTGCCACATCAGAGGTGGCGAGGGATTTCTCCCCCGCCGGGTCTCTTACTCCTCAGGT -TCGTAAGCTGTGAAGACAGCGACCTCCGTCTGGCCGGTTCGGATTCGTACCTCGCAGAGGTCTTTCCTCG -TTACCAGTGCCGTCACTATGACGGTTAAACAGATGACGATCAGGGCGATTAACATCGCCTTTTGCTGCTT -CATAGCCTGCTTCTCCTGTCAACGCAAAGCAGAAGTGTCACCTTCGGTGCGAAACAGAGATGTCATGCTT -TGGTTCAGAGAATGCGTTTGACCGCCTCGCTATATACTTCCGAGCGTTCTCTTTTCCCAACAGAAATCAC -GAAAACGACAACTTTCTCGTCTATAACCTGGTATACAAGGCGATAGCCTGAAGACCGGAGCTTAATCTTG -TAACAATCAGGCATACCACGGAGCTTGTTTGCTTCAATCCGGGGTGACTCAAGTACTTCAACCAGCTTCT -TTTTCAACTGTTCACGTACCGTCGAGCCCAGCTTTCGCCATTCCTTTAGTGCCCGCTCGTCAAAATCCAG -AAAATACGCCATCAGAGTTCATCCAGCGTCACACGTACTGGCTTAGGATTACGAAGCCGTTCTTTCACTA -TCTCCACAAGTTCAGCATCTTCATCACTCAGGAGTGTCTGTTTGAACGGCAAGCGTTCATTGTCAGCGAT -ATACTCGAGCATGAGACGAAGCGCTTCAGAAGGAGTTACACCCATTTTTTCAAGCGCGGCGTAAGAACGC -GCTTTAAGTTCATCGTCAATACGCAGGTTAATGCTACCCATGTCTTACACCTCTTGTAATTACAAATGTC -ATTACAAGTATCGCACTACAACATGCTTAGGGCAAGTCACGAAGGAAGTCAGAAAGTAGTCGTAAGAACG -GTGATCACTGTCCGCTTTGTGCCAGGAGCAGCCATTGCTAAGTCCATCCTGTATTGTGCAGGTCAGCTCG -TTTTTAAAGAGTCCGGCCATCATCTTACTGGTACAGACACCATATACTTTGTGACGGTCAGGCTACATAT -GCACAACTCAACTTATTCATCTATTTTTTGCTTTAGCATGTCAGTGTTGCTTTCTCGTCGGCGGGTGAGC -GGTGACCTGACCTGTCGATAAAGGAACGTAACACGTTTTATGCAACACCCGCATGCGGCAGAAAATTATT -GCCGAACGTTTACCCCTGTCAACAAGCTTTACTTTCTGAGGCGCGCCAGCCCGCGAGGAAAACAATCTGA -ACATCAAACAATTAATGACACAAGAAATACGATTAAAGATTTTTTTGTGCATGCCGATAGTGCTTTTTTA -AAAGGAGAAATCTATGTCTGTCACAATTCAGGGAAATACCTCAACCGTTATTTCAAACAACTCCGCCCCG -GAAGGAACATCAGAAATAGCCAAAATCACAAGACAAATTCAGGTGCTGACTGAAAAGCTTGGGAAAATCT -CATCGGAAGAGGGGATGACGACACAGCAGAAAAAAGAAATGGCTGCATTGGTACAGAAGCAAATTGAAAG -CCTCTGGGCTCAACTGGAGCAGTTGTTAAGGCAGCAGGCAGAGAAAAAGAATGAAGACGCGACAGTTCAG -CCTGATAAAAAAGAAGAGAAAAAAGACGATACAAATACCGCTGGCACCATTGATATTTACGTCTAAGTGA -CAGCCGTATTGTGGCCCTCATCGGGCCACTTTTCGCCATCAGCCTTTTCTTTAAAGACATATTATCTTTG -TATCATTTCTGATAGTTAACATTACAAGATATAAGTAATGGACGCACTCCCAATTAGTCTATTTAAATCG -CCACGAGTTTAACTGACAACCCATGATCAATTATGAATTGCAACTATTTCTGTAGTCACTTTTGTGGGGA -CAGTCCACAAAACTGCCAACTTCCGCTTCTTGCTCTTAGCGGACATTAGCATAGGCTATTTACCATAACG -CCTCATTACGCGCACCGCCCAGACTGACTCAGCGCGTTTCTGGCATATCCCCGGTAAAACAAGTAACAAA -CCACCCGAAAATGAACACCAGAAACGCGACTTAAGAATCTACCCTATGAATGGATATGCACTCAACCGAA -TCGATCTTGGTTTCAATCTTTTTTATCGGGATCAGGCTTCTTTTTAGGTAACTTCGGGGGCTTAACTTGC -TGATGACTTTGCGTTCGGCGCGTAAGCCAGGGATGGTCAGCTTTAGGTTTAACATAGTATTTTGAGCGTA -AATCAATACGGGCATTATCCACTCGTTCATGGACACTCTTTTCATCATCCAGTGGTAGCCTCCATAATTG -CAGGCACTAGCGCCGTGAACTTTTCACGCTTATCCCTGGTGTCGATAGCCTTCCAGCGTTCAAATATCTT -CACTCGATTAACGCCAAGCGCTCGCTGATCAATCGCGCCACCTTCATATGTGACACGCTGAACATCGATG -TTCGGGCGCTCTTTCAAAGCCCAGAATGCTTCAGTGATTAATATCGTCGCCTGCTCCTGTGTCATTCCTG -GTCGACATATCCAGGCATCCAGAGCCTCACGAGCCTGTTCAGGAGTGATTTTCATTGTTCAACCGCCCCG -CCCGCTTCGTCTTACGATATTCATCATAAACTTTGGGATCATACTGAAGCTCCCCGCCAGATGCCTCCTG -TAGACGCATCGCGCGACCTTCGGGAACTAAATCCCCTTTCCAGCTATAAAGCGAAGCCAAACGAATACCT -GCTGCTTGTGCAAGTTTTGTTTTTGAACCGAAATACAAAAGAGCGTCAGTTTTAAGCATTTAAAACACCT -TTATTGTTAGTCATAACTAACAAGATAGATGTTAACAAAAACATAGTCAATACGATTTAGCATTAGCTAA -CTATGGAAACAAAAAATTTAACTATCGGCGAACGCATCAGGTATCGTCGGAAAAACCTCAAACACACCCA -AAGGTCTCTTGCTAAAGCCCTGAAAATCTCCCATGTGTCTGTATCACAATGGGAACGGGGTGATAGTGAA -CCTACAGGGAAGAACCTTTTTGCCCTCAGTAAAGTATTGCAATGCTCACCAACATGGATTCTATTTGGCG -ATGAAGACAAGCAACCAACACCACCTGTTGAGAAGCCAGTTGCCTTATCCCCCAAAGAACTAGAGCTCCT -TGAGCTGTTTAATGCACTGCCAGAATCAGAACAGGATACCCAGCTCGCCGAAATGCGAGCTCGAGTAAAA -AACTTCAATAAACTCTTTGAAGAATTACTAAAAGCCCGTCAGCGGACAAATAAAAGATAACATCATCAAT -GAGTTATCTTTTACCACATCAATTATGTTAGCTATAGCATACAAAATCACTTGACCGATATGTTAGTCAT -GGCTAATCTTGTTTGCATCAACACACCGCACGGTGTTCTCAGCAAACAGTTCCGCTACCCCAGCGTTAAG -GGGAAATGAGGTCAGCATGGATACTATCGATCTTGGCAACAACGAATCTCTGGTGTACGGCGTGTTTCCA -AACCAGGACGGCACGTTCACCGCAATGACGTATACCAAAAGCAAAACGTTTAAAACCGAAAATGGTGCCC -GTCGCTGGCTGGAAAGAAACTCAGGTGAGTGATATGGATTTCGACACAATCATGGAAAAGGCTTACGAAG -AATACTTCGAAGGCCTTGCCGAAGGCGAAGAAGCTCTCAGCTTCAGTGAGTTTAAACAGGCGCTTTCCAG -TTCGGCAAAATCTAACGGCTGATAAGCGAAACAGCACCGCGAGGAATCAGTATGCAGAAACGAGAACCCG -TCATCATCGCGCCAGACTATACCGATGATGAACTTTATGAGTGGATGCGCCAGAAAATTAATGCAGCGCA -GGATCTGAAATGGGCTAATGAAGCCAGGGCTAAGCAGGCTGAAAATCTGTCCGCTCTGGAGCAGGATATC -ACCAATCTGGAAAAAGCAGCGGCATTAAGCATTGCCAGAATGATTACATACCCGCGTTAGTAGCTAATCA -ACAAAGCTAAGGTTAGTAATTAAGGAGTTCTCCACGGGTGAGGTGGAGTGCGTGCGCCGGACACGGGTGC -GCATCCGGAACTGACAGTTTACTGAAAGGATATTTCCCTGAAAAGTCAGACCATAACGCGAAAGCGCATG -GCGAGGTAGCTGGTTCATAGATAGCCTGTCGTTAAATTTTCGTCGACCGTGCGCTTCCGGTTGTGGCAAC -CCGCGAAATGGCGCGGCGGTAAGTATGGCGGGGTTATTCCTTCCCCGTTGAGGACACCGGGTTGTCAGGT -TGACCATACGCTTAAGTGACAACCCCGCTGCAACGCCCTCTGTTATCAATTTTCTGGTGACGTTTGGCGG -TATCAGTTTTACTCCGTGACTGCTCTGCCGCCCTTTTTAAAGTGAATTTTGTGATGTGGTGAATGCGGCT -GAGCGCACGCGGAACAGTTAAAACCAAAAACAGTGTTATGGGTGGATTCTCTGTATCCGGCGTTAATTGT -TAACTGGTTAACGTCACCTGGAGGCACCAGGCACTGCATCACAAAATTCATTGTTGAGGACGCGATAATG -AAAACGTTATTACCAAACGTTAATACGTCTGAAGGTTGTTTTGAAATTGGTGTCACTATCAGTAACCCAG -TATTTACTGAAGATGCCATTAACAAGAGAAAACAAGAACGGGAGCTATTAAATAAAATATGCATTGTTTC -AATGCTGGCTCGTTTACGTCTGATGCCAAAAGGATGTGCACAATGAATTCAGCATTTGTGCTTGTTCTGA -CAGTTTTTCTTGTTTCCGGAGAGCCAGTTGATATTGCAGTCAGTGTTCACAGGACAATGCAGGAGTGTAT -GACTGCAGCAACCGAACAGAAAATTCCCGGTAACTGTTACCCGGTCGATAAAGTTATTCACCAGGATAAT -ATCGAAATCCCGGCAGGTCTTTAAAACAGTTCCGTAATAAATATCCGGTTTCATTCTTATATGCCAGCAA -TGGCAGGGATTTGTTCATCCTTAAATCTGTCATGAGGTTAAAACAAATGAGTAAAGTCTTTATTTGCGCC -GCTATTCCTGACGAACTGGCAACAAGGGAAGAAGGCGCTGTGGCTGTAGCCACAGCCATTGAAGCTGGCG -ACGAACGCCGTGCTCGAGCAAAATTTCACTGGCAATTCCTGGAACATTATCCGGCTGCTCAGGACTGCGC -TTATAAATTTATTGTCTGCGAGGATAAACCTGGCATACCCCGCCCTGCCCTCGATTCATGGGATGCTGAA -TATATGCAGGAAAACCGCTGGGATGAGGAGTCTGCTTCTTTTGTCCCGGTTGAGACTGAATCCGATCCGA -TGAACGTCACTTTTGACAAGCTGGCCCCTGAAGTACAGAACGCTGTCATGGTTAAGTTCGACACATGTGA -AAACATCACCGTTGATATGGTTATTAGCGCACAGGAATTGTTGCAGGAAGACATGGCAACATTCGACGGA -CATATCGTTGAAGCGTTGATGAAAATGCCAGAAGTTAACGCCATGTATCCGGAGCTTAAGTTGCACGCCA -TTGGGTGGGTTAAGCATAAATGTATTCCTGGTGCTAAATGGCCCGAAATTCAGGCAGAGATGCGCATCTG -GAAAAAACGTCGCGAAGGTGAACGCAAGGAAACCGGAAAATACACGTCTGTTGTTGATCTCGCCCGCGCC -AGAGCCAATCAACAGTACACTGAAAATTCAACAGGAAAAATCAGCCCGGTCATTGCTGCCATTCATCGCG -AATACAAGCAGACATGGAAAACACTGGATGACGAACTGGCCTATGGGCGCTGCTTCGCAGACAGGCAGAA -CTTGATGGTATGCCTGCGATCAATGCCAAACGTGTTTACCGGATCATGCGCCAGAATGCGCTGTTGCTTG -AGCGAAAACCTGCTGTACCGCCATCGAAACGGGCACATACAGGCAGAGTGGCCGTGAAAGAAAGCAATCA -GCGATGGTGCTCTGACGGGTTCGAGTTCTGCTGTGATAACGGAGAGAGACTGCGTGTCACGTTCGCGCTG -GACTGCTGTGATCGTGAGGCACTGCACTGGGCGGTCACTACCGGCGGCTTCAACAGTGAAACAGTACAGG -ACGTCATGCTGGGAGCGGTGGAACGCCGCTTCGGCAACGATCTTCCGTCGTCTCCAGTGGAGTGGCTGAC -GGATAATGGTTCATGCTACCGGGCTAATGAAACACGCCAGTTCGCCCGGATGTTGGGACTTGAACCGAAG -AACACGGCGGTGCGGAGTCCGGAGAGTAACGGAATAGCAGAGAGCTTCGTGAAAACGATAAAGCGTGACT -ACATCAGTATCATGCCCAAACCAGACGGGTTAACGGCAGCAAAGAACCTTGCAGAGGCGTTCGAGCATTA -TAACGAATGGCATCCGCATAGTGCGCTGGGTTATCGCTCGCCACGGGAATATCTGCGGCAGCGGGCTTGT -AATGGGTTAAGTGATAACAGATGTCTGGAAATATAGGGGCAAATCCACAGGTGAACTACGCTCCTCTGTT -TGTTACGCAATAAAAACTGGTGTTTTCGACTATGCAAAACAGTTTCCCTCCTCACGCAATCTGGAAAAAT -TTGGTGAGGCCCGACAAGATTTAACCATAAAAGAACTGGCTGAAAAATTTCTGGCACTGAAAGAAACTGA -AGTCGCCAAAACATCACTCAACACATACCGTGCCGTCATCAAAAATATCCTGAGCATAATCGGTGAAAAA -AATCTTGCCTCATCGATTAATAAAGAAAAATTACTGGAGGTTCGTAAAGAGTTACTGACTGGATACCAGA -TCCCTGGATTTGCCCCTATATTTCCAGACATCTGTTATCACTTAACCCATTACAAGCCCGCTGCCGCAGA -TATTCCCGTGGCGAGCGATAACCCAGCGCACTATGCGGATGCCATTCGTTATAATGCTCGAACGCCTCTG -CAAGGTTCTTTGCTGCCGTTAACCCGTCTGGTTTGGGCATGATACTGATGTAGTCACGCTTTATCGTTTT -CACGAAGCTCTCTGCTATTCCGTTACTCTCCGGACTCCGCACCGCCGTGTTCTTCGGTTCAAGTCCCAAC -ATCCGGGCGAACTGGCGTGTTTCATTAGCCCGGTAGCATGAACCATTATCCGTCAGCCACTCCACTGGAG -ACGACGGAAGATCGTTGCCGAAGCGGCGTTCCACCGCTCCCAGCATGACGTCCTGTACTGTTTCACTGTT -GAAGCCGCCGGTAGTGACCGCCCAGTGCAGTGCCTCACGATCACAGCAGTCCAGCGCGAACGTGACACGC -AGTCTCTCTCCGTTATCACAGCAGAACTCGAACCCGTCAGAGCACCATCGCTGATTGCTTTCTTTCACGG -CCACTCTGCCTGTATGTGCCCGTTTCGATGGCGGTACAGCAGGTTTTCGCTCAAGCAACAGCGCATTCTG -GCGCATGATCCGGTAAACACGTTTGGCATTGATCGCAGGCATACCATCAAGTTCTGCCTGTCTGCGAAGC -AGCGCCCATACCCGACGATAACCATACGTTGGCAGCTCTCCGATAACATGGTGTATACGGAGAAGCACAT -CCGTATCATCAGTGTGACGACTGCGGCGGCCATCCATCCAGTCATCGGTTCGTCTGAGAATGACGTGCAA -CTGCGCACGCGACACCCGGAGACAACGGCTGACTAAGCTTACTCCCCATCCCCGGGCAATAAGGGCGCGT -GCGCTATCCACTTTTTTGCCCGTCCATATTCAACGGCTTCTTTGAGGAGTTCATTTTCCATCGTTTTCTT -GCCGAGCAGGCGCTGGAGTTCTTTAATCTGCTTCATGGCGGCAGCAAGTTCAGAGGCAGGAACAACCTGT -TCTCCGGCGGCGACAGCAGTAAGACTTCCTTCCTGGTATTGCTTACGCCAGAGAAATAACTGGCTGGCTG -CTACACCATGTTGCCGGGCAACGAGGGAGACCGTCATCCCCGGTTCAAAGCTCTGCTGAACAATTGCGAT -CTTTTCCTGTGTGGTACGCCGTCTGCGTTTCTCCGGCCCTAAGACATCAATCATCTGTTCTCCAATGACT -AGTCTAAAAACTAGTATTAAGACTATCACTTATTTAAGTGATATTGGTTGTCTGGAGATTCAGGGGGCCA -GTCTAATCCCCAAAAGTAACTATATTGTTACACAACCAGGGAGATCGGCTGTAACTGTAAATAATTACAT -GACAAATCTTAACGCCGTGTTCCAGTTTGGTGTTGATAACGGTTACCTGGCAGATAATCCGTTTAAGGGG -ATCTCGCCATTAAAGGAATCAAGAACCATTCCGGATCCTCTTTCGCGGGAAGAATTTATCCGTCTTATCG -ATGCGTGCAGAAATCAGCAAGCAAAAAATTTATGGTGTGTTTCTGTTTATACTGGAGTTCGCCCTGGTGA -GCTGTGTGCACTTGGATGGGAGGACATAGATCTGAAAAATGGAACAATGATGATCAGGAGAAATTTAGCA -AAAGACCGTTTCACGGTACCAAAAACACAGGCGGGAACCAATCGGGTCATTCATCTTATTAAGCCAGCAA -TCGACGCTCTCCGGAGTCAGATGACATTAACGAGACTGAGCAAAGAGCATATCATTGATGTTCACCTCAG -AGAGTATGGCAGAACAGAAAAACAAAAATGCACCTTTGTTTTTCAACCTGAAGTGTCAGCGAGAGTAAAA -AATTATGGTGACCATTTTACCGTTGACTCAATAAGGCAGATGTGGGACGCAGCGATAAAACGTGCCGGAC -TCCGCCATCGAAAATCATATCAGTCGAGACATACTTATGCCTGCTGGTCGCTGACAGCTGGTGCTAACCC -GGCATTTATAGCAAACCAGATGGGCCATGCAGATGCGCAAATGGTATTTCAGGTATACGGAAAATGGATG -TCTGAAAACAATAATGCACAGGTAGCTTTGTTAAATACACAGTTAAGCGAGTTTGCCCCAACCATGCCCC -ATAACGAAGCAATGAAAAATTAATTTAATATTTATCAAATAGTTAACACGCATGACTCTTGAAATCCATA -AATTCAAGCGCAGTGCCCAGCCATCCCGATACTGCTGCTTTCACCAAATCCTTAGTGCTTCTTTCGTGTT -TTTCTATTGTCATAATGGTTATCTCTAAAAAAGAGGTAAGATGCGTACTACTTACTCGCCGTTATTGGTA -TTATTCAGAAAAAGTGAGTAAGACTTTGCAGCAATGTTTTTGATCCTGTTCAAATAAACTAATGGCATCA -GCAACATGCTGGAAATCAAACGTATGGGTAATTAATTTTTCTGGTTTAATTAACCCTTTACTTAACCAGT -CGATAACGATCGGGAATTTATTTGCATTTAAGCGTGAAGAGAAAATAGAGAGTTCTTTTCCGGTAATTCC -TTGCTGAATCACTTCAGACGGTTCACTGGAGAACCCCATCAATACAATACGTGCCGCTGGAGAAGCCAGC -GTTACGGCCTCTTTCAGGATAGAAGGATGACAAGCCGCATCGATAATTAATGTCGGCTTGATGCCTTTTT -CAGTGAAAATCTCGCCAAGCGGTGTCTGGCTGTTATTAATCGCCCAGTCAGCCCCGCTCTCTTTCGCTTT -TTCCAGTCGTTCATCAATGCGATCGGCAACAATCACATTTTTAACGTTATAGACGCCTTTTAATACCTGA -ACGATCGTCAGGCCGATTGGACCGGCACCATAAACCAGAACGGTATCATTTTCAGTCGGTTGACCATGTC -CGGTTACGTTAGCCGCAATGGTAAAAGGTTCGATCATTACCGCATATTGATCGGCCACTGCTTCAGGAAT -TTTCCACGCATTTTTTGCCGGAACCACGGCATATTCACTGAAACCACCGTCAGCGTGCACACCTAATACA -GCCAGTGTCGTACAAACGTTCGGTTTACCTATAGAGCACGGATAGCAATGCCCACAGCTGACCACCGGAT -CGACAGCAACACGTTCACCGACTCTGGCGCTTTCCACGCCTTCACCCACTGCATCAATGACGCCAAAGAA -TTCATGACCAATGACGCGCGGATATTTCGCAAAAGGATTATGCCCACGATAAATATGGCTATCTGAACCA -CAAATTCCGGCAAGTTTCACTTTTACTCGTACTTCACCCGCTGACGGGGTGGGTATTTCACGTTCGACAA -TCGCCAGTTGATTCGGTTTTTCAATTAATATGCTTTTCATTATCTTACTCCTTACCAGTTCCACAGCGTG -CCATCTTCCAGACGTGCGACTGGTAGATAAGCAGGTTCATAGGGATATTTCGCCGCCAGCTTTTCATCGA -ATTCGATACCAAGACCCGGTTTGTCTCCCGGATGCATATAGCCGTTATCGAAAGTCCAGTTGTGCGGGAA -GACTTCGAGCATTTGTTCGGAATAACCCATGTATTCCTGGACACCGAAATTGGGGACCCACAGATCAAAG -TGCAGCGCCGCAGCCATGCAGACTGGTGACAAATCGGAAGGACCGTGTGAGCCAGTACGTACCTGATACA -GCGAAGCAAAATCGGCAATCCGGCGCATACCGGTAATTCCGCCTGCATGGGTCAGCGTGGTGCGGATATA -ATCGATGAGTTGCTCTTCAATCAGTTGTTTGCAGTCCCAGATGCTGTTGAAGACTTCACCCACTGCGATG -GGTGTGACGGTATGTTGGCGAATGAGACGGAAGCATTCCTGGTTTTCCGCAGGCGTCGGGTCTTCCATCC -AGAACATGCGATAATCTTCAATGCTTTTACCAAAGCGCGCCGCTTCAATAGGCGTTAAGCGATGGTGCAT -GTCATGCAGCAAATGTTCATTAAAACCAAACTTGTTACGTACCGCGTCAAACAATTTCGGCATGAAATCG -AGGTATTTCTCCGTCGACCACAGCTGCTCTTCCGGCCACTGTCCTTTGGTTGCGGGTTCATAAGCCAGAC -CTTTACCTTTCGACATGCCGTAGGTGGTTTTCATACCAGGGATTCCGCACTGCACGCGGATGGCTTTGAA -TCCAAGCTCTTGATGACGGGCATAATCATCCAGAGCTTCATCAATACTGTGACCGGTGGTATGGCAATAA -ACCATCACCCCTTCACGAGACGCGCCGCCGAGTAACTGGTAAAGCGGCATGTTGGCAGCTTTGGCTTTAA -TATCCCACAGCGCCATATCAACCGCTGAAATGGCCGACATCGTAACCGGACCGCGACGCCAGTAAGCACC -TTTATAGAAAAACTGCCAGATATCTTCGATACGGTGCGCATCGCGACCAATAAGCTGCGGACAAAGGTGA -TCCTGCAAATAAGAGGCCACGGAAAGCTCACGTCCATTGAGGGTGGCATCCCCAAGGCCCGTAATACCGT -CCTCAGTGGTGATTTTTAATGTGACGAAATTACGCCCCGGACAGGTAACAAAAACTTCAGCCTTTACGAT -CTTCATGTTCGATTCCTTGCATCGCTTGTCGTGATGCATGAAATCTACGCAACTGAGCTACTACCATACA -AGTATAAAGATCGAAAAAAGCCGGAGTGATCACAAAAAAAGGCGTATATTTGCGCTGTGAATGGTTGACA -AAAGATGAAATAGAATACCTTTTGTCAGCTGACACTTCCTCTTATCTTATTGATAAAATGGATTTATGTT -CCTACGTGCGCCCCCAGCCCGCAACAATGATCAACATGCCGCAAAGCGCAATCAACGCACCCGTCCAGTC -ATAAAGAGTCAGTTTCACGCCATCCACAACGCGCAGCCACATCAACGCCGTGCAGACATAAACGCCACCA -TAAGCCGCGTAAACACGCCCACTCGCCGCTGGATGCAACGTTAACAACCAGACAAACAGCGCCAGTGAAA -TCCCCGCCGGAAGCAACAGCCAGATACTGGCGTTTCGTTTTAACCACAACCAGGGCAGAAAGCATCCAAT -AATTTCACACAGCGCAGTAGCAAAAAATAGTAACGTTGTTTTAATCATCTTTGTCTCTTATTGACATCAT -GTATAGTTATAGGGCGACATAATATCATCAATATAAACACCCTCCTGGTACGTTTTGCGTCCGCAGTGGA -TGGTGTAGAATCACCTTTAATCATTCATACAGGGAATGAATTATGAAAATCACTCTCAGCAAACGAATCG -GCCTGCTCGCTATTCTGCTGCCTTGCGCACTGGCATTGAGCACAACTGTTCATGCCGAAACTAACAAACT -GGTGATTGAGTCTGGCGACAGTGCACAAAGCCGCCAGCACGCCGCTATGGAAAAAGAGCAATGGAATGAC -ACGCGCAATCTGCGCCAGAAAGTGAATAAACGCACTGAAAAAGAGTGGGATAAAGCCGACGCCGCTTTTG -ATAACCGCGATAAATGTGAGCAAAGCGCCAACATCAATGCCTACTGGGAGCCCAATACTTTGCGCTGCCT -GGACCGTCGAACTGGCCGCGTTATTACCCCCTAACCTGTTATTGATTTAAGGAATGTAAGGACACGTTAT -GCCAAGCGCCCACAGTGTTAAGCTACGCCCGCTGGAGCGTGAAGATTTACGCTATGTACATCAACTCGAC -AATAACGCCAGTGTGATGCGTTACTGGTTTGAGGAACCCTACGAAGCCTTTGTTGAACTCTCTGATCTGT -ATGATAAGCATATTCACGATCAGAGCGAACGGCGCTTTGTGGTGGAATGTGACGGCGAAAAAGCCGGTCT -GGTGGAGCTGGTGGAAATTAACCATGTTCATCGCCGCGCAGAATTTCAGATAATTATCTCCCCGGAGTAT -CAGGGGAAAGGTCTGGCAACCCGTGCCGCCAAATTAGCAATGGACTATGGCTTTACCGTTCTCAATCTCT -ATAAGCTGTATCTGATCGTTGATAAAGAGAATGAAAAAGCGATTCACATTTACCGCAAGCTTGGCTTTTC -GGTTGAAGGTGAATTGATGCACGAGTTCTTTATTAATGGTCAATATCGTAATGCCATTCGCATGTGTATA -TTCCAGCATCAGTATCTGGCAGAGCACAAAACACCGGGTCAGACTCTCCTGAAGCCGACCGCACAATAGC -ATTAATAATAATCGATCGTATTTTTGATGGTGTAAACCCGTTCGACGGCGGGTTTTACTCCTTCATCAAC -AATGATTAGCTGACAGTCCACCGGATTAGCGTGACTGTCATATTCACAGCTCTGTTTTACATTACCAACC -CGTTGATTATTCAGTAAAGTAACCGCTGTGTAATCTAATTTTTTGATCGGATCCGTTGATGGCGTGGCGC -TGACAGATAATGTTTTGTCGTTACTTTTCGTGGTTTTACCCAGCGGATAACCCTGATCATCATAGCGATA -TTCCATCTGCATTTGTTTGCTGCTGGCTTTAATCACGAAGCCATTATCATCGGTTTCCCAACTCACCCCG -GCAGAAGGTAATTCTGCTAGCTGGCATTTTCCCTGTAAACGTACTCTCTTCTCCAGCGTCTCGGCATCAC -GGTAATAATTGGCGTCCAGTACCAGAGCGACCACGGTATTATTTTCCAGATCCAGTAATTCGAGTGAATC -AAAACAGCCTTCTTCCGACAAAGTCCCAGAAACACGTTTCGTCACTTCACCTTGCTCATCCATTAATGTC -TGAGTGAAATCTTTTACCGGACCACGCAGCGGATCAAAATCGAATTCATTAGAGAAACTGGCCATCTCAG -GGGTAAATGAAAGTGTTACCTCTGTGCGGTCACATCCTGTGAGGAATATCGCGAGTAAGCATGGTAGTAA -TTTGTATTTCACAACAGTCACCAGAGAGTAGAGATGATTCTCAATCATAGTAGCAAATACAGTACTTTAC -ACGTTAAATGCTATGCTTAAAGAAGTTATCTTCGCGTAAGGAGCTTATGATGAAACTCTCAACCTGCTGT -GCCGCGCTTCTGCTCGCCCTCGCCTCACCCGCGGTACTCGCCGCGCCGGGATCCTGTGAGCGCATACAGA -GCGATATATCACAGCGCATTATCAATAATGGCGTACCCGAAAGCAGCTTCACGTTAAGTATTGTACCCAA -TGACCAGGTTGATCAGCCTGATTCCCAGGTCGTCGGCCATTGCGCTAATGATACGCATAAAATTCTCTAT -ACCCGCACCACCAGCGGTAACGTCTCTGCTCCCGCGCAGTCTAGCCAGGATGGCGCGCCTGCCGAACCGC -AGTAACACATTATCGACTGAACGCCGGATATGACAAATCCGGCGATTTGAACATACAACATAATCCCACC -TTATTACTCATACCCTTCTATTGATATGGATTAATAATTCTTAACCCAAAATGGGTAGACTCCCTCTATT -GTTAGCGCGCTAAATATTCAATATATAAACTTTTATATAACGATAAAGAACAGGGAGTGAGTTATGTCCA -AAAATGAACGAATGGTGGGCATCAGCCGCAGAACACTCGTTAAATCTACCGCGATAGGTTCTCTGGCGCT -GGCTGCAGGCGGTTTTTCTTTGCCGTTTACCCTGCGCAATGCAGCAGCAGCGGTACAACAGGCCCGCGAA -AAAGTGGTCTGGGGTGCCTGTTCCGTCAACTGTGGTAGCCGCTGTGCACTTCGTCTACATGTTAAAGATA -ATGAAGTGACCTGGGTGGAAACTGACAATACCGGCAGCGATGAGTACGGCAACCATCAGGTACGCGCCTG -TTTGCGCGGTCGCTCCATCCGCCGGCGTATTAATCATCCCGATCGCTTGAATTACCCAATGAAACGCGTG -GGCAAACGCGGCGAAGGCAAATTCGAACGGATTAGCTGGGATGAAGCCCTGGATACTATCGCCAGTAGCC -TGAAGAAAACCGTCGAACAATATGGCAATGAGGCTGTATATATTCAGTACTCTTCGGGGATCGTTGGCGG -CAATATGACCCGCTCTTCGCCATCAGCCTCGGCGGTCAAACGCCTGATGAACTGCTACGGCGGTTCACTC -AACCAGTATGGCTCCTACAGCACTGCGCAAATTTCCTGTGCCATGCCCTACACCTACGGCAGTAATGATG -GCAACAGCACCACGGATATTGAAAACAGCAAGCTGGTCGTGATGTTTGGTAACAACCCGGCAGAAACCCG -CATGAGCGGTGGTGGCATCACTTATCTTCTTGAAAAAGCGCGCGAGAAATCGAACGCCAAAATGATTGTT -ATCGATCCGCGATATACCGATACGGCTGCCGGTCGTGAAGACGAATGGCTCCCTATTCGCCCGGGCACCG -ATGCCGCGCTGGTTGCGGGTATTGCCTGGGTATTGATTAACGAAAATCTCGTTGATCAACCTTTTCTCGA -TAAATACTGCGTCGGCTATGACGAAAAAACCTTACCCGCAGATGCACCCAAAAATGGTCACTATAAAGCC -TATATTCTTGGTGAAGGTGACGATAAAACAGCGAAAACGCCGCAGTGGGCTTCGCAAATTACCGGTATCC -CGGAGGACCGTATCATCAAACTGGCGCGTGAAATTGGCACAGCAAAACCCGCTTATATCTGCCAGGGCTG -GGGGCCACAACGCCAGGCAAACGGCGAACTGACTGCACGCGCTATTGCTATGTTACCTATTTTGACGGGC -AATGTCGGCATCAGCGGCGGAAATAGTGGCGCGCGTGAATCGACCTATACCATTACCATAGAACGCCTGC -CGGTGCTGGATAATCCGGTCAAAACGTCAATCTCCTGCTTCAGCTGGACAGATGCTATCGATCATGGTCC -GCAAATGACGGCAATCCGCGACGGCGTCCGCGGCAAAGATAAACTGGATGTGCCCATTAAGTTCATCTGG -AACTACGCGGGAAATACCCTCGTTAATCAGCATTCTGACATCAACAAAACGCATGAAATTCTGCAGGACG -AATCGAAATGCGAAATGATTGTGGTCATCGAAAACTTTATGACCTCATCGGCAAAATATGCCGACATTCT -GCTGCCAGACCTGATGACCGTTGAGCAGGAAGATATTATTCCTAACGACTACGCCGGTAACATGGGATAT -CTCATTTTCCTCCAGCCTGTCACCAGCGAAAAATTCGAACGCAAACCGATTTACTGGATCCTGAGTGAAG -TCGCGAAACGTCTTGGACCTGACGTCTATCAAAAGTTCACAGAAGGTCGCACGCAGGAACAATGGTTACA -ACATCTGTACGCCAAAATGCTTGCCAAAGATCCGGCGTTACCGTCTTACGACGAACTGAAAAAAATGGGT -ATCTATAAGCGTAAAGATCCCAATGGCCATTTTGTCGCCTACAAAGCATTTCGTGACGACCCCGAGGCAA -ATCCACTTAAAACGCCTTCCGGTAAGATTGAAATTTATTCCAGCAGGCTGGCGGAAATTGCCCGTACCTG -GGAACTGGAAAAAGATGAAGTGATAAGCCCATTGCCAGTTTATGCCTCAACCTTTGAAGGCTGGAACTCC -CCTGAACGTAGAACCTTCCCACTGCAACTGTTTGGTTTCCATTACAAATCCCGTACTCACTCGACCTACG -GCAATATTGATCTCCTGAAGGCTGCCTGCCGTCAGGAGGTGTGGATCAACCCTATAGATGCGCAGAAACG -TGGGATTGCCAACGGCGATATGGTGCGGGTGTTTAACCATCGTGGCGAAGTTCGGCTACCAGCCAAAGTA -ACACCACGTATTCTCCCTGGAGTTAGCGCTATGGGCCAGGGAGCCTGGCACGAGGCCAATATGTCTGGCG -ATAAAATCGACCATGGCGGCTGTGTGAATACGCTAACCACTCTGCGCCCTTCACCACTGGCGAAGGGAAA -CCCGCAGCACACTAATCTGGTCGAGATCGAAAAAATATAACCCACGACAACCATAAATTCTGGCATGACA -TTTTGTTTGAAAAGCAATAAGTGAGTAATGATGAAAATCCATACCACAGAGGCGCTCATGAAGGCTGAAA -TCAGCCGTAGAAGTCTGATGAAAACCTCCGCACTTGGCAGTCTTGCGCTGGCAAGCAGTGCTTTCACTCT -GCCATTTTCCCAAATGGTCCGGGCGGCAGAGGCTCCGGTAGAAGAGAAAGCGGTCTGGAGTTCCTGCACC -GTTAACTGCGGGAGCCGCTGTCTGTTACGTTTGCATGTGAAAGATGACACCGTGTACTGGGTGGAGTCTG -ATACGACAGGTGACGACGTCTACGGTAATCATCAGGTTCGAGCGTGTTTACGCGGGCGCTCTATCCGCCG -ACGGATGAATCATCCTGATAGGTTGAAATATCCCATGAAGCGCGTCGGCAAGCGCGGTGAAGGTAAATTT -GAACGGATAAGTTGGGACGAAGCCCTGGATACCATCAGTGATAATCTTCGGCGGATCCTGAAAGATTACG -GCAATGAGGCTGTACATGTCCTGTACGGAACAGGCGTAGATGGCGGAAACATCACCAACTCAAACGTCCC -GTACCGTCTGATGAACTCTTGCGGTGGTTTTCTCAGTCGCTATGGCAGCTACAGTACCGCACAGATCAGT -GCCGCAATGAGTTATATGTTCGGTGCCAATGATGGCAACAGCCCGGATGATATCGCCAATACGAAACTGG -TCGTTATGTTCGGAAATAACCCGGCAGAAACGCGGATGAGCGGCGGTGGTGTCACTTACTACGTCGAGCA -AGCCCGCGAACGTTCAAACGCACGCATGATCGTCATCGATCCACGTTATAACGACACTGCTGCCGGGCGT -GAAGATGAATGGCTGCCCATTCGCCCTGGCACCGATGGCGCACTGGCCTGTGCGATTGCCTGGGTACTGA -TTACTGAAAACATGGTCGATCAGCCATTTCTCGACAAATATTGTGTTGGTTACGATGAAAAAACGCTGCC -CGCCAACGCACCACGTAACGCGCATTATAAAGCCTATATTCTGGGCGAAGGGCCTGACGGCATAGCTAAA -ACGCCGGAATGGGCAGCAAAAATCACCAGCATCCCGGCAGAAAAAATTATCCAGTTGGCACGAGAGATCG -GTTCAGCAAAACCTGCTTATATTTGTCAGGGTTGGGGGCCACAACGACATTCCAACGGCGAGCAAACATC -CCGCGCTATTGCCATGCTTTCCGTTCTCACCGGCAACGTCGGCATAAACGGCGGCAACTCAGGCGTACGC -GAAGGTAGCTGGGATCTGGGGGTAGAATGGTTCCCGATGCTCGAGAATCCTGTTAAAACGCAGATTTCCG -TCTTTACATGGACAGATGCCATCGACCATGGTACGGAAATGACCGCGACCCGTGATGGTGTTCGTGGAAA -AGAAAAACTGGATGTCCCCATCAAGTTTTTATGGTGCTACGCCAGTAACACATTGATCAATCAACATGGC -GACATCAATCACACCCATGAGGTGCTTCAGGATGACAGCAAGTGCGAGATGATTGTTGGCATTGACCACT -TCATGACGGCCTCGGCTAAGTATTGCGATATCCTGTTGCCCGACCTGATGCCAACAGAGCAAGAAGACCT -TATCTCTCATGAATCTGCAGGGAATATGGGCTATGTGATCCTCGCCCAACCCGCAACCTCAGCAAAATTT -GAACGCAAACCCATCTACTGGATGCTGAGTGAAGTCGCCAAACGCTTAGGACCAGACGTTTATCAAACCT -TTACTGAAGGTCGCAGTCAGCATGAATGGATCAAATATCTCCATGCGAAAACGAAGGAACGTAACCCTGA -GATGCCCGACTACGAGGAGATGAAAACGACCGGGATCTTTAAGAAAAAATGCCCGGAAGAACACTACGTC -GCTTTCCGCGCATTCCGTGAAGATCCACAGGCAAACCCGTTGAAAACACCTTCGGGGAAAATCGAAATTT -ATTCTGAACGACTGGCGAAGATTGCAGATACCTGGGAATTGAAAAAAGATGAAATTATTCATCCCCTTCC -TGCGTATACCCCAGGTTTTGATGGCTGGGACGATCCCCTGCGGAAAACCTATCCACTGCAGTTAACGGGC -TTCCATTACAAAGCGCGTACCCACTCCAGCTACGGCAATATTGATGTGTTACAGCAGGCCTGCCCACAAG -AGGTGTGGATCAACCCCATTGATGCTCAGGCACGCGGTATCCGTCATGGCGATACCGTGCGGGTATTTAA -CAATAATGGAGAAATGCTGATTGCCGCAAAAGTGACTCCGCGTATTCTGCCTGGCGTTACCGCCATCGGG -CAAGGTGCGTGGCTTAAAGCGGATATGTTTGGTGACCGGGTCGATCACGGCGGCAGTATCAATATTCTGA -CCTCTCACCGCCCTTCACCGCTGGCAAAGGGAAACCCGTCGCACAGCAATCTTGTCCAGATCGAAAAGGT -TTAAGGAGTAGCCCATGACCACACAATATGGATTTTTTATCGATTCCAGCCGCTGTACTGGCTGTAAAAC -CTGCGAACTGGCGTGCAAAGATTTTAAAGATCTTGGCCCGGAAGTCAGTTTCCGCCGTATTTATGAATAC -GCTGGCGGCGACTGGCAGGAAGATAATGGCGTCTGGCACCAGAACGTGTTCGCTTATTATCTCTCCATCT -CCTGTAACCATTGCGATGACCCCGCATGTACAAAAGTCTGCCCCAGCGGCGCAATGCATAAGCGTGAAGA -TGGCTTTGTGGTGGTTGATGAAGATGTTTGTATCGGCTGCCGCTACTGCCACATGGCTTGTCCGTACGGC -GCGCCACAGTACAATGCTGAAAAAGGGCACATGACGAAGTGCGATGGTTGTTATTCGCGCGTCGCCGAGG -GGAAACAACCCATATGTGTCGAATCCTGCCCGCTGCGTGCACTTGAGTTCGGTCCAATTGAAGAGCTGCG -CCAGAAGCACGGCACTCTTGCTGCCGTCGCGCCACTGCCGCGCGCGCATTTCACAAAACCCAATATCGTT -ATCAAACCTAACGCCAACAGCCGCCCGACCGGCGATACCACTGGTTATCTGGCTAATCCGGAGGAAGTGT -AAAATGGGAAATGGATGGCATGAGTGGCCACTGGTTATCTTTACCGTATTGGGTCAATGCGTAGTAGGCG -CGCTGATTGTTAGCGGAATTGGCTGGTTCGCCGCCAAAAATGACGCAGACCGTCAGCGTATTGTCCGTGG -CATGTTTTTCCTCTGGCTGTTGATGGGCGTCGGGTTTATTGCCTCTGTCATGCACCTGGGATCGCCACTG -CGGGCGTTTAACTCCCTGAATCGAATCGGAGCTTCTGGTCTGAGTAACGAGATTGCTGCCGGTTCCATAT -TTTTTGCCGTTGGCGGATTATGGTGGCTGGTGGCAGTCATCGGTAAAATGCCGCAAGCGTTGGGGAAACT -CTGGTTACTTTTCAGCATGGCGCTCGGCGTCATTTTCGTCTGGATGATGACCTGCGTGTATCAAATCGAC -ACCGTGCCAACCTGGCATAACGGTTACACTACGCTGGCTTTCTTCCTGACGGTATTGTTGAGCGGTCCAA -TACTTGCTGCCGCAATTCTGCGGGCAGCTCGCGTTACATTTAATACCACACCATTTGCCATCATTAGCGT -TCTGGCGCTGATCGCTTGTGCCGGGGTGATTGTGCTGCAAGGTTTGTCTCTGGCGTCTATTCACTCATCC -GTGCAACAAGCCAGCGCACTGGTACCAGATTACGCCTCCTTACAGGTCTGGCGTGTGGTATTGTTATGCG -CAGGTCTTGGATGCTGGCTTTGCCCGCTCATTCGTCGCCGTGAACCTCACGTTGCCGGACTTATTCTGGG -GCTAATCCTCATACTTGGCGGTGAGATGATCGGGCGTGTGCTCTTTTATGGCCTGCACATGACAGTAGGA -ATGGCTATTGCAGGTTAACAAATTGGTGCGGGGCAACCCGCACATTTCAGGATGTTAGGAATGACCCATT -TTTCACAGCAAGATAATTTTTCTGTCGCGGCGCGCGTGTTGGGCGCGCTGTTTTATTACGCTCCAGAGAG -TGCGGAAGCCGCACCTCTGGTTGCGGTACTCACCAGTGACGGCTGGGAAACTCAGTGGCCTCTACCAGAA -GCGTCATTAGCGCCGCTGGTGACGGCTTTTCAGACACAGTGTGAAGAGACTCACGCCCAGGCCTGGCAGC -GTTTGTTTGTCGGCCCGTGGGCACTGCCGTCTCCGCCGTGGGGGTCGGTCTGGCTGGATCGCGAATCTGT -GCTGTTTGGCGATTCAACATTGGCACTTCGTCAGTGGATGCGCGAGAAAGGCATTCAGTTTGAAATGAAG -CAAAACGAACCGGAAGATCATTTTGGTTCACTGCTGTTGATGGCTGCGTGGTTGGCGGAGAATGGTCGCC -AGACAGAATGCGAAGAATTGCTGGCATGGCACCTTTTTCCGTGGTCAACACGTTTTCTTGATGTTTTTAT -CGAAAAAGCAGAACACCCTTTCTACCGTGCACTGGGTGAACTGGCTCGCTTAACGCTGGCGCAATGGCAA -TCACAACTGTTAATTCCTGTCGCGGTTAAACCGCTGTTTCGATAGGATCACCGTAATATTGCCGGATGGT -GACGATTACGCGCAATCCGGCAATAATAGGTTACAGTGTCACGTTTTTTTATCTCTTAAAGCACGCACTG -CTTTTGCGGCTGGCCTCTTTTGCCGCAAAATAGTCGCCCGTGTTTCATTGCCCATTTCTGCTCATGCATC -ATCTACACATCTATCCGGATCTGCGCACTATGTTCCACCGTCTGCTTATCGCAACAGTCGTCGGTATTCT -CGCGGCCTTTGCCGTTGCCGGGTTTCGTCATGCGATGCTGCTACTGGAGTGGTTGTTCCTCAATAATGAC -TCCGGCAGTCTGGTCAATGCAGCGACAAACCTTTCCCCCTGGCGACGGTTGCTAACTCCGGCGCTCGGCG -GACTGGCGGCGGGTTTGTTGCTGATGGGCTGGCAGAAATTTACCCAACAACGCCCTCATGCGCCGACCGA -TTATATGGAAGCGTTGCAAACCGATGGACAGTTCGATTACGCAGCAAGCCTGGTTAAATCGCTTGCCTCT -CTGCTGGTAGTAACCAGCGGCAGTGCAATTGGTCGCGAAGGTGCGATGATTCTTTTAGCTGCCCTTGCCG -CCTCCTGTTTTGCCCAACGTTTTACGCCACGCCAGGAGTGGAAATTATGGATCGCCTGTGGGGCCGCGGC -GGGAATGGCTGCGGCCTATCGTGCCCCGCTTGCTGGCAGTTTATTTATAGCCGAAGTGCTGTTTGGCACT -ATGATGTTGGCCTCTCTCGGCCCGGTGATTATTTCCGCCGTCGTGGCATTGCTGGTTAGCAATCTGATTA -ATCATAGCGACGCGTTACTCTACAACGTACAACTCTCAGTGACGGTTCAGGCTCGTGACTATGCGCTGAT -TATCAGTACAGGTGTGCTGGCAGGTCTGTGCGGACCACTGTTGTTAACGTTAATGAACGCCTGTCATCGT -GGATTTGTGAGTCTCAAACTTGCGCCGCCCTGGCAACTGGCACTAGGCGGGTTGATCGTGGGTCTGCTTT -CCCTGTTCACACCTGCAGTGTGGGGCAACGGCTATAGCACCGTACAATCCTTTTTAACCGCCCCACCACT -GTTAATGATCATTGCCGGGATCTTCCTTTGTAAACTGTGTGCCGTGCTGGCGAGTAGCGGTTCCGGCGCA -CCCGGTGGGGTCTTTACACCGACGCTATTTATCGGTCTTGCCATTGGCATGTTGTATGGTCGTAGCCTGG -GATTATGGTTCCCTGATGGCGAAGAAATTACACTTTTACTCGGATTGACCGGGATGGCGACACTGTTGGC -GGCGACCACGCACGCGCCGATTATGTCGACGTTGATGATATGTGAAATGACCGGGGAGTATCAGCTACTC -CCCGGTTTATTGATTGCCTGCGTAATTGCGTCGGTAATTTCGCGGACGTTACACCGTGACTCTATCTACC -GCCAGCACACTGCGCAGCATAGCTAAGCGGATGTATTGCCCCAGTTCACGCTGTTCGGCGCGCGGCAGAT -AAGGCAGTTCACCAATGAGCGGTGCCGGAAGTTTTTTACCCAGCACATCAATGATTTCCGCATAATGCGC -CAGTCCTGGGTTGATTCGGTTAGCCACCCAGCCAATGAGCGGCAGCCCGTCGTTGGCGATCGCCTGAGCT -GTTAGCAGTGCATGGTTAATGCAACCTTCCTGAATACCGACAACCATCAACACCGGCAGTTGTTCCTGCA -CTACCCATTCAGAGAGTGGACGCAAATCATTCATCAGACTGCGCCAGCCGCCAGTCCCTTCTACCACGAC -ATGATCGACTTTTTCGGTCAGGTTTGCCAGGCCGTTTGAAATGAGGGTGTAATTGATTGGGCAACTGTGC -GCCACGCTACTTTCTTCTTCGCTTAACGCGATAGGATTAACTGCTTCATAAGGCAGTTCGATGGTTGAAA -CACTCTGCAACACCAGGGCATCTTTATTACGCAGCCCTTCGGGTGTCTCTTTGCTCCCCTTCGCTACGGG -TTTATATCCCGCAACCGTTTTTCCCTGGGAGGCTAACGCTTGTAGCAATGCGCGGGAAACCACCGTTTTC -CCTACAGAAGTGTCTGTACCGGTAATAAAGAAACGCTTCAGCATCACTAACTCCACCGTTATGCTTCACA -AATATAAACCAGGAAAATAATTAACCTTGAAAGTCTAAGTTATGCTTTCCTGGCCCAAATTGAGATAGCG -CAAATTTTGGTAGAACAGTTAAAAAATGTTAACCCTGCAACAGACGAATCAACAAAGAACCGTTATACAT -CGCGTCTTTTACCAGTGCAGCGCCTGCCATCGTGCCCTGGTTAGAAAACTGAGTACTCTCAACGCTGATG -TGCTGACTATACGCAGGAAGGGCCTGCTGACGGATGCTGTCTGAGATGACCGGGAAGAGGATATCTGCCG -CTTTACTTAACGGTGAGCCAATCAGTATTTTTTGTGGGTTAAATAAATTCACCATGATGGCAAGAATGCG -CCCGACATGCGCGCCCACCCCGGTAATGATGTCTTTTGCCAGTAGATCGCCGCGCAATGCCGCCTGACAC -AATGAGTCCACGGTTAACGGTTGTCCATGTAACATCGAGCTCATGGATTGATTAAGACGCAGCTGTGCCA -GCTCAAGAATACTGTCCACGCTGGCGATGGTTTCGAGGCAGCCGTGATTCCCGCAATAACAGCGTTTCCC -ATACGGGTCGACCTGTGTGTGGCCTATTTCCACGAGACTACTGCTGCCTGCGTGTAGCAGATGACCATCG -GTAATGACGCCCGCCCCCACGTTGTGATCGATAACCACCTGAATCACATCGCGCGCCCCGCGTGAGGCAC -CAAACAAGGCCTCTGCCATCGTCCATGCGCTGATATCATGCTGAATATAAACCGGAACGCCGGTATGCTG -CTCCAGCGCCTCGCCGAGCGGCATCTCTTTTACATCCTCGTAGAACGGCATGCGATGTACAATACCATTT -TCCGTATCAATAATTCCCGGCAAGGTTATGGCAATCGAAGTTAGACGCTCAAGTTTTTTCTGGTGGCGGA -TAAAAAACTGATCGATATGGGAAATAATACGATCCAGCAATGGCAAGTCATCTTTTAACGCCAGTTCCTG -CGACTCTTCCACCACCAGTTTGCTGCTCAGATCGCGCAGAGCAAGGAAAATCTCCCCGCGACTAATGCGC -AGAGAAAGATAGTGCCAGGCTTCAGTTTCAACCACCAGCCCCACCGCCGGACGGCCACGGTTCCCCGCTT -CTTTGATTTCCAGCTCTTGCACCAGGTGTGCTTCGAGCATCTCACGGACAATTTTAGTGATACTGGCAGG -AGCCAGTTGCGCCAGACGGGAAAGATCGATACGCGAGACTGGACCAAGCTGATCAATCAGGCGATAAACC -GCGCCCGCGTTGGTCTGCTTTATTTGATCAATGTGCCCAGGCTGGTTTTCAGCAACCACCGCATACTCCC -TATATTTTCGCGCTCCGAAATAATCTGTAGGCTATGGTGAAGCACTTCAATACGTGTCGTCAAATTTTTA -CTTAGGCATGTGATTAACAGCACATTTTTCGGGCTTTTTCGCTGAAATTTCCCTCACCTGAGAGCATTCA -GCAGATGAATACGAAAGTTACGCGCAGCCGGACTTTGTTCATGATGTTTCGGCCAGACCAACCACATTTC -AGAAACCGCATCCTCTTCAGCAATCGGCACCCAGCGCATTTCGTTGAGCTGAACACGTTTAAATGACGCA -GGCAAAATTGAAACACCCAGACCGGCGGAAACCAGACCGATGATGGTCATTGCCTCGCCCACCTCCTGAG -TGATGACGGGCGTCAAATGGTAACGTCGCATCAGCCCGAGAATATCGTCATACAGCCCTGTCCCGACGTG -CGGATCAAAAAAGACAAAGGGTTCTTTCGCCAGTTCAGCCAGCGTTACATTCGGGTTATTTGCCAGGGGA -TGATCGTGCGGGATCATCGCCATAAGCGGTTCATGGACGATGACTGCGTGTTCAAGCGACTCCGGTAACG -CTGTGTTACGCAGCAATCCCATATCCAGCGTTCCTTCAATGAGCGGAGCGATTTGCTCGCGAGTGTTCAT -TTCGCGGGTTTGTAAATGGACATCAGGATAATCACGGCGAAACAGCGATAACGTATCGGACACCGCCCGA -ATAAAAGGAGCCGACGAAGTAAAACCAATGCGCAACTCCCCCGCTTCACCCTGATGCAGCCTTTCAGCGC -GAGCGGCAGCGTCATCCACCATAGACAGGATTTGCCGACTATCTGCAAGAAACTGTTTTCCTGCTGCCGT -CAGCAATACACTGCGATTGGTTCGTGCCAGCAGTCGGGCACCAATTTGTTGCTCCAGCGCCTGAATCTGC -TGACTTAGCGGCGGTTGCGAAATATTCAGGCGGGCAGCGGCGCGCCCGAAATGCAGCTCTTCCGCAACAG -CAACAAAGTAACGCAGATGACGAAGTTCAATATTCATATTTAAAACATCTTATTTGAGATTATTAATATA -TTAGACAGAACAATTCGATTTTCCTACCCTATGTATAAGCCTGATCTACAGGCATATTTAGCAAGGATTT -CAAGTGAGCCGTACTACAACTGTTGATGGCGCTCCGGCAAGCGACACTGACAAGCAAAGCATTTCTCAGC -CAAATCAATTTATTAAACGCGGTACGCCGCAATTTATGCGCGTCACCCTGGCGCTGTTCTCTGCCGGACT -GGCAACATTTGCACTTCTCTATTGTGTGCAGCCTATCCTTCCGGTGCTTTCGCAGGAGTTTGGCTTAACC -CCCGCGAACAGTAGTATTTCACTGTCCATTTCCACGGCGATGTTGGCTATTGGTTTGCTGTTTACTGGCC -CGCTATCCGATGCCATTGGTCGCAAACCAGTGATGGTCACGGCGCTACTGTTGGCCTCCATTTGTACGTT -ACTTTCGACAATGATGACCAGCTGGCACGGCATTTTGATTATGCGCGCCTTGATTGGGCTTTCGTTAAGT -GGCGTGGCAGCTGTTGGCATGACTTATCTTAGCGAGGAAATCCATCCCAGTTTCGTGGCCTTTTCAATGG -GGTTGTATATCAGCGGCAACTCAATTGGCGGCATGAGCGGACGCTTAATTAGCGGTGTCTTCACGGACTT -TTTCAACTGGCGAATTGCTCTGGCGGCAATCGGTTGTTTCGCGCTGGCCTCGGCGTTGATGTTCTGGAAA -ATCCTCCCTGAATCACGCCATTTTCGCCCGACTTCGCTGCGCCCTAAGACGTTGTTTATCAACTTTCGTC -TGCACTGGCGTGACCGGGGATTACCGTTATTGTTCGCAGAAGGCTTTTTGCTGATGGGGTCGTTCGTCAC -GCTGTTTAATTACATCGGCTATCGGTTGATGCTCTCCCCCTGGCATGTCAGTCAGGCCGTGGTTGGCTTA -TTATCGCTGGCTTATTTGACCGGTACATGGAGCTCACCCAAAGCCGGAACCATGACCACCCGCTATGGGC -GTGGTCCAGTGATGTTGTTTTCGACGGGGGTTATGCTGTTTGGTTTACTGATGACCTTATTCAGCTCGCT -GTGGCTGATCTTTGCCGGAATGTTACTCTTCTCAGCAGGATTCTTCGCAGCCCACTCAGTAGCCAGCAGC -TGGATCGGCCCCCGCGCAAAACGCGCTAAAGGCCAGGCCTCCTCGCTGTATCTGTTCAGTTACTATCTGG -GGTCGAGTATTGCCGGGACGCTGGGTGGTGTTTTCTGGCATAACTATGGCTGGAACGGCGTCGGCGCATT -TATTGCTCTGATGCTGGTCATTGCTCTGCTGGTCGGGACGCGTTTGCATCGTCGTCTGCACGCCTGAAAA -ATAAGTCCGGACTGCGGTAAATACCCGTCCGGACTTATTGCCAGCTCAAACCAACGTTAATAGCCATCCT -AAAATAGACGAAGCGCCAGCCAATTCCCGCAGCGCGTCTAGCGTCATCAGGATTATAAGTACCCAAATAA -ACGGATTCATTTTGCTGTGTGTCATTTATTACTGATGCGCAGTTATTCTACTGCTTTGTAAGTAGTAAAA -TAGTTAACCCGATCAAGACTACTATTATTGGTAGCTAAATTTCCCTTAAGTCACAATACGTTATTATCAA -CGCTGTAATTTATTCAGCGTTTGTACATATCGTTACACGCTGAAACCAACCACTCACGGAAGTCTGCCAT -TCCCAGGGATATAGTTATTTCAACGGCCCCGCAGTGGGGTTAAATGAAAAAACAAATTGAGGGTATGACA -ATGAAAAAAGTATTAGCTCTGGTTGTTGCCGCTGCTATGGGTCTGTCTTCTGCCGCCTTTGCTGCAGAGA -CTACGACCACACCTGCTCCGACTGCGACGACCACCAAAGCAGCGCCGGCGAAAACTACACATCATAAAAA -ACAGCATAAAGCAGCACCTGCCCAGAAAGCGCAGGCGGCTAAAAAGCATCATAAAAATACGAAAGCTGAA -CAGAAAGCCCCTGAACAAAAAGCGCAGGCAGCGAAGAAACACGCCAAGAAACACAGCCATCAGCAACCGG -CAAAACCTGCTGCACAACCCGCAGCGTAAGTTTTCAACAGTAATGCTGGCGCGCCCCCTCGCGCCTGAAA -ATTACGGTGCTAAGCGGGTAACGTTTAGCACCGCCTTTAGCGGAGGGTAGTATGGTGGGCCGTTATCGCT -TTGAGTTCATTCTGATCATCCTTATTTTATGCGCACTGATTACCGCCCGTTTTTATCTTTCCTGATTGTA -GTTATCTGATTTTACTCCCACTTTCATCCCGTCCCGTCTATAGTATTTATGAGGGTTTGCTTTTAATAAT -CATAATTACCCACCAGAGTGTGATATGCGTACAACCATTGCTGTAGTGTTGGGTGCAATTAGTTTGACGT -CTGCTTTTGTGTTTGCAGATAAACCAGACGTTGCCAGATCGGCAAACGATGAGGTCAGCACCCTGTTTTT -TGGTCATGATGATCGTGTGCCAGTGAATGACACGACCCAATCACCGTGGGATGCGGTTGGGCAACTGGAA -ACGGCCAGCGGCAATTTATGTACGGCGACGCTGATTGCACCCAATCTGGCATTAACGGCAGGACACTGTT -TATTGACACCTCCAAAGGGTAAAGCCGATAAAGCAGTGGCGCTGCGTTTTGTGTCAAATAAAGGTCTTTG -GCGCTATGAGATCCACGACATAGAAGGCCGCGTTGATCCGACACTGGGAAAGCGGTTAAAAGCAGATGGG -GATGGTTGGATTGTACCTCCCGCAGCCGCGCCGTGGGACTTCGGATTGATTGTGCTACGTAATCCCCCTT -CTGGCATTACGCCGTTGCCGTTATTTGAGGGAGATAAAGCCGCGCTTACCGCCGCATTAAAAGCGGCAGG -TCGTAAAGTGACTCAGGCAGGCTACCCTGAAGATCATCTCGATACGTTGTACAGTCATCAAAACTGTGAA -GTGACTGGCTGGGCGCAAACGTCGGTGATGTCACATCAGTGCGATACCTTGCCGGGTGACAGCGGTTCGC -CTCTGATGTTGCATACCGATGACGGCTGGCAATTAATTGGGGTGCAAAGTTCGGCTCCTGCCGCGAAAGA -TCGCTGGCGCGCCGATAACCGGGCCATTTCTGTTACCGGTTTTCGCGACAAGCTGGATCAACTGTCGCAA -AAATAATGTTCAAACGCTGCCCGACAGCGCGGGCAGCGTCTTCATCAGGCAAGTTTCACCATGATCATTC -CAGCCAACAGCAAGACCAGGCCAATCCAGCCTTTACGATTTAACCGTTGACCAAACAAGATCCAACCTGC -GGCTAACGTGGCGGCAATACCAAACCCGCCCCACAATGCATAAGCGACAGACAAGTCGATCCCTTTAACG -GCTTGAGAAAGCGCACTAAAGGCAGCCAGCACCGCCGCCAGGGAGAGCAAGCCAAATATTTTGCGACGAA -AGCCGTCAGAAAATTTCAAAAAGACGTTAGCAACGATTTCCAGCACGATTGCCAATGCCAGCCAGGCGGC -GTGAACCCATTCAAACTGCGCCATGGTTCACCTCCAGTTCAGGTTTACGCGCTTTACGGGTACCTGATTT -TATCAACACAATCCCGGCGACCAGGGTGGTTAACCCGGCAATTTTCATCAGCGATAAACTTTCGTCGAAT -AACAAAACGCTAAACAAGGTAATAAATAAAATACCGATACCTTCCCACAGCGCATAAGCTACGCCTAAGG -CGATTTTTTTAACGGCGAAAGAGAGAAATATATACGACAGAGAAATCATCACCAGCATTAAAATAAAGCC -GCCATTTCCCTCACTGACGCTCGCCCATTTCATTGACAGCGTACCGGTAATTTCTGTAGCAATAGCCAGA -CCTAATAAAATCCAATAAATATACATTGTCCTTCTCCTGCAAGAGAATTATTTTAATTTTCGCTTAATTC -AGCGAAACCAAAGTAAAGTGGTCAAGCCCCGCGCATAGCGCAAGCTTTGGCAGAAGAAAGGACTAAAGCG -CGTTGCGCCAGTGCTGCTCACCTACGAGCAAGATAGTGGATGAGGTACGAAGATGGGTAAATGTAGAAAA -TAACGTCCTGAACAAATTGTCCATAATATTACAATTATCCGCAGTGTTGCTTCTCGTCATCGCGGATGAT -AATTGTCCTCGGTAGTTGAACACGCCTGATTTGTATCATAGCTTAAGAATTAACTCAAAATATTTTCACT -TCTTTACCTGAGCGGTTTGATTTTCGTTATGATGACGGAGCGAAAAAGACATTATTATTAGCAAAGGAAG -AAAAAACGGGGACAAGCATGGCAAAGCCGATCATCACGCTCAATGGCCTAAAAATCGTCATTATGTTGGG -AATGCTGGTCATTATTCTCTGCGGTATCCGTTTTGCCGCCGAGATCATCGTGCCGTTTATTCTCGCATTA -TTTATTGCTGTTATTCTTAACCCGCTGGTGCAACACATGGTCCGCTGGCGTGTGCCGCGTGTACTGGCGG -TGTCGATTTTGATGACCATCATCGTGATGGCGATGGTGTTGCTATTAGCTTATCTGGGTTCCGCGCTCAA -CGAGTTGACGCGGACGTTACCGCAATATCGCAACTCTATTATGACGCCGCTGCAAGCGCTTGAACCGTTG -TTGCAACGCGTAGGGATTGACGTCTCAGTTGACCAGCTGGCGCATTATATTGATCCGAACGCGGCGATGA -CGTTGCTCACCAACTTATTGACGCAGTTATCTAATGCCATGTCATCAATATTTTTATTGCTGCTGACGGT -GCTGTTTATGCTGCTCGAAGTGCCACAATTGCCCGGAAAATTTCAGCAAATGATGGCGCGTCCGGTTGAA -GGGATGGCGGCGATTCAACGTGCGATTGACAGTGTTTCTCATTATCTGGTGCTGAAAACAGCCATCAGCA -TCATCACCGGCCTGGTCGCCTGGGCGATGCTCGCCGCACTCGATGTTCGCTTCGCTTTTGTCTGGGGATT -GCTGGCCTTTGCGCTTAATTACATCCCGAATATTGGTTCAGTCCTCGCGGCAATCCCCCCTATCGCTCAG -GTACTGGTGTTTAATGGCTTCTACGAAGCGTTGCTGGTGCTGGCGGGATATCTGCTGATTAATCTGGTCT -TCGGCAATATTCTGGAGCCGCGTATCATGGGGCGTGGGCTGGGGCTTTCCACATTGGTGGTATTTTTGTC -GTTGATTTTTTGGGGATGGTTGTTAGGACCGGTGGGTATGCTGCTTTCCGTGCCGTTGACAATTATTGTC -AAAATTGCGCTTGAACAAACAGCGGGAGGTCAAAGCATCGCCGTTCTGTTAAGCGATCTCAATAAAGAGT -GACGGCCTCAGCAGAGGCCGTCAGGGTTACAGAGCTTTCAGGATTGCATCCACGCTGGCTTTGGCGTCAC -CAAACAGCATGTGGGTGTTTTCCTTGAAGAACAGCGGGTTTTGCACACCAGCATAGCCAGTGTTCATCGA -ACGTTTAAAGACAATCACGTTCTGCGCTTTCCACACTTCCAGCACAGGCATACCAGCAATCGGACTCTTC -GGATCATCCTGCGCCGCCGGGTTAACCGTATCGTTAGCACCAATCACCAGTACGGTATCGGTATCAGCAA -AGTCATCATTGATCTCGTCCATTTCCAGCACGATGTCATACGGTACTTTTGCTTCAGCCAGCAATACGTT -CATATGTCCAGGCAAACGCCCCGCGACCGGGTGGATACCGAAACGCACATTAATACCACGAGCGCGCAAT -TTCTCAGTAATTTCAGCGACAGGATATTGCGCCTGCGCGACTGCCATGCCGTACCCCGGAGTAATGATCA -CTGAATGGGAGTTTTTCAGCAGTTCCGCTGTCTCTTCTGCGGTGATTTCGCGGTGCTCACCCACTTCCTG -ATCATCGCCAGTAGAAGAGCCGTCGGTGCCGAAACCACCCGCAATAACGCTGATAAAGGAACGGTTCATC -GCCTTACACATAATGTAAGAAAGGATAGCCCCCGAAGAACCGACCAGCGCACCGGTCACAATCAGCAGGT -CGTTGCTGAGCATAAAGCCCGCAGCCGCAGCCGCCCAGCCGGAGTACGAGTTCAGCATCGACACCACCAC -TGGCATATCTGCACCACCGATGGAGGCGACTAAATGCCAGCCGAATACCAGCGCAATTGCGGTCATTATC -AGCAATGCCAGCACTTGCAGGCCGACGCTGTCCGTGCGAACAAATACAATCAGCAGCAGGAAGGAAACGA -CCAGAGCCGCCAGGTTCATTTTGTGACGGTTTGGCAGCATCAATGGTTTAGACGAAATCTTGCCACACAG -TTTGCCGAACGCCACCACCGAACCCGTGAACGTTACCGCCCCGATGAAGATACCGAGGAACACTTCCGTC -AGGTGAATATTGACCAGAATCGGTGCCATTCCCGCGTCATGATGCAGATAGCTGTTAAAGCCAACCAGCA -CTGCCGCCAGACCCACGAAGCTATGCAGGATCGCCACCAGTTCTGGCATTTCGGTCATTTCAACTTTCTT -CGCCAGACGGATACCAATTGCCCCACCAATGACCATCGCCAGCAAGATCCAGCCAACATTACCCGTATCC -GGTCCAAAAATGGTTGCGATTAACGCAATCGCCATCCCGGCGATACCGAAGTTGTTACCCTGGCGAGACG -TTTCATGTTTCGAAAGACCGGCCAGACTGAAGATAAACAGGATCGCGGCAACAATGTATGCAGCTGTAAC -TAATCCTCCAGACATATGTTACCCCTTAATTTTTGCGGAACATTTTCAGCATGCGCTGAGTCACGGTGAA -GCCACCGAAAATATTAATGCTGGCTATAAGCACCGCGATAAAACTAAGGAAGCTAACCCAGCCGCCCTGG -CCAATCTGCAACAGTGCTCCGACAACAATAATCCCTGAAATCGCGTTGGTGACCGACATCAACGGTGTAT -GCAGCGCGTGCGATACATTCCACACCACGTAATAACCGACAACGCAGGCCAGCGCGAAAACGGTGAAGTG -CCCAAGGAATTCTTTCGGCGCAACGCTTGCCATCCAGCCAAAAAGAATGATTGCCAGCGCCATCAACGCG -TATTTACGCCACGGTGAGCAGGTACATTTTTCCTCAGTTTTCACTTCCGGTGCCGCTTTTTGTGCCGCCT -GCGGCTGAGCTGATACCTGAATCGGCGGTGCCGGCCAGGTAATTTCGCCCGCACGGATCACGGTCACGCC -GCGAATCACCACATCATCAAAATCAACAGTGATATTGCCGTCTTTCTCTTTGCACAACAGTTTCAGCAGA -TTAACGAGGTTTGTGCCGTAAAGCTGTGAGGATTGCGTCGGCAGACGGCCCGGAAGATCGGTATAACCAA -TCACTTTGACACCATTTTCCGTAGTGAAGATTTCACCCGGCACGGTGTATTCACAGTTGCCGCCGTTTTG -GGCTGCCAGGTCGACAATCACACTGCCCGCCTTCATGGAGTCAACCATTTCACGGGTAATTAGCTTCGGC -GCTGGTTTGCCTGGAATAAGCGCGGTGGTGACAATGATATCGACCTCTTTTGCCTGGGCGGCAAAGAGTT -CCATTTCCGCTTTGATGAACGCGTCCGACATCACTTTGGCATAGCCATCGCCGCTGCCAGCTTCCTCTTT -AAAATCCAGCTCGAGGAATTCCGCGCCCATACTTTGAACTTGTTCTTTCACTTCCGGGCGGGTGTCGAAT -GCACGCACAATCGCGCCGAGACTGTTTGCTGCGCCAATGGCGGCCAGACCTGCAACACCCGCACCAATCA -CCATCACTTTTGCCGGTGGCACTTTCCCGGCCGCAGTAATTTGCCCGGTAAAGAAGCGCCCAAATTCATG -TGCCGCTTCAACAATGGCGCGATAACCGGCGATGTTCGCCATCGAGCTTAGTGCGTCCAGCGATTGTGCG -CGTGAGATACGCGGCACAGAGTCCATCGCCATCACGGTCACGTTACGTTCCGCAAGTTTTTGCATTAATT -CCGGATTCTGCGCAGGCCAGATAAAACTCACCAGCGTTGTCCCAGGATTCAGTAACGCAATTTCATCATC -TAACGGCGCATTGACCTTCAGAATGATCTCTGACTGCCAGACGCTATTCCCTTCTACAATTTCAGCGCCC -GCTTGCACAAACGCTTTATCGTCAAAACTTGCCAGTTGACCCGCGCCGCTCTCTACCGCGACGGTAAAAC -CCAGTTTCAGCAGCTGTTCCACTGTTTTTGGCGTTGCTGCAACACGGGTTTCATTGGTTAACCGTTCTCT -TGGTATGCCAATTCGCATGATATTCCCTTCCATCGGTTTTATTGATGATGGTTTGCCTGTGTCAGGAGCC -ACACAAGCTGCTCATGTACGAGCTAAATGTTACTCCGTTAAAATAAATTAGTAACAAACGCCCTATAACG -TACTGAAAATTATGCCTGTGATCTAGCGCCAAAAATCAGTATTTCGGCGTGAACTCGCAAAATATTAACG -ATTCAGCCGTGATAGTGGGATAAACACCTTAGAACGCCGGATAAAGACTGATAATTGTCTTCGACGGTCG -GGTAAAACGAGACATCGCCCCGGCACGAATCACTACTTAACATTAAATTAACTTATACAATTCAGTTGCT -TCAGTAGTAATGATGCTGATACGGCTGTTTTTTAAGCATAGACGGTCATTTGAGCAGGATTAAAATTGGC -TTAAGGAATGTGATATGAAAAATGACGCAGACAGTTACACCGTTTAAATGCAATAATCAGCCACGTTTCT -CGTTAATAACAATACCAGTACCTGGTTTGCGCAAGGCGAAGGATTATTTTTATGAAGCTTAAGAACACCC -TCCTGGCGTCGGCACTGCTTTCTGCTATGGCATTCTCCGTTAACGCAGCAACAGAACTGACACCGGAGCA -AGCGGCAGCGGTTAAACCTTTTGACCGTGTAGTGGTTACCGGTCGTTTTAATGCTATTGGCGAAGCGGTG -AAAGCCGTTTCTCGTCGCGCAGATAAAGAAGGTGCCGCCTCTTTTTATGTTGTCGACACTTCTGATTTTG -GTAACAGCGGTAACTGGCGTGTGGTCGCTGACCTCTATAAAGCCGATGCTGAAAAAGCAGAAGAAACAAG -TAATCGCGTAATTAACGGTGTTGTCGAACTGCCGAAAGATCAGGCTGTTCTGATTGAACCGTTTGACACG -GTCACCGTCCAGGGCTTCTATCGTAGCCAGCCAGAAGTCAATGATGCCATCACCAAAGCGGCAAAAGCGA -AAGGTGCCTACTCTTTCTACATCGTTCGTCAAATCGATGCCAACCAGGGCGGCAACCAGCGTATTACTGC -ATTCATCTATAAAAAAGATGCTAAGAAACGTATCGTCCAGAGCCCGGATGTGATCCCGGCAGATTCCGAA -GCAGGACGTGCAGCTCTGGCTGCCGGTGGCGAAGCCGCGAAGAAAGTTGAGATCCCGGGTGTTGCGACTA -CCGCATCACCAAGTTCTGAAGTCGGTCGCTTCTTTGAAACCCAGTCATCAAAAGGCGGGCGTTACACCGT -CACGCTCCCGGATGGCACTAAAGTCGAAGAACTGAACAAAGCGACCGCAGCGATGATGGTCCCGTTCGAC -AGCATCAAATTCTCTGGCAACTACGGCAACATGACCGAAGTCTCCTATCAGGTTGCGAAACGTGCCGCGA -AGAAAGGTGCTAAGTATTACCACATCACCCGCCAGTGGCAGGAACGTGGTAATAACCTGACCGTCAGCGC -AGATCTGTATAAATAACTATTCAGTTACTCCTATAAGGCGGCTTGATGCCGCCTTTCGCATTTTTAGTCA -CAAATTTCCCCGCGACCATTGCATGCAGACACATCTCTTCGTAAAATCCCGCGCTTCAGTGGCAAACTCC -ATTTTTATGCGTTTTGCCCTAATATTTATTCTTCTTATCACGTTTTAATCACTGGATATCGATGGAAAAG -AAACTGGGACTGAGCGCACTCACCGCGCTGGTATTAAGCTCAATGCTGGGCGCGGGTGTTTTCAGTCTGC -CGCAAAATATGGCGGCAGTTGCCAGCCCGGCAGCACTGCTCATCGGCTGGGGTATTACTGGCGCTGGCAT -TTTATTGCTGGCCTTTGCCATGCTGATCCTCACGCGCATTCGTCCCGAACTTGACGGCGGTATCTTTACC -TATGCCCGCGAAGGGTTTGGCGAGCTAATCGGCTTTTGTTCCGCATGGGGATACTGGCTGTGCGCAGTCA -TCGCCAACGTCTCCTATCTGGTGATCGTTTTTTCCGCGTTAAGCTTTTTTACGGACACGCCGGAATTGCG -CCTGTTTGGCGATGGTAATACCTGGCAATCGATAGTCGGTGCATCGGCTTTATTGTGGATTGTTCACTTT -TTGATCCTGCGCGGGGTGCAAACCGCTGCCAGCATTAACCTGGTGGCGACACTGGCAAAATTGTTGCCGC -TGGGTCTGTTTGTTGTGCTGGCGATGATGATGTTCAAACTGGATACCTTCAAGCTCGACTTCACCGGACT -TGCACTTGGCGTACCCGTTTGGGAACAGGTGAAAAACACCATGCTGATCACCCTGTGGGTTTTCATTGGT -GTGGAAGGTGCCGTGGTTGTTTCTGCGCGTGCGCGTAATAAACGTGATGTTGGCAAAGCGACACTGCTGG -CGGTTCTCTCCGCTCTGGGCGTTTACTTGCTGGTAACGCTGCTTTCGCTGGGTGTGGTGGCACGTCCTGA -ACTGGCTGAAATTCGTAACCCGTCAATGGCCGGTCTGATGGTGGAAATGATGGGACCATGGGGCGAAATC -ATCATCGCTGCCGGTTTGATCGTTTCCGTTTGCGGCGCGTACTTAAGCTGGACCATCATGGCAGCAGAAG -TACCGTTCCTGGCCGCCACTCATAAAGCATTCCCGCGCATTTTTGCGCGCCAGAACGCACAAGCTGCGCC -ATCCGCCTCACTGTGGTTGACCAACATCTGCGTGCAAATTTGTCTGGTACTCATCTGGCTGACCGGTTCC -GATTACAACACGTTGCTGACCATCGCCTCAGAAATGATTCTGGTGCCCTATTTCCTGGTCGGCGCGTTCT -TGCTGAAAATCGCAACCCGTCCACTGCATAAAGCGGTAGGTGTCGGTGCCTGCATTTATGGCTTATGGTT -ATTGTACGCCTCTGGTCCAATGCACTTGCTGTTATCCGTTGTTCTGTATGCACCGGGGCTGCTGGTTTTC -CTGTACGCGCGCAAAACGCATACCCATGATAATGTACTGAACCGTCAGGAAATGGTGCTGATTGGCATGC -TGTTAATTGCCTCAGTTCCGGCGACCTGGATGCTGGTGGGATAACGTTCATCCCATCGTTGGATAGCAAA -GGAGATAACGATGGGTAAAACCCAGCCCTTGCCAATATTAATTACTGGCGGAGGTCGTCGCATCGGCCTC -GCCCTCGCATGGCATTTCATTAATCAAAAGCAACCGGTGATTGTCAGCTATCGGACACACTATCCAGCCA -TTGATGGACTGATTAATGCAGGTGCGCAGTGTATTCAGGCTGATTTTTCGACCAACGACGGTGTGATGGC -GTTTGCCGATGAAGTACTAAAAAGCACCCATGGTCTGCGTGCTATTTTGCATAACGCCAGTGCGTGGATG -GCGGAAAAACCGGGTGCGCCACTGGCCGACGTACTGGCTTGCATGATGCAGATCCACGTTAATACCCCAT -ACCTGCTCAACCATGCGCTGGAAAGATTACTGCGTGGGCACGGACACGCCGCCAGCGATATCATTCACTT -TACCGATTATGTGGTGGAGCGCGGTAGCGACAAACATATTGCGTATGCTGCAAGCAAAGCGGCACTGGAT -AATATGACCCGCTCGTTTGCCCGCAAGCTGGCACCGGAAGTGAAAGTGAATTCTATTGCGCCATCGCTGA -TCCTGTTTAATGAACATGATGATGCCGAATATCGACAACAGGCGCTGAATAAATCACTGATGAAAACCGC -GCCTGGCGAGAAAGAAGTGATCGACCTGGTCGATTACTTACTTACCAGTTGCTTTGTCACCGGACGCAGT -TTCCCACTTGATGGCGGTCGTCATCTGCGTTAATGCAGCTTTATCCAGCATATAATCAACACCCATGCGC -TTATCCCCCAACACGCAACAGAACCAACAAAAGCGGCGGGCAAGCGCATCATTCCGGTGAAATACCACAG -CGACACCAGGTAAACAAAATAGGGAATAATCGACCACATACTAAAAATGATGGTTGCGCGTAAGGCTTCA -ATGCCGCGTTCGCTGGCAACAATATAATGCGCGATAAGCGCAAAGGTCGGGAAAAGTGGAATCAGCCCGG -CGATATAATAATTTTTCGTTTTTGCTAAAACACCAATCAACAGCACTACCAGCGCACCGAGCGCGGCTTT -GATTACCAGCCCCATCTTTTTACCTTAACACTTCCATAACAAGTCATCAGTAGAATACCTGATGAAAACT -TGTTTAGAAACGATTGATAGTAAGTAAAAACAGCGCGGTGTATTGTGACGTTTTTATATCTACCGTGAAT -GTTATGAACACTATCGTATTTGTGGAAGATGATGCGGAAGTCGGTTCACTGATTGCCGCGTACCTGGCAA -AACATGATATGCAGGTTACCGTAGAGCCGCGCGGCGACCAGGCCGAAGAAACCATTTTGCGAGAAAATCC -GGATTTGGTGTTACTCGACATCATGCTACCAGGCAAGGACGGCATGACCATTTGTCGTGATTTACGCGCA -AAGTGGTCTGGACCGATTGTTCTTCTAACCTCTCTCGATAGCGATATGAACCACATCCTGGCACTGGAAA -TGGGTGCCTGCGACTATATTCTCAAAACGACGCCCCCTGCTGTTTTGCTAGCGCGTTTACGTTTGCATTT -GCGTCAGAATGAGCAAGCCACACTGACCAAAGGTCTTCAGGAAACGTCTCTGACTCCCTACAAAGCCCTG -CATTTCGGCACGTTGACCATCGATCCCATCAACCGCGTAGTCACCCTGGCTAACACTGAAATCTCGCTCT -CGACAGCTGATTTCGAATTATTGTGGGAATTAGCTACCCATGCCGGGCAAATCATGGACCGCGATGCATT -GCTGAAAAATTTACGCGGCGTCAGTTATGACGGACTGGATCGTAGCGTGGACGTGGCTATTTCGCGGTTA -AGAAAAAAACTGCTCGATAACGCCGCAGAACCTTATCGCATTAAAACTGTGCGTAACAAAGGCTATCTTT -TTGCGCCTCATGCATGGGAATAAGCGATGAAAAAACTGTTTATCCAGTTTTACCTGTTATTGTTTGTCTG -CTTCCTTGTGATGTCTCTGCTGGTTGGGCTGGTGTACAAATTTACCGCCGAACGCGCGGGCAAACAGTCG -CTGGATGATTTGATGAACAGTTCGCTGTATCTGATGCGCAGCGAATTGCGTGAGATCCCCCCACACGACT -GGGGTAAAACTCTGAAAGAGATGGATTTAAATCTCTCTTTCGATCTGCGTGTCGAGCCACTGAGTAAATA -CCATCTTGATGATATTTCCATGCACCGACTGCGTGGCGGCGAAATTGTCGCCCTGGACGATCAGTACACG -TTTTTGCAGCGTATCCCGCGCAGCCACTACGTGCTGGCAGTTGGTCCTGTTCCTTATCTTTATTATCTCC -ATCAGATGCGATTGCTGGATATCGCCCTGATCGCTTTTATTGCTATTTCCCTCGCCTTTCCGGTGTTTAT -CTGGATGCGTCCGCACTGGCAGGATATGTTAAAACTGGAAGCAGCGGCGCAACGATTTGGCGATGGGCAT -CTCAATGAACGTATCCACTTTGATGAGGGTTCGAGCTTTGAACGACTTGGCGTCGCATTTAACCAGATGG -CGGACAATATCAACGCCTTAATTGCCAGCAAAAAACAGCTTATTGACGGTATCGCTCACGAACTGCGAAC -ACCGTTAGTGCGCCTGCGTTATCGACTGGAGATGAGCGATAACCTGAGCGCCGCCGAATCCCAGGCGTTG -AATCGTGATATCAGTCAACTTGAAGCTTTAATTGAAGAGCTGCTGACTTATGCCCGACTCGATCGCCCAC -AAAACGAGCTTCATCTTAGCGAACCAGACCTGCCGTTGTGGCTGTCAACGCATCTGGCAGATATTCAGGC -AGTAACGCCCGATAAAACGGTACGGATAAAAACGCTCGTGCAAGGCCATTATGCGGCGTTGGATATGCGC -TTAATGGAGCGCGTGCTGGATAATTTGCTCAATAACGCCCTGCGGTACTGCCATTCAACGGTTGAAACCA -GCCTGCTACTGTCGGGGAATAGAGCGACATTAATTGTTGAGGATGATGGCCCAGGGATTGCCCCAGAAAA -CCGCGAACATATCTTTGAACCTTTTGTTCGCCTCGATCCCAGCCGGGATCGCTCAACCGGCGGCTGCGGG -CTGGGGCTGGCAATTGTCCACTCTATAGCACTGGCAATGGGCGGTACGGTTAATTGTGACACCAGCGAAC -TGGGTGGTGCCCGCTTCTCGTTTAGCTGGCCGTTATGGCATAACATCCCGCAATTTACCTCTGCCTGACA -CTACGCGCACGATGGTCAAGTCACCACGACTGTGCTATAAAATAAGTATGTTGTAACTAAAGTGGTTAAT -ATTATGGCGCGTTACGATCTCGTAGACCGACTCAACACTACCTTTCGCCAGATGGAACAAGAGCTGGCTA -TATTTGCCGCTCATCTTGAGCAACACAAGCTATTGGTTGCCCGCGTGTTCTCTTTGCCGGAGGTAAAAAA -AGAGGATGAGCATAATCCGCTTAATCGTATTGAGGTAAAACAACATCTCGGCAACGACGCGCAGTCGCTG -GCGTTGCGTCATTTCCGCCATTTATTTATTCAACAACAGTCCGAAAATCGCAGCAGCAAGGCCGCTGTCC -GTCTGCCTGGCGTGTTGTGTTACCAGGTCGATAACCTTTCGCAAGCAGCGTTGGTCAGTCATATTCAGCA -CATCAATAAACTCAAGACCACGTTCGAGCATATCGTCACGGTTGAATCAGAACTCCCCACCGCGGCACGT -TTTGAATGGGTGCATCGTCATTTGCCGGGGCTGATCACCCTTAATGCTTACCGCACGCTCACCGTTCTGC -ACGACCCCGCCACTTTACGCTTTGGTTGGGCTAATAAACATATCATTAAGAATTTACATCGTGATGAAGT -CCTGGCACAGCTGGAAAAAAGCCTGAAATCACCACGCAGTGTCGCACCGTGGACGCGCGAGGAGTGGCAA -AGAAAACTGGAGCGAGAGTATCAGGATATCGCTGCCCTGCCACAGAACGCGAAGTTAAAAATCAAACGTC -CGGTGAAGGTGCAGCCGATTGCCCGCGTCTGGTACAAAGGAGATCAAAAACAAGTCCAACACGCCTGCCC -TACACCACTGATTGCACTGATTAATCGGGATAATGGCGCGGGCGTGCCGGACGTTGGTGAGTTGTTAAAT -TACGATGCCGACAATGTGCAGCACCGTTATAAACCTCAGGCGCAGCCGCTTCGTTTGATCATTCCACGGC -TGCACCTGTATGTTGCAGATTAACGCCCGGCTTTCATACTGCCGACCATCTGTTCTGGCCGTACCCAGCT -GTCAAACTCGGCTTCGCTAAGATACCCCAGCGCAAGGGCCGCAGCTTTTAAGGTCAGCCCTTCTTTATGC -GCTTTTTTGGCGATCTCGGCGGCTTTGTCATAACCAATGTGGGTGTTAAGCGCAGTCACCAGCATCAGCG -ATTCATTGAGTAATTGATTGATTCGCTCACGATTCGGTTCAATACCCACTGCGCAGTGTTTGTTAAAACT -TTCCATGCCATCTGCCAGCAAGCGCACCGATTGCAGGAAATTGTGGATCACCATTGGACGGAAGACGTTC -AGTTCAAAGTTACCGGAAGCGCCCCCCATGTTGATCGCCACGTCGTTCCCCATCACCTGACAGCAGAGCA -TGGTTAATGCCTCACACTGTGTTGGGTTCACTTTCCCCGGCATGATTGAGCTGCCCGGCTCATTTTCCGG -GATTGAGATTTCACCAATTCCGCAGCGCGGGCCAGAGGCCAGCCAGCGGACATCATTGGCGATTTTCATC -AGTGACGCAGCCAACCCTTTCAACGCGCCGTGCGCCTGAACCAGGGCATCACAGGTCGCCAGCGCTTCAA -ATTTGTTCGGCGCGGTAACAAACGGTGCACAGGTAATGACTGCCAGTTCATCTGCTACGCGACGCGCATA -CTCCGGATGGGTATTTAGTCCAGTACCCACCGCTGTACCGCCAAGAGCCAGTTCCGCTACGTGAGGCAGG -CTGTATTCGATATGTTTGAGATTATGCTCGAGCATCGCTACCCAGCCGGAAATCTCCTGCCCCAGCGTTA -ACGGCGTGGCATCCTGCAAGTGAGTACGACCAATTTTGACGATATCGGCAAAAGCACGGGATTTCTCATT -CAGTGTCTGTGTCAGGGTTTTAAGCTGAGGAATGAGTTGCTTGCGCAGCGCCAGCAGCGCCGCAACGTGC -ATCGCCGTCGGAAAGACATCGTTGGAACTTTGGCTTTTGTTCACGTCGTCGTTAGGGTGAACTTTACGTT -CCATCCCGCGCACACCGCCGAGTAATTCACTGGCCCGGTTAGCCAGCACTTCGTTCATGTTCATGTTACT -TTGCGTGCCGGAGCCGGTCTGCCAGATAGCCAGCGGGAATTCGTCGTCATGCTGTCCTGCCAGTACTTCA -TCCGCCGCCTGACGAATGGCGCTCGCTTTCTCTTCAGACAACAAGCCTAAATCTTCATTAACTTTTGCCG -CTGCACGCTTGGTTAGCGCCAGCGCATGAATCAGTGAGGTGGGCATTTTCTCCGTCGAAATGCGGAAATG -CTCCAGCGAGCGTTGAGTTTGTGCGCCCCACAGCTTATCTGCCGGGACATCAATCGCCCCCATCGAATCT -TTTTCGCTGCGTACTGTATTCATGACCTGCTCCTCACCTGATTAATTTTTTCTTTCTGTTTTGCTTTCGT -TAAGCAACTTTTAGCTCACTTATTATTTACCATTTGATAACAAATGTTTGGTCTTTCGTGCCATGTAAAA -AAACCGCCCCGAAGGGCGGCTCTGTTTATTTCACACAGCGGGTGCATTGTGTGAGTTGTATCTGCTGGAA -GAAGTCATTTCCTTTATCATCCACAAGGATAAACGCCGGGAAATCTTCCACTTCAATTTTCCAGATGGCT -TCCATTCCCAGTTCCGGATATTCAACACATTCCAGGCTCTTAATACTTCCCTGCGCCAATACAGCGGCCG -GACCACCGATACTGCCAAGGTAGAAGCCGCCGTGTTTTTTACAGGCATCCGTCACCTGCTGGCTGCGGTT -GCCTTTCGCCAGCATGATCATACTTCCGCCCTGCGCTTGCAGTTGATCGACATAAGAATCCATCCGTCCG -GCGGTCGTTGGGCCAAGAGAACCGGAGGCATAACCTTCCGGCGTTTTGGCCGGACCCGCGTAGTAAATCG -GATGATCTTTGATGTACTGCGGCAGCCCTTCACCGTTATCCATCCGCTCTTTCAGTTTGGCGTGAGCAAT -ATCACGACCGACGATAATCGTGCCGTTAAGCGATAAGCGTGTAGAAACGGGATACTGCGACAACTGTGCG -AGGATCTCTTTCATCGGACGGTTAAGGTCAACGCGCACCGCTTCGCCTTCTCCCGCTTTGCGCAGCTCTT -CCGGGATATATTTGCCTGGATTATGTTCCAGTTTTTCGATCCAGATCCCCTGACGGTTGATCTTCGCTTT -GATATTACGGTCAGCAGAGCAGGAGACGCCCATACCGACCGGGCAGGATGCGCCGTGACGTGGCAGGCGA -ATCACGCGGATGTCGTGAGCGAAGTATTTACCACCAAACTGCGCACCCAGACCAAGATTTTGCGCTTCGA -TCAGCAATTCTTTTTCCAGTTCCACATCGCGGAACGCCTGACCGTGCTCATTCCCTTCCGTTGGCAGTTC -ATCATAGTATTTCGCGGAAGCCAGTTTCACCGTTTTAAGGTTCGTTTCTGCAGAAGTTCCACCAATAACG -AACGCAATATGATACGGAGGACAGGCCGCCGTACCCAGCGTGCGCATCTTCTCAACCAGGTAATTTTTCA -GTTTCCCCGGCGTCAGTAACGCTTTGGTTTCCTGATAGAGATACGTCTTGTTTGCCGAACCACCACCTTT -GGCGATACAGAGGAATTTGTATTCGTCGCCATCAACGGCATAAAGATCGATCTGCGCTGGCAGATTGGTG -CCGGTATTCACTTCTTTATACATATCCAGCGGCGCGTTTTGCGAGTAGCGCAGATTATCTTCGATATAAG -TGTTATAGACACCGCGCGCCAGCGCCGCTTCATCACCACCACCGGTCCATACACGCTGCCCTTTTTTACC -AACAATAATCGCGGTGCCGGTATCCTGACAGGTTGGCAGAACGCCTTTCGCCGCGATGTCGGAGTTACGC -AGGAATTGCAGCGCCACATATTTATCATTTTCGCTGGCCTCCGGGTCACGCAGAATGTCGGCCACCTGTT -GTTGGTGCGCCGGACGCAGCATGAACGACGCATCATGAAACGCCTGGCGCGCCAACAGAGTTAACGCTTC -GGGTGCGACTTTCAAAATCTCCTGCCCTTCAAATTCAGATACGCTAACGTGTTCGCTGGTTAGCAGGTAA -TACTCAGTATCATCTTTTTTGAGTGGAAAAGGAGCCTGATAATGAAAGGGTTTGTTTGACATTGTTCTCT -CACTTACTGCCTGGTTTGGTTATGCTCTGGGCGGGTGTTCCGTTGCCCTGTTAAAAGCGAGTAACAATAT -CCTACACACTTTTTTAACAAAAACTGAGACTAGTACGACTTTTTGCGGCTCCAGGTTACTTCCCGTAGGA -TTCTTGCTTTAATAGTGGGATTAATTTCCACATTAAAACAGGGATTGATCATGCAAAAACTCATTAACTC -AGTGCAAAACTATGCCTGGGGCAGCAAAACGGCGTTGACTGAACTTTATGGTATGGAAAATCCGTCCAGC -CAGCCGATGGCCGAGCTGTGGATGGGCGCACATCCGAAAAGCAGTTCACGAGTGCAGAATGCCGCCGGAG -ATATCGTTTCACTGCGTGATGTGATTGAGAGTGATAAATCGACTCTGCTCGGAGAGGCCGTTGCCAAACG -CTTTGGCGAACTGCCTTTCCTGTTCAAAGTATTATGCGCAGCACAGCCACTCTCCATTCAGGTTCATCCA -AACAAACACAATTCTGAAATCGGTTTTGCCAAAGAAAATGCCGCAGGTATCCCGATGGATGCCGCCGAGC -GTAACTATAAAGATCCTAACCACAAGCCGGAGCTGGTTTTTGCGCTGACGCCTTTCCTTGCGATGAACGC -GTTTCGTGAATTTTCCGAGATTGTCTCCCTACTCCAGCCGGTCGCAGGTGCACATCCGGCGATTGCTCAC -TTTTTACAACAGCCTGATGCCGAACGTTTAAGCGAACTGTTCGCCAGCCTGTTGAATATGCAGGGTGAAG -AAAAATCCCGCGCGCTGGCGATTTTAAAATCGGCCCTCGATAGCCAGCAGGGTGAACCGTGGCAAACGAT -TCGTTTAATTTCTGAATTTTACCCGGAAGACAGCGGTCTGTTCTCCCCGCTATTGCTGAATGTGGTGAAA -TTGAACCCTGGCGAAGCGATGTTCCTGTTCGCTGAAACACCGCACGCTTACCTGCAAGGCGTGGCGCTGG -AAGTGATGGCAAACTCCGATAACGTGCTGCGTGCGGGTCTGACGCCTAAATACATTGATATTCCGGAACT -GGTTGCCAATGTGAAATTCGAAGCCAAACCGGCTAACCAGTTGTTGACCCAGCCGGTGAAACAAGGTGCA -GAACTGGACTTCCCGATTCCAGTGGATGATTTTGCCTTCTCGCTGCATGACCTTAGTGATAAAGAAACCA -CCATTAGCCAGCAGAGTGCCGCCATTTTGTTCTGCGTCGAAGGCGATGCAACGTTGTGGAAAGGTTCTCA -GCAGTTACAGCTTAAACCGGGTGAATCAGCGTTTATTGCCGCCAACGAATCACCGGTGACTGTCAAAGGC -CACGGCCGTTTAGCGCGTGTTTACAACAAGCTGTAAGAGCTTACTGAAAAAATTAACATCTCTTGCTAAG -CTTATTAAAGGCTTATAACACCTTCAGGCGGCCAGTCCGCCTGATTTCATTTTATGGATAATCATTATGA -ATAAATCGCTGGTAGCGGTAGGCGTCATTGTTGCGCTAGGCGTAGTCTGGACAGGCGGCGCATGGTATAC -AGGCAAGAAGATTGAAACCCATCTCGAAGACATGGTCGCGCAGGCGAACGCGCAACTCAAACTGACAGCT -CCTGAATCCAACCTGGAAGTGAGTTATCAAAACTATCATCGCGGCGTATTCAGCAGCCAGTTGCAACTGT -TGGTGAAACCCATTGCCGGGAAAGAAAATCCGTGGATTAAAAGCGGTCAGAGCGTCATCTTCAACGAATC -GGTTGATCATGGTCCCTTCCCGCTTGCCCAGCTTAAAAAACTGAACCTGATCCCGTCGATGGCATCAATT -CAAACCACGCTGGTTAATAACGAAGTAAGCAAACCACTGTTTGATATGGCAAAAGGTGAAACGCCTTTTG -AGATTAACTCGCGCATTGGTTACAGCGGTGATTCCAGTTCCGATATTTCGCTCAAGCCACTGAATTACGA -GCAAAAGGATGAAAAAGTCGCCTTTAGCGGCGGCGAGTTCCAGTTAAATGCTGACAGAGACGGCAAAGCC -ATCTCCCTTTCCGGGGAGGCGCAAAGTGGTCGGATAGACGCAGTTAACGAATACAACCAGAAAGTGCAGT -TGACCTTTAATAATCTGAAAACCGACGGTTCCAGCACGCTGGCAAGTTTTGGTGAGCGTGTAGGAAATCA -AAAACTGTCACTGGAAAAAATGACCATTTCAGTGGAAGGCAAAGAACTGGCACTGCTGGAAGGCATGGAG -ATCAGCGGTAAATCGGATCTGGTCAATGACGGTAAAACGATCAATAGCCAACTGGATTACTCGCTAAACA -GCCTGAAGGTACAGAATCAGGATCTGGGCAGCGGCAAGCTGACTTTAAAAGTCGGCCAGATTGATGGTGA -AGCCTGGCATCAGTTTAGCCAGCAATATAACGCGCAAACTCAGGCGCTGCTGGCACAGCCAGAAATTGCC -AACAACCCCGAACTTTATCAGGAGAAAGTGACGGAAGCCTTCTTTAGCGCCCTGCCGCTGATGCTGAAAG -GCGATCCGGTGATTACTATCGCGCCGCTAAGCTGGAAAAACAGTCAGGGTGAAAGTGCCCTGAATCTGTC -GCTGTTCCTGAAAGATCCGGCAACGACTAAAGAAGCGCCGCAAACGCTGGCGCAGGAAGTAGATCGTTCG -GTTAAATCTCTGGATGCGAAACTGACCATTCCGGTGGATATGGCAACTGAGTTTATGACTCAGGTAGCGA -AGCTGGAAGGTTATCAGGAAGATCAAGCGAAAAAACTGGCGAAACAGCAAGTTGAAGGTGCATCAGCAAT -GGGGCAGATGTTCCGTCTGACCACCTTGCAGGACAATACCATCACCACCAGCCTGCAATATGCTAACGGT -CAGATAACGTTAAATGGGCAGAAAATGTCGTTAGAAGATTTTGTTGGCATGTTTGCGATGCCAGCTCTTA -ACGTTCCGGCTGTACCGGCAATTCCGCAGCAGTAATTCACGGCCAAAACGCCGGAGAATTTTCACTCCGG -CGTTTTCATCTGAAAACAAACCAGAGATTGCCTGATGCGCTACGCTTATCAGGCCTACCTTTTCCTGCAA -CACTTTGAATTTATGAGTTTTTGTAGGCTGGATAAGGCGTTTACGCCGCATCCGGCATAAAAAACGCGCA -CTTTGTCAACAATCTGAAACGCCGGAGATTTTTCTCTCCGGCGTTATTTTTTACTTCAGCATAAAGTCAT -ACTGAATACTCATTTTCACATCCCAGTAATTCAGGCGATCGCCCAGCGTACTGCCATCGCGCTTTTCCCG -CCCTTTATCGGCAGCAAGAAAGAAATTCATCCCTTGTAACGGCCCTTCGCTGACCCGATAGTTCATACCA -CCTAAGATACCCGTGCCTTCAATCCGCACATCTCGTTTACTGGATTCATAGCCGCGAGTCACAATCGGTG -CAAATGTCAGCGTAAATTGCGGCGTTAAACGATAGTTGACGCCCAATTGCCAGGACTGCATTCCTTCACG -GTTACGATCAAGACTTAATGAAAAGGGATAGCCAATGTCGGTATCCACCACGGCACCATTCATTGCATGG -CGCAAATAACCACCACTGCCAAATACACTTCCCCACGGCGCATTCCAGGTCAATTGTCCACTAACCAACG -CCGTTTCATTGGGCTGGCTGGTATTACGACTTAAACCTTCGAGCTGCGCGTAAAAGCCGAGCAACTCCCC -TTTCAACGTATAATTCGGGTCGAGCGGTATGCTTTTCTCGAGAATACTTTGTATCTGATTGGAAACATCT -TTCTGTACCGATGCCCCCAGAGAATAGCGACTGGTATCATCATGCCAACTGGCGGCTAAAAAAGAACGTG -CGCGATGTTTATCGTATTTTCCCGTCTGGCTGTTATACACCCCTTCATCACGAATACCGGTTGTTGAATC -AGTCCATAAAAATACTCGTGAACGCCACATTCCCCACAGATCAATATTTGGTGTTAAAGCCCAATAACCT -AATGCTCCTTCAGAAACTGTCGGTAATGTACGTTGCGAACTGCCAGCCATTAACGGAATACGATAAGGTA -AGCTACCATAACTATAATCCGTCCCGAAGCGACCTAATTTAAGCAGGCTATTTTCACTGGGTTTTATTTT -TACTGCCCCCAGGGCAAAGCCAAAACTTTTATCACCATCAAGATACCACCGGGTACTCATATCAGCACGA -GCACCTAATTTATAAACATAATACGCCCCGCCTTCAACGCCAATAATATTGGAATAATAACCACTATTGA -AATCGAGCAATCCTCCCTGTACCCATGCGTAAATATCTCTTCCCGCGCCAGCACTGGGCTTATCCGCCCT -GCGCAATTCGTTTTTCAGTCTGATGCGTAGTCCCGCTTCATCGTCAGCCAGTTGCGCCGCATAAGCAGAG -GTAAGGCCAGAGGCAGCCGTCAGGCAAATAACGGCCATGGCCACTATTTTTCTCATAGTTGCACCTTTGA -TGTTCTGATTATTTTTATTGAATATTAATTAGTGATATCGCTGATTAATTGCTGCTGCACTTTTTTACGA -TTATCAATTTCAACCACGATTTCTTTGAATTTTTTATCCGTGAGCGGATAAAACCAGATAATAACGAATG -CCAGTAGCATAAATCCGCAAGGTACTAAGGCAATTGATGTGCGGATGCCCATAATAACTTCCGGCGTTTG -CACCTGATTGGCGATATATCCGCTTAACCCCAAAATAAAGGCAGGAATTGAACCTCCGATTGCCTGACCG -CATTTACGGGTAAATGAGAATAGTGAATAGGTGAGCCCTTCAATTCGCACGCCGGTCAGGTATTCACCGT -ATTCTACGGTATCAGCTTCCAGCGCCCACATCACGGTCATGGTAACGCCCTGACCAATTGAAGCGATGGC -CAACGCAACCAACGCCACCGGCAGTGACCAGACGGAAACCCAGAAGAACAGCAGATAACCGCAGGTTCCC -AGCAAAGCGCCAATCAGGAAGGTATTCTTTTTACCGATCCTCGCGACCATCCCCGGCACCAGCGGTGCCG -ATGCCACAGTACCAACCAGGTTTTGCACCAGTACCAGCACAGTGAACAGCCCGGTATCATTTAACACATA -GCGCACGTAGAACAACGACGAGGCGCTGACCGCAAAGGTCGAAATCAGCACACACAGCGCACCGATGCAC -AACATAAACAGCGGGCGATTCCGTTTCAGGGTTTGCAGACTGATATTCAATGACGGCTGCGCAACGATAC -GTACCACATTCTCACGCGTCGATTTGAAGCAGATGAAGTAAAGCACCATTCCGGCAATCGCCAGCACAAT -TGTCCAGAAATGGTATACCGACACCATCTCTTCCGGGCTGGAGTTCTTAATGCTCGGTCCTATCAGAAAT -GCCAGGCAGACAAAGGTCAATGAAGCGGCAATCCCACGAGCCGCGCCCAGACGGGCGCGGGATTGTGGTT -GTTGGGTCATCGCGGTAGCAAGTGAACCATAAGGAATATTCACCAGGCTGTAGCAAAGCCCGAGGCCCAT -GTAGGTCAAATATGCATACACCACTTTGCTACCATGGCTCCAGTCGGTCAGCACCCAGAATACCAGCACG -CTGAAGATCATTAACGGCGCAGTACCGAAGAGTAAAAACGGGCGGAATTTTCCCCAGCGGGTATTCACAC -TGTCCACCACTCGTCCGGCAAAGACGTCGGCGAAGGCATCGAATACCCGCACCAGTAACAGCATGGTGCC -CGCCGCAGCGGCACCGACGCCAGCGACGTCGGTGTAGTAACTCAACAGGAAGAGCGCCCCCATTGCGAAG -GCGAAGTTATTGGCGACGTCACCGAGGCTGTAGCCGACGATGGTGCGCCAGGAGAGTTGTTGATTCATTG -TTTGCCTCCCTGCTGCGGTTTTTCACCGAAGTTCATGCCAGTCCAGCGTTTTTGCAGCAGAAAAGCCGCC -GACTTCGGTTTGCGGTCGCGAGTGAAGATCCCTTTCTTGTTACCGCCAACGCGCAATATGCCTTGCGAGG -TCGCAAAATCGGCGAAATTCCATACCTGTTCACCGACGACGGCGCTGACGCGATCAAAGACGCGGTGATA -CATATCCAGCCATGCACACTGATACTCTTCACTCCACATGTCGGTGTACATTGAGTGCAGCCCGGCTAAC -GTATCCACGCCGTATTCGGTGATGATAATCGGCTGATGCAGTTTCTCCTGCCAGGCCAGAAGTTCTTTTT -CCAGTACCTTCTCTGCCGTTTCCAAATCGCCGCTTTGGACATACCATCCGTAATAACGGTTCAGGCACAG -CACATCAAAGAGATCGCTGATGGTATCGGTGTGAGCGTCGCAGAACATTACATTGACGCAGGTGATCGGA -CGCGTCGGGTCGAGTTTACGCGTTGCTTCCGCCAGTGGCGCGAAATATTCCCGTGCACCTTGCGGACGGG -TATCCGGTTCGTTGGCAATACTCCACATCACCACGCTTGGGTGGTTTTTGTCACGCGCTATCAGCTCTTT -AATCGCCTGTAAGTGCGCTTGCTGAGTTTCCCCGTTGACTGCCTCTTCGCTGTACAGTTCTTTCGGCTTG -TTGCCCGCTTCGAAACCAATGCCTAAAGAGAGGTTAAAGCCGACAGCAGCAGTTTCATCAATCACCACGA -TGCCATGTTCATCTGCCCAGTCGAGCATCTCTTCAGCGTAAGGGTAATGCGAGGTACGGTAGGAGTTGGC -CCCAATCCAGTCCATTAATGCGTGGTCGTGCACCATCAGCACGTTATCGAATCCTTTGCCACGCAAGTCC -GCATCTTCATGACGACCAAAGCCAGTAAAGTAGAACGGTTTGTGGTTAATCAGGAACTGTTCGCCCTTCA -CTGCCACTGACCGGATGCCGACGCGAAGCGGGTAGATATCACACTCTGTCTGGCTTTTGGCTGTGACGCA -CAGTTCATAGAGATAACCTTCACCCGGTTGCCAGAGGTGCGGATTCACCACTTGCAAAGTCCCGCTAGTG -CCTTGTCCAGTTGCAACCACCTGTTGATCCGCATCACGCAGTTCAACGCTGACATCACCATTGGCCACCA -CCTGCCAGTCAACAGACGCGTGGTTACAGTCTTGCGCGACATGCGTCACCACGGTGATATCGTCCACCCA -GGTGTTCGGCGTGGTGTAGAGCATTACGCTGCGATGGATCCCGGCATAGTTAAAGAAATCATGGAAGTAA -GACTGCTTTTTCTTGCCGTTTTCGTCGGTAATCACCATTCCCGGCGGGATAGTCTGCCAGTTCAGTTCGT -TGTTCACACAAACGGTGATACGTACACTTTTCCCGGCAATAACATACGGCGTGACATCGGCTTCAAATGG -CGTATAGCCGCCCTGATGCTCCATCACTTCCTGATTATTGACCCACACTTTGCCGTAATGAGTGACCGCA -TCGAAACGCAGCACGATACGCTGGCCTGCCCAACCTTTCGGTATAAAGACTTCGCGCTGATACCAGACGT -TGCCCGCATAATTACGAATATCTGCATCGGCGAACTGATCGTTAAAACTGCCTGGCACAGCAATTGCCCG -GCTTTCTTGTAACGCGCTTTCCCACCAACGCTGATCAATTCCACAGTTTTCGCGATCCAGACTGAATGCC -CACAGGCCGTCGAGTTTTTTGATTTCACGGGTTGGGGTTTCTACAGGACGTAACATAAGGGACTCCTCAT -TAAGATAATAATACTGGTCAACCTTTAATCTGATTAGTTAACCAATTCTGTGTTGCACACAGTTATCTGT -GAGAAACCCATGGAAGAGAAATGGAAATAAAAAGAACTGACACCGCGATCAAAAAACCAAAAACTGCAAT -ACCCACAGCGTGATATAGATCGCATTAATCTTTAAAACAGCGTTGACAGAAGCCATAAAATAAGCAACCG -AACGTTCGTTCGAGCGTATTGGGAACGATAAACTCTCATGACATATGGCTACAGTGAATATTTTGGGGGG -AATTCTCCGAAGCCGGGAAGGATAATTTTTGCACAGAGAAATTACGATATGAAACGCGGGCACAGTTATC -ACCAGCCCGCCGAAAAAGAGAGAGAATCAGGATGCGGTTAAGATACCGCCAATCATCGCGCGTAATCCCT -GAGCAAACGACGCTTCACGCGCCAGGTCTTCCGCTTCGATATCGGCCAGTACACCGTAGGTCAGATCCAG -CAGTAAACGTGAAGTCATTGCCGTGTTGATGTCTGGGCTTATCTCGCCTTTTTGCTGGGCATCACGCATC -CGCTGGGCAACAAATTCCGTGATCGTCATATGCTTATTTTTAAGCATGGCGGCGACCTGTGGGTTACGCA -TCCCTTCCGCCATAATTTCAACCACCAGCGCCCGTTGTCCAAAGGCTTCATGGGTGAGAGAGACAATGGA -CTCGACCATATAGTCAACGAAATGAATCCCTTCAATCGGTTCCCGGAAACGGGCCAGCGCCCTCTCCTGG -TCCTGTAAGATAATCGCCTGAATCAAGGCTTCTTTGGAGATGAAATGGTGATAGAGCGTCCCGGGACTAA -TGGCGCAAGATTTACAGATGGCTTTCATCGAGGCACTGTGAAATCCATTTTCTGAAAAAATCTCTCTGGC -AGCATTGAGGATCCGGGTCCGTGTCGGTTGTGCTTCAGTCTGCATGTTATCCATCATTAAACCATTATAG -TTAGCGTGAATAACTAGTTTACCGCGTTGTCAGGTGAGCGCCTATCATTGCTGTTGAATAGTGCGAAGGC -ACACTCTATTCGTATACTTTTCACTCTGAAATTGGTTAACCAATAGCCGTGATTTGGCTGCCAGTTATTT -AGCAGAGACGTTGATGAGTTTATCCCGGTAAACAACACGCACGGTTGTTTACCGGTCCGTTAGTGTATTA -ATTGAGCTCCTGTACCCCACCACCGGAGACGGTGAGAATTTGTCCGCTTACCCAGCTCGCAGCAGGCGAG -CAAAGGAACAGCGCTGCGTTAGCAATATCTTGCGGTTGGCCCAGACGTCTGATCGGCGTGTGCTGTAACA -TTTTTTGTTCAATTTCTGGTGTAATAACGGATTTCAGGGCATCGGTTAATATTGCCCCCGGCGCAATGCC -ATTTACCCGAATATTTTTTTCACCCAGGTCAAACGCCATATTTCTGACCAGATGACTGGCCGCAGCTTTA -GATGATGCATAGGAAGTCATGTTTATATTTTTATTTTCTGCCGCCATAGAAGTGATGGTCAGAATAACGC -CACCGCCATTTTTTTCCATTTCTGGCGCAACAAGTTGTGACAGATGGAAAAAAGAAAACACATTCAGTTC -ATAAGCACGGCGAAAATCCGCCATTGGCATATCAAACGGTTTAGGTCCACCGCCACCGGCGTTGTTAACC -AGAATATCAACTTTACCCAGCTTACTGATAGCAAAGTCTGCCAGTGCAGAGAGTTCCTGTTCGGAAGTAA -TATCACAACGGCAGGCAAATGCCTGACCACCCAGTTGTTGAATTTCGTCTACAACATGGTTAGCTGCGTC -GGCGTTAATATCACTGACCACCACAGATGCGCCAGCTGTCGCGAATGTAATGGCGATTTCTTTACCAATA -CCTGCACCCGCACCTGTGATGATGGCGCATTTTCCGTCGAGTCTCAGGTTGTCAGAATTAAACACATAAA -CCTCCTGTGAACTTCAGTAAAAATAAAAGGCACCGCCTGTGTGCCACATTTTTTATCATTAACCTTGAGG -AAAGGACACTACCAGGTATAGCAGATAAAGAGAGGATTATTTCGCTGCAATGAGCCGGGCGGGAATAATA -AGATTGCGTGAATGCGTCTCTTCATGGGTGATTTTTTGCATCATGCGATCCGCAAGTGTGATACCAAGTT -CCCGCGCTGGCGTGCTGGCCCAGGTAACAGGTATATCATCAAGTGTGGTTGGTGTCGCATCGGTAAATGC -CGCCAGCGAAACCTGTTGCTCAAAGTAACGATCGACTCCGCTTTCCCCGCTTTGCCGCCCTGCTTTGAGC -AAACCAAACCATGCCCCCATCGCAATAGTTTCGTTATAGCAAACCACGGCACTGATGGTCGGGTTATGAC -GTAAAAGCGCCGTGATAGCTTCCGCGGCTTGCTTCTGGCTGGAAGTGCACTCCAACACCCAATCGCTATG -AAACGGCAGGCCAAATTTTAGTAGAGTTGCACAATAGCCCCCAACCCGTTCTGCACGGGTTAATGAGGAA -CTTTGCCCTCCCAGCCAGGCGATCCGCTGATGCCCATTGCGAATGAGATGCTCCGTCAACAACTGTGCAG -CCTGCATGTTGTCCGGGCGAACCGTATCAACATCATCAAGATAACTGGCACGGGAAGCGAAAATCACCGG -GATAGCTTTTTCTTCTGCCATCCGTCGCAGGTCATCGCTACTTCCTGCAGCTCCGGCAATTACCACACCA -TCGACACCCTGATTCAGTAACAGTGAAAACCGCTGTGCCAGCTGCTCACCGTCTTTACCGCCGTGAAGCA -AAAAAACCATCCGTCCCTGCGCTTCCAGAGCTTCCGTCAATCCGGCCGTCAATTCGGCGTAAAACGGCGC -AGATAAATCACGGACGATCAAACCAATGACGCCGCTTTGCCCGCCGCGCAGCGCCGACGCCTGGCGATTG -CGCACAAATCCCAGCTCTTCAATGGCGGCGTTAACGCGTTCTCCTGTGGCGGTAGAGATTCGCCCTTTGC -CACTAAGCACCAGCGAAACGGTACTTACCGACACGCCCGCAGCCAGCGCAACATCATGAATGGTTATTTT -TTTGGCGGTAGCCATGCAGATGACCTACTCCCTGATTATGTGACAGATAAAACGTTTTACCTTTTATTTA -TCTTATACCCGCTATTATCGTTGCGTAATGTGATTTATGCCTCACTAAAATTTGATAAAACGTTTTATCT -TCTCGCGCAATTTACTGAATCCAGATTGTTCTCTACGAGGAGTCGTTTTATGACGGCGAAAACAGCACCG -AAAGTCACGCTGTGGGAGTTCTTCCAGCAGTTAGGCAAAACCTTCATGTTACCCGTGGCATTATTGTCGT -TCTGCGGCATTATGCTCGGCATTGGTAGTTCTCTTAGCAGCCATGATGTCATAACCCTGATCCCGGTCCT -GGGCAACCCCGTGTTGCAGGCTATCTTTACCTGGATGAGTAAGATTGGCTCGTTTGCTTTTAGTTTCCTG -CCTGTCATGTTCTGTATCGCCATCCCGCTGGGCCTGGCACGCGAAAATAAAGGCGTAGCGGCATTCGCTG -GCTTCATCGGTTATGCGGTAATGAACCTCGCGGTAAACTTCTGGTTGACCAATAAAGGCATTCTGCCAAC -CACGGATGCCGCGGTTCTGAAAGCCAATAACATCCAGAGCATTCTTGGGATCCAGTCGATCGATACCGGG -ATCCTCGGTGCGGTGATCGCCGGTATTATCGTCTGGATGCTGCATGAGCGTTTCCATAATATCCGCCTGC -CGGATGCGCTGGCATTCTTCGGCGGTACGCGCTTCGTACCAATTATCTCCTCGCTGGTGATGGGCCTTGT -CGGCCTGGTGATTCCATTAGTCTGGCCGATTTTCGCCATGGGTATTAGCGGCTTGGGCCATATGATAAAC -AGCGCGGGTGATTTCGGACCGATGCTGTTTGGTACCGGTGAACGTCTGCTGTTGCCGTTTGGTCTGCATC -ACATTCTGGTGGCATTAATTCGCTTTACCGACGCAGGCGGCACGCAGGAAGTCTGCGGTCAAACCGTCAG -CGGCGCACTGACCATCTTCCAGGCGCAATTGAGTTGCCCGACCACTCACGGTTTTTCTGAAAGCGCCACG -CGTTTCCTTTCGCAAGGTAAAATGCCTGCGTTTCTCGGCGGTCTGCCAGGTGCAGCGTTAGCTATGTATC -ACTGCGCGCGCCCGGAAAATCGCCATAAAATTAAAGGTCTGCTGATTTCTGGCCTGATCGCCTGCGTCGT -TGGCGGCACTACCGAACCGCTGGAATTCCTGTTCCTGTTCGTAGCGCCAGTTCTGTATGTCATCCACGCG -CTGTTAACCGGCCTCGGCTTCACCGTCATGTCTGTGCTCGGCGTCACCATCGGTAATACCGACGGCAATA -TCATCGACTTCGTGGTGTTCGGTATTTTGCATGGTCTGTCAACCAAGTGGTACATGGTGCCAGTGGTGGC -GGCAATCTGGTTTGTCGTTTACTACGTCATCTTCCGTTTCGCTATCACCCGCTTCAATCTGAAAACCCCG -GGGCGCGATAGCGAAGTTGCCAGCTCAATCGAAAAAGCCGTTGCCGGTGCGCCGGGTAAATCAGGTTACA -ACGTTCCTGCAATCCTCGAAGCATTAGGCGGTGCCGACAATATTGTCAGCCTCGATAACTGCATTACCCG -TCTGCGTTTGTCTGTGAAAGATATGTCGCTTGTTAATGTGCAGGCACTGAAGGACAATCGGGCAATTGGC -GTAGTACAACTTAATCAACATAACCTGCAGGTTGTTATCGGGCCACAAGTTCAGTCAGTAAAAGATGAAA -TGGCCGGTCTGATGCATACTGTCCAGGCATAAGGATAAGATATGTTCGATTTTTCAAAGGTCGTGGATCG -TCATGGCACATGGTGTACACAGTGGGATTATGTCGCTGACCGTTTCGGCACTGCTGACCTGTTACCGTTC -ACGATTTCAGACATGGATTTTGCCACTGCCCCCTGCATTATCGAGGCGCTGAATCAGCGCCTGATGCACG -GCGTATTTGGCTACAGCCGCTGGAAAAACGATGAGTTTCTCGCGGCTATTGCCCACTGGTTTTCCACCCA -GCATTACACCGCCATCGATTCTCAGACGGTGGTGTATGGCCCTTCTGTCATCTATATGGTTTCAGAACTG -ATTCGTCAGTGGTCTGAAACAGGTGAAGGCGTGGTGATCCACACACCCGCCTATGACGCATTTTACAAGG -CCATTGAAGGTAACCAGCGCACAGTAATGCCCGTTGCTTTAGAGAAGCAGGCTGATGGTTGGTTTTGCGA -TATGGGCAAGTTGGAAGCCGTGTTGGCGAAACCAGAATGTAAAATTATGCTCCTGTGTAGCCCACAGAAT -CCTACCGGGAAAGTGTGGACGTGCGATGAGCTGGAGATCATGGCTGACCTGTGCGAGCGTCATGGTGTGC -GGGTTATTTCCGATGAAATCCATATGGATATGGTTTGGGGCGAGCAGCCGCATATTCCCTGGAGTAATGT -GGCTCGCGGAGACTGGGCGTTGCTAACGTCGGGCTCGAAAAGTTTCAATATTCCCGCCCTGACCGGTGCT -TACGGGATTATAGAAAATAGCAGTAGCCGCGATGCCTATTTATCGGCACTGAAAGGCCGTGATGGGCTTT -CTTCCCCTTCGGTACTGGCGTTAACTGCCCATATCGCCGCCTATCAGCAAGGCGCGCCGTGGCTGGATGC -CTTACGCATCTATCTGAAAGATAACCTGACGTATATCGCAGATAAAATGAACGCCGCGTTTCCTGAACTC -AACTGGCAGATCCCACAATCCACTTATCTGGCATGGCTTGATTTACGTCCGTTGAATATTGACGACAACG -CGTTGCAAAAAGCACTTATCGAACAAGAAAAAGTCGCGATCATGCCGGGGTATACCTACGGTGAAGAAGG -TCGTGGTTTTGTCCGTCTCAATGCCGGCTGCCCACGTTCGAAACTGGAAAAAGGTGTGGCTGGATTAATT -AACGCCATCCGCGCTGTTCGTTAACCCCAATTGCGCAACGTAAAAAATCGTTGCGCAATCGTGGATTTTT -ACCCTGCTTTGTTTTTATAATGGTGCGCACTTTTATATCCAGAAAAAGAGTGCGACCATGATTGATACCA -CCCTGCCATTAACTGATATCCATCGCCACCTTGATGGCAACATTCGTCCCCAGACCATTCTTGAACTTGG -CCGCCAGTATAATATCTCGCTTCCTGCACAATCCCTGGAAACACTGATTCCCCACGTTCAGGTCATTGCC -AACGAACCCGATCTGGTGAGCTTTCTGACCAAACTTGACTGGGGCGTTAAAGTTCTCGCCTCTCTTGATG -CCTGTCGCCGCGTGGCATTTGAAAACATTGAAGATGCAGCCCGTCACGGCCTGCACTATGTCGAGCTGCG -TTTTTCACCAGGCTACATGGCAATGGCACATCAGCTGCCTGTAGCGGGTGTTGTCGAAGCGGTGATCGAT -GGCGTACGTGAAGGTTGCCGCACCTTTGGTGTGCAGGCGAAGCTTATCGGCATTATGAGCCGGACCTTCG -GCGAAGCCGCCTGTCAGCAAGAGCTGGAGGCCTTTTTAGCCCACCGTGACCAGATTACCGCACTTGATTT -AGCCGGTGATGAACTTGGTTTCCCGGGAAGTCTGTTCCTTTCTCACTTCAACCGCGCGCGTGATGCGGGC -TGGCATATTACCGTCCATGCAGGCGAAGCTGCCGGGCCGGAAAGCATCTGGCAGGCGATTCGTGAACTGG -GTGCGGAGCGTATTGGACATGGCGTAAAAGCCATTGAAGATCGGGCGCTGATGGATTTTCTCGCCGAGCA -ACAAATTGGTATTGAATCCTGTCTGACCTCCAATATTCAGACCAGCACCGTAGCAGAGCTGGCTGCACAT -CCGCTGAAAACGTTCCTTGAGCATGGCATTCGTGCCAGCATTAACACTGACGATCCCGGCGTACAGGGAG -TGGATATCATTCACGAATATACCGTTGCCGCGCCAGCTGCTGGGTTATCCCGCGAGCAAATCCGCCAGGC -ACAGATTAATGGTCTGGAAATGGCTTTCCTCAGCGCTGAGGAAAAACGCGCACTGCGAGAAAAAGTCGCC -GCGAAGTAACAAAATGGATGGTGCAAATGCACCATCCATTTTTCATGCAAGGCACAAAGTCGCGCGATGT -TTGGCGGATTCGATGCCCAGCTCAATCAACTCCATTACCTGGATTGCCTGGCTTGCCGGAACCGGATTTT -CACCATCGCCATTTAACGCATCACGAATAGCCGCATAGTAAGCCGGATAATTCCCAGGCACCGTCAACAG -CGTTTCTTCGACACGTTCCTCACCTTCCACGCGGGTAAGTACGCCATCACGCATATCGTAGCCCCAGTCT -TCCTGCGGTAGACGCTCGCCATTTTTCAGACGTTCTTCCTGTGGATCGAGGCCATATTTCACATAACTGC -CTCGGGATCCATGCACGATATACCGTGCTGACTCAGCGGCTGCCAGCATGGTACCGTGTAAAATGACTCG -CCGCTGTGGATAGGACAAGATGGCGTGGAAATAATCGGTCGACTGCGCTCCGGGCCGTAACTGTGCCAAA -TCTACCGTCATGCTGACCGGTAAACCAAAAAGCGTAATGGCCTGATCAAGAAGATGTGGTGCTAAATCGT -ACCAGATACCGCTGCCTGGGCCGCCCTGTTCACGCCAACGATCGCGCACCTGCGGACGGAAGCGGTCAAA -ATGAGACTCAAAGTAAGCAACTTCACCCAGCACGCCTTCCGCGAGTAAACCTTTTAGCGTCAAGAAATCG -CTATCCCAGCGACGGTTATGGAATACAGACAGCACACGCCCCAGGCTTTTTGCCAGCGCATCCAGCTCTC -GCGCTTGTGACAGTGTCACGGTAAAGGGTTTATCAACGACCACATGTTTACCCGCCTCAAGCGCCGCTTT -GGCTAACGGGAAATGGGTATCGTTGGGTGTAGGAATGACAATCAGGTCTATGTTGGGATCGTTAAACAGA -TGCTTCGGCTCAGAGACAACCGTAACCGTTGGCCAGTCGGCTTTTACTTTTGTTTCATCACTGCTGGAGA -TTACCGCCAGTTCCTGCCCGGGCGTGCCCGCAATCAGGGGCGCATGGAAGGTTTTGCTCGCATAACCATA -CCCAATCAACCCAACACGGATGTTGTCGCTCATGTCATTGCCTCTCATTGAAGTATGATGGCTATTTGAC -ACTAAACCAGGAATTTATTATCTTGTTCGATGTTGTTGGTGATTGTCAGGGATAGTAAAGCGCGTTACTC -TTTTCAGAGCAGTTTTTCATCCCTGAATATTTGCCATCAGCGCATTCTTATTATTGTAATAACACAAGCG -TTCACTTTTGGTGAAATTTTATCATCACTAATAATACCTACCCCTTTGGTATTAATTATTTTATGGACCT -TTTATGACTGTTCAGGACTACTTATTAAAATTTCGCAAAATCAGTTCACTCGAAAGTCTGGAAAAACTCT -ACGACCATCTTAATTACACCCTGACGGACGATCAGGAACTGATCAATATGTATCGTGCTGCCGATCACCG -TCGCGCAGAGCTGGTTTCTGGCGGGCGTTTGTTTGACCTCGGCCAGGTACCGAAGTCCGTCTGGCACTAT -GTCCAATAAAGAAAGTAGCGATCGGTTATAAAAGCCTTATAATAACGCCCCTAAAATTAGATTTGCCTGT -TTGCGTCGCTATTCTGGAGAACCTATGACCACCACAACGCCACAACGTATTGGAGGCTGGTTGCTTGGCC -CGTTGGCCTGGCTTTTAGTCGCTCTGTTGAGTACGACGCTGGCGTTGTTGCTGTATACCGCTGCGTTATC -TTCTCCGCAAACATTTCAAACGCTCGGCGGACAAGCACTGACGACACAAATCTTATGGGGCGTTTCTTTT -ATTACCGCTATCGCCTTGTGGTATTACACACTGTGGTTGACCATCGCTTTCTTTAAACGTCGGCGTTGTG -TTCCTAAACACTATATTATCTGGCTGCTTATTTCCGTATTGCTGGCAGTAAAAGCATTCGCTTTTTCACC -CGTGGAAGATGGCATAGCCGTTCGCCAGTTGCTGTTTACTTTGTTGGCAACCGCATTGATCGTCCCCTAT -TTCAAACGCTCGTCGCGGGTAAAAGCGACGTTTGTGAATCCGTAATAACCTTACAGTTAACCTGTTGTCG -CCTGCTCTGGATTAACGGATAATAGGCGGCTTTTTTATTTCAGGCCGAAAAATGACTGACTACCTGTTAC -TGTTTGTCGGAACTGTACTGGTCAATAACTTTGTACTGGTCAAGTTTCTCGGTCTCTGTCCGTTTATGGG -GGTTTCCAAAAAACTGGAAACCGCGATGGGCATGGGGCTGGCAACAACGTTTGTGATGACGCTGGCGTCT -ATTTGCGCCTGGCTTATCGATACGTGGATTTTGATCCCACTTAATCTGATTTACCTGCGCACCCTGGCAT -TTATTCTGGTGATTGCTGTGGTCGTGCAGTTCACCGAGATGGTGGTGCGCAAAACCAGCCCGGTGCTTTA -CCGTCTGCTGGGGATTTTTTTGCCGCTTATCACCACCAACTGTGCAGTGCTCGGCGTGGCGTTGCTGAAT -ATCAATCTCGGGCACAATTTCTTGCAGTCGGCGCTGTACGGTTTTTCCGCCGCTGTCGGTTTCTCGCTGG -TGATGGTGCTCTTCGCCGCCATCCGCGAACGCCTTGCTGTGGCTGATGTCCCGGCACCTTTTCGCGGTAA -TGCCATTGCGTTAATTACCGCAGGTCTTATGTCTCTGGCCTTTATGGGCTTTAGTGGTTTGGTGAAGTTG -TAATGAATGCTATCTGGATTGCCGTTGCCGCCGTGAGCCTGCTGGGCCTGGCGTTTGGCGCCATTCTGGG -TTATGCCTCCCGCCGTTTTGCGGTGGAAGACGATCCGGTCGTTGAGAAAATTGACGAAATCTTACCGCAG -AGCCAGTGTGGTCAGTGCGGTTATCCCGGCTGTCGCCCCTACGCGGAAGCCATCAGCTGTAACGGTGAAA -AAATCAACCGTTGCGCCCCAGGTGGCGAAGCTGTGATGCTAAAAATTGCCGAGTTGCTTAATGTCGAGCC -GCAGCCGCTGGATGGCGAAGCGCAAGAGATAACGCCTGCGCGGATGGTGGCGGTTATTGATGAAAATAAC -TGTATTGGCTGCACTAAATGTATTCAGGCGTGTCCGGTAGACGCCATCGTTGGCGCTACCCGTGCCATGC -ATACGGTAATGAGTGATCTCTGTACGGGCTGCAATTTATGTGTTGATCCGTGCCCGACGCACTGCATCTC -GTTGCAACCGGTCGCAGAAACACCTGACTCCTGGAAATGGGATCTGAACACCATTCCCGTGCGTATCATT -CCCGTGGAACACCATGCTTAAGTTATTCTCTGCATTCAGAAAAAATAAAATCTGGGATTTCAACGGCGGC -ATCCATCCACCGGAGATGAAAACCCAGTCCAACGGTACACCCCTGCGCCAGGTACCCCTGGCGCAGCGTT -TTGTTATTCCACTGAAACAGCATATTGGCGCTGAAGGTGAGTTGTGCGTTAGCGTCGGCGATAAAGTATT -GCGCGGCCAGCCGCTTACCCGTGGTCGCGGCAAAATGCTGCCTGTTCACGCGCCCACCTCGGGTACCGTT -ACGGCTATTGCGCCCCACTCTACGGCTCATCCTTCAGCTTTAGCTGAATTAAGCGTGATTATTGATGCCG -ATGGTGAAGACTGCTGGATCCCGCGCGACGGCTGGGCCGATTATCGCACTCGCAGTCGCGAAGAGTTAAT -CGAGCGCATACATCAGTTTGGTGTTGCCGGGCTGGGCGGTGCAGGATTCCCGACAGGCGTTAAATTGCAG -GGTGGCGGAGATAAGATTGAAACGTTGATTATCAACGCGGCTGAGTGCGAGCCGTACATTACCGCCGATG -ACCGTTTGATGCAGGATTGCGCGGCTCAGGTCGTAGAGGGTATTCGCATTCTTGCGCATATTCTGCAGCC -ACGCGAAATTCTTATCGGCATTGAAGATAACAAACCGCAGGCGATTTCCATGCTGCGCGCGGTGCTGGCG -GACTCTAACGATATTTCTCTGCGGGTGATTCCAACCAAATATCCTTCTGGCGGTGCTAAACAATTAACCT -ACATTCTGACCGGGAAGCAGGTTCCACATGGCGGGCGTTCATCCGATATCGGCGTATTAATGCAAAACGT -CGGCACTGCTTATGCAGTGAAACGTGCCGTTATTGATGGCGAGCCGATTACCGAGCGTGTTGTAACCCTG -ACTGGCGAAGCAATCGCTCGCCCGGGCAACGTCTGGGCACGGCTGGGGACGCCAGTGCGTCATTTATTGA -ATGATGCCGGATTCTGCCCCTCTGCCGATCAAATGGTGATTATGGGTGGCCCGCTAATGGGCTTTACCTT -GCCATGGCTGGATGTCCCGGTCGTAAAGATTACCAACTGTCTGTTGGCTCCCTCTGCCAATGAACTTGGC -GAACCACAGGAAGAACAAAGCTGCATCCGGTGTAGCGCCTGTGCTGACGCCTGCCCTGCGGATCTTTTGC -CGCAACAGTTGTACTGGTTCAGCAAAGGTCAGCAACACGATAAAGCTACCACGCATAACATTGCTGATTG -CATTGAATGTGGGGCTTGCGCGTGGGTTTGCCCGAGCAATATTCCCCTGGTGCAATATTTCCGTCAGGAA -AAAGCTGAAATTGCGGCTATTCGTCAGGAAGAAAAGCGCGCCGCAGAAGCCAAAGCGCGTTTCGAAGCGC -GCCAGGCTCGTCTGGAGCGCGAAAAAGCGGCTCGCCTTGAACGACATAAGAGCGCAGCCGTTCAACCTGC -AGCCAAAGATAAAGATGCGATTGCTGCCGCTCTGGCGCGGGTGAAAGAGAAACAGGCCCAGGCTACACAG -CCTATTGTGATTAAAGCGGGCGAACGCCCGGATAACAGTGCAATTATTGCAGCACGGGAAGCCCGTAAAG -CGCAAGCCAGAGCGAAACAGGCAGAACTGCAGCAAACTAACGACGCAGCAACCGTTGCTGATCCACGTAA -AACTGCCGTTGAAGCAGCTATCGCCCGCGCCAAAGCGCGCAAGCTGGAACAGCAACAGGCTAATGCGGAA -CCAGAACAACAGGTCGATCCGCGCAAAGCCGCCGTCGAAGCCGCTATTGCCCGTGCCAAAGCGCGCAAGC -TGGAACAGCAACAGGCTAATGCGGAACCAGAAGAACAGGTCGATCCGCGCAAAGCCGCCGTCGAAGCCGC -TATTGCCCGTGCCAAAGCACGCAAGCTGGAACAGCAACAGGCTAATGCCGAGCCAGAACAACAGGTCGAT -CCGCGCAAAGCCGCCGTCGAAGCCGCTATTGCCCGAGCCAAAGCGCGCAAACGGGAACAGCAACCGGCTA -ATGCGGAGCCAGAAGAACAGGTTGATCCGCGCAAAGCTGCCGTCGAAGCGGCTATTGCACGCGCCAAAGC -ACGCAAGCTGGAACAGCAACAGGCTAATGCGGTACCAGAAGAACAGGTTGATCCGCGCAAAGCGGCAGTT -GCCGCGGCTATTGCCCGCGCTCAGGCCAAAAAAGCCGCCCAGCAGAAGGTTGTAAACGAGGACTAAATGG -TATTCAGAATAGCTAGCTCCCCTTATACCCATAACCAGCGCCAGACATCGCGCATTATGCTGTTGGTGTT -GCTCGCAGCCGTGCCAGGAATCGCAGCGCAACTGTGGTTTTTTGGTTGGGGTACTCTCGTTCAGATCCTG -TTGGCATCGGTTAGTGCTCTGTTAGCCGAAGCTCTCGTACTCAAACTACGCAAGCAGTCGGTAGCCGCAA -CGTTGAAAGATAACTCAGCATTGCTGACAGGCTTATTGCTGGCGGTAAGTATTCCCCCCCTCGCGCCATG -GTGGATGGTCGTGCTGGGTACGGTGTTTGCGGTGATCATCGCTAAACAGTTGTATGGCGGTCTGGGACAA -AACCCGTTTAATCCGGCAATGATTGGTTATGTGGTCTTACTGATCTCCTTCCCCGTGCAGATGACCAGCT -GGTTACCGCCACATGAAATTGCGGTCAACATCCCTGGTTTTATCGACGCCATCCAGGTTATTTTTAGCGG -TCATACCGCCAGTGGTGGTGATATGAACACACTACGCTTAGGTATTGATGGCATTAGTCAGGCGACACCG -CTGGATACATTTAAAACCTCTGTCCGTGCCGGTCATTCGGTTGAACAGATTATGCAATATCCGATCTACA -GCGGTATTCTGGCGGGCGCTGGTTGGCAATGGGTAAATCTCGCCTGGCTGGCTGGCGGCGTATGGTTGCT -ATGGCAGAAAGCGATTCGCTGGCATATTCCCCTCAGCTTCTTAGTAACGCTGGCGTTATGCGCAATGTTG -GGCTGGTTGTTCTCACCAGAAACACTGGCAGCACCGCAAATTCATCTGCTGTCTGGAGCGACCATGCTCG -GCGCATTCTTTATTTTGACTGACCCGGTTACCGCTTCTACGACCAATCGTGGTCGTCTTATTTTCGGCGC -GCTTGCGGGCTTATTAGTCTGGTTGATCCGCAGTTTCGGCGGCTATCCTGACGGCGTGGCTTTTGCCGTC -CTGCTGGCGAACATCACGGTTCCTCTGATCGATTACTACACGCGTCCGCGCGTCTACGGCCATCGCAAAG -GGTAAACCATGCTGAAAACTATCCGAAAACACGGCATTACGTTGGCGCTATTTGCAGCGGGTTCAACAGG -GTTAACTGCGGCCATCAACCAGATGACCAAAACGACGATTGCTGAACAGGCCAGTCTGCAACAAAAGGCG -TTATTTGATCAGGTGCTGCCAGCCGAACGCTATAACAATGCGCTGGCACAGAGTTGCTATCTGGTAACTG -CGCCAGAGTTAGGTAAAGGTGAGCATCGGGTTTACATCGCCAAACAGGATGACAAACCGGTAGCCGCCGT -TCTGGAAGCAACCGCGCCAGATGGCTATTCCGGTGCGATTCAGCTGCTGGTGGGAGCCGATTTTAACGGC -ACGGTACTTGGCACGCGCGTGACAGAGCACCACGAAACGCCAGGGCTTGGCGATAAAATCGAACTGCGCC -TTTCTGACTGGATCACCCATTTTGCGGGTAAAAAAATCAGTGGTGCAGATGATGCGCACTGGGCGGTGAA -GAAAGATGGTGGTGATTTCGACCAGTTCACCGGCGCGACGATTACTCCCCGCGCGGTGGTTAATGCGGTA -AAACGCGCCGGATTGTACGCTCAGACGTTACCGGCACAACTTTCTCAACTTCCTGCCTGTGGAGAATAAA -GCGTGAGCGAAATTAAAGACGTTATTGTTCAGGGGTTGTGGAAAAACAACTCTGCGCTGGTCCAGTTGCT -CGGCCTTTGTCCTCTGTTGGCGGTCACGTCCACTGCCACTAACGCTCTGGGTTTAGGACTTGCGACTACG -CTGGTACTGACGCTGACCAACCTGACCATTTCGACGCTGCGTCACTGGACGCCAGCCGAGATCCGCATTC -CCATTTACGTGATGATCATCGCCTCGGTGGTCAGCGCTGTACAGATGCTGATCAACGCCTACGCCTTTGG -CCTGTATCAATCATTAGGGATTTTTATTCCGCTGATTGTCACTAACTGTATCGTTGTGGGCCGCGCTGAA -GCCTTCGCCGCCAAAAAAGGTCCGGCGCTTTCGGCACTGGACGGCTTTTCAATTGGTATGGGCGCAACCT -GCGCCATGTTCGTGCTGGGTTCACTACGCGAAATTATCGGCAATGGCACATTGTTTGACGGTGCAGATGC -GCTGTTAGGTAGCTGGGCAAAAGTATTACGCGTGGAGATTTTCCACACCGACTCCCCTTTCCTGCTGGCG -ATGCTGCCACCAGGTGCATTTATTGGCCTGGGACTGATGCTGGCAGGAAAATACCTGATTGATGAAAGAA -TGAAAAAGCGCCGTGCTGAAGCAGCTGCAGAACGTGCATTGCCAAACGGTGAAACAGGGAATGTCTGATG -AATAAAGCAAAACGCCTGGAGATCCTCACTCGCCTGCGTGAGAACAATCCTCATCCCACCACCGAGCTTA -ATTTCAGTTCGCCTTTTGAATTGCTGATTGCCGTACTGCTTTCCGCTCAGGCGACCGATGTCAGTGTTAA -TAAGGCGACGGCGAAACTCTACCCGGTGGCGAATACGCCTGCAGCGATGCTTGAACTGGGCGTTGAAGGG -GTGAAAACCTATATCAAAACGATTGGGCTTTATAACAGCAAAGCAGAAAATATCATCAAAACCTGCCGTA -TCTTGCTGGAGCAGCATAATGGCGAGGTTCCGGAAGATCGTGCTGCGCTTGAAGCCCTGCCCGGCGTAGG -TCGTAAAACAGCCAACGTCGTATTAAACACTGCATTCGGCTGGCCGACTATTGCTGTCGACACGCACATT -TTCCGCGTTTGTAATCGTACTCAATTTGCGCCGGGGAAAAACGTCGAACAGGTAGAAGAAAAGCTACTGA -AAGTGGTTCCAGCAGAGTTTAAAGTCGACTGCCACCATTGGTTGATCCTGCACGGGCGTTATACCTGCAT -TGCCCGCAAGCCCCGCTGTGGCTCTTGTATTATTGAAGATCTTTGTGAATACAAAGAGAAAGTTGACATC -TGAAGAAAAGGGGTAACACCGATTACCCCATTGATAACCTTTCTTTATCCTCTTTTAAAACATCTTTTTA -ACGTCAATGATGCCATTGCTTAGCGTTATCATCAGGTAATCCGTTTGCGGATAACCAAAAATGCAGGTTA -ATTGTTTTTTTAATAGCGAAATTTTCTATTCATTCGTGATCAAGATCACGATGCTGTCGCAATGTAAAAA -CATTGCAAGAATCAGGTTAAAATCATTTAAATTTACACACGCAACAAATATTGACCTACAAAACATTACA -CTGGCTATTTTTCAGAAACTGGACTATCTCACTAGTAAAAACGCTAAATAGCAGAACATATCGCCGTTAA -GCCATCACCCCCCTCTCAGTGCAGTGAAAAAATCTGCCGTTACGTTTTTTGAAAAATTTAACGCTGGATA -ACATTTCCCGGAATGGTTGAATTCCCCGCCTCAGTTATATGTAACAGATTATTACAAAGGACTTGTCTGA -AAGTGCAAGATAGTGAACATTACCTGCCGTTTCCCCTCCCACTATAACAATTGCGCGTATGTTTTTTATA -CATAACGCGAGAAAGCACCCCCGTTAATATGGGATGTAAAAAAAGAGGTAAAAGTGTCCACTGCAAACCA -AAAACCAACTGAAAGCGTCAGTTTGAACGCTTTCAAACAACCGAAGGCGTTCTATCTCATCTTCTCGATT -GAGTTATGGGAACGTTTTGGTTATTACGGCCTACAAGGAATTATGGCTGTTTACCTGGTTAAACAACTGG -GTATGTCTGAAGCGGATTCAATCACCCTTTTCTCTTCCTTTAGTGCCCTGGTTTATGGTCTGGTCGCTAT -CGGCGGCTGGTTAGGTGACAAGGTACTGGGTACTAAACGCGTAATTATGCTCGGCGCTATTGTGCTGGCG -ATTGGTTATGCTCTGGTTGCCTGGTCTGGTCACGACGCCGGTATCGTTTATATGGGTATGGCGGCTATTG -CGGTCGGTAACGGCCTGTTTAAAGCTAACCCGTCTTCTCTGCTTTCTACATGCTATGAGAAAAACGACCC -GCGTCTGGACGGTGCATTCACCATGTACTACATGTCCGTCAACATCGGCTCTTTCTTCTCTATGATTGCT -ACGCCGTGGCTGGCCGCGAAATACGGCTGGAGTGTTGCGTTTGCGTTGAGCGTTGTAGGCCTGCTGATCA -CTATCGTTAACTTCGCCTTCTGCCAACGCTGGGTTAAACAGTACGGTTCAAAACCAGACTTCGAGCCTAT -CAACTACCGTAACCTGCTGCTGACCATTATTGGTGTTGTGGCACTGATCGCTATCGCCACCTGGCTGCTG -CACAATCAGGAAGTTGCGCGTATGGCGCTGGGCGTTGTTGCCTTCGGTATCGTGGTTATCTTCGGTAAAG -AAGCCTTCGCGATGAAAGGTGCTGCGCGTCGTAAAATGATCGTTGCCTTCATCCTGATGCTCGAAGCCAT -TATCTTCTTCGTGCTGTACAGCCAGATGCCAACGTCACTGAACTTCTTTGCGATTCGTAACGTTGAGCAC -TCCATTCTGGGTCTGGCCGTAGAACCTGAGCAGTATCAGGCACTGAACCCGTTCTGGATCATCATCGGTA -GTCCGATTCTGGCCGCTATCTATAACAAGATGGGCGATACCCTGCCGATGCCAACCAAGTTTGCAATCGG -CATGGTGATGTGTTCTGGTGCGTTCCTGATTCTGCCGCTGGGTGCGAAATTCGCGTCTGACGCTGGTATC -GTGTCTGTAAGCTGGCTGGTCGCAAGCTATGGCCTGCAGAGCATCGGGGAACTGATGATCTCTGGTCTGG -GTCTGGCAATGGTTGCTCAACTCGTTCCGCAGCGTCTGATGGGCTTCATTATGGGTAGCTGGTTCCTGAC -CACTGCCGGTGCAAACCTGATTGGTGGTTATGTTGCGGGTATGATGGCTGTGCCGGATAACGTTACCGAT -CCGCTGATGTCACTGGAAGTCTATGGTCGCGTATTCTTGCAGATTGGTGTCGCTACTGCCGTTATTGCAG -TACTGATGCTGCTGACCGCGCCGAAACTGCACCGCATGACGCAGGATGACGCTGCAGACAAAGCGGCGAA -AGCAGCCGTAGCGTAAAATTCAGGGAAACTCTTTTACAAGCCGCTAACTTTTCGTTAGCGGCTTTTTTTT -TGTTCAGCAACGCACTACCATACTTTAAACCACAGACAAAAGGAGTTACCGATGAAATTGTTCTACAAAC -CGGGTGCCTGCTCTCTCGCTTCCCATATCACCCTGCGTGAGAGCGGAAAGGATTTTACCCTCGTCAGTGT -GGATTTAATGAAAAAACGTCTCGAAAACGGTGACGATTACTTTGCCGTTAACCCTAAGGGGCAGGTGCCT -GCATTGCTGCTGGATGACGGTACTTTGCTGACGGAAGGCGTAGCGATTATGCAGTATCTTGCCGACAGCG -TCCCCGACCGCCAGTTGCTGGCACCGGTAAACAGTATTTCCCGCTATAAAACCATCGAATGGCTGAATTA -CATCGCCACCGAGCTGCATAAAGGTTTCACACCTCTGTTTCGCCCTGATACACCGGAAGAGTACAAACCG -ACAGTTCGCGCGCAGCTGGAGAAGAAGCTGCAATATGTGAACGAGGCACTGAAGGATGAGCACTGGATCT -GCGGGCAAAGATTTACAATTGCTGATGCCTATCTGTTTACGGTTCTGCGCTGGGCATACGCGGTGAAACT -GAATCTGGAAGGGTTAGAGCACATTGCAGCATTTATGCAACGTATGGCTGAACGTCCGGAAGTACAAGAC -GCGCTGTCAGCGGAAGGCTTAAAGTAATAGCCATCGGCCCACAGGTCGTTGTGGGCCGAAATGAGATATT -TCAGAGCTTTGTTGCGCTGAAGTAATGTTCTGGTTTGGCAATACGATCCTGAGCAGCCACCACTTGCAGC -TCATATTCCTGCATTGCTTTGGTGGTCACCATGATTTCGTAGACTGCAGCGGTCACATGTTCCAGCGCCT -CCTGCAGCGTTGCCCCCTGAAGCAGTTTCACCAGCAGTAAACCGCTCGTCACATCACCAACACCTACCGG -CTGGCGCATACCAAAATCCACCAGCGGACGGCTGATATGCCAGGCTTCATCGGCGGTGACCAGCAGCATT -TCAAAACGGTCACGGCTGTAGCCAGCTCGCGCCAGGTGTTTAACCAACACAATTTGTGGCCCTTGCGCAA -TGAGTTCGCGCGCTGCCAGAACCGCTTCTTCGACGTTATTTACCGCATGCTCACAGAGTATTTCCAGCTC -AACCAGATTTGGCGCAATGATATCGCTGGCAGGCAAACCGTGCCGCACATGAAACTCTGCGACACCCGGT -GCAACGATACAGCCTTTTTCCGGATGACCCATTACCGGATCGCAAAAATATTTCGCCTGCGGATTCGCGG -CTTTCACCTGACGGACGATACCGAGGATATGTTCACCCTGCTCCGCCGATCCCAGATAGCCACTTAATAC -GGCATCACAGGTGTGTAATTTATCAATGGCGGCAATGCCTTGCACAATTTCGGTTAAATGGCTGGGCGGC -ATCACGCAGCCAGTCCATTTGCCGTATTGGGTGTGATTAGAAAATTGAACGGTGTTCAGCGGCCAGACGT -TCGCGCCCAGGCGGCGCATCGGAAACTCTGCCGCACTGTTACCCGCATGACCATAAACAACGTGAGACTG -GATAGCGAGAATATTTTTCATCATGTTCCCTGTATAAAAACCAGGGGGAGTGATTTCTCACTCCCCCTTT -CCACTTAATGCATTATTTCCAGCAAATCAGACAGTAATTCTTTTTACCGCGACGCAGTAAGGTAAAACGA -CCAAACAGACGATCTTCTTCTTTAAAGAAGTATTCAGGATCGGACTGTTTTTCACCGTTAATGGTGATGG -CATTGGAGGCGATAGTTTTACGTGCCTGACCACGGGAAGGTTGCAGTTCAGAATCGACCAGTGCCTGCAT -CAGGTCTGCGCCCTTTTCCATCTCAACCATCGGTACGCCGTCCTGCGCCAGCTGTTCGAAGTCCGCTTCA -CTCAGCGCACTCAAAGAACCGCTGAACAGGCATTCGGTAATACGTTTTGCCGCCTGTAAACCTTCTTCAC -CGTGAACCAGACGAGTCACCTGCTCCGCCAGTACATACTGGGCGCGCGGTGCTTTACCGCTGTTTTTATC -TTCTTCTTCCAGGGCGTTGATCTCTTCAATGCTCATAAAGGTGAAGAACTTCAGGAAGCGGTAAACGTCG -GCATCCGCAGTGTTGATCCAGAACTGGTAGAATTTGTACGGGCTGGTTTTCTTCGGATCCAACCAGACTG -CGCCGCCTTCAGTTTTACCAAATTTGGTGCCATCTGCTTTAGTGATCAGCGGAACGGTCAGGCCAAACAC -CTGATTCTGATGCAGACGACGGGTCAGGTCGATACCAGAAGTGATGTTACCCCACTGGTCAGAACCACCA -ATTTGCAGCACCACACCGTACTGTTTGTTCAGACAGGCGAAGTCATAACCCTGCAACAGGTTGTAGGAAA -ACTCAGTGAACGAAATCCCCTGATCTTCACGGTTGAGACGCTGCTTAACCGCTTCTTTGTTGATCATCTG -GTTAACGGAGAAGTGTTTGCCAATATCGCGCAGGAAGGTCAGCACATTCATATTGCCGAACCAGTCATAG -TTGTTCGCCGCGATAGCAGAGTTTTCTCCACAGTCGAAATCGAGGAACGGGGCAACCTGCTTACGGATTT -TGTCCACCCACTCCTGAACAGTTTCTTCGGTGTTCAGCTTACGCTCGGCAGCTTTGAAGCTCGGGTCGCC -AATCAGACCCGTCGCGCCGCCTACCAGCGCAACCGGCTTGTGGCCCGCCTGCTGGAAGCGTTTCAGGCAT -AACAATGGAACAAGATGCCCCAAATGCAAGCTGTCAGCGGTAGGATCGAAGCCGCAATAGAGCGCGATCG -GGCCTTGCGCCAGTCGCTCTGCTAACGCTTCCTCGTCCGTCACCTGGGCTACCAGCCCCCGCTCTTGCAA -TTGTTTAATCAAGTTACTGCTTGCCATCAAAATCTCCATGTATATAACGACTGCACCTTTGCCGGTACAC -GACTTTTCGCCAGATGCGAAAGAGACATAGAATAAAGTGCCAGAATCAGGAGTACCAGCGATTAAAGCAA -GATTTTTGCATCTTTTCAGGGTGCAAGACGATCAATCTTCCACGCATCATTTTCACGCTGGTACAAAAAG -CGGTCATGCAGGCGATGCTCACCACCCTGCCAGAACTCAATCTGTTCAAGGCTGACGCGAAAACCGCCCC -AAAAGCTCGGCAATGGCACTTCGCCCTGTTGAAACTTCTGCTTCAGCTCCAGGAATTTACTTTCAAGGAT -ACCGCGGGCAGAAATGCGACTGGACTGCTTCGAAACCCATGCACCAATCTGGCTATCACGCGGGCGGCTA -TGAAAATATTTCATCACTTCGAGAGTCGAAAGTCGTTCTGCTTTACCGATCACCATCACCTGGCGCTCAA -GGGTATGCCACGGGAACAGCAGGCTAACGCGCGGATTATTTTCGATTTGATGTGCTTTACGGCTGCCGAG -GTTGGTGTAAAACACCATGCCTTTTTCGTCGTAATGTTTGAGTAAAACGATGCGCTGATAAGGCTGACCA -TGTTCATCCACGGTAGCGACCACCATCGCGGTAGGGTCCGCCAGTTTGGCTTCACAAGCCTGAGAGAGCC -AACGTTCAAAAAGGGTTAATGGATCGGCGGGAAGATCGCGGCGGCGTAACCCGCCTTTGGTGTATTCACG -GCGCAGATGCGCGATTTGCTGCAATTCGTCGTTATCAGACATGGTTTTCTTTACGGATTGTCAGTGGGTG -ACGCTATTGTGCGCCGCCCCTGGAAAAATCTCAACGCTGTGGATTTTGTAACTGACAGTTATTCAAGACG -ATGCGGTCGCGTTTATAGACAGTCGCTTCATCGCCTTTCGACCAGAAAACATAGATTCCGTCAGTGTAAC -GCGCGCCAGAGGCTGAAATGCCCTGTTTGAGATGCAGTAGTTGATTATCGTAAACAAAACTGACCTCCTG -GCGCGGATTATTCAGTTTGACCGTCAACGGTTTTTCATCACACTGGTATTCCAGCGTATCGGTTTGCATG -CGCTCAACCAGCTGATTAAAGGCGCTACAGCCGGAGAGAAGGACCGGCAAAATGATAATTAACAGTTTTT -TCATAGTCATATCCCGAAGACTTTCCTGGTCTGGAGGGCAATACGCCCTCCCTAACGTTCCAAGTGTAAC -GGCAGACGCGGTAAGAAAAATTCAGTTAACTCTGATATCACGGGTTAGCGGGGAAAATAGCCCCCAGTAC -CGTCTCCTGGCTTGCGCCAGTGACGGAAGGCAGATTTCCTGGTAATCCCGCCAGCGTCCGCCAGGCAAGC -CAGGCGAAAGCCAATGCTTCCATGTCATCGCCACTAATGCCAACGGCATCGGTGGTGGTGACTTCTGTGC -CTGGCAGTAATGCCGCCAGACGCGCCATGAGTAGCGGATTACGACTACCTCCACCACATACCATCAATCG -TTCGCAGCCACCGCTCAACAAAACTTGTTCAGAAATGGTCACGGCGGTGAGTTCTGCCAGTGTCGCCTGC -ACATCTCGGGGATCAACACCCGGAAAATGGCGCAAATGGCGCTCCAGCCAACCATAGTTAAAGTATTCGC -GTCCGGTGCTTTTCGGTGCAGGTTGCGAGAAATACGGGTCGCTGAGCATATTTTGCAGCAGTGGGAGAAT -AACTTTACCCGCCCGTGCCCACTCGGCATCTTTATCGTAAGGTTTACCGGCCTGACGCCAGATCCAGGCA -TCCATCAGCATGTTACCAGGACCGGTATCGTAGCCCCCAACCGGCTGCCCAGGAATGAGCAGTGACAGAT -TGGCGATGCCGCCAATATTGAGCACCATTCGTCGCTCGGTTGGGTGAGCCAGCAGCGCATGATGGAACGC -AGGTACCAGCGGTGCGCCTTGTCCTCCCAAGGCAATATCGCGACGGCGAAAATCACCGACAACCGTAATT -CCGGTGCGTGCCACAATTTGATTGTTATCGCCAATCTGTAAAGTGTGTGGTGCCACGCCCGTCGGTTCAT -GCCAGACGGTTTGACCGTGACAACCGATCGCAACTATATCTCTTGCCTGCAGATTTTGTTCCTTAAGCAA -GGCATTGACCGCATCAGCAAAAAGTTGCCCGAGTTGAGTATCAAGCTGTCCAAACTGCGAAAGTGTAAGC -TGCTGGCCCTGGCAAATATCCAGTACAGCCTGTTTCAGAGATACCGGGATCGGCCAACTCAAACTTGCCA -GCTGTGCGACCCGGTGTTCATCAATTGTCGCCAACACAACATCAACACCATCAAGGCTGGTGCCTGACAT -AACGCCAATAAAGCGGCCCGATTTCATAGTTCATCCTTTTTCAATCTGACGTTTGCGCACCACTCAAACA -TAAACTTTTCGTGAATACCATGCGGAATGACCGATTTTTACCGTTGGTAGTAAAACATTATCTTCAAATC -AATAATCATCATGAATGTTTTGTTTATAATTGGTTGATCCTACTTTCATTATGATTTGCTCATATTTGGT -AGAACATGTAACCATGGATTCACATATGCCATATACTTTGACCATGAGGGATGCTTGCGTGGCGTTTCAT -GGTGAACAGGAGATTTTTCAATGATTAAACGCGTATTGGTTGTTTCAATGGTAGGTCTGTCTCTTGTCGG -TTGTGTTAATAACGACACCCTGTCAGGGGATGTTTATACCGCTTCTGAAGCGAAACAAGTACAGAATGTC -AGCTATGGCACCATCGTTAACGTACGTCCGGTACAGATTCAGGGCGGTGATGATTCCAACGTTATCGGTG -CAATTGGCGGTGCTGTTCTTGGTGGTTTCCTGGGGAATACTGTTGGTGGCGGAACCGGGCGTTCTCTGGC -TACTGCAGCAGGCGCTGTTGCAGGTGGCGTAGCTGGTCAGGGCGTACAGAGTGCAATGAACAAAACGCAG -GGTGTCGAGCTGGAAATTCGTAAAGACGATGGTAATACCATCATGGTGGTACAGAAACAAGGCAACACTC -GTTTCTCTCCGGGCCAACGTGTCGTACTGGCCAGCAATGGCAGTCAGGTGACCGTTTCTCCGCGCTAAAT -AAGTTTGCGTGTGGTCAGGTTACTGACCACACGCCCCCTTCATTTCACCCTTTGGCCTGTAACTCAATGA -TATTATGCTCAAGTTTTGCGATGAGCGTAATCAGTTGCTCCAGTTCCTCTGCGGAGATGCCATGTAATAT -TTCCGCGCGGGTTTTGTTAATAACAGCTTCCATTTCGCTGATCAGCGGCTCTGCCTTTTCCGTCAGTTTA -ATACGTTTAGCCCGACGATCGCTGGCACAAGTTTGACGCGAAATTAACCCTTTTTCTTCCAGTTGGTCCA -GAGTACGGACCAGTGATGGCTGCTCGATGCCAATCGCTTTTGCCAGTTGAATTTGCGACTGGTCTGGAGG -TAACTGATGGATATTGTGTAACGTAACCCAATGGGTTTGTGTTAACTCCAGCGGTTTCAGGCGATGGTCT -ATCAGAGCACGCCATATGCGCACCAACCGTGCCAGATCAGAACCTAGTGGCGATTCCAATTTCATCTCCT -TATAATTAGCTTGCTAAGATATTATGCGGCTTTTAGAATAGTGTGCAGCAATTGTATTGCTAAAACAAAT -GTATTGCTGCATTTGGTTACCGTCAGACATATTTTTCAGAAATTGCGCGTAAATTTTTCGCACTTAAAGA -ATATTTATTAATCTAACGCAATATATTCGGTCGTAAAGGAATCTACTTTGTGAAGTTTATGCTCAATGCA -ACAGGATTGCCCTTACAAGATCTGGTGTTCGGTGCGTCCGTCTACTTTCCTCCGTTTTTCAAAGCATTCG -CGTTTGGATTCGTCATCTGGTTTGTCGTACACCGCCTGCTTCGTGGCTGGATCTACGCCGGTGACATCTG -GCATCCCTTGTTAATGGATTTATCGCTGTTTGCGATTTGCGTTTGCCTTGCTCTGGCAATACTGATTGCG -TGGTAACTATGTCAATTAAAACAATTAAGTATTTCTCAACAATCATTGTAGCGGTAGTTGCGGTTCTTGC -CGGATGGTGGCTGTGGAATTATTACATGCAATCTCCGTGGACACGCGACGGGAAAATACGCGCAGAACAG -GTTTCTATCACCCCACAGGTGTCGGGACGTATTGTTGAGCTGAATATAAAAGACAACCAGCTGGTTAACG -CGGGGGATCTTCTGCTCACGATCGATAAAACGCCCTTTCAGATCGCCGAGCTGAACGCACAGGCTCAGCT -GGCGAAAGCGCAATCTGACCTCGCAAAAGCCAATAACGAAGCGAATCGTCGTCGTCATCTCTCACAAAAT -TTTATTTCTGCCGAAGAACTCGATACCGCTAACCTCAATGTTAAAGCGATGCAGGCCAGTGTTGATGCCG -CACAGGCGACGCTGAAACAGGCACAATGGCAACTGGCGCAAACGGAAATTCGCGCCCCGGTGAGTGGATG -GGTGACTAACCTTACTACCCGCATCGGCGATTACGCTGATACCGGGAAACCGCTGTTTGCCCTTGTCGAC -AGCCACTCGTTTTACGTCATTGGTTATTTTGAAGAAACCAAGTTGCGCCATATCCGCGAAGGTGCACCAG -CACAAATTACCCTCTATAGTGATAACAAAACGTTACAGGGTCACGTTTCCAGTATCGGTCGGGCGATTTA -TGATCAGAGCGTTGAAAGTGACTCAAGCCTTATTCCGGATGTTAAACCTAACGTCCCCTGGGTTCGACTC -GCCCAACGCGTTCCCGTCCGCTTTGCGCTGGATAAAGTCCCAGGCGATGTCACGTTGGTGTCGGGCACCA -CCTGTAGCATTGCCGTAGGTCAATAATGAACGCATCGTCATGGTCCTTGCGCAATTTGCCCTGGTTCAGG -GCCACGCTGGCGCAATGGCGTTATGCGTTACGCAATACCATTGCCATGTGTCTGGCGCTGACGGTTGCCT -ATTATTTAAATCTGGATGAACCCTATTGGGCGATGACCTCGGCTGCAGTGGTTAGCTTTCCCACCGTTGG -CGGTGTTATCAGCAAAAGCCTCGGACGCATCGCTGGCAGTTTGCTCGGAGCCATTGCGGCACTGCTTCTT -GCCGGGCATACGCTCAATGAGCCGTGGTTTTTTCTATTGAGCATGTCGGCGTGGCTTGGCTTTTGTACCT -GGGCCTGTGCGCACTTCACGAATAACGTCGCGTATGCATTTCAACTGGCGGGCTACACGGCTGCCATCAT -CGCCTTTCCGATGGTTAATATTACTGAGGCCAGCCAGCTGTGGGATATCGCTCAGGCGCGCGTTTGCGAG -GTAATAGTCGGTATTTTGTGCGGCGGCATGATGATGATGATCCTGCCGAGCAGTTCCGATGCTACTGCCC -TTTTAACCGCATTGAAAAACATGCACGCCCGATTACTGGAACATGCCAGTTTACTCTGGCAGCCTGAAAC -AACCGATGCCATTCGTGCAGCACATGAAGGGGTGATTGGGCAGATACTGACCATGAATTTGCTGCGTATC -CAGGCTTTCTGGAGCCACTATCGTTTTCGCCAGCAAAACGCGCGCCTTAATGCGCTGCTCCACCAGCAAT -TACGTATGACCAGTGTCATCTCCAGCCTGCGACGTATGTTGCTCAACTGGCCCTCACCGCCAGGTGCCAC -ACGAGAAATTCTCGAACAGTTGCTGACGGCGCTCGCCAGTTCGCAAACAGATGTTTACACCGTCGCACGT -ATTATCGCCCCGCTACGCCCGACCAACGTCGCCGACTATCGGCACGTCGCCTTCTGGCAGCGACTACGTT -ATTTTTGCCGCCTTTATCTGCAAAGTAGTCAGGAATTACATCGTCTGCAAAGCGGTGTAGATGATCATAC -CAGACTCCCACGGACATCCGGCCTGGCTCGTCATACCGATAACGCCGAAGCTATGTGGAGCGGGCTGCGT -ACATTTTGTACGTTGATGATGATTGGCGCATGGAGTATTGCTTCGCAATGGGATGCCGGTGCCAATGCAT -TAACGCTGGCAGCAATTAGCTGCGTACTCTACTCCGCCGTCGCAGCACCGTTTAAGTCGTTGTCACTTCT -GATGCGCACGCTGGTGTTACTTTCGCTATTCAGCTTTGTGGTCAAATTTGGTCTGATGGTCCAGATTAGC -GATCTGTGGCAATTTTTACTGTTTCTCTTTCCACTGCTGGCGACAATGCAGCTTCTTAAATTGCAGATGC -CAAAATTTGCCGCATTGTGGGGGCAACTGATTGTTTTTATGGGTTCTTTTATCGCTGTCACTAATCCCCC -GGTGTATGATTTTGCTGATTTTCTTAACGATAATCTGGCAAAAATCGTTGGCGTCGCGTTGGCGTGGTTA -GCGTTCGCCATTCTGCGTCCAGGATCGGATGCTCGTAAAAGCCGCCGCCATATTCGCGCGCTGCGCCGGG -ATTTTGTCGATCAGCTAAGCCGCCATCCAACACTGAGTGAAAGCGAATTTGAATCGCTCACTTATCATCA -CGTCAGTCAGTTGAGTAACAGCCAGGATGCGCTGGCTCGCCGTTGGTTATTACGCTGGGGTGTAGTGCTG -CTGAACTGTTCTCATGTTGTCTGGCAATTGCGCGACTGGGAATCGCGTTCCGATCCGTTATCGCGAGTAC -GGGATAACTGTATTTCACTGTTGCGGGGAGTGATGAGTGAGCGTGGCGTTCAGCAAAAATCACTGGCGGC -CACACTTGAAGAATTACAGCGGATTTGCGACAGCCTTGCCCGTCATCATCAACCTGCCGCCCGTGAGCTG -GCGGCAATTGTCTGGCGGCTGTACTGCTCGCTTTCGCAACTTGAGCAAGCACCACCGCAAGGTACGCTGG -CCTCTTAATTACTTAATTACACCACAGGCATAGCGTTCACCGCCACCGCCCAGCGGTTTAGGTTGATCGG -ACATATTATCGCCGCCAACGTGGACCATCAGCGCTTTGTCTTTGATTTCATCCAGTGATTTCAGACGAGG -CGCGATGACGGCATCGGTAGCTTTGCCGTCATTATTGACGACCAGTGCAGGCAGATCGCCTAAATGCCCG -GCACCTTCTGGCCCTTCATGTTTACCGGTATTTTGTGGATCAAGATGCCCGCCTGCGGATTCCGCGGCGC -TGGCTTTGCCATCTTTGGTGGCTGGCTGGCAGCTTCCTTTGGCATGAATATGGAAGCCATGTTCACCGGG -GGGTAATGCTTTCAGATCGGGCGAAAACTCCAGACCTTTATCGGTTTCAGTAATGGTGACGCTACCAATT -GACTGCCCTACCCCTTGCGACGTGACGAGGTTCATCTCGACTTTTTCACTGGCAGCTTGTGCGCCGGTTG -CAACAACCAGCGCCAGAATAGCCAGACTAAAACGTTTCATAGGACCTCCGTTCATTGTGCATTCCTGAAT -AAGTGTAAACCAGTGACACATTTTTGAACGGCGGCTATTCCTAAAAGTGCTTACGGTACGTCGTACCCCA -GTGCCGCTTTACGGATACGAAACCATTGTTGACGGGTCATTTTCAGTGTTTCTGCTTCGACAGCTGCCCG -TACGCGCTCAATTTTACCTGAACCGATAATTGGCAGCGGCTGCGATGGTAAACGTAATACCCAGGCGTAA -ACCACCTGTTCAATCGAGCCCGCGTTTAACTCCTCTGCCACCACAGCCAGTTCATCACGCAGCGGCTGGA -AATAATCATCATTAAACAGACGACCACCACCAAGGCAGGACCACGCCATCGGACGAACACGCAGTTGTTG -TAGTTGGTCGAGCGTGCCATCCAGCAGTAACGGCTGATGCACCGGGGATATTTCCACCTGATTAGTGGCA -AGGGTAAACGGCAGACGTGATTGCAACAGGGCAAATTGCGCAGGCGTAAAGTTCGATACGCCAAAATGAC -GCACTTTGCCGCTCTGATGCAGATGTTTGAACGCGTCCGCCACTTCATCGGCATCCATTAACGGGTCTGG -TCGGTGGATTAACAGCAAATCCAGATGATCGGTCGCGAGATTAATTAGCGACTGTTCGGCGCTCTTAATG -ATGTGATCGCGGTCAGTGATGTAATGACCAATGACGTTTTCTTCACGCGCGGTCGTCGCGATACCGCATT -TACTGACGATTTCCATCCGTTCACGCAGGTGAGGTGCCAGTTTCAGTGCCTCGCCAAACGCCGCTTCGCA -CTGATAGCCACCATAAATATCAGCATGGTCCACGGTGGTCACGCCGAGATCCAGATGCTCTTCAATAAAA -CTGACCAGCTGGCGGGCGGACATATTCCAGTCCATCAATCGCCAGTAGCCCATCACAAAACGGGAAAACT -CCGGGCCTTGCGGCGCAATAGTAATACGCTGAACCATAATCGCTTCCTCTTATCAGATATGAGAGGAGTA -TACGCAAGATTAGGTTCAAAAGAGTGATGGTTGCTCCGGTTCGTCTGATGACGCTGGCTTATTTGCGCGT -AATTTGCGCATTAATCGCTGCCGACAAAGGCGCAGCACCTCTTGTTTTTCGCCATCGCTCATTTTATTCC -AGTTAAAACGCTCATCACGACTACGAAAACAGCCGCGACAAAACCCGCGTTCGTCAGACTGGCAAATTCC -CCGGCACGGGCTCTGGACGGGAAAGAACTCTAATTGCTCCGCCACTTCGCCCTCCTCAGATAAGATTATT -ACCATTATTGAAGCTGTTAATGTCCAAAGTAGCAACTTTGCTTGCACTAGACCGACTGGTCTACTACACT -CCAACGCATGAACAAACACACCGAACATGATACTCGCGAACATCTCCTGGCGACGGGCGAGCAACTTTGC -CTGCAACGTGGATTCACCGGGATGGGGCTAAGCGAATTACTAAAAACCGCTGAAGTGCCGAAAGGGTCCT -TCTATCACTACTTTCGCTCTAAAGAAGCGTTTGGCGTTGCCATGCTTGAGCGTCATTACGCCGCATATCA -CCAGCGACTGACTGAGTTGCTGCAATCCGGCGAAGGTAACTACCGCGACCGCATACTGGCTTATTACCAG -CAAACACTGAACCAGTTTTGCCAACATGGAACCATCAGTGGTTGCCTGACAGTAAAACTCTCTGCCGAAG -TGTGCGATCTGTCAGAAGATATGCGCAGCGCGATGGATAAAGGTGCTCGCGGCGTGATCGCCCTGCTCTC -TCAGGCGCTGGAAAATGGCCGTGAGAACCATTGTTTAACCTTTTGTGGCGAACCGCTGCAACAGGCACAA -GTGCTTTACGCACTGTGGCTTGGCGCGAATCTGCAGGCCAAAATTTCGCGCAGTTTCGAGCCACTGGAAA -ACGCGCTGGCCCATGTAAAAAACATTATTGCGACGCCTGCCGTTTAGCAGGCATTTTTTATCACCAGACG -ACCGGGAGCCTTTATGTCATCTGAAAAACTGTATTCCCCACTGAAAGTGGGCGCGATCACGGCGGCAAAC -CGTATTTTTATGGCACCGCTGACGCGTCTGCGCAGTATTGAACCGGGTGACATTCCTACCCCGTTGATGG -CGGAATACTATCGCCAACGTGCCAGTGCCGGTTTGATTATTAGTGAAGCCACGCAAATTTCTGCCCAGGC -AAAAGGATATGCAGGTGCGCCTGGCATCCATAGTCCGGAGCAAATTGCCGCATGGAAAAAAATCACCGCT -GGCGTTCATGCTGAAAATGGTCATATGGCCGTGCAGCTGTGGCACACCGGACGCATTTCTCACGCCAGCC -TGCAACCTGGCGGTCAGGCACCGGTAGCGCCTTCAGCACTTAGCGCGGGAACACGTACTTCTCTGCGCGA -TGAAAATGGTCAGGCGATCCGTGTTGAAACATCCATGCCGCGTGCGCTTGAACTGGAAGAGATTCCAGGT -ATCGTCAATGATTTCCGTCAGGCCATTGCTAACGCGCGTGAAGCCGGTTTTGATCTGGTAGAGCTCCACT -CTGCTCACGGTTATTTGCTGCATCAGTTCCTTTCTCCTTCTTCAAACCATCGTACCGATCAGTACGGCGG -CAGCGTGGAAAATCGCGCACGTTTGGTACTGGAAGTGGTCGATGCCGGGATTGAAGAATGGGGTGCCGAT -CGCATTGGCATTCGCGTTTCACCAATCGGTACTTTCCAGAACACAGATAACGGCCCGAATGAAGAAGCCG -ATGCACTGTATCTGATTGAACAACTGGGTAAACGCGGCATTGCTTATCTGCATATGTCAGAACCAGATTG -GGCGGGGGGTGAACCGTATACTGATGCGTTCCGCGAAAAAGTACGCGCCCGTTTCCACGGTCCGATTATC -GGCGCAGGTGCATACACAGTAGAAAAAGCTGAAACGCTGATCGGCAAAGGGTTAATTGATGCGGTGGCAT -TTGGTCGTGACTGGATTGCGAACCCGGATCTGGTCGCCCGCTTGCAGCGCAAAGCTGAGCTTAACCCACA -GCGTGCCGAAAGTTTCTACGGTGGCGGCGCGGAAGGCTATACCGATTACCCGACGTTGTAATCCAACATT -GCGAGCGGCGTAAAGCCGCCGCTATACTAAAACAACATTTTGAATCTGTTAGCCATTTTGAGGATAAAAA -GATGCGTCTTCTTCATACCATGCTGCGCGTTGGCGATTTGCAACGCTCCATCGATTTTTATACCAAAGTG -CTGGGCATGAAACTGCTGCGTACCAGCGAAAACCCGGAATACAAATACTCACTGGCGTTTGTTGGCTACG -GCCCGGAAACCGAAGAAGCGGTGATTGAACTGACCTACAACTGGGGCGTGGATAAATACGAACTCGGCAC -TGCTTATGGTCACATCGCGCTTAGCGTAGATAACGCCGCTGAAGCGTGCGAAAAAATCCGTCAAAACGGG -GGTAACGTGACCCGTGAAGCGGGTCCGGTAAAAGGCGGTACTACGGTTATCGCGTTTGTGGAAGATCCGG -ACGGTTACAAAATTGAGTTAATCGAAGAGAAAGACGCCGGTCGCGGTCTGGGCAACTAATCTCCTGCCGG -GCGTGAACTCATCGCGCCCGCATCTTTACTGCATCGACAAGTAATATTTGTCATAATGCGCGCTGCAATT -TATCCGTATTAAGAGAATCAGATGTCCGATAACGCTCAACTTACCGGTCTGTGCGACCGTTTTCGTGGTT -TTTATCCTGTTGTGATCGATGTTGAAACAGCCGGATTTAACGCCAAAACCGATGCGCTGCTTGAGATTGC -CGCCATCACCCTGAAAATGGATGAACAAGGCTGGCTGATGCCGGACACCACATTACATTTCCACGTCGAA -CCATTTGTCGGCGCAAATTTGCAACCAGAAGCCCTCGCCTTCAACGGCATTGACCCGAACGATCCCGATC -GCGGCGCGGTCAGCGAATACGAGGCGCTGCACGAAATTTTTAAAGTTGTACGTAAAGGTATTAAAGCGAG -CGGCTGTAACCGCGCCATTATGGTGGCGCACAATGCCAATTTTGATCACAGCTTTATGATGGCCGCCGCA -GAACGCGCCTCACTGAAACGTAACCCGTTCCACCCTTTCGCCACTTTTGACACTGCTGCACTGGCCGGGC -TGGCACTCGGACAAACCGTATTGTCAAAGGCTTGCCAGACCGCTGGCATGGACTTCGACAGCACCCAGGC -GCACTCCGCGCTGTACGACACCGAACGCACTGCTGTGCTGTTTTGTGAAATCGTCAACCGCTGGAAACGT -CTGGGAGGCTGGCCGCTATCTGCCGCCGAAGAGGTGTAATCGAGTCGATGCCTGATGACATGCAATGATT -CAGGCATCTATAGTGAGGCTATTCCACGCATCCTGCATGATATTCACGGGGAATAGCGTTAATGGCAGAT -AATCCAGACCCTTCATCGCTCCTGCCGGACGTGTTTTCACCGGCGACCCGCGACTGGTTTCTTCGCGCCT -TTAAACAGCCGACCGCTGTCCAGCCGCAAACCTGGCATGTGGCGGCGCGAAGCGAACATGCGCTGGTGAT -TGCACCGACCGGCTCCGGGAAAACGCTGGCAGCATTTCTCTACGCCCTCGATCGGCTCTTCCGCGAAGGC -GGCGAAGATACCCGCGAGGCGCATAAGCGTAAAACCTCACGCATCCTCTATATTTCACCGATAAAAGCCC -TGGGCACCGACGTTCAGCGCAACTTGCAGATCCCGTTGAAGGGTATTGCCGATGAACGGCGGCGGCGCGG -CGAAACGGAAGTCAATCTTCGCGTAGGGATCCGTACTGGCGATACGCCTGCACAGGAACGCAGCAAACTC -ACCCGTAATCCGCCGGATATTCTGATCACCACACCCGAATCACTCTATCTGATGCTGACCTCCCGCGCGC -GCGAAACGCTACGCGGCGTCGAAACGGTAATTATTGATGAAGTCCACGCGGTAGCGGGCAGTAAACGTGG -TGCGCATCTGGCGTTAAGTCTGGAGCGGCTCGATGCGCTGCTCCACACCTCAGCACAGCGAATTGGCCTT -TCTGCCACTGTGCGCTCAGCCAGCGATGTGGCAGCATTTCTTGGTGGCGATCGCCCGGTTACGGTAGTCA -ACCCGCCCGCAATGCGCCATCCGCAGATACGAATTGTCGTACCGGTCGCCAATATGGATGATGTCTCATC -GGTCGCCAGCGGCACCGGCGAAGACAGCCATGCCGGCCGGGAAGGCTCCATCTGGCCATATATTGAAACG -GGTATCCTTGATGAAGTGTTGCGCCATCGCTCGACCATTGTCTTTACTAATTCGCGGGGGCTGGCGGAAA -AACTGACGGCACGATTAAATGAGCTTTACGCCGCACGCTTACAGCGTTCCCCGTCTATCGCCGTTGATGC -GGCCCATTTCGAGTCGACCTCCGGCGCAACCTCTAACCGTGTACAAAGTAGCGACGTTTTTATTGCCCGC -TCACACCACGGCTCCGTCTCTAAAGAACAACGAGCAATCACCGAACAGGCGCTGAAATCGGGTGAATTAC -GCTGCGTGGTCGCAACCTCCAGTCTTGAACTGGGGATTGATATGGGCGCGGTGGATCTGGTGATTCAGGT -GGCAACGCCGCTTTCTGTTGCCAGTGGGTTACAACGCATTGGTCGCGCCGGACATCAGGTTGGCGGTGTA -TCTAAAGGGCTGTTTTTCCCCCGTACCCGGCGTGATTTAGTCGATTCCGCAGTCATTGTAGAGTGTATGT -TCGCAGGCAGGCTGGAAAACCTGACACCACCGCATAATCCTCTCGACGTCCTTGCGCAGCAAACCGTTGC -CGCCGCGGCGATGGATGCATTACAGGTAGACGAATGGTACTCCCGCGTACGCCGTGCCGCACCGTGGAAA -GATCTGCCAAGACGTGTTTTTGACGCCACGCTGGATATGCTTTCCGGGCGCTATCCCTCTGGCGATTTTT -CTGCTTTTCGCCCCAAACTGGTCTGGAACAGGGAGACCGGGATATTGACCGCCCGACCTGGCGCTCAATT -GTTGGCGGTTACCAGCGGCGGCACCATTCCGGATCGTGGCATGTATAGCGTGTTATTACCCGAAGGTGAA -GAAAAGGCCGGTTCGCGGCGGGTGGGTGAACTGGATGAGGAGATGGTATATGAGTCGCGGGTGAACGACA -TTATCACTCTCGGCGCTACCTCATGGCGGATCCAGCAAATCACCCGCGATCAGGTGATTGTGACTCCTGC -TCCGGGTCGTTCTGCCCGGCTCCCCTTCTGGCGTGGTGAAGGTAACGGACGTCCGGCTGAATTAGGCGAG -ATGATCGGCGATTTTCTTCATTTGCTGGCGGATGGCGCGTTCTTTTCCGGGACTATTCCCCCGTGGCTGG -CAGAAGAAAATACGATCGCCAATATTCAGGGGTTGATTGAGGAGCAGCGCAACGCGACGGGCATCGTTCC -GGGGAGTCGCCATCTGGTCCTCGAACGGTGCCGTGATGAAATTGGTGACTGGCGTATTATTTTGCACTCT -CCCTATGGAAGACGGGTGCATGAACCCTGGGCGGTGGCGATTGCCGGGCGAATACATGCGCTATGGGGCG -CTGACGCGTCGGTGGTCGCCAGTGATGACGGCATTGTTGCACGTATTCCTGACACCGATGGTAAATTGCC -CGATGCCGCGATTTTTTTGTTTGAACCAGAAAAGTTGCTGCAAATTGTCCGCGAGGCGGTAGGCAGCTCG -GCACTTTTCGCCGCCCGTTTTCGCGAATGCGCCGCGCGGGCATTATTAATGCCGGGGCGCACTCCGGGCC -ATCGCACCCCGCTTTGGCAACAACGGCTGCGCGCCAGTCAGTTGCTGGAAATCGCTCAGGGATATCCGGA -TTTTCCGGTCATTCTCGAAACCCTACGCGAATGTCTGCAAGATGTTTATGATCTTCCCGCACTGGAACGT -TTGATGCGTCGCCTGAACGGTGGCGAAATTCAAATATCCGATGTAACGACCACTACGCCCTCGCCTTTCG -CCACAAGTTTATTGTTCGGCTATGTCGCGGAATTTATGTACCAGAGCGACGCCCCGCTGGCAGAGCGCCG -GGCATCCGTACTGTCGCTGGACAGCGAGTTACTGCGCAATCTACTCGGACAGGTCGATCCGGGGGAATTA -CTCGACCCGCAGGTCATTCGCCAGGTGGAAGAAGAGTTGCAACGACTGGCTCCTGGCAGAAGAGCGAAAG -GTGAAGAAGGATTGTTCGACCTGCTGCGCGAACTGGGGCCAATGACCGTTGAAGACCTGGCGCAACGGCA -TACAGGCAGCAGTGAAGAGGTTGCGTCGTATCTGGAAAATCTTCTTGCAGTAAAACGAATCTTCCCAGCG -ATGATTAGCGGACAGGAGCGTCTTGCCTGTATGGATGATGCCGCCAGGCTGCGTGATGCCCTCGGCGTAC -GACTACCAGAGTCATTGCCAGAGATTTATTTACATAGAGTCAGTTACCCGCTTCGCGACCTCTTTCTGCG -CTATCTCCGGGCTCATGCTCTGGTCACGGCTGAACAACTGGCTCATGAGTTTAGTCTCGGTATTGCCATT -GTCGAAGAGCAGCTTCAGCAACTGCGTGAACAGGGTCTGGTGATGAATCTGCAACAAGACATCTGGGTGA -GCGATGAAGTATTTCGTCGTCTGCGTTTGCGCTCGCTGCAAGCCGCCAGAGAAGCGACGCGTCCCGTTGC -AGCCACGACCTATGCGCGATTGCTGCTGGAACGTCAGGGCGTATTACCCGCCACCGATGGTAGCCCGGCG -CTCTTTGCCTCAACATCGCCAGGCGTTTATGAGGGCGTAGATGGCGTGATGCGGGTGATCGAACAGCTTG -CCGGAGTCGGTTTACCCGCCTCACTCTGGGAAAGCCAGATCCTGCCTGCCCGCGTACGCGACTATTCGTC -AGAAATGCTCGATGAATTACTGGCAACCGGTGCGGTTATCTGGTCGGGGCAAAAAAAACTGGGTGAAGAT -GACGGCCTGGTGGCACTGCATCTACAGGAATATGCTGCAGAATCGTTCACTCCCGCCGAAGCGGATCAGG -CGAATCGTTCGGCGCTGCAACAAGCGATAGTCGCTGTTCTGGCTGACGGAGGAGCCTGGTTTGCACAACA -AATCAGCCAACGGATACGCGACAAAATCGGCGAATCGGTTGATCTCTCTGCCCTGCAAGAGGCGTTATGG -GCGCTGGTCTGGCAAGGCGTCATCACCAGCGACATTTGGGCACCGTTACGCGCCCTCACCCGCAGCAGTT -CCAACGCACGCACCTCAACTCGCCGCAGTCACCGGGCTCGTCGTGGACGTCCTGTCTATGCGCAACCCGT -CTCGCCGCGGGTATCTTACAACACACCAAATCTGGCTGGACGCTGGTCGTTATTGCAGGTGGAGCCACTA -AACGATACCGAAAGGATGCTGGCGCTGGCGGAAAATATGCTCGACCGCTACGGCATCATCAGTCGTCAGG -CGGTGATAGCCGAAAATATCCCTGGCGGGTTTCCATCGATGCAAACGCTTTGTCGAAGTATGGAAGACTC -CGGGCGAATTATGCGAGGTCGTTTTGTAGAAGGTCTGGGTGGCGCGCAATTCGCTGAACGTCTGACTATT -GACCGATTGCGCGATCTGGCGACACAAGCCACGCAAACGCGCCACTATACACCAGTGGCGCTCTCTGCCA -ACGATCCGGCTAATGTGTGGGGAAATCTTCTGCCCTGGCCTGCACATCCGGCAACGCTGGTTCCAACGCG -TCGGGCGGGTGCGCTGGTGGTCGTTTCTGGCGGCAAATTGTTACTCTATCTGGCGCAAGGTGGCAAAAAA -ATGCTGGTCTGGCAGGAAAAAGAGGAATTACTCGCCCCAGAGGTTTTCCACGCGCTGACTACCGCACTGC -GTCGCGAACCACGGCTGCGCTTTACGCTAACAGAAGTGAATGATCTACCGGTCCGGCAAACGCCGATGTT -TACGCTGCTGCGTGAGGCGGGATTTTCAAGTTCGCCACAAGGGCTGGATTGGGGATAGAGAAAGGACTGA -CGGATGCCCGTTCGCATCCGTCAGTATTGCAGGACGGATTATTCCGCGTCCGGCTCTTCAGACTTGTATT -TAGCGGCAGTTTCTTTGATCAGCTGCTGCAGTTCGCCACGCTGATACATTTCGATCACGATATCACAACC -GCCGACCAGCTCGCCGTCAACCCACAGTTGCGGGAAGGTCGGCCAGTTAGCATATTTCGGCAGTTCCGCA -CGAATGTCCGGATTCTGCAGAATATCAACATAGGCAAAACGTTCGCCACATGCGGCAAGCGCCTGGACTG -CCTGGGCAGAGAAACCGCAGCTCGGCAGTTTCGGTGAACCTTTCATGTACAGCAGGATCGGGTTTTCAGC -AATCTGGCGTTGGATTTTTTCGATAGTGGTGCTCATTGTCTTGCTTCCTCAAACTTCTTTACGGCAGTAA -TCTGACATTGTAGCGGGTCAGTGCGGCATCGGAAAATAACATTTTCATCACGCTTTTGCTATTTTATCCC -TTTGCTCTATTTGTTGCATTTCAAATATTCGTTTCTTCTCTGATGCCGGCAAACTGGCGTATTTATAACC -ATTTTTAGCTTTCACTGCTGCATTTTTTTGCGCTCGCCAACGAAACGTATTTTTTAACAATAAAAGCTAT -TAACTTTCTCTTCTTCTATGCATTAGAATCATCAAGTTTTGTAAATCAGACGCAGGCATGATAGACCTGC -CTTTACAGAGGGACGCTCAGTGGCGCGGATAAACCGTATTTCGATCACGCTCTGTGCTTTACTTTTTACC -ACCCTGCCTTTAACGCCTATGGCCCATGCTTCAAAGCAAGCCAGGGAGAGTTCTGCTACCACTCATATCA -CCAAAAAAGCAGATAAAAAGAAAAGCACGGCAACCACCAAAAAGACCCAGAAAACAGCGAAAAAAGCCGC -CAGTAAAAGTACGACCAAAAGCAAAACCGCTTCTTCCGTTAAAAAATCTTCCATTACCGCTTCTAAAAAC -GCCAAAACTCGCAGCAAACACGCCGTCAATAAAACGGCCTCAGCCAGCTTTACCGAAAAGTGTACCAAAC -GTAAGGGCTATAAATCGCATTGTGTGAAAGTCAAAAATGCCGCGTCAGGAACTCTTGCCGACGCGCACAA -AGCGAAGGTGCAAAAAGCTACGAAAGTGGCAATGAATAAACTGATGCAGCAAATTGGTAAGCCATATCGT -TGGGGTGGCAGCTCACCGCGTACCGGTTTTGATTGCAGCGGCCTGGTTTATTACGCTTATAAAGATTTGG -TGAAAATTCGTATTCCGCGTACGGCGAATGAAATGTATCACCTGCGTGATGCAGCGCCAATCGAACGTAG -TGAACTGAAAAACGGCGACCTGGTCTTTTTCCGTACTCAGGGACGCGGCACAGCCGATCATGTCGGCGTG -TATGTCGGCAACGGCAAATTTATTCAGTCACCGCGCACAGGTCAGGAAATTCAAATCACTTCTCTCAGTG -AAGACTACTGGCAGCGCCACTATGTTGGCGCTCGTCGGGTAATGACCCCAAAAACACTTCGCTAAAACTT -TACCCTGTTGTTACGGCAACAGGGTAAGTTCATCTTTTGTCTCACCTTTTAATTTGCTACCCTATCCATA -CGCACAATAAGGCTATTGTACGTATGCAAATTAATAATAAAGGAGAGTAGCAATGTCATTCGAATTACCT -GCACTACCATATGCTAAAGATGCTCTGGCACCGCACATTTCTGCGGAAACCATCGAGTATCACTACGGCA -AGCACCATCAGACTTATGTCACTAACCTGAACAACCTGATTAAAGGTACCGCGTTTGAAGGTAAATCACT -GGAAGAGATTATTCGCAGCTCTGAAGGTGGCGTATTCAACAACGCAGCTCAGGTCTGGAACCATACTTTC -TACTGGAACTGCCTGGCACCGAACGCCGGTGGCGAACCGACTGGAAAAGTCGCTGAAGCTATCGCCGCAT -CTTTTGGCAGCTTTGCCGATTTCAAAGCGCAGTTTACTGATGCAGCGATCAAAAACTTTGGTTCTGGCTG -GACCTGGCTGGTGAAAAACAGCGATGGCAAACTGGCTATCGTTTCAACCTCTAACGCGGGTACTCCGCTG -ACCACCGATGCGACTCCGCTGCTGACCGTTGATGTCTGGGAACACGCTTATTACATCGACTATCGCAATG -CACGTCCTGGCTATCTGGAGCACTTCTGGGCGCTGGTGAACTGGGAATTCGTAGCGAAAAATCTCGCTGC -ATAATAACTGATGGCAAATGCAGCATTGCCTGAAGCGCTACGCTTATCAGGCCTACGCGGATCATCGATG -TAGGTCGGATAAGGCACTCGCCGCATCCGGCAAGATAAATCGCACGTTGTCAGCAACTGTAACGCAGAAG -GTTATCCTTCTGCGTTTTTGTTTAATTAGCTGTTAGCAACGCAAACTGTTTCAGGTTGTTTTCTGGCTGA -CATAAACACCAGCAATAATGCCAGTCCCGCGACAATCGCTCCCATCACCGGCACAAAGCTGTATCCCAGC -CCAGCGGAAATTACCGCACCACCAGCAGCTGCTCCCAGCGCATTTCCAAGATTAAAGGCACCAATATTGA -CTGATGAAGACAGACCTGGCGCTTCACTGGCGACACGCATCACGCGCATCTGTAACGGCGGTACGACCGC -AAAGGTTGCTGCGCCCCACACCACCATGCTAATAGCTGCGCCGAACTCATTGCGGGCCAGGAACGGGATT -GCCAGCATAATCACCATCAACAACAACAAAAAGCCTTTCAACGTGCCGTTAACTGAACGATCTGCCAGTT -TGCCGCCGAGATAGTTACCGATAGAGAATCCGACACCAATCAGCACCAGCATTGCCGTGACGAACACCGG -TGTTGCGTGGGTAATACTTTGCAGTACCGGAGAGATATAGGTGTAGAGAGTAAACATTGCACCAGCTCCC -AGTACCGTCGTCAGCAATGCAGACAGCACCTGCGGACGCATTAATACCGCCAGCTCTTTTTTCACTTCAG -GTCGTGCCCCTGCACCACCTTTAGGTAATGAGAAGAACAGACTTACCATTGAAATCACTCCCAGCCCCGC -CGTTGCCAGAAATGACATCCGCCAGCCGATGGTTTCACCCAACCAGGTCGCCGCCGGCACGCCACCGATA -TTTGCCAGGGTTAACCCCATAAACATAGTGGCAACTGCGCTGGCCTGTTTATGTTTTGGCACCACGCTTG -CGGCCACGACTGAACCCAAACCAAAAAATGCTCCGTGATTCAGGCTGGTCAAAATGCGTGAAAGCATCAG -GGTCATATAATCCGGCGCGATGGCGGAAAGTACGTTGCCGAGCGTGAAAATTGCCATCAGGAAAATCAAC -GCACTGCGGCGGGCACGATGAGAAAGTAGAAGCGTCATCAGCGGCGCGCCAACCATTACGCCAACTGCAT -AGGCACTGATTAACATTCCGGCAGCGGGAATCGAGACATCCACACCGCGCGCAATGACGGGCAACAAGCC -CATTGGCGAGAACTCCGTTGTCCCGATACCAAACGCGCCAATCGCCAGCGCCAGCAACGGATAGTTAATT -TTCATGCCTTATCTCCACCTCTTCGCGTCATTACGCGATATTCATTAAAGTGGCGAAAGCATGACAGCAA -TCACAAAAAAATGAAAATAACAAAAAGAGAAAACACTTTTGCCATTTTGCTAACAAACAGGAAGGAGATG -CGAGGGAGAACGCGCTCCCTCGAGAGGAAATCAGTGCAGCGCGGCAGTCAAACCCACGGCTACGATCAAA -CCGAGGACGATAATCGTTGTTACCAGTGAAAATTTAAGGTCGGTGCTCATCAAGTTTTCTCCTTTTTTAT -TACCACACAAAAAGTGATATTACGCATTTTTACACACTGTGATGAAAAAATCTCCCGTCATTTATAATGA -TAAGTGTTTTTACCACTTCCCCTTTTCGTCAAGATCGGCCAAAATTCCACGCTTACACTATTTGCGTACT -GGCCATTGACCCCTTCCTGACGCTCCGTGTCGTTTTTCCGGCGTACCGCAACACTTTTGTTGTGCGTAAG -GTGTGTAAAGGCAAACGTTTACCTTGCGATTTTGCAGGAGCTGAAGTTAGGGTCTGGAGTGAAATGGAAT -GGCAACAATAAAAGATGTAGCGAAACGAGCAAACGTTTCCACTACAACTGTGTCACACGTGATCAACAAA -ACACGTTTCGTCGCTGAAGAAACGCGCAACGCCGTGTGGGCAGCGATTAAAGAATTACACTACTCCCCTA -GCGCGGTGGCGCGTAGCCTGAAGGTTAACCACACCAAGTCTATCGGTTTGCTGGCGACCAGCAGCGAAGC -GGCCTATTTTGCCGAGATCATTGAAGCAGTTGAAAAAAATTGCTTCCAGAAAGGTTACACCCTGATTCTG -GGCAATGCGTGGAACAATCTTGAGAAACAGCGGGCTTATCTGTCGATGATGGCGCAAAAACGCGTCGATG -GTCTGCTGGTGATGTGTTCTGAGTACCCAGAGCCGTTGCTGGCGATGCTGGAAGAGTATCGCCATATCCC -AATGGTGGTCATGGACTGGGGTGAAGCAAAAGCTGACTTCACCGATGCGGTCATTGATAACGCGTTCGAA -GGCGGCTACATGGCCGGGCGTTATCTGATTGAACGCGGTCATCGCGAAATCGGCGTCATCCCCGGCCCGC -TGGAACGTAACACCGGCGCAGGCCGCCTTGCCGGTTTTATGAAGGCGATGGAAGAAGCGATGATCAAGGT -GCCGGAAAGCTGGATTGTGCAGGGTGACTTTGAACCTGAATCCGGTTATCGCGCCATGCAGCAAATCCTG -TCGCAGCCGCATCGCCCTACTGCCGTCTTCTGTGGTGGCGATATCATGGCAATGGGCGCACTTTGTGCTG -CTGATGAAATGGGCCTGCGCGTCCCGCAGGATGTTTCGCTGATCGGTTATGATAACGTGCGCAACGCGCG -CTATTTTACGCCGGCGCTGACCACGATCCATCAGCCAAAAGATTCGCTGGGTGAAACAGCGTTCAACATG -CTGTTGGATCGTATCGTCAACAAACGTGAAGAACCGCAGTCTATTGAAGTGCATCCGCGCTTGATTGAAC -GCCGCTCCGTGGCTGACGGCCCGTTCCGCGACTATCGTCGTTAATCACCCGTTGCGGGAGTCTCTTCCGG -CTCCCGCAGCCACTCCTTATTCAGCGTCTCACTATCGCCGAGATACTCAAGCAACCAGGTTAACGCAGGC -GACATATCATTTTGCTGCCATGTCAGACAACATGCCGAATCCGGAAAGGGGTTTTCCAGTTCTAATGCTA -CCCACTTCCCCTCATTAAGCCACGGTTTGGCGAAATGTGTTGGCACCATCCCTATGCATAATCCTGCCGA -GATACAGGTTGCCGATGATTCCCAGTCAGGCACGACAACTCTTTTTTGGTTATCCAGCAACCAGGTAATA -CGTTTAGGTAGCGTTCGCGAGGTGTCTTCGCGCACCAACGACGGCCAGTTGCGCAACGTATCATCGCTGA -ACGGGCCATCCATCAACGCCAGCGGGTGGTGACTGGCAACAACGCAACTCCAGCTTAGCATCCCCATATC -CCGGAAGGCATAACGACCGCCTACCGGAATCGCGCGTGTTGCGCCAATCGCCAGTTCCACGCGCCCGTCG -GAAAGCGCATCCCAGACACCGTTGAACACTTCCTGAAAGACAAGAAGTTCGACATCATCAAAATGGCGAT -AAAAATCAACGATCATCTGCCGTGTACGTTCTGGCCTGACAATATTATCCACTGCGATAGCTAACTGACC -GCGCCAGCCGTTCGCTATCTGCTGACATTGCTGGCGGGTGATCTGCATTTTTTTGACAACAGAGCGCCCT -TCTTTGAGAAACCACGCTCCAGCAGCGGTCAGCTCCACATCACGGTGCCGTCGTTCAAAGAGCGGCACCG -CCAGCCACTCTTCCAGCTGACGCACGGTATAGCTGACCGCAGAAGGAACGCGATGCAGCTCCTGTGCCGC -AGCGCTAAAACTACCATTACGCGCTACCGCATCAACAACTTCGAGTGAATATTCTGACCACATAGTCTGC -CTGCAAAATTTTTGAAACCAGTCATCAAATATTACCGTTTCACAACACTAATTTCACTCCCTACACTTTG -CGGCGGTGTTTAATTGAGAGATTTAGAGAATATACATGCAACCTGGGAAAAGATTTTTAGTCTGGCTGGC -GGGTTTGAGCGTACTCGGTTTTCTGGCAACCGATATGTATCTGCCTGCTTTCGCCGCCATACAGGCCGAC -CTGCAAACGCCTGCGTCTGCTGTCAGTGCCAGCCTTAGTCTGTTCCTTGCCGGTTTTGCCGCAGCCCAGC -TTCTGTGGGGGCCGCTCTCCGACCGTTATGGTCGTAAACCGGTATTATTAATCGGCCTGACAATTTTTGC -GTTAGGTAGTCTGGGGATGCTGTGGGTAGAAAACGCCGCTACGCTGCTGGTATTGCGTTTTGTACAGGCT -GTGGGTGTCTGCGCCGCGGCGGTTATCTGGCAAGCATTAGTGACAGATTATTATCCTTCACAGAAAGTTA -ACCGTATTTTTGCGGCCATCATGCCGCTGGTGGGTCTATCTCCGGCACTGGCTCCTCTGTTAGGAAGCTG -GCTGCTGGTCCATTTTTCCTGGCAGGCGATTTTCGCCACCCTGTTTGCCATTACCGTGGTGCTGATTCTG -CCTATTTTCTGGCTCAAACCCACGACGAAGGCCCGTAACAATAGTCAGGATGGTCTGACCTTTACCGACC -TGCTACGTTCTAAAACCTATCGCGGCAACGTGCTGATATACGCAGCCTGTTCAGCCAGTTTTTTTGCATG -GCTGACCGGTTCACCGTTCATCCTTAGTGAAATGGGCTACAGCCCGGCAGTTATTGGTTTAAGTTATGTC -CCGCAAACTATCGCGTTTCTGATTGGTGGTTATGGCTGTCGCGCCGCGCTGCAGAAATGGCAAGGCAAGC -AGTTATTACCGTGGTTGCTGGTGCTGTTTGCTGTCAGCGTCATTGCGACCTGGGCTGCGGGCTTCATTAG -CCATGTGTCGCTGGTCGAAATCCTGATCCCATTCTGTGTGATGGCGATTGCCAATGGCGCGATCTACCCT -ATTGTTGTCGCCCAGGCGCTGCGTCCCTTCCCACACGCAACTGGTCGCGCCGCAGCGTTGCAGAACACTC -TTCAACTGGGTCTGTGCTTCCTCGCAAGTCTGGTAGTTTCCTGGCTGATCAGTATCAGCACGCCATTGCT -CACCACCACCAGCGTGATGTTATCAACAGTAGTGCTGGTCGCGCTGGGTTACATGATGCAACGTTGTGAA -GAAGTTGGCTGCCAGAATCATGGCAATGCCGAAGTCGCTCATAGCGAATCACACTGATCTATATCGATAT -ACTTATACTTAGGCTGCTAACAAAATTTTGTTGTATGATTGAAATTAGCGGCCTATACTAATTTCGAGTT -GTTAAAGCTACGATAAATATTATGTTTTTACGGGGACAGGATCGTTCCCGACTCACTATGGATAGTCATT -TCGGCAAGGGTTCCTCCTTTCCCTCTGTTCTACGTCGGATTATAGACTCGCGGTTTTTTCTGCGAGATTT -CTCACAAAGCCCAAAAAGCGTCTACGCTGTTTTAAGGTTCTGATCACCGACCAGTGATGGAGAAACTATG -AGTTCATCGTGTATAGAAGAAGTCAGTGTACCGGATGACAACTGGTACCGTATCGCCAACGAATTACTTA -GCCGTGCCGGTATAGCCATTAACGGTTCTGCCCCGGCGGATATTCGTGTGAAAAACCCCGATTTTTTTAA -ACGCGTTCTGCAAGAAGGCTCTTTGGGGTTAGGCGAAAGTTATATGGATGGCTGGTGGGAATGTGACCGA -CTGGATATGTTTTTTAGCAAAGTCTTACGCGCAGGTCTCGAGAACCAACTCCCCCATCATTTCAAAGACA -CGCTGCGTATTGCCGGCGCTCGTCTCTTCAATCTGCAGAGTAAAAAACGTGCCTGGATAGTCGGCAAAGA -GCATTACGATTTGGGTAATGACTTGTTCAGCCGCATGCTTGATCCCTTCATGCAATATTCCTGCGCTTAC -TGGAAAGATGCCGATAATCTGGAATCTGCCCAGCAGGCGAAGCTCAAAATGATTTGTGAAAAATTGCAGT -TAAAACCAGGGATGCGCGTACTGGATATTGGCTGCGGCTGGGGCGGACTGGCACACTACATGGCATCTAA -TTATGACGTAAGCGTGGTGGGCGTCACCATTTCTGCCGAACAGCAAAAAATGGCTCAGGAACGCTGTGAA -GGCCTGGATGTCACCATTTTGCTGCAAGATTATCGTGACCTGAACGACCAGTTTGATCGTATTGTTTCTG -TGGGGATGTTCGAGCACGTCGGACCGAAAAATTACGATACCTATTTTGCGGTGGTGGATCGTAATTTGAA -ACCGGAAGGCATATTCCTGCTCCATACTATCGGTTCGAAAAAAACCGATCTGAATGTTGATCCCTGGATT -AATAAATATATTTTTCCGAACGGTTGCCTGCCCTCTGTACGCCAGATTGCTCAGTCCAGCGAACCCCACT -TTGTGATGGAAGACTGGCATAACTTCGGTGCTGATTACGATACTACGTTGATGGCGTGGTATGAACGATT -CCTCGCCGCATGGCCAGAAATTGCGGATAACTATAGTGAACGCTTTAAACGAATGTTTACCTATTATCTG -AATGCCTGTGCAGGTGCTTTCCGCGCCCGTGATATTCAGCTCTGGCAGGTCGTGTTCTCACGCGGTGTTG -AAAACGGCCTTCGAGTGGCTCGCTAAAGGCTATTCTATCGCCCCCTCTCCGGGGGCGATTTCAGATCAGG -CTTCTGTGCCTGGTTGATTCATGGCATTTTCTCGTGCCGCCAGCACACGTTCTACCGTATCTACCACTGC -CTGAGTTTGTGGATCGATTTCAATGTTGACGCGTGCGCCAAGTTTTTTCTTCCCAAGAGTCGTGCGTTCC -AGTGTTTCCGGAATTAAATGGACGCAAAAACGCGTTGGCGTGACTTCGCCGACGGTCAGGCTAATACCGT -CGATGCCAATAAATCCTTTGTACAGAATATATTTCATCAACTGACTATCCTGGACTTTAAACCAGATCTG -GCGATTATTTTCTGAGGTTAATATTTTCGCCACTTCAGCAGTGGTCATAATATGACCTGACATTAAGTGT -CCGCCAATTTCATCACTGAATTTCGCCGCACGCTCAACGTTTACCCAATCCCCCACTTTTAAATCGCCAA -GATTGGTAATGCGTAACGTTTCTTTCATCAGGTCAAAACTGACATGGTTGCCGTTAATTTCCGTCACGGT -CAGGCAGCAACCGTTATGCGCCACGGAAGCACCGGTTTCCAGGCCGTCCAGCATGTGGTCGGGTAACTCC -ACCACATGCGTACGAAAATTTGGTTTCTCGTCAATCGACACCAGTTTTGCGGTGCCCTGTACAATCCCCG -TAAACATACTTACAACTCCTGAAATCAGTTAAGACATTCTGTTCAGCACAATAGCAGGTGGAAAACGCCC -TTACCAGTGAAGGGGTAAGAATGGCTATTTTTTCACTGGAGAATTAATAAATCCTCGCTACAATAGACTG -AATTTCCCCTGCTTCTTCTTTTTGCTGCCCATTCAGGCGGCTTTTTAGTCTCTCATATAACTACAAATAA -AAGGTGTTCACGTGCAGAAGTATATCAGTGAAGCGCGTCTGTTATTAGCATTAGCAATCCCGGTGATTCT -CGCGCAAATCGCCCAAACTGCGATGGGTTTTGTCGATACCGTGATGGCGGGCGGCTATAGTGCCACCGAC -ATGGCGGCGGTCGCTATCGGTACTTCTATCTGGCTTCCGGCGATCCTCTTTGGTCACGGACTGCTGCTGG -CATTAACGCCGGTTATCGCGCAATTAAATGGTTCCGGTCGACGTGAGCGCATTGCGCATCAGGTGCGACA -AGGTTTCTGGCTGGCAGGTTTTGTTTCCGTTCTCATTATGCTGGTGCTGTGGAATGCAGGTTACATTATC -CGCTCCATGGAAAACATCGATCCGGCTCTGGCGGACAAAGCCGTGGGTTATCTGCGTGCGTTGTTGTGGG -GCGCGCCGGGATATCTGTTCTTCCAGGTTGCCCGTAACCAGTGTGAAGGTCTGGCAAAAACCAAGCCGGG -TATGGTAATGGGCTTTATCGGCCTGCTGGTGAACATCCCGGTGAACTATATCTTTATTTATGGTCATTTC -GGTATGCCTGAGCTCGGTGGCGTTGGTTGTGGCGTGGCTACTGCGGCGGTGTATTGGGTCATGTTCCTTG -CCATGGTTTCTTACATTAAACGCGCCCGCTCCATGCGCGATATTCGTAACGAAAAAGGCACCGCAAAACC -CGATCCTGCGGTTATGAAACGACTGATTCAACTCGGTTTGCCGATTGCGCTGGCACTGTTCTTTGAAGTG -ACACTGTTTGCCGTCGTGGCTCTGTTAGTGTCTCCGCTCGGTATTGTTGATGTCGCAGGACACCAGATTG -CCCTGAACTTTAGTTCACTAATGTTCGTGCTTCCAATGTCGCTGGCGGCAGCGGTAACTATCCGCGTAGG -TTATCGTCTGGGTCAGGGCTCAACGCTGGATGCGCAAACCGCTGCGCGGACCGGGCTTATGGTGGGTGTC -TGTATGGCAACCCTGACGGCCATTTTCACGGTTTCACTGCGGGAGCAAATCGCCCTGTTGTACAACGACA -ATCCCGAGGTTGTAACGCTGGCTGCGCATTTGATGTTGCTGGCGGCGGTATATCAGATTTCTGACTCAAT -CCAGGTGATTGGCAGTGGGATTTTGCGTGGTTATAAAGATACGCGTTCCATTTTCTATATTACCTTTACG -GCTTACTGGGTGCTGGGCTTGCCAAGCGGCTATATTCTGGCACTGACCGATCTGGTCGTTGAACCTATGG -GGCCAGCAGGCTTCTGGATAGGCTTTATTATTGGCCTGACGTCGGCAGCCATTATGATGATGTTGCGTAT -GCGGTTCCTGCAACGTCTGCCGTCAGCCATCATTCTGCAACGAGCATCCCGCTAATAAAGACAAGGCGCA -ACCTTCACGGGTTGCGCCTGTATTTTTACGCAGGCTGGAGCGTTGCGCCAATCCCGTCTTCGTCTGGCTG -TAATTTCAGAGCGTTACACAGAGTTTGCCGACTGGCATCTGTTATCTCAACGTGTATATCCCCGGTAACT -TCCCCTTTCACATTGATGAAGTCAGGTGAAATTTCTTTTGCACTGGTTTGCAGGCAAATCGCTCCCTCTC -CGCGCAGGCGTTTCACTTTCAGTTGCACATGCGTTGCCGCATCAGTGATCAGCCACAGTTTTCCACCATT -CAGATTGATGTTACCAACAATGAAAGTGACACTGTCACCTTTTACCGTACTGCCGTCTAGAATCAACACA -CCGCCCTGCTGTACAGTAATCGTTGATTGTTGCAGCTCTGCGCCATAACCAATAATCATTGAAGCGCCGT -CCAGTAATGCAACACTCCCGGTCAGTTCAACCGGTGCGCGATCTTCCTCTACGACAAAATTTTCGTCCGC -GCTGGTGGGTGACAACAGGATCACTGTCCCACCTTGTATTACCGCGTTTTCCAGCGTACCGGCATGCACT -TCAGCCCGACCACCCACATTCACGGACAGGTTTTGCGTCTTACCGGAACTGTAGAGCTGAAGGCCATCCG -TCCCCAGACGATAAATGGATCCATTCTCAACAATAGTGTCAGAGTCTTCACCACCGAGATTATTCATGGT -GCCACCAGCAAGCAACGTATCACTGGCTTTCCCGGCCAGCATAAAAACGCCGCCCTGATTAATCTCACAA -TTGCTGGCTTCCCCACCTGGATACACCAACAATTCACCACCTTCATCTACCACGACCGCTGAGGTTGTCC -CATTAACCAACAGGCCGCCCTCTTGATCGAGAATGATTTTTTCCGCGCGATGTCCTTCCAGTACACGCAG -GTTACCGCCATTTTCCAGCAACAAACCGCAGGCATAACCTTTATCAACGCTGAATTCACCTTCGGGATGG -CGGCCATTAACCGTAGCGAGCGTAGAGAGACTAATTGCGCCTCCCTCGGACTGAACAATATCTGTGGCAA -TGGCACCATCGCTGACCGATAGCGTGCCATTGTTACCGTACTGTGTGCATTTGGCGATCCCACCGGTTGC -CACTTTCAACCAGCCAGCCCCCGTGACCACGGTATTTTCGGCTCTTCCGCCAGCTTCAACAATCAACTCG -CCTTCAGTAAGTTGCGTCGCGCCAATGACCTCGCCGGTCTTAACAATTTGCACGTTCCCGTCGCTCATCA -AGTTTTTCGCATCAGATCCCATGATTTATTCCTTTGCTGCATCTGTGTGCCTTTATTGCTACCTAAGTGT -AAAGGCTACGGAGGATTTATCCACGACAGATTTGAGATGGTGGCAAACAACTCTGTTTAAACTCTGATAC -ACGAATTATTGGGTTGTATCAGATGTAAATGCGATCCTGAATAAAAATCACCCTTGCAAATCAACAAAAT -ATAGCCAATTTGCTTAAAAGCTCTGCAAACGGTCGAAATAGCGCAGAAAATTACGTTTTGCCTCTTGCCA -CCTTCCCACTCTGCCGCTAATATTCGTCCCCGTTGTCACCTACAACGTTGCGTTCATAGCTCAGTTGGTT -AGAGCACCACCTTGACATGGTGGGGGTCGTTGGTTCGAGTCCAATTGAACGCACCATCCTGCGTCCGTAG -CTCAGTTGGTTAGAGCACCACCTTGACATGGTGGGGGTCGGTGGTTCGAGTCCACTCGGACGCACCAGAT -TTTCTTAATCTGGTCTTCTCCTTTTTCCCTCTGTTTCTTCTCTGTATCCAATACGTTAAAAGATTTACAC -TGTCTTCGTATGCGTTATCAGAAGGAGAATCGCTATGGCAACTTTGTTACAACTTCATTTTGCTTTTAAT -GGCCCATTTGGCGACGCAATGGCTGAGCAGCTTAAACCACTTGCTGAGTCGATTAATCAGGAACCTGGTT -TTCTGTGGAAGGTATGGACAGAAAGTGAAAAGAACCACGAAGCCGGTGGGATCTACCTTTTCACTGATGA -AAAAAGCGCCCTTGCCTATCTGGAAAAACATACTGCCCGACTGAAAAATCTCGGCGTTGAGGAAGTTGTC -GCCAAAGTTTTCGATGTCAATGAGCCACTTAGTCAAATCAATCAGGCAAAACTCGCCTGACAGAATTTAA -TCAAGGGCGGTTAGCGCCCTTTTCATCCCTGTCTGAAATTTCTCAAATTCTAAAAATCTCAACCAAACTT -ATCTGATAACACTAAATTCGAAAGAATGCGTACAGGTAAGTAACAATGAAAAAAATTGCTATTGTGGGTG -CCGGGCCTACGGGGATCTACACCTTATTCTCGCTTCTACAGCAACAAACTCCACTTTCTATTTCTATCTT -CGAGCAGGCTGACGAGGCCGGTGTCGGGATGCCATACAGTGATGAGGAAAACTCAAAAATGATGCTGGCA -AATATTGCCAGTATTGAAATACCGCCGATTTATTGTACGTATCTCGAATGGCTACAAAAGCAAGAAGACA -GCCATCTCCAGCGTTATGGCGTTAAAAAAGAAACCTTGCACGATCGTCAGTTTTTACCGCGAATTCTGCT -GGGCGAATATTTCCGCGATCAATTTTTACGACTAGTAGACCAGGCACGACAGCAAAAATTTGCAGTGGCT -GTTTATGAATCATGCCAGGTTACCGATCTGCAAATTACAAATGCTGGCGTCATGCTCGCTACAAATCAGG -ATTTACCCAGCGAGACGTTTGATTTAGCGGTGATCGCCACGGGTCACGTCTGGCCTGATGAAGAAGAAGC -AACCCGAACGTATTTTCCCAGCCCGTGGTCAGGCCTGATGGAAGCAAAGGTCGATGCGTGTAACGTGGGT -ATTATGGGAACATCCTTGAGCGGACTGGATGCGGCAATGGCAGTGGCTATTCAGCATGGTTCGTTCATTG -AAGATGATAAACAACACGTCGTTTTTCACCGCGATAACGCAAGTGAAAAGCTAAATATCACGTTGTTGTC -GCGCACGGGTATTTTACCCGAAGCCGATTTCTATTGCCCTATTCCCTACGAGCCCTTACACATCGTCACC -GATCAGGCATTAAATGCTGAGATTCAAAAAGGCGAAGAGGGCCTTTTGGATCGGGTATTTAGATTGATAG -TAGAGGAAATCAAGTTTGCTGATCCAGACTGGAGTCAACGCATAGCCTTAGAGAGCCTGAATGTCGATTC -CTTTGCTCAAGCCTGGTTTGCCGAGCGCAAACAACGCGACCCATTTGACTGGGCAGAAAAAAATCTCCAG -GAAGTCGAACGCAATAAACGAGAAAAACATACTGTTCCCTGGCGTTATGTCATTCTGCGCCTGCATGAAG -CCGTACAGGAAATTGTTCCACATCTGAATGAACACGACCATAAACGGTTCAGTAAAGGCCTTGCCCGGGT -TTTCATCGATAATTATGCGGCAATCCCTTCAGAGTCTATTCGTCGCCTACTTGCCTTACGTGAAGCGGGA -ATCATTCATATTCTCGCCCTCGGTGAAGACTACAAAATGGAAATTAATGAGTCGCGCACCGTCCTGAAAA -CGGAAGACAACAGCTACTCGTTTGACGTTTTTATTGATGCCCGCGGACAACGTCCGCTTAAAGTGAAAGA -TATCCCTTTCCCTGGGCTACGCGAGCAATTACAGAAAACAGGGGATGAAATCCCTGATGTTGGCGAAGAT -TATACGTTACAGCAACCCGAAGATATTCGTGGGCGCGTAGCGTTCGGCGCGTTGCCCTGGTTGATGCACG -ACCAGCCTTTCGTTCAGGGACTTACGGCATGTGCAGAAATTGGTGAGGCGATGGCTCGGGCGGTCGTAAA -GCCTGCATCCCGTGCTCGTCGGCGTCTTTCGTTTGATTAAAGGTAAAGCTATCAGCACTCAACAAACTGA -TGCTGTTCATTAAGACGATAGCGGACTCCGGCTCGAATATTGTTTTCACCTTCAATGGCGACGGCGAAGC -GAACTCTTTCGCCGTCATGATATGCCAGTGCGGCGCTTCCTCCTGGCCCGAGAATAATTGAGTCGACCAC -GCCCGTGCTCACTACCGTTGAATTTTCACCGCTGGCAATGATGTGTACATTGTCGCCGCTGTTGGCAATT -CTGGCGTTTGCGCCAAAGCTGGCGATTTGCACCAGGTCACCATTACTGGCGACATGACACCGTTCACCCA -ATGTACAAACGCGTACTCGCATTCCGGTATTCGCAATCCGACTGCTATCTCCAGCGCTGCTTATCCGCGA -AGAATTACCGGTTACAGCAACCCGTGCGCGTTCACCGGAGCTGCCAATGTGACTGTTAAAGCCGACACTT -CCAATCCGCACGCTATAACCCATACTGGCAATTTGCGCGGCATACCCAGCGGTTGCGATTCTGGCGTTAT -CCTCACAACAGCCGATGCGAGCATGATCGTCGCTGCGGGCAAACTGACTGCAAAATGGTCTCTCTCCGGG -GTCTGTGGCCAGTTTTTGCATAGAGGAAACTTCCTGATGCGCGAAGTTTTCATCCGCCAGCCATTTTTTC -CACGCATACTCAACCAGACTCTCCGCCCAGTCCGTATATCCTTCCTCAATCAGTGCATGATGAATATCGG -CATAACTACCGCCGCGTGGGAAATGGCGCAGGAACCAGCGATACATCACCGCTCCGATACGCCATTCTCG -CAGGTCTGCTTGTGTAATGATCATTCGTTAGTGCCGGTGATAGCCATCGACCATGCTTTTAAAGGTTTCG -TGTGGCGTACGCCCCGTGGTGCAAAGATAAAGATGACCGAAGATAAAAAAGAGGCTTATAAATGCCAGAG -CAAAATGTGTCTGCAATAACCAGTATCTTACGCCAGGAAACACATCTCCCACGGCTTGCGGATAGAGACA -CAGCAGCCCCGTCAATAGTAACAACGGCAGCAATCCATACATGACACCAACATAGGCGACCTGCTGTAAG -GGATTAAATTTAGACTGGGTTGTTGCCGGGAAAGGATGTTCTTCCCCCTGCATAATGCCAAACAAATAAA -ATCGCGTTTGTTTTGCCGCTCGTTCCAGCCACCCCTGACGACGAATGCGATAGTGGTGACCATTATCCCC -AACGGCATTGATCAGCACAAAGCCGAGCCAGCATGCCAGTAACAAAAATCCGCAAACTTCATGCACCGCA -ACCAGACTTTTAACCGCAGTTGCGCCCACCATCGCAAAGTGATTTATCAGCCCACTGGCCAGCAACAATA -CAAAGAGTAACGCATTCGACCAGTGCCATAATCTGACCGCTTTGCTGTAAAGATAAATCTTCTCACCATG -ATCGGTGGCTGATTTCTTCACGCCACGAGCACGAAGCAAGGCATGCAGCCCCAGCACCAACCACATCCCA -ACCAGCAATACTCCGGCAATGATCAACCACACCGGCCAAAATTCGGGAGTGAACTGTGGCACATAGTTCG -CTAACTGGCTCTGAAACTGTTCAGCATGTTGCGACGGGTTCATACATTTTCCTTTTTAATCAAATGTTGA -CCGAACCGGCGATACAGATGCGGTTTCCCGGCACCAGGTAGCTGATATTGATAGTATTTATTTTGCTGCA -ACCACGCCTGAATTTCTGGGCTATCTTCGCGACCAAAGATCAATGCGTGTTCCGGGCAGGCGCTGACGCA -AATGGGCGGAAAGCCTTTTGCCAGTCGGGACTCAGCGCAGAAATCACATTTATCTGCCACTTTAGTGACA -GGGTTAAGGTAGCGAACCTGGTACGGACAAGCGCCAATGCAATAACTGCAGCCGATGCACTGCGATTTTT -CTACCCGCACGATCCCCTGCTCATCACGCCACGACGCCCCCGTCGGGCAAACGTCGATGCACGGAGCATC -TTCGCAGTGCTGACATGACTGGCGAAAAAAGTGATACTGCGTTTCGTTGTCGTTATCGGTGACTGGAATG -TGTGCTATCGATAAACGGCTTCCCTGAGCGGGGACGTGGTTAGTTTTACGGCATGCGCGGGCGCAAATAT -TACAGCCATTGCACCGTGACTCGTCATGAATCATGGCATACCGAACTTCCTTTTCTTGCCTCGTGTTCGC -TAACAGAGAAGACGCAGAACCAGTAAAAAAGATTACTGTTCCCATCCCCAGAACAAATTTGCGTCGAGTG -AAGGACATCTGATTATCCCCTAATGCAGTGGCTGCAACTGTCCACCCTATCCATGACATCTCCCTGAAAT -TTCAGGGGTTCTGAAACTGCTCTACCTCGAACCATTCGCATAAGCCATAAGCCTTGCCATAGGTCATAAA -TCGCTCGCTAAACAAGTACAACACCGCCGTCGATGACTCCACCTGCCGTATATCGGCATATTCAGGTGCA -ACATCCATCGCGGCGATCGCGGCTTCAATCTGCGCTTCCTGGAAGTAATATGGCGCTTGCATCAGCATGG -CGACTTTGTAAGGACGAGGATACGTCTGGCACTCAAAACGAACGGCGTGTGCAATGGCGCGACAAATGTC -CTGCTCCACAACTTGCAAAGACATCGCCGCGTAGTTTTCACTCATGGCCTGCGTTGAGTAATAGTAATCA -TCCTTGCTTCCCGTCAAACAAGCGATATCCGCGTAGTCTCCGTTCTGCTTAATGCTTTCCAGCAAAACTG -ACAGTTCCTCTTCTGCAACCAAATAGGGTGGCGAGAGAAACACGGCGCGCGCCACCAGCTGCCCAGCCGC -AGAATGCTGGCGAATGAACTCAGCCAGGATTTCAGCAGGTTCTGGTTCGGTTACCGTATCAACGGGGTGA -CGCATCCCCTGCAACCATTGCCGCTTCGCCTCGTCAACTTCGCTGACTTTCGCTAACGGCAATTCATCCT -GATGGTTCATCTTACCCATTCCTTACGCAGGCAGTAGATTGTGTGCTGCCAGATCGGCGGCAATATCTTC -CAGCCCCAGACGCTGCAATGTTTCGCGGGTTGGACAACCAAGCTGTGGGTCCCAGCCCATTTCTTTGTAG -AACATCGTGAGCGAAGCATGCATATCGTCACGATCCATTTTGTCAGTACCTTCAGTAAAGACCGGGATCT -GCGGATCCTTGTCGAATACCCAGGAACAGATAAGATCGTGTTCATTACGCATATCTTTGGTTTGCATCAG -TTTTACCGTGTAGGCACGATGCAACGTAAAAATACGCTCTGCAGCTAAATCTAATTTTTCCTGAGTCATC -TCTTCGCCGGTGATCGCTTTGAAGAATTTGGCTTCAAGCGCCAGATCGCCCCGGTAATTACGGCTTTTCA -GCGGCGAAACGGTCATTGGCCAGACCCAGTTGCACAGGGTGACGGCGTTATGCAAACAGACCCGCAACAG -CGACCACTTTGCATATTTAATTTTTGCGTCATTGATTGGCGTGTAGTTTTTGGTTTCATCGTAAGCATCT -TCAGAACCAAAAAGTTCTTTCGCCACTTCACGTTGCAGTTTCAATGGCAAGCCGGAACCAATAAAGTTGA -TATGGGTATGCGTCATGCAGTCACGGTTGAACATACAGTTAACAATGGAACCGACCTGCGCTGACGCTTC -ATTGGCATGGTGAACCGGATAGCCAAACGGCGACCAGAGTTTATTTTTCGCGTAGCCCCAGTACTCTTCA -CCCAAATTCCAGCGTTCTGCGATGGCATATGAACCATCAGCCAGGTGACTCAGCTCACCCACACGATGCG -CCAGACGGTAGTAAAAATCTTTAATGAAGTTAACGTCACCCGCTTCCAGTTGATCCCAGCGAATTTCTGC -ATACTCTTCAGCTGGCAGAACACGCTTGAACACACCTTTGCTGTAACAATAAGTAAAGTCGCGATGCAAC -TGCCCGTAGTTACACCATAGGCCGTAGTCATCGAACAAATTCAGACCCACCAGGTTACCAATCACACGAC -CATCGTCTTTATCTTCAAAATCTTTCGGCCCGTTCGGGAAGATGGTGGTATGGACAAAGTTTGCTACACA -AGTGTTACCACCTGTGCTGGGCACGCCAAACTCTTTCACCCGAGGAATATTCATTTGGGTCATACAACGG -ATCGGGCAAGAGTGGCAGCCGCTCATTTTTACTGTGTATTTCTCTGCCGCCGGTCCTAAGTCAAAAACGG -ATTTATAGGTACGAAAGCCGACCGTATTCTGATTGCCTGGCGGAATTTCACCCGTTTCAATCGGACCACC -TTCAGCCGCGCCCCAAAACAGCCCTTTACGTGCTGTCCAGCGTGACTTGGGATCTGAATACTCTGCCCAC -GATTGTGGCGTACTTGGCACGACATGGTTGTTATTCGCACCAATAAGTTCAGTCATCATGTAATCATTGA -GACGCTTCATCTCCTGACGATCGGCAATGTTGACCCCTTTCGTCCCTTCAACCGCAATCGCTTTCAGGTT -TTTCGAACCCATTATTGCGCCAGTTCCCGCACCGCCGCTGTGGTTACGGCTATTCAACATGCCAGAGAGA -GGAACAAGGTTTTCCCCAGCCTGACCAATAGCCGCCACACAGGTTTCCGGACTGGTCAATCGACAAATTT -CTTCCGTCGTTGCGCGCGTCCCTTTTCCCCATAAGAAATCGGCTTTTTCCAGGCTAACTTTGTCATCTTT -AATCTTCAGCCATACCGGTGATTTCGCCTTCCCTTCGATAATAATGACGTCGTATCCAGCGAATTTCATT -TGCGCTGCAAAAAAGCCACCCATATGGGCATCGACGACTAAATTTCCTTTGGTAAAAGTAGAAAGTGAGG -TGATATTTACGCGAGAACTACAGGGGGCACCAGATCCAGTTAATGGGCCGGTAGCAAAGACTAATTTATT -CGCTTCATCGAAAGGTTTCGTGCCTGGCGGTACTTCGTCATACATAATTTTGTAGCCGAAGCCCATGCCA -CCGACAAAACTTTTAAACTTACTGGAATCTTCGAGGGTAATATTTCCTGTCGTGAGATTGACTCTTAATA -TATTACCTGTCCAACCGTTAGCCATGATTTTTTCCTTTGCAAGATTCACACAGTAATATCTTTCCACTCG -ATAATTTTTAACGCCCCTGTTGGGCAGGCGTTTGCGCATTCACCGCATAACACACATTTCGAGGATTTTT -TACTTTCGGTATTTACGGTGGCCATCATCCACGGGCATGCCGTAGTACAGGCGCTACAGCCAATACAGCG -TTTATGATCGACGGTAATACAGCCTTCTTTCTGCTGCCAGGTAATCGCACCAATCGGGCAGACGTTCATG -CATTGCGGCTCTTTGCATTGACGGCAGGTGTCCGCGGTATAGTTGAGATCGCCATACAGGCCGCCGCCAG -AGCCAACCCCGTTGTCGCCAAAGAAATAATTGCGATGGATTTTGATACGGGAGAAGAATGTCCCTACTGA -GCCATCGTTGAAGTTGGTACAAGAGATTTCACAGCGGTGGCAACCCGTGCATCGCGCTCGCTGGGTCACC -AGCACCCCTTTGGGGGTATTTATCAACCCTACTGTGCCGCTATCAATATCTTCCTGTTTGCAACCCAAAA -GTGACAGTAACGCAGGGGCAATTGTTAGACCAGCAAGGCCTTTTCCTGATATACGCAAGAATTCTAATCG -CGTTAAGCCAATATCTAATAGTGGACGATCAACCGGGTTCATTTATTTCGCATCCTCTTCGCAAACACAG -TGCTGACAATTCAGCAGCCTGATATTAAGCATTCAACTAATACGCTGCTGACTCTGTCCCCAACACCAGA -TATTTTCCCTAACCCGATAGTGTATGAGAAAAGATTAACGCCGATAAACTAATCCTTTATGGTTAGGAGA -AAAAATAATGTGATTATTCTGAGCCCTTAACATTGATCGTTATCAATTAAAATTACAAAGCAAGAAATTA -TAAGTGAACTGATATTTATTATCATTTGAAATAAATTTAACTTAAGCGACAATTATTTGTGACTTTCATT -GCAGAAAATAAAAATAACATTATCGCTATAAATTAAAATACATACCGAAATTCGTATAATTTCAGCAGTT -GTTATTTAGAATGATTAACTGGACCGCAACTGAAGCAAGAATATCAGGATGAAGCTTACCGCCTCATCCT -GAATGGTCATTTTACCAGTGCGTTAATGACGGTTTCCATCGCCTGCTTTTCCAGCTCACTGCGCTGAATG -CGTTTATTGGCTAATGCTGTACGTAATACGCCTGCGATAACAATATGCTTTGGTTCCTGCCCCAGATCGC -GCATTTCCAGCACAACTTTACCGACAACTCTGCACATTTCTCGGTACAGTTCATCCTCTTTTGTCCGATT -TCCCATTCTTTATACCTATTTATCATGCCAACTATCAGCATATATCAATCTAACCAATTAAACAAAAATC -AAACAAAATCAGACAAATAACGCGATAAATTATTTTAACTGTAGCAATTGAGCGATGATATATTTATACA -CCGGATGAACTTTCACTTATCCTCACACTGACAACTTCGGCACCAGACGTTGCGCAAACAGTGAAGTTTT -TGCGTAACCTTTTCCCTGGAACGTTAAATCTTTGATAACAATTTATTGTCTAACAAGTTGTATATTTTTT -GAAACGCTGTTTTTGTTTTCCTTTTGGATTAATTTCAGCGTATAATGCGCGCCAATTGACTCTTGAATGG -TTTCAGCACTTTGGACTGTAGAACTCAACGACTCAAAAACAGGCACTCACGTTGGGCTGAGACACAAGCA -CACATTCCTCTGCACGCTTTTTCGATGTCACCTATCCTTAGAGCGAGGCACCACCACTTTCGTAATACCG -GATTCGCTTTCCGGCAGTGCGCCCAGAAAGCAAGTTTCTCCCATCCTTCTCAACTTAAAGACTAAGACTG -TCATGAAAAAGACCAAAATTGTTTGCACCATCGGACCGAAAACCGAATCTGAAGAGATGTTAGCTAAAAT -GCTGGACGCTGGCATGAACGTTATGCGTCTGAACTTCTCTCATGGTGACTATGCAGAACACGGTCAGCGC -ATTCAGAATCTGCGCAACGTGATGAGCAAAACTGGTAAAACCGCCGCTATCCTGCTTGATACCAAAGGTC -CGGAAATCCGCACCATGAAACTGGAAGGCGGTAACGACGTTTCTCTGAAAGCTGGTCAGACCTTTACTTT -CACCACTGATAAATCTGTTATCGGCAACAGCGAAATGGTTGCGGTAACGTATGAAGGTTTCACTACTGAC -CTGTCTGTTGGCAACACCGTACTGGTTGACGATGGTCTGATCGGTATGGAAGTTACCGCCATTGAAGGTA -ACAAAGTTATCTGTAAAGTGCTGAACAACGGTGACCTGGGCGAAAACAAAGGTGTGAACCTGCCTGGCGT -TTCCATTGCTCTGCCAGCACTGGCTGAAAAAGACAAACAGGACCTGATCTTTGGTTGCGAACAAGGCGTA -GACTTTGTTGCTGCTTCCTTTATTCGTAAGCGTTCTGACGTTATCGAAATCCGTGAGCACCTGAAAGCGC -ACGGCGGCGAAAACATCCACATCATCTCCAAAATCGAAAACCAGGAAGGCCTCAACAACTTCGACGAAAT -CCTCGAAGCCTCTGACGGCATCATGGTTGCGCGTGGCGACCTGGGTGTAGAAATCCCGGTAGAAGAAGTT -ATCTTCGCCCAGAAGATGATGATCGAAAAATGTATCCGTGCACGTAAAGTCGTTATCACTGCGACCCAGA -TGCTGGATTCCATGATCAAAAACCCACGCCCGACTCGCGCAGAAGCCGGTGACGTTGCAAACGCCATCCT -CGACGGTACTGACGCAGTGATGCTGTCTGGTGAATCCGCAAAAGGTAAATACCCGCTGGAAGCGGTTTCT -ATCATGGCGACCATCTGCGAACGTACCGACCGCGTGATGAACAGCCGTCTCGAGTTCAACAATGACAACC -GTAAACTGCGCATTACCGAAGCGGTATGCCGTGGTGCCGTTGAAACTGCTGAAAAACTGGATGCTCCGCT -GATCGTGGTTGCTACTCAGGGCGGTAAATCTGCTCGCGCAGTACGTAAATACTTCCCGGATGCCACCATC -CTGGCACTGACCACCAACGAAAAAACGGCTCATCAGTTGGTACTGAGCAAAGGCGTTGTGCCGCAGCTTG -TTAAAGAGATCACTTCTACTGATGATTTCTACCGTCTGGGTAAAGAACTGGCTCTGCAGAGCGGTCTGGC -ACACAAAGGTGACGTTGTAGTTATGGTTTCTGGTGCACTGGTACCGAGCGGCACTACTAACACCGCATCT -GTTCACGTCCTGTAATATTGCTTTTGTGAATTAATTTGTATATCGAAGCGCCCTGATGGGCGCTTTTTTT -ATTTAATCGATAACCAGAAGCAATAAAAAATCAAATCGGATTTCACTATATAATCTCACTTTATCTAAGA -TGAATCCGATGGAAGCATCCTGTTTTCTCTCAATTTTTTTATCTAAAACCCAGCGTTCGATGCTTCTTTG -AGCGAACGATCAAAAATAAGTGCCTTCCCATCAAAAAAATATTCTCAACATAAAAAACTTTGTGTAATAC -TTGTAACGCTACATGGAGATTAACTCAATCTAGAGGGTATTAATAATGAAAGCTACTAAACTGGTACTGG -GCGCGGTAATCCTGGGTTCTACTCTGCTGGCAGGTTGCTCCAGCAACGCTAAAATCGATCAGCTGTCTTC -TGACGTTCAGACTCTGAACGCTAAAGTTGACCAGCTGAGCAACGACGTGAACGCAATGCGTTCCGACGTT -CAGGCTGCTAAAGATGACGCAGCTCGTGCTAACCAGCGTCTGGACAACATGGCTACTAAATACCGCAAGT -AATAGTACCTGTGAAGTGAAAAATGGCGCACATTGTGCGCCATTTTTTTTGTCTGCCGTTTACCGCTACT -GCGTCACGCGTAACATATTCCCTTGCTCTGGTTCACCATTCTGCGCTGACTCTACTGAAGGCGCATTGCT -GGCTGCGGGAGTTGCTCCACTGCTCACCGAAACCGGATACCCTGCCCGACGATACAACGCTTTATCGACT -AACTTCTGATCTACAGCCTTATTGTCTTTAAATTGCGTAAAGCCTGCTGGCAGTGTGTATGGCATTGTCT -GAACGTTCTGCTGTTCTTCTGCCGATAGTGGTCGATGTACTTCAACATAACGCATCCCGTTAGGCTCCAC -GGAATATTTCACCGGTTCGTTGATCACTTTCACCGGCGTTCCCGTCCGCACGCTGGAGAACAAGGCTTTA -ATATCCGGTGCATTCATGCGAATACACCCTGAACTGACGCGCAAACCGACGCTGTCCGGCGCACTGGTAC -CATGAATGAGGTATTCGCCATTACCATGCGCGAGGCGCAGTGCGTAACGTCCTAGCGGGTTATTTGGTCC -GGCAGGAACGACTGGCGGTAATTTAATGCCACGCTCCAGCGAACGCTGACGAATGCCTGCCGTAGGCGTC -CAGGTTGGGTTAGGGATTTTCTGCCCAACACGCGTTTCCATCACCGGCGTTTCCAGCCCCTGCAATCCAA -TACCTATTGGATAAACCTGCACAATATTTTCTCCCGGCGGATAATAATAAAGGCGCAGCTCTGCAAGGTT -AACGATAATCCCCTGACGCGGTGCATCAGGTAATAACAGTTGTGAAGGAATAGTTATCGTCGTACCAGGT -TTTGGCACCGGGGCGATAGTGTTATTGGCTTCAAGGATCAACATTGCCGCAGTATCAAAACGTCGGGCAA -TAGCCTGAAGGTTTTTATCCCCTTCTTGCACCGTATACGTTTGATTTTGCCCAACCAGTCGGCTTCCGGT -TGGTGGTAGCGGATAATCAACCGCCCAGGCAGCCTGGATGGCGCTAAAAGCGCCGATAAGCGTGAGTGTA -AGCAAAGACGCGCGTTTCATTGTAAACCTCCTGTATTTGCCGGAGACTCACGCTGAAACGTCGGATGGCG -CTTATGTTCACCTGAAACCAAAACACTCCTGTGCAGGTCAGTGTAAACATTGACCATCCGGCAATGTGAG -CCAACCGGATGAAAGCTGTCCTTTTAGTTTAGCTAAGTGCAGCGGCTTTGGCGCGAATTGCGCGAATCAT -CGCTTCCAGACCTTGTGAACGAGATGGGGTGAGATGTTGGGTGAGCGCCATTTTTTCAAACCACGGACGC -ACATCGAAATTGACAATATCCTGCGGCGTCATCTGATCGTAGAGAATAAAGACGACCGCAATAAGCCCTT -TCACAATCGCCGCATCGCTGTCGCCCTGTAATTCAATAATTCCCTGGGCATTCTGGCGCATGACAATCCA -CACCTGACTCTGACAGCCCTGAATGCTATTTTGTGGACTTCTGTCTTCGTCGCGTAATTCTGGCAGACGC -TGGCCCAGCTCAATAATGTAGAGATATTTCTCTTCCCAGTTGGCGCAGCGTAAAAAATTACGCAGCAACT -TTTCTTTATCCGGCAATAAAGCCATAGTGCCTCCCTGTTATCCCAGCAAACGGTGAATACGTTGCAGGCC -GGTCACCAGACGATCCACTTCTTCATGGGTGTTATACATGGCCAGCGACGCCCGACACATCGCAGGGACG -TTGTAATAGGCCATCAATGGCATTGCGCAGTGATGTCCGGTACGCACAGCAATGCCGTAATTATCGAGAA -AACTGCCAACATCATAGGCGTGGTGTTTACCGAGATTAAAAGCAATAACGCCAAGCCTGTTTTGTGGGCC -ATAGAGAGTGAGATCCGGTACAGATTCCAGCTGTGATAGCGCATAATGCATCAGATTCTGTTCATACTCG -GCTATGTTATTAAGCCCCAGCGCCGAAACATACTCCAGCGCCGCGCCAAGACCAATGATGCCCCCGGTAT -TGGGTGTACCGGCTTCAAACCGCCATGGTGCTTTGGTCCAGGTAGTGCCTTCACTCAGGCTGACGGTGGC -GATCATAGAACCGCCCCCTTCCCACGGCGGCATCTCCTGCAACAAGGCTTCTTTCACATAAAGAATGCCA -ATTCCGGTGGGGCCATACAGTTTATGCCCGGAGAACACGTAAAAGTCGCAATCCAGCGCCTGAACATCCA -CCGGATGATGCATCACCGCCTGAGCGCCATCCACCAGCACTTTTGCGCCATGCTGGTGCGCAAGCGTGAT -CATTTCCGCCAGTGGATTTTCTGTGCCAAGCACGTTGGAGACATGAGTAATTGCCAGCAGGCGAGTTTTC -TCATCAAACAGCGTAGGCAGCGTCTCCAGTTGCAACGTACCATCGGGATTGAGCGGGATCACACGCAGCT -CTGCGCCAACGCGTGCGCAAAGCATCTGCCAGGGAACAATGTTAGCGTGGTGCTCCATCTGACTGATGAT -GATGTTATCGCCCGCCCGCACGTTGCTGTTGCCCCAGCTATTGGCGACCAGATTGATCCCTTCCGTCGTG -CCGCGGACGAACACCAGCTCTTCCGCCGAACGGGCATTAATAAACAGCGATGCCCGCTTGCGCACGTTCT -CCATTTTCTCGGTCGCCTGGGCGCTTAAGGTATGAATACCACGATGCACCGCCGCGTAGCCATGACGATA -AAACTCGGCCTCGGCGTCAATCACCTGGCTCGGTTTCTGCGCACTGGCGGCGCTGTCGAGATAAGCCAGC -GGCAAACCGTTTACCTCACGCGAAAGCACCGGAAAGTCGGCCCGCACTTTGTCGACGGAAAAAATCATCT -TGCACCTCCTGGCAGCCGTTGACCGATTCGGGCCAGCACCTGCTGTTTAAGCCCCTCATCACGCAGTGCT -TCCGTCAGTTCGGCAGCGAAGGCGTAAATGATCATCTGCTGGGCATCCTGCTGATTGATCCCGCGCGAGC -GCAGATAGAATATCTGTTCATCATCAATACGCCCCACCGTCGCGCCGTGGCTGCATTTCACATCATCTGC -ATAGATTTCCAGCTGCGGTTTCGTATCCACTTCCGCCAGTTTGCCCATCAGCAGATTGTTGTTGGTCATC -TGACCATCCGTTTTGATGGCGTGCTGCGCGACGTTGATCAAACCGTTAAATACCGCGCGGCCTTTGTCGC -TGACGATAGTTTTGTGCAACTGTCGGCTGTTACAAAAACCTTTATTGTGTTCCAGCCAGGTACGGGTATC -ACACACCTCGTTTTTCACCGGCATCGCCAGGCTATTGATCCGCAGCGTGCTGTTTTCGCCATTGAGTTGC -GTACTGGTGTTGTGTCGTAACACTGCGCCACCCAGCAGGAAACTGTGGCTAAATGCGGTGGCATCCTCAG -CCAGCAACAAATCGTTATGAGCAAAGTGGTGACTGAGCGGGTTTTCAAACGCCAGCTTGATATGCTGCAA -GTGGGCATTCGCTGCGACGTTGATAGTGAACCGTGCCCCGGTAAAATGACGAGCATCATTCAGGCTGACA -AAATGTTCGATCACCGTTGCTTCGGCACCTTCCGCCAGATCCAGATGATGTCGGTAATGGGCAGTGTTCA -CCTCTTCACCTGCCACGCCCTGGGTGATATGCATTAACAGCAATGGCTTTGCCGGCCGTTGACCGCGCTT -CACGGCGATATGCGTCACGCTTTGTGCCAGGCTTTCCGTCAAATGCAGAAACACTTCCGCCTGAATAGCG -TCGGGTAAACCCTGACGGTCGTCGTTAATGCTCACTTCATATCCGCTGCCTTCAGTTGCATCGCTCAGTG -CGGGCACGTAACGCCCATCGACAAACACCAGCCGCACGGAGTCTAACGTTAACGCTAAGGCATCACGCTG -CTGTGGGGATATCTCTCCCGCAATGCTGACAAACTGGCTATTGATCAGCCCTTCCAGCGGCGTATATTTC -CAGTTTTCATGTTTACGTGTCGGCAGTCCGGTACGCAGCAATTGTTGTAAATGCTGCTGTGCTTGCGGGG -AGCGTTTTGTCCCTTCAGCTTCAAACAAGTGATGCCACTGTTGCAGCGCGTTACTGCTGTTCGGTAAGCC -AGCCATAACCCTGCTCCTCCAGTTGTTTGACCAACGTGAAATCGCCGGATTTCACAATTCGTCCCTGATA -TAGCACATGAACGTAATCAGGCTTGATGTAGTCGAGAATGCGTTGGTAGTGCGTAACAATGATGAATGAG -CGCTTGCCATCACGCAGCGAGTTCACGCCATCGGCGACCACTTTTAATGCGTCAATATCCAGCCCGGAGT -CCGACTCATCAAGAATGCATAACTCCGGTTCCAGCACCGCCATTTGCAAAATATCGTTGCGCTTTTTCTC -GCCGCCGGAAAAACCAACGTTTACCGAACGGGTTAATAAATCTTCCGGCATCTTCAGGAGAGCGATTTTC -TCTTCCATCAAATCCTGAAAATCAAAGCGGTCGAGCGTTTCCTGGCCGCGATAGCTGCGCACCGCATTAA -GTGCCGTTTGCAGGAAAAACTGGTTACTGACACCTGGAATCTCCACCGGATACTGGAAGGCCATAAAGAT -GCCTTCGCCCGCGCGATCTTCCGGCGACAGCGCAAGCAAATCTTTGCCTTTGAACTCAACCGTGCCGCCC -GTCACTTCATAATCTTCTCGCCCGGCAAGCGTTGCCGATAAGGTACTTTTGCCCGAACCGTTTGGCCCCA -TAATGGCGTGAACTTCGCCGGGATGAACGTCGAGGCTTAATCCGCGCAGGATAGCTTTATCTTCCACGCT -GACGTGTAAATCTTTAATACTTAACATGTTTATTCCTTATCCGACGCTGTGTTCAAGACTGATGGCGAGG -AGTTTTTGTGCTTCAACGGCAAATTCCAACGGCAGCTCCGAGAACACGTCTTTGCAGAAACCGTTAACAA -TCATCGAGATGGCGTCTTCTTCGCTGATCCCGCGTTGCAGGCAGTAAAACAGTTGATCTTCACCAATACG -TGATGTCGTTGCCTCGTGTTCCAGTTGCGCACTATTGTTACGACACTCAACATACGGGAAGGTATGCGCC -CCACAATTAGCGCCAATCAGCATTGAGTCGCACTGAGTGAAATTGCGCGCATTGGTTGCCGTCGGCATGA -TTTTCACTAAGCCGCGATAACTGTTCTGACTATGTCCGGCAGAGATCCCTTTCGAGATAATGGTCGATTT -GGTGTTTTTACCGATGTGGATCATCTTGGTGCCGGTATCCGCTTGCTGATGACCGCTGGTCAGCGCCACT -GAGTAAAACTCACCAATGGAGTTATCGCCGCGCAAAATGCAGCTGGGATATTTCCACGTAATCGCTGACC -CGGTTTCTGATTGCGTCCATGACATTTTGCTGTTTTCGCCTTCGCACAAAGCACGCTTGGTGACGAAGTT -GAGAATACCGCCGGTGTTGTTATCGCCAGGAAACCAGTTTTGTACCGTGGAATATTTCACCTCGGCGTTT -TTATGGATGATGACTTCCACCACTGCCGCGTGTAACTGATAGCTGTCACGCACCGGAGCGGAACAGCCTT -CAATGTAGCTGACGTAGCTGTCTTCGTCGGCCACCAGAATGGTGCGCTCAAACTGCCCGGTTTTTTCTGC -GTTAATGCGAAAATAGGTGGAAAGTTCCATCGGGCAGCGCACGCCTTTAGGCACATAAATAAACGTACCA -TCAGAGGCTACCGCCGCATTAAGCGCGGCAAAGAAGTTGTCATTCCCCGGCACCACGGTGCCGAGATATT -TACGCACCAGTTCCGGGTGATCGTGGATCGCCTCACCAAAGGAACAGAAAATAATTCCCTGCTCCGCCAG -TTTTTCGCGATAAGTAGTGGCAACCGAAACTGAGTCGAAAATGGCATCCACCGCCACCTCTTTGCCTTCC -CGCACGGGAACGCCCAACTGCTCAAACGCCGCCTCCACCTCTTTACTTAAAAAGGCGTTCGCGCCAGTTT -GCTGCACCGCGCCAGGTTCAGACGCGCAAGTGTCGTCACAATTACCGCACGATGGTGCTGAGTAGTAGCT -GTAATCCTGATAATTCAGCTTGTCGTAGTGCGCTTTCAACCAGTGCGGTTCTTCCATCTCCAGCCATGCG -CGATAGGCGTTTAGACGAAACTCCAGCATCCACTCCGGCTCATTACGCTTCGCCGAAATTGCGCGCACCA -CCTCTTCGTTTATCCCCTTTGCCAGCTCATCGGTGGCTAACTGGGTGAAGAATCCTTCTTTATAATTCAG -CGGGCCGCCGGTCCAGGTTTTGACATCGTCAGTTGCTTCAGTATTACGAGACATAGTACCGCCTATACCC -CAAAGCTTTCGCCACAGCCACATTCATTCTGGGCTTTAGGGTTGTGAAATTTGAATATCTGATTAAGTCC -TTCACGAACGAAATCGACTTCCGTGCCATCAATAAACGGCATCGCTTGCAGCGGGACAAACAGCTTCGCG -CCGTCGTGTTCAAACAGCAGATCGTCTTTGTCCGGCTCGCTAACACTGTCGAGCACATAGCCAAAGCCCG -CGCAGCCCGTTTGCTTCACGCCTAAGCGCACGCCGACCATACCCGGCTGCTTTGCCACCAGCTCACGGAT -GTGTATCGCCGCTGCGGGTGTCAGCGTTAAGCCTTGCCAGGCGAAATCTTGTGGGTTAAAGGTTCCTGAA -TGCATGTCCATCGATTTACCTCACTTCATCGCTTTCAGCGTATAACAGCATGTTAGTGATAATGATTATC -AGTTCAACCCAGCAAACGCAGGGGCTTTACCGTAAAACATGCTTTTTGCCTGCTTTTAATAAGCATAGAC -CCTGATGTGTGGGTTAACAGGCACGCTAAGAATTAGGTATCTCATTGTTAGATAATGGTTATTATCTAAG -GAGCATTAAGGCTGTGATGAAAAAGAAAAAGTTGTATTGAAAATGACTATTTAAGAGATAGGTAAAAAAG -TGCAGCGTTCAGAAATAAGAAAACCCTTAAGTCTGTGCGACACAGGCTTAAGGGTTTCTACCCCATCCGG -CGCTTATCTCCGGCACTCTCAGTGGCTTAGCTCTTGAAGGGGCGATAAGAATAATCTCATAAAGCTAACC -CGCCGTTTTAACACAAACTGCGATTAGTATTATTTTTGAACAATATCAGGCGGTAGATAAGCAGTATTAA -GAAGGTCATCGAACCTGGACGGAGGTTAATCCAGGTCGATTTGGCGAACTTGCGGCATTAAGTCAGGATC -AATGCACGCCCAGACGCCAGGCAAAGTAGATTTCTTCTTTTAATTCAGCAGAAGAGAGAGTAAGCAGGTC -AGCAAATTCAAGTTCTAGTTGTTTCAGACGTTTGAGATATTGGGCAGGTGAAAGATTGCTCTGGTCACGG -CGTAAAAATTCAATGGCCAGCTGGGTGGGATCAAGTTGAGTAGACATAGCATCCTCGCTTTTAGACAAGA -CCTGCACAGTATACCACCGTTTACTGTGCAGATAATGACCAAAAGCAATATGCGTCACACTTTTCTGGTG -ACAACGTCACAAAATGGCGGTCGTCAATCGTGACGAACAGCACAAACGCCCTTTCTCATCGAAGATTTCA -ATCTGCCAGACCTGGTGACGCGAACCGAGATGCAACGGTTTGCATACGCCGCGCACCCGCCCTTCTCGTG -CCGAGCGGACGTGGTTAGCATTGATTTCCAGACCAACCACTTTTTGCTCACCTTCGGTACATAAATAACC -GGCAACGGAACCGATACTTTCGGCCAGTACCACGGATGCTCCTCCATGCAGCAACCCGAAAGGCTGCTTT -GTCCGCGAGTCTACTGGCATTGTCGCTTCAAGGGTGTCATCACCAATATGTTCAAAGCGAATATCCAGGA -ACCCCACCATGTTTCCTTCACCCATAGCATTCAGTGCTTCCAGGGTGATTTTCCGTTTCCATATCATTTA -ATAATCTCCAGTAAAGCCTGCACAGGATGGCGTACCCCCGTGCCTTCAACCCGTTTTACCTGGCTACGGC -AGGAATATCCGGTCGCCAGACAGCGGTTACGCGGCAGTCGCTGCATAGCCTGATGCCAGGATAACTCATA -GATCCCGAGCGAATTTTCATGGTTTTTCGCTTCATGTCCGTAAGTCCCTGCCATGCCGCAGCAACCCACG -CTGACATTTTCCAGTTTCGCGCCAAAACGGGCAAATATCGCGGCCCATTGTGCTGGCGCACCCGGCAAGG -CGGTAACTTCGGTACAGTGACCAAAGAAATACCATGATTCACCGCTGACTGTAGCCACTGGCTGTGACTC -AAGTGCGCTTGCCAGCCATTCATTCGCCAGTAAGACGTTAAACTCGCCACGCTCCTCGCCCAGCGCCAGT -TTATATTCATCGCGATAACAAAGTACCAGCGCCGGATCGACGCCCACCATTGGCATACCCAGCTTCGCCA -TACGGTTGAGGAAATCCGCCGTCTTTTTCGCCGTCTTCGCAAAACGATTAAGAAAACCTTTAATATGCTG -GGCTTTGCCATTTGGCGAAAATGGCAGTAACACAGGCTGGAAACCTAATTTTTCGACCAGACGGACAAAA -TCCGCCACCACTTGCGCATCGTAATAGCTGGTAAAGGGGTCCTGCACCACCAACACTGTGCGCGCTTTCT -GCTCTGCATTGAGAGATTCAAGCTGTTCCAGCGTCATGTTTGCCGAGCGATGCCCCACCATTTGTTGTTG -TAGCGAGGGGACCGACAGCAGCGGCAAATCAACCATGCCGATATGTTTTTCCGAGAGTTTGCGCACCAGC -GGCTGGTTAATGAAGAAGTTAAAGGTTTTCGGCGCGCGTGCCATCAGCGGCGCGTAGCTCTCGACCGTAG -CGACGAGGTGGTCGCGCAGCGGGCGTAAATAACGGGTGTGATAGAGCTGCAGAAAACGAGAGCGAAACTC -CGGCACATCAATTTTGATGGGGCACTGGGTCGAACACGCTTTACAGGCCAGACAGCCCGACATCGCCTCT -TTGACTTCGTGTGAGAAGTCATATTCGCCTTTATTCGCATGCCAGCTATTGCGCGTGCGGGCAATTAACG -TCCGCAAACTGACGCCGGATTCAGGCAGTTCTTGTTCCAGTTTGAGTGGATCAACGCCGCGATCCGCCAA -CAAACGCAGCCATTCACGCACCAGCGTTGCGCGCCCTTTCGGTGAATGAATCCGGTTCTGGGTGATCTTC -ATCGACGGACACATCGGACTACGGGCATCAAAGTTGAAGCATAAACCGTTGCCGTTACACTCCATCGCAC -CGCGCCACTGCTGGCGTACCGCAATGGGGATCTGCCGATCGAATGTACCGCGCTTCACCGCGTCCACTTT -CATCATCGGCGCATCGAGACCTTCTGGCGGGCAAATCTTCCCTGGGTTGAGTCGGTTATGCGGGTCAAAT -GCCGCTTTCACTTTGCGCAGTTCTGCAAAAAGTTCCTCACCGAAAAACGCCGGGCTGTATTCAGCGCGAA -AACCTTTGCCGTGCTCGCCCCACAACAAACCACCGTATTTCGCAGTCAGCGCCACCACGTCATCAGAGAT -TTGCTTCATCAAAATCTCTTGTTGAGGATCGCACATATCCAGCGCTGGACGGACGTGCAAGACACCTGCG -TCGACGTGACCGAACATACCGTAGCTTAAGCCGTGGCTGTCGAGCAGCGCGCGAAATTCAGCAATATAAT -CCGCCAGGTGTTCCGGCGGTACGCAGGTATCCTCAGCAAACGGAATTGGCTTAGCGGCACCTTTGGCATT -GCCAAGCAGACCAACGGCTTTTTTGCGCATTGCATAGATACGTTCAACCCCCGCCAGCTCACGGCACACC -TGCCAGCCGATGACACCTGCTTGATGACTGGCGATCAGCTCATCCAACCGCGCACAGAGTGCATTTACCC -GCTCATCAATCAGCGCCTCATCATCACCAGCAAATTCCACAATGTTCAGCCCGAGCATCTCTTGGTCAGG -CACATCGGTAATCAACTCGCTGACGGAATGCCAGACAATATCTTCCCGCGCCAGATTCAGCACTTTTGAG -TCCACCGTCTCTACCGAAAGCGCCCGCGCCTCAACCATAAACGGCGCGTTACGCAGCGCAGAGTCAAAAG -AGTCATATTTGACGTTCACCAGACGGCGCACTTTAGGCAAGCGTGTAATATCCAGCCGCGCTTCGGTAAT -AAAGGCCAGCGTCCCTTCTGAACCCGTCAGAATGCGCGTCAGGTCGAACTCGGTCATCTCATCGTTAAAG -ACATGACGCAGATCGTAACCGGTAAGAAAGCGGTTAAGTTTGGGGAAGTTGTCGATAATTAACTGGCGTT -GCTGACGGCAACGTTGATAAACCGTGTTATAAATTCGCCCGATTGTGGTATTGGATTTACCCAGCGTTTC -CGCCAATTCGACGGGTAAAGGTTGCGTATCGAGAATATCGCCCCCCAACAACACCGCGCGTACGCCAAGT -ACGTGATCTGACGTTTTGCCATAGACCAGCGATCCCTGACCGGATGCATCGGTATTGATCATCCCACCGA -GCGTTGCCCGGTTGCTGGTCGAAAGTTCCGGCGCAAAAAAGTAGCCGAACGGTTTCAGGTACTGATTGAG -TTGATCTTTTATCACCCCGGCCTCAACGCGCACCCAGCCCTCTTCAGGGTTAATTTCGATGATGCGGTTC -ATATGGCGGGACATATCAACAATAATCCCCTGGTTGAGCGCCTGACCGTTAGTGCCGGTGCCGCCGCCGC -GGGGGGTAAAGATCAGCGATGAATAGCGTTCCTGCGCGGCAAGACGGGCGATCAGCGCCACATCTGCGGT -TGAACGCGGAAATACCACCGCATCGGGGAGAAGTTGGTAAATACTGTTGTCGGTCGACATTGTCAGACGA -TCGGCATAACTTGTCGCCGTATCGCCGGTAAAACCTTGTTGCTCCAGCTCTTGCAAAAAATTAAGCACCA -GTTGAACGACGCCGGGTGCCTGGGAAATCTGTGGAATCATTATATTGACCCTTTCCTGCGGTCTGTGATG -TAGGTCGATACACTATTCTTTCAGGCTGCTGCAATAGCGCACTGAAAGGTGATGTTTGTTTACTCTATGG -ATTTCGTGTTGCAGGAAGGCGGCAAGCGAGTGAACTCCAGGAGCTTACAATAGTAAGTGACTGGGGTGAA -CGAACGTAGCCGCAGCACATGCAACTTGAAATACGACGAGTAAATCGTTTGCGTGTTGCCTGAGTTGTTG -TACCACATTTTTTTCTAACACGCCCATCAGAATTAAGGGCAGAATCGGCCTGTTAAAAACCGCTGAAATT -GCTCATCATTATGCAGGTGAGTTTCGCGTGTTCACGTCGCGTCGACGATTTGACGCACAAAAAAGGTGAA -AAGTAGTTATGGTAAATGTTCGTCAGCCCAGGGATGTCGCACAAATTCTGCTTTCGGTGCTGTTTTTAGC -CATCATGATTGTGGCATGTCTGTGGATTGTTCAACCCTTTATTCTCGGCTTTGCATGGGCCGGTACGGTG -GTTATCGCCACCTGGCCGGTATTGTTACGTTTGCAAAAGATCATGTTTGGCCGCCGCTCTCTCGCCGTTC -TGGTGATGACGCTGTTATTAGTGATGGTGTTTATCATCCCTATTGCTTTGCTGGTTAACAGTATCGTCGA -CGGCAGCGGCCCGCTAATTAAAGCCATTTCCAGCGGTGACATGACGTTACCCGATCTGGCGTGGCTTAAT -ACCATTCCGGTGATTGGCGCGAAGCTGTATGCAGGCTGGCACAACTTGCTGGATATGGGGGGGACGGCGA -TCATGGCGAAAGTCCGCCCTTATATTGGCACCACCACCACCTGGTTCGTTGGGCAGGCGGCGCATATCGG -GCGCTTTATGGTGCATTGTGCGCTGATGCTTCTCTTCAGTGCCCTGCTGTACTGGCGCGGTGAACAGGTG -GCACAAGGCATTCGCCATTTTGCAACCCGTCTGGCAGGCGTTCGCGGAGATGCCGCCGTGCTGCTGGCGG -CACAGGCTATCCGCGCGGTGGCGCTGGGTGTGGTGGTGACGGCGTTAGTACAGGCAGTGCTTGGCGGTAT -CGGCCTCGCCGTATCCGGCGTACCTTATGCAACGTTGCTAACGGTGTTAATGATCCTCTCCTGCCTTGTC -CAGCTTGGCCCGTTGCCGGTACTGATTCCGGCGATTATCTGGCTCTACTGGACTGGCGATACCACCTGGG -GAACGGTATTGTTAGTGTGGAGCGGTGTGGTTGGCACGCTGGATAACGTCATCCGCCCAATGTTAATTCG -CATGGGTGCCGATTTACCGCTGATCCTGATTCTCTCTGGCGTTATTGGTGGTTTGATTGCTTTCGGGATG -ATCGGTCTGTTTATTGGTCCGGTTCTGTTAGCCGTTTCCTGGCGTCTGTTTGCCGCGTGGGTGGAAGAAG -TCCCGCCGCCGACGGACCAACCGGAAGAAATTCTCGAAGAACTTGGCGAAATCGAGAAACCGAATAAGTA -ATTTCTCATCAGGCGGCTCTGCCGCCTGATTGTTAACCACCGCTAATTGATATTTGCTTGCTCTTCCCCA -TATTTTCCTGCTTACCGCCATTCAGCTGGTAGTACCTGTCGCAAATTCTTTACAGTTTTTAAACTAATGA -GACGAATCTGATCGACGCAAAAAGTCCGTATGCCTACTATTAGCTCACGGTTATAAATCAACATATTGAT -TTATAAGCATGGAAATCCCCTGAGTGAAACAACGAATTGCTGTGTGTAGTCTTTGCCCATCTCCCACGAT -GGGCTTTTTTTTAACATTTTTCCGCTTCGCTACCTCGCCCCTCACTCTTTCCAATAATGTTGCACAAGAT -ACTGTGACTCTCTTCAAGCCGTCAGCAGGCTGATAATGTTATTTATATTTTATTGTTTATTTCATGCAGC -CATTACACGATGAACGCTTATGAACTCCAGGCACTCCGCCATATTTTTGCCATGACTATTGATGAATGCG -CGACCTGGATTGCCCAGACCGGTGACAGTGAAAGCTGGCGTCAGTGGGAAAATGGCAAGTGTGCCATTCC -TGATCGTGTAGTCGAGCAACTGTTGGCTATGCGTCAGCAAAGAAAAAAACATCTTCATGCCATCATAGAG -AAAATAAATAACCGCATCGGCAACAACACCATGCGTTTTTTCCCCGACTTAACCGCATTTCAACGAGTCT -ACCCTGATGGCAATTTTATTGACTGGAAGATCTATCAATCGGTAGCTGCTGAATTATATGCACACGATCT -GGAGCGGCTTTGTTAATTTTTCCACAGAAAGGAATTGTCGTTGTTACAACAATAATGAACGGATGCTGAC -ACAACATCGCTTCACTTTTTAAAGCACCTTTGCTAAGTAGAACCTATGAAAAATCCCTATTTCCCTACCG -CACTTGGGTTGTATTTTAATTACCTGGTGCATGGTATGGGCGTCCTTTTGATGAGCCTGAATATGGCCTC -GCTGGAGACACTTTGGCAGACTAATGCCGCGGGTGTCTCGATAGTTATCTCATCGCTGGGCATTGGTCGA -TTAAGTGTCTTGCTTTTTGCAGGATTATTATCCGATCGCTTTGGTCGCCGCCCTTTTATCATGCTCGGGA -TGTGCTGCTATATGGCCTTCTTTTTTGGCATCCTGCAGACCAATAACATCATTATCGCTTATGTTTTTGG -CTTTCTGGCGGGAATGGCAAACAGTTTTCTCGATGCAGGCACTTATCCCAGTTTGATGGAAGCTTTTCCA -CGCTCACCTGGGACAGCCAATATTTTAATTAAAGCATTTGTTTCCAGCGGACAATTTTTATTACCGCTAA -TCATTAGCCTGTTAGTGTGGGCTGAACTGTGGTTCGGTTGGTCCTTTATGATTGCTGCAGGCATTATGTT -TATTAACGCTCTGTTTTTATACCGTTGTACGTTCCCACCCCATCCGGGTCGTCGCTTACCTGTCATAAAG -AAAACCACCAGCTCTACGGAACATCGCTGTTCAATTATCGATTTAGCCAGTTATACCTTATATGGCTATA -TCTCAATGGCAACGTTTTATCTGGTTAGCCAGTGGCTGGCACAGTACGGACAATTTGTTGCAGGCATGTC -ATACACTATGTCGATCAAACTACTCAGTATCTACACCGTGGGTTCGCTGCTTTGTGTATTTATTACCGCT -CCACTCATTCGTAATACCGTTCGCCCAACAACATTACTGATGCTGTACACCTTTATCTCATTTATTGCTC -TGTTTACCGTCTGCCTGCATCCCACATTTTATGTGGTGATAATATTTGCTTTTGTCATTGGTTTTACCTC -TGCTGGAGGTGTTGTGCAAATTGGCCTGACGTTAATGGCTGAACGTTTCCCTTACGCTAAAGGTAAAGCT -ACAGGGATCTATTACAGTGCGGGCAGTATTGCGACCTTTACTATTCCGTTGATTACGGCTCATCTGTCCC -AAAGAAGTATTGCCGATATTATGTGGTTCGATACCGCCATCGCTGCCATCGGTTTTTTACTGGCACTGTT -TATCGGCTTACGCAGCCGCAAAAAAACGCGGCATCACTCGCTAAAGGAAAATGTCGCTCCGGGTGGGTAA -TGCAATATTCTTTTCAGGTCATGCAAGATCTTACGGATAAATAACTCTTTCTGCGCTAACTAAGGAAAAT -CGCGATCAAAAACAAACTATGACATGCAATATTCCTGGAAACATAAACTTTATGCCATGTACCCAGGGAA -AATCATCTTCAGTATAGTAATTATGTAAACCGTCGGAGAACAATACGTACGGTAACGAAATTATCTTTCA -GCAAGGAGCTGTGAAAATGTCTCAAAATAAGGCTTTCAGCACGCCATTTATCCTGGCTGTTCTTTGTATT -TACTTCAGCTACTTCCTGCACGGCATTAGTGTTATTACGCTTGCCCAAAATATGTCATCTCTGGCGGAAA -AGTTTTCCACTGACAACGCGGGCATTGCCTACTTAATTTCCGGTATCGGTTTGGGGCGATTGATCAGTAT -TTTATTCTTCGGTGTGATCTCCGATAAGTTTGGTCGTCGGGCGGTGATATTAATGGCAGTAATAATGTAT -CTGCTATTCTTCTTTGGTATTCCCGCTTGCCCGAATTTAACTCTCGCCTACGGTCTGGCAGTGTGCGTAG -GTATCGCTAACTCAGCGCTGGATACGGGTGGCTACCCCGCGCTCATGGAATGCTTTCCGAAAGCCTCTGG -TTCGGCGGTCATACTGGTTAAAGCGATGGTGTCATTTGGGCAAATGTTCTACCCAATGCTGGTGAGCTAT -ATGTTGCTCAATAATATCTGGTACGGCTATGGGCTGATTATTCCGGGTATTCTATTTGTACTGATCACGC -TGATGCTGTTGAAAAGCAAATTCCCCAGCCAGTTGGTGGACGCCAGCGTAACTAATGAATTACCGCAAAT -GAACAGCAAACCGTTAGTCTGGCTGGAAGGTGTTTCATCGGTACTGTTCGGTGTAGCCGCATTCTCGACC -TTTTATGTGATTGTGGTGTGGATGCCCAAATATGCGATGGCTTTTGCTGGTATGTCAGAAGCTGAGGCAT -TAAAAACCATCTCTTATTACAGTATGGGCTCGTTGGTCTGTGTCTTTATTTTTGCCGCACTACTGAAAAA -AATGGTCCGGCCCATCTGGGCTAATGTATTTAACTCTGCACTGGCAACAATAACAGCAGCCATTATCTAC -CTGTACCCTTCTCCACTGGTGTGCAATGCCGGAGCCTTTGTTATCGGTTTCTCAGCAGCTGGCGGCATTT -TACAGCTCGGCGTTTCGGTCATGTCAGAGTTTTTTCCCAAAAGCAAAGCCAAAGTCACCAGTATTTATAT -GATGATGGGTGGACTGGCTAACTTTGTTATTCCACTGATTACCGGTTATCTGTCGAACATCGGCCTGCAA -TATATCATTGTTCTCGATTTTACTTTCGCGCTGCTGGCCCTGATTACCGCAATTATTGTTTTTATCCGCT -ATTACCGCGTTTTCATTATTCCTGAAAATGATGTGCGGTTTGGCGAGCGTAAATTTTGCACCCGGTTAAA -CACAATTAAGCATAGAGGTTAAAGGAGTTAATTATGGATGTTACCGCAAAATACGAATTGATTGGGTTGA -TGGCCTATCCTATCCGCCACAGTTTATCGCCCGAAATGCAGAATAAAGCCTTAGAAAAAGCGGGATTGCC -ATTTACCTATATGGCCTTCGAAGTGGATAACGATAGCTTTCCTGGAGCAATTGAAGGATTAAAAGCCCTC -AAAATGCGCGGAACTGGTGTATCGATGCCGAACAAACAACTGGCGTGTGAATATGTTGATGAATTAACAC -CAGCTGCCAAACTGGTGGGGGCCATCAACACCATCGTTAATGATGATGGCTATCTGCGTGGCTATAACAC -CGACGGCACGGGCCATATTCGCGCCATTAAAGAGAGCGGTTTTGATATCAAAGGCAAAACGATGGTGCTG -TTAGGGGCCGGTGGTGCCTCAACGGCAATTGGCGCGCAGGGGGCAATTGAAGGTTTAAAAGAAATTAAAC -TCTTTAACCGTCGGGATGAGTTCTTCGATAAAGCCCTCGCCTTCGCGCAGCGGGTTAATGAAAACACCGA -TTGTGTCGTCACGGTCACCGATCTCGCCGATCAGCAAGCCTTTGCTGAAGCCCTGGCTTCCGCCGACATT -TTAACCAATGGCACAAAAGTGGGTATGAAACCCCTTGAGAATGAATCATTGGTTAATGATATCAGTCTGT -TACATCCGGGACTTCTGGTCACTGAATGCGTGTATAACCCGCATATGACGAAGTTATTGCAGCAGGCGCA -ACAAGCTGGTTGCAAAACGATTGATGGATACGGCATGTTGTTGTGGCAAGGGGCTGAACAGTTCACATTA -TGGACTGGCAAAGATTTCCCTCTGGAATATGTTAAACAGGTCATGGGGTTCGGTGCCTGACAGGCTGACC -GCGTGCAGAAAGGGTAAAAAATGAAAACCGTAACTGTAAAAGATCTCGTCATTGGTACGGGCGCACCTAA -AATCATCGTCTCGCTGATGGCGAAAGATATCGCCAGCGTGAAATCCGAAGCTCTCGCCTATCGTGAAGCG -GACTTTGATATTCTGGAATGGCGTGTGGACCACTATGCCGACCTCTCCAATGTGGAGTCTGTCATGGCGG -CAGCAAAAATTCTCCGTGAGACCATGCCAGAAAAACCGCTGCTGTTTACCTTCCGCAGTGCCAAAGAAGG -CGGCGAGCAGGCGATTTCCACCGAGGCTTATATTGCACTCAATCGTGCAGCCATCGACAGCGGCCTGGTT -GATATGATCGATCTGGAGTTATTTACCGGTGATGATCAGGTTAAAGAAACCGTCGCCTACGCCCACGCGC -ATGATGTGAAAGTAGTCATGTCCAACCATGACTTCCATAAAACGCCGGAAGCCGAAGAAATCATTGCCCG -TCTGCGCAAAATGCAATCCTTCGACGCCGATATTCCTAAGATTGCGCTGATGCCGCAAAGTACCAGCGAT -GTGCTGACGTTGCTTGCCGCGACCCTGGAGATGCAGGAGCAGTATGCCGATCGTCCAATTATCACGATGT -CGATGGCAAAAACTGGCGTAATTTCTCGTCTGGCTGGTGAAGTATTTGGCTCGGCGGCAACTTTTGGTGC -GGTAAAAAAAGCGTCTGCGCCAGGGCAAATCTCGGTAAATGATTTGCGCACGGTATTAACTATTTTACAC -CAGGCATAAGCAATAATATTTCGGCGGGAACACCCTCCCCGCCGAACTAAAAAATATATTCAATCGTATT -TAATAAAAATATTTCGTGAGTCTCTGTGCGCTAATTCTCCATTTGGCGTAGGGAAAATCACATCTGAATC -AGGAATTAACAATGAAACCTGTAAAACCACCTCGTATTAATGGACGAGTGCCGGTCCTGTCGGCACAGGA -AGCGGTGAATTATATTCCCGACGAAGCAACACTTTGTGTGTTAGGCGCTGGCGGCGGTATTCTGGAAGCC -ACCACGTTAATTACTGCTCTTGCTGATAAATATAAACAGACTCAAACACCACGTAATTTATCGATTATTA -GTCCAACAGGGCTTGGCGATCGCGCCGACCGTGGTATTAGTCCTCTGGCGCAAGAAGGTCTGGTGAAATG -GGCATTATGTGGTCACTGGGGACAATCGCCGCGTATTTCTGAACTCGCAGAACAAAATAAAATTATTGCT -TATAACTACCCACAAGGTGTACTTACACAAACCTTACGCGCCGCCGCAGCCCACCAGCCTGGTATTATTA -GTGATATTGGCATCGGGACATTTGTCGATCCACGCCAGCAAGGCGGCAAACTGAATGAAGTCACTAAAGA -AGACCTGATTAAACTGGTCGAGTTTGATAACAAAGAATATCTCTATTACAAAGCGATTGCGCCAGATATT -GCCTTCATTCGCGCTACCACCTGCGACAGTGAAGGCTACGCCACTTTTGAAGATGAGGTGATGTATCTCG -ACGCATTGGTTATTGCCCAGGCGGTGCACAATAACGGCGGTATTGTGATGATGCAGGTGCAGAAAATGGT -TAAGAAAGCCACGCTGCATCCTAAATCTGTCCGTATTCCGGGTTATCTGGTGGATATTGTGGTGGTCGAT -CCGGATCAAACCCAACTGTATGGCGGTGCACCGGTTAACCGCTTTATTTCTGGTGACTTCACCCTTGATG -ACAGTACCAAACTTAGCCTGCCCCTAAACCAACGTAAATTAGTTGCGCGGCGCGCATTATTCGAAATGCG -TAAAGGCGCGGTGGGGAATGTCGGCGTCGGTATTGCTGACGGCATTGGCCTGGTCGCCCGAGAAGAAGGT -TGTGCTGATGACTTTATTCTGACGGTAGAAACAGGTCCGATTGGCGGAATTACTTCACAGGGGATCGCCT -TTGGCGCGAACGTGAATACCCGTGCCATTCTGGATATGACGTCCCAGTTTGATTTTTATCACGGTGGCGG -TCTGGATGTTTGTTATTTGTGTTTTGCTGAAGTCGACCAGCACGGTAACGTCGGCGTGCATAAATTCAAT -GGTAAAATCATGGGCACCGGTGGATTTATTGATATCAGTGCCACTTCGAAGAAAATCATTTTCTGCGGCA -CATTAACTGCGGGCAGTTTAAAAACAGAAATTACCGACGGCAAATTAAATATCGTCCAGGAAGGACGGGT -GAAGAAATTTATTCGGGAACTACCGGAAATTACTTTCAGCGGAAAAATCGCTCTCGAGCGAGGGCTGGAT -GTTCGTTATATCACTGAGCGCGCAGTATTCACGCTGAAAGAAGACGGCCTGCATTTAATCGAAATCGCCC -CTGGCGTCGATTTACAAAAAGATATTCTCGACAAAATGGATTTCACCCCAGTGATTTCGCCAGAACTCAA -ACTGATGGACGAAAGATTATTTATCGATGCGGCGATGGGTTTTGTCCTGCCTGAAGCGGCTCATTAACAG -GAGTATAATGATGGATTTTTCTTTAACTGAAGAACAAGAACTGCTGCTGGCCAGTATTCGCGAACTGATT -ACGACTAACTTTCCGGAAGAGTATTTCCGCACCTGCGATCAAAACGGGACATATCCGCGTGAGTTTATGC -GGGCGCTGGCGGATAACGGTATTTCCATGCTTGGCGTGCCGGAAGAATTTGGTGGTATCCCTGCGGATTA -CGTCACCCAAATGCTGGCGCTGATGGAAGTGTCAAAATGCGGTGCTCCGGCATTTTTAATTACCAACGGT -CAATGTATTCACAGTATGCGCCGTTTCGGTTCTGCAGAGCAGCTACGTAAAACGGCAGAGAGCACCCTGG -AAACGGGTGATCCCGCCTATGCCCTGGCGTTGACGGAACCAGGTGCTGGCTCAGATAACAACAGTGCCAC -TACCACTTACACGCGTAAAAACGGCAAGGTCTACATCAACGGACAAAAAACCTTTATTACCGGTGCGAAA -GAGTACCCGTATATGCTGGTGCTGGCGCGCGATCCGCAACCGAAAGATCCCAAAAAAGCCTTCACCCTGT -GGTGGGTCGACTCCAGTAAGCCCGGCATTAAGATTAACCCGCTGCATAAAATCGGCTGGCATATGCTCAG -CACCTGCGAAGTCTATCTCGACAACGTGGAGGTTGAAGAGAGCGACATGGTGGGCGAAGAAGGAATGGGT -TTCCTCAATGTGATGTACAACTTTGAGATGGAGCGCCTGATCAACGCCGCGCGCAGCACCGGCTTTGCCG -AATGCGCCTTTGAAGATGCCGCCCGCTATGCCAACCAACGTATCGCTTTTGGTAAGCCCATTGGTCATAA -CCAGATGATCCAGGAAAAACTGGCGCTGATGGCGATTAAGATCGACAACATGCGCAACATGGTGCTGAAA -GTGGCATGGCAAGCCGATCAGCATCAGTCACTGCGCACCAGCGCGGCGCTGGCAAAACTGTACTGTGCAC -GTACCGCAATGGAAGTCATTGATGATGCGATTCAAATCATGGGCGGTCTGGGCTATACCGATGAGGCGCG -CGTCTCCCGCTTCTGGCGTGATGTCCGTTGTGAACGTATCGGCGGCGGTACAGACGAAATTATGATTTAC -GTAGCAGGTCGGCAGATCCTGAAAGACTATCAGAACAAATAATCTGCAGGCGGCGCAGCTTCTTAACAAA -CTGCGCCGCCAGATTTATCCAACAAGACTTACCGGTTGAGGAAATTCAGATAGGATTTCTTGTTCCGCAA -AACAGTTTTTAAATTGTCTACGGTAATCGCTGGGCGAACAACCGACATGGCGCAAAAACAGTTTGGCAAA -GTGATCGACATTTTCATAACCCACACGCCAGGAGATCTCTGCCTGTGATAATTCAGTATTAGTGAGTGAC -CATTTTGCTTCCGTCATACGCCGTTGAATAACATAGTTAATAGGGGAAATACGATACTCTTTGGTAAATT -CATGGCAAATATAACTGACGCTGGCACGAAATTTTTTCGATAACTGTTCTAAAGTGATTTTTTCGCGATA -ATTATTATTCAGATAGAAAAGAATATCTTTTATCAGAACATCTTTTTTAATATACCCCTGCTCCGAACGA -TAAGCATTTTTAAAATTTTCGTAGTAAAGAATGGCTAACGTATAGGCAAATGCATCCCATAACGAAGATG -TTTGGCTATTTTTACTTTGCGGCAAAATCACACTTAGCTCATTAAATAAGGTTTTTATGACTTCTTTTCC -CTGCCCCGCGGCAATTACCGGACAAGAATGCGGTTGCAGTAGCTGATTTTCCTCAGCCCCCTGAAACTGA -AAGCCGTACAGCGCACAGGTACACGTCGTTGCCGGATCGTTAACGTCAGAGGCCACCGCATGCAGCCTGC -CGCGTTCTATCACCACAATGTCATCCGCATGTGCGACATATAACGAAGAATCGATGGTAAACCTTGCAAC -CCCTTTCTTGACGTAAATCAACTCGGTTTCATTGTCATGAACGTGATGTCCGGACTCCCATTTTGGATCA -TCGCTAAATGCAAAACGTGAAAGCCGTGGCGTTTTACCGGCGACAAACAGCGTTTCACTGGCGTTATCAA -AACAGCGTTGATACATGACAACCTCCCTATTCCATGAGCAAGCAAAAACAATATATGCCGGATAAAATAC -GGCGTGTATTGCGGTTATACAACCGCGTTTAGCGAGAGCTAAACAAGATTATTTACACTGAATGCAAGAT -TGTACGGTCATGGAATAACTATATTGCCGCAAATTGCACTTTTGTTTTAGCGATCGCATTTTTTTTGCAA -GATTGTTGGCAAGGAAAACAGCTTGCTCCGTCGAAAACCCCGCACCGCTATCGCACACTATTTTCAGGCC -ATTTTTACCTTCCATCGGAGATGGTTCCGTATGCGACTCACAGGAGAAATCATGAAAATAATAACCTGCT -TTAAGCTGGTGCCTGAAGAACAGGACATTGTTGTCACTCCAGAATACACCCTGAATTTCGACAATGCCGA -CGCCAAAATCAGCCAGTTCGATCTCAATGCCATTGAAGCTGCAAGCCAGCTCGCAACAGATGACGATGAG -ATAGCCGCGCTGACCGTTGGCGGCTCATTGTTGCAGAACTCGAAAGTGCGCAAAGACGTGCTATCCCGCG -GGCCGCACAGCCTGTATTTGGTGCAGGATGCGCAACTTGAACATGCACTGCCTCTCGATACCGCAAAAGC -GCTGGCGGCAGCAATTGAAAAGATCGGCTTCGATTTACTGATCTTTGGTGAAGGTTCCGGCGACCTTTAT -GCCCAGCAGGTTGGCTTGCTGGTCGGAGAAATTCTGCAACTTCCGGTGATTAATGCAGTGAGTGCTATTC -AGCGTCAGGGCAATACACTGGTGATTGAACGCACGCTTGAAGATGATGTTGAAGTTATTGAACTCTCTGT -TCCAGCCGTGCTCTGCGTCACCTCCGATATTAACGTGCCACGCATTCCTTCGATGAAAGCCATTCTCGGC -GCGGGTAAAAAACCGGTAAATCAGTGGCAGGCAAGTGATATTGACTGGAGCCAGAGCGCGCCACTTGCTG -AACTGGTCGGCATTCGCGTACCGCCGCAAACAGAACGTAAGCACATCATTATCGATAACGATTCGCCGGA -GGCCATTGCCGAGCTGGCGGAACATCTGAAGAAAGCCCTGAACTGAAGCCTACGGAGAAGAAACGATGAG -TCAATTAAACAGCGTCTGGGTCTTTAGCGATAATCCTGAACGTTATGCTGAACTGTTTGGCGGCGCTCAG -CAATGGGGCCAACAGGTGTATGCCATTGTACAAAATACCGACCAGGCGCAGGCAGTTATGCCTTATGGTC -CAAAATGTCTTTATGTTCTTGCGCAAAACGACGCGCTGCAACGCACTGAAAATTACGCCGAAAGCATTGC -TGCCCTGCTGAAAGATAAACACCCCGCTATGTTGCTGTTGGCCGCGACGAAACGTGGTAAAGCGCTGGCA -GCACGGTTAAGTGTGCAACTGAATGCGGCGCTGGTGAACGATGCCACGGCGGTGGATATTGTCGATGGTC -ACATTTGCGCCGAACACCGGATGTATGGCGGGTTAGCGTTCGCTCAGGAAAAGATCAACAGCCCGCTGGC -GATCATTACCCTTGCACCCGGTGTTCAGGAACCGTGCACCAGTGATACCTCTCATCAGTGCCCGACAGAA -ACGGTACCTTATGTTGCTCCGCGTCATGAAATTCTCTGTCGCGAACGCCGTGCGAAAGCCGCAAGCAGCG -TGGACCTGAGCAAAGCAAAACGTGTGGTTGGCGTCGGTCGTGGACTGGCGGCGCAGGATGACCTAAAAAT -GGTCCACGAACTGGCGGCGGTGCTGAATGCTGAAGTCGGCTGTTCACGTCCAATTGCCGAAGGCGAGAAC -TGGATGGAGCGTGAACGTTATATCGGTGTCTCCGGCGTGTTGCTGAAATCCGATCTCTACCTGACGCTGG -GGATCTCCGGGCAGATCCAGCATATGGTTGGCGGCAACGGCGCAAAAGTGATTGTCGCCATCAATAAAGA -TAAAAATGCGCCAATCTTCAACTATGCCGACTACGGTCTGGTGGGCGATATCTACAAAGTCGTCCCTGCC -CTGATTAGCCAGTTGAGCCGCTAATTCCCCTTTCAACCACATCTCCCGCTGTAAACGCAGCGGGAAGGGA -GCATAACGCATGTCGGATGACAAATTTGATGCCATTGTGGTCGGTGCGGGCGTTGCTGGTAGCGTTGCCG -CACTGGTCATGGCACGAGCCGGGCTGGATGTCCTGGTGATAGAACGCGGCGACAGTGCCGGATGTAAAAA -CATGACCGGCGGGCGTCTTTATGCCCACACACTTGAAGCAATCATTCCAGGCTTTGCAGTATCAGCGCCG -GTAGAACGCAAGGTCACACGCGAGAAAATCTCCTTCTTAACCGAAGAAAGCGCCGTTACCCTCGATTTTC -ACCGCGAGCAGCCAGATGTTCCGCAACACGCATCTTATACCGTATTGCGTAATCGTCTGGACCCGTGGTT -GATGGAACAAGCCGAGCAGGCGGGCGCGCAGTTTATCCCAGGCGTTCGCGTCGACGCGCTGGTTCGTGAA -GGAAACAAGGTCACTGGCGTGCAGGCTGGGGATGATATTCTCGAAGCGAATGTGGTGATTCTGGCTGATG -GCGTTAACTCGATGCTTGGCCGCTCGCTGGGAATGGTTCCCGCTTCCGATCCGCATCATTACGCTGTTGG -TGTTAAAGAGGTTATTGGCCTCACACCAGAACAGATCAACGATCGCTTTAATATTACGGGCGAGGAAGGT -GCCGCCTGGCTGTTTGCCGGTTCCCCTTCTGACGGCCTGATGGGCGGGGGATTTCTCTATACCAACAAGG -ATTCCATATCCTTGGGGCTGGTTTGTGGATTGGGTGATATCGCCCATGCGCAAAAAAGCGTGCCGCAAAT -GCTGGAAGATTTTAAACAACACCCCGCCATTCGCCCGCTGATTAGCGGCGGCAAACTGCTTGAATATTCC -GCGCATATGGTGCCGGAAGGCGGTCTGGCAATGGTGCCGCAACTGGTTAACGAGGGCGTGATGATCGTTG -GTGACGCCGCAGGCTTCTGCCTGAATTTGGGTTTTACGGTCCGCGGCATGGATTTAGCCATTGCATCGGC -TCAGGCTGCCGCCACAACGGTGATCGCCGCCAAAGAACGCGCGGATTTCTCCGCCAGCAGTCTGGCGCAA -TACAAACGTGAGCTGGAACAAAGCTGCGTCATGCGTGATATGCAGCATTTTCGCAAGATCCCGGCGCTGA -TGGAAAACCCGCGCCTGTTTAGCCAATACCCACGAATGGTAGCCGACATCATGAACGAGATGTTCACCAT -CGACGGCAAACCAAACCAGCCGGTACGAAAAATGATCATGGGACATGCGAAGAAAATTGGGCTGATCAAC -TTGCTGAAAGATGGCATTAAGGGAGCAACCGCGCTATGAGCCAGAACGCTACGGTTAACGTCGACATCAA -ATTAGGCGTCAATAAATTCCATGTTGATGAGGGCCACCCGCATATCATTCTGGCGGAAAATCCCGATATC -AATGAATTCCATAAATTAATGAAAGCCTGCCCTGCCGGACTTTATAAGCAGGATGACGCAGGAAACATTC -ATTTTGATTCCGCCGGTTGTCTGGAGTGCGGCACCTGTCGGGTGCTGTGCGGTAACACTATTCTCGAACA -GTGGCAATATCCCGCAGGCACCTTCGGTATTGATTTTCGCTACGGCTAATCATGCATCCCACAGGCCCGC -ATCTCGGGCCTGATGTTCTGTTTCGAGAGTCCAACATGAAAGTGACATTAACGTTTAACGAACAACGTCG -TGCGGCGTATCGTCAGCAAGGGTTATGGGGCGATGCTTCGCTGGCCGATTACTGGCAGCAGACCGCTCGT -GCGATGCCAGACAAAATTGCCGTGGTCGATAATCATGGTGCATCGTACACCTATAGCGCGCTCGATCACG -CCGCGAGCTGTCTGGCAAACTGGATGTTAGCGAAGGGTATTGAATCAGGCGATCGCATCGCATTTCAACT -GCCTGGCTGGTGTGAATTTACCGTTATCTATCTTGCCTGCCTGAAAATCGGTGCAGTTTCCGTGCCGCTG -TTGCCTTCCTGGCGGGAAGCAGAACTGGTGTGGGTGCTCAATAAGTGTCAGGCAAAAATGTTCTTTGCAC -CGACGTTGTTTAAACAAACGCGTCCGGTAGATTTAATCCTGCCGCTGCAAAATCAGCTTCCACAACTACA -ACAAATTGTCGGCGTGGACAAACTGGCTCCCGCCACCTCTTCCCTCTCATTAAGTCAGATTATCGCCGAC -AATACCTCACTGACCACGGCGATAACGACCCACGGCGATGAATTAGCTGCGGTGCTGTTTACCTCCGGAA -CCGAGGGTCTGCCAAAGGGCGTGATGCTAACGCATAACAATATTCTCGCCAGTGAGCGGGCTTATTGCGC -GCGACTGAATCTGACCTGGCAGGATGTCTTTATGATGCCTGCGCCACTTGGTCACGCAACGGGCTTTCTG -CATGGCGTAACGGCACCATTCTTAATTGGCGCTCGCAGCGTGTTGTTAGATATTTTCACTCCTGATGCGT -GTCTCGCGCTGCTTGAGCAGCAGCGTTGCACCTGTATGCTCGGCGCAACGCCGTTTGTCTATGATCTTTT -GAATGTACTAGAGAAACAACCCGCGGACCTTTCAGCGCTGCGTTTCTTTCTTTGCGGCGGAACCACAATC -CCCAAAAAAGTGGCGCGTGAATGCCAGCAGCGCGGCATTAAATTATTAAGTGTTTATGGTTCCACAGAAA -GTTCGCCGCATGCGGTGGTGAATCTCGATGATCCTTTGTCGCGCTTTATGCACACCGATGGTTACGCTGC -CGCAGGTGTAGAGATTAAAGTGGTCGATGACGCACGCAAGACCTTACCGCCAGGTTGCGAAGGTGAAGAA -GCCTCGCGTGGCCCCAATGTGTTTATGGGGTATTTTGATGAACCTGAATTAACCGCCCGTGCCCTGGATG -AAGAAGGCTGGTATTACAGCGGCGATCTCTGCCGTATGGATGAGGCTGGCTATATAAAAATTACCGGACG -CAAAAAAGATATTATTGTCCGCGGCGGCGAAAATATTAGCAGCCGTGAAGTGGAAGATATTTTATTGCAG -CATCCTAAAATTCACGATGCCTGTGTGGTTGCAATGTCCGATGAACGTTTAGGTGAACGATCATGCGCTT -ATGTCGTGCTGAAAGCGCCGCATCATTCATTATCGCTGGAAGAGGTAGTGGCTTTTTTTAGCCGTAAACG -GGTCGCAAAATATAAATATCCTGAACATATCGTGGTAATCGAAAAACTACCGCGAACTACCTCAGGTAAA -ATACAAAAGTTTTTGTTAAGAAAAGATATTATGCGGCGTTTAACGCAGGATGTCTGTGAAGAGATTGAAT -AAGTTTCATCTTCGGGGATCACATAACCCCGGCGACTAAACGCCGCCGGGGATTTATTTTATTTCTTCAG -TTCAGCCAGGCTTAACCAGGTTTGCACCACGGTGTCCGGGTTCAGAGACAGGCTATCGATCCCCTCTTCC -ATCAACCATGCGGCAAAGTCTTCGTGGTCGGACGGACCCTGACCGCAAATCCCGACATATTTGCCCTGTT -TCTTCGCGGCACGGATAGCCATCGACAGCAGTGCTTTCACCGCATCGTTGCGCTCATCGAACAATTCAGA -CACCACGCCGGAGTCACGGTCCAGACCGAGCGCCAGCTGCGTCATATCGTTTGAGCCAATTGAGAAGCCG -TCGAAATATTCGAGGAACTGCTCGGCCAGCAAGGCGTTGGACGGGATTTCACACATCATGATGATTTTCA -GCCCGTTCTCGCCACGTTTCAGCCCCTGACGCGCCAGTTCTTCAACCACCGCTTTCGCCTGATCTACGGT -ACGCACGAACGGGATCATGATCTCAACGTTGGTCAGTCCCATGTCGTTGCGCACACGTTTCACTGCTTCA -CACTCCAGCGCGAAACAGTCGCGGAAGCTGTCGGAAACATAGCGGCCCGCGCCACGGAAGCCGAGCATCG -GGTTCTCTTCATCTGGCTCGTAACGCTCACCACCGACCAGGTTGGCATATTCGTTCGATTTAAAATCAGA -GAGACGGACAATGACGCGCTTCGGATAAAACGCGGCACCCAGCGTCGCGATCCCTTCAGTCAGACGACCA -ACGTAAAATTCACGCGGAGAATCAAAACCTTTCATCATCTCGCGGATTTCGTTTTGCAACTGCGGTTCCT -GATCGTCAAACTCAAGCAGTGCGCGTGGGTGGACGCCAATCATACGGTTGATGATAAATTCCAGACGCGC -AAGGCCCACGCCTTCGTTCGGTAGGCAGGCGAAGTCGAAAGCACGGTCCGGGTTACCGACGTTCATCATC -ACTTTCAACGGCAGATCCGGCATCGTTTCTACGCTGGAGCTTTTCACGCTAAATTCCAGCAACTCCGCAT -AGACGTAACCGGTATCACCTTCGGCACAAGAAACAGTGACGTTCTCACCGTCTTTCATCCGTTCTGTTGC -ATCTCCACAGCCCACTACCGCCGGAATGCCCAGTTCACGAGCGATGATCGCCGCGTGACAGGTACGACCG -CCACGGTTGGTGACGATGGCAGATGCTTTCTTCATGATCGGTTCCCAGTCCGGGTCGGTCATGTCAGTAA -CCAGCACGTCGCCAGGTTCGATGCGGTTCATTTCGCTGATGTCATGGATGACTTTCACCGGACCCGCACC -GATGCGATGACCGATAGCACGGCCTTCGGCGATAATCTTACCCTGTGAATGCAGCGTATAACGCTCCATG -ACCTGACCGCGTGAGCGCACGGTTTCCGGACGCGCCTGCACAATGAACAGTTTACCGGTGTGGCCATCTT -TCGCCCACTCAATATCCATCGGGCGACCGTAGTGTTTCTCAATTTGTACGGCCTGTTTTGCCAGTTCCTG -CACTTCTTCGTTGGTCAGCGAGAAGATGTCACGCTGTTCCTGCGGTACGTCTTCGATTTTAACCTGCTTG -CCGTGCTCCTGGGTCGGCGCGTAAACCATGCGGATTTTTTTCGACCCCATGGTGCGGCGCACGATAGCCG -GGCGATTCGCCGCCAGTGTCGGTTTATGCACGTAAAACTCATCCGGGTTAACCGCACCCTGCACGACCAT -CTCACCAAGGCCCCATGCGGAAGTGATAAACACCACCTGGTCAAAGCCGGATTCGGTATCAATGGAGAAC -ATCACGCCAGATGATGCGAGGTCAGAGCGCACCATCCGTTGAACACCGGCGGAGAGCGCCACACCACGGT -GATCGTAACCCTGGTGCACACGATAAGAGATGGCGCGATCGTTAAACAGAGAAGCAAATACATGTTTCAC -TGCCACGAGAACGGCGTCAAAACCCTGAACGTTGAGGAAGGTTTCCTGCTGACCGGCAAAAGAAGCGTCC -GGCATATCTTCTGCGGTGGCGGAGGAGCGCACCGCAAAAGAGGCGTTTTCGTCATCGGCGGAAAGCTGTG -CATAGGCTTCGCGGATGGCGTTTTCCAGCTCAGGCTGGAAGGGAGTGTCGATAATCCACTGGCGGATTTG -CGCGCCCGCTTTCGCAAGCTGAGTAACATCGTCAATATCCGTTTTATCCAGCAGTTCATAAATGCGCTGG -TTTACGCCGCTTTGGTCCAGAAACTGGTTAAACGCGTCGGCGGTTGTGGCGAAACCATTCGGAACGGAAA -CACCCATTCCGGAAAGATTAGTAATCATTTCACCCAGGGAGGCATTTTTGCCCCCAACCCTGTCTACATC -ATTCATGCCGAGTTGGTTATACCAAAGCACCAGCGGTGACGAGCCATTGTTGGACATCGAACAATCCTTT -TGTGATAAATGAACGGTTTGAGAAACACATTTCTGCGCATTTATCTTTGCATATTTAACCGGATGAAAAA -AACGGTGAATCGTTCAAGCAAATATATTTTTTTACTTTTTAAGACTGATCCCAGCGTTGCGCAAATCTGC -TCTCTTCGACAATTTCCACATAAACCATCGGTATAAACGAAACCATAAAAATGAAATGCTGTTTTCATAA -AAAATAAAATTGAAGGTTCATTTTATAAACCAGACATAACGTTCTACGCTTCTGTGCGTTTTTAATTTAT -GCTTTCATAGAATTATGTCTGCATCACGGGAAGAACAAAATGGATAATGCTGTTGATCGCCACGTTTTTT -ATATTTCTGATGGTACGGCAATAACTGCGGAGGTATTAGGACACGCAGTAATGTCACAATTTCCCGTCAC -TATCAGCAGCATCACGCTGCCGTTTGTCGAAAATGAGAGCCGTGCACGGGCAGTGAAGGATCAGATTGAC -GCAATTTATCACCAGACAGGCGTGCGCCCGCTGGTCTTCTACTCCATCGTGTTGCCGGAGATTCGCGCCA -TCATCTTGCAAAGTGAAGGCTTTTGCCAGGATATCGTTCAGGCGCTGGTTGCCCCGCTACAACAAGAGAT -GAAACTGGATCCAACGCCGATTGCTCATCGTACCCATGGCCTTAACCCTAATAATCTCAATAAATATGAT -GCGCGCATTGCGGCGATTGATTACACCCTCGCCCACGATGACGGCATTTCGTTGCGCAATCTGGACCAGG -CTCAGGTGATCCTGCTCGGTGTTTCTCGCTGTGGTAAAACCCCCACCAGTCTGTATCTGGCAATGCAGTT -TGGTATCCGCGCGGCAAACTACCCCTTTATTGCCGACGATATGGATAATCTGGTGCTACCCGCGTCGCTC -AAACCGCTTCAGCATAAATTGTTCGGCCTGACTATCGACCCGGAACGTCTGGCGGCGATTCGCGAGGAAC -GTCGGGAGAACAGTCGCTATGCCTCGCTTCGTCAGTGCAGGATGGAAGTCGCGGAAGTGGAAGCCTTGTA -CCGTAAAAATCAGATCCCGTGGATTAACAGTACCAATTATTCGGTAGAAGAGATTGCCACCAAGATCCTC -GATATCATGGGCCTTAGTCGCCGAATGTACTAGAGAACTAGTGCATTAGCTTATTTTTTTGTTATCATGC -TAACCACCCGGCGAGGTGTGACACACCTCGCACTTGAAATCAGCAGCGATTGGTTTATCGTGATGCGCAT -CACTTCCCGGCAGTCCTGCCGTAGAAGCAACAAATTTCTGAGACTTGTAATGAACAGAACTGACGAACTC -CGTACTGCGCGTATTGAGAGCCTGGTAACGCCCGCCGAACTCGCGCTACGGTATCCCGTAACGCCTGGCG -TCGCCACCCATGTCACCGACTCCCGCCGCAGAATTGAAAAAATACTGAATGGTGAAGATAAGCGACTGTT -GGTCATTATTGGCCCCTGCTCGATCCACGATCTCACCGCTGCAATGGAGTACGCCACCCGTCTGCAGTCG -CTGCGCAACCAGTACCAGTCACGGCTGGAAATCGTAATGCGCACCTATTTTGAAAAACCACGAACTGTTG -TCGGCTGGAAAGGACTAATCTCCGATCCAGATTTAAACGGCAGCTATCGGGTAAATCACGGTCTGGAGCT -GGCGCGCAAATTACTTTTACAGGTAAATGAGCTGGGCGTCCCAACCGCGACCGAGTTCCTCGATATGGTG -ACCGGTCAGTTTATTGCTGATTTAATCAGTTGGGGCGCGATTGGCGCACGTACTACCGAAAGTCAGATCC -ACCGCGAAATGGCTTCGGCACTCTCCTGTCCGGTAGGTTTTAAAAATGGTACCGATGGCAATACGCGGAT -TGCTGTGGATGCTATCCGCGCAGCCCGCGCCAGCCATATGTTCCTCTCGCCAGACAAAAATGGTCAGATG -ACCATCTATCAGACCAGCGGCAACCCGTATGGCCACATTATTATGCGTGGCGGCAAAAAACCGAATTATC -ATGCCGATGATATCGCCGCAGCCTGCGATACGCTGCACGAGTTTGATTTACCTGAACATCTGGTGGTGGA -TTTCAGCCACGGTAACTGCCAGAAGCAGCACCGTCGCCAGTTAGAAGTTTGTGAGGATATTTGTCAGCAA -ATCCGCAATGGCTCTACGGCGATTGCTGGAATTATGGCGGAAAGTTTCCTGCGCGAAGGAACGCAAAAAA -TCGTCGGCAGTCAGCCGCTCACTTACGGTCAATCCATTACCGACCCGTGTCTGGGCTGGGAGGATACCGA -ACGCCTGGTCGAAAAACTCGCCTCTGCGGTAGATACCCGCTTCTGAATGCGTGCCCATTCCTGACGGAAT -GGGCATTTCTGCGCAACTTGTTGTCTTCTCAACAAATTACTGCTTGCTCTGGTCAGCCATAATATTGATA -ATAAGAATCATTGTTATATCAATTATTATTAATTTTTATGCGTTATACGGATAGCAGAAAACTCACGCCT -GAAACGGATGCCAATCACAAGACCGCTTCCCCGCAGCCTATTCGGCGAATTTCCAGCCAGACACTGTTAG -GTCCGGATGGCAAACTGATTATCGATCATGACGGGCAAGAATATCTGCTCCGTAAAACTCAGGCTGGCAA -GCTGCTGTTGACCAAGTAGCCTTTAACTCGAGCAGCTGACTTCCAGCCGTTTACCCCAGTCAGGTGGACG -ACTGACATAGTCATCATCTCTGTCGCTGAAAGGATTTCGCAACGCCTCATGCAGGCGGTGCAATTCCGTC -ATATCACCCTTTTCTGCCGCTTCAATCGCCCGTTGCGCCAACCAGTTGCGCAATACCAGAGCGGGGTTAA -CGCTTTGCATCAGTTGCTGACGCTCACTATCGCTAACCTCGTCTTGTTGCAAACGCCCCCGATAACGGGC -AAACCAGTCATCAAATGCCGCACGATCAATAAACTCATCACGTAGCGGTGACGCCGCGCTGTGCTGCTCG -GTCAGACTCAGCATGCGGAATGTGCGGGTATAATCGCTGCGCTCTCGCGCCATCAGACTGAATAATTCAT -TCAGTAGCGCGTTATCCTCTTTTTGCTCCGTCATGAAGCCCAGTTTCTGCCGCATCCGTTCTCCATAATG -CGTCAACAAAACCTGCTGATAGCTGTCCAGGGCCTCATTCAGGGCATCTACGGCAACAAATGGCGACAAT -GTCTGCGCCAGACGCTGTAAATTCCACAACGCGACGGCAGGTTGATTATCAAAGCTGTAACGCCCTTGAT -GATCCGAGTGATTACAAATAAAACCGGGTTCGTAATCATCAAGAAAACCAAACGGCCCGTAATCAAGCGT -CAGCCCCAGCAGCGACATGTTGTCGGTATTCATCACCCCATGAGCAAAGCCGACCGTCTGCCATTGGGCA -ATTAACGACGCGGTACGTGCGACAACATCGCTAAACCAGAGACGGTATTTGTCCTCATCATCTGCAAGAT -GTGACCAGTAATGACGAATAGCAAAGTCAGCTAACTGACGAACCTTTTCCGACTCGCGGCGGTAGTAAAA -ATGTTCGAAATGACCAAAGCGCAGATGACTTGGTGCCACACGCATCAGCATCGCGCCTGGCTCCGCCGTT -TCCCGATACACTGGCGAATCGCTGGTGACGATACTTAACGCGCGGGTCGTCGGAATGCCCAGATAATGCA -TCGCCTCACTGGCGAGACTTTCTCGTATCGTCGAACGTAAAACCGCCCGTCCATCACCCATTCGCGAATA -AGGCGTCAGGCCAGCACCTTTCAGATGCCAGTCCATTGTAGTGCCATCAGCAAGCAGTTGTTCGCCGAGT -AAAATGCCGCGCCCATCACCCAGTTGGCCCGCCCAGACGCCGAACTGATGACCACTGTAAACCTGCGCCA -GTGGTGACATACCAGGCAGTAGGGCTTCGCCGCCCCAGACACCTGCGCCATTTTTAAACAGCGACGATGG -AATACTCAGCGTGTTAGCCAGTTCGGTATTATGCCAAATCAGCCGGGCATTATTTAAAGGCGTAGGGGAA -AGTGCTGTATAGGTTTCTGGCAATTCATCGCGCCAGCGGGTAACAAAAGACAGGGTCATAGATCCTCCTG -TTTGATAGTGTAGACGGTTACTCTCGTCTTAAACACCAGCAAACAGAAGGGTTATCGCTGAACCAACGTC -GTTATCTGATTTATGGGAACGGCAGGCCACAGGCATCCCTGGAGAGCATGGAAATCGAAGGGGGTAATCT -GTGCCAATATTTCTGCCGTATCAATGCCTCCCGCAATGATGCAATTGCAACAAGGGGAAATTTGCGCCTG -GATCGCACGAATAAACGGTTCGAAGGAGCGGTGCGTGATTTGTTGCTGAATAAAACTTTTATCCAGCATG -ACGCGGGTGAAAAGACCATCAAAAACCGCTTTCATTGTGCTATTGCCTGCTCCCAAATTACCTAACACAA -GGGGATACACTTGCGATAAGGATAAAAGACCGCGATTATCTTTTCCTTCATTGAGATGCGGGTAATTCTC -ATTAATCAACAGTTCAATAAACGGATATTTTAATAGTTCGCCTGCGTAATTATCCCTCTCTAATAATAAT -GTAGCCACTTGTGGCGTTAAATTAAGCCAGGCAAAGAGTTTATGTTGAATAAAAAAATGTTGGCATGATT -TTAGTAATTCCAACTGCTCTGAAAATAATTGCCAATGTTGCTCCTCGGTAAGTTGCGCTATAACCCGACT -CGTCGGGATACGAACCGTACCATCTTCACTGGAGAAATGGGTAATTAACTCAACGCCGACAAGGACTTGC -TGGTTGTCTCTTATCGGCAGGAAATAGCAATCAGAATGATAAAGATTCTCCAAAAAAATCTTCATGGTAA -CCGTCCCTCTCGAAGGATGTTTTTCAGTATCCGGCTAAAAGGGATGAGGCCATAAGACATAACAATTACA -GAAGGAGTAACTTTCATTTGTTCCATGTTAACCACTTTTTCAGGGGTCCTTTTTTTAGATTATCCTGATT -ATAAACGAATAATCCATTTACGGAATTTTTGTCTGCAAAATACTACTGTATTCAGGAGTAAATGGACGGC -GATGTATCATCGCCGTCCATTTTTCGACATACTAGATTCGTCTCGCCTGCCAGAAATTTTTCTGCCAATA -GACATTATCAAGTGAGGAACGCATCACTCCCTTGCTGGTAGAGGCGTGGATAAATTGGTTGTTGGTATCG -TAAATACCTACATGCAAACCATTTTGTCCGGACCCCGTTTTGAAAAAGACCAGGTCACCTGGCAGCAACT -CGTCTTTATCAATTTGCGTGCCAATAGAGGCTTGTTGTTTGGTTTCACGGGGCAGCTGCAAATCGAAACG -ATCGCGCATCGTCACAACCACAAATCCCGAACAGTCCACACCGCGCCGCGTCATGCCACCATAACGATAC -GGCGTGCCATGCCAGCTTTGTAGCTGGTCGTTCAAACCGGCAATAACGGTAATCGAATCAGAAAGTCTGG -CATTTGGCGGCGGTGCTTTATGGTGGCTACACCCGGCCAGAAGCAGTGCTGTGATCAAAATAAGGCAGAA -ACGCATTCCGTACGGTTCCTCTGTTTTTTATTCTTGCATTAATTTAGCGTCGTAATTACCCGATTTTCAA -GATACTAATGAAATCAGATGGTCGAAATCAGCATTCTGTGACCTTCGATATCCAGACGGCGAAAATTCAT -CCCATAGGCCTGCGCCAGATTTGGCGGCGTGAGCACCTCTTCCCTGCGTCCACTGGCCAGCATTTTTCCA -CCTTTTAGCAACCACGCCCGATGCGCATGACGCAATGTGTGGTTGAGATCGTGACTGCTCATCACAATCG -CCAGTCCTTGCTGACACAGCGCGCTCAGAATTTTGTCTAACGCACTTTGTTGCGCAACATCAAGACTGTT -CATCGGCTCATCAAGAAGCAGCAATTGGCCTGCGGGATTGGCTTGTGGTGTGATTTGCAACACCACCGCA -GCAAGACGTACGCGTTGCCATTCACCGCCGGAAAGTTGATTGGTGCTACGTCCGAGTTTGTCATCAAGAG -CCAGCGCCCCTGCGACATCATTCAGTAGTTCGGTACGCGTTTTATCGTGCTGATGCAGTGTCAGGTAGTG -CCAGACCGGCGTTGCAAACGGCGGCGTCTGCTGTTGTGAAAGATAGGCGCGATGCAGCGCGAGTTTTGTT -GCGGACCATGCTTCCAGTGGTTGCCCCGCGAACTGAATGCTTCCCTTACCGCTGGTCATTCCGGCCATTC -GCGCCAGTAAGGTACTCTTACCCGCGCCATTCGGCCCCACCAGGTGCAGGATCTCCCCAGCCCGAACCTC -GCCAGAAAGCGGCCCCAGGCGGGTAGATTCCGCAACATCTTGTAACTGCATCACAATAGACATTATTTTG -CCAACGCCAGTTTAATGCTTTCCATCACAATGGGATCTTCCGGCGTCATATCCGGGGAAAAACGCTGGAT -GACTTTTCCGTCCCTGCCAACCAGGAATTTTTCAAAATTCCATAAAATATCATCCGGGTACAGCGGTGCA -CGGCCTTTGCTGACCATACGGGCATAGAATCCGCTCTCTTCCGGCGCGACTGCGGTCGGCGCTGCGGCAA -TCAATTTTTGATACAGCGGATGGCGTCCTTCGCCATTAACTTCAATCTTACTGAACATCGGGAACGTCAC -CCCCCATGTGGTGGTACAGTAAGTTTTAATCTCTTCATCGCTGCCCGGTTCTTGTTCCAGAAACTGGTTG -CACGGGAATCCCAGCACCATAAAACCTCGATCGACCCAGGCTTTCTGAATATTCTCCAACTGCTCATATT -GCGGCGTTAAGCCACACTTTGAGGCGACATTGACAATCAACAGCACATTACCGGCGAACTTCTCCAGCGT -GGTCACTTCACCGTCGATATCTTTCACTACGGTCGTCAGAATGGAATCTTGCATCGTTTCTCCTGGGTGT -GGTCAGTAAAAATCTTAGCTTTTAATCATAGACCGTCTTTTTGCGGCTAACGTCCTGCTTTTAACAATAA -CCAGATAAACACCGGCGCACCTAACGTTGCGGTGACCACGCCAATAGGCAGCTCTGCGGCAGCTAATGCC -AGGCGCGCTACAATATCGGCCAGCAGCAATGCGCTCGCCCCTGCCAGCGCGCAGCCGGGAAGTAATACGC -GATGATCGGTTAAACCACACAACCGGAGAATATGGGGGATCACCAGACCAATAAAGCCGATAGCACCCGC -CAGCGCCACACTGACGCCAACCATCCAGCCGGTCGCTGCCACCAGCACATTGCGCCAGAACCACAGGGGT -AAACCCAGTTGCCGCGCCGAGATCTCGCCAAGTGCTAACATATTCATCGGCCTGGACTGACAACAGATCC -ACAACAACACGGGGATCAATGCCAGCATCAGCCAGCTTTGCCGCCAGTCTACGCCGCCAAAACCGCCCAT -CATCCAGTACATCAGCTGACGCAAATCAACTGAGGTGGAAAAGTAGATAGCCCACGTCATTAGTGCGCTA -CAGATAATCCCTAATGCAACGCCAGCCAGCAATAACCGACTGGTCGAAAGATGACGACGGGCGAAACGTA -AGAGTATTAAAGTGATGATAAGCGCGCCAGCAATCGCACACAGCCCTAGCGCCCAGTTGGGGAGTTGCCC -TTGCCCAAGCAATACCGCGGCGATAAGCCCCACGCCTGCGCCGTTAGAGACGCCAAGTAGTCCAGGTTCT -GCCAGAGGATTTTCAAACAACGCCTGCATTACAGCGCCGGATATAGCCAGCGCCGCACCAACCAGCAATA -CAGCCAGCGTACGTGGCAGGCGAATTTGCCAGACGAACAGTTCGCCACGAGGAGTAAACCAGTCACCTGG -CGAGATCCATTGTTCACCGGCGCAAAGGCTTAAGAGAAGCGCCAGCAGCATCAAAACTGACAGGCATAAT -AACCAGCGAATATTTTGTCGCTGTTGTTGGCGGGCAAGTGTCAGCATGGTATCCGTTCTGCTGAAGTGTC -ATGGCGTTGATTTTACGGTGACTCTTCGACAGTGAAAAGAAAAAAGGCCGCAGAGCGGCCTTTTTAGTTA -GATCAGATTACTCGTCTTTGGGCGAAGCGTTTTCGACCCGGCTTTTTAACTTCTGCCCGGGTCTGAAGGT -CACCACGCGCCGTGCTGTAATGGGAATATCCTCGCCCGTTTTCGGGTTACGTCCCGGGCGTTGATTCTTA -TCACGCAGATCGAAGTTACCAAAACCAGAGAGTTTCACCTGTTCGCCGTTTTCCAGAGCGCGACGGATCT -CTTCGAAAAACAGTTCAACCAGTTCTTTGGCATCCCGCTTGCTAAGCCCAAGCTTATCAAACAGATATTC -TGACATTTCAGCTTTTGTAAGCGCCATAGGTTCAATCCCTCAATGATGCCTGGAATCGCTCTTTTAATGC -CTCTACACATTTGGCGACGGTAGCGGCAATCTCCTCTTCTTCGAGTGTACGGCTGGTATCTTGCAGGATC -AGGCTTATGGCGAGGCTCTTATACCCCTCCGCAACACCCTTACCGCGGTACACGTCAAATAAGTTTACGC -CAACTACCTGATTTACGCCAACTTTCTTACATTCGGATAAAATATCCGCTGCGGGAACGTTTTCTGCGAC -CACCACCGCGATGTCACGACGGTTCGCCGGGAAGCGAGAAATCTCGCGCGCCTGAGGCACCACGCGGTCT -GCGAGCTTGTTCCACTCCAGTTCGAACACCAGAGTGCGACCGTTAAGATCCAGTTTACGTTCCAGTTCAG -GATGAACAACCCCAACAAAACCAATACGTTCACCTTTCAGATAAATCGCTGCGGATTGCCCCGGATGCAG -TGCCGGATTCGCTTCTGCACGGAACTCAACCTCATTCAGTTTACCGGTCAGGTCGAGAACGGATTCAAGA -TCGCCTTTCAAATCATAGAAATCAACGGTCTCTTTTGCCAGGTTCCAGTGCTCTTCGTAACGGTTACCGC -AAATCACACCGGCTAACATCAGATCCTGACGAATGCCCAACGGTGCCTGAGTATCTGGTACGAAACGCAG -ACCGCTTTCGAAAATGCGCACACGGTTCTGCTGACGGTTCTGGTTGTACACCACGGTTGCCAGCAGGCCA -GTCCACAGAGAAAGACGCATTGCTGACATTTCAACAGAGATCGGGCTTGGCAGCAGTAAGGCTTCAACGC -CTGGATGGATCATCTGCTGCACTTTCGGATCAACGAAGCTGTAGGTGATCACTTCCTGATAGCCTTTGTC -GTTGAGCAGCGTTTTCACGCGCTTGAGCGACAGGTCAGCTTCACGGTGAGTACCCATAATCAGGCTTGCC -TGTACCGGCTCATCCGGGATGTTGTTGTAGCCGTAAACACGCGCGACTTCTTCAACCAGATCTTCTTCAA -TCTCCATATCGAAACGCCAGCTCGGCGCAACTGCCTGCCATTCGTCTTTGCCTTCGGTCACTTCGCAGCC -GAGACGACGCAGAATGTCAGTTACCTGCTCATCCGCAATATGATGGCCGATCAGGCGATCCAGTTTGCTA -CGACGTAGAGTGATGGTTGCACGCTTCGGCAGCGTTGCTTCGTTGGTGATATCAATTACCGGGCCAGCCT -CACCACCGCAGATGTCGATCAGCAGACGGGTCGCACGTTCCATCGCTTTGTGCTGCAGTGCCGGATCAAC -GCCACGCTCATAACGGTGAGACGCATCGGTATGCAGGCCATGACGACGAGCACGACCGGTGATAGACAGC -GGGCTAAAGAACGCGCATTCCAGCAGCACGTTTTGTGTTTCGTCATTCACGCCAGAGTGTTCGCCACCGA -AGATGCCGCCCATCGCCAGCGCCTTGTTGTGGTCGGCGATGACCAGAGTGTCAGCATTCAGCTTCGCTTC -AGTACCGTCGAGCAGCACCAGCGTTTCGCCCTCTTTCGCCATCCGCACCACAATGCCGCCTTCAATGCGA -TCTTTATCGAAAGCGTGCATCGGCTGGCCCAGTTCGAGCAGCACATAGTTGGTGACGTCAACAACTGCAT -CGATAGAACGGATCCCGCAACGACGCAGTTTTTCTTTCATCCACAGCGGAGTTGGCGCTTTAACGTTAAT -GCCTTTTACCACACGGCCAAGATAACGCGGGCAGGCTTCCGGCGCTTCGACTGTAATCGGCAGCGTGTCG -TCGATGGTCGCACCAACCGGAACGATTTCCGGTTGAACCAGCGGCAGCTGGTTCAGCACGGCAACGTCAC -GCGCAACACCAATGATGCCTAAGCAGTCGGCACGGTTTGGCGTCACGCTGATTTCGATGGTGTTGTCATC -AAGTTTCAGGTATTCACGGATATCGGTGCCAATCGGCGCATCCGCAGGCAGTTCGATAATGCCGCTGTGA -TCGTCAGAAATGCCCAGTTCAGAGAAGGAGCACAGCATCCCTTCAGACGGTTCGCCACGCAGTTTCGCCG -CTTTAATTTTGAAATCACCCGGCAGAACAGCACCAATGGTCGCTACCGCTACACGCAGGCCCTGACGGCA -GTTTGGCGCACCGCAGACGATGTCCAGCAGGCGATCGCCGCCGACATTCACTTTTGTCACACGCAGTTTG -TCAGCGTTCGGATGCTGCGCACACTCAACCACTTCACCAACGACCACGCCGTGGAAGCTGCCGGCAACCG -GTTCTACACCGTCAACTTCCAGGCCCGCCATAGTGATTTGATTTGCCAGCGCATCGCTATCAATCGCCGG -GTTCACCCATTCGCGTAACCACAGTTCACTGAATTTCATAATCTATTCCTGCCTTATTTAAACTGTTTGA -GGAAACGCAGATCGTTTTCGAAGAATGAACGCAGGTCGGTGACGCCGTAACGCAACATAGTCAGACGCTC -CATCCCCATCCCGAAGGCGAAACCAGAGTAAACTTCCGGGTCGATGCCAACGTTACGCAACACGTTCGGA -TGCACCATCCCGCAGCCCAGCACTTCCAGCCATTTACCGTTTTTACCCATGACGTCCACTTCTGCAGAAG -GTTCGGTAAACGGGAAGTAGGAAGGACGGAAGCGAATCTGCAAATCTTCCTCAAAGAAGTTACGCAGGAA -GTCGTGCAGCGTGCCTTTCAGGTTGGTAAAGCTGATGTTGGTATCAACAATCAGACCTTCCATCTGATGG -AACATCGGCGTGTGAGTCTGGTCGTAGTCGTTACGATAAACACGGCCAGGCGCGATGATACGAATCGGTG -GCTGCTGGGCTTTCATGGTGCGGATCTGTACGCCAGAGGTCTGGGTACGCAGCAGGCGGGTAGTGTCAAA -CCAGAAAGTGTCGTGGTCAGCGCGCGCCGGGTGGTGACCAGGAATGTTCAGAGCATCGAAGTTATGATAA -TCGTCTTCGATTTCCGGCCCGGTTGCCACGGTAAAGCCAAGCTCACCGAAGAAACTTTCGATACGGTCGA -TGGTACGGGTAACCGGATGCAGACCGCCGTTTTCAATGCGACGACCTGGCAGAGAGACATCAATCGTTTC -CGCCGCCAGACGCGCATTCAGTGCAGCGCTTTCCAGTTCCGCTTTACGCGCATTCAGCGCCTGCTGAACC -TGCTCTTTCGCTTCGTTGATAACCGCACCAGCTGCCGGACGCTCTTCTGGCGGCAGCTCACGCAGGGTCG -TCATCTGAAGGGTTAAGTGCCCTTTTTTACCCAAATATTCGACGCGCACATTATCTAACGCGGCAACATC -TGACGCCTGGCTAATGGCCGCCTTCGCACTGGCAACCAGTTCTGCGAGATGTGACATGGTTTTCCTCATT -GTGTCAGTGGTGACACTGGTTCGTTGGACTTAGAGCCTATCCCATCAGGCTATTTTACTTGCCATTTTGG -TCCCGGGCTGTGCTCGAAATTCTCACGTACTTAAATACGCTCCGGTTTCTCCGCGCTGGCCGTGTCCAGT -CTGGCTGCGACAATTACACCTGATGAGACAGGCTTTTTATTTTTCAAAACGCGCATACAAAAAAAGCCTC -CACTGGGAGGCTTTCAGGCGCTGTTTTCCGTTTCTCTTCTCACGCGCTAGCCTCCTGGATTCAGGTGCTA -AAGTAAAAAAAGAAGCGGAAAATAGCAGCATTCATTGCTTGCGTTACCTTTTGGTACTCTTCAAAAGACC -TTTATTGAAAAGGCTACGGCGATAAAAGTCAATGTTTTGATGGCGTTGAAACGAAAAGAGGGAGACTAGC -TCCCTCTTTCAACTGGCTTATGCCAGAGCTGCTTTCGCTTTTTCAACCAGAGCGGTGAACGCTACTTTGT -CGAATACTGCGATATCAGCCAGGATCTTACGGTCGATTTCAACAGAGGCTTTTTTCAGGCCATTGATGAA -TTTGCTGTAAGAAATACCGTTCTGACGTGCTGCTGCGTTGATACGCGCAATCCACAGTTGACGGAACTGA -CGCTTACGTTGACGACGGTCACGGTAAGCATACTGACCAGCTTTGATAACAGCCTGGAAGGCAACGCGGT -ATACGCGAGAACGCGCACCGTAGTAGCCTTTAGCTTGTTTCAAAATTTTCTTGTGACGTGCACGTGCAAT -AACACCACGTTTTACGCGAGCCATATGTGCTCTCCTGTATCTATATTCTAATTAAAAAGTTAAAAACGTT -AACGGCTTATGCGTACGGCAGGCACGCGATTACCAGGCCCAGATCGCCTTTGGAAACCATGGCTTTCGGA -CGCAGGTGACGTTTACGTTTGGTCGCTTTTTTGGTCAGAATGTGACGCAGGTTAGCGTGCTTGTGCTTAA -AACCACCTTTACCGGTTTTTTTGAAGCGCTTAGCAGCACCGCGTACGGTCTTAATTTTTGGCATTTTAAT -AACTTCCACTTCGCATTGTTAATAAACGAAACAAAGGCGAACAAAGCCTGTGAAGCCCGAAGGCTCCACA -GACAGTGCTACTTGAAGGCCTTACTGTTTCTTCTTAGGAGCGAGCACCATGATCATCTGGCGGCCTTCGA -TCTTCGTTGGGAAGGATTCGACCACTGCCAGTTCTTGCAAATCGTCTTTCACGCGATTAAGCACTTCCAT -ACCGATTTGCTGGTGCGCCATCTCACGACCGCGGAAACGCAGCGTGATTTTGGCTTTATCACCCTCTTCG -AGAAAGCGAATCAGGCTGCGGAGTTTTACCTGATAGTCGCCTTCATCTGTACCAGGACGGAATTTAATTT -CCTTAACCTGGATAACTTTTTGCTTTTTCTTCTGTTCCTTAGAAGACTTGCTCTTTTCATAGAGGAATTT -GCCGTAATCCATTATACGACAAACCGGCGGCTCGGCGTTAGGGCTGATCTCGACTAAGTCTACTCCGGCT -TCTTCTGCTTTCTCCAGAGCTTCTCTCAGACTCACAATACCAAGCTGCTCGCCTTCCAGACCTGTTAAGC -GAACTTCCTGGGCGCGAATTTCGCCATTGATACGGTTAGGGCGCGCCGTTTGAACTCGTTTTCCGCCTTT -AATACCTTATTCCTCCAATTGTTTAAGACTGCGGCTGCGAATCTCTTGTTGCAGCTTCTCGATCACTTCA -TTTACGTCCATGCTTCCCAGGTCTTTACCACGGCGGGTGCGAACGGCAACTTTGCCTGATTCCACCTCTT -TATCACCACAGACCAGCATATATGGGACGCGACGCAAAGTGTGCTCGCGGATTTTAAAGCCAATCTTCTC -ATTTCTCAAGTCTGCTTTAACACGAATGCCCGCATTTGATAGTTTTTGCGTCAATTCGTTAACGTATTCA -GACTGTGAATCGGTAATATTCATGATAACAACCTGAACCGGCGCAAGCCAGGTCGGGAAGAAACCAGCGA -ACTCTTCGGTCAGGATACCGATGAAACGTTCCATCGACCCCAGAATTGCGCGGTGAATCATTACCGGTAC -TTTACGTTCATTGTCTTCGCCTACATAAGAAGCGCTCAGACGAGACGGCAAAGAGAAGTCCAGCTGTACT -GTACCGCACTGCCATGCACGATCGAGGCAGTCATACAGGGTAAATTCAATTTTCGGACCGTAGAAAGCGC -CTTCACCCAGTTGATATTCAAACGGGATGTTGTTTTCTTCCAGCGCAACCGCCAGGTCCGCCTCAGCACG -ATCCCACATTTCGTCGCTGCCAATACGTTTTTCAGGACGAGTGGAGAGTTTGACGACGATCTTCTCGAAG -CCAAAAGTGCTGTACATATCATAGACTAAACGGATACATCCGTTAACTTCATCGCGAATTTGTTCTTCAG -TACAGAAGATATGCGCGTCATCCTGGGTAAATCCACGCACGCGCATCAGGCCATGCAGCGAACCTGACGG -CTCGTTACGGTGGCAGCTACCAAACTCGGCCATACGCAGCGGCAGATCGCGATAAGACTTCAGCCCCTGG -TTGAAAATTTGTACGTGACCCGGGCAGTTCATCGGCTTAATGCAGTATTCACGGTTCTCAGAAGATGTGG -TGAACATTGCATCTTTGTAGTTGTCCCAGTGACCGGTTTTTTCCCACAGGACACGGTCCATCATGAACGG -ACCTTTAACTTCCTGATACTGGTACTCTTTCAGTTTAGAACGAACAAACACTTCCAGTTCACGGAAGATG -GTCCAGCCGTCGTTGTGCCAGAATACCATACCCGGCGCTTCTTCCTGCATATGGTACAGGTCGAGCTGTT -TACCGATTTTACGGTGGTCGCGTTTCGCGGCTTCTTCCAGGCGCTGCAGGTAAGCGTTAAGTGCTTTTTT -GTCTGCCCACGCCGTACCGTAAATACGTTGCAACATTTTGTTGTTGCTGTCGCCACGCCAGTAAGCCCCT -GCCGTTTTCATTAGTTTGAAATGATGGCAGAAACGCATGTTCGGTACGTGCGGACCGCGGCACATATCGA -CATATTCTTCATGGAAGTACAGACCTGGCTTGTCATCATGGGCGATGTTTTCGTCAAGAATGGAGACTTT -GTAGCTCTCCCCACGGTTGGCGAAAGTTTCACGCGCTTCGTGCCAGCTGACTTTCTTCTTAATGACGTCG -TAGTTTTTCTCAGCAAGCTCATGCATCCGCTTCTCGAGTGCTTCGACATCTTCCTGGGTTAACGTGCGGT -CAAGATCAACGTCGTAATAAAAACCGTTGTCAATAACCGGGCCGATTGCCATTTTGGTATGCGGCCAAAG -TTGTTTAATCGCGTGCCCTAACAGGTGCGCACAGGAGTGACGAATGATCTCCAGACCTTCTTCGTCTTTG -GCGGTAATGATCGACAGTTGTGCGTCGTTTTCAATCAGATCGCAAGCATCAACCAGTTCGCCATTAACGC -GCCCTGCGATACAGGCTTTCGCCAGACCTGGACCAATGTCCAGCGCAACATCCATGGGGCTTACAGCGTG -ATCGTAATGGCGTTGGCTGCCATCAGGAAGAGTTATAACAGGCATTTTATATCCTTATTTGCAGTGGTGA -CCCACACGAAAGATCACATACAAAGAAAAATTTGTTTATTAACAGTTCATTGCGAAACCATCTAGCCAAC -AAATGCTAAATTGGTTCGCAATCAGGTACACAAATGAAAGACATTAACCTCTCACCTTCCACCCGGTTGA -GCGATGTTAACACTAAAAAAAGGGAGATTGTACCTTTCCGTTTCACATTGATTCGATTCGCAATTCGTTT -GTAGTGAGTACACCAGCAAAACGCTTAAAGAACAACTGATAACATCACGGTGCGTCTGAAAGGTTTACTG -CGAGCGGATTTACAGCAGCATAAACTGAATCCAGCAAAGTTCGTTGCGTGATTTGGCGGTAGTATTTTAA -ACGCTCATGAGATTAATGACGAAGTGGTCATATCACAATGATAAAAGTGACACAATTCTTATAACAATTT -TTCGTGCACATTTCGTTCTGGCGATAATAATTAATCATCATCCTCAAAACCTCCAGATATATATAAGGCG -AACAGATTATGAGTCAAAACGATATCATTATCAGAACTCATTATAAGTCTCCTCATAGATTGCACATCGA -TAGCGACATACCAACACCTTCATCAGAGCCTATTAATCAATTTGCGCGCCAGCTCATCACCCTACTTGAT -ACCTCTGACTTAAGTTCGATGCTGTCATACTGTGTTACTCAGGAATTTACCGCAAACTGTCGAAAAATAT -CACAAAATTGTTATTCCACTGCCCTTTTTACCATTAACTTTGCCACTTCACCCATCCATACAGAAAATAT -ACTCATTACATTACACTATAAAAAAGAAATCATTTCCTTATTACTGGAAACCACGCCTATTAAAGCTAAC -CATTTGCGAAGCATACTGGATTATATTGAACAGGAACAGTTAACTGCTGAAGATCGTAACCATTGTATGA -AACTGTCTAAAAAAATCCATAGAGAAAAAAACTATACACCCAACAGTAAATCTCAATGGTAGTGCATGTT -TTTTGCAATCTCCTTCTGACGCTATTTTTTGTCGCCATCTGTCATTGCAATACGCCCTTGATTCATTGAG -AAATGGAAAAGGCAAAGTCAACCTGATTAAACATTACTCCTCCGTTGAATCCATACAGCAGCATGTCCCC -TTAGTCCGGGACGCGGAGTTCAGAGCATTACTTCGCCATCCTCCTGCAGGGAGTCGCGTTATCGCGAGTA -AGGATTTTGGCTTCGCTTTAGATATTTTCTTTTGTCGAATGATGGCAAACAATGTCAGTCATATGTCCGC -GATTTTATATATAGACAATCATACTTTGTCAGTAAGGCTACGAATAAAGCAGTCAGTGTATGGACAATTA -AATTATGTTGTGTCCGTTTACGACCCGAACGATACCAACGTTGCCGTCAGAGACACCCACAGGACAGCAC -GGGGCTTTCTTTCGCTTGATAAGTTCATCAGTTCAGGTCCCGATGCTCAGACCTGGGCTGATAGATATGT -TCGCAACTGTGCAATTGCTATTCTGCCCCTATTACCTGTGGGAGTTCCAGGGGCTATTTTCGCGGGTATT -GCATCACGAATGCCATTTGCCCCTATACATCCATCGGCAATGTTGTTAATAATGGCTACAGGCCAGTCTC -AACAGCTTATTACATTATTCAAACAGTTGCCCATACTCCCTGAAAAAGAAATCATTGAAATAATAACTGC -GCAGAATAGCGTTGGTACACCTGCTTTATTTTTGGCTATGATGAACGGACATACTGACAACGTGAAAATA -TTTATGCAAGAAATTCAGTCACTGGTAGATAATCACATCATTCATGAAGATAATCTGGTTAAATTACTGC -AAACTAAAAGTGCTAACGAAACACCTGGACTTTATATCTCCATGTTGTATGGATTCGATGAAATAATCGA -TATCTTTCTGAATGCATTAACCACTCCAATAGCACAAGAGCTTTTAAACAAAAAACTGGTGATGAGTATT -TTAGCCATGAAAATACATGATGGTGAGCCAGGATTATACGCCGCAATGGAAAATAATCACCCTTTGTGTG -TCACACGGTTCCTCTCTAAAATTAATGGCATCGCCTTTAAATACAAGTTGAGCAAAGCTAACATCATGGA -TTTATTAAAAGGAGCTACAGCACAGGGAACCCCTGCATTATACATCGCCATGAGCAAGGGTAATGAAGAC -GTCGTGTTATCTTATATATCGACGCTGGGTGCTTTTGCAAAAAAACATTCTTTTAGTCAACATCAGTTAT -TTACACTATTGGCCGCTAAAAATCATGACAACATGTCAGCTGTTCATATAGCCATTCATCATAAGCATTA -TAAAACTGTAGAAACATATTATGCTGCTATTAATGCAATCAGCCAAAGCCTGAGTTTTAGTGCTGATGAA -ATAAAGACGTATTTATAACCAGCTATTTACGATATATATCGATACATAATTTTATTTTTTTCATAAAACG -CAGAAACAGTGACCATGTGCACAACGCCACCCGACGGCTGTAATAACAAAAAATCCCTTGATGCCTGTCC -CTTTTGTTACACTCCGTTATCACGCACAAGAGATATGCAGGACACTGGTATGCCGACTAAACGCTTTGAT -AAAAAACACTGGAAGATGGTGGTGGTGCTACTGGCAATCTGTGGCGCTATGTTGTTGCTACGTTGGGCAG -CAATGATTTGGGGCTGAGCAGTGACAAACGAAGACAGCCAGACCGCATAACACGGTCCGGCAGATAATTT -TACATGCTGTAGCCCAGCGATAAGGTTGTCCGACGGTCGGTATGTTCCGGTGCAGACTCTGGAGGTTCAG -AGTTCCATGTGACGTTGTAAGCCACCTTCAGTCCAAAATGTTCATTAATAGCAACATTTAATGCGCTTTC -GGAGTTCAGCGTTGTGTCTTCCGCGCCAAAGACCGAAACACCCTGCGTAAATTTAGCGTTGTCAGTCAAC -TGCCATGCATAAGCCCCGGAGGCATAGCCCAGCGGCTGGGTTTCACTGGCATTGTCGGTATATTTGTCGT -AACGCACACCTGGACCGAATTCAAAGCGGAAACTGTGTACCGGGCCATTCAAAAACTGACGACCATAACC -CGCGGTCAACACATCGCGCTCTCGATAGCCGTTATAACGGTCTGTCAGCCAGCTTGCCTGACCAAATAAA -TAGTCATAATCAGTTAAATTAAAACGGCTACGCCCGCCCGCCGCATATTTTTCTGAAGAACGCTCATCAT -TAGAAGAAGTATTACTGGCGTTCCCCCACAGCGACCAGGCAGTGGTGTGTCCATACCAGGTCATGGTGGT -GTCAGCCGTAAGTGAGGAGCTTTTCGTATTGCCTGATTGTGCAAGATATCCTGCGTTCAGATTACCTTCG -AAAGGTTTTTTAGCGCTGGCAGGATCATCCATGACAGTAAAAACGGAATCATCGGCAGCTGCATTCAGTG -ACGCAAACATGCCCCCCGCCAACATAACGATGGCAGGAACTGTCTTCAAAAGCTTCATTTATCAAGAGTC -CGTACAACAAAAAAAGAGACCATCGCGGTCCCGGAAACTTTCTTAAGGATCAAAGATTAGCGTCCCTGGA -AAGGTAACGAATTATAAAAAGGCGCGAATAACTTAGCAATGTATTCTTATTTCATTTTTTGAATAAGCAT -GTGGCGAAAACAGATTTTTATTTATATATATTTATCTGCAAAATTTTAAATAAAGCTCCAATAAATCATA -TTGTTAATTTCTTCACTTTCCGCTGATTCGGTGCCAGACTGAAATCAGCCTATAGGAGGAAATGATGGTA -CGTATCTATACGTTGACACTTGCGCCCTCTCTCGATAGCGCAACAATTACCCCGCAAATTTATCCCGAAG -GAAAACTGCGCTGTACCGCACCGGTGTTCGAACCCGGGGGCGGCGGCATCAACGTCGCCCGCGCCATTGC -CCATCTTGGAGGCAGTGCCACAGCGATCTTCCCGGCGGGTGGCGCGACCGGCGAACACCTGGTTTCACTG -TTGGCGGATGAAAATGTCCCCGTCGCTACTGTAGAAGCCAAAGACTGGACCCGGCAGAATTTACACGTAC -ATGTGGAAGCAAGCGGTGAGCAGTATCGTTTTGTTATGCCAGGCGCGGCATTAAATGAAGATGAGTTTCG -CCAGCTTGAAGAGCAAGTTCTGGAAATTGAATCCGGGGCCATCCTGGTCATAAGCGGAAGCCTGCCGCCA -GGTGTGAAGCTGGAAAAATTAACCCAACTGATTTCCGCTGCGCAAAAACAAGGGATCCGCTGCATCGTCG -ACAGTTCTGGCGAAGCGTTAAGTGCAGCACTGGCAATTGGTAACATCGAGTTGGTTAAGCCTAACCAAAA -AGAACTCAGTGCGCTGGTGAATCGCGAACTCACCCAGCCGGACGATGTCCGCAAAGCCGCGCAGGAAATC -GTTAATAGCGGCAAGGCCAAACGGGTTGTCGTTTCCCTGGGTCCACAAGGAGCGCTGGGTGTTGATAGTG -AAAACTGTATTCAGGTGGTGCCACCACCGGTGAAAAGCCAGAGTACCGTTGGCGCTGGTGACAGCATGGT -CGGCGCGATGACACTGAAACTGGCAGAAAATGCCTCTCTTGAAGAGATGGTTCGTTTTGGCGTAGCTGCG -GGGAGTGCAGCCACACTCAATCAGGGAACACGTCTGTGCTCCCATGACGATACGCAAAAAATTTACGCTT -ACCTTTCCCGCTAACAAAAACATTCCCCCAGCATTGGGGGAATCATCACCAACCTGTCGGCAACGCGTTT -CTCCGACTATGCTCAAAAGTCATGTGATAACAAAGGGGTGAACTATGGCCAGTGGCGATCTTGTCCGTTA -TGTCATAACCGTCATGTTGCATGAGGATACATTGACTGAAATTAACGAGTTGAATAATTACCTGACTCGC -GACGGTTTTTTGCTCACTATGACGGATGATGAGGGAAATATCCATGAGCTGGGAACTAACACTTTTGGAC -TTATCAGTACCCAAAGTGAAGAAGAAATTAGAGAACTGGTTTCGGGGCTTACCCAAAGTGCAACCGGCAA -AGATCCTGAAATCACCATCACGACCTGGGAGGAATGGAATAGCAACAGAAAATAAATGGTTTTTGGGCAA -TAATCAGTCTGTGGTGTGCGTTAGCTCGTGTTTTTACACCGCATTCTTGCGCTAACCTTATGATCTGGCA -GACAACATGGGAGAGACATCATGTGGCAGGCAATCAGTCGTCTTTTGAGCGAGCAGTTAGGTGAAGGCGA -AATCGAACTGCGTAATGAACTGCCTGGCGGAGAAGTCCATGCCGCATGGCATTTGCGCTATGCAGGACAT -GATTTTTTCGTCAAATGTGATGAAAGGGAACTGCTTCCCGGTTTTACCGCCGAAGCCGACCAACTGGAGT -TACTGTCGCGTAGTAAAACCGTCACCGTGCCTAAGGTTTGGGCAGTTGGCGCTGACCGTGACTACAGTTT -TCTGGTGATGGATTATCTCCCACCTCGTCCGCTGGATGCGCATAGCGCATTTATTCTTGGTCAGCAAATT -GCGCGTTTACATCAATGGAGCGACCAACCACAATTTGGCCTTGATTTCGATAACGCGCTCTCCACAACTC -CACAGCCCAACACCTGGCAACGTCGCTGGTCAACGTTTTTTGCTGAACAACGGATTGGCTGGCAGTTGGA -ACTGGCTGCAGAAAAAGGGATCGCTTTCGGCAATATCGACGCCATCGTCGAGCATATTCAGCAGCGTCTG -GCCTCACATCAACCGCAGCCTTCTCTGTTGCACGGCGATTTATGGTCCGGCAACTGTGCACTGGGTCCGG -ATGGCCCGTACATTTTCGACCCGGCCTGCTACTGGGGTGACCGAGAGTGCGACCTGGCGATGTTACCGCT -GCATACTGAACAGCCGCCACAAATCTATGACGGCTATCAGTCAGTATCCCCGCTACCTGCCGATTTCCTT -GAACGTCAACCGGTTTACCAACTCTACACGCTGTTAAATCGTGCAAGGTTATTTGGCGGTCAGCATTTGG -TTATTGCTCAGCAGTCATTGGATAGATTATTAGCAGCATGATATGGGTTGAGGATAATGGCCGCTCCGTG -CGGCCTTTTGATTAAATAAACCCAAGCAGAGAAAAGAACACATAACCTGCAGCAATACAAATAACCGGCA -GGATATACAGTGAGAAAAACTGCAGGAAAATAGTATGGTGCGGAACAACAATACGGGACTCAATTTGTTC -ACGCGTTAGCCCCTCTTCCCCTTTGGCTTTTTCCAGAATGAGTTGATCTTCAACACCTTCCCGCAAGAAG -CGCGCCTGGCGACTCATCCGGGCACCGGAATCCTGCAACGCCAGTCCGACAAAAATCAGGATGAAAATCA -CCCAGAACATAACGTTCACGCCACCATTAAAATTGGGCGTCGGGGAGTTATACCAGAATAGATTCAAAAA -AGGCGTATTCGCCTGCATCATATCGATCATGACATGAGTAAAGTCGAGCATGACCGCATTAATGCCTTCC -TTGTTTTCCTGCCGGGTATTCATAAATTTCAGCAAAGAAATCAATGTAGAGATCAATGCAGGTATAAAAA -TCACCCAACCCAAAATCCTTTTCAAAACAGCAATGCGTCCAGCTTGTTGATACGTCATGAGTTCTCCTTG -ATTAAGACGCGTCGTTTCACTTAGTTTACCTGTAGATATCTGTTTTCGCCCATTCTTTAAAGGCGATATG -ATAGGCGCTTAATCATAAGCACGGCTTAATACCTTACACATAATGCTCTAAAGGAGAGGTTGTAATGTCA -ACCCCGCGTCAGATTCTTGCTGCAATTTTTGATATGGATGGATTACTTATCGACTCAGAACCTTTATGGG -ATCGAGCCGAACTGGATGTGATGGCAAGCCTGGGGGTGGATATCTCCCGTCGTAACGAGCTGCCGGACAC -CTTAGGTTTACGCATCGATATGGTGGTCGATCTTTGGTACGCCCGGCAACCGTGGAATGGGCCAAGCCGT -CAGGAAGTAGTAGAACGGGTTATTGCCCGTGCCATTTCACTGGTTGAAGAGACACGTCCATTATTACCAG -GCGTGCGCGAAGCCGTTGCGTTATGCAAAGAACAAGGTTTATTGGTGGGACTGGCCTCCGCGTCACCACT -ACATATGCTGGAAAAAGTGTTGACCATGTTTGACTTACGCGACAGTTTCGATGCCCTCGCCTCGGCCGAA -AAACTGCCTTACAGCAAGCCGCATCCGCAAGTATATCTCGACTGCGCAGCAAAACTGGGCGTTGACCCTC -TGACCTGCGTAGCGCTGGAAGATTCGGTAAATGGCATGATCGCCTCTAAAGCAGCCCGCATGCGTTCCAT -CGTCGTTCCTGCGCCAGAAGCGCAAAATGATCCACGTTTTGTATTAGCAGACGTCAAACTTTCATCGCTG -ACAGAACTCACCGCAAAAGACCTTCTCGGTTAATGACCAGGGGCAGTGATCTCGCTGCCCCTGGTTCTTT -ATCTGAAATTGCATTCAACTGACGGATTAATCGTCAATTTAAGAGAAAGAGTTACACCGTCACCACTTCC -GTGCACTGTATAAAAATCCTATACTGTACGTATCGACAGTTTAGTGAGTTTTATCATGACGGCGGAAGGT -CACCTTCTCTTTTCTATTGCTTGTGCGGTATTTGCCAAAAATGCCGAGCTGACGCCCGTGCTGGCACAGG -GTGACTGGTGGCATATTGTCCCTTCCGCAATCCTGACGTGTTTGTTACCGGACATCGATCACCCAAAGTC -GTTTCTTGGGCAGCGATTAAAATGGATATCAAAACCGATCGCCCGCGCTTTTGGGCATCGTGGTTTTACC -CACAGTCTGCTGGCGGTATTTGCGCTGCTGGCAACCTTTTACCTTAAGGTTCCGGAAGGCTGGTTCATTC -CGGCTGATGCGCTACAAGGAATGGTGCTGGGTTATTTGAGCCACATACTTGCCGATATGCTGACACCCGC -CGGTGTTCCCCTGCTCTGGCCATGCCGCTGGCGTTTCCGCTTGCCTATCCTGGTTCCCCAAAAGGGCAAC -CAACTGGAACGTTTTATCTGCATGGCATTATTTGTCTGGTCGGTATGGATGCCCCATTCATTACCCGAGA -ACAGCGCTGTTCGTTGGTCATCGCAAATGATCAATACCTTGCAGATCCAGTTTCATCGGCTTATTAAGCA -TCAGGTTGAATACTAAAAAGGCAAAAATCACCTTTCTGGAATAAGCAATTCCATTTGAATATAAGAGCCA -GCTCACAGTTCTGTTAATCTTGCGCCAACACTATGACTGCTACGCAGTGATAGAAATAATAAGATCAGGA -GAACGGGGATGAACTTTCCATTAATTGCGAACATCGTGGTGTTCGTTGTACTGCTGTTTGCGCTGGCTCA -GACCCGCCATAAACAGTGGAGTCTGGCGAAAAAAGTGCTGGTGGGTCTGGTGATGGGTGTGGTTTTTGGC -CTTGCCCTGCATACCATTTATGGTTCTGACAGCCAGGTACTTAAAGATTCTGTACAGTGGTTTAACATCG -TTGGTAACGGCTATGTTCAACTGCTGCAAATGATCGTTATGCCGTTAGTCTTCGCCTCTATTCTGAGCGC -GGTTGCCCGTCTGCATAACGCATCTCAGTTAGGCAAAATCAGTTTTCTGACCATCGGTACGCTTTTGTTT -ACCACGCTGATTGCGGCGCTGGTCGGTGTGCTGGTCACCAACCTGTTTGGTTTGACGGCTGAAGGTCTGG -TTCAGGGTGGTGCAGAAACTGCACGTCTGAACGCCATTGAAAGTAACTATGTTGGTAAAGTCTCTGATCT -GAGCGTTCCGCAGCTGGTCTTGTCCTTTATCCCGAAAAACCCGTTTGCCGATCTTACCGGAGCCAATCCG -ACGTCAATTATCAGCGTGGTAATTTTTGCCGCATTCCTCGGCGTAGCTGCATTGAAACTGCTGAAGGATG -ATGCGCCGAAAGGTGAACGCGTCTTAGCCGCTATCGATACCCTACAAAGCTGGGTGATGAAACTGGTTCG -CCTGGTCATGCAGTTGACCCCTTACGGCGTTCTGGCTCTAATGACCAAAGTGGTTGCAGGTTCTAACTTG -CAAGACATCATCAAACTGGGAAGTTTCGTTGTCGCGTCCTACCTCGGTCTGCTGATTATGTTTGCAGTGC -ATGGCATTCTGCTGGGCATTAATGGCGTGAGTCCGCTGAAGTACTTCCGTAAGGTATGGCCTGTGCTGAC -GTTTGCCTTTACCAGCCGTTCCAGTGCTGCGTCTATCCCACTGAATGTGGAAGCACAAACGCGTCGTCTG -GGCGTTCCTGAATCCATCGCCAGTTTCGCCGCCTCTTTCGGTGCAACCATTGGTCAGAACGGCTGCGCCG -GTTTGTATCCGGCAATGCTGGCGGTGATGGTTGCGCCTACGGTTGGCATTAACCCGCTGGACCCGATGTG -GATTGCGACGCTGGTCGGTATTGTTACCGTTAGTTCCGCAGGCGTTGCCGGTGTCGGTGGTGGTGCAACT -TTCGCCGCACTGATTGTACTGCCTGCGATGGGCCTGCCAGTAACCCTGGTGGCGCTGTTAATCTCCGTTG -AACCGCTTATCGACATGGGCCGTACGGCGTTAAACGTTAGTGGCTCGATGACAGCTGGCACGCTGACCAG -CCAGTGGCTGAAGCAAACCGATAAAGCCATTCTGGATAGCGAAGACGACGCCGAACTGGCACACCATTAA -TTCTTATGCTGGCAACGGTCCGTTTTGTATAGGGGCCGTTGCCTTACTTTTTAAATGTTCCATCGCGGCG -ATGCATACTGACTCATATTTAAACAGATCGTCAGCGAAAAAAATGTCCAACTTATCAATACATTCCTGGC -TCAATGAATGTGCCTGTAGCGAGAAGCTTAAAACCTCATACCCGAGACGTTTTCTAAGTGAACTATCTGG -AATACTCATAATATCTTCAAGCACACCACTTCCCATTCCCGGAAGATTTAGTGGATTAAAAAGAAGATTG -ATATTAAGCATTGATATTATCGAAGGAAACTTTAGGAGACTCTCATTTTTTTGAATCGCAGCAAAAATGC -TCCCGACAGGATGTATATAATTTTGTTCATAGTATATAGTCCTTAAATAGTGAATAACCAACCTGTTTTT -TATACTGATCAAATTGGTCATTTTTTCTGGGCGAAATACAGAAGTGACATCCATTCCAATAAAATCTTTA -TTTATACCTCTTATCCGAATTTCACTACCATAAAGATTATTAATTATTACTCTATATTTAACATTGTCCT -GCAGATATGTATCAAAACTAAGTGCTGGCGCTCCTGGCTTTGAGGCATCATAGTTAATGTTAGACATATA -GGCAATCATATAATTAAAGTTTGATTCTGCTATTTCATCGCAGTCACATTGACCCGTTGATATAAAGAAA -GTGAGTGCTGTCATAGTAGACTGCAGCCTTTCTTTAAAAGAGTCGAAAGCCAGGCTTTTAATATTTAAAT -CACCATAATTACTCTGTATTAAGTTTGTAGAAAACATCTCCCGCCTCATATTGTTAACAAAATTATTATC -TCATTTAAATCTAAGTCATTTACAATATAAGTTTAAGAGCGACGCCACAGGATGAACTATCAAAAATAGC -TCATCATGATTAGCAAAACTTAACCATTTTAAAATAAATAAACAATTAAAGAAAAAAGATCACTTATTTA -TAGCAATAGATCGTCAAAGGCAGCTTTTTGTTACAGGTGGTTTGAATGAATGTAGCAACGAAATACAGAA -TTTCAGGTCATGTAACTCCCGGCAAAACCGGGAGGTATGTAATCCTTACTCAGTCACTTCCCCTTCCTGG -CGGATCTGATTTGCCCAACGTTGGGCAGATTCAGGCACAGTAAACGCCGGTGAGCGCAGAAATGACTCTC -CCATCAGTACAAACGCAACATATTTGCCACGCAGCATCCAGACATCACGAAACGAATCCATCTTTATCGC -ATGTTCTGGCGGCGCGGGTTCCGTGCGTGGGACATAGCTAATAATCTGGCGGTTTTGCTGGCGGAGCGGT -TTCTTCATTACTGGCTTCACTAAACGCATATTAAAAATCAGAAAAACTGTAGTTTAGCCGATTTAGCCCC -TGTACGTCCCGCTTTGCGTGTATTTCATAACACCGTTTCCAGAATAGTCTCCGAAGCGGGATCTGGCTGG -TGGTCTATAGTTAGAGAGTTTTTTGACCAAAACAGCGGCCCTTTCAGTAATAAATTAAGGAGACGAGTTC -AATGTCGCAACATAACGAAAAGAACCCACATCAGCACCAGTCACCACTACACGATTCCAGCGAAGCGAAA -CCGGGGATGGACTCACTGGCACCTGAGGACGGCTCTCATCGTCCAGCGGCTGAACCAACACCGCCAGGTG -CACAACCTACCGCCCCAGGGAGCCTGAAAGCCCCTGATACGCGTAACGAAAAACTTAATTCTCTGGAAGA -CGTACGCAAAGGCAGTGAAAATTATGCGCTGACCACTAATCAGGGCGTGCGCATCGCCGACGATCAAAAC -TCACTGCGTGCCGGTAGCCGTGGTCCAACGCTGCTGGAAGATTTTATTCTGCGCGAGAAAATCACCCACT -TTGACCATGAGCGCATTCCGGAACGTATTGTTCATGCACGCGGATCAGCCGCTCACGGTTATTTCCAGCC -ATATAAAAGCTTAAGCGATATTACCAAAGCGGATTTCCTCTCAGATCCGAACAAAATCACCCCAGTATTT -GTACGTTTCTCTACCGTTCAGGGTGGTGCTGGCTCTGCTGATACCGTGCGTGATATCCGTGGCTTTGCCA -CCAAGTTCTATACCGAAGAGGGTATTTTTGACCTCGTTGGCAATAACACGCCAATCTTCTTTATCCAGGA -TGCGCATAAATTCCCCGATTTTGTTCATGCGGTAAAACCAGAACCGCACTGGGCAATTCCACAAGGGCAA -AGTGCCCACGATACTTTCTGGGATTATGTTTCTCTGCAACCTGAAACTCTGCACAACGTGATGTGGGCGA -TGTCGGATCGCGGCATCCCCCGCAGTTACCGCACCATGGAAGGCTTCGGTATTCACACCTTCCGCCTGAT -TAATGCCGAAGGGAAGGCAACGTTTGTACGTTTCCACTGGAAACCACTGGCAGGTAAAGCCTCACTCGTT -TGGGATGAAGCACAAAAACTCACCGGACGTGACCCGGACTTCCACCGCCGCGAGTTGTGGGAAGCCATTG -AAGCAGGCGATTTTCCGGAATACGAACTGGGCTTCCAGTTGATTCCTGAAGAAGATGAATTCAAGTTCGA -CTTCGATCTTCTCGATCCAACCAAACTTATCCCGGAAGAACTGGTGCCCGTTCAGCGTGTCGGCAAAATG -GTGCTCAATCGCAACCCGGATAACTTCTTTGCTGAAAACGAACAGGCGGCTTTCCATCCTGGGCATATCG -TGCCGGGACTGGACTTCACCAACGATCCGCTGTTGCAGGGACGTTTGTTCTCCTATACCGATACACAAAT -CAGTCGTCTTGGTGGGCCGAATTTCCATGAGATTCCGATTAACCGTCCGACCTGCCCTTACCATAATTTC -CAGCGTGACGGCATGCATCGCATGGGGATCGACACTAACCCGGCGAATTACGAACCGAACTCGATTAACG -ATAACTGGCCGCGCGAAACACCGCCGGGGCCGAAACGCGGCGGTTTTGAATCATACCAGGAGCGCGTGGA -AGGCAATAAAGTTCGCGAGCGCAGCCCATCGTTTGGCGAATATTATTCCCATCCGCGTCTGTTCTGGCTA -AGTCAGACGCCATTTGAGCAGCGCCATATTGTCGATGGTTTCAGTTTTGAGTTAAGCAAAGTCGTTCGTC -CGTATATTCGTGAGCGCGTTGTTGACCAGCTGGCGCATATTGATCTCACTCTGGCCCAGGCGGTGGCGAA -AAATCTCGGTATCGAACTGACTGACGACCAGCTGAATATCACCCCACCTCCGGACGTCAACGGTCTGAAA -AAGGATCCATCCTTAAGTTTGTACGCCATTCCTGACGGTGATGTGAAAGGTCGCGTGGTAGCGATTTTAC -TTAATGATGAAGTGAGATCGGCAGACCTTCTGGCCATTCTCAAGGCGCTGAAGGCCAAAGGCGTTCATGC -CAAACTGCTCTACTCCCGAATGGGTGAAGTGACTGCGGATGACGGTACGGTGTTGCCTATAGCCGCTACC -TTTGCCGGTGCACCTTCGCTGACGGTCGATGCGGTCATTGTCCCTTGCGGCAATATCGCGGATATCGCTG -ACAACGGCGATGCCAACTACTACCTGATGGAAGCCTACAAACACCTTAAACCGATTGCGCTGGCGGGTGA -CGCGCGCAAGTTTAAAGCAACAATCAAGATCGCTGACCAGGGTGAAGAAGGGATTGTGGAAGCTGACAGC -GCTGACGGTAGTTTTATGGATGAACTGCTAACGCTGATGGCAGCACACCGCGTGTGGTCACGCATTCCTA -AGATTGACAAAATTCCTGCCTGATGGGAGGCGGCGCAATTGCGCCGCCTCAAATGATTTACATAGTGCGC -TTTGTTTATGCCGGATGCGGCGTGAACGCCTTATCCGGCCTACAAAACTGTGCAAATTCAATATATTGCA -GGAAACACGTAGGCCTGATAAGCGAAGCGCATCAGGCAGTTTTGCGTTTGTCAGCAGTCTCAAGCGGCGC -AGTTACGCCGCCTTTGTAGGAATTAATCGCCGGATGCAAGGTTCACGCCGCATCTGGCAAACATCCTCAC -TTACACATCCCGATAACTCCCCAACCGATAACCACGCTGAGCGATAGCACCTTTCAACGACGCTGATGTC -AACACATCCAGCTCCGTTAAGCGTGGGAAACAGTAAGCACTCTGACGGATAGTATTATCGATAAACGCCG -GATGACACATCACCTCCAGCGAACGATCACCCCGATGGCCTGCGTCATCCAGCACTTGCAGGAACAGCGA -CTCACTGATCTCTTCACCGTAGAATGCACTGCTGAATCCCTGGGTAGTGCGCAGGTTGACCGGCAAATCA -AACGCCATCTGACGATCCGCCCGCAACGCAATGCCCTGCTCTGCCGCAAACCTGGCAACAATCGGGAAAA -TCTGCGGGAACATATGCACATGATGATGGCTATCAAGATGCGTAGGTTTGCGTCCAAATAGCTCAATGAA -ACGCAAATACTGACTGACAAGCTCCTGAGTAATTTCTTCCAGCGGTAAAGCATCTTCTTCTGCCAACTGC -CAGATCCATTTTCCCAGCACACCATCGCGGGTTAACCCCGGCATAGCTGTCAGTGGCTTACCCATAGTAA -GGACAAAGTGCATCCCTATGGCCAGACTCGGTTCATCACGACTCAACTGCACCGCATGGTCAATAGCCTG -CCCATTCACCAGCGCCGTCGTCGACGTGACAATCCCATTGCGACAGGCCTCGATAATGCCGTAGTTCTGA -CCTTTGCTTAAGCCAAAATCATCGGCATTAACAATCAGTAAGCGTTCCATAATCAGCCTCGGTTAATGTG -CTTTTTTAAGCTCTGCGATGCAGTCGGCAAAGTTTGGCAGCCATTTCTCGTGCGCCAGAATCATCTCGCG -TGCCAGCAGCTCAGCATCGCGATCGGAATGCACCAACGGACTAAGGTTTAGCGCCAGTAACACATCGTTA -AATTCTCCGCTAAGTGCGGCGTTACTGGCAGCAATCTCGAAGCCTTTAATGGTGTGAATCAGCCCCATTA -CTTTATCATCGAAATGCGTAATGCGCGGATGTGGCGTCGCGCCATCGCGCCCCAGCTTACAGGTCATTTC -TACTGCCCAGTCTGCCGGAATATTATCAATCTGCCCATGATGCGGGATATTAACGTAATGTTCTGCTTGC -TTGTCGTTGTAGATAGCGTTGATCACTTCGCATGCTGCATCAGAGTAATAAGCCCCACCGCGCTGTTCCA -GTTCTTTCGGCTTAACTTTCAGCTCAGGATTTTTATACAGCTCAAAAAGTTGTTTCTCGACTTTCTGTAC -TACCTGCGCTCGTGCGCCGCCTTTGTAGTATTCGCCCATTTCAATAGCCAGCATCTCTTTCTGCTTGAAG -TAATACAGCAGATAAGAACATGGCAGCAGATTCAACGAACGAATTAAGCCCTCACTAAATGGCAGATCGA -AAATATTTTTTACAGAGGACGCTTTTAACTGCCCTGACGCCACACCATCAAGCAATTCGGCAAAGCGCGA -CTTGCCATTTATCAGCACATCCTTAATGAACACCATATGGTTGAGGCCGAACAAATCGATAGATAAATCA -TCGCTGTCTTTCAGCATCAGAACATCGCGAATAAACATCTTCATGCCGATCGGAATATTACACACGCCGA -TAAAGCGTTTAAATCCGGTATGACGATAAACGGCTTCAGTGACCATTCCCGCCGGGTTAGTGAAGTTAAT -CACCCATGCATTCGGACAAAGTTCTTCGACATCTTTTACGATGTCAAAAATCACCGGAATGGTACGCAGA -CCTTTAAACAAACCGCCCGCGCCGTTGGTTTCCTGACCAAGATAACCATGACTTAATGGAATACGTTCAT -CCAGTTCACGCGCCGGTAATTGGCCAACGCGCAGTTGGGTAGTAACGAAATCAGCATCTTTCAATGCTTC -GCGGCGATCCAGCGTTTTATAAAGCTTCATCGGGACGCCAGCGTTATCAATCATCCGTTGGCAGAGATCG -AAAATAATATCCAGTTTCGGTTTACCACCTTCGACATCCACCAGCCATAATTCGCTGACCGGCAATTCGT -GATAACGCTTAATAAATCCTTCCAGTAACTCCGGGGTATAGCTGCTCCCGCCACCAATAGTGACGACTTT -TAATTTCTGGCTCATAATTTCTCCCTTCAGTACAGAATACTGATATCTGGCATATCTGCCCCCCCGGACA -TAAATAATCCAGCAACAGGACAGATATGTGAATTGTCAGGTATAACGACTTACTGATTAAATTCAGTCAA -TTTCTTACGATAGCTCTTAGGCGTAAAGGACGTTAATTTCTTAAACGTTTTAATAAACAAACTCGGGCTA -CTATAACCGGCCTCAAACGCAATATCCGTCACTGAATAGTTGGTCATTTCCAGTTGTTTTTTGGCAAAAT -TAATACGGATTTCATTAATAATCTGCATTGGCGTTTTGCCATAATATCGTTGAGTCGCTCGCGTCAAATA -TTCCTGTGATTTGGCTGACAACGCCACCATATTCTCCAGCGCCGATTCACTAAACTGCTCTTTATCATGC -ATCTTTTCTACCGTACTTTTCAGCCACTGCGGTACATCATCAATCACCTGTTCTTCGCGGTAATGACGTA -AACGGTTAATGACATAAAAAGTAACCATCTCAACAAACTCTTCCAGCCCTGTTTCGCGGAAATTCAATGA -AGAAATCACTGTTTCCACATAGGTGAGAAAAGCGTTATTGGTCCGGTATACCTGCGAAGCGACAAAGCAA -TAAGGCAACAATGGCAGGTAATGCTGCTCAAAAAAGCGTTTACTGATCCCAACGTTCAATATGCGCGTGG -CACCAAACTCATAAAAACTTTGATGGTGCGAACCTAACGGAATAAAAACAAAATCGCCCCGTTCCAGTAA -CACGCGCTTACCGTTAATCTCCTGGAAATAACGCCCGGTTAATACCAGAGTAAATTCATAATAGTCGTGC -TGATGCAGTCCGCTGATACTCTCAGTTTTGTTATAGATAAACACATGGAAGTTTTTGCCATTAAACAACT -GCTGTTCTCGGGCAGTGGCAATTTCCGGCGCGTTAATCACTGGCTGCATCATCGACTCCTTATGCCTTCA -GTTTTTCATGAAGCTCAATTAATTCAGTAATCAGTTCACGCGCAAGCATGGACGTCATTAAATGATCCTG -AGCGTGGACCAGCACCAGACTCACTTTCATCTTACCTTCGCCCGCATCGCCTTCAATCAGTTTCGTCTGT -ACCAGATGCGCTTCATTCAATGCCATCCGTGACTGATCCATCATGGCTTTTGCTGCGGCAAAATCGCCCT -GCTTCGCCTGTTTCAGTGCCGCATACGCCAGGCTGCGCGCTTGTCCGGAGTTGATGATCAGCCCCATCAC -CACTTCTTCCAGCTCTTCAGCTTCCGTTTGCGTATCGGGAATGTTATCGAGATCCATCATACATCGTTCC -TCTCTTTTCTTACCGGCACGATTACCCGTACCGGCATCGATTAAAATTTCAGGGCGTTAGCGATATCTTC -TTCGCTCTCTTCTTTATCAATCGCATTTTGTGCTTTGTTAGCCACCACAACAAAGGGCAGATAAATTAAC -GTTGCGATGCCAAGGTTGAAGAGTGCGACCAGCAATGCGGCGACGCTACCGTTGGTGTTAAAGAAGGCTC -CCAGACCGGTTGGCATGGTCCACGGTGCAATATTGGTCACCGGAGGAATAATGCCCATGTAGTACGCTGC -GAGGGTGATTGCCGCCAGAATCGGTTGTACCAGTACAAACGGGATAAACATCACCGGGTTCATGATAATT -GGCAGACCAAACAGAATCGGTTCGTTAATCTGGAAGATGCCGGACGGCAGCGCCAGTTTTGCCACCTGAC -GATAATCAGCACGGCGAGAGGCGATAAAGATAGCCAGGATCAGGCCTAAAGTCGCACCACTGCCCCCAAG -GAAAATAAAGGAGTCCAGCATCGGCTTGGCCCAGATATGGAAGGTCTTACCGGCTGCCAGCGCCGCTTCG -ACGGAACCATATTGCTGATAGGTCGCGATATTTTCCAGTGCCCACGGCGTCATAATGCCGTTGTCCAGTG -CGGTCAGCGCCAGCGCGCCATGAATACCGAAGAACCAGAGCAGTGGAACAAAGATCACATAGGCCCAGCC -CACCACGCTACCCAACGATGCCAGTGGGGTTGAGATGGTATCCATAATGATCTGATGGAAGTTGGTGCCC -CAGGTATTCAACGCCCAGGCAATAATCCCCATCACGGAAAGAATAATAAAGCCGGGAATTAATGCCGAGA -AGGAACGCGATACTGAAGCAGGTACGCTGTCGGGCAGTTTAATGACCCAATTGCGGCGGACAATAAAGGT -AAACATTTCTGCCACCACCAGGCCAATAATAATCCCGGAGATGATATTCGCCCCACCTAACCAGTTTGCA -CCAACCGCATAGGCCTCACCGACACTATATGGGGTGACGGTCATAAATGCTGCAACGGATAACAACCCAG -CCGCCAGCGCATCGACTTTACGCTCTTCTGCCAGCGCCATGCCAATAAAGAACGGTGCCATTAAAGACAT -TATTCCTAATGTTCCGTTATATACGTTGCCGCCAATACCTTTCAGACCATTAAGTGTTTCAATGGTTGAG -GCGTCGAGGCGAATACCTAAGGAATAAAAAAACGACCCCTCCCCAAAGCTTAGAAAAACGTTGTTAATTA -ATACAAACATGGCCCCCGCAAGGGTTAACGGCATTAAGCGAATAAAGCCATTTTTGATTGCATTAACGTG -TGGCTGCTTTCCTATTTTAACTGCAAAAGGGAGGAGTACCTTTTCAAGCGATGCAATAACATTACTCATA -GAAAAATACCCTTAAAAACCGCAATTTAAATATTGCGGTATTGATTTATGAAATAACTCTTTGACGGGAA -AATTTAAAATAAATTAATTTGCTGCGGCTTTTTTAATCGCTGCAACCGCAGCCTTAAGCACGCCTAAACC -ATCGACTTTGCCATAAAGCAGCGAGTCAATTACTTCAACCGGTTTGTTGGGTAACAAACGCTGGATTTCG -GGCAACATATAAGCAATCTGCGGCCCTAATAACACGACATCGGCATTCTGACCTTTTTCACCAGCCAGTG -TTTCCGGAAATGCTTCAATAATGACCGGAACTTCATATTTTTCTGCCTGTGCGCGCATTTTTGATACCAG -TAAAGAGGTAGACATGCCCGCAGAACAAAACAGATAAATGTGTTTCTTTTCCATAAAACTGCCCTCATCG -ACGATTATCTGTCAGCCAGACACTCCGCAAGCCTTAACCTGCTTCCATGCTCTGGGTAACTTGCGAAACC -AACATGACTTTTTTTGTGGCTGAAAGGAGTATACGGTATAGACCTGAGCAATAGTATTTCTTTGACCTTA -TAAATTGTTTCTCCTTGACCTGTGGTTATGACCCTCTTCACATTTCGGGCAAATAATTCGCGAAGATAAT -TAAGAACTCAGGCCAAAAAAAACCGGCGCAATGGCCGGTTTCCGTTGTTACTCAAGCTTTCAGACGAATT -GATTACTTCGCAGCCTGTGGATCAGTGTCGTATTCAGCACAGGTCTGATAACCGGAGTTGATGACATGTC -CGGTATCATCTAACGCGACAAAGTAGGTTTCTGCTTTACCATCACGTTGACCCAGGATGTAGGTCTGGCA -AGTACCGCGAGCATGGATCATGCTCACTTCAGACGAAGGTTTACCCGCAATTTGTGCAACCTGCGCCCGG -CTCATGCCTTTTTTGACGTCTTTCACCACAGGCTGTACAAACTGGTCTTTGGTACGATCATAAGCCGTAC -AACCCGCCAGCATGGTTAATACCGCCGCTGCACTCAGAATTCCTGCCATATTCTTGTTCATATTCCGTCC -TCTTGTTTATCAGCGTGTTAGATAAGCCTGGAATACATTGGGCGCTTTTTCAAGCCCGTGAACGAAACGG -CTCCGCTTTCAGAGGATTCCTGTATGACGTTTTAACCACCATTCAGCCCGCTGTCGCTTGTCGTTTCAGT -AGCAACGGGTTAGCTTTAAGGAAGTTTTGTCTTTTCTGTCTGGAGGGGTTCAATGACATTGCAACAACAA -ATAATAAAGGCGCTGGGCGCAAAACCGCAGATTAATGCTGAAGAGGAAATTCGTCGTAGTGTCGATTTTC -TGAAAAGCTACCTGCAAACTTATCCGTTCATTAAATCACTGGTGCTCGGGATCAGCGGCGGTCAGGACTC -CACGCTTGCCGGAAAGCTGTGCCAGATGGCGATTAATGAGCTGCGCCTGGAAACCGGCAACGAATCACTG -CAATTTATTGCCGTACGCCTGCCCTATGGTGTTCAGGCCGACGAACAAGATTGCCAGGATGCCATTGCCT -TTATTCAACCGGATCGCGTATTAACCGTTAATATCAAGGGCGCGGTATTGGCCAGCGAACAGGCATTGCG -GGAAGCAGGCATTGAACTGAGCGATTTTGTCCGTGGCAATGAAAAAGCGCGTGAGCGGATGAAAGCACAA -TATAGCATTGCGGGTATGACCAGCGGTGTCGTGGTGGGCACCGATCATGCAGCAGAAGCCATTACCGGAT -TCTTCACTAAATATGGTGACGGCGGTACGGACATTAATCCGCTGTATCGTCTCAACAAACGTCAGGGTAA -ACAGTTACTGGCGGCATTAGCTTGCCCGGAACACCTTTATAAGAAAGCGCCAACGGCCGATCTGGAAGAT -GATCGCCCTTCTCTGCCAGATGAAGTGGCACTCGGCGTGACCTATGACAATATCGACGACTATCTGGAAG -GGAAAAACGTACCTCAACAGGTCGCCAGAACAATAGAGAACTGGTATCTGAAAACCGAACATAAACGCCG -TCCGCCAATTACCGTTTTCGATGATTTCTGGAAAAAGTAATAATTTGCACATATTGGATTGTGCGAAAAA -GAGTAATTTGTTCACGCCGGATGCGGCGTGAACGCCTTATTCGACCTATAAAACTATGCAAATTCAATAC -ATTGCAGGAGTCGAATAGGCCTGACAGGCGTAGCACGTCAGACGGTGTAACCTTTGTCATCGACCCGCCT -CTTTTTTAATCGCTTCCCGCCTGTTACACTGGATAGATAACCAGCATTCGGAGTCAACAGTGGTACGGCG -TTTAACTTCTCCGCGGCTCGAATTTGAAGCTGCGGCAATTTATGAATATCCCGAACATTTACGTTCATTC -CTTAATGACTTACCCACCCGACCAGGGGTGTATCTGTTTCATGGTGAAAGTGACACCATGCCGCTCTATA -TCGGCAAAAGCGTTAACATCCGCAGCCGCGTCCTTTCTCATTTACGTACCCCGGATGAAGCCGCCATGCT -ACGGCAATCCCGACGGATCAGCTGGATATGTACCGCCGGTGAAATCGGCGCTCTGCTCCTTGAAGCGCGA -TTAATCAAAGAACAACAGCCGCTGTTTAATAAACGGTTGCGCCGCAATCGCCAGCTCTGTGCCCTGCAAT -TAAATGAAAAGCGCGTCGATGTGGTGTATGCCAAAGAGGTGGATTTTTCACGAGCCCCCAACCTGTTTGG -CCTGTTTGCCAATAGGCGCGCAGCTTTGCAAGCATTGCAGACCATCGCTGATGAACAAAAACTTTGTTAT -GGCCTGCTGGGACTGGAACCGTTAAGTCGCGGTCGTGCATGTTTTCGTTCAGCGCTAAAACGTTGCGCCG -GAGCATGCTGCGGTAAAGAGAGCCATGAGGAACATGCGCTACGCTTGCGCCAGTCTCTGGAGCGTTTGCG -GGTGGTGTGTTGGCCTTGGCAAGGGGCGGTGGCGCTGAAAGAACAGCACCCGGAAATGACTCAATATCAT -ATTATTCAAAACTGGCTGTGGCTGGGGGCGGTTAATTCGCTGGAAGAAGCGACAACGTTAATTCGGACAC -CCGCCGGGTTTGATCACGACGGTTATAAAATTCTTTGTAAGCCGCTGCTTTCCGGTAACTATGAAATTAC -TGAACTTGATCCGGCGAATGACCAGCGAGCCAGTTGATTTCACTGAACAACAGTTTACCTTGCGGTTGTA -AAAGCCGCAGGGTGTGCCTGCCATCGAACCAGCACGCGCCCTGGTCGGTAGTGAGCAATTTATCGCCCAG -TTGCCACGCCCCGTTAATCACAAACACCACCCCGCCGCGTGAGCCAAAGGTAGTAAACGTACGTTCGGCA -ATTCTGACTTTCGCCTTACAGACATCCAGGCGTGTCATGATGTTGAAATCCATCGACATCTGCCCTGCCG -TCAGTTTCGCTTTTACCACCTGGTCCGCTGCAAAGGCAAAAGGCTGGAACGGTTTTAAGGTATGGTTAAA -GCGGTCTGCGCTTTCAAGGAGCATCTCGCCGCCTTCCAGCAACGTCACTATCCTTTCCATGCCGGGAAAC -AAAGAAAACTCCCCATTCGCCGCGATGGATGCAATGCTGGCACGCCAGTAAAAATCACGTTTTGCCGGTG -GGAACGTGCAAATTTCGCGCGTTTCACCGGCAGCATTTCGCCACAGATTCACCGACATTTTACGCATATC -AAAGTATTCCATACTCGCTCCCGGCCCGTTCTTTTCATTGTTATCGTTCAGGTAACCGTGGATGGTTATC -GGCAACTCGGGTGATTTACGTTAGTGGTGATCAGGCTTTTTTTACAACTGTTTGAGAAGAGAAAAGAAAA -CCGCCGATCCTGTCCACCGCATTACTGCAAGGTAGTGGACAAGACCGGCGGTCTTAAGTTTTTTGGCTGA -AAGATTATTCAGCAGTTGCAGGCATTTTACCTTTTGCCGCTGGACGTTCTGTCAGACGCTTCTCAAAATT -AGCATTAAATTGCTTTTTCTGTTCCGGCGTCAGGATGTTGTAAATTTTGTTCTGGGTTTCCATGTGCGCC -AGCATGTTAGCTTTGCGCTGTTCTTCCATTTTTGCGATCTGCGCTTCAGCTTTTACTTTATCGAAGGTAT -CGCTGGCAATGATGTCATGCATTGCGCGGCGTTCTTCCAGCGGCGGACGTTTCATCTGGTCACGCTGGCC -TTTCATGATTTCGCGGATCTGCTGTTTCTGCGCGTCGGTCAGGTTCAGGTCTTTGAACATCATGTCCTGA -TGCGGACCGAACTTGCCTTTGTGGTGCATCATCGGCTTCGCGTCAGCCGGTGCTGCGGTAGTGGTGTCTG -CGGCATGGGCCAGGTTAGCCGCGCCAAGAGCCAGGGTAGAGGCAACAAACAGTGCAGTTAATTTACGCAT -ATTCTATATCCTTCCTTTCAGTTATTTATTACGGCTTTCTTAAGTAGCGTGCCGTGTTGACGAGATTAAC -TTTACTGACTTTAGCGTCAATTAATCAGAGCAACGGTAAAACAATGAAAGTGTAAAAAACACTTTTGCGC -CAATTATGGAGAAAAAAAGAAAATTTGATGGAGAGTGATGAGAGAATATTACAACACGATGATTTTGCAG -AGATTATGAAGAACTATACCGGATGACTGGTGATAAATAAAGCAAATAACCAGGATTAATCTGTATTAAT -TTATAAGAAAGCAACTTAATACCCGCAGAATGATTTCTGCGGGTAAGTATTAGCTTATTTTTTCGAGCAT -TAATCCCGCGCGTAATCCCAACGCTACCAACGGATTAGGGAATAACACATACTCTACATCATGGGTTACG -GTAAAACGTTCCTCTCCGTCCTGCGCCAGCAATGTTCCTTTCTCAAACGGCATAAAATTCAGCGTGTCAC -TTGCCATATGCATTTCGAAGGACGGCGAGTGGCGAGTAATTTGCGAAACCACCCGATAACGGAGCGGCGG -TGTTCTCACGATACCGACACTCTCACCAGATAGCAGCGCAGCAATTGCGCTGGCAGTTACTGCAAACTGG -CGAAGATCGTTTTGCCCAAAGGGCAACGCTTTGCCAAGTTCCAGCGTACAGGCCAGCGCGCCAAAATGTC -TGGCGCTGAAATGGGTAAACGTACCACCAGGTTCCTGATGGAACACCAGCGCCTCCAGCCCCGCCGCACC -CAGCCACGTCAGAAATTTCTCGTCCCAGGGAATGTCGCGTTGCGGTAATACACCGAACTGCGGATGCAAG -GAGCCACGAATTGCGGTATGTAGATCAAGGTGCCAGCGCACAGATTCTTTGCCCTGGTCATAAAAATCTT -CCAGGCACTGTTCCAGTTCGCGCGCCCGACAGGTTTCTCCGCTTTCAGCAAATAGCTGCCAACGACCGCC -AAACATTCGATTCATATCGCTATGGCAATAACGTTTCCCTTGCTTCAGCGCAGGAGGATTCCCGAGGATC -ACCAGCAACCGCCAACGTAACGGGATCTCGCCGTGAGATATCGCGCCAAGCAACGCGTCCAGCATCTCCA -CAGGTGCCGTCTCATTACCGTGTATTCCCGCTGAAATCACCAGTGCGCCTTGCGGTGGCGTTAATGGCGT -CAGTTCCAGCACACCATCGCCCAGCCAGCGCCAGCGAACGCCGTTGATTTCTCGCTCGGTGATAACCGGT -TTTTTACCCGTTAAGGTCAGAGCAAGAAAATTATCCATTGCCCCCTCCCTCGCGCTGGAACGGATAAACC -GAACCGAGATTCAGTAATTGGCTCAATACATCCAGTGCTTCCCGCCCTTCGCGCAGCAATTGCGGGTCGG -CCAGATCGGCAGCAGTAAGGCGATCGCGGTAGTAACGATCCACCCAGTCATTGAGCGCATTAAACAGCGT -ATCGTTCATCATCACCGCCGGATTCACCGCCCGGCGTTCTTCTTCTGTCAATACCACCCGCAACCGCAGG -CACGCCGGGCCGCCGCCATTCGCCATGCTTTCACGTAAATCAAAGACTTTTAGTTCGCTAATCGGGTTGT -CAGCGGCAAGGAGTTCATTGAGATAACCCCATACTCCGGCGTGTTCCCGACACTCCTGAGGCAGCACCAA -CATCATGGAACCATCATCGCGGCTCAGCAGTTGGCTGTTAAACAGATAGGTAGACACCGTATCAGACACG -GAAACCTGAGTTGCCGGAACTTCTATCGCCATAAAACCATTGACCCGCGCACGCAGGTTTGCCAGTAACT -GTGACTGGCGAGCGAACGCCTGTTGGTGGCAAAACAGCACCTGGCGGTTACTCACGGCAATCACGTCATT -ATGAAAAACGCCCTGGTCGATAACGTCCGGGTTTTGCTGGGCGAAAATCACCTGTTGGGGATTCACCTGA -TTCAGCCTTGCCACCGCCTCGCTGGCTTCGCGAGTCTGTCGCGCCGGATAACGGGAAGGCCGGGTATCAT -TGCCTTCTTCTCGCCCGTAGACAAAAAGTTGCATACCCGGTTCACCGTAATGACCGCCGAGACGATTGTG -GTTTGCCGCCCCCTCATCACCGAGCAACGCTACCTGTGGCAACGCCGAATGGACGCTAAATTTCTCTTCG -TCGTTAAAAATCGCTTTTAACAGCGATTCAGTGACGGGCGCTTCCAGCGAACGGTGAAATTTATTGTTCA -GGTTGGCAACGGTGAGATGCACTTTGCCATCCAGCGTATCGGCAGATGGCGCGATCGTTGCCGCATTGGC -TACCCACATTGGCGAAGCGGAACTGACGCTGGAAAGCCAGTGCGGTGCCTGGCGTGCAACTTTTTCCAGT -ACCTGCTCATCGCTACCACTGAATCCCAACTGACGCAGCACCGGAATAAACGGACGCTCGTGCGGCGGGA -TCACGGCCTGGGGGAATCCCGCATCGGCAAGGGCTTTCATTTTCAGTAAGCCCTGCTTCGCCGCCAGTCG -CGGGTTAGACACCTGAAAACGGTGACGGGTAGAGGCTTCATTACCAAACGACAGGCCCGCGTAATGATGC -GTCAGCCCTACCAGCCCGTCGAAATTGACTTCCCAGGCGTTCATCGCACCACCTCATCGGAAAAATCCAG -CCCGGGGTTAAGCGTGGCGGGCAATGTTAACGAGTCCGACTCCAGGCTCGCCATCGGCCATGCGCAGTAA -TCTGCGGCATACCAGGCGCTGGGGCGATGGTTACCGGAAGCACCAATGCCGCCGAATGGCGCGGTACTGG -CAGCACCGGTAAGCGGTTTGTTCCAGTTAACAATCCCCGCCCGCGCCTCCAGCAACAGTTGATCGAACTT -TTCCCGCTCGGGGGAAACCAGACCGCAAGAGAGTCCGAAGCGAGTGTTATTCGCCATTCGAATCGCTTCA -TCGAAAGTATCATAACGCCAGACGCGCAATAACGGTCCGAACACCTCTTCATCTGGTACGCCAGCAACGC -CTGTCATTTCAATGATCCCCGGCGTCAGCAACGATGTCCCTGCTTGTAATAAGCGCGGCGCAAGCAGGGG -TCGTCCGCCCATCGCTTCCAGTTGCTGCCATGCAGTAACCACCTGCTGTGCGGCCTGTTCAGAAATCAGC -CCGCCAATAAACGGCTGCGGTTCGTCATCCCAGTTGCCCGGCGTTAATCGCTGGCTGACGGCAACCAGAC -GAGCAAGAAACGCATCGCCCTGCGCCCCGCTTTTCAGCAATAAACGGCGGGCGCAGGTGCAGCGTTGACC -GGCTGTGACAAACGCCGACTGAATGGTCAGATGGACAGCCGCGTCGATATCCGCCACCTCATCGATAATT -AGCGGATTATTACCGCCCATCTCAAGGGCGAGAATTTTCTCCGGCTGACCGGAGAGCTGGCGATGCAACT -GGTAGCCTGTATTGGCGCTACCGGTAAACAGCAAACCGTCGAGATCCTCCAGCGCACTCAGCGCCTGACC -CGTTTCACGCCCGCCCTGCACCAGGTTCAGCACGCCTGGCGGCAAGCCAGCCTGCTGCCATAAACGCATT -ACCGCTTCGCCACTCCACGGTGTCAGTTCGCTGGGTTTAAAGATAATGGTGTTACCTGCCAGCAATGCCG -GAACGATATGTCCGTTCGGCAAATGACCAGGGAAATTATACGGCCCAAACACCGCCAGCACGCCGTGCGG -GCGATGTCGCAGGCTCGCCGCGCCGTCCGGCATTTCACTACGCTGCTCGCCGGTACGAACGTGATACGCC -TTAATTGATATCGCGATTTTATTGATCATCGCCGTCACTTCGGTTGCCGCTTCCCAGCGCGGCTTACCCG -TTTCTCTGGCAATAATCGCGGTTAATTCGGCTTTATTGCTTTCCAGCAGTGCGGCAAAGCGTTCGACAAC -GGCATGACGTTCAGCAAATGAAAGCCGCGCCCAGCGCGGAAACGCCGCACGGGCTGCCCGACAAGCCTGC -TCGACCTGAGCGGCATCGGCATCATTGCCTTGCCATAACACCTCGCCCGATACCGGATTACGCTTCACAC -GCGATGCGCCCTGGCCCGTTATCCAGTCACCGTTAATCCATAAAGTCATGCTGTTTTCTCCTCTGCGCAC -AGGCGCACCAGACGAACGCGATCCCCGGCGTGGCATTTGAGGGCATCCAGTTGTGCGGCGGTTAAAATCA -AACGCTCGGTTGCCGGATCGGTACGCACCAGCACCACGCGGAAATGGTGATAATTTTCATTGGCGACCAG -GCAGGCTGGGAAATCGCCCTGCGCAGGCTGCCCTTCTGCCACTTCCACCAGCCGACTTTTACGGATGGCG -CGCACGCGGTCGATGTCACACTCAAGCGTCGGCCCACCGTCAAAGATGTCGATATAGTTACGGTAGCGAA -AACCTTCTTTCTCCAGCACCGCGCGGGCAGGCGCGGTTTGCGGATGTACCTGACCGATGACGTCCTGGGC -TTCCTGGGATAAAAAGTGGGTATAGATCGGATGTTTCGGCATCAGTTCTGCAATAAATGCCTTTTGCCCG -GTGCCGCAGAGAAAATCGGCGCGGCTAAAATCCATCGAAAAGAAGCGTTTACCGAGGCTTTGCCAGAACG -GTGAATAGCCGTGTTCGTCAATCACCCCGCGCATTTCAGCAACCACTTTGTCATTAAACTTGTCGCGAAA -AGCCGCCATAAACATAAAGCGCGATTTCGACAGCAAATAGCCGTTGCCCTCTTTGCGCCAGTCCGGGTCG -AGAAACAGCGTGCACAGCTCGCTGCTGCCGGTGTGATCGTTACTGAGAAACAGCGTCGGCAATGCGTTAT -AGACATTCAGCTCTTTTGAGGCGTGAACCAACGTGCCGACGCGATAGTTGTACCAGGGATCGTTCAGCCC -AACCGCCACCTCAATGGCACAAATCCCCGCCACGGTGCCTGTCTCGCTATCTTCCAGCACGAACACATAG -CCCTGCTCACTTTTGGGCAGTTCGCCTTGCCAGGTTTTGATTGCCCTTTCGATACGCGCCGAAAGCGTGG -CTTCATTGGCGGGAAGCGACGTCAGGCCGCCGCCCGTTTTGCTGGCAAGCTGCATCAGCGCCGAGACATC -TGATCGCTCAACGGGACGGATGACCATCATGATGAACCTCGGCTAACAAAGTGTTCGCAAGCAGCTGCAA -AGCGATCCAGTCCGGTCGTCACCTCTTCTTCGCTGACATTGAGCGCAGGCGCAAAACGCACCACGTTGCC -ACCCGCAATCAGTACCATCACGCCTGCTTTCGCCGCTTCCTGAGAGATCTGTTTCGCTTGCCCGGCGTAA -TCGGCATTCAGTACACAGCCAATCAGCAAACCTAAGCCGCGAACTTCACTGAACAAACCATAGCGGTGAT -TAATAGTATTAAGACGCTCAACAAACCAGTCGTGACGCTGTTTAACGCCATTAAGCATCTCTGGTGTGTT -GATGAGCTCCAGCACTTTGCCTGCCACCGCCGAGGCCAGCGGATTACCGCCATAGGTGGTGCCATGAGTG -CCAACGGTCATCACGCGGGCGCACTCTTCGGTTGCCAACAACGCACCGACCGGGAAACCGCCGCCCAGCG -CTTTGGCGGTAGTTAACAGATCAGGCGTCACGCCGTAGTGCATATAGGCATACAGTTCCCCGGTGCGCCC -GACGCCGGTTTGTACTTCATCAAAAATCAACAGCGCATTGTGGCGGTTACACAATTCACGCAGACCTTGT -AAAAACGCGTTGCTGGCTGGCACCACACCGCCTTCCCCCTGGATGGGTTCGACAATCACCGCACAGGTAG -AGTCGTCAATCAGCGCGCTGGCAGAGTTAATATCGTTATATGCAGCATGACGAATATCCGCCGGCAGTGG -CGCAAAATCCTGTGAATAGGCTGGCTGCCCACCCGCACTGACAGTAAACAGCGTGCGACCATGAAACGCA -TTTTTGAACGCCACGATGCCGCTCTTATGGCTGCCGTAGCGGTCGTGAGCGAATTTACGCGCCAGTTTTA -GCGCCGCTTCGTTGGCTTCCGCACCGGAGTTACAAAAGAAGACGCGATCGGCAAACGTGGCGTCGATCAA -TTTTTTCGCCAGTCGCAGTACCGGCTCGTTGGTGTAACCGTTGCCGGTATGCCAGAACTTACTCGCCTGT -TCGTTCAGCGCTTCACGCAGTTCCGGATGCGCATGGCCCAGCGCGTTCACCGCAATGCCACCCGCGAAGT -CGATATACTCTTTCCCCTGCTGATCCCACAAGCGCGAACCTTCGCCACGTACCGGTATAAAGGGTGCCGG -AGCGTAAACAGGTATCATCCATTCATCAAAGTTTTCACGCGTAATTGGCTGAGACATAGCGACCTCTACA -GTAAATAATTCGTTATTTATATGTTAATAATAAGTAATGTTTGCGCTGTAAATGTAGATTGCAGGGTTCG -TGCCAGCCAGTGATAAAAGTGCATAAACGGCGGAGGCTAACTGGAAATCAAGGAGTTATAACCAAACCAT -ATGCATTTAAAGTGCATATAAAGTGAATACGTTTGCGATGTGGGTGAATAAAAAGAATAAAAAACGCAAT -GTTATGCAGAAGTAAAATATAATTCTGGAATTGTGATCATTGACGAAATTTACTGGAAATTACTGCGCCA -TTCTGACGCAGCGCGCACCAAAAGCGGGCATTTTTTGCGCCATCGTTGACATCATTAACAACCATCGATC -AAATCACTTAACAACAGGCGGTAAGCAACGCGAAATTCTGCTACCATCCACGCACTCTTTATCTGAATAA -ATGGCAGCGACTATGAAATTTGTCTCTTTTAATATCAACGGCCTGCGCGCCAGACCTCACCAGCTTGAAG -CCATCGTCGAAAAGCACCAACCGGATGTGATTGGCCTGCAGGAGACAAAAGTTCATGACGATATGTTTCC -GCTCGAAGAGGTGGCGAAGCTCGGCTACAACGTGTTTTATCACGGGCAGAAAGGCCATTATGGCGTGGCG -CTGCTGACCAAAGAGACGCCGATTGCCGTGCGTCGCGGCTTTCCCGGTGACGACGAAGAGGCGCAGCGGC -GGATTATTATGGCGGAAATCCCCTCACTGCTGGGTAATGTCACCGTGATCAACGGTTACTTCCCGCAGGG -TGAAAGCCGCGACCATCCGATAAAATTCCCGGCAAAAGCGCAGTTTTATCAGAATCTGCAAAACTACCTG -GAAACCGAACTCAAACGTGATAATCCGGTACTGATTATGGGCGATATGAATATCAGCCCTACAGATCTGG -ATATCGGCATTGGCGAAGAAAACCGTAAGCGCTGGCTGCGTACCGGTAAATGCTCTTTCCTGCCGGAAGA -GCGCGAATGGATGGACAGGCTGATGAGCTGGGGGTTGGTCGATACCTTCCGCCATGCGAATCCGCAAACA -GCAGATCGTTTCTCATGGTTTGATTACCGCTCAAAAGGTTTTGACGATAACCGTGGTCTGCGCATCGACC -TGCTGCTCGCCAGCCAACCGCTGGCAGAATGTTGCGTAGAAACCGGCATCGACTATGAAATCCGCAGCAT -GGAAAAACCGTCCGATCACGCCCCCGTCTGGGCGACCTTCCGCCGCTAATTTAGCAGCTCTCCTGGCTCA -AACTGGGTCAGGAGAATTAACCTTGAGAAAAATCAACAAACTGTCAGTAATGATTTGTTGCCTGCCGTCC -TTTGTTATACCGTCTCTGCGTTTTTAGTTGTCTGACCACTTCTCTATTATCAAGTTTGATATAGGAAACT -CCACGATGAACGCTGAGCGTAAATTTCTTTTTGCCTGTCTTATTTTTGCGCTGGTCATTTACGCTATCCA -CGCTTTCGGTTTATTCGATCTGCTCACCGATTTACCCCACTTACAGACACTCATCCGCCAGAGCGGATTT -TTCGGCTATAGCCTCTATATTCTGTTATTCATCATTGCCACCCTCTTGCTGTTACCAGGAAGCATACTGG -TGATCGCGGGAGGAATAGTTTTTGGCCCGCTCTTAGGGACACTACTCTCATTAATTGCCGCCACGCTGGC -CTCCTCGTGCTCATTCCTGCTGGCGCGCTGGCTGGGACGTGATTTACTGCTGAAATACGTTGGCCATAGC -AATACCTTCCAGGCCATTGAAAAAGGCATTGCGCGTAACGGTATTGATTTTCTTATTCTGACCCGCTTAA -TCCCGTTGTTTCCTTACAATATTCAAAATTACGCTTACGGATTAACCACAATCGCCTTCTGGCCTTATAC -CCTTATTTCGGCACTCACGACCCTACCCGGTATTGTTATTTATACCGTGATGGCAAGCGATCTCGCCAAT -GAAGGCATTACGCTGCGCTTTATTTTACAACTCTGTCTGGCGGGCCTGGCGCTGTTTATTCTCGTCCAGC -TCGCAAAACTCTACGCCCGACACAAACATGTGGATCTGTCTGCTTCGCGCCGCAGCCCACTTACTCACCC -AAAAAATGAAGGATAGAACGATGTTGCAACATTATTCAGTGTCATGGAAAAAAGGACTGGCTGCACTCTG -TTTACTGGCTGTTGCTGGGCTTAGCGGCTGCGATCAACAAGAGAATGCGGCGGCAAAAGTGGAATACGAC -GGACTTTCGAACAGCCAACCGCTGCGTGTCGATGCCAATAACCATACGGTAACCATGCTGGTGCAAATTA -ATGGTCGTTTCCTCACCGACGACACTCGTCACGGTATTGTGTTTAAAGATGGCTCCAACGGACATAAATC -GCTGTTTATGGGTTATGCGACCCCGAAAGCATTTTATGAAGCCCTGAAAGAGGCAGGTGGTACGCCGGGC -GAAAACATGACGATGGATAATAAAGAAACGACTCATGTCACAGGCAGCAAACTGGATATTTCGGTCAACT -GGCAAGGGGCGGCAAAAGCGTATTCCTTCGATGAAGTGATTGTTGACAGTAATGGCAAGAAACTGGACAT -GCGCTTTGGCGGTAATTTAACGGCAGCAGAAGAGAAGAAAACGGGTTGCCTGGTGTGTCTGGATAGCTGC -CCGGTCGGCATCGTCAGCAATGCAACATACACTTATGGTGCGGTTGAAAAACGTGGTGAAGTTAAATTCA -AAGGCAATGCCTCAGTTCTCCCGGCGGATAACACGCTGGCAACGGTTACCTTTAAAATCGCCGAATAAAG -CCAGGATAAAGGATGATGATGATGCAATCGCGAAAAATCTGGTACTACCGTATAACCCTCATCATCCTGT -TGTTCGCTATGCTGCTGGCATGGGCGCTGCTTCCCGGCGTCCATGAGTTTATCAATCGCAGCGTTGCGGC -GTTTGCCGCCGTGGACCAACAGGGTATAGAACGCTTTATTCAGTCTTACGGCGCACTGGCGGCAGTTGTC -TCGTTCTTGTTGATGATTTTGCAGGCCATTGCTGCACCGCTACCTGCGTTTTTGATCACCTTTGCCAATG -CGTCGCTGTTTGGCGCGTTCTGGGGCGGCTTGCTGTCGTGGACCAGTTCGATGGCCGGCGCGGCGCTGTG -CTTTTTTATCGCCAGAGTGATGGGCCGCGAAGTGGTGGAAAAATTAACCGGCAAAACCGTGCTTGACAGT -ATGGACGGCTTTTTCACTCGCTACGGCAAACACACCATTCTGGTCTGTCGGTTATTGCCTTTTGTCCCTT -TCGATCCAATCAGCTATGCTGCCGGTTTGACTTCAATACGTTTTCGCTCGTTTTTTATCGCCACCGGGCT -TGGTCAGTTACCGGCAACTATTGTTTATTCCTGGGCGGGCAGCATGTTAACAGGCGGTACTTTCTGGTTT -GTCACCGGACTGTTTATTCTGTTTGCCCTGACCGTGGTGATTTTTATGGCGAAGAAAATATGGCTTGAAC -GCCAGAAGAGGAATGCCTGATGGGTTTACCGCCGCTTAGCAAAATTCCTTTAATTTTACGTCCACAGGCG -TGGCTGCATCGTCGCCATTACGGCGAGGTGCTAAGCCCCATTCGCTGGTGGGGGCGGATCCCGTTTATCT -TTTATCTGGTGTCGATGTTTGTTGGCTGGCTGGAGCGCAAACGCTCACCGCTCGATCCGGTAGTACGATC -GCTTGTCAGCGCGCGCATTGCGCAAATGTGCCTGTGTGAGTTTTGTGTGGATATCACCAGTATGAAAGTC -GCCGAGCGCACCGGCAGCAGCGATAAACTGCTGGCAGTGGCTGACTGGCGGCAAAGCCCGCTCTTTAGCG -ATGAAGAACGGCTGGCGCTGGAGTACGCCGAAGCCGCAAGCGTAACGCCGCCAACGGTCGATGATGCCCT -GCGTACCCGACTGGCTGCGCATTTTGACGCTCAGGCGCTCACCGAACTGACGGCATTGATCGGCCTGCAA -AATCTGTCAGCCCGTTTTAATTCTGCCATGGACATTCCCGCTCAGGGGCTGTGCCGTATTCCTGAAAAAC -GTTCTTAAGGAGAGATGATGCGCCATTGTGGGTGGTTGCTGGGATTGTTATCGCTGTTTTCTCTGGCAAC -ACATGCCAGTGACTGGCAAGAAATTAAAAATGAGGCCAAAGGGCAAACCGTCTGGTTTAACGCCTGGGGC -GGCGATACCGCAATTAACCGCTATCTCGACTGGGTGAGCGGCGAGATGAAAACCCATTACGCTATAAACC -TGAAGATTGTCCGTCTGGCGGATGCCGCAGACGCGGTGAAGCGCATTCAGACCGAAGCCGCAGCCGGACG -TAAAACGGGCGGCTCGGTGGATCTGCTCTGGGTGAACGGCGAAAACTTCCGCACCTTAAAAGAGGCCAAT -TTATTACAAACGGGCTGGGCGGAGACTCTGCCCAACTGGCGCTATGTCGACACACAGCTGCCGGTGCGGG -AAGATTTTTCTGTGCCGACACAAGGTGCGGAATCGCCCTGGGGCGGCGCACAACTGACGTTTATCGCCCG -CCGCGATGTTACGCCACAGCCACCACAAACGCCGCAAGCCTTACTGGAGTTTGCTAAAGCCAATCCCGGC -ACGGTTACCTATCCGCGCCCACCGGACTTTACCGGCACGGCGTTTCTTGAACAGTTGCTGATTATGCTGA -CGCCCGATCCCGCCGCATTAAAAGAAGCGCCGGACGATGCGACTTTCGCCCGTGTCACTGCTCCCTTGTG -GCAATATCTTGATGTGCTGCATCCGTATTTGTGGCGCGAAGGAAAGGATTTCCCGCCTTCACCCGCGCGG -ATGGATGCTCTGCTGAAAGCCGGCACATTGCGCCTGTCGCTGACCTTTAACCCCGCGCATGCGCAGCAAA -AAATCGCCAGCGGCGATTTGCCTGCAAGCAGTTACAGTTTTGGCTTTCGCGAGGGGATGATTGGCAACGT -GCATTTCGTCACCATTCCTGCCAACGCGAATGCCAGTGCTGCGGCGAAGGTAGTTGCCAATTTCCTGCTC -TCACCCGATGCGCAACTGCGTAAAGCAGATCCCGCTGTCTGGGGCGATCCTTCTGTTCTCGATCCGCAAA -AACTGCCTGACGGGCAGCGCGAATCATTGCAATCAAGAATGCCGCAGGATCTGCCGCCGGTACTGGCTGA -ACCGCACGCAGGTTGGGTAAATGCGCTGGAACAAGAATGGCTACACCGTTACGGTACGCATTAATCTTTT -TGCTGTGGGCGATGGTGGCGGTGATTTATGCACCGCTGATCCCGGCAGCTCTCACGCTGATATCGCCTGC -TTTGTCGTTGACACACTGGCAGGCGTTATTTGCCGATCCACAGTTACCGCAGGCATTACTGGCAACGCTG -GTGTCGACAACCATCGCGGCGGTCGGGGCATTGTTGATTGCCCTGCTGGTGATTGTGGCGCTGTGGCCTG -GGCCGAAATGGCAGCGTATGTGCGCCCGTCTGCCGTGGCTGCTCGCCATTCCCCATGTGGCTTTTGCCAC -CAGCGCCCTTCTGCTCTTTGCTGACGGAGGGCTGCTTTATGACTATTTCCCGTATTTCACTCCGCCAATG -GACCGATTTGGCATCGGTCTGGGCCTCACCCTTGCAGTGAAAGAAAGCGCATTTCTGCTGTGGATCTTAG -CAGCAGTATTGAGCGAAAAATGGCTGTTGCAGCAGGTCATTGTGCTGGATTCGCTGGGCTACAGCCGCTG -GCAATGCCTGAACTGGCTGCTGTTGCCCTCCGTCGCGCCTGCGCTGGCAATGGCGATGCTGGCGATTGTT -GCCTGGTCGCTGTCGGTCGTGGATGTGGCAATTATTCTCGGGCCAGGTAATCCCCCGACGCTGGCGGTAA -TTAGCTGGCAGTGGTTAACCCAGGGCGACATTGACCAACAAACAAAAGGCGCGCTTGCCAGCCTGCTGTT -GATGCTGTTACTCGCCGCCTACGTTTTGCTGAGCTATCTGCTATGGCGCAGCTGGCGGCGCACTATTCCC -CGCGTAGATGGCGTTCGCAAGCCTGCCACGCCTTTATTGCCGGGCAATACGCTGGCGATTTTTTTACCCT -TAACCGGTGTGCTGTGTGTGGTTCTGCTGGCGATCCTCGCGGATCAGTCGACGATCAATAGTGAAGCGCT -CATCAACAGCCTGACAATGGGGCTGGTGGCGACATTCATCGCTTTGCTCCTGTTACTGCTGTGGCTGGAA -TGGGGGCCACAGCGTCGCCAGTTGTGGCTATGGTTGCCCATTTTATTACCTGCTCTGCCACTGGTGGCGG -GCCAGTACACGCTGGCGCTATGGCTGAAACTGGATGGAAGCTGGACGGCGGTGGTCTGGGGGCATCTGCT -GTGGGTGATGCCGTGGATGCTGTTTATCCTGCAACCCGCCTGGCAGCGCATTGATTCACGGTTAATTTTG -ATTGCGCAAACACTGGGCTGGTCGCGGGCCAAAATCTTCTTTTACGTGAAATGCCCACTCATGTTGCGCC -CTGTGCTGATTGCCTTCGCGGTGGGATTTGCAGTCGGTATTGCGCAGTATATGCCAACGCTGTGGCTGGG -CGCGGGGCGTTTTCCGACGCTCACCACTGAGGCGGTGGCATTAAGCAGCGGCGGCAGCAACGGTATTCTC -GCCGCCCAGGCTTTATGGCAACTGCTATTACCGCTTATTATTTTTGCCCTGACCGCGTTAGTCGCAAAAT -GGGTAGGTTATGTCAGACAAGGACTCCGCTAATGCTCTGCGTGAAAAATGTTTCGCTACGTTTACCAGAA -AGCCGCTTGCTGACAAACGTTAACTTTACGGTGGATAAAGGTGACATTGTCACGTTAATGGGGCCGTCTG -GCTGTGGAAAATCCACTCTGTTTTCATGGATGATTGGTGCACTGGCCGAACAGTTTTCTTGTACAGGTGA -GCTATGGCTCAATGAGCAACGGATTGACATCCTACCCACCGCACAGCGTCAGATTGGCATTCTTTTTCAG -GATGCACTGTTATTTGACCAGTTCAGTGTCGGGCAAAATTTACTGCTGGCGCTACCGGCGACACTTAAAG -GGAATGCCCGACGTAATGCCGTGAATGATGCACTTGAGCGTTCAGGCCTTGAGGGAGCTTTCCATCAGGA -TCCTGCCACTTTGTCTGGCGGTCAGCGAGCGCGCGTTGCTCTACTACGCGCCCTTCTCGCCCAACCAAAA -GCGTTACTCCTGGATGAGCCATTCAGCCGTCTTGATGTGGCTCTGCGCGATAATTTTCGCCAGTGGGTGT -TCAGCGAAGTTCGCGCCCTGGCGATCCCCGTCGTTCAGGTAACGCACGATCTCCAGGATGTTCCTGCTGA -TAGTTCTGTTCTGGATATGGCGCAGTGGTCAGAAAATTACAACAAACTGCGATAACGCAAAGTTTTTCTC -AATGCGTCAGTTCAGAATGGCGCACTCAAAACTACAATGTCGGGATTTTCGATGAAACGTGTTTCTCAAA -TGACCGCGCTGGCAATGGCTTTAGGGCTGGCTTGCGCTTCTTCGTGGGCCGCTGAACTGGCGAAGCCTCT -TACACTTGACCAGCTTCAACAACAAAATGGCAAAGCGATAGATACTCGCCCCAGCGCGTTTTATAACGGC -TGGCCACAAACCTTAAATGGCCCTTCTGGTCATGAACTTGCCGCCTTAAACCTCTCTGCCAGCTGGCTTG -ACAAAATGAGCACCGAACAGCTCAACGCGTGGATCAAGCAACATAACCTGAAAACCGATGCTCCGGTGGC -GCTGTACGGTAATGACAAAGATGTCGACGCCGTCAAAACGCGACTGCAAAAAGCAGGTTTAACGCATATC -TCCATCCTGAGTGACGCGCTAAGCGAACCTTCCCGTCTGCAAAAACTGCCGCATTTTGAGCAGCTGGTTT -ATCCGCAATGGCTGCACGACCTGCAACAAGGTAAAGAGGTTACGGCGAAACCTGCCGGTGACTGGAAAGT -CATTGAAGCGGCCTGGGGCGCTCCTAAGCTTTACCTTATCAGCCATATTCCCGGCGCTGACTACATCGAT -ACCAACGAAGTGGAAAGTGAACCGCTGTGGAACAAAGTTTCTGATGAACAACTAAAAGCGATGCTGGCAA -AACACGGCATTCGCCATGACACCACGGTCATTCTGTATGGGCGTGACGTATACGCTGCAGCGCGTGTGGC -GCAGATTATGCTTTATGCTGGCGTGAAAGATGTGCGCCTGCTGGATGGCGGCTGGCAAACCTGGTCCGAC -GCGGGACTGCCTGTTGAGCGCGGAACGCCACCGAAAGTGAAAGCGGAACCGGATTTCGGCGTGAAGATCC -CGGCACAACCGCAGTTGATGCTCGATATGGAACAGGCCCGTGGACTGCTGCATCGCCAGGATGCATCGCT -GGTGAGCATTCGTTCGTGGCCAGAATTTATCGGTACGACCAGCGGTTACAGCTATATTAAACCAAAAGGT -GAAATAGCCGGCGCACGTTGGGGACACGCTGGTAGCGACTCGACGCATATGGAAGATTTTCATAACCCGG -ATGGCACCATGCGCAGCGCCGATGATATTACCGCTATGTGGAAAGCGTGGAATATCAAACCAGAGCAGCA -AGTTTCATTCTACTGCGGCACCGGCTGGCGCGCGTCCGAAACCTTTATGTACGCACGCGCCATGGGTTGG -AAGAATGTTTCCGTGTATGACGGCGGCTGGTACGAATGGAGCAGCGATCCAAAAAATCCGGTAGCAACCG -GTGAACGCGGCCCGGACAGTAGCAAATAACATTGCAATTACTGACGCTGGAGCGACTTCAGCGTCAGATA -CCCACTCCACACCCGCGTAAAGGTCGTCATCCAGCACAACGCACCGAAGATCCACGCAAACCACGCAAAC -CATGCAGGGAATAAACATCCCAGCACAAACAGTAAGATCGTTTCTGTGCCTTCGGTTAATCCCCCCAGAT -AGTAAAACGACTTATGTGCATAACCGGGGTTATCAATCTGATGTTTTGCTGCCAGTGCAGCAAAGGCGAG -AAAACTGCTGCCCGTGCCGATAAACGCAAACAACAACCAGCCGCCTGCCAGCGCATTTTGCTCCGGTGCA -GCAAGAATAAAGCCAAACGGCACCAGCGCGTAAAAGAGAAAATCGAGAGAAATATCAAGAAAGCCGCCCG -CGTCGGTAAGCTCTCTGCGCCGCGCCAGCGCACCGTCCAGACCATCAAGCAGCCTGTTCAACAAAATGAC -GACTAGCGCCGCCAGATACCAGCCCAGCGCCAGAAACGGCAGAGCCAGCACGCCGATGGCAAATCCCACT -AATGTTAAACCATCTGGCGTAATGCCCGGTTTATCAAGAACCCGCACGCACTGATGCAACAACGGTTTAA -TCCGGGGATGAAGATGGCGGTCTAGCACAGGCACTCCTTAAATATAAAGCCTTTCTGATTGAGCAACAGT -GCGGATATTATGGCATTTTTCGCTTATCTGCCCGTGTGTAATTTATGAAAATGATTGAAGTTGTTGCCGC -CATCATTGAACGTGATGGCAAAATTTTACTCGCGCAACGCCCCGCCCAGAGCGATCAGGCGGGATTATGG -GAGTTTGCCGGTGGTAAAGTCGAGCCGGATGAAAGTCAGCGGCAGGCGCTGGTGCGTGAGTTACGCGAAG -AACTGGGCATCGAAGCAACTGTGGGTGAATATGTTGCCAGCCATCAGCGAGAAGTTTCGGGGCGGATTAT -CCATCTTCATGCCTGGCACGTACCCGACTTCCACGGGACGTTACAGGCACATGAACATCAGGCGCTGGTC -TGGTGCTCACCTGAAGAGGCGCTGCAATATCCGCTGGCCCCTGCTGACATTCCATTATTAGAGGCGTTTA -TGGCTTTACGCGCCGCCAGACCAGCGGATTAGTGCTAAGGGTTTTGTCATCACGCTGGCATTGCAGCAGT -ATTCCTTCGGCTTTAATTACCGCCCCTTCAGAATAATTTTGATCCTGATAAACGCAGCACTGAGTACAGG -GCTGCGCTGACTGCCCGCCTGAACTGAACACTTCTGGCGGTACGTTTACCTCCACGTCCGGACGATAATG -CGGGTTAGCCAGTGCAATTAATGGAAATGCTAATACTACGGCGAACAATGCTCGACTCACAGGGAACTCC -TTAACGTTATTGTCTCTGCTACTGATAACGGTAGCCGGGTGGCAAAACTTTAGCGTCTGAGTTATCGCAT -TTGGTTATGAGATTACTCTCGTTATTAATTTGCTTTCCTGGGTCATTTTTTTCTTGCTTACCGTCACATT -CTTGATGGTATAGTCGAAAACTGCAAAAGCACATGACATAAACAACATAAGCACAATCGTATTAATATAT -AAGGGTTTTATATCTATGGATCAGACATATTCTCTGGAGTCATTCCTCAACCATGTCCAAAAGCGCGACC -CGAATCAAACCGAGTTCGCGCAAGCCGTTCGTGAAGTAATGACCACACTCTGGCCTTTTCTTGAACAAAA -TCCAAAATATCGCCAGATGTCATTACTGGAGCGTCTGGTTGAACCGGAGCGCGTGATCCAGTTTCGCGTG -GTATGGGTTGATGATCGCAACCAGATACAGGTCAACCGTGCATGGCGTGTGCAGTTCAGCTCTGCCATCG -GCCCGTACAAAGGCGGTATGCGCTTCCATCCGTCAGTTAACCTTTCCATTCTCAAATTCCTCGGCTTTGA -ACAAACCTTCAAAAATGCCCTGACTACTCTGCCGATGGGCGGTGGTAAAGGCGGCAGCGATTTCGATCCG -AAAGGAAAAAGCGAAGGTGAAGTGATGCGTTTTTGCCAGGCGCTGATGACTGAACTGTATCGCCACCTGG -GCGCGGATACCGACGTTCCGGCAGGTGATATCGGGGTTGGTGGTCGTGAAGTCGGCTTTATGGCGGGGAT -GATGAAAAAGCTCTCCAACAATACCGCCTGCGTCTTCACCGGTAAGGGCCTTTCATTTGGCGGCAGTCTT -ATTCGCCCGGAAGCTACCGGCTACGGTCTGGTTTATTTCACAGAAGCAATGCTAAAACGCCACGGTATGG -GTTTTGAAGGGATGCGCGTTTCCGTTTCTGGCTCCGGCAACGTCGCCCAGTACGCTATCGAAAAAGCGAT -GGAATTTGGTGCTCGTGTGATCACTGCGTCAGACTCCAGCGGCACTGTAGTTGATGAAAGCGGATTCACG -AAAGAGAAACTGGCACGTCTTATCGAAATCAAAGCCAGCCGCGATGGTCGAGTGGCAGATTACGCCAAAG -AATTTGGTCTGGTCTATCTCGAAGGCCAACAGCCGTGGTCTCTACCGGTTGATATCGCCCTGCCTTGCGC -CACCCAGAATGAACTGGATGTTGACGCCGCGCATCAGCTTATCGCTAATGGCGTTAAAGCCGTCGCCGAA -GGGGCAAATATGCCGACCACCATCGAAGCGACTGAACTGTTCCAGCAGGCAGGCGTACTATTTGCACCGG -GTAAAGCGGCTAATGCTGGTGGCGTCGCTACATCGGGCCTGGAAATGGCACAAAACGCTGCGCGCCTGGG -CTGGAAAGCCGAGAAAGTTGACGCACGTTTGCATCACATCATGCTGGATATCCACCATGCCTGTGTTGAG -CATGGTGGTGAAGGTGAGCAAACCAACTACGTGCAGGGCGCGAACATTGCCGGTTTTGTGAAGGTTGCCG -ATGCGATGCTGGCGCAGGGTGTGATTTAAGTTGTAAATGCCTGATGGCGCTACGCTTATCAGGCCTACAA -ATGGGCACAATTCATTGCAGTTACGCTCTAATGTAGGCCGGGCAAGCGCAGCGCCCCCGGCAAAATTTCA -GGCGTTTATGAGTATTTAACGGATGATGCTCCCCACGGAACATTTCTTATGGGCCAACGGCATTTCTTAC -TGTAGTGCTCCCAAAACTGCTTGTCGTAACGATAACACGCTTCAAGTTCAGCATCCGTTAACTTTCTGCG -ATAGCAGCAGATATGCCAGTAAAGAAATCCCATTTGACTATTTTTTTGATAATCTTCTTCGCTTTCGAAC -AACTCGTGCGCCTTTCGAGAAGCAAGCATTATATAATGCCAGGCCAGTTCTTCTTCAATTGTCCCGTTTT -GAAAAGCTGTGCTTGATATCGAGATCATCCATGATAATTCCGCCGCCCATATTAGCTTCGCCGAGGATTT -ACCGGAGCTATGATTAGCGCAATCAGAGATATAGTCTGAGGGAAAAACAGCAAATTTATTCAACAAGGCG -ATAACCTGCTCTGGGGCTTCCTCCATGTTTGCTTTAAAGGTATTGGCTCCATGGTCGCCAGAAAGAAAAT -GCTCCATTAAGGCACAATAACTTTCGCTATCTTCGATACCCCATTGATCCTCTAAAGACTCGCGTCTTTT -ACTTATGATATCGATCGAGTCAAAAGGAAGCACATGATATTGGAAGGTATCTTTGCCAGGTTCAGGCTTT -CGCGGCCAGAACTCCAGCGTTTCAGACCATTGCTTATGATAGAATCGATAAGGTGCGATCAATTGTAGCG -CCTGTAACTTCTCGATACTGAGCGGCTCAATACCTTTAGCCTGATAATAATGCAGTTGTTCTTTTTTTGC -TTTAAAACCGGCCCGAACAATAAGCCCCATCATAATTAATAGATAAAGAAAAGAGCATCCCGCGGTAATC -AGGCCTCTTTCATTCAAACCGTTGGATGTTATCGCTGCGAACACAAACATTACAGCGACAACACATGTTA -AATAAAACCCCCACTTACAAAGCAGCATGGCCTTATTTTCTTTAATCATCCGTTCAAAATTACTATTAAA -TATTTCCCAGCCATTAAAAGAATACTTCTCGCTCCCAGGATGGTTTTGTAATAAAACTTTTTTCATCACA -TTCCCTGTTATTACATACTTTAGAGGCGATAATTTTATCCATGCAAAAAAAATATCCAACGAATTTTCTT -GATCCGCTGGATATTTCAGAATATGACTCGAATAGCACGAAAGATTCACTCGCTTACGCTATCGCCCCGC -TTCCGACTTCATCTGCTGGCGGACTTTTTTTCGCACTACGTTTACGCGGTGCAGCCTTTTTCTTATCAGC -ACTGCCACCACTGCCCGGAGCCACAATGCCGCGAAACTGCCGCACCGGCGTACGTTTGGCTTGATCAATA -AGCTGATATAGCGTCCCCACCAGCGGCTGCATAAAGTCCTGATAGCGACACTGCTTTTCGCTGATTTGCG -TCAGCACCGATTCCCAGTGCGCGGTCATGTCCGGTCGCGTCGCCATCTCCGGCAGCGAATGGAATAGCGC -TTTTCCGGCGTCGGTGGAGTGGATATAGCGCCCTTTTTTGGTCAGGAAACCACGCTTGAACAACAGTTCA -ATAATCCCGGCACGCGTTGCCTCTGTCCCCAGACCATCGGTCGCACGGAGGATCTTTTTCAGATCTTTAT -CCTGCACAAAGCGCGCGATCCCGGTCATCGCCGAAAGCAGTGTTGCATCGGTAAAATGGCGCGGCGGCTG -GGTTTGCCGCTCTACCACTTCACCTTTTTCACACAGCAACTCATCGCCTTTCGCCACCACAGGCAGTGGC -GTGCCGTCGTTTTCTTCATCGCGCTCTTTGCTGCCTAACAGCGTGCGCCAGCCTGCTTCAGCAAGAAAAC -GCGCTTTAGCGACAAATTTGCCTTTGGCAATGTCCAGTTCGATAACACACTTGCGGAACACCGCATCCGG -GCAGAATTGCATCAGATACTGACGGGCAATCAGGTTATAGACCTTCGCTTCGTTCTCCGTCAGGTTGATC -GCAGAACTCCGTGCGGTCGGAATGATGGCGTGGTGCGCATCGACCTTTTTGTCATCCCAACAGCGGTTGC -GTATATCTGGATCTACCACTGGCTGCGGCAACAGATCCGGTGCATGAACACTGATGGCATTCATCACCGC -GTGGCGTCCGGCAAAATGTTCTTCTGGCAAATAGCGACAATCAGAACGCGGATAAGTGATTAGCTTGTGC -GTTTCGTACAGTTTCTGGCAGATATCAAGCACGTTCTGCGCACTCAGACCAAAACGTTTTGCCGCTTCAA -TCTGCAACGCTGAAAGCGAAAAAGGCAGCGGCGCGGATTCTGATTCCCGTTTATCGTTATAGCTGGTGAC -AATAGCCGGTTGACCACTAATGCGGTTAACCACATGCTCCGCCAGTGGACGATGTAACAAGCGCCCTTCT -TCATCCTGGTACGGTTCACACGCTTCGCTCGGTTGCCAGATAGCGGTAAACCGCTCATCGGCAGGTGTCA -CGATATGTGCTTTGACTTCAAAGAAGTCTTTCGCCACGAAGTTTTCAATCTCTTCATCGCGGCGCACCAC -CAGCCCAAGCACGGGCGTCTGCACGCGTCCCACGGAAAGTACGCCCTGATAACCGGCATTGCGACCGAGA -ATGGTATACGCACGGGTCATATTGATGCCGTACAGCCAGTCGGCACGCGCTCGCGCCAGCGCAGAAACGC -ACAGCGGTACAAACTCACTGTTGGAACGAAGACGGTCGATCGCCCGCTCAACCGCCTGCGGGTTCAGGTC -GTTTATCAAGCAACGCTGTACCTGCTGGCGCTTTTCCGGTGCCAGTTGCAGATAGTCCAGCACTTCATCC -ACCAGCAATTGCCCTTCACGATCCGGGTCCCCGGCGTGAACGATTTCGCTGGCTTCATGCAGGAACCGTT -TGATGACGTTAAGTTGTTTGGTCACGGAGGGTCGGGGCTGTAATTGCCACTTTTCCGGGACAATCGGCAA -ATCCGCAAGATTCCAGCGCGCATAGCGGCTGTCGTAGGCGTCTGGCTGCGCCTGCTCAAGCAGGTGACCG -ATACACCAGGTCACCACCTGACCATTACCGCACTCGATAAAGCCATCGCCTTTCCGGTGCGGTTTGGGCA -GGACATCAGCAATGGCGCGCGCCAGACTCGGTTTTTCGGCAATAAACAACCGCATTGAATTAACGAATCT -CAACCATGGCACGACCGCCGCGCGCTGGCACCAGTTCGCCAATTGCCGTCAGTTCAATGCCAAACTCGGC -GGCTGTAGCTTTGACCTCATTTTCTGCTTCCGGCATGACCGCCAGCAGCAAACCGCCAGAAGTTTGCGGA -TCACACAGCAGATCGCGCACTTCACGCGGCATTTCACCCATCAGATGACCGTAGCTGGCAAAGTTACGTT -CAGTGCCGCCAGGTACTGCGCCCAACTTAATGTACTCTTCAACACCGGGGAGTTTCGGGATCGCTTCATA -GTCGACGCGTGCCTGCACACCAGCCCCCTGACACATTTCGCTCAAGTGGCCCAGCAGACCAAAGCCCGTA -ACGTCGGTCATCGCTTTTACGCCTTCGATGTTGGCAAAGGACGCGCCTGCGATGTTCATCCGGCACATCA -CTTCCGTCGCCAGTCCCTGATGTTCTGGTTTCAACAGTGATTTTTTCTCAGCCGTGGTAAGAACGCCGAT -CCCCAGCGGTTTCGTCAGGAACAGTTTGCATCCGGCTTGTGCGGTACTGTTTTTCTTCACCCGCTCGGTC -GGTACGATCCCCGTTACCGCCAGACCAAAAATCGGCTCCGGCGCATCGATGGAGTGACCGCCAGCCAGCG -CAATACCCGCCTGACGACATGCATAGCGTCCACCTTCGGTCACTTCGCGGGCAATTTCTGGGGAAAGTTT -GTTAATCGGCCAGCCGAGGATCGCAATCGCCATAATCGGTTTGCCCCCCATCGCGAAGATATCGCTGATG -GCGTTAGTCGCCGCAATGCGGCCAAAATCGAAAGGATTATCAACGATCGGCATAAAGAAGTCGGTGGTAC -TGATAACGCTGGTGCCATTGCCCAGATCGTACACCGCCGCATCGTCGCGGGTTTCATTACCCACAAGCAA -ATTCGGATCAACAAACTTCGCCTGCTCACTATGCAGGATGGTTTCCAACACTTTTGGGGAAATTTTACAG -CCGCAACCAGCTCCGTGGCTGTATTGGGTCAAACGAATCGAGTTCTCGCTCATGGACATCTCCTGTCAAT -GCAATCCGGGTATGGTAACCCTCATTCCGTGAAGTGATAAGTGAGAGTGTCTGAATTCCTGCGCCTTTGC -TCACAATCCAGACAGTTTCGCGACAATTATCAGAAATAAGTTACAAACGGCGTCGGGTCCGGGACGTTAA -TCGACGTAGATGCTTTCAGCTGCGGCGTACCGAGGTAGAGAAAACCGACAATTTTATCCTGCTCACGGCA -ACCGAATGCTTCACGCACTACCGGACTTTCAGTTAATGCGCCACTGCGCCAGATGCCGCCAAACCCCTGG -GCAACTGCTGCCATTTGCATCGCCATGACCGCGCATCCGGCAGACATTTCCTGTTCCCAGCGCGGGACTT -TATGATTCTCTTCGCATTTCGCCACCACCGTGATGATGAGCGGTGCGCGGAACGGCGCATTACGGGCTTT -GTCGATAGCTTTGTCATCACTACCGGCAGCAATCGCCCCCTGTTCCAGTACGGCGCTGAAACGCTCGCGC -CCTTCCCCTTCAATCACAAAAAAATGCCACGGTTGCATGGACTTATGGTCCGGCGCACGCATACCCGCAC -GCAGGATGTTTTGCAGTTGTTCACCCGTTGGCGCGGGTTCAGCCAAGCGGGAGGCGCTACGGCGATTGAT -CAATAGTTCGAGTGCATCCATTTGATTAACTCCTGTCGTGATATTTATTCACAAAATTAACACGAGAGTG -GATTTTGTTACAGCACAGTCCGCAATTCCTGCTGACAAGTACCGGTTGGGTCATTACGATAACCACATCT -ATTGCGCCTGTGACAGGTGTGACCTTAAGTTGGGAGAATACATGCGAACCCTTTGGCGATTTATTGCCGG -ATTTTTTAAATGGACGTGGCGTCTGCTGAATTTCGTCCGTGAAATGGTACTTAACCTGTTCTTTATTTTC -CTCGTACTGGTTGGTGTGGGGATTTGGATGCAGGTCAGTGGTGGTGATTCGAAAGAAACGGCCAGTCGTG -GCGCACTGCTGCTGGACATTTCTGGTGTGATCGTCGATAAACCCGACAGTTCTCAGCGGTTTAGTAAATT -AAGCCGCCAGCTGCTTGGTGCCAGTTCCGATCGTCTGCAGGAAAACTCACTGTTTGATATCGTCAACACT -ATTCGCCAGGCGAAGGACGACCGCAATATCACCGGTATTGTGATGGATCTGAAAAACTTCGCAGGCGGCG -ACCAACCGTCTATGCAGTACATCGGCAAAGCTCTGAAAGAGTTTCGTGACAGCGGGAAACCGGTTTATGC -CGTTGGCGAGAACTACAGCCAGGGGCAATATTATCTCGCCAGTTTCGCCAATAAAATTTGGCTGTCTCCG -CAAGGCGTGGTTGATCTGCACGGCTTTGCCACCAACGGTCTGTACTACAAATCGTTGCTGGATAAGCTGA -AAGTTTCCACCCATGTGTTCCGCGTGGGTACGTATAAATCTGCCGTTGAACCGTTTATTCGTGATGATAT -GTCACCGGCAGCCCGCGAAGCTGACAGCCGCTGGATTGGTGAGCTGTGGCAAAACTATCTGAATACTGTT -GCCGCTAACCGGCAGATCCCTGCTGAGCAGGTATTCCCTGGCGCGCAAGGGTTGCTTGAGGGTTTAACCA -AAACCGGTGGCGATACCGCGAAATATGCACTGGAAAACAAGCTGGTCGATGCACTGGCATCGAGTGCGGA -AATCGAAAAAGCACTGACCAAAGAATTCGGCTGGAGTAAGACTGATAAAAATTATCGCGCCATCAGTTAT -TACGATTACGCATTGAAAACGCCGGCAGATACCGGTGACAGCATCGGTGTCGTCTTTGCTAATGGCGCAA -TTATGGATGGCGAGGAAACTCAGGGGAATGTTGGCGGTGATACCACTGCGGCACAAATCCGCGACGCTCG -CCTTGACCCGAAAGTGAAAGCGATTGTCCTGCGTGTTAATAGCCCAGGCGGCAGCGTTACCGCGTCTGAA -GTGATTCGCGCTGAACTGGCAGCAGCCCGGGCAGCGGGTAAGCCTGTGGTTGTATCGATGGGCGGCATGG -CGGCATCTGGTGGTTACTGGATTTCCACGCCAGCTAATTACATTGTGGCTAACCCCAGCACCCTGACCGG -TTCTATCGGTATCTTCGGCGTGATCACCACCGTAGAAAATAGTCTGGATTCGATTGGTGTTCATACTGAT -GGTGTCTCAACTTCACCGCTGGCGGATGTTTCTATCACCAGGGCACTGCCGCCGGAAGCGCAGCTGATGA -TGCAGTTAAGCATTGAGAATGGCTATAAACGCTTTATCACGCTGGTTGCTGATGCGCGTCATTCGACGCC -GGAGCAGATTGATAAAATTGCCCAGGGCCACGTCTGGACCGGTCAGGATGCAAAAGCTAACGGGCTGGTC -GATAGTCTCGGGGATTTCGATGATGCGGTCGCCAAAGCAGCAGAGCTGGCAAAAGTGAAACAGTGGCATC -TGGAATATTACGTTGATGAACCGACCTTCTTCGACAAAGTGATGGACAACATGTCTGGTTCTGTCCGGGC -AATGTTGCCAGATGCGTTCCAGGCCATGTTACCTGCACCGCTGGCCTCGGTAGCCTCTACCGTTAAAAGT -GAAAGTGACAAGCTGGCCGCGTTTAATGACCCACAAAACCGTTATGCGTTTTGCCTGACCTGCGCCAACA -TGCGTTAAGTCTTGTACTGAGTGGCCGACAGATCGTCGGCCACATTATTTTTTACGTCGACGAATCCTCT -TCCCGCTGTTTCGCCCCATATTTCCTTATCCGCATAGTATCAGGTGCGCTCCCCCTGCCTCACGTATATA -CTTTTGCTCTTTCGATATCATTCATATCAATATCATGCAAAAGAAATCAATTTACGTTGCCTACACGGGC -GGGACCATCGGGATGCAGCGTTCCGAGCAGGGTTATATACCGGTGTCAGGTCATCTACAACGCCAACTGG -CGCTGATGCCGGAATTCCATCGCCCGGAGATGCCAGATTTCACCATTCATGAATATACGCCGCTGATGGA -TTCTTCAGATATGACGCCGGAAGACTGGCAGCATATTGCTGAAGATATTAAAGCGCACTATGACGACTAT -GATGGTTTTGTCATTCTGCACGGCACCGACACGATGGCGTATACCGCCTCTGCGCTGTCGTTCATGCTCG -AGAATCTCGGTAAACCGGTCATTGTGACAGGGTCACAAATCCCGCTGGCTGAGTTACGCTCTGACGGACA -AATTAATCTGCTGAATGCGTTGTACGTTGCGGCGAATTATCCGATCAACGAAGTAACGCTCTTTTTCAAT -AACCGATTGTATCGCGGCAACCGCACTACCAAAGCCCATGCCGATGGTTTTGATGCGTTTGCCTCTCCAA -ACCTTCCTCCGTTACTGGAAGCAGGTATCCATATTCGTCGTTTGAATACGCCACCCGCCCCGCACGGTGA -AGGGGAATTAATCGTTCATCCAATCACCCCACAACCAATTGGCGTAGTGACGATTTATCCAGGGATTTCT -GCTGACGTCGTGCGCAATTTTCTGCGCCAACCGGTGAAAGCATTGATTCTGCGCTCCTATGGCGTGGGTA -ATGCGCCACAAAACAAAGCCTTCCTGCAGGAATTACAAGAAGCCAGCGATCGCGGTATTGTGGTGGTCAA -CCTGACACAATGTATGTCCGGTAAAGTGAACATGGGTGGTTATGCCACCGGTAACGCCCTCGCCCATGCC -GGCGTAATTGGCGGTGCAGATATGACTGTAGAAGCCACGCTAACCAAACTGCATTACCTGCTTAGCCAGG -AACTGGATACTGAAACCATTCGCAAGGCCATGAGCCAAAACCTGCGCGGCGAACTGACGCCGGATGATTA -AGGAGACTGTAATGCCCCCTCGCGCCCTGTTACTGGTCGATTTACAAAATGATTTCTGTGCTGGTGGCGC -GCTCGCCGTGCCGGAAGGTGACAGTACGGTGGATGTCGCTAACCGCCTGATTGACTGGTGCCAGTCGCGC -GGTGAAGCGGTTATCGCCAGTCAGGACTGGCACCCGGCGAATCACGGCAGTTTTGCCAGTCAGCACGGTG -TAGAGCCTTATACGCCAGGCCAACTCGACGGTTTGCCACAAACCTTCTGGCCAGATCACTGTGTGCAGAA -CAGTGAAGGCGCACAATTACATCCGTTACTGCACCAAAAAGCGATCGCAGCGGTGTTCCATAAAGGCGAA -AATCCTTTAGTTGACAGTTACAGTGCCTTTTTTGATAACGGCCGTCGGCAGAAAACCTCTCTCGATGACT -GGTTACGCGATCATGAAATCGATGAATTGATCGTTATGGGCCTGGCTACTGACTATTGCGTGAAGTTTAC -CGTGCTGGACGCGTTACAGTTAGGTTATAAGGTAAACGTGATTACCGATGGTTGTCGTGGCGTGAATATC -CAGCCCCAGGACAGTGCGCACGCGTTTATGGAGATGTCAGCAGCTGGGGCAACGCTATATACGCTGGCAG -ACTGGGAAGAGACACAGGGGTAATTTTACGCTGGCCTACAATTCTGTACTGGCATTGTAGGCCAAATAAA -ACACGTCAGTGGCACATCTGGCAATTGATGCCATCAACGAAAGATTTAATTCACCTCAGAAATCTCTTCC -AACGACACCTTCCGCGTTTCGATGCCAAAAATGGAGAGAACCAGCGCACAGAGCAATAACATAACACCAA -GTACCATAAACACCGTGATCGACCCATAATGTGTTAATAATGCCGCAACGCCATAGGGCGTGAAGACTGC -GACGATCCGTCCGACGGCATTAACGAAACCCGAACCGCGCAGGCGTAAATGCGTTGGCCAAAGCTCCGGG -ATATAAACCGCCGACGCGAAGCAAACATACATGTATAAAAAGAAGATCATCACCAGTCCATAGATTAAAA -TCGCCCACTCTGTAGTCTGAATTGAATAGATATAGCCTAACACGGCAATAATAATAAGTAAGGTGGAGCC -AAATAACCGACGAGGAAAATGATCAATAATTAATGCCGCAATAAATATTCCTACCGGAGCGCCAATCATA -ATAACAGCGGTCATTAATATTGATTTATCGACATCAATGCCGGAGTTAACAAATATGGTCGGTATCCATA -CGGTGATGGTATAAAGCGAAATGTTCATTGCAATTAAAACAGTAATCGCGACTAATGTACGTCGTAACAT -TTCACCTTTAAACAGGAGCCAGAAAGTACCCTTGATTACTTTAACCTTGCTGTTGCTCTGATACGAAGTA -AGCGGGGGTAAACGAATACTCTTCTCTCTTTCAATTTGCTGCTCTACTTCACGAAGTTGGCATTCTGCAC -CTGCGATTTGCCCTTTCCCTGCCAGCCATCGTGGCGACTCGATAAAGTATTTACCTGAGAGAAACCAGGC -TAACAGTATGCCAATACCACCCAGCAGAAACATTATTCGCCAACTAAAAAAAGCGATAACCACCACGCCT -ATCGCCGCAGACAGCATGGGCGACCAGTTACCAACAAATGAGAGCCGCGCGGACCATTTTCCACGCACCG -TCGCGGGGATAAACTCCGTAAATGAGGCATAGCCAACCATAATCAGCGCCCCCATTCCTGTTCCCATCAG -GAAGCGAAAGAAGATGAGCCAGTACATATCAGGGACAAAAGCGGCCCCTGTTGCAGCAATACCGACGATG -AGAAGATTTATGCGAAACGCCCTGCGCCGCCCAAAGTAGTCACCAATAAACCCACCAGTAAGTGAGCCGA -TGAAATAACCAAACATTAATGCCGAGGTAAAGGCGGCATTGAGGAAATTATTTGACCATCCATTGCTTAC -CAGCTTTGCTAAGACGACATTACCGGAGTAACTCAAAAACCCTGTTAATAACAGACTAAAGCTTATAATA -CCAAATATACGATAATGAAACCGGGCCAAAGGCAAGCGGTCCAGTCTTGCGCCAATTTGATCATATTGTT -CCATTAGGTGCCTCGGATTTGCTAAAAAGGTAGCAATTGCGGCAAATTCACTTGCCGCATCTTTATCATC -ATTTTATTTCAAGGCGCAGGAACAAATAATATTGACAACGTGTGCTTAAATTACCACACCAGCTGGATAT -TATTGTCTTTGCAAAATGCTATCCACTCTGCACCCGGTGATTTATCAGTTATTATGTAATTAATATGACT -AAAATCAGCTAACTGGACAAAAGCTTTGCGATCAAACTTAGAGTGATCAACCAATAACGCAACTTCTGTC -GCCTGACGGATCATTGTCTTTTTGATTTCAGCTTCCGCTTCATTAGAGTCCAGCGCGCCGCTGTTAATAT -CAAGACCTTTACAACTCATTACCATGATATCGACATGATAGCGCCTGATGATCTCTTTAGTAATTCTTCC -TTGCAGTGAAAGTGTATTTTTGTTTAGTTCCCCACCCGTTGAAACGACTTTAATTTCTGACTGAGCCAGA -ACATGAATCGCTTCCGCCGAGTTGGTTAGCAACGTCAGGCCACTACGGTCCTGTAACAATTTGAGCAATT -CCATTACGGTACTACTGGAATCGGCTGCCATGGTGGTTTTATTGTCGATAAAGGGTAGTGCCTTGCGTGC -AATAAGCTGCTTCTCTTCATAAAACGATGAAGCGCGCTTATAAAAATGGATATTCTCCGTCAACATCGCT -GTATTTAAAACAGCACCACCATAGGTTCTGGTCAAAAAGCCTTCATCTTCCAGCTTCTCAAGATCGCGGC -GAATGGTTTCTTCGGTTACCTGAAAAATCCCACTCAAATTTGAGACTGTCACCTTTTTATCGTTGGCAAC -CATTTGCTTAATTGCCTGAATCCTGTCTTTTGCCGCCACGATTACACCCCTGTATCTTTTTACATCACAT -TAGCGCGATTATCGCATAACCGATGTTTACTTTCAAAATAACCTGTTTGAATCACAGATTTTCATCACAG -TTTTCACAGAAACAGAGGTGAATCGTGTTGAGTATTTAACGCTCCAGGGCCTCTGCCATTTCCCTCATCA -ATGTTGCGTCTGCATCCGATAAGTTGATATTCAGTGCCGCGACATTTTCGCGTACCTGTTCCGGTGCAGT -AGCCCCACTAAGAATGGAGATTAAATCACTCTGTTTTAATATCCACGCCAGTGCCAGAGTGGGAATTGTG -CACTGATAACGAGCACAAAGTGGCTGCCACTGTTCAAGCATATCAATCACTTTCAGCATGTTTTCACGCT -GGAACCAGACTTTATTTGCCCGAGCGCCGCCCGGAACGTAATCACGAGTGATGGTGCCGGTCAACAATCC -CTGCTCTAGCGGGGAATAAACCTGAACCACAATGCCATTATCACGACATAGTGGCAGCAGTTCGTTTTCC -ATTGCCCGGTCGAGGATACTGTATTTCGCCTGAATAATATCCAGTTCACCATATTGCAGATACTCGCGGA -TATGGTCAGCATCGACGTTAGCAGCGCCTATAGCGCGAATTTTCCCTTCAGACTTTAACTCATTAAGCAC -TGCGACAGTTTCAGCGATCGGCGTAAAAAATGGCGGCACCGACTGCCAGTGCGTCATGTAGATATCGATG -TAATCAATACCCAGACGTTGCAAGCTCGCTGCTACCTCTTCGCGGATAGATTCCGGGGAAAGGTTTTTAT -ACAACTGCCGATCGCCAACTTTGTTGAATAAACTTCCTTTTCGTTCCCAGACAATGCCGCATTTGGTTTC -TACTACAACCTGTTCACGGGGCAGTTTTTTTAACGCCTGACCGACGATAACTTCACTATTGCCAAAGTTA -TATCCTGGCGCAGTATCAATCAGATTAATGCCACAACGATGGGCTTCAAGAATCGTATCAATACATATTT -GCCGATCGAGATCGCCATTCCATGCAGGACCGCCGCCAATGGCCCATGTCCCCAACCCCATTCGCGAAAG -CGTAATATCCGTTGTGCCTAAAGGTATCTTTTTCATTTGCCTTCATTATCCTTCGTATTCTTCCAGCAAT -TGTTCGACCAGCTTTCTGTTTTTTACGCCGGTGGTGGCACCGACGCTTAGAACCGAGATAGCCGCCGTTG -CATTGGCAAAGCGTGCGCATTCACGCAGATTTTTGCCTTCTAACAGTGCCGCAATAAAACCTGAAGCAAA -GTTATCGCCCGCGCCAATGGTGTCGATGGCGGTTATTCCTGCGACCGCCGGCACCTTCATCGTCATGTCA -CCACGCTTGATAAAGCAGCCGTCTTTACCCGTTTTAATCACCACCGTTTTTACGCCGCACGCAAGAAAGC -AGTCAGCAATTTCATCCAGTGTCTCTTTCCCGGTGAGTAATTTTGCCTCGGCAAAATTAGGAAACAGATA -ATCGACATAACTCAATGCTTCGCAAATATCATCCAGCGTTTCATTCAACCGCGGTTTGATCATATCGGCA -CAGATAATCATCTGCCGGGCTTTAGCTTGCGTAAAAATTTCTGTTAGCGCTTTACCATCCAATAGTGGAC -TGTTGAAAATACTGGCCAGTGATAATAATTTCGCCTGAGAAAACCGCGCAAAATCAACATCGTCAATATT -CAATTTCCACAGACTGCCATTACGGTTTGTGACAAACGTCCGCTCGCCATCCTCCGTCACCAGTCCAACG -TTAATAGAGGTATCTATGCTGACGTCCTGCTTCAGGCTTTGAATATCAATATTCTCTTTGCGGCAATGGT -CGAGAATAAATTGCCCTGCGGCATCTTTACCAATACGACTCATTAATGCTGTGCGATGGCCCAGACGAGA -AATAATTGTTGCTTCATTTATTGCATCACCCCCGGTGGTCATTGCGATTCTTTCAAGAGGATAAGAATCC -ACATCAAAGATATTTTTACTGACCGGTTGCAATGGAATATCAACAATAGCGGCACCTATACAAATAACGT -CGAGATTATCCATATCATTATTCCGCTTTGCCATCAGAACCGAACAGTTTAAATTTTTCCAATGCCCGTT -CTTTTACAGCTTTACGTACTTCACGTTCTAAATGCAGGAAAGGCTGATCCTGGTTTTCTTTCACTGCAAC -CATTGCGGCCTGACAGAGCTCCGTATGAATGTTGATTTTCGCGATACCCAACGAAATTGCAGTTTTAATG -TCGGCATCACTGATCCCCGATGCACCGTGCAAAACCAGCGGAACAGAAACGGCATCGCGTACGCGTTTGA -CGACCTCAAAGTTCAATTGTGGCTCTGACGTATAAACCCCATGCTGGTTGCCGATGGCGACAGCCAATGA -ATCACAGCCCGTACGTTCAACAAATTCAGCCGCCTGGTCAGGATCGGTATAGTGATAGCCCGCCAGCGCT -TCCTCATAAACGGTTTCATTACCGACATGCCCTAATTCCGCCTCTACCGGAATACCCAGCGGATGGAAGA -AATCGACAGCCTCTTTGGTTAAACGAATATTTTCTTCGAAATCAAACGCGGAAGCATCACGCATTAATGA -ATTCATACCATGAGTCCAGGCGTTATGAATAATCTCCATACTCCGACCATGATCCCAATGAGTTATTACC -GGCACCGTTGCTTTTTGTGCCATTGATACCATCATGTGAGAGAAATCTTCAAATGAGGTGTTACCGACAA -AACCTGTACCAAAAGAAATAATAACCGGGGATTTCGCTTCTTCGGCTGCGTCGATAACGCCCATCAACAT -TTCTGCATTCCATACGTTAAAATGGGCAATTGCATAATGTTTATTTGTGGCATCGTTTTCCCAATATCTG -ATATCTGCGAGCATGTTCTGTTCTCCCGTATTAATTAATCGCTAATTTTAATAACGCCTTTAATAATGTC -GCGTTTGTTGTTAACTGACTCTTCAAATGCCTGTTGTACATCCCGATAATCGTAAATATGCGTCACCATC -GATTTCACATCGAATCGCCCTGAAGAAATAGCTTCAATCGTGACCGGATAACGATTGGCATAGCGGAATA -CCGTCTGGATAGTGACTTCGCGATTGATTTTGAGGAAATTGATTGCCGAATCGCCGGGTACAGTACCAAC -AATCATAATTTTACCGCCGCGCATTACCAGATAAGGTGCCTGTTTAACGGTGACCGCAGAACCCGCTGTT -TCGAAAACAATATCTGCGCCCATGTCTTCGGTAAATTGCTGACAGCGTGCAATAGTGTCTTCTTTTGCGC -CGTTAATAACCACTGTCGCACCAAGCTGTTCCGCCATTGCCAGACGTTTTTCCAGCACATCAACGACGGC -AATTTCCGTTGCTCCCAGGCATTTGCACGCTTGCAACGTCATCAAACCAATACAACCTGCTCCCAGAATA -ATTATCTTCTTACCCGGTTTAACATCTGCCAGCATCGCGGCATGCATCCCGACTGCGGCAGGCTCCACCA -GCGCCCCTTCCATCGTGTCCATATTGTCGGGCAGTTTGTAAGTAAAGCTCTCCGGATGACACAGATAGTG -CGTTAATGCGCCGCGGTAGTTGGGTTGTGTCGCCATAAAATCAACGTCCGGGCAGATGTTATATTTGCCT -TCCAGACAGTAACGACAGTGACCGCAAGGAACGCCAGGTTCGATATTTACCCGATCCCCCGGTTTAAATT -TGCGCACGCGGCTTCCCACAGCCACAACCGTCCCGGCGCATTCATGACCCAGGCCAATTTCTTGATTTGG -GTCTTTAGGCGGAATAAACGGGCCTGATTCAAAACCATGTACATCTGAACCACAAATACCGACATATTCT -ACTTTAATCAAAACTTCATCTTCTTTAGGCACTGGTATTTCTGCTGAAATAATTTTCATTGTGCCCGGCA -CCTGCAATATTGCTTTTGAATTTTTCATTTTGAATCCACCCGTATTATTTATTGGCTACTGCATCAATAC -TTAAACTTTCAACGGAGACACCTTTGGTTTCGATTCCAATGGTGGCGATAGCAATTGCGACAATAATTGA -AACCGCCCCCAGAAGAATAAAGACTCCCGTAACGCCATAACTACTGAGCAGCACTGCAACGGCATAAGGT -GCGGCAATACCACTGATTCGCCCTACCGCATTCGCCAGACCGGAGCCACGGAGTTTGGCCTCTGTCGGCC -AGATTTCAGGGACATACACTGCCGAGGCATAGCAAACGTACATATAGACGAAAGTAATCAGGAAGAAACC -AATCAACGTTATGAGCAACATACTGGTTTGCAGTGAATAGATATATCCGAGCACCGCAATCAGGATTAAT -AGCCCCACACCCATTGTTTTACGCGGAATTTTATCCATCACCAGCATGGCAATAAAAATACCAAATGGCG -CGCCAAACATACTCATGGTATTTAAAACAATCGAGTCTTTTAAATTAATCCCCTGGGTCATGAATATTGT -TGGCAACCAGTTAATTAGTGTGTACTGCACAACGTTCATGGCAATCAGCACACAAGAGCCTAATATCACG -CGTTTCAGTAATACTCCTGTCAGTAAGGCTGAATACGGCACCGCTTGTGGCGCTTTACCGTCATCAGCAA -TAACCACAGGCGGCAAAGGTTTACCCGTCTGGCGTATGACGCCTTCTTCTATACTCCGCATGACTTTCTC -GGCTTCCTGATACCGTCCGCGCGATTCCAGCCAGCGCGGGGATTCAGGAAAGTAGCGCCAGGCCAGCGCC -GTAGCGATAAGCGACAATATTGCAGGGATAAGCAGTTGTACCCGCCAGTTCCACTCTGCACTAATCAGCG -GCGTGAGTCCCATCGCTATCAATGAACAGAGCGGATATGACCAGTTGCCAATAAAGGAAACCCGACTTGA -CCACGTTCCACGATTTCTACCGGGCATATATTCGGTGAAACCAGCAAACAGCGTAACCAGTAAAGCTCCC -AGCCCAACTCCCATCACAAAACGGCAGGCAATAAGGAAATCCATATTCGGTGAGAAAGCACCGACAACCA -TCGAGGCAATATGAATGGCCTCATAGAGGATGAACGCATTTCTGCGACCGGTTTTGTCGCCAATGATGCC -GCCCACCAGCGCACCGAGAAACATTCCGGCGGTCGTGATTGCTGAGAATGTGGCTGTGGTGGAATTATCT -GTCCAGCCCAACGCTTTCAGCTGCGCGAGGATCAAGCCACCAACGGCATTACTCCAGCAGACAAGCAAGC -CAAACGCGACGATGGCAAACATTGATGAATGCCAGCGGCAATCCGGTAAGCGATCCAGCCGTGCACCACA -ATGCGGTTTTGTTATCTGTTCCATGCGATAACGTTCCTTCAGGAGAGTGGTTATTCATCAAAGTCGTAAG -TCATGATCACTTTGATTGCGGTTTTATCGACCATCGCATCAAACCCTTCGCGCCATTGCGACAGGCCGAT -ACGATGCGTGATCATCGGTTTGACTTTGATAGCGCCGCTGGCTAATAGCCTGATAGCGTTACGCCATGAG -GTGGAGTCATAGGCCATATGCCCAATGATGCTTTTGTTCCAGGCGGTAATGTCATTAATCGAGAAATCAA -GAGGTTTGAAGCCCATTCCAACGCGTACCACTTCCCCGTTCGGGCGGAGCATTTCGATGGCTTGTTTCAG -TGCGATATTGGCACCGGAGCATTCAATCACCAGTCCCAGATTGTCTTTGCCACAAATTTGCTGGCAGCGC -GCCACCACATCTTCGGTAGAACCATTTACTACTGCCGTCGCACCCAGTTCTTTTGCAACCGGGAAGCGGA -CCGCCACATCTTCTTGCAGACCAACGACGACGATATTTACCGCCCCCATAATTCGCGCCATTTGTACGGA -GAACAGCCCGAGTGGGCCAGTGCCGATGACGACCACATCCTGACCAGGAAGGAATTTCGATTGCTGCGCG -ATGGATTTGTAGGCATTACAGATAGGGTCAAGTACGGCTGCGTCCTCATAATCAACACCATCAGGGATTT -CCCACAACGCATGACGATGAATTTTGAGAATTTCACCAGGAACCAGACAATATTTGGAAAAACCACCGCC -CCAGGTATTATTATCCAGACCAAGGTTTACTTTTTCTGTACAACACAGAAAATCACCTTGTTCACAGGCC -GGACAAACACCGCAAACGTGACCGCTGTTATCCGATACGACGCGTTGCCCCACTTTCCAGTCTTTGACTT -TTTCACCAACCTGCGCAATACAACCTGCGAACTCATGGCCGCGGATAGAGTTAAACTCATCAGAACCGCT -ATCGACATTGTAGTGCTTCATGTCTGCGCCGCAGATTGCCGCGGCTTTAATTTCAATCACTACATCTTCC -GGGCCACACATGGGTTGTGGGACATCAATCATCTTGTAGCCGCCAAAGGCCTTGCCAAACCGAGCCAGTG -CTTTCATTGCGTCATCCTCTGTGTTTAGTTTTGCTTAGATGGCCATCATACTTACCCACATGATTTTTGA -GGTCAACATTAAATCTGTAAAACACAGATAATGATCTGCGTTTTACAACTCAGATCACAATTACGCAGAA -AATGGCTGGGTCTGTTACAGGTTGATGGAAGGCGGGGCGCAAAAAGAGCAAATTCGAGAGGGATTACCGG -CCAAATAGGTCTGAGACTTAAGTTCAGGAGAAGTCATTCAGGTGTGAACGGGACGGCAAGAGATCGGACT -GGGACTTAGCCAGGTCATGGCGAGATAATTGAGATGAGTCGTGGGGTCATTGTTGGCTATCCCCTTCATA -GCCGAGGCAAAAAGGGGATGAACCACTTACTTAAACATGGCAATAGGCTTTGCTGAGATACCAAAATCTT -CTTTTAACTGCTGTTTGCTCTTCATGACCATCTGACCATTTGTGTCAATTGTCATATGCTGTGCTTCGAT -ATTATGGCGGGCTTGCCACAGCATCACCAGTTGCAGGCAGTTCTCTTTTTGTTCCTCGGTCAACGCAACG -CCATCAGGCCATTTCCCCAGTTCAACGGCGGTCGACAAACGCTGGTATACCTCAGGCATCATGCTGTTGA -TAATGTCATCAAGATTCATAATTTTTCCGCTCCTGTGGAATAAGTTGCTGAATCGTTTTTTCAACCGTTG -ATTTCTTCGCCGTTTTCGCCATCGGTAAAGCGTAAAGAGGCAGAGTTAACACAATAACGTTCGCCCGTTG -GCTGCGGCCCGTCGGGGAAGACATGCCCCAGATGGGCATCACAGTTACCGCAACGAATTTCTATGCGCTG -CATTCCATGTGACAAGTCTTTGATATAACGAATGGATTCTTCACTTACCGGTTCGTAGAAACTGGGCCAG -CCACAGCCGGAATCATACTTGGTTTGGGAATGAAACAGCGGGGCATCGCAGATCAAACAGTGATATACGC -CGTCACGCTTGTTATGCAGTAAACGACCCGTAAATGGCGGCTCTGTCCCATGATTCTGCGTCACGTAAAA -CTGCATCTCGGACAAATTTTTTTTCAGTTCTTCTGCCGAAGGTTTATTAGCCATTTGCTCACATCTCACT -TTAATCGTGCTCACATTACGTGACTGATTCTAACAAAACATTAACACCAACTGGCAAAATTTTGTCCTAA -ACTTGATCTCGACGAAATGGCTGCACCTAAATCGTGATGAAAATCACATTTTTATCGTAATTGCCCTTTA -AAATTCGGGGCGCCGACCCCATGTGGTCTCAAGCCCAAAGGAAGAGTGAGGCGAGTCAGTCGCGTAATGC -TTAGGCACAGGATTGATTTGTCGCAATGATTGACACGATTCCGCTTGACGCTGCGTAAGGTTTTTGTAAT -TTTACAGGCAACCTTTTATTCACTAACAAATAGCTGGTGGAATATATGACTATCAAAGTAGGTATCAACG -GTTTTGGCCGTATCGGTCGCATTGTTTTCCGTGCTGCTCAGAAACGTTCTGACATCGAGATCGTTGCAAT -CAACGACCTGTTAGACGCTGATTACATGGCATACATGCTGAAATATGACTCCACTCACGGCCGTTTCGAC -GGTACCGTTGAAGTGAAAGACGGTCATCTGATCGTTAACGGTAAAAAAATCCGTGTTACCGCTGAACGTG -ATCCGGCTAACCTGAAATGGGACGAAGTTGGTGTTGACGTTGTCGCTGAAGCAACTGGTCTGTTCCTGAC -TGACGAAACTGCTCGTAAACACATCACCGCTGGTGCGAAGAAAGTGGTTATGACTGGTCCGTCTAAAGAC -AACACTCCGATGTTCGTTAAAGGCGCTAACTTCGACAAATATGCTGGCCAGGACATCGTTTCCAACGCTT -CCTGCACCACCAACTGCCTGGCTCCGCTGGCTAAAGTTATCAACGATAACTTCGGCATCATCGAAGGTCT -GATGACCACCGTTCACGCTACTACCGCTACTCAGAAAACCGTTGATGGCCCGTCTCACAAAGACTGGCGC -GGCGGCCGCGGCGCTTCCCAGAACATCATCCCGTCCTCTACCGGTGCTGCTAAAGCTGTAGGTAAAGTAC -TGCCAGAACTGAATGGCAAACTGACTGGTATGGCGTTCCGCGTTCCGACCCCGAACGTATCTGTAGTTGA -CCTGACCGTTCGTCTGGAAAAAGCTGCAACTTACGAGCAGATCAAAGCTGCCGTTAAAGCTGCTGCTGAA -GGCGAAATGAAAGGCGTTCTGGGCTACACCGAAGATGACGTAGTATCTACCGATTTCAACGGCGAAGTTT -GCACTTCCGTGTTCGATGCTAAAGCTGGTATCGCTCTGAACGACAACTTCGTGAAACTGGTATCCTGGTA -CGACAACGAAACCGGTTACTCCAACAAAGTTCTGGACCTGATCGCTCACATCTCCAAATAAGTTGAGATG -ACACTGTGATCTAAAAAGAGCGACTTCGGTCGCTCTTTTTTTTACCTGATAAAATGAAGTTAAAGGACTG -CGTCATGATTAAGAAAATTTTTGCCCTTCCGGTCATCGAACAAATCTCCCCTGTCCTCTCCCGTCGTAAA -CTGGATGAACTGGACCTCATTGTGGTCGATCATCCCCAGGTAAAAGCCTCTTTTGCATTACAGGGCGCAC -ACCTTCTCTCGTGGAAACCTGCGGGTGAAGAAGAAGTTCTGTGGTTGAGCAACAACACACCGTTCAAAAA -TGGCGTCGCTATTCGCGGTGGCGTACCGGTTTGCTGGCCGTGGTTTGGTCCGGCGGCACAACAAGGTCTG -CCTGCGCACGGTTTTGCCCGCAACCTGCCGTGGACGCTGAAATCACATCATGAAGATGCTGATGGCGTAG -CGCTGACTTTTGAATTGACGCAAAGCGAAGAGACGAAAAAATTCTGGCCGCACGACTTTACGCTGTTAGC -GCATTTCCGCGTGGGTAAAACTTGTGAAATCGATCTTGAATCACATGGCGAATTTGAAACCACCTCTGCC -CTGCATACCTACTTTAACGTGGGTGATATCGCTAAGGTAAGCGTCAGTGGGCTGGGCGATCGCTTCATTG -ATAAAGTGAATGACGCGAAAGAAAATGTACTGACCGATGGTATTCAGACCTTCCCTGACCGTACCGATCG -CGTGTATCTGAATCCACAAGATTGCAGCGTGATTAATGATGAAGCGCTGAATCGTATTATCGCCGTAGGC -CACCAGCATCATCTGAACGTTGTCGGCTGGAACCCGGGACCGGCGCTTTCAATTAGCATGGGCGATATGC -CGGATGATGGCTACAAAACATTTGTTTGTGTAGAAACGGCTTACGCTTCAGAAACGCAAAAAGTGACCAA -AGAGAAACCTGCACATCTGGCGCAATCCATTCGCGTTGCGAAACGTTAATTTACGTTAATGTTGTGTGCC -GGGTGCAATGCATCCGGCACACAACATCACACCATATCCAGCGCAGTTTTTCCTTTTGGTGCCGGATATG -CCTTATCCAGCATAGCTAATTCCGCTGAAGAAAGTTCGACCTCAAGCACAGCCGCATTTTGTTGGACATG -GGCAATCGTGGCCGCTTTTGGAATCGCCATCACACCCTGATGACTGATCACCCACGCCAACAATACTTGT -GCCGCGCTGATATTGTGAGCATGTGCAATTTCGTTGACTACCGCGTTTTTTAACAGTCCATTGCGCAACC -GCCCGGCCTGGGCTAACGGACTGTAAGCCATCACCGGCATCTGCTGTTGCTGGCACCAGGGGAGTAGATC -GTACTCAATTCCTCGTGAACCGAGATGGTAAAGCACCTGATTAGTGGCACACTGATTTCCCCCCGGCAGC -TGCCAGAGTTCCTGCATATCAGCATAATCAAGGTTAGAAACGCCCCAGCGGCGGATTTTTCCCTGGGCGA -TCAATTTTTCCATCGCTGCGACAGTCTCTTCAAAAGCGAAACTGCCAGACCAGTGTAATAAGTAAAGATC -GAGATAATCAGTATTGAGACGGCGTAAACTGGCTTCGCATGCATTTATCGCTTTTTGCCCGCCAGCATTC -CACGGATAGACTTTAGAGACGAGAAAGACCTTCTCTCGCAGACCGGTTAATGCTTCCCCAACCACCTTTT -CGGCACCGCCATCGGCATACATTTCGGCGGTATCAATGAGGGTTAAACCGAGTTCAATGCCCGCGCGTAG -TGCAGCAACTTCTGTTTTGCGCTGACTGGCATCTTCGCCCATATACCATGTTCCCTGCCCTACGGCTGGC -AGTGAGACATCGCCACTAAATTGAATCATTTTTTGTTGCATTGTTTCCTCCCAGGTATTGCACCACCGTA -ATGCAAAACAGGGCGTGACGCCCTGTTTTTATGCACAAAATGCCCTGGAAAGATGCATTATCAGAATTTG -TAGGTGATCCCGGTAGAAATCAGGCCAGTCCAGGATTTATCCACCATCGGGCTGTCAGTAACTTCATCAG -ACAGACGGGTGTAGCGTGCGGTACCGTAAACACTCCAGTCGCCGAGGAAGTTGTAGCTGGCGCTCAGCTC -CAGGTAAGGGCTCCAGCTGTCGTTCGGGTTATAGCCACGCAGACCGCTGCGAGCGGACTCTTTGCGCGAT -ACGCCATAATAGTATTCGTTCTGGTTTTCGCTGTTCCACTGCACACCAATACCCGGAGTCACGGTCAGGC -CACCGTTGGTGTAACGATACAACCAGGCCATATCCCAGACGATGCCGTTGCTGTTATCCAGGGTATCGCC -AGCCAGGGTGGTACGCAGGTAACCGTACTGGGTAAAGTGAGCATAAGACAGACCAGCCATCATGGTGCTC -TTACGGTCATCCAGGTGACGCATTTGGTGATCGCCACTGTCTTTCGCTTTGAAGTAAAGCGGCGACCAGT -AAGCGGTAATTGAAAGTTTATCCGTTGCGTCATTCCACAGGTAGTAACCACCACCTAAGCCACGGAACCA -GAAGTTATCGCCTTCATAGTTGATTACCGGTACTGGGTAAACATCGGTATCGTAATCTTTATATGGGTGT -TCAACGACACCTACGCCTGCGCCCAGGGAAAATTTACCTTCAGCGTGCGCTACGCCTGCAGACGTTGCGA -TAAGCACTCCAAGTGCCAGAAGTTTGAGTTTGGTCACAATTAATCATTCCTTAAACAAATGTTTAGCGGG -CGACAAAGTTTACCCGTCAATACATCGAAACCCAACCTTTTTACGTTTTCATTTTTTAAAGTAACTGTTT -AATTTTCCTGACGCGGATGACACCGCGCTTACAGCCAAATGAATTTAGCGTTACTGGCGAGCCTGGTCTT -TACATTAATTATGCAAAATTTATGGATGAGTTGTTGATATGCCATTGAAATTAAGAAAGCCGTGCAGGCA -AGTTTTCCATTTGCCATCTACGCTTAATTTTGAAGGTGTATCACCGGGCACGTTGTTCTCATCGTCGATA -AAATGGCATGAGAGTTGCTGTGTTTTAGCAAGAGACGTCGTTCAGTTTACCTCTTCCGGGAGCCTCTACT -ATTCATATGAACGGCTCTTAACCTGTGCTAAAAAACGAAAGGACGGCATACCATGAATATATTCGATCAC -TATCGCCAGCGATATGAAGCTGCCAAGGACGAAGAGTTCACACTGCAGGAGTTTCTTACCACTTGTCGGC -AAGATCGCAGTGCTTATGCCAACGCGGCTGAGCGGCTATTGATGGCTATCGGTGAGCCTGTCATGGTCGA -TACAGCCCAGGAACCCAGACTTTCTCGACTCTTTTCTAACCGGGTCATTGCACGTTATCCGGCGTTTGAA -GAGTTTTACGGCATGGAAGACGCGATTGAACAGATTGTCTCTTATCTGAAACACGCGGCTCAGGGGCTGG -AAGAGAAGAAACAAATCCTGTATCTGCTGGGGCCTGTGGGTGGGGGTAAATCATCGCTTGCTGAGCGACT -GAAATCATTAATGCAGCTCGTACCGATTTATGTATTGAGCGCGAACGGTGAGCGTAGCCCGGTCAACGAT -CATCCGTTCTGTCTTTTCAATCCGCAGGAAGATGCGCAGATTCTGGAAAAAGAGTATGGCATTCCTCGCC -GTTATCTCGGCACCATCATGTCGCCGTGGGCGGCAAAACGCCTGCATGAATTTGGTGGCGATATCACTAA -GTTCCGGGTAGTGAAGGTCTGGCCGTCAATTCTGCAACAAATTGCTATCGCCAAAACGGAACCCGGCGAT -GAGAACAACCAGGACATCTCCGCGCTGGTTGGGAAAGTCGATATTCGTAAACTCGAACACTACGCGCAGA -ATGACCCGGACGCCTACGGCTATTCCGGTGCGCTGTGCCGCGCCAATCAGGGGATCATGGAATTCGTTGA -GATGTTTAAAGCACCGATTAAAGTGCTGCATCCCTTGTTAACCGCCACTCAGGAAGGTAACTACAACGGG -ACGGAAGGTATCTCCGCCCTGCCGTTCAACGGGATTATTCTCGCACACTCGAACGAGTCCGAATGGGTCA -CTTTCCGTAATAACAAAAACAACGAAGCCTTCCTCGATCGTGTTTACATCGTGAAGGTGCCGTATTGCTT -GCGCATTTCCGAAGAGATCAAAATCTACGAGAAATTGCTTAATCACAGTGAATTGACTCACGCCCCATGC -GCCCCTGGCACGCTCGAAACACTGTCACGTTTTTCCATTCTTTCGCGCCTGAAAGAGCCAGAAAACTCCA -GCATTTATTCAAAGATGCGGGTTTATGATGGCGAAAGTCTGAAAGACACCGATCCCAAAGCCAAGTCGTA -TCAGGAATATCGTGACTACGCCGGTGTCGATGAAGGGATGAACGGTCTGTCGACGCGTTTTGCGTTTAAG -ATCCTCTCCCGCGTGTTCAACTTCGATCATGTAGAAGTGGCAGCAAACCCGGTCCATCTGTTCTACGTCC -TGGAACAGCAGATTGAGCGCGAGCAGTTCCCACAAGAGCAGGCAGAACGCTATCTGGAGTTCCTGAAAGG -TTATCTGATCCCGAAATATGCCGAGTTTATCGGCAAAGAGATCCAGACGGCCTACCTTGAATCCTATTCC -GAATATGGGCAAAACATTTTCGACCGTTATGTTACCTACGCGGATTTCTGGATTCAGGATCAGGAGTATC -GCGATCCGGATACCGGGCAGCTGTTTGACCGCGAGTCTCTTAACGCCGAGCTGGAGAAAATCGAGAAACC -GGCGGGGATCAGTAATCCAAAAGATTTCCGCAACGAGATTGTTAACTTCGTACTGCGCGCCAGAGCGAAT -AACAGCGGACGCAATCCGAACTGGACCAGCTATGAAAAACTGCGCACGGTCATCGAGAAGAAAATGTTCT -CCAATACCGAGGAGCTGTTGCCGGTTATCTCGTTTAACGCCAAAACGTCAACCGACGAGCAGAAGAAACA -CGACGACTTTGTCGACCGTATGATGGAAAAAGGCTACACCCGTAAACAGGTGCGTTTACTGTGCGAATGG -TATTTGCGCGTACGTAAATCGTCTTAACAACCCTGGCCCGGTACACATGTTACCGGGCCTACAACGACAG -CGAACCGTGGGCCTGAGAAGCGGCAACACAGGCGTAGCATACAGTTGGCAAATGTAGTACGGGGGGCATA -TGACCTGGTTTATTGACCGGCGTCTGAACGGCAAAAACAAAAGCATGGTGAATCGCCAGCGTTTTTTACG -CCGTTATAAAGCGCAAATTAAACAGTCGATCTCCGAGGCCATTAATAAGCGTTCGGTGACTGACGTCGAC -AGCGGCGAATCCGTATCCATTCCCACGGAAGATATTAGCGAACCGATGTTTCATCAGGGGCGTGGCGGTC -TGCGCCACCGCGTGCATCCGGGCAATGACCATTTCGTCCAGAACGACCGAATTGAACGTCCCCAGGGTGG -CGGCGGAGGTTCCGGCAGTGGTCAGGGCCAGGCCAGCCAGGATGGTGAAGGTCAGGATGAATTTGTCTTT -CAGATTTCGAAAGATGAGTATCTTGATCTGCTCTTTGAAGATTTGGCCTTACCGAATCTGAAACAAAACC -AACAACGCCAGCTGACCGAATATAAAACGCATCGGGCGGGTTATACCGCTAACGGCGTTCCGGCCAATAT -CAGCGTTGTGCGTTCATTGCAGAACTCACTGGCGCGACGCACAGCCATGACGGCAGGCAAGCGGCGGGAA -CTTCATGCACTGGAAGAGAATTTGGCCATCATCAGCAACAGTGAACCTGCGCAACTGCTGGAAGAGGAAC -GTCTGCGCAAAGAAATTGCAGAATTACGTGCCAAAATTGAACGCGTCCCTTTTATTGACACCTTCGATTT -ACGTTACAAGAACTACGAGAAGCGGCCCGATCCCTCCAGCCAGGCAGTGATGTTTTGCCTGATGGACGTT -TCCGGTTCAATGGATCAATCCACTAAAGATATGGCTAAGCGTTTTTATATTCTGCTGTATCTGTTCCTCA -GCAGAACGTATAAGAACGTGGAAGTCGTATACATCCGCCATCATACCCAGGCGAAAGAAGTCGATGAACA -TGAGTTTTTCTACTCGCAGGAAACAGGCGGCACCATTGTTTCCAGCGCCCTGAAACTGATGGATGAGGTA -GTGAAAGAGCGTTATAACCCGGCACAGTGGAATATTTACGCTGCACAAGCATCGGACGGCGATAACTGGG -CCGATGACTCTCCGCTTTGCCATGAAATCCTGGCGAAAAAATTATTACCTGTTGTTCGTTATTACAGCTA -TATCGAAATTACCCGTCGTGCACATCAGACATTGTGGCGAGAATATGAGCATCTGCAATCTACTTTCGAC -AACTTTGCGATGCAGCACATCCGCGACCAGGATGATATTTATCCGGTGTTCCGTGAACTGTTTCATAAAC -AAAATGCAACAGCTAAAGGCTAAAACTATCAGCCAGGTCATTATCGCCTGGCTGATTTTTAGCTTACTGT -AAATTATCTCATTTATTACATACATTAGCTTACAATCGCTTTAAATATGACAGCATAACCTTTACATAAT -TTAGTTCCAGAAAACAATCATTCGGAAAAATGATTCAGTCAACACGTATTTCCATGGGGTTATTCTTTAA -ATATTTTTTATCGTTAACGAAAATTGATCCTGGTCAAAACTATATATCTCTGCCATCAATAAAATCCAGC -ACTCACATTGCTCTCCTTTTTATGGTTTCTATGGGTACACAAAAATTAAAAGCTCAAAGCTTTTTTATTT -TCAGTTTATTGCTGACGTTAATTTTATTTTGCATTACTACCTTATATAACGAAAACACAAATGTAAAACT -CATCCCACAGATGAATTACCTGATGGTTGTTGTGGCTTTGTTTTTCCTTAACGCCGTCATTTTTCTTTTC -ATGTTAATGAAATATTTCACTAACAAACAAATTTTACCAACACTCATTTTAAGCCTTGCATTTTTAAGTG -GCCTTATCTATTTAGTTGAAACCATTGTAATTATCCATAAACCAATTAACGGCAGTACACTGATCCAGAC -AAAGTCGAATGATGTTTCTATTTTCTATATTTTCCGCCAACTCAGTTTTATTTGTTTAACCTCGCTGGCG -CTCTTTTGTTATGGAAAAGACAACATCCTTGACAACAATAAGAAAAAAACGGGAATCCTGTTGCTGGCGC -TGATCCCTTTTTTAGTTTTTCCCCTTCTGGCACACAATCTGAGCAGTTATAACGCTGACTATTCTTTGTA -TGTCGTCGATTACTGTCCGGACAACCATACTGCGACCTGGGGAATCAACTATACAAAAATATTGGTTTGT -CTGTGGGCATTTTTACTGTTCTTTATTATCATGCGCACACGATTAGCCAGCGAACTATGGCCGTTAATAG -CATTATTATGTCTGGCATCGCTATGCTGCAACTTACTTCTACTGACTCTGGATGAGTATAATTATACTAT -CTGGTATATCAGTCGCGGGATTGAAGTTTCCAGTAAACTGTTTGTTGTGTCTTTTCTGATTTATAACATT -TTTCAGGAGCTGCAACTCTCCAGCAAACTGGCAGTTCATGATGTGCTGACCAATATTTATAATCGGCGCT -ACTTTTTCAACAGCGTAGAGTCATTATTGTCGCGACCTGTTGTTAAGGACTTCTGTGTCATGCTGGTTGA -TATTAATCAGTTCAAACGCATCAATGCCCAATGGGGACATCGTGTGGGTGATAAAGTGCTGGTTTCAATT -GTCGATATTATCCAGCAAAGCATCCGCCCCGATGATATTTTAGCGCGACTGGAGGGTGAGGTGTTTGGCT -TGCTATTTACCGAACTCAATAGTGCCCAGGCAAAAATCATTGCGGAACGTATGCGTAAAAATGTCGAACT -CCTGACCGGCTTTAGTAACAGATATGATGTTCCTGAACAAATGACCATCAGTATTGGCACGGTTTTTTCA -ACGGGTGACACGCGTAATATCTCGCTTGTCATGACGGAAGCAGATAAAGCCTTACGCGAAGCGAAAAGCG -AGGGGGGCAACAAAGTGATTATTCATCATATTTAAGTGCAAAAATATTCAGAGCCATGCTTTTTGCGTGG -CTTTTGCATACAATTTATTACTATTACCCCTAAATTTCCCCTCCCCAGCGGCGCAGAGATGAGTATAATT -AGCGCCCCTGTGCCAGGCCGCAATCGAACTTTATCTGGTTTTCTCGTTTCACTAACCGAAGGAGTGCCAT -TTATCATGAAATTGCACCATAGAATGCTCCGGCATTTTATCGCCGCAAGTGTCATTGTGCTGACATCTTC -CTTCCTTATTTTTGAACTTGTCGCCAGCGACAGAGCAATGAGTGCCTATCTGCGCTATATCGTGCAGAAA -GCAGACTCCTCCTTTCTTTATGATAAGTATCAGAATCAGAGTATTGCCGCGCATGTGATGCGCGCTCTCG -CTGCTGAGCAGTCGGAAGTGTCGCCAGAACAGCGGCGCGCCATCTGCGAGGCTTTTGAGTCTGCCAATAA -CACCCATGGCTTAAACCTGACTGCCCATAAATACCCGGGCTTACGCGGCACACTACAAACCGCATCCACT -GACTGCGACACAATTGTGGAAGCTGCAGCACTATTACCCGCTTTTGATCAGGCAGTGGAAGGCAACCGCC -ACCAGGATGATTACGGTTCAGGTCTTGGGATGGCCGAAGAGAAATTTCACTATTATCTCGATCTCAATGA -CCGCTATGTCTATTTTTATGAGCCGGTTAATGTTGAATACTTTGCGATGAATAACTGGTCCTTCCTGCAG -TCAGGAAGTATTGGCATCGATCGCAAAGATATTGAAAAGGTATTTACCGGGCGTACCGTATTGTCGAGCA -TTTACCAGGATCAGCGTACTAAACAGAACGTGATGAGTTTGCTGACGCCGGTATATGTCGCAGGGCAGCT -AAAAGGGATTGTGCTGCTGGATATTAACAAAAACAATCTGCGGAATATCTTTTATACTCATGACCGCCCT -CTCCTCTGGCGTTTTCTCAATGTCACGCTAACCGATACCGATTCGGGGCGCGACATTATCATCAACCAGA -GCGAAGATAATCTGTTCCAGTATGTCAGTTACGTCCATGACTTACCGGGCGGCATTCGTGTCTCGTTATC -CATTGATATTCTTTACTTTATCACGTCTTCGTGGAAAAGCGTTCTGTTCTGGATTTTGACGGCGTTAATT -TTGCTGAATATGGTGCGGATGCACTTCCGTTTATACCAAAATGTGTCGCGAGAAAATATTAGTGATGCGA -TGACTGGACTGTATAATCGCAAAATTTTAACCCCTGAACTGGAGCAGCGGTTGCAGAAACTGGTGCAATC -CGGTTCTTCGGTGATGTTTATTGCTATTGACATGGACAAGTTAAAGCAAATAAATGACACCCTCGGTCAT -CAGGAGGGGGATTTAGCGATTACGTTATTAGCTCAGGCGATTAAACAGTCGATTCGTAAAAGTGATTATG -CCATCCGACTCGGTGGCGATGAATTCTGCATCATTCTTGTCGATTCGACGCCGCAAATTGCAGCACAACT -GCCTGAACGTATCGAAAAACGTCTGCAACATATCGCGCCGCAGAAAGAGATCGGCTTCTCTTCCGGTATT -TACGCGATGAAAGAAAACGATACGTTACATGATGCGTATAAAGCTTCCGATGAGCGTTTATATGTCAATA -AGCAGAACAAAAACAGCCGTTCATGATAACCTTCTGTGGTTGTTTGCTTGTAATCTCAGGAGCGTGAAAT -GACTGAAATGGCTAAAGGAAGCGTGACGCATCAGCGGTTAATCGCTTTATTATCACAAGAAGGTGCTGAC -TTCCGCGTCGTTACCCATGAAGCGGTAGGTAAATGTGAAGCGGTGTCAGAAATTCGTGGCACCGCTCTAG -GCCAGGGTGCTAAGGCACTGGTATGTAAAGTCAAAGGCAATGGCGTAAATCAACATGTTCTGGCGATCCT -CGCAGCCGATCAACAGGCCGATCTGAGCCAACTCGCCAGCCATATAGGCGGATTACGCGCTTCGTTGGCC -AGCCCGGCGGAAGTCGATGAACTCACAGGCTGTGTCTTCGGCGCGATCCCCCCTTTCAGCTTCCATCCAA -AACTCAAACTGGTTGCCGACCCTCTACTCTTCGAACGATTTGATGAAATCGCCTTCAATGCAGGCATGCT -GGATAAATCCGTTATTTTGAAAACCGCGGATTATTTGCGCATTGCGCAACCAGAACTGGTCAATTTCCGC -CGCACTGCGTAACTAGCCGGTCCGTTCGATAAGAAGAACGGACAAAACCAGTACAACAGCAATGGCAAAA -AACGATGACGTGATAATCAGTGTCTCGACAAACATTTGATCGTTCATAGCATGCCCCCGGGAGATAGCTG -TTTTCACGTTATTGTTAGCGTGCACAAATGGCAGTTTGATGACAGTTCGCCTGATTTTTTATGCAAAAAA -CGTAAAGATTTTCTACTTCCTTCCTGCAGCAAGCGTAAAGTAAGCAGGCTTATTATTTTTTGGCAAGGAA -ACCACGATGTTTGATGTCACTTTGCTGATCCTGCTCGGGTTAGCTGCGCTGGGCTTTATCAGTCATAACA -CCACTGTCGCCGTTTCAATTCTGGTGTTAATCATTGTCCGCGTCACACCGTTAAGCACCTTTTTTCCGTG -GATTGAAAAACAGGGGCTAAGTATCGGGATAATCATTCTGACGATTGGCGTTATGGCCCCCATCGCCAGC -GGGACGCTACCGCCCTCAACCTTGATTCACTCGTTTCTGAACTGGAAATCACTGGTGGCGATTGCAGTAG -GCGTGATTGTCTCCTGGCTGGGTGGGCGCGGCGTGACGTTAATGGGCAGCCAGCCGCAACTGGTCGCCGG -GCTGCTGGTAGGCACTGTTTTAGGCGTAGCGCTGTTTCGCGGCGTACCGGTTGGGCCGCTTATTGCCGCG -GGTCTGGTTTCGCTGATTGTGGGGAAACAGTAGTTAATCTCGCAATATATCGGCCTGGCGTTTGCCCCAG -GCCTTTCTTAAACATAGTAATAAAGGCCGTTGTTGAATCATACCCCAGCGTATGAGCAACTTTCTGTACA -GTATCGCCTTTCACTAATCCCTGAAGCGCCATAATCAGCTGTAACTGCTGACGCCACTGGCGAAAACTCA -ACCCCGTCTCTTTTACTATCAGTCGGGCAAGATTGCGTTCACTCATCGCAAAAAAGCCAGCCCATTGCCC -CAATGCCCCCCACTCGACAGGCCCTTTCGCCATCATCTCCACCATCGTGCGGATTTTAGGATGAGAAGAA -ACGGGCAGGTGCAGCTGTTGTTGTGGCTGCTGAGGGAGTTCATCAAACAGGACCTGAATTAATCTGCGGG -TCATTGGCTCAGCACGCTGAGTCGTCGTCCTGTTTGCCAGGGTTAAAATTAATTCCCGGCATAAGGGCGA -TATTTTCAATGTGCAACATGTTGTCGGCATTGTCACTGCGCTGGGTTCGATAAACAGAAAACAGAGTTCA -GCATTAGCTGTTACTTGATTGCTATGTTCCACCCCGCCCGGTATCCAAACCGCATATTGTGGCGGCACCA -TCCACAAAGCATTTTCCACCGTACAGGTAATTGCACCATGTAGCGCCAGTATCAGCTGTCCTTTGCGGTG -CTGATGTACAGGACTGGTTAACTCATCCGTTCCGGCGTGAATACAAAATGCGACCGCGGCTTCATGGTGT -CGGTCGGGTTCATAGCCATTGAGATTCAACCTGTGCATCATTTTGTCCGAACTTAGCGATAATTTGTCAT -TTTAGCTTGATTCAACATAACAATAAAAACGGTAAGGTACAGCCTCGTTTGTAACAATGAGAAGCATATG -ACCTGTTCAACTTCATTAAGCGGCAAAAACAGGATTGTCCTTATCGCTGGCATTCTGATGATTGCCACAA -CATTACGCGTCACCTTTACCGGCGCAGCACCGTTACTGGATACGATTCGTTCCGCTTACTCGCTGACGAC -AGCGCAAACCGGCTTATTGACCACCCTGCCATTATTGGCCTTTGCGCTAATCTCACCTTTGGCTGCCCCG -GTAGCGCGACGTTTTGGTATGGAACGTAGCCTGTTTGCCGCGTTACTTTTGATCTGTGCTGGTATCGCAA -TTCGCTCTCTCCCTTCGCCTTACTTATTATTTGGCGGTACAGCGGTCATTGGCGGTGGGATTGCATTAGG -CAATGTCTTACTGCCAGGATTAATTAAACGCGATTTCCCTCATTCCGTCGCCAGACTTACCGGCGCATAT -TCCCTGACAATGGGAGCTGCAGCGGCACTGGGATCGGCTATGGTCGTGCCGCTGGCTTTGAACGGTTTTG -GCTGGCAAGGCGCGTTGCTCATGCTGATGTGTTTTCCTCTGCTGGCTCTTTTTTTATGGCTGCCACAGTG -GCGAAGTCAACAACATGCAAATTTGAGTACCTCGCGCGCCTTACATACTCGGGGTATCTGGCGTTCACCG -CTTGCCTGGCAGGTCACATTGTTTCTTGGGATCAACTCACTGGTCTATTACGTGATTATTGGCTGGCTTC -CGGCGATCCTCATCAGTCACGGCTATAGCGAAGCACAGGCGGGTTCACTGCATGGTTTGCTGCAACTAGC -CACAGCAGCACCCGGTTTGCTGATCCCACTTTTCTTACATCATGTGAAAGATCAGCGTGGTATTGCAGCG -TTCGTTGCCTTGATGTGCGCAGTGGGCGCGGTTGGGCTCTGCTTTATGCCAGCGCACGCGATCACCTGGA -CTCTGCTTTTCGGTTTTGGTTCCGGCGCAACAATGATACTGGGGTTGACGTTCATTGGTCTGCGGGCTAG -TTCTGCGCATCAGGCGGCGGCACTCTCGGGGATGGCACAATCCGTCGGGTATTTGTTGGCAGCCTGTGGG -CCGCCGCTGATGGGTAAAATACACGATGCTAACGGTAACTGGTCTGTACCACTTATGGGTGTTGCCATAC -TTTCACTACTGATGGCGATTTTCGGACTTTGCGCCGGGAGAGACAAAGAAATTCGCTAATATCCGGTGCT -ATAGTGACGTAACAAATCATGCGTGAAAGGGAGAACAAACACGATGAATATTCAGTGCAAACGCGTTTAT -GATCCGGCTGAACAGAGCGATGGTTATCGCATACTGGTCGACCGCCTCTGGCCGCGCGGTATCAAAAAAA -CCGATTTAGCCCTTGATGAGTGGGATAAAGAAATCACGCCGTCAACGGAACTGCGCAAAGCCTTTCACGG -CGAAGTCGTCGATTATGCAACCTTTCGCGAGCAATATCTTGCAGAACTGGCGCAACACGAGCAAGAAGGA -AAGCGGCTGGCGGACATCGCCAAAAAACAGCCGCTGACCCTGCTCTACTCAGCAAAAAACACCACGCAGA -ACCATGCGCTGGTGCTGGCCGACTGGCTACGTAGCTTGTGATTTTAGTACAGCATCCGGCGGTTATTTTT -CACCAGCCGGATGGTCACGCCGCCACAATGCCCATTCATCAATCGTTTCACCGCCCGGTAATTTGCAATT -GTTGCTGACCCCTTGCGCTGTCTGCACTGGAATGAGCGTCCCGCCCTTCTGCTGGCAATAGACCGACGCC -GGATTTGCCATACCAATCTGCGGCGGTTTAGGTGCTTCTGGCTGAGAAGGGGTTGAACAACCAGCCAGGA -CCAGCAAGCAAGGCAGAACAAAACTGATAATTTTCATTTATTGATCTCACATATTTATCCAAGATTAGAG -TATCGCGGTATCGTTTTGTTTTGCAGCACTATTTTTATTACATTCACTCAAAACATATTACGTCTTGTTT -CATCTTTGTTGATGATGTTTTATCATGCCTGCAAAGATTAAATAATCAGCATTTACCCGCCGTATCCTGG -AGTTGTTCCGTGTCAGATCAGATTATCGCCCGCGTCTCGCAATCCCTTGCCAAAGAACAGTCACTGGAAA -GTCTGGTCCGACAGCTTCTGGAGATGCTGGAAATGGTCACTGATATGGAATCAACCTACCTGACCAAAGT -GGATGTCGAAGCGCGCCTGCAGCATATTATGTTTGCCCGTAACAGCCAGAAAATGTACATCCCGGAGAAT -TTTACCGTCTCGTGGGATTACTCGTTATGCAAACGCGCCATTGATGAAAACTGCTTTTTCAGCGATGAAG -TCCCCGACCGTTGGGGTGACTGTATTGCGGCACGCAATCTTGGCATCACCACATTTCTGAGCACGCCAAT -TCACTTACCGGATGGATCATTCTATGGCACGCTTTGCGCCGCCAGCAGTGAGAAGCGCCAGTGGAGTGAA -CGCGCGGAACAGGTTTTACAGTTATTCGCCGGACTGATTGCACAATATATTCAAAAAGAGGCACTGGTTG -AACAGCTGCGCGAAGCCAATGCTGCGCTGATTGCGCAATCGTATACCGACTCGTTAACCGGGCTACCGAA -TCGGCGGGCGATTTTTGAAAATCTGACGACACTGTTTTCCCTCGCCCGGCATCTTAACCATAAGATAATG -ATCGCGTTTATCGATCTGGATAACTTCAAATTAATCAATGATCGTTTTGGTCATAATAGTGGCGATCTGT -TTCTCATTCAGGTTGGCGAGCGCCTTAATACGCTCCAGCAAAATGGCGAAGTTATTGGTCGTCTCGGCGG -TGATGAGTTTTTAGTTGTTTCACTAAACAACGAGAATGCGGATATTTCGTCGCTGCGAGAACGCATTCAG -CAGCAAATACGTGGAGAATATCACTTAGGTGATGTTGATTTGTATTATCCCGGTGCCAGTCTTGGCATAG -TAGAAGTCGATCCTGAAACAACCGATGCAGACAGTGCCCTGCATGCTGCCGATATTGCGATGTATCAGGA -GAAAAAACACAAACAGAAAACACCTTTTGTCGCGCATCCAGCGCTACATTCCTGAGGCGTATTCACATCC -TTTTGATTGGTGATAACATGCGAATCGGTATTATTTTTCCGGTTGTAATCTTCATTACAGCGGTCGTATT -TTTAGCATGGTTTTTTATTGGCGGCTATGCTGCCCCGGGAGCATAAAGATGAAAAAAACAACGATTATTA -TGATGGGTGTGGCGATTATTGTCGTACTCGGCACTGAGCTGGGATGGTGGTAACGTCACCTCTAAAAAAT -AGCAAAGGCTGCCTGTGTGCAGCCTTTGTGCAATTTAAGCGTTAACTTTTAATCTTCCTGTAGATAAATA -GCACGACAATCGCACCAATAACGGCAACCACGAAGCTGCCAAAATTGAAGCCATCGACTTTACCAAAGCC -AAACAGCGTGCTGATCCATCCGCCGACTACGGCACCGACTATCCCCAGCAGGATAGTCATAAAGAATCCA -CCTCCATCTTTACCTGGCATGATCCACTTCGCCAGAATACCGGCAATAAGCCCAAAAATAATCCATGACA -GAATGCCCATTGTTTCCTCACTTATCTGTTTTGCATTAGCGGGTTAGTCGCTGATAAAAAGCATAGCACA -ACATCGGGAGGGCAAGATTTGTGACGAGCATCACGGAGGTTTTTTTTGCGATGGCGCAGAAATTGCGCCA -TCAACGATCAGTGATAATTACCAACCACAAACATCATGTTCGTTTTCCGTGTCATAAGAACGTACGGTAT -TCACCAGATCTTTTATCACTTCAGCCGCCACTTCTGGCACCAGCAAAGTCATCGGCGTCTCTGTTTCATA -ATCGACAGAAACGCCATTGCTGTTATTGGTGACGGTCACGGTATACGTTGCTTTGCCCATGATTCATTTC -CCGTTATGAATGACTTTCCGTTGTTGCGCACCTTCCATCAGGACTTCAGGAGCCACGAAGAAGTCAATGT -TGAAATAAGTATCGTCAGTCATGGCTTCAATGTTGTGCCACTTTTCTGGAGGGAACACCGCAAACTGCCC -CGCTTCGATAAGGATCACCTGATCAGGCTCTGCACTGTGTTCATCAGCGTAGCCGAGATATTTGACCGCC -CCATGCATAACGGAAAGGCGTGGGTAAACCCCCGGGCGCGTTCCTTTATCAAGATGACGTTCGAATATTC -CGGCAGGTGCAGTTTGTTTATTCCAGAAAGGCGTTGAGCGCGTATGAATATAATTCTGTGGGATTTGAAG -CATCCTTTTCCCTCCTTCGGTGAATGCGCTGAAAACGGTTTATTCCAGCCGTTTCAGGGTACGCCTGATA -ATTTGCATTTTAAATACCATTTATTGGTTACTTTTTAGCACCATATCAGCGAAGAATCAGGGAGGATTAT -AGATGGGAAGCCCGCGACAACGCGGGCTGAAAGCATCAGGATTGCAGCGTCGCCAGTCGGGCAGCGAAAC -CCACGAACATCAAACCAATCAGTGAGTTGCCAACTTTAGCCAGTTTCTTTTTGGTACGTATGTACTGCGT -GACAAAAGCACCAGATATAATCAGGAAGCTCAAATAGCAGAAACTCACCAGTTCCAGCGTCGCCGCCAGA -ATAAAGAATGAAATTCCCGTATGTGGGGCATTAACATCGATAAACTGTACGAAAAACGACACATAGAACA -AAATGGCTTTCGGATTAGTCAGGCTCAAAATTAACGCGCGTTTAAAAATAGCACCGTATTGGGGCTCATC -GGATTTGGCCTCGCTATTTTTACCCTTCAGGGTCGCGTAAAGAATTTTACTCCCCAGATAGAGCAAATAA -AACGCACCAAGATAACGTACAATGTTGAATAATATCGGGGTGGTCTTAATTAATGTCGCCACTCCAGCCC -ATGCCAGAAACATCAATACCGCATCGCCAATAAATACACCGCAGGCCGCAAGATAACCGCCTTTCATACC -GCTACTGACGCTATTTTTGAGTACAAACAGGGTATTTGGCCCTGGCACCAACACAATAAAAATGGCCCCA -ACCAGATAGGTCCAGTAATTCAGAACCCCGTATTCAGCGAACACATTAACCTCTTTAATTATCTTTCGAT -CATGCGCGATTAAAGGTGAATATGCTAACCAATCTGTAGCGGCTTAGAAAGGAGAAAATCAGGTTTTAAC -CTGATATCAACCCGATAATTGAATCATTAATCAGGCATGCTCCAGTGAAAAATTCGGGTAGTGCTCGGCA -AAATACTGGCGTAAAAATTCTACCGTTATCCGCACTTTCGCTGACGTCGCCAGCCTTGAAACATAAACGG -CCCAGACGTTCGCTGGCTGGTAATATTCCGGTAGCACTTGCACTAAATGACCACTGGCAATGTTTTCGCT -AACATCCCACCAGGAACGCAGAGCAATCCCCTGCCCATCGAGACACCACTGATGGACAATTTCTCCATGA -TTAGACGACAGTGGGCCGGTGACTTTAATCGCATGGGGGCCTTCTTTATTGCGTAATTGCCAGACACCAA -AAGGATGATCGCGCTCTTTAATGACCAGGCACGGCAATGCAGAAAGATCGGTTAAATGTTTCGGCGCGCC -ATGTTGCGCAATAAATTCCGGCGACGCGCAGAGAATACGGTAATTGGTCGCCAGTTTGCGGGCGATTAAA -TTAGGGGCGATGTCATCGCCAATGCGAATATCGAGATCGACACCTTCATTGACCAAATCGACCAGTCGGT -CTTCCACATCAAAACGTAATTCCAGTTGCGGATACGCCTTCGCCAGCGCTAATAACGCCGGAGCCACCAC -CTGTCGTCCAAAACCAAAGCTGCTGATAATACGCAGCATCCCCTGCGGCACCTGACGCACGTCAGAAAGT -TCGTCCATCATCTGACCGACATCCTGCAAAATCCGCTGCGCCCATTCATAAATCCGCTCTCCTTCTTCGG -TAATGGTGACGCGGCGGGTGGTGCGGTGTAACAACACCACGTTTAGCGTTTGCTCCAGCAAGGCGATGCG -CTTGCTGACGAACGCCGGTGAAACGCCCAGTTCTTCCGCCACGGCGGCAAAACCAGCCCGGCGAGCCACC -AGCATAAAGACGCGCAAATCATTCAGCAGCGGTAAATTATTCATGATTCGTGTTTTATGTTTCACCAGTT -ACGGGGATTAATTCCTTTTCAGTCAATTATAGGATGGTGATGTTGTCAATTTTGATGGTCAGGAAGTGAG -AACCCAATGATGAAAACGATGCGTATTGCTGCGATCCCGGGAGACGGGATTGGCAAAGAAGTCCTTCCTG -AAGGGATTCGCGTGTTACAGGCTGCCGCTGAGCGCTGGGGCTTCGCCTTGAGTTTTGAGCAAATGGAGTG -GGCGAGCTGCGAGTATTACAGCCATCACGGTAAAATGATGCCGGACGACTGGCATGAGCAACTTAGCCGT -TTCGACGCCATCTATTTTGGTGCCGTCGGCTGGCCGGATACCGTTCCGGACCATATTTCGTTGTGGGGTT -CGCTGCTGAAATTTCGTCGTGAATTCGACCAGTACGTCAACCTGCGCCCGGTTCGTCTCTTTCCTGGCGT -TCCCTGCCCGCTGGCGGGAAAACAGCCTGGCGACATCGATTTTTACGTGGTCAGGGAAAACACCGAAGGC -GAATATTCCTCGCTCGGCGGTAGAGTGAATGAAGGTACAGAGCATGAAGTCGTCATTCAGGAATCGGTAT -TTACCCGCCGTGGTGTCGATCGCATTTTGCGTTATGCCTTCGAACTTGCGCAAAGCCGTCCACGTAAGAC -ACTAACTTCTGCCACTAAATCGAACGGTTTAGCCATCAGCATGCCGTACTGGGATGAGCGAGTGGAAGCA -ATGGCCGAGAATTACCCGGAGATCCGCTGGGACAAGCAGCATATTGATATTCTCTGCGCGCGTTTTGTGA -TGCAGCCGGAACGATTCGATGTGGTGGTGGCGTCCAATTTGTTTGGCGATATCCTTTCCGATCTTGGCCC -GGCCTGCACCGGCACCATTGGCATTGCCCCATCCGCCAACCTGAATCCGGAACGCACTTTCCCGTCGCTC -TTCGAGCCTGTCCACGGTTCCGCGCCGGATATCTACGGGAAAAATATTGCTAACCCTATCGCCACGATTT -GGGCCGGGGCAATGATGCTCGATTTTCTCGGCAATGGCGATGAGCGTTTCCAGCAAGCGCATAACGGTAT -TCTGGCAGCAATTGAAGAAGTGATTGCTCACGGGCCGAAAACACCTGATATGAAAGGCAATGCCACCACG -CCACAGGTTGCCGACGCGATTTGCAAAATTATTTTGCGTTAAGGTCAAACCAGTTTATTTGAACCGCGTC -ACTGACGCGGTTTTTTTATTCGTTCTTTGCAGTAAATAACCTGCGTCATTTCACCTTTTATTGTTTCCGT -TTCGTGTTTTATGGCTTTCCGTATTCTTAATTGTTTAATTTATGTAACATGCAAATTTTGTTACGCGTAC -GTTAGGTTCCGCCGTACAGGTATTGGTTTTGCTGGCAATGGGACTGGTGATTTATTTAGCCACCAGTAAA -TACGGCAATATTCGTCTTGGCGAAGGAAAACCGGAATACAGCACGCTCTCCTGGCTGTTTATGTTTATTT -GTGCCGGTTTAGGTTCTTCTACGCTTTATTGGGGGGTTGCTGAATGGGCCTATTATTATCAAACACCTGG -ATTAAATATCGCACCGCGTTCACAACAGGCACTCGAATTTAGCGTTCCCTACTCTTTCTTCCACTGGGGC -ATCAGCGCCTGGGCAACTTATACGCTGGCCTCATTAATCATGGCTTATCACTTTCATGTGCGGAAAAACA -AAGGTCTGAGCCTTTCCGGCATTATTGCTGCTATTACCGGCGTTCGCCCGCAAGGCCCATGGGGAAAACT -GGTCGATTTGATGTTCCTGATCGCCACTGTCGGCGCACTGACCATTTCCCTTGTTGTTACCGCAGCAACC -TTTACCCGTGGGCTTTCCGCGCTGACCGGTTTACCCGATAACTTCACCGTGCAGGCATTTGTGATCCTGC -TTTCCGGCGGCATTTTTTGCCTAAGCTCGTGGATTGGTATCAACAACGGTTTGCAACGTCTGAGCAAAAT -GGTTGGCTGGGGCGCGTTCCTGCTGCCATTACTGGTGCTGATTGTCGGCCCAACCGAATTTATTACCAAC -AGCATCATCAATGCCATCGGCCTGACCACGCAAAACTTCCTGCAAATGAGCTTATTCACCGATCCGCTTG -GCGATGGTTCATTTACCCGCAACTGGACCGTTTTCTACTGGCTGTGGTGGATCTCATACACCCCTGGCGT -AGCAATGTTTGTCACCCGCGTTTCCCGCGGTCGTAAGATTAAAGAAGTTATCTGGGGACTGATCCTCGGC -AGCACCGTCGGTTGCTGGTTCTTCTTTGGCGTAATGGAAAGCTATGCCATTCATCAGTTTATCAATGGCG -TAATCAACGTCCCACAGGTGCTGGAAACACTGGGCGGCGAAACAGCTGTACAGCAAGTTCTGATGTCGTT -GCCAGCCGGTAAATTGTTCCTCGCCGCATACCTGGGCGTGATGATTATTTTCCTTGCCTCGCATATGGAT -GCAGTGGCCTACACCATGGCGGCGACCAGTACGCGTAATCTCCAGGAAGGTGACGATCCTGACCGTGGGC -TGCGTCTTTTCTGGTGCGTGGTGATCACTCTGATCCCGCTTTCCATCTTGTTTACCGGTGCTTCGCTGGA -AACGATGAAAACCACCGTCGTGCTCACAGCCCTTCCCTTCCTCGTCATTTTACTGGTGAAAGTCGGCGGG -TTTATTCGCTGGCTGAAACAGGATTACGCCGACATTCCGGCTCATCAAGTTGAACATTATCTCCCGCAGA -CACCGGTTGAAGCCCTGGAAAAAACGCCAGTGCTCCCTGCGGGAACCGTATTCAAAGGCGACAACTGAGC -GCCATCATCCTAACGATAAAGGTATCCCTATGAGCAATCTGAGCCCTGACTTTGTACTACCCGAAAATTT -TTGCGCTAACCCGCAAGAGGCGTGGACCATTCCTGCCCGTTTTTATACCGATCAGAACGCGTTTGAACAC -GAAAAAGAGAACGTCTTCGCCAAAAGCTGGATTTGCGTCGCTCACAGCAGCGAACTGGCGAATGCCAATG -ATTATGTGACGCGTGAGATCATTGGCGAAAGCATCGTGCTGGTACGCGGTCGTGATAAGGTTTTGCGCGC -GTTCTATAACGTGTGTCCGCACCGTGGTCATCAGTTGTTGAGCGGTGAAGGAAAAGCAAAAAATGTGATT -ACCTGCCCGTATCACGCATGGGCATTCAAACTCGATGGCAACCTGGCCCATGCACGTAACTGCGAAAACG -TCGCCAATTTCGATAGCGACAAAGCGCAACTGGTTCCGGTGCGTCTGGAAGAATATGCCGGATTCGTCTT -CATCAACATGGACCCCAACGCCACCAGCGTAGAAGATCAATTACCCGGCCTGGGCGCGAAAGTGCTGGAA -GCCTGCCCGGAAGTCCACGATCTGAAACTGGCGGCCCGCTTTACCACCCGCACGCCTGCCAACTGGAAGA -ACATTGTCGATAACTATCTCGAGTGCTATCACTGTGGTCCGGCGCATCCAGGTTTCTCCGACTCCGTACA -GGTTGATCGTTACTGGCACACCATGCACGGTAACTGGACGCTGCAATACGGTTTCGCCAAACCGTCCGAA -CAGTCGTTTAAATTTGAAGAGGGTACGGATGCGGCATTCCACGGTTTCTGGCTGTGGCCGTGCACGATGC -TGAACGTCACCCCGATCAAAGGGATGATGACGGTCATTTATGAATTCCCGGTGGATTCTGAAACTACCCT -GCAAAACTACGATATTTACTTCACCAATGAAGAGTTAACCGACGAGCAAAAATCGCTGATTGAGTGGTAT -CGCGATGTGTTCCGTCCGGAAGATTTACGTCTGGTTGAAAGCGTACAGAAAGGGCTGAAATCGCGTGGCT -ATCGTGGTCAGGGGCGCATCATGGCCGACAGTAGCGGTAGTGGCATTTCCGAACATGGTATCGCCCATTT -CCATAATCTGCTGGCGCAGGTGTTTAAGGACTAATGACATCGGCGGCGGTATTTTCCGCCGCTGGGCTGA -TTTTTGATGGAGTACAGCAATGTCAGACTATCAAATGTTTGAAGTACAGGTGAGCCAGGTTGAACCCCTT -ACCGAACAGGTGAAACGCTTCACGCTGGTGGCAACCGATGGCAAACCATTACCTGCGTTTACCGGAGGAA -GTCACGTCATTGTGCAGATGAGCGATGGTGATAACCAGTACAGCAATGCGTATTCACTACTGAGTTCGCC -GCATGACACCTCTTGTTATCAGATTGCCGTTCGGCTGGAGGAAAACTCGCGCGGCGGTTCCCGCTTTTTG -CATCAGCAGGTAAAAGTGGGCGATCGGTTAACGATTTCAACGCCTAATAACCTGTTTGCGCTAATTCCCT -CAGCCAGAAAGCATCTGTTTATCGCGGGCGGTATTGGTATCACCCCTTTCCTGTCGCACATGGCAGAGCT -GCAACACAGCGACGTCGACTGGCAGCTACATTACTGCTCGCGAAATCCAGAAAGTTGCGCATTTCGTGAT -GAGCTAGTCCAGCATCCGCAGGCTGAGAAAGTCCATTTGCATCATTCATCAACCGGAACACGACTGGAAT -TAGCGCGATTATTGGCGGATATCGAACCTGGCACACACGTTTATACCTGTGGCCCCGAGGCGCTAATTGA -AGCGGTAAGAAGTGAAGCTGCGCGTCTGGACATCGCCGCCGATACGCTGCACTTTGAGCAATTTGCTATC -GAAGACAAAACCGGCGATGCATTTACCCTGGTGCTTGCCCGTTCCGGAAAAGAGTTTGTGGTGCCGGAAG -AGATGACTATTTTGCAGGTTATTGAAAATAATAAAGCCGCGAAAGTGGAATGTTTATGTCGTGAAGGGGT -ATGCGGAACCTGCGAAACAGCAATACTGGAAGGTGAAGCTGACCATCGGGATCAATATTTTAGCGATGAA -GAGCGTGCCAGCCAGCAAAGTATGTTGATCTGTTGTTCGCGTGCGAAGGGTAAACGCCTGGTGTTGGATT -TGTAGTTTGCCGAAGCCGGATGTGGCGCTGAGCGCGCCCAGTCCGGCTTCGGAAGATTTTACTGCGGATA -TTCCTGCAATAAATTGTGTAATGCTTCCGCCATCAGCTCACCACGCCAGCCGGAAATCAGCTCCGGCAAA -TTGTTCTGCGGTTTCAGTTTCCAGTGCCAGTTCAGCAGTTGGTTGATTTGCCGACGCGATGCCAGCAATT -CGGCGCTGATCTTATGCGTTTCGCTCACGTCAGTAATCAGCGACTTAATCGCTTTAAACGCTTTACGATA -ACCCGGCATGTCCATCAGGTTAAGCATCGGCTGCGGTAAGGCATCTTCCGGCAATGTCTGCGCTTTTTCC -ACCAGCGCTAGCAGCGTTTTACCGTGAAAGCGGATTTCGCTACCGGATAAACCCAGGCTGTCCAGTTCGC -CTAAACTTCCCGGCATATAACGCGCTACCGACCACAAATGCTCTTCACGCACGACAAAGTTCACCGCCAG -ATCGCGCTCTCGCGCCTTGCGCAGTCGCCAGTCGGCTAACAGTTGCAGACAGGCCAGTTGGCGTGTGCGT -AATTGCCAGGCATTGGTGATATCACGCCAGGCATCTTCCGGCGCAACGACTTCCTGACGACGCATTTGCA -TCAGGCGGCATTCATCCAGCGCCGCAGGTAGCCAGCCGGAGGCCTCCGTTTCTACCATAAGCTTGGCGGT -GATCGGTAACAGATACCAGACATCCGCCGCTGCGTATTCACACTGACGTTCGGTCAGCGGTCTGGCCAGC -CAGTCGGTGCGCGATTCACTCTTGTCCAGCGTAACGCCGGAATACTCTTCCACCATGGAAGCGAAACCCC -ATGACATCGGGCGTCCGCAGAAGGCAGCAAGGATTTGCGTGTCAATCAAGGGTTGTGGTAATTCGCCAAA -GACATTGAGGAACACTTCCAGATCTTCACTGCCTGCATGGAGAAATTTTGTGATGGACGGATCGCGCAGG -ATCGCTTTCAGCGGTGACCAGTCGGTGATCCCGAGTGGATCGATTAGCGCCAGATGCTCGCCATCGAAAA -GTTGAATCAACCCCAGCTGCGGGTAATAAGTGCGCGTACGAACAAATTCAGTATCCAGGGCTATCGCCGG -AAAGGCACGGACGGCTTCACACAAAGAAGCCAGCGCATCGTCCGTGGTAATCATTTGGTAATTCAAATTG -TTTTCTCTTTAGTGGGCGTCAAAAAAAACGCCGGATTAACCGGCGTCTGACGACTGACTTAACGCTCAGG -CTTTATTGTCCACTTTGCCGCGCGCTTCGTCACGTAATTCTCGTCGCAAAATTTTTCCGACGTTAGATTT -CGGTAACTCATCACGAAACTCCACCAGCTTCGGTACTTTGTATCCCGTGAGCTGACGGCGGCAAAAAGTC -ACCAGTGACTCTTCGGTAAGCGATGGATCTTTTTTCACTACGAAGATTTTCACCGCTTCACCACTGGAGC -CGGAAGGTACGCCAACAGCCGCGACTTCCTGTACGCCAGGATGCTGCATGACGACATCTTCAATCTCGTT -GGGATAGACGTTAAAACCGGAAACCAGAATCATGTCTTTTTTACGATCGACAATGCGCAGGAATCCTTCT -TCATCCATTACCGCGATGTCGCCGGTGTGTAACCAGCCATTTTTGATGATTTCATCGGTAGCATCGGGAC -GCTGCCAGTAACCCAGCATCACCTGCGGTCCTTTGACACAAAGCTCACCCGGTTGACCTGGTGGTACTTC -ATTATCATCATCATCCACCAGTTTGGCTTCCGTCGACGGCACCGGCAAACCGATGCTACCACTATGATAA -TCAATATCATATGGGTTAACGCTGACCAGCGGCGCACACTCGGTAAGGCCATAGCCTTCCAGCAGATACT -GTCCGGTCAGTTTCACCCAACGCTCTGCCACCACTTGCTGCACTGGCATCCCACCGCCTGCGGAAAGATG -CAGACTGGAGAAATCCAGCTGCTGGAACTCTTTATTGTTCAGCAACGCATTGAACAAGGTGTTAACGCCC -GTGATAGCGGTAAACGGATATTTCGCTAACTCTTTTACCAACCCTGGAATATCGCGCGGGTTAGTGATAA -GCAGGTTCTGCCCACCCAGTTCGATAAACAGCAGGCAGTTAATGGTCAGGGCAAAAATGTGATACAGCGG -CAGCGCCGTCACCACCAGCTCTTTGCCCGGATGCAACAGCGGACCATAGGTCGCGTTAACCTGTTCCAGG -TTCGCCAGCATATTGCGGTGAGTCAGCATCGCGCCTTTCGCCACACCAGTGGTGCCGCCGGTGTATTGCA -GAAAAGCTAAATCTTCCGGCACCAGTTCGGGTTTGACGTACTGCATCCGGTAGCCGTTATGCAGTGCGCT -ACGAAATGAAATGGCATCTGGCAGATGGTATTTCGGCACCAAACGCTTGATGTATTTAACAACGAAATTG -ACTACCGTGCCTTTTGCCGTAGATAGCTGATCGCCCATACGGGTCAGAATTACGTGCTGAACGGCGGTTT -TATCAACCACTTTTTCCAGTGTGTGAGCAAAGTTAGACACGATAACAATCGCCGATGCGCCGCTATCGTT -AAGCTGATGCTCAAGCTCACGCGGGGTATACAACGGGTTAACGTTTACGACGATCATCCCGGCACGCAAA -ATGCCAAACAGCGCCACCGGATATTGCAATAAATTAGGCATCATCAACGCAACGCGATCGCCTTTCTTCA -GCCCCAACCCTTGTTGCAAATAAGCGGCAAACGCGCGACTGCGTTCTTCCAGCTTGCGGAAGGTCATTAC -CTCCCCCATATTCACAAACGCAGGTTGATCGGCGTAGCGCGCGACCGACTGCTCAAACATATCTACCAGA -GATTGATAACGGTCAGGGTTGATCTCCGTCGGAACGTCCGCGGGATAACGGTTAAGCCAAACCTTCTTCA -ATTCTTCACCTCTAAAATGCGTGTTCGTCGTCATCGCAACCCCAAATGATATACATGCCGTTAACATAAT -ATTAACTCATCATACCAGCTTGATAATTACCCAACGAAAAGGTTGCGAAGCGCGTCACTATTTATTTTTA -TCTTTACCGTAAGAATGCAGAAACAGCGGACCAGCCGCTGTTTCTTTTTCTTTAAAAACAAGCAATTATT -CAGTTACAACTGTTTGTACTCTCGCGGGGCCGGGATTATACCAGCCCCATCCGCCGTAGCCATAGGGCCA -GCCACGACCGCCATAAAACCATGGATCAATCGGCTGAGGCGGCATAATCACCTGCTGGGTTAAATGCCAA -CGTTTGTAACCCGTTACTTGCATCACCATAAATTTATAGGGCGTATTGCCGATTTTGCCGTCAACCGCAC -CAGTGATTGGCCCGACTACCGTAACCAGTTGTCCACGGAAATCCACCGGGTCCAGAAAACCGTTCACATC -GGCATAAATGCGACCGCGAGAAGGTTCTCCCAGCGTCGGTCTGGCTCCGCTGTCCAGCGGTACGGTAGCA -ATTTCCAGGCGAGTTTTCCCTTGCTGGTTTTGTACCGCAACCACTTTGCCACCAAAGCGTGCCTCCTGAC -CAACGTACAGCTGCGGCGCACTCATCACCCGAACTAAATCTTGTTGCGGCGTGGGACTGCTGCCTTTAAT -GGCGTCCGGCACAGTGACACAACCGCTCAGCATTAGCGCAAACGTACCTGCCAGTATGCCTTTGATAACA -TTCTTTTGAACCGCCATGGTGCGACTCCTTTTTTTCTCAGGGCATACTCTTAAGATTCATTCTTTGCCCG -GAAGTTTCTTCCATGCGACGTTGTTACGTAAATAAACCGGTTCGGCATGTTCCACCGCCACCGTTTTACC -CTCAGCAAACATCTGACACGCAATCGGCAGCATATCTTCAGCAGCAGGCAGTAACACTTCGCCATCGCGC -AAAACCAGCCCGCTCTCTTTACCGAGATCCGGCCAAGCTTGCCAGCCCGTCCCTACCGTCACCCATTCGC -CGGAAAGCTGTTGCATTCGTTCATGGACGATTTCGGGTTTGAGTACGGCTTCGGTTTCTTCACCGTGCCA -GATACCGTTTTCATCACGCTGATATTCGGCCCAGTAAACTTCGCCCATTCGCGCGTCAATGGCTGCCAGC -ACGCGGGTTGCGCCGTTTTTGCGCCACGCCCCTTGCGCCATCGTCATTAGCGTGGAGACGCCAATCATCG -GTAATTCCGCGCCAAGCGCCAGCCCTTGCGCGATGCCAATACCAATGCGCACGCCAGTAAAGCTACCGGG -GCCGCGCCCGTAAGCCAGAGCGTTAATATCAGTCAGGGAAGTTCCGCTGGTGGTCAGGATATCCTGCACC -ATCGGTAAGATTCGTTGAGTATGTTCACGAGGGCAAAGCTCAAAATGAGCGTTGACAGTACCGTCGTTCC -ACAGGGCGACAGAGCAGGCCTCTGTCGCGGTATCGATAGCCAGAATTCGCATGGGTCTTCGTGCTTAGAT -CAATAAAAAGGCGCGCATCATACCATACTCCGTAACAAATTACCTGGAGGATGGTATCGCAAGGAAACGA -ACCGCACGGGCAATGTCACGGGTGCGTGGCGCGGGCGGCAGACTGGCGAGAAACGTCGCGCCGTAAGGAC -GCATCACCAGCCGATTGTCACAAATCACCAGCACGCCACGATCGTCGGCGTCGCGAATCAGTCGCCCTAC -CCCCTGTTTGAGAGTAATGACGGCATCTGGTAGTTGCACTTCATCGAACGGGTCGCCACCGCGCAAACGA -CAATCTTCCATGCGCGCTTTTAACAGTGGATCATCCGGCGAGGTAAACGGCAATTTGTCGATAATTACCA -ATGACAATGTATCGCCACGCACGTCCACCCCTTCCCAGAAACTGCTGGTTGCCACAAGAAGCGCATTACC -GGCGCTGACAAATTGCTGCAACAGTTGCCCTTTGCTGGTTTCCCCCTGCAACAATACAGGAAGCGTCATG -GTAGCGCGGAACTGCTCGGCCAGATCGCGCATCATGGCGTGCGAGGTACAAAGCATAAAACAACGACCGT -TGTTAGCTTCGATGATCGGTCGCAGCATTGCCGCTAACTGGCGAGCAGAACCTGGCTGGTTGGTTTGCGG -CAGATTGCGCAGCACACAGAGTAACGCCTGGCGGCTGTAATCAAATGGGCTGGGCAACAGCAACGACTCG -GCCTGTTCGATGCCAAGCCGCGAGGTGAAATGATGCAGATCGTCGTTCACCGACAGCGTTGCTGAGGTGA -AGATCCAGCTACCGGGTTTTTGCGCCATTAACTCTTTGAATTTATCCGCCACGCTGAGCGGCGTGAGAGC -CAGAGTAAAATGGCGCGAAGTGCATTCGTACCAGTAGCTGTAGCCCGGCTGATTGATCTCTTTTAGCCGC -TTCAGCCGTGTGCGATACAACGTGGCGCGCTCAAATGCCGCATCCAGCAAGGCGGAACGCCCCAGTGACA -GTTTCGCCACGTCATAACAAAGTTCCAGGGTGTCATCGAGCAGTAAAAATGCCCGCTGAATTTGCGGATT -AGCTAACAGCTCACGCAGGTTACCGCGATAACCTGGCTCACCGAGTTGCAGACGAAAATCCTGCGCACTC -TGGGCAAGACGATCAGCGCACTTTTGTAACTGCTGGGTGTCTTTTAATTCGGTGCGGTAGGCGATGGTGA -TGTCTTTTGCCAGGTCGAGCAGTTGTCGACTGGAGAGTGACTGACCAAAATACTGGCTGGCAATGTCCGG -TAGCTGGTGGGCTTCGTCGAAGATCATGACGTCCGCTTCCGGGATCAGTTCGCCAAATCCACTCTCTTTA -ACCACCATATCCGCCAGAAAGAGATGATGGTTTACCACCACCACATCGGCGTCCATCGCTTTTTTACGTG -CTTTGACCACAAAGCAATCTTTATACATCGGGCAGTCGCTGCCAAGACAGTTGTCGTTGGTGCTGGTGAC -CAGCGGCCACGCCTGTGAATCTTCCGCCACGCTGACGCAGGTGCTGATATCACCATCGACTGTTTGATTA -GACCAGGAGCGCAGCAGGATCACATCGCTTAAGATTTGTACCGGCAGATCGCCCCCCGCCAGCGCCTGCT -GTTCGAGACGTTCGAGGCAGAGGTAGTTTGAGCGCCCTTTCAGCAGCGCCACGTTGCCCGTATATTTCAA -TGCCTTTGAGACTGTTGGCAAATCGCGGCTGTAGAGCTGATCCTGCAACGCTTTTGAGCCGGTCGAGATA -ATGACTTTCTTTTTCGCCCGCAGCGCAGGAGCCAGGTAAGCGTAGGTTTTGCCCGTACCGGTTCCTGCTT -CCACCACCAGCGGCTGGCCTTTTTCTATCGCCTGGGTGACGGCTACCGCCATCTGTCGCTGTGGTTCTCG -CGGCTTAAAGCCTGGTATCGCTTTCGCCAGCTGACCGTCTGGTGCAAAATCGTCCGTCACACTACCCCCT -GTTGATTTGAACAGGGATTATGTCAGGATGAGGGCGCTTTCGCCAGTTGAAGTGGTGACGGCGACCTCAC -ATTGTGGCAGTCTTTGCAGCACGAAAATGGAAGTATAATGAGGACAAAATGATGACTATCGTTCGTATCG -ATGCTGAAGCCCGCTGGTCTGATGTAGTAATCCACAACAACACGCTCTACTACACTGGTGTACCGGAAAA -CCTCGACGCCGATGCCTTTGAGCAAACCGCCAACACGCTGGCACAGATTGACGCCGTGCTGGAAAAACAG -GGCAGCAATAAATCGAGCATTCTGGATGCCACCATTTTCCTGGCCGATAAAAACGACTTCGCGGCGATGA -ATAAAGCGTGGGATGCTTGGGTTGTCGCGGGTCATGCGCCGGTGCGCTGCACGGTACAAGCGGGTTTGAT -GAACCCGAAGTATAAAGTTGAAATTAAGATTGTGGCTGCGGTGTAAGCTTTATCGAAGCAAAATAAGTCA -GACGATAATTTATCGATAATACTGGTCGGTTTTACATAAATCGACCAGAGAATAAGATATTACTGTTGAT -GCTTCTGCTAATTCATTATTTATATTTATAATTTCAATTTTATCTATAAAACTAACTATATAAATAAACA -TAAACATGCCGTTGTGTTCGCCCTTTGATTAGCAACTCTGGTTTTCTTTCTTAGCTGAACAATCTGGTTA -TAGCGTGCGGACTGACCGTTAAATTTCTCCATCTTACTGGATAACACACCATGAGCTGCTACCTTTAAAA -CACCTGAATGTCAACAGGTTAACTCGTGCCATATCGTTATAATCCCTTTGATATTAGATGCAAATTAAGG -TCATATATAGCCTTATCGATAACATGGTTAATTTTAAGGATAAGAATATGCCTGCTGTAATAGATAAAGC -CCTGGATTTCATTGGTGCCATGGATGTATCAGCGCCAACACCAAGTTCGATGAATGAAAGCACGGCGAAG -GGAATCTTTAAATATTTAAAAGAACTGGGAGTACCCGCGAGTGCCGCTGATATTACGGCGCGAGCTGACC -AGGAAGGCTGGAACCCTGGGTTCACGGAAAAAATGGTTGGATGGGCAAAAAAAATGGAGACAGGTGAACG -TTCTGTGATTAAAAATCCTGAATACTTTTCAACATATATGCAGGAAGAACTAAAAGCACTGGTCTGAGTT -AAATTTATATCAGCATAAATGGGTCAGGACGCTTTTAATCACATATAAAAAGCGTCCTTTTTCTCACAAT -CAAATGATCATCGGCTTCTATAACGAAATCGATACGGATTAGTGTGTTACTCGTCTTCATCCTCAAAACG -CGCCACGATTCGCTCGCCGGAGTGGTTGGCACGCAGCTCTTCTGCCACCAGCGCGATTGCCTGGCCGCTG -CTCATCCCTTGTGCCATCAGTTCCTGGATCCGCTCGACAGCTTTTTGCTGCTGTTCATGGGTGAGTGAAG -GTAAACCTGCAAACATTGTTAACTCCTGCTAAATTGTTGGCGCTAATTATTTCATGCTACCCGGCACATA -GCCAGTAGAGTCAGGACTGATGAAGACGTTATCTCCCGCTGTGATTACTTTACCCTGGCGTCAGGACGCC -GCTGAATTTTATTTCTCCCGCTTAAGCCACCTGCCGTGGGCGATGCTTTTACACTCCGGCTATGCCGATC -ATCCGTATAGCCGCTTTGATATTGTGGTCGCCGAGCCGATTTGCACTTTAACCACTTTCGGTAAAGAAAC -CGTTGTTAGTGAAAGCGAAAAACGCACAACGACCACTGATGACCCGCTACAGGTGCTCCAGCAGGTGCTG -GATCGCGCAGACATTCGCCCAACGCATAACGAAGATTTGCCATTTCAGGGCGGCGCACTGGGGTTGTTTG -GCTACGATCTGGGCCGCCGTTTTGAGTCACTGCCAGAAATTGCGGAACAAGATATCGTTCTGCCGGATAT -GGCAGTGGGTATCTACGATTGGGCGCTCATTGTCGACCACCAGCGTCATACAGTTTCTTTGCTGAGTCAT -AATGATGTCAATGCCCGTCGGGCCTGGCTGGAAAGCCAGCAATTCTCGCCGCAGGAAGATTTCACGCTCA -CTTCCGACTGGCAATCCAATATGACCCGCGAGCAGTACGGCGAAAAATTTCGCCAGGTACAGGAATATCT -GCACAGCGGTGATTGCTATCAGGTGAATCTCGCCCAACGTTTTCATGCGACCTATTCTGGCGATGAATGG -CAGGCATTCCTTCAGCTTAATCAGGCCAACCGCGCGCCATTTAGCGCTTTTTTACGTCTTGAACAGGGTG -CAATTTTAAGCCTTTCGCCAGAGCGGTTTATTCTTTGTGATAATAGTGAAATCCAGACCCGCCCGATTAA -AGGCACGCTACCACGCCTGCCCGATCCTCAGGAAGATAGCAAACAAGCAGTAAAACTGGCGAACTCAGCG -AAAGATCGTGCCGAAAATCTGATGATTGTCGATTTAATGCGTAATGATATCGGTCGTGTTGCCGTAGCAG -GTTCGGTAAAAGTACCAGAGCTGTTCGTGGTGGAACCCTTCCCTGCCGTGCATCATCTGGTCAGCACCAT -AACGGCGCAACTACCAGAACAGTTACACGCCAGCGATCTGCTGCGCGCAGCTTTTCCTGGTGGCTCAATA -ACCGGGGCTCCGAAAGTACGGGCTATGGAAATTATCGACGAACTGGAACCGCAGCGACGCAATGCCTGGT -GCGGCAGCATTGGCTATTTGAGCTTTTGCGGCAACATGGATACCAGTATTACTATCCGCACGCTGACTGC -CATTAACGGACAAATTTTCTGCTCTGCGGGCGGTGGAATTGTCGCCGATAGCCAGGAAGAAGCGGAATAT -CAGGAAACTTTTGATAAAGTTAATCGTATCCTGAAGCAACTGGAGAAGTAAGACGTGGAATACCGTAGCC -TGACGCTTGATGATTTTTTATCGCGCTTTCAACTTTTGCGCCCGCAAATTAACCGGGAAACCCTAAATCA -TCGTCAGGCTGCTGTGTTAATCCCCATCGTCCGTCGACCGCAACCGGGGTTGTTGCTGACTCAGCGTTCG -ATTCATCTGCGTAAACACGCTGGACAAGTGGCATTCCCTGGAGGTGCAGTCGATGACACGGACGCATCAG -CTATCGCCGCCGCGCTGCGCGAAGCTGAAGAAGAGGTCGCTATACCGCCTTCCGCCGTTGAAGTTATCGG -CGTGCTGCCGCCCGTCGATAGCGTCACTGGCTACCAGGTAACCCCAGTGGTCGGCATTATCCCGCCCGAT -CTGCCGTATCGCGCCAGTGAAGATGAAGTCTCGGCGGTGTTTGAAATGCCGCTCGCCCAGGCATTACATC -TGGGTCGTTATCACCCTTTAGATATCTACCGCCGTGGTGATTCACATCGGGTATGGCTGTCCTGGTACGA -ACAGTATTTTGTATGGGGAATGACCGCAGGCATAATTCGTGAGCTGGCGCTGCAAATTGGTGTGAAACCC -TGACTATACTTATCTTTACATCTACAAAACACTACTTGAGACAATCATCGCAATATTAGTTAAATCGCGG -TTTTTGATTAGTTTAATTCATGTGAATAGTTAAGCCAGTCGCCGCGTTCCCTCTTACACTATGCGCTGTT -ATTAGTTCGTTACTGGAAGTCCAGTCACCTTGTCAGGAGTATTATCGTGATTAGTCTATTCGACATGTTT -AAGGTGGGGATTGGTCCCTCATCTTCCCATACCGTAGGGCCTATGAAGGCAGGTAAACAGTTCGTCGATG -ATCTGGTCGAAAAAGGCTTACTGGATAGCGTTACTCGCGTTGCCGTGGACGTTTATGGTTCACTGTCGCT -GACGGGTAAAGGCCACCACACCGATATCGCCATTATTATGGGTCTTGCAGGTAACGAACCTGCCACCGTG -GATATCGACAGTATTCCCGGTTTTATTCGCGACGTAGAAGAGCGCGAACGTCTGCTGCTGGCACAGGGAC -GGCATGAAGTGGATTTCCCGCGCGACAACGGGATGCGTTTTCATAACGGCAACCTGCCGCTGCATGAAAA -CGGTATGCAAATCCACGCCTATAACGGCGATGAAGTCGTCTACAGCAAAACTTATTATTCCATCGGCGGC -GGTTTTATCGTCGATGAAGAACACTTTGGTCAGGATGCTGCCAACGAAGTAAGCGTGCCGTATCCGTTCA -AATCTGCCACCGAACTGCTCGCGTACTGTAATGAAACCGGCTATTCGCTGTCTGGTCTCGCTATGCAGAA -CGAACTGGCGCTGCACAGCAAGAAAGAGATCGACGAGTATTTCGCGCATGTCTGGCAAACCATGCAGGCA -TGTATCGATCGCGGGATGAACACCGAAGGTGTACTGCCAGGCCCGCTGCGCGTGCCACGTCGTGCGTCTG -CCCTGCGCCGGATGCTGGTTTCCAGCGATAAACTGTCTAACGATCCGATGAATGTCATTGACTGGGTAAA -CATGTTTGCGCTGGCAGTTAACGAAGAAAACGCCGCCGGTGGTCGTGTGGTAACTGCGCCAACCAACGGT -GCCTGCGGTATCGTTCCGGCAGTGCTGGCTTACTATGACCACTTTATTGAATCGGTCAGCCCGGACATCT -ATACCCGTTACTTTATGGCAGCGGGCGCGATTGGTGCATTGTATAAAATGAACGCCTCTATTTCCGGTGC -GGAAGTTGGTTGCCAGGGCGAAGTGGGTGTTGCCTGTTCAATGGCTGCTGCGGGTCTTGCAGAACTGCTG -GGCGGTAGCCCGGAACAGGTTTGCGTGGCGGCGGAAATTGGCATGGAACACAACCTTGGTTTAACCTGCG -ACCCGGTTGCAGGGCAGGTTCAGGTGCCGTGCATTGAGCGTAATGCCATTGCCTCTGTGAAGGCGATTAA -CGCCGCGCGGATGGCTCTGCGCCGCACCAGTGCACCGCGCGTCTCGCTGGATAAGGTCATCGAAACGATG -TACGAAACCGGTAAGGACATGAACGCCAAATACCGCGAAACCTCACGCGGTGGTCTGGCAATCAAAGTCC -AGTGTGACTAATACTTCTTACTCGCCCATCTGCAACGGATGGGCGAATTTATACCCGCTTTCTCGTCTGC -TGTAATATTCCCCACTACACTTCCACTGTTGCGTCAGGCGTTTGTCGCCATACGCTTACAGGGTGGCCCG -CATGCAAAAAGCACAACGGATCATTAAAACCTATCGTCGTAATCGAATGATTGTTTGTACGATTTGCGCA -CTCGTTACGCTCGCTTCGACCCTGAGCGTGCGATTTATTTCACAGCGTAACTTAAATCAACAACGGGTAG -TACAATTCGCCAATCACGCTGTAGAGGAATTAGATAAAGTACTGCTTCCCCTACAGGCAGGTAGCGAAGT -CTTGCTTCCGCTGATTGGTCTGCCCTGCTCTGTCGCCCATTTGCCATTACGTAAACAGGCGGCAAAACTC -CAAACTGTGCGATCCATTGGCCTGGTGCAAGACGGCACACTTTATTGCTCCAGCATTTTTGGTTATCGCA -ATGTGCCCGTCGTGGACATTCTGGCTGAACTTCCTGCACCGCAACCACTTTTACGCCTGACGATCGACCG -TGCCCTGATTAAAGGCAGTCCGGTTTTGATTCAATGGACGCCTGCAGCGGGCAGTAGCAATGCTGGGGTC -ATGGAGATGATTAACATCGACTTACTGACGGCAATGCTGCTTGAGCCACAACTGCCGCAAATCAGTAGCG -CCAGCCTGACGGTGGACAAACGGCATTTGCTCTATGGTAATGGGCTGGTAGATTCCCTTCCGCAACCTGA -AGACAATGAAAACTATCAGGTTTCTTCGCAACGCTTTCCTTTTACCATTAACGTTAATGGTCCGGGGGCT -ACGGCGCTGGCATGGCACTATCTTCCAACACAATTACCGCTGGCGGTGCTGCTAAGTTTACTGGTGGGCT -ACATCGCCTGGCTGGCGACCGCTTACCGAATGAGCTTTTCCCGCGAAATCAATCTGGGCCTGGCGCAACA -TGAGTTCGAATTGTTCTGTCAGCCTTTGCTTAATGCGCGCAGCCAGCAATGTATTGGTGTAGAGATTTTG -CTGCGCTGGAACAATCCGCGTCAGGGCTGGATTTCACCGGATGTGTTTATTCCTATCGCGGAAGAACATC -ATTTAATTGTGCCACTGACCCGCTATGTGATGGCAGAAACCATTCGTCAGCGCCATGTTTTCCCGATGAG -TAGTCAGTTTCATGTTGGCATTAACGTCGCACCCAGCCATTTTCGCCGTGGTGTGCTGATAAAAGATCTC -AATCAGTACTGGTTTAGCGCTCACCCGATTCAGCAACTGATCCTCGAAATCACCGAACGCGATGCCTTAC -TGGATGTTGATTATCGGATTGCCCGCGAGCTGCATCGTAAAAACGTCAAACTGGCGATTGATGACTTCGG -CACCGGCAACAGCTCGTTTTCCTGGCTTGAAACATTACGTCCTGACGTGCTGAAAATTGATAAGTCATTT -ACCGCAGCTATAGGTTCTGACGCGGTTAACTCGACGGTGACCGATATCATCATCGCGCTGGGGCAAAGAC -TGAATATTGAACTGGTGGCGGAGGGCGTGGAAACGCAAGAACAGGCGAAGTATTTGCGCCGTCATGGCGT -GCATATTTTGCAAGGGTATTTGTACGCACAGCCGATGCCGCTACGTGATTTTCCCAAATGGCTGGCGGGC -AGCCAACCGCCGCCCGCCCGGCATAATGGACATATCACGCCCATTATGCCGTTACGTTAACGCTTACTCA -TCTTCATCGTGCGCCGGTTGCTCTTTAACAATGCGAACCAGATCAACACGATAATCATTGGCTTCAATGA -TGGTGATATGCAGTGGCCCTACATCAATCACATCGCCCACACGGGGAATGTGACCATTTGCCGAGATCAC -GAGGCCCGCGACCGTCGCGATATCATCGTCATCGGCAAGGTGCTCAACATCAAGCGCCTGCTGCAAGGCA -TGCAAATCTGTACCGCCTTTTACCAGCCAGCCGTCACCATCAGTAATGATTTCCGGCGTTTCGTCAGCGT -CCGGGAATTCACCCGCAATGGCTTCCAGCACATCCAGCGGCGTGACCAGACCTTGTACCACACCAAACTC -GTTGGTCACGATAACAAAGCTCCCGCGAGCACGACGCAGCACGCCCAACAGGTTGATCGGATCGAGGGTT -TCCGGGACGATAATCGCCGGAGACGCCGAAGCAATCGCCGCCACATCAACGCCCTCTTCCAGCGCCACCA -GCAGTTCTTTAGCACGTACAATACCGATGATTTCATCCAGTTCACCGCGACATACCGGGAACAGACTGTG -CGGTGAAGAGAGCAGTTGCTCGCGGATTTCATCGACCCCGAGATTAGCGTCAACCCAGCTTATTTCACCG -CGCGGCGTCATGATCCCGCGCAGAGAACGCGACGCCAGCGTCAGTACGCCGTTAATCATGTAACGTTCTT -CTTCGGCAAATGCACCTTCCGGGATCGGCATCGGCATCGGGTTATCGGCATCGTGCTGAACATTGGCCTG -ACGTTTCCCGCCCATCAAACGCAGGATGGCATCGGCAGTACGCGCTCGCAGCGGCAAAGTCGACTGGTGG -CGAATAAAGTTGCGACGCGCAATCTGGTTAAACACTTCGATGATGATCGAGAAGCCAATCGCGGCATACA -GGTAACCTTTCGGAATGTGGAAACCGAAACCTTCTGCCACCAGACTCAGACCAATCATTAACAGGAAGCT -CAGACAGAGCACCACCACCGTGGGGTGCTGGTTAACGAATCGCGTCAGCGGTTTGGATGCCAGCAACATA -ACCGCCATCGCAATCACTACCGCCGCCATCATCACCGGCAGATGGTTAACCATCCCTACTGCAGTAATTA -CCGCATCCAACGAGAAGACGGCGTCAAGGATGACAATCTGTGTGACGACCACCCAGAAACTGGCGTAGCC -TTTACCGTGGCCGGAATCATGATCGCGGTTTTCCAGCCGTTCATGCAGTTCGGTTGTTGCTTTGAACAGC -AAGAATATCCCCCCGAACAACATAATCAGGTCGCGTCCGGAGAAGGAGAAATCCATGACGGTAAATAGCG -GTTTGGTCAGCGTGACCATCCATGAAATCAGCGACAGCAGCCCCAGACGCATAATCAGCGCCAGTGATAA -CCCCAGCAAACGCGCTTTATCGCGTTGTTTTGGCGGCAGTTTGTCAGCAAGAATGGCGATGAAGACCAGG -TTATCGATACCCAGCACAATTTCGAGAACAACAAGCGTGAGTAGCCCCGCCCAAATTGAGGGGTCCATTA -AGAATTCCATGACAAGCTCCTGCTTAAGGAATAGCTATTCGACGCCAGAAATAATGCAGGCGTAACGACA -AAATGCAAACGAAAGGTGCGGCATAGAGTGCCAGAAAGGCAGGCGTTAAAAGGCCTGATGCTGAAATGAC -GTCGGTGACGATCCATACTGCGGGCTACTGCCCTATACTCCATGGTTGTTAAACGGGAGTTAAACATATC -AGAGACGCCTCTGATTTGGCAAAGATTTACCTTCCTTTGCAAACGAATGTGACAAGGATATTTTACCTTT -CGAAATTTCTGCTAATCGAAAGTTAAATTACGGATCTTCATCACATAAAATAATTTTTTCGATATCTAAA -ATAAATCGCGAAACGCAGGGGTTTTTGGTTGTAGCCCTTATCTGAATCGATTCGATTGTGGACGACGATT -CAAAAATACATCTGGCACGTTGAGGTGTTAACGATAATAAAGGAGGTAGCAAGTGACCATTGCTATTGTT -ATAGGCACACATGGTTGGGCTGCAGAGCAGTTGCTTAAAACGGCAGAAATGCTGTTAGGCGAGCAGGAAA -ACGTCGGCTGGATCGATTTCGTTCCAGGTGAAAATGCCGAAACGCTGATTGAAAAGTACAACGCTCAGTT -GGCAAAACTCGACACCACTAAAGGCGTGCTGTTTCTCGTTGATACATGGGGAGGCAGCCCGTTCAATGCT -GCCAGCCGCATTGTCGTCGACAAAGAGCATTATGAAGTCATTGCAGGCGTTAACATTCCAATGCTCGTGG -AAACGTTAATGGCCCGTGATGATGACCCAAGCTTTGATGAACTGGTGGCACTGGCAGTAGAAACAGGCCG -TGAAGGCGTGAAAGCACTGAAAGCCAAACCGGTTGAAAAAGCCGCGCCAGCACCCGCTGCCGCAGCACCA -AAAGCGGCTCCAACTCCGGCAAAACCAATGGGGCCAAACGACTACATGGTTATTGGCCTTGCGCGTATCG -ACGACCGTCTGATTCACGGTCAGGTCGCCACCCGCTGGACCAAAGAAACCAATGTCTCCCGTATTATTGT -TGTTAGTGATGAAGTGGCTGCGGATACCGTTCGTAAGACACTGCTCACCCAGGTTGCACCTCCGGGCGTA -ACAGCACACGTAGTTGATGTTGCCAAAATGATTCGCGTCTACAACAACCCGAAATATGCTGGCGAACGCG -TAATGCTGTTATTTACCAACCCAACAGATGTAGAGCGTCTCGTTGAAGGCGGCGTGAAAATCACCTCTGT -TAACGTCGGTGGTATGGCATTCCGTCAGGGTAAAACCCAGGTGAATAACGCGGTTTCGGTTGATGAAAAA -GATATCGAGGCGTTCAAGAAACTGAATGCGCGCGGTATTGAGCTGGAAGTCCGTAAGGTTTCCACCGATC -CGAAACTGAAAATGATGGATCTGATCAGCAAAATCGATAAGTAACGTATTGTGTTGATTATCACTCAGTT -TTCACACTTAAGTCTTACGTAAACAGGAGAAGTACAATGGAGATTACCACTCTTCAAATTGTGCTGGTAT -TTATCGTAGCCTGTATCGCAGGTATGGGATCAATCCTCGATGAATTTCAGTTTCACCGTCCGCTAATCGC -GTGTACCCTGGTGGGTATCGTTCTTGGGGATATGAAAACCGGTATTATTATCGGTGGTACGCTGGAAATG -ATCGCGCTGGGCTGGATGAACATCGGTGCTGCAGTTGCGCCTGACGCCGCTCTGGCTTCTATCATTTCTA -CCATTCTGGTTATCGCAGGTCATCAGAGCATTGGTGCAGGTATCGCACTGGCAATCCCTCTGGCCGCTGC -GGGCCAGGTACTGACCATCATCGTTCGTACTATTACCGTTGCTTTCCAGCACGCTGCGGATAAGGCTGCT -GATAACGGCAACCTGACAGCGATTTCCTGGATCCACGTTTCTTCTCTGTTCCTGCAAGCAATGCGTGTGG -CTATTCCGGCCGTCATCGTTGCGCTGTCTGTTGGTACCAGCGAAGTACAGAACATGCTGAATGCGATTCC -GGAAGTGGTGACCAATGGTCTGAATATCGCCGGTGGCATGATCGTGGTGGTTGGTTATGCGATGGTTATC -AACATGATGCGTGCTGGCTACCTGATGCCGTTCTTCTACCTCGGCTTCGTAACCGCAGCATTCACCAACT -TTAACCTGGTTGCTCTGGGTGTGATTGGTACTGTTATGGCAGTGCTCTACATCCAACTTAGCCCGAAATA -CAACCGCGTAGCCGGTGCGCCTGCTCAGGCAGCTGGTAACAACGATCTCGATAACGAACTGGACTAACAG -GTGAGCGAAATGGTTGATACAACTCAAACTACCACCGAGAAAAAACTCACTCAAAGTGATATTCGTGGCG -TCTTCCTGCGTTCTAACCTCTTCCAGGGTTCATGGAACTTCGAACGTATGCAGGCACTGGGTTTCTGCTT -CTCTATGGTACCGGCAATTCGTCGCCTCTACCCTGAGAACAACGAAGCTCGTAAACAAGCTATTCGCCGT -CACCTGGAGTTCTTTAACACCCAGCCGTTCGTGGCTGCGCCGATTCTCGGCGTAACCCTGGCGCTGGAAG -AACAGCGTGCTAATGGCGCAGAGATCGACGACGGTGCTATCAACGGTATCAAAGTCGGTTTGATGGGGCC -ACTGGCTGGTGTAGGCGACCCGATCTTCTGGGGAACCGTACGTCCGGTATTTGCAGCACTGGGTGCCGGT -ATCGCGATGAGCGGCAGCCTGTTAGGTCCGCTGCTGTTCTTCATCCTGTTTAACCTGGTGCGTCTGGCAA -CCCGTTACTACGGCGTAGCGTATGGTTACTCCAAAGGTATCGATATCGTTAAAGATATGGGTGGTGGCTT -CCTGCAAAAACTGACGGAAGGGGCGTCTATCCTCGGCCTGTTTGTCATGGGGGCATTGGTTAACAAGTGG -ACACATGTCAACATCCCGCTGGTTGTCTCTCGCATTACTGACCAGACGGGCAAAGAACACGTTACTACTG -TCCAGACTATTCTGGACCAGTTAATGCCAGGCCTGGTACCACTGCTGCTGACCTTTGCTTGTATGTGGCT -ACTGCGCAAAAAAGTTAACCCGCTGTGGATCATCGTTGGCTTCTTCGTCATCGGTATCGCTGGTTACGCT -TGCGGCCTGCTGGGACTGTAAGACTGTTGTACACTACCGGGGCCTTTTGGCCCCGTTTTTTTATCTGGAG -GATTAATGACAATCACGGACCTGGTACTGATTCTTTTCATCGCCGCACTCCTGGCCTTCGCGATCTACGA -TCAGTTCATCATGCCCCGCCGTAACGGCCCCACCCTGCTGGCAATTCCTTTGCTCCGGCGTGGTCGCATC -GATAGCGTTATCTTCGTCGGATTGATTGTCATTCTTATCTATAACAACGTCACGAATCATGGTGCGTTAA -TAACGACATGGTTATTAAGCGCACTGGCTCTGATGGGTTTTTATATATTCTGGATCCGCGTTCCGAAGAT -CATCTTTAAACAAAAAGGTTTTTTCTTCGCCAATGTCTGGATTGAATATAGCCGAATCAAAGCGATGAAC -TTGTCGGAAGATGGCGTGTTGGTGATGCAATTAGAACAGCGTCGGCTGTTAATCCGCGTTCGAAATATCG -ACGATCTGGAAAAAATTTATAAGCTTCTCGTTTCAACTCAATAAGTTATGAATTTAGCCAAAGCTATGTT -TAGTGTATTTTTAATAATCAGACATAGCTTAGGCTATATTACCTCTTCCCTTATTTGTTATTTATTTTAA -CGTTTCATTGATATATAAATCCAAATGAAAATCGTTATCAATAAAGCAATGAAATAATATATTCCAACAG -TTGTTTTATATTCTCAAAATATGTTAAGGTTGCGCCCTCATTTGGGGAGTAGCCGATTTCCAGATTCCGG -AAATGTACGTGTCAACATACTCGTTGCAAAACGTGGCACGTACGGACTGAATACTTTCAGTCAGGCGAGA -CCATATGCACATCAATCGCTATGCCTGCATGAACGCGAAAACCATCACGGCTTGTTGTTCATGTATGCAT -GTTTGCTGGGGGCGATGATGTGTTTTATGGATACCCCGGTCAGGACATTGTCATGAATATCACTGCTACT -GTTCTTCTTGCGTTTGGTATGTCGATGGATGCATTTGCTGCATCAATCGGTAAAGGTGCCACCCTCCATA -AACCGAAATTTTCTGAAGCATTGCGAACCGGCCTTATTTTTGGTGCCGTCGAAACCCTGACGCCGCTGAT -CGGCTGGGGAATGGGCATGTTAGCCAGCCGGTTTGTCCTTGAATGGAACCACTGGATTGCGTTTGTGCTG -CTGATATTCCTCGGCGGGCGAATGATTATTGAGGGTTTTCGTGGCGCAGATGATGAAGATGAAGAGCCGC -GCCGTCGACACGGTTTCTGGCTACTGGTAACCACCGCGATTGCCACCAGCCTGGATGCCATGGCTGTGGG -TGTTGGTCTTGCTTTCCTGCAGGTCAACATTATCGCGACCGCATTGGCCATTGGTTGTGCAACCTTGATT -ATGTCAACATTAGGGATGATGGTTGGTCGCTTTATCGGCTCAATTATTGGGAAAAAAGCGGAAATTCTCG -GCGGGCTGGTGCTGATCGGCATCGGCGTCCAGATCCTCTGGACGCACTTCCACGGTTAATAAGAACGCTG -CCAGAGGTGAATATTAAAGTCCGTCTGGCAGTCGAACACTTCTTTTGCTGCCAGTGTTTGCCAGACTTCT -GGCTTCGCACGCCAGGCAAACGGCGTCATCTGCAATAATGCGACGGCTTCATCACCGCGAAGACGCATCG -GATAACACAACTCCGCACTCTGCTGTAATGTAAAACCTTCCAGTTGTTCTGCATGAGGTGCATGAAGATG -TACTTCATTGTAAATCAGCCCCTTCAGCTCCATCAAATGTCGCGGTCCCGGCGTGGCAGTAATGACCCAG -CCGCCGGGCTTCACTACTCGTGCTAATTCTTCTGCTTTACACGGCGCGTAAATACGTATTATGGCGTCCA -TACTGGTATCGGAAAACGGCAAACGGTGGCTGGAAGCGACACAAAAAGTGACCTGCGGATAGCGTTTCGC -CGCCGCTTTTATCGCTACCTTCGAAACATCCAGACCAAACGTGGTGATTTCGGGCAACGCATCGGCAAAT -GCGTGTGTGTAATACCCTTCACCACAGCCAATATCCAGCACCGCCGTGGCCTTATCATCAAGCCGTTCCC -TCAGTTGGGCGACAATTGCATCACGCAGCGGCTGATAATGTCCGGCATCTAAGAATGCGCGGCGTGCTTG -CATCATTTCCGCGCTGTCGCCCGGATCACGAGACCGTTTATGCTGAACGGGCAGCAGATTGACATACCCT -TCTTTCGCCATATCAAACTGATGTCGCTGGGGACAGATATAGCTGTTTTTTTCACGCGAAAGAGGCTGAT -GGCAAAGTGGACAGGAAAAAGACATGACAACTCCGGCAGGATACTAAAGGCCGCAAGTGTAACGCGAATC -ACGCGGCGGGCAAATATCCGAACGCCAGGAGCGAAGATAAAGCATAGTAAAAAGCCTCGCATTCGACGAG -GCTTTATAGCGAGATTGAAGCGTATTCACACTTCAGATCAGTGGATTCGATCAGATAGCTGTTACGTTAA -CAGCTGCCGGACCTTTCTGGCCGTCCTGAATTTCGAACTCAACGTTCTGACCTTCAGCCAGAGTTTTGAA -GCCATTACCCTGGATAGCGGAGAAGTGTACGAACACATCTTTGCTGCCATCAGCCGGAGTAATGAAGCCA -AAACCTTTAGACTCGTTGAACCACTTAACCTGACCTTTAATCTTTGCCATTTGAAAAATTCCTTAGATTG -TTTTCTTCGCCCGCAGGCATAACATAGATAAAACTGACACATTACTGCATGAGGCACCAATATAAGGCTC -GGCAGAGAAGCGGTATTCAACGTCAACGTGTTTACTCAGGACTTCTTTACTGAAAATGCCACACATAAAC -AGAACTGTACCTCGTTTAACCCGAAATCTGTTATCACATACAACGTTAATTATGGCAAGCCATTTTTAAA -CATGTCTCGATCAGACGCACAAATCTCGATACGTCTTCCACTTTTTTTGCACACTTATGCAACGGAATAC -GCGCCGATATATCATTGTGCTTAACCTTGCCAGTTCAGGCAGATACTTAAACTGGCGTATTTTCTAACAT -AGTTCAATAAGTTCAGTTGTTCCAGGCCAGTGGGAGAAGTTATTACATAGTGCGTGCAATATCACATTTT -TTGCTATGCAATGAATAAAAAGTTATATCACTTTTTCTCATAAAACAGTCAGTTAACGGCTATTAATTAC -CCTAAAGAGAAGTCAATCCCCAAAGGGATTGTAAATTTAAAATAAGAAAAATTGATGAATGAGCAAAAAA -ATCAAGAGAGAAACGTTTCGCTAATAAATAATACCACGCTTAATCACAAATCCGATGTAAACATCCTAAT -AAATTAATGGGGTAAATATCTTTTTCTGATATCCCGTTACGCAAATAAATAATATGATAATTATTTGAAG -TCAGACCAGAGTTTTAATTTGAAGCAGTTGCACCATGACAGTGCGTATAATCAGGATGAATTGAGTAACC -CTTCAACGACGGGGTTACTCAAGATTGAGGAAGGATTATCGTTCGGCGACCAGACGAATAATATCTTCGT -CTTCAACCGATTTTTGACTCTCAACGGTCTTTTTATCTGCTTTCTCTGGTTCGTTTGCTTCGCACAAACG -ACGTAACAGTGCATTTTGACGTTTTTGCTGATCCAGCAACGCCTCAAGCAGTTCAATCTGTTCGTTAGTC -CGTGAACTGGCACGATTGATAAAAAACCACAAGATGAGCCCGATAAGAAGAACCACCACCGATACAACCA -AAGACGCAATGTTCATCACGCCTGAATTTACAACTTCGTTCATTTCACCACCTCTGAGTAGAGGCGCTAT -TCTACCACTGCTGGAGAGGAAGAAAATCTAGTGCTGAAAAAATGATATCACCACGGGATAAACTGGTTAA -TGGCACAAATTCCGCTGAAAAATTGTACATCCTGATCGCACATCATGTTGAATACCTGCGCCCAAAGCAG -CAAGCAAGCCAACACCACGACAACCAGAACGACCCATCGAAACTTTTTCACTCCAATCTCCGTTTCACCT -ACCTTATGTCATTAAACTAGCATGCGTTAGTTAAACAGCGCCTAACTATGTCGATATTCGTGCTTTTTCG -GAATGAGTCGCTTGCTTCAGCGCATATTGCCGCTACGATTAAGCGAACATAAAAAGAGAAGAGGTTGTAA -TGCGATTCATCATTCGCACAGTTATGCTGATAGCACTGGTATGGATAGGATTATTACTCAGCGGATATGG -CGTTTTGATTGGAAGCAAAGAGAATGCCGCAGGATTAGGTTTGCAATGTACCTATCTGACTGCCAGAGGC -ACCAGCACGGTACAATACTTGCACACTAAAAGTGGTTTTTTGGGGATAACAGATTGCCCGCTGTTACGCA -AAAGCAATATCGTGGTCGATAATGGTTAAGGGCAATAAATAACCAGATTCTCACTCCTGAGTAAAATACT -CTTATAGCAAGCGCGTTTAATATAACGCCACCTTCAACTTTATTTTTCTCATGCTAAATAAAGAACCTGT -CTGTTTGATATTCCGACAGGTTCTTACTCTCATCAGAACGGATAGTCGTGATAACCCATTTGGGCAGAAA -TTTTGCGCGCTGCGGTATGCAACATTGCGACATATTCCTGTAAACGCTCTTCAGAGAAACGCAACGTCGG -GAAGGAGATGCTCAAACCGGCAATGACCACGCCAAAGCGATCAAATACCGGTACCGCAATGCATCGCAGC -CCTTCTTCCTGCTCTTCATTATCTTCGCCATACCCCTGCTCGCGCACCTGGTCCAGAACGGGTAATAACG -CTTCTGTACTGGTGATGGTCCGCTCGGTACTGCGTTTATACTCCACGCCCTCAAGAATTTGCTTCACTTC -ATCGCGATCGCGCCATGCCAGCAGTACCTTACCAATCGCGGTGCTGTACAGCGGATTACGACGCCCAATC -CGTGAATACATGCGCAAATTGTACATAGAGTCAATTTTGTGAATGTAAACAATACTGTCTTCGTCCAGTG -CGCCGAGGTGGATAGTTTCTTTGGTCAGGCGGGAGAGCTCACGCATCTGGATATCTGCGCTACGAATTAA -ATCGACGTTTTGTAACGCGCGAGCGCCCAGTTCAAACAATTTCAGGGTCAGGGAATATTTCTCCGACTCC -CCTTCCTGCGCCACATAACCTAAGGTTTTCATGGTCTGTAAAAAGCGATAAACGGTGCTTTTTGACATCA -TGACGCGCTGCGACAGCTCGGTTATCCCTATTTCGCGCTCTTCACCCAGCGCCTGCAAAATGCCAAAAAC -TTTTAGCACGGAAGATACAGAATCAGGCTGTTTATCCAGATCTGCGTTAGCCATTTATCACCTCATTGCG -AGTGTTTTATAAAAATCAGAACTGTTTTTTATTATAATTTCGCACCAGGGTGGTCGCAATCCATCTTTTG -CCGGTTAGTTACAATTCTGCGACATCCACCGTGAATATCAGTGCTAGAATCATACCCCTGTTGATTATTC -ACCAAAGATATAAAATTCCTATGCCAAAAGTTCAGGCCGACGGCCTGCCATTGCCCCAGCGATACGGTGC -GATATTAACCATTGTGATTGGTATTTCGATGGCCGTCCTTGACGGCGCAATCGCCAACGTCGCCCTGCCA -ACAATCGCCACGGACCTTCATGCCACGCCAGCCAGTTCCATCTGGGTAGTGAACGCCTATCAAATCGCCA -TTGTCATCTCCCTGCTCTCGTTTTCGTTTCTGGGCGATATGTTTGGCTATCGACGTATTTATAAATGCGG -TCTGGTCGTTTTTCTGTTGTCTTCACTGTTCTGCGCCCTTTCTGATTCGCTGCAAATGCTCACCCTTGCG -CGTGTCATACAAGGTTTCGGCGGTGCAGCGTTGATGAGCGTTAATACCGCACTTATCCGCCTGATCTATC -CACAACGTTTTCTGGGTAGAGGGATGGGCATAAACTCGTTTATTGTTGCCGTCTCTTCTGCTGCCGGGCC -GACAATTGCTGCAGCAATCCTCTCCATCGCATCCTGGAAATGGTTATTTTTAATCAACGTACCGTTAGGT -ATTATCGCCCTGCTTCTGGCGATGCGTTTTCTGCCACCCAATGGTTCTCGCGCCAGTAAACCCCGTTTCG -ACCTGCCCAGCGCCGTGATGAACGCGTTAACCTTCGGCCTGCTTATCACTGCGTTGAGTGGTTTCGCTCA -GGGGCAATCGCTGACGTTAATTGCTGCGGAACTGGTGGTAATGGTTGTTGTTGGTATTTTCTTTATTCGC -CGCCAGCTTTCTCTTCCCGTACCGCTGCTACCGGTGGATTTACTGCGTATCCCGCTGTTTTCACTTTCTA -TTTGCACATCTGTTTGCTCTTTCTGCGCACAAATGCTGGCAATGGTTTCCCTGCCCTTTTACCTGCAAAC -CGTGCTCGGGCGTAGTGAAGTCGAAACAGGTTTACTTCTGACACCGTGGCCGTTAGCAACGATGGTGATG -GCTCCGCTGGCAGGCTATTTGATTGAACGCGTACATGCAGGATTGCTGGGGGCTTTAGGGTTGTTCATCA -TGGCTGCGGGGCTTTTTTCCCTGGTTCTGCTGCCCGCGTCACCTGCGGATATCAATATTATCTGGCCGAT -GATCTTATGTGGTGCTGGATTTGGCTTATTCCAGTCACCCAATAACCACACCATTATTACCTCCGCGCCT -CGCGAACGTAGCGGTGGAGCCAGTGGCATGTTAGGAACGGCTCGTCTACTGGGTCAGAGTAGCGGCGCGG -CGCTGGTGGCGCTGATGCTAAATCAGTTTGGAGATAATGGTACACACGTCTCGCTGATGGCTGCGGCTAT -TCTGGCAGTGATTGCTGCCTGTGTCAGTGGTTTACGTATCACTCAGCCACGATCCAGGGCATAAAAAAAG -CGCGTCGATCAGGACGCGCTTTTTAGTATTTACTTCATATTACTTCAGGTATTCACCCGTACGCAGAGCT -TCAATTCGTTTATCCAGCGGCGGGTGGGTCATGAACAACTCACTGAGCGATTTCGACTTACCGTTAATGC -AGAGAGCCATCATGCTGGTTGCTTCTTGCGGTTCATAGCTGGTTTTCAGGCGCTGCAGCGCGGCAATCAT -TTTCTCGCGACCAACCAGTTTTGCCGAACCGGCATCAGCATGGAATTCACGATGACGCGAGAACCACATG -GTGATAATGCTCGCCAGAATACCAAACACCAGTTCCAGAACCGTTGCAACCGCAAAGTAGATCAGCGGGT -TGCCGTTGCTCTCTTCACCTTCATCACGATTTCCGCCCATAAAACCCGCGGCAAGCTGCGCCAGAATACG -GGAAATAAAGATAACGAAGGTGTTCACCACGCCCTGAATCAGCGTCATGGTGACCATATCACCATTGGCG -ATGTGGCTGATTTCGTGAGCAATTACCGCCTCGGCTTCATCCGGGCTCATGTTCTGCAGCAAACCGGTGC -TGACAGCAACCAGAGAGGCATCACGGCGCGCACCGGTTGCAAAAGCGTTGATGTCCGGCGCATGGTAGAT -AGCCACTTGCGGCATAGCGATCCCCGCCTGACGAGCCTGGGTTGCTACAGTATTGACCAGCCAACGTTCC -CTTTCGTTACGCGGTTGCTCGATCACTTCCCCGCCAACAGATCGTAATGCCATCCATTTGGACATCAGAA -GCGAAACGAAGGAACCACCAAAACCGAACAGCAAGGCCATGATCATCAGCCCCTGAACGCTGCTCGACTG -TATCCCTGTCAGGCTCAGTACCAGCCCGAAAACGACCATTACGGCCAGGTTCGTTAGCAGGAAGAGCGCG -ATTCGCATCATAATTTTCTTTTTACCTCAGTTTAACAAAACGCAATATGCGATACCCACATCGTATGGGT -TACGCGACTATTTTCAAGTCTGGATAGTGCGTAAGTCACCAGAAAGACACAACTTTACATTTTGTAGCAT -CTGATTTACGGCATCTTGTCGCTGTTAAAAAATCAGGCACAATTTCTTGTGCCTGATTGATATTACTTGA -CGGGAGCGGGTTGTTCCGCGGGTCTGGCTTTTTCAAGCTTCGCCAGATCGAGTGCGATATTCACCGTCTC -ATCCAGATAAGGATCCGGCTCCTGGTAATCTTTCGGTAGATCATCCAGTTTCTTCAACTCCGGTTTACCT -TCGCGTTTAAAGCGTTCGTTCAAACGCGCCAGACGCGTCGCATCATCTTCATTATTCTCTTTCTCACGCA -CAGCGTAATTCAGAGAAACGATATTGCGCTTGTCCTTCATAGCGTTGAAGCGCGCGATATCCTTCATGAT -GTTCTGGAACTCAGGATCTTTCGCGATACGCGCATTATGTTCCTTCAGCAGCTCCGGTTCAAAGGCCGTT -AAATCTCCTGATTTCACATAAGTCGCGGCATCAATGCTATCCCACGGCAGCGCGTTATCTTCGAATTTCT -CACCCGTTTCCGTTTCTTCATTACCCGTCGGCATGATGATGTCTGGCGTTACGCCTTTACGTTGCGTACT -GCCGCCGTTAACGCGATAGAATTTCTGGATCGTGTACTGCACAGAACCCAGCGCTGGCCATTCAGGACGT -AACATCTGATCGTAAATACGGTTCAATGAACGGTATTGCTGAACGGTGCCTTTACCAAACGTCGGTTCAC -CCACAACCAGCGCACGACCGTAATCCTGCATTGCCGCGGCAAAGATTTCTGAAGCCGAAGCACTGAAGCG -GTCAACCAGCACCACCAGCGGGCCTTTATAGAAAACCTGTCCGTCGGTATCGCTATCTTCACGAACCTTG -CCGTTGTTATCGCGGACCTGAACAATGGGACCCGCAGGAATAAACAGACCGGAGAGCGATACGGCTTCAG -TTAACGCCCCACCGCCATTGCTACGCAGGTCGATGATGACGCTGCTGACATTCTGTTTTTCCAGTTTCTG -CAGTTGCACTTTGACATCGTCTGTCAAACCCACATAGAAGCCCGGAATATCCAGCACGCCGACTTTCTCT -TTACCGACGGTCTTCACCGACATTTTAACCGCGCGGTCTTCGAGACGAATACGTTCACGGGTCAACGTTA -CAGTACGGGTCTTGGTCCCTTTACCAGCAGGTAAAATTTCCAGACGAACTTTACTGCCCTTCGGCCCTTT -AATTAAGGCAACCACATCATCAAGACGCCAGCCAATCACGTCAACCATCGGCTTGCCTGTTTGACCAACA -CCGACAATTTTGTCACCAACGCTGATAGCTTTACTCTTCGCTGCCGGACCACCTGCCACCATCGAATTGA -TAACGGTGTAGTCATCATCCATTTGCAGCACTGCGCCAATACCTTCCAGCGACAAACTCATTTCAGTGTT -GAACTGTTCGGTATTACGCGGGGAAAGATAGTTGGTATGCGGGTCGATTTCACGCGCAAACGCCGTCATT -GCCAGCGAGAAAACATCTTCGCTGTTGGTTTGCGCCAGACGACGAATGGCAAATTTGTAGCGGCGAGTCA -GGGTTTCACGAATTTCTTTATCCGTTTTTCCTGTCAGCTTCAGGCTTAACTCGTCGAATTTGACTTTACT -GTCCCACAGCGCGTTCAACTCAGCCTCGTTTTTCGGCCAGGGCGCTTTGCTGCGGTCAAGGTTATAAGTG -TCGTTGCCGGTGAAATCCATCGGCTTTTCCAGTACCGACAAAGCGTACTGGTAACGCTCAAAACGGCGCT -TTTGCGCCAGATTGTAGAGATCGTAGAAAACGTCGAGTTTGCCTGAACGCAGTTCATCGCCTAACTCGGT -TTTCTTTTTCGCGAACTGTTCAACATCGCTTGCCAGCAGCACGTTGTGGCTGTAATCGAGCAGATTCAGG -TAGCGGTCAAAGATTTTGGCCGAAAATGCCTGATCGAGGTCGAACTGGCGATAATGAGAACGGGTGAAGC -GCGACGTTACGCGCTCACTTACCGTCGCATGCTGCGTCTCTTCCTTTAATACCGGAATTTGATCAGCACG -CGTGATATCTTCTACAGCGAAGGTCTGGCCTGCTATTGCAAGCAGGCCAGCTAACGCGGTAAGCCTAAAA -AACATGTTCATGCCTGGCCCGGCCTCCGTTTCAGAACACCAGGTGTTCTGCGCGCACAATCAAAGACATA -CCCGAATTCAGCTGGACGCGGACGCCGTCTTTGGTGATTTCTAATACGGTGGCATCCATCGCGTTTTGAC -CCGCTTTCACCTTCAGGGCTTGTCCGACAGTCAGAGCTGAAATGTCAGAAACCGGGGTGTGCTGTTCTTC -GCGAGGTGCTTTTACTGTTTTTGGCGCTTTCTCTACCGGCTTTTGCGCACGAGGTTTACGTTCAGCGCCT -TCTTTGCGGCGTGGCGTAGTCGGACGTGGCTTGCGTTCGCGGCGCGGTGCGTCTTCTTTCTCACCAGCAG -TTGCGGCAGCTTCGCGTTTTTTCGCTTGCTGTTCAGCACGCTGTGCCTGAACACGCGCTTTCGCTTCTTC -AAGCTGCTTGCGAGCATGCTCTACATGTTGCTCGTCCAGCTCACCGCATGGGTTGCCGTCAAGATCGACA -CGCGTTGCGCCGGGTTTAACACCGTAAAGATAACGCCAGCTCGAAGTGTAGAGACGTAAAGCGGATCGCA -ATTGCGTTTTGCTCAGGTTCATTTCCCCAGCAACACGATCGACCAAATCCTGAAAAATACCGATTTTCAG -CGGACGCGCTTCACCTTCCGCACTGAAACAGTGGGGAAAACGTTCGGCCAGAAACGCGATTACTTCTTTA -CTGCTATTCAACTTAGGTTGATTTTCCATGAAATTTCCTGATTACAACGGACGTAGCCAACAAGCGCAGG -CATGAACAGGCGTCATTATAATGACGCTATCAGTAAATGCTACGTTATCCGTTGATTATCCTGCGACGCT -CGCAAAGAATTTTTTGTAATCCGTCGTTGCAAGCACTTTTTCAAGCTGTGCCACAAGCTGACGTAAGCCT -TGCTCGTCCTCGTCTGTAAAGCGACCGAAGACGGTACTATCGATGTCGAGAACACCAATAATCTGATTTT -TCACCACCAGCGGCAGAACAATTTCAGAATTACTCGCCGCATCACAGGCAATATGCCCGTCAAACACATG -AACATCCTCGATACGCTGCACTTGATTGCGGGCAACCGCAGTGCCGCACACGCCGCGCCCGACGGGTATC -CGGACACAGGCAATTTTGCCCTGAAATGGTCCGAGTACCAGTGTATCGTCCTCAAGCAAATAAAAACCTG -CCCAGTTTATGTCAGTGAGACGCTCATATAACAACGCACTGGTGTTCGCAAGCGTTGCCAGAAAACTGGT -TTCTCCCGCCATCAGCGCGTTAAAGTCGCGATTTAAATCCGCGTAAAATTCTGTTTTGTTCATTATATAA -TCACTTGGTTGTCTTACCTGGATCTGCCAGCCTATTAAAATAAGCATTAAATGCGTTAATGCTCAAGATC -ATTCCCATCATGGGTTAAGATTAATGTTAATTCTTATTACATTTGGCACGTCATGGCTCTTAACACACCA -CAAATTACGCCGACAAAAAAGATAACAGTGAGGGCAATCGGCGAGGAACTGCCGCGTGGTGATTACCAAC -GTTGCCCGCAATGTGACATGCTGTTTAGCCTGCCCGAGATAAATTCTCATCAAAGTGCCTATTGTCCGCG -CTGTCAGGCAAAAATTCGTGACGGGCGCGACTGGTCGCTAACGCGCCTGGCGGCAATGGCCTTCACCATG -CTGTTGCTTATGCCGTTTGCCTGGGGCGAACCGCTGTTGCATATCTGGCTGTTAGGCATTCGTATTGACG -CCAACGTTATGCAAGGCATCTGGCAAATGACCAAACAGGGCGATGCGATAACGGGGTCGATGGTCTTTTT -CTGCGTTATTGGTGCCCCGCTCATTCTGGTGACCTCCATAGCTTATTTATGGTTTGGTAACCGACTGGGA -ATGAATTTACGTCCGGTACTGCTGATGCTTGAGCGACTTAAAGAGTGGGTAATGCTCGATATCTACCTGG -TCGGCATTGGCGTTGCTTCTATAAAGGTACAGGATTATGCCCATATCCAGGCTGGTGTCGGCTTGTTCTC -TTTTGTGGCGTTGGTGATTTTAACGACGGTGACGTTGTCACATCTTAATGTCGAAGAACTGTGGGAGCGA -TTTTATCCGCAGCGCCCCGCTACGCGTAGGGACGAGAAACTTCGTGTCTGTCTTGGGTGCCATTTTACCG -GCTATCCAGATCAGCGTGGTCGCTGCCCGCGTTGCCATATCCCGCTACGCCTGCGTCGCCGTCATAGTCT -GCAAAAATGCTGGGCGGCGCTGTTAGCGTCAATCGTTTTATTGTTACCTGCCAACCTGTTGCCTATTTCT -ATCATTTATCTGAACGGAGGACGGCAGGAAGATACAATTCTTTCCGGAATTATGTCGCTGGCAAGTAGCA -ACATTGCGGTTGCAGGAATCGTGTTTATCGCCAGTATTCTGGTACCGTTTACTAAAGTGATCGTCATGTT -CACTTTACTGTTGAGCATTCATTTTAAATGCCAGCAAGGTTTACGCACACGCATTCTGTTACTGCGGATG -GTGACCTGGATTGGTCGCTGGTCGATGCTCGACCTGTTTGTCATATCTTTAACCATGTCGCTGATTAATC -GCGATCAGATCCTCGCTTTTACTATGGGACCGGCTGCGTTTTATTTCGGCGCAGCGGTAATTTTGACTAT -TCTTGCTGTGGAATGGCTGGACAGCCGCTTACTTTGGGATGCACATGAGTCAGGAAACGCCCGCTTCGAC -GACTGAAGCGCAGATTAAAAATAAACGCCGTATCTCACCTTTCTGGCTGCTGCCGTTCATCGCGCTAATG -ATTGCCAGTTGGCTGATTTGGGACAGTTATCAGGACCGGGGTAATACCGTCACCATCGACTTTATGTCGG -CGGATGGTATTGTTCCAGGCCGTACGCCTGTTCGTTATCAGGGCGTTGAAGTCGGAACAGTGCAGGATAT -CAGCCTCAGCGACGATCTTCGTAAGATTGAAGTCAAGGTCAGCATCAAGTCCGATATGAAAGATGCGCTG -CGCGAAGAGACTCAGTTCTGGCTGGTGACGCCAAAAGCATCGTTGGCAGGTGTCTCCGGGCTGGACGCCC -TCGTCGGTGGGAACTATATCGGCATGATGCCGGGTAAAGGTAAAGAGCAGGATCACTTTGTCGCACTCGA -TACCCAACCGAAATATCGGCTGGACAATGGCGATCTGATGATCCACCTGCAAGCCCCCGATCTCGGTTCG -CTGAACAGCGGTTCATTGGTCTATTTCCGCAAGATCCCGGTGGGAAAAGTCTACGACTATGCCATCAATC -CCAACAAGCAAGGCGTGGTGATTGATGTCCTGATCGAGCGGCGTTTTACCGATCTGGTGAAAAAAGGTAG -CCGTTTCTGGAACGTTTCCGGCGTTGATGCCAACGTCAGTATCAGTGGCGCGAAGGTGAAACTGGAAAGC -CTGGCGGCACTGGTTAACGGTGCGATTGCCTTCGATTCACCAGAAGAGTCGAAACCTGCCGAGGCGGAAG -ATACCTTTGGTCTGTATGAAGATCTGGCCCACAGCCAGCGTGGCGTAATAATAAAACTGGAACTGCCGAG -TGGGGCCGGATTAACCGCCGACTCGACGCCGTTAATGTATCAGGGGCTGGAAGTCGGACAGCTGACTAAA -CTGGATTTAAATCCTGGTGGTAAAGTCACAGGGGAAATGACCGTTGATCCCAGCGTCGTTACCCTGCTTC -GTGAAAATACCCGCATCGAATTACGCAACCCGAAATTATCCCTTAGCGATGCTAATCTCAGCGCCCTGCT -GACCGGCAAAACCTTCGAGCTGGTGCCCGGCGATGGCGAGCCACGCAAAGAGTTCGTTGTTGTGCCAGGC -GAAAAAGCACTGCTGCATGAACCTGATGTTCTGACGCTGACCCTGACCGCGCCGGAAAGTTACGGTATTG -ATGCGGGTCAGCCGCTCATTCTTCACGGCGTGCAGGTAGGCCAGGTTATCGATCGTAAACTCACCAGCAA -AGGCGTCACCTTTACCGTCGCCATCGAGCCTCAGCATCGCGAACTGGTAAAAGGCGATAGCAAATTTGTC -GTCAACAGCCGTGTCGATGTGAAGGTGGGGCTGGATGGCGTTGAGTTTCTCGGTGCCAGCGCCTCAGAAT -GGATCAATGGCGGGATACGTATTCTGCCGGGCGATAAAGGTGAGATGAAAGCCAGCTATCCACTGTATGC -CAATTTGGAAAAAGCGCTGGAGAACAGCCTTAGCGATTTACCCACCACAACCGTGAGTTTGAGTGCAGAG -ACGCTGCCGGATGTGCAGGCAGGATCGGTAGTGCTGTACCGTAAATTTGAAGTTGGTGAAGTGATTACCG -TGCGTCCGCGAGCTAACGCGTTTGATATCGATCTGCATATTAAGCCGGAGTATCGCAACCTTCTGACCAG -CAATAGCGTGTTCTGGGCAGAAGGCGGGGCGAAAGTTCAGCTGAATGGTAGTGGTCTGACCGTACAGGCA -TCCCCGCTCTCCAGAGCATTAAAGGGAGCCATTAGCTTCGACAACCTCAGCGGTGCCAGCGCCAGTCAGC -GTAAAGGCGATAAGCGTATTCTGTATGCTTCCGAAACAGCGGCCCGTGCGGTTGGCGGGCAGATTACGCT -TCACGCTTTCGATGCCGGAAAACTGGCGGTCGGGATGCCAATTCGCTATCTCGGTATTGATATCGGGCAA -ATCCAGACGCTGGATCTGATTACCGCACGCAATGAAGTACAGGCAAAGGCGGTACTTTACCCGGAATATG -TCCAGACCTTTGCTCGCGGTGGTACGCGCTTCTCAGTGGTCACACCGCAAATTTCGGCAGCTGGCGTTGA -GCATCTTGATACTATCCTCCAGCCGTATATCAACGTCGAACCAGGCCGGGGCAATCCTCGCCGCGACTTT -GAATTACAAGAGGCCACCATTACTGATTCGCGTTACCTGGATGGCTTAAGCATTATTGTTGAAGCGCCGG -AAGCCGGTTCGTTAGGCATCGGTACGCCTGTGCTGTTCCGTGGTCTGGAAGTCGGTACGGTTACAGGAAT -GACGCTGGGGACATTGTCAGATCGCGTGATGATTGCGATGCGCATCAGTAAACGCTATCAACACCTGGTG -CGTAACAATTCCGTCTTCTGGTTGGCATCGGGTTACAGTCTGGACTTTGGTCTGACGGGCGGCGTAGTGA -AAACCGGCACCTTTAACCAGTTTATCCGTGGCGGCATCGCCTTCGCCACGCCTCCGGGTACGCCACTGGC -ACCGAAAGCCCAGGAAGGCAAACACTTCCTGTTGCAGGAAAGTGAACCGAAAGAGTGGCGTGAATGGGGA -ACTGCGCTTCCCAAATAATGCCCACTGCTCCGGCGTGCCTGCGCCGGAGCGTTTATGCTAAACTGCGCGC -CTGTTTTTTTGCCAGTGGTACATGCTCGTGGCCCAACACACCGTTTATTTCCCGGACGCCTTTCTGACAC -AAATGCGCGAAGCGATGCCTTCGACGCTCTCATTTGATGATTTTCTTGCCGCCTGTCAGCGCCCGTTGCG -CCGCAGCATTCGCGTTAATACGCTGAAAATCTCCGTTGCTGATTTCCTGCAATTAACCGCTCCTTATGGC -TGGACGCTTACGCCAATTCCGTGGTGTGAAGAAGGTTTCTGGATTGAACGCGACAATGAAGATGCATTGC -CATTGGGTAGTACCGCCGAGCATTTAAGTGGCCTGTTTTATATTCAGGAAGCCAGTTCAATGTTGCCTGT -TGCCGCCTTGTTTGCTGACGGTAATGCACCACAGCGGGTGATGGATGTCGCTGCCGCGCCTGGCTCCAAA -ACGACGCAAATTTCCGCGCGGATGAATAACGAAGGGGCAATCCTTGCCAATGAGTTTTCCGCCAGTCGGG -TAAAAGTGTTACATGCCAATATCAGCCGCTGTGGTATCAGTAATGTTGCGCTCACACATTTTGATGGCCG -CGTGTTTGGTGCGGCAGTGCCAGAAATGTTCGATGCCATTTTGCTGGACGCTCCCTGCTCTGGCGAAGGC -GTGGTGCGTAAAGATCCCGATGCGCTAAAAAACTGGTCACCAGAAAGCAATCAGGAAATCGCAGCTACAC -AACGGGAGCTTATCGACAGCGCCTTTCATGCATTACGTCCTGGTGGTACGCTGGTTTACTCGACCTGTAC -CTTAAACCAGGAAGAAAACGAAGCCGTTTGCCTGTGGCTGAAAGAGACTTACCCCGACGCAGTAGAGTTT -TTACCACTTGGCGATCTCTTCCCTGGTGCAAACAAAGCGCTGACCGAAGAAGGCTTTTTGCATGTTTTCC -CACAAATTTACGACTGCGAAGGCTTCTTCGTTGCTCGTCTGCGTAAAACTCAGGCGATTCCCGCCTTACC -CGCCCCCAAATACAAAGTCGGTAATTTTCCGTTCAGCCCGGTGAAAGATCGCGAAGCTGGACAAATTCGT -CAGGCGGCTACAGGTGTTGGCTTAAACTGGGATGAAAACCTGCGCCTCTGGCAGCGTGACAAAGAACTGT -GGTTGTTCCCGGTGGGCATTGAAGCCCTGATCGGTAAAGTCCGATTTTCTCGGTTGGGGATTAAACTTGC -CGAGACGCACAACAAAGGTTATCGCTGGCAGCATGAAGCGGTTATTGCTCTTGCCTCACCCGATAATATG -AATGCATTCGAGCTGACACCGCAGGAAGCGGAGGAGTGGTATCGCGGGCGCGATGTTTACCCGCAAGCCG -CGCCAGTGGCGGATGATGTATTGGTTACTTTCCAGCATCAACCGATTGGTTTAGCCAAACGGATTGGTTC -GCGATTGAAAAACAGCTATCCGCGTGAACTGGTGCGCGATGGGAAACTTTTTACCGGTAACGCCTGACAG -CGCACAAAAAAAGCGCACTTTTTGACTGGCACATTCGGCTGCCTCAACTAGGCTGAAAAATGGTGCGATC -GGACTGGTCGTACCACAATCGGCAGCTAAATGGAGAGCACGAAGATGAAAACCAGTGTGCGCATAGGCGC -TTTTGAAATCGACGACGGCGAATTACACGGTGAATCGCCAGGTGATCGAACGTTAACCATTCCTTGTAAA -TCTGACCCCGATTTATGTATGCAACTGGATGCCTGGGATGCTGAAACCAGTATCCCTGCCCTGCTAAATG -GCGAACACTCTGTCCTTTACCGTACCCGTTACGATCAACAATCTGATGCCTGGATTATGCGTCTTGCCTG -ATCCAAAAAGAACCCGTCGGCATGGCGGGTTATTTGTCCTGGTTATTCCCCCGTTGTAAAATCTCTCCTA -AACTTAACGGTACGGCACCACACTTCGGGGATGAAATGTTCGCGCTGGTACTTTTTGTTTGCTACCTGGA -TGGCGGTTGTGAAGATATTGTTGTGGATGTCTACAACACGGAACAGCAGTGTCTTTATTCTATGAGCGAT -CAACGGATCCGCCAGGGCGGTTGTTTTCCGATTGAGGATTTTATAGATGGTTTCTGGCGACCTGCACAGG -AGTACGGTGATTTTTAATTATTGCAATTGCACAAGAGTCAGTTCGCCCCCAAAGACAGCACCGGTATCAA -TATAATGCAGGTTGCCAATATCCACGCGATGTCGCAACGGTGTATGACCAAACCAGAAATGATCAGCACC -TGTAATTCCCTGCCCTTTTTGGCGTTCACCTAATCGCGAGCGGCTCCACAAGACCTGATGCAAATCAACG -TCCTTTTGCCATTCATAAACATCATCTGGATAATCGGCATGAGCAATAACATGCTTGCCGGTGCGACTGT -GTACTTCAAGAATAAAGGGCAAATGCTGACATTTTTCCAGCGCCGTTTTCGCTTGTTTCTGTTGATTATC -TGCCAGCGCAATAAACCAGTCGCCGCCATTCATCAACCACAAAGACATCTGCTGGGATGCCAGCGCATCC -ATCGCCATCTGTTCATGATTGCCTCTTACCGCACAAACCCAATGTTGTTCCAGTAACTGCAGACAACGTA -AACTTTGCGGCCCACGATCGATAACGTCTCCCACTGAGATAAGTAAATCTCGCCACGGATCAAAACGACA -ATGCCATAATTTGCGGCGCAACTGCTCAAGACAACCGTGTATATCGCCAGAAAGCCAGATATGTCGCCAT -TGATGACCCGCAATTCTCTGATAAACGGGCGCAGGCTGTTTCATCAATATTTTCCTCCCGCGCTAAAGAT -CACATAATCTTAACAAGAATGTTAAAAAACGCTGGACTCAGACAGTAGAGTGTGTGTTATGGTTGACTAT -AAAGTCAGCGAAGGAAATGCTTCTGGCTTTTAACAGATAAAAAGAGACCGAACACGATTCCTGTATTCGG -TCCAGGGAAATGGCTCTTGGGAGAGAGCCGTGCGCTAAAAGTTGGCATTAATGCAGGCTTAGTTGCCTTG -CCCTTTAAGAATAGATGACGACGCCAGGTTTTCCAGTTTGCGTGCAAAATGGTCAATAAAAAGCGTGGTG -GTCATCAGCTGAAATGTTAAAAACCGCCCGTTCTGGTGAAAGAACTGAGGCGGTTTTTTTATTGGAAATC -AAAAGGCTATTTTAGGTAATTAACAGAGTTTTTCAGCTCGTTCTATAAACGGTGCCAGACTCATTTTTTC -GCCGGGATTGTTAGGATCATCAATCTGAATCACCGAAATGGGTTGGGCATTGGTCTTCCCACTGGCAACT -TCCTTTTGTGCGATATCGTTTAAAGGATACTGCACGAGGGTACTCGGATTAATAACATACAAAGCATTAC -CCGGTCGGCAAGTCAGCATCACCTCTTCGCGATTAAACGCCCATTTGTCTTTACCCACTTCAAAACGACT -GACGGTAATCACCTGCGGTGCAGCCAGCGCCGCTGCAGAACTGGTGAGTAACAGAAACGCCAGAATACTT -TTTTTCATCATTTTCGTAATCCATCAAAAAGGTTCGAGAGTCGCAAGCAGGCTGATGATCACCAGCACTA -CCGCACCTATCGCCCATTCGAGTTTAGTCATCCACACAAACCAGGGTGCCGCACGATCTTCATCCTGCCT -CATGCGCGGTACAAGAACATAACGATTAGCCAGCGCAATGACCACCATAATCATCACCAGGATGGCTTTG -AGCAATAAGAGTTGGCCCCAGTAAGTCGTAAGCGTGGGGGGAAATCCGGTAATCAACAATGCATTAAGCA -CGCCGCTTGCCAGTACGCCGATCACCGCAAAATGCCCGCACCAGGAAAAACGCATCAGCGCCTGAATAGC -CTGGTGTCGCCAACGGCCTTTGATGAGTTGCATACACCAGAGCACCGGCAGTAATCCCCCAAACCACGCC -GCCGCACAAATCAGGTGAATCGCGTGATTAGTCTGATGGATTTTCGCTGTTACCCCTTCATTCAGCGTCG -CATGCCCCACTCCCGCCAGCAGAATAAATTGCGCGGTAGTGAGCATAAACAGCAAACGTGGCATATTCCG -CGGTTGCATAAGGGCGACGATCAACGTTACGAGGGCGAGAACAATTTGCCATAACCAGATGCCACCAAAC -TGCGTTTGCAAAACAGCCTGCCAAATGTTTGGCGAAAATACATCTGTCCATCCCGTTCCCATCAACCCGC -CCTGAACGGCGAGCATTGCAGTGGCACTGATCAAACTCCAGACGGCAGCGTGCTGTTGTAAACGCAGAAA -ACGCTTCGCCAGCAAGCGACGAATCGTCAAGGGGGCCAGCCAGGCACCGTACATTGCGAAGCCAAAAACC -AGCATCAGCGAGGTGAAATGGATAAATCGCAGCGCGATCCAGGTAAACGCCAGCATGATTTATTTCACGC -TAAAGGTGTAGTGTCCTTTCGTTTTATGCCCGTCCACCGAAACAACATGCCAGTCAACGGTGTAGGTTCC -GGGTTTCAGCGAATCGGCCAGTGGAACAATCAGTTGCTTTTGGTCCTGCTCATTTCGCTTCGCCGGTAAT -GTTTTAATATTTTCGTTTTTTGGCCCCGTGATTTTTGCACCACTGAATCCTGTTTCAACACCTTCCGAGA -AGTTTAAAGTGATTGCCTGCGGTGCAGCTGTCACTTGCGCGTTTGCCGCAGGATACTGATGCGTTAAATG -CGCATGTGCCCAGACGGAAGGTGTCACCAACGAAGTGGTCAGGATTGCCAGCGCGTAGCGAAGGGAGCGT -GCAGTTGAAGCCATATTATCTATTCCTTTTTGTAATAACTTTTTTACAGAGCATAACCTTGTCTAATGTC -TGAGTCGAGGATCATCAATTCCGGCTTGCCATCCTGGCTCACTCTTAGTAACTTTTGCCCGCGAATGATG -AGGAGATTAAGAATGCTGAAGAATCTGGCTAAACTGGATCAAACAGAAATGGATAAAGTGAATGTCGATT -TGGCGGCGGCCGGGGTGGCATTTAAAGAACGCTACAATATGCCGGTGATCGCTGAAGCGGTTGAACGTGA -ACAGCCTGAACATTTGCGCAGCTGGTTTCGCGAGCGGCTTATTGCCCACCGTTTGGCTTCGGTCAATCTG -TCACGTTTACCTTACGAGCCCAAACTTAAATAAAACTTATACAGAGTTACACTTTCTTACATAACGCCTG -CTAAATTATGAGTATTTTCTAAACCGCACTCATAATTTGCAGTCATTTTGAAAAGGAAGTCATTATGTCG -TTCTGGAAAGTTGCAGCAGCGCAATATGAGCCTCGTAAAACCTCACTCACCGAACAGGTAGCTCATCATC -TGGAGTTTGTGAGGGCCGCCGCCAGGCAACAATGTCAGCTGTTAGTTTTTCCATCGCTTTCTTTACTGGG -GTGTGATTATTCGCGACGTGCCCTTCCTGCCCCACCCGATCTCTCACTGTTAGACCCGCTTTGTTATGCC -GCAACGACCTGGCGAATGACCATCATTGCCGGCCTTCCCGTTGAATATAACGATCGCTTTATTCGTGGAA -TTGCGGTGTTCGCACCGTGGCGAAAAACGCCTGGGATCTACCATCAGAGTCATGGTGCATGTCTGGGCCG -TCGTTCCAGAACCATCACGGTGGTCGATGAACAACCGCAAGGTATGGATATGGACCCGACCTGTTCACTG -TTTACTACAGGGCAATGTCTGGGAGAACCCGACCTGCTGGCGTCGGCCCGTCGCTTACAATTTTTTTCAC -ATCAGTACTCGATTGCCGTGCTGATGGCAAATGCCCGTGGTAACAGTGCACTATGGGATGAATATGGTCG -TCTCATCGTTCGCGCCGATCGTGGTTCATTATTGTTAGTCGGTCAGCGTTCATCACAGGGTTGGCAAGGC -GATATCATTCCATTACGCTAGGCTTTTTCGGCCTGGAGCATGCCATGTTGCGCATTATCGATACAGAAAC -CTGCGGTTTGCAGGGAGGGATCGTTGAGATTGCCTCTGTTGATGTCATTGACGGAAAAATCGTCAACCCC -ATGAGCCACCTGGTGCGCCCCGATCGTCCTATTAGTCCACAAGCGATGGCGATTCATCGCATCACCGAAG -CCATGGTCGCCGATAAACCGTGGATTGAAGATGTGATCCCACACTATTACGGTAGTGAATGGTATGTCGC -GCATAACGCCAGCTTTGACCGCCGCGTACTGCCTGAGATGCCCGGTGAGTGGATTTGCACTATGAAACTG -GCCCGTCGTTTGTGGCCTGGGATCAAGTACAGCAATATGGCGTTATATAAAACACGCAAGCTCAATGTAC -AGACGCCGCCGGGCCTGCATCATCACCGCGCGTTGTATGACTGTTATATCACCGCCGCGTTGCTTATCGA -TATTATGAACACCTCCGGCTGGACGGCAGAACAGATGGCCGATATCACCGGACGTCCGTCGTTGATGACG -ACCTTCACCTTTGGCAAATACCGTGGCAAAGCGGTTTCCGACGTTGCCGAACGCGATCCGGGCTATCTGC -GCTGGTTATTTAATAACCTGGACAGCATGAGCCCGGAGCTGCGTTTAACACTGAAACATTATCTGGAAAA -TACTTAGTCCGCAGGCGTAGCGGGTAATGTTCCCTGCGCCAGCGCGACCAGAAAAGCATATTCCATCGCT -ACGCCTTCGTACGATTTAAAGCGACCAGATTTACCGCCATGGCCTGAGTCCATGTCGGTACAGAGCAATA -AAAGATGGTCATCGGTTTTCAGCTCGCGCAATTTAGCGACCCATTTTGCCGGTTCCCAATATTGCACCTG -AGAATCGTGCAAACCGGTCGTTACCAGTAAATGCGGATAAGCCTGTGCGGTGACGTTGTCATACGGGCTG -TAGCTTTTCATGTACTCGTAATATTGCGGATCCTGCGGGTTACCCCACTCTTCAAACTCACCAGTGGTAA -GAGGAATTGATTCATCAAGCATCGTTGTTACAACATCAACAAACGGTACCTGGGCGATAACGCCGTGGAA -TAATTCCGGGCGTTGATTAATTGCAACGCCCATCAACATGCCCCCCGCACTCCCGCCCATCGCATAACAA -AGCGAAGGAGAGCCATAGCCCAGTTTTAACAATGCATCGCAGGCATCAAGATAATCATTAAACGTATTTT -TCTTCTTCAGAAATTTTCCGTCTTCGTACCATTGTTGCCCCAGCTCACCACCGCCGCGAACATGGACAAT -GGCGTAGACAAAGCCACGATCTAACAAACTCAAGCGGCTAAAACTGAAATCGGCATCAATACTTGCGCCG -TAAGAACCATAGCCATACACCAGCAACGGGTTGTGTCCTTTGCGAAAATGTTTGCGATGGTAGACCAACG -AAACCGGAACTTCGACGCCATCACGGGCGACTATCCACAGGTGTTCACTGCGGTAATTCGCCGCATAAAA -ACCAGGAACTTCCGTTTGTTTTAATACACGACGCTCACCGGTATCCATATCCAGTTCAAACAAAGTGTCT -GGTGTAGTCATGGAAGAATAACCATAACGCAATCGCGCGGTTTCAGGTTCTGGATTGTAGGCAATCCAGG -TCACATAGGCCGGATCATCAAAGGCAATACCAATGACTTCCCGGGTCTTGCGGTTAATTTGGCGCAAACT -GGTTAACCCGCGCTGACGCTCTTCAACCACCAGCCAGTCGGTAAACAGCGTAAACCCTTCCAGCATGATG -TTTTCGCGTGGCGGAATTAACTCTTCCCACTGTTGCTCATCACGCATACGGGTACGGTATAAGCCAAAGT -TTTTGCCGTGGCGGTTGGAACGCAGATAAAAACGATGCTGGTAGTGATCAAGGCTGTATTCGTGATCTTT -GCGGCGCGGCAGAAAAACAAACGGCTCGGCATCGGCCATTTCCGCGTCCAGCAGGCGAACTTCACTGGTG -GTGGCGCTGGCCAAATGAATGACTACATAGTGCTTCGAGGTCGTTTTATGCAGGCTGACGTAATAGGTAT -CGTCTTTTTCTTCGTAGATCAGTTTATCTTGCGATGCTGGCGTACCGATGGCGTGACGCCAGACCTGATA -AGGCAGCAGCGTCACCGGATGCTTGCGAACATAGTAGAAAATCCAGGAGTCATTTGCCCAGACAAAGCTG -GGTTCAACGTTATCCAGCAGTTCCGGGTACCAGTTACCAGTTTCCAGATTACGAAAACGAATGCCGTACT -GGCGTCGGGAAAGAAAATCTTCTGCCAGCGCCATAATGGTGTTATCGGGCGTAATCGCCATTCCGCCCAT -CGAATAAAACTCACTATGAGCTGCGCGCTTATTGGCATCGAGCAATGTTTCCCACTCATCCCACTCTTCA -CTGAATGCCGATTGACGCTGGTAGATAGCATATTCACAGCCTGGTTCATAAATATGCCGATAGCGGTAGC -CATTTTTGATGTAGGGCGCAGAAACTTCTCGTTGCGGAATGCGGTCGATGATTTCCTTTAAGATGCGATC -CTGCAAGGCTTGTTGTGAGGCCATCACCCGATGACCGTAACTATTTTCTTGTTGCAGGTAGTCCAGGACT -TCTGGCTGAGAACGCGTATCGTCCCGCAGCCAGTAGTAATTATCGATGCGCGTATCGCCATGAAGCGTCA -TGGCGTGGGGAATGCGGGCGGCTTTTGGTAGCATGTTATTGTTCTTTCTGGTTGAAACATCTTATAAGGG -TGGCAAAACTCACCGGGGATGCAAGCGAAACAGGGGAGTCATTGCTTAGATGATGACAGGTAATGGCGCG -GATATCGAATGTTATGCAGACAGAGAAAATCAGCCTGTTCAAATGGCTGTGCGATTCTGGATAGCCCGAA -ATAGTCAACTTCAGGCTATCCAGAGAGCGGAATTATTCCGCCAAAGTGCGTTTTTGCTGTTCGAGATCGC -GTTCAATGCCGTCACGAACATCCTGGGGGATTTTCAGCGCGTCACCCAGTGCATTCAGGTAACTGCGTTC -CATAAAATGGTCAATATCAATAGCCGCGCAACTCAGGAAATAGATTTCCAGCGCCTCTTCTTCATTGCGG -ACCCCGGTAGCCAGGCGTTGTGGATCCAGCGGTTGTTCGATTGCCTGCTCAATGAGTACACGCCCCTGCT -CTTCCACGCCGGCTCCACGCAATTGCTGGTCGATTGCCGCACGTTCTTTGGCATCAATATGACCATCACT -TTTAGCGGCAAAGACCAGCGCAAGGATCAAACGTGCTGTACGCTCATCCAGCGGCGTACTTTGCGCGCCA -AACTGCGGTTCGTCCTGATGCGCCGCGCGAATTTTATCTTTGTATTTATTCCACAGCACCGTACCCGCTA -CCGCTCCGCCGCCAACCAGTAACGCGTTGGTGCCATATTTCGTAAGAAGTTTACGTGCTGATTTATTTGC -GACCAGCAGCCCAGCCAGTCCGCCTAATGCGCCTGGCACTAACAGTTTGACCAATCCCTGATCCGCAGAC -GAGGAGGTAGAAGAACTGCTTTGCCCAAGCAGGGATTGCAGTTGATTTAACCAGTTAGCCATATTTGCTC -CTCAATAACCATTTTTAGTGCCTGTAGCATAGCGGATGAGGATGTCAGAAAATGTATATCGAGACAAAAG -ATGCGCAAATAAGCGGGGCGGTAGGCCGTTATTCAAAGAAATTCGCGCCAGGTAAGGTATTTACTGTATA -TCAGGTGATAAGGGTATTTTAGGTGAAAGTAGTTTGTCGTTTTGAGTGGCATTGTTTGATGCTGATTGCC -CGATGCGACGCTGTTGCGTCTTCTCAGGCCTACGATTGTGGTGCGTTCTGGGGCGGACAAGGCACTCGCG -CCGCATCCGCCAACAGTCAATCGAATTATCAGAAGCCATTAACGCCGCTGATATTCCGCCATTCCCGCTT -TGCAGTCCACGCTGACCTGGTAATGAATATCGGCACTTTTACCACGCACGGTTAGCGGTACTGACCATTT -ATCATCTTTACCCTGAATGTCCTGCAAACTGACCCAAGCCACGGGATCGGCCTGACCGACAATTTTTTGA -TCATCTGCCCAACGCGCCACGCGATTTTGTTGATAATCACGTTTTACGCTCGCGGCAATTCCGGCAGCAT -CCAGATCTTCACACTTTGGGAAAGTGACCGACTTGCTGGTTTCATTATTGGCAGCGAAAACTGATGCGCA -GGCAGAAACCAACAACAGCCCTAAAAACGCCCCTCTTTTTTTCATGTTTTTCTCCATAGCACAATGATTC -AGGAGAAAGCATGGTACAAATTGTCAGGAGCGCAAGTTGCTTCAGGCCGCGTGTGAGGCATCTTCCTCTT -CGGATTCAGCACCGACGACCTGTGGGGACGGTAATTTGCCGGTTTTCAGAATGGTGCTCAGCACATCTTT -TTGTTCTGCCAGCCATAGCGAAAGGGCTTCACGTTGCTCGTCTTCCATTTGCACTGGAGAATTTGTCAGC -CAGGTGTCAAGCAGATCCGCCGTATCAAGCATTTTGTCATAAGCATCGGCTTCCTTTTTGCTGGTAAACG -ACATTTTCTCTTCGCCCTCACGAATGACTACGTATTTAACTTCAACCGCCATTTGCAGCCTCTCATAATA -ACTGTGATTTTATACAGTATATTTCTTTTCGGTTGAGAAATCAACATCAGCAATAAAGACACACGCAAAC -GTTTTCGTTTATACTGCGCGCGGAATTAATCAGGGGATATTCGTTATGACGTTATTAGGCACTGCGCTGC -GTCCGGCAGCAACTCGCGTGATGTTATTAGGCTCCGGTGAACTGGGTAAAGAAGTGGCAATCGAGTGTCA -GCGTCTCGGCGTAGAGGTGATTGCCGTCGATCGCTATGCCGACGCACCAGCCATGCATGTCGCGCATCGC -TCCCATGTCATTAATATGCTTGATGGTGATGCATTACGCCGTGTGGTTGAACTGGAAAAACCACATTATA -TCGTGCCGGAGATCGAAGCTATTGCCACCGATATGCTGATCCAACTTGAAGAGGAAGGACTGAATGTTGT -CCCCTGCGCTCGCGCAACGAAATTAACGATGAATCGCGAGGGTATCCGTCGCCTGGCGGCAGAAGAGCTG -CAGCTGCCCACTTCCACTTATCGTTTTGCCGATAGCGAAAGCCTTTTCCGCGAGGCGGTTGCTGACATTG -GCTATCCCTGCATTGTAAAACCGGTGATGAGCTCTTCCGGCAAGGGGCAGACGTTTATTCGTTCTGCAGA -GCAACTTGCTCAGGCATGGAAGTACGCTCAGCAAGGCGGTCGCGCCGGAGCGGGCCGCGTAATTGTTGAA -GGCGTCGTTAAGTTTGACTTCGAAATTACCCTGCTAACCGTCAGCGCGGTGGATGGCGTCCATTTCTGTG -CACCAGTAGGTCATCGCCAGGAAGATGGCGACTACCGTGAATCCTGGCAACCACAGCAAATGAGCCCGCT -TGCCCTTGAACGTGCGCAGGAGATTGCCCGTAAAGTGGTGCTGGCACTGGGCGGTTATGGGTTGTTTGGT -GTCGAGCTATTTGTCTGTGGTGATGAGGTGATTTTCAGTGAGGTCTCCCCTCGTCCACATGATACCGGGA -TGGTGACGTTAATTTCTCAAGATCTCTCAGAGTTTGCCCTGCATGTACGTGCCTTCCTCGGACTTCCGGT -TGGCGGGATCCGTCAGTATGGTCCTGCAGCTTCTGCCGTTATTCTGCCACAACTGACCAGTCAGAATGTC -ACGTTTGATAATGTGCAGAATGCCGTAGGCGCAGATTTGCAGATTCGTTTATTTGGTAAGCCGGAAATTG -ATGGCAGCCGTCGTCTGGGGGTGGCACTGGCTACTGCAGAGAGTGTTGTTGACGCCATTGAACGCGCGAA -GCACGCCGCCGGACAGGTAAAAGTACAGGGTTAAACCCGGCAAAAAAACGCTACAAAAATGCCCGATCCT -CGATCGGGCATTTTGACTTTTACAGCTTAGCGCCTTCTACAGCTTCACGCGCCAGCTTAGTAATGCGGTC -GTAATCGCCCGCTTCCAGCGCATCTGCCGGAACCAGCCAGGAACCACCGATGCACAGCACGCTTTTCAGC -GCCAGGTAGTCACGGTAGTTAGCCGGAGAAATACCACCCGTCGGGCAGAAACGGACCTGGGAGAACGGAC -CCGCGATCGCCTGCAGGGCTTTCACGCCGCCGTTAGCTTCAGCCGGGAAGAATTTGAACTCTTTCAAACC -GTAGTCCATACCCAGCATCAGTTCGGAAACAGTGCTGATCCCCGGAATCAGAGGAATAGTCCCTTCGGTA -GCAGCTTTCAGCAGCGGCTCGGTCAGACCCGGGCTAATTGCGAACTGTGCACCCGCTTCAGTGACTTCTG -CCAGCTGCTGTGGATTCAGCACCGTACCGGCACCCACAATCGCTTCAGGCACTTCTTTGGCGATAGCACG -GATAGCGTCAACTGCACACTCGGTACGCAGAGTCACTTCCAGAACGCGCACCCCACCAGCAACCAACGCT -TTTGCCATCGGCACCGCGTGTTCCAGTTTTTTTACCACGATAACCGGTACAACCGGGCCGGTGGTCAGGA -TTGATTCTGCACTTGTTTTCCAGTTTTTCATCAGAGTTTTCTCTCGCCTGATTACAAATTTGTCGTCTTA -AAAAGTGATACAGGTTGCGCCCTGTTCGGCACCGGACAGTTTTTCACGCAAGGCGCTGAATAATTCACGT -CCTGTTCCCACGCGTGACGCGCTCAGGTCAGGAATGTGCGGTTCGCGAGCAGCCAGTTCCGCTTCGTCTA -CCAGCAGCGTCAGTTCGCCTGTCTGTCCATTCACACGAATGATGTCCCCGTCGCGCACTTTTGCCAGCAG -CCCGCCATCGTAGGCTTCTGGTGTTACGTGGATAGCTGACGGCACTTTACCTGAAGCGCCGGAGAGTCGT -CCATCGGTAACTAACGCAATTTTGAAACACCGGTCCAATAATACACCAAGTGGCGGCATGAGTTTATGTA -ATTCTGGCATTCCGTTCGCTTTTGGCCCCTGATGACGGACAACAACGACACAATCGCGGTCCAGCAAACC -CGCTTCAAAGGCCGGCATAACGTCATGCTGGCTTTCAAAAACAACCGCTGGCGCTTCAATCACCTGGTTC -TCAACCGGCACGGCAGAGGTTTTCATAACCGCACGGCCCAGGTTACCGCTTAACACTTTTGTCCCACCAT -GATGAGAGAAAGGTTGTTCGAAGGAAGCGATCACATTGCTGTCGAGTGATTTTTCCGCCCCTTCCCGCCA -GTCCAGTTCACCATTATTCAGCCATGGTTCAAGGGTATAACGAGACAGACCAAAACCTGCCACCGTATTG -ACATCTTCATGCAGCAGGCCTGCTTTGAGCAGTTCACGCACCAGAACCGGTACGCCACCTGCCGCCTGGA -AGTGGTTAATATCGGCCGGACCGTTCGGGTAGAGACGTGCCATCAGCGGTACAACATCAGAAAGGTCAGA -GAAGTCATCCCAGTTAATCTGAATACCGGCCGCGCGCGCCATCGCCACCAGGTGCATGGTGTGGTTAGTG -GAACCACCGGTCGCCAGCAGTGCAACGATACCGTTCACCACCACTTTCTCATCGATCATCTTACCGATCG -GCATCCATTCATTACCATTACCGGTCATGCGTGTAACCTGACGCGCAGCTGCGGCGGTCAAAGCATCGCG -CAGCGGAGAATCCGGATGAACAAAAGAAGAGCCTGGCAACTGCATCCCCATAAACTCCACCACCATCTGG -TTGGTGTTGGCAGTACCGTAGAAAGTACATGTTCCCGGCGCATGGTAAGACGCGGCTTCTGACTCCAGTA -AGGCCATGCGGTCCACTTTACCTTCGGCATAAAGCTGGCGAATACGCACTTTTTCTTTATTTGGCAAACC -GCTTGCCATCGGTCCAGACGGCACAAACACCGCAGGCAAATGACCAAACGACAGGGCTGCCATCGTCAGA -CCCGGGACAATCTTGTCGCACACACCGAGGAACAGAGCACCATCAAACATGTTATGGGACAGCCCCACCG -CCGCAGACATCGCTATCACTTCGCGGCTTAGCAGCGACAATTCCATTCCATCCTGCCCCTGGGTGACACC -ATCACACATCGCCGGAACACCGCCCGCAACCTGACCAACCGCATTCGCTTCATGCAGGGCTTTACGAATG -ATTTCTGGATAGTGTTCATAAGGCTGGTGCGCGGAGAGCATGTCGTTATAGGAGGTGATGATGGCGATAT -TGTTACGCAACATGCTTTTCAAAGAGGCTTTGTCTTCTGGCTGGCAGGCAGCGAAACCGTGTGCCAGGTT -ACCGCATGCCAACTGCGAACGATGAACGGTCGAAGTTTTCGCTTGTTCTATCCGGGCGAGATAAGCAGAG -CGAGTCTCGCGCGAACGTTCAATGATTCGATTTGTTACGCGTAACAATTGTGGATTCATAAAGGCTCCTG -AAATTGAGTTGTCAGAGCAGGATGATTCACAACGCGTTTCATTCAGAGGATTTATGACTGAAACGCCTGT -AACCGGAGCTCATAGGGCAAAAACGTTTCAGTCAGTGTAATAAAAAAAGCCTCGTGGGTGAATCCGCACG -AGGCCTGAAAGTGTAAAAATTGTTCTACAATCTGCGCAAGATCATGTTACCGGTAAAATAACCATAAAGG -ATAAGCGCAGATATTACTCAAACTCATTCCAGGAACGACCATCACGGGTAATCATCGCCACCGAGGCAAC -GGGTCCCCAGGTTCCGGCCTGATACGGTTTCGGCGCATCATTGTCCATCGCCCACGCCTCAGTAATGGAG -TCTACCCATTTCCAGGCTTCTTCCACTTCGTCGCGACGTACAAACAGTGCCTGAATACCACGCATGGTTT -CCAGCAGCAAACGTTCATAGGCATCCGCCAGATGCGTCTGATTAAAGGTTTCTGAATAGCTCAGATCCAG -CTTGGTGATTTGCAGGTTATGTTTGTGGTCAAGGCCAGGAACTTTATTCAGTACCTGGATATCCACGCCT -TCATCAGGTTGCAGACGGATAGTCAGTTTATTCTGCGGCAGATCCTGCCACGATTCTTTAAACAGATTCA -GTTCAGGTGTTTTGAAATAGACCACGACTTCAGAACATTTGGTCGGCAGACGTTTACCAGTACGCAGGTA -GAATGGCACACCGGCCCAGCGCCAGTTATCAATGTCGACGCGGATCGCCACGAAAGTTTCTGTATTGCTG -CTCTTGTTCGCGCCCTCTTCTTCCAGATATCCCGGCACTTTTTTGCCCTGGGCGAAGCCCGCAGTATATT -GCCCGCGTACGGTTTTTTCGCGTACGTTGGAGCGGTCGATGCGGCGCAGAGACTTCAGTACTTTCACTTT -TTCATCGCGGATGCTGTCTGCGCTCAGGTCAGACGGCGGAGACATCGCAATCATGCAAAGAATTTGCAGC -AGGTGGTTCTGGATCATGTCGCGCATCTGACCGGCTTTATCAAAATAGCCCCAGCGCCCTTCGATCCCCA -CTTCTTCTGCCACGGTAATCTCAACATGATCAATGGTGCGATTGTCCCAGTTATTCACAAACAGGGAGTT -AGCAAAACGCAGCGCCAACAGGTTCAGCACCGTTTCTTTACCAAGATAGTGGTCGATACGGTAAACCTGG -CACTCCTCGAAGTATTCGCCAACCTGATCATTGATTTCCTGCGAGGTCGCCAGCGACGTCCCCAGCGGTT -TCTCCATGACTACGCGTGCCGGTTTAGCATTCAGTTTTGCCTCGCCAAGCCCTTTGCAAATTGCGCCAAA -AGTGCTGGGCGGCATGGCAAAGTAGTTAATGGTGATACGATTTTTTTGATCCAGCATCGCGCCGAGACGG -CTGAATGCAGCAGTGTCATTGACATCGAGATTACAAAAATCCAGACGTGCACTCAGGGTGTCCCATAAAC -CTTCATCAATGGTTTCTTTCATGAAAGTTTCGAGCGCCTCGCGGACAACTTTGGTATATGCCGCTTTATC -CCAGTCAGCACGCCCTACGCCGATAATCCGGGTGTCCGGGTTGAGCTGACCGGCTTTTTCCAGTTGATAC -AGGGAAGGCAGCAATTTACGACGCGCAAGGTCGCCTTTCGCGCCGAAAATGACCAGGTCACAGGCCTGGG -CTGTTTGCGTTACCGCCATGTCATTCTCCTTAAGTTAACTAACCCGGTACTTAAGCCAGGGTATACTTGT -AATTTTCTTACGGTGCACTGTACTGCTTTTACGAGCTTGCGAAAACTGTAAACGCTTATCCACCCGTGCG -ATTACGGGAAAAGCGCGCAAAGTGCGGCAAAACTGATAAAAAAATCATCGTTTTCCATTGGGTAAAAATC -TGACACTGATCATGTTATGAAAAAAAATAACAACTTTTTTATCTGCTTTTGTCATTAACACGGCACACAG -GCGTAATATCTGACAAAACTGCATTTCGATTTCTTTCAGTGCGGAAATCGTCATTACCCGTGAGTCTCTT -TACATCATGAATATGCTGGAAAAAATCCAGTCTCAGCTGGAACATTTGAGCAAATCAGAGCGCAAAGTTG -CCGAGGTCATTCTGGCTTCGCCCGATAACGCGATCCATTCGAGTATTGCTGCTATGGCACTGGAAGCCAA -TGTTAGCGAACCGACGGTGAATCGTTTCTGTCGCAGCATGGACACGCGCGGTTTTCCTGATTTTAAACTT -CATCTGGCACAGAGTCTGGCGAATGGCACTCCCTATGTTAATCGCAATGTCAATGAAGATGACAGCGTTG -AATCATACACAGGGAAAATATTTGAGTCCGCAATGGCAACGCTTGATCATGTCCGTCATTCACTGGATAA -ATCTGCCATCAACCGCGCCGTCGACTTGCTCACTCAGGCAAAAAAAATCGCCTTTTTCGGATTAGGCTCT -TCAGCCGCCGTTGCCCACGATGCGATGAATAAGTTCTTTCGTTTTAATGTTCCGGTGGTGTACTCCGATG -ATATCGTGCTGCAACGCATGAGTTGTATGAATTGTAGCGACGGAGACGTGGTGGTGCTGATTTCTCACAC -TGGAAGAACAAAAAATCTGGTCGAGCTGGCGCAGCTGGCACGCGAAAACGACGCCATGGTGATTGCCCTC -ACCTCTGCGGGTACCCCGCTCGCCCGGGAAGCAACGCTGGCAATTACCCTCGACGTACCGGAAGATACTG -ACATTTATATGCCCATGGTTTCTCGACTTGCACAGCTGACCGTGATAGATGTGCTGGCGACAGGATTTAC -TTTGCGACGCGGTGCAAAATTCAGAGATAACTTGAAGCGGGTCAAAGAAGCGCTGAAGGAATCGCGTTTT -GATAAGCAGTTACTTAATTTAAGTGACGATCGCTAAAAACGACTGTCACTGTCCTAATCTTATACGACAT -CCGAATGAGATTAATTTATCGCCATCGCGGCGTTATTTCATTCGGATTTCATGTTCAAGCAACACCTGGT -TGTTTCAGTCAACGGAGTATTACATGTCCAGAAGGCTTCGCAGAACAAAAATCGTTACCACGTTAGGCCC -AGCAACAGATCGCGATAATAATCTTGAAAAAGTTATCGCGGCGGGTGCCAACGTTGTACGTATGAACTTT -TCTCACGGCTCGCCTGAAGATCACAAAATGCGCGCGGATAAAGTTCGTGAGATTGCCGCAAAACTGGGGC -GTCATGTGGCTATTCTGGGTGACCTCCAGGGGCCCAAAATCCGTGTATCCACCTTTAAAGAAGGCAAAGT -TTTCCTCAATATTGGGGATAAATTCCTGCTCGACGCCAACCTGGGTAAAGGTGAAGGCGACAAAGAAAAA -GTCGGTATCGACTACAAAGGCCTGCCTGCTGACGTCGTGCCTGGTGACATCCTGCTGCTGGACGATGGTC -GCGTCCAGTTAAAAGTACTGGAAGTTCAGGGCATGAAAGTGTTCACCGAAGTCACCGTCGGTGGTCCCCT -CTCCAACAATAAAGGTATCAACAAACTTGGCGGCGGTTTGTCGGCTGAAGCGCTGACCGAAAAAGACAAA -GCAGACATTAAGACTGCGGCGTTGATTGGCGTAGATTACCTGGCTGTCTCCTTCCCACGCTGTGGCGAAG -ATCTGAACTATGCCCGTCGCCTGGCACGCGATGCAGGATGTGATGCGAAAATTGTTGCCAAGGTTGAACG -TGCGGAAGCCGTTTGCAGCCAGGATGCAATGGATGACATCATCCTCGCCTCTGACGTGGTAATGGTTGCA -CGTGGCGACCTCGGTGTGGAAATTGGCGACCCGGAACTGGTCGGCATTCAGAAAGCGTTGATCCGTCGTG -CGCGTCAGCTAAACCGAGCGGTAATCACGGCGACCCAGATGATGGAGTCAATGATTACTAACCCGATGCC -GACGCGTGCAGAAGTCATGGACGTAGCAAACGCCGTTCTGGATGGTACTGACGCTGTGATGCTGTCTGCA -GAAACTGCCGCTGGGCAGTATCCGTCAGAAACCGTTGCAGCCATGGCGCGCGTTTGCCTGGGTGCGGAAA -AAATCCCGAGCATCAACGTTTCTAAACACCGTCTGGACGTTCAGTTCGACAATGTGGAAGAAGCTATTGC -CATGTCAGCAATGTACGCAGCTAACCACCTGAAAGGCGTTACGGCGATCATCACCATGACCGAATCGGGT -CGTACCGCGCTGATGACCTCCCGTATCAGCTCTGGTCTGCCAATTTTCGCCATGTCGCGCCATGAACGTA -CGCTGAACCTGACTGCTCTCTATCGTGGCGTTACGCCGGTGCACTTTGATAGCGCTAATGACGGCGTAGC -AGCTGCCAGCGAAGCGGTTAATCTGCTGCGCGATAAAGGTTACTTGATGTCTGGTGACCTGGTGATTGTC -ACCCAGGGCGACGTGATGAGTACCGTGGGTTCTACTAATACCACGCGTATTTTAACGGTAGAGTAAGTAC -GTTGCCGGATGCGGCGAAAACGCCACATCCGGCCTACAGTTCAATGATAGTTCAACAGATTTCGAATATT -CTGAAGCAAACTTGAACTTATCATCAGGCGAAGGCCTCTCCTCGCGAGAGGCTTTTTTATTTGATGGGAT -AAAGATCTTTGCGCTTATACGGCTGGATTTCGCCCGGTTTGCGAGTTTTCAGCAATTTTAGTATCCAGGT -GTATTGTTCTGGTCGCGGACCAACAAAAATCTCGACTTCTTCATTCATCCGCCGCGCAATCGTATGATCA -TCCGCCTCTAACAGATCATCCATCGGTGGGCGCACCTGAATCGTCAGACGATGCGTCTTGCCATCATAAA -TCGGAAACAGCGGTACAACGCGCGCACGGCACACTTTCATCAAACGACCAATCGCGGGCAACGTCGCTTT -ATAGGTGGCAAAGAAATCCACAAATTCGCTGTGCTCTGGGCCATGATCCTGATCGGGTAAATAATATCCC -CAGTACCCCTGACGTACCGACTGGATGAATGGTTTAATACCGTCATTTCTCGCATGCAGACGACCGCCAA -AGCGACGACGCACCGTGTTCCAGACATAATCAAAAACCGGGTTGCCCTGATTATGGAACATCGCTGCCAT -TTTCTGCCCTTGCGAGGCCATCAGCATGGCAGGAATATCGACGGCCCAACCGTGCGGCACCAGAAAGATA -ACTTTCTCGTTATTACGCCGCATCTCTTCGATGATCTCCAGCCCTTGCCAGTCAACGCGCGGCTGAATTT -TCTCCGGCCCGCGTATTGCCAACTCAGCCATCATTGCCATCGCTTGCGGCGCGGTGGCAAACATCTCATC -AACAATCGCTTCGCGTTCAGCTTCACTACGTTCTGGAAAGCAGAGCGACAGATTGATTAACGCACGACGG -CGTGAGCTTTTTCCCAGTCGTCCGGCAAAACGTCCCAGCCGTGCCAGAATGGGATCACGGAACTTTGGCG -GCGTTAAAGCGATACCCGCCATCGCTGCTACGCCCAGCCATGCTCCCCAGTAGCGCGGGTGGCGAAAGGA -TTTATCAAACTCAGGAATGTATTCGCTATTATTTTTTTTCGTTTCCATGCTTTTCCAGTTTCGGATAAGG -CAAAAATCAATCTGGTGATAGTGTAGCGGCGCAACTTGCCCCGCACCAAATAAAAAAAGCCGGTACTGAC -TGCGTACCGGCTGCGAATGGATGTTAATTAATCAAACCGTAGCTGCGGCACAATCTCTTTGGCCTGCGCC -AGGAATTCGCGACGATCGGAGCCGGTCAGCCCTTCGGTACGCGGCAGTTTTGCCGTCAGCGGGTTTACGG -CCTGCTGGTTTATCCATACTTCATAGTGCAGATGCGGCCCGGTTGAACGTCCGGTATTACCGGAAAGCGC -GATACGGTCGCCACGTTTCACCTTCTGTCCCGGTTTCACCAGAATCTTGCGCAAGTGCATATAACGCGTG -GTGTAGCTGCGACCATGACGAATAGCCACATAATAACCTGCTGCGCCACTGCGTTTGGCAACCACCACTT -CACCGTCACCCACTGAAAGCACTGGCGTACCCTGCGGCATGGCGAAATCAACACCTCTGTGTGGTGCAAC -GCGACCGGTCACCGGATTAGTACGACGCGGGTTAAAATTAGACGAGATACGGAACTGTTTCGCCGTCGGG -AATCGCAAGAATCCTTTCGCCAGACCAGTACCGTTACGATCGTAGAATTTGCCATCTTCAGCGCGGATAG -CGTAATAATCTTTACCTTCTGAACGCAAACGTACGCCCAGCAGCTGGCTTTGCTCACGTTTACCATCAAG -CATTTCTCGAGACATTAACACCGCAAATTCATCGCCTTTTTTCAGTTTGCGGAAATCCATTTGCCACTGC -ATGGCTTTAATCACTGCGCTCACTTCGGCGCTGGTTAAACCGGCGTTTCTGGCGCTGGCAACAAAGCTTC -CCCCGACGGTACCTTTCAGCAGATTGTTAACCCACTCTCCTTGCTGCATTTCGCTGGTCATTTTAAAACC -GTTAGCGGCAGTACGGTCATAGGTTCGGGTTTCACGACGAGACACTTCCCAGGTGAGGCGCTGCAGTTCG -CCGTCCGCGGTTAATGTCCAGGAGAGTTGTTGACCGATTTTCAGGTTACGCAATTCTTTGTCGGCCGCAG -CCAGTTGGGTGATATCACCCATATCAATACCATACTGATTGAGAATGCTGCTTAGCGTATCGCCAGTGGA -AACAACATATTCATGCACGCCCGCTTCACCGGCGATTTTGTCATCCAGTTCGTCCTGGGGAATGGCTTCA -TCTTCTTGTGCAGCTTGATCAATCGGCTCACTGGCTTCAGGTAAGAGCGAACGAATTTCGTTCTGTTCCA -GCTCAATGGTTTTGACAATTGGCGTGGCATCACGGTGATAAACATAAGGCCGCCAGACAGCGACGGCCAG -AGTAAGAACGGTGAGCGACCCCAACATAACGCGGTGTGGTCGCGGTAAATTATTAAACGCCAGGGCGACA -GAGCGGGCTATCTGTTGCACGTAATCACTTCCTCATTAATCTCCTTTCAGGCAGCTCGCATACTGGTTGG -CTAATTGACTCAGGAATTCTGAATAGCTTGTTTTACCCAGTTTGATATTCGTCCCCAGGGGATCCAACGT -TCCCATACGAACGGATGTCCCTCGTGCGACGCTCTCAACGACCGCTGGCCTGAACTGTGGCTCAGCAAAA -ACGCAGGTTGCTTTTTGCTCAACCAACTGTGTTCTTATTTCATGTAAACGCTGCGCGCCAGGTTGAATCT -CAGGGTTAACGGTAAAATGACCAAGCGGTGTCAGTCCAAACTGTTTTTCGAAATAGCCGTAAGCATCGTG -AAAAACGAAATAACCTTTCCCCTTGAGCGGCGCGAGCTCGTTACCAACCTGCGTTTCGGTTGAGGCTAAT -TGTGCCTCAAAATCCTTCAGGTTGGCGTCAAGTTTGGCTCGACTTTGCGGCATAAGTTCCACTAATTTTC -CATGGATTGCAACCGCTGTAGCCCGCGCTATCTCTGGGGAAAGCCAAAGATGCATGTTGAAATCGCCGTG -ATGGTGATCTTCGTCACTTTTTTCCGCGTGGTCGTGATCATCATCATCGCCGTGAATACTTTTCATCAGT -AGCGGTTTCACATCTTCAAGCTGCGCAATCGTTACCTGCTTCGCTCCTGGTAATTTGCTTACCGGTTTTT -GCATAAACGCTTCCATCTCCGGGCCAACCCAAACGACTAAGTCCGCGTTCTGTAAGCGTTTTACATCCGA -TGGGCGCAGTGAATAATCATGTTCTGAAGCGCCGTCAGGAAGTAAAACCTCTGTTTCTGTTACCCCATCA -GCAATGGCAGAAGCGATGAACCCAACGGGTTTAAGCGAAGCGACAACGGCGGCATCTGCGGCCTGTGTTG -CACCTCCCCAGAGAGCGGCGGATAATGCTGCGAAAAGAAGCGTTTTTTTATGTAACATAATGCGACCAAT -AATCGTAATGAATATGAGAAGTGTGATATTATAACATTTCATGACTACTGCAAGACTAAAATTAACATGA -CAAGTCTGGTTTCCCTGGAAAATGTCTCGGTTTCTTTTGGCCAACGCCGCGTCCTCTCTGATGTGTCGCT -GGAACTTAAACCTGGAAAAATTTTGACTTTACTTGGGCCAAATGGCGCAGGTAAGTCGACACTGGTACGG -GTAGTGCTCGGGCTGGTAACACCCGATGAAGGGGTTATCAAGCGCAACGGAAAACTGCGCATCGGCTATG -TACCGCAGAAGCTGTATCTCGACACCACGTTGCCACTGACCGTAAACCGTTTTTTACGCTTACGCCCTGG -TACACATAAAGAAGATATTTTGCCTGCACTGAAACGTGTCCAGGCCGGGCACCTGATTAACGCACCGATG -CAAAAGCTCTCTGGTGGCGAAACGCAGCGTGTACTATTAGCGCGAGCATTGTTAAATCGCCCGCAATTAT -TAGTGCTGGATGAACCCACTCAAGGCGTGGATGTAAATGGCCAGGTGGCGTTATATGACCTTATTGACCA -ACTGCGTCGTGAACTGGATTGTGGCGTTTTAATGGTTTCTCACGATCTGCATCTGGTGATGGCAAAAACC -GATGAAGTGCTGTGCCTGAATCACCACATTTGTTGTTCCGGCACACCGGAAGTTGTTTCCCTGCATCCGG -AGTTTATTTCAATGTTTGGTCCTCGTGGTGCTGAACAACTGGGTATCTATCGCCATCATCATAACCATCG -TCACGATTTACAGGGACGAATTGTTTTGCGTCGGGGAAATGATCGCTCATGATTGAATTATTATTTCCCG -GTTGGTTAGCCGGGATCATGCTCGCCTGTGCCGCGGGTCCGCTGGGTTCGTTTGTAGTCTGGCGTCGTAT -GTCTTATTTCGGTGATACGCTGGCTCATGCCTCATTACTTGGCGTCGCGTTTGGTTTGTTGCTGGACGTG -AATCCATTCTATGCGGTGATTGCCGTTACGCTGCTGCTGGCGGGCGGTCTGGTATGGCTGGAGAAGCGTC -CACAGCTGGCGATCGACACGTTATTAGGGATTATGGCGCACAGTGCCCTGTCGCTGGGCCTGGTGGTCGT -GAGTCTGATGTCTAATATTCGTGTTGATTTGATGGCTTACCTGTTCGGTGATTTGCTGGCAGTGACGCCA -GAAGATCTCATCTCTATTGCGATTGGCGTGGTCATCGTGGTGGCTATTTTGTTCTGGCAATGGCGCAATT -TGCTGTCAATGACGATAAGCCCGGATCTGGCGTTTGTTGATGGTGTGAAATTACAGCGAGTGAAATTGTT -GTTGATGCTGGTGACGGCATTGACGATTGGTGTAGCGATGAAATTTGTCGGTGCGTTGATTATTACTTCG -TTGCTGATTATTCCTGCTGCTACTGCGCGTCGCTTTGCCCGCACGCCGGAACAGATGGCTGGTGTCGCTG -TTTTGGTGGGGATGGTGGCAGTGACTGGCGGTTTAACCTTTTCCGCGGTTTACGATACGCCGGCGGGTCC -GTCGGTGGTGCTATGTGCGGCACTGTTATTTATTCTCAGTATGATGAAAAAGCAGGCCAGCTAATCTATC -GCTGAACACATTTGTCGGATGCGGCGCGAGCGCCTTATCCGACCTACGGTTCGGTATCTCTGGTAGTCCT -GGTAAGACGCGAACAGCGTCGCATCAGGCATATTGCCAGTGCCGGATGCGGCGCGAGCGACCAATCCGAC -TTACGGCATTTCTGGCGGCGTTATGCCAAAGTGATTCCACGCCCGCGTCGTCGCCATACGCCCACGCGGT -GTACGCTGCAAAAAGCCTTGCTGAATCAAATAAGGTTCCAGCACATCCTCAATGGTTTCACGTTCTTCGC -CAATGGCTGCCGCCAGGTTATCCAGACCTACAGGTCCACCAAAGAACTTATCGATTACCGCCAGCAACAA -TTTGCGGTCCATATAATCGAAACCTTCAGCATCGACATTCAACATATCCAGCGCCTGAGCAGCGATATCT -GCCGAGATGGTGCCATCGTGCTTCACTTCGGCGAAATCACGCACTCGACGCAGCAGACGGTTGGCAATGC -GCGGCGTACCGCGAGCGCGACGAGCAACTTCCAGCGCGCCGTCATCACTCATCTCAAGCCCCATAAAGCG -TGCGCTGCGACTGACGATATATTGCAGATCCGGCACCTGATAAAACTCCAGACGTTGCACAATACCAAAA -CGGTCGCGCAACGGTGATGTCAGCGAACCTGCGCGCGTGGTTGCACCAATCAGGGTAAACGGCGGCAAAT -CAATTTTAATGGAGCGTGCCGCCGGACCTTCACCAATCATGATATCCAGTTGGTAGTCTTCCATTGCCGG -GTACAGCACTTCTTCAACAACTGGCGATAGACGGTGGATCTCATCAATAAACAGCACGTCATGCGGTTCA -AGGTTAGTGAGCATCGCAGCCAAATCGCCCGCCTTTTCCAGCACCGGACCAGAAGTCGTGCGTAAATTAA -CGCCCATTTCATTGGCGACAATGTTGGCAAGCGTAGTTTTACCCAACCCCGGAGGACCAAAAATCAACAA -ATGATCGAGGGCATCGCCGCGCAGTTTCGCTGCTTTGATGAAAATCTCCATCTGTGAACGAACCTGCGGC -TGACCAACATACTCTTCCAGTAATTTGGGGCGAATGGCGCGATCTGCTACATCTTCCGGCAAAGTGGTAC -CGGCAGAAATCAGACGGTCTGCTTCAATCATCCTTTACCTCATAACGCGGCGCGTAGGGCTTCGCGAATT -AAAGTTTCACTGCTGGCGTCAGGGCGAGCGATTTTGCTCACCATGCGGCTTGCTTCTTGTGGTTTATAGC -CCAGCGCCACCAGCGCGGCAACCGCTTCTTGTTCAGCATCGTCGGTCGCCGGGCTGGCAGGAGACGTGAG -TACCAGGTCGGCGGCTGGCGTAAAGAGATCGCCATGCAAACCTTTAAATCGGTCTTTCATTTCAACAATC -AAGCGTTCGGCGGTTTTTTTGCCAATACCCGGCAGTTTCACCAGTGCCCCCACTTCTTCACGCTCAACGG -CATTAACGAACTGCTGCGCTGACATTCCGGAGAGGATCGCCAGCGCCAACTTCGGGCCGACGCCGTTGGT -TTTGATCAACTCTTTGAACAATGTGCGCTCTTGTTTATTGTTAAAACCGTACAGCAGTTGCGCGTCTTCA -CGCACCACAAAGTGGGTGAAAACGATCGCTTCCTGACCCGCTTCAGGGAGTTCATAAAAACAGGTCATCG -GCATATGCACTTCATAGCCTACGCCGCCCACTTCAATTAACACCAGCGGGGGTTGTTTTTCAATGATGAT -GCCTCTGAGTCTGCCTATCACATGACGCTCCTGCGTAATGAATCAAAGATAATGCTGTATGATAAAAAAA -TGCTGGATAGATATCCAGCGAAGGATGAAGAAAACTTGCGAGGTGTCTCGATGAACTGAAAAATGGCACA -GTATAATTTATTCTACAGGTTATATTGGAAGCAAATATTTTAATATTACATATTCAGTGAAGAAATGCGT -AATAAAAATATACATTGCGCCTCCTGAAAAAATAAATTTTTTATGCTATTACGTATATTTGTATCTATTT -CAATGGAATGACAACGTGAATATTAATTACCCTGCTGAATATGAAATTGGAGATATCGTCTTTACATGTA -TAGGTGCTGCCTTATTTGGTCAAATATCAGCTGCATCAAATTGCTGGAGTAATCACGTCGGGATCATTAT -CGGTCATAACGGTGAAGACTTCCTGGTTGCAGAAAGCCGGGTTCCCCTTTCAACCATCACCACGCTATCT -CGTTTTATTAAACGTTCGTCTAATCAACGCTATGCTATAAAGCGATTAGACGCTGGGCTGACAGAACGAC -AAAAACAACGAATTGTTGAACAGGTTCCCTCCCGGCTACGCAAACTTTACCACACCGGTTTTAAATACGA -ATCTTCGCGCCAGTTCTGTTCAAAATTTGTTTTTGATATTTATAAAGAAGCGCTATGTATTCCGGTGGGT -GAAATAGAGACGTTTGGAGAATTGTTAAATAGCAATCCGAATGCAAAACTCACTTTCTGGAAATTCTGGT -TCCTGGGTTCTATTCCGTGGGAGCGTAAAACCGTCACGCCAGCCAGTTTGTGGCATCATCCGGGTTTGGT -GTTGATTCATGCGGAGGGAGTGGAAACGCCTCAGCCGGAACTGACCGAGGCGGTATAACTTAACGCAGTC -GCCCTCTCGCCAGGTTCAGCCGCGATTCGCTCATCTGCATCGCATTCTGACTAACGTGGCAGTGGGTGAT -AGCAATCGCCAGCGCATCGGCGGCATCCGCCTGTGGATTAGCGGGCAGTTTCAGCAAGGTGCGGACCATA -TGCTGCACCTGGCTTTTTTCGGCACTGCCAATACCTACCACCGTTTGCTTTACCTGACGTGCCGCGTATT -CAAATACTGGCAACTCCTGATTCACCGCCGCCACAATCGCCACGCCGCGCGCCTGGCCCAGTTTCAGGGC -TGAGTCAGCGTTCTTTGCCATAAAGACTTGTTCAATGGCGAAATAATCAGGCTGGAACTGGGTGATGATT -TCCGTCACGCCCGCATAGATGAGTTTCAGACGAGACGGTAAATCATCCACTTTGGTGCGGATGCATCCGC -TACCCAGGTAGGACAGTTGCCTACCTACCTGGCGGATGACGCCGTAGCCGGTCACGCGCGAACCCGGATC -AATGCCGAGAATAATAGCCATCACGCGTCTCCGTTTTGCTGTTTAGCAGGCCTCATCAGAGAGTCGCTGC -GACCTCATCAGAGATTTCACCGTTATGGTAAACTTCCTGCACGTCGTCGCAATCTTCCAGCATATCGATC -AGACGCATCAGTTTCGGTGCGGTTTCTGCATCCATATCAGCTTTGGTAGACGGGATCATGGAAACTTCCG -CGCTGTCTGCTTTCAGACCTGCCGCTTCCAGAGCGTCGCGCACTTTACCCATTTCTTCCCATGCAGTGTA -GACATCAATCGCGCCGTCATCATAGGTCACAACGTCTTCAGCACCTGCTTCCAGTGCTGCTTCCATGATG -GTGTCTTCATCGCCTTTCTCGAAGGAGATCACGCCTTTTTTGCTGAACAGATAGGCAACGGAACCATCAG -TACCGAGGTTACCGCCACATTTGCTAAATGCATGACGCACTTCAGCAACGGTACGGTTGCGGTTGTCAGA -CAGACATTCAATCATGATTGCCGTGCCGCCAGGACCGTAACCTTCGTAGATGATGGTTTCCATGTTTGCA -TCATCATCACCGCCCACACCACGTGCAATTGCGCGGTTCAGTGTGTCACGGGTCATGTTGTTAGACAGTG -CTTTATCCACCGCCGCACGCAGACGCGGGTTAGCGTCCGGATCGCCACCGCCCAGCTTAGCCGCGGTTAC -CAGCTCACGAATGATTTTAGTGAAGATTTTACCGCGCTTAGCATCCTGCGCAGCTTTACGATGTCTGGTG -TTGGCCCATTTACTATGACCTGCCATAAAAATATCTCCAGATAGCCCTGCCTGTTCAGGCAGCGTTAATT -ACAAACTGTTCAATCGCCTGCCGGTTGCTCCAGGACTTAGTGAGCGCCGCCGCAGCAGGCGCATCAAGCC -ACTTGTAAGCCAGATGTTCAGTGAAAACGATCTGCCGCTCGTGCGGAAGCGCAAGACAGAACCATGATTC -CGTATTACGCGTCACGCCCGGCGCATAGCGATGACGTAAATGTGAAAAAATTTCAAACTCTACCGTGCGC -TGACAGTCAATTAAGGTCAGTTGTTCAGCGACAACATCAATGGTGACCTCTTCCTTTACTTCGCGCATGG -CAGCTTGCGGCGCGGTTTCACCCTCTTCCACGCTGCCGGTTACCGACTGCCAGAAATCGGGATCGTCACG -CCGCTGCAACATCAGCACCCGTTTCGTATCTTGTGCGTAGATGACCACTAAGATCGAAACGGGACGCTTA -TACACTTTATCCTTCACGCTGCCTCTTCGTTGACTGCCTTCGCTCATCCCATTCACATAGTTATCTATGC -TCATGGGAGTTCACTCAGTTGCCGCCTCGATGCAACGCGAATGATTTCGTGTATTTGAGTCATATCAGTT -ATTCTCAGCCTTCTTCACAACCTGAATGCTCAGCTCAGCCAGTGCAGTCGGGTTAGCAAAGCTCGGTGCT -TCAGTCATCAGACACGCTGCCGCCGTGGTTTTCGGGAAGGCGATAACGTCACGGATATTGTCGGTGCCGG -TCAGCAGCATGGTCAGACGGTCAAGACCGAATGCCAGACCTGCGTGCGGCGGAGTACCGTATTTCAGAGC -GTCGAGCAGGAAGCCGAATTTCTCGCGCTGTTCCTCTTCGTTGATACCCAGAATACCAAACACCGTCTGC -TGCATATCACCATTATGGATACGTACTGAACCACCGCCCACTTCGTAACCATTGATGACCATATCGTAAG -CGTTCGCCACCGCATTTTCCGGTGCAGCTTTCAGTTCTGCAGCCGTCATATCTTTCGGTGAGGTGAACGG -ATGGTGCATTGCCGTCAGGCCGCCTTCACCGTCGTCTTCAAACATCGGGAAGTCGATAACCCACAGCGGT -GCCCATTTGCTTTCGTCGGTCAGACCAAGGTCTTTACCCACTTTCAGGCGCAGTGCACCCATCGCGTCGG -CAACAATTTTCTTGTTGTCGGCACCGAAGAAAATCATATCGCCATCTTGCGCGGCAGTACGATCCAGGAT -GTCTTCGATGATTTCTGCATTAAGGAACTTCGCTACCGGGCTGTTGATACCTTCCAGACCTTTCGCGCGT -TCGTTAACTTTGATGTAAGCCAGACCTTTCGCGCCGTAGATTTTAACGAAGTTACCGTATTCGTCGATCT -GCTTACGGGTCAGCGATGCGCCGCCCGGAACGCGCAGAGCCGCTACGCGACCTTTCGGATCGTTCGCCGG -ACCTGCAAATACAGCAAACTCAACAGATTTCAGCAGATCAGCAACGTCAGTCAGTTCCATCGGGTTACGC -AGATCCGGTTTATCAGAACCATAACGGCGTTCTGCTTCCGCAAAGGTCATTACCGGGAAATCGCCCAGAT -CCACACCCTTCACTTCCAGCCACAGATGACGCACCAGCGCTTCCATCACTTCACGCACTTGCGGCGCGGT -CATGAAAGAAGTTTCCACATCGATCTGAGTAAATTCAGGCTGACGGTCAGCACGCAGGTCTTCGTCACGG -AAGCATTTAACGATCTGATAGTAACGGTCAAAACCGGACATCATCAGCAGCTGTTTGAACAACTGCGGGG -ATTGCGGCAGTGCGTAGAATTTACCTTTGTGCACACGAGAAGGCACCAGGTAGTCACGCGCGCCTTCCGG -CGTGGCTTTGGTCAGCATCGGAGTTTCGATGTCGAGGAAGCCGTGGTCATCCATAAAACGGCGCACCAGG -CTGGTGATTTTAGCGCGGGTTTTCAGGCGCTGAGCCATTTCCGGACGACGCAGGTCGAGGTAGCGGTATT -TCAGACGCGCTTCTTCGGTGTTGACGTGGTTAGAGTCAAGCGGCAGAACATCTGCGCGGTTGATGATAGT -CAGCGAGGACGCCAGCACTTCGATTTCGCCGGTCGCCATATCGCGGTTAATATTTTTTTCGTCACGCGCA -CGTACGGTGCCCGTGACCTGAATGCAGAACTCATTACGCAGTTCAGAGGCCAGCTTTAACGCGTCCGCAC -GATCCGGATCGAAAAATACCTGCACGATACCTTCGCGGTCGCGCATATCGATGAAGATCAGGCTACCAAG -ATCACGACGACGGTTGACCCAACCACACAGAGTCACCTGCTGCCCCACGTGGGACAAACGGAGCTGTCCA -CAATATTCTGTACGCATGAGATATCCCTTAACTTAGCTGCCGGCGGATGCCCCCTGCTGCGCAGGTGACC -AAGTCGCAGCGTTAGCTGTATGTCACAACTGAATGAAAAAAGGCGGCTATTATACTGGAAATTCTGCCGC -ACCGTAAGAGCCTGGCCCGCGCTGGAACGCCTCGTTACCACTTTATATCGGGCCTGAAATCAGACTCTAC -GCCAGTTTGCTATAAAGGTGTTGCCCGAACTCATAAAAATTAACAAAATTTGTCGTTCCGCCATCGGCTA -ATCGCATTAAGGTGTGAGGCACGATTTTGTTTTTTCAGGAGTCATTATGCTTGAACTTAATGCTAAAACC -ACTGCGCTGGTGGTGATCGATTTACAAGAAGGCATCTTACCTTTTGCCGGTGGTCCACATACTGCCGATG -AGGTAGTTAATCGCGCCGGGAAGCTGGCGGCGAAATTTCGCGCCAGCGGTCAGCCCGTGTTTCTGGTGCG -CGTTGGCTGGTCTGCCGATTACGCTGAAGCATTAAAACAGCCGGTCGATGCGCCCTCACCGGCTAAAGTG -TTGCCCGAAAATTGGTGGCAACATCCTGCTGCATTAGGTGCAACCGACAGCGATATCGAAATCATCAAAC -GTCAATGGGGTGCGTTTTACGGTACGGATCTGGAGTTGCAATTACGCCGCCGAGGTATCGATACAATAGT -GTTATGTGGGATCTCGACCAATATCGGTGTTGAATCCACCGCCCGCAATGCCTGGGAACTTGGCTTTAAT -CTGGTGATTGCCGAAGACGCCTGTAGTGCCGCCAGCGCCGAGCAGCACAATAACAGTATCAACCATATCT -ACCCGCGCATCGCCCGTGTGCGTAGCGTGGAAGAGATCCTCAACGCGTTATGATTTACATCGGTCTACCG -CAATGGTCGCATCCTAAATGGGTGCGGTTGGGGATCACCAGCCTTGAAGAGTATGCCCGCCACTTTAACT -GCGTGGAGGGCAACACCACGCTTTACGCCCTGCCGAAACCCGAGGTTGTCCTGCGCTGGCGTGAGCAGAC -CACAGATGACTTCCGCTTCTGTTTTAAGTTTCCGGCGACCATTTCGCATCAGGCAGCATTACGGCATTGC -GATGATTTAGTGACTGAATTTTTGACCCGCATGTCACCGTTGGCTCCGCGCATTGGGCAATACTGGCTGC -AACTGCCTGCCACATTCGGCCCACGGGAGCTGCCTGCGCTTTGGCATTTTCTCGATTCTCTTCCTGGCGA -ATTTAATTATGGCGTGGAAGTCCGCCATCCACAGTTTTTCGCCAAAGGAGAAGAGGAACAAACGCTTAAT -CGCGGTTTACATCAGCGCGGCGTTAATCGGGTGATTTTAGACAGCCGCCCGGTTCATGCAGCACGTCCAC -ACAGTGAAGCTATTCGCGACGCTCAACGAAAAAAACCTAAAGTTCCGGTACATGCTGTACTGACGGCGAC -AAATCCGCTGATCCGTTTTATCGGTAGTGATGATATGACGCAAAACCGGGAATTATTTCAGGTCTGGTTA -CAAAAATTAGCGCAGTGGCATCAGACCACTACGCCTTATCTTTTTTTACATACGCCAGACATTGCCCAGG -CACCGGAACTGGTACATACCCTGTGGGAAGACTTACGTAAAACGCTTCCAGAGATCGGAGCAGTTCCGGC -TATTCCACAGCAATCTTCTCTTTTCTGAATTTGCCACCTATCATAGACAGGTGCCATCGGCCATTTTAAA -GGGAGTTTGTATGGTAAGCGCGCTGTACGCCGTTTTAAGTGCGTTGTTATTAATGAAGTTCTCTTTTGAT -GTCGTTCGCCTGCGAATGCAGTACCGCGTTGCCTATGGCGACGGCGGTTTTAGCGAACTGCAAAGCGCTA -TTCGCATTCATGGTAACGCGGTGGAATATATTCCCATCGCGATTGTGCTGATGCTGTTTATGGAAATGAA -TGGCGCAGAAACCTGGATGGTGCATATTTGCGGCATCGTTTTGCTTGCTGGTCGTCTGATGCATTATTAC -GGTTTTCATCACCGTCTGTTCCGCTGGCGACGTTCCGGCATGAGCGCCACCTGGTGTGCGCTGTTGCTGA -TGGTGCTGGCGAATCTTTGGTATATGCCCTGGGAGTTGGTTTTCTCCCTGCGTTAGCGCACAATACGCCA -CTTTCTTTTTCCCGGATTTTTACGTTATGTCTCACCGCGACACGCTATTTTCTGCCCCTATCGCCAGACT -GGGCGACTGGACCTTTGATGAACGGGTAGCTGAAGTCTTCCCGGATATGATCCAGCGTTCCGTACCCGGC -TATTCCAATATTATTTCCATGATTGGTATGTTAGCCGAGCGCTTCGTTCAACCTGGTACGCAGGTTTACG -ATCTGGGTTGTTCTCTGGGCGCGGCGACGCTCTCGGTGCGTCGCAACATTCATCATGATAATTGCAAAAT -TATTGCCATCGACAACTCCCCGGCGATGATTGAACGCTGCCGTCGTCATATTGACGCCTATAAAGCCCCT -ACGCCAGTAGACGTCATTGAAGGTGATATTCGCGATATCGCCATTGAAAACGCATCGATGGTGGTGCTGA -ATTTTACCCTGCAATTCCTGGAACCTTCCGAGCGCCAGGCGTTACTGGATAAAATTTATCAAGGGCTGAA -CCCCGGCGGCGCGCTGGTGCTTTCGGAAAAATTCAGTTTCGAAGATGCCAAAGTTGGTGAACTGTTGTTC -AACATGCACCACGACTTTAAACGTGCCAACGGTTACAGCGAACTGGAGATCAGCCAGAAGCGCAGCATGC -TGGAAAACGTGATGCTGACCGATTCCGTGGAAACCCATAAAGCACGCCTGCATAACGCCGGTTTTGAGCA -TAGTGAGCTGTGGTTCCAGTGCTTTAACTTTGGTTCACTGGTGGCATTAAAAGCAGAGGACGCTGCATGA -TCGACTTTGGTAACTTTTATTCTCTGATTGCCAAAAATCATCTTTCACACTGGCTCGAAACGCTGCCCGC -GCAGATTGCTAACTGGCAGCGCGAGCAGCAGCACGGGTTGTTTAAGCAGTGGTCAAATGCGGTGGAGTTT -CTACCTGAAATTAAACCGTATCGTCTTGATTTATTGCATAGCGTTACGGCAGAAAGCGAAGAGCCACTGA -GCGCAGGGCAAATTAAACGCATTGAAACGCTGATGCGCAACCTGATGCCGTGGCGCAAAGGGCCGTTCTC -ACTGTATGGCGTCAACATCGATACCGAATGGCGTTCCGACTGGAAATGGGATCGTGTTCTGCCCCATCTT -TCTGATTTAACCGGACGCACCATTCTGGATGTCGGCTGCGGCAGCGGTTATCACATGTGGCGCATGATTG -GCGCAGGCGCGCACCTCGCGGTGGGGATCGACCCTACGCAACTGTTTCTGTGCCAGTTTGAAGCGGTGCG -TAAACTACTGGGTAATGATCAGCGCGCGCATTTGTTACCGTTAGGTATTGAACAACTTCCGGCACTGAAA -GCCTTTGATACCGTCTTTTCGATGGGCGTGCTTTACCATCGCCGTTCACCGCTGGAGCATCTATGGCAGT -TGAAAGATCAACTGGTCAATGAAGGTGAACTGGTGCTGGAAACGCTGGTTATTGATGGTGATGAGAACAC -GGTGCTGGTACCAGGCGATCGTTACGCGCAAATGCGTAATGTCTATTTCATCCCTTCCGCGCTGGCGCTG -AAAAACTGGCTGAAGAAGTGTGGTTTTGTAGATATCCGCATTGCGGATGTGAGCGTTACCACCACAGAAG -AGCAGCGACGCACCGAATGGATGGTTACCGAATCGCTGGCCGATTTCCTCGACCCACATGATCCGGGTAA -AACGGTGGAAGGTTATCCGGCACCTAAACGCGCGGTGCTGATTGCGCGCAAGCCGTAAAGGTCTGGTATT -ACTGCCGGATGCGGCGTGAACGCCTTATCCGGCCTACAAAACCTTGCTAATTCAATATATTGCAGGGACT -ATGTAGGCCTGATAAGCATAGCGCATCAGGCAGCTTTACGTTTGCATAACCTCAGCGCCCGTTTCCGGGC -GCTATTCACGTCTTACGCCTGAACAGCTGGCTGATCAAACGCCGTTAACTTCGGTGCATTGCCCGTATAT -TTTTCGATATACACCAACGCTGAGTTACCGGCACAGGCATTTGCCAGCTGCGAGCTGGGGATATCCGCCG -TTAACACGTTCGCACTGCCGTTTTTACACAAGCCATTTTCCAGATCTGGCCATGCACCTTCATGCACGCA -TACCACGCCTTTTTTGATCCCGTCAGTCACCACCGCGCCTGTCAAAATCTGACCACGTTTGTTCCAGACA -CGCACCAGATCGCCATTCGCAATACCAAAGCGTGCAGCATCTTCGGTGTGAATAGTGATTGGTTCACGAT -CGGCGATCGCATATTTTTTACGCAGTTCCGCATAGTTAAGCTGACTGTGTAAACGGTGTGCCGGATGTGC -GGTCAGAAGCTGTAACTGCTTCTCGTCGGCGGTACCTTTCCATTCATCAGGAGCCAGCCAGGTTGGGTGT -GCCGGGCAATCCTTATAGCCAAATTTTTCCAACGTTTTTGAATAGATTTCAATTTTGCCGCTTGGCGTAC -CCAGCGCATTTTTCACCGGATCGGCGCGGAAATCACCATAACGAACGTACTGTTCGTTCTTCTCGCTGTG -GCGCATTTCGATCAGTTTATTTTGCTGCCAGAAGGCATTAAACATTGGCATAGTGACGCGTTGCGCACGG -GCACCTTTCTGAGCGGCATCATAGAAAAATTTCAGCCACGCCATTTCATCTTTACCTTCGGTATAGATCT -CTTTTCCGCCAGGTTTGAGTAATTCCGCAAGATCGGCAAACACGTCAAAATCGTTACGCGCTTCAAATTG -CGGAGCAACAGCCTGCTTCATCGGCACAATATGCTGGTTGCTGTAATCACCGGTCATCGTCAAGTCATTG -CGCTCAAACGATGTGGTGATCGGTAATACGATATCTGCGTGTTTGGCTGCTGCGGTCCAGTAGCATTCAG -AAACGACGATCATCTCCGGTTTCTGCCATGCTTTAATCAGACGATTAGTATCCTGGTGATGGGTAAAGTT -ACCGCCACCCGCCCACCAGATCATTTTGATATTCGGATACGTTTGTTCTTTACCGTTATGCTGATATTTG -CCGCCAGGATTTTCCAGCGCATCGACGATACGGGCAACAGGAATCGCCGTCATTCCGCCATCATCAGCGG -CCTCGCTGGCATGTCCGGCAATCGCCGCAGACATTTCCGGCAGCACGCCGCCAACACGCGTCGGGTTGCC -ACCGTTGGAGTAATGATAAGAGAAACCAAAACCGCCGCCCGGTGTACCAATCTGCCCTAACATCGCCGCC -AGCGTCACCAGCATCCAGTGTTTCTGTTCACCATATTGCTGGCGCTGAATTCCCCAGCCTGCCATCAGCA -TTGTGCGATTCGCCGCCATCAGTTCAGCGAGTTTGACTATCTGCGCTTCCGGTACGCCAGTAATTTCCGC -CGCCCAGACCGCGCTCTTCGGCGTATTATCGCTCTTACCTGTCAGATACTCTTCAAACTGCGGATACCCG -GTAGTGTATTTTTCAAGGAACACTTTATCGTGTTTGCCTTGTGTCATCAGGGTATGCGCAATCCCTAACA -TCAGTGCCACGTCGGTGCCCATATTCGGCGCGATCCAGGTGGCATTATCGTCAAAGAATTCGATGGTTTC -GGAGCGGATAGGATCAATGGCAATCACTGGTTTGCCAGATTTTTTCAGCTGATGGAAGTATTCCAGCCCT -TGCTCATCGGTACTGCTCCAGGCAATTTTTAAGGTATTCAGCGGGTTCATTCCCCACAGCACCACAACCT -GGCTGTTTTCCAGAATCAGCGGCCAGGAGGTCTGCTGTTCATACACCTCTACAGAACCGACCACATGCGG -CATGATCACCTGTGCTGCCCCGGTTGAATAATCGCCGCTATGCCCGGAATAACCGCCCGCCAGGTTCATA -TAACGTTGCAGTAAGGTTTGCGCTTTATGCAACACGCCAGAAGAGCGCCAGCCGTAAGATCCGGCAAAAA -TGGCCGATGGTCCGTTAGCTTTACGAATACGATCATGTTGCTCATGAATCAGTTTTAATGCCTGTTCCCA -GCTCACCTGTACATAGGTATCTTCGCCACGACCTTTCGCCGGTTGCAGTGGATTATCGAGATAGCTTTTT -CTCACCATCGGATGCTGAATACGCGCCGTGGTGTGTACCTGATCCGCCGCCGTAGACTGTAAGGAATTCG -GTATGGTTTTCGCCAGCGCGCCTGTTGAAGAAACAATCTTGCCGTCCTTCACTTCTACGTTCATCGCTCC -CCAACGTCCCGCGGTGAGGATTTTACCGCCCTTCTCTTCTGCCCATGCGGGGAGCGGTGCTGCCGATGTC -ACCACCAGCGCTCCAGCGGCAATACCGCTGTGTTTAATAAATTCACGTCTTGTTAATGTCATAACTTCCT -CCCTGATCAACGAGGATCACTGTTTCTCGGTAATATCTTTGGCGTTGTACTGGAAATACCGCGTTAAAAT -GTCCAGTTCGTTTTCGCTCATGCTGGTTCGTGCCCCCATTCCTTTGGCAATGGACGGCCACGCATTGACG -GTGTAATGGTCGGCGGCAATAGGGGCATGACAACCAGCGCAATAGGTATCGTCAAGTTTTTCAGCGTATT -GCCATAGCGGTTTACGGTCCGCTAATGCGGGATCGGTAAGCGCACCCTGTAAAGACGCCTGACGCCATTG -ATTGCCGTATTCGTCAGCCTGCCATTCCCCGTTTACAGTGAGCGCCTTGATACCTTCTTCACTTAATGTG -GCTAGCGCCAGCCGTTGACCTGCCGCCAGGTAGAGCGTGTTTTCACTGCCCTGCATTTGATAACCCTGCA -ACAGAACGATCGGCTGTTTGCCACTGGCATCAACGACGGTGAGATCGGTTCCAGGATTCACGGTAGCCAG -CTCGCCTATGTGAGAAGTTTTGAAAGGATAAATATGTGCGCCATTAGTAACTGAAGTAGCGGCCTGACTT -TCCAGCTCATGCGCCGCGTTGTCATCCATTTTTATTTCTGGCGGAAAATGGGCAATGCCTTTATGACAAT -CGATACAGGTTTCGCTGTCCTTTTGTGCTTTGTTATGCATTTTCTGCGCAGATTCACTTTGCGAGGCAAT -ATCCATGGCATCAAAAGAATGGCAACTACGGCACGTTGCAGAGTCAGTGGCTTTTAATTCTTTCCATACT -GTTTCGGCCATTTCCTGGCGATGAGCTTCGAACTTATCGTCACTGTCTATTTTGCCGCTAACAAATTCAT -GATAAATATCTTTAGATGCCTTTAATTTAGCAAATAAATAATCCATCCCTGACTTTGGAATATGGCAATC -GGCACATTCCGCACGTATCCCTTTCTGGTTCGAAAAGTGGACAGTTCCCTGATATTCCTCAAAAGGTTTA -CTCATCGAGTGGCAGGAAAGGCAAAATGCTGTATCCGACGTTTTATGTAAGACTTTTTGCGCCAGCAATA -ACCCGCCGCCACCAACCACAACCGCTATCAGCAAAAACAATAACCCAATGCGTTTTTTCCCTCGCATAGA -TTCCTCTAATTAAATTACTGGACACCGAAATCATTGTATAATTAAATATACAACGAATTAACCGCTTGCA -TAATTAGGCACAACACTGCCTGAAACAATCGATAAAGAATATGATTTATTACAATGTAATCATTAATTGC -TAAGGAATAACCCAGTTGCTATTTAGAATATATATTTATCAGTTTTAGTAATTTAAATCCCATAATTAAT -GTGAATATATACAATATTTTTAGCACAACGCTATGCGCACTGTCACCCGCTCAACAGATCACGGTTATCG -TTCGTTTTTTATACTGTTCAGGGATAAAAAAAGGCCCCTGTTGAAATTGCAGGGGCCTGGTACGAGCAAG -CATCATATTGGGCGACATGATGCAACGGTAAAAATCATTTGGCCTGATGGCGTTCAATGATTCCTTTCAT -TTCAGCAACCGCCGCCCCGTCTACGATATAACGCGAATACTCGTCCGCGTGTTCATCTGATGACATGGAC -AATCCTTGATTACGATAACGCATCGGTGAGGCTTGCCACGCTCCCGCGGAGCTATGGACTTCCAGCACTC -CGGCATCGAGGAAGTGGTGCAGGTTTTCTGCACGGACTCCTGCTCCGGCCATAATGATTGGAGCATCACG -ATGGGCAATAAGTTCCATAATTTTTGATAAACCTTGCAGTGCGTCTGATTTTTGCCCTGATGTCAGTACC -CGGGCAATGCCCAATTCCGCAAGATTATTGAGTGTATATAAAGGGTTAGCGCACATATCGAAGGCGCGAT -GAAAAGTCACTGCCAGCGGACCGGCAGCAGCCATTATTTTTTCCATTCGTGGCATATCGACATTCCCGTC -AACATCGAGAACGCCCGTCACCAGTCCAGGAAAACCTAATTCGCGGACCGTGCGCACATCCTCAAGAATG -GCGGCAAACTCACCGTCGCTGTAGCAAAAATCACCACCGCGTGGGCGAATTATCGGATGCACAGGGATCG -TCACCCGCTGGCGCACGGATTTCAGTACACCCAACGACGGCGTTAAGCCCCCCTCTTTTGGGGCTGCGCA -TAATTCAACTCTGTCTGCGCCGTTTTGCTGCGCCGTTAGTGCACATTCCATGCTGTAACAGCAAATTTCC -AGTAATGCCATTTTTACTCCTTAATTACGCCGACTGCTCGCTGGCAACGATCTCTTCAATGGACCACGGA -TGAAACTTAATAGTTGTTTTGCCATCGGTGACCGCCAGCGTCGGATTCGGTAATCGCTCATGCTCACCTT -TTGGCGAACTGGTTTTCACTGAGATCCCCGGTAGGCTGAGTCCTTCATCAGAAAGCAATGCCAGCGCACG -GGCATTCAGCGTTTCTGGATCACCCGGCAGAACGATTTCAATATGTTCCCAACCTTCGTGTGGGTAACGT -TTTTCCCCGGGCCACGGTAGCTCCACAATAGAAAACTGCCAGTGCGCAACCTGTACCGGTTCATGCAATT -TAAACAGACAAATCGGTCTGCCATTGATCATATTTTCTGACAAAAGCTCGCCACACTGTTCAAACCCGCG -ACGCCAGCGTTCAGCAGTGGCGTTTTGATGGCAACGCAAAGAAATGTGATCGGCAGTCAGCGGAGTGATA -TTCAACCCCAGACGGCGGGAAAGTTCATCTAATGCGTGGATAAATCGCGGTAAATCCGATGCAATATCCT -GCAGCTCGTCGATAGATTGCCAGTTCGCCATAATCACTCTTCGTCTTTCAGTAAAAGCGTTAATTTACCC -TGTTGCCCTGTGCCAACCAACCGCTGATTTCACGCCGCTTCTGATGCAATAGTGAAAACGGCAATACGCC -ACGCGCACGTTGCTGACGAAAACAGCCATTTGCAGTATACTCCCGCCCTAATTTCTTTAACTGGTGCGGG -CAATTTTTGCTCGCTTCATCAATGTAAGGTATTCCGGTGAATATTCAGGCTCTTCTCTCAGAAAAAGTCC -GTCAGGCCATGATTGCGGCAGGCGCGCCTGCGGATTGCGAACCGCAGGTTCGTCAGTCAGCAAAAGTTCA -GTTCGGCGACTATCAGGCTAACGGCATGATGGCAGTTGCTAAAAAACTGGGTATGGCACCGCGACAATTA -GCAGAGCAGGTGCTGACTCATCTGGATCTTAACGGTATCGCCAGCAAAGTTGAGATCGCCGGTCCAGGCT -TTATCAACATTTTCCTTGATCCGGCATTCCTGGCTGAACATGTTCAGCAGGCGCTGGCGTCCGATCGTCT -CGGTGTTGCTACGCCAGAAAAACAGACCATTGTGGTTGACTACTCTGCGCCAAACGTGGCGAAAGAGATG -CATGTCGGTCACCTGCGCTCTACCATTATTGGTGACGCAGCAGTGCGTACTCTGGAGTTCCTCGGTCACA -AAGTGATTCGCGCAAACCACGTCGGCGACTGGGGCACTCAGTTCGGTATGCTGATTGCATGGCTGGAAAA -GCAGCAGCAGGAAAACGCCGGTGAAATGGAGCTGGCTGACCTTGAAGGTTTCTACCGCGATGCGAAAAAG -CATTACGATGAAGATGAAGAGTTCGCCGAGCGCGCACGTAACTACGTGGTAAAACTGCAAAGCGGTGACG -AATATTTCCGCGAGATGTGGCGCAAACTGGTCGACATCACCATGACGCAGAACCAGATCACCTACGATCG -TCTCAACGTGACGCTGACCCGTGATGACGTGATGGGCGAAAGCCTCTACAACCCGATGCTGCCAGGAATT -GTGGCGGATCTCAAAGCCAAAGGTCTGGCAGTAGAAAGCGAAGGGGCGACCGTCGTATTCCTTGATGAGT -TTAAAAACAAGGAAGGCGAACCGATGGGCGTGATCATTCAGAAGAAAGATGGCGGCTATCTCTACACCAC -CACTGATATCGCCTGTGCGAAATATCGTTATGAAACACTGCATGCCGATCGCGTGCTGTATTACATCGAC -TCCCGTCAGCATCAACACCTGATGCAGGCATGGGCGATCGTCCGTAAAGCAGGCTATGTACCGGAATCCG -TACCGCTGGAACACCACATGTTCGGCATGATGCTGGGTAAAGACGGCAAACCGTTCAAAACCCGCGCGGG -TGGTACAGTGAAACTGGCCGATCTGCTGGATGAAGCCCTGGAACGTGCACGCCGTCTGGTGGCAGAAAAG -AACCCGGATATGCCAGCCGACGAGCTGGAAAAACTGGCTAACGCGGTTGGTATTGGTGCGGTGAAATATG -CGGATCTCTCCAAAAACCGCACCACGGACTACATCTTCGACTGGGACAACATGCTGGCGTTTGAGGGTAA -TACCGCGCCATACATGCAGTATGCATACACGCGTGTATTGTCCGTGTTCCGTAAAGCAGAAATTGACGAA -GAGCAACTGGCTGCAGCTCCGGTTATCATCCGTGAAGATCGTGAAGCGCAACTGGCAGCTCGCCTGCTGC -AGTTTGAAGAAACCCTCACCGTGGTTGCCCGTGAAGGCACGCCGCATGTAATGTGTGCTTACCTGTACGA -TCTGGCCGGTCTGTTCTCTGGCTTCTACGAGCACTGCCCGATCCTCAGCGCAGAAAACGAAGAAGTGCGT -AACAGCCGTCTAAAACTGGCACAACTGACGGCGAAGACGCTGAAGCTGGGTCTGGATACGCTGGGTATTG -AGACTGTAGAGCGTATGTAATCGATTTTTCGTGAGAGTGAAGCCTGATCAGGGTTAGCCGATCAGGCTTT -TTTATTGCCATCTAAATGTATTCTGAAAATGGACATGCCATTGTTTTCTCACTGTTGGATAAGAGGCCAG -AAGCGTAATATCCGGCCCCAGGGAAACGATAACGGTTGAATTTAAGGAATACCGCAGTGTTTAAATTTCT -TGTATTAACATTAGGCATTATCTCTTGCCAGGCTTACGCAGAAGATACGGTTATAGTAAACGACCATGAC -ATTTCAGCCATCAAAGATTGTTGGCAAAAAAATTCAGATGATGATACTGACGTTAACGTGATCAAATCAT -GCCTGCGACAAGAATACAATCTCGTCGATGCGCAATTAAATAAAGCCTATGGTGAAGCTTATCGTTATAT -AGAACAAGTGCCACGCACAGGTGTAAAAAAACCTGATACCGAACAACTTAACTTGCTTAAAAAATCACAG -CGAGCCTGGCTGGATTTTAGGGACAAAGAATGTGAATTAATCCTTTCAAATGAGGACGTTCAGGATTTAA -GTGACCCTTATTCTGAATCAGAATGGCTCTCATGTATGATCATACAGACCAATACGCGAACTCGCCAGTT -GCAGCTATACCGTAACTCTGAAGATTTTTATCCAAGCCCTTTGACAAGAGGATAATTCACATCTTTTTGG -CATGTTTTGTTGCAAGCTATTCCTGATAAATAATTGCAACAAGACATCGAGCCTTTTTCACTGAGTTATT -AAACATACTCGCGAGCGCGTAATTTTTTTGTCCTTCAGCGATAATTCACAATCACTTCATTACGTTGTAC -CTTTAGCGGTGGAATTAACCGCCCACCGCCTGGCACTTCCCAGATAAATCGCAACGGTTCTGCTGCCGCT -ATACCGGAAAAGGCCACGGTGGTTCCGCTCTGCCCCTCTAATTCGACACAACGAGATTGCGAACACAAGC -GAACCCGCAGTCCTGAAGGTGTCGGGCCGATAAGCTGATAACGCCACGCTACCAGCGTCATCAATCCTGA -AGCAGGTTGTCGCGTAGAAAGAGGCGCAGACGACATCGACTCACCGCGATGATTTAGCGTAATTCCTACA -CTACTTGCCTGCCACATCCCCTCCCCGGCGGCTTGCACCAGCAGCGGAAACAATAATATTGCTAATAAGG -TTCTCATTATTTGCCGCCAATTGTCGCCGTCATGCGGATATGTCGGTTATCAGACAGTTCCAGATTCGAC -AGGACCACTAACTGCGGCAAGCTGCGGCGCAGGAAGCGAGACAATAATGGTCGCAGCGCGTGGTTCACCA -ACAATACTGGCGGCGCACCCAGCATCTCCTGACGGGATAGCGCTTCCTGAGTTTGCGCCAGTAAACGATC -CGCCAGCCCTGGCTCCAGTCCTCCCCCGCCCTGCAGCGCCTGTAGTAACAAACGTTCCAGCGGTGTATCG -AGGCCAATAACATGGACTTCATCTTTGCCAGGAAACCACTGCTGGGTAATCGCCCGTCCCAACGCCACGC -GCACGACGGCGGTTAATTCATGTGGATCGCTTTGGATGGGCGCATGTTCCGCCAGCGTTTCGAGAATGGT -GCGCATATCGCGAATCGGTACTTTTTCATCGAGGAGATTTTGCAGCACTTTATGCAGTGTGGTGAGCGTG -ACGACGCCAGGAACGAGATCTTCCGTCAGCTTTGGCATCTCCTGGGCGACGCGATCCAACAGCTGTTGCG -CCTCCTGACGACCAAACAGCTCTGCGGCATGCTGGCTAATGAGGTGGTTAAGATGCGTTGCTACCACCGT -GCTGGCCTCAACCACTGTGTACCCCTGAATCTGCGCCTGTTCTTTTAGCGCACTTTCAATCCAGATAGCA -TTCAGGCCAAATGCCGGATCGACGGTCGCCTCACCAGGTAACGTCCCGGCAGCGGTTCCAGGGTTAATCG -CCAGCCAGCGCCCCGGATAAGCATCACCACTGCCAATCTCCACGCCTTTCATCAAAATGCGATAGCGGGC -AGGTTGCAGATCCATATTGTCGCGAATGTGCACCACTGGCGGCAGAAATCCCATCTCCTGGGCAAATTTC -TTGCGGATACTGCGTATACGGCCCAACAACTCACCATCCTGCTGGAAATCGACCATCGGGATCAGTCGAT -AACCCACTTCCATTCCCAGAGAATCTTCCAGTTGTACATCGTTCCACGTCGCTTCGACAACGGTATTATT -CTCTGCCATTTTTACCGGTTTGGGTTCGGCAGGCGCTTTTTGTTCGCGTCCGCGTATCCACCAGGCCAGC -CCGAGCAATCCGGCAGTGAACAGCAAAAATACCAGGTTCGGCATTCCAGGCACCAGGCCGAGTAAACCGA -GCACGGCGGCGCTTAACAACATAACGCTTGGGTTACTGAAAAGCTGATTCACCATCTGCTCGCCAACATC -CTGATCGGTGCTGACACGCGTAACGATGACCCCCGCGGCGGTAGAAATCACCAGCGCCGGAATTTGTGCC -ACCAGACCGTCGCCAATGGTCAATAGCGTATAACTTTCCGCCGCGTGTCCCATGCTCATGCCATGTTGCA -GCACGCCGACCAGCAACCCGCCGACAATGTTAATGACCATGATGAGGATCCCGGCGATGGCATCGCCGCG -AACAAACTTACTTGCCCCGTCCATTGAGCCGTAAAAATCGGCTTCCTGAGTCACTTCGGAGCGGCGTTTT -TTCGCCTCATCTTCACCAATCAATCCGGCGTTAAGGTCGGCGTCAATCGCCATCTGCTTACCCGGCATAC -CATCGAGAACAAAGCGCGCACCCACTTCTGCGATACGCCCGGCACCTTTGGTAATGACCATAAAGTTGAT -GATCACGAGAATGACAAACACCACGATACCGATAGCGAAATTGCCACCAACGAGGAAGTGACCGAACGCT -TCGACCACCTTCCCTGCCGCCGCCGCGCCGGTATGCCCTTCCATTAAAATGATACGGGTTGAAGCCACGT -TAAGTGCCAGACGCAACAGCGTGGTAAACAACAGAATGGTCGGAAACGCAGCAAACTCAAGCGTGCGCTG -GGTAAACATCGCCACCAGCAACACCATGATCGACAAGGCAATATTGAAGGTAAACAACAGGTCGAGTATG -AATGCGGGCAGTGGCAGCACCATCATCGACAAGATCAACAGGATCAAAATCGGTCCGGCAAGGATCTGCC -ATTGTGTCGATTTCAGGTTTGCGGGCAGGCGCAGCATCGCGGCCAGATTACTCATGGGTCGGTTTCTCGT -TAATAAAATCCAGGGCTTCCGGCACCGGAAGATGAGTAGGTTGTACAGGGCGCTGTCCACCAGCCAGACG -CCAGCGTTTCAGTTGCCAGACCCAGGCCAGCACTTCCGCCACCGCGGCGTACAGTTGACCCGGGATTTGT -TGACCAATCTCCGCATGTCGATACAGCGCTCGCGCCAGCGGCGGCGCTTCAAGCGTCGGGACGTTATTTT -CAGCGCCAATTTCACGAATGCGCAGCGCGACCAGCCCTGCACCTTTAGCGACCACTTTCGGTGCGCTCAT -TTTGTTTTCGTCATACTGCAACGCTACCGAATAGTGGGTCGGGTTATTGACAATGACATCCGCTTTCGGC -ACATCGGCCATCATCCGACGCCGTGCAGCAGCTCGCTGCATCTGACGGATCCGCCCTTTAACATGAGGGT -CACCTTCGCTTTGTTTGAACTCATCACGAATATCCTGCCGTGACATACGCAGCTTTTTCAGGTGGCTGAA -TATTTGGAAAAAGACGTCAAATCCCACCATTGGAATGACACCAAGCACCACCAGCAGTGCGCATAGCCCT -ACCAAATCCATCGCATTACCCATGGCGGTAATCGGAGACTCGGCCATCAAGCGCATCATCTGCGGCCAGT -GATGCCAGAGAAAAAACCCCGTCACGCTGCCAACCAGGATGGTTTTCAAAATTGCTTTAAGCAACTCCGC -GCCAGTCTGAGCCGAGAACATCCGTTTAATGCCCGGTAGCGGGTTGAGTTTGGAAAACTTCGGCTGCAAG -GATTTGCCGCTAAATACCAGCCCTCCCAGCATGACCGGAGAAATGAGCGCCACCAGCACCACGCCGCTAA -TCAGCGGCAGCAGCGCCAGCATGGCTTCTCTGATCAGCAGAATAATCTGCCCGAGGATCAGATTCGGGTC -ATTGATAATACTGTGATCAAAATGCAGCCCAGCGGAGAGCATGCCCGACAATCGACGGGCCAGCGACACA -CCGCCAAACCAGATAACACTAACGCCCACCAGCAAAATCAGCAGTGAGGTCAGTTCACGGGAACGCGGGA -TTTGCCCCTCTTCCCGCGCTTTTTCTAGTCGGTGAGGTGTGGGGGCTTCTGTTTTGTCGTCGCTCTCGTC -AGACACGTCGCCAATCCTGGAAAGAGTATTAAGCGTGAATGATGCCAGAGCGCAAAGCGTTCAATGGTTT -GAGTAAGGGGCAAAACAGGCGGGATTTAGGGCTTTTGCTGCCACACATCAAGCATAGTGTGCGTTTGTCG -GATGCGGCGTCATCGCCTTATCAGACCGCCTGATATGACGTGGTCACGCCACATCAGGCAATACAAATCA -AAATCCAAGACTATCCAACAAATCGTCCACCTGATCCTGACTGGCTACCACACCGGCTTTGCTGGTATCG -ACCTGAGGTCCATTAAGCAAACTCTGGTTTTCACGTTTTGGACGCGACTCCTGTTCCGGGATGTTTTCCA -ACAGCACCATCAGCAACTGGCGTTCGATCTCCTGAATGACATCCATCATCCGCTTAATGACCTGCCCGGT -GAGATCCTGAAAATCCTGCGCCATCATGATTTCCAGCAGTTGCGCGTTAGTAAAGCTGGTATGCGCGGGT -ACATCTGCCAGAAATTGTCGTGTATCTGTTACCAGTTCACGGGCGTCGGCAAGGTCAATCGGATCGGCAA -ACCAGTCATCCCAACGTTGGGTTAACGCTTTTGCTGATTTCTCCATTTGATCCTGATGCGGTTGTGACGC -CTCAACACTGTTCAGCGCCCGCTCCGCAGCCTGGGCGGTCATCTGCACAACATAGTACAAACGATCGCGC -GCATCGGGGATGGCTTCCGCCGCTTCGGCAATGGCCTGATCCAGCCCCAGTTCCCGCAAACTGTCGCGCA -GCATACGCGTCAGGCTGCCGATGCGCGCAATGATATCGCCAGCTGAATGCTCGTCAGCAGGTTTGATTGA -TGGTTGCATCATAGTCGCATCCTCACATGCCCAGTTTCTCAAAGATTTTGTTGAGTTTTTCCTCCAGCGT -CGCGGCGGTAAATGGCTTCACCACATAGCCACTGGCCCCCGCTTGCGCCGCAGCAATGATGTTCTCTTTC -TTCGCTTCTGCAGTCACCATTAACACTGGCAATGCCGACATCGCGCCATCCGCACGAATTGTTTTCAGCA -ATTCCAGGCCATCCATATTGGGCATGTTCCAGTCGGAGATAACAAATCCATAACCGCCTGCCTGCAACTT -ATTGAGAGCGTCGACGCCATCTTCCGCTTCCTCAACATTATTGAATCCCAGCTCTTTCAGCAGGTTACGC -ACTATGCGTCGCATGGTGGAAAAGTCATCCACAACCAAAAATTTAAGTTCTTTATCCGCCATTTCACACT -CCTGATTTAAATACGTATCGCCTGTCCGGCACTAATTTTTGCCAACATTTGCTGGCTTACCTGGCTAAGA -TCGACCACTTCGCAGACACCACCCATATTGATGGCCTCGCGCGGCATGCCGAACACCACGCAACTTGCTT -CGTTTTGCGCAAGGGTCCATGCCCCCGCCTGACGCATCGCCAACATTCCCGCCGCGCCGTCGTTGCCCAT -ACCGGTCAGGATCACCCCAACCGCATTACGCCCCGCCTGTTTGGCGACAGAATGGAACAACACATCTACC -GAAGGCCGATGACGGTTAACCGCCGGGCCATCGTGAATTTTGATTTGGTAATTTGCGCCACTACGCGACA -GCTCCATATGCCGATCGCCCGGCGCAATATAGGCATGCCCCGGCAAGACACGTTCTCCGTCTTCGGCTTC -TTTAACCCCGATCTGGCAAAGCTTATTAAGTCTGTCGGCAAAAGAGCGGGTGAAACCGGGCGGCATATGC -TGGGTAATTAACAGTGCCGGGCTGGAAAGCGGCAACGGTTGCAGTACGTGACGAATTGCCTCAGTTCCAC -CCGTTGAAGCACCAATCGCAATCAGTTTTTCAGAACTCAACAACGGCCCCGCCTTCAGCGTTGTCGGTGC -CGACAATGGCTTATGTGCTGCAAGGCTCGCCTTTGCTGCCGTACGCACCTTTTCAGCAATCATTTCGTTA -TACGCCAGCATACCTTCGCGAATACCCAGTTGCGGTTTGGTGACAAAATCTATCGCCCCCAGCTCCAGCG -CGCGCAGCGTGACTTCTGACCCTTTGCCGGTCAGGGAAGAAACCATCACAACGGGCATTGGACGCAAACG -CATTAATTTTTCGAGGAAATCCAGTCCGTCCATCCGCGGCATTTCAACATCCAGCGTCAGCACATCGGGA -TTGAATTTCTTAATCAAGTCACGCGCGACCAGCGGATCAGGCGCGGTCGCCACCATTTCCATGTCGCTAT -GGCTGTTGATGATTTCTGTCATGATCTGGCGCATCAGTGCCGAATCATCGACAGATAACACCCTGATTTT -GCTCATCGTTAATCCTTACTTAGCGCATACACCGTCTGACCACGCAGCGTGAAGCGGCGCTCAAGGTGGC -TAAAGTTTTCAGAGTGACCCGCAAACAGCAATCCGTCGGGTTTAAGGAGCGGAACAAAGCGGCGCAAAAT -CTCCTGCTGGGTAGTTTGATCGAAGTAGATCATGACGTTACGACAGAAGATCGCATCAAACGGCCCCGGC -ACGGTGTACTGTTTCGCCAGTAGATTCAGCGGGGCAAAATCAACATAGTTCGCCAGCTCCTGACGCACGC -GTACCAGCCCTTCATGCGGCCCCGTCCCTCGCATGAAATACCGTTGCAGTTGCTGCGGCGTCAGGTTTTT -CAACTCTTCATGGCGATAGATACCGCTTCTGGCTTTTTCCAGCACTTCGGTGTCGATATCACTGGCAAAC -ACTTTCCAGCGTCCGGGCGCGGTGCCCAATGTGTCAGCCAGCGTCATCGCAATGCTGTACGGCTCTTCGC -CGGTCGAAGCCGCCGCGCTCCATACGCGATACTCGCCAGAACGGCGACGTGCGTGATCCGCGAGCAGAGG -GAAATGATGTGCCTCACGGAAAAATGCCGTCAGATTCGTGGTCAGCGAATTGATAAACGCCTGCCACTCA -CCGCTGTGCTGATTAGATTCCAGCAAGTTCAGATAATGACCGAAATCCGTCAGTCCCAGCGAACGCAAAC -GACGAACCAGTCGGTTGTAAACCATGTCGCGTTTATGGTCAGCCAGAACGATCCCGGCTCGTTGATAGAT -CAATTGACTTATCCGCCGAAAATGCGCGTCGGAAAGCGCCAGGCGCTCGGTCATCTGTAACAATAAAGAC -GTTTGCCCACAGGGCAGAGATGAAGTCATAGCGCCTTCTCAATCACTTCAGGATACCACTGGCGCAATTT -GTAACTGCACCGACTCATGTCGTGCTACTTCATGTTCTTCAAGGGTAAATACCGCCACACGCGACGAAAG -ATGGTCGGCCTGATTCGCCAGTTGTTCCGTTGCCACCGCCGCTTCTTCTACCAGCGAGGCGTTCTGCTGA -GTCACCTGATCCATCTGGCTGACAGCCTGTGCAACCTGCTCAATCCCCCGCTGTTGTTCTTCCGACGCAG -AGGCAATTTCTCCCATAATGTCGTTCACGCGGGTCACCGAACTGACAATATCGATCATGGTCGCGGCGGC -GTTATTCACCAGTTTCGAACCCTGCTGGACACGATTGACTGACTCTTCGATCAGCCCTTTGATCTCTTTT -GCTGCCTGCGCGCTACGGCTGGCAAGATTGCGCACTTCACCTGCCACTACCGCAAAACCACGCCCCTGCT -CTCCGGCGCGAGCCGCTTCCACTGCCGCATTCAGGGCCAGAATATTGGTCTGGAAAGCAATTCCGTCGAT -AACGCTGATAATGTCGCCAATTTTTTGCGAGCTGGTGGCGATCTCCTGCATGGTGTGAGTCATGGTACTG -ACCTGAACACCGCCCGCCTGCGCCGTTGTCGCGGCATTTTTTGCCAGTTCCGACGCCTGTCGTGCGTTAT -CGGCGTTTTGCCCTACCGTGGCGGTTAATTGCTCCATACTGGCGGCCGTTTGTGCCAGCGATGCCGCCTG -CTGTTCGGTACGACTTGAGAGATCGTTATTGCCTGCGACAATCTCCGCGATACCAATGTGCATCTCCTGG -CTTCCCTTACGCACATCACTTACCGTCCCACGCAAAGCCTGCTGCATGGTCTTCAGACTGGCAAAAATGG -CGGTGATCTCATTACGACCATATACCGCAATCGGACGCGCCAGATTACCCGCAGCAATGCTGTCAAAATG -GCTACCGATAATGGCCAGTGGTTGAACAATCATCTTGCGCGTCCACCACAGCGCACTGCTGATGTAGATC -GCCGCAACAATAATCATGCTGATAAACACCAGTGCCGAAATCTGATAGTTACGCTGGCTTTGCGCACTGG -CGGCTTCCAGCACATGGTTGATCTCCAGCTGCCAGGCCTCAAAGTTAACGTCAAACGCATTCTGTGATCC -CTGCACCGGCGCAGTGAGGAAATCCGAAAGTTGATTACTTTCAAGCCAGGTCGCCTGATGTTCGAGATCG -TTGTGCCAGCGGGCAAAACTTTTCTCCGTCTCTTTTTGCAATCCCCTGACGTGCTCGTTGCCCGCAGTCA -TCGCCATAAAACTTTTAAACAGCGTGGTGGATTGCGTCAGACTGGCGCGCGCCGTCGTCATCAACGTTTT -AATGTCATCCGCCGGATAGCTAAGTGCCGTCAGAGTGCCCGCTTTGTTCAGCGCGGTACTGGCCTGTAAC -ATTACCGCCCGAGTTTGCGCTAATGCCGCACGTTGCTGATTGCTCTGCTCGACCTGATTCAGTCGTTGCA -AATCGTCGCGAAATGCCCAAAAAGACATGCCGTTACTGCCAATCTGCAAGATCCCGCAGAGAATCAAAAT -TAAAAACAGCGTGGTCGAAATTCGAATACGATTAAACATCAACGCTCCCCATCAGGCGGCAATGACCGCG -TTAGTAAATACTCGTCAAAATGTTTCCCAGTTTGGATCTTGTTCAGCAATTCGCAGTCGTGGCTGAGCCG -GTGGTTGCTCACTGGCAGGACGGGATGGTGTTTGCGGTTTATTGGTGAGTGGGCTGGCTGCCAGACGGAA -CGCGGAAACTGCTTGCGTTAAACGACTCGCCTGTTCTTCCAGCGCAGCGGCGGCGGCAGCTGATTCCTGC -ACCAGCGATGCGTTCTGTTGCGTGACGCGATCCATTTCCGAAACCGCCAATGCGACTTGATCGATGCCAC -GGCTCTGTTCATCCGATGCCGATGCAATCTCGCCCATAATGTCAGTCACGCGAGTGACAGCATTGACGAT -ATTGTTCATTGTTTCCCCGGCGCTTTCGACCAGCACCGAACCGGTATCAACGCGTGAGACGGAGTCTTCA -ATGAGGGCTTTGATCTCTTTTGCCGCCTGGGCGCTGCGACTGGCAAGATTACGCACTTCACCCGCCACCA -CGGCAAAACCACGGCCCTGTTCACCCGCACGCGCGGCTTCAACCGCGGCATTCAGCGCGAGGATATTAGT -CTGGAAGGCAATACCGTCGATAACGCTGATAATGTCGGCAATTTTCTTCGAACTATCGGCGATCTCATGC -ATCGTTTTCACTACGCCATCCACCACTTTGCCGCCGTGCTGGGCGGTGTCGGAGGCACTTTGCGCCAGTT -GCGAGGCCTGGCGGGCGTTATCGGCGTTTTGCTTCACTGTCGCGGTGAGCTGCTCCATGCTGGCGGCAGT -TTCTTCCAGCGCGGATGCCTGCTGTTCAGTACGGGAGGAAAGATCGGTGTTGCCCGCCGCAATTTCACGG -GTACCGGCATAGATGGCATCTGAACCTTCGCGGACATGAGTGACGGTGTCAGTCAAAGAGCGTTGCATAT -GTGAAACGCTCTGCGCCAGGTCGCCCATTTCACTGCGCCCGTCAATGGTCAGGGTATTCGCCAGGTTACC -ACCGGCGATTTCGCGAATGTGAGCAATAATTTTTGCCAGCGGAGTAAGCAACATACGGCGAATGCCGTAC -CACGCCACCAGCAGAATCAATACCACCACCAGCGCGATAACCGCCAGTTGCCACTGGGCAAATCGGTAAT -CATCTGCGTTGTCAGTGACGATATCGCGATACAGTTTTTCACTGCTGAGGGCGTACTGAGCAAACGCTTC -GCCCATTGCATTTTGCATTCCCTGGGTTGGCTGAGCGAAATAAGCTCCAGTATTGCCATAATCTAGATAA -TCAATCAGTTCAGTTAACGCTGTGTAATAGTTTTTATATTTTTCATCAATATTACGACTGGTAGCGACCA -TTTCAGGTAACGGTGCCATGCTTTTGAATTTTTTATAATGCGTCGCTGCCTGCGCCAATGTTTTCCTGGC -GCTATCGAGCAATTCAACTTTGGCGTTACTTTGTTGATTGGAGGAATCCATCATCATCCGTACCGCTGAA -CGACTCAGGTTAATGCGCGTTTGCAGCATTAAATCCCAGGTTGACGTCAGCTCGCCCTGCTGTTCCCGTA -ATTGATTGGAAACCACAAAGCTCTTCTGGCTATGGTGAAGGGAAGAAAAAAACAGACTGCCGGAAATAAG -CTGTAACAGTGCGAATACCCCCAGCACCATTACCAACAGCGTGACTACGCGGATACGGTTAATCATAAGG -CACCTTCCTGAAAACAAGTTGATCTCGTTATCGGCAAGGAGGGGGGAAACTTTATTGCTGATGCCACCCG -CCGCGAAATTGAAATAAAAAACCCGATGCGCAGATCATCGGGTTCATTTCAATTGAGGAAATCGGGAGAA -TTACGCCACTTCTGACGCCGCGCTATCTAACAGCGCCATCTCTTCGCTGTTCAGCAGTTTTTCGATGTTC -ACCAGAATCAACATCCGGTCGCCCAGTGCGCCCAGTCCAGTGAGATATTCTGTTGAAAGCGTCACGGCAA -ATTCCGGTGCCGGACGAATTTGCTCCGCCGTCAATGAAAGCACGTCTGAGACGCCGTCAACCACGATGCC -GACCACCCGCTGTCCGAGATTCAGGACGATAACTACCGTGTTGTCGTTATAGTCCACATCCACCTGGCTG -AACTTAATTCGTAAGTCAACAATCGGCACAATAACGCCGCGCAGATTCGTGACGCCTTTGATAAACGCTG -GCGTGTTCGCAATCCGTGTTACCTGATCGTAGCCACGGATCTCCTGCACTTTCAGGATATCAATACCGTA -CTCTTCATCACCAAGGGTAAATACCAGAAATTCCTGGCCTGACGGCTCGCTGGCCAGCTTTGTTACATTC -GTCATACCGGTCATATTGTTACCTTTTTACTCATTCAGGCGGCGGTGTTCGCCATACGTTGTTCGCGGTT -TATCGCCTGCAAGGCGGAGACATCAACAATCAGTGCCACGCTGCCGTCGCCAAGAATGGTCGCAGCAGAA -ATGCCGGGGACTTTGCGATAGTTACTTTCAAGGTTTTTAACCACAACCTGGTGTTGACCAATTAATTGAT -CCACCAGCAAGGCGTAGCGGCGACCGCCACTTTGTAAGATCACCACAATTCCCTGGGTGGCTTCGGTTTT -CGCGCCCGCGACGTTGAACACTTTCCACAGTTCGACGATGGGCAGATATTCACCCCGCACTTCCAGCACC -CGCTCGCCGCCGGCCAGTGGATGGAGATCGGCTTCACGGGGTTGCAGTGATTCCATAACAGCATTCAGCG -GCAGAATGAAAACTTCATCCGCAACGCGTACGGACATGCCGTCGAGGATGGCCAGCGTCAGCGGCAGTAA -AATGCGGATCGTAGTGCCAGTACCCTGCTTCGACTGGATTTCGACATGACCGCCCATCTTCTGGATATTA -CGTTTAACGACGTCCATGCCGACGCCGCGCCCGGAGACGTCGGTGACCTGCTCTGCCGTGGAGAAGCCAG -GTGCAAATATCAGCATCGCGACTTCGTCGTCGCTCATGTTTTCGCTGACAGTCAAACCTTGCGAGGCCGC -TTTTGCCAGAATTCGCTCACGGTTTAGCCCCGCCCCATCGTCGGTCACTTCAATGCAAATGTTGCCGCCC -TGATGTTCGGCAGACAGAATTAAATTTCCGACGCTGTTTTTACCTGCGGCGAGCCGTTTTTCTGGCAGTT -CAATACCGTGATCGAGGCTATTGCGTACCAGGTGGGTCAGCGGGTCGATAATGCGTTCTATCAGGCTTTT -GTCGAGTTCAGTAGAACTGCCCACCAGCGTCAGTTCTACCTGCTTGCCGAGTTTTCCCGCCAGATCACGC -ACCAGCCGGGGATAGCGACTAAAAACATATTCCATCGGCATCATGCGAATCGACATCACTGATTCCTGCA -AATCACGGGCGTTACGTTGTAACTGCCCCATGCTGGTTATCAAATCACCATGATTAACCGGGTCCAGTTC -GCTGGAACGCTGGGCAAGCATGGACTGGGTGATAACCAGCTCGCCGACGAGGTTAATTAATTGATCAACC -TTTTCTACCGCTACACGGATGCTGGTGGATTCATTGCTGCGCGTCGTTTTTTCCCGCTCCACGCGGCCGG -TTGGCGCTTGTTCGGCTGCCAGTTTAAGCACTGGTGGGGTGGATATTTTTGGCGAGACTTCTACTGTTTC -AAAGGTAATCTGATCGGCTTCAATCACAAAACAGAGTACCGCTGTGATGTCATCTTCGGCGATGTCGCCC -GGTAATATTGCCGAGAGCGAATCCGCCCCTTTCACCACGTCAGTTAACGTTGTCAGATGTCCCAGTTCTT -CTTCCAGCAGGTCGACTTCCCCGGCCTTCAGGCGCGAAAGGATAATTCGTCGCGGCGACTGACTGCGACT -CTGCTCATCTTGCGGTTCACTTTTGGCAACCACACTTAATCGGGTCACTGCGGATGGCGTTTCGCCTTTC -GCTTCTAATGCCAGTTGACGCAAGGCCTGGCAGATATAATCGAAGCTGGCGGCATCCGGCTCTTGCGACT -GTTTATAAGCGTCGAGCTGTTCTTGCATGATGTCCTTCGTTTCCAAAAACAGATTGATAATGTCGGTGTT -GAGTTGCATCTCACCTCGTCTGGCTTCATCGAGCAGGTTTTCCATCAGATGCGTGGTTTCCTGCAAAACG -CTGAAGCCAAAAGTTCCTGCCCCTCCTTTGATCGAGTGGGCAGCCCGAAAGATGGCATTCAATTGTTCGG -CATCTGGCACTTCCGGCTGCAAAACCAGCAAATGCTGCTCCATGTCAGCCAACAGTTCGTCCGCTTCATC -AAAAAATGTCTGATAAAAATCGCTTATATCCATGCTCACGCTGTCACCTCGGTTCGGCTGATGGCATTGT -GGGAACACTGACCTGTGGTGCAACCTCAGGTTTTTCCAGGGCGCTTACTGGCTCATTCTGGCTTTCGGCG -TTTTCATGCAAAATGGCCTGTTCGGCTTGTTTGTTCAGTACCAGCAGGCTGATGCGACGGTTGACGGCAT -CATCAGGTCCGCGATCGCTTAAGCGCATCGTTGCCGCCATGCCGACGACACGTAACACTTTGCCGCTATC -CAACCCTCCGACCATCAGTTCGCGGCGGGATGCATTGGCCCGATCGGCAGAAAGCTCCCAGTTGCTATAT -CCTTTCTCACCGCTGGCGTAGGGGAAATCATCGGTATGACCTGAAAGGCTAATACGGTTGGGAATACCGT -TCAGTACAGGCGCAATGGCGCGCAGAATGTCGCGCATATAGGGTTCGACATCGGCACTGCCGGTTCTAAA -CATCGGGCGATTCTGGCTATCGATGATCTGAATACGTAGACCTTCCTGGACCAGATCGATTTTGAGATGG -GGACGTAACGCCCGCAGTTTCGGATCGGACTCTATCAACTGGTCGAGATCACCCCGCAATTTCCGCAATC -GACTTTGCTCCATGCGTTTTTTCAGCTCTTCGATGTTCGGCTGCTTATTCACTTCCCCCTGGCTTTGGGT -GTAATCATCACCACCGCCGGGAATTGGGCTTTCACTATTAGAAATGCGATCGCCGCCCGTAACCGCAGTC -GCCAGTGGAGTCCGGAAGTACTCCGCAATCTGAATCAGCTCTTTTGGGCTGGAGATGGAGATCAGCCACA -TCACCAGAAAAAAGGCCATCATCGCAGTCATAAAGTCGGCATAAGCAATCTTCCACGATCCATGTGCTGC -CCCGTGGCTTTTGGCTTTGCGTCGTTTGACGACAATAATCGGATGCGCTTGATTCTTCATGCTTCCTCGG -TTGTCGTCTGTTGTTGCGGATTTTTCACCGCACGCACATGCTCTTCCAGTTCAATAAACGACGGACGTTC -GCTGGAATAGAGCGTTTTGCGACCAAACTCAACGGCGATAGGCGGTGCGTAACCGTTCAGATTAGAAAGC -AGAGTGACTTTGACGCACTGCATCATTTTGCTGGTTTCGGCGCTTTTCTGACGTAAAACAGTCGCTAATG -GGGAAATAAATCCGTAAGCCAATAAAATGCCGAGGAAAGTCCCCACCATCGCATGTGCGATAAGCGCACC -CAGCTCGGCGGCAGGACGATCGGCTGAACCTAACGCGTGAACGACCCCCATTACAGCCGCAACAATACCA -AACGCCGGAAGTGAGTCCCCGACCAGCGCCAGACTGTTCGCCGGGACTTCTGCCTCGCTTTCGTGCGTCT -CAATCTCTTCATCCATCAGAGCTTCGATTTCGAAGGTGTTCATGTGACCGCTGATAATCAGGCGCAGATA -ATCGACGATAAAATCAAGCATGACGCTATCCGCGAGGATGCGTGGGTAGCTGGCGAAGATCTCGCTCTCA -CGGGGATTTTCAATATCACGTTCCAGCGAAAACATCCCCATCTGCCGCGATTTCGCCATCAACCGATAAA -GCAGAGCCAGCAGATCCATATACATTGCTTTGGTGTATTTGGAGCGACGAAACAGCAACGGCAGCGCCTT -CAGCGTGCCTTTAATCGCTTTGCCATTATTGCCGACGATAAACGACCCAATCCCTGCACCGGCAATAATC -ACCAGTTCAGCGGGTTGATAGAGTGCTCCAAGGCTTCCACCGGTCATCAAATAACCGCCGAAAACTGTAC -CGAGAACAACCAGGTAACCTAATAAGATAAGCACGACATCATCCTTCCACTGTTGACCATGACAGGATGT -TCAGTCGTCAGGCGTTAACGCGCGATTGGGGCAAAAAAAAGCAGCGGTACGTCGTTACCGCTGCTGGAAT -GTTGCGCCTCACCGTATCAGTTAAACAGCCTGTACTCTCTGTTCATCCAGCAGTTGTGGGATAATATCGG -CAGGATTCTGGGAAAGTTTACGTCTTTTTACTGCCCGGGATGGCGGTTGACATAAGCTGCAGGCAAAGCT -GCCAACAGGCTGGTGAGCGTGGGTAATAAAATTGCCGCCGCAGCAGTTGCAGCTGGAAAGTTGCAGCTGG -AAAGTTGCAGTAATCCACTTTCAACAAACCGCACCAATGTCCAGGCACGGGTTAATGCCAGCAGTGGTCC -TTCTTCTGCTTGTGGGCACTGTTCAAGGTATAAACGGTAGGCTTTGATCACCGCATCGACGCCATTACAC -AAACCGGTTTTCAGTAAAAACTGCCATGCATTACAGAACATCGAAGCATGAACGTTTTGTTCCCAGGTCA -TAAACCAGTCGGTTGAGAATGGCAGCATGCCTTTCGGCGGTGGGCTTCCGCGCAGTTCTTTATAAAGTTT -TATCAGGCGTCCGCGACTTAACTGTGTTTCGCTTTCCAGCATCTGCAAACGAGCGCCCAGGGTGATCAAT -TCCATTGCCAGCTGAATATCCCGCGCTTCCTGAACAATGCTTTTTTCACTCATGATCAGGCCCTTTTCTT -GCGCAGCGCTTCTTCAGGCTGATTAACATCATTCAGCAAGCGTGTTGAGAGCATGATGCCGGTATGAATT -TGCTGGAGATCGTCAACGCGGGAATCTTGCGTCAACTGAGTAATCGTCTGGTGGCTGTCAAAACGGAAGT -GACAAACCAGTTGATTGGTTTCTGCCAGCTTAACCATTTGCGGAAGAGTCAGTGCCGCTAACGTTGTCGC -CATTTCTTCATTTATGCCGAGACGAAACATAGCGGACGCTTTGTCCTGAACAATCAAACGCTGTGCAAGT -AGTAAATATGACAAGTTGATGTCATAAATGTGTTTCAGCAACTCGGAGGTATGCATTATTCCCACCCAGA -ATAACCAACTTTATTTTTATGCGGTTTCACCGCACCCCGTGATGTCGCCGGGAAGCCCCGGTAAAAAATA -ATTAGCATTAGAATAGTTGCGATAAGCTGCAATAAGCAGAACCACCTTTTTGGTTTAATATGTCCTTACA -AATAGAAATGGGTCTTTACACTTATCTAAGATTTTTCCTAAATCGACGCAACTGTACTCGTCACTACACG -CACATACAACGGAGGGGGGCTGCGATTTTCAATAATGCGTGATGCAGATCACACAAAACACTCAATTACT -TAAGGAAGGTGCGAATAAGCGGGGAAATTCTTCTCGGCTGACTCAGTCATTTCATTTCTTCATGTTTGAG -CCGATTTTTTCTCCCGTAAATGCCTTGAATCAGCCTATTTAGACCGTTTCTTCGCCATTTAAGGCGTTAT -CCCCAGTTTTTAGTGAGATCTCTCCCACTGACGTATCATTTGGTCCGCCCGAAACAGGTTGGCCAGCGTG -AATAACATCGCCAGTTGGTTATCGTTTTTCAGCAACCCCTTGTATCTGGCTTTCACGAAGCCGAACTGTC -GCTTGATGATGCGAAATGGGTGCTCCACCCTGGCCCGGATGCTGGCTTTCATGTATTCGATGTTGATGGC -CGTTTTGTTCTTGCGTGGATGCTGTTTCAAGGTTCTTACCTTGCCGGGGCGCTCGGCGATCAGCCAGTCC -ACATCCACCTCGGCCAGCTCCTCGCGCTGTGGCGCCCCTTGGTAGCCGGCATCGGCTGAGACAAATTGCT -CCTCTCCATGCAGCAGATTACCCAGCTGATTGAGGTCATGCTCGTTGGCCGCGGTGGTGACCAGGCTGTG -GGTCAGGCCACTCTTGGCATCGACACCAATGTGGGCCTTCATGCCAAAGTGCCACTGATTGCCTTTCTTG -GTCTGATGCATCTCCGGATCGCGTTGCTGCTCTTTGTTCTTGGTCGAGCTGGGTGCCTCAATGATGGTGG -CATCGACCAAGGTGCCTTGAGTCATCATGACGCCTGCTTCGGCCAGCCAGCGATTGATGGTCTTGAACAA -TTGGCGGGCCAGTTGATGCTGCTCCAGCAGGTGGCGGAAATTCATGATGGTGGTGCGGTCCGGCAAGGCG -CTATCCAGGGATAACCGGGCAAACAGACGCATGGAGGCGATTTCGTACAGAGCATCTTCCATCGCGCCAT -CGCTCAGGTTGTACCAATGCTGCATGCAGTGAATGCGTAGCATGGTTTCCAGCGGATAAGGTCGCCGGCC -ATTACCAGCCTTGGGGTAAAACGGCTCGATGACTTCCACCATGTTTTGCCATGGCAGAATCTGCTCCATG -CGGGACAAGAAAATCTCTTTTCTGGTCTGACGGCGCTTACTGCTGAATTCACTGTCGGCGAAGGTAAGTT -GATGACTCATGATGAATCCTGTTCTATGGCTCCAGATGACAAACATGATCTCATATCAGGGACTTGTTCG -CACCTTCCTTAACATAAATGTATAAGTCATACTTTTGTTTTGGGTGTATTTCAATCTGTTAAAAAGTTTT -TCGCTACGCTAGCAAGCAAAAATGAAACAGGAATAATCGAAATGGGATGTTGCGCACAGTCAAAATAACT -CACCGTAAATAATCATCTGCTATAAATAATCACTTTCATGCAATACCAGATAAGCTATTTTTAAACAGAC -ACTTACCGCACAACAAACTAATTAAATACAAAGAAAGGCAACAATCAACTTAATGTTAATGAAATGTTTT -ACATATATTAACCACTTGTTTAATGCGGAGAATCAGTACACTATTTTCTTATAATTACATTTGAAATTAT -ATGATCACCGGGAGTGATTGATTAATTATCTTTACTAATAATCAGACTAATATTTACCTGTTTGACCGAG -TTGGGATTGCGTCGTTTCTCCATTAGGAGTAAAGCTTTAATGTCACCTGAAGTTCACAGAATAAGGAACA -GGTTATGAGCTATAGCAATATTCTTGTCGCTGTTGCGGTTACACCGGAAAGTCAGCAACTGCTGGCAAAA -GCGGTATCTATCGCCAGGCCAGTAAAGGGACACATCAGTTTAATTACTCTCGCTTCCGACCCGGAAATGT -ACAATCAATTAGCTGCGCCGATGCTTGAAGATTTACGCAGCGTGATGCATGAAGAAACGCAAAGCTTTCT -TGATAAGTTAATTCAGGATGCGGGGTATCCCGTTGACAAGACGTTTATTGCCTACGGTGAGTTAAGCGAA -CATATTCTGGAAGTATGTCACAAGCATCATTTCGATTTGGTGATTTGCGGTAATCACAATCACAGTTTCT -TTTCGCGAGCATCCTGCTCGGCGAAAAGAGTTATTGCCTCAAGTGAGGTCGATGTGCTGTTAGTTCCACT -TACGGGAGATTAACCGCTCCTACGCAAGCTTTGGAAAGGTAGCAACTTTATCGCGCTGCTGGCTTTCCGC -GCTTCGCGGAACTATCTGCTTTAGGTCGCTAATGAAGCACTCCTGCCAGTGGTTAATATCGTTTTTCACG -ATAACGTCCAGCATTTCTGCATGACGGGAAATACGTTCCGCCAGCGACATAGTCAATGCACGATCCAGCG -CAGCTGCAACTTCGTCACGATCGTAGGGGTTAACAATTAACGCCGACGTTAACTCGTTTGCCGCTCCCGC -AAATTGCGAAAGAACAAGAACGCCCGGATTGGCTGGGTCCTGAGCAGCAACATACTCTTTTGCTACCAGG -TTCATCCCGTCACGCAGTGGCGTCACTAAGCCCACGTCAGAGTAGCGGAATATTTTCATCAGTAATTTAC -GGTCAAAATGCTGATTCAAATAATAAAGCGGCGTCCAGCCTAATTGCCCGTATTTACCATTAATTCGTCC -AGCTTCATTTTCGAGCTGATGACGAATATCCTGATAGGCTTGCACATCACCACGCGACGTTGGTGCAATC -TGGGTATAACGAATTTTACCATGATGCTGCGGATATTTTTCCAGCAACGCTTCATAGGCGAGAAAACGCT -CTGGCAAACCTTTGGAATAATCCAGCCGTTCGACAGAAAAGATATTTTGTACGTTTTTCAGTTCCGCTTT -AAGTTGCGCCAGTTTTGGCGGCAGTGGCCCGGCAGCCTGTTTGGCTATTTCTTTCGGTTCAATGCCGATC -GGGTAGACTTCTGTTCGAAATGCTTTGCCCCAGGCTGTATGGCTTTTTGCGCTACGTGTCGTGACGCGGG -TCAGGTTAGAAAGACAATCCAGGAACGCCAGACGATCGTTTTCTGTCTGGAAACCCAGCAAATCATAATC -ACAAAGCTGTTCAAGCAAGGTGTCATATGTCGGCAGCGCGTTGAAGATTTCCGGTGTCGGGAAAGGAATA -TGCAGAAAGAAACCAATGCGATTATTCACTCCCCGTTTGCGTAATTCATGCGCAAATGGCAACAGGTGAT -AATCGTGGATCCAGATAATGTCATCGTCTTGCAACAGCGGCAGTAATTTATCTGCCAGCAACGCATTTAC -GCGTAGATAGCCGTCCCAGGCAGGACGCTGAAATTGCACCAGATCGAGCCGATAATGAAAAGCGGGCCAG -AGAACGGCATTGGAGAATTGGTTGTAGTATTCGTCAAGGTCCTGTTCGCTGAGGTTAAAAGAGGCCCACG -TAATGTTACCTTTTTTCACCTTTTTTAGCGGCTGATCCTCATTCCCTGTTTCACCACTCCAGCCAAACCA -CAGTCCGCCTGCGGCTTTCAGTGCCCCCAGTATGCCAACGGCAAGGCCACCGGCACTGGCGGCGTGCTCG -TCTGGTGGTGCAATCCGGTTAGATACTACGACTAAACGACTCATAGTCATCACTCCTGTTATTTTCTCTT -TTTTGTTGTAATGCGGTGGTTATCATTTCAAGCCAGCTCCAGACATCCGGCACACCCGCCAGTCGCCATG -ATGCCTGAGTTGCACCTGTGCCAATTTTTACTGACATTCCGCCCAGTCGGTTAACGACTGCGAAGCCAGA -TTCATCGGTTAAATCATCGCCCAGAAATACGGGCGTTCGCCCGATAAAGGGAGCTTCCTGCATAAAAGCT -GCAATTGCCTCACCTTTACTGGTACCTCTCGGTTTGATCTCGACAACACACTTTCCCTGCTGTAACGCCA -TTTGTGGCCAGATCTGAGTAATACGTTGCGCTAATGTCATTAATGCGTCTTCATGCTGCGGAGCCTGACG -ATAATGCAGCGCAAAAGCCATCCCTTTCGCCTCCAGCTCCGCGCCGGGATACTGAGCGATGACTGTATGC -AGTTGCACGCTAATATCACGCGCAATCGCATCCGGCAGATGAACGATATGTGTTTTACCATTGATGTCAC -GGCGCTCCGCCCCATGCACGCCCGCTAACGGGAAGCGATAAGGTTTTGCCAGTGCGTCAAGCTCCACCAT -TGAGCGCCCTGATATCAATGCCAATGCACCATCACTTGCGGTTGCCAGTAGCTGTAGTCCTTGCAGAATA -TTGTCAGGCACGACGACCTGATCGGGATGCGGTTTGATTTCCGCCAGCGTTCCATCAAGATCAAAAAACC -AGGCATATTTCGCGGATAGTTCAGGGGTTTCGGTTAACGGTTCTGTCACCCGGTTCTCCTCCTTCTCTTT -TCTTATTGTGTTGCGCAGAACGCGCTTTACAGACATGTAAGTATAGACAGTGTGACGGGGGTCGCCATTT -GCAACGAAGAACAGCCAACCGTTATGGCGGTTGGCTATGGTGGGAAAAAACGCTAAATTGTTGCAGAAAA -AAGCATCAGACAGTGCGTTTCGCTTTTTGCTTGTAACGGTCGAAGATCACCGCTGCCAGCAGGATTAAGC -CGCGAACCACGTACTGCGCGAAAGGAGAAATATTAAGCAGGTTCATGGCGTTTTCCACGGTGCCTAAAAT -TAAGATACCCGCCACCACATATGAGATTTTTCCGATGCCACCTTTCAGAGAAACGCCACCTAAAACGCAG -GCGGAGATAACAATCAGCTCATAACCAATCGACGTCATTGGCTGCCCACTGGTCATACGTGAAGCCAGAA -TAATTCCGGCTATCGCTGATACCAGGCCTGAGAGAACAAAGATAATAATTTTGGTGCGAACAACCGGTAC -ACCCGCCAGACGCGCGGCCTCTTCGTTCCCGCCAATCGCCAGGGTGTTACGACCAAAGGTGGTTTTATTC -AGCAGCAAACCAAAGATAATCAGACACGCGACGGTGAGCCAGATTGGCGCAGGCAGACCGAACCAGTTGG -CGTAACCAAGGGCAAAGAAGCTTTCATCTTCGATACCGACCGCTTTACCGTCTGAAATGATGTACGCCAG -ACCTCGAACAATCTGCATCGTTGCCAATGTCGTGATCAGAGCATTTATTTTCAGTTTGGCGATAACAAAG -CCATTGACCAGGCCACAGAGAACGCCCAGCAACAACCCCGCTGCCACGCCAATCCACAGGCTTTCAGTCA -GGTTAATAACCACCGCCGTGGTGACACCCGCACAGGCAATTACGGAGGCGACAGAAAGGTCAAAGTCACC -GGAAGCGAGGCAGAACAACATGCCACAAGCCACCATCCCCGACATGGAAATTGCCAGGCCCAACCCTTTC -ATATTAATGAAGGTGGCAAAATTTGGGACAAAAATGGCACAGGCGATAAAGAGCACCGCAAACACCACCA -GCATGCCGTACTGATCCCAGATACGCCCGAAGCTGAATGACGACTTAGGTGCGCCAGACCCCGATGTAGA -AACAGAAGACATCATACTCTCCTTACTCAGGCAACAGCCTGGCTGACTTTAGGCATCGCAAGGCTCAGTG -CCTGACGCTCATCTGCCTGCTCGTGTAACAATTCACCGGCGATTTCACCTTCCCGCATCACCACAATCCG -GTCGGCAACGCCGAGGACTTCAGGTAAGTCGCTGGAGGCAAACAGCACCGCCACGCCCTGCGCCGCCAGC -GCATAAATTACGTTATATATTTCGTGCTTAGCGCCAACATCAATGCCGCGCGTAGGTTCATCCAGCAAAA -TGACCTTCATCTCTTCCGATAACCAGCGGCCCAGAATGGCTTTTTGCTGATTTCCGCCTGAGAGATTCAT -GATCAGTTGCTCCGCGCCCGGCGTTTTGATGTTGAGCGAACGAATGTGGTGATCGGCATTGTTTTCTTCC -CAACCGTTGTTGATTACACAACCGCCGAGCACATGTTTACGTCTGGCACTGATGTTGATATTGTCGCGAA -CGGAGTGCACGGGAATAATGCCTTCCGCTTTGCGATCTTCCGGGCAGAGCATCATGCCTGCGGCAATGGC -GTGGCTCGGTTTACGAATATCGATCGGCTGTTGGTCGATATAAACCTGACCGGCGGTGATTTGCGTCCCG -CCAAACATGCCTTTCATTAATTCGCTACGCCCCGCCCCTACCAGACCAAACAGCCCAACAATTTCACCAC -TGCGAACCGCCAGACTTATTGGCGTACGCACGCCTGGTGCTTTCACAGCATCAAGACGTAGGCGCTCCTC -GCCATAACTACGCGGTTGCCAGCCGTAGATATCGCCAATGTCGCGCCCGACCATCGCCTGCACCAGCGCG -TCGTGGTCAACCTGCTGCATATCGGTAAAGGTTTTGACATAACGTCCATCTTTAAAGACAGTAATGGCAT -CGCTGAGGGCAAATATTTCTTCCATACGGTGAGAAACGTATAAGATTACCCGCCCCTCTTTTCGCAGTTC -ACGAATAACGCGGAAAAGATTGTCGATTTCACGGGCAGAGAGGGAGCTGGTTGGCTCATCAAAGGCGATA -ATTTTGGCGTTACGCGCCAGCGCTTTGGCGATTTCAACCATCTGCCACTGACCAATGGAGAGATATTTCA -GCGGCGTGTCCGGGTCAATATCCATACCAAGATGTTTAAGTTGTAAACCCGCCTCATAATTCAGCAATGA -GCGATTCACAATGCCGCCTTTATGCGGCAGCTGGCCGAGATAGATGTTTTCCGCGACGGTCATTTCCGGC -ACGAGATGCAGTTCCTGGTAAATAATCGCCACGCCCGCGTTAAGTGCTGCGGTCGTGTCGGAAAAGGACA -TTTCCTGCCCATTAATCACTACAGAACCCGTGGTTGGCGCATAGTTGCCGCTGAGGATTTTTAAGAGAGT -TGATTTTCCTGCGCCATTTTCACCCATCAACGCATGAACCTGACCGGCATAGCAGTCAAAACTAATATCC -GTCAGCGCCTTAACGCCGGGAAACGTTTTACCGATGCCGCGAAATGAGAGATACGGGGTAGACTGTTGCA -TAACGTCTCCGTGAATCACTGGTCGTTCACACCCCCTCTGCATCATGCAGAGGGGAATTTTTCCGGCAAA -TTACTTACCGCCTAAACCTTTTTTCTCCAGTTCTTCTTTAAAGTTGTCACGCGTGATCAGTACCACGTCG -GTAACTTCGGTAAATTTTGGCGGTTCAACGTCTTTTGCTACCCAGTTGTAAAGCATTTCGCTGGATTTAT -AGCCATGTACGTCCGGGCTTGGCAGCAGGGAACCGTAGAAGCCGGTTGCCTGTGCTTTAGACAGTTCGCT -CACCGCATCCACACCGTTAATGCCAATGCCGATGATATCGGCCGCTTTAAAGCCCTGACCTTCCGTCGCG -CGTACGCCGCCCAGCACGGTGCTGTCGTTCATACCGACGATCAGCCAATGTTTAACTTCCGGATGTTGAA -CCAGCATTGAGTTGGCAGCGTCAAATGCCCCCGGGATGTCGTTAGATTTGGTAGGTACCTGATAAATTTG -TTTTTCCGGGAATCCGGCCGCTTTCAGCGCATCCATAGATCCCGTAGTACGGCGGCGGGCGGTATCCAGT -TCGTTGGCGGTAATCGCCATCACCGCGCTTTCTTTGACATCCCAGCCACGTTTCTGCATCTCTTTATACA -GTTCCTGGCCCTGACGTTCGCCAATTTTAGTCGCCGCCATCATCACCAGCGGAACGGTATCCATTGGCTT -ACCTTTGGCGTTAACAAACTGGTCATCCACGGCAATGACTTTCATATCGTAGCCACGCGCTTTCGCGACG -ATGGCAGAGCCGAGTTTGGGGTCCGGAGTACAAATAACGAAACCTTTTGCGCCACTGGCAGCCAGGCTGT -CGATCGCGTTCAATGTTTTTTCGCCATCCGGCACGGCAATCTTAATAACCTCAAACCCTAAATCCTTCCC -GGCTTTATCGGCAAACTTCCATTCGGTCTGGAACCACGGCTCTTCCGGTTGCTTCACCAGAAAACCGAGC -TTCAGGTTCTCCGCCATAGCGGATTGTGACATAACGGCTGCCAGACCAATGGCTGCCAGGGCTTTAGTAA -ATTTGTGCATGGTTCTCTCCAGCTTTAGTGTCGTTTTGTGTAGGGCAAAAACGAATGACATTCGTTAAAT -TAATCGGAAAACAAAGCATTACCTTTTAACTAAAAGATAAGTGACTGTGTTGACATAGTTTTAGCGAGAA -ATTAATTCTCCATAGGAGAGCAATATCACATCGCAGAATTACAGTGAGAACGTGCATAAATTTAGCGGGA -AAAGACATAAGGGAAAGCCAATTTGTCAGACAAATTGTCGAATGCACAGCAGATTAATCCATAAGATTAG -CCTGGAAATCCTTGTTGTCTTTGGTACCCATGCGGGATGTCTTCTTTTTAACCAGTCAATAGGCCGCATT -ACCTGGCGTTGAGTTTTTGAAATGGTGTAATAACCGCAACTCAAAGATGTGGAAAATGCACGTCATTCAT -TTCGTCATTAATTATCACTGTGCTCATTAATTAACAGAACACGTATAATGAGAGCCATCTCGCAAAAATG -AAAAAACGTTTTATAAAATCATCACTTCATCATGAATTCAAATTCATTGATTAATATCAACAAGATACAA -AAAGCACTATCATTAAAATTCATTGCAGTTACATTGATTTCATCAATGAAATGTAAAAATATATAAACTT -GATGATTTAAGCATTTTCTTATACCCGTTCAGACGTTATTCTTATTTCAGATCATCGTCAGAATTGACTC -CACGATCACATTTCGGACCGGCAGAAAGGAATTATTCTGCAAACAGTAATTATGGTGTTTTGATTTATCT -TGCACCTCTCCACTTCTGGATATAAGGATATTAGGTATGGCAACCGCTGGAATGCTTCTCAAACTCAACT -CTCAAATGAACCGCGAGTTTTACGCATCCAATCTCTACCTTCACCTGAGTAACTGGTGTTCTGAACAGAG -TCTGAACGGCACCGCCACTTTCCTTCGCGCCCAGGCACAGAGTAATGTGACCCAAATGATGCGCATGTTT -AACTTTATGAAGAGTGTCGGCGCTACCCCCATCGTTAAAGCCATTGATGTTCCCGGTGAAAAACTGAACT -CTCTGGAAGAACTGTTCCAAAAAACGATGGAAGAATACGAGCAACGTTCTAGTACGTTGGCACAGTTAGC -CGATGAAGCGAAAGAACTGAATGATGATTCAACCGTCAATTTCCTGCGCGATCTGGAAAAAGAACAGCAG -CATGATGGTCTGTTGCTGCAAACCATTCTTGATGAAGTGCGCAGTGCGAAACTTGCGGGTATGTGCCCTG -TGCAGACCGACCAACATGTTCTGAATGTCGTGTCACACCAGCTGCATTGATCATCATCGGCGCTAATGCA -TTGCGCCGATGAAGGTTTTGAGAAACCGCTGCCTCATCTGTTTGAAGCAGAGGTTTTTTTAATGGGATTC -ACCCTGTGGGGTAAACTTGAGTTCAATAAGCGCGATGGCTTTTTGGATTGCCCGCATGGTGACCGGGTCT -GCGGCGGCGGGATGGTTAGTAAAGTCGATATTCTTCAGCTGACTGGACATTTTTTCACGAACTTCAACGG -GCGCGATTACATCGAGAACATCCAGAATTTGTTTGATAACCAACTGGCAAGCAACCACATCAGAAACCAA -TTCCTGATCGGCATTCAGCGGCTGGGACATCGTAAACTCCTGATAGCATTTTGAAAGCCGTTATAGTAGC -GACTTCACATCTTCAGCGATAGTCACATCCACCGTCATCAGGACACAAAAAAACCTGCCGGAGCAGGTTT -TTTGTTATCGGAACATATTGCCTGGCGGTACGTCTTTGAACGTCTTGCAATAGTTATTGAACATACTTTT -CAGGATTTTGCGCAGTTTCATCGCGGCACTCCGACCATTTGTTATACAGGTGTTATTGTCTTTGCGCTTA -TAATATGACAACCATCACAAAAATCAATCTTTATGTGATACAAATCACATAAATACCCCTTTAATGTTAT -AAAAATGATAATCAAAAAACAGCCCCCCTATTTCTGACACCTACAGATGGCAAGAAATAGCGCCTGCCAG -GCGTCTTTTCCGGCCATTGTCGCAGCACTGTAACGCGTAAAATAGTGCTTTCTCTTACTCTTCTGGCTGG -ACCATGAGACTTCTGATTCTGACTCTTTCATTAATAACGCTGGCGGGGTGTACGGTTACTCGCCAAGCCC -ATGTGAGCGAAGTTGACGCGGCAACAGGTATTGTACGGTTAGTTTATGACCAGGCTTTTTTGCAGCATGC -CCATACCGATCGTTATGTCAGTCGCGGGATCGCCGATCGCGCATGCCAGCAGGAAGGCTATACCCACGCG -GTCCCCTTTGGTCAGCCAGTAGGCAACTGTAGCCTTTTTGCGGGTTCCTTATGTTTGAATACGGAATTCA -CTTTGTCATATCAGTGCCATCATTCCGCCTTCCCTGTCTTTCTCTAAATATTTTAATCAGCGAGGGGATC -TTCGCTGATTAAAGAAATAGCGGTAATGCGTTTTATTCCCATTCGTATTTTTAATAATTGAAGTTTATAT -TTTACCTTTTGCAAATAATAAAATAACAAATTATAGTGACGCCACAGCAACAAATATAACCTTTGTGGAG -CACTATCATGCTGAAACCAGAAATGATTGAAAAACTTAATGAGCAGATGAACCTGGAACTGTACTCTTCA -CTGCTTTATCAGCAAATGAGCGCCTGGTGCAGCTATCATACCTTCGAAGGTGCTGCCGCGTTCCTGCGCC -GTCACGCCCAGGAAGAGATGACGCATATGCAGCGTCTGTTTGATTACCTGACTGATACCGGCAATTTACC -GCGTATTAATACCGTTGAATCTCCGTTTGCTGAATATTCCTCACTTGATGAATTATTCCAGGAAACCTAT -AAACACGAACAATTAATCACCCAGAAAATTAACGAACTGGCTCATGCTGCAATGACCAATCAGGACTACC -CAACATTTAATTTCCTGCAATGGTATGTTTCTGAGCAGCATGAAGAAGAGAAACTGTTCAAATCGATTAT -TGATAAATTAAGCCTGGCAGGCAAAAGCGGCGAAGGTCTGTATTTTATCGACAAAGAACTCTCTACCCTC -GACACACAAAACTAATGCTCTCCGGCGGCAGGTTTACTGCCGCCGTTTCAAATCAGTGACGGCAAATCTT -ACTCTGATCGGTCGAAAAACCGTCTTTCGAAGGTATAAATTTGCCTTTTGCTGCCAGAAACGCTACCAGC -TCTCCCGCTGTCATCCCTTCTGCCGAGCAGGTGTGAAAACGTGCCTGTTCACCAAAACGCGCTTTAATCG -CAGCTTCCAGACTGGCATGCGTATATTGCTCGCCTGATTCAATCATCATATTTAACACTTCATGACCGTG -AATAGAGTCCATCGTCCCTCCTCAAAAAAAGCCTAGCGTAGCGATTGCCGCTTATGAAGACTTTGCGCCA -GCGCAGGACTGAATGCTTTTTATTGTACATTTATATTTACACCATATGTAACGTCGGTTTGACGAAGCAG -CCGTTATGCCTTAACCTGCGCCGCAGATATCACTCATAAAGATCGTCAGGACAGAAGAAAGCGTGAAAAA -CAGAACCCTGGGAAGTGTTTTTATCGTGGCGGGAACCACAATTGGCGCAGGCATGCTGGCAATGCCGCTG -GCTGCGGCCGGTGTTGGTTTTAGCGTTACGTTAATCTTGTTGATTGGGCTTTGGGCGTTGATGTGCTACA -CGGCGCTATTACTGCTGGAGGTGTACCAGCATGTTCCGGCAGATACCGGTCTGGGCACGCTGGCAAAACG -CTATCTGGGACGCTACGGTCAATGGCTGACGGGCTTCAGTATGATGTTCTTAATGTATGCTCTGACTGCG -GCATACATCAGCGGTGCCGGTGAATTGTTGGCCTCCAGCATCAGCGACTGGACAGGTATTTCTATGTCGG -CAACCGCTGGCGTGCTGTTGTTCACTTTTGTTGCCGGTGGCGTGGTTTGTGTCGGAACTTCACTGGTCGA -TTTATTTAACCGTTTTCTGTTCAGCGCCAAGATTATTTTTCTGGTGGTAATGCTGGTACTACTGCTGCCG -CATATTCACAAAGTGAATCTTTTAACCCTGCCGTTGCAACAGGGGCTGGCTCTGTCTGCAATCCCGGTGA -TTTTTACGTCGTTTGGTTTTCACGGTAGCGTGCCGAGTATTGTCAGCTATATGGATGGCAACATTCGTAA -GCTACGCTGGGTGTTTATAATCGGTAGTGCGATCCCCCTGGTGGCATATATTTTCTGGCAGGTGGCGACG -CTTGGCAGCATTGATTCAACAACCTTTATGGGATTGCTGGCTAATCATGCTGGATTAAACGGGCTGTTAC -AGGCGTTACGCGAAATGGTGGCCTCTCCGCATGTTGAGCTGGCAGTGCATTTATTTGCTGATTTAGCCCT -CGCCACGTCATTTCTCGGCGTTGCGTTAGGCTTATTTGATTATCTGGCTGATTTATTTCAGCGTTCAAAT -ACCGTTGGTGGACGGTTGCAAACTGGTGCAATTACGTTTCTGCCGCCGTTGGCGTTTGCACTGTTTTATC -CACGAGGATTTGTGATGGCGCTGGGTTACGCCGGTGTGGCGCTGGCGGTACTGGCATTGATTATCCCTTC -GCTGTTGACCTGGCAAAGCAGAAAGCACAATCCTCAGGCGGGTTACCGGGTCAAAGGTGGTCGTCCGGCG -CTGGTGGTGGTGTTTCTCTGTGGTATTGCTGTGATTGGCGTGCAATTTTTGATTGCGGCAGGGTTGTTAC -CAGAAGTGGGGTGATCAGATAGCCTCAAATTCCTTATTGGGTGCCAGAATTAACGCTGACACCCAATTTG -GCCTCTTAATGCAGGCAGCACTGCTTAAATTTCTTACCACTACCGCACGGGCAAGGATCGTTACGCCCCG -GTTTCTCTTCTGCTTTGATCGGTTGCTGAACAGCTTTTTCCTGCGGATGCGCCATCCAGTACGCATGTAG -ATCAAGCGCCGCCAGTCGAATGGCATCTACGCTCTCTTCAAACGCTTCTGGCGACATCTTTTCTACCCGC -TCGAAGTTTTCCTCAGTACCGTGCAGCGCAATCGCCTCCAGCGCTGGTTTTAACGAATCGGGCAACGTTG -ACCAGTCAGAAAGTGCCACGCCCCGCATATAGCCAAAGCACCACTCCTCAACAATCGTCAGCTCGCTGCC -ATCAACTTCTCGCAAGCCGAATAACGGCTCAAACTGCTCCGGGAATTCGTTCAGACGCTCTGCGGTATCG -GCCATATGTTGAAAAGCCAGATTCATAAAGCGCGTCATCTCTTTCTCTGACGCCCAGCGCGGCACATAGT -CAGCCCCACCCCACACGGCAACCAGCCACTGTTCCGGTTCAATCTCTTGCGGAGAACTCAACACCGCCGT -CAATAAACCGTCCAGCTCCGCCACATCAAGGATGGCGTGGTCAGTGTTGTATTTGGTCAGAATATCGTCC -AGCCATTCCAACTCACTTTCGTTTAACGGTCCCGTTTTCATACGCTTTTCCTTGTGGATCTCAACTCGCC -AGCACCTATCTTACATGCCGGTCCGTATCAGAGATACTTTTTGAGTGGCTTTGCTGGTGATTAAAAATTA -AGGAGGGTGTAACGACAAGTTGCAGGCACAAAAAAACCACCCGAAGGTGGTTTCACGACACTGCTTATTG -CTTTGATTTTATTCTTATCTTTCCCATGGTACCCGGAGCGGGACTTGAACCCGCACAGCGCGAACGCCGA -GGGATTTTAAATCCCTTGTGTCTACCGATTCCACCATCCGGGCTCGGGAAGAAAGTGGAGGCGCGTTCCG -GAGTCGAACCGGACTAGACGGATTTGCAATCCGCTACATAACCGCTTTGTTAACGCGCCAAATTCTTCAG -GCCTTTCAGCCAGACATCCGCTTGACGCCGATGTCTTTTAAACTGGAGCGGGAAACGAGACTCGAACTCG -CGACCCCGACCTTGGCAAGGTCGTGCTCTACCAACTGAGCTATTCCCGCATTCATCAAGCAATCAGTTAA -TCACTTGATTTTATTATCGTCTGGCAATCAGTGCCGCCGTTCGATGCGTTGCATTCTACTTACCTGGCGC -GATGAGTCAACGATATTTTTCACCACTTTTGATCGTTTGCTGAAAATTACGCCGAAACGATCACTGATCA -AGCAAATCTGCACGCGCAGCGCTCAAATATTGCAACATTGACCACAGAGTCAGTACCGCAGCCACAAAGA -AAAGTGCAATACCGGCGTACTCAACCCAAATGTTCGGACGCCACAGCAGCCATGCCAACGCCACCATCTG -GGCAGTGGTTTTCACTTTCCCAATCCAGGAGACGGCCACGCTACTGCGTTTACCCAACTCCGCCATCCAT -TCGCGTAGCGCAGAAATAATAATTTCACGGGCGATCATCGTTGCCGCCGGTAATGTCACCCACCAGCTGT -GATAATGCTCGGTTACCAGCACCATGGCGATAGCCACGAGAACTTTATCTGCCACAGGGTCAAGGAAAGC -ACCAAACCGGGTACTCTGGTTCCAGCGGCGTGCCAGAAAACCATCGAACCAGTCAGTCACCGCCGCGACG -CAGAAAATGAGCGCGGCGGCAAACGGCGACCAGGTGACAGGCAGATAAAAGACCAATACAAAGAATGGGA -TAAGGATGACACGGAACAGTGTAAGCAACGTAGGGATATTAAATTGCATAATGACGGGTAACTATCTGTT -GTCAGTAAGATTACCCCTATGTTGCTACAGAGACATCAATGTTTCAACGACCAGAAGATCTTTTCTGCCA -GACCTTGCGAAATACCCGGCACTTTTGCAATTTCCTCGACGCTGGCGTTACGTAAACCTTGCAAACCGCC -CATATATTTCAACAACATTTGCCGACGTTTTGGCCCGACGCCTTCAATGGTTTCCAGGGAACTGGTATTT -TTGACCTTCGCCCGTTTTTTACGGTGCCCGCCAATCGCGTGATCATGTGATTCATCGCGAATATGCTGGA -TAACATGCAGCGCGGGTGAATCTGGCGGCAAACTAAATCCCTCACCTTCCGGCTCAAAGAACAGCGTTTC -CAGTCCAGCCTTACGATCTGCTCCTTTGGCAACGCCAAGTAGCAGCGGATGATTTTTATCCCATGAGACA -TCCAGTTCGGCGAAGACATTTTTCGCCTGCGCAAGCTGGCCTTTGCCGCCGTCGATAAGGATCACATCCG -GGATCTTACTGTCGTCAATGGCTTTACCATAACGCCGACGCAGCACCTGATTCATCGCCGCATAATCATC -GCCCGGCGTGATGCCTGTAATGTTATAGCGCCGATACTCCGCACGCAGCGGGCCGTTAGCATCAAACACC -ACACAGGAAGCGACGGTTTGTTCGCCCATGGTATGGCTGATGTCAAAGCACTCCATCCGCTTCACTTCCG -GCAATTTCAACACGCTGGCAAGCGCGGTCAGTCGCTGGTGAACGGTAGATTGCTGCGAAAGTTTGCTGGT -TAAGGCCGTCGCCGCATTGGTGCGCGCGAGTTTCAGATAACGCGCCCTATCGCCGCGAGGTTTGGTTTGA -ACATTAATCTTGCGTCCCGCCAGTTCTGAAAGGGAATCGGCGAGCAGCGTTTTATCGCTAAGATTAAAAT -CGAGCAGGATCTCACCCGGTAAGGTGCGCATCTGGCTGCCTTGTAAATAGAACTGGCCTACGAAGGTTTC -TACCACCTCGCTCAGTTCCGTACCGCCAGGCACTTTCGGGAAATAGCTGCGGCTGCCGAGCACTTTGCCC -TGACGAATGAACAATACGTGGACACAAGCCATGCCCGCATCGAACGCCACACCAATAACGTCGAGGTCGT -CGCCGGTATTGGAAACGAATTGTTTTTCGGTGACGCGTCGCACCGCCTGAATTTGGTCGCGAATACGTGC -AGCTTCTTCAAACTCCAGATTCTGGCTGGCAGTTTCCATACGACTAATGAGTTGCGTAAGCACCTGATCA -TCTTTGCCAGACAAAAACAGGCGCACATACTCGACCTGCTGAGCGTATTCTTCTTCACTCACCAGTCCTT -CAACGCACGGTCCCAGACAGCGCCCTATCTGGTATTGCAGACACGGACGCGAGCGATTGCGATAAACACT -ATTTTCGCACTGGCGAATGGGGAAAATCTTTTGCAGTAGCGCCAGTGTTTCACGTACGGCATAGCCATTC -GGGAACGGGCCGAAATATTCACCTTTGGCATGCTTCGCACCACGATGCATCGCCAGACGCGGGTGGGTAT -CACCACTCAGGAAGATAAAAGGATATGATTTATCATCGCGTAGCAAAACGTTGTAACGCGGCTGATAGAG -TTTGATGTAGTTGTGTTCCAGCAACAGCGCTTCGGTTTCTGTGTGAGTAACCGTTACATCAATTTGCTGG -ATCTGGGCGACCAGCGCTTCGGTTTTGCGCGAAGCGAGGTTGCTACGGAAATAGCTGGAAAGCCGTTTTT -TCAGGTCTTTCGCTTTGCCGACATAGATAACCGTACCACCAGCATCGTACATGCGATAAACGCCTGGCTG -GCTGGTTACGGTTTTTAAAAACGCTTTTGCGTCAAACTGATCACTCACTGACTTGATAATGTCTCCGCAT -TACACAGACCATGGCGAATTGCCAGGTGAGTCAGCTCAACATCGCCATGAATGTTTAGTTTACTGAACAT -ACGATAGCGGTAGCTGTTCACCGTTTTCGGACTGAGATTGAGCTGTTCTGAGATCTCATTGACCTTCTGG -CCCTTGGTGATCATCAGCATAATCTGCAATTCACGTTCAGACAAACTGGCAAATGGGCTTTCTGTTTTTT -CTGGTTCGATCTGGCTTAACGCCATTTGTTGAGCGATGTCAGAAGCAATGTAACGCTGCCCTGAATAGAC -AGAACGAATCGCACTCACGACTTCCTGCGGAGCCGCGCCTTTGCTGAGGTAGCCCGCAGCACCGGCCTGC -ATGACTTTCGCTGGTAAAGGGTTTTCTGTATGGACGGTAAGCATGATGATTTTGACATCAGCTGTGGAAC -GCGCGATTTTACGCGTCGCCTCAAGACCGCCAATGCCCGGCATACTCATGTCCATTAGCACCACGTCAAC -GGCATTTGTCCGGCACCACTTAACGGCGTCTTCACCGCACGATGCCTCACCGACGACTTTTATACCCTTT -ATATCTTCCAGAATGCGTCGTATCCCTGCGCGCACCAGTTCGTGGTCATCAACAAGTAGAACGTTGATCA -AAGGAATATCTCCAGAAATAGGGATAACGCTACTGATAGTTAGTCATTCGTATATTAGCGGTTTTTATTG -CAACTTTGAAACGTTAAAAATGGTGGGTATTCGATTTTTCTCTCGTTTTTGTCAATTCGATTGTCCACAG -TTATGGTCACGCCCGTCACCAACGGCTTACCGGATCGTTTCACAGTAAGCCCTACGATGAAATGTGACAA -AAATTGACTTTATTCAGCAAAAATGAAAATCAGCCCGCTGAATATGTAACATTAATTAACCCGAACAATA -CGGGCAAAAAACATTCATGATAAAAATATTTATTGGTCATTATATTAACGTATTTTATAGCACTGCCGAT -ATCACGCTCAAAAAACAACCACTGCTATTTTTAGCAAAGCTTATGGTATACTCCGCCGCCTTAACATTTT -TCACCGCAAATTTTCATTGCAACATGACGAGGAAAATAAATGAGTACGCCTGATTTTTCTACTGCCGAGA -ATAATCAAGAACTGGCAAATGAAGTCTCCTGCCTGAAAGCGATGCTGACGCTGATGCTGCAGGCGATGGG -ACAAGCTGACGCGGGCCGCGTGATGTTAAAGATGGAAAAACAGCTTGCGCTGATCGAAGACGAAACCCAG -GCTGCAGTATTTTCCAAAACGGTTAAGCAAATTAAACAAGCCTACCGTCAGTAATATAAAACCGGCTGAT -AGCGTGCCTTTCAGCCGGTTTTTGCATCTGGCACGCAGGACAGAAAAGAGATCAAATTAAGCCAGTAGCG -GCCGCGTAACAGGCAACCTGGGTCTTATTTGGTGCATTAATTTTTTTCTGCATGTTTTTCTGGTGGAAAT -TGACCGTATTCTCAGAGATTGACAAAATCATCGCTATCTCTGCTGATGTTTTCCCTTCCGCCGTCCACCT -CAGAATTTCTTTTTCGCGCTTGCTGAAATTCATCTCTGGCGTCATCACTATTTCATCATTTAAACGCATC -AGAGCCATCAGACTTTCGCGCACCAGTAACTGCATTTTTAATTGCAGTTCATCACTAAGAATGGGTATTT -CGCGCGCGCTGCAACGGGAAAAGGACAAAAAGCCCAGCGCCCGGTTTGGCAGCATTAAATACTGAGTGAC -ACCGCGGCGTAAACCATGTGCGCGCGCGGCTTCCCATAACGGCTGTGCTTCGCTGAATAAGTCATCATTC -CACATTAAATGGCCCTGACTAAAGTTTTCAGGGTTCAGCACCGGATCAATTGCGAGAAAGTTTTTTGCCT -GATAATAACTAACCCACGCCTCAGGGTAATTGGTGTAAAAAGCCACTTTAGGTCGAGTGAATGGTACCGG -GTGGCGGACACATAACGAATAGTAATCGTACTCCAGCTGCTGAGCCTGAAGCTCAATTTCATGGTAGACC -TCTTCTGCGGTCTCCATCCTCTGAAAACGCAACAGCATCGTGCGACGCCAGCTGAAAAAATCCTTATCCT -GCATAGTAAACCGCAACGCCCCTGAGAGTGAGTATCATTTATAATGATAATTCAAACTATCACATAAATA -AGATTTATATATAATTTATATTATTCAGGCAATGAATTACTTTTGCAAGCCATCGCATTCTCTTATGTTA -TTAATGAGTTATGCTGATTTGTTAAGCAGTTTTATCAGGCTTGAAATGGCGTCCAGCCCCGACAGGTGAA -TCGTCGGGGCTGATTTTTTCTTATTATTGCAGCAGAAACTTCTCGAGGAACTGGCGGGTGCGAGGCTGCT -CGGGGTCGGCAAATAACGCTTTTGCGGCCCCCTGCTCGACTATCCGCCCCTGGTCCATAAAGATCGCCCG -GTCCGCAACATCCCGGGCAAAGCTCATTTCGTGCGTCACAATCACCATCGTGCGCTTTTCCTGCGCCAGC -TGACGGATGGTGTTCAGGACTTCACCCACCAGCTCTGGATCCAGCGCTGACGTTGGCTCGTCAAACAAAA -TCACCTCAGGACGCATTGCCAGCGCACGCGCAATCGCAACACGCTGCTGTTGACCGCCAGACAAACGACG -TGGATAGCTGGTTTCTTTACCTGCCAGCCCAACTTTTGCCAGCAGCTCGCGAGCGCGCGCCGTGGCCTCT -TCTTTCGGTTCACCTTTGACGATCACCGGCCCTTCAATAATGTTCTCCAGCACCGTACGATGCGGAAACA -AATTAAAGTTCTGGAAGACAAACCCGACGTGCTGACGCAACTGGCGAATCAGAGATTTTTGCTGACTTAA -TGAACGTGCAGTATCAATAGTGATATCGCCAACGGTGATCGTTCCCGCTTCGGGTTGTTCCAGCAGATTT -ATGCTGCGTAGCAACGTGGTTTTGCCGGAACCACTCGGACCGATAATTGCCACCACTTCGCCAGGCTTTA -CCTCAAGGTCGATACCGTGCAGCACCGTCTGACCGTGGAATTTTTTCACCAGGTTCTTAACTTCAATGGC -ACTCATTTTGGTTCTCTCTCCTGGCGATTAAGTTGATTCTCAAAATGGTTCTGCAACGTCGATAACACAG -TCGCCATGATCCAGTAGATGAGCGAAGCCGCCAGATACATGGTGAACACCTCCAGCGTACGCGAGGTAAT -CAACTGCGCCTGACGGAACAGCTCCGGCACCTGGATTGTCGCGGCCAGCGACGTATCTTTTACCAGGCTA -ATAAAGCTGTTCGACAGCGGCGGCAACGCCACACGCGCCGCCTGTGGCAAAATCGCGCGACGCATGGTCT -GCCACGGCGTCATACCAATACTGGCTGCCGCTTCCCACTGACCTTTATCAATAGAAGAAATGGCGGCGCG -CAGCGTTTCGGCAGCATAGGCGGCAGTGTTCAACGACAGACCAATCATTGCTGACGGAATGGGATCTAAT -TCGATACCAAACTGCGGCAGGCCGTAATAGATCATAAACAGTTGTGCGATGAGCGGCGTACCACGAAAAA -TAGAGATATAAAAACGCGCCAGCCAGCGCACGGGCCAGATTGGCGACAGACGCATCAGCGCGAGAATAAA -CCCGAGCAGTAAGCCAAAAAACATGCCGCCGATACTGAGTTGCAGCGTATACCCAGCCCCTTTCAGCAGG -AACGGCAAGGAATCAATAACCAGTTGTATACTTTCTTGCATGAGCGTTTCCGGAGCTAAACGTGGGGATG -ATAGGCGAACAGCGCAGGCGCACCGCCGGTATGAATAAACAGAATCGGCCCTTCATCTTTGAAGCGTTTC -TGACTGATACCGTCAATCAGCCCCGCCATCGCTTTTCCGGTATACACAGGATCAAGCAGAATGCCTTCCA -GCCGCGCCAGCAATTTCACTGCTTCCATGCCTTCGTCGTTCGGCACGCCGTAGCCAGGTGCAAAATAGTC -ATCCCAGAGTAAAATTTCCGCTGATGCGGTCAGCTCCAGTTCTTTCGCAATCGCCTGTTGTAGGTTAACC -ACTTTCGGCAATTGATCGGCAACGGAACGCGACACGGTCACGCCAATCAGTTCGCTTTCAGGCATCAGGT -GTTCCAGCCCAACAGCCAGTCCGGCGTGAGTTCCGGCACTGCCCGATGCGACTACCACCGATGAAATATT -AACCGCCCCTTCACACTGTTGCGCGATTTCCAGCGCACTCTCCACATAACCTAGCGCGCCAAGAGCATTA -GAACCGCCAACCGGAATGACATACGGGCGAAAGCCTTGTGCTTCGACTCGCGTCGCCAGCTCTTCCAGTT -GGGCATTGGGATCGGTCAGTGCGTCGCACATTTCAATCTGGGTATTGAACAGATCCAGCAACAAGCGATT -GCCGTTGGTTAAATAGTTTTCTGCGGTTGTGCCAATAGGATTTTCCAGCAGCGCCACGCAGTGCAGACCG -AGTTTGGCAGCGACTGCGGCAGTCTGCCGCACATGGTTAGACTGGATCGCCCCGGCAGTAATCAGCGTAT -CGGCACCTTCACGCAGAGCATCTGCCGCGAGAAATTCCAGCTTACGTAATTTATTGCCGCCCATTGCCAT -GGGGGTGACGTCATCCCGTTTGATGAAAATTTCCCGTCCTAGATAATCAGAAAAGCGCGGCAGATATTCG -AGCGGCGTTGGCGCGCCGATAAACTCCAGCCGTGGAAAACGGGTTAAATTATGCAGTGGCATAACAGCCT -CCGATGTGTGTTGTTGTGATTTTCTTATTATGCACGCTGAAAACGCGTAAATAAAAAAGGCGCTAGTGAA -AGCGCCCTTTTTTGTCATTATGCTGATTATTTGGTCACATCAGCACCAAACCATTTTTCGGAAAGGGCTT -GCAGAGTGCCATCTTTTTGCATTTCCGCAATTGCATCATTCACTGCTTTCAGCAGGTCCTCATTTCCTTT -ACGCAGCGCCACGCCAGACTCCTGACGGGAGAATGCTTCACCGGTTACTGCCAGCGTATCGTTGGTTTTC -TTCACCAGATCCAGCGCCGCCAGACGATCAACGAGGATCGCATCGATACGCCCTACGCGCAGATCCTGAT -ATTTGGTCGGGTCATCATCATAGGTACGCACATCGACGCCCTGAACATTCTGCCGCAGCCACTCTTCATA -GTTGGTGCCCAGACCGACCCCCACTTTTTTGCCTTTCAGATCATCGGCTGTTTTAATGGTGCCTTCGTTA -CCTTTTTTCACCAGCGCCTGAATACCAGAAATGGTGTACGGGGTTGAGAAATCGTATTTTTTCTTGCGCT -CATCAGAAATGGTGACCTGATTAATCACCACATCAATACGTTTAGAGTCCAGCGACGCCAGCATACCGTC -CCATTTGGTCGGTTTTAGTGACGCCTCAACGCCAAGATGTTTTGCCAGCTGTTGGGCAAATTCCACTTCA -AAACCGGTTAATTTGCCGTCATCTCCCTGAAAACTGAACGGCGGATAAGTTCCTTCCAGCCCTACCAGCA -GCGTGCCGCGCTCTTTAACTTTATTAAGCAGACCTTCATCTGCAAAACTTTTAACGCTCATGCCCGCAAC -CAGCGCCACGGCCATCACACCCATCAATGCCTGACGTCCCAGATGTGCTAATTTCATATTCACCCCGAAT -GTTGTTATGTCTGTTTGCAGTGTAGAGCCATTGTTTGTAAACACAAAAACAACTCCGCTACATCTTATTC -TTATTTAATATATATCAGAAGAAGGCAGGCTGGAGGATTTCTGCACAAGTCTGGTACAGGTTTGGCGCTG -ATAGTGTTGATACTTCCGTAACGCGATGCGGTAATTGTTGGTGCTGGTGGTGGGCAGCCACGGGGCGAGG -ATTTCATCAAGGAAACCGTCCTGCAGCTGATCGAGGGAAATATTTTGCTCGTGTAGATGATTCCCCAAAC -GGCGCAAACGAACGACATATTCACGCACCGTACCTGGGCTCATTTCAGTTTGCTCAAAAAGAAATTGCTT -AAAGCCGATAATATCGAAAAAATCACTCTGCGTTTTGCAATGTAAATCACCGCAAAATCGGCACAATGCC -GCCCATGATTTTTGTTCCGTTTGCCAGCCATTTTCATCAAGCAGCGTGTCCAGGCGGGAAATCTCGATTT -TATTCACTATTTTGCCGTCGCGAACTAAGGTAATGCGATCGAGTAATTTACGGCAATGCGCGCAATGGGT -CTGGCTGTGTTTAAAGTCTTTAAGATAGCGGCTTAATGGCCGTCTTTTCAGGTGCTGCACCATCATTAAG -AACTCCTGGTAGTCAAAGTTAAAGTGCGGCATTTACTGACGTTATAACTTACCCAGTTTAGTGCGTAACC -GTTTAATAGCCTGGCTGTGTAACTGACTGACCCGCGATTCCCCGACCTCCAGCACCGCGCCAATCTCTTT -GAGATTCAGCTCTTCCTGGTAATAGAGGGTTAATACCAGTTTTTCGCGCTCCGGCAACGTTTCGATGGCT -TCCATCACCCGCTGGCGCAGATTACTGTCCAGTAGTTGTTGTAGCGGGTTTTCTCGCTGATGATCATCAG -TAACCAGTTCGATGCTATCGCCGTGCTCTTCGCGCCACTCATCGTAGGAGAAGAGCTGGCTGTTATTGGT -GTCGAGCAACATTTGGCGATAATCGGCAATATCGATCCCTAAACGTTCCGCTACCTCAGTTTCCGTGGCG -TTGCGGCCAAGTTCCTGCTCCAGTTGCCCTATTGCCTGTGCCACTTCACGCGCGTTGCGTCGCACGCTGC -GCGGCACCCAGTCACGGCTGCGAAGTTCATCCAGCATAGCGCCACGGATACGCTGCACTGCGTAAGTTGT -AAATGCCGTTCCTTGTAGGGCGTCATAGCGTTCGACGGCATTAAGTAACCCAATGCCGCCCGCCTGTAGC -AGATCGTCAAGTTCCACGCTCGCGGGCAGTCGAACCTGCAGGCGCAATGCTTCGTGACGCACCAGCGGGA -CATAACGCTGCCACAGCGAGTGTTTATCCATTACACCTTCAGCGGTATAGAGTGAATTCACGATAAACAG -CCCTGCGTTATATGAGTTATCGGCATGATTATCCGTTTCTGCAGGGTTTTTAATCGGACGATTAGTGGGT -GAAATGAGGGGTTATTTGGGGGTTACAGGTAAATTCCAGGCAGAAAAAAACCCCGCCGGTGGCGGGGAAG -CACGTTGCTGACAAATTGCGCTTTATGTTGCCGGATGCGGCGTAAACGCCTTATCCGGCCTACAAAAATG -TGCAAATTCAATAAATTGCAATTCAACTTGTAGGCCTGATAAGCGCAGCGCATCAGGCAATTTGGCGTTG -CCGTCAGTCTCAGTTAATCAGGTTACAACGATTAACCCTGCAGCAGAGACAGAACCTGCTGCGGTACCTG -GTTAGCTTTTGCCAACACGGAGTTACCGGCCTGCTGGATGATCTGCGCTTTCGACATATTGGACACTTCG -GTCGCATAGTCGGCGTCCTGAATACGGGACTGCGCTTCAGACAGGTTGGTAGTGGTGTTGTTCAGGTTGG -TAACCGCGGAATCCAGACGGTTTTGCACCGCACCGAGGGAAGAACGGAATTTGTCTACAGATGCGATAGC -ATCGTCCAGCGCTTTCAGCGGATCCGTGGTTTTACCATTTGCAACAGCAGTCAGAGCCTCACCACCAGCA -GTCAAACCTGTTTGCAGATTACCGCCATTTAAATCGGCAGAATCGTATGTTTTACCATCAATATCGACCA -CTTCTGTTTTGCCATCATCTCCGCCCAGTTTGACCGCGGTTGGAGAACTGGCGGCACCGGAAGAGTCAGT -ATAGGTAATAGTTTTAACAGAAACAGCACCAGTAGTTTCATTCACATCCGCAGCGTAAAGATTGCCATTT -GTATCTTTAAGCGCATATGTATCGGTATCATTACCCTTGGAATCCTGCAGTTTTACTAAGCTAACAGCAC -CAAGGTTGGCAGTTGCGGAACCTGCAGTATTATCAATCTGAACAGGTGTACCGCCTGAAGTGATAGTTGT -AGCTTTAGTAGTATTTGCATCAGTTACAGTTGCATTTGCCGTTGCTCCAGTCGCCATTGTCACTGTACCA -TCATTAGCAACTGTTACTGCGTAATACTTCCCATCGTTATCACCACCGGTGATTTTCGCATAGTAATCAT -TACCATTATCAGTATAAACACCCTCAATTGAAGCTGGGTTAGTTCCGCCAGTATCAGTGGCTGCTTCCGT -AGAAAGGGTAATTCCAGTAAGTTTAATATTGTTTGTGGTGGTAGCACCAAAAGCAGTTACTGGAGCACTA -GTGGTAACTGTATCGTTATTTTTAACGCTAAAACCATCAAGGCCAAGAGTTTTAGCATCAATCTGCTTCA -GATCGATAGTGATAGTCTGGTTATCATTTGCGCCAACCTGGATTTTCATGGAGCCATTTTTTGCCAGCAC -GTTCACGCCGTTGAACTGGGTCTGACCAGATACGCGGTCAATTTCATCCAGACGGGATTTAATTTCGTCC -TGGATAGCAGACAGATCAGACTCAGAGTTAGTACCGGTAGTGGCCTGTACCGTCAGTTCACGCACACGCT -GTAAGTTGTTGTTGATTTCGGACAGCGCGCCTTCGGTGGTCTGCGCAACGGAGATACCGTCGTTGGCGTT -ACGGGCCGCCTGAGTCAGGCCTTTAATGTTAGAGGTGAAACGGTTAGCAATCGACTGACCCGCTGCGTCA -TCCTTCGCGCTGTTAATACGCAAGCCAGAAGACAGACGCTCGATAGAACTCGACAGCGCAGACTGGTTCT -TGTTGATATTATTTTGAGTGATCAGCGAGAGGCTGTTGGTATTAATGACTTGTGCCATGATTCGTTATCC -TATATTGCAAGTCGTTGATTACGTATTGGGTTTCCACCCGTCGGCTCAATCGCCGTCAACCCTGTTATCG -TCTGTCGTAAAACAACCTTTAGAATTTTTTTCAAAAACAGCCATTTTTTGTTAGTCGCCGAAATACTCTT -TTCTCTGCCCCTTATTCCCGCTATTAAAAAAAACAATTAAACGTAAACTTTGCGCAATTCAGACCGATAA -CCCCGGTATTCGTTTTACGTGTCGAAAGATAAAAGGAAATCGCATGGCAAGTATTTCATCGCTGGGAGTC -GGGTCAGGTCTGGATTTAAGTTCCATCCTTGATAGCCTCACCGCCGCGCAAAAAGCGACGCTAACCCCCA -TTTCAAATCAGCAATCGTCGTTTACCGCTAAACTTAGCGCCTACGGTACGCTGAAAAGCGCGCTGACGAC -TTTCCAGACCGCCAATACTGCATTGTCTAAAGCCGATCTTTTTTCCGCCACCAGCACCACCAGCAGCACC -ACCGCGTTCAGTGCCACCACTGCGGGTAACGCCATCGCCGGGAAATACACCATCAGCGTCACCCATCTGG -CGCAGGCGCAAACCCTGACCACGCGCACCACCAGAGACGATACGAAAACGGCGATCGCCACCAGCGACAG -TAAACTCACCATTCAACAAGGCGGCGACAAAGATCCGATTACCATTGATATCAGCGCGGCTAACTCATCG -TTAAGCGGGATCCGTGATGCCATCAACAACGCAAAAGCAGGCGTAAGCGCAAGCATCATTAACGTGGGTA -ACGGTGAATATCGTCTGTCAGTCACATCAAATGACACCGGCCTTGATAATGCGATGACACTCTCGGTCAG -CGGTGATGATGCGCTACAAAGTTTTATGGGCTATGACGCCAGTGCCAGCAGCAACGGTATGGAGGTCTCG -GTTGCCGCCCAGAATGCGCAGCTGACAGTCAACAACGTCGCCATCGAGAACAGCAGCAACACCATCAGCG -ACGCGCTGGAAAACATCACCCTGAACCTGAACGATGTCACCACGGGCAACCAGACGCTAACCATCACTCA -GGACACCTCCAAAGCGCAAACGGCGATTAAAGACTGGGTGAATGCCTACAACTCGCTAATAGATACCTTC -AGCAGCCTGACCAAATACACCGCCGTAGATGCGGGAGCTGATAGCCAGAGTTCTAGCAATGGTGCACTGC -TCGGCGACTCCACGCTGCGGACGATTCAGACGCAGTTGAAATCGATGCTGAGTAATACCGTCAGTTCTTC -CAGCTATAAAACGTTGGCGCAGATTGGTATCACGACCGATCCCAGCGATGGCAAACTGGAACTGGATGCC -GACAAACTCACCGCTGCACTGAAAAAAGATGCCAGCGGCGTAGGTGCATTGATTGTTGGCGATGGTAAAA -AAACCGGCATCACGACCACCATCGGCAGCAACCTGACCAGTTGGCTTTCGACAACGGGCATTATTAAAGC -CGCTACCGATGGCGTTAGTAAGACCCTGAATAAATTAACTAAAGACTACAACGCCGCCAGCGATCGCATT -GATGCGCAGGTCGCTCGCTACAAAGAACAATTTACCCAACTGGACGTTTTAATGACCTCGTTAAACAGCA -CCAGCAGCTACTTAACGCAGCAGTTCGAAAACAACAGTAATTCCAAGTAAGCAATATTCATCGGGAGACA -GGTCATGTACGCGGCAAAAGGCACCCAGGCCTATGCACAAATTGGCGTCGAAAGCGCCGTAATGAGCGCC -AGCCAGCAGCAGCTGGTCACCATGCTATTTGATGGAGTGCTGAGCGCACTGGTTAGAGCGAGCCTGTTTA -TGCAGGACAACAATCAGCAAGGCAAAGGCGTCTCTTTGTCAAAAGCGATCAACATCATTGAGAACGGACT -GCGGGTGAGTCTTGATGAAGAGAGCAAAGACGAACTAACCCAAAACTTGATTGCTCTTTATAGCTATATG -GTCAGGCGCTTGCTGCAAGCCAATTTACGCAACGATGTCTCCGCAGTCGAAGAAGTGGAAGCATTAATGC -GCAATATTGCCGATGCCTGGAAAGAGTCGTTACTCTCCCCTTCTTTGATTCAGGACCCAGTCTGATGAAC -CATGCACCGCATTTATATTTCGCCTGGCAACAACTCGTCGAAAAAAGCCAGCTCATGTTACGCCTGGCAA -CGGAAGAACAATGGGACGAACTCATCGCCAGCGAAATGGCGTATGTGAATGCGGTGCAGGAGATTGCACA -TTTGACTGAAGAGGTTGACCCGTCCACCACGATGCAGGAGCAGCTCCGCCCGATGCTGCGCCTGATTCTC -GACAACGAAAGCAAGGTAAAGCAGTTATTACAGATTCGGATGGATGAACTGGCGAAACTGGTCGGTCAGT -CATCGGTGCAAAAATCGGTGTTAAGTGCCTATGGCGATCAGGGCGGCTTTGTGCTGGCTCCGCAGGATAA -CCTCTTTTGAATCTGAATGAGTCGATGGCTCGCGAATAATCCGATTACGGCTACGCTTCTAATGTTCCCC -TTGAATGGAGTCGAAGAATGCGTAATCCCACGCTGTTACAATGTTTTCACTGGTATTACCCGGAAGGCGG -TAAGCTCTGGCCTGAACTGGCCGAGCGCGCCGACGGTTTTAATGATATTGGTATCAATATGGTCTGGTTG -CCGCCCGCCTATAAAGGCGCATCGGGCGGGTATTCGGTCGGCTACGACTCCTATGATTTATTTGATTTAG -GCGAGTTTGATCAGAAAGGCAGCATCCCTACTAAATATGGCGATAAAGCACAACTGCTGGCCGCCATTGA -TGCTCTGAAACGTAATGACATTGCGGTGCTGTTGGATGTGGTAGTCAACCACAAAATGGGCGCGGATGAA -AAAGAAGCTATTCGCGTGCAGCGTGTAAATGCTGATGACCGTACGCAAATTGACGAAGAAATCATTGAGT -GTGAAGGCTGGACGCGTTACACCTTCCCCGCCCGTGCCGGGCAATACTCGCAGTTTATCTGGGATTTCAA -ATGTTTTAGCGGTATCGACCATATCGAAAACCCTGACGAAGATGGCATTTTTAAAATTGTTAACGACTAC -ACCGGCGAAGGCTGGAACGATCAGGTTGATGATGAATTAGGTAATTTCGATTATCTGATGGGCGAGAATA -TCGATTTTCGCAATCATGCCGTGACGGAAGAGATTAAATACTGGGCGCGCTGGGTGATGGAACAAACGCA -ATGCGACGGTTTTCGTCTTGATGCGGTCAAACATATTCCAGCCTGGTTTTATAAAGAGTGGATCGAACAC -GTACAGGAAGTTGCGCCAAAGCCGCTGTTTATTGTGGCGGAGTACTGGTCGCATGAAGTTGATAAGCTGC -AAACGTATATTGATCAGGTGGAAGGCAAAACCATGCTGTTTGATGCGCCGCTGCAGATGAAATTCCATGA -AGCATCGCGCATGGGGCGCGACTACGACATGACGCAGATTTTCACGGGTACATTAGTGGAAGCCGATCCT -TTCCACGCCGTGACGCTCGTTGCCAATCACGACACCCAACCGTTGCAAGCCCTCGAAGCGCCGGTCGAAC -CGTGGTTTAAACCGCTGGCGTATGCCTTAATTTTGTTGCGGGAAAATGGCGTTCCTTCGGTATTCTATCC -GGACCTCTACGGTGCGCATTACGAAGATGTCGGTGGTGACGGGCAAACCTATCCGATAGATATGCCAATA -ATCGAACAGCTTGATGAGTTAATTCTCGCCCGTCAGCGTTTCGCCCACGGTGTACAGACGTTATTTTTCG -ACCATCCGAACTGCATTGCCTTTAGCCGCAGTGGCACCGACGAATTTCCCGGCTGCGTGGTGGTCATGTC -GAACGGGGATGATGGCGAAAAAACCATTCATCTGGGAGAGAATTACGGCAATAAAACCTGGCGTGATTTT -CTGGGGAACCGGCAAGAGAGAGTAGTGACCGACGAAAACGGCGAAGCAACCTTCTTTTGCAACGGCGGCA -GCGTCAGCGTGTGGGTTATCGAAGAGGTGATTTAAATTCATCCCCGGCGGCAAGCCGGGGAGATTTCATT -ACGGCAGTGGCGTCGGTAACGGCGCTTTATCCAGCGCGGCGGCACACTCTGCTGTCGGGCGATCCACACG -CTCCATCGTCATACCATCGTACTCAATGGTGTTACCGTCACGCTCAACCTCGTACAGCTCACGTTTTACG -GTAACGTTAGTGAGATCATCAGACATCAATGTCAACTTACCCGGCACGGCAATCACCCGCTGCCACTGAC -GGCAATCCAGGGTATCGCCCTCTTTAGTGACAATCAGGCTGCCTATCGCTTCCGGGCTGACCAGCGCACG -TTGCGGCCCTTTGGTCTGCCAGTAGCCCGCCAGCCAGTCCGGCGCGGGGGTTTTCACGACATTGTTATAG -TTTTCGACTTCGGCACAGCCCGCCAGCAACAAGAGCGCGCCTGCAATTGCGAGTTTTTTCATCATTCGTC -CTGCATGAGAAGAAAAGAGGATTGTGGCATTAAAGCCCTGATGTCGCCAGCCTTTCAAGGTTCAGAGAGA -AATTTGATCTAACTATTATTTTTGTGAATTATTACCCCGAAAATAAATTTGCATGGTGTATGATTCGCGA -CTCTTGTTTCAAACCTTCTGAGTTCAGAGGCTACATTCATGTCATGGCAGCAATTCAAACACGCCTGGTT -GATTAAATTCTGGGCCCCCATCCCTGCGGTCATCGCGGCGGGTATTCTCTCTACTTACTATTTTGGCATT -ACTGGCACCTTTTGGGCTGTCACGGGTGAATTTACCCGTTGGGGCGGCCAGCTCCTGCAACTGTTCGGCG -TCCATGCTGAAGAGTGGGGTTACTTTAAAATTATCCATCTGGAAGGATCGCCATTAACCCGCATCGACGG -GATGATGATCCTCGGTATGTTTGGCGGCTGCTTTGCCGCAGCGCTGTGGGCCAACAATGTCAAACTGCGA -ATGCCGCGCAGCCGTATCCGCATTATGCAGGCCATCATTGGCGGCATTATCGCCGGTTTTGGCGCGCGTC -TGGCAATGGGCTGTAACCTGGCGGCGTTCTTTACCGGTATTCCTCAGTTCTCGCTGCATGCCTGGTTCTT -TGCCATCGCCACTGCCATTGGTTCATGGTTTGGCGCGCGCTTTACCCTGCTGCCCATCTTCCGTATTCCC -GTGAAAATGCAGAAAGTTTCTGCCGCCTCACCGCTGACGCAAAAACCGGATCAGGCGCGGCGTCGTTTTC -GTCTCGGGATGCTGGTCTTTTTCGGCATGCTGGGCTGGGCGCTGCTCACAGCGATGAACCAACCCAAACT -GGGGCTGGCAATGCTGTTTGGCGTCGGCTTTGGTTTACTGATTGAACGTGCGCAAATCTGCTTTACTTCA -GCGTTCCGCGATATGTGGATCACCGGACGTACCCATATGGCGAAAGCAATCATTATCGGTATGGCGGTGA -GTGCCATCGGGATCTTCAGTTACGTACAGTTAGGCGTTGAACCCAAAATCATGTGGGCGGGACCAAACGC -GGTAATTGGTGGTTTACTGTTTGGTTTTGGCATCGTGCTGGCTGGCGGCTGCGAAACCGGCTGGATGTAC -CGCGCGGTAGAAGGCCAGGTGCACTACTGGTGGGTCGGTCTGGGCAATGTGATCGGCTCAACGATTCTGG -CGTATTACTGGGATGATTTCGCTCCGGCGCTGGCCACCGACTGGGACAAAATCAACCTGCTGAAAACCTT -TGGTCCGATGGGTGGCCTGCTGGTGACATATTTGCTGTTGTTTGCTGCGCTGATGTTGATTATCGGCTGG -GAAAAACGCTTCTTCCGCCGTGCGGCACCGCAGACTGCTAAGGAGATCGCATGAAAAATATCGTTCCTGA -TTACCGCCTTGATATGGTGGGTGAACCCTGCCCTTATCCGGCAGTCGCAACCCTTGAGGCGATGCCGCAG -TTAAAAAAAGGGGAAATCCTGGAAGTGGTGAGCGACTGTCCGCAGTCGATCAATAATATTCCACTGGATG -CGCGTAATCACGGCTATACGGTGCTGGATATTCAGCAAGACGGGCCGACCATTCGTTATTTAATTCAGAA -GTAATCCCTCATTCCCGCTGTGACCCACAGCGGGAACATCGTTACCTTTGTATCACATAGATTTTACCCG -CCCCCACTCCTATTCTTTTCAGTATGATCTCAGGAGGTTTCTATGTGTGGACGCTTTGCCCAATCCCAAA -CGCGTGAAGATTACCTTGCGCTTCTCGCGGAAGATATTGAACGCGATATTCCCTATGATCCCGAACCCAT -TGGCAGATACAACGTCGCGCCGGGAACCAAAGTCCTACTGCTCAGTGAACGTGATGAACACCTTCATCTG -GATCCGGTTTTCTGGGGATATGCTCCCGGATGGTGGGATAAACCGCCGCTGATTAACGCCCGCGTAGAAA -CTGCGGCAACCAGTCGTATGTTTAAACCGCTCTGGCAACATGGTCGGGCAATCTGTTTTGCCGATGGCTG -GTTTGAGTGGAAAAAAGAAGGCGACAAAAAACAGCCTTTTTTTATCTATCGTGCTGATGGACAACCTATT -TTTATGGCCGCGATAGGTAGCACACCATTTGAGCGTGGTGACGAAGCCGAAGGATTTTTGATCGTCACTG -CTGCGGCAGATCAAGGTCTGGTAGATATTCATGACCGCCGCCCACTGGTACTGTCGCCAGAAGCTGCGCG -GGAATGGATGCGGCAAGAGATTAGCGGTAAAGAAGCCTCAGAAATCGCGGCCAGTGGCTGTGTTCCAGCA -AACCAGTTCTCCTGGCACCCGGTATCGCGCGCGGTGGGTAATGTTAAAAACCAGGGCGCGGAGTTAATTC -AACCTGTTTGATAAGCCTGGAGATTATTGATCAACAATACTGCGTCATAAGAAATCTCTATTAGACAAAG -ATTTCATTACCTGTTGGCATATTGCAAAAATAACACCAATACGGAATCGTCATGTTCACGATTAAAACAG -ATGATCTCACCCATCCAGCAGTGCAAGCATTAGTGGCTTACCATATTTCCGGCATGCTGCAGCAGTCTCC -CCCCGAAAGCAGTCATGCTTTAGATGTGCAAAAATTACGTAACCCGACAGTGACATTCTGGTCAGTATGG -GAAGGCGAACAACTCGCAGGAATTGGTGCGCTGAAGTTGCTGGATGATAAACACGGCGAGCTGAAATCAA -TGCGTACCGCGCCAAATTATTTACGTCGTGGTGTCGCCAGTCTGATTTTACGCCACATTTTGCAGGTCGC -CCAGGACAGATGCCTTCATCGCCTGAGCTTAGAAACGGGTACACAGGCTGGATTTACGGCCTGCCATCAA -CTTTATTTGAAGCATGGTTTCGCTGATTGCGAACCGTTTGCTGATTATCGACTTGATCCACACAGTCGAT -TTTTATCATTGACGCTATGCGAAAATAATGAATTGCCATGAGCCAGACGCAGCACATTCTTGCATTCGAC -GTGCTGCGCCTTTATTTATCACCAGCAGGAAACGCCTTGTCCATAGACGCCCCTTCCACATGCGCCACAA -GAAACCTCTATTCCAGTGACACAATTGCGCCTAATTAATTACATTTAATATTTAATTATGAGTTCCTCAC -CATCTATTACATACTTTTTAACCATATCGGAATATTTATCATAATCAGCGGGATTCGTAACAATATATTT -TCGCTGCGATCTTTCATAGCAAATCCCTGTCAAAGTCCATGATATAAAAATGTCTCTTCAAAAGAATTAC -ATTCTTTAAAAAGTAATTCTTTATTGCTATATATCGCAGAGACAACCTCAATATCACACTCCATACGTGC -TTTCTCCAGATGATTTGGGAAGTATTGAATTTCTTTTATCTTATTATCGCCACAATTAAACAGCTTAGTA -GTCTCAGGCATTGCTGGTATTTACCATATTTTATTGCGATAAATAGAAATTGTCATAGCCTTTGACGGAG -ATGAGTCAACACGCGATATCAGATTATTATCTACGGAGACCTGGGTAATTCCATCGGATACTTTTGGAAA -TACCATATAATTATTGAAATCGAGCTCTAATTCTTTGCAGAATTTGGGAATTTGTATTGTGGCAAGGCCA -TTATGACGAAGATAAAGCACCTCAATCCAGGATGGAAGAGGTGGCAAAGACCCCAAGTGAAGATCTGTTA -AGTCAAGTTTACTATTGTGGAGTTCAACACATTTAAACAATCTCACCAATGCTATATCCACATTTTTTTT -GAAGTCATTCGATGCGCCTTCTTTTACTGAATTAGCCCAGTCGCTGAAACCTTTGCAAAGTCTGGAATCT -GTAATTTTCGTAAAGTTGTCTAGAAACTCTGCAATATTAGTCGATATAAACTCTAATTTATGCCGAATGG -GTGGGTTACCAGTTCCCTGATTTTTTCTATCATGATAAAACCTATCTTATTATAAATCGAGAAATCTTGA -AACCAGAGACTATAATCACCCCATTCGAAATATTCTGAGTGCAATAACTTAAATTCTGACAGCATATTAA -ATAATTTGCTGTCTTCACTAATTGGTGTAAACTTACCATTTCCAAGACAACTGACTAACTCACTTGATAA -TTCATTTATGATTGCATCATCAGATACTAACTCATGTTGTTTTATCGTAGATTCAGTATTAGATGTGACT -TTATTTAATTGAACCGGCTGAGTTTTTAACGAAAGATCATTTAATGGAAACATTTACACTCCTGTTTAAT -AAATTATATTGCCCAGGGCGCATTCTAAAACACAATAAAATTACCACTATCAAAAATCGCTCATATCCAT -CGCCCGGAATATGAATAAAAACATCAACAAAGATTAAATTATCCAGAGGTTACTGTTGCGTCTGTGGTCG -TAACAACATCCGACGTGGTGATGTGTCAAATGAGACGCTCTGATGTTCAGGGGGGTTATCGCGTATACGG -ATCGTGGATGGCAGAAAACGTTCAGGATCAGGTATCCATTTTAAACCAGAAATTGAGTGAGTTTGCCCCA -TCCATGCCCCACGCGGTGAGATCGGATGTAATTAACAACAGGTTACAAAACCTACACCTGCATGCTCATC -ACTTCCTGATACGCCGCCACCAGCTTATTACGCACCTGAATCCCCATTTGCATAGAAACTGAGGCTTTTT -GCATATCGGTCATCACATCGTTTAACGCCACGCCGGGTTCACCGAGAGTGAATTTTTCTGCCTGCGTGCG -GGCAGCTGTTTGTGTATCACTAATGCGATCGAGCGCGGCGTGCAGCTGCCCGGCAAAACTAATGGTCGGT -TGCGGCAGTGATTCCTGCGCACGCGCACTCATCGCCGTAGCCTGTAACTGGCTGATAACCCCTTCAATCC -CCTGTATCGCTGACATTCTCGTCTCCCGGATAATTTCTGGTAGCAAAGCCTACCAGTAAGTCAATAAGAC -AAAGGCGCTAAATAGCAACAAAAAAACGGGTTTATTGGCGGATAGAAAAAAACGAAAGCACAAATAATGG -GAGCGTCAATTTTTCGAGTTTGCTGACCCGGGAGTGAGTCTTGTTCCACTTTGCCAATAACGCCGTCCAT -AATCAGCCACGAGGTGCGCGATGAATGCGACTGCAGCCCAGACAAAATCTCTTGAGTGGCTTAATCGCCT -GCGTGCGAATCCGAAAATTCCATTGATTGTTGCCGGTTCCGCGGCAGTGGCGGTCATGGTCGCACTGATC -CTGTGGGCGAAAGCCCCCGACTACCGCACATTATTCAGCAATCTTTCCGATCAGGATGGTGGCGCAATTG -TCAGCCAACTGACGCAAATGAATATTCCTTACCGCTTCAGCGAAGCCAGCGGCGCTATTGAAGTTCCGGC -AGATAAAGTTCACGAACTGCGTCTGCGCCTGGCACAACAAGGTTTGCCAAAAGGCGGCGCGGTCGGTTTC -GAACTGCTTGATCAGGAAAAGTTTGGTATCAGCCAGTTCAGCGAACAGGTGAATTATCAGCGGGCGCTGG -AAGGCGAGCTTTCTCGTACCATCGAAACTATCGGCCCGGTAAAAGGGGCGCGCGTACATCTGGCAATGCC -GAAACCGTCTTTATTCGTCCGTGAACAAAAATCCCCTTCTGCATCGGTGACGGTAAATCTGTTACCCGGC -CGCGCACTCGATGAAGGGCAAATTAGCGCCATTGTGCATCTGGTTTCCAGCGCCGTTGCTGGTCTGCCGC -CGGGAAACGTCACGCTGGTGGATCAGGGCGGACATCTGTTAACCCAGTCCAATACCAGCGGGCGCGATCT -TAATGACGCTCAGTTGAAATATGCCAGCGATGTCGAAGGCCGTATTCAGCGGCGTATTGAAGCGATCCTG -TCGCCTATTGTTGGTAACGGTAATATTCACGCCCAGGTTACGGCGCAGCTGGACTTCGCCAGTAAAGAAC -AAACGGAAGAACAGTATCGCCCTAACGGTGATGAATCTCATGCGGCGCTTCGTTCACGCCAGCTTAATGA -GAGCGAGCAAAGCGGTTCCGGTTATCCGGGCGGCGTACCGGGGGCGTTGTCGAATCAACCGGCACCTGCG -AATAACGCGCCAATCAGCACGCCTCCGGCAAATCAAAATAACCGCCAGCAGCAGGCGAGCACCACCAGCA -ATAGTGGGCCGCGTAGCACACAGCGGAATGAAACCAGTAACTACGAAGTCGATCGCACCATTCGTCATAC -CAAAATGAACGTGGGCGATGTGCAACGTCTGTCAGTCGCGGTCGTGGTGAATTACAAAACCTTGCCAGAT -GGCAAACCGTTGCCTCTCAGCAACGAACAGATGAAGCAAATTGAAGATCTGACCCGCGAGGCGATGGGCT -TTTCTGAAAAACGCGGTGACTCGCTCAATGTCGTTAACTCGCCGTTCAATAGCAGTGACGAAAGCGGCGG -AGAACTGCCATTCTGGCAACAGCAAGCGTTTATCGATCAGTTACTTGCTGCCGGTCGCTGGTTGCTGGTA -CTGCTGGTGGCGTGGCTGCTGTGGCGGAAAGCGGTACGTCCGCAGCTAACACGTCGCGCTGAGGCGATGA -AAGCTGTACAGCAACAGGCGCAGGCCCGCGAGGAAGTGGAAGATGCGGTGGAAGTCCGCCTGAGCAAAGA -CGAACAACTACAACAACGGCGCGCTAACCAACGTCTGGGGGCAGAAGTCATGAGCCAGCGTATCCGTGAA -ATGTCTGATAACGATCCGCGCGTGGTGGCGCTGGTCATTCGCCAGTGGATAAATAACGATCATGAGTAAC -CTGACAGGCACCGATAAAAGCGTCATCCTGCTGATGACCATTGGCGAAGACCGGGCGGCAGAGGTGTTCA -AGCACCTCTCCCAGCGTGAAGTACAAACCCTGAGCGCTGCAATGGCGAACGTCACGCAGATCTCCAACAA -GCAGCTAACCGATGTGCTGGCGGAGTTTGAGCAAGAAGCTGAACAGTTTGCCGCACTGAATATCAACGCC -AACGATTATCTGCGCTCGGTATTGGTCAAAGCTCTGGGTGAAGAACGTGCCGCCAGCCTGCTGGAAGATA -TTCTCGAAACTCGCGATACCGCCAGCGGTATTGAAACGCTCAACTTTATGGAGCCACAGAGCGCCGCCGA -TCTGATTCGCGATGAGCATCCGCAAATTATCGCCACCATTCTGGTGCATCTGAAGCGCGCCCAAGCCGCC -GATATTCTGGCGTTGTTCGATGAACGTCTGCGCCACGACGTGATGTTGCGTATCGCCACCTTTGGCGGCG -TGCAGCCAGCCGCGCTGGCGGAGCTGACCGAAGTACTGAATGGCTTGCTCGACGGTCAGAATCTCAAGCG -CAGCAAAATGGGCGGCGTGAGAACGGCAGCCGAAATTATCAACCTGATGAAAACTCAGCAGGAAGAAGCC -GTTATTACCGCCGTGCGTGAATTCGACGGCGAGCTGGCGCAGAAAATCATCGACGAGATGTTCCTGTTCG -AGAATCTGGTGGATGTCGACGATCGCAGCATTCAGCGTCTGTTGCAGGAAGTGGATTCCGAATCGCTGTT -GATCGCGCTGAAAGGAGCCGAGCAGCCACTGCGCGAGAAATTCTTGCGCAATATGTCGCAGCGTGCCGCC -GATATTCTGCGCGACGATCTCGCCAACCGTGGTCCGGTGCGTCTGTCGCAGGTGGAAAACGAACAGAAAG -CGATTCTGCTGATTGTGCGCCGCCTTGCCGAAACTGGCGAGATGGTAATTGGCAGCGGCGAGGATACCTA -TGTCTGATAATCTGCCGTGGAAAACCTGGACGCCGGACGATCTCGCGCCACCACAGGCAGAGTTTGTGCC -CATAGTCGAGCCGGAAGAAACCATCATTGAAGAGGCTGAACCCAGCCTTGAGCAGCAACTGGCGCAACTG -CAAATGCAGGCCCATGAGCAAGGTTATCAGGCGGGTATTGCCGAAGGTCGCCAGCAAGGTCATAAGCAGG -GCTATCAGGAAGGACTGGCCCAGGGGCTGGAGCAAGGTCTGGCAGAGGCGAAGTCTCAACAAGCGCCAAT -TCATGCCCGGATGCAGCAACTGGTCAGCGAATTTCAAACTACCCTTGATGCACTTGATAGTGTGATAGCG -TCGCGCCTGATGCAGATGGCGCTGGAGGCGGCACGTCAGGTCATCGGTCAGACGCCAACGGTGGATAACT -CGGCACTGATCAAACAGATCCAACAGTTGTTGCAGCAAGAACCGTTATTCAGCGGTAAACCACAGCTGCG -CGTGCACCCGGATGATCTGCAACGTGTGGATGATATGCTCGGCGCTACCTTAAGTTTGCATGGCTGGCGC -TTGCGGGGCGATCCCACCCTCCATCCTGGCGGCTGTAAAGTCTCCGCCGATGAAGGCGATCTCGACGCCA -GTGTCGCCACTCGCTGGCAAGAACTCTGCCGTCTGGCAGCACCAGGAGTGGTGTAATGACCACGCGCCTG -ACTCGCTGGCTAACCACGCTGGATAACTTTGAAGCCAAAATGGCGCAGTTGCCTGCGGTACGTCGCTACG -GGCGATTAACCCGCGCTACCGGGCTGGTGCTGGAAGCCACCGGATTACAATTGCCGCTCGGCGCAACCTG -TGTCATTGAGCGCCAGAACGGCAGCGAAACGCACGAAGTAGAAAGCGAAGTCGTTGGCTTTAACGGTCAA -CGGCTGTTTTTAATGCCGCTGGAGGAAGTCGAAGGTGTCCTGCCCGGCGCGCGTGTTTATGCCAAAAACA -TTTCGGCAGAAGGGCTGCAAAGCGGCAAGCAGTTGCCGCTCGGTCCGGCGTTATTAGGTCGCGTTCTGGA -CGGCAGCGGTAAACCGCTCGATGGCCTGCCCTCCCCCGATACGACGGAAACCGGTGCGCTGATTACCCCG -CCATTTAACCCGTTGCAACGTACACCGATTGAACATGTGCTGGACACCGGCGTGCGCCCAATCAATGCCC -TGCTTACCGTTGGGCGTGGGCAGCGTATGGGGCTGTTTGCCGGGTCCGGCGTTGGTAAAAGTGTGCTGCT -GGGGATGATGGCACGTTACACCCGCGCCGATGTCATTGTCGTGGGTTTGATTGGTGAACGTGGGCGCGAA -GTAAAAGATTTTATTGAGAACATCCTCGGTGCCGAAGGGCGTGCACGCTCAGTGGTGATTGCCGCTCCGG -CGGATGTTTCTCCGCTCCTGCGAATGCAGGGTGCCGCCTATGCCACGCGCATTGCCGAAGATTTTCGCGA -TCGTGGTCAGCATGTGTTGCTGATTATGGACTCCCTCACCCGCTACGCGATGGCCCAGCGTGAAATTGCG -CTGGCGATTGGCGAACCCCCCGCCACCAAAGGTTATCCACCGTCGGTGTTTGCCAAATTACCGGCACTGG -TCGAGCGTGCCGGAAATGGCATTAGCGGCGGCGGCTCGATTACCGCGTTTTATACCGTGCTCACTGAAGG -CGATGACCAGCAGGATCCGATTGCCGACTCCGCGCGGGCGATCCTCGACGGTCACATTGTGCTGTCTCGC -CGACTGGCGGAAGCCGGGCACTATCCGGCTATCGATATTGAAGCGTCGATCAGCCGCGCAATGACGGCGT -TGATCAGTGAGCAACATTACGCGCGAGTGCGCACCTTCAAACAGCTGTTGTCGAGTTTTCAGCGTAACCG -CGATCTGGTTAGCGTCGGCGCGTATGCCAAAGGCAGCGATCCGATGCTCGATAAAGCCATCGCCCTGTGG -CCGCAGCTGGAGGGCTATTTGCAACAAGGCATTTTTGAACGCGCGGACTGGGAAGCGTCTCTCCAGGGGC -TGGAGCGTATTTTCCCGACAGTGTCATAACCCAGGAGATAACGGCAGATGGCAGAACATGGTGCGCTGGC -GACCCTGAAAGATCTGGCAGAAAAAGAGGTAGAGGATGCCGCGCGCCTGCTGGGTGAAATGCGTCGCGGA -TGTCAGCAGGCGGAAGAACAGCTCAAAATGCTGATTGATTATCAGAATGAATATCGCAATAACCTCAACA -GCGATATGAGTGCCGGGATAACCAGCAACCGCTGGATCAACTATCAGCAGTTTATCCAGACGCTGGAAAA -AGCCATTACTCAGCATCGCCAGCAACTTAATCAGTGGACGCAGAAAGTTGACATTGCCCTGAACAGTTGG -CGAGAAAAAAAACAACGTTTGCAGGCCTGGCAGACACTGCAGGAACGGCAATCCACGGCGGCACTGCTTG -CAGAAAACCGCCTCGATCAGAAAAAGATGGATGAGTTCGCCCAGCGCGCCGCCATGAGGAAACCTGAATG -ATTCGCTTAGCGCCCTTGATTACCGCCGACGTTGACACCACCACATTGCCTGGCGGCAAAGCCAGCGATG -CTGCACAAGATTTTCTCGCGTTGTTGAGCGAAGCATTAGCAGGCGAGACAACTACCGACAAAGCGGCCCC -CCAGTTGCTGGTGGCAACAGATAAGCCCACGACAAAAGGCGAGCCGCTGATCAGCGATATTGTTTCCGAC -GCGCAACAAGCTAATTTACTGATCCCTGTGGATGAAACACCGCCTGTCATCAACGACGAACAATCCACAT -CAACACCGTTAACCACCGCTCAGACGATGGCGTTGGCTGCGGTGGCTGACAAAAATACGACAAAAGACGA -AAAAGCGGATGATCTGAATGAAGACGTCACCGCAAGCCTGAGCGCCCTTTTTGCGATGTTGCCGGGTTTT -GACAATACGCCCAAAGTGACTGATGCGCCGTCAACCGTGTTACCGACAGAGAAACCAACGCTCTTCACAA -AACTGACTTCTGAGCAACTCACAACAGCACAGCCTGATGACGCCCCCGGCACACCAGCTCAGCCATTAAC -ACCGCTGGTAGCAGAAGCCCAGAGTAAAGCGGAAGTCATCAGCACACCTTCACCGGTGACCGCTGCCGCC -AGCCCGCTAATCACTCCACACCAGACACAGCCACTGCCCACCGTCGCCGCACCTGTTTTGAGTGCACCGC -TGGGTTCTCACGAATGGCAACAATCATTAAGCCAGCATATTTCGCTGTTCACCCGCCAGGGGCAACAAAG -TGCAGAGTTGCGTCTGCACCCGCAGGATTTAGGTGAAGTGCAAATCTCCCTCAAAGTGGATGATAACCAG -GCGCAAATCCAGATGGTTTCACCGCATCAGCATGTACGCGCCGCCCTGGAAGCAGCGCTGCCGGTACTGC -GCACGCAGCTGGCCGAAAGTGGCATTCAGTTAGGGCAAAGCAACATCAGTGGCGAAAGCTTTAGTGGTCA -GCAGCAGGCCGCTTCCCAGCAACAGCAAAGCCAACGCACAGCAAACCATGAACCTCTGGCGGGGGAAGAC -GACGATACGCTTCCGGTTCCCGTCTCTTTACAAGGGCGTGTAACAGGCAACAGCGGCGTTGATATTTTCG -CCTAACGTCAGAGGTAGCACCGTAATCCGCGTCTTTTCCCCGCTTTGTTGCGCTCAAGACGCAGGATAAT -TAGCCGATAAGCAGTAGCGACACAGGAAGACCGCAACACATGACTGATTACGCGATAAGCAAGAAAAGCA -AGCGATCGCTTTGGATCCCGATTCTGGTATTCATTACCCTCGCGGCCTGTGCCAGCGCAGGTTACAGCTA -CTGGCATTCGCATCAGGTTGCCGCTGACGACAAAGCGCAGCAACGCGTCGTGCCCTCACCGGTCTTCTAC -GCGCTGGATACCTTCACGGTCAATTTGGGCGATGCGGATCGCGTACTTTATATCGGCATAACCCTGCGCC -TGAAAGATGAAGCTACCCGCTCGCGGCTGAGTGAGTATTTGCCGGAAGTCCGTAGTCGCTTGCTGTTACT -GTTTTCGCGTCAGGATGCTGCCGTACTGGCGACAGAAGAAGGCAAGAAAAACCTGATTGCCGAGATTAAA -ACCACACTTTCCACCCCGCTTGTTGCCGGGCAACCGAAACAGGATGTCACCGACGTGCTGTATACCGCTT -TTATTCTGCGATAACGACATGGGCGATAGTATTCTTTCTCAAGCTGAAATTGATGCGCTGTTGAATGGTG -ACAGCGAAGTCAAAGACGAACCGACAGCCAGTGTTAGCGGCGAAAGTGACATTCGTCCGTACGATCCGAA -TACCCAACGACGGGTTGTGCGCGAACGTTTGCAGGCGCTGGAAATCATTAATGAGCGCTTTGCCCGCCAT -TTTCGTATGGGGCTGTTCAACCTGCTGCGTCGTAGCCCGGATATAACCGTCGGGGCCATCCGCATTCAGC -CGTACCATGAATTTGCCCGCAACCTGCCGGTGCCGACCAACCTGAACCTTATCCATCTGAAACCGCTGCG -CGGCACTGGGCTGGTGGTGTTCTCACCGAGTCTGGTGTTTATCGCCGTGGATAACCTGTTTGGCGGCGAT -GGACGCTTCCCGACCAAAGTGGAAGGTCGCGAGTTTACCCATACCGAACAGCGCGTCATCAACCGCATGT -TGAAACTGGCGCTTGAAGGCTATAGCGACGCCTGGAAGGCGATTAATCCGCTGGAAGTTGAGTACGTGCG -TTCGGAAATGCAGGTGAAATTTACCAATATCACCACCTCGCCGAACGACATTGTGGTTAACACGCCGTTC -CATGTGGAGATTGGCAACCTGACCGGCGAATTTAATATCTGCCTGCCATTCAGCATGATCGAGCCGCTAC -GGGAATTGTTGGTTAACCCGCCGCTGGAAAACTCGCGTAATGAAGATCAGAACTGGCGCGATAACCTGGT -GCGCCAGGTGCAGCATTCACAGCTGGAGCTGGTCGCCAACTTTGCCGATATCTCGCTACGCCTGTCGCAG -ATTTTAAAACTGAACCCCGGCGACGTCCTGCCGATAGAAAAACCCGATCGCATCATCGCCCATGTTGACG -GCGTCCCGGTGCTGACCAGTCAGTATGGCACCCTCAACGGTCAGTATGCGTTACGGATAGAACATTTGAT -TAACCCGATTTTAAATTCTCTGAACGAGGAACAGCCCAAATGAGTGACATGAATAATCCGGCCGATGACA -ACAACGGCGCAATGGACGATCTGTGGGCTGAAGCGTTGAGCGAACAAAAATCAACCAGCAGCAAAAGCGC -TGCCGAGACGGTGTTCCAGCAATTTGGCGGTGGTGATGTCAGCGGAACGTTGCAGGATATCGACCTGATT -ATGGATATTCCGGTCAAGCTGACCGTCGAGCTGGGCCGTACGCGGATGACCATCAAAGAGCTGTTGCGTC -TGACGCAAGGGTCCGTCGTGGCGCTGGACGGTCTGGCGGGCGAACCACTGGATATTCTGATCAACGGTTA -TTTAATCGCCCAGGGCGAAGTGGTGGTCGTTGCCGATAAATATGGCGTGCGGATCACCGATATCATTACT -CCGTCTGAGCGAATGCGCCGCCTGAGCCGTTAGTGATGAATAACCACGCTACTGTGCAATCTTCCGCGCC -GGTTTCTGCTGCGCCACTGCTGCAGGTGAGCGGCGCACTCATCGCCATTATTGCCCTGATCCTCGCTGCT -GCCTGGCTGGTAAAACGGTTGGGATTTGCCCCTAAACGCACTGGCGTTAACGGTCTGAAAATTAGCGCCA -GTGCTTCACTGGGCGCGCGTGAAAGGGTTGTGGTGGTCGATGTGGAAGATGCACGGCTGGTGCTCGGCGT -TACCGCAGGTCAAATCAATCTGCTGCATAAACTTCCCCCTTCTGCACCAACGGAAGAGATACCGCAGACC -GATTTTCAGTCGGTCATGAAAAATTTGCTTAAGCGTAGCGGGAGATCCTGATGCGTCGTTTATTGTCTGT -CGCACCTGTCCTTCTCTGGCTGATTACGCCCCTCGCCTTCGCGCAACTGCCGGGTATCACCAGCCAGCCG -CTGCCTGGCGGTGGACAAAGCTGGTCGCTCCCGGTGCAGACGCTGGTGTTCATCACCTCGTTGACGTTTA -TTCCGGCAATTTTACTGATGATGACCAGTTTCACCCGCATCATCATTGTTTTTGGTTTATTGCGTAACGC -GCTGGGAACACCCTCCGCGCCACCTAACCAGGTATTGCTGGGGCTGGCACTGTTTTTGACCTTTTTTATT -ATGTCACCGGTGATCGACAAAATTTATGTAGATGCGTACCAGCCATTCAGCGAAGAGAAAATATCAATGC -AGGAGGCGCTGGAAAAAGGGGCGCAGCCGCTGCGTGAGTTTATGCTGCGTCAGACCCGTGAGGCAGATTT -AGGGTTGTTTGCCAGACTGGCGAATACCGGCCCGTTGCAGGGACCTGAAGCCGTGCCGATGCGCATTTTG -CTCCCGGCCTACGTGACCAGCGAGTTGAAAACCGCATTTCAGATAGGCTTCACGATTTTCATCCCTTTTT -TGATTATCGACCTGGTGATAGCCAGCGTGTTGATGGCATTGGGGATGATGATGGTTCCCCCAGCCACCAT -TGCTCTGCCCTTTAAACTGATGCTGTTTGTACTGGTGGATGGCTGGCAATTGCTGGTCGGTTCGCTGGCG -CAGAGCTTTTACAGCTAGAGAGGCAAAATGACACCTGAATCGGTCATGATGATGGGGACTGAAGCGATGA -AAGTCGCGCTGGCACTGGCTGCCCCGCTATTGTTGGTAGCGTTGGTCACGGGCCTTATCATCAGTATTTT -GCAGGCCGCCACGCAGATTAACGAAATGACGCTGTCGTTTATTCCGAAAATCATCGCCGTATTTATCGCC -ATTATTATTGCCGGACCGTGGATGCTCAATCTGTTGCTGGATTACGTCCGCACCTTGTTCACTAACCTGC -CGTATATCATCGGGTAGCCGTACTATGTTGCAGGTGACAAGCGAACAATGGCTATCCTGGTTAAACCTGT -ACTTCTGGCCGTTACTGCGCGTGCTGGCGCTGATCTCCACCGCGCCGATTCTGAGCGAACGCAGCGTACC -GAAACGGGTAAAACTGGGTCTGGCAATGATGATCACGTTCGCCATTGCCCCATCATTACCTGCCAACGAT -GTTCCTGTTTTTTCGTTCTTTGCTCTGTGGCTGGCCGTGCAGCAGATCCTGATCGGCATTGCGCTTGGTT -TTACCATGCAATTTGCCTTTGCCGCTGTGCGAACCGCTGGCGAAATTATCGGTCTGCAAATGGGGCTGTC -ATTTGCGACGTTTGTCGATCCGGCCAGCCATCTTAATATGCCCGTTTTAGCGCGTATCATGGATATGCTG -GCGTTACTGCTGTTCCTGACATTTAACGGTCATTTATGGTTGATTTCACTGCTGGTCGATACCTTTCACA -CCCTGCCGATTGGTGGCGAACCGTTGAACAGCAATGCGTTTCTGGCACTCACCAAAGCAGGGAGTTTGAT -TTTCCTTAACGGGCTGATGCTGGCGTTACCGCTCATTACTCTGCTGCTGACACTGAATCTGGCATTAGGT -TTACTTAATCGTATGGCCCCGCAATTATCCATTTTTGTTATTGGATTTCCATTAACTCTGACTGTCGGCA -TCTCTTTAATGGCGGCATTAATGCCGTTAATTGCACCTTTTTGCGAACATTTATTCAGTGAAATTTTTAA -TTTGCTGGCTGATATTATTAGTGAATTGCCATTAATATAATTCCGTAACGTTTATCATGTTATCCTAAGG -ATTATCCGAAAAATAATACCTACGAACATCTTCCAGGATACTCCTGCAGCGAAATATTTGTTTTAAGCTC -ACTCACATATCGCAACATTTACTTTACTTTAAGACAATTCCAGGCAAATTATACAACACTTTACGGGATA -GTAAGTCCGCCTGAAAAATCGCGAGAGTGGCGCATTAGGTGACCCATGTTGTTCCGTTTAGTCATGATGA -AATATTCAGGTAAGGGGAATTATCGTTACGCATTGAGTGAGGGTATGCCATGTCAACGATTATTATGGAT -TTATGTAGTTACACCCGACTAGGTTTAACCGGGTATCTGTTGAGTAGAGGGGTTAAAAAAAGAGAAATCA -ACGACATTGAAACCGTTGATGACCTTGCCATAGCTTGTGATTCACAGCGCCCTTCAGTGGTGTTTATTAA -TGAGGACTGTTTCATCCACGATGCTTCTAACAGTCAGCGTATCAAGCTCATCATTAATCAACATCCCAAT -ACGTTATTTATCGTTTTTATGGCAATTGCCAATGTTCATTTTGATGAATATCTATTGGTCAGAAAAAATT -TATTGATCAGTTCTAAATCGATTAAACCGGAATCTCTCGACGATATCCTTGGCGATATTCTGAAAAAAGA -GACAACGATAACCTCGTTTTTAAATATGCCGACGTTATCATTGAGCCGAACCGAATCGAGTATGTTGCGA -ATGTGGATGGCAGGTCAGGGAACCATTCAAATCTCTGACCAAATGAATATCAAAGCCAAGACCGTTTCAT -CGCATAAAGGTAATATTAAACGTAAGATCAAAACGCATAATAAACAGGTTATCTACCATGTCGTCCGACT -GACGGATAATGTGACTAATGGTATTTTTGTCAACATGCGCTAACACATTCTGACTGGTGGTTTCCCACCA -GTCAGGCTGAATAAGATTACTCTGCTTTCTCCACAAAGATACCGTCCTGATGCCCTGCTTCATTAAAGAA -CCAGATGCCGAGCGGGTAGTCTTCCAGCGAAACCAGGTACATTGTGCCTTCACTAAACTCCTCAACTGCC -AGTACCACGCCAGGACGACGCGGACCGCCATCCGTTTTGACTGTTACCCGATCATTCACCTTCATCGTTT -TCCTCCTGTGGCTTTGTGCCAGTGTAGAACAATTTCGTTTTTCTGGCAGCGCCAGGCGCGCGCGAGTGCT -GATTTTCTCGACGGTCTATACTTAAGAGATGCCAGGCGGACTTAACGACTGGCGGCAACAACAGAGTAAC -GGTTGCGAGGAAAGATGATGAAAACCGCAAAAGAGTACAGCGATACCGCAAAACGTGAGGTCAGCGTCGA -TGTCGATGCCCTGCTGGCGGCGATCAATGAAATTAGCGAAAGCGAAGTTCATCGCAGCCAGAACGATTCT -GAACACGTTAGCGTCGATGGACGTGAATATCATACATGGCGTGAATTGGCGGATGCCTTCGAACTGGATA -TTCATGACTTCAGCGTCTCTGAAGTGAATCGTTGAATGCACAATAAAAAAATCCCGACCCTGAGGGGGTC -GGGATGAAACTTGCTTAAGCAAGAAGCACTTAAAAAATTCGTTACACCAGGAAATCTGATGTGTTCATCA -CCTTATCCGCAATTTTTTTCGCTGACAAGAAAATATTCGCCATATGAATGATTAACGCTACTTATGAATA -GAAATGTGACGCACGTCACCCCTTGGTGGCTCTGGCGTCAGCGGGATCGCTCCCGAAAAAATCATCTTTG -ATAATTTGTGCGGTTTTGAGAATCATCCTGGTAAGAGGAGTACTGCGCGACTATGTTTTCAATTCAACAA -CCACTACTGGTTTTTAGCGATCTTGATGGCACCCTGCTGGACAGTCATAGTTATGACTGGCAACCGGCAG -CCCCCTGGCTCACCCGTTTACGCGAAGCAAATGTTCCCGTCATTCTCTGTAGCAGTAAAACATCAGCGGA -AATGCTGTACTTGCAAAAAACGTTGGGGCTACAAGGTTTACCGCTGATTGCCGAAAATGGCGCAGTGATC -CAGCTTGCTGAGCAATGGCAGGAGATAGACGGTTTTCCACGCATCATCTCAGGTATTAGCCATGGCGAAA -TCAGCCTGGTTTTAAATACGCTACGCGAGAAAGAACATTTTAAATTCACGACTTTTGATGATGTCGACGA -TGCAACCATCGCCGAATGGACGGGATTAAGCCGTAGCCAGGCGGCGCTGACGCAGCTTCATGAGGCGTCG -GTAACGCTAATCTGGCGCGACAGTGACGAGCGTATGGCACAATTTACCGCTCGTCTGAACGAACTGGGCT -TACAGTTTATGCAGGGTGCGCGCTTCTGGCACGTACTGGATGCTTCTGCCGGAAAAGATCAGGCTGCCAA -CTGGATTATCGCGACCTATCAACAATTGTCAGGCAAACGCCCAACCACACTTGGCCTGGGCGATGGGCCA -AACGATGCGCCCTTACTGGAGGTAATGGATTACGCGGTGATTGTGAAAGGGCTAAATCGTGAAGGGGTGC -ATCTGCATGATGAGGATCCGGCCCGCGTCTGGCGAACGCAGCGTGAAGGACCGGAAGGATGGCGTGAAGG -GCTGGACCATTTTTTCTCCGCCCGTTAAGCGTTATCGCTCGCGAATACCCGATTACGCCCAGCCTGTTTA -GCGAGATAAAGCCGACGGTCGGCCAGTGACTGGAGTTGTTCAAAATCATAATCACCGGTTTCCTCGCTGC -TGCTTACCCCCAGCGAGGCACTGATGCGTATCGTCGTACTCTTGGCGATCAACATCTCTTTTTCATTTAA -TTTCAGTCGAATACGTTCTGCGACCTCCGCAGCCTCCGTCAGACTCGCGCCTGGCAGAATCACACAAAAC -TCCTCACCACCGACCCGCCCGGCAACGTCCTGCGCACGCAAGGAACTGCTAATTAATCCGGCAGCATGAG -AAAGAACACGGTCGCCCGCCTGATGACCAAAGCGGTCATTAATCGCTTTAAAATGGTCAAGATCGACCTG -AATGACAGAAAAAGGATGTTGGTGCGTCTGACACAATTTAGCGAGCGGACGGGCTTTTTCGAACAGTGCG -CCACGGTTATATAAACGCGTTAAGGTGTCGTGCCACGCCTGCCACTGCAACGAGCTTTGCAGAACATACA -TGTTGCTAACCATCCGGCGAATCACATACCAGGAGATGAGTAACATGGTGGTAAAGAGCGCCCACAGCAG -GGTTAATGCAATGCTGATACTGCCGAAATCGCCGCGCACGCCTTCGCTTAACGTATGGACACGCACCAGC -ACACCGTCGAAATGGTCCAGACGTTCCCAGCTAACATAGCGACTGTCCATACGAATGCCGCCCCGCGTGT -CATGTTCCATTGCCTGCGCCAGCAAGGCCAGTTCACGAGGATCAAAAATATTCCCTGTTGGATGGTCAGG -ATTGGAAGAGGTCAAAAATCTCAGCTTACTGTCATAGAGCTGATACTCACCATCGAGGTTTTTATCGATG -GCGTTTCTTAAAAATTGCTGCATAGTACGCACGGGAATACTCATCCCCAGCACGCCATACCAGTAGTTAT -TACTGTCTACCGGAACACTGACGGTAACCTGCGGTTCAGTATTGCTGGCGTGTTCCGGTTGCGAAGTGAA -CCAGCGTACCGCGCGGTGACGATTTTCTCGTTGTGAATGGCCAATAAACCAGGGTTGGGTGACATAGCCG -TAATAACGCGTTGGAACATTGCGCGTAAACAAGGTCGGCTGCGTCGAAACGTAAAATCCGGCACGCGAGA -CATACATCGCCTGTTCAACCATCGACGAGGAGTTGTGCGCTAGTCGCAGCAAGTAACCAACTTCCAGTGC -AGCGGTAATTTCATTGTCGAGGCTTTCATTTTCGCGAGACAGGAGATTCCCCTCGCTGACTAATGCATCC -GACACACCATTAACTGGCAGAGTGCGTCGTCGGTTGAGTTCGATTTTCCAGGCGTGCTCGTCGCGATGCT -GTTCGAACTCGGTTACAGCATCACGCAGAGAGGTGAAATCCAGTGGCGCTACGAGAGCTTCGCGCATGCC -ATTACGTAAAAAGATCAGTTTGTCGACGTTATACTGCAAATGCTTATCGAGCGCGTTGGCAACGTTTTCC -AGATGATTACGCTGGCTGGAGATATAGGCATCTTCCAGCACCACCACTTCACGCCAGGTGAGCAAGGTGG -AAAAAAGCAATACCACGATAAAGCAGAGATTAACGACATGACCAGGCCCCAGGCGGCGTGCGAGTTTTTT -CAACCAGCTCTGGTTTTCCATTTTTGTCTCGTGCTGCACCCTGACGACTCCCAACCTGCTTTTTTATGAT -TCTGGCATAACCTGGCGATAGCGTACCGCAAAACAGCGATAATTTTATAATGGTGGCATGATAAGACGCG -ACTATCATTCATTGCAGGCATTAGCACACCAGGCCGGATGTGATCCGGCCTGATGTTAATGATACCCTTT -CACACTTCTTCCGCAGAACGACTCCCCTCCCCCGGAACAAGCTCGGTTTCATGAAAAGCTTCCCGCTTGA -CCCCGTAACCGTCATACCAACGACACTCAACCATACCGCTGGAGTATCCAGTGACAATCATCCGCGGGCC -GCCCTCTTTAACCGTAACTTCCTCACTAACCATAAAGCTCATACTCGCCTCCTTTTTTCGAGTGAAACTT -GTTCACCTTAGTTGAAGATGGCGAATTTTGCATAATAGCCAGTGCGAGTATTAATGTGCCTGACCGCGCA -TTTTCTCTACGGCTTTCACTCCCAGCACCACGATGCCGCCGATGATAAATCCAAGAATCAGATTTAAAAC -AGTCGGTAATATCATCGCCACTACTGCACTTTGCTGCCCGGCGAAATGTTCAATGGCGTGATGCAGCGGC -GCAATTCCATGTACCACAATCCCACCGCCGACGAGGAACATCGCCAGCGTGCCGACAATCGATAACGCTT -TCATCAGCCAGGGCGCGATAATCAATAACCCTTTACCTAATGCCTGCATCAGCGCGCTGGATTTTTCCGC -CAGCCAATACCCCAGGTCATCAATCTTAACGATAACCCCTACCAGACCGTAGACGCCCACGGTCACTACC -AGCGCGATGCCTGAAAGCACCAGCACCTGATTAAGCAACGGCGCTTCGGCCACAATCCCCAGCGTGATGG -CGACGATTTCCGCAGACAATATAAAATCGGTACGAATCGCCCCTTTTATTTTGTCCTTTTCAAACTTCAG -CGGATCCTGCGCCGCCAGCTTCTCCAGACGCTGCTGGCTCTGCGCCGGATCTTCTTTATGTTTACGCGCC -TCCAGCATATGCAGCACTTTCTCTACTCCTTCAAAGCAGAGAAACGCGCCACCAATCATCAACAGAGGCG -TAATCGCCCACGGGATAAACGCACTGATGATCAGCGCCAGCGGCACCAGAATCACTTTATTAATCAGCGA -TCCTTTCGCCACGCCCCAGACCACGGGAAGTTCCCGGTTGGCCCGCACGCCTGAAACTTGTTGCGCATTG -AGCGATAAGTCATCCCCTAATACACCGGCGGTTTTCTTCGCCGCCAGTTTGCCCATCACGGAGATATCGT -CCAGTAGTGTGGCGATATCATCGAGCAACGTCAGTAAACTACTCCCGGCCAAAAGCATTCCCTCTCATTT -TTATTGTTGAAGGGTGTAAGTATGAAGCAAAAACGGCAGCTCTGATACTTGCTTCACAGGTCAACATTTT -TTTAACAATCAAGTGCAATTATATCTCTCGCCAGCAGAATGATTTTCACGTTTACTATGAACCACCTTTT -TATTTCCACCGTGAGGGATTATGCGTTTCCGCCAGTTGTTACCGCTTTTTGGCGCGCTGTTTGCGTTGTA -TATCATTTGGGGCTCAACCTATTTTGTCATTCGGATTGGCGTGGAAAGCTGGCCTCCGTTAATGATGGCG -GGCGTTCGATTCCTGGCAGCCGGTATTTTATTGCTGGCATTTTTGCTACTGCGCGGACACAAACTCCCCC -CGCTACGTCCGCTGCTCAATGCCGCGCTGATTGGCCTGTTATTGCTGGCTGTCGGTAATGGCATGGTGAC -GGTTGCCGAACATCAAAATGTTCCTTCCGGCATCGCCGCCGTAGTGGTTGCAACCGTGCCCCTCTTTACC -CTGTGCTTCAGCCGCCTGTTTGGCATTAAAACGCGCAAACTGGAATGGGTGGGTATTGCCATTGGGCTTG -CCGGAATCATCATGCTCAATAGCGGTGGAAATTTAAGCGGCAATCCGTGGGGCGCGATTCTGATTTTAAT -CGGCTCGATTAGCTGGGCGTTTGGCTCAGTTTATGGCTCGCGCATTACCTTACCTGTAGGGATGATGGCG -GGTGCGATTGAGATGCTGGCGGCAGGCGTGGTGTTAATGATCGCGTCGATGATTGCGGGTGAAAAACTGA -CGGCGCTCCCTTCCCTTTCAGGCTTCCTTGCGGTCGGCTATCTGGCGCTGTTTGGTTCGATTATCGCCAT -CAACGCTTATATGTATTTAATCCGTAATGTCAGTCCGGCTCTCGCCACCAGCTACGCTTACGTTAACCCG -GTGGTCGCGGTCTTGCTGGGTACGGGACTGGGTGGAGAAACACTGTCGAAGATTGAATGGCTGGCGCTCG -GCGTAATTGTCTTCGCGGTGGTACTGGTCACGTTGGGAAAATATCTCTTCCCGGCAAAACCCGTAGTTGC -GCCAGTTATTCAGGACGCATCAAGCGAGTAAATGAATCCCCTGCGTGTCGATCTGCGCGCTGGCACCTTC -GCCGCAGATCCACTCTTCCAGACGCTCGGTAAGCGCTTCATCCGTCAGCTTCTCGCGCCCACGTAACGCG -CACTCCCAGACAATCAATACGCGCCAGCCGAGTTCCTGCAAGCGACTGATATCGCGGCGATCGCGCTCAA -CATTTTTACCTATCTTCTCCAGCCAGAACTCGGTTCGAGTCGCAGGCACTTTAAACAGATAGCAGTGATG -ATGATGCCAGAAGCAGCCATGGGTAAATATCACGCAGCGATATTCATCAACGACAAAATCCGGACGTCCG -GGCAGACTGGCGTCCTGAACGCGAAATGCCAGGCCCTGCCCGGTTAACAGACTGGCGAGGCGCTTCTCTA -TCGCCGTATCACGCGTGGCAATCGCGCGCATATTTTTGCTGCGAGTGGCCTTATCGTGAACGTCGGCCAT -GTTGTGCCTCTTGCTGACGCAACGCCACCGCCTGTTTGATTTTTGGCTCAAGCAGTTTTGCCACCGCGGC -AAAGACCGGCACGACCACCGAGTTACCGAACTGGCGATAGGCCTGAGTGTCCGAAACCGGAATACGGAAT -TTCGCTTCTCCCGGCGCTTCAAAACCCATTAAGCGCGCGCATTCCCGAGGCGTTAACCGACGTGGACGAT -GTTGCTGATTCAGCGGATCGTCAAAGTCTTTCTCACCCGTGGCCATATCCCAGCCGCGATCGATTAAAAT -TTCCGCGCCATCTTTGTAATAACGCGCAGACAGCGTACGCGTGACGCTTTGCGGATTGTTCGGATAAACC -ATTCCATAACCGAAGCCGTTACCGCGCGCCTGATGTTTTTTCGCATATCGATAGAGGTACTTCCACAGCA -CCGGCGTCAGGATATATTTCGCCTCGACCATCGGGTCCAACAGCTGCGCCAGCGTCACTCGCTGCGCAGG -GAAACATTCGCTGATATCACGCAGGGTAAAATCGGCTTTCAGATTCAGATCGCGACGAAAACCCACCAGC -ACGATGCGTTCACGGTGCTGCGGCAGAAAATGTTTGCCGTCGATGATTTTCGGATCGTCTGGCCCATTAT -CTTCTGCATCAGCCACGTCATAGCCCAGTTCGTCCAGCGTCTGCATGATGATGCGGAACGTTTTACCCTG -GTCGTGACTTTTCAGGTTTTTGACGTTTTCGAGCACAAACATCGCCGGACGACGCGCGTCGATAATGCGT -ACCACATCAAAAAACAGCGTGCCCTGGGTATCGCAGGCAAAACCGTGCGCCCGCCCGAGCGAGTTCTTTT -TCGATACGCCAGCCAGCGAAAATGGCTGACAAGGGAAACCGGCCAGTAAAACATCGTGTTCAGGAATGTG -TTGACGAATATGTTCCGCCGCCGCCTCATCACTCACGCCTTCTTTATGGCTGAGGGTGATGTCGCGGATA -TCTTCATTAAAATGATGCGTCGCCGGATCGCAATAATGGTTGGCTTTATAAGTGCGTACCGCATGTTTGT -TCCATTCGCTGGTAAACACGCACTGTCCGCCAATCGATTCAAAACCGCGACGGATGCCGCCAATTCCGGC -GAATAGATCGATAAAGCGAAACGCATAATGCGGATGATGTGCCGGTGGTTTGGGTAATAACGTTTGCAGA -TGGGCGAACTCTTTCTCACTTAAACGGTGCCATGCCGAGTCATTCGCCAGCGCACGTTTTAAAATTGCCG -CGCTCCAGTGATTCTCACCTACACCATTAAGCTGCGCCACCAACGTTTTAACATCATAAATTTGCAGCAG -TTTCTCCAGCATTGCCTGTGCGGCATTCCCGGTGCTGTATGAATCGGTTACTGATATATTTTCCTGCATA -GATTTCACCGGCCATCTGAGATGGCCGACAGGTTAACATAATTACAGCCATTTAGGGCCACGCGCTCAGC -CAGCGGATGAAAACGCATCTATCACCTTGTGATCGACACCTTCATTCTCCCCCGCCAGTTCGGCACTGAG -CTTCGCCATAAACTCGACTAAAAAATGCGCGTTGTGCTGCGCCAGCTGCTTGCCTCTTGCGGTTTGCATG -GTTTGCGGTAGCTTCAGCAACTTAGTCTGGAAATGATCCAGCGCGTAGCGTTTATCATCAAGCGGGCGAT -GCTGTGCGAACGGATCTTCACCATCAAACAGCGCCACGCCCAATGCCCCTGAAACGGCAAACACGCGCGC -CAGGCCAATCGCCCCCAGGGCTTCCAGCCGATCCGCATCCTGGACAATTTTAGCTTCCGTTGTTAAGGGG -GCGATTTGCGCGCTGAAACTGTGAGCGGCAATGGCATGACAAACGGCCTCGATTTTCTCCGCCGGAAATT -GCTCGAACTCTTCACGGAGCAGGCGACGCGTCTCTTCTGCCGCCAGGATTGAAGAACGCTGCCTTTGCGG -ATGATTTTTCGCCAGGCTCACAATATCGTGAAAATAACAGGCGGTTAAAATCACCAGCATATCGACATCG -TCATCTGCCGCCAGCTTCTGTGCCGTAGCCCAGACGCGGCGAAAATGACACACGTCATGGGCCGCGTCCT -GGTGCTGATGATGGTTTTTCAACCAGTTTTCGAACTGTGCCTGCCAGTGTTGTAAGTCCATACGCGCTCC -GTTGCCAAAGAGTCGCCACCTTAGCAGTTTTTATTCATAGCGTCTGCTACGTGCGGGACGAGGTCGGGTG -TACCAGGCAATGCTGCCTAACAATGCCCCGACCAGAGCCATAAATAAAAATCCGACCAGTGCCCCTAACC -ACTTTCCCGCGGTAGAGCCTAAATCGCTTTCAAATCCCGACACGGGGGCATCGGGAATCCGGCTCATCAC -CCAGATGTAACGCGCCATTGCCCAGACGAAATAGCCACACCATGTATAGAAAGCCCACAAAGCCAGTTTG -CCGCCAGGGCTGCGAGAGAGTCTCTCTTCCATCTTTGTCGAACCGTATTCCATTTTGAGATAACCCGGAA -AATTCAGACTTAGTACTATTATGTGATAAAAGTCACATTTTTCCACATTGGATGAGCCAGTCAAGACTCA -ATCATTTTTTGAACAAATAGATAAATTTTGCGCAACGGCAGTGAATACAGGAAAAATCGTTTTGAGCGAT -TTTATTTATCTTTGATATCGGCTTTATTAATTCATTTAATCAATATATTAGCACTGATTACAATTATACC -TTTTTATTATTCTGTGTCATGATGCTTCCGTTATTAGCCTTTTATCGTCTTGTTTATATTTTTTGGGCCG -GCATGATGCCGGCTTTTTTTTATGCCTTCATTAATGTGCGCCTGATCACACCAGCCGTTTGGCGCAACAA -TCATTGATACCCCCTATGTTTCCGCTCAACTCATAACATATTGATATACATTTATAATTTTCATGAATAT -TTATATTTAGAATTCATAATTATGAATTATATTAAATAGATTAGAAACATTTTGATATCTTTTAAATACA -TTTGTTACATGTAATCCTTAAAATAAAATGAACTTCATAGAATAGTATCCAAATGTGCTTTTTTTTGGAT -AACGGCACTTATTGATATATTCATGAAGATTATAATCACAAGGGAATACATAATGAAAAGAAAAGTTCTG -GCAATGCTGGTCCCGGCGTTATTAGTTGCTGGCGCAGCAAATGCGGCTGAAGTCTATAATAAAGATGGTA -ATAAACTGGATTTGTACGGAAAAGTAGTGGGTCTGCACTACTTCTCTGATGATTCTGGCAGCGATGGCGA -CATGTCATATGCCCGTATCGGTTTCAAAGGTGAAACTCAGATCGCTGATCAATTCACTGGTTATGGTCAG -TGGGAATTTAACATTGGCGCAAACGGTCCTGAAAGCGACAAGGGTAATACCGCAACGCGTCTGGCATTTG -CAGGTTTAGGCTTTGGTCAGAATGGTACTTTCGACTATGGTCGTAACTACGGTGTCGTATATGACGTAGA -AGCATGGACCGATATGCTGCCAGAATTTGGTGGCGATACCTATGCTGGCGCTGACAACTTCATGAACGGT -CGTGCTAATGGTGTTGCAACCTACCGTAACAATGGCTTCTTTGGTTAGGTCGATGGCTTGAACTTTGCTT -TGCAATATCAGGGTAATAATGAAAGTGGTGGACCATTCGGGCAGGAAGGTTCCGGTAGTGGTGATGGCCG -TAGCCTTTCCAAAGAAAATGGTGATGGTTTCGGTATGTCAACATCCTACGACTTCGACTTCGGTTTAAGT -CTGGGTGCTGCATATCAAACTCTGATCGTTCAGATCGTCAGGTTGGAGTTGGTTTAAATGATCGTAACCA -TAGCAACAGAAATGCTGGTGGTGAAACCGCTGAAGCATGGACTGTTGGTGCAAAATATGATGCTAATAAT -GTGTATTTAGCAGCTATGTACGCTGAAACTCGCAATATGACCCCATATGGTGGTGGCGAGTTTGATAATG -GTGAATCAAGATCAGCCATCGCTAACAAAACCCAAAACTTTGAAGTTGTTGCTCAGTATCAGTTCGACTT -TGGCCTGCGCCCGTCCATCGCTTACCTGCAATCTAAAGGTAAGGATTTAGGCGGTTGGGCTCATGACGGC -AACGGCGACCCACGTTACACCAATAAAGATCTGGTTAAATACGTTGATATTGGTGCGACCTACTACTTCA -ACAAAAACATGTCCACCTATGTTGATTACAAAATCAACCTGCTGGACAACGACGATGACTTCTACGAAGC -AAACGGCATCGCTACCGATGATATCGTTGCTGTGGGCTTAGTCTACCAGTTCTAATCAGTCAACTCGCTG -CGGCGTGTTACTGTAAAACTGAACACTAGCCTGAGTTCGTCCCTCATCGAACTCAGGCTTTTTTATTGGC -ATTTCATCTCCATCTGCGGCACACGCAATTGCCGAAGCATATCGATACAGCACCTTACCCTGCCCCTCCT -GGCACAATAACATCAACCAGCTACTCTTCAAGCTAACACCCAAATGCATTTCTTTATGAATTAATCCGTA -ACAAACACGCTTCCCATATAGAAATATTTGCAAAAATAGTGCATGAAATAAGCTTTTTCTCTACCAATCC -GGGATATAAATATTCATCAGCACCACAATATTCCACAGCACTAAATCTCTCCCCGCCACCCCGTACCTCT -GATAATGGTCTAAAATCATTGAAGCCACTTGCGACGACGTTGCTCAATAAGGAAAATTTGGCGTGAATAA -TATTCAACACCAGTGCAGCATCATCATTACATACTTACAGCCGCCGACTACCGCTTTCGATATATTGACT -CAATTTTCCAGCCTGGTTAAAAATAGCGACCAGCTCAGTCGCAAATATAGTGACTACCCTAACTAAGCAA -CAATAAGGAATACACTATGACTGTTCAAACAAGTAAAAATCCGCAGGTCGATATTGCTGAAGATAATGCA -TTCTTCCCTTCAGAATATTCGCTTAGCCAATATACCAGTCCTGTCTCTGATCTTGATGGCGTGGACTATC -CAAAACCTTATCGCGGTAAACATAAAATTCTGGTGATCGCCGCGGACGAACGTTATTTGCCGACCGATAA -CGGAAAACTGTTCTCGACCGGTAACCATCCGATTGAAACGTTGCTGCCGTTGTATCATCTCCATGCTGCA -GGTTTCGAATTCGAAGTGGCGACCATTTCCGGTCTGATGACCAAGTTTGAATACTGGGCTATGCCGCACA -AAGATGAAAAAGTAATGCCATTCTTTGAGCAGCATAAATCGTTGTTCCGCAATCCGAAGAAACTCGCGGA -TGTTGTTGCCAGCCTCAACGCTGATAGCGAATATGCAGCAATCTTTGTTCCTGGTGGTCATGGCGCACTT -ATTGGTTTACCTGAAAGCCAGGACGTGGCTGCCGCTTTACAGTGGGCAATCAAAAATGACCGTTTTGTTA -TCTCCCTTTGCCACGGCCCGGCGGCTTTTCTGGCGCTTCGCCACGGCGATAACCCACTGAATGGTTATTC -CATTTGCGCATTCCCAGACGCCGCAGACAAACAAACGCCAGAGATTGGCTATATGCCGGGTCATCTCACC -TGGTACTTCGGCGAAGAACTGAAGAAAATGGGCATGAATATCATTAATGACGACATCACCGGGCGAGTAC -ATAAGGACCGTAAACTTCTCACCGGCGACAGTCCTTTTGCAGCGAATGCGTTGGGTAAACTGGCGGCGCA -GGAAATGCTGGCAGCTTACGCGGGTTAATCCCTGTTACGTTTGAATGTAAGCGCATAATCAATCGCGGCC -GCGTTAGTACTCACGACGTGGCTGCGTTTTTTCACGGTTAATTTATGGCGTACTGAAGCCCTATGTTAAT -TTCTTTGCGGTAACGTAATCCGGAACACATTATGCTTATTGAGATAGTGATACGTAGCACTTCCCCCATG -CAATTCGGCAATCGCTTTGACTAAAGAAAGGCCTAGTCCCTGACCTACGGAATGACGCGAATTATCTCCC -CGCCAAAATCTACGGAAGAGTTTTTCAGGCTCATTAATTTTCGTTCCAGGGCTGGCGATATCAATATTAA -GATAGCTGTTGGTATCAAGAAAACTGGTTATATGAATACGCGATTTTTCTGGCGAATATCTAATGGCATT -AACAATAAGATTCGATAACATTCGTTGTAGTAAAATTTTATCCGCAAAGATTTGCTGATTGCACTCGACC -TTAAAGCAAATCTCTTTCTCGTCTGAAAGGTATTCAAGATAGTCCAACAAATTTTCGACTTCCTTATTGA -GAGAAAGCGAGTCCAGTTTCACCAAAACATTGTTTTTATCTGCCCTGGCAAGAAACAGTATGTTCTCTGT -TAACCGCGAAATATTTTCCAGCTCTTCAATGTTTCCGGCAATTGTTTTTTGATATTCAGCGATACTTCTG -GTTTGACTGAGCGTAACCTGATTCTGACCCAGTAATGCATTAATTGGCGTTCTAAGTTCATGAGCGAGAT -CGTCAGCAAACTGACTTAGACGCTCAAAATCTTTGACTAAAGCATGATGCATTTTATTCAACGCCTGCCC -AAGAGGTTTTAGTTCTCTCGGTAATGCGCTAACCTCAACAGGCTCTCGGCTATCGTTATAATTCAGCGCT -TCCGTTACACCACTCAACTTTTTGATCTCTCGTAATCCCGTTCTGATTAACAGCGGACTTAATACTGAGC -AAAGTACAATGGCGACAATGCAAATTATAATGCTATTAATTTTATACTGTTCAAGCATGTTATGTCTGGC -TGAAGCCAATTTAGCCACAGTAACCGTTAATGATGGCGAAACTTCATCAATATTAATTCGTAAAGCATCT -ATCTCTGTATCATTAATAATGCTTCTGTAAATGCCAGCTGCGCTGATTGTCTCACTAGCAGGTATGTTAT -TTAACATGCCATCACTGACATTTGTCCGGTTAACAATTTTATTGATGCTATCACCATGAATAATCAAGAT -ATCCTGACTAACATCCATCATCCGGTTAAAGTACACAGGTAACGTATCTGGATTTACCCCATCAATTAAC -AACTGCTTGATCTGCGCTGTCCGGTTAATGAGTGTTGTATCATCGCGCCATTTCAACTCACTTGCCAGGC -CATTATAGAGAGTCCAGACAATTCCGGCGCCAGCAACAGACAGTAGCAATATAAAAAGCAAGGTTAAACG -GACGGTTATAGATAGTCTTTTCATTATTTTTTTACCGCTACGAATGAATAGCCCATCCCCCGGATTGTGG -CAATTAGCTTTTCAGGAAAAGGATCATCAACTTTTGCGCGGAGCCTGCGAATGGCGACGTCCACCGTATT -GGTATCACTATCAAAGTTGATTCCCCAAATTTCACTCGCAATAACCGTTCTGGGTATAATTTCGCCAGCT -CTGGAGGCCAGTAGCCAAAGTAACTGAAACTCCTTGCGCGTCAGTGTAATACTGATATTGTCCCTGCTCA -CACTATGACTAACAGAGTCCATTCTTAAGCCGCTGATTTCTAATGTTGAATTCAAAGCGTGATGTTGCCT -TAATTGTGCCCGAACCCTTGCCAGCAACTCAGAAAATGAAAAAGGTTTTACCAGATAATCATTTGCCCCA -CTGTCCAGCCCTCTGACTCTGTCATCGACAGAATCCCTTGCAGTAAGGCAAATAACAGGGGTTTGCTTTG -CTGTTCTTAACGTTTGTAAGATCTGCCAGCCATCCATACCCGGAAGCATAATATCCAGAATGATCAATGC -ATAATCATCCTTCAGCGCAAGATAAAGCCCATCTCTGCCATCAGAAACGGCATCGATGACATAACCCGCT -TCGGAAAGCCCCTGCGTTACCCATTCCTGGGTCCTTTGATTATCTTCAATAAGTAGAATCTTCATGAAAA -TAATATGCCATAAATCATATGTTATAGAAACAGCCTGGTTCATTACAAAATTGTAATGCTGCTGTAAGGT -TACCCTGGACGCTTTTTCGCTATCCTCAAAACTCATTCACATGACAAGGATATAAACATGTTAAAGCGTT -ATTTAGTACTCTCGGTAGCAACGGCAGCATTTTCATTACCTTCTTTGGTTAATGCCGCACAACAAAACAT -TCTTAGCGTGCACATTTTGAACCAGCAAACAGGAAAACCCGCTGCTGACGTGACAGTCACTCTTGAAAAG -AAGGCGGATAACGGCTGGTTACAACTTAATACCGCCAAAACAGATAAGGATGGACGAATTAAGGCACTGT -GGCCCGAGCAAACTGCAACTACGGGCGATTACCGTGTCGTATTTAAAACCGGGGACTATTTCAAGAAACA -AAATCTTGAAAGTTTCTTCCCTGAGATCCCCGTTGAATTTCATATTAATAAAGTGAACGAGCATTATCAT -GTGCCTTTATTACTTAGCCAATATGGGTATTCAACCTATCGTGGCAGTTAATGCATAAATATGTAAAAGC -AGATCTCTGCTACTGTTAGGGAGGACACTCCCTGACAGATTAACAGTAAACGGCTCTTGCTGGCTAACGA -CAAAAAAGTGTGATGGCTTATGAAAAAGAATCAATTTTTAAAAGAATCAGATGTTACGGCCGAGTCGGTA -TTCTTTATGAAGCGTCGGCAGGTGTTAAAAGCACTGGGCATCAGTGCAACTGCACTTTCTTTGCCTCACG -CTGCGCATGCCGATCTGCTTAGCTGGTTTAAAGGGAACGATCGCCCGCCCGCCCCCGCCGGAAAAGCGCT -GGAGTTCAGCAAGCCTGCCGCCTGGCAAAATAACCTGCCACTGACGCCAGCAGATAAAGTTTCCGGTTAT -AATAACTTCTATGAATTCGGGCTGGATAAAGCCGATCCCGCCGCTAATGCTGGTAGCCTGAAAACCGATC -CATGGACACTGAAAATCAGCGGCGAAGTGGCAAAACCATTGACCCTCGATCATGATGACTTAACCCGTCG -CTTCCCGCTGGAAGAGCGTATTTATCGTATGCGCTGCGTGGAAGCGTGGTCGATGGTGGTGCCGTGGATT -GGTTTTCCGCTGCACAAATTGCTGGCGCTTGCCGAACCTACCAGCAATGCGAAGTATGTCGCTTTCGAAA -CAATTTATGCACCGGAACAGATGCCAGGCCAGCAGGACCGCTTTATCGGCGGTGGGCTGAAATATCCTTA -TGTCGAAGGATTGCGTCTCGACGAAGCAATGCATCCGCTCACACTGATGACCGTAGGTGTTTATGGCAAG -GCGTTACCGCCACAAAATGGCGCGCCGGTGCGACTGATTGTGCCGTGGAAATATGGCTTTAAAGGGATTA -AATCGATAGTCAGTATTAAGCTGACCCGCGAGCGTCCGCCAACCACCTGGAATCTGGCAGCGCCTGACGA -ATACGGTTTTTACGCCAACGTTAATCCGTATGTTGATCACCCGCGCTGGTCACAGGCTACCGAACGATTT -ATTGGTTCAGGCGGCATCCTCGATGTACAGCGCCAGCCAACGCTACTGTTTAATGGTTACGCCGACCAGG -TGGCATCGCTGTATCGTGGCCTGGATTTGCGGGAGAATTTCTAAATGCGTCTGACAGCAAAACAGGTGAC -ATGGCTGAAAGTTTGCCTGCATCTTGCCGGATTGTTGCCGTTTCTCTGGCTGGTCTGGGCGATCAATCAC -GGTGGACTGGGTGCCGATCCGGTGAAAGATATTCAGCATTTTACTGGTCGCACTGCACTGAAATTTTTGC -TGGCGACCTTGTTAATCACCCCTCTGGCACGCTACGCAAAACAGCCGTTATTGATACGCACTCGCCGCCT -GTTAGGATTATGGTGCTTTGCCTGGGCGACACTGCATTTAACAAGTTACGCATTGCTGGAGCTGGGCGTG -AATAATCTGGCGTTATTAGGTAAGGAGTTAATTACCCGGCCTTATTTAACGTTAGGTATTATCAGCTGGG -TAATTTTGCTTGCTTTAGCGTTCACTTCAACCCAGGCGATGCAGCGAAAACTCGGCAAGCACTGGCAACA -GTTGCATAATTTCGTCTATCTTGTCGCGATTCTGGCCCCAATACATTATCTGTGGTCCGTGAAGATTATT -TCACCGCAGCCGCTCATCTACGCTGGGCTGGCTGTACTGCTTTTAGCCTTACGGTATAAGAAGTTGCGTT -CCCTTTTTAACCGGTTACGCAAGCAGGTTCACAACAAATTATCTGTATAACTTCATATTGCCGACAAAGT -ACGCGTTATCCCTGCCGGATGTGGCGCGAGCGCCCTATCCGGCATACACAGATCGCATCAGGTTATGTTT -CGTTTGTCATCAACCTCAAATCACCAAAATAATTTATTTTATTTCAATAAGATAGATAAGTAGAACTGAG -AAAGCCATGCTCTCGTTTCCTAAGAGTTGTTGCATTTTGCTATATGTTACAATATAACATTACACATCAT -ATACATTAACTCTGGAGGAAACTGTTTTGGCGATTCGTCTTTACAAACTGGCTGTTGCTTTAGGTGTCTT -TATTGTTAGCGCTCCTGCCTTTTCGCATGGTCATCACTCACACGGCAAACCCTTAACAGAGGTCGAACAA -AAAGCTGCTAATGGTGTTTTTGATGATGCCAATGTACAAAACCGAACGCTCAGTGACTGGGATGGAGTCT -GGCAATCCGTTTATCCTTTACTGCAAAGTGGCAAACTTGACCCCGTCTTTCAGAAGAAAGCGGATGCAGA -TAAAACTAAAACATTTGCTGAAATTAAAGATTATTATCACAAAGGTTATGCAACAGATATCGAGATGATT -GGCATTGAGGACGGCATTGTTGAATTCCATAGAAATAATGAAACAACATCGTGTAAATATGATTACGATG -GATACAAAATACTCACCTATAAATCAGGCAAGAAAGGCGTTCGTTACTTATTCGAATGTAAAGATCCTGA -AAGCAAAGCCCCTAAATATATACAATTTAGCGATCATATAATTGCACCACGAAAATCATCTCATTTTCAC -ATTTTTATGGGTAATGATTCACAGCAATCTTTATTAAATGAAATGGAAAACTGGCCAACGTATTATCCAT -ATCAGTTGAGTAGCGAAGAAGTGGTCGAGGAAATGATGTCTCATTGAGTATTCTCATGATAACGCCTCGA -TGCCGCTTTAGTAAGTTATCATAACTGCCACTGGTCCATCCACAAACGCCACTGAACGCAAGCTAGCTAC -AGACACGCTCATCACTATGACGTGTCTGTATATTAATAAGCTAACCCGCATTGAGTTAACCAATAACGGA -TTCCATACACAATACGGCCAACAGAGAAAGATACCTGTGCTCACGCCATTGCTTATATTGGCTGGTTACA -ATATGCACTATCAATTTTTTAAATAACAAATTATTAAAACCACATCTGTATAAGGAATTTTTAAGGTTCG -TGGGATAGCTTGACTGTGAAAATCACAGGAGCTACAAAAATGAACCGATTCTCAAAAACTCAAATTTATT -TACATTGGATAACGCTGCTTTTCGTTGCAATAACCTATGCCGCGATGGAACTCCGTGGCTGGTTTCCTAA -AGGTAGTAGTACTTATCTGCTGATGCGAGAAACACATTACAATGCGGGTATATTCGTTTGGGTGTTAATG -TTTTCACGCCTGATTATAAAACACCGTTATAGTGATCCTTCTATTGTGCCACCGCCACCTGCCTGGCAAA -TGAAAGCGGCTTCGCTAATGCACATCATGCTTTATATAACCTTCCTTGCACTTCCTCTGCTGGGGATTGC -TTTGATGGCTTACAGTGGAAAATCGTGGAGTTTCCTTGGTTTCAATGTGTCTCCCTTTGTTACCCCAAAC -AGCGAAATTAAAGCACTGATAAAAAATATTCACGAAACCTGGGCAAATATAGGCTACTTTTTAATCGCAG -CTCACGCTGGCGCAGCACTCTTTCATCACTACATTCAGAAAGATAATACTCTGTTACGAATGATGCCTCG -CCGCAAATAAGTCGATCCCCTTACAAGGAAATGTGAACCATGGACATCAACGCGTCATAAATGTTTACGC -AAGTGCACAATGCACCCTTTCCACTATCAACAAGGAGGAGCAGAAACTGTGTAAATCGTACAATGGTAAG -ACTTATCAAAAATACAGGTTAATTTTGGTATTTAAACCTTTTTTACTTGTTAGTATGATACAAAGGCTTT -CAAAAAAGCTGCGAAATTCAACAACTCTTGGAAATTATGGACTTTGTCCCGCGGCTTTAATCTGACGGCC -GCGTTCCTTTTTTGACTCAATTATTGAACCCTTCTCTACGCAACTTCAGTTCCCACCACCAACTTTGCGG -CAGTTTCATAGGATGAATGTCTAAAAGAATAATGGTGAGCGATAAGAAAACGACTGAATAACTGCACATT -TTCGCTCGAAAGCTTCCTGTCAGATCCATAGCGAATCAAGTGCTGAATGTCACAGTATCGAACAGAAAAC -AGTGACGATCTAACCCTTCAAGAATATTCTACGATTGTTCTGTTTAGGAAAAGCAAGGCGGGAAGTCGGG -AGATAAGTCATTGATAAAGTGGCGGAGAGAGGGGGATTTGAACCCCCGGTAGAGTTGCCCCTACTCCGGT -TTTCGAGACCGGTCCGTTCAGCCGCTCCGGCATCTCTCCGTTCAGATGGTTGCCATGATGCCAGGAAATT -TGGCATTTTAACAGTCCCTGTCCGTGCAATTTTGTTCAAGTGACGAGTTTGCGAGCAAAACGATGATTAA -GTGGCCCTGGAAAGTACAAGAATCAGCACATCAAACTGCCCTTCCCTGGCAGGAAGCACTATCGATCCCC -CTTTTAACGTGTCTGACGGAACAGGAACAAAGCAAATTAGTCACTCTTGCCGAACGTTTTTTACAGCAAA -AGCGGCTTGTTCCTTTACAGGGCTTTGAACTGGATTCATTAAGAAGCTGCCGGATAGCACTTCTATTTTG -CCTACCCGTTCTGGAGTTAGGACTGGAATGGCTGGATGGTTTTCATGAAGTCTTAATTTATCCTGCGCCA -TTTGTGGTCGATGATGAATGGGAAGACGATATCGGTCTGGTGCATAACCAACGTATTGTTCAGTCAGGTC -AGAGCTGGCAGCAAGGGCCTATCGTTTTGAACTGGTTGGATATACAAGATTCTTTTGATGCTTCTGGTTT -TAACCTGATTATTCATGAAGTCGCTCATAAGCTGGACACCCGTAACGGCGATCGCGCCAGCGGAGTTCCC -TTTATTCCGTTGCGTGAGGTTGCTGGCTGGGAACACGATCTTCATGCTGCAATGAACAACATTCAGGAAG -AAATCGAATTGGTTGGCGAGAATGCGGCGAGCATTGATGCTTATGCAGCCAGCGATCCTGCTGAATGTTT -TGCCGTACTTTCTGAATATTTCTTTAGCGCCCCAGAACTTTTTGCTCCTCGTTTCCCTTCATTGTGGCAA -CGTTTCTGCCAATTTTATCAACAAGATCCTTTGCAGAGACTGCATCACGCTAATGATACAGACTCGTTTT -CGGCGACGAATGTTCATTAATTAACAACTTTGCAGATTAATTAACCAATTGAAATGACTTATGAAATTTA -GTGTTGACAGACAAGGTACCGCTAAGTAATATTCGCCCCGTTCACACGATTCCTCTGTAGTTCAGTCGGT -AGAACGGCGGACTGTTAATCCGTATGTCACTGGTTCGAGTCCAGTCAGAGGAGCCAAATTCTAAAAATTC -GCTTTTTTAGCGCAATGTCACTGACCTTAGTTGAACATTGTTTTTTAACGGATAGCGGGTTTTTAACATC -TTAAGCGCCCTCGACCTTTATGGTTGAGGGCGTTTTGCTATGAACGCCATCACCATTTTCCCCTCGATTA -TAAAACTTGAGTTATTCAGTAGTCTCCCCTCTTGCAACTCACACCCAAAACTGCCTAACGAAAAGTTATT -AATTTTCAATCATATTGCTATCAGTATTTACATTTTTTCGCTGTGCTAGAAAGGGCGCATTTATGTTAGC -TCGTTCAGGGAAGGTAAGCATGGCTACGAAGAAGAGAAGTGGAGAAGAAATAAATGACCGACAAATATTA -TGCGGGATGGGAATTAAACTACGCCGCTTAACTGCGGGTATCTGTCTGATAACTCAACTTGCGTTCCCTA -TGGCTGCGGCAGCACAAGGTGTGGTAAACGCCGCAACCCAACAACCAGTTCCTGCACAAATTGCCATTGC -AAATGCCAATACGGTGCCCTACACCCTTGGAGCGTTGGAATCGGCCCAAAGCGTTGCCGAACGTTTCGGT -ATTTCGGTGGCTGAGTTACGCAAACTCAACCAGTTTCGTACGTTTGCTCGAGGTTTTGATAATGTCCGCC -AGGGTGATGAACTGGATGTCCCGGCACAAGTTAGTGAAAAAAAATTAACCCCGCCGCCGGGTAATAGCAG -TGACAACCTCGAGCAACAGATAGCCAGTACTTCACAGCAAATCGGGTCTCTGCTCGCCGAAGATATGAAC -AGCGAGCAAGCGGCAAATATGGCGCGTGGATGGGCCTCTTCTCAGGCTTCAGGCGCAATGACAGACTGGT -TAAGCCGCTTCGGTACCGCAAGAATCACGCTGGGCGTGGATGAAGATTTTAGCCTGAAGAACTCCCAGTT -CGATTTTCTCCATCCGTGGTATGAAACGCCTGATAATCTCTTTTTCAGTCAGCATACTCTCCATCGTACT -GACGAGCGTACGCAGATTAACAACGGCTTAGGTTGGCGTCATTTCACTCCCACATGGATGTCGGGCATCA -ACTTCTTTTTCGACCACGATCTTAGCCGTTACCACTCCCGCGCCGGCATTGGCGCGGAGTACTGGCGCGA -CTATCTAAAATTAAGCAGTAACGGCTATTTGCGACTGACCAACTGGCGCAGCGCACCTGAACTGGACAAC -GATTATGAAGCACGCCCGGCCAATGGCTGGGATGTACGCGCAGAAAGCTGGCTACCCGCCTGGCCGCACC -TTGGCGGTAAACTGGTCTATGAACAGTATTATGGCGATGAAGTGGCCCTGTTCGATAAAGACGATCGGCA -AAGTAATCCTCATGCCATAACCGCTGGACTTAACTATACCCCCTTCCCGCTGATGACCTTCAGCGCGGAG -CAACGCCAGGGTAAACAGGGCGAAAATGACACCCGTTTTGCCGTCGATTTTACCTGGCAACCTGGCAGCG -CAATGCAGAAACAGCTTGACCCGAATGAAGTCGCTGCACGGCGTAGCCTTGCAGGCAGCCGTTATGATCT -GGTGGATCGCAACAACAATATCGTTCTGGAATATCGCAAAAAAGAACTGGTTCGCCTGACCCTGACAGAC -CCCGTGACAGGGAAGTCAGGAGAAGTGAAATCACTGGTTTCGTCGCTACAAACCAAATATGCCCTGAAAG -GCTATAACGTCGAAGCCACCGCACTGGAAGCTGCCGGTGGCAAAGTGGTCACAACGGGTAAAGATATTCT -GGTTACCCTGCCGGCTTACCGGTTCACCAGTACGCCAGAAACCGATAACACCTGGCCGATTGAAGTCACC -GCCGAAGATGTCAAAGGCAATTTGTCGAATCGTGAACAGAGCATGGTGGTCGTTCAGGCACCTACGCTAA -GCCAGAAAGATTCCTCGGTATCGTTAAGTACCCAAACATTGAACGCGGATTCCCATTCAACCGCCACACT -GACTTTTATTGCGCATGATGCAGCAGGTAATCCTGTTGTCGGGCTGGTGCTCTCGACGCGTCACGAAGGT -GTTCAGGACATCACCCTTTCTGACTGGAAAGATAATGGTGACGGAAGCTATACCCAGATCCTGACCACAG -GAGCGATGTCTGGCACGCTGACGCTGATGCCACAGCTGAATGGTGTGGATGCGGCTAAAGCCCCCGCCGT -GGTGAATATCATTTCTGTTTCGTCATCCCGAACTCACTCGTCAATTAAGATTGATAAGGACCGTTATCTC -TCCGGCAATCCTATCGAGGTGACGGTAGAACTGAGAGATGAAAATGACAAACCTGTTAAGGAACAAAAAC -AGCAACTGAATAACGCAGTCAGCATCGACAACGTGAAACCAGGAGTCACTACAGACTGGAAAGAAACCGC -AGATGGCGTCTATAAGGCGACCTATACCGCCTATACCAAAGGCAGTGGACTTACTGCGAAGCTATTAATG -CAAAACTGGAATGAAGATTTGCATACCGCTGGATTTATCATCGACGCCAACCCGCAGTCAGCGAAAATTG -CGACATTATCTGCCAGCAATAATGGTGTGCTCGCCAATGAGAATGCAGCAAACACCGTCTCGGTCAATGT -CGCTGATGAAGGAAGCAACCCAATCAATGATCATACCGTCACGTTTGCGGTATTAAGCGGATCGGCAACT -TCCTTCAACAATCAAAACACCGCAAAAACGGATGTTAATGGTCTGGCGACTTTTGATCTGAAAAGTAGTA -AGCAGGAAGACAACACGGTTGAAGTCACCCTTGAAAATGGCGTGAAACAAACGTTAATCGTCAGTTTTGT -CGGCGACTCGAGTACTGCGCAGGTTGATCTGCAGAAGTCGAAAAATGAAGTGGTTGCTGACGGCAATGAC -AGCGTCACAATGACCGCGACCGTCCGGGATGCAAAAGGCAACCTGCTCAATGACGTCATGGTCACTTTCA -ATGTTAATTCAGCAGAGGCGAAACTGAGCCAAACCGAAGTGAATAGCCACGACGGGATCGCCACAGCTAC -GCTGACCAGTTTGAAAAATGGTGATTATAGGGTTACGGCCTCTGTGAGCTCTGGTTCCCAGGCTAATCAA -CAGGTGAATTTTATCGGTGATCAAAGTACTGCTGCCCTGACCCTCAGTGTGCCTTCAGGTGATATCACCG -TCACCAACACAGCTCCGCAATATATGACTGCAACCTTGCAGGATAAAAATGGCAACCCACTAAAAGATAA -AGAAATCACCTTCTCTGTGCCAAACGACGTCGCAAGTAAGTTCTCGATTAGCAACGGAGGAAAAGGCATG -ACGGATAGTAACGGGGTTGCAATCGCCTCCCTGACCGGCACGTTAGCGGGCACGCATATGATCATGGCTC -GTCTGGCTAACAGCAATGTCAGCGATGCACAGCCAATGACGTTTGTGGCGGATAAAGACAGAGCGGTTGT -CGTTTTGCAAACATCGAAAGCGGAAATCATTGGGAATGGCGTGGATGAGACAACTCTGACAGCAACAGTG -AAAGATCCGTCGAATCATCCGGTGGCGGGGATAACGGTAAACTTCACCATGCCACAGGACGTTGCGGCAA -ACTTTACCCTTGAAAATAACGGTATTGCCATCACTCAGGCCAATGGGGAAGCGCATGTCACGCTGAAAGG -TAAAAAAGCGGGCACGCATACGGTTACCGCAACGCTGGGTAATAACAATACCAGTGATTCGCAGCCGGTA -ACATTTGTGGCGGACAAAGCCTCGGCTCAGGTTGTCCTGCAGATATCAAAAGATGAGATCACAGGTAATG -GCGTCGATAGCGCAACGCTAACTGCAACGGTTAAAGATCAGTTCGACAATGAGGTGAATAATCTTCCGGT -AACATTCAGCTCAGCCTCTTCAGGACTCACCCTGACCCCGGGAGTAAGTAATACCAACGAGTCTGGCATC -GCGCAGGCCACTCTCGCAGGCGTTGCCTTTGGTGAGAAGACGGTTACTGCATCACTGGCTAATAATGGTG -CCAGCGACAACAAAACTGTGCATTTTATTGGCGACACAGCGGCGGCAAAAATTATCGAGTTGGCGCCTGT -CCCAGACAGCATAATCGCCGGTACCCCGCAGAACAGCTCCGGCAGCGTCATCACCGCCACAGTCGTTGAT -AATAATGGCTTTCCGGTGAAAGGTGTGACTGTGAACTTCACCAGCAACGCAGCGACAGCCGAAATGACGA -ACGGCGGTCAAGCCGTGACGAACGAACAGGGTAAGGCTACCGTCACTTATACCAATACCCGCTCCTCGAT -AGAATCAGGAGCGAGACCGGATACCGTTGAGGCCAGTCTGGAAAATGGTAGCTCCACGCTTAGCACATCA -ATTAATGTCAACGCTGATGCGTCTACGGCACATCTCACCTTGCTACAGGCACTTTTTGATACAGTCTCCG -CAGGCGAGACAACCAGTCTGTATATTGAGGTGAAGGATAATTACGGCAACGGTGTCCCCCAGCAGGAGGT -AACCCTCAGCGTTTCACCAAGTGAAGGCGTGACCCCCAGTAATAACGCTATATATACTACCAACCACGAC -GGCAATTTTTACGCAAGCTTTACCGCTACAAAAGCCGGGGTTTATCAATTGACGGCAACCCTCGAAAATG -GCGATTCGATGCAACAAACAGTGACCTATGTGCCGAACGTCGCGAATGCTGAAATCACGCTGGCAGCCTC -GAAGGATCCGGTGATTGCCGACAATAACGATCTCACGACACTAACAGCAACAGTCGCTGATACAGAGGGC -AATGCGATAGCCAACACTGAGGTAACATTTACTCTGCCGGAAGATGTGAAGGCGAACTTCACGCTGAGCG -ATGGCGGTAAAGTGATTACTGATGCTGAAGGCAAAGCGAAAGTCACGCTGAAAGGTACAAAAGCAGGCGC -TCATACTGTTACAGCATCGATGACTGGCGGTAAGAGTGAGCAGTTGGTGGTGAACTTTATTGCGGATACG -CTCACTGCGCAGGTTAATCTTAACGTTACCGAGGACAATTTTATCGCTAATAACGTCGGGATGACCAGGC -TGCAGGCAACAGTGACTGATGGAAACGGCAACCCGTTAGCCAATGAGGCGGTGACATTCACGCTACCGGC -AGATGTGAGCGCAAGCTTTACTCTCGGACAAGGCGGTTCCGCCATTACTGATATCAACGGCAAGGCTGAA -GTTACACTGAGCGGTACAAAATCCGGCACCTACCCCGTGACAGTTAGCGTGAACAATTATGGTGTCAGTG -ATACGAAACAGGTGACTTTGATTGCCGATGCTGGTACCGCAAAACTAGCCTCCTTAACCTCTGTATACTC -ATTCGTCGTCAGCACGACCGAGGGCGCAACCATGACGGCAAGCGTCACTGACGCTAACGGCAACCCGGTA -GAAGGCATAAAAGTTAATTTCCGCGGAACCTCCGTCACGCTAAGCAGCACCAGCGTTGAAACGGATGATC -GGGGTTTCGCTGAAATTCTTGTGACAAGCACCGAGGTCGGACTGAAAACAGTTTCAGCCTCTCTGGCAGA -TAAACCTACTGAAGTCATCTCGCGATTACTGAATGCCAGTGCAGATGTTAATTCTGCGACGATTACCAGT -CTGGAGATACCGGAAGGTCAGGTAATGGTCGCACAAGACGTAGCAGTTAAAGCTCACGTTAACGACCAGT -TTGGCAACCCGGTTGCGCATCAACCCGTGACATTCAGTGCAGAGCCATCCTCGCAAATGATCATCAGCCA -GAATACGGTCTCTACTAATACGCAGGGTGTAGCCGAGGTCACCATGACGCCCGAAAGAAACGGTTCGTAT -ATGGTGAAAGCATCCCTGCCGAATGGAGCCTCACTTGAGAAACAACTGGAGGCTATTGATGAAAAACTGA -CACTCACGGCGTCCAGTCCGCTTATCGGTGTCTATGCCCCTACAGGCGCTACTCTGACGGCAACGCTAAC -CTCTGCAAATGGCACTCCAGTGGAGGGTCAGGTCATCAACTTTAGCGTAACGCCAGAAGGGGCGACGTTA -AGTGGCGGAAAAGTGAGAACTAACTCTTCAGGTCAGGCTCCAGTCGTTTTGACCAGCAATAAAGTCGGTA -CATATACGGTGACTGCATCTTTCCATAACGGCGTAACAATACAGACACAGACAACCGTGAAAGTCACTGG -CAACTCAAGCACCGCCCATGTTGCTAGCTTTATCGCTGATCCATCGACTATCGCCGCCACCAACACTGAT -TTAAGTACCTTAAAGGCAACGGTTGAGGATGGCAGTGGTAACCTGATCGAAGGTCTCACTGTGTACTTCG -CCTTAAAAAGCGGCTCTGCCACATTAACGTCATTAACAGCGGTGACCGATCAAAACGGAATCGCGACAAC -AAGCGTGAAAGGAGCGATGACAGGTAGCGTCACGGTAAGCGCAGTCACGACCGCTGGTGGAATGCAAACA -GTAGATATAACGCTGGTGGCTGGCCCGGCAGACACCTCGCAGTCCGTCCTTAAGAGCAATCGGTCATCAC -TGAAAGGGGACTATACCGATAGTGCTGAATTACGTCTTGTTCTGCACGATATATCAGGCAATCCGATCAA -AGTTTCTGAAGGGATGGAATTTGTGCAATCAGGTACTAACGTGCCCTATATAAAAATTAGCGCAATTGAT -TACAGTCTAAATATCAACGGTGATTACAAAGCCACTGTTACAGGAGGCGGAGAGGGTATCGCAACGCTGA -TCCCTGTATTGAATGGTGTTCATCAAGCTGGTCTGAGTACCACAATACAATTCACTCGCGCAGAAGACAA -AATAATGAGCGGTACAGTATCAGTCAATGGTACTGACCTACCGACAACTACATTCCCTTCGCAGGGGTTC -ACCGGGGCGTATTATCAGTTGAATAATGACAACTTTGCCCCAGGAAAAACGGCGGCTGATTATGAGTTTT -CAAGCTCTGCCTCCTGGGTCGATGTTGATGCTACCGGTAAAGTGACATTTAAAAATGTCGGCAGCAATTC -GGAAAGGATTACGGCGACGCCAAAATCAGGAGGCCCTAGCTATGTATACGAAATCCGTGTGAAGAGTTGG -TGGGTGAACGCCGGCGAGGCTTTCATGATATACAGCCTTGCTGAAAATTTTTGCAGCAGCAATGGCTACA -CGCTCCCCAGAGCAAACTATTTAAACCACTGTAGTTCCCGAGGCATCGGGTCACTGTACAGTGAATGGGG -AGATATGGGGCATTACACGACTGACGCTGGTTTTCAATCAAATATGTATTGGTCATCTAGTCCCGCAAAC -TCAAGCGAACAATACGTAGTTTCCCTGGCAACAGGTGATCAAAGCGTATTTGAAAAGCTTGGGTTTGCTT -ATGCGACATGTTATAAAAACCTGTGATTTTCCGTTATAATTTCTTAAAGAGTGTTCCATTCGGGGCACTC -TTTTTTACATTCCCTCTACAGAACTAGCCCTTCTCTCACAGAAAATGAATAAATAAAAATGCGGCACCGC -CAGAATCGCGTTCGATGTGACTATGATCATTTTCGGTGAGTACTGCTTTGATCTAAAGGCTGGTTTTCTG -TGATGATTGACCAGCCTCAGAGTATTGATGACACCACCGTTCATAACAGATCGGCATTACTATGCATAAG -TACTGTCTCATATTCTCGCCAAAACACTTTTTAATGCCTTTGCGAATTCATCCAGACTTATATTGTCAAT -TTTTTGCCCAACGACGACTGACTCCGAGACATCGGCCATTGCGGGCCATCGCGTTTTGTAATCAGCATAA -ATTGCAACAACAGGGGTATTATAGGCACTTGCCATATGTAATATTGAGGTGTCAGGAGTTATTGCGATAT -AAGCATCTTTTATGATTGCTGCTGAACGTTTAATCGAGGGTGGTAAGGATAAACGGTAGACATTATTATA -ACAATCCACTAATGCCCTGGCTTTATCTTCACCTTTGGGTCCATGAACGATCACTATTGGTATATCTGTT -TCACTTTAAATTTTTGCTATTAGATTTTCTGCAATCGATAATGAAAATGTACGTTCCTGCGAGCTACCTT -CTAAATTGAACGCAATGTAAGATCCTAACGATCGCATTTCCTCGCGCACCTCATCGAGTACATCCTCACT -TAGTGGCAATTCATATATTGGCCTGACTGCTGGAAAACCCGCCTCACGCATCATAAATGCCCATGTCATA -GGTACGGGAGCCCGGAGTTTCTGATCCATACTGGACGCGTTCTTGCACAAAGGGGAGAAGCAATTCATGG -TTATACCAACAACCTGAAAATTCGTTTTTGCTTTCAACTGACTGATAAATAACATCGTTTTCAGGTTCTT -TTTACGCATCCCCTCAATGCAAAGATCCGGCGTACCGTATTGCTGTGTTATGTTCTTTGCTAAATCTTTT -ATTTCTTTTAATGTTGCGTGATCCTGCATAGTCATTGTGACTAATGTTAATTTAGTCTGTTCAAGTTTAA -GCGCATTAAAGACTTCTAAATTAATTGTCGACGTTACAATTAAAAGATGCTTAATTTTATGCAATTCAAG -CGCCCGAATAACAGGAAAGATGGCCATAGCATCGCCAATCTGATCGGGAATATGGATGACAACAAAGTCT -GTTTTTTCAATATTGAAATTATAAGCTTTATAATCGTAGTAACTAAATGCAATACGTCTCAACAATGATG -CTAAAAACATACCTAACCTCGCCTCCCTACTGGTTATAATGCAATGCAGTCTATCAGACTCATCAGGGTG -CCATTTTGTGCATATGCGGACTTTTATGTTTCATATCTCTAACCTGTGGGTCCTCTGCTTAATCCTTAAA -CAACACCAGCAACTCCTGCGCTTTCATCTTCCATCGAATTTTTCATGTTGCCGCTAATCAGCCATAAAAT -CATTTGCAGATGCGCTCTGTCGAGGTAGTCTCATAAGGTTCGTTTATAGATCGACGGCAATGTGAGTTAC -CTTTTCCATACTAATTATAAAAAGACAGTACAAACAGGATCATTATGGACTCCACGCTCATCTCCACTCG -TCCCGATGAAGGGACGCTTTCGTTAAGTCGCGCCCGACGAGCTGCGTTAGGCAGCTTCGCTGGTGCCGTC -GTCGACTGGTATGATTTTTTACTCTATGGCATCACCGCCGCACTGGTGTTTAATCGCGAGTTTTTCCCGC -AAGTAAGCCCGGCGATGGGAACGCTCGCCGCATTTGCTACCTTTGGCGTCGGATTTCTTTTCCGTCCGCT -CGGCGGTGTCATTTTCGGTCACTTTGGCGACCGACTGGGACGTAAGCGCATGTTAATGCTGACCGTCTGG -ATGATGGGCATCGCGACAGCCTTGATTGGTATTCTTCCTTCATTCTCGACCATTGGGTGGTGGGCACCTA -TTTTGCTGGTGACACTGCGTGCCATTCAGGGATTTGCAGTCGGCGGCGAATGGGGAGGCGCGGCGTTGCT -TTCCGTTGAAAGTGCACCGAAAAATAAAAAAGCCTTTTACAGTAGCGGTGTACAAGTTGGCTACGGTGTA -GGTTTACTGCTTTCAACCGGACTGGTTTCATTGATCAGTATGATGACGACTGACGAACAGTTTTTAAGCT -GGGGCTGGCGCATTCCTTTCCTGTTTAGCATCGTACTGGTACTGGGAGCATTGTGGGTGCGCAATGGCAT -GGAGGAGTCCGCGGAATTTGAACAACAGCAACATTATCAAGCTGCCGCGAAAAAACGCATCCCGGTTATC -GAAGCGCTGTTACGACATCCCGGTGCTTTCCTGAAGATTATTGCGCTACGACTGTGCGAATTGCTGACGA -TGTACATCGTTACTGCCTTTGCACTTAATTATTCAACCCAGAATATGGGGCTACCGCGCGAACTTTTCCT -TAATATTGGTTTGCTGGTAGGTGGATTAAGCTGCCTGACAATTCCCTGTTTTGCCTGGCTTGCCGATCGT -TTTGGTCGCCGTAGGGTTTATATCACAGGTACGTTAATCGGAACGTTGAGCGCATTTCCTTTCTTTATGG -CGCTTGAAGCACAATCTATTTTCTGGATAGTTTTCTTCTCCATAATGCTGGCAAACATTGCGCATGACAT -GGTGGTGTGTGTGCAACAACCGATGTTTACCGAAATGTTTGGTGCCAGTTATCGCTATAGTGGCGCTGGA -GTCGGTTATCAGGTTGCCAGTGTGGTTGGCGGTGGATTTACACCTTTTATTGCCGCTGCACTCATCACTT -ACTTTGCCGGGAACTGGCATAGCGTCGCCATTTATTTGCTGGCTGGATGCCTGATTTCCGCAATGACCGC -TTTGTTGATGAAAGACAGTCAACGCGCTTGATAGCCTGGCGAAGATCATCCGATCTTCGCCTTACACTTT -TGTTTCACATTTCTGTGACATACTATCGGATGTGCGGTAATTGTATGGAACAGGAGACACACATGAATAA -TAAGGGCTCCGGTCTGACCCCAGCTCAGGCACTGGATAAACTCGACGCGCTGTATGAGCAATCTGTAGTC -GCATTACGCAACGCCATTGGCAACTATATTACAAGTGGCGAATTACCTGATGAAAACGCCCGCAAACAAG -GTCTTTTTGTCTATCCATCACTGACCGTAACCTGGGACGGTAGCACAACCAATCCCCCCAAAACGCGCGC -ATTTGGTCGCTTTACCCACGCAGGCAGCTACACCACCACGATTACTCGCCCTACTCTCTTTCGTTCGTAT -CTTAATGAACAACTTACGTTGCTGTATCAGGATTATGGTGCGCATATCTCAGTGCAACCCTCGCAGCATG -AAATCCCTTATCCTTATGTCATCGATGGCTCTGAATTGACACTTGATCGCTCAATGAGCGCTGGGTTAAC -TCGCTACTTCCCGACAACAGAACTGGCGCAAATTGGCGATGAAACTGCAGACGGCATTTATCATCCAACT -GAATTCTCCCCGCTATCGCATTTTGATGCGCGCCGCGTCGATTTTTCCCTCGCACGGTTGCGCCATTATA -CCGGTACGCCAGTTGAACATTTTCAGCCGTTCGTCTTGTTTACCAACTACACACGTTATGTGGATGAATT -CGTTCGTTGGGGATGCAGCCAGATCCTCGATCCTGATAGTCCCTACATTGCCCTTTCTTGTGCTGGCGGG -AACTGGATCACCGCCGAAACCGAAGCGCCAGAAGAAGCCATTTCCGACCTTGCATGGAAAAAACATCAGA -TGCCAGCATGGCATTTAATTACCGCCGATGGTCAGGGTATTACTCTGGTGAATATTGGCGTGGGACCGTC -AAATGCTAAAACCATCTGCGATCATCTGGCAGTGCTACGCCCGGATGTCTGGTTGATGATTGGTCACTGT -GGCGGATTACGTGAAAGTCAGGCCATTGGCGATTATGTACTTGCACACGCTTATTTACGCGATGACCACG -TTCTTGATGCGGTTCTGCCGCCCGATATTCCTATTCCGAGCATTGCTGAAGTGCAACGTGCGCTTTATGA -CGCCACCAAGCTGGTGAGCGGCAGGCCCGGTGAGGAAGTCAAACAGCGGCTACGTACTGGTACTGTGGTA -ACCACAGATGACAGGAACTGGGAATTACGTTACTCAGCTTCTGCACTTCGTTTTAACTTAAGCCGGGCCG -TAGCAATTGATATGGAAAGTGCAACCATTGCCGCGCAAGGATATCGTTTCCGCGTGCCATACGGGACACT -ACTGTGTGTTTCAGATAAACCGTTGCATGGCGAGATTAAACTTCCCGGCCAGGCTAACCGTTTTTATGAA -GGCGCTATTTCCGAACATCTGCAAATTGGCATTCGGGCGATCGATTTGCTGCGCGCAGAAGGCGACCGAC -TGCATTCGCGTAAATTACGAACCTTTAATGAGCCGCCGTTCCGATAATAAGTTCTGAACCTTCTTATCAG -AAATAGATGTGAAGGAGTAAGTAAGACACCTGGCAAATAGCCTGCAATAATCGTGGGCTGTTTGCTTCCT -TGGGCGGATACGAGTTTTATTATCGTCTTAATGATTTCCACATATTAAAAGCAAGTATGCTTTCAAAACA -CAATTATAAAAAATCCCGCCAACAATATAAGTTTTTATAAAATTAAATATAAGATTATGGCTTTAGAATA -TTTTTATTTCTAATAGACGAGATTTTTCCTGTTATGATATAATATGCTGAATTAACACATGTTAACGATT -TACCAGTAATGTAAATAAATTTTCGAGGAGATCATTCCAGTGGGACGTAAATGGGCCAATATTGTTGCTA -AAAAAACGGCTAAAGACGGTGCAACGTCTAAAATTTATGCAAAATTCGGTGTAGAAATCTATGCTGCTGC -TAAACAAGGTGAACCCGATCCAGAATTAAACACATCTTTAAAATTCGTTATTGAACGTGCAAAGCAGGCA -CAAGTTCCAAAGCACGTTATTGATAAAGCAATTGATAAAGCCAAAGGCGGCGGAGATGAAACGTTCGTGC -AGGGACGTTATGAAGGCTTTGGTCCTAATGGCTCAATGATTATCGCCGAGACATTGACTTCAAATGTTAA -CCGTACGATTGCTAACGTTCGCACAATTTTCAATAAAAAAGGCGGCAATATCGGAGCGGCAGGTTCTGTC -AGCTATATGTTTGACAATACGGGTGTGATTGTATTTAAAGGGACAGACCCTGACCATATTTTTGAAATTT -TACTTGAAGCTGAAGTTGATGTTCGTGATGTGACTGAAGAAGAAGGTAACATTGTTATTTATACTGAACC -TACTGACCTTCATAAAGGAATCGCGGCTCTAAAAGCAGCTGGAATCACTGAGTTCTCAACAACAGAATTA -GAAATGATTGCTCAATCTGAAGTTGAGCTTTCCCCAGAAGATTTAGAAATCTTTGAAGGGCTTGTTGATG -CCCTTGAAGATGACGACGATGTACAAAAAGTTTATCATAACGTCGCAAATCTCTAATTATCTTTTAAAGA -AATCTGTCTTTACGGCAGATTTCTTTAATCTCATATAATTCTTATAAAAAATATAATATTCAACTCGTCA -TATTGATTATACCCCCCCGTTCCCAGAGAAATAATATTTATTAAAATTCCAGTTCTTCTTTTTCTGATTA -CAGAAGGCAAAGTGGCAATTACGCATAGTTTCCCGATAAAGACGCGATAGCGACATCCCGCATAAGGCAT -TTTTCTCTTTATCTTTGTACGGTACTTCATGGAACAGAGTTTTTGACCTTGCGAATCGTGATGTCTGTTG -GGGAGGGACAATTTGCTCACTGAAGCGTGAGACTCGATTAAGCGCACGAAACACAGAAATCAAAAAACCC -GGTCACTTTTTTACAAGGTAACCGGGTAAAAATAATTTTTATTTTTTAACTGTTTTGAGACTCATAGAGA -TGTCTCAAAACTAAAATTTGGCTCCTCTGACTGGACTCGAACCAGTGACATACGGATTAACAGTCCGCCG -TTCTACCGACTGAACTACAGAGGAATCGTGAGAACGAGGCGAATATTAGCGATGCCCACCCACAATGTCA -AAGCCTGTTTTTTAAATTTGAAATCGTTTGCTGAAATAATCTGCATTTTGTCGTTTATTCCGACACAACT -GGCTTTTTTTCACACTTTTGCGGCTCGGGTCGAGGGTATTTCCATAGCCAACGTCCAGTAACCATTCGCC -AGTAAAACAGCACGGCCCGCACAGCCCAGTCGGCAAACATTCCCATCCAGACACCAACCACACCCCAGCC -AAGCATGATTCCCAGCACATAACCGACTACAACCCGACAACCCCACATGCTCAACATCGAAACCCACATG -GCGTAACGGGCATCACGAGCACCTTTAAATCCAGCGGGTAGCACCCATGAGGCGGACCAAATAGGCATAA -ATAAAGCATTTAGCCAAATCAGAATCACAACGACATGTTTAACCTGTGGATCCTGGGTGTAAAACGATGC -CATAACCCCGGCAAAGGGAGCCGTTAGCCAGGCGATGGCCGTTAATCCAAGAGTGGAAAGCCAGAACACA -TGCCGCAACTGAATCTCTGCTTGCGCTATCTGCCCTACCCCCAACCTTCGGCCTGTAATGATCGTAGAAG -CAGAGCCGAGCGCACTTCCGGGTAAGTTGATAAGAGCCGCAATTGAAAACGCGATAAAATTTCCGGCAAT -AACACTGGTCCCCATCCCGGCAACGAACATTTGGGTTAATAACCGACCACTGGTAAATAACACTGATTCG -ACACTCGCGGGAATACCAATCCCCATGACTTCCCAGATAATGCTAAAATTCAGCGGTTTAAAATAGCTCT -TTAACGAAATCCTTAGCGCAGGATTAAAACCAATCGCCAGCACCCACAAAATTGCAACTGCGCCAATATA -ACGAGAAATGGTTAAACCCAGCCCTGCCCCGACAAATCCCAGTCCCGGCCAGGAGAAAAGGCCGTAAATC -AATATGCCGCTAATAATAATATTAAGAATATTCAGGCTACCGTTAATCAATAGCGGTATTTTCGTATTCC -CTGCACCACGAAGTGCCCCGCTACCAATAAGAGTGATGGCAGCTGCTGGATAACTGAGTACCGTCAGCTC -CAGATAAGTCAACGCCAGTGCTTTAACTTCTGTCGTGGCATCACCCGCGACGAAATCAATAATTTGTTCG -CCAAAATGATGAATAAGCGTTGCCAACAGTACGGCAAACAACGTCATGATCACCAATGACTGCCGCGTCG -CCACCCTCGCTCGTCGTCGATCCCGCTTACCGAGACTAAATGCCACAACGACAGTAGTACCAAGATCGAT -AGCAGCAAAAAAAGCCATAATGACCATATTGAAGCTGTCCGCCAATCCCACGCCGGCCATCGCATCTTTT -CCCAGCCAGCTGACCAGAAAAGTGCTCAGAACCCCCATCAACAGGACACAGGCATTCTCCATGAAGATAG -GAACAGCAAGCGGGGTTATCTCGCGCCAGAACAACACTTTGTAGCTCTTGCGTTTAGCGTGCCAGCGAGT -GCCGTGAACAACCTGGCGTAAAGCAGAGGAGATATTCAAAGCCGACCTTAATTGCAGAAAGTGAAACCAC -ATTTCAAATAATGAGGGAGAATCAGCAAAGCTGCAAAGATTTTCGCCAACAAATTGTCTGCAAATGCAAC -AAACTGTTGATAGAAACGGCAAACAGTTGGGGAATTTAAAAATCGGGTTTGACAAAAGATTTTTCGCCGT -TAAGATGTGCCTCAACAACGATTCCTCTGTAGTTCAGTCGGTAGAACGGCGGACTGTTAATCCGTATGTC -ACTGGTTCGAGTCCAGTCAGAGGAGCCAAATTCCTGAAAAGCCCGCTTTTATAGCGGGATTTTTGCTATA -TCTGATAATCAATTTCCTCTTCACTGCTTTCCATCACCTGCCGCTTGATATCCTCAACTGACAGTCCTGC -ATTACAAAGTTCCAGAAAGCGCCAGACATAGTTACGCTGAAGTTGTCCTCGCTTCAGTCCCAACCAGACA -GTATTAGCATCAAAAAGATGCCGCGTATCCAGGCGGATTAAATTCTCTTCCTCTTGTTCGCCACTGGATT -GCTCGGCAACTAATCCGATCCCAAGCCCAAGAGCAACATAGGTTTTAATGACATCAGAATCCTGCGCACT -TAATACAATATCTGCCAGCAAACCTTTGCGGGCAAATGCGTCATCAATACGTGAGCGCCCCGTAATCCCC -TGTCGGTAAGTGATTAACGGCCACTTCGCTATTGATTCCAGCGTCAATGGTGAAATTTGCGTCAAGGGAT -GATCGTGTGGAACAAGCAAACTATGGTGCCAACGAAACCACGGGAAGGCGACGAGCTGCGGGTCATTACT -CAAACGCTCGCTGGCGATACCAATATCAGCTTCGCCATTTTGCAACAATGTCGCAATTTCCTGTGGCGTC -CCCTGGATTAGCTCGAGCCGAACCTCCGGGAAAAGTTCGCGAAAAGCTTTAATGACCTCTGGCAAGCTAT -AACGTGCCTGAGTATGCGTCGTTGCAATAGTGAGAACGCCAGACGTATCGTTGGTAAACAGGTCTGCAAG -CCGACGAACATTACTGGCTTCATTCAGAATACGTTCTGCAATGACCAGTAATGCTTTGCCCGGTTCAGTC -ATGCCCAGCAGTCGCTTACCTCGTCGAACAAATATTTCGATGCCAAGTTCATCCTCCAGTTCCCGAATAT -GACGGCTGACGCCTGACTGTGAGGTAAAAAGCATATTCGCAACCTCTGTCAGGTTGTAATCCTGACGTGC -AGCCTCGCGGATTATCTTTAGTTGTTGGAAATTCACGGTAAACTCCGGGCAGTTCAGATTTCCCGTTATT -GTTAAAGTCTAATGCCCGGCATAACAAATAATAAAAACCCGCATCTTATTCCATCCCGATATAACACTTA -GCTCACCAATTGCCACTGCCTTTTTTCCATCACTGGAGAACTAATCACTGACATTAACAACTCTTTCACT -GCCTGTGCCTGTGGCGATAAGTTCGCTCTGGCGGGTAAATTTAATGACAAAGAGAGACTCATGGAAGGAG -TGGTAATGCGTGACATCCACCCATTTACTGCGCCACATAACGAACGCGCGGCCGATTCGGGTAATACTGC -AACGCCCATGCCGCTGGCAATCGCTGCGGTAAGCGTGGCAATAGACTCAATTTCACCAATAACTTTTGCC -GTGAGTCGCCGTAGGGAAAAAGCCTCATCAACACGAAGTCTAATAGCACTGTAATCACTGGGGAGAAAGA -GGTTCATTTGCGCAATAGCATTCACATCAACGCTTTGCCCCGGGCAATCTTGAGTTCCTACCAGAAAAAG -ATCTTCTTTCAGCAAAGCCTGACTGGATACACCAGCCACAGGGGAATGCTCATAAATCACCGCCATATCG -AGTTGGTGATTTATCAATTTTTCGTTAAGCACTGCACCACTATTTTCATGAAGATAGATAACGATCTCCG -GAAATTCAGCGCGAACCGCCTGTAATAAGGGCATGGTGATGGATGACGCAGCGGTTCCTGGTGCAAAGCC -AATCGAGACTTGCCCCGATAATGCCTGACCAACGTTATGCACCGCCAGTTGGGCCTGTTCACACTGACGT -AAAATGGCCCGCGCATGGGTATAGAGAATTTTTCCGGCGTCTGTTGGTGTAACGCCCCGCTTTGTACGGA -TCAAAAGTTGTTGATTTAACTCACCTTCCAGTGTGGCAACCTGCTGGCTGAGCGCTGGTTGTGCGATATG -CAATACTTCAGCAGCCTGGGTCAGGCTACCAATATCTACAATTTTTACGAAGTATTTCAGGCGTCTGAAG -TTCATGTTGCCTCCGGTTTTTAAGAATCGGCCCAAGTGCCGCCATTACTTACAACCAGATTGCAAGATGC -TTGCCAGTTTTATTTTGGTGTTGATGTACAAGCTAACCAACTGTCAAATAAGAGATTATGATAGATTCGT -CATTTGCTCCTTTAATCAGCTGTCGCGTTCCCCTGCCCTATAAAAGGAGGGTATGCACCACGATGGTTCA -TTACCCAATAAGATTGAAAGCTCACCACTTTGTTGAAATTGACAGCAAACAAACAAAAAAATGCATTTCA -CCCTTTGACATCACCATGCACTGCCATTAATATGCGCCCCGTTCACACGATTCCTCTGTAGTTCAGTCGG -TAGAACGGCGGACTGTTAATCCGTATGTCACTGGTTCGAGTCCAGTCAGAGGAGCCAAATTCAAAAAAGC -CTGCTTTCTAGCAGGCTTTTTGCTTTCTAATTACCAACGCTCTTAAAACATCTGTCTTGAACCAGAACTA -ATTTGCACAGGCATTCCCGATCGACGTTGCAACGCAGCATTTGCGCGATTTACATCAACTTCTTGCCCGT -TGATAAACGCCCGCAAAGATGGGGTTACCGGCAATGGCACTTTTCGGTCAGACTCATATTCTGCACGATT -GCGCGACAATGGCTCATGAACTTCCAGCCAGTTCGAGCCATCTGGTTCAGTGGTGTATTTTACTGGCTGG -TCGATAATTTGCACACGCGTCCCAACAGGAACATTATCAAACAGATATTTGATATCGTCATTGCGCAGAC -GAATACAGCCCTGACTTACCCGGAGCCCAATACCAAAATTGGCATTGGTACCATGGATGGCATACAACCT -GCCAATATAAATCGCGTACAGCCCCATGGGATTATCGGGGCCCGCAGGAACAAATGCGGGCAAACTCTCC -CCTCGTTTCGCATATTCGCGCCGAGTGTTCGGCGTTGGCGTCCAGGTTGGAGCTTCTTGTTTACGTTCAA -CGGTAGTCACCCAGTTACGCGGGGTTTCTCGCCCAGCCTGGCCGATACCAATAGGAAAGACTTCCACAGT -ATTACTGTCTGGTGGGTAGTAATAAAGACGCATCTCAGCGACGTTAACAACAATCCCTTTACGAACAGTG -TCGGGCAAAATCAGTTGCTGCGGAATGGTGAGTTGCGAGCCAGACTTCGGCAAAAAAACATCAGCGCCCG -GGTTCGCTTCCAGCATGTTACTTAACCCTTGCCCGTATTGTGCGGCAAAAGTCTCCAGCGGCTGGGTATT -GTGATCAGGAACAGTTACAGTAAACGACTGCCCCACTAAACGGCTACCCTCTGGAGGTAATGGATAAGTT -ACCGCCAGGCTAGTATGGCTGGCAAAAAGCAGAGCAAATGAGCAAAGAATATTTACACGACGCATCATGT -CCCTTTCCTATGTCGCGAAAGCTATCCGTTAAGTATAGCTTTTATCAGACTTTTCGTTTTTAACTGTTCA -AATCAGAAGTCGTATTCCCCGGTAGAACAATATTACTGGCAGCAAGTTCGCCCATGTTGTTGTATATCGC -ACAGGCAGCTTCGATGATGGGCATCGCCAGAGCTGCGCCACTCCCCTCACCTAAACGCATCTCCATATTG -AGATAAGGCTCCAGCCCCAAATGCGAGAGCGCTATACGCGCGCCTTTTTCTGCCGACAGGTGAGAAGGAA -TGAGATACGGTTTGATCGCAGGAGACATCTGGCAGGCTGCGAGCGCAGCAGCATAAGAAAGAAATCCATC -CAGCAACACGGGTAAACCGCAGGAAGCAGCACCTAACATCACTCCAGCTATTCCGACCAAATCAAATCCA -CCCACTTTTGCCAGGACATCAACACCATCCTGAGGATTTGGTTGATTCAACGTAATCGCCCGACGCACAA -CATCAATTTTATTAGCCAGTTTATCTGTCGGCAGGTTTGCGCCAATCCCAACCACTTCTTCAGGATCCCG -GCCAGTGATTGTGCTGACTATTGCTGCTGCCGGTGTCGTGTTTGCCATCCCCAGTTCACCTACACCAAAC -AGCGTGACACCGTTTTTTGCCAGCTCCTGCGTATAACATATGACGTCCAAAAGCAACTTTTCAGCCTGAC -GGCGACTCATTGCCGGAGCTGAAGCAATATTGCCGCTACCTCGTGCGACACGCATGTTGATAAGCCCGGG -GATAGGCTCAGCAGTATCAATACCAACATCAATTACGTGGACGTTAGCGCCCGCTTGTTCTGCCAGCACA -CACACGCCGGTTGTTCCACGGGTCATATTTTCAGCCTGTATGGCTGTCACTTCTTTTGGAGAAATAGCGA -CCCCTTCCTCCCAGACGCCGTGATCGGCACACATAACCAGTACCGCTTTTTTGCCCACATGCGGTATGCC -ATTCAACCCCGGCATTCCTGCCAGTTGTATGGCAAGCACCTCCAGCTTTCCCAGGCTACCAACAGGTTTG -AGTAACCCGTCAATATGCCGTTGTGCACGCGACATAGCGGTAGAATCGATGGCTGGGATCGTATTCAGTA -AATCGGCAAGTATTTGCATCTCACGTCTCTTTATAGCAGTGCCAGCAGGAAGACCAGTTCACCAAGCTCT -ATGGCTGCTCCCAGCGTATCGCCCGTTTGCCCGCCCAGCGTACGTTTGAGAAGCTGACCGAGGATGAAAA -TCGCCACCATCGTCACCACCATAGCAGCCACACCATGCATACCCGGCAATAATACGGCAGCAAAAATAGC -GGCTAAGCCGAGTGTGACGCAGGTTTGTCGCCCATCAATTTTGCCAATGAACACATTGCCAAGCCCTTCT -TCCCGCGCATAACGATGACGATACATCAATAATGCGGCAGTCCCGCGGCTGACCGCACATGCTGCCGCCA -GCGATGCAAGGATCGATTCGCCACGCAGAGCCAACTCGCTTAACACCAGAATCTTTGCCAGTACCACAAA -AATCAATGCCAGACCGCCGTGGGTGCCTAAACGGCTATCACGCATGATTTCCAACATGCGATCGCGGCTA -CGTGCAGAAAATACGCCATCACAGGTATCAGCGAGGCCGTCCAGATGGAATCCCCCGGTCATCAGCACCA -GCACAAGTACGCTAAACAGTGCCGCCAGTGGTGCGCCACACCATGCCTGCAGCACCATGAAGACCAGCCC -GCTAATCGCGCCAAGCAATAATCCAATCAAAGGAAAAGTAATAATACCGCGAGAATAATGCTCGAAATCC -AGTCCCTGGGACCAGCGACGCGGTACAGGCAGACGCGTAATAAATGAGAGCATCGCCCAAAATAATTTAC -TCATTTGATTTTTACTCCAATACCCGAAACCACCAGCCATACTTCATTTGCCGCAGCGGCCAACTGCTGA -TTTACCCGCCCGGCAATATCACGAAAATGTCGTGCCAGACGACTCTCCGGCACAATCCCCATTCCCACTT -CGTTAGTCACTAATACAACCTTTGCGGGGCAACGTTGGCAGGCAGCAATCAACGACTGAATCTCAGCATT -AATCGCCTGTTCCATCGCCTGATAATCCCATTCATCAGGGTCTTTATCGCCGCCATAATCAAACAACAGA -TTAGTCACCATTGTGGTAACGCATTCAAGCAACACAACCTCATTCGGGTTAATGTCTGCATGAATTAATT -CATCAAGATGTTGCCAGCGCTCCACTGTGCGCCAGTGCTCCGGGCGGCCTTGCCGATGATGTTCTATCCG -TGCAGCCATCTCATCATCAAGGATTTGCGAGGTAGCGATATACAGAACCTGTGAAGAGTCCCCAATAAGC -GCCTCTGCGTGGCGACTCTTCCCGCTCCGTGCGCCCCCCGTCACCAAAATCATCATACCGACTCCTGATT -CAAATGTATGATGGTATTCATTGAACAGAACAATGGATCCCCCACCGTTGCTGACCGCAAAACATTTACG -CGATTAATACTGCGCGTAATATAATTAAAAATCCAGCATTCTCAATCCATTACGAAATAAGATGGCATTA -CGGAATAGCCAGACTTTCTCGTGTTAACGTCCGACAAAATGCGTCATTGACAGCGGTTTCTGTGGATTGA -CACATTTCATTCAGATAATGAATTAATGCTACTGCCGGAACAACCAGCAAACGGGCATTGTGTTCTGAAA -TCCAGGCTATTGATTCAACGTCAGCGACAGATCTGCGCTGTAAAAGAACTTGTAAAACAACGTAATAGAA -TTATCCGGAATGGTGGCGACTATGCACTAGGGAAGGTGCGAATAAGTGGGGAAATTCTTCTCGGCTGACT -CAGTCATTTCATTTCTTCATGTTTGAGCCGATTTTTTCTCCCGTAAATGCCTTGAATCAGCCTATTTAGA -CCGTTTCTTCGCCATTTAAGGCGTTATCCCCAGTTTTTAGTGAGATCTCTCCCACTGACGTATCATTTGG -TCCGCCCGAAACAGGTTGGCCAGCGTGAATAACATCGCCAGTTGGTTATCGTTTTTCAGCAACCCCTTGT -ATCTGGCTTTCACGAAGCCGAACTGTCGCTTGATGATGCGAAATGGGTGCTCCACCTTGGCCCGGATGCT -GGCTTTCATGTATTCGATGTTGATGGCCGTTTTGTTCTTGCGTGGATGCTGTTTCAAGGTTCTTACCTTG -CCGGGGCGCTCGGCGATCAGCCAGTCCACATCCACCTCGGCCAGCTCCTCGCGCTGTGGCGCCCCTTGGT -AGCCGGCATCGGCTGAGACAAATTGCTCCTCTCCATGCAGCAGATTACCCAGCTGATTGAGGTCATGCTC -GTTGGCCGCGGTGGTGACTAGGCTGTGGGTCAGGCCGCTCTTGGCATCGACACCAATGTGGGCCTTCATG -CCAAAGTGCCACTGATTGCCTTTCTTGGTCTGATGCATCTCCGGATCGCGTTGCTGCTCTTTGTTCTTGG -TCGAGCTGGGTGCCTCAATGATGGTGGCATCGACCAAGGTGCCTTGAGTCATCATGACGCCTGCTTCGGC -CAGCCAGCGATTGATGGTCTTGAACAATTGGCGGGCCAGTTGATGCTGCTCCAGCAGGTGGCGGAAATTC -ATGATGGTGGTGCGGTCCGGCAAGGCGCTATCCAGGGATAACCGGGCAAACAGACGCATGGAGGCGATTT -CGTACAGAGCATCTTCCATCGCGCCATCGCTCAGGTTGTACCAATGCTGCATGCAGTGAATGCGTAGCAT -GGTTTCCAGCGGATAAGGTCGCCGGCCATTACCAGCCTTGGGGTAAAACGGCTCGATGACTTCCACCATG -TTTTGCCATGGCAGAATCTGCTCCATGCGGGACAAGAAAATCTCTTTTCTGGTCTGACGGCGCTTACTGC -TGAATTCACTGTCGGCGAAGGTAAGTTGATGACTCATGATGAACCCTGTTCCATGGCTCCAGATGACAAA -CATGATCTCATATCAGGGACTTGTTCGCACCTTCCCTAGAACACCACAATTTCGCTCTCTCGGTAAGGCA -CTGTCACAGCATTCAACAGAATGTGACTTGCCAGATTTATTAGCGCCACCAGATGTTTAACCGGGTAACC -ACGACCCAGTCGGGGATATATTCCATCTTCTCGCTGACATCATCAAGAATAAAAAGGTTTATCACACTCA -GAGCAACGTTCTTCAGCAGGCGGGATAATTCTTCAACATTTAGAAGATGTGTTATTAAAGGCATACAAAC -TGGACGTATTGTATTTTCTTTTGGTGGTTGACCTAAGGTAGCAGTTTATCCTGATGCGCTGAGATTTCTG -TAATATCTACGTCAACATTCTCCTCGAATAGAAAATGCAGCCCCGGCAAGTGATTCACATTTTTTAACAA -AACGTTGTTAGCGTGCCATTTTCAGAAGCTCTCCAAGAAAGCGAATTCTTTTCTCAAATTCTGCATTCTC -AGACACAGCTTTCTACTCCATGGTAATGGCCCAAATACGAAGTTGCTCAGGATCATTAGTGGTGCTGAGA -AGTTAAATAACCATGCGGAGTACCACTCGTCATCACGTATTTATATATCATGAAGCTATTGTTGTGTTTT -GTACATCAGTAGATATATTCTGATATACTCCTTTTGCTAGACATAACCTTTCACCTGCTTGCAAAGCTTC -TGTGTTCTGACATTGCCAAATTGTTGCAATTCTGTATCCAGCCTTCTTTCAGTCATAGCTTCGGGCCGCG -ATAAGACTCACTGATCTGACCCTGATTCCTCTTGCAGACTTTATAGACCAATTAAAATGCAGTTTCTGCA -GGTCAACGTCTGACCATCATTGTCATCACTCTGGCCATTAGAGTAACCTTCTGCATTCATCCTTTTGTAA -AAAGTTTATATTAGTATCAGCAATTAACCGGACCTGATACTGATATGAGTCTTACCGCATATACGGTCAA -TTTCAGCAATTAATTACATTATCCACGCCAAAGTATTTGTCATCACAATGATGGTACCTTCTTTCAGACA -CCATTTTTTCAACTCCGTTTTCCACGGACCGCACTCTTATGTCAAGAGTGCGGTCCGTGGATACAACCAG -AGACCGACTGACACGAGTCAGAGGAAACGACGGATATGTTCAGTCGTAAAATATCTATCAAAAAACATGA -TTAAGGTCAAAAATGTTTGATATTTACAATTTATGAAGATGACAATAATTATAGATATATGAGAACATAA -ATGAAAATAATTATCATTACAGTAATCATTTGTACTTTGTATTAATGAGGGATGAAATGTTATATAATAT -ACCTTGTCGAATTTATATCCTTTCCACTCTGTCATTATGCATTTCTGGGATAGTTTCTACTGCAACCGCA -ACTTCTTCAGAAACAAAAATCAGCAACGAAGAGACGCTCGTCGTGACCACGAATCGTTCGGCAAGCAACC -TTTGGGAAAGCCCGGCGACTATACAGGTTATTGACCAACAAACATTGCAGAACTCCACCAATGCCTCCAT -AGCCGATAATTTGCAGGACATCCCCGGAGTAGAGATAACAGACAACTCCTTGGCAGGCCGTAAACAAATC -CGCATTCGTGGCTGGATTTGCCCCTATATTTCCAGACATCTGTTATCACTTAACCCATTACAAGCCCGCT -GCCGCAGATATTCCCGTGGCGAGCGATAACCCAGCGCACTATGCGGATGCCATTCGTTATAATGCTCGAA -CGCCTCTGCAAGGTTCTTTGCTGCCGTTAACCCGTCTGGTTTGGGCATGATACTGATGTAGTCACGCTTT -ATCGTTTTCACGAAGCTCTCTGCTATTCCGTTACTCTCCGGACTCCGCACCGCCGTGTTCTTCGGTTCAA -GTCCCAACATCCGGGCGAACTGGCGTGTTTCATTAGCCCGGTAGCATGAACCATTATCCGTCAGCCACTC -CACTGGAGACGACGGAAGATCGTTGCCGAAGCGGCGTTCCACCGCTCCCAGCATGACGTCCTGTACTGTT -TCACTGTTGAAGCCGCCGGTAGTGACCGCCCAGTGCAGTGCCTCACGATCACAGCAGTCCAGCGCGAACG -TGACACGCAGTCTCTCTCCGTTATCACAGCAGAACTCGAACCCGTCAGAGCACCATCGCTGATTGCTTTC -TTTCACGGCCACTCTGCCTGTATGTGCCCGTTTCGATGGCGGTACAGCAGGTTTTCGCTCAAGCAACAGC -GCATTCTGGCGCATGATCCGGTAAACACGTTTGGCATTGATCGCAGGCATACCATCAAGTTCTGCCTGTC -TGCGAAGCAGCGCCCATACCCGACGATAACCATACGTTGGCAGCTCTCCGATAACATGGTGTATACGGAG -AAGCACATCCGTATCATCAGTGTGACGACTGCGGCGGCCATCCATCCAGTCATCGGTTCGTCTGAGAATG -ACGTGCAACTGCGCACGCGACACCCGGAGACAACGGCTGACTAAGCTTACTCCCCATCCCCGGGCAATAA -GGGCGCGTGCGCTATCCACTTTTTTGCCCGTCCATATTCAACGGCTTCTTTGAGGAGTTCATTTTCCATC -GTTTTCTTGCCGAGCAGGCGCTGGAGTTCTTTAATCTGCTTCATGGCGGCAGCAAGTTCAGAGGCAGGAA -CAACCTGTTCTCCGGCGGCGACAGCAGTAAGACTTCCTTCCTGGTATTGCTTACGCCAGAGAAATAACTG -GCTGGCTGCTACACCATGTTGCCGGGCAACGAGGGAGACCGTCATCCCCGGTTCAAAGCTCTGCTGAACA -ATTGCGATCTTTTCCTGTGTGGTACGCCGTCTGCGTTTCTCCGGCCCTAAGACATCAATCATCTGTTCTC -CAATGACTAGTCTAAAAACTAGTATTAAGACTATCACTTATTTAAGTGATATTGGTTGTCTGGAGATTCA -GGGGGCCAGTCTAGTGGCGAAGCATCCTCCCGTGTTTTAATTCTCATTGATGGTCAGGAGGTAACTTATC -AGCGCGCCGGAGATAATTATGGTGTGGGACTGTTGATAGATGAGTCTGCGCTGGAGCGTGTTGAGGTAGT -GAAAGGTCCATATTCCGTACTGTACGGTTCACAGGCAATTGGCGGTATTGTTAACTTCATCACCAAAAAG -GGTGAATCTCCGGACTCCCTATATCACTTAAATTGATACAACTTTTTAGAGTAGTCATTAGTGAACAGAT -AATTGATAACTCAGAACCAGTAAAATGCAAAAGACGCACCACGCTGGGAAAATCGCTGCTATTCAGCAGA -GTTTTGTATCGAGAATGGTGGCCAGCCACTTATTGCTCTCGCGTAAGCGGGTACCGTGACATTCTGCCTG -AACTTGACCTGGTACTGTGGCTGATTAAAGCCGATGACCGTGCCCTGTCTGTGGATGAGTATTTCTGGCG -ACACATCCTGCAGTGCGGACATCAGCAGGTGCTGTTTGTGGTGACGCAGGCCGACAAAACGGAGCCCTGC -CATGAATGGGATATGGCCGGTATTCAGCCTTCTCCTGCACAGGCACAGAATATTCGCGAAAAAACGGAGG -CGGTATTCCGTCTGTTCCGGCCCGTACATCCGGTTGTGGCCGTATCGGCCCGCACCGGCTGGGAACTGGA -TACGCTGGTCAGTGCGCTCATGACAGCGCTTCCCGACCATGCCGCCAGTCCCCTGATGACCCGACTGCAG -GACGAGCTGCGCACGGAATCTGTCCGGTCTCAGGCCCGTGAACAGTTTACCGGTGCGGTGGACCGGATAT -TTGACACGGCGGAGAGCGTCTGTATTGCCTCTGTTGCACGCACGGTTCTGCGTGCCGTCCGTGACACGGT -GGTCTCTGTTGCCCGTGCGGTATGGAACTGGATTTTCTTCTGAACCTGTCGTGACTGATGCCCTCCCTGA -CTCTGAGTCTGCTCACAAAAGCACTGTTTTCGTTACTGTCTCTCTTGTCCGTGCAATAGCTCAATAATAG -AATAAAACGATCAATATCTATTTTATCGATCGTTTATATCGATCGATAAGCTAATAATAACCTTTGTCAG -TAACATGCACAGATACGTACAGAAAGACATTCAGGGAACAACAGAACCACAATTCAGAAACTCCCACAGC -CGGACCTCCGGCACTGTAACCCTTTACCTGCCGGTATCCACGTTTGTGGGTACCGGCTTTTTTATTCACC -CTCAATCTAAGGAAAAGCTGATGAAACGACATCTGAATACCTGCTACAGGCTGGTATGGAATCACATGAC -GGGCGCTTTCGTGGTTGCCTCCGAACTGGCCCGCGCACGGGGTAAACGTGGCGGTGTGGCGGTTGCACTG -TCTCTTGCCGCAGTCACGTCACTCCCGGTGCTGGCTGCTGACATCGTTGTGCACCCGGGAGAAACCGTGA -ACGGCGGAACACTGGCAAATCATGACAACCAGATTGTCTTCGGTACGACCAACGGAATGACCATCAGTAC -CGGGCTGGAGTATGGGCCGGATAACGAGGCCAATACCGGCGGGCAATGGGTACAGGATGGCGGAACAGCC -AACAAAACGACTGTCACCAGTGGTGGTCTTCAGAGAGTGAACCCCGGTGGAAGTGTCTCAGACACGGTTA -TCAGTGCCGGAGGCGGACAGAGCCTTCAGGGACGGGCTGTGAACACCACGCTGAATGGTGGCGAACAGTG -GATGCATGAGGGGGCGATAGCCACAGGAACCGTCATTAATGATAAGGGCTGGCAGGTCGTCAAGCCCGGT -ACAGTGGCAACGGATACCGTTGTTAATACCGGGGCGGAAGGGGGACCGGATGCAGAAAACGGTGATACCG -GGCAGTTTGTTCGCGGGGATGCCGTACGCACAACCATCAATAAAAACGGTCGCCAGATTGTGAGAGCTGA -AGGAACGGCAAATACCACTGTGGTTTATGCCGGCGGCGACCAGACTGTACATGGTCACGCACTGGATACC -ACGCTGAATGGGGGATACCAGTATGTGCACAACGGCGGTACAGCGTCTGACACTGTTGTGAACAGTGACG -GCTGGCAGATTGTCAAAAACGGGGGTGTGGCCGGGAATACCACCGTTAATCAGAAGGGCAGACTGCAGGT -GGACGCCGGTGGTACAGCCACGAATGTCACCCTGAAGCAGGGCGGCGCACTGGTTACCAGTACGGCTGCA -ACCGTTACCGGCATAAACCGCCTGGGAGCATTCTCTGTTGTGGAGGGTAAAGCTGATAATGTCGTACTGG -AAAATGGCGGACGCCTGGATGTGCTGACCGGACACACAGCCACTAATACCCGCGTGGATGATGGCGGAAC -GCTGGATGTCCGCAACGGTGGCACCGCCACCACCGTATCCATGGGAAATGGCGGTGTACTGCTGGCCGAT -TCCGGTGCCGCTGTCAGTGGTACCCGGAGCGACGGAAAGGCATTCAGTATCGGAGGCGGTCAGGCGGATG -CCCTGATGCTGGAAAAAGGCAGTTCATTCACGCTGAACGCCGGTGATACGGCCACGGATACCACGGTAAA -TGGCGGACTGTTCACCGCCAGGGGCGGCACACTGGCGGGCACCACCACGCTGAATAACGGCGCCATACTT -ACCCTTTCCGGGAAGACGGTGAACAACGATACCCTGACCATCCGTGAAGGCGATGCACTCCTGCAGGGAG -GCTCTCTCACCGGTAACGGCAGCGTGGAAAAATCAGGAAGTGGCACACTCACTGTCAGCAACACCACACT -CACCCAGAAAGCCGTCAACCTGAATGAAGGCACGCTGACGCTGAACGACAGTACCGTCACCACGGATGTC -ATTGCTCAGCGCGGTACAGCCCTGAAGCTGACCGGCAGCACTGTGCTGAACGGTGCCATTGACCCCACGA -ATGTCACTCTCGCCTCCGGTGCCACCTGGAATATCCCCGATAACGCCACGGTGCAGTCGGTGGTGGATGA -CCTCAGCCATGCCGGACAGATTCATTTCACCTCCACCCGCACAGGGAAGTTCGTACCGGCAACCCTGAAA -GTGAAAAACCTGAACGGACAGAATGGCACCATCAGCCTGCGTGTACGCCCGGATATGGCACAGAACAATG -CTGACAGACTGGTCATTGACGGCGGCAGGGCAACCGGAAAAACCATCCTGAACCTGGTGAACGCCGGCAA -CAGTGCGTCGGGGCTGGCGACCAGCGGTAAGGGTATTCAGGTGGTGGAAGCCATTAACGGTGCCACCACG -GAGGAAGGGGCCTTTGTCCAGGGGAACAGGCTGCAGGCCGGTGCCTTTAACTACTCCCTCAACCGGGACA -GTGATGAGAGCTGGTATCTGCGCAGTGAAAATGCTTATCGTGCAGAAGTCCCCCTGTATGCCTCCATGCT -GACACAGGCAATGGACTATGACCGGATTGTGGCAGGCTCCCGCAGCCATCAGACCGGTGTAAATGGTGAA -AACAACAGCGTCCGTCTCAGCATTCAGGGCGGTCATCTCGGTCACGATAACAATGGCGGTATTGCCCGTG -GGGCCACGCCGGAAAGCAGCGGCAGCTATGGATTCGTCCGTCTGGAGGGTGACCTGATGAGAACAGAGGT -TGCCGGTATGTCTGTGACCGCGGGGGTATATGGTGCTGCTGGCCATTCTTCCGTTGATGTTAAGGATGAT -GACGGCTCCCGTGCCGGCACGGTCCGGGATGATGCCGGCAGCCTGGGCGGATACCTGAATCTGGTACACA -CGTCCTCCGGCCTGTGGGCTGACATTGTGGCACAGGGAACCCGCCACAGCATGAAAGCGTCATCGGACAA -TAACGACTTCCGCGCCCGGGGCTGGGGCTGGCTGGGCTCACTGGAAACCGGTCTGCCCTTCAGTATCACT -GACAACCTGATGCTGGAGCCACAACTGCAGTATACCTGGCAGGGACTTTCCCTGGATGACGGTAAGGACA -ACGCCGGTTATGTGAAGTTCGGGCATGGCAGTGCACAACATGTGCGTGCCGGTTTCCGTCTGGGCAGCCA -CAACGATATGACCTTTGGCGAAGGCACCTCATCCCGTGCCCCCCTGCGTGACAGTGCAAAACACAGTGTG -AGTGAATTACCGGTGAACTGGTGGGTACAGCCTTCTGTTATCCGCACCTTCAGCTCCCGGGGAGATATGC -GTGTGGGGACTTCCACTGCAGGCAGCGGGATGACGTTCTCTCCCTCACAGAATGGCACATCACTGGACCT -GCAGGCCGGACTGGAAGCCCGTGTCCGGGAAAATATCACCCTGGGCGTTCAGGCCGGTTATGCCCACAGC -GTCAGCGGCAGCAGCGCTGAAGGGTATAACGGTCAGGCCACACTGAATGTGACCTTCTGACAGAACCATC -GCCTCTCTGTGGTCCCGGTCATCATGACCGGGACCCGGACCGGCGCAACGGATCTTCAACGCCACATTCG -CTGGCATTAACAATAACATGATATTCATCACGGAGTGACTATGTTACAGATAGTCGGCGCGCTGATCCTG -CTGATCGCAGGATTTGCCATTCTTCGCCTTTTGTTCAGAGCATTAATCAGCACGGCTTCTGCGCTGGCAG -GGCTCATATTGCTGTGTCTGTTCGGCCCGGCCTTACTGGCTGGCTATATCACCGAACGCATAACCCGGTT -GTTCCATATTCGCTGGCTGGCAGGCGTATTTCTGACGATTGCCGGAATGATCATCAGCTTCATGTGGGGA -CTTGATGGTAAACATATCGCGCTGGAGGCTCACACCTTTGACTCTGTGAAATTTATTCTGACCACCGCTC -TCGCCGGTGGTCTGCTGGCTGTTCCCCTGCAGATCAAAAACATTCAGCAGAACGGGATCACACCAGAAGA -TATCAGCAAGGAAATTAACGGGTATTACTGCTGTTTTTATACTGCCTTTTTCCTTATGGCGTGTTCTGCA -TGCGCACCATTGATCGCGTTACAGTACGATATTTCACCGTCACTGATGTGGTGGGGCGGGTTGTTGTACT -GGCTGGCTGCATTAGTGACGCTGCTATGGGCGGCCAGCCAGATCCAGGCGCTGAAAAAACTGACCTGTGC -CATCAGCCAGACACTGGAAGAACAACCGGTGCTCAACAGTAAATCGTGGCTGACCAGTTTGCAAAACGAT -TACAGCCTTCCTGACTCACTGACGGAGCGCATCTGGCTGACGCTCATTTCTCAACGGATTTCCCGGGGAG -AGCTGAGGGAATTTGAACTGGCAGACGGAAACTGGTTACTGAACAATGCCTGGTATGAAAGAAACATGGC -AGGGTTTAACGAACAGTTGAAAGAGAACCTGTCATTCACACCTGATGAACTGAAAACGCTCTTCCGGAAC -CGCCTGAATTTATCACCGGAAGCGAATGACGATTTTCTCGATCGTTGCCTGGACGGCGGTGACTGGTATC -CCTTTTCAGAAGGTCGCCGTTTTGTATCATTCCATCACGTGGATGAGCTTCGTATCTGTGCCTCCTGCGG -GCTGACAGAAGTACATCATGCCCCGGAAAATCATAAGCCGGATCCGGAATGGTACTGCTCCTCTCTTTGT -CGCGAAACAGAAACACTGTGTCAGGAAATTTATGAACGCCCTTACAACAGCTTTATTTCCGATGCAACGG -CGAATGGTCTGATTCTCATGAAACTGCCGGAAACCTGGAGTACAAATGAGAAAATGTTTGCTTCCGGAGG -GCAGGGACATGGGTTTGCCGCTGAACGGGGAAACCATATTGTCGACAGAGTCCGTCTGAAAAACGCACGG -ATCCTCGGTGATAATAATGCCAGAAATGGAGCAGACAGACTGGTCAGCGGAACAGAAATCCAGACGAAAT -ATTGTTCAACTGCAGCCCGTAGCGTCGGTGCGGCATTCGACGGACAAAACGGACAGTATCGTTACATGGG -AAATAATGGCCCCATGCAACTGGAAGTCCCCCGTGATCAGTATGCCGGCGCTGTTGAAACCATGAGGAAT -AAGATCCGCGAAGGTAAAGTAGAGGAGAGATGACGCCCGGCGAGCGCAGCCTCATTCAACGGGCCCTGAA -AACCCTGGACCGCCATCTTCATGAACCCGGCGTGGCCTTCACCTCCACCCGTGCAGCACGGGAATGGCTG -ATTCTGAACATGGCGGGACTGGAGCGTGAAGAATTCCGGGTGCTGTATCTGAACAACCAGAATCAGCTGA -TTGCCGGTGAAACCCTCTTCACCGGCACCATCAACCGCACGGAAGTCCATCCCCGGGAAGTGATTAAACG -CGCCCTGTACCACAATGCCGCTGCCGTGGTACTGGCACACAATCACCCGTCCGGTGAAGTCACACCCAGT -AAGGCAGACCGGCTTATCACCGAACGTCTGGTACAGGCACTGGGCCTGGTGGATATCCGGGTGCCGGACC -ATCTGATAGTCGGTGGCAACCAGGTTTTCTCCTTTGCCGAACATGGTCTGCTTTAACCCTTCACAACCAC -ATCACACCTGTTTTCACTTTTATCTTCTGTCTTCAGAGGTATCCCATTATGAAAATTATCACCCGTGGTG -AAGCCATGCGTATTCACCAACAACATCCGACATCCCGTCTTTTTCCGTTCTGTACCGGTAAATACCGCTG -GCACGGCAGTGCTGAAGCGTATACCGGTCGTGAAGTGCAGGATATTCCCGGTGTGCTGGCCGTGTTTGCT -GAACGCCGTAAGGACAGTTTTGGTCCGTATGTCCGGCTGATGAGCGTCACCCTGAACTGAGTGGGAATTC -TGATGAGCAGAATTATCGCCACTACCGGACCATTCTTAGCCGATTTTCTGTAAGGATTTTATCGTGTCAG -ACACACTCCCCGGGACAACACTTCCCGACGACAATCACGACCGCCCCTGGTGGGGGCTGCCCTGCACCGT -GACGCCCTGTTTCGGGGCACGTCTGGTGCAGGAGGGTAACCGGTTGCATTACCTTGCCGACCGCGCCGGT -ATCAGAGGCCTGTTCAGCGATGCAGATGCGTACCACCTGGACCAGGCCTTTCCGCTGCTGATGAAACAAC -TGGAACTCATGCTCACCAGCGGTGAACTGAATCCCCGCCATCAGCATACCGTCACGCTGTATGCAAAAGG -GCTGACCTGCAAAGCCGATACCCTCAGCAGTTGTGATTACGTTTATCTGGCTGTTTATCCGACGCCCGAA -ATGAAAAATTAACTCTCCAGAATAGCCTTCTGCTACGGCCTGGTGTTTTCACCACGCCACTTTTCCATTT -TTATATCTGCATATCAGGAAAATCTTCAGTATGAAAACATTACCTGTATTACCCGGGCAGGCGGCCAGTT -CTCGCCCGTCTCCTGTTGAAATCTGGCAGATACTGCTGTCCCGACTGCTGGACCAGCACTATGGCCTCAC -ACTGAATGACACACCTTTTGCCGATGAACGTGTGATTGAGCAGCATATTGAGGCAGGCATTTCACTGTGT -GATGCGGTGAACTTTCTCGTGGAAAAATACGCGCTGGTGCGTACCGACCAGCCGGGATTCAGCGCCTGTA -CCCGCTCTCAGTTAATAAACAGCATCGATATCCTCCGGGCTCGCAGGGCGACCGGCCTGATGACCCGCGA -CAATTACAGAACGGTAAATAACATTACCCTGGGTAAGTATCCGGAGGCGAAATGATGACACTGGAAGCCG -ACAGCGTTAACGTACAGGCGCTGGATATGGGGCACATTGTCGTTGACATTGATGGTGTTAATATCACTGA -ACTGATTAATAAGGCCGCTGAAAACGGTTATTCACTCCGCGTGGTGGATGACCGTGACTCTACCGAAACA -CCGGCAACTTATGCCAGCCCTCACCAGTTGCTGTAAGACAATGCAGTGATACAGGGTATAGTGCCATTAA -CCACAGAAACAGCACTGTTGTCCTGTATTAAGCAGGCAAGAGAAGATGTCCTTACCCTGCGCCATCTGCA -GCTTCTGCACCAGAACCGGTGAATCTCACTCAACAGGCTTCATTTCTCCTGACGCCAGCCTGAATACAGC -TGGCGTTTTCATTTATAAACAGAAAGGAAAACCGATAATAATGGAATGGACGCCCCGACCATGAAGCAAC -GGTAGGATATTACTGATAAACCTTCCAGTGGAGGTGCGTTATGGCCGTTTTAACGATTAGCATTGACCTG -ACAAAAAATGAATTCCAAATCCACGGTCTGGGTAGGAACAGAAAAATCTAAGCTCAGAAAACGGATTAAA -GTAAGCGTCAACGGAGCACCGTATTGACGCTTATTTATTGGTGAGAACTACGTTCCATGGCAGGAGTTCG -TCAACACGGTTGGAGGGCCATTCCGGCAGTATGCTCAGAATATGGCGCAGATACGCTTCCGGATCGATAC -CGTTCAGACGGCAGGTGCCTGCTTTTCTGGCAACAAGCAGGAATCTCAGCGCTGAAGCAGGAATTAGAGG -TAAAAACGCCCTACCGGGCCATGAATCACCCGGTCATTGGAGTAGTAACCAAAGCAGATTTAGCCAGCAT -GGAACAAATATCTTTGGTGAAAAGTTGGTTACGGGAAGCTGGAGCGCACAACGTGTTAGTAACCAGTGCA -GTTAATAACAATGGAGTTACAGAACTTTTTGCCTTGCTGCATACAGAAGAAGGCTGTTGTTAATTTCGAT -TGGTTCTCGGATGAGAATGATGACGGTGATACACAGATAAGAATCAATGAGCAATGAGGGTTGCCGGGCA -ACCCTCATTGAATAAAACGGGAATTACTTCGCTTCGCCGTTTTTCATTTCGCCCATAGCTTTCAGCTTTT -TGGAGATATCGCGGCGTTCTTTGGAGAGCTCGGCATTTTTGATGATGTAATCGTCAACGCGATCTTCATA -GTCACCTTTCATGCTGGCGATGATGCCCTGGATTGCTTCAACGCTCATCCCCGGCTTGATGTAATCGCTC -AGGTTGTCCAGCAGCAGGACGCGCTTCTGGTTGTCACGGATCTTTTTCTCAACGTCCTGAATTTCACGTT -GCAGTTTGTTCTTACGACGGAACAGACGAACAAATTCCAGTACGTCCTGGAATGAAGGCTTGGTAGTTTC -CATTTTTATACCCCTGATAATGTGAGAGTCGGATTCGTTTAAGCAACCGCTATTCGTTAGGGCCAACATT -ACTCATAGCTGCCGCAGATGACAATGCTTTTATCCCTTTTCACTATCATACCCTTTATCCTTGCTGAATC -GAAGCAGCAGCAAGATGATTCTGAAGTTCAGGAATTATTTGCGCAAGGCCCGGCAAATCAGATTCGATAG -CAACTCAAGCTGATGCGCCGTTTCCATGTTCAGCCACACATAACCATAGATTGGTGTTTCCACAACCTTC -AGGTCATGGTGGTTATTGAGCAACTGACGCAGCTCTTCCACAGCATCGTTCAATTTTTCCGTATTGGCAA -AAACCGGCTGCGGATTACCTTCGTACAGCGCATGAACAAGGCTCAGCAGTATTTGCTGCATCATGTGCTG -GGTATCACGAAGTTTTTGCGCGTTCAATAACACGAAATGGCTGGGGCGCGTGGCCCAGTATGCATTGATT -TGCAACTCCAGCATACAAACCAGATTGCGGTTAATGGTCTGGATACCTTCATATATCGATTTTGGAATAC -GGGTTTCTTTGCTGGCGGGCGCAATCAGTCCACGCATTTTCACGGCATCGGTCAGGAGTTTTTGTAGATG -GCTTTCCAGACGTGGGCGTTCGAGTAAGTTCGGTGAGAATGCAGATTGATAGACCCGATTATACTCGGTC -AGACTTTTCGCCAGTTGAATGCGCCAGTGGATGAACGCCCGTTGTGGCCAGATACCGGTAAACAACATTG -CCAGTAAAGAGCCGAGGATCACATCGCCGCTTCGCCATAACGCCGTATCAATTTCACCTGTCGGGGAACC -CACAACAATTGCCAGCGTCACCCCAATCAATAAACCTTGATACGGTTTCTTGCCCAGCGCCAGCCAACCG -CAAAGGAACATGGCCGCCGCGCACCAGACTAACATCAGCGGTAACGAGATTAACTCCAGTTGCAGAGCGA -TAAGACCTAAAATCGAACCCAACACCGTACCGCCAATACGCTCAAAGGCGCGAGGGACAACGTTACCCCA -GAACGAGATTGGCCCCATAATCACCACCATGGTGACCAGCGGCCAGGTGCTTTCCGGGATAGTAAACAGG -CGGATAATGAGAAAAGTGAGCAGGAATGCCAGCGCGACCCGAGTACCATGCACAATGCGGTAATGGCGGT -ATACCCGGATTTCAAACGGGCTTAATGACTTATCGGCACGCACGCAGAAACTCCGTAATGAGATTAAAAG -CGCTCATAACTCATCTGTCGGCCAGAAGGCGCGCCTCTGAATTATCCGACGGACAAACCGGGAACAGTGT -AATTTCCCGGCAGGAGCGAAAAAATTGAAAGGCGCATCTTACTCTTTTCGCTTTCAAAAAAAAGAGTGGT -CATCGCGTTAACACACCGCCCTGAGATGAATTAGTGATGTTTTGGCTGCACCGCAACATACATTTCGATA -TCCCAGTACCCATCTTCCGCGCCATTGTTCAAATAAACCTCGAAGCAGGGCTTTGGTAACATTTCATAAG -CACTGTCCTGCAAGAGACTATTAAAGAACTGATACCAGGGTTTAGCAAAATCATCACCGACTACACGAGC -TACCGCCACCGCATACTGACCACCTGTAATTTCTGTCAGAATGACGCCCTCACTGTTTTCGGGAAGCGTA -AAGTAACCCGGCACCGTCACGACGGTGTCGCAGCGTAATTTTTCGGCGGGTGTTTCATCTGGATTGTCGT -AATAGACAGCAACCCACTCCTTCGGCACAATATTTTTGCTATCTACCCACATCATCAACTGCTCAAAGCC -TTTCTTTACCGTCTGTTCCCACGGGCCAACGAGATGGAAACCTGCAACGGTACGTTTCTCTTCCTGCTTA -ATCTCGTAGTTCATGACGCCTCCATTGATACTGTTTTTATATACAGTATAGTTGCAAAATTAAAACCACA -AGGAATGAGTGTTGATTATGCGAGCAGACTCGCACTCCTGCCAGTCTGCTGCAAAAGAAAGGTCAGGCCT -TATGGTGGAAATAATCACTCAGGCGAGAAAACATGCTGCCTTCCCCGACAGATTCCAGGGTAACCAGCGG -CCAGTGCGCCACCTGTTTATCACGGTCGTAAAGTTCAATTTCCCCTACCCGCTGATGGGCGCTAATTGGC -GCGGTGAGTTCTTTACCATCAAGGGTATATTTGGCTTTGATATGTGGAATTTCGGCTTTCGGTAGCACCA -TCCAGAACTCTTGTTCCGTTCCCAGGTCGATATTTTCTTTATCGCCATACCAGATGCGTTCCGTTCCGAC -CTTTTTCCCACGGTGCAAAATTTGCACCGTAGTAAAGTTTTGTTGCCCCCAACGCAGTAATTTTCTTGCC -TCTTCCTCACGACCTTTTGCACTGTCAGCCCCCATTACCACTGCAATGAGACGACGCTGCCCATCTACAG -CCGAAGCAATGAGATTAAACCCGGCACCAGAAGTATGACCCGTTTTCAGGCCGTCAACATTCATGGTTTT -ATCCCACAACAACCCGTTACGGTTTTGCTGGGTGATACCGTTCCAGGTGAGACTTTTCTCACTGTACATA -TGATAAAACTCGGGCTCGCCGTGGATGATAGCACGAGAAAGCACAGCTAAATCATAAGCCGAGCTATGCT -GGCCAGGTGCATCCAGACCATGCACTGTTTCAAAATGCGTATCCTTGAGATGCAGCTTCTCGGCATAGTT -GTTCATCATTTCAACAAACTGCCGTTGCCCACCGGCAATATAGTCAGCCAGAGCAACACAAGCGTCATTT -CCGGAATCCACAATTAAACCACGGCTTAAATCACGTACCGATACGCGATCGCCCTCTTTCAAAAACATCA -GTGAAGAACCGACAAACACCGGATTATCTTTCGCCCACGCATCGCGCCCCACGGTGACAATATCGTCTGG -CGTAATGCGATGACTATCGATAGCGCGATCCACGACATAACCCGTCATCAGCTTTGTCAGGCTGGCGGGA -TTGCGCTGTTGATGCTCATTACCCGCGGTGAGGATCTGACCGGTGGTGTAATCCATCAATACCCAGGACC -CGGCATGAATCTCTGGAGGCTGAGGTGAAAAAGGAATGTTTTCCGCCGCAAAACCAGACGATAAGTTAAA -AACGAACAAAGAAGCAGCAATAATAAGACGGCGTTTCAACAGCAAACCCTCAGGAGTTTCAAATAGCTGT -TCTTTTTACGGAAATACTTATGAACTGGCTGGAATAAAGTGCAAGAAAATGTGACTACCCTCTCATTTTT -ATCTGACATGATCTGTTGCCACTCGCTGCCAAATTGTGGCGCTAAAGCTGATTAGCACGGTGATATTTGA -TACTCTGGCAGACAGCAGAAATAACGGATTTAACCTAATGATGAATGACGGTAAGCAACAATCTACCTTT -TTGTTTCACGATTACGAAACCTTTGGCACGCACCCCGCGTTAGATCGCCCTGCACAGTTCGCAGCCATTC -GCACCGATAGCGAATTCAATGTCATCGGCGAACCCGAAGTCTTTTACTGCAAGCCCGCTGATGACTATTT -ACCCCAGCCAGGAGCCGTATTAATTACCGGTATTACCCCGCAGGAAGCACGGGCGAAAGGAGAAAACGAA -GCCGCGTTTGCCGCCCGTATTCACTCGCTTTTTACCGTACCGAAGACCTGTATTCTGGGCTACAACAATG -TGCGTTTCGACGACGAAGTCACACGCAACATTTTTTATCGTAATTTCTACGATCCTTACGCCTGGAGCTG -GCAGCATGATAACTCGCGCTGGGATTTACTGGATGTTATGCGTGCCTGTTATGCCCTGCGCCCGGAAGGA -ATAAACTGGCCTGAAAATGATGACGGTCTACCGAGCTTTCGCCTTGAGCATTTAACCAAAGCGAATGGTA -TTGAACATAGCAACGCCCACGATGCGATGGCTGATGTGTACGCCACTATTGCGATGGCAAAGCTGGTAAA -AACGCGTCAGCCACGCCTGTTTGATTATCTCTTTACCCATCGTAATAAACACAAACTGATGGCGTTGATT -GATGTTCCGCAGATGAAACCCCTGGTGCACGTTTCCGGAATGTTTGGAGCATGGCGCGGCAATACCAGCT -GGGTGGCACCGCTGGCGTGGCATCCTGAAAATCGCAATGCCGTAATTATGGTGGATTTGGCAGGAGACAT -TTCGCCATTACTGGAACTGGATAGCGACACATTGCGCGAGCGTTTATATACCGCAAAAACCGATCTTGGC -GATAACGCCGCCGTTCCGGTTAAGCTGGTGCATATCAATAAATGTCCGGTGCTGGCCCAGGCGAATACGC -TACGCCCGGAAGATGCCGACCGACTGGGAATTAATCGTCAGCATTGCCTCGATAACCTGAAAATTCTGCG -TGAAAATCCGCAAGTGCGCGAAAAAGTGGTGGCGATATTCGCGGAAGCCGAACCGTTTACGCCTTCAGAT -AACGTGGATGCACAGCTTTATAACGGCTTTTTCAGTGACGCAGATCGTGCAGCAATGAAAATTGTGCTGG -AAACCGAGCCGCGTAATTTACCGGCACTGGATATCACTTTTGTTGATAAACGGATTGAAAAGCTGTTGTT -CAATTATCGGGCACGCAACTTCCCGGGGACGCTGGATTATGCCGAGCAGCAACGCTGGCTGGAGCACCGT -CGCCAGGTCTTCACGCCAGAGTTTTTGCAGGGTTATGCTGATGAATTGCAGATGCTGGTACAACAATATG -CCGATGACAAAGAGAAAGTGGCGCTGTTAAAAGCACTTTGGCAGTACGCGGAAGAGATTGTCTAATTTGA -AGCCTCCGCCGCTGGTACGGCGGAGGACAATGTTGAGTCAGGCTTTTTGAACGGTGATGCTCCACGCTGC -ATCGCCAATCTGCTGATAATCGGTGATGGCATGTCCTTCTTCTGCCGCCCACTGTGGGATTGCTTCAGTT -GCCTGGGTGCAATCAAACTCAATCACTAACTCATCGCCGCTGACCATTTCTGCCAGAGCTGCTTTTGCTT -CTATGAGTGGAAACGGACAGACCTGCGTCACCACATCCAGCTTTTTAATCACCATCTTTACACCTTACTT -AATTTGCCGCAGCAGTTGCCAGTCGCGCCTTACGCTGCGGTCGAACATACACAAGCCAGGACGCAGTCCA -GACTCCGAGAATCATAAATACAAGGCCAATCCAGCCCTGCCAGGTCATCATTGCAGTCATAACCAGTCCA -TTACCGATAGAGCAACCACCTGCAATACTGGCACCGAAGCCCATCAGTACACCACCTAACCCGCTACGTA -ATGTTGTTTGTGCATCAGCTGCGCGAACGCGGAACTCACGGCTCGCTTTGGCTGCAATAAATGACCCCAC -GAAGATCCCTAACACCAGGAAAACGCCCCAGTTAATGTATTTCATGTCACCCGCGACCAGAAATTGCAGA -ATATTGGCCGTTGGGGAAGTGATTCCTAACCCAAACATGCGTCCGGTTGCTTCACTCAGGGGCCAGGCTA -AAAGCGCAATCAAACCGATGAGTACAGCTGTGACAAAGGGATGCCAGCGTTTTTCAAACAGAATATGAGC -GATCCCGGTTCGGCGCGGCGGTAAGGTCGCGACTTTGAGTTTTGGCTTCTTCAACTCTTTCATCACCACC -CAGAGCGTTATCACCAGCAAAACGGCAACCAACGGCCACACAGACAAATTAAAAGTCTCAGCAATAGAGT -TATGTTCAGTACTGTAGTGCTGCAAGGTTTGATTTAAACCACTGGCATGTGGAGAACGCATCACCGCACT -CATCACCATATAAGTGAAAAGCGCGATCCAACTGCCGATCAATCCCTCACCCGCGCGATACCAGGTCCCG -GTGGCACATCCACCCGCCAGAACAATTCCCAGCCCGAAGATATACCCACCTATAACAGTACCAAGCCACG -GGAACGCCCCGGCTTCGTAAGTCAGTAGGCCCGCCTGAATTAACGCAAAAACCCCCACGCTTTGTACCGA -AATTGCAATCAGCAAGGCGTAAAACATGCGATTATTTTTCACGATATACATATCGCGAAAACCACCTGTC -AGGCAAAAACGCCCACGCTGCATGACAAATCCCAGCAGAGCACCACAAATTAGCCCGCTTAATATCATTG -AAAACATAAATTAATTAACCAGATGAATGTTAATGAGGAAATTATTCATGACTGGTGGAATGCAGACCAA -TAACCAAATTCTCTAAATTAGAACAAATGGTTATTAATGAGGAGTTCGATACAAAAGAATAAAAAAACCG -GAGCCAAATGTTCATTCGACTCCGGTTTATTATTAGAAAAGATGATTATGCTACGTCTTCGTACTGCGGA -ACCGGATTACGGAAGCTCTTGGTGACGCAAGCCAGGTAAATCAGACCGATAGCAGCCCAGATCAGACCCA -GAACCATTGAGCTTTCTTCCAGGTTAACCCACAGCGCACCAACGGTCAGCGCACCACACATCGGCAGGAA -CAGATACTGGAAGTGATCTTTCAGCGTCTTGTTACGCTTCTCACGGATCCAGAACTGCGAGATGACCGAC -AGGTTAACGAAAGTGAACGCCACCAGCGCACCAAAGTTAATCAGCGCCGTTGCCATTACCAGGTCGAAGT -TGATTGCCAGCAGGGCAATCGCGCCAACCAGGATGATGTTCATCGCCGGAGTACGCCATTTCGGGTGTAC -ATAACCGAAGAAGCTTTTCGGGAATACGCCGTCACGACCCATTACGTACATCAGACGCGCTACGCCTGCA -TGCGCCGCCATACCGGACGCCAGTACGGTAATGGTGGAGAAGATCAGCGCGCCAACCTGGAACGCTTTAC -CCGCAACGTACAGCATGATTTCAGGCTGTGACGCATCCGGATCTTTAAAGCGAGAGATATCCGGGAAGTA -CAGCTGCAGGAAGTAAGTTGCAAAGATGAAGATCATGCCGCCGATCAGCGCGGTCAGGAAAATCGCACGC -GGGATCACGCGCTCTGCATCTTTGGTTTCTTCCGACAGGTTGCTGATGCCGTCAAAGCCGGTAAAGGAGA -AGCACAGGATTGTCGCCCCGGTAATCATCGGGATAACATGCGCATCGCCAGACCAGAATGGACGAGTGCT -CGCCAGCGTACCAGCGCCTTCACCTTCAAATACGCCATAAACAACCATGCCCAGAATCACCGCGATCAGC -ACTACCTGCAACACGACGATTACAGTGTTGAAGTTCGCTACGGATTTCAGACTACGCAGGTTAAAGGCGG -TCATAAAGGCCACCAGCGCCACCACAAACATCCACGATGGGATGGAAGGCACCAGAGCTTCAAAATAGAT -TTTCGCCAGTAGAATGTTGATCATCGGCGCGAACAGATAGTCGAGCAGAGAAGACCAACCCACCATAAAG -CCGACAGTCGGGCTAATGGATTTCTGGGCGTAAGTGTATGCAGAGCCAGCAGAAGGATAGCGGCGAACCA -GCTTCCCGTAGCTCAGAGCCGTAAACAGGATCGCAATCAATGCGAACGCATAGGCTGTCGGCACATGACC -ATCCGTGAGGCCTGAAACGATACCAAAAGTATCAAACAGCGTCATCGGCTGCATATAGGCAAGACCCATC -ATTACAACCGGAACTAACGTAAGCGTTTTACGCAATTCCACGCGAGAGGTGTTTGGAGTAACGTTATGCG -ACATGGTCATTCTCCTTTACGGTGATAACCGTCGCGTAAGCAAAAAATTGCCCCATTTTTTTGGATTCCT -CAGCGACAACAACTGTCGATTTTTAGTAAATATCTATCCGGTACGAAGCCCGGCCTCTTGGTATGAATGA -TTGGTTTGAAGCAAAAAATAACCGACGCTGATGAAACGTCGGTTTTTAGTCATTTTTTGACAGCGGCGCA -TTGTGCCTAAATGGGGGGGAAATGACAAGAGAATGAGAGGCTTGTCAGAATAATTTTTCTTTAAATGGCT -GATTTTCCGTCATCAGATTTTGCATAAACACCGGCGATCGCACTATTTGCTAAAATTTCATCCCGCCACC -AGCCACTGGCAAGTCCTGCGGTCTGTTCGTTCCAGCCAATCCAGACGGGTTCAAAGAGAGTTTGGGCGAC -CACTTTCTTCTCGATTAACGCGCCACTATCGAGAAAACGTTGCGCCAGATAACGGGGTAAATAGCCGCAG -CCGAGGCCGCTAATTTGCAGCTCCAGTTTGGTTTTAAAATCGAAAACGGTAATGGCTTCTTGTTCGTCGA -GAAGTTGTGATGCCGTAGAAGCGCCTGCCTGCGCAGTATCCCCCACCACAATCGCCCGATATCGCTTAAT -AATACGACGATTTAACGGCTCTTCTTCCAGGGCTAACGGATGATGAGGCGCGACCGCAAAGACTTGTTCC -AGATCGCCCAACCGTGAAAAACCAAACTCACTGGAAGATGGTGGCTCATGCATCGCGCCAACAATAATAT -CCGCTCGCCCCTGAGTCAGGGCATCCCATGAACCACCGAGTACGCCATTGATAAACTTCAGGCGCGTCAC -GCTATGATGTTGATAAAAAGCTTCAATGAGTGGCGCAAGCAGAGAAAAAGGAAACGTGTCGTCCACGCCA -ATCACCAGCTCGTTTTCCCAGCCTTCATGCAGTTTGATCGCCTGCTTTTCCAGTTCCCGCACGGTATGCA -GAACTTCCCGCCCTTTCTCTAATAACATTTTTCCGGTGCGGGTGAATTTAGCGCGGTGTCCGCTACGATC -AAGCAATTGAATATTAAGGTCGCTTTCCAGCTTGTGAACGGTGTAACTCAGAGCGGACGGCGTCTTGTAG -AGTTTGGCCGACGCCGCCGCAAAACTGCCTTCTTTTTCTAAGGCATCGAGGATCATCAACACATCCAGCA -GTGGTTTCATACACGCCCCCTTGCAGTGCATGCGGCGTCCTGCTGGCGTGATCGTTTACTCCAGCGGCAT -TACCAGCGGATCGGGATACTGGTATTCAAATCCCAGTTCATTACAAATCCGACTGCCATCAATAATCTTA -CCTTTGCCGCTGTCCAGACTATTTCTGAACTGCGGAGGTTCCAGCCCCAGTAAACGGGCCATCTGCGGAT -AGAAAACATTACGCGCAGGGTGAGCTGGCGCACATATATTATAGATGTGTCCGCCTTTAGGTGCCTGTAA -CAACAGAGTGATAGCGCCAATAACATCTTCTAAATGGACTAAATTAACACCATGTTCACCATCAGGCGCG -GTTTTTCCGGCAAAGAAGCGTCCGGGATGACGTCCCGGTCCGACCAGGCCCGCAAGACGCAGAATATCGA -CCGAAGTACCGGGTAAATTGTGCAGCCAGTCTTCGAGTTCTTCTAATACTCGTCCACTGTTGGTTACTGG -ATTACGCGGGGTGGTTTCTTTCACCGTGCCTTGCGCGTCGCCATAGACAGATGTTGAGCTGGTAAAAATA -ATGCGGGGAATACGATGGGCCAGCGCGCTATCCACTAACTCTTGTACCGCTTGTAAATAGAACTCATCGC -CGGGGCCGCTACGACGTGCCGGAAGCGTAATGACCAGCGCATCGGCATCCATCAGGGCATCCAGATCGTC -AGAATCGCAAACTAGCTCAGGCTCCATGCGAAGCAGATAGCTATCAATGCCACTCATTCGGGCCGCTTCG -ACACCATCTTGTGTGGTTTTACTCCCGGTGACTTGCCAGCCTCGCGCTGAAAGTGACATCGCCAGCGGCA -TGCCTAACCACCCTAACCCGACAATTGCGACCTTTTTCATCCGTTATCTCCTGATACACCTTAGATCTAT -AAGGCTACGCTAGCGTATCAAAACTGACAATTCATTCTATGAATGAATCTGTTCAATAATGATAACGACA -TGCTGCAATGAGCAGTGAATCGTCGGTAACCGCGTATACCAGACGGTGCTCCTCTGTAATGCGTCGGGAC -CAGAAACCTGACAAATTATGTTTCAGGGGTTCTGGCTTCCCCTTACCTTCAAATGGCGTTCTGCGGGTAT -CTTTGATAAGTTCATTGATCTTTTTAACAATTCGCTTATCTGTTTCCTGCCAGTACAGATAATCGTCCCA -TGATTCCTCAGACCAGATTAGTTTCACTCAATGATGTCCTTTTCCGTTCCTTTGCCTGATTTCAGGCTAT -CGATTGAGTCCATCAATCTCCGGGCGTTAGCGGGGGAGCGCAGTAGATAAGCCGTCTCTTCCAGCGAGTT -GTATTCTTCGAGTGACATCAGAACACAAGCCTCTCCATTCTGACGAGTAATAAGGATCGGGGCATGATCT -TCAACGGCTTTCATCATTGTTGCCGACAAATTCTGACGCGCTTCGCTGTAGCTAATTGTACGCATGTCAA -TCTCCTCTTTTGTACAGTTCATTGTACAATGATGAGCGTTAATTAACTATTTATTAATTAGTTTGTAGAT -CAAGGTATTGTCAGTGAGACGAAAATCCAGGCTTCGCTATTTTTGGTGCCATCAGCTAAGAGGACAGTCC -TCTTAGCCCCCTCCTTTCCCCGCTCATTCATTAAACAAATCCATTGCCATAAAATATATAAAAAAGCCCT -TGCTTTCTAACGTGAAAGTGGTTTAGGTTAAAAGACATCAGTTGAATAAACATTCACAGAGACTTTTATG -ACACGCGTTCAATTTAAACACCACCATCATCACCATCATCCTGACTAGTCTTTCAGGCGATGTGTGCTGG -AAGACATTCAGATCTTCCAGTGGTGCATGAACGCATGAGAAAGCCCCCGGAAGATCACCTTCCGGGGGCT -TTTTTATTGCGCGGTTGATAACGGTTCAGACAGGTTTAAAGAGGAATAACAAAATGACAGACAACACTCG -TTTACGCATAGCTATGCAGAAATCCGGCCGTTTAAGTGATGACTCACGCGAATTGCTGGCGCGCTGTGGC -ATTAAAATTAATCTTCACACCCAGCGCCTGATCGCGATGGCAGAAAACATGCCGATTGATATTCTGCGCG -TGCGTGACGACGACATTCCCGGTCTGGTAATGGATGGCGTGGTAGACCTTGGGATTATCGGCGAAAACGT -GCTGGAAGAAGAGCTGCTTAACCGCCGCGCCCAGGGTGAAGATCCACGCTACTTTACCCTGCGTCGTCTG -GATTTCGGCGGCTGTCGTCTTTCGCTGGCAACGCCGGTTGATGAAGCCTGGGACGGTCCGCTCTCCTTAA -ACGGTAAACGTATCGCCACCTCTTATCCTCACCTGCTCAAGCGTTATCTCGACCAGAAAGGCATCTCTTT -TAAATCCTGCTTACTGAACGGTTCTGTTGAAGTCGCCCCGCGTGCCGGACTGGCGGATGCGATTTGCGAT -CTGGTTTCCACCGGTGCCACGCTGGAAGCTAACGGCCTGCGCGAAGTCGAAGTTATCTATCGCTCGAAAG -CCTGCCTGATTCAACGCGATGGCGAAATGGAAGAATCCAAACAGCAACTGATCGACAAACTGCTGACCCG -TATTCAGGGTGTGATCCAGGCGCGCGAATCAAAATACATCATGATGCACGCACCGACCGAACGTCTGGAT -GAAGTCATCGCCCTGCTGCCAGGTGCCGAACGCCCAACTATTCTGCCGCTGGCGGGTGACCAACAGCGCG -TAGCGATGCACATGGTCAGCAGCGAAACCCTGTTCTGGGAAACCATGGAAAAACTGAAAGCGCTGGGTGC -CAGTTCAATTCTGGTCCTGCCGATTGAGAAGATGATGGAGTGATCGCCATGAGCTTTAACACAATCATTG -ACTGGAATAGCTGTACTGCGGAGCAACAACGCCAGCTGTTAATGCGCCCGGCGATTTCCGCCTCTGAAAG -CATTACCCGCACTGTTAACGATATTCTCGATAACGTGAAAGCACGCGGCGATGAGGCCCTGCGGGAATAC -AGCGCGAAGTTTGATAAAACCACGGTTACCGCGCTGAAGGTGTCTGCAGAGGAGATCGCCGCCGCCAGCG -AACGCCTGAGCGACGAGCTAAAACAGGCGATGGCGGTGGCAGTAAAGAATATTGAAACCTTCCACACTGC -GCAAAAACTGCCGCCGGTAGATGTAGAAACGCAGCCAGGCGTGCGTTGCCAGCAGGTCACGCGTCCGGTA -GCTTCAGTTGGGTTGTATATTCCTGGCGGCTCCGCCCCGCTCTTCTCAACGGTATTAATGCTGGCGACTC -CGGCGAGTATTGCGGGCTGTAAAAAAGTGGTGCTGTGCTCACCGCCGCCGATTGCCGATGAGATCCTTTA -TGCGGCGCAGCTGTGCGGTGTGCAGGACGTGTTTAACGTCGGCGGCGCACAGGCCATTGCCGCACTGGCG -TTTGGTACGGAATCTGTGCCAAAAGTGGACAAAATCTTCGGGCCGGGTAACGCCTTTGTCACCGAAGCGA -AACGTCAGGTGAGCCAGCGTCTGGACGGTGCGGCGATCGATATGCCCGCAGGCCCGTCGGAAGTGCTGGT -GATTGCTGACAGCGGCGCTACGCCGGATTTCGTGGCTTCTGATTTGCTCTCTCAGGCTGAACACGGCCCG -GACTCACAGGTGATTTTACTGACGCCCGCTGCTGATATGGCGCGTCGCGTTGCCGAGGCCGTCGAACGCC -AACTGGCAGAACTGCCGCGTGCCGAAACCGCCCGCCAGGCACTGAACGCCAGCCGCCTGATCGTGACTAA -AGATTTAGCGCAGTGCGTGGAGATCTCCAACCAGTACGGCCCGGAGCACCTGATCATTCAGACCCGCAAC -GCCCGTGAACTGGTCGATAGCATCACCAGCGCCGGTTCGGTATTTCTTGGTGACTGGTCACCGGAATCGG -CAGGTGATTACGCCTCCGGCACCAACCACGTTCTACCGACTTACGGTTACACCGCCACCTGTTCCAGCCT -CGGGCTGGCAGATTTCCAGAAGCGCATGACCGTACAGGAACTGTCGAAAGAGGGGTTCTCCGCGCTGGCT -TCAACCATAGAAACACTGGCCGCCGCCGAGCGCCTGACCGCCCACAAAAATGCCGTTACTTTGCGTGTTA -ACGCCCTTAAGGAGCAAGCATGAGCACCGTGACTATTACCGATTTAGCGCGTGAAAACGTCCGCAACCTG -ACGCCGTATCAGTCGGCGCGTCGTCTGGGCGGTAACGGCGATGTCTGGCTGAACGCCAACGAATACCCCA -CTGCCGTGGAGTTTCAGCTTACTCAGCAAACGCTCAACCGCTACCCGGAATGCCAGCCGAAAGCGGTGAT -TGAAAATTACGCGCAATATGCAGGCGTAAAACCGGAGCAGGTGCTGGTCAGCCGTGGCGCGGACGAAGGT -ATTGAACTGCTGATTCGCGCTTTTTGCGAACCGGGTAAAGACGCCATCCTCTACTGCCCGCCAACGTACG -GCATGTACAGCGTCAGCGCCGAAACGATTGGCGTCGAGTGCCGCACAGTGCCGACGCTGGACAACTGGCA -ACTGGACTTACAGGGCATTTCCGACAAGCTGGACGGCGTAAAAGTGGTTTATGTTTGCAGCCCCAATAAC -CCGACCGGGCAACTGATCAATCCGCAGGATTTTCGCACCCTGCTGGAGTTAACCCGCGGTAAGGCGATTG -TGGTTGCCGATGAAGCCTATATCGAGTTTTGCCCGCAGGCATCGCTGGCTGGCTGGCTGGCGGAATATCC -GCACCTGGCTATTTTACGCACACTGTCGAAAGCTTTTGCTCTGGCGGGGCTTCGTTGCGGATTTACGCTG -GCAAACGAAGAAGTCATCAACCTGCTGATGAAAGTGATCGCCCCCTACCCGCTCTCGACGCCGGTTGCCG -ACATTGCGGCCCAGGCGTTAAGCCCACAGGGAATCGTCGCCATGCGCGAACGGGTAGCGCAAATTATTGC -AGAACGCGAATACCTGATTGCCGCACTGAAAGAGATCCCCTGCGTAGAGCAGGTTTTCGACTCTGAAACC -AACTACATTCTGGCGCGCTTTAAAGCCTCCAGTGCGGTGTTTAAATCTTTGTGGGATCAGGGCATTATCT -TACGTGATCAGAATAAACAACCCTCTTTAAGCGGCTGCCTGCGAATTACCGTCGGAACCCGTGAAGAAAG -CCAGCGCGTCATTGACGCCTTACGTGCGGAGCAAGTTTGATGAGTCAGAAGTATCTTTTTATCGATCGCG -ATGGAACCCTGATTAGCGAACCGCCGAGTGATTTTCAGGTGGACCGTTTTGATAAACTCGCCTTTGAACC -GGGCGTGATCCCGGAACTGCTGAAGCTGCAAAAAGCGGGCTACAAGCTGGTGATGATCACTAATCAGGAT -GGTCTTGGAACACAAAGTTTCCCACAGGCGGATTTCGATGGCCCGCACAACCTGATGATGCAGATCTTCA -CCTCGCAAGGCGTACAGTTTGATGAAGTGCTGATTTGTCCGCACCTGCCCGCCGATGAGTGCGACTGCCG -TAAGCCGAAAGTAAAACTGGTGGAACGTTATCTGGCTGAGCAAGCGATGGATCGCGCTAACAGTTATGTG -ATTGGCGATCGCGCGACCGACATTCAACTGGCGGAAAACATGGGCATTACTGGTTTACGCTACGACCGCG -AAACCCTGAACTGGCCAATGATTGGCGAGCAACTCACCAGACGTGACCGTTACGCTCACGTAGTGCGTAA -TACCAAAGAGACGCAGATTGACGTTCAGGTGTGGCTGGATCGTGAAGGTGGCAGCAAGATTAACACCGGC -GTTGGCTTCTTTGATCATATGCTGGATCAGATCGCTACCCACGGCGGTTTCCGCATGGAAATCAACGTCA -AAGGCGACCTCTATATCGACGATCACCACACCGTCGAAGATACCGGCCTGGCGCTGGGCGAAGCGCTAAA -AATCGCCCTCGGAGACAAACGCGGTATTTGCCGCTTTGGTTTTGTGCTACCGATGGACGAATGCCTTGCC -CGCTGCGCGCTGGATATCTCTGGTCGCCCGCACCTGGAATATAAAGCCGAGTTTACCTACCAGCGCGTGG -GCGATCTCAGCACCGAAATGATCGAGCACTTCTTCCGTTCGCTCTCATACACCATGGGCGTGACGCTACA -CCTGAAAACCAAAGGTAAAAACGATCATCACCGTGTAGAGAGTCTGTTCAAAGCCTTTGGTCGCACCCTG -CGCCAGGCCATCCGCGTGGAAGGCGATACCCTGCCCTCGTCGAAAGGAGTGCTGTAATGAACGTGGTGAT -CCTTGATACCGGCTGCGCCAACCTGAACTCGGTGAAGTCTGCCATTGCGCGTCACGGTTATGAACCCAAA -GTCAGCCGTGACCCGGACGTCGTGTTGCTGGCCGATAAACTGTTTTTACCCGGCGTTGGCACTGCGCAAG -CGGCGATGGATCAGGTACGTGAGCGCGAGCTGTTTGATCTCATCAAAGCCTGTACCCAACCGGTGCTGGG -CATCTGCTTAGGGATGCAACTGCTGGGGCGGCGCAGCGAAGAGAGCAACGGCGTCGACTTGCTGGGCATC -ATCGACGAAGACGTGCCGAAAATGACCGACTTTGGTCTGCCACTGCCACATATGGGCTGGAACCGCGTTT -ACCCGCAGGCAGGCAACCGCCTGTTTCAGGGGATTGAAGACGGCGCGTACTTTTACTTTGTTCACAGCTA -CGCAATGCCGGTCAATCCGTGGACCATCGCCCAGTGTAATTACGGCGAACCGTTCACCGCGGCGGTACAA -AAAGATAACTTCTACGGCGTGCAGTTCCACCCGGAGCGTTCTGGTGCCGCTGGTGCTAAGTTGCTGAAAA -ACTTCCTGGAGATGTGATGATTATTCCGGCATTAGATTTAATCGACGGCACTGTGGTGCGTCTCCATCAG -GGCGATTACGGCAAACAGCGCGATTACGGTAACGACCCGCTGCCGCGATTGCAGGATTACGCCGCGCAGG -GTGCCGAAGTGCTGCACCTGGTGGATCTGACCGGGGCAAAAGATCCGGCTAAACGTCAAATCCCGCTGAT -TAAAACCCTGGTCGCGGGCGTTAACGTTCCGGTGCAGGTTGGCGGCGGCGTGCGTAGCGAAGAAGATGTG -GCGGCGTTACTGGAAGCGGGCGTTGCGCGCGTAGTGGTCGGCTCCACCGCGGTGAAATCACAAGATATGG -TGAAAGGCTGGTTTGAACGCTTCGGTGCCGATGCCTTAGTGCTGGCGCTGGATGTCCGTATTGACGAGCA -AGGCAACAAGCAGGTGGCAGTCAGCGGCTGGCAAGAGAACTCGGGCGTTTCACTGGAACAACTGGTGGAA -ACCTATCTGCCCGTCGGCCTGAAACATGTGCTGTGTACCGATATCTCGCGCGACGGCACGCTGGCAGGCT -CTAACGTCTCTTTATATGAAGAAGTGTGCGCCAGATATCCGCAGGTGGCATTTCAGTCCTCCGGCGGTAT -TGGCGACATTGATGATGTGGCGGCCCTGCGTGGCACTGGTGTGCGCGGCGTAATAGTTGGTCGGGCATTA -CTGGAAGGTAAATTCACCGTGAAGGAGGCCATCGCATGCTGGCAAAACGCATAATCCCATGTCTCGACGT -TCGTGATGGTCAGGTGGTGAAAGGCGTACAGTTTCGCAACCATGAAATCATTGGCGATATCGTGCCGCTG -GCAAAACGCTACGCTGAAGAAGGCGCTGACGAACTGGTGTTCTACGATATCACCGCTTCCAGCGATGGCC -GTGTGGTAGATAAAAGCTGGGTATCTCGCGTGGCGGAAGTGATCGACATTCCGTTTTGTGTGGCGGGTGG -GATTAAGTCTCTGGAAGATGCCGCGAAAATTCTTTCCTTTGGCGCGGATAAAATTTCCATCAACTCTCCT -GCGCTGGCAGACCCAACATTAATTACTCGCCTGGCCGATCGCTTTGGCGTGCAGTGTATTGTGGTCGGTA -TTGATACCTGGTACGACGCCGAAACCGGTAAATATCATGTGAATCAATATACCGGCGATGAAAGCCGCAC -CCGCGTCACTCAATGGGAAACGCTCGACTGGGTACAGGAAGTGCAAAAACGCGGTGCCGGAGAAATCGTC -CTCAATATGATGAATCAGGACGGCGTGCGTAACGGTTACGACCTCGAACAACTGAAAAAAGTGCGTGAAG -TTTGCCACGTCCCGCTGATTGCCTCCGGTGGCGCGGGCACCATGGAACACTTCCTCGAAGCCTTCCGCGA -TGCCGACGTTGACGGCGCGCTGGCAGCTTCCGTATTCCACAAACAAATAATCAATATTGGTGAATTAAAA -GCGTACCTGGCAACACAGGGCGTGGAGATCAGGATATGTTAACAGAACAACAACGTCGCGAACTGGACTG -GGAAAAAACCGACGGACTTATGCCGGTGATTGTGCAACACGCGGTATCCGGCGAAGTGCTAATGCTGGGC -TATATGAACCCGGAAGCCTTAGACAAAACCCTCGAAAGCGGCAAAGTCACCTTCTTCTCGCGCACTAAAC -AGCGACTGTGGACCAAAGGCGAAACGTCGGGCAATTTCCTCAACGTAGTGAGTATTGCCCCGGACTGCGA -CAACGACACGTTACTGGTGCTGGCGAATCCCATCGGCCCGACCTGCCACAAAGGCACCAGCAGTTGCTTC -GGCGACACCGCTCACCAGTGGCTGTTCCTGTATCAACTGGAACAACTGCTCGCCGAGCGCAAATCTGCCG -ATCCGGAAACCTCCTACACCGCCAAACTGTATGCCAGCGGCACCAAACGCATTGCGCAGAAAGTGGGTGA -AGAAGGCGTGGAAACCGCGCTGGCAGCAACGGTACATGACCGCTTTGAGCTGACCAACGAGGCGTCTGAT -TTGATGTATCACCTGCTGGTGTTGTTGCAGGATCAGGGGCTGGATTTAACGACGGTAATTGAGAACCTGC -GTAAACGGCATCAGTGAGTTGCGGGGTAAGCGGATGCGATATTGTTGCCGCATCCGGCAAAAAAACGGGC -AAGGTGTCACCACCCTGCCCTTTTTCTTTAAAACCGAAAAGATTACTTCGCGTTGTAATTGCGTAGAGCA -TTACGCCCCAGCACAATCCCCGCGCCAACCATGCCACCCAGCAGCACCGCCAGAATCAAGGTAATTGCCT -TTTTCGGGCTATCACGACGAATAGGTAACATCGGTTTCATCACATAACGGTAAGCATGAATATCAAGATC -ATCAACTTTTAAGCTTTCGATATCCAGCAGGTTTTGACGAGTCTGATAGTAGTTTGGCGAGAACACCAAC -GGACGGGTCGCCTCATGCTTAATCATCGACTCCAGCGCTTCGCTCCCCAAAAGGAACAACGTATCTTGTG -TGATATCTTCGCCAGTCTGTTGAATCTGCGGTTTTGTCACCTGCGCCTGATTCGCATACTGCAACGCTTC -CTGAATCTGACGGATACGCAGATCTTTCTGCTCCTGCGCGACTACTTCCTGCGTTCTTAAAGAGTCCTGC -AAGTTTTTCCGTCCCAGAGCAATGTTGTCTTTGAGATCCTTTTCTAGCTCTTGATTCACTTTATCGTCAA -CTTGCTGAATGTATTGGGCCAACTTCATTTGTGCGCCCTCTGCAGTTTGCCCAACATAAGAAACAGTCAA -TGGTAATTGCTGGTTCTTAACAGAAGGTTCGATGGTAAGTTTTTCTCGTTCTTCCTGATTATCCAGCGTT -TCTGCTAATGCAGAGAAGGCAGAACTGAAGCGACCAATTAACGTCTCCTGCAAATCCGATACTTTCGGTG -CAGCCTGACCATAGATAACATTCATGGCATTGTTATAGCCAGCAATTTGCCCCACGTCGGGCTGAGTGAT -AATTGCTGTTGACGTCCATTTCTCCTTCGCTACTGCCAAATATCCAATAGCCAGGGCAATAGCCACAATG -ACGGAAATGATGATTGTCATCTTGCCACGCCACAACTGCACTAGTAAATCAATCAAATCAATCTGTTCCG -GGTCATGGTTTTGCCCAGAAACATTATTATTTTCTACTCTCATCATTACCCTAACTGACGGAAATTTCCA -AGTCCGCATAGTTTAGCGATAATCCTCGTGAATGCTATAGGATAAGTGATAAAAATAATGAATTGTTGTG -TAAGTAACAAAAGACAATCAGGGCGTAAATAGCCCTGATAACAAGATGTTAGTCGCTGCCAAAGAGATCG -CGGGTGTATACCTTATCTGCCACATCCTTAAGCTCTTCTGCCATTCGGTTAGAGATAATGACGTCGGCTT -GTTGTTTGAAGGTGGCGAGATCACGTTCCAGGCGAGAGTTGAAGAATGAGTCTTCTTTCATCACTGGCTC -GTAGATGATCACTTCAACACCTTTCGCCTTGATACGTTTCATAATCCCCTGAATAGAAGACGCACGGAAG -TTATCTGAACCGCTCTTCATAATCAGACGATAAATACCCACCACTTGCGGCTTGCGTGACAAAATGGCAT -CGGCAATAAAATCTTTACGCGTGCGGTTAGCATCGACAATTGCCGAGATCAGGTTATTCGGCACAGACTG -GTAGTTCGCCAGTAACTGCTTGGTATCTTTCGGCAGACAATAACCACCATAACCAAACGACGGATTGTTG -TAATGGTTGCCAATACGTGGGTCGAGACAAACGCCTTCGATTATTTGACGGGAATTCAGACCTAAACTTT -CTGCATAGCTATCCAGTTCGTTAAAGTACGCCACGCGCATCGCCAGGTAGGTGTTTGCAAAAAGTTTAAT -CGCTTCTGCTTCAGTGGAGTCGGTAAACAGCATCGGGATATTTTGCTTAATCGCGCCTTCCTGTAACAGA -GCAGCGAAACGTTCTGCGCGTTCTGAACGCTCACCGATGACAATACGTGAAGGATGGAGATTATCGTAAA -GGGCTTTACCCTCACGGAGAAATTCCGGGGAGAATATAATATTTTCAGTGCGATATTTCTTATGCATCGC -TGCGGTAAAACCAACGGGAACCGTTGATTTGATGACCATAACCGCATAAGGATTTATCTCAACTACGTCT -TTAATTACTGATTCTACACTGGATGTATTGAAATAATTAGTTTTAGGATCATAGTCGGTTGGAGTGGCGA -TGATGACATAATCAGCATCCCGGTAGGCTTCATTTTTATCTAATGTGGCATTAAAGTGTATTTTATCTGA -TTGCAAAAACTGCTGAATTTCCTTATCAACAATAGGAGATATCCGATCATTCAGCATAGCAACGCGTGAC -GGTAAAATATCTAATGCCACAACCTCATGATTTTGTGCGATTAGAAGCCCGTTTGACAAGCCTACATAGC -CAGTACCGGAAATGGTGATTTTCATTTCATGCTCTCAGAATTAACTTAACTGTGAATCATGATGTTTTTA -GCATCCTGATAAGAGCTAAAAGTTTTAACGCTACGTTGTTCGATGGTCAACGCAACGAAAAACAATTCAG -ATTTTCTTTATAAGAATAGCTGATATTTATTAAGTTAATATTAAGCAGTGAAATTTAGTCTATAAGATAT -TTGGCAAAAAAAAGCCCGGTGCAATATACGCCGGGCCTCAATTTTATTGTTGGTTAAATCAGATTAATCC -AGCCATTCGGTATGGAACACACCTTCTTTATCAATACGCTTATAAGTATGCGCACCAAAATAGTCACGCT -GTGCCTGGATCAGGTTCGCAGGCAGAACAGCAGCACGGTAGCTGTCGTAATAGGCAACCGCTGCGGAGAA -GGTCGGAACCGGAATACCGTTCTGTACTGCATAAGCAACGACATCACGCAGCGCCTGCTGGTAGTCATCG -GCAATTTGCTTGAAGTACGGAGCCAGCAACAGGTTAGCGATCTGTGGATTTTCGGCATAAGCATCGGTGA -TTTTCTGCAGGAACTGCGCACGGATGATGCAGCCAGCACGGAAAATCTTCGCGATTTCGCCGTAGTTCAG -ATCCCAGTTGTACTCTTCAGACGCAGCACGCAGCTGAGAGAAGCCCTGGGCGTAAGAAACGATTTTGCCC -AGATACAGCGCACGACGAACTTTTTCGATGAACTCAGCCTTGTCGCCTGCTGGCTGTGCTTGCGGACCAG -AGAGAACTTTAGATGCGGCAACACGCTGATCTTTCAGAGAAGAGATATAACGTGCAAACACAGACTCGGT -AATCAGCGACAGCGGTTCGCCGAGATCCAGCGCGCTCTGGCTGGTCCATTTACCGGTACCTTTGTTAGCC -GCTTCATCCAGGATCACATCAACCAGGTAGTTACCGTCTTCATCTTTTTTGGTGAAGATATCTTTGGTGA -TGTCGATCAGGTAACTGCTCAGTTCACCGTTATTCCACTCGGTAAAGGTCTGCGCCAGTTCTTCGTTGGT -GAGGTTCAGGCCACCTTTAAGCAGAGAATAGGCTTCAGCAATCAGCTGCATATCGCCGTATTCAATACCG -TTGTGAACCATCTTCACATAGTGACCTGCGCCATCGGCACCAATATAGGTAACGCATGGTTCACCGTCTT -CAGCTACGGCGGCGATTTTGGTCAGGATCGGTGCTACCAATTCATAGGCTTCTTTCTGGCCACCAGGCAT -AATAGAAGGACCTTTCAGCGCCCCCTCTTCACCGCCAGAAACACCGGTACCGATGAAGTTAAAGCCCTCT -GCTGAAAGCTCACGATTACGACGAATAGTGTCCTGGAAGAAGGTGTTACCACCATCAATGATGATGTCTC -CTTTATCGAGATATGGTTTGAGGGAATCAATAGCAGCATCCGTGCCTGCACCTGCTTTCACCATTAACAG -GATGCGACGAGGCGTTTCCAGAGATTCGACAAACTCTTTCACCGTATAGTAAGGAACCAGTTTCTTGCCT -GGATTTTCGGCAATCACTTCTTCCGTCTTCTCACGGGAACGGTTGAAAATAGAGACGGTATAACCACGGC -TTTCGATGTTGAGCGCAAGGTTGCGTCCCATCACTGCCATACCGACTACGCCGATCTGTTGCTTGGACAT -TACATACTCCTGTCAGGTGTGATCACCGCGCTGAATGCTCGCGGCCTGGAATGTTCGCAAATAAGTATAC -AAAGTACTTATTAAAGTATAAATAGCTTATCCATGCTTATATGCTTACGGCTTTATATTACGGGTGAAAA -ACTGATGAAATTCGATCAAAGTTGCGATTTGATAAAATACGTTTTCTGGCTAAATATCTAAAAGTACTTT -TTAAGTGCCATCTGAAGGCTTTTGAAAAAAAACTTCGATTGTCATGATGAGCATAATGTATCGCATGAAA -AGCGGGAACATAATGAAGTCTGACACCAGCCAGGCTAAGCCTCAAGCACAGGTCAATATCTTCACAGTAC -ATAAAGTAACCTTGATCGAAGCCATTTACACGCACAAAATCTGAAAAACGTACCAGCATAAATGATCCTG -CGCACCAATCAACAACCGTATCAGAATAGATACTTTCTTTAGGAATTTTTGTTTTATTAAGGAAGGTGCG -AATAAGCGGGGAAATTCTTCTCGGCTGACTCAGTCATTTCATTTCTTCATGTTTGAGCCGATTTTTTCTC -CCGTAAATGCCTTGAATCAGCCTATTTAGACCGTTTCTTCGCCATTTAAGGCGTTATCCCCAGTTTTTAG -TGAGATCTCTCCCACTGACGTATCATTTGGTCCGCCCGAAACAGGTTGGCCAGCGTGAATAACATCGCCA -GTTGGTTATCGTTTTTCAGCAACCCCTTGTATCTGGCTTTCACGAAGCCGAACTGTCGCTTGATGATGCG -AAATGGGTGCTCCACCCTGGCCCGGATGCTGGCTTTCATGTATTCGATGTTGATGGCCGTTTTGTTCTTG -CGTGGATGCTGTTTCAAGGTTCTTACCTTGCCGGGGCGCTCGGCGATCAGCCAGTCCACATCCACCTCGG -CCAGCTCCTCGCGCTGTGGCGCCCCTTGGTAGCCGGCATCGGCTGAGACAAATTGCTCCTCTCCATGCAG -CAGATTACCCAGCTGATTGAGGTCATGCTCGTTGGCCGCGGTGGTGACCAGGCTGTGGGTCAGGCCACTC -TTGGCATCGACACCAATGTGGGCCTTCATGCCAAAGTGCCACTGATTGCCTTTCTTGGTCTGATGCATCT -CCGGATCGCGTTGCTGCTCTTTGTTCTTGGTCGAGCTGGGTGCCTCAATGATGGTGGCATCGACCAAGGT -GCCTTGAGTCATCATGACGCCTGCTTCGGCCAGCCAGCGATTGATGGTCTTGAACAATTGGCGGGCCAGT -TGATGCTGCTCCAGCAGGTGGCGGAAATTCATGATGGTGGTGCGGTCCGGCAAGGCGCTATCCAGGGATA -ACCGGGCAAACAGACGCATGGAGGCGATTTCGTACAGAGCATCTTCCATCGCGCCATCGCTCAGGTTGTA -CCAATGCTGCATGCAGTGAATGCGTAGCATGGTTTCCAGCGGATAAGGTCGCCGGCCATTACCAGCCTTG -GGGTAAAACGGCTCGATGACTTCCACCATGTTTTGCCATGGCAGAATCTGCTCCATGCGGGACAAGAAAA -TCTCTTTTCTGGTCTGACGGCGCTTACTGCTGAATTCACTGTCGGCGAAGGTAAGTTGATGACTCATGAT -GAACCCTGTTCTATGGCTCCAGATGACAAACATGATCTCATATCAGGGACTTGTTCGCACCTTCCTTAAT -CCCTAACATAAATGACACAATAAAATCAGAAAGCACAGGAAATTTTCTTACGGAATAATCATGTAAAGAT -TTCGCTTCATCTCGGAACAGGCATAATGTACTAAAAGCATAACGCTTACTTTCGACATATTTAATATATG -TCAGCAAATCATCATGCTTCATGATGATATCGGGATTCAAAAACAAAATGTAATCATCATCTGCGGGTCT -ATATTTTTCCTTTACATACGCCACCGCAATATTATTATTATGACCAAAGCCGTATACACCTCCACTAATA -TAGTCCAGGCCTGCATAATGCTGGCATATTTGTTTCAATAATAGAGAGTCTTTGTTGTCGCGTACGATAA -TCTTGTAGTGCTCATCGTCAGCATTAAGATTTTCGAGTAATTTTTTGATGTAGTCTTCATGTCCGTGGGA -AACGATTATTATATATACCATTTCAATGTTCTTCAGTAATAAAATTAACTAGTTCATCAAACCCAACTAA -TACATTTTCATTACGATAAATGAAATTTGCATCAGAGATATCTTTTTTGAGGTTACCTTTTTTGAAGTCA -ATAATAAGTTTAACTAACATGTCATCGTTATTAGAATCAAAAAAAGCTTTCTTTTCATAACTACCAAGAG -TTTCTCTAGTAAATGGGAAATCTGATGCTAATACCCACTTACCTCGCTCTTTAGCTTCAGACAACGGCAA -TCCCCATGTTTCTAACCTAGAGGGAAAACAAACTATATCTGAAATATTATAACAATGATCGATTTTTTCT -TTATCCAAGTACCCGAGGAAATGAACATTATCCAGTCCTTCTGCAAGACTGATAATATATTTTGCATACG -CATTTTCTGTACCACTGATAGTAAGCAGAAATTTAATATTGGATTGTTCTTTCAATTTCCTTGCTGCACT -AATAATAAGCTCGTAATTTTTAAATACTCGTGGAACAGCAGGGTAAAATATTGTCAACTCAGAAGGGTTA -TTCTTAAATTGAGAATCATCATCAGTAAGTTGGCTTTTATCAGATAATTTAATTTCTGGCCGACTGACAA -TGATGTTATTTATAGAATATTTCTTGATAAATTTTTCTTTCATCCAGAATTGTTGAACAAACACTGCAGT -ATTTTTTTTAATGTTTATTTTATATATCAGCCCGTATAGCATTTTAAATAAGAAAAAGCTAGGCTCCATA -AGAATTTCACGGAATAAAATTCCTTTATAAAAAGGTGCAGGGTTATGACAATACACATATCTTTTTTTAG -TGACGACATTGGCCGTAATATCATGCAGACAAATCCAATGCGTAGCATTCAGCTCTTTTGAAAGTTTTTT -ACAAACTACATATTCAAAGTGCAAACGTTTTAGCCACGACCCTTTAACCTCAGGAAACTCAATGAATTTA -ACCCATGGATAACTTTCTTTTAACTCTTTAGCAGAATGGACTAATGCGATAAAACTGACATTTTCTTTAT -TATTAGTTGCTGCCAAAAATTTTTTCAAAATGGTAAATGGACCGCCAGTGGTAAAATTGACCGCAGAAAC -AACGACTATGCTTTTTCCCATAATTTGGTCTCATGATTGTATTTCTTTATGATTTTTGCTGGTACTCCCG -CAATGACAGTATTTTCGGGAATAGAACCTCTAACAACAGAATTGGCGCCGACTACGACTCCATTACCAAT -AATTGTTCCAGGCAAAACCGTCACATTCTCACCCAACCAAACCCTCTGGCCAATTACAACAGCTGAAGAT -TCCAACGTGCGCATGTCTGGAGGTATATTTGGCGAACTCATTGGATCAGAGTGCTTAAAGGAACCGTGAT -TATGATCGGTAATAAATACTTTACTTGCAATAAGCGTATCCCGACCTATCGTAACGCTCTCAATTGAGGC -GATATGAACATAGTCGTTAACTTGCACATTATCGGAAAAAAAAATCACGCCACGTCCAAATGCATCCAGC -CTGAGACCGACTCCACTTGTGAAATTTTCACCAAAATTAATGCTACCATCATTGCGAATATAGCAGGGAA -ATCGAATAATTCTACAGTTCCGGTAAAATACACGAGTCAATAAGACATCTCTAACAAGCCGAATAAAACC -ACAGAGACCATATCGTTTAGCGAGTTTTAAGATCATCGATCACCTCTTCAAGAACATCCCTGAAGTAACT -TCCTGTTCGAATTTTCTGAGAAATAATTTTTGTATTCTCACTAATTTGCTTATAAGTTTCTATTGTCATG -GAGTCAACAATCTCTTGCATTTCTTTGATTGATCCCACTGCATATCCTATTCTATTATCTACAATGAAAT -CCGCAAGGGCGGCTTTATCCCATATAAATACTGGAAGTTCCATTGAAAGATAAAGAGATGTCTTATGAGG -GTTATTAAACTTTAAATAGTCGCCAAAGGCACCACTACAGGTTTCGACAGAATCTCCATCCCAAATGAGT -CCAAATTGCATGCCTGGGAGGTTAATCTTTTCCGGAGATTGAGCATCAAAACTTCCAAGATATTTAGGAT -TATCTTTATTTTCATAGTTGACACCAAAGAGAGTAAAATCGCATCCTTCAGTATATATGAAAGAACATTT -ATGCCTAGAAAGGTTGCCAGCATATATGACCCCTCGTTGCTTATCCGTAACATCTCGATGCTCCACATCA -GATGAGACGAGGTAATCAAATATTTTTATGTCTTTGATTTTATCCTGAGACATATATTTACTAAGGTACT -TTGTCATTTGTGGATTGTGACTTATGACCATATCACAGGTAGCAAGCCGCACAGAATCACTACCCCCTCC -TCCTCTTAATTCATCAATATCATGAATCAGAGGTACTATTCTAAATTTTAGAAGGCGGTGAAAGAATGAC -AATATATGCCAAAATGGTTTGGCCATCGGGAAATTGAAAATTAAAACATCTTTATTTTCAAGACCGCAGA -GAAATGTACTAAGCTTAACAGAACTAATAATTCTCTGGACTACTCCACCCCATAGAGGAATGTTAACAAC -AGAAATGTTTTCATAATCTGAAGCAATGTCCAGTGCATCTTTTCTTGCTTTAAATCCAGCATCGCGTCTA -GAGAAATTTAAATCATTCAAAAAATACATTTTCACTTTATTTTCTGGGCCTTAAGAAATTGAGAGAATAC -TATGATACAAAGAGTTATTTGTATCCAACTGCTAATATTAGTCATGAAGCTTTCATGATAAAAAATGAAA -GAAAAGGTATAAATAAAATATGAATAAAATATTTTCACAGATATGTAATTTCGAGACAATCTCCATAAAA -CACCTGAAATACAGCCATGAATAACCATCATCAAATAGCTTAGCTCCGCGGAAATATAAACATAATCCGA -AAAAGCAGTATAAACATTTGTTGGCAAACCCACCCACACAAATTCTTTATGCAACGACATAGAGACTCCA -CCTGTTAATAGCCCCATCAGCCTTTCAAAAAACCAAAAGACATGAGAACTGGCAGAGTTAGATACTTGCT -GAAAATAAAACTCCTGAAACGCGATTATAGGGCTGACCAAATACATGGATAGATAATATGCCATCCCCCC -AGGCAGTCCACGTAAAAAGAGCATATACAAGGAGAATAGAACACCTACAGCTGTAATAAGATAAACATAA -TGTTTTACTCTATTAACACCTACGATGAATGCATAAGAGATGATAACCATAAAGACAATTTGCTTACCAG -TATTCAGTATAATTGCAAAGATGAATACAATAAAAACAAGTAAAGTAAATGTTTTACTTACCTTTGTATT -AGTAAATTTTTTAGACCAAATAAATAAAGCAAAAGTAGTTAGAATGATTGGCTGCATGTATGCTGAGAAA -TTTCTTGATGTGTCTTCAACATCAGCATCTCTTATCAAATTCATATAGCTAAGTAAGCTAGTCCCGAACT -GGTAGTTACTTAACCTCATGCATATATATATCATCGAAAAAGAAATAACTAACAAGCCTACATTATGCAC -TTTCTTCGATGGTATGCTATAAATAGCATTATTGACTTTTCTGATATTTAGATCTAATACACTTTCCGTC -AATAAACATGACAGGGTAAATGTCAAAACATTGCAAAGTAGAAAAATCAACGTAGCGTCATTTAACTGAA -AAGCATATATATCTGACGTTATTTCATATCCCAATAAGACCAGTGCGAAGATGATATTAACGCATACGGC -TGGATAAAATATATCCTTCTTAAGATATAAACAGATAAATGCTGTAATGAGAAAGACACTAATTACAAGA -TAGATCATTAATCCGTACTCATTATATTTTTCACTTGATAAAGAGCGGCAGATATCACTTGATGCATATC -ATAATATTTATACTCGGCCAAACGCCCGCCAAATATAACCTTGTCTTCTCTGCTAGCTAACTCTCTATAT -TTCTTAAAAAGCTCCATGTTTTTATTATCATTAACTGGATAGTAGGGTTCGTCGCCAACTTTCCACTCTA -ATGGATATTCTTTTGTAACAACCGTATGCTTTGTCTCAACATAGTCAAAATGTTTATGCTCAATTATTCT -GGTATATGGTACATTAGCATCAGTGAAATTTATTACTGCATTCCCTTGGAAGTTTGGAAATTCATGGCGT -TCCGTCTCAAATTTTAAAGAGCGATATTCTAACGCTCCAAACCTATAGTCGAAGTACTGATCAATGGGTC -CAGTGTAGATGATTCTATGGGCTTTACTCGCTAGAGAATCTTTGTCTTTCAAAAAATCAATGCCTAATTT -TACGTCCACACCTTCAAGCATTTTTTCAATAAGCTTAGTGTAGCCTCCCACCGGAATACCTTGATAGCGA -TCGGAAAAATAATTGTTATCAAACGTAAATCTCACTGGGATTCGCTTAATAATAAATGCAGGCAATTCTT -TTGCACTTCTTCCCCACTGCTTCTCCGTATAACCCTTTATCAATGCTTGGTATAAGTCCTCCCCAACTAA -TGAAATCGCCTGCTCCTCCAAATTTTCAGGTACCTTGTCACCATACTTTTTTTTCTGAGCATTAATGATA -TTTTGAGCTTCTTGAGGATCTTTAACTCCCCACATTTGGTGGAAAGTATTCATATTAAAAGGAAGGTTGA -ATAATTTGTCTTTATAAATCGCCAGTGGAGAATTAGTAAAACGATTAAATTCTACTAAATCATTAACGTA -ATCCCATATATATTTATCATTGGTATGAAAAATATGTGCACCATATTTATGAATCTGGATACCCTCACAG -TCCTCTGTGTACGCATTTCCACCGATATGATTTCTTTTCTCAATCACTAAAACTTTTTTGTTTAGCTTTT -TTAACTCATTCGCACAAACGGCACCAAACAAACCAGAACCAACAATGATATAATCGTACATAAAATCCTC -AGCAAACCAGTAATTTATTATTTCTTACGAACATCAGCATGAGTGACGTAACTAAGCACTCTGTTGCAAG -CAATGTTATTGCTGCACCAATCTCTTTAAAAAGAGTTGTTAGCGGAAAAATCAACAACAAACTCAACAAA -CCCGCAGCGATTAAAATCTTACTGAATTCTTTCTTATAATTATGGGTCAGCATAACTTGAATGCCATAGA -CATTACTTAATGAAATAAGAAAAGGCAGAGGCGATATAATCATTAGCACAATCACTGCATTATCATATCC -CGGCCCTATACTTATTTTTACTAGTATAGATGCACCCAAGAGCAGAATTAATGAAAAAGCACCACCAATC -AAACTCAAGCAGGTCAATGATTTTTTAATTAAAATCACACCCTTCACACGATTAAGAACAAGCGTACTTG -ATATTCTTGGGTATATTGCTTGGGTGATAGGATTTAATAGCCCTTGAAGCGCGTTTCTTATAGTATTGGC -CGCATTAAAATTCCCTACGGACGTTGGTCCAGATATAAATCCCAGGATAATAACTATTCCCGTAGAATAT -AAACTAATAGCAGATGTGGAAATAAAAACATGAAAACCGTCTGCTAAAGATCGACGCACATTATGTAATG -ATAGCGTAACTTTACCAATCCAACCTTCATGAACAACGATAGCTAGTGCAATAATTCCAGCAACCAGATT -TGCACTTGACTGAATAAAACCGGCAATTGCTATATCTGACTTTGTGTTCACAAAAATAAATGTTAGAGGG -ATAATAGCCAAGCGGGATAAAATACTACTTAAAGTCAGCCATTTCATTTTTTCTTTTCCCTGAAACAGCC -AGATAGGGTAGATTAAATTCCCGACTAATGCAGGAACAAACGACCATATAATTACGGCATGCTTGTTATA -TTCAGGAACAAGCAAGGTCATCGACGTTAAGAAAATCAATGTAATGACGATAAGAACTATTTTTGAAAAT -ATCACCGCCCAAAAAATAGACGTTACTTTATCTTTACTATCTGCTGCTTTGGCAATACTCTGAGTTGCTG -TGAGATTGAAACCATATTCAACAAACATTATCATATATAGCATAGTCGCTTGGCAAAAACCGAATATACC -GAAATTTTCAGGACCAAGTGTTCTTACAAGATATGGAAATGTAAGCAATGGTAAAAGATAATTGCTACCT -TGAACGACAGCCAGATATATAACGTTTCTTCTTAAAGATAATTTATTCGTATTCATGCAATTAATTTTAA -TCTGATAAGCTCATCTAACGTAAAGAGCCTTTCATCTTTTGGCGAAAGGATTAACCCTGATGTTTGGGGC -CAATCAATTGCAATGCGTTCATCATTCCAACATATTCCACAATCGCTTTCAGGATGATAATAGTTTGTAG -TTTTATATTGAAATTCAGCGATATCAGACAGAACCAAAAAGCCATGAGCAAACCCTTTTGGTATCCACAA -CTGCTGCTTATTATCAGCTGAAAGCAGAACACCAACCCATTTACCAAAGGATACCGAATTGGGTCGAATA -TCAACAGCAACATCAAAAACTGCTCCATGAGTGCAGCGTACAAGTTTATCTTGTGCGTACTCGCCGCGTT -GAAAGTGAAGGCCTCTGAGTACATTTTTTGATGAACGTGAGTGATTGTCTTGAACAAAGCTGACCGGATA -GCCTAGAATATGTTCAAATGCTGATTGATTAAAGCTCTCATAAAAGAAACCTCTATCATCACCAAATACT -CTTGGCTCCAGAATTAGCACATCTTCAATTTCAGTTCTAATCACATTCATTAATTTGAATCCTTCGTCAT -TTTATAAAGATACTGCCCATAATTATTCTTTATTAGTGGTACAGCTAATTTTCTTACTTGCTCAACATCA -ATAAAACCTTTACGAAATGCAATCTCTTCAGGACAGGAAACCTTCAATCCCTGGCGCTCTTCAATTGTCG -CAATAAAATTACTTGCTTCTATCAGACTCTGATGAGTCCCCGTGTCCAGCCACGCGTAGCCACGCCCCAT -CATCGCGACAGACAGACGTCCCTGCTCAAGATAAATACGGTTAATATCTGTAATTTCTAACTCACCACGT -GCAGACGGCTTCAAGTTTTTCGCCATCTGAACCACGTCGTTATCATAAAAGTACAGACCTGTAACGGCGT -AATTACTCTTTGGTTCTAACGGTTTTTCTTCCAGACTGATTGCCGTACCGTTTTTATCAAACTCAACGAC -ACCATAGCGTTCTGGATCATTAACGTGATAGGCAAATACCGTTGCACCACTTTCTTTGTTAACAGCGGCC -TCCATTAGCTTCGGCAGATCGTGACCGTAAAAGATATTATCACCAAGAACCAAAGCACAATCATCACCAC -CAATAAACTCTTCACCGATGATAAATGCCTGCGCGAGGCCATCTGGGCTAGGTTGCACTTTGTACTGAAG -ATTCAGGCCCCACTGGCTACCGTCACCCAGCAATTGTTGAAAACGAGGAGTATCCTGAGGTGTACTGATA -ATCAAAATATCGCGAATACCCGCCAACATCAGTGTAGAGAGCGGGTAATAGATCATCGGTTTATCATAAA -TAGGTAATAGCTGTTTACTGACAGCCATAGTCACAGGATAAAGACGTGTACCAGAACCACCCGCTAAAAT -AATACCTTTACGCATTTTCATTTCATCATTCCTTTTAATTCATCTTGCTCCACCATCACGAACAAGATGC -AAAAACTATTAAATTGCTGTAGTCGTAAATAATTCATTGAGCATTCGTTTCACGCCAACCTGCCAGTCAG -GCAAGACAAGCGCAAAGTTCTGCTGAAATTTTTCTGTATTAAGGCGAGAGTTATGTGGACGACGAGCTGG -TGTAGGATAGGCTGTTGTTGGTACTGCGTTGAGCTTGTTGAGTGCAAGGGGAATGCCTGCTTTGCGCGCC -TCTTCAAAAACCAGCGCAGCATAATCGTACCAGGTTGTGGTACCACTGGCTACCAAATGGTACAAGCCTG -CGACATCCGGTTTATTCAGTGCGACACGAATGGCATGTGCTGTACAATCAGCCAGCAGTTCAGCACCTGT -TGGCGCACCAAACTGATCGTTAATAACCGCTAATTCTTCACGCTCTTTTGCCAGACGTAACATCGTTTTG -GCGAAGTTATTTCCTTTTCCTGCATAGACCCAGCTGGTCCGGAAAATAAGATGCTTCGCGCAATATTCCT -GTAACGCTTTTTCTCCGGCTAACTTGGTTTCACCGTAAACATTTAGTGGTGCGGTTGCATCCGTCTCCAG -CCATGGCATATCGCCATTTCCAGGGAAGACGTAATCAGTCGAGTAATGGATAACCCAGGCTCCAACTTCA -TTTGCTGCTTTCGCAATCGCTTCGACACTTGTTGCGTTAATTAATTGTGCAAACTCCGGTTCTGATTCTG -CTTTGTCTACTGCGGTGTGAGCGGCTGCATTGACAATAATATCCGGCCGAATGCTTCTTACGGTTTCAGC -TACACCTTCAGGATTACTAAAATCACCGCAATAATCAGTAGAGTGAACATCAAAAGCAATCAAATTACCC -AAAGGTGCCAGAGCACGCTGTAGTTCCCAACCTACCTGCCCTGTTTTGCCAAAAAGGAGGATATTCATTA -CTGGCGGCCCTCATAGTTCTGTTCAATCCACGATTGATAGGCACCACTTTTCACATTATCAACCCATTTT -GTATTGGACAGGTACCATTCCACCGTTTTACGAATCCCGCTCTCAAACGTTTCCTGTGGTTTCCATCCCA -ATGCGCGACCAATCTTCTCAGCATCAATAGCATAGCGGCGATCGTGTCCCGGACGATCAGCAACATAAGT -GATTTGCTCACGATAAGATTTCTCTTTCGGTACAATCTCATCCAGCAAATCACAAATAGTGAGCACTACA -TCGATGTTTTTCTTTTCGTTGTGCCCACCAATGTTATAAGTTTCACCCGCTTTACCTTCGGTTACGACGG -TATATAACGCACGCGCATGATCTTCAACATACAACCAGTCGCGGATCTGATCTCCTTTGCCATAAATAGG -TAATGCCTTACCTTCCAGTGCATTAAGAATAACCAGTGGAATAAGCTTTTCCGGGAAATGATAAGGACCA -TAGTTGTTCGAGCAATTAGTCACAATTGTCGGTAAACCATATGTACGTTTCCACGCGCGGACTAAATGAT -CGCTGGATGCTTTGGATGCGGAATAAGGGCTGCTTGGCGCGTAAGCTGTCGTCTCAGTAAATAAGGGTAA -TTCTTCTGTATTATTTACTTCATCTGGATGAGGCAAATCACCATAGACTTCGTCAGTAGAAATATGATGA -AAACGGAAGCTATTTTTCTTGTCGCTATCAAGAGCAGACCAGTAATTGCGAGCGGCTTCCAAAAGGACAT -AAGTACCAACAATATTGGTTTCAATAAATGCCGCAGGGCCTGTAATTGAACGGTCAACATGGCTTTCAGC -AGCCAGGTGCATCACTGCATCCGGCTGATGCTGAGCAAAAATCCGTGCCATTGCAGGTGCATCGCAAATA -TCCGCATGTTCAAAAACATAGCGTTCAGAATCAGAAACATCAGCAAGTGATTCCCGGTTTCCGGCGTACG -TTAATTTATCGACATTAACAACACTATCCTGCGTATTATTTATAATGTGACGAACTACAGCTGAACCAAT -AAATCCTGCGCCACCAGTAACAAGTATTTTCACTTAATTTATTCCATATTACTTCAGAGCATGCTGTGAA -ATAAGCGGCTCTCAGTTTGATTAATAGAGGTATTAATGCACGCTACCGCCCCTGGCTTTACAGCTACCAG -AGCACTGCATGCATGCCTATGATGTGACGAGCGTTACCCACTCGCGCTAAACCCGAAAAATTCAAACGCT -AATTGTCTTACCAATCCGCTCTGGAAACAAGGAAAATCCTGGAAAACTTTGAATAAAACCCTACTGCTAA -CTCGTTGTTATTCTGATGGTTTATATAAAACAACGGCAGGAAGATTCGCAACAAATTACTTTTGCTGCGA -ATTTTCACTGCCGTTATAATTTTCTTATCAACCGTTACATCCGGTCAGATTTTCATTATTCGCTTAACAG -CTTCTCAATACCTTTACGGAACTTCGCCCCTTCTTTCAGGTTGCGTAGGCCATACTTCACAAACGCCTGC -ATATAGCCCATTTTTTTGCCGCAGTCGTAACTGTCGCCGGTCATCAGCATTGCATCAACGGATTGTTTTT -TCGCCAGCTCGGCAATAGCATCAGTCAGCTGAATACGTCCCCATGCACCAGGCTGAGTACGTTCCAGTTC -CGGCCAAATATCGGCAGAAAGCACATAGCGACCTACGGCCATGATGTCTGAGTCCAGCGTCTGCGGCTGA -TCCGGTTTTTCGATAAATTCAACAATGCGGCTGACTTTACCCTCACGGTCCAGCGGCTCTTTAGTCTGGA -TGACGGAGTATTCAGAGAGGTCACCCGGCATACGTTTTGCCAGCACCTGGCTGCGGCCCGTTTCGTTGAA -ACGTGCAATCATGGCAGCAAGGTTGTAACGTAGCGGGTCGGCGCTGGCATCGTCGATCACAACGTCTGGC -AGTACCACGACAAATGGGTTGTCACCAATGGCAGGTCGCGCACACAAAATGGAGTGGCCTAAACCTAAAG -GTTCGCCCTGACGCACGTTCATAATGGTCACGCCCGGCGGACAGATGGACTGTACTTCCGCCAGCAGTTG -ACGCTTCACGCGCTGCTCAAGGAGTGATTCTAACTCATAAGAGGTGTCGAAGTGGTTTTCGACCGCGTTC -TTGGACGCGTGAGTTACCAGGAGGATTTCTTTGATCCCTGCAGCCACAATCTCGTCAACAATGTACTGAA -TCATTGGCTTGTCGACGATTGGTAGCATCTCTTTGGGTATCGCCTTAGTGGCAGGCAACATATGCATCCC -GAGACCCGCTACAGGAATAACTGCTTTTAAATTCGTCATTATTTCATCCACCTGTAAAATGGTTGCTGAA -TTATAGCTTGTTCGATTTTTTTCGCCAGCATCAATTACCCTGAATTGATTACTGAATTACTTGTGATGTT -ACGCCGCTTCGTTGTGGATTGCAGTAGCATTGTTCCTAAGTATGACTCCATTTTTCCAGGAATGGTCGCA -AATCTACTCCCTCAGTTCCGGCAATCTAAAGTTAATCTTCTCCACATTAACAATATGGTGATTAATCCTG -TCGATATCGACGGAGCTTTGTCCTTTTTCATTCACCGCATGAACATTTGCAAGAGACAGCAGTGTTTCTT -TTTTCGCCATAAAAACACCACGAACGTCTTTGCGCATGTCAAAGTTCATGCTCAATGCGGGTCCAACTGA -GGATTCCTGCATCACATTGATATTTCGCATAAAAAAATGTTGCGGTTTGTTGTGTAACTCCAGCGACGCA -CGCTTCATCTCAATGTTAGTTAGCGCCACAAAGGAAACAGCATTCCCGGCGGAGATTTGAATGCCGCGCA -ATTTATAAGCAAGATGAGTATTATCCAGTTGAATATCATTCACCCGGAAATTTTGCGGTATCGAGAGATA -TTTGCCTTTAATTACCCCATAGCCGATTAACATCCCGGCGCTATTAATCATTTCAATATTATCAATCACG -AAATTGTCACAACCGTAAATAGCGACTGTCGCGTTATCAATGCCCGCTTTCTTACTGAAATCCGGCGTGA -TATTGCGGGCTTTGATATTACGAATAACAAAATGTTTACCATTTTCAACATGTATCAACTGCCGACAATC -CGATCCCGTGATATTCGCCACGACAAAGTTTTTCACTGCCTGGTCTTCCGGGTAGTTGTTATCATAAGTG -CTTCCCGCAAGGCCTATGCCGATGCCCCAGTTGATTTTGCCGTTGGTACAGTTGATGCGCTCGATGACAT -GGTCAGATATCAAAATATCACGGTCGTTAATTGCCACGTTCCATTCAATGGCGTCGCCTTGTAAGTCGCT -GAACTTACAATTGGTGATGTTGGCACCGATAATCTGGTTATGAAATCCCTGGCGTAAGATGGCGTAATTA -GCGTGGCTAACGGTCAGGTTATCGATGATCAGGTTGCGCATGACCCGTTTGTTTTTGCCGCCGATATAAA -TCTGCGTCACCGGGCCAAAGCCGCTCATAGTCAGCCCTTTGATGGTGCAGTCAGAACCACGCACATCCAG -GGTGATGTTATGCATACTGCCGCCATCCTCCCCTGTCACCTGGCTGCCGTCCTGTAAGACAAATCGCCCT -CTGCCGTTGCCGCGCAAGCTTCCAAGAATGTGTAACGTTTTACCGGGAGGGATAAAGATGCCGGTGTTGA -TATTGTCACAAACCAATCCGGCAGGCACGACGACTGTTTGCCCTTCGCTGAAGGCTTGTTTAAATGAGGC -GATCCAGTCGTGTGGGTTGTAGTCGTTAATGTTAACGCTTTGTCGGGCGGGAAGCGCGCGGGCGAAAGGG -GTATGGAGGAAGGCAAGCGCCGAGCTTGCCGTCAGGAACGTGCGTCGGGAGAGTTTTTTAAATGGCATGC -GTTCTCCTCTATAAAGCCTGCAGCAAGCTGGCGAGTTCTCGATTGATCACCTGCTGGTTAAAATCGTGTT -CAACTTTTTCGCGCGCGCGTTTGACGACCGGAGCCAATTCGTCGGTGTCCAGTTGGCTAAACGCCGCCAG -TCGTTGCGCCAGTGCGCGAGCATCGTTCTCAGGCACCAGCCAGCCGGATTTGTCAGCCTCCACCAGTTCC -GGTATTCCACTATGCAGAGTAGAAACCACCGGAATACCGACCGCCATCGCTTCCATTAGCGCCACCGGAA -TACCTTCCATATCACCATCCGCACCTGTAACCGATGGCAACAGGAAGACATCCGCGTCGTCGAGCATCGC -TTTCACTTCATGGCTCGGTTTAAAGCCCGGCATCTCCACCACATCTTCCAGTTGATATTGTTCGATGAGG -GTGCGCAGGCGTCTTTCCCACGGGCCAATGCCGAGGATGCGATAGCGAAATGCCACGCCCTGCTCTTTCA -ACTGACGGCAGGCTTCGATCGCCACATGCAGGCCTTTTTTCTCGGTTAAGCGTGCGACGGAAATAATCTC -CAGCGGCGTTGCGGGCGCTTTCACGGGACGCGGGCTAAAGCGCGTCATATCTACGCCCATGCGCGATACG -GCGATTTTTTCCCTCGGGCAGCCCATTTTTTGCAGCCTTCCGGCCCACAGATCGCTTATCGGTAACATCA -GGTCGCCACGGCGAAACAGTTGCTGATATTCGGGAGTGTAGTGGTTGAGCACTTCCCGACTGGAGATATC -AATACCGTGGAAGATAGTGGCAATTTTGCCGCGAATGACACCCAGTTCGCGGAGTTTTGCTGCGGTTACC -CCCGCGGGACCAAAATGAGCGATGAACACATCGGCGCGAAACGGTGTTGCGACCTGGCCGCAAATGGCAG -ACAAAATCAGGTTCCGCGACTCGGCACCATAGCGTTTGAGGTTGAGCGCCTGCCAGGTATTTTTACGATG -AATGCCGCGCAAGGTCTGGCTGGCTCGGTGGCGCAGTTTCGCCACTTTGCCCGTAGGTTCGTCCTGTAAC -CAGCGGGTTCTGGCAGCAAGGTTGTATTTCGTCCATGCCGCGTGGGTGTTTTGTGTGTCGCCTTTTTGCA -GCGCGAGAATCTCTACCTCAAATCCCATATCAATAAACGCGGTAATTTGGTTAAGGACGAAGGTTTCTGA -CGACAGCGGGAATTTCAGTAAAAAGAAGCCGACCTTCATTTCACCTCCCCGATGCGCTCAAGCACAGACT -GCACCATCTGCATTCCTGTCTGACGCTCACGACTGACGGCTTCACTAAGTCGCGCATTCAGCGCCGGAAG -CTGGCCTAAGGTATCCGCAACCATCGCTTGCAGGCTGCCGTCTAATAAATGACGGATATCAATTGCCATC -TCCGGTAGTCCCAGCTGCTGCATAATCCCGGCGGATTTATGTTCGTAGTTGATGGCAATTGCCGGAGTGG -CAAAATTCATCGAGATAATGGCAGAGTGCAGGCGCGTACCGACGGTGAGTTCACAGGCCCCCAGAATTTT -GCCCATTTCCAGATCGTTGAGTTCATCCATCACTACGTGGTAACGGGCAGGATCGCTGATGTGCTGGCGC -AGGTTGAGCGCCACCATGCGGTCGTCTTTGTTATAGCTGTCAATGCCCGTACAGGTGGAGAGCGCAATCA -CCTGATACCCTTCATCGAGAATGCGATTGACCACCCCGGCAAAGGCTTTTTCATACGCTTGTTGAGTGGT -GCCGAGACGTTTGTCAAACGGTGCCAGTTCGCGCAGGGTAATGGCCACCGTTTTCTGTTGTGCGGCAACG -TCCAGCCAGTGTTGAACGGCATAGCTGGCGGTGAAGTCTTCTGTGTGGTGATCGACCAGCCACGCGGTAT -CGACGCCATGTTCCACTTTTGCGGTGGTGATATTGCTGCGTTTCATCAGATCAAAGCTGACCGATTCGCG -CAGGATCAGCGCGTCGCAGTGACCAAAAACGTAGTTCGCCAGTTGGTTAAATTGCTCATCCTGGAACGGG -CCAACACTGTGACCAATCATAAACAGCGGCTTTTTCGCCATAAACGTGCAAAGTGCATGTTCAAACTGCG -GCACGCCATAGAGATCGACAAAAAACGATCCGCCGACCTGGATAATGGCGTCGTAACCTGACAGCAGGCG -CACGAAGTCGGTGAATCCCTGGGCGATGGCGATATTGCGCAGCTTGCCAGTGTCGGTGACGCGTGAGAGC -AATACCTGATGCTGGTAGCGGCGACGGAGGACTTTTTTAACGCGCCCGACAACGCCCGCCGCGCTGTTGT -GTTGTTTCATTTGCAGGAACAGCGGATCGCCCATTACCGGGCGGTTGAGCAGCCAGGAAGAACTGACCGG -ATAGCGGCTCATCACATCCACTTCGGCGTGTGGATTGAGAATGTTGATGGCATCAAGTAAGCCGCGCAGG -ATGGCGCTGTCGCCACGATTGCCGCAAGTGTGGTTGCCCAGAATAAGTAATTTCATTTTTTCCTCATAAA -TTTGATGCCAGGTGAGGCTGCGTTTGTTTTGTTCGTTGCCGCTTTTTGCCTGATGCGACGCTGACGCGTC -TTATCAGGCCTACAAGACCCGAGCACAGAACCGTAGGACGGATAAGGCGTTCACGCCGCATCCGGCATTC -AGTGCCTGATGCGACGCTGACGCGTCTTATCAGGCCTACAGGTCCCGAGCACAGAACCGTAGGACGGATA -AGGCGTTTTACGCCGCATCCGGCAACCGTTGTCGGAACCGAAAACAGCAACTCACCCCGCCCGTAAAAGC -ATTTTCATTTTTTCGCTGCGACAAAACTGACGCTTCACTTCCACCACCAGCGGATGGCGCGACAGCACAA -TCATCACCACAAACGCCAGCACCCCCGTGGCTATTTGCACCGCCAGCAGCATCCCCAGCGCCAGTTGCCC -TTTCAGCACAATGCCCAGCGCATAACTGACCACCAGCGTCGGCAGCGAGAGATAAAACGGCAGCCATAAA -CTCAGGATGTACTGGCGATAACTGGAACCAAGAACCGGTTTAATCATCACGAAGTAACTCAGAATGGTGT -TGATAATTTGCACCAGCAGGAAGCCAAGCGTGACGCCGATCGCGCCCGCCATCTGCCCACCTATAACAAT -CGCCGGAATAAACAGAAATGTTTTGAATACGTTGAATTTAAAGCTGATATCGACCCGCGCTTTCGCCATC -AGCAGCGAACCAATCGGGTTACCTACGGAGCGCAGCAGACCCACCACACACAGCAATTGCAGCACCGGAA -TAATGCTGTTCCACTTCTCACCAAAGACCAGCGGTACAAAGTTATTCGACACCACCATTAGCCCGAGCAG -CGCCGGAAAGTTGATAATCCCCACTACCGACAGCAGCTTGTAGAAGTTAACACGCAGCTTTTCGGTATCG -TCCTGAATTTTGGCGAATGCCGGAAACAACACGCGGGTGATGATTGGGTTCAGCTTCATCGGTGGCACAA -CGGCCACGTTGTACGCCAGGTTGTATCCCCCTGCCACGCCCGCGCCGAGAATACGCGCCAGCACGAGCGT -TGAAAGGTTGGTATTGAGATAGTTGATGATGCTGTCCGCCGTCAGCCAGGCACCAAAGCGTAAGTTCGGT -GCCACCGACGCCAGCGAGAAATGCAGACCGGGGCGATAAATTTTGCGGCCAAAGTAGCCAAACAGCAGCG -TTCTCACCGCACTATTGACCAGATAACCGAGGATCGCGGTCATCGCCAGCGGCCAGAAATGGGCGCTAAC -CACCGTACAAGTGAAGCCCGCCAGCACCGCGCTGGTTTCGATCATGCCGATTTTGTTGAACTCCAGCTCT -TTTTGCATCAACGCGCGGAACTGTTGCCCGTGGGGGATTACCACAAACGCCAGCGATAATGTTTTAATCA -ACGGTGCCAGGTCCGGGTTATTCAGCACGTCGCCGATGAGATCACTCAACAAAAACACCGCCACGCACAC -CACGATCCCCAGCCCGACGTTCAGCCAGTACAACGTGGTGAGTTCAAGGTGACTGATTTCTTTTCGCTGA -ATAATCGAGTTAGCGATACCGAAGTCAGAAAGCGTATCTGCCAGCGCGATAATCACCAGCGACACGGTAA -GCAGGCCGAACTGGTGGTTGTCGATAATCCGCGCCAGCACGGTCATCTGCACCAGCCCGAGGCCGATGAT -GATCACCGTGGCAATCGCCGACCACTTCGCGCCGCTGATGGTTTTTTCACGTAAGCTCATATCAATATGC -CGCTTTGTTAACGAAACCTTTGAACACCGTCAGGAAAACGATTTTGATATCGAACCAGACGCTCCATTCG -CGGATGTACTCAAGGTCGAACTCGACGCGTTTTTCCATTTTCTCCAGCGTGTCGGTTTCGCCGCGCCAGC -CGTTAATCTGCGCCCAGCCGGTAATGCCCGGTTTCACCTTATGGCGCAGCATGTAGCCTTCAATGAGCTG -TCGATACTGTTCGTTATGCGCTACTGCGTGCGGACGTGGACCGACAATCGACATCCCCCCGGTCAGCACA -TTGATAAACTGCGGCAATTCATCCAGCGAGGTACGGCGCAGAAAGTTCCCCACTTTGGTGACGCGCGGAT -CGTTCTGCGTCGCCTGGGTCACCACTTTGTCGTTCTCCATCACTTTCATGGAACGGAACTTCCACACTTT -GATCGGCTTGCCATCCATGCCGTAGCGAGTCTGGCGGAAAATAACCGGCCCTGGTGAACTGAGTTTCACC -GCCAGCGCAATACAGCACAGCACCGGGGAGATCAGCAGCAGAATAAGCGTCGCCAGCACAATGTCTTCCG -CACGTTTGAGCAGGCGGTTAACCCCGGAAAGCGGCGTGTCGTAAAGCGGCACCACCGGTACGCCGTTCAT -CTCTTCGAGGCGTGAATGGAGAATGTTGAAGGTAAAGACGTCGGGGATCAGCAGCACCGAACAGGTGGTG -TCCGCCAGTTGATGGACCAGTTTTTTCACTCGCGCGCCGTCGCACATTTGCATCGCGATATAGACGTTAT -GAATCTTGCCCGCTTTCGCGTCCTCGACCAGCTGTTGCAGGTTACCCGCCCAGTCGTTAGAAACGCCGCC -CGGTTTCGGGTCGTGGTAAACGCCCACCACTTCAAACCCTAACCACGGCTGGTTACGGAAGCTCTCCATC -AGCATTTGCCCGGCGGCTAAATCCCCCGCCACCGCGACCATGCGCTTGTTATAGCCATGATTACGCAGCC -AGCCCGCCCCAATGCGAATACACGAACGGCAAACCACCAGTCCGATGCTGGTCAGCGCATACCACGCCAG -CCAGATTTTCAGTTGCGTGTCGAAATCATTGTTGAACGCCACCAGTCCGGCGCTGAAAATCACGCTTAAG -GTCCAGTTTTGTAGCAACAGGGCAAATTCTGTCGCTGCCCGAACACCGCGCCATGAGCGATAAAAATCGG -TGATGCCGCCCAGCATCTGGAACACCACCAGCGTAATCAGCGCCACCAACAGGTGCATGTAGAGGAATGA -CAGTCCGCTGACTTCGCAAACCAGCCATAGTCCGGCAAACATGATGGTGATATCTGAAAAGCGTTGCACC -ATAGAGATTAACGATGCATTGGTTTTCGCTCGCTCGCGCTTTTTTAGATTTGTCATCGTTGTTCCTGTTA -TTAGCCCCTTACCCGCAGTGGGGTAAGGGAAGATCCGACATTACTCGTTCAGCAACGTCAGCAGAGTTCG -CGTTCGCGCTTCCATCAGCGGCACATCACCGCGCGATTCCACATTCAGGCGCACCACCGGTTCGGTATTG -GAGGTGCGCAGGTTAAAGCGCCAGTCGGCAAAGGTCATGCTGATGCCATCGGTGCGATCCACCGCCAGCG -CCTCACGGCTAAAATGCTGTTCCACGCGGTTAATCGCCTCAACGGGTTGCGCCAGTTTGCTGTTGATCTC -ACCGCTTGCCGGAAACGCCGCCATCCGGTCGCGTACCAGTTCGCCCAGCGTTTTATCTTTCAGGCACACC -AGTTCGGCGACCAGCAGCCACGGGATCATGCCGCTGTCGCAGTAAGCGAAATCACGGAAGTAATGGTGGG -CGCTCATTTCGCCACCATAGATGGCGTCTTCCTTGCGCATACGTTCTTTAATAAAGGCGTGTCCGGTTTT -CGACATTACCGGCGTGCCACCTGCGGCAGTCACCACATCAACGGTGTTCCAGGAGAGACGTGGATCGTGG -ATGATCTTCGCGCCGGGATTTTTTTCGAGGAATGCTTCTGCCAACAGGCCGACAATGTAGTAGCCCTCAA -TAAACTGCCCTTTTTCGTCAAACAGGAAACAGCGGTCAAAATCGCCATCAAAAGCAATGCCCATATCCGC -GCCGTGTTTGATGACCGCATTGCGGGTGTCGTCGCGGCATTCCGGCAGTAGTGGGTTAGGAATACCGTTG -GGGAAATTGCCGTCCGGCGTGTTGTGCACTTTGATTAATTCCACGGGCGCGCCGAGGGCTTTAAAGCGGG -CTTCAATGGCGTCCACCACCGGACCCGCTGCGCCGTTCCCGGAGTTGATCACCAGCTTGAGCGGCGTGAG -GTTTTTGACATTGATATAACCGAACAGGTGATCAACGTAAGCGTCACGCAGGTTGATTTGCTGATAGCGA -CCGCGTTTGGTTTCATCGACGGGAGGAAAGTCGTTGGCTTCAGCCAGACGCTGGACGTCGCGCAGTCCGG -TATCTCCGCTGATCGGGCGAGCCCCCTCGCGAACCAGCTTCATGCCGTTATAATCCATCGGATTATGGCT -GGCGGTAACTTCAATGCCGCCATCCACGCCGAGATGGAACGTGGCGAAATAGATCTCTTCGGTGCCGGAC -ATACCAATATCCAGCACGTCAACGCCCGCATCCTGTAAACCTTTCGCCAGCGCCAGTTTTAAGGTTTCGC -TGGTGAGGCGGACATCACCGCCTAACACAATGGTTTTCGGTTTGAGAAATTCGCCATAGGCGCGACCAAT -GCGCCAGGCGATATCTTCATTCAGTTCTTCGCCTAATTTCCCGCGAATATCATAGGCTTTAAAGCAGGTT -AATTTTTTCATATCGTTACCCTTTTTCAGGCAATAGTTGGCCCTGACCGAAGCGGCCAATTTTATTTTTG -TCGTTATTTACACCGCGGTTTCGCATTCATTGCCTGATGCGACGTTTACACCCGTCCGTAGCGATCCGCG -AAACGCACCACATCATCCTCTTCGAGATAAGAGCCGGAGCGCACTTCAATTAAATCGAGCGGAATTTTCC -CCGGGTTTTCCAGGCAATGCGTCGCCCCCAGCGGAATATAAATGGACTCGTTTTCACCAAGCAGTTTGAT -ATCACCATCAATGGTGACTTTTGCCGTTCCCGCGACAACCACCCAGTGTTCCGCGCGGTGATGGTGCATC -TGTACCGACAAGCCCTCGCCCGGTTTCACGGTGATGCGTTTCACCTGGTAGCGGTCGCCCGCGTCGATAG -AGTCATATTTGCCCCACGGACGATACACTTCGCGATGCACCCGATGCTCATGGCGACCATCGGCTTTGAT -CTGCTCGACCACTTTTTTCACATCCTGTACCGCGTTACGGTCGGCAATCAGCACCGCATCTTTGGTCTGC -ACCACTACCAGATCTTTCACCCCGACGGTGGTGACCAGGCCAGATTCAGCATACACATAGCTGTTTTCAG -TTTTGTGATTAATCACATCGCCGTGGCAAACGTTGCCCTCGGCGGTGTGGGCGCTGATCTCCCATAATGA -AGACCAGGAGCCAACATCGCTCCAGCCCGCATCCATCGGCACCACAACAGCATCTGCCGTACGTTCCATG -ACCGCGTAATCCACCGACTCTTCCGGGCAGGCGAGAAACGCTTCTTCATCCACGCGAATAAAATTGAGAT -CCGGATCGACGGCGCTCATCGCTTTTTCACAGGCATCGAGGATATCCGGGCGATATTTTTTCAGTTCTTC -GAGATAGCGTCCGGCGCGGAACAGGAACATACCGCTGTTCCAGTAATATTCGCCGCTTGCCACATAGGCC -TGAGCGGTTTCCAGATTCGGTTTTTCGACAAACTGCGCCACTTCAAAGGCCACCATATCCTGCTCACCCG -CAGACACTTCACCGCGACGAATATAGCCATAACCGGTTTCTGGTAGATCCGGCACAATGCCGAAGGTCAC -CAGCTTGCCCGCTTCGGCATATGGCATGGCATTACGCACGGCGGCACGGAACGCGTCTTCATCGGCAATC -ACATGATCCGCCGCCAATACCAGCATTAACGGGTCGCTCTCCGGGCTATGACGTTTTGCCGCCAGCGCCG -CCAGCGCAATGGCAGGTGCCGTGTTTCGCCCTGCCGGTTCGAGAATAATGTTCTCGGTAAGTTTGTTCAG -TTGACGCAGCTGTTCCGCGACAATAAAGCGGTGCTGCTCATTGCAAATCACCACCGGGCTTTCGCACTCC -ACGCCGTTCAGGCGGCAGATGGTGGTTTGCAGCATGGTGAGATCGCCTTTCAGGCATAAAAACTGCTTGG -GATAAAGTACGCGGGAAAGCGGCCATAAGCGGCTACCGGAGCCACCTGCCATCACAACTGGATAGAGTTT -CGACTGCGCCATAATTATCCCCGAATATCATTTATAAATTGACGTAACACGTTCTCTTTATCGAGCGTGC -GTTCGGCATATTCACGTGCCACCGTGTTGTGTTTGGGCAGCAGGAGCGCCTGACGGATCCCCGCCACCAG -CGCCTCGACCGATTCCGGTTCAACGCAAACCGCAATGCCCGGAAAGGTTTCGCAAAGCTGCCCCAGTTCT -GTGTAGGCTTCAGCAGTAATCACCGCGTTACCGCCTACTGCCAGAATATTGGTCAGTTTCGACGGCAATA -CGGCATCTGCCGCGCCGCGTTTTTGCACCACCAGATGGCAATCGCCCATCTTCAGCAGTGCGGGTAAAGC -GTCATACGATTGCAGCGGGAAAAATTGCATGTTGCGCAGTCCACGCTGCTGCGCCATTTTTTCCAGCCGC -GCTTTGCCGCCGCCCTGCCCGACAATGGCAAAAATCAGCGGTTCATCGCGCAGACGATCGGCAGCTTCAA -TAACGTTTTCCAGCCCCTGCTTTTCACCAATATTGCCGGAGTAAAGAATGATTTTTTTGTTATCCGGCAG -GTCAAGCTGGTTACGAAGGGCATCAACATCGGCATCTGCAACATGCTGAAAACGGGCAATTTCCGACCAG -TTGGGGAAGAAGATGACGTTTTCCGCCGCCACGCCTTTTTCGATGGCTTTATTCATCATCGAACGCGAAA -TCGTGGAGACGTTATCGACGTTATGCAGTCCGCTACGTTCGAACGCCGTTGCCAGCTGTGCCACTTTGCC -GCCTTTGCCTTTTCCGGCAAGGCCCAGCCCCAGCATGGCGTCCACTTCGTAATCCTGAATATGCAGCACG -GTACGCGCACCAGAGAGTTTCGCCAGCAGGCGCATTCCCGGCGCGCAAAACAGCGTTGGCACCACGCCAA -TAATGCGATCCGGCTTCCAGCGACGTTGCGCCATCAGCGGAAAGAAACTGCTGACGGCAAAACTGCCCAG -ATGCAACAGGCGTTTCAGGGTGCTCGGCTGTTTTGGCACATACAGCGGGCAGCGCCACACCGTGGCGGCC -CCCTCTTCTCGTTTGTAGCGCCAGGCGGAATAGTTCTCGCCCACCTGCCATTGCGGGTAGTAAGGCGGTG -CGGTAATGACCCGCACCTCATGACCTTGTGCCGCCAGCCATTCCACCATCTCGCCGGTGTATTTGCCGAT -GCCGGTTAACTCCGGCGAGTAGTTAATGCCGTAGACCAGTATTTTCATAATCCGGGTACTCCGGTACGCT -TCTCAGCGAGAAAATAGGCGCGGCTGTTAGCATGAACATTATCACTGGCGAGCAGCGCGTCCGACGTCAG -CCAGCGGTAATCGTCATGCTGCTCATCCGGCAGTAACAGCTCTTCTTCCGATACTCTGAAGCGAAAACCG -AGCACCACATAGTGAGTGGTGAAATCCGTGCCAGAGAAGTTATCGTCATAAAAGTGCTGCCAGACACCGT -AAAACTGGCCTGCTGTTATCGGCAAACGCAGCCCCAGTTCCGCCATCGTCAGCCGCTCAAATGCGGCTTC -CAGCGTTTCGTCTTTCTGCACGCGCCCTCCCGGCACAAACCAGTAACCCTGCGCCGGGCGGTTGGTTCTT -TTGCCAAGCAGAAACTCGCCGCGACTGTTCTCGACAATAAAGTCGAGAGAGACAAGCGGAGTGGAGCGCA -CTACCGTGGCAAAGTCTTCCTGACGTAAAAACATCATTACCCCCGAAAGCGGTCTTGATTCTCAAGGAAC -CACTGGTAAGTGCTGGCAAGCCCCGCTTCCAGTGAGATTTCGTGATACCAGCCAAGCTGATGCAGGCGCG -TCACATCCAGCAGTTTGCGCGGCGTGCCATCCGGTTTGCTGGCATCAAAAACCACCCGGCCTTTGTAACC -CACCACTTTGGCGATGGTTTGCGCCAGCTCGCGGATAGTGCAGTCAACGCCCGTGCCGACGTTAATGTGC -GACAACATCGGCTGGGTGTTCTCCAGCCAGACTTCATGCGCCAGCTCCATGACATGAATGCTCGCCGCCG -CCATATCATCGACGTGCAGAAATTCGCGCATCGGTGTACCGCTGCCCCATACCACCACGTCCGGCGCATT -CTGTGCCGTCGCCTCGTGGAAGCGACGCAGCAATGCTGGGATCACATGCGAATTACTCGGGTGGAAGTTG -TCGTGTGGCCCGTACAGGTTGGTCGGCATGACTGAGCGGTAATCGCGTCCGTACTGGCGGTTGTATGATT -CGCACAGTTTGATCCCGGCGATTTTGGCAATAGCATAAGGCTCGTTAGTCGGCTCCAGCGTGCCCTGCAA -CAACTCGCTTTCTGCCATCGGCTGTTTTGCCAGTTTCGGGTAGATGCAGGACGATCCGAGAAACAGCAGT -TTGTTCACGTCGTTCTGATGCGCGGCGTGAATGATGTTGCTCTCAATCATCATGTTCTGGTAGATGAAAT -CCGCCGGATAGGTGTTGTTGGCAACAATGCCGCCCACTTTCGCCGCCGCCAGATAGACCTGGTCAATACG -TTCGCTGGCAAAGAAATCATGCACGGCGCGGCTGTCCAGCAGGTTCAGCTCGTCGCGGGTGCGTAATACC -AGTTCCACATCACCGCGCTGTTCGAGCTGCCGCCTGATGGCGGAACCGACCATCCCGCGATGACCAGCAA -TAAAAACTCGTTGTTTACTCATGCTTATGACTCCAGCGCGATCGCCACGTCGTAGCCGTGAGATTTCAGC -AGAGAGTGTTTTTTCGCCGCTTCGAGGTCATTAGCCACCATTTCAGACACCATCTCTCTGAGGGTGATTT -CCGGTTTCCAGCCCAGTTTTTCGTGCGCTTTGGTCGGGTCGCCGAGCAGCGTTTCAACTTCAGCCGGACG -GAAGTAACGCGGGTCAACAGCGATAATCACATCACCCGGTTTAACGCCCGGCGCGTCATGCCCGGTGACG -GAAACCACAATGCCCTTCTCTTCAACGCCCGTGCCTTCAAAGCGCAGTTTGATGCCCAGCTGTGCTGCCG -CCATTTCCACGAACTGACGCACGGAGTACTGAACGCCGGTCGCGATAACGAAATCTTCCGGCTGTTCCTG -CTGCAGCATCATCCACTGCATTTTTACGTAGTCTTTGGCGTGGCCCCAGTCACGCAGGGAATCCATATTG -CCGAGGTACAGGCACGACTCCAGCCCCTGGGCGATGTTGGCGATTGCGCGGGTGATTTTGCGGGTAACGA -AGGTTTCGCCGCGGCGCGGGGATTCATGGTTGAAGAGAATTCCGTTACAGGCGTACATGCCGTAGGATTC -ACGGTAGTTAACGGTGATCCAGTAGGCGTACAGTTTGGCGACCGCATACGGAGATCGCGGGTAGAACGGC -GTGGTCTCTTTCTGCGGAATTTCCTGCACCAGACCATACAGTTCAGAGGTGGAAGCCTGATAGAAACGAG -TTTTCTTTTCCAGACCGAGGAAGCGGATCGCCTCCAGCAGGCGCAGCGTACCCATCGCGTCGACGTCAGC -GGTATATTCTGGTGACTCAAAAGAGACCGCAACGTGGCTCATTGCGCCCAGGTTGTACACTTCATCCGGC -TGTACTTCACGCAAAATGCGCGTCAGGTTAGAGGTATCACTCAGGTCGCCATAATGCAGATGGAATTTCG -GGTTGCAGGTGTGCGGATCCTGATAAATGTGATCCACGCGCTCGGTGTTGAATGACGATGCGCGACGCTT -AATACCATGCACCTCGTAACCTTTTTCCAGCAGAAACTCTGCCAGGTAAGAACCGTCTTGTCCGGTTACA -CCGGTGATGAGAGCGACTTTTGACATGTATTATTCCTCTGTATTTTTGAATTTATTCAGTTTCAACGCGT -TCGCGTATCACCACTGCGGGATTCCCCCGGCAAACCACATTTGCCGGAAGCGATTTAAAAACACTGCTTC -GTGCACCCACGACGGTGCCGTCGCCGATTGTGACGCCTGGGGCAACAAAGACATCGGTTGCCAGCCAGCA -TTTCTCGCCAATCACAATAGGCGTGGCGTTAATGGTGAAATGTTGACTTGCATGGTCGTGGCTACCGGTG -CATAAATAACTTTTTTGCGATATCACCGAATGTGCGCCAATGGTTATTTCACCGAGGGTATATAAATTGA -CGTCATCGCCGACCCACGCGTAATCACCTAAGGTTAATTTCCACGGATAGGTAATTTTTACTGACGGACG -AATAACTACGTTTTTTCCTATTTTTGCTCCGAATAAACGTAATAAAAAAGCCCGCCAGCGATACAATACT -TGTGGCGACCAGGCAAATATTGTTGCCTGTACTGCCCACCATAATTGCACTTTAATAGCGTTGCCGCCCC -GGAACCCTTTCGGCACCGAGAAACCGCTTAAATCTTGCATTGGTTTTCCTTATATTCAGACTTTGTTATA -TAAGGCTTTCGTCTTTGAGGTAGTACGTTGGCGTAAATGCCAGGATAATTCAGCCCAAAAGCCAGGCACA -TGTAATATTTGTCGTTGGACTTTTTTCGCGTCAGCACACAATTCCATATTATTGGTGGTAGATACCCCAC -CCATGGAAAATTCAGACACCAGGCCATTGAGTTTTTTAAATGCATAACCGGCTTTATACATTTTGGCTGC -CAGCGCGTAGTCGGAAGAAACTTTATATTCCAGGTCATAACGCCATTTTTTCAAGCCGGATACAGGGAAA -AATATCGCCTGATGACTGGCGGGCAGGCTGTGATAAATATACCAGCCCGGTTTGGCGCTACGTTTAATTT -TATGCCCGTCGCCAAAATCCAGCAGCGCATCGCCGGTGATCATCACGTTATCTTTTTGCATTTTTAACTT -ACGGACAAAATTTGCGGCATTCTGATGAAAAATATCGCCCGAATTGAGAAACAACGCGAACTTGCCTTGT -GCCATCGCAATGCCTTTGTTCATGGCGTCGTAGATACCGTTATCTGGCTCGCTGACAAAGCGTAGGTTAA -AGATACCATTGAGATTTTCCAGATACTCACGGGTGCCGTCGTTGGAACCGCCATCGACAACAATCCATTC -GAAGCTGATATCTTCCACCTGCGCCAGATGCGCCAGCGAGGCATGTGTTTTGACTATCCCTTCGAGGTTA -CGAAACGCGACAGTGATTATGCTAAGCAACATGTTCTTATTCTTACCTCGTAATATTTAACGCTTTTCGC -AAAATAAACGGACAGACGATTAAAAATGCATATTCCGGGCTAAATATCGAACCGGTAAAAAACAGCGATA -CCGGAGTAAAAAGATATAATTGCACGCGAAAATTGCGGTTATCACCAAAAGCGTTGATCATCATTTTTAT -CACTTTCCCCATGTACCACAGTGATAAAAACACCGCGAACCAGGAAAAATAAATAATCAGCAGATACAAA -CCATTGTCTATGGTTTTTCCGACATCCGCACCGTTAAATATTCCGAATGATGCGACATATTCATAAAGTG -AGCCAAATCTGACTACACCGTCAATATGGGTCAAAGAATAACCGACCATCACCAGCGGACCGACAATACG -ATAATATGATGACGATCCTTCCGTACCTAAATCGCCCAGACGGGTGGAAATATAAGGAAACGCGATTACC -ACACCAACCAGGAATACAGCCAGAGAAATCAATGCTAACGGTAACTTTTTCTTAATCGCCTCTTTATTCA -GATATTGAAATGCCCACTCCAGCAAATAAAACAGGATAAAGGTCATAACCCCTGAAAACGATCCGGATAA -TATTATCCCTGCGAGAATCATAGCATCTGTTTTAGGCGTTTTGATACCAAACTGTTTGATGCTGAGCCAA -ATTGAGATTAATGCCAGAGCGAAAAATGCCGGTTCGAAATAAAGTGCTGTCGTGCGCTTGCCGCCGAATT -TAATGAAATTCAGCACATAGCTGTTGCTGTAAATCAGATATTTCGAAATCGACTCCATAATACTGCTGCC -ACCGGTGAGGATAATTTGTGCCATCTCCACCGCCGCCAGCGCCACCACCAGCCCGACCACCAGATAAAAG -AAACGTAATATCTTGCGATGGTTGTGTGGCGAAATTGTTTTAAAACGAATACTCCACACCATGCCAATAA -TGATCACAATATAGACAAACAGCATAGTTGAAGTGACGTATTTACTGGCATCCAGCGACTGACCAAACAG -ATAGTTAAACGCCGTGAGTCCCGCGCCAATCCCTAAGGCAATCATCAATTTTTTAACGCTGATGCGTTCT -AAAAACAGCAGTAACAAGACAGGTAAAAAAGTGACGATGGTGATGGGGAAACTTTCGCCAAGCTGGGCGA -TTTTGACGTTAACCAGCAGATAAATCAGCGGCAGCAACAGGTAGCTACAGATTCTGATAGAAGTTGACAT -ACTCCTCCAGCATCTGTTGTCCACTGTAGGCGGCGCGGCTGCGTTGGCTGAACTCAGCCAGCGTGGTACC -AAATATCGCCTGCGCGATTTCCGGTTTGCTTAACTGCACCAGTTGCAGCACCTCTTCTTCGCTGACGGTT -TTACCGCCGGATTTTTGCAACACTTCCCGCGCCGCATCGCTATGGGTGGCAATCACCGGCACGCCAATCG -ATAGCGCCTCACACAAAATCAGCGGGTAGTTATCGACGCGAGAACTGAATACCAGCGCATCCATCTGATT -GAGCGCGCTCATCAGCTTACGTTTGTCGGTTTCAAAGCCGTGATTAACCACGTTGCCAGCGGTGAACGGC -GAGAACTTACCAAAGGTATGCAGTTCAATTTTGTCGCCCAGCGCCATCATCTCGCGTACCAGTTGCTGGT -TAGTTTTGCCGTCGTAACGCAGATCATGCGCCACCACCGCGATTTTCGGCTTGCCCTGGGTTTCGCGCAC -CGGAGGCAAGTCCGCCAGAATCGCTTCAGTTGCCATATCAATGCCATTATTGATAATCCGGCAACGCCCT -GGACCGTACAGGCTATTGAAAGCGTCAGCCACATGCTGGCTGGGGGAAATAAACTGACAGCCCAGCGCCA -GCATCTCACGGAATAACTGGCGTTTGCCCGCCACCAGTTGGTGTGCGCGATCAATCTTCACCGGCGGATA -GTTATTTAAGGTCGGGCATTTCTGGCAGCCTGTTTTCCAGCCTTCGCAACCGTCGGTAAAGGCGCAGCGT -CCGGTAACACTCCAGTGGTCGTGCAGCGTCCAGACCAGAGTGACGTCCGGTTTATGGTTTTTCACTTTTT -CGCAAAAGCGCACCACGCTCTTAAGATTTAGCCAGTAGCTGTGCAGCACATGAAAATGCAGGACCACCGG -ACCCGCTGTGCGAGTAATGGTGCGATATAACTCATTGAAATTGCCAAACAGATCGCGATTAAACAGACGA -AACAGAGCAATATTCGCCATCGCGGTCATCCGCGGCGTATGTTTGATGACCTGCGGATAGTTCTGATGGC -TGACGCTCTCTTTGCCGCCTTTGCCGTAACCGTAGACAAAATGTGACGCCAGCCCCTGTTGCAGCGCACG -CTGGTGGAGATCTAACGCCACACCTGCTGCCCCGCCTTCCGCCAGTCGCACATTAAATTGCAAAATATTC -ATTTAATTACCTTCACTCGCGCTTTTTCTCCCACCACCAGCGCGTTGTCCGGGACAGAGTCGAGCACCAC -GCTGCCCGCGCCCACGGTGACGTTGTTACCAAGCGTGATATCACCAAGAATAATGACGTTGGCACCGAGT -TCGACGCCGTTGCCAATGTGTGGACATGCCATGTTATCGGCACCACGATTGCCGATAGTGACGCCGTGGC -GAATGGTAAAATCATCCCCCGCTACCACGTTTTTATTGATCACGACGGCGTAACCGTGATGGATAGTAAA -GCGGCGGCCAATGGTCGCGGCAGCCTGGATTTCATAACCGAAAAAGCATTCGGTGATAATGCGATACAGC -ACCAGCAGCGGGGCCGCCCACAGATTGTTGAGGACGTTCTTTTTGCGCCACACCGAACAAAAATGAGCAA -CACGATAGGCAAGAACCATGCAGCACGGGCGTAAACTCCAGCTGTTGGCGCGCAGATCTTCCAGCATCTT -TAGCGCCCCCGAATACCATCAGCCAGACGTTTGCCGTTACGCACCGACAGCAGCGTCAGCAAAGTGCGCC -AGGTCATACGTTTATTGCGGATCTGGTAGAGGGTAAACAGCTGATATTTTTTGCTGGCGCGGTCGAATTT -GTCTTTGTGCTTGCGGTAAAAGTGGAAGTACCCGGAGAATTTTTTCGGTGACGAGGTGATCTGCATTTCA -CCGTGATTGATATGCAGGATCTGCGTCGCCTCTTCTACTTTCCACGGTTCGCCGTACTCCACCACCATCC -GCAGGAAGATGTCGTAATCCTGTGCCGCTTTCAGTTCGGTATCGAACAAACACTCTTTGAAACGCCATGC -CCAGGTAAAGACCTGGTTGCCAATGATATTGCGTTTGTAGAACAGGCGGCGTGAATACGGCGATTTGGGA -TACAGCGGCAAGCTTGCCGGTTGGGAATAGACTTCGCCCTGGCAAACGTAGTCGTTAGCGTACAAAAAGG -CGTGTGTGACCAGTTGCTGTTTATGGGCGAGGAAGACGCTCAGACGGTTGGGTGTCCATTCGTCATCGTC -ATCAATCCCGGTGATATATTCCCCTTGCGCCAGCATAATCGCCTGGTTACGTACCGCGCACGCCCCGCTG -TTAATGTCGTTGTGAATGTAAGTGATACGCGGATCGTTGAGGGCGGTGACGTACTGTTGCAGTTGTTCCC -AGGAGGTGGAGCAATCATCCACGATGATCATCTCCCAGTTGCTGTAGTCCTGGCGCAAAACCGATTTTAT -TGCCCGAATCGCCAGTTGTTGGCGGTTCCAGGTCGGCATATAGATTGAGATCAGCGGATTGTTTTTCATA -GGTTGTTCTCCCGGCTTATGAGCTGGTTTGCTTGCCGGATGCGGCGTGAACGCCTTATCCGGCCTACGGG -GCGGTGCGAATGCAGGCGTCGTTATTTCGCATCCGACTTATATTCGTATTCGTAATAGCCATAATCCTGA -TACGCGCTGGCGCGGCGGAAGATGGAGTTCAGAATCACCCCTTTCACCGGAATACCGTTTTGCTCAAAGC -GGCTCAGACTGGTTTCCACTTCTTTCAATGTGTTGACCGCATAACGCGCCACCATTAACGTGGTTCCGAC -ATGACGACCAACAATTGCCGCATCGGTCACTGCCAGAATCGGCGGCGTATCAATCAACACCAGGTCATAG -TTTTTACTCGCCCAGTTCACCAGTTCGGCAAAGCGTTCGCTCATCAACAGTTCAGAAGGATTTGGCGGCA -CCTGACCGCGCGGGATCAGGTCAAATTTGGCAATAGAGGTCGGTTTAGCAGCGGTAGTAATATCGCCCTG -ACCAATCAGAATTTCCGACAGGCCATTAACGTTATTAGTGCCCAACAGCTCGTGGGTGTAGCCTTTGCGC -ATATCGCAGTCGATCAACAACACGCGTTTATTGGTCTGGCTGATCACCGCCGCCAGGTTGGCGCAGACAA -AGGTTTTACCAATTGACGGGCTAACCCCGGTCATCATCAACACATTGTTCTGTGCCTGCATCATCGCGAA -GTGCAAACTGGTACGCAGACTACGGATGGCTTCAATCGCCAGATCGGTTGGATTCCCCACCGCCAGTAGC -TGGCTCTGTTTATAGCGTTTAATCCCTTTGATGGTTTTGACGCTATCACGCGCTTTCTGCCATTCCGACA -GCGGGATGCTGGCATAGACGCTAATACCGTGTTCTTCCAGTACTTGCGGGCTTTCAATGCCGCGATTAAA -CAACGAGCGCAGCAGCACACCCACGATAGAAAGCATCAGGCCAAGGATAATCGCGCCGAGGATAATCAGC -CCTTTCTTCGGTTTCAGCACGCCAGGCTGAGTGATTGCCGGGTCAACAATGCGCACATCGCCGACGGTGC -TGGCCTCGGTGATTTTCAGCTCCTGCTCTTTATTCAGCAGTTGCATATAGACCTGCTGACCAGACTCGAC -ATCGCGGGTCAGACGGACAATCTCCTGCTGGGTTTTCGGCATCGCCGTTACGCGACCGTTAAGTTTGGCT -TTTTCGTCTTCCAGCGCCTGACGTTTCTCCAGCAGCGTGCGGTACGCCGGGTGAACTTTGGTGTACAGCT -TGGAGATTTCCGCCTCTTTAAAGGTCAGTTCGTTCAACTGCGCATCGATGTTCACCATCGAATCGAGCAC -CGCTTTTGCTTCCAGCGGCAGATCAACAGAATCTTTATCCTGACGGAAGGCATTCAGTTTGTTTTCGGCA -ACATCCAAGCGGCTACGTACTTCCGGTAACTGTTGCGCGAGGAAGGCGAGGCTTTTCGACGCTTCCGCCG -ATTTGCGCTCAATATTTTGTTCCTGATAGTTACGGGCGATGCTGTTAAGAATGTCGCGGATCTGTTCACG -ATCTTCACCGGTATAAGTCAGGCTCAAAACGCCAGCGTCTTTGCCGTTCTCCGTTACCGTCAGGCTGTTT -TGCAGTTGGTTGATCATCCCCAGCGTGGAGTATTTGGTGACGGTAAACTCACTGCCCGGGCTGGCGTGAA -TGGCTTCAACCATCAGCGTGACGCCTTCTTTTTTCAGCATCTGGCCCGCTTGCCCCCGGGCGCTAAAGCC -GCCGTCGCTGCTCAGGGTGTAGTTTTTGTTGTCCAGCACATTAAGCGTAAACACCTGATCCGCCATCTCT -TTCGGGCGGTTAAAGGTGGTCACTTTCACCGTCTCGTTCTGACGTCCCATCAGGCGATCCCAGCCCGCAC -CGAAAATCGGGAACGTGTTTTTGCTCACTGCAATATCGAGGTCGAGATCGTCCACCGTTTTACCAAGCAC -CAGACGCGAACGAATCAACTGGATCTCGGCGTCCGATGCAGGCGGTTTGTTGGCTAATGCCGAACCAATG -TCCTGCACTAACGAATTGCCGCTGTTTTGCTCGATTTGTACCAGTGCGTCGGCACTATAAATCGGCGTGG -CGAAGAAGGTGTAAACCACGGCACAGAGGGCGAATACGGTGGTGATGCCAATCACCCACCAGCGCGCTTC -AATGACGGTGCCGACCAGGCGACCAATATCGATTTCATCACTGCCCGTTACCGGAGCGGCATGTTGTTTT -ACTTTTTCTGTCATTCTTATACCTGCTCTGCGTTCAATGCCTGCGCCCACTGGCGGGCAGACCGTTCAAG -TAATGTGTACACCGCTGCAAACGTTTCCCGGCTTTTGCGATACGGATCGGGGATTTCACATTCGTTATCC -CAGTGACCAAACAGCATCACTTTGCCGCGCATCTCCGGTGCCATCTCGCATAAGCGTTCGATATGGCGCT -TTTCCATGGTCAAAATCAGGTCGTAGTTGCGACACAGACGGCGGCTGATTTGACGGGCACAGTGACCTTC -CAGAGACAGTTGATGTTCTGCGGCGACGCTGATAGCGGTAGGATCAGCGCCCTTACCGACCAGCGCGCCG -AGTCCAGCGGACTCCACTTTCAGCTCCGGGTGATAACGTTGCAGTAAGCGTTCCGCCGTCGGGGAACGGC -AAATATTGCCGACACAGACAACTAAGATGTTGTTAAACATGACGATTACCAGTTATGAATGTCGCTGGCT -GTATCCGTCATGTAACGGACACCGCTAATAGTTGGCAGCAACTGATTGATCAGACGGTTCCAGCGGGAAA -CCGGGGCGGTGGTGACATACACCACGTCATAAGGTTGCAGGCGGAATTCTGTCGCCATCACCAGCGACGT -GGCATCGGACATATCCAGCTGGTAGATATTGGCAATCTTGCCGTTACGCCCGCCCTCGCCTTTCAGCGGA -CGAATGACAAAGATGCCGCTGGCGTTGGAGGTGGTCATGTCGATGCCTTCAGCATTGCCCAGGGCTTCAG -TCAGGGTCATGCCGCTAAAGTCCATTTTCAGGGTGCTCTGTTTCTTCACTTCACCCATCACAAATACTTT -CAGATCATCATTACGTGGCACGTAGAGAATATCGCCGGGGTAAAGCAGGCGATTCTGGTTGAGGTCGCCG -TTTTGCATCAGCGCCTGCAAAGAAATGCGCTCTTCACGACCATTGTGTGTTAGCACCACGTTGCGCCAGT -CAGCGGTGTCGGTCAGGCCACCTGCGGCGTTGATGGCGTCGAGAATAGTCAGTGGCACGTTGGTGATCGC -CTGTTGACCGGATTTATTCACCTGACCGGAGATATAGGCCTTTTGTGAGCGGAAGGCGGCGATATTAACG -TCCACCTGCGGGTCAGCGATGTACGTCGCTAAGCGCCCGGTAATATCACTGCGGATTTCAGCGAGCGTTT -TCCCGACTACGTGGACCTTGCCGATATACGGGTAAAACATAGTGCCGTCAGGCTGTACCCAGTTGCCGGT -GTCGCTGGAGCTGCGGTACTGACCGGCTGGCGTGGTGAGTTCCGGGTGATCCCAGACGGTGACATTAAGA -ACGTCCCCCGGCCCGACGCGATACTGGTAATTCGCGATCTCACTTTCCAGCGTCATATTGGGGCGCGCTA -CATTCGGGCGTGGGCGTAATTGGTCAATCAGGCGCGGGGTCAGCGGATAAACATTCACCATTTTGTCGAG -ATCGAAATCAGCGTCCTGCTGTTTGATGACGTCTTTGCCCATCGTCGACATATTGCTGCCCGGAAGTACT -GTGCAACCGCTTATCAAGGTTACTGACACCAATAATGGCATCAATTTCATTTTGGATTTCATCATTGTTT -ATTTATCACTTTGGCAGAGTAATTATCCTGTGCACTATTAATAGCAATGTCGCCATGCACATTTACCTTG -CAGTTAATTGAATAAAAATTTAACTGGCATCAGTCCTAAAAAAATTGATTTCATCCGCAGGCTATTGACA -GAATAATTCAGACTGGTCTTTCAGGCATCCAGACACGCTACCGCCCCTGGCTTTTTAGCTACCAATACAC -TGATTTAGTTTAATTTTTCACACCCTCTCAGCATGCAGTCGTTGATGAGAAAGGGTTATTACGGAAATTA -ACTTCCGAATATAAGGTGACATTATGGTAATTGAATATTGGCTTTCCAATAATGCAGGAGGAAGTGTTAC -AGCTAACGGAATAGCAGGCAAGATAACAATTCGGTAATTGGCTATTTTTAAGAATTATATTAAGTGTCAT -TCAATATGGTTTTTAGGAGTTTCTTTAGGTTGACAATATTTAATATAGTGTCTCCACATGCGATATTTCT -TAAATAATGTTTTATTATTACCACTTTTAATTCAGGGATAATGTGAGGTTATTACCCTCAAATAATATGA -GATAAATAGTGCTGCAACATTGCATTTTTGCCCCGATTTATCCATGATCGAATTGTGACATTTGTCATAC -AACGAATAGGTTTTGTACTTACTATGGAATGGATTGCCGATCCGTCTATCTGGGCCGGGTTAATCACGCT -GATTGTGATCGAACTGGTCCTCGGCATTGATAACCTGGTCTTTATTGCCATCCTCGCCGAAAAACTACCG -CCGAAGCAGCGTGACCGCGCACGGGTTACCGGGCTGCTGCTGGCAATGTTAATGCGCCTGTTACTGCTGG -CGTCAATCTCCTGGCTGGTCACCCTGACTCAACCGCTGTTCAGCTTCCGCTCGTTTACCTTTAGCGCCCG -CGACTTAATCATGCTGTTTGGTGGTTTCTTCCTGTTGTTCAAAGCCACGATGGAGCTGAACGAACGGCTG -GAAGGGAAAGACAGCAATAATCCCACACAACGCAAAGGTGCGAAGTTCTGGGGCGTGGTGACGCAAATTG -TGGTACTGGACGCCATTTTCTCACTCGACTCAGTGATTACCGCCGTCGGGATGGTCGACCATTTACTGGT -CATGATGGCCGCCGTGGTTATCGCTATCAGCCTGATGTTGATGGCCAGCAAGCCGTTAACGCAATTTGTT -AACAGTCACCCGACGATCGTTATTCTCTGCTTAAGCTTCCTGTTGATGATTGGCTTTAGCCTGGTGGCAG -AAGGTTTCGGCTTCGTCATTCCGAAAGGCTACCTGTACGCTGCCATTGGTTTCTCGGTGATGATCGAGGC -GCTCAATCAGTTGGCTATCTTTAACCGGCGACGTTTTCTTTCCGCTAACCAGACGCTGCGCCAGCGGACT -ACCGAAGCGGTAATGCGCCTGCTTAGCGGGCAAAAAGAAGATGCGGAACTGGACGCCGAAACCGCGTCCA -TGCTGGTGGATCATGGTAACCAGCAGATCTTTAATCCGCAGGAACGGCGGATGATTGAGCGGGTACTTAA -TCTTAACCAGCGTACCGTCAGCAGCATTATGACGTCGCGCCACGATATTGAGCATATCGATCTCAACGCG -CCGGAAGAAGAAATCCGCCAGTTGCTGGAGCGAAATCAGCATACGCGGCTGGTGGTTACCGACGGTGATG -ACGCAGAAGATTTGCTCGGTGTTGTTCACGTTATCGACCTGCTACAACAGTCTCTGCGCGGCGAACCGCT -CAACCTGCGGGTGTTGATTCGCCAGCCGCTGGTGTTCCCGGAAACCTTGCCGTTGTTACCTGCCCTGGAG -CAGTTCCGTAATGCCCGCACGCACTTTGCTTTTGTGGTGGATGAGTTTGGCTCGGTGGAAGGGATTGTGA -CATTAAGTGACGTCACTGAAACCATTGCCGGTAACTTACCGAACGAAGTGGAAGAGATCGACGCCCGCCA -TGATATTCAGAAGAATGCGGACGGTTCCTGGACGGCGAATGGTCATATGCCGCTGGAGGATCTGGTGCAA -TATGTGCCGCTGCCGCTGGATGAAAAACGTGAATATCACACCATTGCCGGGCTGTTGATGGAGTATTTGC -AGCGTATTCCAAAACCTGGCGAAGAAGTTCAGGTGGGGGATTATTTGCTTAAAACGTTGCAGGTAGAAAG -CCATCGCGTGCAGAAGGTGCAGATTATACCGCTGCGTAAGGATGGCGAGATGGAGTACGAGGTGTGATGG -TATCGGTCATTTTACCCAATAGCCGAAAGGAATAAGATGAGGGAACCGCGCCATCGGCGATTTACCGCCG -GGAGCCCGGGTTGCCAGGGTGGTGGAGATTGAGCCACCCTGGCACGTTCACCGGCTTGAGCGTTCCATAG -TAGCGAGGAACATCAAGTGAACGGAACAGCCTTCGATCTTACATATTCAGAATATAATGATGCCGCCACG -AACGCCTGATGCGACGCTTTACGCGTCTTATCAGGCCTACAGGACTGGTCACCTGGTAACCTACATCTTC -TCCAGCAACTTCTTCACATCTTTGCCATTACGGGAATCTTTATTCCGCTCGGCCCAGTCATTCAGGCGAC -GTTTCGCTTCGTCCTGTAGATGTTTGCGCAGTAACTGATCCACTTGCAGGCTGTAATTGAGTTGCTGCCA -GTTGCCATAAACCCGCAGCGGTACTGGCGTTTCTTTCAGGAAATCAATCAGTTTGCTTTCCCCGTTCCAG -CCACCCACGACCCGAATATCAAACTGGGTGTCGCAGGTTTGATCTGCCAGATTCAACATGCCTTCCCCTG -TCAGCGCCAGCACAGGCGATTGACCTTGCATGTCGTTTAACGTCACGACGCCATCCTTCAACGTCAAATC -GGTGGTAAAGCGGTCAAGCCGCGTCACGTTATCAAAGTTTTCAGCGGCCTTCACATCACCGCCATTACGC -TCTACCGCTTGCTGAATCATCTGCTGGAAGTTCATCCCTTCCATGCGCGTGTCGGTCATTTCGACATGTG -CCTGTCCTTGCCAGTTGTGGCGGAATGCGTCGGCATCTATGTCAGCACCGGAGAAATCACCAGCCAGTGA -CATTTTTCCGGTCAACGAAATCGGATAGTTAAACGCCTTCAGAATGGTACCAATCTCAACGTTTTCCAGC -CGTGGCTGGAAGTTTATCCGCGGATTTATTGATGTCGCGTCCAGCGTGCCCGGCAGTGAAACCTGTCCAC -CGTTAAGTTTGCCCTGCAGTTGAGTAATTTCCAGCAAACCCGACTTGTTGGTCATTTGCGTGGCAACATC -TGTAAAATTCATTCCGCGCCAGCGCACGTTACTGGCCTGCAACAAAATATCAGCCGTAAAGCCTTGCAGT -CCCTGATAGGCCGGTTCATCAATACGCGAAGAAATGACCGGGCGCGGCAACGTTGATTGGCTCTGCCCCT -GCTGCGCGGCACCGTTTTCACCATTCGCGGTTTCATTAAGCGGGATGAGGTTGTCAAGATTCAGTTGCGG -GAATTGCAGCCTCAGCTGCCATTCCGGTTTCTCTGTCAGCGTAACCTGTGCTTGCCCGCTTAGCGTACTA -TCATTGGCGGTCAAACTAATTTGGTTAAATGAAAGGCGTTTATGTGACTCCTGCCACTGGGCCTGGAAAC -TCCCCTGCCCCTGAATACCTTGTTTTGGTAAATCGGCACCCTGCAACTGCCAGTTAATTTGTTCAATAGC -CGCCGTTAAATCATGCGGATAATCAGAAGCATCTACCGTACCGTTAAGGGATATCGTGAGATCGCGCTGA -TCGCGATTAACCCGCCCGGAGAACTCAAATGAACCACGATGTTGGGGATCTTGTTCCATTTGCAGGCGAA -TATTGCGGATTGTCACCTGCTCGTCATCTTCATGCTGGAACACCAGCACGCTGTCCGCCACCTTAAGACT -GGATATATCAAACGACCATCCGCGATCGTCTGACAGATCCGGCAAGGTATTGTCGCGCGGTGCAACCGGA -GCGTCTTCACTGCGCACCGCTTCCGTCTGCGGCGTCAGTTGGATCACTGCCCCTTTTAGCATCACCTGCT -TAACGCTCAGTTGATGACTCAGTAGTGGTAAAAGCGCCACGTCCAGACGCATGTTGTCGGCGCGAACCAG -TGGCTGGCTTGCGCCCTGGGCGGTGAGAGACATTCGCCCGGAGAGGATACTAAGCTGCGGCCAGACGTGC -CAACGCAGTGGCCCGTCGAGCTGCAATTGATAACCGCTACGTGCAGCAACTTGCTTGACCATATAGTCGC -GGAAATCATTCGGATTCACCAGCAACACTAACGCAGATAACCCGGCCACCAGCACGACCAGGAGTATCAT -CAGCGTCGTCAGAAATCGTCTCATGGTATCCTCAATGGGCCTGAATTAGTCTTTATCGATTCGGCTGGCT -ACCGCGCCCTGCTGGTTGCGATATTTCGCATCTTCACGGCGGTTGTAAGGTCGCACCGCCGGGCCGGAAA -GCGGCTCAAAGCTCAGCGCACCAATTAACATGCCCGGACGCAGCGCCAGCGGCAGCTTACCGGAGTTGTA -GAACTCCAGCACAATGCAACCAGACCAGCCCGGATCGATGCGGTGCGCGGTGACGTGCACCATCAGCCCC -AGACGCGCCAGTGAGGAACGCCCGTCCAGCCAGCCCACCAGATCGGCTGGCAGCGTCACCGACTCCAGCG -TCACCGCCAGCGCCAGCTCTCCTGGGTGAAGATAGAACGCCTCGCCCTCGTCGAGAACGATCTCATCGCT -CATCACGCGGTCAAGCGCGGCGCTCACTTCATCTTTGGGACCGCTCAGATCGATAAACGCTGCCGTGTGA -CCACGGAAGGTACGAAATTTATTGCCCAGGCGTACATCCACCGTCGCGCCGTTAATACGCTCCACTGGCG -GACGTGGGTTGATCGACAAACGGCCTTCATCAAGCCAGGCTTCAATATCTCGGTCACACAGACGCATGGC -ATTTTCTCCTTTCGCGCATCACTCCCTTAACGCCAATTACGTCAAGGGCATACTAGGTTATCACTGAACG -GTACACAATTTATCAAGCTTATTCAAAGAACTGACTTATTTTCGCTTTCAATATATCGATCGCGATGCGG -TTTTTCCCGCCGCGCGGCACGATAATGTCCGCATATTGTTTAGAAGGCTCAATGAATTGCAGGAACATCG -GGCGCACGGTTTTTTGATATTGCGCCATCACTGAATCCATTGAACGCCCACGCTCGTTAACGTCACGCTT -GATGCGGCGCATCAGGCAGATATCCAGCGGGGTATCAACGAAAATGGAGAAGTTAAGTTCGTCACGCAAA -CGCGCATCCGTCAGCAACAAAATGCCTTCGAGAATGATGACCTTCTTCGGCTCAACCGTCACCGTTTCTT -TCATACGCGTATGTTCAACATAGCTGTAAACCGGCAGGTCAATTGCCGAGCCGCGTTTCAACGCTTGTAA -ATGCTCAAGCAGCAGACTGTGATCCATCGCGCTGGGATGGTCGTAGTTGGTCTTAACGCGTTCTTCCATC -GACAGATGGCTTTGATCTTTGTAATAGCAGTCTTCGGGAATTACGCCGATGTGTTCATCACCGACTTGCT -CACGCAATTCACGATAAAGGGTACTGGCAATAAGACTCTTGCCGGAAGCCGATGCGCCAGCGATACCGAT -AATGACGCACTGATGAGACTGATCAGTCATATATTTAGCGACCTGATTAACCTGGATGTTAGGAAGGGGG -CGACGAAGCGCCAAACGCGGCAATTATAGGGATTTCATCCGTCTGATACCAGTCGAATAGCGTTGCCGCG -CGCTCAGAGTTAATTGTTGACAAAGAATTCCCGGGGGCAAATTACGTTGATCAGTTTTATGTAAGGTAAA -AAATGTTAAACGCAGTTGCGCAAATTATCCGCCTTTACGTCACTTTATGAGCAATTCGCATATAAAATGT -AAAACTTTTGTACTAGCATAAACACAGAAACGAATACTGGCGACCAGGTCTTGCGGATAAAGCGGTAATG -AGCAAACAATCACAGCATGTATTAATTGCCCTGCCCCACCCGCTGCTTCACCTGGTCAGTTTAGGTTTAG -TCTCGTTTATCTTTACCCTTTTCTCGCTTGAGCTTTCGCAGTTTGGCACCCAACTCGCCCCACTGTGGTT -CCCGACGTCCATCATGATGGTGGCGTTTTATCGCCATGCCGGGCGCATGTGGCCGGGAATTGCGCTGAGC -TGTTCGCTGGGAAATATCGCCGCATCCATCCTGCTTTTTTCCACCAGCTCGCTGAACATGACCTGGACGA -CCATCAATATTGTTGAAGCCGTGGTCGGGGCAGTGCTGCTACGTAAATTGCTGCCGTGGTATAACCCCTT -GCAAAATCTGGCTGACTGGCTGCGTCTGGCACTCGGCAGCGCCATTGTTCCGCCTCTGTTGGGGGGTGTT -CTGGTTGTCCTGCTGACGCCCGGAGACGATCCTCTCAGGGCATTTTTGATATGGGTACTGTCAGAATCCA -TCGGCGCTCTGGCACTGGTGCCGCTGGGATTGTTATTTAAACCACACTATCTGCTGCGCCATCGCAACCC -ACGGTTGCTTTTTGAGTCGCTGCTCACGTTAGCCATCACACTGACGTTAAGCTGGCTTTCGATGCTGTAT -CTGCCGTGGCCTTTTACTTTCATTATTGTGCTGTTGATGTGGAGCGCCGTGCGTCTGCCACGAATGGAAG -CCTTTTTGATCTTCCTTACCACGGTGATGATGGTGTCGCTGATGATGGCCGCGGATCCCTCCCTGCTTGC -TACGCCGCGTACGTACCTGATGAGCCATATGCCGTGGCTACCGTTTTTGCTGATCCTGCTGCCCGCCAAC -ATCATGACCATGGTGATGTATGCCTTTCGTGCGGAACGCAAACACATTTCCGAAAGCGAAACCCACTTTC -GGAACGCGATGGAATATTCCGCTATCGGTATGGCGTTAGTGGGCACCGAGGGACAATGGCTGCAAACCAA -CAAAGCGCTCTGCCAGTTTCTCGGGTACAGTCAGGAAGAGCTGCGCGGACTCACCTTTCAGCAACTGACC -TGGCCGGAGGATCTCAATAAAGATCTCCAACAGGTTGAAAAGCTGATAAGCGGTGAAATAAACACCTATT -CAATGGAAAAACGCTACTACAACCGCAATGGCGATGTTGTCTGGGCGTTGCTTGCCGTCTCACTGGTGCG -CCACACGGATGGCACGCCGCTCTATTTTATCGCTCAGATTGAAGACATTAACGAGCTAAAACGCACCGAA -CAGGTCAATCAGCAACTGATGGAGCGCATCACTCTGGCTAACGAAGCGGGCGGGATTGGCATCTGGGAGT -GGGAGTTGAAGCCGAATATTTTTAGCTGGGATAAGCGGATGTTCGAGCTGTATGAAATTCCTCCACATAT -CAAACCGAACTGGCAGGTGTGGTACGAGTGCGTGCTGCCGGAAGATCGCCAGCATGCCGAAAAAGTGATT -CGTGATTCGTTGCAATCACGCTCGCCCTTTAAACTGGAATTTCGCATTACCGTAAAAGACGGTATTCGCC -ATATCCGCGCCCTCGCCAACCGGGTACTGAATAAAGAAGGCGAAGTCGAACGTCTCCTCGGCATCAATAT -GGATATGACCGAAGTGAAACAGCTTAACGAGGCATTGTTTCAGGAAAAAGAGCGCCTGCACATTACGCTT -GATTCCATCGGTGAAGCCGTGGTCTGTATTGATATGGCGATGAAAATTACCTTTATGAATCCAGTGGCGG -AGAAGATGAGCGGCTGGACGCAGGAAGAAGCGTTAGGTGTTCCGCTCCTGACGGTGTTGCATATTACTTT -TGGCGACAACGGACCATTAATGGAGAACATTTACAGTGCCGACACCTCACGTTCCGCGATCGAGCAAGAT -GTGGTGTTGCACTGTCGGAGCGGCGGCAGTTACGACGTGCATTACAGTATTACGCCGTTAAGTACTCTGG -ACGGCAGCAATATTGGTTCGGTTCTGGTGATTCAGGACGTTACCGAATCACGCAAAATGCTGCGCCAGCT -GAGCTACAGCGCCTCCCATGATGCACTGACGCATCTCGCCAACCGCGCCAGTTTTGAGAAACAACTGCGT -ATCCTGCTGCAAACGGTAAACAGTACACATCAGCGACATGCCCTGGTGTTTATCGATCTTGATCGCTTTA -AAGCGGTGAATGACAGCGCCGGGCATGCGGCGGGTGACGCTTTGCTGCGCGAACTGGCGTCGTTAATGCT -GAGTATGCTGCGTTCCAGCGACGTGCTGGCGCGACTCGGTGGGGATGAATTTGGTCTGCTGCTACCAGAC -TGTAATGTTGAAAGCGCGCGTTTTATCGCTACACGCATTATCAGTGCCGTGAATGACTATCACTTTATAT -GGGAAGGCCGTGTGCATCGGGTAGGTGCCAGTGCCGGGATTACCTTGATTGATGACAACAATCATCAGGC -GGCAGAAGTGATGTCGCAGGCTGATATCGCCTGTTATGCCTCCAAAAATGGTGGCCGGGGCCGGGTGACG -GTTTACGAACCGCAGCAAGCTGCCGCACATAGCGAACGGGCGGCGATGTCGCTTGATGAACAGTGGCGGA -TGATTAAAGAGAATCAGTTGATGATGCTCGCCCACGGTGTCGCTTCGCCACGGATCCCGGAAGCGCGTAA -TTTGTGGCTGATTTCACTTAAGCTCTGGAGTTGCGAAGGCGAGATTATTGATGAACAAACATTTCGTCGT -AGCTTCAGCGATCCGGCGCTTAGCCATGCTCTTGACCGCCGGGTATTCCACGAATTTTTCCAGCAGGCCG -CAAAAGCGGTTGCCAGTAAAGGCATAAGCATCTCCCTCCCCCTTTCCGTTGCCGGTTTGAGTAGCGCCAC -GCTGGTGAATGATCTGCTTGAGCAGCTGGAAAATAGCCCTCTACCACCACGGTTATTACATCTGATTATT -CCGGCTGAAGCGATTTTAGATCACGCAGAAAGCGTGCAAAAACTGCGGCTGGCGGGATGTCGGATAGTGC -TCAGCCAGGTGGGCCGCGATCTGCAAATCTTCAACTCGCTGAAAGCGAATATGGCAGATTACCTGCTACT -TGATGGTGAGTTATGCGCCAACGTGCAGGGTAATTTGATGGATGAGATGCTGATTACGATTATTCAGGGG -CACGCTCAGCGACTCGGGATGAAAACCATCGCCGGGCCAGTCGTTTTACCCTTAGTGATGGATACGCTTT -CTGGCATCGGCGTCGATCTGATTTATGGTGAGGTGATTGCCGATGCCCAACCGCTGGATTTGCTGGTGAA -TAGTAGTTATTTCGCGATTAACTGAGGCGTGCTTCCCCATCGCCTGATGCGACGCTAACGCGTCTTATCA -TGCCTACAAATCGCTCATTCCCCAGGCCGGATAAGGCGCTCGCACCGCATCCGGCGACCAACGTCATGCT -TCGTCTGGTTGCCAGCCTTCCGTATACCAGATATGCAACAGCGCATAAGAACGCCAGGGCTTCCAGCGCT -CGGCATAACGGCGGATTTGCGCCGGTGTCATTCCCGGAAATCGCTGTTTAATCAGATAATCATCCGGCAG -GAAAACATCTTTCGCCTGCCAGCCACGCAAAGCAAAATAATTCGCCGTCCAGCGCCCGATACCCGGAAAA -GTTTGCAGCGTTTTCATCGCCTGCTCCACATCGCCCGGTATTGTCATTGGTAAGGTGCCCTCCAGCGCCG -CATTTGCCAGATGAATCAGCGCCTCTGCCCGTTTCAACGGCATACCTAACGCTTTTAATGCCTGCGGGTC -TGCTGCTGCCAGCCGCTGAGGCGTCGGGAAGCAGATATACTCCGGAAAATCATCCAGCCGTTCGCCATAA -AGCTGTGCCACTCTGGCGGTCAATTTTGCCGCCATCGCCACGCTCACCAGTTGGCCTAAAATCGCCCGCA -CGCCCTGCTCAAAAGCATCAACACAGCCGGGTAAACGCAATCCGGGCCGCGCCGCGCCTAACCTGCCCAA -CGCACCGTTAACAATTTGTGGGTTACATTGCAGATCAAACAGGCGGCTCATTTTCGCCAGACACTCTGCG -GCAACAGGTTCTAAACCTGCACTTAAATTTATGTGCAGAGTATGGCGGGCTATATCCGGAATAGCAGTCA -CCACGCCGCGATATTCGCCCACCGCCAGACTACGGGCATAATAACTGTCCGCGACCGTTTCCACACTGCT -CACCGCACGGGCGGCGAGAAATCCCAACATCCACGACCAGTCATACGGCGGCTGCCAGTTCAGGGTATAC -ATCGCATCTCCTTATTCATCCGCTTTCAGCATAAACGTTATTCAGACGCTGCGCTTTGCTTTCATATTCC -GGTTGTCGCGACGGCAACATTTCGCTAAAGTCACGCCCCTTCTTCACCGGCATGGGGATTATTTCGTGTT -TATTGGTTTTGATTACGGTACAGCAAACTGTTCAGTGGCGGTCATGCGTGACGGTAAACCGCATTTGCTA -AAAATGGAAAACGACAGCACGCTGCTGCCTTCAATGCTTTGCGCGCCAACGCGTGAAGCGGTAAGCGAAT -GGCTGTACCGCCATCATGATGTTCCGGCAGACGACGATGAAACGCAGGCGCTGTTACGTCGGGCGATTCG -TTATAACCGCGAAGAAGATATCGATGTTACGGCGAAAAGCGTGCAGTTCGGTCTTTCCTCACTGGCACAG -TACATTGATGATCCAGAAGAAGTGTGGTTTGTGAAATCACCAAAATCGTTCCTCGGTGCCAGCGGCTTAA -AACCGCAGCAGGTAGCGCTGTTTGAGGATCTGGTCTGCGCAATGATGTTGCACATTCGCCAGCAGGCGCA -GGCACAGCTGCCAGAAGCGATTACTCAGGCGGTGATTGGTCGTCCGATCAACTTCCAGGGGCTGGGCGGT -GATGAAGCAAACACCCAGGCGCAAGGGATTCTGGAACGCGCGGCGAAGCGTGCCGGATTCAGGGACGTGG -TATTCCAGTACGAGCCGGTCGCGGCTGGGCTGGATTACGAAGCCACCTTGCAGGAAGAAAAACGGGTGCT -GGTGGTGGATATCGGCGGTGGTACGACTGACTGTTCATTGCTGCTGATGGGGCCGCAGTGGCGTTCGCGT -CTCGATCGTGAAGCCAGCCTGCTGGGTCACAGTGGTTGCCGTATTGGCGGTAACGATCTGGATATCGCGC -TGGCGTTTAAAAACCTGATGCCACTGCTGGGTATGGGTGGCGAAACCGAAAAAGGCATCGCCCTGCCGAT -CCTGCCGTGGTGGAATGCGGTTGCCATCAACGACGTACCTGCGCAGAGTGATTTCTACAGTAGTGCCAAC -GGTCGTCTGCTTAACGATCTGGTACGCGATGCCCGCGAACCGGAAAAAGTGGCCCTGTTACAGAAAGTCT -GGCGTCAGCGTTTAAGCTATCGCCTGGTGCGTAGCGCAGAAGAGTGCAAAATTGCTCTTTCAAGCGTAGC -GGAAACCCGCGCCTCACTGCCGTTTATCAGCAATGAACTGGCTACGCTGATTAGCCAGCGAGGGCTGGAA -AGCGCCCTCAGCCAGCCACTGACGCGGATTCTGGAACAGGTGCAACTGGCCCTGGATAACGCCCAGGAAA -AACCGGACGTTATCTACCTGACCGGCGGTAGCGCCCGTTCTCCGCTGATTAAAAAAGCGCTGGCAGAACA -GTTGCCGGGCATTCCGATTGCAGGCGGCGATGACTTTGGCTCCGTCACCGCCGGGCTGGCACGCTGGGCG -GAAGTGGTGTTTCGTTAATTGAAAAATGGCTCAGCAGCGGCTTAAATCTGCCTGCGCCTGAGCCAGTTTT -TCTGCTGCCTGACGTAACGGTTCCATCAACGGCATGGTCCGTGCTGGAGCATGAAGGCGGAATCGCTGCA -ACTCTGTCGCGCCGACTGTCAACGCCGATTCCAGCCGATGTCGTTTGGCGGTCATTTTCGCCATTACCGC -TTGTCTGTCTGCTGGCGTTATCGCTTCATTCGGCCTGAACACAAAACGGCGTTCACAGCTCGCTTTCCAG -TCGATAACCGCCTGGGTCAGATGGTCGCCAAACCCTTTCACTTGCTTAACGCCACGACGGGTAACATCTG -CGGCTGTTTCAATACCAAAAGACCGTAACGCCGCTTTACGCGCAGGGCCAACGCCGGGAATAGAGGCAAC -ATCAATAAAAAATCCCTCCAGAAACTTCTGCTTCTGCCGTTCCCTTGCAGTGTCATGAAGTGCTGCCAGA -GCGCGTTTCTCTTCTTCCGGTAACCCGAGAATTTCGTCCTTCATTTTTTCGAGCATCGTCCGTTTGGCGA -TAAAACCTTCCAGGCCGCCTACCTGCTGGATCTGGCGGACTAAATGGTCATAGTCCATTTTCGCACGATT -AAATGCCTCACGGCGTTGCTGAACTTCTGCTTTGTACGCTTTGCTTGTCAGACTGCCAATAATCCAGATA -GCCGCCAGCACAGGAACCAAAATAATATAACGCGGTTCTGCCTGAAGGCCGCAAAGCAGCAGCGATAATG -CTGACAGTGCGATCTCAAGCAGAATGATGTATTCGCGCCGTAACAGGCCTAAAGGAAGCGGCCTGCCAGT -CGGTTGGAAATGATCGGGTAATGGCAGTTGCAATGCTGGCGGTGCTACTGACGCCATCACCATCGCCCAG -ACTTTCGCCAGCACAAAATTCCCGCCGGTGGTAATGACCTCTTCGCCGAGATCAATAAAATAGATAACAC -CTTGATTATCCAGCGCACACCACGGGCAGTCAGTCAAATGAGCGGGGTAAACATGCATTGCTGAAACGAT -ACATTTCTTTAACTGTTGGCGTAGAGAGTCCAGTGCCGCTACCCACGCTTTAGCCGTCGGACGCCCGGTT -GCCACGCCACTTTCCGTGAATGCCTGCTGAAACATGGCTTCAACATCACTCGGTAACATCGATAGCGGAA -TAGATCGTGGCGGCGGTTTTAAACCACGTCGCTGATTATCTGACGCGTAGGCATAACGGAAATGGGTAAT -ATCCGTCTCCAGCGCATTACCCGCATCAGAGATAAGCGGCACACCAGAATAAGGATGCCGCCCACCAAAC -AAGACGTGAAAAATTAGCAACGCAAGGCCAAAATTATCGTGATTTTCTGTGCGTTCAAAACCGACAAATG -ATGGCAAGGTTTGTAGCTCTGGCGGCGTAAAATGCGACACGCCGACTTCGCATAAATGCAGTGTGCCATT -GGCGTTAATTTGAAAGGAGTCGCTATCAATCAGTACCACTTTGCTGTCGCGACCTACCATAAAACTGTTC -TGGTTTACGTCACCCACGACGTGCCCGTGCTCGTGAACCGTAGCAAAAGATGAAGCAATATTGCGCGCAA -CATAGAGTAGAAAATCCCACGCACAATGAGGGTAACTCTGGCGACGATGTGCCGGGCTATAGATCATATG -AATCGGTTCTTTACCAGAAACTTTTGGCATCATAAAACCGATAACTTTTCCGCCTCGTCCACCGTGAAGC -GTTGCCTGCGGCCAGGCGACATAATTCAACAACTGCGCGTCAGCTGTCGCAGCCATAAAGGCAAGTTTGT -CCTGTTTTAAGGCGGGTGGCGGCGTGTGATAAATCTTGGCGACGCTATCGACAAACTCCTCGATATCATA -AACCGCGCCTTCACCACCTTTGCCCAGTTCACGGCCAAGAGTGGTCAATTCACCTGTCGATGTAAATACT -TTTATATTTGTTTTCATAATATTTCGCGGGTAGTTATATTATATTTCAATGAATAATAACAACTAACCAT -TAAAATTATTTCTATATGGGGAAAACCCACTCAAGAATAAAAATGATAATGCAATTTTATCAGGATACAA -TTCAATTTCGGCCTGATAATGATTAACTTCCACAGGTTTTTGCTAACTTTGACTACAAAGGGATTCTGGA -GAAAAAATGAAAAAGATATTACTTATGTTGAGTCTGCTATTTTTTACTACCGCGGGCTTTAGTGAAGTTT -CGGATACGTTAGTGACGGGAGGTTATGATAAACAAGCGATGTCTGACGCGATTAAACATGCGCGGAAAGA -AACCGATAAATTCATCGAGGTTATGAATAAAAAAGATGCCGATACTTTCGCAGTCAAAGCCCCGATAACC -GATCACGGAAGAACCGAGCATTTCTGGCTTACGGATGTCACTTATTCTAACGGCATGTTTATTGGCGTAA -TCAGCAATGACCCTGGTATTGTTACAAACGTAGAATATGGCCAGGAGTGGAAAATCAAGAAAGAAGATAT -TTCAGACTGGATGTATACGCGCGGGGATAAAATTTACGGCGGTTATACCATTGATCCTTTATTGGTCACC -TATCCAAAAGAAGAAGCCGACGAGCTAAGAGCAAAATTAGTTCGCTAATCAGCCGTTATATTTATTGTTT -AAACTGGCGGTTGAATTGTTGTCTTCAACCGCCATGAGAAACTCACTCTGCCCACAGCGCCAGTGCCAAC -GTTTTATCATCATCCGTACGCTCGTTTACCGCCGGGCTGGACAAAAACTGCTTTAACAATTCAGGTAATA -AATCGAGTTGTTCCTGCGTTGCTGCCGCCAGTCCATTGAAAAACGGGGTAAAGAAAGGCACATGAGGAGA -ATTATCCAGCATATTTAACGCCAGTCGCTGGATACCATCCGTAAATGCTGCAACTTTGTGCGCACGCCCA -GTGCTGGTGAAAGTTTCCAGTCTGGAAACGGCATCTTCGTCGGTAATGAAGTGCGTCATGTTGGCATATT -CACCCGCCATCGGCGTGAGAGGCAATTGCAGACCGTGACCCAAATCTACCACCACGCCGCCATCGCCAAT -CTGCATAATCAAGGTGCCGTCAGGCGATGAAATCAGTCCCAGAAATGTGCAGGCAAAATCGCGAACCGCT -AATTCTTTGGCTTCCGCCTCGGCAAAAAGTCGTTGACGAATGGTCAGTACCATATTTGTGGCGAGGACAT -CATTAAGCCCCAATTCCCCGCCCTGCACTTTTTGCGACATATAAGCCATCGCTTCATTGACGGCGAGCAT -CGCGCCTTCGCCACCCTGCGAGACACTGCCTGCGCCATCAGCGACAAATACCGACAATAATGGCTGCTGG -TCATTTAACCAGGCAATCTGCATCTGGCAGGCATCCTGACAAGGCAAGTCCGCGCTGATGTGCGACGTTC -CAACGGTTGATGCATAGACCAGACGCCAGCTCACACTGACGTCCAGCCTTTTGGCGCTTCCAGCACAACT -TCCGTTCCCGGCGTGGAGCGGGAAACCGAACGCAGCGAACTGGATAACCAGCTAAACAGTTCACGGAATT -GTAATCCTTGCAGAGGCAAAGGCTGACGAACGCTAATTTGTGCCAGCGTCTTCATATCCGCCCCCTGAAC -ACCGATGGAAAAGAAAGCAAACCTTTTATCTTCTTCCCCCCGAAACACTTTGTTGGCTGCAGCCTGCCAC -TCATCGGTTGGTGCACCATCGGTAATCAGGAAAATCCACGGGCGATAATACGAAATACCATTTGCACGAT -ACTCACGTTTCCGCTCCTCTACCATATCCAGGGCTTTGGTAATGGCCGCACCCATTGGTGTATCGCCCTG -GGCAAACAGGATGGGCGGAAAAAAATTAGCGGCGCTGGTAAAGGGTTGTTCCACATGCACCGGGCCGAAC -GTCACAATGCCGAGTTCCACTCTTTTTAAAGCCAGCGGATCAGCAAGCAGTTCATCACGAAAGGTAACCA -ATCCGGCGTTAAGTTCATTAATAGGTCTACCGTTCATAGAACCAGAAACATCCAGCAGCAAAATGCAGGG -GCAACGTGGTTCCGGGTTACTGGCAAAATCGCTGGTGGCAAACGTGATTTGTTCGCTCATAAGAAATCCT -TTCTTAGAGAATTATCGAGGTCCGGTATCATACCGACTGCAATAATGAAATAAGAGCAAACGAAGAAACT -TTCAGAATTAGGCCCGGCGGCGCAGAAAATTTTGCTATTCGCCTCGCAAGAACGGAGAGCCGTCGATTGA -CACTAAGGGCGGAGTGACATAATTTCAGGAGTGAGGGTTAGGGAGAGGTTTCCCCCTCCCCCTGGTGTTC -TTAGTAAGCCTGGAAGCTAATCACTAAGAGTATCACCAGTATGATGACGTGCTTCATCATAACCCTTTCC -TTATTAAAAGCCCTCTTCTCCGGGAGAGGCTTTCCCGTTTCAGCGTCCCGCTGAAATCATCGGCTTACCT -CCTTTCGCCCTGAATGCAGTCTATCGCTAACGCGTGAATAAAATAGTTTCCTCTGTGATTATTGCGTAAC -GACTCGCAAAGAATATTTGCTGGCAGGATCGCAGACTACAAAGCCTGCGGATTGACAATCTTATCGTGAA -GGCATACTTTCAGGAGTGAGGGTAGAGCGGGGTTTCCCCCGCCCTGGTAGTCTTAGTAAGCGGGGAAGCT -TATGACTAAGAGCACCACGATGATGAGTAGCTTCATCATGACCCTTTCCTTATTTATGGCCCCTTCCTCG -GGAGGGGCTTTCCCGTTTCAGCGTCCCGCTGAAATCGTCGGCTTACCTCCTTTCGCCATGCAAGCAGTCT -ATCGCTAACGCGTAGATAAAATAGTTTCCTGTGTTATTACTGGATGCGTGCTCGCAAATGTGCCCGTCAT -TCAGACGATTCCAGACAGTGTTTCATAATTCCTCCATTTTTCTCCCTTATTGGCTGGCTACACTAGTATC -ATTCCGCGAAACGTTTCAGGAAGAGAAACTCTTAACGATGAAAGGTAGTTATAAATCCCGTTGGGTAATC -GTAATCGTGGTGGTTATCGCCGCCATCGCCGCATTCTGGTTCTGGCAAGGCCGCAATGACTCCCGGAGTG -CAGCCCCAGGGGCGACGAAACAAGCGCAGCAATCGCCAGCGGGTGGTCGACGTGGTATGCGTTCCGGCCC -ATTAGCCCCGGTTCAGGCGGCGACCGCCGTAGAACAGGCAGTTCCGCGTTACCTCACCGGGCTTGGCACC -ATTACCGCCGCTAATACCGTTACGGTGCGCAGCCGCGTGGACGGCCAACTGATAGCGTTACATTTCCAGG -AAGGCCAGCAGGTCAAAGCAGGCGATTTACTGGCAGAAATTGACCCCAGCCAGTTCAAAGTTGCATTAGC -ACAAGCCCAGGGCCAACTGGCAAAAGATAAAGCCACGCTTGCCAACGCCCGCCGTGACCTGGCGCGTTAT -CAACAACTGGCAAAAACCAATCTCGTTTCCCGCCAGGAGCTGGATGCCCAACAGGCGCTGGTCAGTGAAA -CCGAAGGCACCATTAAGGCTGATGAAGCAAGCGTTGCCAGCGCGCAGCTGCAACTCGACTGGAGCCGGAT -TACCGCACCAGTCGATGGTCGCGTTGGTCTCAAGCAGGTTGATGTTGGTAACCAAATCTCCAGTGGTGAT -ACCACCGGGATCGTGGTGATCACCCAGACGCATCCTATCGATTTAGTCTTTACCCTGCCGGAAAGCGATA -TCGCTACCGTAGTGCAGGCGCAGAAAGCCGGAAAACCGCTGGTGGTAGAAGCCTGGGATCGCACCAACTC -GAAGAAATTAAGTGAAGGCACGCTGTTAAGTCTAGATAACCAAATCGATGCCACTACCGGTACGATTAAA -GTGAAAGCACGCTTTAATAATCAGGATGATGCGCTGTTTCCCAATCAGTTTGTTAACGCGCGCATGTTAG -TCGACACCGAACAAAACGCCGTAGTGATCCCAACAGCCGCCCTGCAAATGGGCAATGAAGGCCATTTTGT -CTGGGTGCTGAATAGCGAAAACAAGGTCAGCAAACATCTGGTGACGCCGGGCATTCAGGACAGTCAGAAA -GTGGTGATCCGTGCAGGTATTTCTGCGGGCGATCGCGTGGTGACAGACGGCATTGATCGCCTGACCGAAG -GGGCGAAAGTGGAAGTGGTGGAAGCCCAGAGCGCCACTACTCCGGAAGAGAAAGCCACCAGCCGCGAATA -CGCGAAAAAAGGAGCACGCTCCTGATGCAGGTGTTACCCCCGAGCAGCACAGGCGGCCCGTCGCGCCTGT -TTATTATGCGTCCTGTGGCCACCACGCTGCTGATGGTGGCGATCTTACTCGCCGGGATTATCGGTTATCG -CGCCCTGCCCGTTTCGGCGCTGCCGGAAGTGGACTATCCGACCATTCAGGTGGTCACGCTCTACCCAGGT -GCCAGCCCGGATGTCATGACCTCTGCCGTTACCGCGCCGCTAGAACGCCAGTTCGGGCAGATGTCTGGCC -TGAAACAGATGTCGTCGCAAAGTTCCGGCGGTGCGTCAGTTATCACTTTGCAGTTCCAGCTAACATTACC -GCTCGATGTCGCCGAGCAGGAAGTGCAGGCCGCGATTAACGCTGCGACCAACTTGTTGCCGAGCGATCTG -CCTAACCCGCCGGTTTACAGCAAAGTGAACCCGGCAGATCCGCCGATCATGACGCTCGCCGTCACCTCAA -CCGCCATGCCGATGACGCAAGTGGAAGATATGGTGGAAACCCGCGTCGCGCAGAAAATCTCGCAGATTTC -CGGCGTCGGCCTGGTGACGCTTTCCGGCGGTCAGCGTCCGGCTGTTCGCGTCAAACTTAACGCTCAGGCG -ATTGCCGCCCTCGGCCTGACCAGCGAAACCGTGCGCACCGCCATTACCGGCGCTAACGTTAACTCGGCAA -AAGGTAGCCTCGACGGCCCTTCCCGTGCGGTCACGCTTTCCGCGAACGACCAGATGCAATCCGCCGAAGA -GTATCGCCAGCTAATCATCGCCTACCAGAACGGCGCGCCAATTCGTCTGGGCGATGTCGCAACTGTAGAG -CAAGGTGCAGAAAACAGCTGGCTCGGCGCGTGGGCGAACAAAGAACAGGCCATTGTGATGAATGTTCAGC -GCCAGCCCGGTGCTAACATTATCTCCACCGCCGACAGCATTCGGCAGATGCTGCCACAGCTCACTGAGAG -TCTGCCGAAATCGGTGAAGGTGACAGTGCTTTCCGATCGCACCACCAATATCCGCGCATCCGTCGATGAT -ACTCAGTTTGAATTGATGATGGCTATCGCGCTGGTAGTCATGATTATCTACCTGTTTTTGCGCAATATTC -CGGCGACCATCATTCCCGGTGTTGCTGTACCGCTGTCGTTAATCGGCACTTTCGCGGTTATGGTGTTTCT -CGATTTTTCAATCAATAACCTGACACTGATGGCGTTAACTATCGCCACCGGATTCGTGGTCGATGACGCC -ATCGTGGTGATCGAAAACATTTCCCGCTATATCGAAAAAGGCGAAAAACCGTTGGCGGCGGCGCTCAAGG -GCGCAGGTGAAATCGGCTTTACCATTATCTCGCTGACCTTCTCACTGATTGCGGTGTTGATCCCACTGCT -GTTTATGGGCGATATCGTCGGGCGACTGTTCCGCGAATTTGCTATTACCCTGGCGGTAGCGATTTTGATC -TCAGCGGTGGTGTCGCTGACCCTGACACCGATGATGTGCGCGCGGATGCTCAGCCAGGAGTCGTTGCGTA -AACAGAACCGCTTCTCCCGTGCCTCGGAAAAAATGTTCGACAGGATAATCGCCGCCTATGGTCGTGGACT -GGCGAAAGTGCTGAATCATCCGTGGCTGACCTTAAGCGTGGCACTCAGCACGCTGCTGCTTAGCGTGCTG -CTGTGGGTGTTCATTCCGAAAGGTTTCTTCCCGGTACAGGACAATGGCATTATTCAGGGCACTTTGCAGG -CACCGCAATCCAGCTCCTTTGCCAATATGGCCCAGCGACAACGCCAGGTCGCGGACGTGATTTTGCAGGA -TCCGGCAGTGCAAAGCCTGACCTCATTTGTTGGCGTTGATGGCACTAACCCGTCGCTGAACAGTGCACGT -TTACAAATCAACCTCAAACCGTTGGATGAACGTGATGATCGGGTGCAAAAAGTCATCGCCCGTCTGCAAA -CGGCGGTAGATAAAGTGCCGGGCGTCGATCTCTTCCTGCAACCAACGCAGGATCTGACTATTGATACTCA -GGTCAGCCGCACCCAGTACCAGTTTACCTTGCAGGCCACGTCACTGGATGCGCTCAGTACCTGGGTGCCA -CAGTTGATGGAAAAACTCCAGCAACTGCCACAGCTTTCTGATGTCTCCAGCGACTGGCAGGACAAAGGGC -TGGTGGCGTATGTCAATGTTGATCGCGACAGCGCCAGCCGTCTGGGGATCAGCATGGCGGATGTCGATAA -CGCCCTGTACAACGCGTTTGGTCAGCGGCTGATTTCCACTATTTATACTCAGGCCAACCAGTATCGCGTG -GTGCTGGAGCACAACACCGAAAATACCCCAGGCCTCGCGGCGCTGGATACCATTCGCCTGACCAGCAGCG -ACGGCGGCGTGGTGCCGCTAAGCTCAATTGCCAAAATTGAGCAGCGTTTTGCGCCGCTCTCCATCAACCA -TCTGGATCAGTTCCCGGTAACGACCATCTCCTTTAACGTGCCGGATAACTATTCGCTGGGCGATGCGGTG -CAGGCGATTATGGACACCGAAAAGACGCTGAATCTGCCGGTGGATATCACCACGCAGTTCCAGGGCAGCA -CCCTCGCCTTCCAGTCGGCGCTGGGCAGCACTGTCTGGCTGATTGTCGCGGCGGTGGTGGCGATGTATAT -CGTGCTCGGCATTCTGTACGAGAGCTTTATTCACCCGATCACCATTCTCTCGACGCTACCCACCGCAGGG -GTTGGCGCACTGCTGGCGTTGCTGATTGCTGGTAGCGAACTGGATGTGATTGCGATTATCGGCATTATTT -TGCTGATCGGTATCGTGAAGAAGAACGCCATCATGATGATCGACTTCGCGCTGGCTGCTGAGCGCGAGCA -AGGCATGTCGCCGCGCGAGGCAATCTACCAGGCTTGTCTGTTGCGTTTTCGTCCGATCCTGATGACCACT -CTGGCGGCTCTGCTTGGCGCGCTGCCGCTGATGTTGAGTACCGGGGTCGGCGCGGAACTGCGTCGTCCGT -TAGGTATCGGCATGGTCGGCGGTCTGATTGTCAGCCAGGTGCTGACGCTGTTTACCACGCCGGTGATTTA -TTTGCTGTTCGACCGCCTGGCATTGTGGACCAAAAGCCGCTTTGCCCGTCATGAAGAGGAGGCGTAAGTG -AAGTTTTTTGCCCTCTTCATTTACCGCCCGGTGGCGACGATTTTACTGTCGGTTGCCATTACCCTGTGCG -GCATACTGGGCTTCCGTATGCTGCCGGTCGCCCCGCTGCCGCAGGTCGATTTTCCGGTGATTATCGTCAG -CGCCTCGCTGCCCGGTGCGTCACCAGAAACAATGGCGTCTTCCGTTGCCACGCCGCTGGAGCGCTCACTT -GGGCGCATTGCCGGAGTCAGTGAAATGACCTCCAGCAGTTCGCTCGGCAGCACGCGTATTATTTTGCAGT -TTGATTTTGACCGGGATATCAACGGCGCAGCGCGTGATGTGCAGGCGGCGATCAACGCTGCACAAAGTTT -GCTGCCCAGTGGGATGCCCAGCCGCCCGACCTATCGCAAAGCGAACCCGTCGGATGCGCCAATTATGATC -CTCACGCTGACGTCCGATACTTATTCGCAGGGTGAACTGTACGATTTCGCCTCGACGCAGCTGGCTCCGA -CGATTTCGCAAATCGACGGTGTTGGTGATGTCGATGTCGGAGGCAGCTCACTGCCCGCCGTACGCGTCGG -GCTGAATCCGCAGGCGCTGTTTAATCAGGGCGTGTCGCTGGACGACGTACGCACCGCCGTCAGCAATGCC -AACGTGCGTAAACCGCAGGGCGCGCTGGAAGATGGCACTCACCGCTGGCAGATCCAGACCAATGATGAGC -TAAAAACCGCCGCTGAATATCAGCCGTTGATTATTCACTACAACAACGGCGGCGCGGTTCGTCTGGGCGA -TGTGGCGACGGTGACCGACTCAGTGCAGGATGTGCGCAACGCCGGGATGACCAACGCCAAACCGGCTATT -TTACTGATGATCCGCAAACTGCCGGAAGCCAATATTATCCAGACGGTTGACAGCATCCGGGCAAAATTAC -CGGAGTTGCAGGAAACCATTCCGGCGGCGATTGATCTGCAAATTGCCCAGGATCGCTCCCCCACCATTCG -CGCCTCGCTGGAAGAAGTCGAGCAAACGCTGATTATCTCGGTGGCGCTGGTGATTCTGGTGGTGTTTTTA -TTCCTGCGCTCGGGTCGCGCCACTATTATTCCCGCCGTTTCGGTGCCGGTTTCGCTGATTGGTACGTTTG -CGGCGATGTACCTGTGCGGATTCAGTCTCAATAACCTTTCGTTAATGGCGCTCACCATCGCTACTGGTTT -CGTGGTGGATGACGCCATCGTGGTGCTGGAAAACATTGCACGTCATCTGGAAGCGGGAATGAAACCGTTG -CAAGCCGCACTGCAAGGTACTCGCGAAGTCGGTTTTACGGTGCTGTCGATGAGTCTGTCACTGGTGGCGG -TGTTCCTGCCGCTGCTGTTGATGGGCGGATTGCCGGGCCGACTGTTACGCGAATTTGCCGTGACGCTTTC -TGTCGCCATTGGTATATCGTTGCTGGTTTCTCTGACATTAACGCCAATGATGTGTGGCTGGATGCTGAAA -GCCAGCAAGCCGCGCGAGCAAAAGCGACTGCGTGGTTTTGGTCGCATGTTGGTAGCCCTGCAACAAGGCT -ACGGCAAGTCACTAAAATGGGTGCTCAATCATACCCGTCTGGTGGGCGTGGTGCTGCTTGGCACCATTGC -GCTGAATATCTGGCTGTATATCTCGATCCCGAAAACCTTCTTCCCGGAGCAGGACACTGGCGTGTTGATG -GGCGGGATTCAGGCGGATCAGAGTATTTCGTTTCAGGCGATGCGCGGTAAGTTGCAGGATTTCATGAAAA -TTATCCGTGACGATCCGGCAGTGGATAATGTCACCGGCTTTACAGGCGGTTCGCGAGTGAACAGCGGGAT -GATGTTTATCACCCTCAAGCCACGCGACGAACGCAGCGAAACGGCGCAGCAAATTATCGACCGTCTGCGC -GTAAAACTGGCGAAAGAACCGGGGGCGAATCTGTTCCTGATGGCGGTACAGGATATTCGCGTTGGTGGGC -GTCAGTCGAACGCCAGCTACCAGTACACGTTGTTATCCGACGACCTGGCGGCACTGCGAGAATGGGAGCC -GAAAATCCGCAAAAAACTGGCGACGTTGCCGGAACTGGCGGACGTGAACTCCGATCAGCAGGATAACGGC -GCGGAGATGAATCTGGTTTACGACCGCGACACCATGGCACGGCTGGGAATCGACGTACAAGCCGCCAACA -GTCTGTTAAATAACGCCTTCGGTCAGCGGCAAATCTCGACCATTTACCAGCCGATGAACCAGTATAAAGT -GGTGATGGAAGTGGATCCGCGCTATACCCAGGACATCAGTGCGCTGGAAAAAATGTTCGTTATCAATAAC -GAAGGCAAAGCGATCCCGCTGTCGTATTTCGCTAAATGGCAACCGGCGAATGCCCCACTATCGGTGAATC -ATCAGGGATTATCGGCGGCCTCGACCATTTCGTTTAACCTGCCGACCGGAAAATCGCTCTCGGACGCCAG -TGCGGCGATCGATCGCGCAATGACCCAGCTTGGTGTGCCTTCGACGGTGCGCGGCAGTTTTGCCGGCACG -GCGCAGGTGTTCCAGGAGACGATGAACTCGCAGGTGATCCTGATTATCGCCGCCATCGCCACGGTGTATA -TCGTGCTGGGTATCCTTTACGAGAGTTACGTACATCCGCTGACGATTCTCTCCACCCTGCCCTCGGCGGG -CGTTGGAGCGCTGTTGGCGCTGGAGCTGTTCAATGCCCCGTTCAGCCTAATCGCCCTGATAGGGATCATG -CTATTAATCGGCATCGTGAAGAAAAACGCCATTATGATGGTCGATTTTGCGCTTGAAGCCCAACGGCACG -GTAACCTGACGCCGCAGGAAGCTATTTTCCAGGCCTGTCTGCTGCGTTTTCGCCCGATTATGATGACTAC -CCTGGCGGCGCTGTTTGGTGCGCTGCCGCTGGTATTGTCGGGCGGCGACGGCTCGGAGCTGCGGCAACCC -CTGGGGATCACCATTGTCGGCGGACTGGTAATGAGCCAGCTCCTTACGCTGTATACCACGCCGGTGGTGT -ATCTCTTTTTCGACCGTCTGCGGCTGCGTTTTTCGCGTAAACCTAAACAAACGGTAACCGAGTAAATGAC -AGATCTTCCCGACAGCACCCGTTGGCAATTGTGGATTGTGGCTTTCGGCTTCTTTATGCAGTCGCTGGAC -ACCACCATCGTAAACACCGCCCTTCCCTCAATGGCGCAAAGCCTCGGGGAAAGTCCGTTGCATATGCACA -TGGTCATTGTCTCTTATGTGCTGACCGTGGCGGTGATGCTGCCCGCCAGCGGCTGGCTGGCGGACAAAGT -CGGCGTGCGCAATATTTTCTTTACCGCCATCGTGCTGTTTACTCTCGGTTCACTGTTTTGCGCGCTTTCC -GGCACGCTGAACGAACTGTTGCTGGCACGCGCGTTACAGGGCGTTGGCGGCGCGATGATGGTGCCGGTCG -GCAGATTGACGGTGATGAAAATCGTACCGCGCGAGCAATATATGGCGGCGATGACCTTTGTCACGTTACC -CGGTCAGGTCGGTCCGCTGCTCGGTCCGGCGCTCGGCGGTCTGCTGGTGGAGTACGCATCGTGGCACTGG -ATCTTTTTGATCAACATTCCGGTGGGGATTATCGGTGCGATCGCCACATTGCTGTTAATGCCGAACTACA -CCATGCAGACGCGGCGCTTTGATCTCTCCGGATTTTTATTGCTGGCGGTTGGCATGGCGGTATTAACCCT -GGCGCTGGACGGCAGTAAAGGTACAGGTTTATCGCCGCTGACGATTGCAGGCCTGGTCGCAGTTGGCGTG -GTGGCACTGGTGCTTTATCTGCTGCACGCCAGAAATAACAACCGTGCCCTGTTCAGTCTGAAACTGTTCC -GTACTCGTACCTTTTCGCTGGGCCTGGCGGGGAGCTTTGCCGGACGTATTGGCAGTGGCATGTTGCCCTT -TATGACACCGGTTTTCCTGCAAATTGGCCTCGGTTTCTCGCCGTTTCATGCCGGACTGATGATGATCCCG -ATGGTGCTTGGCAGCATGGGAATGAAGCGAATTGTGGTACAGGTGGTGAATCGCTTTGGTTATCGTCGGG -TACTGGTAGCGACCACGCTGGGTCTGTCGCTGGTCACCCTGTTGTTTATGACTACCGCCCTGCTGGGCTG -GTACTACGTTTTGCCGTTCGTCCTGTTTTTACAAGGGATGGTCAACTCGACGCGTTTCTCCTCCATGAAC -ACCCTGACGCTGAAAGATCTCCCGGACAATCTGGCGAGCAGCGGCAACAGCCTGCTGTCGATGATTATGC -AATTGTCGATGAGTATCGGCGTCACTATCGCCGGGCTGTTGCTGGGACTTTTTGGTTCACAGCATGTCAG -CGTCGACAGCGGCACCACACAAACCGTCTTTATGTACACCTGGCTTAGCATGGCGTTGATCATCGCCCTT -CCGGCGTTCATCTTTGCCAGAGTGCCGAACGATACGCATCAAAATGTAGCTATTTCGCGGCGAAAAAGGA -GCGCGCAATGAAGTTCTGGCGACCCGGTATTACCGGCAAACTGTTTCTGGCGATTTTCGCCACCTGCATT -GTCTTGCTGATCAGTATGCACTGGGCGGTGCGTATCAGTTTTGAGCGTGGCTTTATTGATTACATCAAGC -ATGGTAATGAACAGCGATTACAACTGTTAAGTGATGCGCTTGGCGAGCAGTATGCGCAGCATGGCAACTG -GCGCTTCCTGCGCAACAATGATCGCTTTGTCTTTCAGATCCTGCGTTCATTTGAACACGATAATTCGGAA -GATAAACCCGGCCCGGGTATGCCACCGCACGGCTGGCGTACCCAGTTCTGGGTGGTTGATCAAAACAACA -AAGTGCTGGTTGGTCCGCGAGCGCCGATTCCACCTGACGGTACACGGCGACCCATTCTGGTCAACGGTGC -GGAAGTTGGCGCGGTGATCGCCTCCCCCGTTGAGCGGTTAACGCGCAATACTGATATCAATTTCGATAAA -CAACAGCGGCAAACCAGCTGGTTGATTGTCGCCCTGGCAACGTTACTCGCGGCACTTGCCACTTTTCTGC -TGGCGCGCGGTTTACTGGCACCGGTAAAACGACTTGTCGATGGCACGCACAAACTGGCGGCGGGCGATTT -CACTACCCGCGTAACGCCCACCAGTGAAGATGAACTGGGCAAACTGGCGCAAGACTTCAACCAGCTTGCC -AGCACACTGGAGAAAAACCAGCAAATGCGGCGCGATTTTATGGCCGATATTTCTCACGAACTGCGTACGC -CATTAGCGGTGCTGCGCGGTGAACTGGAAGCCATTCAGGATGGCGTGCGTAAATTCACGCCGGAGACGGT -GGCGTCTTTACAGGCGGAGGTCGGTACACTGACCAAACTGGTTGACGATCTCCATCAGTTGTCGATGTCT -GATGAAGGCGCTCTCGCCTATCAAAAAGCACCGGTAGATTTGATCCCACTGCTGGAAGTGGCGGGCGGCG -CATTTCGCGAACGATTCGCCAGTCGTGGCCTGAAACTGCAATTTTCCCTGCCAGACAGTATTACCGTATT -TGGCGATCGCGACCGTTTAATGCAGTTATTCAATAACTTACTGGAAAACAGCCTGCGCTACACTGACAGC -GGCGGCAGCCTGCAAATCTCTGCCGGGCAGCGCGACAAAACGGTGCGCCTGACCTTTGCCGACAGTGCGC -CAGGTGTCAGTGACGATCAGCTACAAAAATTGTTTGAACGTTTTTATCGCACCGAAGGTTCCCGCAACCG -TGCCAGCGGCGGTTCCGGGCTGGGGCTGGCGATTTGCCTGAACATTGTTGAAGCACATAATGGTCGCATT -ATTGCTGCCCATTCGCCTTTTGGCGGGGTAAGCATTACAGTAGAGTTACCGCTGGAACGGGATTTACAGA -GAGAAGTATGACCGAGTTACCAATCGACGAAAACACACCGCGTATTTTGATCGTGGAAGATGAACCGAAG -CTGGGGCAGTTGCTCATTGATTATCTGCGTGCTGCGAGCTATGCGCCGACGCTTATCAGCCACGGCGATC -AGGTACTGCCGTATGTGCGCCAGACACCACCGGATCTGATCCTGTTAGATCTGATGCTCCCTGGCACCGA -TGGCCTGACGCTGTGCCGGGAAATTCGTCGTTTTTCTGACATTCCGATCGTGATGGTGACGGCAAAAATC -GAAGAGATCGATCGCCTGCTGGGGCTGGAGATTGGCGCAGATGATTATATCTGTAAGCCGTACAGCCCAC -GGGAAGTGGTAGCGCGCGTCAAAACCATTTTGCGCCGTTGCAAACCGCAGCGCGAGTTGCAGCAACAGGA -TGCTGAAAGCCCGTTGATTATCGACGAAGGTCGTTTTCAGGCTTCATGGCGCGGTAAAATGCTTGACCTG -ACGCCTGCGGAATTTCGTCTGCTGAAAACGCTCTCTCACGAACCAGGAAAAGTGTTCTCCCGCGAGCAAT -TGCTCAATCATCTTTATGACGACTACCGCGTAGTAACCGACCGCACCATCGACAGCCACATTAAAAACCT -GCGCCGCAAGCTGGAATCTCTCGACGCCGAACAGTCATTTATCCGCGCCGTTTATGGCGTCGGTTACCGC -TGGGAAGCCGACGCCTGCCGCATCGTTTAGTTTTAGCGACATTATTTTGTTAGCCGGAGATGGCGTTCAG -ACCAGATCCGGCAACATTATCCCACGCATGGTCAGCAAACTGACATTATCTCTCCGCCCTGGCAGGCATC -AGAAAATCGCTCATACTTTAATCGGTAAACAGCACCTTTAGATGCTGTTTTCGATACACAATTTCAATCA -AGGAGTCATTATGGCTGGTTGGTTTGAACTCAGTAAGAGCAGTGATAATCAGTTCCGGTTTGTGCTAAAA -GCGGGCAATGGTGAGACTATCCTCACCAGCGAGCTTTATACCTCAAAAACCTCTGCGGAAAAGGGCATCG -CGTCGGTGCGTAGCAACAGCCCGCAAGAAGAACGCTATGAGAAAAAAACGGCAAGTAACGGCAAATTCTA -TTTCAATCTGAAAGCCGCTAATCATCAAATTATCGGCTCCAGCCAGATGTACGCCACCGCGCAATCTCGT -GAAACCGGAATTGCCTCCGTTAAAGCCAATGGCACAAGCCAGACGGTGAAAGACAATACGTAATTACGAT -GCCGGGCGTGGGTTGTTGGCGTCCGGCGCTTTACCAGAGCCCCCCACAGCGCTACAATGCCCGCCCTTAA -AGTGGGGGCACTCCCCTAACCGCTTCATCAGGTGAAGCGGATCTGACCTGTCATCAGAACGAGAGAATTA -TGTTTAAACCGGAACTCCTTTCCCCGGCGGGAACGCTGAAAAATATGCGTTACGCTTTCGCTTATGGCGC -AGATGCTGTTTATGCGGGCCAGCCGCGTTATTCCCTGCGTGTGCGCAACAACGAATTCAACCACGAAAAT -CTTCAGCTCGGCATCAATGAAGCCCACGCGCTGGGGAAAAAGTTTTATGTCGTGGTCAACATTGCACCGC -ACAACGCCAAGCTGAAAACCTTTATCCGTGACCTGAAACCGGTGGTGGAAATGGGGCCGGATGCGCTGAT -TATGTCCGATCCAGGGCTGATTATGCTGGTGCGTGAGCACTTCCCTGAAATGCCGATCCACCTTTCGGTG -CAGGCTAACGCCGTGAACTGGGCGACGGTGAAATTCTGGCAGCAAATGGGCCTGACCCGCGTGATCCTCT -CTCGCGAGCTGTCGCTGGAAGAGATTGAAGAGATCCGCAATCAGGTGCCGGATATGGAGATCGAGATCTT -CGTTCACGGCGCGCTGTGCATGGCCTACTCCGGTCGCTGCCTGCTCTCTGGCTATATCAACAAGCGCGAC -CCGAACCAGGGCACCTGCACCAACGCCTGCCGCTGGGAGTACAACGTCCAGGAAGGGAAAGAAGATGATG -TTGGCAACATCGTACACAAGTACGAGCCGATTCCGGTGCAAAATGTTGAGCCGACGCTGGGTATCGGCGC -ACCAACCGACAAAGTGTTTATGATCGAAGAGGCCCAGCGTCCGGGCGAGTATATGACCGCGTTTGAAGAT -GAGCACGGCACTTACATCATGAACTCGAAAGATCTGCGCGCCATCGCCCATGTAGAACGCCTGACCAAAA -TGGGCGTGCATTCGCTGAAAATCGAAGGTCGTACCAAATCTTTCTACTATTGTGCACGCACCGCACAGGT -TTACCGCAAAGCTATCGATGACGCCGCTGCGGGAAAACCGTTCGATACCAGCCTGCTGGAAACTCTGGAA -GGTCTGGCGCATCGTGGCTATACCGAAGGTTTCCTGCGTCGTCATACTCACGACGATTATCAGAACTACG -AATACGGTTATTCAGTTTCTGACCGCCAGCAGTTTGTTGGTGAGTTTACCGGTGAGCGCAAGGGGGACCT -CGCGGCGGTAGCGGTGAAAAATAAATTCTCCGTTGGCGACAGCCTTGAGCTGATGACGCCGCAAGGCAAC -ATTAATTTTACCCTTGAGCACATGGAAAACGCCAAAGGCGAAGCTATGCCGATAGCACCAGGCGATGGTT -ATACTGTGTGGCTCCCGGTCCCGCAGGATCTTGAGCTCAATTACGCGCTGCTGATGCGTAATTTCTCCGG -GGAAACCACGCGTAATCCCCACGGTAAGTGATTAATTTCGATTATTTTTCCCGGATGGAAAATTCTTAGA -AACCGATCACATACAGCTGCATTTATTAAGGTTATCATCCGTTTCGCTGAAAAACATAACCCATAAAATG -CTAGCTGTACCAGGAACCACCTCCTTAGCCTGTGTAATCTCCCTTACACGGGCTTATTTTTTACGCGTAA -TACAATGAAATAAAAGGATTTATTTCTGGTCACGTCCACACATTGACCACATCGACAAAAAAGCCCCTCG -ACTGAGGGGCTTCCTGTTTCTAATTACATCCACATAATTTGCTGCCCTGACGGCAACGGGTGCGGCCTTA -CGACGTGGACTTCTCCCGGCTTCACAATGTATCGCTGTACCGACTCATAAGTGATGAACGTGGCGCTGCA -ATTCACGTTCTGACACTGGTGATAACGCTCTTTTGTCGTGTCAGTGATATAGCGGCTTGTACGCGCATGT -GCGGCATGCTGGCATAAAGGACAATGAAACATCGCGAGCACCTCTTCCGGTTTTGTTGATGGTGCCATTT -TAGTTAATTTACCCTTACAAAACAAACAGATAAAATAAAAACATCACTCATTATCTTCTGTTTCGTACCC -CACATCAGAAAGCCTGACCTCAAGCTCTAATGACGTCGTGAAGCCGCTATTATTCAGAAAATGTGTCACC -TTAGTGATTGTCCAGTCCTGCTCGTCTATGACGCGCTTAAAGCCAGACACTTTGACCGGTGTTTCCGTGT -AAATATCTGCCCGACCGGTAGCCAGGCTGATGGAGAACTCTGCTACACGGGCTTATTTTTTTATGCATAA -GCCCTATCTCTGGTAACCGTCTTCCATTGACCACATCGATAGAATCCTCCTTCATAGCACGATGCCTTTC -ACTTATCGGCATCGTGCTCCCACAGGTTCCGGCTACGCACAGCCAGAACGCGCATATTTGACGCTTACCA -AAAAATATTCTCACTCTCCACATTTGAATGTCAGACGAGCGACACCATGTAATCCTACACCTTCTGTCTT -CAGCTCAACTATTTGCATTTTTTTGCCCTGAGTAACACAGAAATGAGTTGCATCATTTTTTACTATATTT -TCTGCACCAGATATTCTACCCCTGGCTAAAGAAGCTTCGGCTTCGGTGTAGTATTGGTTATCGAGTTTAC -GCTGAATATTACTTTTATATGCAAGACCAAATTTACCGATACTTGTCTCATCATTATGCACAGCACAACC -AGACATAATAAAAATACTAATTAATGATATAGCAGCTATCTTTTTCATCTCACCTTCCCCCATTAAATAC -CAACGACACTCTCTAGTGTTTAAATATAATAATGGCATGATTATTATAATTGAATAGGATTATAATAAAT -GTTCTGTACAACATTTCCTACATAAGTAGGAATTACGGACATTGAGGCCCTTCAGGGTAACTCCATGGGG -GCTTTAATATATTATATTGAAGATGCCACTGTTTAGTTGAATATTAGGTATATGCTCTTTTTTGAAATTT -ATCGGTGGCAGCCGTTAGTATTCGCTGTCCCCATTGCAAGCTCCTGGTGGTAACCACTGAATCCTCCATA -CTTGAACTGACTTTTTATCCTCCGACTTTCATCCTGTTCTGACTCCACCTTTTGTTTTCTGCTCTACACT -ATCTACAGACCAATCATAAAGGCACATACGATCATGGCAGAATTTCCCGCCAGCTTACTGATTCTTAATG -GCAAAAGTACTGACAATCTACCCTTGCGCGAAGCAATTATGCTGTTGCGTGAGGAAGGAATGACGATCCA -TGTGCGGGTCACCTGGGAGAAAGGCGATGCCGCACGATATGTAGAGGAGGCCCGGAAGTTTGGCGTCGCA -ACGGTGATTGCCGGTGGTGGCGATGGCACCATTAATGAAGTTTCTACGGCGTTGATTCAGTGTGAGGGGG -ATGACATACCCGCGCTGGGAATTTTGCCATTAGGAACCGCCAATGATTTTGCCACCAGTGTAGGGATTCC -TGAGGCACTGGATAAGGCGCTGAAACTGGCAATTGCCGGTGACGCCATTGCGATAGATATGGCGCAGGTC -AACAAACAAACCTGTTTTATTAATATGGCGACAGGCGGATTTGGGACGCGTATTACCACAGAAACGCCGG -AAAAATTAAAAGCCGCGCTGGGTAGCGTCTCTTACATCATTCATGGCTTAATGCGTATGGATACTCTGCA -ACCGGACCGTTGTGAAATCCGCGGTGAAAACTTTCACTGGCAAGGTGACGCCCTGGTCATTGGTATTGGT -AACGGGCGTCAGGCCGGTGGCGGTCAGCAATTGTGTCCGAACGCGTTAATTAACGATGGCTTGCTGCAAC -TGCGCATTTTTACCGGCGATGAAATACTTCCGGCTCTCGTATCAACCTTAAAATCTGACGAAGATAACCC -GAATATTATCGAAGGCGCTTCGTCGTGGTTTGATATTCAGGCACCACACGACATCACCTTTAATCTTGAT -GGCGAACCGTTGAGTGGGCAAAATTTTCATATTGAAATACTTCCGGCAGCGTTGCGTTGTCGATTACCAC -CAGATTGTCCACTGTTGCGTTAATCAAACTATTCTCTCTTGAACCAGGGAGAATCCGTAATGCCGGATGC -GGTGTAAACACCTTATCCGGCATACAGAACAATACTACACCGTAATTAATTTTACCCGCGTCTTCTGCAA -TGCCAGTTTATCCACCTCTGACACAGCATCATCGGTAATAATAATGTCAATTTTTTCGATTGGTAGTACC -TGATTAAAACCGCGACGGTTAAATTTCGATGAATCGAGAACGGCAATCACTTTATTAGCGGCTGTGACCA -TCGCACCGCTAATAGAATAACCTTCATTAAAGGTCGTAATACCATTAACCGCATCAATACCATCAGCACC -GACAAACATTAAATCGGCATTAATATCCTGTAATGAACGCTCGGCAATGGAACCATGCATCGAGCGCGTT -TTATGGCGGACCGTGCCACCACAGACGACCAGAGTAATGTCTTTATTTTCGGAAAGGGCAAACGCTGCCG -GGAGACTGTTGGTAATCACCGTGATATTTTTGGCGGTCATTAATCCTTCGGCGATAAGCATTGTCGTACT -TCCGCTGTCGAGAATAACGGTCTGATCTTACCCAGCAATAGTGGACACGCGGCTAAGTGAGTAAACTCTC -AGTCAGAGGTGACTCACATGACAAAAACAGTATCAACCAGTAAAAAACCCCGTAAACAGCATTCGCCTGA -ATTTCGCAGTGAAGCCCTGAAGCTTGCTGAACGCATCGGTGTTACTGCCGCAGCCCGTGAACTCAGCCTG -TATGAATCACAACTCTACAACTGGCGCAGTAAACAGCAAAATCAGCAGACGTCTTCTGAACGTGAACTGG -AGATGTCTACCGAGATTGCACGTCTCAAACGCCAGCTGGCAGAACGGGATGAAGAGCTGGCTATCCTCCA -AAAGGCCGCGACATACTTCGCGAAGCGCCTGAAATGAAGTATGTCTTTATTGAAAAACATCAGGCTGAGT -TCAGCATCAAAGCAATGTGCCGCGTGCTCCGGGTGGCCCGCAGCGGCTGGTATACGTGGTGTCAGCGGCG -GACAAGGATAAGCACGCGTCAGCAGTTCCGCCAACACTGCGACAGCGTTGTCCTCGCGGCTTTTACCCGG -TCAAAACAGCGTTACGGTGCCCCACGCCTGACGGATGAACTGCGTGCTCAGGGTTACCCCTTTAACGTAA -AAACCGTGGCGGCAAGCCTGCGCCGTCAGGGACTGAGGGCAAAGGCCTCCCGGAAGTTCAGCCCGGTCAG -CTACCGCGCACACGGCCTGCCTGTGTCAGAAAATCTGTTGGAGCAGGATTTTTACGCCAGTGGCCCGAAC -CAGAAGTGGGCAGGAGACATCACGTACTTACGTACAGATGAAGGCTGGCTGTATCTGGCAGTGGTCATTG -ACCTGTGGTCACGTGCCGTTATTGGCTGGTCAATGTCGCCACGCATGACGGCGCAACTGGCCTGCGATGC -CCTGCAGATGGCGCTGTGGCGGCGTAAGAGGCCCCGGAACGTTATCGTTCACACGGACCGTGGAGGCCAG -TACTGTTCAGCAGATTATCAGGCGCAACTGAAGCGGCATAATCTGCGTGGAAGTATGAGCGCAAAAGGTT -GCTGCTACGATAATGCCTGCGTGGAAAGCTTCTTTCATTCGCTGAAAGTGGAATGTATCCATGGAGAACA -CTTTATCAGCCGGGAAATAATGCGGGCAACGGTGTTTAATTATATCGAATGTGATTACAATCGGTGGCGG -CGGCACAGTTGGTGTGGCGGCCTCAGTCCGGAACAATTTGAAAACAAGAACCTCGCTTAGGCCTGTGTCC -ATATTACGTGGGTAGGATCAGTCATCCCTTCGTGGATCATTTTGACTGCCGCCTGCGCTATTCTGTTTTT -TGGCGCGCTGGCGAGCTGAAATCGCTCTTTAAACCCGACTTCCTGGGTCTCGGTTTCACTATTACCAGAC -ATTATTTTCGCCGCACCGCCATGAAAGCGCGTAACCACGCCTTTTTGTTCGAGAAAGCGCAAATCGGCAC -GGATTGTCGCTTCCGAGGCAGCAAATACTCCCGCCAGATCCTGAACAAGCACGGTTCCCTGTTCATTCAC -TAATTGGATGATCTTATTCCTTCGCTCGAATGAATTCATCGTCATTTACCCATATTCAATTGTGGCTAGT -GTAAACGAAGGGGGACCATTGGTGAATGATCTGTTTTGCACAATACCGGGCCAGCATCACGCTGGCCCGC -GGTTTCAGGGAATGAGCAACACTTTGCCCGGCATAGCATTACGAGCGATGTCACGCACCGCCTGGGCGAA -GCTTTCAAAGCTTCCACGGTGAGCGATTAATGGCTCCAGGCTTAACTTACGTTCTGTCAGCAACCGGCTC -GCCGTTTCCCACTCCTGCCCCGGCCAAGGGCTGGAGTAGTTCATCCAACTGCCGATAACCGTCAGCTCTT -TACGCAATATTTTGCCAAACGTTGCCGATGTTAAATGCAGATCCTGATGCAACGTGCCCACCAGCGCCAG -TTGGGCATGAGGACCGGCAATCTCTACCGCCAGTTCGACAGTTTGCGGTACGCCAGCCGTCTCGAGGATA -AGCTGATTAAAGCGCAGTTCGCGTAAAACGCTCTGCATTTGCGGCGCGCTCATTTCGCTACTGTTAAATG -TTTGCATCGCACCGAAAGATTTTGCCAGTGCCAGTTTTTCTGAACTAATGTCGATCGCCGTCACACTCTT -TGCTCCCAGCGCGACAGCGCACTGAATGGCCAGCAGGCCAATGGTTCCGGCACCAATAATAATAACGTTT -TTATTCTCACAACCTTGCGCTAAATGAAAAGCATGCAGACCAACGGTAATCGGCTCAATAAAAGCCCCAT -CCTCAATAGGCATATCCGTGGGTAGAGCAAAGACATTTTTTCGCTTAACGACAATATATTCAGCAAATCC -ACCATCACGCCGCGAGCCAATAAAATCATATTTTGCGCACTGGGAATAAAACCCTTTCAGACACTCTGGA -CAAGTAAAACAGGGTAATAACGGCACACAGGCAACCGCATCGCCAGGGTGTAAATCATCAACACCGGATC -CCACCGCATCAATATAGCCGCTAAATTCATGGCCTAACGTTATTGGATAATAATGTGCACCATTTTTAAA -TATCCTGGGTAAATCGGAACCACATAAGCCCGAGCTGGCAATTTTTACCCGCACCTCATCCTGATGTTTA -ATTTCAGGAATGACGCTTTCTGCAACGCGCACGATACCATCAGTATCATTCACCACTGATTTCATAAAAA -CTCCTGATTGTTAAGGGGGATAACCTCCCCCTCAGGTAAAAATTATTCTGCGAGAACGACTTTCTCTTGT -TTAATAAAGCCACGCGCTCTACGCCAGGTCATGAAAATACCGGTCAGATAAATTGCACCGATAATAATGA -AACCGGGAATATTTTGCGGGGAGAAAACCTGAATCAGTAACCAGGTAATGGGAGAACCGCCCTGATCCAT -TGAAGCCACCATACCCCCGGCTTTTAACGCCCCAGCATTAGCCGCCAGTTGGGTGTGCAAACCAATAGTT -TGCGTCGCGATCCACAGGGTGATGCTCATAATGATGACACCCGAGATTAAGGTGCGGAACAGATTTCCAC -GATGCACGGCGACCGCCATCGCCACGAAGAAGCCGATGGTGGCAAGATCGCCAAACGGCAGCACCTGATT -ACCCGGCACACAAACAGCAATTAAAATGGTGAGTGGGATAAAAATCAGGCTTGCCGATACCACCGCCGTA -TGTCCCAGCAGCAACGCCGGATCAAGGCCAATCAGGAACTCCTGACCGCCGAACTTCGCCTGTAAACGAC -TACGAGCCTGCTTAGCGATGGGCGTTAAACCATCCATGATGGGTTTAATCACCCGTGGCATTAGCAGCAT -CACTGCCGCCGTTTTTACCGCCAGCTGCAATACACCTTTGACATCGTAACCCGCGAGGATGCCGATAATC -AGCCCCATCACAAAACCCACGGTGACAGGCTCGCCAAATGGACCAAATTTGCGCTGAATATCGTCGGCGC -TAAATTTAATTCGGTTAACGCCTGGGATTTTCTCGATGATAGCATCGACCAGCACCGCAATCGGCCCCAT -ATACGCCGACGTACCGTGCGGAATAGCAATACCTTCCAGCTCAAAGAAATTTCGGGTATCGCGGGCAAAC -CAGTCGCCGAGCTTATAAACAAACGCCGCGTGAATTACCACACCTGCCATCCCTATCATCCATGAACCGG -TTGCCAGATGCAGCAACGCGCCGGTGAAGGTCATATGCCAGATATTCCAGATATCAACATTTACCACCCG -CGTCATACGGGTCAGTAACATCGCCACGTTAACCAGAATCGCAATCGGAATCGCCACCAGCGCAATTTGC -GACGCCCAGGTCATTGGTGAAGAGCCCGGCCAGCCAACATCGACCACATGCAGATTCAGGTCGAAATTTT -CCGCCATCGCTTTCGCCGCCGGGCCAATGGAATCCAGCATTAAGCCAATCACAAGGCCAATGCCAACAAA -GCCAATCCCGATATGCAGACCCGCTTTAAAGCAATCGCCTGCCTTCATGCCTAATATTTTAGAAAAAATA -ATGATGACAATCGGCAGCATCACCGTAGGGCCGAGGTCGAGAATATAACGCATGACTTCTGAAAACATAG -GTCACCCCTGTAAGATAGTCAGAATTTTATTTTGTAATGCTTCGATACCGATACCAGAAATAAAAGGCAT -GCCGTGAACTAACGGAATATCGCCAAAACTACGATCCACTTTGGCAGTGGTGCATATCAAATGCACACCA -TCCATATAGGTTTCTATTTCATTAACCCGACACTGGATTAATTCAACAGGAATATTATGATTCTGACACA -ACTCTTTAATTTCTTCCGCCGCCATCGTAGAGGTCGCAACCGCGCCTCCGCAAGCGACAATAATCTTGCG -TTTCATAAATAGTCCTTTTTATTGTTACAGAGGGATTTATTCGTCTGAATCTAAAACATACTTTGTGAAG -TATTCCTTTAACTGGGTTTCAGGAAGAGTGATTAGTGTCTCGACGATATCGGGCTGTTGTAACTTGCCAA -ATAAACAGCGTAAAAGTTTCAATTGCTGCTGCGGATTTTCCACAATCAACGCAATAACCAACGATACCGC -CACGTCGTTATCATCATCCGCTTGCTGAAAATGAACTTTATTTGTTGGCCTTAACAGATAAATGGCTGAC -GACTTAGCATGAATCGCCTCACAATGCGGTATTGCAATAGCGTGCTGCTCAAGCATTATCCCGGTAGGGA -ATTCTGCTTCTCTGGCAATTAATGCCTGTGGCCAGGTATCATGAACCACACCTTTGGCGAGCATCTCATT -ACCGATATGGGTTAAAACTTCGCTACGATCGACAAAAGAAATTCCGCTACGAACAAACAGGTTAGTCATA -TACCGTCCTTATTCCGCACAGCCGTAGCGATAGGCGCGCAAAACATCATAAATTTTATCCATAATCAGCT -GATGCGGTATTGCTGATAATTCCCCGGACTGAATGCGTTCAAATTGTTTGGGAAGATACTGACTAATCAT -GCCCAGTGGGATGTCCACGCCTTCAAGATTCACCATCATCGTTTCGACGCTATTTTTAATCCGACTATGC -GGCCAGTAATAACGAATACGATCCGACAGGCTGTAACGAATATCCAGTAATGAATCGTTAAAACCCGTAC -GATAATATTTTTTCCAGTATTGCGGTTCGTCGAGCATCACTTCTTCAATTACCGCCAGGCAACCGCTGCG -ATTTTCAGGGGCGATAAGTTCCTGCTCAATTTGTGCCAGTGCAAATATCGCCTCGCGTAAAGCAAAGGTT -AATGCGGGACCGACTTTCAATATTGCAAAGTGATCGCGGACTAATTCCCAATAAGCCGTCCGGGTCTGGT -AATCGGTAGAATGTGCTTCATAAACCATTCGGGTGTTTTCTATCCATTGCGCCAGCGGCTGCGCTTCCTG -CGGCTGATAATGGATAATATTGCTGTGATCAAATTCCACACCCGGCTGCACCACGATGGCAATCACACGT -GTTAACGCCTCTGTCAGCCCACGGGCAATAAAGGCCTTTTGATGCGTACGTAAAGTATTGGCGGCATCTT -CAACATGGGTGATGTGTACTGACTGAATGGCGCTGGCCTCACCGCCCGGAACCGGAACTTCGGTGCCAAT -GACATAGCTCAGTTGCTCACGCTGGCAATCTGTCGCCACACTTTCCGCAGCAAAGCAAAGCACAGCAGCT -CGTTCCGCAACCGTTTCTGGTGCTAACGGTATGGGATCCCCCGCGCAGGACATTGACGCATCAAGATGAA -TTTTACTGAAGCCGGCACGAACATATTCCTATACCAGCTCGACGGATTTTTCCATCGCCGCATCCGCATT -TTCTTGCTGCCAGCAGTTTGGCCCCAGATGATCGCCGCCGAGAATAATGCGTTCGCGTGCAAACCCAACT -TTATCGGCAATCGTAAAAACAAATTCGCGAAAGTCTGCCGGTGTCATTCCGGTATAACCGCCAAATTGAT -TGACCTGGTTTGACGTTGCTTCAATCAGCACTTTGCGCGTGCTGTTGCGATCAAATGCCAGCGCCGCTTC -GATAACCAACGGATGGGCAGAACAGACTGAACATATGCCGATATGTTCACCAGCTTTATGCCGGGCAATT -AACGTTTTCATGTTTTTTCCTTGTTAAATGGCAGGTGCGTTATGCCCTGCCCTCGCAGCCACAATCGGCA -ATCACTTTGCTCACCACATCGCGCATTGCGGATTTAGCCGACTGCAAATAATCCCGGGGATCGGTCGCTT -CAGGGTGCTCGGTCAGGTAATTTTTTAACGCCTGCGAGAAGGCATTTTTCAGCTCCGTTGCAACGTTGAT -TTTGCATATCCCCAGTTTGATGGTTTGCTGAATATCCTTAGTCGATAACCCTGACGCGCCATGCAGCACC -AGCGGTAAGTTCACCCACTGGCGAATGTTCTCCAGTCTAGAAAAATCAAGCGCCGGTGCGCTGGCATACA -TCCCATGAGCCGTGCCGATGGCGACCGCCAGGGAATCAATTCCGGTTGCCTCGGCAAATTCACGCGCCTG -AGCGGGGTTGGTGTACAACGCATCGGCTTCATTGACTTGCACATCATCTTCCTGGCCGCCAAGTTGCCCC -AGCTCCGCCTCGACGCTGACATCAAAGCGATGGCAAAAATCCACCACCTCTTTGACCCGTGAAATATTTT -GCGCAAAAGGCAAATGCGAGGCGTCAATCATGACTGAGCGCACGCCAGAACGAACCTTCTGAGCGATATC -GTCAAATTTCGTGTGATGGTCGAGATGAATTGCCAGTGGATGGTGATATTGCTTCGCCATCGCGCTGACC -AGCGCCAACAGATTTTCTGTACCAGCATGAGTAAATGTGCCAGGCGTTCCGGCGATGATGACCGGCGCAT -GCAGGTTGGCAGCGGTTTCTACCACCACTTGCATCGTTTCGAGATTGTGAATATTGAATGCCGGAACCGC -ATAACCGCCGCGCTGTGCGTTGTTCAGCATCTGCTTTGTCGATACCACGTACATTTTCATATCCTGTCGT -TTGTTTTCGATTTCAAAATATAATGAAATTATTTGTTTTTAAATATCGAGATAACGATCACAAAAACGAC -AATATGAAAATTATTCGAGGAGTGAAAGGCAAAAAAACGGCCTCCCGATAGGGAAGCCGTAGCAAAGTGC -GCGTGTTTTTATGCCGGATGCGGTGTAAACATACGTGGCAGTGCTATGTAGGCATGATAAGACGCTTCAG -CGTCGCATCAGGCATAGGTTGCCGGATGCAGCGTAAACGCCTTATCCGTCCTACGGGGTGGTGTTGTTCG -TATAAGGCGTATCAGGCGATAGTAATTTTGCTATCGAGATAAACGTCCTGCACGGCGTTAATCAGTTTCA -CGCCGTCAGCCATCGATTTCTTGAACGCTTTACGTCCAAGAATCAGCCCCATTCCGCCTGCGCGTTTGTT -GATAACCGCAGTACGCACTGCATCGCTGAGGTCAGTTTCACCGCCCGCAGCACCGCCGGAGTTTATCAAC -CCAGCCCGACCCATATAGCAGTTAGCTAACTGATAACGCACCAGATCAATCGGGTTTTCGCTGGTCAATT -TGCTGTAAACACGATCGTCGGTGTAACCGTAATTAATTGCTTTATAGCCGCCGTTATTTTCCGCCATTTT -TTGTTTGACGATATCTGCACCGATGGTTGCCGCCAGATGGTTTGCCTGACCGGTCAGGTCGGCGGAAACA -TGGTAATCAACGCCATCTTTCTTAAAGGCGGAGTTACGCAAATAGGCCCACAGCACTGTCACCATACCCA -GCTCGTGCGCACGTTCAAAAGCCGCAGAAATTTCTTCAATCTGGCGACGTGACTCTTCCGAGCCAAAATA -GATAGTCGCACCAACCGCAACCGCGCCCATGTTGAACGCCTGCTCCACGCTGGCATACAGCGTTTGATCG -TAGGTATTCGGGTAACTTAGCGTCTCGTTGTGATTAAGTTTGACGAGGAATGGAATGCGATGCGCATAAC -GCCGCGATACCGACGCCAGCACGCCGTAAGTTGACGCCACACAGTTACAGCCCGCTTCGATCGCCAGTTC -AACAATGTTTTTCGGGTCAAAGTAGAGCGGGTTAGCAGCAAATGAAGCTCCGGCAGAGTGCTCAACGCCC -TGGTCAACCGGCAGAATAGAAAGATATCCTGTGCCAGCCAGACGCCCGGTGTTGTACAACGTCTGCATAT -TACGTAACACCGCTGGCGGGCGATTATTGTCAATCATTACGCGGTCTACGTAGTCATGTCCGGGGAGATA -AAGCTGGTCAGAAGGAATTGTCATACAACGGTGCTGTAAAAGGTTGTCGGCGTCTTTGCCAAGCAACTGC -GCAATATCTGTCATTACTATGCTCCCGTAAATTCCGATTGGATATCGGCTATGGATTGTCCTGGCCCGCC -TTTTGCGGGCAATCATAATCCTGGTCGTTACGGGCGAGTTTTTCCATCTTTTGGATGTTTTTTCAGCGTT -TTCTGTTGGCTCGATTCATCAGAAAAAATGTTAGCGCGGTCAAGTTTTCACCGCAAAGGTATTTAAAACG -TATTATTAAGTGGTATTGTCATCGCGTACCTTACATTACCTGTCATGAAGGAATTAAAAGATGAAAACAA -CAGCAAAGCTGTCGTTCATGATGTTTGTTGAATGGTTTATCTGGGGCGCGTGGTTTGTGCCATTGTGGTT -GTGGTTAAGTAAAAGCGGTTTTAGTGCCGGAGAAATTGGCTGGTCGTATGCCTGTACCGCCATTGCGGCG -ATCCTGTCGCCAATTCTGGTTGGCTCCATCACTGACCGCTTTTTCTCGGCGCAAAAAGTGCTGGCGGTAT -TGATGTTCGCAGGCGCGCTGCTGATGTATTTCGCTGCGCAACAGACCACTTTTGCCGGGTTCTTCCCGTT -ACTGCTGGCCTACTCGCTAACCTATATGCCGACCATTGCGCTGACTAACAGCATCGCTTTTGCCAACGTG -CCGGATGTTGAGCGTGATTTCCCGCGCATTCGTGTGATGGGCACTATCGGCTGGATTGCCTCCGGTCTGG -CATGTGGTTTCTTGCCGCAAATACTGGGGTATGCCGATATCTCACCGACTAACATCCCGCTGCTGATTAC -CGCCGGAAGTTCTGCTCTGCTCGGTGTGTTTGCGTTTTTCCTGCCCGACACGCCACCAAAAAGCACCGGC -AAAATGGATATTAAAGTCATGCTCGGCCTGGATGCGCTGATCCTGCTGCGCGATAAAAACTTCCTCGTCT -TTTTCTTCTGTTCATTCCTGTTTGCGATGCCACTAGCGTTCTATTACATCTTTGCCAACGGTTATCTGAC -CGAAGTTGGCATGAAAAACGCCACCGGCTGGATGACGCTCGGCCAGTTCTCTGAAATCTTCTTTATGCTG -GCATTGCCGTTTTTCACTAAACGCTTTGGTATCAAAAAGGTATTATTGCTTGGTCTGGTCACCGCTGCGA -TCCGCTATGGCTTCTTTATTTACGGTAGTGCGGATGAATATTTCACCTACGCGTTACTGTTCCTCGGTAT -TTTGCTTCACGGCGTAAGTTACGATTTTTACTACGTTACCGCTTACATCTATGTCGATAAAAAAGCCCCC -GTGCATATGCGTACCGCTGCGCAGGGGCTGATCACGCTCTGCTGCCAGGGCTTCGGCAGTTTGCTCGGCT -ATCGTCTTGGCGGTGTGATGATGGAAAAGATGTTCGCTTATCAGGAACCGGTAAACGGACTGACTTTCAA -CTGGTCCGGGATGTGGACTTTCGGCGCGGTGATGATTGCCATTATCGCCGTGCTGTTCATGATTTTTTTC -CGCGAATCCGACAACGAAATTACGGCTATCAAGGTCGATGATCGCGATATTGCGTTGACACAAGGGGAAG -TTAAATGAAAACAGAACGTATTCTCGGTGCTCTTTATGGGCAGGCGTTAGGGGATGCGATGGGGATGCCC -TCCGAGCTTTGGCCACGCAGCCGCGTTAAAGCACACTTTGGCTGGATTGACCGTTTTCTTCCTGGACCAA -AGGAGAATAACGCGGCCTGTTATTTTAACCGCGCCGAATTCACCGACGATACCTCGATGGCGCTGTGTCT -GGCGGATGCGTTACTGGAACGTGAAGGCAAGATCGATCCGGATCTGATTGGGCGTAATATTCTCGACTGG -GCGCTGCGTTTCGACGCCTTTAACAAAAACGTACTAGGTCCGACCTCGAAGATTGCGCTTAACGCCATTC -GCGACGGTAAACCCGTTGCTGAACTGGAAAACAACGGCGTGACCAACGGCGCAGCGATGCGCGTCTCGCC -ATTAGGTTGTTTGCTTCCGGCGCGTGATGTTGATTCCTTTATTGATGATGTAGCGCTGGCGTCCAGCCCG -ACCCATAAATCCGATCTGGCGGTTGCAGGCGCGGTAGTCATCGCATGGGCGATTTCTCGTGCCATTGACG -GAGAAAGCTGGTCAGCGATTGTTGATTCCCTGCCTTCAATTGCGCGACATGCACAGCAAAAACGCATCAC -TACGTTCAGCGCCTCACTGGCGGCGCGGCTGGAGATTGCGCTGAAAATTGTGCGCAATGCCGACGGCACC -GAATCCGCCAGCGAACAGCTTTACCAGGTCGTTGGCGCAGGTACCAGCACTATTGAGTCCGTTCCGTGCG -CCATTGCGCTGGTTGAACTGGCACAAACCGACCCGAATCGCTGCGCCGTCCTGTGCGCTAACCTTGGCGG -CGACACAGACACCATCGGTGCTATGGCGACGGCAATTTGCGGCGCGTTGCATGGCGTTAACGCTATCGAT -CCTGCGTTAAAGGCGGAACTGGATGCGGTAAATCAGCTTGATTTCAACCGCTATGCCACAGCGCTGGCGA -AATATCGTCAACAACGGGAGGCGGTATGAGCGGCGCTCGATTACACACGCTGCTGCCTGAATTAACCACG -CGTCAGTCGGTGATGGTCGTCGGCGCGGCGGTCATTGACGTGATCGCCGACGCTTATGCCCTCCCCTGGC -GTGGGTGCGATATCGAACTGAAACAGCAGAGCGTTAACGTTGGCGGCTGCGCACTGAATATTGCCGTGGC -GTTAAAGCGCCTCGGCATCGAAGCGGGTAATGCCTTGCCGCTCGGTCAGGGCGTGTGGGCGGAGATGATT -CGCAACCGGATGGCAAAAGAGGGCTTAATCAGCCTGATCGATAACGCCGAAGGTGATAACGGCTGGTGTC -TGGCGCTGGTTGAGCCGGATGGCGAACGCACTTTTATGTCATTCAGCGGTGTTGAAAATCAGTGGAATCG -CCAGTGGCTGGCGCGATTAACCGTTGCGCCTGGCAGCCTGCTCTATTTTTCCGGTTATCAACTGGCCTCG -CCCTGCGGCGAATTGTTAGTGGAATGGCTGGAAGAGCTGCAAGACGTGACGCCGTTTATCGATTTTGGCC -CACGTATTGGCGATATCCCGGATGCATTACTGGCGCGGATCATGGCCTGTCGACCTTTAGTGTCGCTCAA -TCGTCAAGAGGCTGAGATTGCCGCCGAACGTTTTGCTTTATCCGCAGAGATAACAACACTTGGCAAGCAA -TGGCAGGAGAAATTTGCCGCGCCGTTGATCGTTCGTCTCGATAAAGAAGGCGCATGGTATTTCAGCAACG -ACGCTTCTGGCTGCATTCCGGCATTTCCAACGCAAGTTGTCGACACCATTGGGGCGGGCGACAGTCATGC -CGGTGGCGTACTTGCCGGGCTGGCCTCTGGTCTGCCACTGGCGGATGCCGTATTACTGGGCAATGCAGTG -GCGTCGTGGGTTGTCGGGCATCGGGGCGGTGATTGTGCGCCAACGCGCGAGGAACTACTCCTCGCACACA -AAAACGTATAGATCGCTGCGACAGTGGCTAATGCTGTACTCAATAGGCCGTTGCTGTTGGTCAAGCGCCA -CTTGCTTGATCACCAGCACCGGTATTTTGCTATCTAACTGAATATGTGACTGAAACTCGGCATCCGGCAT -CCGGGCGCTAACGCGGGAACGCGTACGTTGTGGGTAAATGTGCTGGCTGCGGAAATAGTCATAAAGTGAA -ATCCCGATGGCATCAACATCATGAATTAAATGCGCCGGAACCCACGATTCCTCAATCGATACCGCTTCTT -CATCGACATAGCGAATACGCTTAAGCAAAAAGACATCACTTCCTGCTTCGACCGCCAGCTGCTGCGCGAC -TTCTTCGGGACATTTCACGACACGCTTGTTAACCCATAGCGTATCGGGCTTTTTCCCGCGCAATACCACC -TGCTGAGAAAAACCTCGCGCTTCTTTCAACGAGTATTCGAAGATGTTGTTGATCTGCGTGCCGTAACCGC -GCGAACGCGTCACCACACCCTCTTCTTCCAGCGCCTGCATCGCCTTGCGCACCGTAATGCGCGAAACGCC -GGTTAACTGACTTAAATCACGCTCACCGGGCAAAATATTGCCATGCTCCAGCACCCCGCTGCGCACGGCA -TTTTTTACCGTTTCGGCAAACTTAATATAAAGCGGCGTGTTATCCGCCGCTAAAATACGCTCGTTCAGTT -GGGCAATCAGCTGGGTATGCGCTTGTTCCATTTGTCTTTTTCCTGCCGGGGAGTCTGGTGGGAGTATATC -ACTGCTTCTTATTTAAGGCGTTTCTTTAATCCCATCAACGAATGCCTGCAACTCCTCCACCGTGCCATTA -AATACATTAAAATCCACCGGACCATTGATGCCATCTACCTGTCCACGGTCGGAATGCTGCCAGAAGCGCC -AGGCCATTCCGTCATTGTCCGGACGACGTTGATAGTAGTGAGCCACCCACCACGGATATTCATTGAAATA -GCCCGCCAGATTGGTGTGATAAAAAACGGCTCCTGAGTAAATAATCGGCTTTTTCCCCGTACTTTTTTCG -ACCATTTTTAGCCACTGACTTACCCGCTTGCGTAATTCTTTTGCCGATAATTTTCCCCGTTCTTCTACGT -CCAGCACGGCAGGGAAATCGCCTTGTGAGAAATCCACCGTTTGCAGAAATAATCTCGCCTGAACTGAAGC -GGATACCGACGGGGAGAAATAATGATACGCCCCACGCAGCAGGCCATTTTCGCGGCTTAGTTGCCAGTTA -CGCGAAAAATAGGGGTCCACCAGCTTTTCGCCTTCCGTCGCCTTAATAAAAGCAAACTGTAAGCGGATAC -CATTGTCGCGCATTTTTGCCACCCGCTGCCAGTCGATCCGCTCCTGCCAGCGCGAAACATCTATTCCGTG -AATGGTGTAACTGGCAGGAATGCGAATAGCGAAAGATTTAACCGGGCGATAACCGTAGAAGTGGATGTAG -TCTGTAATCTGAACTGCTGTCGAATAGAAAAAATTCACCGTCTGACGCGGATAAATTGCAACGATGGAAA -TTAGCCCAAGAGCGCATAATAGAGAGGTGAGTTTTTTTCGACTGGTAATTCTTAGCTGCATTGGTTTCAT -CCCTGAATGTCAGTGCCAAAGGCTGACAATAACCAAAGCAGCTATAGTACGGTGCTCACCACCAGGCGTG -GAAGTGGTGAACCGGACCAATACCGTGACCAACTTCCAGCGTGTCGGCCTGGGCTAACGCCGATGAAAGC -CAGCTTTTTGCCTCCTGTACGGTGTCAGCCCAGTTTGTATGGCGCGGGCGTAGTGCAGCCAACGCCGCAG -AGAGTGTACAACCAGTGCCGTGGGTGTTTTTGGTCATAATGCGCGGTGCGGTAAACCGTTGTTCACCCTC -GCGGGTAAACAGCCAGTCCGGGCTTTGCTCATCATCCAGATGACCACCTTTCATTAGCACTGCGCCACAG -CCCATCGCCAACAGCGATCGCCCTTGTTCCAGCATTTCCTGTTCGGTGCGCGCGTGTGGCGCGTCGAGCA -AGGCGGCAGCTTCGGGCAAGTTTGGCGTTATTAATGAAACCTGTGGCAATAATCGACTGCGCAGCGTAGC -AACCGCCGAAGGTGAAAGCAGCGGGTCGCCGCTTTTTGCCAGCATAACGGTGTCGAGTACCACGTTTTGG -ATCTGATAACGTTGCAACCGTTCTGCCACCGCTTCAACAATATCGGTTTCCGCCAGCATACCGATTTTAG -TGGTATCGATTCGCACATCGCTGAACACCGAATCGAGCTGGGCGGCGACAAAATCAGGCTCAATGCGATA -CACCGACTGTACGCCACGGGTATTTTGCGCCACCAGTGCAGTAATAACTGAGCAACCATAAGCGCCAAGT -GCCGAGAAGGTTTTAAGATCGGCCTGAATCCCCGCACCACCACTCGGATCAGTACCGGCAATCGTCAGAG -CGTTAATTCGTTTCATGCCTGCACCTCCTGCGTCAATTGCCAGAGCGCATCAAGGAAATGTGGAACAAAA -CTGCCTGGCCCCTCGCTTCTGGCGACTGCGCGTTCTCCGGCTTGTTTCATCCAGTGACAGGCAGATGCGA -CATTTTCCAGCGTATCGCCTGGTAACGCACAGCAGGCAGCGACAACCGCCGATAATGCACAGCCAGTTCC -TACCACTTTGGTCATTAACGGATCACCACCGTGAATACCAATGATACGATGTCCATCGGTAACATAATCC -ATCTCGCCAGTGACCACGACGATTGCGCCAGTTTCCCGTGCCAGTGTTTGTGCAGCGGGTATCGCGTTAG -CTGCGGCGTCAGTGGTATCCACTCCCCGTCCGCCATTAGCAATGCCAGCTAATGCCATGATTTCCGAAGC -ATTACCACGTATCGCTGCCGGTTTAAAAGATAAAAGTTCATGACAAAAATGGCGGCGATAATCGAGCGCA -CCCACCGCTACTGGATCAAGCGTCCAGGGTGTTTGAGAGCTTTTTGCTTGCTCAACGGCAGCACGCATCG -CCTGAGCGCGTGGCTGCGTCAGTGTGCCAACGTTAATCAACAAGGCACTGGCGATAGCCGCAAACTGACT -GGCCTCTTCGGTTTCGATAACCATCGCTGGCGATGCACCGAGCGCCAGCAAGGTATTGGCGGTAAAGGTT -TGCACCACATCATTGGTCATGCAGTGCACAAGAGGGGAATGTTGGTGAAAAAGGTGTAACGCGTGCGCAG -ATTGCGCTGAACCCAGCAGGTCGACTTGCATAGTTTGCTCCTGCCATAACGTGAAGAAGCAATGACCTGG -TGGTCCGTGACTTCCCTACGCTGGCATTATCCAGATCAGGTGATACGGGTATTTCTCAGCCTTCACGCAG -AAGGGCACCCCGAGTCGTTTGGTTGCGATGATAAATCGCAGAGGAGGATGGTAATGTCCAGCGCACGCGT -TGTAAACGAGGAAAAACGGCAGTTTTACAATCGCGTTAATAAATTATTTGATATATGAATCCAGCACCTT -CAGAACGACATCCAGATCTTCTTCACGTTTTAGCTCATCCCCCTGGTGAACGATGTGTTCCGTCAGATGA -CCTTTAATCACTTCCCGCATCAGACCGTTTACCGCGCCACGGATAGCAGCAATCTGTTGTAAAACTGCAG -CGCATTCGTGCGGCTCGTCGAGCATTTTCTTGAGCGCCACGACCTGGCCCTGAATCTTACTGGCACGCGC -TTTCAGTTTCTGTTTATCACGGATTGTATGAGACATGGCAACACCTGGTTAACAAGAATATGAAAAATCA -TAGCACTATTAATCTACTGGGGGGTAGTATCAGGTACTGGGGGGGAGTAGAATCAGATTGCCGAATTAAT -ACTAAGAATTATTATCATGACCGAATTTACAACTCTTCTTCAGCAAGGAAACGCCTGGTTCTTCATCCCC -AGCGCCATCTTACTTGGTGCGCTTCATGGCCTGGAACCAGGGCACTCAAAAACGATGATGGCGGCGTTTA -TCATCGCCATCAAAGGCACCATTAAACAAGCGGTGATGCTCGGACTGGCAGCAACTATTTCGCATACCGC -AGTGGTCTGGTTAATTGCCTTTGGCGGGATGGTGATCAGCAAGCGCTTTACTGCTCAATCAGCAGAACCG -TGGCTCCAGCTGATTTCCGCAGTGATCATTATTAGCACCGCGTTCTGGATGTTCTGGCGTACCTGGCGCG -GCGAACGCAACTGGCTGGAGAATATGCACGGGCATGATTATGAGCATCATCATCACGATCACGAACATCA -CCACGACCATGGACATCATCACCATCACGAACATGGCGAGTATCAGGATGCCCATGCACGAGCCCATGCC -AATGACATTAAACGACGCTTTGATGGTAGAGAGGTCACCAACTGGCAAATTTTGTTATTTGGCTTAACCG -GTGGCCTTATCCCCTGCCCGGCAGCAATTACCGTGCTGTTGATATGCATTCAGTTGAAAGCCCTGACACT -GGGCGCAACACTGGTCGTCAGTTTCAGCATTGGCCTGGCGTTAACGCTTGTCACCGTAGGCGTTGGCGCA -GCAATCAGCGTTCAGCAGGTCGCAAAACGCTGGAGCGGATTTAACACTCTCGCTAAACGCGCCCCCTATT -TTTCCAGTCTGTTGATTGGCTTAGTCGGTGTGTATATGGGCGTACATGGCTTCATGGGCATAATGCGATA -ACTCAATCCTTTAGGCTTGCATGTTATCTTCAGCCCAGGATGATTCTTAAATCAGCTATTTCCGCTGACT -CTCTGCTCGCTAAGGATGCTTTTAGGGCATCCTTTCATTTACACTTTTTACGAAATCATGGGATCACTAA -CAAAATATCGCTTGTCAGTTATATTGTATGGCAGGAAAGATATGCGACTGATATTACAGATCCCCAAAGT -GGAGAGTTTATGACCATTAAAAATAAGATGTTGCTGGGTGCGCTTTTGCTGGTTACCAGTGCCGCCTGGG -CCGCACCAGCCACCGCGGGTTCGACCAATACCTCGGGAATTTCTAAGTATGAGTTAAGTAGTTTCATTGC -TGACTTTAAGCATTTCAAACCAGGGGACACCGTACCAGAAATGTACCGTACCGATGAGTACAACATTAAG -CAGTGGCAGTTGCGTAACCTGCCCGCGCCTGATGCCGGGACGCACTGGACCTATATGGGTGGCGCGTACG -TGTTGATCAGCGACACCGACGGTAAAATCATTAAAGCCTACGACGGTGAGATTTTTTATCATCGCTAAAA -AAAGCCCCCTCATCATGAGGGGGAAATGCAGACACCTTGTTATTTTTTATTATTAGCCACTTGCTCGTCT -TGCTTGTTATTAGTCGTATTTCACGTTGATTAATGCGGTTGCCTCCAGTGCGCCAGATTTAACTTTGTTT -GTATCGTAGACGTAGTAACTGGCTGTTATCGGAATTGAAACCGTTGTATCTGTAAGTTTTGACTTCGCCG -CAACTTCCTTTAAATTTGTATATCCTTTACTGCTGTTAGTGATATTTAAAAGTGTGACTGGCGAACCATT -ACTTTCAAGAATAAATCCTACGCCATTATCTTCCGCACCTTTCAGTATTGTGTTGCTGTTGGTTAACAAG -TCAGAACTTGATAAATACACCTGCATTTTCCGTGATGTTTGATTTTGTTGACCTAATAAATTTTTACAAC -GCAGAATAATATCCCCTTGTTTACTATTTATTGTTGCTTTGTTACCTGTGGCTGGTAATTGTGAAACGGG -AATACTGTCTAAAGTAATTAATAAATCGTCCGGTTTGCAGGTTGTGGTTATCGGGTTGTATGACAATGTC -AGATTAAAGGAATAGACACCTGCATTTTGTGCCAATGCATTTCTGTAGCTATTTACACATGCATCCCATG -ACTTGCCACCTAATAAACACAGTAGAAATTGTACTGCGGCACTCCCGCGTGTCGATGATGAAGCACTGGA -TAATGTCGCAACACCATTAATCATCACTGAACCGCCGCCCCCCGCAGAAACATTCACTTTTGCATTACTG -GCCGCAGGTGTCACCGCAACTGAATAACCACTGGTGAAACTGGTCTGATTATTTGACAACGTGATGTTGT -TTTTATTGGTCCATTCAAAATGTAAATTTAATTTTATGGTATCGTTATAAAGTCCAACAATAATATCCGA -CGGGCTCATAGGGGTGATAGTATTTGTACTTACGCATGACGAATCATTAAAATTATGCTCATATGTCGCC -ATTTGTGTTTGAGTAAGTGCAAAATCCCCCTGAACAACCAAGTTGTGCTGAACAGATAACTCACTATAAC -ATGCCGCATAGCTCACAGGCATAACCATCATCATTAATATAAATAGCATTATGCGAATTTCCATAGAACC -ACCTGACTATTACTGGCAAATATAATTTCTACTTTCATCAATCTCTTTACCGAAGGTGATTGTGCATGAA -AGTCCTTGTTGCTTATCAATTGCCACATTAACCGATGGCGGTACTTCATTGGTGCGAATAAATAACTGAC -TTCCCTGGCCGACAACGCCAATATTATGACCATGGATATCATTGACTTCATAACCAAACGTTAATGATTG -CCCATCTGCTCTTAACGCTTTTATAAACCATGGCTTGCGCTGATCGGTATCAAAATTAACCAGTACAACC -GCGCCGCGATAAGGGGCGGCAATTTTCCGGTTGCCACGTAATTCTGCTTCGCTATCGCTTTGCGACACAT -CCAGCATCAGGTGATTTTCCCGATAAGGTGTCATTCCGTCGTATATCACCACTCCATTACGGTTTGTTGT -GCGATATTTTTGCCCATTGACATAAGCATCTTTAATTCCTGGCGCATTCATCACAGCAAACGTTTCGGAA -AGACGGTTCGCCAGATTAACGCCACCCGACCAGGCGACAATGCCCCCTGAAACACTGGCTCCAGCCTGTC -GATAAGTACTCGACTGACTATAACTGCCATTCACTGTCGCAACCGGCGCGTTCCAGGTCAAATTCGCCCC -AGCTGTCGTTTCATTTCCCTGATGTTGATGACTCAGGTTGACACCATAATTGAACTGATCCCGACTCCCT -ACTGTTCCTGATAATCCCGTATTATTTGAGGCAAACCCCTGATCATCAAACGTCGTTGAGTTAGACATAT -ATATTTGCCGACGAGGCGTCGAAACGTCATCACCCCAATCAAAGGGAATCGATATAAAAATATTAAAACG -TTTCTCTTCATGATGATTCTCGTCATAAGCCTGGCTTGCCGCGAGGGTATAGCTTATCCGTCGCAGGTTG -TTGGAATAACTCAACTGATAATCCTTACTACTGCCGCTACGCCCCCAGTAATCTCGCCATAACGTACTTA -ATGACACAGACCCCCAACCTTCTGGCAATGACTGGCTCATATTGGCGGAAAAGCTATTTTTGCGGCCAAA -ATCGTTCTGGTAATAATCGGCAATGTCATAGACATCGTTTTCATCACGGCGATAATTATCTTTATTGTTT -GCCCAAACGTGATCGTTAAATGTCCGGTAATCACGCGACGAATAACGCCAGGCCGCCAGACCAAAACGCG -TCGACGTTTGGCTCACAAATTTGTTGTAGGCAATTTGATAACTTTGCCCGTCAAACACATCGCCGTTGTC -TTGTTTACTATGCGACTTAGTGGCATCGACGGAAATGGCACCAATGCGTGTATTCCAGCCAGCCCCCAAA -GTAAACGCGTAATAATTATTCGCGACCATCGAGCCACCATACAGCGTCAATAAATTATTAAAACCATACT -GATAACCCGCCTGGACAAAATCACTTTGTTTGCTCGCCCCTTCAATATGGCTACGACCCGCCGCTAAATC -ATATTTCGACACGCCGGGTTGCAGCATATTTGGCACCGCTGCATAAGGCACCAGATAGGTGGTTACCGAG -CCGTCCGCCTCTTTCACGCTGACATCAAGATCTGCTCCACCACCGGCCAACTGCAAATCTGTAATCGCGA -ACGGGCCAGGAGGAACCTCTTTCTGATAAACCACAAAACCATTCTGTTCAATAGTTACCAGCGCGTTACT -CTGAGCAATCCCCTGCACCCGTGGCGTAAAATTTTGTTTCGAGTTAGGCAACATCTGCATATCACGAAAC -AACCGCACACCTCTGAAGCGAACAGAATCAAAAATATCGCTTGATGTGTACATATCACCCACGCGAAGCG -TGCCGAGAAGTTGGGCAAATCCACGTTCCAGATACAGGGTATTGCTTTTCCACACCCCTGGATTGTTATT -TGTTTTACTGAAACTGGCATCAGAATGCAGTTGCCACCCCAGTAAATTTAACCCGCTGTTAAAACGTACA -TATGTACTCTTGTTATTACCCGACGCTTTATAGTCGCTGTAATACTGACTCAGATAATAAGAGGTATAAA -ACGCATTAATACCCCGCTCCCAGTTTTCCGGTGGAACATAGCCACTTTCCAGTTCTTCCACCCAGGCCTG -CGGGACACTGAAATCGAGACGAAAAACCCCGATATCCCAGGTATAGCTCCCACCCTGAACAAGTTGCTCA -AATGTTAAACATTGCTTACCGCTGGCGAAGTTATCGCTATTAATGCCTAACCGCTTGATAACTTCTCTTG -ATAAACATGTTTCTTGCGGGTTGTCTTTAACAATAATCTCATATTTCCCGCGCCATTGCTTATTGACATA -AATATCGATGTCATACTGCCCCGGTAAGGGTTGATTATCATCAAGACGAATATTTGCAACCTGCTGGTCT -TTCATTCCACCTATCATAAAATGGGTATCAAAGGTTTCTTCAGCTGCATAAGCTTCAATGCCGAGCAATA -ACGCTACGATTGCTGATGCAAGTGGGGTCATTCTCAACATAGGCAGCTCCTGCAATTAAATTTTGTCACT -AATATAGTTGCCATGGTCATCGATAATGGTCAGATGCCAGTTATTTGCATTATTACTTTTGACATTAACA -CTCTGACTTTCTAAGGGGGCAATCATAATAGTTTCATAATTGACTTTGACATTATTAGCTTTGACATCCG -AAATCGTCACCCAATTAGCTGAGTCATTTTTTATCACCAAACCATTGCCACTGCGATTTACCAGCAATTT -TTTAAATGTCGCTTTATTTACCGGAGCAATACCCGCTGGCCGGTAAAACAACTTAATTCTGTTTTGCATC -GCAAACTTCAGTGCATTCTTACCTTCTTGCTCTGGACTATTTGGTGGAATATCCAGAACATTCAGATAAA -AAATGCTTTCTTTATTAGTGGGCAGTTTATTCGGCATAATTTTGATTTTTACTTGCTGCCCGGAATTTGC -CCCTATTTTTGCCACTGGTGGCGTTAACATGAAAGGAACCTGAATTTTTTCTGGTGGTAATGACGTATCG -CCATCATCAATCCACGCCTGCAGCAGCGAAGAACGGTTTCCCTGGTTCATCAACTGCACCATCACTTCTT -TATTTTCTGCCGGGTAAATAATGCGCGTCCCGTAGATAACAATTCCGGCATGTGCAGGAAGGACCATAGA -AAAAATGAGTAAAGATAATAATCCTTTCATTTTAATGCCTCTTAAATTAAAAGGCCGCCATGGGATAGCG -GCCATGTTTATTACCTGGAGAAACTTACAATTTTATTTATTAATCCTGCGCCACACGCATAACCAGAGAA -GATAACACATCACCTGATTGCACTGAGTTATCTGTCAGTTTCAGGTATTTTGCTTTAAACGGAATAGCAT -ATTGACCTTCCGCTGTTTTATAACTCTCAATGTTAAAAGGTGCAGAAACATCCAGGACATCGCTGTTATC -ACCTAAATAGAGATAGTAACCCACGGTATCGTTGCTACTGGCTATCGCCTTATCGTTACCGGTTATTTTA -TCGTTGGTAATCAACGAGAGTTTTACACCAGCAACTTCTTTCGGGCAGCTAATTTTTAACATGCTGCTGG -TTACACCGACTGCATCATCATAGGTAGAATATTTAGCTTTACCTTCAAAGACACTGGTTGGTACAGTCGG -CATATTAATACTTACTGAATCACCACCCGCTTCGAATTTACACGGAGATTCTGCAATATTCCCCTTAATA -GTTAATGTTCCGGTATCAACGTCTGCAGCAAATACTCCAGCGCTCATAAAAAAAGAAGAAAAGACAGCGG -CAGCAATAATTGAACGTTTCATAATATGTTCCTTAATAAAATTTATTTTTGGTTGTTAAGAGTCTGTATC -TCTTGGAAACAAATTTCTCACATCAAAAAAGTTGCCGCAATGTAAACACATTGTTTTATTGATTTAAAAC -AAATTAACCATTGCAATATAAATACAAAAAATATTTAAGAGTATTAACTATTTATCGCATCTATCAATTA -ATGTAGATTTATGTAAATGGTATTGTTGATATCAATAAAAAAGCCGAAATCATTTATATAAATGATTTCG -GCTTTCTAAATGCAATTAAAATCAGGTTGCCAAATTAATCGTAGCGATTTAACACGATTCGACGTTTGCT -ATCGCTACCTGCAACAACCACTTCTGTCGTTACACCTTTGACGGGCGAAGAAAACAGATGACGGGTGTCA -ACATTATACGTTAACTGACCACAATGCTGTTGAGGTTGACCATTAACCATAGCCATACTGCATGTTGGGG -GACTGATCCTGCCATTAATCGCTAATGTGGCAGTCTCTGAAGAGAATGCGGGAGAAGCCAATCCATAGGC -AAGAAAAATAATTCCTGACAGCCAATACTTATTCATTGAACGTTATCCCTGTAGTAAAGGTTATGCCTGG -ATAGAATGAGTGCATAACAAACTATAGCTGTACATCCACTACACAGCCACGAAGGATGATAATGAAGCAT -TGCCTGTATGATCAATCGACTTTGTAGAGTTTCGGACGAAGGTCCGCAGAATATTCGCAGTATTAAATAA -GTGTTCATTAATGCGGCAAAAACTAATACACCGCATCAATGTAACATCTCTGCGGTGTATGAAGAATAAC -CAGAATGGTTAATAGGCGTTAGACCGCGCGGAAGGAAATCTCGCCTGGAATGACTTCACCCTGCCAGTAG -AGCTGAGCTGCAACGCGGTCAGCCAGCTGGCGGTAGATAGCGGTAAATTCGCTCTCCGGACGGCTGATAA -CCGTTGGCGTACCTTTATCGAGATCCTCACGTAAGGAGATGTGTAACGGCATCTGCCCCAGCAGCTGTGT -ATGGTATTTTTCAGCCAGTTTCTCTGCACCACCGGTACCGAAAATCGGTTCATGGTGACCACAGTTACTG -CAAATATGCACACTCATGTTCTCGACAATACCGAGCACCGGAACCTCGACTTTCTCGAACATCACAATGC -CTTTTTTCGCATCGATCAGCGCGATGTCCTGCGGGGTGGTGACCACGACTGCACCGGTTACTGGAATGTT -TTGCGCCAGCGTCAATTGAATGTCACCGGTGCCTGGCGGCATATCAAGCACCAGATAGTCGAGATCCGGC -CACAAGGTTTCCTGCAACATCTGCATTAACGCCTTGCTCGCCATCGGTCCACGCCACACCATCGCATTGT -CGTCAGTGACCAGATAACCAATTGAATTGGTTGCCAGGCCATGAGACATAATCGGTGCCATATGGGTACC -GTCCGGCGAAGTTGGACGCTGATTTTCTGCGCCCAACATTGTTGGGATTGATGGGCCGTAGATATCGGCG -TCCAGAATGCCGACTTTCGCCCCTTCTGCCGCCAGCGCCAGTGCCAGGTTTACCGCCGTGGACGATTTAC -CCACGCCGCCTTTACCGGAACTCACCGCGATAATGTTCTTCACACCGTTAATTCCCGGCTGATTCTTCAC -GCGTTTCAGAGTGGCTATGTTATGCGACAGTTTCCAGTCGATAGCTTTCGCCCCGGTGATGCGCAGCAGT -TCGGCGCTACATTGCTCTTTTAACTCTTCGAACGCGCTATGCCAGACAAACGGCATAACCAGTTCCACAT -GCAACGTGTCGTCCATCCAGGCGACATGGTGCAACGCTTTCAGCGTGGTGAGGTTATGCTTCAGGGTTGG -GTGCTGAAAATTGGCCAGTGTCCCGGCGACCATTGCGCGCAAGGCTTCTGGTGATTTGGCCTGGGATTGT -TCGTTCATCCCGACTCCTTTTTTGTATAGATAAACCATCAGCTGATAGTTTACCTGAAGAATATAGAGAA -GTACTTACTTAACATTTTCCCATTTGGTACTATCTAACCCCTTTTCACTATTAAGAAGTAATGCCTACTA -TGACTCAAGTCGCGAAGAAAATTCTGGTGACGTGCGCACTGCCGTACGCTAACGGCTCAATCCACCTCGG -CCATATGCTGGAGCACATCCAGGCTGATGTCTGGGTCCGTTACCAGCGAATGCGCGGCCACGAGGTCAAC -TTCATCTGCGCCGACGATGCCCACGGTACACCGATCATGCTGAAAGCTCAGCAGCTTGGTATCACCCCGG -AGCAGATGATTGGCGAAATGAGTCAGGAGCATCAGACTGATTTCGCAGGCTTTAACATCAGCTATGACAA -CTATCACTCGACGCACAGCGAAGAGAACCGCCAGTTGTCAGAACTTATCTACTCTCGCCTGAAAGAAAAC -GGTTTTATTAAAAACCGCACCATCTCTCAGCTGTACGATCCGGAAAAAGGCATGTTCCTGCCGGACCGTT -TTGTGAAAGGCACCTGCCCGAAATGTAAATCCCCGGATCAATACGGCGATAACTGCGAAGTCTGCGGCGC -GACCTACAGCCCGACTGAACTGATCGAGCCGAAATCGGTGGTTTCTGGCGCTACGCCGGTAATGCGTGAT -TCTGAACACTTCTTCTTTGATCTGCCCTCTTTCAGCGAAATGTTGCAGGCATGGACCCGCAGCGGTGCGT -TGCAGGAGCAGGTGGCAAATAAAATGCAGGAGTGGTTTGAATCTGGCCTGCAACAGTGGGATATCTCCCG -CGACGCCCCTTACTTCGGTTTTGAAATTCCGAACGCGCCGGGCAAATATTTCTACGTCTGGCTGGACGCA -CCGATTGGCTACATGGGTTCTTTCAAGAATCTGTGCGACAAGCGCGGCGACAGCGTAAGCTTCGATGAAT -ACTGGAAGAAAGACTCCACCGCCGAGCTGTACCACTTCATCGGTAAAGATATTGTTTACTTCCACAGCCT -GTTCTGGCCTGCCATGCTGGAAGGCAGCAACTTCCGCAAGCCGTCCAACCTGTTTGTTCATGGCTATGTG -ACGGTGAACGGCGCAAAGATGTCCAAGTCTCGCGGCACCTTTATTAAAGCCAGCACCTGGCTGAATCATT -TTGACGCAGACAGCCTGCGTTACTACTACACTGCGAAACTCTCTTCGCGCATTGATGATATCGATCTCAA -CCTGGAAGATTTCGTTCAGCGTGTGAATGCCGATATCGTTAACAAAGTGGTTAACCTGGCCTCCCGTAAT -GCGGGCTTTATCAACAAGCGTTTTGACGGCGTGCTGGCAAGCGAACTGGCTGACCCGCAGTTGTACAAAA -CCTTCACTGATGCCGCTGAAGTGATTGGTGAAGCGTGGGAAAGCCGTGAATTTGGTAAAGCCGTGCGCGA -AATCATGGCGCTGGCTGATCTGGCTAACCGCTATGTCGATGAACAGGCTCCGTGGGTGGTGGCGAAACAG -GAAGGCCGCGATGCCGACCTGCAGGCAATTTGCTCAATGGGCATCAACCTGTTCCGCGTGCTGATGACTT -ACCTGAAGCCGGTACTGCCGAAACTGACCGAGCGTGCAGAAGCATTCCTCAATACGGAACTGACCTGGGA -TGGTATCCAGCAACCGCTGCTGGGCCACAAAGTGAATCCGTTCAAGGCGCTGTATAACCGCATCGATATG -AGGCAGGTTGAAGCACTGGTGGAAGCCTCTAAAGAAGAAGTAAAAGCCGCTGCCGCGCCGGTAACTGGCC -CGCTGGCAGATGATCCGATTCAGGAAACCATCACCTTTGACGACTTCGCTAAAGTTGACCTGCGCGTGGC -GCTGATTGAAAACGCAGAGTTTGTTGAAGGTTCTGACAAACTGCTGCGCCTGACGCTGGATCTCGGCGGT -GAAAAACGCAATGTCTTCTCCGGTATTCGTTCTGCTTACCCGGATCCGCAGGCACTGATTGGTCGTCACA -CCATTATGGTGGCTAACCTGGCACCACGTAAAATGCGCTTCGGTATCTCTGAAGGCATGGTGATGGCTGC -CGGTCCTGGCGGGAAAGATATTTTCCTGCTAAGCCCGGATGCCGGTGCTAAACCGGGTCATCAGGTGAAA -TAATCCCCCTTCAAGGCGCTGCATCGACAGCGCCTTTTCTTTATAAATTCCTAAAGTTGTTTTCTTGCGA -TTTTGTCTCTCTCTAACCCGCATAAATACTGGTAGCATCTGCATTCAACTGGATAAAATTACAGGGATGC -AGAATGAGACACTTTATCTATCAGGACGAAAAATCACATAAATTCAGGGCAGTTGAGCAACAGGGAAACG -AGTTGCATATCAGTTGGGGAAAAGTTGGCACCAAAGGGCAAAGCCAGATAAAAAGTTTTTCAGATGCTGC -GGCAGCGGCAAAAGCGGAGCTTAAGCTGATTGCGGAGAAGGTGAAGAAGGGGTATGTGGAGCAAGCGAAG -GATAATTCTTTGCAACCTTCCCAAACGGTAACGGGCTCTCTCAAGGTAGCGGACTTATCCACCATTATTC -AGGAACAACCCTCTTTCGTAGCAGAAACCCGTGCGCCTGACAAAAATACAGATGCTGTTTTACCGTGGCT -GGCGAAAGATATTGCTGTCGTTTTTCCGCCCGAAGTTGTACACACCACGTTAAGTCATCGCCGCTTTCCC -GGAGTTCCTGTTCAGCAAGCAGACAAATTGCCCCAATTACGTCGCTTAGCCTGTAGTGTGTCGCAACGGG -ATAATAAAACAGCCACATTTGACTTCAGCGCCTGTTCTTTAGAATGGCAAAACACCGTCGCCCAGGCGAT -CAGTCAGATCGACGGCCTGAAAACAACACAGTTACCATCACCAGTAATGGCTGTACTCACGGCACTTGAA -ATGAAATGCACAAGATATAAAGTGCGTGAGGATGTTATGGATCAGATCGTCCAGGAAGGCGGTCTGGAAT -ATGCTACTGATGTAATAATACACCTTCAACAGATTGATATTGAATGGGATTATGCGAATAATGTCATTAT -TATTCTGCCGTCTGGCATTGCACCTAGCTACTTGGAGCAATATTCCAGATTTGAATGACGCCTACGTAAA -CATTTATCACTGACGGAAGAGTCTCTCTGGCAAAAATGTGCACAAAAACTTATTGCCGCAATTCCACATA -TTCCAGAATGGCGGCAACCATTAATTGCTTTGTTATTACCCGAAAAACCAGAAATTGCACATGAAATTGC -CCAGCGTCTACTGGGGCAAAAAAAATTACCCTCGCTTGAGTGGTTAAAAATAGTGGCGACTGATGAGCAC -ATTCTTGCCTCATTAGAAAAATATCACGAACCATATGCCATTTTTGATGATTACTATTGTGGTGCGATAT -GGTCAGCCACCGTATTACAGGAGCAAGGTGTTGCAGCCCTGCCCCGATTTGCTCCCTATGCCGCAAGTGA -CTACTGCGCCGATGTGTTGCGTCATATCAATCATCCGTTCGCATTGACACTGCTTATACGTGTAGCCGGG -CAAACTAAACGCTGTCACGATCGGATGACGAAAGCCATTGCTGCGTTCCCACATGCAGCAATGGCGGCAC -TGACGGAACTTCTTGGGCAAAAAGAAGAGAACAGTTGGCGCATTATGCTAATGACAATGCTTATCTCACA -ACCAGCACTGGCAGAACAGGTCATTCCCTGGCTCTCGACACCCGCAGTTGCCGTACTGAAATCATGCCAG -CAACAACTGACACAGCCCTCAAACCATGCCAGCGCCGATCTACTGCCAGCCGTAGTAGTCTCCCCTCCCT -GGCTTTCGAAAAAGAAAAAATCGCCGATTCCGGTGCTGGATTTAGCGCCATTAGGCATTGAGCCAATCTG -TTATCTGACAGAAGAAATCAGTAATCAACTTTTGGCGAAATATATCTGGTATTCAAAACACATCACGGTT -AGCCATGAAGAAAGTACTACCAACCTGTTGGCAAGGATGGGTTTTCAACGACGGATCGCTGGTACATATA -TTAAAGCTCCCGAAGCGGTAGTTGAGGCATGGCTAAATGAAGATTATTCAACCTTACTAAGTGAATTTAA -GGTGTTTCATTCACCTACCGGGCATTATTGGCAGTTGGGGATTTTGACAACATTGCCGCTGGAGAAAGCA -GTAAAAGCATGGAATGCCCTTACCCTATCTCCACATACCGATACCGAATACTCCATGTTACATTTTGGAC -TCAAAGGGTTACCTGGGTTAGTAAACTCACTTGCACGCTATCCACAAGAAGCCTTGCCCATCACGAATTA -CTTCGCAGCGAGTGAGCTGGCTCCTGCCGTCGCCCGTGCCTTCAACAAACTGAAAACGCTACGCGAAAAC -GCCCGTAGCTGGCTGTTGAAATACCCGGAACATGCCCTTACCGGCCTGCTGCCTGCGGCGCTCGGCAAAG -CCGGTGAAGCACAGGATAACGCCCGCGCTGCCTTGCGTATGCTTACCGAAAACGGTCATCAGCCATTACT -GCAAGAAATCGCCCGACGTTATAACCAGCCGGAAGTAACCGATGCGGTGAACGCTCTGCTTGCGCTCGAT -CCCTTAGATAATCACCCGACAAAAATCCCCACTCTTCCGGCCTTTTATCAGCCATCGCTCTGGACGCGCC -CGGTATTAAAAGCAAATGCCCAATCACTGCCAGATAGCGCCCTCCTCCACCTCGGTGAAATGCTCCGCTT -CCCTCAGGAAGAGGCTCTGTATCCGGGATTATTGCAGGTGAAAGACGTCTGTTCCGCCGACTCACTGGCG -GGATTTGCCTGGGATCTGTTTACCGCCTGGCAGACCGCTGGCGCGCCGTCGAAAGAGAGTTGGGCGTTCA -CTGCGTTAGGCGTTCTCGGTAACGATGACACCGCCCGCAAACTGACGCCATTAATACGCGCCTGGCCTGG -TGAATCCCAGCATAAACGCGCCACCGTTGGGTTGGATATTCTCGCTGCTATCGGTAGTGATATCGCCCTT -ATGCAGCTTAACGGCATCGCCCAGAAACTGAAATTCAAAGCATTACAGGAGCGGGCAAAAGAAAAAATTG -CCGACATTGCCGAGAGCCGCGAACTCACGGTGGCGGAGCTTGAAGATCGGGTTAGCACCGGATCTCGGTC -TGGATGATAACGGTTCGCTGCTGCTGGATTTTGGCCCACGGCAGTTCACCGTCAGCTTTGATGAAACCTT -AAAACCGTTTGTGCGTGATGTTTCCGGCAGCCGCCTGAAAGACCTGCCCAAACCGAACAAAAGCGATGAT -GAAACGCGGGCGAACGATGCGGTTAACCGCTACAAATTGCTGAAAAAAGATGCGCGTACCATCGCCGCCC -AGCAGGTAGCAAGGCTGGAATCCGCCATGTGCCTGCGCCGCCGCTGGTCGCTGGAAAACTTCCAGCTCTT -CCTGGTTGAGCATCCGCTGGTTCGTCACTTAACCCGCCGTCTGATTTGGGGCGTTTATAGCGCCGAAAAC -CAGCTACTGGCTTGCTTTCGCGTAGCAGAAGATAACAGCTCCAGCACCGCTGACGATGATCTTTTCACCC -TGCCGGAAGGCGATATCTCTATCGGCACTCCTCACGTTCTGGAAATATCACCAACGGATGCTGCCGCCTT -TGGTCAGCTTTTTGCCGACTACGAACTGCTACCACCGTTCCGCCAGCTCGACCGTAACAGCTACGCCCTG -ACAGAAGCCGAGCGCAATGCCAGTGAACTGACCCGCTGGGCAGGCAGAAAATGCCCGAGTGGTCGGGTCA -TGGGGCTGGCGAATAAAGGCTGGATAAAGGGCGAACCACAGGATGGAGGCTGGATCGGATGGATGATCAA -ACCTTTGGGTCGCTGGTCGTTAATCATGGAAATCGATGAAGGCTTTGCGGTAGGCATGTCGCCAGCCGAA -CTCAGCGCTGAGCAGCTCTTAAGCAAGCTGTGGCTATGGGAAGGCAAAGCAGAAAGATATGGCTGGGGGA -GTAATTCAACACAGGAAGCGCAGTTCTCCGTAATCGATGCCATCACCGCCAGCGAGCTAATTAACGATAT -TGAAGCCCTGTTTGAATAAGGAAAGAGCATGGACAAGGAATTACCGTGGCTGGCGGATAACGCCCAACTG -GAACTGAAATATAAAAAAGGCAAAACGCCGCTCAGTCATCGTCGCTGGCCGGGCGAACCAGTGTCCGTTA -TCACTGGAAGTCTCATCCAGACATTGGGTGATGAATTGCTACAAAAAGCTGAGAAGAAAAAAAACATTGT -CTGGCGTTATGAGAATTTTTCACTGGAGTGGCAGTCCGCCATCACGCAGGCCATCAACTTGATCGGCGAA -CACAAACCCTCAATCCCGGCCCGGACAATGGCGGCGCTAGCCTGTATCGCGCAAAATGACAGCCAACAGT -TGCTCGACGAAATCGTCCAACAAGAGGGGCTGGAATATGCGACTGAGGTGGTGATTGCACGCCAGTTTAT -TGCGCGGTGTTATGAGAGTGATCCTCTGGTAGTGACATTGCAGTATCAGGACGAGGATTATGGCTATGGT -TATCGCTCAGAAACCTATAACGAATTCGATCTCCGACTGCGTAAGCATCTCTCTCTGGCAGAGGAAAGCT -GCTGGCAGCGTTGCGCCGACAAACTCATTGCCGCACTACCAGGAATAAACAAAGTTCGCCGCCCTTTTAT -TGCGCTGATCCTCCCGGAAAAACCAGAAATAGCCAATGAGTTGGTAGGCCTTGAATGCCCGCGAACTCAT -TTTCATTCTAAGGAGTGGTTAAAAGTTGTTGCTAATGACCCCACAGCGGTGAGAAAACTCGAACACTACT -GGAGCCAGGATATATTTAGCGATCGAGAAGCCAGCTACATGTCGCATGAAAACCACTTCGGCTACGCGGC -CTGCGCCGCCCTTTTGCGCGAACAAGGACTGGCAGCCATTCCGCGCCTCGCGATGTATGCCCATAAAGAA -GATTGCGGCAGTCTGCTGGTACAAATTAACCATCCGCAAGTCATCCGCACCTTGCTACTGGTGGCTGATA -AAAACAAACCCAGCCTGCAACGTGTAGCTAAATACCATAAAAACTTCCCCCATGCGACGCTCGCCGCACT -GGCAGAACTGCTGGCGTTAACAGAACCACCAGCCCGCCCTGGTTATCCAATCATCGAAGACAAAAAGCTG -CCTGCACAGCAAAAAGCACGCGATGAATACTGGCGTACGCTGTTACAAACGCTGATGGCATCGCAGCCAC -AACTGGCAGCAGAAGTGATGCCGTGGTTAAGTACTCAACCCCAGTCAGTGCTGAAGAGTTATTTATCGGC -ACCGCCCAAACCGGTTATTGATGGCACCGATAACAGCAATCTGCCAGAAATCCTCGTTTCACCACCGTGG -CGTAGTAAGAAAAAAATGACAGCTCCACGTCTTGATTTGGCACCGCTCGAATTAACTCCGCAAGTTTACT -GGCAACCAGGCGAACAAGAGAGGCTTGCCGCCACTGAGCCTGCCCGTTATTTCAGCACGGAATCTCTTGC -GCAACGCATGGAACAAAAAAGTGGACGAGTTGTATTACAGGAACTGGGTTTTGGGGATGATGTATGGCTG -TTTCTGAATTATATACTCCCCGGAAAACTGGATGCTGCACGCAATTCACTCTTTGTTCAGTGGCATTACT -ACCAGGGGCGGGTTGAAGAGATCCTGAATGGCTGGAACTCCCCGGAAGCACAATTAGCAGAACAGGCGCT -CCGCAGCGGTCACATAGAAGCGTTAATTAACATATGGGAAAATGACAACTACTCACATTATCGTCCGGAA -AAGAGTGTCTGGAACCTGTATTTATTGGCACAGTTGCCGCGTGAGATGGCTTTGACCTTCTGGCTGCGTA -TCAATGAGAAAAAGCATCTGTTCGCGGGTGAGGACTATTTTCTCAGTATCCTCGGATTGGATGCGCTACC -AGGTCTGCTGTTGGCTTTTTCACATCGTCCAAAAGAAACATTTCCGTTAATTTTAAATTTTGGCGCAACA -GAACTGGCGCTGCCTGTTGCCCACGTCTGGCGACGTTTCGCGGCGCAGCGTGATCTGGCTCGCCAGTGGA -TTTTACAATGGCCGGAACATACGGCTAGTGCACTTATCCCTCTTGTCTTTACCAAACCCAGCGATAATAG -CGAAGCCGCATTACTTGCCCTGCGTTTACTGTACGAACAGGGACATGGCGAATTGCTACAAACCGTGGCA -AACCGCTGGCAGCGTACAGATGTATGGTCTGCCCTGGAGCAGTTGCTTAAACAGGGTCCAATGGACATTT -ACCCGGCACGCATTCCAAAAGCCCCTGATTTCTGGCATCCGCAAATGTGGTCCAGGCCGCGCCTTATCAC -TAATAATCAAACTGTTACCAATGACGCTCTGGAAATTATCGGCGAAATGCTGCGCTTTACCCAGGGGGGA -CGTTTTTATAGCGGGCTGGAACAACTGAAAACGTTCTGCCAGCCACAAACGCTGGCAGCTTTTGCCTGGG -ATCTCTTCACTGCGTGGCAACAAGCTGGTGCCCCCGCAAAAGACAACTGGGCATTTCTGGCGTTAAGTCT -CTTTGGTGACGAAAGCACGGCACGGGATCTGACGACACAGATCCTCGCCTGGCCACAAGAAGGCAAATCT -GCCCGTGCTGTCAGCGGCCTGAACATCCTTACCCTGATGAATAATGATATGGCGCTGATACAGCTGCATC -ATATATCGCAACGGGCTAAATCCCGCCCCTTACGTGATAACGCGGCGGAATTTCTTCAGGTGGTCGCAGA -AAATCGCGGGCTAAGCCAGGAAGAGCTAGCGGACAGATTAGTCCCAACCCTGGGCCTTGATGATCCGCAG -GCGTTGAGTTTTGATTTTGGTCCCCGGCAGTTTACCGTTCGCTTCGATGAAAATCTCAACCCGGTTATCT -TTGATCAGCAAAACGTTCGCCAGAAAAGCGTTCCCCGTTTGCGCGCCGATGACGATCAACTGAAAGCGCC -CGAGGCACTGGCCCGACTAAAAGGGCTAAAAAAAGATGCTACTCAGGTGAGCAAAAACCTGCTCCCGCGT -CTTGAAACGGCCCTACGTACCACCCGACGCTGGTCGCTGGCAGATTTTCATTCTCTGTTTGTTAATCATC -CCTTTACCCGTCTGGTTACCCAGCGATTAATATGGGGGGTTTATCCGGCAAATGAACCGCGTTGTTTACT -CAAAGCCTTTCGTGTGGCCGCAGAGGGGGAGTTCTGCAATGCGCAAGATGAGCCAATTGACCTGCCTGCG -GACGCTCTGATTGGCATTGCCCACCCGTTAGAAATGACAGCAGAAATGCGCAGTGAATTTGCACAGCTTT -TTGCCGATTACGAAATTATGCCGCCTTTTCGCCAGTTGTCGCGCCGCACGGTGCTGCTCACACCTGACGA -GTCAACCAGTAACAGCCTGACTCGCTGGGAAGGTAAATCCGCTACCGTTGGGCAACTTATGGGAATGCGA -TACAAAGGCTGGGAGTCAGGCTATGAGGACGCATTTGTCTATAACCTGGGTGAGTACCGGCTGGTCCTTA -AGTTTTCACCCGGTTTTAACCACTACAATGTTGATAGCAAAGCGCTAATGAGCTTCCGTTCTCTTCGAGT -GTACCGTGACAATAAATCCGTCACTTTTGCCGAACTTGATGTGTTTGATTTGAGTGAGGCGTTAAGCGCA -CCTGACGTCATTTTCCATTAAAACACAGCGGGCAGTGATGCAACTGCCCGTTATCAACACGACTTACCAG -CGGGGAAAGCGATGATCGTGCAAAAAGAGCTGGTTGCTATTTACGATTATGAGGTCCCTGTACCTGAAGA -TCCGTTTTCCTTCAGACTTGAGATCCATAAATGCTCTGAATTATTTACAGGTTCCGTCTATCGACTGGAG -CGATTCCGGCTACGTCCAACATTTCATCAACGTGATCGAGAAGATGCTGACCCGCTAATAAATGATGCGT -TGATTTATATAAGAGATGAGTGTATTGATGAGCGGAAATTACGAGGTGAATCACCTGAAACTGTAATAGC -AATTTTTAATCGTGAACTACAGAATATATTCAACCAAGAAATAGAATAATATACTCTAAATAATTCAAAT -TGGTCCGATCCGGCGCAACGTCCCAATGGCCTGGATTATAAATCTCATTATCTTAATTGCAACGGGGTCC -AGCCGTGGTTATAATTCGTTCGTTGGAACACGATGTTGCACAGGCTGTGGTGTTAGGCCTGAAAATAGTA -AATAAAAGAACCTGCCTCACCAGCAGGTTTTTTTATTTACTGTGATCTGCTTTCCAGATATTTTTCGCTC -AAACAACTAATGCGCCAAACATTTATTGCGCGTAAAATATCGTTTATTTCATTAATACATTTCAGGGATG -AATATATGTCACCGCAGAATAATCATCTGCAGCGTCCGCCTGCTGCTGTGTTATACGCCGATGAACTGGC -AAAATTAAAACAAAATGATAACGCACCTTGCCCGCCCGGTTGGCAGTTAAGTTTGCCTGCGGCCCGTGCT -TTTATCCTTGGCGACGAAGCGCAAAATATCAGCCGTAAAGTGGTGATTAGCCCCTCCGCTGTCGAACGTA -TGTTAGTCACTCTTGCTACCGGCCGCGGTTTGATGTTGGTGGGGGAACCGGGTACCGCAAAATCTCTTCT -TTCTGAATTACTGGCAACCGCTATTAGCGGCGATGCCGGGTTAACCATCCAGGGCGGGGCATCTACCACC -GAAGATCAAATCAAGTATGGCTGGAACTACGCCCTGCTTATCAATCATGGTCCGTCAACGGAAGCGCTGG -TCCCTGCCCCGCTTTATCAGGGAATGCGCGACGGCAAAATCGTCCGTTTCGAAGAGATAACGCGTACACC -GCTGGAAGTGCAGGACTGTCTGTTAGGTATGCTTTCTGACAGGGTGATGACGGGGCCGGAACTCACTGGT -GAAGCCAGTCAGCTCTATGCGCGAGAAGGCTTTAATATTATTGCCACTGCCAATACCCGCGATCGCGGCG -TCAATGAAATGAGTGCTGCGCTAAAGCGTCGCTTCGATTTTGAAACGGTTTTTCCGATTATGGATTTCGC -CCAGGAGTTGGAACTGGTCGCCAGTGCTTCGGCGCGTTTGCTGGCCCATAGCGGTATTCCGCATAAAGTG -CCTGACGCGGTACTGGAATTACTGGTCCGCACCTTCCGCGATCTGCGTGCCAACGGCGAAAAGAAAACGT -CAATGGATACACTGACAGCGATTATGTCCACCGCTGAAGCCGTGAACGTGGCCCATGCTGTGGGCGTCCG -CGCCTGGTTTTTAGCGAATCGCGCGGGGGAGCCTGCCGACCTGGTGGAATGTATTGCCGGAACCATCGTC -AAAGATAACGAAGAAGATCGCGCGCGTCTGCGCCGTTACTTCGAACAGCGTGTCGCCACACATAAAGAAG -CTCACTGGCAGGCTTATTATCAAGCCCGCCACCGCCTGCCGTGAGGAAAGATGCATGAGCGAGCCGTTAA -TTGTCGGCATCCGGCATCATAGTCCGGCCTGCGCCCGGCTGGTGAAATCGTTAATCGAAAGCCAGCGGCC -ACGATACGTGTTGATTGAAGGCCCGGCTGATTTTAATGACCGGGTAGACGAACTGTTTTTAGCCCACCAG -CTTCCGGTAGCTATTTACAGTTATTGCCAGTATCAGGACGGTGCAGCCCCCGGGCGTGGTGCCTGGACGC -CATTTGCTGAATTTTCGCCGGAGTGGCAGGCGCTACAAGCCGCACGTCGCATTCAGGCACAAACTTACTT -CATCGATTTGCCTTGCTGGGCGCAGAGTGAAGAAGAGGACGATTCGCCTGATACGCAAGATGAAAGCCAG -GCCTTACTGCTGCGTGCCACCCGCATGGATAACAGCGATACCCTGTGGGATCACTTGTTCGAAGATGAAA -GCCAGCAAACTGCATTACCCTCTGCGCTGGCGCACTATTTTGCCCAACTGCGGGGCGACGCCTCCGGCGA -TGCGCTCAATCGTCAGCGCGAAGCCTTTATGGCCCGCTGGATTGGATGGGCGATGCAGCAAAATAATGGC -GACGTGTTAGTTGTCTGCGGTGGCTGGCACGCTCCGGCACTGGCAAAGATGTGGCGCGAATGCCCTCAGA -AAATTAACAAGCCAGAATTGCCCTCGCTGGCAGATGCCGTTACAGGTTGTTATCTCACACCCTACAGTGA -AAAGCGCCTTGATGTGCTGGCAGGATACCTTTCAGGAATGCCTGCCCCGGTATGGCAAAACTGGTGCTGG -CAGTGGGGCTTGCAGAAGGCCGGTGAACAACTGCTAAAAACTATCCTTACCCGTTTGCGCCAGCACAAAT -TGCCCGCTTCTACCGCGGATATGGCTGCCGCTCATCTGCATGCGATGGCGCTGGCACAGTTGCGCGGTCA -TACACTACCGTTACGCACTGACTGGCTGGATGCCATAGCAGGCTCGCTGATTAAAGAAGCCCTGAACGCG -CCGTTGCCGTGGAGCTATCGCGGCGTTATTCATCCCGATACCGATCCGATTCTGCTAACGTTGATAGACA -CATTAGCGGGTGACGGATTCGGTAAACTTGCCCCTTCTACGCCACAACCGCCTCTGCCAAAAGATGTCAC -CTGCGAACTGGAACGTACCGCAATCTCCCTTCCGGCGGAGCTTACCTTAAATCGCTTTACCCCCGATGGG -CTGGCGCAAAGTCAGGTGTTACATCGGCTGGCAATACTGGAGATCCCTGGGATTGTACGCCAGCAGGGAA -GTACACTGACACTTGCAGGCAACGGTGAAGAACGCTGGAAATTAACCCGCCCGCTTAGCCAGCATGCGGC -ATTGATTGAGGCCGCCTGTTTTGGTGCCACACTCCAGGAAGCCGCACGCAATAAATTAGAAGCCGATATG -CTGGACGCGGGCGGAATCGGCAGTATCACCACATGTCTTAGCCAGGCGGCGTTAGCGGGTCTGGCGTCCT -TCAGTCAACAATTACTGGAGCAACTCACACTATTAATCGCCCAGGAAAATCAATTTGCCGAAATGGGCCA -GGCGCTGGAAGTGCTTTATGCCTTATGGCGGCTGGATGAAATTAGCGGTATGCAAGGCGCGCAGATATTA -CAAACGACGTTATGCGCGACTATCGATCGCACGCTGTGGCTGTGTGAATCTAACGGCAGACCGGATGAAA -AGGAGTTTCACGCTCACCTGCATAGCTGGCAAGCGCTTTGCCATATTCTGCGCGATCTACATAGCGGCGT -TAATTTACCCGGCGTTTCTCTTTCTGCGGCGGTAGCCTTACTGGAGCGACGCAGTCAGGCAATTCATGCC -CCGGCGCTGGATCGCGGCGCGGCTCTTGGCGCACTAATGCGTCTGGAACATCCCAACGCCAGTGCCGAAG -CGGCGCTGACGATGCTGGCGCAGTTATCCCCGGCACAATCTGGTGAGGCGCTGCACGGTTTGCTGGCGCT -GGCCCGCCATCAACTGGCCTGTCAGCCGGCATTTATCGCCGGTTTCAGCAGTCATTTAAATCAACTGAGT -GAAGCCGATTTTATTAACGCCCTGCCCGATTTACGCGCGGCGATGGCCTGGCTACCACCACGAGAACGCG -GGACGCTGGCGCATCAGGTGCTTGAGCATTATCAACTGGCGCAACTTCCCGTTTCGGCGCTGCAAATGCC -GTTGCATTGTCCACCACAGGCCATTGCACATCATCAACAACTCGAACAGCAGGCACTGGCATCGCTGCAA -AACTGGGGAGTTTTCCATGTCTGAACTGAACGATCTTCTGACCACCCGTGAGCTACAACGCTGGCGATTA -ATTCTTGGCGAAGCGGCAGAAACGACGCTTTGTGGGCTGGATGACAACGCCCGGCAGATAGACCACGCGC -TGGAGTGGCTGTATGGGCGCGATCCTGAACGGCTCCAGCGTGGTGAACGTTCCGGTGGATTAGGTGGCTC -AAATCTCACCACCCCTGAGTGGATCAACAGTATTCACACGCTGTTTCCGCAGCAGGTGATTGAGCGGCTG -GAAAGCGATGCCGTGCTGCGCTACGGCATTGAAGATGTGGTGACGAATCTCGACGTGCTGGAACGTATGC -AGCCTTCTGAAAGCCTGCTACGCGCTGTTTTGCACACCAAACATCTGATGAACCCCGAAGTACTGGCTGC -CGCCCGCCGGATAGTGTGCCAGGTTGTTGAAGAAATTATGGCTCGACTGGCAAAGGAAGTTCGTCAGGCT -TTTTCTGGTGTCCGCGATCGCCGTCGCCGTTCATTTATTCCACTGGCGCGAAACTTTGATTTCAAAAGTA -CTCTGCGCGCCAACCTGCAACACTGGCACCCGCAACACGGCAAGTTGTATATCGAATCCCCCCGCTTTAA -CAGCCGCATTAAACGCCAAAGCGAACAATGGCAACTGGTCTTACTGGTTGATCAAAGCGGATCGATGGTC -GATTCGGTGATCCACTCTGCGGTGATGGCGGCCTGTTTGTGGCAGTTACCCGGCATTCGTACCCATCTGG -TGGCGTTTGACACAAGCGTCGTTGATCTCACGGCAGACGTTGCCGATCCGGTAGAGTTATTAATGAAAGT -ACAGTTGGGCGGCGGGACCAATATCGCCAGTGCCGTGGAGTATGGTCGGCAACTTATTGAACAACCAGCG -AAAAGCGTCATTATCCTCGTGAGCGATTTTTACGAAGGGGGTTCATCATCATTACTGACGCATCAGGTGA -AAAAGTGTGTCCAGAGCGGCATCAAAGTGCTGGGACTGGCAGCGCTCGATAGCACCGCAACACCTTGCTA -TGACCGCGATACGGCCCAGGCGCTGGTTAATGTCGGCGCACAAATAGCCGCCATGACGCCGGGCGAGCTG -GCATCATGGCTTGCGGAGAATCTTCAGTCATGAATTCACTACGTCCGGAATTATTAGAACTGACACCGCA -GGCCCTGACGGCGTTAAGCAATGCCGGTTTTGTTAAGCGCAGTCTTAAGGAACTGGAAAATGGCAACGTC -CCGGAGATCAGCCATGAGAACGACGCTTTAATCGCCACCTTCAGTGACGGTGTCCGTACCCAGCTGGCGA -ACGGCCAGGCACTGAAAGAGGCTCAGTGCAGTTGCGGGGCCAACGGTATGTGCCGTCATCGCGTGATGCT -GGTGTTAAGTTATCAACGACTTTGTGCCACCACTCAGTCTACGGAAAAAGAAGAAGAGTGGGATCCGGCA -ATCTGGCTGGAAGAACTGGCTACCCTTCCCGATGCTACCCGCAAACGCGCACAGGCGCTGGTCGCTAAAG -GCATCACCATTGAGTTGTTCTGTGCGCCGGGTGAAATTCCCTCTGCCCGCTTACCGATGAGCGATGTGCG -TTTTTATTCCCGCAGCAGTATTCGTTTCGCCCGTTGTGATTGTATTGAAGGCACACTTTGCGAACATGTC -GTACTGGCGGTACAGGCCTTCGTCGAGGCCAAAGCGCAGCAAGCAGAATTTAACCATTTAATCTGGCAGA -TGCGCAGCGAACACGTCACATCATCTGACGATCCGTTTGCCAGCGAAGAAGGCAACGCGTGTCGTCAATA -TGTTCAGCAATTAAGCCAGACATTATGGCTTGGCGGCATCAGCCAGCCGCTCATCCATTACGAGGCAGCA -TTCAACCGCGCATTGCAGGCGGCAGAGACCTGCAACTGGCGCTGGGTGAGTGAATCGCTACGGCAACTGC -GCGCCAGCGTTGATGCCTTCCACGCCCGCGCCAGCCACTATAATGCCGGAGAATGCTTACATCAGCTTGC -GGCATTAAACAGTCGATTAAATTGCGCACAAGAGATGGCCCGGCGCGACAGTATTGGTGAAGTTCCTCCT -GTGCCGTGGCGCACGGTCGTTGGCTCTGGCATTGCCGGAGAAGCAAAGCTTGATCATCTGCGGCTGGTGT -CTTTAGGTATGCGTTGCTGGCAGGATATTGAGCATTATGGTTTACGCATCTGGTTTACCGATCCCGACAC -CGGCAGTATTTTGCACCTTTCGCGCAGTTGGCCGCGAAGTGAACAGGAAAACTCACCGGCAGCTACGCGT -CGGCTGTTTAGTTTTCAGGCTGGCGCACTGGCGGGCGGGCAAATTGTTTCACAAGCAGCAAAACGCAGTG -CCGATGGCGAGCTGCTGTTAGCTACCCGCAACCGCTTAAGCAGCGTTGTGCCGCTGTCGCCTGATGCCTG -GCAAATGTTGAGCGCGCCGTTACGCCAGCCGGGCATTGTGGCTTTGCGGGAATATTTACGCCAGCGTCCC -CCCGCCTGCATACGGCCTCTTAATCAGGTCGATAACTTATTTATTCTGCCGGTCGCTGAGTGTATTTCGC -TCGGTTGGGACAGCAGCCGCCAGACGCTGGATGCGCAGGTCATTAGCGGCGAAGGGGAAGATAATGTGCT -GACGTTATCATTACCAGCCTCAGCCAGCGCACCTTATGCCGTTGAACGCATGGCGGCGCTTTTGCAACAA -ACAGACGACCCCGTGTGTCTGGTTTCTGGCTTTGTCAGTTTTGTTGAAGGGCAATTGACACTGGAACCAC -GGGTGATGATGACAAAAACCCGTGCCTGGGCGCTGGACGCAGAAACTACGCCTGTGGCACCGCTACCTTC -TGCCAGCGTTTTGCCTGTGCCGTCTACTGCTCATCAGTTGCTGATACGCTGCCAGGCGTTACTTATTCAA -CTGCTCCATAACGGCTGGCGCTATCAGGAACAGAGTGCTATTGGTCAGGCATAGTTGCTGGCGAATGACC -TCACCGCGGTGGGTTTTTATCGGCTGGCACATGTGTTGGGACAATTTCGTAATACAGAAAGCGAGGCACG -GGTAGAAGCAATGAATAACGGTGTTTTGCTTTGCGAACAATTATTCCCCATGCTTCAGCAACAAGGATGA -AATAGTGCTTTTTACTAAGAGTTCTACTCCAGTTCCGGACTGCTCACGCCACGGTATTAGGCATATCCTA -TATAGCCCCTGGTGAGAGTCACCAGTTCCTTGATTAAATAAAATGGAGTTTTACATGAAGGCTTTCAATA -AGCTGTTTTCCCTCGTTGTTGCATCTGTTCTGGTTTTCTCTCTTGCTGGCTGCGGTGACAAAGAAGAATC -GAAGAAATTCAGCGCCAATCTGAACGGCACTGAAATTGCCATTACCTATGTCTACAAAGGTGACAAGGTG -CTTAAGCAATCTTCTGAAACCAAAATTCAATTTGCCTCCATTGGTGCAACCACCAAAGAAGATGCTGCCA -AGACACTTGAGCCGTTAAGCGCCAAATACAAAAACATCGCGGGTGTTGAAGAAAAATTAACCTATACCGA -TACCTACGCGCAGGAAAACGTGACTATCGATATGGAAAAAGTGGATTTTAAAGCCCTGCAGGGTATTTCA -GGAATCAACGTTTCTGCTGAAGATGCCAAAAAAGGTATCACTATGGCGCAAATGGAACTGGTGATGAAAG -CCGCTGGTTTTAAAGAAGTGAAATAATCGGTTGGCGGTCATGCTCTAAACATGACCGCCAATTTTTTAGC -CTTTTTTCACATGCTGGCGCGCTGCCAGTCCACGCAGAAAATAACGTAAAAATTGATCGCCGCATTCGCG -GAAGTTTTTATGATCCGGTGCGCGCATCATCGCTGTAATTTCCGGCATCGAAACGCGGAACTGCTGTTCG -GTGAGGATAGCCAGAATGTCATCGGTTTTCAGCGAAAACGCGATGCGTAATTTTTTCAGCACGATGTTGT -TATTAATGCGACGTTCCGGCTCCAGTGCCGGAGCAGACTCATCCTTGCCGCGTTTTTCATAAATCAGGCC -ATTGAGGAATGACGACAAAACAATGTCCGGACAACGCTGAAAACCCTCTTCGTCTTCTTTACGTAGCCAG -ACGGCGATCTGTTCCGCGGTGGCTTCGACATTACCCAGCGCCAGAATACGCACCAGGTCATTATTATTGG -CTTTCAAAATGTAGCGCACGCTGCGCAGAATATCGTTACTTAGCATGAGGCCTTCAGGTGTTGATGAGGC -AAAAAGCCATTTTAGCAGTCTTTTACAGGCCAATCGCCTCTTTTAAGCTTTTCAGATAACGGCGGCTGAC -CGGCACGGTTAAGCCATTACGCAAAATCAACTCGGCCTGGCCGTTATCTTCCAGACGAATCTCCTGTAAA -TGCGCGAGGTTAACCAGATACTGACGATGGCAGCGCAGTAGTGGTGTACGACTTTCCAGGGTACGTAATG -TCAATTCGGTAAAGCCCTCTTTCCCTTCGTGGCTGGTAACGTAGACACCGCTCATCCGACTGCTGACAAA -TGCCACATCTTTCATTTGCAGCAAATAAATCCGACTATGCCCCGTACAAGGGATAAATTTCAGCGCCTGT -TGATTTTCCGGTAACAGCGAAACATCCTGCTTGCTGCGCTCCTGACGCAATCGCGCCAGCGTTTTCTCCA -GTCGCGCTTCATCAATTGGCTTCAGCAGATAATCAAAGGCATGTTCTTCAAAGGCTTTAATTGCGTATTC -GTCAAACGCAGTGAGAAAAACAATATACGGGCGATGTTCCGGGTCAAGCATCCCCACCATTTCCAGACCA -CTGATGCGCGGCATCTGGATATCGAGAAACAGCACATCCGGGCGCAGTTTATGCACCGCGCCGATCCCTT -CCACGGCGTTTGAACACTCTCCAACGATTTCAATATCGCTCTGCTCCTGCAAAAATACACGCAGGTTCTC -CCGTGCTAACGGTTCATCATCGACAATTAAGACTTTAATCATGCCTCGTCCCTCCATGGTAGTCGTAACG -TTATTCGGGTGTAACTATCAGGCTCACAGGCGACGCTTATTCCATAGTCATCGCCAAACCGTTCACGTAA -ACGCTTATCCACCAGATTCATCCCCAGCCCACTGGCATTGGTTACCGGTTGATACAAACCGGCATTGTCT -TCGATCTCCAGCATCAAATGTTGCCCCTCACGTCGGGCGCTGATTGCCACTCGCCCTGTATCCAGCAGTT -GTGATGTCCCATGTTTAATGGCGTTTTCCACTATCGGTTGCAGGGTAAACGCGGGCAATTGCTGCTGGGA -TAATTCTTGCGGAATAGCAATGTTGACCTGCAACCGCGACTGGAAGCGCGCCTTTTCAATTTGCAGATAA -GCATTCACATGTTCAATTTCGTCGGCGAGAGTAACAAACTCCGAAGGCCGCTTTAAGTTTTTGCGGAAAA -AAGTGGAAAGATACTGCACCAGCTGGCTGGCCTGTTCGCTGTCGCGGCGGATCACCGCTTTAATGGTGTT -AAGCGCATTAAACAAAAAATGGGGATTCACCTGGGCGTGAAGCAGTTTGATCTCTGACTGGGTGAGCATC -GCTTTTTGCCGCTCATATTGCCCGGCAAGGATCTGCGCCGAAAGCAATTGCGCAATCCCCTCACCCAACG -TGCGGTTGATTGAACTGAATAAACGGTTTTTGGCTTCATACAATTTGATGGTGCCCATCACCCGCTGATT -TTCACCACGCAACGGAATTACCAGCGTCGACCCCAGTTTGCATTGCGGATGCAAAGAGCAACGGTAAGGT -ACTTCGTTGCCATCAGCGTAGACCACTTCACCGGTTTCAATCGCTTTTAAAGTATAAGTTGAAGAAATCG -GTTTGCCGGGTAAATGGTGGTCGTCACCAATTCCGGTAAAGGCCAGCAATTTCTCTCGATCGGTAATCGC -GACTGCACCAATATCCAGTTCCTGATACAGCACCTGAGCCACTTTCATGCTGTTCACTTCGTTAAACCCC -TGGCGCAAAATGCCTTCCGTCGAGGCTGCCACTTTCAGCGCAGTGGCAGAAAAAGCCGAAGTGTATTTTT -CAAACATCGCGCGTTTATCGAGCAATATACGCATAAACAGCGCCGCGCCGACGGTATTGGTGACCATCAT -TGGCGCAGCAATATTACTCACCAGACGCACCGCATCTTCATAAGGTCGGGCGATCGCAAGGATGATCAGC -ATTTGCACCATTTCAGCGACGAACGTGACGGCACCGGCGGTAATGGGGTTAAAGACTTTATCAGTGCGCC -CGCGGCGGATCAGGATGCTGTGTACCAGGCCACCGAGTAATCCTTCAACGATGGTCGAGATCATGCAACT -TAACGCGGTCATGCCCCCCATCGAATATCGATGTAAGCCGCCGGTCAGCCCAACCAGCCCACCGACGACC -GGACCGCCGAGTAAGCCGCCCATTACCGCGCCTATCGCACGGGTATTGGCAATAGAATCGTCAATGTGCA -ACCCAAACCAGGTGCCCATGATGCAGAAGATGGAAAAGACGATGTAGCAGAGAAATTTATGCGGCAGACG -AACCGTGACCTGCATTAACGGTATGAATAATGGCGTTTTACTCATTAACCATGCAATGACTAAAAAAACG -CACATCTGCTGAAGCAGCAGCAACACCAGATTAAAATCGTACATACCCGCAAACCACACTTCCCTTTAAA -ACGCGTAACATACATTGCCTGCGTTTAACTTTCTTTGAACTCTTGCAGAAAAATGAGAATTCGTGAGTAC -GATCACTCAAAATCGCCTGGCAAAAATAAAATCACCCTATAGATGCACAAAAAACGGGCAAAACTACCTG -GTTCGCAAAACTGCGTCTAAAGTTAAACCGGGACCTCGCGAGCAAGGGTGAGACGATGGCGCTTTACACA -ATTGGTGAAGTGGCGTTGCTTTGTGATATTAATCCTGTCACGTTACGCGCGTGGCAGAGGCGTTACGGAT -TGCTGAAACCGCAACGGACAGACGGCGGTCATCGGCTGTTCAACGATGCCGATATTGACCGGATCCGCGA -GATCAAACGCTGGATCGACAACGGCGTGCAGGTCAGCAAAGTTAAAATGCTGCTCAGTAATGAAAATGTT -GATGTGCAGAACGGCTGGCGCGATCAGCAAGAAACATTACTGACTTACCTGCAAAGCGGCAATCTACATA -GCCTGCGAACGTGGATCAAAGAGCGCGGTCAGGATTACCCCGCCCAGACACTCACCACACATCTGTTTAT -TCCTCTGCGCCGACGGCTTCAGTGCCAACAACCGACTCTCCAGGCGCTGCTGGCGATCCTCGACGGCGTA -CTGATCAACTACATCGCCATTTGTCTGGCTTCGGCACGTAAAAAACAGGGTAAAGATGCGCTGGTGGTTG -GCTGGAATATTCAGGATACCACCCGTCTGTGGCTGGAGGGCTGGATTGCCAGTCAACAAGGATGGCGCAT -TGATGTCCTCGCCCACTCGCTCAATCAACTACGCCCTGAACTATTCGAAGGCCGTACATTGCTGGTGTGG -TGCGGTGAAAATCGAACCTCCGCCCAACAGCAGCAACTCACCAGTTGGCAAGAACAAGGCCATGATATTT -TCCCACTCGGCATTTAATGATTCGTTAACAAATGCGCTTTACTGTACAATCCTTTCGTTAACATAAGGAG -TGCATTATGCGCATAGCTAAAATTGGGGTCATCGCCCTGTTCCTGTTTATGGCGTTAGGCGGAATTGGTG -GCGTCATGCTCGCAGGTTATACCTTTATTTTGCGTGCTGGCTAAGCGCCTGCACCAGCCTTTCAAACAGG -CGGTCTGCGATGATCGCCGCCAGTGCCACCAGTAACGCCCCCTGGATCACATACGCGGTATTAAATCCGC -TAAGCCCGATGATGATGGGCGTACCCAGCGTGCTGGCCCCTACCGTTGAGGCGATCGTCGCCGTACCAAT -GTTGATAATCACCGAAGTTCGCACGCCCGCCAGAATCACCGGAGCCGCCAGCGGTAGCTCGACCTTACGC -ACTCGCTGACCACGACTCATTCCCATACCTTTCGCAACTTCTGTCACGCTGGCATCAATCGCTCCCAGCC -CGGCAAGTGTCGCCTGCAGGACGGGCAGCACACCGTAAAGGATCAAGGCGATAATCGCTGGTTGCAGACC -AAAGCCGATCACCGGAACGGCGATCGCCAGCACTGCGACGGGCGGAAAAGTCTGTCCAACGGCGGCAATA -GTTTCCACCAGTGGGCGAAATTCCGCGCCCCACGGGCGAGTGACAGCAATTCCGGCACCAGTGCCAATGA -TCACCGCAAACAAACTCGAAATTCCCACCAGCCAGAAATGAGCCAGTGCCAGAGCTGCAAAACTTTCTTG -CTGATAAACGGGTCGTGGCAGTTGTGGGAACAAGGCAGCAAACAGCGGCTGGCTGTAAGGCAGCCAGAAA -ATCAGCGCCACAAACAGAGCAATGAGCCAGAACAGCGGATCGCGCAACATCTTCATACGCTTACGCCTCC -ACCAGCAGATCCTGAAAATGCAGCGTGCCGCAAGGCTGGCCCTGCATGTTCACCACCGGCAGCACCTCGC -ATCCCCGCGCAACAAACAGAGAGAGCGCATCGCGTAGCGTCATCTCTTCTGCCAGTGCCTCACCATCTGC -TCGTTCTTCGCGACGCACGTAATCCGCCACACTACGTAACGAAAGCAGGCGCACACCCAGTTCACTACGT -CCAAAAAACTGGCGGACAAAATCATTCGCCGGACGAGTCAGCATCGTCAGCGGATTGCCCTGCTGCACTA -CTTCACCGTGATCCATCAATACCAGATGTTCTGCCAGCCGTAGCGCCTCATCAATATCATGAGTGACCAG -CACAATGGTACGCCCCAGCAAACGGTGAATGCGCGTCATCTCTTGTTGCAACGCGCCGCGCGTTACCGGG -TCCAGTGCGCCAAAAGGTTCATCCATTAGTAAGACTTGCGGATCGGCAGCCAGTGCACGCGCCACTCCCA -CACGTTGCTGCTGACCACCGGAAAGCTGATGCGGATAACGCTCACGCAAATTTGACTCCAGCCCCAGTAG -CGCCATTAATTCGTCGATACGATCGTCAATCCGCGCCCGCGACCATTTTTGTAATTGCGGCACGGTAGCG -ATGTTTTGCGCCACGCTCCAGTGGGGGAACAGGCCAATAGATTGAATGGCATAGCCCATCCGGCGGCGCA -ACTCCAGTACTGGCAGCGAGCGAATTTCTTCTCCGGCAAAGCGGATCTCTCCGCTGTCATGCTCCACCAG -GCGGTTAATCATTTTCAGGGTGGTGGATTTGCCGGAGCCAGATGTGCCAATCAGCACCGAAAAACTCCCT -TCCTGAAAATTGAGATTGAGATCGTTAACGGCTTTTTGTGCGCCGAACAGTTTGCTGACATGGCTAAATT -CAATCATTACGTTTCACCTTCAGCAGTGCGATAAGCAAATCGAACAGCGCGTCGGTAAGCACCGCCAGAA -CAATTACCGGGATCACCCCCAGCAACACTAAATCAATGGCGCTGCTTAGCAGCCCCTGGAAAACCAGCGC -ACCAAAACCGCCTGCGCCGATTAACGCCGCAATCACCGCCATACCTACAGTTTGCACCATCACCACCCGC -AGGCTGCGCAGAAATACCGGTAACGCCAGCGGTAACTGAACATGCAGGAAACGCTGCGCCCCGCTCATCC -CCATCGCTCTGGCGCTTTCCAGCACATCGCGCGGGATCTGGTTCAAACCGACTACCACGCCGCGCACCAG -CGGCAGCAAGGCATAGAGCACCAGCGCAATCAGTGCGGGTGTCATTCCGGTTCCTGCTATGCCGAGCGTC -CCCAGCCACGGAAAGGCCGTAACCAGCGCGGCAAGCGGCGCAATCAACAGGCCAAAGAGCGCCACCGAAG -GCACGGTCTGAATCACATTGAGCAGAGAAAAAATTGCCCCCTGCCGAGCAGTGGAAAAGTAGCACCAGAT -GCCCAACGGCACACCAATCACTAACGCAGGCAGCACCGCACCAAACAGCAACGTCAGATGTTGTGCCAGC -GCGTCGTCAAACACATCCTGACGGTTGGCGTATTCTTTCATTAGTGAGAGATCGTTAAGCGTGCCGGAGT -ACAGCAACCACAGCGGAATAATGGCAATCTGCATATGCAACAACCAGCGCCACAGCGGATGCGTGGAGAT -TCGGCGGATGGCATCGCTACAGGCCAGCAATGCCAGCGCCGCAGCCAGCCAGAAACCACTGCCGAGGCTG -GTACGCGCCAGCGCACTGCCATTTTGCGCCAGTTGGGTCGCCGCCTTTCCAGCTCCCCACACCAGCAATA -CGAAGACGAATTGCGCCAGAATGAGTGCACAAATGCTGCCTTTTTTACCGGGAATAAAACAGGCCGTCAG -CCAGGCGCAACCAACGCCCACCAGCATCCAGATCGTTTGCGGCCACAGCTGCCAGAGATGACGCCCCTCA -CCCGAAACTAAACGATTAGGCGCGTAACTGATAAACGGCAGCGCCGCTGCGATTGCCGTCAGCAACAGCA -GCAGCGCCAGAACAGGATTAATACGGAAATAAGTCACGGGAAATTACTTCGTCCACCCTTTTTGTTTCAG -GTAGTCGGCAGCCACTTTTTTGGCATCCAGTCCTTCCACAGCAATGCTGGCATTCAGTTGCTGCAATGTT -TTTGCATCGAGGCTGGCGAAGACTGGCTGTAGCCACTGTGCCATTTGCGGATACTCCCTCAACACCGACT -CACGCACCACTGGTGCAGGCGCGTAGATAGGTTGCACACCTTGCGGATCGCTTAAGGTTTGCAGCCCCAG -CGCCGCTACCGGGCCGTCAGTGCCGTAAGCCATTGCAGCATTAACGCCAGAGGTTTGCTGGGCAGCGGCT -TTGATCGTCACCGCCGTGTCGCCACCAGCCAGTGACAGCAACTGATCCTGACCGAGCTTAAAGCCATAGG -CTTTTTCAAACGCGGGTAACGCATCGGCGCGTTCGATAAACTCTGCCGAGGCTGCCAGTTTGAAGGTGCC -GCCCTCTTGCAGATAACGACTCAGGTCGGCAAGCGAAGTGAGTTTATTTTTCTCTGCCACATCCTGACGC -ACGGCGATAGTCCAGGTGTTATTTGCAGGCGCGGGCGTCAGCCAGATTAACTTGTTGTGCTCCGAATCGA -GCTTTTTGACTTTCTCGTAACCTTGCTGCGCGTTTTTCCACGCTGCATCGTTTTCATCTTTAAAGAAGAA -AGCGCCATTGCCGGTATATTCCGGATAGATATCCAGTTCACCGGAAGTAATCGCCCCGCGCACCACAGGA -GTCGTTCCGAGTTGCACTTTATTCACCGTCGGTACGCCGTGGCTTTCCAGCACCTGCAAAATGATATTGC -CGAGTAGCGCACCTTCGGTATCGATTTTTGAACCGACTTTAACGGGGGAAGCCGCCTGTAGCGGCAGGCT -CACGGCTGCCAACATAACCAGTGAACCTGCCCAGAGCTTTAAGAGTGGCATGATGCTTTCCTCATTCTTT -TACTGTTGTTTTCAGCGAATTAAGAGAAAAGCATAGTTGATAATGGCGGGGTTAGCTTGAGCGGAAGGAT -TCAGTTGCAGAATCAGATAAATACTTAAGAGGCATATTCGGTCCGGCGTTTCCTGCCGGATGCGGCGCGA -GCGCCTTATCCGGCCTACAAAGGGCGCAAACGTCGCGCCCTTACTAAAGCATTACAGCAACTCAAACTCG -CCTTTCTTAACGCGTGCGGAATCAGTGCCGATAAAGACATTGAACTTGCCAGGCTCGGCGTCATATTTCA -TCTGTTGATTCCAGAACTTCAGCGCCTCAATATCGATCGGGAAGCTGACAGTCTGAGTTTCGCCCGGTTT -CAGGGTGATTTTCTCAAAGCCTTTCAGCTGTTTCACAGGGCGACTCATGGAAGCCGTCACATCCTGCAAG -TACATCTGCACTACCGTGGCACCCTCGCGCTTACCGGTGTTCGTCACCTGCACGCTGGCAGTCACTTTGC -CGTCACGCTTCATGGTCGGCGCAGAAAGTTTCACATCAGAGACGGTGAAAGTGGTGTAGCTCAGCCCATA -GCCGAACGGATACAACGCCCCGTTAGCTTCATCAAAATAACGCGAAGTGTATTTGTTCGGCTTGTCGGCA -TTATACGGGCGACCGGTATTCAGATGGCTGTAGTACACCGGGATCTGCCCGACAGAACGCGGGAAGGACA -TTGGCAGCTTGCCGGACGGGTTGTAATCGCCAAACAATACATCGGCAATTGCATTACCGCCTTCAGTCCC -CGCAAACCAGGTTTCCAGAATCGCATCAGCCTGCTGATCTTCTTTCACCAGCGCCAGCGGACGCCCGTTC -ATCAGCACCAGCACCAGCGGTTTACCGGTGGCTTTCAGCGCCGCAATCAAGTCACGTTGGCTTTGCGGAA -TAGTGATATCGGTCCGGCTGGAGGCTTCGTGCGCCATCCCCTGTGCTTCACCGACTACAGCCACCACCAC -ATCAGATTGTTTCGCCGTCTGCACCGCTTCATCAATCATCTCTTGCGGCGAACGCGGATCGACTTTGACC -GCTTCTTCATACTGATTCAGGAAATCGATAATGCCTTTGTCACTGGTAACGTTCGCCCCTTTGGCATACA -GCACTTTACCGTTTTCACCGACGGCATTTTTAATCCCGGTCAGTACGGTCACGGATTGATCGGCAACACC -GGCTGCGGACCAGCTGCCCATCACGTCACGTTTACTGTCCGCCAGTGGCCCAACCACCGCAATGGTGGCC -GATTTTTTCAGCGGTAACGTTTCGAGACGGTTTTTCAGCAACACCAAGCTTTCGCGCGCCACTTCACGCG -CTTCTTTACGGTGCAGGCGGCTTTCGGCATTGGTATCCACCGGGTCAGACTCTTTCGGCCCCAAATGGCT -GTATGGGTCGTTAAACAACCCCATATCATATTTAACGTTCAGTACATGGCGGGCAGCATCGTCCAGCTCT -GCCATCGTCACTTTGCCGGATTTAATCAACCCAGGCAGATACTTCGAGTAGTACTCGTCGCTCATGCTCA -TGTTGATTCCGGATTTCAGCGCCACGCGCACCGCATCTTCCGGGTCTGCCGCCGTGCCATGTTTAATCAG -CTCTTTGATTGCACCGTGATCGGAAACGGTGATGCCTTTAAAGCCCCACTGGTCGCGCAGAACATCTTTC -AGCAGCCAGGAATCGGAGGTGGCTGGCGTGCCGTTCAGCGAGTTCAGCGCCACCATCACCGCGCCGCTGC -CTGCGTCCAGCCCCGCTTTGTACGGCGGCATATAATCATTAAACAGGCGCTGCGGACTCATATCGACGGT -GTTGTACTCTTTACCGCCTTCTACCGCGCCGTATGCGGCAAAGTGTTTGACGCTGGTCATCACCGAGTAG -CGATCTGCCGGGCTTTTACCCTGCATCGCTTCCACCATGGTTTTACCCATTGTTGAGGTGAGATACGTAT -CTTCGCCAAAACCTTCGGAAGCACGTCCCCAGCGCGGATCGCGCGAGACATCGACCATCGGTGCCCAGGT -CATATTCAGGCCATCATCTGCCGCTTCATAAGCAGAGACACGTCCGACCGTTTTCACTGCATCGAGGTTA -AAAGACGAGGCCAGACCGAGGCTAATCGGGAACACCGTGCGCTGACCGTGCAGCACGTCGTAAGCAAAGA -AAAGAGGAATTTTCAGGCGGCTTAATTCCATCACCTGATCCTGCATGGCGCGGATATCCTGACGGGTTAC -GGTGTTGAAAATCGCCCCAACCTGACCGTCTTTGATCATCTCGCGGATCGCCTCTTTCGGGTTATCCGGG -CCGACGCTGATTAAGCGCAGCTGACCAATTTTCTCATCAACTGTCATTTTCTTAAGCAGTTCGGTGACGA -ACGCATCCCGCGCTTCGGGCGTTAATGGATGGTTGCCGAATAAATCATCCGCCAGTGCTGGCTGCAGGGC -CAGACTCACCGCGATTCCTACTGAACATAGCCATTTCATATGGATTTTTCTTCCTTTGTTGCCCGACGTG -GCAGCGAAAATGGTGCAAAAACCGTAGTTTGCCATAAGCATGATGGAGAGAGAAAAAGAATGCTCAGTTT -ATTGTCTGAATTTTCAAAATATTCACTCGCTGAATTGTTATACAAGGCGCTATTCTAGTTTGTGATATTT -TTTCGCCACCACAAGGAGTGGAAAATGTCTTCCATGACAACAACTGATAATAAAGCCTTTTTGAATGAAC -TTGCTCGTCTGGTGGGTTCTTCACACCTGCTCACCGATCCCGCAAAAACGGCCCGCTATCGCAAGGGCTT -CCGTTCTGGTCAGGGCGACGCGCTGGCTGTCGTTTTCCCTGGCTCACTACTAGAATTGTGGCGGGTGCTG -AAAGCCTGCGTCACCGCCGACAAAATTATTCTGATGCAGGCCGCCAATACAGGCCTGACCGAAGGATCGA -CGCCAAACGGTAACGATTATGATCGCGATGTCGTTATCATCAGCACCCTGCGTCTCGACAAGCTGCACGT -TCTTGGCAAGGGCGAACAGGTGCTGGCCTATCCGGGCACCACGCTCTATTCGCTGGAAAAAGCCCTCAAA -CCGCTGGGACGCGAACCGCACTCAGTGATTGGATCATCGTGTATAGGCGCATCGGTCATCGGCGGTATTT -GTAACAACTCCGGCGGCTCGCTGGTGCAACGTGGCCCGGCGTATACCGAAATGTCGTTATTCGCGCGTAT -AAATGAAGACGGCAAACTGACGCTGGTGAACCATCTGGGGATTGATCTGGGCGAAACGCCGGAGCAGATC -CTTAGCAAGCTGGATGATGATCGCATCAAAGATGACGATGTGCGTCACGATGGTCGTCACGCCCACGATT -ATGACTATGTCCACCGCGTTCGTGATATTGAAGCCGACACGCCCGCACGTTATAACGCCGATCCTGATCG -GTTATTTGAATCTTCTGGTTGCGCCGGGAAGCTGGCGGTCTTTGCAGTACGTCTTGATACCTTCGAAGCG -GAAAAAAATCAGCAGGTGTTTTATATCGGCACCAACCAGCCGGAAGTGCTGACCGAAATCCGCCGTCATA -TTCTGGCTAACTTCGAAAATCTGCCGGTTGCCGGGGAATATATGCACCGGGATATCTACGATATTGCGGA -AAAATACGGCAAAGACACCTTCCTGATGATTGATAAGTTAGGCACCGACAAGATGCCGTTCTTCTTTAAT -CTCAAGGGACGCACCGATGCGATGCTGGAGAAAGTGAAATTCTTCCGTCCGCATTTTACTGACCGTGCGA -TGCAAAAATTCGGTCACCTGTTCCCCAGCCATTTACCGCCGCGCATGAAAAACTGGCGCGATAAATACGA -GCATCATCTGCTGTTAAAAATGGCGGGCGATGGCGTGGGCGAAGCCAAATCGTGGCTGGTGGATTATTTC -AAACAGGCCGAAGGCGATTTCTTTGTCTGTACGCCGGAGGAAGGCAGCAAAGCGTTTTTACACCGTTTCG -CCGCTGCGGGCGCAGCAATTCGTTATCAGGCGGTGCATTCCGATGAAGTCGAAGACATTCTGGCGTTGGA -TATCGCTCTGCGGCGTAACGACACCGAGTGGTATGAGCATTTACCGCCGGAGATCGACAGCCAGCTGGTG -CACAAGCTCTATTACGGCCATTTTATGTGCTATGTCTTCCATCAGGATTACATAGTGAAAAAAGGCGTGG -ATGTGCATGCGTTAAAAGAACAGATGCTGGAACTGCTACAGCAGCGCGGCGCGCAGTACCCTGCCGAGCA -TAACGTCGGTCATTTGTATAAAGCACCGGAGACGTTGCAGAAGTTCTATCGCGAGAACGATCCGACCAAC -AGCATGAATCCGGGGATCGGTAAAACCAGTAAACGGAAAAACTGGCAGGAAGTGGAGTAAAAATTACGGA -TGGCAGAGTATCGCCATCCGAATTCACTTAATCGTTCTGTGCCGTCTGCCCCGCCGCCGCCATTTGGGCG -GCTTTTTGTTTTTTATAGCTCAACGCTGCTGCCGGCACAGGCATCACTTTACCGGTTTCAATCCAGGTAC -GCAGGCGGCTGGCATCGGCAAAATGGGTATATTTGCCAAACGCGTCCATCACTACCAGCGCCACCGGTTT -ATTATTGATAACCGTACGCATCACCAGACAATGGCCCGCCGCATTGGTAAAGCCGGTTTTGGTTAACTGA -ATATTCCAGTTATCGCGATACACCAGATGATTAGTATTGCGGAACGGCAGCGTATACGTCGGATTAGAGA -AGGTTGCCATATCTTCCCGGGTAGTACTTAACTGCCCGATCAACGGATATTGTTTGCTGGCAATGAGCAG -TTTGGTTAAGTCACGGGCAGTTGAAACGTTATGCACCGACAATCCGGTAGGTTCAACAAAGCGCGTGTTG -TTCATTCCGAGCGATTTCGCTTTCGCATTCATTGCCTTAATAAAGGCTTTGTAACCACCGGGATAATGGT -GCGCAAGGCTTGCCGCCGCGCGGTTTTCTGAAGACATCAGCGCCAGCAACAGCATATCTTTACGGCTGAT -TTCGCTATTCAGTCGTACGCGCGAATAGACCCCTTTCATCTCCGGCGTCTGGCTGATATCCACTTTTAGT -TTTTCATCCAGCGGCAGTCGTGCATCCAGCACAACCATCGCGGTCATTAATTTGCTGATAGACGCAATCG -GACGCACCAGATCCGGGTGGTTCGAATAGATCACTTTGTTGGTATTCAGATCAACAATCATCGCGCTACC -GGAGGCAATTTCCGGTTGTGAAGCGGTGGTAGCGGCTGCCGTTTTCGCAACGGCCTGCGGTGCAAAAGGC -ACAGCCAGCATCAGGGCCAGGCTAAATAAAGAAACTCGAAATTTCGGCATGATGAGCATTCAGATAGTGG -TTCACGCGCACGGGTTGCGCACCGCCGGAGTAAGGATTTACTGAGGCTAGCGACGCCATCATAACGAGCA -AAAAGTGCGATCGTCAAAGGAGAATCGTGAGGAAATGCTGCATTGCTGACATTTACGCCAGCAATGCAAC -GTCAAAGAACTTTCTAGAACAAACGATAACCGTAGCCCCATAGTATAACGGTTAGGGCGAGCAGCACTTC -CAGTACCAGCACGCCAATCGCCAGCGTCGAACTAGAGAAGCTAAGGCCTTCCTCTTTGTTGATATTCAGG -AAGCTCGGAATACCAAGGTAAAGCAGGTAGCCGGTGTAAAACAGCGCCACCGTGCCGACCAGCGCACACA -ACCAGACCAGTGGATAAAGCGCCACCAGACCGCTTAAAAACAGCGGAGTTGCAACGTAGCCCGCGAAGAC -CATGCAGTGCGCAAGTGACGGACGCTGCGGATAATTACGCGCCATCCACCAGATGACCCGCCCCATCACC -GCGACCCCAGCCAGCATAACGCCGTAAAACAAGACAGCCAGCGCCAGTCCGGTAAACCAGGATAACTTCA -GGATAGTGCCATCGCCAAAATTCCAGCCAATCTGTGTAGTGCCAATGAAGGCGCAAATCACCGGAATCGC -CGCCATCAGCAAAACGTGGTGGGTGTAATGGTGAGAAATCGTTTCGTTTTCGCGATTAATCACCTGCATT -TCACGATCGGGATGGGAAAACAGTCCCCAGACATGGCTCATACCGCCCCCTTGTTGTGAGTTCATGAACC -TGACAGTTCAAGTATAAGTCAGCTTGTGATTATTTTTTGTTCGCCCATGTAATTTTCACTGTCTGATGAA -CGTCCTTTTTCAGCGTGAATGATTCACAGGGTGTATGCTTACTGGCAACCAAAGGGAGACAGACTGGCCT -ATGGATCTCAATACACTTATCTCACAATATGGTTATGCCGCGCTGGTGATCGGTAGCCTGGCGGAAGGTG -AAACCGTGACTTTGCTGGGAGGCGTTGCGGCGCATCAGGGGCTATTAAAGTTCCCGCTGGTGGTACTTTC -TGTGGCGCTTGGCGGCATGATTGGCGACCAGGTGCTCTATCTGTGCGGGCGGCGGTTTGGCGGCAAGCTG -TTACGCCGTTTCTCGAAACATCAGGATAAAATTGAGCGGGCGCAGAAACTTATCCAACGCCATCCGTATC -TGTTTGTCATTGGTACGCGCTTTATGTATGGCTTTCGGGTGATTGGCCCGACGCTGATTGGTGCCAGCCA -GCTGCCGCCGAAAATCTTTCTGCCGCTGAATATTCTCGGCGCATTTGCCTGGGCGTTGATTTTTACCACT -ATTGGTTACGCTGGTGGTCAGGTGATTGCGCCGTGGTTGCACAATCTCGACCAGCATTTGAAGCACTGGG -TCTGGTTGATTCTGGTCGTGGTTCTGGTGGTGGGCGTGCGCTGGTGGCTGAAACGACGCGGGAAGAAAAA -GCCGGATCATCAGGCGTAAAACCATTGCCCTGGATAAGGCGTTCGCGCCGCATCCGACATCCGGAGTACC -ATGCCTGATACGACGCTTGTGCGTCTTTTCATGCCGACCAAAATATTACCCAATGAAATATCCACGCACC -TCACTGCGCTATTCTGGGTTGAACTGTGGATTCGCCAACATAAAGCCGCCATCCACTATCAACGACTGCC -CGGTGGTGTAATTTGCGCCCTCCGAACAAAGCCACACCACCAGGCTGGCAATCTCATGCGTTGCGCCAAA -ACGCCGCAAGGGAATCGAAGGCTCCGCGTCGGGCTTCACGTCGCTGTCATCCATGCCATTCATTGGCGTG -GCGATCGCCCCAGGCGCGACTGCGTTCACCAAAATCTTATGCCTGACCAGCTCCAGCGCCATCGCTTTGG -TTAACCCACCGAGCGCATGTTTAGCGGCTGTGTAGGCGCTGGCATCCGGCAGCGGCGTATGTTCATGTAC -CGACGTAATGTTGATGATGCGACCGCCCTGCCCTTGTTTCACCATCTGACGAGCCGCAATTTGCGAGCAT -AAGAATGCACCATCGACATCAACGGTAAAAATCTTGCGCCACTCATCAAAAGCCATATCAAGAAACGGCG -CTTTGGTCATTGCACCCGCATTATTCACCAGCACATCAATGCGCCCCAGCCGTTGAATGAGTTTCTCCAG -CGCCAGTGCCCCTTCTGGTAGATTGCCGAGATCCAGCTGCACGATCTCCGCACGTACGCCGTGGCTAACT -ACCTCACGCGCGGTATCTTTTGCCCCTTCTTCATCTGAGTGCCAGGTAATACCAATATCAAACCCCTGCT -GCGCCAGTAATAACGCGCACTCTTTGCCGATCCCCGAATCGGAGGCGGTAATAATCGCAACCTGTGCCAT -CGAGTTCTCCACTTAACGCTGAATAAACGTTAAGTATAGAAGGCGCATATCATCAGCGTTTGTACCCCCC -GCCCAACGCACCAGTGAGTTGAATGGAGGCATCCAGCCACTGCCCTTGCAATAACAGGCCATTGGCCCGC -TCACGCAGCGCGGGGATTCTGGCTTCGCTGACGCGGGAACCAGCAATGATGCCCGCGTTAAAGCGCGCCT -GCGCAAGACCTACCACACGCAAGGCATCGCGCTCAATTTGCGCCTGATGCTGGTTTTTCTCCGCCAGTGT -CTGAACCTGACTGGCTGCCCGCGCCACGTCATTCACCGCTTCAACCACCGCTTTGTTGTAGCTGGCGATA -GACAAGTTGCTTTCGGCTTTTGCGATATCGAGATTGGCGTTAAGACGACCACTATCGAAAATGGGTAGCG -TCAGGCCTGCCGTAACGCCCATTTGCTGCGCGGAATGACGGAACAGATCGCTTAAGTGCAACGCATCCTG -TTGCAGGAAGGCCATCAGGTTGATGTCAGGATAAAATGCCGCTTTTGCCGCATCAATGGTGCTTAGCGAT -GACTCAACGTACCAGTGCGCCGCCTGCAAATCTGCCCGCCGGGCCAGTAAGGAGTACCCCAGTTCATCAG -GAAGCTGGCTTGCCACTTTCGGCAACGCGACCGGTTTAAGCTTCAATGACTTTGTCTGGTTATTTGTAAG -TGCGCTTAACCGTGCCTCAATAATTTTCATTTTCCCCGCGACATCGTTGAGCTGCTGCCGGGTTTTGCTG -GCATTAATATCGGTTTCCACACCTTCAACTGAAGAAGTAATCCCGTTCTGATATAGCTGGCGATCGGTCG -CGATAATGGTGTTCTGCTCTTTTTCTATTTGCTGCAAGACCGTGTTTAACGCCGCCTGGGTTTGCCACTC -CCAGTACAGGCGGGCTACGCTGCCAGCCAGCAATTGGCGGGTTTGCTCGCGTTCCGCCGCCCGTGCTTTA -ACCGTACCCAGGCGGGCAGTAACCTCCGCCCGATTCTTTCCCCAGATATCGAGATGCCAGCCCGCCGTTA -AGCCAAAAGTACCGTTGGTGTACCACGGGCCGGTCGTACCTGCGGCCGGATCGTTCAGAGCAAACGGCCC -CATTAAGCCTTCTGCCGACATTTTTTGCCGCTCCATATCCGCCGAAAAGTCGATCTGCGGACCATCCTGA -GTGGCAACTGCCTTCGCCTGGGCTTCAGCTAGCTGAATGCGCTGTTCAGCCACCTGCATATCCGGTGCGT -TCTGTAGTGCATTGTTAATTAAGGAAGTGAGTTGATTATCGTGATACTCCAGCCACCATTGGCTGTCTGG -CCAACCATTTTCAGCGCCGTGGGTAATGCGGTGTCAACTTGTGCAGCGGGCGTTTGCTGGCTTAACGCCT -GGCGGGTTTCATGCATAGGCGCACACCCGGCCAGCATCAGTAACAGCGGAAAACAGGCGATGGCTGGATA -AAAGGAATCACGATTCATGGGGGAATAATCAGGTAAGAAAAGGTGCGCGGAGATTACCGTGTGTTGCGAT -ATATTTTTTAGTTTCGCGTGGCAATACATCAGTGGCAATAAAACGACATATCCAGAAAAATATACACTAA -GTGAATGATATCTTCCGATTTATCTTAATCGTTTATGGATAACGGCAAAGGGCTTCGTTTTTTCCTATAC -TTATTCAGCACTCACAAATAAAGGAACGCCAATGAAAATTATACTCTGGGCTGTATTGATTATTTTCCTG -ATTGGGCTACTGGTGGTGACTGGCGTATTTAAGATGATATTTTAAAATTAATTAATGTCATCAGGTCCGA -AAATAACGAGAATATTTCAGTCTCTCATCCTGTTGCGCTCCTGTCATGTGCATTGCTTCATATAATCACT -GGCGCAAGGAGCGCGCAGGGGGCGGCCAATCGCCGCCGCCCCCTGCACCCCCGGGCTCTGGCGAACAAAA -TCGCCGCTGCGCGGTGCCCTCGGCTTATCCCTTACGGCTACCGGGTCGGGCGCGAGGTAACATCCCTGTA -AAACGCGCCCTCAGCCCACATCCATGTGGGCTGCCCCGGCCTTCAGGGAACGCCTCGGCAATTTTGACGC -CACCAAACAACCGTGCGGCCTATTGATAAAGAGCTAACACATTGTCAAAAAACATCACTATGGTTTTTTA -GAGTTTCTCGATATCAATTGCCTGAATAGCCCTTGCAATATCAGGGGAATTATTCAACACCCGAACATGC -TGAAATAATTCCGTTGCTTCATCGTATTCTTTACGCAAATAACTCAACCACTGTTTAATCCGCGCAACGT -GATATAACCCGGTATCGCCCTGCTTTTCCAGACGGGTATATTTTTGCAGCAAAGCAACCACCTCCGGCCA -CGGCATTCGCGGTTCGTTATATTTTACCACCCGGCTCAGGTTGGGAATATTGAGCGCCCCGCGACCAATC -ATCACTGCGTCGCAGCCGCTGATCGCCATGCATTGTTGCGCGCTCTGCCAGTCCCAGATTTCACCGTTGG -CAATCACCGGAATATTCAGCCGCTGGCGAATATCGCCAATCGCCTGCCAGTCAATATGCTCCGCGCGGTA -ACCCTGCTCTTTCGTCCGCCCATGCACCACCAGCTCCGTAGCGCCAGCCTGTTGAACCGCATCGGCGATT -TCAAATTTCTTCTCACCGCTGTCCCAGCCCAGACGCACTTTCACGCTGACGGGCAAATGCGCCGGTACAG -CTTCACGCATCGCTTTTGCACCCTGGTAGATGAGTTCAGGATCTTTGAGTAACGTCGCCCCGCCGCCGCT -ACCGTTAACCGTTTTCGACGGGCAGCCGCAATTGAGATCCACGCCCCAGGAACCTAACTCCACCGCACGG -GCGGCGTTCTCTGCCAGCCATTGTGGGAACTGACCTAACAACTGCACGCGCACCAGCGTACCAGATGGTG -TCCGGCTGGCGTTTTGTAGCTCAGGGCAAATGCGATGAAAGACTTTTACCGGCAGCAGTTGATCCACCAC -GCGGACAAACTCGGTGATGCACAGATCGTAGTCGTTAACTTCGGTCAGCAATTCACGCACCAGAGAGTCA -AGCACTCCCTCCATCGGTGCCAGTAACACACGCATATCATCACCCGCAAAAAAATGAGGCGCTATGTTAG -CGCCTATGGTCAGCGGATTAAAGGTCTGCAAAGAGGGATTGCTGCAAACTGCAATCCCTCTCTATGCTTG -ATGTATGCCTGAGTTCGCTGCGCATTGCGTAATGCCGGGGAGCGAAAAAATAAGCGCTGATTTCTTAATG -TGATCGGTAGCACGTTTTACGAATTAATTGTATGATGAATCCATCTCATCTGGGGTGTTGATTATGAGTA -AGACACTGAACATTATCTGGCAATATTTACGCGCTTTCGTCCTGATTTATGCCTGCCTGTATGCAGGCAT -TTTCATTGCTTCCCTGCTACCGGTAACCATTCCGGGCAGCATCATCGGGATGCTGATCCTGTTTGTCCTG -CTGGCCTTGCAAATTCTTCCGGCAAAATGGGTCAATCCGGGGTGCTACGTACTGATTCGCTATATGGCGC -TATTGTTTGTGCCGATTGGCGTAGGCGTCATGCAATATTTTGATTTGCTCCGCGCACAGTTTGGCCCGGT -AGTGGTTTCCTGTGCAGTCAGTACGCTGGTGGTTTTTCTGGTGGTGAGCTGGAGTTCGCAACTGGTACAC -GGTGAACGTAAAGTCGTAGGTCAGAAAGGATCAGAAGAATGATGGCGAATATCTGGTGGTCATTACCGCT -GACATTGATTGTCTTTTTTGCCGCCCGCAAACTGGCGGCACGGTATAAGTTTCCCTTGCTTAACCCGTTG -CTGGTAGCAATGGTGGTGATCATTCCTTTTTTAATGCTGACTGGCATCTCTTACGACAGCTACTTTAAAG -GTAGCGAAGTGCTAAACGATCTGCTGCAACCGGCGGTCGTCGCGCTGGCCTATCCTTTATATGAGCAGCT -ACACCAGATCCGCGCGCGCTGGAAATCGATCATCACCATCTGTTTTATCGGCAGCGTGGTTGCGATGGTG -ACGGGGACTTCCGTGGCATTGTTGATGGGCGCTTCACCGGAAATCGCCGCGTCAATCCTGCCGAAATCAG -TCACCACGCCTATTGCAATGGCGGTTGGCGGCAGTATTGGCGGTATTCCGGCAATCAGCGCAGTTTGCGT -GATTTTCGTCGGCATCCTCGGCGCGGTATTTGGCCATACATTGCTTAATGCGATGCGTATTCGTACCAAA -GCTGCGCGCGGTCTGGCAATGGGGACTGCCTCGCACGCCCTCGGTACGGCGCGCTGCGCCGAGCTGGATT -ATCAGGAAGGTGCATTTAGTTCGCTAGCGCTGGTGTTATGCGGGATAATTACTTCGCTGATCGCACCGTT -CCTTTTCCCGATTATTCTGGCAGTAATGGGCTAAAATTTGCGATGCGTCGCGCATTTTTGATGTATGTTT -CACGCGTTGCATAATTAATGAGATTCAGATCACATATAAAGCCACAACGGGTTCGTAAACTGTTATCCCA -TTACATGATTATGAGGCAACGCCATGCATCCACGTTTTCAAACCGCTTTTGCCCAACTTGCGGATAACTT -GCAATCTGCACTGGAACCTATTCTGGCAGACAAGTACTTCCCCGCTTTGTTGACCGGGGAGCAAGTCTCA -TCGCTGAAGAGCGCAACGGGGCTGGACGAAGACGCGCTGGCATTCGCACTACTTCCGCTGGCGGCGGCCT -GTGCGCGTACGCCATTGTCGAATTTTAATGTTGGCGCAATTGCGCGCGGTGTGAGCGGAACCTGGTATTT -CGGTGCCAATATGGAATTTATTGGTGCGACAATGCAGCAAACCGTTCATGCCGAACAAAGCGCGATCAGC -CACGCCTGGTTGAGTGGTGAAAAAGCGCTTGCAGCCATCACCGTTAACTACACGCCTTGTGGTCACTGCC -GTCAGTTTATGAATGAACTGAACAGCGGTCTGGATCTGCGTATTCATCTGCCGGGCCGCGAGGCACACGC -GCTGCGTGACTATCTGCCAGATGCCTTTGGGCCGAAAGATCTGGAGATTAAAACGCTGCTGATGGACGAA -CAGGATCACGGCTATGCGCTGACGGGTGATGCGCTTTCTCAGGCAGCGATTGCGGCGGCAAACCGTTCGC -ACATGCCTTACAGTAAGTCGCCAAGCGGTGTCGCGCTGGAATGTAAAGACGGTCGTATTTTCAGTGGCAG -CTACGCTGAAAACGCCGCATTCAACCCGACTCTGCCACCGTTGCAGGGAGCGTTAATTCTGTTGAATCTC -AAGGGTTATGATTACCCGGATATCCAGCGCGCGGTTCTGGCAGAAAAAGCCGATGCGCCGTTGATTCAGT -GGGATGCCACCTCCGCAACGCTGAAAGCTCTCGGCTGTCACAGTATCGACCGAGTGCTTCTCGCTTAAGC -CTGGTGCCGGATGCGGCGTGAACGCCTTGTCCGGCTTGCCAGCCCTCTCCTGGTGTCGAAATTCCCGGCA -AACAGTTTGCCGTTTCTTGCGCAAAACCAGCGGGTAAAGTAGCCTGATGGAAATTTTCCTTAGATCGAGT -CTCCTGCATGTTAAAGCGCGTGTTCCTCAGCCTGTTAGTCCTGATCGGCTTGCTGCTGTTGACTGTGCTC -GGCCTCGATCGCTGGATGAGCTGGAAAACCGCGCCTTATATCTACGACGAATTGCAGGATCTCCCCTACC -GCCAGGTCGGTGTGGTGCTCGGAACAGCAAAATATTATCGTACTGGCGTAATTAATCAGTATTATCGCTA -CCGCATTCAAGGAGCGATTAATGCCTATAACAGCGGTAAGGTAAATTATCTATTACTGAGCGGCGATAAC -GCATTGCAAAGTTATAATGAGCCGATGACCATGCGCAAAGATTTAATCGCTGCTGGTGTCGACCCATCAG -ATATTGTTCTCGATTACGCAGGCTTTCGTACGCTGGATTCCATCGTGCGTACACGCAAAGTTTTCGATAC -TAATGATTTCATTATTATCACCCAACGTTTCCACTGTGAGCGAGCATTATTTATTGCGCTGCATATGGGG -ATTCAGGCTCAGTGTTATGCCGTACCGTCACCGAAAGATATGCTGTCAGTACGTATTCGTGAATTTGCCG -CCCGTTTCGGTGCGCTGGCTGACCTTTATATTTTTAAACGTGAACCGCGTTTTTTAGGGCCGCTGGTCCC -TATTCCGGCTATGCACCAGGTACCGGAAGATGCGCAGGGGTATCCCGCCGTCACACCCGAACAGTTACTT -GAATTACAAAAGAAACAAGGAAAGTAGTTATGGATGTACAGCAGTTTTTTGTCGTTGCCGTTTTTTTCCT -TATCCCGATATTTTGTTTCCGCGAAGCATGGAAAGGCTGGCGCGCAGGCGCGATTGATAAACGGGTTAAA -AATGCACCGGAACCGGTGTATGTCTGGCGAGCAAAAAATCCCGGACTCTTTTTCGCTTATATGGTGGCAT -ATATCGGCTTCGGAATTTTATCTATCGGCATGATTGTTTATCTTATTTTCTATCGTTAATATTCCCCTCT -CCAGTTAATTATTGAGAATAATTATTACTTCACCTGATAAGCTGCGGATATCACATTCCTAACCGCAGCT -ATTTGTGAATCTTTTCACAGTTTAAATTCCCCCGCACGCTTAGCCTTAATATCAGTACATTATTATTTAC -TAAACGCTCGCCTTAATTACCTATAGCATTAAGGAAGATCACATGCCGCAACAAAATTATCTGGATGAAC -TCACTCCGGCTTTTACGTCTTTACTGGCGATTAAAGAAGCCTCTCGCTGTTTATTATGTCACGACGCTCC -CTGTAGTCAGGCTTGCCCGGCACAGACCGATCCGGGGAAATTTATTCGCTCAATCTACTTTCGTAATTTT -AAAGGCGCTGCCGAGACAATTCGCGAAAATAATGCCCTCGGTGCCGTTTGTGCCAGAGTGTGCCCGACGG -AGAAATTATGCCAAAGCGGTTGTACCCGTGCCGGTGTTGATGCTCCCATTGATATCGGCCGCTTACAGCG -TTTTGTTACTGATTTTGAACAACAAACCGGAATGGAAATTTATCAGCCCGGTACTAAAACGCTCGGCAAA -GTCGCGATTATTGGCGCAGGTCCTGCCGGATTGCAGGCCAGTGTGACACTGACAAACCAGGGTTATGACG -TCACGATTTATGAGAAAGAAGCGCACCCCGGTGGCTGGTTGCGTAACGGTATTCCGCAATTCCGGTTACC -GCAATCAGTGCTGGATGCAGAGATCGCCCGTATTGAAAAAATGGGCGTGACCATTAAGTGCAACAACGAA -GTCGGTAACACACTCACCCTTGAGCAGCTGAAAGCAGAAAACCGCGCGGTACTGGTCACCGTGGGGTTAT -CAAGCGGTTCCGGGCTACCGCTGTTTGAGCATAGTGACGTTGAGATTGCCGTCGACTTCTTGCAACGTGC -ACGACAGGCGCAAGGCGATATCAGCATTCCACAAAGCGCATTAATTATCGGCGGCGGTGATGTCGCGATG -GACGTAGCCAGCACGCTGAAAGTTCTCGGCTGTCAGGCGGTAACTTGCGTAGCGCGTGAAGAGTTAGATG -AGTTTCCGGCAAGCGAAAAAGAGTTTACCAGCGCCCGGGAGCTGGGCGTTTCGATCATCGATGGATTCAC -GCCAGTAGCCGTGGAAGGCAATAAAGTCACGTTTAAGCATGTACGGTTATCGGGCGAACTGACGATGGCG -GCAGATAAAATTATTCTCGCCGTCGGTCAGCATGCCAGACTAGATGCCTTTGCGGAGTTAGAGCCGCAGC -GTAACACCATCAAAACACAAAATTACCAGACCCGCGACCCGCAAGTCTTTGCTGCTGGCGATATTGTTGA -GGGTGACAAAACCGTGGTCTATGCCGTGAAAACCGGGAAAGAAGCCGCCGAGGCGATTCATCACTATTTA -GAGGGAGCTTGCTCATGTTAACGAAAGATCTTTCGATTACTTTTTGCGGCGTGAAGTTTCCCAACCCGTT -CTGCCTCTCTTCTTCGCCGGTAGGCAACTGCTATGAGATGTGTGCCAAAGCCTACGACACAGGTTGGGGC -GGTGTGGTGTTTAAAACGATCGGCTTTTTTATCGCCAACGAAGTCTCGCCGCGTTTTGATCATCTGGTGA -AAGAAGATACCGGTTTTATCGGCTTCAAAAATATGGAGCAGATTGCTGAACATCCGTTGGAAGAGAATCT -GGCCGCCCTGCGTCGGCTGAAGGAAGATTACCCGGACAAAGTATTGATCGCTTCGATCATGGGGGAAAAT -GAGCAGCAATGGGAGGAGCTGGCGCGCCTGGTGCAAGAAGCTGGCGCGGATATGATCGAGTGTAACTTCT -CCTGTCCGCAAATGACTTCTCATGCGATGGGTAGCGATGTCGGGCAAAGCCCGGAGCTGGTAGAAAAATA -TTGTCGGGCAGTGAAACGGGGTTCCACGCTGCCAATGCTGGCGAAGATGACGCCGAATATCGGTGATATG -TGCGAAGTGGCGCTGGCGGCGAAGCGCGGCGGCGCAGATGGCATTGCGGCGATTAACACCGTTAAATCCA -TCACCAATATCGATCTTAATCAGAAAATCGGTATGCCGATCGTTAACGGAAAATCGAGTATTTCCGGATA -TTCCGGTAAAGCGGTAAAACCGATCGCCCTGCGCTTCATTCAGCAAATGCGCACCCATCCAGAACTGCGC -GATTTCCCAATCAGCGGTATCGGCGGCATTGAAACCTGGGAGGATGCGGCTGAGTTTTTATTGCTCGGCG -CAGCAACGTTACAGGTGACCACCGGCATCATGCAGTACGGGTATCGGATAGTGGAAGATATGGCAAGCGG -GTTGTCGCATTATCTCGCCGATCAGGGATTTGATTCGCTGCAGGAGATGGTAGGTCTGGCGAATAACAAT -ATTGTCCCGGCGGAAGATTTAGACCGCAGTTATATTGTCTATCCCCGTATCAATCTTGATAAATGTGTTG -GCTGTGGACGCTGTTATATTTCCTGTTACGACGGCGGTCACCAGGCGATGGAATGGAGCGAGAAAACCCG -CACACCGCATTGTAATACCGAGAAATGTGTGGGTTGTCTGCTTTGTGGTCACGTCTGCCCGGTGGGTTGT -ATTGAGCTCGGGGAAGTGAAGTTTAAGAAAGGCGAGAAAGAACACCCGGTAACGTTGTAAAACCAGAGAC -GCATCCGGCATTTGGTTCCTGTCGCCGGATGCGGCTTGAACGCCTTATCCGGCCTACAAAACCATACAAA -TCAGTATGTTGAGCTTATTGTAGGCCGGATAAAACGCGCCAGCGTTGCATCCGGCATTTGGCTCCTGTTG -CCGGATGCGGCGTGAACGCCTTATCCGGCCTACAAAACCACACAGATCATGATGTTATGTGCGTTTATGA -CCGAATGCGGACCACATTCACATCATTTCTTACGCGCGTATTTCAGTGAATCCAGCGCTACGGCGAAGAT -AATAATCGCCCCTTTGATGATGTACTGCCAGTATGGGTTTACGCCGATATACGTCAGGCCATAGTTGATG -ACGGTAAAAATAATTACCCCGGTCACCACGCCAATCACCGTCCCCACACCGCCGCTGAACGATACACCGC -CTACCACGCACGCCGCGATAGCATCCAGCTCATACATAAAGCCGAGGTTGTTGGTGGCAGAGCCGATACG -TCCGGCTTCTAACATCCCGCCAAAGGCATAGAACACGCCAGACAACGCGTAGATCATCAGCAGGTTCAGG -CCGACGTTGACACCAGATACTTTTGCCGCTTCCGGGTTACCGCCAATGGCAAAAATGTTCTTACCGAAGC -GGGTTTTGTTCCACAACACCCAGACGAACGCCACCGCAATCAACGCGTAGAAGGTGATGTAAGAGAGACG -GAAACTCCCCAGCGCGACAAAGCCCTGAGCAAAGGTAGAGAAGCCACTGTCAAAACCAGAAATTGGCGAC -GCCCCGACAAAGTCGTAATAGAGCGAGTTGATGCCATAGACGATGATCATCGTGCCGAGCGTGGTAATGA -ACGGCGTCACGTTGAGATAAGCGATAATCAGACCGTTGATCAAACCGATCACCGCACCAATGGCACAGAC -AATCAGAATAACCAGCGCAATCGGCATCGTCGCCATTTCCGGGAACACTTTGTTGGCGTTATCCATGGAC -TGCAATAATGTCGCAGCCACCACTGCCGCCAGCCCTACCTGACGACCAGCAGAAAGATCGGTCCCCTGGG -TGACAATTAACCCTGCCACACCGAGCGCGATAATAATACGCACCGATGACTGGGTGAGAATATTACTTAA -GTTCAACAGACTTAAAAATGTTGGGTCCTGGAAAATAATAATCGCCAGCAAAACTAAAAGAACGACGTAA -ATACCGCCCTCTTTCAGGTAAGTAAGAAAACTTTTCTTATTTAACGCACTCATGGGAAGCCCCTAATCTT -AAAGGTGCAAAGACGCAAGACGCAGAATTTCGTTTTGCGTTGTTGTTTTTGTATCGACAATTCCGGAAAC -GAGACCATTGCTCATGACCAGAATACGGTCTGTTATCCCTAACAACTCAGGCATTTCAGAGGAGATAATA -ATAATCCCCTTGCCTTTCTTCGCCAGTTCGGCAATTAACTGATAAATTTCAAACTTCGCCCCGACATCAA -TACCGCGCGTCGGTTCATCGAGCATTAATATTTCTGGTTGCGTTAGTAGCCAGCGACCAATAATCACCTT -TTGCTGATTACCACCGGAGAGCGAACCAATTTGCGTCCGATGACCCGGCGTTTTTACCCGCATCGAATCA -ATCACCCACTGGGTATCGCTTTTCATCCGCGAGTTATCCAGTAAACCAACTTTATTTTTGTAGTTGCGAA -TATTGGAAATTAACGAGTTAAAACCAATATCCAGATAGGCATAAATTCCCGTTGAGCGGCGCTCCTCAGT -TACCAGTGCAAATCCATGGTTTATGGCTTCGTTGGCATTATGGTTATTGATCTGTTTGCCGTGCAACGTT -ATGGTGCCAGCCGATTTCTCGCGAATACCAAATAACGTCTCAACAATATCGGTACGTTTCGCCCCCACCA -GACCGGCAATACCGAATCAAACGAGACATCGCGAATCGACGGCTGGCGCAGTGACGTCAGGTTACGTACC -TCGAGGATGACTTCGCCCGGTTTGTTTTCTTTGTCAGGGAAACGCTGGTTAAGAGAACGCCCAACCATCA -TGGCGATGATCTTGTCCATCGTCAGTCCTGCCAGCGGTTCGGTGGCGATCCACTGACCGTCGCGCAATAC -GGTAACTTCATCACATAACTGGAAGATTTCTTCCATTTTATGCGAGATATAAACAATACCGCAGCCGCGC -TCTTTTAATTTACGAATAATAGTGAACAGATGATTGACCTCTTTTTCGGTTAACGAAGAAGTCGGTTCAT -CCATAATCACAATTTTCGCGTTATAGGAAAACGCTTTGGCGATTTCGATCATCTGCATTTGCGAAACGGA -TAATGTGCCGACGCGCGCACGCGGATCGATATCAATATCCAGTTCGTCAAAAATCGCTTTGGTTTCGCGG -TACATTTTGTCCTGATCGACAAACATGCCTTTGGTGGGATATCGCCCCAGCCACATGTTATCCATCACCG -AACGTTGTAATACCAGGTTTAACTCCTGGTGTACCATCGAAATACCATTTTCCAGGGCTTCTTTTGCAGA -ATGGAAATCGATCTCTTTACCCTGGAATAAAATGGTGCCGGAGTCTTTTTGATAAATACCAAACAGGCAT -TTTAATAATGTCGATTTTCCTGCACCGTTTTCCCCCATTAATGCATGGATAGAATGTGGCCGGACTTTTA -AATTAACGTTATCAAGTGCCTTAACACCAGGAAAGGACTTGTTGATACCGCTCATTTCCAACAAGTATTC -CCCGGAGGACGGAGTCGTTGAGCTGACCATATAATTTTACCTTGTTGGCCATACAATAAGGGCGCAGTAA -TAGACTGCGCCCAATCAGTCTTATTTCTTGCTGAATTCAGCCAGGTTGTCTTTATCTACGCCAACATAAG -GTACGCGGACCACTTTGTTGTCGATTTTCCAGTTGGTGCCATCAGCCGCACCTTTACCATCGGCCAGGTT -TTTCGCCAGATCAAAGGTCGCTTTCGCCTGGTTGTTAGCATCGTTCAGTACGGTGCCCGCCAGTGCACCG -GATTTCACCAGCGCCAGCGCTTCTGGCAGCGCATCGACGCCAAACACCGGAATGCTGGACTTGTTGTGTG -CTTTCAGCGCTTCAACCGCGCCCATTGCCATCGCATCGTTGTTGGCGATAACCACTTCGATTTTGTTGGC -GTTCGGGCCAGACAGCCAGGCGTCCATCTTATCTTTCGCCTGAGCGGTGTCCCACATTGCGGTATCTAAC -TGTAACTGTTCAGTTTTGATGCCTTTATCGTTCAATTCTTTAATCACGTAAGTGGTACGTGCTTCTGCAT -CCGGATGGCCCGGTTCACCTTTCAGCAGTACGAACTGAATCTGACCGTCTTTGTTCAGATCCCAACCCTG -ATTCGCCGCCCAGTGTTTAGCAATCAAATCGCCTTGAATAATGCCGGACTCTTTGGAGTCAGTGCCAACG -TAGTAGGCTTTGTCGTAGCTATCCAGCGCCTTACGAGACGGTTCTTTGTTGAAGAAAACCACCGGCACGT -TTTGCCCACGCGCTTTCTCAATCACCGTACCCGCAGCTGCCGGGTCAACCAGGTTGATTGCCAGTGCCTT -CACCCCTTTCGCCAGCAATACGTCGATCTGATCGTTCTGCTTGGACTGGTCATTCTGAGAATCATTCATC -AGCAGCTGAACATCTGGCGCGGCTTTCGCATCTTGCTCAATAGCCTTGCGCACTACAGACATAAAGTTAT -CGTCGTACTTATAGATTGTTACACCAATGCGAGTATCAGCAGCGTGTGCAGCGGCACCGAATAACATGCT -GGCCATCACAGCAGACAGGGTTAACACCTTCTTATTCATGGTATCTCCGGTTTTTCTTATGCAGGGTAGT -GCTTGAGATAAATGCTCGGCGGGGCAGTAGAGTTAATGAAGTGTTACTGAACGCCGAAGCTCACTTTTTA -AAATTCGTTCTTCCATGCCCGGTAACGCTCCAGAAAACGGCTTTAATTGTTGTTATGACGCTGTTACCTC -GGCAAAAGTGATTATTCACTGTTACATACGGGTTACAACGTTAAAACGGTGCAATCATAGCTATCACATT -GTTAAGATACTGTGAAATCACTCACAGATTGAAAGCGGTTACATCGCCTGATTTGTTGAGTTAGTGATCG -CCGCCGCATTCTGGCGTGTTGCGACAGAATGGCGACGCACTAACGTCGGCATAAAACAGTGGCTGGCACG -AGGATCAATATTGCCTGCTGCCCCCTGCAAGGCCAGTTCGGTGGCTAATTTCGCCATTGAAGCAATGGGA -TAACGCACGGTCGTTAATTGCGGGTCGGTGTAACGGGCGATGGGAATATCATCGAAACCGATGATTGAGA -GATGTAACGGAATCGCAATGCCATTATCTTTTAATGCTGTCAGTGCGCCAGCGGCCATATTGTCGTTATA -AGCAAATACAGCGGTAAGTTGTAGATTGCGCCCCAGCAGTTCAACCATCGCCGCCTCACCGCCCGGCATG -TCCGGCGTACCAGCGCCAATCCAGCTTTCCGGCGGAATAATATCCTGCTCTTTCAACGCACTCATCCAGC -CTGCTTTACGCATGGCGTCATCTTCAATGCCGTGGCTGGAAGAAAGATAACCAATACGTTGATGACCGTT -ATTCAGCAACATGCGCGTCGCCATTCGGGCACCGCTGAGATTATCCAGGCAAACGCAACGATGGGCGTAC -CCCGGCACAACGCGGTTGATTAACACCATACCGGGAATGTTATCCATAAATTGCGCCAGTTCATCGTCAC -TCAATGCTTTTGAGTGAACAATCAACGCATTACAACGCTGGCGAATTAACACCTCAATGGCGTGACGCTC -TTTTTCCGCTTCATGATAGCTATTGCCGATTAGCACGTATTTCTGATGCTGCTGAGCGACCAGATCCACC -GCTTTTACCAGCGCGCCGAAAAACGCATCAGAAACGTCCATCACCACCACGCCAATGGTGTCGCTAACCT -GAGTTGCCAGCGCCTGGGCATTGGCGTTTGGCCGATAATCCAGCTCACTCACGGCTTTCATTACTGCTTC -ACGCGTGTCGGCACTGACCAGCGTGCTGTTATTGAGCACCCGGGAAACCGTTGCCACAGAGACGCCAGCC -TGACGCGCTACATCACGAATGGTGATCATATTCACTACCTGTTATGAGATTGCAGTAAATGACTGCTTGC -TGGCGGCTATTTTGTCAGCACTGAATACAGGACTTCGTGAATCGAGTCACAGCAATGGAAACGGTTACAG -CCGTTTTGTTAACGAATGTGATCCAGATCGTTATCTTGATGTTTTAGATATTGCCGGTCCGGCAGCACGC -AAAGTTAACTGACGCCAGAGCCATTCCACCGGCCCCTGGCGGAAGTAACGCAGCCAGATAACAGAGAAGA -GGATATTCGCCAGCCATACCGGAATAACAAACGCCAGCAGCTCCAGGCGGTCAAAATGCATAAACAAACC -GAGGTGGTAAAAAAGCGTGGTACAAATCAGCGTTTGCAATAGATAGTTGGTCAGCGCCATCCGTCCGACG -CAGGCGATCGCAAGCACCAGCTTAAAGCGGCTCAATTGCGGCCAGAAGCCATAAAACAGCGACGCATAGC -CAATCGCCTGAAACGGCGCACTCAGTTCCCGCGGCATTTGAAGTAAGAAGGCACACCAGCGATACGCCCA -GTCCAGCTGCCATTGCAGGGCGATGGCAGGAAGGTTAATGGTCACCCCAATCGCCACCAGCACAAAACCA -GTACGACGATAGTGACGTAAGCTGAACTGCCCTTTCAGCCAGCCGCTGCGCATCAGCGCCGCACCAATGA -GCATCATCCCTGCCAGTTGCCAGCCATACTGTGCGCCCAGTGCCAGTAAACTGTTGCCAACACCATCGGC -ACGATTACTGATCGCTTCAACGCCGCCGTGAAGCTTCCAGTATTTTTCATACAAAATAGCCGATGCATCC -GGCGTCCAGGCGCGGCTGGTCTGGCTGTCGGAAATCAGCCCCAATAACAGCAAAACGCCAAGCCCCACCA -GATAAAGCATGACGCCTGTATTAAACAGGCTTTTTACCGATGGCGCATCGCGCACCAGCCGCCAGCAGAT -TAAGCCCACCAGCCCGTAAGCCAGCAAAATATCGCCGTCCCAGAACAATAAACCGTGAATAAAGCCCAAC -AAGACTAACAGCGTTAACCGCGACTGGATCCAGCGTCTGCCACGGGGCAGCAACATTTGCAGGCCCGCAC -CAAACAGTAGCGCAAAAAGCGTGAGGAATTTCACCTGGCCGATGAGATCAAGAAATGCCCAAGTCCATGC -ATCCCGCGGCGTAATAGCACCGTACCAGGCGGGATTGAGATAAGCCGCCTTTGGTAGCCCAAAGGCGCTG -ATGTTTAATAGCAGGATCCCCAGAATGGCGACGCCGCGAACAAAATCGAGCGTGACGTTGCGCTCCATGG -TTCCTGCCTTTTAATCAGTTGTGATGACGCACAGCGCGCAGAAACTCGTGGCGCGTATTCTGACTGGATT -TGAACAATCCACCAAGAGAGGTCGTTGTCGTGGCACTGGTTGCATCGCGGATGCCACGCGCCTTCACGCA -GTAATGCACCGCGTCGATCGAGACAGCCACGTTATTGGTGCCCAGCAGCGTTTGTAGCGCAATAAGAATT -TGCTGCGTCAGACGTTCCTGCACCTGCGGACGCTGGGCAAAGAACTGCACAATGCGGTTAATTTTTGACA -GACCGATCACCGAATCTTTCGGGATATAGGCCACCGTCGCTTTGCCATCGATGGTAACAAAATGGTGTTC -ACAGGTGCTGGTCAGAGTGATATCGCGCACGGTGACCATTTCATCGACCTTCATTTTGTTTTCAATGAGG -GTGATTTTCGGGAAATTGGCGTAATCCAGACCGGAGAAAATTTCATCGACATACATTTTAGCGATGCGAT -GCGGCGTTTCCATCAAACTGTCATCAGCCAGGTCGAGATTCAGCAGCTGCATGATTTCGGTCATATGACC -AGCAATAAGGCTTTTGCGCGTTTCGTTATCCATTTCATGCACGGGCGGGCGCAGCGGTGTTTCCAGTCCT -CGCGCAACTAACGCTTCATGAACCAGGGCCGCTTCTTTACTGAGTGATGGCATTTATGATTTCTCCTGCA -GGTGTGACGCCTCCGCCCTGCGTGGGGGCAAAGTTATTAAGCTGATTTACAGCCTGATTATTGTGCGTGA -GGCGGCGCACATAATCCAGTATTCACAGCGATAATTATTGTAATTGCCGCTGCCTTTCATCAGCAGATGT -TAAAACATCGTTATGCAAATACGGAAGTGAAAGTTACTCACAGCACATTGAATAAACGGTATGATGAAGA -AATTGCAAACAACACAACAAGGAGCCACGCATGGAAATGCTCGAAGAGCACCGCTGTTTTGAAGGCTGGC -AGCAACGCTGGCGACACGACTCCAGTACCTTAAACTGCCCGATGACGTTCAGTATCTTTCTCCCTCCACC -TCGTGATCACACTCCGCCACCAGTGCTGTACTGGCTTTCCGGATTAACCTGCAATGACGAGAACTTCACC -ACCAAGGCGGGTGCCCAGCGGGTAGCGGCGGAACTGGGGATTGTACTGGTGATGCCAGACACCAGCCCGC -GCGGCGAAAAGGTTGCCAACGACGATGGCTACGATTTAGGCCAGGGCGCAGGCTTTTATCTTAATGCCAC -GCAACCGCCGTGGGCGACGCATTACCGGATGTATGATTATCTGCGCGATGAATTACCGGCGCTGGTTCAG -TCGCAATTTAATGTCAGCGACCGCTGCGCCATTAGCGGTCACTCAATGGGTGGTCACGGTGCGCTGATTA -TGGCGCTGAAAAATCCGGGTAAATACACCAGCGTTTCGGCCTTTGCGCCAATTGTGAATCCGTGCAGCGT -CCCGTGGGGAATCAAAGCGTTTAGCAGCTATTTAGGTGAGGACAAAAATGCATGGCTGGAATGGGACAGT -TGCGCACTGATGTATGCCAGTAACGCGCAGGATGCGATCCCGACGCTTATCGATCAGGGCGATAATGATC -AGTTTCTTGCCGACCAGTTGCAACCTGCGGTACTGGCAGAAGCCGCGCGCCAGAAAGCGTGGCCGATGAC -GCTGCGTATTCAGCCGGGATATGATCACAGTTACTACTTCATCGCCTCTTTTATAGAGGATCACCTGCGC -TTCCATGCGCAGTATTTACTGAAGTGAAAGTCCGCCCGGTTCGCCGGGCATCTTCTCATCAGAAGCGATA -ATCCACTGCCATAAAGTAACGACGTCCGTCTTCGTTATAGCTGTAGTCGTCACGACTGAGATCCTTGTCG -CCAAGGTTCAGCACGCCTGCGCGCAGTTTGACGTCTTTAGTCACCTGCCAGGCCGCGCCGGTATTCCAGA -TGGTATAACCGCCCGGTGTTTTAGCCGTCGCGCTGTCGGCGCGTTTCTGCCCGGTATAGTGCCCAGAAAC -ATAGAATGACCAGTCTTCCAGCGCCAGCGGTTTCCAGTCCAGCGTACCGTTAGCAGTATGGAACGGCAGA -TCGGATAGCGGTTTGTTTTCGCCGTTGCTGACATCACGACCATCGTTGTAGGTGTAGTTGATCGACAGTT -TCCATTCATCGTTGAACGGAATTTTCAGTTCGGTTTCCACGCCCTGAATACGAGCTTTGTTAACGTTGTA -GTAGCTAAATACCGGTATGCGCCGTCCGTTAGCGCCCGTCTCAAAACCAACAAAGTTTTGGTAGCCCGGT -GCAGCGTTGACGTCAGACGTACGGCTGATGCTGATACGATCTTTCACATCGTTACGGAAAACGGTAACGC -TGGATTCAACCCCTTCCAGCCAGCCTTCTTCACCCATGTAGTAAAGCCCCAGCTCCCAACTTTCGCTGGT -TTCTGGTTTCAGATCCGGGCTACCCACAATCTTACATGCGCCACGGCAGGAATTGCTCGTCCAGTCAGGG -CTAAGTTGCAACAGAGAAGGTGCTTTAAATGCCGTCGCCCAGCCCCCTTTCACCGTTACGGTGTCGGTGG -CGTTATAAACCAGGTAGGCACGCGGACTCCAGTGTTCACCGTAGGTTTCGTGATCGTCCATACGCACGCC -GGTCGTCAGCGCCAGCGGCTCGAAGATCCGCCATTCATCTTCCACAAACAGCGCGTACTGGCTGGCAGAC -GTTTTGGAGCTGGTTCCCCCGGTCAGGTTCACCGCATCGCTAAGTTTGTCGTGACGCCATTCACCGCCAA -CCGTGAGAAACTGATTAATCGCCGTCAGCGGCAACGTGTATTTGCCGTCGACCGTATTGCTTTCGGAAGT -TATCGGGCTGCTGTTGCCAGGGTTTTTGTTCTCGACTTTCTCACCGTAGTATTTCAGTTCGCTGGTGCCG -TAATCCCAACGCCCATTATGGCTGACGGAGTAGTTCTGGCGTTCCAGGCGGTTTTTGTCCAGCGAGTCGG -AATCACGATCCTGACGGTCGAAACCGTATCCGGCAGTAAAATCGTGATTTTGATTCGGTGTCCAGGCAAA -TTCGACATTGCCGTCGCGGCTGGAGAATCCTTCAATACGCGGCGTTTCTCCGGTATCGGTGGTCGTTGAG -TTTTGCGGGTCATCCTTTTCACGTTTTGCCAGGCTGCCGTAAGCTTTCATTCCCAGCACACCATCAATTA -ATGGTCCACTGGTAAAGAACTGACCGTTATAGGTGTCACCGCGATCGCGATGTTCCTGAATGGTGGTATC -GACGGTAACGGTACCCGACCATTTCTGACCGATTTTTTTGGTGATGATATTCACTACACCGCCGAGCGCA -TCGGAACCGTACAGCGACGACATCGGGCCACGGACCACTTCAATACGTTCGATGGAATCGACCGGGATCC -AGTTCAGATCGAAATCATTGTGGCGGAAGACGGCATTGCGGGAGTTCACGCGTTTACCGTCGACGAGAAT -CAGGGTATAGCTGCTGTCCAGACCACGAATACTAACGCCCTTACGGTTATCCCCTTCGTTCGTCAGTTGT -ACGCCAGGCACTTCTTTGAGGACATCCTTCAGATTCTGTACCGGTTTTCGCTGCAGGTCTTCCTGGGTAA -TGACGCTGATACTGGCAGGTGCATCTTTAAGATTTTGTTCCACGGAAGATGCAGTGACAACCATCGTTTC -GCCATCATCATCGACCGCTAACACAGGCCATGCACAAGAAATAGCGGACAAACACAGCCCGACCCGTACG -AAAGGGTTCAACCTAAACATTCCATATCTCCATGAGGTAACTACGAAAATAAAATGGGTTATCGCTCACA -TCTTCTTCACGTCCCCTTGCGTACGGCAGCATCGCGGTGGACTTATTTTTTATGCAGGTGATCATCCCAG -AAAGCCGGAACAGCCTCTGATTTGTCAGCCTTTTTTGATTGCGGCGTAACGATAATGCAAACGATAACAA -TTATCAATCCAAATGTTAAATTTTATATCCGCATGATTTGTCAGGGAAATGGAATTGAAAAAGCCCTCTC -GGTTGAGAGGGCTTAGCAAGGAAGGGAGGAAACTTATTTCTTATCGTTCTGCGGGAACTTCATTTCGCTG -TAGCGTACGAAGTGAGTTCCTTTAATCAGCTTGTAGCCGAACCAAATAATCAGGAACAGCGGGATACCAA -TATACGTTGCCGCTACGCCGCCCCAGTCAATAGTATCTTTCAGGAACGCTTCGTAGTTCTGGCCCAAAGT -GATAATCAGACACAGAATGAATGCGAAGATCGGCCCCAGTGGGAAGAAACCTGAACGGTACGGCAGATCG -TTAATGTCGTGTCCCTGCAATACGTAACCGCGACGGAAGCGATAGTGGCTAATGGCAATCCCCAGCCAGG -CGATAAAACCCGTCATCCCGGAGGTGTTCAGCAGCCACAGGTATACCGTCTGGTTGCCAAACATGGAGGT -CAGGAAGCACAGACCGGCAATCACCGTCGTCGCATACAGCGCATTACGCGGCACGCCACCACGCGACAGT -TTAGCGAAAATGCGCGGCGCTTTACCGTCACACGCCAGGGTGTACAGCATACGAGTAGACGCATACATAC -CGGAGTTACCCGCTGACAGCACCGCCGTCAGAATAACTGCGTTCATCACCGCCGCCGCAGAGAGCAGACC -CGCGTGCTGGAACACCAGGGTGAACGGACTAACGCTGATGTCTTTAACATCGTTACGCAGCAGGCTCGGA -TCGGTGTACGGAATAATCAGGCTGATAATCAGGATCGCGAACACATAGAACAACAGGATTCGCCAGAACA -CCTGACGTACCGCGCGTGGAATGTTTTTCGCCGGATCTTCGGACTCGCCTGCAGCAATACCGATCAGCTC -GGTTCCCTGGAAAGAGAAGCCGACAATCATAGCTACGCCGATCATCGCCGCAAAACCACCAGCAAACGGC -GCTTCGCCGATTGTCCAGTTGCTCCAGCCCGCAGGCTGCGCGCCTTTGAAGATACCGATAATCATCAGCA -CGCCAACGATGATAAAGACAATAACTGTCGTGACTTTGATCAGTGAGAACCAGTATTCCGCTTCACCAAA -GCCACGAACTGAGATGTAGTTCAGCAGGAAGATAACGCCGAGGAACAACGCACTCCAGATCCAGCCCGGT -GTATCCGGGAACCACCAGCTCATGACCAGCTGAGCTGCAACCAGGTCAACGGCGATAGTCACCGCCCAGT -TGTACCAGTAGTTCCAGCCCAGCGCGAAGCCAAAGCCTTCTTCAACATAGTTCTGACCGTAAGTGGCAAA -CGAACCGGAAACCGGCATATATGCAGCCAGTTCACCGAGACTGGTCATCAGGAAGTAAACCATCAGGCCA -ATCAGCATATACGAGAGCAATGCCCCGCCCGGACCTGCCTGAGAAATCGTTGCGCCAGAGGCAACAAAAA -GACCTGTACCGATGGAACCGCCAATGGCAATCATCGTCAGGTGACGCGCCTTTAATTCACGGCGTAAGCC -CGGCGCTTCTGTGGTTTTAGTTTCGGAAACCATACAAAAATGCTATCCATCTTAAAAATGAGGCGCGATT -GTAGCAGACGATTGGCAATCCTTCCGGCAGAAATACACGGTTATAAGACACCTTCATGATCGCCCAGGGA -TTATAAGTAAAGCAGCCAATCTCTTTTCTGGCGAATGCATGCTGAAGGCGCTGCGTCACGAAATCGACAC -AGCACCAGCATGTTCTTGTACAGCAACTTAACGCGGCACATTTGCGGGATCGCAATAGTCCAGAAAGCGC -CGTAGCGCGTTGGAAAGGTGTTTTTGCCGATGATGTATACGCCACAACGTACGCATCAGGCGCGGCAGAG -GGACCGCAACTTCACTTAATGTGCCTGCCTGCAATTGATCTTCAATCACACGTCGCGACAGGCAACTAAT -TCCCAACCCATGACGCACCGCATGTTTGATTGCCTCGGAGTTACCTAATTCCATCGCCATCTCAAACTTC -GGTAAATGTGACAGCAACAGATAATCGACAATCTCCCGCGTGCCGGAACCGCGTTCACGCAGGATCCACG -GCGCAGCGGCCAGCTGTTCTAAGGTGACCGGACCACGGGCCAACGGCGAAGTCGGCGCGGCGAAAACCAC -CAGCTCGTCTTCCAGCCACGGTTCAGAAATGATTTCAGTGCTGTGGCACGGTCCTTCAATAAAGCCAATA -TCAACGCGGAAATCCAGCACCGCTTGCATCACGTCCTGGCTATTCCCAACGCTAAGTTCAATCGGCAACT -GCGGATAATCATGGCGATAACGGGCGATAACTGCAGGCAGAATGTAGTTACCGATGGTACTACTGGCATA -GATACGAATCGCGCCGTTGTCTTCGCGAAACAGTTGTTCGATTTCAACCGCCTGTTCAAGCAATGCCAAC -GCACGCGGATAGAGCAGCCGCCCGTGTTCATTAACAACCAGTCTTTTCCCCACGCGATCAAACAGTTGCA -CGCCAAGCTGCCCTTCCAGGTCGGTCAAGGCTGCGCTCACTGCTGATTGCGACAACGCCAGCATCACCGA -CGCCTGGGTGGTTGATCCACTTTTCAATACTTCTGCAAAAACTTCCAACTGCCGGAGGGTGATGTGCATA -GTCGCTTACCACTTATAAAGATTAATTATAAATATATAATCAATTTTATTTTTAAACCAGTTAGTCGTAA -CCTTATGCCCGGTTAAAGGAGAGGGTTATGACGAATATCACCTTACAGAAACAACATCGTACACTGTGGC -ATTTTATTCCGGGGTTAGCCCTGAGTGCAGTTATCACCGGGGTCGCCCTGTGGGGTGGTTCCATTCCCGC -GGTTGCGGGTGCCGGGTTTAGTGCCCTCACCCTCGCAATCTTGTTGGGGATGGTTTTAGGCAACACCATC -TATCCGCACATCTGGAAAAGCTGTGACGGTGGTGTGCTGTTTGCCAAGCAATATTTATTACGTCTGGGTA -TCATTCTTTATGGCTTCCGTCTGACGTTCTCGCAAATTGCCGATGTCGGTATCAGTGGGATCATCATTGA -CGTGTTGACGCTGTCCAGTACCTTCCTGCTGGCTTGCTTCCTGGGGCAGAAAGTGTTTGGTCTGGATAAG -CACACCAGCTGGTTGATCGGTGCCGGTAGCAGTATCTGTGGTGCTGCCGCGGTACTGGCGACTGAGCCGG -TAGTGAAAGCGGAAGCCAGTAAAGTAACCGTGGCTGTTGCAACCGTTGTTATCTTCGGGACCGTCGCGAT -TTTCCTCTACCCGGCGATATATCCGCTGATGTCTCAATGGTTTAGTCCGGAAACTTTCGGTATCTACATT -GGTTCTACTGTGCACGAAGTGGCGCAGGTGGTGGCGGCAGGTCATGCCATCAGCCCGGATGCGGAAAACG -CAGCAGTTATTTCCAAAATGCTGCGCGTGATGATGCTGGCTCCGTTCCTCATCCTGCTGGCGGCGCGTGT -TAAACAGCTGTCTGGGGCGAACAGCGGCGAGAAAAGCAAAATCACTATTCCGTGGTTTGCCATCTTGTTC -ATCGTAGTTGCCATCTTTAACTCGTTCCACCTGTTACCGCAGAGCGTGGTGAACATGCTGGTAACGCTGG -ATACCTTCCTGCTGGCAATGGCGATGGCGGCGCTGGGTCTGACCACTCACGTCAGCGCGCTGAAAAAAGC -TGGGGCGAAACCTCTGCTGATGGCACTGGTACTGTTTGCCTGGCTGATTGTTGGTGGTGGTGCGATTAAC -TATGTGATTCAAAGCGTCATCGCATAAACCACTACATCTTGCTCCTGTTAACCCGCTATCATTACCGTTT -TCCTCCAGCGGGTTTAACAGGAGTCCTCGCATGAAATACATTGGAGCGCACGTTAGTGCTGCTGGCGGTC -TGGCAAATGCCGCAATTCGCGCCGCCGAAATCGACGCAACCGCGTTTGCCTTGTTCACCAAAAACCAACG -TCAGTGGCGTGCCGCACCGCTCACGACGCAAACCATCGATGAATTCAAAGCCGCCTGTGAAAAATATCAC -TACACATCGGCGCAAATTCTTCCCCACGACAGTTATCTGATTAACCTCGGACATCCGGTCACTGAAGCTC -TGGAAAAATCGCGCGATGCCTTTATAGATGAAATGCAGCGTTGCGAACAGCTGGGGCTTTCTTTGCTCAA -CTTCCACCCTGGCAGCCATCTGATGCAGATTTCAGAAGAGGATTGCCTTGCGCGTATTGCCGAATCCATC -AACATTGCGCTGGATAAAACTCAAGGTGTGACAGCGGTGATAGAAAACACCGCCGGTCAGGGCAGTAACT -TAGGGTTTAAATTCGAACATCTCGCGGCGATTATCGACGGCGTGGAAGATAAATCCCGCGTCGGCGTCTG -CATTGATACCTGCCATGCTTTCGCTGCCGGGTATGATTTGCGTACTCCAGCCGAATGCGAGAAAACATTC -GCGGATTTTGCCCGTACTGTCGGCTTTAAGTATCTGCGCGGGATGCACCTTAACGATGCGAAAAGCACCT -TTGGCAGCCGCGTTGACCGCCATCATAGCCTCGGTGAAGGCAATATCGGTCATGATGCGTTCCGCTGGAT -CATGCAGGACGACCGTTTCGACGGCATTCCGCTGATCCTCGAAACCATCAACCCGGATATCTGGGCAGAA -GAGATCGCCTGGCTGAAAGCGCAACAAACTGAAAAAGCGGTAGCCTGAAGATGAATAACCGGGAAAAGGA -GATCCTTGCAATTTTACGGCGTAACCCGCTGATTCAGCAGAACGAAATTGCGGACATGCTGCAAATCAGC -CGTTCGCGCGTTGCGGCGCATATTATGGATTTAATGCGCAAAGGCCGGATTAAAGGCAAAGGTTACATTC -TCACCGAGCAGGAATACTGCGTAGTGGTGGGGACAATCAATATGGATATTCGCGGGATGGCGGATATCCG -TTACCCGCAATCGGCTTCTCATCCCGGTACAATTCATTGCTCAGCGGGCGGCGTGGGACGCAACATCGCC -CACAATCTGGCGCTGTTAGGCCGTGACGTCCATTTGCTTTCAGTGATTGGCGATGACTTTTATGGCGAAA -TGCTCCTGGAAGAAACGCGCCGTGCCGGCGTGAATGTCTCCGGCTGCGTTCGTTTGCATGGTCAAAGCAC -ATCGACGTATCTGGCAATTGCCAATCGAGACGATCAAACCGTGCTGGCGATTAACGATACCCATCTGCTG -GAACAGTTGACACCGCAACTACTGAACGGGTCGCGCGATTTACTTCGTCATGCGGGCGTGGTACTGGCTG -ATTGCAACCTGACAGCCGAGGCGCTGGAATGGGTCTTTACCCTCGCTGATGAAATCCCGGTGTTTGTCGA -TACCGTTTCAGAATTCAAAGCGGGCAAAATCAAACACTGGCTGGCGCATATTCACACCCTGAAACCCACT -TTACCGGAGCTGGAAATTTTATGGGGACAGGCGATCACCAGCGATGCTGACCGTAATACCGCAGTGAATG -CATTGCATCAGCAAGGTGTTCAGCAACTGTTTGTTTATTTGCCCGATGAGTCAGTTTATTGCAGCGAAAA -GGATGGAGAACAATTTTTGCTGACCGCGCCAGCGCATACGACAGTAGACAGTTTTGGTGCTGACGATGGT -TTTATGGCGGGCCTGGTATATAGCTTTCTTGAAGGATACAGTTTCCGCGACAGCGCCCGTTTTGCGGTAG -CCTGCGCGGCAATTTCGCGCGCCAGCGGCAGCTTAAACAACCCTACCCTGTCTGCCGATAACGCGCTTTC -ATTAGTGCCAATGGTGTAACAATGTTGCCGGATGCGACGCTTAACGCGTCTTATCCGGCCTACAAATCAG -GCAATTTCAGCAAGTAAATGTAGGCCTGATAAGCTTGCGCATCAGGCAATGACACTCAAGCTAAACCAAT -AAAGAACCCGGCAATGGTCGCACTCATCAAGTTGGAAAGCGTCGCCGCCGCCAGCGCCCGTAAACCAAGC -TGGGCGATTTCCGGCGCACGGTGTGGCGCAACCGCAGAAAACGCCCCCACCACCACCCCGATAGAACCAA -AGTTAGCGAAACCGCACAACGCGAAGGAAATAATCGCCACAGTTTTAGCATCGAGAGTGCCAGCCGTTTG -CAGATAGGGTGAGAAATTGAGATAAGCGACAAATTCATTTATTGCCAGTTTCTGTCCAATCAAACTCCCG -GCAAGATTCGCATCACTCCAGTCCACACCCATCACCCACGCCAGTGGAGCCAGCAGGTAACCTAAAATGG -ACTCCAGCGAGGCATGTTCAAAACCAAACCAGCCACCAACGCCGCCGATAATACCGTTAATCAACGCAAT -TATTGCAACAAATGCCATCACCACTGTTGCCACACCTGCGGCGATTTTCAGCCCGGTCATTGCCCCTGTC -GCAGCGGCTTCAATAATGCTTTTTGGCGGTGTTTCGGTGAAAGAGAGGTTATTAAAGGAAACCTGCGAAG -ATTCCGTTGCCGGGCTTAACAGGCGGGCAAACAAGATCCCGCCAGGGATCGCCATTAATGATGCCGCCAG -CAGATATTCCACAGGCACGCCCAGTGCGGCGTAACCAATCATTGTCGAACCAGCAATCGAGGCCATGCCA -CTACAAATCGCTGTAAATAATTCATTGCGATTCAGACGATCGATAAAGGGTTTGACGATTGCCGGAATTT -CGTTTTGCCCGAGGAAAATGGTGGTGACCGCGACGAATGACTCGATCTTGCTGATATTTAATGCTTTCTG -GAAGATACCGCCGAGAATTCGAATTAAAATCCCCATCACACCGATGTAGTAGAGAATACTCACCAGCGCG -GTGACGAAGATAATTGCCGGTAACACCCTGAAACCAAAGATAAATCCTGCACCATCAAATAAGGTATCCA -TTTTCGGTCCGACCAGAGAACCGAAGATAAATGCGCTACCCGCGTCGCTGTACGCCATCACTTTATGCAC -GCCAAAAGCGACTTTTTCAGCGACCCAACGCCCTGGCGGTAACCAAAGCATAATGCCGCCAATCACGACC -TGTAACACTAACGCCGCGCCAACGGTACGCAGGCTGATCTTCTTCTTGTTTACTGACAGTAAAAACGCAA -TCGTCAGCAATACCACCATTCCCAGAACACTTCTCATGACATCCATAGTGATTATCTCTTCATGTCATAT -TGGGCGACGGCTTTCTGCCCATCAGAAATAGCCAGGCCTGCATCTTGCGATACCGGCCCGGCTTGTTATC -AACACTTAATGGGTTTTGATGTAGCCGCGCACGCACTCTTCGACTAATCCCCAGAACCAGTCTGTATCAA -TAGTGATGCCGACTTTGGTATTGGCGGGCTTGCCAAGAACGCCCAGCTCGTCGCAGACGGTACGCCCATA -GCAAGGGCCACTGTTGACGTCCACTTCGACGTACATCTCCTGGGTTTTAATGCCATCAGGGTTAATCAGA -TAACCGATGCAGGTGGCGTCGTGCACCGGGCCGCCAGCAAGGCCGTAGTTTTCGAACTGCGTTTTGAGAG -TGAAGTTCATGATGTCGCTGAACAGCTCTCCGGCGGGGCCGCCTGCCCTTTCCATCCGAGCAATCACGTC -CGGGGTGCAAACGGTCTGGTTGGTGAGATCGAGGCCCATCATCACTAATGGAACGCCGGAGGTGAACACT -ACGCGTGCGGCTTCCGGGTCGGCAAAGATGTTGAACTCGGCAGATGGCGTGAAGTTGCCTGTACCGTAAG -CGCCGCCCATTAGCACAATTTCACGGATTTTGGGCAGGATCGCGGGTTGCATACGCATTGCCACCGCGAT -ATTTGAAAGCGGACCAACCGGCACCAGAGTGATATCGCCATCGCTTGCCATCAGGGTATCAATGATATAT -TTCACCGCATGAGTGCTTTCTGCCTGGCGGGTCAGCGGCTCGAATACCGGGCCATCCAGTCCGGTTTCAC -CGTGAATATTATCGGCAACGATTTGTTGACGCATAATGGGCTGCGGCATCCCCGCATAAACCGGAACATT -AATCTCCAGTTTCTGGCAAACATTCAGGCCATTAATTAATGTTTTATCAAGCGTCTGATTACCCGCTACA -ATAGTGATGCCTAATAAATCTATTGCCGGATGTTTCGCCGCCATCATTATAGCAATAGCATCATCATGAC -CCGGATCACAATCCAGAATAATTTTTCTCTTTTCCATTGTTTATTTCCTCTGTTTCCAGTTGCGTTATTT -TTTCTACAGCAAAGAAAATTCGACCGGGCCGATGATTGAATCTTAACAACAGCGTACGTATGCTAAATAT -GAGAAATCTCATAGCGGATAAACATCGTGAAAGAAATCCACAATAATGATCTTAAGCAGCAATTGATGAG -TGAATCCGCGTTTAAGGATTGCTTTTTAACGGATGTTTCAGCCGATACGCGGCTGTTTCATTTTTTAGCG -CGTGACTACATTGTGCAGGAAGGGCAACAGCCGTCCTGGCTGTTTTACCTGACGCGAGGCCGCGCCAGGC -TTTACGCCACGCTAGCTAATGGTCGCGTGTCGCTGATCGATTTCTTTGCCGCCCCCTGTTTTATTGGCGA -GATTGAGTTAATCGATAAAGACCATGAACCGCGTGCGGTGCAGGCTATTGAAGAGTGTTGGTGCCTTGCG -CTCCCTATGAAACATTACCGTCCGCTGTTATTAAACGACACGCTATTTTTACGAAAACTCTGCGTCACCT -TAAGTCATAAAAATTATCGTAATATTGTTTCTTTAACTCAGAATCAATCATTTCCGTTAGTGAATCGCCT -GGCAGCATTTATATTACTCTCGCAGGAAGGTGATCTTTATCACGAAAAGCATACGCAAGCGGCAGAGTAT -TTAGGCGTTTCTTATCGACATCTTTTATATGTTCTCGCGCAGTTCATTCACGACGGTTTATTAATTAAAA -GCAAGAAAGGGTATCTCATTAAAAACAGAAAGCAGTTGTCAGGACTGGCGCTGGAGATGGACCCGGAGAA -TAAATTCTCCGGGATGATGCAGTAAAAATTATTTTCAATAGCGCGATTGCCGGATGCAACGCTTAATACG -TTTTATCCGGTCTACAAATCGAGCATTACGCCAGACCAATAAAGAACCCGGCAATAGTCGCACTCATCAG -GTTGGAAAGCGTTGCTGCTGCCAGCGCCCGTAAACCAAGCTGGGCGATTTCCGGCGCGCGTTTTGGCGAA -ATAGCCGAAAATGCGCCAACGACAACACCGATAGAACCAAAGTTAGCAAAACCACAAAGCGCAAAGGAGA -TAATCGCAATGGTTTTCACTTCCAGCGTGCCGCCCGTTTGCAGGTATGGGGAGAAACTCAGGTAAGCGAC -GAATTCGTTAATCGCCAGTTTCTGCCCAATCAGGCTACCCGCAAGATTGGCATCACTCCAGTCCACACCC -ATGATCCACGCCAGCGGTGCCAGCACATAGCCAAAAATACTTTCCAGAGAGGCATTGGCGAAACCAAACC -AGCCGCCAATTCCGCCGATAATGCCGTTGATCAGCGCAATAATTGCGACAAACGCCATTACCACCGTCGC -CACACCAGCGGCGATTTTTAGCCCGGTCATCGCACCGCTCGCCGCCGCTTCGATAAAGCTTTTTGGCGGC -GTTTCGCTGAACGACAGATTTTCAAATGTGACCTGCGAAGGCTCGGTTGCCGGGCTAAGAATACGTGCAA -ACAAAATCCCGCCAGGGATCGCCATCAGCGATGCCGCTAACAGGTAGTCAATTGGTACGCCCATTCCGGC -ATAACCAATCATCATCGAACCAGCAATGGACGCCATCCCGCTACAAATTGCGGTAAACAACTCGTTGCGA -TTCATGCGATCGATAAACGGTTTAACGATCGCCGGGATCTCATTTTGCCCGAGGAAAATAGTAGTAACCG -CAACAAAAGATTCGATTTTGCTGATGTTGAGGGCTTTCTGGAAAATGCTGCCAAGGATGCGAATCAGCAG -CCCCATCACGCCAATGTAGTACAGCAGACTGATGAGCGCAGTAACGAAAATAATCGCCGGAAGTACGCGA -AAGGCGAAGATAAAACCCGCACCGTCAAACAGGACATCCATTTTCGGCCCAACCAGCGAACCAAAAATGA -AGGCGCTACCGGCATCACTGTAAGACATCACTTTATGAACGCCTAATGCCGCCTGTTCTACTGCCCATTT -TCCCGGTGGGAAGTAGAGCATGATGCCACCAATAGCGATTTGCAGCAGCAGTGCGGCTCCAACCGTGCGC -AAACTGATGCTCTTTTTATTCACTGACAACAGAAATGCTATTGCCAGTAACACCACCATCCCCACAACAC -TTCTCATTATATCCATAATGATTTTCCCTTCATGCCGGTAAACCCGGCGTCAGCGCCAGGTTTTGGTATG -CTTGATGAGTACGGGCGACGGCTTTCTGCCCGTCAGAAATTAACCCGCGAGACGCTGATATTCTTTGGCA -ATTTCGCTCGCCAGAATGGCGTTGTTGAACACCAGCTGGATGTTGGATTTCAGGCTGTCACCGCCGGTCA -GTTCAGCAACGCGCGCCAGCAGGAATGGCGTACTTTCTTTACCAATGACTCCCTGAGCTTCAGCTTCAGC -TACCGCCTGATCGATCGCCGCATTGATAGTGTGTTCCGGCATAGCAAACTGTTCCGGGATCGGGTTCGCT -ACCACGAGGCCACCGTTCAGACCGCTTTGCCATTTCACCACCATTGCACGGGCAATTTCGCTGGCGCTGT -CGAGACGAATGCTGACGTCAAACGGGCTGGTGCGGCAGAAAAACGCAGGCAGCGCTTTAGTCTGATAGCC -AATTAACGGCACACCGAAGGTTTCTAAATACTCAGTGGTTAATCCTAAATCGAGAATAGATTTCGCCCCG -GCACAAACAACGGTGACATTAGTATTTGCCAGTTCTTGCAAATCGGCAGAAATATCGAAGGTATGTTCCG -CCCCGCGATGCACACCACCAATTCCCCCGGTGGCAAATACTTTAATTCCGGCAAGCGCCGCAATAATCAT -CGTTGAAGCCACAGTGGTTGCGCCATTTTTTCCGGCGGCAACAACAAAAGGTAAATCGCGACGACTAACT -TTGGTCACGTTATGCCCTTCACGACCCAGTAATTCAATTTCTTCTTTGCTTAACCCCACTTTCATCACGC -CGCCAATAATGGCGATCGTGGCAGGTACAGCGCCCTGTTTACGAATAGTTTCTTCAACTTCAATTGCGGT -CTGGGCATTTTGTGGGAACGGCATCCCGTGAGAAATAATGGTCGATTCCAGCGCCACAACCGGTTTTTTG -TTTTTTAAAGCGTCCTGCACTTCCGGGGAAATTTGTAATAATTCAGGGGAAATTTTTAATTCAGACATTC -TGCGTTCTCCACTAACGATATAACGTTGGCAATCGATAAATCGGGGTTATTGGTGTATTCACAGGAGAGC -GCCATTGACGAACATCCCTGTGCGAAACGAACAGATTCGGCAAACGGCATTCCGTCTACCCAACACGAAG -CAAGTCCCGCCATCATGGCATCGCCCGCTCCGGTAACATTAATAACATTGGTTTTGATCGGCGCAGACCA -GCCACTTTCACCGCTGATATCGCTGTAATAAACGCCGTCGCCGCCCATGCTCAATACCAGTCGGTTCAGG -CCATGTTGATGGAACCAGGCAGCAACTTTTGCCACATCTTCACGCCCTGACAGCGCAATCCCACTCAGGG -TTTCCGCTTCAAGGCGGTTTGGCTTGAGAGTGTGGATCTGATTTAGACGGTCGCGCACTTTGACACATTT -CCATGCCGAAACCGGATCGACAAATACGGGTACGTTGGCGGCATTATCCAGAATCCATGCCAGTGCCTCT -TCACTGATATTACAGTCCGCGACAATGACCTTTGCCCTCTGAATAAATTCACCGTGCTGTGCGAGATATT -CAGCTGTAATAGCGTTGCTAATATTCATGTCATTTATAGCAACCAGCATTTCACCGGTATTATCGAGTAA -TGATAAATAACTCGACGTATTTTCTCCCGGCACAATCAGGCATTTATCGACATAAACGCCAGATTGATTG -GTTTGCGTTAGCAGCGATTGACCATAAAAATCACTGCCTACGGCGCTCAGTAGCCAGGCTTTGTTACCCA -GCAACGCCAGGTTTTGTGCAATATTGCGCCCTACTCCACCAGGCGTAAATTTTATTTTACCTGGATTTGA -ATCCGCATAATTTAATGATTCATGTGAATATCCGGCGACATCAATATTCGCCGAACCTATAATTACGACA -TAATCCTTTTCGCGCATAGCACGTCCTCTGGTAAAAAATTACCAACCCTGTCAATCCACAAGAATATAGA -TACTGCAAAGACGGTTTAAACATGTGTTCATATTTAAACATGTGCTCATAGTATGCATGTTTTACGTAAA -GTAAATTACCGCCAGAGAGGCAAAATGGGCAGATTTGAGCAGGCTCACAAAATGCGATTAAATGCCTGAA -TTACAAAAGCGAGGAATTTGTGACGGGATGCACAGAACAGAACAATAAAAAAGGGCAGAAAATAATCTGC -CCTTGAGGAAATAACCTGAGTGTTTGATGAACGTTTGAAGTTTCTACTGAAAGATAAAACCATTTAAATT -CATAAAATTACATTCACAAACCGGTCATTCTCTTTGCGCTCATCAAATGTTACAGGACAGGAAATTTCTG -CCCTGTAACACACCTTTTATTACGCTGCTTTCGCTACTGCGTCCACTTCCGGACGTTTCAGGAAGGCATA -GGCCAAACCCGCCACCAGCGTACCGGCAATAATTGCTACCAGGTAACCCAATACCGGCGTAATAGCGCCA -GGGATCAGCAGAACAAACAGACCACCGTGCGGTGCCATCAGTTTCGCACCAATCGCCATTGAGATTGCGC -CAGTCAGCGCCCCACCCACGATACAGCACGGCAGCACACGCATCGGATCACGAGCAGCAAACGGAATTGC -ACCTTCCGAAATGAAGCACAGTCCCAATACCAGAGCGGCTTTGCCACCTTCCTGCTGCGCTTTGTCGAAT -TTGCGACGCGCCACCATTGTTGCCAGACCCATTGCCAGCGGTGGCACCATACCTGCCGCCATAATCGCCG -CCATCGGGCCATAGGTTTGAGTACTCAGCAGACCCACACCGAATGCGTACGCTGCTTTGTTTACCGGACC -GCCCATGTCAGTACACATCATGCCACCGAGGATCGCCCCCAGCAGAACCGCATTCGCAGTCCCCATGGTC -TGCAGCCAGTGAGTCAGCCCTTCGAGAATGCCAGCAACTGGTTTACCGATCAGGTAGATCATCGCCAGAC -CGACCACCAGACTGGAAATTAGCGGAATGATCAGGATCGGTTTCAGCGCCTCCATACTCTGTGGCAGTTT -CAATTGCGTACTGATTAACTTCGCAATGTAACCAGCCAGGAAGCCCGCAATAATACCACCAATGAAGCCA -GAACCGGTGCTGACCGCCAGCATACCGCCAATCAGACCCGGAGTGAGGCCCGGACGATCGGCAATGGAAA -AGGCAATATAACCTGCCAGTACCGGCACCATCAGCGCAAAGGCTGAACCACCACCAATCTGCATCAGCGC -CGCAGCCAACGTACCCGGCTCTTTAAACGCTTCGATACCAAAAGCAAAAGAAAGCGCGATACACAGACCA -CCTGCAACGACCATCGGCAGCATGTAAGAAACGCCCGTCAGCAAGTGACGGTATGCGCCTGCACTCTCTT -TCTTACTTTCAGTGGTCGCCGTTTGAGCTTTGCCCGCCGGTTCATACGGCGTTGCTTCAGCAACCGCTTT -ATCCAGTTCCTGCGCGGTTTTCTTCAGCGCCAGACCGGTAGAGGTACGATACATCGGTTTACCAGCAAAT -TTCGCCAGATCCACTTCGATATCTGCCGCCACAATCACCAGATCCGCTGCTGCGACTTCTTCGGGAGTGA -TTGCATTACCCGCGCCAACAGAACCACGGGTTTCAACTTTCACCCACCAGCCACGTTTTTTCGCTTCGGT -TTCAATGGCTTCAGCCGCCATAAAGGTGTGTGCTACGCCAGTCGGGCAAGCAGTCACCGCAACTACGCGT -TTCGGACCGCTGGCGGCAACTGGTGCTGTCGCAGCGACCGGCGCAGTGTAAGGTTTCGCATGGCCTTTGG -CTTCACTCAGGAACAGCTCAGGGTGCGCAACTGCCCGGGAAATATCGCCCAGCCAGACATTTTTACCGTT -CAGCGCGCTGTCGTTCGGGATGGAATCACCGAGAACAATCGCCATTTCAGCGTCGTTCGGATTGTCGATG -ATTTCCAGTTTTGCTTTTCGCGCCGCCGCGCCCAGCAGGGTCTTCGCCATATAGGCGCGTGCCTGACCGA -GATTAGCGTCAATAATCAGCAGCGTTTTCATTATGCCTCTCCTGCTGTCAGTTAAAAGGTTGTAAGTCGA -CGCGCGCCATCATTGCGGCCAACTGCGGACGATCGGTAATACCCACATTGCTTTGACTTACCGCCAGGGC -TGCAACAGCTGTCGCCAGACGCAGTGTGTGTTCACTGGATTCACGCATCAGCAAGCCATAAATCAGGCCA -CCAACCATAGAATCCCCTGCGCCAACGGTGCTTACGACATCGACTGACGGTGGTTTGGCGATCCATTCGC -CGGAGGCATTAACCCAAAGCGCGCCTTCGGCACCCAGTGAAATAACAACATGCGCGATGCCTTGTTCACG -TAGCGCATGTGCAGCTTCAATCACATCTTTCATTTCAGGCAGTTTACGGCCTGCCCAGATTTCCAGCTCG -CGGCGGTTAGGTTTCACCAGCCACGGTGCCGCTTTCAAACCTGCTACTAACGCTTCACGGCTACTATCAA -AGATAATGCAAGGACACTGACTACGCAGGCGAGTCATCCAGTCGGTGAACGCTTCCGGGCTGACGCCTGA -CGGTAAGCTTCCGCTGACACAGACCATATCGAACTGACCGAGCCAGCTCAGAGAATCAGTCACAAAGCGT -TCCCAGTCGGCGGGGGTGACTTCAAAACCCGAGAAGTTGAAGTCGGTCACTTCGCCGTCTTTTTCCGTCA -GCTTAACGTTAATTCGGGTGCGCCCCTGTACAACCTGGAAACGGTTGGCAATGCCCAGCTCGCTGAACAG -TTGCTGAAAACCATCCTGATTGTCTTTACCCAGGAAGCCGCCAACGGTGACATCAATTCCCAGGTCTTTT -AATACTTTGGCCACGTTGATGCCTTTACCCGCCGCATGCAGACCGGTGGTTTTCACCAGGTTCACTTCGC -CGCGTTCAATTTCCGGGCAGAAACCAACAAGGTCATAAGCCGGATTAAGGGTGATAGTAGCAACACGTCT -GCTCATTATGCGCCCTCCCCAAGACCAGCAGCGATAGCGTCGCCGATTGCTTTCAGCGCCTGTTCAGCAT -CTGCACCCTGGGCGGTAAAGCGTAGGCGATGACCTTTCTTAACGCCAAGTGCCACAACTTTCATCAGACT -ACGTCCGTTTGCCGGTTTGCCGGTACCATCAAGGTTTGTCACGGTAATATCACTGTTAAATTGTTTAATG -GTATTGACCAGCATGGTACCTGGACGAGCATGCAGGCCGTGTTCATTGCGCACCACAAACTCCGCGCTTA -ACACGTCGTCGGTCGGCGCATCATCGCTGGTCAGCAGCGCCAGCAACGTTGCCGCATCCGCTTTCAGCAA -GCGGTCAGCTTTATTGTCGAGCAATAAATCAGCGAGACGCTTAAGAACCGCGATGGGCTGATCGTCATTC -ATCGCCACACTCACCAGCATGGCTGCCGTTTCGCCGTCCACATCAAAAGCATTTGCCGCACGGCTTACCG -CAATCGCGCTACGCAGATTGCCTTCGGCGCTATCGCTCAGCCAGATACCCTGTCCGAGATTCAGCGGTTG -TTCATTGATGGCTTTGGTGACGAAAGTGGCGTCAACTGCCCCCGCCTCTTTCAGACGCGCAGCGTTCAGC -GCCTGAAGAGTCAGCAGATCGCTGGCGACGATATCCAGTGTCAGCATTTCGTTGTCGAGCTTCAGCTGCT -CACTCTGCTTTTCGCCCATCAGTAATGCGCGAAGTTCTTCTGCTGTTGTTGCTGACTTCAGTTGTTCAGC -AACGGAATCATCGCTCAGTACGTGGGTCAGCTGGCGTAGCAGGCCCAGATGTTCATCCGAGCTGGCAGCA -ATACCGATTGCCACGTACGCTACCTGACCGTCACCCCAGGTGACGCCTTCCGGGAACTGAAATACCTGAA -CGCCGGTTTTCAGCACCTGATCGCGGGTGTCGGTAGTGCCGTGTGGAATAGCAATACCATTGCCGAGGAA -CGTTGAGGTTTGCTGTTCGCGCGCCAGCATGCCATTGACGTAGCCTTCTGCTACATTACCGGCCTGCACC -AGCGCCGCAGCGACCTGGCGAATCGCCTCTTTTTGTCTCCGGCCTTTTCGCCCGGATGGATGTCCTGTAC -GGATAACTGGAACATAGTTCTCCTCTCTTGCTGAATTGAAACGATTCAGCCTCTATGAGAAAAAAAGCGC -CAACCTGGCTTAGGGTTAAAGACAAGATCGCGCTGAAACGTTTCAAGAAAGCATAATACTTCTGTTTCAG -CACGCAAGGAAAGCCGTAAAGTTATGAGCAAAAGTTTGATGTGCTGCACAATTTTTTGCCATTTTTCCTA -ATTGCTGATGGGAAAATCCGTTATCAGCAATTTCATTTCAGCAGCGTCAGCAGCCAATCAGCAACAGTGA -AATGGCATTTTGACTATTCGTGGCGCTTTTGATTTCGCTGTCTGTTTATTTTCTGACAAGCAGCGTAAAC -TCCGCGTCTTCCTCTTCCAGTGATCGACCAGCATGCATAACTCCCCCGCAGTCTCCAGCGCGAAATCGTT -TGACCTGACCTCGACGGCGTTTTTAATCGTTGCCTTTCTCACCGGTATTGCGGGCGCTCTGCAAACCCCG -ACACTCAGTATTTTTCTTACCGATGAAGTACATGCCCGTCCGGCGATGGTGGGATTCTTCTTTACCGGCA -GCGCTGTCATTGGGATTCTGGTAAGTCAGTTTCTCGCCGGGCGCTCTGATAAGCGCGGCGATCGCAAATC -GCTGATTGTCTTTTGCTGCCTGTTAGGCGTGCTGGCCTGCACCCTTTTTGCCTGGAATCGCAACTACTTT -GTTTTGCTATTCGTTGGCGTCTTTCTTAGCAGCTTTGGCTCGACCGCTAACCCGCAAATGTTTGCCCTTG -CCCGTGAACATGCCGACAAAACCGGACGTGAGGCGGTGATGTTCAGCTCTTTTTTACGCGCTCAGGTTTC -ACTGGCATGGGTCATTGGCCCACCGCTGGCTTATGCCTTAGCGATGGGTTTCAGCTTTACGGTAATGTAT -CTGAGCGCAGCGGTAGCGTTTATTGTTTGCGGTGTGATGGTGTGGCTGTTTTTACCGTCGATGCGAAAAG -AGCTTCCGCTGGCGACCGGCACGATCGAAGCGCCGCGCCGTAACCGTCGCGATACGCTGCTGCTGTTTGT -CATTTGTACATTGATGTGGGGCTCGAACAGCCTGTACATCATCAACATGCCGCTATTTATTATCAACGAA -CTGCATCTTCCCGAGAAACTGGCCGGTGTGATGATGGGGACCGCCGCCGGGCTGGAAATCCCGACGATGT -TGATTGCCGGATATTTCGCCAAACGTCTGGGTAAGCGTTTCTTAATGCGCGTTGCTGCCGTGGGTGGCGT -CTGTTTTTACGCAGGAATGCTGATGGCGCATTCACCTGTCATTCTGTTGGGCTTGCAGCTGCTAAATGCT -ATTTTTATTGGCATTCTGGGCGGCATCGGGATGCTCTATTTTCAGGATCTGATGCCCGGTCAGGCGGGTT -CAGCCACCACGCTCTATACCAACACTTCGCGCGTGGGCTGGATCATCGCAGGATCAGTGGCGGGCATCGT -CGCCGAGATCTGGAATTATCACGCTGTGTTCTGGTTTGCGATGGTGATGATTATCGCCACTCTGTTTTGC -TTACTGCGGATTAAAGATGTTTAAGGCGCGGTCAGCATTTCCAGATCGATAAGCCAGGTCATGGCCTGCT -GACGCGAGTTACCGCACATTTCAGCGCTGGCTTGTAAGCCTGCACAGACTTTCGGTCGCAGTGGCGAGGT -GAAAATTTTACAGCGTTGCTGTTCATCAAGCTGAATGCAGGGCGTATTGGCGGGCTTGCCATCTGGCATA -CCGGGAATAGGGCTGGAAATTGAAGGGGCAGTGCAACACGCCCCGCAACCCGGACGGCATTCCATACGTT -GTTCTCTTAAGGTTAACCACCGGATTGATGAGCGCGCACAGTACCACCTTTTTTGCACCAGCAAAAGTGC -GAATACCACTTGCCCGAAAGGCCCGTCGCGAGTACTTTGTCGCGATATTTTTGACATTTTCGACTACAGG -AATTTTTCGATGCCAAGAGCGAACGAAATTAAAAAAGGTATGGTACTGAATTACAACGGCAAACTGCTGC -TGGTTAAGGATATTGATATTCAGTCGCCCACTGCCCGCGGTGCCGCTACGCTGTACAAAATGCGTTTTTC -TGATGTCCGTACCGGGCTGAAAGTAGAAGAGCGTTTCAAAGGTGATGATATCGTTGACACCGTGACGCTG -ACCCGCCGTTACGTTGACTTCTCCTATGTCGATGGCAACGAATATGTCTTTATGGATAAAGAAGACTATA -CCCCGTATACCTTCACCAAAGATCAGATTGAAGAAGAGTTGCTGTTTATGCCAGAGGGCGGCATGCCGGA -CATGCAGGTGCTGACCTGGGACGGTCAACTGCTGGCGCTTGAGCTGCCGCAGACCGTTGATCTGGAAATC -GTTGAAACCGCACCAGGCATCAAAGGGGCATCTGCCAGCGCCCGTAACAAACCGGCGACATTGAGCACTG -GTCTGGTGATTCAGGTACCAGAATACTTAAGCCCGGGCGAAAAAATTCGTATCCATATCGAAGAACGCCG -TTATATGGGGCGTGCTGACTAACTTCAGCCGCATGCAGAAAAGGGATAGCTCAGGCTGTCCCTTTTTTAA -TTTATTATACCAATCTTCTATTTTGCGCTTCCTGAACACCTTACGCCCTCAATTTTCACTCGTTGATTGA -TCGCCCTCACACTTCATCGCATTAACAATCCAGACCAATTTCAATTGCTGTCATATAACTTTACACTGTC -GTTGTTAATTAATCGTTACTAAGACGTGACTCCTATGAATACAATCGCCTCCGTTACGCTCCCGCATCAT -GTACACGCTCCACGCTATGATCGCCAGCAGTTGCAATCACGTATCGTTCATTTTGGCTTTGGAGCCTTTC -ACCGCGCTCATCAGGCGTTACTGACCGATCGTGTGCTGAATGCCCAGGGCGGCGACTGGGGGATCTGTGA -AATCAGCTTGTTCAGCGGTGATCAACTGATGAGCCAGCTCCGCGCACAGAACCATTTATATACCGTGCTG -GAGAAAGGTGCGGACGGCAATCAGGTGATAATTGTCGGTGCCGTTCACGAATGCCTTAATGCAAAACTGG -ATTCCTTAGCGGCAATTATTGAGAAATTTTGCGAGCCACAGGTGGCAATTGTTTCCCTGACGATTACCGA -AAAAGGCTATTGTATTGACCCGGCCACCGGTGCACTCGACACCAGTAATCCGCGGATTATTCACGATCTA -CAAACCCCTGAAGAACCTCACTCCGCACCGGGTATTCTCGTCGAAGCACTGAAACGCCGCCGTGAGCGCG -GCCTTACACCGTTTACCGTGCTCTCCTGCGACAATATTCCCGACAATGGTCATGTGGTGAAAAACGCGGT -GCTGGGAATGGCAGAAAAACGTTCGCCAGAACTCGCCGGGTGGATAAAAGAGCACGTCAGTTTTCCGGGA -ACCATGGTCGACCGCATTGTTCCGGCTGCAACCGACGAATCACTGGTGGAAATCAGCCAGCATCTGGGGG -TGAATGATCCCTGCGCGATTAGCTGCGAACCGTTTATCCAGTGGGTGGTGGAAGATAACTTCGTCGCTGG -GCGTCCTGCCTGGGAAGTCGCAGGTGTACAAATGGTGAATGATGTCCTGCCATGGGAAGAGATGAAACTG -CGGATGCTTAATGGCAGCCACTCTTTTCTCGCTTATCTGGGTTACCTCTCAGGATTCGCCCATATCAGTG -ATTGCATGCAGGATCGCGCATTTCGCCATGCCGCCAGAACATTAATGCTGGATGAGCAAGCGCCGACACT -GCAAATTAAAGATGTCGATTTAACACAATATGCGGATAAGTTAATTGCACGTTTTGCTAATCCGGCGCTG -AAACATAAGACCTGGCAAATCGCGATGGATGGCAGCCAGAAATTACCGCAACGCATGCTGGCAGGTATTC -GCATACATCAGGGGCGCGAAACGGACTGGTCGTTGCTGGCATTAGGCGTTGCAGGCTGGATGCGTTACGT -CAGCGGCGTTGATGATGCCGGAAATGCCATTGATGTTCGCGATCCGCTTAGCGATAAAATTCGCGAACTT -GTTGCGGGCAGCAGCAGTGAACAACGCGTAACCGCCCTGCTTTCCCTGCGTGAAGTTTTCGGTGATGATC -TGCCAGATAACCCGCATTTTGTGCAGGCCATCGAACAAGCCTGGCAACAAATCGTACAATTCGGCGCACA -TCAGGCGCTATTAAACACCCTCAAAATTTAACGATTTCTGCGGTTAAAGCGGATGAAGCTCACCTTCGTC -CGCTCTCCCCTTCTCTTTTCTGCCTTTTTTAGCCAGGATTAACGCTCAGTTAACTTACCAGAGTATTGCG -GAGCCGTTGTGACCAGGACCAACCTCATCACCGGTTTTCTCGGCAGCGGGAAAACCACGTCGATTCTTCA -TCTGTTAGCCCATAAAGATCCCAACGAAAAATGGGCGGTACTGGTTAATGAATTTGGGGAAGTCGGAATT -GATGGTGCTTTGCTCGCCGATAGCGGCGCATTGCTGAAAGAGATCCCCGGCGGCTGCATGTGCTGCGTTA -ATGGTTTACCCATGCAGGTAGGGTTGAATACCTTACTGCGTCAGGGAAAACCAGACCGCTTGTTGATAGA -GCCGACCGGGCTGGGCCATCCGAAACAGATCCTCGATCTGTTAACCGCACCAGTCTATGAACCGTGGATA -GATCTGCGCGCCACCTTGTGCATTCTCGATCCGCGCTTGCTGCTGGACGAAAAAAGCGCCAGCAATGAAA -ACTTCCGTGACCAGCTGGCTGCCGCAGACATCATTGTCGCCAATAAATCCGACCGTACGACGCCCGAAAG -TGAGCAAGCGCTACAGCGTTGGTGGCAGCAAAATGGTGGCGATCGACAATTAATTCACAGTGAGCATGGG -AAAGTTGACGGTCATCTTCTGGATTTGCCGCGTCGCAATTTAGCCGAGTTGCCCGCCAGCGCCGCGCATT -CTCATCAGCATGTCGTGAAAAAAGGGTTAGCAGCGTTAAGCCTGCCAGAGCATCAACGCTGGCGTCGCAG -TCTGAACAGCGGGCAAGGATATCAGGCCTGCGGCTGGATATTCGACGCTGATACGGTATTCGACACCATT -GGCATTCTGGAATGGGCGCGACTTGCACCGGTGGAACGCGTCAAAGGCGTGCTGCGTATTCCCGAAGGGC -TGGTGCGAATCAACCGTCAGGGCGATGACCTGCACATTGAAACGCAAAACGTTGCGCCACCGGACAGCCG -TATTGAGCTGATTTCCAGCAGCGAAGCTGACTGGAATGCCTTGCAGAGCGCGCTGTTGAAGCTTCGTTTA -GCGACTACCGCGTAAGGTTGCCTGCGTTTTTCAGTAAGATAATTAGAGAAAATATGATTAAAAATTTGCC -GCAAATAGTGTTGTTGAATATTGTCGGCCTCGCGCTGTTTCTTTCCTGGTATATCCCCGTTAATCATGGA -TTCTGGTTGCCGATTGATGCGGATATTTTTTATTTCTTTAATCAGAAACTGGTCGAAAGTAAGGCCTTTT -TGTGGCTGGTTGCATTGACCAACAATCGCGCCTTCGACGGTTGTTCACTGCTGGCGATGGGTATGTTGAT -GCTGAGTTTCTGGCTGAAAGAAAACGCCCCTGGCAGACGACGTATCGTGATTATTGGTCTGGTCATGCTA -TTAACTGCAGTGGTATTAAACCAGCTGGGTCAGGCATTAATTCCTGTAAAACGGGCCAGCCCAACATTGA -CTTTTACCGATATTAACCGCGTCAGCGAACTGCTCTCTGTTCCCACGAAAGATGCCTCACGAGATAGCTT -TCCCGGCGATCACGGCATGATGCTGCTTATTTTTTCGGCATTCATGTGGCGTTATTTCGGCAAAGTTGCA -GGCCTTATCGCCCTTATTATTTTTGTGGTTTTTGCATTTCCCAGAGTAATGATTGGCGCACACTGGTTTA -CTGACATCATTGTCGGTTCGATGACCGTGATATTGATCGGTTTGCCCTGGGTGTTGCTGACGCCATTAAG -TGATCGATTAATCACCTTTTTTGACAAATCACTACCAGGAAAAAACAAACATTTCCAAAACAAATAACTC -ACAGTAATTAACATCATCAGGGTTATTTTTATAGTGAGGATAATCCTGATGATGCGCACCGTGCTTTCAT -CTATCGAACGCAAAAATCATTCTCTAAGTAAATGAATGGATTGCATGCGTTTCACTCAATTGTACTTTAA -TTGACCAACCCCGCTTATTAACTTTCTGTATCACTTTTTCTTATAAAAAATCATGTAAAACCGCTCGCCA -AGACCGCACCAATCGGGTAATCTCGAACTCGTTTTGCCTCGGCGGTAGATTATCCTCACAGCATATAATT -TTGTGCGTTAGTCCACAGATTTGGCCTTAAGGAATTGTTTCAACATGCCCAGGTAATTAGTCTCGTGTCG -CTTGGCATTTTTTTATAACGATATTTGTCGTTAAGGACTTCAAGGGAAAACAAACAACATGGTCAAATCT -CAACCGATTTTGAGATATATCTTGCGCGGGATTCCCGCGATTGCAGTAGCGGTTCTGCTTTCTGCATGTA -GTGCAAATAACACCGCAAAGAATATGCATCCTGAGACACGTGCAGTGGGTAGTGAAACATCATCACTGCA -AGCTTCTCAGGATGAATTTGAAAACCTGGTTCGTAATGTCGACGTAAAATCGCGAATTATGGATCAGTAT -GCTGACTGGAAAGGCGTACGTTATCGTCTGGGCGGCAGCACTAAAAAAGGTATCGATTGTTCTGGTTTCG -TACAGCGTACATTCCGTGAGCAATTTGGCTTAGAACTTCCGCGTTCGACTTACGAACAGCAGGAAATGGG -TAAATCTGTTTCCCGCAGTAATTTGCGTACGGGTGATTTAGTTCTGTTCCGTGCCGGTTCAACGGGACGC -CATGTCGGTATTTATATCGGCAACAATCAGTTTGTCCATGCTTCCACCAGCAGTGGTGTTATTATTTCCA -GCATGAATGAACCGTACTGGAAGAAGCGTTACAACGAAGCACGCCGGGTTCTCAGCCGCAGCTAATAAAC -CGTTTGGATGCAATCCCTTGGCTATCCTGACGAGTTAACTGAAAGCACTGCTTAGGCAGTGCTTTTTTGT -TTTCATTCATCAGAGAAAATGATGTTTCCGCGTCTTGATCCAGGCTATAGTCCGGTCATTGTTATCTTTT -AAATGTTGTCGTAATTTCAGGAAATTAACGGAATCATGTTCATACGCGCTCCCAATTTTGGACGTAAGCT -CCTGCTTACCTGCATTGTTGCAGGCGTAATGATTGCGATACTGGTGAGTTGCCTTCAGTTTTTAGTGGCC -TGGCATAAGCACGAAGTCAAATACGACACACTGATTACCGACGTACAAAAGTATCTCGATACCTATTTTG -CCGACCTGAAATCCACTACTGACCGGCTCCAGCCGCTGACCTTAGATACCTGCCAGCAAGCTAACCCCGA -ACTGACCGCCCGCGCAGCGTTTAGCATGAATGTCCGAACGTTTGTGCTGGTGAAAGATAAAAAAACATTC -TGTTCATCTGCGACCGGTGAGATGGACATTCCACTCAATGAATTGATTCCGGCGCTCGACATTAATAAAA -ACGTCGATATGGCGATCTTACCCGGCACGCCGATGGTGCCGAACAAACCCGCAATCGTCATCTGGTATCG -CAACCCTTTGCTGAAAAATAGCGGCGTCTTTGCCGCTCTGAATCTCAACCTGACGCCTTCACTCTTTTAT -AGTTCACGGCAGGAAGATTACGATGGCGTCGCCCTCATTATTGGCAATACTGCGCTATCTACCTTTTCTT -CACGTTTGATGAACGTTAACGAATTAACCGACATGCCAGTCCGTGAAACTAAAATTGCGGGCATTCCTCT -GACCGTTCGGCTTTATGCAGATGACTGGACATGGAACGATGTGTGGTACGCATTTTTACTGGGCGGCATG -AGTGGAACTGTCGTTGGCCTGCTCTGCTATTACCTGATGAGCGTACGTATGCGCCCCGGCAGAGAAATCA -TGACCGCCATCAAGCGCGAACAATTTTACGTGGCGTATCAACCGGTGGTGGATACACAAGCTTTGCGAGT -AACGGGCCTGGAAGTACTGCTACGCTGGCGGCATCCTGTCGCGGGAGAAATTCCCCCGGATGCCTTCATT -AACTTTGCCGAATCGCAAAAGATGATTGTGCCGCTGACTCAGCACCTGTTTGAGTTAATTGCCCGCGATG -CCGCAGAATTAGAAAAAGTGCTGCCGGTAGGCGTCAAATTTGGTATTAACATTGCGCCGGACCATCTGCA -CAGCGAAAGCTTTAAAGCAGATATCCAGAAACTGCTCACTTCCCTGCCCGCACACCATTTCCAGATTGTG -CTGGAAATTACCGAGCGCGATATGTTGAAAGAGCAAGAAGCCACACAACTCTTCGCCTGGCTGCACTCGG -TCGGCGTAGAAATTGCTATTGATGACTTCGGCACCGGGCACAGCGCGCTTATCTATCTTGAGCGTTTTAC -GCTCGATTATCTGAAAATTGACCGTGGATTTATCAACGCCATCGGTACGGAAACGATCACTTCCCCCGTA -CTTGACGCGGTGCTGACGCTGGCGAAACGCCTCAATATGCTGACGGTTGCTGAAGGGGTCGAAACGCCGG -AACAGGCGCGATGGCTAAGCGAACGCGGCGTTAATTTCATGCAAGGCTACTGGATTAGCCGCCCGTTACC -GCTGGACGATTTTGTTCGCTGGCTAAAGAAACCGTATACGCCGCAGTGGTAAGGTGTGCTTACGTCCCTT -ATTATTCATAGTGAAAGCATGCCGGATTGCGGCTAATGATGAGTAAAAGGAAATCCGTTGCAGATGATTG -TGCGCATACTGCTGCTGTTTATCGCTCTGTTCACCTTTGGTGTGCAGGCGCAGGCTATCAAGGAAAGCTA -TGCCTTTGCCGTGCTGGGCGAACCCCGGTACGCGTTTAATTTCAACCATTTTGATTATGTGAACCCCGCC -GCGCCAAAAGGTGGGCAGATAACGTTGTCAGCCCTCGGCACCTTCGATAATTTCAACCGCTATGCACTGC -GCGGCAACCCGGGCGCACGCACCGAGCAGCTGTACGACACGCTATTTACGACTTCCGATGACGAACCAGG -CAGTTATTACCCGCTGATTGCTGAAAGCGCACGCTATGCTGACGATTATTCCTGGGTGGAGGTCGCTATT -AATCCGCGCGCCCGTTTTCATGATGGTTCGCCCATTACTGCCCGCGATGTAGAGTTTACTTTTCAAAAAT -TTATGACCGAAGGCGTGCCGCAATTTCGTCTGGTCTACAAAGGCACCACCGTCAAAGCCATTGCACCGTT -AACCGTGCGCATTGAGTTAGCTAAACCCGGCAAAGAAGATATGCTGAGTCTGTTTTCGCTGCCGGTATTT -CCAGAAAAGTACTGGAAGGATCACAAACTTAGCGACCCGCTCGCCACGCCTCCGCTTGCCAGTGGTCCGT -ACCGCGTTACGTCCTGGAAAATGGGGCAAAATATTGTCTATTCCCGTGTGAAAGATTACTGGGCAGCAAA -CTTACCGGTAAACCGTGGACGCTGGAATTTCGACACCATTCGCTACGATTATTACCTCGATGATAATGTC -GCCTTTGAAGCGTTTAAAGCAGGTGCCTTTGATTTGCGTATGGAAAACGACGCCAAAAACTGGGCCACGC -GTTATACCGGTAAAAATTTCGATAAAAAATACATCATCAAAGATGAGCAAAAGAACGAATCAGCCCAGGA -TACGCGTTGGCTGGCGTTTAATATCCAACGTCCGGTATTCAGCGATCGCCGGGTCCGGGAAGCTATCACT -CTCGCCTTTGACTTTGAATGGATGAACAAGGCGTTGTTTTACAATGCCTGGAGTCGCACGAACAGTTATT -TTCAGAATACCGAATACGCGGCCAGAAATTACCCCGACGCCGCGGAGCTGGTGCTTCTGGCACCAATGAA -AAAAGATCTACCGTCAGAAGTCTTCACACAAATCTACCAGCCGCCGGTATCCAAAGGCGATGGCTACGAT -CGTGACAACCTGTTAAAAGCCGACAAACTTCTCAACGAAGCGGGCTGGGTGCTGAAGGGTCAGCAACGCG -TTAATGCCACAACGGGTCAGCCACTCAGCTTTGAATTATTGCTTCCCGCAAGCAGCAATAGTCAGTGGGT -ATTGCCGTTCCAGCACAGCCTGCAACGGCTGGGTATCAACATGGACATTCGCAAGGTGGATAACTCGCAA -ATCACTAACCGCATGCGCAGTCGCGACTATGACATGATGCCGCGCGTATGGCGGGCGATGCCGTGGCCCA -GTTCCGATTTACAGATTTCCTGGTCATCGGAATATATCAATTCCACTTATAATGCCCCCGGCGTGCAAAG -CCCGGTTATCGACTCGCTGATCAACCAAATTATTGCCGCGCAGGGAAATAAAGAAAAATTACTGCCGTTG -GGGCGAGCACTGGATCGCGTATTAACGTGGAATTATTACATGCTGCCAATGTGGTACATGGCGGAAGACC -GTCTCGCCTGGTGGGATAAATTCTCCCAGCCGGCCGTGCGCCCCATCTATAGCCTCGGTATCGATACCTG -GTGGTATGACGTCAATAAAGCGGCCAAACTGCCGTCCGCCAGCAAACAGGGAGAGTAGATGGGCGCTTAC -CTGATTCGCCGTCTGTTGCTGGTGATCCCAACATTATGGGCGATTATCACCATCAACTTTTTCATCGTGC -AAATTGCGCCTGGCGGTCCGGTCGACCAGGCCATCGCCGCCATTGAGTTTGGTAATGCCGGAGTATTACC -CGGCGCAGGCGGTGAAGGTGTTCGTGCCAGCCATGCGCAAACGGGTGTCGGCAATATCAGCGACAGTAAT -TACCGTGGCGGACGCGGATTAGATCCAGAAGTGATCGCTGAGATCACTCATCGCTACGGTTTTGATAAGC -CGATCCACGAACGTTACTTCAAAATGCTCTGGGACTACATCCGCTTTGATTTTGGCGATAGCCTGTTTCG -CAGCGCCTCGGTGCTGACGCTGATTAAAGACAGTCTGCCGGTTTCCATCACCCTCGGATTGTGGAGCACG -CTGATTATCTATCTGGTGTCGATTCCGTTAGGCATTCGCAAAGCTGTTTATAATGGGAGCCGCTTTGACG -TCTGGAGTAGCGCATTTATCATCATCGGCTACGCCATTCCGGCCTTTTTGTTTGCCATCCTGCTGATTGT -CTTCTTCGCGGGCGGCAGCTATTTCGACCTGTTCCCTCTACGCGGCCTGGTTTCCGCTAACTTTGATTCG -CTGCCGTGGTATCAGAAAATCACCGATTATCTGTGGCATATCACGCTGCCGGTGCTGGCGACAGTGATTG -GTGGCTTTGCGGCGCTGACCATGCTGACAAAAAACTCATTCCTTGATGAAGTGCGCAAGCAATACGTGGT -GACCGCGCGTGCGAAAGGGGTAAGTGAAAAAAATATTCTCTGGAAACATGTGTTCCGCAACGCCATGCTG -CTGGTGATTGCCGGTTTTCCGGCGACGTTTATCAGCATGTTTTTTACCGGCTCGCTGCTGATTGAGGTGA -TGTTTTCACTCAATGGTCTGGGCTTACTGGGCTACGAAGCGACCGTCTCGCGCGATTATCCTGTAATGTT -TGGTACCTTGTATATTTTCACCCTGATTGGCCTGCTGCTGAATATTGTCAGTGATATCAGCTATACGCTG -GTTGATCCGCGTATTGATTTTGAGGGACGTTAATGTCGCGACTCAGCCCCGTCAATCAGGCCCGTTGGGC -GCGTTTTCGTCATAACCGTCGCGGCTACTGGTCGTTATGGATTTTCCTCGTCTTGTTTGGTTTGAGTTTG -TGTTCTGAACTTATCGCCAACGATAAACCGTTGCTGGTGCGTTATGACGGCAGTTGGTATTTCCCGTTAT -TGAAAAACTACAGCGAAAGCGATTTTGGCGGCCCGCTGGCAAGTCAGGCTGATTATCAGGACCCGTGGCT -GAAACAACGGCTGGAAAATAACGGCTGGGTACTGTGGGCACCGATTCGCTTTGGTGCTACCAGTATCAAC -TTTGCTACCAATAAGCCCTTCCCTTCTCCACCCTCCCGGCAAAACTGGCTGGGAACGGATGCCAACGGCG -GCGATGTGCTGGCACGCATTCTCTATGGCACGCGGATCTCGGTTCTGTTTGGCCTGATGCTGACTCTCTG -TTCCAGCGTGATGGGCGTGCTGGCGGGGGCGCTACAAGGCTATTACGGCGGTAAAGTCGATCTCTGGGGA -CAACGCTTTATTGAAGTATGGTCGGGGATGCCGACGCTGTTTTTGATTATTTTACTTTCCAGCGTCGTAC -AGCCTAACTTCTGGTGGCTGCTGGCAATTACTGTCTTGTTTGGCTGGATGAGTCTGGTCGGCGTGGTGCG -GGCGGAGTTTTTACGTACTCGTAATTTCGACTACATTCGTGCGGCACAGGCGCTTGGCGTCAGCGATCGC -AGTATCATCCTGCGTCATATGTTGCCTAATGCCATGGTCGCGACCCTCACCTTTTTACCGTTTATTTTAT -GTAGTTCGATAACCACCCTGACCTCGCTCGATTTCCTCGGCTTCGGTCTACCGCTCGGTTCACCGTCACT -CGGTGAACTGCTGTTACAAGGGAAAAATAACCTTCAGGCCCCGTGGCTTGGGATCACCGCCTTCTTGTCG -GTGGCGATATTATTGTCTTTGCTGATCTTTATTGGTGAAGCCGTCCGCGACGCATTTGATCCTAATAAGG -CGGTGTAGCATGACGCAAACTCTGTTAGCGATTGAAAATTTGTCGGTGGGTTTTCGCCATCAGCAAACCG -TACGTACAGTAGTCAATGATGTTTCACTACAGATTGAGGCTGGCGAAACGCTGGCGCTGGTGGGTGAGTC -AGGTTCAGGCAAAAGCGTTACCGCGCTGTCAATTTTACGCCTGCTCCCTTCCCCGCCGGTTGAATATCTC -TCCGGCGATATTCGTTTTCATGGCGAATCGCTGCTTCACGCCAGCGATCAAACGTTGCGCGGTGTACGCG -GTAATAAGATCGCCATGATTTTTCAGGAACCGATGGTGTCGTTAAATCCATTGCATACCCTGGAAAAACA -GCTTTATGAAGTGCTTTCACTCCACCGCGGGATGCGTCGGGAAGCGGCTCGTGGCGAAATTCTTAACTGC -CTTGATCGCGTTGGTATCCGCCAGGCGGCAAAACGGCTGACAGATTATCCGCATCAGCTCTCCGGCGGCG -AACGGCAGCGGGTGATGATTGCGATGGCGCTGTTAACGCGACCGGAATTATTAATTGCCGATGAACCGAC -CACCGCACTGGACGTCTCTGTCCAGGCGCAGATTTTACAGCTGTTGCGCGAACTGCAAGGCGAGCTGAAT -ATGGGCATGCTGTTTATTACTCATAACCTCAGCATTGTCAGAAAACTGGCCCACCGCGTGGCGGTAATGC -AAAACGGTCGCTGTGTCGAGCAAAATTACGCCGCTACGCTATTTGCATCACCCACTCATCCTTACACACA -AAAGCTACTCAACAGTGAACCGTCAGGCGATCCAGTGCCGTTGCCAGAACCTGCCTCAACGTTGCTGGAT -GTTGAACAGCTTCAGGTTGCCTTCCCCATTCGCAAAGGGATTTTGAAGCGCATTGTGGATCATAATGTGG -TGGTGAAAAACATCAGTTTTACGCTACGAGCGGGTGAAACACTGGGTTTAGTGGGCGAGTCCGGTTCCGG -GAAAAGTACGACGGGACTGGCGCTGCTGCGACTGATTAATTCTCAGGGCAGCATCATCTTTGACGGTCAG -CCACTGCAAAATTTAAATCGCCGCCAGCTGTTACCTATTCGTCATCGCATTCAGGTGGTATTTCAGGATC -CAAACTCCTCGCTCAACCCACGACTCAACGTTTTGCAGATTATTGAGGAAGGCTTACGGGTTCACCAGCC -GACGCTTTCTGCCGCACAACGCGAACAACAAGTGATAGCCGTGATGCATGAAGTGGGATTAGATCCTGAA -ACACGCCACCGTTATCCGGCGGAGTTCTCTGGTGGTCAGCGACAACGTATTGCGATTGCCAGGGCATTAA -TTCTTAAGCCCTCGCTGATCATACTTGATGAACCGACATCATCACTCGACAAAACGGTACAGGCGCAAAT -ATTGACGCTATTGAAATCATTGCAACAAAAGCATCAACTGGCCTATTTGTTTATCAGCCACGATTTGCAC -GTTGTCCGCGCGTTATGTCATCAGGTTATCATACTGCGACAAGGGGAAGTAGTGGAACAAGGACCGTGCG -CGCGCGTGTTTGCCACACCGCAGCAGGAGTATACGCGTCAGCTACTGGCGTTGAGCTGACGCTTAAAAAG -GATTGTAGTTTGAAAAGGGTTCGGCAATTGCCACACCAAAATTTTTCAATCGGCATGTTGCAGCAAACTC -GTCCTGGCGATTTACAAACAGGCACGGCTCACCTTCACACTCCAGCACCGAACATGGAACTTCGATGTCG -CTTAACGCCTGGCTTAGTTTATACATCACCGACCATGCATTATCACCATCCGGGCTAAGCAATTTAAGCG -CCACCAGGCTGTTGTCACCGCACGGTCCATTTTGCGGAATCGGTTCAACCTTCGAACCTGCGAAACCAGC -AGACCAGCGATAGTTCTGCGGCAGTCGATGGACGATTGAGAGTTGTAATGAAGTCACTTATTTTCCCCGG -AAGCACATTCACTTCACAATTTGTTTACATCAATTTTAACACATCATCAACAATCCGTCTTTATACAGAT -CGTAAAGATTGATGCCTCGCCTGCGTGGCCTCTATGGCTCTGATTTAAGTAATATCTGCGGGCGTGGTCA -CGTTTGCGGGGCTATATGTACCCGTTTCTGCGATCTAACTCAACCTTTTTAACTACAATGATGTGACTTT -TTACATAAATTGATTTTACATAAAATAAACATATATCGGGGGAATGATAGATTTGTGGTTGACATGCATC -AACAAAGGAAGCCTTTTAGCTTCCTCGTTGTGCAATAGATCACCGTTTTTTCGGCCGACTGGCGTACAGA -CAGAAGAGAATGGAGCTGGTTGCGCAGAATGCAATTGACCAAATCATCGGCCATGCAGAGTTAAAGGTCG -CAAGAGAAAGCAATGCGCCAACAATTGCCCCTATGCCAAAACGGAAGGTTCCTGCCAGCGAAGATGCCGT -TCCCGCCATATGGGGAAACTCATCAAGAATGACCGCCATCGCATTGGATGACACCATCGACACGCAGCCC -ACAAACGCCGCAACGCCAACCACCAGCGACCAAAATCCCAGCCCCAGCAGCGCACTGATGACCATCCACG -CTGCCATAATAAATTGTATCCACAACCCCGAGCGGAACATATTTAACGCGCCAATGCGGCGGACGAAGCG -GCTGTTAAAGATGGTCATCACGAACAGAAAAACAATGTTTAGCGCAAAGTAATAACCAAAGTTTTCCGGC -GCGACGTGGTTAATTTCAATATAAACAAACGGTCCGGCGCTTAAGAATGAGAACATCCCGGCAAAGCTGA -AACCACTGGCAAGCATGTAGCTCAGGACACGTTTATGGCGGAACAGCGCCGCAAAGTTACCAATAGTGGT -ACGAATGTGAAATGGCTGACGACGCTCCGGTGGTAAGGTTTCTTTAATCAGGAAGAAAATCATTGCCGAA -GCCAGAATCGCCGCTAATGCCAGGATCCAGAAGATGTAATGCCAGCTCAGCCACACCAGCACCCAGCCGC -CAACTATCGGTGCCATCAGCGGTGCAATGGTTGTCACCAGCATGACAAACGACATCATCCGCGAGAACTC -TTCTTTCGGGTAAATATCGCGCATCAGGGCGTTAATGACCACGCTGGCCGCAGCCGCAGCCAGCCCGTGG -AAGAAACGCATCACAATCAGCTGATCGATGGTGTTTGCCAACGCACACGCCACCGCGGCGGCGGCAAACA -CCAGCGTACCGCCGAGCACCACCGGCTTACGCCCGAAGCTGTCTGCCATCGGCCCGTAGATTAACTGCCC -CAACGCAAAGCCCAGAATATAAGTACTGAGGGTCATCTGCGTACTGCCCGCCGGTACGCCAAACTGCGCT -GAAATTACCGGTAGCGCGGGCAGATACATATCAATCGACAGCGGCATCAACATGGCCAGCAGGCCAAGGA -TAAAAACAATAGCAAACGACGAATGCTGTCGGGTGGTCACAACGGGCTCCTGAAAGTCATTGAAAAGTTA -GACGACGCTGGCAATTTCTTCTTCAGTTAACGGACGATATTCACCGGGGGCTAAATCAGCATCCAGCGTA -ATACCGCCAATACGTTCACGATGCAGCTCAACCACGTGGTTACCCACGGCGGCGAACATGCGTTTCACCT -GATGATAACGCCCTTCGCTGATGGTCAGACGAACCTGCGTTGGGGTAATCACTTCCAGCACCGCAGGCTT -AGTGAGATCTTTTTCGTTATGCAGCTGCACGCCTTTAGCAAATTGCTCTGCCGTATCGTCAGCTACAGGT -GATTCCAGTGTCACCAGATAGGTCTTCTCGCAATGATGGCGCGGAGAAGTAATGCGGTGCGACCACTGAC -CATCATCAGTCATCAGCACCAGACCGGTGGTATCAATATCCAACCGCCCCGCCGCATGCAGTTTCCACGC -TACCGGTTCATCAAGAAAATAGAGCACCGTTGGGTGATCAGGGTCGTCCGTGGAGCAAACATAGCCCTGA -GGCTTATTGAGCATGAAGTAACGTGGACCGTGTTGCTGCGCCAGCGGGTTGCCATCGTAAGCGACATCAT -GTTCAGGAAGCAGTTTGAACGCTGCATTACGGACGATTTCGCCATCGACGGTGACACGATTGCCGCGGAT -TTCACGCCCGGCAATAGCACGGCTAACGCCGAGTTGCTGTGCGATAAATTTATCAAGTCGCATGTGTGTG -ATTTTGCCTGTAAAAACGGAGGTCGGGCATTGACCCGAAAATCTGAACTGTTGTCTGCCCAGTATAGCGG -TCTAATAACATCCCTCAAGGGAAAAAGATCCATGGCATACTATTAGCAGAATAATCTACCTACGCGAGAC -CATGATTTTTACACTTCGCCCATATCAGCAAGAAGCCGTGGATGCCACGCTCAACCATTTTCGTCGTCAT -AAAACCCCTGCCGTTATCGTGCTGCCCACCGGCGCAGGTAAAAGCCTGGTGATAGCGGAACTGGCACGGC -TGGCTCGTGGTCGCGTGCTGGTGCTGGCACACGTTAAAGAACTGGTGGCGCAAAACCATGCAAAGTATCA -GGCGCTGGGGCTGGAAGCCGATATTTTTGCCGCCGGGCTAAAGCGCAAAGAGAGCCACGGTAAAGTGGTA -TTTGGCAGCGTGCAGTCTGTCGCCCGTAATCTTGATGCCTTTCAGGGTGAATTTTCGCTGTTGATTGTCG -ATGAATGTCACCGTATTGGTGACGATGAAGAGAGCCAGTATCAGCAAATCCTCACTCACCTGACAAAAGT -GAATCCCCACTTACGCCTGCTGGGGCTGACTGCCACGCCTTTTCGATTGGGCAAAGGCTGGATCTACCAG -TTTCATTATCACGGCATGGTACGCGGCGATGAGAAAGCCCTTTTCCGTGACTGCATTTATGAGCTGCCGC -TGCGTTATATGATTAAACACGGCTATCTGACGCCGCCAGAACGACTGGATATGCCAGTAGTGCAATACGA -TTTCAGCCGCTTGCAGGCACAGAGTAACGGGCTGTTCAGCGAAGCCGATCTCAACCGTGAGCTGAAAAAA -CAACAACGTATTACCCCGCACATCATCAGCCAGATTATGGAGTTTGCTGCAACGCGCAAAGGGGTGATGA -TTTTTGCCGCGACGGTTGAACACGCAAAAGAGATTGTGGGATTACTGCCTGCCGAAGATGCAGCACTGAT -TACTGGCGACACCCCCGGCGCTGAGCGCGATGTGTTAATTGAAAATTTTAAAGCCCAGCGTTTTCGCTAT -CTGGTCAACGTCGCGGTACTGACCACCGGATTTGACGCCCCGCACGTCGATCTTATCGCCATTCTGCGCC -CTACCGAATCAGTGAGTCTTTACCAACAAATTGTCGGGCGCGGTCTGCGTCTCGCTCCGGGCAAGACTGA -TTGCTTAATTCTTGATTATGCGGGTAATCCTCACGATCTCTACGCGCCGGAAGTTGGTACACCAAAAGGC -AAAAGTGACAACGTTCCGGTACAGGTTTTCTGCCCTGCCTGCGGTTTTGCCAACACCTTTTGGGGGAAAA -CGACCGCCGACGGGACATTGATTGAACACTTTGGTCGTCGCTGTCAGGGATGGTTTGAAGATGACGACGG -TCATCGCGAACAATGTGACTTCCGTTTCCGTTTTAAAAATTGCCCGCAATGTAACGCGGAAAACGATATT -GCCGCCCGCCGCTGCCGCGAATGTGACACCGTACTGGTTGATCCGGACGATATGTTAAAAGCGGCGCTAC -GACTGAAAGACGCGCTGGTATTACGCTGTAGCGGCATGTCTTTGCAACATGGGCACGACGAGAAAGGCGA -ATGGTTGAAAATCACCTATTACGATGAAGACGGCGCGGATGTGAGTGAGCGTTTCCGTCTGCAAACACCT -GCCCAGCGTACCGCCTTCGAGCAGCTTTTTATCCGCCCGCATACGCGCACACCGGGCATCCCGCTGCGCT -GGATCACCGCCGCCGATATCCTCGCCCAGCAAGCCTTATTGCGACACCCGGATTTTGTCGTCGCCCGCAT -GAAAGGCCAGTACTGGCAGGTGCGTGAAAAAGTGTTCGATTACGAAGGTCGTTTTCGTCTGGCGCACGAA -TTACGCGGTTAATGGTAGTTTTGATTGATGTATAAGGCGATTGAGTATAGAATCTCGCCCGCTTTTGCAT -ACGCAAAGCAGATCACTTACCTGTTGCTGGGTCGCCTGTAGCAGGATTAATTTAAGAGAGAAAGAAATGT -TTACTATCAACGCAGAAGTACGTAAAGAGCAGGGTAAGGGTGCGAGCCGCCGCCTGCGTGCCGCTAACAA -GTTCCCGGCAATCATCTACGGTGGCAAAGAAGCGCCGCTGGCTATCGAGCTGGATCACGACAAAGTCATG -AACATGCAAGCTAAAGCTGAATTCTACAGCGAAGTTCTGACCATCGTTGTTGACGGTAAAGAAATCAAAG -TTAAAGCTCAGGACGTACAGCGTCACCCGTACAAACCGAAGCTGCAGCACATCGACTTCGTTCGCGCTTA -ATTGCTGAATAAGTTGTAAAAAACCCCGCTCCGGCGGGGTTTTTTGTATCTGCAGATTATGCCTGATTAC -GGTATTGCTATTTTTTGCAGGCCAGATAAGGCGTTCACGCCGCATCTGGCATTCAGAACACAAAACCGAT -TAATTGCCGCCAGACGTCCGGCGCTGCAATTGGTCGCGCAAATTCGGCGGCGTGCCTTTAATGGTCAAGG -TATCGGTTGCTGGATCCCAGAAGATGCGTTCACCTAACAGCATCGCATCAAAGTTAATAGTCAAGCCACC -GCCGCTACCGGCAAACTTCGTCAACTGACGCAGTGTGCTACGGTCTGCCGGGAAGCTCTCTTCCAGTTCG -TAGCCTTTTTCAGCCGCAAACTCCGTGAAGCTCACTTCGCTTACGCCTGCCAGCTCTTTCGACAGCGATT -TCAGTTCGATCTCTTCGCCTGCCTGCAGCTGCTCATTACAGTAGCTATAAACCTGCTGGCGCACGTTCTG -TCGCTCTGCTTTATCCAGTTGTGCTTCGGCAGTGAAATCATCAACCGCTTGCAACAGCCCACGGTTTTGC -GCTTTCGCGTTTAACCCTTCGCTGGCCCCGAGGAAATCCATAAAGAAATCCGCCACTTTGCGCCCTACTC -GCCCTTTCAGGAAAGTGAGATAGCGGGTGGACTCTGGATTGGTTTCCCATTCGGTTAAATCGATACGCGC -AACAATATCCGCATGATTGATATCAAGATAATGGGTTGGGTTGATGTCGAGATTTTCGTTAACGCGCATA -CTGCTCAGGTTGCTCAGAACTGCCACCAGCAAATACTCCACCGCCAGATAGCGATAGTGGCAAAACAGCA -CGAATCCACCGTCAGCAAAAGGATATTTCGCTAATTCGTCACGCAGGCGGCCGGTTGCCGCGCGGCTAAA -TGCCAGGAAGTCCTCTTCGCCCTGACGCTGTAAGCGCAGCGTCTGCGCCAGTTCACTCTCTTCGCTAAAC -AAGCCGTAAGCTTTATTTTTGGCGCTATAGACCCGATGCAGTTCTGCCACCATCTCAACGACGGTTTCTG -TCGGTTCCAGCAATGAATCGCGCAACACCAGCTCAAGGTTCTGCTCATCACGCTTGATAAGCTGGTGCAG -AGCAATCTGGTTGATATCCAGACTCATGATAAACTCTCCTTTAAGACCGGGCGGTATTCAACCACCGCCG -GTTAAGCGACGCAATAAAAGATGGCGGTCATTTTACAGAAGGCAGCGTAACGAGAATGATTTAACGCATA -AAAAAGCAGAAAAAAAACCGTTGCTACGGTAATATGTTGCCCTTTCATCAACTAACTGATTTCGATTTAT -GCCACAAATTTCCCGCTACAGTGATGAACAGGTTGAACAATTGCTCGCAGAGCTGCTCAACGTACTGGAA -AAACATAAGGCTCCGACCGACCTTTCCCTGATGGTGTTAGGCAACATGGTCACTAACCTTATCAACACCA -GCATTGCCCCGGCCCAACGCCAGGCAATTGCCAACTCTTTTGCCCGCGCCTTACAGTCCTCTATCAACGA -AGACAAAGCGCACTAAGGGAAACAGATAACAGGTTATGGTAACTCATCGTCAGCGCTACCGTGAAAAAGT -CTCCCAGATGGTCAGTTGGGGGCACTGGTTTGCACTGTTCAATATTCTGCTTTCGCTCGTCATTGGCAGC -CGTTACCTGTTTATCGCCGACTGGCCGACAACGCTTGCTGGTCGCATTTATTCCTACGTAAGCATTATCG -GCCATTTCAGCTTCCTGGTGTTCGCCACCTACTTGCTGATCCTCTTCCCGCTGACCTTTATCGTCGGCTC -CCAGAGGCTGATGAGGTTTTTGTCCGTCATTCTGGCAACGGCGGGAATGACGCTATTACTGATCGATAGC -GAAGTCTTTACTCGTTTCCATCTCCATCTTAATCCCATCGTCTGGCAACTGGTTATCAACCCAGACGAAA -ATGAGATGGCGCGCGACTGGCAGCTGATGTTCATCAGCGTGCCGGTTATTTTATTGCTTGAACTGGTGTT -TGCGACGTGGAGCTGGCAAAAGCTGCGCAGCCTGACGCGTCGTCGACGCTTCGCGCGCCCGCTGGCCGCA -TTCTTATTTATCGCCTTTATCGCCTCGCATGTGGTGTATATCTGGGCCGATGCCAACTTCTATCGCCCGA -TCACCATGCAGCGCGCTAACCTGCCGCTTTCGTACCCGATGACGGCGCGACGTTTTCTTGAGAAGCATGG -TCTGCTTGATGCGCAGGAGTATCAACGCCGTCTTATTGAGCAAGGTAATCCAGACGCCGTTTCCGTTCAG -TATCCGTTAAGCGAACTGCGCTATCGCGATATGGGCACCGGGCAGAATGTGCTGTTGATTACTGTCGATG -GCCTGAACTACTCACGCTTCGAGAAGCAGATGCCTGCGCTGGCAGGTTTTGCTGAGCAAAATATTTCGTT -CACGCGCCATATGAGCTCCGGCAACACTACAGACAACGGCATCTTTGGCCTGTTCTATGGCATCTCGCCG -AGCTATATGGACGGCATTCTGTCGACCCGTACGCCTGCGGCATTAATTACTGCGCTTAATCAGCAAGGCT -ATCAGCTGGGGTTATTCTCATCAGATGGCTTTACCAGCCCGCTGTATCGCCAGGCATTGTTGTCAGATTT -CTCGATGCCGAGCGTACGCACCCAATCCGACGAGCAGACCGCCACGCAGTGGATCAACTGGCTGGGACGC -TACGCACAAGAAGATAACCGCTGGTTCTCGTGGGTTTCTTTCAATGGTACTAACATTGACGACAGCAATC -AGCAGGCATTTGCACGGAAATATAGCCGGGCGGCAGGCAATGTCGATGACCAGATCAACCGCGTGCTCAA -TGCACTGCGTGATTCTGGCAAACTGGACAATACGGTGGTGATTATCACTGCCGGTCGGGGTATTCCACTG -AGCGAAGAGGAAGAAACCTTTGACTGGTCCCACGGTCATCTGCAGGTGCCATTAGTGATTCACTGGCCAG -GCACGCCGGCGCAGCGTATTAATGCTCTGACTGATCATACCGATCTGATGACGACGCTGATGCAACGCCT -GCTACATGTCAGCACACCTGCCAGCGAATATTCGCAAGGTCAGGATTTGTTCAACCCTCAACGCCGTCAT -TACTGGGTTACCGCAGCGGATAACGATACGCTGGCAATTACCACCCCGAAAAAGACGCTGGTACTGAACA -ATAACGGTAAATACCGCACTTACAACTTACGTGGTGAAAGAGTGAAAGATGAAAAACCACAGTTAAGTTT -GTTATTGCAAGTGCTGACAGACGAGAAGCGTTTTATCGCTAACTGATTAATTATAAATCAGTTAGCGAAA -TATCTTACTTGCAATCGGTGTGGAAAACGGTAGTATTAGCAGCCACGAGTCGGCACGTAGCGCAGCCTGG -TAGCGCACCGTCATGGGGTGTCGGGGGTCGGAGGTTCAAATCCTCTCGTGCCGACCAAAAATCCCAAGAA -AAAACCAACCCTTACGGTTGGTTTTTTTATATCTGCAATTAATTCGATAAACAGACCGTGACACATCACA -GCCTGTTTATTTTCTGTTATCAGAACGTCCAGACCACACCCGCCTGAGTATTCCACGGCGATTCTACCCC -TGCGCCATTGCCATAGCTGACTGACAAATGACCGCTTAACGTCGGGGTAAACGATGACCTTATACCAGCC -TGATAAACGCCACTGGTTCCAGCCACATCATTATTAAATTTGCCATCGTCATTAACTTTCACCTGGTTAG -AATCGGCGTATTCCTGACGCACGGCCGCTTTCAGCCAGGGTTCCAGCGTCGTACCGTTTTGCAGGTCCAT -GTGATAGCTTACCGCCGTTCCCGCTTCAGCGCGTAATATCCGGGTATTTCCCACATCCGCGCGCATGCCG -TTTGATAACGTGTAGTCCTGACCATCTGTGGTAAAGCCGGTAAAGGCCAGATAGGGTCTAACACTCCACA -ATCCGTCAACCCAACGGAACCCGCTCTCAACATGAGCACCCGCGCCGTTACTATTGTAATCGCCAAACGC -TGTTGCCCCATTACTCATCTTGCCATGGATGGTGTTGGCAAAACGGTCAACTTTCACCACCCCATCAACA -TAGGCACCGTTCTGATGCTCCCAACCGGCATAAGCCCCCAGGGTATAGCTATCGATATTACCTTTGCCGC -CGCGATCAAAACCAATATCAGAATGAGAGTAACCAAAGATCAAGCCGCGAATTGTACTGCTTTCTTCACG -GGAGAAACGGCTATCGATACCGAGCGTCAGGCCCGTCAATGTTTGCTCAAAACCAGCTCCCGCATCAGTG -GTCACGTTGTTGCGGGTGTTAATTGCCGAACTCCACATCGCCGTATCGTAACTAACGCCTTTTACGCTAC -CAAGACGCTCACGCACGGTGTCCAGTTCTGCATCAAATACCAGCGGTTGTGCGGCCGCCATATTCAGCAC -ATCAGTGGTTGAAGGGGTAATTTGCGCGCGATTCTCTGCCAGACTCCAGCTATGGTTGCCATTATCCAGC -AAGGTATATTCATACGTACCGATATCAACAACGCCTCCGGCATTGCCCAACGTAAATGCAGCATCACCGC -CGCCCGTTGTTACCAGTGTAAGGCTATCTCCTGCTGCCGGGCTGGCACCGGTGTCCGTCACGAATATTTT -GAAATCACCTGTTGCCTGACCGGTGACGTTGAGCTGATCGCTCTGATGATTAGCCATATCGGTACGCATA -TAAAAATTGCCGTTTCCCGACAGGGTATTGGTGGTCAACGTAATGAAATTTTCCGCACTTGCCGTCACTG -ATGAACGAGTCACTGGCTCATCCATCATAATCACATTTGCGTCAGACATCGCAAGGTTGGCTAAGTTGAG -GAGGGTGTTTTGGTTCGTCGTAGTGATATCGGCAATGATGGTCCATACGCTATTTTCGAGCGAAACGTCC -GCTTTGCTGGTATCCACGGCACCATGCGTTCTAAAAGAAGCGCCCTCAGAAACCACTACCTTACCCACCA -ACATTGCGGGTGCATAATTTATTTGCGGCTTCATGACCTCAAGAATGCCATCATTCCCTCTGACTGAAAC -GTTAACCATTGTGCCAGCCCAGACGTTAGCGCGGCCATTGTTGATAACCATATTTTCAGAGATGGCTTTT -GAGGAATACGTGATACTTCCATTCTGATATGATCGACCGAGATCATATACCGCATTTGCCTGCACTTTCG -TACCAGTATCCTTTCCCAGCGATTGCATAGTGGCATGCTTATCAAGGATAGTATCAATGGCCTGCGTGTC -CTCCATAACAATGAGCCCGGAACCATCATCCAGTTCATAATTTTTTGACACACCATCTTTTATACTAAAT -TGGCCTTTACTGTTTGGACCACTCACTTCCAGCGCATTCGTTGAGACAATTAATTTTCCGCCTGCTTTTT -TATCAACGCCAGTTACAGTCCCGCCATCCATAACCTCCAGTAAGCCGCCACTATCTACAGTGGTATTATA -AGCGAAGTCATTTTCTTCAACTCGCAAACTTCCGCCGTTTTCCAACAACATATTATTAGCAATACCATTC -TTGATATCGAACTGACCGAGACGGTTTGTTCCGAATACCTCCATGGCCCGCGTGGTTGTTTTAATAGCAC -CGCCTGCTTTCTGATCTACCGCAAATGCAAATCCCCCCTCTTTAACCTCCAGTAGTCCTCCCTTTTCGAT -AGCGACAAAGACGGCCCCCCCATCTTTTTCAACGATTAAGCGCCCGCCTTTAATCGTGGTATCATTCGCT -GCGCCATAAACCTGTAGCACACCATTATTGAGCGTAGTCTGGTTTGCCGCGCCACCCATTTGAACAATTT -GATAACCGTCATTTAATACTGAGTATTCTGCGGCGCCATTCATTTCAATGTACTGATACCCTCCGTTAAT -TTCAGTATTATTACTTACACCAAATTCTTTTATATGCTGTTCTCCGCCAGGATTGATTTTCGTATTATTG -GCGGTCCCATAAACCAGCTGGATATCTTTTTCCAGGACAACACCATCAACTGTCTCACCATACTCAACAG -TTGATGCCAATGCTATGGGTGAATATAAGGAAGGTGCGAATAAGCGGGGAAATTCTTCTCGGCTGACTCA -GTCATTTCATTTCTTCATGTTTGAGCCGATTTTTTCTCCCGTAAATGCCTTGAATCAGCCTATTTAGACC -GTTTCTTCGCCATTTAAGGCGTTATCCCCAGTTTTTAGTGAGATCTCTCCCACTGACGTATCATTTGGTC -CGCCCGAAACAGGTTGGCCAGCGTGAATAACATCGCCAGTTGGTTATCGTTTTTCAGCAACCCCTTGTAT -CTGGCTTTCACGAAGCCGAACTGTCGCTTGATGATGCGAAATGGGTGCTCCACCCTGGCCCGGATGCTGG -CTTTCATGTATTCGATGTTGATGGCCGTTTTGTTCTTGCGTGGATGCTGTTTCAAGGTTCTTACCTTGCC -GGGGCGCTCGGCGATCAGCCAGTCCACATCCACCTCGGCCAGCTCCTCGCGCTGTGGCGCCCCTTGGTAG -CCGGCATCGGCTGAGACAAATTGCTCCTCTCCATGCAGCAGATTACCCAGCTGATTGAGGTCATGCTCGT -TGGCCGCGGTGGTGACCAGGCTGTGGGTCAGGCCACTCTTGGCATCGACACCAATGTGGGCCTTCATGCC -AAAGTGCCACTGATTGCCTTTCTTGGTCTGATGCATCTCCGGATCGCGTTGCTGCTCTTTGTTCTTGGTC -GAGCTGGGTGCCTCAATGATGGTGGCATCGACCAAGGTGCCTTGAGTCATCATGACGCCTGCTTCGGCCA -GCCAGCGATTGATGGTCTTGAACAATTGGCGGGCCAGTTGATGCTGCTCCAGCAGGTGGCGGAAATTCAT -GATGGTGGTGCGGTCCGGCAAGGCGCTATCCAGGGATAACCGGGCAAACAGACGCATGGAGGCGATTTCG -TACAGAGCATCTTCCATCGCGCCATCGCTCAGGTTGTACCAATGCTGCATGCAGTGAATGCGTAGCATGG -TTTCCAGCGGATAAGGTCGCCGGCCATTACCAGCCTTGGGGTAAAACGGCTCGATGACTTCCACCATGTT -TTGCCATGGCAGAATCTGCTCCATGCGGGACAAGAAAATCTCTTTTCTGGTCTGACGGCGCTTACTGCTG -AATTCACTGTCGGCGAAGGTAAGTTGATGACTCATGATGAACCCTGTTCTATGGCTCCAGATGACAAACA -TGATCTCATATCAGGGACTTGTTCGCACCTTCCATAACGCTGTAGCCACCAGAACAGATATTGCGGAACG -ACAAAGAGAAACAGAACCAGATTGATGCATTGAGCTTTCATCCTATGAAATTAATTGCTGTTAAAAGCAT -TGGGTACAGAAAATACCCATAGCTCCATACCCGGAGTCAGTTTTTAAAAACTGTTTAAAGAAATGCACAA -GTATTGTGATTGATTTTTTAGTTGTTTTTCTTGATGAGAAGCTGATGCAAAATTCCGTCTTTATAATGAA -AATGATGCCAAAGCGAACGACAAGGTTGTAGTTTTCACTACATGTCCATACATAAAATGGGGTAACATTC -ACGCGCCTGGTAGCGTTACCAACGCTACGCTCAAACATAATGATTCTAATAAAACCTCAGGAGACTACTA -TGCCTGAAGCAACACCTTTTCAGGTGATGATTGTGGATGATCATCCACTTATGCGACGCGGTGTTCGTCA -GTTACTGGAGCTTGATCCTGGCTCTGAAGTGGTCGCCGAAGCGGGCGACGGCGCGAGCGCTATCGATCTG -GCGAATAGACTGGATATCGACGTGATCTTGCTGGATCTCAATATGAAAGGTATGAGTGGCCTGGATACTC -TCAATGCCTTGCGCAGGGATGGCGTTACCGCGCAAATTATTATCCTGACCGTATCCGATGCCTCCAGCGA -TGTCTTTGCGCTGATAGACGCAGGCGCAGACGGTTATCTGTTGAAAGACAGCGACCCGGAAGTATTGCTG -GAAGCGATTCGTGCCGGAGCGAAAGGCAGCAAAGTCTTTAGCGAACGCGTCAATCAGTACTTACGTGAAC -GTGAAATGTTTGGCGCGGAAGAAGATCCCTTCAGCGTGCTGACGGAGCGCGAGCTGGATGTTCTGCACGA -GCTGGCACAGGGGCTGTCAAATAAACAGATTGCCTCGGTGTTGAATATTTCCGAGCAGACAGTAAAAGTA -CATATTCGCAATCTGCTGCGTAAACTCAATGTCCGCTCACGCGTGGCGGCCACCATTCTGTTCCTGCAAC -AACGCGGGGCACAATAAAAATAGCCCGATGGATTTATCATCGGGCTGAGATTTATGACAAACGCAAAACT -GCCTGATGCGCTACGCTTATCAGGCCTACGTGGATCGATCAATTTATTGAATTTACACAATTTTGTAGGC -CGGATAAGGCGTTCACGCCGCATCCGGCATAAACTAAGCGCACTTTGTCAACAGTCTAGCCCGATGGCAT -CACCATCGGGCCTCTTTTTATTTACTCTCCTGCGGCGACAAATGTTGCATCGCCTGCGCGATACTACGTT -CAATCACCGCACGGCGAGTATCGTTGGCAGGTAAGAGTTTCAACATCATCTCCCACGCGGCAACGGCTTC -GCCAAATCGCTGCTGCTCAAAGGCATTAAACGCATACATGCTTAGCACACGGATATTGCTATGGTCCGTT -CTCACCAGCTGACGTAGCAGTTCACCGCCGAGGCGGTTGTCGTTGGGATCAGATGAACGAGTCAACGCTT -CAGCGTATCCCAGTGCAGCATCACTGTTTTTCGGATCGAGGCGATACGCAGTGGCGTATGCATCGGTGGC -GATACTGGCGTTACCCAGCGCCATGCCAACGCGGCCCAACATAATCCAGCCTTCTATATCTCCCGGATTT -TTTTGCAGTTGAGTACGCATCCCCAGCGCAAGACGCGACATCTCTTCTTCGTTGAGCGGATCGGCTTTCG -GATCCAGCGCCCTGTCCAGCAACGCCGGAGCCTGTGCCGTGGCCTGCTGCCAGATTTTCACCTGCTGATA -ATTGCCAGTCTGGTAGTAGCTGACGCCAGCCACAATTAACGCCACCACAATACCCGGCAGATAAACAACA -TATCCGGCACGCTTACCTTCCGGCACGCTTTGTTCAGGAAACGCTTCCGGCACCACGCGTACCCGACGCC -GCGAGCGGGCGTATATGACCCAACCGCCAATGCCAATAGCCACTACTGGCAGCACCCACAGCAGCACGGT -CAGCGGCGTTAACGGCGGATCGTAAGTGACGAAGTTGCCGTAACGCGCCACCATATAATCGACAATCTCT -TTTTTACTTTTACCTTCCTGCATCAGTTCATACACTTTCTGACGCAGGTCGGTGGCAATCATCGAGTTGG -AATCGGCAATGCTGTTGTTCTGGCATTTCGGGCAGCGCAGTTCTTCAGTGAGCTGACGGAACTGTTGTTC -CTGTGCTTCATCTTTAAACTGCAACACATCGATGGTCGCCAGCGCTGAGCCGGAGATCATCAGCATCAGC -ACGCCCAATAAAAACCTCATTGTGCGGCCTCCTTACTGTATTTCTCCCACAGCGGCTTGATCTCTTCTTC -CCAGACGCGAGGATTCAGATCGCCCGCATGGCGATAGCGAATGATGCCGTTGCCGTCAATAAGAAACGTT -TCTGGCGCGCCATAGACACCGAGATCCAGCCCTAACATGCCATCGCCATCAAACAGGCTTAGCGCGTAAG -GATTGCCCAGCTCTTTCAGCCAGCTGATTGCCTTCTGGCGATCGTCTTTATAGTTCATGCCGACCACGCG -GATGCCCTGCGCAGAAAGCTGATTCAGATATTGATGTTCCGCACGGCAGGTCGGACACCAGGTCGCCCAG -ACGTTAAGCAGTACTGGTTTGCCCTGAGTCAGCACATCCGCCTGATAAAACTGCCCCGGATTGTCCAGTG -ATTCGAGACGAAACTTCGGCACAGGCTTGCCAATGAGCGCCGATTCCAGATTGGTCGGATCATCCCCTTC -GGCATTACGCGCCAGCTGCCACAGCAGCGCCGCGGCAATCGCCAGGAAGATAATCAACGGAATTAACAAT -ACTTTGCGCTTCATACGGCCTCCGGCGCAGTTTTTTGCGGACTCACGCGCTTACGATAGCGAGGATCAAA -CAGACACAGCAGTCCGCCCAACGCCATCATCAGCCCGCCCGCCCAAATCCAGCGAACAAATGGTTTGTAG -TAAAGACGCACGGCCCACGCGCCGTTTTCCAGCTCTTCACCGAGGGCCGCGTACAGGTCACGCGTGATGC -CGCCGTCAATTGCCGCTTCGGTCATCATCGACCCGGCAGTGTTGTAATAACGTTTTTCCGCATACAGCAC -CGTTTCCGGCTTGCCATCGCGCGTTACGCCGATAGTCGCCACACCGCCACGCCAGTTCGGGCCAGTCACC -TCTTTGACATCACGGAAGGTGAAGCGATATTCATGAATATCGACGCTATCGCCGGACTTCATGCGCACAT -CACGCTCAACGCTATAGTTCTGGCTAAAGGCAATGCCAACAATTGTCACTGCCAGCCCAAGGTGAGCCGC -CACCATCCCCCAATAACTGAAGGTGGTTTTCGTGCCGCGTGAAATACGTAGCGCAGCTTCCGCAATTGCC -AGCACCGCAATCCAGCAGGCCATTGCCAGGCCGAGCACCGTCATCGCCACAACTTTGCTTTCGAACAGCC -ACGGCAACAGCAGCGACAGCACCAGCGTAGAGATGAAGGCGATAATCAATAAATTGCGGATCTTACGCGG -GCGATCCCGCCCCCAGCGCACCAGAGGACCGACACCAAGCAGTAGCGCAAACGGCACCATCAGCCAGGTA -AACATGGTGTTGAAGAACGGTTCGCCAATCGAAATACTGCCCAGTCCCAGTTGCTTATGCACCAACGGCA -GCAGCGTCCCCAGCAACACCACCAGCATCGCAGCGACCAGCAAAACATTGTTCGCTAACAGCAAAGATTC -CCGCGACCACAGCGCATTGTTTACGCGTGAGCGAACTTTGTGTCCACGCGCGGCAAACAGCAGCAGCGAA -CCGCCAATCACCAGCACCATAAAGGCGAGGATAAACATACCGCGCGCCGGATCAGACGCAAACGCGTGTA -CCGATACCAGCACGCCGGAACGCACGAGGAAAGTCCCCAACAGACACAACGAGAAGGCACTGATTGCCAG -CAGTAATGTCCACGCTTTGAAGCTGGCGCGTTGTTCAGTGACCGCCAGTGAGTGCATCAGCGCAGTCCCC -ACCAGCCACGGCATAAACGAGGCGTTTTCTACCGGATCCCAGAACCACCAGCCACCCCAGCCGAGTTCGT -AATAGGCCCATGCGGAACCGAGCACGATGCCGAGCGTCAGGAAGATCCACGCTGCCAGCGTCCACGGACG -AGTAAAACGCGCATAAGTGCTGTCCAGACGCCCGCTCAGCAAAGAAGCAATGGCAAAAGCAAACGCCACC -GAGAAACCCACGTACCCCATATAAAGCAGAGGCGGATGGAAGATCAGCCCCGGATCCTGCAATAGCGGGT -TAAGATCGCGACCTTCAATCGGGAAGTTCGGCAACGTGCGAGAGAACGGGTTAGAGGTAAAGAGAATGAA -CAGCAAAAAGCCGACACTGACCATCCCCATTATCGCCAGTACACGGGCCACAATATCCAGCGGAATACGC -TGACTAAAAATCGCCACCGCAAAGGTCCAGCCGCTCATCAGCAGCACCCACAGCAGTAGCGAGCCTTCAT -GCGCGCCCCAGGTAGCCGCCACGCGATACCACACCGGAAGCTGGGTATTGGAGTTGCTGGCAACATAGGT -GACGGTGAAGTCGTTGACCACGAAAGCATTGACCAGCACCAGAAATGCGCCAGCCACAGACATAAACAGC -AGCCAGGCAAACAAGCGGGAAGACGCCATCATGCGCGCATCTCCGCGCGCCACGCCCCATAGCGGATACA -CGGACAGCAGCAGCGCAATTCCCAGCGCCAGGCACAGCAGTCCGTTACCAATTTCTGGCATCATGATGCT -GGGTCCTTATAAACACTCGCCGGGCGACGGTGGTTAGCTTCCATCGCTTTCTCAACTTCTGGCGGCGTAT -AGTTTTCATCGTGTTTCGCCAGCACTTCTTTCGCGAGGATATGATTGCCTTTTTCCAGTTCGCCCTGCAC -CACAACGCCCTGCCCTTCACGGAACAGATCCGGCAAAATGCCTTCGTAAGAGACATCCACTGAGCCTTCA -GCATCGTAAATGGTGAAGGTCACTTTCAGCGAATTGGGATCGCGCTGCACACTACCCGGCATCACCATCC -CGCCAACGCGCAGACGCTGACCGACTTCCGGCATTTGCTGAGTTTCACGCTTGCCGTAGAGAATTTCCCC -CGGCGTATAAAAGAGATCGATATTCGAGCGCAGCGCATATAGCACCAGACCGATAGTCAGCGCCAGCCCT -GCCAACACGGCACAGGCAATCCACAAGCGGTTTTTACGGCGAATATTCATGCAGCCTCCTGCTGTTGCGC -AGCACGTAAACGCGCCTCACGCGCCCGCTGTTGCGCCACGCCACGCAGAATTGCGCGATGTTGCATCACC -GAGTGCACGACCAAAACCACCAGCGGAATAACGGTCATCACCACCGCCAGCCAGACAAAAAAGGCGTAAC -CGCCCATTGCGAAAAATTCATTCCAGGAAGCAAATGCAGGGGTCATTTACGGCCTCTTTTCAGTATCAGT -TCACTCACCCACGGACGGCGTTTTTCCATCAGCAAAATCAAATTACGCATCCGCATCAGCGTCAGCGTGG -CAGACAGGAGCAGGAAGCCAAAAATCGACCAGCGCAGCGGCGAACGCATCGCCGGATCGATACTTTGCTG -CATCCGCGTTGATCCCTGATGCAGGGTGTTCCACCACTCCACGGAGTAATGAATAATCGGCAGATTCACC -ACGCCAATCAGCACCAGGATACCTGCCGCACGGCCCGCCAGACGGCGGTCGTCGAAGGCGTGCCACAGGG -CAATCACACCCACATACAAAAACAGCAGCACCAGTTCAGAAGTCAGACGTGCATCCCATACCCACCAGGT -GCCCCACATCGGTTTTCCCCATGCAGAGCCGGTAACCAGGGCAATAAAGGTAAACACGGCACCAATGGGG -GCCATCGCCGCCACCGCCAGGTTGGCCATTTTCATCTGCCAGACAAGGCCAATAAACGCTGCCACTGCCA -TTGATGCATAAATGCCCATCGACCAGATCGCCGCAGGCACATGCAGGTAGATAATGCGGTAGCTATTTCC -CTGCTGATAATCAGCCGGAGCAAAGCCGAATCCCCAGATCCAGCCGACGGTAAGCACGACCACACTGGCA -ATTGCCAGCCACGGTATAAACCAGCCACAGATTTGATACAGCCGTGGTGGGATCGCCAGTTGATGCAGTG -TTTTCCACATAGTTTCGATACCAGACTCGAACAAAAATCAGTAATCCAGCGTTATTGAATGCTGATTCGT -AACGCTGCCGCCGTCGCAAAAGGACTTAATGTCGCGGTGCCTGCCAGCAACGCGCCTAAAATTGCCAGAT -ACCCGTCAACGGGCAAATGCATAGAAGCCGCGTCCATCGCGGCGGTGGCAAAGATGAGTAATGGGATAGT -CAGCGGTAACACCAGTATGCTGAGCAGCACACCACCGCGCTTAAGTCCCACTGTCAGCGCCACGCCCGGT -GCACCGAGAAAGCCAAGCGTAGGCGTTCCCAGCAGCAGCGTCAGCGCCATCACTTGCCAGCCATAAACAT -CCATTCCCAGTAGCATTGCTACCAGTGGCGAAAGGATGAGTAACGGCAGACCGGTTACCATCCAGTGCGC -CATCACCTTCGCCAGCACAACGGCGGGCAAGGGTAACGGCAACAACATCAATTGTTCAAGACTGCCGTCC -TGCAAATCGTCACGGAACAGTCGTTCCAGCGCCAGCAAGGATGAAAGCAGCGCAGCAACCCAGATAATGC -CCGGTGCAATACGCGCCAGCAGTTGCGGCTCCGGACCGATACTGAGCGGAAAAAGGGTAATTACAATCAG -GAAGAACCACAGCGGGTTGGCGATTTCGGCGCTATGGCGAAACGCTACACGCAGCTCAAGACGGAAAATG -CGCCAGAACATCATGCGGCCCTCGTTTGCGTCAGTGAAATGCGGCGAATTTTACTTTCAGCAACGTTGAG -CGGCTGGTGGGTAGTCAGAATCACAATCCCCCCCTGCTCCGTATGCTGCGCCATACGCTGGGTCAGACGA -TCGACACCGTTAACGTCAATCGCGGTAAAAGGCTCGTCGAGGATCCATAACGTGGCACGGGTCAGCCACA -GACGCGCTAAAGCGACGCGGCGTTGTTGCCCGGCCGAGAGCTGATTTACAGGAATATCTTCGAATCCGGC -AAGCCCGGCCTGCGCCAGGGCTTCCAGACATTGTGCGGTATCGCCATCGCGATGATAAAAGTGCAGATTT -TCTAACGCCGTCAGCCGGGTTTTGATCCCCGGCTGATGGCCTATCCATAACAGGTTTTGATGGTAGCTGT -CGCGTACCTGATGCAAGGGCTGCCCTTGCCAGAGAACCTCGCCTGCGTCAGGGCGAGACAACCCCGTCAG -CAAACGGAGAAGCGTTGTCTTCCCCGCGCCGTTGCTACCGGTGATTTGTACCCACTCTCCTGCGTTCAGC -GTAAATGACAAGCCACTAAATAAGGTTCGTTCATCCCGCTCACAAAGTAACTCTCTGGCTTCAAGCATAC -CCACGCAATAACCCTGTTAAAAACCTGGCTCGACTTCACGCATATCGGGCAGCTTGTGCGCTATCCCTTT -ATGGCAATCAATACAGGTTTGCCCATCTTTCACCGCCTGGTCATGCATCTTCGCGGCAACCGATTTCTGG -GCGGTTGTATCCATATACTCGAAGTTGTGACAGTTACGGCACTCCTGCGAGTTATTGTCCTTCATGCGCC -GCCACTCATTCTGTGCCATCGTCAGACGATGAGCTTCAAATTTCTGCGGCGTGTCAATAACGCCAAAAAT -TTTACCATACAGCTCTTTACTTGCTTTGAGCTTGCGTATCATCTTCGGCACAAACTCGTGCGGAACGTGA -CAATCCGGACAGGTCGCACGGACGCCGCTACGGTTGTTGTAGTGCACGGAATCCATGTATTCCTGATACA -CCGTGTTGCGCATTTCGTGGCAGCTAATGCAGAACTCTTCGGTATTGGCTTTTTCCATCCCGGTGTTAAA -GCCACCCCAGAAGACGATGCCGCCAACAAAACCGATCAACAGCAGCGTCCCCAGCGCCAGACGGCTGGGG -GTACGCCACCATTTCCACAGGCGCTTAATCAGACCAGGCTTACGGTCAGAATTTCCCATAATAACCTCTT -ATTTCCCGTAACCTTTTGATGGGGTAAAGGTATTCCCCACGATTGGCGCGGTATCGGCCTGCGGTACGTG -ACATTGCAGACAGAAATAACGACGCGGAGCCACTTCCGCGCCCACTTTGCCGTCGCTGTCCATAAAGTGA -GTAGGACTGATACGCGGCGCGCCAGTGGTGCGATAGCTTTCGACACCGTGGCACTGCAAGCAGCGATTGG -TATTGGTCGTTACCTGATAACCTTCAACGCTATGCGGGATCATTGGCGGCTGATTCACATAGTTCAGCGG -CATCCGATCCTGCTCTTTTGGCATCCGAATGGCCCCTTCCTGTGTCCCGGATACTTCCGGCGACTGGCTA -AAATCGACGCCATTAGCCGCCCAAACCGCGCCGCTTACCACCAGGGCCAGCATCGCCGTCCATTGACACA -GCGCTTTCTTCAGGTCATGGCTTTTCATGATTTCGCTCCCGAACTCCATCGTGTAGTTATTGTAAATACA -TCCTCAGAACAGACATCCACGCAGCGACCGCACGTCATGCAATCGCGGCTGGTGACCTGCACCGGGCTTT -GTTCATCCAGCACCGGGGCACGTAGCACATGCGGTTCCGGGCAAACATGAAAACAATCCATACAGCGGTT -ACATTTCTGCCGATCGGTGGCCGCAACGGTAATCACACCTTTGCTACCCAGCACGCCATACAGCGCGCCA -ACCGGACAAATGTGCCCGCACCAGCCGTGTTCAACGACCAGTAGATCAAATAAAAACAGCGCGAGAATAA -GCAGCGCGCCGCTGCCGAAGCCCATTACCAGGCTACGCCCCATCAGAGAAACGGGGTTGATCCATTCCCA -AATGAGCGTGCCAGTTAAGGCTGATCCCACCAGAATGACCACCAACAGCACGTAGCGAATGTGGCGAGGG -ATCGTCGCAGACTGATTGAGGTCAAAGCGCCTGCGTAACCAGTTCGCTAAGTCGGTAATCGGGTTCAGCG -GGCAGACCCAGCTGCAAAATAATCGCTTTCCCGCCAGGGCGTAGAGCACGGTGATAATCACCGCACCGGT -CAACGCCACCGTGGCAGGCAGATGACCACTGGCAAGACTTTGCAGCGTCATCAGCGGATCGGTCAGCGGA -ACGGTGTCGAATAACAGGCTACTGCTGTAGTTGCCGTGCAAGATCCACACACCAAACCATGGACCGCTCA -AAAACATCCCCAGCACGAAGAACTGACAAAGGCGACGTAACACCAGCCAACGGTGACTGCGCCACCAGCC -TTTTTTCTCCAGCGCCTCGCGCCCGGCGTCACGTTTACGATTTGCCATTGTTCCCCTCCAGCCAGCCGAA -GCGGTAATGGTGACCTAACTCCCCTTTCGCCAGTGACAGCGGTAACACCTTGATTGCCGGTTGTTCCAGC -ACGCATACTTTTTCGCACTTACCGCAACCGGTACAGGCGTCGCTGTGAACCGTCGGCAGAAAGCGGGCGT -GCTTACCGGTACGCGTGTTGCGCTCCAGCTCCAGGGTGATGGCCTCATCAATTTTCGGGCATTCGCGATA -ACAAACATCGCAGCGCAGCCCCTGAAAGTTGAGACAGTTTTCCTGGTCCACCAGTACCGCCAGCCCCATC -CGCGCGTCGTCGATCGATTCAATCTCACGATCCAGCGCACCGCTTGGGCACACTTTGGCGCACGGAATGT -CCTCACACATTTCGCAAGGAATATCCCGTGCGACAAAATATGGCGTGCCCGCCGACAGACCAGAGGCCAG -CGTCGCCAGTTTTAAGGTGTCGTAAGGGCAAGCCTGAACACACTGACCGCAACGCACACAGGCACTGGCA -AAGGCGTTCTCGTTTATGGCTCCGGGCGGGCGCAACCGCACGCCAGATGCGCGTGCGGTTTGCTGTTGTA -ACCCCAGCGCCACACCCACGGCAGCCAGCCCGCCTGCTGTGCGAACGACATCGCGCAGAAAGCGGCGGCG -ACCATTTTGAGGTTTCGCTGACCGGGACATAATGGCTTACACCTTCTCCAGTTTGACCGCGCACTTCTTG -AAGTCCGTCTCTTTCGAGAGCGGATCGGTCGCATCCAGCGTCAGTTTGTTAACCAACTGTGCGGCGTCGA -AGAACGGCATGTACACCAGGCCCTGTGGCGGACGGTTACGACCGCGCGTTTCAACAATCGAGATCACTTC -GCCACGGCGAGAAACCACTTTCACTTTGTCGCCACGGCGCAGATCGCGCGCTTTCGCATCCAGCGGGTGA -ATAAACAGGACCGCTTCCGGGAAGGCGCGGTGCAGTTCTGGTACACGGCGAGTCATACTGCCGGTGTGCC -AGTGCTCCAGAACGCGTCCGGTAGAGAGCCACAGGTCGTACTCTTCATCCGGTGCTTCCGCCGCCGGTTC -GAATGGCAGTGCGAAGATCACCGCTTTGCCATCCGGTTTACCGTAGAACTTATAGCCTTCGCCCGCTTTC -ACGTACGGGTCGTTACCTTCGCTGTAACGCCACTGCGTTTCTTTACCGTTCACCACCGGCCAGCGCAGAC -CGCGCGCTTTGTGGTAGTCATCGAACGGTGCCAGATCGTGACCGTGACCGCGACCAAACCATGCGTACTC -TTCGAACAGCCCTTTTTGCAGATAGAAGCCCAGCTCGCGGGATTCATCGTTCAGCTGATCTTCCGCCAGT -TCGGATACCGGGAATTTGCTCACTTCCGGTGTGGCATACAGCACTTCGTACAGCGTTTTGCCACGCAGTT -CCGGTTTCTTCGCCAGCAGATCTTCCGGCCATACTTCTTCAGTTTTGAAGCGGCGGGAGAACTGGACTAA -CTGCCAGAGATCCGATTTCGCTTCGCCCGGTGCCTGTACCTGTTGACGCCAGAACTGAGTACGGCGTTCG -GCGTTACCGTAAGCGCCCTCTTTCTCTACCCACATTGCGGTCGGCAGGATCAAGTCGGCGGCCAGCGCAC -TGACTGTCGGATACGGATCGGAGACGATGATGAAGTTGCGCGGATCGCGCCAGCCCGGCATACGCTCTTC -ATTGATGTTCGGCCCGGCCTGCATGTTGTTGGTACACATGGTCCAGTAAACATTCAGTTTGCCGTCTTTC -AGCGCACGGTCTTGTGCCACCGCGTGCAGACCGATTTTCGCCGGAATGGTGCCGCTCGGGATATTCCACT -TCTTCTCGCAGATATCACGGTGTTTCTCGTTGGTCACCACCATGTCCGCAGGCAGACGGTGAGCAAAGGT -GCCCACTTCACGCGCAGTACCACACGCAGAAGGTTGCCCGGTCAGGGAGAACGGACCGCAACCCGGCTGG -GAAATTTTGCCGGTCAGCAGGTGCAGGTTGTAGACCAGGTTGTTAGCCCACACGCCACGAGTATGCTGGT -TGAAGCCCATCGTCCAGTAGGAGATGACTTTCTTGTTCGGATCGGCATACAGCTGCGCCAGTTGTTCTAA -CTGGTCTTTCGGCACGCCGGTCATTTCGGCAGTTTTTTCCAGCGTATACTCGGCAACGAAGGCTTTGTAA -TCTTCAAAGCTCATCGGTTCGGAGGCGTCAGAACCCGGATTCTTCGCTGCTTTTTCCAGCGGATGGGTCG -GACGTAAACCGTAGCCGATGTCCGTCGCCCCTTTGCGCAGGTTAACGTGCTTGCTGAAGAAGTCCTGATT -TATCGCATTGTTTTGAATGATATAGTTGGCGATGTAGTTCAGGATCACCAGGTCAGATTGCGGCGTAAAG -ATGATGCCGTTATCCGCCAGCTCGAAGCTACGATGCTGGTAGGTAGAAAGCACCGCCACGGTGACGTTCT -GGTTAGAGAGACGACGGTTAGTGATGCGCGACCAGAGGATCGGGTGCATTTCCGCCATGTTTGCGCCCCA -CAGCACAAACGCGTCAGCCTGCTCGATGTCGTCATAGCAGCCCATCGGCTCATCCATACCAAAGGTACGC -ATAAAGCCAACTACTGCCGACGCCATACAGTGACGCGCGTTCGGGTCGATGTTGTTCGAACGGAAGCCCG -CTTTAAACAGCTTGGACGCGGCATAACCTTCCCAGATAGTCCACTGACCAGAACCGAACATACCGATCGA -TTCCGGCCCTTTTTCTTTCAGGGCGGTTTTGAATTTCTCTTCCATCACATCGAAGGCCTGATCCCAGGTG -ATTGGGGTAAATTCGCCTTCTTTGTCATATTTACCGTTTTTCATACGCAGCAGCGGCTGCGTCAAACGGT -CTTTACCGTACATGATTTTGGGCAGGAAATAGCCCTTAATGCAGTTCAGGCCACGGTTAACCGGTGCGTC -CGGGTCGCCCTGACAGGCCACCACACGTCCCTGCTGCGTTCCGACCAGAACGCCGCAACCAGTACCGCAG -AAACGGCACGGCGCTTTATCCCATTTGATGGCTTCCTGCTGACCAACAACGGCGCGGGCAACGCCCGGCA -CGCTGAGACCGGCAGCCGCCGCAGCGGCCGCAACGGCGTTAGCTTTCATAAAGCTACGACGACTGAGTTT -CATGGTGTTTCCTCACCTTGCTCTTCCTGCTGGTGATAAACCAGCGACACCGCCAGCACGCCCTCTACGT -TGCGTACTGACTCAATGGTTTGGATCAGCGTTTCGCTGTCTTCTGCTTCCACCACCACAATCAACTGACC -GCTCGGCGCGTCGCTGACAGCAACTTCACAGCCGGGAAAGGCGTTCAGTTGGGTGCTGATGTCTGAAATT -CGTTCGCTTTTGGCCTGCACGACCAGGCTGCAAACTTGCCAGTTAGTGTGCATGGAGATACTCCGCAGTT -ATGGCTGATACCGGACAGCTGGCTGCACATGCTCCACATCCGTTGCAAAGTTGGCTATTAAGTTGCGGCT -GGTAGATCCCGGAGAGCGTCGGGCGAAAGATAATTGCCATTGGCTCACAGCTATCCTGACAGCGGCGGCA -TTCAACTGACTGATACGCCAGGCACGCGTCCCCGATGGTGAACTGCAAATCCCAGGCCCTGGTGTGGCGC -GGAGAAAATAGCGATTCGGGGCAAGCCTGCGCGCAGGCGTAACAGAAGCTGCACTCGTTATTTTTGAAAT -TAACGCTCGGATAGCCGCCCGCGCCGCGTTGCAGAATGTTGTTTTCACAAGCATTAATACAGGCGTCGCA -GCGGGTGCAATGGGTCAGAAAATGAGATTCATCACCGGACCAGGGCGGACGGATACCGTTACTGGCTTTG -CGCCAGCGACCAGTGAGTATGCCCCGACGGGATGCATCAATCTTCACATTGACCTTCCATCATTAACGCG -CTCTGAAAATTGAGAGCGACCAAATAAACCGCATAATTAATAAGCCATTTTTATAGCCGCTAAGATATTA -AAGGATGTGTCAAAGATGCATACCCCGATCGGGGTAAAACCTGTAGCAGGATCAAAAGAGTGGCGGGAAG -CGTGGCAAAAACGGGCTTTTGCTCACATTTCAAATGGTTATAAATATATTTATATAGCGATTGATTCACC -AGAGATATTTCTGCTGGTTTGCTCTCTCATTAGAATTTAACACTAAAAGAGCAGGTAAAATTGTCTGAAT -GTTCTTTAAGTTATTCATAAAGCAAATTAATAAATCTGATGAATATGTTAACCTTCAGCGACATCATCGG -TGAAAACCTATAAATGAAGAAGGAAAGCAAAAAAATGAAGACCATTCTACCTGCAGTATTGTTTGCCGCT -TTCGCTACCACTTCCGCCTGGGCGGCAGAAAGCGTCCAGCCACTGGAAAAAATCGCGCCTTATCCACAAG -CTGAAAAAGGGATGAAGCGTCAGGTGATTCAGTTAACCCCGCAAGAAGATGAATCTACCCTGAAAGTAGA -ACTGTTAATCGGTCAGACGCTGGAAGTCGATTGCAATTTGCATCGTCTCGGCGGGAAGCTGGAAAACAAA -ACGCTGGAAGGCTGGGGCTATGATTATTATGTCTTTGATAAAGTCAGTTCCCCGGTTTCAACGATGATGG -CCTGCCCGGATGGCAAGAAAGAGAAGAAATTTGTCACCGCGTATCTGGGCGATGCTGGAATGCTGCGTTA -CAACAGCAAGCTGCCGATCGTGGTGTATACGCCAGACAATGTAGATGTGAAGTACCGCGTCTGGAAGGCG -GAAGAGAAAATTGACAACGCGGTAGTTCGCTAAACTGCCGTGAAGTGCGGCACCCCGTAGGTCAGACAAG -GCGGTCACGCCGCATCCGACATCCAACGCCCGAGCCGGTTGCCTGATGCGACGCTGGCGCGTCTTATCAG -GCCTACACCGCTGTGAAGTGCGGCACCCCGTAGGTCAGACAAGGCGGTCACGCCGCATCCGACATCCAAC -GCCCGAGCCGGTTGCCTGATGCGACGCTGGCGCGTCTTATCAGGCCTACACCGCTGTGAAGTGCTCCACC -CCGTAGGTCGGATAAGGCGGTTACGCCGCATCCGACATCTAACGCCCAAGCCGGTTGCCTGATGCGACGC -TGGCGCGTCTTATCAGGCCTACACCGCTGTGAAGTGCTCCACCCCGTAGGTTGGATAAGGCGGTTACGCC -GCATCCGACATCCAACGTCCGAGCCGGTTGCCTGATGCGACGCTGGCGCGTCTTATCAGGCCTACACCGC -TGTGAAGTGCTCCACCCCGTAGGTCGGATAAGGCGGTTACGCCGCATCCGACATCTAACGCCCAAGCCGG -TTGCCTGATGCGACGCTGGCGCGTCTTATCAGGCCTACACCGCTGTGAAGTGCTCCACCCCGTAGGTTGG -ATAAGGCGGTTACGCCGCATCCAACATCTAACGCCCGAGCCGGTTGCCTGATGCGACGCTGGCGCGTCTT -ATCAGCATACGCCACATCCGGCATACCATGCCGGATGTGGCGTATCATTACAACGCAATATCCGCCACTT -CTTTTTGAACGGGTTGCGGTTTCAACTGCGGTTTCGGCGTACTATCTGCTGCCTGCGGCTTGTCGTAGTT -CAACCCCAGCACTTCGCTGGTGTACTGCAACTCGCGTTCTGTTGCCGCTACATCACCGTTCAGCTTGCGT -CCATAAGACGGAACGATCGCTTTCAACGTAGCCTGCCATTGCGGGCTGGAAACACGATCGCCAAATACTT -TTTCCAGCAGATTCAACATAATCGGCGCGGCGGTTGACGCCCCTGGCGATGCCCCCAGGAGCGCGGCAAT -GGTTCCTTGCTGGTCACTGACGACTTCAGTACCCAGACGCAGTACGCCACCTTTCTCGGCATCACGCTTG -ATAATCTGCACGCGCTGCCCCGCTTGCCACAAACGCCAGTCCTCTTTTTTCGCCTGCGGATAGTACTCTT -TCAACGCTTCAAAACGATCCTCTTCACTCAACATCACCTGACTCACCAGATATTTCACCAGATCGAAATT -ATCCAGCCCGACGTGCATCATCGGCATCACGTTAGAGGTGGTGGTGGAACTCATTAGATCCCACAATGAA -CCGTTTTTGAGGAATTTGGTTGAGAAGGTGGCAAATGGCCCAAACAGCACTACGCGTTTACCGTCCAGAA -CGCGGGTATCGATATGCGGAACCGACATCGGTGGTGCGCCAACGGATGCTTTACCGTAAACCTTCGCCAG -ATGGTGATTAACCACGTCCGGGTTTTCCGAAACAAGGAACTGTCCGCCCACCGGGAAACCGGCGTAGTCT -TTCGCTTCCGGAATCCCCGATTCCTGTAACAGCTTCAGCGCCGCACCGCCCGCGCCGATAAAGACAAATT -TGGCACGAATGTTCTGTGCAGTGCCATTTTTCAGATCGGCAACGGTAACGGTCCAGGTGTTATCGTCATT -ACGCTTTAGGGCGCGGACTTCGCTGCTGAGTTGCAGCGAGAAGTTAGATTTCTTCTGCAAGGAAGCAATT -AACTGGCGGGTGATCTCGCCGTAGTTCACATCGGTACCAATTTCCGTACGCGTGGCTGCCACTTTCTGTT -GCGGATCGCGCCCTTCCATCACTAACGGTGCCCACTCTTTGATCTGCGCGTGATCTTCAGAGTAACGCAT -ACCGCGAAACAGCGAGCTTTGTTGCAACGCGGCGTAACGGGCGCGCAGGAAATTGACGTTATCCTCGCCC -CAGACAAAGCTCATATGCGGAACGGTATTGATAAATGAACGCGGAGTACGCAGCACGCCGCGCTCAACCT -GGTGCGCCCAGAACTGGCGGGAAATCTGAAATGCTTCGTTAATGGCGACTGCTTTTTCAATACTGATGCT -GCCATCGGCGTTTTGCGGGGTGTAGTTCAGTTCCATCAGTGCAGAATGCCCGGTTCCGGCGTTATTCCAG -CCGTTCGAACTCTCCTGCGCGACACCCTCCAGGCGCTCCACCATGGTCATCGACCATTCAGGCTCCAGCT -CGCGTAAATAGGTCCCCAACGTGGCGCTCATAATGCCGCCGCCAATCAACAGTACATCAGTTTCCTGCTC -CTCGGACGCTTTCGCTTTTGCCGCCATCGAAACGGCATTAAGCCCCACGGCCATCGAGAAGAGCATGGCA -GTCACTTTTTTCATCTTGTTAATGCCTTACTTTTAGTCGCTTTATTGCAGGTGAGATTTGCGCGGCATCA -ACGGTAACACTTAAGTAACAACATTTAAATAATGTTTATAAATTATATTCTAATTTTAGAAACATTATAA -TTTCGTTGATTAATTATAGGGTTATTAGAAATGAAGGGATTTTTAGCATATTGACCTGACGGCAGCAGTC -CGCCAGGTCAGCGTCGTAATATTATGCCGTCCGGGCAACGGCATCACGCGAAGCGGCATCGCGCTCTTCG -CCCGTCAGCTCGCTAAGTTGCCCATTGCGCATTTCCAGCAGGCGGTCGGCGTGGATAAAGTAATGATCAT -CATGACTGATAGCGAAAATAGTTTTACCCATCTCCTGCATCAGCGGCAGCAACACCTGATAAAACTCACG -ACGGAAGTGTGGATCCTGATCCGCCGCCCATTCATCCAGCAGGATAATATCGCGTTCTTCTGCCAGCGCC -AGCAACAGCGCCACGCGTTTTTTCTGCCCTTTTGATAACTTCAGGTTAACAATACGCCCGTTGCTTAACT -CAAGCTTATGAGCCATTTTCAGCTGCGCCAGCCACTTCTCAACCAGTTGCGGGTTAGCGGGTTTACCCTC -CGGCCCCAGCAGTTGATCAAACAGCCAGACATCGGTAAACACTGCCGAAAACAGTTTGCGATAATCTTCC -GGTTGTTCGCCGCTGACAGGTTTGCCATCCAGCAAGATTTCGCCGCTTTGTGGCTGATACAAGCCCGTCA -ACAACATCGCCAGCGTCGATTTTCCGCTACCGTTGCCGCCAATCAGAAACAGCAGCTCGCCACGTTTGAT -GGTGAGATTAATCGGACCAACGGAAAACGCGTTATCCTGATAAGCAAACGTCACGTTACGCAGCTCCAGC -GTTTGCCAGTTGGGAAACGCCTGCGGGCGCGGAAACTCTGCTTTGAAAGGCGCGAGCGCGAATTTGTTCA -GCTTGTTAAACGCCACCTGCGCCGTCAGCAGCGTCGGCAATGCGCCAACCGCCGAAAGCAGCGGCGTACG -CAGGAATAAAAGCGTCAACGAATAGGTCGCGGCAACGTTGGTATCAGCCCAACCGAGGCTGTTCGCCATC -CAGAACACCAGGCCGATTGCGCCCAGCATCATGATGTTTGACCAGTTCACGGCACTAAGATGGAAGGTGT -CTGCGCGAATAATATGGTGGCGATACTCTTGCGCATCAGGAATGTAGAGGTTGTTAAACACATACTCGGC -GCGTTCCCGGTTCAGAGTCAGCTCTTTGCGCCCTTCAAGTACAGTTTGAAAATCCGTGTACAGCTTGTCT -TCGGTTTCACGCAGGGTCGCCATATGTTTGTACACCCGCGCCACCAGCACAAAACCGCCCCAGATGGTGA -TCGCCATCCAGATAGCCGTTACCAGCAACATTTTGCCCGACAGCATCCACAGATACGCCGCTGAACCGAT -AGTGAGAATGATCCCCTGCACCAGTTCCGGCAGACGCACAAAAGCAATGGTGATATTGCGCACATCGCTG -GTTAACCCCGCCAGCAACGAGGCGCTACCGAGTTGTTCAATGCGCTCGACGTGAGTATCCAGAATCCGCT -TGATAAATTCACTACGCAGTCGGTAAACGAAGTGATGCCCCAAAGTGGTGAGCGCCAGTTGCGATCCGAG -AGTGACTGCCATCAACAGCAGCAATAATCCCAGAAACTCCGGCAACACCAGCAGACTGGTATCCGCCGTT -TCGATAAGGCGCTGATTGATAAAAGCAATTAAGCCAATGCCTAATGCCGCACTGGCGAGGCTTAGCGCCA -TCACACTGATAAATGGCCAGCGATACTGCCGCCAGACAAGTACAAGAAGTTCCATGCAGAAAACCCGGAC -AATGAATTACAGCCCGCAGTTTAAACATCTTCGCGCGCACAGCAATAATAATTCTTATTTTTATTCTTTT -TTACCTGCCTGACGGAATGTCAGGTTGTAGCGGCAGTCGATGGTGAGTGGATGAAACCCCGCTTTCAACG -GTTGAATACCGTGATAAAACAGCCGCGATTCACCGCCCCATACCACCACATCGCCATGTTCCAACAACAA -ACGTTTGAGCGGATCATTTCGTTTCAGGCCGCCAAATTGAAAAATCGCGGGTAAGCCCAGAGAAACAGAA -ACAATTGGCGCGCGCAGATCCGGTTCGTCTTTATCCTGATGCAGCGACAGTTTCGCGCCAGGAGCGTAGC -GGTTGATAAGACAAGCATCTGGCTGGAAATCTGGATAGCCCGCCGCCGTAGCCGCACGTTGACATAAATT -ATGAAAACTCTGTGGCATGGCGGGCCACGGTTTATTTGTTTGCGGATCAATGGGCGAATAGAGATAACCT -TGCCGATGGGTCGTCCAGCCCAGATGCCCACAGTTGGTCATCGCCACCGACATGGTATATCCCCCGGGGG -TGACCATCTGGCGAAACGGCGACTGGCTGGCAACGTCATTAATATCGCGGATCAGTTGCTCCGCAGCGTT -AAAAGCAAAACGCCGTAAAATTACCGCACCAGCCGCCAGTGGCTCTTGCCACGGTTCAGCATCGGCAAAC -AGATCCAACATTACCTCTCCTCATTTTCAGCTTCGCGGCGCAGCAGTTGCGCTTTACGCGACACGCCCCA -GCGGTAACCGGAAAGTGTGCCATCACCACGGACCACCCGATGACAGGGTATTATGATAGCCAGCTTGTTG -GCGGCACAGGCGCTGGCAACGGCCCGTACCGCTTTCGGTTTGCCGATGGCGTTAGCCAGTTGCTGATAAC -TGACGGTTTCACCGCAAGGTATCGTGCGCAGTGCCTGCCAGACTTGTTGCTGAAAAGCAGTGCCGCGAAT -GTCCAGCGGTAACGTCAGCGGCGTATCGCGTTGATTGAGGCTGGCGATCACTTCACGCACATGTTGCTGA -AACATCAGATCGGCAGGCGCGTTGTCGGCAGCGGGAAACATCTGCTGCAACTCGCTGATTAGTGTCGCGT -CATCATCGCCCAGCAATATCGCGCAAATCCCCCGCTCGCTTTCTGCCACCAGGCAACGACCCAGCTCACA -ATCAGCCAGCGCGTAACGCACCGCCAGATTTTCGCCACCGTGACGGAATTGTTTAGCCGTCATGCCCAGC -GTTTCGTCAGCTTTGCGATAGTAACTGCTGCTGTCGGGGAATCCGGCGTTAAGAATAGACGTCGTCACGC -TCTCCCCTTTCGCCAGCGATTCGCGCAAACGGCGAGCGCGCCAGGCCTGTTGCCAGGCTTTAGGCGTCAT -TCCGGTAGTCGCTTTAAACAACCGATGTAGATGAAATGGACTCATCGCCACCTGGTCGGCTAAGGCTTCC -AGCGTTACAGGCGTTTCCTGTTCCAGCAGTCGACACGCGTGGGTGATTTTATCCAACCGATGTTGCTGGG -CATTGGCTTTTTCTGGCTGACAACGTTTGCAGGGGCGAAAGCCAGCGGCGAGTGCCTCGCTGGCATTTGC -GTAGAAGGAGACGTTTTCCCGCAAAGCATGTCTGGCGCGGCAAGACGGACGGCAAAAGATGCCTGTGGTA -CGCACGGCGAAAACGAATTCGCCGTCGGCATTCGGGTCGCGGGCTAAGACAGATTGCCAGCGTTGATCGT -CAGTTAAGCATGTGGCTTTTTTCATAATCAGCTCCCTGGTTAAGGATAGCCTTTAGGCTGCCCGGTCACC -ATCACGCAAAAACCAACAATCTTGCGCTTTAATTTTTTTCGCTGACAAGGAAGCTTTTAAACTGTGGTGA -CATCCAGGTTTTAAAGCTATCGCCTTCTTTGGTGATCATATAAACCGCCAGCCCTTCCCGGCGAACAACC -TCTTTAGCTTTCTCCGGCCCGAGTACCATCAAGCCAGTATCCCAGGCATCGGCTTCCAGCGCCGTCGGAG -CAATCACCGTCACGGATACCAGATTGTGTTCGATGGGACGCCCGGTTTGCGGATCGATAACATGGGAAAG -ACGTTTGCCGTCCAGTTCGTAATAGTTACGGTAGCTGCCAGAGGTGCTAATCCCATGACCGTTGATATCC -ACCACAGCCTGAACCGCGTTTTCTTTATCGGTTGGTTTTTGAATCGCTACCCGCCACGGCAGGCCTTCAC -CGTTCATACCACGGCTGTTCAGCGCGCCGCCCACCGACACCAGATAGCGGGAAATCCCTTCCTGCTCCAT -CAAGCGTGCCAAATGATCGGCCGCATAGCCTTCGCCGACGGTGGAGAGATCGACATATAAATCCGGCAGG -TCTTTTTGCAGATATTGCTGATGCGACTGATTGATGACCGTCAGGTGCTGTAAGCCGGTTTTGGCTTTCA -TCGCATCGATCTGTTCCTGGCTCGGAATTTGAACCGGCTGTTGTTCCGGGCCAAAGCCCCACAGATTCAC -CAGCGGCCCGACGGTTATATCCATCGCGCCATCGGTCTTCGCGCCAATGCGCAGCGAGGTGGTGACGATA -TCGGCCATCGCTTCACTTACCGGCCACGGCGATAAACTTTGCGAGTCGTTAAAGCGCATCAGCGCGGAAT -CTTTTTTATAGGTCGAAAGCAGCTGATCGTCGGCGTCCAGTTGGGTCTGAATCTTTTCTTTAAGTTCGGC -GCTGCGTTTGGCGTCAATGCCCGGGATGCTGGCACGCCAGAAGGTACCCATAGTTTTGCCTTCAAGAACG -GTAACTTCAGTAGCGTGGGTTTTGGCGGGTTGTGGTTTTTGATCGCAACCAACAAAGAAGAGCGCGGCAG -CCAGCAGTGCCACGCGGGTAAAGCTTATTTCCATACGTGATTATCCTCATGCGAACGGTCGCAAGAGTAC -ACCAAAAAACTGAGTTTGTACGCTGAAAACAATGAAAAAAGGGCCCGCAGGCCCTTTGTTCGATATCAAT -CGAGATTAGAACTGGTAAACCAGACCCAGAGCTACGATGTTATCAGTGTTGATGCCAGCGTCACGAGTGA -ACTGGTTGTCGTCCAGCAGGTTGATTTTGTAGTCAACGTAGGTGGACATGTTTTTGTTGAAGTAGTAGGT -AGCACCAACATCAACATATTTCAGGATATCTTCGTCGTCGTAGCCACGACCCAGGTTTTTACCTTTAGAC -TGCAGGTAAGCCAGGGACGGACGCAGACCGAAGTCGAACTGGTACTGAGCAACAGCTTCGAAGTTCTGTG -CTTTGTTCGCCCAACCCAGGGAACCTACGCGAGTTGCGTTGTAGGTCTGGGTGTACTGAGCAGCCAGGTA -GATGTTGTTAGCGTCGTATTTCAGACCACCAGTGTAGGTTTCAGCACGGTCGCCGTTACCGATGTAAGCA -GCGGTGTTCTGAGCATCAGTACGTTTGGAGCTGGAGATCGCACCACCGATACCGAAACCTTCGTAATCAT -AAGTGATAGAACCGCCGACGCCGTCGCCGTTTTGACGCAGTGCGTCACGACCGTTGTTAGTTACGCCACT -AGTAAAGCCTTCACCAGATGGGTTGCCGTTTTTACCCTGGTACTGAACAGCAAAGTTCAGGCCGTCAACC -AGACCGAAGAAGTCAGTGTTACGGTAGGTCGCGAAGCCGTTACCACGCTGCTGCATGAAGTTGTCAGAAC -CGTAGGTGTCACCACCGAATTCTGGCAGTACGTCGGTCCAGGAAGTTACGTCATAAACAACGCCGTAGTT -ACGACCGTAGTCGAAAGAACCCACATCCTGGAATTTCAGACCTGCGAATGCCACACGGGTCCAGGAGTTG -TTTTCGTTTTCAGCGCTGTTGCCCTGGATCTGATATTCCCACTGGCCGTAACCGGTCAGCTGGTCAGTAA -CCTGAGTTTCACCTTTGAAGCCAAGACGCATGTAGGTCTGGTCGCCATCTACATCTTTGTTGTCAGAGAA -ATAGTGCAGGCCGTCTACTTTACCGTACAGATCTAATTTGTTGCCGTCTTTGTTGTAAACTTCAGCAGCG -TTTGCTGCGCCTGCTACCAGCAGAGCTGGGACCAGGAGGGACAGTACTTTAACTTTCATGTTATTAACCC -TCTGTTATATGCCTTTATTTGCTTTTTTATGCCACTGCATACTGATTAACCCTCATTAATCAGTCGGCAA -GTCCATTCTCCCCAAAAATGCAGAATAATCCAACACGAATATGATACTAAAACTTTTAAGATGTTTCATT -TATCGCTATAGATGTTTCAAAATGTAAATGCAAGGGAACTTTTTAAGATTATTGCGGAATGGCGAAATAA -GCACCTAACATCAAGCAATAATAATTCAAGGTTAAAATCAATAACTTATTCTTAAGTATTTGACAGCACT -GAATGTCAAAACAAAACCTTCACTCGCAACTAGAATAACTCCCGCTATCATCATTAACTTTATTTATTAC -CGTCATTCATTTCTGAATGTCTGTTTACCCCTATTTCAACCGGATGCCTCGCATTCGGTTTTTTTTACCC -TTCTTTACACACTTTTCATTATTCTGTGCTACCACAGAAAAACTATAACGCTTGTTAACTATTTCACAAA -TAATTAACATCCGCATAATTTCCAGCAATCTTTGTTTATTTGCAATTATTTTTGTTGGGCTTTTTGTAGG -TTATTTGTACAGCAAAATGGCGCTTGTACATCTATTTCCCCCAATGCAGGATGATAAATATCACGGGAGA -ATAGAGAATCATCAATCAGGTAAGAGTCTGGAATTTCACACTGTACCCTTTATACTGCCCTATCACTTCG -CGAAGTTTTAACAGGTCATAAACACGAATGCGTCAGAAAGAGACAACGGCCACGACCCGCTTTTCACTCC -TACCGGGGAGCATTACCCGCTTCTTTTTACTGTTGATCATTGTGTTACTGGTGACGATGGGTGTAATGGT -ACAAAGCGCCGTTAACGCCTGGCTGAAAGATAAAAGTTACCAGATTGTCGACATTACCCATGCTATCCAA -AAGCGCGTCGATAACTGGCGTTACGTGACCTGGCAGATCTACGACAACATTGCCGCGACGACCTCCCCCT -CCTCCGGCGAAGGTTTACAAGAGACGCGCCTGAAACAGGATGTCTACTATCTGGAGAAACCACGCCGCAA -AACGGAAGCGTTAATCTTTGGCTCTCACGACAACTCAACGCTTGAGATGACTCAGCGGATGTCCACTTAT -CTGGATACATTGTGGGGCGCAGAAAATGTACCGTGGTCGATGTATTACCTGAATGGTCAGGATAACAGTC -TGGTGCTGATCTCAACCCTACCCCTTAAAGATCTCACCTCCGGATTTAAAGAATCGACCGTCAGCGACAT -TGTTGATTCACGTCGTGCAGAGATGTTGCAACAGGCCAACGCCCTCGATGAACGCGAAAGCTTTTCTAAC -ATGCGCCGCCTGGCCTGGCAGAACGGTCATTACTTTACATTGCGTACTACCTTTAACCAGCCAGGACATC -TGGCAACGGTCGTGGCTTTTGATCTGCCGATTAATGATTTGATCCCACCGGGTATGCCGCTGGACAGTTT -CCGCCTTGAGCCAGACGCGACGGCAACGGGAAACAATGATAATGAGAAAGAAGGGACGGATAGCGTCAGT -ATCCACTTTAACAGTACGAAGATTGAAATCTCCTCGGCACTCAACTCTACCGATATGCGCCTGGTCTGGC -AGGTTCCTTATGGCACCTTATTGCTGGATACGTTGCAAAACATTCTGCTGCCACTGCTGCTGAACATCGG -TTTGCTGGCGCTGGCGTTATTTGGCTATACCACATTCCGCCATTTCTCCAGCCGCAGTACAGAAAACGTC -CCCAGCACGGCGGTCAATAACGAATTGCGCATTTTACGGGCAATCAATGAAGAGATAGTCTCACTGCTGC -CGCTCGGCCTGCTGGTTCACGATCAGGAATCGAACCGCACTGTCATAAGTAACAAAATTGCCGATCATTT -GCTGCCGCATTTGAATCTGCAAAACATCACCACCATGGCGGAACAGCATCAGGGGATTATTCAGGCGACG -ATCAATAACGAGCTGTATGAGATCCGCATGTTCCGCAGCCAGGTCGCGCCGCGCACACAAATTTTCATTA -TTCGCGATCAGGATCGCGAAGTGCTGGTAAACAAGAAACTCAAGCAGGCGCAGCGTCTGTATGAGAAAAA -CCAGCAGGGGCGGATGATCTTTATGAAAAACATTGGCGATGCGCTGAAAGAACCCGCACAGTCCCTGGCG -GAGAGCGCGGCTAAACTCAACGCCCCGGAAAGCAAACAACTGGCGAATCAGGCAGATGTGCTGGTGCGGC -TGGTTGATGAAATACAGTTAGCGAACATGCTTGCGGATGATAGCTGGAAAAGTGAGACGGTGCTGTTCTC -CGTGCAGGATTTAATTGATGAAGTTGTGCCTTCAGTGTTGCCTGCCATCAAGCGTAAAGGTCTGCAACTG -CTGATTAACAATCATCTGAAAGCACACGATATGCGCCGCGGCGATCGCGATGCCTTACGACGTATTTTGC -TGCTACTGATGCAATATGCCGTGACCTCAACGCAATTGGGAAAAATCACCCTTGAGGTTGATCAGGATGA -GTCCTCCGAAGACCGCCTGACGTTCCGCATTCTGGACACGGGAGAAGGCGTAAGTATTCATGAAATGGAT -AATTTGCACTTCCCGTTTATCAACCAGACCCAAAACGATCGCTATGGCAAGGCGGACCCGCTGGCATTCT -GGCTGAGCGATCAACTGGCACGTAAACTGGGCGGTCATTTAAACATCAAAACGCGGGATGGGCTTGGTAC -ACGCTACTCTGTGCATATCAAAATGCTCGCAGCTGACCCGGAAGTTGAAGAGGAAGAAGAGCGTTTACTG -GATGATGTCTGCGTAATGGTGGATGTTACTTCGGCAGAAATTCGGAATATTGTCACTCGCCAGTTAGAAA -ATTGGGGTGCAACCTGTATCACACCCGATGAAAGATTAATTAGTCAAGATTATGATATCTTTTTAACGGA -TAATCCGTCTAATCTTACTGCCTCTGGCTTGCTTTTAAGCGATGATGAGTCTGGCGTACGGGAAATTGGG -CCTGGTCAATTGTGCGTCAACTTCAATATGAGCAACGCTATGCAGGAAGCGGTCTTACAATTAATTGAAG -TGCAACTGGCGCAGGAAGAGGTGACAGAATCGCCTCTGGGCGGAGATGAAAATGCGCAACTCCATGCCAG -CGGCTATTATGCGCTCTTTGTAGACACAGTACCGGATGATGTTAAGAGGCTGTATACTGAAGCAGCAACC -AGTGACTTTGCTGCGTTAGCCCAAACGGCTCATCGTCTTAAAGGCGTATTTGCCATGCTAAATCTGGTAC -CCGGCAAGCAGTTATGTGAAACGCTGGAACATCTGATTCGTGAGAAGGATGTTCCAGGAATAGAAAAATA -CATCAGCGACATTGACAGTTATGTCAAGAGCTTGCTGTAGCAAGGTAGCCTATTACATGAACAATATGAA -CGTAATTATTGCCGATGACCATCCGATAGTCTTGTTCGGTATTCGCAAATCACTTGAGCAAATTGAGTGG -GTGAATGTTGTCGGCGAATTTGAAGACTCTACAGCACTGATCAACAACCTGCCGAAACTGGATGCGCATG -TGTTGATTACCGATCTCTCCATGCCTGGCGATAAGTACGGCGATGGCATTACCTTAATCAAGTACATCAA -GCGCCATTTCCCAAGCCTGTCGATCATTGTTCTGACTATGAACAACAACCCGGCGATTCTTAGTGCGGTA -TTGGATCTGGATATCGAAGGGATCGTGCTGAAACAAGGTGCACCGACCGATCTGCCGAAAGCTCTCGCCG -CGCTGCAGAAAGGGAAGAAATTTACCCCGGAAAGCGTTTCTCGCCTGTTGGAAAAAATCAGTGCTGGTGG -TTACGGTGACAAGCGTCTCTCGCCAAAAGAGAGTGAAGTTCTGCGCCTGTTTGCGGAAGGCTTCCTGGTG -ACCGAGATCGCTAAAAAGCTGAACCGCAGTATTAAAACCATCAGTAGCCAGAAGAAATCTGCGATGATGA -AGCTGGGTGTCGAGAACGATATCGCCCTGCTGAATTATCTCTCTTCAGTGACCTTAAGTCCGGCAGATAA -AGACTAATCACCTGTAGGCCAGATAAGACGCGTTAGTGTCTTATCTGGCATTTGCACCGATTGCCGGATG -CGGCGTAAACGCCTTATCCGGCCTACGATTCCCATTATTTCAACAAATTACATTAAAGTAGGCCAGATAA -GACGCGTCAGCGTCGCATCTGGCATTTGCACTGAATGCCGGATGCGGCGTAAACGCCTTATCCGTCCTAC -GAATCCCGCGATTTCCTGACCCTCTCGGCATATAACGTCAGCGTCTGTTTTATCACATCCAGCGTTACCG -GCTTCGACAGGCAGCTGTCCATACCGGACTCCAGACACCGCTGCTTCTCTTCAGCCAACGCATTAGCAGT -TACTCCGATTACCGGCAACGTCAGTCCCAACTGACGAATGCGTTGCGTCAAGCGGTAACCATCCATATTT -GGCATGTTGACGTCGCTAAGCACGATATCAATATGATTCTTGCTAAGTACATTAAGCGCATCGACGCCAT -CATTCGCGGTTTTACATTGATAGCCCAACGATCCCAACTGATCTGCCAGCAAACGCCGGTTAATCGGATG -ATCATCCACGACCAGAATCATCATATCGTCATTATCGCTGACCGCTTTGTCCGTTGACGGCAGAGCGTTA -GCAGGATCGTCGCTCTCCATCTCGATCAAATAAATACGCGCCAACAATGCCGGTAGCTCATGCGGAGCAG -CCACACTGTGTACCCACTCCCCTGGCGCTTTCTCCAGCGGAATACCAATATGGCGACGACAGAAGGTCAC -TACCGCTCTGCCCTGCCATTTTTTACTCACTACCTCGTCAGTGATCAACACATCTTCGGGAGTCGGTTCC -TGCCCTTCGTATGTTGTAACGACGATGCCGCTGCGCTGCAAACTGGTTTCCAGGAACTGACAGAGCGACG -CATTGCGGACCGCCAGCCAGCAGCGTTTACCACTCAACCCTTCCACGCCTTTTTTCTGCGGGTACTGAGC -GCCGTACAACGGAATACGCACGGTAAACTGGCTGCCCATTCCCGGTTCTGAATCTACCGAGATATCGCCG -TCCATCATGCTGATCAGTTTTTCACAAATCGCCAGACCCAGACCGGTCCCCTGGAAATTACGCTGTACGC -CCGTTCCGACCTGGAAGAAGGGATCAAACAAGCGCACCACTTCTTTCGCCGGTATCCCCACGCCGGTATC -GCGAACACGGATAGAGAGATAATCGCCATCCGCGCGAACATGCAAAACTATACAGCCGGTATCGGTGAAT -TTTATGGCGTTACTCAACAGGTTGGAGATGACCTGCTGTAAACGCATCGGGTCGCCATTTAAGGCCACTG -GCACATCCGGTTCAATAAAGCAGTACAAGCCTAACTGCTTGCGTACCACCAGCGGTAAATAGTTGGCGGT -GATGTGGTTCATCACTTCACGCGGTGAAAACTCACGCGGTTCGATCTTCAACTGTTCCGATTCAATCTTC -GAGAAATCGAGAATATCGCTGATAATTTTCAACAACAGGCTGGAAGAGTTGTTCATTGCCGTCACCAGCC -GATCGACGCCTTTCGGTAACTCTTTGGTTTGCAACAGATCCAGGTTACCGATAATGCCATACAGCGGCGT -TCGCAGCTCATGACTGACGGTGGCAAGGAACATCGATTTTGACTGGCTCGCCTGTTCCGCTGCTTGTGCC -ATCTCCTGCAACGACTCTTCCATCTTCACGCGCGAAGAAACATCCACCAGCACACAAATGGCCACGTTTT -CATTACGATAGCGCGAATGGACGAAGCTGATTTGCAGATTGGTATTGTTGCTGGTCAGGACATCAACAAA -ATTGACCTGCTGCCCACAGATAATTTGCGTCAGTCGTTGGCGGTCCTCATGCGTAAGCATATTGAGATAG -GTATGCGCCAGTTCGTTACTTAAAATATTGACGCCATCAGCGGTACGCAAAATGCAGATACCCACTGGCG -CGGAGGCGACAATCTTGCGATTGAACTGCTCATGTTCTTCCAGTCGCAGGGCGTCGCTTTCCGCCGGAAT -GAAAATACGTCGCTCGTACATCCGTGCGAGAGTAAACAATGCAGCTCCGGCAAGCACATTCAGCAAAATT -GCGTTAAGGATCAACATGCGAATGCGTTCCAGCACCTTATCAACCGGCACCGAATACACGATGCTTAGCG -ATGAGGGTGGCAGATTTTTCTTCAGCACCAGCTCCCGGAACCCTTCCGTATAGCCAAACCAGGAGCGTTC -CTGCATCCAGCGAGGATCGCCCTTAATTTTACTTTCTGGTCCGGTAAGCGAAATCAGGGTATGACCATTT -TCATCAAGAATGGTAACCCCCATCGGCAACGTACCCGGTAAGAAAAAGTTCTCCATCCGGATGGTCTGCT -CGACACCCAAAAGCGCCTGCAACCGGTTCGCCAGATAAACTGGCGTCAACGCGTAAAAATACCCGACGCC -AGGGCGCGGACCTTCGCTGATCCAGTAGAGGTTACTGCCGCTATCATCTTGTGGTGCATTTCGATATTTA -TTGATGCGTTCATGCAAAGCTTTCAACGCGGTATCGCGTTCCACTGGCATATCACGCAGACCGAAATTGG -CCATGCAGAGGTTATCGCTGCCGATTAAAAATACCCGGTTTAGATCGTAAGCCGCAGAAAAATTATCGCG -CCAGTAGCGCATAAACCACGCCAATGACTCCAGAGAACCTCGCCAGGTGTTACTCATTGCGGAACAATCG -GAGTCGGCAAACAGCGGTTCAAACGCAGGCACATCCGCCTGCGTTTCTCGTCCACGCGGGGAAAGCACAC -CGTTTTCTGCCGATAAGCGATTTTCGGCGATGTACTTCAGCTCTTTCATCACATCAGAGGTGCGTTGAAT -AAAGCGCTGAGCCTGATCGGAACTCAGATTAAATTCCTGACGAATTTCCGATTCTCGCTGATGTAACGCA -TTAACGATGTAAAAAACGGATGAAAAAGCAATCAACAGCCAGAGCACTAACGCCAATGCTCTGAACATGT -AGCGCGAGGCTTTCAGGGTTGTACGAAAAGAAGCAAGGTATTTCAAAGGGGCGAAGCTCCGCCTCAGGTG -ACCGATGGAGTGTGGTTAAGGTAGCGGTAAAAGCGTGTTACCGCAATGTTCTCTCTTCTCTGGAATATGA -TACACCGCCGAGAAATCATCACCTTAACCTCTGATAATCGTCATATACCGGACAAGACTAGTGGATTTCA -GCATGCATTATATGAAGTGGATTTATCCACGCCGCTTACGCAATCAAATGATCCTGATGGCAATCCTGAT -GGTCATTGTCCCAACGCTTACTATTGGTTATATCGTAGAAACGGAAGGACGTTCAGCAGTCTTATCTGAA -AAAGAGAAAAAACTTTCTGCCGTGGTCAACCTGCTTAATCAGGCACTAGGCGATCGCTATGATCTCTACA -TCGACTTACCACGTGAGGAGCGTATCCGCGCATTAAATGCAGAACTTGCCCCCATTACCGAAAATATCAC -TCACGCCTTCCCTGGCATCGGTGCTGGTTATTACAACAAAATGCTGGATGCGATAATCACCTACGCGCCT -TCAGCGCTATATCAGAATAATGTCGGCGTTACCATTGCCGCAGATCACCCTGGTCGCGAAGTGATGCGTA -CAAATACCCCTTTAGTTTATTCAGGCAGGCAGGTGCGCGGCGATATTTTGAATTCAATGCTCCCCATTGA -GCGTAATGGTGAAATCCTCGGCTATATCTGGGCCAATGAATTAACCGAAGATATTCGCCGCCAGGCCTGG -AAAATGGATGTGAGGATTATCATTGTGCTCACCGCTGGTTTGCTGATAAGCCTGCTGTTGATTGTCCTTT -TCTCCCGTCGCCTGAGCGCCAATATTGATATCATCACCGATGGCCTCTCGACTCTGGCACAAAATATTCC -CACTCGATTACCACAATTGCCCGGTGAAATGGGGCAAATCAGTCAGAGTGTTAATAACCTCGCCCAGGCA -CTGCGTGAAACGCGGACACTTAACGATCTGATTATTGAAAACGCTGCCGATGGCGTCATTGCCATTGACC -GCCAGGGTGATGTAACCACCATGAACCCAGCAGCAGAAGTTATCACTGGCTATCAACGCCATGAACTGGT -AGGGCAGCCTTACTCCATGTTGTTCGACAATACTCAGTTCTACAGTCCAGTACTGGATACGCTGGAACAT -GGCACCGAACATGTGGCGCTGGAGATCAGTTTTCCAGGTCGTGACCGCACCATTGAACTCAGTGTCACTA -CCAGTCGTATTCATAACACGCACGGTGAAATGATAGGTGCTTTGGTGATTTTCTCTGATTTAACTGCCCG -CAAAGAAACCCAGCGCCGCATGGCGCAAGCAGAACGCCTCGCCACACTGGGTGAGCTGATGGCTGGCGTC -GCGCATGAAGTACGTAATCCGTTAACGGCTATTCGTGGTTATGTACAGATCTTGCGCCAACAAACCAGTG -ACCCAATACATCAGGAATATCTGTCCGTAGTACTCAAAGAAATCGATTCAATTAACAAAGTTATTCAGCA -ATTGCTCGAATTTTCACGTCCACGCCACAGTCAATGGCAACAAGTCAGCCTCAATGCATTGGTTGAAGAA -ACTCTGGTACTGGTACAAACCGCCGGCGTACAAGCGCGGGTCGACTTCATAAGCGAACTGGATAATGAAT -TAAGCCCGATTAACGCCGATCGTGAACTGCTCAAACAGGTACTACTGAATATCCTGATCAATGCCGTCCA -GGCTATCAGCGCACGAGGGAAAATTCGCATTCAAACCTGGCAATACAGCGACTCACAACAGGCCATTTCG -ATAGAGGACAACGGCTGTGGCATTGATCTCTCGCTGCAAAAAAAGATCTTCGATCCCTTTTTCACCACCA -AAGCCTCAGGAACCGGGCTTGGTCTGGCGTTAAGTCAACGCATCATTAATGCCCATCAGGGTGATATTCG -CGTCGCCAGTTTGCCGGGCTACGGCGCAACCTTCACGCTTATTTTACCGATCAACCCGCAGGGAAATCAG -ACTGTATGACTGCTATTAATCGCATCCTTATTGTGGATGATGAAGATAATGTTCGCCGTATGCTGAGCAC -CGCTTTTGCACTACAAGGATTCGAAACACATTGTGCGAACAACGGACGCACAGCATTACACCTGTTTGCC -GATATTCACCCTGATGTGGTGTTGATGGATATCCGCATGCCAGAGATGGACGGCATCAAGGCACTAAAGG -AGATGCGCAGCCATGAGACCCGGACACCCGTTATTCTGATGACGGCCTATGCGGAAGTGGAAACCGCCGT -CGAAGCGCTACGCTGCGGAGCCTTCGACTATGTTATTAAACCGTTTGATCTCGATGAGTTGAATTTAATC -GTTCAGCGCGCTTTACAACTCCAGTCAATGAAAAAAGAGATCCGTCATCTGCACCAGGCACTGAGCACCA -GCTGGCAATGGGGGCACATTCTCACCAACAGCCCGGCGATGATGGACATCTGCAAAGACACCGCCAAAAT -TGCCCTTTCTCAGGCCAGCGTCTTGATTAGCGGTGAAAGCGGCACCGGGAAAGAGTTGATTGCCAGAGCG -ATTCACTACAATTCGCGGCGGGCAAAGGGGCCGTTCATTAAAGTCAACTGCGCGGCGCTGCCGGAATCGT -TGCTCGAAAGTGAACTGTTTGGTCATGAAAAAGGTGCATTTACTGGTGCACAAACCTTGCGTCAGGGATT -ATTTGAACGAGCCAACGAAGGTACTCTGCTCCTCGACGAAATTGGCGAAATGCCGCTGGTACTACAAGCC -AAATTACTACGCATTCTACAGGAACGGGAATTTGAACGGATTGGCGGCCATCAGACCATAAAAGTTGATA -TCCGCATCATTGCTGCCACCAACCGCGACTTGCAGGCAATGGTAAAAGAAGGCACCTTCCGTGAAGATCT -CTTTTATCGCCTTAACGTTATTCATTTAATACTGCCGCCTCTGCGCGATCGCCGGGAAGATATTTCCCTG -TTAGCTAATCACTTTTTGCAAAAATTCAGTAGTGAGAATCAGCGCGATATTATCGACATCGATCCGATGG -CAATGTCACTGCTTACCGCCTGGTCATGGCCGGGAAATATTCGAGAGCTTTCCAACGTTATTGAACGCGC -CGTCGTGATGAATTCAGGCCCGATCATTTTTTCTGAGGATCTTCCGCCACAGATTCGTCAGCCAGTCTGT -AATGCTGGCGAGGTAAAAACAGCCCCTGTCGGTGAGCGTAATTTAAAAGAGGAAATTAAACGCGTCGAAA -AACGCATCATTATGGAAGTGCTGGAACAACAAGAAGGAAACCGAACCCGCACTGCTTTAATGCTGGGCAT -CAGTCGCCGTGCATTGATGTATAAACTCCAGGAATACGGTATCGATCCGGCGGATGTATAACACCAAAAC -TTGCTATGCAGAAATTTGCACAGTGCGCAATTTTCTGCATAGCCGCTCATTCTCCTTATAAATCCCCATC -CAATTTATCCCTTCATATTCAATTAGTTAAATAACTAAATCCAATAATCTCATTCTGGCACTCCCCTTGC -TATTGCCTGACTGTACCCACAACGGTGTATGCAAGAGGGATAAAAAATGAAAACAAAATTGATGACATTA -CAAGACGCCACCGGCTTCTTTCGTGACGGCATGACCATCATGGTGGGCGGATTTATGGGGATTGGCACTC -CATCCCGCCTGGTTGAAGCATTACTGGAATCTGGTGTTCGCGACCTGACATTGATAGCCAATGATACCGC -GTTTGTTGATACCGGCATCGGTCCGCTCATCGTCAATGGTCGAGTCCGCAAAGTGATTGCTTCACATATC -GGCACCAACCCGGAAACAGGTCGGCGCATGATATCTGGTGAGATGGACGTCGTTCTGGTGCCGCAAGGTA -CGCTAATCGAGCAAATTCGCTGTGGTGGAGCTGGACTTGGTGGTTTTCTCACCCCAACGGGTGTCGGCAC -CGTCGTAGAGGAAGGCAAACAGACACTGACACTCGACGGTAAAACCTGGCTGCTCGAACGCCCACTGCGC -GCCGACCTGGCGCTAATTCGCGCTCATCGTTGCGACACACTTGGCAACCTGACCTATCAACTTAGCGCCC -GCAACTTTAACCCCCTGATAGCCCTTGCGGCTGATATCACGCTGGTAGAGCCAGATGAACTGGTCGAAAC -CGGCGAGCTGCAACCTGACCATATTGTCACCCCTGGTGCCGTTATCGACCACATCATCGTTTCACAGGAG -AGCAAATAATGGATGCGAAACAACGTATTGCGCGCCGTGTGGCGCAAGAGCTTCGTGATGGTGACATCGT -TAACTTAGGGATCGGTTTACCCACAATGGTCGCCAATTATTTACCGGAGGGTATTCATATCACTCTGCAA -TCGGAAAACGGCTTCCTCGGTTTAGGCCCGGTCACGACAGCGCATCCAGATCTGGTGAACGCTGGCGGGC -AACCGTGCGGTGTTTTACCCGGTGCAGCCATGTTTGATAGCGCCATGTCATTTGCGCTAATCCGTGGCGG -TCATATTGATGCCTGCGTGCTCGGCGGTTTGCAAGTAGACGAAGAAGCAAACCTCGCGAACTGGGTAGTG -CCTGGGAAAATGGTGCCCGGTATGGGTGGCGCGATGGATCTGGTGACCGGGTCGCGCAAAGTGATCATCG -CCATGGAACATTGCGCCAAAGATGGTTCAGCAAAAATTTTGCGCCGCTGCACCATGCCACTCACTGCGCA -ACATGCGGTGCATATGCTGGTTACTGAACTGGCTGTCTTTCGTTTTATTGACGGCAAAATGTGGCTCACC -GAAATTGCCGACGGGTGTGATTTAGCCACCGTGCGTGCCAAAACAGAAGCTCGGTTTGAAGTCGCCGCCG -ATCTGAATACGCAACGGGGTGATTTATGATTGGTCGCATATCGCGTTTTATGACGCGTTTTGTCAGCCGG -TGGCTTCCCGATCCACTGATCTTTGCCATGTTGCTGACATTGCTAACATTCGTGATCGCGCTTTGGTTAA -CACCACAAACGCCGATCAGCATGGTGAAAATGTGGGGTGACGGTTTCTGGAACTTGCTGGCGTTTGGTAT -GCAGATGGCGCTTATCATCGTTACCGGTCATGCCCTTGCCAGCTCTGCTCCGGTGAAAAGTTTGCTGCGT -ACTGCCGCCTCCGCCGCAAAGACGCCCGTACAGGGCGTCATGCTGGTCACTTTCTTCGGTTCAGTCGCTT -GTGTCATCAACTGGGGATTTGGTTTGGTTGTCGGCGCAATGTTTGCCCGTGAAGTCGCCCGGCGAGTCCC -CGGTTCTGATTATCCGTTGCTCATTGCCTGCGCCTACATTGGTTTTCTCACCTGGGGTGGCGGCTTCTCT -GGATCAATGCCTCTGTTGGCTGCAACACCGGGCAACCCGGTTGAGCATATCGCCGGGCTGATCCCGGTGG -GCGATACTCTGTTCAGTGGTTTTAACATTTTCATCACTGTGGCGTTGATTGTGGTGATGCCATTTATCAC -CCGCATGATGATGCCAAAACCGTCTGACGTGGTGAGTATCGATCCAAAACTACTCATGGAAGAGGCTGAT -TTTCAAAAGCAGCTACCGAAAGATGCCCCACCATCCGAGCGACTGGAAGAAAGCCGCATTCTGACGTTGA -TCATCGGCGCACTCGGTATCGCTTACCTTGCGATGTACTTCAGCGAACATGGCTTCAACATCACCATCAA -TACCGTCAACCTGATGTTTATGATTGCGGGTCTGCTGCTACATAAAACGCCAATGGCTTATATGCGTGCT -ATCAGCGCGGCAGCACGCAGTACTGCCGGTATTCTGGTGCAATTCCCCTTCTACGCTGGGATCCAACTGA -TGATGGAGCATTCCGGTCTGGGCGGACTCATTACCGAATTCTTCATCAATGTTGCGAACAAAGACACCTT -CCCGGTAATGACCTTTTTTAGTTCTGCACTGATTAACTTCGCCGTTCCGTCTGGCGGCGGTCACTGGGTT -ATTCAGGGACCTTTCGTGATACCCGCAGCCCAGGCGCTGGGCGCTGATCTCGGTAAATCGGTAATGGCGA -TCGCCTACGGCGAGCAATGGATGAACATGGCACAACCATTCTGGGCGCTGCCAGCACTGGCAATCGCCGG -ACTCGGTGTCCGCGACATCATGGGCTACTGCATCACTGCCCTGCTCTTCTCCGGTGTCATTTTCGTCATT -GGTTTAACGCTGTTCTGACGGCACCCCTACAAACAGAAGGAATATAAAATGAAAAATTGTGTCATCGTCA -GTGCGGTACGTACTGCTATCGGTAGTTTTAACGGTTCACTCGCTTCCACCAGCGCCATCGACCTGGGGGC -GACAGTAATTAAAGCCGCCATTGAACGTGCAAAAATCGATTCACAACACGTTGATGAAGTGATTATGGGT -AACGTGTTACAAGCCGGGCTGGGGCAAAATCCGGCGCGTCAGGCACTGTTAAAAAGCGGGCTGGCAGAAA -CGGTGTGCGGATTCACGGTCAATAAAGTATGTGGTTCGGGTCTTAAAAGTGTGGCGCTTGCCGCCCAGGC -CATTCAGGCAGGTCAGGCGCAGAGCATTGTGGCGGGGGGTATGGAAAATATGAGTTTAGCCCCCTACTTA -CTCGATGCAAAAGCACGCTCTGGTTATCGTCTTGGAGACGGACAGGTTTATGACGTAATCCTGCGCGATG -GCCTGATGTGCGCCACCCATGGTTATCATATGGGGATTACCGCCGAAAACGTGGCTAAAGAGTACGGAAT -TACCCGTGAAATGCAGGATGAACTGGCGCTACATTCACAGCGTAAAGCGGCAGCCGCAATTGAGTCCGGT -GCTTTTACAGCCGAAATCGTCCCGGTAAATGTTGTCACTCGAAAGAAAACCTTCGTCTTCAGTCAAGACG -AATTCCCGAAAGCGAATTCAACGGCTGAAGCGTTAGGTGCATTGCGCCCGGCCTTCGATAAAGCAGGAAC -AGTCACCGCTGGGAACGCGTCTGGTATTAACGACGGTGCTGCCGCTCTGGTGATTATGGAAGAATCTGCG -GCGCTGGCAGCAGGCCTTACCCCCCTGGCTCGCATTAAAAGTTATGCCAGCGGTGGCGTGCCCCCCGCAT -TGATGGGTATGGGGCCAGTACCTGCCACGCAAAAAGCGTTACAACTGGCGGGGCTGCAACTGGCGGATAT -TGATCTCATTGAGGCTAATGAAGCATTTGCTGCACAGTTCCTTGCCGTTGGGAAAAACCTGGGCTTTGAT -TCTGAGAAAGTGAATGTCAACGGCGGGGCCATCGCGCTCGGGCATCCTATCGGTGCCAGTGGTGCTCGTA -TTCTGGTCACACTATTACATGCCATGCAGGCACGCGATAAAACGCTGGGGCTGGCAACACTGTGCATTGG -CGGCGGTCAGGGAATTGCGATGGTGATTGAACGGTTGAATTAATCAATAAAAACACCCGATAGCGAAAGT -TATCGGGTGTTTTCTTGAACATCGACGGCGAAGGTAACCCCATTAATCACCAGTCAAAACTTTTCACCAG -CGTCAGCTCGCCAGCATTACGCATCGGTACAATAAATGTTTCCTGTTTCTCATTGACCGATCCTTCATCG -GTGATCAGCGTCAGTTGGGCGGTGGTTAATTCCGTTTCGCTGCGCCCACCATAGTAGTTGATATACACCT -GATAGCGCCCGTGAATTGGCGCGGGCATGGCGAAAATCTCGGGTCCGTACCCCGTCGTGACATCCATATC -CAGTGCACCACTGTTTTTCAGCACGGTGTTACCGTACCAGGCGTGTTCGCCATCGGGCGTAACAACGTGA -AGGTCGAGGTCGGTATTGTCCGTATCCCACGAGAGAACCAGCCGTAAACGTGCACGAATCGTTCCTGTAC -CCGGCGTTGAGTAAAACTGCATTTTTTGTCGGCTTTGCCCATCCGGGCTGATGACCTGCACGCTGTTGCT -GCCTTCAGTGAAAATATAAGGGCGTGCAAATGAACCATCGGATTCAATTCTCTGCGGCATACTGGCACCG -TTGACCACCAGCCGGCCCTGCTGAACTTTACCCGCCGCAGCATAATTCTTTATTTTGCCGCGGATCTGCG -CTGAGATATTTTGATCATCTGCCATGTTGACGGACGACGCCGGGTAATTGATCGATTGTGAAAAACTGGC -ATCTTCGCCCTCTGCCGGATGCCAGCCTGAGAGCGGTGCATCAATCTCGACTTCCTGCACACCTTCACTG -TGAGCGACAGGCGAAAGCGCCACCAGTAACAACGGAAGAAAAATCTTTCGCATAGCATTAGTCCATTAAT -AATTGTCGGGTCAGCGTTTCGATATAGTTCTCATCAAGCCCGGTGGGATAACCATCAAAGGCCAGGTGCA -GATACTCATGGGTTAAATCCAGCCGATCCTGAAGCGTAAAGAAGTTACGAATAAACAGCCGTTTCTGCTG -CCGATCGGTATAGGGGAAACCTGAGACTAAACGGCAAACCGCAAACACGTCTGGTTCGTTGTACCCCGTC -TCAGCTTGTAATATACGCCGCCACTGCGGCATTTTTTTCGCCAGCCAGGCTTTCGCTTTGGGTAATAACT -GGCAGGTTGAGCGTGGCGCTCCCCAGCGGCTAAGACTGTTGTCGGGATAAGCAAACGCGAGTATCTGATC -GTAACGCTCTCCCTGCCCCGCCTGGGCCGTGGCTTGCCGCCAGGAAAGTGTCCCTTCGGTAGCGCGACTG -CCATGATAATGAACCGGATCGCCTGCATAGATGAGATCCTGCGTCCAGGCGGTCATCGTTCGCGCCCCCG -TGGTCGCTGGCGAAGCAGAAACACGCTGCGTGGCGCTGCTGTCGGGGATGGTCAGGCAATCGCCTTCCCG -ATTGGCGTTTTGCTGTAAAAAAGTGCGAATCGCCACGGTCATGGCTTTCGCTGCCTCAGGGGGCGTACTT -TTCGCCTCGCGATCCAGAACTCTGGCAACGTACTCTTCACGATCGAGATGCGACTGCAATTTCAGTTTGC -CCTTTTCGCTCAGTAAGGTCGTCTCACCGTGGCTGACAAACGTAATGTGGTTACCATTAGTAAACGTCAC -ACGATAGCGCCCATTAAGTACGCCGGGATTTACTGCCGTCGTACTCTTTTCCGCTGTGATTTTCTTCAGC -GGATAGCGGGCAAACAGCTCCACCTCTACACATTGCCCACTGGCAACCTGCGTCGGCACTGGCAAAACCC -GATTAAGCACCGTCGCATAACGGGTTAGTACCGTTTTGCTGGTGCCACTGCCAGTAACCCACAGCGGTGT -ACCATCGGTTAACCAGCCAGCAAAACCACCCTGACGGATTTCCTGTTTATCATCGGCAAACCAGCTCCAG -GTTTTCACCCGTACCCGACTACCGAGCATGGATGCGACACCGATTTTCGCCTCGTCCAGCACCACATCCA -GTAAGACTTCCTGAGCTTTGTTTTGCGCGGGTAACGTCGCTAATGAATCAAGCAGCGATTTAACCGTTAC -CGAGGTTTCTGGCTTCAGCGTAGTCAGAGACGCTAACCACGCAGGTGCCTGACGCTGTTGCCAGTATTGC -CCCCACACATCTGCGCCAATATGCAACCGCTGCGGCGCAAAATAGAGCCCACAGGAACGTACCAGCGCGG -TATCGCGCGTTATGCTCTCCCCAGCCTGACAACAATAAACCTCTTCCGGGGAGTTTCCGCGACACTGGTA -GGGCTGCTCCGGTTGATGGGTATCCTCCAGCCAGGCGTAAACATACAGTTTCCACAAACTCCCTAACGGC -GTGGTGAGCGAGTCAGGTAATGCTGAGACTTTGGTCACGCCTGATGACGACAGCTGATACAGTTGATCGT -GCTGCGCACCGCGCAGCACCAGTTGTAACGGCGTCTCCTCCGCAAGTGTTGGCAGAGTAACCAACGCCAA -TAGCCAGACGATTCTGCGCCAGTTCACTTATTTCACCTGCATCCCGGTCCATTCACTCCCTGCCGCAACA -CTTTGCTGCGCAGGTGCATAGGAACGCACATAACGAGCAGGAGGCAGAACGAATTGCCCTTTTTGCGAGA -AGCGCAGCAAATGGCGGAAAGTGACCGTTCCCGTCAGTTCTTTCACCGGCACCATATAGGCCAGTTCGCC -CATTTCATTTCGCGCTTTTTCCAGCAATTGCCCCTGCTGTTTCGCGGCGTTGGGTTTATTGACCGAAATG -CCCCATGTTGTGCGCTCAACGTCGGCTCCCGGTGGCAGCGGTACTTCCACCTGACCGTAGCGCAGAACTG -CATCCTGCTCGCTGGTAAGCGTGATTTCATCGAGATACAGCGCATCGCTGTCAATCTCATTGCTGGTCAC -CGGTTGCAGAATAAAGCTCATCTCTTCTTCACCAGGGATAAGCCGATACAACTGGCGTTCAACGGTCACC -GGAATGTTACTTTGTTGAGCCATTTTTGCCGGCTCACGTCAGCGGACCTGCACATTTTGCGGCGATAATT -CGTCACCAAAAGAGAGAATGTCCGGCACGCCCTGACCAACCCAACGCCAGTCTTCGCCCCCTCCAGTTAA -CTTATGTTTAGCCCATGCGCCCGCAGGCGCAGGCAAAACAACTGGAGGCATTGTCGCCATATATTTCGCC -AGCCAGTTCATGGCCAGCGCGCGCTCAATAGTGGATTGCTCAGCGGTCAAACCACTTAAAATAGCGGCCG -TCTGGGTAGCGTCGCCACCGCTATTAAGCAGCACAACCGTGTGCGCCAGCGGCTGATTGCTGTTTGCCGC -TTTATCCCACGCATATTGCTGAACCTGTGGCATCACCGTGGACTTCAACTGCGCTTTTTTCAGCAACGTC -ATGGTTAAGACGTTTGCCACCGCATCTGCCAGTGGAGACTCCGGTGTATCGAGGATCAGGCTATCATTGA -TATCGCGGGTGTCTTCCTCAGAGAAATCTTCAGTTTTAGTTCCGCGCCGGGCGATAGCTTCATCCAACCC -TTTCAACAACGTTTTGCACGGCAAATTCATCTCCTGCGCCCATGCCAGCACCAGCGCCCGATGCAATAAC -GGCATGTTATCTGCCTGCTCCGCGTAGCTGTCGAGCATATGCTGCCAGTATTCCGGTTGTTGCGTTACGC -CGATCGCCTGGCTGGCCTGCCAGTCGGCGTACCATGCCCATGCCGTAAGGAAGGCGTCACCATTGCCATC -TTCACCCCACCAGGTAAAGCGCGCTCCGGGCCCCGCCAGTTGCATCAGCCGCAGACGGTTATCCTGAATC -ATCTGACGAATGTCGTTAGCGGCGGCACTTTGATGATCGGCAAGCGAACGCCAGGCGAGACTGAGCGGGA -TCAGACGGCTACCGGTGTTGATTACGCCACCCCACGGTTCATCGACTAACGCATCAAGATTGTTGCGGAA -AATCTCCTGCGGCGTTTCACTACTTTGTAGCCGGATATTGCTCGCCTGCTCGGGCAACATCAGCGCGTTA -TCGCCACCACCGAGCATGACATTTTTCTGCTGTTCAACGGGCCAGCTGTTATCCACAAAAGACAGTTTTG -TGCTAATGCTGTCCTGCACTTGCCCATTTTGTTGCAGTTCTGCACTTAACAAGCCAGATTGCTGAATATT -CTGCGTCAGCGAAATATAATTCGCCCCTTTGTGCAGCGTCAGCGTCTGGCGCATCTCAGCGCCTGCAAAT -TTAGTCACCAGCGCCACCGGTTCGTTATCCTGCTGACTGAAGATAAACAGTCCTGCCGCCGGTTTGTCGC -CCACGCGATACACCGTTGGCATACTCCACTTCATGTAGAGATTTTTTTCCGAACGCAGATAAGCACGCCC -CTGCCCGACCAGCCCGTCGCCGTTCATCCCACGCGCGGTGATACGCCAGCGGGTTAACGAATCAGGCATC -AGGAACGTGAAATACGCTTTGCCTTGTTTATCGGTTGTGAGTGACGGCATCCATGCCGCGGTATCCACCT -CTTCACGCCGTGGACGTTCAAGCATTTTTACTCGCCGCTCGCTGCGGTTAGTTGCGCCAGGCGCAACCGG -CTCGCTGGAGAGCGCCTGGTCGTAGCTGATAAACGACAGACTGGAGCTGGTACGCACATTGTTACGCCCC -AGCGGATAGAAAAATTTGCCGATATTCGGCGCGATTTCTGGTTGCAGCGCGTAGATCATTTCATCGACCA -CGCCTACCGTTAGCTGCGCAGAAACAGGTTTACCTTTCAGCGACGAGGTTAATTCGACATTGACCAGTTC -ACCAGGCTGGTAATGGGTTTTGTCCGTTTTCACCCGGATATCCAGCTGGGGAACGGCAACTTTGATCCCG -GCGTTCTGAAAACTGTACTGACCGTTACGGGTATACAGCACCGAAAAAGTGATGTTAGGCGCAAAGGAAT -TGCTCACTGGAACCCGGGCTTCATACTGGGTATCGTTTAAACGTTGTAGCGTTAGCCAGTTTGCCGGATG -CGAAAGCAGCGACTGCTGTTCCACGCGATCGCGTTCCAGCGTCAATAATGCTTCATCAATTGGCTCCGGA -AAGGTAATCAGCATCTTCGCGGTTTCGCCTGGCTGGTACAGCGTTTTATCCGCCACGATATCTACCGTAC -CAGTATGCGCCGTGCTGCCCTTACCGCTGACGGCATGACTTAACCCAGCGAGAATTAAGCCGTCTTTATC -GCGTAATGTCAGATTGTAGTTGCCAGGTTTAGCGAAATTGACGGTAAAGGATTTGCCGCCTGACGGTAGC -TCTCCGCTATGGCTCGTGCGGTCTTCGAGACGCAACCATTCATACGTAACAGGAACCTGTTTTGAAGATT -CCAGCGCGGCATAACGGAACACAACCGACTCGCCGCTATTACTGTATTGTGCGGCAGTACTTAATGAGTA -ATGCGCCAGACCGCGTTCAATGAGGATCTCTTTGGTGGTGGTGACGCGATACGCCGCGCCGTCACTGGCG -GAGACGGTTAACAAATAGCGGCTCGGTTTATCGGCGGCGGGGAGATTTAACGCCACATGACCGCTGGCGT -CGGACACCGTTTCGCTGCCTTCCAGCGACACGGGGAAACGTCCGGCATAACGCAAATCGTTACCGACCAT -TGATAATTGCTGAGCGCGCAAACTTAACTGCACGCGGGCATTTTTTACCGGCTCGCCATCCGGGTAGAGC -AGTTGCAGTTTGCCGCTGACCGCTTCGCCAGTTTTGAACTCTTTTTTGGCGAGAGCTAAACCAATCTCGA -AATGTGGCTTGATGTAGTTTGCCACGCGAAAACTGCTGCTATAGACCTGATTGCGGTAAGCAAGACGTAA -CTCATAACCTCCGGCTACGGCATTTTCTGGCAGGCGGAAACTTCCCTGCCCGCCATTGCGCGCATCCAGC -GTGACATTGACGGTTTGCAACAGACTGCCGTTGGCGTCCAGCACCGAAAGCTTCGCCGGGGCGCTGACGA -TGGGGGATGAATGCAACGGATCGTGGAACTCGCGGCCGATCACTTTAACATCGACACGATCGCCTGCGCG -ATATAGCGGGCGATCGGTAAAAATATACAAGCGGGTGTTGTAGATTTCGCTTTCGTAGAAGAAGTTCTCG -GAGACAAAAACGCCGCCTTCAGCATCCTTACCCAGAATGTATGAACGTTCTGGCGATATATGTTGTAACT -GCAAGGTACCGCTGTCATCGGTCACACCGCGGGTCATCACGCCAAGACCGTCAGTCCACAAGATCTCTGA -GCCGGGCTTCGCTTCACCCTGTTTTTTACCCGCGGTCCACACCAGAAGCTCTTTGCCTGACACTTTGCTA -AGCGCCACGGTATCGGAAACAAACACCACCGTCGTCGCCCGATACCCACCAACCATCGCCTCGACGAGGT -ACAGTCCCGGCTCTTGTTGGCCGAGAGGAATATAAATGTTACCCGGCTGCGGCGAGATGAAATTGCTGGA -TGCGCCTTCCAGTTTTACCCCTTGCTGCGGCTCGAACGGTTTAGCCTGCCATAGTGGATAACGGAACTGT -TTCACCAGGGGATATTTTTTCAGCGGGGAAAACTGGTTGTTCTGTACATAACGGGAAGGTTTAATAATGG -CATTGCCGAGCTGTAATTCGGGTAACGCCTGAGTCACATTCTGCCGTGACTGAGAAGAGAAAGTACGCTG -CATCACGCGGCGAGATTTGCCGTACCAGTTATCCCACAGCCAGGTTAGCGTATTGTTCAGCCCGTCGCCC -AGATATTGCGGTTGCACCACAATGCGATGCAGGTTTTTCTGCTGGCGCAAAAATGCCATCGGGTCAGGAA -TACGATACAGGCGAACGTCCACGCCGCCGTACTCTTCCATCTGATAGCGCCGATAATCACGCCCCGGCGC -TTCCAGTCGCACTTTCGCCTCTTCACTGCTGCTAAAACTGCTGTCAGCAAGCAAAAAGAATGTTCCCCCG -GCAGGCGGCGCATAGTTGCTGGAAGGAAGCGAATCATCAGCATTAGCAAGCCCTGTTCCCACAAGAGACA -GGGACAAGCACGCTGCTATCGCGCCAGAAAATTTAAACGATAAATGCCAATGAAATTGGGATTGGAATCG -TTGGGTATCCATCGGGTGTCCTTCCATGTCATAAGTTGTTGCAGACTGACTGCGCGCATTCCGTTGTCAG -TTTTCGTGGCGCTTCCGGTGTGGTAGATGACGTAACGCCCCATCCAGACCATTAAGTGCTGGGCATCGCC -CTGATCGAAAAAAATCATATCGCCAGGCAGCGCCTGGTTTATGTCCTGGCCAATAAACTGGCTGTTGTAC -TGAATCAAATTAATCGCGGTCACATAGGGGCCGGTTTTCCCGTTCCCCTGATTCCAGTTTTGCGCCAGTT -GACGCTGTTCAGGTGTTAGCGTCATCTCTGGCGGCAAATACTGGCTAGATAAACCGTTACTTTTTAGCCA -TTTACTGTCGTGAACTTTCAGCGTCTCGTTCGCCGCAAATCGCACCAGGCCCGCACAATCCTGCTGATAC -CAGCGTGGACTTGGCCCCTGGCGGAGCTGTTCTTGTGCAATGCGTACAAACCAGGCGCGAAACAGCCCGG -ATTGTTCGACATTCAGCATTTCGCTATGGGCAACAACACAACACAGCCAGCAAATCAGCGCCAGCAGCCC -GTGCCTCATAGCGGCTGCCAGGTTATGGGTAGCCACTGCCAGGCGGCACCGGGTTCCATCTGGGCCAGCT -TCATGACATAACGCGGTTGTTGAGATAAAGCGTCCAGCTTCGGCATTAATAAAGTTTGTGCGGCGTTATA -AAAAACCGGTTCGAGATTCTTCGGCAGACTGGTCAACGTTTCGTTACGCAGCAGTTTCGCTATTCCTTGT -GGATTGATATAGAGCGGAACGATGCCATCAGTGGGTATTACATCCACCATTGCCGGGCGGGTTTTATTCA -GTGTTTGCAGCGCGTTATTAACCAGCGTGTCATCGAGGGAGAAAAGCAGCGTTTTGTTTTGCATCGCCAG -CGACACACGGAAAAAATAATCCGACATTAATTGATCGGGTTGCGCCGCCTGCGCTTTCGGATACTGGCCG -TATCGGGAACTCACTTCGCGACGCCAGATTTGCGCTTCGCCCTGCTGAGTCTGGCTTACCGGCAAAACAC -CTTCTGGCGCTTTGCTTTCGTGCGCACCAATATTTTGCGTAAACAGTTTCCCTGGCAATTGCGCCTGTTC -GGCAGTGCCATCAAACTGACCGACAAACAGCGGGGTTTGCAATTTTGAGTCTTCATACCAGCACAGCCCC -GCGGCACCGTCTAACGCCCCATTCAGCTTGTCGTTTTCCTGGCTGATGTGCGAAAGCATCTCTTCGGCAA -TACCGTGTGAATACGGCACCGCCACACAGAAGCTGGCTCCGGCAGGCATACTGTTCCATACCGGCGTAAA -ATCGAAACTGGCATCTACGCTGGCGGATTCATCATTTAACGCCACAAAACTGTGCCAGCCGTCGTTACCC -ATTTCGAAGCGTACGCCAGCAAAAGAAGGCATTAACCGCTGGTAGCCAAACCCCAGCCACCTGGCGCTGA -CTACGATGCGCTGGCGTACTGGCGTTTTTTCGGCAGTACGCTCTTCCAGGCCAAAGCTTGCTTGCCAGCG -TTTTTTGCCGCTCAACAAATCACCTGCGATCGCCGTGGCTTCGGTATCCTGCTGATCATCTTTAAACAAC -ATATCCGTGCTGGAAAACACCAGCATCTTGTCCTGATAAGTCGCGAACATCAGGGCGTTATTGCCGTTAT -AGCGCAACTGATAAACAGGAACAGTTTCACTATTTATCTTGATGCTACTGATTTCCGTTTTGCTTAACTG -GCTGTCGCTGGTAGCGGCAAACAACAATGGCTCCAGCAGTTTGCTTAAACCACTGCGCTGGATCAGCACC -ATATAATGTGAAAGATGGCCTTGTTTATCGTGCCACAGCGCTGCCTGCGCGGGCTGATCTAAGAGTGACG -AAAAGAGCTTATCTTTCAGCGTGAGATCGTGTTCATAGACAATACGACGAATGCTGCCTTCAATGCCCAG -ACGATCGGCATGATTCTGATAATAGAAAACGAAATCTTCGCTCAGAACATCGTGGAGAAACGGAATGGTG -AGGAGATCTTTGGGAAGCTGGCTCAGAGAGTCGCTGTCGAGAAAGAGGTCCGGCTCATTGAGATCGATTT -GCAGATTGTTGTGCACCACCAGCGGCGACAACGTTTTTTCTGGCCCACTGCCAGCATATTGCAACGCCCA -GACGCCAGCGGAAAGCAGTGCTATTGCGCCAAAACCTACAAGACCATAGAACCGCCAGCCTTTCGCCTTT -TTTTCACCACTCATTGCCACATTCCTTGTGTATAGCCAGCCATTTTTTACGGGCACAGCCAAACTTTACC -GTGCCCTAATACGACAAAAGCCCAGACTTTGCAGCCTGGACTTTTCAATTCAAACAAGGGAGATAGCTCC -CTTTTGGCATGAAGAAGTAAAATTATTCTTCTTCTGGCTCGTCGTCAACGTCCACTTCCGGAGCGATTTC -ATCGTCCCCTTCCGCGGCACTGCCGTCGATGGTATCCAGATCTTCCTCGTCAACCGGTTCAGCAACACGT -TGCAGACCCACTACGTTTTCATCTTCCGCAGTACGGATGAGGATCACGCCCTGGGTGTTACGGCCCACGA -TGCTGATTTCCGAAACGCGAGTACGTACCAGCGTACCGGCATCGGTGATCATCATGATCTGGTCGCAGTC -ATCTACCTGTACCGCGCCAACAACTAAACCGTTACGTTCGGTAACCTTGATGGAGATAACCCCTTTCGTC -GCACGCGACTTGGTTGGGTATTCCGCCACTGCGGTACGTTTACCGTAACCGTTTTGCGTTGCGGTGAGGA -TTGCGCCATCGCCACGAGGCACGATCAGAGAGACGACTTTATCGCCTTCACCTAAGCGAATACCGCGAAC -ACCGGTGGTGTTGCAGCCCATCGCACGGACAGAAGACTCTTTAAAGCGCACCACTTTACCTTCAGCGGAG -AACAGCATTACTTCGTCTTCGCCGCTGGTCAGGTCAACGCCGATCAGCTCATCGCCGTCAACCAGTTTGA -TCGCCACTTTACCGGCGGTACGCAGACGGTTGAACTCGGTGAGGACAGTTTTCTTCACGGTACCGTTAGC -GGTCGCCATGAAGACTTTCACGCCTTCTTCAAACTCGGTCACTGGCAGGATCGCAGTGATACGTTCGTCC -TGCTCCAGCGGCAGCAGGTTGACGATCGGACGACCGCGCGCGCCACGAGTGGCTTCCGGCAACTGATAAA -CTTTCATCGAATAGACGCGACCACGGCTGGAGAAGCACAGAATATGGTCGTGAGTGTTCGCCACCAGCAG -TCGGTCGATAAAGTCTTCTTCTTTAATACGTGCGGCAGATTTACCTTTCCCGCCACGACGCTGCGCTTCG -TATTCAGAAAGCGGCTGATACTTAACGTAGCCCTGGTGAGAGAGCGTCACGACCACATCTTCCTGGGTGA -TCAGATCTTCCAGGTTGATGTCTGCGCTGTTGGCGGTGATTTCAGTACGACGTTTGTCACCGAACTGTTC -ACGAACCAGCTCCAGCTCTTCACGGATCACTTCCATCAGACGATCGGCGCTACCAAGAATACGCAACAGT -TCCGCGATCTGATCCAGCAGCTCTTTGTATTCGTCGAGCAGTTTTTCGTGCTCAAGACCGGTCAGTTTCT -GCAAACGCAGATCCAGAATCGCCTGAGCTTGCTGTTCGGTCAGGTAGTACAGACCATCACGCACGCCGAA -CTCTGGCTCCAGCCATTCCGGACGCGCAGCATCGTCGCCAGCACGTTCGAGCATCGCGGCAACGTTGCCC -AGCTGCCACGGATTAGCAACCAGCGCAGTTTTCGCTTCTGCAGGCGTCGGCGCATGACGGATCAGTTCGA -TGATCGGGTCGATGTTCGCCAGCGCCACGGCTAATGCTTCAAGGATATGAGCACGATCGCGAGCTTTACG -CAGTTCGAAAATAGTACGACGGGTCACCACTTCACGGCGGTGACGAACAAACGCCGCGATGATGTCTTTC -AGGTTCATGATCTTCGGCTGACCATGGTGCAATGCCACCATGTTGATACCGAAAGAAACCTGCAACTGGG -TCTGGGAGTAGAGGTTGTTGAGCACAACTTCACCGACCGCATCGCGTTTCACTTCAATCACGATGCGCAT -ACCGTCTTTGTCAGACTCGTCACGCAGCGCGCTGATGCCTTCCACGCGTTTTTCTTTTACCAGTTCCGCA -ATCTTCTCGATCAGGCGCGCTTTGTTTACCTGATACGGAATTTCGTGGACGATAATGGTTTCACGACCGG -TTTTGGCGTCAACTTCCACTTCTGCGCGAGCGCGGATATACACCTTGCCGCGACCGGTACGGTAAGCTTC -TTCAATACCGCGACGACCGTTAATGATTGCCGCCGTCGGGAAGTCCGGCCCCGGGATGTGTTCCATCAGC -CCTTCAATGCTGATGTCTTCATCATCAATATACGCCAGACAACCGTTGATGACTTCCGTCAGGTTGTGCG -GCGGGATGTTGGTTGCCATACCTACGGCGATACCGGAAGAACCGTTCACCAGCAGGTTAGGAATTTTGGT -TGGCATGACGTCCGGAATTTTTTCCGTGCCGTCATAGTTATCAACGAAATCGACCGTCTCTTTTTCGAGA -TCGGCCATCAGTTCATGGGCAATTTTCGCCAGACGGATTTCCGTATAACGCATTGCCGCCGCAGAGTCGC -CGTCGATAGAACCGAAGTTACCCTGACCGTCTACCAGCATATAACGCAGCGAGAATGGCTGCGCCATGCG -GACGATCGTGTCATAGACCGCCGAGTCACCATGGGGATGGTATTTACCGATTACGTCACCAACGACACGG -GCAGATTTTTTATAGGCTTTGTTCCAGTCATTGCCTAGTACGTTCATGGCGTAAAGTACGCGACGGTGTA -CCGGCTTCAGGCCATCTCGGACATCTGGCAGCGCACGGCCAACAATGACCGACATCGCATAATCCAGATA -GGAGCTCTTCAGCTCTTCCTCAATGTTGACCGGTGTAATTTCTCTCGCAAGGTCGCTCATCTAACCGCTA -TCCCTCTACTGTATCCCGGATTCAAAGGTCGCAAATTATAACACAGCCGCGCAGTTTGAGGTAAACCTAT -ACGCTTTATTCACATCCAATGCCTGATATACTCGTTTGTCTTGCCAATTACGGAGTAGAAGTGCCAATGA -ATGCCGAAAAATCGCCGGTAAACCATAACGTAGACCACGAAGAGATCGCTAAATTTGAAGCCGTCGCCTC -CCGCTGGTGGGATCTGGAAGGTGAGTTCAAACCGCTGCACCGCATTAACCCGCTGCGTCTGGGCTATATT -GCCGAGCGTGCTGGCGGTTTATTTGGCAAAAAGGTGCTCGATGTCGGTTGTGGCGGCGGCATTCTGGCCG -AGAGTATGGCGCGCGAAGGCGCGACGGTGACCGGTCTGGATATGGGCTTTGAGCCATTGCAGGTGGCAAA -ACTGCACGCACTGGAAAGCGGCATTCAGGTGGATTACGTGCAGGAAACCGTGGAAGAGCACGCGGCAAAA -CATGCCGGGCAGTATGATGTGGTGACCTGCATGGAGATGCTGGAGCACGTCCCCGATCCGCAGTCAGTGG -TCAGAGCCTGTGCGCAACTGGTGAAACCAGGCGGCGATGTCTTTTTCTCGACACTTAACCGCAACGGCAA -GTCATGGCTGATGGCGGTGGTTGGTGCGGAATATATTTTGCGCATGGTGCCCAAAGGCACGCATGATGTG -AAGAAGTTTATTAAACCGGCAGAATTGCTGGGCTGGGTGGATCAGACCAGTTTAAAAGAGCGGCATATCA -CTGGGCTGCATTACAACCCGATCACTAATACTTTTAAACTCGGCCCCGGCGTGGATGTGAACTATATGCT -GCACACGCAGAATAAGTGAGGTTGATGTTTGGCCGCGCCAATGCCTGATGCGACGCTTGCCGCGTCTTAT -CAGGCCTACAAATGCTCCCCGTAGGCCGGATAAGGCGTTTACGCCGCATCCGGCAACCGTGCCGACTAGA -CAGTGATTACCATTTCACCGTCATCGACAAAAACCCTGCCGTCTGGGCAAAATCATCACTCCCTTTCTGC -CACGCCACGCTGCCGCGCAGGGACACTCGCTGACTGATATTGCCCGTGACTCCCACTTTTATTTCACCCC -GTTGCTTCACCGCATCGTCACTGATAGTGCTGCCATCCTCTTCAATTTCCGTCGAATGGGGATCGTGATA -ATAATTCAGATCTAATGTTGGTATGACATGAACAGCGGTACGCCATTCGCTGTGTAAACCCAGCCGCGTC -TGAATATCATCACCCTGCGATTGTGACACGCGCGCACGGTTAGCGGCGGTAAAATCATCCTGCTGCACGC -CCTGATAAATCACCTGCGCCTGCGGTTCAATCACCACACCACGCCCCGGTAACCACTGATACCCCGCCTC -CAGCGAGGCGATAATCCCCGACGAGTGGTAATGATCTGTGCCATCTTCTTGTTCGGAAACATCATTGCTA -AACCACGCGTATTGCAGCCAGCTATCCAGCCAGGCCCCTTGCTTCTGATTACCGTGCTGAAACCAGCTTG -ATGTCAGCCCAACGGCATAACCGTGGTTCTGGTTATCGGCGCGAGTTCCGGTCATATTCGAGCGGCTGTC -GCCCTGGTTATCGCTGTAGCCACCAACAATCCCAAGCATCCACTCGCCATCCGTGCCCCAGCGCCCGCTA -AACAGATCGCCGCTAAGTTGCACCGTAGAAGTGTCTTCATGTTGAGCCAGTTGCCCCGCTGCTGTGTAAT -GATAATCTCCGCCGATAACACGTAAATTCAGCGTCTGACCATCGCCACCTGCGTGATCGCGTCGCTCCAT -CATAAACGCCTGATTTGCCGCCCGCAGGTTATTAAGATAACCGCCAACTTTGGCATTCAACACCGGCTGG -TAAGCAGGCGTAGGTTCCGGGTCGGGTGTTGGATCAGGATCCGGCGTGGGATCAGGATCGGGAGTCGGGT -CTGGATCAGGTGGCGATGGCGGCGTTACTTCTTGCGATCGCAGATACCAGTCGTTGTTATCTTCCACCAG -CGTGTAGTCATACGCTCCCATATTGACGTAGCCGCTGCCTGCCAGACTGAACTGCGCATTGTTTTGAAAC -TGCGTGGGATCAGCTGCGAAATCAACCACTTTAATGCCTGTCGATGTCGGCTCACCAATCCCTGTAATGG -AGTTAACCACCACAGTTGTGTTGCCAGCAGTATTACCGTTCATCACCAATTGATCGCTTACCGAGTCATC -GCCGTTTAATTCGCTATCGAGCAGTAGCGTACCGCCGCCGGTATAATCACCGTTTACCGTCAGCGTATCG -CCAGCGACGCCATTTTGCAGGCTAACCGCACCGGACGTATTGGTCAGATTGCCATTAACCGTCACGTTGG -AAAGATAAGTCAGGCTGTCAGTTTCAAGGTTGGTATTAAGCTCACCTGTCAACGTCACACCATCGGTGGC -ATTCACCAGCGTCCCATCGCCGTTAAATAGTGAGGCATTAAGGGCGACGGAAGTATCCTGCCCGGTCAGG -CGCAAAACCGTACCATCGCTGATGTCGATAGTGCCGCTGGAAATAGCATCAATTGACTGAATATCCTGAT -CCGCGCCAGTAACGAACGTTGCCCCATCACCAACCCACAGTGACGAAGCATAAGGAAGGATATCAGCAAC -ATCACCTTTCAGGGTGCCTTCTTCGACACGTACCGCCGACTGCGTTGTACCGCTGGCGGTCAGCTCCAGT -GTACCAGCCCCCGTTTTAGTCAATGTGCTACCCTCATCCTGATGCTGCCCGCTGCTGTCAGCCATCAGTG -CGCCCCACTGCGTGTCTACCCCCGCATCAACTGCCACTTCACCGTCGGCGCGCATTTCAATATCACGTCC -GTGGCCTGCCGCATCTGAACGCGTGTCAACGTCGGAGGTAATCTCCATCACGCTTTCTTGTTGCTTATCG -GTAAAGATAACCTGGCGGTTATAGTGGGTATCTCCAAGCTGCGAGTTGTCGCTCACCATCAGCGTACCGG -AGGCGATTTGTGTTGTGCCCAAATAACTATTATTGTTTGCCAGACTTACCTGCCCGTCGCTCGCATCGAC -CACCACGTAGACGCCATCTTTCCCGTCGCCGCCGATATGCAAATTGTCGCCACCTGCAAGATCTACCACA -TCCTGACTGCCGATAACCGTTCCGCTGCTGCCACTGACTTCAAGGCCATCGTTGTATGATGTGCCGCTCT -GCCAGGTGGAGAAATCAGAGAGATCGAGCACACCGCCGTTTAACACGATCGACTGCGGATCGTCCTGGAG -AGCGGTAAGATCTGCCGCGTCGCCTTCCAGCGAAAGCACCGCACCATCATCAACGACTATATCGCCGGTT -AGCGCCATCGACTGCGCCCCTGCCAGCACGTAGCTGCCGTTTTGCGCAATGGTGAGCTGACCAGCACCTT -CGATGATGCCAGCAAAACTGCCCTGATTAACAGTAACGTTGCCACCAGCATCGATATTTAAAGTGCCATT -CTGAAAGCCCGTCAATGCGTGCACAAAAGTTTGTTGGGTCGAGCCAACGTTTAGCTCAGCCTGATTCTGA -TACTGATCAATACTCCCTATCGTCAGACCGTAGCAGTCTTGCGGATCGTCCTGGCAATGCGTATCGCCGA -CATTCATCAGGGAGTTGCTGCGGCCCAGGGTAACTTCACCGTTTTCAATCTGCATCTCACCAGTAAAGTC -ATTGTTATCTGCATTAAGTACCAGATCGCCGGAACCTGTTTTGGTGATTAACCCGGTACCAGCAATAGAG -TCAACAGCTCCGTCATTCTCTGTATTGCCAATAACCAGCGTTTTTCCGTCGGCAATATCAAAGGTAACTT -CACTTAAGCCGAGATACATAAAGCCACCCGCCGCAGAGGAAGGACCATCTCCATAGCCTGCTGCGCTATT -GTTCTCATCGACTAACACGCCTCCGTTCTGGCTGTAGCTGTCATCAACAGAAATATCAATAAGATAGGGA -GCCGTCACGCTATTGGTATATATCGCCCCGCCATAACCTTCGGCAGTGTTATTTGTAAAGGCAGTGTTAT -TTACTATCGTATAACCTGAAGGATGCTTGCTGTCGCTATTATTATCGGTAACATCGATTGCCCCGCCATC -GCCATCACTGTAACTTGTTGATGTATATGCCTGGTTGTTATCAAAAATAACATCACTTAAATAAACGTCA -TTATTAATGGTATAAATTGCGCCACCTTTGCCATCATTAGCGATGTTATTGCGAAACATGGCGTTAGTGA -CACGTAAATCGACGGCACCAGTATCGTTAGTACCAGAAGAATAGATTGCGCCACCATAGCCGCCTGCGAC -GTTACCGGAAAAAATAACATCAGTAAGATTCAGCGTTGAGTTTTCTTTAGCAAATATGGCCCCGCCGTTA -TTATATTCTCCTGTAACGGTGTTATTGGCAAACAGAGTCATTCCAGTTTCATTTTCTGGTAATAGTGAAA -ATTCCGCTCCTTGTTGCAAAAATACGGCCCCACCGCTGGCGTTATTGGTCATATCCGAAAAAACCAGCCA -TTGCCCATCAGCGATACTCCAGTCCTGCGTAATGCCTGAAAGGCTTTGCCTGCTGGCCTGACAACTCGCT -TTGACATCATATCCCTGGCATGAATCAGTGACCGCCGCGACACCGTTAGCAGAGAAAAGAGATGCAATCA -TTGACGGGAGTAAAGATAAATACTCCTTGCGTAGAAAGATAATCCGCATATTAATCTAACCATCATTTTC -TATAAGACGGCGTATTTAATCGCATTATACGATATGGAATATCTTTCTTTTGTAAATTGTTCAACCCGGT -GCAATGGCTATTTTGTTATTATTTGATGAATAATATCAGTGCGTCATAATTCAAGTTAATAACCTTCAGG -GATATCAGTTATATTTAAACTAAATTAAAGTCATGAATAATTTTCTTATAATATAAGGTAAATTAACAAA -ATGGCTTAGCATTTAACAATAACCGAATAGAAAACAACCATTTCGCCATCAACAATCTCTTACATTCGCT -TATATATTGACCACAACTGATACATCAGATTATGTGATGACTCGTGCTTAGATCAATTTTTGCAATCATT -AGCAAAAAGATTAATAAGCCATCTATATCAATTTATCTAACCTATTATGCCGTTCAAGAAATCGCCGAAC -AGTTATTTTTAACAAATTTTTCTCTTCCCATTGACTTTCCCGGACACCTTGTCTGACCTAAGGTGCGCGA -AAGCCACTTTTTCCTTCCTGAGTTATCCACAAAGTTATGCACTTGCAAGAGGGTCATTTTCACACTATCT -TGCAGTGAATCCCAAACATACCCCCTATATATAGTGTTCTAAGCAGCTTCCCGTACTACAGGTAGTCTGC -ATGAAACTATTGCGGAAAGAATTCCAAAAACAGGTACGACATACATGAATCAGAATCTGCTGGTGACAAA -GCGCGACGGTAGCACAGAGCGCATCAATCTCGACAAAATCCATCGCGTTCTGGATTGGGCGGCAGAAGGA -CTGCATAACGTTTCGATTTCCCAGGTCGAGCTGCGCTCCCACATTCAGTTTTATGACGGTATCAAGACCT -CTGACATCCACGAAACCATTATCAAGGCTGCCGCAGACCTGATCTCCCGTGATGCGCCGGATTATCAGTA -TCTCGCCGCGCGCCTGGCGATCTTCCACCTGCGTAAAAAAGCCTACGGCCAGTTTGAGCCGCCTGCGCTG -TACGACCACGTGGTGAAAATGGTCGAGATGGGCAAATACGATAATCATCTGCTGGAAGACTACACGGAAG -AAGAGTTCAAGCAGATGGACACCTTTATCGATCACGACCGTGATATGACCTTCTCTTATGCTGCCGTTAA -GCAGCTGGAAGGCAAATATCTGGTACAGAACCGCGTGACCGGCGAAATCTATGAGAGCGCCCAGTTCCTT -TATATTCTAGTTGCCGCGTGCTTGTTCTCGAACTACCCGCGTGAAACGCGCCTGCAATATGTGAAGCGTT -TTTACGACGCGGTTTCCACATTTAAAATTTCGCTGCCGACGCCAATCATGTCCGGCGTGCGTACCCCGAC -TCGTCAGTTCAGCTCCTGCGTACTGATCGAGTGCGGTGACAGCCTGGATTCCATCAACGCCACCTCCAGC -GCGATTGTTAAATACGTTTCCCAGCGTGCCGGGATCGGCATCAACGCCGGGCGTATTCGTGCGCTGGGTA -GCCCGATTCGCGGTGGTGAAGCGTTCCATACCGGCTGCATTCCGTTCTACAAACATTTCCAGACAGCGGT -GAAATCCTGCTCTCAGGGCGGTGTGCGCGGCGGTGCGGCAACGCTGTTCTACCCGATGTGGCATCTGGAA -GTGGAAAGCCTGCTGGTGTTGAAAAACAACCGTGGTGTGGAAGGCAACCGCGTGCGTCATATGGACTACG -GGGTACAAATCAACAAACTGATGTATACCCGTCTGCTGAAAGGTGAAGATATCACCCTGTTCAGCCCGTC -CGACGTACCGGGGCTGTACGACGCGTTCTTCGCCGATCAGGAAGAGTTTGAACGTCTGTATACCAAATAT -GAGAAAGACGACAGCATCCGCAAGCAGCGTGTGAAAGCCGTTGAGCTGTTCTCGCTGATGATGCAGGAAC -GTGCGTCTACCGGTCGTATCTATATTCAGAACGTTGACCACTGCAATACCCATAGCCCGTTTGATCCGGC -CATCGCGCCAGTGCGTCAGTCTAACCTGTGCCTGGAGATAGCCCTGCCGACCAAACCGCTGAACGACGTC -AACGACGAGAACGGTGAAATCGCGCTGTGTACGCTGTCTGCTTTCAACCTGGGCGCAATTAATAACCTGG -ATGAACTGGAAGAGCTGGCAATTCTGGCGGTTCGTGCACTTGACGCGCTGCTGGATTATCAGGATTACCC -GATCCCGGCCGCCAAACGTGGAGCGATGGGTCGTCGTACGCTGGGTATTGGTGTGATCAACTTCGCTTAC -TACCTGGCGAAGCACGGTAAACGCTACTCCGACGGCAGCGCCAACAACCTGACGCATAAAACCTTCGAAG -CCATTCAGTATTACCTGCTGAAAGCCTCTAATGAGCTGGCGAAAGAGCAAGGCGCGTGCCCGTGGTTTAA -CGAAACCACTTACGCGAAAGGGATCCTGCCGATCGATACCTATAAGAAAGATCTGGATACCATCGCTAAT -GAGCCGCTGCATTACGACTGGGAAGCTCTGCGTGAGTCAATCAAAACGCACGGTCTGCGTAACTCCACGC -TTTCTGCTCTGATGCCGTCCGAGACTTCTTCGCAGATCTCTAACGCCACTAACGGTATTGAACCGCCGCG -CGGTTACGTCAGCATCAAAGCGTCGAAAGACGGTATTTTGCGCCAGGTGGTGCCGGACTACGAGCACCTG -CACGACGCCTATGAGCTGCTGTGGGAAATGCCGGGTAACGATGGTTATCTGCAACTGGTGGGTATCATGC -AGAAATTTATCGATCAGTCGATCTCTGCCAACACCAACTACGATCCGTCACGCTTCCCGTCAGGAAAAGT -GCCGATGCAGCAGTTGCTGAAAGACCTGCTCACCGCCTACAAATTCGGGGTCAAAACACTGTATTATCAG -AACACCCGTGACGGCGCTGAAGACGCACAAGACGATCTGGTGCCGTCAATCCAGGACGATGGCTGCGAAA -GCGGCGCATGTAAGATCTGATATTGAGATGCCGGATGCGGCGTAAACGCCTTATCCGGCCTACGGCTCGG -TTTGTAGGCCTGATAAGACGCGCCAGCGTCGCATCAGGCTCCGGGTGCCGGATGCAGCGTGAACGCCTTA -TCCGGCCTACGGCTCGGATTTGTAGGCCTGATAAGACGCGCCAGCGTCGCATCAGGCACAGGATGCGGCG -TAAAATGCCTTATCCGGCATTAAACTCCCAACAGGACACACTCATGGCATATACCACCTTTTCACAGACG -AAAAATGATCAGCTCAAAGAACCGATGTTCTTTGGTCAGCCGGTCAACGTGGCTCGCTACGATCAGCAAA -AATATGACATCTTCGAAAAGCTGATCGAAAAGCAGCTCTCTTTCTTCTGGCGTCCGGAAGAAGTTGACGT -CTCCCGCGACCGTATAGATTACCAGGCGCTGCCGGAGCACGAAAAACACATCTTTATCAGCAACCTGAAA -TATCAGACGCTGCTGGATTCCATTCAGGGTCGTAGCCCGAACGTGGCGCTATTGCCGCTTATTTCTATTC -CGGAACTGGAAACCTGGGTCGAAACCTGGGCGTTCTCAGAAACGATTCATTCCCGTTCCTATACTCATAT -CATTCGTAATATCGTTAACGATCCGTCTGTTGTGTTTGACGATATCGTCACCAACGAGCAGATCCAGAAA -CGTGCGGAAGGGATCTCCAGCTATTACGATGAGCTGATCGAAATGACCAGCTACTGGCATCTGCTGGGCG -AAGGTACCCACACCGTTAACGGTAAAACTGTGACCGTTAGCCTGCGCGAGCTGAAGAAAAAACTGTATCT -CTGCCTGATGAGCGTTAACGCGCTGGAAGCGATTCGTTTCTACGTCAGCTTTGCTTGTTCCTTCGCATTT -GCAGAACGCGAATTGATGGAAGGCAACGCCAAAATTATTCGCCTGATTGCCCGCGACGAAGCCCTGCACC -TGACCGGCACCCAGCATATGCTGAATCTGCTGCGCAGCGGCGCGGACGATCCTGAGATGGCGGAAATTGC -CGAAGAGTGTAAGCAGGAGTGCTATGACCTGTTTGTTCAGGCAGCTCAACAGGAGAAAGACTGGGCGGAT -TATCTGTTCCGCGACGGTTCGATGATTGGTCTGAATAAAGACATTCTCTGCCAGTACGTTGAATACATCA -CCAATATCCGTATGCAGGCAGTCGGTTTGGATCTGCCGTTCCAGACGCGCTCCAACCCGATCCCGTGGAT -CAACACTTGGCTGGTGTCTGATAACGTGCAGGTTGCTCCGCAGGAAGTGGAAGTCAGTTCTTATCTGGTC -GGGCAGATTGACTCGGAAGTGGACACCGACGATTTGAGTAACTTCCAGCTCTGATGGCCCGCGTTACCCT -GCGCATCACTGGCACACAACTGCTGTGCCAGGATGAACACCCTTCCCTTCTGGCGGCGCTGGAATCCCAC -AATGTGGCGGTTGAGTACCAGTGTCGCGAAGGTTACTGCGGCTCCTGTCGCACACGCCTGGTTGCAGGTC -AAGTTGACTGGATTGCCGAACCGTTAGCCTTTATTCAGCCGGGGGAAATTTTGCCCTGTTGTTGCCGGGC -AAAAGGCGATATTGAAATCGAGATGTGAATTGGTTGTAGTGCCAGATACAACGCTTATGCGTCTTATCTG -GCCTACAACGATTACATGGCGTAGTAATACGCTTTCACCTGCTCCCAGTCCGCTTTGGGGATTGGCTCCA -GATATTTTTCCAGCTGGCGGAAGTCATGATTAATCGCTTTATCGCGACGCAAGCGGCGACGACTTTTCTC -CAGGTCAAGAAAACCAGCTTCTGCATTACCTTCTGTTTTCACATAGATATGGCGAACATAACAACAGCCA -TGCTGACGATTAATGCTATGCATTTTCTTAAACGCCAGCGCCACTGCTTTCAACATGGCTTGCCGTACTT -CGTCAGAATAAGGCGATACTGCATGCTGGGCATACCAGTCAGCAATGCTGATGAACCCCGCCATATCTTC -AGTCACCAGCAACGCTCGCCATTCACCCTCAATTTTCACCGCTTCACCAAAAACGATCTTCGGCACGATG -ACACCGGCCCGTTCCAGTTCTTTAATTACCGCAACCTCACGGACAATCGTTGGTCGGCCGAACGGATAAC -GTACGGAATGAAACAGATGATGCGTCATGCGCTTTACATACAGCTTTTTGCCGTTGCGCTCGACGCATTG -CACCCCGCTCATACCATTACGGCGATAGTTAGGCTCTTCAACCCAGTCGCCCTCTGTTGCCCACCAGTGA -TTAAATTCGTCGTACTTTGCTGAAACTGCCATACCCTATCGCCTGTCATTTTTATTAACGACAATGACTA -TAGGTGGTTACCTGAGGAAAATCTTAATGAAACGTGTCGTATTAATGAATTTCTTTTGCCACTACTAGCT -TGACACCGCTTTTACCCTTCATTTGCAGCGCATAGATTCCACCAGCCACTACCACTAATAGTGCGCCCAG -CAGATAAAATGTGAATTTAATCAGGCGGATACAGCGATGAATTTTATTCGACAGGGATTAGGCATCGCCT -TACAACCAGAGTTAACGCTGAAAAGCATTGCAGGTGAATTGTGTTCCGTTCCTCTCGAACCAACTTTCTA -TCGACAGATTTCGTTGCTGGCTAAAGAAAAGCCGGTAGAAGGCAGTCCACTGTTTTTACTACAAATGTGC -ATGGAACAATTAGTGGCGATTGGAAAAATTTGATATGAGACAGGATGGCGCATGAACGCCATCCTGCAGT -AACATTACTCTTTATTAAGAAATTTTACTGCCTTATCAGGGAAATCAGTAAACAGCCCATTTACACCCGC -TTTGTTATACAGAGCATCATATAACTGATTCACATCAGGAGTGTATTCAGGCAGTTTATCTGACCGCACG -GTATAAGGATGCACTACCAGTTTATTCTGCTGAGCATCTTGCACCATGCCAGTGAGTTTGATATTACCCG -GCTGCGATGTCTCCTCAATCAACATATGGTAATCCGGACCAATACCATCTGCATATTCCGCCACCTGTTT -CATGGCACCCGGCTTAAACATCCAGTCGTAGTTGTAATTAACCCAGCTTCCATCCGGCTGTTTCTGCTGC -GTTTCATTCCAGTCGGTATAGGCAATCAGCTGTACCAGATTGAGCTCCATGCCCATTTTGGGTTCCAGCT -CATTCTTAATACGCTTCAGCTCATCAGCATCAAAACATTGCAAATAAACTTTATCGTCTTTACCGGTGTA -ACCATATTTCTTCAGCACTTCCAGCGTTTTTGCCGCAATATCCTTCCCTTCCTGATGATGGAACCACGGC -GCTTTGATTTCTGGATAAATACCGATATTTTTCCCGGTAGAGTGATTTAACCCCTGAACAAATTCAATCT -CTTCTTCAAAGGTGTGCACCCGGAAGTCGGACTTACCCATTGGGAAACGCCCCGGATAAGTCTGCACTTT -TTTACCGTTTTCAATATCGAAACCTTCGGTAAATTTCAACGACTTAATTTCATCCAGCGTGAAATCTATC -GCGTAGTAACGACCGTCTTTGCGCGCCCGATCCGGGAAACGATCGGCAACATCAGTAACACGATCGAGGT -AATGGTCATGCAGAACAACCAGATTGTCGTCTTTGGTCATCACCAAATCCTGTTCCAGATAATCCGCTCC -CTGCGCATACGCCATCGCTTTTGCTGGCAGCGTATGCTCCGGCAAATATCCACTGGCACCGCGATGGGCG -ATGACTATTTTTTCGTTGCTGTCCGCCGCCATTGCACTGCTTCCCATGACTATAGTGCTCATCATGATCG -CCATGCTAAGGTTTTTCAGCGTCAATTTCATGCCATTAGCCTCCGTTGCGTTCTTGCAGTAATTGTTCAT -GGCGACGTTTTTCGCCAATCATCACAACAATCAACAAGATAACCGCCAGAATGCTGCCGCCAATCATTAC -CATAAAGCCGCCATCCCAGCCGAAGAAGTCCACGGTGTAGCCAACAATCGCGCTCGCCGCCACCGAACCG -CCCAGGTAACCAAACAGCCCGGTAAAGCCCGCTGCCGTACCTGCCGCTTTTTTCGGTGCCAGTTCCAGCG -CATGCAGACCGATCAGCATCACAGGACCGTAGATCAGGAAGCCGATAACAATCATACAAATCATATCGAC -GGTTGGGTTACCTGCCGGGTTCATCCAGTAAACGATAGTCGCGATGGTCACCAGTGTCATAAAGAAAACG -CCGGTTGCCCCACGGTTGCCACGGAAGACTTTATCCGACATCCAGCCGCACAGCAGAGTGCCCGGAATAC -CTGCATATTCATAAAGGAAGTAGGCCCAGGAGGATTTATCTAGCGCGAAATGCTTAACCTCTTTCAGATA -AGTCGGTGACCAGTCGAGGATGCCGTAACGCAGCAGATAAACGAACACGTTGGCGATGGCGATATACCAC -AGCAGTTTGTTCGGCAGTACGTACTGCATGAAGATTTGCTTCGCCGTCAGCTCCTGTTCCGCTTTTTCGT -TATAGTCGTCCGGATAATCATTTTTGTACTCTTCGATCGGCGGCAAGCCACAGGATTGCGGGGTATCGCG -CATCATCGCAAAGGCGAATAATGCCACCAGAATGGCGCAGAAAGCAGGCATATAGAGCGCCGCATGCCAG -TCATTGAACCAGGCCATCCCCAGCAGGAACAGCAGCGGCGGAATACCACCACCGACGTTGTGCGCACAGT -TCCACACTGACACAATGCCGCCACGTTCTTTCTGCGACCACCAGTGCACCATAGTACGACCACACGGCGG -CCACCCCATCCCCTGGAACCAACCGCAGAGGAACAACAGTACAAACATCACCGCAATGCTCGACGTCGCC -CATGGCACAAAGCCCATAAACAACATCACTGCCGCCGCCAGAATCAAACCTGCGGGCAGGAAAACGCGCG -GATTCGAGCGATCCGATACCGAACCCATGATGAATTTCGAAAATCCATAAGCAATCGAGATCCCCGAAAG -GGCAAAACCTAAATCACCGCGTGAGAATCCCTGCTCAACCAGATAAGGCATAGCAAGCGCAAAGTTCTTA -CGAACCAAATAGTAAGCCGCATAGCCAAAGAATATCCCCAGGAAAATTTGCCAGCGCAATCGACGATAAG -TCGGATCGATCTCCGCGGCAGGTAAGCGCGCTTTGTGTGGCGCTGGTTTAAAAATACTCAACATTGATAG -CCTCCGTGGCCCGTGGTCTTATTTATGATTAACAGCCTGATTCAGTGAGAGAACCTGCCGTTTCTTGAGT -TGCCGCGATGTTAAGAAAACATTCATAAATTAAATGTGAATTGCCGCACACATTATTAAATAAGATTTAC -AAAATGTTCAAAATGACGCATGAAATCACGTTTCACTTTCGAATTATGAGCGAATATGCGCGAAATCAAA -CAATTCATGTTTTTACTATGGCTAAATGGTAAAAAACGAACTTCAGAGGGATAACAATGAAAACTCGCGA -CTCGCAATCAAGTGACGTGATTATCATTGGCGGCGGCGCAACGGGAGCCGGGATTGCCCGCGACTGTGCC -CTGCGCGGGCTGCGCGTGATTTTGGTTGAGCGCCACGACATCGCAACCGGTGCCACCGGGCGTAACCACG -GCCTGCTGCACAGCGGTGCGCGCTATGCGGTAACCGATGCGGAATCGGCCCGCGAATGCATTAGTGAAAA -CCAGATCCTGAAACGCATTGCACGTCACTGCGTTGAACCAACCAACGGCCTGTTTATCACCCTGCCGGAA -GATGACCTCTCCTTCCAGGCCACTTTTATTCGCGCCTGCGAAGAAGCAGGGATCAGCGCAGAAGCTATAG -ACCCGCAGCAAGCGCGCATTATCGAACCTGCCGTTAACCCGGCACTGATTGGCGCGGTGAAAGTTCCGGA -TGGCACCGTTGATCCATTTCGTCTGACCGCAGCAAACATGCTGGATGCCAAAGAACACGGTGCCGTTATC -CTTACCGCTCATGAAGTCACGGGGCTGATTCGTGAAGGCGCGACGGTGTGCGGTGTTCGTGTACGTAACC -ATCTCACCGGCGAAACTCAGGCCCTTCATGCACCTGTCGTGGTTAATGCCGCTGGGATCTGGGGGCAACA -CATTGCCGAATATGCCGATCTGCGCATTCGCATGTTCCCGGCGAAAGGATCGCTGCTGATCATGGATCAC -CGCATTAACCAGCATGTGATCAACCGCTGCCGTAAACCTTCCGACGCCGATATTCTGGTGCCTGGCGATA -CCATTTCGCTGATTGGTACCACCTCTTTACGTATTGATTACAACGAGATTGACGATAATCGAGTGACGGC -AGAAGAGGTTGATATTCTGCTGCGTGAAGGGGAAAAACTGGCCCCCGTGATGGCGAAAACGCGCATTTTG -CGGGCCTATTCTGGCGTGCGCCCGCTGGTTGCCAGCGATGACGACCCGAGCGGACGTAACGTCAGCCGTG -GCATCGTGCTGCTCGACCATGCTGAACGCGATGGTCTGGACGGATTTATCACCATCACCGGTGGCAAACT -GATGACCTATCGGCTGATGGCTGAATGGGCTACCGACGCGGTATGCCGCAAACTGGGCAACACGCGCCCC -TGTACGACTGCCGATCTGGCACTGCCTGGTTCACAAGAACCCGCTGAAGTTACCTTGCGTAAAGTCATCT -CCCTGCCTGCCCCGCTGCGCGGTTCTGCGGTTTATCGTCATGGCGATCGCACGCCTGCCTGGCTGAGCGA -AGGCCGTCTGCACCGTAGCCTGGTATGTGAGTGCGAAGCGGTAACTGCGGGTGAAGTGCAGTACGCGGTA -GAAAATTTAAACGTTAATAGCCTGCTGGATTTACGCCGTCGTACCCGTGTGGGGATGGGCACCTGCCAGG -GCGAACTCTGCGCCTGCCGCGCTGCCGGACTGCTGCAACGTTTTAACGTCACGACGTCCGCGCAATCTAT -CGAGCAACTTTCCACCTTCCTTAACGAACGCTGGAAAGGCGTGCAACCCATCGCCTGGGGAGATGCACTG -CGCGAAAGCGAATTTACCCGCTGGGTTTATCAGGGATTGTGTGGTCTGGAGAAGGAGCAGAAAGATGCGC -TTTGATACTGTCATTATGGGCGGCGGCCTCGCCGGATTACTCTGTGGCCTGCAACTGCAAAAACACGGCC -TGCGCTGTGCCATTGTCACTCGTGGTCAAAGCGCACTGCATTTCTCATCCGGATCGCTGGATTTGCTGAG -CCATCTGCCAGATGGTCAACCGGTGACAGACATTCACAGTGGACTGGAATCTTTGCGTCAGCAGGCACCA -GCCCATCCTTACTCCCTTCTCGAGCCACAACGCGTGCTCGATCTCGCTTGCCAGGCGCAGGCATTAATCG -CTGAAAGCGGTGCGCAATTGCAGGGCAGCGTAGAACTTGCTCACCAGCGGGTTACGCCGCTCGGCACTCT -GCGCTCTACCTGGCTAAGTTCGCCAGAAGTCCCCGTCTGGCCGCTGCCCGCGAAGAAAATATGTGTAGTG -GGAATTAGCGGCCTGATGGATTTTCAGGCGCACCTTGCGGCAGCTTCGTTGCGTGAACTCGGCCTTGCCG -TTGAAACCGCAGAAATAGAGCTGCCGGAACTGGATGTGCTGCGCAATAACGCCACCGAATTTCGCGCGGT -GAATATCGCCCGTTTCCTTGATAATGAAGAAAACTGGCCGCTGTTACTTGATGCGCTTATTCCTGTCGCC -AATACCTGCGAAATGATCCTGATGCCCGCCTGCTTCGGTCTGGCCGATGACAAACTGTGGCGTTGGTTGA -ATGAAAAACTACCTTGTTCACTGATGCTTTTGCCAACGCTGCCGCCTTCCGTGCTGGGCATTCGTCTGCA -AAACCAGTTACAGCGCCAGTTTGTGCGCCAGGGTGGCGTGTGGATGCCGGGCGATGAAGTGAAAAAAGTG -ACCTGTAAAAATGGCGTAGTGAACGAAATCTGGACCCGCAATCACGCCGATATTCCGCTACGTCCACGTT -TCGCGGTTCTCGCCAGCGGCAGTTTCTTTAGTGGCGGACTGGTAGCGGAACGTAACGGCATTCGAGAGCC -GATTCTCGGCCTTGATGTGCTACAAACCGCCACGCGGGGTGAATGGTATAAGGGAGATTTTTTTGCGCCG -CAACCGTGGCAGCAGTTCGGTGTAACCACTGATGAGACGCTACGCCCGTCACAGGCAGGGCAAACCATTG -AAAACCTGTTTGCCATCGGTTCGGTGCTGGGCGGATTTGATCCCATCGCCCAGGGATGCGGCGGCGGTGT -TTGTGCCGTCAGTGCTTTACATGCCGCTCAACAGATTGCCCAACGCGCAGGAGGCCAACAATGAATGACA -CCAGCTTCGAAAACTGCATTAAGTGCACCGTCTGCACCACCGCCTGCCCGGTGAGCCGGGTGAATCCCGG -TTATCCAGGGCCAAAACAAGCCGGGCCGGATGGCGAGCGTCTGCGTTTGAAAGATGGCGCACTGTATGAC -GAGGCGCTGAAATATTGCATCAACTGCAAACGTTGTGAAGTCGCCTGCCCGTCCGATGTGAAGATTGGCG -ATATTATCCAGCGCGCGCGGGCGAAATATGACACCACGCGCCCGTCGCTGCGTAATTTTGTGTTGAGTCA -TACCGACCTGATGGGTAGCGTTTCCACGCCGTTCGCACCAATCGTCAACACCGCTACCTCGCTGAAACCG -GTGCGGCAGCTGCTTGATGCGGCGTTAAAAATCGATCATCGCCGCACGCTACCGAAATACTCCTTCGGCA -CGTTCCGTCGCTGGTATCGCAGCGTGGCGGCTCAGCAAGCACAATATAAAGACCAGGTCGCTTTCTTTCA -CGGCTGCTTCGTTAACTACAACCATCCGCAGTTAGGTAAAGATTTAATTAAAGTGCTCAACGCAATGGGT -ACCGGTGTACAACTGCTCAGCAAAGAAAAATGCTGCGGCGTACCGCTAATCGCCAACGGCTTTACCGATA -AAGCACGCAAACAGGCAATTACGAATGTAGAGTCGATCCGCGAAGCTGTGGGAGTAAAAGGCATTCCGGT -GATTGCCACCTCCTCAACCTGTACATTTGCCCTGCGCGACGAATACCCGGAAGTGCTGAATGTCGACAAC -AAAGGCTTGCGCGATCATATCGAACTGGCAACCCGCTGGCTGTGGCGCAAGCTGGACGAAGGCAAAACGT -TACCGCTGAAACCGCTGCCGCTGAAAGTGGTTTATCACACTCCGTGCCATATGGAAAAAATGGGCTGGAC -GCTCTACACCCTGGAGCTGTTGCGTAACATCCCGGGGCTTGAGTTAACGGTGCTGGATTCCCAGTGCTGC -GGTATTGCGGGTACTTACGGTTTCAAAAAAGAGAACTACCCCACCTCACAAGCCATCGGCGCACCACTGT -TCCGCCAGATAGAAGAAAGCGGCGCAGATCTGGTGGTCACCGACTGCGAAACCTGTAAATGGCAGATTGA -GATGTCCACAAGTCTTCGCTGCGAACATCCGATTACGCTACTGGCCCAGGCGCTGGCTTAAACTCCTTTC -TGATGCCCGGTAAGCATGTGGTTACCGGGCATTTTTGCGTACACGATTCCGTGCCCAATGTATGCGTTGC -AACGCAGTGAAAATTCCTCTGAAAACGTCTCGCAAAGGCTGAAACTGGCAGATGTCAAAGGCCTGGGATA -ACCGTAATGTCGCGTCATCATAAATATCAGGTGACGGACAACCATGACCGAATCAACAACCTCCTCCCCG -CATGATGCGGTATTTAAAACCTTTATGTTCACACCCGAAACCGCACGGGATTTTCTCGAAATACATTTAC -CAGAACCACTGCGCAAGCTTTGCAACCTGCAAACCTTACGCCTGGAACCCACTAGTTTTATTGAAAAAAG -TTTACGCGCTTACTACTCGGATGTTTTGTGGTCCGTGGAAACCAGCGACGGTGACGGCTATATCTACTGC -GTGATTGAACATCAAAGCTCTGCAGAAAAGAATATGGCTTTTCGGCTAATGCGCTATGCCACTGCCGCCA -TGCAGCGTCACCAGGACAAAGGCTATGACAGAGTCCCGCTGGTGGTGCCGTTGCTGTTTTATCATGGCGA -AACCTCGCCTTACCCGTACTCACTCAACTGGCTGGATGAGTTTGACGATCCGCAACTTGCCCGGCAGTTG -TACACCGAAGCTTTTCTGTTGGTGGATATCACCATCGTACCTGACGATGAGATCATGCAACATCGGCGTA -TAGCTCTGCTGGAACTGATTCAAAAGCATATTCGCGACCGCGATTTAATCGGCATGGTCGACAGGATCAC -CACGCTTTTGGTTAGAGGCTTCACTAATGACAGCCAGCTACAAACACTGTTTAATTATCTGCTGCAATGC -GGCGATACCTCCCGTTTCACCCGTTTTATTGAGGAGATTGCCGAACGTTCACCACTACAAAAGGAGAGAT -TAATGACTATTGCTGAACGGCTACGGCAGGAAGGGCATCAAATTGGCTGGCAGGAAGGTATGCATGAACA -AGCCATTAAAATTGCTTTGCGCATGCTGGAGCAGGGCTTTGAACGTGAGATTGTGCTGGCGACAACCCAA -CTCACTGATGCTGATATTCCGAACTGTCATTAAAAGGAGAGATTAATGACTATTGCTGAACGGCTGCGGC -AGGAAGGACATCAAATTGGCTGGCAGGAAGGTAAATTAGAAGGTTTGCATGAACAAGCCATTAAAATTGC -TTTGCGCATGCTGGAACAGGGCTTTGATCGTGACCAGGTGCTCGCGGCCACCCAGCTAAGCGAAGCCGAT -CTGGCAGCGAATAACCACTAATTAACACAGGCCCACAGCCGATCCCCATGGGCCTTTGATATCAATAACT -ACCTTTTATGCGTGGCCCATTTTTGCCTGATTTAAACATCGCCAGTCGTTGATCCAGGGCATCGCTGTAG -AGCATCGTGTCAACGCCAACAGCGACAAAGTTCGCTCCCCACGCCAGGCATTGCTGCGCCATATCAGGAG -CCACAGCCAGAAAACCAGCCGCTTTACCCGCAGCACGGATCCGCCGAATACTGGTTTCAATAATTCGCTG -CACTTCCGGGTGCCCGGCGTTATCCGGGTAGCCCAACGACGCAGAAAGATCCGCAGGTCCAATAAACACG -CCATCAATCCCTTCGACGTCGAGGATTTCGTCCAGGTTATCCAGTGCCGTTTTACTTTCCACCTGCACCA -ACAGACAAAGCGAATCGTTAACTTGCGCCATGTAATTCTCAATGCGTCCCCAGCGCGCAGCCCGTGCCAC -ACTGGCCCCGACACCACGCTCACCGTAGGGAGGATAGCGCGTGGCAGACACCACCTGACGTGCCTGTTCG -GCAGTATCGACCATCGGGATCAGTAGAGTTTGCGCGCCAATATCCAGGACTTGTTTAATCAGCGGTTTAC -TGCCTTCCACCGGACGGATCACGGGTTGGCTGGCATAGGGCGCTACCGCCTGTAGCTGATGATAAAGATC -CTGAATGGTGTTTGGCGCGTGCTCCCCGTCAATCAGCAACCAGTCATAACCAGAAGTGGCGGCAATTTCT -GCCATATAGGCAGTCGTTGAGCTTAACCACAGACCAATTTGCACTTCGCCCTTGCGTAAACGTTCTTTAA -AGGGATTGCTTAATAATGCGTTCATCGTGTTCCTTAACCTATTTAATGATGTGCCACGTCGGTCTGCGCA -ACAGTGCGATTTACACGCAGAGTGAAAATAATCAGCGAACCGATGACCGCCACCGCTGCCAGCGTCAGTA -ATCCCGCCGCATCGCTGGCAAATAACGTTTCTGCTTTCACGCGCAGGATCGGGGCAATAAACCCGCCCAC -TGCACCAAACAGGTTTACAAAACCAATTCCCGCAGCCAGCGCCGTACCGGAAAGCAGTTGTGTCGGCATC -GTCCAGAACACTGGCTGCACGGCAATAAACCCGATAGCTGCAACACACAGCGCTACGATCGCCATTACTG -GAGAAAGCAGCCCGGACAGACCAATACCAATGCCCGCCGCCAGTAATGTCAGCGCTGCGACATTACGCCG -TTCGCCGGTTTTATCGGAATAGCGCGGAATAAGCCAGGTCCCAAACAAGGCCGCAACCCACGGAATGGCG -GTGACCACCGACGCTGTAAAGCCCACTTTTGTTCCCAGCAATGCCGCAACCTGGGTCGGCAGGAAGAAAA -TTAATCCGTAAACCGCCACCTGAATGGTCAGGTAGATAATCGCTAGTTGCCAGACTCGGCCATTACGCAG -CGCATCGCTCAGCCGAGAAGTCACTTTCTGTTGTTCTTCACTTGCCAGTTGATTGATAAGCAACGTTTTT -TCTTGTTTACTCAGAAAACGTGCCTGCTCCGGTGTGTCATCAAGCCAAAAGAATGTGAATACCCCAGCAC -CGACTGCCAACAATCCTTCAATCACAAACATCCAGAACCAGCCGGGATGCCCCATAAATCCATGCATCTC -CAACAGCGCGCCGGAAAGCGGTGATCCCAGTGTTAACGCCAGCGGTGCGCCCATATAGAACAGCCCCATA -ATGCTGGCGCGATTACGCTGCGGAAACCATTGCGAGGTGAGATAAATCATACCAGGGAAAAATCCGGCCT -CCGCAGCACGAAGCAGAGTGCGAACTATCAGAAATTTCGCTTCAGTATCGGCCCATGCCATGGCTGCCGA -AAGAAATCCCCACAGCAGTGTTGTCGTACCAATCCAGGTTCTGGCCCCCAGTTTGCGCATCAAAAGATTC -GCCGGAACACCCAGAAACGCATATACCACAAAGAAAATGCCTGCTCCCAGCGCATAAGCTTCATTACTCA -ACCCGGTATCAATCTGGTAGGTCTGTTTGGCAAAACCGATATTCGAACGGTCGAGAAACGCCAGCACATA -CAGCGCCAACATAAACGGAATTAAACGCACACGGTTTTTCTTCACCACGGCGTCAAGCAAAGCGGTGCTC -ATAAAAAGCTCCTTAGAATATGTGGGCGTTACCGTTGTCACAGCAACGCCCGGAGTGATTAGTGGCTGTA -GGGGCGTTTCAAATTGCAGTCACGATTGAGTTCGACGCCAAAACCGGGTTTATCAAGCACTGATTTATGA -ATACGACCATTCACCGGAACCGGCTCATTGAGCAGAATCGGGTCAAACTGCGGACGCATCGTTGAACAAT -CCGGGCTGGTCATCAGGAATTCGCTGAATGGCGTATTGGTGAAGGTGATCACCGCATGGTGAGAGTAAAC -AGACGAACCGTGCGGCACCACCAGTTGCCCCCTGGATTTGGCGATTGCGGCAATTTCCACCAGCGTGGTT -AAACCACCGCACCAGCCAACATCCGGCTGCATAATGTCGATACCGGTTTCTGAAAGCGTACGAAAAGATT -GCAGTGTGCCGTGGTGCTCACCGCTGGTGACCATCATTCCGACTGGCGCGTTGCGTTTCAGTTCGCGATA -ACTTTCATACTGCTGTGGCGGCAGGCACTCTTCGATCCATTTCAGGTTATAGGGCGCGCAAGCGTGGGCC -AGTTTGGTCGCATAGTTCACGTCCTGACTCATCCAGCAGTCGAGCATTAACCAGAAATCCTCACCGCATT -TTTCACGCATATCCGCGACCATAGCGGCATCTTTGCGGATCCCCGCATCGCCATCATGTGGCCCCCAGTG -CGTCGGCATTTTGCCACCGATAAAGCCCATCTCTTTTGCCAGATCCGGACGCGCACCTGTGGCGTAGAAC -TGAATCTCATCACGAACAGCGCCGCCTAAAAGTTTATAAACCGGAAGCCCGACCACTTTGCCGAACAGAT -CCCACAGAGCCAGATCGACACAAGAAATCGTATTCATCACCAGGCCACCAGAGCCGGAGTAATACAGGGT -GGCACTGAGCATTTGATCGTGGATCAGTTTGATATCACTGACACATTTACCCTCAATGAAACGGTTAAGA -TGTTTTTCGACAATAAAACAGCCCATTTCACCGGCTGTCGAAACGGCGAATCCGGTCTGGCCGTTTTCTG -CTTCGACTTCAACAACCAACGTGCCAAGAACGTTAATGCCAAATGACTGGCGTGACTGCTCGTAATCGCG -GTATTTACTCATCGGGGTGGCAATATGATCGTCTATCCAGTGATTCGCCCCCTGGTCGTGATAATCACCG -CCGCCAGCGCCTTTTTCTGCTGTCGCACCGCCAGTAAACCAGGCGCGAACCTGTTTAATTTTTGGTAGGG -TCATGATGTTCTCCATTGTTATGAGGCTTGTAAGTCAAAGGGACTTTTCCATCCCAACAGACGTGAAATA -TCCCTGGCGCAGGCAATGGCCTTGCCCGCCAGATAATCACGGTATTCTTCATTGATTTGTAAGCGGGTAC -CGACCACCGAGATCGCAGCGGTAAGCTCGTTATTGGCGTTAAACACCGGCGCAGCGACACAACGGACATC -GGCGTAATCTTCGCCGTTGTCATAGCTCCAGCCCTGACGGCGAATACGCGCCAGTTCTTCGTGAAGTTGC -TGTGGATGAGTAATCGTTGTGGGTGTCGCCTGCTCCCAGACCAGCCCTTCGATAATACTTTGCTGTACCG -CTGCAGGTTGCCAGGCAAGCAGGCATTTACCTATTCCGGAGCGATAAAGCGAAAGGCTTTTTCCTTCATG -GGAACGCACGCTGATAGTGGCTGATGACTCCACTTTCAAAATGTAATAAGCGCTGCCGTTATCAATAATC -CCCAGGTGACATAACAGCCCGGTGGTATCCATCAGTTGCGTCAAACGCGGTCGAGCCAGTTCCCGGAGAT -CCATCTTGCTTAACGCATGACCGGAAAGCTCCACCAGCCTGGTCCACAAACAAAAATTTTCCTGGTGATC -AAGGCTAAGAAAACGCTGACGCCTGAGTTCATTAAGCAGCAAATAGGCCGTGCTTTTAGGGATTCCCAAT -GTGTCAATGATCGTCGCAGCACTACAGGGGCCAATGCGGGCAATCAAATTGAGAATATCAATAGCCCGTG -TCAGGGCGGGAACTTTGCTTGATTCCAACATACTGGACTCCAGTCTTAGATACTGGAATCAGTCTCGTTG -CTCAGGGGGAGTAAAATTGTGAAGCGCATCAAATCCCGCTCCTCGTCCAGCAGACTGGAGAAATTACGCA -CAAATTTGTGAATCAGCGCACGGATTTTTTCTTATTGAGTACAACAGGTTGGACAAATTTTGCCGGAGGG -GGAATGTGCCGGTGCAGTAAACCGGCACAGAGTGGCGGAATCAGACAGATAAGGTCATGGACTCAACAAC -CTCAATCCAGCCATGCTCACTGGCGATATCCTGGCCGTTTAACCAACGGCGCAGCATATTCAGTGCCATC -ATTGCGCACACTTCCTGACGGATAGCCAGGCTGTAGCGCGTAGTGCTGAAACGCACACGCAGAGCGAAAG -TGCCGTCTGGCGTGGCTAGCGCAAAGTTGAGATGCTCGTTCTCGAAACCCGAAACAGCCAGTGCCAGCCC -GGCAAAATGGTTGGCCCGCCGTTCTGTAATCCAGTGCGCAGTTTGCGCCAGGGTTTCCTCCTGTGAAGGA -ACCACTTCACACGCCAGCAATGGAGCACCTGCGCGAGAAAGTTGCAAAGCCAATAAACCACCGGTGAATT -GCTCGCTCAACGTCAGGCTGAACTGGCGGTTTTGCAATTCGCGACTGATCTGCGCGGGCAGTCCTTCAGT -GCCTTCGAAAATCACGCTCTGTCCGGCAACACGTTTAACATCCAGCCACAGTTTTTCCATCGCCTGTTGC -TCGCTTGCCGGTCCGGTGAGTTTCAGTTCGATGATAGGCATTGAGGAGCGATAGCCCATTGTTACGCCCG -GCGGCAGTTGTAGAGTGTCCAGGCTTTGTGCCAGATCGCTTTCCGAACGACCAAAAGTAGTCAAACGCAG -ACAAACCGGCGGCTGCGGTAAAGAAAAACGCTCGCGCAGGCGCGGCAGGATTTCGTGCTCGACCATCACC -TTAAATTCTGACGGTACGCCGGGAGTAAAGAACATCAGGCAACGATTAAGCTGCACGGCAAAACCACAGG -CGGTGCCTACCGGGTTATTGATAAATTCAGCACTGGCAGGCAGCTCCGCTTGTTTACGGTTGCTCGGTGC -CATTACTCGTCCACGTTCGTGGAAATAGCGTTCCATCTCTTTGAGCCAGGCTTCATGCAGCACCAGGCCT -TCACCTTTTGCTGTCGCAGCGGCGAGTGCGCTTAAATCATCGCTGGTCGGTCCCAGCCCGCCGTTAACGA -TCAGCACATCGGCGTGCTGACTACGTTCGCGAAGAATGGTGACTAAGTCATCAAGGTTATCCCCCACCGT -ATTGCGGCGAGATAATGGCAACCCCTGATGAAAGAAAAAATCGGCCAGCCAGGCAGCGTTAGTGTCAACG -ATTTGCCCGTGTAACACTTCATCCCCGGTGGATAACATTTCCACTTTTAACATGGTTATCTCCTGCTTTT -GTTATCGAATCACTATAACGCAAAGGGAGATAAGGCGTAGTAAGAAACTGAATGGCGCGACAGAATGCCG -CGCCGGAAGGGATCAGAAACTGGCGTTAACCCCAACATACGGGCCGTCAGCCACGGCGTTGTCGCGGTTA -CCGTCTTTACCCGACAGATTCAGGTAGCGATAACCCGCCTCAATACTGACTGGACGCATAATGGTGTAAC -GCGCGCCAGCATTCGCTTCTTCATAACTTTGAATACCGCTGGAGAGCGAATCCGGAGAGTAGTAATACTC -GCCAAACAAACGGAAGCTGTTGCCAATTTTCCACTGCAAACCACCTCCTACCGCTGCGGCATAACCTTCA -TCGCCGTAATTCGGGTTGGTGTAAACGCCTTTTCCGCCAACGGTCGCCATTAACGGCCCGAGAGGCAGAT -TCAACCCCAGCCCCACGCCAGCGACATCACCGTCGTCGTCGTTATGTGTCCAGTTACCGCTTAACGCCAG -GCCCGTCGTTTCAGTCCCAAAACCGACACCAATATTGGTGTATTCTTTACCCGCCTGACCGCTGATGCTC -ATTGCATTGACCGATGCAGAAACCAACAGCATTCCGGCCAGACCTGCTAGCGCAATTTTTTTCATTATCC -CCTTTCCCACAAGCAATTAATCAAAATTCCCAAAGCTGCGGGATTGTACTGCCTGGCACAGAGGATTCAA -TGAGCGAAAAAAAGGATCTAGTCACTTATTGTAACTAAATACTTCTTAAATAATTAAATGCCGAAAAAAT -AAACACACTTTATCGATACACACAAAAATAATAATAAGTACAGTTATCATCGCAAAAGAGATTACTGTCA -CTTTCACATATTTGTGAGTTACCGTATTCTCATGGTTTCTTTTTATTTATAAGGAATATCCCTGTGCGAC -AACGGACTATTGTATGCCCTTTGATTCAAAATGATGGTGCTTATTTGCTGTGTAAAATGGCCGACGATCG -CGGCGTTTTCCCCGGTCAATGGGCGATTTCGGGTGGCGGCGTGGAGCCTGGCGAACGAATTGAAGAGGCA -CTACGCCGCGAAATTCGCGAAGAACTGGGAGAACAGCTGCTTTTGACAGAAATCACGCCGTGGACCTTCA -GCGATGATATTCGCACCAAGACGTATGCAGATGGTCGCAAGGAAGAGATTTATATGATTTACCTGATTTT -TGACTGCGTTTCTGCCAACCGAGAAGTGAAAATAAACGAAGAGTTTCAGGACTACGCGTGGGTAAAACCT -GAAGATCTGGTGCATTATGATTTGAATGTCGCCACCCGAAAAACGTTACGTTTGAAAGGTCTTCTGTAAC -AATGATGACAGCCATTACTGGCTGTCAGATTGAAAATTTAGTGGTTAACGAATTCCCCATCCAGATAAAC -TTTGCCTTTTTCCACATGCATGACTAAACCATCCAGATAATCAGGTTTAAATGTCGCGTCACGCTTATCT -TTAGCAATATATGTCAGGCAATGATTATGGGTGAAAATAACGATATTTTTATCAGGCGCTTTGCTTTGTA -AGTCCTTAATTGCACTATAAATCTCATTACCGCACTGAAGAAGTCGTTTATCTACCGTCAATTTTTTACC -CGCTGAAAACCAGGTAGCCGACTGAATGGTCCGGACGGTATTACTGGAATAAAGATCGAAATCAGGGATA -TCAGCACTAAAAGCGTTGCCCAGTTCACGGGCATCCTGGGTACCTTTAACCGTAATACCTGTTTTATCTG -ACAAGCATTGATTGGTTGAACGGTCGCAACGTTCAGCATGACGAAACAAAACGACAACCGGGTGCTGCTG -TGCCAGTCTGGCCAGTGTTTTATTGTCGATACGTGGCAAACCATTGCTACTCCAGGCGGCATGAGTACCC -AGTCCGGCAATTGCAGCGAGCGCCAGTAAAATGATGATATATTTTTTTGACTTCAACGAAGAGCGGCAAA -AAGCTAACACGTAAACTCCACCTATAGACAAGCGCAACCAGACAATTACCGTGAAATTGAGCTACATTTC -TGGCGATAATTCGCAGTTGGTGTAATATTAAAAATCCTACGATGTCGGCAAAATGCCTCAAAATTTTGCC -AAATGCAAAGCCTAAATAAGAAAAAATATAAAAATTTCAATATTTACGTCTAATATTAGTTTCTTAAGGT -TAAGTTAATATTCTATCCTTAAAATTTCGCTCCAAATGGCAAAATATACACAACACTCTTTATAGCAAAT -ATAAGTGGACAGGTATTCAATGGCGGAAGGAAAAGCAATGTCAGAATTTTTGCCTTTTTCGCGACCAGCA -ATGGGCGTGGAGGAACTCGCTGCAGTTAAAGAGGTTCTCGAATCCGGTTGGATCACAACCGGTCCGAAGA -ATCAGGCGCTTGAGCAAGCTTTTTGCCAGTTGACGGGAAATCAGCATGCCATCGCGGTCAGTTCAGCCAC -CGCCGGAATGCATATCACGCTAATGGCGTTGAAAATTGGCAAGGGCGATGAAGTGATTACGCCTTCCCTG -ACCTGGGTTTCAACCCTCAATATGATTTCCTTGTTGGGTGCAACGCCGGTAATGGTGGATGTCGACCGCG -ATACGCTGATGGTCACGCCTGAAGCTATCGAGTCAGCCATTACGCCACGCACTAAAGCCATCATTCCGGT -GCATTATGCCGGTGCGCCAGCAGATATTGACGCCATTCGCGCCATTGGCGAACGTTACGGCATCGCAGTT -ATCGAAGATGCTGCCCATGCCGTCGGTACGTATTACAAAGGGCGACATATTGGCGCAAAAGGTACCGCTA -TTTTTTCATTTCATGCCATTAAAAATATTACCTGTGCTGAAGGTGGCCTGATTGTAACTGATAATGAAAA -CCTTGCCCGCCAGCTACGGATGCTGAAATTTCACGGTCTGGGTGTCGATGCCTATGACAGACAAACCTGG -GGCCGTGCACCGCAGGCTGAAGTCTTAACACCGGGCTATAAGTACAATCTGACCGATATTAACGCCGCGA -TTGCCCTGACACAGTTAGTCAAATTAGAGCACCTCAACACCCGTCGGCGCGAAATTGCCCAGCAATATCA -GCAAGCACTGGCAGCTCTCCCCTTTCAGCCATTAAGCCTTCCCGCCTGGCCGCACGTTCACGCCTGGCAT -CTGTTTATTATTCGTGTCGATGAACAACGTTGTGGTATCAGTCGCGATGCGTTGATGGAAGCGTTAAAAG -AAAGAGGCATTGGTACCGGGTTACATTTCCGCGCCGCTCACACACAAAAATATTATCGCGAGCGTTTTCC -CACGCTGTCGTTACCGAATACCGAATGGAATAGCGAACGCATCTGTTCTTTGCCGCTGTTCCCGGATATG -ACTACCGCCGATGCCGACCATGTCATCACAGCCCTTCAGCAACTCGCAGGACAATAAGCCATGTTTGAAA -TCCACCCTGTTAAGAAAGTCTCGGTGGTTATTCCCGTTTATAACGAGCAGGAAAGCTTACCGGAATTAAT -CAGGCGCACCACCACAGCCTGTGAATCGTTGGGGAAAGAGTATGAGATCCTGCTGATTGATGACGGCAGT -AGCGATAATTCCGCGCATATGCTGGTCGAAGCCTCACAAGCGGAGAACAGCCATATTGTGTCTATTTTGC -TTAACCGCAATTACGGGCAACATTCAGCGATTATGGCGGGATTCAGTCACGTTACTGGCGACTTAATTAT -TACCCTTGATGCCGATCTCCAGAATCCGCCAGAAGAAATCCCCCGCCTGGTGGCAAAAGCCGATGAAGGT -TACGACGTGGTAGGGACTGTACGCCAGAACCGCCAGGACAGCTGGTTTCGTAAAACCGCTTCGAAGATGA -TTAACCGGCTTATTCAGCGCACCACTGGCAAAGCGATGGGTGATTACGGTTGTATGCTGCGCGCCTATCG -CCGTCATATTGTCGATGCGATGTTGCACTGCCATGAACGCAGCACCTTTATCCCGATTCTGGCGAATATC -TTCGCCCGCCGTGCCATTGAAATTCCAGTACATCATGCCGAGCGTGAGTTTGGTGAATCCAAATACAGTT -TTATGCGCCTGATTAATTTGATGTACGACCTGGTGACCTGCCTTACCACAACGCCGCTACGTATGCTGAG -TCTGCTCGGCAGCATTATTGCGATTGGAGGTTTTAGCATTGCGGTGCTGCTGGTGATTTTACGCCTGACC -TTCGGACCACAATGGGCGGCAGAAGGCGTCTTTATGCTATTTGCCGTGCTGTTTACTTTTATTGGCGCTC -AGTTTATCGGCATGGGATTACTCGGTGAATATATCGGCAGGATCTACACCGATGTCCGCGCCCGCCCCCG -CTATTTTGTTCAGCAAGTTATCCGTCCATCCAGCAAGGAAAATGAATAATGAAAACCGTCGTTTTTGCCT -ACCACGATATGGGATGCCTCGGTATTGAAGCCCTGCTGGCTGCCGGTTACGAAATTAGCGCCATTTTTAC -CCATACTGATAATCCCGGTGAAAAAGCCTTTTATGGTTCGGTGGCTCGTCTGGCGGCGGAAAGAGGCATT -CCGGTTTATGCGCCGGATAACGTTAATCATCCGCTGTGGGTGGAACGCATTGCCCAACTGTCGCCAGATG -TGATTTTCTCTTTTTATTATCGCCATCTTATTTACGACGAAATTTTGCAGCTCGCTCCCGCAGGTGCATT -TAATCTGCATGGTTCGCTGTTACCAAAATATCGTGGTCGCGCGCCGCTGAACTGGGTGCTGGTCAACGGT -GAAACGGAAACTGGCGTTACATTGCACCGAATGGTGAAACGTGCCGATGCCGGGGCCATTGTGGCGCAAC -TGCGCATTGCCATTGCGCCAGACGATATCGCTATTACGCTGCATCATAAATTGTGCCATGCCGCGCGCCA -GCTACTGGAACAGACATTACCCGCCATTAAACACGGTAATATTCTGGAAATCGCCCAGCGCGAAAACGAA -GCCACCTGTTTTGGTCGCAGAACGCCGGATGACAGTTTCCTTGAATGGCATAAACCGGCATCCGTACTGC -ACAACATGGTACGTGCCGTTGCCGATCCGTGGCCGGGTGCCTTCAGCTATGTTGGCAATCAGAAATTCAC -CGTCTGGTCGTCGCGTGTTCATCCTCATGCCAGCAAAGCACAGCCGGGGAGCGTGATTTCTGTTGCGCCA -CTGCTGATTGCCTGTGGCGATGGCGCGCTGGAAATCGTCACCGGACAGGCGGGCGACGGCATTACTATGC -AGGGCTCGCAATTAGCGCAGACGCTGGGCCTGGTGCAAGGTTCACGCTTGAATAGCCAGCCTGCCTGCAC -CGCCCGACGCCGTACCCGGGTACTCATCCTCGGGGTGAATGGCTTTATTGGCAACCATCTGACAGAACGC -CTGCTGCGCGAAGATCATTATGAAGTTTACGGTCTGGATATTGGCAGCGATGCGATAAGCCGTTTTCTGA -ATCATCCGCATTTTCACTTTGTTGAAGGCGATATCAGTATTCATTCCGAATGGATTGAGTATCATGTCAA -AAAATGTGATGTCGTCTTGCCGCTGGTGGCGATAGCCACGCCGATTGAATATACCCGCAACCCGCTGCGC -GTATTTGAACTCGATTTTGAAGAGAATCTGCGCATTATCCGCTACTGCGTGAAGTACCGTAAGCGAATCA -TCTTCCCGTCAACTTCAGAAGTTTATGGGATGTGTAGCGATAAATACTTCGATGAGGACCATTCTAATTT -AATCGTCGGCCCGGTGAATAAACCACGCTGGATTTATTCGGTATCAAAACAATTACTTGATCGGGTGATC -TGGGCCTATGGCGAAAAAGAGGGTTTACAGTTCACCCTCTTCCGCCCGTTTAACTGGATGGGACCACGAC -TGGATAACCTTAATGCAGCGCGAATTGGCAGCTCCCGCGCTATTACGCAACTCATTCTCAATCTGGTAGA -AGGTTCACCGATTAAGCTGATTGATGGCGGAAAACAAAAACGCTGCTTTACTGATATTCGCGATGGTATC -GAGGCGTTATACCGCATTATCGAAAATGCGGGAAATCGCTGCGACGGTGAAATTATCAACATTGGCAATC -CTGAGAACGAAGCGAGCATTGAGGAACTGGGCGAGATGCTGCTGGCGAGCTTCGAAAAACATCCGCTGCG -CCATCATTTCCCACCGTTTGCGGGCTTTCGCGTTGTCGAAAGTAGCAGCTACTACGGCAAAGGATATCAG -GACGTAGAGCATCGTAAACCGAGCATCCGCAATGCCCACCGCTGCCTGGACTGGGAGCCGAAAATTGATA -TGCAGGAAACCATCGACGAAACGCTGGATTTCTTCCTGCGCACCGTTGATCTTACGGATAAACCATCATG -ACCAAAGTAGGCTTACGCATTGATGTCGATACCTTTCGTGGCACCCGTGAAGGCGTGCCGCGTCTGCTGG -AAATCTTGAGTAAGCATAATATTCAGGCCAGCATTTTTTTCAGCGTCGGCCCGGACAATATGGGCCGCCA -TCTCTGGCGACTGGTGAAGCCACAGTTTTTGTGGAAGATGCTGCGCTCAAACGCGGCATCGCTTTATGGC -TGGGATATTTTACTGGCAGGTACGGCCTGGCCAGGTAAAGAGATTGGTCATGCCAATGCCGATATCATTC -GTGAAGCGGCTAAACATCACGAAGTCGGCCTGCACGCCTGGGATCACCATGCCTGGCAAGCCCGTAGCGG -TAACTGGGATCGGCAAACAATGATCGACGATATTGCACGCGGTCTTCGCACTCTGGAAGAGATTATCGGT -CAACCGGTAACCTGTTCTGCCGCTGCGGGCTGGCGTGCCGACCAGAAGGTGATCGAAGCAAAAGAAGCGT -TCCATTTGCGCTACAACAGCGATTGTCGTGGGGCCATGCCGTTCCGTCCATTGCTCGAATCAGGAAACCC -TGGCACTGCGCAAATTCCGGTGACCTTACCCACCTGGGATGAAGTGATTGGTCGGGATGTGAAAGCAGAA -GATTTTAACGGTTGGTTACTCAACCGCATCCTGCGAGATAAAGGCACGCCGGTTTATACCATTCATGCAG -AAGTTGAAGGCTGCGCTTATCAGCATAATTTTGTGGATCTCCTCAAACGCGCAGCTCAGGAAGGCGTGAC -ATTTTGCCCTTTAAGCGAACTGTTATCAGAGACGTTGCCGCTCGGACAAGTTGTTCGCGGAAATATTGCC -GGACGTGAAGGCTGGCTGGGTTGCCAACAAATTGCGGGTAGTCGCTGATGAAATCGGTACGTTACCTTAT -CGGCCTCTTCGCGTTTATTGCCTGCTATTACCTGTTACCGATCAGCACGCGTCTGCTCTGGCAACCCGAT -GAAACGCGTTATGCGGAAATCAGTCGAGAAATGCTGGCATCCGGCGACTGGATTGTGCCCCATCTGTTAG -GGCTACGTTATTTCGAAAAACCCATTGCCGGATACTGGATTAACAGCATTGGGCAATGGCTATTTGGCGC -GAATAACTTTGGTGTGCGGGCAGGCGTTATCTTTGCGACCCTGTTAACTGCCGCGCTGGTGACCTGGTTT -ACTCTGCGCTTATGGCGCGATAAACGTCTGGCTCTACTCGCCACAGTAATTTATCTCTCATTGTTTATTG -TCTATGCCATCGGCACTTATGCCGTGCTCGATCCGTTTATTGCATTCTGGCTGGTGGCGGGAATGTGCAG -CTTCTGGCTGGCAATGCAGGCACAGACGTGGAAAGGCAAAAGCGCAGGATTTTTACTGCTGGGAATCACC -TGCGGCATGGGGGTGATGACCAAAGGTTTTCTCGCCCTTGCCGTGCCGGTATTAAGCGTGCTGCCATGGG -TAGCGACGCAAAAACGCTGGAAAGATCTCTTTATTTACGGCTGGCTGGCGGTTATCAGTTGCGTACTGAC -GGTTCTCCCTTGGGGACTGGCGATAGCGCAGCGGGAGCCTAACTTCTGGCACTATTTTTTCTGGGTTGAG -CATATTCAACGCTTTGCACTGGATGATGCCCAACATAGAGCTCCGTTCTGGTACTACGTGCCGGTCATCA -TTGCCGGTAGCCTGCCGTGGCTGGGATTACTCCCCGGTGCACTGTACACAGGCTGGAAAAACCGCAAGCA -TTCCGCAACCGTCTATTTGTTGAGCTGGACGATAATGCCGCTGCTGTTTTTCTCCGTCGCTAAAGGTAAA -TTGCCCACCTATATTCTTTCCTGCTTTGCATCTCTGGCAATGCTGATGGCGCATTACGCTTTGCTGGCAG -CAAAAAATAATCCTCTGGCGCTGCGGATTAATGGCTGGATTAACATCGCTTTTGGCGTCACTGGCATTAT -TGCCACATTTGTGGTCTCCCCGTGGGGACCAATGAACACGCCGGTGTGGCAAACCTTCGAGAGCTATAAA -GTCTTTTGTGCCTGGTCGATTTTTTCGCTATGGGCATTTTTCGGCTGGTACACCTTAACAAACGTCGAAA -AGACCTGGCCTTTTGCCGCGCTTTGCCCGCTGGGGCTGGCGTTGCTGGTAGGATTTTCAATTCCTGACAG -AGTTATGGAAGGAAAACATCCGCAATTTTTTGTCGAGATGACACAAGAATCACTTCAGCCAAGCCGCTAT -ATTCTTACTGATAGCGTCGGTGTTGCCGCAGGTCTGGCATGGAGCCTGCAACGCGATGACATCATCATGT -ATCGCCAGACAGGTGAGTTGAAATACGGCCTTAATTATCCGGATGCGAAAGGGAGATTTGTCAGCGGTGA -TGAGTTCGCAAACTGGCTTAATCAACATCGTCAGGAGGGGATTATTACTCTCGTGCTTTCGGTTGACCGC -GATGAAGATATCAACAGTCTCGCCATTCCGCCCGCAGATGCCATCGATCGTCAGGAGCGTCTGGTGCTGA -TTCAGTATCGTCCCAAATGATCTGGCTAACATTAGTCTTTGCCAGCTTGCTTAGCGTTGCCGGGCAGTTG -TGTCAGAAACAGGCAACCTGCTTTGTGGCGATAAACAAACGGCGCAAACATATCGTGCTGTGGCTGGGAC -TGGCGCTGGCTTGTCTTGGTCTTGCCATGGTGCTCTGGCTGCTGGTCTTGCAGAACGTACCGGTAGGCAT -TGCTTACCCGATGTTAAGTCTGAATTTTGTCTGGGTGACGCTGGCTGCAGTAAAACTGTGGCACGAACCG -GTATCGCCGCGTCACTGGTGTGGGGTGGCGTTCATTATTGGCGGCATTGTGATCCTCGGGAGTACGGTGT -AATGGGCCTGATGTGGGGATTATTCAGCGTCATTATTGCCTCAGTTGCGCAATTAAGCCTGGGTTTTGCG -GCGAGTCATCTGCCGCCGATGACGCACTTATGGGATTTTATCGCGGCTCTGTTAGCTTTTGGCCTGGATG -CCCGGATACTGTTACTCGGGCTGCTGGGTTATCTGCTTTCCGTTTTTTGTTGGTATAAAACGCTTCATAA -ACTTGCGCTAAGCAAAGCCTATGCCTTGCTCAGTATGAGTTATGTGCTGGTATGGATTGCTTCAATGGTA -CTTCCCGGCTGGGAAGGGACTTTTTCGCTGAAAGCACTACTGGGAGTAGCCTGTATTATGAGCGGGTTGA -TGCTGATTTTCCTGCCCACGACAAAACAACGTTACTGAGTTTTCCCTGCCACTTTACACTGCCGTTCCCA -CTCATCGGGGCTATAACTGCTTGCCGAGAGGACTTTCACCGTATGCAGCTTTTCACGATTAATACAATAA -AGCGCATTCTGCAAAGGCGAGAGTAAATCCCCCACTTTCACGGCGAAGTCACTCTTCACTTCGGCGATCA -TTTTTATCGCGCCGCCAGCATCGCAGAGCATAAGTACATGTCTGTTATCTTGTTTATTGCAGCACGATTT -TTTGACCAGCCATTCCATTGCATTATCCTGTTTGCTAAGAGTTTTCACATCAATTTACAGATTAACAGAT -AAACTCTTTATCAACGGCAATGGAATGGCAGAAATGAGAAGTGAAACGGAGGGTTAATTATTGCTGACGT -TGCACCCACTCTTTTAGCGCCTGACGTGAAATTTTAATACCGCCGTTTTTCAGCTCCGGCGGCAGAGTTA -GCCAGCGCACCGGTTGTTGAAAACGGGCCAGCTTATCTTTCACCCATTCACTAAGATCAACGCTCTCGTG -GTCATACTCCATCACCGCCACCGGTCGATGACCAAACTCCTTGTCGGCAACGGGGACGATAAACACCTGC -AAAACCGCAGGATGTGCAGCAATTACGCGCTCGACTTCTTCCGGCTGAATACCCTCTCCGCCACTGAAGA -ATAGATTGTCTAAACGTCCGACAATGGTCAGCTTGCCATTATGCATCTCACCGCGATCGCGCGTAGCGTA -CCAGCCTTCGTCATTAACCAGTGAAACCAGTTGCCCGTTACGCCAGTAACCTTCTGCCATACTGGCAGCC -CGCAGCCACACTTCATTATTAACGATTTTCACTTCCCGACCCGGCAGCGGCGAACCAACGTCTGCCAGGC -CGTCGGCTTCTTTCGCACACACCGTGGAGGCAAACTCGGTCAGACCATAGCCGCAAAAGCAACGAATCCC -CTGCTCGCGCGCCTGTTCCGTCAACTCGACCGGGATAGCCGCGCCGCCAAGTAACACCGCTTTCAGGGAA -ACGGAACTACGGTTAACCAGCAAACGCCAGAGTTGTGTTGGCACCAGTGAAGCGTGAGTACAGCCTGCCA -GCATTTGCTCCAATGGCTGTTTATCACGTACCGTCATCCGCGCACCAGCGTATAACCAGCGCCACATAAT -TCCCTGACCGGAGACGTGAAACAGCGGTAAAGAGAGCAACCAATCATCGTGATCGCCAAACGGAATCAGC -GATAACACACCTTGCGCACTGGCAAGATGGGCCTGATAAGTATGGACAGCGGCTTTCGGCAAACCGGTAG -AACCCGAGGTCAACGTCATTGAGCACAGACGCGTCGGCTGCCACGTAGCGGCATGTGCGCCTTCAACCAG -CTGAATGTGCAGCGACGTTAATGCCGGAAACGTGTTTTCCCCATCCGGCACCAGAGCAAATTGCAGCGTC -AGATTGGGCAGCAATTCTTCAAGCAACGGTTGCGGCAGCTGAGGGTTCACGGGCAACACCCGCGCCCCGC -ATTGCAGTAACGCCAGCCAGGCGAGCAGCGTTTGCGGCGTATTCCACGCCCGCAACATCACGCCGCTGCC -CTCAACCACCCCCTGCACCGCAAATCCGGAGGCTAATTCATCGACGCGAGCACAAAGCTCGCGCCAGTTG -AGTTGCTCGTCATTAAGACGTAAGGCGATGGTTTCTCCCCGCACTTGCCGCCAGTGACGCCACGGCCAGT -CAGAGAAGATCATAACAACCGCTCCAGTGCATCAACTTCCACGACAGGCAGCGTGCTACCCGGCCAGCGA -CGTACCTGCTGCGCCTGCATCAGATCCAGCGTGTCCAGCCCTGGAATGGTGTCCGGCGTTAACCAGGCGG -CAATCCGCGCCAGTTGCGTTAAGCCTAAGCTCGATTCAATGGAAGAACTGATCACCGCCGTCAGCCCCAG -CGCGTGCGCCGCCTGTACCTGCTCGCGTACTTTTTCCAGACTGCCCGTGAGCGTGGGTTTGATAACTACC -GCGCGCACGCCCTCTTCAGCCACAAAGGCAAAATCCGGCTCGCGCAGGCTTTCATCCCAGGCAATGGCAA -TGCCGGTTTCACGGGCAAACGCTCGCGAATCATCGCGGGTTTTGCACGGCTCTTCGAGAAACGCGATGCG -GTCGCGATAATCCGGGTTAACGTATTTGGCAAACTGCTGACCTTTCAGCGGTGTCCAGGCGCGATTTGCG -TCAAGACGCAAATGCAGATCCGGAATTGCCTCCAGCAACAGATTCACCACCATGCCGTCGCGCACCGCTT -CGTACAATCCCACTTTGACCTTCGCCACTTTCTCGCCTGGCATATCTGCAAGTTTGAGGATCAGATCGTC -CGGATCGCCATTACACAGCGGTGCCGCACGGTAGTTGGCTGCTTGCGGCAACGTATCTGTCAGTTCTGCC -AATGCACAGCTTACGCCAAAGGCCACGGAAGGCATCTGCGGTAGCTCGCAATCGCCTGCCAGCCAGTTAT -TTACCCAGGCAAGCAGCACACTTTGCGCCTCTTCCCAGGTTTCCTGACTGAAGCCCGGCAGTGGGGAGAT -CTCCCCCCACCCTTCGCGCTCGCCTTCACGCAGGCAAACATACAGCCCGTCGCGGGTTTTTAACCGCCTG -TCGCGCAGAACCACCCCCGCGTCCATGGGGATCTGCCAGCGGTATACCTGCGCGCTACGCATTACGGATT -CCGTTTGAATTTGCTGAAGTCAGGCTGACGTTTCTGGTTGAAGGCGTTGCGACCTTCCTGACCTTCTTCC -GTCATGTAGAACAGCATGGTGGCGTTGCCCGCCAGCTCCTGCAGCCCCGCCTGCCCGTCACAGTCGGCGT -TCAGTGCAGCTTTCAGGCAGCGCAGCGCCATCGGGCTGTTTTGCAGCATTTCGCGGCACCAACGGACGGT -TTCTTTTTCCAGATCCGCCAGCGGTACCACGGTGTTCACAAGGCCCATATCCAGCGCCTGTTTTGCGTCG -TACTGACGGCACAGGAACCAGATTTCACGCGCTTTTTTCTGCCCGACGATGCGAGCCATGTAGGAAGCGC -CCCAGCCGCCGTCGAAGGAACCGACTTTCGGGCCAGTCTGACCGAAGATGGCATTATCTGCCGCGATAGT -CAGGTCGCACATCATGTGCAGAACGTGACCGCCGCCGATGGAGTAGCCAGCCACCATCGCGACAACCGGT -TTCGGACAGGTACGGATCTGACGCTGGAAGTCCAGCACATTCAGGTGATGTACGCCGGAATCATCTTTAT -AGCCGCCGTAATCACCACGCACTTTCTGGTCACCACCGGAGCAGAACGCTTTATCGCCTGCACCAGTCAG -AATGATCACGCCGATGTTGTCGTCATAACGCGCATCTGCCAGCGCCTGGATCATCTCTTTTACCGTCAGA -GGACGGAAGGCATTGCGCACCTGCGGACGATTAATGGTGATTTTTGCGATACCGTCGGTGGATTTTTCAT -AACGAATGTCCTCGAAACCTTCGGAGCAGTCGTGCCATTCAACCGGTGCGTAAAGCATTGCTTCATCAGG -ATAAATCATATTGTGTCCTTTAGTCAGAAACGCAAGATCTGCGCCAGACTTGCGATTACGCCAGCGGGAT -TTTCCCGATGCGCGTTATGTCCGGCGCGAGGAATGACATGGCAGTCGGCAGCCAGTTCCGCCGCCAGGGC -GCGGAATTTGCTGTCACGTTCACCACATAAATAATAAAACGCAAATGTGCGGGCGCTAAGGTTAGCACGT -AAATCAGGCTGGACGGCGAGAGAAGTCGCCTCCAGCATGGCGGCAAGCGTTGCGCCATTATTGTTGCTGC -GCAGCGCCACCAGCTCCCGGCGTTGATCGTCATTGAGTGAGGCAAAAACAGGCTGTTGATACCAGTCGGC -AAATACCGCCGTTAACGGTTCTGTGAGAAAACGCTGCACCCATTGGCGATCGGAACGCTGACGTTCCGCA -CGTTGTTCAGCATTTTGCAGCCCCGGATGCCCGCCTTCGACAATAACCCCACAAAGCCCCGCCAGCCCCT -GGCAAGCCGCCATCATCGCCACCCGTCCACCAAGCGAGTACCCCACCAGCCAGAAGTCAAGGATGTTGTA -ACTAACCAAGGTTTTACGCAGTAAGTCGGTGACATCATCAAATCCATCGACGCTAATCGCCGCCGAACCA -CCGTGACCTGGGAGATCAACATACAACCGTGAGTAGTCGGCAAACGCCTCGCCCACTTCTTGCCATTCGT -GGCAATCGCCGGAAAAACCGTGCAAAAACACCAGCCAGGGTAAACCTGGTTTTCCGTGTTTTGCCTGCGC -GTGCAGGATCATAAATGGCTTACCTGCGCCAGAAGTTGCTGGAGCGTTTGCGCACCATCGGTGTCGTTAA -CCACCATTTCAATCACCGTGGTGGTTGGCGTGCGCCAGGCGTCGGCAAATGCCGTTTCAAGTTCCTGCCA -GTTTTGCGGACGATGATATTTCAGCTCGAACATCGCGGCGGCGTGCTCAAAATGGACGTTTTGCGGCATC -AGATAGAAACGCTCACGCTCGCTTTGCGGCGTTGGCAACAGCGAGAAAATTTGCCCGCCGTTGTTGTTCA -CCACAATTAATACCAGCGGCGCAGAAACCTGACGCAATAACGCCAGCGCGTTGAGATCGTAAAGTGCGGA -GAGATCGCCCACAATCGCCAGCGTCGGTTTGCCGCTTGCCCGCTGAACGCCGGCGGCGGTCGAAAGCAGC -CCGTCGATACCGCTGGCCCCACGGTTGCTGTACACCGGGTAACCTGCCGGAAGTTGCGAAAGCGCATCAA -TCAGACGTACCACCAGGCTGTTACCAACAAACAATTGCCCCTGTTCAGGCAGATAGTCGCAGATGCGATG -CGCCAGTTGCGCTTCGCCAAACGCATCACGGCGGGCAATAACCGCCTGCATTGCCTGTTCCGCCAGGCGC -GGGATTTCAACGCACCAGGGCTGGCGTTTTTCTGCCGGATGCAGCTCCAGCCAGTCGGCAATATTGGCAA -TTAAGCGACGTCCGCGATGGTGTGCCGGATCAAGTCGCCCTTCAATGTCATCAACAATCCAGTACTCTTC -TGGTTCACAGCTTGCCTGCCATTGCAGGAGCCGTTTCCCCGTCAGGCTGCTTCCCAGTTGCACCACAATT -TGCGCCTGCTGCAGCTCGCTGGTCGCTTTGGCATTGCCTAACCAAAGATCGGCACACGGCAGCGGCTGCC -CGGTTTGTGACAGCACATCGCCAATCAGCGGCCAGCCAAGAGTTTGCGCCCACAGGGCAACTTTTTTGCC -CTCTTCCGCACTCATGCGCCCGGCAACCACCACGCCGCGCTTTTGTCGCCAGAAGAACCAGTCGCGCTGT -TTTTCACTTTCCAGACGAGGCGCTTCACGCAGCCACGGTTTGTCGTCCTGCCACCAGTCACCCAGACGCT -GTTGCCAGCTAAGCCCGGTATCGTCCATTTCGCCATACAGCGGTTCAGCAAACGGGCAGTTGATATGGAC -TCCCCCCGCATGAAGCGTACCGAGAGCGTGGTCGATGGTAGAAACCAGCCAACGTGCGGGGATATCCTGG -GTCGGGCGCGGCAATGAAATACTGTGCGTGGGGTGAGAGGCGAACATTCCCGGCTGGCGAATTGCCTGAT -TCGCGCCGCAGTCAATTAGCTCCGGCGGGCGATCGGCGGTTAAGAGAATCAGTTTTTCTCCGGTTAACCC -GGCTTCAATCAGTGCCGGATAGAGATTTGCCACCGCCGTGCCGGAGGTCACAATCACCGCCACCGGCTGC -TTGCTGACTTTCGCCAGCCCCAGCGCCAGATGCCCCAACCCACGCTCATCGAAATGGGTGTGGTGAATGA -ATGCGGAATTCTCCGCCGCCGCTAACGTTAACGGTGTAGAACGCGAGCCTGGGGCGATACAGATGTGTCT -GACGCCGTGACGCGTTAATGCTTCCAGAATGACCGCCGCCCAGCGTCGGTTAAATGCGCTTACTGACATG -AGTTTGTCCGGTATCAATATTGCGGCTAAGTATAAGGAGCTACAAAAATAGATTATTGATATGAATCGGT -AATGATGCGACTCATTACTATTCCATTTGTAATAAAGTACGCAGCCCTGCCGCTTTGTTGTCGATTTCCT -GCCACTCTTGCTCGGGGTCGGAACCACGGACAATGCCCGCGCCAGCATATAATCGCACGACATTGCCGCT -AATTTTTGCTGAGCGCAGGGAAACGCAGAATTCGCTTTGTTGTAATGAGAGATAGCCCGCAGAACCGGCG -TACCATTCTCGGGTGAACGGTTCGTGACGGGCGATAAACTGTCGCGCCAGATCGCGCGGTAAGCCAGCAA -CTGCTGCCGTTGGCTGCAACTGATGTAAACAGATCACATCATCCGCTTTGTTGAGTGAAGTCCAGATACA -GCGGCGAAGATGCTGCACTTTACGCAGACGCAGTACCTGCGGCGGTAAAACATCCAGCGTCTGGGTATCG -GCCTGTAATCGTTGACAGATATCTTCCACCACCAGCATGTTCTCGCGCTGGTTTTTATCATCCGCCATCA -GCCACTCTCCTAACTGCTGCGCCTGCTTATCATCAGGATTATTTGCTACTGTTCCCGCCAGCGCTTCAGT -ACGCAGCGCTTTGTCACGCCGCCGCCATAACCGTTCCGGTGAAGAGCCAAGAAAAGCATTTTCGCCATCA -AAGGCCATGTAAAAATGGTAGCAATTCAGATTCAGTCGACGACTGGCAGCCATCATCGCCGCCGCGTTGA -CCGGACTTGCGAAATGCAGGTCAGTTGCCCGAGCGAGCACCACTTTGTCGAGCTCACCTTCGGCGATGGT -TTTCGTTGCCAGTTCGATTAATTGCGTCCAGCCCGTTTTGTCCGGCCAGTGTTGTTCTCGCGTGGTGGTT -AAATGTAACCCAGGCAAGGGCTTGATACTCACCAGTGTGGCGATAAATTCTTTTGCCTGAATCGCATCGT -GCTGAAGGGAGCTTTCGCTGAATAGCGTCAGCCGCAGCGTGGCTTTACCGCCACAGCGTCGCCATTCCAG -GCGGGGTAAAAGTAAATTGCCCTGCGACGGGTCAAAAGCATTCAGCCCCCAAATGCGTAAGTCGGCGTGT -TCCGGGTGCTGGCGAAGAAAACGTTGTGCCTGGTCCAACGACGTAAAACGGGTAATCGCGCCCAGGACGA -CAGCTTCTTCATCACCATTACGTTGTTGCCAGTAGAATTGCGGGTATGTTTGCTGACTGGCCAGCCAGCT -CAAGGCATCAAAAGCGTCTTTGAGAGGGAAAGGAATATCGATAACCCGAATGCCGGGTGTCGCCGGAATC -TCTTGCGACAAATGGCGCAGTAGATTTTCCAGCGCCGTAGTAAGTGATTGCACGCGGACCTCTCCCTGTT -AAAAGCCTCACATTATACGGGGTACTACAAAAAAAATGCAGTACCCCGGTGTAGGGAGGTTTTAACGGCG -TGCCAGCAACAGTCCTAGTACCAGCCCAACGGCCGCGCCCACACCAATTCCTTGCCAGGGTTTTTCGTGG -ACGTAGTCATCAGCACGATAAACTGCCTGCTTCGCCCGATAGTAATAACTGTCTGAAGCCTGGCTAACCC -GTTTTTTCACATCATCCAGCGCTTTTTCTGCACGCGCTTTCAGCTCAACATATTTCTGATCGGCGGGATC -GCCAGAGGAGCGGAGCACCTCTTCCAGTGTTTCACTAAGCAGCGTCAGGTCGTCATCGATACGTGTATCA -CCAAACTGATTAGACATTCTCGTTCTCCATTTGCGTAAAACCTGTCACTAACTATAGACAAGGGTTGTTG -ATTACGCCTGAATTACCTCGCGTGCCATCCCAATGTGTGGGATACCATCTTCTTCATAGACCTCCGTCAC -AGGGATAAAACCGAAACTCTGGTAGAAGTTTTGCAGATGCGCCTGCGCCCCGAGGTAAACAGGCTTATCA -GGCCAGTGATGCGTACATGTTTCGAGTGTTTTACTCATCAGCTGCTGCCCCACTTTTTCGCCACGCAACG -CTTCACTGACAATCACCCGACCTATAACGACCGGCTCAAGATCATCATCACTTTTCAGAATCCTCGCATA -CGCCACCAGTTCATCATTTTTCCAACCGAGAATATGGCGATTATCCCCCGTCAAATCATCACCATCGATA -TCCTGATAAGGGCAATTCTGCTCGACAACAAACACCGCGCAACGCAGTTGTAATAAGGCATAAAGCTGGG -AAACCGATAATTCAGAGTGATGCAGATCTTGCCATTCAATCATAATGCTCTCCTTTTAGATGTATGCCTT -ATACTAGCCGGAATATTTTTTGAAACGTGATGAACTCATGGAATTAATTTTTTTAGGTACTTCAGCCGGT -GTGCCAACCCGCACGCGCAATGTCACGGCAATATTGCTTAACCTGCAACATCCGACCCAGAGCGGACTTT -GGTTGTTTGACTGCGGTGAAGGCACCCAGCATCAGCTACTGCATACCGCCTTTAACCCTGGAAAACTGGA -CAAGATTTTTATCAGTCACCTTCATGGCGATCATCTTTTTGGTTTACCCGGCTTGCTGTGCAGTCGTTCT -ATGTCAGGCATTATCCAACCCTTAACGATTTATGGTCCGCAAGGTATCCGTGAATTTGTGGAAACCGCGC -TGCGGATTAGCGGCTCATGGACCGATTATCCGCTGGAAATTGTCGAAATTGGCGCTGGCGAAATTCTCGA -TGATGGCCTGCGCAAAGTAACCGCTTATCCGCTGGAACACCCACTGGAATGTTATGGCTATCGTATTGAA -GAACATGATAAACCGGGTGCATTAAATGCCCAGGCATTAAAAGCTGCTGGCGTGCCGCCTGGCCCACTGT -TTCAGGAATTAAAAGCGGGCAAAACAATCACGCTGGAAGATGGAAGGCAGATTAACGGCGCAGATTACTT -AGCTGCTCCAGTGCCAGGTAAAGCGCTCGCTATTTTCGGCGATACCGGCCCCTGCGATGCCGCACTTGAC -CTGGCTAAAGGTGTCGATGTCATGGTGCACGAAGCGACGCTGGATATAACCATGGAAGCCAAAGCCAATA -GTCGCGGCCATAGCTCTACACGCCAGGCTGCGACACTAGCCCGTGAGGCTGGAGTCGGCAAGCTAATCAT -TACCCACGTCAGCTCGCGCTATGATGACAAAGGTTGTCAGCACCTGTTACGTGAATGCAGGTCAATTTTC -CCGGCGACTGAACTGGCGAATGATTTCACCGTGTTGGTGATGCTGCCAACTTACTGATTTAGTGTATGAT -GGTGTTTTTGAGGTGCTCCAGTGGCTTCTGTTTCTATCAGCTGTCCCTCCTGTTCAGCTACTGACGGGGT -GGTGCGTAACGGCAAAAGCACCGCCGGACATCAGCGCTATCTCTGCTCTCACTGCCGTAAAACATGGCAA -CTGCAGTTCACTTACACCGCTTCTCAACCCGGTACGCACCAGAAAATCATTGATATGGCCATGAATGGCG -TTGGATGCCGGGCAACAGCCCGCATTATGGGCGTTGGCCTCAACACGATTTTACGTCACTTAAAAAACTC -AGGCCGCAGTCGGTAACCTCGCGCATACAGCCGGGCAGTGACGTCATCGTCTGCGCGGAAATGGACGAAC -AGTGGGGCTATGTCGGGGCTAAATCGCGCCAGCGCTGGCTGTTTTACGCGTATGACAGTCTCCGGAAGAC -GGTTGTTGCGCACGTATTCGGTGAACGCACTATGGCGACGCTGGGGCGTCTTATGAGCCTGCTGTCACCC -TTTGACGTGGTGATATGGATGACGGATGGCTGGCCGCTGTATGAATCCCGCCTGAAGGGAAAGCTGCACG -TAATCAGCAAGCGATATACGCAGCGAATTGAGCGGCATAACCTGAATCTGAGGCAGCACCTGGCACGGCT -GGGACGGAAGTCGCTGTCGTTCTCAAAATCGGTGGAGCTGCATGACAAAGTCATCGGGCATTATCTGAAC -ATAAAACACTATCAATAAGTTGGAGTCATTACCCACCGTGTTTAACGTTTAACTCTGCTTATTATTAAAA -ACAGGGCGAAACTTGCCCTGTTATCGCAACCCGCGCTACATATATCCACCCACACAGGCATATTGAGCGA -TTTTTGATATTTATTCATCTCCTTACGCACTATATTCAGAGCAATAAGTTGCCTCTTTTCATCTTGATTC -AGCACAACCTTTGCAACTAAAAGGAGCCCATGATGGTTACAGTTGTCAGCAATTATTGTCAATTATCTCA -AACGCAACTCAGTCAGACATTTGCAGAAAAATTTACTGTGACCGAGGAATTACTGCAGTCTTTAAAAAAA -ACAGCGTTATCCGGAGATGAAGAAAGCATTGAGTTACTGCATAATATTGCGTTAGGTTATGATAAATTTG -GGAAAGAAGCTGAAGATATTCTTTACCATATTGTTAGAACCCCAACAAATGAGACCCTATCGATTATCCG -ACTTATCAAAAATGCTTGTTTAAAATTATATAATCTGGCACATATCGCAACCAACTCCCCCCTCAAATCA -CATGATTCAGATGATCTCCTGTTCAAAAAACTATTCTCCCCTTCGAAATTAATGACAATTATCGGTGATG -AAATTCCTCTTATATCTGAAAAACAGTCGCTTTCAAAGGTGCTTTTAAATGATGAGAATAATGAACTGAG -TGATGGTACAAACTTCTGGGATAAAAATCGTCAATTAACCACAGATGAAATAGCTTGCTATCTTCAGAAG -ATCGCCGCTAATGCAAAAAATACTCAAGTCAATTATCCTACTGGTCTCTACGTCCCCTACTCCACCAGAA -CTCACCTGGAAGACGCTCTCAATGAAAATATTAAGAGCGATCCATCATGGCCGAATGAAGTCCAGTTATT -CCCCATAAATACTGGCGGACACTGGATATTAGTTTCGCTACAGAAAATAGTAAATAAAAAAAATAATAAA -CTACAAATAAAATGCGTCATATTCAACTCATTGCGTGCACTAGGCTATGATAAAGAAAATTCACTTAAGC -GTGTCATTAATAGTTTTAATTCTGAACTCATGGGAGAAATGTCGAATAATAATATAAAAGTTCATTTAAA -TGAACCAGAGATAATATTTTTACATGCCGATCTTCAGCAATACTTAAGCCAAAGTTGCGGTGCATTTGTG -TGCATGGCAGCCCAGGAAGTGATTGAACAAAGGGAAAGCAATTCTGACAGCGCCCCCTATACGTTATTAA -AAAACCATGCTGACAGATTTAAAAAATATTCAGCAGAAGAGCAGTACGAAATTGATTTTCAACATCGACT -GGCAAACAGAAATTGTTATTTAGATAAATATGGCGATGCAAATATCAATCATTATTATAGAAACTTAGAA -ATAAAACACTCACAACCCAAAAATAGAGCATCCGGCAAAAGAGTGAGTTAACATCATTGTTAATTAATTC -GACCAGTCAGCAAATATGCTGACTGGTCGAACATAGTTTGCTAAACAGTCATCACTGACTGATGTCAGTC -ACACCATCCGCCAGTTCAATCAGGCGAATAAATTCCGCCCTGTAACCCTGTGGATCTTCCCCTTTTGCCT -GCTGAGCCCACTGTTTGATCTGCTGCCAGGAGGTATTGTTCAGGTATTCAGAACCGCGTAACTTTTGCCC -ATATGCAGCTACTGCTGCGCGAAAACGCATATCTTCAGAGGGCGCGTTTATTGTTGGCCCCAGCGGGAAT -TCAACTAACTGACTTTCTTTTCCCTGCGGGTATTTCCAGCGAATTTTTAACCAGGCCAGTTCTTTCGTTT -TGTCCGATTTCGCTAATTTGTTATCCGGGGCATAGCGTAACTTATCAATTGATGCTTTTTGCCCGTTCAG -CGTTAATTCGAATAACAACGTTATATGTTTGCCTGCGCCTATATCCCCTGCATCAACGTTGTCGTTATTA -AAATGTTCCACCCGAAGTTGGCGCTTTTCATAACCAATCTGACGGTATTCCGTTACCCACGCGGGGTTAA -ACTCAATTTGCGCTTTGACATCTTTTGCTACGGTAATCAACATCTGCCGCATTTCACTATTCAATACTTT -CTGCGCTTCAGAGAGGGTATCAATGTAGCTGTAGTTGCCGTTACCAACATCGGCAATTCGCACCATCATT -GCCTCGTTGTAATTGCTATTCCCCACGCCAAACGTCGACAGAGTAACACCAGACTCCCGCTGTTTTTTGA -CCATTGATTCAATCGATTTTGGATCGTCAATGCCAACGTTAAAGTCACCGTCAGTGGCTAATAAAATGCG -ATTGATGCCGCCCTTAATAAACCCTTTCGTCGCCTGCTGATAAGCCAGTTCCAGCCCGGCACCGCCATTG -GTACTGCCTTCGGCATCCAGCGAATCAATTGCGGCATTAATTTCCGCCTTATGACTCCCGGAGATAGAAG -GCAATGCAATACGGGAGTCGCCAGCGTAGGTCACGATGGCAATGTTATCCTGCTCACGAAGTTCTTTGAC -CAATAATTTCAACGAAGACTGGATAAGTGGCAAACGTTCATCAGAAATCATTGAACCAGAAGTGTCGATA -AGAAAGACCAGATTAGAAGCTGGTAACTCTTCACTTTTGCGATCTTTCGCCAGGATATCAACTTTCAGCA -ATGTTCGCTGTTCATTCCATGGTGCAGGTGCCAATTCGTAGCGCATAGCGAAAGGTATTGGCTTAGAGGC -CGGAATAGATTGTTTGTCTTTGATATCCCAATCAGACGGGAAATAATTGACTATCTCCTCCACCCGCACA -GCGTCTGGCGGAGGTAACAGCCCTTGATTGAGGAAACGCCTTACATTCGCATAACTGCCAGTGTCAACGT -CAAGACTAAACGTCGCCAACGGATTTTGCGCTACCTGCTTAACCGGATTATCATCGAACTGCTGGTAGCG -AGCGGTTCCTGGATTTGCGATATGTGTAGCTTTTGCTTTAGCCGCTCTTGCAAATGTTGGCGCTTCCTGC -AATCGCCCCTGTAAAGCCTGTTTGTCTGAATATTGTTGCACTTCTTGCTGGGCCAAGGCTTTCGCGGCGG -CGGCGCTTTGCTCAGCCTCTTTTATTGCAGCTTGCTGCGCGGCAAGCACTTGCTGCTCTGTGGGAGTACT -GGGTTGTTGTTGCTGACTTTCCTTATTCTCAGGTTGCGGCCCACATCCTGACAAAATCAAACTACTCATA -AGCAACATGATTATATTTTTATTTCGCATATAAAATCCTTTTAAATAAACTCAGGCACCAGACATAAAAT -ATACTCTTTGTATAATCCTGCTAATCTTAATAAAATACAATATCGAAACCCATAGCAAATAATGATTCAA -CAACGCAACCCATTAATAATTTGCATATGAAAAAAATAATCTTTGCTTTTATTATATTATTTGTGTTTTT -ACTCCCTATGATTATTTTTTACCAACCCTGGGTCAATGCATTACCGTCAACGCCCCGACACGCAAGTCCT -GAGCAATTAGAAAAAACAGTTCGTTATCTTACACAAACTGTGCATCCACGTAGTGCCGACAATATTGATA -ATCTGAATAGGTCCGCAGAATATATAAAAGAGGTCTTTGTCAGTAGCGGTGCCAGAGTTACCTCGCAGGA -CGTCCCCATTACGGGTGGCCCCTACAAAAACATTGTTGCTGATTATGGTCCTGCCGATGGACCGCTGATT -ATTATTGGTGCGCATTATGACTCTGCCAGCAGTTATGAAAACGATCAATTGACCTATACGCCGGGCGCGG -ATGATAACGCCAGCGGTGTGGCAGGATTACTCGAACTGGCACGTTTGTTACATCAGCAAGTACCGAAAAC -AGGCGTGCAGCTGGTCGCCTATGCGTCGGAAGAACCGCCCTTCTTTCGTAGCGATGAAATGGGGAGCGCG -GTGCATGCAGCTTCGCTTGAGCGTCCAGTGAAATTAATGATAGCACTGGAGATGATTGGCTATTACGACT -CTGCGCCTGGAAGCCAGAATTACCCTTACCCGGCAATGTCCTGGCTTTATCCCGATCGGGGAGACTTTAT -TGCCGTGGTCGGCAGAATACAGGATATCAACGCCGTTCGTCAGGTAAAAGCGGCATTGTTGTCATCTCAG -GATTTATCTGTTTATTCTATGAATACCCCAGGGTTTATTCCCGGTATTGATTTCTCTGACCACCTGAATT -ATTGGCAACACGATATTCCCGCCATAATGATTACTGACACCGCTTTTTATCGTAATAAACAATACCACTT -GCCCGGTGATACCGCAGACAGATTGAATTATCAGAAAATGGCTCAGGTAGTGGATGGTGTTATAACTTTG -TTATACAACAGTAAATAATAAAAATTTCTCGAGGCGGGTCCAGAAAAAGCGACATGCACATTTTATTTTC -CCTCATCTGTTTTAAGATGCGAAACATGAAATTCAACGGAGGAAAAATAAATGGGAATGATTGGCTATTT -TGCAGAAATTGACTCAGAAAAGATTAACCAACTGCTTGAGTCTACTGAAAAACCTTTGATGGATAATATA -CATGACACGCTTTCAGGATTACGCCGACTGGATATTGATAAACGCTGGGATTTTTTACACTTTGGGCTGA -CAGGCACCTCTGCTTTTGATCCCGCGAAGAATGATCCGCTGAGTCGTGCCGTGCTTGGTGAACACAGCCT -CGAAGATGGCATAGATGGCTTCCTTGGATTGACCTGGAATCAGGAGTTAGCCGCGACAATCGACCGACTG -GAATCACTGGATCGAAATGAACTGCGTAAACAGTTTTCCATTAAGCGACTCAATGAAATGGAGATTTATC -CGGGAGTGACCTTTTCAGAAGAGTTAGAGGGGCAACTCTTTGCCTCGATCATGCTTGATATGGAAAAGCT -GATTAGCGCGTATCGACGTATGCTGCGACAAGGGAATCATGCGCTGACGGTTATTGTTGGGTGATATAGC -TTGATGCCTGGGGGAGAAAGACCCATTAGTTAAGATTTACGCCAGGATCATCTTGAAAAAATCTTTAACC -ATGGTCCGGTTTTTATCCCCTTGTATAAATATTACTAAATGCTTGCTTAGTCGCATTGTTAAATGCAATA -CCGTATATTCGGTATGTAACAGCGATATCCTCTGTGCTGGCAACGATCTGTCATGCTTGATGAAAACGGA -ATTGAACCTGTCATTACCAGGTAGATAAAAAGCCTGTTCAATTTTGGGATTATTTTTTATAACTCGTGTC -TGTTATGGCGACACGGGAAAACATCAATATTGTCCTTCACAAATTGCAGTAATATAGAATCAACCTCTCT -TGCAAGTTGGTCACAATGTATTATAAGCATTTTGAATATGTCATCCTCTGTAATCTCGTGAAAATTTTCG -GCCTTGTCTTTTAGCTCATCATATCGGATTCTTGCAGTAACCATTTTTTGGGCGAGTTCTAATAACCCCA -AAGCTTGCAATTGCTGGTGAGTATGATCACTTTCAAAAAATATCCCACACTCCATTCCTTCCCAACCAAC -ATATTCATGCCATTCATAAACCAGCATAAATGTTTGTAAAACTGGCGGTAATAATTGGATATCTGCAAAA -CCAAACCAAAACTTACGCTTGAGATCCCACTCATATTCAATCGCCAATGCTATATTGTTTAAGGCATCTC -CGGCATCCTTATTTTTACGCAAAATCAATTCCGTCAGTGTATAGCGTTGTTCATCAATACGCCGAAGAGC -TTCTGCAATATCATAGTTTGTAGCCAACAAAACATTCTCTGCTTCCTGATGAGTGACGTCTGCTTTTGCC -GTCAATATATTGATTTGGTCAATATGAAACAACTTGATGGCTTCATCAACATCACCGCCAGTCCTCTCTA -ACAAACGTCTGGCAACCTGGATACCGACAGGTACGTTCTTCCGAAGTTTACGAATTTCACTTAACCATTC -CATGTCAAACCCCTTTAAATATTTATGATATTAAATATAACAACGTCTGGATAACGACCCGGCCTGACTG -AATATCTCACGTTTTCCTGCTTAACATTCATGTTATGATGCTCTTGAAACTAATAATACGTATGGAATTG -TCACTATTTATCTGCTAATGAATTCAAACAATGTCATTCGTTTGATGAATATATTATTTCAGGGAATAAT -TATGACACCTTTAGAACGCATTACCCAACTTGTTAATATCAATGGTGATGTTAATAATCCTGATACTCCT -CGTCCATTGTTATCTCTTGAGGATTTTTTTATTGACAATAATATCCATGGTTCAATATGTTGCAATGTGA -TTCCAGAACAATCTCCGCAAGCTATCTATCACCATTTTCTGAAAATACGTGAGCGTAACAATGTTAGTGA -TGTTTTGGTAGAAATTACGATGTTCGATGACCCAGACTGGCCCTTTAGTGAAAGTATTTTAGTTATCACC -ACTGCTTCACCAGAAGAAGTTCAGAGCTGGTTTGTAGAAGAAATTGCCCCTGATGAGTGCTGGGAAGGAT -GGTCAGAAGATACGGAGCATGGATGGGTTGAAGTCCCTGTGGGTATGCATCCGGTTACTTGTTGGTGGGA -TTAAAACATTTATATAAACAGATAAGCGGATGTTTACATAAATTTTTATGTGAAGGAACATGATGAAACT -TATTCCTCGCAGTAGTGATATTTCACCTGGCATTGATGGAATTTGCCCGGGGCCTTTTCCTCCGAACGGA -TTTACCGTACTTACAGATGCAGCATATGGTAACGGAGACTGTTTCGGTTTGTACTGGCCTATTGGTCAGG -AGCATAAACTACCTATAGTGTGCGAAACGTACCATGACGAATGGCGAATCGTACCTGCCTTTTCCAGCAT -TAAGAAGTTCGAAGAATGGCTGGAAGTGAATGATGATGATCCCCATGAAAATGGCATCAGCATCGAAGAT -CAAGACTTTGCAGCAAATCTCTTCCGTGTTGCTCGGAAATGTCTTTCAACGGGAAGGCTTGATGACGCAC -TGCCACTGTTACAGCGAGCAACAGAACAATTGCCTGAAGTCAGCGAATATTGGTTAGCACTGGCAATCCA -GTATCGCCGATGTAAAAAAACAGAAGCTGCAGCACAGGCTGCGCTTAATGCTTATCTTGGCAATTGGGCA -TTTGGTGTTCCTGACAATAAAGTCATTCATTTGCTGTCACAGGCCGCAGATGTCCCGAATTTCCAGGATG -ATCCTGTGATTCAGTGCATTAAAGAACAAGGATTAGATCTTAGCTTTGGAGGAACAAAGGAAAATAATAA -TTACCCCTTGATGCAGATGTGTGTTGATACTTATTTTGCGCAGAGAAAACCGCTTCAGGCATTAACCCTG -TTACATAATTATGCCTGGATAATGTCCAGTGAAACGACTGCATTTCAGGAACGCTATGATTTTAATATCG -ATGAATGGCGGGCAAAATTCAGGCAGTTATGTTTAGAGTATTTTGGCGATAGTCGTACACAGTTCACTTA -ACGCTCTGCGTCTATCTACTATCCCTTCTTTTTCAGAAAAACCGCCGAGCATGTCGGCGGCTTTCTGACT -TACAAAGTAACAGATTACATCAGCGGCATTGCCAAACGCACAATGCTAATCAGCGGTTGTGGCCATACAC -CCAGCACCAGTACCAACAGTGCAGAGATCAGCACAACGATACCGCCCGCGCTGTACTGCCAGTTTGATGG -TGCATCGCGACCCGGTTGTTCCGGGGCGTGAAGATACAGGCTCACCGCCACGCGCAGGTAGTAGTAGAGG -CCGATTGCCGAACCGACAACCACGGCACCCACCAGCCACCACAAGTGTGCCTGGACACCGACCGCCAGCA -CGTAGAACTTACCGATAAAGCCCAGCGTCATCGGGATACCGGCCAGAGACAGCATCATCACCGTCATCAC -TGCCGCGAGGATCGGACGATGCCAGAACAGACCGCGGTAAGAGAACAGGGAATCAGCATCCGGGCCACGA -TACGGGCTGGACATCAGGCTGACCACGCCGAACGCGCCGAGGCTGCTGAACAGATAACCGGCCAGGTAAA -CCCCTACCGCTTCCATCGACATCTCGCCGGTTTGCAGCGCAATCAGCGCTACCAGCAGATAGCCGAGGTG -AGAGATAGATGAGTAACCGAGCAGACGTTTGATATTGGTCTGGCTCAGCGCCATCAGGTTACCGAAGATG -ATGGAGGCAAAGGCGATAATCGCCAGCACCACGCGAATCGCTTCGCTGTCACCCACCGGTGCGTAGAGGA -ACAGACGCATCACCACACCGAAGATAGCGATTTTGCTCGCCGTCGCCAGGAAAGTGGAAACCGGCGCAGG -CGCGCCCTGGTATACGTCTGGCGTCCACAGGTGGAACGGCACCAGAGAGAGTTTGAAGCCGAGGCCAACA -ATCATCAGGCCGAAACCTGCCAGCAACAGCGGCTCGTTGAGCATACCGTCGCCAAGGTTTTTACCCAACG -CGACAAACGACAGGTCGCCAGACTGCGCATACACCAGCGCCATACCAAACAGCAGGAAAGAAGACGCTGC -GGCAGAAAGGATGGTGTATTTGATACTGGCTTCCAGTGAACGTTTCTGGCGGAAAGCGTAACCGACCAGG -CCAAACAGCGGCAAAGAGATCAGTTCGATACCGAGGAACAGAGACGCCAGATGGTTGGCATTCGCCAGCA -GGATCCCGCCCAGCGCGGCAATTAACACCAACAGGTAGAACTCATCCTTGTTGTCGTTATAGCCTTCAAG -CCACGGGTAGGCGAAAGTACAGGTGGCGAGGCTCGCCAACAATACCAGCCCGGTGTAAAGCATGGCGAAA -CCATCAACGCGCATCAGCGGCGTAACGTCCATAGCGCCCGCCTGGCCAACAAACCAGAGCGAAACCAGCG -CCGCGTTAAGCCCAATAACCGAGAGCGTAGCGTTGAGGAAATGATTGCGTCGCCACGCAATGGAGAGCAT -CACAACCACCACCGTCAAGCCGACGATCAGCAACGGTAGCAGTGCGATCAGGTTTTGTGGAGTTATTGTC -ATGGCGATTTACGGCCTTGTAGTAGTAACGGAATTAACAAACCACTGCTGGATATTGCCAATCGCGGAGT -GCGAGGTATCCAGAATCGGCTGCGGATAGAAGCCCAGCAGTACCAGCAGCACCACCAGCAACAGGATCAT -AAACAGCTCACGCAGCGACATCCCTGGCAGTTCCTGGCTGGCAATCTGGCTTTTCGCTTTACCGAAGTAA -GCGCGATGTAACATCGCCAGCGAATAAACAGATGCAAAGACCAGCCCAAAGGTAGAGATAACGGTAATCA -CCGGTACAACCTGGAAGCTGCCGAACAGAATCATAAATTCGCCGACGAAGTTACCGGTGCCAGGCATCCC -AAGCGTTGCCACCGCAAAGAACAGCGACAGTGCTGGCAGCCATTTCATCTTGCTCCACAGACCGCCCATC -ATGCGCATGTCGCGGGTATGGATACGTTCATAAAGCTGACCACAAAGAATAAACAGACCCGCCGCCGACA -AACCGTGCGCAATCATCTGGATTACCGCGCCCTGGTAGGCCAACTGGCTGCCGGTGTAGATAGCAATCAG -CACGAAGCCCATGTGGGAAACCGAGGTGTAGGCGATCAGACGTTTGATATCGGTCTGGGCGAAGGCCATC -CACGCACCGTAGAAGATGCCGATAACACCCAGCCACATAGCAATTGGCGCGAACTCTGCCGACGCGTTCG -GGAACAGCGGCAGGGAGAAACGCAGCAAACCGTAAGCGGCAGTTTTCAGCAAGATCCCCGCGAGGTCAAC -GGAACCGGCGGTCGGAGCCTGGGAGTGCGCATCCGGCAGCCAGCCATGCAGCGGAACCACCGGCATTTTG -ACTGCGAAGGCGATGAAGAAGCCCAGCATTAACAGGTATTCCACACCACTGGACATTGGCGTATTCAGCA -GCTCTTCATAGTTGAAGGTCCAGACGCCGGTCGCATTGTAGTGAACAAAAACCAGCGCCAGGATGGCAAT -CAACATCACCAGGCCACTCGCCTGGGTGTAAATGAAGAACTTGGTTGCCGCCGTGATACGCGTTTTACCG -TCAGAGGCTTTATGCCCCCACAGTGCGATCAGGAAGTACATCGGCACCAGCATCATTTCCCAGAAGAAGA -AGAACAGGAACATGTCGATGGCAAGGAACACGCCGATAACGCCGCCCAGGATCCACATCAGGTTGAGGTG -GAAGAAGCCCTGATATTTTTCGATCTCTTTCCACGAACATAGTACCGCCAGCACACCGAGCAGACCGGTC -AGCACGACCATCAGCAGCGACAGCCCGTCAATGGCGAGATGAATAGAGATACCAAAACGCGGGATCCACG -GCATGTCGAATTCAGACTGCCACTGCGGAATTCCGGCGGATTGCGTCAGTGAATAACCGCCCTGCAACCA -CAGTTGCAGCGACAGCGCCAGCGTCAATCCCATGGTGATCAGCGCGATCCAGCGTGGCACCTTGACGCCA -AAGCGTTCGGTCTGCCAGCACAGGAAGCCGCCAATAAAGGGAATTAATATTAGCCAGGGTAGTAACATGG -CGATCTTTATTCCTTGTAAAAGTCCCGTCAGGACCGGATTTTCAACGAATTCTCACGACAGAAAATTCTC -TTCGGACTGGGGGTAGTGTCGGATGCACCGCGAAGGCGGCTTATCCGACCTACGTTCTTATATGCCCAGG -GGCAATCCCACAATCCTTAACTCAACGCAGTACCATCAACAGTGCCAGCACCACGACCGCACCGATGCTC -ATGGATGCCACATACCAGCGCAGATAGCCGTTCTCACTTAACAGCAGACCTTTACCTGCAAAGCGGGAAA -GGACAGCCGGGATGTTCATCATTGAGTTCAGCGGATCGCGTTTCAGCAACCAGGCAATACCCAGGAACGG -CTTGACGAACACTTTGTCATACAGCCAGTCAAATCCCCAGGCGTTGTACCACCAGGTGCCCAGCAGACGG -CCCGGCGCACTGTTGGCGATGGAGGTCACCAGAGTACGTTTACCCAGCCACAGCCAGGCTGCCAGCAGAA -TGCCGACCACCGCGACCACGCCAGAGGTAATTTCCAGGGTCAACATGCTGCCGTGCGCCAGTTCCGTCGT -TTGCGGAAGCACGCCCTGCAGCGGCGGTACAATCAGTGCGCCAACGAAGGTGGAAAGGATCAGCAGCACA -ATCAGCGGCAGGCTGTGAGTTACCCCTTTCACGGCGTGAGCGTGAATTTGTTCTTTTCCGTGGAAGACGA -TGAAAATCATACGGAAGGTGTAGAGCGAGGTCATAAACGCACCGACCAGACCTGCCACCATCAGATTGAT -ATGACCATTCGCCATCGCACCCGCGAGGATCTCATCCTTACTGAAGAAGCCCGCAGTGACCAGCGGTAGT -GCCGACAGTGCTGCGCCGCCCACCAGGAAGCAGAGATAAACCAGCGGAATAGATTTACGCAGACCGCCCA -TCTTGAAGATGTTCTGTTCGTGATGGCAGGCCAGAATGACGGAACCGGATGCCAGGAACAGCAGCGCTTT -AAAGAACGCGTGGGTCATCAAGTGGAAAATCGCCGCATCCCATGCCTGCACGCCAAGCGCGAGGAACATG -TAGCCAATCTGGCTCATGGTAGAGTAAGCGAGAACACGTTTGATGTCGGTCTGTACCAGCGCGGCAAAAC -CGGCCAGCAGCAGCGTAACCGCCCCGACAATACCCACCAGATGCAGAACTTCCGGCGTCATCAGGAACAG -GCCGTGGGTACGGGCGATCAGGTAGACACCCGCGGTTACCATGGTTGCGGCGTGGATCAGCGCGGAGACA -GGCGTCGGGCCCGCCATCGCGTCGGCAAGCCATGTCTGCAACGGCAACTGCGCAGATTTACCGACCGCAC -CGCCCAGCAGCATCAGCGTCGCCCACATCAGCATGTTATTGCCGTCAGCAAAGTGCGCTGGTGCCAGTTC -CACCATTTCGCGGAAGTTCAGGGTGCCCAGTTCGTTGTAAAGAATGAACAGTGCGAAAGCGAGGAACACG -TCACCCACACGGGTCACGACGAACGCTTTCATTGCCGCTGCGCCATTCTTCGGATCGGTGTAATAGAACC -CGATCAGCAGATAGGAGCACAGGCCCACGCCTTCCCAGCCGAGGTACATCAGCAGCAGGTTGTCGGCAAG -CACCAGAACCACCATGCTGGCGATGAACAGGTTGGTGTAAGCGAAGAAGCGAGAGTAGCCCTCTTCACCG -CGCATATACCAGGAGGCGTACATGTGAATAAGGAAACCCACACCAGTGACCACCGAGAGCATGGTCAGCG -ACAGGCCGTCCAGCACCAGGTTAAAACCGATGTTAAAGTCGCCTACCGACATCCACGTCCACAGCGGCTG -GCTGTATGTCTGCTCGCCGTTAGCGAAGAAATCAACGCCGATAAAGGCGGTTACCAGCGCCGCCAGGCCC -ACAGAGCCTACGCCGACGATCGCCGAGACGTTTTCAGACCAGCGCCCACGGGAGAATGCCAGCAGGACGA -AGCCAATCAATGGCAAAATAATGGTTAAGGCAAGCATGTTCATCCGCGCATCTCACTTACTGAATCGATG -TTCAGGTTCTGGCGACGACGGTGAAGTTGCAGCAGCAGCGCAAGGCCGATACTCGCTTCTGCCGCCGCGA -GGCTGATGGCGAGAATGTACATCACCTGACCGTCGGTCTGGCCCCAGTAGCTTCCGGCGACCACGAAGGC -CAGCGCGGAGGCGTTAATCATGATTTCCAGACCAATCAACATAAACAGCAGATTGCGACGGATAACCAGA -CCGGTTAAGCCAAGAACGAATAAGATTGCCGCGAGGATCAGTCCATGTTGTAAGGGGATCATGCGTGCTC -CTCCGTTTTTCTTTTCGCGCTGTCGTCTTTACGATTGCTCAGCACTTCACCCGCACGCTCTTCACGACCG -ACGTGGAAGGCCACAACCAGACCTGCGAGCAGCAGCATAGAAGCCAGTTCCACCGCCAGTACGTAAGGCC -CGAACAGCGTAATACCCACTGCTTTAGCACTGATTGGCGTACCGTCGATACCCTGATCGTTAACACCGAG -GATGGCGTAAACAATCACCACCAGCATGATGGCCGACAAAATTGCCGGACCAATCCACACCTGCGGTTTC -AGCCACTGGCGTTCCTGTTCGATTTCTGAACCGCCCAGGTTGAGCATCATCACCACGAACACGAACAGCA -CCATAATGGCACCCGCGTAGACGATAATTTCCAGCGCACCGGCGAAGTAAGCGCCCAGTGAGAAGAACAC -CCCGGAAATCGCCAGCAGCGAAATAATCAGGTACAGCAGTGCGTGTACCGGATTGGTATGGGTGATCACT -CGCAAGGTCGCAAGTATGGCTATCAGGCCACAGATATAAAAAGCGAACTCCATTGCCCCTCTCCTTACGG -TAACAGGCTCTTGACGTCGATAGGCTTGGCTTCGTTCTCTGCTTCGCCCTTATCTTTGCCGTCGATTGCC -ATACCTGCCATCCGGTAGAAGTTATATTCCGGGTATTTGCCCGGACCGGAGATCAGCAGATCCTCTTTCT -CGTAAACCAGATCCTGGCGCTTGTATTCCCCCATTTCGAAATCCGGGGTTAACTGAATCGCCGTGGTCGG -ACAGGCTTCTTCGCACAGACCACAGAAAATGCAGCGTGAGAAGTTGATGCGGAAAAATTCCGGGTACCAG -CGACCGTCTTTGGTTTCTGCTTTTTGCAGCGAGATACAGCCGACCGGGCAGGCTACCGCGCAGAGGTTAC -AGGCTACGCAACGCTCTTCGCCGTCCGGGTCGCGGGTCAGAACGATACGACCACGATAACGGGGCGGCAG -ATAGACCGGCTCTTCCGGGTACATTCGCGTTTCGCGTTTGGCGAACGCGTGCAGGCCGATCATCCAGATA -CTACGAACCTGGGTGCCGAAACCTACTAACAATTCTTTTAAGGTCATGGTCTTATTGCCCCTTATTGCGC -CTGCCAGAGAATGACAGCCGCCGTTACCAGCAAGTTGATCAGCGTCAGCGGCAGGCAGATTTTCCAGCCG -AAGGACATTACCTGGTCATAACGCGGACGCGGTAACGACGCACGAATCAAAATGAACATCATCATAAAGA -ACGCGGTTTTCAGCGCGAACCAGATGAATGGCGGTAACAACGGGCCTTGCCAGCCACCGAAGAACAGCGT -CACCATCAATGCAGAGATGGTCACAATCCCGATGTACTCACCCACGAAGAACAGACCGAACTTCATACCG -GAATATTCAATGTGGTAACCATCCGCCAGTTCCTGCTCGGCTTCCGGCTGGTCAAACGGGTGACGGTGAC -ATACCGCCACGCCCGCGATGGCAAAGGTAATAAAACCAAAGAATTGCGGGATAACGTTCCACACATGCGC -CTGGCTGTTGACGATGTCGGTCATGTTGAATGAACCGGCCTGCGCCACCACGCCCATCAAGGAAAGCCCG -AGGAACACTTCGTAGCTCAGGGTCTGCGCAGAAGCACGCATCGCACCCAGCAACGAGTATTTGTTGTTAC -TTGACCAGCCCGCAAACAGCACCGCGTAAACCGCCAGACCTGCCATCATCAGGAAGAACAAAATCCCGAT -GTTCAGGTCGGCAACCACCCAACCCGGACTGACTGGCACAATCGCAAAGGCCAGCAGCAGCGAGGTAAAG -GCAATCATCGGTGCCAGGGTAAAGATGACGCGATCCGAGAATTTCGGGATCCAGTCTTCTTTAAAGAACA -TTTTGATCATGTCCGCAACCAGCTGGAGCGAACCGCCCCAGCCAACACGGTTAGGTCCGTAACGGTTCTG -GAACAGACCCAGCAGGCGACGTTCGCCAAAGCTCATGAATGCCCCGCAGGTGACAACCACCAGCAGGATC -ACCACCGCTTTGAGGATGGTCAGCAGGATCTCAATCAGTTCCGGTGATATCCAACTCATTGTTGTGCCTC -CTTGAGATCCTCAAGATGCGCGCCAGCCAGCACCGGAGCAATGCCGGACATACCCATCGGCAAGCCCACC -TGCCCTGCCGTCAGTCCTTCGGCGATTTCAACCGGCAGCGTGACCGTGTTGCCATCGTAACTAAAGGAGA -CGCGTGTACCTGCGTTCACACCCAACTTCGCGGCATCCGCTGGGTTGAGTTTGATGTACGGCTGCGGCAT -ACGGCTCTGGAAGACCGGAGCACGCTGTGACAATTCATCGCTGCCAAACAGGTGGTAATACGGCGCGATA -CGCCATTTCCCGTCCTGCGGCTGGAAGCGTGCCGGTACGCTGGTGAAGTAATCCAGACCATTTTCGCTGG -TTTCAAACAGACGCACGCCCGGATCGCCAAAGCGCAGTTTGCCGCCCACTTCGTCCTGGAATTTGTTCCA -CGCCTGCGGGGAGTTCCAGCCCGGCGCCCAGGCAAACGGCACTTGCGAACGGTGCGCAGTCGGCTGGTTG -TTACCTTCCATCGAGAAGGTGAACATGGTGTCAATATCCTGCGGCTGACGCGGCTCATGAACGCTGATAT -TGGCGCGCATGGCGGTACGACCGCTGTAACGGTGCGGTTCACGGGCCAGTTTCTGCCCACGAATACGGAA -TGTCGCATCCGGCGCAGCATCTTTGATACCTGCCAGTTCCGGGATTTTCGCCACAACAGCGTCAATCACA -TGGTCGAGCTGCGTCCAGTCCACTTCACGGCTCAGCAGGGTGCTGTGCAGCGAGTGTAACCAGCGCCAGC -TTTCCAGCATGACAGTTTTGCTGTCGTAATAAGCAGGATCGTAAACCTGGAAGAAACGTTGGGCGCGGCC -TTCGTTGTTGATCACCGTACCGTCGCTTTCAGCAAAGCTGGCAGCAGAAAGTACCAGATGGGCGTTTTCC -ATAATCGCTGTGCGTTGATGATCAACCACCATCACCAGCGGTGCTTTAGCCAGCGCAGCATTCACGCGGA -TAGCAGAAGCGTGACGATGCAGATCGTTTTCCAACACCACCACCGCGTCGGCGCGTCCGGTTTCCAGTTC -GGTTAACGCTTCTTCAAGCGAACCGCCACCCATAATGCCCAGCCCCATGCTGTTGACGGAACGGGCAATC -ATGGTGATACCGACGTCAGCGCCGCGACCTTTCAGGGCTTTCGCGACGTTAGCCGCCGCCTGAATCACCT -CTAAGCTACCGGCGTTCGTCCCGGAGATAATCAACGGTTTCTTCGCACCTGCCAGTGCCTGCACGATGAC -GTCGATTTTGCTTTGCAGCTCAGGTTCGATACCGTCAACCGCTGGTGCAGAGTTATCCAGCGCATGGGCG -ATGGCAAAACCTAAACGCGCCTGATCTTCAACCGGTGCGCGGTAAGTCCACGCCGCGATATCATCCAGAC -GGGTGTCATCAACGTTGGTAACAAACAGCGGATGCTTCGCACGTTGACCGATGTTGAGGATTGCCGCAAT -CTGCCAGTCAGCCACTTTCTGTGCTGCCGCCATTTCGCGCGCTTTACCTTTCACAGCCTGACGCACTGCC -AGCGCGACGCGCGCGCCGGTCTGGGTAACGTCTTCGCCCAGCACCAGTACCGCATCGTAAGATTCGATTT -CGCGCAGAGCCGGAGTATAAATGCCGCCTTCACGCAGCACTTTCAGCGCCAGTTGCAGACGTTCCTGCTC -ACCGTGAGCGATACCGGTGTAGAAGTTTTCTTCGCCCACCAGTTCACGCAGCGCAAAGTTGCTTTCCACG -CTGGCACGCGGAGAACCAATACCGATCACTTTCTTCGACTGACGCAGAATATCTGCCGCGCCCTGCATTG -CCTGTTCGGCGTTGAGGGTAATGAAATCATCGCCACGACGCTGTACTGGCTGACGCGGACGATCCTTCAG -GTTGACGTAACCGTAACCGAAACGACCACGGTCGCAGAGGAAGTAGTGGTTTACCGTACCGTTGTAACGG -TTTTCGATACGACGCAGTTCGCCGTAACGTTCACCGGGGCTGATGTTACAGCCGATGGAACATTGCTGGC -AGATGCTCGGCGCAAACTGCATATCCCATTTACGGTTGTAACGCTCGGAGTGCGTTTTGTCGGTAAATAC -GCCGGTCGGGCAAATTTCGACCAGGTTACCGGAAAATTCGCTTTCCAGCGTGCCGTCTTCCGGGCGACCG -AAGTAGACGTTGTCGTGCGCACCGTAAACGCCCAGATCTGTACCGTCAGCGTAATCTTTGTAGTAACGCA -CACAGCGGTAGCAGGCGATGCAGCGGTTCATTTCGTGAGAGATGAATGGCCCCAAATCCTGATTACGGTG -GGTACGTTTGGTGAAACGGTAGCGACGGAAGCTGTGTCCGGTCATCACAGTCATATCCTGAAGATGGCAG -TTACCGCCCTCTTCACATACCGGACAGTCGTGCGGGTGGTTGGTCATCAACCACTCGACCACGCTTTCAC -GGAACTGTTTCGCTTCTTCGTCGTCAATGGAAATAAAGGTGCCATCGGAAGCCGGTGTCATACAGGACAT -CACCAGGCGACCACGCGTGTCTTCCGCGTTTTGGTATTGCTTCACCGCACACTGGCGGCAAGCACCGACA -CTTCCCAGCGCCGGATGCCAGCAAAAGTAAGGAATATCAAGGCCCAGAGACAGACAAGCTTCCAGCAGGT -TGTCCGCTCCGTTGACCTCGTATTCTTTGCCGTCTACATGAATTGTAGCCATTAGCATGCTTCCAGTTTT -CTCAGTCAGAGACTGAGCGTTAATCGAAATTCGGTTACCAGCGCTCTTTCAGCAGGTTCGGCTGAATCCC -ATTAATCAAATGGGTATTGCTGAACGGCTGTTTGATTCCCGCCTCAAATTCTTCGCGGAAATATTTGATG -GCGCTCTGTAACGGCTCCACTGCACCAGGTGCGTGGGCACAGAAAGTTTTACCCGGGCCTAAGAATCGAC -ACAGTTGCTCAAGTGTTTCGATATCGCCCGGCTGACCTTCACCACGCTCCAGCGCACGCAGAATTTTCAC -GCTCCACGGCAGACCGTCGCGGCACGGCGTACACCAGCCGCAGGACTCACGGGCGAAAAACTCTTCCAGG -TTACGCACCAGCGACACCATGTTGATCTCATGGTCAACCGCCATCGCCAGCGCCGTACCCAGACGGCTGC -CCGCTTTACCGATACTTTCGAATTCCATCGGCAGATCAAGGTGCGCTTCGGTCAGGAAGTCAGTCCCCGC -GCCGCCTGGCTGCCAGGCTTTAAATTTCAGACCATCACGCATACCACCGGCGTAATCTTCGAGGATCTCG -CGTGCGGTGGTGCCGAACGGCAGTTCCCACAGTCCCGGATTTTTCACCCGACCGGAGAAGCCCATCAGCT -TGGTGCCAGCATCTTTACTTTTCGAGATGTTCTGATACCACTCCACGCCGTTAGCGAGGATCGCCGGAAC -GTTACACAGGGTTTCGACGTTGTTGACACAGGTCGGTTTACCCCATGCGCCGGAGGTTGCCGGGAAGGGT -GGCTTCGAGCGTGGGTTAGCACGACGTCCTTCCAGGGAGTTGATTAACGCTGTTTCTTCCCCGCAGATGT -AGCGCCCTGCCCCGGTATGGACGAACAGTTCGAAATCGAAACCTGTTCCCATAATGTTTTTGCCAAGCAG -ACCCGCTTCGGTGGCTTCGGCAATGGCACGGCGCAGATTAACTGCCGCTTCGATATATTCGCCACGCAGG -AAGATGTAGCCACGGTAAGCTTTCAGCGCAAACGCGGAGATGAGCATACCTTCCACCAGCAGGTGCGGCA -GTTGCTCCATCAACAGGCGGTCTTTATAGGTGCCCGGCTCCATTTCATCGGCATTACACAGCAGGTAACG -GATGTTCATGGATTCGTCTTTCGGCATCAGGCTCCATTTCAGGCCAGTCGAGAAGCCCGCGCCGCCGCGC -CCTTTCAGACCAGCGTCTTTTACCTGATTAACGATTTCGTCCGGAGACAGCCCGGTCAGCGCCTTACGCG -CGCCTTCGTAACCGTTTTTGCTGCGGTATTCGTCCAGCCACACTGGCTGTTTGTCATCGCGCAGACGCCA -GGTCAGCGGATGCGTTTCGGGAGTACGGATAATGTTTTTCATTTATACCGCTCCAGCAGTTCAGGGATCG -CTTCCGGGGTCAGATGCGCGTGAGTGTCCTCATCGATCATCATGTTTGGCCCTTTATCACAGTTCCCCAG -GCAGCAAGTTGGCAGCAGCGTAAAGCGGCCATCAAATGTCGTTTGCCCTGGTTTGATGTTCAGCTTTTTC -TCGAGCGCCGCCTGAATACCCTGATAACCGTTGATATGACAGACCACGCTGTCACAATAACGGATCACAT -GGCGACCAACCGGCTGGCGGAAGATCTGACTGTAGAACGTTGCCACACCTTCGACGTCGCTTGCCGGAAT -ACCCAGCACATCGGCGATCGCGTGGATCGCACCATCCGGCACCCAGCCACGCTGCTTCTGAACGATTTTC -AGCGCTTCAATGGACGCCGCACGCGGGTCTTCGTAGTGGTGCATCTCGTGCTCGATCGCTTCACGCTCTG -CCGCACTCAGCTCAAAAGCCTCGGTTTGTGGTTGTTGATTCTCGTGCATAATTAGCGGTCCACATCTGAC -ATAACAAAATCGATACTGCCCAGATAAACAATCAGGTCAGACACCAGGCTGCCGCGGATCGCCGCCGGAA -TTTGCTGCAAATGCGCAAAGCTCGGGGTACGAACACGGGTGCGGTAACTCATGGTGCTGCCGTCGCTGGT -CAGGTAGTAACTGTTGATCCCTTTGGTCGCCTCAATCATCTGGAAAGATTCATTGGCAGGCATCACCGGA -CCCCACGACACTTGCAGGAAGTGGGTGATCAGGGTTTCGATATGTTGCAGCGTGCGCTCTTTCGGCGGCG -GCGTGGTCAGCGGGTGATCCGCTTTGAACGGGCCTTCCGGCATGTTGTTGAGGCACTGCTCAAGAATGCG -CAGACTCTGGCGCAGCTCTTCCACTTTAAGCATTACGCGGGTGTAGCAGTCAGAAACGCCACCACCCACC -GGGATTTCAAAGTCGAAGTTTTCATAGCCAGAATAAGGACGCGCCTTACGCACGTCGAAGTCGATCCCGG -TAGCACGCAGGCCCGCGCCAGTGGTGCCCCACTCCAGCGCCTCTTTCGCGCCATAGGCGGCAACGCCCTG -GGAACGACCTTTCAGAATGGTGTTTTGCAGCGCCGCTTTCTCGTAAGACGCCAGACGTTTCGGCATCCAG -TCGAGGAACTCACGCAGCAGGCGATCCCAGCCGCGCGGCAGGTCGTGCGCTACGCCGCCAATACGGAACC -ACGCCGGGTGCATACGGAAACCAGTGATTGCTTCCACCAGATCGTAAATTTTCTGACGATCGGTAAAGGC -GAAGAACACTGGCGTCATTGCGCCGACGTCCTGAATAAAGGTCGAGATATACAGCAGGTGACTGTTGATG -CGGAACAGTTCGGAGAGCATAACGCGAATGACGTTAACGCGATCCGGCACGGTGATCCCGGCCAGTTTCT -CTACCGCCAGCACGTAAGGCATTTCGTTAACGCAGCCGCCGAGGTATTCGATACGGTCAGTATACGGAAT -GTAGCTGTGCCAGGACTGGCGTTCGCCCATTTTCTCCGCACCACGGTGGTGGTAACCGATGTCTGGTACG -CAGTCGACAATCTCTTCGCCATCGAGTTGCAAAACGATACGGAAAGCCCCGTGCGCCGACGGGTGGTTCG -GACCGAGGTTGAGGAACATGAAGTCCTCGTTTTCGGTGCCGCGCTTCATCCCCCACTCTTCCGGTTTGAA -GGTCAGGGCTTCCATCTCCAGATCCTGTTTGGCTTTGGTCAGCTCAAACGGCGAGAATTCGGTAGCGCGC -GCCGGATAATCTTTACGCAGCGGGTGACCTTTCCAGGTTTGCGGCATCATGATGCGTCGCAGGTTCGGGT -GACCGTCGAAAGTAATGCCAAACAGATCCCAGGTTTCACGCTCATACCAGTTAGCGTTCGGGAACAGTTT -GGTGAAGGTCGGTACGTGCAGGTCGTTTTCTGCCAGCGCCACCTTCAGCATGATGTCGCGGTTACGATCG -ATAGAAATCAGATGGTAGAAAACGGAAAAATCCGCGGCAGGTAACCCTTCGCGGTGTGTGCGCAGACGTT -CGTCCATGCCGTGTAAGTCAAACAGCATGACGTAAGGTTTCGGCAGTTTCTTTAAGAAATCGCCAACTTC -CAGTAATTGTTCACGCTTGATCCACACAACGGGAACCCCGGTGCGAGTCGCCTGAACAGTAAAGGCATCC -GGCCCAAAACGGTTGCGCAGTTCGCCAATCACCGGATCATCAAGATGATCGCGGGTCTGCCAGGCGGGTT -CTTGCGCGGTTAAGTCGGTCATATTGTTCACCATTGCAAATGGTCCGTGGTGACTGTCGGCGCAGTAAGC -TTCGCGAAATAGATTTAGGAATAAGCGAAGAAAAATCCCTTTGCCGACAGGCGCAAATTAAATCTCGTCA -GGTGTACGCAGGTTAGTTACGGCAATGCGTTCACCGCGCTTGCGTTCGCGCTCTGATTGCATATTGGCGC -GATAAACGCCCTGATCGCCAACCACCCAGGAGAGCGGACGACGTTCTTTGCCGATAGATTCCTGCAACAG -CATCAGTGCCTGCATGTACGCTTCAGGACGCGGCGGGCAGCCCGGGATATACACATCAACCGGGATGAAT -TTATCGACGCCCTGCACAACGGAATAAATATCGTACATACCACCAGAGTTGGCACAGGCACCCATTGAGA -TAACCCATTTTGGTTCCAGCATCTGGTCATACAGACGCTGAATAACCGGTGCCATTTTGGTAAAGCAGGT -TCCTGCAACCACCATCAGGTCAGCCTGACGCGGCGAAGCACGCAATACTTCTGCGCCAAAACGCGCCACG -TCATGCACCGCGGTAAACGAAGTCACCATCTCAACGTAACAGCAGGAAAGACCGAAGTTATACGGCCAAA -TTGAGTTTTTACGACCCCAGTTAACCATGTCATTGAGCTTGCCCATAAACACGTTTTTGTTAACTTCTTG -CTCCAGAGGGTCGGTTACGATCTCCTGCTTTTGCAGGGGGTAACGGTCGTTCTCACCGTTGGGATCTATG -CGGGTGAGCGTATAATCCATCTTAATGCCTCGCGGTTAGCGTTGACGATTAGCGATACTGTTCGTTTCCG -GGTTCATACGCTCGCGGCGTGAACGCGCGGGCGTCCAGTCCAGCGCGCCAATACGCACCAGATAAACCAG -ACCTGCCAGTAACACAAAAATAAAAATTGCAGCTTCCACAAAGCCTACCCAGCCGCTTTCGCGGATAGAG -GTTGACCATGCGAACAGATACAGCGCTTCAACGTCGAAGATAACGAAGAACATGGCCACCAGATAAAACT -TGGCGGACAGGCGTAAGCGGGCGGAGCCGACCGAGTCGATACCGGATTCAAACGGCACGTTTTTCGACCT -CGCGCGTGCGCGACCGCCTAAAAACCAACCGCCTACCAGCATCAGGCAACACAGGCCAATGGCAACGATA -AGAAAGATAGCGAATGCCCAGTGATGAGCGATGACTTCAGTGGATGTTGACATACTCATTGCTTACTCAT -CAAAAGTAGCGCCAGATTCACTGCTCTTCACGGCAGATGGACGCCACATCGATTCATGGGGAGGAATAAA -AAAAACCTTACAATCACTGTAGAAATTCTTTTATACAGCTAATTGATGTGGTTTTTTACTCCTTTCTATA -ACCTTTTGTCAACTTTAACAAAAGTTTCTTCACATTAGTTTACATAATATCAACACCATTAGCATTTAAT -GCCCTTTCACCCCAGATCCTTGACGACTCCAGGATAATTAGATGTTGTTGAATCGTGTCCGTTGTGAAGC -AATGGAAAAAATACGGGTCTATTTTGACAGGAATTTGTGTCGATTCCTCCCCCCAAAAGAGAGTATTTTC -TTGATCTGTGACACGCTTTTGTCATTCCATAACAAAAACGCAGCAACAAATTTACGTATTTTTTAACATC -ATTGTAGCAGGTGATTTTTTTCAGGCGATTATTTGTGCGTTCGGGACGTGAATCTCTGGTGGTTGAAAAA -TGAACAGTTTTGTACGTTCTGCACTATGCGATGAAGGATTTTTACTAAAAAAAAGCCGCTGGGGTTTAAA -ACACCCCCAGCGGCTCGTTTTTTACACTATTGTCTCAGGAATTATCTATCGTCCGTCGATTACTCGATAT -CCCTTTCAATCAACAATGAATCATCCCCTTCCGGAGCAGACATTGGGCTGTATTGCCACGGATTATGGTA -GCTCTCCATCGCCTGATAGATCACCTGGGCCAGCTCATTATTACTGGACGGATCATAGCACAGCAAATAT -TCGGTATCAGGTAGCGGCGGTAAGCCATCTACTCCACTCAGCACACGCAGGTCCGGGCTCATCATCTCAA -CCGGCCTTGCCGTCACGCCAAGACCGGCTTTCACTGCCGCACGAACGGCCGGAAGCGTCGAGGCGACATA -AGCCAGTCGCCATGGAATATCTGCTTTATTAAGCGTCGCCAGCACCATATCGCGAAACGGGCTAGGATCA -TCCAGCAATACAAGAGGGATCGGCTCGCCTTTTTGCAATATGTATTCCGCTGCGCAGTACCAGTGTGTTG -GCGAGGTACGCAGGTTCAATGCCTTAAACGCTGAAGGACGATGGGTGGTTACCATCAAATCCACTTCCTG -GGATTCCAGCATTTCTGCCATATAGGCATTACGTTTAACGCGGACATCCAGCGCTAATTTCGGATAAACC -GAACTCACGCGATTTAACAGGAAAGGTAAGATCGTATCGGCAGATTCATCTGAAGCACCGATAGTTAATA -CGCCCTGAAGATTACTGAACATTAATGATGAGCAGGCCTCATCATTAAAACGCAGGATTTTCCTGGCGTA -ACCAAGAAGTTGAATGCCATGTTCAGTTAACAGTTTGTTGCGACCGTGACGAGCGAACAGTTCTTTCCCA -ACGAGTTGTTCCAGACGCTGCATTTGCTGACTTACGGCGGACTGAGTACGACACACAGCGGCAGCTGCGG -CAGCAAAAGTGTTCAGATCGGCAACAGCAACAAATGTTCTCAGCAGATCGAGGTCGAGGTTAATTATCGG -ACGATTTGCACTTATCATATATTATCACTTACTGGCGGCTCATACTGAGCTGGTTAATGCTGTGCACACA -CAAACAAGCAATTCCATTTGTAATGTGCCTCCCTGGCAGTTTCATCCGGAACCCGGACGAAAGTAAAAAT -GCATATGAGTTGCACTAAAAAAGCGACTCACATTGTTCCGTTATAATGCCTGAAGTAGATCACAGAATAT -ATCTTCAGGGATCGCATATCTATTAAGTTACTCACTCTTTTCTATTTATGACATGCGCGTGTTTGTATAA -ATGTAAATGTGAGTCCTTGTTCCACTCTCGTGCAGCATCGCTGGTCATACGCGAACACGTACCAACAGCA -ATGGTGAGGCGGCATCAAGAGCAGGGATCCGTCATTTATCCGAGCATTTTACCCCAAAAACCTTTTATTT -ATAAGGGTCATTGCGAATTATCTGATGCAAAGTTATGTTATGTTAGGCAAAGTAATCTTCTATTATTAAT -AAGCACATCAAAACCTTTTTGAATATTAAATAATAATTAATTAGCATCATCCTCATTCATTAATTCCGCT -TAACAATAGTTTCACACCTTGCCCCCATTGCGACACCTCGGAAATCATCACGCAGTTAAACTCTCCGTAA -TGAGGAAATATCATCATCGCGTTTCATTAGTGAATTCTTAAATGAGGCATTTTCACACAATTATCTTACA -GATAAAAAAACCAGACTTACAATTAAGAATCAGAACAATTCACTATATAACATTGCATGTAAAGCATATA -CACCTCATTATTTTGTCATTATTAAGTTATTAACAGCACAATCGAGCCTTCCCCTCTGGCAAAATCTTAT -TCTGCAGACCTTCAAAACACCGTCCTGGGGGAGTACATTGTTCTAAGCTGACTTCCACGGCAGGGAGTGG -CGATAACAGCAAAAAAGGTCAAGATTCATGTCCCCCATTGAAAAATCCAGCAAATTAGAGAATGTCTGTT -ATGACATCCGTGGTCCGGTGCTGAAAGAAGCAAAACGCCTGGAAGAAGAAGGTAACAAGGTACTGAAACT -GAACATCGGCAACCCAGCCCCGTTCGGTTTTGACGCGCCAGATGAAATCCTCGTTGACGTGATACGCAAC -CTGCCTACCGCTCAAGGGTATTGCGATTCCAAAGGTCTTTACTCCGCGCGTAAAGCCATCATGCAGCACT -ACCAGGCTCGTGGCATGCGTGATGTTACCGTGGAAGATATTTACATCGGCAATGGTGTATCGGAGCTTAT -CGTTCAGGCAATGCAGGCATTGCTGAACAGCGGGGACGAAATGTTGGTTCCTGCACCAGATTACCCACTC -TGGACCGCGGCGGTTTCGCTTTCCAGCGGTAAAGCGGTGCATTATCTTTGCGATGAATCCTCTGACTGGT -TCCCGGACCTCGATGATATTCGCGCTAAAATTACGCCTCGTACGCGTGGGATCGTTATTATCAACCCAAA -TAACCCAACCGGCGCGGTATATTCCAAAGAGCTTTTAATGGAGATTGTGGAGATTGCACGTCAGCATAAT -CTCATTATCTTCGCCGATGAAATTTATGACAAAATTCTCTACGACGACGCTGAGCATCACTCAATTGCGC -CGCTGGCACCTGACCTGCTGACCATTACCTTTAACGGACTGTCGAAAACGTACCGCGTTGCAGGCTTCCG -TCAGGGGTGGATGGTGTTGAACGGGCCGAAAAAACACGCCAAAGGCTACATCGAAGGTCTGGAAATGCTG -GCTTCAATGCGCCTGTGTGCTAACGTTCCTGCGCAACACGCCATTCAGACCGCGCTAGGTGGTTATCAGA -GCATCAGTGAATTTATTACCCCTGGCGGTCGTCTTTATGAGCAGCGTAACCGCGCGTGGGAACTGATCAA -CGATATTCCGGGCGTTTCCTGCGTGAAACCTCGTGGTGCGCTGTATATGTTCCCGAAAATCGACGCCAAA -CGCTTTAACATTCACGACGATCAGAAAATGGTGTTGGATTTCCTGTTGCAGGAAAAAGTTCTGTTGGTGC -AAGGGACGGCATTCAACTGGCCGTGGCCGGATCACTTCCGCATTGTCACGCTACCGCGTGTCGATGATAT -CGAGCTGTCTTTGAGCAAGTTCGCGCGTTTCCTTTCTGGTTATCATCAGCTGTAATCTTAATTTCACTGC -CGGAGATTGCATCCGGCAGCGTTATCCCGCCACAATGACCTGATGATGTCATCATACGTAAGGTCACTAT -GAAACAGAGCCATTTTTTTGCCCATCTCTCCCGCCTGAAACTCATTAACCGCTGGCCGCTCATGCGCAAC -GTGCGGACGGAAAATGTGTCCGAACACAGTTTGCAGGTAGCGATGGTCGCCCATGCGCTGGCAGCTATCA -AAAATCGAAAATTTGGCGGTAATGTCAACGCCGAACGTATCGCTTTACTGGCGATGTACCACGATGCCTC -AGAAGTGCTCACCGGCGATCTCCCTACTCCGGTGAAATACTTCAATTCGCAAATCGCTCAGGAGTACAAG -GCTATTGAAAAAATCGCTCAGCAAAAACTGGTCGATATGGTTCCGGAAGAGCTGCGGGATATCTTTGCGC -CGTTAATTGACGAGCATGCATATAGCGATGAAGAAAAATCGCTGGTGAAACAGGCAGATGCACTGTGTGC -ATATCTGAAATGTCTGGAAGAACTCGCGGCCGGAAATAATGAATTCTTGCTGGCAAAAACGCGACTGGAA -GCGACGCTTGAAGCGCGTCGCAGCCAGGAGATGGACTACTTCATGGAAATATTTGTTCCCAGCTTCCATC -TTTCGCTCGATGAGATTAGCCAGGATTCACCGCTGTAAGCAGCCGGAGTCTGCGTCGCATCAGGCAATAA -GCGCCGGATGCGACATCAGGCTCTTGTCAAAACGGAAACAGCATCGGGATCATCACCACACAAACCGCCA -TCACGATAATGGTGAACGGTACCCCCAACTTCACAAAGTCACTGAAGCTGTAATTTCCCGGACCTAAAAC -CAGTGTGTTAACAGGTGAAGAAACCGGTGTCATAAAGGCGGCGGATGCTGCCATCGCCACGACCATCGCG -AATGGATAAGGCGACACCCCCATCGTTTTGGCAGCAGCCAGCGCAATCGGAGCCATCAACACCGCCGTCG -CGGTATTAGAGATAAATAGCCCAATAACCGCCGACAAGACAAACAAACACCCCAGCATCATATGTGGCCC -GTAACCACCGCCAATGTCCATCAGCCCTTTCACCGCCAGCGCGACACCTCCCGTTTTCTGTAATGCCACA -GCAAACGGCATCATCCCAACGATCAAAATAATGCTCGGCCAGTGAATGGATTTATAGGCGCTTTCAGCAT -CTATACAGCGGAATTTCCCCATCAGCAGGCAGGCGATGATAGCGGCAACAGGATTAGGAATTTCATCTGT -CAGCATTAACGCCACCATTAGCACCAGACAGAAAATGGCATGGGGTGCCTGGCTGTGCGCGGGTGATGCT -TCACTCACCTCTTCCGGTAAGTTCAGCGCTACGAAGTCGCGGCCCTGTTTGGCCAGCATACCGATCAGTT -TCCAGTTACCCACAACCAGGATGATATCGCCCAGCAGCAGAGGCTCATCCGCCAGCGAACCTTCCAGCGC -CACGCCATTGCGCTTTAGCCCCACCACATTCAGTCCGTAGCGGGTACGAAAACCAATTTCGCGCACCGAT -TTACCAATCAGTTCTGACTCAGGAATTAATGAAATCTCTGCCATGCCCACATCAAGGGCCTGGTCAGAAA -AATACTCGCCGCGCAATACCATCGGCTCCAGCAATTGCTCACTACAAAATTGCCGGAGATCGACATCAGC -CGCAGACATATCAATAAGCAAAACGTCACGCGCGCGAAATTCAGAAACCCCATTAACGTTCACGATAACG -CGACGAAAACGCCGCCAGCGTTCAACACCGATGACGTTAGCGCCATAACGCTCACGTAATTTGAGATCAT -CCAGCCGTTGACCAATCATTGGCGATCCGGGGCGAATAGCCAGACGTCGCGCACGCCCGGTCAGTCGATA -TTCACGGATAAGATCGCGAAAGGTTCGACGCGTCCAGCCTTCGCGCTGCGGGGTCTGGGTATCCCCTTTC -AGCATGAAACGCATCACTAACATATACAAAATACCCAGCACCAGCACGACCAGGCCAATAGGTGTTACGC -TAAAGAAACTGAAGCCGTGATAGCCTTCACGCAGCAATTCACTGTTGACTACCAGGTTCGGCGGCGTCGC -CACCAGCGTCATCATGCCGCTAATCAGCCCGGCAAAACTTAACGGCATCATCAGACGTGACGGCGACGTT -TGCATACGCATGGCAACGCTTAACACCACGGGAATAAAGATAGCGACAACGCCGGTTGAACTCATAAACG -CGCCAAGCCCCGCGACGGTCAGCATCAACAAAACCAACATTTTGATTTCACTATTGCCCGCAACTTTGAC -CAGCCATGTTCCCATTACGGTGGCAACACCGGTACGGACCAAACCATCGCCAATAATAAACAAGGCGGCA -ATCAGGACAACGTTAGGATCAGAAAAGCCGGAAAATACTTCTGGGACTGTCAGCGTTCCGCTTAATGCAA -ACGCGACAATAACAAACAAAGCGACCGCATCCATACGCACTCTGCCCGTCGCAAACAAGACGATGGCAAC -GGCCAGTAATGAAAGAACCCAAATCAATTCACCGTTCACAACTTATCCTTGTTAATTGAGGGGGATGACT -TGATTCTGCCATAAAAAAGCCCCGACGAGACGGGGCTAAATCATGATCAGGTGTTTCACTGAATAATAAC -ATCGCCATTTGGCTGTTTGGTCACAGTAATTTGCTCCAGACTGTGGAGGACCAAATCGACCTCATTCAGG -CGCGGGGTATCTGCCGGAGCGTTAACCGCAATGACATGACAACCCGCCGCCAGGCCAGAAAGCACGCCAG -CGGGAGCATCTTCCACCACCACACACTCCTGCGGCGCAAGCCCCAGCAGCTGCGCGCCTAACAGATACGC -ATCAGGTTCTGGTTTTCCGCGCTTCACTCGCTCAGCGGTTACAAACACCTCTGGTGCGGGAAGCCCAGCT -ATTTTATGGCGCGCTCGCGCTACCGGCATGGAGCCAGAAGTCACAATGGCCCACGGAATACCTGCTTTAT -TCAAATGACTGAGTAAGGCGATTGCCCCCGGAAGCGCGGTAATACCTTCGGTTTCCGTGGCCTCGATGTG -CTCCAGACGCGTAAACTCGGCGGCAATATCAGCCTCGGATTTGCCCGCCATAAAATGGCGCAGAGAGGTG -ATCGCCTGTTTACCGTGAATGAAAGCCAGCACCTCTTCCGGCGCTAACCCATGACGTCTGGCCCAGTTGC -TCCACGCCCGTTCTACCGCAGGCAGGGAATCCACCAGCGTTCCATCAAGATCAAACAGAAAACCTTTGCA -CCGCACGCGGGCCTCCTCAGGCATTGATAATTTGATTAATTTCGTTGGCGCTCAAATGGTACTGACGCGG -GCAGGCATGCCACACATTAAGCATGCGCTGATATTTTTCCCACATTGGCGTCTGGGCGTTAAAACCGTGA -GTTCCGGCGTCAAAATGGGTATAGCGCCCTTCCACATTAACCATAAAGCGGACATAACCGAGGTAACGTG -CTTCAGTGGCGGCGTCAAAGCCGAGGAAGGTGACACGACGTTCATCGATGGATTGCTGGTCCTGCAAATT -AGACCAGGAAACATGCAACGCATGATACATCTCCATAATGTCGATGATAGTGCGGCAGGTTTCTTCTTTC -AGCTCGCCAAACTCGCGATCCAATTCACGCATCTGTAATCCGTAACCACGCTCAATAATTGTTTGCAGGC -GACGGTAACGTTCAGCATTTGCCGGATCGAGCATAGTCATCATCTTGTACTGATTAGACAAAATAAGACG -TTGCGCGTTGGTCATTTCCATTGTTGACTCCTGTATCACTCTACTACGGTGAAAAAAAAGAAGGCTGAGT -ATGCCTTCTTTTATATGCGTAATCAGGGGTCAATTACAAATCATCAAGGAAAGTTTTATCCAGTTGTTTG -AAGGCGCGCTTAAGCGTGTCAGCTAATGCCTGGTAATCAGGCTTGCCTTCAACGGGTGCCAACACCTGTC -CAGACTCCTGCAATTTACCGCGAACTTCATAAAACCAGTTAAGGATTGCAGGGGGTAATGGCGTGACAGA -ACGCTTGCCCAGCCACCACAATCCCTGCATGGGTAAACTTAAGGCGAACAGGGCAGTGGCAACTGCCGGC -CCAAGCTGACCGCCCAGGGCAATCTGCCAGCAGAGAGTAAATACGGCGATCGGCGGCATAAAACGGATCG -CATAACGCGTCATCTTGATAACGCGATTTTCGACAAAGACCGGGGCAAGGCGTTTTTCCAGCGGCCACGT -CTTTGAGTAATGCTGTCCCCGGCGAAACAAGCTAAAAAAATTAACAGAACGATTATCCGGCGTTGACATG -CTTCACCTCAACTTCACATATAAAGATTCAAAAATTTGTGCAAATTCACAACTCAGCGGGACAACGTTCA -AAACATTTTGTCTTCCATACCCACTATCAGGTATCCTTTAGCAGCCTGAAGGCCTAAGTAGTACATATTC -ATTGAGTCGTCAAATTCATATACATTATGCCATTGGCTGAAAATTACGCAAAATGGCATAGACTCAAGAT -ATTTCTTCCATCATGCAAAAAAAATTTGCAGTGCATGATGTTAATCATAAATGTCGGTGTCATCATGCGC -TACGCTCTATGGCTCCCTGACGTTTTTTTAGCCACGTATCAATTATAGGTACTTCCATGTCGAGTAAGTT -AGTACTGGTTCTGAACTGCGGTAGTTCTTCACTGAAATTTGCCATCATCGATGCAGTAAATGGTGAAGAG -TACCTTTCTGGTTTAGCCGAATGTTTCCACCTGCCCGAAGCACGTATCAAATGGAAAATGGACGGCAATA -AACAGGAAGCGGCTTTAGGTGCAGGCGCCGCTCACAGCGAAGCGCTCAACTTTATCGTTAATACTATTCT -GGCACAAAAACCAGAACTGTCTGCGCAGCTGACTGCTATCGGTCACCGTATCGTACACGGCGGCGAAAAG -TATACCAGCTCCGTAGTGATCGATGAGTCTGTTATTCAGGGTATCAAAGATGCAGCTTCTTTTGCACCGC -TGCACAACCCGGCTCACCTGATCGGTATCGAAGAAGCTCTGAAATCTTTCCCACAGCTGAAAGACAAAAA -CGTTGCTGTATTTGACACCGCGTTCCACCAGACTATGCCGGAAGAGTCTTACCTCTACGCCCTGCCTTAC -AACCTGTACAAAGAGCACGGCATCCGTCGTTACGGCGCGCACGGCACCAGCCACTTCTATGTAACCCAGG -AAGCGGCAAAAATGCTGAACAAACCGGTAGAAGAACTGAACATCATCACCTGCCACCTGGGCAACGGTGG -TTCCGTTTCTGCTATCCGCAACGGTAAATGCGTTGACACCTCTATGGGCCTGACCCCGCTGGAAGGTCTG -GTCATGGGTACCCGTTCTGGTGATATCGATCCGGCGATCATCTTCCACCTGCACGACACCCTGGGCATGA -GCGTTGACGCAATCAACAAACTGCTGACCAAAGAGTCTGGCCTGCTGGGTCTGACCGAAGTGACCAGCGA -CTGCCGCTATGTTGAAGACAACTACGCGACGAAAGAAGACGCGAAGCGCGCAATGGACGTTTACTGCCAC -CGCCTGGCGAAATACATCGGTGCCTACACTGCGCTGATGGATGGTCGTCTGGACGCTGTTGTATTCACTG -GTGGTATCGGTGAAAATGCCGCAATGGTTCGTGAACTGTCTCTGGGCAAACTGGGCGTGCTGGGCTTTGA -AGTTGATCATGAACGCAACCTGGCTGCACGTTTCGGCAAATCTGGTTTCATCAACAAAGAAGGTACCCGT -CCTGCGGTGGTTATCCCAACCAACGAAGAACTGGTTATCGCGCAAGACGCGAGCCGCCTGACTGCCTGAT -TTCACACCGCCAGCTCAGCTGGCGGTGCTGTTTTGTAACCCGCCAAATCGGCGGTAACGAAAGAGGATAA -ACCGTGTCCCGTATTATTATGCTGATCCCTACCGGAACCAGCGTCGGTCTGACCAGCGTCAGCCTTGGCG -TGATCCGTGCAATGGAACGCAAAGGCGTTCGTCTGAGCGTTTTCAAACCTATCGCTCAGCCGCGTACCGG -TGGCGATGCGCCCGATCAGACTACGACTATCGTGCGTGCGAACTCTTCCACCACGACGGCCGCTGAACCG -CTGAAAATGAGCTACGTTGAAGGTCTGCTTTCCAGCAATCAGAAAGATGTGCTGATGGAAGAGATCGTCG -CAAACTACCACGCTAACACCAAAGACGCTGAAGTCGTTCTGGTTGAAGGTCTGGTCCCGACACGTAAGCA -CCAGTTTGCCCAGTCTCTGAACTACGAAATCGCTAAAACGCTGAATGCGGAAATCGTCTTCGTTATGTCT -CAGGGCACTGACACCCCGGAACAGCTGAAAGAGCGTATCGAACTGACCCGCAACAGCTTCGGCGGTGCCA -AAAACACCAACATCACCGGCGTTATCGTTAACAAACTGAACGCACCGGTTGATGAACAGGGTCGTACTCG -CCCGGATCTGTCCGAGATTTTCGACGACTCTTCCAAAGCTAAAGTAAACAATGTTGATCCGGCGAAGCTG -CAAGAATCCAGCCCGCTGCCGGTTCTCGGCGCTGTGCCGTGGAGCTTTGACCTGATCGCGACTCGTGCGA -TCGATATGGCTCGCCACCTGAATGCGACCATCATCAACGAAGGCGACATCAATACTCGCCGCGTTAAATC -CGTCACTTTCTGCGCACGCAGCATTCCGCACATGCTGGAGCACTTCCGTGCCGGTTCTCTGCTGGTGACT -TCCGCAGACCGTCCTGACGTGCTGGTGGCCGCTTGCCTGGCAGCCATGAACGGCGTAGAAATCGGTGCCC -TGCTGCTGACTGGCGGTTACGAAATGGACGCGCGCATTTCTAAACTGTGCGAACGTGCTTTCGCTACCGG -CCTGCCGGTATTTATGGTGAACACCAACACCTGGCAGACCTCTCTGAGCCTGCAGAGCTTCAACCTGGAA -GTTCCGGTTGACGATCACGAACGTATCGAGAAAGTTCAGGAATACGTTGCTAACTACATCAACGCTGACT -GGATCGAATCTCTGACTGCCACTTCTGAGCGCAGCCGTCGTCTGTCTCCGCCTGCGTTCCGTTATCAGCT -GACTGAACTTGCGCGCAAAGCGGGCAAACGTATCGTACTGCCGGAAGGTGACGAACCGCGTACCGTTAAA -GCAGCCGCTATCTGTGCTGAACGTGGTATCGCAACTTGCGTACTGCTGGGTAATCCGGCAGAGATCAACC -GTGTTGCAGCGTCTCAGGGTGTAGAACTGGGTGCAGGGATTGAAATCGTTGATCCAGAAGTGGTTCGCGA -AAGCTATGTTGGTCGTCTGGTCGAACTGCGTAAGAACAAAGGCATGACCGAAACCGTTGCCCGCGAACAG -CTGGAAGACAACGTGGTGCTCGGTACGCTGATGCTGGAACAGGATGAAGTTGATGGTCTGGTTTCCGGTG -CTGTTCACACTACCGCAAACACCATCCGTCCGCCGCTGCAGCTGATCAAAACTGCACCGGGCAGCTCCCT -GGTATCTTCCGTGTTCTTCATGCTGCTGCCGGAACAGGTTTACGTTTACGGTGACTGTGCGATCAACCCG -GATCCGACCGCTGAACAGCTGGCAGAAATCGCGATTCAGTCCGCTGATTCCGCTGCGGCCTTCGGTATCG -AACCGCGCGTTGCTATGCTCTCCTACTCCACCGGTACTTCTGGTGCAGGTAGCGACGTAGAAAAAGTTCG -CGAAGCAACTCGTCTGGCGCAGGAAAAACGTCCTGACCTGATGATCGACGGTCCGCTGCAGTACGACGCT -GCGGTAATGGCTGACGTTGCGAAATCCAAAGCGCCGAACTCTCCGGTTGCAGGTCGCGCTACCGTGTTCA -TCTTCCCGGATCTGAACACCGGTAACACCACCTACAAAGCGGTACAGCGTTCTGCCGACCTGATCTCCAT -CGGGCCGATGCTGCAGGGTATGCGCAAGCCGGTTAACGACCTGTCCCGTGGCGCACTGGTTGACGATATC -GTCTACACCATCGCGCTGACTGCGATTCAGTCTGCACAGCAGCAGTAATCTCGTCATCATCCGCAGCTTT -GCGCTGCGGATATCTGAACCGGAAATAATCACTATTTCCGGTTTTTTATTCTCTTAATTTGCATTAATCC -TTTCTGATTATCTTGCTTAACTGCGCTGCATCAATGAATTGCGCCATCCCACTTTGCATACTTACCACTT -TGTTTTGTGCAAGGGAATATTTGCGCTATGTCCGCAATCACTGAATCCAAACCAACAAGAAGATGGGCAA -TGCCCGATACGTTGGTGATTATCTTTTTTGTTGCTATTTTAACCAGCCTTGCCACCTGGGTAGTTCCGGT -GGGGATGTTTGACAGTCAGGAAGTGCAGTATCAGGTTGATGGTCAAACAAAAACACGCAAAGTCGTAGAT -CCACACTCATTTCGCATTCTGACTAACGAAGCAGGCGAACCTGAGTATCACCGCGTACAGCTGTTCACGA -CGGGCGATGAACGCCCGGGCCTGATGAACTTCCCGTTTGAAGGATTAACCTCAGGATCGAAATACGGGAC -AGCCGTTGGCATCATCATGTTTATGCTGGTGATTGGCGGCGCGTTTGGCATTGTGATGCGTACAGGAACC -ATTGATAACGGTATCCTGGCGCTTATTCGCCATACCCGCGGGAATGAAATTCTCTTTATTCCTGCGCTGT -TTATTCTGTTTTCACTTGGCGGCGCGGTATTTGGTATGGGAGAAGAGGCCGTCGCCTTTGCCATTATCAT -CGCACCGCTAATGGTCCGGCTGGGCTATGACAGTATTACCACCGTCCTGGTGACCTATATTGCCACGCAA -ATCGGTTTTGCCAGTTCGTGGATGAACCCGTTTTGTGTGGTCGTTGCTCAGGGGATTGCCGGCGTTCCGG -TGCTTTCTGGCTCCGGGTTGCGCATCGTGGTGTGGGTTATCGCCACTCTGATTGGCCTGATCTTTACCAT -GGTGTACGCCTCACGAGTGAAAAAGAATCCTCTTCTGTCACGCGTGCATGAGTCCGACCGCTTCTTTCGT -GAAAAGCAGGCTGATGTTGAACAACGTCCGTTTACCTTTGGTGACTGGCTGGTATTGATTGTCCTGACCG -CCGTAATGGTCTGGGTGATTTGGGGCGTGATCGTTAATGCCTGGTTTATTCCAGAAATTGCCAGCCAGTT -CTTCACCATGGGTCTGGTGATTGGCATCATCGGCGTTGTTTTCCGCCTTAACGGCATGACGGTTAATACC -ATGGCTTCATCCTTTACCGAAGGGGCGCGAATGATGATCGCCCCTGCCCTGCTGGTGGGTTTCGCCAAAG -GGATTTTGCTGCTGGTCGGTAATGGTGAAGCGGGTGATGCCAGCGTGTTAAATACCATCCTCAACAGCAT -TGCCAATGCCATTAGCGGTCTGGACAACGCGGTCGCGGCCTGGTTTATGTTGCTCTTCCAGGCGGTATTT -AATTTCTTCGTGACGTCCGGTTCTGGTCAGGCGGCGTTAACCATGCCGTTACTGGCACCGCTTGGCGATC -TGGTCGGTGTTAACCGTCAGGTTACCGTGCTGGCGTTCCAGTTTGGTGATGGCTTCAGTCACATCATTTA -CCCAACCTCAGCGTCGTTAATGGCAACGCTCGGTGTGTGCAGGGTGGACTTCCGTAACTGGCTGAAGGTG -GGCGCGACCCTACTTGGACTGCTGTTTATTATGTCCAGCGTCGTAGTGATCGGCGCTCAGTTGATGGGCT -ACCACTAAAAATGTTAAGAGCCGCAATTGCGGCTCTTTTTTCATTCTGCCGTTTCAGTCTCTACGGCTTC -ATTTTTGGCATTGCGCTTCATCCACAACGCTAGCGCTTTCAGCGAGTCTGGAGTGAACTCATCGCAGCGT -GCGGTGATTTCTTCCGGCGTCAGCCAGCAAACTTCACTGACTTCATCTTCCTGTAGTGCGAAGGGACCGT -GAGAGACGCAGCTGAACAATGCGCCCCAGACACGGCAATTTTTATCTTCGAAATAGAACTGCCCGTGCTC -GGCAAAGGGGACACCGGCAATGCCCAACTCTTCTTCCGCTTCGCGACGCGCGGATTCCAGCAGTTGCTCA -TCGGCCTGGACTACACCGCCTGCGGTCGCATCTAACATGCCGGGTAAAAAGTCTTTTGTCTCGGTACGAC -GCTGGACCAGAATTTTGCCCATGCCATCATGCACGACGATGTAAGTTGCACGATGACGCAGACACTGTGC -CCGCATTTGTTCCCGGCTGGCTTGTGCAATGACTTCGTTCTCTTCATTGACAATATCCACCCATTCAGTA -CTTGCCAAACGACGCTGTTCCATTATCAGGAAACCTTCTTTTTCTGGCGCTCTTACGGCGCATTTTGAGT -TGTGGGTAAATTACGGATTAATCGCGACCTGCGCAATGATACTTTGATCATTGAGTGCGATTACACTAAG -TACGTCATTATCCAGCATGCCATAACTCGCCGGATTACCGCCTTTCGGAATACTCACCGAGCCGGGGTTG -AAGTGGAAAATCTCCCCCCGCTGTTCTGCCACTGGCAGATGGGTATGACCGTACACCAGCACATCGTTCT -GGTTTAAAGCAGGCAGATTTTCCGGGCCAAAAAGATGACCATGCGTCAAAAACAGACGTTGTTTTTCCAG -TAATACCTGTTGCCACGGCGCGGTTATCGGGAAATGCAGCAGCATTTGATCCACTTCGCTGTCGCAGTTG -CCGCGCACAGCGATAACCTTATGTGCCACTTCATTAAGCCGTTCAGCGACTTTGGCTGGCGCGTAACCCT -CCGGTAAAGCATTACGCGGGCCGTGATTCAACACGTCGCCAAGGATCACCAGCCACTGGGCACCGCTTTG -GGCAAACAACTCCAGAACACGTTCCGTCGCCGGTAACGACCCATGAATGTCCGATGCAAACATCAGTTTC -ATCACTCACTCCTCGTCGAAAAAACGTAAGCTATGATACTGGATTCTGTCGTTGCTATCAGCCAGATTGC -TTCGCCGAAAGTGCAATAAAACGCTGGACAGACGCTCGCTGCCACTGGAATGTTGCATAATCCACCAGGC -GTTCTGGCACCTCATCGCCATGTAGTACCAGGCGGTTAATCATTAGCGCCAGATCAGTATCAGCAATGCA -CCATTCACCAAATAAATTCGGCTGACCCAGTACTAACAAATGTTCTGCCATCGCGAACAGTTTCTCTGCA -CTGGCTTTTCCCTCGGCCGTTAGTGGCGCTTTTTTCGCCCCCGCAAAGACAACATCCGTCGGACGCTCTT -CGCGGATGGGCATCAGATCGCTGCGCAGCCAGGCCTGAATCTGTCGTGCACGCGCACGATTTTCTAAATC -AAGCGGATAAATACGTTCCCAGGTCGGTGGCGCAAATCGATCTTCCAGATACTCCGCAATGGCAGAAGAT -TCACTCAACTCAAAATCATCGATTTGTAATAACGGCACACGGCGTGTCTGACCGTAACCTTGCCACGTCG -GCTGCAAATGTTCACCGCTGTCGAGGTCGATGGTCTTGATATGAAACGACAGGCCTTTTTCCTGCAACGC -CACCCAGGCGGATAACACATAAGGGGAGAAAAAGTGGGCATCTGACCAAAGCGTGATAGCGGGTTTACTC -ATTATGTCCTCGGCAATAAAGGGGGCTGGCTATCAAACTATAGAGCCTTTTTGTCACTGTCACGTGACGA -ATACTCACGTAAGTCGCCGCGCTTTCTATACTTGTGGTGTTCAGATGATTAAACAACCGGAGCTGCAATG -ATCGATCTCTATTTCGCCCCGACACCCAATGGTCACAAAATTACGCTGTTTCTCGAAGAAGCAGAGCTGG -ATTATCGCTTGATTAAGGTAGACCTGGGGAAAGGCGGTCAGTTTCGTCCGGAATTTTTGCGCATTTCGCC -CAACAACAAAATTCCGGCAATTGTTGATCATTCTCCTGCCGATGGCGGCGAACCGCTAAGCCTCTTTGAG -TCTGGTGCCATTTTGTTGTATCTGGCTGAGAAAACAGGACTCTTTTTGAGTCATGAAACGCGTGAGCGCG -CCGCCACATTACAGTGGTTATTCTGGCAGGTAGGCGGACTGGGGCCGATGCTTGGGCAAAATCATCATTT -TAATCACGCAGCCCCCCAAACCATTCCTTACGCTATTGAACGTTATCAGGTTGAAACTCAGCGTCTTTAC -CATGTACTGAACAAGCGGCTGGAAAACTCGCCCTGGCTGGGAGGCGAGAACTACAGCATTGCGGATATTG -CCTGCTGGCCGTGGGTTAATGCCTGGACTCGCCAGCGAATTGACCTAGCAATGTATCCGGCAGTCAAGAA -CTGGCATGAGCGGATCCGTTCGCGCCCTGCCACCGGGCAGGCACTGCTAAAAGCACAACTCGGTGATGAG -CGTTCGGATAGTTAACAGAAACAGGTTCTCGTGTATTATTTCATCCTAAGTAAAACAACGGAGAACCTGC -AATGGCACAACCTGCCGCTATTATTCGTATAAAGAACCTTCGTTTGCGTACGTTTATCGGAATTAAGGAA -GAAGAAATTAACAACCGTCAGGATATTGTTATCAATGTGACGATCCACTACCCCGCCGATAAAGCGCGCA -CTAGCGAAGATATCAACGATGCGCTGAATTATCGCACCGTAACGAAAAACATTATTCAGCATGTAGAGAA -TAACCGTTTCTCTTTGCTGGAAAAATTAACTCAGGATGTGCTCGATATCGCACGTGAACATCACTGGGTG -ACGTATGCTGAAGTGGAGATCGATAAACTGCACGCGCTGCGCTACGCCGATTCGGTATCCATGACCTTAA -GCTGGCAGCGTTAATCGCCATATCGGGAGGCTGCATGAACATAGTGATCACCGGAGGGACAGGATTAATT -GGTCGCCATTTGATTCCGCGTTTGCTGGAGCTGGGCCATCAAATTACGGTAGTGACGCGTAACCCGCAGA -AAGCCAGTTCCGTTCTCGGCCCTCGGGTGACACTATGGCAAGGGCTTGCCGATCAAAGCAACCTCAACGG -CGTTGATGCGGTAATCAACCTGGCCGGAGAACCGATTGCTGATAAACGCTGGACTCACGAGCAAAAAGAG -CGTCTCTGCCAAAGCCGCTGGAATATCACGCAAAAACTGGTCGATTTGATTAATGCCAGCGACACGCCAC -CGTCGGTACTCATTTCCGGCTCGGCAACGGGCTATTATGGTGACTTAGGTGAAGTGGTGGTTACCGAAGA -GGAACCGCCGCATAACGAATTTACCCATAAACTCTGCGCTCGCTGGGAAGAAATTGCCTGCCGGGCGCAA -AGTGACAAAACGCGAGTGTGCCTGCTGCGTACCGGTGTAGTGCTGGCACCGGATGGCGGTATTCTCGGTA -AAATGCTGCCGCCGTTTCGTCTTGGCCTGGGCGGGCCGATTGGCTCTGGTCGGCAGTATCTGGCCTGGAT -TCATATTGATGATATGGTCAACGGTATTCTCTGGCTGCTGGATAACGAGCTGCGCGGGCCATTTAATATG -GTTTCGCCCTACCCGGTACGCAATGAACAATTTGCCCATGCGCTCGGTCATGCGCTGCATCGCCCGGCCA -TTTTGCGCGTCCCCGCGACCGCCATTCGACTGTTAATGGGCGAATCTTCAGTACTGGTATTAGGTGGACA -ACGCGCGCTGCCTAAACGGCTGGAAGAAGCGGGTTTTGCGTTTCGCTGGTACGATTTAGAAGAGGCGCTG -GCGGATGTCGTTCGCTGATGTGGTTTACAGCAAACATCCGCCAGTTAACTCCCGGTGTTACAGGATTAGT -GGCTTTGCGCGATAAGATCGTCTGGTGAAAGTCGGGTCACCATCATAACTAACTCTCTGTCTAAACCTCT -ATCCAGCATCTCCTGAGCAATACGCAGGGCTTCTTCGTGTTTGCCCTGCATTGCGCCTTCTTCACGTAAT -CTGTCAGCAATGGTCATCAGTTTCTCCTTTTCTTGTGGTGCGCGTTCCGCTATCTCACCAATAAATGCAC -GAAAACGCTGGGCATCCCCTGTTTGTAATACGTAATTAAACAGGGCTTTTAGCTGTCTGTCATTAGTGTT -CCCTGTAACTAGCAGCGAAACAATTTGGTCGACTAATCCCAACAGATCGCGCTGACGAATATGTTTCTGA -ATTAACTCCAACAGCGCCATTTTGCGGTGTTGCATAATCTCGTCATCCGGCACCACGGTAATATCCACCA -ACGGAAAAGCCGATGAATATATTTTGCGGGCTATAGCAGGCTCGGCAAATTCATCAAGCCAGCAGAGTGA -ATAAGGATAAGGACTTCTGCAACCATGATAAAACAGCATCGGGAGCACCAATGGAAGCTCTTTATAGCCC -GCATCAAGATGGTTTTGCATTGCCGCAATGGAATAACGCATCATGCGAAAAGCCATTAATTCTTCCGGCT -TACTTTGGTGCTCTATCACTACATAAATATAACCCACTCCCTCCTGCGTTTTCACAGACCACAAGAGGTC -GGAATAATATTGCCGCAGGTCTTCATCAATAAAACTGTTTGGTTCCAGTTTAAGCGTCGTTAAATCACAC -AGTTTGCGCAGCGGCGCGGGAAGATGAATATCAATAAAATCCCGCGCGGTGTCTGGATGGCGTAAAAAAG -ATTTAAATACCGCATCATGCGGCGTGGAAGTTGTCGATATTGTCATGGCGTTCCGTCACCCCTCAAATTT -AAGATGACGCGACAATAACCACGATTAACACCCAATGCAGCAGGCAGTTTTTATCTTTGGACAGCGAATT -CAGAAGTATTTTTAGCGGACTGTAACTTTTACATTTCAGCGGAAGCTGACTCGCAAATTCCCCATGAAAA -TACTCCGGCAGCGTTAGCCACCGGAGAGGAAATTATTTCAGCGATCCCTTAAGGAACCGTTGCAGACGAG -GGCTTTGCGGGTTGCCAAATAACTGCTCCGGCGCGCCCTCTTCTTCTATTTTCCCCTGATGGAGGAAAAT -GACATGAGTAGAAACATGGCGAGCAAAGCCCATTTCGTGAGTCACTACCACCATGGTTTTCCCCTCTTCT -GCCAGTTGCTGCATAATACGCAACACTTCGCCTACCAGTTCAGGATCGAGCGCCGAGGTAGGTTCATCAA -ACAGTAAAACTTCCGGTTCCATCGCCAGCGCCCGCGCGATAGAAACACGCTGTTGCTGACCGCCGGAAAG -ATGCACCGGATATTTCCCCTGCGCACGTTCGTCTATCCCGACTTTTGCCAGATACTTCACCGCCCGCTCG -CGCGCTTCCTGCTTGCTCAGGCCCAACACCTGAATCGGCGCTTCCATGACGTTTTCCAGCACCGTCATAT -GGCTCCAGAGATTGAAGTGCTGGAATACCATCGTCAGGCGTGTGCGCAGTAAGCGCAGTTGATTTTTATC -GGCGACTTTGAGTTGACCGTCTTTGTCGCGCACCAGATTGATCGTCTGGCCATTGACCACGATCGACCCT -TCACTCGGTTTTTCGAGGAAGTTAATGCAGCGCAGAAAGGTACTTTTCCCCGATCCCGACGATCCGATGA -TGCTTATTACATCTCCGGCATTCGCTTGCAGTGATACCCCTTTCAGCACTTCATGTTCGCCGTAGCGTTT -GTGCAAATCGATAACGTTTAATTTATTCTCGGACATCGTATTCTCAGTGCGTTGAAGAAGGTTTCACATG -CTGCAACCAGCGTTTTTCCGCTCTGCGAAAGAGGCTGATCAGGACATAAGAGATGATTAAATAGAGCACC -GCGGCAATGCCGAAGGCGGTAAAAGGTTGATACGTGGCGGCGTTAATATCGCGGGCTATTTTCAGCAGAT -CCGGCACCGTGGCAGTAAATGCCAACGCAGTAGAGTGCAGCATCAGGATCACTTCGTTGCTGTATGCCGG -TAACGCAATACGCAGCGCAGAAGGCAAAATAATGCAGCGATACATTTTAAAAGTCGAGAAGCCATAGGCT -CTGGCGGCTTCAATTTCCCCATGCGGAACCGAACGGATTGCCCCAGCAAAAATCTCGGTAGTGTAAGCGC -AGGTGTTAAGCGTCAGCGCCAGCACGGTACAGTTCAGGCCACTGCGGAAGAAAGCGTTAAGGAATTCGGT -TCCCTTAACAATCTCAAGCGTGTACATGCCGGAATAGAACACCAGCAACTGAACATACAGCGGCGTACCG -CGAAAAATATAGGTAAATAACCAGATTGGAAACTGGATGTATTTATTACTGGAGACACGACCAATCGCCA -GAAACAGCGCCAGGACTCCGCCTATCACTACCGACAAAATAAGCAGCCACAGAGTGATCGCCACACCAGT -AAAGCGATAACCGTCGGTCCACAGCAGCGGTTTCCAGTATTCATGTAAGATTTCGATCACAGGTCAGCCC -TCTTCACACCCACGGAGTAGCGGCGCTCAAGGAACAGCAGCACACCATTGGAAACAGTGGTGAAAACCAG -GTAAATCACGCCACAGACGATGGCGAAATAGAACGGTTCCCAGGTACTTTTGCCTGCCAGTTGGGTGGCT -TTGACCACATCTTCCAGGCCGAGTAACGAAACCAGTGCGGTAGATTTGAGGATCACCTGCCAGTTGTTGC -CAATGCCTGGCAGGGCGTAACGCATCATCGACGGAAACATGATCCGCCGAAACACTTGCCCACGAGTAAA -ACCGAACGCCGTCGCCGCCTCTATATGTCCTTTCGGCACTGCCATAAAAGCACCACGGAACGTTTCGGTA -AAATAAGCACCGTAGATAAAACCGAGAGTGATAATACCAGCGACCATCGGATCGATATCAATCTGCCCGA -CGCCCATCGCCTCCGTCACCGTGTTTAGCGCAATCTGCAAACCGTAGAAAATCAGCAGCATCAACACTAA -GTCCGGCACGCCACGAATCAGCGTGGTGTACCCTTCGAAAATCAGCCCCGAAAGCCGATTTTGCGAGAGC -TTACCGCCAGCGCCAATTAAACCGATGATTACAGCGAGCACTACAGAGCTGATAGCCAGCTCCAGCGTGA -CGAGCGCACCCTGTAAAATAACACCTGAAAACCCATACAACATGCTGCCTGTCCTGTCGTGTGTGGTGAA -TTACCGCCTCTTGTCTCCCTCCGGTTACCCGAAGGGAGCGGGCTTTCTTTCACCGATGGCGATTAGCCAC -CATAAACATCAAAATCGAAGTACTTTTTCGCTAATTTCTCGTAAGTACCGTCAGCGCGCATTTCGGCAAA -GGCTTTGTTCAGTGCTTCGCGCAGTTCGTTATCTTCTTTACGCAGGCCCATGCCGGTCCCTACGCCAAAC -AGTTTTTCATCTTTAACAGACGGGCCACCGAATTTGTAATCTTTACCGACAGGTTGTTTGAGGAAACCTT -CGCTGGCAGCGACCTCATCCTGGAACGCGGCATCAATACGTCCGGCAGTCAGGTCAGAATAAATGTTGTC -CTGCCCCTGATACGAGACGATTTCAATGCCTTTTGGTGCCCAATGTTCATTACCGAACGTCTCCTGGGTG -GTGCCCTGCAATACGCCTACCCGTTTGCCTTTCAGCGACTCGACTGTCGGCTGAATGTCAGAATTTTTCG -CCACCACCAAACGAGAATCGGCAGCGTACAGTTTGTCGGTGAAGGCTATTTCTTGCTGACGTTTTTCCGT -AATGGAAAGCGATGACATGATGGCGTCAATCTTCTTCGCTTTTAAGGACGGGATTAACGCATCCAGCGGA -TTTTCGACAAACGTACATTGCGTATTGATGCGTTTGCATAATTCCTTTGCCAGATCGATATCGAAGCCAA -CCAGTTCGCCTTGTGAATTTTTTGATTCAAATGGCGCATAGGTCGGGTCGGTACCGATGCGGATGTTTTG -CGGAATCGCAGCAAACGCCGCAGTTGCGCTGGAGAAGGCCAGAACCAGAGAGAGCGATAGCACCAGTTTT -TTCATAATGTCCTCAACTGACAGTCTTTTTATAGGGAATATTTACAGGTTTGTTACACTTATCGTGCCAT -AAAATTGACCATCAAGGCAAAATATCCCGCCCCGTTAGACGTATTATTTTTCATTAAAAATGCTTAAGTA -TGCATTTCAATGCACCACGATAGTGCAACAAACCTGGCGTGCACCATGATGATCATTCCATCAGGTACAG -CTTCCCAGCGACGTATCAGTCACCGTAGACATTAAAGTCGAAATACTTTTTCGCCATCTTGTCGTAGGTG -CCGTCCTGACGCAGCTCGCCAAGCGCCTTATTGAAGGCAGCCGTCAGTTCAGCATCATCTTTACGTAGCC -CTACACCGGTGCCATCACCGAAGTATTTTTTGTCTTTTACTGATGAGCCAGCAAAGGCGAAATCTTTACC -AGCAGGTTGCTTGAGGAATCCTTCGCTGGCAGCAACTTCATCTTGTAACGCAGCATCCAGACGTCCTGCA -GCCAGATCGGAATAGACCAAATCCTGGTTGGCATAGGCCACCACATCCACGCCTTTACTACGCCAGGTCT -CGTTAGCGTAAGCTTCCTGGGTTGATCCCTGCAGCACACCAACATGTTTACCTTTCAGTGAATCCAGCGT -TGGCTGAATCGGTGAACCTTTGGCCGCAATCAAACGAGAATCTGCGGCGTACAGCTTGTCGGAGAAGGCA -ATCTCCTGCTGACGTTTATCGGTAATGGAAAGCGACGAAATAATAGCGTCGATTTTTTTCGCTTTCAGTG -AGGGGATCAGCGCGTCAAAGTCACTGGCAACCCAGGTACATTTCACCTGCATCCGTTTGCACATCTCGTT -ACCGAGATCGATATCAAAGCCAACAAAATCACCTTTAGCATCTTTCGATGAGAACGGTGCGTAGGTGGTA -TCGGTTCCGATACGTACCGTCTCCGGTAGCGCCGCATAGCTGGAAGCCGCTGTGGAGAGACCGACTAACA -AAGACAGAGCGAGAATCGACTTCTTCATACATAACCCTCAAGTGAAAATGGCTTTTTTATGTTGTGTATT -GTGTTGTGTGTTTGCAGGCTCTTTCATGCAGGTCTTATGCCATCTTGACGACAACAGTAACATTCAACGT -TAAATATGTTAATAAGACGTTGCATTATTGTCCTGAAGTTGAAGATAGCAGGTATAGCGGTTGAATCGCA -GCGTTTCGATTGAATGGCAGAAACAAAATGTCGAGGATTTGATCGCGGTTGCAAAATTGCCCTGAAACAG -GGCAACAGCGGAGTTATGCGCCCTGCCAGCGGGCAAAGAGATCTTCAGGAAGGGTTATCGCAAACTGGTC -AAGAACACGATTAACCGTCTGATTTATCACATCATCAAGGGATTGCGGGCGATGATAAAACGCCGGAACG -GGAGGCATAATCACCGCACCGATTTCTGCCGCCTGAGTCATTAAACGCAGATGGCCTAAGTGCAATGGTG -TTTCACGCACGCAGAGCACCAACGGGCGACGCTCTTTCAGCACCACATCTGCCGCACGGGTCAGTAAGCC -ATCAGTATAGCTATGGACAATGCCGGAAAGGGTTTTGATTGAACAGGGTAAAATCACCATCCCCAGCGTC -TGGAAAGAACCGGAAGAGATGCTGGCGGCAATATCGCGCGCATCGTGCGTGACATCGGCTAATGCCTGCA -CTTCGCGCAGAGAAAAATCCGTTTCGAGGGATAAGGTCTGGCGCGCTGCCTGGCTCATCACCAGATGCGT -TTCGATATCTGTGACATCGCGCAGAACCTGTAATAAGCGCACGCCATAAATCGCGCCGCTGGCACCGCTG -ATGCCTACAATGAGTCGTTTCATAAATAGTTGCCCTGTCAGACTTGCAGGCAGACTTTGCAGGATTTCGG -CGGGAGTTGCAAGTCAGGGTGCCAGACCGGCACCCTCAGCGAAGGCATCATCCTTCGTTATGCATTTCGA -GATTTTCCACTTCGTTCTGACGTTGCACTGCTTTGGCGTCATCATTACGTAACGTATCGAGGAAATCGAG -GTAGCCCTGATCAACATCTTTGGTGACGTAGACGCCGTTGAACACCGAGCATTCAAACTGCTGGATATCC -GGATTTTCAGCGCGAACGGCGTCGATCAGATCGTTCAGATCCTGGAAAATCAACCCGTCAGCACCGATGA -TCTGGCGAATTTCATCAACTTCGCGACCGTGAGCGATCAGTTCCGTGGCGCTCGGCATATCAATACCATA -AACGTTCGGGAAGCGAATTTCCGGTGCCGCAGAAGCGAGGTACACTTTCTTCGCTCCGGCTTCGCGTGCC -ATCTCGATAATCTGCTCAGAAGTGGTGCCACGGACGATGGAGTCGTCGACCAGCAGGACGTTTTTATCGC -GGAACTCGGCGCGGTTGGCATTCAGTTTACGGCGCACGGACTTACGACGCAGCTGCTGGCCCGGCATGAT -AAAGGTGCGGCCAACATAGCGGTTTTTAACGAAGCCCTGGCGGTACGGTTTGCCCAGAATACGAGCAATT -TCCAGCGCGATATCACACGAGGTTTCTGGGATCGGGATCACCACGTCGATATCCAGATCTTCCCATTCGC -GGGCAATTTTCTCGCCCAGTTTCGTGCCCATATTCACACGCGCGCTGTAAACGGAAATTTTGTCGATAAA -CGAGTCCGGGCGGGCAAAGTATACATACTCAAACAGGCACGGATTGCTGACCGGATTGTCAGCACATTGA -CGGGTAAACAACTGCCCTTCTTCAGTGATGTAAATCGCTTCGCCCGGCGCGACGTCACGCAGGAAATCAA -AGCCCAGCGTATCGAGCGCTACGCTTTCGGAAGCGACCATATATTCTGTACGGTTCTCGTCAATATCACG -TTTTCCCAGTACCAGCGGACGAATCCCGTTTGGATCGCGGAAAGCAACCATACCGTGGCCGATAATCATC -GCCACACAGGCATACGCGCCGCGGATTAAGCGGTTTGTGGCAGCAATGGCAGCGAAAATATTGTCGGCTT -CCAGCGGGTAGTGGCGGAAGTTGTCCAGCTCGCTGGCGAAGATATTAAGCAGAATTTCCGAGTCGGAAGT -GGTGTTGATGTGGCGGCGTTTTTCTTCAAACAGTTTTTTACGCAACTCGTGAGCGTTGGTCAGATTGCCG -TTGTGGGCAAGCGTAATGCCATACGGGGAGTTAACGTAAAACGGCTGCGCTTCAGAGGCGCTGGAGCTGC -CAGCCGTGGGGTAACGCACATGACCAATGCCCATATTGCCCTGCAAACGCTGCATATGGCGAGCTTCAAA -TACATCGCTCACCAGCCCGTTCGCTTTACGCAAACGGAAGCAGTTATTGGCATCTATGGTGATGATGCCG -GCGGCATCCTGACCGCGATGCTGAAGCACCGTTAAGGCATCATAAATCGACTGGTTAACCGGCATAACAC -CGGCGATACCGACAATACCGCACATACGTCTTTTTCCTCGTTAAGCCACATCTCAGAGCACTTACGCTCT -GGGCAAGAAACTTGACGAGCTTTGCAGATAATCAAAAAAACATCTGATGATAAAACTGAATTGCGGGATC -AGCTGTGATTTGCTCCAGTCTTCGCTTTTCGACACCCCGGTAAAGGAGTCGAGAAAGAAGAGAATGGCAG -CAACAATCAACACACCGCGCAACGCACCGAAACAGACGCCCAGCACCCGATCGGTGCCTGACAACCCCGT -TTTCTCCACCAACTGGCCTATCACGAAGTTCACGATAGCACCAACGATCAGGGTAGCGATAAACAGTACC -GCGATGGCAATCCCATTTCGAACCAGTTCGTCTTCAAAGCCCGTAAACCAGACTGACAGGTAAGTGTAGT -AATGACTGGCAACAAAGAAAGCACAACCCCATGTCACCAGCGATAACGCTTCACGAACAAAGCCGCGGAT -CAGGCTAACCAGAGAGGAAAAAGCAATCACCGCGATTATGGCGTAATCAATCCAGACCATATGTGTCCCA -CGATTTTACGCCCTGTCATCCTGTTCGGGGCGCATTCTAACAGAAAAAGAAAACGTTTGCGTAGGGATTT -CCTTCCCGCGCATCAATAAAAATGGCGCTGAAAAAATATTCAACGCCATCGACTTTTTATGCCTTTGCGG -CATCGGGCAATGCGTGTCGGATGCGGCGTAAACGCCTTATCCGACCTACGGTTCTACCCCTGCGTAGGCC -TGATAAGACGCGCCAGCGTCGCATCAGGCAAGACCGTATTAATTCGGCGTATAGCCCATTACCACGCCAC -TTAAGCCAGAAAGTTGCTTCAACTCACCCAGCGAACCTTTCAGCTTATCTTTCGAGGCATCCGGCCCAAC -CAGAATACGGGTAATTTTACCCTGCACTGGCGTGGATGGCGACGTATAAACCCGATAACCGGCACCGCGC -AGCTTACCGACAATCTCATTCACTTTATCGGCATTTTTCAGCGCACCCAGTTGCACAACATAGGCTTTAC -CCGTCGGTGCAGCTTTTTCTTCCACGACCGGCTTCGGTTCTGGCTTCGGCGCAGGTGGTGCTTCAACCTT -TGGTTTAGGCGGCTCCACCGGTTTCGGCTTCGGTGGGGCGACCGGTGCAGGTTCCGGTTCAAACTCGGTG -TTATTGGCTGCAATAGTGGCCGGATCGAGCGACGGTGCTGCGGCATCACCTGCCCGCACCTCTTCCGCTG -CGCCTTCCGGCGGCTGCGTCGGTAACGCCTGGGTGGCGGCTGGCATCATATCAGGCTCATCACGATCGCC -CGCTTTCGGCACCAGCGGGATAGCCGCGAACTCATCCTGATAATGTTTTTTCTGCCCGTCCAGCAGCCCT -GGAAGTACAATCACCCCCAGCGCCACCAGCACGATCGTGCCCACTAACCGATTCTGAAACTTACTTGCCA -CCGCTTCTCCTCGCGTCAATCACTTCCATGACATGTGCGACCGTGTGGAAAGAACCACACACCAGCACGG -TGTCTTCCGCTTTAGCGTCCGCCATTGCGGCATCCCATGCCTGCGCAACGCTATCAAATGATTTGCCGTT -ACCCAAATGCTCAAGCAGTTGTTCTGCCGTGGCACCGCGCGGCCCTTCCAGTGGCGCACAATACCAGTCA -TCAACCACGCTTTTCAACCAGGCCAGAGTTCCGGCAATATCTTTATCATGTAGCATACCGATAACCGCCA -GCACGCGCCCGTTTTTCGGTAGCGCTTTCATACGCCCGGTGAGATATTCCGCCGCATGTGGATTATGCGC -GACATCAAAAATAACGCGTGGCGACTCGCTCACAATCTGGAAACGTCCCGGCAAAATTGCGCTGGCAATC -CCGTCGCGAATGGCATTTTCACTGACTTCCAGCCCGCTGGCACGCAGTGCCGCCAGCGCTGTTGCGGCAT -TCGGTTGCGGGACAAGCGGCAACGGCAGATTTTCCAGCGTGCCGTGAGCATCGCTAAACGCCCAGTCATG -ATCGGTGACGGAATAGTTCCACTCAACGCCCCGACGTTGTAACAGTGCACCTTTTTCCTGCGCCACATCA -GCAATGGTAGAAGGCATTTCCGGCTCACCGACAATTGCCGGTTTTTCGCTGCGGAAGATGCCTGCTTTCT -CGCGACCAATACTTTCGCGATCTGGACCCAGCCAGTCGGTATGATCCAGCGCAATACTGGTTACTACCGC -GACATCGGCGTCGACAATATTGGTTGCGTCCAGACGACCGCCCAGCCCTACTTCCAGAATCACCACGTCA -AGTTGTGCCTGCTTGAACAGCCACAACGCCGACAGCGTACCGTACTCGAAATAGGTCAGGGAAATATCAC -CGCGTGCCGATTCAATCTCCGCAAAAGAGGCGGTGTGGGCCGATTCCGGCAATTCCTGGCCCTGCACACG -TACGCGCTCGGTATAACGCACCAGATGAGGCGAACTGTAGACGCCCACTTTGTACCCTGCCGCCATCAGA -ATCGACTCCAGCGTACGGCAGGTGGTGCCTTTGCCATTCGTACCCGCAACGGTAAACACAAATGGCGCTG -GTTTCAGGACGCCAAGACGCGCCGCGACCAGGCTCACGCGCTCAAGGCCGAGATCGATAGTTTTACTGTG -CAGGTTTTCCAGATAAGAAAGCCACGAAGCCAGAGGCGACGCGGCTTGAGGAGTGCGTTTGATAATCATG -GTATCCGCTGATTCGTTACGGTGAGAATAGCAAAAGGGCAGAGCCAGTGGCCCTGCCCTTATCAGTTATC -AGGCCTCAGGTTCCTGATCCGGTACCGGGGGTACCACTACGCCTTCACGCGGCGCTTCAGGATTCGGCGC -TGGCAGATTCATCAACTTCGCCAGAATGCTCGCCAGTTTCAGGCGCATTTCCGGACGACGGACGATCATG -TCGATCGCGCCTTTCTCGATCAGGAATTCACTGCGCTGGAATCCAGGCGGCAGTTTTTCGCGAACGGTCT -GTTCGATAACACGCGGACCGGCAAAGCCGATTAACGCTTTCGGTTCAGCGATGTTGAGATCGCCCAGCAT -GGCGAAACTTGCAGAAACACCGCCCATCGTCGGGTCGGTCAGCACGGAGATGTACGGCAAGCCGCGCTCC -TGCATTTTTGCCAGTGCCGCAGAGGTTTTCGCCATCTGCATCAGCGACATCAGTGCTTCCTGCATACGTG -CGCCACCAGAGGCGGAGAAGCAGATCAGCGGGCAGTTATCTTCCAGCGCCTGCTCAACGGCACGCACGAA -ACGTGCACCCACAACAGACCCCATTGAACCGCCCATAAAGGCGAACTCGAATGCCGCAGCGACAACCGGC -ATTCCATACAGAGTGCCTTTCATCACCACCAGCGCATCTTTTTCGCCGGTTTCTTTCTGCGCAGATGCCA -GACGGTCTTTATACTTCTTGGAGTCACGAAACTTCAGCACATCTTTCGGCTCAAGCTCGCTACCCAGCTC -CACAAGGCTTCCTTCATCTAACAGGCTATGCAGGCGATTACGCGCTGTCATACGCATGTGATGGTCACAC -TTCGGACAGACCTCAAGATTACGTTCCAGCTCAGCGCGGTATAAAACCTGACCGCAGCTATCACACTTAG -TCCACACCCCTTCAGGAATGCTCGCCTTGCGGGTGGGAGTAATGTTGCTTTTAATTCGTTCAATCCAGCT -CATTAGGGACCTTTCTGTCTGAACCTGGTTCGATGCCAGTTTTATCTTTGGGGACGCATAATGCCATTTT -TGCCCCCAACAGACCATGAATGTTGCACATTAAAACATAACAGCCCGAAACTTTGGATAAAAAAGTGGTC -GAACCGCGGAGTTACTTTTTATTTTGCGGCGCGTGCCGCAGCGCGTTTGTGACGGATTATTTCGATGACG -CCCGGCAAAATAGAAACCACAATAATCCCGACGATCAGCAGCTTAAGGTTATCCTGAACCATCGGGATTG -TACCGAAGAAATAGCCTGCGTAGGTAAAAAGCAGTACCCACAACAGTGCGCCGATCACGTTATAAGCGGC -GAAATGACGGTACGACATGTGGCCCATTCCCGCAACAAACGGGGCGAACGTTCTGACGATCGGCACAAAA -CGGGCGAGAATAATCGTTTTGCCGCCATGTTTCTCATAAAACTGATGGGTTTTGTCGAGATAACTGCGAC -GGAAAATTTTCGAATTGGGATTACTGAACAACTTTTCACCGAACAACCGCCCGATAGTGTAATTGACCGC -GTCACCCACAATCGCGGCGATCAGCATCAGCACCACCATCATATGGACGTTGAGATCGTTGGTTTCCAGT -GATGCCAACGCTCCGGCAACAAACAGCAATGAATCACCCGGTAAAAACGGCGTTACCACCAGACCGGTTT -CACAGAACAAAATTAAGAACAAAATGGCATAAACCCAGACGCCGTACTCCGCGACCAGCTCTGCCAGATG -CACGTCAATGTGCAGGATAAAATCGATGAGGAAATAAATCAGGTCCATATTTGCCTATGCCTTGTACTCG -TCATCTTTCAGGCTGTAACTACGTTGGCTACAGCCTGAAATGTTCCGAGCATTATTCTCGTTAGTCCGCC -AGAAATAGCGGGCCCATTGGCGGTTTTGGAAGATCATACCGGTCAGGGTAATCCACCGCGACCAGATACA -GCCCTTCCGCTTTTGCCGTTGCTGCCGCCAGCGTTCTGTCCTTTGCCGCCAGCAACTCTGCTATCCAGCT -CTCCGGCTGGTTGTGGGCACCGACTTCCATCAGGCTGCCGACAATATTCCTGACCATATGATGTACAAAA -GCATTCGCTTTAATATCTACCACCACATAAGGACCGTGACGCGTGACATTAATATGCATAACGTTGCGCC -ACGGGGTTCGGGACTGGCACTGCACCGCACGGAACGAGGTGAAATCATTCTCGCCCAGCAAGCATTGCGC -AGCCCGATGCATCCGTTCAGCGTCCAGCGGTTCGTAAAAATGGGTTACCCCTTTACTCAGTACCGCCGGG -CGCAGCCGATGATTGTAGATGATGTAGCGATAACGGCGAGCCGTGGCGCTAAATCGGGCATGAAAATCAT -CAGGTACAGTTTTAACCCAACGCACAGCGATGTCACCAGGTAAATTCGCATTTACGCCCAAGGTCCACGC -CGCGTCTTTGCGCAGCGCGGTTGTTTCGAAATGCACAACCTGCCCGGTACCGTGTACCCCTGCGTCAGTA -CGCCCGGCGCAGAAGACGGTGATGGGTTCGTTCGCCACCTGGGAGAGCGCCTTTTCCAGCTTCTCCTGCA -CACTGCGGACTTCGTTCTGCCGTTGCCAGCCGTAATACTTACTGCCGTCGTACTCAATGCCCAGCGCAAT -TTTATAAACTGGCGGTTGTTGCTGGTCGGACATTAGTACAGATACTCCTGCACCAGTTTCTCGGCGATTT -TTACTGCCATCAGCGCGCCGCCAAAGCGAACGTTATCGGCCACCGACCAGAACTGGACTTGCTCCGGCAT -ACCGTAGTCATTACGCACGCAGCCAACAGAAAGATGCGGCGTACCCGAAGCATCACCTACCTGAGTTGGG -AATTCGTTCTCTTCAGAGAGCACAATATCTTCGCCTTGAACAAACGCATCACGCGCTTCTTCTGCTGCCA -GTGGACGCAGAGCTTCAAAGTTGACCATCTGGGCATGACCGTAGAATACCGGTGCCTGGACGACGCTAGC -CGAAATCATCAGCCCTTCGTCCTGCAGGATTTTGCGTACTTCGTCAACGATACGACGTTCTTCACGCACG -CTACCTTCGCTATCCGGCAGTAACGGCAGCATGTTGAACGCCAGCTGACGCCCGAAGAAATCTTCTTCGT -CAATCGGAATGCCGTTGAGCAATTTCGCACTCTGCCCCGCTAACGCATCGACCGCTTTTTTGCCCTGGGC -GGAGGCTGAAATCAGGCTGGTAACGCTGATACGTGATAAACCGCCCTGATCGATTAACGGTTTCAGTGCC -GCCAGCAGCTGGCTGGTCAGACTGTCTGGTACGGCGATGACATTCCGGTTCCGGTAATCTGTCAGTACAA -ACGGGTTTACTTCCGGCACCACCAGCGGTACGTCGGGTTCGAGAGCAAACAATCCACTGCTGTCGATCAC -CAGGCAACCTGAGTTGGTCGCTTCTTCAACCCAGGCAGCGGTAGCTTCTTTGCCTGCGACAAAAAATGCC -AGCTGCGCCTGCGTCCAGTCGAATTCAGCGGCATCCTGCACGGTGATTGTCTTACCACCAAAGCGCAGTT -GTTCGCCTGCGCTTTCGTTACGTGCCAGTGCATAAATTTCCCCAACCGGGAACTGACGTTCAGCCAGCGT -TTCAAGCAGGGCTTCGCCCACAGCGCCAGTTGCGCCCAGGACGGCAATGTTCCAGCCTTCAGACATGGTG -GTTTACTCCAGAAATAGCAAAGCTCCCTGCCAATGTTACAGCAGAGAGCATGAAGAAGAGATTAACGTGC -CGGATGATGAACGGCGTTAAAACCCAGTTTACACAGCAATGATGCCGCACTGGCGTCATCACAAATTACA -TACAGAGATGACCATTCACGGCGCTCAAGATAGTTTTTGCGCAGTTTATCGAACTCACCCGGTATCCCGG -CGACTTTACGCAGCGGTGCGTCATCGCGGCGCACATCATACACCAAATGCACCAGCCTTTTCAGCGTCGG -TTGATCGAGCGGGCCATGCAGCGTAATGCGACCAAACTCTGGCGCAGGCAGTAATGTATCCAGCGCAACG -TGCTGTTCATGCCCAATAAACTTGCTATAAGCTTCAAACACTTGCGTAGTACCGCGTGCTTTACCTTCCA -GGGTATAGCCTGCGATATGCGACGTGCCGATATCCACTTTTTTCAGCAGCTCGACGTTGAGTTCCGGTTC -GCCTTCCCAGACATCCAGCACTACGCTTAACTTCTGGCCTTCATTCAGGCAGGTCAGCAACGCAGTATTA -TCGACGACTGCGCCACGGCAGGCGTTAATCAGAATCGCTCCGGGCTTCAGGCTACGGATCAGTTTTTCAT -CCGCCAGATGTAGCGTTTTGTACGGACCATCTTTAAAGAGTGGCGTATGGAAAGTCAGAATATCCGCGCG -CTGGACTAACTCATCCAGCGAGCGGAAATCACCCTCATCCCCACGGTCGGCGCGAGGCGGATCGCAAAGT -AAGGTTTTAATCCCTAACGCTTCCAGTCGCGCCTGCAATCGACGTCCAACGTTACCAACGCCCACGATCC -CCACCGTACGGTCGTACAGTGAAAATCCATCGCGTTCGGCAAGCATCAGCAGGGAGGAGAAAACATATTC -CACCACCGCAATCGCATTACAGCCAGGTGCAGCGGAAAAACCAATTCCCGCCTGCTTCAACCATGCTTCA -TCGACATGGTCGGTCCCCGCAGTGGCAGTGCCAACAAATTTAATGGGTTTTCCTGCCAGCAAAGATTCAT -TCACTTTCGTGACCGAACGCACCATCAGCGCATCCGCGTCTGCCAGTTGAGCGACGGGGATTGGACGCCC -GGGAACCGCGGTCACCTCACCCAAACGGCTAAATAAGTCGCGGGCATAAGGCATATTTTCATCAACAAGG -ATTTTCACGTTTGTGTTACCTGTATGAGACGAGAGTTAACCGGACAAGTGTGCCATAATCTCGCGGCCAG -GCATACTTGCGAAGATTTCAGGTATAAGGATACGTAATGATACAACCTATTTCCGGCCCTCCTCCTGGGC -AACCACCAGGTCAGGGAGATAATCTGCCGTCTGGCACGGGCAATCAGCCTTTATCCAGTCAGCAACGTAC -TTCGCTGGAAAGCTTAATGACGAAAGTGACCTCACTGACGCAACAGCAAAGAGCAGAACTGTGGGCGGGT -ATCAGGCACGATATTGGTCTGTCGGGAGATTCACCGCTGCTTTCGCGTCACTTCCCTGCCGCTGAGCATA -ATCTGGCGCAACGTCTGCTGGCCGCGCAAAAAAGCCATTCTGCCCGCCAGCTTTTAGCGCAATTAGGGGA -GTATTTACGTCTGGGGAATAATCGTCAGGCGGTCACGGATTATATCCGTCATAACTTTGGTCAGACGCCG -CTGAATCAGCTCTCACCGGAGCAATTAAAAACCATTCTCACCCTGTTGCAGGAAGGGAAGATGGTTATTC -CGCAACCACAGCAGCGCGAGGCGACCGACCGTCCTTTATTACCGGCGGAGCACAATGCGCTAAAACAGCT -GGTGACCAAACTTGCGGCGGCAACGGGGGAACCCAGCAAACAGATCTGGCAATCGATGCTGGAACTTTCC -GGGGTGAAAGATGGCGAGTTAATTCCAGCGAAACTGTTTAACCATCTGGTGACCTGGCTACAGGCGCGTC -AGACGCTAAGCCAGCAAAATACGCCGACGCTGGAATCACTACAGATGACGCTAAAACAACCTTTAGATGC -CAGTGAACTGGCGGCGTTATCGGCATATATCCAGCAAAAATATGGTCTTTCTGCGCAATCATCGCTTTCT -TCTGCCCAGGCCGAGGATATTCTTAATCAGCTTTATCAACGGCGGGTTAAAGGGATTGATCCGCGTGTTA -TGCAACCGCTGCTTAATCCTTTTCCACCGATGATGGACACGTTGCAAAATATGGCAACGCGTCCCGCGCT -GTGGATACTGTTAGTCGCGATTATCCTGATGCTGGTCTGGCTGGTTCGTTAACCCCGACGAAATGACAGT -ATCGTGACAATAATACCCAGCACCGCAGAGATCGCCCCGGCAAGAAATACCGAAGAGTAACCAAACGTGG -TCGCCAGCATTCCCGCCAGCGGCCCGGAGACGCCGAGGGCGATATCCTGAAACGCGGCGTAACCGCCCAG -TGCGGTGCCGCGAACTTGTGAGGGGACGCGTTTAACCACCTCCACGCCCAGCGCAGGAAAGATAAGCGAA -CATCCGGCTCCGGTTAACGCCGCGCCCGCTAATGCGACCCATGCACCTGGGGCTTGCCAGAGCAGCAACA -AGCCCACCGTTTCTACAAGCAGAGAGACAATCGCCACTTTCACGCCGCCAAAACGGTCCGGCATCCAGCC -AAACATGACGCGCATCACGACAAATGCGCCGCCAAACGCGGTAAGAGTAAAGCCCGCCATCGCCCATCCT -TTGCTGGCAAAGTAGAGCGAAACGAAAGTCCCGATAACAGCAAAACCAACGCCTTGTAGTGCCAGACCTA -ACCCTGGTTTCCAGATAAGCCCGACAACGCTCCACAGCGATGGACGTTCTCCCGCCAGGGCCGGTACTTT -GCGCACTGTGCCGTTACAGGCCCACGCCAGTACGGGTAATACCATTGTGGTGATCGCCAGTGCGGCAAAA -CCGTAATGGCTATGAATCAACAGGCCAAGCGGAGCACCAACAGCGAGGGCACCGTAAATCGCCATTCCGT -TCCATGACATCACTTTGCCAGAGTGTTTTGGCCCTACGATGCCTAGTCCCCAGGTCAGAGCGCCTGTCAG -TAACTGGCTTTCACCAAAGCCAAGAATCAAACGCCCGACGACCAACAGAGCAAATTTGAACGGTGCGGAG -ACAGGCAAAATCGCCGCCAGCAGCAACGCGCCGCCAGCCAGACCACAAGCTAACATTCCCTGAAGCGCCG -AACGTTTTGCACCATATTGATCGGCCAGTCGCCCGGCGTAACCACGCGTCAGCACCGTAGCCAGAAACTG -AATCCCGACGGCAATGCCGACCATGGTATTGCCATAGCCCAGTTCATGATGAACAAACAGCGGGATAACC -GGCAACGGCAACCCTACGGTCATGTAGGTGAGAAAAACCGCAAAAGCGATGCGGAAGAGCGAAAAATTGG -CAGAAGATCGTGTTTCGGTTTGGCTTACAGCAGTCATGCATTACTCCAGAATGCAGCGCAAGGCGAGGAG -TATCCCCGTCTCATCTCTCTGGTTTCAGGGTTACGGTGCGTTGGCAGGATTTAACGCGTACGTCTTTTCA -GAAGGAAATCGACAAAGCGGGAAGTTTGCCTGGAACTGGCGGCGATTGTCAATGATGTGAAAAAGGGAAC -CATCAGGTTCCCTTTTGCGTTAGTGCCGGAGGCCGCATTGGCGCGTAACGTCGGATGCGACGCTGGCGCG -TCTACTCCGACCTACTGCGAATTAATCTTTCAGCTTGCGCATTACCAGCGTGGCGTTGGTGCCGCCGAAG -CCGAAGCTGTTAGACATAACGGTGGTCAGTTCGCGATCGGTCGTTTCGGTCACGATGTTCAGACCCGCAG -CCTGCTCGTCCAGCTCTTCAATGTTGATGCTCGGGGCGATAAAGCCGTGTTCCAGCATCAGCAGAGAGTA -GATAGCTTCCTGTACGCCAGCAGCGCCCAGAGAGTGACCGGTCATGGCTTTGGTTGCAGAAATCGCCGGG -CTCTTATCGCCGAACACTTCACGGATAGCTGCCAGCTCTTTCACGTCGCCAACCGGAGTCGAAGTACCGT -GGGAGTTCAGGTAATCGATTGGGGTATCAACGCCATGCATCGCCATCTTCATGCAGCGTACTGCGCCTTC -GCCAGACGGAGCAACCATGTCTGCACCATCAGAGGTTGCGCCGTAGCCAACGATTTCAGCATAGATGTGA -GCACCACGCGCCAGCGCGTGTTCCAGCTCTTCAACCACTACCATACCGCCGCCGCCAGCGATAACGAAAC -CGTCACGGTGAGCGTCGTAAGTACGGGAGGCTTTTTCCGGGGTGTCGTTGTATTTAGTAGACAGCGCACC -CATTGCGTCGAATTCGCAAGCCATTTCCCAGCACAGCTCTTCGCCGCCGCCAGCAAACACGATGTCCTGT -TTGCCCAGTTGGATCTGCTCTACTGCGTTACCGATACAGTGTGCGGAAGTCGCACACGCGGAGCTGATGG -AGTAGTTAACGCCATGAATTTTAAACGGGGTGGCGAGGCAGGCAGAAACGCCGGATGCCATCGCTTTGGT -GACCACATACGGGCCAACCGCTTTCAGGCCGCGCGGGCCGCGCATTGCGTCAGCGCCGAACACCTGGAAA -CGCGGGGAGCCGCCGCCGGAACCTGCAATCAGGCCAACGCGCGGGTTATTCTGGTAAGCTTCCGGAGAGA -GGCCCGCATCAGCGATTGCCTGCTCCATAGAAAGGAATGCATAAATGGATGCGTCGCTCATAAAGCGCAC -AACTTTGCGGTCAATGAGGCCAGTGGTATCCAGTTTTACGTTGCCCCAGACGTGGCTACGCATGCCGGAA -TCCTTCAGCTCCTGAGAGAAAGTGATCCCTGAACGTCCTTCACGCAGAGATGCCAGGACTTCCTGCTGGT -TATTACCGATGCTGGAAACAATGCCCAGGCCAGTAATCACTGCACGTTTCATTCAATACCTCTGTAAGTC -GCACATAGAGTAAGTTTCGAATGCACAATAGCGTACACTTGTACGCCGAACAAGTCCGATCAGCCATTTA -ATAGAGAAATTTGCGCAGCCTTACACACATCGCTAAGATCGAGCCACCGCCTGTAAGACGAGTAACTTAC -GTGAAACACTACTCCATACAACCTGCCAACCTCGAATTTAATGCTGAGGGTACACCTGTTTCCCGAGATT -TTGACGATGTCTATTTTTCCAACGATAACGGGCTGGAAGAGACGCGTTATGTTTTTCTGGGAGGCAACCA -ATTAGAGGTACGCTTTCCTGAGCATCCACATCCTCTGTTTGTGGTAGCAGAGAGCGGCTTCGGCACCGGA -TTAAACTTCCTGACGCTATGGCAGGCATTTGATCAGTTTCGCGAAGCGCATCCGCAAGCGCAATTACAAC -GCTTACATTTCATTAGTTTTGAGAAATTTCCCCTCACCCGTGCGGATTTAGCCTTAGCGCATCAACACTG -GCCGGAACTGGCTCCGTGGGCAGAACAACTTCAGGCGCAGTGGCCAATGCCCTTGCCCGGTTGCCATCGT -TTATTGCTCGATGAAGGCCGCGTGACGCTGGATTTATGGTTTGGCGATATTAACGAACTGACCAGCCAAC -TGGACGATTCGCTAAATCAAAAAGTAGATGCCTGGTTTCTGGACGGCTTTGCGCCAGCGAAAAACCCGGA -TATGTGGACGCAAAATCTGTTTAACGCCATGGCAAGGTTGGCGCGTCCGGGCGGCACGCTGGCGACATTT -ACGTCTGCCGGTTTTGTCCGCCGCGGTTTGCAGGACGCCGGATTCACGATGCAAAAACGTAAGGGCTTTG -GGCGCAAACGGGAAATGCTTTGCGGGGTGATGGAACAGACATTACCGCTCCCCTGCTCCGCGCCGTGGTT -TAACCGCACGGGCAGCAGCAAACGGGAAGCGGCGATTATCGGCGGTGGTATTGCCAGCGCGTTGTTGTCG -CTGGCGCTATTACGGCGCGGCTGGCAGGTAACGCTTTATTGCGCGGATGAGGCCCCCGCACTGGGTGCTT -CCGGCAATCGCCAGGGGGCGCTGTATCCGTTATTAAGCAAACACGATGAGGCGCTAAACCGCTTTTTCTC -TAATGCGTTTACTTTTGCTCGTCGGTTTTACGACCAATTACCCGTTAAATTTGATCATGACTGGTGCGGC -GTCACGCAGTTAGGCTGGGATGAGAAAAGCCAGCATAAAATCGCACAGATGTTGTCAATGGATTTACCCG -CAGAACTGGCTGTAGCCGTTGAGGCAAATGCGGTTGAACAAATTACGGGCGTTGCGACAAATTGCAGCGG -CATTACTTATCCGCAAGGTGGTTGGCTGTGCCCAGCAGAACTGACCCGTAATGTGCTGGAACTGGCGCAA -CAGCAGGGTTTGCAGATTTATTATCAATATCAGTTACAGAATTTATCCCGTAAGGATGACTGTTGGTTGT -TGAATTTTGCAGGAGATCAGCAAGCAACACACAGCGTAGTGGTACTGGCGAACGGGCATCAAATCAGCCG -ATTCAGCCAAACGTCGACTCTCCCGGTGTATTCGGTTGCCGGGCAGGTCAGCCATATTCCGACAACGCCG -GAATTGGCAGAGCTGAAGCAGGTGCTGTGCTATGACGGTTATCTCACGCCACAAAATCCGGCGAATCAAC -ATCATTGTATTGGTGCCAGTTATCATCGCGGCAGCGAAGATACGGCGTACAGTGAGGACGATCAGCAGCA -GAATCGCCAGCGGTTGATTGATTGTTTCCCGCAGGCACAGTGGGCAAAAGAGGTTGATGTCAGTGATAAA -GAGGCGCGCTGCGGTGTGCGTTGTGCCACCCGCGATCATCTGCCAATGGTAGGCAATGTTCCCGATTATG -AGGCAACACTCGTGGAATATGCGTCGTTGGCGGAGCAGAAAGATGAGGCGGTAAGCGCGCCGGTTTTTGA -CGATCTCTTTATGTTTGCGGCTTTAGGTTCTCGCGGTTTGTGTTCTGCCCCGCTGTGTGCCGAGATTCTG -GCGGCGCAGATGAGCGACGAACCGATTCCGATGGATGCCAGTACGCTGGCGGCGTTAAACCCGAATCGGT -TATGGGTGCGGAAATTGTTGAAGGGTAAAGCGGTTAAGGCGGGGTAATCTGCTCTCGCAGTGTTTGCCGG -ATGCGGCGTGAACGCCTTATCCGACCTACGTGTGACGTGTAGGCCTGATAAGACGCGATAAGCGTCGCAT -CAGGCATGCTGCTCCAGACGCCGCAACTTACTGCTGTGACGCCTGCTGAAACAGGTTTTCCCACATATCG -GTCACCAGCGCCTGGTCACGCGGCGACAATTCACCAGCACCAATGGCTTTTTCCAGACTCTGGCTAACGG -TCGTATGCACCGCCTGAGCGGAGTGGTCATCACCACTTTCCAGTTCTGCGATGGCTAATGTCAGGTGGCC -ACGCAAATACCCACTGGCAAACAACTCATCATCACTGGCATGGTCAACCATACCGTCGATTAATGCCAGA -ATGCGTGATTCAAACTCCGCGATCATCTTCTTTCCTCATTGTAAAACGTGGCGCTGGCTTCAGTTGAGCG -CTTCCGGCCACGGGAACTGTTCCGCCGTAAGTTCCGGCGTGTGATAATAATTTTGTAGTGCTTTAATGAA -GCGTGCCGGACGTTCCGGAATGCCATTTGTCAGATAATCCATCACCTGCGCATGTACTCGCCGTTGAAAC -ACCACACGATCCGGTTCGAAATCCCCTTCCAGATTGTCGCAACTGACGTTAAACGGATATCCCGCCGCCA -CACAGAACAACCAGTCGAGCGCCTGCGGCTTCACTTCAACATCTTCAAACTGGCTTTGCGTTTGGGCATC -GCGTCCGTCCGGGCAATACCAGTAGCCGAAATCAACCAGCTCACGGCGCGCTTTCCCGGCAATACACCAG -TGCGAAATCTCATGAATTGCGCTGGCATAAAAGCCATGAGCAAAGACGATTCGGTTATACGGTACTTCCG -CATCAGCAGGAAGATAGATCGGTTCGTCGTCGCCTTTAATCAGACGGGTATTAAAATCATCGGCAAAGCA -GCTATTAAAAATTTCAATCAACTGCTCGTAGTGGTGTGTACTGTTCATTAGTTCATCCCCAACCAGTGGA -GGATCTCCTGTCCGTGGCTGTCGTAAAGTAATTTGGCACTCATCACCGCCGAGACGATAACAATCATCGG -GCGGATCAGCTTTTGTCCTTTGCTCAACACCAGTCGTGAACCCATGCGCGCGCCGAGGAACTGCCCCACC -AGCATGACAAAGCCCGTCGCCCAAATCACTTTGCCGCCGAGAATAAACAGCAGTAAACCGCCGATGTTTG -ACGTTGCGTTGAGTAATTTGGCGTGAGCCGTGGCTTTGGCGAGGTTAAATCCGCACAGCGTAACGAAGGC -CAGCGCGTAAAACGACCCGGCAGCCGGGCCAAAGAATCCATCATAAAAACCGACGCAGCCACCGGCTATT -AACGCGAAGGGTAAACCGTACATCCGGCGCTGGCGGTCTTCTTCACCTAGCTTTGGCATCAGCAAGAAAT -AGAGGCCGATACAAATTACCAGAATGGGCAAAATCTGCCGTAAGACATCAGCCTGAACGTATTGCACCAG -CAGTGCGCCGCTCATTGAGCCGACAAAGGTCATGGCGATATTGAGTTTCTGATCGCTTAAACTAACCACT -TTGCGGCGAATAAAGTAGATAGTAGCGGAAATAGAGCCGCCGCAGGCTTGCAGTTTATTGGTTGCCAGCG -CATTAGCGGGAGACATCCCCGCTGCCATCAATGCCGGAATGGTGAGTAACCCACCGCCACCGGCAATCGA -GTCGATAAATCCCGCCAGCATGGCGACAAAAAAGAGAACTCCCAGCAACAGCGGGGAAACCATAAACAGG -CTATTAAACGTTTCCATTAGATCACGTGCTCATCCAGTAGCGCCTGGCAGGAAGGCGGCAACGGAGGCGG -TGTCTTCTTCTCAGGCTTTGTTGTTCCCGGTTTTGGAGGTTCAAACCAGCTTTGCAGTTCTGCCCCGCAA -CCATCGCCTGATGGCGGTAAAGGTTGATCTTCACACTCCAGACTATCGGCAGGGCAACGTAATCGTACAT -GCATATGCGCGCGATGCTGGAACCAGGGTCGCACTTTGCGCAACCAGTCGCGATCGGTGCCCGCATCAAG -GCAAAGTTGTTGTTTAATCGCCGGATTAACAAAAATGCGCGTGACGTCTTTGTCCTGGGCGGCGAGTTTG -ATCAAGCTGAAAATTTCTGGCTTCCACAGCGTGGAGACAACGTGTTTACCGTCGCGGGAAACTAAGTCCA -GTGCTTGCGGGCGCAAGAGCTGCGCGGAGGTCCAGCGAGTTTTCGGCAGTTGCAGAAAGATATCGACATC -CAGTCCGGTCTGGTGGCTGGCATGACCGCCGTTGAAACGCCCACCAGCGGGCATCCCCATATCGCCAATC -AGCACCGTACCCATGCCCAGATTGCTCACCTGGCTACTCAGACGCTGGATAAACATCACCAGATCCGGGT -GACCGAAATAGCGACGCTGATCGGTACGCATGACCTGATAATGTTCGGACTGTATCGGCAGCGTGTCAGC -GCCGACAATACAGCCATTAGAAAAACTGCCTATCGATTGTGCGCTACCCGGCACAGGTTGGGTTATTTTT -TGCCACGGCGTCGCTGCCAGGCTGGCGCTACTGGCAAGCAGAGCCAGCAGCGCAATCGCGGTTTTATTCA -TTTTTTACCAGCGTGGAATATCAGTCTTCACATCGGCATTTTGCGCCCGTTGCCGTAACAGGTGATCCAT -TAAAACGATCGCCAGCATCGCTTCTGCGATCGGCACTGCGCGGATCCCGACACAGGGATCGTGACGGCCT -TTGGTGATCATCTCAACTTCTTCGCCAAAGCGGTTAATGGTACGACCCGGCACGGTAATGCTGGAGGTCG -GTTTCAGCGCCATATGGGCAATGATTTGCTGCCCGCTGCTGATACCGCCGAGAATGCCGCCCGCATGGTT -GCTCTGGAAACCGTCTTTGGTGATTTCATCGCGGTTCTGGCTGCCGCGCAGCGCCACCACGTCAAAGCCG -TCGCCAATTTCCACGCCTTTCACCGCGTTGATGCTCATCAGCGCATGGGCGATGTCAGCATCCAGGCGGT -CAAAGACCGGCTCGCCAAGTCCGGCAGGAACGCCACTGGCAACAACGGTGACTTTAGCGCCGATGGAGTC -GCCCTCTTTTTTCAGCGCACGCATCAACTCGTCTAACGCGTCGATTTTGTCGGGGTCCGGGCAAAAAAAC -GGATTTTGCTCGACCTGCGACCAGTCTTTGATATCCAGCGGAATGTCGCCCATCTGGGTCAGGCAGCCAC -GGATTTCAATACCAAATTTCTCGGCGAGATATTTTTTGGCAATAGCTCCTGCCGCCACGCGCATGGCGGT -TTCGCGGGCGGAAGAACGTCCACCGCCGCGATAATCGCGCAGACCGTATTTTTGTTCGTAGGTGTAATCG -GCATGGCCTGGACGGAAAACGTCCTTAATCGCACTGTAATCCTGAGAGCGCTGGTCAGTGTTTTCGATCA -ACAAGCCAATGCTGGTGCCGGTAGTAACGCCTTCAAAAACACCGGAGAGAATTTTGACCTGATCCGGCTC -GCGGCGCTGGGTGGTATAGCGCGATGTCCCAGGGCGACGACGGTCGAGGTCATGTTGCAGGTCCGCTTCC -GTCAGCGGAATGCCTGGCGGAACACCATCGACGATGCAGCCGAGCGCCAGCCCGTGCGATTCGCCGAAGG -TGGTTACGCGAAAGAGTTGTCCAATTGTGTTTCCAGCCATCACGGCTCCGTTATTGTTGTGTTTGCGTGT -TTACTTAATCTTTATAAATCGCGAAATGTTCTCGTGCGGCAATAAGCTGCTCTTTGGTGAGCATAAACAC -ACCATCGCCGCCGTTATCAAACTCCAGCCAGGTGAACGGAACATCCGGATATTGTTCCATAAGATGTACC -ATGCTGTTGCCGACTTCACAAATCAACACGCCATCATCAGCAAGGTAATCTGCCGCGTTACCGAGAATGC -GACGCGTCAGTTTCAGGCCGTCAGTGCCAGATGCCAGGCCCAGTTCCGGCTCGTGGCGGTATTCGTTTGG -CAGGTCGGACATATCTTCCGCATCGACATACGGCGGGTTAGTGACAATCAGGTCGTACTGCACTTTCGGC -AAGTCGCGGAACAGATCGGAACGAATCGGAATGACGTTGTGGATCAGACCGTGTTCTTCGATGTTCTGTT -CAGCAACCGCCAGCGCGTCTGGAGAGATATCCACCGCGTCGACTTCTGCATCCGGGAAGGCATAAGCACA -GGCAATGGCGATGCAGCCGCTACCAGTACACATATCTAAAATATGCTGCGGTTGCTTGCTGATAAGTCCG -GCAAATTTATTGTTGATCAGTTCACCAATCGGCGAGCGCGGCACCAGCACGCGTTCATCGACGTAAAATT -CATGGCCGCAGAACCACGCTTTGTTGGTCAGGTAAGCCACCGGAATGCGTTCATTGACGCGGCGGATCAC -GCGTTCAACAATACGGTGTTTTTCGCTGGAGGTCAGACGCGCGGTGCGCATATCTTCCGGAATATCCAGC -GGCAGGTAGAGCGAAGGCAACACCAGCTGTACGGCTTCATCCCACGGGTTATCGGTACCGTGACCGTACC -AGATATTTGCCGCGCTGAAGCGGCTCACCGACCAGCGCAACATGTCCTGAATGGTTTGCAGCTCATTTAC -TGCTTCATCAACGAAAATTTTATCCACGTATTCCTCCAGGGCATGATCGCAATAATTTCGGCGGCTAGTT -TGCCATGAAGATGACGATAAATCAGCATTCACGCGCGGTGAGTGAGGAAAAATACGTTTAAAACGATCGA -TTGCGCTACGAGTCGGGTAAACTGTAGGAAAATTAGAAATAGAGACAGATAAATGAAAAAGAAAACAACA -CTTAGCGAGGAGGACCAGGCTCTGTTTCGCCAGTTGATGGCGGGGACTCGCAAGATTAAGCAGGACACGA -TTGTCCACCGACCGCAGCGTAAAAAAATCAGCGAAGTGCCGGTGAAACGCTTGATCCAGGAGCAGGCTGA -TGCCAGCCATTATTTCTCCGATGAGTTTCAGCCGTTATTAAATACCGAAGGTCCGGTGAAATATGTTCGC -CCGGATGTCAGCCATTTTGAGGCGAAGAAACTGCGCCGTGGCGATTATTCGCCGGAGTTGTTTTTGGATT -TACACGGTCTGACGCAGCTGCAGGCCAAGCAGGAACTGGGGGCGTTGATTGCCGCCTGCCGCCGTGAACA -TGTGTTTTGCGCCTGCGTGATGCATGGGCACGGGAAGCATATTTTGAAGCAACAAACACCGCTGTGGCTG -GCACAACATCCGCATGTGATGGCCTTTCATCAGGCACCAAAAGAGTATGGCGGTGATGCGGCGTTGTTGG -TGTTGATTGAAGTCGAAGAGTGGCTGCCGCCGGAGTTGCCCTGAGGAGTTGAGCGCGTTGCGCCAGGTAC -GGGTAATGGCAGGGGCGAATGCCCCTGCCTGGTGTATCTAAGGGCTACAACTCATTCAGTATGTACTGGA -ACCGGCAAGTAGAATCGATTGGCTGCATACTGCTGGTATCAACACGCACGACCATATCGTGTAACTGTTT -GTCCGTTATAGGGTGTCGATTTGGCGTGACCGAGACTTCCGCCTTGTCACATCCCGACGCGGTAAAAGTT -ATCATCTGTGCAACCCAGCGGCAGTAACCACCTGTTTCATTCATCTGCGTACTGTCGCACAACTTCCCAT -CTTTCATCAAATACGTTGAAAGCGTTTTCTCAACCACACCGCCCGTCGACTGCAGGGTGAGCAGTTTTGA -CTTACTGACATAATTCTCATTCCATGAAACGTCATAAGGTTGAACAGAAACGGATGGACAAATCGTGTCG -TGACTATCAGGCCCCTGATACGTCACGCCCCCTGGAGAGGCTTCAGAGTCATTCATAATAACCAACCATG -GACAAGAAAAGTAAGATTCAATCTCTGCAGAGACAATAACCTCAAATGTATAATACCCGCAGTTCCACCC -AGACGGTAATCCAGGACAACTTGCTTTGTTGATATTTTGATGGTAGCCAATCAGCTTAACCGAAGGGGCA -GGAGGAGGACCACTCCAGCTCACATTTTGCAATATTTCCCCAGTCATGAGCCATTGACTACTTTTATATT -CACCAACGTACACTGCGGATGGCATCATTATTTTTAAATTAAAAGTCGCAATATTACGCGAATCACCGTT -GTAACCGTAGTAAACGTCAACGCTATGCCCGGCAGCCATAGCTTCTGTAGTAGCAATAAGCATGACCAGA -GCGAACAACCATCGTAGTATTTTCATTTTAAATATACTCAAATGTCGCAGTTAAAGAGGCGGTAAATTCA -CCGATCGTCACATCACGGCCGCTTTTCGCCTGTAGCCAGGCTCTGAAATTGATATCGTTATTGCCATTGG -TTAGCGCAAAGGTCGCCCCATTTGTATTGTTGATGGCAACCTGCATTCCGTCGGTTTTTTCCATGCCAAT -TCCCACTCCCTGAGCGGTTGATGACGTATCCAGTGCCAGAAAACCGGGTTGTTCGCTGTCTTCTACCCCC -GTGAGCGTGACTTTTACGTTGTATCCCGCCGGCCCTTTGCAATCTTTCAGCTTAAAGACTACGGGTACAC -GAGCGGACTGGCCTGCAACGTTCAAATCCTGACGACTGACCGTGGGAAAGCGCACCTCTGCCAGATATTG -GCCATCCACCACCAGCGCACAGGATTTACTTAATAAATTACCGGAGAAATGCAGATTATTATCTGCCGCG -AATAACGTGCTACTCATTGCCAATATCAGCCCCGCTAACAGGACGTAACCACCGGACTGAATCATTGATT -TATTCATTGATAATCCACCCGTAATGTTGCGTAAGCCGAAAAATTCGTATCGCTTAACACAGCATCACTC -GCTTTTACCGGTACGGCCTCCAGCTTCGGCTTTTGCGTAAAATCAGTGGCGTTGATAGCAAGCGGAGTAT -TGAGTTTAAAACGCTGACCATCGTGCTGAAGCTCGATACCAAAACCGGGTACATCAGTTTCAATTGCTGC -ATCATTAAAACTGGTTTGTGTACCAGTCCAGGTGAGGGTCATCTCCCAATCTGGATGACGGGTCGTCGAG -TCACAAGTGAGTTCATATGGCACCTCTTTACGACCATAGTTGCCGTTGATGTCGTCGATAATGAGATCGC -GAAATTCGACTTCAATGGTTTTACCACCGCTGATGCTACAGGTTGGCGGTGACAATAATGTCCCGTGAAA -GGTGATGTCTTCATCAGCAGCATGAGCTATGGCGCTACTGACACAAAGCAGGGTTAAGAAAGTCTTTCTC -ATTGATAGTCCACCACCATGGTCAAACTGGCGTTAAACTCGCCCGCAGCAAGTTGCGCCCCGCTTGCCTT -CACAGGTACAGCCTTCAACTGTGGCTGGTTATTGATATTAAATGGCGTCCAGCTATTTTCACCGACGGCA -AACAATGAGTTATCGGCGCTATTTTCTATCCGAATGCCCAGCCCGGTGATATTGGTACTGAGTACCGTTT -CGCCGTTAATCGTTGAGGTATTGCCCTTAAGTTGCATCCGCAAGTCGTTAGCAAGACTGTTTGTGCAGTT -CAACGTGTATTTCGCATCTTGCCGATAATTGGTGCCATCAACGTTATCAGCAATCATATTGCCGAACTCT -ACCTGGCTGCCCTTGATTGAACAGGGTGGCGGAGCATCGACCAACACGCGCAGAATTAAATCCACGGGTT -TACTACCAGCCATAGCAGATAAACTACAGACACTGCATACCAGCAGCCCTGCGCCCACTACAAACTTTTG -ACTCATAACTCCCCCCGTCATCAGCCTTTGCGGCTCTGCTCTTCATCCACCTGGCAGCTGTTGCCATTGC -ACTGGAAGAACAGCGGCATCCGTGCGCCAAAGTCGTTGACGTAAGTCAGCACCGGTACGCTATCCATTTT -CACATTCAGCGGTACCGTGGTTTTCGGCTCAATGACCAGAGGCGAGAACCCTGCAGCTGGATTACCGTTT -TTCTGCGCACTGGCGTTGCTGATAATCACGTAGTACGGCGTTGGGTTATTGACGGTAAATGCCTGACCGC -TGCGGGTGAGCGTCACCTTGTGCTGCCACGGACTTTTCATACTGACCTTTTCCAGCGCCTTTGGTCGCCA -GAACAACTTGATACGCGTTTGCAGCGCGATTTGCAGGGTATTGGGTTTGTTTGATTTTGGCGGGATCTCG -CGCACGTTAAAGTAGAACATGCTTTCACGATCGGCTGGCAATTTGTTGATATCCGGCATTCCCTGCACTT -TTACCTGCCCGTTCATCATTGAATCGATGCGTTGCACTGGCGGCAGCACAGTTAACGGCGAGGTGATCTT -GTTACCCTTTTCATCTTCAATCCAGCTTTGAGCCAGATAAGGGAGTTTCGGATCGTTATTACGCAGCGTC -ACGCTGATTGATTTGTCGCTTTCATTAAATATCAAACGGGTACGATCTGGCGTTACAGACGCCAGGGCAG -ACAAACTGGTAGCGCTAAGCAGTAACGCCAGCGTCATAGCACCCAATTTGGCAGAGCAAAGTAAATCAGA -CATGGATCATTCCTTAATCACGTTATTGGTTAGCTGAAACAGAAACAGGGGGATCGGTGGGTGTCACCTG -TTGCGTCTGCTCCTGAATGACAGGCTTTATGTCATCAGGAACAACCGGCGCGACGTTGCCTTTATGCTGG -CATGGCAGTAACAAGCCGTTAAACAGATCGGCAGGCAGCGGGTCCGGCAGGTTGATATCGCAATGCGCAA -CACCACTCCAGAACACACTCATATGTTCGCCAGGTTTCACCCCAGCCAGATAGACACTACCGTCATCATC -GACAAGGCCCACTGTCTGCTCGTTATCATTTTTTACTTCTGCGCCAAACGGTGGATGGCTGCCATCTTGT -AAACGCAGCACCGCCATCGCTTTTTGACCACTGATGACGGCAAATTTGCGGTAGCCAATGGCTCCTTCAG -TTAGCGTGGCTTGCACCACCGACTGGGTTGCTTCGGCGTTTTCCGGCAATTTGTTGAGGTCGATATACGC -CTGATTGCGATAATAATTGTTAACGTCAGAAACGACGGCTTTACCAAACATATTGGTATAAACAGCAGCC -CCGTTACCTTCCACCGGAACATCGGCAACGCCATCGGCATCAATCAGCAGGCGTGTCCCGCCCATATTCT -GGGTACGGTGAAGTGCGCCGCCGTGGGTAGTAAGCGTTGCGCCGCCCTGTAACGACAAGCCCGCAGAGGT -GTATTGCCCTTCATGGTAGTTCGCACTGAGGTCAACCTGCGCCAGCGAACCATCATGGCTGTAGTAGCCA -TCAACGCTGGTGTGTTTGTCACTGGTGCCGATGTTCAACTGATAGTGAGTCGCGTCATCGACACGGCTAA -AATAACCGACCTGGCTGCTGTCCGTCCCACTGCCATAGTTGCCGTTATAGCTAACGGTACTGTTGTCGCC -CCACGGCATACTGAGCGAAATCTACATGCCCTTATCCGCCCGGTTGTCATACTCGTAGCGGTAGCCAGTC -AGGGAAACGCTCATATTACGAATGCTGCCCATATTGAAATAGTGGGAGAGCATGATGTTGTAGTTTGTCT -GCTCCTCACGATCCCAGTAGGTATGGCGGGTATAGTTGAGATAAACCGAAACACCCGCATCGCGGAAGTT -CTGGTTATAAGTGGCGGTGTACATCTCTTTGTCGTTGCCCGTACGGACCATTTCGCTGTCACTGGCATCC -AGATACTCGCTCATGGTCATAAAGTTCTCTTCCGAGAAGCGATATCCAGCGAAAGTGACGCGGCTGTTGA -GCTGGTCAAAGTCTTTGGAATAACTCACACGGAAGGAGTTACCGTCCAGCGAACCTTTGCCATAAGCGGT -GTCTTTATCCAGTTTGGTATGCGAATGAGTAACATCAAACGCGACCGCGCCGAAGGTAGACAAATCGCGA -CCGACGCCCAGCGCCGCAGACTGATAGTTTTCATCACCCAGCGCACCGCCATATAACGACCAGCCGTTAG -CGATGCCCCAGGAGGCTTCAGCACCAGAGAAAAATCCCCCCTCGACATGGTGGCCCCACTCTTGCGGACG -TCCCATCATGATCTTATAGCGAACCTGGCCTGGGCGAGTGAGGTATGGCATCGAGGCGGTGCTGATGTCA -TATTCCTGCACCTGGCCGTTCTGTTCTTCAATGCGAATATGCAACGTACCGGAGACGGAATCACCAAGAT -CCTGAATACGAAACGGTCCAGCCGGAACCTGCGTTTCGTAAATCACACGCCCCATCTGGCTGACGGTCAC -TTTTGCTGTGGTGTGTGCCACGCCGGAAATGTCTGGCGCGTAGCCGCGCAGATTGGGAGGCAACATTTGA -TCGTCAGTGCTGACACTGCCACCAACATAATTAAAACCGTCGAAAATATCGGAATTGAGGTAATCTTCGC -CCAGCGCCAGTTTGGCTTTTAATGACGGTAACGCCCGCCAGGCATAATAGCGACTCCACTCCCATTTTTT -TTGTGTGTCATCGCCGCCAAATTCATCGTCATCATCATTACTGCGCGTATGTTGATAGTTGGTCTGCCAG -TCAGCGCGCATACGCCATGGCCCCAGGTTAACCCCGACCGTCCCGTTGCCGCTGATCTCGTTACTGTCAT -CGCCGCCATTTTCTTCGTGTCGTGTTTGCGCAGTGATGCTGTAGTCCGCAATGATCCCGGAGATGCCATC -ATCCCAACGAGAAGGTGGATCCCAGTCGGGCCAGGTATATTCGAGGTAAGCCTGCGGTAGTGAAATGACT -AATGCGGACTGGCTTAAATCAGCCTTAATTTCCACGCCTTCCAGTTGACCGGGCTTCAGGCATTTACCAT -CGTGGCTCCATTGCAGATTTTTCGCCACGTCTTCTTTTAAACCAAACTGCGCCACCAGTTCCGGTGTCAG -ACAAGCATAGCTTTTGCTAACGTCATCTTCACCAGCATACCAGTAAATATCGTACTCTTCCGCCAATGGC -TGTTTATTTAGTTGAACCTGTAAATTGTATTTTCCGGGCTCAACATACCCCTGGCTGGAAAAACGCTTCA -GATCAATTTTTGTGTCGCCTTTTAATTCCAGAAAACGGGAATCAAACTGAATGTCGTCTTCAGCCCAGAC -ACTGCTATAACTCCCTGACATTGCCAGCGCAATGCACCACGGAAGAATCCGTAATCGAAAAAGAGAATGG -TCAGGCATACACGTTTTTATCCGTTTTTATTCTTGTTCGGTCAAAATCCATTTAAATACCCCATAGCAGT -GTCGCTATGGGGGTATGCCTTACAGGTAAGTAATCTGGAAGGTGGTATTTGCTTCGAAATTACCCAGATC -TGGCGCATCAGCTGCGCCGACCAGCCAGGCTTTAAAGTTCAGAGTCTGCTTCGCTTTGCCTTTATTAGTG -GCAGTATCTTTCACGATTTTCTGGTCAATACCCATGCCGCTTTTGTAAGAGGTACCCAGAGAGTCACCGA -TCGCCAGGCTAACATTGTTAAATGCCGCACCGGTATCGGTATTGAAAATGGTGTAATAATTGCCGCTATT -TGCAGAAGAAACGGTACCAGTAAAGGTAGTGGTCATTGTTTCCTGAGTATCAAATACGCAATCTTGCAGG -CGAATCTGGAAATTTTTCGGCGTGGTGGTGCCGTTATTTTTCAGTTTTTCGGCACCGATATCACCCATAT -CAACTTCCAGTTTGTGATCGTCCGGAACGATAGAACACACTGAGTCTTCAATGGTGCCGTAAAAACGTGC -AGTACCGTTGTTACCCGCAGCGATTGTTGCCGTAGAGGTGAACGCGCCCATCACCATTGCCGCAGCAATA -GCTGTTTTAACAAACTTACTCATTATTTGTCCTTAAACTATAAATAATTAAAATATAAACATTGCAATAC -ATTGATTCAGTCAATAGCCAATGTTTATACCCAGCCATTGAATACGGCATGCGATCCAAAAAAACAGGTC -GTAAAAAATGTATTCGTTGGTGTGGGGTCGAATAGTGATGTTTTCACTCCCCTGATTCAATTTAATTTTA -CTAATGAGTAAATGTAGATTTAATTAATATATTGATAGGGGAAAGATTATCTTAAGGATCTTCTAAAAAA -ACACGAAATATATATTTAGAAAAAACAGGAAGCATATCAACAATGAATGCCAATAGCTTAAAAAACAAAC -AATGAACATATAATGCGATTGGCATTAACCCGCTTTTGTCGATATAATATATAAACACTATAGCCAGAAT -TTAATCAAGTTTCAATTACGTCCTGCCTGATTATTCAACTCTATTTTCTCCATTATCTGTATTAATAAAT -GATAATGAGTGTCAAACAGACATTATTCATTTCAACATGTAACTTTGGGCAAAATCAAGATACGCGCAGA -AGAATACTTTCCGAATGAAAGTTAAAGGTGTTTTATTTATAGATGGGGAGAGTCTTCGATAGTAGTGAGG -TTGACAGATATCCGCTGCCTGATGAGCAATTATGCCCAATGAATCTACCTCATTGGGCATAATTTGGAAC -TCATCAGATAGCTTTTGCCATCTTCAGATTACACGGGCTCATCTGCCAGTTGAATGTGCCGTTTCCGCTT -TCATCAAGCGTTACGCTGGCAATGGCCGAGGTGGTAAACATAGGCGGCGTTTCGCCCGGACATAACTCGG -CAACCAGATACCCGACTAACGGTAAGTGAGAGATCACCAGTACCGAAGCAACACCTTCATTGGTCAACGC -CTGCAAATAGGCACTGACCAGACCAACATCGCCGCAGGGCGTTAACTCCGGCAGAACTTCTGCACTGGAA -GGCAGGTTCAGACAATCCCCTACTTCTTCCAGTGTTTGCTCGGCTCGCAGGAACGGGCTCACCAGAACGC -GTTCGATTTCCACTTTTTGACCTTTCAGCCAGTTCGCCATCAGGCGAGATTCGTCACAACCATTAGTGGT -CAGAGGACGAACGGAATCACTGGCGGCATCGAGGGCTGCGTCGCCGTGACGCATGATAAAAACTTGCATA -TTGCACCGCTTTTGTTAACCAGATTCGCCCGTTTTCTTTCATCTGAAACCAGAGAAAGAAAACGGTGGCC -GGCATTGTGCCTTATCCATTCACCGAATGAAACGCTGTTTTTTACCTCAATGGCGTAAGTATAGTCAATA -TGCGTTTACATTTTGACCAACACTCCGCCATTCAGCGCGGATTCATATAGCTTTGACCTTCTTATTGCAG -GTCAGTTGCAGTTGTTTTCCAAAAACTTTCCCCACGCGCGCCCATCTCGACCAAACGCTCGCAAGGGGTA -AAACGGGAACCATACTGCGTGGCAAGTCGTTGCATTATTGCAACCACTTCGCCCGCGCCGAGAGAATCGA -TATAGCGGAACGGTCCACCGAGAAATGGCGGAAAACCAATGCCAAATACCGCGCCAATATCCCCGTCACG -CACGCTACGGATAACCTGCTCATCAACACAACGTACTGCTTCATTCAGCATCAACATCACACACCGTTCA -GCAACCTGCGGTGCGGAGATTCGCCCCTGCCCTTGTGTGCCAATCAGCGGGTAAATGGCGGGATCGACCT -GTTTTTTGCTTTTACGCCCTTTCTGACCATAAAGATAGAAACCCCGGCCATTTTTTCTGCCTTTGCGATC -GTCGTTCAAAATTGAAGAAACAACATTTGCAGGCGCGCTAAAACGTTCTCCATAAGCGGCTTCCAGTACA -GGAATAATTTTAGTCCCGGTGTCGATTCCTACCTCATCCAAAAGTTGGATTGGGCCTACCGGAAAACCAA -ATTTCACTAGCGCGGCATCAATGTGCTCTACCCGTTCACCTTGGGTCAACATGCGGATAGCTTCATTAAT -GTAAGGCGCTAAGATGCGATTGACGTAAAAACCGGCTTTGTCACGCACGACAATTGGCGTTTTACCCTGT -TTTTTCGCCAGTTTTACTGTGGTAGCGATGGTTTGCGCCGATGTCCCCGCATGAGGAATAATCTCCACCA -GCGGCATTTTTTCCACCGGACTGAAGAAATGCAGGCCGATAACTTGCTCAGGTCGCGTGGCGTGAGCGGC -GATATCACCAATCGGTAAAGATGACGTATTCGAAGCAAAGATGGTATGAGCGGCGCAATTTTGCTCAACT -TCCGCCACCATCTGTTGTTTCAATTCGAGATTTTCAAACACCGCTTCAATAATCAGATCGCGATGGGCAA -AGCCGCGATAGTCCGTCGTTCCGGAGATTAATGCCAGCTGTTTGTCACGTTCGCTGGCTTTGAGATGACG -ACGGCGAACTTTGCCCTCCAGCTGATCCCAACTGTACTTCAGCGCATGATTTATGCCCTGCGGGTTGATA -TCTTTAATTCTGACCGGAATCCCCGCTTTACAAGCAGTGACATAAGCAATACCGCCGCCCATCAAGCCAC -CACCTAAAATCCCCACGCTGTTTAATGGCGCAGGCGGCGCATCACTGCCGGGATCTTTCTTCACGTCCGT -ACTGGCAAAAAAGATACTACGCAGCGCCTGCGATTGTGGCGTCATCGCCAGTTCGCCAAACGCCCGAGCT -TCGGCGTCATAACCGCTGCTGGTGCCCTGCGCTAATCCCGTTTCAACAACCTCCAGGATGCGTTCTGTCG -CCGGATAATTGCCTTGAGTTTTGTGTTCTGTTTTCTTGCCGACCATTTTGAACAGCAGCGCACGACCTAA -CGGCCCCGCCAGAATACGCTCGCGTACAGGTAGAGGGCGGGAAGATGGGCGCTCCTTCTTTGCCAGCTCA -ACAGCGGCTTCCAGCAGAATGGAGTGCGGAACAACGTCATCCACCAGCCCCAGCTTTAATGCCTGTTTCG -CCCGAAGTTGTTTTCCGGTGAGGATCATCTCTAATGCTGTGCTGACGCCTATCAGACGCGGTAAACGCTG -GGTGCCGCCTGAACCGGGTAACAATCCAAGTTGTACTTCAGGCAAACCGAGCACCGTTTTAGGATCGTCA -GTACAAACGCGACCGTGGCACGCCAGCGCCAACTCCAGCCCACCACCCAGGCAAGCGCCATGAATAGCCG -CGATAACCTGAATGGGCAAAGCATGAATCTCCGCCATCAACTGTTGGCCCTGCCGCGCCAGAGCTTCCGC -TTCTTGCGCCGTTTTGCAGTTGCCGATCATGTTGATGTCTGCGCCAGCAATGAAGTTGTCCGGTTTAGCG -GAGACAAACACCACGCCTCGCAACTCTTTGTTTTCACGGAGTTGCTTAATAATGGCGCGCACCTGCGAGG -CAAACTCCGCCTTCAGGGTATTCATTTTCTCACCCGGTACGTCGATGGTGATAACGGCAATGTTGTCCAG -ACGAACATTAAGGGTAAACGCTGATGTCATTTCCATTATTCCGCCTCCAGAACCATTGCCGCGCCAAGCC -CACCGGCAGCACAGGCGGTAACTAAACCAAATCCACCGCCGCGACGGCGAAGTTCATGCAATGTCTGGGT -AATCATCCGCGCGCCGGTCGCCGCGAAGGGATGCCCGTAAGCAATCGAACCGCCAAGCACGTTAAATTTG -CTATCGTCCACTTCGCCAGTGGCATGTGCACGCCCCAGTGCTTCACGAGCAAAACGTTCACTACCCAGCA -ACTGAATATTCGCCAGCGTCTGAGCTGCAAAGGCTTCGTGCATATCGATCAATGTCAGATCGCTCATCGT -CAAACCGGCACGCTCCAGCGCCAGCGGTGTTGACCAGGCTGGACCGAGCAACATGTCCTGCCAGACATCA -ATCGCAGTAAATGCGTAGCTGCGCAGATACCCCAGCGGCACCAGCCCTAATTCTTTCGCCCGGGATTCAG -TCATCAGGATCACCGCTGCCGCGCCATCGGTCAGCGGCGTACTGTTTGCCGCCGTTACCGTTCCGTGTTT -GCGATCAAACGCCGGGCGCAGCTTTGCGTAATCGGCAAGCGAGGAATTACCGCGAATATTGTTGTCTTCG -ACAAGCGGTTGTTTATAAGGAGGGATAAAGGCAGTCATCACCTCTTCTTTGAGTTTTCCGTCTGACCATG -CCTGAGCGGCACGCTGATGCGAACGGTGCGCTAATGCATCTTGCTGTTCTCGGGTGATGCCGTAGGTTTT -CGCCATTTGCTCTGCGGTGTCGCCCATCCGCAAGCCGGTAGAATATTCTGCTACCGCAGGTGGTACGGGC -ATTAAGTCGCGCAAACGCAGGCGAGAGAAGAGTTTCAGTCGCTGGCTCATGGTACGAGCTTTGTTGACAT -CAACCAGCACGCGCGCCAGTTTTTTACTGACGCCAATTGGCAATACCGAAGAGGAATCTGCCCCACCGGC -AATCCCCGCTCGAATAGTTCCCGCCATCAGGCTTTCTGCGACGTTTGCAACTGCCTGGAAACTGGTAGCG -CAAGCGCGGCTGACGCTGTAAGCATCGGTATGTACATTCATTCCCGTACCGAGAACAATTTCACGCGCAA -TGTTGGGGGCTTCAGGCATTTGTACGACCTGACCAAAGACCAGTTGTTCAATCACTTCGGCGGGGATCTC -GCTGCGTGCCAGCAGTTCGCCTACCACCATCTTCCCTAAATCAACCGCGGGAATGCCATGAAAAGCCGTC -GCCTGACGGGCAAAAGGCGTACGTAAACCGCTAACAATGGCGATACGATCGCCCTGGCGGGTAACCAGCG -GTAAAACCTGACCCATAACACTCCCCTGTAAAAAAATAAATAAAGTGGTCTGACCTGATCATAGTCTTAA -CCATTTTTTTACATTTAGCCAAGTGGAGAAAAGGGAAAGTGGGAGCTATGACACAGAGAGAAAAGAAGAA -GAGAAAAGAAAACGCCCCTGCCAGCAACTGACAGGGGCGTACGTACCCGAGAGGAATTAACGCAGACCCA -GCTGGAAAATCAGCATTTCAGCTTCGCAGGCAAAAGTGAAATCGATATCCAGGCGCACACCGTCAGACTC -TTCAGTGAAAGTCGGGGTGATTTTGCAAGGTTCAGATTCCACGCTACGGGCTTTTTCAGTCAGCGCCGCC -AGCGTTTGCTCTGCTTCTGCGCGGTTTGCAAACACGCGGCTGTAAGACGCGGTGCAGTCGGAGTTGTCCA -TAATGGTGCCAACATCCATACAGCAGCAAACCGGGGTTTCATCAGCACTACATTTACTCATCGTTGATTT -CCTCTGTATGTGCACCCAAGGTGCCAGATAAACGTTGTGGATATTTTACGCTTCCGGAAAGTGCTGCTCC -AGTTGTTAATTCTGCAAAATCGGATAAGTGACCGAAATCACACTTAAAAATGATCTAAAACAAAATTCAC -CCGAATCCATGAGTGCGCCACCTCCAAATTTTGCCAGCTGGATCGCGTTTCTTAGATCATATTTGAAAAA -AGATAGAAACATACTTGCAACATTCCAGCTGGTCCGACCTATACTCTCGCCACTGGTCTGATTTCTAAGA -TGTACCTCAGACCCTACACTTCGCGCTCCTGTTACAGCACGTAACATAGTTTGTATAAAAATAAATCATT -GAGGTTATGGTCATGAGCCAGAAAACCCTGTTTACAAAGTCTGCTCTCGCAGTCGCAGTGGCACTTATCT -CCACCCAGGCCTGGTCGGCAGGCTTTCAGTTAAACGAATTTTCTTCCTCTGGCCTGGGCCGGGCTTATTC -AGGGGAAGGCGCAATTGCCGATGATGCAGGTAACGTCAGCCGTAACCCCGCATTGATTACTATGTTTGAC -CGCCCGACATTTTCTGCGGGTGCGGTTTATATTGACCCGGATGTAAATATCAGCGGAACGTCTCCATCTG -GTCGTAGCCTGAAAGCCGATAACATCGCGCCTACGGCATGGGTTCCGAACATGCACTTTGTTGCACCGAT -TAACGACCAATTTGGTTGGGGCGCTTCTATTACCTCTAACTATGGTCTGGCTACAGAGTTTAACGATACT -TATGCAGGCGGCTCTGTCGGGGGTACAACCGACCTTGAAACCATGAACCTGAACTTAAGCGGTGCGTATC -GCTTAAATAATGCATGGAGCTTTGGTCTTGGTTTCAACGCCGTCTACGCTCGCGCGAAAATTGAACGTTT -CGCAGGCGATCTGGGGCAGTTGGTTGCTGGCCAAATTATGCAATCTCCTGCTGGCCAAACTCAGCAAGGG -CAAGCATTGGCAGCTACCGCCAACGGTATTGACAGTAATACCAAAATCGCTCATCTGAACGGTAACCAGT -GGGGCTTTGGCTGGAACGCCGGAATCCTGTATGAACTGGATAAAAATAACCGCTATGCACTGACCTACCG -TTCTGAAGTGAAAATTGACTTCAAAGGTAACTACAGCAGCGATCTTAATCGTGCGTTTAATAACTACGGT -TTGCCAATTCCTACCGCGACAGGTGGCGCAACGCAATCGGGTTATCTGACGCTGAACCTGCCTGAAATGT -GGGAAGTGTCAGGTTATAACCGTGTTGATCCACAGTGGGCGATTCACTATAGCCTGGCTTACACCAGCTG -GAGTCAGTTCCAGCAGCTGAAAGCGACCTCAACCAGTGGCGACACGCTGTTCCAGAAACATGAAGGCTTT -AAAGATGCTTACCGCATCGCGTTGGGTACCACTTATTACTACGATGATAACTGGACCTTCCGTACCGGTA -TCGCCTTTGATGACAGCCCAGTTCCTGCACAGAATCGTTCTATCTCCATTCCGGACCAGGACCGTTTCTG -GCTGAGTGCAGGTACGACTTACGCATTTAATAAAGATGCTTCAGTCGACGTTGGTGTTTCTTATATGCAC -GGTCAGAGCGTGAAAATTAACGAAGGCCCATACCAGTTCGAGTCTGAAGGTAAAGCCTGGCTGTTCGGTA -CTAACTTTAACTACGCGTTCTGATAACGCGTTCGCCTGGATAAAGTCACCTGCATAGCAGGTGACTTTAA -CTCCCCCACTTCACCGAAAGTAGTGTCCTCATTGCTTACCTCCTGAGTTTTGCAAACAGCCTGTTGGCAG -CTTGCCCTTTCAAATCAATAAGCGGTATCCACAGACAAACCTGAAGGGAAAGGCATATTTTCAGGCGTTC -TGCTCGTCCTTCTCAAAGAGTTTACTTTTCTGCATTTCCAGGATACTCCCCCCCCCTGGCTATTGTGCGC -TCATACACTCAAATTAAAGATAGGTTCTAAATAAATGAGCGTTTTTTGATAGTCTATTTCATTAGGTAAT -ATATATTTGTAACAAATCAATCAAAATGGAATAAAATCATGCTACCATCTATTTCAATCAACAATACCAG -CGCAGCTTACCCAGAATCCATCAATGAAAATAACAATGATGAAGTTAATGGATTAGTACAAGAGTTCAAA -AACCTTTTTAATGGTAAGGAAGGAATAAGCACCTGTATTAAACATCTACTTGAGCTTATAAAAAACGCCA -TACGAGTAAACGACGATCCTTATAGATTTAATATTAATAATTCCTCAGTTACTTATATTGATATTGACTC -CAATGATACAGACCATATTACTATTGGTATCGACAACCAAGAACCAATAGAATTACCTGCGAACTATAAA -GACAAAGAACTCGTCCGTACTATCATTAATGACAACATAGTTGAGAAGACTCATGATATCAATAACAAGG -AAATGATCTTCAGCGCATTAAAAGAAATATATGATGGAGATCCTGGTTTTATCTTCGATAAGATATCACA -CAAACTCAGACATACGGTAACGGAATTTGATGAGAGCGGGAAAAGCGAACCAACGGACTTATTTACCTGG -TACGGTAAAGATAAAAAAGGCGACTCTCTCGCTATTGTAATTAAAAATAAAAACGGAAATGATTACTTAT -CTCTCGGTTACTACGATCAGGACGACTACCACATTCAAAGAGGAATTCGTATTAATGGTGATAGTCTCAC -CCAATATTGTAGTGAAAACGCCAGGAGTGCTTCAGCGTGGTTTGAAAGCAGTAAAGCTATCATGGCAGAA -TCATTTGCAACTGGTTCCGATCATCAGGTTGTAAACGAGCTCAACGGGGAAAGACTGAGAGAACCAAACG -ACGTTTTTAAACGTTATGGTCGAGCAATAAGATATGATTTTCAAGTGGACGATGCAAAATATAAATGCGA -CCATCTAAAAGAAATAGTTTCTACTTTAGTCGGTAACAAAATTAACGTTGGCCATTCTCAAAAAATATAT -AAGCATTTTAAGGATCTCGAAGGTAAAATTGAAGAAAGGCTTCAAAATCGCCAGGCTGAATATCAAAATG -AAATTAATCAACCATCTGCGCCAGGTGTTAATTTTGATGATATTTAAAATTATTTTTCCAGTTTTTTGAT -TTTTCAACAGCTGAATATCGGAAATAGTCAGTGACGAACATCAGTATTTTTACATAATTACGTCTAGGTC -ATTGTCGGTTTATCTCCTTTTACTTGTGGTAATTGAGGGATAACAACAAAAAAGGTGAGTTTTGCGACTC -ACCTTTTTTATTTGTTTCTTATTCAGAATCAATATCTTTTAAATCATCCTGAATCGCTTGTGCGTTCGGA -TTTTCCTGCGGTTTGAGTTCGCCGCCATTAGCGATGAAATCATGACGCTGGAAGTACGCTTCGCGCACCA -TAATATAAGGATCGGACGACTGACGCAGCAGACCATCGGAATCCAGCAGCTGAGCGCGGGTTTCGATCCC -TTCAAGCGTCCATTTACCCACAGACATCGGCCAGGTCAGCCAGGAAAGAACCGGGTAAAAACCATCCGCC -ATATCACCACCGTCATCACGCAGCGTGAAGCTACCGTAGAACGGTAACTGAACGTAAGGCCCATAACCCA -CGCCATAATGACCAAGCGTACTACCGAAGCGGTGAGGTTCAGTCCGTTGCAGTTTCGGGTTCGCCATCCC -TGCAACATCAATAAAACCGCCCATCCCCAAAATGGTGTTCAGGAAAAAGCGGGTAAAGTGGACCATCCCC -TGATAAGGGTCGCCCTGCAAGAAGTAGTTAACCATCACCGCAGGTTCTTCAAGGTTGCCAGTAAAGTTGC -TCAAACCGTTACGCGCCGGTTGCGGAACATAATCACGCCAGGCGACAGCGACCGGTCGAACAATATACGG -GTCTAATACATTGAAGTTGAAGTTGTACATGGTGCGGTTGAACCCTTCTAACGGGTCAGAACGCCCTTGC -TGATCTGTACCGGAACTCGCACACCCCACCAGAAGCGTAGTTCCCAGAGCAAGCGCCGACAGGCGAAGCT -TCATAAATGTCTCCCTGTTTTTTTATGGCTTATGCAGTTTGCCATCCATGACGGAACGATACCGTATCCG -CCTGTTTAGGTGTGGGCGATTGTAACAGCACGTCAACTGATGTCCAGACGCCCTGATTTGCTGATTTGAT -CATAGCCTGGTAATCGCCGCCCTGTAGGCTACTTGATTCTATAGAAACAGAAAAAGGCAAACGCAGCCTT -TTCTACATTTTCAGAGTAACTCCCGTCAGTTGCGAGCAAAAAAGCCGCTACGCTTTAGCTATACGTGCTA -ATTCAAGAGAAGAGACCATGGACAACGACAAAATTGATCAACACAGCGACGAAATTGAAGTTGAGAGCGA -AGAAAAAGAGCGCGGCAAAAAAATAGAAATAGATGAAGACCGACTCCCCTCCCGGGCGATGGCAATTCAT -GAGCATATCCGCCAGGATGGTGAAAAAGAGCTGGAACGCGACGCAATGGCGCTACTGTGGTCAGCCATTG -CGGCGGGTCTGTCGATGGGCGCTTCGTTACTGGCAAAAGGGATATTTCAAGTCGAACTGGAAGGTGTGCC -GGGCAGCTTCTTGCTGGAGAATCTCGGTTATACCTTTGGTTTTATTATCGTCATTATGGCCCGCCAGCAA -TTATTTACCGAAAATACCGTGACTGCGGTACTACCCGTCATGCAAAAACCGACAATGAGCAACGTCGGCT -TACTTATACGGTTATGGGGCGTCGTGCTGCTGGGTAATATTCTCGGGACAGGTATTGCGGCGTGGGCATT -TGAATATATGCCTATCTTCAATGAAGAAACTCGCGATGCATTTGTCAAAATCGGCATGGATGTGATGAAG -AACACCCCCAGCGAGATGTTTGCCAACGCGATCATTTCCGGCTGGCTGATCGCCACTATGGTTTGGATGT -TTCCTGCAGCGGGTGCGGCAAAGATTGTGGTGATTATATTGATGACCTGGCTTATTGCCCTGGGTGACAC -CACCCATATCGTGGTCGGTTCTGTTGAAATCCTCTATCTGGTGTTTAACGGTACGCTGCACTGGAGCGAT -TTCATCTGGCCCTTCGCACTACCTACTTTAGCGGGGAACATCTGCGGCGGCACCTTTATCTTCGCGTTAA -TGAGTCATGCACAGATTCGTAACGACATGAGCAATAAGCGTAAAGCAGAAGCACGCCAAAAAGCAGAACG -TGCGGAAAACATTAAGAAAAATTATAAAAACCCGGCATAAATGGCGAGGGTTTAAGCAATCGAGCGGCAG -CGTACTTACCCCGCACTCCATTAGCGGGTATACTCATGCCGCATTGTCCTCTTAGTTAAATGGATATAAC -GAGCCCCTCCTAAGGGCTAATTGCAGGTTCGATTCCTGCAGGGGACACCATTTATCAGTTCGCTCCCATC -CGTACCAGTCCGCAAAATCCCCTGAATATCAAGCATTCCGTAGATTTACAGTTCGTCATGGTTCGCTTCA -GATCGTTGACAGCCGCACTCCATGACGGGTAAAAAGTGGATAAAATAATTTTACCCACCGGATTTTTACC -CATGCTCACCGTTAAGCAGATTGAAGCAGCAAAGCCGAAAGAAAAACCATACCGCCTTCTCGATGGTAAT -GGCCTGTACCTTTATGTCCCTGTGTCAGGGAAAAAGGTATGGCAGCTTCGCTACAAGATTGACGGTAAGG -AGAAAATCCTGACCGTCGGAAAATATCCGCTTATGACTTTGCAGGAGGCAAGGGATAAAGCATGGACTGC -GAGGAAAGACATCTCGGTTGGCATCGATCCTGTAAAGGCGAAAAAGGCTTCGTCTAACAACAATTCCTTT -AGTGCGATTTACAAGGAATGGTACGAGCACAAGAAGCAAGTATGGTCAGTAGGGTATGCAACTGAACTTG -CCAAAATGTTTGACGACGACATTTTACCTATCATTGGCGGCCTTGAAATTCAGGATATTGAGCCGATGCA -ACTGCTGGAAGTAATCCGCAGGTTTGAAGATCGCGGTGCAATGGAACGAGCCAACAAAGCACGCAGAAGA -TGCGGCGAGGTTTTCCGTTACGCTATTGTCACCGGAAGGGCTAAATATAACCCGGCACCTGACCTTGCTG -ACGCCATGAAGGGATACCGCAAGAAGAACTTCCCGTTTCTTCCTGCAGACCAGATCCCGGCATTCAACAA -AGCACTGGCAACATTTTCAGGAAGTATCGTATCGCTCATTGCGACCAAAGTTTTACGCTACACAGCCCTA -AGAACGAAAGAGCTTCGTTCCATGCTATGGAAGAACGTCGATTTTGAAAATAGGATTATCACCATCGACG -CCAGTGTGATGAAAGGACGCAAAATTCATGTGGTTCCTATGTCAGACCAGGTAGTTGAACTTCTCACTAC -GCTAAGCTCCATCACCAAACCAGTCTCAGAGTTTGTTTTTGCCGGGCGCAACGATAAGAAGAAGCCAATC -TGCGAGAACGCGGTACTGCTTGTGATCAAACAAATCGGCTATGAGGGTCTGGAAAGCGGTCACGGATTCA -GGCATGAATTCAGCACGATTATGAACGAGCACGAATGGCCTGCTGACGCTATTGAAGTGCAACTGGCACA -TGCAAACGGCGGATCTGTGCGTGGGATTTACAACCATGCTCAGTATCTCGATAAACGCAGAGAAATGATG -CAATGGTGGGCGGACTGGCTTGATGAGAAGGTGGAGTGAGCGACCTTAACAACTATCGAATAGCACAAAG -TCTTGCAATCCAGTGCAAAGCTTTGTGTGTATAAGTTTTGTCTCATCAACCACAGCAAGTATCGATCGAT -TAAGACTTGGATGATAGACTTCATTCCTTTGATTATTAGCTGATAGAAGAAATGTTAAAGCTATTTGCAA -AGTACACCTCTATTGGTGTGCTGAACACCCTTATACACTGGGTGGTTTTTGGTGTTTGTATCTATGTCGC -GCATACAAACCAAGCTCTTGCAAACTTCGCAGGTTTCGTTGTGGCTGTGAGCTTTAGCTTCTTCGCGAAT -GCAAAATTCACATTCAAGGCATCGACTACAACGATGCGCTACATGCTATATGTTGGGTTCATGGGGACAC -TGAGTGCTACTGTTGGATGGGCTGCTGATAGATGCGCACTTCCCCCGATGATAACTCTTGTCACCTTCTC -CGCCATCAGCCTGGTGTGCGGTTTCGTCTATTCAAAGTTCATTGTCTTTAGGGATGCGAAATGAAGATAT -CTCTTGTAGTTCCTGTCTTCAATGAAGAAGAAGCGATACCAATTTTTTATAAAACGGTACGTGAATTCGA -AGAATTGAAGTCATATGAAGTGGAAATCGTTTTCATAAATGACGGCAGCAAAGACGCTACGGAGTCAATC -ATTAATGCTCTGGCTGTTTCAGATCCTCTAGTTGTTCCGCTGTCATTTACACGCAACTTTGGTAAAGAAC -CAGCATTGTTTGCAGGGTTAGACCATGCAACCGGGGATGCGATAATCCCAATTGATGTTGACCTGCAAGA -CCCGATTGAGGTTATTCCTCATCTTATTGAAAAATGGCAAGCAGGTGCTGATATGGTTCTTGCTAAAAGA -TCTGACCGCTCAACTGATGGACGCCTGAAGCGAAAAACGGCTGAGTGGTTCTATAAGCTCCACAATAAAA -TAAGCAATCCTAAAATTGAAGAGAATGTTGGTGATTTCAGGCTGATGAGCCGTGATGTTGTCGAAAATAT -TAAACTTATGCCAGAACGAAACCTTTTCATGAAAGGTATTCTGAGCTGGGTAGGAGGAAAGACAGATATT -GTTGAATACGTGCGAGCGGAAAGAATTGCTGGAGATACAAAATTTAATGGATGGAAACTTTGGAATTTAG -CACTTGAGGGTATTACAAGCTTTTCCACATTCCCTCTTCGCATCTGGACATACATAGGGTTAGTGGTAGC -CAGTGTAGCATTTATTTATGGGGCGTGGATGATTTTAGATACTATCATATTTGGAAATGCTGTTAGGGGA -TATCCTTCACTACTTGTTTCAATACTGTTTTTAGGTGGAATTCAGATGATTGGAATAGGAGTATTAGGTG -AATATATTGGACGCACATACATTGAAACCAAAAAACGCCCGAAATACATCATCAAGAGAGTCAAAAAATG -AATAAAGCAATAAAAGTATCATTGTATATATCTTTTGTTTTGATTATTTGCGCCTTATCTAAAAACATAA -TGATGTTAAATACATCTGATTTCGGAAGAGCCATTAAGCCATTAATTGAAGACATACCAGCATTTACATA -TGACTTACCTTTATTGTATAAATTGAAAGGTCATATTGATTCAATTGATAGCTATGAGTATATAAGTTCA -TATAGTTATATTTTGTATACATACGTCCTGTTTATTAGCATTTTTACTGAATATCTTGATGCTAGGGTGT -TATCGTTATTTCTAAAAGTAATATATATTTATTCATTATATGCGATATTTACTTCATATATAAAAACAGA -AAGGTATGTAACTTTATTTACATTCTTTATTTTAGCTTTTCTTATGTGTTCTTCATCAACACTGTCAATG -TTTGCATCATTCTATCAAGAGCAAATAGTTATAATTTTCCTTCCATTTTTGGTGTATTCATTAACATGCA -AAAACAATAAATCTATGCTTTTGCTATTTTTTTCGTTGCTAATAATATCTACTGCTAAAAATCAATTTAT -ATTAACCCCACTAATAGTGTATTCATATTATATTTTTTTTGATAGACACAAACTAATTATTAAATCTGTA -ATATGCGTGGTGTGCTTGCTTGCGTCAATATTTGCAATATCTTATTCAAAAGGTGTTGTTGAATTAAATA -AGTACCATGCAACATACTTCGGTAGTTATCTTTATATGAAAAACAACGGGTATAAAATGCCATCGTATGT -TGATGATAAGTGTGTTGGGTTAGATGCCTGGGGTAATAAATTCGACATATCATTTGGCGCAACCCCAACA -GAAGTTGGAACGGAATGTTTCGAATCTCATAAAGATGAAACGTTTTCGAATGCACTCTTTTTATTGGTTA -GCAAACCAAGCACCATCTTCAAACTTCCATTTGATGATGGTGTGATGTCTCAGTATAAAGAAAATTATTT -CCATGTATATAAAAAACTACACGTAATATATGGAGAATCAAACATACTAACGACTATTACTAACATAAAA -GACAATATATTTAAAAACATTAGATTTATATCATTGTTATTATTTTTTATTGCTTCTATTTTTATTAGAA -ATAATAAAATAAAGGCATCTTTATTTGTAGTATCTCTTTTTGGAATATCTCAATTTTATGTGTCATTTTT -CGGGGAAGGATATAGAGATTTAAGCAAGCATTTATTTGGAATGTATTTTTCGTTCGACCTTTGCTTATAC -ATAACAGTCGTTTTTTTAATTTATAAAATAATTCAAAGAAATCAAGACAATAGCGATGTAAAGCACTAAG -TTTAAATTGCGCGCCAATCATGGCGCGCACAAGCTATAATACCAACCTAATTTCTCCTCCTCTTAGAGTG -ACTATATCTCCTGATAGAATTGCGGTATTGACTATCAAATGCCCTGATTCGTTGTTTATTGTAATATCTC -CTCTATCTGCAGACGATAACTTAAATGCATCATTGCCCACAACAAACCCCCTCCAGAACCAAGTGCTGAT -ATTATCATCAACAGTGATAGATACATATACTAACTGATTATCGTTATAAGTGATTCCTGTCTTATACTTA -ACATAAGGACTTCCACTTTGATTCTCGATAGACACATAACATCCAGGGGTTATGTTTGTATGCGTCCCGC -GACTATCGCCCCATTAACGCCATACGATAAATGGGATGGTGAGAAATGGGTGACGGATACCGAGGCACAG -CATAGCGTCGCAGTAGATGCAGCAGAAGCACAGCGCCAGTCGCTGATTGATACTGCAATGGCTTCCATTA -GTCTGATTCAACTGAAATTACAGGCTGGGCGGAAGCTGATGCAGGCAGAGACCTCCCGACTTAACACTGT -GCTGGATTACATTGACGCGGTGACGGCAACAGATACCAGCACCGCGCCGGATGTCATCTGGCCTGAACTG -CCGGAGGAGTAGGCCATTCAATATCTGGCGCACTGGAAGTATCGACCAGCTCCAGTGCGTCCAGATAATC -CAGCCACAAATTATATTGCGCCAGTTCCTCACCTTTCAGACGACCAATAGCCGCTTTACCAGCCCATTGT -TTACTGTTCATATAATCGTTGGCCTGATTAATCAATTGCTGCTTTTTCAGTTCGGCTGCAGCAATCTGTT -CCTCATGTGTTGGTGGTGGAATTTCAGACCATGCAGGAAAACCATTTTCTCCAGCGATACGGATTTTTCC -TTTCGGCGGTAATCCGGAAAACTCAATATACACTTGCTCATCAACTTCAACAGCATCATCTGGCCATGAG -CCAGCTTGCGTGTAATCCTCTTTCATCTCCAAGGGATAGAAAGAGTTTGTAGTCGCGGAATATATGTAAT -TCATTTTTCACTCCATAAAGTTAAAAGAAATTAACACCCTAATGCGAAAAATGAAGCACCGATACCGGGT -ACGCCTGCTCTGGAAATAAATTTCACCGGGTCCTGGTTATAACCGGCACAAGCTATATAGCCAACATTTG -CACTGCCGGGAGTGTAATCCTGAGTCGCAAATACCCGCAGACATCTATTCGGAAATGCAATCGGAAAATA -GGTTACTGTGTCCTGAGACGTCAGCGGAACATCAATTGGCCCCCATTGAATAATTAAACCGGATGGCAAT -TTTTGATATCCAGGAACTGAAGCAGAAAGCATAAAACTACCCATATCAGGTATCTGATTCGCCCCTGTCC -CTACATTTCTTTTAGCCGCTTCTCCCAAACCAAGGTTTTCGAGAGCCTTTTGCACCGTGCCGTCCAATTT -GATATCGCCAAACGGATTCTTGCGGCTTAACAGCAGCGCACGAAGCGCGGTAAGCAGCTGGTCATGCCGC -CCCTTCTCCAGGCTGGCACCGGAGGCCTCCACAACGCTGCAAAGCTCCTCCTGCAACATGTCAAAGTAGT -CATCATCCAGATCGGTGGCAGGCGTGCCGGTCTGGGGGTTACCACGGGTACGGGGGATTACCAAAGGCAG -CACCTTTAAGCTCCGCAAGACGTTCTGACCAGTCATGCGCCAGCGCGTTGTCTTCCGCAGTGTAATACGC -GGCACATTTGGCGTTATCACCATCAGTAAACAGATCCAGAACAAACGGGCCAAACAGGGTGTTAATTCCC -CAGAAAATGTTGTCCGGCGTGCGCCACTGATCGCCCACTTCCTTCAGTTCATGGGCTGGTTTGTTCCGCA -GCTCCACCAGCGCCTGGCAATATTTATTACTCATTAAGCCCCCACGTAATTCCCTGAGAGATACCACTCT -TCACCTGATGCAGCCCGCTTACTGCTTTTCCGTAAACACCGTTCACGACGCGCCAGAAAATTGTTTCGTT -CTGGCTGGGAGTGGCTTTCACGGAATGCCGCCATCCACACCGTTGCAGCACGACGGTATAAGCCCCTGGA -CTCCAGTTCTTCCGCCTGGCGGGTCAGGCACAAAATCACCCGCGGGTCGTTAGTGCCGACATAGAAATTG -CGCACAGGTCTGGTTTCACGAACTGGTTGTGGTTCCGGATCCTGCGCTCTCTCAGTCAGGCGCGGGAAAT -GTCTGTGTGTATCTCCTTCACAACGGTGAGCCACACGCCCACTCTGACGTAACTTGCTTGCTGACTGCAG -AACGCGCTGCCGTGAGTAACCTGCAAAAGCATCCGCAATGTCTCCGGAAGTACAGCCCGGATGGGCTTCA -ATGAATTTCTGAACGTCATTCAAAAGACTCATGCTCACCCCCTGAATCCTGCCGGGATCTGGCTGTAGTC -CACATTGTCGTAACTGGCTTTGAAGTACGGGTCTTCGCGTTTTTCTGTGTACGTGCTGACGGACGGCGAT -AAGCGCAGGGAAAGCTCATCCCATTTTTCCCGCAGCTTCGACGGGCTGAGCACGTTACGGCACCAGAACG -GATCGCGGCTGACGCGGCTGTACATCTCGCAGATTTGTTTGTGAGTACGACCATCCTGCACACACATCAG -GCGAATTTCGTTTGCCCAGGCTGTCCAGTTCGGTTCTTTGGGACGAACCACCTCGCCGTCACATTCGGCG -GCCTGCTCGTACAGGGCGATGATTTTTTTCCAGAGCCACTGTGCGCAGGTCAAATCATCCTGCGTTCCCC -ACTGGCGCTTTTTAGGGCTGAATACAACCGCATCAGGATGGCGAGTTAAAAAATCCTGTTCATCCGTCTG -CGTGTCCGGTTGCGAAGCGTCCGGACGAGAAGGTTTTTTATCTGACGGATCATGTTTTGATTTTACTGAC -GGATCCCCGCCAGATTCTGACGGGTGAAAACCCGATTTTTTGCCAGATTTCGACGCATCAAATTTTGACG -GGTCAGATTTTGATGCGTCAGATTTTGACGGGTCAGAGTCTGACAGTTGAGAAAATGCCGCTGCCTGAAG -CTTCGCAACGTTAAGCTGATAAACATTCGACGCATTGCGGTTATGATGAGGAGCAGCAAAATGGCTAGCG -AACGCAGTACTGATGTGCAGGCATTTATCGGGGAGCTGGACGGCGGCGTATTTGAAACCAAAATCGGCGC -AGTTCTCAGTGAAGTCGCTTCCGGTGTGATGAACACGAAAACCAAAGGTAAGGTCTCACTCAACCTGGAA -ATCGAACCATTTGATGAGAACCGTCTGAAAATCAAACACAAACTCTCATATGTTCGCCCGACTAACCGTG -GGAAAATTTCCGAAGAAGACACCACCGAAACGCCGATGTATGTCAATCGCGGTGGTCGCCTGACTATTCT -GCAGGAAGACCAGGGACAATTACTGACTCTTGCCGGTGAGCCTGACGGAAAACTCCGCGCAGCAGGTCAT -TAATATCATTCTTAATTAACTAATTATTTATCTCATCACTGAATATCTTAATATAGTGAGGACTTATTAT -GTCTCAGAACTTAGACGCAACCGCAATTAATCAAATCCATGCCCTTATTTCTGCTCAGGGTGTTAATGAA -ATTATCAGTAAGATTGGTGCCGATGCTGTGGCATTGCCTGAGAATTTCCGCATTCATGATCTGGAAAAAT -TTAATTTAAATCGCTTCCGTTTCCGTGGTGCGCTTTCCACTGCCAGCATCGATGACTTTACCCGTTATTC -TAAAGATCTTGCAGATGAAGGCACCCGCTGCTTTATCGATGCTGATAATATGCGTGCCGTCAGTGTGCTT -AACCTGGGTACTATTGATGAACCAGGTCACGCAGATAACACCGCCACTCTCAAACTGAAAAAGACAGCAC -CGTTCTCTGCCCTGTTGTCTGTTAACGGCGAGCGTAACTCCCAGAAATCACTGGCAGAATGGATTGAAGA -CTGGGCCGACTACCTTGTGGGCTTTGATGCTAATGGTGACGCCATTCAGGCAACAAAAGCGGCTGCGGCA -ATCCGTAAAATCACGATTGAAGCAAACCAGACCGCTGATTTTGAAGATAATGACTTCAGCGGCAAACGCT -CCCTGATGGAATCTGTCGAAGCGAAGACCAAAGACATTATGCCAGTGGCATTTGAATTTAAATGCGTTCC -GTTTGAAGGTCTGAAAGAACGTCCGTTTAAATTACGCCTCAGCATTATCACTGGCGATCGTCCTGTACTG -GTTCTGCGCATTATTCAGCTGGAAGCGGTGCAGGAAGATATGGCTAACGAATTTCGTGATCTGCTTGTTG -AGAAATTCAAAGACAGCAAAGTAGAAACCTTTATTGGTACTTTCACCGCCTGATTTCATTACTGCAAATG -CCCCTGCGGGGGCATTTATGGAAACGTAATTAACTCAATAATCACCGGATGGTGAGGGCTTCCTTTTACC -CAAACTCAGCGCGGTGCAGCGCATATACGTGGAGAACAAAATGTCATTTATTAAAACTTTTTCCGGGAAG -CATTTTTATTATGACAAGATAAATAAAGACGACATCGTGATTAACGATATCGCGGTTTCCCTTTCAAATA -TCTGCCGCTTTGCCGGTCATCTTTCTCACTTCTACAGTGTCGCCCAACATGCGGTGCTTTGCAGCCAGCT -GGTGCCGCAGGAATTTGCTTTTGAAGCATTAATGCATGATGCAACAGAAGCGTATTGCCAGGACATCCCC -GCACCACTGAAACGCCTTCTTCCTGACTATAAACGGATGGAAGAAAAAATAGATGCAGTAATCCGTGAGA -AATACGGGTTACCTCCTGTTATGAGCACGCCAGTGAAATATGCCGATCTCATTATGCTGGCAACCGAACG -CCGTGATCTCGGGCTTGATGATGGCTCTTTCTGGCCTGTACTGGAAGGCATCCCGGCAACAGAGATGTTC -AACGTGATTCCACTGGCACCGGGTCATGCCTACGGGATGTTTATGGAACGTTTTAACGATTTATCGGAGT -TACGCAAATGCGCATGAATGTTTTCGAAATGGAAGGGTTTCTTCGCGGGAAATGTGTACCGCGAGATCTG -AAAGTGAACGAAACAAATGCTGAGTACCTGGTACGTAAATTCGACGCGCTTGAAGCTAAATGTGCGGCAC -TGGAAAACAAAATAATACCAGTGTCAGCTGAACTGCCACCAGCAAATGAAAGTGTTCTGTTATTTGATGC -TAACGGAGAAGGCTGGCTGATTGGCTGGCGTTCTCTCTGGTACACCTGGGGACAAAAAGAAACCGGAGAA -TGGCAGTGGACATTTCAGGTTGGGGACCTTGAAAACGTCAATATCACTCACTGGGCAGTAATGCCAAAAG -CACCGGAGGCTGGAGCATAATGACCACATTTACCAATAAAGAACTGATTAAAGAAATCAAAGAACGAATC -AGCAGCCTAGAGGTTCGAGACGATATTGAGCGCCGTGCTTATGAAATCGCACTCGTATCTCTGGAAGTAG -AGCCAGATGAACGCGAAGCCTATGAATTATTCATGGAAAAGCGTTTCGGTGACTTAGTAGATCGTCGGAG -AGCAAAAAACGGCGATAACGAATACATGGCATGGGATATGACTCTCGGTTGGATCATCTGGCAGCAACGA -GCTGGTATCCATTTTTCAACAATGTCACAACAAGAGGTGAAATAATAGAGCCATACAGCCTCACACTCGA -TGAGGCCTGTCAGTTTCTTAAAATATCCTGATCTACCATCGCCGTCATAGAGCGTATTTTTATTACCTGA -TTTGCAGGTTCGATTCCCTATTCGGAGATAGCACTCATGCAACACGAACTACAGCCTGATTCACTGGTTG -ATTTGAAATTCATCATGGCTGATACTGGCTTTGGTAAAACCTTCATCTATGACCGGATTAAGTCAGGCGA -CCTGCCAAAAGCCAAAGTTATCCACGGGCGAGCAAGATGGTTATATCGTGACCATTGTGAATTCAAAAAT -AAGCTCTTAAGCCGCGCCAATGGGTAAAATAGCGGGTAAAATATTTCTCACATCTAAAAAACACCATTCC -AATCAATCCCCTGCTGCTTCAAGTAGATGTCTGCAGGGGACACCATCCTTGTGTTTATCCCTAAAACCAC -ATAAAAACCGTAAATTAAATTCGAACTAGCAGGCCGAATAAGGCACACCAGGAACTCGTGGTTTTATTCA -TTATGAAGTGGTTTTTACCTGTTCTCTTAGCCAGATAATAAACGCTTCAATTTTTGGCCACTGCCTGCCC -GGTAATGTGGTGATGTAATAATGCTGATGGCATTTCACCGTCATATCGCCAAACGGCGCGACGAGCTCAC -CACTGGCAAGCCTTTTTTGTACCAGGCGTTTTCTTCCCATCGCCACCCCAATATGATTCATCGCGGCAAT -AACAGCTAAATCAGAACGATCAAAGCCAATTCCAGAAGATGTCGGCAAATTAACCGCATAATGTTGCGCC -CAACTATGCCATTCATCCGTACCGGAGTCGTTGCTCCATGCCTGTCTGTCATGGAGCAACGTACAGTGAC -ACAGGTTAATTACCGTGTTGGTTAAAGCATGTCTTTGAGCGTATTCCGGGCTACATACTGGCAGGATTTC -TTCATCCATCAGAAAGTGATGAGTGAGTTGCGCTGACGGCGCATCATCAAAGTAGATCGCCAAATCGATT -CCGGCACGTTGCAGATTGACGTTGTCATTACCAGTGAGCACGGTGAGCGAAATAGACGGATACCGGCGTG -TAAAGTCACCTAATGCGGGCACCAACCAGCATTGGGCGATAGAGGGCCGGGAATACAGAGTTAACGTTCC -CGATAACTCCTGATTTTTGATATCAAGAATTTCCTGGTTCAGGGTATCCAGCGACGATTTTAGCGCCCAA -TAAACACGTTTCCCCTCGTGCGTTAATTCCACTTTGCGATGGGAACGAACAAACAACTGAATGCCCAATT -CTTCTTCCAGCTGATTGATACGGTGACTTACCGCACTGGGGCTCAGCGACAATTCCTCTGCCGCCAGGGC -GAAGGACTGATGCCTGGCAGCCACTTCAAAAGTATGCATTTTTGATAATTGCCAGCCGTTAAGCAGCCGA -TTTCTTATTTCACGAAGGGGTTCCATAATCACCTCATTTTTCGCTTAAGTGTAAAAAAATAGCGGCAAAA -TTTCAGCTATGAGATGAGCTAAAGTGAACCATATCTCAATTCACCTTCATTTTTAGATGTAAATCACTCC -ATTGATGCAATTTACCTCATGTGAAAGGCAAATTTTATCGTTTGTCAGCCTGCGTTGTTTTTTTGTCCAA -TATCATCAGGTTAATCACAGGGGAAGGTGAGATATGCACTCTCAAATCTGGGTTGTGAGCACGCTGCTTA -TCAGCATCGTGTTAATTGTACTGACCATCGTGAAGTTCAAATTCCACCCGTTTCTGGCGCTGTTGCTGGC -CAGCTTCTTCGTGGGAACGATGATGGGCATGGGGCCACTGGATATGGTAAATGCTATTGAAAGTGGAATT -GGCGGAACGCTGGGGTTCCTCGCAGCGGTTATCGGCCTTGGCACGATACTGGGAAAAATGATGGAAGTAT -CCGGGGCCGCAGAAAGAATTGGTCTGACACTTCAACGCTGCCGCTGGCTTTCAGTTGATGTCATTATGGT -GCTGGTTGGCCTGATTTGTGGCATCACGCTGTTTGTTGAAGTGGGCGTCGTGCTATTGATTCCTCTGGCT -TTTTCAATTGCCAAAAAAACCAATACCTCATTATTAAAGCTTGCCATTCCGCTATGTACCGCATTGATGG -CAGTGCACTGCGTGGTTCCTCCACATCCGGCTGCTTTATATGTTGCCAATAAGCTGGGCGCAGATATCGG -TTCGGTGATCGTCTACGGTTTGCTGGTTGGGCTGATGGCATCACTGATCGGTGGCCCACTTTTCCTTAAA -TTTCTGGGTCAACGACTGCCCTTTAAACCTGTACCCACAGAGTTTGCAGATCTCAAAGTTCGCGATGAAA -AAACACTACCGTCATTAGGCGCAACGTTATTCACCATACTGCTACCCATTGCGCTGATGTTGGTTAAAAC -GATTGCCGAATTGAATATGGCGCGTGAGAGTGGTTTGTATATCTTGGTTGAGTTTATTGGCAACCCTATC -ACTGCCATGTTTATCGCCGTGTTTGTCGCCTATTATGTGTTGGGTATACGCCAGCATATGAGCATGGGGA -CGATGCTCACACATACGGAAAATGGCTTCGGTTCTATTGCTAATATTTTGCTGATTATCGGGGCCGGAGG -CGCATTCAACGCCATTTTAAAAAGCAGCAGTCTCGCTGATACGCTGGCAGTTATTCTCTCCAATATGCAT -ATGCACCCGATTCTTCTGGCCTGGTTAGTGGCTCTTATTCTGCATGCGGCAGTGGGCTCCGCTACCGTGG -CAATGATGGGGGCAACGGCAATTGTTGCACCCATGCTGCCGCTGTATCCCGACATCAGCCCGGAAATTAT -TGCGATTGCTATCGGTTCAGGTGCAATTGGCTGCACTATCGTTACGGACTCGCTTTTCTGGCTAGTGAAG -CAATATTGCGGCGCTACGCTCAATGAAACATTTAAATACTATACGACAGCGACATTTATCGCTTCAGTCG -TCGCTCTGGCGGGCACATTCCTGCTGTCATTTATCATCTAAGCGCAAAGAGACGTACTATGGAAAACGCT -AAAATGAACTCGCTCATCGCCCAGTATCCGTTGGTAAAGGATCTGGTTGCTCTTAAAGAAACCACCTGGT -TTAATCCTGGCACGACCTCATTGGCTGAAGGTTTACCTTATGTTGGCCTGACCGAACAGGATGTTCAGGA -CGCCCATGCGCGCTTATCCCGTTTTGCACCCTATCTGGCAAAAGCATTTCCTGAAACTGCTGCCACTGGG -GGGATTATTGAATCAGAACTGGTTGCCATTCCAGCTATGCAAAAACGGCTGGAAAAAGAATATCAGCAAC -CGATCAGCGGGCAACTGTTACTGAAAAAAGATAGCCATTTGCCCATTTCCGGCTCCATAAAAGCACGCGG -CGGGATTTATGAAGTCCTGGCACACGCAGAAAAACTGGCTCTGGAAGCGGGGTTGCTGACGCTTGATGAT -GACTACAGCAAACTGCTTTCTCCGGAGTTTAAACAGTTCTTTAGCCAATACAGCATTGCTGTGGGCTCAA -CCGGAAATCTGGGGTTATCAATCGGCATTATGAGCGCCCGCATTGGCTTTAAGGTGACAGTTCATATGTC -TGCTGATGCCCGGGCATGGAAAAAAGCGAAACTGCGCAGCCATGGCGTTACGGTCGTGGAATATGAGCAA -GATTATGGTGTTGCCGTCGAGGAAGGACGTAAAGCAGCGCAGTCTGACCCGAACTGTTTCTTTATTGATG -ACGAAAATTCCCGCACGTTGTTCCTTGGGTATTCCGTCGCTGGCCAGCGTCTTAAAGCGCAATTTGCCCA -GCAAGGCCGTATCGTCGATGCTGATAACCCTCTGTTTGTCTATCTGCCGTGTGGTGTTGGCGGTGGTCCT -GGTGGCGTCGCATTCGGGCTTAAACTGGCGTTTGGCGATCATGTTCACTGCTTTTTTGCCGAACCAACGC -ACTCCCCTTGTATGTTGTTAGGCGTCCATACAGGATTACACGATCAGATTTCTGTTCAGGATATTGGTAT -CGACAACCTTACCGCAGCGGATGGCCTTGCAGTTGGTCGCGCATCAGGCTTTGTCGGGCGGGCAATGGAG -CGTCTGCTGGATGGCTTCTATACCCTTAGCGATCAAACCATGTATGACATGCTTGGCTGGCTGGCGCAGG -AAGAAGGTATTCGTCTTGAACCTTCGGCACTGGCGGGTATGGCCGGACCTCAGCGCGTGTGTGCATCAGT -AAGTTACCAACAGATGCACGGTTTCAGCGCAGAACAACTGCGTAATACCACTCATCTGGTGTGGGCGACG -GGAGGTGGAATGGTGCCGGAAGAAGAGATGAATCAATATCTGGCAAAAGGCCGTTAATAACGTTTCAACG -CAGCATCGCAATCCTTTCCCTGGGTGAGCGATGCTGCCGATGGCGCAGACTTAAGATCCCCGGTCTTACC -CGCTATAACCCCCTCCTTTTATCATCACCCAACGCCTTTCGCTGTAAACGGCGGTTTCGCAAACCAAACC -AAAACCGTAAGTAAGATAAAAGCAATAGCCGCCATACGGAAAATCTCATTTGCAGAAATAGAAAGTGACT -GCTGGGTTATTTCATTATTAATTTCATTAAGAACTCCTGAAAGCGAACCATAATATTTATCCATAATTTG -TGACGATGAATTAAACACGGGGTTAAATTGATCGATGGTTGCTGTCAACTGACTATGGTGTAACGATTCG -CGTCGTCCCCACAGCGTCATTGTCAACGACGTACCAACTGATCCTGACAAGGTACGAAAAAAATTACTCA -TACTCGAGGCATTGGCAAATTTATTATCTGGCAAGCCTGAAAACGAAATCGTTGTTAAGGGTAAAAAGAA -ACAGGCAACGGCGAATCCCTGAAAAAACTGCGGCAAAATGATGCCTGTAAAATCAATCGTTGGCATAAAT -GTCACAGAACGCCAGTAATAGCAAACCGCATACATCAAAAAACTAAATGTCACTAACAACCGCATGTCTA -TTTTGTTGCCATAACGTCCTATCAAAGGTGAAATTAATAGTGGCATGATGCCGATGGGCGCATAAGCAAG -TCCGGCCCATATCGCATTATACCCCATCGTTTCCTGGAGTAACTGCGGCATAAGGACGATCGCTCCAGAG -TAAAATAAATACGCGCATGTGATACTCACAATACCAATGGTGAAGTTACGGGACTTAAACAAACTGAGAT -CAAGAATCGGGTTCTCTGAGGTCGACTCCCAAATGACTAAAGAGATCAGAGAAATAACTGATACTACTGT -TAATATTATTATTGTACTCGAGTTGAACCAATCCAGATCGCGCCCTTTATCAAGCATAATTTGCAAGCCA -CCAACACCGAGCACTAACAGGGTCAGTCCTGGTAGATTCATTTTGACCGGTGAAGTCTCAGTTTCTCTTC -CTTTAAGTAAGGTTAAGCATAATGTCAGGACGATAATCCCCATAGGGACATTGATTAAAAATATCCAACC -CCAGCTAAAGTTATCACAAATATAACCGCCCAATATCGGCCCACATATCGGAGCGATAATCACGGTCATT -GACCATAATGCCAGAGCAAATGTTCTTTTTTCTGGCGGATAATTCCTTAATAATAAACTCTGTGACAGTG -GAATTAACGGCCCCGCCATTAACCCCTGAACGACTCTAAAAAATATCAGCACATCAAGATTGGTCGATAG -GCTACACATTAATGAAGACAGCGAAAAAAAAGTGACTGAAAGTAAAAATAATCTTAATTCGCCTATTCTT -TGTGCCAACCTGCCAGTAACAGGGATCGCAATGGCATTTGCTACACCAAACGAGGTGATAACCCAGGTGC -CTTCGTCTGTTGATGCTCCCAGAAAGCCAGATATTGTCGGTATTGCGACGTTAGAAATAGTGGAATCCAA -CATTTGCATAAATGTCGCTAATGACAATGCAATAGTGACGCACCATAACGTCCCACCGGTTAATGGTGCC -GGAGTTGATTTAGTGATTGCCATTAAAGTTGTCCATTATGCGAAATAATGTTGCTAATTTCTTTTTCTAT -CGGACTGGTATCGATAACTAAAGCCTTACTGGTATAAGCCGGCATGGAGGTCACGGTTGAAGCCAGCTCA -GGCATCTCGGCAATGTCTTCGTTCTTCGTATCAATAGTTGCTGTCATCGATAAACCAATACGCAAGGGGT -GTTCCATGAGTTCTTTTGGATCAAGAGAAACTTCAACCGGTACACGCTGAACGATTTTGATCCAGTTCCC -TGTCGCATTTTGTGCAGGTAATAAGGAGAACGCATTGCCGGTTCCCATATTGATCCCTGTCACCCGACCA -TGAAACACAACATTTTCACCATAAAGATCGCTGATAATATTGACCGATTGACCAATCCGTACATCCGTGA -GTTGTGTTTCTTTAAAGTTGGCATTAACCCACATTTGACGTGCCGGTACGACAGCCATTAACGATTGTCC -GGGGCTCACTGTTTCGCCGACCTGAACACTTCTCTGGGCAATATAGCCGGTAACCGGACTCTTAATATCC -GTACGTTTAAGCGCCAACCAGGCTTCTTTAGTTGCATCCGCCGCTTCAACGACTTGTGGCTGACGGTTTA -ATGGTGTGTTCATTACTAAAGCTTTATTCGCTTTATAAGCCTGGATAGCGGCATTCAATGCCGCTTTGCT -ACTTATTAACGTATCTTTGGTATGCTCCAGCGTTTCTTTTGAAATAACCCCCTGCTTCGCTAACGGCACT -CGACGGTTATAATCTTCTAAAGATTGTTGATACTGAATACGTGCTGAAGCGACTTCGGCACTGTATTGTT -TATCCTGTAAGTATAGTTTATTCGTTTGCCGAACAATATTTGCCAGATTATTTTTAGCTTTATTGAGTGC -GATAGTGGCATCAGTTTTATCCAGTGAAACTAAAATGTCACCTTGTCGAACGTAGTTCGTATCTTTATGA -TTAACGACAGTGACACTACCTGAGACTTGTGCAGAAATTGGATCTGCATTCCCCGTGACATAGGCGTCAT -CTGTACTAATCATGTCTTCTAATTCCATTGACCAATAGGCATAGGCACCTGAAAACGCAATAAATAAAAC -TACCGCCAATAAAGAAAAGTATTTTCTTCTGTTAGAATGTTTTTTATTTGAATTAATCTGTTCCACTATT -ATCTCTCATTTCTCATAGATGAAATTTATGAATTGAATGAAAAGAGCATTCATTCTTCATATCAAACACA -GTGCATGTGTTGCACATTATCCCAGGAACGTTGGAGGCCTAATTTAAATGAGGTGCAAAAAAAACAACAG -AGGACTAAACCGTGGCTTTTGCAATACAATTCTTACGCCTGTAGGATTAGTAAGAAGACTTATAGTGCCA -ACTTGAAACTATAAATCATCGGTACAATCCCTGATTTTATTGTTGACATTTCATTTATGCCGACTATTTA -TATGGTATACTTGTCGAATTATCTTAAAGGAAGCTCAGATTTTCTTATTTTTATTGAGAAAATGAGATGA -CGCCTTATGTCTGTATTACTACAGGGAGAAGGGAGATGCTTCATTGCAAAGGGAATAATCTATGAACGCA -ATAATTATTGATGACCATCCTCTTGCTATCGCAGCAATTCGTAATTTATTGATCAAAAACGATATTGAAA -TCTTAGCAGAGTTGACTGAAGGCGGAAGTGCCGTTCAGCGGGTGGAAACACTTAAGCCTGATATCGTCAT -CATTGATGTCGATATCCCCGGAGTTAACGGTATCCAGGTGTTAGAAACGCTGAGGAAGCGCCAATATAGC -GGAATTATTATTATCGTCTCCGCTAAAAATGACCATTTTTACGGGAAACATTGTGCTGATGCTGGCGCTA -ATGGTTTCGTGAGTAAAAAAGAAGGCATGAACAATATCATTGCGGCTATTGAAGCTGCAAAAAATGGCTA -CTGCTATTTCCCCTTCTCTCTCAACCGGTTTGTTGGAAGTTTAACGTCCGACCAGCAAAAACTCGACTCC -TTATCGAAACAAGAAATTAGTGTCATGCGGTATATTCTTGATGGCAAGGATAATAATGACATTGCTGAAA -AAATGTTCATCAGCAACAAAACTGTCAGCACTTATAAAAGTCGCCTGATGGAAAAATTAGAATGTAAATC -ACTGATGGATCTTTACACATTCGCACAACGTAACAAAATCGGCTAACCACATGAAGTTTTTACCCTATAT -TTTTCTTCTCTGTTGTGGTCTTTGGTCGACCATAAGTTTCGCAGACGAAGATTACATCGAATATCGTGGC -ATCAGTAGTAACAACCGTGTCACACTTGATCCACTACGTCTGAGCAACAAGGAATTACGTTGGTTAGCGA -GCAAAAAAAATCTTGTGATTGCAGTACATAAGTCCCAAACGGCTACGTTGTTGCATACCGATTCGCAGCA -ACGGGTTCGTGGTATTAATGCTGATTATTTAAATCTTTTAAAAAGAGCGTTAAATATCAAATTAACACTC -CGGGAATACGCAGATCATCAAAAAGCAATGGACGCGCTTGCAGAAGGTGAAGTCGATATAGTGTTATCAC -ATTTAGTTACTTCGCCGCCTCTTAATAATGACATTGCTGCAACCAAACCATTGATAATTACCTTTCCGGC -GCTGGTAACCACCTTTCACGACTCAATGCGACCGCTTACCTCACCAAAACCAGTAAATATTGCTCGGGTA -GCAAATTACCCCCCAGACGAGGTAATTCATCAATCATTTCCAAAAGCAACAATTATCTCTTTTACAAATT -TATATCAGGCATTAGCATCCGTCTCAGCTGGGCACAATGATTACTTTATTGGTAGTAACATCATTACCAG -CAGTATGATTTCCCGCTATTTCACTCACTCCTTAAATGTAGTGAAATATTATAACTCGCCGCGTCAATAT -AATTTTTTCTTGACCAGAAAAGAATCTGTCATTCTTAATGAAGTACTCAATAGATTTGTTGATGCTTTAA -CAAATGAAGTTCGCTATGAAGTATCACAAAATTGGCTTGATACAGGAAACCTGGCCTTTCTGAACAAACC -ATTAGAACTCACTGAACATGAAAAACAGTGGATTAAGCAGCATCCCAATTTAAAGGTGCTGGAAAATCCT -TACTCGCCCCCCTATTCTATGACGGATGAAAATGGCTCGGTTCGGGGCGTTATGGGGGACATTCTTAATA -TTATTACCTTGCAAACAGGTTTAAATTTTTCTCCGATCACCGTTTCACACAATATCCATGCTGGAACACA -GCTTAGCCCCGGAGGATGGGATATAATACCTGGCGCTATTTATAGTGAAGATCGAGAAAATAATGTTTTA -TTTGCTGAAGCCTTCATAACAACGCCTTACGTTTTTGTCATGCAAAAAGCGCCTGACAGTGAACAAACAT -TAAAAAAAGGAATGAAAGTTGCCATTCCATATTATTATGAGCTGCATTCGCAATTAAAAGAGATGTATCC -GGAGGTTGAATGGATACAGGTCGATAATGCCAGCGCTGCATTTCACAAGGTTAAGGAAGGTGAACTTGAT -GCTCTGGTCGCGACACAGCTAAATTCGCGTTACATGATCGATCATTACTATCCTAATGAACTTTATCATT -TTCTTATTCCTGGCGTTCCGAATGCATCGCTTTCGTTCGCTTTTCCTCGCGGAGAACCGGAACTTAAGGA -TATTATTAATAAAGCACTGAATGCAATTCCCCCAAGCGAAGTTCTGCGCCTGACGGAAAAATGGATTAAA -ATGCCCAATGTGACCATTGACACATGGGACCTATATAGCGAGCAATTTTATATTGTTACGACATTATCCG -TTTTATTAGTTGGCAGTAGCCTTTTATGGGGATTCTACCTGTTACGCTCAGTTCGTCGTCGTAAAGTCAT -TCAGGGTGATTTAGAAAACCAAATATCATTCCGAAAAGCACTCTCGGATTCCTTACCGAATCCAACTTAT -GTTGTAAACTGGCAAGGTAATGTCATTAGTCATAATAGTGCTTTTGAACATTATTTCACTGCGGATTACT -ACAAAAATGCAATGTTACCATTAGAAAACAGTGACTCACCCTTTAAAGATGTTTTTTCTAATGCGCATGA -AGTCACAGCAGAAACGAAAGAAAATCGAACAATATACACACAGGTATTTGAAATTGATAATGGCATCGAG -AAAAGATGCATTAATCACTGGCATACATTATGCAATCTTCCTGCAAGTGACAATGCAGTATATATTTGTG -GTTGGCAAGATATTACTGAAACGCGTGATCTAATTAATGCACTCGAGGTAGAAAAAAATAAAGCGATAAA -GGCTACCGTAGCAAAAAGTCAGTTTCTGGCAACGATGAGTCACGAAATAAGAACACCAATAAGCTCTATT -ATGGGCTTCCTGGAACTTCTGTCGGGTTCTGGTCTTAGCAAGGAGCAACGGGTGGAGGCGATTTCACTTG -CCTACGCCACCGGACAATCACTCCTCGGCTTAATTGGTGAAATCCTTGATGTCGACAAAATTGAATCGGG -TAACTATCAACTTCAACCACAATGGGTCGATATCCCTACTTTAGTCCAGAACACTTGTCACTCTTTCGGT -GCGATTGCTGCAAGCAAATCGATCGCATTAAGTTGCAGCAGTACGTTTCCTGAACATTACCTGGTTAAGA -TCGACCCTCAGGCGTTTAAGCAGGTCTTATCAAATTTACTGAGTAATGCTCTCAAATTTACCACCGAGGG -GGCAGTAAAAATTACGACCTCCCTGGGTCACATTGATGACAACCACGCTGTTATCAAAATGACGATTATG -GATTCTGGAAGTGGATTATCGCAGGAAGAACAACAACAACTGTTTAAACGCTACAGCCAAACAAGTGCAG -GTCGTCAGCAAACAGGTTCTGGTTTAGGCTTAATGATCTGCAAAGAATTAATTAAAAATATGCAGGGCGA -TTTGTCATTAGAAAGTCATCCAGGCATAGGAACAACATTTACGATCACAATCCCGGTAGAAATTAGCCAG -CAAGTGGCGACTGTCGAGGCAAAAGCAGAACAACCCATCACACTACCTGAAAAGTTGAGCATATTAATCG -CGGATGATCATCCGACCAACAGGCTATTACTCAAACGCCAGCTAAATCTATTAGGATATGATGTTGATGA -AGCCACTGATGGTGTGCAAGCGCTACACAAAGTCAGTATGCAACATTATGATCTGCTTATTACTGACGTT -AATATGCCGAATATGGATGGTTTTGAGTTGACTCGCAAACTCCGTGAGCAAAATTCTTCCTTACCCATCT -GGGGGCTTACAGCCAACGCACAGGCTAACGAACGTGAAAAAGGGTTAAGTTGCGGCATGAACTTATGTTT -GTTCAAACCGTTGACCCTGGATGTACTGAAAACACATTTAAGTCAGTTACACCAAGTTGCGCATATTGCA -CCTCAGTATCGCCACCTTGATATCGAAGCCCTGAAAAATAATACGGCGAACGATCTACAACTGATGCAGG -AGATTCTCATGACTTTCCAGCATGAAACGCATAAAGATCTACCCGCTGCGTTTCAAGCACTAGAAGCTGG -CGATAACAGAACTTTCCATCAGTGTATTCATCGCATCCACGGTGCGGCTAACATCCTGAATTTGCAAAAG -TTGATTAATATTAGCCATCAGTTAGAAATAACACCTGTTTCAGATGACAGTAAGCCTGAAATTCTTCAGT -TGCTGAACTCTGTAAAAGAACACATTGCAGAGCTGGACCAGGAGATTGCTGTTTTCTGTCAGAAAAATGA -CTAAATAGCGGCTCCCACAATGTTCAAATGTGGGAGCTATTTACCAGCACATCTTACATTTATGATGAGA -ACTCCTGGCGAATTTGTTCCCCATGCTGGTCGAGCGTTGCCGCTCCCGGCATAACATGCGGGTCCGCGCA -GCCGCTGATTTTTATCGGATTACCCGGCATCATTATTCCCCCGGCTTCAATCAACATATTTCTCGCCTGA -GTTTGTGGCAATTTAATGGCCTCAGCCACACTTAATAACGGCGCGACGGGTACACCAACTTCATGTATTC -TGGCTAACCAAACTTCAGCTGCCTGCGTTTTTAACGTCCGCTCAATATATTGTTTAAGAATAGCCTGGTT -TTGTACGCGTAAAATATTGCTGCTAAATCGGGGATCATTAACCAGTTCCGTAAGCTCCAGTGCCTGGCAT -AACGCAGAAAAAAGCTTGTCATTACCACAACAAATCGTAATCGGCTTATCCTGAGTATTGAAAACATCAA -AAGGTGCCATGTAGGGATGGCGATTTCCCAGACGTTGTGGTGACTTCCCAGTTGCGATATATGCCATCAG -ACCATGCTCCAGAAAACTCAGCGTGGCATCAAACATCGCTATATCGACATGCGCCCCTCTCTGGCTCTTT -TCGCGGCCATAAAGTGCACTCACTATTCCGCTGAATAAATAGACACCGCCGCATAGATCCGCAAGAGATG -TACCAACGCGCACTGGCGGAGCATCAGGATATCCTGTTTCCATCATTATCCCGCTCATTGCCTGAATGAT -GGTATCGTAGGCAGGAGCATCTTTTAGCGGACCGGTATGTCCGAAACCTGACGATGAAGCATATATGAGG -CGCGGGTTGATTTCTTGAAGCGTTTCCCATGAAAACCCCAGTTTTTCCATTGTACCTGGGCGAAAATTCT -CAGCTAATACATCAGCTTGTTTGAGCATATTTATAAATATACTTTTATCGTGATCATTCTTTAAATCAAG -AACCACACTCTCTTTGCCATGATTAATAAAACTGTAATAGAGTGACTGTCCATCCACATAGGGACCAAAT -GTGCGGGTATCATCACCATGACCCGGCGGCTCAACTTTAATTACCCTTGCGCCCATATTACAAAGAAGTT -GAGTTCCGAAAGGTCCATTAAGGACATGTGTCATATCGATAACTAATAAGCCTTCAAACGGCCCTTTGCT -TTCATTATTTGTCATTTGCTTATGCCTTGAAAAAAGCCGAAGGTGAAAAGACACTTCGGCATTTATGTAA -AATCAATAACATGATTAATTATGAAACCAGTCGACTGACATAAATCCACAAGGGAGCCGTGACGACAAAG -CCCAGTACGCTCACAGCCAATGACGCTGTACCAGTACGGGTGTAGACATTAAACCGGCTGGCAATAATGA -TTCCGGAGAATGCCGGCGGTAATGCGCCTGCCAGTACCATCATCTGCAGATGTTCGCTGTTCAAATGACA -TGCCATACCAACGAGAAGCAGTGCCAGTGGCATCAGAATCAGCTTCAGGAAGGTGTTATAAGCAATTTCG -GCACTGAACTCGAATTTATGTGCAGCCAGAGTCAACCCCGCAGCGAATACCGCTACCCCTGAGTTAGCCT -TCGCAATCAGATTAAAGGTTGGGTCCCATGCTGCCGGAATTTTTACCCCAACCAACACCAGGATCGTTGC -CAGAACAGGTGCCCATACTACTGGCTCCTTTGCCGCAGAAATTAATGCGCTCAGATTACTATTCTTCTTA -CCATCCGCTCCTGAAGAAGGATTCAGCAAATACAGACCAATAGGAATAGTAATTGCGTTAACAATAATAG -AAATAATTGCTACCACTAAACCTGTTGATACGGAATCACCATAAATAGGATCGAGAACTGCAAACCCCAG -GAATCCAATGGTAGGTGAACCTGCAATTAATGCACATACAGCTGCTTCTGCATGGGTACGTTTAAAAAAT -TTGTAGCAACCGAACCAGGAGAAAAAGAAACATCCGACAATAACCACAAGTGATACAAGGGTCAGACGAG -TGTCCGCAAAAATCATTTCCCTGTTTGCCCGAGTAATAGATACAAATAGAGCCGCAGGAAGCGCGTAGTT -TAATACCAGTTTATTAAATGCCCGAGCTTGATCTTCTGAAAATGTTTCTCGTCTGCCGCTAAAATAACCC -AACAGCATGATTACGATAATAGGCAATAAATCGCCAATAAAAAATGTTAGCATAATAGTATTTCCGATAA -GGGTCCCCTCACCATCGCATAATGAGTTGGCAAGAGGAGACGATGTCAGTATTTAATTACCAGCGACTTG -TTTTGGGTTAAGTTTGGTAATATGGCCACTTTCAGTTCCTGCTGCAGGGTCGATGACCACATTAATAATG -GTCGGTTTGCGCGACTGAATACCGGTGGTTAAAGCATGACGAAGTTCATCTGTCGTGGTGACGTTATAGC -CAACGCCACGAAACGCATCCATTAATTTGTCATACCTTGCATGGTGCAACAGATCCGTTGGTGATGGTGC -ACCAGCGCCACTGAGATCAACACCGTCTCCTCTGTAGATGCCGCCATTATTAAAAATAACGATCGTCACC -GGCAGGTTATATCGACAAATCGTTTCAATTTCCATCCCACTGAAACCAAAAGCACTATCACCTTCAATGG -CGACAACCGGAGAACCAGAAGTCACGCTAGCACCGATGGCATAGCCCATACCGATGCCCATGACACCCCA -GGTACCACAATCCAGACGACGACGTGGTTTATACATATCAATAATATTTCGTGCATTATCCAGGGTATTT -GCACCTTCATTAACTAAATAAATATCCTGGTTCTCGCGCAATACGTCGCGCACAGCACTTAATGCATTAA -AGTAATTTAATGGTTGAGTATCTGTACTTAATTTTTCATGCATTTTTTGTGCATTTTGCTGCTTGTGGAT -ATTTAAAATATCGCGCCATACCAGTGGAGTCGTAAATGTGTTTTGTTTCAGTTCTGCCAGCATACCTTGC -ATACTGGATGCAATATCACCAACGACTGGCACAGCAATGGGGCGGTTGCTGTCAATTTCCTGCGGTTCAA -TATCCAGTTGAATAAACTGTGTATCTGCCGCCCATCCTTTTTTACCGTGTGCCAATAACCAATTCAGTCG -TGCACCAACAAGCATGACAACGTCAGCATTTGCCAGGGCAAACGAACGCGCAGCTGCCGCAGAAAGTGGA -TGCGTATCTTCAAGGATCCCTTTCGCCATAGACATTGGCAGGAATGGAATCTGAGCACTTTCAATAAATT -CACGAAGCTGTTCATCAGCTTGTGAATACGCCGCGCCTTTGCCAAGGATAATTAATGGCCGTTCAGCTTT -TGCTAAAAGCGAAATTGCGCTAGTGACTGACTTCGGGCATGGCAATAATGCTGGCGACGGATTTTCAACT -TTAACAATCGTGGTTAACGCTTCGTCTTTTTCCATCGTCGCGGCCAGGACATTTGCTGGCAAATCAAGAT -AAACTCCGCCAGGGCGACCCGATACAGAGACCCGGATAGCGCGTGCCAATGCAATGCCAAGATCCTGCGG -CTGATTAACGCGAAATGCTGCTTTGGCATACGGTTTTGCCGCATTCATTTGGTCCAGCTCTTCATAATCA -CCTTGCTGTAGGTCGACGATCGCGCGGTCGCTGGAGCCGCTAATCATGATCATCGGAAAACCATTTACCG -TTGCGTTGGCCAATGCGGTCAAACCATTGAGGAATCCTGGCGCAGAAACTGTCAGGCAGATCCCCGGTTT -TTGGGTAAGAAAACCGCTTGCCGCAGCGGCATAGCCTGCCGACTGCTCATGACGAAAACCAATATAACGA -ATGCCTTCCGCCTGGGCATGGCGTGCCATATCCGTCACAGGAATACCTACAACACCATAAATAGTGTCAA -TATTATTCTGTTTTAATGCTTCAACGATGATATGCATACCATCTGTCATTTGAAGTTGATCTGACATGAT -TAATAACCTCGAAATTTTTATAAATTGGGAGCCAGAAGCCCCCGTTAATATCAGATGGCGTGGTTTTGCT -TCATTGCAGCAATTTCATCGTCGCTATAACCCAGCTCCTGCAATACAGCAGCGGTATGTTCACCTAATAG -CGGCGCAGCTTTAATATCCGGCGTAAAGGCAGAGAATTTCATTGGACAACCAACGGTCAGATATTTTCCA -CGCAACGGTTGTTCCACTTCAACAACACTGCCACTTTGGCGCAAAGAGGGATCAAGTGAAATTTCTTTCA -TACTTAAAACCGGTGCACAAGGAATATCAAACTGAGTCAAATAGGCCACCGCTTCATGTTTATCAATAGT -GACAGTGTATTTTTCGATTTCAGCAAAAATATCGAAAATATGTGGCTGTCGTGCATGGGCTGTACTGTAT -GCCGGATCGGTAATCCATTCTGGTTTGCCGATGGCTTTACAGGTGTTTTCCCAGTTTTGCTCCTGAATAG -TGAAATAAATATAGGCGTTAGGATCGGTTTCCCAGCCTTTACATTTCAGGATCCAGCCAGGCTGACCGCC -ACCACCTGCATTACCACCGCGGGGAACTGCATCACCAAATGTACCATTCGGATACTGCGGGTATTCTTCC -AGATAACCCAATTTATCGAGACGCTGCTGGTCACGTAATTTCACGCGGCAAAGGTTCAATACGGCATCCT -GCATTGACATGGTGACTCGTTGCCCACGCCCCGTTTTTTCGCGATGCAGCAAAGCAGCAAGTAAACCGAT -CAGCAAATGCATTCCGGTGTTGCTGTCACCCAACGCTGCAGCGCTTACCAGCGGCGGACCATCCCAAAAA -CCCGTAGTGGATGCCGCGCCACCCGCTGCCTGAGCAACGTTTTCATAGGCTTTTACATTCACATAAGGCG -AACACTCATCAAACCCTTTGATCGAACCAAAAATCAGACGTGGATTGATTTCTTGAATATGCTCCCAGGT -GAAGCCCATGTGATCAATGGCCCCTGGATGAAAGTTCTCGACTAAGATATCAGCTTCGCGGATCAGCTTT -TCCATTACCTCTTTGCCTTCCGCTGTTTTGGTATTTAACTCAATAGAACGTTTGTTACTGTTAAGCATGG -TGAAGTAAAGCGCATCGATATCAGGAATATCTCGCAGCTGGTGACGCGTTACGTCACCAACGCCGGGACG -TTCAATTTTAATAACGTCAGCGCCAAACCAGGCCAGCATTTGAGTACAAGATGGGCCAGATTGCACACCG -GTGAAATCGAGAACTTTAATTCCTTGAAGTGGAGTTGACATAGCAATACCTATTAGTTAATTAAATATGT -GTTAATTTAGCGTTTATTTAAGGCGTAATATCTTCTATAAATAACCCGCAAAATATCGTCGTAGCTGCAC -TCGATATTTTTAAAATCCTGTATCAAGTGCTGAAAATCATTTCATCGCCACTTCCAATTCCTTTCTGCAT -GGTAAGTAGTGAGGACGAAAAGAAGAATATGATAAATATTGATTCGTGGTAATCAGAGAGAGTCGCGACA -TTTGTGATGTTATTCTTACAACTGTAAGAAGCGCCGGTGATTTACAAGCAAGGGTATGATTACGCTTTTT -AAAGCGTACCATAAAACATAACATAATAAATGATTTGTGATGACACGGGATTATTGCGGTTTACTTTGAG -GAATATAAAATGCGAGTTTATAGCACCGCGAGCGCCAAATAATTTTATGACCACAACCTGTCGTATTGTG -GTCATAAAAAATTGTCGGCTGGAGGGAGTTAAATCCTTTACCTCAATATACTGCCTGTCAGCATTAGTTC -ACAAACAGTGCTTCGCTATCGACGATGATTCCATCTTCCGCACCTTTAAGCGCCAGGTTTGCCTCGTAGT -ATTGCTTTTTATCAAGCAGTTTCTGCGCATCAGCAAGTGCATTACGAGTCTGTTTAAGTGGCATCAGATA -TTGGTTTTCCATTACGCCAACACCGGCCAGGCGAAGCTCTTCCATTGCGCCCTTTTTATCCCCTTTCGCC -ATTTTTTCATTGGCAATTTTTATCGCGGCTTCTTTTTCGGGAGTTGCTACATAACTCTCAGAAATTCCGA -CAGATGCATTAATGACAATATATTGGTCATCATTGAGATTGGTCTTTTTACCTGGCTTAGCGAACTTTGC -CCATTCGGTACTGTCATCTGACAGCAAAGCGGAAGCTTCATTGGTCAGTTCTTTTGCCTTTTCTGGATCG -CCATGAAACAGAGCCAGGCGCGCTACCTGCACGTCACGCATCGCATATAAACCTTGTTCAGAGATACGCT -CTGCTGCCGCTGCCGTTTTCTGGGTTTGCTGAACTTGCTGAGTTTGCTGTTGTGCCGCTACCGGAGCATT -ATCAGCAGCCCATACAGTTGAAGATGCCAGAATTGCTGTGACCATCGTGGCCATAATTAAACGTTTCATA -CTTACCTCATTCTTTAACAGTTTTAGAAAACGCCGCCATCATATTGGGTGAGCATGAAATGAGAAATCAG -AGAGCAACGGTCATTTTGAAAGGGTTATCTTACAGTTGTAGTTATTATCGCAAGAAGTATTTTAGTCTTA -CAATTGTAGGAATATGCTTCCTGTCGCAGAGAACTATTCTTATATACCACAAAGAGATGTCATTTATTAT -ATCGATGTAAATACTGATTAATTAAATGTAAATACAGCCATAACATCGTAGGTTCTCAGTGAACCATTTT -CAGGATAACTTTCTATGAAAGTAAACTTAATACTTTTCAGCTTATTTTTATTGGTCTCTATTATGGCATG -CAATGTTTTTGCATTTTCCATTTCGGGTGGTGGAAGTGAGAGGAGCTATAAAGAGACTGAAAAAACATCA -GCGATGACGACCACACACTCTACAAAACTTCAGCCATCACAGGCGATTTTGTTTAAGATGAGAGAAGATG -CGCCACCATTAAACCTCACAGAAGAAATGCCGCCCCCTTTTCCGACAAAGGCGAATTATCTTATTCATCC -TGTGCGATAGCGTCTTTCACATGGCAGGTGAACAATCATGTCTGATGCTGATGTGAACACCTGCCCAAAT -GAGCCATCCTGACCCACTACCGCCTGCCATACCCCACCATAAAGCGAATCATCAAGCCACAAGCCGGGGC -AAGAAACATAAATATCCCCGTCACTAGTTCATTACCGCCAGTTAACCACATGGTGAAGTAATAAATGAGT -GCAGCGAGGATCACCATGCCGAAGAAAGAAGAGACCGCCGATACCACGTTCAGTACCTGACCGATGTAGC -CGCTTACGCAGACAATACACAGGGCGAGAAACATCCATAAATTAATCATAGCTCAACCTCCTGCCGCGCT -AAAAAACCTGTAACTTCAGTCACTTTAATAGTAAGACAATCCTTAACCTCTGGCAATTTTTGCTAAGCAT -CAATGAAAACAGCATGTTAAATGCAAGACTGTTGTGTACGGAAAAATATTTACTTTGCACGATTAATAAT -CAGTAGCTGAAAGCAGTCAGCGAGTGATAAAGTACAGATACCGCATTCATGCTCCTCGTGGTTATGTCCT -GACTAGTCTTTACACTCTTTACAGGAACCATTGTCGTACATGATGGCCCAACCAATTGAGTGTACCGCTG -TCGACATGGAATCTTCTGCGATACAACAATTCGTATCTACAGAAGGTAACTATGTTTCCACAATGCAAAT -TTTCCCGCGAGTTTCTACATCCTCGCTACTGGCTCACATGGTTTGGGCTTGGTGTACTCTGGCTTTGGGT -ACAGCTTCCTTATCCTGTTCTCTGCTTTCTCGGCACGCGTATTGGCGCAATGGCGCGACCATTCCTGAAA -CGTCGTGAATCTATCGCCCGTAAAAACCTGGAACTTTGTTTCCCGCAGCATTCTGCGGAAGAACGCGAGA -AGATGATTGCCGAAAACTTTCGTTCACTCGGCATGGCGCTGGTAGAAACCGGCATGGCATGGTTCTGGCC -CGACAGTCGCGTACGTAAATGGTTTGATGTTGAAGGGTTGGATAACCTTAAACGCGCACAAATGCAAAAT -CGCGGCGTAATGGTTGTCGGCGTCCATTTTATGTCGCTGGAACTGGGCGGCCGCGTGATGGGACTGTGCC -AACCAATGATGGCTACCTATCGTCCACATAATAATCAGCTGATGGAATGGGTGCAGACCCGTGGGCGCAT -GCGCTCTAACAAAGCGATGATCGGCAGAAATAATCTGCGCGGCATTGTCGGTGCACTGAAGAAAGGTGAA -GCGGTATGGTTTGCTCCCGATCAGGATTATGGTCGTAAAGGCAGCTCCTTCGCGCCGTTCTTTGCGGTGG -AAAATGTCGCCACAACCAATGGCACCTATGTTCTCTCCCGTCTCTCTGGCGCAGCCATGTTGACCGTAAC -GATGGTAAGAAAAGCGGATTACAGCGGATATCGTTTGTTCATCACCCCAGAGATGGAAGGCTACCCGACA -GATGAAAATCAAGCCGCTGCCTATATGAACAAGATTATCGAGAAAGAGATCATGCGCGCACCGGAGCAGT -ACCTCTGGATCCACCGTCGCTTTAAAACGCGCCCGGTGGGAGAATCGTCGTTGTACATTTAACAAACTGC -TCTTACTCTTTCCCTCCTCAAATCGGCCATAATAACCTCATGGTTTTTATGGCTTTTTTCTTAAGGTTTT -TTCCTTCGCTGAATATCTAATTATTACCGTCAGAAATTAAACTGTCGCCGATATGAGACACTTGTAAGTT -ACTAAAAGTAAATAAGAAAATGCCTCTTGTCTCGTTTCAGTTTTAGGCGTACATTAGCGCCGTCTCGAGC -AGTTTAGCTCAGAATTCTGGGGTGATGCCCACGGTAAAATACAGGGCTTTTAAGGTCGCTTTGCCCGGTG -TCAACTCACTGTATCAGGTGTAATGAAGTCATTCAGGCGTAACAGTAATTACGCGGAGAGATGTAAAGTG -AAATATTTCTTTATGGGCATTTCTTTTATGGTCATCGTTTGGGCCGGTACTTTTGCCCTGATGATCTAAA -AGCAAACTGTGCAATGAAAAACAGGAGCCATCAGGCTCCTGTTTGCATTTCTGACGACGGTGTTTATTCC -GCGTTTTCGTGAATATGTTTGCTGCTGGCGGGTAGTAAACCGTCGGCACGGAACATCGCTTTAATCCCTC -TGATGGCCTGACGAATACGGTCGCGGTTTTCAATCAGTGCAAAGCGAACATGCGTATCACCATAGTCGCC -AAAGCCAATCCCCGGCGAGACACAAACCTTCGCTTCGTTAAGGAGCTTCTTGGCAAATTCCAGCGATCCC -ATGGCCGCATATGGTTCCGGGATTTTCGCCCAGACATACATCGAAGCCTTCGGCATTTCAACCATCCAGC -CCGCTTCATGCAGCCCTTTAACCAATACATCACGGCGGCGTTTGTACTGTTCGGCAATGTCGCGCACGCA -CTGTTGATCGCCCTCCAGCGCCGCAATCGCCGCCACCTGCAACGGCGTAAAGGTGCCGTAATCGTGATAG -CTTTTAATACGAGCCAGGGCGCTGACCAGCGTTTTGTTGCCAACCATAAAGCCGATACGCCAGCCCGCCA -TGTTGTAGCTTTTCGACAGCGTAAAGAACTCGACTGCCACATCGCGTGCACCCGGTACCTGCATAATTGA -CGGCGCTTTCCAGCCATCGTAGACGATATCGGCATAGGCCAGGTCATGGACCACCAGCACATCGTAGCGT -TTCGCCAGCGCCACTACTTTTTCGAAGAACTCCAGTTCCACGCATTGCGCGGTTGGGTTTGACGGGAAGC -CGAGGATCATCATCTTCGGTTTCGGATAACTTTCACGAATGGCTCGCTCCAGTTCGTTGAAGAAATCGAC -ACCTTCCACCAGCGGCACTGAGCGTACCTGCGCCCCGGCAATCACCGCGCCATAAATATGGATCGGGTAA -CTTGGATTCGGCACCAGCACCGTGTCACCATGATCCAGCGTCGCCAGCATCAGATGCGCCAGGCCCTCTT -TCGAACCAATAGTGACGATGGCTTCTGATTCCGGGTCGATTTCAACGTCGTAGCGATCCTGATACCAGCG -GGAAATGGCGCGACGTAACCGCGGAATGCCGCGTGAAGTGGAGTAACCATGCGTGTCCGGGCGCTGGGCC -ACAGTACATAATTTTTCGACGATATGCGGCGGAGTCGCACCGTCCGGGTTACCCATGCTGAAATCGATAA -TATCTTCGCCGCGCCGACGCGCAGCCATTTTCAGTTCAGCGGTGATGTTAAAAACGTAGGGCGGGAGACG -ATCAATGCGCGTAAAGCGACGTTCAGGGCGAGTGTCAGCCATAATTTCCTCAGATTAACGTTAGCGCCCG -GACCGTCCGAGCGACGCTGCCACGATGGTGGCTGTTTTGAAAATAGCCTGATTAATTTCTGTCTGTCCAG -CGTTTTAGAACATTTTATTAATGACGTTAAATGAGGAACTCTGCTTTAAAAACAGGAAATTTATCTGCGC -TAACAAGAAAATTACCACTCATTTTATTAACATAATAATTTCAATAAATTTACTAACCAGAAGTGCATTA -TCAAGAGATGCATTGCTAATACACCATTTATCTATCAATCCCCTTTTAAAATTGTGGTTTTTCCTCAAAA -ACGGCCTGCTGGTCATCAGCCTTCAGGTTACCTATCATAGAGGTTTAATCCTTATTCAGAGTCACCCGTG -CACGAAATATTCAACATGCTGCTGGCGGTCTTCGATCGGGCAGCGTTAATGCTTATCTGCCTGTTCTTTC -TCATCCGTATCCGCCTGTTTCGCGAACTGTTGCACAAGTCGGCGCACTCCCCAAAAGAATTGCTCGCCGT -TACCGCCATTTTCTCGCTGTTCGCCCTGTTCAGCACCTGGTCCGGCGTTCCCGTAGAAGGCTCGCTGGTG -AACGTACGTATTATCGCGGTGATGTCCGGCGGGATTCTGTTTGGCCCGTGGGTAGGCATCATTACCGGCG -TGATTGCGGGTATTCACCGGTATTTAATTGATATCGGCGGCGTGACGGCGATCCCCTGCTTTATCACCAG -CATTCTGGCGGGTTGTATATCGGGCTGGATCAACCTGAAAATCCCCAAAGCACAGCGCTGGCGCGTCGGT -ATTCTCGGCGGCATGTTGTGTGAGACGTTGACCATGATTCTGGTAATTGTCTGGGCACCAACTACCGCGT -TGGGGATCGATATCGTCTCTAAAATCGGCATTCCAATGATCCTCGGTAGCGTCTGTATCGGCTTTATTGT -GCTTCTGGTGCAAAGCGTTGAGGGCGAAAAAGAGGCCAGCGCCGCGCGGCAGGCCAAGCTGGCGCTGGAT -ATCGCCAACAAAACGCTACCGCTGTTTCGCCATGTCAATAGCGAGTCATTACGCAAGGTCTGCGAAATTA -TCCGCGATGACATTCACGCCGATGCGGTGGCGATTACTAATACCGATCATGTGCTGGCCTATGTTGGCGT -GGGTGAACATAACTATCAGAATGGCGATGACTTCATTAGCCCGACTACCCGTCAGGCGATGAATTACGGA -AAAATCATCATTAAAAACAATGATGAAGCCCACCGCACACCAGAGATTCATTCCATGCTGGTGATCCCAT -TGTGGGAGAAAGGGGTCGTGACCGGAACGCTGAAAATTTACTACTGCCACGCGCATCAGATCACCTCGTC -ATTACAGGAAATGGCGGTCGGTCTGTCGCAAATCATCTCCACGCAACTGGAGGTTTCACGCGCCGAGCAG -CTACGTGAAATGGCAAATAAGGCAGAGCTTCGCGCCCTGCAAAGCAAAATTAATCCCCATTTTCTGTTTA -ACGCTCTGAACGCTATTTCATCGTCAATCCGTCTGAATCCGGATACCGCTCGCCAGTTGATCTTTAATCT -GTCGCGTTATCTGCGCTATAACATTGAATTAAAAGACGATGAGCAAATCGATATCAAAAAAGAGCTGTAT -CAAATTAAAGACTATATTGCCATTGAGCAGGCCCGCTTTGGTGACAAGCTGACGGTTATCTATGATATTG -ATGAAGAGGTGAATTGCTGCATTCCCAGCCTGCTGATCCAGCCGTTGGTGGAGAACGCCATTGTCCACGG -TATTCAGCCTTGCAAAGGTAAAGGCGTTGTCACCATCAGCGTTGCAGAGTGCGGAAATCGGGTACGCATT -GCGGTGCGAGATACCGGGCACGGCATCGATCCAAAGGTGATTGAGCGGGTCGAAGCGAATGAAATGCCGG -GCAATAAAATTGGCCTGCTGAATGTCCATCATCGCGTGAAGTTATTGTATGGCGAGGGGCTGCATATCCG -CCGCCTGGAGCCGGGGACGGAAATTGCGTTTTACATTCCTAACCAACGCACCCCAGTCGCCTCACAGGCT -ACGTTATTGCTTTGAGCCGGAGTGATATTGTGAAAGTCATCATTGTTGAAGACGAATTCCTGGCACAACA -GGAACTGAGCTGGCTAATTAAAGAGCACAGCCAGATGGAGATTGTCGGCACCTTTGACGACGGTCTGGAC -GTGTTGAAGTTTTTGCAGCATAACCGCGTCGACGCCATTTTTCTGGATATCAATATTCCGTCGCTGGATG -GCGTGTTGCTGGCGCAAAACATCAGCCAGTTCGCCCATAAACCGTTTATTGTGTTCATCACCGCGTGGAA -AGAACATGCGGTAGAAGCGTTTGAACTGGAGGCGTTTGACTACATTCTCAAACCGTATCAGGAGTCACGT -ATTACCGGGATGCTGCAAAAACTGGAAGCGGCCTGGCAACAACAGCAGACCAGCAGTACGCCTGCCGCGA -CGGTAACGCGTGAGAATGACACCATTAATCTGGTGAAAGATGAGCGAATAATCGTCACGCCAATTAACGA -TATCTATTACGCCGAAGCGCACGAGAAAATGACCTTTGTCTATACGCGGCGTGAATCCTACGTAATGCCG -ATGAACATTACCGAATTTTGCAGCAAACTGCCGCCGTCGCATTTTTTCCGCTGCCATCGCTCATTTTGTG -TCAATCTGAACAAAATACGCGAAATCGAACCGTGGTTTAATAACACCTACATTCTGCGACTGAAAGATCT -GGATTTTGAAGTGCCGGTCAGCCGCAGCAAAGTGAAAGAATTTCGCCAGTTAATGCATCTTTAATCGGGA -ACTTTCATGAAAGCACCAGGCTTGCCCGCCGATCAACAATTTTTCGCCGATCTGTTCAGCGGCCTGGTGC -TTAACCCGCAACTACTGGGGCGCGTCTGGTTTGCCAGCCAGCCTGCCTCGTTGCCGGTGGGCAGTTTATG -TATTGATTTTCCCCGTCTGGATATCGTGCTGCGCGGCGAATACGGCAATCTGCTGGAAGCAAAGCAGCAA -CGTTTGGTGGAAGGAGAAATGCTGTTTATTCCGGCGCGCGCGGCTAATTTACCGGTCAACAACAAACCGG -TGATGCTGTTAAGCCTGGTGTTCGCTCCGACCTGGCTTGGGTTATCGTTTTACGATAGCCGCACCACGTC -GTTGTTGCATCCTGCTCGCCAGATCCAGCTTCCCAGCCTGCAACGCGGTGAAGGTGAAGCGATGCTTACC -GCCCTCACCCATCTTAGCCGTTCGCCGCTGGAGCAAAATATCATTCAGCCGCTGGTGTTAAGTTTGCTGC -ATCTTTGCCGTAGCGTGGTGAATATGCCGCCGGGCAATTCGCAGCCGCGCGGCGATTTTCTCTATCACAG -CATTTGTAACTGGGTTCAGGATAATTATGCCCAGCCGCTCACCCGCGAGAGCGTGGCGCAGTTTTTTAAT -ATCACGCCCAATCATCTGTCAAAACTGTTTGCTCAGCATGGAACGATGCGTTTTATCGAGTATGTGCGTT -GGGTGCGAATGGCGAAGGCGAGGATGATTTTGCAGAAATATCATCTGTCAATTCATGAAGTGGCACAGCG -TTGCGGTTTTCCGGATAGCGACTATTTTTGTCGCGTTTTCCGGCGTCAGTTTGGTCTGACGCCGGGAGAG -TACAGCGCCCGTTTTCAGGGCTAACGTCAGAAGGTTAATTCTGTTTCCAGCAGCGTCAGGATACTTTGTG -CATCTTGCGCGGCAAACAACGACTGGCGGAAGTTTTTATTCACCAGTTTACGCGCCAGCTGCGAGAAGAC -TTTCACATGATTCATCCCTTCGTTAGCACCCAGCGTCAGCATGATCACCAGTTCGACTTCGCCCATTTCT -GACTGCCAGCCAATCGGTTTCGCCAGCCGGGCAATGCTGATACTGGAATGACGGATCCACTGAGATTTGG -TGTGCGGGATCGCTACGCCAAAACCAACGCCGGTGGTAACAATCTCTTCCCGCTGCCAGACATCTTCTTC -CAGCTCAAACGGATGTTCAGTGCGCCCGTTAACGCCGAGGTTGCCGCACAGGAACTGGATCGCCTGCTCT -TTATTGCTAAAATCCTGATCAACAAAGATATTCTCCAGCGCCAGCAGTGGGCGAACGTCTTCTTCCGGCG -TAAAGGCGGTGAGTAACGCTTCAATTTCCTGCGCACTGCGGCATTCACATGCCTGACGCGCCAGTTCCCG -ACACGCCTCGCTATCCAGTTGACGAAGCTGGCTTTTCACCGCCGGAATACGCGGGCTACTCATACTCAGC -TCATCCAGGCCCAGCCCAAGCAGTAGCGGCAGATAACGGCTTTCACCGCCCAGTTCACCGCAAATGCCTA -CCCATTTGCCCCGCTGATGCGCAGTGGTAACTATTTGCTGCAACATGCGCAGGAACGATGGCGTAATCGG -GTTATATAGCGGCGATACGCGCGGGTTATTACGATCGACCGCATACAGATACTGGGTCATATCGTTGGAG -CCGATACTGAAGAAATCGACCTCATCGCAGAAGTGGTCGATGATGTAGCACACCGACGGAACTTCCACCA -TGATCCCAAGCGTAATCGTCTCTGCATGACGCAGGCCATCGCGCTTAAGCTCAACGATCGCTTTTTGGAT -CTCGCCTTTCACCCATAAGATCTGATCGAGGCTGTGAACCATCGGGATCATCAACTGGGCGTTGCCGAAA -CTGGCGGCGCGCAAAATGGCCCGCAGTTGAGTGCGGAACAGGCCAGCAAATTCCGGGTAAATACGTACCG -CGCGATAGCCGAGGAACGGGTTCTCTTCCTGGGGAATATTCAGATAAGGAATGCTTTTATCGCCGCCGAT -GTCCATCGTGCGGAAGATAATCGGCTTGTCGCCCGCCGCCAGTAGCACCTGCTGGTAGGCTTCAAATTGC -TCCTGCTCGTCCGGCGCGCTGTCGCGATCCATATAGAGCATTTCGGTACGGAACAGCCCGACACCTTCCG -CGCCGTTGGCAAACGCGCCTGGCGCTTCCAGAGCGGTGCCGATATTCGCCGCAATATCAATACGCTTGTT -ATCACGGGAATAGGCCAGCTGCGCGGCAGCCTGCGCCTGTTGTTTTTGGCGTTTATCCGCCAGCGTCTGC -GCGACCTGATAATAACCGCTCACCGCGTCATTCGGGTTAATCGCCAGCACGCCGCACTGGGCGTCAAGCA -CTGCAGGTTGCCCGGCATAACGGGCAATCGCATCCAGCGGCAAGCCACTCAGTACCGGGATCGCCGAGGC -ACGGGCCAGAATCAGTGTATGCGAGGTGCGCCCGGTTTTCTCCAGAATCATGCCCGCAAGATTTTTCAAA -TCAAGGCTCAAAAACTGGCTTGGGGTTAAATCTTCAGCCACCAGAATGGTCGGTTTTTCAAGCACCAGCT -TGTTGCGCGGCTTCAGTTCCGGCCAGGTGATATGCAGCAACTGTTCGCTGATATCGCGAATGTCGCTAAC -ACGTTCGCGCAGATAATCGCTGGCAGAGGCAGAAAGTTTGGCGCAAACCTGCTCCATATTGCTGATGATC -GCCGCCCCCAGCCCCTGATGCTGTTCTGTCATCAGGCGACGGATATTGCCTGCAAATTCATCATCCTGAA -TCAGCGACAAATGGGCGCTGAGGATAGTTTTGCTTTCGCCGTCACGCTCACGCAATTGCTGGTTCAGTTG -CTCGGCAAGCGTTGCCAGGCTGTGCTCCAGCCGGGTGGAATCTTGCGCACTGGCGGGGATTGCCCGATAA -CTGTCGAGGCTGTCGCTTTGTAACAGGGTCAGCGTACCCACGCCGACGCCGCTTGCCAGCACATTGCCGT -ACAGTAAATCCGGGTTAAGGCGGCTTAATGAACGCGGCAGCGGATGCGCCGTCAGTTCTGCCTGCGTAGG -CTGAACGCTGTCGCTGTCGATAAAGCGCACCTGGATGTACTCTTCCAGCACGCGCCGCGCCTGCTCTTCA -TCGCTGCCGCTAATGTTCAGGCTGCAACTGTCATTAAATAGGGTGCCGGTGCCAATCAGCGCCAGCGAGC -TTTTCGCATCTGCCTTTGCGTTCTGGCGATGGTTAATAAAAGTGATTTCGCTTTGCCACTGGCTGCACTG -TTCTTTAAGTTCCCACGCCGGACGAGCATGTAGACCGTTAGGCAAAGGACAGAGAAATTGAATCGTTAAC -ATAACCGCTCCGGGTTAATCAGGAGATCATCTGAAATCCGTCAGTTGAACAACCGTCTCACGCGTAAGAC -GTTGAATAAGGGCAGATAAAAGTTGCTGCATCTGCAAAATGTCGCGGCAATCGGCAATCGATGCGGCGCA -ATGTCCATGGCGGGTTGCTGGCCCCATCACCACTGTGGGCACGCCGGTGCCGGTTAAGTGCACCGCCCCG -CCGTCCGTGCCGCCGTTGCTGAACATATCTGCCTGCAACGGCACGCCAATTTCTGCCGCCACGGTTTCGA -CCCAGGCGGTAAGTTTTGGCGGCGCAATCAGCGACTTGTCGCTTAACACCAGCATCGGCCCGTTACCAAT -CTGGCGATGGTTAGCCGCGCCATAATCAAAGTTTTTCGCCCAGCAGGCGGTATCAAGCACAATGGCGACG -TCCGGCGACACCGCGCGGGTGGCAGTTTGCCCGCCGCGTAATCCCACCTCTTCGCTGGAACTTGCCACCA -GCCACACTTCCGCAGGTAGTTCGGCGTCGTGCAGTTCGCGCAGTAACGTCACCAGCAGATAGCAACCGAG -GCGGTCATCAAAGGCTTTCCCCATCACTCGCTGGTGAGGGAGAACCTGAAAAGTGGTATCAAACGTGACG -CGATCGCCGGGACGAATTCCCGCCTGCATCACTTCGTCATAGGAGCGCGCACCAATGTCCACGCGCATGG -CGCTGACGTCATTCCCCTGCCGGTCGCCGTCAAGCAGGCCTGGAATTTTGCACTCTTCACGGGTGGTGAT -GCGCACCGGCTGCAGCTGGCGGGCAGCCATGCGTACGTTGCCAACCGGCAGCACATCAATCGCCCCTTCG -CGGGAGATGCTGCGCACCATAAATCCCACTTCGTCCATATGCGCACAGATCATCACCTTCGGACCTGTCG -ATTCATTCAGGCGGATCAGCACCGATCCCAGACCATCAAATCGCACTTCTTTTTGCAGGCGATCCGCTTC -TTCCAGCAGGATCTGCCGCACTTCCTGTTCCGAGGAGGCGATCGCATCTGCCTCGCTCAACGCTTTTAAT -AGCGATAAATCCATTATGCCTCTCCCGTGAGCAACACTGTTTTCGGCATGGCGTAGAGCACTTCTGCGCC -TTGCGGGGTAACCAGCACAACATCTTCGATGCGCACGCCCCCTTGCCCTGGCAAATAAATCCCCGGCTCC -ACGGTCAGTAACATGCCTGGCTGTAGCGTCGTGGTGTCCCGCGGTGAAAAACGCGGATCTTCATGAACTT -CAATGCCGATAGCGTGACCGGTGTTATGACCGAAATAGTCGCCATAACCTGCTTCTGTAATGACCCGGCG -CGCGGCATCGTCAACCTGCTGGCAGCGCACGCCGGGGCGAATCGCGGAGATTGCTGCGAGCTGTGCCTGC -AGGACAATTTGATAGACGTTAAACAGCAGGTGAGATTCGGCGCTCACCCCTTCGCCATTCACCAGCAAGG -TGCGCGTCATATCAGAGCAGTAGCCCTGATACAGCGCACCGAAATCGAGAGTGACAAACTCGCCCGCTGC -AACAATCTTGTCGCTGGCTTTGCCGTGCGGCAGCGCCCCACGCCAGCCACTGGCGACAATGGTGTCAAAA -GAGGCTTTTTCTGCGCCCTGCTGGCGCATAAACCACTCCAGTTCAGCGGCTATCTCGCGCTCGCTCATCC -CCGCCTGAATAAAGCGGCGAATATGCTCTGCACCGCGATCAGCAATCCCACAGGCGAGGCGGATTTTCTC -CACCTCCTCTGGCGTTTTGATTTGCCGCAGCACATCCGGCGTGGCGCTAACCAGTTTCGCATTGAGTTCA -GACTGCCAGCGGTGCGCGGTTTCCCAACTCACCTGCTGGCCCTCAAAACCGAGCGTTTGCAACTGTTCAT -CGGCAATGATTTGATTGACGATAGTGGTAAGCGTGTTCGTCGCGTCAAGCAAATGCAGCTGGTAGCCTTG -CGCACGGGCTTCCACCTCAACGTAATAGCGCGAATCCACCAGAATGTGCGCACTTTCACGGCTAATCACC -ACATAACCTGATCCGGTGGAGATCCCCAGATGCGGCTGTTTGTTCTGCCGTGAGGAGAGAAGCACTGCAT -CCAGTTGTTGCGCCTTAAGCCAGTCGCGCAGCGAAGCGAGTAATGTCATCTGGATTTTCCTTCTTACAGG -CTATCGATTAACAATTTGCCTTTACGGAACATCATCAGACGCAGGAACACCACCATCAGCGCAGTTATGA -CTGCCCCCAGCGCGATCCCCGCCATATAGACGCCCAGGTTAGTGACCAGCGGCCATGCCCAGATAGCGGA -CTCCGGGAACCATTGCACTGCGCCCAGCCAGACAGCGGCGGTTGAGCCGACAATAGCGCCGACCATATAC -GACGGAATGGCGGTGATGGGGCTTTCCAGCGCAAACGGAATCGCACCCTCACTGATCCCCATAAACGCCA -GGAACATGGCGGTCTTACCCTGCGGATAAAGTTGAGCGTTGAACAGGCGTTTGCCGGTTAAACGACGGTC -GATAATGGTCGCCAGCCCCAGACCAATCGGCGGAATAACGATAGCGATAGAACGAGCGGTGACCGGTAAT -ACGTGGTCAGTGGTAAAGCTGAAGGCAACAAAACCTGCGGCTTTGTTGATCGGGCCACCAAGGTCGATTG -CTGTCGCCGCGGCGATCCCCATTGCGTACATCAGCGCGCCCTTCTCACCTGCGGCAGTCAGCACAGTACG -GATACCGCCGTTGATCCAGCCACCAAAGGGGGTGATGACGTAGTACATCGCCAGCATGACAAAAATGGCG -GAAAGAATCGGGAGCAAAAATGTGGTTTTGAACGCTAACAGGAAATCCGGTAACTGGATTTTCTGGTTCA -TCCACTTCACAAGGTAACCGGCAACGATAGAAATAATCAGCGCACCAATGAAGGTGGACGGCACCGGCGA -AGAGGTCGCCCATTGCATAGTGCTGGGATCGAAGTTCAGCAGTTGCGTCGGCTGGGTAGACATCAACCCG -CCGATAAAACCAGCCGGGAACGCCAGTTTGCCACCGATAGAGTTCGCCACAAAAGCAGCAAACATCGGAA -TGGCAAAACCAAACAACACGCCGCCGAAGGACTGCGACAGCCAGGCAAATTTAAGTAAGGAGAGGTCGAA -ACCGGAGAATTTCCCGCTATTAAGAGCATCCATGATGCCGATCTCAGCAGGAATTTTAAGCCAGCTATAA -GCAATCAGCTGGCTGAAAGCGAGGATCACACCGCCCATAATTAAGGTCGGCACCATGCGTGAAATCCCTG -ACATCACATGCTGCGGGAGTTCACCCCAGAAGCTGGTTTTAGAGGCCTGCGGATTCTTAACTGCCGCTGC -CGCACCGGATGCGCCAGGCACAACGGTTGCACTGCGTTTTTTAATGGCCATAACAATTATCCCTGTCGAA -TATTACTGTTGTTCAGAGGCAATCATCTCTTCGATTTCTTTGATGATGCCCGCAGCGTTTTTAATTGCGT -CCTGCAAAGTGATTTCATAAACGTCGCGTGATTCGAAACGTTCGTTATCTTCCGGGGTAACTGCCACGGA -GTGGATGATGATGGTCGCTTCGGCGATATCCTGCGCCGTCAGGCGATTCTGGATACCGTCCGCGCCCTGG -GTTTCAATTTTCACTTCATAACCGGCTTCTACCGCCGCTTCTTCCAGCGCCTGAGCGGCCATAAAGGTGT -GAGCCAGGCCCATCGGGCAGGCACATAAGGCAATCAGTTTCTTACTCATCGTTAATTCCTCGTTCAGTGA -TAGTTGACGAGTGAAATTATGAACGTGCAAAACAAATCGCCGTTACCAGACAAATAATGCATTTACTGGA -GAATTAATCCCGCTGTACGGAAGTGTGACGCAGGTCGACCTTGTGAGGGGACACAAAGAAAAATTGAATA -AACTGTATGATTTAAAAGATTATCGGGAGAGTTACCTCCCGATATAAAAGGAAGGATTTACAGAATGTGA -CCTAAGGTCTGGCGTAAATGTGCACCGGAACCGAGAAGGCCCGGATTGTCATGGACGATGAGATACACCG -GAATATCATGGACATATTCTTTAAAGCGCCCTTTATCTTCAAATGCGGCACGGAAACCGGAGGCTTTGAA -GAACTCAAGGAAGCGCGGCACGATACCGCCCGCAATAAACACGCCGCCAAATGTCCCGAGATTGAGCGCC -AGATTGCCGCCAAAACGGCCCATAATGACGCAAAACAGCGACAATGCGCGGCGGCAATCGGTGCAGCTGT -CAGCCAGCGCGCGTTCGGTAATATCTTTTGGCTTGAGATTTTCTGGCAGGCGGTTGTCAGCTTTCACAAT -TGCGCGATACAAATTCACCAGCCCAGGGCCAGAAAGCACGCGCTCCGCCGAAACATGACCAATTTCCGCA -CGCAATATTTCGAGGATAATGGCCTCTTCTTCACTATTCGGCGCAAAATCAACGTGACCGCCTTCGCCTG -GCAAGCTTACCCAACGCTTATCGACATGGACCAGATGCGCAACCCCAAGCCCCGTTCCGGCACCGTAAAC -CGCAATAGGCTTACCTTCGACCGGTTCTGCGCCACCAAACTGAATCAGATGCTCTTTTTTCAGCATCGGG -ATCGCCATCGATACAGCGGTAAAATCGTTAATAATTTCCAGATGGCTAAAACCGAGATTCTTTTTCATTT -CGGCAATTGAGAACGCCCAGGTATGGTTGGTCATCGCCACCCAGTCACCGGTAATTGGGCAAGCGATGGC -AATACAGCCGTCTTTCACCTCGACCTTATGTTCTTCAAGATAAACGCGAATGACCGCTTCGAGGCTGGGG -TAATCAAGCCCTGAATAGGTCTTAGCCTGCGAGATTTCACCACTGGCAATATCACACAGAGCAAGACGTG -CGTTGGTGCCGCCCACATCACCGACTAATGCATACTTTGTCATTCTTCAACTGCTCCGCTAAAGTCAAAA -TAATTCTTTCTCACACTGTAAATACCTGGGGGCATAACAACAACGCCGGAAAGGCAGGCTCCCTGTAAAT -ATCGATCTGGGTCACACAATTACTTTATCGTTTCAGCACCAATTGCAGCGATGCCTTTTTGCAAGCTGGG -CAAACTAAGTATCTGACCCCGCATAAGGAATAGAACATGCTCCATCCGCGAGCCAGAACCATGTTGTTAT -TATCGCTCCCCGCCGTGGCAATTGGGATTGCGTCCAGTCTTATTCTGATTGTGGTGATGAAAATCGCCTC -GGTATTACAGAATTTGCTCTGGCAACGACTGCCGGGAACTCTGGGGATAGCCCAGGATTCACCCCTCTGG -ATCATCGGTGTATTAACGCTAACGGGTATTGCGGTGGGGTTGGTTATCCGTTTCAGCCAGGGTCATGCCG -GACCAGACCCCGCCTGTGAACCGCTGATCGGCGCACCGGTTCCGCCCTCTGCGCTACCTGGACTTATCGT -AGCATTAATTCTCGGTCTTGCTGGCGGCGTCAGCCTGGGGCCGGAACATCCGATCATGACCGTCAATATC -GCCCTTGCGGTTGCCATTGGCGCTCGTCTGTTACCGCGCGTCAACCGAATGGAGTGGACTATTTTAGCCT -CTGCCGGAACCATCGGCGCACTGTTTGGCACTCCTGTTGCGGCGGCGTTGATATTTTCGCAAACCTTAAA -TGGCAGTAGTGAAGTTCCGCTATGGGATCGTCTCTTTGCGCCGTTAATGGCGGCAGCAGCTGGTGCACTT -ACTACCGGATTATTTTTCCATCCTCATTTTTCACTGCCCATTGCTCATTACGGACAGATGGAAATGACCG -ATATTCTCAGCGGTGCAATTGTCGCGGCGATTGCCATCGCAGCAGGGATGGTCGCCGTATGGTGCTTACC -ACGGTTGCACGCGATGATGCATCAAATGAAAAATCCGGTGCTCGTGCTGGGTATTGGCGGATTTATTCTC -GGTATTCTGGGGGTTATTGGTGGACCAGTTTCGCTGTTTAAAGGGCTGGATGAGATGCAGCAGATGGTGG -CAAATCAGGCTTTCAGCACCAGCGATTACTTTTTGCTGGCGGTAATTAAACTTGCCGCCCTGGTCGTTGC -TGCCGCCAGTGGCTTTCGCGGTGGGCGAATCTTCCCGGCAGTGTTTGTCGGCGTGGCATTAGGGTTGATG -CTGCATGAGCACGTTCCCGCCGTACCAGCGGCAATAACCGTTTCTTGCGCTATTCTCGGCATCGTGCTGG -TGGTAACACGCGATGGCTGGTTAAGTCTTTTTATGGCGGCAGTCGTTGTACCCAATACCACATTGCTACC -GCTGCTCTGTATCGTCATGCTTCCGGCATGGCTGTTATTAGCAGGTAAGCCGATGATGATGGTCAATCGT -CCGAAGCAACAGCCACCCCACGATAACGTTTAGCAAAAAATGCTCTCCTTTATGATTTAAGAGTTATGGC -GATGATACGGGGCTTTACCTCCCCGTAATATTGCGTTAACAGGCCGCTGACGGCTTCGAGCGTGAAGGAG -AATAACAATGTTCAGGTCACTGTTTCTGGCGGCCGCCCTGATGGCATTTACCCCGCTTGCAGCAAACGCA -GGTGAAATCACCCTACTGCCATCAATCAAATTACAAATTGGCGATCGCGATCATTACGGTAATTACTGGG -ACGGTGGTCACTGGCGCGACCGTGACTACTGGCATCGCAATTATGAGTGGCGCAAAAACCGTTGGTGGCG -TCATGATAATGGCTACCACCGTGGCTGGGATAAGCGTAAAGCGTATGAGCGTGGCTATCGTGAAGGCTGG -CGCGATCGTGACGATCATCGCGGAAAAGGCCGGGGTCATGGGCACCGCCATTAAACGCGTCCGCCAATGG -AGCACAATGCCTGATGCGACGCTAGTGCGTCTTATCAGGCCTACAAACCGGCTCTTTAACGCGTAGGGCG -GATAAGGCGTTTACGCCGCATCCGCCAATAGTGCCAGATGCGACGCTCATTCAACTACAATCCCAGCGCC -GTCCCCACCAACAACCAGATATTCAGCGCCACGACCAGCACCACAATCACCCAGCCTGTCTGTTTTACGC -GTTTGCTGTTCACCAGATCGCCCATCAACTTGCTGTCACTGGTGAAAATCAGCAGTGGAACCAGCGCCAG -AGCGATACCAAAACTTAACAGTACCTGACTCATAACCAGAATCCGTGTCGGATCTAATCCCATCAGAATG -ACAATAAATGACGGCAACATGGTGACTGTACGACGCACCCACAGCGGGATATGAAAGCGAATGAAGCCCT -GCATCACCACCTGCCCCGCCAGTGTCCCCACCACCGTTGAAGACAGCCCCGCAGCAACCAGGCTTAATCC -AAAGACCGTTGCCGCAGCGTGGCTTAACAGCGGTTGCAGCGTCAGATAAGCCTCATCAAGATCGGCAACA -CCAGTATGACCGGAAAAGTGGAACGCCGCCGCAGCTGTAGCCATCATCGCCAGATTGACAAAACCGGCAA -TAGTCATGGCGATAGCCACATCCCATTTGGTGGCGGAATAACGTTGTTGACGCGAACCGCCATGTAAATG -CTGAGTGAGCGAGGAGTGCAAATAAATCACATGCGGCATAATCGTCGCCCCTAACACGCCTGCTGCCAGG -AAGACCGCTTCCGAAGTAGGTAAACTCGGGATCACCATTCCTTTACCCAGCTGCGCCAGGTTAGGCTGGG -AGAAAATCAACTCGACAATGTAAGCCGCGGCAACAAACAACAGTAACCCGCCAATCACTTTCTCCAGCGG -TTTTTGCCCGCGACGTTGCAGCATTAAAATCAGGAAAGTCGCGATCCCCGTCAGCACCGCGCCCTGCAAC -AACGAAACACCAAGAATGAGTTTAAAACCGATCGCCGCACCAATAAATTCCGCCAGGTCGGTTGCCATCG -CAATAATTTCTGCCTGAACCCAATAGAACCACACTACGGGACGCGGATAGTGATCGCGAATCTGCTCCGC -CAGATTTTTACCGGTGGCAATCCCTAGTTTGGCAGAGAGGATCTGAATCAGCATCGCCATCAGGTTGGCC -CAAACGACAACCCACAGTAGCTGATAGCCGAAGCTAGCACCCGCCTGAATATTGGTCGCAAAGTTACCGG -GATCGATATAACCAATCGCCGCAATGAACGCAGGTCCCATTAATGCGAGCCTCATCTTGCGCGCCGCCCG -TCCGCTGCTACTCTCAACGCGATAGTTCGTCATCTTGTGCCTCTAAAACATAGCCTTTGCTATGTTTCAT -GCTATGCCAAACGAGAATGATTATCAAATTCATTTAAATGGATTGTGGTGATTTCTCTGATAGACCAGGA -TTATGACTACGAAAAGATTGATGACTTGAATGTTATGGTTATGTTTAATGTTAGCACATTTACATAACTT -TCAGCTTCCATACACAACATAGCAGAAATGTATGACAGATCACTATTTTTGAAGCCTGTCACAGGACGTC -ATTATAGTGTGTGTCAGATCTCGTTTTCCTTAACCATGTTACATAGAATGTGCACGGAAATTTAACCTGC -CTCATATTTGGAGCAAATATGGACCGCGTCCTTCATTTTGTACTGGCACTTGCCGTTGTTGCGATTCTCG -CACTGCTGGTAAGCAGCGACCGCAAAAAAATTCGTATCCGTTATGTTATTCAACTGCTTGTTATCGAAGT -GTTACTGGCGTGGTTCTTCCTGAACTCCGACGTTGGTTTAGGCTTCGTGAAAGGCTTCTCCGAAATGTTC -GAAAAACTGCTCGGATTTGCCAACGAAGGGACTAACTTCGTCTTTGGTAGCATGAATGATCAAGGCCTGG -CATTCTTCTTCCTGAAAGTGCTGTGCCCAATCGTCTTTATCTCTGCACTGATCGGTATTCTCCAGCACAT -TCGCGTGTTGCCGGTGATCATCCGCGCAATTGGTTTCCTGCTCTCCAAAGTCAACGGCATGGGCAAACTG -GAATCCTTTAACGCCGTCAGCTCCCTGATTCTGGGTCAGTCTGAAAACTTTATTGCCTATAAAGATATCC -TCGGCAAAATCTCCCGTAATCGTATGTACACCATGGCTGCCACGGCAATGTCCACCGTGTCGATGTCCAT -CGTTGGTGCATACATGACCATGCTGGAACCGAAATACGTCGTTGCTGCGCTGGTACTGAACATGTTCAGC -ACCTTTATCGTGCTGTCGCTGATCAATCCTTACCGTGTTGATGCCAGTGAAGAAAACATCCAGATGTCCA -ACCTGCACGAAGGTCAGAGCTTCTTCGAAATGCTGGGTGAATACATTCTGGCAGGTTTCAAAGTTGCCAT -TATCGTTGCCGCGATGCTGATTGGCTTTATCGCCCTGATCGCCGCGCTGAACGCACTGTTTGCCACCGTT -ACTGGCTGGTTTGGCTACAGCATCTCCTTCCAGGGCATCCTGGGCTACATCTTCTATCCGATTGCATGGG -TGATGGGTGTTCCTTCCAGTGAAGCACTGCAAGTGGGCAGTATCATGGCGACCAAACTGGTTTCCAACGA -GTTCGTTGCGATGATGGATCTGCAGAAAATTGCTTCCACGCTCTCTCCGCGTGCTGAAGGCATCATCTCT -GTGTTCCTGGTTTCCTTCGCTAACTTCTCTTCAATCGGGATTATCGCAGGTGCAGTTAAAGGCCTGAATG -AAGAGCAAGGTAACGTGGTTTCTCGCTTCGGTCTGAAGCTGGTTTACGGCTCTACCCTGGTGAGTGTGCT -GTCTGCGTCAATCGCAGCACTGGTGCTGTAAGACCATACATAAAAAAGCCGGGGATAATTCCCATAAGCG -CTAACTTAAGGGTTGTGGTATTACGCCTGATATGATTTAACGTGCCGATGAATTACTCTCACGATAACTG -GTCAGCAATTCTGGCCCATATTGGTAAGCCCGAAGAACTGGATACTTCGGCACGTAATGCCGGGGCTCTA -ACCCGCCGCCGCGAAATTCGTGATGCTGCAACTCTGCTACGTCTGGGGCTGGCTTACGGCCCCGGGGGGA -TGTCATTACGTGAAGTCACTGCATGGGCTCAGCTCCATGACGTTGCAACATTATCTGACGTGGCTCTCCT -GAAGCGGCTGCGGAATGCCGCCGACTGGTTTGGCATACTTGCCGCACAAACACTTGCTGTACGCGCCGCA -GTTACGGGTTGTACAAGCGGAAAGAGATTGCGTCTTGTCGATGGAACAGCAATCAGTGCGCCCGGGGGCG -GCAGCGCTGAATGGCGACTACATATGGGATATGATCCTCATACCTGTCAGTTCACTGATTTTGAGCTAAC -CGACAGCAGAGACGCTGAACGGCTGGACCGATTTGCGCAAACGGCAGACGAGATACGCATTGCTGACCGG -GGATTCGGTTCGCGTCCCGAATGTATCCGCTCACTTGCTTTTGGAGAAGCTGATTATATCGTCCGGGTTC -ACTGGCGAGGATTGCGCTGGTTAACTGCAGAAGGAATGCGCTTTGACATGATGGGTTTTCTGCGCGGGCT -GGATTGCGGTAAGAACGGTGAAACCACTGTAATGATAGGCAATTCAGGTAATAAAAAAGCCGGAGCTCCC -TTTCCGGCACGTCTCATTGCCGTATCACTTCCTCCCGAAAAAGCATTAATCAGTAAAACCCGACTGCTCA -GCGAGAATCGTCGAAAAGGACGAGTAGTTCAGGCGGAAACGCTGGAAGCAGCGGGCCATGTGCTATTGCT -AACATCATTACCGGAAGATGAATATTCAGCAGAGCAAGTGGCTGATTGTTACCGTCTGCGATGGCAAATT -GAACTGGCTTTTAAGCGGCTCAAAAGTTTGCTGCACCTGGATGCTTTGCGTGCAAAGGAACCTGAACTCG -CGAAAGCGTGGATATTTGCTAATCTACTCGCCGCATTTTTAATTGACGACATAATCCAGCCATCGCTGGA -TTTCCCCCCCAGAAGTGCCGGATCCGAAAAGAAGAACTAACTCGTTGTGGAGAATAACAAAAATGGTCAT -CTGGAGCTTACAGGTGGCCATTCGTGGGACAGTATCCCTGACAGCCTACAAAACGCAATTGAAGAACGCG -AGGCATCGTCTTAACGAGGCACCGAGGCGTCGCATTCTTCAGATGGTTCAACCCTTAAGTTAGCGCTTAT -GGGATAATTCCCCGGTTTTTTTACGCCTGTTAATCAGCTAATGGCTGCGGGCGACCAATCAAATACCCTT -GCAGATATTGCACCCCGAGCTTATGCAATAGCGCCTGCTGCTGTTGCGTCTCGACAAACTCCGCGACCAC -ACTCAATGACTTCGCTTTCGCCAGATCGGTAATTGATCTCACAATCATCGCATCCAGCGTGTTCGTGACA -ATATCTTTCACAAAGACGCCATCAATTTTGATGATATCAGCCTGCAAACGCTTTAACCGTTCGTAGTTGG -CATATCCGGTGCCAAAGTCATCAATCGCAATCCGGAAACCAAACTTATGCAGCTGCTCGATGTTGTACAT -GCTGCTTTCTGCGTTAGAAAACGCCTGCTCCTCGGTGATCTCAAGAATGACCGCCTGCGGGGAGATGTGA -TAACGCTTAAACAGACGAATAATCCGCCCGGCAATATTCTTTTGCAGCAGCGTGAGCGGCATTAAATTGA -CTGAAAAGCGCGGTCCTTTTTTGTCGCAAGGGTGTGTTGCCAGCCACTTCAACAAGGATTCCAGCACTTG -CAAATCAAAACGCGCGCTAAGGTTAAACTGAGCAATAAGGGGCAGAAACTTATCCGGGGTCATAATGCCG -CCGTCATATTTCAGTCGCGCGAGGATCTCATCATAACCTTCACCCTCTTTGTTGCGAATTGGCTGGGCGT -AGAGCAGCAAATCACCCTGATCTAACGCCGTGCGAATGGTATTCAGCAATAGCACCTGTTTAGTGGTCTG -CCCGGAAACCATCTCCTCTCTGCTATCCAGCGCCAGCACATGATGATGTGCGCAGGATTGCTCCGCCAGC -CAGCTTAACTGCCCCAACAAGGGTTGCAGGGTTTCCTGATTTCCATCAAAACGCCCCCAGGCAGCACCAT -AGCCCATATCCAGCCCGGTATTGTTCCAGTGAATTTGCCGACTATTCAGGATGTTAACCATATGCTGGAG -TCGCCCTTCCGTTTCCGGCCCGCTCAGCACTAACAGCAGTTCACTACCCGGCAATTGATACAACTTTTCG -TTTTCCTGCATCAACGGCAGCAGCGTACGGCAAATTGAGCGGATACAGTGAACGCGCATCATTAAGCCGT -AATGACGACTCATAAACTCAAGATTATCAATGCGCAGGCAGCAAAAACTCTTGCCCGCCTCTTGCTCCGG -CGCTTGTTCCAACGCACGAAAGTTGGGTAGGAGCGTTAACGGATCTGTCAGCGCCTGCAAATGCCAGCGG -CGATTAAGCCATTCACTGCGATGATAAATGCGCACCATATAGAGCAGGCAAACGCTAAAGGAAATCAGCA -CCGCAAGAATAAATGCCAGCGAATATTCGGTTTCCACCCCTTGCAAAAAGTTCTGGTTGTAATTCAGAAG -GCAAAGCGTTGAAACAGCCCAGGTGAGATTTAAAAACGGATAGCGAAGCTTACCGACCCCGAGGGTAAAG -ATGATGAAGAAAACGGGTACCAGGTAACCGGCAATAAAGTCGTTTTCATAAGGTGTGCACAACAGAAGTA -GCAGCACGCTTAACGCTGCCAGCCAGCTTAAGGTAAATGCGCGTTTCTCTTTGCCCAACGACGGAGCGAT -ATCCCTGCGCCACAATATCTGCGCAAAGTGGGGACTTACAATCATGCGAGTGAGATAGTAGAAAAGCATG -TTGTAAATCAGCACAGCGGTGAAAAGGCTTAGCAAATCAACGACCGTGAAAATGGCATCCGCATCGCCGA -AAAAGGTGGATATCTTTAGCGGGAAATCAAAGAAGCTCCCCACAAGATACATGCTGCATTTGATGCCGAT -CGGCGTCACCAAACCAAGCCAGAACAGACGTTGCCAGACATATCGGCTGGTCAATCCATAACGCCAACGC -GTCCCCAGCTGCCAGCGTAATATTGCGCAGGCACACAACACGACAAACGTCTGGCTACCGAGCATGACCG -CAGTCTGTAAAAAAGAGAGATGAAAGTTCCACAGATTGGTGCAAAACATCCCGCATAAAACGGGAACGAC -ACCGCGCCAGCCAAAGATAAACAAGATTGACAGCATTACGCACAGTGGCATCCACGCCAGAAAGATATAA -CTGGAATGGATAATGGCAAGTGGCGAAATAAAACGGGATAGCTGAATAAGTACCACGGTGAGCGTAAACG -CTAGTGTGAATATCTTGATATTTTTTATCAGGTTATGCTCCACAAACATGAGTACACTACTCTCACTGAT -CGGGGTTTTCAGGCACACAAATAATAAGTTTATTCGCATCGCGAAGCAAACAGGGGGCCAGCCTGTTGCC -GATTTTTCATCCAATGATGCTTTCACCAGGCGGCACTAACCCGGACGTAGACTGTATTACAAAAGCGGCA -AAAAGCAGAGACAAAAAACCCCCGCTTTGCAGCGAGGGTTGGAAATTTGGTGGAGCTAAGCGGGATCGAA -CCGCTGACCTCTTGCATGCCATGCAAGCGCTCTCCCAGCTGAGCTATAGCCCCACGATGCGTTTACGTAC -CAAGTTTGCTGGGTGCAAAATTTGGTGGAGCTAAGCGGGATCGAACCGCTGACCTCTTGCATGCCATGCA -AGCGCTCTCCCAGCTGAGCTATAGCCCCGTCACGTAAAGCTTGTCGAGTTGACGGGCGGCATCATATGAA -TTCCGCCCGAATGTGTCAACGGCAAATTGCAACGTGTAGTTTCAATCGCTGAAAAATCAGGCAAATGAAC -AATTTTGGAAAACCGCTCGCATTCAGTAGTTATTCATGTCACGGTTTCCTGTAAAGTGGTGTTATAAAAT -GAACTACTAATAGACCCACATACATTCAGGGAATTGTTATGTTCAAGGAGAGGATGACACCAGATGAACT -TGCCAGACTGACCGGCTATAGCCGCCAGACCATTAATAAATGGGTACGCAAGGAAGGCTGGACAACGTCA -CCAAAACCTGGCGTCCAGGGTGGCAAAGCCCGACTGGTTCACGTCAATGAACAGGTTCGTGAATATATTC -GCAATGCTGAACGTCCAGAAGGTCAGGGAGAAGCGCCTGCCCTTTCTGGTGATGCGCCGCTTGAAGTATT -GCTGGTGACACTGGCGAAAGAGATGACGCCAGTTGAACAAAAACAGTTTACATCCTTGCTTCTGCGGGAA -GGGATTATCGGATTGTTACAACGCTTAGGGATTCGCGATAGCAAATAATATGAAAAGATTACGCAATAAA -ATGACCACCGAAGAACTGGCTGAATGCCTCGGTGTGGCTAAACAAACTGTTAACCGTTGGATCAGAGAAA -AAGGCTGGAAAACGGAAAAATTTCCCGGCGTGAAAGGCGGTCGTGCCAGACTTATTCTGGTCGATACGCA -AGTTTGCGAGTTTATTCAGAACACGCCAGCCTTCCATAACACACCAATGTTGATGGAAGCTGAAGAGAGA -ATTGCTGAATACGCTCCTGGAGCACGCGCCCCGGCGTATCGACAAATCATCAACGCGATAGATAATATGA -CAGACATTGAGCAGGAAAAAGTCGCGCAATTTTTGTCACGTGAAGGAATTCGCAATTTCCTCGCCCGTCT -CGATATTGACGAATCAGCATAAATAAAAAACGGCAGGATATTATCTCCTGCCGTTTATCTTTTTACACGC -TAATTACTGCTGATTTTCGCGTTCAGCAATAAAATCCAGCGCTTTGTTGATACGCTCGATACTGCGGGTC -TTACCAATTGCGTGAACGGTAACATCCAGTGCTGGAGACTGCCCCGCACCGGTTACGGCGACACGCAGCG -GCATACCAACTTTACCCATACCCACTTCCAGCTCATCCGCCGTCGCCTGAATAGCGTGATGAACGTTTTC -AGCGGTCCAGTCAGTAATCGCGGCCAGTTTGTCACGAACCACTTCCAGCGGCTGACGCGCTACCGGACGC -AGATGTTTTTTCGCGGCGTCGGCATCGAACTCAGCAAAATCTTCGTAGAAATAACGGCAGCTCTGTGCCA -TCTCTTTCAGCGTCTTGCAGCGTTCGCCCAGCAGTTTCACCAGATCAGCCAGCTGCGGGCCGTTACGGGT -ATCGATATTTTCCTGCTCAATGTGCCACTGTAAGTGAGTAGCAACATACTCCGGCGGCAGCGCGTTAATG -TAGTGATGGTTCAGCCACAGCAGCTTGTCGGTGTTGAACGCACTGGCAGATTTGCTGACGGCATTCAAAG -TGAAGTATTTGATCATCTCTTCACGAGTGAAGATTTCCTGATCGCCGTGGGACCAGCCCAGACGCACCAG -ATAGTTCAGCAGTGCTTCTGGCAAATAACCGTCATCACGATACTGCATTACGCTGACTGCCCCGTGACGT -TTGGACAGTTTTTTACCGTCATCGCCATTGATCATAGAAACGTGCGCGTAAACCGGCACCGGCGCTTTCA -GGGCCTTAAGAATGTTGATCTGGCGTGGCGTGTTGTTGATATGGTCTTCGCCACGGATAACGTGGGTGAT -TTCCATATCCCAGTCATCGACAACCACACAGAAGTTATAGGTTGGGGAACCATCGGTACGGCGGATAATA -AGATCGTCCAGTTCCTGGTTGCTGAACTCGATCGGACCACGGATCTGATCGTCAAAAACAACAGAACCTT -CCTGCGGGTTAGCAAAACGTACAACACACGGTTCATCATCAGCATGATGCTCATGGCTGTGGCGGCAGCG -ACCGTCATAACGCGGCTTCTCACCTTTCGCCATTTGCTCTTCGCGCAGCGCTTCCAGGCGCTCTTTAGAG -CAATAGCATTTATAAGCAGTGCCCTCTTCCAGCATCTGATCGATCACCGCGTTGTAGCGATCAAAACGTT -TGGTCTGGTAGTACGGACCTTCATCCCACTCCAGGCTCAGCCAGTTCATGCCATCCATAATGGCTTCGAT -AGCTTCCGGCGTGGAACGCTCAAGATCGGTGTCTTCAATACGCAGCACGAACTCACCGCCGTGGTTACGT -GCAAAAAGCCAGGAGTAAAGAGCAGTACGCGCGCCGCCAACGTGCAGATAGCCTGTTGGGCTTGGCGCGA -AGCGAGTTTTGATTTTCATGAAATGGCCTTACGTTTAGAAAGATGCCGACAACCGGCAAATCCTGGAAAA -ATTAAGTGGGCGATATTCTATCACTCCCGCCTGATTCCTCAATGTAGTTCGGGTTTCTACCTTACGCATT -ATTGTTTTCGTTGACAAATTGCGCAACACGGTCTGTTTTGCGATCATCTTGCTTAAATTTACGACGAACG -AACAATTTCTTTAGAAAATGCGTTGACTCATTTTGAACTCTCCCTATAATGCGACTCCACACAGCGGGGG -TGATTAGCTCAGCTGGGAGAGCACCTCCCTTACAAGGAGGGGGTCGGCGGTTCGATCCCGTCATCACCCA -CCAACTACTTTATGTAGTCTCCGCCGTGTAGCAAGAAATTGAGAAGTGGGTGATTAGCTCAGCTGGGAGA -GCACCTCCCTTACAAGGAGGGGGTCGGCGGTTCGATCCCGTCATCACCCACCACTTTCTCGCCAGCTAAA -TTTCTTGTAAAAATGTGAAGTACCGAAGTGGGTGATTAGCTCAGCTGGGAGAGCACCTCCCTTACAAGGA -GGGGGTCGGCGGTTCGATCCCGTCATCACCCACCACTTCGGGTCGTTAGCTCAGTTGGTAGAGCAGTTGA -CTTTTAATCAATTGGTCGCAGGTTCGAATCCTGCACGACCCACCAATGTAAAAAAGCGCCCTAAAGGCGC -TTTTTTACTATCTGCGATACTCAAAGATTCGAACCTGCAGCAGGTTTGAGTTGAGCGCAGCGAAACAACG -GAGCCGCTCGCGGCGACGGCCCGAAGGGCGAGCGAAGCGAGTCATCCTGCACGACCCACCAATGTAAAAA -AGCGCCCTAAAGGCGCTTTTTTGCTATCTGCGATTTGCGAAATTGCCTGATGCGCTTCACTTAGCAGACT -ACTATTTCCGGCAATTCCTGTCTCCTCACCTACTGTGTCAATGCAGCCAACAGCTTAACCATCGCGGGCG -TCACCTGCTGTGTTTCATAAACAATATATAAATCTGCAGGGATGCGCTGTTTGAGCGGACGGAAAATGAC -ACCTGGCCAGTTCATTTGTGCGTAGCTGTCCGCTATCAATGTGATACCAATGCCCATACTGACCATAGCG -AGTACCGTTTGCGGTTCATTAACTTCGCGAATAACAACCGGTGAAAATCCCACCTGCTGGCAAACTCGCT -GCAAAAAATCCCAGTCAGTGTAAACGGGCGGCATTGTAACAAAATACTCGTCACGTAGCGCTTCCAGCGG -GACGGTGGAAAATGATGAGAGATGATGCTCTTCAGGCATCGCCACCAGAAACGCCGATTCATGCAACCGT -AAGCTGGTAAAACCAGTCGGTGGTTCTGTCGCCATTCGCCAGATCCCGGCATCAAGTTCGCGGCGTTCCA -GCAAGGCCATTTGCATCGCGGGCATCTTTTCGCGAAAAAGAACGTCAACGTTAGGATTTTCCCTGAGGAA -TCGCCGCATAACCGGGCGCATCCGTCCCCACATTGCCGTTCCCACTACGCCGAGTTCAATCCGCCCTGCT -TCTCCCCGACCTATTTGTTCAATCCGAGCCAATACATTATTAGCATTCACCAGCAATCGACGCGATTCTT -CCATCAAGATTTTGCCCGCGTGTGTCAGTACGACGCTGCGCGAATGGCGAATAAAAAGCTGCGTGCCGAG -TTGATTTTCCAGCTCTTTAATATGAATGCTGAGCGGAGGCTGAGACATATTTAAACGCGCTGCTGCGCGG -CCAAAATGCAACTCTTCCGCTACGGCAAGAAAATAACGGAGCAACTTAAGATCTGTTCTGTATACGCGTT -CCATAATTAAGTGCTCCATATAATAAATACATCGTATTAAATTATCATGGCATAAAGTATTTCACCACCA -GATATCCGACATACATAAACACAATGGATAATATACCCGGTAATACATTTGGTACAGGAATAGGCAAGCG -CACGATTGTAAACAAAGCACCAATACCAAAACCAACGCCGGAAGAAAATAAAATATCTTTCACTAATTAA -CCTTTATCATAAAAGCAGCTCTGAAGAGCAGAGCCGCGAATCCTTTTAATGAGTCACCGCTCGATGCTTT -ATCTTTTCAGGGTCATGATTATATTTAAACCCAAAGAAAAATATCACTGCGAGAAAAAGAGCATATCCTG -CAAACACCAGCCAGATAGTTTGCCAGTCTTTTACGCCATCCACCGAAAAGTAATCTACTGCCATGCCACT -CAGAATCGAGCCAACCCATGCGCCGACACCATTTACCATGGTCATAAAGAGCCCCTGCGCGCTGGCACGA -ATGCTGGAATCAACTTCCTGTTCGACAAATACCGAACCAGAAATATTGAAGAAATCGAATGCACAGCCAT -AAACAATCATCGACAGCAGCAGCAAAATAAATCCGGTTGTTGACGGATCGCCATAGGCGAAGAAGCCAAA -GCGCAGCGTCCAGGCCACCATACTCATCAGCATGACGGTTTTAATGCCAAATCGCTTTAAAAAGAATGGG -ATAGTCAGTATAAAGCCCACTTCTGCCATCTGTGAAACTGACAGTAAAATGGAGGGATATTTCACCACAA -AACTGTCAGCAAACTCCGGGTTACGGGCGAAATCATGTAGGAACGGATTACCAAAAACGTTGGTAATTTG -CAGTACCGCACCCAGCATCATGGCAAAGAGGAAAAAGATGGCCATGCGTGGATTTTTAAACAGCACGAAG -GCATCCAGACCCAGCTTGCTGGCAAGCGATGTGGTCGCTTTTTTCTCCGCAACCGGAATCTTCGGCAAAG -TCAGCGCATAAGCCGACAGCAGCAATGACGCACCGGACGCGATATACAGCTGCAGACTACTCAATTCCAG -ATGCAGCAGGCTTACTGCCCACATCGCGACAATGAACCCCACCGTACCAAAAACGCGAATGGGCGGGAAA -GCGGTCACCGGGTCAAGCCCTGCCTGGGCAAGACAGGAATAAGAGACGCTGTTCGATAACGCAATAGTCG -GCATAAACGCCATCGCATTGACTAACATCACCCAAAACATCATATCCGGATCAGTTACGGATGCCGCATA -AAAAAGTACGCCCGCACACACCAGGTGACACAGCATGTATGCACGTTCTGCGCGCAGCCATTTGTCTGCG -ATGATCCCCATTATACCAGGCATAATAATCGCGGCGATCCCTTTGGAACTGTAAACCATGCCAACATTAG -CGCCGGTGAAATGAAGAGTATTAATCATGTAAGAGCCGAGGGTAACCAGCCAGCTCCCCCAGATAAAATA -TTGCAAAAAGGACATTACCTTTAAGCGCATCGCGATGCTCATAATCGTTTCCTTGTCGCATCATTTGGCC -TCACCCGCGAGGCCGTTTCTTATTGTTTTTCTCAGGCAATTTTGCGCAGAAAGCCACAAATAAGGTTGAT -GAAGTTCTGCTTAGAGAGCTCCGCAGCCGCCAGCGTTTGCGCATGTGACAATTTCACATCGCTTAAACCT -TCCGCCATATTGGTAATCGCAGAGACCGCAACGACTTTAAGGTCGCAATGGCGAGCTGAAATAACCTCAG -GCACCACAGACATACCAACAACATCCCCACCAATAATTTGCATCATGCGAATTTCCGCCGCAGTCTCGAA -ATTCGGCCCCGGATACGAGACGAACACGCCCTCCGTCAGAGGGAAACCCTCTTCTTTCGCCACTTTTTGT -AACAGTGCGCGGTATTCCGCATCGTAGGCATTTGCCAGTGAGAAGAAGCGCTCTCCAAAACGATCATCGT -TAAGACCCACCATCGGCGTACCGGGCATGGTGTTGATATGATCTTTCAATGCGACCAGGCTGCCTGCCCC -CACTTCCGGACGCAGCGAGCCTGCCGCATTGGTGCAGAACAGTAGCTCGCAGCCCAGCAGCTTAAAGGTA -CGAATTGCGTCAGTCATAATGGTCATTCCACGACCTTCGTAGAAATGTCCGCGACCTTTCATACATACCA -CCGGTACGCCCTGGAGATGGCCCAGCACTAACTCCCCCGCATGACCATGTACCGTACTTACCGGGAAGCC -CGGCAGCTTTTCGTAGGAAATTGCGACAGCGTTCTCAATCTGATCGGCCAGCGCGCCGAGCCCGGAACCT -AAAATAAAGGCCACTCGTGGCGTGAAATCAGGTTTATAAGTCTTGATAATATCTATGCAAAACAGCGGGT -TATGAGAAAATTGAACCTGAGACATACATATCCTTTTTCTGTAGGGTGGAATCTAACGCCTTTTTATAGC -GAGGTTGTCCCGGCTCTTACCAATACACTTTTCTCACGCATTCAATAGCGATTCGATATCGATGGATTTA -TATCTTTTCTCTATTAATCCACGGTAAAAACTGTATTGGCGATATTAATTCCTTTGCATTAACAATATGT -CGTTTTTAGCAAACCACTTTATTAAGCAATCTACTAATAACGATCGGCATAGGGAATTATGCTATGAAAA -AACATCTTTTAACTCTGACACTTTCCTCTATATTAGCGATACCTGTTGTATCTCATGCAGAATTTAAAGG -CGGTTTTGCAGATATCGGCGTGCATTATCTGGACTGGACCAGCCGGACTACCGAAAAATCGTCGACCAAA -TCACACAAAGATGATTTTGGTTATCTTGAATTTGAAGGTGGCGCTAACTTTAGTTGGGGAGAAATGTACG -GGTTCTTCGACTGGGAAAACTTCTATAACGGTCGCCATAATAAACCAGGTAGCGAGCAGCGTTATACCTT -TAAAAATACCAACCGTATTTACCTGGGTGACACCGGATTTAATCTCTACTTGCATGCGTATGGCACCTAC -GGTTCTGCGAATCGCGTGAATTTCCACGACGATATGTTCCTGTACGGTATCGGCTACAATTTCACCGGCA -GCGGTTGGTGGTTCAAACCGTTCTTTGCTAAGCGTTATACAGATCAAACCTATTACACTGGCGACAACGG -CTATGTCGCCGGCTGGGTTGCAGGTTACAACTTTATGCTGGGCAGCGAGAAATTCACTCTTACCAACTGG -AACGAGTACGAGTTTGACCGTGACGCTACCTATGCAGCGGGTAATGGCGGTAAAGAAGGGCTGAATGGCG -CAGTTGCACTGTGGTGGAATGCAACATCACACATTACTACGGGGATTCAGTATCGATATGCGGATGACAA -ACTGGGCGAAGATTTTTACCAGGATGCGATAATCTACTCCATCAAATTTAACTTCTGATTGATTACTGCC -GGGGCTCCCGGCAGTATGAATTCACTCTATATCTGATACAACGGATCCCCTTCCCGCCCAGCCATTAGCG -CATTGCCCTGGTCTCGTACCACGTCCCATAAAGCTTCAGCGGCGGTGGAAAGTGAACGGTTCTTCCTGCG -CACCAGCATCAACTGGCGTTCAACAACCGGCGTAATGCGCTTTACCACCAGTGGGCTACCTTCAGGCAAT -GGTAGCGCCAGTGCGGGAAGAATACTGATGCCGATGCCTGCGGCTACCATCGGGAACAGCGTCGCCGGAT -GTCCAATCTCCTGCACAATATTCGCCTGAATACCATTGCGCGCCAGCGCTGCGTCAATCAGCGGTCGGCT -GCCTGACGCGTAATCCTGCAACACCAATTTCGCTCCCTGTAATGCCTGCCAGGGTACATAATCTTCCACG -GCCAAAGCGCTATCGCGATGGCAAAGCAGAAAGAAAGGCTCGGAAAGAATCGCTTCACATTGCAGATCGC -CCACTGGGCCTGGATCGATGACGATGCCAAAATCGACATCTCCCTGGCGAATACTTTCCATTACCCACTG -CTGCGGACGATCGTGCAGGACAAACTGAATATCTGGATAGCGGCGATGGCTTTCAGCAATGCATTGCGGA -ATAAGATGCGCGGAAATGGTCTGGCTGGCAGCGACCCGAACTTTTCCGCTCAGTTGTTGCCCCATACGCC -CGGTATCGCGCAACGTGCTGTTCAGTTCATCCAGCAGTCGCTCAAGACGCAAAGCCAGCTGCTGCCCTGC -ATCTGTAAGCACCACTTCACGCGTGGTTCTGTCCAGCAGGCGAACACCAGTATGATTTTCCAGTTCCTTC -ACACTGTGACTCACTGCCGACTGGCTCAGGCCGATACGCTCTCCTGCACGACTAAAACTTTTCTCCTGCG -CTACTGTGACGAAAACCTTTAATTGTTTTAAAGAATAATTCATCTGTTTTCTTCATGAATGGATGCAATA -AATCAATTTTATTTCTCAAACTGGAAGAAGCACAATAGAACCATCGATCATCTGGAGTCTTTATGAAACT -TTTTCGTATCCTCGATCCTTTCACCTTAACCCTGATCACGGTGGTGTTGCTGGCCTCTTTCTTTCCGGCC -AGAGGCGATTTCGTCCCCTTCTTTGAAAATCTGACCACCGCAGCTATTGCCCTGCTGTTCTTTATGCACG -GCGCGAAGTTGTCGCGTGAGGCGATTATTGCTGGCGGTGGTCACTGGCGACTGCATTTGTGGGTAATGTG -CAGCACCTTCGTGCTGTTTCCGATTCTGGGTGTACTGTTTGCCTGGTGGAAACCGGTAAATGTCGACCCG -ATGCTCTACTCCGGTTTTCTCTACTTGTGCATTCTCCCGGCTACCGTGCAGTCTGCAATCGCCTTCACGT -CAATGGCGGGCGGTAACGTCGCGGCAGCGGTTTGTTCTGCGTCGGCATCCAGCCTGCTGGGGATTTTCCT -TTCACCATTGCTGGTTGGTCTGGTGATGAATGTTCACGGTGCAGGGGGCAGCCTTGAGCAGGTCGGTAAA -ATTATGCTGCAACTGCTGCTGCCGTTTGTGTTGGGGCATCTTTCCCGGCCGTGGATTGGTGACTGGGTGT -CGCGCAATAAAAAATGGATTGCGAAAACTGACCAGACGTCCATTCTGTTGGTGGTTTATACAGCGTTCAG -CGAAGCCGTCGTTAATGGTATCTGGCATAAAGTTGGCTGGGGATCATTGCTGTTTATCGTGGTGGTCAGC -TGCGTTCTTCTGGCTATCGTGATTGTAGTTAACGTCTTTATGGCACGCCGACTGAGCTTCAATAAGGCAG -ATGAAATTACTATCGTCTTTTGTGGTTCGAAAAAGAGTCTGGCAAATGGCATCCCGATGGCAAACATTCT -GTTCCCCACATCGGTGATCGGTATGATGGTGCTGCCCCTGATGATTTTCCATCAGATCCAATTGATGGTC -TGTGCGGTGCTGGCGCGTCGATACAAACGCCAGACCGAACAGTTACAGGCGCAGCAGGAAAGCAGCGCCG -ATAAAGCTTAAAGCGGACGCTTCAGGGGCTGGACCAGTTGCGTCAGCCCCTCGGTTTTAATCAGCAGCGT -GATTTGCATTAGCTCACCGAGCTTCCCTGCCGGGAACTCATCTTTGCGGGCAAACCACAGCAGATACTCC -TCCGGCAGGTCGATTAAGCGACGCCCTTTGTATTTGCCAAACGGCATTATCGTATTGGCTATTTCAATCA -GCTGCTCTTTTTCCATCTCAGCTACCCAGCAAACGCAGCATTTCCGCTTCGTCGATGACTTCAATGCCCA -GTTCCTGCGCCTTCGCCAGTTTAGATCCTGCAGCTTCACCCGCTATCACCAGATCGGTTTTCTTCGACAC -GCTGCCCGCGACTTTCGCGCCCAGTTCGACCAGTCGAGCTTTAGCGTCATCACGCGACATCTGGCTTAAG -CTGCCCGTAAGCACCACGGTTTTACCAGCAAACGGGCTGTCAATCTCTTCCGCGTTGATAACGATCGGCG -CAGGCCAGTGAACACCTTCCGCCAACAGCTCGCTGATGACATTGCGGTTGCTTTCTTCGGCAAAGAAGTT -GTGAACGTGGGATGCAACGACAATGCCAACATCAGGCACCTTTTGCAGCTCTTCAATCGAAGCGGCTTCC -AGCGCTTCCAGCGTGCCGAAATATGCCGCCAGACCTGCTGCGGTGGCCTCGCCGACTTCACGGATGCCAA -GTGCATAGAGGAAGCGAGCAAAGGTGGTTTCTTTCGCTTTTTCCAGCGCGTTAACCACGTTTTGTGCCGA -TTTTGGCCCCATACGCTCCAGTCCGGTCAGTTTGCCTGCGGTGAGTTTGAACAGATCTGCCGGAGTATGG -ACATATTCTTTTTCAACCAGCTGATCGATGATTTTGTCGCCCATTCCGTCAACATCCATCGCACGGCGGG -AAACAAAGTGTTTCAGCGACTCTTTACGCTGCGCACCGCAAATCAGGCCACCGGTACAGCGGGCAACCGC -TTCACCTTCCACACGCTCAACGTCAGAACCACATACCGGACAATGCGTCGGGAATACAACCTCACGGGTA -TCTTCCGGGCGTTCAGAAAGCACGACGTTAACCACCTGCGGGATCACGTCGCCAGCGCGGCGAATCACCA -CTTTATCGCCAATGCGTAAACCAAGACGTTCGATTTCATCCGCATTGTGTAAGGTTGCGTTACTCACCAG -CACGCCTGCAACATGGACAGGTTCCAGACGCGCAACAGGCGTAATCGCGCCAGTACGCCCAACCTGAAAC -TCGACGTCACGCACAAAGGTCATCTGCTCCTGCGCCGGGAATTTAAACGCTACCGCCCAGCGCGGGGCAC -GCGCGACAAAGCCAAGCTGCTCCTGCTGTGCCAGTGAGTTGACCTTAATCACCACGCCGTCGATATCAAA -GCCCAGCGTCGGGCGGTCTTCTTCCACTTTGTGATAGAACGCCAGCACTTCTTCCGCCGATTCACAAAGC -GTTACCCGATCGCTGACCGGCAACCCCCACTTTTTAAATTGCAGTAAACGGCCAAGATGAGTATCCGGCA -GCTCGCCACCTTCCAGAACACCAACGCCATAGCAGAAAAAAGTGAGCGGTCGCTTCGCTGTAATACGCGG -ATCAAGCTGACGCAGTGAACCAGCTGCCGCATTACGTGGGTTAGCAAACACTTTCCCGCCCGTGCGTCGC -GCATCTTCGTTAATCTTTTCGAACCCCGCCTGCGGCAGGAACACTTCACCACGCACTTCCAGACGCGCCG -GGATATTCTCTCCGTGCAGCTTCAGCGGAATGGCGCGAATAGTACGCACATTAGACGTGATATCTTCCCC -GGTGGTGCCATCGCCACGGGTCGCGGCACTGACTAAAACGCCATTTTCATACAGAATACTGACGGCAAGA -CCATCCAGCTTCAGCTCACAGCACCAGGTGACTTTCTCGTTGTTTTTCAGACGGTCCTGCACACGTTTGT -TGAAAGCAAGAAAGCTTTCTTCATCAAAAACGTTATCCAGTGACAGCATTGGTACTTCATGGCGTATCTG -GCTGAAAGCCGCCAGCGGCGCAGCGCCTACACGTTGAGTAGGCGAATCAGGCGTAATCAGTTCTGGATGT -TTGGTTTCCAGCTCGCGCAGTTCGCGCATCAGCCTGTCGTATTCAGCGTCGGGAATTTCCGGCGCATCCA -TCACATGATAAAGATATTCATGATGGCGAAGCGTCGTTCGCAGTTCTGTCAGTTGTTGTTCGATTGATTC -CATATCGCACCATCAATGCTAAAAACCCCCGACAAGCGGGGGTTCGAAGAGGAGTTAATTTGCCTTAAGT -GTATCAGGCGTTGGCGTCTTTGACTTCGCGGATGATGTCCTGGTACTCGCGCAATTTCTGCGGAGTCATC -ATACGGCGCTGATCGTCAAGCACGACACCGCCCACTTCATCGGCAATATGCTGCGCAGATTGCAGCATCA -GCTTGAAGTTCTGCAGCTCGTCACCGTAAGACGGTACCTGCATAAAGATAGTGACACCCGGAGTAGTGAA -ATCCTTCATTTCAGGATCAAAGGTTCCCGGTTTCACCATATTCGCCAGGCTGAATAACGCCGGGCCGCTG -CCATCCGGGCTAAGATGACGATGGTAAATATTCATATCGCCAAAAATGAAGCCCGCTTGTTGAATGCTGT -TAAGAAGCAGTTCACCGTTTAGCTCGCTACCGTGATGCGCCGCGACGTTCATGATAATCACCGCTTCTTT -GCGCTTCGGTTTATCCATAACTGGAGCAGGTTCCGCTACAGGCTCAGGCTGTGGTGCCGCTACGGGTTCT -GCAGGCTGGAAAGCCTGTTGTGCCGGTTGCGGTGCTGAATGCACAGGCTGCGGCGCTGGCGCGACCTGTG -GCGAAACTGGCTGCTGCAACGGCTGTTCAGGCTGCGGCTGATAGGCAGGCTGCTGCACCGGCTGCGCTGG -ATGCGGAGCATGTTGCGGCGGTACCTGCGCTTCAGGCGGCTGCTGGACCGGTTGACGCGGCTGCGCAGAC -GCATAAGGCGGTTGGTACTGGTGTTGCGGCGACGGACGAGCAGCCTCATGCTCCTGAGCGTTAGCCGGGG -CATGATTCACGCGGTGAACACGAACCTCACCAACGCCCTCATCATCTTCGACATCCTCGTCATAAGAATC -GTCGTCACGTTTTGACTTCATTCGTTTTAATGGCCGATCGCGGAACATAGAAGATCGTTCTTTACGGCTG -GTCCAGAAACCATGTACCAGTAAAGCGATTATGGCGATCGCGCCAACAATGATTAATATCAGACGCAAAT -CCTGCATCATTATATTCTCTGTTGTTCTAACACCTTGCCACCACGGCAAACATTTACTCACTAAGAGTAT -TTGCCGATTACCTCAAGTGCAAGTGCACTATTAACTTTCACAGCACAAAGATAGATGAAATCGTGCTTTT -TGCTGTTTTTTCGAACATATCCTAACTGTCCATTGCGCAATTACCCGGTAAAATACGCAGAATTTTCCTG -GGATTGGTCAAAAGGAGCTCATCCTGATTATGGTTTCATCATTCACATCTGCCCCACGCAGCGGTTTTTA -CTATTTTGCGCAAGGCTGGAAGCTCGTCTCGCAACCTGGGATTCGGCGTTTCGTTATTTTACCGCTGCTG -GTCAATATTTTGTTGATGGGGGGCGCATTCTGGTGGCTCTTTACACAGCTCGATGTCTGGATCCCGACTC -TCATGAGTTACGTTCCGGACTGGCTACAATGGCTGAGTTATCTGTTGTGGCCTCTGGCTGTCATCTCTGT -GCTGTTAGTGTTTGGCTATTTCTTCTCCACGATTGCTAACTGGATTGCCGCTCCGTTTAACGGTTTATTG -GCTGAACAACTGGAAGCACGATTGACTGGCGCTACACCGCCAGATACCGGGATTTTCGGTATCATGAAAG -ATGTGCCGCGAATCATGAAACGCGAATGGCAAAAATTTGCCTGGTATCTGCCGCGCGCAATTGTATTACT -AATTCTTTACTTCATCCCTGGTATTGGGCAAACCGTCGCGCCGGTACTGTGGTTCCTGTTTAGCGCCTGG -ATGTTAGCCATCCAGTATTGCGATTACCCCTTCGATAACCACAAAGTGCCGTTTAAAGAGATGCGCACCG -CCCTGCGCACACGCAAAATCACCAATATGCAGTTTGGTGCTTTAACCAGCCTGTTTACGATGATCCCGCT -GCTTAATCTGTTCATCATGCCCGTTGCCGTTTGTGGCGCGACGGCGATGTGGGTCGATTGCTATCGCGAT -AAACACGCGATGTGGCGGTAACAATCTACCGGTTATTTTGTAAACCGTTTGTGTGAAACAGGGGTGGCTT -ATGCCGCCCCTTATTCCATCTTGCATGTCATTATTTCCCTTCTGTATATAGATATGCTAAATCCTTACTT -CCGCATATTCTCTGAGCGGGTATGCTACCTGTTGTATCCCAATTTCATACAGTTAAGGACAGGCCATGAG -TAAGATTTTTGAAGATAACTCGCTGACTATCGGTCACACGCCGCTGGTTCGCCTGAATCGCATCGGTAAC -GGACGCATTCTGGCGAAGGTGGAATCTCGTAACCCCAGCTTCAGCGTTAAGTGCCGTATCGGTGCCAACA -TGATTTGGGATGCCGAAAAGCGCGGCGTGCTGAAACCAGGCGTTGAACTGGTTGAACCGACCAGCGGTAA -TACCGGGATTGCACTGGCCTATGTAGCTGCCGCTCGCGGTTACAAACTCACCCTGACCATGCCAGAAACC -ATGAGTATTGAACGCCGCAAGCTGCTGAAAGCGTTAGGTGCAAACCTGGTGCTGACGGAAGGTGCTAAAG -GCATGAAAGGCGCAATCCAAAAAGCAGAAGAAATTGTCGCCAGCAATCCAGAGAAATACCTGCTGCTGCA -ACAATTCAGCAATCCGGCAAACCCTGAAATTCACGAAAAGACCACCGGTCCGGAGATATGGGAAGATACC -GACGGTCAGGTTGATGTATTTATTGCTGGCGTTGGGACTGGCGGTACGCTGACTGGCGTCAGCCGCTACA -TTAAAGGCACCAAAGGCAAGACCGATCTTATCTCTGTCGCCGTTGAGCCAACCGATTCTCCAGTTATCGC -CCAGGCGCTGGCAGGTGAAGAGATTAAACCTGGCCCGCATAAAATTCAGGGTATTGGCGCTGGTTTTATC -CCGGCTAACCTCGATCTCAAGCTGGTCGATAAAGTCATTGGCATCACCAATGAAGAAGCGATTTCTACCG -CGCGTCGTCTGATGGAAGAAGAAGGTATTCTTGCAGGTATCTCTTCTGGAGCAGCTGTTGCCGCGGCGTT -GAAACTACAAGAAGATGAAAGCTTTACCAACAAGAATATTGTGGTTATTCTACCATCATCGGGTGAGCGT -TATTTAAGCACCGCATTGTTTGCCGATCTCTTCACTGAGAAAGAATTGCAACAGTAATGCCAGCTTGTTA -AAAATGCGTAAAAAAGCACCTTTTTAGGTGCTTTTTTGTGGCCTGCTTCAAACTTTCGCCCCTCCTGGCA -TTGATTCAGCCTGTCGGAACTGGTATTTAACCAGACTAATTATTTTGATGCGCGAAATTAATCGTTACAG -GAAAAGCCAAAGCTGAATCGATTTTATGATTTGGTTCAATTCTTCCTTTAGCGGCATAATGTTTAATGAC -GTACGAAACGTCAGCGGTCAACACCCGCCAGCAATGGACTGTATTGCGCTCTTCGTGCGTCGCGTCTGTT -AAAAACTGGCGCTAACAATACAGGCTAAAGTCGAACCGCCAGGCTAGACTTTAGTTCCACAACACTAAAC -CTATAAGTTGGGGAAATACAATGTTCCAGCAAGAAGTTACCATTACCGCTCCGAACGGTCTGCACACCCG -CCCTGCTGCCCAGTTTGTAAAAGAAGCTAAGGGCTTCACTTCTGAAATTACTGTGACTTCCAACGGCAAA -AGCGCCAGCGCGAAAAGCCTGTTTAAACTGCAGACTCTGGGCCTGACTCAAGGTACCGTTGTGACTATCT -CCGCAGAAGGCGAAGACGAGCAGAAAGCGGTTGAACATCTGGTTAAACTGATGGCGGAACTCGAGTAATT -TCCCGGGTTCTTTTAAAAATCAGTCACAAGTAAGGTAGGGTTATGATTTCAGGCATTTTAGCATCCCCGG -GTATCGCTTTCGGTAAAGCTCTGCTTCTGAAAGAAGACGAAATTGTCATTGACCGGAAAAAAATTTCTGC -CGACCAGGTTGATCAGGAAGTTGAACGTTTTCTGAGCGGTCGTGCCAAGGCATCAGCCCAGCTGGAAACG -ATCAAAACGAAAGCTGGTGAAACGTTCGGTGAAGAAAAAGAAGCCATCTTTGAAGGGCATATTATGCTGC -TCGAAGATGAGGAGCTGGAGCAGGAAATCATAGCCCTGATTAAAGATAAGCACATGACAGCTGACGCAGC -TGCTCATGAAGTTATCGAAGGTCAGGCTTCTGCCCTGGAAGAGCTGGATGATGAATACCTGAAAGAACGT -GCGGCTGACGTACGTGATATCGGTAAGCGCCTGCTGCGCAACATCCTGGGCCTGAAGATTATCGACCTGA -GCGCCATTCAGGATGAAGTCATTCTGGTTGCCGCTGACCTGACGCCGTCCGAAACCGCACAGCTGAACCT -GAAGAAGGTGCTGGGTTTCATCACCGACGCGGGTGGCCGTACTTCCCACACCTCTATCATGGCGCGTTCT -CTGGAACTACCTGCTATCGTGGGTACCGGTAGCGTCACCTCTCAGGTGAAAAATGACGACTATCTGATTC -TGGATGCCGTAAATAATCAGGTTTACGTCAATCCAACCAACGAAGTTATTGATAAAATGCGCGCTGTTCA -GGAGCAAGTGGCTTCTGAAAAAGCAGAGCTTGCTAAACTGAAAGATCTGCCAGCTATTACGCTGGACGGT -CACCAGGTAGAAGTATGCGCTAACATTGGTACGGTTCGTGACGTTGAAGGTGCAGAGCGTAACGGCGCTG -AAGGCGTTGGTCTGTATCGTACTGAGTTCCTGTTCATGGACCGCGACGCACTGCCCACTGAAGAAGAACA -GTTTGCTGCTTACAAAGCAGTGGCTGAAGCGTGTGGCTCGCAAGCGGTTATCGTTCGTACCATGGACATC -GGCGGCGACAAAGAGCTGCCATACATGAACTTCCCGAAAGAAGAGAACCCGTTCCTCGGCTGGCGCGCTA -TCCGTATCGCGATGGATCGTAGAGAGATCCTGCGCGATCAGCTCCGCGCTATCCTGCGTGCCTCGGCTTT -CGGTAAATTGCGCATTATGTTCCCGATGATCATCTCTGTTGAAGAAGTGCGTGCACTGCGCAAAGAGATC -GAAATCTACAAACAGGAACTGCGCGACGAAGGTAAAGCGTTTGACGAGTCAATTGAAATCGGCGTAATGG -TGGAAACACCGGCTGCCGCAACAATTGCACGTCATTTAGCCAAAGAAGTTGATTTCTTTAGTATCGGCAC -CAATGATTTAACGCAGTACACTCTGGCAGTTGACCGTGGTAATGATATGATTTCACACCTTTACCAGCCA -ATGTCACCGTCCGTGCTGAACTTGATCAAGCAAGTTATTGATGCTTCTCATGCTGAAGGCAAATGGACTG -GCATGTGTGGTGAGCTTGCTGGCGATGAACGTGCTACACTTCTGTTGCTGGGGATGGGTCTGGACGAATT -CTCTATGAGCGCCATTTCTATCCCGCGCATTAAGAAGATTATCCGTAACACGAACTTCGAAGATGCGAAG -GTGTTAGCAGAGCAGGCTCTTGCTCAACCGACAACGGACGAGTTAATGACGCTGGTTAACAAGTTCATTG -AAGAAAAAACAATCTGCTAATCCACGAGATGCGGCCCAATTTACTGCTTAGGAGAAGATCATGGGTTTGT -TCGATAAACTGAAATCTCTGGTTTCCGACGACAAGAAGGATACCGGAACTATTGAGATCATTGCTCCGCT -CTCTGGCGAGATCGTCAATATCGAAGACGTGCCGGATGTCGTTTTTGCGGAAAAAATCGTTGGTGATGGT -ATTGCTATCAAACCAACGGGTAACAAAATGGTCGCGCCAGTAGACGGCACCATTGGTAAAATCTTTGAAA -CCAACCACGCATTCTCTATCGAATCTGATAGCGGCGTTGAACTGTTCGTCCACTTCGGTATCGACACCGT -TGAACTGAAAGGCGAAGGCTTCAAGCGTATTGCTGAAGAAGGTCAGCGCGTGAAAGTTGGCGATACTGTC -ATTGAATTTGATCTGCCGCTGCTGGAAGAGAAAGCCAAGTCTACCCTGACTCCGGTTGTTATCTCCAACA -TGGACGAAATCAAAGAACTGATCAAACTGTCCGGTAGCGTAACCGTGGGTGAAACCCCGGTTATCCGCAT -CAAGAAGTAATTCTTGCCGCAGTGAAAAATGGCGCCCATCGGCGCCATTTTTTTATGCTTCCGCCAGCGG -CGGCAAAATCAATTCATCGCTCTCATGCTGCTGGGTGTAGCGCATCACTTCCAGTACGCGCAACCCCGCT -CGGTGCACTGCATCGGTTAACGCCTTCCCTTTCAGCAAGCCACTGATGAGCTGAGCACAAAACAGGTCGC -CAGTCCCTTTCAGGTCGGTTTTTACCCGTGAATGGGAAATGACATTCACGCTGTCGGCAGTGACCACCAC -AACCTGCATCTCCTGATTTTCTTCATTACCGGAGGCGCTGGTAACCACCACCCATTTTAATGTGTCTGAA -AGCAGACTTTTTGCGGCAGCAATGGCACTGTCGAGATCGCGGCAATTTTTACCGGTCAGGATTTCCAACT -CAAAGATATTGGGGGTAATTCCCTGCGCCAGCGGCAGTAAATATTGTCGATACGCTTCGGGAAGGTCAGG -TTTGACATAAATTCCGCTATCAATATCGCCAATCACCGGATCGACCATGATCAATAGGTCAGGATGGTCT -TTGCGTAGCGCAGTCAGCCACTCGGCAAGGATTTTGATTTGCGATGCCGTTCCCATATAGCCCGTGGTTA -CAGCACGAAGTTGGCGCAGCGCATCACGCTCCTGAAGCGCACGCAAATAGCCGCTAAACCATTCGTCCGG -AATCGCACCACCGTAGAAAGTGTCATAATGCGGCGTATTGCTCAGCAATACCGTCGGCACGGCAAAGACA -TTCAGGCCGTTCTGTTTGATAGCAGGCACGGCAATGCTGTTGCCCACGCTGCCGTAAACCACCTGCGACT -GCACGGCGACGATATCCGCCTGCAGTGCCCTACTCTTATCGTTAAACAACAACAAACTACTCATTTAATT -TTTTCTCCTTGCCGATGATCCTCATCGTAATCCAACCGAAACTTTACCTGATTCTGGCAGTCAAATCGGC -TATCACAAAACAAGGATAAGGTAATTCAATGAAGAAAATCATTTGTCTGGTCATTACACTACTAATGACA -CTCCCCGTTTACGCGAAGTTAACTGCCCATGAAGAAGCCCGCATCAACGCCATGCTGGAGGGATTAGCAC -AGAAAAAGGATTTGATATTTGTGCGCAACGGTGATGAACATACCTGCTATGAAGCGGTTTCTCATCTGCG -TCTGAAGCTCGGCAATACCCGTAACCGCATTGACACTGCCGAGCAGTTTATTGATAAGGTTGCTTCGTCG -TCATCGATTACTGGGAAGCCGTATATTGTGAAGATCCCCGGTAAGAGCGATGAGAACGCACAGCCTTTTT -TACATGCGTTAATTGCGCAGACGGATAAAACGGTGCCTGCGGAAGGAAATTAATCCGCTTTGGGAAGGCA -TTTACAGGAGGTAACATGAAAAAACGCTTTATTTATCACGATGAAAAATCGAATAAATTTTGGTGGATAG -ATTACGAAGGGGATAGTTTAGCTGTCAACTATGGCAAGGTAGGTAGTATTGGTAAATTCCAGACAAAAGA -GTTCGATAATGAAGAACAGTGTCTGAAAGAAGCCAGTAAATTGATTGCCGCAAAAATGAAGAAAGGCTAT -CAAGAAGATCCAAAGTTTAACTTCATGGATCGCTACTATTTTGATGATGAAGAAATTGGGTTACATGTTA -AAACGTCACACCCAAACTTCCAGTGCCATTTTACTGATCCACTTTATATGTGTTGCTGGGATGAAGAATC -TCCTTTTGGCAGCGATGAAGGTGCTGATGCTCTAAACGTTCTTGAAAATAGCCTCCGTAAAGAGCCGGAT -CTGGACTGTGCTGATTTCCCTCAAATGTTAATTGAAACTATGTGGGGTATGAAATACATCGCTATGGACA -GTATTCTTGAAGAGGATGTTCGTGCGCAATTACTAGTCGATGAAATGAGCACTATCCAGAGCAATATGAT -TACCTACGCAACTGCATTCGGTCAGATTAAAGTCATGGGTAAAATCTCCCATAAACTTAAAAAGATGGGA -CTCAATGCACTAGCGCGTCATCAGCTTACCGCAAAAATTCTTCAATGGGGTGACGGTCAGGACTCACCAA -TACTTCAAAAAATGATTGATGACCTTACGGCGTTTCCTCACGAAAATTAAATACTGCATTTGTCGGCAGC -AACAACTGTTAAAAAAGTGCGCTTTGTTTATGCCGGATGCGGCGTAAACGCCTTATCCGGCCTACAAAAT -CGTGCTAATTCAATATATTGCAGAAACCTTGTAGGCCTGATAAGCGTAGCGCATCAGGCAGTTTTGCGTT -TGTCATCAGTCTCCGATGCTATTAATCCTTAAATCCCCGCCCCCTGGCTAAAATGCTCTTCCCCAAACAC -CCCGGTAGAAAGGTAGCGATCGCCACGATCGCAGATGATCGCCACCACCACCGCGTCAGGGTTAGCTTTT -GCCACCCGCAGTGCTCCGGCAACCGCGCCGCCGGAGCTGACGCCACAGAATATTCCTTCCCGCACCGCCA -GTTCGCGCATGGTGTTTTCCGCATCGCGCTGATGAATATCCAGCACCTCATCCACCAGAGAAGCGTTGAA -AATCCCCGGCAGATATTCCGTAGGCCAGCGGCGAATGCCGGGAATGCTGCTGCCCTCTTCCGGTTGCAGG -CCGACAATGGTCACCGGTTTGGATTGTTCGCGCATAAAGCGTGAGACGCCGGTGATAGTGCCGGTCGTCC -CCATGCTGGAGACAAAATGAGTGATGCGCCCGCCGGTTTGCTGCCAGATTTCCGGCCCAGTGGTGGTGTA -ATGCGCATAAGGGTTATCGGGATTATTGAACTGATCGAGCAGCTTTCCTTCGCCACGATTCGCCATCTCC -AGCGCCAGATCGCGCGCACCTTCCATGCCCTGCTCTTTGGTGACAAGAATCAGTTCCGCACCATAAGCAC -GCATCGCCGCACGGCGTTCCTGGCTCATGTTGTCGGGCATCAGCAATTTCATGCGATAGCCTTTCAGCGC -GGCAATCATTGCCAGCGCAATGCCGGTGTTACCACTGGTGGCTTCGATTAAGACATCACCCGGTTTAATT -TCCCCGCGCTTTTCCGCCTCGACGATCATCGAAAGTGCCGCACGATCTTTCACCGAACCTGCCGGGTTAT -TGCCTTCCAGTTTTAACCACACTTCACTGCCGTTATCCGGCCCCATTCGCTGCAACTTCACCAGAGGCGT -ATTGCCTATTGTTTGTTCTAATGTACTCACGATCTCTATCCATACGTGGTGTTGCCTGATGCGACGCTTG -CGCGTCTTATCAGGTCTACAGGTTACAAACCTTGCCATTAAAAAGCCCGGATCGCGGGAAGCGCCTCCGG -GCGTTTAACATTCACTCAACCTATCAGGCGCTTTGTGCGAGAGCAAGTTCCTCATCGCGGGTTTCGATAC -GCTCGTCGCCGTTATACAGCCGCGCATGTTGCAGACCAACGAATAAACGCTCGCCACGCTGCGGGGCATC -GTCGCCATGCATCACGACCGTCAGCGGTTCGTTGTACCACCCCAGCGGCTGCACCACTAATTGGGTGTAG -TGACCTTTCGGGCTGGCTTCCAGTACCTGTACCGGCAGCGGCGAATCGAGGCTGGTACGGCGGCTGATAT -CCACTTCCCAAGGGCGCAGGAAGAGATCCACCGGCCCCTGATACGCAGGTGTGTAGCCCAGCGGCCAGCG -ATGCGCGCCAACATGGAACTGCCCGCCGCGAATGGTTCCCTGCAGGCGGTTCACTTCGCCCATAAATTCG -AGCACAAAACGGGTCGCCGGTTCGCGCCATACCTGATCCGGCGCGTCAGCCTGTTCAATATTGCCCTGGC -TCATCACAACTACACGATCAGCTACTTCGGTCGCTTCTTCCTGATCGTGGGTCACAAAAACGCTGGTGAA -TTTTAGTTCTTCATGGAGTTGACGCAGCCAGCGACGCAGCTCTTTACGCACCTGCGCATCCAGCGCGCCA -AACGGTTCATCAAGCAGCAGAATTTGCGGTTCCACAGCCAGCGCGCGCGCCAGCGCCACGCGCTGTTTCT -GGCCGCCGGAAAGCTGCGCCGGATAACGATCCGCCAGATGGGCAAGCTGGACCATTTCCAGCAATTTTGT -CACTTTCGCTTTGATGGCTGCGGCATTCGGGCGCTCGCGACGCGGCAGCACCGTCAGGCCAAAAGCGATA -TTGTCGAACACCGTCATATGGCGGAACAGCGCGTAATGCTGGAACACGAAACCGACTTTACGATCACGTG -CGTGCAGGCGGCTCACGTCGGTGCCGTGGAAGCGAATATGCCCGCTGGTTTGATGCTCCAGCCCGGCGAT -AATGCGCAGCAGCGTGGTTTTCCCGGAACCGGACGGCCCCAGCAACGCGACCATCTGACCTGAAGGAATA -TCCAGTGAGATATCGTTCAGCACCTGGGTGCGACCAAACGACTTCTTAATATTGGCAATCTCAATGCTCA -TGATGTTCCTCCTGCTGTGCGCGTTTTTCCTGATTCTCCAGGCGCCACTGCAACATACTTTTTAAAAACA -GGGTGATAATCGCCATCAGCGTTAACAGCGCCGCAGCGGTAAAGGAGCCGACGGTGTTGTAGTCCTGCTC -CAGCAATTCAATCTGTAACGGCAGCGACAGGGTTTCGCCGCGAATCGAGCCGGAAACCACCGACACCGCG -CCAAACTCGCCAATTGCGCGGGCGTTGGTCAACACCACGCCATAAAGCAGCGCCCAGCGGATGTTCGGTA -ATGTGACGCGACGGAACATCTGCCAGCCGGACGCGCCAAGCAAAATCGCCGCTTCGTCTTCCTGGCTGCC -CTGGCTTAACATCACCGGCACCAGTTCGCGCACCACAAACGGACACGTCACGAAGATGGTGACCAGCACC -ATTCCCGGCCAGGAGAACATAATTTGCAGGTTATGCTCGTCGAGCCAACCGCCGAGCGGGCCGTTAGAGC -CGTAGAACAGCAAATACACCAGACCGGCAACCACCGGCGATACGGCAAACGGAATGTCCAGTAGCGTCAG -CAGTAACTGGCGTCCAGGGAAGTTAAAGCGCGTCACCAGCCAGGCCAGCAGAATGCCGAACACCAGGTTT -ACCGGTACGGCAATCAGCGCGATCATCACCGTCAGCCAGATGGCGTGCAGCATGTCCGGATCGGCCAGAT -TCTGTAAAACCGGCATCAGCCCCTTGCTGAATGCCTGCACGAAGATGTAAATCATCGGCACCAGCAGGAT -GAACGCCGAAACCAGCATCCCGATGCCAATCAGAAACCATTTGCCCCAGTTAATCGGGCGCGCGTCATAA -CGCTTCAATTGGGTAACTTCCGCCATTAATGACCTACCACACGCCGACCAAAGCGACTTTGCAGAGTGTT -AATTGAGAACAGCAGCAGCAGAGATGCCGCGAGGATCACCGAAGCAATCGCGCTCGCTGCCGGGTAATCA -AACTCCTGTAAGCGCACAAAAATCATCAGCGACGTCACTTCCGTCTTCCACGCGATATTTCCGGCGATAA -AAATCACCGCGCCAAATTCACCAAGACTACGGGTAAACGACAGCGCCACGCCCGCCACCAGCGCCGGAGA -AAGCTCCGGCAGCACCACTTTGCAGAAACTCTGCCAGCGCGTTGCACCAAGCGTTTCCGCCGCTTCTTCA -TATTCCGGGCCTAACTCTTCCAGCACCGGCTGCACGGTACGCACCACAAACGGAATGCTGGTAAAGGCCA -TAGCCACCGCAATCCCCAGCCATGTATAGGTGACTTTGATATCAAACTTCGCCAGCCATTCACCGTAAAA -ACCGTTTACGGAAAAGAGCGAGGCCAGCGTTAAACCGGCGACAGCCGTTGGCAGCGCAAAGGGTAAATCC -ATCAGCGCATCAAGCAGCGTGCGGCCTGGGAAGCGATAGCGGGTTAGGATCCACGCCATCAGCAGACCGA -AAACGCCGTTAAAAATCGATGCCACAAACGCCGACAGCAGCGTTACTTTGTAGGCCGCGACCACCTGCGG -GTTGGTGATCACCTCCCAGTACTGCGCCCAGCTCATCTGGGCCAGTTGCATCACCAGCGCGGAGAGCGGC -AGCAGCAAAATCAGGCACACAAACAGCAGACTGGTGCCGAGGCTTAAGGTAAAGCCCGGCAGCACGCGTC -TGGAGGAGACAGCAAACATCAGTTACGCCCCGCCGCTAACAGCTTGTCTAACTCGCCGCCGCTGGTGAAG -TGGGTTTTCATCACTTCCGGCCAGGAGCCAAATTTGTCTTCCACGCGGAACAGCTCGGTCTGCGGGAATT -TGTCTTTCAGTTTGTCCATCACCTCCGGGTTATTCACGCGGTAGTAATAGTCGGTGATGATGGTTTGCGC -CTGCGGGCTATAGAGCCAGTTCAGATAGGCTTTGGCGGCTTTTTCCGTACCGTTGGCCTGCACGTTTTTA -TCAACCCACGCCACCGGGAATTCCGCCAGAATGTTGGTTTTCGGAATCACCACTTCAAAGCCCTGCGCTT -CATACTGTTTACGGATGTTGTTCACTTCCGATTCGAAGCTAATCAGCACATCGCCCAGGCCGCGCTCGGC -AAAAGTGGTGGTCGCGCCACGACCGCCAGTATCGAACACTTCAACGTTTTTCAGGAACTGGGTCATAAAC -TGTTCGGTTTTGCCTTTGTCACCACCGTCAGCTTTATCCGCTGCGCCCCATGCCGCCAGATAGGTATAAC -GCGCGTTACCCGACGTTTTCGGGTTCGGGAAAATCAGCTTCACGTCGGAGCGCACCAGGTCGTTCCAATC -GTGGATATTCTTCGGGTTACCCTTACGCACCAGGAAGCCCATGGTGGAGTAGAACGGCGAGCTATTATTC -GGCAGGCGCGACTGCCAGTCGGCCGGGATCAGCTTGCCTTTATCGTGCAGGATTTGTACGTCGGTCACCT -GGTTATAAGTGACAACGTCGGCTTTTAAGCCCTGTAAAATCGCCAGCGCCTGTTTTGATGACCCGGCATG -AGATTGTTTTATCGTCAGTTTGTCGCCGCCGTTATCTTTTGCCCATTGTTGCTCAAACGGCGGATTCAGG -GCGGCAAACAGCTCGCGGGAGACGTCATAAGAACTGTTCAGCAGTTCCGTTGCCTGTACATGGCCCGCCA -GCAGCAGAGAAGCGACCAGCGCGAGTGAGTTCTTTTTCAGTAAGTTAACGGCCATTGCGCACCCTTATAA -ATTTAATGACTTTCTAATAGCCATCATATTTATAACGGACGTGAAAGGAGTAACGGTTTTATATACCGTT -TGGTGATTTGGAAGTTGAAAAGGGAATAAGAACTTGGTTCAACAGGCGTAATTGTTGCAGTCAGTTTGGA -CACGAACAGCGCGGAGAAACCGGAGCGTACACATAGTACGTGAGGATTTCGAGCACTGCCCGGGGCCAAA -ATGACAAATAAAATAGCCTGGTGAACTTAGTTCAAGACGAAATCCTCCCCACAAATGCAGGGAGGAAACA -GAGGTGAATCAGATACCGACGCTAACCGTCTCCGGCAGTGTGCTGCCGCCATCAATCACATTCTGTGTAC -CGGTTAAATAGCTGGATTCATCCGATGCGAGGAAGGCCGCCAGTTCGCCGACTTCCAGCGGATCGGCGAG -GCGACGCATCGGGATTGCTTTCGCCATTTCAGTCAGCACCGACTCTGGATCTTCCGGGTTCGACTGGCGG -GCAATGCTTTCCGCCATTGGTGTGCGCACGTATCCCGGGCAAATGGCGTTAACGCGAATACCAGACTGCG -CGTACTCCACCGCCAGCGATTTTGTCAGGCCAACAATCGCCGCTTTCGTTAAGGCGTACGCCGTTTCGCC -AGGATCGGCCACCATATCACCAGTGACTGAAGACATCATCACAATGCGACCATCTTTGCGGGCAATCATC -TCCGGCAGCACCGCCTTCGTGACGTTCCATACGCCTTTAATATTGATGTCAATATGGAAATCGCGATCGT -CATCGCTCATATCGAGGAAACTGCCCAGACGACAAACGCCTGCGTTATTCACCAGGATATCAATGCGCCC -TTCTTTTTCCTTCGCGCGTTTGATAGCTGCGGCTACCGACGCCGGGTCACGCACATCGGCGACAACCGCC -GTACAGCGATGACCACGACCACACAGTTCGTCCGCCAGCTTTTCGATCTCAGGGGAGATATCCAGCAAGA -TTAGGTTCGCGCCATGACGTGCAAAAGTTCTGGCAATTCCTTCGCCAATTCCCTGCAATGCGCCCGTAAT -CAGTGCTGTCTTGCCCGTGAGTTTACCCATTTTAATGCTCTCCTTGTTAATACAGAGCGTTACACTCCAT -TCCCTCTGAAAATACAGGATAAACAAAATATTGCTGCGGATCAGCTCACTAATTCAGGAAAATCTCAATC -CAGTCGCTGCTTTATGCATCATTTCAGGCGTTGTGTTAGCTCACTGCTGCGCTGAATCATTTTCAATGAC -TCCACATCATTGAGTTGCACAAGGCCAACAAACAGTAAATCGGTAACAGAATTTTGCGCCGTGCGGGTAG -ACATCGACGAGCTACGCCATTCGGTTTCTCCGGAAACGGTATCGAGGGTGAAATGCGCCAGCCGCCGCAG -CGGAGAGTCAGTCAGAGAAGTAATGGCAATCACCGTTGCCCCCTGCTTTCGTGCCGCTTCTGCGCACAAG -ACAATCTCTTTTTTACTGCCGCTGTAAGAGATAGCGATTTGTACATCGCCTTTTTTCAACGCCTGAGAAA -CGGTGGCTTGTACGTGCGTGTCGGCTTCGCAGGCCACGCGATAGCCAATTTTCATCAGTTTGAACGACAG -ATCGCGCCCCACCAGCGCCGATCCGCCCAGGCCCGTTATCTGGATAAACGGTGCTTTACTGATGACCTCA -ATGATTTTTTGCAGCCGCGCGTAATCGAGCAACGCGCAGGTTTGCTCCAGCGCCAGCTCTTTTTCGCGAT -TCAGTTTGCGCGCGATCACTTCCAGCGAATCATCACTGGTAATCGAACTGTGCAGGTGCAGTGCCGTGGC -ATTCGTTTTCTCCCGGCTGGCACTGTATTCGCCTATTAACGCCATACGCAATTCAGTAAATCCTTGCGCG -CCGAGTTTTTGGGCAAATTTCACTATGCTCGACTGGCTAATGCCGAGCTGTTTCGCCATCTGCCGTGAAG -AAACGGATTGCAGCTCACTCACGTTGGCCTGCAGAAAGTCAGCGATTTTTTGCTCGTTTTCGGTGAATTC -ACTCCCCGCATTGCTTATTTTCGTCAGGTACAACATCTTCCACTCTCCTGGGCTGGCAGCATAAATTCCG -CTTAAGTTCTTATGACGCTCTTCACACTCTGCGAGTGTAGACTCAATGATTCCTTTAAGCCTGTCAATTC -GGGATATATGATTCCATACATCTGCAATTATTTGATCGTAAATAGTAAGGTCACCACCGATGCAATTTGA -AAAGATGATTACTGAAGGCTCGAACACCGCCTCGGCTGAAATTGACCGCGTATCGACGCTGGAAATGTGC -CGGATTATCAACGATGAAGATAAAACCGTACCGCTTGCCGTTGAGCGCGTACTGCCGGATATCGCCGCGG -CGATCGATGTTATCCACGCCCAGGTAAGCGGCGGCGGGCGTCTGATTTACCTCGGTGCGGGAACATCCGG -TCGTCTGGGGATTCTGGATGCCAGCGAATGTCCGCCCACCTACGGCGTGAAACCGGGTCTGGTGGTTGGT -TTGATTGCTGGCGGCGAATATGCCATTCAGCACGCGGTGGAAGGCGCGGAAGATAGCCGGGAAGGCGGTG -TTAATGATCTGAAAAATATTAATTTAACGGCACAGGATGTGGTGGTTGGCATTGCTGCCAGCGGTCGCAC -GCCGTATGTGATTGCCGGACTGGAATACGCACGCCAGCTCGGCTGCCGCACAGTGGGAATTTCCTGTAAT -CCGGGGAGCGCCGTTTCAACCACCGCTGAGTTTGCCATTACACCGATTGTAGGTGCCGAAGTTGTTACCG -GTTCTTCGCGGATGAAAGCAGGTACAGCGCAGAAACTGGTGCTCAATATGCTTTCCACCGGGCTGATGAT -TAAATCCGGCAAAGTGTTCGGCAACCTGATGGTCGATGTGGTCGCCACCAACGAAAAACTGCATGTGCGA -CAGGTCAATATTGTTAAAAACGCCACCGGATGTAGCGCAGAGCAAGCGGAAGCGGCGTTAATTGCTTGCG -AGCGCAACTGTAAAACGGCCATTGTGATGGTGCTGAAAAATCTCGATGCCGCAGAAGCTAAAAAACGCCT -GGATCAACACGGCGGCTTTATTCGTCAGGTTTTAGACAAGGAATAACCCATGGCCAAAGAGATCAGCAGT -GAACTTCTGAACACCATTCTTACCCGTGTCGGCGGACCGGGAAATATCGCCAGTTGTGGTAACTGTATGA -CGCGCCTGCGTCTGGGTGTACATGACAGTTCACTGGTTGATCCCAATATCAAAACGCTGGAAGGCGTGAA -GGGCGTCATTTTGACCAGCGACCAGGTGCAGGTCGTTTTTGGGCCTGGTAAAGCGCATCGTGCCGCAAAA -GCGATGAGCGAGCTGCTGGGAGAAGCACCGGTACAGGATGCCGCAGAAATCGCCGCCCAGAACAAACGTC -AGTTAAAAGCCAAACAAACCTCCGGCGTGCAACAATTTCTCGCCAAATTCGCCACCATCTTCACGCCGCT -GATCCCCGGTTTTATTGCCGCCGGTCTGCTGCTGGGGATAGCGACGTTAATTGCCACGGTGATGCACGTT -CCGGCAGATGCTCAGGGAACACTACCCGATGCGCTGAATTTTATGAAGGTGTTCAGCAAAGGTTTGTTCA -CTTTCCTGGTGATTCTGGTGGGCTATAACGCCGCCCAGGCATTTGGCGGCACGGGCGTAAATGGCGCAAT -TATCGCCGCGCTCTTTTTGCTCGGTTATAACCCCGCAGCGACCACCGGTTACTACGCCGGTTTTCACGAT -TTCTTTGGTCTGCCCATCGATCCGCGCGGCAATATTATCGGCGTGCTGATTGCCGCGTGGGCCTGCGCCC -GCATTGAAGGCATGGTGCGCCGCTTTATGCCGGACGATCTCGACATGCTGCTGACCTCGTTAATCACCCT -GCTGATCACCGCTACGCTTGCGTACCTGATCATTATGCCGCTGGGTGGCTGGTTATTCGAAGGTATGTCA -TGGCTGTTTATGCACCTGAACAGTAATCCGTTCGGTTGTGCGGTTTTAGCCGGGCTGTTCCTGATCGCCG -TGGTATTTGGCGTGCATCAGGGCTTTATTCCTGTTTACCTCGCGTTAATGGACAGCCAGGGATTCAACAG -CTTATTTCCCATCCTTTCAATGGCAGGCGCGGGCCAGGTGGGCGCGGCGCTGGCACTCTACTGGCGGGCG -CAACCGCACAGTGCGCTACGCAGTCAGGTACGCGGGGCGATTATTCCCGGCCTGCTGGGCGTTGGTGAAC -CGCTGATTTACGGTGTCACCCTGCCCCGCATGAAGCCGTTTGTTACCGCCTGTTTAGGCGGCGCGGCGGG -CGGTTTGTTTATCGGCCTGATAGCCTGGTGGGGTCTGCCGATGGGCTTAAACAGCGCCTTTGGGCCGTCT -GGTCTGGTAGCGCTGCCGCTGATGACTTCCGCACAAGGCATCCTTCCGGCCATGGCGGTTTATGCTGGCG -GGATTCTGGTGGCATGGGTTTGCGGGTTTATTTTCACCACGCTCTTTGGCTGCCGTAACGTCAATCTGGA -CTGATATCATGAAACGGACAATGCTCTATCTTTCTCTGCTGGCTGTTAGTTGTAGCGTCAGCGCCGCAAA -ATACCCTGTTCTGACAGAAAGCTCGCCAGAGAAAGCAGGGTTTAACGTCGAACGGCTTAACCAGATGGAT -CGCTGGATTAGCCAGCAAGTTGATGTCGGTTATCCCAGCGTAAACCTGCTGATCATTAAAGATAATCAGA -TTGTGTATCGCAAAGCCTGGGGAGCGGCGAAAAAGTACGATGGCAGCGTGTTGATGGAACAGCCTGTCAA -AGCCACCACCGGGACGCTGTATGACCTGGCCTCAAACACCAAAATGTACGCCACGAACTTCGCCCTGCAA -AAGCTGATGAGCGAAGGCAAACTGCATCCTGACGATCGGATTGCGAAATATATTCCGGGGTTTGCCGATA -GTCCAAATGACACCATTAAAGGCAAAAACACCCTGCGGATTTCTGACCTGCTGCATCACAGCGGCGGTTT -CCCGGCAGATCCGCAATACCCGAATAAAGCGGTCGCGGGCGCGTTATATTCCCAGGATAAAGGCCAGACG -CTGGAGATGATCAAGCGCACGCCGCTGGAATATCAGCCCGGCAGCAAACATATCTACAGCGATGTCGATT -ATATGCTGCTTGGATTTATCGTCGAGTCGGTTACCGGTCAGCCGCTTGACCGCTATGTTGAAGAGTCGAT -TTATCGCCCGCTCGGCCTGACACATACGGTATTTAACCCGCTGCTGAAAGGCTTTAAACCGCAACAAATT -GCCGCCACGGAATTGAACGGCAATACCCGCGATGGCGTGATCCATTTCCCGAATATCCGCACCTCCACTC -TCTGGGGTCAGGTGCACGATGAAAAAGCCTTTTATTCGATGGGCGGCGTTTCCGGGCACGCAGGTTTGTT -TTCCAATACCGGCGATATTGCGGTGTTAATGCAAACGATGCTGAACGGCGGGGGCTATGGTGATGTGCAG -CTGTTCAATGCGGAAACGGTGAAGATGTTCACCACCAGCTCTAAGGAAGATGCCACTTTTGGCCTCGGCT -GGCGCGTGAATGGTAATGCCACCATGACGCCGACGTTTGGCACGCTGGCAAGCCCGCAAACCTACGGTCA -CACTGGCTGGACCGGAACGGTGACCGTTATCGATCCGGTGAATCATATGACGATTGTGATGTTAAGCAAC -AAGCCACATTCGCCGGTTGCCGATCCGCAAAAGAATCCCAATATGTTCGAAAGCGGTCAGTTGCCGATTG -CAACTTATGGTTGGGTAGTTGATCAGGTGTATGCGGCGTTAAAGCAGAAGTAATAAAAAGGCCAGTCAGT -AATGTTACTGGCTGGTCTGAGAGTGCTGACAAACGCAAAACTGCCTGATGCGCTACGCTTATCAGGCCTA -CGTGGAGCCCACAATATATTGAATTAGCACGATTTCGTAGGCCGGATAAGGCGTTCACGCCGCATCCGGC -GTGTACAACGCGCACTTGGTCAACAATCTGAGGCCAGTCAGTAATGTTACTGCCTGGCCTTTAATCAATG -AATCAGAAACGCTTACAGCGCCATCAACTTGTCCAGCGACGGTGCGAAATAATAGCCGCCGGTTACCGGT -TTGGTGAAACGCAACATCGCATCACGCTTACCATCGGTATCGCCAAACATGCTCAGCAGTTGCTGCTCAA -TGTTATGCAGACGCGCGCAGTAGGCGCAGAAGTACAGACCGTGAGTGCCACTGGCAGTGCCGTACGGCAG -GCTCTGGCGAACAATCTTCAGCCCTTTGCCATCTTCTTTCAGATCAACGCGGGTGAGGTGAGAGGTTTCC -GGACGTTCGTCGCCGTCGATCTCTTCGTTGGCCTCTTTGGTGCGCCCGATCACCATCTCCTGATCGTGAA -CGCTCATCCGGTTGAGCTGCTTCAGGTTGTGTTCCCAACGCTGGACAAACACATAGCTGCCGCCCGCATC -CACGCCGTCTTTGATAACCGCCACTTCGCGACGCGTCTCTTCACCCGCCGGGTTTTCCGTACCGTCAACA -AAGCCGCTCAGGTCACGCTCTTCAACCCAACGGAAGCCGTGGATCTCTTCTTTCACTTCAATGCAGTCAC -CAAAGGCTTCCATCGCCGCCTGGGCGACAGAGAAGTTTACGTCGTGACGCAGAGAAAGAATGTGGATCAA -CACATCGAACTGGGTCGTCGGCGCAAGGCCTTTACCGTAGCCCGGAAAATCTTTCAGCTCTTCTGCCCCA -ACGCCGCCGCTCAGAGCGCGCCAGGTGTTGTTACCAAAGGCAACCACCGCACCAAGATGCGCGTCCGGGA -ATTTCGCTTCAAAAGTTGCCAGTTTGTCGGCAAATGTTTTACTGGCCGCACGCAGGGCGTCAACTTCCCC -TTTCACGTTGGCTTCGATCCAAATCGCCGCGCGGCAATGTTCTGGCAAAATGCCACTCTGAACCTGAGAC -ATTGTTCCTCCTGAAAATAATAATGCCACGCAATCCGTGGCATTGTTGAGCGCTATTTTACGTGTTTTTT -CGCGGCGGCGGTTTGTTCAGACGCAAATTAACGCCGCCAGATAATTTTACTGACTTTCCAGTTTTTCAGG -GTATCGTCCGAAGGCATTAACCCTTCAGGACCACGCCATTCCCCGCTGAACTGGTAGCTAATATGTTGAC -TGCCTTCGGCTTTACATTCGACGGCACGATTATCATCACCATCAGCTTTTTGGCAATTGCCAAATGCTTT -GCTGTAAAGGTCGCTAAACGGTGTACCGATTTTAACACCGGTGTCAGCAGGAATATCGCTATCCAGCACG -TCAATGCGACTGATCGTGCCTTGATCGCCGTTAATCACCATCGCCACGTTGTCGCCCTTCATCACTTCAA -AAAAGCGCACCACGTTGCCGTTCGCGGTTTTCATTCCGCTGCGCAGGCGATAATCGCCATCAAGCGCATC -GGCAATGGCTTGTTCTTGCAGTGGTGTGGACGCCGTTAATTCACCCACGCCCTGCTCGCTCACTTTGGTG -GACGACCCAAACCAGTTCCACGGGTTAGCGGCAGACCAGTTAACTGACGACATCGTGGAACAGCCGGTCA -GCATCAATGGCATAGCGCATAACATTAAACGCAGCGATTTCATGTCACTTCCTTTGGTTATTCAATAACG -TTGCTTGGAGTGCAAATTCACCAAAAAGTGCCGTTATTCTTTTACTTCATAAAAACAAGCGCGTAAACGT -CGATTGGTCAGCAGCCAGATTAACGCCACAATATCCGCCACTACCAGCGCCAGACCGATACCGCTAACGG -ATTCACCGTTCAGCCACAGCCACGGTTGCCAGCAAAGTAAAACCACCTGCGCCAACAGCAACAGAAAATA -GAGTACACGCCAGGTGCGAGGAAACGTAGCCCGCCGACCGCTCAACAAAAACGCCAGCACCGCCGGAATG -CCAGGAATCAGCCCCAGCCAGAAATTATCGTGATCGGGATAAAACAGATTTAGCAGCGCAGTACCCTGCT -CGCGCGACGCACCGGCAATGACAAACAGCACCCAGGTTCGCGCCTGAAGCAATAGCACAAGCCAGAAGAG -CAAGGGTAAACGCAGGCGACCGTGCGCATCATAATGGACAGGATGAAACTCAGTACTCTTCATCTTCAAT -CAAACGCTTACCCAGACTCAGCACGTCGGCGTGTTCATATCCCAGGCGTTCATACATTCCGAGCACCATG -TCGTTATCTTCCGGCACATTGATCTGAATTTTCGGGCAGCCACGAGCAATCAGCTTTTTCTCCAGCCGAT -TAAGCAACGCATTGGCAATCCCACGCCCACGAAACTCTGGATGCACGCCAAGATAATAAGCAGACCCGCG -ATGCCCGTCATAACCGCCCATCACCGTTCCGACCACGTCACCGTTTACCTCAGCGACCAAAAACAAACTG -ACGTCATGGTTCATCTTACGCTCGATGTCCATTTCCGGATCGTTCCACGGACGCAGCAAGTCGCAACGCT -CCCAAAGGGTGATGACCTCTTCGAAATCTTCCTGGCGAAATACGCGTATCTCCATGGTATTCGTTACCTT -TTTGCGGGTTAAAAGGCTGATTATGGCGTGAACGGTCGAATTAGCCAATATCTGACGAAAATCGGTTGAA -AAAGTGGCATAATGGGGAGTTGTCAACTATTGAAATGAAAAGTAAAACAATTCTCAACAGCAAACCGTCG -TAACGGATTACGCGATACGATATAACATCTGGAACTTTATTATTACAACTCAGGCCGTATGAGCACTTTT -AAACCACTAAAAACACTCACTTCGCGCCGCCAGGTGCTGAAAGCCGGTTTGGCTGCCCTGACGTTGTCAG -GAATGTCGCAAGCCATCGCCAAAGACGAACTTTTAAAAACCAGCAACGGACACAGCAAGCCGAAAGCCAA -AAAATCTGGCGGCAAACGTGTCGTTGTTCTCGATCCAGGTCACGGCGGAATTGATACCGGAGCGATCGGA -CGCAACGGTTCGAAAGAAAAACATGTGGTGCTGGCGATTGCTAAAAACGTCCGTTCCATTTTGCGTAATC -ATGGGATTGATGCGCGTTTAACGCGTTCTGGCGATACGTTTATCCCACTTTACGATCGCGTTGAAATCGC -CCATAAACATGGCGCAGATCTGTTTATGTCAATTCATGCCGATGGCTTTACCAACCCGAAAGCTGCCGGT -GCTTCGGTATTTGCCCTCTCTAACCGTGGGGCAAGTAGCGCAATGGCGAAATACCTGTCTGAACGCGAAA -ACCGCGCCGATGAAGTTGCCGGTAAAAAGGCGACTGACAAGGATCACCTATTGCAACAAGTGCTGTTTGA -TCTGGTGCAAACAGATACCATTAAAAATAGTCTGACGCTCGGCTCGCATATTCTGAAGAAGATTAAGCCG -GTGCATAAACTGCACAGCCGCAACACCGAACAAGCGGCATTTGTGGTGTTGAAATCACCGTCGGTTCCTT -CGGTGCTGGTGGAAACCTCGTTTATCACCAACCCGGAAGAAGAACGGCTGTTAGGCACGGCGGCGTTTCG -TCAGAAAATCGCCACAGCGATTGCTGAAGGCGTGATCAGTTATTTCCACTGGTTCGACAACCAGAAAGCA -CATTCGAAAAAGCGATAAGTTATGAAACCCGACGCACACCAGGTTAAACAGTTTCTGCTCAACCTTCAGG -ATACGATTTGTCAGCAGCTGACCGCCGTCGATGGCGCAGAATTTGTCGAAGATAGTTGGCAGCGCGAAGC -TGGCGGCGGCGGGCGTAGTCGGGTGTTGCGTAATGGTGGTGTTTTCGAACAGGCAGGCGTCAACTTTTCG -CATGTCCACGGTGAGGCGATGCCTGCTTCCGCCACCGCTCATCGCCCGGAACTTGCCGGGCGCAGTTTCG -AGGCGATGGGCGTTTCACTGGTAGTGCATCCGCATAACCCGTATGTTCCCACCAGCCACGCGAATGTGCG -GTTTTTTATTGCCGAAAAACCGGGTGCCGATCCCGTCTGGTGGTTTGGCGGTGGCTTCGACTTAACCCCA -TTCTATGGTTTTGAAGAAGATGCTATTCACTGGCATCGCACCGCCCGTGACCTGTGCCTGCCATTTGGCG -AAGACGTTTATCCCCGTTACAAAAAGTGGTGCGACGAATACTTCTACCTCAAACATCGCAACGAACAGCG -CGGTATTGGCGGGCTGTTCTTTGATGACCTGAACACGCCAGATTTCGACCGCTGTTTTGCCTTTATGCAG -GCGGTAGGCAAAGGCTACACCGACGCTTATTTACCAATTGTCGAGCGACGGAAAGCGATGGCCTACGGCG -AGCGCGAGCGCAATTTCCAGTTATATCGTCGCGGTCGTTATGTCGAGTTCAATCTGGTCTGGGATCGCGG -CACGCTGTTTGGCCTGCAAACTGGCGGGCGCACCGAGTCTATCCTGATGTCAATGCCGCCACTGGTACGC -TGGGAATATGATTATCAGCCAAAAGATGGCAGCCCAGAAGCGGCGTTAAGTGAGTTTATTAAGGTCAGGG -ATTGGGTGTAACTCCCTCACCCCCACTCCCGCATCCGCTGATGCAGCGTCAGTGACGGCTTCTCGGAAAA -CAGCTGCTGGTAATCCGTGGCAAATTGCCCCAGATGCCAGAATCCCCACTGCATGGCGGCGTCTTTTACC -GTCATACTTTGCGACCACGGACTTATCAGTTCGCGGCGTACGGCGTTCAGGCGAATGCGTTTCAGCCACG -CGTTCGGGCCAATGCCTAAAATAGCGTGAAACGCGTTTTGTAGCGTGCGGCGGCTGACATGCAGTTGATT -ACACAAATCCAGCACCGTCACCGGTTCGGACATGTTTTCCAGCACATATTCACGGGCGCGGGAAAGCAAT -CGACGGTAACTCTGATGACTGATGCTTTCCGCCGTCACCATTGGTTGCGCTTCTTCCAGCATGGCCCCCA -TCGCCATTAGCAAATTATCCCCCAGCACTTTTCGCACTGCAGGCTGATGGAGATTTTCCGGATTCTCGCA -AAACGTCGCCAGCGCCTGTTGGACAAAGCCCCACAGCGCGGCTTTATGCTGCTCTTTCACTTCCAGCGCC -GACTGGTTACGCAACATATGTAATACCCGATCCGGGTTATGCAAAAAGTTAGCCTGCCGGGTGATGACAT -CTTCAGAAAGCACCACGCCCAGGATCGTGTAATCATCCGGCGTGCTCAGTTCAAATTCAGTGCCACCAGG -GCGGGTGGCGATTTCCGCGCTTCCCAGACATTGCGAACCGATAAATCCCTGCTCACCGCGCGTCGCCGGA -ATGCCAAACCAGAACGAGTTCGGCCAGACCAGGCACGACTGACGCAGCGCCAGACCGGTGTATTCACGAA -AAACCTGAATATCATCGAGTAGAATTTCCGTAAATTCACCATGAAACTTGCCCGGATGCAGCTGATCGTA -AATCTGCTGCCAGGCGGTAATCGTTAAAGCATGTTCATAGACATCCGTTGTCTGTCGTTGATGAACATTA -TCCACTTCGACCTTCGGCGTGAGCTTCAGGTTTTCGGGTAAGGGTTCATGATAAAGATGGTGCAAATTGG -CTGTACGGGTCTTTTTCATGATGTTAATGCCGGGTGTTGTAGGACACCCGGCACCTCCGACAGGTTAATG -GGGCTTGAGACGATAACGACTACTGCGTTTACGTAACGTCCCGGCAGAAAAGAGCTGTTCGAGCGCATTT -CTGGCTTTTTCCAGCGGCCAGCCAAAGTGGGCAGCCACTTCTCCTGCCGTCATTCCCTGACGTACTGATG -TTAACAGCGCCAACAACTCGTCAGCAGATTCCGCGACGATAACTGGCGCGTCGGGTTCCCTTACGGGTTG -CTTCGGCTGGCGGTTAAAGCCAGTAACCAGCCACTGGGTGTCATCGTCTGGCCGACCGATCTCCTTGCGG -CTGATGACACGCCCGGTACGCATCGCGGCAGCACAACCTGCGTCCAGCGCCGCACGACACGCCGCCAGAT -CGCCTTCCACCACCAGCGTTAAGCGACCAGGGTCAAGCACTTCGTGACTGAGCAGACGAACGTTAGCTGC -TTTGAGCATGGCATCCGCTGCATCTATCGCGGCGACCATGCCGTCCACTTCCAGCAATCCCAGTGCATTG -ATCATCGGCAACCTCCGTTACGCACGCTGGATTGGATTACGCGCGATTTCCAGCACTGCATCGGTAAAGG -CGTTACAGGCTGCTTTACACGCTGCCTGGCTACCGGTTAAAAATGCTGCCGAGTAGTTGGTTTCAGACGG -TGGCGGGACATAGGTCGCCAGCTGTACGTCGGCAGACTTCAGGGCTGCATCAATGCCATAGGTCGCTTCC -AGCGGCGGTGCCACCAGATACGCCATCGGATCGCCAAGCGTGATCCCGGCGGTTGATGAGAGATAAGAAC -CGGTACGCGAAACTACATGTGCCAGGAATGCCGTATCTTGCGCGTCATTAGCCCACTGGAAAGCTGCGCC -ATTTTCAATATGCGCAATCATCGCATCCAGACCTGCACGCACTTCCGCCGGGTTTGGCCCACCAAGCATA -ATCAGCACTTCACCGGCAGTCGGTGACGGGCCGTGTGCAGCGCCCGCATATAGCGAGCGGCCATACACCA -CTTCCACCATCGCCTGCTTGGTCGCTTCATCAGCGGCAATGTAGGTGACGTCATCGGAGTCGGCAGAAAT -CAGACCGAGGCTACGAATATGCGGCGGCAATTTCAGTTCACGCGCAAAATCGGCGTTAACGGAGGCAATC -ACCCGCATAGCGGTGACAGACGGTCGAATCAAATCTAAAGCTGGCATGATGCCTCCTTATCGGGTCATGT -TGATGCCGGATGCTTTCTGCTCCAGCATACGTTTCGCCAAATCCACAATGACGGCTGCGGCTTCAACCGG -CGGCGTGCCGCCCTGGTGAATGTTAGAGATACAGGTGCGATCGGCCTCAACGGTGGTCGCCATACGCGGC -GAGTAAACGGCGTAGCAGGAGAGGCTTTCTGACTGACCCAACCCCGGACGTTCGCCCACCAGCAGGATCA -CTACTTTCGCGCCGAGGATCTCACCGATCTGATCTTCAATCTTCACGCGACCATAACGAACAAAGAATGG -TGTACCGACTTTCAGCCCGGCCTGTTTCAGGCCCGCCATCAGCGGTGGCAGGATCTCTTCGTAGTTCACG -GTGATCGCATCAGTTGACAGGCCATCAGAAATAACGACCTGTACGTCCGGATTGGCAACACACTGCGCTT -TCAGCGCTTCAACAGCTTCTGCACACAGGCGGCGGCCCATATCCGGGCGAGTCAGGTAGAGATTTTTGTC -GCTAATTTCAGAGCGTACTTCCAGCAAGCCCTGCGCTTTCACCCACTCTTCCGGCACTTCTTTCAGTACG -GTATCTTTCGAACGAGAGTGATCGGCCAGGAAACGCAGCAGCGCCTGCGTACGTGGACGCGGACCGGCAC -GACCGGTACAAACGCGGGCCACGGTGCTGCGGCGCAGTTCTGTTAATACGTCTGCGCGATGCGGATTTTC -AACACCAATCCACGCTTTTGCTTCAGCGGAACCTAAATCCAGCGCACAGCTTTCCGAGGTCACCGGTGCC -GCACAGTTGGTGGTGGCGCACTTTGCTTCTGACGGCGCGGGGGCCGCTTGTCCCATTGACGCCATCACGC -TGCGTACAATTTCTTCAATCTGTTTTTGATCCATGATATGTTATCTCCGCGTCATCAGAAGAACAGTGAC -GGATCGCCCGCCCGTTTGGTCAGGCGACCGTTTGCCATAATGCCCATGCTTTCCAGCCAGCGTTCAAACT -CCGGTGACGGGCGCAGGTTGAGTAACTGACGCACAGTGGCGGTATCGTGGAATGCGGTGGTCTGGTAGTT -GAGCATGATGTCATCACCCAGCGGCATCCCCATGATGTAGTTGCAGCCTGCGGTGGCGAGCAGGATCATC -AGGTTTTCGTTGAGGTTCTGGTCAGCGTCAGCGTGGTTGGTATAACAGCAGTCACAGCCCATAGAGATGC -CGCTCAGCTTGCCCATAAAGTGATCTTCTAAGCCAGCACGGATAATCTGGCGGTCGTTGTAGAGATACTC -CGGCCCAATAAAGCCGACCACGGTGTTGACGATAAACGGATCGTAATGACGCGCCAGCCCGTAGTTACGT -GCTTCCATCGTTACCTGGTCTGCGCCGAAGTTAGCGCCAGCGGATAGCGCAGAGCCTTGTCCGGTTTCGA -AGTAGAGGCAGTTTTCCCCGGCGATACGGTTGAACTCCGCGCCCACTGCGCGCGCTTCGTCGAGCATCGC -CAGCTCCACGCCAAACTCTTTCAGCCCTTTTTCGCTGCCACAGATACTCTGGAAAATCAGCCCGCCCGGT -GCGCCACGACGGATCGCTTCGATCTGGGTGGTGACGTGCGCCAGTACACAGCCCTGAGTTGGGATGTTGA -ATTTGTCGATCACGCCATAGATGGTATCCAACACGCGGCTTAAGTTTTCCACGTCGTCAGTCACCGGGTT -AACGCCGATCACCGCATCGCCCACCCCGAAGGAAAGCCCTTCGTAGATTTGCGCGGCGATACTTTGCACG -TCGTCACGGGTGTCATTTGGCTGCAAACGGGCGCTAAAGGTGCCCGGAATACCGATGGTGGTATTGGCCT -TTTTGATTACCGGCATTTTCTTCGCGCCGTAGATCAGGTCCGCGTTGGAGCAAATCTTCGCTACCGCCGC -GACCACTTCCGAGGTCAGCCCTTTGCGGGTAAAGGCAATGTCGTCCACGCTGGTTTCATCGCTCAGCACA -TACTCACGCAGTTCGCTGATGCTCCAGTTTTTAATCTGGTTGTAGGCCGTTTCGTTAACATCGTCCTGAA -TCAGCCGCGTCACGCAGTCATCTTCATAGGCAATCACCGGATTATTGCGGATGTCCGCTACGGTCATTTC -CGACAACACCTGCTTTGCCGCCACGCGCTCCTGTGAGCTTGCCGCTGCGACGCCCGCCAGCACATCCCCC -GAACGCAGTTCGTTGGCTTTAGCCAGCACCTCTTTTACATCCTTAAACTGATATACATTGCCGAACAATG -TGGTCTTTAGTTTCATAAGTCGTTCCCTCAGGAAGAATCGATGATTGGCATTTTTCACAGCATTCTAACA -ATCACGTTTCATCGTCAGCCCTTGTCGTGTAAGGTGGTTGCCTAAACACGCCCGTTATTCATCACGCCGA -ACGCGCCGGATACATGATCGGGGTTATCCAGTCGTTAAATCAAGGTATCCGGTTTTGAGCAAGACACCAC -TCACAGCAAAGGCCATAGACGCCGCACAGCCGCAGGACAAGCCCTATAAACTCACCGATTCACTGACGCC -GGGGCTGTTTTTGCTGGTGCATCCCAACGGTTCGAAATACTGGCGATTCAGGTATTGGCTGAATAAACGA -GAGTTTTTGCAGGCCATTGGAGTTTACCCGCTAATCACACTCAAAGAAGCACGCAGGCGCGCCACGGAGA -GCAGATCCCTTATTGCCAATGGAATTAACCCAGTGGAACAAGCCCGCAAGGAAAAAGCCATTGATGCGCT -CAACATGGCGGCAGGATTTAAGAAGGTGGCGGAAGACTGGTTTGCTACCAGGGTTGGAGGGTGGTCGGAA -TCCTATGCAAAACAGGTCAGATCGGCACTAGAAAAAGACGTCTATCCGGTACTTGGCAAGCGGTCGATTG -TCGATATAACCGCCCGTGACGTGCTGGCATTACTCCAGAAGAAAGAACGTACCGCACCGGAGCAGGCCCG -CAAGCTACGCCGGCGCATCGGTGAGATCTTCAAGTTTGCCGTTATCACCGAACTGGTAACGAGGAATCCG -GTTGCAGATCTTGATACGGCACTGAAGGCCCGCCGACCTGGTCACAACGCGTGGATACCGATTAGTGAAA -TTCCGGCCTTCTACAAAGCCCTTGAGAGGGCCGGGAGCGTCCAGATTCAGACGGCAATACGTTTGCTTAT -ATTAACGGCATTAAGGACCGCAGAACTGCGTTTGTGCCGTTGGGAATGGATAAACCTGGAGGACGCAACA -ATCACATTGCCCGCTGAAGTCATGAAGGCCCGCCGCCCGCATGTGGTCCCGCTATCACGGCAGGCGGTCG -AGCTATTGCAGGACCAGTTCACACGCAGCGGATACAGTGCTTTCGTCTTTCCAGGCCGATTCATGGATAA -ACCCTTGTCAGCCAGCGCGATACTTAAAGCGCTTGAGCGTATCGGGTACAAGTCGATAGCCACAGGCCAC -GGCTGGCGCACAACGTTCAGCACCGCACTTAACGAATCAGGCAGATACTCGCCGGATTGGATTGAGATCC -AACTAGCCCACGTCCCGAAGGGAATAAGGGGCGTTTATAACCAGGCTGCCTACCTGAAGCAACGGCGAGC -AATGATGCAGGATTACGCCGACGCTATTGATTCAATATTGGCAGGTAACGGCAATCCTCTAGAACCGGAA -TGAATAATTAAGCGGCTTTTTTGCAAAGCGCAATTTTGCATTTTGTATAAGTATTTGTTTTGTGTGGTTT -AACTATCACCTGATAAGAAACCTGTATTCAATTTGCCGGATTCGTCCGGCTTTTCTTTTTCGCTAATTAT -TCCATTATTCCAATTAAGTGGAATAAATTATTCAATATCAAGAACTTAAATCCATGTTTGCAACGAAAGA -TCCAGAGTTCGAAAATAGGATCAACACAAATAAAAGCCCCCGGAATGCTGCAACATGCCGGGGGCGGTAT -GAGAAACAAGCTAAAGGAGAATTTCTCATGTCTGATATGCTAGCAGTAGAACAAGAAACAAACAATGATG -TTCGTCAATTTTTAAACAAAATTAACGAGTTACGGAATAAAGCACCCAAAAACGAAGAGACTAAACACGA -AGAACACACGCCAGATAATCACGAGGAAACAGATCATCACGAGGCAAAACAGCAGGAGCAAGCCTGGCGT -GGCAACCTGCGCTACCTGGACACATTAAACCGACTTGATGAAGTATTGCCCCGCAAACTGTACGAAAGAT -GGGAGAAAGAACATACAGTCAACGACGAGGCTGTGCTACGTGCTCTTTGTTACTTCGCTGGTACTGGCAA -AAACTCACAGTTGGGATGGTGCAGGGTTGGTAGGGGAACAATCGACAAACGAGCCAGGCTATCAAAAAAC -ACGGTTAAAAAATGCCTCGATCGTCTGGTCAACCACTTCAAACTTGTTGAGCGTACTGAAGGCTATATAC -CAGGATCGGCAGAAAGGGAGTGCAACGAATACCAGTTATTATTCAAGCCGTACAACATGAAATAACGGAA -TCAGGCGGGCAATGTTCCCGCCTTTTCTTTGCCTTAATTCCATGAATTCAGGTGGGTCAAAAGTTGCCGT -TAGTGGTGGGTCAAAAGTTGCCGTTAAGGTGGGTCAAAAGTTGCCGTTAAGGTGGGTCAAAAGTTGCCGA -GTAAGAATTCTACTATTAAGAATTCTAGGCGACGGGAGTTTTTTAGCCTCCCGGTCGGTCATAGAGAGTC -GCCTAGAGTTAAACAGAAGAATTATTTCGCCGCCTGATAGGTCGGCTGGTTGCGAGCATTAACCATGCTG -ATTAGCGCAATCATTTCCAGCAAGCTGGAAACGCCCATTCACTCACGCACAACCTGAACAGCAGACCAAC -AAACCATCATGGCATTCGTTCATGGGGAGCGCGGTATATCTCAAAGGGTGATTTCTTATTGGTGGGCCTT -CGGAAGGCTTCGAGCAATTGCCAGCTTAAAAGACGGGCTTAGCAGTGATGGTTATCCGCCACGAATGTCC -GTCATATTGCATTGCGCAGAAACGCGTGGCACTGAGGGAGTTTTCCGAATTAGTTTTGGGGACCCTTTCC -CTGCTTCTGGAGCAAAAGACGAACGGCAAATGCAGTGCTTCCTTGTACGACTGCAGCGAAGAAGAAAAGC -TGTTTGTTAAGCGCCTGAAGTTAATCAAAGCGGATATCCACGCCCAGCTGAAGGCCTGTGATTGCGATAT -TTCTGAATGACAGGTGGAATCATGAAACACGTTTTTAAATATCTTGATTTTGCAGAAGACCGCGAACACG -CAGAATCAGTGGCGACCAAAGAGTTAAAACTGGACCACGTAGAAAAATTCGCTATCCGCGATCTAGCCAA -TGATATCAAAGAGCGTGGGTGTGTTGAGCTTGTCCAGCCTGGTGGATTCGATGAGCTGGTTCAGATCTAT -GAGGCCGGAGGCGATGGAATAGAGCCACTCAATTGTGGAATCGAATCAAGGAAGGTGGCAATTGCTGCCC -TGCTTCGCGTCATGCGTGAACCAGACTTTCAATGCCTGGAAATGGTTCACGAAATCATAAGAATTGCTAG -AGATTTGGAAGCGCCAGTTGACGCTCCGTTAGATTGCTAACGCCAAAATTAGCGCTGAATTAATGGGTAA -TTATTGCGGTTTTTGTCAATTTTCAACCTCAATTCTTGCGAAAAATGGCAAAAATAACGGTATTTTTCAT -CATTTATTGGGGGTTTTATGGAAGGCGAACTGATAGAAAACAATGGGTTAGACATTTATGACACCAGCGA -AACACCGAAAAAGCGCGGTCGGCCAGCTAAATATAATGAAAAAATAGCAACGCAAATCGTCCTATTGGTA -AGCGAAGGTTATAGTTTGCGCAAGATCAGCATGATGCCAGGGATGCCGAGCCACCGTCAGATGATGCGCT -GGCAACTGGAGCATATGGACTTCAGGGAAGGGATAGCCTGGATGTCGTGGCTATGGTGCGCTGAAGCTGG -CCGACGTGCCGTCGAGATAATCGACGAGGTTGATATAAACGCAGAGGATGGGCCGAAGCAGTTGCGCAAA -GCAGAAGCAAAGGCAAAGGCACTACTGGCAGCAGCCAAGCTGAATAGTTTGAAACATTCACCATTTGGAG -ATGACAAACAATGAGCCTGATCCGCACTGAAACCAGAGACACAAAACGCGCAGCTGACCCACTGCACGAC -CTGCGTAGCAAGCCGTTTTCTGAGTGGGGCGAAGATGAAATCAGGCGTTTTAATCTGATAGACGCGCTTC -TTGAGTTTGTCTACACAGACACATCCAGCCCGTTCGGTATCGGCATGACCTTCGATTACACGGAGTGCTG -GGAAATTGGTGTTCGTGACGACTGCCTGGTAATGACACGCGTTAAGCCGGTGCATCCAGAATATGCGAAG -CACTGGAACATGAAAGGCGTCATGAATGACAAAACCCGCTTCCACGCCGACAAGTGGGTAGGGTACAGCA -AGGTGCTTGCCTGGGTGAGCTTATCGCACAAAGACACCTTCACGGGTGCGAAACGGTTTCAATACTTCCA -AACGATGTACGACATGGAACGGCAAATCAACGCAAACCTGCCGGTTGGCGGCCTTCCCAACGTTGACACA -GAGCGAACTGGCAAACTGTTCCAACGCGATGACTTTTCTGAGGATAGCCATGCCAACGATCCGAAGTTGG -TTGGTGATGATTACGTCCCCCAGGCACCGGAGCAAATCAACTGAATTTTCGGACAAACGCGCGCGTAGCC -GACGTCAGCGGCAAGACTGGCGGTCATTTCCCCGCTCCTACGCGAAAAATCCCTCACAACTACCCTGCAA -ATTTTCCAGATTTCACGTACACGCGCCAAAAATAAAGGCCCAGGCAGTTAGCAACCTACCCGGGCCTTTC -TCACAATCCCCGCTGACATTATATCACCCATCTTTCCGTTTTCAGGTGGGAGACTGATGGCCGCCGACGT -TGCACAATTGATTAATTTCTGAACATTCAAATCAACTCCCACCAAAGCCAACAAGATGGGAGGTGAATTT -TGTGATGCAGATCGCTTTTTCCCTTCAGGCATTTTTGTTTAATTCAATCAACGAAAGGCAGTTCCCAACA -ACAAAATAAAGATGGGAGGTAAAAATGAAACGGTGGGAAGTGGCTTTACTGGTGATGGTAATGTTGGTTT -GCTGTATTGAACTGTGAAGGAGGACGCCATGAAACTTTTAATCGCAATCATCCTGATGGTGCTGACTGGT -GTTTGCTTTGCAGATGTTGGTGATTACAGGCTGAACGGGGAGGATAACGCAAGAATTGAATCAGTCGTTA -CTGATAACTGTGAAAAAACAGCCGTATTGGTAGGCGGTGACAGGCTTGCGAGGGTTGAGATCGAATATAT -AGCGACATTGTGCAAGCCGGTGGCTTTGGTGATTATTTACGACAGATTTGACGATATAGCGGCAATCCCT -CTTAAGGTGACGTTGAAAAAGGTATTGAAAGAGAATAGCGATGAAAAGATTAACCTATTGAACAAGATGG -GGGATCTGGCTGGTCGTATCGTTGCAGAGCAGTATTTAGGCATGAGTTTTGAGTAAGGAGGCAATCATGA -AAGTGTTAGGTAATATTTTATGGTGGGCTTTTGTTGGTTTCATGGCTTACGCCACTTTGATTAAGCCGGA -CAACACTGATCCAGCTGTTGTGAACTATGAAGAGCCTTTGCCTATGGAGCTTGCCAACTATGGCGAACCA -GGTGAAGGGGCGAAAATCATGAATGCCGCAAAAATAATGGGTCGCGACTACGCATGGAAACATGTAAAAG -AAGACAGGTTGCCATGTCTGTTTGCCGCCGGGGTTGTTGCTGATAACATCCTGGTAAAATACCATTTCAG -CAATGAAACTGAGTTCAAACTTAAAGCGGCAGCGGTCAGAGAATGCGCCAACGTAGCAGAAAACAACGGC -TTTGTTTTGGTAGGTAGAGTATTTGAAAAACGTAATTGATTGCGAATAGCAACAACTAAACAACCAATAC -ACCCGGCCCCTCGCCGGGTTTTTTGTGATCTGCGTCAATATTCCCTTCCGTTACGCTTACCCTCCACCAA -TACGCGTGTTAACCTCCCAATGGATTCTATGAGATGGGAGATAAAAATCATGAGTTACGAAATCAAAATT -TGCGACATCCTCAAAGGCGCTGCGATGGAAGGACAATATAAGGGCGCTCAACGTGGGGCCAAATGCGAGG -AGATCGCAAACGAGTTAACTCGCCGGGGAGTTAAAAACAACAAGGGAGAGGTTATTACTAAGGGCGGCGT -TAGCCATTGGCTGGAAGGTAGACGGGAGCCAAATTTCGACACTCTGGCTGAACTGTGCGACATGTTCGGC -GTTTATGCCCTGATGCCGATGCGTGGCGGTAAATGGATTCGAGTTCACCCGGAAGACCGTGGAGAAATGG -AATTACGCGAGGCTGTAGCTGAACGAGATGCTATTATCGACGACCTGAAGGCCCGTATCGCTGAGCTTGA -GGCGGCACTAGCAAATAAACAAGTCCCAGCAGAAGCGGAAGAGATGGGAGGTGAAAAAGTGGAAGAAGTG -GCAGCAGAGCAAGCGCCCAACGATGAAAAAGAGATGGGAGCTAAGGAGTGGGTTAACCCGAACCCGAAAA -AATACAGCGTCGGCATGTTGTGTCAGGTACTGGCTGCAATGGGCGGCGAATACCTGGGCAACAACGCAGG -GTTACAGCAGAAGATCACTGTGTTGGATAACGACGGCAACCGGAAGCCAATCAGTAACGGCGCGTTTTAT -CGACTGATTGAGCAGGCCAAAGGGAGAGGATTGATTAGCGTTGAACAGGAAATCAAACACAAGAAAGACG -AAAACGGCAACCAGATCGGCAAAGGCAAGAAAGGTGACAAGCTGATAACTTTGCTTCCCAACTGGATTGA -TAAGCTGGGAGACGAATAAACCAGCCTTCAACCCCATCTCATCAATCAACGCCCGGCCCCGCTGCCGGGT -TTTTGCTATGCACCACAATTACCCCAACCGGATACACAGCCGGATACAATTCCACCAGCACCCAGCCACC -CAGCGCCACCGCTGGCGAATACCGCATTCAGGAAGGAAATGCGAGTGATTTCACCGTCACCGGCACAACC -GATCCGCCAAAAAGAGGCGTACCAATGTCGATATAGTCCCCCGCGCGGACAATCACTTCGTCAATGACTG -CCAACGGGAGTTGTTGTAGCTGTGGGCGCAACAACATGCCCAGAGCTTTACCAAAGTCCTGCCCGGCCAC -CACCAGCAGGGGATGCGGATTCGGAAAACGCGCGACGAAATCGACCAACGCGTTGATGACCGTCAGTACC -GCGGCGTAACGCACAGGCAGCGAGGCGGGAAGCGCCAGCACGTACGCGTCAGTTTTGGGATCAAGATCCA -GCTGAATCAGCGCCTGTTGCCAGGCCCCCACCAGATCCGTTTCATCAATCGGGATCGCCACCGGCAAATT -GCGCAGCGGCAGTTGTACGCCCTCAAGCCAGATTGTGCTGCCAGAGAGCGAAAGGGTATGCGCGCCCGCG -CCAATCACCGTGGCGCGCACGGTTTGCGCCGGAAACTGTACGTTCATCTCACGCAGGCGCGGATGGTCAT -GCAGCGCAGTTGCCAGCAGCGGGCCAATATCGGCAAAACAGAACGGGTCGGCGGGCTGGTGGCGATAACA -TTCGCCCACGCCGCCAGAAAGCGTAATGATTTCGGGCGTAACACCTGCGGGCAGCAAACCGGTTTGCATC -AATGCCTGCGCGAGCGGTGAGAGCGTTCCGTCAATCACTTCGACAATCAGTTCTGCCATCCGCCGGGTCA -CCTGCACCAGCTGCGCGCCGGTCAGCGAACGGGCGTCGGTGCCTGCACCGAAGCACTCATCCACAATCAT -CTGCCCCGGTTTATGAGCGTAAACCACGCGCCCGTGGCTGTCGGTTTCCAGCAGGCGACCACCGACGTTG -AGGCAGGCAGTGCCGCTGATTTTTCCGGCATCGAACAGGGCGTAGTTCGCGGTGCCACCGCCGATGTCGA -TATTCAGTACCCGACACAGCCGTTGTTCAGAAAGGGTTTGTGCCCCGGCTCCGTGACCGGCGATCACGGA -TTCGAGGTGCGGCCCGGCGCTGGCAACGACAAAATCGCCCAGCGACTGAGAGAGCGCCATCACCGCCGGG -CGAGCATTGCGGGTTTTCGCGCTTTCACCGGTGATGATGATGGCACCAGAATCAACGCTTTCCGGCTCAA -TACCCGCAGCATGATATTGCTCGAGTATTAAGGTTTTCAGTTCCGCTTCTTTTAAACCGCCCTGTTTATC -GACAGGGGTAAAGAACACCGGACTTTGCCAGCTAATTTCGCGTTTAATGAATTCGTAGCGCGGCACCTGC -GACACCGCCGCACGGTTAACCAGCTCCAGCCGGGAGAAAATCACCTGGGTGGTGGTGGTGCCGATATCGA -TACCGACGCTCAATAGCTGGCGAGTGTTCACGATTGTGCCTCCGCTTCGGTTTTAGTCGCGGTCGCGTCT -TCTTTTGGCACCAGCATCATCGCCACGCCAATCGCCGTTACGCCGCCGATCAACTTGCCGACAATCATCG -GGAAGATCATGGCGTTCATGTTGGCAGCGGCGAAGCCTAAGTGGTCGCCCAGGGCGAAAGCAGCGGAAAC -GGCGAAGGCGCAGTTGATGACTTTGCCGCGGGTATCCATCTGCTTCATCATGCCGAACATCGGGATGTTG -TTGGCAAGCGTTGCCACCATGCCGGCTGCCGCGATGTTGTTCATATTCAGTACTTTACCGACGCTCATCA -GCGGTTTTTCAAACCAGCGAGTCAGCAGCAGCACCATCGGATACGCCCCTAACAGAACGCAGGAGATAGA -ACCGATAACTTCAATGGCGCGCATCACCTCACCGGGTTTATCGCCAGGGGCCATAAAGATAGGATCCAGA -CCGGGGATCAGTTCCCAGCCAAGCAGGAATTTCACTACCGCAGCGGCAAGACCGAGGGTGATCAATGCAA -CGAGGAATTTGGCGAAGATCTGGAAGCCGTTGATCATTTTTTCCGGGATGAATTTCAGCCCCAGCGCCAC -CAGAATCGCAACAATGATCACCGGGATCATGTTCATCAGGATCAGGGCGAAAGTGAATTCCACCGGCTGG -CCGTTGATCTGCACACCGGAGTACATAGCAACCAGACCACCAGCGATACAACCAATCGGAATGGTCACAA -TGCCCGCCAGCACGCCGAGCGCCAGATAACGACGGTCAGAAGGTTCGATAATGCCGAGCGCCACCGGAAT -GGAAAACACAATCGTTGGCCCCATCATCGACCCGAGAATTAACCCAGAGTATAGCCACGCGGCTACGTCG -CCGCCCGCCAGCTCTTTGGCGAGGAAGAAGCCGCCCATATCGCACGCCAGCAGTGTTCCGGCGAACATCG -ATGGGTTAGCGCCGAGCATTTCGTAAACCGGAATAATTACCGGCCCGAGAACGTGAGCCAGTACCGGTGC -CAGCGCGGTCATACCGACCATCGCCAGGCCCAGTGCGCCCATTGCCATAAAGCCTTCTTCGAACTGACCG -CCTGATCCTTCGATACTTTTACCGAACTTACCGAGGAAACGAGCAGAACCGCCGAACTGCGACAGGATCC -TGTCTACGGCAGCTATCAGCATAAAGAACATCATGATGTACATGATGATTTCGTTAATTCCCATCGCCTT -TACTCCCTGTTAGTTGTTATTTATTGGCGGATGCGGCGTAAACGCCTTATCCGCCCTACATGTGCAATCC -CGTAGGCTGGATAAGACGCGGCAAGCGTCGCATCCGGCAATTGCACCGCGCCACTGGCGGATGCGGCGTG -AACGCCTTATCCGCCCTACATGTGCAATCCCGTAGGCTGGATAAGATGCGGCAAGCGTCGCATCCGGCAT -TTATTGCGCCGCTGCGTACAGGCCGACAATCTGCTCCAGGCTGGCGGTACGCGGGTTACTGCGCAGACAA -ATATCTTCCAGCGCGGCCTGCGCCCATGCGCCGTAATGCGCAGATGTCGCACCAACATCGCCCAGTCGTT -TACCAATCCCAACTTCCGCAATCAGCTCACTTACCGCGTTAATAGCGTCACGATCGTCGGATTTTTTAGT -TCGCAGTGCCCGACCAATCTGACTAAAGCGTTCACGACAAACCATCCGGTTAAATTCCATCACCGTTGGC -AGCAACATGGCGTTCGCGAGACCGTGCGGAATATGCAGCGCCGCGCCCGGCTGATGCGCCATCGCGTGGC -ACAACCCAAGACCCGCACTGGAAAACGCCATTCCCGCCATACATGAAGCCAGCAACATGCTCTCGCGCGC -GGCAAGGTCGTGACCGTAGCCCACCGCTTTCGGCAGCGATTTGCCAATCATCGCAATGGCACCAATCGCC -AGACTGTCGGTAAACGGTGTAGCGTTCAGGGCGCTGTATGCTTCAATGGCATGGGTTAACGCATCAATGC -CGGTCATCGCCGTGACATGCGACGGCACACCTTCGGTCAATGCGGCGTCGAGGATCGCCACATCCGGCAT -CAGCGAGGCATGGGCTAACACCTGCTTGCGCCCGCTCACCGCGTCGATAATCACCGTTACATTGGTGGTT -TCAGAGCCGGTTCCGGCGGTAGTTGGAATGGCAATCAGCGGCAAGCGCGGTTGCAGAACGCTGGTTTCTG -ACATCTCTGCCAGCGTGCTATCCGGGTTCGTCACCAGCAACGTCACGGCTTTCGCCGCATCCAGCACCGA -GCCGCCGCCAAACGCGATCACCCCATCACAGCCTGACTCACGCAACTGCGCCACGGCTGCACACACGTCG -GTAATGCACGGTTCGCCCACCGGACATGGCCAGAGCGTCATGGCGATACCTTTAACGGTCAGGCTACGCG -TCAGCCCGGCGGTCATCCCTGCCTGATGCAAAAAGCTGTCTGCCATCACGAACAGATGTTTCAGCCCACG -CGTTTGCGCTTGCTGTCCGCAACTGCTCACCGAGCCCGGACCGCAAAGCGTCACCGGTGGAACGCTAAAT -GTTTTTACCCGTTGCAGATTCAGGGTATCGAACGCCTGAAAGAGCGCGGTCTGCAATTCATTTTGCATAT -AGCCCCTCCGCTTTCTCTCGCCCACTACTGGCGATCGCCAGCGGGGTCATAAACAAACTGTGCTGCGGTA -AATGCACCTGTAACGCCGGGAATTGTTTGCGAAACAGTTCCGCCACGCCCGGTTGCATACAAGAGCCGCC -CGCCAGCCATAAATCAGTAATGCCCTGCCCTTCAATATGCCGGGCGACAATGTCCGCCATTTTTTCGTAC -ACCGGTTTCACCGCAGGCCAAATCTCTTCACCGTGACCGCGCTTGTACTGCTCCGCCTCTTCCAGCGAAA -TACGGCGATTTCCGGCGAGAGTCAGAGAGATGTGATGTCCGCCGGTGGCTTCATCCGCCGAGTACGTCAC -CTTGCCCTTTTTCACGATGGCAATGCCGGTAGTGCCGCCGCCGATATCCACTACACCGGCGTTGTCCAGT -TGCAGCAGATCCGCAACTGCGGTTGGCTCATCCAGCACATGGCTCACTTCCAGTCCGGCAGATTCCAGCA -CGTTGATGGAAATACGCGGGTCCGTACCTGGAGGAAATGAAGTCGCCGCATGGCTAAAACGACGACCGAA -TTGCTGCTCGAGCGTGTCGAGATGGCGACGAACAATGGTGACAGCGCCGAAGAAATCCCAGACGATGCCG -TCGCGAACCACATCGGCCCAGTCGAGGCATACCGCCACTGGCTGACCGTCGCGGTCGACAACCATCGACA -CCACATCGCAGGTGCCCAGATCCACCCCCAGCCACAGCGGAGATTCCGTCGCGGCGGGCGTCTGGTTACA -CAGCGTTGCCGCCGTTTGCAGACGTGGGGTGAGCCATTGTTCGTCGTGCGCCATCTGTTACTCCTTAAAC -AATGCGAAACGCATCGACTAATACACAGCGACGCAGACGGACAAACGTACGCGCGCTGGTTACCCCTTCA -CCGGTTGGCGTGGTGATGGTCATGGTGGTCCAGCCTTCCCCGCCCAGCCCCAGCCCGGCAATGCACGGTC -CGTTCTTAACGAAAATGCTGGTATCAATAGCATTCGCCATCTGGTTCATGTTTTCGATGTTGCGCGAGTG -CATTGCCGCCGTGTGGTGGCAACCGCCTTCCAGTTTCACCGCTAGCGCAATGGCATCCGCCACGTTGGCG -ACGCGCACGACGGGCAACACCGGCATCATCAGTTCAGTCACGGCAAACGGATGTTCTGCGGTGGTTTCCA -CAAACAGCAGGCGCGTTTCTTGCGGAACTTTAAGGCCGATTGCCGCCGCGATTTTGCCTGCGTCGCGACC -AACCCAGTCACGGCTGACGGTGCCTTTTCCGCGCTCGTCGATATTTTTCAGCAACACCGGTTGCAGCTGC -TGCGCCTGTTCTGCGGTCAGTTTCACCGCGTGCTGGCCTTCCATCAGACGCATCAGTTCATCGGCTACGC -TATCAACAACAATCAGTACCTTTTCGTCGGCACAAATGATGTTGTTATCGAAAGAAGCGCCTTTGACGAT -GGACTGAGCGGCACGGGCGAGGTCGGCGGTTTCATCCACCACTACCGGCGGGTTGCCAGCGCCTGCGGCA -ATCAGACGTTTATTGGTGTGTTTACGCGCCGCTTCTACTACCGCTTCGCCGCCGGTTACCACCAGCAGGC -CGATACCCGGAAACTTGAACAAGCGTTGCGCGGTTTCGATATCCGGATTTGCCACAGTAACCAGTAAGTT -TTCCGGCCCACCTGCGGCAACAATCGCCTGGTTGAGCAGCGTAATCGCCCGCTGGGAGACTTTTTTCGCC -GCCGGATGCGGGGCAAAAATGACGCTGTTGCCCGCGGCAATCAGGCTGATGGCGTTGTTAATTACGGTTG -CCGCCGGGTTAGTGGAAGGCGTCACCGAAGCCACCACGCCCCAGGGTGCGTTTTCAATTAGGGTCAGGCC -GTTGTCGCCAGTCAGCACTTGCGGAGAGAGGCACTCAACGCCTGGTGTGCCGCGCGCCTGAGCGACGTTT -TTTGCAAATTTATCTTCAACGCGCCCCATGCCGGTTTCACTGACGGCAAGTTCCGCTAAATCTCTGGCGT -GTTTTTCGCCTGCTTCACGAATGGCAGCAATGGCTAACTGGCGCATTGCCACGCTTTTTAACCCTTGCTG -GGCGACTTTGGCTGCCGCAACGGCGTCATCCAGGGACGCGAAAACGCCCATCTCATGAACGGCGGCGGAC -GGCGTGTCACTGCTTTGCATTTTCAGCAGTACCGCTTTCACCACCTGTTCAATATCCTGTTGATTCATGA -TGTTCTGCCTTATTTGTGGAAAATTACCTGACCGCCAGACACCACCTCATCGACAATGCCAATCACGCAC -AGATCGACCGGTGACGTTTCGCTTTTATGCGCCTGGCGGGCGGAACTGCCACTCACCAGTAACACCCACT -CCCCGGTTCCCGCGCCAATATTGTCGATGGCGACGGCGCATTGCCCGTCAGGATTACCTTGTGGATCAAT -CATTTCCACCATCAGCAATTTGTCATGCGCCAGTCCGTGATGGCGTACGGTACAAACAATTTGTCCAGTG -ACGACTGCCAGTTTCATACCCGCCTCCGTGGCGTATTTCAGGTAAAAGCTCCCCCTACCCTCCGCAGAAG -GTAAAATGAAAAAGGAGAGAGCGTGACGCCCGAATCGACGTCACACAGGGTGATTACAGGTTGCTGCTAT -CGCCTTTCAGGCCGATCGGGAAGACTTCTTCCAGGTCGCCGTGCGGACGCGGGATAACGTGTACAGATAC -CAGCTCGCCGATACGCTGTGCCGCTGCGGCACCTGCATCGGTCGCGGCTTTACAGGCTGCAACATCACCA -CGAACCATGGCAGTACACAGGCCGCCGCCAATCTGCTTAACACCAACCAGCTTGACGCGCGCAGCTTTCA -CCATCGCGTCAGAAGCCTCAATCAGTGCAACCAGGCCCCGGGTTTCGATCATTCCTAATGCTTCCATTGT -GCTTTCCTCTTTATCAGGGTCCAGAACGGGACCGTTCATTCAACCAGTGTTTGTAAACTGCTTTCGCGGT -TCACTTCTGTCTGACGCGGCACAGCTGCCACCAGCGCCAGCTCGATAATTTCCTGCACGCTACAACCACG -AGAGAGATCGTGCATCGGCGCGGCAAGTCCTTGTATCAGTGGCCCGACGGCACGATATCCGCCGAGTCGT -TGTGCGATTTTGTAACCAATATTTCCGGCTTCCAGCGACGGAAAAACCATCACATTGGCCTTGCCCTGTA -GCGGGCTGGCAGGCGCTTTTTGCGCCGCCACTTCCGGCACGAAGGCGGCGTCAAACTGTAACTCGCCATC -CACCACCAGCTTTGGTGCGCGCTCACGGACGATTTCTGTCGCCTGCTGGACGTTAGCAACACAGGGGTGA -CGGGCGCTACCATTGCTGGAAAACGACAGCATCGCCACGCGCGGCTCTTCTCCGGTGATGGCGCGCCAGG -TTTCGGCACTGGCAAGCGCGATATCCGCCAGCTGCGCCGCCGTCGGCTGTGGCACCACGCTGCAATCGGC -AAAGCCCAACGCCGGGCCGCTGTACTGTGGCAACATCAGGAAAATGGAAGAGAGCGTTTTACAGCCTGGC -TGCAAGCCGATAATGCGTAATCCGGCACGCAGCACATTTGCCGTGGAAGAGAGGTTGCCCGCGATACAGA -CATCCGCTTTACCGGCGCTGACCATTGCTGCGGCGAACATCAGAGGGTCGGTAAGTTTTTCCAGCGCATC -CGGCGGCGTTTTTTCGCCCGCGCGGGCCAGCCAGCGATGAGCAAATTCTTCCCGCATTGCGAGGTTGCCA -TGCGGATCAATCACCTGTAGCCCGTCCATCGCCACGCCGTGACTGAGCGCAAACTGACGAAGTTCAAACG -GATTGGCGACCAGAATGGGCGTTGCCAGACCTTGTTGATGTAAATATTGCGCGGCTTTCAGCACACGTTG -GTCTAACGCATCCGGAAAAACCACTCTGGCGGGCGCTCGCAACGCCAGTTCACGACAACGTTCAATAATC -ATTGCGTTTCCCCCAGTCGTTGTTGGATCTGCTTCACCGTTAGCGGCTGCTTCGTTACGCTCAGGATCAT -CATCACGTAGACCGTGCTCGAAAGGCGGTTCAGCGCCTGCAAAATGTCCGGGCGTAATACTTCAAAGCTG -CGGGTGATAAAGACCTGCGCCGCTACGGTTTCGGTTTCCCGCACTTTGGTGCGTAGCAGATTGAGCAACG -CAGCATCGCGCCCGTGGCTGGCTTCCGGCACCAGATGATCGTGGTCGAGATAGCGCAGCGGCTGATGAGA -AAGCCGATGCAGATCTTCGTCAGAAAGCCCGACAATCGCCTGGCAGCCCAGCGGTTCCCCCAGCGCATCG -GCGCGCATAATGTTGCCAAGACGCGAACGGATATCCGCCAGCCACGGCTGCCACGGTTCCGCCAGTTCAA -TTTGCAGCCACACTGCCAGCGCAATGGTGCTGTCGAGAACCGCGCGAAAACCCAGACGCGGATCGCTTTT -GGCGACCATTTTTTCCGCCGACAGGTGAGTCAGCGTATCCGGCTTTTTTGCCACCGGCTGGCGACACAGT -TCGCAGCACGCCTGCGGATGTTCATCGCTACTGGTCAGCCCATGAACGGGCTGCGGCTGCTGCTGTTCAT -CGTCAACAAACAGGCGGCCCTGCTCGTCAATAAACTTGATGCGCAGATGGCGGCTTTCCAGCAACTCCCG -GGCAGAGGGCGTCAGGCGACTGTCCGCAGGGAGATGGATCTCTGCGCCTTCGCTGAGCGTATGGTTCGCT -CTTAGCCATGCTTCGGTGATGAAATCTTTCATAGGGATTGCCAGTTAGCCGGCCAGGCGACATACAGGAA -TTTCACGCTGGATGTCGTACCAAATTCGATGCTGGAGCCTTTCGGGATAAACATCACGTCGCCTGCTTTG -GCGATCATGGTTTGGCCTTCGTGGCGAACATGCAGCTCCCCTTCCAGCACCATGTCGATTTCGTCGTAGT -TCAGGGTCCACGGGAAGAATGCGTTCTCCCACTGCATAAAACCGGCGGCCATGCTGCTGCCGTCGTCTCC -GGTCACAAGATCAGTCAAGCCCACGCAATGCGGCTCTGCGCCGTCGAAACGACCAAACTTGACGCTACTG -CCATCAATCACTTTGATGCCGCCTTTGCCGGTCACCGATTTGAAGCTCGGCTGCATTGCGCCCTGCTCCA -GCGACTGTTTTTCCTTCATCACTTTTTCCATCAGCTGTGCGACCAGGCTTTCGGTAAACTGGCCTTCCGG -CAGCTGGGCAATGATGGTTTCGCGGATGCGCTGGCTTTCGGTTTTGTCGGCTGGCACGCTGGCGGGCACG -GACGCCGTTACCGGGATCGATTCATCACATTCGGTGATGGTAAAACCCAGTAGATCCGCCACTTCACGGG -CTTCCGGGGTAATAATGCTGGCGCGCAGAACCACGGACATTGCCTGTTCGCCGCGCGCGTGTGCTTCACG -AATATCATTCGCTGTGATGAGTTTTTTCACCTGCTTCCTCCTGTTTGGTGAGAGATGCCAGATAATCCAC -CAGTTGCTGCACGCTTTGCGGGTCGTGGCTGTTTAGCTCGAACATCGGCTCTTCGAAACCCGTCTCAAGC -AATAACTTTCGCGTTGCGGCGACGTCAGCATCTGGCATGTCCGTTTTACTGATGACGGCGATTTGCCGTT -TGCTGACGCCAATATCCAGCAACCCGGCAGGCAACCGACTTTCCGGGTCATTTGCGCCATGGACATAGAT -CAGCATGTCTACATCCTGTAGCGTGGTAATTAAGGCGTGATACCAGCGGGGATGGTTAAAATATTCACCC -GGCGTATCAATATCGCCCTTATCATTAAATTCCACGGCCTGTGTTTTTCTGGCGAGGGTATAATTCCCCT -GCAACGCATTAAATAACGTTGTTTTTCCTGCCCCGACGCTACCCACAAACGCAATTCGTTTCATGAATGC -CTCGTATTAACTTTTGGTCATTTCACAAAGCGTATAATTTAATAAGCGACCTAAACCGCTGACGGTTTGT -GATAACGCTTCTTCTACTGCGCCCACCGAGCCATAAATCACCAATGCACCGCTGAATCGGTCGAGAAAAC -CGATATGCACATCAGCGGCTTTCAGCGCTAAATCACCGGCGATCATCGCCGTTTCGCCGGGAGTTAGCGT -CATAATGCCAATTGCGCCCGCATCCGGAACGCCGATTTTCTTCGCCAGTTCCTCACCGGGATGCGCGATG -AGATGCGCCAGTGTGACCTGTTTGCCGGGCACAAATTCCTGAATGATGCGTTCTTTATCCATGAGTCGCC -GCCTGTGAAAAACTTTCGTGTATCGTGACAATTTTTCGTCAGAGTAAATAACAAAATTCGGCAAGCGCGT -TTAAAAGGTGAGGTAGATCACTAAGAATGGAGAGATATTCGCTGTGGTGCATAAACTTTCATATGCAACG -CATGAATATAAATAAAATAATATCGAGATATTATATAGACTGCTTTTTTTTATTATTCGCAAACTCAGTA -ATAAGCTTTACTAATATATTGCAGCTAAACTGCTTACCCTGAATATTCAGGGTAAGCGTGAGAGTTAAAA -AAAATTACAGCGGTTGGGTTTGCGCTTCTACCACGGCCAGCGCCACCATGTTGACGATACGACGCACCGA -TGCGATCGGCGTTAACACGTGAACCGGTTTCGCCACACCCATCAGCACCGGGCCGACAGTCACACCTTCC -GAGCTGGAAACACGCAGTAAGTTGTAACTAATGCGGGCAGCTTCCATGTTCGGCATCACCAGAATATTGG -CGGAACCTTTCAAAGAGCTGTCCGGCATACGGTCGTTGCGAATCGCTTCCACCAGCGCTGCATCGCCGTG -CATTTCACCATCAATCATCAGTTCTGGTGCACGTTCCCTGACCAGTTCCAGCGCCTGACGCATTTTGCTC -GACGACGGGCAGTCAGAAGAACCAAAGTTGGAGTGCGACAACAAAGCAACGCGCGGCTCAATACCAAAAC -GACGGACAGTTTCTGCCGCCATCAAGGTGATCTCCGCCAGCTCTTCTGCATCCGGTTCATCATTAACATA -TGTATCGGCAATAAAGGTGTTACCACTCGGCAGCAGCAGCGCGTTCATGGCACCTGCGGTGTGAACGCCA -TCGCGATAACCAAAGACATTTTTCACCACGCTAAAATGTTCATGATAATCACCCACCGTACCGCAAATCA -TTGCATCGGCTTCCCCACGCTGAACCATGATCGCGCCGATCACTGTCGGGTTACTGATCAGCGCCCGCTG -CGCCTGTTCCTGAGTGACGCCGCGACGCTTCATGATCTGGAAGTATTCGGTCCAGTACTCTTTAAAGCGC -GGATCGGATTCGTTATTGACGATCTCAAAATCAACGCCCGCTTTGATCTGCAAGCCCAGTTTCTGAATGC -GCATTTCGATCACGTTCGGACGACCGATAAGGATCGGTTTCGCCAGTCCCAGCGTTACCAGTTCCTGAGT -GGCATGCAGAACGCGCGCCTCTTCCCCTTCCGGCAGAACAACGCGCTTCGGCGCTTTGCGAGCCTGGGAG -AAAATCGGCTTCATAAACAGGTTGGTTTTGTAAACGAACTCAGTCAGCTTGTCGATGTAGACGTCGAAAT -CAGCAATCGGACGAGTCGCCACGCCCGACTCCATCGCGGCTTTAGCGACCGCAGGAGCGATCTTAACGAT -CAAGCGCGGATCAAACGGTTTTGGAATGATGTATTCCGGACCAAAGCTCAGATCCTGATCGCCATACGCT -GAAGCCACCACTTCGCTCTGTTCCGCATGGGCGAGTTCTGCAATCGCACGTACCGCCGCCAGTTTCATCT -CTTCGTTGATGGCGGTTGCGCCAACGTCCAGCGCGCCACGGAAGATGAACGGGAAGCACAGGACGTTGTT -CACCTGGTTCGGATAGTCAGAACGACCGGTGCAAATGATGGCATCCGGACGCACTTCTTTCGCCAGCGGC -GGCAGAATTTCCGGTTCCGGGTTCGCCAGCGCCAGGATCATTGGCGCACGAGCCATTTTCTTCACCATTT -CCTGGGTCAGCACTTTCGGGCCGGAACAGCCCAGGAAAATATCCGCGCCTTCAATCACATCATCGAGGGT -ACGTTTGCCGTCATCCACCACCGCATATGCGGCTTTGGTTTCCGCCATGTTTGGCTCACGGCCCTGATAG -ATAACGCCTTTTGAATCGCAAACCACGATGTTATGTTTTTGCAGACCCAGCGCTACCAGCAGGTTCATAC -AGGCGATTGCTGCGGCACCCGCGCCGGAAACCACCATCCGCACGTCGGAGATGTTTTTCTCCACCACGCG -CAAGCCGTTGAGGATGGCGGCAGTGCTGATAATTGCCGTGCCGTGCTGATCGTCGTGGAATACCGGAATA -TTCATCCGCTCGCGCAGTTTCTGTTCAATATAGAAACATTCTGGCGCTTTAATGTCTTCGAGGTTGATGC -CGCCGAAGGTTGGTTCGAGCGCGGCGACAACTTCAATAAATTTGTCCGGGTCGAGTTCGTCAACTTCAAT -GTCAAATACATCAATCCCGGCGAATTTCTTAAACAGAACGCCCTTGCCTTCCATCACCGGTTTGCCTGCC -AGCGCGCCAATGTTGCCTAACCCCAGCACCGCCGTACCGTTAGAGATCACCGCCACCAGGTTACCTCGGG -CGGTATATTTGTAGGCTTTTAACGGGTCTTTTTCGATTTCAAGACAAGGTGCGGCAACGCCTGGTGAGTA -GGCCAGCGCCAGATCGCGCTGTGTTGCCAGAGGCTTGGTTGGAGAAACCTGGATTTTCCCTGGAACTGGA -AATTCATGGAAATCAAGTGCACTTTGTTTTAACTGGTCATCCATTTGGTTGTTCCTTTCACGTAACGTTC -ACAAATAAAGTGTGTGGGCAACAGCCCCTGCCCACAACGTGGCGCACATTATTACCCTGCCGGAGTCTAC -AGACTTTGAGCAAGTCCAAACTCTCACCATTAATATAATGTTTTGGTAATAATCCTATAACACTGATGTT -ACCTGCTTAATCCAGCAATACCATGCCTGTCTGCTATGCTTTTTTGATGCGTTTAGCGAAATTTCTCAGA -AGTGTGAATTAACGCACTCATCTAACACTTTACTTTTCAAGGAGTATTTCCTATGAACGAGTTAGACGGC -ATCAAACAGTTCACCACTGTCGTGGCAGACAGCGGCGATATTGAGTCCATTCGCCATTATCATCCCCAGG -ATGCCACCACCAATCCTTCGCTGTTACTCAAAGCTGCCGGATTATCACAATATGAGCATTTAATAGACGA -TGCTATCGCCTGGGGTAAAAAAAATGGCAAGACCCAGGAACAACAGGTGGTCGCAGCGTGTGACAAACTG -GCGGTCAATTTCGGTGCTGAAATCCTCAAAATCGTACCCGGTCGCGTGTCAACAGAAGTTGATGCACGCC -TCTCTTTTGATAAAGAAAAGAGTATTGAGAAGGCGCGCCATCTGGTGGACTTGTATCAGCAACAAGGCGT -TGAGAAATCACGCATTCTGATCAAGCTGGCTTCGACCTGGGAAGGAATTCGCGCGGCAGAAGAGCTGGAA -AAAGAAGGTATTAACTGCAACCTGACGCTGCTGTTTTCTTTTGCACAGGCACGGGCCTGTGCGGAAGCAG -GCGTTTTTCTGATTTCGCCGTTTGTCGGGCGTATTTATGACTGGTATCAGGCACGCAAGCCGATGGACCC -GTATGTGGTGGAAGAAGATCCGGGCGTTAAATCGGTGCGCAATATCTACGACTACTATAAGCAACACCAC -TATGAAACCATTGTGATGGGCGCGAGCTTCCGTCGCACCGAACAAATCCTCGCCTTAACCGGCTGCGATC -GACTGACTATCGCACCGAATTTACTGAAGGAGCTGCAGGAAAAAGTTTCGCCAGTGGTACGTAAATTAAT -CCCACCTTCTCAGACGTTCCCACGCCCAGCTCCCATGAGCGAAGCGGAGTTCCGTTGGGAGCACAATCAG -GATGCGATGGCGGTAGAAAAACTGTCTGAAGGCATTCGTCTGTTCGCCGTTGATCAACGCAAACTGGAAG -ATCTTCTTGCCGCCAAACTATAAACCAGCCACGGAGTGTTATATGTCCCGAAAAGACCTTGCCAATGCGA -TTCGCGCACTCAGTATGGATGCGGTACAAAAAGCCAACTCTGGTCATCCCGGCGCGCCGATGGGCATGGC -TGATATTGCCGAAGTGCTGTGGAACGATTTTCTTAAACATAACCCTACCGACCCAACCTGGTATGATCGC -GACCGCTTTATTCTTTCCAACGGTCACGCGTCGATGCTGCTCTACAGTTTGCTACATCTGACCGGTTACG -ACCTGCCGCTGGAAGAACTGAAGAACTTCCGTCAGTTGCATTCGAAAACCCCAGGCCACCCGGAGATTGG -CTATACGCCAGGCGTTGAAACCACCACCGGCCCGCTTGGACAAGGTTTGGCGAACGCCGTCGGGCTGGCG -ATAGCAGAGCGTACACTGGCGGCGCAGTTTAACCAGCCAGACCATGAGATCGTCGATCACTTCACCTATG -TGTTTATGGGCGACGGCTGCCTGATGGAAGGTATTTCCCACGAAGTCTGTTCGCTGGCAGGCACGCTGGG -ACTGGGCAAGCTGATTGGTTTTTACGATCACAACGGTATTTCCATCGACGGTGAAACAGAAGGCTGGTTT -ACCGACGATACGGCAAAACGTTTTGAAGCCTATCACTGGCATGTGATCCATGAAATCGACGGTCACGATC -CGCAGGCGGTGAAGGAAGCGATCCTTGAAGCGCAAAGCGTGAAAGATAAGCCGTCGCTGATTATCTGCCG -TACGGTGATTGGCTTTGGTTCGCCGAATAAAGCAGGTAAGGAAGAGGCGCACGGCGCACCACTGGGGGAA -GAAGAAGTGGCGCTGGCACGGCAAAAACTGGGCTGGCACCATCCGCCATTTGAGATCCCTAAAGAGATTT -ATCACGCCTGGGATGCCCGTGAAAAAGGCGAAAAAGCGCAGCAGAGCTGGAATGAGAAGTTTGCCGCCTA -TAAAAAGGCTCATCCGCAACTGGCAGAAGAGTTTACCCGACGGATGAGCGGTGGTTTACCGAAGGACTGG -GAGAAAACGACTCAGAAATATATCAATGAGTTACAGGCAAATCCGGCGAAAATCGCTACCCGTAAGGCTT -CGCAAAATACGCTTAACGCTTACGGGCCGATGCTGCCTGAGTTGCTCGGCGGTTCGGCGGATCTGGCTCC -CAGCAACCTGACCATCTGGAAAGGTTCTGTTTCGCTGAAGGAAGATCCAGCGGGCAACTACATTCACTAC -GGGGTGCGTGAATTTGGCATGACCGCTATCGCCAACGGCATCGCGCACCACGGCGGCTTTGTGCCGTATA -CCGCGACGTTCCTGATGTTTGTTGAATACGCCCGTAACGCCGCGCGGATGGCGGCACTGATGAAAGCGCG -GCAGATTATGGTTTATACCCACGACTCAATTGGCCTGGGCGAAGATGGTCCGACGCACCAGGCTGTTGAG -CAACTGGCCAGCCTGCGCTTAACGCCAAATTTCAGCACCTGGCGACCGTGCGATCAGGTGGAAGCGGCGG -TGGGCTGGAAGCTGGCGGTTGAGCGCCACAACGGACCGACGGCACTGATCCTCTCAAGGCAGAATCTGGC -CCAGGTGGAACGTACGCCGGATCAGGTTAAAGAGATTGCTCGTGGCGGTTATGTGCTGAAAGACAGCGGC -GGTAAGCCAGATATTATTCTGATTGCCACCGGTTCAGAGATGGAAATTACCCTGCAAGCGGCAGAGAAAT -TAGCAGGAGAAGGTCGCAATGTACGCGTAGTTTCCCTGCCCTCGACCGATATTTTCGACGCCCAGGATGA -GGAATATCGGGAGTCGGTGTTGCCTTCTAACGTTGCGGCTCGCGTGGCGGTGGAAGCAGGTATTGCCGAT -TACTGGTACAAGTATGTTGGTCTGAAAGGGGCAATTGTCGGGATGACGGGTTACGGGGAATCTGCTCCGG -CGGATAAGCTGTTCCCGTTCTTTGGCTTTACCGCCGAGAATATTGTGGCAAAAGCGCATAAGGTGCTGGG -AGTGAAAGGTGCCTGATGGTGATTGCCGGATGCTGATTGCCGGATGCGACGCTGACGCGTCTTATCCGGC -CTACAGCGTCTTATCCGGCCTACATGTCCCGCCATTTTGTTTAACGGGTGATCCACAACGTGGGCCAGGC -GTCTGGCCCATGCCAGTTATCGCAGGTGGGTTCTGCGGCGTAACGCACCAGGCGAAAACGCTGACCGTCA -AAGCGCCAGCGCGCCTGAATGCCACAATCGCTTAATCCGCGCCCTTTCGCTAAGGTCACCAGTTCACGCG -ATTTCTCATCAAATGTTGCGTTCATCAGTTCCAGTTCATTCGTCTCCTGACCGTTGTTGAACGGCAAACG -CAACCGAACCGGGCGCGAAGCTAGTGGCTTTTTACGCGACACAATCCATGCCAAATCAATGGTGTTATAG -GCCCCTGCCTCACAGCTAATCATCATCAGCGCTTTATCATCAGTCAGCGCAGTGACATTCACCTCACGAC -GCAATGGATCAAGCGAGCAGCGCAGACCATTCATCCGCCAGTTTCCATAATCCAGCAAATCGTTGCGTTC -TTCGAGTGAGAGTGGCGTCGGCGTTGGGTTAACCACCGCGACCTCTTTCAGCGCAGGCGCGGGCGGTACG -CTGAGCGGCGGTTCGTCCCCTTTCTTGATCCACGCGGTTTCACTGCCAACGCGCTTTTGCTGAGCATCAA -TAAACAACAACGCTGCTTTTAAGCCACTCAGAGAAATGGTCTGATCGCCATCGCGTAAGGTGATTGCCTT -CCCTTCCTGAATCATCTGCAAAAACGCGGTGATGGTTGCCGTATCATCGGTTACTAATAACCATGGTGAA -ATCCGCCACTTGTCACCACTTAACGCCAACGGCTCGCCATCTAACAGCAGCCGTGGCGCTATCTCCCCTT -CTGACGCCTCCGGCGACTTCAATCCGCCGCGCTCAATACGTAAAACGGCATCGGTATGCGCCCCGGCGCT -GCGGCTCAGGGTCATCACCAGTCCATTATGATCGCCCGTATTACGCGCCACGCAGAAATTTTGGTTATTA -CAGGTGACCTGCCAGTCGGAAAACGCCCGTTGCGCTGGTGCCGCCCACACCAAAGACGTCGGCAACAAAG -CGAAAAAAAAGAGAAGGAAAATGCGATAGCGCATGGACGGTACGACCCCAGAAGTTCAAACAAACAGCAC -AAGTCGTATCTTCGTTGCGCAGGTAGCGCGGCTCAATCGGATTTGTCGGATTGAGCCAATAATAAACAAC -GAAATATTATTGTTATTTTTCAGTCCATTAAATGTGACGTTTGCAAATAGTTAAGCAATAACACCGTCTT -ACCGTCACGTATCTCGCCGGTTTTGATCATCTCCAGCGCCTGGCTGAACGGCAGCTCGAGCACTTCAATA -TCTTCATCTTCGACACCGCCACCGGCGTTAGCGCGCTGATTGTCACTGTATTCGGCGATAAAAAAGTGGA -TTAGCTCAGTCACACCGCCTGGCGACATATACAGTTCAAATAATTTGCGCACTTCACCCACTTCATAGCC -CGTCTCTTCAATCGCTTCTTTGCGAATACACACTTCCGGTTCGTCGTTATCCAGCAGCCCGGCGCAGCTT -TCAATCAGCTGCCCGCTTTCATTGCCATTAACCCAGGTAGCGACACGGAACTGACGAATCAGAACCACGG -TCTTTTTCTTCGTGTTGTACAGGAGGATCGTCGCACCATTGCCGCGATCGTACACTTCACGTTTATGGCG -GATAACTTCGCCGTCTTTGCGCGTGAGATCGTAAGTAATGTTGTGCAGGGTGAAATAGTTATCGGAGAGA -ATTTTGTCTTTAATGAGGGTGATTTGTTGCGTCATACCGACTCCACAGCGCGAAATGAACAATTATCTTA -CGCTGTGAAGTCGGGTTTGTCTGCGCAGGCTATCAGTGAGATTTGACTGATTTTACCCCCAGCCAGTCAA -TAATCCCCTGTGCCGCATGACGTCCTTCTGCCATTGCGGTAACCACCAGATCCGCACCACGCACGGCGTC -ACCACCAGCGAAGATTTTCGGATTGGTGGTCTGGTAACGGTACTGGCTTTCCACATCCGCGATGATGCGG -CCCCATTTGTCTACCGTTACACCGTGCGACTCCAGCCACGGCATCCCGTGCGGATTGAAGCCAAACGCCA -TAATCACCGCGTCGGCTGGCATGACAAATTCACTGCCTTCCACCGGCACTGGACGCCGACGCCCCTGGGC -ATCCGGCTCTCCAAGACGCGTGCGCAGGAAACGAATCCCGCAGACGTGACCTTGTTCATTCAGCTCAAGC -GCCACCGGCTGGACGTTAAATTCGAAGTTGGCCCCCTCTTCGCGGGCGTTCTTCACTTCTTTCTTCGAGC -CTGGCATGTTAGCTTCATCACGACGATAAGCGCAGGTGACGTTACTCGCGCCGTGGCGCAGTGCGGTACG -CACACAGTCCATCGCGGTGTCGCCGCCGCCCAGTACCACGACGTTAAGTCCGGCGGTATTGATAAACGGC -TCTTCCGGTAGCTCTTCGAGCCCCATCACCTGTTTAGTGTTGGCAATGAGGAACGGCAGCGCGTCATAAA -CGCCCGGCGCATCTTCATTGGGTAAACCCGCTTTCATGGAACGGTAAGTGCCTACGCCAACGAAGACCGC -GTCGTATTGTTCCAAAAGCGAATCCAAAGAGACATCTTTACCCACTTCACAATTGAGTTCGAAGTGAATC -CCCATCGCGCTGAAGATTTCCCGACGGCGTGCCAGCAGGGATTTATCCAGTTTGAAAGAAGGAATGCCGA -AAGTGAGCAAGCCACCGATTTCTGGATGGCGATCGTACACCGTCACCCCCACGCCATTGCGGGTCAGAAC -ATCCGCACAGGCCAGCCCTGCCGGACCTGCACCGATAATCGCCACCCGCTTGTCCACTTTGGTGACATGG -CTTAAGTCAGGACGCCAACCTTTCGCCAACGCCTGATCTGAAATGTAGCGTTCAATGTTGCCGATAGTTA -CCGCGCCGTGCTCATCGCGAATAGTACAGGCACCTTCACACAAACGGTCTTGCGGACAAACGCGTCCGGT -AATTTCCGGCAGGGTGTTGGTCTGGTGAGAAAGCTCGACGGCGGCGTCGATGTTTCCGGCTTTCACCAGT -TCAATCCACTGCGGTATATGGTTATGCAGCGGGCAGGTCCATTCACAAACGCTGTGCTCGCCGCACTTAA -GGCAGCGCGAGGCTTCCCGTTGTGCCTGGTCGGCGCGAAATGGCAGATAAATTTCATCAAAACCGGTTTT -GCGCGCTTCAATCGCCAGTTTATCCGGCTCGCCACGCGCGGGCGTTGCCTGCATTTGTTCGACTTTACTC -ATTACCGGCATTTCTTGCGCCGCGGTACTGGCATGCCACGGTTGATGTTCCTGACGCGCGGTGCGCAAGC -GGCGGGATTTCGCCATGCCGGAGAGTGCGACGTCAGTGACCAGTTGCAGCGCGTCCGCCGGGCAATTCTC -AACACAGGCAGGACCGTTTTCGCGCCCCGCACAAAGGTCGCATTTATGCGCCGTGGCTTTTACTTTTCCT -GCCGCGACGGGTGTCAGGACGATTTGCATCGTACCAAAAGGACAGGCCACCACGCAGGATTTACAGCCAA -TACACTTTTGCTGATTGACCTGAATGCTGTCATCAACGTGGCTGATTGCGCCATTAGGGCAGCTACGGGC -GCAGGGCGCATCTTCACAATGGTGACAGGTCACTGCACTACGTTGCTGTTGATGTTTGATAACCGTAATT -CGGGGATGAAAATGGTGTTGGCTCAGGACATGTTGCTCATCATTGTGAGCCATGACACAGGCGATTTCAC -AAGCATGACAACCCAGACATTGCTGACTGTTGGCCATAATAAAACGATTCATAACGACCTTCTTTTTTGG -TTGTAAAAACCTTATTCTTTATATGAGTGTTGTTATTACCCGACTTACAGGGGAATCGGCAATGTTCATG -TGCCCAGAATAAGTAACTATTTCGCTATAAACTGTGGCAGATCAAATAATCCCATCACTGACTAAATTGC -GTTTCAGCGAACTGGAACATTAATGATTTTTTGTGGAGAAGACGCGTGTGATTGTTAAACGACCCGTCTC -GGCCAGTCTGGCCCGGGCCTTTTTTTACATTGTGCTGCTGTCGATTCTTTCCACGGGTATCGCTCTGCTA -ACTCTGGCGAGCAGTTTGCGCGACGCTGAGGCTATCAATATTGCCGGATCGCTGCGTATGCAGAGTTACC -GCCTGGGCTACGACTTGCAAAGTGGCAGTCCACAACTCAATGCACATCGCCAGTTATTTCAGCAGGCACT -GCATTCACCGGTATTAACCAACCTCAACGTCTGGTATGTGCCAGAAGCAGTAAAAACTCGCTATGCGCAT -CTGAATGCCAACTGGCTGGAGATGAATAATCGGCTCAGCAAGGGCGATTTGCCGTGGTATCAGGCCAATA -TTAATAATTATGTTAATCAGATAGACCTGTTCGTACTGGCTTTACAGCACTACGCTGAACGCAAAATGCT -GCTGGTGGTGGCGATTTCCCTGGCTGGCGGCATCGGTATTTTCACGCTGGTCTTTTTTACTTTGCGCCGC -ATACGCCATCAGGTGGTTGCCCCGCTGAATCAGCTGGTTACCGCCAGTCAGCGTATTGAACACGGGCAGT -TCGACTCGCCGCCGCTGGATACCAACCTGCCGAATGAGCTTGGTCTGCTTGCAAAAACCTTTAACCAGAT -GTCGAGCGAGCTGCATAAATTGTACCGTTCGCTGGAAGCGTCAGTAGAAGAAAAGACCCGCGATCTCCAC -GAGGCCAAGCGTCGTCTGGAGGTGTTGTATCAGTGTTCGCAGGCGCTGAACACTAGCCAGATTGATGTGC -ATTGTTTCCGCCATATTTTGCAGATTGTTCGCGACAATGAAGCGGCTGAATATCTGGAGTTAAATGTCGG -TGAAAACTGGCGGATTAGCGAAGGGCAACCAAACCCGGAATTGCCGATGCAGATTTTACCGGTGACAATG -CAAGAGACGGTTTACGGCGAACTGCACTGGCAAAATAGTCACGTTTCATCATCAGAACCGCTGCTTAACA -GCGTTTCGTCGATGCTGGGACGCGGTTTGTACTTTAATCAGGCGCAGAAGCATTTTCAGCAATTATTGTT -GATGGAAGAACGTGCGACCATCGCCCGCGAATTGCACGACTCGCTGGCTCAGGTACTTTCTTACTTACGT -ATCCAGTTGACGTTACTGAAGCGTTCGATACCGGAAGATAACGCCACCGCACAAAGTATCATGGCCGATT -TTTCCCAGGCGTTGAATGATGCTTATCGGCAGTTACGCGAGCTGTTGACTACTTTCCGCCTGACGCTGCA -GCAGGCGGATCTCCCCTCCGCATTGAGGGAAATGCTGGATACGTTACAAAATCAAACCAGCGCCAAACTG -ACCCTCGACTGCCGTCTGCCAACCCTGGCACTGGATGCGCAAATGCAGGTGCATTTGTTGCAAATTATTC -GCGAAGCGGTGCTGAATGCGATGAAGCACGCCAACGCCAGCGAAATCGCCGTCAGTTGCGTCACCGCGCC -GGACGGCAATCACACGGTTTATATCCGTGATAACGGGATTGGTATCGGTGAACCGAAAGAACCCGAAGGT -CATTATGGTCTGAATATCATGCGCGAACGCGCGGAACGGCTAGGTGGGACGCTGACTTTTTCACAACCTT -CCGGCGGCGGCACGTTAGTGAGTATTAGCTTTCGCTCTGCGGAGGGTGAGGAAAGTCAGTTAATGTAATG -CCTCCTACTGACCAAAGAATACTTGCACTTAAGGTTCAGTATAAAAGGGCATGATAATTTACATTAACTC -CTTTTTTTCTCCACGATTGGCTCGTACCTTGCCGCTACAGTGAAGCAAGTCAAGCCTACAACGATACGCA -GAAACACGAGGTCCTCTTTTAATGGCGAATTTCTTTATTGATCGCCCCATTTTTGCCTGGGTGCTGGCAA -TCCTGTTGTGTCTGACAGGTACCCTGGCGATTTTTTCATTGCCCGTTGAACAATACCCCGATCTCGCGCC -ACCGAATGTGCGAGTGACCGCTAACTATCCCGGCGCATCGGCCCAGACGCTGGAAAACACCGTGACCCAG -GTTATCGAGCAAAATATGACCGGCCTCGATAATCTCATGTATATGTCATCTCAGAGCAGTGGCACCGGTC -AGGCATCTGTCACTTTAAGTTTTAAAGCAGGCACCGATCCGGACGAAGCCGTGCAGCAAGTACAAAACCA -GCTGCAATCAGCCATGCGAAAGTTACCGCAGGCGGTGCAAAATCAGGGCGTGACGGTGCGTAAAACCGGC -GATACCAACATTCTGACCATTGCCTTCGTCTCTACCGATGGTTCGATGGATAAACAGGATATTGCTGATT -ATGTTGCCAGTAATATTCAGGACCCGTTAAGCCGCGTGAATGGCGTCGGGGATATCGATGCCTATGGTTC -GCAATATTCCATGCGTATCTGGCTGGACCCGGCGAAACTCAACAGTTTCCAGATGACGGCTAAAGATGTC -ACTGATGCCATTGAGTCACAGAACGCGCAGATTGCGGTTGGGCAACTTGGTGGTACACCTTCCGTCGATA -AGCAGGCGCTCAACGCCACCATTAACGCCCAGTCACTGCTGCAAACACCAGAACAGTTCCGCGATATCAC -CTTGCGGGTCAATCAGGACGGCTCAGAGGTAAGGCTGGGCGATGTCGCCACCGTCGAAATGGGGGCGGAG -AAATACGATTATCTTAGCCGCTTCAATGGTAAGCCAGCCTCCGGGCTGGGGGTAAAACTGGCCTCCGGCG -CTAACGAAATGGCGACAGCGGAGCTGGTGCTCAATCGTCTCGACGAGCTGGCGCAGTATTTCCCGCATGG -ACTGGAATACAAGGTGGCGTATGAAACCACCTCGTTTGTTAAAGCCTCCATTGAAGACGTGGTGAAAACG -CTGCTGGAAGCTATCGCTCTGGTTTTCCTCGTTATGTATCTGTTCCTGCAAAACTTCCGCGCCACGCTGA -TACCCACTATCGCCGTGCCGGTGGTGTTGATGGGAACCTTCTCCGTACTTTACGCCTTCGGTTACAGCGT -CAACACCTTAACCATGTTCGCGATGGTGCTGGCGATCGGTCTGCTGGTGGATGACGCCATCGTGGTGGTG -GAAAACGTCGAACGTATTATGAGTGAGGAAGGACTCACTCCTCGCGAAGCCACACGTAAATCGATGGGGC -AGATCCAGGGGGCACTGGTCGGGATTGCGATGGTTCTTTCGGCGGTATTTGTACCAATGGCCTTCTTCGG -CGGCACCACCGGTGCCATCTATCGCCAGTTCTCTATTACCATTGTTGCGGCGATGGTGCTGTCAGTACTG -GTAGCGATGATCCTCACTCCGGCTCTGTGTGCCACACTACTTAAGCCACTGAAAAAAGGTGAGCATCATG -GGCAAAAAGGCTTTTTTGCCTGGTTTAACCAGATGTTTAACCGCAACGCCGAACGCTACGAAAAAGGGGT -GGCGAAAATTCTCCACCGTAGCCTGCGCTGGATTGTGATTTATGTCCTGCTGCTTGGCGGCATGGTGTTC -CTGTTCCTGCGTTTGCCGACGTCGTTCTTACCGCTGGAAGACCGTGGCATGTTTACTACCTCGGTACAGT -TGCCCAGCGGTTCAACGCAACAACAGACCCTGAAAGTCGTTGAGCAAATCGAGAAATACTACTTCACCCA -TGAAAAAGACAACATCATGTCGGTGTTTGCCACCGTTGGTTCTGGCCCTGGGGGTAACGGGCAAAACGTG -GCGCGAATGTTTATCCGCCTGAAAGACTGGAGCGAACGCGACAGTAAGACCGGCACCTCGTTTGCCATTA -TCGAGCGTGCAACGAAGGCGTTTAACCAAATTAAAGAAGCTCGCGTTATCGCCAGCAGCCCGCCAGCAAT -TAGCGGTCTTGGTAGTTCTGCAGGTTTTGATATGGAGTTGCAGGACCACGCTGGAGCGGGTCACGATGCG -CTGATGGCAGCACGTAATCAGTTGCTGGCGCTGGCGGCGGAAAACCCGGAGCTAACCCGTGTGCGCCATA -ACGGCCTCGACGACAGTCCGCAGTTGCAGATTGATATCGACCAGCGTAAAGCTCAGGCGCTGGGCGTTGC -TATCGACGATATTAACGACACACTGCAAACCGCCTGGGGTTCGAGCTATGTGAATGACTTTATGGATCGC -GGTCGCGTGAAGAAAGTCTATGTGCAGGCAGCTGCGCCGTATCGCATGCTGCCAGATGACATCAATCTCT -GGTATGTCCGAAATAAAGATGGCGGCATGGTGCCCTTCTCTGCTTTCGCGACCTCACGCTGGGAAACAGG -CTCGCCGCGTCTGGAACGCTATAACGGTTATTCTGCGGTTGAGATTGTTGGGGAAGCCGCACCGGGGGTC -AGTACCGGTACGGCGATGGATATTATGGAATCGTTAGTGAAGCAGCTGCCAAACGGCTTTGGTCTGGAGT -GGACGGCGATGTCGTATCAGGAGCGGCTTTCCGGCGCGCAGGCTCCGGCGCTGTACGCCATTTCCTTGCT -GGTGGTATTCCTGTGTCTGGCTGCGTTGTATGAAAGCTGGTCGGTGCCGTTCTCGGTAATGCTGGTCGTG -CCGCTGGGGGTAATCGGCGCGCTGCTGGCAACCTGGATGCGCGGGCTGGAAAACGACGTTTACTTCCAGG -TGGGCCTGTTAACGGTCATTGGTTTATCGGCGAAAAACGCCATCCTGATCGTCGAGTTTGCTAACGAGAT -GAACCAAAAAGGCCACGACCTGTTTGAAGCGACGCTCCACGCCTGCCGTCAGCGTTTACGCCCGATTCTG -ATGACCTCGCTGGCATTTATCTTCGGCGTATTGCCAATGGCAACCAGCACGGGTGCCGGTTCCGGTGGTC -AGCATGCGGTGGGTACTGGCGTAATGGGCGGGATGATTTCGGCCACTATTCTGGCTATTTACTTCGTGCC -GCTGTTCTTTGTGCTGGTGCGCCGCCGCTTCCCGCTGAAGCCGCGCCCGGAATAAGCAATAAAAAAGGCG -ACATGCCAATGTGTCGCCTTTTTCAACTTTCCGATTAAGAACCTGCTCAGCGGGTTCTTGCTGTTTGTAC -TTTGTCTCAGGAATTACTTACGAAGCATAACTTCGATAAAGTCTTTCCAGTTCCCCAGTTCACGTTCAAT -CATAACAACCTCTCTTATAATTATGGGTATTCTACGGAAACAATATACCGTGGTGAAGCTAATTTACTCG -ATTGCTGCGATGACTACCTCCGGGGGACAAATCTTATGTAAATACTATGGTCCTGCGGTGATGATTTGTA -TGTGATACACAGCAACATTTCGAGATATTCATACGGCATCTAATACTGATTTAATTCTGGTTAAAATACA -GACAGATAACAAGATGAATATTCTTAATGTTTACGTTAAAAATGTTTAATATTATTTAATAGTTGTTAAT -TTGAATACTTCGATAATGTTATATTTCCTGATAATCATTTGCAGGCAAAATGTTTTCACCCTTAAATGAG -TATTTATTCTCATAAATCGAAAAAGGATTCATTATGGTTACACTTTACGGTATCAAAAATTGTGACACCA -TTAAAAAGGCTCGCCGTTGGCTGGAAGCCAATAACATCGACTATCGTTTTCATGATTACCGCGTCGATGG -GCTGGACAGCGAATTATTGAACGATTTTATCAACGAATTAGGCTGGGAAGCGTTACTCAACACCCGTGGT -ACAACCTGGCGTAAACTGGACGAAACCACCCGCAATAAAATCACCGATGCGGCCTCTGCGGCGGCATTAA -TGACTGAAATGCCTGCAATTATCAAACGTCCATTGCTCTGCGTGCCCGGTAAGCCTATGCTGCTGGGTTT -CAGTGATTCCAGTTATCAGCAATTTTTCCATGAGGTGTAGTCTATGTCGTGCCCGGTTATTGAGCTGACA -CAACAGCTTATTCGCCGCCCTTCCCTGAGTCCTGATGATGCAGGATGCCAGGCTTTGTTGATTGAACGTT -TGCAGGCGATCGGTTTTACCGTTGAACGCATGGACTTTGCCGATACGCAGAATTTTTGGGCATGGCGTGG -GCAGGGTGAAACGTTAGCCTTTGCCGGGCATACCGACGTGGTGCCGCCTGGCGACGCCGATCGTTGGATC -AATCCCCCGTTTGAACCCACCATTCGTGACGGCATGTTATTCGGGCGCGGTGCGGCAGATATGAAAGGCT -CGCTGGCGGCGATGGTGGTGGCGGCAGAACGTTTTGTCGCACAACATCCCAACCATACGGGGCGACTGGC -ATTTCTGATCACCTCTGATGAAGAAGCCAGTGCCCACAACGGTACGGTAAAAGTCGTCGAAGCGTTAATG -GCACGTAATGAGCGTCTCGATTACTGCCTGGTTGGCGAACCGTCGAGTATCGAAGTGGTAGGTGATGTGG -TGAAAAATGGTCGTCGCGGATCATTAACCTGCAACCTTACCATTCATGGCGTTCAGGGGCATGTTGCCTA -CCCACATCTGGCTGACAATCCGGTACATCGCGCAGCACCTTTCCTTAATGAATTAGTGGCTATTGAGTGG -GATCAGGGCAATGAATTCTTCCCGGCGACCAGTATGCAGATTGCCAATATTCAGGCGGGAACGGGCAGTA -ACAACGTTATTCCGGGTGAACTGTTTGTGCAGTTTAACTTCCGCTTCAGCACCGAACTGACTGATGAGAT -GATCAAAGCGCAGGTGCTTGCCCTGCTTGAAAAACATCAACTGCGCTATACGGTGGATTGGTGGCTTTCC -GGGCAGCCATTTTTGACCGCGCGCGGTAAACTGGTGGATGCGGTCGTTAACGCGGTTGAGCACTATAATG -AAATTAAACCGCAGCTACTGACCACAGGCGGAACGTCCGACGGGCGCTTTATTGCCCGCATGGGGGCGCA -GGTGGTGGAACTCGGGCCGGTCAATGCCACTATTCATAAAATTAATGAATGTGTGAACGCTGCCGACCTG -CAGCTACTTGCCCGTATGTATCAACGTATCATGGAACAGCTCGTCGCCTGATGAGTGGTTCTGCAAGAGG -AAATAAGCATGGACTGGCTGGCTAAATATTGGTGGATTCTGGTGATTGTCTTTTTGGTAGGCGTCCTGCT -GAACGTGATTAAAGATCTCAAGCGCGTCGACCATAAGAAATTTCTCGCCAACAAGCCGGAGCTTCCCCCG -CATCGTGATTTCAACGATAAGTGGGACGATGACGACGACTGGCCGAAAAAGGATCAACCGAAGAAGTAAG -CTGAGTGCTCAACCGTAGGCCGGATAAGGCGTTAACGCCGCATCCGGCAATGGTGAACGATGCCTGATGC -GACGCTCACGCGTCTTATCAGGCCAGGTAATCTGTCTTTTACATCATTTCAATCACATCATCATCGCCAG -GCTTACCGCCACTTAGCGCTTCGTCGAAATAATGTTTCGGAATGGTATAACGCAAGTGATCCAGGGCAAA -TTGCATACTGCGATTGTCGATCGCATGGCCTAAATCCTCCACGATATCCAGCGTCACGTCACCACCGGCA -CTGATTAACGCTTCCTGCGCCGCAACCGCATGCGCCAGATCGATAACCGGATCTTCACCGCCATGAATCA -GGTGAATTGTCGTGGCTGTAGACGCAGTTTCCGGCAGGCTCGCATAGCGTCCGTTAAAAGCAATGACGCG -TGAAGCAAGGCCCGGTTCGGCTTTAATGCTCTCCAGCACCATAATCGCGCCTTGAGAGAAACCGATGAGC -GCCGTGGCGTTAGCCCCTACTCCGCTCTGTTTCTGCCAGTAGCGCACCGTTTCAATAAACGTCGGCATGA -TCGCATCCACACGCGCCTGGCGATTATCTTCCGTAATACCCTGCACCGAAAACCACTGACGCCCCGCCGG -ATTACCGCTCGGCTCCGCGCCACCGACACTCACCACCAGCGCATCAGGAAACAGCGGTGCAAACCAGTTG -CCTATTTCCCCCATTGCCACCGGGTTATCCCCGACACCGTGGAAAAGCAGTAACAACTGTTGCGCAGGTT -TATCCGGGCTTTGAACAACAAAATGGTCATGTTTCATGGCGAACTCCTTAACTGATGTCATTAATTTTAC -GCCGCTGACTCACAATGACCATGAGATAAAATTGAAGGAGTCAGTGAAATAATTGCCATTGCGTTATGCG -ATCGCGCAGACGCTCAGTGCGAACATCATTAAGTGCGAACAGCGCCTGCGCGGCCTCTTCCCGCTGACGG -ACCAGTAACATCTTGCGGCCTGAAAGTTTAAGTGTGGTACATAACTGCGCATCACTGGCGTTTTTCTGTA -AACGCCCACGCAGCGCCGGTAATGCCAGTTCACTGGTTTGTAACAGACGCAATAAGCAACCTAACGACGT -TAATAGCGGACGATGAGCGAAAGCAAAACCGGCCAGTTCAAGCCAGTCGTCGTCAGAAAGGACGGCATCG -TTTAGTGGATCAACAGGAAGCGTTTCGCCATTCCACTGCGCGAGAGCTTGCGCATCGCGACGTAAACGGT -AATGCTCACGTTCAGCCAGCTGTTTACCCGCATCACTCATCGGTAACAGCGCCATCGCCGTATAGCAACC -GCTGCTGGCTTCCCGATGATTACCCATCCGCACCAGCACAAAACCGCAGCGTTGCCAGAAACGCCATAAC -TCCCCGGTGTAACCAAAACTCACCGAAAGATAGTCGAGGTCTTGCGTATATTGCAAAGCACCAGCAATAA -GTTGCCGCCCTGTGCCTTCCCGCTGACGAGCCGGATGAACTGCTATCCGGCTGACCCGCCGTCCACGCAA -TGTCGCCGCCAGTGGATTGTTGCCGTGCGCCGCCAGCGACTGGGCCACCAGATTACCCCGCGGGCGACGA -AAACCTGCCCATACCGCCTGACTGAGTTGTTGAGATAATCCACCCTCATCCACCAGCCACAGCGCCCCGG -CAATCTCGTTTTCGCCAGCCGCCTGTAAAAAATGTTGCCCTGGTGCATCCATCATCCGGCGTAAATCCAG -CGGCGAAGTCCGATAGTGCGCACCAGACAAGAGCTGATAAACCTTTAACGGCGTTTCTGGATCGCTTTGC -CATAACGTCTGTTCAAATGCGGAAATGACAATATTGCCTTGTGGTGTATGGGTGAAGTTTTCATCGTCAA -AAACCAGTGCCTCGCTGACCATTTTTTCCAGCGGGCATCCCTGCGCCCAGCGGATCGGCTGTTGCAGTTC -AAAACGGTGTAAATGCGGAAAGCGAGCGCAAAATTTCAGCAAAAAACCACGTCCGGTGCCTTCGTAGCCC -TGCACCGTAGTGGTTAACAACGTTCGAGGAAAACGCGATACCAGTTGATGCAACAATGGCGCAGGTATGG -CTGCGGCTTCATCGACCACCAGCCAGTCGGCTTGCTCATCGCTGGCTAACAAGGCATCCGGCGCAATAAA -GCGAAACTTCTCGCCCGCAAATTGTGCCAGTACATCCGTTGACGCTTTTGCGGGCGCGGTGACAATCGCT -CTGCCCGCAATACGAGAAATGAGTTGCCCTGCCAACGCCGACTTACCGCGCCCACGCGCAGCCGTTACCG -CTGCCACGCCCGGCGGCATGGTCATTAGCTGCTTTAAGAGTTGCTGTTGTTCTGGTTGTGGTGCGCCAGT -CGCGGGGTACCAGTCAGTACGGGGAGTAAAATGCGCCAACGAGAATGGCTGGTTTTGCCGCCAGAGGATA -GCCTCGTTATCCGCCGTAAGTACGCGTTTGAGATGCTGGACAAAATGCGGCGTCGCAATAGGGTCAGGGC -AATCACTCCAGCGCAGCGAGTCGGCATCAGGTTGGTTTTCCCACTCTTCCCATACAGGGAGTAACAAAAC -CAGCCAGCTTCCCGCTTTCAACGTTCCGCTAAGTGCGGCAAAGGCAGCGGCATCAAAGCCGTGGCGGGCG -TCGAATACCGCATGCCGGAACTCGCGCCCAAGTAAAGTTTGTAGTGCCGAGGGAGAACAGTGGTTTTCAG -CATCTGGCCGCGGCGAAATCCACAGCCAGTCGCCAGGTAAGGCATCACGCAACTTAAGAGTATGCTCAAA -ACACCAACCCTCTTCCCCGCTCAACACCAGCAAGCGGCGGATCCCTTCACGTTTCATTTGCGCTGTTAAT -GTGTGAAGCGCAGTCAGTTCAGCCATCCCTGCCCCGGAAGTTAAATGCTTTTACCAAAAGTATTGCATTG -TGCCGGATCGCCGCTGTCGAAACCACGTTTAAACCAGCTGTAGCGTTGCTGAGAAGTGCCATGAGTGAAA -CTGTCTGGTACTACTCGCCCCTGACTTTGCTGTTGTAAACGGTCATCGCCGATGGCCTGCGCCGCGTTCA -GCGCCTCTTCCAGATCGCCGGTTTCCAGAACGCCTTGCTGCTGCATACTATGCCCCCAGACACCGGCAAA -ACAGTCGGCCTGGAGTTCCATACGCACAGATAAGCGGTTTACTTCCGCCTGCGTCGCGTTTTGTTGCAGT -TGACGAACTTTCGGCTCGATGCCTAACAGTTTCTGCACATGATGACCGACTTCATGGGCGATAACGTACC -CCTGGGCAAAATCGCCATCCGCGCCAAGTTTGTCTTTCATGTCATCATAGAAGGAGAGATCGATATAAAC -CGTGCCATCCGCCGGGCAATAGAACGGCCCCATTATGGACTGGCCCGCCCCGCAGCCGGTACGCGTCATT -CCACGGTACATGACCAGCTTCGGTTGCTGATAGGTCTTACCCATCTTCTCGAACTGTTGTCCCCAGGTGT -CTTCCGTGGTTGCCAGAATCACCGAGGTGAATTTTGCGGCTTCGTCTTCATTTGGGCTAATTGACCGCGT -TGATTGTTGTTGGGAAACCGGCTGCCCGGTCATCAACCCGGTTAAATCAACACCATAGTAGCCTGCAACC -AGCACGACTATCAGTAAAATCAGCCCGCCTTTACCGCTTGGCAGGCGAAAACCGGGACCGCCCATAGATG -GACCACCAGAGCTGTTGCGCCTGTCTTCAACATTGTCACTTTCACGTCGCCCTTGCCAACGCATAGATAC -CTCAACAATATATTCATTATAGAAATGATCGTAGGTGGTTCAGAGGAAGATTACCACAGGAAAGCGGGAT -GAAATGGCGGAGGAATGAGCGTTCAATGCATATATTCCGAGAGCGGTTGTCTTGCCGTGCCAGCTGCACG -GCAAGATGATGAACAGAAAAATCAGTCCAGCTGTACACCCAGGCGGCGGGCGACGGCTTCATAGGCTTCG -ATCAGGCCACCGAGGCTCTGGCGGAAACGGTCTTTGTCCATTTTCTCCAGCGTTTCTTTGTCCCACAGGC -GGCTACCGTCCGGGGAGAACTCATCACCCAGTACCACTTCGCCTTTGTACAGACCAAATTCCAGCTTGAA -GTCGACCAGAATCAGACCAGCATCATCGAACAGTTTTTTCAGCACGTCGTTCGCTTTGTAGGTCAGCTCT -TTCATACGCGCCAGGTTCTCTTTGCTCACCCAGCCAAAGGTTTCGCAGTAAGATTCGTTGACCATCGGAT -CGTGCATGGCGTCGTTTTTCAGGAACAGATCGAACAGCGGCGGGTTCAGCTCAATACCTTCTTCGATTCC -AAGACGTTTCACCAGAGAGCCAGCAGCACGGTTACGCACGACACACTCAACCGGCACCATATCCAGCTTT -TTCACCAGACATTCGGTATCGGAGAGCAGACGCTCCATTTGAGTCGGGATACCCGCTTCAGCCAGTTTGC -TCATAATGAAGTAGTTGAACTTGTTGTTCACCATACCTTTGCGATCAAACTGCTCAATGCGCGCGCCATC -CCCTGCTGACGTATCATTGCGGAATTCGAGCACCAACAGGTCCGGGTTTTCCGTGCTGTATACGGTTTTC -GCTTTACCACGATACAACTCAGCTTGCTTTTGCATCTTTATCACTCCTGGGTGTGAATTAACGTTTTAAA -ATCTTTTGCTGTCTGGTGTGCCGGATGTTTTGTCGGATGCGGCGTGAACGCCTTATCCGAACTACGTCCG -ACAAACAAATTTCGTGCGAATTACCGCTAAAATCGCGTTTTCCTGCAGACGCACACGTTTGCGTATCATA -TCAGAAAAAAGGGCCGGATGATTCCAGCCCTGTATTTTTACTTGCTAAACGCAGCCTGGAAGACAGCTAC -CAGCGCGTCGTTCTGACTCTGAGTCAGAGTATGACCTTTCGGATCGATGAACTGTAGGCTGCTGCGGTTA -TCTAAATCGCCAACCTGCAGTTTATAGTCACCGGATGCCAGGCCTGGATCGCTCGCGCCCAGTTCCTGCC -AGTCGCTGTCAGACAGCGGCTTATAAGTTACGGCCATGTTGCCCTGCGAACGGGTGCTGTCGGTCACTTT -CATGCCCACTTTTTCCAGCGCCGCTGGCAGACGTTGCCAAACCACATTGAACGGCCCGCGTACGACCAGC -ATTGGTAAACCGGTGTCATCAGCTGCACTTTGTACGTCCATAGTGGTGGAGGCACGATTTTGCGCAGCGT -TCGCGGCGTCAGTGGCAGATTTATCCAGACCGGCGGAAATAACGTTCATCATCTCCGTGCTGTAACGCTG -CATGGAAGCCGCGTCTGCAACCGGTTTGCCCGCCTGTTCCAGGTTCAGCAGTTTAACCGTAACCGCCTGC -TGATAACCCTGCGGCTTAACAGAGATTTGATAACGACCACGATACTGCTCGTCTTCGTCCAGACGGTTCC -ATTGTACCCAATCGGTGGTCAGTGTCTGACCAGCATCATCACGTTGGGTGATGGTGTAGTTTTTCGCCTG -CAGCACGCTAACCACCTGCGGCCACAGAGTATTGCCACGACCATTTTCCACCAGCAATGAAGCGGTATCG -CCCGTGAACTGGGTACGCGCGCCAGAAACCAGTGCCAGCGGCTGGGCTGGTGGACGAATGTCCAGCGCCT -TACCGACAGCACCACTACCGTTGGTCACCGGGATTGCATAATCACCGGAGGTCACCGGCAAAATCATTCC -AGCCGGGGCATGAAGCTCCGCAAGCGGTGCCGCTTCCAGGTAGGCTTCATCACCACTGACCTGACGCTTA -TAGCGTGAGTCAGAACTACAGGCAGCGAGTAATAAAACAAGCGAAACACCCGCAACCTTTGCCAGGCGCG -ACTTTTGAACAGAGTAAGCCATCAAATCTCCCTAAACTTTACAGCAAACCGGCATGCTTAAGCGCCGCTC -TGACCGTCTCACGACCACTGTCGGTGATTGGTGTCATTGGCAGGCGCAGCGTATCGGTCGCCACAAGACC -CAGTTCCTTACATGCCCATTTCACCGGGATTGGATTGGGTTCGACAAATAGTTTGTTGTGTAATGGCATC -AGACGCTGATTAATAACGCGTGCCTCGGCAAAATGCCCTTCTGCTGCCAGTTTGCACATCTGGGCCATAT -CACGCGCTGCGACGTTAGCCGTAACGGAAATAACCCCATGACCGCCCAATTGCATGAAGTCCAGCGCGCT -CGCATCATCGCCGCTCAGCAGAACAAAATCATCTGAAACCAGCTCTTTGATCTGGTTTACACGCGTTAAG -TTCCCTGTTGCCTCTTTGATTCCGATAATATTTTTTACTTTCGCCAGACGGCCCACCGTTTCCGGGAGCA -GATCGCAGCCAGTACGGGACGGCACATTATACAGAATTTGCGGCAGGTCAGTATGCTCAGCGATGGCTTT -GAAATGCTGATACAAACCTTCTTGCGACGGACGATTGTAGTAAGGGGTTACCGTCAGGCAGCCGACGATA -CCACTGTCATTGAAGCGCTGCGTCAGGCTAATGGCTTCCGCAGTAGCGTTAGCGCCGGTCCCGGCAATTA -CCGGAATGCGCCCATCAGCCAGATCCAGCGTCATCATCACCACATCAGCATGTTCGTCATGATTTAAGGT -AGCGGACTCGCCAGTGGTGCCAACAGAAACGATCGCCGAAGTACCGCTGGCGACATGATAATCAATCAGT -TTTTTCAAGCTAGCCCGACAGACATTACCTTTTTCATCCATCGGAGTAACAATCGCGACAATACTTCCCG -TGAACATGGGCCATCCTCTGTGCAAACAAGTGTCTCAATGGTACGTTTGGTATGGCATTAAAAGCAAGCA -GACAGAACCGTTCTGATTGTTGTATGCATGTTTTTTTTATGCTTTCCTTAAGAACAACTCACCCCTTAAA -GGAATAACCAGTTTGACACTGTCATCGCAACATTATCTGGTGATCACTGCGTTGGGTGCCGATCGCCCTG -GAATTGTGAACACCATCACCCGTCATGTCAGTAGTTGCGGCTGTAATATTGAAGACAGTCGCCTGGCGAT -GCTGGGAGAAGAGTTCACGTTTATTATGCTGCTTTCCGGTTCATGGAATGCCATTACTCTGATTGAATCA -ACGTTACCGTTGAAAGGTGCCGAACTGGATCTTTTAATCGTGATGAAGCGCACGACGGCGCGTCCGCGTC -CGCCAATGCCAGCATCTGTCTGGGTTCAGGTCGATGTGGCAGACTCCCCGCATTTAATTGAACGCTTCAC -AGCACTTTTCGACGCGCATCATATGAACATTGCGGAGCTGGTGTCGCGCACGCAACCTGCTGAAAATGAA -CGGGCTGCGCAGTTGCATATTCAGATAACCGCCCACAGCCCCGCATCTGCGGACGCAGCAAATATTGAGC -AAGCGTTCAAAGCCCTATGTACAGAACTCAATGCACAAGGCAGTATTAACGTCGTCAATTATTCCCAACA -TGATGAACAGGATGGAGTTAAGTAATGAATCCACTGAAAGCCGGTGATATCGCACCGAAATTTAGCTTGC -CGGATCAAGACGGAGAACAAGTTAATTTGACCGACTTCCAGGGACAGCGTGTTCTGGTTTATTTCTACCC -GAAAGCCATGACCCCCGGCTGTACCGTACAGGCCTGCGGCTTACGCGATAACATGGATGAGTTGAAAAAA -GCGGGCGTTGATGTGCTGGGTATCAGCACCGATAAACCCGAAAAACTCTCCCGTTTTGCGGAAAAAGAGC -TGCTTAACTTTACGCTCCTGTCTGATGAGGACCACCAGGTGTGCGAACAATTCGGCGTCTGGGGTGAAAA -GTCCTTCATGGGCAAAACCTACGATGGCATTCATCGCATCAGCTTCCTGATTGACGCTGATGGCAAAATC -GAACATGTCTTTGACGATTTCAAAACCAGCAATCACCACGACGTTGTGCTGAACTGGCTGAAAGAACACG -CCTGATTACTTTGCTCCATTCCGTGCTGGCTGCGCTTGCGGCCAGCATACCTCACTTCTCGTGATCAAGA -TCACATTCTCGCTTTCCCCTGCGACACGGGTGTCGAATCCATTTTTTGCTGAACGTTAATGACCATCATT -TTTGTACCGTTCAGAATCCAGTTAATACATAACTTATTGAATATATTGAGTTAATCAGAATGGCATCCTT -TATGCAATATGAAATGCAATGTTTCATATCATTTTCAAGGAGCCGACATGAACCGCTTTGTGGTGGCCGA -ACCACTGTGGTGTACAGGATGTAATACCTGTCTCGCTGCCTGTTCGGACGTGCATAAAACGCAAGGTTTA -CAGCAACACCCGCGCCTGGCCCTGGCGAAGACGTCAACAATCACTGCCCCTGTCGTGTGTCATCACTGTG -AGGAAGCCCCTTGCCTGCAGGTCTGCCCGGTCAATGCCATCTCTCAGAGGGATGATGCGATCCAACTCAA -CGAAAGCCTCTGTATTGGCTGCAAGCTTTGCGCCGTGGTCTGCCCATTTGGCGCAATCAGCGCTTCAGGA -AGCCGTCCGGTGAATGCCCATGCGCAATATGTTTTTCAGGCTGAAGGCTCACTCAAAGACGGCGAAGAAA -ACGCGCCAACACAACATGCTTTGCTGCGCTGGGAACCTGGTGTCCAGACCGTCGCGGTGAAATGCGACCT -GTGTGATTTCTTGCCAGAAGGTCCGGCCTGCGTTCGCGCTTGCCCGAATCAGGCGTTACGGCTGATCACC -GGTGATAGCCTGCAACGTCAGATGAAAGAAAAACAGCGCCTTGCCGCAAGCTGGTTTGCCAATGGCGGGG -AGGATCCCCTTTCCCTCACTCAGGAGCAACGCTAATGGATGCCCTGCAATTATTAACCTGGTCGCTGATT -CTCTATCTGTTTGCTAGTCTGGCTTCGCTGTTTTTACTCGGTCTGGACAGACTGGCTATTAAGCTTTCCG -GCATCACATCGCTGGTGGGCGGCGTGATTGGCATCATCAGCGGAATTACGCAATTACATGCTGGTGTAAC -TTTAGTCGCCCGTTTTGCCCCCCCTTTTGAATTTGCCGATTTAACCCTGCGAATGGATAGCCTCTCGGCA -TTTATGGTGCTGGTTATCTCCTTGCTGGTGGTGGTTTGTTCTCTCTATTCATTGACTTATATGCGCGAAT -ACGAGGGCAAAGGCGCGGCGGCGATGGGCTTCTTTATGAATATTTTCATCGCATCGATGGTTGCCCTGCT -GGTGATGGACAACGCTTTTTGGTTCATCGTGCTGTTTGAAATGATGTCGCTGTCTTCCTGGTTTCTGGTC -ATTGCCAGGCAGGATAAAACGTCGATCAACGCTGGCATGCTCTACTTTTTTATCGCCCACGCCGGATCGG -TGCTGATAATGATCGCCTTCTTGCTGATGGGGCGCGAAAGCGGCAGCCTCGATTTTGCCAGTTTCCGCAC -GCTTTCACTTTCTCCGGGGCTGGCGTCGGCGGTGTTCCTGCTGGCCTTTTTCGGTTTTGGCGCGAAAGCC -GGGATGATGCCGTTGCACAGCTGGTTGCCGCGCGCTCACCCTGCCGCACCATCGCACGCTTCGGCGTTGA -TGTCTGGCGTAATGGTCAAAATAGGTATTTTCGGCATCCTGAAAGTAGCGATGGATCTGCTGGCGCAAAC -GGGTTTGCCTCTGTGGTGGGGCATTCTGGTGATGGCGATCGGCGCAATCTCCGCGCTCCTGGGCGTGCTA -TATGCGCTGGCGGAACAGGATATCAAACGGCTGCTGGCCTGGAGTACCGTCGAAAACGTCGGCATTATTT -TGCTGGCAGTCGGTGTGGCGATGGTCGGTCTGTCACTGCACGACCCGCTGCTCACCGTGGTTGGACTGCT -CGGCGCACTGTTTCATCTGCTCAACCATGCGCTGTTCAAAGGGCTGCTATTTCTCGGCGCGGGAGCGATT -ATTTCGCGTTTGCATACCCACGACATGGAAAAAATGGGGGCACTAGCGAAACGGATGCCGTGGACAGCCG -CAGCATGCCTGATTGGTTGCCTCGCGATATCAGCCATTCCTCCGCTGAATGGTTTTATCAGCGAATGGTA -CACCTGGCAGTCGCTGTTCTCACTAAGTCGTGTGGAAGCCGTAGCGCTACAACTTGCGGGTCCTATTGCT -ATGGTAATGCTGGCAGTCACTGGTGGGCTGGCAGTAATGTGCTTCGTAAAAATGTACGGTATTACTTTCT -GTGGTGCGCCGCGCAGTACACACGCTGAAGAGGCACAGGAAGTGCCAAATACGATGATCGTCGCCATGCT -ACTGCTCGCGGCACTCTGCGTATTAATTGCGCTTAGTGCCAGTTGGCTGGCACCGAAGATAATGCATATT -GCCCATGCGTTTACCAATACCCCTCCCGCCACTGTCGCCAGCGGAATAGCACTTGTACCCGGCACGTTTC -ATACACAGGTCACCCCCTCATTACTGTTGCTGTTACTACTGGCGATGCCTTTGCTGCCTGGCCTTTACTG -GCTGTGGTGTCGTTCGCGCCGCGCAGCGTTTCGTCGCACAGGAGATGCCTGGGCATGCGGCTACGGCTGG -GAAAATGCGATGGCCCCGTCAGGCAATGGCGTGATGCAGCCGCTGCGTGTGGTCTTTTCTGCGCTATTTC -GTCTACGACAACAGCTCGACCCTACGCTGAGGCTAAATAAAGGTCTTGCGCACGTCACCGCCAGGGCTCA -GAGCACAGAACCCTTCTGGGATGAGCGGGTGATCCGCCCCATCGTGAGCGCCACCCAACGGCTGGCCAAA -GAAATACAGCATCTGCAAAGCGGCGACTTTCGTCTCTATTGCCTGTATGTGGTCGCCGCACTGGTTGTGC -TGCTAATCGCTATTGCCGTCTAAGGAAATCACCATGAGACAAACTCTTTGCGACGGATATCTGGTCATTT -TTGCGTTAGCACAGGCCGTGATTCTGCTGATGCTAACCCCACTTTTTACGGGTATTTCCCGGCAGATACG -CGCGCGTATGCACTCCCGCCGCGGGCCGGGGATCTGGCAGGATTATCGCGATATCCACAAACTGTTTAAA -CGCCAGGAAGTTGCGCCGACATCTTCAGGTCTGATGTTCCGCCTGATGCCGTGGGTATTAATCAGCAGCA -TGCTGGTGCTGGCGATGGCCTTACCACTGTTTATTACCGTTTCCCCTTTTGCGGGCGGCGGCGATCTGAT -CACCCTTATCTATCTTCTTGCCCTGTTTCGTTTTTTCTTTGCTCTTTCCGGGCTGGATACCGGAAGTCCG -TTTGCGGGAGTCGGTGCCAGTCGCGAGTTGACGCTCGGCATTCTGGTCGAACCAATGCTTATTCTCTCAC -TGCTGGTATTGGCGCTGATAGCAGGTTCCACGCATATCGAGATGATCAGCAATACGCTGGCGATGGGCTG -GAACTCGCCGCTAACCACCGTACTGGCGTTACTGGCCTGTGGTTTTGCCTGCTTCATTGAGATGGGAAAA -ATTCCCTTTGATGTTGCTGAAGCAGAACAGGAATTACAGGAAGGCCCGCTGACCGAATATTCCGGTGCCG -GGCTGGCGCTAGCGAAATGGGGGCTGGGGCTGAAACAGGTCGTGATGGCATCACTGTTTGTGGCCCTGTT -TCTGCCCTTTGGGCGCGCGCAAGAACTTTCTCTCGCCTGCCTGCTGACTTCACTTGTCGTTACGCTGCTC -AAGGTTTTGCTGATTTTTGTACTGGCCTCAATCGCAGAAAACACGCTGGCACGCGGGCGTTTTTTACTCA -TTCACCATGTGACCTGGCTTGGCTTCAGCCTTGCTGCGCTTGCATGGGTCTTCTGGTTAACCGGTCTGTA -AGGAGCACTGACGGAATATGGAAAATCTTGCTCTGACGACGTTATTGCTGCCTTTTATCGGCGCACTGGT -CGTTTCGTTTTCGCCACAACGTCGGGCCGCCGAATGGGGGGTTTTGTTCGCCGCGCTGACCACGCTGTGC -ATGTTGTCACTGATCTCCGCGTTTTATCAGGCCGATAAAGTTGCCGTCACGTTGACGTTGGTCAACGTGG -GGGATGTGGCGTTGTTTGGCCTGGTCATTGATCGCGTGAGTACGCTGATTCTGTTTGTGGTGGTGTTTCT -CGGTTTGCTGGTCACGATCTACTCCACGGGTTATCTGACGGATAAAAATCGCGAACACCCGCATAACGGC -ACGAATCGTTATTACGCATTTTTACTGGTGTTTATCGGCGCGATGGCGGGACTGGTACTCTCCTCGACGC -TGCTCGGTCAGTTGTTGTTTTTTGAAATTACAGGCGGCTGCTCCTGGGCGTTGATCAGTTATTACCAGAG -CGATAAAGCGCAGCGTTCAGCACTAAAAGCGTTACTTATCACTCATATCGGCTCGTTGGGGTTGTATCTT -GCCGCCGCCACGCTGTTTTTGCAGACCGGAACGTTTGCGCTTAGCGCGATGAGCGAGTTACACGGCGACG -CACGTTATCTGGTTTATGGCGGCATCCTGTTTGCCGCGTGGGGGAAATCGGCCCAGCTACCGATGCAAGC -GTGGCTACCGGACGCAATGGAAGCGCCAACACCGATCAGCGCCTATCTCCACGCCGCATCGATGGTGAAA -GTGGGCGTTTACATTTTTGCCCGCGCTATTATCGACGGCGGCAATATCCCGCATGTGATTGGCGGCGTTG -GCATGGTCATGGCACTGGTCACCATTCTTTATGGCTTTCTGATGTATTTGCCACAGCAGGATATGAAGCG -GTTGCTAGCCTGGTCGACCATCACTCAACTTGGCTGGATGTTCTTCGGCTTGTCGCTCTCCATCTTCGGC -TCGCGGCTGGCGCTGGAGGGCAGCATCGCCTACATCGTCAACCACGCGTTCGCTAAAAGCCTGTTTTTCC -TTGTAGCAGGTGCGCTGAGTTACAGCTGCGGCACGCGCTTGTTGCCGCGTCTGCGTGGCGTATTGCACAC -CCTGCCGTTGCCAGGCGTGGGTTTCTGCGTGGCAGCGCTGGCGATTACCGGCGTGCCGCCGTTCAACGGC -TTCTTCAGTAAATTCCCGCTGTTTGCTGCCGGTTTTGCGTTGTCAGTGGAGTACTGGATCCTGCTGCCCG -CCATGATTCTTCTGATGATTGAATCGGTCGCCAGTTTCGCCTGGTTTATTCGCTGGTTTGGTCGCGTTGT -GCCTGGCAAACCGAGCGAGGCCGTCGCCGATGCCGCACCGCTGCCAGGATCAATGCGCCTGGTGTTGATT -GTACTGATTGTGATGTCGCTGATTTCCAGCGTAATCGCCGCGACCTGGTTGCAGTAAGGAGATGATGAAT -GACCGGTTCTATGATCGTAAATAATCTGGCGGGACTGATGATGCTGACATCGCTGTTTGTGATTAGCGTC -AAAAGCTATCGCCTGTCATGCGGATTTTACGCCTGCCAGTCACTGGTGCTGGTGTCTATTTTCGCCACTC -TCTCGTGCCTGTTCGCCGCAGAGCAACTGCTGATCTGGTCCGCCAGCGCCTTTATCACCAAAGTGCTGCT -GGTACCGTTAATCATGACTTACGCTGCACGAAATATTCCCCAGAACATCCCGGAAAAAGCGTTATTCGGT -CCGGCAATGATGGCACTGCTCGCGGCGTTAATTGTCCTGCTTTGCGCATTTGTCGTTCAGCCCGTGAAGC -TACCGATGGCTACCGGGCTGAAACCGGCGCTGGCGGTAGCGTTAGGTCATTTTCTGCTTGGCCTGCTGTG -CATTGTCAGCCAGCGCAATATCCTGCGGCAAATTTTTGGTTACTGCCTGATGGAAAACGGCTCCCATCTG -GTGCTGGCGCTTCTTGCCTGGCGAGCACCGGAACTGGTGGAAATAGGTATCGCTACCGACGCCATCTTCG -CCGTCATTGTGATGGTGTTACTGGCAAGAAAAATATGGCGTACCCACGGCACGCTGGACGTGAACAACTT -GACCGCGCTGAAGGGATAATGAGATGAGTTATTCTGTGATGTTCGCTTTACTCCTGCTCACGCCGCTGCT -TTTTTCGCTGCTCTGTTTTGCCTGCCGGAAACGGAGACTTTCTGCGACTCGCACGGTGACCGTATTACAT -AGCTTAGGGATCACACTGCTGCTGATTCTGGCACTCTGGGTGGTCCAAACTGCCGCTGATGCAGGAGAAA -TATTCGCTGCGGGACTGTGGCTTCATATTGATGGTCTGGGCGGTTTGTTCCTCGCCATTCTTGGTGTGAT -TGGCTTTCTCACCGGTATTTACTCGATTGGCTACATGCGTCATGAAGTGGCACACGGCGAGCTTTCACCC -GTTACGCTGTGCGATTACTACGGTTTCTTCCATCTGTTTTTGTTCACCATGCTGCTGGTTGTTACCAGCA -ATAACCTGATTGTGATGTGGGCGGCGATCGAAGCCACCACCTTAAGCTCGGCGTTTCTGGTAGGCATTTA -CGGTCAGCGTTCATCGCTGGAAGCTGCATGGAAGTACATCATTATTTGTACTGTTGGTGTCGCTTTTGGT -CTGTTCGGTACCGTGCTGGTATACGCCAACGCCGCCAGCGTTATGCCGCAGGCAGAAATGGCGATATTCT -GGAGCGAGGTTCTTAAGCAATCGTCCTTGCTTGACCCAACATTAATGCTGTTGGCCTTTGTGTTTTTGCT -AATTGGCTTTGGTACCAAAACCGGGCTATTTCCCATGCACGCCTGGCTGCCGGATGCTCACAGTGAAGCG -CCGAGTCCGGTCAGCGCCCTGCTCTCCGCCGTATTGCTGAACTGCGCGCTGTTGGTGCTGATTCGCTATT -ACATCATTATTTGCCAAGCCATCGGCAGCGATTTCCCCAACCGGTTGTTGCTCATCTTCGGCATGTTGTC -GGTTGCCGTGGCGGCATTTTTCATTCTGGTACAGCGGGACATTAAGCGTCTGCTGGCGTACTCCAGCGTG -GAGAACATGGGGCTGGTCGCGGTGGAGCTAGGCATTGGCGGGCCGCTGGGAATTTTTGCCGCGCTGCTGC -ACATCTTAAACCACAGTCTGGCAAAAACGCTGCTGTTCTGCGGTTCCGGCAATGTACTGCTCAAGTACGG -CACGCGCGATCTCAACGTCGTCTGTGGGATGCTCAAAATCATGCCATTTACCGCCGTGCTGTTTGGCGGC -GGTGCGCTGGCGCTGGCAGGGATGCCGCCCTTCAACATTTTTCTTAGCGAATTTATGACCATTACCGCCG -GACTGGCACGTAATCACCTGCTGATTATCGTCCTGCTGTTATTGCTGTTAACGCTGGTGCTGGCGGGCCT -GGTACGGATGGCTGCGCGGGTGTTAATGGCGAAACCGCCGCAGGCCGTTAACCGGGGTGATCTCGGCTGG -TTGACCACCTCGCCAATGGTGATTCTGCTGGTCATGATGCTGGCGATGGGAACGCATATTCCACAACCTG -TCATCAGGATCCTGGCGGGCGCTTCCACTATAGTCCTCTCAGGGACGCACGATCTGCCTGCACAACGTAG -CACCTGGCATGATTTTTTGCCTTCAGGCACCGCATCTGTTTCGGAGAAACACAGTGAACGTTAATTCATC -GTCAAATCGTGGCGAAGCGATTCTCGCCGCCCTGAAAACGCAGTTCCCCGGCGCGGTGCTGGATGAAGAG -CGACAAACGCCTGAACAGGTCACCATTACGGTGAAAATCAATCTGCTGCCTGACGTTGTACAGTATCTTT -ATTATCAACATGATGGCTGGCTTCCGGTCCTGTTTGGCAACGACGAGCGGACACTTAACGGTCATTACGC -GGTTTATTATGCCCTTTCAATGGAAGGGGCCGAAAAATGCTGGATTGTGGTGAAGGCGCTGGTCGATGCC -GACAGTCGGGAGTTTCCGTCAGTCACACCGCGCGTCCCTGCCGCGGTCTGGGGCGAGCGAGAAATTCGCG -ATATGTACGGGCTGATTCCGGTTGGCCTGCCGGATCAGCGTCGCCTGGTGTTGCCCGATGACTGGCCGGA -AGATATGCATCCGCTGCGCAAAGATGCGATGGATTATCGACTGCGCCCTGAACCGACGACTGATTCCGAA -ACGTATCCGTTTATCAATGAGGGCAACAGCGATGCGCGGGTGATCCCTGTCGGCCCGCTGCATATCACCT -CCGATGAACCGGGTCACTTCCGCTTGTTTGTGGATGGCGAGCAAATTGTCGATGCTGATTACCGCCTGTT -TTATGTCCATCGCGGCATGGAGAAACTGGCAGAAACGCGGATGGGCTACAACGAAGTGACCTTCTTATCG -GACCGCGTGTGTGGGATTTGCGGTTTTGCCCACAGTGTGGCCTATACCAATTCGGTTGAAAATGCACTGG -GGATTGAGGTGCCGCAACGAGCACATACTATTCGCTCGATTCTGCTGGAAGTCGAACGGCTACACAGTCA -TTTGCTTAACCTTGGCCTCTCCTGCCATTTCGTTGGTTTTGATACCGGCTTTATGCAATTTTTCCGCGTG -CGGGAAAAGTCGATGACGATGGCGGAATTGCTGATCGGGTCGCGTAAAACCTACGGTCTGAATCTGATTG -GTGGTGTTCGCCGCGATATTCTCAAAGAGCAACGTCTGCAAACGCTGAAACTGGTGCGCGAGATGCGCGC -CGACGTGTCGGAGCTGGTAGAGATGCTGCTTGCTACGCCGAATATGGAACAACGCACTCAGGGCATTGGC -ATTCTCGACCGACAAATCGCCCGTGATTTGCGCTTTGATCACCCCTACGCCGACTACGGCAATATTCCAA -AAACACTGTTTACCTTTACCGGCGGCGATGTTTTCTCCCGCGTGATGGTCCGTGTCAAAGAGACGTTTGA -TTCGCTGGCAATGCTGGAATTTGCCCTCGACAACATGCCGGATACCCCACTGCTGACCGAAGGCTTTAGC -TATAAACCTCACGCATTCGCGCTGGGCTTTGTTGAAGCGCCACGCGGTGAAGACGTGCACTGGAGCATGC -TCGGTGATAACCAAAAATTGTTCCGCTGGCGCTGCCGTGCCGCCACCTACGCCAACTGGCCGGTGTTGCG -TTACATGCTGCGCGGCAATACCGTTTCTGACGCACCGCTGATTATCGGTAGCCTTGATCCCTGCTACTCC -TGTACCGACCGTGTGACGCTGGTAGATGTGCGCAAGCGCCAGTCAAAAACCGTGCCGTATAAAGAGATCG -AACGCTACGGCATTGATCGTAACCGTTCGCCGCTGAAGTAAGGACAGAAGATGCTGAAGTTACTGAAAAC -TATTATGCGCGCCGGAACCGCGACGGTGAAATATCCCTTCGCGCCACTGGAGGTCAGCCCTGGCTTTCGC -GGAAAACCGGACCTGATGCCCAGCCAATGTATTGCCTGCGGTGCCTGCGCCTGTGCTTGTCCGGCAAATG -CGCTGACTATCCAGACCGACGACCAGCAAAATTCGCGCACCTGGCAGCTCTATCTGGGGCGTTGTATTTA -CTGCGGACGTTGTGAAGAAGTGTGCCCGACCAGAGCCATCCAGCTTACCAATAACTTTGAACTGACCGTC -ACCAATAAAGCCGATCTCTATACCCGCGCGACGTTCCATCTACAACGTTGCAGCCGTTGCGAACGCCCGT -TTGCCCCGCAAAAAACCATCGCACTGGCTGCTGAATTGTTAGCACAGCAACAAAATGCGCCACAAAACCG -CGAAATGTTGTGGGCGCAAGCGAGCGTCTGCCCGGAATGCAAACAACGCGCGACGCTGATCAACGACGAT -ACAGATGTACTGCTGGTGGCTAAGGAGCAGCTATGAGTCCAGTGCTTACACAACATGTCAGCCAGCCCAT -CACGCTGGACGAGCAAACGCAAAAGATGAAGCGGCATTTGCTACAGGATATCCGTCGCTCGGCTTACGTT -TATCGCGTCGATTGCGGCGGCTGCAACGCCTGTGAAATCGAAATTTTTGCTGCCATTACACCAGTATTCG -ACGCAGAACGTTTTGGCATTAAGGTTGTTTCATCACCGCGTCACGCCGATATTTTGTTATTTACTGGCGC -AGTCACCCGGGCGATGCGTATGCCTGCACTTCGGGCGTATGAGTCTGCCCCCGATCATAAAATTTGTGTT -TCCTACGGCGCGTGCGGTGTCGGCGGCGGTATTTTCCACGATCTCTACAGCGTCTGGGGCGGTAGCGACA -CCATTGTCCCCATTGATGTTTGGATCCCCGGCTGCCCGCCAACACCGGCCGCCACCATTCACGGTTTCGC -CGTGGCGCTCGGTTTGCTGCAACAGAAGATTCACGCTGTGGATTATCGCGATCCCACCGGGGTGACTATG -CAACCGTTGTGGCCGCAGATCCCGCCATCACAGCGTATCGCCATTGAGCGAGAAGCGCGGCGGCTGGCGG -GCTATCGTCAGGGGCGAGAAATTTGCGATCGGCTCCTGCGCCATTTAAGCGACGATCCTACAGGAAATCG -GGTTAACACCTGGTTGCGCGATGCCGACGATCCACGTCTCAATAGTATCGTTCAGCAACTCTTTCGCGTA -CTCCGGGGGTTACATGACTGAAGAGTGCGGGGAAATTGTTTTCTGGACGCTGCGAAAAAAGTTTGTCGCC -AGTAGCGACGAGATGCCGGAACACAGCTCTCAGGTAATGTATTACTCGCTAGCTATCGGCCATCACGTTG -GCGTGATTGATTGTCTGAATGTCGCCTTCCGCTGCCCACTGACGGAATACGAAGATTGGCTTGCACTGGT -CGAAGAGGAGCAAGCCCGACGTAAGATGCTGGGGGTGATGACTTTTGGTGAGATTGTTATTGACGCCAGC -CACACCGCCCTGTTGACCCGGGCATTCGCGCCACTGGCGGATGACGCGACGTCTGTGTGGCAGGCGCGTA -GCATTCAATTCATTCATCTGTTGGATGAAATTGTGCAGGAACCGGCCATCTATCTGATGGCCAGAAAAAT -TGCGTGAGAAGGATTTCTCATTAATAAGGACTGTTGATGGCTATGTCAGACGAGGCGATGTTTGCCCCGC -CACAAGGAATAACAATTGAAGCGGTAAACGGAATGCTCGCGGAGCGGTTAGCACAGAAACACGGCAAGGC -GTCTTTATTACGCGCCTTCATCCCGCTGCCGCCGCCGTTCAGCCCGGTACAACTTATTGAACTGCATGTT -CTCAAAAGCAACTTCTATTACCGCTACCATGATGATGGCAGCGATGTGACGGCAACAACAGAGTATCAGG -GCGAGATGGTCGATTATTCGCGTCACGCCGTCCTTCTCGGCAGTAGTGGAATGGCGGAGCTACGCTTTAT -TCGCACCCACGGCAGTCGTTTTACTTCCCAGGATTGCACACTGTTTAACTGGCTGGCGCGGATAATCACC -CCGGTTCTGCAATCATGGCTCAATGATGAAGAACAGCAGGTGGCGCTGCGTTTGCTGGAGAAAGATCGCG -ATCATCATCGGGTACTGGTTGATATTACTAATGCAGTGCTGTCACATCTTGATCTCGACGATCTGATCGC -TGACGTCGCTCGTGAGATCCATCATTTTTTCGGTCTGGCTTCAGTCAGTATGGTACTGGGCGATCATCGA -AAGAACGAGAAGTTCAGCCTGTGGTGCAGCGATCTTTCTGCCTCACATTGTGCGTGTCTGCCACGCTGTA -TGCCTGGCGAAAGTGTATTGCTGACACAAACGCTACAAACCCGACAACCGACCTTGACGCACCGTGCAGA -TGATCTGTTTCTCTGGCAACGCGACCCGTTATTACTCTTACTTGCATCTAACGGCTGCGAATCTGCGCTC -CTTATACCGCTTACCTTTGGCAACCATACACCGGGTGCATTGTTGCTGGCGCATACCTCTTCCACTCTCT -TTAGTGAGGAAAACTGCCAGCTACTACAACACATAGCCGATCGCATCGCTATTGCCGTTGGCAATGCCGA -TGCCTGGCGTAGCATGACCGATTTGCAGGAAAGTTTGCAGCAAGAAAACCACCAGCTTAGCGAGCAGCTC -CTTTCGAATCTGGGCATCGGTGACATTATCTATCAAAGCCAGGCAATGGAAGACCTGCTCCAGCAGGTAG -ATATTGTGGCGAAGAGCGACAGTACGGTGTTGATTTGTGGTGAAACCGGAACTGGCAAAGAGGTGATCGC -CAGAGCGATCCATCAACTTAGCCCGCGACGCGACAAGCCGCTGGTCAAAATCAACTGCGCTGCCATCCCC -GCCAGTCTTCTGGAAAGTGAGTTATTCGGTCATGACAAAGGGGCGTTTACTGGTGCGATTAATACCCATC -GTGGTCGTTTTGAAATTGCCGATGGCGGCACGTTGTTTCTCGATGAAATTGGCGATCTGCCGTTAGAACT -TCAGCCTAAACTGCTGCGCGTATTGCAGGAGCGGGAGATTGAGCGTCTCGGCGGGAGTAGAACGATCCCG -GTGAATGTCAGAGTCATTGCCGCCACCAACCGTGATTTGTGGCAAATGGTTGAAGATCGCCAGTTTCGCA -GCGATCTCTTTTATCGCCTGAATGTCTTCCCACTGGAATTGCCGCCGCTACGCGACCGTCCGGAAGATAT -CCCTCTTTTAGCAAAACATTTCACGCAAAAAATGGCGCGCCATATGAATCGCGCAATTGACGCCATCCCG -ACCGAGGCACTACGCCAGTTGATGTCGTGGGATTGGCCGGGCAACGTGCGCGAGCTGGAAAACGTGATTG -AGCGGGCGGTACTGTTGACTCGTGGTAACAGTCTGAATTTACATCTAAATGTCCGACAAAGCCGTTTACT -GCCGACGCTAAATGAAGATTCAGCGCTTCGCAGTTCAATGGCGCAGTTACTGCACCCGACGACGCCAGAG -AATGACGAAGAAGAACGTCAGCGCATTGTTCAGGTATTGCGAGAAACCAATGGCATTGTTGCCGGGCCCC -GTGGCGCAGCGACGCGATTAGGGATGAAGCGCACCACGCTGCTGTCACGAATGCAGCGGCTGGGGATCTC -GGTTCGCGAGGTGTTGTAATCTGCTTTTGCAGGAGTATGCATGAGAAACAAACTCTCTTTCGACTTGCAG -TTGAGCGCCAGAAAAGCGGCAATCGCTGAACGGATTGCCGCCCATAAAATTGCCCGCAGTAAAGTGTCGG -TCTTTTTAATGGCGATGTCCGCTGGCGTGTTTATGGCGATCGGATTTACTTTTTACCTTTCCGTTATCGC -CGATGCCCCGTCTTCACAGGCATTAACCCATCTGGTGGGCGGCCTTTGCTTTACACTCGGCTTTATTTTG -CTGGCGGTTTGCGGCACCAGCCTGTTCACCTCGTCGGTAATGACGGTGATGGCAAAAAGTCGGGGCGTTA -TTAGTTGGCGAACTTGGCTGATTAACGCACTTCTGGTGGCCTGCGGTAATCTGGCAGGTATTGCCTGTTT -CAGTTTGTTAATCTGGTTTTCCGGGCTGGTGATGAGTGAAAACGCGATGTGGGGAGTCGCGGTTTTACAC -TGCGCCGAGGGCAAAATGCATCATACATTTACTGAATCTGTCAGCCTCGGCATTATGTGCAATCTGATGG -TTTGCCTGGCGCTGTGGATGAGTTATTGCGGGCGTTCGTTATGCGACAAAATCGTCGCCATGATTTTGCC -CATCACCCTGTTTGTCGCCAGTGGCTTTGAGCACTGTATCGCCAATTTGTTTGTGATTCCGTTCGCCATT -GCCATTCGCCATTTCGCCCCTCCCCCCTTCTGGCAGCTGGCGCACAGTAGCGCAGACAATTTTCCGGCAC -TGACGGTCAGCCATTTTATTACCGCCAATCTGCTCCCGGTGATGCTGGGTAATATTATCGGCGGTGCGGT -GCTGGTGAGTATGTGTTATCGGGCTATTTATTTACGTCAGGAACCCTGAAAAATCAGCCCGGCGAAACAG -TTCGTCGGGCTGAAGATTATTCTTGCGCGATTTGCCCATCGGGCCAGGCATGAATCACGGCTTTGATCAG -CGTCGCCAACGGAATGGCGAAGAATACGCCCCAGAATCCCCACAAACCACCGAAGATCACCACCGATAAA -ATAATCACCAGCGGATGCAGGTTAACCGCTTCGGAGAACAACACCGGCACTAACAGGTTGCCGTCCAGCG -CCTGAATAATCAGATACACCGCGAAGCAGCTCCAGAATTCAGTACCTGCGCCAAACTGGAATAGCGCCAC -GCCAACCACCGGAATGGTCACCACAAATGCGCCAATGTACGGAATAAGAACCGAGAAGCCGACCAGCACT -GCCAGCAGCAGCGAATAGTTCAGCCCGAAGAGCAAGAACCCCAGCCAGGTGGCGATCCCCACCACGATCA -TCTCCAGCACTTTGCCGCGGATATAGTTGGTGATTTGTTGATTCATCTCCTTCCACACCTGTCCTGCCAG -CCCACGGTTACGCGGCAGCACCCGGCGAACGGCGTTCAGCATCTGCTCTTTGTCTTTCAGCAGGAAGAAG -ACCATCAATGGCACCAGCACCAGATAGACGGCTATGGTCAGCAAACCGACCAGCGAGGCGAGGGAAATTT -TCACCACCGAATCGCCCATGGTCAGCATCCGACTGCGCATATTTTCGGCCATTGCATCAATAATGCCCGC -GTCCATTAACGCCGGATAGCGGCGCGGCAACGTGGCGGCAAAGTCAGAAAGCTTATTGAGCATCCCCGGC -ATATCGCGGATTAAGTAGATGCCCTGTTGCCAGGCGATAGGCAGTACCACGAACGCCATCAGTAGCAATA -TACCGACGAAAACCACCAATACAATCGACGTCGCCCAGCGGCGGGAGCAGCCAATAGATTGCAGACGCAC -GGTTGGCCATTCCAGCAAATAGGCCAGCACAATAGCCACCAGCAACGGAGCAAGCAGGCCACTAAAGAAA -AAGATAATGCCAAATCCGGCAACTAAAATAACCAGCAAGGCAATCGCTTCCGGGTCGCTAAAACGGCGGC -GATACCATTGCATCAACATTTCGAGCATAAAGACCTTCCCTGAACCTCAAGAGCGGGATTGCGATCCGCA -ATTGTATCGAAATGTCACAAAAAAGACTTCGCTTTTTATGACGGATTCAGGAAACTGAAAAGTCATTTGA -GTGGGCTAATCTTCGCCGTTACACTCAAAGGCGGCGCGGTGGGAACGATATTTCACAGTATCGGTCAAAT -GACTATCTCCAGAAATACAGGATAGAGGTTATGTTCAGGCAGTTGAAAAAAAACCTGGTTGCAACCCTCA -TTGCTGCTATGACCATTGGTCAGGTAGCCCCGGCGTTTGCCGACAGCGCAGACACCTTGCCGGATATGGG -AACCTCCGCAGGAAGCACGCTTTCCATTGGTCAGGAAATGCAGATGGGCGACTATTATGTCCGCCAGCTA -CGCGGCAGCGCGCCGTTAATTAATGACCCGCTGTTAACGCAATATATTAATTCGCTGGGGATGCGTCTGG -TTTCGCATGCCAATTCGGTTAAGACACCGTTTCATTTTTTTCTGATCAACAACGACGAAATTAACGCCTT -TGCTTTCTTTGGCGGCAACGTGGTGCTGCACTCTGCCCTGTTCCGTTATTCCGATAACGAAAGTCAACTG -GCTTCAGTTATGGCGCACGAAATCTCCCACGTCACCCAACGTCACCTGGCGCGAGCGATGGAAGATCAGC -AGCGCAGCGCGCCGCTGACCTGGGTCGGCGCGTTAGGTTCTATTTTACTGGCGATGGCCAGTCCGCAGGC -GGGGATGGCGGCGCTGACCGGTACACTGGCGGGAACGCGTCAGGGGATGATCAGTTTCACCCAGCAAAAT -GAACAGGAAGCGGACCGCATTGGTATTCAGGTGCTGCAACGCTCGGGATTCGATCCGCAGGCGATGCCAA -CCTTCCTCGAAAAATTACTCGATCAGGCGCGTTACTCCTCGCGCCCGCCGGAAATTTTATTGACTCACCC -GTTGCCGGAAAGTCGTCTGGCAGATGCCCGCAACCGTGCTAATCAGATGCGCCCGATGGTGGTGCAGTCG -TCGGAAGATTTCTATCTGGCGAAAGCGCGCACACTGGGGATGTATAATTCCGGACGTAACCAGCTCACCA -GTGATTTGCTGGATGAATGGGCGAAAGGAAACGTTCGTCAGCAACGAGCAGCACAATATGGTCGTGCTTT -ACAGGCGATGGAAGCCAATAAATACGACGAGGCGCGTAAAACGCTGCAACCGTTACTGGCGGCAGAACCT -GGCAACGCATGGTATCTCGATCTGGCTACTGATATCGATCTTGGGCAAAACAAAGCCAATGAGGCGATCA -ATCGTCTGAAAAATGCCCGCGATTTACGCACCAATCCGGTGTTGCAGCTCAACCTGGCGAACGCTTATTT -GCAAGGCGGTCAACCACAAGAAGCGGCCAATATTCTGAATCGCTACACCTTTAATAATAAAGATGACAGC -AACGGCTGGGATTTGCTGGCACAGGCGGAAGCCGCGCTAAATAACCGCGATCAGGAGCTGGCTGCGCGAG -CAGAAGGTTATGCGCTCGCCGGACGACTCGATCAGGCCATTTCGCTGTTGAGTAGCGCCAGTTCGCAGGT -GAAATTAGGCAGCCTGCAACAAGCGCGTTACGATGCGCGCATCGACCAGTTGCGCCAGCTGCAGGAACGC -TTTAAGCCTTATACCAAGATGTAATTCGCATTAAAGGAAGAACAATGACCAAACAGGTAAAAATCTACCA -TAACCCACGCTGTTCAAAGAGCCGGGAAACGCTGAACCTGCTGAAAGAAAACGGCGTGGAGCCAGAAGTG -GTGCTCTACCTTGAGACACCCGCCGATGCGGCAACGCTGCGCGATTTGCTGAAAATACTGGGGATGAATA -GCGCCCGTGAATTGATGCGCCAGAAAGAGGATCTTTATAAAGAACTGAACCTGGCTGACAGTTCGCTTAG -CGAAGAGGCGCTGATTCAGGCAATGGTGGATAATCCGAAGCTGATGGAGCGCCCGATTGTGGTCGCGAAT -GGCAAAGCGCGGATTGGTCGTCCACCGGAGCAGGTACTGGAAATCGTGGGTTAAGATGTGCTCCATCGCT -AGTTGAAGCACATTGCCGGATGCGACGCTTGCCACGTCTTATCCGGCCTACGAATACTATGGATTAACTT -CGCGTAGTTCGGATAAGGCGTTCGCGCCGCATCCGACAATAAACACCTTATCTACAACTTCAGAATTTCT -TTCACAAACGGAATGGTCAGCTTACGTTGCGCGGTAATCGACGCACGATCCAACTGATCCAACGTCATAA -ATAGCGTGCGCATTTCTCTGTCGAGCCGCTTCAGCAAGAAACGCCCCACATCTTCCGGCAGTTCAAAACC -ACGCAAACGCGCGCGTAACTGTAGCGCCTGCAACTTATCTTCATCAGAAAGTGGCTGCAATTTGTAGATC -TGCCCCCAGTCGAGTCGCGACGCGAGATCCGGTAATCCCAGATTCAACTGCCGCGGTGGACGATCGCCGG -TGATCAACAACCGTGTTTTGCCCGATTCCAGAATTCGATTGTAGAGATCGAAAATCGCCATCTCCCACAA -CTCATCGCCTGCAATACACTCAATGTTGTCGATACAGACCAGCGACAAATGCTCCATACCGTCGAGCACT -TCCGGAACAAACCAGGTGCGTTTATCCAGCGGGACATAGCCCACCGCATCGCCACGCTGCGACAATTCCG -CGCAAGCCGCGTGCAGCAGATGGCTGCGCCCCGCGCCTTCGCGTGCCCAGAGATAGATGTAACCGCTATG -TTCCTGACGCAGCACGTTTTGCAGCGCGGCCAGTAAAGAGGAGTTATCCCCCGGCCAGAAACTTGCAAAG -GTTTCGTCGTCAGGAAGATAAAGTGGCAAAGAGAGCTGTGCCGGTGTGTTCAGAGATACCTCAACCAGGA -TTTCACAAAATCGCGAGAAGTTTACCACAGAATCCCATGATGTTTGAACCGGGCAGCAACACTGCCCGGT -CGGTACATTATTTGTCTGTTATATCCGCGTCTTCTGCGTCCAGCACCACTTCTTCAGGGCGCAGCACACT -GATCAGTTTGAAGATCAAACTTAAGCCGATACCGACGATGGTCGCCAGCGCCATACCTTTTAACTCCGCC -GCGCCGATGTTTACCTTCGCGCCACTGACGCCGATGATCAAAATCACGGAAGTCAGGATCAGGTTCTGTG -CTTTGTTGTAATCCACTTTCGATTCGATCAAAACACGAATACCGGAAGCACCGATGACACCATAAAGCAG -CAGCGAAACGCCGCCCATCACCGGCAATGGGATCATCTGGATAGCGGCAGCCAGTTTACCGACGCAGGAA -AGCAGGATAGCGAAAATCGCCGCCCCGCCGATAACCCAGGTACTGTAAACACGGGTGATCGCCATCACGC -CAATGTTTTCTCCGTAAGTAGTATTTGGCGTAGAGCCAAAGAAGCCGGAAATCACGGTCGACAAGCCATT -AGCAAACATCGAACGGTGCAGACCTGGATCGCGCAGCAGATCTTTTTTGACGATATTAGCCGTTACTACC -AGGTGCCCTACGTGTTCGGCAATAACCACTAACGCCGCTGGCAGAATAGTCAGAATGGCAAACCACTCGA -AGCGCGGCGTATAGAGGGTTGGCAGCGCAAACCAGTGAGCATTAATAATCGGCGTGGTATCGACAATTCC -CATTGCGAAAGAGAGCGCGTACCCCACCAGCACGCCAATTAAAATCGGGATAATTGCCAGGAAACCACGA -AACAGCACGGAACCTAAAACCGTGACCGCCAGGGTGGTAATAGAGATGATGATGGTTTTGGAGTCTGGCG -TTTGCCCTTCAGCCGGGAGTAAACCCGCCATACCGGCAGCTACGCCCGCCAGCTCCAGACCGATGACGGC -AACGATTGCGCCCATTGCCGCAGGTGGAAACAGCACGTCCAGCCAGCCGGTCCCCGCTTTCTTCACGATA -AAAGAAACCAGGCAGAACAGCACGCCGCACATAATAAAGCCGCCCAGCGCGACTTCATACCCTAACGGCA -ACAGTAACAATACCGGTGAAATAAAGGCAAAGCTGGAACCAAGATAAGCCGGAATTTTCCCTTTACAGAT -GAAGAGATACAGCAGCGTTCCAATACCGTTAAATAACAGTACAGTCGCCGGGTTAATATGAAATAAGACG -GGCACCAGGACGGTTGCACCAAACATGGCGAACAAATGTTGCAAACTAAGCGGGATTGTCTGTAAAAGTG -GCGGTCTTTCACTCACCCCGATAGCACGGCGCGTCATAGTATTATCCTCTGTATTATGTGTTATAGGCGC -TTTACTCAAAAAAAAGCCGACTCTTAAAGTCGGCTTTAATTATTTTTATTCTTTATTTCGTACCAAAGAT -TTTGTCACCGGCATCGCCGAGGCCCGGAATAATGTATCCGTGCTCGTTCAGTCCCTGATCAATCGATGCG -GTATACAGTTCGACGTCCGGGTGCGCTTTTTCCAGCGCAGCGATACCTTCTGGCGCAGCTACCAGCACCA -GAACTTTGATGCTGCTGCAGCCCGCTTTTTTCAGCAGGTCGATGGTCGCGATAACGGAACCACCGGTTGC -CAGCATTGGGTCAACGATCAGCGCCATACGCTCATCGATGTTAGAAACCAGTTTCTGGAAGTACGGTACC -GGCTCCAGCGTTTCTTCATTACGGTACATACCGACAACGCTGATGCGCGCGCTCGGAACGTTTTCCAGCA -CACCGTCCATCATACCAAGACCCGCACGCAGAATTGGCACAACGGTAATTTTCTTACCTTTGATCTGGTC -GATTTCTACCGGGCCGTTCCAGCCTTCGATAGTTACTTTTTCCGTTTCGAGGTCGGCGGTCGCTTCGTAA -GTCAGCAGGCTACCCACTTCGGAAGCGAGTTCGCGAAAGCGCTTGGTGCTGATATCTTGCTCACGCATCA -GTCCCAGCTTGTGTTTGACGAGTGGGTGTTTGACTTCCACGATCTTCATACTCTTTCTCCTTTGAGGGGC -AGCCACAAAAAAAATCGACGGATTATACCTCCTTTCTTCAAGGCGGCAATATTCTTTTCGTTGACTTTAG -TCAAAATGATAACGGTTTGAGATAAAGTTATTTTATATTCAGATGGTTATGAAAGAAGATTATTCCATCC -GAAAACTAACCTTTACCCTGGCACAAGTCTTCTTTCGCCGCGCGCCTGGGGAAAAGACGTGCAAAAAGGT -TGTGTAAAGCAGTCTCGCAAACGTTTGCTTTCCCTGTTAGAATTGCGCCGAATTTTATTTTTCTACCGCA -AGTAACGCGTGGGGACCCAAGCAGTGACCGATAAAACCTCTCTTAGCTACAAAGATGCCGGTGTTGATAT -TGACGCGGGTAATGCTCTGGTTGGAAGAATCAAAGGCGTAGTGAAGAAAACGCGTCGTCCGGAAGTGATG -GGCGGTCTGGGCGGCTTCGGTGCGCTGTGTGCATTGCCGCAAAAATATCGTGAACCCGTGCTGGTTTCTG -GCACTGACGGCGTAGGTACCAAGCTGCGTCTGGCAATGGACTTAAAACGTCACGACACCATTGGTATTGA -TCTGGTCGCCATGTGCGTTAATGACCTGGTGGTGCAAGGTGCAGAGCCGCTGTTTTTCCTCGACTATTAC -GCAACCGGAAAACTGGATGTTGATACCGCTTCAGCGGTGATCAGCGGCATTGCGGAAGGTTGTCTGCAAT -CAGGCTGTTCACTGGTGGGTGGCGAAACGGCAGAAATGCCGGGGATGTATCACGGTGAGGATTACGATGT -CGCGGGTTTCTGCGTTGGCGTGGTAGAAAAATCAGAAATCATCGACGGCTCTAAAGTCAGCGACGGCGAT -GTGCTGATTGCACTCGGTTCCAGCGGTCCACACTCGAACGGCTATTCGCTGGTGCGCAAAATTCTTGAAG -TCAGCGGTTGTGATCCGCAAACCACCGAACTTGATGGTAAGCCATTAGCCGATCATCTGCTGGCACCGAC -CCGCATTTACGTGAAGTCAGTGCTGGAGTTGATTGAAAAGGTCGATGTGCATGCCATTGCGCACCTGACC -GGCGGCGGCTTCTGGGAAAACATTCCGCGCGTATTGCCAGATAATACTCAGGCAGTGATTGATGAATCTT -CCTGGCAGTGGCCGGAAGTGTTCAACTGGCTGCAAACGGCAGGTAACGTTGAGCACCATGAAATGTATCG -CACCTTCAACTGCGGCGTCGGGATGATTATTGCCCTGCCTGCTCCGGAAGTGGACAAAGCCCTCGCCCTG -CTCAATGCCAACGGTGAAAACGCGTGGAAAATCGGTATCATCAAAGCCTCTGATTCCGAACAACGCGTGG -TTATCGAATAATGAATATTGTGGTGCTTATTTCCGGCAACGGAAGTAATTTACAGGCAATTATTGACGCC -TGTAAAACCAACAAAATTAAAGGCACCGTACGGGCAGTTTTCAGCAATAAGGCCGACGCGTTCGGCCTTG -AACGCGCCCGCCAGGCGGGTATTGCAACGCATACGCTCATCGCCAGCGCGTTTGACAGTCGTGAAGCCTA -TGACCGGGAGTTGATTCATGAAATCGACATGTACGCACCCGATGTGGTCGTGCTGGCTGGTTTTATGCGC -ATTCTCAGCCCGGCGTTTGTCTCCCACTATGCCGGGCGTTTGCTGAACATTCACCCTTCTCTGCTGCCGA -AATATCCCGGATTACACACCCATCGTCAGGCGCTGGAAAATGGCGATGAAGAGCACGGTACATCGGTGCA -TTTCGTCACCGATGAACTGGACGGTGGCCCGGTTATTTTACAGGCGAAAGTCCCGGTATTTGCTGGTGAT -TCGGAAGATGACATCACCGCCCGCGTGCAAACCCAGGAACACGCCATTTATCCACTGGTGATTAGCTGGT -TTGCCGATGGTCGTCTGAAAATGCACGAAAACGCCGCGTGGCTGGATGGTCAACGTCTGCCGCCGCAGGG -CTACGCTGCCGACGAGTAATACCCCCGTAATTAAAGCGCCAGCTCTGCCGCTGGCGTTTTTCAATTCACC -TGTAAATCGCAAGCTCCAGCAGTTTTTTTCCCCCTTTTCTGGCATAGTTGGACATCTGCCAATATTGCTC -GCCATAATATCCAGGCAGTGTCCCGTGAATAAAACGGAGTAAAAGTGGTAATGGGTCAGGAAAAGCTATA -CATCGAAAAAGAGCTCAGTTGGTTATCGTTCAATGAACGCGTGCTTCAGGAAGCGGCGGACAAATCTAAC -CCGCTGATTGAAAGGATGCGTTTCCTGGGGATCTATTCCAATAACCTTGATGAGTTCTATAAAGTCCGCT -TCGCTGAACTGAAGCGACGCATCATTATTAGCGAAGAACAAGGCTCCAACTCTCATTCCCGCCATTTACT -GGGCAAAATTCAGTCCCGGGTGCTGAAAGCCGATCAGGAATTCGACGGCCTCTACAACGAGCTATTGCTG -GAGATGGCGCGCAACCAGATCTTCCTGATTAATGAACGCCAGCTCTCCGTCAATCAACAAAACTGGCTGC -GTCATTATTTTAAGCAGTATCTGCGTCAGCACATTACGCCGATTTTAATCAATCCTGACACTGACTTAGT -GCAGTTCCTGAAAGATGATTACACCTATCTGGCGGTGGAAATTATCCGTGGCGATACCATCCGTTACGCG -CTGCTGGAGATCCCATCAGATAAAGTGCCGCGCTTTGTGAATTTACCGCCAGAAGCGCCGCGTCGACGCA -AGCCGATGATTCTTCTGGATAACATTCTGCGTTACTGCCTTGATGATATTTTCAAAGGCTTCTTTGATTA -TGACGCGCTGAATGCCTATTCAATGAAGATGACCCGCGATGCCGAATACGATTTAGTGCATGAGATGGAA -GCCAGCCTGATGGAGTTGATGTCTTCCAGTCTCAAGCAGCGTTTAACTGCTGAGCCGGTGCGTTTTGTTT -ATCAGCGCGATATGCCCAATGCGCTGGTTGAAGTGTTACGCGAAAAACTGACTATTTCCCGCTACGACTC -CATCGTCCCCGGCGGTCGTTATCATAATTTTAAAGACTTTATTAATTTCCCCAATGTCGGCAAAGCCAAT -CTGGTGAACAAACCACTGCCGCGTTTACGCCATATTTGGTTTGATAAAGCCCAGTTCCGCAATGGTTTTG -ATGCCATTCGCGAACGCGATGTGTTGCTCTATTATCCTTATCACACCTTTGAGCATGTGCTGGAACTGCT -GCGTCAGGCTTCGTTCGACCCGAGCGTACTGGCGATTAAAATTAACATTTACCGCGTGGCGAAAGATTCA -CGCATCATCGACTCGATGATCCACGCCGCACATAACGGTAAGAAAGTCACCGTGGTGGTTGAGTTACAGG -CGCGTTTCGACGAAGAAGCCAACATTCACTGGGCGAAGCGCCTGACCGAAGCAGGCGTGCACGTTATCTT -CTCTGCGCCGGGGCTGAAAATTCACGCCAAACTGTTCCTGATTTCACGTAAAGAAAACGGTGAAGTGGTG -CGTTATGCACACATCGGGACCGGGAACTTTAACGAAAAAACCGCGCGTCTTTATACTGACTATTCGTTGC -TGACCGCCGATGCGCGCATCACCAACGAAGTACGGCGGGTATTTAACTTTATTGAAAACCCATACCGTCC -GGTGACATTTGATTATTTAATGGTATCGCCGCAAAACTCCCGCCGCCTATTGTATGAAATGGTGGACCGC -GAGATCGCCAACGCGCAGCAAGGGCTGCCCAGTGGTATCACCCTGAAGCTAAATAACCTTGTCGATAAAG -GCCTGGTTGATCGTCTGTATGCGGCCTCCAGCTCCGGCGTACCGGTTAATCTGCTGGTTCGCGGAATGTG -TTCGCTGATCCCCAATCTGGAAGGCATTAGCGACAACATTCGTGCCATCAGTATTGTTGACCGTTACCTT -GAACATGACCGGGTTTATATTTTTGAAAATGGCGGCGATAAAAAGGTCTACCTTTCTTCCGCCGACTGGA -TGACGCGCAATATTGATTATCGTATTGAAGTGGCGACGCCGCTGCTCGATCCGCGCCTGAAGCAGCGGGT -ACTGGACATCATCGACATATTGTTCAGCGATACGGTCAAAGCACGTTATATCGATAAAGAACTCAGTAAT -CGCTACGTTCCCCGCGGCAATCGCCGCAAAGTACGGGCGCAGTTGGCGATTTATGACTACATCAAATCAC -TCGAACAACCTGAATAACCCTATGCCAATACACGATAAATCCCCTCGTCCGCAGGAGTTTGCTGCGGTCG -ATCTTGGTTCAAACAGTTTTCACATGGTCATAGCCCGTGTGGTAGATGGTGCCATGCAGATTATTGGCCG -CCTGAAACAGCGGGTGCATCTGGCGGACGGCCTGGGGCCAGATAATATGTTGAGTGAAGAGGCAATGACG -CGCGGTTTAAACTGTCTGTCGCTGTTTGCCGAACGGCTACAAGGGTTTTCTCCTGCCAGCGTCTGTATAG -TTGGTACCCATACGCTGCGTCAGGCGCTGAACGCCACTGACTTTCTGAAACGCGCGGAAAAGGTCATTCC -CTACCCGATTGAAATTATTTCCGGTAATGAAGAAGCCCGTCTGATTTTTATGGGCGTGGAACATACCCAA -CCGGAAAAAGGTCGCAAACTGGTTATTGATATTGGCGGCGGATCTACGGAACTGGTGATTGGTGAAAATT -TCGAACCTATTCTCGTTGAAAGCCGCCGGATGGGTTGTGTCAGCTTTGCCCAGCTTTATTTTCCTGGCGG -GGTCATCAATAAAGAGAATTTTCAGCGCGCTCGCATGGCGGCAGCACAAAAACTGGAAACTTTAACCTGG -CAATTCCGTATTCAGGGCTGGAACGTTGCAATGGGCGCTTCCGGTACCATAAAAGCCGCCCATGAAGTGT -TAATGGAAATGGGCGAGAAAGACGGGATAATTACCCCGGAACGTCTGGAAAAACTGGTAAAAGAAGTTTT -ACGTCACCGTAATTTCGCATCGCTGAGTTTACCGGGTCTTTCCGAAGAGCGGAAAACAGTCTTCGTTCCG -GGACTGGCGATTTTATGCGGTGTGTTTGATGCTTTAGCCATCCGTGAACTGCGCCTTTCTGACGGGGCGT -TACGCGAAGGCGTACTGTATGAAATGGAAGGACGTTTCCGTCATCAGGATGTGCGTAGTCGCACCGCCAG -CAGCCTCGCCAACCAGTATCACATCGACAGCGAACAGGCCCGACGGGTGCTGGATACCACTATGCAAATG -TACGAACAGTGGCGGGAACAGCAACCGAAGCTGGCGCATCCGCAACTGGAGGCGCTACTGCGATGGGCCG -CCATGCTGCATGAGGTCGGGTTGAATATCAACCACAGCGGTTTGCATCGCCACTCCGCTTATATTCTGCA -AAACAGTGACTTGCCGGGTTTTAATCAGGAACAGCAGCTGATGATGGCGACACTGGTGCGCTATCACCGT -AAAGCGATTAAGCTCGACGATCTACCGCGCTTTACCTTGTTTAAGAAGAAACAGTTCCTGCCACTGATAC -AGCTATTGCGCCTTGGCGTATTACTCAACAATCAACGTCAGGCAACCACCACACCGCCAACATTGACGCT -GATTACTGATGACAGTCACTGGACACTGCGTTTCCCGCATGACTGGTTTAGTCAGAATGCGCTGGTACTG -CTTGATCTGGAAAAGGAGCAAGAATACTGGGAAGGCGTGGCTGGCTGGCGGTTGAAAATTGAAGAAGAAA -GTACACCAGAAATCGCCGCTTAATACTTTGCGGGCCGACGAGAAATGTCGGCCCGCATTATTCAGGCACT -TTCGCGAATGGGTTCGATTTCATTCAGCGTATCAATTAACGGCTGCGGCTTACCAATAAGATAACCCTGC -ATATAATCGATCCCCAAAGAGAGCACCGCCTCGCGGATCTCTTCGTTTTCAACGTACTCTGCCACTACCA -GCATTTTCTTCATTCGCGCCAGGTGGCAAATCGATGCCACTATCTGATAATCCAGACTATTTGACACAAT -ATTGCGGATAAAACTGCCGTCAATTTTAAGCAGATCGGCATTCACATTTTTAAGCCGCGCATAGCTGGCG -TAGCCGGTGCCGAAATCATCAATCGCAATCTGGCAGCCTAATTCCTGAAGATGCTGCAAGGTGATTTGCG -CCTGCTTAACATTGGTCAGAGCATTACTTTCGGTGACTTCAAAAATAAGTTGCCACGCTTCAATCTGATA -TTTAGCCAGCAACTGACTGACTTCAACAGGAAAACGAGCCTGACATACCGAGGTTGGAGACAGATTAATA -GCAAAACGGTGAGCGGGCATCTTCGCTCTGTTTTCAGCCATAAATTGCAGCGTATGCTCAATGACCCACA -TGTCGATACTCGACGATAAACCAAATTCGTGCGCGACCGGCAAGAAGCTATCGGGGCTGATCAGTTCATC -ATTCTCACCTTTCATGCGCAGAAGAATTTCATGGTAAACATCACCACGCATACCGGTAATCGGCTGGGCC -ATCAGGAAAAAATGGTTGTGTTCCAGCGCCTGCTGTAGTCGATTCATCATCGCGACTTTATCTTTCAATT -CGCGTTGCAAATACATTGCCCCGCGACGCTGCATATTTTCCGGGGCGTTGGTCACGATGGAAAGTTCGGC -GACCGTATTTAGCTCTCCCAGCAGCAGGTAGATATGATTCACTGGCGAGCGCACATAGCAGTAACTGACG -CCAATCTGCGGTTGCATCGGCATGCCATCCCAAAAGAAACGAAATTGCTTGAGATGGCTATCCAGTGCGG -TAATGCGCTCCTGGTGCGATTCTGTATTCAGTCGCAGCGCGAGATCGTTACCCGAAAGCTGATAAACATC -TTCACCCGGTTCCAGCAAGGGTGACAGCCAGTGAGAAAGTTTTTGCTTGTATTGAATCCGCAGCATGATG -CCATAGTTCTTAACCAGCATTTCCATGCCAGGGATGCGTAAATAACAAAGCGCAGACCAGGGGGCATCAC -GCAACGCGCGATTCAGGGCGCGAACATTTGGCAGATGAACCACCGGGTCCACATACGCAAGCCGCTGAAT -GCGTCTGACTACCGCTCTCTGACGGGTTGCCAGTACAGCCATATAATTGACAATAAAAGAGAATACCAGA -TAACTGGAGGAGGTTATGGTCAGCTGCGTGGTATAGCCAGGATAAATGGGAATGTAATTTTGATAGCTGT -GGATGCTGATCATCAACACGACCGCCCAGAGCAGCGAAATCAGCTTATAACCATAGCGCATCGCTCCCCA -CATCATCAGGGGCAGCAATAATGACAAGGTATAATTGGTGCTAAAAATTGTGCTTTTTTCATTTAACGGC -ATGCATAACAGCAACAATAAAGCACCTAATGCCAGTAGCCAGAGCGCGAACTCTTTTTTGGTGACTTTGG -CATCAACCTGCTGTTTTAATTGCGAATAATAGCTACGTAAATAAAATGGATTTCGCACTACCCGAATGAT -GAAGTAGCACAGCGGGACACCGATCAGATTACCCACCAGTAAGGCCTGATAATTGATTAAAGTCCCGAGG -TTAAAAGGCATGACACCGACCAGATTTTCTCTGCTCGCCAGTAATCCTACAAATGCAGCAAACTGGAAAA -GTATCAGAAACAGCGTTGCAGGAAACACAATCTGCCAGAATATACGCTGGGAAATTAAACGGGTATCACC -ATGTGAAACGTTGTTACGCCGGGGAGTAAAGACCCTGTAACCGCCCCAACAGAGAATGATAATGATAATA -AAATTAGCCGTTAATGATAGCGTTTCGTAAAAACCCAGCTCTGCATATTTGCGGACAAAAATCCCTAAGG -CGATCCCTGGCAATGCCGCCCAGCTGAAAAACATCATCATGCTGATCATCAGTGCCAGAGGCAGATAAAA -GAGAAAAACCTCACCGGAAGAAATATGCGCGAAAGTATTAATGTGGGCGAAAATGGGCAAGATTAAAGAA -GGCAGGAACAGCGGAAGCCCCCACCATTTATCACGTATTTTTATATAAGTTGCATTCAGTTTCATAGATG -CTCAGCAGAATCCCCCACATCCTGAAGGAGGTGTATTCAGACAGGCATCCCACCTGACTTCGAATGATGA -TTATTCATCACTATAGAGAGCATTGATTCTAAGTGTCATATGAAAGTACCAATTGATATATATCAAACAA -AATAACCCTGATTAATGAATTATTACGTTTATCATGTTAATTCATCATTATTACATCATCATTGTAAATA -ATTAAATTAACTTCCATAACATTAAAATATGTATCCACTGACGCTTTTTTACATAACGAAGAATTGACCA -TTTTGTCCTGTTGTGCCTTAATGTAAGTACCGTCCACAGCGTGGGACATACTTCAAGGAACCTTTTGTGA -GTCAGGCAACCAGTATGCGAAAACGACACCGATTTAACAGTCGCATGACCCGTATCGTACTGCTCATCAG -CTTTATCTTCTTCTTTGGCCGTTTTATCTACTCGTCCGTCGGTGCCTGGCAGCACCATCAGAGCAAAAAA -GAAGCTCAGCAATCCACACTCTCCGTCGAATCACCGGTACAACGTTAGCGGTTACCTTCTCCACTTTCAC -AGAACATAACGGCACTTCGCTGTCGGATGCTTTTGCTGTTTGGGATTATCAAAGCGGCAGATATTCTTTC -ATCTTAAATTTTACGTCTTTATCCTGACTGATGTTTATCCTGTTTGGCTGCGAAATAAATATAAAATTAA -TATATATGTTGTAATGATATATTTTTATAAATTATTCCCTGCGTGAATTTTAATAAATTTAATCTATCCC -TTTATACGCAATACATTTACTTTCCTCTTTTGATGATCTTAAATGTCTTATTTTTCGTAATGTGTATAAC -AAGGAATAGTGATGAAATTTAAAAAATGTCTTCTGCCTGTGGCAATGTTAGCGTCATTCACTCTGGCAGG -ATGCCAGTCAAATGCTGACGATCATGCTGCCGATGTTTATCAAACCGATCAACTGAATACCAAACAAGAA -ACTAAAACCGTTAATATTATTTCCATTCTTCCCGCAAAAGTTGCCGTAGACAACTCCCAAAATAAACGGA -ACGCACAAGCCTTCGGCGCGCTTATTGGCGCAGTCGCTGGCGGTGTTATCGGCCACAACGTCGGGTCTGG -CAGCAATTCCGGAACGACGGCAGGTGCAGTTGGCGGCGGAGCTGTAGGCGCGGCAGCGGGTTCTATGGTG -AATGATAAAACCTTAGTGGAAGGTGTTTCTTTAACCTATAAGGAAGGCACCAAAGTGTATACCTCTACCC -AGGTGGGTAAAGAGTGCCAGTTTACGACAGGTTTAGCCGTTGTTATTACCACGACGTATAACGAAACGCG -TATTCAGCCAAATACCAAATGTCCTGAAAAGAGCTAATAATCAGGAGGAGTCATGAAGAAAGTTTTTCTT -TGCGCCATCTTAGCCTCCTTAAGCTATCCGGCTATCGCCTCATCATTGCAGGATCAACTCTCTGCTGTCG -CAGAAGCGGAACAGCAAGGTAAAAATGAAGAGCAAAGGCAGCATGACGAATGGGTCGCGGAGCGCAACAG -GGAAATCCAGCAAGAGAAGCAACGTCGCGCAAATGCCCAGGCCGCCGCTAACAAAAGAGCGGCAACGGCA -GCGGCAAATAAGAAAGCTCGTCAGGATAAACTGGACGCCGAAGCCTCTGCGGACAAAAAACGCGATCAAA -GTTATGAAGATGAGCTACGCAGCTTAGAGATTCAGAAACAAAAACTGGCGCTGGCGAAAGAAGAAGCCCG -CGTTAAGCGAGAAAACGAATTTATCGATCAGGAACTGAAGCACAAAGCTGCGCAAACCGATGTGGTGCAA -TCTGAAGCTGACGCCAACAGAAATATGACTGAAGGCGGTCGCGATCTGATGAAAAGCGTGGGCAAAGCAG -AAGAGAACAAATCGGACAGCTGGTTTAATTAATCGATGTTAGTAACTTCAATCCTATAATTCTTGAAGAT -AAAAAACCCTCTGTAGTAACAGAGGGTTTTGTTCATTCATAGTGCAGGGTCAAATCATTCCCACTCAATG -GTAGCTGGCGGCTTGCCGCTGATGTCATACACCACGCGGGAAATACCGTTCACTTCATTGATAATGCGGT -TGGAAACGCGACCGAGGAAATCGTACGGCAGATGCGCCCAGTGTGCGGTCATAAAGTCGATGGTTTCGAC -AGCACGCAGAGAGACAACCCAGTCATACTTACGACCATCGCCCATTACGCCAACGGAACGTACCGGCAGG -AACACAGTGAACGCCTGGCTGACTTTGTCGTACAGGTCCGCTTTACGCAGTTCTTCAATGAAGATGGCGT -CAGCACGGCGCAGCAGGTCACAGTACTCTTTCTTCACTTCACCCAGAACACGAACGCCAAGGCCTGGTCC -CGGGAACGGGTGACGGTACAGCATGTCGTACGGCAGGCCCAGCTCCAGACCAATCTTACGCACTTCGTCT -TTGAACAGCTCTTTCAGCGGTTCAACCAGGCCCATCTTCATCTCTTTCGGCAGGCCGCCCACGTTGTGGT -GAGATTTGATGACGTGTGCTTTACCGGTTGCAGACGCCGCAGATTCGATAACGTCAGGGTAGATGGTGCC -CTGCGCCAGCCACTTCACGTCTTCCAGTTTCAGCGCTTCTTCATCGAATACTTCAACGAAAACGCGACCG -ATGATTTTACGTTTTGCTTCCGGATCGTTTTCGCCAGCCAGCGCTGACAGGAAGCGATCTTCTGCCGGTA -CGTGAACAATGTTAAGACCAAAGTGATCGCCAAACATATCCAGAACCTGCTCTGCTTCGTTGAGGCGCAG -CAGGCCGTTGTCGACGAATACGCAAGTCAGGTTTTTACCGATAGCGCGGTGCAGCAGCATTGCGGTTACG -GAGGAATCCACACCACCAGAGAGGCCGAGGATGACTTTATCGTCGCCTACCTGCTCGCGGATGCGAGCTA -CAGCATCGTCGATAATTTTCGCTGGCGTCCACAGGGCTTCACACTGGCAGATATCACGCACAAAACGCTC -CAGCATGCGCATACCCTGGCGGGTATGAGTCACTTCCGGGTGGAACTGTACGCCATAGAAGCGTTTTTCT -TCGTTAGCCATAATGGCAAACGGGCAGCTTTCGGTGCTGGCTACGGTGATGAAGTCGGACGGAATAGCGG -TAACTTTATCGCCGTGGCTCATCCAGACATCGAGCAGCGGTTTACCGTCTGCGGTCAGCGCATCTTCGAT -ACCGCGAACCAGTGCGCTGTCGTTTACGACTTCAACCTGCGCGTAGCCAAATTCACGTTCGTTAGAGGCT -TCAACGTGACCGCCCAACTGCATTGCCATGGTCTGCATGCCATAGCAAACGCCGAATACCGGTACGCCTG -CTTCAAAGACATACTGCGGCGCACGCGGACTGTTTTCTTCAGTAGTACTTTCCGGGCCGCCGGAAAGAAT -AATGCCGCTTGGATTGAAGTCACGAATTTGTGCTTCTGTCACATCCCACGCCCACAGTTCGCAGTAAACA -CCCAGCTCACGCACGCGGCGCGCAACCAGTTGAGTGTACTGAGAACCGAAGTCCAGAATGAGGATGCGAT -GCTTATGAATGTTTTCCGTCATTGACGCTTATTCCGAGGCAAGTGAAACAGATAATATAAATCGCCCGAC -ATGAAGTCGGGCGAAGAGAATCAGGAGCCCAGACGGTAGTTCGGGGACTCTTTAGTAATGGTCACGTCGT -GAACGTGGCTTTCCTGAATGCCCGCACCGCTGATACGTACAAACTCCGCTTTAGTACGCAGTTCGTCGAT -AGTACCACAGCCGGTCAGACCCATACAGGAGCGCAGGCCGCCCATCTGCTGGTGAATGATCTCTTTCAGG -CGACCTTTATAGGCTACGCGACCTTCGATACCTTCCGGCACCAGTTTGTCGGCAGCGTTATCGCTCTGGA -AATAACGGTCAGAGGAACCTTTGGACATCGCGCCCAGGGAACCCATACCACGGTAAGATTTGTAAGAACG -GCCCTGGTAGAGTTCGATTTCACCCGGAGATTCTTCAGTACCCGCCAGCATGGAACCTACCATCACCGCG -CTTGCGCCAGCGGCGATAGCTTTGGCGATGTCGCCGGAGAAGCGAATACCGCCATCAGCGATAACCGGAA -TACCGGTGCCTTCCAGGGCTTCTACTGCGTCAGCAACAGCGGTAATCTGCGGAACACCGACGCCAGTCAC -GATACGAGTTGTACAGATAGAGCCAGGGCCAATGCCGACTTTAACCGCACTGCAACCAGCTTCTGCCAGA -GCGCGTGCACCTGCAGCTGTTGCCACGTTGCCGCCGATAATTTGCAGATCCGGATATTTAGCACGGGTTT -CACGGATACGTTGCAGTACACCTTCTGAGTGACCGTGGGAGGAGTCGATCAGCAGAACGTCAACGCCTGC -GGCAACCAGCGCGTCAACACGCTCTTCGTTACCCGCACCTGCGCCAACCGCTGCACCAACACGCAGACGG -CCTTGCTCGTCTTTACAGGCGTTCGGTTTACGTTCCGCTTTCTGGAAGTCTTTCACGGTGATCATGCCGA -TCAGGTGGAATTCGTCATCAACCACCAGCGCTTTTTCAACGCGTTTTTCGTGCATTTTTGCCAGCACCAC -TTCACGGGCTTCACCTTCACGCACGGTGACCAGACGCTCTTTCGGCGTCATGTAAACGCTAACCGGCTGG -TTCAGGTCGGTAACAAAACGCACGTCACGACCGGTGATAATACCCACCAGTTCGTTTTCTTCGGTAACGA -CCGGATAGCCCGCAAAACCGTTACGCTCGGTCAGTTCTTTCACTTCGCGCAGCGTCGTGGTTGGCAGAAC -AGTCTGCGGATCAGTCACCACACCAGATTCGTGTTTTTTCACACGGCGAACTTCTTCTGCCTGGCGTTCA -ATGGACATGTTTTTGTGGATAAAGCCGATACCGCCTTCCTGAGCCAGAGCAATAGCCAGGCGCGCTTCCG -TTACGGTATCCATTGCTGCGGAAAGCATAGGGATATTCAGACGAATAGTTTTCGTCAGCTGGGTGCTGAG -GTCAGCAGTATTCGGCAGAACGGTAGAGTGAGCAGGAACGAGGAGAACGTCGTCAAACGTCAGAGCTTCT -TTAGCGATACGTAGCATGGGCAATATCTCGACCAGAGTGGTTAATAAATATTGCCGCGGCATTATACAGA -GCGTAACCGATTGCATCTACCCCTTTTTGCAAAAAATGCTTGCTATCCCCGAAGGGCGGGTTACTATCGA -CTGAATAACCTGCTGATTTAGAATTTGATCTCGCTCACATGTTACCTTCTCAATCCCCTGCAATTTTTAC -CGTTAGTCGCCTGAATCAAACGGTTCGTCTGCTGCTTGAGCATGAGATGGGACAGGTTTGGATCAGCGGC -GAAATTTCTAATTTCACGCAACCAGCTTCCGGTCACTGGTACTTTACACTCAAAGACGACACCGCCCAGG -TACGCTGCGCGATGTTCCGCAACAGCAACCGCCGGGTGACCTTCCGCCCACAGCATGGGCAACAAGTTTT -AGTTCGCGCCAATATTACGCTCTACGAGCCGCGCGGCGACTACCAGATAATCGTTGAGAGTATGCAGCCG -GCCGGTGAAGGGCTGCTGCAACAGAAGTACGAACAGCTCAAAGCGAAGTTGCAGGCTGAAGGTTTGTTCG -ATCAGCAATACAAAAAACCACTTCCCTCCCCTGCGCATTGCGTTGGTGTGATCACCTCAAAAACCGGTGC -TGCGCTACATGATATTTTGCATGTGTTAAAACGTCGCGATCCTTCTCTGCCGGTGATCATCTACCCTGCC -GCCGTTCAGGGCGATGACGCGCCGGGGCAAATTGTTCGCGCCATTGAACTGGCGAATCAGCGCAATGAGT -GCGACGTATTGATCGTCGGGCGCGGCGGCGGTTCGCTGGAAGATTTATGGAGTTTTAACGACGAACGCGT -AGCGCGGGCGATTTTTACCAGCCGCATTCCGGTTGTCAGCGCCGTCGGGCATGAGACGGATGTGACCATT -GCCGATTTTGTTGCCGATCTGCGTGCGCCAACGCCGTCTGCCGCCGCTGAAGTAGTGAGCCGTAATCAGC -AAGAGTTACTGCGCCAGGTGCAATCGACCCGTCAACGGCTGGAGATGGCGATGGATTATTATCTCGCCAA -CCGCACACGTCGCTTTACGCAAATTCATCACCGATTACAGCAACAGCATCCGCAGCTCCGGCTGGCACGC -CAGCAAACCATGCTTGAGCGCCTGCAAAAGCGAATGAGCTTTGCGCTGGAAAATCAACTTAAGCGTACCG -GGCAACAGCAGCAGCGGTTAACACAGCGGCTGAATCAGCAAAATCCACAGCCGAAGATTCATCGCGCGCA -AACGCGCATTCAGCAACTGGAATATCGTTTAGCAGAAACCCTGCGCGCACAGCTTAGCGCCACGCGTGAA -CGTTTCGGTAATGCAGTAACGCACCTCGAAGCCGTAAGCCCACTGTCAACGCTGGCGCGTGGATACAGCG -TTACTACTGCTACTGACGGCAATGTACTGAAAAAAGTGAAGCAAGTTAAAGCGGGTGAAATGCTAACCAC -ACGTCTGGAAGACGGCTGGATAGAAAGTGAAGTAAAAAACATCCAGCCAGTAAAAAAATCGCGTAAAAAG -GTGCATTAAGCCAGCACGAATTCAACGCGTTTTTTCGATATCAAGCCATGCCCGTGCTGACAGAAGTAAT -CTACTGCACCACAGGCTTTTAACACCTGCAACGGTTGATGGCAGTCTGGACAAAGAGCTTTCATTTCAAT -AAATTCCCCGCAGGATCGGCAACGCGCATGGCCGTTATCCTGATCAAGCACATGCTGACATTGTGGACAA -TGCAGTTCCATATGAATTCCTCCGGTAGCCATTCCCTCTACATTCATAGAGGGAATGGCAGATAAAATAC -TTACGGATAATTATTTATTTTTCTTGATGTGCTTCATCAGACGCTTACGTTTACGCATCTGGGTTGGCGT -CAGGGTGTTACGCTTATTCGCATACGGGTTTTCCCCTTCTTTGAACTGAATACGAATCGGCGATCCCATT -ACGTCCAGCGATTTGCGGAAGTAGTTCATCAAGTAGCGCTTGTAGGAATCAGGCAGGTCTTTCACCTGAT -TACCGTGAATCACCACAATCGGCGGGTTATAACCACCGGCGTGGGCATATTTCAGCTTCACACGACGACC -GCGTACCAGCGGCGGTTGGTGATCTTCAACAGCCATCGTCATGATGCGCGTCAGCATAGAGGTCCCCACA -CGACGGGTGGAGCTGTCATACGCTTCACGTACTGATTCAAACAAGTTACCAACACCACTGCCGTGCAAGG -CAGAGATAAAGTGCACACGAGCAAAATCGATAAAGCCCAGACGGAAGTCCAGCGTTTCTTTCACCTGCTC -TTTCACTTCCTGACTCAGGCCATCCCACTTATTCACCACAATGACAAGTGAGCGCCCACTATTGAGAATA -AAGCCCAGCAGCGAGAGATCCTGATCGGAAATACCTTCGCGCGCATCAATCACTAACATCACCACGTTGG -CGTCTTCAATGGCCTGCAACGTTTTGATTACGGAGAATTTCTCTACAGCATCGGTGATTTTGCCGCGTTT -ACGTACGCCAGCGGTGTCAATGAGCACATACTCACGTCCATCGCGTTCCATTGGGATGTAGATGCTGTCA -CGCGTCGTGCCAGGCATGTCGTAAACAACAACGCGCTCTTCACCAAGAATACGGTTAGTGAGTGTAGACT -TACCTACGTTCGGACGACCCACAATCGCCAGTTTGATCGGCAGACTTTGCGGGTCGAAGTCGTCTTCCTC -TTCTTCTTCGCCGTTCTCTTCCGCTTCAAATTGCGCCCAGTATTCAGCGTCTTCGTCGACTTCCTCTTGC -GGTGCGAGATCTTCCATCCACGGCAGCAGCACATGCTCCAGCAGACTTAATACGCCACGACCGTGAGACG -CGGCGATCGGGTAGATTTCACCTAAACCAAGCGAGTAGAAATCAACCACTGCCTGATCGGGATCCAGACC -GTCAGTTTTGTTTGCCACCAGGAAGGTCGGTTTTTCACGGGAGCGCAGATGTTTGGCAATCGCTTCATCT -GCCGGCATCAGGCCCGCGCGCGCATCCACCATAAACAGTACGACGTCCGCTTCTTCAATCGCCAGCAGCG -ACTGTTCCGCCATGCGGGTTTCTACACCGTCTTCTGTGCCATCAATCCCGCCGGTATCAATACAGATAAA -CTCACGGCCTTCAATTTCCGCACGACCGTACTTACGGTCACGAGTCAGACCCGGGAAATCCGCAACCAGC -GCATCTCGGGTGCGAGTTAGACGGTTAAATAACGTGGATTTTCCTACGTTAGGGCGCCCGACAAGCGCGA -CCACAGGTACCATGTTTAAAGCCTCATTTTTATAAATCATCAGACAACGCACGCTATATTCGCGTCGTTG -TTAAAAACAGGAAAACGGCCCCTGTCCAGGAGCCGTTTTCAAAGTGAACGACAGAGACGATTAACGTGTA -ATAGAGTACACGGTTCCGTCTTTTGCCTGGATCAGCAGTTTGCCGTCAGCGGCAACCGGTTCAGTCTGGA -AACCGGAACTATCAACTTTTTGCTGGGCAACGAAACGACCATCTTCGACGTTAATCCAGTGCAGATAACC -TTCACTGTCACCGACCACCAGGTTGCCATTATACAGCACCGGAGAAGTCAGCAGGCGATGCAGCAGATCG -CTTTGTGTCCACAGCGTAACGCCGCCATCAATGGTCAACGCCATCACCCGGTCATTTTGATCGACCAGAT -AGATGCGATTGCCGTCGACGATGAAATCATTCACCGAACCCAGTTCGCGTTTCCACATAATCTGACCACT -GCGCAGATCAAGCGCCGTCAGGTTACCATTATAGGCCAGCGCGAAAACAACGCCGTTAACAACGACGGGA -GTCGTGTCAACATCGCTCAGACGGTCAATTTCGGTAGAACCGGTCGCCTGGGAAATACGCTGCTGCCAAA -TCATCTGGCCCTGTTCCATCAGCACTGCGCTGACGCGACCATTATCGCCCCCCACGACGGCCGCACCAAA -AGCCGTTGTCGGCGCAGACTCGCCACGCAAAGAGAGCGAAGGCATATCGAGGTTAACTGTCCATTTGACA -GCGCCGTCAGCTTCGTTCAGCGCTTGTAACTGACCGTTACTGGTGTGGATTAACACCAGACCGTCGCTGA -CCACCGGGCGCGAAAGTGCTTCACCCGCGACTTTAGTTTGCCATGCCACAGTACCATCGCTGGTATTCAG -CGCGTAAACCTGCGCCTTTTCGCTGCCAATGTAGACATGCCCACCAGACACGGTCACACCGCCAGAAAGT -AATGCAGGCTCTTTAGAGAACCAGCCATCTTTCTCGGCCAGGCTGACAGACCAGATTTCTTTGCCATCAT -CCGCATTCAGCGCTTTTACTAAACCAGCGCGGTCCGCTGCATAGACAACGTTGTCCGCCAGTGCCGGATG -AAGATTGGAATAGAAGTTGCCAATGCCGCTACCAACGGAAGTGCTCCACGCCGTGGTCGGCGTAAACTGG -TTTTCAACGGTTGGCAATGGGGACATCTTTACCACATCTTCTTCGCTGTTAAACAGCGAACAGCCGCTTA -AAAGGGTAACGGAAAGCAGTCCTGGCAGCAGTAATTTACGCAATTGCATCGGGTCCCTCTCAGATGGACA -AATTATTAATTTTCATCTGCATCATTTCGCTCAGTGCCGGAGTAACATCGCTTTTCACGCCTGCTTCCCA -TGCACTACGCGCACCTTGCTTATCACCTTTGCTCAGCAATGCTTCACCACGCAGGTCGGCAACAATGGCA -GCCCACCCTTCACCTTTGATGGTATCAAGGGTTTTCAGCGCGGCATCAGCCTGCTTGAGCTGTACCTGAA -CGCGAGCAAGACGCAGATTTATCACGGCTTTGAGATTTTCATCGCTCGTGTCTGCCAGCCCCTGTTGTAA -CTGGGCGGCAGCTTTCTCTAGTTCATTTTTGTCAACAAATTGCTGCGCAAGTTCCAAAGAAGCCAGCGCA -CCATAAGTATTTTTATTTTCAGCAGCAAATTTTTCCGCCGCCGGGATGCTATCCGGTTTGCCTTCGCTCA -CTGCGGTAACCGCATTTTGATAGGCAAGAGAAGCGGAGCGTGCAGAATCAACCTGATGGCTGTTCCAGTA -GCGCCAGCCAATCAGTGCGCCAACGCCCAAAATCACCCCAACAGCCAGTGCTTTGCCATTTTCAGCAAAA -AAGCGTTTAACCGCTTCTACCTGGTCGTTTTCGTTCTCGTAAATTTCCACGCTGTCCTTCTCCTTCCTTA -ACCCAGTAACGTGCGCAAATGCGCGGCTACGCTATCCTGCGCAACTGCCGTTTGCTCACCAGAGCGCAAA -TCCTTCACTACTGCTGTGCCGTTAGCCACTTCAGACTCACCCAGCACCACAGCAACGCGGGCACCCCATT -TATCAGCACGGGCAAACTGTTTCTTAAAGTTGCCGCCGCCGTGGTTGGTCATCAATTTCACGCCCGGTAA -TTCATCACGCAGACGCTCAGCTAATGCCATAGCCGCAGATTGTGTATCAGCACCTGAAGCCACCAGGTAT -ATATCGACAACAGGATCGGCTTTAAATTCCGGATTAACGGCCTGTACTAACAATACAAGACGTTCGAGGC -CCATAGCAAAACCGACAGCCGGTGTTGCACGACCGCCCAGTTGTTCCACAAGACCGTCATAACGACCGCC -TGCACACACGGTGCCCTGGGAGCCGAGACTGTTAGTCACCCACTCGAAAACGGTACGGTTGTAGTAATCC -AGACCACGCACCAGACGCTGGTTTACGGTGTAAGCGATCCCCGCGCTCTCCAGCAGTTTGCACAGACCGG -CAAAATGCTCACGAGATTCCTCGTCCAGATAGTCACCTAATGCCGGAGCGTCGTTGAGAAGCGCCTGCAC -TTCCGGATTTTTTGAATCCAGCACGCGCAGCGGGTTAGTGTACATGCGGCGTTTGCAGTCTTCGTCCAGC -TTTTCTTTATGCTGCTCAAGGAATGCCACCAGCGCATCGCGGTAATTGGCGCGTGCTTCCAGCGAACCGA -TAGAGTTCAGCTCAAGAGTTACGTGCTCGGAAATACCCAGCGCGCGCCACCAGCGGGCAGTGAGCATAAT -CAGTTCAGCGTCGATATCCGGACCTTGCAGACCGAAAACTTCGCAGCCCAACTGATGGAACTGACGATAA -CGCCCTTTCTGCGGACGCTCGTGACGGAACATCGGCCCGATATACCACAGACGCTGTTCCTGATTGTACA -GAAGACCATGCTCGATGCCGGCGCGTACACAGCCCGCCGTCCCTTCAGGGCGCAGAGTCAGGCTGTCGCC -ATTGCGATCCTCAAAGGTGTACATCTCTTTTTCAACCACGTCGGTGACTTCACCAATCGCACGTTTGAAT -AGCGGGGTCTGCTCTACAATCGGCAAGCGGATTTCACTGTAACCGTAGCTGCCGAGCACGTTTTTCAGTG -TGCCTTCAATGCGCTGCCAGATGGCCGTTTCGCCAGGCAGGTAATCGTTCATGCCGCGAATGGCTTGAAT -GTTTTTTGCCACGTTTATTCTCTTTCTGAATATAAAAATGAACCCTCAACGCTTCCCTCAATGTTTCGGG -AGCCATGCGGGTTCAATCATACACGGGAAGCGAGGCGCTTCCCATCACGTTATTATTTTTCAACCTGCTG -AACGTCAATTCGACGCGCTTCGTCCAGCTGACTGGCTTTCGCACGAATGCGTGCTTCCAGCTGGTCGATC -ATATCGTTGTTGTCCAGACGGTCTTTGCGCACGCCATCTTCATAGAGGCCGCTTTTCTTGTTGCCGCCGG -TGACGCCGAGTGTAGAAACCAGCGCCTCACCTGGGCCATTCACCACGCAGCCGATAATCGAAACGTCCAT -CGGAGTGATGATATCTTCCAGGCGTTGCTCCAGCGCGTTAACCGTACCGATAACATCAAATTCCTGACGC -GAACAGGTCGGGCAGGCGATGAAGTTGATCCCTCGCGAACGGATACGCAGCGATTTCAAAATATCGAAAC -CGACTTTGATCTCTTCGACCGGATCGGCCGCCAGCGATACGCGCAGCGTGTCGCCGATGCCTTCAGACAG -CAGCAGACCTAAACCAATGGCGGATTTTACTGCCCCGCTGCGCGCACCACCGGCTTCGGTGATCCCCAGA -TGCAACGGCTGATCGATCTGTTTTGCCAGCAAACGATAAGACTCAACAGCGAGGAAGACGTCAGACGCTT -TCACGCTGACTTTGAACTGATCGAAGTTCAGGCGATCGAGATGATCAACATGACGCATGGCAGATTCCAG -CAACGCCTGCGGCGTCGGTTCGCCATACTTTTCTTGCAGATCTTTTTCCAGCGATCCGGCGTTAACGCCA -ATACGGATCGGAATGTTTTTATCGCGCGCACAGTCAACCACCATGCGAATACGCTCTTCATTACCGATAT -TGCCAGGGTTAATACGCAGACAATCGACGCCGTATTCCGCTACTTTCAGCGCAATGCGATAGTCGAAGTG -GATGTCAGCCACCAGCGGCACGTTAACCTGCTGTTTGATGAGTTTGAACGCTTCTGCCGCGTCCATCGTC -GGTACGGATACACGGACGATATCAGCGCCAACGCGTTCCAGCGCCTTGATTTGATTGACCGTTGCTTCGA -CGTCTGTCGTACGCGTATTGGTCATGGACTGTACGGCGATGGGAGCACCATCGCCAATCGGCACATTCCC -AACGTAAATACGTGTTGATTTTCTACGTTGAATTGGAGCCTGGTTATGCATGAAAAATCTCCCGCGTTAC -CCGTCTGTTACTGCGCCGGTGATTGTTCGGCATTGAGGGTCAGACGCGCAACCTGGTTAGTTCTGATAAA -ACGACTCAGATCGACAGGTTTCCCTTGATACTGGATCTGTACTGCGGCTGGCGCACCAATTTTCAGTTTG -TACGGTGCCTGGCCGGTTAAGTTCAAATTACCGTCTTTACGCTGCATACCGCTAAACAATTTTTTACCGG -TAGCATCAGTGACCTCCAGCCAGCAATCGGCAGTAAAGTTCATCACCAGCGCATTCGGATCAGCCACCGG -CGTGGTCACGCCAGCCTGATCGGTTGGCAACGGCGCAGCACCATCTGGCGTTGTTGCTGCCGTTGGTGCC -GGGGTCGCGGCGGTATCAACATTTGCCTGCGAAGGCGAAACAACCGCATTCTGTTGCGGATCAACAGCTG -GTGCTGGCGCAGTTACGGCAGGTGTTTGCGTGTTGGTTGCGGTAGTATCCACAGACGCTGGCGGCGTGGA -CGTTGTAGCCGGGTCTGTAGTTGTCGACGTATTTAATGGAACACTCTGCCCCTGCTCGCTATTACTGCTC -AGTTCCGCCGAAGATTGATCGGCCATAGTGGTGATCTCTTCCTGCTGAGCTTTGCGGTCTTGCCACCACC -AGGCACCGCTCAGGCCGATAACCACAAACAACACCAGCCAAGTGAAGGTCATCAGCCAGCCGTCGCGTTT -TTTGCGGCGTTTACCGAGGGAAAAACTCTGCATCGGCGCAACTTTTGCAGCCCGAAGTGGAGCCTGCTTT -TCCAGCCCTGGCAGCAGTTCTTCTTCTGGAATATGTACCAGACGCGCATAAGAGCGGATATATCCGCGCA -GGAATGTTGAAGCAAGATCGGCGGGTGCCTTATCTTCTTCAATGTCGCGTACCGTGGAAACCTTCAGGCA -AAGTCGCTCGGCAACGGCCTGCTGACTAAGTCCTAGTTGTTCGCGAGCATTACGCAGGCGAGCGCCGGTA -GTAAGTGCTTCATTTTGGTCGTGCGTGGCTTCAGTATTCATTCGCTGCAGGTACGTTTAAATGAGAATTG -AGATGCCGGTGAACCATCATGCTCACCCACACCGCGAAACATCCGTTAAGTTAACCGTTATCATACAGTA -TAAGACCGTCTGTGTGCTCGTGACAAAGCCCACATTCACTAAGGCTAACTTACTGTTGCATCGTTACATA -CTGCCTTAAAGTCAGCAAAAACGCACCGTTAATATTGACCAGACAATTGCAACTTAATACTTCATTCATA -AAACATTACGCCACGGTACATAAAGTAACCGTGGCGTAATGGCTATCAGACCGCTTTAATGTCGATGGCT -TCACCCTGCATCCGTTTACGCAGGGTACGTTTCGTACGGTCGATAACATCGCCCGCCAACTGACCACAGG -CAGCATCGATATCATCACCACGAGTTTTACGCACAATAGTGGTGAAACCGTAGCTCATCAGCACTTTTGA -GAAACGGTCGATACGGCTGTTCGAGCTGCGTCCATACGGCGCACCCGGGAACGGGTTCCACGGGATCAGG -TTGATCTTACACGGCGTATCTTTCAGCAGTTCCGCCAGTTGGTGCGCGTGTTCAGTGCCGTCGTTAACGT -GGTCAAGCATCACGTATTCAATAGTGACTCGGCCCTGATTGGCGTTGGATTTCTCCAGATAACGGCGCAC -CGCAGCAAGGAACGTTTCGATATTGTACTTTTTGTTGATCGGCACAATTTCGTCACGAATTTCGTCGTTC -GGCGCGTGCAGGGAAATTGCCAGTGCAACGTCGATCATATCGCCCAGTTTATCCAGCGCCGGAACTACAC -CGGAAGTGGAAAGCGTGACGCGACGTTTAGACAGGCCAAAACCGAAATCATCAAGCATGATTTCCATCGC -CGGAACGACGTTGTTCAGGTTGAGCAGCGGCTCGCCCATGCCCATCATCACTACGTTAGTGATCGGACGC -TGACCGGTGACTTTTGCTGCGCCGACGATTTTCGCCGCACGCCACACCTGGCCGATAATTTCCGACACCC -GCAGGTTGCGGTTAAAGCCCTGCTGGGCGGTGGAACAGAATTTACACTCCAGCGCACACCCCACCTGCGA -AGAGACGCAGAGCGTGGCACGGTCGTCTTCCGGGATATACACCGTTTCGACGCGCTGATCGCCAACGGCG -ATCGCCCATTTAATGGTGCCGTCAGATGAACGCTGTTCTTCAACCACTTCCGGTGCGCGGATTTCCGCCA -CCTCTTTCAGTTTGCCGCGCAACACTTTGTTGATGTCGGTCATCTCATCAAAGTTGTCGCAGCAATAGTG -ATACATCCACTTCATCACCTGATCGGCGCGGAAGGGTTTTTCACCTAAATCTTTAAAAAACTCCCGCATC -TGCTGACGGTTGAGATCCAGCAGGTTGATTTTTCCATCTTTCGTGGTGACGTTTTCAGGTGTGACTAATT -GTTCAGACATATGCTATTCCGGCCTCGTTATTACACGTTATGGCCCCTGGAGGGTTGAAAAAAGAAACGC -CCCGGTGAGCGGCTGCTCGTCCGGGGGCGCTGCATTGTACAAATTCTGGCGCACGGATGCCACGTTTGCA -CGCGGCATTTACGAAATTATTAACGGGTGCGCGGGCACACTTCGCCTTCGCCAAAGAAATAAGCGATTTC -GCGAGCGGCAGATTCGACGGAATCAGAACCGTGGGTACCGTTTTCGGTCAGGCTGTCAGCGTAATCAGCG -CGCAGAGTACCAGCCAGTGCGTTTGCCGGATTGGTCGCGCCCAGCAGATCGCGGTGACGCTGAACGGCGT -TTTCACCTTCCAGCACGGAAACCACGATCGGGCCAGAGGTCATGAATTCAACCAGACCATCAAAGAACGG -TTTTCCATCGTGTTCAGCATAAAAGCCACGTGCCTGTTCAACGGTCAGGTGCAGCATTTTGGTGCCAACA -ATTTTGAACCCTGCAGCTTCAAAGCGCGCAAAGATATTACCAATGACGTTTTTTGCTACCGCGTTCGGTT -TGATGATGGAAAAAGTACGTTCAATAGCCATTTTTACCTCTGTAAATTGTTCTGTTGTTGTCTGTACCAG -CGTACGAGATGGCGCGGATTATAATGAGCAACAGGGCCGTTGACTATTGATGAAGGTAACATTTTTTTAA -AATAAAATGAGTTTTAGCAACAATCAGGGACAAAACAGACTATTGCATGACAAATTTCACTGTCGCGATT -TGCCCCACGTCATCCATCACCAGCAATTGATAATCACCTTTATCCGTCAAATGCAGGGTCACGTTGCGCC -CGCGTTCAGTTAACGGTTCGCCATTCAGAAACCACCAGCGTTCACCTGCCCCTCCACTTGATTGCAACGG -CAAAGTCGCTTCCGCTGCGCCCGGTAAACGTTTAATAATCGCGCCATCGCGAACGCCTGTCAGCTGCAGC -GGGAGCTGGGCATCGTGACCGTATGGCGGGCAACTTGTCGAGGCCGGTGGTAAGCGCACAGCGCGACGTT -CTGATGCGGGCAGCCAGGGTTCCAGCGGTAGCGGCCAGACATTTATCATTTCTTGTCGCGCTTGCGGGCA -ATCAGCGGCAACACGTTTGCCATTTTCATCCAGCCAGATGGGGAAACGAATGCCATTAATGCCTTCCTGC -TCCGGCAGTAATAGAGTTGGCGGCTGACTCCCGTCCAGCAGCCAGGTTGCCAGGCGGCGGCGACAGTTAC -CGTCACCTTCCGGCAAAGACTGTCCGCCCGGCCAGCAGATAACGCCACGAGTGACTGAGTTCGGGCGCGG -GTCTTCCGGCAGATTCGCACTGCGCGACAGTAAGATATTATTGACCTGATTCAACAATGGTACGGCACTG -GCAAAGCCAAACTGACCAACAACGGGCGTGCCGTCCGGTCTGCCAGTCCAGATCCCAATGACATAGCGAG -CGTTAACCCCAATCGCCCAGGCGTCACGATAGCCATAGCTGGTGCCCGTTTTCCATGCCAGTGGGGCGAC -GCGCGGCAAGGCACTATCCGGCAAGGGTTGCGCTTCATCAGCCATAATCCGGCGAATGATCCACGCCGCC -CCCGACGACATTAAAGGCCGTTCAAGCAGCGGATCGTCAGGCTGTAAGCGCAATTTGCCTGCCTTGCCGT -GGCGAGCAAACGCGGTATACGCTGCCGCCATATCTTCCAGTTTTGCACCAGCGCCGCCGAGAATGAGTGA -AAGATTCGGCGCAGCACCGTTGGGCAAATATAACGGCAATCCAACATTGCGTAACTTTGCCGCAAACCGT -TTCGGTCCATAGGCTTCCAGCACCTGCACAGCAGGTAAGTTCAGCGAGCGCACCAGCGCCTCGCTCATGC -TGATCGGGCCATGAAAACCGCTATCAAAGTTACCTGGTCGATAATCACCGGTGCGCCGGGGGACGTCTTG -CAGCAGTGATGCCGGGTGGATCAAGCCTTCATCCAGCGCCAGACCATAAACAAACGGTTTGAGCACTGAT -CCTGGCGATCGGATCGAATTGACCATATCAACATGACCAAAGCGTGAATCATCGTTGAGATCAACCGATC -CCACCCAGCCGCGAACACGCATATCGGTATGATCAACCACGATCATCGCCAGTGAGCTGCGCGGTGGCAA -CCGCCCTTTCCAGTTTTGCGCCAGTTCTTCCAGACGTCGTTGAAGACCGGCATCCAACGTAGTAGTGATT -TTGTCGCTTTTGCTTTTACCGAGCATCATGCGCGAAAACAGCGGTGCCAGTTGCGGCATTTGTCGGGGGG -CCAGCCAGATGGGTTCTTCCCTTGACTCTTTTACCTGCTCACGGGACCACACACCTTGCACGGCCATCCG -TTCGAGCACTTTATTACGCGCGGCTTCGGCACGCTCCGGCCAACGATCCGGGCGAAGACGGCTGGGCGCT -TGCGGCAAAACCGCCAGCATTGCCGCCTCGGAATAGCTTAAATTCGCAGGCGATTTTCCGAGATAAGCCC -AACTTGCCGCACCGATCCCCTGCAACGTACCGCCAAACGGAGCGCGGTTAAGATACAAGGTCAGAATTTC -ACGCTTAGACAGATGCCATTCCAGTTGCAACGCGCGCCAGAGCTGGCGAATTTTGCCGCCAAATGTTTTG -GGGTGAGGATCAAGCAGACGAGCAACCTGCATAGTGAGCGTGCTGCCACCGGAAATAACCCGTCCCGAAG -TGAGATCTTGCCATGCTGCGCGCGCCACCGAGAATGGATTCACCCCCGGATGCTTCCAGAACCAGCGATC -TTCATAATTGATCAGCGCTTCAAGGTAACGTGGAGAAACATCTTCGATTGTTACCGGATAACGCCAGATG -CCGTCAGCATCGGCGAAGCGCCAGAGCGGCGTACCATCCTGCGCCACGACCACTCGTGCGGGATTGACTT -CATGCAGCGGTAGAGGCCAGAGTTTATCTGCTCCCCACGCTGCAAGAAAAAGGAGAAAGGGCGCGGCTGC -CAACGTTATCCAGCAGCCGCGTTTGGTTAACAAGCGAGGCATTTACGGTCTGACAATCAGCAGATCTTCA -GCCGCGCCGGTCGCCCGCCATTGGGGAACATACATTGATTCCACCATCGGTTGCGGTACCTGATACGTTC -CCGGCGTCACCGCCCGCGCCAGATACACCAGCGTTACCGGTTGGTATTCATCAACGGCAACCGCCGCCAC -AAAGCGATCGTCACGGAACTCAATGTGCTTAATGCTCGCCTGCTGCATCTGGTTCAGTAAGTTCTGCACT -TCGCCACCACTTTGCTCCAGGCTGGCGCTACCGTTCGCCAGATTCTGGTTTTCCAGTTCCAGACCCGCAG -GCAGCAGATCCACGACTAACGCATCCGGCACGCTGTTACTGGCTTTTACCTGCAACCACACCAGCACCAG -ATCGCCGCTACGTAACGAGTCCAGCGATTTGCTCTTACCATCAGTACCAAGAATATGACGCTCGATTTGC -AGCACATTGTTCGCCGGTAAAGGTGCGGATTGCGGATAACCGCTGGCATCCATACGCAACCATAACGGCT -GATCGCCACTGTTGCTCACCTGCAAGGTGACAAGTTGATCGCTATTCAGATTGCTGTTTTGCGCTTTCTC -GCCTGTCAGCTGCTCAGCTGAGAAAGAGGTTTGCGCCTGCCATTTACCGGGTAAATCCTGAATCGTACGG -GCAGCCAGGAACAACGCGTTACTTTCCTGCGTCGATAGCCAGCGTTCACCAAACGCCTGCTGCGAAAGTG -TGTTCAGCAAAGTGTACTGCTCATCGGGTAGCAGTTTATTTTCTTCCAGCAAGGAGAGCATTAACGCGTT -GTCGCGCAGTGAACTACCGTAATCACCCAGCCATATCCGCTCATCACTATTACGCGGCGTTTTCAGCGCC -AGCGCAATCGCTTCTTCACCACGCGTCGCATCACCCATGGTTTTCAGCGCAACGCCAAGTTGCAGCAGCG -GTAAACCAGAAGCGGCATCTGCACGATGCTCCCAGATTTCACGCAGCGCACCCAGCGGAGCCTTTTGCTG -ACGGGCCAACACCAGCGCAGCGTAAGACTGTACGGCGAATTTACTGGCTTTGAGATTATCCGCGTACGGG -ATCGACATCATGCCCGGATCTTGTAAATAGCGCAGCAGACGCTCATTACCCCGGTTAATGGCGTCTGTCG -GCACGCTGTAACCCTGTTCGCCTGCGCGGACCAGGAAATCCATCACGTAAGCCGTCAGCCAGTACTCTTC -GTCACCGTTTTTATCCCACAGCGCAAAGCCGCCGTTATCACGTTGCATTTGCAGCAAACGGGAAATGCCG -ATATCGACCGATGCACGGCGTTTCTCATCACTGTCGCCTTTGATGCCCAACGCCTGCAGTTGGGCTGCGT -TGGTATAAAGTGACGGAAACAGGCCGCTGGCGGTTTGCTCAAGACAGCCGTACGGATACGCTTTTAACTC -TTTGATATAACGTGCGATGTTCAGCGGTGGTTTGCCGCTCAACAACAATTGCCCTTCCAGCGTAACAGGC -GAGAAGTTTTGCAATCCATCCGCCGGAATCGCCCATGTCTCACCAGGCTGTAACGCCGTACCGTAATTAA -CCGTTTGTGCCGGGAACGCCGGACGGACGCCGATTTTCCACTGCTTATGCTGATCGGCAACGGTTTCACC -CGGTAACGCTAACCCGCTAATGGTGGCCTGAATTTCTCCATCGCCATAACCCGGCAATGCTCGCACCGGG -ATAAACAGCGTAGTACGCACACCTGGCGCTAATTCAACGGCTGCGGGTGAATCGCTGACCAGTTCAAGCA -AACCACTGGCGGTCAGGGCAACGTTCAGTTTTTGCGGTTTATCGGTAAGATTAGTGATATCCAGCGTCAG -ACGCGAGGTATCGCCACTCGCCATAAAGCGCGGCATGTTCAGTTCAGCAATCACCGGTGCGGCAACTATC -ACTTTACTTTCGTTGCTACCGAAGTCATCTGCCGTCCAGGCTTGCGCCATGACGCGCAATTCACCGTTAA -AATCGCCAATCGGCAGTGTAACCGAGCCTTCGCCCTGTTCGTTGAGCGTTACCGGCAGCGCCTGCTGCAC -GACAATATTGACGTGATTGACCGGCGGTTTACCACCACGTTTCAGCTCATCACCATCGCCACCGAAACGC -AGAGCTGCCAGACGCCCCTGACCTTCAATAACCTGACCGTAAATATCGTAAATGTCTGCGCCATAGCGTT -TCTGACCAAAGAACGCCTGCCACGGATCTGGCGTGACGTAGTCAGTAATATTCAGCACACCACTATCAAC -GGCAGACACCAGCACATTCACCTGTTTAGGCTTCTCGCCATTTTTAGTGCTGGCTTTAATTTTCACGGTT -AATGGTTGATTGGGACGCATTTTTGCTGGTGTTTCCAGCGCCAGATCGAGGCGACGGTTTTCATCGCCAA -GCGGCAGATGCAACACACCAACCGCGCGTTTTGGCGTCGCGGAGCGAGATTTATCGCCAGGACGTACCAC -CAGCGTACTTAAATACAGATCATGACGATTCCAGGTTTTATCGACCGGAATCGTCAGATCCAGCCCTTGA -GCCCGAACATCAATCTCTTGCCACCACAGCGGCCCTTCACTGGACTCGACCATCGCATAACCTTTACCCG -CCGTTGGCGCGGCGATATGCAACTTAATGGTGTCGCCAGGGCGATAACTGGCTTTATCCAGTTTCAGCGT -GACACGGTCGGGTCGCACTGCGCCGCTACCGTCGCTGTTGTCCTGCCAGCTATAGCCAGCCCAGAAACGA -ACACTACTGACCGCTTCATTCGGCGCTTTGACTTCCAGACGATAAGCGCCCCACTCTACCGGAAAACTGA -CCTTGCCGGTTTCGTCCGCTTTCAGATCCAGAGTTTGTTCATTTTCGATCAGATCTTTTTGATCAAACTG -TGACTGCCAGCCTTCATCTTCTGACCAGTTCCAGTAGTAATCGCGGCGTTCGCGAATCAGGCGCACCTGC -AAGCCCGACACGGCTTTTTTCACGCCTTGCGCATCGCTATAAACGATGTCAAAAGCGGCGTTACTGCCTT -CATCAACAATGGGCTGTTTCACCGTGCTGTCAGTACGATAATCGTAAACCGATTTCGAGGCGAACTGCGG -ACGGATCCCCGGCAATGCATCGGCAGGCCAGATAGCCTGCTCAGCGCGGCGCGTCACCGGGCGACCGCCC -GATTCCAGCAAACTACCCTGGAAAATAACCTGTAATGGGGAATGCGTTTCCTTCCACTGGCTTTCTGTAG -AAACTTCGCCGCGCCCTTTATCATCCAGCGTCAACTGAACTTCATCCAGCGTGCGGGAAAGATTTTCGGC -AGCTATATCGCCGAATTCAAAACCAGGTAAGGCTGACACAGCTTCACGCAGTGGGCGCAGGAAAAGTTGC -CCTTGCAAAGTATTACCATTAGCAGGTGCACCATACAGGTAGTACCCCACCACGGAGAATTTCACTTCAT -CTTTCGGCGTTAGCGGGGTTTTCTCACCGGTCAGATTCAGCGCCATGCGCTCTGGCATAAAATCTTCGAC -GTGGAAATCCCACATCCGATACTGATTATCGCCCGTGTTAGCGCGAATATGCCACATACCGGTTGCCGCA -TTGCTATCGAGTGGCCAGGTAAAGTGGTAGAGGCCATTCTCCGGCTGACTAACGACGCTCCTGAGTACCT -GCCCATCGGGTTTAATCACGTCTAACTTGATGGGTTGATTGGGCAACGCTTTACCGTCTGCATCACGCAG -CAAACCATTGAGGATTACCGTTTCACCTGGGCGATAAAGATCGCGTGGGCCAAACATGAAAAACTGTTTG -CTATAGCCTGGCGCGCCAGCAATGTTAAATTCTGCTAAGTCCAGCGCCGGAAGTTTTAAATCGAGTAGCG -TTGTCTGACCGTCTTTACGCGCCAACAGTAATGCCGCGTTTTTATCATTTTCCAGCTGCACATGCCCCTG -AGCGTCACTGGTTGCCTGAGTCAGAGTCTGCCCTTTCTCATTTAATAAAGAGACTTCAATTCCTTGCTGG -GCCGCGCCGTTTTCCAGACTTTGGGTAAAGATATCCAGACGATTGTGATAACGGTGAGCTGAAACGCCGA -TATCACTTAACGTAAACAGCGTCGCGGGATTACTGTAATCGTAACGTCCAGCCTGATTCATCACAGCCAG -ATACACGCCCGCCTGCTGAAGCGGTTTGATATCGCCCAGCGGCAGCAATAATTTTTCACGGGTGTTACGC -GCAGGATTGAGATCAAACCGTCCGGTGTAGACCAGATCCGCCATCTGCAGCAGTTTGTCTGACTGCCAGT -TCGCCAGCGAATTGCGGTATTCCCATTGGCTAATGAATGCTGGCAGAGATTCTGGCTTAACGCGGAAGAA -GTTAACATCGACATTATTAACGTTGAGCGCCATTACCGGCAGCCCTTCAACGACTTTGCCAGGCAGCAGC -GAACCACGGCTGGCAAAACCGACGCTGGGTTGGATGTCGCGGGTAGTTATAGTTTTTTCGTAATCTTTAC -TGAAGGTTGCGTTGTTGAGTGCTTTGACCTCCTTGCCAATAGTAACGATCAAATCACGTTTCGGTTCGAG -GTGGCGTAAACGTAACTCTTTAAGATTATCTGACAGCTCCCAGGCACCATCCACTTTGCCGCTTTTTTTA -TCGACGACATGAATAACGCGTGAGAAATCCTGATCCGGGTCGAGAGGGATGGAGAACGTCAGCACCAGCG -TGGCTGCACCATCAAGTTGGACTTCAGAGAGATCCAGCAATGTCAGCACCTTACCGGCACTCTGTTGGGC -CAGTTTTTGTCTCTCCGGCACGGAGAGTTTTGCTGAACTCGCGTTTTCTGAAGAGGCCGCTTTAGTAACT -TCAGAAGGCGCATCTTTTTTCACCGCTGTTGGCGCGTTATCGTTGTTGTCGCACCCTGCCAGCGCCAGCA -TTAGCATGCAGGCGGCTACGCGTAACTTTTTCATTTTTCATCCCTGCCACAATGGCCCGTTAGCAACGTC -GAATAATTATTATGCGTGAGAATTTACGTTATGTAATTCAGTATCACGCCCATACAATCCGAATTTTAGT -GAGAATTGTGGCTCAGACAGCCAAATCAGCCTCTTTTGCTTGTCGCTTTTCACTAAACATCCGACAATTT -AGCCTAACCCCGGCAAAAATGGAGATGCCTATGTCCACGACATGGTTTGTAGGAGCCGACTGGCTCGCCG -AACATATTGATGACCCGGAAATTCAGATTATCGATGCCCGCATGGCGTCGCCTGGACAGGAGGATCGTAA -CGTTGCTCAGGAGTATCTGAATGGACATATTCCCGGCGCAGTGTTTTTTGATATCGAAGCGCTTTCTGAT -CACACTTCCCCGCTTCCGCACATGCTGCCGCGCCCGGAAACGTTCGCCGTGGCGATGCGTGAATTAGGCG -TTAACCAGGATAAGCACCTGATTGTCTATGACGAAGGTAATCTTTTCTCAGCCCCACGAGCATGGTGGAT -GCTGCGCACCTTTGGTGTAGAGAAAGTGTCGATTCTGGGGGGTGGACTTGCAGGCTGGCAGCGCGATGAT -CTGCTGTTAGAAGAAGGTGCAGTAGAGCTGCCGGAAGGAGAGTTTAACGCCGCGTTTAATCCTGAAGCCG -TGGTGAAAGTAACCGATGTATTATTGGCAAGCCATGAAAATACGGCGCAAATTATTGATGCCCGCCCGGC -TGCACGTTTTAACGCAGAAGTTGATGAACCTCGCCCAGGTTTACGTCGCGGACATATTCCCGGAGCACTG -AATGTTCCGTGGACGGAACTGGTGCGCGAAGGCGAACTAAAAACGACCGATGAACTGGATGCGATATTTT -TTGGTCGCGGCGTCAGCTACGACAAACCAATTATCGTCAGCTGCGGCTCTGGTGTAACGGCAGCCGTGGT -TTTGTTAGCACTCGCGACGCTGGATGTGCCAAACGTGAAACTGTACGACGGCGCATGGAGTGAATGGGGC -GCGCGGGCAGATTTACCGGTTGAGCCAGTGAAATAAGTATTTTACAGGCAATAAAAAACCGCCGAATTTG -GCGGTTTTTTATTGCTAGTCTGGTTCGCGGCCTTTCCAGCAGGTTGACTTGTGTTACATGAGCAACGCAG -GTGCTTCACAGCAAAACAATACTCACCAGTAACTCTCTTTTTGTCAAGCAAAAGAGAGTAATTATTGTTT -ATTTAGCGTATTATCGACACCGGCCCTTTCCGCCGTGTTCGGTAATAAAATAACCTGGCTTATTAGTCCG -AATTCAGACAAATATAAATAAATCCTGCTCAAAATTAAAAATTCTAACCGGTAAAAGATATTACTTAAAC -ATGTAAATTCACTTTCCTTTAAAAAACAAAAAACCGCCAAAATCAGGCGGTTTTTTGTTGCTGGTCCGGT -TCGCGGCCTTTCCAGCAGGTTGTATTACCGTAGTAATGCAAGCGCGTCTCAGCGGAGACAATACTCGCCA -GTAACTCTCTTTTTGTCAAGCAAAAGAGAGTTATTATTGTTCTGTTAGTGTATTATCCACTGCGGCCCTT -TCCGCCGTCTCGCAAACGGGCGCTGGCTTTAGGAAAGGATGTTCCGTGGCCGTAAATGCAGGTGTTTCAC -AGCGCTTGCTATCGCGGCAATATCGCCAGTGGTGCTGTCGTGATGCGGTCTTCGCATGGACCGCACAATG -AAGATACGGTGCTTTTGTATCGTACTTATTGTTTCTGGTGCGCTGTTAACCGAGGTAAATAATAACCGGA -GTCTCTCCGGCGACAATTTACTGGTGGTTAACAACCTTCAGAGCAGCAAGTAAGCCCGAATGCCGCCCTT -TGGGCGGCATATTTTAGATTATCCGATTCTGTTTAAAGTCACGCAAAAAACCACCCCAGCGACGTTCATA -GAATGGCGCAATATGTTCGGTAATAAAGTGGCTAATTCCTTTTTCCCCTTTTTTCACCTGACAAATATCG -ATTGGTTCATCGCCAGGTAATGTATCGGTCGCTACACTTCCCGTCGCCTGAATAATTTCTTCGATATCAC -CATCGGCTTCAATGCCAATAAGTAAATTAGGCTGTGCCTCTTCGTTCTCTTTAATTGAACAAATAAAAGC -ACGCTTCACCGGCTTAATGGTTTTAAATAAGGTGGTGAGTGAATCAATCATTTGTGCTGGCGGCTCTGCG -ACTTCCGATAATATCAGCGATTCACCGCCTTCCAGGATTTCCTGGCTGCTCAGCGGATTTCCCTCTTCAC -CAATCAACAAACTGATTTCACGCGGCATAAATTCTTTACCGGTTGGCAGTTTGGCATTAAGGAAGAGCGT -TTCGCCAAGTGTCATCTCAAACAGCGTGCGAACGGGCATTACGACAAATGCCTGTTCGTCTTCAACCGCC -TGTTGAAGTGCTTCTAACGAGGTGAAAAAAGGAATGACGCTGGTGCCGTCTTCTTTTTCCCAGTGCTGTA -AATCAAGCGCGCTATCTTCAACCACAGCCTCGCCCTGCGCCGCCGTACCAGGCACCCAGACGGTGGATTC -CAGTAGAGTACGGAAAAAGGCCGGGCGGTGCGCCGGTTCAGTTGCTGCTTTTTCCAGCAGGTCTTCAAGT -TCGTTTTTTGTTTCGGACATAAGAACCACAATTCATTCAACGTTCGGGGCGCAAATGCCTGATGCGCTAC -GCTTATCAGGCCTACAAGGGATTCGCAATTTGTTGAATTTGCAGAATTTGTAGGCCGGATAAGGCGTTTA -CGCCGCATCCGGCATATTAGTTTACGCCGTTAACAGATTAGCTATCGTGCGCACACCAAGTCCCGTAGCG -CCCGCAGACCACTGTTCAACCGGCGCTTTACGGTAAGTCGCCGAGCAGTCGATATGCAGCCAGCCTTGCT -GATAGTTCTCAACAAAGTGCGACAGGAAGCCCGCCGCCGTGCTCGCGCCTGCCGGATACGCCGCGCTTCC -GGTATTGTTCAGTTCGGCAAAGTTAGACGGCAGCTGGCTGCGGTGGAACTCCGCCAGCGGCAGACGCCAG -AACGGTTCGTTCTCCTGCGCGGCACTCGCCAGCAAGCGACCGGCCAGCGCATCGTCAAAACTGAACAGCG -CGTGATAATCATTACCCAGCGCAGTTTTCGCCGCCCCGGTGAGGGTCGCCGCATCAATGATCATTTCCGG -TTTCTGCGCACTGGCATCAATCAGACCATCGGCAAGCACCAGACGCCCTTCGGCATCAGTGTTCATCACT -TCAACTTTTTTACCGTTGCGATAGGTGATGATATCGCCCAGCTTGAACGCATTGCCGCTAATCAGGTTAT -CCGCACAGCAGAGGAACAGCTTCACGCGCTTGTTCAGTCCGCGCGTAATGGCAAATGCCAGCGCCCCGGT -AACCGTTGCCGCGCCGCCCATGTCCGACTTCATCGAGTCCATAAACGCAGTCTGTTTGATGCTGTAGCCG -CCGGAGTCAAAAGTGATACCTTTACCTACCAGGCACGCGTACACTGGCGCTTCTTTATCGCCAGTTGGGT -TGTAATCCAGCGCCAGCAATACCGGAGAACGTTCTGAACCGCGTCCGACTGTGTGCAGCCCCATATAACC -TTGCTCACGCAGATCTTCGCCTTTGGTGATCCGATAAGTCACACGATCGCCCGCGACGTTGCTGATCAGA -TCAACAGCACGCTGTGCCAGTTGCGATGGTCCCAATTCTTCTGCCGGTGCGTTGATGGTGTCACGCACCC -AGTCGATGATCATCAGGCGGTTATCCAGTTCCTGGCGCTGGGCATCGTCCAGATCCGGCCACACCACTTT -ACGCGTGCCTTTCGGGGCTTTGTAACCTTGCCAGAATGCCCAGCAGCGATCCGCATCCCAGCCTTCACCG -CTTAACTGAACATGCTTGATGCCCAGACCGTCAATCTTGCGCGCCGCACGCTGGATCAGCCCCAGATCGT -CTGCCCCGTTCAAATGCAGGGTAATGCCGTCATTATTAATGCTGTAAGTTGCTTTTTCTCCCCAGCGCGC -GTCGGCAGGTTGGGTAGAGAGGGTAATCTTCATCGCTTCTGTCATTTTAGTTATCCTTCTTTGTAAAAGG -GCCGCCAGTTGGCAGCCCCAGGATTTTTCCGCTAAATGATTCGCGTTGCAGGAAGGCGGCAAGTGAGTGA -AGCCCCAGGAGCATAGATAACTATGTGACTGGGGTGAACGAGCGCAGCCAACGCATCTGCGGCGTGAAGC -ATGACGCGGAAATTATTCGGCCTCGTCCAGCCAGACTAACAAAATCGCTTCGAGGATTTTCTCGTTGGAT -GCCTGCGGGTCGTCGTCGAAATCTTCCAGATCGCAAATCCACTGATGCATATCGGTGAATCGAACCGTTT -TCGGATCAAGATCGGGATACGCATCGTACAGTGCTTCGCCAATTTCGCGGCTATCGGTCCACTTAAGTCC -CATACTAACCTCTGTTAATGCTCACGCGCATGGTTGATAGTGTAACGCGGGATTTCGACTACTAAATCTT -CGTCGGTAACGCGCGCCTGGCAGCTTAAACGGCTTTCCGGCTCCAGTCCCCAGGCTTTGTCCAGCATGTC -GTCTTCCTGCTCTGAGCTTTCCGGCAGTGAGTCAAAACCTTCACGAACGATGCAGTGGCAGGTGGTGCAA -GCACAGGATTTTTCACAGGCGTGTTCAATCTCGATACCGTTACGCAGAGCTGCGTCGAGAATGGTTTCAC -CGCTATTAGCTTCCAGAACAGCGCCATCAGGGCAGAGATCCTGATGAGGCAAAATAACAATCTTTGGCAT -ATTAAACCTCGTCCACGGAATGGCCTTTCAGCGCACGACGAACCGACTGGTCCATGCGGCGAGCGGCGAA -ATCCTGGGTTTGTTTGTCTACGTTTTTAATCGCTTGTTCGATGGCGTCAACATCATCGCCCTGCGCCACT -TCACTCAGGTGAGCGGCAGCATCGTCAATGACCTGACGTTCTGCGGCGCTTAACAGCGCGGCATCAGCAG -CCAGCGCGCCGTGCAGACTTTCCAGCACACGCGCCGCTTCTACTTTTTGTTCTGCCAGCATTCGGGCTTT -TACGTCCTGCTCGGCATAGCTCATTGAGTCTTTGATCATCGAAGCGATTTCGCTATCGGTCAGACCGTAA -GACGGTTTGACCTGAATAGACGCCTCAACGCCGGTGGATTTCTCCATCGCCGTCACGCTCAAAAGACCGT -CGGCATCGACCTGGAACGTCACGCGAATATGCGCACCGCCAGCCGGTAGCGCCGGAATACCACGCAGCGC -AAAACGCGCCAGTGAGCGGCAGTCCTGCACCAGTTCGCGCTCACCCTGCATTACATGGATAGACATCGCC -GTCTGACCATCTTTAAAGGTGGTGAAATCCTGAGCGCGGGCCACCGGAATAGTGGTATTACGCGGAATCA -CTTTCTCCACCAGGCCGCCCATCGTTTCGAGGCCCAGCGACAGTGGGATCACATCAAGCAACAGCATTTC -GCTGTCTGGCTTGTTACCCACCAGAATATCCGCCTGAATCGCCGCGCCAATAGCGACGACTTTATCCGGG -TCGATGGAAGTCAGCGGTGGACGACCGAAAAATTCGCCTACCCGTTCACGCACCAGCGGCACGCGAGTAG -AACCGCCCACCATCACCACTTCCAGCACTTCATCAGCTTCTACACCCGCGTCTTTCAGCGCGCGACGACA -AGCCAGTAAGGTTCGTTTTACCAGTGGCGCGATCAGTTCATTGAATTGTTCACGGCTGATTTCGCCCTGC -CAGCCCGCAACGTTAACGGTCACGGAGTCCGCATCGCTCAGCGCGATTTTGGCTGCAATGGCGGCATCCA -GCAGTTCACGCTGAACGCGGTTATCGCTACGATCAGGAATGCCCGCCTGCTCGCGAATGTAATCCGCCAG -CAGATGGTCGAAATCATCGCCGCCGAGCGCGGAATCACCGCCGGTTGCCAGCACTTCAAACACGCCGCGA -CTTAAGCGCAGAATGGAAATATCAAACGTCCCGCCACCGAGGTCATAAACGGCGATCACGCCTTCCTGAC -CGGAATCCAGCCCGTAGGCGATAGCCGCAGCGGTCGGTTCGTTAAGTAAGCGCAGGACGTGAAGGCCCGC -CAGACGCGCCGCGTCTTTGGTGCCCTGACGCTGGGCATCGTCAAAGTACGCCGGAACGGTGATAACTACA -CCATCCAGCTCGCCTGCCAGGGCTTCAGTTGCCCGCGCCGCCAGTGCTTTGAGGATGTCCGCAGAAACGC -GCACCGGGTTCAGCAGCCCCGCCGCCGTTTCAATCATCGGCAGGCCGTTTTCGCTGGCCTGGAATTGATA -AGGCAGATGCGGATAGCGTTGCTGGATATCAGCCAGCGAGCGTCCCATCAGGCGTTTAACAGAACTAATT -GTGTTGGCGGTATCGAGCGCTGCATTAGTACGCGCGTCATAACCCACCGAATGCCCTTGCTGTTGATAGT -GAACAACAGATGGCAGCAGGTGACGGCCTTCATGATCGGCTAACGTTTCGGCCTGACCGCTGCGCACTGT -CGCCACCAGCGAGTTGGTTGTGCCCAGGTCAATACCGGCCGCCAGACGACGCTGATGCGGCGCAGCACTC -AAACCAGGTTCACTAATTTGTAATAAGGCCATGTTTAGCTTCCAGAAATTAAAAATCGAGCAGTTTTTCT -TCGAGTTGTTCGGCACTGCTTCGCAGTTTATCGAGAAAACGCAGCTTACGCACGGTATCCGCCGCCGCGT -CCCACGTCTCGTTGTCTAACTGTTCAACCATCAACTGATGGCGGGTATCAAACATCTTTTTCACACGTTT -GATAAAGCTTTCCAGCCGCGCTTCATCTTTCGCCTGTTCGATCTCGTCCAGCTCTTCGCGCAGCTCCAAC -TGTTCCATCAGGAACGCGGTGTCGCGCACAGTATGCTGCTCGCTGGCGAGATCAAAGCCGTGCAAAGAAA -GCAAATATTCCGCGCGCATTAACGGATGACGCAGCGTTTGCCAGGCCTGGTTAATGGTTGCAGATTGCTG -TACGGCGGCGAGTTGTTCCGCCTGGCTTCCGCTGGCGAATTTATCAGGATGATACTGACGTTGTAGATCC -TGAAAACGCAGGCTCAGCGCCTGGGTATCGAGTTGATAGCGGGCAGGCAAGCCAAAGAGGGTGAAGTAAT -CCATAACATTCTCAGGGCTGCGATCCGCCGCGATAACGGCGAATCAGGTAAAACAAACCCCACGCGCAGG -CGACCACGGTGGGGTTATCGGTATGCGCATCAAACGTGGAAGCTTTCGCCGCAACCACACTCATCTTTGA -CGTTCGGGTTGGTGAATTTAAACCCTTCGTTCAGGCCTTCTTTTACGAAGTCCAGCTGCGTACCGTCCAG -AAATTGCAGGCTCTTGCCATCGACCACGACTTTCACGCCTTTGTCTTCAAACACGATGTCTTCCGGCGTC -GGTTCGTCAACAAATTCCAGTACATAAGCCATACCTGAACACCCGGAGGTTCTCACGCCCAGACGCAGGC -CAAACCCTTTACCGCGGTTAGCCAGAAAGGTATTTACTCGCGCTGCTGCACTGTCGCTCAGTGTAATCGA -CATAACCAAACCTCAACTCTTATTTTGCTTCACGTTTGCTTTTATAGTCCGCAATGGCGGCTTTGATCGC -GTCTTCTGCCAGAATAGAACAGTGAATTTTCACCGGCGGCAGTTCAAGTTCTTCAGCAATATCGGTGTTT -TTGATCGCCTGCGCTTCGTCGAGAGACTTCCCTTTCACCCATTCGGTGACCAGGGAGCTGGAAGCGATAG -CGGAACCGCAGCCGTAAGTTTTAAAACGCGCGTCTTCAATGATACCTTCATCGTTGACTTTAATCTGCAA -CTTCATCACGTCGCCACAGGCCGGTGCCCCCACCATGCCGCTGCCGACGTTCTCGTCGTTGTTGTCAAAG -GAACCCACGTTACGCGGATTCTCGTAATGGTCGATAACTTTTTCGCTGTAAGCCATTATAAATTCTCCTG -ATTCCGATACCGATTAATGATGAGCCCATTCGATGCTGTTCAGATCCACGCCCTGCTTGTACATTTCCCA -CAGCGGAGAAAGGTCACGCAGACGACCGATGGATTTACGAACTAACTCGATGGTGTAGTCGATCTCTTCT -TCAGTAGTAAAACGACCTAAAGAGAAACGGATAGAGCTATGTGCCAGCTCGTCGTTCAGCCCCAGCGCGC -GCAGCACGTAGGACGGTTCGAGGCTTGCTGACGTACAGGCGGAACCTGAAGAAACTGCGAGGTCTTTCAG -CGCCATAATCAGCGACTCACCTTCAACGTAGTTGAAGCTGACGTTGAGAATGTTCGGCGCACCGTGTTCC -AGGTCACCGTTCAGGTAAACTTCTTCGATATCTTTGATGCCGTTCCACAGACGGTTACGCAGGCCGCGCA -GACGTTCCATCTCGGTCGCCATCTCTTCTTTTGCGATGCGATAGGCCTCGCCCATTCCGACGATCTGGTG -AACAGGCAGAGTGCCGGAACGCATACCGCGCTCGTGACCGCCGCCGTGCATTTGCGCTTCGATGCGTACG -CGCGGTTTACGACGTACATACAGCGCACCGATACCTTTCGGGCCATAGATTTTGTGACCGGAGAAAGACA -TCAGGTCAACTTTCAACTGGCTCAGGTCGATAGGCAGTTTACCCACGCTCTGGGTTGCATCAACGTGATA -GATAATGCCACGAGCACGGCACATTTCGCCGATAGCCGCGATATCCTGCACCACGCCGATTTCGTTATTT -ACGTGCATGATGGACACGAGGATGGTGTCGTCACGCATCGCTGCTTCAAGTTCTTTCAGGTCGATAATGC -CGTTACGCTGCGGTGCCAGGTAGGTGACTTCAAAACCTTCGCGCTCCAGCTGACGGCAGGTATCCAGTAC -CGCTTTGTGTTCGGTTTTGCTGGTGATGATGTGCTTGCCTTTTTTCTGATAAAAGTTGGCTGCACCTTTG -ATCGCCAGGTTGTCAGATTCGGTTGCACCAGAGGTAAAGACGATTTCACGCGGATCAGCGCCGACCAGAT -CGGCAATCTGATTACGGGCGATATCTACCGCTTCTTCAGCCTGCCAGCCGAAACGGTGAGAACGGGAGGC -CGGGTTACCAAAGGTTCCGTCCATCGTCATAAACTGCATCATTTTCTCGGCAACACGCGGGTCCACCGGC -GTGGTTGCGGAGTAGTCGAGATAAATCGGTAATTTCATTGCTCTATAAACTCCGTACATCACTCAATGCA -AGGAATCAGGCTACCGGCTGGATGTACGACCGTGTTTACGGAGTATTTAGCACTCCGGCCTGATTCTGAA -TTCTTTTTATTAAGCGCGTAACTTAACGTCGATCGCGTCTTGTGTGCGGGTGCGTGGCGCGTCGTGAGTA -TGCTGACGACCAGACACATCCAGCACTTCCTGGTTATTAACCAGTTCGCCTAAAGTAATGTTGTTGAGAA -AACCGGTGAGACGGTCGCTCAAATCACGCCACAGCGCGTGGGTCAGGCATTTATCGCCGCCCTGGCAGCC -GCCTTTACCCTGACAACGGGTGGCATCTACAGATTCGTCAACGGCGCTAATTACTTCGCCAACGGCGATG -CTGCTGGCATCTTTGCCTAACAGATAACCACCGCCTGGTCCACGTACGCTGGAAACCAGACCATTTTTAC -GCAGACGGGAAAACAGTTGTTCCAGATAAGAAAGGGAAATTCCCTGACGTTCGGAAATATCAGCCAACGG -TACCGGGCCCGCTTCAGAGTTGAGCGCAACGTCAAGCATTGCGGTCACGGCATAGCGCCCTTTAGATGTC -AGTCTCATGTCTTACTTCACCTCAAACTCGCCCCTGCCCGGGGTTTTTTATTGTAAAAGTGGGGGTATTG -CATAGCAGGGTCAAGTCTGACATTCCCGAGTAAATTGGTCAACTATTTACTTGACTGATTTAGTCGGGTA -TTTAACCTTCAGTGCCATTTTTTTATCGTGGCGTTTGTACCTGTTGTCGGATGCGGCGTGAACGCCATAT -CCGCCCTGGGGTTCTGTACACTGTAGGCCTGATAAGACGCATTACGCGTCGCATCAGGCAACGGCTGTCG -GATGCGGCGTGAACGCCTTATCCGACCTACGGTTCTGTTCACTGTAGGCCTGATAAGACGCATTACGCGT -CGCATCAGGCAACGGCTGTCGGATGCGGCGTGAACGCCTTATCCGACCTACGGTTCTGTTCACTGTAGGC -CTGATAAGACGCATTACGCGTCGCATCAGGCAACGGCTGTTATTCGGCCTTGTTACCTTTATTCTGCTGC -TCAATAGAAGCCAGAATCCCGCGCAGGATATTCAACTCCTGGCTTTCCGGGCGCGCACGGGTAAACAGAC -GGCGCAATTTATTCATCACCTGCCCCGGATGGTTTTCACGGATAAAACCGGTTGCCAGCAGCGTTTGTTC -CAGATGACCATAAAAACGCTCCAGATCATCGACCAGCGGATACGGCGTCTCTTCATGCTCGACCTGCTCG -CCGTTTTCCTGAGTTGCCAGCCAGGCCATGCGCACTTCATAGGCAATAACCTGAACCGCCATCGCCAGGT -TCAGCGAGCTGTATTCCGGGTTAGCCGCAATCGCGACATGATAATGGCATTTCTGCAACTCTTCATTGGT -CAAGCCGACGCGCTCGCGACCAAACACCAGCGCCACCGGGGTATTTGCCGCTTCAGCGACGCTTTTCAGG -CCGCATTCGCGCGGGTCGAGCATCGGCCATGGCAGCGTGCGGGAACGTGCGCTGGTGCCCACCACCAGGC -TACAACCGGCTAACGCTTCGTCGAGCGTATCGACGATGTGAGCATTACCAATCACATCGCTGGCCCCTGC -TGCCAGGGCAATCGCCTGGGAGTCGGGTTTCACCAGTGGATTAACCAGCCACAGATTGGTTAATCCCATT -GTTTTCATGGCACGGGCAACAGAACCCATATTGCCGGTGTGTGACGTCTCCACCAGCACAATTCGAATAT -TTTGCAGCATTGTCTTTCTTCATCTAAAGATTATTCACGCATCTTATCATAAAACGAAGACAGATGCCGA -TCTCGCTGCTATACTCTGCGCCGTTTTCCCGTTCTTTAACATCCAGTGAGAGAGACCGATGCATCCGATG -CTGAACATCGCCGTGCGCGCAGCGCGCAAGGCGGGTAATTTAATTGCCAAAAACTATGAAACCCCGGACG -CTGTAGAAGCGAGCCAGAAAGGCAGTAACGATTTCGTGACCAACGTAGATAAAGCTGCCGAAGCGGTGAT -TATCGACACGATTCGTAAATCTTACCCACAGCACACCATCATCACCGAAGAAAGCGGTGAACTTGAAGGT -ACTGATCAGGATGTTCAATGGGTTATCGATCCACTGGATGGCACTACCAACTTTATCAAACGTCTGCCGC -ACTTCGCGGTATCTATCGCTGTTCGTATCAAAGGCCGCACCGAAGTTGCTGTGGTATACGATCCTATGCG -TAACGAACTGTTCACCGCCACTCGCGGTCAGGGCGCACAGCTGAACGGCTACCGACTGCGCGGCAGCACC -GCTCGCGATCTCGACGGTACTATTCTGGCGACCGGCTTCCCGTTCAAAGCAAAACAGTACGCCACTACCT -ACATCAACATCGTCGGCAAACTGTTCAACGAATGTGCAGACTTCCGTCGTACCGGTTCTGCGGCGCTGGA -TCTGGCTTACGTCGCTGCGGGTCGTGTTGACGGTTTCTTTGAAATCGGTCTGCGCCCGTGGGACTTCGCC -GCAGGCGAGCTGCTGGTTCGTGAAGCGGGCGGCATCGTCAGCGACTTCACCGGTGGTCATAACTACATGC -TGACCGGTAACATCGTTGCTGGTAACCCGCGCGTTGTTAAAGCCATGCTGGCGAACATGCGTGACGAGTT -AAGCGACGCTCTGAAGCGTTAATGACTCAGGCGGGTGATATCACTCACCCGCCCTCGCCTTTCAGGCGCT -ATTCCGAAATACTTCCTCACTGCTTTACTTTCTTTCGTCACTCTCCCACCATCTTTCCCCGATTAATGGA -TGATAAAGAAGTCGCAAGGAAAGGTTATGGCACTGCCAGTGAACAAACGCGTTCCCAAAATTCTGTTTAT -TCTCTTTGTTGTTGCCTTCTGCGTTTATTTAGTGCCGCGCGTTGCCATCAACTTCTTCTATTATCCCGAC -GATAAAATTTACGGTCCCGATCCCTGGTCGGCGGAATCCGTCGAATTTACGGCTAAGGACGGTACTCGTC -TGCAAGGCTGGTTTATCCCTTCTTCGACGGGCCCTGCTGACAACGCCATCGCAACCATCATTCATGCTCA -CGGCAATGCCGGAAATATGTCCGCCCACTGGCCGCTGGTCAGTTGGTTACCCGAGCGTAATTTCAACGTT -TTTATGTTTGATTATCGCGGGTTTGGTAAATCAAAAGGCACGCCGTCCCAGGCCGGATTGCTGGACGATA -CGCAAAGTGCCATCAATGTGGTGCGCCATCGCAGTGATGTAAACCCACAACGTCTGGTGCTGTTCGGGCA -GAGTATTGGCGGGGCGAATATTCTGGATGTTATTGGTCGGGGTGATCGTGAAGGCATACGTGCGGTGATC -CTCGACTCCACATTTGCCTCTTATGCAACCATCGCCAACCAAATGATCCCCGGCAGTGGCTACTTACTTG -ATGAGAGTTACAGCGGCGAAAATTATATCGCCAGCGTCAGCCCGATCCCGCTTTTACTCATTCACGGTAA -AGCTGATCACGTTATCCCATGGCAGCACAGCGAAAAGTTGTATAGCCTGGCAAAAGAGCCAAAACGGTTG -ATCCTAATCCCGGATGGCGAACACATTGATGCTTTTTCCGATCGTCACGGCGATGTTTATCGCGAACAGA -TGGTGGACTTTATCCTTAGCGCGTTGAATCCGCAGAACTAACCCATGATCGCTAGCACGATAATCATTCA -CAAAACCACCTTAAGACATGCTAATCCACTGGTCAGAACAGTTTAAGATGAGAAAAATTCTGTGACGCTT -GCCAACATTTCTGATGATTAGCATTCCCTTCGCCATTTCCTTGAGCAAACTTTAGCTATTCTTATCAATT -ATGCTTATGGGAGATCTACAGATGATGCCTACGCTTGCTCCACCATCTGTCCTTTCGGCTCCCCAGCGCC -GCTGCCAGATCTTGCTGACGCTCTTTCAGCCGGGGTTGACCGCCACCATGGCAACCTTCAGCGAGCTTAA -TGGTGTGGATGATGATATTGCCAGTCTTGATATCAGCGAAACAGGACGGGAGATCCTGCGCTATCATCAA -CTCACACTGACGACTGGTTATGACGGTAGCTACCGGGTTGAAGGTACAGTGCTTAACCAACGTTTGTGTT -TATTTCACTGGCTACGACGTGGTTTCCGTCTGTGTCCGTCATTTATTACCAGCCAATTCACCCCCGCCCT -GAAGAGTGAACTGAAGCGGCGCGGAATTGCGCGTAACTTTTACGACGATACCAATCTACAAGCGTTAGTG -AATCTCTGCTCCCGACGGCTGCAAAAACGCTTTGAATCGCGCGATATTCATTTCCTGTGTCTGTATCTGC -AATATTGTTTGCTGCAGCACCACGCTGGAATTACGCCTCAGTTTAATCCGCTCCAACGTCGCTGGGCGGA -ATCCTGCCTTGAATTTCAGGTAGCGCAGGAAATTGGACGCCACTGGCAGCGTCGGGCGCTCCAGCCTGTA -CCACCTGATGAGCCACTGTTTATGGCACTACTTTTTTCCATGTTGCGGGTTCCCGATCCATTGCGGGATG -CGCATCAGCGGGACAGACAATTGCGTCAGTCTATCAAACGTCTGGTAAACCATTTTCGTGAGCTGGGAAA -TGTTCGTTTTTATGATGAACAGGGGTTATGTGATCAGCTTTATACCCACCTCGCCCAGGCGTTAAATCGC -AGTTTGTTTGCCATCGGTATTGATAATACCCTGCCGGAAGAGTTCGCCAGACTGTACCCACGCCTGGTGC -GCACCACCCGCGCGGCGCTGGCCGGATTTGAAAGTGAATACGGCGTCCATCTTTCTGATGAGGAAAGTGG -TCTGGTCGCGGTGATTTTCGGTGCCTGGCTAATGCAGGAAAACGATCTGCATGAAAAACAGATTATTCTT -CTTACCGGGAATGATAGCGAGCGAGAAGCGCAGATTGAGCAGCAGTTACGCGAACTAACGTTACTGCCGC -TCAACATTAAGCATATGTCGGTAAAGGCATTTTTGCAGACAGGCGCTCCGCGTGGCGCGGCACTGATTAT -TGCGCCTTATACCATGCCATTACCGCTCTTTTCACCACCGCTGATCTATACGGACCTGACGCTGACAACA -CATCAACAGGAGCAGATCCGCAAAATGCTCGAATCAGCATGAGGGAACAACTTTCGGGCGCAAAAACATT -GCCGGAAGCGCCACCAGCGCCATTACCCAGAACACGCCGTGGCCCAGATATTGATACAGGAAACCGGCGA -AAACGGTCATGATAGCGATACTGCCGCCCATCGCGACGGCAGAGTAAACCGCCTGTAAACGGATGACTTC -GCTACCCTGGCGAGCAGCAATATAACGCATGGCGGCCAGGTGGCAGACCGTGAAGGTGCCGCAATGCAGA -ATTTGCACCACTATCAACCACGGCAACGCCGTAGTTGCTCCCATAATGCCCCAGCGCACTACGCCGCAAA -TCGCCGAGATCAACAGCATATCGCGTGCACTACAACGGCGGAAAAGTTTATTACTCAGCGCAAAGATAAT -GACTTCCGCCACCACGCCCAGCGACCACAAATACCCCACCGCCGAGGCCGAGTAGCCAGCTGCCTGCCAG -TAAATGGCGCTAAAACCGTAATAGGCCGCATGTGCCCCCTGCAATAAACAAACGCAGGCCAGAAAGCGCC -AGTTCTGGCGAACCAGCGCCAACCACGCAGACCAACCGGTGCTCTCCTGCTGGCGACTTGCCCCTTGTGG -CTGAATCGTCGGACGGATGAGAAAGCCGAGCAGCATGGATGCCACGCCCAACGTCAACAGCGCGAGGATC -ACCCGATAATCAAACATAGTGACCAGTTTGCCCGTCAGCGCCGAGCCAATGACAAACGCCACCGAGCCCC -ACAGTCGCACTTTGCCGTAATCAAGCGGGAACTGCTTTTGCCACGTATTCGCCAGTGCATCGGTCAACGG -TACCAGTGGTGAGAAAAAGAGGTTAAAGCCAATCATCACCAGCATCAGCCACGCTACGTGCGCCCCCGCC -CAGAAGGCGACAGCAAAGAGAAGTGTCAGCAGTGCCAGCACGCGCAAGGCGGAAATCAGGCGGGAAGGAT -CGCTGACGCGGGGCGCGATGAGCAAACTCCCGAGGAAACGGGCAACCAGACCTGCCCCCAATAACAGGCC -GATGGTTTCTGGCGTTAAACCAATCCCTTTAAGCCAGACGCTCCAGAAAGGTAGAAAAATGCCGTAACTA -AAAAAGTATGTGAAATAGCCGAGCGCCAACCAGCGCGTGGATTGCAAAACCATGAGTCCCTCCCGTCAGG -AGGCGTTAGTCTGGGGTTAATCGAATGTTGGTGCAAGTTGAAAAATAAGAATATTCGAGCCTGCTTCCCG -ATGTCTGTAACGCCAGTTCACAAGCACTAAAAAACTGAGATCCGCGACGCATGTTGCAAAAATAATGCGT -AATTATGCCGTTACGCTTGCCAAACGTTCCTGCACAATGGCGATGAAATCGCGTAATGCCGGCTTCATCT -CCCCTTTCTTCCACGCCATCAGTAAAGCAATGGAAGGCACATTTCCGGCAATGGGACGAAAAACAACCTG -TCCGGTATTAAAATTATTCATATAACCGGGTATCAAAGTGACGCCCAGCCCCATGCCCACCAGATTCATG -GTCACCAGAATATTCGTTGCCACCTGGACGATATTTGGCTGGCTGTTTTCTTGCGCAAACCACGCTTTAA -CGATCGGCGCAAGCGAACCGGAATACACCGGATCGGTACTGACGAAATTCACGCCATCCAGTTGCGCGGC -GGTGATCTCTTTTTCATGTGCTAAAGGGTGATCAACCGGTAACACAACCACTAATGGTTCGTCAAAAAGC -TCCAGATAATCAATCTCCGGGCTATAAACAGGATGGCGCATTAAGCCGACGTCGAGTTCACCACGGCGAA -TTTTTTCCTCCTGTTGCGTGGTGATTAAACTCACCAGCTCAATCAAGGTGTCTGGCTGTCTGAGACGAAA -CATCGGTAATACTTTTGGCAGTAAATTCACTTCCGCCGATGGCACAAAGCCAATGGTTAATTGTCTGTCT -TCCTGAACAATTTTCCGCGCCCGTAATTTGGCATTTTCCGCTTGTTCGAGGATTGCCAGCGCGTCCTGGA -GAAAACATTCTCCCGCCGCCGTCAACGCGACTTTGCGCTTATCCCTCACCAGTAACGGAACACCGACACA -GTTTTCAAGATCGCGGATCTGGCTGCTTAACGAAGGCTGTGAGGTATGCAGTTTTTCCGCCGCACGGGTA -AAGTTCAGTGCCTGCGCCACTGCGACGAAATAGCGTAAATGCCGTAGTTCCATCACCTTCCCCTTGTTAT -CGAAAAAACGTCTCAGCTGGTAGAAATTAACTATTTCACATATTAGCAACCAACCAGCAACATCCTTATG -GCACAAAAATAGAAGGTCAATACATCTTATCTTTCAGGATTAAAAAATATGACCACACCCTCAGATTTGA -ACATTTACCAACTGATTGACACCCAAAATGGTCGGGTCACTCCGCGTATTTATACCGACCCGGATATTTA -CCAACTGGAGCTTGAGCGTATTTTCGGTCGTTGCTGGCTATTTCTCGCCCACGAAAGCCAGATCCCAAAA -CCCGGTGATTTCTTTAACACCTACATGGGAGAAGATGCGGTTGTCGTAGTGCGTCAGAAAGACGGCAGCA -TCAAGGCGTTTCTCAACCAATGCCGCCACCGGGCCATGCGTGTGAGTTATGCAGATTGCGGCAACACTCG -CGCCTTTACCTGCCCGTATCACGGCTGGTCTTATGGCATTAACGGCGAGTTGATCGATGTACCGCTGGAA -CCTCGCGCCTACCCACAAGGGTTGTGTAAATCCCACTGGGGACTAAACGAAGTTCCTTGTGTGGAGAGTT -ATAAAGGGCTAATTTTTGGCAACTGGGATACCAGCGCACCGGGCCTGCGTGATTACCTGGGTGACATTGC -CTGGTATCTGGATGGCATGCTGGATCGTCGCGAAGGCGGCACCGAAATTGTCGGCGGCGTACAAAAGTGG -GTGATCAACTGTAACTGGAAATTCCCGGCAGAGCAGTTCGCCAGTGACCAGTATCATGCTCTGTTCAGCC -ATGCTTCTGCCGTTCAGGTATTAGGGGCGAAAGATGATGGCAGCGATAAGCGCCTCGGTGATGGACAAAC -CGCCCGCCCGGTGTGGGAAACCGCCAAAGATGCGCTGCAATTTGGTCAGGACGGTCACGGTAGCGGTTTC -TTCTTTACTGAAAAACCGGATGCTAATGTCTGGGTCGATGGCGCAGTTTCAAGCTATTACCGCGAAACCT -ATGCCGAAGCAGAACAACGTTTAGGTGAAGTTCGCGCCCTGCGCCTGGCGGGTCATAACAATATTTTCCC -CACGCTTTCATGGCTAAACGGCACTGCCACACTCCGCGTCTGGCATCCGCGCGGCCCTGATCAAGTTGAA -GTGTGGGCGTTCTGTATTACTGACAAAGCCGCCTCCGATGAAGTTAAAGCCGCTTTTGAAAACAGCGCCA -CTCGTGCTTTTGGTCCTGCTGGTTTTCTCGAGCAGGATGACTCGGAGAACTGGTGTGAAATCCAGAAATT -GCTTAAAGGCCACCGCGCCCGCAACAGCAAACTGTGTCTGGAAATGGGGCTTGGTCAGGAAAAGCGCCGC -GACGACGGCATTCCTGGCATTACTAACTATATCTTTTCAGAAACTGCCGCTCGTGGAATGTACCAACGCT -GGGCCGATCTTCTGAGTAGCGAAAGCTGGCAGGAAGTGCTCGATAAAACCGCCGCTTACCAGCAGGAGGT -GATGAAATGAGTGCGCAAGTTTCACTAGAGTTACATCACCGCATTAGCCAGTTTCTCTTTCACGAAGCCA -GCTTACTGGACGACTGGAAATTTCGTGACTGGCTGGCGCAGCTCGACGAAGAGATTCGTTACACCATGCG -CACCACAGTTAACGCGCAAACACGCGACCGCCGCAAAGGCGTCCAGCCACCGACAACCTGGATTTTTAAT -GACACCAAAGACCAGCTGGAGCGGCGAATCGCCCGTCTGGAAACGGGCATGGCCTGGGCAGAAGAGCCGC -CGTCACGCACCCGTCACTTAATCAGCAACTGCCAGATAAGCGAAACCGACATCCCAAACGTATTTGCTGT -GCGGGTAAATTATCTGCTTTATCGGGCACAAAAAGAGCGCGATGAAACATTCTATGTTGGAACGCGTTTC -GACAAAGTTCGCCGTCTGGAAGATGACAACTGGCGCTTGCTGGAACGGGATATCGTCCTGGATCAAGCGG -TAATCACTTCCCATAACCTGAGTGTACTGTTCTGATGAATCGAATTTATGCGTGTCCCGTTGCGGATGTG -CCGGAGGGTGAGGCTCTCCGGATCGATACCTCGCCCGTCATCGCCCTGTTCAACGTTGGCGGCGAGTTTT -ATGCCATTAACGATCGTTGCAGCCATGGTAATGCGTCAATGTCAGAAGGGTATCTGGAAGATGACGCCAC -GGTGGAGTGCCCGCTACACGCCGCCAGTTTTTGCCTGAAAACGGGGAAAGCGTTATGCCTGCCCGCCACC -GATCCGCTCACCACTTATCCAGTACACGTTGAAGGTGGTGACATTTTCATCGACTTACCGGAGGCGCAGC -CATGAGCGATCTGCATAACGAGTCCATTTTTATTACCGGCGGCGGATCGGGATTAGGGCTGGCGCTGGTC -GAGCGATTTATCGAAGAAGGCGCGCAGGTTGCCACGCTGGAACTGTCGGCGGCAAAAGTCGCCAGTCTGC -GTCAGCGATTTGGCGAACATATTCTGGCGGTGGAAGGTAACGTGACCTGTTATGCCGATTATCAACGCGC -GGTCGATCAGATCCTGACTCGTTCCGGCAAGCTGGATTGTTTTATCGGCAATGCAGGCATCTGGGATCAC -AATGCCTCACTGGTTAATACTCCCGCAGAGACGCTCGAAACCGGCTTCCACGAGCTGTTTAACGTCAATG -TTCTCGGTTACCTGCTGGGCGCAAAAGCCTGCGCTCCGGCGTTAATCGCCAGTGAAGGCAGCATGATTTT -CACACTGTCAAATGCCGCCTGGTATCCTGGCGGCGGTGGCCCGCTGTACACCGCCAGTAAACATGCCGCA -ACCGGACTTATTCGCCAACTGGCTTATGAACTGGCACCGAAAGTGCGGGTGAATGGCGTCGGCCCGTGTG -GTATGGCCAGCGACCTGCGCGGCCCACAGGCGCTCGGGCAAAGTGAAACCTCGATAATGCAGTCTCTGAC -GCCGGAGAAAATTGCCGCCATTTTACCGCTGCAATTTTTCCCGCAACCGGCGGATTTTACGGGGCCGTAT -GTGATGTTGACATCGCGGCGCAATAATCGCGCATTAAGCGGTGTGATGATCAACGCTGATGCGGGTTTAG -CGATTCGCGGCATTCGCCACGTAGCGGCTGGGCTGGATCTTTAAGGAAGCACGATGAAAGAAAAAACGAT -CATTATTGTCGGTGGCGGGCAAGCGGCGGCAATGGCTGCGGCCTCGCTACGCCAGCAAGGGTTCACCGGT -GAGCTGCATCTGTTTTCCGATGAGCGACATCTTCCTTATGAACGACCTCCACTCTCGAAATCCATGTTGC -TGGAAGATTCCCCGCAGTTACAGCAGGTGTTACCCGCTAACTGGTGGCAGGAAAACAATGTTCATCTGCA -TTCCGGTGTAACCATCAAAACGCTGGGTCGCGACACACGAGAGTTAGTGTTAACCAACGGCGAAAGCTGG -CACTGGGATCAGCTTTTTATAGCAACCGGCGCGGCAGCTCGACCGCTGCCGTTGCTTGATGCACTGGGAG -AACGCTGCTTTACCCTACGCCATGCCGGTGATGCCGCCAGACTGCGAGAAGTTCTGCAGCCCGAACGGTC -AGTCGTGATTATCGGTGCCGGAACTATTGGTCTGGAACTGGCTGCCAGCGCCACGCAGCGCAGATGTAAG -GTGACAGTGATTGAACTGGCGGCAACCGTCATGGGCCGTAATGCACCACCGCCCGTGCAACGCTATCTTT -TACAGCGCCACCAGCAGGCTGGTGTGCGCATTCTGCTCAATAATGCCATTGAACATGTGGTCGATGGTGA -AAAAGTAGAACTGACGCTGCAAAGTGGGGAAACGCTTCAGGCTGATGTGGTGATTTACGGTATTGGTATC -AGCGCCAACGAGCAACTGGCTCGCGAGGCCAACCTTGATACTGCCAATGGCATTGTCATTGATGAGGCTT -GCCGCACCTGCGATCCCGCGATCTTTGCCGGTGGCGATGTGGCAATCACTCGTCTTGATAATGGTGCACT -ACACCGCTGCGAAAGCTGGGAAAACGCCAATAACCAGGCGCAAATTGCCGCTGCCGCAATGTTAGGGCTA -CCGCTACCGCTACTGCCGCCGCCGTGGTTCTGGAGCGATCAGTACAGTGATAACTTACAGTTTATTGGCG -ATATGCGTGGCGATGACTGGCTTTGTCGTGGCAACCCGGAAACTCAGAAGGCGATTTGGTTTAATCTGCA -AAACGGCGTGCTTATCGGTGCGGTCACGCTGAATCAGGGGCGTGAGATTCGCCCAATTCGCAAATGGATC -CAGAGCGGCAAAACGTTTGATGCGAAACTGCTGATAGATGAGAACATCGCGCTTAAATCACTGTAACCAG -GATAATTAGCGAATATCTCAATGCCTGGGGCGTGGCGAGGTGCAAGAGTGTGTATTACGTTTAAATCACA -TTATCTTGCAAAGGGATTGGTTATGAACACACTACGTTATTTTGATTTTGGAGCTGCCCGCCCCGTTTTG -TTATTAATTGCCCGTATCGCCGTGGTCTTAATTTTCATTATTTTTGGTTTTCCCAAAATGATGGGCTTTG -ACGGTACGGTCCAATATATGGCCTCGTTGGGCGCGCCAATGCCGATGCTGGCAGCGATTATTGCGGTAGT -TATGGAAGTGCCCGCCGCGATATTAATCGTGCTTGGCTTTTTCACCCGTCCGCTGGCGGTGCTGTTTATT -TTCTACACGCTGGGTACGGCGGTGATTGGTCACCATTACTGGGATATGACCGGCGATGCGGTTGGGCCAA -ATATGATTAATTTCTGGAAGAATGTCAGTATCGCTGGCGCGTTCTTGCTATTGGCAATTACCGGGCCGGG -GGCAATTTCTCTCGATCGGCGTTAGGAAAGATGCCGGATGCGGCGTGAACGCCTTATCCGGCATTTAATA -AATTACAGCCACTCTACCCGCAACGACATCTCTGAAGTTGTTGATTCCCCTGGTGCTAGCGCAATGAGAT -CACCCCCTTCCGGGCGATGATGATCATCCGGCGCATGGCTCATCGGTTCCAGACAGAAGAAATCAAACGC -ATATCCTTTATCAAACGCAGGGTCGGAAACAAAGATGAAATAACACGGTGCAGGTGGCGTCGTTTCCATG -ATGATGGCATAACCTTCCTGCGGCTGCTCGATGCGGGCCTGACCATTCCATCCGGCAAAACCATTGTTCA -CCCACTGGCGCGGCAACGGCGCGGGCTGGTTAAAATCCAGTTCCTGCGGTAGCTGCTCGCAAAACTCACC -CGCCAGCCACTGCTCCCGCTCCAGCCAGTAACCGCTCGCCTGTGCCTGAATCCGCGTTTGCGGCGACAAC -GGAAAATAAGGATGCCAGCCGGTACCAAATGGCAGCGTCTCTGCCCCTTGATTGGTGACAGAGAGCGTCA -CCGTCAGCGTATCCGCCGTTAAATGAAACGCCTGACTTACCCGATAGTGATAGACACCGCTGCGATGTTC -ATACACCAGACACAAACTATCATCGCTGTGCGAGACACATTGCCACTCGCCCAGCCAGCCATCGCCGTGT -AGATAGTGCGCATCCCACTCAACATTCGGTTGCAGTTGATACTCACGCCCCTGCCAGACAAAACGATTGC -CGCTCACCCGGTTTGCAAATGGCACCAGCGGAAAACATGAGGCATCGGTTGCCACACCGCTTTTTTTACC -AGGACGTAAGAGCGGCGTCGTATCGCGCCAGAAGCCTTCGATTACGCCGCCCTGGTCAGAAACGTCCAGC -TTTAGCGACCCGTGGGATAAGGTATAGATGGTCATCCGCTAACTCCTTAATCCGGGAAGTTAATCACAAC -TTTCCCGCATTTGCCGCTCGCCATCAGCGCATAGGCATCACCTGCCTGTTCCAGCGAGAAGCGATGGGTA -ATGGCGTTACGCGGCCACAGCTTCCAGTCCGTCAGATCATGGGCGCATTTTTCCATATGGAACAGACTGG -TCACCCAGGAGCCGATAATCCGCCGTTGATGGTGCATCAGATCGGCGCTGACCTCGAATTCCACTTTTCC -GGTTTCACCAATGTAAACCACCCGTCCCCAGTCAGCGGTGGATTGCAGTGCCAGCAAGCGACCTGCGGCA -TTACCGGAACAATCGAGCGCAACATCCGCGCCACCGTGGGTGAGTTCGGCGATAATCTGCGGCAGACCTT -CGGTGGTTGCTAAATAGCCGTGATCCATCACCCCTAACTGTTTTGCCATCGCCAGACGTTCCGGCAGCAT -ATCAACGCCGATGATCCGTTTTGCACCGCGACCTTTCGCCAGCATCATCGCCATCATGCCGACTGGCCCC -AGACCGACCACCAGCACGTTATCACTGCCGGAAACTTCGCCGCGCAAAATTCCTTCATACGCTGTACCAA -CGCCGCAACTGATAAACGCACCATCTTCGTAGCTCAGCGCATCCGGCAGGAGGATCAGATCTTTTTCTTC -CGCCAGCAAGTATTCGGCATGACCGCCGTCACGCTGCCAGCCGTAAGCCGCTTTTCCTTCGCCAGTACAA -GAAATAGGAAAACCGCGACGGCAGTTCGGGCAAAAACCACAGCCAGAAATGTGATACACCAGCACGCGGT -CGCCCTCTTTAAAATGGCGGCAGCCTTGCCCCATCGCCACAATCTGCCCGCACGGTTCATGACCGTTGAT -AAAGCCCTGGTATAACGGTTTATCGGGTGCCGCCGCTGTGGCACGGTGTTGATGATAGATATAGTGGACA -TCGCTTCCGCAAATCCCGGAGGATTTCATTTTGATCAGTACCTGGTTAATCCCCGGCGTCGGCACCGCAA -CTTCCCGCAGATCGACGGTCGAATTTCCTGGTAAATAAGCTGCCAGCATCGTTTTCATAAATCCCTCATT -AACAATACGATTAATTTTCATCCCTGCCGCACCCGCGCCAGGGGCGTTAAGGTTTAGCGTTTCGCTTTAC -TGCTTCGCTGGGTCAGCAAGATATTCGCCAGCACCGCCACCACGATGATGACGCCGCGTACCACCTGCTG -GAAAAAGGAGTTAATACCGAGCAGCACCAGACCGTTACCGATTAGCGTAATCACCAGCACACCAAGCAAT -GTACCGAACAGGGAACCGCGACCGCCGGAAAGTGCCGTACCGCCGACCACGACCGCGGCGATGACGTCAA -ACTCCAGACCGTTTGCGGCACCTGCGTTACCAGAACCGAGGCGCGCCGCCAACAAAATGCCGGTCACCGC -CGCTAATAATCCCGAAAGGGTAAAGATAAGAATGCGCACCCGACGAACGTTGATGCCGCACAACTGCGCC -GCCGTAGCATTACCGCCAACGGCAAAAACCGAGCGCCCGAAGGCGGTTTTGCGGCTGATGAACACAAACA -GCGCAAACAACACAATCATGATCAGCGCGGATACCGGCACACCGAGAAATTGTCCGCCCAGCCAGTCCAG -CACCTCGTTTTCATCAATCGGCACTGGCAGTGCGTTCGTCATAAACAGCCCCATTCCGCGCAGGGCGCTC -CACAGCCCCAGTGTGGCAACGAAACTTGGTACATTAAACACGCCGCGCAGCACCCCGGCCAGCGTTCCCA -TCAGCGCGCCTAACAGCAACACCAGCAGGCACGCCACCGCCAGCGGAACTTCAAATTGCAGCAAAAATGC -CAGGCACACCGAGACAAAAGCCACCATCGGCCCAACGCTGACATCAATTTCACCGGAGATAATAATCAGC -GTCATCGCCCAGGCGGCAATCCCAATGGTGGCGGCATCGCGCAGCACGTTCATCTGGTTATTCAATGAGA -TAAAGCCAGGCGCGTTCAGGGAGAAGACCAGATAAAGAATGGCAATCACCACCAGCAAACCGATCTCATT -AATATGGCGACTGACAAATTGTTTGAGCGAGACGCTCTTGCCCTGCGGCAATGGTAATGACGAAGCAGAC -ATCTTCAGGTTCCTCGGTAAAATTCATCAGTGCACAGACAGAATGGCGGACATCAGCTCATCCACATTGA -CCGGAGCGTGAAACTCCTGCGAGAACGTGCCGTGCTGTAATAACAGGATGCGGTCACACACCAGCGGCAA -CTCCTCCACTTCACTGGAGATAAACACCACGCTTTTTCCTTCGGCAGCCAGCTCACGGACAATACGGTAA -ATCTGCTGTTTGGCTTCGATATCGACGCCGCGCGTTGGCTCGTCGAGCAACAAAATCTGGCTGGCAGCAT -AGACCCAACGACCGATCACCACTTTTTGCTGATTGCCACCAGAAAGCGTGCCGATGGGTGTTTCGCTACT -GGCGGCCTTGACCGTCATCCGCTGCATCACCTCTTCGGTCAGGCGGCGGATGGTGGACCATTGCAGCACA -CCGTTGGCGCTGATTTTTTGCCGATTGGTCAGCACTGTATTTTCGTCAACGCCCAACCAGGGAATGATCC -CCGCTTCTTTGCGGTTTTCTGGCGTATAGCCAATGCCGCGTTTCAGCATGTCGCCGTAATCGGGGCGCGT -GATTTTCTCGCCGTTGATAACAATTTCGCCCTGTTCATACTCCTCCAGCCCAACAATCGCCTTCAGCAAT -TCACTGCGCCCTGCCCCCAGCAGACCAGCAATGCCGAGCACTTCGCCACGACGTAGCGTAAAACTGATAT -CCTCCAGCTTGGGCTTATGGCGTAACGCACGGACTTCCAGCACGGCCTGATCCACAATTTCCTGAGGGGC -TACCGGCGCAATATCAACGTGATCGCGCCCGAGCATCAGCGACACAATATGATGCGTGGAGGTGTTTTCG -AGCATCACATCGCCCGCCACCTGACCATCGCGCATAACGGTGGCACAGGAGGCAATGCGGCGAATTTCTT -CCATCCGGTGGCTGACATAAATCACCGCCACGCCCAGTGCCGACATCTTTTTCACCGCGCTGATCACCAG -TTCAACTTCCGCACTCGCAAGCGAACTGGTAGGTTCATCAAGAATGACCACGCGCGGCTCGCCCTTCATC -ACCCGCGCAATTTCCACCAGCTGCTTTTGCGCCGGGCTTAGCGTTGAAACAAGTTGTTCAGGACTAACGT -CAACGCCCAGCGCCTGTAAGCAACGTTGGGCATCCTGCGCCATTTGCAGGTAATCAATCATGCCGTTGCG -GCGGGGCCACTGACCGAGGCAGAGGTTTTCCGCCACTGTCAGCCCTTCCACCAGACTTAACTCCTGATAA -ACCGCGCGCACCCCCAGTTCAGCGGCACGGCGAGTCAGCGTAGCTTCGTCACCTTCCAGTCGCGTCTCGC -CAATCCAGATATCACCGCTATCCGGGCGTTCGCTGCCGGTAAGCATTCGAATGAGAGTCGATTTGCCCGC -GCCGTTTTTACCTAACAGCGCACGAACTTCGCCTTTATTGAGCGTGAAGTTAACGTTATCCAGCGCAACG -ACGCCGGGATAACGCTTATTTCCTGCCACCACTTTTGCTACCGGGACTGCCTCTGTTGCCGTGAACATAG -GGACCTCTGCGAATCAGCGATTAGGGCAGACCATCAACGTGCGTTGCCAGCCACTGTTTACCGTCTTCCG -TTTTGGTATAGAGATCGATAGGCACCTGAATCACTTTTTCACCGTCGGCTTGTTTATTGATAACCTTCAA -TGTTTGCGCGAAAACAGCATTGCCCATTTTCTTACCGGAAATATCCACTACCGCTTTCAGCACCTGATTG -TTTTCCAGCTCCTGAGCAATTTCGGTTGTCATATCCGAACCGAAAACAGCAATTTTTCCGGCCTGATTTT -GATTACGTACCGCTTTTACCGCGCCGAGTGTCGCACCGCCCGATTCCCCCATAATGGCGTTGAGATCCGG -CGTGGAGATAATTAGTTTTTCACCAACGGAAATCGCTTTATCTAAAACAGTCCCTTCCTGATTAGCGACA -ATTTGCGCGCCGGGAACGCGGGATTTTAAAACTTCTTCAAATCCTTTACGTCGCTGCACACAAACTTCAA -AGGCTTCGCAATTGATGACGGCAATTTTCGGCTGGTCAATTTTATTGGCAATAAAATAATCAGCGGCAGC -GTTACCCAGTTTTTTACCAAATTCCAGCGGATCGCCGACCAGATACGCCGAGACATATTTATCGACCCCC -TTTTGATTAATACAGGTGTTGTAGCAAATCACCGGAATGCCCGCTTCACTGGCGCGACGAACGGTACGGC -TACTGCCATTTTCAGACACTGCCGATAAAATAATGGCATCGACATTACGCGCCACGAGGGTATCAACAAA -GGTACTTTCTTTCGAAATATCACCCTGGGCGTTAGTTTCTATTAACTGAACTTGTACTGAGGAATCTTTT -GCCGCATCCTGAACGCCCTGACGCACTCCAGCGTAGTATCCCTGAGTATCAAGGTATATTGCGCCAATGG -TCATTTCTTTTTCCGCAGCCCTGGCAAATAGTGCGCTACCTAATAGCGTAGCCATTAATAATAGATTACG -GGTTGTTCTCATTTTTGTAGGCATAGAGCCTCCTGTAGGGTTTTTATTAACAACGGCTTATTCTAATTAT -TTTGTGATGAGCGGCAGCGCGTGCCGCTCAAATATTACAGTTAATAGGGTTTAGTGAACGCGGTTAAAAA -TAAAAGGCATCACGGTGGTGAATAATGCCGCTTTCGGCCAAGCCGGATTAATCGCCGTCAATTCAGCGCG -AGCAGACTCATATTGCGCAACCTCCCCGAGTCCCGCGGACGCCAGCATCGCCACCATCAGGCATTTTTCT -TTATGCTGCTGTTGTAAATCGCCATACAGCGACAACAAGTCAGGTTGCGAGACGGCAAAGAAATCCGCTT -CGATACTGGTTTTCGCCATCTCTTGCGCCCACTGTTTCATTTCACTAAACAGTTGCTGTGCGGTTTGTTG -TTCGCCCAGCAGTCGCAGCGCCATCCCTTGCCAGAAGAGATAATCAACCGGCTGATCGTTGTAATAACTG -TGAATGTTAATAGTGCGATCGCCGGTCGCCGCCAGACGTAAACAACGCGTCGCTTCAGTTTCATCGCCCT -GCGCGTTGGCGCATATCGCCTGCCAGAACCAGATGTCGTTATCAGTTTGCCCCGGTAAACGGCCTTCGCT -TAAATTCTCCGGATAATGCAGCGCGGCATGAAGCAGTTCGCAGGCCTGCTGCGGCTGTCTGGCATCAAGA -TGCTGCCAGGCGCGTAATAACTGGTTGAGGATAAACTGACTGGTGACCTTCCCTTCCCCGCCTTCCCACG -GGTGGAATTTGCGCGTGGCGAGAATGTCCGCCGCTTTGTCTGCCTGACCCGTGAGATGCCACAAATTGAG -CAGTTCTGCGGTCATGTCGTCGCGTTTCAGCGCAATTTCCAGATTATTTTCCAGACGCGCCAGTCGTTTC -TCCGGTGTGGCTCCACTTAACTTATCCAGCAAATCCCGTTCGAAAAGCAGACGTGCATCCTGCGGCGCAA -GCTGATAAGCATTATCAAGATAACGCGCGGCCAGCTCATAATCGTGTTGCTTATTCCACGCATGGATCGC -TAACCCGCGCCAGCCGTCGGCAAACTCCGGCGACATCTCTACGCAACGTTGCCAAAAGGCAATGGCTTTG -TTGTAGCTACGTTTGTTGTAGTAGAAGCAAGCTAGTAAATGGCGAGCAAACCAGCACTCTTCAATACTCT -CCAGCGCCGCCACTTCTTCCAGCGTATTCGGGAAACGGACAAACTGCGGGAAGACATCAATGGCTTTTGC -GACCAGTTCGCCACGTTCGGCTTTCGGCAGCAAGCTGGCTTGCAGGTAAAGCGGCAGCGTGCGCTGGCAG -TCCAGTGCGTTCAGCATCTCTGCCGCCAGGGTGGGCATTCCCCAGTTAATCAGTTGCCCGGCGGTCATCA -GGGCGTTAACGTCGCGTCCCTGACACAGACCGCGCCACTGCGCGAGAGCTGATTCGCTACGACCATCGAA -CCAGTTCAGCCACCACAGAGTGGCGTTCAGCGGATAATCGCGCAGCAGTTTCTCGCGCTGCACACGCGCG -TTGTCCTGACGACCACTTAACACCAGCAGCAGATTATGCAGGCAAAGCACTTCCTGATTGGTTGGGCAGG -CGCGAAGACTTTGTTGGCAAAAATCCAGACCAGCGTCGAAGTTACCATTACGCGCCGCCAGTCGTGCCAG -GCCATAATAGCCACCGGCTTTGCTGTTGCCGCTCCAGACCGCACGCCAGAAATCCTCTTCGGCTTGTTGA -TATTGTCCCTGACGTTCGTAAGCACTGGCGCGAATCAAACTCGCCTGTCCGCACTGCGGATTTTTGTTCA -GCGCATGTGCGCGTTTCAGAGCCTGAGTGGCATACGCCACCGCTTGCGGGAAATCTGCGCGGTTATATTC -CAGCATCGCCAGCGCCAGGTTACAGCGATAATCCAGCGGGTCCAGCGCCACGCCGCGCAGGTAGTAATCG -AACGGTGAACGGCTGGCGTGATGATATTGCTCCAGATGCTGACCGATAAACCAGGCTTCATCTGTACTGG -TAATGTCTTGTGCTGCCAGTGGCGCTTTGGCGACGTCCGGTAACGGCAACGCTTGCGGCTGATGTTCCTG -ATAACTCAGTACAATATTGCCGTCGGCATCGGAGAGCTCAATGGTCAGCCTTTCAGGATTGATACCGTGC -AACACGCCCTGGATGGCGGTCGCAGGCATCAGTGCCACGGCATCATCAAGTAACGCGTTGCATTTACCGA -TTTCGCGGATCGCCAGGCGGTATCCGTTCAACGGAGAGATGGCATACAGCCCCCACTCAATCCCCCGCTT -ACTACGCTGGAGTTTTATCACCGCATCGCGGGAGGCATTTTGCACCATGCCCAAAGAATGATAAGGCAGG -AAATACTGCTCAAAACGCTTCTCTTCGTAAGCATCAAGCCAGGTAAAATCGGGCTGGTTATCGGCAAAAA -TACCGGTCATCAGTTCGATATACGGGCCGTTATTGTCGGTCAGACTCTTATCCCACGCCTGGCCAAATTC -ACTGTGTCCCCAACTCCACTGTTTTTTACCTGGCGCAATATGGTGGTTGGCAACGTGCAGCAAACCGCCA -TCTTCATCGTGACACCACGCGCCGACAAAATCGTACTGCGATTTTTCGGCCATATATGAGGTTGGAACAG -GCACATTTTTATAGCGAGAAATGTCCACTCCAGCGGAGTAGTCCACTTTGTAGTAAGTGCCGGTAGCGAT -GGGGAAAGCGGAGACGGCCCGTTTGCCGTGATCAAACACCGCCGTTACATCCGGCGGGAAGACGCTCTGA -TGCCCTTCCCCCCCTTTCACTGCCGGGTTGGCCCACCACAAGAAATGACGCGGCGTGGCGTTCCCGTTAT -AGACGCGGCTGGCGATTTCCAGCGCCGCCCGGTCAGGGCGCAGGGTGAAACCTGTCATCACCTGTAAACC -ATGCATCGGCTCCGTTTCGCCTACCCACACCGTCTGTGCACCGTCTTCATGGGCTTCGAGGGTGAAATCA -ACGGGCATAAAGGTGGTCGGGCGATGATGTTGCGGCCAGTTAAACTCAATCCCACCGGAAATCCACGGCC -CCAGCAGCCCCACCAGCGCAGGTTTAATGACTTCATTGTGATAAACAAAATCGCGCTGTTTCACTTTATC -CCACGCGCGATGCACCCGACCGCCCAGTTCCGGCAGGATCATCACTTTGATGTAGTCGTTTTCCAGCCAC -ACCGCCTGCCAGGATTTCAGGGTTTTCTGCTCGCTCAGCGTATCGGTCACGCCGTAGGGATAAACCGCGC -CGGACGATCCCTGATAAACGCGATTTTCCAGGAACATGGGATGTATATCCTGCGGCCCGGTTTCATAGGT -CGGGATCTCAACGCGCTCTTGCCACACTTTTACTGGAGTCATGGTGCCCTCAATATTAACAAGACATACT -GAATTAAAAGATTTGTGGCAGTGTATTGAACAATCTGGCAATGTTTTCGCGGAATAATCACGCAATTAAC -TAAACAAGGTTTAGTGAAGATGAGAGCCTGCATTAATAATCAACAGATTCGCCACCATAACAAATGCGTG -ATTCTGGAACTGCTGTACCGGCAAAAGCGCGCCAATAAATCAACGCTGGCCCGGCTGGCGCAAATTTCGA -TTCCGGCAGTCAGTAATATTTTGCAGGAACTGGAAAGCGAAAAACGGGTGGTGAATATTGACGATGAAAG -CCAGACGCGCGGGCATAGTAGCGGTACATGGCTGATTGCGCCGGAAGGTGACTGGACGCTGTGCCTGAAC -GTGACGCCCACCAGTATTGAGTGTCAGGTTGCTAATGCTTGTTTAAGTCCGAAAGGTGAATTTGAGTATT -TACAGATTGATGCACCGACGCCGCAGGCGCTGCTGTCCGAAATCGAAAAATGCTGGCATCGCCACCGTAA -ATTGTGGCCGGACCATACCATCAACCTGGCGTTGGCAATCCACGGTCAGGTTGATCCTGTGACCGGCGTG -TCGCAAACCATGCCGCAAGCGCCGTGGACAACGCCGGTGGAGGTGAAATATCTGCTGGAAGAGAAGCTCG -GCATTCGGGTGATGGTCGATAATGACTGCGTGATGCTGGCGCTGGCGGAGAAATGGCAAAATAATTCGCA -GGAACGGGATTTCTGCGTGATCAACGTTGATTACGGCATTGGCTCGTCGTTCGTGATTAACGAGCAAATT -TATCGCGGCAGTTTGTATGGTAGCGGACAGATTGGTCACACCATCGTTAATCCGGATGGCGTCGTCTGCG -ACTGTGGACGTTATGGCTGCCTGGAAACTGTCGCCTCGTTAAGCGCATTAAAAAAACAGGCGCGGGTATG -GCTAAAATCACAACCGGTTAGTACTCAACTTGATCCTGAAAAACTGACTACAGCGCAGTTAATCGCTGCC -TGGCAAAGTGGAGAACCGTGGATCACCAGCTGGGTTGATCGCTCTGCCAATGCCATTGGTTTGAGTCTGT -ATAACTTCCTCAACATCCTCAATATTAATCAGATTTGGTTGTACGGTCGCAGTTGTGCCTTTGGTGAGAA -CTGGCTTAATACTATTATTCGCCAGACAGGATTTAACCCGTTCGACCGCGACGAAGGACCGAGCGTGAAA -GCGACGCAAATTGGCTTTGGGCAATTAAGCCGCGCACAACAGGTGCTGGGAATTGGCTATTTGTATGTTG -AGGCGCAGTTACGACAGATTTGATGGCGCGATAACGTAGAAAGGCTTCCCGAAGGAAGCCTTGATGATCA -TAAACGAAAAATTGCCTGATGCGCTACGCTTATCAGGCCTACACGGAGATTGCAATATATTGAATTTGCA -AAGTTTTGTAGGCCGGATAAGGCGTTCACGCCGCATCCGGCATGAACAACGAGCACATTGACAGCAAATC -ACCGTTTCGCTTATGCGTAAACCGGGTAACGTGCGCAGATGTCGAGAACTTTACCTTTGATGCGCTCGAT -AACGGCTTCATCATTGATGCTGTCCAGCACGTCACACATCCAGCCAGCCAGTTCTTTCGCTTCGGCTTCT -TTAAAGCCGCGACGGGTAATCGCCGGAGTACCTACACGAATACCGGAGGTCACAAACGGGCTCTTCGGAT -CGTTCGGTACGCTGTTTTTGTTGACGGTGATGTTAGCACGGCCCAGAGCGGCGTCTGCTTCTTTACCGGT -CAGGTTTTTATCAACCAGATCAACCAGGAACAGGTGGTTATCAGTGCCGCCGGAAACCACTTTGTAGCCG -CGCTCGAGGAACACTTCTACCATCGCTTTAGCGTTTTTAGCGACCTGCTGCTGGTAAGTTTTGAACTCAG -GCTCCATCGCTTCTTTCAGAGCAACCGCTTTACCGGCGATTACGTGCATCAACGGACCGCCCTGACCACC -AGGGAAAACGGCAGAGTTCAGTTTTTTGTACAGCTCTTCGCTACCACCTTTCGCCAGGATCAGGCCGCCG -CGCGGACCCGCCAGGGTTTTGTGAGTGGTGGTAGTAACAACGTGAGCATGAGGAACCGGGTTCGGGTAGA -CGCCAGCAGCAACCAGGCCCGCAACGTGCGCCATATCAACGAACAGGTAAGCACCGATGCTGTCAGCGAT -TTCACGCATTTTCGCCCAGTCCACCACGCCGGAATATGCAGAGAAACCACCGATAATCATTTTCGGCTTG -TGTTCTTTGGCTTGTTTTTCCAGATCGGCGTAGTCGATATGACCGGTAGCATCGATACCGTAAGGAACGA -TGTTGTACAGTTTACCGGAGAAGTTAACCGGAGAACCGTGAGTCAGGTGACCGCCATGCGCCAGGTTCAT -ACCCAGAACGGTATCACCTGGTTCCAGCAGCGCGGTGTAGACCGCAAAGTTAGCCTGGGAGCCGGAGTGC -GGCTGGACGTTAGCGTAGTCAGCGCCGAACAGTTCTTTCGCACGATCGATCGCCAGTTGTTCAACGATAT -CAACATACTCGCAACCGCCGTAGTAGCGTTTGCCCGGATAACCTTCAGCATATTTGTTGGTCAGCTGAGA -ACCCTGCGCCTGCATTACGCGCGGGCTGGTGTAGTTTTCGGAGGCGATCAGTTCGATGTGCTCTTCCTGA -CGTACTTTTTCCTGCTCCATAGCCTGCCACAGTTCGGCATCATAATCGGCAATGTTCATTTCACGCTTTA -ACATCCGCATCTCCTGACTCAGCTAACAATAAAATTTTTGGCCTTTATAGGCGGTCCTGTTGGACAACGG -CGAACAGTATAACCGAATCATTGTGCGATAACAGGTCTTGACAAAGGAATTTACGCAAACGATTACCTTC -AGGCTACGCAAGGCTTTGGAGAATAAAGAGCTTGCAACCGGAAACGGATTTCTTTTCAGGTTTGTGATGC -AAATTTTTCACTTCATCACATTCTTTCTGAAAAACACCAAAGAACCATTTACATTGCAGGGCTATTTTTT -ATAAGATGCATTTGAGATACATCAATTAAGATGCAAAAAAAGGAAGACCATATGCTTGACGCTCAAACCA -TCGCTACAGTAAAAGCCACCATCCCTTTACTGGTGGAAACGGGGCCAAAGTTAACCGCCCATTTCTACGA -CCGTATGTTTACTCATAACCCAGAACTCAAAGAAATTTTTAACATGAGTAACCAGCGTAATGGCGATCAA -CGTGAAGCCCTGTTTAACGCTATTGCCGCCTACGCCAGTAATATTGAAAACCTGCCTGCGCTGCTGCCAG -CGGTAGAAAAAATCGCGCAGAAGCACACCAGCTTCCAGATCAAACCGGAACAGTACAACATCGTCGGTGA -ACACCTGTTGGCAACGCTGGACGAAATGTTCAGCCCGGGGCAGGAAGTGCTGGACGCGTGGGGTAAAGCC -TATGGTGTACTGGCTAATGTATTTATCAATCGCGAGGCGGAAATCTATAACGAAAACGCCAGCAAAGCCG -GTGGTTGGGAAGGTACTCGCGATTTCCGCATTGTGGCTAAAACACCGCGCAGCGCGCTTATCACCAGCTT -CGAACTGGAGCCGGTCGACGGTGGCGCAGTGGCAGAATACCGTCCGGGGCAATATCTCGGCGTCTGGCTG -AAGCCGGAAGGTTTCCCACATCAGGAAATTCGTCAGTACTCTTTGACTCGCAAACCGGATGGCAAAGGCT -ATCGTATTGCGGTGAAACGCGAAGAGGGTGGGCAGGTATCCAACTGGTTGCACAATCACGCCAATGTTGG -CGATGTCGTGAAACTGGTCGCTCCGGCAGGTGATTTCTTTATGGCTGTCGCAGATGACACACCAGTGACG -TTAATCTCTGCCGGTGTTGGTCAAACGCCAATGCTGGCAATGCTCGACACGCTGGCAAAAGCAGGCCACA -CAGCACAAGTGAACTGGTTCCATGCGGCAGAAAATGGCGATGTTCACGCCTTTGCCGATGAAGTTAAGGA -ACTGGGGCAGTCACTGCCGCGCTTTACCGCGCACACCTGGTATCGTCAGCCGAGCGAAGCCGATCGCGCT -AAAGGTCAGTTTGATAGCGAAGGTCTGATGGATTTGAGCAAACTGGAAGGTGCGTTCAGCGATCCGACAA -TGCAGTTCTATCTCTGCGGCCCGGTTGGCTTCATGCAGTTTACCGCGAAACAGTTAGTGGATCTGGGCGT -GAAGCAGGAAAACATTCATTACGAATGCTTTGGCCCGCATAAGGTGCTGTAATTTGATGTTGCCGGATGG -AAACATCCGGCAACCCTTGACGCGGTTTAAATTGCCGCGTCGTCCTCTTCACCGGTACGGATGCGAATGA -CCCGTGCCACGTCAAAGACGAAGATTTTACCGTCACCGATTTTGCCGGTTTGCGCCGTGCGAATAATGGT -ATCGACACAGGTATCGACAATGTCGTCCGGTACGACAATCTCAATTTTCACTTTCGGCAGAAAATCCACC -ATATACTCCGCGCCGCGGTACAGCTCGGTATGGCCTTTCTGGCGACCAAAGCCTTTCACTTCGGTCACCG -TCATGCCGGTAATACCGACTTCGGCCAGTGCTTCGCGGACATCGTCCAGCTTGAAGGGTTTTATAATCGC -ATCAATCTTTTTCATGCTATTCCTTGAAAAGGTCGCCTGTCTTTTGATCTGCTAAACGTAACACATAACG -CCAATTCATTCCTTGAAATCGTTTGCATCCAGCTCGTGTCGGGAAAGCAGTTTATAAAATTCTGTCCGGT -TGCGCCCCGCCATTCTCGCCGCGTGGGTGACGTTGCCTTTGGTGATTTGCAGCAGCTTACGCAAATAGTT -GAGTTCAAACTGATTACGTGCCTCAACAAAGGTTGGCAGCGCCGTATTTTCACCCTCCAGCGCCTGCTCC -ACCAGCGCATCACTAATCACCGGAGATGAGGTCAGCGCCACGCACTGTTCAATCACGTTGACCAACTGGC -GCACATTACCCGGCCAGCTCGCGGTCATCAGGCGTTTCATCGCATCGGTAGAGAACGCGCGGACAAACGG -TTTATGTCGCTCTGCCGCCTGGCGCAACAGGTGATTTGCCAGTAGCGGAATGTCTTCTGTGCGCTCCGCC -AGTGCCGGAATTTTCAGGCTGACAACGTTGAGGCGGTAATAGAGATCTTCGCGGAATTCCCCGCGCGCCA -TCGCTTTTGGCAGATCACGGTGAGTGGCAGAAATAATCCGCACATTGATATCAATATCGCGGTTACTGCC -CAGCGGGCGCACTTTACGCTCCTGCAACACGCGCAGCAGTTTGACCTGTAACGGCGCAGGCATATCGCCA -ATTTCATCGAGAAATAGCGTTCCGCCTTCCGCCGCCTGGAATAAACCTTCGCGATTGCTGACAGCGCCAG -TAAACGCGCCACGCGCATGACCAAACAGCTCCGACTCCAGCAATTGCTCGGGCAATGCGCCACAGTTAAT -AGCAATAAATGGTTTGCTGTTGCGCGGGCTGGCGTTGTGGATAGCCTGGGCGAAAATCTCTTTCCCGGTG -CCGCTCTGACCGTTAATCAAAACGCTGACGTCTGATTGCGCCACCAGCCGCGCCTGTTCCAGCAAACGCA -GCATCAGCGGGCTGCGGGTGACAATTGCCTCGCGCCAGCGTTCATCGGTGGCTGGCGCGGATTGCTCCAG -CGCATCGTCAATTGCCTGATATAGCGCGTCTTTGTCGACAGGCTTGGTGAGGAAACTAAAAACGCCCTGC -TGTGTTGCAGCAACGGCATCGGGAATAGAACCATGCGCGGTAAGAATAATTACCGGCATTCCCGGCTGCA -CTTTCTGGATTTCAGCAAACAGCTGCATACCGTCCATTTCATCCATCCGCAGGTCGCTGATGACTAAATC -TACTTTTTCGCGATTCAGTACCCGTAATCCTTCAGCGCCACTTTCCGCCGTGACCACACTGTAGCCTTCG -CTGGTCAGGCGCAGGCCAAGCAGTTTCAGCAATCCCGGATCGTCATCGACCAATAATAAATGCGCAGGTT -TATGGCTCATCAGGAGTGACCTCATGGGTGGATGGCGCGGGCTTTTCACTCTCGTGCGGCGTATCCGGCG -AGAAATTTCCAGCCGGTTTGCGGGTCGAGAGCTGGCGTTCAATATCGGTCAGGTTTTCCAGCTTGCGGGT -GGTGAGTTCCAGTTGCTGCTGTAGAACGTGATGTTGCTGGCGCAATGTATCCAGCTCGCTGTCGCTGGAC -TGCTGGAGTTTACTGTAACGTTGGCGCTCTTCCGCCAGTTGCAGTTGCAGCGCCTGACCATCGCGCCAGA -GTTGATACAGTGGGCGAACCTGTGCCGGGATCTCGGTACTTAACGCTTCAATACGCGCGACCAGCTGGCG -GCGCTCATACGGCGTAATTTTGGCGTCGGCGAGCAAAATCCCTTGTTTAAAGGTATTTTGCCAGCTGCCG -TCGTCATATTGGCGAGCTTGCTGACGCGACTGCGCAGGCATTAAACGATCAGCACAATCCATCGCCCGCA -GCCAGTAAAGCGGATTGGTTTCGGTTGATTTACCTTGCAGCGCCCAGATGTCGCTACATTCAGTAGAAAG -ATAGTCAGCCAGTTGATAAACCGGAATTTTTTCTTCTGCTGGCGTATCAATGGCTGGCTTATTGTGATTC -TGCACGCAACCCAGCAATGCCAGACATGGCAGCCCTGCCAGCCACAGCCGTCGGGGCAATAATCGTTGAA -AAATGTGTCGCATATTCACCAGACTTAAAGCCTATCCCAGTGGGCGTAATTGTTGCAGACAGTCTGGACA -TGGACAGCGCGGAGAAACCGGAGCGTACATATCGTACGTGAAGATTTCGAGCACTGCCCGGGGCCGAACT -GACAAATAAAATAGCCTGATAGGATAGGCTGTTAGCATTATTTCGTGTTTTTCGACGACGGTAATTCAAT -GCGGAAACAAACGTCTTGCCCGCTCTCGTCGACCAGATACAGTTCCCCTTGCATACGGCGAATACAATCC -CTGGCAATGCTTAATCCCAGACCGCTGCCCTTCACCGCCCCTTTTCGCTGGTGGCTTCCCTGAAAAAAGG -GTTCGAAGATCATGGCGCGTTCCTCTTGCGGAATGGGCGTGCCTGTATTGATGACATCAATATAAACCCG -CGCACCATGTAAACTGCTGCGAAGGCAAATGTTACCGGATTCAGCCCCGTAGTGCACCGCATTGGAGTAA -AGATTATCCAGTACGCTCATCAGCAGCATTGGCTCCGCCAGGCAAGCTGTTGCTTTGAGATCGACGTCGG -TATGCATCATTTTAGCCCGTGCGGGCAGGCTATGAGCAGAAACCACTGTCTCCACCAGCGGTGCTAACTC -AACATTCTCCAGTTCCACCGCACTGTCCGCCTGTTTACGGTTGTAATCAAGCAGTTGTTCGATCAGTTTT -TGCAAATTGCGGCTGCTGCTATCAAGAATGCTCACCACCTCTTTTTGCTCTGGCGTAAGCGGCCCGACAA -CCTGGTCAGCCAGTAATTCAGTGCCCTCGCGCATACTCGCCAGTGGCGTTTTTAATTCATGAGATAAATG -TCTTAAAAATTGATGGCGTTGGGATTCCAGCCATGACAGGCGCTCACTTAACCAAAGAATACGTTGCCCA -ACCGAGCGTAACTCGCTCGGTCCACTGAACGAGACGCTATTGCCCAGAGAACGCCCTTCCCCCAGACGGT -TGATCATGCGCTCGATATTTTTCACCGGCCCGATAATCATCCGCGTGAAAAGCAGTACCATTACCAGACT -CACCAGAAATAGCACCAGCGATTGCCAACCAAAATATTGCCCACGTTCGGCGATTTCACGCTGAAGCTGC -TGCCCACGAGAGAACACCACTGTGCGCGTGGCCTGTACCATTTCGGTATTGGCACTGGCAAAGGCTTCAA -GACGTGCGGCGGCGGCAGCATCGGGACCGCTGTTGTTACACTGAAGTTGAGCCAGATTGTGCAAATCCTG -ACGTAATGCCTGGTAGAGTTTATCGTCCGGCAGCACGCCTGCGTGGGCATCGAGCATTTCGCTGTAACGC -TTGCGCTGGCTTTGATAAACCTTCGCCAGGGTTGGGTCGTCCAGCACGCAATACTGACGGTAACTACGCT -CCATCTCCAGCGCCGCGTTGGTCATCGCTTCACTGCGCCGGGCATCAATAAGCGTAGTGCGGTTAACCAG -CGCCGCCTGATCGCTAAGCGCATTCAGGCTTTGCCAGGCTTGCCATGCCAGCACCAACAGGGGCAGCAGA -ATCAGCAAAAATGCCAGCATTACCAGTTGTCGTAATGAGCGGGGAAAAACGGGCCAGCGTTTCAAGGTGT -TACTCTCGTCAGACGCGAATAGCCTGATGCTAACCGAGGGGAAGTTCAGATACAACAAAGCCGGGAATTA -CCCGGCTTTGTTATGGAATAAGGCGGTGCCTAACTCGACGTTTCGCCCGATGGTTGATATAGCTACGCTG -ATATCAGAAGTTGGACGGCAGGCACCTTGTTGTGCGTCATTCGTATTTTATGTAGCACGTCCCGAAGGGG -CTGACATAAGTCGGTGAATGAGCCACTGGTTACTATTATGCAGTAACTGTGCCAATAAAGAAAATAGTTT -GGTAACGTACTGATTATACGTTGCTTTGAGGGGTTTATGTCTCCTCCGCTGTTTGAATGTAAATCAGCCA -CTGTGTCGCTAAAAAGAGACAACTTAAGATAAACTTATTAGATAATATTAAAATCAATGAGTTAAGTGTC -GCCAGAAAGCGACACGGCAAACCACCCATTGTCGTGATTTACAGACACAAAAAAGCTCCCGGAGTTGGGA -GCTTATGATAGTGGTTGGTGCTTAATGCCGCATCCGGGCTGCAAAACCAATGGGCTGACGACTTACCCCA -ACTGCTTACGCGCATTGCGGAAAATGCGCATCCATGGGCCATCCTCGCCCCAGTTTTCCGGATGCCAGGA -GTTGCTGACAGTACGGAAAACACGTTCCGGGTGCGGCATCATAATGGTGACTCGACCACTTTCAGTCGTG -ACTGCCGTAATACCGTTCGGTGAACCGTTCGGGTTAGCCGGGTAGGTTTCAGTGACTTTGCCGAAGTTAT -CGACATAGCGCAGTGCCACCAGCCCTTTGCTTTCCAGTGCCGCCAGATGCGCCGCATCACGCACTTCCAC -GCGCCCTTCACCATGAGAGACAGCAATCGGCATTTGCGAGCCCACCATCCCCTGCAACAGCAGAGACGGG -CTTTGGGTTACTTCAACCAGGCTGAAACGCGCTTCAAAGCGATCGGAGGTATTGCGCACAAAACGTGGCC -ACAACTCACTACCTGGGATCAGTTCACGCAGATTAGACATCATCTGGCAACCGTTACATACCCCCAGCGC -CAGCGTTTGCGGACGGTGGAAGAAGGTTGCAAACTCATCGCGTACACGGTCATTGAACAGGATTGACTTC -GCCCAACCTTCACCGGCACCCAGCACATCACCGTAGGAGAAACCACCGCACGCGACCAGGGCGTGGAAAT -CTTCCAGGCCCGTGCGTCCGGTCAGCAGGTCACTCATATGCACGTCGATAGCATCAAAGCCTGCACGGTG -GAAAGCTGCCGCCATTTCAACATGCGAGTTCACGCCCTGCTCACGCAGTACGGCAACTTTCGGACGTGCG -CCAGTGGCAATATACGGTGCTGCCACATCTTCGTTGATATCGAACGACAGTTTTACATTCAGGCCCGGAT -CGGCGTCGTTAGATTTCGCCTGATGCTCCTGATCGGCACACTCCGGGTTGTCACGCAGGCGCTGCATCTG -CCAGGTAGTTTCTGCCCACCAGACACGCAACGTGGTGCGGCTTTCGCTGAATACAGTCTGCCCGTTGGCG -GTAATCACAAAACGGTCACCGGAAACCGCCTGCCCTACATAATGGACACAATCAGCAAGCCCATGCTGTG -CCAGTACGGACTCGACCGCTTCACGGTCAGCGGCACGAACCTGAATCACCGCACCCAGTTCTTCGTTAAA -CAACGCCGCCAGGCGATCGTCACCCAGAGTGGCGATATCCGCGTCAATGCCACAATGACCAGCAAAGGCC -ATTTCCGCCAGCGTTACCAGCAGGCCGCCATCAGAGCGGTCGTGATACGCCAGCAGCTTACGCTGTGCAA -CCAGCGCCTGAATCGCGTCATAGAAGCCTTTCAGTTGCGCGACATCGCGTACATCTGCCGGTTTGTCGCC -AAGCTGACGATAAACCTGCGCCAGCGCCGTTGCGCCCAGCGCGTTATTGCCTTTGCCCAAATCAATCAGC -AGCAGTGCGTTATCTTCGGTAGAAAGCTGCGGCGTGATGGTGTGACGTACATCTTCCACGCGGGCAAATG -CAGAAATCACCAGCGACAGCGGCGACGTCATTTCGCGCTCTTCGTTACCTTCCTGCCAGCGGGTTTTCAT -CGACATGGAGTCTTTACCCACCGGGATCGTCAGGCCCAGCGCCGGACAAAGCTCTTCGCCCACGGCTTTA -ACGGCTTCATACAGGCCCGCATCTTCACCAGGGTGGCCTGCCGCCGCCATCCAGTTGGCGGAAAGTTTGA -TGCGTTTGATATCGCCAATTTGTGTTGCGGCGATGTTGGTTAACGCTTCACCGACCGCCAGACGGGCAGA -GGCGGCGAAATCCAGCAGCGCAACCGGCGCACGCTCGCCAATCGCCATCGCTTCACCGTAGTAGCTGTCG -AGGCTGGCGGTAGTGACCGCGCAGTTAGCGACCGGCACCTGCCACGGCCCCACCATCTGATCGCGCGCTA -CCATGCCGGTTACGCTGCGGTCGCCAATGGTCACCAGGAAGGTTTTTTCCGCCACAGTCGGCAGATGCAG -CACACGTTTCACCGCGTCTGCAATGGTGATCCCTTCACGGGCCAGCGCGTCGCCTTTCGCTTTCAGCGTT -TGTACATCGCGGGTCATCTTCGGCGTTTTACCAAGCAGGACGTCCAGCGGCAGATCGATCGGCTGATTAT -CAAAATGACGATCGTGCAGAGAAAGATGCAGTTCTTCGGTCGCTTCACCAATCACCGCGTAGGGTGCGCG -CTCACGCTTACACAGTTCGTCAAACAGCGGTAATTGATCGGCAGCAACCGCCAGCACGTAGCGTTCCTGG -GATTCGTTACACCAGATTTCCAGCGGGCTCATGCCCGGTTCGTCGCTTAGAATCTCGCGCAGTTCAAATT -TACCGCCGCGCCCGCCGTCGCTCACCAGTTCCGGCATGGCGTTAGAAAGACCGCCAGCGCCAACGTCGTG -GATAAACAGGATTGGGTTGGCATCACCAAGCTGCCAGCAACGGTCGATCACTTCCTGGCAGCGACGCTCC -ATCTCCGGGTTGTCGCGCTGTACGGAAGCAAAGTCGAGGTCGGCATCAGACTGACCAGACGCCATAGAAG -ACGCTGCACCACCGCCAAGACCGATGTTCATTGCCGGGCCGCCGAGAACGACCAGCTTCGCACCGACGTT -GATCTCGCCTTTTTGTACGTGATCGGCGCGAATGTTGCCGATCCCGCCCGCCAGCATGATCGGTTTGTGA -TAACCGCGCAGCTCTTCGCCGTTGTGGCTGTTCACTTTTTCTTCATAAGTACGGAAGTAGCCGTTCAGTG -CCGGACGACCAAATTCGTTGTTAAACGCCGCGCCGCCCAGCGGGCCTTCGGTCATGATGTCCAGCGCGGT -GACAATGCGCTCAGGCTTACCGAAATCTTCTTCCCACGGCTGTTCGAAGCCAGGAATTCGCAGGTTGGAA -ACGGAGAAACCAACCAGACCCGCTTTCGGCTTTGCGCCGCGCCCGGTGGCACCTTCATCGCGGATTTCAC -CGCCGGAACCGGTCGCCGCGCCCGGCCACGGAGAAATCGCCGTCGGGTGGTTGTGAGTTTCGACTTTCAT -CAGAATATGCGCCGGTTCCTGATGGAAATCGTAGCGGCCCGTTTCGTGGTCAGCAAAGTAGCGGCCCACT -TCAGAACCTTCCATTACGGCGGCGTTATCTTTATAAGCAGAGAGAACGTGATCTGGCGTGGTTTCGAAAG -TATTTTTGATCATCTTGAACAGCGATTTCGGCTGCTGTTCACCATCGATAACCCAGTCGGCGTTAAAAAT -TTTGTGGCGGCAGTGCTCGGAGTTCGCCTGGGCAAACATATACAGTTCGATGTCGTTCGGGTTACGACCA -AGCTTTGTGAAAGCATCCTGCAGATAGTCAATTTCATCTTCCGCCAGAGCCAAGCCAAGACGCAGGTTAG -CGTCGATCAGCGCCTGACGGCCCTGCCCCAGCAAATCAACGCTGGTAACCGGAGTCGGTTGATGGTGGGC -AAACAACTGCTCTGCATCATCTAAAGCAAAAAAGACCGTTTCCATCATGCGGTCGTGCAGTTCAGCGGTA -ACCTGCTGCCATTGTTCATTGGTCAGCGTACCGGCTTCTATATAGTAAGCAACGCCGCGCTCAAGGCGGT -TTACCTGTTGTAGCCCGCAGTTATGGGCAATATCGGTCGCTTTCGAAGACCAGGGAGAGATGGTGCCAGG -ACGCGGGGTCACCAGCAGGAGTTTGCCTTGCGGGGCGTGGCTGGCGAGTGCCGGGCCATATTTCAGCAGG -CGTTCAAGTTGTGCGTGCTCATCATCGTTTAACGGCGCATTGAGGTCAGCAAAATGGACATACTCGGCGT -AAATATTGTGAACCGGGAGCCTGGCAGCCTGAAAACGTGCCAGCAGTTTGTTGATTCGGAATGCCGACAG -TGCAGGCGAACCACGCAGAATTTCCATCATAAGTCTCTCGTCTTCTAAGCTTTCGGTGTACCCAAGGGGG -GGAAACGGGCGTCATTATAAAGAATCTGATGCGCTGACGAAACCGTTTGCGTGGAAATAAAATCACCATC -GTGAATTAGCAACGCGTGCCGCCAATGGCTGTAATAAGTTGCCATCTGGCGCAGGTTTACGCAAAATGCC -GCTCATTTATGAGTAAACCTTTCACTATTATTACGTTTTTTCAAGCTGGGACGCGCACGACACAGAGAAT -TAACTAATTGAAAAAATTAAAGATTAATTATCTGTTCATCGGCATTCTGGCACTGCTGCTCGCGGTCGCT -CTCTGGCCATCCATTCCCTGGTTTGGTAAAGCCGACAACCGTATCGCCGCCATTCAAGCGCGGGGAGAGT -TGCGTGTGAGCACCATTCATACTCCCCTGACTTATAACGAAATCAACGGGAAACCTTTTGGCCTGGATTA -CGAACTGGCGAAACAGTTTGCCGATTACCTCGGCGTAAAACTGAAAGTGACCGTGCGGCAGAATATCAGC -CAGCTGTTTGACGACCTTGATAATGGTAACGCCGACCTGCTGGCGGCAGGACTTGTCTATAACAGTGAGC -GGGTAAAAAATTATCAGCCTGGCCCTACCTATTATTCCGTGTCACAACAACTGGTTTATAAAGTGGGTCA -GTATCGCCCACGTACGCTGGGCAACCTGACGGCGGAGCAACTCACCGTTGCACCGGGTCATGTGGTGGTT -AACGATCTCCAGACCCTGAAAGAAACAAAATTCCCGGAATTAAGCTGGAAGGTAGACGACAAAAAAGGCT -CTGCGGAATTAATGGAAGATGTCATCGAAGGAAAACTCGATTACACCATTGCTGATTCTGTCGCCATCAG -CCTGTTTCAGCGCGTTCACCCGGAGCTCGCCGTAGCGCTCGATATCACCGATGAACAACCGGTGACTTGG -TTTAGCCCGTTAGATGGCGATAATACCCTTTCCGCCGCCCTGCTCGACTTCTTCAACGAAATGAATGAAG -ACGGTACGCTGGCACGCATTGAAGAGAAATACCTGGGGCATGGCGATGATTTTGATTACGTCGATACGCG -CACATTTTTACGCGCCGTCGATGCGGTACTGCCGCAGTTAAAGCCCCTGTTTGAGAAATACGCCGAAGAA -ATTGACTGGCGTTTGCTGGCCGCTATTGCTTATCAGGAATCGCACTGGGATGCACAGGCCACTTCACCGA -CGGGTGTGCGCGGCATGATGATGTTAACCAAAAATACCGCGCAAAGCCTCGGCATTACGGATCGTACCGA -TGCCGAACAGAGCATCAGCGGTGGCGTGCGTTATTTGCAGGATATGATGAGTAAAGTGCCGGAAAGTGTG -CCGGAGAACGAGCGGATCTGGTTTGCCCTCGCTGCGTACAATATGGGCTATGCGCATATGCTGGATGCCC -GCGCCCTGACGGCAAAAACCAAAGGGAATCCTGACAGTTGGGCTGACGTAAAACAGCGTCTGCCTTTACT -TAGCCAGAAACCCTATTACAGCAAGCTGACTTACGGCTACGCTCGTGGACATGAAGCCTACGCTTATGTC -GAAAATATTCGTAAGTATCAGATTAGCCTGGTGGGTTATCTGCAAGAGAAAGAGAAGCAGGCTACAGAAG -CGGCGATGCAACTGGCGCAGGATTATCCGGCGGTATCGCCTACGGAGTTGGGCAAAGAGAAATTTCCTTT -TCTCTCGTTTCTTTCCCAGTCGTCATCAAACTATTTGACCCATTCTCCCTCTCTGCTGTTTTCCAGGAAA -GGGAGTGAAGAGAAACAAAATTAATCCGTCGAGGATTGCGCTTTTTTCTGCGCTTTAATTTCCTGGCGGC -GCATGCGAAAGAAGTCACTGAGCAACGCCGCGCACTCATCCGCCAGTATTCCTTCCGTAATTTCCACTCG -GTGATTCATACCCGGATGATGCAGCACATCCATTAAAGATCCCGCAGCGCCAGTTTTCGCGTCACGCGCA -CCAAAGACCACGCGACCAATGCGACTGTGGATCATCGCTCCGGCACACATTACACATGGTTCAAGCGTGA -CATACAACGTGGCGTCGATCAGACGATAATTTTGCATCACCAGACCACCCTGCCGCAGGGCCATGATTTC -TGCATGTGCGGTGGGATCATGGCGACCAATCGGGCGGTTCCAGCCTTCGCCGATTACCCGATTGTTATGC -ACTAATACCGCGCCGACCGGCACTTCCCGCTCATCCCAGGCACGTTTCGCCAGCGTCAGCGCGTGACGCA -TCCAGTATTCGTGGCTAAATTCGACTTCAGACAAAAAGAAAACTCCGGTTATAAAAGCGCGGCGCATTAT -ACACGGACGCTATGCTTTACTCTATTCCAGTTGCTGGAGTTCACCGCGCGGGGTTACTCGCCAACGATGC -TGACAGAAATAAAGCAGCGGATTGTCCTGATTACTGTCGCTATAGCCACTGTACAGCCGCAGCGGAGTGC -CGATTTTGCGCTCCAGTTGTGCGACCTTTTCATGTCCCAGACAACGCATCGTCAATACCCAACCACCATA -GCCACGCTGAATTTGGCTGGCGATAAGATTAACCCGCGGCAGCCAGGGCGTATCGAAATAAACCGCTTCA -ACCAGCGGCTGCGGAGAGCCGGTAATCAACCAGATATCAGCATCGGAACTTAACAGGTAGGTGGTTAATC -GCTCCTGAACCAGCGGAAAGGCGGTAACATTGTCGCGAAACCAGCGCACGAAATCGGCCTGCAACGTCTG -TAAACGTGCTTCGCTGTGACCAAAAGTGCACCCCCACAGAAGCAGACTCATCGGCCAGCGTGCCGCACGA -CCTTTTATCAATAACGCAATGGCTATAATCGGTAACAACGGCAGGACAAGTAACGCATTCAGCGGTTGGC -GACGTAGTAAATAGCGCAGAAAACTGCCGAACATATCCTGCTGATGCAATGTTCCATCTAAGTCAAAAAA -CACCACACGACGCTCGTGAGTTGCCAAACCATACTCCTCTGGACTGAAACATCCTGATTAATTTTCGCTA -CTACATAGCCTAACAGATAGATCATCACTTTTCCGGCAACAATCGACCGCATCATGGCTAACTGGAATTT -TTAATTCATGGCAATTAGCGGCAATGGAATATAAAATTCACTCGCGTGTGTCTCATATTGCCTGTTGTCG -CCACTATTTCATCGCGAGGAAAGATATGAACGGCTTACTTCGTATCCGTCAGCGTTACCAGGGGCTTGCC -CAGAGTGATAAAAAACTGGCGGATTATCTGCTGCTACAACCTGATACGGCGCGCCATTTAAGCTCTCAGC -AACTGGCCAACGAAGCCGGAGTCAGTCAGTCCAGCGTCGTGAAGTTCGCGCAAAAACTCGGCTATAAAGG -TTTTCCGGCGCTTAAGTTGGCGTTGAGTGAAGCGCTGGCAAGCCAGCCGGAATCACCCTCCGTGCCCATT -CATAACCAAATCCGCGGTGATGATCCGTTACGGCTGGTCGGCGAAAAACTGATTAAAGAAAATACTGCCG -CTATGTACGCAACGCTAAACGTTAATAGTGAAGAGAAACTGCATGAATGCGTAACAATGTTGCGCTCTGC -GCGGCGGATAATTCTGACCGGTATTGGCGCTTCGGGTCTGGTGGCGCAAAACTTTGCCTGGAAGCTGATG -AAGATTGGCTTCAATGCTGCCGCAGTGCGCGATATGCATGCGCTACTCGCAACAGTACAGGCGTCGTCCC -CTGACGATCTGTTATTAGCCATTTCCTACACCGGTGTACGACGCGAGTTAAACCTGGCGGCAGATGAGAT -GCTGCGAGTGGGCGGAAAAGTGCTGGCGATTACCGGCTTTACTCCGAATGCCCTGCAACAGCGTGCTTCT -CATTGCCTGTATACCATTGCCGAAGAACAAGCGACAAACAGTGCTTCAATCTCTGCTTGTCACGCTCAGG -GAATGTTAACGGATTTGCTGTTCATTGCGCTGATTCAGCAGGATCTGGAACTGGCACCAGAACGTATTCG -TCATAGTGAAGCGCTGGTGAAAAAACTGGTCTGAGTAAAGAATGCGCGTATAATGCCCGCCCGGTTTGTG -TTGTTTTGAGAGTTTCCTTATGGCGTTGTTAATCACTAAAAAATGCATCAATTGTGATATGTGTGAACCC -GAATGCCCGAATGAGGCGATTTCAATGGGAGATCATATCTACGAGATTAACAGCGATAAGTGTACCGAAT -GCGTAGGGCACTACGAGACACCAACCTGCCAGAAGGTGTGCCCGATCCCCAATACTATTGTGAAAGATCC -GGCGCATGTCGAGACAGAAGAACAGTTGTGGGATAAATTTGTGCTGATGCACCACGCGGATAAAATTTAA -TATTCTACTCTGGAAGTAGAGTATTAATTATATTACTGGGAAGCCTTAACGCCATTATATTTATTTAATT -GATGACATTAGCATAATCATTCACTAAGTTAATTTATATAGTATCTGCCCAGACACTTATTTATAGTTAT -TAAAGGTGCGTCCGACTGGTTCACCGGACGCACCTTAAGTACGTTTCCTTGTGTTATAAGAACAGAAGGA -TCAGCTGTAAAACAGCAATGATGATTTTGATGACCCGTTTAATCAGGTATCGGCAATCAGTCATTCGTTT -TTCCTTAAACAAGGAATGCAGCCATTCAGATTAGCCCTTACATCTCCCCAAAACTGAACGTGCGAGTTAT -TGAGGGTGCATGCTGCACTCCACACCAGAGCTTTGACGACACCACTCGTTTCAATGGGGGAATTCTGTGG -CATGGTGTAAAGCACAGCAAAATCTTCAATAACGAAGCCAATTTTAATGTACTTACGAATTGGCGGTCAC -GTTAATCTTTCCATCAATATTGCTTTCTTCGTAAAGGCTCGAGTTTTTATGCTAAAGATTGCAAGTTGCT -TGTAAAAGATAAGTACACTGATCCATAATCGCTGTTGTTGAGGGTGCATGCTGCACAAAATTAAAGTTAA -AAAGTAAAACCCCCGTTCCTTACCAGTTCGGGGGTTTTACTTTTTAAAGAGAACGGTATTATTTTTAACT -TTCAATAATTACCGTGGCACAAGCATAGTGCCGCTCATCTGCCAGCGTTACATGCATATTTGCAACGCCC -AGCTTTTCCGCCAGTTTTAATGCCTCGCCCCATAGCCGTAGCCGTGGTTTGCCAAGCTCATCATTGAATA -CTTCAAATTGATTAAACGCCAGACCATTGCGGATCCCGGTGCCAAACGCTTTTGCTGCGGCTTCTTTCAC -AGCAAAACGCTTCGCCAGAAAACGCACCGGCTGGTGGTGCGTTTTCCAGATAGCCCATTCGTTATCGCTT -AATACGCGGCGTGCCAGGCGATCACCGGATCGGGCGATCACCGCTTCGATGCGAGCGATCTCCACAATAT -CCGTGCCTAAACCTAATATTGCCATTAGCCACGCGCTTCCAGCATCAGACGCTTCATTTCTGCCACCGCA -TCTTTCAGTCCGGTCATCACTGCACGACCAATAATGGCATGACCGATATTCAGTTCATGCATCTCAGGGA -TGGCGGCAATGGCTTTCACGTTGTGATAGGTCAGACCGTGTCCGGCGTTAACTTTCAGACCGAGGCTTGC -GGCAAAGGTCGCGGCTTTGGCGATACGCGCCAGCTCTTGCGCCTGTTCGGCGTCAGTTTTGGCATCAGCA -TAGCAACCGGTGTGGATCTCGATAAACGGTGCGCCAACCTCTGCCGCAGCTTTGATCTGCTCTTCATCGG -CGTCAATAAACAGAGAAACCTGAATCCCGGCATCTGCCAGACGTTTGCAGGCATCGCGCATTTTGTCACG -CTGCCCTGCGACATCCAGGCCGCCTTCGGTTGTTACTTCCTGACGCTTTTCCGGTACCAGGCAGCAAAAA -TGTGGCTTCGTCTCAACGGCGATCGCCAGCATCTCTTCGGTCACCGCCATCTCCAGATTCATGCGGGTAT -CCAGCGTCTGACGCAGGATGCGCACGTCGCGGTCAGTAATGTGACGGCGATCTTCACGTAAATGCACGGT -AATGCCGTCCGCTCCCGCCTGCTCGGCAATAAACGCGGCCTGCACCGGATCCGGGTAAGCGGTACCGCGC -GCGTTGCGCAGCGTAGCGATATGGTCAATGTTGACGCCTAACAGTAATTCAGCCATGACAATCCTCATCA -TTCATAATGTGTTTTCACCGTTCGCTTAGGCATAAACTGCCGGAACAGTTCCCTGCTCTTTAAAGGTTTA -CCGCCAAGATACGGCTTAAGCGCCATGCGGGTAAAGCGTTTCGCGGCGCGCAGTGTGTCTGCGTCAGGAA -ATTCCCGTGCGTTTAACGCTTTTAACTGCCTTCCGGTGAACGTTTTATTGTCGATAACGACGCTTGCGAT -AAACCCTTTTTCTTCGCGATAACGATACGTCATGGTGTCATCTACCGGCTCGCCGCTACCCGCACAATGG -GTAAAATTGACGCCATAACCCAGATGCCCGAGCAGTGCCAGTTCAAAGCGGCGCAGCGCGGGTTCTGGCG -TACCAGTGACCCCTGCAAGAGACTGAATGCAGTGCAAGTAATCGAAAAAAAGTTCAGAGAAGCGCGTCTC -GTATTCCAGTACGCGGGAGAGAAGTTCGTTGATGTACAGACCGCTGTAAAGCGTGATACCGCTTAATGGC -AGCGCCAGCGAGACGGCTTCAGCACTGCGCAGCGTTTTGACTTCGCCACGCCCGCCAAAACGTAGCAAGA -GAGGGGTGAAAGGCTGTAATGCACCTTTCAGGGTAGAGCGTTTAGAGCGTGCGCCTTTGGCAACCAGACG -CACGCGCCCCGATTCCTCCGTGAAGACGTCCAGCATCAGGCTGGTTTCGCTCCACGGGCGACTATGCAGG -ACAAATGCGCGCTGCCAGCCTTCCATCGGAGTTACTCTTAAAGATCGTCAACGTAACCGAGACTGCGCAG -TGCGCGTTCGTCGTCGGCCCAACCGGATTTCACTTTTACCCACAGTTCAAGGTGAACAGGCGCTTCGAAC -ATTTCCTGCATGTCTTTACGCGCTTCAATCCCGATGGTTTTGATCTTGGCCCCTTTGTTGCCAATGACCA -TCTTCTTCTGCCCTTCACGCTCAACGAGAATCAAACCGTTGATGTCATAACCACCGCGTTCGTTAGAGAC -GAAACGTTCGATCTCCACGGTCACGGAGTACGGCAGTTCAGCGCCGAGGAAACGCATCAGTTTTTCGCGG -ATGATTTCAGACGCCATAAAACGCTGTGAGCGATCGGTGATGTAATCTTCCGGGAAGTGATGAGTCGCTT -CAGGTAGATGCTTACGCACGATTGCCGCAATAGTGTCAACATTCAGCCCGGTTTCGGCAGAGATTGGCAC -GATATCGAGGAAGTTCATCTGGCTTGCCAGGAACTGCAGGTGCGGCAGCAGATCGGCTTTCTCCTGCACG -TTGTCCACTTTGTTCACCGCGAGGATTACCGGCGCTTTGCCTTCGCGCAGTTTGTTGAGCACCATTTCGT -CGTCCGGCGTCCAGCGGGTGCCTTCAACGACAAAAATCACCAGCTCAACATCGCCAATAGAGCTGCTCGC -CGCTTTGTTCATCAGGCGGTTAATGGCGCGTTTTTCTTCCATATGCAGGCCCGGTGTATCGACGTAGATC -GCCTGATACGCGCCTTCAGTATGGATCCCCACAATGCGGTGACGAGTTGTCTGCGCCTTGCGGGAAGTGA -TGGAGATTTTCTGCCCCAGCAGTTTGTTCAACAATGTGGATTTGCCAACGTTCGGACGTCCGACGATGGC -AATAAATCCGCAGTAACTTTTATCGATGCTCATTCCAGCTCCAGTTTTTTCAACGCCTGTTCGGCGGCAG -CCTGCTCAGCCTTACGACGGCTTGAACCTGTGCCAACCACCGGTTCACTCAGGCCGCTGACCTGGCAGTG -GATAGTAAATTCCTGATCGTGCGCTTCGCCACGTACCTGGACTACCAGATAAGTCGGCAGCGGCAGATGG -CGACCCTGCAAATATTCTTGCAAGCGCGTTTTCGGATCTTTTTGTTTATCGCCTGGGCTAATTTCGTCCA -AACGAGTTTGATACCAGTTGAGGATTAATTTCTCGACGGTTTGAATATCACTGTCGAGGAATACGCCACC -AATTAATGCTTCGACGGTGTCGGCGAGAATTGACTCACGACGAAATCCACCGCTTTTAAGTTCACCTGGC -CCTAAACGTAAGCACTCGCCTAACTCAAATTCGCGCGCCAGTTCCGCCAGCGTATTGCCACGGACCAGCG -TGGCGCGCATCCGGCTCATATCGCCTTCATCCACACGAGGGAAACGGTGATAAAGCGCATTGGCGATAAC -GTAGCTCAGAATAGAGTCGCCTAAAAATTCTAAACGCTCGTTATGTTTACTGCTGGCACTACGATGAGTT -AATGCCTGCTGCAACAGTTCCTGATGATTAAAAGTGTAGCCCAGCTTCCGTTGAAGCCGATTAATTACGA -TGGGGTTCATGCGATACCAATAAATAAATGCGTCAACAATTCAGCACACGAAACAGACCTGATATACATG -GTTCTGCTAACTGCTTCGCTGCAGTTTCAGTTTACCGGTATATGGGGACCAACGCTGTTTCGTGTGCCGT -GGCAACCTGGAGGTGCCAACCTTAAACTTCGGGGGAATATTCTATACACAACGACGGGGGATGTCGTTAG -CCACGGGAGATTTATCTCATAAATAATTCACGTTGTCGCCATAACGGCGACAACGTGAACGAAGATGGCT -ATTAATGGATGCCGCCAATGCGACTTAAGCGCAGACCAGTCGGCCATTCGCCTTCTTGCTTATCGAAGCT -CATCCAGATAGCCGTTGCCCGACCGACCAGATTCGCTTCCGGCACAAAGCCCCAGTAACGGCTGTCCGCG -CTGTTGTCGCGGTTGTCGCCCATCATGAAGTATTGTCCCGGAGGAACAATCCAGGTTGCCAGTTGTTGCC -CTGGCTGCTGGTAATACATCCCCACCTGATCCTGCGCAATCGGCACTGTCAGAATGCGGTGCGTCACATC -ACCCAGTGTCTCTTTACGCTCGGAAAGACGAATTCCATTTTCTTTGGTTTCGTTTTTCGGCACTTCAAAG -AATCCGCTGGTCGCTTCCCCACCATTACGGCGTGAGAAGGTCTGAACGAAATCGCTCGGTTCCACGTTTG -AGTAGGTGACCGGCAGCGCGTTTTCACACGCCTGGCCGGAACTGCATCCCGGTTGAATCGTCAGCTCTTT -TGAGACCGGATCGTAAGTGACTTTATCGCCCGGTAAACCCACCGCGCGCTTGATGTAATCAAGCTTTGGA -TCTTCCGGATATTTAAAGACCACGATATCGCCGCGTTTCGGATGACCGGTTTCGATCAGCGTTTTCTGGT -AGATAGGATCTTTAATGCCATAAGCAAACTTCTCTACCAGAATAAAATCACCAATTAACAGAGTCGGCAT -CATCGAACCTGACGGGATCTGGAACGGTTCATAAATAAACGAACGCACAATCAATACGATAGCCAGTACC -GGAAAAACAGAAGCACCGGTTTCCAGCCAGCCAGGCTTCGGCGCAACCTTTTTCAACGTTGCTTTATCCA -GTGAGTCCCCGGCAGCCGCCTGCGCCGCTGCCTGACGTTCCCGCCGTTTAGGTGCGAAAAAGAATTTATC -CACGCACCATAAAATGCCCGTCACCAGTGTGGCAATCACCAGAATCAGGGCAAACATATTCGCCATGCCA -ACTCCTAAGGGTTATTTGTTGTCTTTGCCGACGTGCAGAATGGCGAGGAACGCTTCCTGCGGCAGCTCGA -CGTTACCGATCTGCTTCATGCGTTTCTTACCTTCTTTCTGCTTCTGCAGCAGCTTTTTCTTACGGCTGAT -ATCGCCGCCATAACATTTAGCCAGTACGTTTTTACGCAGCTGTTTCACGGTGGATCGCGCAATGATGTGC -GTACCAATCGCTGCCTGAATGGCGATATCAAACTGCTGGCGTGGGATCAGATCTTTCATCTTCTCCACCA -ACTCGCGACCGCGGTTTTGCGAATTATCACGGTGGGTGATCAACGCCAGCGCATCAACACGTTCACCGTT -GATTAATACGTCTACACGTACCATGTCGGACGCCTGGAAGCGCTTGAAGTTGTAATCCAGAGACGCATAA -CCACGCGAGGTAGATTTCAGGCGATCGAAGAAGTCGAGCACCACTTCCGCCATCGGGATCTCGTACGTCA -GCGCCACCTGATTACCGTGGTAAACCATATTGGTCTGCACGCCGCGTTTTTCTACGCACAACGTAATAAC -GTTGCCGAGATATGCCTGCGGCAGCAGCATGTGACACTCTGCAATCGGCTCGCGCAGTTCGTAGATGTTA -TTTACCGCAGGCAGCTTGGATGGGCTGTCGACGTAGATAACTTCTCTTGACGTGGTTTCAACTTCATACA -CTACGGTCGGCGCAGTGGTGATCAGATCCAGATCGTATTCACGTTCCAGACGTTCCTGGATGATCTCCAT -GTGCAGCAGGCCGAGGAAGCCGCAGCGGAAACCAAAGCCCAGCGCGCTGGAGCTTTCCGGCTCATAGAAC -AGTGAGGCATCGTTCAGGCTGAGTTTACCCAGCGCGTCACGGAAGGCTTCATAGTCGTCGGAACTTACCG -GGAACAGACCGGCGTATACCTGCGGTTTGACTTTCTTAAAGCCAGGCAGCGCCTTTTCTGCCGGATTACG -CGCCAGCGTTAAGGTATCGCCGACTGGAGCGCCGTGGATATCTTTAATCGCACATACGAGCCAGCCTACT -TCGCCACATTTCAGTTCAGTGCGGTCAACCTGTTTCGGCGTGAAGATGCCCAGACGGTCGGCGTTATAGG -TCTGCCCGGTACTCATGACTTTCACTTTGTCGCCCTTACGCAGGGTGCCGTTTTTAATACGGATAAGTGA -AACAACGCCCAGGTAGTTGTCGAACCATGAGTCGATAATTAGTGCCTGCAACGGGCCTTCCGGATCGCCT -TCCGGCGGCGGAATGTCGCGCACCAGACGTTCGAGAACGTCCTGCACACCAACGCCGGTTTTCGCTGAAC -AGCGCACCGCGTCGGTGGCGTCGATGCCGACGATATCTTCAATTTCTTCCGCCACGCGTTCAGGATCGGC -TGCCGGCAGGTCAATCTTGTTCAGTACCGGCACAACTTCGAGATCCATTTCCATGGCGGTGTAGCAGTTT -GCCAGGGTTTGCGCTTCTACGCCCTGCCCGGCGTCGACCACCAGCAATGCACCTTCACAGGCAGCCAGCG -AACGGGAAACTTCATAGGAGAAGTCTACGTGGCCCGGGGTGTCGATAAAGTTAAGCTGATAGGTTTCGCC -GTCAGACGCTTTGTAGTCCAGCGTCACGCTTTGCGCTTTGATGGTAATGCCACGCTCACGCTCAAGATCC -ATGGAATCGAGAACCTGCGCCTCCATTTCACGGTCAGACAGGCCACCGCAGATCTGGATAATACGGTCAG -ACAGCGTCGATTTACCGTGGTCAATGTGAGCTATGATCGAAAAGTTACGTATATTCTTCATAAAGTATGA -TTATTGTGCCTTAATGCCCGGTTAACCAGGCTTTTAGAAGTCGCTGTTCTGAGCTTAACGTCTGTATTAA -TAGAAACGCCGCATTCTACACTACAACATTGAGGCGAGGAAATGTTCATACCGTATGGATTGTGGTATCT -GGAAACGTCCTCGCATTTGTTATGCAAAATGCAACAAAGCCAGTGAAATCACTGGCTCGCGTCTTCCGAA -GATGTTTCAAATCGCACAAGGCCAGGCGGCAATGCCACGCTTAAGATGATCGGTTGCCATTCTGCCCGGG -CAGCAAACTTACGCGAGTAGCCGCGCGCAATCAGGAACCCGCCAATACCACCGAGGATCGCACCACATAA -TGCTGCGACGTCAGAAGCAAAGAGTAGCTGAAATAGCGAAGCGATAAGGAATAATCCCACCAGCGGCGAC -ATATAAACCAGTAATGCGGAGCTAAGCAGGCTGCCTTCGGCGATCCCCAATTCCACTTTTTGCCCCGGCA -CTAACGGCTCATCACAGGGTACGACAATGGTATGCGTGGTTTGCGGGCCAAGTTTATTTAACACGCGGCT -ACCGCAACCGGCGCGTGAAGCGCAGCTGCTGCATGAAGCTTTAACATCACAACTGACCAGCGCCTGCCCG -TTTTGCCAGGAGACGACGGTAGCCCACTCTTTGATCATTGCGCTGCCCCGAACTTAATATTCTCGGCAAT -GCGTTTCGCCGTTTGCGGCGGCAGTTCACCGACAATGGTGATTTCGGCGTTATCACGTACGCTTGTACTG -ACGGTTCTGCGTCCGGTGCGCAACATCTGATCGGTGCTCGATGGCGTAGCGCGGTTAACGTTTACCGAGA -AGCTGAATAATCCGTCGGAATAGAGACGTGATTCGATAGGCATGTTGTCCATCGTCGGTAGCGGACGTCG -ACTACTGGAAACTTCGCTAAAACCCTGTGGCAACCAGGTTGGCGTCCAGCTGAATTTAGCTTTTTCACCT -ACAGGAACAGAAAGCAACGGCGGCAAATTTGCCTTCGCCAGCGTCTGCATACTGCTGCTGATATCCTGAT -TGACGTTAAAAGCAATCACGCGAAATTGTTCCAGCGTTTCACCATCGCGATCAAGGAGATCAACCCGCAT -CGGTAATTTCGATTCGGTGTCCATCCACACGATGTAGCTGTAGCGTGTACCATCTCGGGCAACCACGCGA -ATGACTTCGCAAAGACGATCAGCAATACGCGTGCGCCCGACGGAGATAAAGTCGTAGTAAGGAGAAAGGC -GTTTGAAATCGGTATAGATAAGCGATGGCAGAGAATCAACAATGTAATCGCCATTAAGCGTGAACGGTTC -AAGTCCCGGTTCAAAATAGCTGATTTCATTGCCGCGCTGTACCACTTCCCGGCGCGGGCCATCCATTTGC -AACAATTGTGCAAGAGGACGGTTATCGAGGCGTGCATGTCGATAACGCAGAGACTCAACACCCTGTTTAT -TGATGCTGATGAATGACAGCTCGTAATTCAGTGACTGACTGGCCAGGTTCATCTGCTGTAATAACGCCCC -GGACGCGGGAGTGGCCGAGGCGTTAGCAGAGAATAACAGGCTACCTGTCACTAATGACATGGCAAACCAA -AGTTGCTTCATTACTGCGATTGCGTTCCTAAAGTTTGAATTCCTGGCACCTGTACAGCGGCTTGCTGGGT -TTGCGCCTGCTCAAACTGAAGCTGTTCAGAGTGGAGTCGGCGTTGCAGTTCGTAATCCTGCAACATTGCA -TTAATGCGACGACGCTGCTCCTGTACCTGCTGCTGTTGACCATTGTTTGCGGTCGCTTCAGAAGGTACTC -CCAGGCTTACCGGGCTGGCTTTACCCATCATCGGCAGTGTATTAAATACCGGCGTTTCGGGCTGCTGGGA -CGTTTCAGATTGTCCATTATAGTGCTGGACGCCAACGATAACTGCAAGCGATACGCATGCGGCTACGCCC -ATTTGGGTAAGCTGTGCCGCCCACGGACGTACTTTCTGCCAGAATGGCATTTTCTGCCATTGATGCGGCG -CAGGCTGGGCTTCCGGGATCAATGTCGCCGGTTGACGTACTGGCTCTTCTTCAATGGCGGCCATCACGCG -TGAAGAGATATCGAAATGGAGCACCTCGGGAGTATCACCCCGCATTGAGTCACGGATTAAGTGATAGCTT -TCCCAGGTTTTCTGCATTTCTGGGTTATGAGCCAGTTCGTTAAGCAGCTCACTATCCAGCGTTTCGCCAT -CCATTAAAGCGGAAAGTTGTTCTTTCTGCATGCCTAATACCCTTATCCAGTATCCCGCTATCGTCAACGC -CTGATAAGCGGTTGAACTTTGTTATCAATAGCTTCCCTCGCTCGGAAGATACGTGAACGCACCGTACCTA -CCGGACAATCCATGATAGCGGCTATCTCTTCATAGCTCAGGCCATCCAGCTCCCGCAAGGTTATTGCCAT -GCGTAAATCTTCCGGGAGGGACTCAATAGTTCGGAAAACTATCTGTCTCAGTTCTTCTGACAACATTAAG -TTCTCAGGGTTCGAAATTTCTTTCAACGCGCCGCCACTTTCGAAGTTTTCAGCTTCAATGGCATCCACAT -CACTGGAAGGTGGACGACGCCCCTGAGCAACCAGGTAATTTTTCGCTGTATTTACAGCAATCCGATACAG -CCATGTATAAAAAGCGCTATCTCCCCGGAACGAATCCAGCGCACGATAGGCTTTAATAAAAGCTTCTTGT -ACCACATCGGGAACATCACCCGACGGCACATAGCGGGAAACCAGACTCGCCACTTTATGCTGATAGCGCA -CTACCAGTAAGTTAAAGGCTTTCTGATCTCCCTTCTGGACCCGTTCAACCAGGACCTGGTCCGTTAACTG -CTCGCTCATCCGAGGTAAAGTCTCCCCAAACCAAATTTCCACGCGCTATCGAAACGCCACTCCATTAGCT -GCAATTTGAGCAAGCAAAGGGTTAGAGTGTCTCGTTTTTGTAAAGTTCCGTAACGCATCTGTTTTTGTTT -GTCATGCTGTAGACGGATCATTATCTATCATTATAAGTCTACAGAATCTGAACATCGCATTATCTGTGTA -GAAATGCCCATTTAACTGCCTGAAGAGTAACCCAACGGCCTTTTTATTTCACCACCTAATCCTCCACCAG -CCAGTAACTTCTCTTTTTCTCGCCGCCCTGCGTCAGCGTGTTTAGCAACTGTAACAAATATTAAAATAGC -AGGTGTTTATCCGCACAACATGATGCTATGCTGACCAAACCATGTTTAGTAAATTAAACAAAGAAAATGA -ATACTCTCCCTGAACATTCATGTGACGTGTTGATTATCGGTAGCGGCGCAGCCGGACTTTCACTGGCGCT -ACGCCTGGCTGACCAGCATCAGGTCATCGTTCTAAGTAAAGGCCCGGTAACGGAAGGTTCAACATTTTAT -GCCCAGGGCGGTATTGCCGCCGTGTTTGATGAAACTGACAGCATTGACTCGCATGTGGAAGACACATTGA -TTGCCGGGGCTGGTATTTGCGATCGCCATGCAGTTGAATTTGTCGCCAGCAATGCACGATCCTGTGTGCA -ATGGCTAATCGACCAGGGGGTGTTGTTTGATACCCACATTCAACCGAATGGCGAAGAAAGTTACCATCTG -ACCCGTGAAGGTGGACATAGTCACCGTCGTATTCTTCATGCCGCCGACGCCACCGGTAGAGAAGTAGAAA -CCACGCTGGTGAGCAAGGCGCTGAACCATCCGAATATTCGCGTGCTGGAGCGCAGCAACGCGGTTGATCT -GATTGTTTCTGACAAAATTGGCCTGCCGGGCACGCGACGGGTTGTTGGCGCGTGGGTATGGAACCGTAAT -AAAGAAACGGTGGAAACCTGCCACGCAAAAGCGGTGGTGCTGGCAACCGGCGGTGCGTCGAAGGTTTATC -AGTACACCACCAATCCGGATATTTCTTCTGGCGATGGCATTGCTATGGCGTGGCGCGCAGGCTGCCGGGT -TGCCAATCTCGAATTTAATCAGTTCCACCCTACCGCGCTATATCACCCACAGGCACGCAATTTCCTGTTA -ACAGAAGCACTGCGCGGCGAAGGCGCTTATCTCAAGCGCCCGGATGGTACGCGTTTTATGCCCGATTTTG -ATGAGCGCGGCGAACTGGCCCCGCGCGATATTGTCGCCCGCGCCATTGACCATGAAATGAAACGCCTCGG -CGCAGATTGTATGTTCCTTGATATCAGCCATAAGCCCGCCGATTTTATTCGCCAGCATTTCCCGATGATT -TATGAAAAGCTGCTCGGGCTGGGGATTGATCTCACACAAGAACCGGTACCGATTGTGCCTGCTGCACATT -ATACCTGCGGTGGTGTAATGGTTGATGATCATGGGCGTACGGACGTCGAGGGCTTGTATGCCATTGGCGA -GGTGAGTTATACCGGCTTACACGGCGCTAACCGCATGGCCTCGAATTCATTGCTGGAGTGTCTGGTCTAT -GGCTGGTCGGCGGCGGAAGATATCACCAGACGTATGCCTTATGCCCACGACATCAGTACGTTACCGCCGT -GGGATGAAAGCCGCGTTGAGAACCCTGACGAACGGGTAGTAATTCAGCATAACTGGCACGAGCTACGTCT -GTTTATGTGGGATTACGTTGGCATTGTGCGCACAACGAAGCGCCTGGAACGCGCCCTGCGGCGGATAACC -ATGCTCCAACAAGAAATAGACGAATATTACGCCCATTTCCGCGTCTCAAATAATTTGCTGGAGCTGCGTA -ATCTGGTACAGGTTGCCGAGTTGATTGTTCGCTGTGCAATGATGCGTAAAGAGAGTCGGGGGTTGCATTT -CACGCTGGATTATCCGGAACTGCTCACCCATTCCGGTCCGTCGATCCTTTCCCCCGGCAATCATTACATA -AACAGATAAAAAGCCTGGGTCAGCGCCGTATACGCTTCGGAATAGTTCTGGTCTGGCCCACGAATGACTA -AGCGATCGCTAAAGCATTCTCCCGCCTGCGGGGAGAATGCCAGCAGCACCCGATGCGGCAGTCGCGCTTC -GTTTTCCGCCACATCCGTCCGCAAACGTAAATGCCAGCCCATGCTTAATGCCAGCTCCGTAAAACCATTA -CCAATCTGCTCTGGCAGCACTACGCAGAAAAATCCCTCTTCGGTAATGCACTCCGCCGCACAGGTCAGCA -ACGATGGGTGATCAAGCGTAGTGGTATAGCGAGCCTGTTCCCGTTGAGGTGTCGAGCACTCTACTCCCTG -CTGATAGTAAGGTGGGTTACTGATGATTAAATCGAAGCGTACTGTCTGCTGTGTGATCCACTGCTGAATA -TCCGCCGTATGGACGTTAATCCGCTCTGCCCACGGGGACTGGTTGATATTTTCCTGCGCCTGCGCGGCAG -CTTCACTTTCCAGTTCAACTGCATCAATCATCACGCTGTCATCGGTTCGCTGCGCCAGCATTAATGCCAG -CAACCCGCTACCCGCGCCGATATCAAGGCAACGTTTTACCCCAGCCACCGGTGCCCATGCGCCCAATAAA -ATACCATCCGTTCCCACTTTCATCGCACAGCGATCGTGAGCAACAAAAAACTGTTTAAAAGTAAATCCAT -TACGACGAAGCACGGATGTAGACTGTGACATGAAAATAAAACCTTGCAGGAAAAACGGCGATAGCACCGG -GTGAGAACAATACCCGAGAAGCGATATCCATACAAACAGATGAAGATTGCAGCCGTAACGTCTATAATCA -GCGCCCCACACAGAGGTAGAACATGACTGTAACGACTTTTTCCGAACTTGAACTCGACGAAAGCCTGCTG -GAAGCCCTCCAGGATAAAGGTTTCACTCGCCCGACCGCCATTCAGGCTGCCGCCATTCCGCCTGCGCTCG -ATGGCCGTGATGTACTCGGTTCTGCGCCGACAGGCACCGGTAAAACGGCGGCGTATCTGCTGCCAGCGTT -GCAGCACCTGCTCGATTTCCCGCGTAAGAAATCCGGTCCGCCGCGTATTTTGATCCTCACCCCAACTCGC -GAGCTGGCGATGCAGGTGTCCGATCATGCCCGCGAACTGGCGAAACATACGCATCTGGATATCGCCACCA -TCACCGGCGGCGTAGCCTATATGAACCACGCGGAAGTGTTCAGCGAAAATCAGGACATCGTGGTCGCCAC -GACCGGACGTCTGCTGCAATACATAAAAGAAGAGAACTTCGATTGCCGCGCGGTTGAAACGCTGATCCTC -GACGAAGCAGACCGTATGCTGGATATGGGCTTCGCTCAGGATATCGAACATATTGCTGGCGAAACGCGCT -GGCGTAAACAGACCCTGCTCTTTTCGGCAACGCTGGAAGGCGATGCGATTCAGGACTTTGCCGAGCGTCT -GCTGGAAGATCCGGTGGAAGTTTCTGCCAATCCCTCCACCCGTGAGCGCAAAAAAATTCATCAGTGGTAT -TACCGCGCCGATGATCTTGAGCATAAAACCGCGTTGCTGGTGCATCTGTTAAAACAGCCGGAAGCGACCC -GCTCAATTGTGTTTGTGCGTAAGCGTGAGCGTGTGCATGAGCTGGCAAACTGGCTGCGCGAAGCGGGCAT -CAACAACTGCTATCTCGAAGGTGAGATGGTACAGGGCAAGCGTAACGAAGCGATCAAGCGTTTGACCGAA -GGTCGCGTAAACGTACTGGTCGCAACCGATGTTGCCGCGCGCGGTATCGACATTCCTGACGTCAGCCACG -TCTTTAACTTCGATATGCCGCGCAGTGGCGATACTTATTTGCACCGTATCGGACGTACCGCGCGCGCCGG -TCGTAAAGGCACCGCAATTTCGCTGGTGGAAGCCCATGACCATCTGCTGCTGGGTAAAGTAGGCCGCTAT -ATTGAAGAGCCAATTAAAGCTCGCGTTATTGATGAGTTACGCCCGAAAACGCGTGCGCCAAGCGAAAAGC -AGACCGGCAAGCCATCGAAGAAAGTACTGGCTAAACGTGCTGAGAAGAAAAAAGCTAAAGAGAAAGAGAA -GCCGCGGGTGAAAAAACGCCATCGCGACACCAAAAATATTGGTAAGCGCCGTAAACCAAGCGGAACGGGC -GTGCCACCGCAAACGACAGAAGAGTAATCTCAATGCCAGGTTTAAGCCTGGTATTAAAAGTGCTGGCAAA -CGCAAAACTGCCTGATGCGCTACGCTTATCAGGCCTACGTGGCTCATGCAATATATTGAATTTGCACGAT -CTTGTAGGCCGGATAAGGCGTTCACGCCGCATCCGGCATGAATAAAGCGCACTTTGTCGACAAGTTAAAT -GCCGGGTTTAATCCCGACATTATTTTTATCCAGCCACAAAACTCTCTTCAACACACTGAATAAAAGTGTG -CATCGCCGGGCTAACCGCTTTTCCAGCATGATGTGCGCACATGGCCGTAATGGTCTGCGACTGTTCGCCA -AAAGGCAATTCAATTAATTCTCCGCACTCCAACTCTTTTGCCACCGCAAAGCGCGGTAGGTAGCTGACCC -CGATATTCGCCGCGACACAACGCTTGATGCTTTCGATACTTATAAGCTCAATGGTGTTTTCCACCGTGAT -CCGCCGCTGACGCAGCGTGCTCTCAAATATCTGCCGGAAGACACATTGCGGTTCGTTGATAATAAAGCTA -CAGGCGTTATGTCTTCCCGGCTCAGTAAAATCGACATCTGCAATTTGCGGTGAAGCCACCAGCACCAGTG -ATTGTTCACCCAACTCTCGTCGATTCAGAGCATCATCATTCCCTACACGATAAAAGACGCCAACATCGGC -CTCATCATTCAGTAGCGCATCACGGATCACGTAACAGTTCAGCGACTGCAACGATAAACGCACTTTTGGG -GCGCGTTGCCGAAAACGCTGCAACACCTGCGGCATTCGGTAAGAGAGCAACGTTTCGCCCGAAACAACGC -GTAGTTCCCCGTCCGGATCTGACTCCTTTTTGGCAGCCTCACGAAGCGTATCCATCACTCGGGTAAGTTC -ATAAATGTGCGGCAGCAACTTTTTTCCTTCGCGGGTAAGGCACATCCGTCGGCCAATTTTCTCAAATAAC -TGGACTGAAAACTCCTGCTCAAGCTGCTGAATATGAAAAGTCACCGTCGATTGTGTACAGCACAATTTTT -GCGAAGCTCGCAAAAAGGAACCCTCTTCCACCACGGTTTTAAGCGTAATAAAACGGCGCAGATCCATAAC -CCCAAACCTATCGAAAATATCGAATCTAGAATATAAAAACATTCATTTTTTTAAATGTTCCGTGTCGGGT -ACTGTCTACCAAAACAGAGGAGATAACAAGTGACACCGACCCTTTTAAGTGCTTTTTGGACTTACACCCT -GATTACCGCTATGACGCCAGGACCGAACAATATTCTCGCCCTTAGCTCTGCTACGTCGCATGGATTTCGT -CAAAGTACCCGCGTGCTGGCAGGGATGAGTCTGGGATTTTTGATTGTGATGTTACTGTGTGCGGGCATTT -CATTTTCACTGGCAGTGATTGACCCGGCAGCGGTACACCTTTTGAGTTGGGCGGGGGCGGCATATATTGT -CTGGCTGGCGTGGAAAATCGCCACCAGCCCAACAAAGGAAGACGGACTTCAGGCAAAACCAATCAGCTTT -TGGGCCAGCTTTGCTTTGCAGTTTGTGAACGTCAAAATCATTTTGTACGGTGTTACGGCACTGTCGACGT -TTGTTCTGCCGCAAACACAGGCGTTAAGCTGGGTAGTTGGCGTCAGCGTTTTGCTGGCGATGATTGGGAC -GTTTGGCAATGTGTGCTGGGCGCTGGCGGGGCATCTGTTTCAGCGATTGTTTCGCCAGTATGGTCGCCAG -TTAAATATCGTGCTTGCCCTGTTGCTGGTCTATTGCGCGGTACGCATTTTCTATTAACGAAAAAAAGCGG -AAGAGGTCGCCCTCTTCCGCTTAGTAACTTGCTACTTAAGCCTTACAGGCTTTCAGTAAAGGTACGAGCG -ATAACGTCGCGCTGCTGTTCCGGAGTCAGAGAGTTAAAGCGAACTGCATAACCGGATACACGGATGGTCA -GCTGCGGATATTTTTCCGGATGCTTAACTGCATCTTCCAGAGTTTCGCGACGCAGAACGTTAACGTTCAG -GTGTTGACCACCTTCAACGCGAACTTCTGGTTTCACTTCTACTGGAACTTCACGGTATTCAATGTCACCC -AGTTTGCTTACTGCAACCACTTCATCTTCTGCATAACCTGCTTTTGCAACGATGCAACGCGCTTCGCCTT -TTTCGCTGTCCAGCAGCCAGAAAGAGTTCAGCAGATCGTCGTTAGCGGCTTTAGTAATCTGGATACCTGT -AATCATGTGATGCCTCCCCGGCAAAATTATTTGATTTGTTCAGCCTGTCGCGGCCAATTGGTAAAACCAT -TGTTGCTTGAGTGTATATATACTCCTCAAACACCCTTGAATCTTTGATTTAAATCAATAAAAACCACACA -TCAAGTATGGTCGCAAATGGATTTTATTGTTTTACATCAACTTATGCGGGTGTGAAATTTTACCAATTTA -CATTTTTTTGCACTCGTTTAAGTCTAAAAAATGAGCATGATTTTGTTCTGTAGAAAGAAGCAGTTAAGCT -AGGCGGATTGAAGATTCGCAGGAGAGCGAGATGGCTAACGAATTAACCTGGCATGACGTGCTGGCTGAAG -AGAAGCAGCAACCCTATTTTCTTAATACCCTTCAGACCGTCGCCAGCGAGCGGCAGTCCGGCGTCACTAT -CTACCCACCACAAAAAGATGTCTTTAACGCGTTCCGCTTTACAGAGTTGGGTGACGTTAAAGTGGTGATT -CTCGGCCAGGATCCTTATCACGGACCGGGACAGGCGCATGGTCTGGCATTTTCCGTTCGTCCCGGCATTG -CCATTCCTCCGTCATTATTGAATATGTATAAAGAGCTGGAAAATACTATTCCGGGCTTCACCCGCCCTAA -TCATGGTTATCTTGAAAGCTGGGCGCGTCAGGGCGTTCTGCTACTCAATACTGTGTTGACGGTACGCGCA -GGTCAGGCGCATTCCCACGCCAGCCTCGGCTGGGAAACCTTCACCGATAAAGTGATCAGCCTGATTAACC -AGCATCGCGAAGGCGTGGTGTTTTTGTTGTGGGGATCGCATGCGCAAAAGAAAGGGGCGATTATAGATAA -GCAACGCCATCATGTACTGAAAGCACCGCATCCGTCGCCGCTTTCGGCGCATCGTGGATTCTTTGGCTGC -AACCATTTTGTGCTGGCAAATCAGTGGCTGGAACAACGTGGCGAGACGCCGATTGACTGGATGCCAGTAT -TACCGGCAGAGAGTGAGTAAATTTGCGGGGAAATGCCGGATGGCAGAGTTGCCACCCGGCTGATTTATCA -GGCTTTATTCTGACGCCACCATTCACCAAGCAAAACGCCGGTTGCGACAGAGATATTCAGCCCGGCAACG -TTGCCCGTACCGTCAATCTTCACGCGCAGATCGTTCGGATCGCGTGCGGCATCCGGTAACCCTTCATATT -CCTGACCCAGCACCAGTACCATTTTCGCTGGCAGACTAGTTTTGAACAGCGGTTTACCCTGCTCGCTGGA -AGTGGTCACTACGGTGTAACCTGCCTGACGGAAATCATCCAGCACGTTAACAATGTTGTCGCCAGTAATC -GGCTGAACGTGCTCTGCGCCGCCTTCTGCGGTACGGATAGCCGCCCCCGACTCCAGCAGTGCCGCATCCT -GCACCACGACACCTTTCACGCCGAAGTGCGCGCAGCTGCGCATCATGCCACCCAGGTTATGCGGGTTAGA -TTCGTTTTCCAGTGCCAGAACGCAATCCTGCGCGCCTGCCTGGCTTACCCACTGCTGCACGGTTGTACCG -TTACGCTTTTTGATCAAGAAGCAAACGCCGCCGTGATGTTCCGTGCCTGACGCTTTTGTCAATTCCGCTT -CATCCACCACATGGTACGCTTTGCGGTTTGCTGCCATCCAGCGCAAAGCTTCTTTAAAACGCGGCGTTAC -ACTCTGGATAAACCAGGCGCGAACAATCGCTTCCGGACGGCTCTGGAAAAGTGCCTGACATGCATTTTCG -CCGTAGACGCGGGTTTCTTCCGCACGCTGACGACGCAACACTTCCGGATCAATAAAACTTTTACCACTGA -TGCCACCGTGATCGGCCTTTTCCGGCGTCTCATCACCCGGCGCGCGGGAAACCGTGCGCCACGGCGAATC -TTCCCACTTGCGGTCACGGGGCTGACTCTGTTTGTCATCGCGGGCGGGGCGACGGCCACCGTCAGCACGA -GATTTTCCTGGACGCCCGCCCCCTTTCCCGGTACGCGGGTTGTGGGTACGTTTATCAGAATCATCATCAC -TGCGGACATACATCACTTTGACCTTGCCGCTTTTACCTTTCATTTCATCGTTCATGCTTTTCTCCACCAG -CGCTGCGCGAAGCGCGCAGATTACCCGAAGTCCGCGCGGTTCGCCATGATTTCGTACCAAAGCCTGCGAC -TATCATACCTATTGAATAAAACAGATTGTTGTCTGGAACAATGTCCCCGATAATATGTAACATATTAGAA -ACATACCGGCGTCGTTGCCGATAAGTCTCCTTACTCATCCCGAGGTTAGTTATGAATACCGTTTGTACCC -ATTGTCAGGCCATCAATCGCATTCCCGACGATCGGATCGAAGATGCGGCAAAATGCGGACGCTGCGGTCA -CGACTTGTTTGACGGAGAGGTGATTAATGCGACCGGTGAAACACTCGACAAATTGCTGAAGGATGATCTA -CCTGTGGTGATCGACTTCTGGGCACCGTGGTGCGGCCCCTGCCGTAATTTCGCACCAATTTTTGAAGATG -TCGCGCAAGAGCGTAGCGGTAAAGTGCGCTTTGTGAAAGTGAATACCGAAGCTGAACGTGAATTGAGCAG -TCGCTTTGGAATTCGTAGTATACCGACGATCATGATTTTCAAAAACGGTCAGGTTGTCGACATGCTTAAT -GGCGCAGTACCGAAAGCGCCGTTCGATAGCTGGCTGAACGAATCTCTTTAATCTTACCGGGGCGCATCTT -GTGCCCCGTTTTCTCCTCTGCGACAATGGCGTTTTTTCGACGCTCTCTTATGACCGAAAACGCTGTTCTC -CAGTTACGCGCCGAGCGTATTGCGCGCGCAACACGTCCTTTTCTTGCCCGCGGTAATCGCGTTCGTCGCT -GCCAACGCTGTCTTTTGCCAGAGAAATTATGTCTCTGTTCGACAATTACCCCAGCACAAGCAAAAAGTCG -CTTCTGTTTGCTGATGTTCGACACCGAGCCAATGAAGCCCAGTAATACCGGGCGTCTCATTGCTGATATT -TTGCCTGATACCGTTGCGTTTCAATGGTCGCGTACCGAACCCTCGCAGGATTTGCTGGAGTTGGTGCAAA -ACCCGGACTATCAGCCAATGGTGGTCTTTCCCGCTTCGTATGCTGATGAGCAACGGGAAGTGATCTTCAC -ACCACCTGCCGGTAAGCCACCGCTGTTTATCATGCTCGATGGTACCTGGCCGGAAGCTCGCAAGATGTTT -CGTAAAAGTCCGTATCTGGATAATCTTCCCGTCATTTCCGTCGATCTTTCCCGGCTTTCTGCCTATCGCC -TGCGTGAAGCCCAGGCTGAAGGCCAATATTGTACTGCCGAGGTAGCCATCGCACTGTTAGATATGGCCGG -CGATACCGGGGCGGCGGCAGGGTTAGGCGAGCATTTTACCCGCTTTAAAACACGCTATCTGGCAGGAAAA -ACGCAACATCTGGGTAGCATCACAGCAGAACAGTTAGAAAGCGTTTAAAATCATTCGGTCACTTCTGCGG -GAGACCGGTATGAGTCAGCGAGGACTGGAAGCACTACTGCGACCAAAATCGATAGCGGTAATTGGCGCGT -CGATGAAACCCAATCGCGCAGGTTACCTGATGATGCGTAACCTGCTGGCGGGAGGCTTTAACGGACCGGT -ACTCCCGGTGACGCCAGCCTGGAAAGCGGTGTTGGGTGTGTTGGCCTGGCCGGATATTGCCAGCTTGCCC -TTTACACCCGACCTTGCGGTTTTATGTACCAATGCCAGCCGTAATCTTGCTCTTCTGGAAGAGCTCGGCG -AGAAAGGCTGTAAAACCTGCATTATTCTTTCCGCCCCGGCATCGCAACACGAAGATCTCCGCGCCTGCGC -CCTGCGCCATAACATGCGCCTGCTTGGACCAAACAGTCTGGGTTTACTGGCTCCCTGGCAAGGTCTGAAT -GCCAGCTTTTCGCCTGTGCCGATTAAACGCGGCAAGCTGGCGTTTATTTCGCAATCGGCTGCCGTCTCCA -ACACCATCCTCGACTGGGCGCAACAGCGTAAGATGGGCTTTTCCTACTTTATTGCGCTCGGCGACAGCCT -GGATATCGACGTTGATGAATTGCTTGACTATCTGGCACGCGACAGTAAAACCAGCGCCATCCTGCTCTAT -CTCGAACAGTTAAGCGACGCGCGACGCTTTGTTTCGGCGGCCCGTAGTGCCTCGCGTAATAAACCGATTC -TGGTGATTAAAAGCGGACGTAGCCCGGCGGCACAGCGACTGCTCAACACGACGGCAGGAATGGACCCGGC -ATGGGATGCGGCTATTCAGCGTGCCGGTTTGTTGCGGGTACAGGACACCCACGAGCTGTTTTCGGCGGTG -GAAACCCTTAGCCATATGCGCCCGCTACGTGGCGACCGGCTGATGATTATCAGCAACGGTGCTGCGCCTG -CCGCGCTGGCGCTGGATGCCTTATGGTCACGCAATGGCAAGCTGGCAACGCTAAGCGAAGAAACCTGCCA -GAAACTGCGCGATGCACTGCCAGAACATGTGGCAATATCTAACCCGCTCGATCTACGCGATGACGCCAGC -AGTGAGCACTATATTAAAACGCTGGATATTCTGCTCCACAGCCAGGATTTTGACGCGCTGATGGTTATTC -ATTCGCCCAGCGCCGCTGCTCCCGCAACAGAAAGCGCGCAAGTATTAATTGAAGCGGTAAAGCATCATCC -CCGCAGCAAATATGTCTCTTTGCTGACGAACTGGTGCGGCGAGCACTCCTCGCAAGAGGCACGACGTTTA -TTCAGCGAAGCCGGGCTGCCGACCTACCGTACCCCGGAAGGAACCATCACTGCTTTTATGCATATGGTGG -AGTACCGGCGTAATCAGAAGCAACTACGCGAAACGCCGGCGTTGCCCAGCAATCTGACTTCCAATACCGC -AGAAGCGCATCTTCTGTTGCAACAGGCGATTGCCGAAGGGGCTACGTCGCTCGATACCCATGAAGTTCAG -CCCATCCTGCAAGCGTATGGCATGAACACGCTCCCTACCTGGATTGCCAGCGATAGCACCGAAGCGGTGC -ATATTGCCGAACAGATTGGTTATCCGGTGGCGCTGAAATTGCGTTCGCCGGATATTCCACATAAATCGGA -AGTTCAGGGCGTCATGCTTTACCTGCGTACAGCCAATGAAGTCCAGCAAGCGGCGAACGCTATTTTCGAT -CGCGTAAAAATGGCCTGGCCACAGGCGCGGGTCCACGGCCTGTTGGTGCAAAGTATGGCTAACCGTGCTG -GCGCTCAGGAGTTGCGGGTTGTGGTTGAGCACGATCCGGTTTTCGGGCCGTTGATCATGCTGGGTGAAGG -CGGTGTGGAGTGGCGTCCTGAAGATCAAGCCGTCGTCGCACTGCCGCCGCTGAACATGAACCTGGCCCGC -TATCTGGTTATTCAGGGGATCAAAAGTAAAAAGATTCGTGCGCGCAGTGCGCTACGCCCATTGGATGTTG -CAGGCTTGAGCCAGCTTCTGGTGCAGGTTTCCAACTTGATTGTCGATTGCCCGGAAATTCAGCGTCTGGA -TATTCATCCTTTGCTGGCTTCTGGCAGTGAATTTACCGCGCTGGATGTCACGCTGGATATCTCGCCGTTT -GAAGGCGATAACGAGAGTCGGCTGGCAGTGCGCCCTTATCCGCATCAGCTGGAAGAATGGGTAGAATTGA -AAAACGGTGAACGCTGCTTGTTCCGCCCGATTTTGCCAGAAGATGAGCCACAACTTCAGCAATTCATTTC -GCGAGTCACCAAAGAAGATCTTTATTACCGCTACTTTAGCGAGATCAACGAATTTACCCATGAAGATTTA -GCCAACATGACACAGATCGACTACGATCGGGAAATGGCGTTTGTAGCGGTACGACGTATTGATCAAACGG -AAGAGATCCTCGGCGTCACGCGTGCGATTTCCGATCCTGATAACATCGATGCCGAATTTGCTGTACTGGT -TCGCTCGGATCTCAAAGGGTTAGGCTTAGGTCGACGCTTAATGGAAAAGTTGATTACCTATACGCGAGAT -CACGGACTACAACGTCTGAATGGTATTACGATGCCAAACAATCGTGGCATGGTGGCGCTAGCCCGCAAGC -TCGGGTTTAACGTTGATATCCAGCTCGAAGAGGGGATCGTTGGGCTTACGCTAAATCTTGCCCAGCGCGA -GGAATCATGAGTAAGGTACTGGAAATGTTGACCACTTAATCGGGACTGGTGTTATTATTGCCCGCTTATG -TCGTCTGCATTGCACAGAGGACCCTTCAATGAACAGAGAAGAAATGCACTGTGATGTTGTCAAAATTTAA -GCGTAATAAACATCAACAACACCTTGCCCAACTACCCAAGATTTCTCAATCAGTTGATGATGTCGATTTC -TTTTACGCTCCCGCCGACTTCCGGGAGACGCTGCTGGAAAAAATAGCCAGCGCGAAGCAGCGCATTTGCA -TTGTCGCCCTGTATCTCGAACAGGATGACGGTGGCAAAGGCATTCTGAACGCGTTGTATGAGGCTAAAAG -GCAGCGTCCGGAACTGGATGTGCGGGTGCTGGTCGACTGGCATCGTGCACAACGTGGACGCATTGGCGCT -GCGGCATCTAACACTAACGCTGACTGGTACTGCCGCATGGCGCAGGAAAATCCGGGCGTAGATGTTCCGG -TTTATGGCGTTCCAATCAATACTCGTGAAGCCCTTGGTGTTCTGCACTTTAAAGGCTTTATCATCGACGA -TAGCGTACTTTATAGCGGTGCCAGCCTGAACGATGTTTACCTGCATCAGCACGATAAATATCGCTACGAC -CGTTATCATCTGATCCGTAACCGTAAGATGTCAGACATTATGTTTGAATGGGTTACACAGAATATTATGA -ATGGCCGCGGCGTTAATCGTCTGGATGATGTTAATCGGCCAAAAAGCCCGGAAATCAAGAACGATATTCG -TCTGTTCCGCCAGGAGCTGCGTGATGCCGCTTATCATTTCCAGGGCGATGCCGACAACGATCAGCTTTCT -GTAACGCCGCTAGTGGGGCTGGGGAAATCGAGTCTGTTGAACAAGACCATTTTCCATCTTATGCCTTGTG -CCGAGCAGAAACTAACCATCTGTACGCCATACTTCAACCTGCCAGCAATCCTTGTGCGCAATATTATCCA -GTTGCTGCGCGAAGGGAAAAAGGTCGAAATTATTGTTGGTGATAAAACCGCGAATGACTTCTACATTCCG -GAAGATGAACCTTTCAAGATAATTGGCGCATTGCCTTATCTCTATGAGATCAATCTGCGTCGTTTCCTGA -GCCGTTTGCAGTATTACGTCAATACTGACCAGCTAGTGGTTCGGTTATGGAAAGATGACGACAACACCTA -TCACCTGAAAGGGATGTGGGTTGATGATAAGTGGATGTTGATCACCGGTAATAACCTGAACCCGCGCGCC -TGGCGTCTGGATCTGGAAAACGCCATTTTGATCCACGATCCGCAACTTGAGCTGGCGCCACAGCGAGAGA -AAGAACTGGAGCTGATCCGCGAGCATACCACCATCGTTAAGCACTATCGCGATCTGCAAAGTATTGCCGA -TTATCCGGTGAAGGTTCGTAAACTCATCCGCCGTTTGCGCCGTATCCGCATCGACCGATTAATTAGCCGC -ATCCTGTAATCACAACCCCGTCCTGTACGGGGTTTGTTTTTTGGAGGCCACGTTTTGCGTATTCTTTTTG -TCTGTTCGCTATTGTTACTTTCTGGATGCAGCCATATGGCTAACGATAGCTGGAGCGGGCAGGATAAAGC -TCAACACTTTATCGCCTCGGCGATGCTTTCCGCCGCCGGAAATGAATATTCACAGCATCAGGGGATGAGC -CGGGATCGCAGTGCCATGTTTGGATTGATGTTCTCTGTCAGTTTGGGGGCGTCAAAAGAGCTTTGGGATA -GCCGCCCCGAAGGGAGCGGCTGGAGCTGGAAGGATTTGGCCTGGGATGTCGCCGGTGCAAGCACCGGCTA -TACCGTCTGGCAACTGACCCGTCACTAAAGACGCATCCCCTTCCCTTTGCGATGTAGCATCAAAGAAACC -AGAAACGCCACCACGGCCATCAAGGTCACATACCAGAAGAAGGCTGTTTCCATTCCTATTGATTTCAGCG -ACAACGCTACGTACTCCGCCGAACCACCAAATATAGCATTAGCGACCGCATATGACAGACCAACGCCTAA -TGCGCGAACCTGTGCCGGGAACATCTCAGCCTTCAGTATTCCACTGATTGATGTATAAAAACTCACTATC -AGCAGGGCACACATCACCAGACCAAAAGCGGCATAAGGCGAGGAAACGTTTTGCAATGCTGAGAGAATAG -GAACGGTAAAAATGGCTGCCAGCGAACCGAAACATAACATTGAGGTACGGCGACCAATCTTATCCGACAG -CGCGCCAATGAGTGGTTGAATAAGCATGAATACAAACAATGCGGCAGTCATAATGCCACTCGCCACGTTG -GCATGCATTCCCGCAGTATTTACCAGATACTTCTGCATATAAGTAGTGAAGGTATAGAAACAAAGGGAGC -CCGCAGCGGTAAAACCGAGAACCATGATGAATGCACGGCGATTGCGCCATAATCCTTTCAGAGATCCAGC -TTCTTTTAAAGCGCGCGTTTCTTGTTGCGAAGTTTCATCTAACTGACGACGTAACCACAACGCCACAACA -GCTAACACAGCTCCTAACGCGAAAGGAATACGCCATCCCCACTCTCTGAGTGCAGCGTCTTCCATGGTGT -GTTGTAAAACCACGACAACCAGTAGGGCTAGCAGTTGTCCGCCGATCAACGTCACATACTGAAATGATGC -GTAAAAACCTTTGCGCCCTTCAACGGCAACTTCACTCATATAGGTGGCGCTGGTGCCATATTCTCCGCCA -ACAGATAATCCCTGAAATAAACGAGCGAGAAGCAATAATGCCGGAGCCCACGTACCTATAGTTTCATAAC -CTGGGAGGCAGGCGATAACCAGCGATCCGAAACACATCATACACACCGATAACAGCATCGATTTTTTGCG -ACCATGTTTATCGGCTATGCGGCCAAATAGCCAACCGCCTATTGGGCGCATCAGGAATCCCGCAGCAAAA -ACACCTGCTGTTTGTAGTAGTTGAGTCGTCGTGTTCCCGGAAGGGAAGAAGATGTGGGCAAAGTAGAGTG -AACAGAACGAGTAGACATAGAAATCGAACCACTCGACCAGATTACCTGAAGAGGCCCCCACAATCGCCCA -AATGCGGCGACGAGTATCACTACTTGTCAGTTTGCTGTCTGCCGTTACAGTACTTTCAGCCATGCCATTA -TGTCTCCTGCCGTAATCCGATGCTTTTGTCGGTCGCTTTTGTTTATTTTTTTTGTAAAGGAAATATTATA -CATTTGTTGCATATCATTATGCAACCTTAACCATGAATTTAGTTAGCAGGAAAATGGTTATTGAGGAGCT -TAAGGATAAATTTCTGGTAAGGAGGACACGTATGGAAGTGGGCAAGTTGGGGAAGCCGTATCCGTTGCTG -AATCTGGCATATGTGGGAGTATAAGACGCGCAGCGTCGCATCAGGCATTTTTTTCTGCGCCAATGCAAAA -AGGCCATCCGTCAGGATGGCCTTTCGCATAATTTGATGCCTGGCAGTTCCCTACTCTCGCATGGGGAGAC -CCCACACTACCATCGGCGCTACGGCGTTTCACTTCTGAGTTCGGCATGGGGTCAGGTGGGACCACCGCGC -TACGGCCGCCAGGCAAATTCTGTTTTATCAGACCGCTTCTGCGTTCTGATTTAATCTGTATCAGGCTGAA -AATCTTCTCTCATCCGCCAAAACAGCTTCGGCGTTGTAAGGTTAAGCCTCACGGTTCATTAGTACCGGTT -AGCTCAACGCATCGCTGCGCTTACACACCCGGCCTATCAACGTCGTCGTCTTCAACGTTCCTTCAGGACC -CTTAAAGGGTCAGGGAGAACTCATCTCGGGGCAAGTTTCGTGCTTAGATGCTTTCAGCACTTATCTCTTC -CGCATTTAGCTACCGGGCAGTGCCATTGGCATGACAACCCGAACACCAGTGATGCGTCCACTCCGGTCCT -CTCGTACTAGGAGCAGCCCCCCTCAGTTCTCCAGCGCCCACGGCAGATAGGGACCGAACTGTCTCACGAC -GTTCTAAACCCAGCTCGCGTACCACTTTAAATGGCGAACAGCCATACCCTTGGGACCTACTTCAGCCCCA -GGATGTGATGAGCCGACATCGAGGTGCCAAACACCGCCGTCGATATGAACTCTTGGGCGGTATCAGCCTG -TTATCCCCGGAGTACCTTTTATCCGTTGAGCGATGGCCCTTCCATTCAGAACCACCGGATCACTATGACC -TGCTTTCGCACCTGCTCGCGCCGTCACGCTCGCAGTCAAGCTGGCTTATGCCATTGCACTAACCTCCTGA -TGTCCGACCAGGATTAGCCAACCTTCGTGCTCCTCCGTTACTCTTTAGGAGGAGACCGCCCCAGTCAAAC -TACCCACCAGACACTGTCCGCAACCCGGATTACGGGTCAACGTTAGAACATCAAACATTAAAGGGTGGTA -TTTCAAGGTCGGCTCCATGCAGACTGGCGTCCACACTTCAAAGCCTCCCACCTATCCTACACATCAAGGC -TCAATGTTCAGTGTCAAGCTATAGTAAAGGTTCACGGGGTCTTTCCGTCTTGCCGCGGGTACACTGCATC -TTCACAGCGAGTTCAATTTCACTGAGTCTCGGGTGGAGACAGCCTGGCCATCATTACGCCATTCGTGCAG -GTCGGAACTTACCCGACAAGGAATTTCGCTACCTTAGGACCGTTATAGTTACGGCCGCCGTTTACCGGGG -CTTCGATCAAGAGCTTCGCTTGCGCTAACCCCATCAATTAACCTTCCGGCACCGGGCAGGCGTCACACCG -TATACGTCCACTTTCGTGTTTGCACAGTGCTGTGTTTTTAATAAACAGTTGCAGCCAGCTGGTATCTTCG -ACTGATTTCAGCTCCATCCGCGAGGGACCTCACCTACATATCAGCGTGCCTTCTCCCGAAGTTACGGCAC -CATTTTGCCTAGTTCCTTCACCCGAGTTCTCTCAAGCGCCTTGGTATTCTCTACCTGACCACCTGTGTCG -GTTTGGGGTACGATTTGATGTTACCTGATGCTTAGAGGCTTTTCCTGGAAGCAGGGCATTTGTTGCTTCA -GCACCGTAGTGCCTCGTCATCACGCCTCAGCCTTGATTTTCCGGATTTGCCTGGAAAACCAGCCTACACG -CTTAAACCGGGACAACCGTCGCCCGGCCAACATAGCCTTCTCCGTCCCCCCTTCGCAGTAACACCAAGTA -CAGGAATATTAACCTGTTTCCCATCGACTACGCCTTTCGGCCTCGCCTTAGGGGTCGACTCACCCTGCCC -CGATTAACGTTGGACAGGAACCCTTGGTCTTCCGGCGAGCGGGCTTTTCACCCGCTTTATCGTTACTTAT -GTCAGCATTCGCACTTCTGATACCTCCAGCATGCCTCACAGCACACCTTCGCAGGCTTACAGAACGCTCC -CCTACCCAACAACGCATAAGCGTCGCTGCCGCAGCTTCGGTGCATGGTTTAGCCCCGTTACATCTTCCGC -GCAGGCCGACTCGACCAGTGAGCTATTACGCTTTCTTTAAATGATGGCTGCTTCTAAGCCAACATCCTGG -CTGTCTGGGCCTTCCCACATCGTTTCCCACTTAACCATGACTTTGGGACCTTAGCTGGCGGTCTGGGTTG -TTTCCCTCTTCACGACGGACGTTAGCACCCGCCGTGTGTCTCCCGTGATAACATTCTCCGGTATTCGCAG -TTTGCATCGGGTTGGTAAGTCGGGATGACCCCCTTGCCGAAACAGTGCTCTACCCCCGGAGATGAATTCA -CGAGGCGCTACCTAAATAGCTTTCGGGGAGAACCAGCTATCTCCCGGTTTGATTGGCCTTTCACCCCCAG -CCACAAGTCATCCGCTAATTTTTCAACATTAGTCGGTTCGGTCCTCCAGTTAGTGTTACCCAACCTTCAA -CCTGCCCATGGCTAGATCACCGGGTTTCGGGTCTATACCCTGCAACTTAACGCCCAGTTAAGACTCGGTT -TCCCTTCGGCTCCCCTATTCGGTTAACCTTGCTACAGAATATAAGTCGCTGACCCATTATACAAAAGGTA -CGCAGTCACACGCCTAAGCGTGCTCCCACTGCTTGTACGTACACGGTTTCAGGTTCTTTTTCACTCCCCT -CGCCGGGGTTCTTTTCGCCTTTCCCTCACGGTACTGGTTCACTATCGGTCAGTCAGGAGTATTTAGCCTT -GGAGGATGGTCCCCCCATATTCAGACAGGATACCACGTGTCCCGCCCTACTCATCGAGCTCACAGCATGT -GCATTTTTGTGTACGGGGCTGTCACCCTGTATCGCGCGCCTTTCCAGACGCTTCCACTAACACACACACT -GATTCAGGCTCTGGGCTGCTCCCCGTTCGCTCGCCGCTACTGGGGGAATCTCGGTTGATTTCTTTTCCTC -GGGGTACTTAGATGTTTCAGTTCCCCCGGTTCGCCTCATTAACCTATGGATTCAGTTAATGATAGTGTGT -CGAAACACACTGGGTTTCCCCATTCGGAAATCGCCGGTTATAACGGTTCATATCACCTTACCGACGCTTA -TCGCAGATTAGCACGTCCTTCATCGCCTCTGACTGCCAGGGCATCCACCGTGTACGCTTAGTCGCTTAAC -CTCACAACCCGAAGATGTTTCACTTCAGAGTTGCGAAAATTTGAGAGACTCACGAACAACTTTCATTGTT -CAGTGTTTCAATTTTCAGCTTGATCCAGATTTTTAAAGAGCAAATATATCAAACAAGACTTAACAGTCTG -TTTTGAGATATTGAGGTCGGCGACTTTCACTCACAAACCAGCAAGTGGCGTCCCCTAGGGGATTCGAACC -CCTGTTACCGCCGTGAAAGGGCGGTGTCCTGGGCCTCTAGACGAAGGGGACACGAAAATTGCTTATCACG -CGTTGCGTGATATTTTCGTGTAGGGTGAGCTTTCATTAATAGAAAGCGAACGGCCTTATTCTCTTCAGCC -TCACTCCCAACGCGTAAACGCCTTGCTATTCACTTTTCATCAGACAATCTGTGTGAGCACTGCAAAGTAC -GCTTCTTTAAGGTAAGGAGGTGATCCAACCGCAGGTTCCCCTACGGTTACCTTGTTACGACTTCACCCCA -GTCATGAATCACAAAGTGGTAAGCGCCCTCCCGAAGGTTAAGCTACCTACTTCTTTTGCAACCCACTCCC -ATGGTGTGACGGGCGGTGTGTACAAGGCCCGGGAACGTATTCACCGTGGCATTCTGATCCACGATTACTA -GCGATTCCGACTTCATGGAGTCGAGTTGCAGACTCCAATCCGGACTACGACGCACTTTATGAGGTCCGCT -TGCTCTCGCGAGGTCGCTTCTCTTTGTATGCGCCATTGTAGCACGTGTGTAGCCCTGGTCGTAAGGGCCA -TGATGACTTGACGTCATCCCCACCTTCCTCCAGTTTATCACTGGCAGTCTCCTTTGAGTTCCCGGCCGGA -CCGCTGGCAACAAAGGATAAGGGTTGCGCTCGTTGCGGGACTTAACCCAACATTTCACAACACGAGCTGA -CGACAGCCATGCAGCACCTGTCTCACGGTTCCCGAAGGCACATTCTCATCTCTGAAAACTTCCGTGGATG -TCAAGACCAGGTAAGGTTCTTCGCGTTGCATCGAATTAAACCACATGCTCCACCGCTTGTGCGGGCCCCC -GTCAATTCATTTGAGTTTTAACCTTGCGGCCGTACTCCCCAGGCGGTCGACTTAACGCGTTAGCTCCGGA -AGCCACGCCTCAAGGGCACAACCTCCAAGTCGACATCGTTTACGGCGTGGACTACCAGGGTATCTAATCC -TGTTTGCTCCCCACGCTTTCGCACCTGAGCGTCAGTCTTCGTCCAGGGGGCCGCCTTCGCCACCGGTATT -CCTCCAGATCTCTACGCATTTCACCGCTACACCTGGAATTCTACCCCCCTCTACGAGACTCAAGCTTGCC -AGTATCAGATGCAGTTCCCAGGTTGAGCCCGGGGATTTCACATCTGACTTAACAAACCGCCTGCGTGCGC -TTTACGCCCAGTAATTCCGATTAACGCTTGCACCCTCCGTATTACCGCGGCTGCTGGCACGGAGTTAGCC -GGTGCTTCTTCTGCGGGTAACGTCAATGAGCAAAGGTATTAACTTTACTCCCTTCCTCCCCGCTGAAAGT -ACTTTACAACCCGAAGGCCTTCTTCATACACGCGGCATGGCTGCATCAGGCTTGCGCCCATTGTGCAATA -TTCCCCACTGCTGCCTCCCGTAGGAGTCTGGACCGTGTCTCAGTTCCAGTGTGGCTGGTCATCCTCTCAG -ACCAGCTAGGGATCGTCGCCTTGGTGAGCCGTTACCCCACCAACAAGCTAATCCCATCTGGGCACATCCG -ATGGCAAGAGGCCCGAAGGTCCCCCTCTTTGGTCTTGCGACATTATGCGGTATTAGCTACCGTTTCCAGT -AGTTATCCCCCTCCATCAGGCAGCTTCCCAGACATTACTCACCCGTCCGCCACTCGTCAGCGAAGCAGCA -AGCTGCTTCCTGTTACCGTTCGACTTGCATGTGTTAGGCCTGCCGCCAGCGTTCAATCTGAGCCATGATC -AAACTCTTCAATTTAAAAGTTTGATGCTCAAAGAATTAAACTTCGTAATGAATTACGTGTTCACTCTTGA -GACTTGGTATTCATTTTTCGTCTTGCGACGTTAAGAATCCGTATCTTCGAGTGCCCACACAGATTGTCTG -ATAAATTGTTAAAGAGCAGTGCCGCTTCGCTTTTTCTCAGCGGCGCGGGGTGTGCATAATACGCCTTCCC -GCTACAGAGTCAAGCATTTCTTTGCTTTTCTCTGTTGAGATTCTCAGGAGAACCCCGCCGACCCGGCGGC -GTGTTTGCCGTTGTTCCGTGTCAGTGGTGGCGCATTATAGGGAGTTATTCCGGCCTGACAAGCGAAAAAT -ATAAAAACTTTATCGTTCGCTCACTTTTCAGGCAAAACATCTTAAATATAGTCTTTTCCGTCTAACTTAT -AGACAAAAACGAGCCCCGAAGGGCTCGTTTTATCATTTACTGGACGGCGACAATCCGGTCTTCATTAACT -TCCAGGCGAATCACTTTACCCGGAACCAATTCACCAGACAGTATTTGCTGTGCCAGCGGGTTTTCGATCT -GCTGCTGAATTGCACGTTTCAGAGGACGTGCACCATAGACCGGATCGTAACCGTTCTCGCTCAGCAGTTT -CAGCGCCTCGTCAGAAATGTGGATTTCATAACCACGTTCTTCCAGACGTTTGTACAGACGTTTCAACTGA -ATCTGCGCAATCGAGGCAATGTGCTGTTCACCCAGCGGATGGAAGACCACCACTTCATCGATACGGTTAA -TGAATTCCGGACGGAAGTTATGGCTTACCACACCGAGCACCAGCTCTTTCATGTGCGCATAATCCAGTTC -ACCGAAGCGTTCCTGAATCAGATCGGAACCGAGGTTAGAGGTCATAATGACGACCGTATTACGGAAGTCG -ACCGTTCTCCCTTGCCCGTCAGTCAGACGCCCATCATCCAGTACCTGCAACAGAATGTTGAAGACATCCG -GATGCGCTTTTTCCACTTCATCCAGCAGGATGACGGAATACGGACGACGACGCACCGCTTCGGTCAGGTA -GCCACCTTCTTCATAACCGACATATCCCGGAGGCGCACCAACCAAACGAGACACCGAGTGTTTCTCCATA -AACTCGGACATATCGATACGGACCATCGCCTCGTCGCTATCAAACATAAAGTTCGCCAGCGCCTTACAAA -GCTCTGTTTTCCCCACACCAGTTGGGCCGAGGAACAGGAATGAACCAATCGGGCGATTTGGATCCGCCAG -CCCCGCACGGCTACGACGAATAGCGTTAGATACCGCATCAACCGCTTCGTTCTGACCAATTACGCGATGG -TGCAGTTCTTGCTCCATACGCAGCAGTTTTTCGCGCTCGCTTTCCATCATGCGAGAAACCGGAATCCCCG -TCCAACGCGCCAGCACTTCAGCAATTTCGGCGTCGGTCACTTTATTACGCAACAGACGCATAGTTTTGCC -TTCGAGCTGCGTTGCGGCTTCCAGTTGCTTTTCCAGTTCCGGGATTTTGCCGTATTGCAGTTCAGACATC -CGCGCCAGGTCCCCCACACGGCGAGCCTGTTCAATAGCGATTTTCGCCTGTTCCAGTTCCGCTTTAATGG -TCTGCGTACCAGAAAGCGATGCCTTCTCTGCTTTCCACTCTTCTTCTAACTCGGAGTACTGACGTTCTTT -GTCGCTCAGTTCTTCGTTGAGCATATCCAGACGTTTTTTACTGGCTTCATCAGACTCTTTCATTAACGCC -TGTTGTTCCAGTTTGAGCTGGATGATACGACGATCGAGTCGGTCGAGTTCTTCTGGTTTTGAGTCAATCT -GCATACGAATGCTGGATGCTGCTTCATCGATCAGGTCGATGGCTTTATCCGGCAGCTGACGGTCAGCAAT -GTAGCGATGAGACAACGTCGCCGCTGCAACAATTGCCGGGTCAGTAATTTGCACATGGTGGTGCAATTCG -TAACGTTCTTTCAGGCCACGCAGAATCGCAATGGTATCTTCAACAGAAGGCTCGGCAACAAACACTTTCT -GGAAACGACGTTCCAGCGCAGCATCTTTTTCAATGTACTGGCGATATTCGTCAAGCGTCGTGGCACCTAC -GCAGTGCAATTCACCACGCGCCAGCGCCGGTTTCAGCATGTTTCCGGCGTCCATTGCGCCATCGGCTTTA -CCCGCGCCGACCATGGTATGTAATTCGTCGATAAATAGGATGACGTTGCCTTCCTGTTTGGCAAGATCGT -TAAGCACGCCTTTTAAACGTTCTTCAAACTCACCGCGATATTTCGCCCCAGCCACCAGCGCGCCCATATC -CAGCGCCAGTACCCGGCGGCCTTTCAACCCTTCCGGCACTTCGCCGTTGATAATACGCTGCGCCAGACCT -TCAACGATGGCAGTTTTACCGACGCCGGGTTCACCAATCAGTACCGGGTTATTTTTAGTACGACGTTGCA -GCACCTGAATGGTACGGCGAATTTCTTCATCACGACCAATCACCGGATCGAGTTTGCCCTGTTCGGCTCG -TTCGGTAAGGTCGATGGTATATTTTTTCAAAGCCTGACGTTGGTCTTCAGCACCTTGATCGTTCACGCTT -TCACCTCCACGCATTTGTTCAATCGCTTGAGTAATGTTGGCGGTGGTCGCCCCTGCTGCTTTCAGGATGT -CGGCCAGCGTGCCGCGAGACTCAAGTGCCGCCAGAACGAACAGTTCTGACGAGATAAAGTTATCACCACG -TTTTTGCGCCAGCTTGTCGCAAAGATTAAGAACGCGCACCAGATCCTGTGATGGCTGGACATCACCACCA -GTACCTTCAACCTGCGGTAAACGATTTAATGCCTGATTGATATCTGTGCGCAACTGGCCAGCATTTATGC -CAGCGGATGTTAATAAAGGACTAACCGAACCCCCTTCCTGATTCAGCAGGGCGCTCATTAAATGAAGTGG -TTCGATAAATTGGTTGTCGTGCCCGAGTGCAAGTGATTGGGCATCGGCAAGAGCAAGCTGGAATTTATTA -GTAAGACGATCCAGACGCATAACTCCTCCCATAACGGATCAAAGTTGCTACTGGAGATTAAATGAGGTCA -TCCCTCAATTATTCAAGGTTATTGACCAGATTAATGTGAAAAGAAAATCACGCGTACCGGATCGTCTTGA -TTCTTTAGGTTATATCAGCCAAATGAAACTTGCCATACGACCGGTGGTCTTGTCGCGACGATAAGAGAAG -AAAGTCTCATTTTCCGTATATGTACAACGGTCGCCGCCGAAAATTTGCTCAACACCCACGTTCGCCAGAC -GCTGCCGGGCAAGCTGATAAATATCCGCCAGATACTTATCACCATGCTGAATGAAAGCTGCACTTGCTTT -AGCGTCTACTGCCATAAACGCCTCGCGAACCTCCCCCCCCACTTCGAACGCGCGTGGACCAATTGCCGGC -CCTAACCAGGCGAGAATATTTTCCGGATTATCAGCAAAACAGGAAACCGTCTCTTCCAGCACGCCTGCGC -ACAGTCCACGCCAGCCAGCATGAGCGGCGGCGACTTCCGTTCCCGCTCGATTGCAAAACAGCACAGGGAG -GCAGTCGGCAGTCATCACTGCGCAAACCGTGCCGGGCGTATTGCTATAAGAGGCATCCGCCCGTTTTGAG -GCATAAGGTTCGCCAGTGAGCTTAAGCACATCTTTGCCGTGTACCTGCTCAAGCCAGACCGGTTTAGAAG -GCAAATTGCCCGCAGCAAAAAGTCGCTTGCGATTCTCCTCAACGTGATCCGGGTTATCGCCACAATGGGC -ACCGAGGTTGAGTGAGTCATACGGGGGCAAGCTCACGCCGCCGATACGAGTGGAGCTACAGGCCGCAACA -CCTTTTGGCTGCGGCCACTGCGGGACAATCAGCTTACTCATAACCAGTCCACTTCATCCTTATGTTCTTC -GAAATCGGCGCGCATCACCTCAATCAGCTCCACCATATCTTGTGGAATAGGCGCATGCCATTCCATTTCG -ATGCCGGAGATCGGGTGATAAAGACGCAGCATGGTTGCATGTAGCGCCTGGCGGTCAAACTTACGCAGCG -TGGAGATAAATGCTTCCGAAGCACCTTTTGGCGGACGCGGACGGCCACCATAAACCGGATCGCCCACCAG -CGGATGAGTGATATGGGCCATATGCACGCGGATCTGGTGCGTACGTCCAGTTTCCAGACGCAACCGCAGA -CGCGTGTGCACACGGAAGTGTTCCATGATGCGATAGTGAGTCACCGCTGGTTTGCCCATCGGATGCACCG -CCATATGGGTACGTTTGGTCGGGTGGCGACTGATTGGCTCGTCCACCGTGCCACCTGCGGTCATATGACC -AATCGCCACCGCTTCATACTCACGAGTAATTTCACGCCGTTGCAAAGATTCGACTAAACGCGTCTGAGCC -GGAACGGTTTTTGCCACAACCATCAGGCCAGTGGTGTCTTTATCCAGACGATGGACGATGCCCGCACGCG -GTACATCGGCAATGGGTGGATAGTAATGAAGCAACGCATTCAGTACCGTGCCATCCGGGTTACCCGCGCC -AGGATGTACCACCAGGTCGCGCGGTTTATTAATGATAATAATGTCTTCATCTTCATAGACGATATCCAGC -GGGATATCCTGCGGTTCAAAACGCGCTTCTTCTTCAATCTCAGCGTTGATGGCAACCTGCTCGCCACCCA -ATACTTTTTCTTTCGGCTTATCACAAACTTTGCCGTTAACCAGCACTCGCTGGTCGAGGATCCATTCTTT -TATTCGCGAACGTGAATAATCCGGGAACATTTCGGCCAAAGCCTGATCTAAGCGTTGACCGAGTTGGTTT -TCGGACACCGTTGCAGTGAGCTGTACTCGTTGTGCCATATATACTGCTTCTTCGTTTATCGTTGGGGTTT -TACGGCTTTGCCGTTTAATATAGTGTGCTATTGTAGCTGGTCTTAACCGGGAGCAGGAACAGAGAATCTC -CCGTATTACATTTTGAGGAAAGTCAAAACGTCATGACGCGCATGAAATATCTGGTGGCAGCCGCCACACT -AAGCCTGTTTTTGGCGGGTTGCTCGGGGTCAAAGGAAGAAGTACCTGATAATCCGCCAAATGAAATTTAC -GCGACTGCACAACAAAAGCTGCAGGACGGTAACTGGAGACAGGCAATAACGCAACTGGAAGCGTTAGATA -ATCGCTATCCGTTTGGTCCGTATTCGCAGCAGGTGCAGCTGGATCTCATCTACGCCTACTATAAAAACGC -CGATTTGCCGTTAGCACAGGCTGCCATCGATCGTTTTATTCGCCTTAACCCGACCCATCCGAATATCGAT -TATGTCATGTACATGCGTGGCCTGACCAATATGGCGCTGGATGACAGTGCGCTGCAAGGGTTCTTTGGCG -TCGATCGTAGCGATCGCGATCCTCAACATGCACGAGCTGCGTTTAGTGACTTTTCCAAACTGGTGCGCGG -CTATCCGAACAGTCAGTACACCACCGATGCCACCAAACGTCTGGTATTCCTGAAAGATCGTCTGGCGAAA -TATGAATACTCCGTGGCCGAGTACTATACAGAACGTGGCGCATGGGTTGCCGTCGTTAACCGCGTAGAAG -GCATGTTGCGCGACTACCCGGATACCCAGGCTACGCGTGATGCGCTGCCGCTGATGGAAAATGCATACCG -TCAGATGCAGATGAATGCGCAAGCTGAAAAAGTAGCGAAAATCATCGCCGCAAACAGCAGCAATACATAA -CAGAAACCTGAAACACAAAACGGCAGCCCTTGAGCTGCCGTTTTTTTATTCTGTCAGTTGTGAAACTGAA -GCGATTTAGTCGCTATCGATCTCATCAAATATGGCTCGCTTTGAGATATTCCTCAAGTAAAAAAACATCT -CTTCCTGCGATTTCTCACAAAAAAGATTCGTTGACAAAAAGTGACAAAATTATGAGATTTTCATCACACA -TTTTGACATCAGGAACGGTATGCTGAATTCACCAAGACGGGAAGACAAGAGGTAAAATTTATGACAATGA -ACATTACCAGCAAACAAATGGAAATTACTCCGGCCATCCGCCAACATGTCGCAGACCGTCTCGCCAAACT -GGAAAAATGGCAAACACATCTGATTAATCCACATATCATTCTGTCCAAAGAGCCACAAGGGTTTGTTGCT -GACGCCACAATCAATACACCTAACGGCGTTCTGGTTGCCAGTGGTAAACATGAAGATATGTACACCGCAA -TTAACGAATTGATCAACAAGCTGGAACGGCAGCTCAATAAACTGCAGCACAAAGGCGAAGCACGTCGTGC -CGCAACATCGGTGAAAGACGCCAACTTCGTCGAAGAAGTTGAAGAAGAGTAGTCCTTTATATTGAGTGTA -TCGCCAACGCGCCTTCGGGCGCGTTTTTTGTTGACAGCGTGAAAACAGTACGGGTACTGTACTAAAGTCA -CTTAAGGAAACAAACATGAAACACATACCGTTTTTCTTCGCATTCTTTTTTACCTTCCCCTGAATGGGAG -GCGTTTCGTCGTGTGAAACAGAATGCGAAGACGAACAATAAGGCCTCCCAAATCGGGGGGCCTTTTTTAT -TGATAACAAAAAGGCAACACTATGACATCGGAAAACCCGTTACTGGCGCTGCGAGAGAAAATCAGCGCGC -TGGATGAAAAATTATTAGCGTTACTGGCAGAACGGCGCGAACTGGCCGTCGAGGTGGGAAAAGCCAAACT -GCTCTCGCATCGCCCGGTACGTGATATTGATCGTGAACGCGATTTGCTGGAAAGATTAATTACGCTCGGT -AAAGCGCACCATCTGGACGCCCATTACATTACTCGCCTGTTCCAGCTCATCATTGAAGATTCCGTATTAA -CTCAGCAGGCTTTGCTCCAACAACATCTCAATAAAATTAATCCGCACTCAGCACGCATCGCTTTTCTCGG -CCCCAAAGGTTCTTATTCCCATCTTGCGGCGCGCCAGTATGCTGCCCGTCACTTTGAGCAATTCATTGAA -AGTGGCTGCGCCAAATTTGCCGATATTTTTAATCAGGTGGAAACCGGCCAGGCCGACTATGCCGTCGTAC -CGATTGAAAATACCAGCTCCGGTGCCATAAACGACGTTTACGATCTGCTGCAACATACCAGCTTGTCGAT -TGTTGGCGAGATGACGTTAACTATCGACCATTGTTTGTTGGTCTCCGGCACTACTGATTTATCCACCATC -AATACGGTCTACAGCCATCCGCAGCCATTCCAGCAATGCAGCAAATTCCTTAATCGTTATCCGCACTGGA -AGATTGAATATACCGAAAGTACGTCTGCGGCAATGGAAAAGGTTGCACAGGCAAAATCACCGCATGTTGC -TGCGTTGGGAAGCGAAGCTGGCGGCACTTTGTACGGTTTGCAGGTACTGGAGCGTATTGAAGCAAATCAG -CGACAAAACTTCACCCGATTTGTGGTGTTGGCGCGTAAAGCCATTAACGTGTCTGATCAGGTTCCGGCGA -AAACCACGTTGTTAATGGCGACCGGGCAACAAGCCGGTGCGCTGGTTGAAGCGTTGCTGGTACTGCGCAA -CCACAATCTGATTATGACCCGTCTGGAATCACGCCCGATTCACGGTAATCCATGGGAAGAGATGTTCTAT -CTGGATATTCAGGCCAATCTTGAATCAGCGGAAATGCAAAAAGCATTGAAAGAGTTAGGGGAAATCACCC -GTTCAATGAAGGTATTGGGCTGTTACCCAAGTGAGAACGTAGTGCCTGTTGATCCAACCTGATGAAAAGG -TGCCGGATGATGTGAATCATCCGGCACTGGATTATTACTGGCGATTGTCATTCGCCTGACGCAATAACAC -GCGGCTTTCACTCTGAAAACGCTGTGCGTAATCGCCGAACCAGTGCTCCACCTTGCGGAAACTGTCAATA -AACGCCTGCTTATCGCCCTGCTCCAGCAACTCAATCGCCTCGCCGAAACGCTTATAGTAACGTTTGATTA -ACGCCAGATTACGCTCTGACGACATAATGATGTCGGCATAAAGCTGCGGATCCTGAGCAAACAGTCGCCC -GACCATCGCCAGCTCAAGGCGGTAAATCGGCGAAGAGAGCGCCAGAAGTTGCTCAAGCTGAACATTTTCT -TCTGCCAGGTGCAGCCCGTAAGCAAAAGTAGCAAAGTGGCGCAGTGCCTGAATAAACGCCATATTCTGAT -CGTGCTCGACGGCGCTAATACGATGCAGCCGAGCGCCCCAGACCTGAATTTGCTCCAGAAACCATTGGTA -TGCTTCCGGTTTACGTCCATCACACCAGACCACAACTTGCTTTGCCAGGCTACCGCTGTCCGGACCGAAC -ATCGGGTGTAGCCCCAGCACCGGACCATCATGCGCCACCAGCATGGCCTGTAATGGCCCATTTTTCACTG -ATGCCAGATCGACCAGAATACAATCTTTCGGTAAAGGCGGTAATTTGCCAATAACTTGCTCAGTAACGTG -GATTGGCACACTAACAATCACCATTCCGGCATCGGCAACAATATCAGCCGCTCGATCCCAGTCATGTTGC -TCCAGAATCCGCACCTGATAACCCGAGAGGGTCAGCATCTTCTCGAACAGGCGTCCCATCTGACCGCCAC -CGCCGACGATAACCACCGGACGCAGTGACGGACAAAGTGTTTTAAATCCTTTGTCGTTTTCACTGGAGTA -AGATTCACGCATCACCCGACGCAAAACATCCTCAATCAGATCTGGCGGTACACCCAGAGCTTCCGCCTCT -GCACGACGCGAGGCCAACATAGATGCCTCGCGCTCCGGAACATAAATAGGCAGTCCAAAGCGGCTTTTCA -CCTCGCCCACTTCAGCAACCAGTTCCAGACGCTTCGCTAATAAATTCAGCAGCGCTTTATCGACTTCATC -AATTTGATCGCGTAATGCGGTCAATTCAGCAACCATAATAAACCTCTTAAGCCACGCGAGCCGTCAGCTG -CCCGTTCAGATCCTGATGAATTTCACGCAGCAAGGCATCGGTCATTTCCCAGCTAATGCAGGCATCGGTT -ACGGATACACCGTATTTCATTTCACTGCGCGGTTGCTCGGAAGACTGATTGCCCTCGTGGATATTACTTT -CGATCATCAGACCAATAATTGAGCGATTGCCATCTTTGATTTGAGCAACCACGGATTCTGCCACCGCAGG -CTGACGGCGATAATCTTTATTGGAATTACCGTGGCTGCAATCTACCATCAGAGACGGGCGCAGTCCCGCC -TGTTCCATCTCTTTTTCACATTGCGCAACATCCGCAGGGCTATAGTTCGGCGCTTTACCACCGCGCAGGA -TCACATGGCCGTCCGGATTCCCCTGAGTTTGTAGCAACGCAACCTGCCCTGCCTGGTTAATGCCAACAAA -ACGGTGCGGCTGGGCGGCGGCGCGCATAGCGTTAATTGCTGTTGCCAGACTGCCGTCGGTGCCGTTTTTA -AAACCAACCGGCATGGAAAGCCCGGAGGCCATTTCACGGTGAGTTTGCGATTCCGTTGTACGAGCACCAA -TTGCTGACCAGCTAAACAGATCGCCCAGGTATTGCGGGCTATTCGGATCTAACGCTTCCGTCGCCAGTGG -CAGTCCCATATTCACCAGCTCAAGCAGCAATTTACGCGCGATCTGCAGCCCGGCTTCTACATCAAAAGAG -CCATCCATATGGGGATCGTTAATTAACCCTTTCCAGCCGACAGTGGTACGGGGTTTTTCAAAATAGACGC -GCATTACCAGATAGAGGCTATCGCTGACCTCTGCGGCAAGGGCTTTAAATCGACGAGCATATTCCAGAGC -AGTTTCCGGATCATGAATGGAACAAGGACCACATACTACCAGCAGACGAGGATCGCGCCCGGCGATAATA -TCTGAAATGCTTTTACGCGAGTCAGCAATCTGGGCTTCTTGTTGCAGGCTCAATGGAAAAGCGGCCTTCA -GTTGTTCCGGAGTCATTAAAACCTGTTCGTCGGTAATATGTACGTTATTCAGCGCGTCTTTTTGCATGAT -GGCGATCCTGTTTATGCTCGTTTGCGATAGTTGATCCTCAGCGAGGATGACGTAACGATAACACATAAAG -TAAAGTTTTCAATCCATATTTCGTACATTTTTATTTACACAGGCAATTTAGTCGCGCTTTCAACCCTTAC -CTCTGTATAGATAAATTTACACTCCCTTTGAAAACAATCCGCTATGCTTTGAAAAAGGAGAAAGAAATGA -TGAAAAAGTTTATCGCCCCCTTGTTGGCTTTACTGGTTAGCGGATGTCAGATTGATCCTTATACTCACGC -GCCAACCTTGACCAGCACCGACTGGTATGATGTCGGTATGGAAGATGCGATATCGGGCAGCGCCATAAAA -GATGACGATGCATTTAGCGATTCACAGGCGGATCGCGGTCTATACCTTAAAGGATATGCCGAAGGACAAA -AGAAAACTTGCCAGACCGATTTTACTTATGCCCGAGGACTTTCCGGTAAAAGCTTTCCTGCCAGCTGCAA -CAATGTTGAAAATGCCAGCCAACTGCATGAAGTATGGCAAAAAGGGGCTGATGAAAATGCCAGCACAATA -CGATTAAATTAATTAAAACCCCACAAATAAATTAAACATAAGATTTTACTCATTGTGTTTTATTTCTCAC -ATTGATGACGGTCGCATGAAAAAATGATATTTTAATGAGCATTCTGAAAAAATATCGATGCATTTCGAGC -GAAGATGGTGGGGATCCCTGAATGCGTTTTTCTCACCGACTGTTCTTACTTCTGATTCTCCTGCTGACGG -GAGCACCAATACTCGCTCAGGAGCCTTCTGACGTTGCGAAAAACGTGCGTATGATGGTTTCCGGTATTGT -CAGTTACACCCGCTGGCCTGCGCTATCAGGGCCACCAAAGTTATGTATCTTTTCATCTTCACGTTTTAGT -ACCGCCCTACAAGAGAATGCCGCGACATCTTTGCCTTATCTGCCTGTCATCATTCACACTCAACAAGAGG -CGATGATTTCAGGCTGCAATGGTTTTTATTTTGGCAACGAGTCACCGACATTCCAGATGGAATTAACCGA -ACAATATCCGTCAAAGGCGTTATTATTAATTGCCGAACAAAATACCGAGTGCATTATTGGTAGCGCCTTT -TGTCTGATCATCCACAATAATGACGTCAGATTTGCCGTAAACCTGGATGCCTTATCGCGTAGCGGTGTAA -AGGTCAACCCGGATGTCTTAATGCTCGCACGGAAGAAAAATGATGGATAACGATAATTCTCTTAATAAGC -GCCCCACGTTTAAAAGAGCATTACGCAACATCAGTATGACCAGCATATTTATCACTATGATGCTGATCTG -GTTGCTGCTTTCCGTGACCTCGGTGCTGACCCTGAAACAGTACGCGCAAAAAAACCTGGCACTGACAGCA -GCAACAATGACTTACAGTCTGGAAGCAGCTGTCGTTTTTGCCGATGGCCCTGCAGCAACTGAAACACTGG -CAGCGCTGGGCCAGCAAGGGCAATTTTCAACTGCAGAAGTACGTGATAAGCAGCAAAATATTCTGGCATC -CTGGCATTACACCCGTAAGGATCCAGGCGATACTTTCAGTAATTTCATAAGCCACTGGCTCTTCCCTGCC -CCCATCATTCAGCCGATTCGTCACAATGGTGAAACCATTGGCGAAGTACGCTTAACCGCTCGCGACAGTT -CAATCAGCCATTTTATCTGGTTTTCGCTCGCCGTACTGACCGGTTGTATTCTGCTGGCATCAGGCATCGC -AATTACCCTCACCCGCCATTTGCACAATGGCCTGGTAGAAGCGCTGAAAAATATCACCGATGTCGTACAT -GATGTGCGTTCCAACCGCAATTTTTCCCGACGAGTTTCGGAAGAACGTATCGCTGAGTTTCACCGCTTCG -CTCTCGACTTCAACAGTCTGCTGGATGAAATGGAAGAGTGGCAGCTTCGTTTACAGGCTAAAAATGCGCA -GCTTCTACGTACCGCGCTACATGACCCATTAACCGGGCTGGCTAACCGCGCAGCGTTTCGTAGCGGCATC -AACACGTTGATGAACAATTCCGATGCCCGAAAAACGTCGGCGTTACTATTTCTTGATGGCGATAATTTCA -AATACATCAATGATACCTGGGGTCATGCGACGGGCGATAGAGTCTTGATTGAAATCGCAAAACGGTTAGC -TGAATTTGGCGGGCTGCGACATAAAGCATACCGCCTGGGCGGCGATGAATTCGCTATGGTGCTCTATGAT -GTACAGTCGGAATCTGAAGTGCAGCAGATATGTTCAGCACTGACACAAATCTTTAATCTCCCGTTTGATC -TTCATAATGGCCATCAGACCACCATGACATTAAGCATTGGTTACGCGATGACCATTGAGCACGCCTCTGC -GGAAAAATTACAAGAGCTTGCCGATCACAATATGTATCAGGCCAAACACCAGCGTGCCGAAAAGCTGGTG -AGATAACAAGGATATATCGATATGATAAAGCACCTGGTAGCACCCCTGGTTTTCACCTCACTAATACTGA -CTGGCTGCCAGTCCCCTCAGGGAAAGTTTACTCCTGAGCAAGTCGCCGCTATGCAATCTTATGGATTTAC -TGAATCCGCCGGCGACTGGTCGCTGGGCTTATCAGATGCCATTCTGTTCGCAAAAAATGACTACAAATTG -CTCCCGGAAAGCCAGCAACAGATCCAAACCATGGCAGCTAAATTGGCCTCGACAGGGCTAACACATGCCC -GTATGGATGGACACACCGATAACTATGGTGAAGACAGTTACAACGAAGGCTTATCATTGAAACGGGCGAA -TGTCGTGGCCGATGCATGGGCTATGGGTGGACAAATTCCACGCAGCAATCTCACCACACAGGGTTTAGGA -AAAAAATATCCCATAGCCAGTAACAAGACCGCCCAGGGCCGCGCCGAGAACCGCCGCGTCGCAGTGGTGA -TTACTACCCCTTAAAACACCAGCAAACAGATAAAAAAGGGCCAGCCAATTGGCCAGCCCTTCTTAACAGG -ATGTCGCTTAAGCGAAATCTTAGTTAAGACGCTCTTTGATACGAGCAGCCTTACCAGTACGCTCACGCAG -GTAGTACAGTTTAGCTTTACGAACAGCACCACGACGTTTGACAGAAATGCTGTCAACTACCGGAGAGTGA -GTCTGGAAGACACGCTCAACGCCTTCGCCGTTGGAAATTTTACGAACAGTGAATGCAGAGTGCAGACCGC -GGTTACGAATAGCGATAACCACGCCCTCGAATGCCTGCAGACGTTTTTTGGAACCTTCAACAACCCATAC -TTTCACTTCCACGGTATCACCCGGACGGAAGGAAGGTACGTCCTGCTTCATCTGCTCTTGTTCAAGTTGC -TTAATAATGTTGCTCATAATTTAATCTCTTATCCTGGGTAAACTGATATCTCGGGGGCTTACGCCATCCC -ATCATGTTTATGTTGCTGTTGTGCGTGTTCCGTTTTGAACTCCGCCAGCAACCTTGCTTGCTCTTCAGTC -AGAGCCAGGTTTTCCAGAAGTTCAGGTCTTCTAAGCCAGGTACGGCCCAGCGACTGTTTCAAACGCCAGC -GACGTATCTCGGCATGGTTGCCCGACAGTAACACTGGCGGAACTTCCATCCCTTCTAACACCTCAGGCCG -CGTATAGTGCGGGCAATCCAGCAATCCTTCAGCAAAGGAATCTTCCGTTGCCGAGGCTTCATGTCCCAGT -ACTCCCGGAATAAACCGGGAAACGGAGTCAATCAGCGTCATTGCTGGTAACTCACCACCACTGAGAACGT -AATCGCCGATTGACCATTCTTCGTCAATTTCGGTTTGGATCACGCGCTCATCTATACCTTCGTAGCGACC -GCACACCAGAATCAATTTTTGATTCGTTGCCAGTTCGCTGACGCCCGCTTGATCAAGCTTGCGTCCCTGT -GGTGACAGATAAATCACCTTTGCGCCTTCACCCGCCGCGGCTTTTGCTGCATGAATGGCGTCCCGCAAGG -GTTGCACCATCATTAACATCCCCGGTCCGCCGCCGTAAGGACGATCGTCCACGGTACGGTGCCGGTCATG -CGTGAAGTCGCGAGGACTCCAGCTCTGGATGCTCAGCAGGCCATTTTTAACTGCCCGGCCAGTTACCCCG -TAATCGGTAATTGCGCGGAACATTTCAGGAAACAGGCTAATTATGCCAATCCACATAGCGCCGTCTTTTA -CCGTTTATCCGGTGGTTTAAAAACCAGGATCCCAATCTACTTCGATTGAACGAGTAGTGAGATCGACTTT -CTTGATAACCTGCCCATCGAGGAACGGTACGAGACGTTCCTTGATACCAAACGCATCTTTCAGGTTTGCC -TTAATGACGAGAACGTCATTAGATCCGGTTTCCATCATATCGACGACTTTACCGAGATCGTAGCCTTCAG -TGGTTACTACCTGGCAGCCCATCAGGTCTTTCCAGTAGTAGTCCCCCTCTTCAAGCTGAGGCAGCTGCGA -TGAATCCACGACAATTTCACAATTCGTCAGCAGGTTCGCCGCATCACGATCGTCAACGCCTTTCAGCTTG -ATGATCATGTCCTGATTGTGGTGCTTCCAGCTTTCCAGCTGGACTTGCTGCCACTGACCCGCCTTCTGGA -TAAACCAGGGCTGATAGTCAAAAATGCTTTCGGCGTCTTCGGTGGAAGAAAACACTCTGAGCCACCCACG -AATACCGTAAGACGAACCCATTTTTCCCAAAACGATGGGATCAACAGGTGCTTGCGCGGTGAGTTGTTTG -CTCATCATGACCACCGTGACAGATTAAGCTGCTTTGTTTACTTCTTTGATCAGCGCAGCAACGCGATCAG -AAATAGTTGCGCCCTGGCCAACCCAGTGAGCGATGCGATCCAGATCCAGGCGAGTGCCTTCTTCTTTTTC -GCTAGCGATTGGGTTGAAGAAACCAACGCGCTCGATGAAGCGACCGTTGCGTGCATTACGGCTGTCAGCG -ACAACAACCTGGTAGAACGGACGCTTTTTAGCGCCGTGACGTGCTAAACGAATAGTTACCATAACATCCT -CTTGTGTGAATAAAACAACCGGACCCCATCGAGGAACGGAGTCCGGTGTCATATTAAAAGCCCGAAAATT -TTACTCATTTTTGCGGGAATTGCAATCAACAGTTGCTAACTCTGCTGTAAAAGGCCGTCGGCGGTGCAGC -CAGTTTGGTGCCGGAGTGCGCGCAGTCACCGGAGCGTACACGCAGTACGTGAGGATGACGAGCACATCCC -GGTGCCAAAATGGCAAACAAGCCAGGCCGATTAGCGACCAGGGAAGCCTGGGGGCATCATACCCTTCATG -CTTCTCATCATCTTCGCCATTCCGCCCTTCTTCATTTTCTTCATCATGCGCTGCATGTCGTCGAACTGTT -TCAGAAGACGGTTAACGTCCTGCACCTGCATACCGCAACCGGCAGCAATACGGCGTTTACGCGAACCTTT -GATGATTTCTGGCTTAGCGCGCTCTTTCATCGTCATCGAGTTGATGATGGCTTCCATACGCACCAGCACT -TTATCGTCCATCTGTGACTTGACGTTATCCGGGATCTGCCCCATGCCCGGCAGCTTGCCCATCAGACTAG -CCATGCCGCCCATATTTTTCATCTGGCGCAGCTGCTCAAGAAAGTCGTTGAGATCGAAGCCGTCACCTTT -TTTCAGCTTGCTGGCTAATTTCTCTGCCTGCGCGCGGTCAACTTTGCTTTCGATATCTTCGATCAGCGAC -AGTACGTCGCCCATGCCGAGAATACGCGACGCGATGCGGTCCGGATGGAACGGCTCCAGCGCCTCAGTTT -TCTCGCCAACACCGAGGAACTTGATCGGTTTGCCAGTGATGTGACGAATAGAGAGCGCCGCACCGCCGCG -GGCATCGCCGTCCACTTTGGTCAACACTACGCCGGTAAGCGGTAACGCTTCATTGAATGCTTTTGCCGTA -TTGGCCGCATCCTGACCGGTCATGGCGTCAACCACAAACAGGGTTTCAACCGGGTTAATCGACGCATGGA -CTTGTTTGATCTCGTCCATCATCGCTTCGTCAACGTGCAGACGACCAGCGGTATCCACCAGCAGCACGTC -GTAGAATTTCAGTTTGGCTTCTTTCAGCGCCGCGTTAACGATATCTACCGGCTTCTGACCAACATCAGAA -GGGAAGAAATCAACGCCCACCTGCTCTGCCAGCGTCTCAAGCTGTTTGATTGCCGCCGGGCGATAAACGT -CGGCAGAAACCACCAGCACTTTCTTCTTGTGCTTCTCGCGCAGGAACTTACCGAGTTTACCAACGCTGGT -TGTTTTACCGGCACCTTGCAGGCCCGCCATCAGTACGACCGCAGGCGGTTGCGCAGCCAGGTTCAGGGTC -TGGTTCTCTTCGCCCATCGCCGCAACCAGTTCGTTACGGACTATTTTGACGAACTCCTGCCCCGGCGTCA -GGCTCTTATTAACTTCATGACCAACCGCTTTCTCTTTTACGCGATTGATAAACTCACGCACTACCGGCAG -AGCTACGTCCGCCTCCAGCAGCGCCATGCGCACTTCGCGCAGCGTATCTTTTACGTTGTCTTCAGTGAGG -CGTCCACGGCCACTGATATTGCGCAGCGTGCGCGACAAACGATCGGTTAAATTATCAAACATTGTCTCTC -GCCTGGGGTGGAAACGGTTGGCCGCAATCGCGACACATCATCAGTATTTTGCCGCAGTATAACATGAAGG -CGTCTTTGTTGTTATGCAACGGTTGGAGCAGCGTTCACCTGACGCTATACTGCTTCTCTTTCTTATTGCT -CAAACTGTCGACATCACTATGCCCGTTTTTGCTCTGCTCGCGCTTGTCGCCTACTCCGTCAGTCTTGCGC -TGATTGTTCCCGGTCTGCTGCAAAAAAACGGCGGCTGGCGGCGCATGGCTATTATTTCTGCGGTCATTGC -GCTGGTCTGCCACGCAATCGCTCTGGAAGCCCGCATCCTGCCCGACGGTGATAGCGGACAAAACCTCAGC -CTGCTGAACGTTGGTTCATTGGTCAGTTTGATGATCTGTACGGTAATGACCATTGTGGCTTCTCGCAATC -GTGGCTGGCTGCTGCTACCCATTGTCTATGCCTTTGCGCTTATCAACCTGGCGCTGGCAACCTTCATGCC -CAATGAATACATCACCCATCTGGAAGCTACGCCTGGGATGCTGGTGCACATTGGCTTATCGCTCTTTTCC -TATGCCACGCTAATTATCGCCGCCCTGTACGCACTGCAACTGGCGTGGATTGATTACCAACTGAAGAACA -AGAAGCTGGCGTTTAACCAGGAAATGCCGCCATTGATGAGTATCGAGCGTAAAATGTTCCACATCACGCA -GATTGGCGTGGTGCTGCTAACGCTCACGCTTTGCACTGGCCTGTTCTACATGCACAACTTATTTAGCATG -GAAAATATCGACAAGGCTGTGCTCTCTATCGTGGCGTGGTTTGTCTATATTGTGCTGCTGTGGGGACATT -ATCATGAAGGATGGCGTGGACGCCGCGTCGTCTGGTTTAACGTTGCGGGCGCGGTAATTCTGACACTGGC -CTACTTCGGCAGCCGAATTGTCCAGCAGTTAATCAGCTAAACCCAGAAAAGGAGTTTCCCCTGGAACACA -TTTCTACTACTACGTTGATCATTATTCTGATCATCATGGTGGTCATTTCAGCCTATTTTTCCGGGTCCGA -AACCGGAATGATGACCCTCAACCGCTATCGTCTGCGACATATGGCGAAACAGGGTAATCGCTCGGCCAAA -CGCGTCGAAAAATTGCTGCGTAAGCCAGACCGCCTGATAAGCCTGGTGTTAATCGGCAATAACCTGGTCA -ATATTCTTGCCTCCGCGCTCGGCACTATTGTTGGGATGCGTTTGTACGGCGATGCGGGCGTGGCAATTGC -GACTGGTGTGCTGACTTTTGTCGTACTGGTATTTGCTGAGGTATTGCCGAAAACCATTGCCGCGCTGTAC -CCGGAAAAAGTCGCTTATCCGAGTAGTTTTCTGCTGGCTCCGCTGCAAATTTTGATGATGCCGCTGGTCT -GGTTGCTGAATGCTATCACCCGTATGCTGATGCGCATGATGGGTATCAAAACCGATATCGTGGTTAGCGG -CTCTTTGAGCAAAGAAGAGTTGCGCACTATCGTGCACGAATCACGCTCACAAATTTCCCGTCGCAATCAG -GATATGCTGCTGTCGGTGCTCGATCTGGAAAAAATGACCGTTGATGACATCATGGTGCCGCGCAGTGAAA -TTATCGGTATTGATATCAACGATGACTGGAAATCGATTCTGCGCCAACTCTCCCACTCACCTCACGGGCG -CATCGTGCTCTACCGTGATTCGCTGGACGACGCCATCAGTATGCTGCGAGTACGTGAAGCCTGGCGGTTG -ATGTCGGAGAAAAAAGAGTTCACCAAAGAAACCATGCTGCGCGCCGCGGACGAGATCTATTTTGTGCCGG -AAGGTACGCCGCTCAGCACGCAGTTGGTAAAGTTTCAGCGCAACAAAAAGAAAGTCGGCCTGGTCGTCAA -CGAGTATGGAGACATTCAGGGGCTGGTGACGGTTGAAGATATTCTGGAAGAGATTGTCGGCGATTTCACT -ACGTCGATGTCGCCAACACTTGCCGAAGAGGTCACGCCGCAAAACGACGGTTCGGTGATTATCGATGGCA -CCGCCAACGTGCGGGAAATCAACAAAGCCTTTAACTGGCATCTACCGGAAGATGATGCCCGCACGGTTAA -TGGCGTCATTCTTGAGGCACTGGAAGAGATCCCTGTCGCAGGCACCCGCGTGCGTATTGGCGAGTACGAT -ATCGATATTCTCGACGTACAGGACAATATGATTAAGCAGGTAAAAGTTTTTCCTGTGAAACCGCTGCGCG -AGAGTGTGGCGGAGTAACGAAAACGGCCCGGCATTCGCATGCAGGGCCGTGAATTATTACGAAAGCAGAA -ATTAAGCTTTTGCTTTCGCTACAGTAACCATCGCCGCACGAATCGTACGACCATTCAGCGTATAACCCTT -CTGCATAATGCCCAGTACGTTACCTGGCGCAACGTCATCAGATTCCACCATTGCGATGGCCTGATGCACA -TTCGGGTCCAGTGGGACGTTAGTTTCGGCGATCACTTCAACGCCAAACTTACGCACAACATCCAGCATCG -ACTTCAGCGTCAGCTCAATGCCTTCAACCATCGCAGACATATCCGGGTTAGCTTTATCAGCCACTTCCAG -CGCACGATCCAGGCTATCAATCACCGGCAGCAATTCGTTGATGAATTTCTCCAGCGCGAATTTGTGGGCT -TTTTCAATATCCAGTTCAGTACGACGACGCAGGTTTTCCATTTCGGCTTTTACACGCAAAATGCCGTCAC -GTTCACGGGTCTGGGCTTCAGCCAGCTGAGCTTCGAGATTCGCAACTTTTTCATCGCGCGGATCCACCTG -CTCAGCAGAAGCTTCTGGCTCAACTGCCTCAATCTCTTCGTGCTGATCCATGATAATTTCTTCCGGGGCT -TGCCCCTCAGGCGTTTTCTGTTCTTTACTACTCATGAATTTCTCCGCGTTTTTTTCGCATTCATCTCGCT -AACTTCGCTTATTATGGGGATCAGTTTCAGGGTTTCAAGGGAAGCACTCACATTGTCATCAATCTTCGCA -ACAAGGACCTCGGAAAAATGAATAATCATTTCAAGTGTATTGGCATTGTGGGACACCCACGGCACCCCAC -TGCACTGACAACACATGAAATGCTCTACCGCTGGCTGTGCACAAAAGGTTACGAGGTCATCGTTGAGCAA -CAAATCGCTCACGAACTGCAACTGAAGAATGTGAAAACTGGCACGCTCGCGGAGATTGGGCAACTAGCTG -ATCTCGCGGTAGTCGTTGGTGGCGACGGTAATATGCTGGGCGCGGCACGCACACTCGCCCGTTACGATAT -TAAAGTTATTGGAATCAACCGTGGCAACCTGGGTTTCCTGACTGACCTTGACCCCGATAACGCCCAGCAA -CAGTTAGCCGATGTGCTGGAAGGCCACTACATCAGCGAGAAACGTTTTTTGCTGGAAGCGCAAGTCTGTC -AGCAAGATTGCCAGAAACGCATCAGCACCGCGATAAATGAAGTGGTGCTTCATCCAGGCAAAGTGGCGCA -TATGATTGAGTTCGAAGTGTATATCGACGAGATCTTTGCGTTTTCTCAGCGATCTGATGGACTAATTATT -TCGACGCCAACAGGCTCCACCGCCTATTCCCTCTCTGCAGGCGGTCCTATTCTGACCCCCTCTCTGGATG -CGATTACCCTGGTGCCCATGTTCCCGCATACGTTGTCAGCACGACCACTGGTCATAAACAGCAGCAGCAC -GATCCGTCTGCGTTTTTCGCATCGCCGTAACGACCTGGAAATCAGTTGCGACAGCCAGATAGCACTGCCG -ATTCAGGAAGGTGAAGATGTCCTGATTCGTCGCTGTGATTACCATCTGAATCTGATTCATCCGAAAGATT -ACAGTTATTTCAACACATTAAGCACCAAGCTCGGCTGGTCAAAAAAATTATTCTAATTTTACGCCAGCCT -CTTTACTGTATATAAAACCAGTTTATACTGTACACAATAACAGTAATGGTTTTTCATACAGGAAAACGAC -TATGTTGGCACAACTGACCATCAGCAACTTTGCTATCGTTCGTGAGCTTGAGATTGATTTTCATAGCGGC -ATGACCGTAATAACTGGCGAGACCGGCGCGGGTAAATCTATTGCAATAGATGCCCTCGGTCTTTGTCTCG -GTGGTCGCGCTGAAGCCGACATGGTGCGTACCGGCGCTGCTCGCGCTGACCTGTGCGCCCGTTTTTCTCT -GAAAGATACGCCAGCGGCTCTGCGCTGGCTGGAAGAAAACCAGCTTGAAGACGGGCATGAATGTTTGCTT -CGTCGCGTGATCAGCAGCGATGGTCGCTCCCGTGGTTTCATCAACGGTACAGCTGTTCCTCTGTCACAAC -TGCGCGAACTGGGTCAGTTGCTGATTCAGATCCATGGTCAGCACGCTCATCAATTACTCACCAAACCTGA -GCACCAAAAATTCCTGCTTGATGGCTATGCCAATGAAACCTCTCTACTGCAGGAAATGACCGCACGTTAT -CAGTTGTGGCATCAAAGCTGCCGTGACCTCGCGCATCATCAACAGTTAAGTCAGGAACGCGCCGCCCGTG -CGGAACTGCTGCAATACCAATTAAAAGAACTTAACGAATTTAATCCGCAGCCCGGAGAGTTTGAACAAAT -CGACGAAGAGTACAAACGTCTGGCGAACAGCGGTCAATTGCTGACCACCAGCCAGAATGCATTGGCATTA -ATGGCCGACGGTGAAGACGCAAACCTGCAAAGTCAGCTTTACACGGCTAAACAACTGGTGAGCGAATTGA -TTGGCATGGACAGCAAACTGTCCGGCGTACTTGATATGCTGGAAGAAGCTACCATCCAGATTGCTGAAGC -CAGCGATGAACTGCGCCACTACTGCGATCGTCTGGATCTCGATCCCAACCGACTATTTGAACTTGAACAG -CGCATCTCAAAACAGATTTCGCTGGCACGTAAACATCACGTCAGCCCTGAGGCATTGCCACAGTATTACC -AGTCGCTACTGGAAGAACAGCAGCAACTGGACGATCAGGCCGACTCACAAGAAACGCTTGCGCTGGCGGT -AACGAAACATCATCAGCAGGCACTGGAAATCGCGCGCGCATTACACCAACAACGCCAGCAATATGCAGAA -GAACTTGCACAGCTGATCACCGACAGTATGCATGCGCTCTCAATGCCGCATGGGCAGTTTACGATCGATG -TTAAATTTGACGAGCATCACCTGGGCGCTGACGGTGCCGATCGTATTGAGTTTCGGGTAACCACCAACCC -AGGTCAGCCAATGCAGCCTATTGCCAAAGTCGCATCCGGTGGTGAATTGTCCCGCATCGCACTGGCAATC -CAGGTCATCACGGCGCGTAAAATGGAAACCCCGGCACTGATTTTTGATGAAGTGGATGTAGGGATTAGCG -GTCCAACAGCGGCAGTTGTCGGCAAACTGCTGCGTCAACTCGGCGAATCAACTCAGGTGATGTGTGTTAC -CCACCTGCCACAAGTCGCGGGATGTGGTCATCAACACTATTTTGTCAGCAAAGAAACCGATGGTGCGATG -ACAGAAACGCATATGCAATCCCTGAATAAAAAAGCGCGGTTACAAGAGCTGGCGCGCCTGCTTGGTGGCA -GTGAAGTCACACGTAATACACTGGCGAATGCGAAAGAACTGCTTGCAGCGTAAACTTTTTTCCTGCTTCA -CGGTCAGAGTAAACAGCAAAACGCCGTAAGACCGGAAAGCAAAAGGTTTTAAAGTGATGAAAGGTCTATT -ATCATCGGCATATTACAGATGAGCCACGTACTGCTCGGGCCCGAAAAGGAATCAAATCACTATGCGCTGT -AAAACGCTGACTGCTGCAGCAGCAGTACTATTGATGTTGACCGCAGGCTGTTCCACTCTGGAGCGAGTGG -TTTACCGTCCTGACATCAACCAGGGGAACTATCTGACCGCTAACGACGTATCCAAAATACGTGTTGGCAT -GACGCAACAACAAGTTGCGTACGCATTGGGTACACCGCTGATGTCCGATCCATTTGGTACGAATACCTGG -TTCTATGTCTTCCGCCAGCAACCAGGTCATGAAGGTGTAACTCAGCAAACGCTGACGCTGACCTTTAACA -GTAGCGGTGTGTTGACCAATATTGATAACAAACCTGCGCTGAGTGGTAACTAATAATAAAGTTGCTCTCA -AAGACGTTAAAAAAGGTGCTCAATGAGCACCTTTTTTCTGTCTGTTATTTATTCGCTGATTTTTCTGCTC -GTTGCCTGCGAAGCTCTTTCGGATCGGCAATGAGAGGGCGATAAATCTCCACCCGATCGCCATCATGCAC -ACTATCGCTTAGTTTTGCCGGACGGCTGTAAATGCCGACTTTGTTTTTAGTTAAATCGATATCGGTACGC -AATTCCAGCAAGCCACTGGCGCGAATAGCTTCTTCAACCGTCGCGCCCTCCTGCAGCGTCACTCGCTGCA -GGTACTGCTTCTCAGGTAGCGCATAAGCCACCTCAACGGCAATTTTACCTGGCACTGTAAACCTCTTTCG -CACGAACCGTAAAAGCCTGGACCATATTAGCCGCCAGCTCTTTAAACACGCGACCAAAGGCGAGTTCAAT -CAACTTATTGGTAAACTCAAAGTCGAGATGAAACTCGATACGACACGCCTCCTGGCTCAGCGGCGTAAAC -TTCCATCCACCAATCAATTTCTTGAACGGCCCATCCACCAGATTCATAAGAATACTTTGGTTACTGGTCA -ACTGGTTGCGGGTAGTAAACGTTTTGCTGATCCCAGCCTTAGAGACATCTACCGCCGCAGTCATCTGCCC -AGGAGTGGACTCCAGAATCCGACTTCCGGTACAACCCGGCAAAAACTGAGGATAAGACTGAACGTCATTC -ACTAACTGATACATTTGCTCCGCGCTGTAGGGTACCAGTGCGGTCCGGCTAATCTGAGGCATAACAATTT -CCATCAACAAAAATCCAACAAATAATATCATTTATCCTGCTGTAAAAAAAACGCTATCCCGGCGCTGGGT -AACATCGGGTTCATGCTAAGATAGAGCCTTGTCCCCCGCAGGATTGATATGGGGTGTTTTCGATTTCAGA -TTACCGATGATTCACGACGCTTATGACGAAGAAAAAAGCACATAAACCTGGTTCAGCGACCATCGCGCTT -AACAAGCGCGCCCGTCACGAATACTTTATCGAAGAAGAGTTCGAAGCGGGACTTGCCCTGCAAGGCTGGG -AAGTTAAATCCCTGCGCGCAGGAAAAGCCAATATCAGCGACAGCTACGTCCTTCTGCGTGACGGAGAGGC -ATTTCTGTTTGGCGCTAACATCACGCCAATGGCCGTGGCCTCCACGCATGTGGTGTGCGATCCTACCCGT -ACCCGCAAGTTACTTCTCAACCAGCGCGAACTGGACTCATTGTACGGTCGCGTCAATCGAGAAGGCTATA -CCGTAGTGGCGCTCTCCCTGTACTGGAAAAATGCCTGGTGCAAAGTGAAAATCGGCGTCGCCAAAGGTAA -GAAACAGCACGATAAACGTTCAGATATCAAAGAGCGCGAATGGCAGGTGGATAAAGCACGTATCATGAAA -AACGCCCACCGTTAAACCTGCACTCCAATTATTGACCAGTTCCTCACCGCGCCTCCCTCTCCGGCGGCGC -GAATGAACATCTTATTGGCTATCACATCCGACACAAATGTTGCCATCCCATTGCTTAATCGAATAAAAAT -CAGGCTACATGGGTGCTAAATCTTTAACGATAACGCCATTGAGGCTGGTCATGGCGCTCATAAATCTGGT -ATACTTACCTTTACACATTGGGGCTGATTCTGGATTCGACGGGATTTGCGAAACCCAAGGTGCATGCCGA -GGGGCGGTTGGCCTCGTAAAAAGCCGCAAAAAATAGTCGCAAACGACGAAAACTACGCTTTAGCAGCTTA -ATAACCTGCTTAGAGCCCTCTCTCCCTAGCCTCCGCTCTTAGGACGGGGATCAAGAGAGGTCAAACCCAA -AAGAGATCGCGTGGAAGCCCTGCCTGGGGTTGAAGCGTTAAAACTTAATCAGGCTAGTTTGTTAGTGGCG -TGTCCGTCCGCAGCTGGCAAGCGAATGTAAAGACTGACTAAGCATGTAGTACCGAGGATGTAGGAATTTC -GGACGCGGGTTCAACTCCCGCCAGCTCCACCAAAATTCTCCATCGGTGATTACCAGAGTCATCCGATGAA -GTCCTAAGAGCCCGCACGGCGCAAGCCCTGCGGGCTTTTTTGTGCCCTCAATTTGTCCCGCGAAGTCCGA -AGAGAACTAATTAAATCCGAACCTTTTAGGCCCATTGATAGGCCCAACGAAAAGCTCTATTGTTTACGTT -GGGCCTAAACGCAGGGAGACTCCCCATGGCAAGAAAAACCAAGCCGTTAACTGATACGGAAATCAAAGCC -GCCAAACCTAAAGATGCCGATTACCAGCTTTATGACGGTGACGGGCTTACTCTGTTAATCAAGTCCAGTG -GCAGTAAGCTTTGGCAATTCCGTTACTATCGGCCTTTGACCAAGCAGCGAACCAAACAGAGCTTCGGTGC -CTATCCTGCCGTCTCGCTTTCTGATGCACGTAAACTCAGAGCCGAATCTAAAGTTTTATTGGCGAAAGAC -ATTGATCCTCAGGAACATCAGAAAGAACAGGTGAGGAATTCTCAAGAGGCCAAAACCAATACCTTCTTGT -TAGTTGCCGAGCGTTGGTGGAATGTGAAGAAAACCAGCGTAACAGAGGACTATGCCGACGATATCTGGCG -CTCGCTTGAGAGAGATATTTTCCCGGCAATCGGTGATATCAGTATCACTGAGATTAAGGCTCATACTCTG -GTTAAAGCAGTTCAGCCGGTTCAGGCCAGAGGTGCATTAGAGACTGTTCGCCGCCTTTGTCAGCGTATTA -ACGAAGTCATGATTTATGCGCAGAACACAGGCCTGATTGATGCTGTTCCTAGTGTAAATATCGGAAAAGC -TTTCGAGAAACCGCAAAAGAAAAACATGCCAAGCATCCGGCCGGATCAACTTCCGCAGCTAATGCACACC -ATGCGTACGGCAAGTATCAGCATGTCCACAAGATGCCTGTTCATGTGGCAACTTCTAACCATCACCCGCC -CTGCCGAAGCTGCTGAGGCTCGATGGGATGAGATCGATTTCAATGCTAGCGAATGGAAAATTCCTGCAGC -TCAAATGAAGATGAACCGGGACCATACGGTTCCACTATCTGATGGGGCTCTTGCTATTCTGGAAATGATG -AAGCCTCTCAGTGGTGGCCGAGAATTTATCTTTCCTAGCCGTATCAAGCCCAACCAACCAATGAATAGCC -AAACAGTGAATGCAGCACTCAAGCGTGCTGGCTTAGGAGGTGTACTTGTTTCACACGGCTTGCGTTCTAT -CGCCAGTACGGCACTCAATGAGGAAGGATTTCCACCTGATGTCATTGAAGCAGCGCTTGCTCATGTAGAC -AAAAATGAGGTGCGTCGCGCTTATAACCGCAGTGATTATCTTGAGCAACGTCGTCCGATGATGCAATGGT -GGGCTGATCTCGTAAAAGCAGCAGATAGTGGTAGCATCGTTTTAACTCATTTGAGCAAAATTCGTCTTGT -CGGATAAAATATTTATCAGCCCAGCTCTCTGGGCTGATATTTCTAAAAGATCGCACTAAATAGCTACGCG -GAATAGTGCTCTACTTTCGTTTAGCCCTTTCAGAGGTAAGACATTAGGGCAATTTCACTGTATGACTGCG -CAGTCATCGAGTCTGTGGGGTGTTGCTCCTTTTGCAACGTATCACTTGTCAATAAATAGAAAGTGTAGAT -GTATTAGGCGCAGCTATTTAGTCTATATGGCAAGTAGTAATTATTTACTTCTTTTTTTTCTACGAACAGC -GCTATCGAAAGCTTGTTTTACATCTTCATTTTTTAAAGACCATTGATTTAAAATAGTATCAACCAAAGCA -TCTTGACTCATTGTTGCTACACGATATTTTTTATTTTGATTATTTATCTCAAACTCTGACATTTGAATAA -AATCCCATAGCGGTTCGATAAGTTCATTAACTGCTACAACCTTATTTTTCCACCCATCATTCGGAACAGA -GTCATTAATTAGCTCAACCAACTTCAGTTGAATGATATGGTACACTTCCGCTTTGCTTTTGCCACCCTTC -TTTCCTGCACTCCGCCTGACTTCTGATAATTTTTTTTGATTACAAACAGAGATGTTAAACCAAGTCATAC -CTATGCACTTATCAAATAACTCCGCAGCCCGATGAAATGCTTTAAAGGCAACGTTTTCATTTTCAGACAT -GATAGATTTTCCCCAGAAAAAAGAGATTGAGGCGAACATAAGGTGTGCCTTGAAAATGTCATTAATGGAA -AATGGCTCGATAACAAGAGGTAAAAACGTTTCCTTGGTAAGGTTTGAACTTAGATTTTTCCAGCATTCTT -GAGCTGGATCATATAATTCAGTGTATTCTTCCTTTATCTCCAGTTGCCCATTCACTGTATGGTGCCTTGT -TTCCCATGGTACATCGCAGGAATATAACCTCACACGAGTACCTATTTTCTCAGAGCTCCAGAATTGCTCT -CGCATTCTGCCTAGCTCAATCCGTATTTCCGGATGATCTTCCTCTAGAACATCAGTATCCACCGCCCATT -CGCATTCGGACATGTGATAGGCGAGATCACGTCGTTTTCTACAAATTTGTTCATAAAAATCATTCAGAGA -AATCATAAAACCACCATAAATCAATGTATTAGAGGTTGTAAAAATTGTATTTTTGGTACATGGGTTTTTT -GCCTTAAAGATACCCATTAATCTCTCTGCAACCAAAGTGAACCAATGAGAGGCAACAAGAATGAACAATC -GATCGGCCGTTAGAATACTACGGTTACCAGCGGTTATCCAAAAAACAGGTATGGCACGGGCCACCATCTA -TGACTGGTTGAACCCCAAATCACCACGATACGATGCCACCTTTCCCAAAAAGCGAATGCTCGGCGTGAAA -TCTGTCGGATGGATTGAGGCCGAGATTGATGAGTGGTTATCACAACGCTGTAAACTTATTTGAGGGTGTT -ACATGAATTCATACTCAATTGCTGTCATCGGAGTGTAAACATCCTGCTATTTCCGCCATTAATAGCGGAA -TAGCCATATTTGCTAAACAATTTCTTAATTTAATTAAATAAGAGGCATTGCATGTTCAATGGTCGTCCTT -TCCCTGTAGATGCATTTCCTAAAATTATCAGGAATGCAATTTATGAAGTGGAACAGCATACGCAGGCCCC -TCAAGGTTTGATTGCTGCTTCTGCTCTTGGGGTAATTTCTCTTGCCTGTCAGAACCGGATTGATGTTTGC -CGATTGAATAATCTACGTGGCCCGGTATCACTTTTCTTAATGACTCTGGCTGAATCAGGTGAACGTAAGA -GTACGGTTGATAAACTGCTGATGAAGCCATTATATCAACTGGAAGAGGATTTATTTGAAAAATACACCCA -CGATCTTACCGCATGGAGAAATGATGAAGCAATTTTTAATATTGAAAAAAAAGCACTGATGTCAAAACTT -AAATCAGATATTCGACGTAACAAAGATCACTTGGCAACAAATGAAAGACTTAAAGAACTACTTACGACAA -ACCCGAAAGCTCCAGTGAGATTCAAATTTTTATTTAACGATGCCACACCTGCAGCTATTAAAGCTCATCT -CTGTGGGCACTGGCGATCAGTCGGCATCATGTCTGATGAAGCTGGGATCATTTTTAATGGTTACACACTT -AACGAGCTGCCGTTTATCAATAAGATGTGGGATGGTTCAATATTTACGGTGGAAAGGAAAAACGAGCCCG -AGAAATTAATTAGAGATGCAAGAATAACACTGTCGCTGATGGTCCAGCCTAATGTTTTTAAGGGTTATAT -CGACAGGAAAGGAGATATGGCAAAGGGGATTGGATTTTTTGCACGGTGCCTCATGTGCCAGCCTGCTTCA -ACACAAGGTAACAGAAAAATTTCCAACCCAATTTTTTCAAATGAACATTTGCCGGTATTTCACCAACGTC -TTATGGAAATTGTTAATGAGAGCATCATTAAAATTAATGAAAATAATCGCATCTGCCTCCGATTCTCTGC -AGAAGCAGAAAGACATTGGATCGAATTCTACAACCAGGTCGAGTCAGAAATGAGAATGATTGGCCTTCTT -TATGATTTTAAGGATTATGCTTCTAAAATGGCGGAGAACATGGCGAGGCTTGCTGCCTTACTTCATTACT -TCAGCGGTGATGGAGGCGATATATCTGTTACCGCAGTAAAAGCAGCAGTGGAGATAGTGGCTTGGTATAT -TGAAGAATACATCCGCTTGTTCTCTAAAAAAGAAGAGTTTTCTTTAGATGTTTCAGAAGCAGATGAGCTT -TATTGTTGGATAAAAGATTACTGCACGCAAAAATTTTCTTCCTGCATCAAGAAAAATATTATCTTACAAT -TTGGGCCAAATAAATTTAGAAATCGTGACAAGGCAAATGAATTAATTAGAATCTTAATTTCACAAAACAA -AATATTTATATCTTCATGGGGTAAAACAAAAATAATAAACATAACTCATTGTGTTTTTTGATTTTAATGA -CAATCTAAAAGGACTTAATTTAAGAGTAAAAACAAACTCTAAACCCAGTTCGGATAAAAGCTTGTCATCT -TGATAGGTAATATATAGGTACATAGACACATCAGAACGATCACTTACTCCAATATCATTGGCCAGGATAC -TATATGACATACGATAGTGAATTCGGATCACATGTATCCCTATATCGGGATAGAATCAAACAGGTTATTG -ATGACTCCCTAAACGAACATCTTAACTCAATGATTCTACGTGTTGATCTGCATGACCCAATTGATACAGA -AAATATGGATAACCCATTCTTTCAACCCAGGGTTGACTCTGGTGCTATATCTCGCTTTACCAGTGCGTTA -AAAGCAAAGCTTAAACATGATAAGCATATTAAAACTCAACGGAAAGACTGGCCTGATAGTCGACATTCCA -CTTTACGTTACGCATGGGTCAGAGAATATACCAAAAATAGAAAGCGGCATTACCATTTGATACTGTGTTT -CAATCAGGATGCTTATTATCATTTAGGTGATTACGACTTAAACCGTAACACGTTACGTACAATGATAACG -ACAGCTTGGTACAGTGCACTTGGCATCCCTATAGATAGCTCGGGGAAGTTAGTTAATTACCCGCCAAATG -GCAAATACCTTCTCAATCGTAAAAGGGACAACTTTGAGCAGACTTATAGCGATTTGATGAATAGGGTGGA -TTACATGACCAAAGTAAGGACTAAAATAGTCGGTGACGGAGACCGTAATTTCGGCTGCAGTCGCGGGTAA -TTTATTTTTTACAACAATGGCCTTTCTTATGGCTGGAAAGGCCTGATTTGTTTGTATTAAGATATCGGTA -ATCTTTTGATGGTTGGAAGCCCGTCCTGGTAGACGACCTAGCCTACCGAAGATGTGAGTTATTCAAAAAT -GTCGCTTTCCCGCGTTCCGTAGACAAACGTACCTAAATCAATGTCGTCTAATACCGAGCGCGCGCCTGAT -AAACATCTGATCAACGTACCCAATCGATCTACTCCAAATGTCCTGAGTATCCCGAAGATACTGGCTCAAC -TCATCCACATCAGCCTCGTCGGAAAATTCCAGCAAGTCTACCAGTCGGTGTAACGTCTGAATGGGAATGC -CAATCTCTTCTAAGGCATTGACACCTGGTGGTAGATGGAAACTTTCGAACGCCAATTTGACATGTGTGTA -ATCGACTTTGCTGCGTATACCACGCTTTACAGCGTGGTGTTTAACTACATCCTCCATCAAGCTGAGCACC -TTAGGTAGGGTATAGCCGAAGGTATTGGTTATGAGCTTCAAATCATTGTTGAGGGCAATGGAAAGAGTAC -GTTTCTCCCCTTCAGAAATCCACTGTCGTGCATAATCGATCTGATTTTTCAGATATTCCGAATAACTTTC -AGCACTTAAATAGCCGGCAAGTTTTGCGATCATGACATCCGTAGGCTTAACAGGGACCCCATTGCGACTG -AACGTATGGGGAACCAGTCTGGCAATGATCTTTGCAAAGGTCTTGAGGAAGTTTGTCGCGGGAGTCCAGT -GAAACACTAACGAGGAAAATTCGTTATCGTCCATCATCTCGAACATGCTTTGCAGCATTTCGAACTGCTC -GACACGGAAGTACGAATGCTTCTTCACAAGGTCGATGGAAACACGGTCGTTTATGAAAACCTCATCAAAG -CGATCCTGTGAAAACTCGGACAAGTGGTCTGGTTGAACGCTGGCTAACAGGTTGATTGGGGTATCAATGC -CCTGAATACCGAGCGGAATATCCACCTCTTGATTGAGATTGTCTTCCGGGATTTCCTCCAGGCAAAAGAT -TTTGCCGACGAAGTGAACGCCCATGCGCCCGGCGCGACCTTTGATGTTCCCATGGGTGAATTTGTCAATG -CTGCGAGTTCCATCGCGGTTGTCGTAGATCACAACGTTCTTAGCGATAGTGTTGACTCCTTCAATGATCG -TGGAGGTGCAGAGCAAAAAGCGCAGTTTTCCAGCATTGAATTGGTCGGCAGTGTATTGCTGCAGTGCCCT -CGGTAGCGCGCCAAAATGCAAGCCAATACCGTTTCTAAGGGCGACTGTGTAATCCCAGTCGGCATCGAAC -TCTTCGCTGACCCAGTCGACATGGGGATTCTCAGTCGGAGTGCCATGCCCAAGCCTGATCAGCTCGCGCG -CCACCAGGCCCGCAACAGTTGGTGACTTGCAATAAATGATCGTTGCGTCGACACATGCGTGCGCGATTTC -CCCCAGCGCTTTGAGCTTGGCTTTGTCGTCATTCGCTTTGATGCCGAACGTCTTAACATCTAGCGCGACT -GTATTGAAGTCGGTAGAAACGAAAGTATGCGGATATCCAAGTTTTTCGAGACCGCGAATGCTGTTAACGA -ACGGTCCCGTCAGGTAAAACTGCCTGGAGACCTTAAGCAGTTTGCTTAACGCAATGTTGAGCTCGATGAC -TCGTTCGTCTTGATGATCAATGTCCCCGCTTTTCAGTTGTCGGAACGCCAACTTGTAAAACTCGTCAATG -ACGAAGAGGTCAATGTCGACGATGTCGTCACGCTCGTTCACTCGCTCCTGAGTTAACACATAAACAGCCT -GATCGGAATGGCACACTTGGGAACTGTGGTGGATGATCTGATATCGGTCACCGAATCGCTCTTGCAGTCG -GCGACGGGTTTCGTCGGCAAGAGCCACGGTTGGAACAACCAGAACAAGCCGTTTCAAAGTTCCCATGCCG -AGCAATGAATCGACGATTGCACTTTTGCCCATGCTTGTAGGTGCACTCAGCACCACGTTTTGACCAGACT -TGAGCAGATCGAATATGTGGAACTGCATTGAGTGGAAAACATAACCATCCGAGAATGGCGTCCGGTATAG -CTCAAGCACCCTCAGGTCATCCGGTGTCAGGCTGGTGAACTCCTTTTTGAGATACGGGAACAAACCTGAT -TTTCTCACCATATTTTTCAAAATTGTGGTGTGCTCGGAAAACCGCTCGCGCGAATCGAGAGCTCGCACGA -TCAAGTCCCGTCCCAAGTCATACGAAACAGGGTTAGACAACAGCTTGTTAACCGCAAACAGATAATTGAA -CGATGAGAAGTCCTCACCCTGCAGGCTATGTTTCGCCTGTTCATAGATCTCTGTCATACGACCTCTCTCA -CCTTCTCATCAACTAATTGGGTTAACCGCTCAAGACTCGGGGCTGGATAAATGAATACGTGGATGCAAAG -ATTCGCAAACGGCGAATCCTCGATGAGGTCAGCCGCGAATTTTTCGAACAGCACCGCTGTTTCTTTCTCC -AGGTCATCCTCGAACCCCGGCGTTTCAGGCTCGGTTAGTAGATTAGAGTCGTAGCCCACGAACAGAACAA -ACGTGAAACGATCGAGGTGAGCATCGAAAGGTTGGCTGCCATCAAGAATTTCGTCAATGTCGTGGCGAAG -CAGGTAGTTATCGTCTTTAATGTCGAGGATTTTTTTGCGCGCGGTATCGATGCAATCCGAAATGTCCTCG -TACAACTGATCCCGTATCTCCGGCAATCTGACGGCAATGTTAATATCAGTCACCAACTCGCTGAAGCCAA -TCCAAAGCTGATCACCTTCTGGATCGCGGCGAACGATATGCACGTTTTCAAGAATTTTTTCGGCCCCTGC -TTTTTCCACGTATAGCATGCAAGGAATAGGCTGGCTTTCGTGGTGCTGCCGGATCGTTGCGTGCAACAGC -ACTCGACCCAAAAATTCGCTGACGTCATGGAGCGATTTGAAGACGGAATTCTTTAGTCGTTCTCGCTTTT -CAATGAATGTCAGTTTATGAATATCAGACATTTCTTTTGGTCGGAGAAAAACCTCATCCAACCATTGACA -GACGTTATCCGCGATGTGCTTGTAGCGGTATTTCTTAAGTGAGTACTGCTGATGTAGAACCTGGCCTTTA -CGCTTAGCGCAGACCGAAGCCATAGGCGCTCTAAATGGCGTAAGGATGTGGGGTAAGTCCCGTTTGACGT -AGATTTTGCGGCCTGACCGAGATTGGTCATCTTCGACACGCTGCTTGAACCACTCAAGTAGGTCTGGTCG -TAAGTAGGACTTGTCATCAGCACTGTGAATGCGTCGAGAATGCTCGCCCTTGCGCGTCACAGTATCAAGG -ATGCGGCACCAAATGTCTTCGGCGACGGTTTCGGAACTGAGAATGACCCCATGTAGATCTTGGGAGGCCA -GCCGTATGTTCTTGATCCCTAGAAGTTCCAGTTCGCGCAGGGATGAAAACACTTCCCATGTAGCCGCATC -GATCCAATCTGAAACGCTTATACCTGAGTCTGTTAAAAAATTGTCTGTGCGTTTGTTGAGGTCATCGATG -AGTTCCTGTCGACCTGGCTTATCTAGTCGGGCGTTTGGGCTGATCGTCAAGTACTCAAGGGTTTTGTTGA -CCTTTTCCTCTGTGACGATGGAGTACCTACGTCCAAGGGACAGGTCAGACTCACACTGCATTGATTTGTG -CAAAATTGAACTGCAGGGGATCGTCTTTTTATCAGCACCTTTTGAATTCTGAACGATGTCCGAAATGTTC -CAACGTGTTTTGCCGGTGCTTTTTACCTGAACGAAGTCGATGTATCCATCAGATACAATGTCGATATCGT -CTGTGACCTCGCAGCGCACACTGCGGATAGTCTTGTCACGAAGCATTCGGGTGACATGGTAAGCGGCTAC -GCAGTCCTGAAATAAGAAACCGTGCTTGGCGGCTACTCCGCCTGAATCGTTCGACTCCATTTAGACATCC -GTGACAATTTTGCGAAAATTAAGGAGATGTTATGACACAGTCCAATCGGATCACTGCATCATCACCAGTG -ATCTAAATACTTCACAGCCATTCTCGGTCGCAGGTATCAAGCTTTTCAGGATTCCACAAATATTGTAACC -CTGACGTCTAATTTGGTTATATAACATACTGCCCCAACTAACGTAAGGTAGGCACAGCCTTAATCAAGGT -TTTGGTTTTCAAATAGTTCAGAGCTGAGACCGCCAACCGCACTATGGCACTATGGCACTATGGCACTATG -GCACTATGGCACTATGGCACCGCCAGCGATTGTAATCACACTTGATATTATAAAACACAGTTGCACGCAT -TATTTCCTGGTTGGTAGGGTCATATCTCGATGCTCTTTGAGCAATGTCAACATCGCGTGTTCATGGCTTT -CTATATTGTTGATGCCTTGCCCATCCGGACCCCACTCCTTATAGCTCATCATGATGGCTTGTTTTGGGCT -CTCTGCTCGTTCTGTTTCGACGTAGAATTTTTTCTTGTCTGCTGGCGAATAATTACTAAGTATCGAGTTG -CTGCTTGGTGAGATCAGGAAGAGGTTACCGAAACGATGGACATCATCCCCCATTTTGTGGACTGCCCCCC -CGGTAGACGATCCTGCCCTATAGTTGGAGTGCCCCCTATTCAGGTGGCTAAATTTAGCAAATCAATACAC -TTCAGGGGGGTATTATTGTAGAGTTTCCCCATATGTTTCTATGGGATCCAGGAAATGACAATCAGGAGTT -ACAAAAACTTAAATCTGGTCAGGGCAAATATCGAGACTGAATCCAGACAATTCATTGAAAATAAAAACTA -TTCAATCCAATCAATTGGTCCTATGCCAGGGTCAAGGGCTGGGCTTCGGGTCGTATTTACCAGACCAGGG -GTTAACTTGGCAACTGTGGACATTTTTTATAACGGGGACGGTTCGACTACAATTCAATATCTCACTGGAG -CCAATCGTTCTCTGGGCCAAGAGTTAGCGGATCATCTTTTTGAAACCATCAATCCTGCTGAATTTGAGCA -GGTAAATATGGTACTGCAAGGATTTGTAGAGACAAGCGTTCTACCTGTACTTGAGCTATCAGCAGATGAA -TCGCATATAGAGTTCAGAGAACACTCTCGTAACGCTCATACCGTAGTGTGGAAAATTATTTCCACCAGCT -ATCAGGACGAATTGACTGTGAGCCTGCATATCACAACAGGTAAGCTCCAGATTCAGGGCCGACCGCTGTC -ATGTTACAGAGTTTTCACGTTTAACTTGGCAGCCCTGCTTGATTTACAGGGTTTGGAGAAAGTGCTAATC -CGCCAGGAGGATGGTAAAGCTAATATTGTTCAACAGGAGGTTGCCCGCACTTACTTGCAGACTGTAATGG -CCGATGCTTACCCGCATCTCCACGTGACTGCCGAAAAATTGCTCGTTTCAGGGCTATGTGTTAAACTCGC -CGCCCCTGATTTGCCTGACTACTGTATGTTACTTTATCCTGAACTACGCACCATTGAAGGTGTCTTAAAA -AGTAAGATGAGTGGGTTAGGCATGCCAGTACAGCAGCCGGCAGGTTTTGGAACTTACTTTGATAAACCTG -CTGCTCATTACATTCTGAAACCGCAATTTGCAGCTACTCTTAGACCGGAACAGATTAACATCATCAGCAC -AGCCTATACTTTTTTTAATGTGGAACGTCATTCTCTGTTCCACATGGAAACTGTGGTCGATGCCAGCCGT -ATGATTTCTGATATGGCCCGGTTGATGGGTAAAGCCACTAGAGCGTGGGGAATAATCAAGGACTTATATA -TTGTTTGAAATCACCGGAATTAACGTCTCAGGGGCTCTAAAAGCTGTCGTTATGGCGACCGGCTTCGAGA -ACCCTTTGTCCTCAGTTAATGAAATTGAGACGAAACTTTCTGCCCTACTGGGTAGTGAGACCACTGGTGA -AATCCTTTTTGACCTCTTGTGCGCTAACGGTCCAGAGTGGAACCGCTTCGTTACGCTGGAAATGAAATAT -GGCCGGATCATGCTGGATACGGCCAAAATTATTGATGAGCAGGACGTTCCGACACATATCCTGAGCAAAC -TGACTTTTACTTTACGTAATCATCCTGAGTACCTAGAAGCCTCTGTTTTGTCTCCCGATGATGTACGCCA -AGTCCTGTCAATGGATTTTTGAAACTCTTCTTTCTAAACGAACCAGTATAGAATTCGCCCTTTTGGCATG -ATATTAACTTGTCCAATATGATCAAATAGCATTAACCCCCCCTCACAACGTCCTGCATAGGGAACACGTT -TTCCCCTGTGCACCCACGACTAAATTTCCCCCCCTTTAAACTTCTCAATAATGTCACCAATTTTCTGGAA -ATCCTATGATGCCTTTCCCGGTAAATGGTGCTGTGAGTTCAGAAAGATTCTGCAATCTATGTGCATTGAA -AAAATCTTCAGATAGATATCATTCTCCTGAACAATCCGATGAACGGCAGAACCTCGCGGTTCTGCCGTTT -TTGTTTTACTTTTCAGAGGAGTGGTGATGAAAAATTTTGAAGTTCTGCAGCCACTACAGAACTCCCTTTC -CGGTCTACCGCTATGGGTATCTGAACGTATATTGCAGCAGATAAATCAGTTAACCCACTACGAGCCAGTG -ATCGGCATCATGGGTAAAACTGGGGCGGGAAAGAGTAGCCTTTGCAATGCCCTGTTTGCCGGTGAAGTAT -CGCCGGTCAGCGATGTAGCGGCCTGTACACGTGATCCTTTACGCTTTCGCCTGCAGATTGGAGAACACTT -TATGACCATCGTGGATCTGCCCGGCGTGGGCGAAAGTGGCGTTCGCGATACCGAGTATGCTGCGCTGTAC -CGCGAACAACTTCCCCGGCTCGACCTGATTCTGTGGCTGATTAAGGCTGATGATCGGGCACTGGCGACTG -ATGAGCATTTTTACCGTCAGGTGATTGGCGAAGCATACCGGCATAAGATGCTGTTTGTTATCAGCCAGTC -AGACAAAGCTGAACCCACCAGCGGTGGAAATATCCTTTCCACAGAGCAGAAACAAAATATCAGCCGCAAA -ATCTGCCTGCTGCATGAGCTATTCCAGCCCGTGCATCCGGTGTGTGCCGTGTCGGTTCGCCTGCAGTGGG -GACTAAGGGTGATGGCAGAGCGGATGATTAAGTGTCTGCCGCGTGAGGCCAGCAGCCCGGTAGTAGCGCT -ACTGCAACATCCCTTTCGAACAACGGTAGCCCGGGAGCAGGCACGTGACGATTTCGGTGAAACCGTAGGT -GCCATACTCGATACGGTAAGCACCTTTCCCCTTATTCCCGCCCCGGTGCGGACCATTATTCAGGCCGTGC -GTTCCTCGGTGGTGTCAGTGGCCCGCGCTGTCTGGGATTTCTTCTTCTGAGTGTTTAATTCTGCCCTATT -ATTCTCCGAGCCCTGTCGCAAGTGCGGCAGGGCTTTCTTTATTTGTTTTACCCATACTGAGGAGTCTGCT -TATGACCCGTCTGGCTTCGCGCTTTGGCGCTGCAAATCTTATTCGCCGTGACCGTCCGTTAACCCGTGAA -GAGTTATTTCGCGTGGTGCCCAGCGTATTCAGTGAGGATAAACACGAATCCCGCAGTGAACGCTACACGT -ATATACCCACAATTTCCCTGCTGGACAGCCTGCAGCGGGAAGGCTTCCAGCCATTCTTTGCCTGTCAGAC -ACGGGTACGTGACCCCCGTCGTCGTGAGCATACTAAGCATATGCTGCGCCTACGTCGGGAGGGGCAAATT -ACCGGTAAACAGGTTCCGGAAATTATCCTGCTTAACTCTCACGATGGCACCAGTTCGTACCAGATGCTGC -CGGGCATGTTCAGGGCGGTGTGCCAGAACGGTCTGGTCTGCGGCGAGTCGTTTGGCGAGGTGCGGGTGCC -ACACAAGGGGGATGTGGTGAGTCAGGTTATTGAGGGGGCGTATGAAGTGCTGGGGATTTTTGAGCGTGTG -GAAGAAAAGAGGGATGCCATGCAGTCGTTGCTTTTACCGCCACCTGTGCAGCAGGCACTGGCAAAAGCAG -CGCTTACGTATCGCTTTGGTGAGGACCACCAGCCGGTTACTGAATCGCAGATACTCTCCCCACGCCGCTG -GCAGGATGAGAGCAATGACCTTTGGACCACCTATCAGCGGATTCAAGAAAACCTGATTAAGGGCGGACTC -AGTGGGCGTAATGCTAAAGGCGGACGAACTCATACTCGTGCCGTGCGTGGCATTGACGGGGATGTGAAGC -TTAACCGTGCGCTGTGGGTGATGGCAGAAACACTGCTCACGCAACTGCAGTAGACGTTTCATGTTGCCAC -GTTGTTAATATCGGACACCACCTGTCCGCATCGCTATGTGCTCGTGTGCCTCAATCCCCCGGTTATAGCT -TTTAACCCCCGTTACATCTGGCTTTTGCAGAAATAAAAAATAGTTTCTGCGTTGTCCATACCCTGTCCGC -CCCCCTCTTTAAAGTAATCACATCATTTTCAGTCAGTTAACTTTCCTGGAGAATCTCTCATGACACAGGC -AGAACGCCGCCATGACCGGCTGGCTGTCAGGCTGTCACTGATAATCAGCCGTCTGGTTGCGGGTGAAACG -TTGAGCGTGCGCAAACTGGCGGCTGAGTTTGGCGTGTCAGTGCGCACGCTGCGGCGTGATTTTCGTGAAC -GACTGATGTATCTGGACCTGGAGTATCAGTCCGGATACTGCCGCTTACGCACTGCTGGCAGTGAGATGCA -GATGGTGCCCGACGTGCTTATCTTTGCCCACCGCAGCGGGCTGGCCGGGCTTTTTCCCGGCCTTGACCGC -CGTCTGGTGAATGCACTGCTGATGTGCGATGAGTCTCCCTGCGTGATAGCACCAGCCAATCCGGTTCCTT -CGCCTTCAGGAGCATTGTCTTTCTGGAGACTGATTCAGGCCATTACCGGGCGCAGGCGGGTGACGCTGAT -TGCAGAGGGGCGACGCTGTGAGCGCCTAGCTCCCTGCCGGTTACTCATCCACCAGCAGACCTGGTATCTG -GTGGCTGAACACGAAGGGCATATCGCCGTATTCACACTTGATGAAATCCATCTGATTCAGCCTTTGCAGG -AGACTTTTCGCCGCAATGACAGTCTGTGTCGCCTGGTTGAAGACCCGGTCTTCATTCAGGCCTTACCCCA -TTTTCGCTTTATCCAGCATTCACTGCTTACGTTTGTTCCGGCCGACAGCCCACCGGAATAGCGCAGGCGT -TGTTATCAACCCGGCAACATGGAGGAGCCCAGTGCCCGTTATTGCCATTATCGCCATTGTTATCATCGTC -ATCATTCTGAACAAAACCGGAGTGTCCGACAGCCTCACGGCCCTGACACTTGCAACCGTTGCCGCACTAC -TGACGGGAGGTGGTGCAGCCGGTGCTGCCAGTGTCGCGCTGACGCCGTTCGTCGGCGTGCCGGTGGGTAT -TTTTGTGGGAATTTATGTCTTTGCCAAAGTGGTTCGTCTGATTTCAGGGAAAAAATAATGAAACGTAAAA -CACTACCTCTGCTGGCGCTGGTTGCCACCTCTCTGTTTCTGAGCGCCTGCGATGACAGGAGTGATGACCT -CAAAGCTATCAGTAAATTTAAGGACCTCACGCCCCCGCGCTTCAGCGATGTGGTCAGCCGTCAGGATGAT -GTCAGCGAAGAATGGTCACAGGTTGGCTTCTCATCCGGTCTCACCCTGCAGGTCTTACGTACCCGTGAGT -CGCCCGATGGTTGCGAGGGTGGCAGTTACTACTATCTGGTAGATATGGAGGAGAAAACCGTCCAGCCGCT -GATGAATGCGCTTTGTATTGCCGACAATATCAAACTGGAATACCACGAAGTTACGGACCCGTATACGAAA -GAAAAATACTTCGAATATTCCCATGACGGCAAACTGATGGGACGGCTGCTGATACCGTCAAACCCTGATA -ACCGGGAATAAAAACAACGAGAAAGGAGACATAAATGAAAATACGTTCACTAAGCCGGTTTGTACTGGCA -AGTACAATGTTCGCCAGCTTTACAGCCTCTGCGGTCCCCGGACTCTGGCAACAGGGGTACGGTCAGGGCA -ATGCGGAATACAGTGTGACGGATGCCAGCGGAAAGATGTTTACCATCAACTGCACGGGAAATCCGGACCA -GAACGGTATTTACCAGCACTCGGTTTTTCTGATCCTCGCCGGGGATAAAACGGTCAGCTCGCATGATGAC -AGTACCGGCATCACAGTGGTGATGGACCATAAGCAATATGCCATTCCCTCAACCCTTGGCTGGCGTAACG -GAGATAATGCCTGGTTCAGCTTCATCATGGATATCCGTAAGGCCCGGCAGTTCGACGTCTACGTCAATGA -CCAGAAAGTTGGATCGTTTAACCCTGATGTTCGGAATGCACAAAAGGTCCTGCCAACATTAGCGGACTGC -ACTAACGACTGACGGCTGCGCCTTCCCTACCATAACAACCCTGATTGCCTCCGGCGGTCGGGGGTTTCTT -TTTTCTCCTTAATCTCCAGAGGTAGGCCACGTACTTTCGAACGATGAGCGCAGTGGTCAGTTTTTTTCAG -ATATATTTATCTTTTTTTGGCTGTAAGCTCCGCTGTGAGCGCAGGCTGTGTTAAAACTCCTGATCACTTT -TTGGTCTAAGCGATGGTTTCATATGATCAACCATTCTTGATAAACCCATGAGACGGACTAACTTTTTCAT -TAAAATTAAAAAGATATGAATGAATACTGCGGATATCAACATGGCCAATCACATTCAAGGACAAGGCAGG -CATCAGGTGACATTGCTCCCTGATGCACTCGATGATTTTGTCACTGAAGATATCTGAAATAAGTTTAATC -AGTTCATCACGGGTCGGTGGCATATCGAGATAATTAATTATTGTCGGTTCGTTGCCGTTGTTATGAAGCA -TCTCCAGCGTGTTGCGTGAGGTGCCACAGGCCGGGTTGTGATAGATGGTAATGTTGCTCATATCAGTATC -TAATTACAAAGTGACAGAGAGCCGCCACGCCAGCGCGGCCAGAGTGACAAACAGCACCGGCACAGTCATG -ACAATGCCGGTACGGAAGTAATATCCCCAAGTGATTGTCATATTTTTCTGGGCAAGCACATGCAGCCACA -GCAGAGTTGCCAGACTGCCAATCGGGGTGATTTTCGGGCCTAAATCACAGCCAATCACATTGGCATAAAT -CATTGCCTCTTTGACGACGCCAGTCGCCGTACTCCCGTCAATCGACAGCGCACCAATCAGCACCGTCGGC -ATATTGTTCATCACTGATGAGAGAAATGCCGTCAAGAAGCCGGTGCCGAACGTCGCTGCCCATAACCCCT -TGTCTGCCAGCAGATTCAGCACGCCAGACAGGTACTCCGTGAACCCTGCATTGCGCAGGCCATAGACCAC -GATGTACATGCCCAGTGAGAAAATAACGATCTGCCATGGCGCACCGCGCAGGACTTTTCCGGTGTTGATC -GAATGACCTCTTTTCGCCACCACAAACAGCACTGCTGCGCCAGCGGCCGCTATCGCACTGACCAGGATTC -CCTGCGGCTCCAGAAAGAAGAAACCGACAAGCAGCAATAACAGGACAATCCAGCCCGCCCTGAAGGTTGC -CAGATCCTTGATCGCACTGGCAGGCGTCTTCAGCAGCGAAACTTAATACGTTGCCGGAATAACTCTGCGA -AAGAAGAGATACAGCATAATCAGCGTGGCCGCAATCGCTGCCGCATCCACGGAGATCATAACGGAGGCGT -ACTGCGCAAAGCTCAGACCGAAGAAGTCCGCCGAGACGATATTCACCAGGTTAGAAACAATGAGCGGCAG -GCTGGCCGTATCTGCAATAAATCCTGCAGCCATGACAAAGGCCAGTGTCGTGCCCTGGCTGAACCCAGTG -CGATCAGCATCGCAATCACAATCGGCGTCAGGATCAGCGCGGCGCCGTCATTGGCAAACAACGCATCAAC -AGCGGCACCGAGCAAGACTTTCCAGGTGAACAGCGCTCTAGGTAGGAACTTTGTCGTTGATAGAGTCTTC -AGCCATCAACACTGTATCGAGTAATGAAATTGGTTGCTAGAAAGTCGATGATTTGTTGCGTATGATTAAA -AATCAACCTTAAAGGCTTTATACATGGATTTGCTATGGCTTTTGTATCAGAAAGAGAAATTGTAAGAAAG -ATATTTAGCAAAAAAATTGACTTTACGATCTTGGCATTTTTCTATATTTCCTCTATTTTTTTTCTTCTTT -GTAGTGGCGTTCTCTTTCAATATTTTACCGCTGCCTTCACAAAAGGTAATTGTTATGAATGCTCAATGAA -ACTTGATTACATAAAACAATTTTATTTTTCACTGGAAACCGCATGGTACCTCATATCTGCTGTTGCAGTA -TTTATTGCATCTGTTTTTATACAGCATAGAATTAAAGCTTATTTAACATTATTAGCTATTACATGGATTG -TACTAACAATAACAGATGTGGCGTTAATACACGCCTTAGACAATATAGCCATGAATAATATTTTGTTAAA -TATACTATATAATCTTTTTGGGGCGATTTTATTGTCACTGTTTATGTGTTTATCAAATTCCCTCCTTTTC -CACCTTAATAAGATAAAACATATTCCAATGATTTTATCGGCAATGATTCCATTAGTTTCCGCAATAATAA -TAGCCATACTCATAACCGCTGTTATATATTTATTGTTTGCCCGGCAGGCGGTAGAGATTGAGATGGATAT -ATCTGAAGGTTCAGACATCGCATATGTAGGTGTAAAAGATAATGAGGAATCATTTGGGTTTTTAAATGAT -AAAAAAACAGACACACCAACGTATCTGGATGTAATCAAAAATGGTAGTTTGATATATAATGATACACAGG -GTTTAAGTGGTGCTGATATTTATATTGTCTCCGGTTGTTATGCCCTTCCAGATTTACTTCGCAATGTACC -GCTTGATGCTAAAAAATCTTTTCTGAATGTAAAAAAGCTAGAAATCACACAGAAACTTCCAATGATGGGG -TTCATACAAGGTGAATCCGCTGATGTGATGCCTAAAGCAGCATCCAGGTTAAGTTTGAGCAAGCAAGATG -ATAAATTTATGCTAGCCTCAAGTGTTACTGACTCTCAAATAAAATTTAAATCAAACAATGCACAATTGAT -GGTTGCTTTCGCATTTATGCCAATAACAACGAATGGTATTTTACATGATTATACATACGATATAATAATA -AATGATAAAAAATATAAAATTGAAAATCATGTTGCACCTCTATCTAGGCTTGATAAAAATAAGAAGATGA -AGTGTGAATACCAGCAAATATCGGATTTAACAAATACGTATAACATTAATGCAAATTACTTAACGGGTTT -TTTACTTGTCCTAAAACCAGATGATATTATTAATTACAACAATAGCCCTTCCGTACTACTCAAGACTGAT -TTTGCGTTCTATAAAAAAACATACCAGAAGCTTGATAAAATATATGATGACATAAGCAATGGAAAATTAT -CTTCACTGAGAGCAACAGGTATCTCCCAGTTTAGTATCAACGGGAAACATTTGTCGTTAAGGCCAGAATC -GGAGATTATTATTTCTGAAGGGAGTTTGTATGGACTAGTTAATAAAAGCAAAAAAATCAAAATATATGGC -ACAGCAGATCTTGTTTTTGTTGATAACAAGATAATGAACCTTCGTAAAATAACTTATTTGCAATCTAAGC -TAGAAATTTTTGGTTCTTCTATTATGGATATATTAAAGTATATATTTGGTTTAGGTCTGCTAGCAATTTC -TATAAAATTCATTCATTCTTACTTTAAGAATGATGTGAATGAAAATTTATTCTTGTAACGCATTTGGCTC -CAATTGGAGCCTTTTTATGACTATTTATTAAAATATCCTAAGTTAAGCCTGTTTTTAAAGCAGGCTTGAG -CGTGAAGCGGACACTCATACCTGCTTTAAAGTGGCGTTTTTGTCGTTACCCATACCTATATTTTCTGTTG -TTTAACTGCCAGAACTGAGCGGTTGAAAAGCCAGAAATATGCCGAGCCAGCGGCATGGAAGCGCCAGCAG -CTGTTGAATGGAGTACTGTAGGCAAATGGTGCCGTAACCGGCTTTCGTACTGAAAGGTTCTGTCTATCCC -ATCCCTTCTCTTGTATCTAACATTTAGTTGTGAATAGCTACTGTAAATGCCCCTACAAAATGAACCATTA -TTTTTAGAGGGCGTCTGGCACTCCAACTTCCGCTTTTGGCACAGAACGGCCTATCAGCAATATAAAAGCA -TTCAGATATATATCATTTCTACAAACATACCCGATTAACGGCAGAATCTCAGGATTCTGCCGCTTTTTTA -TTATTTTTCAGGGGAGTAGTAATGAGCAACTCTGAAGGTTGGTAGTCATTTTAGCAAACGCTTTCTGGTC -TGCCGCAGTGGGCATCGGCTGATTGCGTAGCAGGGCCACTGGTATCTGCCGGTATCACCGACATTAACAT -TGAAGACGACCAGGGCATTCACGTCCGCCTGATAGTTCGTGATGCCGAAGGTCGGATGGTTGGCGGGCAT -GGAACTTTGAACCGGACGCCGGTGAAGGTTTTAACCGCTATATCCACAGGTCAGGCATCCGCACCGACAC -CTTCCCCCGCTGACTCCGAATCATTTACCAGCAACATTTCACCTTCCCAAACGCGCTTTATTACCTCATA -CGCCAGCCATCGCCGCTGGCGTTTTTTATTCACGGAGACATACCCATGACAACACAGACACAGTACGACC -TCGTACCCGCTAACGGATCCGAATTTGAGTTGAGCGTAACGCAGGTACCCGATGAACAGCATATCCGCTT -CTGGCCGCAGCACTTTGGCACCATCCCGCAGTGGATAACGCTGGAACCGCGCATTTTCGCCTGGATGGAC -CGCTTCTGTGATGAGTACTGCGGGGGTATCTGGTCCTTTTACACGCTCAGCAATGGCGGAGCGTTTATGG -CTCCTGATGCTGACGGTGACGATAAATGGCATTTGCTCAACGGCATGAATGGCAATGGTGCGGAAATGAG -CGCGGAAGCCGCAGGTATCGCTGTCTGCCTGATTGAATATAGCCATCACGCCTGCCTCACCGAATGCGAT -GCCATGACGGAGCACTATTACCGCCTGCGGGATTACGCTCTGCAGCACCCTGAATCCAGCGCCATTATGC -GCATTATTGATTAAGGATACTCATGATGGAACAGTCACTCATCCCACAGACACCGGTACTTCCACTGACC -GCACAACGCACGGTAAAACGCGCCTTAACGCTGCTTGACCGACACCTGCGCGAAACAGGCGTGGCATTCA -CCTCCACTCAGGCTGCTCGTGACTGGCTGAAGCTGAAAATGGCGGGGCTGGAGCGTGAAGAATTTATGAT -GCTGTATCTGAACCAGCAGAACCAGTTGATTGCCCACGAAACCCTGTTTGCCGGTTCTATTAGCAGTACC -GAGGTACATCCCCGTGAGGTGGTCAAACGCGCCCTGTATTTCAATGCAGCAGCAGTGATACTGGCGCATA -ACCACCCCTCCGGCGACACTACTCCCAGCCAGGCAGATAAGACTATAACGCAGCGTCTGGTGCAGGCGCT -TCAGCTCGTTGATATCCGTGTCCCTGACCATCTGATTGTTGGTGGCAGGCAAATCTATTCGTTCGCAGAA -CACGGTCTGCTTTGAGGTATTACATGAGAATTATCAGTAAACGCCGGGCAATGACGATATACCGCCAGCA -TCCTGAGTCCCGAATCTTTCGCTACTGCACCGGAAAATATCAGTGGCACGGTAGCGTCTGTCATTACACC -GGCAGGGATGTTCCGGATATCACAGGAGTCCTGGCTGTGTACGCCGAACGCCGCAGGACCGCAGCGGACC -GTATGCTTGACTGATGAGTATCACCCTGAACTGACAATAAAGAGGTTATGAATGAGCAACACCACATGGG -GCCTGCAGCGAGATATCACGCCGCGCCTGGGAGCACGTCTGGTGCAGGAGGGCAACCAGCTGCACTATCT -GGCTGACCGGGCCAGTATCACCGGTAAGTTTAGTGACGCCGAATGTCCTAAGCTGGATGTGGTATTTCCA -CATTTTATCAGCCAGATAGAGTCGATGCTGACCACTGGTGAACTGAATCCCCGCCATGCCCAATGCGTCA -CCCTGTACCACAACGGTTTTACCTGCGAAGCCGATACTCTTGGTAGTTGCGGCTACGTATACATCGCTGT -TTACCCCACTCAACGCTAACTAATTTCACGAGAGCAAGCATGAACACTCTACCTGCTACAATTTCGCAGG -CGGCGAAGCCCTGCCTGTCGCCAGTGGCTGTCTGGCAAATGCTACTGACACGCCTGCTGGAACAACACTA -TGGCCTGACACTGAACGACACGCCGTTCAGTGATGAAACTGTTATTAAGGAACATATCGATGCTGGTATC -ACTCTGGCCGATGCAGTCAATTTTCTGGTGGAAAAGTACGAACTGGTACGTATCGATCACAGAGGATTTT -CGTGGCAACAACAGTCTCCATATATTTCCGTAGTAGATATTCTGCGAGCAAGGCGCTCTACCGGCTTGCT -AAAAACTAATGTGAAATAAACGCTTAAATACAGAGCAGACTGAAGGAAAGCAAAATGCTAATCTCATAGA -CGAAGAGACTCCCGCTGTAACCTCCCCTCCCCCGAAAAAACCTGACATTTTCTTTTAGGACCAACAATGG -GACCAAAATGAAAATTGAACTGAAGATTACAATCAATTTAACAACAAGTTACACAACCAATTCAGACTCC -GCCAGCCCACCAATCATGATTGGACGGTGTAAGGACAACACCAACAAAAACAGGAAGTTAGAAGTCTCAG -CAAAACACCGACCAGACGGTGAGGAGACATAAAAGGATACGCAAAGGAGCCGCGGCTCCTGGTAACATGA -AAGCCCACAGATGTGGGCTTTTTCGTTGATGGTCAGAACGACCAGTTCACACCAGCTACCGCGTTCCACG -GGGATTCCACACCGGCACTATGGCTATACCCCACCCCAAGATGCCCGCTTAACGTACTGCTGAATGAGGC -TTTAATACCTGCCTGGTATATTCCACGTCTGCCCGACAAATAATTGACGAAATTACCGTCACTATTCACT -TTCACCCGGTTATCATCGACAAATTCTTTGCGCACAGCCGCCTTCAGCCACGGCTCAACTTCCATACCGT -TCCCCAGACGCATGTTGTAACTCAGCGTTGCGCCCAGTTCACGATATATACTGCGGGTATCGACTGATTT -CGATTTCATGCCATTGGATAAATGATATTCGGGGTTATCAGCGGTGAACCCCGTTAACGATGCATACGGC -GTCAGGTTCCAGTTACCATCGGTAAATCGCATCCCGGTTTCAATGTGACCGCCCAGCCCGTTGCTGTGGT -AACTGCCATTGGCGGCTCCACCGCTGCTCATTTTACCTGCTACGTTACTTTTAAAACGGTTCAGCTTCAC -GACACCGTCCAGATAGAAACCACTTTCATGTTCCCAACTGGCATAGCCGCCCAGAGAATAACTGCCCACA -CTGCCATGTCCTCCGCGATCAAAACCGATATGTGAATGGGAATAGCCCATAAAAGCGCCTAGCGTGGTAA -TTCCTTCAGGAATATCATTACGGCTGTCGATCCCCACTGTCATTCCGGTCAGCGTCTGCTCAAACCCGGC -ACCCGCATCGGTGGTGACATTATTACGGGTGTTATACGTCGCCCCCCAGACATTATTGTTGTGTGGACTC -GCTTTCATTATGTTCAACCGCTCGCGAATACTGTTTAGCTCAGCATCAAATACCAACGGTAATGTTGCTG -CCATATTGAGTACGGCTGCCGTAGAAGGCGTAATGCGTTTCTCCGGAACGGGTGTCGGCGTTGGATCGGG -AGTAGGGTCTGGTTTTGGATTTGGGTCTGGCTTTGGATCGGGTTTTGGGTCTGGCTTTGGATTTGGGATG -GGGTCCGGGTTGGGTTTGACATCATTGGTCAGGTTCCAGTTGCTGTTGCCGTCACTTTTCAGGACATACT -CATAGGTCCCAAGATCAACGAAACCGCCGGTATTGCCCAGCGTAAACGAAGCATCCCCTCCCCCTGTTTT -CACCAGCGTCATCGCGTCGTCAGACTGTGGGCTGACGCCGGTATCCTGAACAAAGATTTTAAAATTACCA -GTGGCGTTGTTGTTGACGACCAGTTGATCGCCCCGGGAGCCTGCAACGTTGGTATGCAGGTAGAAATTAC -CGCTACCGGAAAGTTCATTGGTTGTCAGCGTATTGTAGATACCGTTAGTTGTGGCAGGCGCTGCTGTTTG -TGCTGACAAATAAACATCACCGTCGTTGAGTAGCAAACTGTTTACTCTATATTCGCAGTTGCTGGTACCT -GCACAGGAATTATTGCTGTTAAGCCAGACACTGCCCCGGCTGGCAGCCGTCAGGTCGGCAAGCGTGGTAT -CGACGCCATTTCCCAGAGTCAATGTCGCGCTATCGGTAATCCGGACCGCCCCTTCGAGTTTAACTGGCGT -AACATTATCCCGTGGCGTCATTAACGACAGGCTTCCTGTCGCGCCACTGACCGATGCATCCGCCAGCGTA -CCTGCGTAGACGATTGCCGTACCGCCAGCGACCTGGAGATCTTCTGCCCGGGCCAGAGCCTGAAACTCAT -CTTTTGACCGCCCAAGGGTATATTGCCCGCCAGAGTTAACCTTTGTGGCGGAGTCCTGACCCAGGTTTTG -CATTGCCCCACCCTTGCCAACCGTGGAGTCGCGAGCTTCGGTACCTGCTAATACCAATAAATTACCGCCA -TTTTCCAGCAACATATTGGTCGCTAAATTGCCGGAAATGGAAAAAGTACCGTACTGATGAGTACCGCTGA -TTTCAATACCGTTAGCCGTGCTCGTCTGGAGAGCGGCACCGCTGTTCTGGACGATATCTGTCGCTTTGCC -ATTATCGTTGACTGTCAGCGTACCGCCTTCATTGATCTTTGTTTTTATTGCCTCTCCGTTAGCTGAAACT -GTTTGTATTCCGCCGTCGTTAATTGTTGTCTCATTCGCCACACCCTCGACAATTTGTTCACCGCCGGTGA -GCGTCGTGCCTGTCGCAGTGGCTTTTGTTTTGACGATCTCCCGTCCGCCCATATTGACCTGTGTTTTGTC -AGAAGAGGTGTCTGACTCCACGGTTAACACGCCGCCATTTGCCAGCAGGATATTGTTCGCCGCACCCTGC -TCGATGCTGAACGCGACGCCATCCGCGCGTGTTCCTGTGACCCGCGTCGCCCTGGTGGTTGCAACCAAAG -CGCCCTGGCTACTCTGCTGTATCCCCGTTGCGCTGCCTTTCTCCCGCACATCGAGTGTGCCGCCGTCATT -AAGCACCGAGTTTTCAGCCAGGCCGCCCTCATTAACTACCTGTGAACCCCCATTAATAATGGAACCTTCC -GCTGTCCCGTTTGCCATAATTTGTTGTAGGCCAGAGACGATATCGGTATTGATTGCCTTACCATAATTCT -GAACGGTTTGCGTGCCACCATTGATGTGTGTTTTCTCTGTTGACCCACCATCAACAATTTGTTCACCACT -TTCGATATTTGCTTCAGTGGCTAAACCATATACCGTTTGCTTGCCACCTTTGATATTTGCTTTATCAGAA -GTGGCACTGGCATATATTGTTTGGGTGCCAGCACTATTGAGTACAGTGCCAACATCTTTTCCATAAACAT -CCATTTTGCCGTTGGCATTAATAATCGTGTCAACTGCGCGGGAACCAGTGACGACTGTTAATGAGCCAGC -GTTTTCCAGCACTACATTTTTAGCTTCTGAATTCCTGATGTAGAAAGCATCACCATAACTGTTGGTTCCT -TCGATAAGTGTTCCGGAGGTCGTGGAAGCAATTAATGCGCCGCCGGATTGTTGCTCAACATGCTTAGCCT -CACCACCGTCCTGAACCTCCAGAACGCCGCCATTATTAAGTCTGGTGCTATCTGTTTTAGCCTCCTTCTG -GACAATCAGCTTACCGCCAGTATCAATGGTAGTATTTTTCGCCGAGGTTTTAGCCACTACCGTCAGTTCG -CCGGTATTTTCCAGCACAACATAATTAGCCTCCCCTCCGGTAATAGTGAAGTGAGAGAGCTTGTTGTATC -CTTCGATATCAGTCCCTGCACCCGTGTTGGCAACTAAAGCACTGCCCGTCTCCTGGTTAACCCCATGTGC -AATACCGCCGGTATAGACAATCAGCGAGCCTCCGGCGCTAATATTGCTGCCAATTGCCGTACCATCTTTC -TCAACAACCTGCCGGCTCCCGGAGGATATAATTGTTGTGTCAGCTTTCCCGCCGCTTTTGATATTTTGCG -TTCCGCTGTTGATATTGGTGCCTGTGGCTATGCCATAATTATTAATATTCTGTGTGCCACCATTAATTAT -GGTATTTGTCGCGTTTCCTGCAACATCCATAACCCCGCCATTATCTATTCGGGTCGCATCAGCTTTAGCA -TTGGTTAAAACTGACATTGTTCCTTTATCTTTAATAATCGTCTTGTTTGCCGAACCATATGCGTTTATGT -CTAAATGACCACCGTTTTCCAGCAACACATTGTCTGCCACGTGATTGTGGATGGAGAATGCACCTTCACT -ATTCGTACCGCTCACCGTCGTACCGTTAGTGTTAGTTTTTAAAATTGCACCATCGTGCTGGGTAACATTT -GTTGCCGTACCACCCCTAACATCAAGCACGCCACCAGAATAAACTTCAATAACATCCGAGGTGCTGGTGT -TATCAACAATTTGCGTGCCACCAGAATAGATATGCGTATTTTTTGCCGTTGACTTACTATTCAGAGACTG -AGTTCCGCCTTCAATCGTCGTGTCCAGCGCACGGCTCTCATATACTCTTTGCTCACCGCCATTTTTAATG -GTTGTTGTTTCTACTGTGCTCTGTTCAACATACTGTCGACCACCATTTATGGTTGTGTTCGTTGCCAGAC -TTCCTTGTACTACGTCCTGAGAGCCAGACTTATTTATCGTTGTACCATCAGCATGCCCTTGAACTTTTAC -TATCTGGCTACCACCATCAATGAGTATTCCATTCGCACTCCCTCCCTCTACGCGTGAAGCACCGCCCTTA -ATTGTCGTTCCATTGCTGATACCCCCTTTATAAACGTCCTGATTGCCACTCTCGATTGTCGTACCTGTGG -AAATACCCCCGTCATGAATTGACTGTCTGCCACCGTTAATGGTTGTATTATTAGCCTGCCCCACAAAATT -GTTATGACTTCCTATATCTTGATATCCACCAGATTCAATAAGACTTCCATTAGATACCCCGCCATGAACA -TTCTGCTGGCCATGGTTGATAATATGAGTGTTATTTGTTGTACCTCGTTCATCCACTTTTTGGTTGCCAT -CTACAGTCTCATCGTTTACCACACCAATAACATTAGTAGTGAAGGCAGCCATCCCGGGCGGGGCATATAT -CAAGGCAGATATCAATAAGGAAAGTACTGAGCGGCGACAATAATAGGGACTGGTCCTGTTCATAAATTTC -ATCCTCTGAAAAGTGAATACTGAGTAGCGTTTAAGCGACCTTAGCTTTGCTGCAACATCAGCCCACAGGC -ACCAGACCAGGGGATTCATCCTGAAGAGACAGCGCAAGTGTATTGTGTTCACCGCTCATCAAAGACATCA -TGATGAAATGATGATATTCCGCATAAGAATGAGGCATTTTTTAAACGCAGTGCGCTGAAGTGTGGTTGGA -TAAAAAAGTCAATCCATTCAGGAAATACGGGCGTATTCTTTTCTTTCGACAATGAGGCCGTTGGCAAAAT -AAAATGATTTACATAATCGTTTCTGATGAATATCTTCTGCTCACATAAAAATCACACAATAACTTTGAGA -TCGCAGATTGTTTTACTTTTACAGCATTCGTCCCCCCATTGTTGGGCAAATATAGATTGGGCCAGAGCAC -GAAAGTTAATACCACGTTCGCACAGCTCCTCCAACAGCACGACAAGATGCCACATACTGCGCCCCAGTCG -GTTCAGTTTACAGACTAGCAGTGCGTTCCCTGCCGATGATGTCCTGACCAGTTTTTTCAGTCCGGACCTC -CTGCCACGGTTTTACGTTGAAGTGGTAACCCTGAGCACGCAGTTCTTCAGTCAGGCGTGGTGCACCGTAA -CGCTGTTATTGCTGGGTAAGATCAAAAAACTTTCAGGCAGCTAAGGAAAGTTGAACCAGACATTAGATGA -AATATTTCAACCAATTACAGCACCAATTCAGTCACTGCCAGCCCACCAAATAAATCAAGGGGTTACATGA -AAACGTAGCCCCTTTTTCTTTGGTAGTGACACTAAAATGGATGTAGTGTGAAGAATAATCCCGTTTACTC -AATCAATAATACATATTGTTTCAATCTACGTTATTATCTCTTTGTAAAAATTGCCATTTATTAATCATTG -AAAACTGCTTTTAGAACTTGATACAACGGGACTAGTCACAACAGGACTATTCTCAACGGGATCATCCTCA -GAGGAACTATCATCAAAGTCATCATCCATAAATAAAATATCATCGAATGGTGCCACGCCCGTGATGAGTT -TTATTTTATTATTACGATCAGTCAATACTCCACTTAAACCGTTTTCGCTCACAGGTTTTAATGATTTTTC -ATTACTCTTGTTGTAAGCAGGCGCATTAAAAATACACGGAGTATCAACATCAAACAATGACGTTCCCCAG -TTCACATATTGAATATCATAGTTACTGAAGTTCTGTCCAGAAAAGAAGCACCCCTTAAAATCCAATCCAC -GTAAATTATATAAACCACCCTCTTCTTTTTGGAGAGTAATGTTAATTTTGGCTATCTCCCGGACATCATC -GCCATTTTTGTATTTGAATACCGTTTCAAGATGTTCTCCAGACAGCTTGACTTCAGGAAATAATTTGAAA -TCAAAGCCTATATTATTATGTGTCAACGTAGATGAACAAAAAATGGAAAAAGCTTGCAGTGCTGAATTAT -AGCTATCGATTTTATCTTGAGGCTGAGCTCTTGGTAAAAACTTATAGCAACACTCATAAAAATTAAACAG -AAGCTCTGAAGACCTTGTATTTTTATCAAATAATACCCCCTTGAACTCATTCACAAACGCATCTTTTTTT -TCTTGAATATCTATGGGGTGTTCCTTTGACTCTGACAAAGATGAAATCTCATCTATTTTGTTTTCATATG -AATTACGTGATTCCATACAGACATTTGGCGGCGTTTCTAAAATAACACTACGCGTACTACTTGGCTTAAG -TAAACCAACATGAAAATCACTTTTTCTTATATTATCGAAAAGGTTCTATTCATTTCTTTTAGCGCATTCA -AAAAACTGATCGGCATTATTTTTATTCGATAATTTTTTAGTTTCAGAAAACACATTTTCATTGTTTTCCA -GCTTTAGTTTAATGAGAAGATTTTCCCAGACCTGCTTGCTTAAACATATTACGTCAGGCTCACCAGAACT -AACTAACTCGTGATTATTATTAAAGTGTACGTTGAATACCTTTAAGTTATTTTCACCAACTTCATATTTA -ATACGTTTTAATTGTTCTCCAGCTCCCATAATGACAAAGGCGTTGCCTTCTTGATATATACATTCAGACA -TCATTTTTTGTAAAGTTTCAAGAGCACCGCGATACGTCTCTGATGCAGCTTCCTTACAAATTAATTTTAA -AATACTATGAGCTAGTAGCTCCATGTGTTTAGAAGATTTATTTTCATTATAACTTCCACTACCCAAAACT -GCGCTAGCGTTAAATCCGTTGCTTTTACTAACTAACATTGTCTATTCCTCAATTAATGTCTACATGGCTA -TTTTTAATGTTATTACTGTTTGTCACTATAAAAAAACGCTCATTTGAGACAATTACTGACATTAACTGCT -TCACTTGCTACGCATGGAACTTTTAATTAAATTAGCACAGGAATGTTAAATTTAATAAACAAAAGGTTAT -TTCGCTGTATGATAAAAAAAACCGTTATAATTTATTAGTGAAAATCGTTTTTCAAGTGTTAGAAATTTAT -ATCTCAATAGCGTTGGTTAATGAGCATAGCCACGCTCCTGTAACGCTCACAAAACTCATCTGCCTGCGGC -GGGTGTTCTGGTCAGTAGTAGATGTTTAAGGCGTGGCAGAGACATTTCATCCTTACTCTACGGCATTGTT -CTACATACATTGGTTGTGGTACTCACTTATCATCAGTGAGCGAACAGAGAATAGTTCAGTGATTTGAGTA -ATTAACCTGATTAAATGAAGGGGTATAATAAATGATAATACTCTGGCTTTATCGTTAATTACTTAATTCC -ACATGTAAGCAATTTGCCCGCTTGGCATAGCAGGCATTTTTTCCAGGTACTTTTGAATGAGTACTGATGG -ATAAATACATTGCAGTGGCGTGCCACGTACCAAAACACCAGCCCTCATTCGAAACCACCCACCGCACTTC -TTCCTTGAAATGGCGTTAGTCATGAAATATAGACCGCCATCGAGTACCCCTTGTACCCTTAACTCTTCCT -GATACGTAAATAATGATTTGGTGGCCCTTGCTGGACTTGAACCAGCGACCAAGCGATTATGAGTCGCCTG -CTCTAACCACTGAGCTAAAGGGCCTTGAGTGTGCAATAACAATACTTATAAACCACGCAATAAACATGAT -GATCATATGATGTAAATAACAGATTTTTATGCGTTCCCATTCACCTTGGGTCGTGATTACACGCGACATA -AAACCCGACACCGCCTCCATTCGCAAAGTCGATACTCGCAGTCAACAAGCAAATGTTAATAATTAGCACT -ATCTATAGTTATCATCGATTCAATGATACTTTGTAATGATTTTGTATCTAATAATATAACTTTATTACAT -TAGCTGAAGAGTTTTCGCATCATTATGATATCTGTTACTTTTCACTCCATAAAAATAAACTTCGTATAGC -AATATATTCTTTCATAGATCTTATTCTGCTAATCATTAGTTTCGTATGAGCGATTTTTGACAGTTGCCTC -TCCAGACCACATCGATAATTAATAAAACAGATTTAAGCATTATCCTTTTCCATATAAATATTGGATAAAA -GTAGGACATCTGTTTGCAATTACTTTCACAACAATTAAACATTTTTATGTTTCCGTATACATCATATTAC -TCTACCATTAGAGGAACTTTATTATGTTTTCTATAAAACCAGGACCCAGAAATTTACCTATCGACAACCC -CACATTGTTATCATGGAACATTACTGACGGGGATCTAAATTCCAAATTAAATACATTAGAATATCTAAAC -TGTATAACAAATATTATTAATTCTTGTGGAGTTTACCCTCAAGGATTAAAAGACAGAGAAATTATATCAA -CTTTTCACGCAGAAAAAGTTATTAATGATCTGTTAAAAAACGATTATAAAATTTCCCTTTCTCCAGATAC -AACTTACCGAGAGTTGAATAAAGCAGCACAGCGTAGCATTACAGCGCCAGACAGGATAGGAGAAAGAAAA -ACATAGGTTTATCAACGAGATACAATGATTGAAAGAGGTGATAACAGCGGTGTTTATCAGTATGGTCGTG -CTGAACATTTCACCCACATTATATCTGACAAACCTTCCCCAAAAGATAAATATGTTGCATATGCTATTAA -CATTCCTGACTATGAGCTGGCAGCCGATGTATATAATATTAACGTGACGTCACCTTCCGGACAGCAAGAA -ACATTTAAAATATTAATCAATCTAGAACATCTACGGCAAACACTTGAACGTAAATCTCTTACTGCTGTTC -AGAAATCACAATGTGAAATCATCACCCCCAAAAAACCTGGCGAAGCGATTCTTCATGCTTTTAATGCCAC -CTACCAGCAGATCAGAGAAAATATGTCTGAATTTGCACGTTGCCATTATGGGTATATACAAATCCCTCCA -GTGACAACTTTCCGCGCCGACGGACCAGAAACTCCCGAAGAAGAAAAGGGTTACTGGTTTCATGCTTATC -AACCCGAAGATCTTTGTACCATCCATAATCCAATGGGAGATTTGCAGGATTTTATTGCATTGGTTAAAGA -TGCTAAAAAATTTGGTATCGATATCATTCCTGATTATACCTTTAACTTTATGGGAATTGGGGGTAGTGGT -AAAAATGACCTGGATTATCCCTCTGCTGATATACGAGCGAAGATCAGTAAAGATATAGAAGGTGGTATCC -CTGGCTATTAGCAAGGTCAGGTTTTGATTCCATTCATTAAAGATCCAGTAACAAAAGAACGTAAACAAAT -CCATCCAGAAGATATACATCTCACTGCAAAAGACTTCGAAGCAAGTAAAGATAACATCTCTAAGGATGAA -TGGGAAAACCTCCATGCATTAAAAGAAAAGCGTTTAAATGGAATGCCTAAAACAACACCCAAAAGTGACC -AGGTTATTATGTTGCAAAATCAATACGTTCGTGAAATGCGAAAATATGGCGTACGAGGTTTACGTTATGA -TGCGGCAAAACACTCAAAACATGAACAAATAGAAAGATCAATAACCCCACCGCTTAAAAATTATAATGAG -CGGTTACACAATACTAACTTATTTAACCCAAAATATCATAAAAAAGCCGTTATGAATTACATGGAATATC -TGGTAACTTGTCAGTTGGATGAACAACAAATGTCATCACTGCTTTATGAAAGAGATGATTTAAGCGCCAT -TGATTTTTCATTGCTCATGAAAACGATAAAAGCCTTTTCATTTGGTGGAGATCTTCAAACCCTTGCATCA -AAACCGGGTTCCACAATCTCAAGTATCCCATCAGAAAGACGGATATTGATTAACATTAACCACGATTTTC -CTAACAATGGTAATCTTTTCAATGACTTTCTATTTAACCATCAACAAGATGAACAATTAGCAATGGCATA -TATAGCCGCTCTGCCGTTCAGCAGGCCTTTAGTTTACTGGGATGGCCAAGTATTAAAATCAACGACTGAA -ATTAAAAATTATGATGGGTCCACGCGTGTCGGCGGTGAGGCGTAGCTTAATAAAGGTTGCTCTACCTATC -AGCAGCTCTACAATGAATTCCACGCATTATATATAGATAAAGCAGGAATATGGAGCGCATTTGAGGGTGT -ATCTGCAACTAAAAACGTTCTGGCCTTTAGTCGTGGGGATTCTGTGAACATTAATCACTCTCCTCATGAT -GGACTAGTTATAATAAATAAAGGAAACGAAGAAGTTGAAGGTACCTGGCCTAACAAATTGCAACCTGGAA -TATACAAAAACATGGGGAGTAATAGCGTTAACATTATTATTAATAATACCCGAAAAATTATCCCCCCTGG -TAAAGTATTTACGCTTAGAGGCGGAACTCTAAATATCAATATTCCTGGGCGTAGCGCTCTTCTTTTAGGG -AAAACAGGAGAACCGCCGAACTATCTCTATTTATAATTTAATGTTATATCTGCCCCGATAAAACGGGGCA -GATAATATGTTTAGTTTACTAACGGTCATTTTGCAGTGAAGCCATTTACTGTTTTTTATCGACCAGATAA -TCTGTTCTCTAATGTTAACTCCCCCTAACCTGTTGCTTTAGTTATTCATTTCCTGTCTCACTTTGCCTTA -ATACCCTACGTTAAATGTTACTAATTTGTTGCTTTTGATCACAATAAGAAAACAATATGTCGCTTTTGTG -CGCATTTTTCAGAAATGTAGATATTTTTAGATTATGGCTACGAAATGAGCATCGCCATGTCACCCTACAT -CTCATAAGAGGATCGCTTCTGATGAATGCACTGACCGCCGTACAAAATAACGCTGTCGATTCAGGCCAGG -ACTATAGCGGATTCACCCTCACCCCGTCGGCGCAATCCCCGCGTCTGCTGGAACTCACCTTCACCGAACA -GACGACCAAACAGTTTCTTGAGCAGGTTGCCGAGTGGCCCGTGCAGGCGCTGGAGTACAAATCGTTTCTG -CGTTTTCGGGTAGCCAAAATTCTTGACGATCTATGTGCGAACCAGCTGCAACCATTGCTGTTGAAGACGT -TGCTAAACCGCGCTGAAGGTGCGTTGTTGATCAATGCGGTGGGTGTCGATGATGTGAAGCAAGCGGATGA -GATGGTGAAGCTGGCGACGGCGGTGGCGCATCTGATTGGCCGTTCCAATTTCGATGCGATGAGCGGTCAG -TATTACGCGCGTTTTGTAGTGAAAAATGTCGATAACTCAGACAGCTATCTGCGCCAGCCGCACCGCGTGA -TGGAGCTACACAACGACGGCACGTATGTCGAAGAGATAACCGATTACGTGCTGATGATGAAAATCGACGA -GCAAAACATGCAGGGCGGAAATTCGCTGCTGCTGCATCTCGATGACTGGGAACATCTCGACAACTATTTC -CGCCACCCGCTGGCGCGTCGCCCGATGCGCTTTGCCGCGCCGCCGAGTAAAAACGTCAGCAAAGATGTTT -TTCATCCGGTGTTCGACGTCGATCAACAGGGTCGCCCGGTGATGCGCTATATCGACCAGTTCGTCCAGCC -GAAAGACTTCGAAGAAGGCGTGTGGTTGAGCGAGCTTTCCGACGCCATTGAAACCAGCAAAGGCATTCTT -TCTGTGCCCGTTCCCGTTGGCAAATTCCTGTTGATTAACAACCTGTTCTGGCTGCACGGTCGCGACCGCT -TTACTCCGCACCCGGATCTGCGCCGTGAACTGATGCGCCAGCGTGGCTATTTCGCTTACGCCTCTAACCA -CTACCAGACGCATCAGTAAGCGCAAAGGAATTGAGCGGATGTATGATTTTGTGATTATTGGCGGCGGCAT -CATCGGCATGTCGACCGCCATGCAACTGATTGATGTCTATCCGGACGCCCGCATTGCGTTGCTGGAAAAA -GAGTCCGCCCCGGCCTGTCACCAGACGGGCCACAACAGCGGCGTGATCCATGCCGGGGTCTATTACACGC -CCGGCAGCCTGAAGGCGCAGTTTTGCCTGGCGGGAAACCGCGCCACCAAAGCCTTTTGCGATCAAAACGG -CATTCGCTACGACAACTGCGGCAAGATGCTGGTTGCCACGTCCGATCTCGAAATGGAACGGATGCGCGCC -TTATGGGAACGCACAGCGGCGAACGGTATCGAGCGCGAATGGCTTAACGCCGACGAACTGCGCGAGCGCG -AACCGAATATCACCGGGCTCGGCGGCATTTTTGTGCCGTCCAGCGGCATTGTCAGCTACCGCGACGTGAC -GGCGGCGATGGCAAAAATCTTCCAGTCCAGAGGCGGTGAAATTATCTATAACGCCGAAGTCAGCGGGCTT -AATGAGCATAAAAACGGCGTGGTGATACGTACCCGTCAGGGCGGCGAATATGAAGCATCAACGCTGATTA -GCTGTTCCGGGCTGATGGCTGACCGGCTGGTGAAAATGCTCGGACTCGAACCGGGCTTTATCATCTGCCC -GTTCCGTGGCGAGTATTTCCGCCTTGCGCCGGAGCATAACCAGATTGTTAACCACCTGATTTACCCCATT -CCCGACCCGGCAATGCCGTTTTTGGGCGTTCATCTCACCCGCATGATCGACGGCAGCGTGACCGTCGGGC -CAAACGCGGTGCTGGCTTTCAAACGCGAAGGCTATCGCAAGCGCGACTTCTCATTTAGCGACACGCTGGA -GATTTTGGGCTCGTCGGGGATTCGCCGGGTGCTGCAAAACCATCTACGCTCAGGACTGGGCGAGATGAAA -AACTCGCTGTGCAAAAGCGGCTATCTGCGGCTGGTGCAAAAGTATTGTCCCCGGCTTTCGTTAAGCGATC -TCCAGCCCTGGCCCGCCGGTGTGCGGGCGCAGGCGGTATCGCCGGACGGCAAGCTGATTGACGATTTTCT -GTTTGTCACCACCCCGCGCACGATCCACACCTGCAATGCGCCCTCCCCGGCAGCGACATCAGCAATTCCT -ATTGGTGCGCATATTGTCAGCAAGGTACAAACGCTGTTGGCAAGCCAGAGTAACCCCGGACGCACGCTGC -GAGCGGCACGTAGTGTGGATGCCTTACACGCCGCATTTAATCAATAACCTTTGAAAACAGGATGTAGCGA -TGAAACTTAACGACAGTAACTTATTCCGCCAGCAGGCGTTGATTAACGGGGAATGGCTGGACGCCAACAA -TGGTGAAGCCATCGACGTCACCAATCCGGCGAACGGCGACAAGCTGGGTAGCGTGCCGAAAATGGGCGCG -GATGAAACCCGCGCCGCTATCGACGCCGCCAACCGCGCCCTGCCCGCCTGGCGCGCGCTCACCGCCAAAG -AACGCGCCACCATTCTGCGCAACTGGTTCAATTTGATGATGGAGCATCAGGACGATTTAGCGCGCCTGAT -GACCCTCGAACAGGGTAAACCACTGGCCGAAGCGAAAGGCGAAATCAGCTACGCCGCCTCCTTTATTGAG -TGGTTTGCCGAAGAAGGCAAACGCATTTATGGCGACACCATTCCTGGTCATCAGGCCGATAAACGCCTGA -TTGTTATCAAGCAGCCGATTGGCGTCACCGCGGCTATCACGCCGTGGAACTTCCCGGCGGCGATGATTAC -CCGCAAAGCCGGTCCGGCGCTGGCAGCAGGCTGCACCATGGTGCTGAAGCCCGCCAGTCAGACGCCGTTC -TCTGCGCTGGCGCTGGCGGAGCTGGCGATCCGCGCGGGCGTTCCGGCTGGGGTATTTAACGTGGTCACCG -GTTCGGCGGGCGCGGTCGGTAACGAACTGACCAGTAACCCGCTGGTGCGCAAACTGTCGTTTACCGGTTC -GACCGAAATTGGCCGCCAGTTAATGGAACAGTGCGCGAAAGACATCAAGAAAGTGTCGCTGGAGCTGGGC -GGTAACGCGCCGTTTATCGTCTTTGACGATGCCGACCTCGACAAAGCCGTGGAAGGCGCGCTGGCCTCGA -AATTCCGCAACGCCGGGCAAACCTGCGTCTGCGCCAACCGCCTGTATGTGCAGGACGGCGTGTATGACCG -TTTTGCCGAAAAATTGCAGCAGGCAATGAGCAAACTGCACATCGGCGACGGGCTGGATAACGGCGTCACC -ATCGGGCCGCTGATCGATGAAAAAGCGGTAGCAAAAGTGGAAGAGCATATTGCCGATGCGCTGGAGAAAG -GCGCGCGCGTGGTTTGCGGCGGTAAAGCGCACGAACGCGGCGGCAACTTCTTCCAGCCGACCATTCTGGT -GGACGTTCCGGCCAACGCCAAAGTGTCGAAAGAAGAGACGTTCGGCCCCCTCGCCCCGCTGTTCCGCTTT -AAAGATGAAGCTGATGTGATTGCGCAAGCCAATGACACCGAGTTTGGCCTTGCCGCCTATTTCTACGCCC -GTGATTTAAGCCGCGTCTTCCGCGTGGGCGAAGCGCTGGAGTACGGCATCGTCGGCATCAATACCGGCAT -TATTTCCAATGAAGTGGCCCCGTTCGGCGGCATCAAAGCCTCGGGTCTGGGTCGTGAAGGTTCGAAGTAT -GGCATCGAAGATTACTTAGAAATCAAATATATGTGCATCGGTCTTTAACTGGAGAATGCGAATGAACAGC -AATAAAGAGTTAATGCAGCGCCGCAGTCAGGCGATTCCCCGTGGCGTTGGGCAAATTCACCCGATTTTCG -CTGACCGCGCGGAAAACTGCCGGGTGTGGGACGTTGAAGGCCGTGAGTATCTTGATTTCGCGGGCGGGAT -TGCGGTGCTCAATACCGGGCACCTGCATCCGAAGGTGGTGGCCGCGGTGGAAGCGCAGTTGAAAAAACTG -TCGCACACCTGCTTCCAGGTGCTGGCTTACGAGCCGTATCTGGAGCTGTGCGAGATTATGAATCAGAAGG -TGCCGGGCGATTTCGCCAAGAAAACGCTGCTGGTTACGACCGGTTCCGAAGCGGTGGAAAACGCGGTAAA -AATCGCCCGCGCCGCCACCAAACGTAGCGGCACCATCGCTTTTAGCGGCGCGTATCACGGGCGCACGCAT -TACACGCTGGCGCTGACCGGCAAGGTGAATCCGTACTCTGCGGGCATGGGGCTGATGCCGGGTCATGTTT -ATCGCGCGCTTTATCCTTGCCCGCTGCACGGCATAAGCGAGGATGACGCTATCGCCAGCATCCACCGGAT -CTTCAAAAATGATGCCGCGCCGGAAGATATCGCCGCCATCGTGATTGAGCCGGTTCAGGGCGAAGGCGGT -TTCTACGCCTCGTCGCCAGCCTTTATGCAGCGTTTACGCGCTCTGTGTGACGAGCACGGGATCATGCTGA -TTGCCGATGAAGTGCAGAGCGGCGCGGGGCGTACCGGCACGCTGTTTGCGATGGAGCAGATGGGCGTTGC -GCCGGATCTTACCACCTTTGCGAAATCGATCGCGGGCGGCTTCCCGCTGGCGGGCGTCACCGGGCGCGCG -GAAGTAATGGATGCCGTCGCTCCAGGCGGTCTGGGCGGCACCTATGCGGGTAACCCGATTGCCTGCGTGG -CTGCGCTGGAAGTGTTGAAGGTGTTTGAGCAGGAAAATCTGCTGCAAAAAGCCAACGATCTGGGGCAGAA -GTTGAAAGACGGATTGCTGGCGATAGCCGAAAAACACCCGGAGATCGGCGACGTACGCGGGCTGGGGGCG -ATGATCGCCATTGAGCTGTTTGAAGACGGCGATCACAACAAGCCGGACGCCAAACTCACCGCCGAGATCG -TGGCTCGCGCCCGCGATAAAGGCCTGATTCTTCTCTCCTGCGGCCCGTATTACAACGTGCTGCGCATCCT -TGTACCGCTCACCATTGAAGACGCTCAGATCCGTCAGGGTCTGGAGATCATCAGCCAGTGTTTTGATGAG -GCGAAGCAGTAGCGCCGCTCCTATGCCGGAGGCGACGCTGCGCGTCTTGTCCGGCCTACGGGGATCCAGG -TCGGATAAGGCGTTTACGCCGCATCCGACAATCTGTACGTGAACAGGAAGAAATCTATGTTGGCCGGGTA -AGGCGGAGCCGCTCTCCGGCAAAAAGAATCAATAACAATTATACGCGTGACCCGGCGCGGGAAATGTCGG -GGCGCTCTCCCAAGTGACACACTTTCGAGAGGATTCAGGATGGGGCAATCATCGCAACCACATGAGTTAG -GCGGCGGGCTGAAGTCACGCCACGTCACCATGTTGTCTATTGCCGGTGTTATCGGCGCAAGTCTGTTTGT -CGGTTCCAGCGTCGCCATCGCCGAAGCGGGCCCGGCGGTATTACTGGCCTATCTGTTCGCCGGGCTACTG -GTGGTTATGATTATGCGGATGTTGGCGGAAATGGCGGTTGCCACGCCCGATACCGGTTCGTTTTCCACCT -ATGCCGATAAAGCCATTGGTCGCTGGGCGGGCTATACCATCGGCTGGTTGTACTGGTGGTTTTGGGTACT -GGTTATCCCGCTGGAAGCCAACATCGCCGCCATGATCCTGCACTCATGGGTTCCAGGCATTCCCATCTGG -TTATTTTCCCTCGTCATTACCCTCGCCTTAACTGGCAGTAACTTATTAAGCGTTAAAAACTACGGCGAAT -TTGAGTTCTGGCTGGCGCTGTGCAAAGTCATCGCTATCCTGGCCTTTATTTTCCTTGGTGCAGTCGCAAT -TAGCGGTTTTTACCCGTATGCCGAAGTGAGCGGGATCTCAAGATTGTGGGATAGCGGCGGCTTTATGCCC -AACGGTTTCGGTGCGGTATTAAGCGCGATGTTGATCACCATGTTCTCGTTTATGGGCGCAGAAATTGTCA -CCATTGCCGCCGCGGAATCCGACACGCCGGAAAAACATATTGTCCGCGCCACCAACTCGGTTATCTGGCG -TATTTCTATCTTCTATTTATGTTCTATTTTTGTCGTCGTGGCATTAATTCCGTGGAATATGCCCGGACTA -AAAGCCGTCGGTTCTTATCGCTCGGTACTGGAATTGCTCAATATTCCCCATGCGAAATTAATCATGGACT -GCGTGATATTACTTTCCGTAACCAGTTGCCTGAACTCGGCGCTGTATACCGCGTCAAGGATGCTCTACTC -CTTAAGTCGTCGCGGTGATGCTCCCGCGGTAATGGGTAAAATCAACCGCAGTAAAACCCCGTACGTGGCG -GTGTTACTCTCCACCGGCGCGGCATTCTTAACGGTGGTGGTGAACTATTACGCGCCTGCGAAGGTATTTA -AATTTCTGATCGACAGCTCCGGCGCTATCGCCCTGCTGGTTTATTTAGTCATCGCCGTTTCACAGTTGCG -GATGCGCAAAATTCTGCGAGCAGAAGGAAGCGAAATTCGCTTGCGAATGTGGCTTTATCCGTGGCTCACC -TGGCTAGTCATCGGCTTTATTACCTTTGTGTTGGTAGTGATGCTATTCCGTCCGGCGCAACAGTTAGAAG -TGATCTCCACCGGCTTATTAGCGATAGGGATTATCTGTACCGTGCCAATTATGGCTCGCTGGAAAAAGCT -GGTATTGTGGCAAAAAACACCCGTTCATAATACGCGCTGATCATGATCAGGAGTCACACCATGACCATTA -CGTCTCTGGATGGCTATCGCTGGCTGAAGAACGATATTATTCGCGGTAATTTTCAACCGGATGAAAAATT -ACGAATGAGTTTGCTGACATCGCGTTATGCACTTGGCGTTGGGCCGTTACGGGAAGCTCTTTCGCAACTG -GTGGCGGAACGGCTGGTCACGGTGGTGAATCAAAAAGGGTATCGGGTGGCGTCTATGTCAGAGCAGGAGC -TGCTCGATATTTTCGACGCCCGCGCCAATATGGAAGCGATGTTAGTGAGTCTGGCGATTGCCCGCGGTGG -CGATGAGTGGGAGGCAGACGTTCTCGCAAAAGCGCATCTGCTGAGTAAGCTTGAGGCCTGTGACGCCAGC -GAGAAAATGCTTGATGAGTGGGATCTGCGTCATCAGGCGTTTCATACGGCAATTGTGGCGGGCTGTGGTT -CTCACTATTTGCTGCAAATGCGTGAACGGTTGTTTGATCTGGCGGCGCGTTATCGATTTATCTGGCTGCG -GCGAACGGTGCTTTCGGTGGAAATGCTGGAGGATAAACACGATCAGCACCAGACCCTGACTGCGGCGGTA -CTGGCGCGAGATACCGCGCGCGCCAGTGAGTTAATGCGCCAGCATTTACTGACGCCAATTCCCATTATCC -AGCAGGCGATGGCTGGCAATTAACTACTCTTCCGGAATACGCAACACTTGCCCCGGATAAATTTTATCCG -GGCTTTTTAGCATCGGTTTATTCGCTTCGAAGATTTTATTGTACAGATTAGCGTTACCGTAGACCTGTTT -GGAAATGGCACTCAGAGTGTCGCCAGACTTAACGGTATAAAACTGGCTGGCAGTGGCTGGTGTCGCCGTT -TTCACCTGATCATCGACACTGGCAATACCGGAAATATTCCCCACCGCAACAAGGATTTTCTCCTTCGCCT -CCTGACTCAGGCCGTCACCAGTGACCGTCGCTTTGCCGTCGGCAATTTGAATATTCACTTTATCGGCATC -CGGTATACCGGTTTTGTTCAGATGCTCCTGCACCTTCTTCGCCTGATCGTCTTTATCGTGCTGACCTGTA -ACCGCGTCCCAGAGTTTTTCTCCGGCATCTTTCACAAAATTGAACAGACCCATAGCTACCTCATTCGTTA -ACGGAAACACTCAGAAAGTGTAGCAGAGGAACGCGGCGCGTTAACGCCGCGGGGATGAGCACAGGTTTAA -TCGCGGGTTTGCACCCAGAACGCGTGAATCAAACCGGGGATATACCCAAGCAGTGTCAACAGAATATTAA -TAATGAACGCCCAACCGAACCCTTTACCGAGCAGCACGCCGAGCGGCGGCAGAATGATGGTGATGACGAT -TCTCCAGAAACCCATATGTACTCCCTATAAGAAAATTACTCATTGTTTAAAAAGAGATTTTATCTCTTAA -GCGTAGTAATTTTAGCGGAGCCTGCCAGTTTCAGCTTACGCTTTTACTCTCATTTACGCTGCTGAGGCTG -GTATATGTTGCATTTTTAGTTTAGAGTTTACTTAATTTAGAAAATACTTAAATAAATATGACTGAACTCG -CGCAATTACAGGCCAGTGCCGAACAGGCAGCGGCCTTATTGAAAGCAATGAGCCACCCTAAACGATTGCT -GATTCTGTGCATGCTTAGCGGTTCCCCCGGCACCAGCGCGGGAGAGCTGACGCGCATTACCGGACTGAGT -GCCTCTGCGACATCACAGCATCTCGCTCGTATGCGGGACGAAGGGCTTATCGACAGCCAACGGGATGCCC -AACGCATTCTATATTCCATTAAAAATGAGGCGGTAAATGCCATTATCGCCACCCTGAAAAATGTCTATTG -TCCGTAAGGAGTCACTATGGCTTTGACAACCATTTCGCCGCATGATGCACAAGAATTAATCGCACGCGGC -GCAAAGTTAATCGATATTCGTGATGCTGATGAATATCTTCGTGAACATATTCCTGAAGCAGATCTGGCTC -CATTATCCGTGCTGGAACAGTCAGGTCTTCCGGCTAAATTACGTCACGAGCAAATTATATTCCACTGCCA -GGCAGGTAAACGCACCAGTAATAATGCCGATAAATTAGCAGCGATTGCCGCCCCCGCAGAAATCTTTTTA -CTCGAAGATGGGATTGATGGCTGGAAAAAAGCAGGATTGCCAGTAGCGGTAAATAAATCTCAACCCTTGC -CGTTAATGCGCCAGGTGCAGATCGCTGCGGGTGGTTTAATATTAATCGGCGTTGTACTGGGTTATACCGT -AAATAGCGGTTTCTTCTTATTAAGTGGCTTTGTTGGTGCCGGGTTACTGTTTGCAGGAATCAGCGGTTTT -TGTGGAATGGCAAGGTTGTTAGATAAGATGCCGTGGAACCAACGAGCTTGAGAAGCGACGCCGGACGCGC -CCTAGCAGCGACATCCGGCCTCAGTAATTAGATCAGGAAATCGTCGAGAGATTTACCTTCTGCCAGCGCC -TGAGCAATTGGCTTCGGTGTACGGCCCTGACCGGTCCAGGTTTTAGTTTCACCGTTAACATCGGTGAATT -TATATTTCGCCGGACGCGGCTGGCGTTTTTTACCAGCGCGTGGTGCAGCAGCAGAGCTATTACCCAATAA -CTCTTCCGGGTTAATTCCGTCAGCTTTCATCAGCTCCAGCCAGGTGCTAATTTTTTCCTGGCGCTCTGCC -AGTTCACGCTGCTGCTGTTCTTCTTCTTCACGTCTTTCTTTAGTGACAACCCTGAATTTTTCGAGCATTT -CTTCAAGAACGTCAATGGAGAATTCGCGAGCCATCGCACGGAGGGTGCGAATGTTATTTAAACTTTGTAA -CATTACGGACATAATAAAGAAAACCTTTTAACGCCAAAACAAAAAAAGTATTTCGTCGCGTAGTGTAAGC -GATCACTTATTATATTTCCACAAAATTTAATCTATTTACAGTCCTGCGCGAGATTATTTCAGCTGTTATT -TTCTGAAACTCTCAGAATAATTTCAAGATTATATATTAGCCATTTTGATGAGTAATTTAGATTATTGGTG -AACAGAGCGGCGCTCTCTGCTCGCTAATTCCGCAAGCCTGACAAAATCAAAGTGAATAAAAATGCAATAT -AACAGAATAAAAGAAAACATCCATCACTGGTGCTTTCTGCTGTTAATGTACATTGTCTGGCATAAAAAAT -GCTGAAAATGACCCAGCTACTACATACACCGAATTCTCTACGCTTATAGCGTTACCTCACCCCCAAACTT -TCATTAGTGATATTAAAGGTAAGGCCATATCTAATTGATTTAATTAAAAATAAATCATATCGGCATGTAA -AAATCCACAATGTACAAAAAACGAGCCGTTACGGAATATTTTATCTACAAAAACTGACTAAATAAAAATT -TTTCACTAATTGATTAGTCATAGCCAGCGATATACGCTATGCGAAAATGCAGATGGCAATGAGATCCACT -GCTTTCATCTCCATTAACATCCCATTACGCTTTTATTAAGGAGCATTAGCATGTTCTCACCGCAGTCACG -CTTGCGTCATGCAGTTGCAGATACGTTCGCGATGGTTGTTTACTGTTCTGTCGTGAACATGTGTATTGAA -GTTTTCCTCTCCGGAATGAGCTTCGAACAGTCTTTTTATTCCAGATTGGTAGCGATTCCGGTGAACATCT -TAATTGCATGGCCATACGGTATGTACCGTGATCTGTTTATGCGCGCGGCACGCAAAGTTAGCCCGTCGGG -CTGGATAAAAAATCTGGCGGATATCCTGGCTTATGTGACGTTCCAGTCACCGGTGTATGTGGCGATCTTG -TTAGTGGTGGGCGCAGACTGGCATCAGATTATGGCGGCGGTCAGTTCAAACATCGTTGTTTCGATGTTGA -TGGGGGCGGTTTATGGCTACTTCCTCGATTATTGCCGCCGACTGTTTAAAGTCAGCCGTTACCAGCAGGT -AAAAGCCTGACTCTTCTTTTCGCGACTGGCATCGCCAGTCGCGTCTTTAACTGGCTTCGCCAAATAAACC -ATTCAAATAACGTTCAAGCGCAACACGCGAACTAAAGCCATGCGGGATACCGTAATGCTCGTGTCGCTCG -CCTGCTAAATAGAGCGGAAATTGCTGGTAATGATCGCAAGTTTTAATATCGGAAGCGGGTTCAGCCAGTG -TCGAACTGCGTTCTTTTAATGTTGGATGAATTACCAGAGCGGTACGTCCCATTCGCGCTTCGCGATTAAC -ATAGACATAATTTTCCCCACGGCGGTAACCATACGCTTTCTGGGTTACCACATCGACAGTAAAACCGACT -TTTTCAAGTACGCGCGCCACCTCGTCTGGTCGTAAATACATATTTGATCCTCGTTATTATCAACCGCGGG -CCTACCTTACCTGATTGCGCATTCACAACGCTTTCAGAAAAGTCCATAAAGCCGCGATGAACCTCAGTTA -AGAAAATTATGGTCTACACTGAAAATTACATCGAATTCTAATGGGGGATCATATGTTTAACCGACCGAAC -CGCAACGACGTTGATGATGGCGTGCAGGATATCCAGAATGATGTCAATCAATTAGCTGACAGCCTCGAAT -CTGTATTGAAGTCCTGGGGCAGCGACGCCAAAGGGGAAGCTGAAGCCGCACGCAGTAAAGCTCAGGCATT -GCTGAAAGAAACCAGGGCGCGAATGCATGGTCGTACTCGCGTCCAGCAAGCCGCGCGCGATGCCGTTGGC -TGCGCGGATTCTTTTGTTCGTGAAAGACCCTGGTGTAGCGTGGGTACAGCAGCTGCGGTAGATATTTTTA -TCGGCGCACTGTTAAGCATGCGCAAATCGTAGTGCAAAAATGATAATAAATACGCGTCTTTGACCCCGAA -GCCTGTCTTCGGGGTTTCTTTTTGCCTGGTGAATCACAAAAATCCCCCTACCCCGTCACGCTCATATCCA -GGGTAATTTCGACCACTATTTGCTATATATTGTGTGGTTGAATCTTTTTTCAACTACATCTAGTATCTCT -GTATCAACAGAGAGACAACCCGACGCGTATCATCGCGCCGTATCTTCATTTTAAACGGAAATACGAATCA -TGCGCATTACTATTTACACTCGTAACGATTGCGTTCAGTGCCACGCCACCAAACGGGCGATGGAAAACCG -GGGCTTTGATTTTGAAATGATTAATGTCGATCGCGTTCCTGAAGCGGCAGAAGCGTTGCGTGCTCAGGGC -TTTCGTCAGTTGCCGGTAGTGATTGCTGGCGATCTTAGCTGGTCTGGTTTCCGTCCGGACATGATTAACC -GTCTGCATCCAGCGCCACACGCGGCCAGTGCATGAGCCAGCTCGTCTACTTCTCCAGCAGCTCCGAAAAC -ACGCAGCGTTTTATCGAACGTTTAGGTCTGCCCGCGGTGCGCATCCCGCTCAATGAGCGGGAACGGATTC -AGGTAGACGAGCCTTACATCCTGATCGTGCCCTCTTACGGCGGCGGCGGTACGGCTGGCGCGGTGCCACG -ACAGGTAATTCGCTTTTTAAACGACGAGCACAACCGGGCGTTGCTTCGCGGCGTTATTGCTTCTGGTAAT -CGCAACTTTGGTGAGGCGTATGGCCGCGCCGGAGATGTGATTGCCCGGAAATGCGGCGTGCCGTGGCTGT -ACCGTTTTGAACTCATGGGTACGCAAAGCGATATCGAAAACGTTCGTAAAGGAGTAACCGAATTTTGGCA -ACGACAACCGCAGAATGCCTGACGCAGGAAACGATGGATTACCACGCGCTGAATGCGATGCTTAACCTCT -ACGATAGCGCAGGTCGCATTCAGTTCGATAAAGACCGCCAGGCCGTTGACGCCTTTATTGCGACGCATGT -GCGTCCGAACAGTGTGACCTTCAGTAGCCAGCAGCAGCGCCTGAACTGGCTGGTCAACGAAGGTTACTAT -GATGAAAGCGTTCTTAATCGCTACTCTCGCGACTTTGTCATTACGCTGTTTACCCACGCACACACCAGCG -GTTTTCGTTTCCAGACATTCCTCGGGGCATGGAAGTTTTACACCAGCTATACGTTGAAGACATTCGACGG -TAAACGTTATCTGGAAGATTTTGCCGATCGAGTAACGATGGTGGCGCTGACGCTGGCACAAGGCGATGAG -ACGCTGGCGTTGCAACTGACCGATGAAATGCTGTCAGGACGCTTTCAGCCAGCCACGCCAACATTCCTCA -ACTGCGGTAAGCAGCAGCGCGGCGAACTGGTTTCCTGTTTTTTGCTGCGTATTGAAGACAATATGGAGTC -GATTGGTCGGGCGGTAAATTCCGCACTGCAGCTGTCGAAACGCGGCGGCGGCGTAGCATTTTTGCTGTCG -AATCTGCGAGAAGCGGGCGCGCCAATTAAACGTATTGAAAATCAATCTTCTGGCGTAATTCCGGTGATGA -AAATGCTGGAAGACGCATTTTCCTATGCCAACCAACTCGGCGCTCGTCAGGGGGCTGGTGCAGTCTATTT -ACATGCTCATCATCCCGATATTCTGCGTTTTCTCGACACGAAACGGGAAAATGCCGACGAAAAAATCCGC -ATTAAAACACTGTCGCTTGGCGTGGTGATCCCGGATATCACTTTCCATCTGGCAAAAGAGAATGCGCAGA -TGGCGCTGTTTTCGCCTTATGACGTAGAGCGAGTTTATGGCAAGCCGTTTGCCGATGTGGCCATCAGCCA -ACACTATGACGAACTGGTTGCCGATGAACGCATTCGCAAAAAATACCTCAACGCCCGTGATTTCTTCCAG -CGACTGGCAGAAATCCAGTTTGAGTCCGGCTATCCCTACATCATGTATGAAGACACGGTAAACCGTGCTA -ACCCTATCGCCGGGCGCATAAATATGAGTAATCTCTGCTCAGAAATTTTGCAGGTTAACAGCGCCTCAGA -GTATGACGAGAATCTCGACTATACCCGCACAGGCCATGATATTTCCTGCAATTTAGGTTCGTTGAATATT -GCGCACACCATGGATTCCCCCGATTTTGCCCGCACGGTAGAGACTGCCGTGCGCGGTTTAACGGCAGTAT -CAGATATGAGTCATATCCGCAGCGTGCCGTCCATCGAAGCCGGAAATGCCGCCTCGCACGCCATCGGACT -GGGGCAGATGAATTTACACGGCTATCTGGCGCGAGAAGGCATCGCTTATGGTTCGCCGGAAGCACTGGAT -TTCACCAATCTCTATTTCTATGCCATCACCTGGCATGCACTGCGTACCTCGATGTTGCTGGCACGCGAAC -GCGGTGAAACCTTCGCCGGGTTCAAACAGTCACGCTATGCCAGTGGTGAATATTTTAGCCAATATCTGCA -AGGGAACTGGCAGCCGAAAACGGCGAAAGTTGGCGAACTGTTTACCCGTAGCGGTATTACGTTACCTACC -CGTGAGATGTGGGCGCAGCTGCGCGACGACGTGATGCGCTACGGCATATACAACCAGAATCTTCAGGCGG -TGCCGCCAACCGGTTCTATCTCTTATATCAACCATGCTACGTCGAGTATTCATCCGATTGTGGCGAAAGT -AGAGATACGCAAAGAGGGCAAAACAGGACGCGTTTACTACCCTGCCCCGTTTATGACTAACGAGAATCTG -GCGCTGTATCAGGACGCTTACGAAATTGGCGCAGAAAAGATCATCGACACCTACGCGGAAGCGACTCGCC -ATGTCGATCAGGGGCTGTCGCTGACGCTTTTTTTCCCCGATACCGCCACCACTCGCGATATCAACAAAGC -GCAGATTTACGCCTGGCGCAAGGGTATCAAAACGCTCTATTACATCCGCCTGCGTCAGATGGCGCTGGAA -GGCACTGAAATTGAAGGCTGCGTCTCCTGTGCACTTTAAGGAATATCTATGAAACTCTCACGTATCAGCG -CCATCAACTGGAACAAGATATCTGACGATAAAGATCTGGAGGTGTGGAATCGCCTGACCAGCAATTTCTG -GCTACCAGAAAAGGTGCCGCTGTCGAACGATATTCCTGCCTGGCAGACATTAACTGTCGTAGAACAACAA -CTGACGATGCGCGTTTTTACTGGCCTGACGCTGCTCGACACGCTGCAAAATGTTATCGGCGCGCCTTCTC -TGATGCCCGATGCACTCACGCCTCATGAAGAAGCGGTATTATCGAATATCAGCTTTATGGAAGCGGTTCA -TGCCCGCTCTTACAGTTCGATTTTCTCGACGCTATGCCAGACCAAAGATGTCGATGCCGCCTACGCCTGG -AGTGAAGAAAACGCACCGTTGCAGCGAAAAGCTCAGATTATTCAGCAACATTATCGCGGTGATGATCCGC -TGAAAAAGAAAATCGCCAGTGTGTTTCTTGAATCTTTTTTGTTCTATTCCGGTTTCTGGCTGCCGATGTA -TTTTTCCAGCCGCGGAAAGCTGACCAATACCGCGGACCTGATCCGTCTGATTATCCGCGATGAAGCAGTC -CACGGTTACTACATAGGCTATAAATATCAGAAAAACATGGAAAAGATATCTCTGGGACAACGTGAAGAGT -TGAAGAGTTTCGCCTTCGATTTGTTGCTGGAACTCTACGACAACGAGTTGCAATACACCGATGAGCTGTA -CGCCGAAACCCCGTGGGCTGACGATGTGAAAGCGTTTCTCTGTTACAACGCCAATAAGGCTTTGATGAAT -CTGGGCTACGAACCGTTATTTCCCGCAGAAATGGCGGAAGTGAATCCGGCAATCCTCGCCGCGCTTTCGC -CGAATGCCGATGAAAATCACGATTTCTTTTCCGGTTCAGGCTCCTCTTATGTGATGGGGAAAGCGGTTGA -AACAGAAGATGAAGACTGGAATTTCTGAGGGTGTTATTTTCAAAAATATCACTACCCGCAGCAGGGAAAT -AATTCCCGCCAAATAGCTTTTTATCACGCAAATAATTTGTGGTGATCTACACTGATACTCTGTTGCATTA -TTCGCCTGAAACCACAATATTCAGGCGTTTTTTCGCTATCTTTGACAAAAAATATCAACTTTCTCGATTT -GCTCTCAGCCCTTATATCACGGGAAATTCCGGCGATTTGCTCGCATCAATATTCATGCCACATTTGCCAT -CAGGGGTTGCCTCAGATTCTCAGTATGTTAGGGTAGAAAAAAGTGACTATTTCCATTGGGTAATATATCG -ACATAGACAAATAAAGGAATCTTTCTATTGCATGGCAATTAAATTAGAAATTAAAAATCTTTATAAAATA -TTTGGCGAGCATCCACAGCGAGCGTTCAAATATATCGAACAAGGACTTTCAAAAGAACAAATTCTGGAAA -AAACTGGGCTATCGCTTGGCGTAAAAGACGCCAGTCTGGCCATTGAAGAAGGCGAGATATTTGTCATCAT -GGGATTATCCGGCTCGGGTAAATCCACAATGGTACGCCTTCTCAATCGCCTGATTGAACCCACCCGCGGG -CAAGTGCTGATTGATGGTGTGGATATTGCCAAAATATCCGACGCCGAACTCCGTGAGGTGCGCAGAAAAA -AGATTGCGATGGTCTTCCAGTCCTTTGCCTTAATGCCGCATATGACCGTGCTGGACAATACTGCGTTCGG -TATGGAATTGGCCGGAATTAATGCCGAAGAACGCCGGGAAAAAGCCCTTGATGCACTGCGTCAGGTCGGG -CTGGAAAATTATGCCCACAGCTACCCGGATGAACTCTCTGGCGGGATGCGTCAACGTGTGGGATTAGCCC -GCGCGTTAGCGATTAATCCGGATATATTATTAATGGACGAAGCCTTCTCGGCGCTCGATCCATTAATTCG -CACCGAGATGCAGGATGAGCTGGTAAAATTACAGGCGAAACATCAGCGCACCATTGTCTTTATTTCCCAC -GATCTTGATGAAGCCATGCGTATTGGCGACCGAATTGCCATTATGCAAAATGGTGAAGTGGTACAGGTCG -GCACACCGGATGAAATTCTCAATAATCCGGCGAATGATTATGTCCGTACCTTCTTCCGTGGCGTTGATAT -TAGTCAGGTATTCAGTGCGAAAGATATTGCCCGCCGGACACCGAATGGCTTAATTCGTAAAACCCCTGGC -TTCGGCCCACGTTCGGCACTGAAATTATTGCAGGATGAAGATCGCGAATATGGCTACGTTATCGAACGCG -GTAATAAGTTTGTCGGCGCAGTCTCCATCGATTCGCTTAAAACCGCGGGTGATGCTGCCAACTTACTGAT -TTAGTGTATGATGGTGTTTTTGAGGTGCTCCAGTGGCTTCTGTTTCTATCAGCTGTCCCTCCTGTTCAGC -TACTGACGGGGTGGTGCGTAACGGCAAAAGCACCGCCGGACATCAGCGCTATCTCTGCTCTCACTGCCGT -AAAACATGGCAACTGCAGTTCACTTACACCGCTTCTCAACCCGGTACGCACCAGAAAATCATTGATATGG -CCATGAATGGCGTTGGATGCCGGGCAACAGCCCGCATTATGGGCGTTGGCCTCAACACGATTTTACGTCA -CTTAAAAAACTCAGGCCGCAGTCGGTAACCTCGCGCATACAGCCGGGCAGTGACGTCATCGTCTGCGCGG -AAATGGACGAACAGTGGGGCTATGTCGGGGCTAAATCGCGCCAGCGCTGGCTGTTTTACGCGTATGACAG -TCTCCGGAAGACGGTTGTTGCGCACGTATTCGGTGAACGCACTATGGCGACGCTGGGGCGTCTTATGAGC -CTGCTGTCACCCTTTGACGTGGTGATATGGATGACGGATGGCTGGCCGCTGTATGAATCCCGCCTGAAGG -GAAAGCTGCACGTAATCAGCAAGCGATATACGCAGCGAATTGAGCGGCATAACCTGAATCTGAGGCAGCA -CCTGGCACGGCTGGGACGGAAGTCGCTGTCGTTCTCAAAATCGGTGGAGCTGCATGACAAAGTCATCGGG -CATTATCTGAACATAAAACACTATCAATAAGTTGGAGTCATTACCAAAACCGCGTTAACGCAGCAGCAAG -GTCTTGATGCGGCGCTGATTGATGCGCCGTTAGCAGTCGATGCACAAACGCCTCTTAGCGAGTTGCTCTC -TCATGTCGGACAGGCACCCTGTGCGGTGCCCGTGGTCGACGAGGACCAACAGTATGTCGGCATCATTTCG -AAAGGAATGCTGCTGCGCGCTTTAGATCGTGAGGGGGTAAATAATGGCTGATCAAAATAATCCGTGGGAT -ACCACGCCAGCGGCGGACAGTGCCGCGCAATCCGCAGACGCCTGGGGTACACCGACGACTGCACCGACTG -ACGGCGGTGGTGCTGACTGGCTGACCAGTACGCCTGCGCCAAACGTCGAGCATTTTAATATTCTCGATCC -GTTCCATAAAACGCTGATCCCGCTCGACAGTTGGGTCACTGAAGGGATCGACTGGGTCGTTACCCATTTC -CGTCCCGTCTTCCAGGGCGTGCGCGTTCCGGTTGATTATATCCTCAACGGTTTCCAGCAATTGCTGCTGG -GTATGCCCGCACCGGTGGCGATTATCGTTTTCGCTCTCATCGCCTGGCAGATTTCCGGGGTCGGAATGGG -TGTGGCGACGCTGGTTTCGCTGATTGCCATCGGCGCAATCGGTGCCTGGTCGCAGGCAATGGTGACTCTG -GCGCTGGTGTTAACCGCCCTGCTGTTCTGTATCGTCATCGGTTTGCCGTTGGGGATATGGCTGGCGAGAA -GTCCGCGAGCGGCGAAAATTATTCGTCCACTGCTTGATGCCATGCAGACCACGCCAGCGTTTGTTTATCT -GGTGCCAATCGTCATGCTATTTGGTATCGGTAACGTGCCGGGCGTGGTGGTGACGATCATCTTTGCTCTG -CCGCCGATTATCCGTCTGACCATTCTGGGGATTAACCAGGTTCCGGCGGATCTGATTGAAGCCTCGCGCT -CATTCGGTGCCAGCCCGCGCCAGATGCTGTTCAAAGTTCAGTTACCGCTGGCGATGCCGACCATTATGGC -GGGCGTTAACCAGACGCTGATGCTGGCCCTTTCTATGGTGGTCATCGCCTCGATGATTGCCGTCGGCGGG -TTGGGTCAGATGGTACTTCGCGGTATCGGTCGTCTGGATATGGGGCTTGCCACCGTTGGCGGCGTCGGGA -TTGTGATCCTCGCCATTATCCTCGATCGTCTGACGCAGGCCGTTGGGCGCGACTCACGCAGTCGCGGCAA -CCGTCGCTGGTACACCACTGGCCCTGTTGGTCTGCTGACCCGCCCATTCATTAAGTAACTCTGCACTTGC -CCGGTGACGCCGGGCATTATCACCCTGCCAAAAAAAGGAATAACAATGCGACATAGCGTACTTTTTGCGA -CAGCGTTTGCCACGCTTATCTCTACACAAACTTTTGCTGCCGATCTGCCGGGCAAAGGCATTACTGTTAA -TCCAGTTCAGAGCACCATCACTGAAGAAACCTTCCAGACGCTGCTGGTCAGTCGTGCGCTGGAGAAATTA -GGTTATACCGTCAACAAACCCAGCGAAGTAGATTACAACGTTGGCTACACCTCGCTTGCTTCCGGCGATG -CAACCTTCACCGCCGTGAACTGGACGCCACTGCATGACAACATGTACGAAGCTGCCGGTGGCGATAAGAA -ATTTTATCGTGAAGGGGTATTTGTTAACGGCGCGGCACAGGGTTACCTGATCGATAAGAAAACCGCCGAC -CAGTACAAAATCACCAACATCGCACAACTGAAAGATCCGAAGATCGCCAAACTGTTCGATACCAACGGCG -ACGGAAAAGCGGATTTAACCGGTTGTAACCCTGGCTGGGGCTGCGAAGGTGCGATCAACCACCAGCTTGC -CGCGTATGAACTGACCAACACCGTGACGCATAATCAGGGGAACTACGCAGCGATGATGGCCGACACCATC -AGTCGCTACAAAGAGGGCAAACCGGTGTTTTATTACACCTGGACGCCGTACTGGGTGAGTAACGAACTGA -AGCCGGGCAAAGATGTCGTCTGGTTGCAGGTGCCGTTCTCCGCACTGCCGGGCGATAAAAACGCCGATAC -CAAACTGCCGAATGGTGCGAATTATGGCTTCCCGGTCAGCACCATGCATATCGTTGCCAACAAAGCCTGG -GCCGAGAAAAACCCGGCAGCAGCGAAACTGTTTGCCATTATGCAGTTGCCAGTGGCAGATATTAACGCCC -AGAACGCCATTATGCATGACGGCAAAGCCTCAGAAGGCGATATTCAGGGACACGTTGATGGTTGGATCAA -AGCCCACCAGCAGCAGTTCGATGGCTGGGTGAATGAGGCGCTGGCAGCGCAGAAGTAATTTTTATTCGGG -CGGATAAGGCGTTTTTGCCGCATCCGCCGTTCTGTGCACAATGCCTGATGCGACGCTGGCGCGTCTTATC -ATGCCTACAAACCACATCGCACATTTCAACAATCTATCTTTCATCCCATATTCATCAACATCCGCTATTA -TTGATTTCCAGCTTAATCATCACCTGATGAACAAAAATAATGACTAAACCTAATCATGAGCTTAGCCCGG -CGCTGATCGTGCTGATGTCTATCGCCACCGGTCTGGCGGTAGCCAGTAACTATTACGCCCAGCCATTGCT -CGACACCATCGCGCGTAACTTTTCCCTTTCCGCCAGTTCGGCAGGCTTTATTGTTACCGCCGCGCAGTTG -GGCTATGCCGCAGGTCTACTGTTTCTTGTTCCCCTCGGTGATATGTTTGAACGCCGCCGCCTGATTGTCT -CGATGACCTTACTGGCGGCATGTTGATTACCGCCAGCAGTCAGTCGCTGGCGATGATGATCCTCGGTACG -GCATTAACCGGTTTATTCTCAGTCGTGGCACAAATTCTGGTTCCGCTGGCAGCGACGCTGGCTTCACCGG -ATAAACGCGGCAAAGTGGTTGGCACTATTATGAGCGGTCTGCTGTTGGGGATCTTGCTGGCACGGACAGT -TGCCGGATTGCTGGCGAATCTCGGCGGCTGGCGCACCGTCTTTTGGGTTGCTTCGGTGTTAATGGCACTG -ATGGCGCTGGCATTATGGCGTGGTCTGCCACAAATGAAATCAGAAACCCACCTCAACTACCCACAGTTGT -TGGGTTCCGTTTTCAGTATGTTTATCAGCGATAAAATTCTGCGTACCCGCGCGTTGCTGGGCTGCCTGAC -CTTTGCCAATTTCAGCATTCTCTGGACCTCAATGGCCTTTTTGCTTGCCGCTCCACCTTTTAACTACAGC -GATGGTGTCATTGGTCTGTTTGGACTTGCGGGAGCTGCCGGAGCGTTGGGCGCTCGTCCGGCGGGCGGTT -TTGCCGATAAGGGCAAATCGCACCACACCACAACTTTCGGTCTGCTGCTGCTATTACTTTCATGGCTGGC -GATCTGGTTTGGTCACACTTCCGTACTGGCGTTGATTATCGGAATCCTGGTGCTGGATCTCACCGTGCAG -GGCGTGCATATCACTAACCAGACGGTAATTTATCGGATACATCCTGATGCGCGCAATCGCCTGACCGCAG -GTTACATGACTAGCTACTTTATTGGCGGTGCCGCCGGTTCGCTAATTTCAGCCTCAGCCTGGCAACATGG -CGGTTGGGCTGGCGTTTGTCTGGCTGGCGCGACGATTGCCCTGGTTAACTTACTGGTCTGGTGGCGAGGT -TTTCATCGTCAGGAAGCCGCAAATTAAGCAATCAGCAACCGTTTTCGTGGCTTTACACTTATAAGGGTGT -TAAGAAGCCCATCAGTCTGATAAGGTTAAGATATTCATTCAGTCTATTTATAATATTAACAATCGTTAAG -CGTACACTCTATGGAAAGCCCTACTCCACAGCCTGCTCCTGGTTCGGCGACCTTCATGGAAGGATGCAAA -GACAGTTTACCGATTGTTATTAGTTATATTCCGGTGGCCTTTGCGTTCGGTCTGAATGCGACCCGTCTGG -GATTCTCTCCTCTCGAAAGCGTTTTTTTCTCCTGCATCATTTATGCAGGCGCGAGCCAGTTCGTCATTAC -CGCGATGCTGGCAGCCGGGAGTAGTTTGTGGATTGCTGCACTGACCGTCATGGCAATGGATGTTCGCCAT -GTGTTGTATGGCCCGTCACTGCGTAGCCGTATTATTCAGCGTCTGCAAAAATCGAAAACCGCCCTGTGGG -CGTTTGGCCTGACGGATGAGGTTTTTGCCGCCGCAACCGCAAAACTGGTACGCAATAATCGCCGCTGGAG -CGAGAACTGGATGATCGGCATTGCCTTCAGTTCATGGTCATCGTGGGTATTTGGTACGGTAATAGGGGCA -TTCTCCGGCAGCGGCTTGCTGCAAGGTTATCCCGCCGTTGAAGCTGCATTAGGTTTTATGCTTCCGGCAC -TCTTTATGAGTTTCCTGCTCGCCTCTTTCCAGCGCAAACAATCTCTTTGCGTTACCGCAGCGTTAGTTGG -TGCCCTTGCAGGCGTAACGCTATTTTCTATTCCCGTCGCCATTCTGGCAGGCATTGTCTGTGGCTGCCTC -ACTGCGTTAATCCAGGCATTCTGGCAAGGAGCGCCCGATGAGCTATGAGGTTCTGCTGCTTGGGTTACTA -GTTGGCGTGGCGAATTATTGCTTCCGCTATTTGCCGCTGCGCCTGCGTGTGGGTAATGCCCGCCCAACCA -AACGTGGCGCGGTAGGTATTTTGCTCGACACCATTGGCATCGCCTCGATATGCGCTCTGCTGGTTGTCTC -TACCGCACCAGAAGTGATGCACGATACACGCCGTTTCGTGCCCACGCTGGTCGGCTTCGCGGTACTGGGT -GCCAGTTTCTATAAAACACGCAGCATTATCATCCCAACACTGCTTAGTGCGCTGGCCTATGGGCTCGCCT -GGAAAGTGATGGCGATTATATAACCCACAAGAATCATTTTTCTAAAACAATACATTTACTTTATTTGTCA -CTGTCGTTACTATATCGGCTGAAATTAATGAGGTCATACCCAAATGGATAGTTCGTTTACGCCCATTGAA -CAAATGCTAAAATTTCGCGCCAGCCGCCACGAAGATTTTCCTTATCAGGAGATCCTTCTGACTCGTCTTT -GCATGCACATGCAAAGCAAGCTGCTGGAGAACCGCAATAAAATGCTGAAGGCTCAGGGAATTAACGAGAC -GTTGTTTATGGCGTTGATTACGCTGGAGTCTCAGGAAAACCACAGTATTCAGCCTTCTGAATTAAGTTGT -GCTCTTGGATCATCCCGTACCAACGCGACGCGTATTGCCGATGAACTGGAAAAACGCGGTTGGATCGAAC -GTCGTGAAAGCGATAACGATCGCCGCTGCCTGCATCTGCAATTAACGGAAAAAGGTCACGAGTTTTTGCG -CGAGGTTTTACCACCGCAGCATAACTGCCTGCATCAACTCTGGTCCGCGCTCAGCACAACAGAAAAAGAT -CAGCTCGAGCAAATCACCCGCAAATTGCTCTCCCGTCTCGACCAGATGGAACAAGACGGTGTGGTTCTCG -AAGCGATGAGCTAACGCGTCATCTCGCTCAAAAATCCAGATTTATAAAAGAAAAAATGACTGGCCAGCAT -CGCAACATGCTGGCCTTTTTGGCAAGCAGGTCGGCTCAGCCGATGAGTTAAGAAGATCGTGGAGAACAAT -ATGAGCGCAAATGCGGAGACTCAAACCCCGCAGCAACCGGTAAAGAAGAGCGGCAAACGTAAGCGTCTGC -TCCTCCTTCTCACCTTGCTCTTTATAATTATTGCCGTAGCGATAGGGATTTATTGGTTTTTGGTACTGCG -TCACTTCGAAGAAACCGATGACGCATACGTGGCAGGGAATCAAATTCAAATTATGTCTCAGGTGTCTGGC -AGCGTGACGAAAGTCTGGGCCGATAACACCGATTTTGTAAAAGAAGGCGACGTGCTGGTCACTCTCGACC -CGACAGATGCTCGCCAGGCGTTTGAAAAAGCCAAAACTGCACTGGCTTCCAGCGTTCGCCAAACCCACCA -GCTGATGATTAACAGCAAGCAGTTGCAGGCGAATATTGAGGTGCAGAAAATCGCCCTCGCGAAAGCACAA -AGCGACTACAACCGCCGTGTGCCGCTGGGCAATGCCAACCTGATTGGTCGCGAAGAGCTGCAACACGCCC -GCGACGCCGTCACCAGTGCCCAGGCGCAACTGGACGTCGCGATTCAACAATACAATGCCAATCAGGCGAT -GATTCTGGGGACTAAACTGGAAGATCAGCCAGCCGTGCAACAGGCTGCCACCGAAGTACGTAACGCCTGG -CTGGCGCTGGAGCGTACTCGTATTATCAGTCCGATGACCGGTTATGTCTCCCGCCGCGCGGTACAGCCTG -GGGCGCAAATTAGCCCAACGACGCCGCTGATGGCGGTCGTTCCAGCCACCAATATGTGGGTGGATGCCAA -CTTTAAAGAGACGCAGATTGCCAATATGCGTATCGGTCAGCCGGTCACTATCACCACGGATATTTACGGC -GATGATGTGAAATACACCGGTAAAGTGGTTGGTCTGGATATGGGCACAGGTAGCGCGTTCTCACTGCTTC -CAGCGCAAAATGCGACCGGTAACTGGATCAAAGTCGTTCAGCGTCTGCCTGTGCGTATCGAACTGGACCA -GAAACAGCTGGAGCAATATCCGCTGCGTATCGGTTTGTCCACGCTGGTGAGCGTCAATACCACTAACCGT -GACGGTCAGGTACTGGCAAATAAAGTACGTTCCACTCCGGTAGCGGTAAGCACCGCGCGTGAAATCAGCC -TGGCACCTGTCAATAAACTGATCGACGATATCGTAAAAGCTAACGCTGGCTAATCCAGAGGTGCGTGTGA -TGCAACAGCAAAAACCGCTGGAAGGCGCGCAACTGGTCATTATGACGATTGCGCTGTCACTGGCGACATT -CATGCAGGTGCTGGACTCCACCATTGCTAACGTGGCGATCCCCACTATCGCCGGGAATCTGGGCTCATCG -CTCAGCCAGGGAACGTGGGTAATCACTTCTTTCGGGGTGGCGAATGCCATCTCGATCCCGCTTACCGGCT -GGCTGGCAAAGCGCGTCGGGGAAGTGAAACTGTTCCTTTGGTCCACCATCGCCTTTGCTATTGCGTCGTG -GGCGTGTGGTGTCTCCAGCAGCCTGAATATGCTGATCTTCTTCCGCGTGATTCAGGGGATTGTCGCCGGG -CCGTTGATCCCGCTTTCGCAAAGTCTATTGCTGAATAACTACCCGCCAGCCAAACGCTCGATCGCGCTGG -CGTTGTGGTCGATGACGGTGATTGTCGCGCCAATTTGCGGCCCGATCCTCGGCGGTTATATCAGCGATAA -TTACCACTGGGGCTGGATATTCTTCATCAACGTGCCGATTGGCGTGGCGGTGGTGTTGATGACACTGCAA -ACTCTGCGCGGACGTGAAACCCGCACCGAACGGCGGCGGATTGATGCCGTGGGGCTGGCACTGCTGGTTA -TTGGTATCGGCAGCCTGCAGATTATGCTCGACCGCGGTAAAGAGCTGGACTGGTTTTCATCACAGGAAAT -TATCATCCTTACCGTGGTGGCGGTGGTGGCTATCTGCTTCCTGATTGTCTGGGAGCTGACCGACGATAAC -CCGATAGTCGATCTGTCGTTGTTTAAGTCGCGCAACTTCACCATCGGCTGCTTGTGTATCAGCCTCGCGT -ATATGCTCTACTTCGGCGCTATTGTTCTGCTGCCGCAGTTGTTGCAGGAGGTCTACGGTTACACGGCGAC -CTGGGCAGGTTTGGCCTCTGCGCCGGTAGGGATTATTCCGGTGATCCTGTCGCCGATTATCGGCCGCTTC -GCGCATAAACTGGATATGCGGCGGCTGGTAACCTTCAGCTTTATTATGTATGCCGTCTGCTTCTACTGGC -GTGCCTATACCTTTGAACCAGGTATGGATTTTGGCGCGTCGGCCTGGCCGCAGTTTATCCAGGGGTTTGC -GGTGGCCTGCTTCTTTATGCCGCTGACCACCATTACGCTGTCTGGTTTGCCACCGGAACGACTGGCGGCG -GCATCGAGCCTCTCTAACTTTACGCGAACGCTGGCGGGGTCTATCGGCACGTCGATAACCACGACCATGT -GGACCAACCGCGAGTCGATGCACCATGCGCAGTTGACTGAGTCGGTAAACCCGTTCAACCCGAATGCCCA -GGCGATGTACAGTCAACTGGAAGGGCTTGGGATGACGCAACAGCAGGCATCAGGCTGGATTGCCCAGCAG -ATCACCAATCAGGGGCTGATTATTTCCGCCAATGAGATCTTCTGGATGTCAGCCGGGATATTCCTCGTCC -TGCTGGGGCTGGTGTGGTTTGCTAAACCGCCATTTGGCGCAGGTGGCGGCGGAGGCGGTGCGCACTAAGT -ACAACTAAGCCAGTTCATTTGAACTGGCTTTTTTCAATTAATTGTGAAGATAGTTTACTGACTAGATGTG -CAGTTCCTGCAACTTCTCTTTCGGCAGTGCCAGTTCTTCGTTGCTGTTGATGCGTACGTCACGTTCCAGA -ATGCTACGCGCAATATCCTGCGCTTCCTGCAACGAGTGCATCTGGTAAGTGCCACACTGGTAGACGTTCA -GTTCCGGGATCTGATTCTGATCCTGCACTTTCAGCACGTCTTCCATTGCCGCTTTCCAGGCATCAGCAAC -ACGCTGCTCATCTGGCGTACCAATCAGACTCATATAAAAACCGGTGCGGCAGCCCATTGGCGAGATATCG -ATAATCTCTACACCATTACCGTTAAGATGGTTACGCATAAAACCAGCAAACAGGTGCTCCAGGGTATGGA -TCCCTCTTTCTGGCATCACTTCTTTGTTCGGCACGCAGAAGCGCAGATCGAACACGGTGATTGCGTCGCC -ATGCGGGGTGTTCATTGTTTTCGCCACCCGAACTGCAGGCGCTTCCATCCGGGTATGATCGACTGTGAAG -CTATCTAACAACGGCATTTAGCCACCTCCGGTAATTTTTTTAAAAATTTTCTGAACTCTTTCTTCCCAGG -CGAGTCTGAGTATATGAAAGACGCGCATTTGTTATCATCATCCCTGAATTCAGAGATGAAATTTTGGCCA -CTCACGAGTGGCCTTTTTCTTTTCTGTCAGGCGTGTTTTTCCAGCCACACCGCAAACGGTTCGGTATCAG -CGGCTTCCATTTCCTGCTGACGGCGTTCAGACGCCTCGCGCTCGGCTACAAAATCCTCTTCGCGCAGAAT -TTCCAGCGGCTCTTCACGCAGCAGATTACGGTAGGCTTCTGCAAATGCTTTGCCTGTTCCGCCAATACCA -GTATCAATCATAGACCTTAAGATACGGGCAGAGAAAGTCAGATCGGGATTATCGAAGCAGGCAACCAGTT -CATCACACACTTTCTGATACGCTTCGCCGCCGTTAATACTATCCAGCGTTTGCGCGACGCGTTTCAGATC -GCGGAACAGATCTTTACCCACCTGCGGTAACGGGAACTGTGCGGTTTCGCAGCCGATACCCAGCGTCAGA -CCCGGTTTGCGACCTTCGAGGATCACCCGGTTCCAGTTAACGCGTGTACAGGCAAGTTCGCTACTGCTCA -TTTCCGGTGCATCAGCCAGCGCACACCAGACCATAAACAGGTCGAGGAATCGCACCTGCTGTTCATCTAC -ACCAATCGGCGAGAACGGGTTGATGTCCAGCGAACGCACTTCAATATATTCAATGCCGCCACGTAACAGC -GCATCAGAAGGCGACTCGCCGCTGCGGGTAACGCGTTTTGGACGAATCGGCGCGTACAGTTCGTTTTCAA -TCTGCAACACGTTGCTGTTGATTTGCAGCCTCTTACCGTCTTTCTCAATACCAATCTTCGCGTACTCTTC -CGATGGCGTTTTGATTGCCTGTTTAAGGCCCGCTACGTACTCGTAAAGATCGTTGAAGGTAATACCAAGA -TTGCTTTGCGATTTATTGGTATAGCCGAGATCGCTCAAACGAAGAGAGGTCGCATACGGCAGGTAATACA -TACCGCACTCGGTTTTCTCAAACGGCAGCGACGTTGGTTTTCCTTGCAGGAAAGAAGAACAAATCGCCGG -AGATGCACCAAACAGATAAGGAATGACCCAACCGAAACGATAGTAATTGCGGATAACGCGGAAATAGCCC -GCAGAAATTTTCTCTTTGGCATCAGCGCCCGAGATATCACCGCACTTCGCTTGCCAGAATGCCATTGGCA -AAGAGAAATTGTAGTGCACGCCGGAAATGGTTTGCATCAGCGCGCCGTAGCGATTTTTCAGCCCTTCACG -ATACAGCGTTTTAAAGCGTCCGGTGTTAGAAGTGCCGTACTGTGCCAGTTCGATGTCCTGACCTTCTGCG -ATGTAGCATGGCATACTTAACGGCCACATCCGCTCATCGCCCATATTGCGCGCCGTATAACGATGCAGAT -CGCGCATAAAGGTCAGCATATGTTCAATATCACCATCCACTGGTGTAATGAATTCCAGCAATGCTTCCGC -AAAATCGGTAGTAATCCATTTGTGCGTCAGTGCGGAACCTAATGCTTCAGGATGACCTGTTGTTGCCAGT -GTGCCATCAGCATTAACACGCAAAGTTTCGCGCTCCAGCCCACGCTGTATCCCCTTTAACGCCTGAGGAT -GTTTTTCCAGCCAGGCCAGCGCCTGTGATACGTCCGGGATCAAATTGACCTCCCGCCTGTCAAAATCGTT -TTAATTAGCATAACTGTAATGGTGACCATATGTGCAGGCCTACAATTAGTGCCACCACATCATGCCCTGA -ACGGTCGCTGCTGCAACTGCAACATAGCGTAACGCTTTACCAAGGCACAAAAAAAAGATTACCGGTCCCC -ACGAGATGCGCATCCATCCCGCTAACAGACACAGTAAATCGCCAACCACGGGCATCCAGCTTAATAATAG -CGTGACTGCACCATAGCGTTTCAGCCAGCCGGTAGCTTTCTCTTGCCAGCGCGATGTTTTACGCAATGGA -AAGAAACGCCCAAGGATAACGTTAGTTAACCCTCCAAGGCTATTACCCATTGTTGCTGTTAAAACTAAAA -CCCAGGGATGACTGATCCCGGAAAGCAACATTGCCACCAGCACGACTTCGGAGTTGCCGGGTAATAGTGT -AGCGCTGAGAAAACTACTGGCAAACAACGAGAAAAGCGATAACGCTTCACTCACAGCAAGCGAACATCCA -CGGCGTCCATGCCTGCTGCACGGGCCGCCTGAATACCGAAATCGGCATCTTCAAAGACCACACACTGCGT -CGGTTGCACGCCCATACGCTGCGCGCACAACAAAAATGTGTCTGGCGCGGGTTTATGGTGTTTGACGTGA -TCGGCAGCGACGACGGCGTCAAAATAATGGCGTAATCCCAGGTGCGCCAGCAATGCCTCAGCGATGGCGC -TTTCACTCCCCGTTCCTACAGCCATTGGGCGACGACCATGCCAACTTTTCACCACATCAACAAGAGGAAG -CGGTTCGACGCTATCCAGCAGCATACTTCTTACTGCTTCTGTTTTTTCACGCGCTAACGCATGCGGGTCG -AGATCGGCCTGATTCAGCTCAATAATTGCCTGAGCAATACGCCAGGTGGGCGATCCATTAAGCGCAATCA -TCGCCTGAATATCGTACTGAAGACCGTAGTGCCCTAATACTTCGCGCCACGCTTTACGGTGCGTAGGCTC -CGTATCCAGGATTGTGCCATCCATATCAAAAATTAAACCTGCATAACGCTCGTACATGGTCTTCTCGCAA -GTCGAAAAATATGACGCTACTTTAGCGTAATTGCTTGATTTTGTCGCTGATGGCGAAGGAGAAGAAAATT -CAGGAAATGGATAAAGGAGTTATTTAGAAATGAGATATTTTTGAAGGAAATTTTTTGGAGAAGATGGTGC -ATCCGGGAGGATGACTCACTGACGTTCGCCCTTCGGGCCGTTGCTGGCGCAACGTTATCCTTCCTGGTGC -CTGCGGTTAATACCGCTATCTCTTCGATACCTTCATTGCTGAAGGTTACGGAGAATATGGTGCATCCGGG -AGGATTCGAACCTCCGACCGCTCGGTTCGTAGCCGAGTACTCTATCCAGCTGAACTACGGATGCATCGGG -AAAACTTATTCTACTGCTGATATTGATACCGCTACTAAAGCCATATCAATTAAGAGATGGTGCATCCGGG -AGGATTACTCGCCTTGCGGCTCGCCCTTCGGGCCGTTGCTAAAGCAACGTTATCATCCCTAGTGCCTGCG -GTTAATTCCGCTACCTCTTCGATACCTTCATTGCTGAAGATTTCGGAGAATATGGTGCATCCGGGAGGAT -TCGAACCTCCGACCGCTCGGTTCGTAGCCGAGTACTCTATCCAGCTGAGCTACGGATGCATCGGGAAATT -TATTTTACTGCTGATATTGATACCGCTACTAAAGCCATATCAAGTAAGAGATGGTGCATCCGGGAGGATT -CGAACCTCCGACCGCTCGGTTCGTAGCCGAGTACTCTATCCAGCTGAGCTACGGATGCATCGGGAAACTT -ACTTTACTGCAGATTTTTTGATACCGCTACTAAAGCCGTATCAAGTAAGAGATGGTGCATCCGGGAGGAT -TACTCGCCTTGCGGCTCGCCCTTCGGGCCGTTGCTAAAGCAACGTTATCCTCCCTGGTGCCTGCGGTTAT -TACCGCCACCTCTTCCATACCTTCATCGCTGAAAGTACGTAGAATATGGTGCATCCGGGAGGATTCGAAC -CTCCGACCGCTCGGTTCGTAGCCGAGTACTCTATCCAGCTGAGCTACGGATGCAAATGGCGGTGAGGCGG -GGATTCGAACCCCGGATGCAGCTTTTGACCGCATACTCCCTTAGCAGGGGAGCGCCTTCAGCCTCTCGGC -CACCTCACCACACGCCTCTTACGAGTGCTTCGAAGAACTTGTTTATCGCTCATCGTCGCTGCGTGGCGCA -CATATTACTTTCTGAGACTTATAAGTCAAACAATTTTTCCTACACTTTTATCGTTTGCACACTTCACGTT -CAATTAGTCTGTAAAAACGTCAAAAAGAGTGTTTTATCAACAGAAGAATGGAGGTCTGACAGATAGTAGT -AATGCAAAAAAATGGAGACTTAAGTTGAATGAACGGGAGTAAAGCGAAAAGACTATAGAGTGAAGGAGAA -ATTTTGAGGGTGCGTCTCACCGATAAAGATGAGACGCGGAAAGATTAGTAACTGGACTGCTGGGATTTTT -CAGCCTGGATACGCTGGTAGATCTCTTCACGGTGAACAGAAACTTCCTTCGGGGCATTTACGCCAATACG -TACCTGGTTGCCCTTTACCCCTAAAACTGTCACGGTGACCTCATCCCCAATCATGAGGGTCTCACCAACT -CGACGAGTCAGAATCAGCATTCTTTGCTCCTTGAAAGATTAAAAGAGTCGGGTCTCTCTGTATCCCGGCA -TTATCCATCATATAACGCCAAAAAGTAAGCAATGACAAACACATTACATCTAAGCAGTCATGGCATTACA -TTCTGTTAAACCTAAGTTTAGCCGATATACACAACTTCAACCTGACTTTATCGTTGTCGATAGCGTTAAT -GCGAATGCCGTGAAGCGAGTCCACGGCATTGCCTGACGCTTATATTATTGCAATTTCGCGCTGACCCAGC -CTTTCACACTGGCTAACGCTGCAGGTAAGGCCGCAGCATCCGTACCACCGGCTTGCGCCATGTCAGGACG -TCCACCACCCTTGCCGCCCACCTGCTGAGCGACCATACCAATCAGTTCCCCTGCTTTCACACGATCTGTG -ACGTCCTTAGATACGCCTGCAATCAGAGAAACCTTACCTTCGACTACCGTTGCCAGCACGATAATTGTCG -ACCCCAGCTGATTTTTTAAATCGTCAACCATGGTACGCAACATTTTCGGCTCAACACCGCTAAGCTCGCT -AACCAACAGCTTAACACCATTAACATCAATTGCCTTACTGGAAAGATTTGCGCTCTCCTGTGCGGCAGCT -TGTTCTTTAAGCTGTTGTAACTCTTTTTCCAGCTGACGCGTACGTTCCAGTACTGAGCGCACTTTATCAG -CCAGATTATTGCTATCGCCTTTCAGCAGATGCGCGACTTCGCTTAAGCGATCGCTGTCTGCATGAACGGT -GGCGATAGCACCTTCTCCGGTTACCGCTTCGATACGACGAACGCCTGCAGCAGTACCCGATTCAGAGATG -ATGCGGAACAGACCAATATCACCAGTGCGGCTGGCGTGAGTACCGCCACACAACTCGGTAGAGAAATCGC -CCATGCTCAGCACGCGTACGCGCTCATCATACTTCTCGCCGAACAGCGCCATCGCACCTTTCGCTTTCGC -CGCTTCGAGATCCATGATGTTGGTTTCGATCGGCAAATTGCGACGAATCTGTGTGTTCACCAGGTCTTCG -ACCGCACGAATCTCTTCTGGTTTCATCGCTTCGTTGTGTGAGAAGTCGAAGCGCAGCACCTTGTCGTTAA -CCAGTGAACCTTTCTGCGATACATGAGTACCCAGAACCTGGCGCAGCGCAGCGTGCATCAGGTGCGTTGC -GGAGTGATTCAGACGAATACGGGCGCGACGAGCCTCATCAACATCAGCCTGCACCGCGTCGCCCACTTTC -AGAGAACCCGCAGCAAGTTTACCGATGTGACCAATCGCCTGGCCGTATTTCTGCGTATCTTCCACCGCAA -AGGAGAAGTTAGCGCCTTTCAGTTCGCCTTTATCGCCAACCTGACCGCCGGATTCCGCATAGAATGGCGT -TTGATCCAGCACGACCACAGCTTCCTGGCCTGCATTGATGGCATCAACCGCTTTACCATCAACAAACAGC -GCAGTCACTTTGCCGTTCAGTTCCAGATGGTCATAGCCTTTAAATTCAGATGCACTGTCAACACGGATCA -TTGCGTTGTAATCGGCACCAAAGCCGCTGGCTTCGCGCGCGCGACGACGCTGCTCTTCCATTGCAGCTTC -AAAACCAGCTTCGTCAACTTTGATGTTGCGCTCACGACAAACATCAGCCGTCAGGTCAACCGGGAAGCCA -TAGGTGTCGTACAGACGGAAAGCAGTTTCACCATCCAGCGTATCACCAGAAAGTTTTGCCAGCTCTTCAT -CCAGCAACGCCAGACCGCGCTCCAGAGTACGAGCAAACTGCTCTTCTTCAGTCTTCAGCACCTGCTCAAC -CTGCGCCTGCTGGCGTTTCAGGTCTTCACCCGCAGAGCCCATAACGTCGATCAGCGGACCAACCAGTTTG -TAGAAGAAGGTTTCTTTCGCGCCGAGCATATTACCGTGACGCACTGCGCGACGAATGATACGACGCAGTA -CATAACCACGGTTTTCATTGGACGGCATTACGCCATCCGCGATCAGGAACGCACAAGAACGAATGTGGTC -AGCGATTACGCGCAGCGATTTATTGCTCAGATCGGTTGCGCCAGTGACTTTCGCTACCGCCTGGATCAGC -GTGCGGAACAGGTCGATGTCATAGTTAGAGTTAACGTGTTGCAGCACCGCAGCAATACGCTCCAGACCCA -TACCGGTATCTACAGACGGCTTCGGCAGCGGTTCCATCGTGCCATCGGCCTGGCGGTTGAACTGCATGAA -GACGATGTTCCAGATCTCAATGTAGCGGTCGCCGTCTTCTTCCGGGCTTCCCGGAGGGCCCCCCCAAATG -TGGTCGCCGTGATCGTAGAAGATTTCGGTGCACGGGCCGCACGGACCAGTGTCACCCATCTGCCAGAAGT -TGTCAGATGCGTATGGCGCACCTTTGTTATCGCCGATGCGAATAATACGTTCGCGCGGGATCCCTACTTC -TTTTTCCCAGATTTCGTAGGCTTCGTCGTCGCTTTCATAGACGGTAACCCACAGACGCTCTTTCGGCAGG -GCAAACCATTTTTCGCTGGTCAGCAGTTCCCATGCAAACTGAATGGCATCGTGTTTGAAATAGTCGCCGA -AGCTGAAGTTGCCCAGCATTTCGAAGAAGGTATGGTGACGCGCGGTGTAACCGACGTTTTCCAGGTCGTT -GTGTTTACCACCCGCACGCACGCAGCGTTGGGAAGTGGTAGCGCGGGAATAATTACGCTTGTCGAGCCCA -AGGAACACATCCTTGAACTGGTTCATCCCGGCGTTGGTAAACAACAAAGTTGGGTCGTTATGGGGTACCA -GGGAGCTGCTGGCAACTACCTGATGTCCCTTACTATGGAAAAAGTCGAGAAACGCCTGACGGATCTCAGC -GGTGCTCTTGCTCATAATTATCCTGAAATCAAGCTAACGAAATATCGCCACCAGCTCCAGCGTGTCTTAA -CCGCCGGGCTGGTAACTGAAAAGTGGGAATAAGATAAGTTTTCTTGACTGGGAAGTAAAATACCGTATGC -GTTCAGTCGGCAAAATTTCGCCAAATCTCCTGGATATCTTCCATCAGATAGCCACGATAGAGCAGAAAAC -GCTGGATCTTAACTTTTTCTGAAAAGACAGTTGGCAAAGGTTCGCCATATTTTCGCGTCGCCTGATCGCG -CGCCAGTGCGCACCAGTCGATGTCACATTCACGCATCGCTTTTTCTGTCGCTTCGCGGGAAATACCTTTC -TGATTCAGTTCCTGGCGAATACGCGCAGGTCCATAACCTTTGCGGCTACGGCTGGCGATAAAGCGCGCAA -CAAATCGGCTGTCATCGAGATAGCCATGTTCATGGCACCAGGCAATAACGCGCTCGTAATCTTCTGCCGT -AGCATCAATCTCTTCTGGGCCATTTTTGCCCATAATCGGTGCCGCGAGTTTACGTCGCAGTTCTTGCTCA -CTGTGATCGCGCACCGCCAGAATGCGTACCGCACGATCCAACAGGCGAGCATATGCCGGGCGACGGGATG -TTGATTCTGTCATGGCATATCCTTACAACTTAAAAAAGCAAAAGGGCCGCAGATGCGACCCTTGTGTATC -AAACAAGACGATTAAAAATCTTCGTTAGTTTCTGCTACGCCTTCGCTATCATCTACAGAGAAATCCGGCG -TTGAGTTCGGGTTGCTCAGCAGCAACTCACGTACTTTCTTCTCGATCTCTTTCGCGGTTTCCGGGTTATC -TTTCAGCCAGGCAGTCGCATTCGCTTTACCCTGACCGATCTTCTCACCTTTGTAGCTGTACCACGCGCCT -GCTTTCTCGATCAGCTTCTCTTTTACGCCCAGGTCAACCAGTTCGCCGTAGAAGTTGATACCTTCGCCGT -AGAGGATCTGGAATTCAGCCTGTTTAAACGGCGCAGCGATTTTGTTCTTCACCACTTTCACGCGGGTTTC -GCTACCCACCACGTTTTCGCCCTCTTTCACCGCGCCGATACGACGGATGTCGAGACGAACAGAGGCGTAG -AATTTCAGCGCGTTACCACCGGTAGTGGTTTCCGGGTTACCGAACATCACACCAATTTTCATACGGATCT -GGTTGATGAAGATCAGCAGCGTGTTGGACTGCTTCAGGTTACCCGCCAGCTTACGCATCGCCTGGCTCAT -CATACGTGCCGCAAGGCCCATGTGAGAGTCGTCGATTTCGCCTTCGATTTCCGCTTTCGGCGTCAGTGCC -GCCACGGAGTCAACGACGATAACGTCTACTGCGCCAGAACGCGCCAGGGCGTCACAGATTTCCAGTGCCT -GCTCGCCGGTGTCCGGCTGGGAGCACAGCAGGTTGTCGATATCGACGCCCAGTTTACGTGCGTAGATTGG -GTCCAGCGCGTGTTCAGCATCGATAAACGCACAGGTTTTACCTTCACGCTGCGCTGCGGCGATCACCTGC -AGCGTCAGCGTGGTTTTACCGGAAGATTCCGGTCCGTAGATTTCGACGATACGGCCCATCGGCAGACCAC -CTGCCCCAAGCGCGATATCCAGTGAAAGCGAACCGGTAGAGATGGTTTCCACATCCATGGAACGGTCTTC -ACCCAGGCGCATGATGGAGCCTTTACCAAATTGTTTCTCAATCTGGCCCAGTGCTGCCGCCAACGCTTTC -TGTTTGTTTTCGTCGATAGCCATTTTTACTCCTGTCATGCCGGGTAATACCGGATAGTCAATATGTTCTG -TTGAAGCAATTATACTGTATGCTCATACAGTATCAAGTGTTTTGTAGAAATTGTTGCCACAAGGTCTGCA -ATGCATACGCAGTAGCCTGACGACGCACCGCATCACGGTCGCCGCTGAAGCATTCCCGCCGGGTAATGCC -TTCACCGCGGGCAGTGGCAAAAGCAAACCAGACGGTGCCGACAGGCTTCTCTTCACTGCCGCCATCCGGC -CCGGCGATACCACTAATAGACACGGCATAATCAGCACGAGCCGCTTTCAGTGCGCCTATCGCCATTTCCA -CCACGACGGGTTCACTCACCGCGCCATGCTGCGCCAGCGTCTCTTCGCGTACGCCGATCATCTGCGCTTT -GGCTTCGTTACTGTAGGTGACAAATCCGCGTTCAAACCAGGCGGAGCTACCGGCAATATCGGTAATCACT -TTCGCTACCCAACCACCGGTACAAGACTCGGCAGTTGTTACGGTTGCGCCACGGGCTTTCAGCGCCTGCC -CAACCTGTTCACTTAACTGCATCAGTTCACTGTCAGTCATCACAACCTCTGTCAGTCAAAAATTTATGCC -GGACAAGATAGCACTTTCGTCAGGAAGATGGTGTTGGCGTTGCAATTTTACGAGGAGGATTCAGAAAAAA -GCTGATTAGCCAGAGGGAAGCTCACGCCCCCCTCTTGTAAATAGCTACTGTACTCGCGCCAGCGCCACGG -CTTGTCCTAACTGCCAGACCGCCATTGCGTAATGGGTGCTGTGGTTGTAACGGGTGATGGTGTAGAAGTT -CGGCAGACCGTACCAGTACTGGTAGCCGGTGCCAACATCCAGACGCAGCAGGCTGGCTTGTTGATGGTTG -CCCAGCGGCTGCTGTGGCGTTAAACCTGCGGCGGCAAGCTGCGAAATGCTGTACTTAGTTTTGAAGCCAT -TTGGCAAGCCTGGAGCCTGACCGTTTGCCATTACCGCGACCTGATCGCCTTTCACCCAGCCGTGCGCTTT -GAAATAGTTCGCCACGCTACCGATCGCATCAACCGGATCCCACAGGTTGATATGCCCGTCGCCGCTGAAA -TCTACCGCATATTGTTTGTAAGACGACGGCATAAACTGTCCGTAGCCCATCGCCCCGGCAAAGGAACCTT -TCAGATTGAGCGGATCGTCCTGCTCGTCGCGCGCCATCAACAGGAAGGTTTCCAGCTCGCCAGAGAAATA -CTCCGCGCGGCGTGGGTAGTTAAATGACAGCGTTGCCAGCGCATCGAGGATGCGAGTTTTCCCCATCACG -CGCCCCCAGCGGGTTTCAACGCCGATAATCCCGACGATAATTTCCGGCGGTACTCCATACACCTGCCACG -CGCGATTCAACGCATCTTCATACTGATTCCAGAAAACCACACCGTTCTGCACGTTGTCCGGCGTAATAAA -TTTTTTGCGATAACGGAGCCATGCGCCGTTCGGACCTGATGGCGGTTTCACCGATGTGGTTGGTGCCTGG -TTATCCATCAGCCGCAGTACCGAATCCAGACGCTTCGCCTGGGAGAGAATTTCCTGCAACTGCTGACGAT -CGAAACCGTGTTTGTTCACCATTTTGTCGATGAACTGCTGGGCATTCGGGTTATTAGCGAAATCGCCGCC -CATCTGCATCACATTGTGCTGCGGCTCAAGCAGGAAGCCGCCAGACGGCGTTCCGGTGGTCGTATCAGTC -TCAGTAGGTTTTGGCTTGCTGCTACAGGCGGCAAGCAACACAAAAAGGGGAAGCAATGTTACATAACGAC -GCTTGAACATGAGGGGTCCATTTAACAGATTCAACCAGGGGCAAGTATGGTAAAGCATCACGCCCCGCAC -AAGGAAGCGGTAGTCACTGCCCGATACGGACTTTACATAACTCAACTCATTCCCCTCGCTATCCTTTTAT -TCAAACTTTCAAATTAAAATATTTATCTTTCATTTTGCGATCAAAATAACACTTTTAAATCTTTCAATCT -GATTAGATTAGGTTGCCGTTTGGTAATAAAACAATAAATCCTGAAGGAGAGAACAATGATAGAAACCATT -ACTCATGGTGCAGAGTGGTTTATCGGGCTGTTCCAAAAGGGCGGAGAGGTGTTTACCGGGATGGTGACCG -GCATTCTTCCGCTGTTGATTAGCCTGCTGGTTATCATGAACGCACTGATTAATTTTATCGGTCAGCATCG -TATTGAACGTTTTGCTCAACGTTGCGCCGGTAACCCTGTTTCCCGTTACCTACTGTTACCGTGCATTGGC -ACGTTTGTCTTTTGCAATCCGATGACCCTAAGCCTGGGTCGCTTTATGCCGGAAAAGTACAAACCCAGCT -ACTACGCGGCGGCCTCTTATAGCTGCCACTCAATGAATGGCCTCTTCCCCCATATCAACCCTGGCGAACT -GTTTGTTTATCTTGGCATTGCCAGCGGTCTGACAACGCTGAACCTGCCACTTGGCCCACTGGCGGTGAGT -TATCTGCTGGTTGGTCTGGTCACCAATTTCTTCCGCGGCTGGGTGACCGATCTGACCACCGCCATTTTTG -AGAAAAAGATGGGCATTCAACTTGAACAAAAAGTTCACCTGGCAGGAGCAACATCATGACGCATATTCGG -ATCGAAAAAGGAACGGGTGGCTGGGGCGGCCCGCTTGAGCTGAAAGCCACGCCGGGAAAAAAAATCGTCT -ATATCACCGCCGGTACCCGGCCTGCGATTGTTGACAAACTGGCACAGCTTACTGGCTGGCAGGCTATTGA -CGGATTTAAAGAAGGTGAACCCGCGGAGGCGGAAATTGGTGTCGCGGTAATCGACTGTGGCGGCACATTA -CGCTGCGGCATCTATCCGAAACGACGTATTCCCACCATTAATATCCACTCGACGGGCAAGTCCGGTCCGC -TGGCGCAGTACATTGTGGAAGATATTTATGTCTCTGGCGTAAAAGAAGAAAACATCACTGTAGTAGGTGA -TGCGACACCACAACCCTCTTCCGTGGGCCGTGACTATGACACCAGTAAGAAAATCACCGAACAAAGCGAT -GGTTTACTGGCGAAGGTGGGAATGGGCATGGGGTCCACCGTTGCGGTGCTGTTTCAATCTGGTCGTGACA -CCATCGACACTGTATTAAAAACCATTCTGCCGTTTATGGCATTCGTCTCGGCGCTCATTGGCATCATTAT -GGCTTCTGGCCTTGGTGACTGGATTGCCCACGGTCTTGCTCCGCTGGCGAGCCATCCACTGGGTCTGGTC -ATGCTGGCGCTCATCTGTTCCTTCCCACTGCTTTCACCTTTCCTCGGCCCAGGCGCAGTTATCGCACAGG -TTATCGGCGTATTGATTGGCGTGCAGATTGGTCTCGGCAATATTCCGCCGCATCTGGCTTTACCGGCACT -GTTTGCCATCAACGCGCAGGCGGCCTGCGACTTCATCCCGGTCGGTTTGTCGCTGGCGGAAGCCCGTCAG -GACACGGTTCGCGTCGGTGTCCCTTCTGTACTGGTGAGCCGCTTTTTAACCGGCGCGCCGACTGTACTGA -TCGCCTGGTTTGTCTCCGGTTTTATCTATCAATAGAGGCTGAAACATGACCGTTATTTATCAGACCACCA -TCACCCGTATCGGCGCGAGTGCCATTGACGCCCTCAGTGACCAGATGCTCATCACCTTTCGTGAAGGCGC -GCCTGCGGACCTCGAAGAGTATTGCTTCATTCATTGCCACGGCGAGTTGAAAGGTGCACTCCATCCCGGT -TTGCAATTTTCACTCGGGCAGCATCGCTATCCGGTGACCGCTGTTGGCAGCGTGGCGGAAGACAACCTTC -GCGAACTGGGTCATGTCACCCTGCGCTTCGATGGTTTAAACGAAGCGGAATTTCCGGGCACTGTCCATGT -GGCAGGCCCTGTCCCCGACGATATCGCGCCGGGATCGGTTTTGAAGTTTGAATCTGTTAAGGAGTAAAAA -ATGAATCAGGTTGCCGTTGTCATCGGTGGTGGGCAAACCTTAGGCGCGTTCCTGTGCCACGGTCTGGCTG -CCGAGGGGTATCGCGTCGCGGTTGTCGATATTCAGAGCGACAAAGCCGCAAATGTGGCACAAGAAATTAA -CGCCGAATATGGTGAAAGTATGGCGTACGGTTTTGGTGCTGACGCCACTAGCGAGCAAAGCGTTCTGGCG -CTCTCTCGTGGGGTAGATGAAATCTTTGGTCGCGTGGATTTGCTGGTCTACAGCGCCGGAATAGCAAAAG -CAGCCTTTATCAGCGACTTCCAGCTCGGCGATTTTGACCGTTCGCTACAGGTGAATCTGGTGGGTTATTT -CCTGTGTGCGCGTGAATTTTCGCGTTTGATGATCCGCGACGGGATTCAGGGGCGCATTATTCAGATCAAC -TCGAAATCCGGCAAAGTGGGCAGCAAACACAACTCTGGCTACAGCGCAGCGAAATTTGGTGGCGTCGGGC -TGACTCAATCACTGGCGCTGGATCTGGCGGAGTACGGCATTACGGTGCATTCACTGATGCTCGGTAACCT -GCTGAAATCGCCGATGTTCCAGTCACTGTTGCCACAATACGCGACCAAGCTGGGTATCAAACCGGATCAA -GTCGAGCAGTATTACATCGACAAAGTACCGCTCAAACGCGGCTGCGATTATCAAGATGTGCTGAATATGC -TGCTGTTCTACGCCAGTCCTAAGGCGTCGTACTGCACCGGACAGTCGATCAATGTCACCGGCGGTCAGGT -GATGTTCTGATCAACAGCGGAGATCCATTAAGGATCTCCGTGAGACTATAGAATGCCTGATGCGCTACGC -TCATCAGGCATACAGGACTTCCGCCACTACATTAAGGAAAAGTTATGGTATCCGCACTCATCACCGTCGC -CGTTATCGCCTGGTGTGCGCAACTGGCCTTAGGCGGCTGGCAAATTTCTCGTTTTAACCGTGCCTTCGAC -ACACTATGCCAGCAAGGGCGGGTTGGCGTGGGCCGTTCCAGCGGGCGCTTTAAACCGCGGGTCGTGGTCG -CCATCGCGCTGGACGATCAGCAGCGCATCGTCGACACCTTGTTTATGAAAGGACTGACCGTCTTCGCCCG -ACCGCAAAAAATTCCCGCAATTACCGGTATGCATGCGGGTGATTTACAGCCCGATGTGATCTTTCCCCAT -GATCCACTATCACAGAATGCTCTATCATTGGCGCTTAAACTGAAACGTGGATAATTTCGTTGTGAATGTT -ACTTGCTTGCGAAGTTATCATTTTGAAACCTAAATCAGGTAATCACGCCCATGAAACCTCGTCAGCGTCA -GGCCGCCATTCTGGAGTATCTGCAAAAGCAGGGTAAATGCTCGGTTGAAGAATTGGCGCAATACTTTGAC -ACCACAGGCACAACCATTCGCAAAGATCTGGTCATTCTGGAACATGCCGGAACCGTCATTCGTACTTATG -GCGGAGTGGTGTTGAATAAAGAGGAATCCGATCCGCCTATCGATCATAAAACACTCATCAACACCCACAA -GAAAGAGCTGATTGCAGAAGCTGCCGTTAGTTTTATCCATGATGGCGATTCGATCATTCTTGATGCTGGC -AGTACCGTTTTGCAGATGGTTCCCCTGCTCTCGCGCTTTAATAACATCACGGTGATGACCAACAGCCTGC -ATATCGTCAATGCGCTATCCGAACTGGATAACGAACAAACTATCCTGATGCCAGGCGGAACGTTTCGCAA -AAAATCGGCCTCATTTCACGGGCAACTGGCAGAGAATGCCTTCGAGCATTTCACCTTCGATAAATTGTTT -ATGGGCACCGACGGCATCGATCTCAATGCGGGCGTAACCACCTTTAACGAGGTTTATACCGTCAGTAAGG -CAATGTGCAATGCCGCGCGCGAAGTGATTTTGATGGCGGACTCATCAAAGTTTGGCCGTAAAAGCCCCAA -CGTAGTTTGCAGTCTTGAAAGCGTCGATAAGCTGATTACCGACGCAGGTATCGATCCGGCGTTTCGTCAG -GCGCTGGAAGAGAAAGGGATCGATGTGATCATAACCGGAGAGAGCAATGAGTGAAGCACTACTGAACGCG -GGACGTCAGACGTTAATGCTGGAGTTGCAGGAAGCAAGCCGTTTACCGGAACGTCTGGGCGATGATTTTG -TTCGCGCCGCCAATATCATCCTGCACTGTGAAGGCAAAGTGGTGGTTTCGGGAATTGGCAAATCGGGCCA -CATTGGTAAGAAAATCGCCGCAACGCTTGCCAGTACCGGCACTCCGGCTTTTTTTGTCCATCCGGCAGAA -GCGCTGCACGGCGATCTGGGGATGATCGAAAGCCGCGATGTGATGCTGTTTATCTCTTACTCCGGTGGCG -CGAAGGAACTGGATCTGATTATTCCGCGTCTGGAAGATAAATCTATCGCGCTGCTGGCGATGACCGGCAA -ACCGACGTCACCGCTGGGCCTGGCGGCAAAAGCGGTGCTGGATATCTCCGTAGAACGCGAAGCCTGCCCG -ATGCACCTTGCGCCGACCTCCAGCACCGTCAATACCCTGATGATGGGTGACGCGCTGGCGATGGCGGTCA -TGCAGGCGCGCGGATTTAATGAAGAAGATTTTGCCCGCTCCCACCCAGCCGGGGCACTGGGCGCTCGCTT -GCTGAATAAAGTGCATCATCTGATGCGCCGTGACGATGCCATCCCACAGGTGGCGTTAACCGCCAGCGTG -ATGGATGCGATGCTGGAACTCAGCCGCACCGGTCTGGGGCTGGTGGCGGTATGTGACGCTCAACAACAGG -TACAAGGCGTCTTTACCGACGGCGATTTACGTCGCTGGCTGGTTGGCGGCGGCGCACTCACCACGCCAGT -CAATGAAGCGATGACGGTCGGCGGCACCACGTTGCAATCGCAAAGTCGCGCCATCGACGCCAAAGAGATC -CTGATGAAGCGCAAAATCACTGCCGCACCGGTGGTGGATGAAAACGGCAAACTCACCGGCGCAATAAACC -TGCAGGATTTCTATCAGGCCGGGATTATTTAATCCTTCAATCCCAGACGTTTCGCCAGCCGATGCAGGTT -GGCGACGTCGGTTTCCAGCATCCGCGCGCAGGCAGCCCAGTTGTGATGATTTTGTGCCAGTGCCTGACGA -ATAGTTTCACGCTGGAACGCTTCTGTCGCTTCACGCAGGTTTTGCTTAACAACGGGCACCGCCGCCACTT -CTGGCGTCGGCAACGTCACCTCAGGAAAAGCAAAATGTTGCGCCTCAAGAATCACTTCATCGCCGCTGCG -GGTGGCTCTCGCCAGAACTACCGCCCGATGAATAGCATGTTCCAGTTCGCGCACGTTTCCCGGAAAACTG -TAGTGTTGCAGTAAATTTCGCGCTCCGGCACTTAATACCACGCGGGAGAGCCCCTGCCGCAAACGACACT -GCTCGCAGAAATACCCCGCCAGCAGAATGACATCATCGCCCCGCTCACGCAGCGGCGGCACCGAAAGTGG -AAACACGCTCAGGCGATGAAACAAATCGGCGCGGAATCGCCCTGCCAGCACCTCTTCGCGTAAATCGCGG -TTAGTCGCCGCCAGCACGCGCACATCGACCCGCAAACAACGGTCATCGCCAACGCGCTGAATATCGCCAT -ACTGCAACACCCTCAGCAGCTTGGCCTGCAATGCCAACGACAACTCGCCGATCTCATCCAGAAACAGCGT -GCCGTTATCCGCCATTTCAAACTTCCCGCTGCGATTACTGATAGCGCCAGTAAACGCTCCTTTCACATGC -CCGAACAACTCACTTTCCGCCACACTTTCCGGCAGTGCAGCACAGTTGAGATAGACCAGCGGATTCACCG -CCCGTGGCGAGGCTTCATGAATCGCTTTCGCCACCAGCTCCTTACCGGTTCCAGTCTCACCGCTGATCAG -GACGTTGAGATCGGACGCCGCCACAATCTCAATCTCTTTTTTCAGTTGCGTCATGCCAGGGGACAAGCCA -ATCATCTGCGTCTGTTTCACCGCTTCAAACGGCGTGGCATCGCCTGGCAGCATATTCTGGCTTTCCAGTT -GTTCAATCAGCAACGCATTGCTTAACGCTCCCGCCGCCAGCGCAGCAATCAGCCGTAGCTCTTCGTCGCT -GAAAACATCGAACTGATCGGGCTGCATCCCGTCGAGCGTCAGTGCGCCGATCAGGTTTTGCCCGGCAAAC -AATGGCAGACCAACGCAGGCGTGAACCTTCAGACTCTCCTGCCCAGGAATCAAACCGTCATAGGGATCGG -GCAATTCGCTGTCTGCGGGAAAGCGCACCACATCCCCGGCGCGGGCAATCGCTTCCAGCCGTGGATGCCC -TTCCAGCGCAAAGCGTCTACCGAGTACATCCTTTGCCAGACCGTCGATGGCAAGCGGAATAAACTGCCGC -GAATCGTAACGTAGCAACGCAGACGCATCGCACTCCAGCACCTGACGTAGCGTGGTGATCAGGCGCTGAA -AACGATCCTGGTGACCAATCCCACGCTGCAATTCGATGGCGATATTCGCCAGCACATCAACGGAAAAACT -CATCTTTGCCTCACTGTCAATTTGACTATAGATATTGTCATATCGACCATTTGATTGATAGTCATTTTGA -CTACTCATTAATGGGCATAATTTTATTTATAGAGTAAAAACAATCAGATAAAAAACTGGCACGCAATCTG -CAATTAGCAAGACATCTTTTTAGAACACGCTGAATAAATTGAGGTTGCTATGTCTATTGTGGTGAAAAAT -AACATTCATTGGGTTGGTCAACGTGACTGGGAAGTGCGTGATTTTCACGGCACGGAATATAAAACGCTGC -GCGGCAGCAGCTACAATAGCTACCTCATCCGCGAAGAAAAAAACGTGCTGATCGACACCGTCGACCATAA -ATTCAGCCGCGAATTTGTGCAGAACCTGCGTAATGAAATCGATCTGGCGGATATCGATTACATCGTGATT -AACCATGCAGAAGAGGACCACGCTGGGGCGCTGACCGAACTGATGGCACAAATTCCCGATACGCCGATCT -ACTGTACAGCCAACGCTATCGACTCGATAAATGGTCATCACCATCATCCGGAGTGGAATTTTAATGTGGT -GAAAACTGGCGACACGCTGGATATCGGCAACGGCAAACAGCTCATTTTTGTCGAAACACCAATGCTGCAC -TGGCCGGACAGCATGATGACTTACCTGACAGGCGACGCGGTGCTGTTCAGTAACGATGCTTTCGGTCAAC -ACTACTGCGACGAGCATCTGTTCAACGATGAAGTGGATCAGACGGAGCTTTTCGAGCAGTGCCAGCGTTA -CTACGCCAATATCCTGACGCCGTTCAGCCGCCTGGTAACACCGAAAATTACCGAGATCCTGGGCTTTAAC -TTACCAGTCGATATGATAGCCACTTCCCACGGCGTGGTATGGCGCGATAACCCGACGCAAATTGTCGAGC -TGTACCTGAAATGGGCGGCTGATTATCAGGAAGACAGAATCACCATTTTCTACGACACCATGTCGAATAA -CACCCGCATGATGGCTGACGCTATCGCCCAGGGGATTGCGGAAACCGACCCACGCGTGGCGGTGAAAATT -TTCAACGTCGCCCGAAGCGATAAAAACGAAATCCTGACTAATGTCTTCCGCTCAAAAGGCGTGCTGGTCG -GCACTTCGACGATGAATAACGTGATGATGCCGAAAATCGCCGGGCTGGTGGAGGAGATGACTGGTTTACG -CTTCCGTAACAAACGCGCCAGTGCTTTCGGCTCTCACGGCTGGAGCGGCGGTGCGGTGGATCGTCTTTCC -ACGCGCCTGCAGGATGCGGGTTTCGAAATGTCGCTTAGCCTGAAAGCGAAATGGCGACCAGACCAGGACG -CTCTGAAGTTATGCCGTGAACACGGTCGCGAAATCGCCCGTCAGTGGGCGCTCGCGCCGCTGCCGCAGAG -CACGGTGAATACGGTAGTTAAAGAAGAAACCTCTGCCACCACGACGGCTGACCTCGGCCCACGGATGCAG -TGCAGCGTCTGCCAGTGGATTTACGATCCGGCAAAAGGCGAGCCAATGCAGGACGTTGCGCCAGGAACGC -CGTGGAGTGAAGTCCCGGATAACTTCCTCTGCCCGGAATGCTCCCTCGGCAAAGACGTCTTTGAAGAACT -GGCATCGGAGGCAAAATGAGTAACGGCATTGTGATCATCGGTTCGGGCTTCGCCGCCCGCCAACTGGTGA -AAAATATTCGCAAACAGGACGCCACTATTCCATTAACCCTGATTGCCGCCGACAGCATGGATGAGTACAA -CAAACCTGACCTCAGCCATGTTATCAGTCAGGGGCAACGTGCCGATGACCTTACCCGCCAGACGGCGGGT -GAATTTGCCGAGCAGTTTAATCTGCACCTGTTTCCACAAACCTGGGTGACGGATATCGATGCCGAAGCCC -GTGTGGTGAAAAGCCAGAATAATCAGTGGCAATACGACAAGCTAGTACTGGCAACCGGTGCCAGTGCCTT -TGTCCCGCCTGTGCCTGGGCGTGAGTTAATGCTGACGTTAAATAGTCAGCAAGAGTATCGCGCCTGTGAA -ACGCAACTGCGGGATGCCCGACGCGTGTTGATTGTTGGCGGTGGTTTGATTGGTAGCGAACTGGCGATGG -ATTTTTGTCGTGCAGGCAAAGCGGTCACGCTAATCGACAACGCTGCCAGTATTCTGGCGTCGTTAATGCC -ACCGGAAGTAAGCAGCCGCTTGCAGCATCGGTTGACGGAGATGGGCGTTCATCTGCTGTTGAAATCTCAG -TTACAGGGGCTGGAAAAAACGGATTCTGGCATTCAGGCAACGCTGGACCGCCAGCGCAATATCGAAGTGG -ATGCGGTAATTGCCGCCACCGGACTGCGCCCGGAAACCGCCCTGGCACGACGCGCCGGGCTGACGATTAA -TCGCGGCGTTTGCGTCGATAGTTATCTGCAAACCAGTAATACCGATATTTACGCGCTGGGCGATTGCGCG -GAAATTAACGGTCAGGTATTGCCGTTCCTCCAGCCGATTCAACTTAGCGCGATGGTGCTGGCAAAAAATC -TTCTCGGCAATAACACGCCGCTGAAACTCCCGGCGATGCTGGTGAAAATCAAAACGCCGGAATTACCGCT -GCATCTGGCAGGCGAAACCCAGCGTCAGGATTTACGCTGGCAAATTAATACCGAACGCCAGGGAATGGTG -GCGCGCGGCGTTGACGATGCTGACCAGCTTCGCGCCTTTGTGGTCAGTGAGGATCGGATGAAAGAGGCAT -TTGGATTGTTGAAAACATTGCCGATGTAGGTGGGCTACTGTGCCTAAAATGTCGGATGCGACGCTGGCGC -GTCTTATCCGACCTACGGGGACGCATGTGTAGGCCGGATAAGGCGTTTACGCCGCATCCGGCAATGGTGT -CCAAATGCAACACGTTTTATCCGTTCTGGACTTCACCCGCTAACCAACGCGCCGCAGCAATAACCCCCTG -CCCCAGAGACAAACCGCCATCACCCGCCGGTAAACTCTGTGGAAAGAGCAATGTGAAATCAGCGAGATAA -TGCGCCAGACGTGCACGCAGCAAACGGTTATGAATAACCCCGCCGCTAAATACCAGCGTAGTGATACCAC -GCATCGTGGCCTGCTCACGCATCAACGCGGCAAAACCCTGCGCCAGCGCATCATGAAACGCCCACGCGCG -TTGATTAACCGGTGCCTGCCAGTTCAGCCACTGCTGCCAGAAAGTGGCGAGATCCAGTTGATTGTCCACC -CGCGGCATTGTCACCGGATGCGTCACTCCGTGGCATGAGGCTGCGAGCGCCTCCAGAGCACAAGCCGCTT -CACCTTCATAACTTAACGTGGCTGGCGCACAGCCCAGTGCCGCCGCCACTGCATCGAAAAAACGCCCACA -CGATGACGCCAGCGGCGCGTTAATTCCACGCTCAATGGCCCGCGCCAGCACGCTCCAGTTTTGCTGTTGC -ACACTTGCTGTTTCAGAGTAATTCTGCCACTCCGGCACAAAGCGCAGGCACTGCGCCAGCAGGTTTCGCC -ACGGCTGCTTCGCTGCCAAATCGCCACCCGGAAGCGCCACTGCAGGCAAGCCGCCCAGGTGCTCACATTC -GCGATAGTTCACCCGCAGGCACTCGCCGCCCCACAAAGCGCCGTTCTCCCCCATACCGATACCGTCGAGC -GTCAAAGCAATGACATCACCGCCATCCAGCGGCCACTGATGCTCTGCCAGACACGCCGCTGCATGGGCAT -GATGATGCAGTACCGTTTGCGTCGGCAGATTCATTTCACGCGCCCACTGGCTGGAGACATAGCCCGGATG -CGCGTCATGCACAACGTATTGCGGGGTAAAATCGTAGATGTTTTGCATCAGGCGTAACGCTTCGCGCCAC -TGCATCTGGATGCCATCGTCACTTAAATCGCCCAGATGCTGACTCAACACCGCTTGTTCACCGCGCACCA -GGCAGAAGGTATTTTTCAGATCCGCGCCGAGACACAGCACAGGCGGAACATTTTTAAAGCCCGGAGGCAA -AGCCAGCGCATCCGGCACATACCCCCGCGAACGGCGCAGCATTTCGCCGCTTTCGCGCACCACCGAATCA -TCCATCCGCTGCACGATGTCGCGGTTATGTATCAAGAATCCGTCGGCAATGCCCTGCAAATCCGCCAGCG -CCTGTTCGTTGCTGATAGCTGGTGGTTTACCGCTCAGGTTGCCGGAGGTCATCACCAGCGGGCATTGCAG -TTCCTGTAACAGCAAATGCTGGAGCGGGTTCGCAGGCAACATTACCCCGACTTCGTTAAGGTCAGGGGCG -ATATCATCACAAAGCTCAGGAACGTATTTTTTATCCACCAGCACAATCGGCGCGGCGGGCGTGGTAAGCA -ACTGGCGCGCAGCGTCTGGTAAACCGTCAGCCACTGGCAACATGACCGCCAGCGGTTTCGCCGGGCGATG -TTTGCGCGCCCGAAGTGTCGCCACCGCGTTACTGTTACGTGCATCGCAGGCAAGATGAAATCCGCCAATC -CCTTTGATGGCGACAATTTTGCCCATTTTTAACTGTGCGATAGCTGCCTGTAATGCCGCCTCTTGTTCCG -CATGTTCACCATGACTTACCCATTCAAGATGCGGGCCACACTCCGGGCAGGCCACCGGCTGGGCGTGGAA -GCGACGATCGAGCGGGTCACGGTACTCTTTGTCACAGGCCGGACATAGCGGAAACGCCGCCATCACGGTA -AACGGGCGGTCGTAAGGCATGGCGCGAATAATGGTGAAACGCGGGCCGCAGTGGGTACAGTTGATAAACG -GATAACGATAACGCCGTTCGCCTGGGGTATTCATTTCGGCAAGGCAAGCAGGGCAAGTAGCGGCATCGGG -AACAATTTGCGTATTCATGGTGCCGCCTGTGCTCTGGCGTATAGTGAACTCGGTGGGCAGTTGTGACCAG -ATAAACGGCTCACGCTCGACGCTATCAATACGCGCCAGCGGCGGGCAGTGCTGATACAATTGAACAAGAA -ACGTTTCCGGGTCTTCCCGCAGCCGGACTTCTACGCCATCGCCGTCATTACAGACATCGCCGTGAAGATT -TAATTGCTGTGCCAGCTGCCAGACAAACGGACGAAAACCGACGCCCTGCACTTTGCCACGAATACGCAGT -TGGACACCGCAAGATGTGTTTTTTGCCATTGAGTTATTCCCGCCATCATGAATTGCGTAACCCGCCCTGC -CGGACACGACAGCGTCGCATCCGGCAGTCACAGGTCGGCGATACCGCCCGCTCCGTATTCTACGAATATT -TCCGGGAATTCCTTTGATGCCAGAACAGTTCTGTAAGATTTTTAGAACATCAGCGCCGTACGGCGGCGTT -TTTCTGCGCTCAGTTGTTCAAGTTTATTACGATCGACACAAATCAGCGCATGAGTCGGGCAAGCCGCCAT -ACACGCCGGGCCGTCTTCACGATGGTTGCACAGGTCGCATTTATTGGCTTCGGCTTTGTCAGCCCGTACA -TTCAGACCCGCGCCGCTGTTGCGGATCACCGGACGTACCACCACTTCCATCGCACCATACGGGCAAGCCA -CAACGCAGGTTTTGCAACCAATGCAACGTTCCTGCATCACATGAACAAACCCTTTATCACGGCTGATAGC -ACCATTCGGGCAGACGTTAGCGCACGGTGCATCTTCACACTGACGGCAAACTGTCGCCGTGGAAATGTTC -ACACCTTTAATGACATGGATACGCGGTAAAAAAGTTTCCGGGGTCAGCGATGCACAGTCCTGATTTTCCT -GATGAGAAACCACGCACGCTACTTCACAGGTACGGCAACCAATACATTTACTCGCGTCAGCAATGATGAA -ACGGTTCATCAAATTCTCCAGCAATGACAGTTAATGCGCCGATACATTCACAAATCATGCCAGTTTTTAA -TTTACTGTTATTTAAGGAAATTAATTTCTGTAATGCAGGAAAAACGATGTCATCGACACTAGTGACGATG -ACATGTGATGACAATGTTTATCGCGAAGGAGCAATGAGTGAGTCGCGGCGGATCAGTTTTCCGCTGAAGG -TTTTCGGCGGTGAGAAATCCCCGCCATCGAGCATAAAAATCAGCCGTCCAATAATTTCCTGAATCATCTC -AGTCACCGGAATTTTTACGCTGGAGAGCGCCGGAACGGTGTAGGGGGCAATAGCGATATCATCGAATCCG -ATAACTGACACCTGCTCTGGCACCGCTACGCCGCGCTCGTGTAACGCTTTCATCGCACCTATCGCCATAT -CGTCGTTACTGGCAACTAACGCGCTAAATTTAGCCCCACGTTCGAGCAACATTTCTACCCCTTCGGCCCC -GCTGGCAGGCGTCCATTTACCGTTAGCGATAAGTTTTTCATTGAGCGCAATACCATGCTGCGCCAGCGCG -TCTTTATACCCGGCAAGACGTTCAATGCTGGTGGGGGAATCCATCGAGCCGGTAAGGAAAGCAATCTCCT -GATGCCCGGCGTTTATCAACTCTGCCACGGCGTTAAAACTGGTCTGTTTATGATCGCACCAGACGCTATG -GCTGCTGTTTTTGCGCAGGCGGCGATTAAGCACCATTATCGGCTGACTGTGCGCGTCAATGATGTCATCG -ATCTCATCCACGCTTAAAAAACGCGGGTAAATCATGATCGCGTCGCAGCGCAGATCCAGCAGATACTGAA -TCGCCTGGCGCTCTTCTTCTGCGCTGTGTTTACCATCTGCCAATAGCAACTGCCGCCCTTTCTCTTCCGC -CATTCGCGCGGCATGAAAGAGTAATTCACTAAAATAAATGCCGTGGTAAAGCGTGTTGGTCACTACCAGC -CCCAGCGTCTGAGTACTCTTCGCCGACAGATTGCGCGCCAGCAAGTTTGGACGGTAACCGCTCTCTTCTA -CCGCCTGAAACACGCGATCTTTAGTCTCCTGGCTGACGTAGCCATTACCTGAAAGCACGCGGGAAACGGT -CGCTTTTGAAACCCCGGCGCGCTTCGCCACTTCCAGCATCGTCGTCATCATTTTCATCCCTTTACACGCA -ATCAACGCAGTGTACTGCACCGTTTGCCGATTGTCCTTGCACAATCGGCGGGAAAAATATTCAGGTGACC -GGTTTCACAAATATAAAAAATGAACAATTCACTCTCTTGCTTATTTAGTGACAACTATTCATGATTTTGT -GAAACCGGTTTCTTAATTCCGTTTCAGCATCGGCATTTTTCCGTCACGTCGACTGATAACAACTACATCT -ACCCTACTGATAACAGGATAAAATCCGATGGCCAAAAATTATGCGGCGCTGGCACGCTCGGTGATAGCGG -CACTGGGCGGCGTTGATAACATCTCGGCGGTCACGCACTGTATGACGCGGTTGCGCTTTGTTATCAAAGA -TGATGCACTTATCGACAGCCCGACGTTAAAAACCATCCCCGGCGTGCTCGGCGTGGTACGTAGTGACAAC -CAGTGTCAGGTGATTATCGGCAATACCGTTTCACAAGCCTTTCAGGAAGTCGTCAGCCTGCTGCCGGGAG -ATATGCAGCCCGCACAGCCCGTGGGTAAACCCAAACTCACGCTACGTCGCATTGGTGCGGGGATCCTCGA -TGCGCTGATCGGCACCATGTCACCGCTGATCCCGGCGATTATCGGCGGATCGATGGTCAAACTGCTGGCA -ATGATCCTCGAGATGAGCGGCGTGCTGACAAAAGGATCGCCGACCTTAACCATTCTGAATGTGATTGGTG -ACGGTGCTTTCTTCTTCCTGCCGCTGATGGTCGCGGCATCTGCCGCCATCAAATTTAAAACCAATATGTC -GCTGGCGATTGCCATCGCGGGTGTGCTGGTACATCCGAGTTTTATTGAACTGATGGCGAAAGCGGCCCAG -GGTGAACATGTCGAATTTGCCCTGATTCCGGTCACCGCGGTGAAATACACCTACACGGTGATCCCGGCGC -TGGTGATGACCTGGTGCCTGTCATATATCGAACGCTGGGTGGACAGCATTACACCGGCGGTGACCAAAAA -CTTCCTCAAACCAATGCTGATTGTGTTGATTGCCGCACCGCTGGCAATCCTGCTGATTGGCCCGATTGGT -ATCTGGATCGGTAGCGCCATTTCGGCGCTGGTTTACACCATTCATGGTTATCTGGGCTGGCTTTCAGTCG -CCATTATGGGCGCGCTGTGGCCTCTGCTGGTAATGACCGGGATGCACCGCGTCTTTACGCCAACCATCAT -TCAGACCATTGCCGAAACCGGCAAAGAAGGGATGGTCATGCCGTCAGAGATCGGCGCTAACCTGTCGCTG -GGCGGTTCATCACTGGCAGTGGCGTGGAAAACGAAAAACCCGGAACTGCGTCAGACGGCGCTGGCTGCGG -CGGCATCAGCCATTATGGCGGGGATTTCCGAACCGGCGTTATATGGCGTGGCGATCCGCCTGAAACGTCC -GCTTATCGCCAGTCTTATCAGCGGTTTTATTTGCGGCGCGGTTGCCGGTATGGCGGGGCTTGCCAGCCAC -TCAATGGCAGCGCCGGGGCTATTTACCAGCGTGCAGTTCTTCGATCCGGCGAATCCAATGAGCATCGTCT -GGGTGTTCGCGGTCATGGCGCTGGCGGTGGTGCTGTCGTTTATCCTCACACTGTTGCTCGGCTTTGAGGA -TATTCCTGTTGAGGAAGCGGCTGCCCAGGCGCGAAAGTATCAGAGCGTACAACCGACCGTCGCCAAAGAA -GTAAGTCTTAATTGAGGATGAAAATGTCAGTATTTCCAGAAAGTTTTTTATGGGGCGGCGCGCTTGCCGC -CAACCAGTCTGAAGGTGCGTTCCGTGAAGGTGACAAAGGTCTGACCACTGTCGATATGATCCCACACGGC -GAGCATCGAATGGCGGTGAAACTGGGGCTGGAAAAACGTTTTCAGTTGCGAGATGACGAGTTTTATCCCA -GCCATGAGGCGACGGATTTTTATCATCGTTATAAAGAAGATATCGCCCTGATGGCAGAGATGGGATTCAA -GGTTTTCCGTACCTCAATTGCCTGGAGCCGTCTCTTTCCGCAGGGCGATGAAATCACGCCCAATCAGCAG -GGCATTGCTTTTTATCGTTCTGTCTTTGAAGAGTGTAAAAAGTACGGTATCGAACCGCTGGTCACGTTGT -GCCACTTCGATGTGCCGATGCATCTGGTCACCGAATATGGCTCCTGGCGTAACCGCAAGCTGGTGGAGTT -TTTCAGCCGCTACGCCAGAACCTGCTTTGAAGCATTTGATGGTCTGGTGAAATACTGGCTAACCTTCAAT -GAAATCAACATTATGTTGCATAGCCCGTTCTCCGGCGCGGGTCTGGTGTTTGAAGAAGGTGAAAATCAGG -ATCAGGTGAAATATCAGGCCGCGCATCACCAGCTGGTTGCCAGTGCGCTAGCCACCAAAATCGCCCATGA -GGTTAACCCGCAAAATCAGGTGGGCTGTATGCTGGCGGGCGGTAACTTCTACCCTTACAGTTGCAAGCCG -GAAGATGTCTGGGCGGCGCTGGAGAAAGACCGGGAAAACCTGTTTTTTATCGATGTGCAGGCGCGGGGCA -CGTATCCGGCTTACTCTGCCCGCGTATTCCGCGAAAAAGGGGTAACCATCAACAAAGCACCGGGCGATGA -TGAAATCCTGAAAAACACCGTCGATTTTGTCTCTTTCAGCTATTACGCCTCGCGCTGCGCCTCGGCGGAG -ATGAACGCCAACAACAGCAGTGCGGCGAACGTGGTGAAATCGCTGCGTAATCCGTATCTACAGGTGAGCG -ACTGGGGCTGGGGAATTGATCCACTCGGTCTGCGTATCACCATGAATATGATGTACGATCGTTATCAGAA -GCCGCTGTTTCTGGTGGAAAACGGCCTGGGCGCAAAAGATGAATTTGCTGCCAATGGCGAGATTAACGAC -GACTATCGCATCAGCTACTTACGCGAACATATCCGCGCAATGGGCGAAGCGATTGCAGACGGCATTCCGC -TGATGGGCTACACCACATGGGGCTGTATTGATTTAGTTTCCGCCTCTACGGGTGAAATGAGCAAACGCTA -CGGCTTTGTCTTTGTTGACCGTGACGACGCAGGCAACGGTACGCTGACGCGCACGCGTAAGAAATCATTC -TGGTGGTATAAAAAAGTGATTGCCAGTAATGGGGAAGATTTAGAGTAGGTAACAGTGCCGGATGCGGCGT -GAACGCCTTATCCGGCCTACATGTCGCACGAACCATGAAGGCCCGATAAGCGCAGCGCATCGGGCAATTT -AGCATTTGGCATCAGAGCTGGTTCACCCCATCAAGAACATCCCTGTCCTGATTCCTTAATGAAAAACTAC -TCTTCTTCCACCGCTAACTGCGCGAAGCCGCCATTTCCTTCCCAGCCTTCCAGTCGTTGATAAACGGTTT -CTACCGCATCTTTAATCGGCTGGGTCATCGGGTAGTAAAAGCCGACGATATCCGGCTGAATGCCGAGGAA -AATCACTTCGCCAATATCTTCTTTCAACTGGTCGATAAGGTAATTCAACGGCATGTTATGGGTAGTCATC -ATAAACATCTCGGCGATATCATCCGGGTCGATGATGCGGATCTCGCCGGGGTTTAGCCCCATATCCGTGG -CGTCGACAATCAGCAGTCGTGTCGGGCGCAGTTCACGGATAGCGACGATGTCGTTTTCCGGTGCGCTACC -GCCGTCAATCACCACCCAGTTACCTTTCGGCGCGGCGGCGCACTTTTCCGCCAGCAGCGGACCTGCGCCA -TCATCGCCCATCATGCTATTGCCAACACAGAGTAAAACGTCAGTCACGCAGTCTCCTCACCATCAAATAG -ATGGCGTTTTCCTGATGAATATCATGCAGCATACTTAACAGCATTGTACTCCATTCCTGCTGCTGCGAAG -TTTGCGCTGCCCGGGCTTTATCGAATGCGTTGGCCAGCATCGGCACATGGTTAATGTCGATGACGATCTC -ACCATATTTCGGCACGCCTTCCATTTTGCGGCGGGCTTCACTGCCTGCCTCCAGAGTGGCAATCCATGCC -AGATATTCATCCCACGGGCAGGTGAGCGCCGCTTCCAGGCAATCGATAACCCCAAGGTGGTGACCAATCG -CCAGGCTGTAATAGACCACCTGCTGCGCCTCGGCGGGCGTGGCATCGTTCTCATCAATAAATTTACGGCT -CAGTTGACTGAACACCACCTTTTCACTCATCGGATACGCGCCTCTTCAACAACATGATTCAGATGGCTGA -CAATCTCGTTCAGACGCGGATCGTTTTCCGCTTCCAGCCAGCGTGCAACCTGTTCTTCGCCCTGCCCTAA -CTGTGTAAGGTAATCATCGGCAATCTGACGACCGTAACGATAACCCGCCAGGCGACGTGCTTCGCGATCC -ACTTTCACGCGCAGCGGCTGCACCATATCACCATGCAGGATCTCCGCCGGTTGTTCATCCAGTTCACCCG -GCCCACGGGCGTGAATTTTCTGCTCCAGCAGGCCGAGCGCCATTGCAAAGCCGTACAGCGTGGCGGCAGG -CGTTGGCGGGCAGCCAGGGATATAAACATCCACAGGGACAATTTTATCCGTACCGCCCCACACGCAGTAG -AGATCGTGGAAGATCCCGCCACTGTTACCGCAGGCACCGTAGGAGATACAAATTTTCGGGTCCGGCGCGG -ACTGCCACGCACGCAGCGCAGGGGATCGCATTGCACGGGTGACCGCGCCGGTAAACAGTAAAATATCCGC -ATGACGCGGTGAAGGAACGACTTTAATGCCGAAGCGTTCTGCATCAAACAGCGGCGAAAGCGTGGCGAAA -ATTTCGATTTCGCAACCGTTGCAGCCGCCGCAGTCCACGCGGTAAACATAGGCAGAACGTTTGATTTTTT -TCAGTAACGACGCCTTCATGCTGGCGATGGATTCATCCACCGTCATGGGGACCGGAATGCCGTTGGCGTC -ACGGGGGCCTAATAAATTGCTCATCAGATGGCCTCTTTCATATGGCGAGTCAGTTCAATACGGTCGGACG -GCACCAGGCATTTCTGGCGCTTACATTCCGGGCAAGTCTCAAAGCTTTCGCGGTGGTTTTCCGCGCGGCT -GTCGCCGTTGTGCTTAAGCAGCGCAATGGCGTAGTCGATCTCTTTCTGGACGGCGAAAGGACGATTGCAG -ACGCGGCAGTTGCACAGCGCGAAGCGGGACTGTTGCAGGAAGTCTTCTTTCTTCCACACCGCCAGTTCGT -ACTCTTGCGACAGTTTGATCGCCGCCGTCGGGCAGACTTCTTCGCAGCGTCCACAGAAGATGCAGTGCCC -AAGATTAAACTCCCAGGCAAGCTCTCCTGTGGCGAGGTCAGTTTCAACCGTTAAGGCGTTTGACGGGCAG -GCATTGACGCAGGCCGCGCAGCCGATGCACTGCTGCGGGTTCTGCTCTGGCTTACCACGGAAGTTTTTAT -CAACCGCAATCGGCTCCAGCGGATAAGACGAGGTCGCCGTGCCGGTTTTGATGACTTTTTTGATAAAGGT -AAACATGGCGATTCCTTATTTCAGCGGCGAGTTTTTACGCTCAATGCTGTAACGCTCGAGTTCTTTGTAC -GGCACCACTTTGCTCTTCTTCTTACGCACATCGACCACGGTCATGCGGTCGGTACAGGAGTAGCAAGGGT -CGAGGCTACCGATAATCAGCGGCGCATCGGAAACGGTGTTGCCGCGCAGCATGTAGCGCAGGGTCGGCCA -GTTCGCGTAGGTCGCGGCACGGCAGCGCCAGCGGTACAGCTTCTGGTTGTCGCCGGTCATGCTCCAGTGG -ATATCATCGCCGCGCGGCGCTTCGGCAAAGCCCAGCGCAAAGCGGTGCGGAATGTAGGTAAAGCCTTCCA -CCATCAGTGGGCCACCCGGCAGGTTATCCAGACCGTAGTCGATCATGTTCAGCGCGGTATAGACTTCGTT -GATACGCACTTTCAGACGGGAAATAACGTCGCAGCCCTGCTCGCTGTGGACTTCCATTGGCAGCAGGCCA -TAGCCGACAAACGGGTGATCGGCGCGGGTATCACGGGCGTGACCGCTGGCACGGACCATCGGGCCGACGT -TACTGAAGTCGCGAGCGATTTCCGGGTCCAGACGACCAATGCCGACAGTGCGCTGTTCCATGTTCGGAGT -GCTCAGCAGCACATCCACCAGCTCCTGCACTTCACGACGCATCTGTTGTGCCAGCTGGCGGGTCTGGATC -ATGTCGTCTTTCAGCAGATCGCGACGAATCCCGCCGATCAAGTTCAGGCCGTAGGTTTTACGCGCACCGG -TAAGGATCTCTGCCATTTTCATGGAGGTTTCACGCACGCGGAAGAACTGCATAAAGCCGGAGTCGAAGCC -GGTAAAGTGACAGGCCAGGCCAAGGTTGAGCAGATGCGAGTGCAAGCGTTCTACCTCCAGCAGAATGGCG -CGGATCATCTGCGCACGTTCTGGCACCTGAATACCCATCGCGTTTTCCACCGACGTGGTGTAGGCGGTGC -TGTGGGCAAAGCCGCAGATCCCGCACACACGGTCAGAGAGGAAGGTCACTTCGTTATAACCCATACGGGT -TTCCGCCAGTTTTTCCATGCCGCGATGGACGTAGAACAGACGGTAGTCGGCGTCGATAATGTTTTCGCCA -TCGACGAACAGACGGAAGTGGCCCGGTTCATCAGAAGTGACGTGCAGCGGACCAATCGGCACGACGTTGT -TTTTCTTGTCGCCCAGTTCGTTGATGAACTCGTAGGTTTCAGCATCGGTGGTCGGTGCCGGACGCTGACG -ATAATCCATGCTGTCTTTACGCAGCGGATAAAGTTCATCCGGCCAGTCATCCGGCAGCACCAGACGACGT -TCATCCGGCAGACCAACCGGAATCAAACCGTACATATCGCGCACTTCACGCTCGCCCCACACCGCCGCCG -GAACGCGCGGCGTCACGGACGGATATTCCGGTTTGTTGGCGTCAACTTCGACGCGAACCGTAATCCAACA -CTTAGTGCCCTTCTCCATCGACAGCACGTAGTAAACGGCGTAATGACCATTCAGTTTGCGTTCGTCGTTA -CCAAACAGCACCGACAGCCAGCCACCCTGTTTGTAGTAAAGAAACTCCACCACTTCCGGCAGGTAGTTCA -CCTTTACGGTGACAGTCAGCTGATCTTTGGTCTGCCAGGCGTGGTCCAGCACGACGCCCGGAAATGCCTC -ATTCAGCGCGGCGAGATAATGTTGACCTAATTTTTCTTCAGACATGCTCAAACTCTCTTTAATCACGCCG -CCAGCAAGGAGACGAACGCTAAAAATGCAAAGCCAAACCCAGCCCAGGTAATGCGCGGAGTAATATCAAG -ACGCAGACGGGCCATGCTGTTTTCGAACAGCGCGATAACCAGGACGCCGACCACCAGTTTTACGATGGCA -ATCACCAGCGCCAGCAGCAGTCCACCGGCGGTGAAGGTTTCCATTTGTCCCCACGGAATAAACACCCCGA -CGAACATCTGCAACACCACCAGCTGTTTCAGGCTGATACCCCATTTCATGACGCCAAAGCCGCTGCCGCT -GTATTCAGAGAGCGGGCCTTCCTGCAGCTCCTGCTCGGCTTCCGCCAGGTCGAACGGCAGTTTGCCCATT -TCGATAAAGGTGGCGAACGCACAGGCACAAAGCGCCAGTACCAGCGGGATGCTCTGGCTCAGCGGCCAGT -GATAAACGGTGTCGGTGATGTTGCTGATGTTGGTGGAACCGGCAACCTGTGCGGCAACCCACAGACCAAG -CAGCAGCATCGGTTCGACCAGCACGCCAAGCATCGCTTCACGGCTCGCGCCGATAGCGGTAAACGGGCTA -CCGGTATCCAGACCAGAAATGGCAAAGAAGAAACGCGCGATGGCAAAGAGATACAGTAAGGTGATCAAAT -CACCCAGTTGCGGCAGCGGAGAACCGACGGTCACCACCGGCAGCGCAGTAGCGATAGTCAGCATGACGCC -CACCATCACATACGGCGTCAGGCGGAACACCCAGCCGGAGGCATCCGGGCCGACGCTCTGACGCCCCAGC -AGTTTGATAATGTCGCGATACTCCTGCAACACGCCCGGCCCGCGACGGTTATGCAAGCGGGCGCGCGCCA -CGCGGGTTATACCGGAGAGCAGCGGCGCAACGGCAAATAACACCAGCGCCTGAATTAACGGATATAAAAC -ACTCATTCTCAGGCTCCTCGTGAAACAATAATCACCACCAGTACCGCCAGTTCAACCAGCGCCATCCGGC -GGAACAGCAACGCACTCCCCTCGCACTGCCAGCCCGGCACCAGAGACACCGGATTCAGCCATTTGCGTAG -TTTCAGCACCGGCGCAAACGCCTGTTTCACCGGCATGGCAAAACCGTGAGCGGTAATCACCATTGATTTT -TCGTGGTCGTAACCGCACACCCAGGCCGCACCGCGGGAACGCGATGGCAAACGATCGCCTTTGCAAATCG -CCATAATGATGAATGGCAGCAGCGGGCAGGCAATCAGCAGCAACGTGATCATCGGTTGAGAAACGGTGGT -GTTAGCAGGCTCCAGCGGCAGAGGTACAGCAGCAGAGAGCATCGGCAGTAGCCACGGCGCAGCAACACCG -CCAATTACGCAGCAAATCGCCAGTGCCACTACGCTTACGCTCATCAGGAGCGGCGCACAGGTGGCGTTTT -CGGCTTCTTTGGTGCGCGGCGCGCCGAGGAACGTGACGCCATAGACTTTCGCCATACACATCACCGCCAG -CGCACCGGTAATTGCCAGCCCCACAGCGAGCAGCGGCCCCAGCAGACGGGCAACAAACGCGCCACTATTG -CTCAGTTTGAAAAATGATTGATAGATAACCCATTCCCCGGCAAAACCATTCAGCGGCGGCAGCGCAGCCA -TTGCCATCAGCCCGACTAACATGGCGATGGAGATAACCGGCATTTTCTTGCCAATACCACCGAGTTTTTC -GATATCGCGATGACCGGTACGGAACCAGACGCTCCCCGCCCCGAGGAACAGTACGCTTTTGAACAGGCTA -TGGTTAAGCAGATGGTACAGACCACCGACCAGGCCAAGAGCAATCAGCGCCGGTTGTTCGAGCGCGATAC -CCGTTACGCCAGCGCCCAGCCCCAGCAGGATGATGCCGATATTTTCCAGGGTGTGGTAAGCCAGCAGGCG -CTGGATGTTGTGCTCCACCAGCGCATACAGACCACCGACAAACGCGGTGATCATGCCGAGCACCAGCAGC -GCGATCCCCCACCACAGCGGTGCATTACCGCCCAGCAGTGACAGGGTTAAAATGCCCAGCAGGCCAATTT -TCATGACTACCGTAGAAAACAACGCGGCAGCTGGCGCAGAGGCGTTCGCATGTGCCTGCGGCACCCAGCC -GTGCAGCGGAATAATCCCGGCCAGCAGGCCAAAGCCAATCACTCCGAGCAGCCAGATATCGGAACCGAGC -GGCAGCTGTTGCATACGCATATCCAGCAGGCGCAGATCCAGCGTGCCGTAACGCTGCCACAGCAGCCAGC -AAGCAATCGCCAGCAGCAGAGTGCCAAGACGCCCCAGCGCAAACCACAGTTTGCCCTCTTTGCTGTTGCT -GGTGAGGAACACCGCGCACAGGGCCATGATTTCGGCCATTACCACGAACATGCCGAGGTTGCTGGCAATG -ACGGCGCAGACGGCGGCAGCCATCAACATATTGATCTGCAAGCCGTTGCACTTCACCTGCGCGTGGCGAT -GCCAGTCAATGTTGTAGAGGCTGACAAACAGACCGCACAGACCGAGCGTAATCAGCCAAATCGCGTTAAG -CGGAGAGATTTGCACATCGTAGCTTACCAGCGACAGCGCACCGCTCACGCCAACCGCGCCAGTCAGTACA -GTGAAGCCCGCGGCTGCCGTATACAGACTACCAACCGCGCCGCCAATTCCAGCTATCCAGCCACTTAACG -CTTTTTGAAAAGAAAAGAGAAATGCCAGAACAGCGGCGGCGACAAACCACGCCACGCCGCTATTGATCAG -GGAAATTGCGCTCATTTAGCCTCTCCACTTTGAGCCTGCTGAAACAAGGTGAGATCGCCAAAGTCCGTGT -TAAAGGTCAGCTCACGCTTACGTTTGCTGACGCGGGCGATATCGGTGTTATCCACCAGATGCAGGGCTTT -AGTCGGGCACATCCGCACGCAGGCCGGACCTTGTTCATCAAAGCTACAAAGGTCACATTTGACGGCGATC -GCGCGAATACCTGGCACCCAGTCAAGCAATGTGCTGACACGCGCCGGAGCAGGCGGTGCCGGTGGCGCTT -TCGGGGTATTGGCGTTTGCCGGAATATCCAGCGGACGGCTGCCGGAAAATTCAATTGCGCCAAACGGGCA -GGCGATGCCGCACAGCTTGCAGCTTACGCACAGGCTTTCATTCAACTGCACGGCCCCATCGACGCGGGTG -ATGGCGTTAACCGGGCAGACCACCGCGCAGGGTGCATCTTCACAGTGGTGACAGAGCTGCGGCGCAGATT -CTTTTTCATTCAGCATCACTCTCAGGCGCGGCATTGATTGCAGGCCGTGCTGGCGATGCGTCTCTGAACA -GGCGGCCTCACAAGTGTGGCAGCCGATACAGAGCGTGGAGTCAGCAATTACAAAACGATTCACCAGGCAT -TCCTCAGGTGATTGTCATTTTTGACGAAAACATGCCGATGAAATGTCATTTTCGACACTCATCGACACGC -CCATCCCCAAACAGGCGTAACGCCTGCAAAACGGGCAAAGCCTCAGCTCATGCTGCCGGGCTTTGTCCCT -TTACCAGTTGGCTTAAATTCACCGGCACATTGTTTTCAATAGCGGTGTATAAGCTGTCGTAAACGCCAGC -GATTTTTTCGAGATAGTGTTCCAGAACCTGTTCGCGATCGCGGATGTTGACCTTGCCATCAATCATGCCG -TCAATGCTCAGTTGCGCCTGCGCAATCCGCTGTTTGTCTTCGCCATCTTTTGTTTCGACGTAATACTCGA -TGGTGTGGCTGTTAAAGCCATCCGCCAGGGTGACGTAAATGCGAAAATGTTCAAAAAGGACGAAACAGAG -TTCTTTGTCCGGCGCGCAGCTCATGGCGTGATGCAGGCGCGCTTTCGATAACGTGATCCCCTGAACCAGC -GAATTGCAGTAGATGTGCCACTGGTCCTGTAGGCGACGATGCCGCTGTGCGATGTAATCGGCTTTCTCGC -TTATTTCCCAAATAGTCATTGTCAGGTTACCCGTTTAACAGAGATGCCAGCTTTAAGCATTTTTTGTGCC -AACTTTTAATTTATTGTTATTAAAGAGATTTTTAAGCTAAAGATGAATTTCGTCGCCGTGTCGACGTGTC -ATTTCGACATCATCGACATTATTCACCGCAGGGATAATCAACACTGGCACAATTATTGCTTGTAGCTGGC -AATAGTTAATGGGAGGCGATATGCACGAAATAACCCTCTGCCAACGGGCACTGGAATTGATCGAACAGCA -GGCCGCAAAACACGGCGCAAAACGCGTAACTGGGGTCTGGCTCAAAATTGGCGCATTTTCTTGTGTCGAA -ACCAGCTCTCTTGCCTTTTGTTTTGATCTGGTTTGCCGCGGCAGCGTGGCGGAAGGTTGTAAACTGCACC -TCGAAGAACAAGAGGCCGAATGCTGGTGTGAAACATGCCAACAGTATGTGACGCTACTGACCCAGCGCGT -CCGCCGCTGTCCACAGTGTCATGGTGACATGCTGCAGATTGTGGCAGACGACGGTTTACAGATTCGGCGG -ATAGAAATAGACCAGGAGTGAGCGATGTGTACAACATGCGGTTGCGGTGAAGGCAACCTGTATATCGAGG -GTGATGAACATAACCCTCATTCCGCGTTTCGTAGCGCGCCATTTGCCCCGGCGGCACGCCCGAAGATGAA -AATCACCGGCATTAAAGCGCCTGAATTTACCCCCAGCCAGACTGAAGAAGGCGACCTGCATTACGGTCAT -GGCGAAGCGGGCACTCACGCACCGGGCATGAGCCAGCGTCGGATGCTGGAAGTCGAAATTGACGTGCTGG -ACAAAAATAACCGTCTGGCTGAACGCAACCGCGCGCGCTTTGCTGCCCGCAAGCAACTGGTGCTCAACCT -GGTTTCCAGCCCTGGTTCCGGTAAAACCACCCTGCTGACGGAAACCCTAATGCGCCTGAAAGACAGCGTT -CCGTGCGCAGTTATTGAAGGCGACCAGCAAACCGTGAACGATGCCGCACGCATTCGCGCTACCGGCACAC -CAGCGATTCAGGTGAACACCGGTAAAGGCTGCCATCTTGACGCACAGATGATTGCCGACGCCGCACCGCG -TCTGCCACTGGACGATAACGGTATTCTGTTTATCGAAAACGTTGGCAACCTCGTATGCCCGGCCAGCTTC -GATCTCGGTGAAAAACACAAAGTGGCGGTGCTTTCCGTTACCGAAGGTGAAGACAAACCACTGAAATATC -CGCATATGTTTGCCGCCGCCTCGCTGATGCTGCTCAACAAAGTTGACCTGTTGCCGTATCTCAACTTTGA -CGTTGAAAAGTGCATCGCCTGCGCCCGCGAAGTCAATCCAGAAATTGAAATCATCCTTATTTCCGCCACC -AGCGGCGAAGGGATGGACCAGTGGCTGAACTGGCTGGAGACACAGCGATGTGCATAGGCGTTCCCGGCCA -GATCCGCACCATTGACGGCAACCAGGCGAAAGTCGACGTCTGCGGCATTCAGCGCGATGTCGATTTAACG -TTAGTCGGCAGCTGCGATGAAAACGGTCAGCCGCGCGTGGGCCAGTGGGTACTGGTACACGTTGGCTTTG -CCATGAGCGTAATTAATGAAGCCGAAGCACGCGACACTCTCGACGCCTTACAAAACATGTTTGACGTTGA -GCCGGATGTCGGCGCGCTGTTGTATGGCGAGGAAAAATAATGCGTTTTGTTGATGAATATCGCGCGCCGG -AACAGGTGATGCAGTTAATTGAGCATCTGCGCGAACGTGCTTCACATCTCTCTTACACCGCCGAACGCCC -TCTGCGGATTATGGAAGTGTGTGGCGGTCATACCCACGCTATCTTTAAATTCGGCCTCGACCAGTTACTG -CCGGAAAACGTTGAGTTTATCCACGGTCCGGGGTGCCCGGTGTGCGTACTGCCGATGGGTAGAATCGACA -CCTGCGTGGAGATTGCCAGCCATCCGGAAGTCATCTTCTGTACCTTTGGCGACGCCATGCGCGTGCCGGG -GAAACAGGGATCGCTGTTGCAGGCAAAAGCACGCGGTGCCGATGTGCGCATCGTTTACTCGCCGATGGAT -GCGTTGAAACTGGCGCAGGAGAATCCAACCCGCAAAGTGGTGTTCTTCGGCTTAGGTTTTGAAACCACTA -TGCCGACCACCGCTATCACTCTGCAACAGGCGAAAGCGCGTGATGTGCAGAATTTTTACTTCTTCTGCCA -GCACATTACGCTTATCCCGACGTTGCGCAGTTTGCTGGAACAGCCGGATAACGGTATCGATGCGTTCCTC -GCGCCGGGTCACGTCAGTATGGTTATCGGCACCGACGCCTATAATTTTATCGCCAGCGATTTTCATCGTC -CGCTGGTGGTTGCTGGATTCGAACCCCTTGATCTACTACAAGGCGTGGTCATGCTGGTGCAGCAGAAAAT -AGCGGCCCACAGCAAGGTAGAGAATCAGTATCGTCGAGTGGTACCGGATGCCGGTAACCTGCTGGCGCAA -CAGGCGATTGCCGATGTGTTCTGTGTCAACGGCGACAGCGAATGGCGCGGCTTAGGCGTGATTGAATCTT -CTGGCGTGCACCTGACGCCGGATTATCAACGATTCGATGCCGAAGCACATTTCCGCCCGGCACCGCAGCA -GGTCTGCGATGACCCGCGCGCGCGTTGTGGTGAGGTATTAACGGGCAAATGTAAGCCGCATCAATGCCCG -CTGTTTGGTAACACCTGTAATCCTCAAACCGCGTTTGGTGCGCTGATGGTTTCCTCCGAAGGAGCGTGCG -CCGCGTGGTATCAGTATCGTCAGCAGGAGAGTGAAGCGTGAATAATATCCAACTCGCCCACGGTAGCGGC -GGCCAGGCGATGCAGCAATTAATCAACAGCCTGTTTATGGAAGCCTTTGCCAACCCGTGGCTGGCAGAGC -AGGAAGATCAGGCACGTCTTGATCTGGCGCAGCTGGTAGCGGAAGGCGACCGTCTGGCGTTCTCCACCGA -CAGTTACGTTATTGACCCGCTGTTCTTCCCTGGCGGTAATATCGGCAAGCTGGCGATTTGCGGCACAGCC -AATGACGTTGCGGTCAGTGGCGCTATTCCGCGCTATCTCTCCTGTGGCTTTATCCTCGAAGAAGGATTGC -CGATGGAGACACTGAAAGCCGTAGTGACCAGCATGGCAGAAACCGCCCGCGCGGCAGGCATTGCCATCGT -TACTGGCGATACTAAAGTGGTGCAGCGCGGCGCGGTAGATAAACTGTTTATCAACACCGCTGGCATGGGC -GCAATTCCGGCGAATATTCACTGGGGCGCACAGACGCTAACCGCAGGCGATGTATTGCTGGTGAGCGGTA -CACTCGGCGACCACGGGGCGACTATCCTTAACCTGCGTGAGCAGCTGGGGCTGGATGGCGAACTGGTCAG -CGACTGCGCGGTGCTGACGCCGCTTATTCAGACGCTGCGTGACATTCCCGGCGTGAAAGCGCTGCGTGAT -GCCACCCGTGGTGGTGTAAACGCGGTGGTTCATGAGTTCGCGGCAGCCTGCGGTTGTGGTATTGAACTTT -CAGAAGCGGCACTGCCTGTTAAACCTGCCGTGCGTGGCGTTTGCGAATTGCTGGGACTGGACGCCCTGAA -CTTTGCCAACGAAGGCAAACTAGTAATAGCTGTTGAACGCAACGCGGCAGAGCAAGTGCTGGCAGCGTTA -CATTCCCATCCACTGGGGAAAGACGCGGCGCTGATTGGTGAAGTGGTGGAACGTAAAGGTGTTCGTCTTG -CCGGTCTGTATGGCGTGAAACGAACCCTCGATTTACCACACGCCGAACCGCTTCCGCGTATATGCTAATA -AAATTCTAAATCTCCTATAGTTAGTCAATGACCTTTTGCACCGCTTTGCGGTGCTTTCCTGGAAGAACAA -AATGTCATATACACCGATGAGTGATCTCGGACAACAAGGGTTGTTCGACATCACTCGGACACTATTGCAG -CAGCCCGATCTGGCCTCGCTGTGTGAGGCTCTTTCGCAACTGGTAAAGCGTTCTGCGCTCGCCGACAACG -CGGCTATTGTGTTGTGGCAAGCGCAGACTCAACGTGCGTCTTATTACGCGTCGCGTGAAAAAGACACCCC -CATTAAATATGAAGACGAAACTGTTCTGGCACACGGTCCGGTACGCAGCATTTTGTCGCGCCCTGATACG -CTGCATTGCAGTTACGAAGAATTTTGTGAAACCTGGCCGCAGCTGGACGCAGGTGGGCTATACCCAAAAT -TTGGTCACTATTGCCTGATGCCACTGGCGGCGGAAGGGCATATTTTTGGTGGCTGTGAATTTATTCGTTA -TGACGATCGCCCCTGGAGCGAAAAAGAGTTCAATCGTCTGCAAACATTTACGCAGATCGTTTCTGTCGTC -ACCGAACAAATCCAGAGCCGCGTCGTTAACAATGTCGACTATGAGTTGTTATGCCGGGAACGCGATAACT -TCCGCATCCTGGTCGCCATCACCAACGCGGTGCTTTCCCGCCTGGATATGGACGAACTGGTCAGCGAAGT -CGCCAAAGAAATCCATTACTATTTCGACATTGACGATATCAGTATCGTCTTACGCAGCCACCGTAAAAAC -AAACTCAACATCTACTCCACTCACTATCTTGATAAACAGCATCCCGCCCACGAACAGAGCGAAGTCGATG -AAGCCGGAACCCTCACCGAACGCGTGTTCAAAAGTAAAGAGATGCTGCTGATCAATCTCCACGAGCGGGA -CGATTTAGCCCCCTATGAACGCATGTTGTTCGACACCTGGGGCAACCAGATTCAAACCTTGTGCCTGTTA -CCGCTGATGTCTGGCGACACCATGCTGGGCGTGCTGAAACTGGCGCAATGCGAAGAGAAAGTGTTTACCA -CTACCAATCTGAATTTACTGCGCCAGATTGCCGAACGTGTGGCAATCGCTGTCGATAACGCCCTCGCCTA -TCAGGAAATCCATCGTCTGAAAGAACGGCTGGTTGATGAAAACCTCGCCCTGACCGAGCAGCTCAACAAT -GTTGATAGTGAATTTGGCGAGATTATTGGCCGCAGCGAAGCCATGTACAGCGTGCTTAAACAAGTTGAAA -TGGTGGCGCAAAGTGACAGTACCGTGCTGATCCTCGGTGAAACTGGCACGGGTAAAGAGCTGATTGCCCG -TGCGATCCATAATCTCAGTGGGCGTAATAATCGCCGCATGGTCAAAATGAACTGCGCGGCGATGCCTGCC -GGATTGCTGGAAAGCGATCTGTTTGGTCATGAGCGTGGGGCTTTTACCGGTGCCAGCGCCCAGCGTATCG -GTCGTTTTGAACTGGCGGATAAAAGCTCCCTGTTCCTCGACGAAGTGGGCGATATGCCACTGGAGTTACA -GCCGAAGTTGCTGCGTGTATTGCAGGAACAGGAGTTTGAACGTCTCGGCAGCAACAAAATCATTCAGACG -GACGTGCGTCTAATCGCCGCGACTAACCGCGATCTGAAAAAAATGGTCGCCGACCGTGAGTTCCGTAGCG -ATCTCTATTACCGCCTGAACGTATTCCCGATTCACCTGCCGCCACTACGCGAGCGTCCGGAAGATATTCC -GCTGCTGGCGAAAGCCTTTACCTTCAAAATTGCCCGTCGTCTGGGGCGCAATATCGACAGCATTCCTGCC -GAGACGCTGCGCACCTTGAGCAACATGGAGTGGCCGGGTAACGTACGCGAACTGGAAAACGTCATTGAGC -GCGCGGTATTGCTAACACGCGGTAACGTGCTGCAGCTGTCATTGCCAGATATTGTTTTACCGGAACCTGA -AACGCCGCCTGCCGCAACGGTTGTCGCCCTGGAGGGCGAAGATGAATATCAGTTGATTGTGCGCGTGCTG -AAAGAAACCAACGGCGTGGTTGCCGGGCCTAAAGGCGCTGCGCAACGTCTGGGGCTGAAACGCACGACCC -TGCTGTCACGGATGAAGCGGCTGGGAATTGATAAATCGGCATTGATTTAACTGCAAATTGCCGGACAGAT -CTGCCTGTCCGGCATACTATTCATGAGGTTTTTTCGGACGATATTTTTCCGGCAGTTCTGGCACCGGACG -CTTGTCATCGATGAGATGACGCACGGTTAAGATCGGATGACGCCACAGCATTCTCGGCCCGGCCCAACGC -ATAATCTGTTTCATCTCTTCACGCTTTGCAGGCTGGTAACAGTGCACCGGACACTGCTTACAGGCTGGTT -TCTCTTCGCCGAACACACATTTATCCAGCCGCTTTTGCGCGTAAACAAACAACGCCTCGTAATGCTCCGG -CTCCGCTGACGCCTGCGGGCATTTCGCTTGATAAAGATCGATCATTTTTTTAATCGTCAGTTTTTCACGA -GAGATACGCTTGCCGGACATGCTGCCTCCACCTCATTAAGATGTATTTATATTACATCTTAATCTTAAAG -GGCACTATGACTCCAAAGAAGAAGGGTTAGCCAACCGATACAATTTTGCGTACTTGCTTCATAAGCATCA -CGCAAAAGCTGCAAAACAGCATCTTTCCCGGAACCAGCATCAAGAACTCGCCGTTCGCTTCTTCCCCTGA -AATGATTAACTCCGGTATCATGTGCGCCTTATGTGATTACAACGAAAATAAAAACCATCACACCCCATTT -AATATCAGGGAACCGGACATAACCCCATGAGTGCAATAGAAAATTTCGACGCCCATACGCCCATGATGCA -GCAGTATCTCAGGCTGAAAGCCCAGCATCCCGAGATCCTGCTGTTTTACCGGATGGGTGATTTTTATGAA -CTGTTTTATGACGACGCAAAACGCGCGTCGCAACTGCTGGATATTTCACTGACCAAACGCGGTGCTTCGG -CGGGAGAGCCGATCCCGATGGCGGGGATTCCCTACCATGCGGTGGAAAACTATCTCGCCAAACTGGTGAA -TCAGGGAGAGTCCGTTGCCATCTGCGAACAAATTGGCGATCCGGCGACCAGCAAAGGTCCGGTTGAGCGC -AAAGTTGTGCGTATCGTTACGCCAGGCACCATCAGCGATGAAGCCCTGTTGCAGGAGCGTCAGGACAACC -TGCTGGCGGCTATCTGGCAGGACAGCAAAGGTTTCGGCTACGCGACGCTGGATATCAGTTCCGGGCGTTT -TCGCCTGAGCGAACCGGCTGACCGCGAAACGATGGCGGCAGAACTGCAACGCACTAATCCTGCGGAACTG -CTGTATGCAGAAGATTTTGCTGAAATGTCGTTAATTGAAGGCCGTCGCGGCCTGCGCCGTCGCCCGCTGT -GGGAGTTTGAAATCGACACCGCGCGCCAGCAGTTGAATCTGCAATTTGGGACCCGCGATCTGGTCGGTTT -TGGCGTCGAGAACGCGCCGCGCGGACTTTGTGCTGCCGGTTGTCTGTTGCAGTATGCGAAAGATACCCAA -CGTACGACTCTGCCGCATATTCGTTCCATCACCATGGAACGTGAGCAGGACAGCATCATTATGGATGCCG -CGACGCGTCGTAATCTGGAAATCACCCAGAACCTGGCGGGTGGTGCGGAAAATACGCTGGCTTCTGTGCT -CGACTGCACCGTCACGCCGATGGGCAGCCGTATGCTGAAACGCTGGCTGCATATGCCAGTGCGCGATACC -CGCGTGTTGCTTGAGCGCCAGCAAACTATTGGCGCATTGCAGGATTTCACCGCCGGGCTACAGCCGGTAC -TGCGTCAGGTCGGCGACCTGGAACGTATTCTGGCACGTCTGGCTTTACGAACTGCTCGCCCACGCGATCT -GGCCCGTATGCGCCACGCTTTCCAGCAACTGCCGGAGCTGCGTGCGCAGTTAGAAACTGTCGATAGTGCA -CCGGTACAGGCGCTACGTGAGAAGATGGGCGAGTTTGCCGAGCTGCGCGATCTGCTGGAGCGAGCAATCA -TCGACACACCGCCGGTGCTGGTACGCGACGGTGGTGTTATCGCATCGGGCTATAACGAAGAGCTGGATGA -GTGGCGCGCGCTGGCTGACGGCGCGACCGATTATCTGGAGCGTCTGGAAGTCCGCGAGCGTGAACGTACC -GGCCTGGACACGCTGAAAGTTGGCTTTAATGCGGTGCACGGCTACTACATTCAAATCAGCCGTGGGCAAA -GCCATCTGGCACCCATCAACTACATGCGTCGCCAGACGCTGAAAAACGCCGAGCGCTACATCATTCCAGA -GCTAAAAGAGTACGAAGATAAAGTTCTCACCTCAAAAGGCAAAGCACTGGCACTGGAAAAACAGCTTTAT -GAAGAGCTGTTCGACCTGCTGTTGCCGCATCTGGAAGCGTTGCAACAGAGCGCGAGCGCGCTGGCGGAAC -TCGACGTGCTGGTTAACCTGGCGGAACGGGCCTATACCCTGAACTACACCTGCCCGACCTTCATTGATAA -ACCGGGCATTCGCATTACCGAAGGTCGCCATCCGGTAGTTGAACAAGTACTGAATGAGCCATTTATCGCC -AACCCGCTGAATCTGTCGCCGCAGCGCCGCATGTTGATCATCACCGGTCCGAACATGGGCGGTAAAAGTA -CCTATATGCGCCAGACCGCACTGATTGCGCTGATGGCCTACATCGGCAGCTATGTACCGGCACAAAAAGT -CGAGATTGGACCTATCGATCGCATCTTTACCCGCGTAGGCGCGGCAGATGACCTGGCGTCCGGGCGCTCA -ACCTTTATGGTGGAGATGACTGAAACCGCCAATATTTTACATAACGCCACCGAATACAGTCTGGTGTTAA -TGGATGAGATCGGGCGTGGAACGTCCACCTACGATGGTCTGTCGCTGGCGTGGGCGTGCGCGGAAAATCT -GGCGAATAAGATTAAGGCATTGACGTTATTTGCTACCCACTATTTCGAGCTGACCCAGTTACCGGAGAAA -ATGGAAGGCGTCGCTAACGTGCATCTCGATGCACTGGAGCACGGCGACACCATTGCCTTTATGCACAGCG -TGCAGGATGGCGCGGCGAGCAAAAGCTACGGCCTGGCGGTTGCAGCTCTGGCAGGCGTGCCAAAAGAGGT -TATTAAGCGCGCACGGCAAAAGCTGCGTGAGCTGGAAAGCATTTCGCCGAACGCCGCCGCTACGCAAGTG -GATGGTACGCAAATGTCTTTGCTGTCAGTACCAGAAGAAACTTCGCCTGCGGTCGAAGCTCTGGAAAATC -TTGATCCGGATTCACTCACCCCGCGTCAGGCGCTGGAGTGGATTTATCGCTTGAAGAGCCTGGTGTAATA -ACAATTCCCGATAGTCTTTTGCTATCGGGAATATTAACGACAACTGACGAATAAAATAAAAACACCCTGT -ATAATAGGAAAGCTTATTTTACAGGGTAAAACCATGCCATCTACACGCTATCAAAAAATCAATGCCCATC -ACTATCGCCATATATGGGTCGTTGGTGATATTCATGGTGAATATCAGTTATTACAATCCCGCTTACATCA -ACTCTCTTTTTTCCCCAAAATCGACTTACTTATTTCTGTCGGCGATAATATTGATCGTGGACCGGAGAGT -CTTGACGTCCTGCGCCTGCTAAACCAACCCTGGTTTACGTCGGTTAAAGGCAACCACGAAGCGATGGCGC -TTGAGGCATTCGAAACTGGCGATGGCAATATGTGGCTTGCCAGCGGTGGTGACTGGTTTTTCGATTTAAA -TGATTCAGAGCAACAAGAGGCAATAGATCTGTTGCTGAAATTCCATCACCTTCCACATATTATTGAAATC -ACTAACGACAACATAAAATATGCCATCGCACATGCAGATTATCCGGGGAGTGAATATCTCTTTGGTAAAG -AAATAGCGGAGAGCGAATTACTCTGGCCTGTTGATCGTGTGCAGAAATCGCTTAATGGCGAGTTACAACA -AATAAACGGCGCTGATTATTTTATATTTGGACATATGATGTTTGATAACATTCAGACGTTCGCTAACCAG -ATTTATATTGATACCGGATCGCCGAACAGCGGGCGGCTGTCATTTTATAAAATAAAGTAGTCTCATGCTT -CTTCTGTGAAGCATGAGTAACCCGGTGTTATTGCAGGCCATTATTCATTTTTCGCTACCAGCAAAGAGAG -ATCCTGCTTCACCAGCGCGCGACTGGCACTCTCCGGCAAACCGTCGTCTGTAATAATCTGATCAAACTCG -CTTAATGGTAACGCCAGCCATGTCGCCACCTGACCATATTTCGTCGCATCACAGACCAAAACTCGCTGGC -GGCTGGCACTGGCAATCGCCCGTTTCACCGTGACTTTATCTTCCGCTGGCGTAGAAATCCCCCGCACACT -CCATGACGATGCAGAAATAAAAGCCTGATCAATCATCAGGCTGCGCAGCATGGTCGCAGCGGCTTCCCCG -ACACAGGAACGGTTTTCCCGACACACTGCACCGCCAGTGTGAATAATTGTGCAATTACTGTTGTCGAGCA -AGTAGTCCGCAATAACGAAATCGTTTGTGACCACAGTCAGTGACTCCATGTGAATCAGATGCTGTGCTAT -CGCTAACGTGGTCGTTCCCGCATCCAGATAGATACAACTTCCCGGCTGAACAAGACTTGCCGCCAGCTTG -CCAATAGCCGCTTTTTGCGTCATTGCCAGCGCAGTTTTTACCTGATGAGAAGGTTCATGCGCCACGCGTC -CCGGAGACTGGACGCCTCCGGACACCAGCACAACGGCTCCCTGCTGCTCCAGTTTTTGTAAATCCCGACG -AATGGTCATATGTGACACATTCATTCTGTCCGTTAGTTCAGCAATACTGACAATGCCTTTTTCAGCTACC -ATCTCAAGGATGATTTGGCGACGCTCTACGGGTATCAACTTTTGCTCCTTCCTTTGTCCTGCTGACATTC -TACGCTATTTGCCTGCGAAACGTGCGCGGCGCAACTAACGCTTAGTTCACATAAAATAACACACAATGTT -AATTTATGTGAATCAGATCACCATACCGTTATCTTCCAGCGCTTATATTCACAATATCAAACAAAATATC -ACTTAAATTAACAAGGAGAGCAGATGAAAACGGGATCTGAGTTTCATGTCGGTATCGTTGGCTTAGGGTC -AATGGGAATGGGAGCAGCACTGTCATATGTCCGCGCAGGTCTTTCTACCTGGGGCGCAGACCTGAACAGC -AATGCCTGCGCTACGTTGAAAGAGGCAGGTGCTTGCGGGGTTTCTGATAACGCCGCGACGTTTGCCGAAA -AACTGGACGCACTGCTGGTGCTGGTGGTCAATGCGGCCCAGGTTAAACAGGTGCTGTTTGGTGAAACAGG -CGTTGCACAACATCTGAAACCCGGTACGGCAGTAATGGTTTCTTCCACTATCGCTAGTGCTGATGCGCAA -GAAATTGCTACCGCTCTGGCTGGATTCGATCTGGAAATGCTGGATGCGCCAGTTTCTGGTGGTGCAGTAA -AAGCCGCTAACGGTGAAATGACTGTCATGGCCTCCGGTAGCGATATTGCCTTTGAACGACTGGCACCCGT -GCTGGAAGCCGTTGCCGGAAAAGTTTATCGCATAGGTGCAGAACCGGGACTAGGTTCGACCGTAAAAATT -ATTCACCAGTTGTTAGCGGGCGTACATATTGCTGCCGGAGCCGAAGCGATGGCACTTGCAGCCCGTGCGG -GGATCCCGCTGGATGTGATGTATGACGTCGTGACCAATGCCGCCGGAAATTCCTGGATGTTCGAAAACCG -GATGCGTCATGTGGTGGATGGCGATTACACCCCGCATTCAGCCGTCGATATTTTTGTTAAGGATCTTGGT -CTGGTTGCCGATACAGCCAAAGCCCTGCACTTCCCGCTGCCATTGGCCTCAACAGCATTGAATATGTTCA -CCAGCGCCAGTAACGCGGGTTACGGGAAAGAAGACGATAGCGCAGTTATCAAGATTTTCTCTGGCATCAC -TCTACCGGGAGCGAAATCATGATCAAGATTGGCGTTATCGCCGATGATTTTACCGGCGCGACGGATATCG -CCAGTTTTCTGGTGGAAAACGGTCTACCAACGGTACAAATTAACGGTGTTCCAACAGGTAAAATGCCGGA -AGCAATCGACGCACTGGTGATCAGCCTGAAAACGCGCTCCTGTCCAGTGGTTGAAGCCACACAGCAATCG -CTGGCGGCTCTGAGCTGGTTGCAACAGCAAGGTTGCAAACAGATCTATTTCAAATACTGCTCTACTTTCG -ACAGTACGGCGAAAGGTAATATTGGCCCGGTTACCGATGCCTTAATGGATGCTCTCGACACGCCGTTTAC -GGTCTTCTCTCCGGCCCTGCCGGTCAACGGACGTACGGTTTATCAGGGGTATTTGTTCGTAATGAATCAA -CTGCTGGCCGAATCCGGGATGCGCCATCACCCGGTAAATCCCATGACCGACAGCTATCTTCCCCGTCTGG -TTGAAGCGCAATCCACAGGGCGCTGCGGCGTCGTTTCGGCACATGTTTTCGAACAAGGTGTGGATGCCGT -TCGTCAAGAGCTGGCTCGCTTACAGCAAGAGGGCTACCGCTACGCGGTGCTTGATGCGCTGACCGAACAC -CATCTGGAAATTCAGGGAGAAGCCTTGCGCGATGCCCCACTGGTAACGGGCGGTTCTGGTCTGGCGATTG -GCCTGGCCCGGCAGTGGGCGCAAGAAAACGGTAACCAGGCTCGCAAAGCAGGGCGTCCGCTCGCTGGGCG -CGGCGTAGTGCTCTCCGGTTCATGCTCTCAAATGACCAACCGCCAGGTAGCACATTACCGTCAAATTGCA -CCAGCCCGTGAAGTTGATGTGGCACGCTGCCTCTCAATTGAAACTCTGGCCGCTTATGCACACGAACTGG -CAGAGTGGGTTCTGGGCCAGGAAAGTGTACTTGCTCCACTGGTTTTTGCCACCGCCAGCACTGACGCATT -GGCAGCAATTCAACAGCAATACGGTGCACAAAAAGCCAGTCAGGCAGTAGAAACACTGTTTTCTCAACTA -GCGGCGCGGTTAGCAGCGGAAGGCGTGACACGCTTTATTGTCGCAGGCGGTGAGACCTCCGGCGTAGTCA -CACAGAGCCTGGGAATAAAAGGGTTTCATATTGGCCCAACCATTTCCCCGGCGTGCCGTGGGTAAACGCA -CTGGATAAGCCTGTCTCACTCGCCCTTAAATCTGGCAACTTCGGTGATGACGCCTTTTTTTCACGAGCCC -AAAGAGAGTTTTTATCATGAGCGATTTCGCAAAAGTAGAGCAGTCTTTGCGAGAGGAGATGACGCGGATT -GCCAGTTCATTCTTTCAGCGCGGCTATGCAACCGGTTCGGCTGGCAATCTGTCGCTGCTTTTACCTGACG -GGAATTTACTGGCGACACCGACAGGTTCATGCCTGGGCAATCTCGATCCGCAGCGGTTTTCCAAAGTCGC -CGCGGATGGCGAATGGTTAAGTGGTGACAAACCCTCGAAAGAGGTGCTCTTTCATCTGGCGCTGTATCGC -AACAATCCGCGCTGTAAAGCGGTGGTGCATTTGCACAGCACATGGTCGACGGCGCTTTCCTGCCTGCAAG -GGCTGGACAGCAGCAACGTTATTCGTCCGTTCACACCATACGTGGTGATGCGGATGGGAAATGTCCCGCT -GGTGCCTTATTACCGACCGGGCGATAAACGCATCGCACAGGATCTGGCGGAACTGGCAGCAGACAATCAG -GCTTTTTTACTGGCAAATCATGGCCCAGTGGTTTGCGGTGAAAGCCTGCAAGAAGCCGCCAACAATATGG -AAGAGCTGGAGGAAACGGCAAAGCTGATTTTTATTCTCGGTGACCGCCCGATCCGTTATCTGACCGCAGG -TGAAATTGCGGAATTAAGGAGTTAATGCAATGCCTCGTTTTGCAGCTAATTTATCCATGATGTTCACCGA -AGTGCCTTTTATTGAACGCTTCGCCGCAGCGCGAAAAGCCGGGTTCGATGCTGTGGAATTTCTGTTTCCC -TATAACTACTCCACCCTGCAAATCCAAAAGCAACTGGAGCAAAACCATCTGACACTGGCGCTGTTCAATA -CCGCTCCCGGAGATATTAATGCGGGGGAATGGGGATTATCCGCCCTTCCCGGACGTGAGCACGAAGCACA -CGCAGACATCGACCTGGCACTGGAATATGCATTGGCGCTCAATTGTGAACAAGTCCATGTGATGGCAGGC -GTCGTGCCCGCTGGCGAAGATGCTGAACGGTACCGGGCAGTATTTATCGATAATATCCGCTACGCTGCCG -ACCGCTTTGCGCCACACGGCAAGCGAATATTAGTTGAAGCACTCAGCCCCGGCGTTAAGCCTCATTATCT -CTTCTCCAGCCAGTATCAGGCACTGGCTATTGTTGAAGAGGTTGCGCGAGATAACGTGTTTATTCAACTA -GATACTTTTCATGCGCAAAAAGTAGATGGCAACCTGACGCATTTAATCCGCGACTACGCCGGGAAATATG -CGCACGTACAAATTGCCGGACTACCTGATCGACATGAACCGGACGATGGAGAAATCAACTATCCGTGGCT -GTTCCGCCTGTTCGATGAGGTGGGATATCAGGGCTGGATCGGTTGTGAATATAAACCTCGTGGCCTCACC -GAAGAAGGGCTTGGCTGGTTTGACGCCTGGCGCTAATTCGTTAAATCCCTAATTACAACGTACCCATACA -TCCCCCCATCTACGGATGGGGTAGGTTAACTATAACTTTCAGACAGGGTTTCCCATGTCCACAATTACAT -TGTTATGCATTGCGTTAGCTGGCGTAATCATGCTGTTGCTGCTGGTCATCAAGGCAAAGGTACAACCATT -CGTTGCTTTGCTCCTCGTCAGCCTGTTAGTCGCACTTGCGGCAGGTATACCGGCGGGCGAAGTGGGTAAA -GTGATGATCGCCGGGATGGGCGGTGTGCTTGGTTCCGTCACTATTATTATTGGTCTGGGCGCTATGCTGG -GGCGTATGATCGAACACTCTGGTGGTGCAGAGTCACTGGCTAATTATTTCAGTCGCAAGTTAGGTGACAA -ACGAACTATCGCTGCGCTGACTCTGGCAGCGTTCTTCCTCGGTATTCCCGTCTTCTTTGATGTCGGCTTT -ATTATTCTTGCGCCAATCATTTACGGTTTTGCCAAGGTTGCCAAAATATCGCCACTCAAATTTGGCCTGC -CTGTCGCTGGGATCATGCTCACTGTTCACGTGGCGGTACCGCCGCATCCAGGCCCTGTCGCCGCAGCGGG -GTTACTCCACGCAGACATCGGCTGGCTAACCATCATCGGTATTGCGATTTCTATTCCCGTAGGGGTTGTT -GGCTACTTTGCAGCGAAAATAATCAATAAGCGCCAATATGCGATGTCAGTAGAAGTACTGGAACAGATGC -AACTGGCTCCGGCCAGTGAGGAAGGCGCGACAAAATTAAGCGATAAAATAAATCCACCGGGCGTCGCGCT -GGTCACCTCGCTAATTGTTATTCCTATCGCGATTATCATGGCGGGTACGGTTTCCGCAACACTGATGCCG -CCTTCGCATCCCCTGCTTGGTACGCTACAGCTGATCGGCTCACCAATGGTAGCTCTAATGATTGCGCTGG -TGCTGGCATTCTGGTTATTGGCTTTACGTCGCGGCTGGAGCTTACAACACACCAGCGACATTATGGGCTC -AGCGCTTCCTACTGCGGCGGTAGTGATTTTGGTTACTGGTGCTGGAGGGGTATTTGGCAAAGTGCTGGTG -GAATCGGGCGTCGGCAAAGCCCTTGCCAACATGCTACAAATGATTGACCTGCCTCTGTTACCAGCCGCAT -TTATTATTTCACTGGCGCTGCGTGCATCGCAGGGGTCAGCAACCGTAGCAATACTGACAACCGGCGGGTT -ACTCTCAGAAGCGGTGATGGGATTGAATCCGATTCAGTGCGTATTGGTGACGCTGGCAGCCTGCTTTGGT -GGGCTTGGTGCGTCACATATTAATGACTCAGGGTTCTGGATTGTGACCAAATATCTGGGGTTGTCGGTAG -CAGACGGTCTGAAAACCTGGACAGTGTTAACGACCATTCTCGGTTTTACCGGATTCTTAATTACCTGGTG -CGTATGGGCGGTAATTTGACCTTAATAAAAAGGTCCGATGGGCATCGGACCTTTTATTGTGCACAGAAAA -GGCCAGCCTCGCTTGAGACTGGCCTTTCTGACAGATGCTTACTTACTCGCGGAACAGCGCTTCGATATTC -AGCCCCTGCGTTTGCAGGATTTCGCGCAAACGGCGCAGGCCTTCAACCTGAATCTGGCGAACACGTTCAC -GGGTGAGGCCAATTTCACGACCTACATCTTCCAGTGTTGCCGCTTCGTACCCCAGCAAACCGAATCGACG -TGCCAGCACTTCACGCTGTTTGGCGTTCAGCTCGAACAGCCATTTGACGATGCTCTGCTTCATATCGTCA -TCTTGCGTGGTATCTTCCGGACCGTTCTCTTTTTCATCGGCCAGGATGTCCAGCAACGCTTTTTCGGAAT -CACCACCCAGCGGGGTGTCTACCGAGGTAATGCGCTCGTTAAGACGAAGCATACGGCTGACGTCATCAAC -TGGCTTATCCAGTTGCTCTGCGATCTCTTCCGCACTTGGTTCATGGTCCAGCTTATGGGACAACTCACGT -GCGGTTCGCAGGTAAACGTTCAGCTCCTTTACGATGTGAATCGGCAAACGAATAGTACGGGTTTGGTTCA -TAATCGCCCGTTCAATCGTCTGGCGAATCCACCAGGTTGCGTATGTTGAGAAGCGGAAACCACGTTCCGG -GTCAAACTTCTCTACCGCGCGGATCAGCCCCAGGTTGCCCTCTTCGATAAGGTCCAGCAACGCCAGACCA -CGATTGCCATAACGGCGGGCAATTTTTACCACCAGACGCAAGTTACTCTCGATCATCCGGCGGCGAGAGG -CGACATCTCCACGCAGTGCGCGACGCGCAAAATAAACTTCTTCTTCGGCCGTTAACAGTGGTGAATAACC -AATCTCACCAAGGTAAAGCTGAGTCGCGTCCAACACACGCTGTGTGGCTCCCTGCGATAACAGTTCCTCT -TCGGCCAAATCGTTATCACTGGGTTCCTGTTCTACTAAGGCCTTTTCGTCAAAAACCTCAACTCCGTTCT -CATCAAATTCCGCATCTTCATTTAAATCATGAACTTTCAGCGTATTCTGACTCATAAGGTGGCTCCTACC -CGTGATCCCTTGACGGAACATTCAAGCAAAAGCCTGGTTCCGCCGATTTATCGCTGCGGCAAATAACGCA -GCGGGTTTACGGATTTCCCCTTGTAACGAATTTCAAAATGCAAGCGTGTTGAACTGGTTCCGGTGCTACC -CATGGTCGCTATTTTTTGCCCCGCCTTAACTTCTTGTTGTTCCCGGACCAGCATTGTGTCGTTATGGGCG -TAGGCACTCAGGTAATCATCATTATGTTTGATGATAATCAGATTACCGTAGCCGCGCAGCGCGTTACCAG -CATAAACAACGCGGCCATCTGCGGTCGCGATAATTGCCTGTCCTTTGCTGCCTGCGATATCAATCCCCTT -GTTGCCCCCCTCAGAAGCGCCAAAGGTTTCGATCACTTTGCCCTCAGTCGGCCAGCGCCAGGTGGAGATA -GGCGTACTGGTTGATGTACTGCTGACAGTCGGCTCGGTTGTGCTTGCTGTTGGTACCGTTACAGGCGCTG -TGACCGTGGTCGCAGTTGGCTTGTTGTTCGGCAACATTTTGTTAGCACTCTGTTCACCCGAAGACTCAGA -ATACGTAATTGTCGGTTGCGACGCAACAGCAACGGTGGAATTTTGTGCAGGCTTGATCACAACTCCTTGC -TCTGCTGCGTCGGCCTGGGTAATGGCATTTCCGCCAGTGATTGGCGTACCGGAAGCATTACCCACCTGCA -AGGTCTGACCAACGTTCAGCGCGTATGGTGCCTGAATATTGTTGCGCTGAGCAAGGTCACGGAAATCGTT -GCCAGTAATCCAGGCGATATAGAAAAGTGTGTCGCCTTTTTTCACGGTATAGGTACTGCCGCTATAACTG -CCTTTCGGAATGTTCCCATACTGACGGTTATAGACGATGCGTCCGTTTTCCATCTGTACCGGCTGCTGAG -CTACTGGCTGCACTGGCTGGATTTGCGGTTGTTGAGTAGCCTGAATTTGTGGCTGCTGCACCGGCTGAAT -TTGCGGTTGCTGCGCTGTAGACGTCGTCCCCATTTTCGGCGGCGGCGTAATCAACATACCAGAATTAGTA -TTTGCAGGCGCATTGCCATTAACGGAGCTGACCGGTGCCGGTGGATTTGAAGTGTCAGAACAGCCTGCCA -GCCATAGCGAAACCAGTGACAAAGCCGCAATGCGGCGAACGGTGAATTTTGGGCTTCCCGCGCTCATTTA -TCCCCCAGGAAAAATTGGTTAATAACCAGTGACATAATTACCGTGCAAGGCACCCTACTGAACACTGGAA -AAGATGTTCACGATACGCTGACCTGCGGCAAAATAACCAGGAAAAATCCAGGTATTTCCTCACGTTTTAA -GCCAGCTCACCCTTCACTAAAGGGACAAAGCGCACGGCCTCCACGGTATCGATAATAAATTCGCCTCCCC -GACGACGCACCCGTTTCAAATACTGGTGCTCCTCCCCTACGGGTAAGACGAGAATCCCGCCTTCGTCCAG -CTGCGTCATTAGCGCAGTTGGAATTTCCGGCGGTGCCGCCGTAACAATGATAGCGTCAAACGGCGCACGT -GCCTGCCAACCTTGCCATCCATCGCCATGACGGGTTGAAACATTATGTAAATCAAGATTTTTCAGGCGGC -GACGTGCCTGCCACTGCAAGCCTTTAATCCGTTCAACCGAGCAAACATGCTGGACAAGATGCGCCAGGAT -TGCCGTTTGATATCCCGAACCGGTGCCAATTTCCAGCACCCGCGACTGCGGCGTCAGCTCGAGTAATTCG -GTCATTCGCGCCACCATATATGGCTGCGAAATTGTCTGCCCCTGACCTATCGGCAAAGCGATATTGTCCC -AGGCTTTTTGTTCAAACGCTTCATCAACGAATTTTTCACGCGGCACGGCGGCAAGTGCATTCAGCACCTG -CTCATCCTGAATACCTTGCGCACGTAATTGATCCAGAAGTGCTTGTACGCGTCTGCTTACCATTGCGTGC -CAACTCCCACGCTGTTTAACCAGTCTGAAACCACATCTTGCGCGCTATGCGCAGTTAAATCCACATGCAG -CGGCGTGATGGAGACATAGCCCTCATCTACCGCAGCAAAATCGGTCCCCGGACCAGCATCACATTTACCG -CCCGGCGGGCCAATCCAGTACAGCGTATTGCCGCGCGGATCTTGCTGCGGGATCACCTGATCTGCCGGAT -GTCGTGTACCGCAGCGCGTCACGCGAATACCTTTGATTTGATCCAAGGGTAAATCCGGAACGTTAATATT -AAGAATACGCCCGGTGCGCAGCGGCTCTTTACACAGTGCGCGCAAAATTGAACAGGTTACCGCCGCGGCA -GTGTCGTAATGTTTATGCCCGTCAAGCGAGACGGCAAGCGCCGGAAAACCTAAATGACGGCCTTCCATCG -CGGCGGCTACCGTACCGGAATAAATAACATCATCCCCCAGATTCGGCCCGGCGTTAATTCCGGACACAAC -AATGTCCGGGCGCGGACGCATCAGAGCATTCACGCCAAGATAGACGCAATCGGTCGGGGTTCCCATTTGC -ACAGCAATATCACCATTTTCAAAGGTAAACGTGCGCAGGGAGGATTCCAGTGTCAGAGAATTTGAAGCGC -CGCTGCGGTTACGATCGGGGGCGACCACCTGAACGTCAGCAAACTCACGCAAGGCTTTCGCCAGCGTTTG -TATACCGGGTGCATGTACCCCGTCATCATTACTCAGCAATATGCGCATAATCACCTGTTGTGTTGATAAG -TTCCCTGACAACGCTGGTTGCAAAACTACCCGCCGGAAGCCAGAAACGGATCTCTACGGTGACGTCATCC -CACCAATTCCAGCTTAATTGTTGCGGATACAGCAGCATCGCTCTGCGCGCGGCTTCAACTTTTTCGCGCA -CCAGTAAAGCTTGTAATTCAGTTTCTGCGGCGACAGCTGCTTGTTCGAATGCCAGCGCTTCACGCTGAGT -TCCCCATTCGCCACTGCCTGGCAATGCGGCGGTTATCATCAACTCTTTATCGTTGACGCGACGCTGTAAT -TCCGCCAGTTCTTCGGTGGTTGCGACAAACCAGCTACCACGTCCGGCTAATTGTAGCGCATCGCCGTCAA -CAACTTGATTAACGTCTGCTTTTTTGAGGCGCTCAGCAACAATCTGATTAAACAACGCACTGCGGGCTGC -CGACAACCAAAAACTCCGTTTATTGCGATCGCGCACCGGAGTATTGGTTTGCGCCCAGCGCTGCGCCCCC -TGCAAGTTGCTACCGCCAATCCCAAAACGTTGGGCACCGAAGTAGTTCGGTACACCTTTTACGCAAATAT -CGATCAGACGTTGTTCAACGTCATCGCGATTGCTCACTTCGCGCAGAACCAGGGTAAAGGCGTTACCTTT -CAGCGCGCCTAAACGCAGCTTGCGCTTGTGCCGCGCATACTCCAGCACCTGGCAGCCTTCCAGTTGAAAG -GCGCTCAGATCGGGCATTTCCTTGCCCGGCACGCGAGCGCATAACCACTGTTCCGTAACAGCATGTTTGT -CTTTTTGCCCAGCGAAGCTGACTTCACGGGCATGAATTTTCAGGAATTTCGCCAGTGCATCCGCCACAAA -ACGGGTATTGCAGCCGTTTTTGAGGATTCTAACCAGAATATGCTCACCTTCACCATCAGGCTCAAAGCCC -AAATCTTCCACCACCACAAAGTCTTCCGGATTGGCTTTCAGCAGCCCGGTGCCTTGCGGTTTACCGTGGA -GGTAAGTGAGATTATCAAACTCAATCATTTTGTTGCCTTAATGAGTAGCGCCACCGCTTCACAGGCAATC -CCTTCCCCACGTCCGGTAAATCCCAGTTTTTCCGTAGTAGTGGCTTTCACGTTAACATCATCCATATGGC -AGCCGAGATCTTCGGCAATAAACACGCGCATTTGTGGAATGTGCGGCAACATCTTCGGTGCCTGAGCGAT -GATAGTGACATCGACGTTGCCAAGGGTATAACCCTTCGCCTGAATACGACGCCAGGCTTCGCGTAGCAGC -TCGCGGCTATCGGCACCTTTAAATGCCGGATCGGTATCCGGGAACAGCTTGCCGATATCCCCCAGCGCCG -CCGCGCCAAGCAATGCATCGGTCAACGCATGGAGCGCCACGTCGCCATCAGAATGCGCCAGCAATCCTTT -TTCGTAAGGAATGCGTACGCCACCAATGATAATTGGGCCTTCACCGCCAAAGGCATGTACGTCAAAACCG -TGTCCAATTCGCATTATGTATTCTCCTGATGGATGGTTCGGGTGAGGTAAAACTCGGCCAGTGCCAAATC -TTCCGGGCGCGTGACTTTAATGTTATCCGCACGGCCTTCGACCAACTGAGGATGGAATCCGCAATATTCC -AGCGCCGAGGCTTCGTCGGTAATAGTCGCGCCTTCATTTAGAGCGCGCGTCAGACAGTCATGTAACAGCT -CACGAGGGAAAAATTGCGGCGTCAGCGCGTGCCATAAGCCGTTGCGATCAACGGTATGAGCAATGGCATT -TTTGCCCGGTTCGGCACGTTTCATAGTATCGCGCACTGGTGCGGCGAGGATCCCCCCCGTGCGGCTGGTT -TCGCTCAACGCCAACAATCGCGCGAGGTCATCCTGATGCAAACAAGGACGAGCGGCGTCATGCACCAATA -CCCACTGCGCGTCGCCAGCGGCTTTCAGACCTGCCAGCACGGAATCGGCACGCTCATCACCGCCATCTAC -AACGGTGATTTGCGGATGATTCGCCAGAGGAAGTTGTGCAAAACGGCTATCGCCAGGACTTATGGCAATG -ACGACACGTTTCACCCGGGGATGCGCCAGCAGCGCATGCACCGAGTGTTCAAGAATGGTTTGATTACCGA -TTGAGAGATATTGCTTAGGACATTCCGTTTGCATTCGACGGCCAAATCCGGCCGCCGGAACCACGGCGCA -AACATCCAAATGAGTGGTTGCCATGTTAATTCCCGGGCTGATTTATCGATTGTTTTGCCCCGCAGACTGT -GCGCGCTTCGACGCGTCAGGCACCAGACGATAAAAAGTTTCGCCCGGCCTGGTCATGCTGAGTTCATTAC -GCGCACGCTCTTCGAGCGCCTCCTGGCCGCCATTGAGATCGTCAATTTCGGCAAAAAGTTGATCGTTTCG -CGCTTTAAGTTTCGCGTTTGTAGCTTGCTGTGCCGCCACATCATCATTGACGCGGGTATAGTCATGTATA -CCGTTCTTACCGAACCACAGCGAATACTGTAGCCAGACCAGAATAGCCAGCAACAGCAGCGTTAGTTTAC -CCATCCTGCCCCCTGAAAAACGGCATCATCATCCCATGCATCCGAAGACGACTCTACATCCTCTGTTGGG -GATACCGCGACAACGCGGGCAAATGTACCACATTTGTCCATTGTTACGTATACCCAGGGCGTGCAGAACA -TAATCTCATTATTAGTTACGGTTTGAATTATGAACAGAGGAGACGGGAAAGTACAAATTAGCCCAGTAGC -CACATAAACAGTGCGCCAAACATAATGCCTACTGTCACCAGGGTGAAAACAATACTGTAGCGTAGCTTTC -CGTCCATCAATGAATGCAGCGCAATCCCCACCACTACCGCGACGGGCATCAGCGCCAGAAAGAAAGGCCA -GGTGTAGATAAAGAAGAACAGCGTGTTAGAGCCATAAATCAACATCGGCATCGCCAGCGCAAATAACCAG -GAGATAAAACCGACCACGGCACCAGGCAGTGACCATGTGGTTTCTTCATCCTCAGTAAGGCTGTCGTTAT -TTGTTAGTGTAATGTTATGGCTATTACGCATATTTGATCCTGTTACTTTGACGAACCGGGCATGGAAACC -CGGTGGTGTCTCAGGATCTGATAATATCGTTCTGTCTCAACAGATCTAATAATTGCTGTACCAAATTTGT -TACTAATTGTTCACCATTGAGATGAATTTCTGCCGATTCAGGCGCTTCGTAAACGGAATCTATTCCCGTA -AAGTTGCGCAGTTCACCGGCACGCGCTTTCTTATATAAGCCTTTGGGATCGCGGGCTTCGCAAATCGCCA -GCGGCGTATCGACAAACACTTCGATAAAGCGCCCTTCTCCTACGCGTTCGCGAACCATCTGGCGTTCGGC -GCGGTGTGGCGAGATAAATGCGGTCAGCACCACCAGTCCGGCTTCAACCATCAAATTCGCCACTTCACCG -ACGCGACGGATATTCTCTTTACGATCGGCATCGCTAAAACCGAGATCGCTGCATAATCCGTGGCGAACAT -TGTCGCCATCCAGCAGATACGTACTGACGCCGAGTTTATGTAACGCCTCCTCCAGCGCCCCGGCGACCGT -TGATTTACCGGACCCGGAGAGGCCGGTAAACCACAGCACTACACCACGATGACCGTGGTGTAGCTCGCGT -TGTTGCACAGTGACCGGATGGCTATGCCAGACGACGTTTTCGTCATGCAGCGCCATTATTTATCCCCCAG -CAAATCGCGCGCGCCCCAGTGCGGAAAGTGGCGACGAACCAGAGCATTCAATTCCAGTTCGAATGCACTG -AATTCAGATGGCGCAGCAGTTGCCTGGCTAACTGGCTCGTGCACCATACCGGCACCCACGGTCACATTGC -TCAGGCGATCGATAAAAATCAGCCCACCCGTCACCGGATTTTGTTGATAACGATCTAACACCAGCGGCTC -GTCAAAAGTGAGATCCACGAGGCCGATCCCATTCAGTGGCAGGTTTTCAACTTCACGCTGGGTAAGGTTA -TTAATATCAACCTGATAGCGAATGCCATCAACACGCGCGCGCGTCTTCTTACCGGCAATTTTGATGTCGT -AACTCTGCCCTGGAGAAAGCGGCTGTTCCGCCATCCATACCACATCCACCGACGCGCTCTGCACCGCCGG -TAACGCTTCGTCTGCCGCCAGCAGCAGATCGCCACGGCTGATGTCGATCTCATCCGTCAGCACCAGGGTG -ATCGCTTCTCCGGCAAAGGCTTCTTCGCGATCACCATCAAAAGTCACGATCCGCGCGACGTTTGATTCCA -CACCAGAGGGCAGCACTTTGACACGTTGCCCGACTTCCACGCGACCGGATGCCAGCGTTCCGGCGTAACC -ACGAAAATCGAGATTCGGGCGATTAACGTACTGCACCGGGAAGCGCATTGGCTGAGCATCCACCACTCGC -TGGATCTCCACGGTTTCCAGCACTTCGAGCAGTGTCGGACCGCTGTACCACGGCATACTTTCACTTTGCG -ATGCCACGTTGTCGCCTTCCAGTGCAGAGAGCGGCACAAAGCGGATATCCAGATTACCCGGCAGCTGCCC -GGCAAAGGTCAAATAATCTTCACGAATACGGGTGAACGTCTCTTCACTGTAATCCACCAGATCCATTTTG -TTGATCGCCACGACCAGATGTTTGATCCCCAACAGTGTGGAGATAAAACTGTGACGACGGGTTTGATCGA -GCACGCCTTTACGGGCATCGATCAGTAAGATCGCCAGTTCACATGTCGATGCGCCAGTCGCCATATTGCG -GGTGTACTGCTCGTGCCCTGGGGTGTCGGCGATAATAAATTTACGCTTCTCGGTAGAGAAATAGCGGTAG -GCCACGTCAATGGTGATGCCCTGTTCGCGCTCAGCTTGCAGGCCGTCCACCAGCAGAGCCAGATCCAGCT -TTTCGCCCTGGGTGCCGTGACGCTTACTGTCGTTATGCAGCGATGAGAGCTGATCTTCGTAGATTTGGCG -GGTATCGTGCAGCAGACGACCAATCAGAGTACTTTTGCCGTCATCGACGCTACCACAGGTCAGAAAACGC -AGCAGGCTTTTATGTTGTTGCGCAATCATCCAGGCTTCGACGCCGCCTTCATTGGCGATTTGTTGTGCAA -GTGCGGTGTTCATCTTAAAAATACCCCTGACGTTTTTTCAGCTCCATAGACCCCGCCTGGTCGCGGTCAA -TCACGCGGCCCTGACGTTCACTGGTGGTGGAAACCAGCATCTCTTCGATGATTTCCGGCAGTGTTTGTGC -ATTTGACTCCACCGCACCGGTCAGCGGCCAGCAGCCCAGCGTACGGAAACGCACCATCCGTTTTTTAATC -ACTTCGCCCGGTTGCAGGTCGATACGGTTGTCATCAATCATCATCAACATACCGTCGCGTTCCAGAACCG -GACGTTCCGCAGCGAGATATAGCGGAACAATGTCGATATTTTCCAGCCAGATGTATTGCCAGATATCCTG -CTCGGTCCAGTTAGAGAGCGGGAAGACGCGGATGCTTTCGCCTTTGTTAATTTGCCCGTTGTAGTTGTGC -CACAGCTCCGGGCGCTGATTTTTCGGATCCCAGCGATGGAAGCGGTCACGGAAAGAGTAAATTCGCTCTT -TAGCGCGGGATTTCTCTTCGTCACGGCGCGCACCACCGAAGGCGGCATCAAAACCGTATTTGTTCAGCGC -CTGTTTCAGGCCTTCAGTTTTCATAATATCGGTATGTTTCGCGCTGCCGTGCACGAATGGATTAATCCCC -ATCGCCACGCCTTCCGGGTTTTTATGCACCAGCAGTTCGCAGCCGTAGGCTTTAGCAGTACGATCGCGGA -ACTCATACATCTCGCGGAATTTCCAGCCGGTATCGACATGCAGCAACGGGAAAGGCAGCGTACCTGGATA -AAACGCCTTGCGCGCCAGATGCAGCATGACGCTGGAATCTTTACCGATAGAGTAGAGCATCACCGGATTT -GAGAATTCTGCCGCCACCTCGCGAATAATGTGGATGCTTTCCGCCTCCAGTTGCCGCAGGTGAGTAAGTC -GTATTTGATCCATAACCGTTCCTTTGCAATACCGCTATTTTCTTGCCATCAGATGTTTCGACTATAGGGA -GCGTAAGAGAACGAATGAAATTACCAATTAGAATGAGTAGTTCCTTAACGGAATAACGATTTGGCAAAGC -TAATATCAAAAAGTGCTTAAGGCACCGGATTTCGGGCGTTTAGGAAGATTTGAAATTGTTTTAGCGCAGC -GGCAGTTTCATACTATGGCGGTAAAAAAATTTGCATGGTATTTAAGGACTCACTATGTTTTCCGCATTGC -GCCACCGTACCGCTGCCCTGGCGCTCGGCGTATGCTTTATTCTCCCCGTACACGCCTCGTCACCTAAACC -TGGCGATTTTGCTAATACTCAGGCACGACATATTGCTACTTTCTTTCCGGGACGCATGACCGGAACTCCT -GCAGAAATGTTATCTGCCGATTATATTCGCCAACAGTTTCAGCAAATGGGTTATCGCAGTGATATTCGGA -CATTTAATAGTCGGTATATTTATACCGCCCGCGATAATCGTAAGAGCTGGCATAACGTGACGGGAAGTAC -GGTGATTGCCGCTCATGAAGGCAAAGCGCCGCAGCAGATCATCATTATGGCGCATCTGGATACTTACGCC -CCGCTGAGCGATGCTGACGCCGATGCCAATCTCGGCGGGCTGACGTTACAAGGAATGGATGATAACGCCG -CAGGTTTAGGTGTCATGCTGGAATTGGCAGAACGCCTGAAAAATACGCCTACCGAGTATGGTATTCGATT -TGTGGCGACCAGCGGCGAAGAGGAAGGGAAATTAGGCGCTGAGAATTTACTCAAGCGGATGAGTGACACC -GAAAAGAAAAATACGCTGCTGGTGATTAATCTCGATAACTTAATTGTTGGCGATAAATTGTATTTCAACA -GCGGTGTAAAAACCCCTGAGGCAGTAAGGAAATTAACGCGCGACAGGGCGCTGGCAATTGCGCGCAGTCA -CGGAATAGCCGCAACGACCAATCCGGGTTTGAATAAAAATTATCCGAAAGGCACTGGGTGTTGTAATGAC -GCAGAAATATTCGACAAAGCGGGCATTGCTGTACTTTCGGTGGAAGCGACTAACTGGAATCTTGGGAATA -AGGATGGTTATCAGCAACGCGCAAAAACACCTGCCTTCCCGGCGGGAAATAGCTGGCATGACGTAAGACT -GGATAATCACCAACATATTGATAAGGCTCTTCCTGGAAGAATAGAACGTCGCTGCCGTGACGTTATGCGG -ATAATGCTACCTCTGGTGAAGGAGTTGGCGAAGGCGTCTTGATGGGTTTGAAAATGGGAGCTGGGAGTTC -TACCGCAGAGGCGGGGGAACTCCAAGTGATATCCATCATCGCATCCAGTGCGCCCGGTTTATCCCCGCTG -ATGCGGGGAACACCAGCGTCAGGCGTGAAATCTCACCGTCGTTGCCGGTTTATCCCTGCTGGCGCGGGGA -ACTCTCGGTTCAGGCGTTGCAAACCTGGCTACCGGGCGGTTTATCCCCGCTAACGCGGGGAACTCGTAGT -CCATCATTCCACCTATGTCTGAACTCCCGGTTTATCCCCGCTGGCGCGGGGAACTCCCGGGGGATAATGT -TTACGGTCATGCGCCCCCCGGTTTATCCCCGCTGGCGCGGGGAACTCTGGGCGGCTTGCCTTGCAGCCAG -CTCCAGCAGCGGTTTATCCCCGCTGGCGCGGGGAACTCAAGCTGGCTGGCAATCTCTTTCGGGGTGAGTC -CGGTTTATCCTCGCTGGCGCGGGGAACTCTAGTTTCCGTATCTCCGGATTTATAAAGCTGACGGTTTATC -CCCGCTGGCGCGGGGAACTCGCAGGCGGCGACGCGCAGGGTATGCGCGATTCGCGGTTTATCCCCGCTGG -CGCGGGGAACTCGCGACCGCTCAGAAATTCCAGACCCGATCCAAACGGTTTATCCCCGCTGGCGCGGGGA -ACTCTCAACATTATCAATTACAACCGACAGGGAGCCCGGTTTATCCCCGCTGGCGCGGGGAACTCAGCGT -GTTCGGCATCACCTTTGGCTTCGGCTGCGGTTTATCCCCGCTGGCGCGGGGAACTCTGCGTGAGCGTATC -GCCGCGCGTCTGCGAAAGCGGTTTATCCCCGCTGGCGCGGGGAACTCTCTAAAAGTATACATTTGTTCTT -AAAGCATTTTTTCCCATAAAAACAACCCACCAACCTTAATGTAACATTTCCTTATTATTAAAGATCAGCT -AATTCTTTGTTTTCAAACAGGTAAAAAAGACACCAACCTTAAACCATCCAAATCTACCGGGGTACGCCTG -TTTAACCCAAATGTCTGGAACTCAAATCCCGTTTCCGTATTCGTTGCCCATGCCATCACTACATTGCCTT -CTTCCGCCAGTCCAGCTATTTGTTCCCAGATCATTTCACGAATTTTTGCGGATACATCACCTACATATAC -CCCTGCACGTACCTCCAACAACCAGATGGCTAATCTGCCTCGTAAGCGCGGAGGTACATTTTCAGTGACC -ACGACCAACATACTCATTTCAGCTACTCCGATGGCCTGCATCTCCCAGTGAAACAGGAAGCGGAATGGCA -ACAGGCTGTGCATCTTCAGGTGGGGCCGGCGGTTGTATTTCTCCAGCGGCAAGCACGTCCTCTATAAGCG -GAATCAATTTGGCTAATGTTTTACTACTGCGAAAAATATCCCTGCACGCCAAACGGACTTCCCGGTCCGG -CTCACCAGGGTTACGACGCGCTATCTCAAAAGCTTTCGGTACAACAGTGTCAAATTTAATGATGTCTGCA -ATATCGTAAACAAAGGAAAGAGGCTTTCCTGTATGCACAAACCCAATAGCTGGTGCATAACCAGCTGCAA -GTATCGCCGCTTCAGTTACGCCGTATAAACAGGAAGTTGCAGCGCTAATGCATTGGTTGATCGTATCGCC -CTTTTCCCAGTCTTTCGGATCGTAGCGACGTCCATTCCATGTCACGCCGTATTGCTTCGCCAGAAGTGCG -TAGGTTGCCCGCACGCGACTGCCTTCTATACCTCTGAGTTGCTCTACGGAGCGCCGGGCAGGCGCAGGTT -CTCCAAACCGAAGTTCAAACATTTTACGTACGACCTTCAGACGCAAATCTTCATCCAGAGCAAGTTTTGC -CTGATAGAGCAGCTTATCTGAACGCGCACCTCCAGGCTGACCAGAAGCATAAACACGAACGCCCGCTTCC -CCCACCCATACCAACAATGTTCCAACTTGCGCAGCCAGGCGTACAGCTGCATGCGAAACCCGTGTACCAG -GTTCCAGCATGATGCAGGCAACCGAGCCAACAGGAATATGAGTGCGGATCCCTGTCTTGTCGATAAGTAC -AAACGCGCCATCTATTACATCGATCTGCCCATATTGCAGAAAGATCATGGAGACGCGATCTTTGAGTGGA -ATGGGATTAAGGGGAAGCCAGGTCATTTTATTACACCTCAATCACAGTGGAGCCAAAGATAGCAAGCCAC -ATCCCATCGATTTAGCTGGCCCAATACCTTGCTGTACAAGATCTATTAACGCTGGCGCGTCGTTGATGGT -GAGCACACCTTCAAAGCAAACCGTTTGGATCTTTCCACTTTTACCATCACCAGAAAAATACTGTGGCCGT -TCCGATATGGGATGCACATCTTCAACGCGCGCCGCATTGCCCAATTTACGTTGCAACCACGCGATTTGTT -CTGCTTCTTTTATTAACGGAACCCGACAGCGTTTAATATTCCCTTTACTGTCCAGGCGCTTTTGATTGTC -GAGAATAGTTTTGATCGGATTTGCCCGAAGCCGAAAATAGAGTGGAACACCAACCTGAAGTTGAAATTCA -ACCTGTTTAGTTTTAATGACTGTCGCAACGGCAGTTGAAACAGGCATTTGCGCTGACTGCAATAAAACAT -GACAGCCTTCTGGTGTGTTTCGCTTCTCAACATGAAAAAGAAAATCACGAGCAGCATCCGGTCTGTTTGG -AAATAAATGCCATAATCCCTGGTGAAGTTGGTAAAGATCCCTGCTCCAGGCCCTGGCAATGATGACTTTA -CTGAGATACATCCATACCTCCTTTAATCACATACCATTCTCGGGAAGCAAATTGTCGAGGCAAGGTGATC -ATCGGTTCGTCGCGCGCCGTAAATTTTAAATGATGCCCTGTAACTGATTCCTCACTATATATATCGCCGC -CAACGGGCTCATAATTTAATAGCGCCTTCTGAGGATCCGATGCCTGACATGTCCCCAAAAAAAGCGGGTG -TGTTAGTGGGCAACTTCTCCGCCCCAGGTAAGGTGTATACCGAGGCTTTAATACTGCTTTTTCAAGTTCT -GAGATAACCATCGTTGCATGGGGTGTTAACCAGAGAGCGACGGTAAAGGAGGCATCACATAAATATTCGC -GCCATGTTTGAATCGTTTCATGACTTTTCAAACCACGGTAATCTTCTCGCGCTCCAAGGACTGTATGGTA -ATCACGCAACCCCGTTACAGACACACGACGATCGTCAAGAATGAGTTCATCGCAGCGCACTGCAAATTGC -ACACTCTCTGATAACGCCTGTAATGAAGAAGTATCATCACGTTGGATCCCAAGACAAGCCCCGAGTAGCC -CTAATAACCCGCTTCGGGTCGGAAATCTTCCGGTAGGTCGCGTTCCTTCAAAGGTCGGCTGCCCCCAGGC -TTGCATTGGCCCAGCAAGCCGCAAGATCAAATAAGATCTCATGTTCACGCCTCGCCATTATTACGAACCC -AGGATTTTAACTGTTCTAAAGTAGGCATTTGTTTAACTTGAGCAGTAATTGGGTCTACATCAGATAAGCT -GAATTGCGCAGCAGCTCCGTTCAGACCATATCCATTGGCAACGCGATCCCAATATTGATTAAACGCCTGT -ATAGACGGTTGCAAAAAGCCATCTTTCGCTTTAACCGCTTTTTCAAAAGCATTTGCCATAGAAAGTGGCA -TATCGGAGAAATTAACCATTACCATATCCGCAGGGTTAAAAGCGGCATAAGTACGCTGTTTTGCTCCAGG -GACCTCTGTTGCCAGCATATGAACAACATGGGTTGCAATTTCCAGAGCCTGCTCCCTGGAGGCACCACCT -AAATTTTCCTGAAGTTGAGCGAGGTTAATGTTGGCATAACGATAAAAAACACCCGATGAAAATTCCTGAG -TTCCCAGATGTGCAGAACCTTGTTCCTGTAAATCATCTACAGCGGTGAACCAGTCAATATCAGAATCAAC -CTGATGAGTAGTGATCGCATGCGCAATGGACATTGCACCATCAACTTTTCCCAACTCAGTCATCATGCCG -CTGGTTGCCATTCTTCCACTAAGCGCAATATCAACACCCTGCTGTAAATTCACACGTATGGCGGCAATAT -CTTCCTTAAGAACTTTGAGCAGCTTTTTATCATCCAGATTATCAGCCTCTGCTTTTGCAACCTGCTCACA -GAACCAGGCTATTTCTCCCACAACCCAGGGAGTAACCGCATCGGCAGAAATCTTTTCGGCTTCATCAACT -GATTTACCGGAGAGCAGCGCTAATGTCTTATCGATGATTTTTTGGTCAAAACGTTCACCAAGTTTTTGCC -GAAGAACATCACGTAATTGTGCAAGATGAATGGTTCTGAGACTGGATTCACCAATATTTTGTGCGTAATA -ACCACTTTTACGCATCGCACGTTTAAGGCTTTGACTTGAAATTCTTACTCGTCTTTTGCCGCCGAAAATA -GCGTCTTTCTGCATGTTCATATCGTCGCGGTTCAGACATGAAGGGCTGTGAGAGATCAGAACATGAATAT -TGATAAAGTTAGACATAGAAAGGTTTCCTTACGCATTTTTGTTTGTGGTCAATACAAAATCTTCCAGAAG -TTGCTGGCGTTCGCGCTTTCCCCACCAGGTCAACATCCTGGCCATTAATGGCCAGTCAAGTACGGGTTCG -GCGTGAGTAAGTAATCGACGTAACTGGACCATATCGGCTGTTCTGTCAGCCCGAATTAATTGAAAGATAC -GGCGCTCGTTAATTCTTCCACTATTGGCTAAAGCTCTTCCCAACGAGATACCTGTTGTTTGCTCCGATTT -TTTGTCCTGATGTCGGATGACATTCTTTCCTGCGCTCAGGCAAAACACCATGCGCAAAAGAGCCTGCTGG -TGACGTGGGTTTTCCCAACCAAAAGGTTGCACCAGCCTATAAAACGCAGGGATATCGCGTAATTCATCAG -GTTCTGAAACACGTCTAATTTGCGCACATGATCCATTATCCAGTTGTTGCCAGGCTCGATATAAAGCCAT -TGCATCAATTTCATCAGCCATTTGATGGCCCTCCTTGCGGTTTTAACTCCCGTAAATGTTTGTATAGCGT -GGCGCGGGCAAGCGCTAATGTGCTTATTAATTTAGGATGATGTGCATAGGGAGCTACAGATTGATTAAAT -AGCATTTCACACAATTGATGAAGTTTGTCTCGTAAATCAGCTATTACCTCATCAGCCTGGGAAAAATTAA -CATTCGCCAGTACATCGGGAATTAATAATTCACTCTGTCGATAGAAATGCCTTTCTGCAGTCTCATGAAC -AGAGACTCCGGCCCCTTTGAAGTCTTTATTTTTAAACCCTTCTGCAAAGGTATATAACGCCTTGCGTAAG -GCTGTTTTATATCCCAAACCAACAGTCACTATTTCGTTTATCACATTGCCGTATTGTTGCCACCCCTGAT -TAAACATCAACACATCATGACGCCGTTCAAGAATAGATGCTTGATTATTACGATATCCCCCCATAATCAA -TTCAAGAGGACTTTGCGGCGCAATATTTCTGAATTGATTCACAACCGCCGCCACGCGATTTCCATTTTCA -TTTTGAATAATCTTATCTACCACAACTCGGCTGATTTGTGTCCATGATGGTGCGGAGGTGGTGAAAGCAA -GAAATTTTTCCTCAACCTCCCCTTTCTTGACTGTTACCAGACAAGGGGAATGCGGATGGGGCCATAGCCC -ATTAACTGTAAAGGTAAATTTTTCCTTAAGAAAACCGGTATAACGCAAATTGCTTTCCTGTCCACAGCAA -GAACATTTACCAATCCCAATGGGATCGCATAATTCAATATGCGCTGGTTGCCAGAATAGACCACGGACAA -ACCCAATTGACGAAGCAGGTATAGACTCATTGGACTTGATAGGTTTAATCCAGGTAGGTTGGTTTTCCGT -ATGTGATTCATTAGGAAATTGTTTTTGAAGACGAGGTAATGTGAGGACATTGAGTAACACCGTTGAACGA -AGATCGATCCCACGTACGAACGTTGTTACAGGTGTTCCTCCACGTAAACCGCTTTTAAAACCACCACCAA -AACCTGGTGCCTGATTCGCCTGGTTGAATAACGCAATCGCAGTGCATCCACCACATAATGCTTCACCCTG -CCCCGGTTGATTGACAAATGCACAATTCGTCGCGCCGCTTACCCCAGCCAACAGTTTTTCCATTGGAGTC -ACATCATTTGCTTTGACACCTTTGGTCTGCATAAAGGGATGTTCTGCGTGATTAAGGTAGAACATATCTA -TCCACGGCGCGATGAGTTGTTGAAACTCATCTTCAGTGAGCGGATTCATTATGCGATGTCGAAATTCAAC -GTCATCTTTTGCCGGGGCGATAATTTGCCCAATGCAAACCAGCAGTGCTAAAGCGGCCAGTTCCATATCG -TCACGGGGCAAACTTAATCGCCACTGATCTCTACTGCAGTATAGCGATTGCAGATTTATGATTTGGACTT -TCCCCCCGTTTCGCGGGCGTACAGGGATCCAGTTATCAATAAGCAAATTCATTTGTTCTCCTTCATATGC -TCCGACATTTCTCCTGCATTTCTATACGTCGGCACACTTCCGTTATCGGTAAAAACAAAGAAAAAATACG -GCGTAATTAATTCAATAATCACATTCACTGCAAAAATATATTCATTGGTTTAATACAATTAACCTATACA -TATATTAAGATGTGTTGAATTGTTTAAAGACAATAATGCATGCATTTCAAATCTGCAAGTTATTCGTTTT -ATTATTAAAGAAACTTTTAGTTATAATAATTACCATGAATTTTATTACATAAAATATTCATACTGTGAAT -ATAAAATCTCATACCGGGAAATTAAAAGAAGATGTACATTGTGCACCTTCCCTACTTAAGTAGGGATAAA -CCGTTATTGGTCTTATTATCGTCATTGATAACAATCATTCCCGAAGTTATTTGGGATTTGCAGGGATGAC -TCTGGTCATCCCTTCATCCCCTGTATAGGTAATAACAATACTGTTACCCTGCCAGACCCATCCATCCAGA -TTCTGTTTCCCTTCCAGCCAAAGTAACCCATCTTCATCTACTACTTCAGAAAAACTACGTTTCCAGGTGA -AGGGTACATTGACGCGATTAAGTGCAAGCGCCTCATACTGCTGTTCATGACTTAGGTCCTCGTAGACCTG -GCCATCGAGCAGTTGTTTACCTGAAGACGTTTGTACATAAGGCAATAATGGCAGGCTCATTTCCCCATCC -CTCGTTACCGCAAGAATGGTTTCATCGTTATCCTGCAAGCTATATTCTTCAGCCCACTGCAGGACCTTGC -GAGCCTTGAACCTTTTTTCACACTCGGCGCTTTCAAATTTATCCATGCCATTGCCGACCCATTCTGGCTC -ATCCATTTCCGCATCATCGTAAATGCTATCCAGCCATTGCCGGTAAGCATCAGGGAAAAATAAGGATGCT -CCATTAAGCTCCTCAATATGTTGCTGCGTCCGCCACATGACTCTAACGTTGCTATAAATATGCTCATGTC -GTCCGTAACCCTCGCCATCAGGCAGCAAAATGGTGGCAACAGGAATCTCAAAACCAGCGGGACGATATTT -GCGATGATGGCGATGTAAACGGCCCAATCGTTGGAAAAGCAAATCTGCAGGACAATGCTGAGTAATTAAC -CAATCAAAATCAACGTCGAGTGATTGTTCCACGACCTGGGTTGCGACAAGTATCCGTCCAACATTTCGCT -TCCCATTTTTGCCGAAATTGCTAATAACTCGATTCTCTTTTTCACGACGATCGTTCAGCGTAAAGCGCGC -ATGAAACAAATCTATATCTACTTGCGTGTTATTTAGCTCCTTTAGCCGTTGGTAGCATACTTGTGCAACG -TCAACCAAATTGCAAATAAGACAGACCTGTGCACCCGCGTTTGCCGCTGCGATCATTCGCTCTAACATCG -TAAGGTCAGGTAACATGTCAGCTAAACAAATAGGTTCTGGCTGAATCGAAAAGCGGGGCGGGAGTTGTTC -TGGATGAGCTAGCAGATCAAAACGTTGCGCACCATTCACACCTCGCCAGTTAATGAGTGGATATGCGGAG -TTATTTTCCACTGGATCTGTATGCAGACCATAAGTATCCAGAAGTTTCTGTTTTTGTTTCATTGGTAGGG -TTGCGGAAAGAAGAATAACACTCCCTCCCACATCAGCCTGAGCCTTGAGCACTGCCTCCAGCAAGCCGTT -CATATAGGTGTCGTAAGCATGAACTTCATCAACAATTAAAACACTTCGACCAATTCCCAAACCACGGATA -AAGCGGTGTTTAACTGGCAATACCGATATCAACACCTGATCAATCGTGCAAACGCCGATTTGCCCAAGAA -ACACTTTCTTATTGCTTTGTGACAACCACTGACAACACTGAACCCACGCTTCTTCTTGCCCCTGTTCAGT -AATCGCGCGTGATTTTATTGATTGAAAGAGGTGGTTAAACCGTGAATTGCCATGAGCAAGAATAAGATTT -GGGGATGAAAATAAGTGGCTCGCGCTCGCTTCCATTCTCGTAAGCATAGCATTCGCGGTAGCTTGTGTTG -GGAGGGCAAAAATAACACTATCCGCAATTTGTTGATCAATAAGTTTCCAAGCATAGGCCAGCGCTGTTTC -CGTTTTACCGGAGCCTGTAGGTGCCTCTATTACCGTCAGCCCGGGAGCTACTGGAAGAGCATCAACTAAC -ACCTGTAATTGTCTGGGTTGATAGCCATTGTCCAGTAGTGCATGAACACCTTCATAACATCGCTTATTTG -ATACAAGTCCACTCAACTCCAATACCCGGCTCGCATCCTGCTGTCGGTCCTGGAAATACGTTCTCAGAGC -ATTTATGTCGGAAGGCGCATCCTCATTAAACAGAAAGGTATTCGTTGTAGTCCAGGAGCCTAACCAGTCA -GCAAGCGAGCAAAAACCTGCTAACAGTGATGAACAATCAGGTGGTATATCGTTTATAGATAACCCCGCTG -GCGTTAAAAATAATGCTTCCAGTACAGATATCCACTCCTCACGAGCCTGTTTATCTTGCGCAGCATAAGA -TGCCAGAGAAGCTGGCATTTCCCAACGCGACTTATCTTGATCCTGGGAATGTAATATAAAACCATGATGT -CCTGTAACGGCCTCTACCCATGGAAACCAGGACTCATAAGGATGAGGAGCGGCATCAAAAAAACTGAAAA -AATCCCCGAGAGATTGCTCTGAAAGTGAATCCTGGTTAAACCAATACAGACCGGCTGCACCATGATTAAA -TTTACGGCACATTTGTGTTGATGGACCATTAAGTGATGGCGTTGCAGGATTTAATTTCAGCCAACTTTCT -GCTGATTTATATTGGAATCGTATATCAAACTTTCCAATATCATGAAGAGCAATGAAAAATAACAGCCAGG -CCTTCACCCTCTGTTTTGATAGCATTTCATTTCGGCAAAAAGTATTTTGCAGTACGACTGATTGATCCCA -CCAGCAATCTGCAACAGCAGCAACATCAAGGCAATGATAAATTAACAGATGAATATCATTTCCTTTCGTC -AAGCTTTTTGAGGATTTTCCCCAGTAATGGCATATATATTTAAAAGGTTCCATTAATAGCCTCCCTGTTT -TTTTAGTATTATCGATGATATCAGCGGGCTATTTTTCGATGCTGCTCATAAATATCGAATTACAGTGATA -TACACATGTCTTGCCTCCCTGCAAAGAAGAGACTAACATTCGAATTGTTTGGGTTCGAACGCTGGCCTCA -GGTTGATAGAAATATCGCCTGGGGCTTTTGTCCATCTGGAACCTCGCGAATGCTTAACGCCAGACAGCCT -CAAGCACCCGACGCCATTCTATACCTGATAATTCTTCCCGCGGCGTTCACGTTTAAAATCAGGAATGCTG -CTCGCAAAATAAAAACGCCCCCATCATTTCTGACAGAGGCGTTTAATTTGTCCGGCAATATTTACCCTTC -GTGTAACCCACATTCCCTTTTTAAGCCAAAGAAACGCGTTTCTTCTTCCGCCATGCCGGGTTCCCATTTA -CGGGTTGTATGGGTATCGCCCACCGATAAATATCCTTCATCCCATAATGGGTGATATTTCAGGCCATGTT -TTTGCAGGTACTGATAAATAGTTCGGTTATCCCAGTCGATAATCGGCAGCACTTTAAATACGCCACGCTG -AATTGCCAGCACCGGTAAATTGGCACGACTGCCGGATTGTTCACGGCGCAGGCCAGCAAACCAGGTTTGC -GCATTCAGTTCTTTCAGAGCCCGGTTCATCGGTTCGACTTTGTTGATGTCATTGTACTTTTCAATGCCTT -CAACGCCCTGCTCCCACAGTTTTCCGTAGCGTGCTTCCTGCCAGGCTGCGCTTTCGGTAGCACGGTACAC -TTTCAGGTTGAGCTTGAGTTTGTCCGTTAACTCGTCAATAAAGCGGTAGGTTTCCGGGAACAAGTAACCC -GTATCGGTGAGGATCACCGGAATATCCGGGCGAATTTGATTCACCAGATGCAGGCTCACCGCCGCCTGAA -TGCCAAAGCTGGAAGAAAGTACATATTCACCGGGCAGATTATCCAGCGCCCAGGCTACGCGGCCTTCAGC -GTCCAGTTTTTCCAGTTCGGCGTTAGTTTCCGCCAGCGCCAGAATGCGATCTACCTTCGGCAGTTCGTTC -AGGGCGTTTAGATCGAGTTTGGACATAGATTCCTCACTGTTTGCCTTGCCTGATGCGACGCTCACGCGTT -CTTATCAGGCCTACAAGACCGGGCTGATGGTTAATCCCACAAATCACGCGCCGGATCGAGCACCGGGCGA -ATGATGCCCGCACGCACCGTAAAGTCGCCGAAGCCTTCACCCGCTTCGCGCTCTTTCGCCCAGCGCCCTA -TCAGTTCATCAAGCGACGCCAGGATTTCCGGCTCGGTGATGTTTTCTTTATACATCCGTGGGATACGTGT -CCCAATGCGGTTGCCGCCAAGATGCAGGTTGTAGCGACCCGGCGCTTTACCCACCAGGCCCACTTCCGCC -AGCATCGCGCGACCACAACCGTTCGGGCAGCCTGTTACACGCATCACGATATGCTCATCGCTGACACCAT -GTTTCGCCATTAAATTATCGATGTTGTCGATAAAAGACGGCAGGAAACGCTCTGCTTCCGCCATCGCCAG -CGGGCAAGTCGGGAATGACACGCAAGCCATCGAGTTTTCACGCTGCGGCGTGACGGCATTCATTAACCCG -CTCTCTTTGGCGATCTTCTCGATCTTCGCTTTCTCGCTTTCCGGTACACCGGCGATGATCAGATTCTGGT -TCGCCGTAATGCGGAAATCGCCTTTGTGGATCTTCGCGATCTCCAGCAGGCCGGTTTTCAGCGGACGCGC -CGGATAATCAAGGATGCGACCATTTTCGATAAACAGCGTCAGGTGCCAGTTATCATCAATGCCCTTAACC -CAGCCAATACGATCGCCTCGTCCGGTGAACTCATATGGACGGATCGGTTCAAATTTGATCCCCGCGCGAC -GCTCCACTTCCGCTTTAAACGTCTCAACCCCCACGCGCTCCAGCGTGTATTTGGTTTTGGCATTTTTACG -ATCGGTTCGGTTACCCCAGTCACGCTGAGTTGTCACGACGGCTTCGGCCACCGCCAGCGTATGCTCCAGC -GGCAGATAGCCAAACTCACTCGCGGTGCGGGCGTAGGTTTTCTTGTTGCCGTGTTCGATGGAAAGCCCAC -CGCCCACCAACAGGTTAAAGCCCACCAGTTTGCCGTTTTCGGCGATCGCCACGAAGTTCATGTCGTTGGC -GTGCAGATCGATATCGTTCTGTGGCGGGATCACTACCGTGGTTTTGAATTTACGCGGCAGGTAGGTCTGG -CCGAGGATCGGTTCTTCATCAGTAGTGGCGACTTTTTCCTGGTCGAGCCAGATCTCCGCATACGCGCGGG -TACGAGGCAACAGATGCTCAGAAATCTTCTTCGCCCACTCGTACGCTTCCGCGTGCAGCTGCGACTCGTA -AGGGTTCGAGGTGCAGAGTACGTTACGGTTCATGTCGTTAGCTGTCGCCAGCGCATCAAGACCGACCGAG -TGCAGCATCTGGTGCACCGGTTTGACGTTCTTTTTCAGAATGCCGTGGAACTGAAACGTCTGGCGGTTGG -TCAGGCGAATGCTGCCATAGATGGTGTTTTCACCGGCAAATTTGTCGATCGCCTGCCACTGTTTAGTGGT -AATCACCCCACCCGGCAGACGACAGCGAAGCAGCATCGCGTGGCGCGGCTCCAGCTTCTGTTCAGCACGT -TCGGCGCGGATGTCGCGGTCATCCTGCTGATACATGCCGTGGAAGCGAATCAGCAGGAAGTTGTCGCCCT -TAAAGCCGCCGGTCAGACCGTCGTTTAAATCTTCCGCAATGGTGCCGCGCAGGTAGTTGCTTTCATGCTT -CATGCGCTCGGCGTCTGTCAGTTTTCCTTCGACCACTAAAGGCCCTGGATGTTTTTCGCTCATTAGTAGA -CATCTCGCTGATAACGGCGCTCTACGCGCAGCTCACTTAAAAATTCATCCGCCGCTTCGGTGTCCATGCC -ACCAAATTCGGCAATCACTTCCAGAAGTGCCTGCTCAACGTCTTTCGCCATGCGATTAGCGTCGCCGCAG -ACATAAATGTGGGCACCATCATTGATCCAGCGCCACAGCTCCGCGCCCTGTTCGCGCAGTTTGTCTTGTA -CGTAAACTTTTTCTTTTTGATCGCGCGACCAGGCAAGATCGATACGTGTCAGCACGCCATCTTTGACGTA -GCGCTGCCACTCCACCTGGTACAGGAAGTCTTCCGTAAAGTGCGGATTACCAAAGAACAGCCAGTTTTTA -CCTGGCGCTTCGTCGGCGGCGCGTTGCTGCATAAAGGCGCGGAACGGCGCAATACCGGTGCCTGGGCCAA -TCATAATCACCGGGGTTTCTGGATTGGCTGGCAGGCGGAAGTTATCGTTATGTTCGATAAATACGCGGAC -TTCGCCCTCTTCTTCCACGCGGTCAGCGAGGAAGCTGGAGGCACCACCGGCACGGGCGCGGCCTTCCACG -TCGTAACGCACCACACCAACGGTGACGTGTACTTCGTTCTCGACTTCCGCCTGCGAGGAGGCGATGGAAT -ACAGACGCGGCGTCAGCGGGCGCAGCAGATTAATTAGCGCTTCGGCATCAAGCTGTGCCGGGGAGAAACG -CACCATGTCAACAATCGGCGTCGTCGCGGCGTAATGCTGTAACTTCGCTTTATCGCCCACCAGCGGCAGC -AGTGTTTCACTGCGGGTAAGCGTGGCGTAATTCTCAACAATGTTGGCGGTGTTGACGGTCAGTTCGAAGT -GCCACTGTAGCGCTTCGTTCAGAGGCAACGTTTTGCCCTCGACGGTGACAGGTTCATCGCCTTTCAGCCA -CAGCAGTTCGACAAGTTCTTTCACCAGTGCCGGATCGTTCTGATACCAGACGCCCAGCGCGTCACCCGGC -TGGTAACGCATGCCCGAGTCACCTAAGTCAATTTCGATATGGCGAACGTCTTTTTCAGAGTTACGCCCGG -TAATTTTCTGGTTAACAGAGAGGCTAGCCACCAGCGGCGCGTCTTTGCTGTACGGGCTGGTGTGGATTTC -ATTTACCGCGCCAGTAGCGACGGATTGCGAAGGTGCCGCGACAGGCGCACGCGATTTAAGCGCATCAACC -ACGCGGGCGCGCCACTCGCTGGCAGCAGCCTGGTATTCAACATCGGCATCGACACGGTCGAGCAGGCGTT -CACCACCCAGTTCCGCCAGCTTGCTGTCGAAATCTTTCCCGGACTGGCAGAAAAATTCATAAGAGCTATC -GCCGAGGCTAAACACGGCAAACGCGGTGTTTTCCAGCTTTGGCGCTTTTTTGGAGAACAGGAACTTATGC -AGCGCGACGGCTTCTTCCGGCGGTTCCCCTTCCCCTTGCGTTGACGTCACTACGATGAGCAGTTTTTCGC -TGGCGATTTGTTTGAATTTATAGTCGCCCGCGTTCACCAGCTTAACGTTCAGTTTTGCTGCTAATAAATC -ATCACGTAATGCTTCAGCAACCCGGCGCGCATTGCCGGTTTGCGAGGCGGAGATAATAGTTATACCCGGC -ATTTCTGCGGCTGGCGCTGGCGTCGCTGCAAGCGCAGCAGGCTGCTGATTGAGTACGCCCCAGAAATAGC -CAGAAACCCAGGCAAGCTGGGTGGGAGTTAAATCGGTCGTGGCCGCCTGAAGGCGTGCCAGTTGCTCCGG -GTTCAACGGAAGCAACGCGGAAGGTGGGACCTGTGTCGTCATGCGTCGTTATGTTCCAGTAAGCAAAGCT -GTTTCTGCGCCCTGTCAGCGCCCATAAAACAGAAGAGAAGGTAAGGTTAACGGGGCAAACGGTGTGGATT -AAAGACGGGATAGCGATAACTAATAACCAAATCGACTAACCTGTTTTAGCAATAGTCTTTAACAACAAAA -TAGATTAACCAACCTAATGAAAAACAAATGAATTTAGCCAATCATTAAGATAAATCAGCGATTTTGCGCA -ACAAAGTCGTTTTAGATAATGCGAAAAAACAGCCTTTCCGGTACTCTACGGCGGTTTTATCGTCCTGTAG -AGAAATTATGATGTCCACCACGTTATTTAAAGATTTCACCTTCGAAGCCGCTCACCGCTTACCACACGTC -CCGGAAGGGCATAAATGTGGTCGCCTGCACGGGCATTCCTTTATGGTGCGACTGGAAATTACCGGGGAAG -TCGATCCGCATACGGGCTGGATTATCGATTTCGCTGAACTAAAAGCGGCGTTTAAACCAACCTACGAGCG -CCTCGATCACCATTATCTCAATGATATTCCAGGTCTGGAAAACCCAACCAGCGAGGTTTTAGCAAAATGG -ATTTGGGATCAGGTTAAACCCGTTGTGCCGCTGTTAAGTGCGGTGATGGTAAAAGAAACCTGCACCGCAG -GTTGTATCTATCGCGGCGAATGATAAGAGTGTGTCGGCGGTCAATTTCCCTTAAGTAACGCTATGTTAGG -GTGTTGTGTTCTGGATATCTGGGGCATGACATGGAAGACGACTGCGACATTATTATTATTGGTGCCGGTA -TTGCAGGCACCGCTTGCGCGTTACGCTGCGCGCGAGCGGGTTTATCCGTTTTGTTACTGGAACGCGCTGA -AATCCCCGGCAGCAAAAATCTTTCCGGCGGGCGGTTATATACCCATGCACTCGCGGAACTCCTCCCGCAA -TTTCATCTGACCGCGCCTCTTGAACGACGCATCACTCACGAAAGCCTTTCCCTGTTAACGCCCGATGGCG -TAACGACGTTTTCCAGCTTACAGCCCGGCGGTGAATCCTGGAGTGTATTACGTGCACGATTCGATCCGTG -GCTGGTTGCCGAAGCCGAAAAAGAAGGTGTCGAATGCATCCCCGGAGCGACGGTGGATGCACTGTATGAA -GAAAACGGCAGAGTCTGTGGCGTTATTTGTGGTGACGATATTCTCCGCGCCCGTTATGTGGTGCTGGCAG -AAGGTGCCAACAGCGTCCTGGCTGAACGTCACGGGTTAGTGACTCGTCCTGCTGGCGAAGCGATGGCGTT -GGGGATCAAAGAAGTGCTGTCGCTGGAAACATCCGCTATTGAAGAACGTTTTCATCTGGAGAATAACGAA -GGCGCAGCGTTGCTGTTCAGCGGCAGGATCTGTGATGACTTACCCGGCGGCGCATTTCTTTATACTAATC -AACAAACGCTCTCGTTAGGGATTGTTTGCCCGCTCTCTTCCCTTACGCAAAGTCGTGTTCCGGCAAGCGA -GCTGCTGACTCGCTTTAAAGCGCATCCGGCAGTGCGCCCGCTTATCAAAAACACGGAATCACTGGAGTAT -GGTGCGCATCTGGTGCCAGAAGGTGGCTTGCACAGTATGCCGGTGCAATACGCCGGTAACGGCTGGCTGC -TGGTGGGCGATGCGTTGCGCAGTTGCGTCAATACCGGAATTTCCGTGCGCGGCATGGATATGGCGCTGAC -TGGCGCGCAGGCGGCGGCACAAACGCTGATAAGCGCCTGCCAGCACCGCGAGCCGCAAAATCTGTTTCCG -CTTTATCATCACAACGTAGAGCGCAGCCTGCTGTGGGATGTTCTACAGCGTTATCAGCATGTTCCGGCGC -TTTTGCAACGCCCGGGATGGTACCGTACGTGGCCTGCGTTAATGCAGGATATTTCCCGCGATTTATGGGA -TCAGGGTGATAAACCTGTTCCACCGCTGCGCCAGTTATTCTGGCATCATTTACGTCGTCACGGCCTGTGG -CATCTGGCGGGCGATGTTATCAGGAGTCTGCGATGTCTGTAGCCCGTAATCTCTGGCGCGTTGCTGATGC -GCCGCACATTGTTCCGGCTGACTCCGTTGAGCGCCAGACGGCAGAACGGTTGATTAACGCCTGTCCGGCA -GGTCTTTTTTCGCTCACACCGGAAGGTAACTTACGTATTGACTATCGCAGTTGCCTGGAGTGTGGCACCT -GCCGTTTGCTGTGCGACGAATCAACACTACAACAGTGGCGCTATCCGCCTTCCGGATTCGGCATCACCTA -CCGCTTTGGATAAATAATAAGGATAATTTATGCCCCTCTTACACCTGCTCCGCCAGAATCCGGTGATTGC -TGCCGTTAAAGATAATGCCAGCCTGCAACTGGCAATCGATTCTGAATGCCAATTTATTTCCGTGTTGTAC -GGCAATATCTGCACCATCAGTAATATCGTTAAAAAGATTAAGAACGCCGGGAAATATGCTTTTATTCATG -TTGATTTGCTGGAAGGCGCGTCAAATAAAGAAGTCGTTATTCAGTTTTTGAAACTGGTGACCGAGGCGGA -CGGCATTATCAGTACCAAAGCCTCAATGTTGAAAGCGGCAAGAGCGGAAGGTTTTTTCTGTATTCATCGC -CTGTTTATTGTTGATTCAATTTCGTTTCACAACATTGATAAGCAAGTTGCGCAATCGAATCCGGATTGTA -TTGAGATCCTGCCAGGCTGTATGCCCAAAGTGCTGGGCTGGGTGACAGAGAAAATCCGCCAACCGCTGAT -TGCCGGTGGGCTGGTGTGCGATGAAGAAGATGCGCGTAATGCGATTAACGCGGGTGTCGTGGCGCTTTCC -ACCACGAATACCGGGGTCTGGACGTTAGCGAAAAAATTACTTTGACGGGATAATCGTAACCAATTGAATT -TGGTTTGATTTGTAGGCCGCACGCCACATCCGACATTCAGCGCCTGATGCGACGCTTGACGCGTCTTATC -AGGCCTACAAGTCCCCAGGCCAGAACCGTAGGCAGGATCATCCGGCAACACGTTATTGGCAATCTGCGTG -AATGTTTGTCACCAGTGCCTCCAGCACCACTTTCCAGTCATCAACCACGCCAACATCTGCCTGTGAAAAT -ACCGCAGCGCTGGCGTCATGATTAATCGCCACCACAAACTTGCTATTGCGTACGCCCGCCATTAACGCTG -CTGCGCCAGAAGCGCCAACAACAATACACACCTCAGGTGCCAGCAGATGTCCGGAAATACCAATCACTTT -TTCAGCATCAACGCCACCGTTCATCACTCGCGCCCGACTGTAGCCCACTTCGGCTCCCAGCTTTTCTGCC -AGCATAGCGATTTCCTGGTTATCTGCCTCTCCGCCCTGCCCCACCACCAGCACCCGTCTGGCCTCAGCTA -ATGGGTCGCGGGTAACATTTTTCAGATCCTCTGTGCTAACCAGCCAGTCCGGAAGCGCACCCGGGACAAT -GTTCAGTTGTTGCATTCCAGAGGGCAACGTGGCGTTTTTCGCTGCTCCCGCCTGACGCGCCAGGGAAAGG -CATAGCGGGCGTTTTTCTGTTTGCAGCGTCGCCGTTAGCGCATTTCCCCAGTGGGATTTGCGCACGCTTA -CGGTTGGAATATCTAACGAAGTCACCTGGCAGATGCTTGCACCATGTAAACGCCAGGCCAGCCGGGTCGA -CAGTTCATCGCCAAACGTTCCCGGCGGAAAGAGAACAACGTCCGCAGGCGTTCGCTGCCACTGTTCCACC -AACGCATCCAGCACCTGTTCCGCCACTACAGGCTGAGGTTCAATCTGCCAGTGCGCCAGGGTACAACCGC -TGAAATCCTGCGCCGCCAGCCAGCTTGCTATTGCGGCATTCTCCTGATTTATTGTCACAATTGCGATATT -CATGGCTGCATCCTTTGGCGTAAATAGTCCTGCCATAGCTTTTGAGCTTTTTCTGCTACCGTTTGCCCAT -CAATCAGCGTCGCTCCGCGTCGTTGCTCTGCTCTTGCCAGTTGCAGACACTGCATCGCTGGCATTTCGGC -AGCAACAGTTTTACGGATAATTTCTGCTTTCCCCGCAGCCATTCGCTGGCGCATTCCCGGTACTGGCAAG -GCCACTTCACCGCACTGACGCACGGCAATCACCGCAGGCAAGCGAACCCGGCAACAACGCAACCCATGTT -CAGTACGCTGTTCGAGGGTGATAAACAGCGCGTCGAGAGTGAAACGCTCCACCTGGGTGAAGCAGGGCCA -GCCCAGCATTTCCGCCAGCAAAAATGGCGTTTGCCCATTCTGCCCTTCGCTGCTTTGGCAGCCGGTAATT -ATCAGATCCAGCGGATTCTGATGCTGCCATTCGGCAATATGGCGAGCGACAAATTCCGGCGCAAAGCGCA -GATCTGCCGCCGTCTCCAGCAATACAGCTTCCTCAAACCCAAGAGCCATGAGATAGCGCAGCCAGTGCAA -TGCCCGTTCATCCCCCATGCTCAACGCGGTTAAAGACATCGGCGTACCGTTTTTTCTCTGCGCCAACAGC -AGCGCGGCAGCGGCCTGTTCATCAGCACCGAGTAAACTTCGCAGTAGCGAAATATCCGGTCCGCTTTTAC -CCTGAGCCGCCGCCTGCCACTCTTTTTCCGCCAGCATTCCGGCATCCGGTTCGGCTTTAAACGCTAACAG -AATGTTCATTCGCACCTCCTACATTTCCCGCCGCCACCAGCGGGAGGGCTTTAGTTTCTGGTGCCCATAG -CCAGGTCACAACAAAACCAACCAACAACACTGTCGCCAGGAGCAATAAGGTGACTTGCATTCCCCACTGC -GCCAGCACCCACGGCAGCAGGCCAGTACTTACCGCCGCGCCAAGTCGACTCATGGCAGTGGCAAAACCGA -CGCCCAGCGAGCGAATGTCAGTAGGAAAACTTTCCGCAGGCAAAATGCCCACCAGATTACTGACTGCCGA -AATGGTGGTGCTGAAGAGAACAAAAAGCAGCAGCGTTAATGAACTGCCGGAAGGCAAACAGGCCATGACT -ACCAGCGTTGCCGCCAGCAGCAAAAAACTTCCCAGCAAAAATTTGCGATGTGCCAGCAGGTGCGTCAGAA -CTAATCCCAGCAGCGCGCCCACAATTAACAACGCATTAAGCATCAGGCTGGCAGTCAGCGCATCTTCCAG -ACCAATAGTCTGGGCGATAGTTGGCAGCCAGGTATAAATCACAAACCATGGGATTACGAGGCAGACAAAG -AAGACGCTGTTAAACGCCGTGCGCCGCCAGTAACGCGAAGAGAACAAGGTTTTGATGTGTTTATGGGTCG -CCGTTACCACTTCATCGCCCAGTAAAACATGGGGACCAAAATAGCGATGCACGATAGCGTGAGCTTCTGC -AAAACGCCCCTGGCGCAGTAGCCAGCGTGGTGATTCTGGCGTTCCCCAGCGTAATAACGTAATCAACAAC -GCGGGCAGAGCTGCCGATGCCAGTAGCCAGCGCCAGGCCTCCGGGTTTTCGGAAATAAAGTGATGTCCGG -CAATACTTGCCAGCACATAGCCTACGGTCCACACCACGCTGAATGCGCCCAGCAAAATACCGCGATGGCG -GCGCGGGGAAAATTCAGCCAGCAAGGTGTGACCTACTGAATAATCGCCTCCCAGACCAATGCCAATCAAA -ATGCGCAGTCCAATAAGATGCTCTGGCGTGGTGGCAAAAAATTGTAAAAACGAAGCAAGCGTAATCAGCA -AAAAGCTGAAGGTGAAGATTTTTTGCCGACCAATATGGTCGGAGATCCACCCAAGAACCAGGCTGCCAAG -GAACAAACCAAGGAGCGCCGAGCCGCCGATCATTCCCGCCATAAACGGCGTCAGTTGCATGGCGGGCGTA -AGCTGAATAATGGCGTAACCAATGACGCCGAGAACATAACCGTCGGTCAGGTGTGCGCCGAAAGTGAGCG -CAGCAATGCGGCAGTGAAAACGGTTAAGCGGTAAATCATCCATTCGCACCGGTGAAGTGTTCATCTTTAC -CCCTTCATTGTCCGGTAATAAGAACGGCTTCTCGCCTGAGAAGCCGAAAAGGCAACGCCCCGTCATCGCG -GAACGCTGCCTGACACATTATTTTTCAATCGGATAGATAGTACCCGTATTCATAATGCCATTAGGATCGA -ACTGCTTTTTCAGCCCTTCCAGCAACGCCCACGCGCTGCCGTGTTCCAGTTTGCTCCAGTGAACGCGATG -TTTACCGATACCGTGGTGGTGCACCATCGAACCGCCGAGGCGAATGGTTTCTTCACAGATGATCTTGTTG -AGCGGATTGTGGTACTTGTCGATTTCCTCTTCCGGCTTACAGTCAACGACGTTGTAATCGTAGACGAAGT -ACATGTTGGTGCCGTTCTGATAGCTATGAGAGGAATGACCGCCCAGCATGGTGATGTCGTCGGCGTGCGG -GAACTCAGTACGAATACGGTTAATAACGCTTTCGTAGATTTCGTGGATGCAGCTCCAGCAGCCGGATACT -TCGGTGGTAAAGCCCATGTTGCCGGTTTTGAGGATCTGCACACGTTCGGCAGCCACTTTATCCGGTCCCC -AGTTCAGGTTGTTAAACCAGGTTTCGATCAGCTTGCTGTCCACGCGCTGGCATTGCGGGTAGCGGGCAAC -GATTTCCGCAATCCCTTCGCCCGTCACCTTCGCAATGCGAGGGTTACCTTCAGCCATAAAGATCAGCACG -CATTTTCCGTCGGCAAAATGGGTGAAGTGTTGGGTGCCATCTTCAGCGTCATACAAACGAGCGATTGACG -GACGATACCCTTCCACCATGATTTCACGCAGGATGTTGAAGCCGGTTTTCATGTCTTCCAGGATATAGCC -GTAGAAGAGGTTGTTTTCCGGGGTGAATTTAAAGATTTTCACTGTTACTTCAGTGATATAGCACAATGCA -CCTTCGTTGCCGATGATGATGTGACGAATGTCCGGGCCAGCCGCGCGGCGTGGCACGTTTTTAATGCGTG -TGACGGTGCCATCAGCCAATACTGCTTCCAGACCAACGACCATATCTTCGATTGCGCCGTAGAGTGTGGA -GAACTGCCCGATACTTCGGGTTGCTACCAGGCCGCCCATCTGCGCCAGCGGCTTTGACTGCGGAGAATGC -CCCGTGGTGTAACCTTTTTCACGCAACGCGTTTTCCAGCACTTCCAGCGGAACACCACATTGCGCCGTCG -CCTGCATATTCTCAATATCAATATTAATGATTTGATTCATGGCGGAGCCGTCGAGCACCACCGAGTTTTC -TACAACAGTTTCCAGCCCACCTTCGGTGGCGGAAGCACCGGTACGCGGCACACCGTTAATTTTGTGCGCA -TTCATAAAATTCAGCACACGGGATACTTGCTCTGTGGAACCGAGTTTTACGACCGCTGCCGGAATCGGCA -AAGTATAAATGCCATGAATATCCGGAAATTTACGAAAACGGTCAATACTGTTTTTCTTTAATACTGTTTC -ATCGGTAATTACGCGATCTGCACCAACAATTTCCTTTAGCTGGTCGACAATCGCTGCGCGAGATAAAGAC -ATAGTAATTCCTTCCTGATAATAAAAATGGAATAATCATTAATAAGAGAAAACAGAAACCACCGTTATGG -GTTAGCGCACTAAATAACCGCCATCAACCACTAATAAATGCCCGTTGACATAATTCGATGCCGGACTTGC -GAGGAATACGGCTGCGCCCATTAAATCCTGAGTATCGCCCCAACGGTTTGCCGGAATATGATCAAGAACG -CGCTGATTGGTTTCTGGATTACTGCGTGTCGCCAGCGTAATATCTGTTGCATAATAGCCAGGGGCGATAC -CATTTACCTGAATATTATATTGACCTAGTTCATCACAATAAGCTTTGGTGAACCCGGCAAGAGCATGTTT -AGTGGCAGAATATGCAGGTGACCATTGTCCACCTAAGTAAGAGAACAATGAACAGATATTAATAATTTTG -CCGCTTTTCTGCGGGATCATAATTTTTGCAGCTTCATAGCTTAACTCGAATGCGGCGGTCAGGTTCACAT -CAATCATCGGATCCCAGTCGGCACGACCGAAGTCCAGCACCTTATTCAGCTTACAAATACCGGCATTGTT -AACCAGAATATCAACTGTACCGAAACGCTCACAGCAAGCAGCGATAATCTTCTGCGGCGCGCCTTCTGCG -GTGATACCCACCTGCATGAAGTCCACCTCAACACCCTGTTTTTCAATCATTTCCTTTGTTTCGCCGTTAT -CTTTGACGAAACTAGGAATAAAGATATTTGCGCCAGCTTTGGCCAACGCCATGGCAAATGCCTGGCCTAA -ACCGCTATTCCCACCGGTAACAATTGCGGTTTTACCTTTCAGGGAGAAAAAATCCATTGAGAACGCATTG -AGAGATTCGATTGACATAGTTAGCTCCAATTTCCGTAAGGCAAAAAAAAAGAAAGGTAACTTCCCCCGCG -AGAGGGAAGTTACCTTTCTCATTATCTCTGGTAACTGGAGATAATTTTTAGCATAAGGGCATAACTGCTA -ATGTGATCGTAATCACAGTGTGATATTCGTATTGTCAAATAATTTTAAAAAGCAGAAGCGTGATTACTCT -CACACAACACCTCTGCTTTCCATGTTATTTATTATTTCAATTACTAGAGACCTGAGAAAAGTAATCCACC -TGAAAGGGCGGCTTACTTTTCTCTTTTTTTTGTCTATTACAAATGGGAATACGATATGCAACACAACTCA -TATCGCCGTTGGATAACCCTCGCGATAATTAGTTTTAGCGGCGGCGTTAGTTTCGACCTGGCTTATTTAC -GTTATATTTATCAAATTCCCATGGCGAAATTTATGGGATTCAGCAATACCGAGATAGGTTTAATAATGAG -TACCTTTGGTATTGCGGCCATTATTCTTTATGCCCCCAGCGGCGTTATTGCCGATAAATTTTCACACCGC -AAAATGATTACTTCCGCGATGATCATTACCGGATTACTGGGTCTGTTAATGGCAACGTATCCACCGCTGT -GGGTAATGCTCTGTATTCAGATCGCCTTTGCGATAACGACGATTTTAATGCTGTGGTCGGTGTCGATTAA -AGCTGCATCGTTGCTTGGCGATCATAGCGAGCAAGGGAAAATTATGGGCTGGATGGAAGGGCTGCGCGGC -GTCGGTGTAATGTCGCTGGCGGTGTTTACCATGTGGGTCTTTTCTCGCTTTGCACCGGATGACAGCACCA -GCCTGAAAACGGTCATTATCATCTATAGTGTGGTTTACATCTTGTTGGGGATTCTGTGCTGGTTTTTTGT -TAGCGATAACAACAACCTGCGCAGTGCCAATAACGAAGAAAAACAGTCATTCCAGCTTAGCGACATCCTG -GCCGTTTTGCGTATCAGCACCACCTGGTATTGCAGCATGGTGATTTTTGGCGTCTTCACCATCTACGCCA -TTCTGAGTTACTCCACCAACTATCTGACCGAAATGTATGGCATGTCGCTGGTGGCGGCGAGCTACATGGG -GATTGTGATCAACAAAATATTCCGCGCGCTGTGCGGCCCACTTGGCGGCATAATCACCACCTACAGCAAA -GTGAAATCCCCTACCCGCGTGATCCAAATCCTTTCCGTACTCGGCCTGCTGACGTTAACTGCCCTGCTCG -TCACGAACTCTAACCCGCAATCGGTCGCGATGGGGATTGGCCTGATTTTACTGCTGGGATTCACCTGTTA -CGCCTCACGCGGGCTGTACTGGGCCTGCCCTGGCGAAGCGAGAACACCGTCTTACATTATGGGCACCACG -GTAGGTATTTGTTCGGTGATTGGATTCCTGCCGGATGTCTTCGTTTACCCAATTATCGGCCACTGGCAAG -ACACCCTGCCCGCTGCAGAAGCCTACCGCAATATGTGGCTGATGGGCATGGCGGCGCTTGGCATGGTGAT -TGTCTTTACCTTTTTGCTGTTCCAAAAAATTCGTACTGCTGATAGCGCCCCCGCAATGGCTAGCAGCAAG -TAAGCCAGGAAAATTACAGGAGAAAAATCATGTCGAAAAAATACATCATAGGGATTGATGGCGGAAGTCA -GAGCACAAAAGTGGTGATGTACGATCTGGAAGGTAACGTGGTTTGCGAAGGCAAAGGCTTATTACAGCCG -ATGCACACGCCAGATGCCGATACTGCAGAACATCCTGACGACGATTTATGGGCATCATTATGTTTTGCCG -GTCACGATTTGATGAGTCAGTTTGCCGGGAATAAAGAAGATATTGTCGGTATTGGTCTGGGATCCATCCG -TTGCTGCCGTGCGTTATTGAAAGCCGATGGCACGCCTGCTGCGCCGTTGATTAGCTGGCAGGATGCACGC -GTTACACGCCCTTACGAACACACTAACCCTGACGTGGCATATGTCACCTCTTTTTCGGGTTATCTGACGC -ATCGCTTAACCGGCGAGTTTAAAGACAATATCGCCAACTATTTTGGTCAGTGGCCGGTGGATTATAAGAG -CTGGGCATGGAGCGAAGATGCTGCGGTAATGGATAAGTTTAATATCCCCCGTCATATGCTGTTTGATGTG -CAAATGCCTGGCACCGTCCTCGGACATATCACACCACAAGCCGCACTGGCGACACATTTCCCGGCAGGAC -TGCCGGTTGTTTGTACCACCAGTGATAAACCGGTAGAAGCTCTGGGGGCCGGATTACTGGATGATGAAAC -GGCGGTAATTTCTCTTGGCACTTACATCGCATTGATGATGAACGGCAAAGCACTGCCGAAAGATCCAGTA -GCGTACTGGCCGATTATGTCTTCTATTCCGCAAACATTGCTGTATGAAGGTTACGGTATTCGCAAAGGCA -TGTGGACGGTGAGCTGGCTGCGCGACATGCTAGGCGAGTCGTTAATTCAGGATGCCAGGGCGCAGGATCT -TTCACCGGAAGATTTACTCAACAAAAAAGCTTCTTGTGTGCCGCCAGGCTGTAATGGTCTGATGACGGTG -CTGGACTGGCTGACCAATCCGTGGGAACCGTACAAACGCGGGATTATGATCGGCTTTGATTCCAGCATGG -ATTACGCATGGATATATCGTTCGATACTGGAAAGCGTGGCGCTGACGCTGAAGAACAATTACGACAATAT -GTGTAATGAAATGAATCACTTTGCGAAGCATGTGATCATTACTGGCGGCGGTTCGAACAGCGATCTGTTT -ATGCAGATTTTTGCCGACGTGTTCAACCTTCCGGCACGACGTAACGCCATTAACGGTTGTGCAAGCCTGG -GGGCAGCGATTAATACAGCGGTAGGTCTGGGGCTATACCCGGATTACGCAACGGCTGTCGATAACATGGT -TCGCGTGAAAGATATCTTTATACCGATTGAGAGCAATGCCAAACGCTACGACGCGATGAATAAAGGCATT -TTCAAAGACCTAACCAAACATACTGATGTGATCCTGAAAAAATCGTATGAAGTGATGCATGGGGAATTGG -GGAATGTGGATTCGATCCAGAGCTGGTCGAATGCGTAAGTGAGGAAGGCCGGGCGGGAAACTGCCCGGCC -TGAACATACCTGAATGGTTATCCCCGCTGACGCGGGGAACATAAGTTCGACAACTTAAAAAATGATAACA -AGTCCGGTTTATCCCCGCTGATGCAGGGAACATAATAAAAACTTTAACTAGTTCGGTTTATCCCTGTTTT -TACAAGGAATATTAACTACACTCGATGTCTTTAGAATAAAAGACAATACGAATCGCACTTTATCAATTTT -CACTTAAAGTATGAACTGGATATCTTTATTCATAAGAACTATTCATCAACAGCGTATAGAGGCGGTTATG -TAAAACCACTCATTAGCCTCAAAACAAAGACAAACTTCCAGATTTATTACTTAACCAATGAATAACAAGC -TTAAAAAATATACTGTTATTCTAAAGAAAAAATTAACAGGCATTAATTCAATATTAAAAAAATAATAGAT -TAAAATTTCTTAACGATTTAAGAATCATACAAATAACACTTTGATTAAATTTAATTTTTTGTATCGATAA -TTGTGAACCTCTCTGGCATGGAGAACTATTTTGAACATGAGGTGTTACGTGGATATGTTGCTTATTACAA -GTACTGCTAATATAAAAACTTGAGAAAGAGATAACGGGTTATATGGTGGTTTATCCCCGCTGGCGCGGGG -AACTCGACAGAACGGCCTCAGTAGTCTCGTCAGGCTCCGGTTTATCCCCGCTGGCGCGGGGAACACCTGT -TTTCGCAAATCTATGGACTATTGCTATTCGGTTTATCCCCGCTGGCGCGGGGAACACGGGCGCACGGAAT -ACAAAGCCGTGTATCTGCTCGGTTTATCCCCGCTGGCGCGGGGAACACTGGCTCTGCAACAGCAGCACCC -ATGACCACGTCGGTTTATCCCCGCTGGCGCGGGGAACACGAAATGCTGGTGAGCGTTAATGCCGCAAACA -CAGGTTTATCCCCGCTGGCGCGGGGAACACATTACGCCTTTTTGCGATTGCCCGGTTTTTGCCGGTTTAT -CCCCGCTGGCGCGGGGAACACTCTAAACATAACCTATTATTAATTAATGATTTTTTAAGCCAGTCACAAT -CTACCAACTTTATAGTATCACACAAACAACACATCCATTATGTTAAAGAGCACTTAATCCATTGATTAAA -AAGGTAAATATTTAAAATAACTCTATACAAACTAAAATCTACCAAACTTTACCGCAATAATTTTCACTCC -AGCGAAAAATTAATGCCACAGAATTTGTAGAGAATGCTAATGATTAGCCCTGGATGGGTAAAATGGAGGA -GTTTTCAGAGGCGACAAACAATATAAATGAGTAGAAGTCTTTACAGGTTCCACCCATTTATAACGCTTAT -AAATGTTTAATCAGGCAATATTTAGATATTTATGTGTTTGCATCGACAAACGCCAATTACGCGCAATGCA -GGTTTCAATGCACAAACGTGTGGCATCATCCTTTTGGCTAATCGGCTGCAGTGCAATGACTCGCGGTTTA -TCATCGGTCAGCGTTGCCAGTAGTTCATCCAGTGCTTCAATATCGCGTACGCGCCCCACTGGATGCTTGA -TTTCGTTGGCTCGCTCCAGTGCCTGTGACAACACTTCATAGCCGCCGCGCATGTTCAGCTTTGGCGATAC -GGTAACCCAGGTATTCGGTGTGCAGCGTACCTCATGAGTACCACTGGTTTCGATCTGGCAGCTAAAACCG -TTCTTTTCGAGCAGATCAGTCAGTGGCAGCAAATCATGAATGCAAGGCTCACCACCCGTAATCACCACAT -GCCGCGCGGTGTATCCCTGGCGACCAATGACAGCCAGCAAATCTTCACTGCTCGCAGCCCCCCACTTATC -ACTCTCTTTGGTCTTCGCCAGAATGCTGAAAAGGGAGACTTCCCGATCCTCAAGCTTTTCCCAGGTGTGT -TTGGTGTCGCACCAGGCACAGCCAACCGGGCATCCCTGTAAACGAATAAAAATGGCGGGAACGCCGGTAA -AGTAACCCTCACCTTGCAGGGTCTGGAACATCTCGTTAATCGGGTACTGCATAGCATTCTCTGTGAAGTG -GATAATTGTTAATTATTGCAGATCCTGCCACAACAATCATGTCTTATTAACATTCTGTTACAGGCAGGTT -TAAAGAAAAATGCGAAACATATCGTTAATAATTAAAGGGAGTAACGTATTATGTCAGAAGAAAATAAAGA -AAATGGATTTAATCATGTCAAAACATTCACCAAAATTATATTTATTTTTTCTGTATTAGTTTTTAATGAT -AACGAATATAAAATTACCGATGCCGCCGTCAATTTATTTATCCAGATTTAATGAGAAATTTATAATGCGC -TATTTCATACTAATGTTCACTTTCGTATGTTCCTTTGTTGCAGCCCAACCAACTATTGTCCCACAATTAC -AGCAACAAGTTACGGATCTTACGAGTAGCTTAAACTCATAAGAAAAGAAAGAACTGACGCACAAGTTAGA -ATCTATTTTCAATAATACCCAAGTGCAAATTGCCGTATTAATTGTTCCCACAACCAAAGACGAGACAATT -GAACAATATGCTACAAGAGTTTTTGACAATTGGCGTTTAGGAGATGCCAAACGTAATGATGGGATACTGA -TCGTTGTTGCCTGGTCGGATCGCACTGTCCGCATCCAGGTAGGTTATGGGCTGGAAGAAAAGGTAACCGA -TGCTCTGGCTGGAGATATCATCCGTAGCAACATGATACCCGCATTTAAACAACAAAAATTAGCTAAGGGA -TTAGAGCTAGCTATAAACGCTTTGAATAACCAACTCACTTCACAACACCAATATCCGACTAATCCTTCAG -AAAGTGAATCAGCGTCTTCCAGTGATCATTATTACTTTGCTATTTTTTGGGTATTTGCAGTGATGTTCTT -CCCTTTCTGGTTTTTTCATCAAGGCAGTAATTTTTGTCGCGCATGTAAAAGTGGAGTCTGTATTTCAGCA -ATCTATCTTTTAGATTTATTCCTGTTCTCCGATAAAATTTTTTCCATTGCTGTATTTTCCTTCTTTTTTA -CTTTCACCATATTTATGGTCTTTACCTGTTTATGTGTACTTCAGAAAAGAGCATCTGGTAGAAGTTATCA -TTCAGACAACAGCGGTTCCGCTGGAGGCTCAGATAGCGGCGGATTTAGCGGCGGGGGCGGTTCTTCTGGA -GGTGGCGGCGCATCCGGCCGCTGGTAACTCAACCATAAAAAATGCCAGCCCGGAGGCTGGCATTTTTAAA -TCAGATAAAGTCAGTCTTATGCCTGGCCTTTGATCTCTTTACGACCGTTGTACGGTGCTTTTTCGCCCAG -AGCTTCTTCGATACGAATCAGCTGGTTGTATTTAGCAACACGGTCAGAACGGCTCATAGAACCAGTTTTG -ATCTGGCCTGCAGCAGTACCAACAGCCAGGTCAGCGATGGTAGCGTCTTCAGTTTCGCCAGAACGGTGAG -AGATAACTGCAGTGTAGCCAGCATCTTTCGCCATCTTGATTGCAGCCAGAGTTTCGGTCAGAGAACCGAT -CTGGTTGAATTTGATCAGGATGGAGTTAGCGATACCTTTTTCGATACCTTCTTTCAGGATCTTGGTGTTG -GTTACGAACAGGTCGTCACCAACCAGCTGGATTTTGTCGCCCAGAACTTTGGTCTGGTATGCGAAACCGT -CCCAGTCAGATTCGTCCAGACCGTCTTCGATAGAAACGATCGGGTACTGTTTGGTCAGTTCTTCCAGGAA -GTGAGTGAATTCTTCAGAGGTGAACGCTTTGTTGCCTTCGCCAGCCAGAACGTATTTACCATCTTTGTAG -AATTCAGAAGCTGCGCAGTCCATCGCCAAAGTGATGTCTTTGCCCAGTTCATAACCAGCAGCTTTAACAG -CTTCAGCGATAACAGCCAGAGCTTCAGCGTTGGAACCCAGGTTCGGCGCATAGCCACCTTCGTCACCAAC -AGCAGTGTTCATGCCTTTCGCTTTCAGAACTTTTGCCAGGTGATGGAAAACTTCAGAACCCATGCGGATG -GCTTCTTTCACAGTTTTCGCGCCAACCGGCTGAATCATGAATTCCTGGATATCAACGTTGTTGTCAGCGT -GCTCACCACCGTTGATGATGTTCATCATCGGAACCGGCATAGAGTATTTGCCCGGAGTACCGTTCAGTTC -AGCGATGTGCTCGTACAGCGGCATACCTTTAGCAGCTGCAGCAGCTTTGGCGTTAGCCAGAGATACAGCC -AGGATTGCGTTCGCGCCGAATTTGGATTTGTTTTCGGTGCCGTCCAGGTCGATCATGATCTTGTCAATGC -CAGCCTGATCTTTAGCATCTTTGCCAATCAGCGCCTGAGCGATCGGGCCGTTTACCGCAGCAACAGCTTT -GGTTACGCCTTTACCCAGGAAACGGGATTTGTCGCCATCGCGCAGTTCCAGAGCTTCACGGGAACCAGTA -GAAGCACCTGACGGAGCAGCTGCCATACCGACGAAACCACCCTCCAGATGTACTTCGGCTTCAACAGTCG -GGTTACCACGGGAGTCGATGATTTCACGACCGATGATTTTTACGATTTTGGACATTAGGTTTTCCTCAAG -TCACTAGTTAAACTGAAACTCCAGACAAACAACGCGTACCCAGGGTACGCGTTGCCGCTCTAACTTTTTT -ACTTACTTCGCCTGACGTTTCTGGAACTCGCTGGCGGCTTTCACAAAGCCTGCAAACAGCGGGTGACCAT -CACGTGGAGTAGAAGTAAACTCCGGATGGAACTGGCAAGCCACGAACCACGGGTGATTCGGAACTTCGAT -GATCTCGACCAACTGATCATCCCCGGAACGGCCCGCAACGCGCAGACCTGCATCTTCAATCTGTTTCAAC -AGCATGTTGTTGACTTCGTAACGGTGACGATGACGCTCAACAATTGTCGGCGCATTGTACAGCTGGCGAA -CCAGGCTATCGTCAACCAACTGGCACTGCTGTGCGCCGAGACGCATGGTACCGCCGAGATCGCTCTTCTC -GCTACGAACTTCAACGTTGCCGTTTTCATCGCGCCACTCGGTAATCAGCGCCACAACCGGGTACTTACAG -TCTGGCACAAATTCCGTAGAGTTGGCGTTCTCCATGTTGGCAACATGGCGAGCGTAATCAATTAACGCCA -CCTGCATACCCAGGCAAATGCCCAGATAAGGAATATTGTTCTCACGCGCAAAACGCGCGGTCGTAATCAT -GCCTTCTACGCCACGATAGCCGAAACCGCCAGGTACGAGGATTGCGTCCAGACCTTTAAGGATTTCAACG -CCGCGCGTTTCAACATCTTGTGAATCGATCAGTTTGATGTTGACGCTGACACGATTCTTCAGCCCACCGT -GTTTCAGTGCTTCGATCACTGATTTATAAGCATCCGGCAGTTCAATGTACTTGCCGACCATACCGATGGT -GACTTCACTTACCGGGTTCGCTTCTTCGAAGATAACCTGTTCCCATTCGGACAGATTCGCTTCCGGGCAG -TTTAAGCTGAATCGTTTACAAATATAATCGTCCAGCCCCTGAGATTTCAACAGGCCCGGAATTTTATAGA -TGGAATCGACGTCTTTCAGAGAAATAACCGCTTTTTCCGGAACATTACAGAACAATGCAATCTTCGCACG -TTCGTTCGCCGGAACAGCGCGATCTGAACGACAAATCAGGATGTCAGGCTGGATACCGATGGAGAGCAGC -TCTTTTACAGAGTGCTGAGTCGGTTTGGTTTTGACTTCACCAGACGCTGCCATGTACGGCACCAGCGTCA -GGTGCATAAACAGAGTGTGCTCACGGCCAATTTCAACAGCCATCTGGCGAATCGCTTCGAGGAACGGCAA -GGATTCGATATCACCTACTGTACCGCCGATTTCTACCAGTACTACGTCATGACCTTCGCCACCTTCCAGC -ACGCGCTCTTTGATTGCGTTAGTGATGTGCGGAATAACCTGCACGGTTGCGCCGAGGTAGTCACCGCGGC -GTTCTTTACGCAGAACGTCAGAGTAGATACGACCCGTGGTGAAGTTGTTGCGGCGGCTCATTTTGGTACG -AATGAAACGCTCGTAGTGCCCCAGGTCCAGGTCGGTTTCAGCGCCGTCTTCAGTAACGAACACTTCCCCG -TGTTGGATTGGGCTCATAGTACCTGGATCGACGTTGATGTACGGATCCAGTTTCATGATGGTCACATTGA -GGCCACGGGCTTCAAGAATGGCTGCGAGGGAGGCTGCGGCAATGCCTTTACCCAGAGAGGATACGACCCC -GCCGGTCACAAAAATATAGTTCGTTGTCATGCTGAACCTGAGAAGTTAGGTTGAAAAGACGATGGAATAA -CCAAGACGGGAAAGCAGTATACCCGAACATGACCTGTGCCACAAACTTTCATTATCCCTCCTCTTCGCCA -GCGCACTATTGAAATCAGGAGTGAGAAAATAGCCCCTTTGGGGTAAATGTTTTTGACGCAAATCAAGCGC -TTGTCATTTAAAAAATGACACAAATGGCGCTTGACCGCGTAATTCCCTTAGAGATCAATTTCCTGCCGTT -TTACCTGTTGCCAGACTTCTTCCATTGTTTCGAGGTCAACACCTGTCATTTCCAGTCCACGCGCGGCAAC -AATACGCTCCACTTCGCGAAAACGACGCTCGAATTTTTCGTTCGCTTTTTGCAATGCGATTTCTGCTTTC -GTCCCTAAATGGCGAGCCAGATTAACCGTGGCAAACAGCAGGTCCCCCATTTCCTCCTCCAGTTTAGCCT -GGTCGACAACAGCCTGCCGCGCTTCGTACATCACCTCGTCGATCTCTTCGTAGACTTTATCGACTACCGG -ACCAAGCGTCGTCCAATCGAAGCCAACGTTGGCGCAACGTTTCTGGATTTTTTGCGCACGCATTAAAGCC -GGTAAACTACGAGGAATATCGTCCAGCGCCGAATGCTGCGCTTTCTGCGCGCGCTCTTCGGTTTTGATTT -GCTCCCAACGGGCAAGCACTTCACTACTGTTTTCGGCAGAACTATCAGCAAAAACATGCGGATGGCGACG -CTCTAATTTATCGCTAATAGCAGCGCAAATATCATTAAAGTCAAAGCGCCCTTCTTCCTGAGCCATTTGC -GCGTAAAACACCACCTGGAATAGCAGATCGCCCAGTTCACCGCGAAGATCGTCAAAATCTTCACGGGCGA -TGGCGTCCAGCACTTCGTAGGTTTCTTCAAGGGTGTAAGGCGCAATGGTGGCAAATGTCTGCTCTTTATC -CCACGGGCAGCCGTTTTCCGGATCGCGCAGGCGCTGCATAATAGTGAGCAAACGGTCGATTTGATTCATT -GAATTGTCCTGAAAATTGCGGGTCTGTCAGGTGGAAACCTGTGACCAGAATAGAAGTGAGTTAGTAACAC -TACCCAATCAGTACGTTAATTTTGGCTTTAATGAGTTGTAATTCCTCTGGGGCAACTGTTCCTTTCTTCG -TTGCTCCTCTTGCCCGCCAGGCGATACTTTTTACCTGATCAGCTAACGCTACGCCATCACGTTCCTGACC -GGATAAAACAACTTCGAACGGATATCCTTTTGATTGCGTTGTACAAGGAACACACAGACACATACCTGTT -TTGTTGTTGTACATGAAAGGACTCAGGACAACAGCTGGACGATGTCCAGCTTGCTCGCTACCTTTTGTCG -GGTCAAAATCAACCCAAATCAGATCGCCCATATCGGGTACGTATCGGCTTACCATTACCAGACTTCCTTA -TCTTTCGGCTCTCCCCAGTCGATATTCTCGTGGAGGTTTTCCGGCGTGATGTCGTTGACCAGTTCAGCAA -GCGTAAATACGGGCTCTTTACGCACTGGCTCAATAATTAATTTGCCATCCACCAGGTCAATCTTCACTTC -ATCATCAATATTCAGATTGAGCGCCTGCATTAACGTAGCCGGGATCCGCACCGCCGGTGAATTTCCCCAA -CGCTTTACGCTACTGTGGATCATAACCCTTTCCTCAAACCGCTATCATATGTAGATACAGTATATATCAA -TCTACATTGTAGATACGAGCAAATTTCGGCCTAACTCCCGTGCAACCGACGCGCGTCGATAACATCCGGC -ACCTGGTTGAGTTTACCCAGCACGCGCCCCAGCACTTGCAGGTTGTAAATCTCAATGGTCATGTCGATGG -TCGCCAGTTGCTGTTTGGTGTCGCTACGGCTGGCAACGCCAAGCACGTTCACCTTCTCGTTGGCGAGAAT -GGTCGTGATATCACGTAACAACCCACTACGATCATTAGCTACCACGCGGACCACCAGCGAATATCCGGCG -GAGTAGCTCTCACCCCATACCGCGTCAACAATGCGTTCTGGCGCATGGGAGCGCAGTTCCGCCAGTTGTT -CGCAATCGGCGCGGTGTACTGAAATACCGCGCCCCTGGGTAATGAAGCCGACAATCTCATCTCCAGGAAT -CGGCTGGCAGCAGCGCGCGATGTGGTGCATCAGGTTGCCAACACCTTCGACTACCACGCGACCGTTATCT -TTACTGCGGTTTTGCGGCGTGTAGCTTTTTTGCTGAAGTTGCTTCAGCGCGGCGGCGTCCTGCTCTTCGG -CACTCGGCTTATTAAATTGCGATTGCAGGAAGTTCACCATCTGATTGAGACGGATATCCCCGCCACCAAT -CGCCGCCAGCAACTCGTCGACATCATTGAAGTTGTAACGCGGCAGCAGATGTTTTTCTGCTTCTTTCAGG -CTGATCCCCAGATGTTCCAGCTCGTCGTCAAGGATTTGCCGCCCAGCCAGAATGTTTTTGTCACGGTCCT -GTTTACGGAACCAGGCGTGAATTTTCGAACGCCCACGGCTGGTTGTGACGTAACCGAGGTTTGGGTTTAA -CCAGTCACGGCTGGGGTTCGGCTGTTTCTGGGTGATAATTTCAATCTGGTCGCCCATCTGCAGCTGGTAG -GTGAACGGCACAATGCGCCCGCCAATTTTTGCCCCGATGCAGCGGTGTCCGACATCACTGTGGATGTGGT -AAGCGAAGTCCAGCGGCGTTGATCCCGCAGGCAAATCAACGACATCACCTTTCGGCGTAAAGACGTACAC -CCGGTCGTCAAAGACCTGACTACGTACTTCGTCGAGCATTTCGCCGGAATCAGCCATCTCTTCCTGCCAC -GCAATCAGTTTACGCAGCCAGGCAATCCGGTCTTCATGTCCCGAACGTGCGCCGCCAGCAGCCGCGCCCT -CTTTATATTTCCAGTGCGCAGCAACACCCAACTCTGCATCTTCATGCATCTGTTTGGTGCGGATTTGGAT -CTCAACGGTTTTTCCACCCGGCCCCAGAACCACGGTATGAATAGACTGATAACCGTTTGGTTTCGGGTTA -GCGACGTAATCGTCAAACTCATCCGGCAGGTGGCGATAGTGAGTGTGCACTATCCCCAGTGCGGCATAGC -AATCCTGTAAACGCTCGGCGACAATACGTACCGCACGCACATCAAACAGCTCATCAAAGGCGAGGTTCTT -TTTCTGCATTTTACGCCAGATGCTGTAGATGTGTTTCGGACGACCATACACTTCCGCTTTAACGCCTTCA -GCTTTCATCTCAGCGCGCAGATGACCAACGAACTCTTCGATGTAGTGTTCGCGGTCGAGACGCCGTTCAT -GCAGCAGTTTGGCAATTCGTTTGTATTCGGTTGGATGGAGGTAACGGAAGCAGTAATCTTCCAGTTCCCA -TTTCAGTTGTCCGATTCCGAGACGGTTAGCCAGCGGTGCGTAGATGTTGGTACACTCTTTTGCCGCCAGT -ACACGTTCATCTTCCGGCGCATCTTTTACTTCGCGCAGATGAGCAATACGCTCCGCCAGTTTGATGACTA -CGCAGCGAAAATCATCGACCATCGCCAATAACATCCGGCGAACGTTATCGACCTGTTCGGAGGAAACAGA -ATCAGTGTGCGTCGCTTTCAGCTGGCGGATCGCCGCCATATCACGCACGCCGTGAATAAGGTTAACGACC -GACTTACCGACGCTCTCACGCAGCACATCTTCGCTGACTACGTTGGCATCTGGATTTGCCCCTATATTTC -CAGACATCTGTTATCACTTAACCCATTACAAGCCCGCTGCCGCAGATATTCCCGTGGCGAGCGATAACCC -AGCGCACTATGCGGATGCCATTCGTTATAATGCTCGAACGCCTCTGCAAGGTTCTTTGCTGCCGTTAACC -CGTCTGGTTTGGGCATGATACTGATGTAGTCACGCTTTATCGTTTTCACGAAGCTCTCTGCTATTCCGTT -ACTCTCCGGACTCCGCACCGCCGTGTTCTTCGGTTCAAGTCCCAACATCCGGGCGAACTGGCGTGTTTCA -TTAGCCCGGTAGCATGAACCATTATCCGTCAGCCACTCCACTGGAGACGACGGAAGATCGTTGCCGAAGC -GGCGTTCCACCGCTCCCAGCATGACGTCCTGTACTGTTTCACTGTTGAAGCCGCCGGTAGTGACCGCCCA -GTGCAGTGCCTCACGATCACAGCAGTCCAGCGCGAACGTGACACGCAGTCTCTCTCCGTTATCACAGCAG -AACTCGAACCCGTCAGAGCACCATCGCTGATTGCTTTCTTTCACGGCCACTCTGCCTGTATGTGCCCGTT -TCGATGGCGGTACAGCAGGTTTTCGCTCAAGCAACAGCGCATTCTGGCGCATGATCCGGTAAACACGTTT -GGCATTGATCGCAGGCATACCATCAAGTTCTGCCTGTCTGCGAAGCAGCGCCCATACCCGACGATAACCA -TACGTTGGCAGCTCTCCGATAACATGGTGTATACGGAGAAGCACATCCGTATCATCAGTGTGACGACTGC -GGCGGCCATCCATCCAGTCATCGGTTCGTCTGAGAATGACGTGCAACTGCGCACGCGACACCCGGAGACA -ACGGCTGACTAAGCTTACTCCCCATCCCCGGGCAATAAGGGCGCGTGCGCTATCCACTTTTTTGCCCGTC -CATATTCAACGGCTTCTTTGAGGAGTTCATTTTCCATCGTTTTCTTGCCGAGCAGGCGCTGGAGTTCTTT -AATCTGCTTCATGGCGGCAGCAAGTTCAGAGGCAGGAACAACCTGTTCTCCGGCGGCGACAGCAGTAAGA -CTTCCTTCCTGGTATTGCTTACGCCAGAGAAATAACTGGCTGGCTGCTACACCATGTTGCCGGGCAACGA -GGGAGACCGTCATCCCCGGTTCAAAGCTCTGCTGAACAATTGCGATCTTTTCCTGTGTGGTACGCCGTCT -GCGTTTCTCCGGCCCTAAGACATCAATCATCTGTTCTCCAATGACTAGTCTAAAAACTAGTATTAAGACT -ATCACTTATTTAAGTGATATTGGTTGTCTGGAGATTCAGGGGGCCAGTCTAGCATCCGCCAGAGGGAAAA -GCAGCGCCGCCCGCAGCGTGTCAATGTCCATACTTAATGTCGAGAGGATCTCCACCATCTCAACACCACG -CCACAATAACAGACTGGCATCCGGATGCCCCTGCGTCTGTTGCAGACAATACGCCCAGGTTTCGGCTAAG -CACTCACACGACTTCTGGCTGGTAATACCCAGACTTGCGATCCATTTTTCCGGATCAAATTCACCAGCCT -TATTGATATGTGCACTTCTTACCGCAACCATCGTCCTCTCCTTTAGGGACCAGACCTGCCGAAATCGGCA -AATCGCAACTATTTAACGCGCGAGAAAAGTACCATCGATTCCAGATGTCCCGTGTGTGGGAACATATCCA -GCATCGCCAGTCGCGCAATGGTATATCCTGCTTTTAATAACGCTTCGCTATCCCGAGCCAGCGTTGCAGG -GTTACAGGATACATAAACTATACGAATAGGTTCCAGTTTTATAATTTGCTGCATAACACCTGCGGCACCT -GCTCGCGCCGGGTCCAGCAACACTTTATCGAAGCCGTTTTTCGCCCACGGCTGCTTTGTGACATCTTCTT -CAAGATTTTCGTGATAAAACGTCACATTCTGTAAGCCATTAAGACGCGCATTCTGCTGGCCTTTTTCCAC -CAGCGCCGGAACACCTTCTACACCGACCACACTGGCAGCTTGTGTCGCCAATGGCAGTGTAAAGTTGCCC -ATACCGCAGAACAGATCCAGTACGCGATCTTCAGGTTGCACATCCAGCCATTCCAACGCACGCGCTACCA -TTTTTTGGTTCACACCCGCATTGACCTGAATAAAATCGCGCGGGCTAAAAGTTAAGCGCAACCCGTTTGA -GTCATACCAGGGCATCTCACCAGAGACGGTTTCGAGTATCTCACTATCGGGGGCGAGATACAGATCCAGG -CCTTCAGAATGCGAAAAGCGTTCCAGTTTTTCGCGATCTGCCGAACTTAGCGGTGCGGTATGGCGCAAAA -TCATCAGCGTGCCGCTGGTTGCCTGTACCAGTTCAACATGACCAAGATGGCGCATAGCTTGTAAGCTGCC -CAGACATGCCCTGACTTTGGGCAGCAATGCTTCAAGTTGGGGCGCTAAAATGGGGCATTGTTTGACGTCG -ACAATGTCACTGGAGCCCGCTTTGCGAAACCCCATCTGAAGTTGCTGTGTTTTCGGTAAGTAGTTCAGAC -TTAAACGCGCGCGACGGCGATAGCCCCAGGGAACATCGGCGATCACTTCAGAGACATCGTGTTTCATTAA -TCGGGCGAGTGCCGCACTTTTGCTTCGCTGCTGTAAATCCACGCTGGCGTGTTGTTGCTGACAGCCACCG -CATACGCCAAAATGAGGACAGCGTGGCGTTTCGCGTTCCGGGCTATCGCTTAACCGGCGTACGACTTTAG -CGCGGGCATACTGTTTTTTATCTTCAGTAACAGTAACTTCCGCGTTTTCCTGCGGCAATAATCCGGGGAT -AAATAGCGTTTTGCCGTTATGTCGCGCCACGCCCTGACCAAAAGAGTCGAGGTCGTTGACTGAAACGGTT -ATGATCTGACGCGTCGTCGTGCGTCGTTTTGCAGAGTAGAATTGCGCCATTGGCGAGACTTTCTCAATTT -AACAGTGTGACCTTAATTGTCCCATAACGGAACTCCATGACCAACTACAGCCTGCGCGCACGCATGATGA -TTCTGATCCTGGCACCGACCGTCCTTATTGGTTTATTGCTGAGTATCTTTTTCGTCGTGCATCGCTATAA -CGACTTGCAGCGTCAACTGGAAGATGCCGGTGCCAGCATTATTGAGCCGCTTGCAGTTTCTACTGAATAT -GGCATGAGCCTGCAAAATCGCGAATCTATCGGTCAGTTAATAAGCGTACTGCATCGTCGCCATTCCGATA -TTGTTCGCGCGATTTCGGTTTATGATGAAAATAACCGACTCTTTGTCACCTCCAATTTTCATCTTGATCC -CTCATCAATGCAGCTCGGCAGCAACGTGCCGTTTCCTCGCCAGCTCACTGTCACTCGTGACGGCGATATT -ATGATCCTCCGCACGCCGATTATTTCTGAGAGTTACTCCCCCGACGAATCGCCCAGTAGCGATGCCAAAA -ATAGTCAAAATATGTTGGGATATATTGCGCTGGAGCTGGATCTTAAATCGGTTCGCTTGCAGCAATATAA -AGAGATCTTTATTTCCAGCGTGATGATGCTGTTTTGTATCGGTATTGCGCTTATTTTTGGCTGGCGCTTA -ATGCGCGATGTAACCGGTCCGATTCGCAACATGGTGAATACCGTCGACCGCATCCGTCGCGGGCAACTCG -ACAGCCGGGTGGAAGGATTTATGCTCGGCGAGCTGGATATGCTGAAAAACGGTATCAACTCGATGGCAAT -GTCGCTGGCTGCTTATCACGAAGAGATGCAGCACAATATCGACCAGGCGACGTCCGATCTGCGTGAAACG -CTGGAGCAGATGGAAATTCAGAACGTTGAGTTAGATCTGGCGAAAAAGCGCGCCCAGGAAGCGGCGCGTA -TTAAATCCGAGTTTCTGGCAAATATGTCACACGAGCTGCGTACACCACTGAATGGTGTTATTGGCTTTAC -CCGCCTGACGCTGAAAACAGAATTAACACCAACGCAGCGCGATCACCTGAATACGATTGAACGTTCGGCA -AATAATTTGCTGGCAATTATTAATGATGTTCTCGACTTCTCGAAACTGGAAGCAGGTAAGCTGATTCTGG -AAAGTATTCCATTCCCACTACGCAGCACGCTGGATGAAGTCGTTACTCTGCTGGCACATTCTTCTCACGA -TAAAGGGTTAGAACTGACGCTCAATATTAAAAGCGACGTGCCTGATAACGTGATCGGCGACCCGCTGCGA -TTACAGCAAATCATCACTAACCTGGTGGGGAATGCAATTAAATTCACCGAGAATGGCAACATTGATATTC -TGGTAGAAAAACGTGCGCTGAGTAATACCAAAGTGCAGATTGAAGTGCAGATTCGGGATACCGGCATTGG -TATTCCTGAACGCGATCAATCGCGCTTATTCCAGGCCTTCCGACAGGCTGATGCCAGTATTTCCCGCCGT -CATGGTGGCACCGGGCTGGGGCTGGTGATTACACAAAAACTGGTTAATGAAATGGGCGGCGATATTTCGT -TCCATAGCCAGCCGAATCGCGGTTCAACTTTCTGGTTCCACATTAATCTCGATCTGAACCCGAACATTAT -TATCGAAGGGCCATCCACCCAGTGCCTCGCAGGTAAGCGCCTGGCCTATGTCGAACCAAACTCCGCAGCA -GCGCAATGCACGCTGGATATTTTAAGTGAAACGCCGCTGGAAGTGGTTTATAGCCCAACGTTCTCCGCGC -TGCCTCCCGCGCATTACGACATGATGTTGTTAGGCATCGCGGTGACCTTCCGCGAGCCGCTAACAATGCA -ACATGAGCGATTAGCGAAAGCGGTATCGATGACCGATTTCCTGATGCTGGCACTTCCTTGCCATGCACAA -GTCAATGCTGAAAAACTCAAGCAAGATGGTATCGGCGCGTGTCTGCTGAAACCATTAACACCTACACGCC -TGTTGCCTGCCCTGACGGAATTTTGTCATCACAAACAAAACACGCTTTTGCCTGTAACCGATGAAAGTAA -GCTGGCAATGACAGTCATGGCGGTTGATGACAACCCCGCTAACCTGAAACTTATCGGCGCATTGCTGGAA -GATATGGTGCAACATGTGGAACTTTGCGATAGCGGGCATCAGGCGGTTGAACGGGCGAAACAGATGCCGT -TCGATTTGATCTTAATGGATATTCAAATGCCGGACATGGATGGCATTCGGGCCTGCGAACTCATCCACCA -ACTCCCGCATCAGCAACAAACGCCGGTTATCGCGGTAACGGCGCATGCAATGGCCGGGCAAAAAGAGAAG -CTGCTTGGCGCAGGGATGAGCGATTATCTGGCGAAACCGATTGAAGAAGAGCGATTGCATAATTTGTTGT -TGCGCTACAAGCCTGGCAGCGGTATTTCCTCTCGCGTCGTGACGCCCGAAGTCAACGAAATTGTGGTGAA -CCCGAATGCGACCCTCGACTGGCAACTGGCACTACGCCAGGCAGCAGGAAAAACCGATTTAGCGCGCGAT -ATGCTGCAAATGTTACTCGATTTCCTGCCTGAAGTTCGCAACAAAGTTGAGGAACAGCTGGTTGGAGAAA -ACCCGGAAGGCCTGGTTGATTTGATTCATAAACTGCATGGCAGTTGCGGCTATAGCGGTGTGCCACGTAT -GAAGAATCTCTGCCAACTGATCGAACAACAGCTACGTAGCGGTACTAAAGAAGAAGATTTGGAACCGGAG -CTGCTGGAACTGTTGGACGAGATGGATAATGTCGCGCGCGAAGCCAGCAAAATTCTCGGGTAATGGATGT -CTTGTCGAGTAGCAATCGGCTTTTTATGACGCTGGTTTCAGATTGGTGACAAAGTGCCTGTGTTTATGCC -GGATGCGGCGTTAACGCCTTATCCGGCCTACAAAACCAATTAAATTCAATGAATTAAAAAATGATGTAGA -CCTGATACATAGCACAACAGGCTATTTTGCGTTTAGCATCAGTCTCAAACCGGCTCCAGATAGAGCCGGT -TTTGGTTTTCTGTCTTAACGCACCATGCACGGGCGCTTGTTATCGAACGTCCAGCCAGGAATCAGATACT -GCATTCCCATCGCATCGTCACGCGCGCCAAGCCCGTGTTTCTGATACAGCTCATGGGCTTTCATCACTTG -ATCCATATCGATTTCTACACCCAGCCCCGGTTTTTCTGGCACCTGTACCAGCCCGCCTTTGATCTCAAAC -GGTTCTTTGGTCAGGCGCTGATTGCCTTCCTGCCAAATCCAGTGCGTATCAATAGCAGTAATTTTACCCG -GTGCAGCGGCGGCAACATGGGTAAACATCGCCAGGGAAATATCGAAGTGGTTGTTAGAGTGTGAACCCCA -GGTCAGGCCAAATTCATGGCACATTTGCGCCACACGTACCGAACCTTGCATTGTCCAGAAATGCGGATCC -GCCAGCGGGATATCAACGGATTGCAGGGAGAGCGTATGGCCCATTTGCCGCCAGTCGGTGGCGATCATAT -TGGTTGCAGTCGGTAGACCTGTCGCGCGACGGAACTCTGCCATCACTTCACGCCCGGAGAAACCTTGCTC -CGCACCACACGGATCTTCTGCATAAGCCAGCGAACCTTTCAGGTATTTACCGATTTTAATCGCTTCGTTC -AGCGACCAGGCACCGTTAGGATCGAGCGTAATACGCGCCTGCGGGAAGCGTTGCGCCAGTGCCACAATAG -ACTCGGCCTCTTCTTCCCCGGCCAGTACACCGCCCTTCAGTTTGAAATCGTTGAAGCCATATTTTTCATA -TGCCGCTTCCGCCAGGCGCACCACCGCATCCGGCGTCATCGCTTCTTCATGACGCAGGCGATACCAGTCG -CATGAGTCATCCGGCTGGCTTTGATACGGCAGCGGCGTGGCTTTGCGATTACCGACGAAGAACAGATAAC -CGAGCATTTCGACTTCGCTACGCTGTTGACCATCGCCCAGCAGCGATGCCACGTTTACCCCCAGATGCTG -CCCCAGCAGATCCAGCATTGCCGCTTCTATCCCGGTAACTACATGAATAGTGGTACGTAGGTCAAATGTC -TGCAAACCGCGCCCACCAGCATCACGATCGGCAAAAGTATTACGCACCAGCGTCAGAACGTTTTTGTATT -CACCCAGCGTTTTACCTACCACCAGCGGAATCGCATCTTCCAGCGTTTTACGGATTTTCTCGCCGCCGGG -AATTTCCCCTACGCCAGTGTGACCAGAATTATCTTTGATAATCACAATATTACGCGTAAAGAACGGTGCG -TGTGCACCACTCAGATTCATCAGCATACTGTCATGACCCGCCACCGGGATAACCTGCATTTCAGTAACAA -CAGGCGTCGTAAATTGAGAACTCATATTTATGTCCTTTTTCAGAATCAATGACGGCCGAAAACGGGACGT -TTACGGTCAAAGGTCCAGCCGGGGATCAGGTACTGCATCGGACCTGCGTCGTTACGCGCACCGCCAGGCA -GACGTTTATAGGCCTCATGTGCCTTTTGTACCTGTTCCCAGTCCAGTTCCACGCCCAGACCGGGCGCATC -AGGAACGGCAATTTTTCCGTTTTTAATCTCCAGCGGATTTTGGGTCAGGCGACAATCGCCCTCCTGCCAA -ATCCAGTGGGTATCGATAGCGGTAGGATTACCCGGTGCCGCCGCGCCCACATGGGTAAACATCGCCAGAG -AGATATCGAAATGGTTATTAGAATGGCAGCCCCAGGTCAGCCCCCAGTCGTCGCAAAGCTGCGCCACACG -GACTGCACCGGAAAGCGTCCAGAAGTGCGGATCGGCAAGTGGAATATCTACCGCATTGAGCATCACCGCA -TGACCCATTTCGCGCCAGTTGGTGGCGATCATGTTAGTCGCGACGGGCAAGCCGGTCGCCCGTCGAAATT -CCGCCATCACTTCACGTCCGGAGAAGCCCTGTTCTGCGCCGCATGGATCTTCGGCATAGGTAAGAACATC -ATTCAGCCCTTTGCATAAAGAAATGGCTTCATCAAGCAGCCATGCACCGTTGGGATCAACGGTAATCCGC -GCATCCGGGAAGCGTTTCTTCAATGCACGAACAGTGTCGATTTCTTGCTCGCCAGGTAACACGCCGCCCT -TAAGTTTGAAATCTTTAAAGCCGTAGCGATCCTGTGAGGCTTCCGCCAGACGCACAACGGCTTCGCTGTT -CATTGCTTTCTGATGCCGCAACTGATACCACTCATGGTTGCCCGGCGTATTTTCCACATAAGGAAGATCG -GTTTTGGTCCGATCACCGATATAAAACAGATAACCGAGGACGGTAATAGCCTCGCGTTGCTTGCCTGGCC -CTAACAGTTCGCAGACCGGAACATTCAGCGCCTTACCTAGCAGGTCAAGCAAAGCGGCTTCCAGCGCCGC -CACGGCGTTAACGCGTAATTCAAAGGTCCAGGCACCTTTACCGAAGGTATCAAAATCGGCGGCCTGATTA -CCTTTATGCACCTGCTGGACCACTTTATTCAGTCGCGCAACTTCCTGGCCCAGAACCATCGGAATAGCAT -CGACAAGCGTCTGATAAATCACATCTCCGCCCGGCGCTTCACCAATGCCGGTATGCCCGGCGTTATCGGT -GAGTACCACAATATTGCGGGTGAAATATGCGTTATGTGCCCCACCAATATTAAGCAACATGCTGTCATGC -CCGGCCACCGGAATGACTTTCATATCAGTAATAACAGGACTGGATTGTGTCGCCATCTTATTGCCCCGCA -ACAGGTTTCAACTCGATACGCTTGATATCGCCCACCAGCACCAGGTAGCTCAGTACCGCGATTAAGGCAT -GAACACCAACATAAATCAGCGCCCCATTAAACGAGCCAGTCGTGCCAACGATATAACCAATTGCGATTGG -CGTGACGATGCCAGAAATGTTACCGAACATGTTGAACAGGCCACCGGAAAGACCGCTGATCTCTTTTGGC -GCGGTATCTGCCATTACTGCCCAACCCAGCGCCCCGATGCCCTTACCGAAGAAGGCCAGCGCCATAAAGC -CGATGATCATCCACTCAACGTTGACGTAGTTGCAGAACACCATCACCATCGACAGCAACATGCCCATTAC -GATCGGTGTTTTACGCGCAATGTTCAGCGATCCCGTGCGGCGCATCAGCCAGTCGGAAATAATCCCACCC -AGCACACCGCCGATAAAACCGCAAACCGCCGGAACGGAAGCCACAAAGCCCGCTTTCAGAATCGACATCC -CGCGTGCCTGCACCAGATAAACCGGGAACCAGGTAATAAAGAAGTAAGTCAGGGCGTTGATACAGTACTG -ACCGATATAAACGCCGATCATCATCCGTGACCCTAGCAGCTGTTTGATCTGCCCCCACTTCACGCTGAAC -GGCACTTTAACTTTGGTGTTTTGCTGATCCATATTGATCAGCGCACCACCCGCGGCGATGTACTCCAGCT -CTTTCTTATTTACCCCCGGATGTTGATTTGGCTCGTGGATGACTTTCAACCAGATAAAGCTGATGACAAT -CCCCAGACCGCCCATAAAGAAGAAGACGTGTGACCAGCCCACTTCATGCGTCAGCCAGCCCATAATCGGC -GCGAAGATCACCGTTGCGAAGTATTGAGCGGAGTTAAAAATCGACACCGCCGTTCCCCTTTCCTGCGCCG -GAAACCAGGCCGCAACAATGCGACTGTTGCCGGGGAAAGATGGCGCTTCAGCAAGCCCGACCAGGAAGCG -CAGCGTAAACAGGGCAACGATAATGCCGAATCCACTAAAGATATCGACGAAGCCTTGCAGCAAGGTAAAC -ATCGACCAGATAAAGATCGACCAGAAGTAGACGCGTTTTGAACCAAAACGGTCCAGCAACCAGCCACCAG -GGATCTGCCCGATAACATAAGCCCATGAGAAAGCAGAGAACACATAGCCCATTCCCACGGGATCAAGGCC -GATATCTTTGGCCATTTCCGAACCGGCGATAGAGAGCGTAGCGCGGTCGCCGTAGTTGAAGGATGTGACG -ATAAACAACATCACCACTATCCAGTAACGAGCATTTGTGCGTTTTTCCACACTGCTCGCAGCCTGACTTA -AAGAACTCATTGTTGCACTCCTGAAAATTCGCGTTAGCCACGCTCACTCTGGACTGCGACATCGCCAGGA -AATCAGAGGTGACGTAGGGTGTTTTTTGCCGTTTTTATAGGTCGTTCGCCGAATACGGCGCGTGTTTATA -TCTGGCAATAGCAGTATAAAAAGCGCGCCATAGCGGCTCACCGTGCAACAACACAACATTAATGCGTTCA -ATGAGGCCCGATTTTGGCATTAGCCCTGGACGGTGGAATCCACTTCACGGAAATGAAAACAAGAACAAGA -AAGGAAGGGTTAAAACGAAGAAATAAAGAAGAGTATGAAATGGATCGCTTGACTCCAGGCAAACGCCAGT -AAAAATCCGCGCTATGAAGCAGTTTTTACTGGCATTTGCCTGAAAAGATTCGATTCAGCACCGCTAAAAC -GACATTTACCGCTCGCTGAACATATCAGGACAACAGCGTGCCCCACTGTTCGACCCACGGATTTGATTCC -GTTTCCGGTTCCGGGTTCTCACTGGCGTCAATCAACAGCATTTCGCCAACCCGCTGAGCGCTCTGTTCCT -GCAACAAGGCATCGAACTGTTTGCCGCCATTGCAGAAATTCACATAACTACTGTCGCCGAGCGCAATCAC -GCCATAACGCAGATTCGGCTGGAAGCCCAGACTATCTTTGATTCCCTGAAAGAGTGGCACAATGCTATCA -GGAAGGTCGCCCTGCCCGGTCGTGGACGTAACCACCAGAACATACTTATCCTGATAGGGCAGCCAGTCGC -TTAATTCAGGATCTTCAAATACCGTTGCTTTGTGGCCCTGCGCGGTCAGAATCGCTTCCGCTTCTTCGGC -CACTAACAGTGAATTCCCGTACATGGTGCCGACAAAAATACCAATTTCCGCCATACCGTTTTCTCCCTGG -ATTAGGAACTTATCTCTCCATCCTGACCCGATGGCGCACTGAACTCAACCCTTTCATTTTCAGGAAGCAG -ACCGCGCCAGCCAAATTGTGATAACGCCTGCATCCAGGTGTCGTCCAGGCCCGCGTGAATAGTCAGCGGC -TCGCCAGTAAAAGGATGCGTCAATGACAACTGACTGGCATGTAGCATTAACCGCTGGAGGCCAAAATGCT -CAGCACCGCTGCGATTCTGGCGTAAATCGCCATGTTTGCTATCGCCAATAATCGGATGACGCAAATGGGC -AAGATGTCGGCGAAGCTGATGTTTGCGTCCGGTTTTCGGCTCCAGTTCCACCAGGCCGTAGCGCGTGGTC -GGGTAACGTCCGGTCGCTACCGGCATTTCTACGGTCGCCAGACCGCGATAATGCGTCACTGCTGGCTGCG -GGCCTTTATCTTCGCGGGCAAATTTATCAGCGATTTTGTCCAGTTCTTCCACCAGTGGATAATCCAGCAC -CGCTTCTTCCATCAACCAGCCGCGCACAATCGCATGGTAACGTTTCTGGATTTGGTGCTGTTCAAACTGT -TGTGCCAGCAGCCGTCCGGCCTCGCTGGATAATCCCATCAACAACACACCAGAAGTGGGTCGGTCCAGAC -GATGAGCAGTAAAAACATGCTGGCCTATCTGGTCACGCACGGTTTGCATGACCACTACTTTCTCGTCGCG -ATCCAGCCAGCTGCGGTGAACCAGCCAGCCGGAGGGTTTATTTACCGCAACCAGCCATTCATCCTGATAG -AGTATTTCCAGCATTAGCTCGCATCATCCGCAAAAAGAGCATCCAGTTTTTCCAGCTCAGCCAGAATAAG -CGCGCGTTGCGGATGGTCCGTCGCCAGCGCCATTTCATAATAGGGTGCAACGGCAAAAGCGCCCGGTAAC -GGCTGTTTGTTATCTAACAAATCGTGCATTCGCGGGATCAGCACCCACTGCAACCACTCCAGTGGTTCCA -TGGTGTCCATAAAGAACGGTTGGGTACTATTAAATTGATGCGGCTGGGGTTCATCGTTTCGCCAGTGCTG -ATGTTCACGCAGTAACGCTTCAAGCGCCTGCAACTGGAGACGAACGCGGTCATGAGTGGTCATAAAGCAA -CCTCAATAAGAAAAACTGCCGCGAAGGATAGCAGGAATAAAAAAAGGGAGCACTGTATTCACAGCGCTCC -CGGTTCGTTTCGCAGCATTCCAGCTACTTTTGTTGCTCCCTGCTCATCCTTGACAACTTTTCCTCTGGCC -TTGCGGCCAATCGTTCATCCTGAACTATTGCTTCCTGCTCACACCACCCCGATGTGATACTTCATCCTGA -AGTGTCCCTGGCCTTCCTGACCCACCGAATCATCCTGACCGGTTCTCATTCTCCATCCTGGAGGTGTCCT -TTAACGCGTCCTGCGTCATCCTCTTCGCTTCATCCAGAAGCCTTTCCCTGAAACACCATCCTGGTGTGTC -CTGCAGAAGTGTCATCATCCTGATGTTCACTTCGTTGTCTGACTCCCTGTCGACGAAGATAGAATCGTCT -TTTTCGCGAAGTCTTACAAGGCGCTTACAGACAATGCCTTAAGGAAAATTTCATATGAAAGTTAAGAATT -AACAATCAACATTTTGATTTTAAATGAAAATAACGATTCTTATCTTTTTAAGTATTCGCTTATTTCCTGG -CGATCTCCTACAGAGTCTGTAAGAGATCTCTCACAACCAGATGGGGTATTTGGATTACAGAAGAGGCTTA -AGTTGATTAAGGAATTCCGCAAGATTTGAGGCTAAATGCGTCCGTTTACGTGTTCCCAGCGTCTCTTTGC -ACACTTCACCGGAGAGATTACACACCGAGATGACCTCTAACTCTTCTTCCAGCGTCGCGATAAATAGTGT -GGGCGGCAGTTTTAGCCTTTTCTGAGTCACCAGATGACCAATCAGATTTTCCTGCACCCGACGGAAGTCG -TCTTCACTCCAGGTTTGCAGCAATGTCAGTTTGATATCGCCAAACTGCGCGTGCATATCCCCGGCAAACT -GAGTCGTATAAAAGGTATGAATTGTGGGTTGTATCACAATATCAAAAGCGCGTTCAACCGCGTTTACATT -TTGTTCCCCGGTAAACGGCTGGGGTTGCCAGTATACGGCATCTTCGGTAGTTGAAATAATGCACGGTGAA -GGAACACCGTACAGTTCCTCACTTAACGGCCAGCTTTTATGCTCTTCATGCCACGCATCGCAGTAGCGTG -CAGTAAAATCTTTCAGGGCTTGTGCGGTCAAATCGTCCACTAATTTCTCTCTTCACTTAAACCAGATACA -CTTGTCGTTTAGTTTATCTGGTTTATGACGGTGAAACATGTCTTCTTATGCAAACCATCAGGCACTTGCG -GGCCTGACTCTTGGAAAATCAACCGATTACCGGGATACCTATGACGCCAGCCTACTGCAAGGCGTTCCAC -GCAGCCTGAATCGCGACCCGCTGGGTCTGAAAGCGGATAACCTGCCTTTTCACGGTACGGATATCTGGAC -GCTGTATGAACTTTCCTGGCTGAATGCGAAAGGTTTGCCGCAGGTCGCTGTCGGTCATGTTGAACTTGAT -TACACCAGCGTAAATCTGATTGAGTCGAAGAGTTTTAAGCTCTATCTCAACAGTTTTAACCAGACGCGTT -TTAATAACTGGGATGAGGTGCGCCAGACGCTGGAGCGCGACTTAAGCACTTGCGCTCAGGGTAAGATTAG -CGTGGCGTTATATCGTCTTGATGAACTGGAAGGCCAGCCGATAGGTCATTTTAATGGCACTTGCATTGAT -GACCAGGATATCACTATCGATAACTATGAATTCACTACTGACTATCTGGAGAATGCCACCTGTGGTGAAA -AAGTAGTGGAAGAGACGCTTGTCAGCCACCTGCTGAAATCAAACTGCCTGATCACCCATCAACCAGATTG -GGGTTCGCTCCAAATTCAGTATCGTGGACGCCAAATTGACAGAGAAAAACTGCTGCGTTACCTGGTCTCA -TTCCGTCATCACAACGAGTTCCACGAACAGTGCGTGGAACGCATCTTTAATGACCTGTTACGCTTCTGCC -AGCCAGAAAAATTGAGCGTTTACGCACGTTATACCCGTCGTGGCGGTCTGGACATTAACCCGTGGCGCAG -TAATAGCGATTTTGTCCCATCGACCACAAGACTGGTTCGGCAATAAATTTTTTCTCAATTTTGCGTGCTG -GATTCACGCAGAAGGTTGTGAAAGGTCATCAGGCAGGGCTATTGTAATCAAAGGGAATGACGATATTCGT -CTCATAAGGAGTTTTTCTTGATTACACATATTAGCCCGCTTGGCTCCATGGATATGTTGTCGCAGCTGGA -AGTGGATATGCTTAAACGCACCGCCAGCAGCGACCTCTATCAACTGTTTCGCAACTGTTCACTTGCCGTA -CTGAACTCCGGTAGTTTGACCGATAACAGCAAAGAATTGCTGTCTCGTTTTGAAAATTTCGATATTAACG -TCTTGCGCCGTGAACGCGGCGTAAAGCTGGAACTGATTAATCCCCCGGAAGAGGCTTTTGTCGATGGGCG -AATTATTCGCGCTTTGCAGGCCAACTTGTTCGCGGTCCTGCGTGACATTCTCTTCGTTTACGGGCAAATC -CATAACACCGTTCGTTTTCCCAACCTGAATCTCGACAACTCCGTCCACATCACTAACCTGGTCTTTTCCA -TCTTGCGTAACGCTCGCGCGCTGCATGTGGGTGAAGCGCCAAATATGGTGGTCTGCTGGGGCGGTCACTC -AATTAACGAAAACGAGTATTTGTATGCCCGTCGCGTCGGAAACCAGCTGGGCCTGCGTGAGCTGAATATC -TGCACCGGCTGTGGTCCGGGAGCGATGGAAGCGCCGATGAAAGGTGCTGCGGTCGGACACGCGCAGCAGC -GTTACAAAGACAGTCGTTTTATTGGTATGACAGAGCCGTCGATTATCGCCGCTGAACCGCCTAACCCGCT -GGTCAACGAATTGATCATCATGCCAGATATCGAAAAACGTCTGGAAGCGTTTGTCCGTATCGCTCACGGT -ATCATTATCTTCCCTGGCGGTGTGGGTACGGCAGAAGAGTTGCTCTATTTGCTGGGAATTTTAATGAACC -CGGCCAACAAAGATCAGGTTTTACCATTGATCCTCACCGGCCCGAAAGAGAGCGCCGACTACTTCCGCGT -ACTGGACGAGTTTGTCGTGCATACGCTGGGTGAAAACGCGCGCCGCCATTACCGCATCATCATTGATGAC -GCCGCTGAAGTCGCTCGTCAGATGAAAAAATCGATGCCGCTGGTGAAAGAAAATCGCCGTGATACAGGCG -ATGCCTACAGCTTTAACTGGTCAATGCGCATTGCGCCAGATTTGCAAATGCCGTTTGAGCCGTCTCACGA -GAATATGGCTAATCTGAAGCTTTACCCGGATCAACCTGTTGAAGTGCTGGCTGCCGACCTGCGCCGTGCG -TTCTCCGGTATTGTGGCGGGTAACGTAAAAGAAGTCGGTATTCGCGCCATTGAAGAGTTTGGTCCTTACA -AAATCAACGGCGATAAAGAGATTATGCGTCGTATGGACGACCTGCTACAGGGTTTTGTTGCCCAGCATCG -TATGAAGTTGCCAGGCTCAGCCTACATCCCTTGCTACGAAATCTGCACGTAATCTCCGCTCCCCCGGTGA -CGTTTGTTGCCGGGTTTTCTCGTTTTTGGTCACTTACTCATCAACTCATTTCATTTGTTATATGAATGTT -TCTTACCACCCTCACGCGACAAATATCATCACAGTTAATATGTCATACAATTTATGTTGCAACGCAAACG -TTTCCCTATTTTCATAAACCGTATTTTATCGCTATGAAAAAGAAATTATCGCCATGATTAACTAAAAGTA -TTGATTTTTTCAGTTCAACCTACATATATTGCGCGCCCCGGAAGAAGTCAGATGTCGTTTAATGGGCAAA -TATTGCCCTTAAATTCTCTTTTACTTTTGATTTACAGAGTAAAGCGTTGGGATAATCTATCTTCCAAGTA -GATTATTGTATTTGAGATCAAGATCACTGATAGATACATAACTTGTGTGTATCTTTCCGCCCTCAAATTA -TTACGGCGGTAAATGATTAAGCCATCGCCGATAGACAGATTTCATTTTTACGGTCAGGCACCTTCCCGGG -CTGAACTGGCTAAAAGCTGAATTATTTGCATTCCTCCAGGAGAAATAGATGGAAACGACTCAAACCAGCA -CGATTGCGTCGAAAGACTCTCGTAGTGCCTGGCGCAAGACAGACACCATGTGGATGCTGGGCCTTTACGG -CACGGCAATCGGCGCGGGCGTGCTGTTCCTGCCAATCAACGCCGGTGTTGGCGGTATGATCCCGCTGATC -ATCATGGCTATCCTTGCGTTCCCGATGACGTTTTTTGCTCACCGCGGCCTGACTCGCTTCGTACTGTCTG -GTAAAAACCCGGGCGAAGACATCACCGAGGTTGTAGAAGAACACTTTGGTATTGGCGCAGGTAAACTGAT -TACCCTGCTCTACTTCTTCGCTATCTACCCGATCCTGCTGGTTTATAGCGTGGCAATCACCAATACCGTT -GAAAGCTTCATGTCTCACCAGCTGGGTATGACGCCACCGCCGCGTGCGATTCTGTCGCTGATCCTGATCG -TGGGTATGATGACCATCGTTCGCTTCGGTGAGCAGATGATCGTTAAAGCGATGAGTATTCTGGTATTCCC -GTTTGTTGGCGTACTGATGCTGCTGGCTCTGTACCTGATCCCGCAGTGGAACGGCGCTGCACTGGAAACG -CTGTCTCTGGACACTGCATCTGCAACCGGAAACGGTCTGTGGATGACCCTGTGGCTGGCAATTCCGGTAA -TGGTGTTCTCGTTCAACCACTCTCCGATCATCTCTTCTTTCGCCGTTGCGAAGCGTGAAGAGTACGGCGA -TATGGCAGAACAGAAATGCTCGAAGATCCTGGCATTCGCACACATCATGATGGTGCTGACCGTAATGTTC -TTCGTCTTCAGCTGTGTACTGAGCCTGACTCCGGCAGACCTGGCTGCGGCTAAAGAGCAGAACATCTCGA -TTCTGTCTTACCTGGCTAACCACTTTAACGCACCGGTTATCGCGTGGATGGCTCCGATTATCGCGATTAT -CGCTATCACCAAATCCTTCCTCGGTCACTACCTGGGCGCACGTGAAGGCTTCAACGGTATGGTGATTAAA -TCTCTGCGTGGTAAAGGTAAGTCTATCGAAATCAACAAGCTGAACCGTATCACTGCGCTGTTCATGCTGG -TAACGACCTGGATTGTTGCCACCCTGAACCCGAGCATCCTGGGTATGATTGAAACCCTGGGCGGTCCAAT -CATCGCGATGATCCTGTTCCTGATGCCGATGTACGCAATTCAGAAAGTACCGGCAATGCGTAAGTACAGC -GGTCACATCAGCAACGTATTCGTTGTCGTGATGGGTCTGATTGCAATCTCCGCAATCTTCTACTCTCTGT -TCAGCTAAGTCCTTTCGCGCCGCTTTCGGGCGGCGCTTCCTCCGTTTTAACGCGATGTATTTCCTATGAT -TAGCGTATTCGATATTTTCAAAATCGGCATTGGCCCTTCCAGTTCTCATACCGTTGGACCAATGAAAGCG -GGTAAACAATTTACCGACGATCTGATTGCCCGTAACCTGCTTAAAGACGTGACCCGCGTGGTGGTTGACG -TGTACGGCTCGCTCTCTCTGACCGGTAAAGGCCACCACACTGATATCGCCATTATTATGGGCCTGGCGGG -TAACCTGCCGGATACCGTGGATATCGATTCCATCCCCAGTTTTATTCAGGATGTGAATACTCATGGTCGC -CTGATGCTGGCAAACGGTCAGCATGAAGTGGAGTTCCCGGTTGATCAGTGCATGAACTTCCACGCCGACA -ACCTTTCTCTGCATGAAAACGGTATGCGCATTACCGCGCTGGCGGGCGATAAAGTCGTTTACAGCCAGAC -TTACTACTCTATTGGCGGTGGCTTTATCGTTGATGAAGAGCATTTTGGCCAGCAGGATAGCGCACCGGTT -GAAGTTCCTTATCCGTACAGTTCAGCAGCCGATCTGCAAAAACATTGTCAGGAAACCGGGCTGTCACTCT -CTGGCCTGATGATGAAAAACGAGCTGGCGCTGCACAGCAAAGAAGAGCTGGAACAGCACCTGGCGAACGT -CTGGGAAGTCATGCGCGGCGGTATTGAGCGCGGTATTTCCACCGAAGGCGTGTTGCCTGGCAAACTGCGC -GTTCCACGCCGTGCTGCGGCACTACGCCGGATGCTGGTCAGCCAGGATAAAACCACCACTGACCCGATGG -CGGTTGTTGACTGGATCAACATGTTTGCACTGGCAGTGAACGAAGAGAACGCTGCTGGCGGTCGCGTGGT -GACTGCGCCGACTAACGGTGCGTGCGGGATTATCCCGGCAGTTCTGGCGTACTACGACAAGTTTATCCGC -GAAGTGAACGCTAACTCACTGGCTCGTTACCTGCTGGTAGCCAGCGCCATTGGTTCTCTTTATAAGATGA -ACGCGTCGATTTCTGGTGCTGAAGTGGGTTGCCAGGGTGAAGTTGGCGTGGCGTGCTCAATGGCGGCGGC -TGGTCTGGCAGAACTATTAGGCGCAAGCCCGGCGCAGGTGTGCATCGCGGCGGAAATCGCCATGGAGCAC -AACCTCGGTCTGACGTGTGACCCGGTCGCCGGACAGGTACAGGTGCCATGCATCGAGCGTAACGCCATTG -CGGCAGTAAAAGCGGTGAACGCCGCACGTATGGCGCTGCGCCGTACCAGCGAGCCGCGCGTCTGCCTCGA -TAAAGTTATCGAAACCATGTACGAAACAGGTAAAGATATGAACGCCAAGTACCGCGAAACCTCTCGCGGC -GGCCTGGCAATGAAGATCGTTGCCTGCGATTAATCGCTCTCCAAAGGCCTCGTTTTGCGAGGCCTCTTCC -CGATTTCTCATCCAGCCGTAGCCTGTTCCGGCATCGAATGTTACCCTTATCGCCTGATCTTTAAGGGGGT -TATCGTGGCTGTTCATTTGCTTATTGTCGATGCACTGAATCTTATTCGTCGCATTCATGCCGTTCAGGGG -TCGCCCTGTGTCGAAACCTGCCAGCATGCGCTCGATCAGCTCATTATGCACAGCCAGCCAACCCACGCGG -TCGCCGTTTTTGATGATGAAAACCGCAGTAGCGGCTGGCGTCATCAGCGTTTACCAGATTACAAAGCGGG -TCGACCGCCAATGCCGGAAGAGTTGCACGACGAGATGCCTGCATTACGCGCCGCCTTTGAGCAACGCGGC -GTCCCGTGCTGGTCAACCAGCGGCAACGAAGCCGATGACTTAGCCGCCACGCTGGCGGTCAAAGTGACAC -AGGCCGGGCATCAGGCAACGATTGTTTCGACAGATAAAGGCTACTGTCAGTTACTTTCACCGACATTACG -TATTCGTGATTACTTCCAGAAACGTTGGCTGGATGCGCCATTTATCGATAAAGAATTTGGCGTTCAACCG -CAGCAGTTGCCCGATTACTGGGGACTTGCGGGGATCAGCAGTTCAAAGGTACCGGGTGTTGCGGGAATCG -GACCAAAAAGCGCCACGCAGCTGCTGGTCGAGTTTCAGAGTCTGGAAGGGATATATGAGAATCTGGATGC -GGTTGCCGAAAAGTGGCGCAAAAAATTAGAAACCCATAAAGAGATGGCGTTTCTGTGCCGCGATATTGCC -CGCTTACAAACCGATTTGCATATCGACGGCAATTTACAGCAATTGCGGTTGGTACGGTAACGGCGAGCCG -GATACGCCGCAAACGTCGTATCCGGCATTATCACATCAGCGCATTTACCAGGCGGTATGGTAAAGCTCTA -CAATATCCTCAAGCGTTGCTTCACGCGGGTTGCCACCGGTACAAACATCATCCAGTGCCGCCTGCGCCAG -TGCCGGAATGTCTTCCTTGCGTACACCAACATCACGCAAATGTGGCGGAATACCGACATCACGGTTGAGA -GCAAACACCGCTTCAACAGCGGCATTACGCGCCTCTTCCAGGCTCATACCTTCCACTTTCACGCCCATAA -CGCGCGCGATATCGCGGTACTTCTCACCGGTAAAGTCAGCGTTATAACGCATGACATGCGGTAACAGGAT -GGCGTTCGCAACACCGTGTGGAGTGTTATAAAACGCGCCCAGTGGATGCGCCATACCATGCACCAACCCT -AACCCAACATTCGAGAAGCCCATACCCGCAACATACTGCCCGAGCGCCATTTCTTCTCCGGCATCCTTAT -CACCAGCAACCGATCCTCGCAGCGCCCCAGCAATGATTTCAATCGCTTTAATGTGCAGTGCATCGGTTAG -CGCCCACGCGCCACGGGTAATATACCCCTCAATAGCATGAGTGAGCGCATCGACACCCGTCGCAGCTTTC -AGCGCTGGAGGCATACCATCCATCATGTCAGCGTCAATAAACGCCACCTGCGGGATATCATGCGGATCAA -CGCAAACAAACTTGCGCCGTTTCTCTTCGTCAGTGATCACGTAGTTAATGGTCACTTCTGCCGCAGTACC -TGCTGTGGTAGGAATTGCCAGAATCGGTACACTGGGTTTATTGGTCGGGGAAAGCCCTTCCAGGCTACGC -ACATCGGCAAACTCCGGGTTGTTGCTGATAATGCCAATCGCTTTACAAGTATCCTGTGGAGAACCACCAC -CAATAGCGATCAGGTAATCCGCGCCGCTATTCTGGAATACACCGAGCCCTTCTTTGACGACAGTAATTGT -TGGGTTGGGCACTACGCCGTCGTAAATCGCCCATGCCAGCCCTGCAGCATCCATCTTATCGGTCACTTTC -GCCACCACGCCGCATTGCACCAGCGTTTTATCGGTGACGATCAGCGCCTTCTGATAACCACGGCGTTTCA -CCTCATCGGTTAAAGCCCCAACAGCACCCCGACCAAACCATGCCGTTTCGTTCAGAATCATTCTGTTAGC -CATCATCCTTCTCCTTGTTGCTTTACGAAATTACTCTTCAATTCGTAACCCATAGGTTTTGAATTTCTCC -AGCACTACGGCAATCTCTTCATCGCTCAGCACTGGCACCGGGTCCGTAATCGCCAGGGTCGTCAGGTAAA -GTTGCGCCAGCACTTCAACTTCATGCGCCAGCCATAACGCTTTTTCCAGATTCACCTCACAAGCGATAAG -CCCATGATGTTGTAACAAAGTTGCCTTACGATTTTTGAGAGCCAGCGCAACATGTTCAGAAAGTTCGCGT -GTTCCAAAGGTCGCATAAGGCGCGCAAGGAATAGAATTACCGCCAGCCGCCGCAATCATGTAGTGAATAG -CGGGGATCGATCGGTTAAGAATGGAAACTGCCGTGCAATGAACGGCATGATTGTGAACAACCGCGTTGGC -ATCCGGTCTGCTTTGATAGGCTGCCATATGGAAACGCCATTCGCTTGAGGGGAGCTTTCCTTCCTCATGT -TTACCGTTGCCATCAATAAAGACAATATGCGACTCCGTCAGTTTTTCATATGGAATGCCTGTAGGCGTAA -TCAGCATCCCATCCTGATAACGTACACTGACGTTCCCCGCTGTCCCCTGGTTCAGTCCCAGGCGGGTCAT -TTCCAGGCAAGTGTCAATAATCTGACGAGCAAGTTTATTTCGTTCCATTAGCTACCTCTCTCTGATTCAA -AACAGGGCAATAATGTTGTTCCTTTCACACTATTGAATTAGCCGTTTAATTACCCACCATCTTCTTCCTG -ATTAACAAGAAAGAAATTCACAAGCTTATATTTTGTGACCTGGTTCAACTAATCACAGTAAATAACTGCA -AGTTCTCTTTTTATAACCCCATTAAAAATGACCGCTCTTAAAAATATTTATCAAAACGGTCATTTTTCTA -TTCCTCCAAGCCCGGAATGACCGTTTTCGGCACAAACAATTAATACGGTCATCTGATTTGTGTTTTTTAT -GATTTATTTTCTGAAACGGGCATGAAATTTCGATTATTAAAGTGATGGTAGTCACATAAAGTCACCTTCT -AGCTAATAAGTGTGACCGCCGTCATATTACAGAGCGTTTTTTATTTGAAAATGAATCCATGAGTTCATTT -CAGACAGGCAAATATTCACTGATATGAAGCCCGAACTCGCTGGTTTTGCACTTTTGAAAACATAACCGAT -TACGTGCTTAAGCTTCTGAACCTAAGAGGATGCTATGGGAAACACATCAATACAAACGCAGAGTTACCGT -GCGGTAGATAAAGATGCAGGGCAAAGCAGAAGTTACATTATTCCATTCGCGCTGCTGTGCTCACTGTTTT -TTCTTTGGGCGGTAGCCAATAACCTTAACGACATTTTATTACCTCAATTCCAGCAGGCTTTTACGCTGAC -AAATTTCCAGGCTGGCCTGATCCAATCGGCCTTTTACTTTGGTTATTTCATTATCCCAATCCCTGCTGGG -ATATTGATGAAAAAACTCAGTTATAAAGCAGGGATTATTACCGGGTTATTTTTATATGCCTTGGGTGCTG -CATTATTCTGGCCCGCCGCAGAAATAATGAACTACACCTTGTTTTTAGTTGGCCTATTTATTATTGCAGC -CGGATTAGGTTGTCTGGAAACTGCCGCAAACCCTTTTGTTACGGTATTAGGGCCGGAAAGTAGTGGTCAC -TTCCGCTTAAATCTTGCGCAAACATTTAACTCGTTTGGCGCAATTATCGCGGTTGTCTTTGGGCAAAGTC -TTATTTTGTCTAACGTGCCACATCAATCGCAAGACGTTCTCGATAAAATGTCTCCAGAGCAATTGAGTGC -GTATAAACACAGCCTGGTATTATCGGTACAGACACCTTATATGATCATCGTGGCTATCGTGTTACTGGTC -GCCCTGCTGATCATGCTGACGAAATTCCCGGCATTGCAGAGTGATAATCACAGTGACGCCAAACAAGGAT -CGTTCTCCGCATCGCTTTCTCGCCTGGCGCGTATTCGCCACTGGCGCTGGGCGGTATTAGCGCAATTCTG -CTATGTCGGCGCACAAACGGCCTGCTGGAGCTATTTGATTCGCTACGCTGTAGAAGAAATTCCAGGTATG -ACTGCAGGCTTTGCCGCTAACTATTTAACCGGAACCATGGTGTGCTTCTTTATTGGTCGTTTCACCGGTA -CCTGGCTCATCAGTCGCTTCGCACCACACAAAGTCCTGGCCGCCTACGCATTAATCGCTATGGCACTGTG -CCTGATCTCAGCCTTCGCTGGCGGTCATGTGGGCTTAATAGCCCTGACTTTATGCAGCGCCTTTATGTCG -ATTCAGTACCCAACAATCTTCTCGCTGGGCATTAAGAATCTCGGCCAGGACACCAAATATGGTTCGTCCT -TCATCGTTATGACCATTATTGGCGGCGGTATTGTCACTCCGGTCATGGGTTTTGTCAGTGACGCGGCGGG -CAACATCCCCACTGCTGAACTGATCCCCGCACTCTGCTTCGCGGTCATCTTTATCTTTGCCCGTTTCCGT -TCTCAAACGGCAACTAACTGAACATATTTTCCGAATAAAGTGAGGAATCTGTAATGAAAAAAATCAGCTT -ACCGAAAATTGGTATCCGCCCGGTTATTGACGGTCGTCGCATGGGTGTTCGTGAGTCGCTTGAAGAACAA -ACAATGAATATGGCGAAAGCTACGGCCGCACTGCTGACCGAGAAACTGCGCCATGCCTGCGGAGCTGCCG -TCGAGTGTGTCATTTCCGATACCTGTATCGCGGGTATGGCTGAAGCCGCTGCTTGCGAAGAAAAATTCAG -CAGTCAGAATGTAGGCCTCACCATTACGGTAACGCCTTGCTGGTGCTATGGCAGTGAAACCATCGACATG -GATCCAACCCGCCCGAAGGCCATTTGGGGCTTTAACGGCACTGAACGCCCCGGCGCTGTTTACCTGGCAG -CGGCTCTGGCAGCTCACAGCCAGAAAGGCATCCCAGCATTCTCCATTTACGGTCATGACGTTCAGGATGC -CGATGACACATCGATTCCTGCCGATGTTGAAGAAAAACTGCTGCGCTTTGCCCGCGCCGGTTTGGCCGTC -GCCAGCATGAAAGGTAAAAGCTATCTGTCGCTGGGCGGCGTTTCGATGGGTATCGCCGGTTCCATTGTTG -ATCACAACTTCTTTGAATCCTGGCTGGGAATGAAAGTCCAGGCGGTGGATATGACCGAACTGCGTCGCCG -TATCGATCAGAAGATTTACGACGAAGCCGAATTGGAAATGGCACTGGCCTGGGCTGATAAAAACTTCCGC -TATGGCGAAGATGAAAATAACAAACAGTATCAACGTAATGCCGAGCAAAGCCGCGCAGTTCTGCGCGAAA -GTTTACTGATGGCGATGTGTATCCGCGACATGATGCAAGGCAACAGCAAACTGGCCGATATTGGTCGCGT -GGAAGAATCACTTGGCTACAACGCCATCGCTGCGGGCTTCCAGGGGCAACGTCACTGGACCGATCAATAT -CCCAATGGTGACACCGCCGAAGCGATCCTCAACAGTTCATTTGACTGGAATGGCGTGCGCGAACCCTTTG -TCGTGGCGACCGAAAACGACAGTCTTAACGGCGTGGCAATGCTAATGGGTCACCAGCTCACCGGCACCGC -TCAGGTATTTGCCGATGTGCGTACCTACTGGTCACCAGAAGCAATTGAGCGTGTAACGGGGCATAAACTG -GATGGACTGGCAGAACACGGCATCATCCATTTGATCAACTCCGGTTCTGCTGCGCTGGACGGTTCCTGTA -AACAACGCGACAGCGAAGGTAACCCGACGATGAAGCCACACTGGGAAATCTCTCAGCAAGAGGCTGACGC -TTGCCTCGCCGCTACCGAATGGTGCCCGGCGATCCACGAATACTTCCGTGGCGGCGGTTACTCTTCCCGC -TTCCTTACCGAAGGCGGCGTCCCGTTCACCATGACTCGTGTCAACATCATCAAAGGCCTGGGACCGGTAC -TGCAAATCGCGGAAGGCTGGAGCGTGGAATTGCCGAAGGATGTGCATGACATCCTCAACAAACGCACCAA -CTCAACCTGGCCAACCACCTGGTTTGCACCGCGCCTCACCGGTAAAGGGCCGTTTACGGATGTGTACTCG -GTAATGGCGAACTGGGGCGCTAACCATGGGGTTCTGACCATCGGCCACGTTGGCGCAGACTTTATCACTC -TCGCCTCCATGCTGCGTATCCCGGTATGTATGCACAACGTTGAAGAGACCAAAGTGTATCGTCCTTCTGC -CTGGGCTGCGCACGGCATGGATATTGAAGGCCAGGATTACCGCGCTTGCCAGAACTACGGTCCGTTGTAC -AAGCGTTAATACATTACTCCCTGATGTGATGCCCGGTCGCTCCGGCTACCGGGCCTGAACAAGCAAGAGT -GGTTAGCCGGATAAGCAATGTTATCCGGCTATATTGCAGGAGCGATTATGAAACAAGAAGTTATCCTGGT -ACTCGACTGTGGCGCGACCAATGTCAGGGCCATCGCGGTTAATCGGCAGGGCAAAATTGTTGCCCGCGCC -TCAACGCCTAATGCCAGCGATATCGCGATGGAAAACAACACCTGGCACCAGTGGTCTTTAGACGCCATTT -TGCAACGCTTTGCTGATTGCTGTCGGCAAATCAATAGTGAACTGACTGAATGCCACATCCGCGGTATCGC -CGTCACCACCTTTGGTGTGGATGGCGCTCTGGTAGATAAGCAAGGCAATCTGCTCTATCCGATTATTAGC -TGGAAATGTCCGCGAACAGCAGCGGTTATGGACAATATTGAACGGTTAATCTCCGCACAGCGGTTGCAGG -CTATTTCTGGCGTCGGAGCCTTTAGTTTCAATACGTTATATAAGTTGGTGTGGTTGAAAGAAAATCATCC -ACAACTGCTGGAACGCGCGCACGCCTGGCTCTTTATTTCGTCGCTGATTAACCACCGTTTAACCGGCGAA -TTCACTACTGATATCACGATGGCCGGAACCAGCCAGATGCTGGATATCCAGCAACGCGATTTCAGTCCGC -AAATTTTACAAGCCACCGGTATTCCACGCCGACTCTTCCCTCGTCTGGTGGAAGCGGGTGAACAGATTGG -TACGCTACAGAACAGCGCCGCAGCAATGCTCGGCTTACCCGTTGGCATACCGGTGATTTCCGCAGGTCAC -GATACCCAGTTCGCCCTTTTTGGCGCTGGTGCTGAACAAAATGAACCCGTGCTCTCTTCCGGTACATGGG -AAATTTTAATGGTTCGCAGCGCCCAGGTTGATACTTCGCTGTTAAGTCAGTACGCCGGTTCCACCTGCGA -ACTGGATAGCCAGGCAGGGTTGTATAACCCAGGTATGCAATGGCTGGCATCCGGCGTGCTGGAATGGGTG -AGAAAACTGTTCTGGACGGCTGAAACACCCTGGCAAATGTTGATTGAAGAAGCTCGTCTGATCGCGCCTG -GCGCGGATGGCGTAAAAATGCAGTGTGATTTATTGTCGTGTCAGAACGCTGGCTGGCAAGGAGTGACGCT -TAATACCACGCGGGGGCATTTCTATCGCGCGGCGCTGGAAGGGTTAACTGCGCAATTACAGCGCAATCTA -CAGATGCTGGAAAAAATCGGGCACTTTAAGGCCTCTGAATTATTGTTAGTCGGTGGAGGAAGTCGCAACA -CATTGTGGAATCAGATTAAAGCCAATATGCTTGATATTCCGGTAAAAGTTCTCGACGACGCCGAAACGAC -CGTCGCAGGAGCTGCGCTGTTCGGTTGGTATGGCGTAGGGGAATTTAACAGCCCGGAAGAAGCCCGCGCA -CAGATTCATTATCAGTACCGTTATTTCTACCCGCAAACTGAACCTGAATTTATAGAGGAAGTGTGAAATG -CTGAAAACAATTTCGCCGTTAATTTCTCCCGAACTATTGAAAGTGCTGGCAGAGATGGGACATGGAGATG -AAATTATTTTTTCCGATGCTCACTTTCCCGCCCATTCGATGGGACCGCAGGTGATCCGCGCTGATGGCCT -GTTGGTGAGCGACTTGCTCCAGGCGATTATCCCGTTATTTGAACTGGACAGTTATGCACCGCCGCTGGTG -ATGATGGCGGCGGTAGAAGGTGACACTCTCGATCCTGAAGTAGAACGACGTTACCGTAATGCGCTTTCAC -TACAAGCCCCGTGTCCTGACATCATCCGCATCAATCGTTTTGCGTTTTATGAACGGGCGCAAAAAGCCTT -TGCGATCGTTATCACAGGCGAACGAGCGAAGTACGGGAATATTCTTTTAAAAAAAGGGGTAACACCGTAA -TCTCATACCGGTACGCCCGCATGACGCGGGCGGTTATCGAATGATGGGGTGAAAAATATGAAAGCGGCAC -GCCAGCAAGCGATAGTCGACCTGCTGCTGAACCATACCAGCCTGACCACGGAAGCTCTCTCTGAACAGCT -AAAGGTCAGTAAAGAAACCATTCGTCGCGATCTCAATGAATTACAGACGCAGGGTAAAATTCTGCGCAAT -CATGGACGCGCTAAATATATCCACCGTCAAAATCAAGACAGTGGCGATCCCTTTCACATCAGGCTGAAAA -GCCATTATGCGCATAAAGCAGATATCGCGCGCGAGGCGCTCGCGTGGATTGAAGAAGGGATGGTGATAGC -CTTAGACGCCAGTTCAACTTGCTGGTATCTGGCACGCCAGTTGCCTGACATCAACATTCAGGTCTTCACC -AATAGCCATCCGATTTGCCATGAACTCGGTAAACGCGAACGCATTCAACTGATCAGTTCCGGCGGCACAC -TTGAGCGCAAATATGGCTGTTACGTCAATCCCTCGCTGATTTCCCAACTTAAATCGCTGGAAATCGATCT -GTTTATTTTTTCTTGTGAAGGGATCGATAGCAGCGGCGCACTGTGGGACTCCAATGCGATCAACGCTGAT -TACAAATCGATGCTATTAAAACGTGCCGCGCAATCGTTGTTATTGATTGATAAAAGTAAATTTAATCGTT -CAGGGGAAGCCCGCATCGGGCATCTGGATGAGGTAACGCACATTATTTCTGATGAGCGCCAGGTTGCAAC -TTCTTTGGTAACAGCCTGACGGAAAGGGTAGCAGGCCGGAGACGACGCCCCGGCCTTGCCTGTTATCGCT -CGTCGCGACGACCACCCACCGCAGCCCAGATGCGGCGGACGTGCACCGTCACTTCTTCGCGATCGTGATA -CAACTGCCGCGCCTGAATCTGAGCATTTATGCCATGTTCATCAAGCTGTGCCTGAATATACGCCAGATTG -TGTGACACTTCTTCGTAGCGTTTTTTCATCGGCAGTTTGAGGTTGAAAATGGTTTCACGGCACCAGCCAT -TAACCAGCCACTGCGCCATCAATGCCGCAACTTTCGCCGGTTTTTCAACCATATCGCATACCATCCAGGA -GATATTGCTGCGCGTCGGACGGAATTTGAAACCGTCTTCCCGCAGCCACGTCACCTGTCCGGTATCCATC -AGACTTTGCGCCATCGGGCCGTTGTCGACGGAATAAACCCACATGTTGCGCTTCACCAGTTGGTAGGTCC -AGCCGCCAGGGCAAGCGCCTAAATCCACCGCCCACATCCCGTTCGCCAGGCGTTCATCCCACTCATCCGC -AGGAATAAACACATGAAATGCCTCTTCCAGTTTGAGCGTGGAACGACTCGGCGCATCTGCCGGAAATTTC -AGGCGCGGAATGCCCATATAGAACGGCGAATTATTGTTGCTGTATGAGTAACCGGTATAGCAGCAGCCTG -GTGCAATAAAGAATACATGCACAACCGGACGCTTCGGCGTTTCATAGTTCGCCAGCACCCCGGCATCGCG -CAAGGCAGCGCGTAGCGGAACAGTAAATTTACGGCAGAATTTCAGTAACTCTTTGCTTTCGTTGGTATCG -GCAACTTCAACACGCAGTTCACCGCCCTTCTCTACTACGCCCTGTAACATGCCGACAATGGGGGTAATAC -GATCTTCTGGCGGCAAATGCTGCAGGAGTTCCCCCACCACAAACCACTGGCGGGCAAAAATTAATGAACT -GAACGGCAGCTCACGGATTAACTTATCGCCATCATCAGGTTGATAACATTCATAAATGACATAACCCGCA -TTCTCTTTCACGCGGGCAAAACCGAAAATTTCCCGCTGGCCGGCTTTATCGGTAATTTCTGCGGCGCACT -CTTTTTCAAAGCCCGGACGGCACAGCAATACAACCTTATTCATGACTTACGCCCTTGCGCTTTAAACGGA -TAGCACCAACTAACATTAACGCCCAGCCCGCGAGGAAGCTCACGCCGCCAACCGGAGTGACAAACGCCCA -CAAACGCAGATGGGACAGCGCCAGGCAATAAAGGCTGCCGCTGAACAACACCGTGCCTAACGCGAGGAAA -ACGCTACTCCAGTAAAACCAGATACTGATGCGACGCTGCATTGCCACCGCCAGACCTAAGATCGCCAGCG -TATGAAACGCCTGGTATTCGAGGCCGGTCTGGATCCAGCCCATCTCAACGGCCCCCATGGTTTTACTTAA -CACATGCGCGCCAAAAGCGCCCAGAGCCACAAAAATGAAGCCGCTAATGGCGGCGAAAATCAGCATAAAA -CGGCTGGTCATGGTCGTACCCTACGTAAATTATTGTTCATAACGAAAGCGGAATTTTTCTTGTTCAGCAG -CGGCTTTCGCCAGGATCCATTGGCGAAAGGCGGCTATTTTACCCAGTTCTGCCTGACTGTCATGACAAAC -CAGATAAAAAGCATTTTTACTGACCAGAACATCATTAAACGGGCAAACAAGACGTCCGGCCTCGATTTCA -GATTGCGCCATCACGTTATTTGCCAGCGCCACTCCCTGCCCGTGGATAGCCGCTTGCAGCACCATGGCGC -TATGGCTAAAAATTGGCCCTTGCTGAACGTTGATATGATTTAACCCCAACTGTCGGGTATATGTCTGCCA -GTCACGGCGCGAAGCATCATGTAATAACGTATGTTTAGCCAGATCTTCCGGTGTCTTCAAGGGTTTTTCG -CCAGTCAGCAGTAGCGGCGAACACACCGGCAATAAATATTCGGCGTACAGTTTTTCCACCCGTAGCCCCG -GCCAGTTGCCCCGACCATAAAATATCGCCACATCAACATCATCCGCCAGCTTATCTTCCTGACGATCAAC -CGCCTGGATTCGAACGTCAATTCCCGGATAAGCTGAATTAAAGCTGGAAAGTCGCGGAACCAACCAATGA -ATGGCGAAACTGGGGAGTAAACTGACCGTCAACGCCCCCTTGGCGCTACGGGCCTGGAGTTTACGCGTCG -CTTCGGTTAATTGCGAAAATATCTCTTTGATATCGAGGAAATAGCTTTGCCCTTCCTCGGTCAGCAGGAG -TGAACGATTACGGCGGCGGAACAGTTTTAGCCCCAAAAAATCCTCAAGAGACTTGATTTGATGACTTACT -GCGGCTTGGGTCACAAAAAGCTCTTCTGCTGCGCGAGTGAAACTTAAATGGCGTGCTGCGGCATCAAAAA -CTCGTAAGGCATTTAGCGGTGGTAATCGTTTAGACATGGCTATTAAACTTTGATGTTAAATGAATTTAAC -AATTAGATCACACTATGTAACCTATTAGTTTTTTTAATCTGAGCCATTATAAATTGTCCGTTGAGCTTCT -ACCAGCAAATACCTATAGTGGCGGCACTTCCTGAGCCGGAACGAAAAGTTTTATCGGAATGCGTGTTCTG -GTGAACTTTTGGCTTACGGTTGTGTTGTTGTGTTTGCAATTGGTCTGCGATTCAGACCATGGTAGCAAAG -CTACCTTTTTTCACTTCCTGTACATTTACCCTGTCTGTCCATAGTGATTAATGTAGCACCGCCTAATTGC -GGTGCTTTTTTTTACCTTGCGATCGCGAATTACTGATCCAGTTCGACCATCTCTTTCACGTCAGTACGGT -TGATCTGCTGTTTGTTGCCATTAGCGTCTTTATACGAAATCATACCGGTATCGTTATCAGTCTGTGGTTT -GCCGTCAGAGACGATGGTACGTCCGTCATTGGTGTGCATCACATAGTTCGAACCGGAACAGGCGCTCAGG -GCAAAAGTCAGCATACAGGCAGAAATAATTGCGGCAGTCTTTTTCATCATCTTCTCCTTAAAGCGATTAA -TAAATCTTAATAGTATTGATTAACAGGCTAAAATTAACGCCTAACACTATTCAGCATATGTTACTTACGC -GGCTTCGCCAGGATATCCAGATAATTCTGATGGTTAGCACTCTCCTTGTATCAAAGTGAATTTTGCGTCA -CGATCGGTGCATCAAGCCGAGGAGTACCATGAACGTTTTTAATCCCGCGCAGTTTCGCGCCCAGTTTCCC -GCACTACAGGATGCGGGCGTCTATCTCGACAGCGCCGCGACCGCGCTTAAACCTGAAGCCGTGGTTGAAG -CCACCCAACAGTTTTACAGTCTGAGCGCCGGAAACGTCCATCGCAGCCAGTTTGCCGAAGCCCAACGCCT -GACCGCGCGTTATGAAGCTGCACGAGAGAAAGTGGCGCAATTACTGAATGCACCGGATGATAAAACTATC -GTCTGGACGCGCGGCACCACTGAATCCATCAACATGGTGGCACAATGCTATGCGCGTCCGCGTCTGCAAC -CGGGCGATGAGATTATTGTCAGCGTGGCAGAACACCACGCCAACCTCGTCCCCTGGCTGATGGTCGCCCA -ACAAACTGGAGCCAAAGTGGTGAAATTGCCGCTTAATGCGCAGCGACTGCCGGATGTCGATTTGTTGCCA -GAACTGATTACTCCCCGTAGTCGGATTCTGGCGTTGGGTCAGATGTCGAACGTTACTGGCGGTTGCCCGG -ATCTGGCGCGAGCGATTACCTTTGCTCATTCAGCCGGGATGGTGGTGATGGTTGATGGTGCTCAGGGGGC -AGTGCATTTCCCCGCGGATGTTCAGCAACTGGATATTGATTTCTATGCTTTTTCAGGTCACAAACTGTAT -GGCCCGACAGGTATCGGCGTGCTGTATGGTAAATCAGAACTGCTGGAGGCGATGTCGCCCTGGCTGGGCG -GCGGCAAAATGGTTCACGAAGTGAGTTTTGACGGCTTCACGACTCAATCTGCGCCGTGGAAACTGGAAGC -TGGAACGCCAAATGTCGCTGGTGTCATAGGATTAAGCGCGGCGCTGGAATGGCTGGCAGATTACGATATC -AACCAGGCCGAAAGCTGGAGCCGTAGCTTAGCAACGCTGGCGGAAGATGCGCTGGCGAAACGTCCCGGCT -TTCGTTCATTCCGCTGCCAGGATTCCAGCCTGCTGGCCTTTGATTTTGCTGGCGTTCATCATAGCGATAT -GGTGACGCTGCTGGCGGAGTACGGTATTGCCCTGCGGGCCGGGCAGCATTGCGCTCAGCCGCTACTGGCA -GAATTAGGCGTAACCGGCACACTGCGCGCCTCTTTTGCGCCATATAATACAAAGAGTGATGTGGATGCGC -TGGTGAATGCCGTTGACCGCGCGCTGGAATTATTGGTGGATTAATGACAAACCCGCAATTCGCCGGACAT -CCGTTCGGCACAACCGTAACCGCAGAAACGTTACGCAATACCTTCGCACCGTTGACGCAATGGGAAGATA -AATATCGCCAGTTGATCATGCTGGGGAAACAGCTTCCGGCATTGCCAGACGAGTTAAAAGCGCAGGCTAA -AGAGATTGCCGGATGCGAAAACCGCGTCTGGCTGGGATATACAGTGGCTGAAAACGGCAAAATGCATTTC -TTTGGCGACAGCGAAGGGCGCATTGTGCGCGGCCTGCTGGCGGTGTTGTTGACTGCCGTTGAGGGGAAAA -CCGCCGCCGAGTTGCAGGCACAGTCACCACTGGCATTGTTTGATGAGCTGGGATTACGTGCGCAGCTTAG -CGCCTCACGCAGCCAGGGGTTAAATGCGTTAAGCGAGGCGATTATCGCTGCGACGAAGCAGGTTTAAGCA -CAGAACCGGGTCGGATAAGACGTTCGCGTCTCATCCGACCTGATTGTTTAACCCTGACGCGCCGCTTTCG -CCATCATCTTCTTCAGCGCATGAGAAACCGCAACAAACCCAAAGGTGGCGGTCACCATCGTTGCCGCGCC -AAATCCAGATGCACAATCCATCCGCTTCGGCCCTTCTGCCGTGGCTTTCATCGCACACACCGTACCGTCT -GACTGCGGGTACACCAGCGCTTCAGTAGAAAACACGCAATCCACGCCGAGCTTACCTTTACTGTTTTTCA -CTACGCCAAAATCGCTTTTCAGGCGCTCGCGCAACTTCGCCGCCAGCGGGTCCTGAATCGTTTTCGCCAG -ATCGGTAACCTGAATCTGCGTCGGATCAATCTGCCCACCCGCGCCACCGGTTGTGACCAGTGGGATTTTA -TTGCGCCGACAATAAGCAATCAGCGCCGCTTTGGGCCGTACACTATCAATGGCATCAATCACGTACGAAT -AACCCACGCTCATATACTGCGCTACGTTATCCGGCGTCACGAAATCATCCACCACCGTTACACGGCACTC -CGGGTTAATCTGGCGAATACGCTCCGCCATAACTTCCGCTTTTGCCAGCCCAACGTTATCGCGCAGGGCA -TGAATTTGCCGATTGGTATTGGTGACGCACACATCATCCATATCGATAAGCGTGATTGCGCCAATCCCCG -TGCGCGCCAGCGCTTCCGCCGCCCAGGAACCGACACCACCGATACCAACCACACAAATATGCGCGTCAGC -AAACAGTTGCAACGCTTTTTCACCATACAGACGCGCTGTGCCACCAAAACGCTGACGCCATGCATCACTA -ATTACCACAGACATAGCACCTCAGAATTAAAAAGGGCGAGGTTATCCCTCACCCTAAACGCATAAATGCC -TGATGCGCTACGCTTATCAGGCCTACATAACTCCTGCAATATTTTGGATTTGCATGATTTGTAGGCCGGA -TAAGGCGTTCACGCCGCATCCGGCATGAACAACGCGCACTTAGTCAATAATCAGGATGTGAGGTTACCCC -TCACCCTGTCATATCCGTAAAAACGGCATACAGAATATCACATCAGCCGCTAAAGACGTTACCTGCGCCC -GGGGCGGTTTTCAGCACCCAGACACGTCCATAGTGGTTGTACCAACCTGCGCGGTGTCCGGCTTCCGGCC -CGATCCCTTGATAGATATCGAAGTGTTGGCCTTTGATTGCACCACCGACATCCAGCGCCACCATCAGACG -CAGTTCGTACTGACCATTAAATTTGCCGTTATTATCCAGCAACGGCACTTCTGCCAGCAAGGTAGTACCT -GGCGGAATAATGGAACGATCAGAGGCAACTGACGCGCGACCAACCAGCGGCACCGCACTTGCCCCTTTCA -CCGGAGCAAAAGATTGCGGTTTAAAGAAGACGAAAGACGGGTTCTGTTCCAGCAGCTCGCGAACCTCGGC -TTCACTGTGTGTTTCGCCCCAGTGACGAATCGCCTGCATCGACATATCTTCTTTTTTCACTTCGCCACGG -TCGATCAGCACCTTACCAATGCTGCGATAGGCATGACCGTTTTTCCCTGCATAGCTGAAAAAGTTAAGCG -GACTGCCATCACCAAAGTCGATATACCCACTACCCTGCACATCCATAATGAAGTTATCCATCAGGGAGTT -ACTGTAAGCGAGAATATATTTATCACTCAATGCCCCCGCGTAGATCTCCGCACGAGACGGCAGACGACCA -CGTTTTGGCGGCATACGGTAAATAGGATACTGGAACTCGCCCTGGCGGGTATGGCGCGCCTGAATTACCG -GCGTGTAATAACCGGTAAACTGCACGTTACCATAGTTGTCGGCACCTTCCATCTGCCAGGCATCAATGCC -GAACTGGCGCATATTGCGGGTATCACCGCCTGCGCGCAGCCACTCTTGCACCGCGTTATAAACATTACTC -TGGTTGCCATACAGACGCGGTGACGAATTACGGATATGGTTAATTTGCTCGGCAAAATCACCGGCGTTAA -TCGGCGCGCCAACGGCATCTGGCTGGTTCACCAGAGAGAAAGGCTGGGTAAATTTCCCGTCTTTATATTG -CTGTCCGCGATCGGTTGGTTTGGAAGAGCAGGCGGCAAGCATTGCCACAACCGTGCCCATAAGAAGGTAC -TTTACCCAACGTCCTTTCATTGTTCTCTTCTTCAGGTTAAAAAATAAGGCGCAACGAAGATAACAAACCG -CCGCGTTTAATGAAATGAGCAGCCTCTCCCTGACGCAAATTTTGCACAAAAAATAGGCTTTAGTGATTTG -TTTTTGTTCAAAATCATGCCAAATCCGTGATCGGGGTAAAAAAAAGGTTGCATGAAAACGCGAGCGGAGT -ATAGTGCGCATCCACGGACGCGGGGTGGAGCAGCCTGGTAGCTCGTCGGGCTCATAACCCGAAGGTCGTC -GGTTCAAATCCGGCCCCCGCAACCAATTAAAATTTGATGAAGTAAAGCAGTACGGTGACGCGGGGTGGAG -CAGCCTGGTAGCTCGTCGGGCTCATAACCCGAAGGTCGTCGGTTCAAATCCGGCCCCCGCAACCAATCAA -ATTTGATGAAGTAAAAGCAGTACGGTGACGCGGGGTGGAGCAGCCTGGTAGCTCGTCGGGCTCATAACCC -GAAGGTCGTCGGTTCAAATCCGGCCCCCGCAACCAATTATTGAACACCCTAACGGGTGTTTTTTTGTTTC -TGGTCTCCCATAAAAAAGCGCCATTCAGCGCCTTTTTATCATCCCCTTCTCGCCAGCGTCGCCCCATCGG -CAAAATACGCTTTAATCCCCGCAAGAATAGACTCCGCAACTTCCTGCTGGAAAGTCGCCGTTTTCAGTTT -ACGCTCTTCCTCAACGTTACTGATAAACGCCGTTTCGACCAGAATGGAGGGAATATCTGGTGCCTTTAGT -ACGGCAAACCCGGCCTGTTCAACTTGATTTTTATGCAGCTTGTTGATTTTACCGAGCTTATTCAGTACCG -CTTTACCAAACTTCAGGCTGTCGGCAATGGTCAGCGACTGTACCATATCGAACATGGTGTGGTCGACATA -GCGGTCACCGCTTTTGCTCACGCCACCAATCAAGTCCGAGGCGTTCTGGGTTTGTGCCAGATATTTTGCC -GCAGTACTGGTTGCACCTTTGGTTGAGAGCGCAAACACAGAGGAACCGCTCGGCTGACGACTGGTAAAGG -CGTCGGCATGGATAGAGACAAACAGGTCAGCACGCTGTTTCTGGGCTTTTGCTACGCGCACTTGCAATGG -AATGAAGATGTCTTCATTGCGCGTCATGTACACCTTCATATTGCCCTCTTTCTCGATCAGAGAGCGCAAA -CGGCGAGCTATTTGCAATACCACATCTTTTTCGCGCGTTTTGTATTTCCCCACCGCACCGGAGTCTTCGC -CACCGTGGCCAGGGTCAAGCATAATGACAATCGGACGATCGCGCCCTGCTTTACCCGGTTGTGGACCACT -TTGCGCTGGCGGCACCTGCTTTTCGAGGTCGCCTTTGTTGTAATCCTCCAGCAGCGCCAGCAGCGGGTCC -TGCATATCCTGTGCATTGGCCGGATAGAGGTCCATCACCAGACGCTCTTTAAACCCGGCGACCGGCGCAA -GGGCAAACAGCTGCGGTTTTACGTTTTGCTTTAATTCAAAAACCATCCGTACGGTTTGCGGGTCAAATTG -CCCGACGCGCGCCGACTTGATGAACGGGTCGTCTGCACGAATTTGTGCCGCCATCCCCTTGAGTACCGAG -TTCAGGTTTACATCTTCGATATCCACCACCACGCGTTCAGGGTTACTCAACGCGAACTGCTTATATTTCA -GCTGACGATTTGATTCCACCGTCACGCGGGTGTAGCTGGACGCAGGCCAGACGCGCACCGCCACGACCTG -GCTGACCGCAGCCAGACTGACCTGACTTACGCTCAATAGCCACATGGCACCCGCGCCTTGCAGTAAACGA -CGACGGCTGATTGCAGTGTTGGATCCTGACATGCCTCTCCCGAGCAAAAGAAATCTAAGCTGTGTAACAA -GTAAACGACTAATTTGACCGGAAACTTTAGCGAAAGACGCATAATCTGTCATCTAATAAACGGTAAACAT -TCTTTTTATATTCACGGCATTACTGATAAAAAAGTCGCTCTCGCATAAAATTTACACTTGCACCCTGCGA -AAAAACAGAATAAAAATACACTAATTTCGAATAATCATGCAAAGAGGTGTGCCGTGGTAAAGGAACGTAA -AACCGAGTTGGTCGAGGGATTCCGCCATTCGGTTCCCTATATCAATACCCACCGGGGAAAAACGTTTGTC -ATCATGCTCGGCGGTGAAGCCATTGAGCATGAGAATTTCTCCAGTATCGTTAATGATATCGGGTTGTTGC -ACAGCCTCGGCATCCGTCTGGTGGTGGTCTATGGCGCACGTCCGCAGATCGACGCAAATCTGGCTGCGCA -TCACCACGAACCGCTGTATCACAAGAATATACGTGTGACCGACGCCAAAACACTGGAACTGGTGAAGCAG -GCTGCGGGAACATTGCAACTGGATATTACTGCTCGCCTGTCGATGAGTCTCAATAACACGCCGCTGCAGG -GCGCGCATATCAACGTCGTCAGTGGCAATTTTATTATTGCCCAGCCGCTGGGCGTCGATGACGGCGTGGA -TTACTGCCATAGCGGGCGTATCCGGCGGATTGATGAAGACGCGATCCATCGTCAACTGGACAGCGGTGCA -ATAGTGCTAATGGGGCCGGTCGCTGTTTCAGTCACTGGCGAGAGCTTTAACCTGACCTCGGAAGAGATTG -CCACTCAACTGGCCATCAAACTGAAAGCTGAAAAGATGATTGGTTTTTGCTCTTCCCAGGGCGTCACTAA -TGACGACGGTGATATTGTCTCCGAACTTTTCCCTAACGAAGCGCAAGCGCGGGTAGAAGCCCAGGAAGAG -AAAGGCGATTACAACTCCGGTACGGTGCGCTTTTTGCGTGGCGCAGTGAAAGCCTGCCGCAGCGGCGTGC -GTCGCTGTCATTTAATCAGTTATCAGGAAGATGGCGCGCTGTTGCAAGAGTTGTTCTCACGCGACGGTAT -CGGTACGCAGATTGTGATGGAAAGCGCCGAGCAGATTCGTCGCGCAACAATCAACGATATTGGCGGTATT -CTGGAGTTGATTCGCCCACTGGAGCAGCAAGGTATTCTGGTACGCCGTTCTCGCGAGCAGCTGGAGATGG -AAATCGACAAATTCACCATTATTCAGCGCGATAACACGACTATTGCCTGCGCCGCGCTCTATCCGTTCCC -GGAAGAGAAGATTGGGGAAATGGCCTGTGTGGCAGTTCACCCGGATTACCGCAGTTCATCAAGGGGTGAA -GTTCTGCTGGAACGCATTGCCGCTCAGGCGAAGCAGAGCGGCTTAAGCAAATTGTTTGTGCTGACCACGC -GCAGTATTCACTGGTTCCAGGAACGTGGATTTACCCCAGTGGATATTGATTTACTGCCCGAGAGCAAAAA -GCAGTTGTACAACTACCAGCGTAAATCCAAAGTGTTGATGGCGGATTTAGGGTAAGCGATGAAAATCGTC -GGATGCGACATGCGTAACACTCGTACGTCGCATCCGGCAATTACGTTTATTCCCGTGAACTAAACAACGC -CGCCAGACCACTGCGCCGCTCAGTACGAGTGGCGATTGCCGCACTTAATATGCGCTCATCGGCATACAGC -GACAGACGGCGACGCGCGCGGGTCACCGCGGTATAAACCAGCTCTCGCGTTACTACCGGCGTGCGTTGGC -TCGGCAAAATCAACGCCGCATGGTCGAACTCCGATCCCTGCGATTTATGTACCGTCATCGCCCACGTAGT -TTCGTGCTCTGGCAAGCGACTCGGTTGCACAGACTTAATATTGCCGTCCGGCATCGCAAACCAGACGCGC -GTCCCCTGCCCGCGATCCAGCGCAATACCGATATCGCCATTAAACAACCCAAGCGCGCTGTCATTACGGG -CAATCATCACCGGTCGACCTTCGTACCAACGAGAGTGCGGATGACGATGAATTTTGCGCTTCTGTTGCAT -AAACTGCTCAATTCGCTCATTCAGTCCAGCCACGCCAAACGGCCCTTCCCGCAGGGCGCACAAAAGCTGG -TACTCATTGAACGCCTGAATGATTAAATCCGGCTCGGCACGCGCTTGCAGCAGATCCAGATAACGTCCGT -AACCCGCAAGAGCTTCCTCAAGCATCGCAATATAATCTTCGCCGCTCTGTAAAAGCCGTTTTTCGATATC -AGTAAAATCCTGCTGAAAAACGGTTTTCACTGCCGTTTTATCACCACGGTTGATCGCCGCAGCTAACTGA -CCAATGCCAGAATCGCTGCCGAAACGATAGCTTTTTTGCAGCAGGCAGAGACTGTCGCGCAAAGATGCCG -CTTCTGTGCCGGTTCCTGCCGGAACGTGAGTCCCCGTCAGGCGGCTTAGCTGCCTGGCACGCTCGGCGGT -AAAGCCCGCGTTGGCATAAGCGCAGATATCGCCCAGCACAGCCCCAGCCTCAACCGAGGCCAGTTGATCA -CGATCGCCGAGAAAGATCACTCGCGCATGATCGGGCAAGGCGTCGATCAGTCTCGACATCATAGGCAGAT -CGATCATTGACGCTTCATCTACCACCAGCACATCAAGATGCAGCGGGTTACCGGCATGATGACGTAAACG -CTGGCTACCCGGCTGCGCGCCCAGCAATCGGTGCAAAGTGCTGGCATCTTCCGGAATGCGTTTCTTTTGT -TCATCGGTCAGCGGTAACTGTCGCAAAGCCTTGCCGAGAGATTCGGTTAAGCGCGCGGCAGCTTTACCCG -TTGGTGCAGCCAGACGGATACGGCAGCGTTCGCCGTCGGCCATTTGAATTAACGCTGCCAGCAACTTCGC -TACGGTGGTCGTTTTACCGGTGCCAGGGCCGCCGGAAATCACCGAGATCCGCCGCGTCAGCGCCACTGCC -GCCGCAACTTTTTGCCAGTTAATTTCATCGCTTACTGGAAAAAGTTTGTCCAGGGTTTGCGCCAGTAGAG -CTTCATCAACCTCAATGGCATGATTCACTTCGTTGAAAAAGCGTGCCACTGTGCGCTCGTTACACCACAT -GCGATTCAAATAAAGACGATCGCCACAGAGGATCATCGGCGTGGGTTCATCTCCCCTGCTGACCGCTTGA -GAAGCCAGCAAGCATTCTTCCCAATTTTGTAGCTCACCGATTTCACTGACACAGGTCGCCAACAGCGGAT -GCGACGCCTCGTTATTTTCCAGTCGTGAAAGCGGCAAACAAACGTGTCCCTCTCCGGCATCATGACTTAA -CAGTGCCGCCGCGAGGGTGACGGCAGGATGTTCATCTCCCGCCACGGTCAGGGCAAATTGCACATCCAGC -GGGCGTAGCTGTTTGTGCTCCACAGCTTCCAGTAATTGCTTTTGCAATTTCATTACGCCTCCTCCAGGGT -CATACCGGCAAACATCTCATCCATCAGGGCAATCAACCCGGCGTTGGGTCGGGTTGTGTAAATCCCCTGT -TGCGGATGTTCTTTATCAACGCCACGCAGGAACAGATAAATAACGCCGCCAAAGTGGTGCTCATAGTCGT -AATCAGCAATGCGATGGCGCAGATAACGATGCAGCGCCAGGGTATAAAGCTGATATTGCAGATCATAGCG -GTGTGCCTGCATTGCCGCTGCCATAGCCTGTTGGGTGTAAGCCGAACTGTCTTCACCCAACCAGTTGGAT -TTATAGTCGAGCAGGTAATAACGCCCTTCGTGGCGGAACACCAGGTCGATAAAGCCTTTTAACATGCCAC -GTACCTGCATGAACTCCAGCGGCGGGCAGCCTGCGGATAGCGGGTCAAACTGGCGGATTAACGTATCAAG -CTGACTGGCGATAAGCGGTTCACTAATCGGCAGATAAAACTCCATCTCCACCTGTTTATTGCGGGCGGAA -AGTTGACTCAGGCTTACGCCGGTTTCATTGAGAGGTGCCTGGAGGACAGCCGTGATCCACTCGGTCAATA -CCGGTTCCCACTGCGATTCAAAGCCGCCGAGTTCCAGTTTTTCCCGCACCCAGTTCGGGTCAACCGGCTG -GGTAAAATCCAGGTCTTCAAACAAACTGTGCAAGAACGTCCCCGGTGACGCACCGCGCGGAAACTGATGT -GGTGTTAACGTCGGTTCTTCAACGACGCTGGCAACGCCTGCAGCATCGACATCCAGCCGAGGCATCAAAT -CCTGGGCGATACCGTGACCACGCTGTTGCAAACCAGAGTAGCTGGTGACGCGCCAGTTATCGCCGGGCAA -TCGTTGTAACGTCTTCGCATTCAGCTCTGCTGTAGAAACATCATTAACCTGCCAGGGTTGGTTATCACCA -GTTTGTGCCGTTTGCCAGGCAATATCATCATCGCATAACGCTTCAATACAGGTGCGAAGCCCTGCCGCAT -CTTGCGGTTCCCCTTTTTGCAGCAAACGCCCGAGCGCACTTTGGTGGACGTCGGTGTCACCTTTTTTATC -GCCACGACGGCGCACCAGCGGTGCAACGCCGAGACTGCAATGCCAAACCGAACGTGTCAGCGCCACGTAA -AGCAAACGCAGATCTTCCGCCAGACGTTCGGCCTCCGCGAGGTCGACGCTTTCTGGCGCAGCATTAAGAT -CCAGAACTGCCTCAAACGAGTGGCGATCGTGATAAAACGCCTGCTCCTGGACGCGGAAATTGGTGATAAA -CGGCAGCCAGACCAATGGATATTCCAGCCCTTTCGATTTGTGGATCGTGACAATCTGCACCAGATGTTTA -TCACTTTCGAGACGCATTTGTTGGCTGGAGGCATTACTGTCTGGCTCGAGGATATGTTGCGATAACCAGC -GTACCAGCGCATGTTCACTTTCCAGCTGCGTTCCGGCTTCTTGTAGCAGTTCGCTGATATGCAAGATATC -GGTAAGACGCCGCTCACCGCCTGCCGTTGCCAGCAAGTTTTCAGCAATGTTACGCGCCGACATCAGCGCC -CGCAGCATCGGCATAACGCCACGTTTGCGCCAGATTTGCCGATAACCATCGAACTCTTCGACTACCACAT -CCCACGCATGTTCGTCATTGTTCAGCGTTTCGATATCCAGCGCGTTCAGCCCCATCATTGACGTTGCCAG -CGCACTACGCAGGGTGTTCTCACGTTCGGGCGTCATCACCGCCTGCAACAACCAAAGCATTTCCTGCGCT -TCCAGAGTTTCAAAAACACTGTCGCGGTTCGAAAGGTAAACGGAAGGGATTTCCAGCAACGTTAAGGCAT -CGCGCACCTGGGCGGCCTCCTGGCGGCTGCGCACCAGCACACTGATGTCCGAAGCACGCACCGGACGCGC -GTCGTCGCCGTTCATCAGCAACGCTTCGCCCCGCTGTCCGGCTTGTAGCCAGTCGCGGATTTGCGCAGCA -CATACCTGCGCCATGGTACTTTGATAATCGCCAACGCCGCAGCTTTCGCCTTCCATCAGCCACATTTTCA -TCGCAGGCTGTGTTTCACCTTTAAATACAAAACGTAACGCCTGATTTTTCCCGGCTGATTTCACTGGAAT -AAACGGTATTTCGCGAAACATGAACGCGTCATCAGTCTGGCTGAAAAGCTTATTCACGCTGTTCACCATT -CCTGGTGCGGAACGCCAGTTGGTGTCTAAAGTGTAGTGGGCGTGAACTTCGCTACGCGCCTTCATATAAG -TGAAGATATCCGCACCCCGGAATGCATATATGGCCTGCTTCGGGTCGCCAATTAGCAACAATGCGGTTTC -CGGCTGATGGTGCCAGATACGGCGAAAAATTCGGTACTGCTGGGGGTCGGTATCCTGAAATTCATCGATC -ATTGCCACCGGGAATCGCGTACGGATCGCCGCTGCCAACACCTCACCGCTTTCGCTACGCAGCGCGGAAT -CGAGCCGACTTAACATGTCATCAAAACCCAATTCGCCACGGCGGCGTTTTTCACGCGCTACTGTTTCGCG -GATCTCAGCCAATGCGCGGGTGATCACCAGATCGCGGATCGACAATGGTTCTGCAAGCAGTTGATCGATC -GCCTCAAACAGTGGATGTCGCGGGGTTTCCCCCCCGGCCTTCGTGCGATCTTCTAAGAAACGCTGGGAGA -ATTTTTCCAGCGACTCCGGCAACTGATAACTGTTTGTCTCTTCTTCTGCCCAGGCGCTGATCTTGTCGAT -CCATTTAGCCTGATTGCTACGGTTAAACTTGCGTCGATCAATACCAGAAGATTCGATCAGCGCATCCAGT -TCACCCACTGCGTCGCGCCACTGCTGTTTTACCGTATCAATACGCGCCACAATTTGCGCGTGACGGGAAG -CCAGCGTTTCATCATCGGGCGGCGGTGCTTTGATAACCGGCGCTTCGCCTTGCAGATAACGATTAATATC -GCGCAGCAACGCCTGCGGCCCTTTCCAGGTTTCAAAGACGACCTGGGCTATTTCACGCGGCAGCGGGTAG -CAGTGGCGACGCCAGAAATCGGCGCAGGCCTGGTAGCGTAGCAGAGACTCATCTTCAATCAGCTGCTGCT -CAAACAGCATGCCGGATTCAAAGGCATTCAGGTTGAGCATGCGCTGGCAAAAGCCGTGAATAGTAAAGAC -TGCCGCTTCATCCATCTGCCGTTCGGCTAACAACAACCACTGCGCGGCTTGCGCTTTATCGTCGATCTCT -TCCAGCAGGCGTTCGTACAGTGGATTGTCGGTGGTTTCACGCAGACAGGCGATGCGCAACTCGTGGATAT -TGCTACGGATACGACCGCGCAATTCTGCCGTGGCAGCCTCGGTAAAGGTGACCACCAGCAGTTCTTCAAC -GGTCAGCGGGCGGGGAAAGGCGGCGGAACCGCCTAGTCCAAGTAACAGGCGCAAATAGAGCGCCGCAATC -GTAAAGGTTTTGCCTGTGCCGGCAGAGGCTTCAATCAGGCGCTCACCCTGTAAGGGCAAGCGCAAAGGAT -CTAGTGTCTCGGCGACATCACTCATTCTTTTCACTCATCAGGGGCATTGTTTGCTGCAACGCGCTGACGT -TCTCCCACACTTTCCAGCCTTCAGGGTGTACATATTCGGCTTTCCCGTTCTGGCTGCCGGAAATCTGCGA -CAGAATAGCCATGCCTTGCGGCTCGACCACCGCCTGATGGAAGAAATCAGCAAGTTTTTGCGGCGTCAGC -AGTTTTATCTGGGCCACGATTTTATCACGCGAATCGAAGCGCATATTGCCGCGATCGAAATCTTTACTTA -ACTTCGATGCTTCTTCGCCGAGCGTTTGCGGTGCCTGCAGCATCTGGGTAATTACCGCCTGCTGGATTTG -CGCAAACTCATCTGGCTTCATCGCTCGCAATTTTGCCTCTGCGGTTGGGAAAAACGCCTTGTAACGCTCC -CACAAGAATGAAGGCTGTTTATCATTGCTTTGCAAAAGGAAGCCCATGCCCCACTGACGCCCCACGCTCA -TTGGAAACGCAAACACGGCATAGCCCAATTGTTCTTCGGTACGCAACTGATTGTAGAACCACGGCTGTAC -GATCTGCCCCAACAGAGAGCTATAGGCTGAGCTGGTGTATTCATCGTAGCCAGTCGGTACAAATACCGCT -GCCAGTGCGGAGTCGGTGCTGTTACCGGCTTTTTCAAAGATGACGGATTGTTTTTTATCGACCACTACAT -CTTTGTTTCGACACCACTCTGAACCATCAGCGCCCAACTGTTTTTGCACATCGCGTGCCAGCGTTGTTGC -CTGGGCCTCGGTCATGTTGCCGATAACCATAAACTCTGGTCGAGCCCCTGATTTTAAGGCGTCGCGATAG -GCCAGCACCTCTTTCAACGTAATGGAGGGCAAAATTTTACGCCGTTCATCTCGCGAGAAGTACGGCACTT -GCGAGAGCATCTGCGCGGGCATAATCGCCTGCTCAAACGCTTTACCCTTTTCTGCGGAATCCATCATCTG -GTTATACCAGGACTTCGCCTGCTCAAGCTGATCTTCCGTAGCGGTATAGCTAAAGTACCCCTCGAGCAAT -GCCTGGAACAGCTGCGGCAGACGCTGGGTGTAACCATTAGCATTAACCATAAGGCCGTTGTTAGCGTTGG -TGGAAAAACTTATGCCACCAACCGACGCCTGGTTGCTTAACTGATCAAGCGCCAGCCCTGCGAGATAATC -ATTGAGCGCAAACATCACCTGATTGCGGGCGCTGTCCATGGCTTTCGGATTACGCAAAATCAGGCTGACA -TCAGCTTTGGGCTCGCTGGCAAAATAACGGCTTGGCGCATACACCACGCGCAGATTCGACTCATCAACAA -TCAGCTCTGGATGGTCGTATTTCTTCTCTGACTTAATCAGCGAGAAATCATCAGGAATATAAGGGTTAAG -CTCTGGCAAAGAGAGCGCAATGTCGGCGGCTTTTTTCTGCCAGTCGGCGAAAGTTTGTGCGCTGATTTTA -TCGACCTGATACGGCGCATCGACAAAGTAAGCCGTTTTGTTGTGCGGCTCTTTCGGGCTGATATACCAGA -TACGCGCATTCTGCGGCGTCATCATCGCCAGACGTTCCTTTACTGCTTTAGCATCGTACCGATCGGCAAT -ATTGACTGCATCCAGCGTATGCTCAACAGGAACGCGAATCATGGTATCTGCCAGCCATTCGACGTAATCC -ATATCACGGGTGATCGACGGATAACGGAAGTCGATATCCAGCACATTCGCCAGTTCATCGAAGTATTGTT -TATCAATGCCTTTTTCACGTAACAGATTGAGATAGCTAAAAATTGCCGCCACAACCTGATCGCGATTAGC -CAGGCCTTTATCGGTTAAAGACGCAGAGATCGCTAATACGCCGCTGTTGCCGTTGACGATAGGATCGGAG -TTGGCGCTAATGCCCTCAACTAATCCCTGCTTTTGCAGCCAGTCAGAAAGTGTACCTGGGCTGCGATTGC -CAATCAGATAGGTAATCAATTCATCGGTTTTACTACGGAACTTCGCTGAGTTGTTATCGATGCGAAACTC -AACGCGCAACACTTTACGCGGCAGCGCAGGGACGTAATGAATGATAATGCCCTTTTGCGCGTCGGTGACT -ACCGGCACGGTGATTTCCGGTTTTTTGCTCTCTTTGTTCGGCACGCGACCAAAGGTGTCCGCCGCCATTT -TTGCCAACTCCGGCAGCGGTTTATTACTGTAAATAACCGCCTTCATCAAATTGGCGGAATAGTACTTCTC -GTGGAAATCTTTCAGCGCCTGCTGCACCGGATTACCAGGTTTGTCGCTTAAAGTTTCGAGGTTACCACCA -GAAAACTTTGAACCGGGGTGTGCCGGGTTAATGGTTTCTGCGCTGACCTGTGCCATGCGCATCCCGTCAC -GCGTACGCGCCATGGTTAATTCAGCGTTCACCGCATTACGCTCACGTTCGGCATATTTCTTGTCGAGCAA -AGGTTCAGCAATAGCATCGGCCAGGCGGTCTACCGCACCAGGCAAGGCGTCGTTCTCAACTTCCAGATAG -AAAGCCGTGCGATACGGCGCAGTGCTGGCATTGTGACTACCGCCGTGCATTTTGAGATATTCGGCCAGAC -TGTCAGCCTGCGGGTACTTTTTCGACCCCATCAGACTCATATGTTCAAGGTAATGTGCCAGCCCCTGGTA -CGCCTCGGGATCTTCCAGCGACCCAACGGGCACCACCAGCGCCGAGAGCGATTTAACTGCCTGCGGATCA -GAAACCAGCAAGACCACCATACCGTTATCCAGACGTATAGCCTGATACTGGCGGTTATCTTTATCACTTT -TACGGATGGTTTCCTGAATCGGCTGCCATCCCGTTTCTGCCTGACTTAAGGGTGCCCAAAGGGCAACTAA -CAACAATAATGCTTTGAACCAGGTGCTGCGGGGCATTCACGGACCTCATAATCAACTTAATTTTCTGTCC -AGATTCAACACGTTAACGCAAATCATCTGCCAGAATTTAATCTTGTGCTGCACGAGTCAGCCTATGTTTA -TATAACCATCAGTCCGTGACTGGTGCGCATCATAAAGTAAGCGGATAGATTGCGCAATTTTTATACAGCA -CTCATGACTGATTAAAGCGAAACAGCGGTAACAGGAAACGTTGCGACTGTTCAACGATGGCCTCCATTGT -CTCTGGTGTTAATTGCCGCCAGAGCCTTTGATACCAGATATCATCACCTTCGCCACGCACCATCATGTTG -CCTTCGTAAGCCTGAAGGAATTTCGTACGGGCTTTTTGCAACGTGGAATCGTCATCCAGCATGGCATCGT -TTTGCGCGTCATAACAGGTTTTTAGCCACGCGCCGCCACTTTCAGGTAACACCAGCAATGGCGCGGACAT -TCCTTCACGATACCCCTCAATCAGTTGTGAGAGGTAATGCAAAGCCTGTTCGGCTGCAAGCGGCGGAAAA -CGCCACTCGCCGTCTTTGCGTAGAAAAAGGCGACTTTCACCATTACCACCGCTGGCACAGTAGACAAGGT -GTTCCAGCCAAAGTTGCATTCCCTGGGCCACACTTAATAAAGAGGGACGCCAGCGCAACAGGCCATCCGG -CTGCACCTGCGGCAACCAGCCAGTTATCTGCACACCGTTGCAGGCGAGATCAATTTCCATACTCTGCCCC -GGCTGGCGACAGGCAATGACTCTGTCGGCAAGCTGCTGCATCTCCTGGCACTGTGTTTCCCAGAAAATTT -CACCAAAAGCGCCATACGGTAAATCCCCTGCCGCTCGGAAGCGGCGGAACAAGCGTTCGGCATCATCCTG -CTCAACCAGTGCATTCAATAACTGCTGATTGATTTGATAACGGCTAAGTCCTTCCAGAATAAATGGCTCG -GTGTCGGGGATTTCGCTGTCTTCAGTACGGAAGTTCACCTGCAAACGCATCTGGAAAAATGCCCGCACCG -GATGTGCCCAGAATCGTTGTAGCGTTTCCAGCGGCACGGTTTCCGGTAAGGTAAACGGCAGCGGCTGAAC -AAATTCAGAATGTGCTTTACCAGCCTGGCTGGCCGCAGGTAGCCATTCACGAGCATAGCTTTGTCGTTCG -CCTGGCTGGTAGTTTTGTGGATCAAACGGCATCCGGGTATGGAGGCAAGTAAGATGCGCTTTTACCCTTG -CCTCGCTTTCATCACAGTTGAGCGCTTCATCGCCCGGTAGATAATGACTTTGCCCGATGTAGTCGATCAG -TTCCTGCACCAGTACCGACGGGAAACGCTCACTGTTATCCTGAATGGAACGACCGATATAGCTGATATAG -AGTTTTTGCTGCGCGGAAATTAACGCTTCCAGGAACAGATAGCGGTCGTCATCGCGACGGCTACGGTCGC -CACGCTTCGGTTTCTGGCTCATCAGGTCAAAGCCCAATGGCGCAAGCTGACGTGGATAAACGCCGTCGTT -CATTCCCAGCAGGCAAACCACTTTGAACGGAATTGAACGCATTGGCATCAGAGTACAAATGTTAACCGGT -CCGGCGAGAAAACGCTGGCTGATACGTTCTTGATCCAGACGCTGTGCCAGTTCATCACGCAATAGTGACA -GCGGCACCGCGTCGCCATACTGCGCACCTAAACCTTCGGCGATAATCGCCTGCCATTGTTGTTCGATCAG -CGTCATCGCCGCTTCGGTTTCCGCATCCGGCAGGAAGAAGGCGTTGAGCATATCGCGACAAACCGGCAAC -CACTCTTCCAGCGGACGCTCCTGTGCCAGCCCGCGACGCCAGATGTTTAGCTGCATTAGCAGTGAAGCCA -GATGCCCCACCAGTTCTGCAATTAAGCCGCTCGATTCATCATAAGGTAGAACCGATTGCCACTCGCCCTG -CGCGCTCTCCATCGCGTAGCCCAACAACATACGCGTCAGGCCAAATCGCCAGGTGTGTTGTCCGGTGGCG -GGGAGTTCCAGCTCGCGAACGTTGTCGTCATCTATGCCCCAACGAATGCCGGATTCGTTGACCCACTGGC -GTAAATAACGCAGCCCTTCTTCGGTGATGTCAAACCGCGCCGCCAGCACCGGCACATCCAGCAACGCCAG -CACATCCTCTGACACAAAACGACTGTCAGGCAGTGATAACAGGCTGATAAACGCTTCCAGTACCGGATGT -GACTGCCGCGCACGACGGTCGGAAATGGCGTAAGGTAGGTAACGATCCGCAGGTGCGCTACCAAACACAG -CCTGAATAAACGGACTGTAGCTGTCGATATCAGCCACCATCACGATGATGTCGCGCGGAGTAAGTGTCGG -GTCTTCCTCCAGCATCGCCAGCAGGCGATCGTGTAAAACTTCAACTTCACGCTGCGGGCTATGGCAAACG -TGGAAGGTGATACTGCTATCCAGTGGATCAAGCGGGCGTTTGTTATCGCTACGGGAAAACTCTTCGATGT -TCACACCAGCAACGGCGCGGTTTTCCAGTTCCAGAATGTCAGACTGAATGTTATGCAGCAGGTTATCTGG -CGTGACATCGACAAAGGCGTCCAGCTCCTGGCTGCTCTCCAGGTCAGAAAGGAGATAAATGTAGTCGCGC -CCAAGCTTACCCCATGAAGCCAGCAGCGGGTTGCCGACATCCTGTTCACCATCGCTGTTAAAGAGCTGCC -CGGCATTTTCGCTATCACGAAATAGCGGCAATTCGCGATCTTCAAAACTGTGTCGACGCTGACGGGTCAG -CAGTTTCGCCAGATAAGCAGGATCTTTAATATCGCCCCAGTAATAACGGCAGGGGTTGGTAAACAGGAGA -TGGATTTCAATATGTTTACCCAGCGCCTGTAGCGCCTGGAGATAAACAGGCGGTAACGCGGAAATACCGC -ATATAAAGACGCGCGAAGGTAACCCCGGCGGGCAGGTCGTCGCGGACTCCAGCGTTTCGATAAAGCGCTG -ATAGAGATTGGCGCGGTGCCAGCGCGGTTGCCCGAGTTGATGGGTATATTCCACCAGCGCCTTCCACAAC -GGGGCTTGCCAGGCCTGTGCTTCTCCCAGCCCTTCAACCAAATGTCCTGTTTCCCACTGTGCCAGCCAGT -CCGGACGATAGACCAGATACTGGTCAAACAGGTCCGCCGCTTTTGAGGAAAGCTGGAACAGTTTTCGCTT -GTCGCTATCGTCAGTCAGATAATGCCGCAACAGGGTAAAGTCTTCGCGCTCCAGCAATTGCGGCAGCAGA -GTCATCAGTTTCCAGCTCATGCTCTGTTTGTTAAAGGCGCTCTCTTTGGGGATTTCCGGTAACACCCGGA -CGAACATATCCCAGATAAAGCTCGCTGGCAGCGGAAAATCAATGTTTGCCGCAATACCAAACTTTTGCGA -CAGGGTCATTTGCAGCCACTGTGCCATACCGGTACTTTGCACCAGAATCATCTCTGGTTCGAAAGGATCG -TCCAGCCGTTCGCGTTCGACAATAAACTCCATCAACGCTTCCAGCACGTCCAGACGATTGGAATGGTAGA -CCCTTAACATAGCGGCTCCTGACTACTGACGATTCGGGCAATGCAGGCGGGTCATCTCGCCTTCTCTGCC -CCCGGGTGAAACTAGCGTAACGCTGATGCTGACACATCCCGCCTGCGATGTCTGCATTCGGTTGACCTGC -CAGTTGGCAGGTGGCGAAATCGCGCGCAGTTGCGTTTGCTGCCAGCCATGCCGCCAGAGCTGTTGGTACT -GGTTTCTGCTGGCAAGACTGTTCATTAATGTTCGCTGGAAACCCGATAACGCAGTGACAATCATCACCAT -CAACACCATCGCCAACATTACCTCCGGCAGGCTAAAGCCTTGTTGATTCTTCAGGGAAGCTGACATAACG -CCCTCTCTTTCAGCGGACAAAAATCGCTCCAGCCGCGTGGCGAAAAAACAATGTTTCCATCAATGACTTC -GCCTGTTCGCCACAACGAAACGCCTTCATAACCGGCAATCAATAAGGCTTCATTATCTGCCAGTAAACGC -AAACAAACCTGGGCATCGGTTTCAGCGTACTGCGAGCACTGAACTGCTGGCTGCGTCTGCCAGCAGTGCA -TTTTTCCCCACGCCAGCGCCGACTGAACGATGGCCTGGCGGCGCAATGACTGACTTTCCATGCTCACGCG -AGAGGCAAAACTGCGATCCTGTTGGCTCATTCCTTGTAATAGCAAACTACCCAAAACCAGCAGCATCAGG -ACCAGAGCCAGTGACGAAACACCCTTTTCGCGGTTCACAGGTTGAATCCTGTCACGCTATAGCTGGCATT -CACCACGGTTTGCGGTTCAGACTTACTGGCAGCACGCATATTAACCGTCAACACCGGCGAGAAGCCGCTG -ACATCCTGACGTACGACCTGAAAAGTGTCGATAATGATGGCATCCGGATTAGTGACTTTATCCCAGCCCT -TACCTTCACAGGATGTCGCACCGCGTAGCGTTTCCAGCACATGCTCCTTCAGACGAAATCCAATCTGGTC -GGACTCTTTTACCGGTTCGCGATCCCAGATACCGTTACTGTTCGCATCCCACTGCACAATGACACAGTCA -CCCTGTCCGACAATTTCCAGCCCTTCGCCGGTACAGATGCCATGACAATAACCCGCCCTCTGGAGATGCT -TCGCGACGGTAAATACCCGCAGCCAGATTTCATCTTCCAGCGCCAGCTTACGGGTGCTCGTTAAACTTTC -ACGCTGTAACGCAGGCAGAAAGCGTGCCGCCCCCAGCAACAATACGCTACTGATCGCCATAGCAATCAAC -ACTTCCAGCAGAGAAAAACCTTGCTCTTTTACAGGCATCCTTCTGTTTCTCCTTGCTGACAAAGCCGGAG -TCTTCCCCACGGCGAAACCACCAGCCACCACTCGCCCGTTGAGTTTTTGAAGCGAATATGCCCGGCCCAT -GCGGTATTGCGCAGGCCAAAGAAAGCAAGCGAAGGTGTCAGGTCGCTCATTTCGACTTCGGGCCAGCGTG -GCACAAAGACCAATGGTGAACTGCCATGACAGGTATTGGCCCCAGCAGCGGAACTCACAAGGCACCATAA -CGTCCCCTCCCTGATAACGCTGATACTGTGGTCGCGGTTATGCCAGTTGGCATCTTCACGTAAATAGAGC -AAATAGTCCCGCGCCTGGCTGGCGGTTTGCCATAGCCGTTGCGACTGCTGCCAGTATTGCCAGCCATAGA -GTCCACTTGCGCTTAGCATGACCAAAATCAGCATCGCGACCAGCGTTTCAATCAGCGTATAACCACGTTG -TGTTTTCATGCCGGCAGTATGGAGCGAGGAGAAAAAAAGACGAGGGCCAGTTTCTATTTCTTCGGCGCAT -CTTCCGGACTATTTACGCCGTTGCAGGACGTTGCAAAATTTCGGGAAGGCGTCTCGAAGAATTTAACGGA -GGGTAAAAAAACCGACGCACACTGGCGTCGGCTCTGGCAGGATGTTTCGTAATTAGATAGCCACCGGCGC -TTTAATGCCCGGATGCGGATCGTAGCCTTCAATCTCAAAGTCTTCGAAACGGTAGTCGAAGATGGATTCG -GGTTTACGTTTGATAATCAACTTCGGCAGCGGACGCGGTTCGCGGCTTAATTGCAGATGAGTTTGATCCA -TATGGTTGCTGTACAGATGCGTGTCGCCACCGGTCCAGACAAAATCACCCACTTCCAGATCGCACTGCTG -CGCCATCATATGCACCAATAACGCGTAGCTGGCAATGTTGAACGGCAGGCCGAGGAAGACGTCACAGGAG -CGCTGATAAAGCTGGCAAGAGAGTTTGCCGTCTGCCACATAGAACTGGAAGAATGCATGGCACGGTGCCA -GCGCCATTTTATCCAGTTCGCCTACGTTCCACGCTGAAACAATAATGCGGCGCGAATCCGGGTCGTTTTT -CAGCTGGTTCAGTACCGTAGTGATCTGGTCAATATGACGACCATCTGGCGTTGGCCAGGCGCGCCACTGT -TTACCATACACTGGCCCGAGGTCGCCGTTTTCATCGGCCCATTCGTCCCAGATGGTGACATTGTTTTCGT -GTAGATAAGCAATGTTAGTGTCGCCCTGCAGAAACCACAGCAGTTCATGGATGATGGAACGCAGGTGGCA -ACGTTTAGTTGTCACCAGCGGGAATCCATCTTGCAGGTTAAAACGCATCTGATGACCAAAAATGGAAAGC -GTTCCGGTTCCGGTACGGTCGTTTTTCTGTGTGCCTTCGTCGAGCACTTTTTGCATCAGTTCTAAATACT -GTTTCATGGTTCCTCAGGAAACGTGTTGCTGTGGGCTGCGACGATATGCCCAGACCATCATGATCACACC -CGCGACAATCATCGGGATGGAAAGAATTTGCCCCATGCTGATGTACTGCACCCAGGCACCGGTAAACTGC -GCGTCGGGCTGGCGGAAAAACTCAACAATGATGCGAAACGCGCCGTAACCAATCAGGAACAAACCTGAGA -CAGCTCCCATTGGGCGTGGTTTACGAATATACAGGTTGAGGATAATAAACAGCACCACACCTTCCAGCAG -CAGCTCGTAAAGCTGTGATGGGTGGCGCGGCAGCACACCGTAAGTGTCGAAAATGGATTGCCACTGCGGG -TTGGTTTGCAGCAGCAAAATATCTTCTGTACGGGAGCCAGGGAACAGCATGGCAAACGGGAAGTTCGGGT -CAACGCGGCCCCACAATTCACCGTTAATAAAGTTGCCCAGACGCCCGGCACCAAGACCAAACGGAATGAG -TGGTGCGATAAAATCAGAGACCTGGAAGAAGGAACGTTTAGTACGGCGGGCGAAGATAATCATCACCACG -ATAACGCCAATCAGGCCGCCGTGGAAAGACATGCCGCCGTCCCAGACACGGAACAGATACAGCGGATCGG -CCATAAACTGCGGGAAATTGTAGAACAGAACATAACCAATACGTCCCCCGAGGAAGACGCCGAGGAAGCC -CGCATAGAGTAAGTTTTCAACTTCATTTTTGGTCCAGCCGCTGCCCGGACGATTCGCCCGTCGTGTTGCC -AGCCACATTGCAAAAATGAAACCCACCAGATACATCAGGCCGTACCAGTGAAGCGCCACGGGTCCTATTG -AGAAAATGACCGGATCAAACTCCGGAAAATGCAGATAGCTACTGGTCATCTGTCACCACAAGTTCTTGTT -ATTTCGCTGAAAGAGAACAGCGATTGAAATGCGCGCCGCAGGTTTCAGGCGCTCCAAAGGTGCGAATAAT -AGCACAAGGGGACCTGGCTGGTTGCCGGATACCGTTAAAAGATATGTATATGATCCGCGCTATAACCCTC -CGCGAATCAGCCCGCCCATGCCGCGACGCTCCATAAAGGCTGCAACCTGATGGCGAACTTCGGTCGCCAG -TTGCGCTTCCAGACTACGCTGCGCAAGATTTTCTGCTTCGGCATAATCAATGCGCCGCAGCAGGTATTTT -GCCCGCGCTACAGAACGTCCGTTCATAGACAGATGGCGATACCCAAGCCCAATGAGGATTGCCACGCACA -TGGGATCGCCCGCCATTTCACCGCACAAACGGAGATCGATTCCATGTATTTCCGCTTCCCGGGCGATCAT -CGCCAGAGCTCGTAACATTGCAGGATGAAGACTGTCATAAATGTTCGCCACCCGGGTATTGTTGCGATCA -ACGGCCAGAATGTATTGAGTCAGATCGTTGGTGCCAACAGAGATGAAATCGACCCGCTTTGCCAGATGCG -GCAGCATAAATACCATTGACGGCACTTCCAGCATGATGCCGATACGTGGTTTGGGAATTTCGTAACCGAT -CATCTCCTCGACTTCACGTCCGGCACGTTCAATCAGGCGGCGTGCTTCATCAACTTCATCGAGGCTTGTG -ACCATCGGCAACAGAATATTCAGGTTGCCCGTAGCGGCATTAGCACGCAGCATCGCCCGCACCTGGATCA -AGAAGATCTCCGGCTGATCGAGCGTAATGCGAATCCCACGCCAACCCAGGCATGGATTCTCTTCGCTGAT -CGGCATGTAAGGCAGCTGCTTATCTGCTCCGACATCCAGCGTACGCAAGGTGACGGGTTTATCATTGAAC -ATTTGCAGCATCCCCTGATACTGCGCCACCTGTTCTTCTTCCGACGGGAAACCACTTTGCAGCATGAATG -GGATTTCAGTGCGATAAAGACCGATGCCATCAATACGGCTGCCCAGTTTTTCTTCATGTTCCGGGCTTAA -ACCAGCATTGAGCATGACTTTTATACGCTCACCGCTTTTTAACTGCGCGGGTAAATTGACGTCATCTTCC -GCCAGACGGCTAAGCTCAATCTCTTCACTAATTAGCCGCTGATATTCTTGCAGCAGTACCGGCTCCGGAT -CGACCAGCAATTCACCGCGATAGCCATCAACGATCAGCGTCCTACGATGCAGCACCGAAGGCTGAATATC -CGCGCCCATCACGGTAGGGATCCCCAGCGCACGTACCATGATCGCAGCATGGGAGTTGGCTGCGCCATCT -CGCACGACAACACCGACTAAGCGATCCTGGGGCAGCTCAGCAAGCGTTGTCGCTGACAGTTCATCTGCCA -CCAGAATGAAACGTTCCGGCCAGGCGTTCGGCCCTTGATTAGCGTCATCAAGATGAAACAGCAATCGCTG -ACCCAGCGCACGTAAATCGCCAGCCCGCTCTTTGAGATAGTTATCACTTAGCGCGGCAAACTGTTCGGCA -AATTTTTCAATGACCGTTTTTACCGCCCACTCTGCCACCGAGCCTTTATCAACCTCGGCAAACAATTCGC -GACGCAGCCGGGTGTCCGAAAGCAGGTGCGAGTAAAGATCGAAAATAGCCGCCGTTTCTTTTTGTGCACC -GGCGGCAAAGCGTTTGCTGTAGCGGCGAAACTCGTTTGCCGCTTCTTCCAGCGCCCCGGTCAGTCGTTCG -CGTTCCAGAGCCGGATCCAGCGTTGATGCCTGATACACCTGTTCCATTAAAGGTAACGTGGCATCCTGCC -AGCCTTCGGCAATCGCCACACCAGGTGCTGCCGGTAATGCGCGGATTCGCGTCTGGCGATATTGCCCAAA -CAAGGCAGTCAACTGCGACTGAGAAAGAATAGCTGCCATCTGGGTGGCAAGCGTCACCAGGAAGGATTCT -TCACTTTCGTCATACTGGCGCAACTCTCGTTGCTGTACCACCAGTACACCAAGCAACTGGCGACGTTGAA -TAATTGGTACGCCTAAAAACGCGCGGAAACGTTCTTCTTTTACGGAGGGGATGTATTTGAAGCTGGGGTG -CTTTTGCGCATCTGCAAGGTTTATCGGTTCCGCCAGCCTGCCAACCAGGCCGACGATCCCTTCATCAAAC -GCGAGCGTTACAGTGCGACCGCGTGGTTTTTTCAGCCCCCGGGTCGCCATCAGGTAGTAACAACGTCGAT -CATGATCGGCCAGGTAGACCGAACAGACCTCGGTATCCATCGCAAGACAGATGTCGGTAACCAGAATATT -TAACGCCTCATTCAGGCGTGGTGCGCTGGCTACCTTTTCGACTATTTCGCGCAGGCGAGTGAGCATAATT -GGCGTGACTTAACCTCTTTTACGTCGATAAGCAGATGCGTTTTGTGGTTTTGGCGTATTTTCCTGCAGTG -ACATCACCACACTCGCGAACTCTTTCATTACCCTACGGTAGACATCACGTTTAAATGACACCACCTGTCT -GACCGGATACCAGTAACTTACCCATCGCCAGCCGTCAAACTCTGGTGTACTGCTGGTTTGCATATTGATT -TCTGCATCGCCGCTCACCAGCTGCAAGAGAAACCATTTTTGTTTTTGGCCGATACAAACCGGCTTCGTGT -CCCAACGCACCAAACGTTTCGGTAATTTGTAGCGCAACCAGTTACGCGTTGAAGCAAGGATTCGAACGTC -TTTGCGGCTTAATCCTACTTCTTCAAACAATTCACGGTACATCGCCTGCTCTGCGGATTCTCCGGGGTTG -ATTCCGCCTTGCGGAAATTGCCAGGAGTGCTGACCAAATCGCCGGGCCCACATTACCTGCCCCTGGCGAT -TACAAATCACGATACCTACGTTTGGGCGGTAGCCATCGTCATCAATCACCGGACTACCTCAAAATAAAGC -TTTATATACGAATGATTGTTTCATACTCCAGGAAGACGGTAAACCACTCTCTGCAGGGCATTACACACTA -ATAACAATTGAATAACTCACAGTTATGTGCAGAGTTATAAACAGAGGAAGGGGTGGATAGCCGTTTTTAT -TCACCTTTTCTGTGGATAGAGTTGTGAAGAACTACGGAATTACTACGGGAAAACCCGGAGCATTCTGAAT -AAGCCCGATATAGACATTTTAAAATATTCATTATCAGTCAATGCATTACATGTAATTTTAGTAATGAAAA -AGAGTAATTCGTGACCCAGGTCACACCTCTCATTTACGGGTTGGCGAAAGATCAACCAATGCCGTATTTA -TCCACAGAATGTGCCACTAAGTTAAGCACTGAACCACTAAAAACTGGAGTTTCGTCGCACGTCAAGGCTG -TAAATGGAAACAGTAGTGGAGGTTTTTCACAGTTATCCCAGCTTTCTGTGGATAACATGGTGTAAGATCC -TGTTTATTTTCAGTGACCAGATTTGGAAAACCCGTTGCAGTGTTGCGCAACTCGATTACCGGCAACCTAA -AAAGCAATATAAATCAGAGAATTGAACAACGCATGTGGAAAAAGTTACACTGCGAATATTCGGCACATAA -TTGCTGTTTGTTTTTTAATCAAGGTATCATGACATGTCCCAACCTCGCCCACTGCTCTCTCCTCCCGAAA -CTGAAGAACAGTTGTTAGCGCAAGCACAGCAACTTTCTGGTTATACATTGGGAGAACTGGCGGCACTTGT -CGGGCTGGTTACGCCAGAGAATTTAAAACGCGATAAAGGCTGGATTGGCGTGTTACTGGAGATCTGGCTA -GGTGCCAGCGCAGGGAGTAAACCTGAGCAAGATTTTGCTGCTCTGGGCGTGGAACTTAAAACTATCCCTG -TGGATAGTCTTGGTCGTCCGCTGGAAACAACATTCGTTTGTGTTGCCCCGTTAACGGGCAATAGCGGGGT -GACCTGGGAAACCAGCCACGTGCGCCACAAACTCAAACGCGTACTGTGGATACCGGTTGAAGGCGAGCGC -AGCATCCCGCTGGCGCAGCGTCGCGTTGGATCACCGTTGCTGTGGAGCCCGAATGAAGAGGAAGACCGGC -AGCTACGCGAAGACTGGGAAGAATTAATGGATATGATTGTTCTCGGTCAGGTTGAGCGGATTACCGCTCG -TCACGGGGAGTATTTACAGATACGACCGAAAGCAGCGAATGCGAAAGCGCTTACCGAAGCCATTGGTGCC -CGGGGCGAACGGATTCTGACGCTGCCACGCGGCTTTTATTTGAAGAAGAATTTCACCAGTGCACTACTGG -CCCGTCATTTTCTGATCCAGTAGCCATCGCTTTGACCTGCCGCTTTCCGGGCATATAATTACCGCTTCAT -TTTTTTGGCAGGGCTTTTTAGATGTTATTTGCATGGATAACCGATCCTAACGCCTGGCTTGCGCTCGGTA -CGCTGACGCTGCTGGAGATCGTTCTTGGGATCGACAATATTATTTTCCTTTCTCTGGTGGTGGCAAAGCT -TCCCACAGCACAACGTGCTCATGCGCGCCGTCTGGGGTTGGCGGGAGCCATGGTTATGCGTCTGGCGCTG -CTGGCATCAATCGCCTGGGTTACGCGCCTGACAAATCCGCTTTTTACAATATTCAGTCAGGAAATTTCTG -CCCGTGATTTGATTCTGCTTCTGGGTGGCTTGTTCCTTATCTGGAAAGCCAGCAAGGAAATCCACGAATC -CATTGAAGGTGAAGAAGAAGGGCTGAAAACACGCGTTTCATCATTCCTCGGCGCTATCGTGCAGATTATG -CTGCTGGATATTATCTTTAGCCTCGACTCGGTGATTACGGCTGTGGGTCTGTCAGATCACCTGTTTATTA -TGATGGCAGCCGTGGTGATTGCCGTAGGCGTGATGATGTTCGCCGCGCGCTCGATTGGTGATTTTGTCGA -ACGCCATCCTTCGGTAAAAATGCTGGCGCTCTCTTTCCTGATTCTGGTGGGCTTTACCCTGATTCTGGAA -AGTTTCGACATCCACGTACCGAAAGGTTACATCTACTTCGCGATGTTCTTCTCTATTGCGGTTGAAAGCC -TCAACTTGATTCGCAACAAAAAGAATCCGCTCTGATACTCCGTACGCTCTCCTGCGGGAGGGCGTACTCA -CTCCTTTTACCCTCACAGTTTAAGATTTTCCTGCTTTCAAGATATATAACGTCGGTTTATAAACAGACTA -TTATCATAGGTAGGCCAAATGAGGATAACCGGATGAAAAAATGGGCAGTAATAATTTCTGCAGTCGGACT -GGCGTTTGCTGTTTCCGGGTGTTCCAGTGATTACGTCATGGCGACCAAAGATGGCCGTATGATTTTGACC -GATGGAAAACCTGAAATTGATGATGATACCGGGCTGGTGAGTTATCACGATCAGCAAGGTAACGCGATGC -AAATTAACCGTGATGATGTTTCGCAAATTATTGAACGTTAACAAATAAGGTCAGCATCCGGCTGGCCTTA -AGATTTTTCTCTTTCCCTTTTCCCTTCCCTCTGCCATTTTTATATTCCTTATGTCGTGATTATAAAAAGG -AAACGGCTATGCAATATCACCGTATACCCCACAGTTCGCTGGAAGTCAGCACGCTGGGGCTTGGCACGAT -GACGTTTGGTGAACAGAACAGCGAAGCCGACGCCCACGCACAACTCGACTATGCCGTCGCTCAGGGCATT -AACCTTATCGACGTTGCCGAAATGTACCCAGTACCTCCGCGCCCCGAAACGCAAGGGTTAACCGAAACCT -ACGTCGGCAACTGGCTGGCGAAACATGGCAGCCGCGAAAAGTTAATTATCGCCTCCAAAGTGAGCGGACC -GTCGCGCAATAATGACAAGGGCATCCGCCCGGATCAGGCGCTGGATCGGAAGAATATCCGCGAAGCGCTG -CATGACAGCCTCAAGCGCCTACAGACTGATTACCTCGATCTTTATCAGGTGCACTGGCCGCAGCGCCCGA -CCAACTGCTTCGGCAAACTCGGTTATAGCTGGACGGATTCTGCGCCTGCGGTTTCGCTGCTGGATACGCT -GGACGCACTGGCAGAGTACCAACGCGCGGGAAAAATTCGTTATATCGGCGTGTCGAACGAAACTGCATTT -GGCGTAATGCGCTACCTGCATCTGGCGGACAAACACGATCTGCCGCGTATTGTCACCATTCAGAACCCTT -ACAGTCTGTTAAACCGCAGTTTTGAAGTAGGTCTGGCAGAAGTCAGCCAGTATGAAGGGGTCGAACTGCT -GGCCTATTCGTGCCTGGGTTTCGGCACGCTGACCGGGAAATATCTCAATGGTGCAAAACCCGCTGGCGCA -CGTAATACGCTCTTTAGTCGGTTCACCCGCTATAGCGGTGAGCAAACGCAAAAAGCCGTCGCGGCGTATG -TTGATATCGCCAGACGTCATGGCCTGGACCCTGCTCAGATGGCGCTCGCGTTTGTACGCCGTCAACCGTT -TGTTGCCAGCACTCTGCTGGGCGCAACCACGATGGATCAGCTGAAAACTAACATCGAAAGTTTGCATCTG -GAGTTAAGCGAAGACGTATTAGCTGAAATTGAAGCGGTGCATCAGGTTTATACTTATCCGGCACCATAAG -ATTAACGCCGGTTAAAACCGGCGTTAAATATTAATGACGGCGCTGCCAGATCCACAGCGCCGTTATTGCC -AGCGCAAACAGCGCACCGAAGCCAATGCCAATGGGCACGACCGGGATGCCTATCATTACCGCCAGCGAGT -AAATGCCCAGCATCAACAACATGGCGCTGTTTTCGCCAAGGTTTTGTACTGCAATCGCATTCCCCGCCCC -GACGCTTTTTTTACCCCGCTCCTGTAGCAACGCATTGAGCGGAACGACAAAAAAGCCCCCCATCACGCCA -ATCAGCATCAACAAGGCATAGGCTGGCAGCAGCTCGTGTTGCAGGGAAAAAATCAGTACCACCACGCCAA -TCAAAATCCCGGCTGGCATACAGCGTGACACGGTTTCCAGCGTAACTAACTTCGCTGCCGCACCTGCGCC -AACCACGATACCAATCGCTACCATCGCGTTGAGATAGGTGGGCGTAGCGTTATCGGTAATGCCCAGCGCC -ACCGGTACCCACAGCACCAACAGGAAACGCAGCGTGACACCCGCTCCCCAGAATAAACTGGTGCCCACCA -GCGAAAAACGCGTTTCACCATTGCGCCATAGCGAGGTGCAGGCATTCAGGAAACTGCGGGTCATGTTGAT -GAGATTCCAGGACTGCCCCGGACGCGCCGCCGCCAGTTTGGGAATGTAGATATTGGCAACGACCGCACCA -CCGTAGGCCAGTGCGCATGCGGCCAGGGCGACGAGGACATGCCAGTCAGCCAGCACACCACCGGCTACGG -AACCGAGCAAAATCGCCGCTATGGTAGAAGCTTCCATTAAACCGTTAGCTTTCACTAACTTACTACCCGT -GGTTAATTCGCCGAGAATACCGTATTTCGCCGGTGAATAGGCTGCAGCACCAACACCCACCAGCGTATAG -CCGAGAAACGGATTGATACCAAAGCAGATACTGGCTGCGCCCAGCAGCTTCAGGCCGTTGGCAAACATCA -TCACCCGGCCTTTGGCGAAGCTATCCGCCACCTGCCCGACAAACGGCGCAAAAAGAATGTAAGCACCTAC -AAACACCATTTGCAGGATGGGCTGGCTCCACTCCGGATAGAACTGCGCTTTCAGTAACGCCAGAGTGGCA -AACAGTAGGGCATTATCGCCAAACGCAGAGAGAAACTGCGCCACGATAACCGCTTTCATCCCCTTCGACC -ACAACGAAGTGTTAGTGTGCACTGACTCACTCATCGTGTTGTTCCGCTTCGTCTACCCAGCTTTTCAACG -TGACAAAGTCAGGTTTGCCGCTGCCAAGTAATGGCATCTGTTTCAGATAGCGAATATCGCGCGGTACAGC -AAGCTCCGGCACGCCGTGCTCGCGGGCATACTGTTGCAACTTATCGCGCGTCAGTTCGTTATCTGTGGTG -AAAAGCACCAGTGCCTCGCCTTTGCTGGCATCGCTCTTAATCGCAGTGGCATGGACTTTATCTGGCGAAA -CACCAAGTGCCAGTTGTTCCACCATTTCCAGCGACACCATTTCGCCTGCAATTTTGGCAAAGCGTTTTGC -GCGGCCCTGAATCTGCACAAAGCCCTGCTCGTCAAAACGCACAATATCGCCAGTGTCATACCAGCCGCGC -TCCATTTCGCCGCGAACATTCTCGGCGGTGGGCACTTCCAGTACACCTGGCTTCTCCACCCGCAGATAGC -CGTTCATTATGTTCGGCCCTTTCAGTTGCAGGCGTCCGCCCTCTTCGATACCAGGGACCGACAACAGGCG -CGCATCCATTCCTGGTAGAATACGCCCTACCGTACCGGGTTTCGCCGCCATCGGTACGTTGATAGAAACG -ACAGGCGCGCATTCGGTCACGCCGTAGCCTTCAAGGATGCGCAGGCCAAATTTATCCTGCCAAAGCTGTT -TGGTACTTTCTTGTAATTTTTCTGCGCCTGCCACCACATAGCGTAGACGATAGAAGTCATACGGGTTGGC -GAAACGCGCGTAGTGACCGAGGAAAGTCGAGGTGCCGAACAACACGGTGCAACTGCGGTCATACACCAAC -TCCGGCACAATGCGGTAATGCAGCGGGCTTGGATAAAGGAACACTTCTGCACCTGTAAGCAGTGGCGTAA -ACAGGCCTACCGTCAGCCCAAAGGAGTGAAACAGCGGTAACGCCGACATAAAGCGATCGTTGGTGGTGAA -GTCGGCAATCGTTTTAATCTGCTCGACATTCGCCAGAATGCTTTTATGGCTATGGACGACGCCTTTCGGA -TGGCCTTCAGAACCGGAGGTAAAAAGGATCAGCGCCTCTTCTTCCGGCTGCTGTTTAACCTGTGCCAGAC -GCGGCATCAGCAAATGAGCGAAGATCCATACTTTGTCGGCAGTGGTGACATCTGCTTTTAAATCTTCCAG -ATAGACCCAGCGCACCTGAGTAAGTTGCTCCGGCAGATGCCAGAGTTTGCCTTTATCGAGAAACTGGCGG -GAAGTGAAGATGGTTTTGATTTCAGCCGCCGTAATAGCACTGGTCAGCCCTTTTACCCCGGCAGTGTAGT -TCATCATTGCGGGCATGCGGCGACGGGCGATGGCCCCAAAAATCACTGCCGCACTGATGCCTGCATTGGG -CAGCATTAAGCCGATGCGTTCGCCTTCAACACTGTATTTTTCAAGGATGCGTCCAACAAACAGCGTTTTC -GTAAGCAATTTGCGATAGGAGTCTGGGGTAAAGTTGACGTCTTCGACACATTTCTTCCCGGCTCCGAAGC -GGTACATTGCACTCAGTAAAGATTCGTACAGCGTTTCACGCGGGCGCACCGCCATTCGCGCTTCCATCAT -TATTTGATGCAGCATTTCGCCAGCGATTTTGCGACGGTCACGGGCACGCGGCGCATCCGGCATCGCCACC -TGCGTTGGTGGCAAAATATGCAGAGTAATTTGCGGGAACAAGCGACGTTTAACCAGACCTTTCAGGCGGC -TGAAGTGCGTAAGTTCCGCCCCTTCAATACGCACAGGAATAACCGTTGCACCAGACTTCGCCGCGACAAA -ACCCGCGCCATCGTAGATTTTCATCAGCGAGCCTGTCGTGGTGATGCGTCCTTCAGGGAAAATCACCACT -GGTCGGCCCTGTTCCACCAGACGTACCAGATGTTTAATAGCCATAGGTTGCGTCGGGTCGAGAGGAACAA -AGTCGATAAATGATTTCAGCCAACGCATATACCACTGTTGGCTTATTGAGGTGTAAACGGCAAACACTGG -ACGCACAGGTAAAAACAGTCCAAGCAAAATGCCATCAATAAAAGAGACGTGATTAGGCGTAATTAGAACG -CGCTCGCCCTTCAGTGCCTGGGTGTCACCCGTAACGCGAACGCGATACAAAACACGGCACAAATTTCGAA -AAAAGCTAAAAAGCATTCCAACTCCCTTTGCTCTGATTCAGTAAAAGCGAATGGAGGGAGATTACACGAG -ATAAAGAACGCGAGCGACAGTAAATTAGGTGCGAAAAAAAACCTGCGCATCCGCGCAGGTTGGTGCAAGA -GACAGGGTACGAAGAGCGTACCGAATAATCTCACCAATCAATACCTCTGGGATCTTGATTGTGGTCTGCA -CGACGACTCTTCGCCAGCGAGAAAACGCAAAGGAATGAAGGGAAATGCAACGAGGTGTGTAAATTGTCGG -TTACTGTTACAGATTGATGACCGGCAAAAAAAACCTGCGCATCTGCGCAGGCTGGTGTAATTCATGTGCT -CAACCCGAAGTTGACTTCACCTATCAATACCTCTGGGATCACCACTTTAGCAACCTGAAGCCAAACGCCA -CCAGCGGTCAATCGCAACAGCGTTTCGCAAAGTGTAACCAAAGGTTTGCAATCTCTTTTTTTGTCTTACT -TATTTGCGTTTGGCTCACATTCCCACGATGAAAACACGCCACCCCTTGAACCAACGGGCGTTTTCCGTAA -CACTGAAAGAATGTAAGCGTTTACCCACTAAGGTATTTTCATGGCGACCATAAAGGATGTAGCCCGACTG -GCAGGCGTTTCAGTCGCCACCGTTTCCCGCGTCATTAATAATTCACCCAAAGCCAGCGAAGCTTCCCGGC -TGGCTGTGCATAGTGCAATGGAGTCTCTTAGCTATCACCCGAACGCCAACGCCCGTGCGCTGGCGCAGCA -GACCACTGAAACGGTCGGTCTGGTCGTTGGTGATGTTTCCGATCCGTTTTTCGGTGCAATGGTGAAAGCG -GTCGAACAGGTGGCTTATCACACCGGTAATTTTTTATTGATTGGCAACGGTTACCACAACGAACAAAAAG -AGCGTCAGGCCATTGAGCAACTGATCCGCCATCGCTGTGCTGCGTTGGTCGTCCATGCCAAAATGATCCC -GGATGCTGATTTAGCCTCATTAATGAAACAAATGCCCGGTATGGTGCTGATCAACCGTATCCTGCCTGGC -TTTGAAAACCGTTGTATTGCTCTGGACGATCGTTACGGTGCCTGGCTGGCAACGCGTCATTTAATTCAGC -AAGGTCATACCCGCATTGGTTATCTGTGCTCTAACCACTCTATTTCTGACGCCGAAGATCGTCTGCAAGG -GTATTACGATGCCCTTGCTGAAAGTGGTATTGCGGCCAATGACCGGCTGGTGACATTTGGCGAACCAGAC -GAAAGCGGCGGCGAACAGGCAATGACCGAGCTTTTGGGACGAGGAAGAAATTTCACTGCGGTAGCCTGTT -ATAACGATTCAATGGCGGCGGGTGCGATGGGCGTTCTCAATGATAATGGTATTGATGTACCGGGTGAGAT -TTCGTTAATTGGCTTTGATGATGTGCTGGTGTCACGCTATGTGCGTCCGCGCCTGACCACCGTGCGTTAC -CCAATCGTGACGATGGCGACCCAGGCTGCCGAACTGGCTTTGGCGCTGGCGGATAATCGCCCTCTCCCGG -AAATCACTAATGTCTTTAGTCCGACGCTGGTACGTCGTCATTCAGTGTCAACTCCGTCGCTGGAGGCAAG -TCATCATGCAACCAGCGACTAACCGCAGTTAAAGCAATTCCAGCGCCAGTAATTCTTCGATGGTCTGGCG -ACGGCGAATCAACCGCGCCTGACCATTATCAAACAGAACTTCTGGTAACAGCGGACGGCTATTGTAGTTG -GATGACATTGATGCGCCATATGCCCCTGTATCATGCAGTACCAGATAATCACCTGCCTTCACTTCCGGCA -AGGCGCGGGTTTCAACATTTCCCCCTTCCTGCTGGGTAAAGACATCGCCCGATTCACATAACGGTCCGGC -GACGACGGTTTCCACCGTTGGCGCGTGTTCCAGAGAACGACCATCAGCTGCCAGGGCACTGATATGGTGG -TAACTACCGTACATTGCCGGGCGCATCAGATCGTTGAACCCGGCATCAACCAGCACAAAGTGGCGGCTCC -CCATTTGTTTGACGCTCCGCACCTGAGTAATTAATACGCCAGACTGCGCTACCAGGAAGCGACCCGGTTC -AATTTCCAGTTTCACAGGGTGGCCCAAATGGCGGGCGATTTGCTCACGCGCGGCATTCCACAGACCATAA -TAATGTTCGGTATCAACCGCCTCTTCACCCTGTTGATAAGGAACAGAAAGCCCACCGCCCGCAGAAATAG -CCTGTAAATCCTGACCGAATTCGATGACCTGACGCACCATAGCACCACACACCTGTTCCAGATGGGCATA -ATCAACGCCAGAACCAATGTGCATGTGAATGCCGACCAGCTGCAGATGATGACGTTGTATCACGTCCAGT -GCGGCGGGCAGATCGGTGTACCAGATACCGTGCTTGCTGTTTTCGCCACCGGTATTGGTTTTTTGGCTAT -GTCCGTGACCAAACCCCGGATTAACGCGCAGCCATACCCGATGCCCTGGCGAAACCTGGCCCAGTTGGTC -GAGCATATCAACAGAACCCGCATTCACCGGAATTTGCAATTCACTGACGCGTTCAAGCGTCGCCTGATCG -ATAACATCTGCCGTAAAAACAATATCATCGGGGTGCGTTTGCGGATTGTAACCCGCCGCCAACGCACGCT -CTATTTCGCCTAACGAGACGGAATCCACTTTCACGCCCTGCTCACGCATTAAGCGCAAAATATGAATATT -GGAACAGGCTTTCTGTGCAAAGCGCACCACATCAAACTGTTTCAGCGCTGCAATCTGCCGACGAATAATT -TGCGCATCGTAGACCCACACCGGGCAGCCAAATTCAGCGGGCAAACGCAGCAGATTTTCGGCGGTGAGAT -CGGTATCGGTGCTGAACAGTGAATGTGGCATAACAAACTCCAGATAAGTGCTTTTTTATGATTACGCCAC -ATCATAAAAAGAATAAAAAATATCGATTTATGTCGAGTCTATGCAAAAATGATATGGATTACCGGATTGC -GAGAGAGCGCTAATGGCCGCCGTTAACTTACGTCATATTGAAATTTTTCATGCGGTAATGACCGCCGGAA -GCCTGACTGAGGCGGCACACCTGCTACACACCTCACAGCCAACCGTCAGCCGCGAACTTGCGCGCTTTGA -GAAGGTGATCGGGCTGAAATTGTTTGAGCGCGTACGTGGGCGATTACATCCTACCGTGCAAGGACTGCGT -CTGTTTGAAGAAGTGCAACGATCCTGGTACGGACTGGATCGCATTGTCAGCGCCGCAGAAAGTCTGCGCG -AGTTTCGCCAGGGAGAACTGTCTATTGCCTGCCTGCCGGTCTTTTCGCAATCTTTTTTACCGCAGCTCCT -GCAACCCTTTCTGGCACGTTATCCCGATGTCAGCTTAAATATCGTGCCCCAGGAATCACCGCTACTTGAA -GAGTGGCTCTCGGCCCAGCGTCATGATTTAGGACTCACTGAAACGCTCCATACGCCTGCGGGAACAGAAC -GTACCGAATTACTCTCTTTAGATGAAGTGTGTGTGTTACCTCCGGGTCATCCGCTGGCGGTAAAAAAGGT -ATTAACGCCGGATGATTTTCAGGGTGAGAACTACATCAGCCTTTCCCGTACTGACAGCTATCGCCAGTTG -CTGGATCAGCTATTTACTGAACATCAGGTTAAACGACGCATGATCGTAGAAACCCACAGCGCCGCGTCAG -TCTGCGCAATGGTACGGGCGGGGGTAGGTATTTCGGTGGTTAACCCGCTCACCGCACTAGATTATGCGGC -AAGCGGTTTAGTGGTGCGGCGGTTCAGTATTGCGGTTCCGTTCACCGTCAGCCTGATCCGCCCCCTGCAC -CGCCCGTCATCAGCGCTGGTTCAGGCGTTTAGTGGGCATTTACAAGCGGGGTTACCGAAACTGGTCACTT -CTCTTGACGCTATTTTGTCGTCAGCTACGACAGCATAAAAGCGACAGCATCCTCGGCATGGATCGCCGCG -GTATCAAACACAGGCAAAACACTGCGCTCTTCTGGCACCAGTAAACCAATTTCTGTGCAGCCAAAAATGA -CGCCCTGTGCGCCCTGTTCTGCAAGGCGAGCAATCACTTGCGCACAATAAGCGCGTGACGCTTCGGTAAA -TTGCCCCAGACACAGTTCTTCAAAAATAATCTGATTAATTTTCGCCCGTTCATCCGCTTCAGGAATAAGA -CAATTGATGGAAAATTGTTCCGTCAGCCGCCCGCGATAAAAATCCTGTTCCATGGTGTAACGCGTACCCA -GCAGCGCCACACGAGTCATTCCGGCCCCGGTAATTGCACGTCCGGTGGCATCCGCAATGTGTAAGAAAGG -CAGAGTGCAACGTGACTCAATGGCATCCGCCACTTTATGCATCGTATTGGTACATAGCACAATACCTTCT -GCGCCCGCCCGCTGTAAGCCAAGCGCCGCCTCAGCCAGAATGTCCCCGGTTTTATCCCATTCCCCGCGAC -GCTGGCACTCTTCTATTTCATGAAAATCGACGCTATGTAGCAGCACTTGCGCAGAGTGAAGCCCACCAAG -CCGCTGTTTAATGCCTTCATTTATCAAACGATAGTAAGGAATGGTGGATTCCCAGCTCATTCCTCCCAGC -AAACCAATTGTTTTCATTCCTCTCTCCTGATGTGTGTTACCGCAACAAGGCTGAATAAGGAACGAGACAA -ACGCCTCAACGGCCAAGTGCCCAATCTCTATTAACGAAAAAAGGGCCGGATGTACAGCACATCCGGCCCG -TGAAATCAGACGCCGATATTTCTCAACTTCTCGCCTGCCATCAGTTTGCGTTCGATATGTTCCAGCGTGA -CATTTTTGGTTTCCGGAATGAGCCAGAAAGTAATGCCCACAAACGCAATGTTCAGCGCAGTGTAGAGCCA -GAACGTACCGGCAGCGCCAATGCTATCAAGCAGTGTCAGGAAGGTCGCGCCGATAATCATATTCGACACC -CAGTTCGTGGTGGTCGAACAGGTAATACCGAAATCGCGGCATTTCAGCGGCTGAATTTCAGAGCACAGGA -TCCACACCACTGGCGCGGCGCTCATCGCATAACCGGCAATACACATCATCGTCATGCCAACAGAGAGCCA -GGACAAGCCACTGGAAGCCGTACCGTTATCAAACTGCATCAGGCAATAGCCCAGCACCAGAGTGCCTAAC -GCCATCACGCTGAAACCAATTTTCAGAGCCGGTTTACGCCCTGCTTTATCTACCGTAAACACCGCAATAA -AGGTGGCGAACATAAAGGTCAGCCCTACGACCAGAGTCGCAATCATCTGTTGTTCTGTGGTCGTAAAGCC -CGCCATTTTGAAGATACGCGGCGCGTAGTACATGATGATGTTCATACCGGTAAACTGCTGCATCGCCTGC -AACAACATACCGAGAAACACAGCACGACGGACGTTACGGTTGATCTTAAACAGTGCCCAACCGCCCTGTT -TTAACTTCAGGCTTTCACGAATTTCGTTGAGTTCTTCTCGCGCTTTTTCCGACGTATCGCGCAGCATACG -CAATACTTCTTCCGCCTCAATATGACGCCCCTTTTCCGCCAGCCAGCGCGGGCTATTTGGCAGGAAGACT -ACCAGAATAATCAGCAGAACTGCTGGTAAAGCAAGAACCCCCAACATTGCGCGCCAGTTACCGCTATAAC -TGAACGCTGTATCGGATAAAAACGCCAGCACGATGCCGAGTGTGACCATCAACTGGTACATACTGATCAT -CTTACCGCGAACGTTTTCACTTGCCATTTCAGAAAGATACAGAGGAGCGGTGTAAGACGCGATCCCGACA -GCAATGCCCAGCACCACACGAGCGGCGATTAACATCTCTACGCTGGTCGCAAAAGCGGACCCTATAGAAC -CGAGTACAAACAGGATGGCCCCCGCCATCAGGCTGTATTTACGCCCCAGGCGGAACGACAGCCAACCATT -AAACAGCGCACCAATTGCTGCACCGAGCATCATGCTACTAACCACCCATTCCTGCAAACGACTGGTCAGC -ACAAAGTGATCGGTAATGAACGGCAACGCTCCGGCGATTACGCCGATATCAAGACCAAATAACAATCCTG -CGACCGCAGCAGCTACCGAAACAAACATATTCATACGCCGCGTATCCCGCAAAGAACGTGGCGTTAAAGC -AGATTCCGTATTGATAGTAACCATTTTTTCCTGCCAGCAGAGAGTAAGACATAGTGAAAAAATACGTGAA -CAACTCACGCAGGTGTCAGGTCGGAAACAGCATAAATATGGATTAAATTGCTGCGACATGTCGTTATGTG -ATGGATATTCCAATTTTCAAATTAAGTTGAATTATTGAGATTATTATTAACCACCTAATTTTACAGCAGA -TAAAATTCATAAAGTTCATTAATTGATAATTAATATGGATTATTTCATAACCATGATATGGATTATGATG -ATCTACAGGTATAAAAAACCCTGCCATGCGGCAGGGTCATAAAAGTAAGAAGAATGAATTAACGCGCCAG -CCAACCGCCATCCACGGCAATGGTATAACCATTCACATAATCTGAAGCGCTGGAGGCAAGGAACACTATC -GGCCCCATCAGGTCACTCGGCAGTCCCCAACGACCAGCTGGAATGCGGTCGAGAATTTCCGCGCTACGTT -GTTCATCTGCCCGTAGTTGTTGAGTATTGTTGGTCGCCATGTAACCCGGGGCTATCGCATTAACATTAAT -GTTGTGTTTAGCCCATTCGTTCGCCATCAATCGCGTCACACCCATCACGCCGCTTTTTGATGCGGTATAA -GAAGGCACACGGATCCCGCCCTGGAAGGAGAGCATTGACGCGATATTGATAATCTTGCCGCCATTGCCTT -GCGCGATAAAGTGTTTCGCCGCTGCCTGAGACATGAAGAATACGCTCTTGATATTCAGGTTCATGACATC -GTCCCAGTCCTTTTCGCTGAACTCGAGAGCATCTTCGCGGCGAATCAATCCGGCGTTATTCACCAGGATA -TCAATATGACCAAACTCCGCTACCGCGCGATCCAGCAGTGCTGGAATACCATCAATCTTTCGCAGATCGG -CGGTCAGGCTTAAAAAACGACGCCCCAGCGCTGTGACCTGCTCGATGGTTTCAGTCGGTTCAACGATGTT -AATGCCAACAATGTCACAGCCCGCTTGCGCCAGCCCCAACGCCATCCCCTGACCCAGTCCAGTATCACAA -CCAGTGACGACCGCAACTTTACCTTCGAGAGAAAATGCACTTAAAATCATAACAATACCTTATTCGTTTA -TGCCCACAACTAGCGCAAATCTTTAACGGCCACATGGTCCATATCATCAAAGACCTGGTTTTCACCGACC -ATGCCCCAGATAAAGGTATAAGCTTTGGTTCCGACACCGGAATGGATCGACCAGCTCGGGGAGATCACCG -CCTGCTCGTTATGCATCACAATATGACGCGTTTCTTGCGGCTGCCCCATCATGTGGAAAACGCAGGCGTC -ATCATCCATATTGAAATAGAAATAAACTTCCATCCGGCGCTCGTGGGTGTGACACGGCATGGTGTTCCAC -AAGTTACCCGGAGCCAGCTCCGTCAGCCCCATACTCAATTGGCAGGTTTCCAGTACATCCGGGACAAAAT -ATTTGTTAATCGTGCGACGGTTACTGGTGAGGTTATCGCCTAACGTGACTGGAGATACTTCGTCCGGTGT -GACTTTTTTGGTGGGATACGTCGTATGCGCGGGTGCGCAATTGTAATAAAACTTCGCCGGAGTGCCGGTA -TCAATACTGGCAAAGACAACTTCTTTTGCACCTTTACCAACATACAGGGCGTCGCGGTGACCGATTTCAT -AGCATTGGCCATCGACAGTAATCGTACCGGCACCGCCAATATTGATAACACCTAACTCGCGACGTTCAAG -GAAATAGCTTACGCCGAGTTGTTTACCAACTTCCCCGCCAACGGAAACCGTTTTAGTTATCGGCATAATG -CCGCCAACAATAATTCGGTCAATGTGGCTGTAAACCATGGTGTACTCATCGGCGACAAATACCTTTTCAA -CCAAAAATTCATTGCGCAGCCCTTGGGTATCCAGCGTTTTTGCGTGCGCACTGTGGATGCTCTGTCTTAC -GTCCACATCAACCTCCGATAATCAGTGAAGCGTGAAAATAGAAAACGATAGTGAAACACTGTTTCGTTTT -CTCTATAAAGGGATGATATGCCCATGGGCTAGGGTTTTCAATTAAAAATAAAACAATGTTTCATTTTTAA -GTTAAGGATTAAAAAAAGTGCAGTGTCGATCACGAATATGTCATGAGAATGGAAAAATGAGGGAGCCCAG -AAAATGTATGTCGACTTGCCAGCCATCATTATTCAACAGATTAATGACGGCAGATATTTATCGGTAAGGA -GGAAATGCAGAGCTATTCGTCACGTTCAATGGTCAATGCCACACCCTGGCCCCCGCCGATACAAAGCGTT -GCCAGTCCTTTGCGGGCATTACGTTTCACCATTTCATGAACCAGAGAAACCAGGATTCGGCAACCGGAAG -CGCCTATCGGGTGACCGAGTGCGATCGCGCCACCATTGACATTGACCCGACGCTCATCCCACTCAAGCAT -CTTGCCAACCGAAAGCGCCTGTGCAGCAAACGCTTCATTAGCCTCGATAAGATCGACTTCAGCCAACTGC -CAGCCTACACGCTCCAGGCAACGGCGGGTCGCATACACCGGCGCAATTCCCATCAATGCCGGATCTACAC -CAACGCTGGCAAATGCGCGAATGCGGGCCAGCACGGGTAAATTCAACGCTCGTGCTTTGGCTTCGCTCAT -CATCATTACCGCAGCTGCGCCATCGTTTATGGATGATGCATTACCCGCTGTCACAGAACCGAGACTATCA -AATGAAGGATTTAAACGGGCTAAGCCTTCTGCGCTGGCGTCAGTGCGTGGCTGTTCATCGGTATCAACAA -CCAACGTCTGCCCGTTACTTTGGGTCATTACCGGGACGATCTCATCTTTAAATCGTCCGGCGTCAATCGC -CGCTCGCGCTTTTTGTTGCGAGCTAAGTGCGTAAGCATCCTGCAACTGACGGCTGATGCCATATTCGCGA -GCCAGATTTTCGGCGGTGACACCAATATGATAATCATTGAAGGCATCCCACAACCCATCATGCACAAGAC -TGTCAACCAACTGGCTATTGCCAAGCTGTGCACCGGTGCGGCTATCAGTCAGAACATGTGGTGCGCGGCT -CATGTTTTCCTGGCCACCGGCGATGACAATATCAGCCTCGCCACACTGTATCGCCTGAGTAGCCAGATGC -AGTGCTTTAAGCCCGGAACCGCAAACGTCATTAATAGTGATTGCAGAAACGCTATTAGGCAGACCACCTT -TAATAGCCGATTGCCTTGCCGGATTCTGCCCTGCCCCTGCAGTCAACACCTGACCAAGAATTACTTCATC -CACCGCATATGCAGGAACGCCGGTACGTTCTATTAACGCTTTCACGACCAGACTACCAAGTTCCACGGCG -GAATGACCCGCTAACGCACCACGAAAGCAGCCGATAGGTGTCCGTAACGCCCCGACAATCACAACGTCTT -TCATCACAACCTCGCACCAATTAACAGTGCAATAGTAAATGATTGTTAATTACAGTTATCTTAATTGTTT -AAAAAAAGTGATTTTTATCACAAAGGAAATATGCCTGAGCAGCAGTCAGAGACATAACTGGCACGTAAGG -TTTGCAACCACTAACCCACCAATAGAGGGGTAGATAGGGCGTTAATCTCCCATACTTAACCTGGTTTATG -GTAAATTGCCCTCCATTTTGTTTAATTTGTAGATGATACGTTCAGATAATGTCTAATATTTGGTCTAAAG -AAGAAACTCTGTGGAGTTTCGCGCTCTACGGCACAGCCGTTGGTGCAGGCACGCTCTTCCTTCCTATTCA -GTTAGGTTCGGCAGGGGCTGTGGTCCTGTTTATTACTGCTCTGGTCGCCTGGCCTTTAACATATTGGCCA -CATAAAGCCTTGTGCCAGTTCATCCTCTCATCAAAAACATCAGCAGGTGAAGGGATAACGGGCGCGGTAA -CACACTACTATGGCAAGAAGATTGGTAATCTGATTACCACGCTGTACTTCATCGCCTTTTTTGTCGTCGT -GTTGATATATGCAGTGGCAATTACCAACTCACTTACGGAACAGCTGGCAAAGCATATGGTTATTGATCTT -CGCATCCGTATGTTGGTGAGTCTGGGTGTTGTATTAATTCTGAATCTCATTTTTCTGATGGGACGTCATG -CCACTATTCGGGTAATGGGATTTTTGGTATTCCCATTGATTGCCTATTTCTTATTTCTTTCCATTTACCT -TGTCGGTAGTTGGCAACCTGATCTATTAACAACCCAGGTAGAGTTCAATCAGAATACCCTTCACCAGATA -TGGATATCGATTCCCGTGATGGTTTTCGCCTTTAGCCATACGCCCATTATTTCTACGTTTGCCATAGACA -GACGTGAAAAATATGGCGAACACGCTATGGATAAATGCAAAAAAATTATGAAAGTCGCTTATCTCATCAT -CTGCATAAGTGTACTGTTCTTTGTCTTTAGCTGCCTGCTTTCTATTCCACCTTCGTATATTGAAGCTGCT -AAAGAAGAAGGGGTCACCATTTTATCGGCGCTTTCTATGCTGCCGAACGCCCCAGCATGGTTGTCAATTT -CCGGGATTATTGTCGCAGTAGTTGCGATGTCGAAATCATTCCTGGGTACGTACTTTGGCGTTATTGAAGG -TGCCACAGAGGTCGTCAAAACAACACTACAGCAGGTTGGTGTAAAGAAAAGTCGTGCATTTAACCGCGCA -CTATCAATTATGTTGGTATCGCTGATTACCTTCATTGTTTGTTGCATTAACCCGAACGCGATTTCGATGA -TTTACGCGATCAGCGGCCCGCTCATTGCCATGATACTTTTCATCATGCCTACGCTGTCAACGTATCTCAT -CCCGGCGCTTAAACCCTGGCGTTCCATCGGAAATCTGATTACGCTGATCGTGGGTATCCTGTGCGTATCG -GTAATGTTCTTTAGCTAATATCAGTTGTGGATGGTTCAAAATTGCTACAATTTTGAACCATTCCATTTTT -CATAATATTCATTTGTTATTATTCCACCCTATCACTTCTCTCGTCATATCCTAGTATTATCAGTTAGTTA -AACACACAAAGAGATCTGAACATCTTAAATAAGACTATTTAAGATGCATAACTTAGATTCGCAAGATATC -TTCTGGTCATTCAAAAACAATTTGCGATATAGATATTCTTATACCATGAGATAGTTATCTGGACCGCTCT -CAACCATGCAAGATTAAATCAGTGAAACATAATCATATTTGATAACGAGAAATGCATTTTTAAATGCCTT -ACTCAGAATTATAGCAAATACAGATTAATCGCAATTTTTCCCGGCAAAATTACAAAATCATGGTGTATTG -ACATCATCAATAACCAATGAAATTATGCAATTATATACGGATAGGGAGGTTCTTAACATGGGGCTTTGTA -GTCGTTATAAAAGTCTTACATGCAATAGTTGCTCAATGCATTGCCAAATAATGCCAGAAGAGTCACCGCG -TTTGCAGTATTGCGCAAACTCGTGTTTTTGTATGTGGCCCGAAGAAAGTTCATATTTTAATCGTGGTGTG -GTAGAAGGTATCTTAACAAAAAACCACAATGCGAGATTAAGCGGATATATTTTTGTCGATTTTTCAGTAA -GTTTTTTACGTCTATTCCTTGAAAAAGACTGGATTGACTATCTTGCAAGTACTGACATGGGGATTGTTTT -AGTCAGCGACCGCAATATGCAATCGTTAGCTAATTACTGGCGAAAACACAACTCAGCAATATCTGCTGTC -ATATATAATGATGATGGTCTTGATGTTGCCAATGAAAAGATCAGACAACTATTTATTGGTCGTTATTTAT -CATTTACCGGAGGTAACACATTAACTCAGATGGAATTCACCATAATGGGGTATATGGTTTCTGGTTATAA -TCCATATCAGATTGCTGAAGTTCTGGATATGGATATCCGTAGCATCTACGCGTACAAGCAACGAATCGAA -AAGAGAATGGGTGGTAAAATAAACGAATTATTTATTCGTTCACATTCGGTCCAACATTGATACTCAACGA -CCAGCCAGAATCATACTCTGTTTATACGGGCATTTATTGAAATGTCCGTATTTTATAAATAGGCCGTCCC -CTCAAGAGTAAACACCATAGTATTTAAAACCATCACACGAAAAATTCAGAAGCATTACGAAATATGAATT -TACAAACAATAGTGGCATAAATGTTAACCATGTTAATTTACGTAAAGTTTTACGTTGCAACATTAAAGCC -TCATTTCAATCATCATGATAAATATAAAATTAATATATATTTATGCCGTAAATACCAATATACTTAGCAA -ACTATGTGATCTCCATTTCGATTGATTTAGTGTTTATTGACGTATGTACTGGATTATTAACGATAATATC -GAGTTCTGGCCTGAGCACCGAAAATTAATATCGGTACATAACGCCGATCTTAACGTCGTTCTGACAACGC -CAGCCAGTCGATGTTTATCACTTCTACTTGAAGCTTTTCCTGATGTGGTTGCACAACAAGATTTTTTCAC -CAGAGTCTGGGAAGAAGAAGGTATGCGTGTGCCTACTAACACGTTATATCAGAACATATCCATTATCAGA -CGCGGATTTCGCGCTGTTGGTGATACTACCCACTCGCTAATTGCAACCGTGCCGAGAAGAGGATTCAAGA -TCCATAATGACATTAACATACAAAATCATGTAATAAACTCGTCAACAGACGCACATACACACAATGCCCC -ACCTGCCATAAAAGTTAATGCGGGATACAAAGAGAGCATTGGTGGCGCAAAGAATTTCAATAACAAAATC -CTCAAACATATAAAAAGTCATCTAATTATGTTGAGCGCATTTGTCATAGGCGCATATTCTGCATATTGGC -TATGGAATAATAATCAACCGAAGCCATTTTTCAAGGATTACAAGACTGTTGCGGAAATTAATGGCTGCCA -TTTTAATGTAACAGAAGATACAATTGATGGGTTGAAAGAGTTCGATAAATATAAAACACGGATACTGGAT -TCGGGGATTAACTGTAAAAAACATCCGTGGTTATACTTCCCTCTTGCAAAATCCTCACCGGGGATGATTG -TTATGGCATGCAATAAAAACTATAACCAACATGAAGTGGCAAACTGTTTAACCCTGTCTTACCGTGAGGT -TAATCGTGATTGATTATAAAAAAAACTTATTATTTATTTTAGTTTTTATCAGTGGGTTTATTCTCTTCAC -TGTCTATTCTTACACTGCAGAAAAAATGATATATAACGAAACATGCACTGCAAATTGGGTAATTTTTAAT -GACCAGGGACGAGCAAATCTTACCATCGACTTTATGTATAACAAAAAAAATAAAACAGGAACTGTTGCGT -TGAGTGGAACCTGGCAACAAGGTAACAGAGAAAGTAAATCAATACGGCGAAATATTGAATACACATGGAT -TGAAAACTATGACACAGCCCATTTAACATCAAAGAAAGTTAATAAGTTTGAGATTATGGATCAAGTTGAT -GATGATAGACTTGCACAACTTATTCCTGATTTTTATGTCTTTCCAGAAAAAAGTGTAAGCTATAATATAC -TAAAGCAAGGTAAGCATGCTTTTATTTTGAGCATTGGTAACAGAGCAATAATGCATTGTGCAAGGTAAAC -TAAAATAGATAACAAAAAGATGGAACCTCGTTAATCATAAAACAATAAAATTAAATATTCTCGCAGTATA -TGGCAGTCTAAAGCATCAAAGATTTGATCAACATCTTTCATTTTAGACATCTCCTTGCAATGTAAAATAT -CATGTATCAACAACATCTGGTGCAAATCCATGAGTCGAACTCGACATTCATCTTAGCTCGATTATTATTC -CTTCGTACAGTCGATGTAAACAATACAGAAAGAGGATTATTAAGAACCAGTTTACTCAGTGAATCAATAG -AGGAAAGGACTAACGTTTCTTTAAAAGAATTGATTTCATCATCTGTTAAACTAAACTCATCATTGACAGA -TCGTGAGATATAACTGTTTTTAACTTTACTCTTTACGTTGACTTTATTGACAGAATTAACATTCACATAT -CTTGAATTTAATGTCCATGATGTTGTTTGCGTGAGAACATTCTCAGCATTAAGGAATTTTTTTAACGGAA -TCCTTGGTTTCTTTTTCGAGTCCGAATTTACAATATCATGCATATAGACCATTTCATGAATCTGCGAAAA -TTCAATGTCCATTGTATACCTCACATTTTTACCGTGACTCGATGTTACTGTTCAATAATCACCTTCCATC -AATACTAAAATTAATACCCCTAATGTGCCGATAACAAATATAGTCATTCTACGTAACGTCTCCATAAGGT -GATATTTGACATTATCAGAAGCTGCGAATTCGGATTTTGCTCTAATCAAATGAGAGAAATGTAAAATGAA -GCCACGAAATATTAATAATAGCCTACCACTGCAACCATTAGTTCCTGATCAGGAGAACAAAAATAAGAAA -AATGAAGAGAAATCCGTTAATCCAGTTAAAATCACAATGGGGTCTGGTTTAAATTATATTGAACAAGAAT -CTCTTGGAGGAAAATATCTAACACATGATTTGTCAATAAAGATAGCGGATATTTCTGAAGAGATAATTCA -GCAAGCAATATTATCTGCTATGAGCATATATAAATTTTCGATAACAGATGATTTAATGAGTATGGCTGTA -AATGAACTCATAAAACTGACCAAAATAGAGAATAATGTAGACCTGAATAAATTCACTACTATATGCACAG -ACGTTCTATCCCCCCGCGTCACCAGACATAATAAAGAAAAAAACAAACGACATTCTACCCTTCTCAAAAA -TCCCCTTTTTAATTTTCATTGAAAAAATGGCAATTGATACTATGAATCCAGGTCATACACATTAAGGCAT -TTATGTAATGTCGTAATTAAGATAACTAATAAGGTGAATATTAGTAAAACAACTAATGATGTTATTAGTT -TGTAGTGAACAGTACTTTTACCAATAATGAAAAATATACCATAAGCAATGCAAGCTTAAAACTCATAATT -TAAAAAAGATAAATATAAAAATATCAATGAGTCAATCAATAATAATTTGGCATCACGAGACACATCACAG -AGGAATATTATGAGCACAGAAACAATTGAAATATTCAATAATAGTGATGAATGGGCAAATCAACTAAAAC -ACGCATTATCGAAAGGAGAAAATCTGGCATTACTACATGGTTTAACTCCTGATATCCTTGATAGAATATA -TGCATATGCATTCGACTACCATGAAAAGGGTAATATAACGGACGCAGAAATTTATTATAAATTCTTGTGC -ATTTATGCGTTCGAAAATCATGAGTATCTAAAAGATTTTGCATCAGTATGTCAGCCCAAAAAGAAATATC -AACAAGCATATGACCTTTACAAACTAAGTTACAATTACTTCCCGTATGATGACTATTCAGTTATTTATCG -TATGGGTCAATGTCAGATTGGGGCTAAAAATATCGATAACGCAATGCAATGTTTCTATCACATTATTAAC -AATTGTGAGGATGATAGTGTTAAGAGTAAAGCGCAGGCATATATTGAACTCTTAAACGATAATTCAGAAG -ATAATGGCTAAGCATTACAATCATTTGGTTAAATTTGCTGGTTATAGTGCAGTTAACCACTATAACCAGC -ACCTCTTATGTTTTCTTAAATCAGCATCTTAAAACAGTTAAGAGCATACTATAAATCATTATTTTTCAAT -GCGTTAGAGAACAATCTACTTTATCAAAATTGAATAAGGCTATTTCAGATTACATCACTGAATTCCTAAG -ATAAATTAGTGAACACAACCATAGATATGTCAAATGTAATTTCCTGTAGCGTTAATGACACATAAATATG -AATAGCCATAATTTCTATTGCTTAAGCAGGATGCAAGAAACCAATTTTTTCATAGAGGTTAACTAATGGA -CTTAGAAAATAAATTCTCATATCATTTTCTTGAGGGATTAACGCTCACGGAAGATGGAATTCTTACTCAA -GGAAATGAGCAAGTTTATATTCCACAGAAAGAGTTAGGTGTATTAATAGTATTACTTGAATCCGCTGGTC -ATGTTGTACTGAAAGATATGATCATCGAATCAGTATGGAAAAATATTATTGTTAGTGACGAGTCCCTGAC -AAGATGTATCTATTCTTTGCGCTGCATTTTTGAAAAAATTGGCTATGATCGTTGCATAGAAACAATCTAC -CGGAAAGGTTATCGTTTCAGCGGGCAGGTTTTCAAAACTAAAATTAATGAAGATAATACTTCAGACTATT -CCATAGCTATATTCCCTTTCACTACTTCATTGAATACACTGGATCCATTAATACTTAATCAGGAATTAGT -GCAAATCATTTCAAATAAAAAAATCGATGGTCTCTATACCTATCCGATGGCTGCGACAAATTTTTGTAAT -GATCACATATCTCAAAATTCATTCTTGAGCAGATTCAAGCCAGATTATTTCGTTACAGGAAGAATAAACC -AGAATAATGCAGTGAACACTTTATACATTGAGTTGATCGACGCTAAAAACCTTTTCCTCATCGCCAGTAA -TCATCTCCCTGTTGATGAACTACATAATACATCACAATTTATTATAGATAATATCCTTCAAACGGTACAT -AAACCAGAACGATCTGTAAGATTAGCTAAGCAGGACCAAGGATATAAGAATCATTATTTATCAGATGAAA -TGTTAGCCGGAAAGAAAGAACTTTACGACTTCACCCCTGAAAGCATTTACAGGGCCATGACTATATTTGA -TAGATTACAAAATAAAAGTGATATACAGACGCTAAAAACAGAATGTTATTGCCTTCTAGCGGAATGCCAT -ATGTCTTTGGCACTTCATGGAAAAAGTGAACTTGAACTTGCTGCTCAAAAAGCATTAGAGCTTTTAGATT -ATGTATCAGACATAACCACTGTCGATGGAAAAATTTTAGCTATTATGGGACTGATAACTGGTCTGTCTGG -ACAAGCAAAAGTATCTCATATCTTATTTGAACAGGCTAAGATACACTCAACTGATATAGCCTCTCTCTAC -TACTATAGGGCACTAGTCCACTTTCATAATGAAAAAATTGAAGAGGCAAGGATTTGTATAGACAAATCAC -TACAACTCGAACCCAGAAGACGAAAAGCAGTTGTGATAAAAGAATGTGTAGATATGTATGTGCCTAACCC -GCTCAAAAACAACATTAAACTCTACTATAAAGAAACTGAGAGTGAAAGCCATCGAGTTATAATTGACAAC -ATTTTGAAATTAAAGCAGCTGACGAGAATTTGTATGCGATAAATTTTTATTGACGCAATTTTATTATTTA -GATGTATGCAACTTGTTATTTAAACAACAGAGATAAAAATATCTAAGATATTCACCTTATTGCAAGATAT -TTAAAATGCTCTAGAGTTAAAAGTATGATGTAAAGACCATTGGCCTGGACAATTAAAAAAGGGAGCTTTA -TGACTAATCCAATCGGTATCAATAATTTATCTCAAAGTTCAAATATAGCGAATGCAACGGGTGATGAAGT -CGTATCATTAGATAAACACATCAACACCAGTGCTACTGATACAGATCAAATACAAGCATTTATAGTTTCA -ACATGGATGGCGCCTTTTCAAAATGATATGTATTCAGAAGATAATCCTATCTCACCTTACTATAAAATTG -AGTGGTAGACGATTGACCAAATAAATCATAACGAGATACTTTTATAATAGTATCTCGTTCCTTTCATTCA -ATCCTCACACATGAAAAAATATGCGCTCACCAAAAGTTAAATTCTTAACCATCTTCACGTTTTGTATATT -TATTACAAAAATGTCTTTCGCCAGCAACTCTTGCTCTAATGAAGCAGGAACAATGTTCAGAATCGAACCA -AATTTAATTAAAGCTATCGCTCTTGTTGAAAGCAATCTAAAAAAGGATAGCATAGGCAAGAACAGAGATA -AGAATAACAATATAAAGAGTTTAGATTATTGGTTAATGCAGATAAACCAGATGCATATTCCCCTGTTAAA -AAAACGTGGAATAATAAAAGATGAACGAGATTTGTTAGATAACCCTTGTCTGAACATTAAAATAGGAACC -GAGATTTTATATAACCATTTTTCACGTTGTGGAGTAACGTGGCAATGCCTGGGGACTTATAATGCGGGTT -TTGCAATGGATAACCAAAAAAAGAGACAGCAATATGCCCCAAAATATATATTGTATATACCAGGCTTAAT -GAACTAGACAATCGTAAGGCTTCAGCAAAATGAGCCTAAAGCCTCTTTTTTTTATATAGTGCAAACACCC -ATACGTAAAGCTGTTTTGATCAACTCGATACCACTGTGAACATCTAATTTCTTCATGATATTGAGTCTAT -GAGTTTCGACTGTTTTCCTGCTTAACTGCAAGAAATTAGCGATTTCTTTGTTTGTTTTACCATCAGCTAT -GAGTTGTAATATTTCTGACTCACGATTTGTAAGTTGATTATCAGAGGAATACCTGGAAGATATTTTTTCA -CAATCCATATGTACACTATCAAAATAAGTGTAACCATTACTAATCGAATCAATAGCACGATTTAGTTTCG -CCGGGTGACTGGTTTTCCATACGCATCCTTTCGCACCTGCTTCAAGCAATTTTATTGAATCAATATACGG -CATCTTTGCTACAAATGTAATAATATGAGCATCTATCTTATGCGATTTAACCCATTTTACGAGTTCGGCC -CCCATCATTCCACCTGCAAATTCTCCTAAAATAAATATTTAGGCTGTAGATTTGTTACACTCCGCTATAG -CTTTCTTCAGATCTTTATAGCCCCCAACAACCTCATATAAATCAGGATAATGTCCGAGAAATCCAATTAT -CCCATCAATCATAAACGGCTGCTGATCTGAAACTACAATTTTAATTTTTCCCATATATTCATCCTGAGTG -TAAATGCTTTAACGCATTCATTTATAATCATCCCTTCCATTATTATTATAAGCAAAATCCAAAGAATACA -TTGATGAAATAATAATGAAATATAATTAAAAATAAAATTTTTGCGTAAAAAAATACCACAGGCATTAAAA -AATCATGAGATGATTAAAATATTACAATTAGATTATATTCAAATCATTAAACTTGAGCCAGGGAGCTATA -AGTCCTCAGGGCTTGCCAAAACAGAATTATTCATATCCAAAGAATGTGTTTCAAACATTTTTTCAACTAA -ATAATGTCTGGCTTGTTCGCAGATTTCGTTAACCTTGTCAGGGGAGAAACAATGATTATTAATTAAATAT -TGCTCACAATTATCCACAAATTCCTGCGGACTAAATTCAGCAATAAATTGATCGGTAAAAAACACAAAAC -GCTTATCATCATGAAATGTAATATGGACATTCCATATTGATTTGTCGACAAAATATGACTCTACTTCAAG -AGACTTATCTTTGAAACTGGTAGGTATATGGAGATTTACAGGACCTGATATTGATGGTAATTTTGTTACC -CAACTTTCAAAAATTTTGATAAAAACATCAACTTCTTCTGAAGGTTTTAACAATATACTCTTCAGATCGT -TTATCATGTTTATTCTTTTTTTTCAAGTTCTGAGCATAGCAAGCTTATCAAGGGTATAAAATTATCCATC -TCATCAATAATGCCTTTTGTATAGCCATCATAATAACCTTGAATAAATTTTTCTTCTCTCTTTTCCTCAA -TACTCTGAATTTTTGCGGTGGTTTCAAGAAGGATTTTTTCTTTAAGAGAAACTATTTCTTTCAATCCATC -AGAAATTTTTCTTTTAATCACAACACCATTTGCAGGAGATTTTATCAAGCTCATCTCTATTTTTTTTCGC -ATAAAATGTAATTCTCTCTAAAAGTGTTGATGCAAGTGGTAACGGCGATTGTATGTGGTCAACAAAATCA -GGAAATAATAAATTAAATCGTTGCTGCATTGCCAATGGTTGTTGCCTTATATAGGGTAACAACGTTGAAA -AACCACATGTGATGATATTGTGATAGTTAGCGATGCCGGGTTTGTATCGTGCCTTTTCATTTATTTCCAG -CGGTATAGCTGATAAATAATCCCTTAGTACATCAGGAACCTTATAAAAAAACCCGCGTTCTGCAAACCTT -TCTCGATAAAAGTGACAACCACTGAGTAAACAGATCAATGGAAGTAAATTCCAATTGTTTATTGGATTTG -CCCCTATATTTCCAGACATCTGTTATCACTTAACCCATTACAAGCCCGCTGCCGCAGATATTCCCGTGGC -GAGCGATAACCCAGCGCACTATGCGGATGCCATTCGTTATAATGCTCGAACGCCTCTGCAAGGTTCTTTG -CTGCCGTTAACCCGTCTGGTTTGGGCATGATACTGATGTAGTCACGCTTTATCGTTTTCACGAAGCTCTC -TGCTATTCCGTTACTCTCCGGACTCCGCACCGCCGTGTTCTTCGGTTCAAGTCCCAACATCCGGGCGAAC -TGGCGTGTTTCATTAGCCCGGTAGCATGAACCATTATCCGTCAGCCACTCCACTGGAGACGACGGAAGAT -CGTTGCCGAAGCGGCGTTCCACCGCTCCCAGCATGACGTCCTGTACTGTTTCACTGTTGAAGCCGCCGGT -AGTGACCGCCCAGTGCAGTGCCTCACGATCACAGCAGTCCAGCGCGAACGTGACACGCAGTCTCTCTCCG -TTATCACAGCAGAACTCGAACCCGTCAGAGCACCATCGCTGATTGCTTTCTTTCACGGCCACTCTGCCTG -TATGTGCCCGTTTCGATGGCGGTACAGCAGGTTTTCGCTCAAGCAACAGCGCATTCTGGCGCATGATCCG -GTAAACACGTTTGGCATTGATCGCAGGCATACCATCAAGTTCTGCCTGTCTGCGAAGCAGCGCCCATACC -CGACGATAACCATACGTTGGCAGCTCTCCGATAACATGGTGTATACGGAGAAGCACATCCGTATCATCAG -TGTGACGACTGCGGCGGCCATCCATCCAGTCATCGGTTCGTCTGAGAATGACGTGCAACTGCGCACGCGA -CACCCGGAGACAACGGCTGACTAAGCTTACTCCCCATCCCCGGGCAATAAGGGCGCGTGCGCTATCCACT -TTTTTGCCCGTCCATATTCAACGGCTTCTTTGAGGAGTTCATTTTCCATCGTTTTCTTGCCGAGCAGGCG -CTGGAGTTCTTTAATCTGCTTCATGGCGGCAGCAAGTTCAGAGGCAGGAACAACCTGTTCTCCGGCGGCG -ACAGCAGTAAGACTTCCTTCCTGGTATTGCTTACGCCAGAGAAATAACTGGCTGGCTGCTACACCATGTT -GCCGGGCAACGAGGGAGACCGTCATCCCCGGTTCAAAGCTCTGCTGAACAATTGCGATCTTTTCCTGTGT -GGTACGCCGTCTGCGTTTCTCCGGCCCTAAGACATCAATCATCTGTTCTCCAATGACTAGTCTAAAAACT -AGTATTAAGACTATCACTTATTTAAGTGATATTGGTTGTCTGGAGATTCAGGGGGCCAGTCTAAACTTGC -TCTTTTCTTCTGGTGTTTATCTTTGAAAGATTTGTAGGATAAATAACATTAAGTAAAGCCGCATCGGCTT -CTCTGTAATGTTTATCTTTTTCCAGATAACCTGGGGATTCTCCCCCTAAATCAAGCTGTAACGTTATTCT -TTCATAACCTTTATCTATGAGGTGGTTCAACCTCGTTGTTGAAAGAGTTTCATCCAGTTCATTGACTTTA -GCTTCGCGTAGTAAATCAGAGACAAAAACAGAGTCTTTCTTCGAGAGTAGGTTTGACAAACGTTCCAGTC -CAGAGGTCACCAGTGCAACGGAAGATGTGTTTAATCGGGCATCTTCTTCCCATGCTCAGGAATCTTCCAT -AACATAGAAATTGGCTTTATCCAGATAAGCAATCAGCAGCGCAACCGACTTTAATCGGTCACCTTTTTGC -CAATCTTCAGCGTTAATAGTACCAGTGTTGATTGCTTGTATAAGGAGATCAAGGTAAAGACCTAAAGCAT -CATTTTGTTTATGGTTCCACAGCTGCGGCTTGCCTTCTTCCTGCACATCTGCCATCACGGGGGAGTTGCT -GTCAAATCGGATATGCACAGCATTCATTTGCACGGGAATTCCATCCAGTCGTTTTGGGTTGCTAATGACG -TCCTGCATCCGCTTAATCTGGTCGGGCGTAGACATATAATCCCACAGGGTGAGCAGAACCTTTTTTGCGG -CTACACTATTTCCCTGATCTGATACTAATGCCATATAGCCCCATAAACTATCCCTCAACCAGACAGCATC -ATAGTGGGTTTCTGCCGCTGTTTTGTCATCTTCGAAAGTAGAAGCAAGAATAAACGTTCCCCAGGGTTTC -TCCGTCAACGTTAACTTTCGTGTGTTTTCTGTTAATGTTAGCAATCCTTGAATTTCGTCTTTGGTATAGT -GGCTCTTTATTTCATTTTGTAATTTGGCTGAGTGAATCAGAAGACGATAATTAGGATACTTATCTGGATT -TAACGATAAATAACTTTTATCTGTTGCTGCCCCCGTGGAATTAAGAATGTTAAATACAGATTCACTCGTC -ACTTCTGCCCCTGTCGCCTGGCATGTGCCGCACGAAAATATACCAGCGAGCAGAAGAGTTAATGCAGATT -TCCCTTTCATAAAATATTCCATCAATCGTTTGTTAAAAGCGTAGATAACCACTTATTTAACAACTTGAAA -ATAAGGTGTTTTACCTGGGTTGTTACAAAAGGATTGCATTGCGTAAACGCTTTTTATTTACAACAAAATG -GGGAAGTATTACGGCGAAGATAAATTGGAGCGGGCGAAGGGAATCGAACCCTCGTATAGAGCTTGGGAAG -CTCTCGTTCTACCATTGAACTACGCCCGCTTCGAGATGCGTAAGGCATTATAAACCTTACGCTCTCCTTA -GCAAGTGCCACGCTGCTGACTGCTGATTAATTCGCCATCAGCATTTTGGCTTGCTGCCCTGAGGCGGCAA -GTAACGTAGCGGATCAATTGCCGTTGCACGGTAACGAATCTGGAAATGCAGGCGAACAGATGCCGCATCC -GTGCTCCCCATAGTGGCGATTTTTTGCCCAGCCTTCACGCTTTGCCCATTATTTACCAGCATCGTGTCAT -TATGGGCGTAAGCCGTAATGTAATCTTCACTGTGTTTAATCATGATGAGATTACCGTAGCCACGCAGCTG -GTTGCCCACATACACCACCTTTCCTGCACCCGCGGCGTAAATAGGTGTACCCCGTGGAGCTGAGATATCA -ATCCCTTTATTGCCGCCATCTGCTGTCGAATACGGCATGATAACTTTCCCTGTCGTTGGCCATAACCAAC -AACGTTGCCCTACTGGCGGCCAGGATGATTTCGGTACCGCTGATGACGGTGTAACCGATGCGGTTTTGGT -CGTTGATTTGGCGGTTGATTTACGTGTAATACTGCTACTTTTCGCCCCACCCAGTTTTAGTTTCTGACCA -ACTTCAATGGTGTAAGGGGGGGAAATGCCGTTCAGTCGCGCCAGTTCTTTTACGCTGGTTCCCGTGGTGC -GCGAAATACGATATAGCGTATCCCCCCGTTTCACGGTGTAAACGGAGCCGGAATACGTTCCTGTATCGGA -TGATTTGCTACCCGAACAGCCCGCCAAAAGCAGTCCAACCGATAACAACATCACGATACCCAGAGATTTT -TTATTCAGGCGTCCCGCACTCAAAATCTTTCCTCGCTTAAAAAACAAGACGCCTTATCATAGCAGCCAGC -CTCTTGATACCCAATCTCTTGCTTCTGGAAAAACGTGGTAATAGAGAAAGAGGTTAATTTCATTTGGCAA -AGGGAAGTATCATCAGCAAAATATTCGCTGTAGAGGTATCGAACTTCCTGACTTTTTACCCTATTTCCCA -TCCTGATGCGTAATAATCCCAATTTATCACATTGATTTTATCGCCACTCATATTGATACGTATCACTGCC -CCTATTCAGAGTCCTGTTTCGTATCATATCTGTGTTTTTTTAACGTCATCACACTTCCTACCTCCCCTAA -CGCTTATCGTCGTTTCTGGCGTAAATCTTGCCTGCTTAGACTAAATCTTTGCCATAAGAACCAAATGTTC -AAATCGAGGGGATTTCTATGGAAGCGCGGGAAGCAACCGCTACGGGTGAATCATGCATGCGCGTCGATGC -CATTGCTAAGGTCACCGGGCGGGCACGATATACTGACGATTATGTTATGGCGGGCATGTGTTATGCGAAA -TATGTACGTAGCCCTATCGCACATGGTTATGCCGTAAGTATTAATGATGAACAAGCCAGAAGTTTGCCGG -GCGTACTGGCGATTTTTACCTGGGAAGATGTGCCTGATATTCCATTCGCTACAGCTGGGCATGCCTGGAC -ACTTGACGAAAACAAGCGCGATACCGCCGATCGCGCACTGCTAACTCGCCATGTTCGTCATCATGGTGAC -GCCGTTGCCATCGTCGTGGCCCGCGATGAACTCACGGCAGAAAAAGCGGCGCAATTGGTCAGCATTGAGT -GGCAAGAATTACCCGTTATCACCACGCCAGAAGCGGCGCTGGCAGAAGACGCTGCACCAATCCATAACGG -TGGCAATTTACTGAAACAAAGCACGATGTCGACGGGTAATGTCCAACAAACAATCGATGCCGCCGACTAC -CAGGTACAGGGGCACTATCAGACCCCCGTTATTCAACATTGTCACATGGAAAGCGTAACATCGCTGGCGT -GGATGGAGGATGACTCGCGAATTACCATCGTTTCCAGCACCCAGATCCCGCACATTGTTCGCCGCGTGGT -TGGTCAGGCGCTGGATATTCCCTGGTCATGCGTACGAGTCATCAAACCATTTGTCGGTGGCGGTTTTGGT -AATAAACAGGATGTACTGGAAGAGCCAATGGCGGCATTCCTGACCAGCAAGCTTGGCGGCATTCCGGTGA -AAGTTTCCCTTAGCCGTGAAGAGTGTTTCCTCGCAACCCGTACCCGCCACGCTTTTACCATTGACGGGCA -AATGGGCGTGAACCGCGACGGAACATTGAAAGGTTATAGTCTGGATGTTCTGTCTAACACCGGCGCTTAT -GCATCTCACGGGCACTCCATCGCTTCTGCGGGGGGGAATAAAGTCGCTTACCTTTATCCTCGTTGTGCCT -ACGCTTACAGTTCAAAGACCTGCTATACCAACCTCCCCTCGGCTGGTGCGATGCGTGGTTATGGCGCGCC -ACAAGTCGTATTTGCCGTTGAGTCTATGCTTGATGACGCCGCGACAGCGTTAGGTATTGATCCTGTTGAA -ATTCGTTTACGCAACGCCGCCCGCGAAGGAGATGCTAATCCGCTCACGGGCAAACGTATTTACAGCGCAG -GGTTGCCGGAGTGTCTTGAAAAAGGCCGGAAAATCTTTGAATGGGAAAAACGCCGTGCAGAATGCCAGAA -CCAGCAAGGCAATTTGCGCCGCGGCGTTGGCGTCGCCTGTTTTAGCTACACCTCTAACACCTGGCCTGTC -GGCGTAGAAATAGCAGGCGCGCGCCTTCTGATGAATCAGGATGGAACCATCAACGTGCAAAGCGGCGCGA -CGGAAATCGGTCAGGGTGCCGACACCGTCTTCTCGCAAATGGTGGCAGAAACCGTGGGGGTTCCGGTCAG -CGACGTTCGCGTTATTTCAACTCAAGATACCGACGTTACGCCGTTCGATCCCGGCGCATTTGCCTCACGC -CAGAGCTATGTTGCCGCGCCTGCGCTGCGCAGTGCGGCACTATTATTAAAAGAGAAAATCATCGCTCACG -CCGCAGTCATGCTACATCAGTCAGCGATGAATCTGACCCTGATAAAAGGCCATATCGTGCTGGTTGAACG -ACCGGAAGAGCCGTTAATGTCGTTAAAAGATTTGGCGATGGACGCTTTCTACCACCCTGAACGCGGCGGG -CAGCTCTCTGCTGAAAGCTCCATCAAAACCACCACTAACCCACCGGCGTTTGGCTGTACCTTTGTTGATC -TGACGGTCGATATTGCGCTGTGCAAAGTCACCATCAACCGCATCCTCAACGTTCATGATTCAGGGCATAT -TCTTAATCCACTGCTGGCAGAAGGTCAGGTACACGGCGGAATGGGAATGGGCATTGGCTGGGCGCTATTT -GAAGAGATGATCATCGATGCTAAAAGCGGCGTGGTCCGTAACCCCAATCTGCTGGATTACAAAATGCCGA -CCATGCCGGATCTGCCACAACTGGAAAGCGCGTTCGTCGAAATCAATGAGCCGCAATCCGCATACGGACA -TAAGTCACTGGGTGAGCCACCAATAATTCCTGTTGCCGCTGCTATTCGTAACGCGGTGAAGATGGCTACC -GGTGTTGCAATCAATACACTGCCGCTGACGCCAAAACGGTTATATGAAGAGTTCCATCTGGCAGGATTGA -TTTGAGGATAACATCATGTTTGATTTTGCTTCTTACCATCGCGCAGCAACCCTTGCCGATGCCATCAACC -TGCTGGCTGACAACCCGCAGGCCAAACTGCTCGCCGGTGGCACTGACGTACTGATTCAGCTCCACCATCA -CAATGACCGTTATCGCCATATTGTTGATATTCATAATCTGGCGGAGCTGCGGGGAATTACGCTGGCGGAA -GATGGCTCGCTACGTATCGGCTCTGCAACGACATTTACCCAGCTAATAGAAGATCCTATAACTCAACGTC -ATCTCCCGGCGTTATGTGCTGCGGCCACGTCCATTGCTGGACCGCAGATCCGTAACGTCGCTACCTACGG -TGGAAATATTTGCAACGGTGCCACCAGCGCAGATTCTGCCACGCCAACGCTAATTTATGACGCGAAACTG -GAGATCCACTCCCCGCGCGGTGTTCGTTTCGTCCCGATTAATGGCTTTCACACCGGGCCGGGCAAAGTGT -CTCTTGAGCATGACGAAATCCTCGTCGCCTTTCATTTTCCGCCACAGCCGAAAGAACACGCGGGCAGCGC -GCATTTTAAATATGCCATGCGCGACGCAATGGATATTTCAACGATTGGCTGCGCCGCACATTGCCGACTG -GATAACGGCAATTTCAGCGAATTACGCCTGGCATTTGGTGTTGCCGCGCCAACGCCGATTCGCTGCCAAC -ATGCCGAACAGACTGCACAAAATGCGCCATTAAACCTGCAAACGCTGGAAGCTATCAGCGAATCTGTCCT -GCAAGATGTCGCCCCGCGTTCTTCATGGCGGGCCAGTAAAGAGTTTCGTCTGCATCTCATCCAGACGATG -ACCAAAAAAGTGATTAGCGAAGCCGTCGCCGCGGCGGGGGGAAAATTGCAATGAATCACAGCGAAACAAT -TACCATCGAATGCACCATTAACGGGATGCCTTTTCAGCTTCACGCCGCACCAGGCACGCCGCTCTCGGAA -TTACTCCGCGAACAAGGACTGCTAAGTGTCAAACAAGGGTGCTGCGTGGGTGAATGTGGTGCCTGTACGG -TGTTGGTCGACGGCACAGCAATAGACAGTTGCTTATACCTTGCCGCCTGGGCTGAAGGAAAAGAGATCCG -CACGCTGGAAGGTGAAGCGAAAGGCGGAAAACTTTCTCATGTTCAGCAGGCTTATGCGAAATCCGGCGCA -GTGCAGTGCGGGTTTTGTACGCCTGGCCTGATTATGGCTACCACGGCAATGCTGGCGAAACCACGCGAGA -AGCCATTAACCATTACGGAAATTCGTCGCGGACTGGCGGGAAATCTTTGTCGCTGCACGGGGTATCAGAT -GATTGTAAATACAGTTCTGGATTGCGAGAAAACGAAGTAAAAGGATATCCGGCCTGAATTCAGGCCGGAT -TCACTGAGGTTATGTGTTTAACAACTCATATTTCTTAATCTTGCGATAGAGCGTAGCAATGCCGATGCCC -AGTTCATCAGCAACTTGCTTCTTGCTGTTATGACGTGAAAGCGCCTCGCGGATCATTTGCTTTTCCATCT -CCTCCAGCGCCGTGCCGCCCGCATCATCGAGTGACAGGTGCGCCTCACTGACCTCTGTTACATCACTTTG -CTCCGTTGTGCCATTATTCAGCAGATTTGGCGGCAATAGCGTGCTGTCGATAACTTCACCTGAAGGAACC -ACGTTAACCAGATATTCCATCAAATTGCTTAACTCGCGCAGGTTTCCGGGCCAACGATGCTTACGCAATA -TTTCGACGACATCGGGAGCAATGCCAGGATAAACCGATCCCAGACGACGGGTATGCAGATGTAAAAAGTA -ATGCACCAATAGTTCAATATCTTCCTGACGTTCACGCAGCGGTGGCAGAGTTATCGGGATAACATTAAGT -CGGTAGAAGAGATCTTCGCGGAATTTACCTTCGGCAATGAACTGGGCCAAATTCTGATTAGTTGCAGAAA -TGATGCGAATGTCGACTTGTATTGGGCTACTGGCACCAATCGGCAGAATTTCACGTGCCTCAATAGCGCG -CAGTAATTTAGCCTGCAACATTAATGGCATATCACCTATTTCATCGAGAAACAGCGTGCCCGTATTCGCC -GCCTGAATCAACCCTGTTTTACCGTTGGCAGAAGCGCCAGTAAATGCACCTTTAACATAACCGAACAGTT -CGCTCTCCAGAAGCTGCTCCGGAATCGCGGCACAGTTGATAGCAATAAAGGGTTTATTCCGTCTTCCGCT -CAACTTATGGATTGCACGGGCGACGACTTCTTTACCCGTGCCGCTTTCACCAACCACCATAACGCTGGAT -GGGCTGGGTGCAATACGGCTAATGAGTCGTTTTAATTGCCGCATAACACGGCACTCGCCAACCAATTGTT -CAATATGCGGTTCATCAGGTGCATTTGCTACAGAAAAACTGGTATGCGATTGGTGAAACGCCATTAAAAA -TAATTGTCGGCCCTGAATGTTATGCAATTGACCAATGATTAATTCACTTTTATCGTCCCATGAAACAATA -TGCTGCATATGTCCATGGGTAAAATTACTCTCAAATGTTAATGGTCTGAAACGGATAGGTTTCCCAATAA -TATTATTTTGCACAACACCAAGTGTTTTTAAGGCAGTCTGATTAACAAACTGAACCCGATTTTCATCATC -TACAACTAATACGCCCTGATCCATATTATCGATCATGGTCGCAAATATTTTACTGATGTTATCTCCTGGC -CCCTGATCCTCCAGAAGTTTCGAAACAAAAATGGTGGATATATGGCGAACATAATCAGAAAATTCGCGTA -AATTATCACTGATATGCTCTTGTTGCTCGTGGGTAACGGCAATCAAACTTATCACCCCAACACAACGATC -CTGTAAAATGACAGGCGTACCCAGAAATGCTTTTTCGCGGCAATTTTCTTTACTATCGCAACCTTCGCAA -AGGGGATCGAAGCGAGACTGTGTCACAACTTTTTCAGTTTTCGTTTCCAGGACGTGGCGGAGCAGGCGTG -AGTTGCCGCTCAACTGGCGACCAAGAAACTTCCCATACGCGCCCGTTCCGGCAACGCGACACAAGTTTTC -ATCAACGATCTCAACCTCAAGCTGCAAAACGCTGGCAAGCATTCTGGCAAAACGCTGAATTGTCGGTTGA -ATTTGCATCAATACTGACTGCGTAGTAGCAAGCTCCATAGCTTTACCTTCCAGACTTACTTAAAAGTCGA -TCATTGAAGACGTTGATGGTTCACAGATCATGATGATATTAACTCAGGCGAAATTGGCTTTGATAAAAAC -ATAAGATTTTTATCATTTTCTAATGAAATTATGGAAGAGATATCACATTTCTATATCAATATGAGAATTA -CGGCGGTGAGTTTATCAAACTGAAGAGAGATAGCCTGCCCCTTTATCTTATTTCTGATACTTAGCAGCAA -ATAAATAACGCGATAAAAAAAGCCAAACGTTTTCGTATTTTACAAACAACCAGAAGCTGGCATCAATTTG -TGATCAACCCCACACATTATCCGTCAAATTAGTCTTTTGCAGCCGCGCGGATAATTCTGGCACACTTATT -GTTAGTCCCAGGTATAGCTGTGAAAACACCAATCACTTTGGCAAGTCACAGTGAAATAAACCACTTTGCC -TGTCATTCCACTACCGGGACTTTATGATGAAAACTGTTAATGAGCTGATTAAGGATATCAATTCGCTGAC -CTCTCACCTTCACGAGAAAGATTTTTTGTTAACGTGGGAACAGACGCCAGATGAACTGAAACAAGTACTG -GACGTTGCCGCAGCATTAAAAGCACTGCGTGCTGAAAACATCTCAACCAAAGTCTTTAATAGTGGATTAG -GTATTTCCGTATTCCGCGACAACTCCACCCGTACCCGCTTCTCTTATGCTTCCGCGCTTAACCTGCTCGG -CCTTGCACAACAAGATCTCGACGAAGGCAAATCACAAATCGCTCACGGCGAAACCGTGCGTGAAACCGCC -AATATGATCTCCTTCTGCGCCGACGCTATTGGTATTCGCGACGATATGTATCTGGGCGCAGGCAACGCCT -ATATGCGTGAAGTTGGCGCTGCACTTGATGACGGTTACAAGCAGGGTGTACTGCCACAGCGTCCGGCTTT -AGTGAACCTGCAATGCGATATTGACCACCCGACTCAGTCAATGGCTGACCTCGCGTGGTTACGTGAACAC -TTTGGTTCACTGGAAAACCTGAAAGGTAAAAAAATCGCCATGACCTGGGCCTACTCTCCAAGCTATGGCA -AACCGCTCTCTGTACCACAAGGCATCATCGGTCTGATGACTCGCTTCGGTATGGATGTCACCCTGGCCCA -TCCGGAAGGCTACGACCTGATCCCGGATGTGGTTGAAGTGGCGAAAAACAATGCTAAAGCCTCCGGTGGT -AGCTTCCGTCAGGTCACCAGCATGGAAGAAGCCTTCAAAGACGCAGACATCGTTTATCCGAAGTCATGGG -CACCTTACAAAGTGATGGAAGAGCGTACTGAATTGCTGCGTGCGAACGATCACGAAGGCTTAAAAGCACT -GGAAAAACAGTGTCTGGCACAGAACGCGCAACACAAAGACTGGCATTGTACTGAAGAGATGATGGAACTG -ACCCGTGATGGCGAAGCCCTGTACATGCACTGCCTGCCAGCTGATATCAGCGGCGTATCCTGTAAAGAAG -GTGAAGTGACTGAAGGCGTATTCGAAAAATACCGTATCGCTACCTACAAAGAAGCCAGCTGGAAGCCTTA -TATCATCGCCGCGATGATCCTGTCCCGTAAATACGCCAAACCAGGTGCACTGCTCGAGCAACTGCTGAAA -GAAGCGCAAGAACGCGTGAAATAACCCCTCGGGCCGATCAGCTGGTCGGCCCTCTATTTCCAGAGGCCAA -AAGGATAGGATATGTCCGTTTTCTCATTGAAGATTGATATCGCCGATAACAAATTTTTCAACGGCGAAAC -ATCACCGCTCTTTTCGCAAAGCCAGGCCAAACTGGCGCGCCAGTTCCACCAGAAAATAGCTGGTTATCGC -CCAACACCGCTTTGTGCGCTGGACGATCTCGCAAACCTTTTTGGTGTGAAGAAAATTCTCGTCAAAGACG -AATCAAAACGATTCGGTCTGAACGCCTTCAAAATGCTTGGCGGTGCGTACGCCATCGCTCAATTATTGTG -TGAAAAATATCATCTTGATATCGAAACGCTGTCATTTGAGCACCTGAAAAATGCCATCGGCGAAAAAATG -ACTTTCGCGACCACCACCGACGGCAACCACGGGCGCGGTGTGGCGTGGGCAGCACAGCAACTCGGACAGA -ATGCGGTGATTTACATGCCGAAAGGTTCTGCTCAGGAACGCGTTGACGCCATTCTGAACCTCGGTGCCGA -GTGCATCGTCACGGATATGAACTATGACGATACCGTTCGCCTGACCATGCAACACGCGCAGCAGCACGGC -TGGGAAGTGGTACAGGACACGGCATGGGAAGGTTACACCAAAATCCCAACCTGGATCATGCAAGGCTACG -CAACCCTGGCAGATGAAGCCGTCGAGCAAATGCGTGAAATGGGCGTAACCCCGACGCACGTTCTGCTGCA -AGCCGGTGTCGGAGCAATGGCCGGTGGTGTGCTGGGTTATCTGGTCGACGTCTATAGCCCGCAAAATCTG -CACAGCATTATTGTTGAACCTGACAAAGCTGACTGTATTTATCGCTCCGGCGTCAAAGGCGACATCGTCA -ACGTTGGCGGTGATATGGCCACCATCATGGCAGGCCTGGCCTGTGGCGAACCTAACCCGCTGGGCTGGGA -AATCCTACGTAACTGCGCCACCCAATTCATCTCCTGCCAGGACAGCGTTGCCGCATTAGGTATGCGCGTG -CTGGGTAATCCGTACGGCAACGACCCGCGCATCATCTCCGGTGAATCCGGCGCTGTCGGTTTGGGCGTTC -TCGCAGCGGTTCATTATCACCCGCAACGTCAAAGCCTGATGGAAAAACTGGCGCTGAACAAAGATGCCGT -GGTGCTGGTTATCAGCACTGAAGGCGACACCGACGTGAAGCACTACCGCGAAGTTGTCTGGGAAGGCAAA -CACGCTGTAGCACCTTAATCACCCTATTGGAACTGCTCCCTGCAAAACGGGGAGTAAAAAATCTGGAGAA -AAATAATGGCTAAGAATATTCCATTCAAACTGATTCTTGAAAAAGCAAAAGATTACCAGGCGGATATGAC -TCGCTTCCTGCGCGACATGGTTGCTATTCCCAGTGAAAGCTGCGACGAGAAACGCGTAGTACATCGTATT -AAAGAAGAGATGGAAAAAGTCGGCTTCGATAAAGTTGAAATCGACCCGATGGGCAACGTTCTCGGTTATA -TCGGCCACGGCCCGCGTCTGGTGGCAATGGACGCTCATATCGATACCGTCGGCATTGGCAACATCAAAAA -CTGGGACTTCGATCCGTACGAAGGCATGGAAACTGATGAACTGATTGGTGGTCGCGGTACTTCCGACCAG -GAAGGTGGCATGGCCTCTATGGTTTATGCCGGTAAAATCATTAAAGACCTCGGTCTGGAAGATGAATATA -CCCTGCTGGTTACCGGTACGGTGCAGGAAGAAGACTGCGACGGTCTGTGCTGGCAGTACATTATTGAACA -ATCCGGCATTCGCCCGGAATTTGTGGTCAGTACCGAACCAACCGACTGCCAGGTATACCGTGGTCAGCGC -GGTCGTATGGAAATTCGTATTGATGTTCAGGGTGTTAGCTGCCACGGTTCTGCACCAGAACGCGGTGATA -ACGCCATTTTCAAAATGGGTCCGATTCTTGGCGAATTACAAGAACTCTCCCAACGTCTGGGTTATGACGA -ATTCCTCGGCAAAGGCACCCTCACCGTTTCTGAAATCTTCTTCACATCCCCAAGCCGTTGCGCTGTAGCA -GACAGCTGCGCAGTTTCAATCGACCGTCGTCTGACCTGGGGCGAAACCTGGGAAGGCGCGCTGGACGAAA -TCCGCGCCCTGCCTGCAGTACAGAAAGCTAACGCGGTTGTTTCTATGTACAACTACGACCGTCCGTCCTG -GACTGGCCTGGTTTACCCAACCGAATGCTACTTCCCGACCTGGAAAGTGGAAGAAGATCACTTCACCGTT -AAAGCACTGGTGAATGCCTACGAAGGGCTGTTTGGCAAAGCGCCGGTTGTTGATAAGTGGACCTTCTCAA -CTAACGGCGTATCTATCATGGGCCGTCACGGCATTCCGGTGATCGGCTTTGGCCCGGGTAAAGAACCTGA -AGCGCATGCACCTAACGAAAAAACCTGGAAATCTCACCTGGTGACCTGTGCCGCGATGTACGCTGCAATC -CCGTTAAGCTGGCTGGCAACAGAGTAATTACTCTTCACTTATTCCCCTCCGGTTCGCCGGAGGGTTTTTG -GAGTTTGCTATGCGCGTATTGATCAAAAACGGCACTGTCGTTAACGCAGATGGACAAGCCAAACAGGATT -TGCTGATTGAAAGCGGGATTGTTCGCCAGTTGGGCAACAATATTTCGCCGCAGCTCCCGTATGAAGAAAT -TGATGCCACTGGCTGTTACGTTTTCCCTGGCGGCGTGGATGTCCATACGCATTTCAATATTGATGTCGGC -ATCGCGCGCAGTTGTGATGATTTTTTTACCGGTACCCGCGCAGCTGCGTGTGGCGGTACAACAACCATTA -TTGACCATATGGGATTTGGCCCAAACGGCTGTCGGTTACGCCATCAACTGGAGGTTTATCGTGGTTATGC -CGCCCATAAAGCGGTCATCGATTACAGCTTTCACGGTGTGATCCAGCACATTAATCACGCAATCCTCGAC -GAAATCCCGATGATAGTCGAGGAAGGACTGAGCAGTTTTAAACTCTATTTAACCTATCAATACAAACTCA -ACGATGACGAGGTTTTGCAGGCATTACGCCGCTTGCATGAATCCGGCGCGCTGACCACCGTGCACCCGGA -AAATGATGCGGCTATCGCCAGCAAGCGGGCGGAATTTATCGCCGCAGGGTTAACCGCGCCGCGCTATCAT -GCCTTGAGTCGCCCTCTGGAATGCGAAGCGGAAGCCATCGCCCGCATGATTAACCTGGCACAAATTGCCG -GTAACGCCCCGCTCTATATCGTGCACCTGTCTAACGGCTTAGGTCTGGATTATCTGCGTCTTGCCCGTGC -GAATCACCAGCCAGTCTGGGTTGAAACCTGCCCACAATATCTCCTGTTGGACGAACGCAGTTACGATACA -GAAGATGGCATGAAGTTCATTCTTAGCCCACCGCTGCGTAACGTACGCGAGCAGGACAAACTGTGGTGTG -GCATCAGCGATGGTGCGATTGACGTGGTGGCAACCGATCACTGCACCTTCTCGATGGCTCAACGCCTGCA -AATTTCTAAAGGCGATTTCAGTCGCTGCCCAAATGGCTTACCCGGTGTGGAAAACCGCATGCAGTTACTG -TTTTCCAGTGGCGTGATGACGGGACGTATAACACCGGAACGCTTTGTTGAATTAACCAGCGCAATGCCCG -CCAGGTTGTTTGGCCTGTGGCCGCAAAAAGGATTATTAGCGCCCGGTTCCGACGGCGACGTGGTGATTAT -CGACCCACGTCAGAGCCAACAAATTCAGCATCGCCATCTCCACGACAACGCCGACTACTCGCCATGGGAG -GGTTTTACCTGTCAGGGCGCGATTGTCAGAACCTTATCCCGTGGTGAAACGATTTTCTGTGACGGCACCT -TTACAGGCAAAGCCGGGCGAGGTCGTTTCCTGCGACGCAAACCGTTTGTCCCTCCCGTGCTCTAACCACT -GCCAGGGATCTATACACAATCAAGAATGATGAGTGAGGAAAAATGAGTAAGAAAATTGTTCTCGCCCTGG -GCGGGAATGCGCTGGGCGATGACCTGGCCGGGCAAATGAAAGCGGTAAAAATTACTTCTCAGGCAATTGT -TGATTTAATTGCCCAGGGACATGAAGTTATCGTCACTCATGGTAACGGGCCGCAGGTGGGCATGATTAAC -CAGGCCTTTGAAGCTGCCGCAAAAACTGAAGCGCACTCGCCAATGCTGCCGATGTCTGTCTGTGTTGCAT -TAAGCCAGGGTTATATTGGTTACGATCTACAAAACGCTTTAAGAGAAGAACTGCTTTCTCGGGGCATTAA -TAAACCTGTAGCAACGCTGGTTACTCAGGTCGAAGTCGACGCTAACGATCCGGCATTCCTCAACCCGACC -AAGCCGATCGGTTCGTTCTTTACCGAGCAAGAAGCAGAGCAACTGACAAAACAGGGTTACACTCTGAAAG -AAGATGCTGGTCGCGGCTATCGCCGTGTTGTTGCCTCGCCAAAACCGGTTGATATCATTGAAAAAGAAAC -GGTTAAAGCTCTGGTAGATGCAGGTCAGGTGGTGATCACCGTTGGCGGTGGTGGTATCCCTGTTATTCGT -GAAGGTAACCATCTGCGTGGTGCCAGCGCGGTTATCGATAAAGACTGGGCCAGCGCCCGTTTAGCAGAAA -TGATTGATGCCGATATGCTGATCATTCTGACTGCGGTAGAAAAAGTGGCCATTAACTTCGGTAAAGAGAA -TGAACAGTGGCTCGATCGCCTGTCATTAAGTGATGCTGAACGCTTTATCGAAGAAGGTCATTTTGCGAAA -GGTTCTATGCTGCCTAAAGTGGAAGCTGCCGCCTCGTTTGCTCGCTCTCGCGCAGGTCGTGAAGCACTGA -TTACCGTATTGAGCAAAGCGAAAGAAGGGATTGAAGGCAAAACAGGAACGGTGATTTGTCAGTAATTTAA -AGGCCGGGTGGGTAATACCATCCGGCCAAAGATTGTCAAGTAAGTGCGCTTTGTTGATGCCGGATGCGGC -GCGAGCGCCTTATCCGTCCTACAAAACATCGCAAATTCAATAGATTGCAATGCACTTGTAGGCCTGATAA -GCGTAGCGCATCAGGCAATTTGGCGTTTGTCATCAGTCTCAGGCCGGGTGGGTAATACCATCCGGCCATT -TTCATTTAAGCCACTTCCAGCACTTCTTTTGTCGCTTTCACGCCCTGATGCATCAACATCATTAACGCCT -CAAGTACGCCGCCGCCAATCGCCCGGGCTTTATCAGAAACGCTGGTGAAATCAGCGGTTTCACCACGAGG -ATCGATATCACCAATTTTAAAACCACCAACCACTGCCAGGCCGTCGTTCAACAAGCCACGCACCATCCCC -GTCAACGGTGCTTTAATTTCATGCTCACCAATCCAGGCAATCACATCGCCCTCTTTCACCAGATCGCCTA -ATTTCACGTTGGATCGCATAATGCCTGCAGCAGGAGCACGGATCACCCGTCGGGTGGTATGCCCCATAAT -ATTGCCAGGAACACCGGTATTCTCCTGCGCACAACCAGAGTAAATCACCTGACCGAGCCAGTGCCCGCGA -TTTGTTTCAATTACCGCATGACAATCCTTCCCAGCAGTAAAGCCCGGCCCAAGCGCGATTGTTACTGGTG -CCATATCTGCCCGCGTTCCCAAATTCTGTTTCGCCAGAATAGCGTCCACCACGCAAAGCGGTTTCAGTTC -ATCAAGCAATGAACAGGCGGGATCTACCATCACAGGAATGAATCCGCGTTCGGTAAGTTTCATCGCTTCC -GCAGAGCTGGTTGCCAGGCGAGCAGTGACGCCTTCGACCGTCATTTCGCCATCGAACACGGCCTGGGCAA -ACGCCACGGTACAACGAATCACTGTCGGTTTTTCCACTTCCAGCATGATCACTTTAAAACCCGCATGATA -CAGACGTAGCGCCACACCACTGGCGATATCTCCCGCACCGCGAATCACCACCAGCTGGTGTCCGGAAGGA -TGAGAAGGTTTCATCATCAGCCCACCCGGCGCGTTATTTTTCACCTGTAATATTTCTGCCAGCACGCTGA -TGGCGATCTCCTGCGGCGTTTCCGCACCTATGTTGTAACCAACGGGCGCATGTAAACGGGCAATATGTTC -TTCAGCCACGCCTTTCTCACGCAATTGACGCAGGAAAAGCTGAACCTTGCGACGACTTGCCAGCAACCCC -AACCATGCAATGGGCTGTTCAATGAGTTTGTCGAGGGCTTCACGATCCTGATTATTCGTGGCAATCAGGA -CAAAATTATCAGGGCGAATATCCAGTGCTTCCACTGCCGCACCAAACGACTCAGCATGGAGAAGCGTGGT -TGATGGTGGGAATAGTTCAGGATTGAGGCTTTCGCGATAAATATCAGCAACGGCAATATCAAATCCTAAT -AGCGCCGCACTCTGGGCTATCGCCCGGTTGACATGCCCCGCGCCAATCAACACCAGACGTGGACGCATAC -CATGGACGCTGATAAATACTGACATTGCACCTCCACAATCTGACCCGACAGCATCCGCACCGTTACGAGC -CATACGTCCATGGAATAATCGCGGCTTACGTTCCTGCAATGCCTGAAGCGACTCTTCAATCACCTTCCGC -TCAACCATTCCGCCACCAATTGTACCGACGATAGAACCATCGGCGCGCACTAACATTTGTGCAGAATGGC -GGGGAGTCGAGCCTCGGCTATCAACAATTTGCGCCATAGCAAACGGACAATTTTGCTCTTCGAGTTTTGC -AGCCTCTGTGAAAATATTCATACCAACCTCAATGGATATCCTTTCAGTAACCCGGAATACCCGGGCCGCT -AATTCACAAATCTGCGCGCGATTGCAGGATGTTCTTGTATATCGCCCAGCCAGATTGCCTCTACGTCGTG -TTGTTGCAGCGGTTGAAGGAGCTCGCTTTGTGCAATCGCATTCTCACATTGAGAAAAACGGTTAATGAAC -CAGACTCGCCGACAACCTTGCGGTACGTTTTTAAACGCCCCCTGAGGGTGGCGAACCAGCGCAACGAGAT -CGCTCAGTTGCAAGGTTGCATCAGGTGTTAACCCGGTAATATCAGCAAACTGCGACCAGCGATGGACATT -TTCTGTGCTCACTTTCGCGCCCAAAGTATGTCCTCCCATCACAGCAATCACGCAGCAACTGCTTTTGGGT -ATGCAAGGTTCGTGCTCATCAGGCGCTTTTAACGGCATTCCACGCGAGCCATCTGCTTCAATGAGAATTA -CGTCACACTCTGGTCGTTGCACCAGTGCATCAATCGCTTCTGGCGTAAATCCCTGCACTTTTCCCTGGTT -CGCTTTCCAGCTGTGAAAACAAAATGAAATGGGGGATGTAAGAGACGCATGAGGAAGCATGGCGGGATCA -CGACAGAAAACCACGGGCCAGTGAGACGTTGGCATAAACATATGTGTCGTCGTCGTGATTAACACACGCC -TGCCGCTAGCCTGGAGCAGTTCTGCCAGCCAAAAAAGCAAGCTGGTTTTCCCCCCAGCACCAACAACAGA -AATCACAGTGGGACGTTTCTGCGCACCTAAATCAATGACTAATGCCGATGGGTCAACTATACTTTTCACG -AGTCTTTATGACCTCTCTGGGATAAATTATCCCCAACTTAATCCATCAGGAAGTAACGCAATTATCAGGC -GTTATTAGCCCCTATAAATAATGGAACCACTATGTCAGCCATCGACTGTATAATTACCGCTGCCGGATTA -TCATCAAGAATGGGGCAATGGAAAATGATGTTACCCTGGGAACAGGGAACAATTCTTGATACAAGTATCA -AAAATGCGTTGCAGTTTTGTAGCCGAATTATTTTAGTCACCGGCTATCGTGGTAATGAACTGCACGAACG -TTATGCGAACCAGAGCAATATCACTATTATTCACAACCCAGATTATGCGCAGGGTTTACTAACATCCGTC -AAGGCCGCAGTACCCGCAGTGCAAACAGAACATTGTTTTCTCACCCACGGTGACATGCCAACCCTCACCA -TCGATATTTTTAGAAAAATCTGGTCGTTACGAAATGATGGCGCAATACTGCCACTCCATAATGGCATCCC -CGGCCATCCGATTTTAGTGTCAAAACCATGCCTGATGCAGGCAATCCAACGACCCAATGTCACCAATATG -CGTCAGGCACTCCTTATGGGAGATCATTATTCCGTCGAAATAGAAAATGCAGAAATAATTTTAGATATTG -ATACTCCGGACGACTTTATTACAGCGAAGGAAAGGTATACTGAAATTTAGAAAACGTAGTTAAACGATTG -CGTTCAAATATTTAATCCTTCCGGCACTCATTATCATAATGATAAGGAATCACTGATTTTGAGAAAAGAG -AAAAATTGATAAATGGGCTGGCAATAATAATTTTCAGGAGTGATTTTAATTCTCATTTAGCACCTGTGAG -TTCATTCACAAAAAGCCCTTAAGTTTCGAGCCGCCTCACATTTTTTTATATTTCCCGCCAAACCTGGCAA -GAGTGGTGCGATTGTTGCTCTATCCCCCTAAACCACCGGATTTCTCAACACCGGTCACTCAATGATATCT -GTATAAGCTAAGGAGAGGGTTATGGGGGATATTATGCGTCCCATTCCGTTTGAGGAACTTTTGACGCGCA -TATTTGATGAATACCAACAACAACGCTCAATCTTTGGTATTCCCGAGCAACAGTTTTACTCACCTGTAAA -AGGTAAAACTGTTAGCGTCTTCGGTGAAACCTGTGCCACTCCCGTCGGCCCTGCCGCTGGCCCGCACACG -CAGCTCGCGCAAAATATTGTCACTTCCTGGCTGACTGGCGGACGCTTCATCGAACTAAAAACCGTCCAAA -TTCTTGACCGCCTGGAGCTGGAAAAGCCCTGTATCGATGCCGAAGACGAGTGCTTTAACACCGAATGGTC -TACCGAGTTTACCCTGCTTAAAGCCTGGGATGAATACCTCAAAGCCTGGTTTGCCCTGCACCTTCTCGAA -GCGATGTTCCAGCCTTCTGATTCCGGTAAATCGTTCATCTTTAATATGAGCGTCGGTTACAACCTCGAAG -GTATTAAGCAACCGCCGATGCAACAGTTCATCGACAATATGATGGACGCATCTGACCATCCGAAATTCGC -TCAATATCGCGATACGCTGAATAAATTACTCCAGGATGACGCATTTTTAGCTCGCCACGGATTGCAGGAA -AAACGCGAAAGCTTGCAAGCCTTACCCGCTCGCATCCCCACCAGTATGGTGCATGGCGTCACCCTCTCCA -CCATGCACGGCTGTCCTCCGCATGAAATCGAAGCCATTTGCCGCTACATGCTGGAAGAAAAAGGGCTCAA -CACCTTTGTGAAACTTAACCCGACCTTACTGGGGTACGCGCGTGTTCGTGAGATCCTCGATGTCTGCGGT -TTCGGTTACATAGGCTTAAAAGAAGAGTCATTTGATCACGACCTCAAGCTGACGCAAGCACTGGAAATGC -TGGAACGCCTGATGGCACTGGCAAAAGAAAAATCACTCGGCTTTGGCGTAAAACTGACTAACACTCTCGG -CACCATCAACAATAAAGGCGCACTGCCTGGTGAAGAGATGTATATGTCAGGCCGTGCGCTGTTCCCGCTC -TCCATCAATGTTGCAGCAGTTCTCTCTCGCGCCTTTGACGGCAAACTGCCCATTTCTTATTCCGGTGGTG -CCAGTCAGCTGACTATCCGCGATATTTTTGATACAGGTATTCGCCCTATTACTATGGCAACCGACCTGCT -GAAACCTGGCGGCTATCTGCGCTTAAGTGCCTGCATGCGCGAGCTGGAAGGCTCCGACGCCTGGGGACTT -GACCATGTTGACGTCGAACGACTGAACAGACTGGCAGCAGATGCGTTAACCATGGAATACACCCAGAAAC -ACTGGAAGCCAGAAGAGCGTATTGAAGTGGCAGAAGACCTGCCGCTGACCGACTGCTACGTTGCCCCCTG -TGTTACTGCCTGCGCTATCAAGCAAGATATTCCGGAATACATCCGTCTGCTTGGCGAACACCGCTATGCC -GACGCGCTGGAACTCATCTACCAACGCAACGCTCTGCCCGCCATTACCGGTCATATTTGCGATCACCAGT -GCCAATACAACTGTACCCGCCTGGATTACGACAGTGCGCTGAATATCCGCGAACTGAAAAAAGTCGCGCT -GGAAAAAGGTTGGGATGAATATAAGCAACGCTGGCACAAACCAGCCGGTTCTGGTTCACGCCATCCGGTT -GCCGTGATTGGTGCAGGTCCGGCGGGTCTGGCAGCAGGTTACTTCCTTGCCAGAGCGGGCCATCCGGTTA -CGCTGTTTGAACGCGAAGCCAATGCGGGCGGCGTGGTGAAAAATATCATTCCTCAGTTCCGTATTCCTGC -AGAGTTAATTCAGCACGATATCGATTTTGTTGCCGCTCACGGCGTGAAATTTGAGTATGGCTGCTCACCC -GATTTAACCATTGAGCAGTTAAAAAATCAGGGCTTCCACTATGTTCTGATTGCCACCGGCACTGATAAAA -ATAGCGGTGTGAAACTGGCGGGCGACAACCAAAATGTCTGGAAATCACTCCCCTTCCTGCGTGAATACAA -CAAGGGTACAGCGCTCAAGCTGGGCAAACATGTGGTCGTTGTCGGGGCGGGTAACACCGCAATGGACTGC -GCTCGTGCGGCGTTACGCGTTCCAGGCGTAGAAAAAGCAACGATCGTTTACCGTCGTTCACTACAAGAGA -TGCCCGCATGGCGCGAAGAGTATGAAGAAGCGTTGCACGACGGCGTAGAGTTCCGTTTCCTGAATAATCC -GGAACGTTTCGATGCTGATGGCACCTTAACCTTGCGCGTTATGTCGCTTGGCGAACCGGATGAGAAAGGT -CGTCGTCGTCCGGTTGAAACCAATGAAACAGTAACACTGCTTGTAGACAGCCTGATCACCGCCATTGGTG -AACAGCAGGATACTGAAGCCCTGAATGCGATGGGCGTGCCGCTGGACAAAAACGGCTGGCCAGACGTCGA -CCATAATGGCGAAACTCGTCTGACTGACGTCTTTATGATCGGCGACGTACAGCGCGGACCATCCTCCATT -GTCGCTGCTGTCGGAACCGCGCGTCGGGCGACCGATGCCATCCTTAGTCGGGAAAATATCCGTTCCCACC -AGAACGATAAATACTGGAACAACGTCAATCCAGCGGAAATCTATCAACGTAAAGGCGATATCTCTATCAC -GCTGGTGAACAGTGACGATCGTGACGCGTTTGTCGCCCAGGAAGCCGCTCGCTGCCTCGAATGTAACTAC -GTTTGCAGCAAGTGTGTGGATGTCTGCCCGAACCGCGCCAACGTCTCCATTGCGGTCCCAGGCTTCCAGA -ACCGTTTCCAGACGCTGCACCTCGACGCTTACTGTAACGAATGCGGCAACTGCGCTCAGTTCTGTCCGTG -GAACGGTAAACCGTACAAAGACAAAATCACCGTCTTCAGCCTGGCGCAAGACTTTGATAACAGCAGCAAC -CCAGGCTTCCTTGTGGAAGATTGCCGGGTACGAGTACGTCTGAATAACCAAAGCTGGGTGTTAAACATCG -ACAGCAAAGGTCAGTTTAACAACGTACCACCGGAGCTGAACGATATGTGCCGCATCATCAGCCATGTCCA -CCAGCATCATCATTATCTGCTGGGCCGCGTGGAGGTGTAATCATGTTGATTCTGAAGAATGTCACTGCGG -TACAGCTACACCCGGCAAAAGTGCAGGAAGGCGTTGATATCGCCATCGAAAACGATGTGATTGTCGCTAT -CGGCGATGCCCTGACGCAACGCTACCCCGACGCCAGCTTCAAAGAGATGCATGGCCGGATTGTGATGCCA -GGGATTGTCTGCTCGCACAACCATTTTTACTCGGGGCTTTCCCGCGGAATTATGGCAAACATCGCCCCTT -GCCCGGATTTCATCTCAACGCTGAAAAATCTCTGGTGGCGGCTCGATCGCGCCCTTGATGAAGAGTCGCT -CTATTACAGCGGACTGATTTGTTCCCTGGAAGCGATTAAGAGCGGATGTACATCGGTTATCGATCACCAT -GCCTCTCCGGCGTATATCGGCGGGTCGCTCTCCACATTGCGCGACGCATTTTTAAAAGTTGGCCTGCGCG -CGATGACCTGTTTTGAAACTACTGACCGTAACAACGGCATCAAAGAGTTGCAGGAAGGTGTAGAAGAAAA -CATCCGTTTCGCCCGTTTGATTGATGAGGCGAAGAAAGCGACAAGCGAGCCGTATCTGGTGGAAGCACAT -ATCGGTGCTCACGCGCCGTTTACCGTGCCGGATGCCGGTCTGGAGATGCTGCGTGAAGCCGTGAAAGCCA -CAGGCCGTGGTTTGCATATTCACGCTGCGGAAGACCTTTACGACGTTTCCTACAGTCACCACTGGTACGG -CAAAGACCTGCTGGCACGACTGGCGCAATTCGATCTCATCGACAGCAAAACGCTGGTCGCTCATGGGCTG -TACTTGTCGAAAGATGACATCACCCTACTCAATCAGCGCGATGCGTTCCTGGTGCATAACGCCCGTTCAA -ACATGAACAACCATGTCGGCTACAACCATCACCTTAGCGACATCCGCAATCTGGCGTTGGGAACGGACGG -CATTGGTTCGGACATGTTTGAAGAGATGAAATTTGCCTTCTTTAAACATCGCGATGCGGGTGGTCCGCTG -TGGCCTGACAGTTTTGCCAAAGCCCTGACTAACGGTAACGAACTGATGAGCCGCAACTTTGGCGCGAAAT -TTGGGCTTCTGGAAGCCGGTTACAAAGCTGATTTAACCATTTGCGATTACAACTCGCCGACGCCGCTGCT -GGCAGACAATATCGCCGGGCATATCGCTTTCGGTATGGGCTCAGGCAGCGTTCACAGCGTGATGGTCAAT -GGTGTGATGGTCTATGAAGACCGTCAGTTTAACTTCGATTGCGATTCCATTTATGCACAAGCCAGAAAAG -CCGCTGCCAGTATGTGGCGTCGGATGGATGCGCTGGCATAAATGACAGATGCCCTCTTCCCGCAGGGAAG -AGGGTTAAATAAGGAAAGAAGATGATTGAACAATTTTTCAGGCCCGACTCTGTCGAACAGGCGCTGGAAC -TGAAGCGCCGCTACCAGGATGAAGCCGTCTGGTTCGCCGGGGGCAGCAAACTCAATGCTACACCAACCCG -TACCGATAAAAAGATTGCCATTTCCTTACAGGATCTGGAACTGGACTGGGTTGACTGGGATAACGGTGCA -CTGCGGATTGGCGCAATGTCTCGCTTGCAGCCACTGCGTGATGCGCGATTTATTCCTGCAGCGCTGCGTG -AAGCCCTCGGTTTTGTTTACTCACGCCATGTTCGTAATCAGTCGACCATTGGTGGTGAAATCGCCGCCCG -CCAGGAAGAGTCGGTGCTGCTTCCCGTCCTGTTGGCACTGGATGCTGAACTGGTTTTTGGCAACGGCGAA -ACGCTGTCAATCGAGGACTACCTGGCCTGCCCATGCGATCGCCTGCTAACCGAAATTATCATTAAAGATC -CGTATCGCACCTGTGCGACCCGCAAAATTAGCCGTTCTCAGGCAGGTTTAACCGTCGTGACGGCAGCCGT -TGCAATGACAGACCACGACGGTATGCGAATTGCGCTGGATGGCGTCGCCAGTAAAGCACTGCGTCTGCAT -GATGTCGAAAAACAAAATCTGGAAGGCAATGCACTTGAACAGGCTGTCGCCAACGCCATTTTCCCGCAGG -AAGATTTGCGGGGCAGCGTGGCCTATAAACGCTATATCACGGGAGTTCTGGTAGCCGACCTGTATGCCGA -CTGCCAACAGGCTGGGGAGGAAGCCGTATGATCATCCACTTTACTTTAAATGGCGCGCCTCAGGAGCTAA -CCGTTAATCCAGGCGAAAACGTGCAAAAGCTGTTGTTTAACATGGGAATGCACTCTGTACGCAACAGTGA -TGATGGTTTCGGGTTTGCCGGTTCTGACGCAATAATCTTTAACGGTAATATCGTTAACGCGTCCTTGCTT -ATTGCCGCACAGTTAGAGAAGGCAGATATTCGTACCGCAGAATCTCTGGGCAAATGGAACGAGTTAAGTC -TGGTTCAACAGGCAATGGTTGATGTTGGCGTGGTGCAGTCTGGTTATAACGATCCAGCTGCAGCTCTGAT -TATCACCGATCTTCTCGATCGCATCGCCGCACCTACCCGCGAAGAGATCGACGACGCGCTTTCTGGTTTG -TTCAGCCGCGATGCTGGCTGGCAGCAATACTATCAGGTCATTGAACTGGCGGTTGCACGTAAAAATAATC -CGCAGGCCACCATTGATATCGCTCCGACTTTCCGTGACGACCTAGAAGTCATTGGTAAGCATTATCCTAA -AACTGATGCCGCGAAAATGGTGCAGGCGAAACCCTGCTATGTTGAAGACCGCGTAACGGCTGACGCCTGC -GTCATTAAAATGTTACGTAGCCCACACGCTCACGCACTGATTACTCATCTGGATGTCAGCAAAGCTGAAG -CCTTACCGGGCGTCGTTCACGTTATTACTCACCTGAATTGCCCGGATATCTACTATACCCCGGGTGGTCA -GAGCGCACCGGAACCGTCACCGCTTGACCGCCGTATGTTCGGCAAGAAAATGCGTCACGTCGGCGATCGT -GTTGCTGCGGTCGTCGCAGAAAGTGAAGAAATTGCGCTCGAAGCACTGAAGCTCATCGACGTTGAATATG -AAGTGCTTAAGCCGGTAATGTCGATCGACGAAGCAATGGCGGAAGATGCGCCTGTCGTGCACGATGAACC -GGTGGTGTATGTTGCTGGTGCGCCAGATACTCTGGAAGACGATAACAGCCATGCAGCCCAGCGCGGCGAG -CATATGATCATCAACTTCCCGATCGGTTCTCGCCCTCGCAAAAATATCGCCGCCAGTATTCATGGTCATA -TTGGCGATATGGACAAAGGCTTTGCCGATGCCGATGTGATCATTGAGCGAACCTATAACTCAACGCAAGC -GCAGCAGTGCCCGACTGAAACACATATCTGCTTTACTCGTATGGACGGCGATCGTCTGGTTATCCACGCC -TCCACCCAGGTACCATGGCACTTACGCCGCCAGGTCGCGCGCCTCGTGGGCATGAAACAGCATAAAGTTC -ATGTCATTAAAGAGCGAGTTGGCGGCGGTTTTGGTTCCAAACAGGACATCCTGCTGGAAGAAGTGTGCGC -CTGGGCAACCTGCGTGACCGGGCGTCCGGTACTGTTCCGCTACACCCGTGAAGAAGAGTTTATTGCTAAC -ACCTCTCGTCACGTCGCGAAAGTCACCGTCAAACTGGGAGCGAAAAAAGATGGTCGCCTGACGGCAGTGA -AGATGGATTTCCGCGCCAACACTGGCCCTTACGGCAACCACTCACTCACCGTACCGTGTAACGGACCGGC -GCTGTCGCTGCCGTTATATCCGTGCGATAACGTCGATTTCCAGGTCACCACCTACTACAGCAACATTTGC -CCAAATGGTGCTTATCAGGGTTATGGCGCACCGAAAGGTAACTTCGCTATCACCATGGCATTAGCGGAAC -TGGCTGAACAGTTACAGATCGACCAACTGGAAATTATCGAACGTAACCGGGTACACGAAGGGCAAGAGCT -GAAAATTCTCGGTGCAATCGGTGAAGGTAAAGCGCCGACCTCCGTTCCTTCCGCCGCCAGCTGTGCACTG -GAAGAGATCCTGCGTCAGGGTCGCGAGATGATCCAATGGTCGTCACCGAAACCGCAAAATGGTGACTGGC -ACATCGGTCGCGGCGTCGCCATTATCATGCAGAAATCGGGTATCCCGGATATCGATCAGGCTAACTGCAT -GATCAAACTGGAATCGGACGGCACCTTTATCGTTCATTCTGGCGGTGCGGATATTGGTACTGGTCTGGAT -ACTGTAGTGACGAAACTGGCAGCAGAAGTGCTGCACTGCCCACCGCAGGACGTGCATGTTATCTCCGGTG -ATACCGATCATGCGTTGTTTGATAAAGGCGCATATGCCTCGTCCGGTACTTGCTTCTCGGGTAACGCGGC -GCGTTTGGCAGCGGAAAATCTACGGGAGAAAATTCTGTTCCACGGCGCGCAAATGTTGGGTGAGCCAGTG -GCAGATGTTCAACTGGCAACGCCGGGCGTCGTGCGCGGCAAGAAAGGCGAAGTTAGTTTCGGGGATATTG -CCCATAAAGGCGAAACCGGCACCGGCTTTGGTTCACTGGTGGGAACTGGCAGTTATATCACGCCTGATTT -CGCCTTCCCGTATGGCGCAAACTTCGCTGAAGTTGCCGTCAACACGCGTACGGGTGAAATCCGCCTGGAT -AAATTCTACGCCTTGCTGGACTGCGGTACACCGGTCAATCCAGAGTTAGCGTTGGGACAAATCTACGGTG -CCACCCTGCGTGCTATCGGCCACAGTATGAGCGAAGAGATCATTTATGACGCCGAAGGTCACCCGTTAAC -GCGTGATTTACGCAGTTACGGCGCACCGAAAATTGGTGACATTCCGCGTGATTTCCGCGCTGTGCTGGTG -CCGAGCGACGATAAAGTCGGCCCGTTCGGGGCGAAATCGATCTCGGAAATCGGTGTAAATGGCGCAGCTC -CGGCGATTGCTACCGCAATTCACGATGCATGCGGCATCTGGTTACGCGAATGGCATTTCACACCGGAGAA -AATACTCACTGCGCTGGAAAAAATATAAATAATAAATGGCCGCTTCGGCGGCCTGTTTCTCTGTTTGAAC -GATGACTAAATAGTGACTGCGAAAATGAGATAAGCCGTTCTCAAGGCGTCCTGCGCCCCAAATTCGTGGG -AATTTATTTTACTAATTCAGATGATCAAATTTACTTTAAAAGGAGTGAAGGGATGTCTGATATAAACCAT -GCAGGTTCTGACCTTATATTTGAACTGGAGGATCGCCCTCCCTTTCATCAGGCTCTCGTTGGTGCCATTA -CCCATCTGTTGGCAATTTTCGTTCCGATGGTAACCCCCGCGTTAATCGTGGGTGCGGCCTTACAGCTTTC -CGCTGAAACAACTGCCTATCTTGTTTCTATGGCGATGATCGCCTCTGGTATTGGTACCTGGTTACAAGTA -AACCGCTACGGCATCGTCGGTTCTGGCCTACTCTCAATTCAGTCAGTCAATTTTTCATTTGTTACGGTCA -TGATTGCGCTGGGCAGCAGCATGAAAAGCGACGGTTTTCACGAAGAGTTAATCATGTCGTCGCTTCTCGG -CGTCTCCTTCGTTGGCGCATTTCTGGTTGTCGGATCTTCATTTATCTTGCCCTATTTACGTCGGGTTATT -ACGCCTACCGTCAGCGGTATTGTGGTACTGATGATCGGCTTAAGCCTGATTAAAGTCGGCATTATCGATT -TTGGTGGAGGATTTGCAGCCAAAAGCAGCGGTACGTTCGGCAATTACGAACATCTCGGCGTTGGTTTATT -GGTTTTAATTGTGGTGATCGGCTTTAACTGCTGTCGCAGTCCGTTGCTACGCATGGGAGGGATCGCCATT -GGGCTATGTGTCGGCTATATCGCATCGTTATGCCTGGGCATGGTGGATTTCAGCAGTATGCGCAATTTGC -CGTTAATCACCATCCCGCATCCGTTCAAATACGGCTTTAGTTTTAGCTTCCATCAGTTCCTGGTGGTTGG -CACGATTTATCTGCTTAGCGTGCTGGAAGCAGTCGGCGATATCACCGCCACGGCAATGGTTTCCCGCCGC -CCCATTCAGGGGGAAGAGTATCAGTCCCGGCTGAAAGGCGGCGTGCTGGCAGATGGTCTGGTTTCTGTTA -TCGCCTCCGCTGTCGGTTCATTACCATTAACCACGTTTGCGCAAAATAATGGGGTTATTCAGATGACTGG -CGTCGCTTCACGTTATGTCGGGCGAACCATCGCGGTAATGCTGGTTATCCTCGGCTTATTTCCGATGATT -GGCGGCTTCTTCACGACCATTCCCTCGGCAGTTCTGGGAGGCGCAATGACGTTGATGTTTTCCATGATTG -CCATCGCAGGGATTCGCATCATCATCACCAACGGTTTAAAGCGCCGTGAAACACTTATTGTCGCCACTTC -TTTAGGTTTAGGGCTTGGCGTCTCCTACGATCCCGAAATTTTTAAAATATTGCCAGCCTCTATTTATGTA -TTAGTTGAAAACCCTATTTGTGCTGGCGGGTTAACTGCGATTTTATTAAATATTATCCTCCCTGGTGGCT -ACCGACAGGAAAACGTTCTGCCTGGTATTACCTCAGCGGAAGAGATGGATTAACAGTAAAGGAGTCAATG -ATGTCAGGAGAACACACGTTAAAAGCGGTACGAGGCAGTTTTATTGATGTCACCCGTACGATCGATAACC -CGGAAGAGATTGCCTCTGCGCTGCGGTTTATTGAGGATGGTTTATTACTCATTAAACAGGGAAAAGTGGA -ATGGTTTGGCGAATGGGAAAACGGAAAGCATCAAATTCCTGACACCATTCGCGTGCGCGACTATCGCGGC -AAACTGATAGTACCGGGCTTTGTCGATACACATATCCATTATCCGCAAAGTGAAATGGTGGGGGCCTATG -GTGAGCAATTGCTGGAGTGGTTGAATAAACACACCTTCCCTACTGAACGTCGTTATGAGGATTTAGAGTA -CGCCCGCGAAATGTCGGCGTTCTTCATCAAGCAGCTTTTACGTAACGGAACCACCACGGCGCTGGTGTTT -GGCACTGTTCATCCGCAATCTGTTGATGCGCTGTTTGAAGCCGCCAGTCATATCAATATGCGTATGATTG -CCGGTAAGGTGATGATGGACCGCAACGCACCGGATTATCTGCTCGACACTGCCGAAAGCAGCTATCACCA -AAGCAAAGAACTGATCGAACGCTGGCACAAAAATGGTCGTCTGCTATATGCGATTACGCCACGCTTCGCC -CCGACCTCATCTCCTGAACAGATGGCGATGGCGCAACGCCTGAAAGAAGAATATCCGGATACGTGGGTAC -ATACCCATCTCTGTGAAAACAAAGATGAAATTGCCTGGGTGAAATCGCTTTATCCTGACCATGATGGTTA -TCTGGATGTTTACCATCAGTACGGCCTGACCGGTAAAAACTGTGTCTTTGCTCACTGCGTCCATCTCGAA -GAAAAAGAGTGGGATCGTCTCAGCGAAACCAAATCCAGCATTGCTTTCTGTCCGACCTCCAACCTTTACC -TCGGCAGCGGCTTATTCAACTTGAAAAAAGCATGGCAGAAGAAAGTTAAAGTGGGCATGGGAACGGATAT -CGGTGCCGGAACCACTTTCAACATGCTGCAAACGCTGAACGAAGCCTACAAAGTATTGCAATTACAAGGC -TATCGCCTCTCGGCATATGAAGCGTTTTACCTGGCCACGCTCGGCGGAGCGAAATCTCTGGGCCTTGACG -ATTTGATTGGCAACTTTTTACCTGGCAAAGAGGCTGATTTCGTGGTGATGGAACCCACCGCCACTCCGCT -ACAGCAGCTGCGCTATGACAACTCTGTTTCTTTAGTCGACAAATTGTTCGTGATGATGACGTTGGGCGAT -GACCGTTCGATCTACCGCACCTACGTTGATGGTCGTCTGGTGTACGAACGCAACTAATAATAAAACTTTA -ACATCCTCGTGAGGACATCATTATGTCTGGAGACATCCTACAAACACCGGACGCACCAAAGCCACAGGGC -GCGCTGGATAATTATTTTAAAATTACCGCTCGTGGCAGTACCGTTCGTCAGGAAGTACTGGCTGGCTTAA -CGACCTTTCTGGCCATGGTTTATTCCGTTATCGTCGTTCCGGGAATGCTGGGCAAAGCAGGTTTTCCTCC -CGCAGCTGTGTTTGTTGCCACCTGTCTGGTCGCGGGCTTCGGCTCGTTGCTGATGGGATTATGGGCTAAT -TTGCCAATGGCGATTGGTTGCGCGATTTCCTTGACGGCGTTTACCGCATTCAGTCTGGTACTCGGGCAAC -AAATTAGCGTTCCTGTCGCACTGGGCGCGGTATTTCTGATGGGCGTCATCTTCACCGCCATTTCCGTAAC -CGGTGTGCGTACCTGGATCTTACGTAATTTGCCGATGGGTATCGCTCACGGTACAGGTATCGGTATCGGG -CTGTTTCTGCTGCTGATTGCTGCTAACGGTGTGGGTATGGTTATCAAAAACCCGATTGAAGGCTTGCCAG -TGGCGCTCGGTGCGTTTACCTCCTTCCCGGTGATGATGAGCTTGCTGGGGCTGGCGGTCATCTTCGGCCT -GGAGAAGTGTCGCGTACCCGGCGGGATCTTGTTGGTGATTATTGCAATTTCGATCATCGGCTTAATCTTT -GACCCAGCGGTGAAATACCACGGTCTGGTGGCGATGCCAAGCCTGACTGGCGAAGATGGTAAGTCTCTGA -TTTTCAGCCTCGATATTATGGGTGCACTCCAGCCAACTGTACTTCCGAGTGTACTGGCATTGGTGATGAC -CGCAGTGTTCGACGCTACTGGCACCATCCGTGCCGTCGCCGGTCAGGCGAATTTGTTGGATAAAGACAAC -CAGATCATCAACGGCGGCAAAGCCCTGACCAGTGACTCAGTAAGTTCAATATTCTCCGGCCTGGTGGGCG -CAGCGCCCGCAGCGGTTTATATCGAATCAGCGGCAGGAACCGCCGCCGGGGGTAAAACAGGTTTAACCGC -AACCGTAGTGGGGGCGTTATTCCTGTTAATTCTGTTTTTATCACCGCTGTCATTTTTGATCCCTGGTTAC -GCCACTGCACCCGCTCTGATGTACGTAGGTTTGCTGATGTTAAGTAACGTCTCGAAGCTGGATTTCAATG -ATTTTATTGACGCTATGGCTGGCCTGGTGTGTGCCGTGTTCATCGTTCTGACTTGTAATATCGTTACCGG -TATTATGCTGGGCTTTGTGACACTGGTCGTAGGCCGCGTCTTTGCACGCGAATGGCAAAAGCTGAATATT -GGTACGGTGATCATTACTGCCGCACTGGTCGCATTTTACGCGGGTGGTTGGGCAATCTAATAGATTCTCC -GCGCCTTTCAGCGCGGAGATTTCTTTCAGAGAGGATTCTCACCGCTGACAACAATACGCTGCTGGCGGAC -TCGCCTGAGTTCTCTTTCAGTAAGCAACTGCAGCGCCTGTGTTGGGCAAGATTCAACGCAGGCTGGCCCC -TCTTCCCGCTGTTCACAGAGATCGCATTTCACAATTTGTTGTCGGGTATCCCCCGGCAACGACTGAATGG -TGATCATTCCAAACGGGCACGCACTGACGCAACTCTGACAGCCAATACAACGGGCAGAATTGGTCTGCAC -CACCTGCTCGCCCATCGTCAGCGCCCCCACGGGGCAAGCGCCAACACAAGGGGCGTTTTCACACTGATGG -CACATCACCGGCGCACTGATGCTGTCCAGTCGCTGTACCTTCAGCCGGGGTAAAAAGACATCGGCATTCA -ACTCCTGTTCTGAAGGGTGAGCGACCACACAGGCTACTTCACAAGTACGGCAGCCAATACAGTCAGCCGG -ATTAACGATAATTAACGATTTCATCACGATGCCTTCGTATCAAACAGAGTTAACATATCGCGCGCCGCCT -GCCTTCCTGCGGCCATTGCAGTGACAACCAGATCCGCGCCATGAACTGCATCACCACCAGCAAAGACTTT -TTTCAGATGCGTCTGGGTAGGTAAATACCCGACGTCACCGGTTTGAATCAGGCCCCATTTATCGAGTTTA -ATTCCGCTGCCCTGCAACCACGGCATGGCATGCGCCTGGAAACCAAAGGCCATAATCAGAACATCGGCGG -GCAATTCAAACTCTGAACCCGCTACCGGACGAGGACGACGGCGACCATCCGGCCCCGGCTCACCCATGGC -GGTACGAATCAGGCCCACCGCAGTTAAACGCCCATCTTCGTCACAAGCGATATATTGCGGTTGAACATTG -AACTGAAACTCGACACCTTCCTCGCGCGCATTAACCACCTCTTTGCGCGAGCCCGGCATACTGACTTCAT -CACGACGATACGCGCAGGTCACGCTGGCGGCATTGAGGCGGATGGAAGTCCGCAAACAATCCATTGTCGT -ATCGCCACCGCCCAATACCACGACTCGCTTACCTTCCACGTCCGTCAGCGGATACTCTTCAGACTCCGGC -AATCCCATGAGCTGGCGGGTATGGGCAGTCAGGAACGGTAGAGCCTGAATGACACCGGGCGCATCTTCAT -GCGGCAGATCTGCTCGCATCATCCCGTAAGTCCCCACGCCGATGAAAACTGCATCATATTCAGAAGTTAA -ATCGCTAAAGGTAATATCGCGGCCAATTTCACAGTTAAGATGAAAGTCGATTCCCATTGCGGTGAATATC -TCTCGCCGCTGGCTTAATACCGTTTTATCGAGTTTGAAAGGAGGAATGCCAAAAGTCAGCATACCGCCAA -TTTCTGGATGGCGATCAAAGACATCGACCTGAACTCCTGCGCGCGCCAGAATATCAGCACACCCTAACCC -TGCAGGCCCAGCGCCAATCACCGCCACTTTTTCGCTACGGGGAACAACTTTGCTGACATCGGGACGCCAG -CCCATCGCCAGCGCGGTATCGGTGATGTAGCGTTCCAGATTACCGATAGAGACTGCGCCCGAGTGATCTT -TCAAAGTACATGCGCCTTCACAAAGACGGTCCTGTGGACATACCCTGCCGCAAATTTCTGGTAAGGAACT -GGTCTGGTGGCAAAGTTCTGCCGCTTCAATAATCTTTCCTTCCTGTACCAGACGGATGTAATCCGGAATA -GCGTTATGCAGCGGGCAATGCCAGTTGCAGTTAGCTTTTTCGGCACAATAAACACAGCGGTCACTCTCAT -AAGTCGCTTGTTGTGGATCCAGCCCGCAATATATTTCGCCAAAGTGGGTTTTCCGTTCACTCGCTGAAAT -TTTATCTGCGCCTTTACGCGAGTTAACGGGGAGCAACGCTGCACTGCGAGATGGCTGAGCGTCTGATGAC -GCTTTTCCTGCTGCCGTTTTGCGCTGGCGGGCCACCTTTATCTGCTGCAACCCTTTATCGTCCATCAGTC -GTAACGCCTGTGTTGGGCAAACTTCAATACAGGCTTGCGTGCCGGAACTGCGCTGGTTACAAAGGTCGCA -TTTCTGCGCAATCGTATCGACCATCTCAACGACGCCAAAGGGGCAAGCGATTGCGCATCTTTTACAACCA -ATACATTTTTGCTCGTCCAGTTGTACGCTATCGGACTGGAAAGTCAGAGCATTAACCGGACAAGCCGTAA -CGCAAGGGGCATTGTTGCAGTGATGGCAGGCCACCGGATTCGCAGCCTGGCCTTTCCCTACAACGTGGAT -ACGCGGTCGAAAGTCACTGTGACTCAGCGGCCAGTTTTCTTGATTGTGTGCCACCGCACAGGCAATTTCA -CAAGCATGACAGCCTATACATTCCGCAGCTTCAGCAGCAATAAACTTATTCATTTGCATCCCTTTCATTT -AATGAGTTATGTCTTCTCAAATTTCGCGATGCAATAAACGGGCATATATTAGGTAGCATGACCGTTTTAA -TTATAATTTTGCGACTGAGTTCAAATTATTGCCCCTCAATCTATGCCGCTTTCATTATTTCAACATTGCC -GATCAAAAGAGCGCTATCCAGATAAAAACGATTAAATGCGAGAGTGCGACATGCCAGAATGATTAATGAA -ATATCAATATGAGAAAATTACAGATAATTCCATTGTCAGGTTCTCTTCTCATTTTCGTGGTTTAACCACG -ATTATGTGATTGCCTCCGCAATTCCTGTCTCTAACTCCCCTTCCTCGCAAAAACTGGCACTCCACGAGCA -TGTGTTTAGACAGTTTCATTAACGTAAACGGTTGCTTTTTACTCTGGCGGGCGAAAGGAGAAACACTGAT -GAGCGCCATAGATTCCCAACTTCCCTCATCTTCTGGGCAAGACCGCCCAACTGATGAGGTTGACCGCATA -TTATCACCAGGAAAGCTGATCATACTCGGTCTGCAACACGTCCTTGTCATGTACGCAGGTGCAGTCGCTG -TTCCTCTTATGATTGGTGACCGACTGGGCCTCTCAAAAGAAGCTATTGCGATGCTCATTAGCTCGGATCT -CTTTTGCTGCGGGATCGTCACATTATTGCAATGTATCGGTATCGGCCGCTTTATGGGGATCCGCCTGCCG -GTGATTATGTCGGTGACCTTTGCTGCTGTAACACCAATGATAGCCATTGGGATGAACCCGGATATCGGCC -TGCTGGGGATATTTGGTGCCACTATCGCCGCGGGTTTTATCACCACATTATTAGCGCCACTTATCGGTCG -CTTGATGCCTTTATTCCCGCCACTGGTTACCGGTGTGGTTATTACTTCTATCGGGCTTAGCATCATTCAG -GTGGGTATTGACTGGGCCGCCGGAGGTAAAGGGAATCCGCAATATGGTAATCCCGTTTATTTAGGTATCT -CCTTTGCCGTCTTAATTTTTATCTTGCTCATTACTCGCTATGCGAAAGGATTTATGTCCAACGTCGCCGT -ATTACTGGGGATTGTATTTGGCTTTTTACTTTCGTGGATGATGAATGAAGTCAATTTATCCGGGCTACAT -GATGCTTCATGGTTTGCGATTGTTACGCCGATGTCGTTTGGTATGCCGATTTTCGATCCCGTTTCCATTC -TGACCATGACTGCCGTGTTAATCATCGTGTTTATCGAGTCAATGGGGATGTTCCTGGCACTGGGTGAAAT -AGTCGGTCGTAAACTCTCTTCGCACGATATTATTCGCGGGCTGCGTGTCGATGGCGTAGGGACAATGATA -GGCGGCACGTTTAACAGCTTCCCCCACACGTCATTTTCTCAAAACGTTGGCCTGGTTAGCGTGACGCGCG -TTCATAGCCGCTGGGTGTGTATTTCTTCGGGAATTATATTAATCCTGTTTGGCATGGTGCCAAAAATGGC -GGTGCTGGTAGCCTCCATTCCGCAATTTGTGCTGGGCGGCGCTGGTCTAGTGATGTTCGGCATGGTACTG -GCGACAGGGATTCGAATTCTGTCGCGCTGTAACTACACCACCAACCGTTACAACCTCTATATTGTGGCGA -TCAGTCTCGGCGTTGGCATGACTCCGACGCTCTCTCACGATTTCTTTTCTAAGTTACCGGCCGTACTGCA -ACCGCTGCTACATAGCGGCATTATGCTCGCAACCCTTAGCGCCGTTGTGCTGAACGTCTTCTTTAATGGC -TATCAGCATCATGCTGACCTGGTGAAGGAATCCGTCTCTGATAAAGATTTAAAAGTCAGGACAGTACGTA -TGTGGCTTCTGATGCGCAAGCTGAAGAAAAATGAGCATGGAGAATAATATGAATTTTTTAATGCGCGCTA -TATTCAGTCTGTTGTTGCTTTTTACTCTCTCTATTCCTGTCATTTCTGACTGTGTTGCAATGGCCATTGA -AAGTCGCTTCAAATATATGATGCTACTTTTTTAAATGGTTTTTACCTGTCGGCATCCGCTCAAAACGGGC -GGTTGTCGATAAACGCTCACTTGGTTAATCATTTCACTCTTCAATTATCTATAATGATGAGTGATCAGAA -TTACATGTGAGAAATTATGCAAACGGAACACGTCATTTTATTGAATGCACAGGGAGTTCCCACGGGTACG -CTGGAAAAGTATGCCGCACACACGGCAGACACCCGCTTACATCTCGCGTTCTCCAGTTGGCTGTTTAATG -CCAAAGGACAATTATTAGTTACCCGCCGCGCACTGAGCAAAAAAGCATGGCCTGGCGTGTGGACTAACTC -GGTTTGTGGGCACCCACAACTGGGAGAAAGCAACGAAGACGCAGTGATCCGCCGTTGCCGTTATGAGCTT -GGCGTGGAAATTACGCCTCCTGAATCTATCTATCCTGACTTTCGCTACCGCGCCACCGATCCGAGTGGCA -TTGTGGAAAATGAAGTGTGTCCGGTATTTGCCGCACGCACCACTAGTGCGTTACAGATCAATGATGATGA -AGTGATGGATTATCAATGGTGTGATTTAGCAGATGTATTACACGGTATTGATGCCACGCCGTGGGCGTTC -AGTCCGTGGATGGTGATGCAGGCGACAAATCGCGAAGCCAGAAAACGATTATCTGCATTTACCCAGCTTA -AATAAAAAAACCCCGACATTTGCCGGGGTTGTGAGCATAACGTAATGCTTATTTTACCGGACGCATCGCC -GGGAACAGAATAACGTCGCGGATGGTATGGCTGTTGGTGAACAGCATTACCATACGGTCGATACCAATTC -CCAGACCTGCTGTCGGCGGTAAGCCATGTTCCAGTGCGGTGACGTAATCTTCATCGTAGAACATCGCTTC -GTCGTCACCTGCGTCTTTCGCGGCAACCTGATCCAGGAAGCGTTGCGCCTGATCTTCCGCGTCATTCAGC -TCGCTAAAGCCGTTACCGATTTCACGACCACCAATGAAGAACTCAAAGCGGTCTGTGATTTCCGGGTTAA -CGTCGTTACGACGCGCCAGCGGAGAAACTTCTGCCGGATATTCAGTAATGAAGGTCGGCTGAATCAGATG -TGCTTCTGCCACTTCTTCGAAGATCTCGGTAACGATACGGCCCAGACCCCAGCTCTTCTCAACGTGGATG -CCGATAGATTCAGCAATTGCTTTCGCAGAGTCGAAGTTGTCCAGATCCGCCATGTCGGTTTCCGGGCGAT -ATTTCTTGATCGCTTCACGCATGGTCAGTTTTTCGAACGGTTTACCGAAGTCCAGCGTCACGTCGCCGTA -GGTCACTTCCGTCTTACCGAGAATATCCTGTGCCAGAGTACGGAACAGCGATTCGGTCAGCTCGATCAGA -TCTTTGTAATCTGCGTAAGCCATGTAGAGTTCCATCATGGTGAACTCTGGGTTATGACGTACGGAAATAC -CTTCGTTACGGAAGTTACGGTTGATTTCGAATACACGCTCGAAGCCACCAACCACCAGACGCTTGAGGTA -CAGTTCCGGCGCGATACGCAGGTACATGTCGAGATCCAGCGCGTTATGGTGGGTGATAAACGGACGCGCA -GCGGCACCGCCAGGGATCACCTGCATCATCGGCGTTTCAACTTCCATAAAGCCGCGGTTCACCATGAACT -GGCGAATACCAGAGAGGATCTGCGAGCGCACTTTAAAGGTGTTGCGGGATTCATCGTTGGAGATGAGATC -GAGATAACGCTGACGATAGCGCGCTTCCTGATCCTGCAAGCCGTGGAATTTATCCGGCAGCGGACGCAGT -GCTTTGGTCAGCAGACGCAACTCGGTGCAGTGGATAGACAGTTCGCCGGTTTTGGTTTTGAACAGCTTAC -CTTTCGCGCCGAGGATGTCGCCGAGGTCCCATTTTTTGAACTGCTCGTTATAAACGCCTTCCGGGAGATC -GTCACGGGCAACGTACAGCTGAATGCGACCGCCAACGTCCTGCAGGGTAACGAAAGACGCTTTACCCATA -ATACGACGGGTCATCATGCGGCCAGCAACGGCGACTTCGATGTTCAGCGCTTCCAGTTCTTCGTTCTCTT -TGCCGTCGAATTCTGCGTGCAATTGGTCAGAGGTATGATCGCGACGGAAATCGTTCGGGAAGGCAATCCC -CTGCTCGCGCAGGTTCGCCAGCTTCTCACGACGCGTTTTCAGTTCATTGTTAAGATCGACTACCGCGTCA -GCGCCCTGTGCGTGTTGTTCAGACATGTTGGTTCCTCATAACCCTGCTTTCAAACTTGCTTCGATAAATT -GATCCAGGCTGCCGTCCAGCACGGCCTGCGTGTTGCGGGTTTCTACCCCGGTGCGCAGATCTTTAATGCG -GGAGTCATCAAGGACATAAGAACGAATCTGGCTGCCCCAGCCGATGTCGGATTTGTTATCTTCCATCGCC -TGTTTCTCGGCATTTTTCTTCTGCATCTCCAGTTCATAAAGCTTCGCTTTCATCTGCTTCATGGCCTGAT -CTTTGTTCTTGTGCTGGGAACGGTCGTTCTGGCACTGGGTCACGATCCCGGTCGGGATGTGGGTAATACG -CACCGCAGATTCGGTACGGTTAACGTGCTGACCGCCCGCGCCGGACGTGCGATAAACGTCAATGCGCAGA -TCCGCCGGGTTGATTTCGATATCAATATCATCATCAACTTCCGGATAAACAAACGCGGAGCTGAACGACG -TGTGGCGACGACCGCCGGAGTCAAACGGGCTTTTACGCACCAGGCGGTGAACGCCGGTTTCTGTACGCAG -CCAGCCGTAAGCGTAATCGCCGGAGATTTTGATCGTCACGGATTTAATACCCGCCACTTCACCTTCCGAC -TCTTCGATGATTTCAGTTTTGAAACCACGCGATTCTGCCCAGCGCAGATACATACGCTCAAGCATGCTCG -CCCAGTCCTGTGCTTCCGTACCGCCAGACCCCGCCTGAATATCGAGGTAGCAGTCGGCGCTGTCATATTC -GCCAGAGAACATACGGCGGAACTCAAGCTGCGCCAGTTTTTCTTCCAGGGCGTCGAGTTCAGCAACGGCT -TCGTTAAAGGTTTCTTCGTCGTCAGCTTCTACAGCCAGTTCCAGCAGACCAGAAACATCTTCCAGCCCCT -GTTTCATTTGGTCGAGGGTGTCGACAACGGCTTCGAGGGAGGAACGCTCTTTACCCAGCGCCTGTGCGCG -TTCGGGTTCGTTCCAGACATCCGGCTGTTCCAGCTCGGCGTTTACTTCTTCCAGACGCTCTTTCTTGGCG -TCGTAGTCAAAGATACCCCCTAAGAACGTCGGAGCGTTCCGTGAGGTCCTGAATGCGATTATTTACCGGA -TTAATTTCAAACATGGTCTGATTTCTTTTATTGAGCTAGTCAAAATGCGGTGATAAGAGCGGGATTGTAC -CCAATCCACGCTCTTTTTTATAGAGAAGATGACGCTAAATTGGCCAGATATTGTCGATGATAATTTGCAG -GCTGCGGTTGCCGCGAAACTCGTTGATATCGAGCTTATAAGCCAGTTGCACTTCGCGCACGCCGTTATCC -GGCCAGAGGGCGGTATCGACATTAAAAGCAATACCATCCAGCAGTGGACCGCCGCCGACCGGTTCGACCA -TCACCTTCAAATGACGTTCGCCCACCAGCCGCTGTTGCAGCAGACGGAAATGACCGTCAAACAGCGGCTC -CGGGAACATCTGCCCCCACGGGCCAGCATCGCGCAGCAGCTGCGCCACTTCCATGGTCATTTCGGCCGGG -CTTAACGGACCGTCTGATACCACTTCGCCTTGCAATAGCGAAGGGTCCAGCCACTCAGTAACCAGTTCGC -CAAACCGTTGTTGAAAGAGTTTGAATTTATCCTCTTCCAGCGACAAACCCGCCGCCATCGCATGACCGCC -AAACTTCAGCATCATGCCAGGGTAGAGTGTGTCTAATCGCTCCAGCGCATCACGCATATGCAGCCCCTGA -ATGGAGCGACCGGAACCTTTCAGCGTACCGTCACCTGCTGGCGCAAACGCGATAACCGGACGGTGAAAAC -GCTCTTTGATGCGCGAAGCCAGAATACCGACAACGCCCTGATGCCATTCGGGGTGATACATTGCCAGCCC -GCCGGGTAGCGTGTCACGGCTGCGCTCCAGTTTCTCGCACAGGGTCAGGGCTTCAATTTGCATTCCTTGT -TCGATCTCTTTTCGCGTCTGGTTTAGCGCATCGAGTTCATTTGCCAGCACGCGCGCTTCGCCGATGTTGT -CGCACAACAACAGCGCCACACCGACGGACATATCGTCCAGTCGTCCGGCAGCATTGAGACGTGGCCCCAG -CGCAAAACCTAAATCGCTGGCGGCGAGTTTTTGTGCATCACGGTTTGCCACTTCAAGCAGCGCTTTAATC -CCCGGACGGCACTTTCCGGCTCGGATGCGACTCATCCCCTGCCAGGTCAGAATGCGATTATTAGCGTCCA -GCGGCACGACGTCCGCCACTGTCCCCAGCGCGACCAGATCCAGCAGTTCTGCCAGGTTAGGAATTGCGAT -GTTACGCTCATCAAACCAGCCCTGATCGCGCAAAAAGGTGCGCAGCGCCAGCATCAGATAAAACGCCACA -CCCACGCCTGCCAGTGATTTCGACGGGAAATTACAGTCGCGCAAGTTAGGGTTAATGATCGCTTCCGCTG -CGGGTAATGTGTCGCCTGGCAAATGGTGATCGGTAACAATAACCGGGATGCCCAACGAGCGAGCGTGCTC -AACCCCCGCATGGGAGGAAATACCGTTATCCACCGTGACAATTAACTGCGCGCCACGGGCATGGGCCTGA -TCGACCACTTCCGGGCTTAAGCCGTAACCGTCTTCGAAACGGTTTGGTACCAGGTAGTCGATATTGCTGC -AACCAAGCGAGCGCATCGCCAGCACGCTTAGAGCCGTGCTGGTCGCGCCGTCGGCGTCGAAATCACCGAC -CACAATAATCCGCGTTCCTTCGCGAAAAGCGTTGTAAAGGATCTCAACGGCCTTTTCGACGCCGCTCAGT -TGCTGCCAGGGCAGCATACCTTTAACACTGCGTTCCAGTTCTTGCGCACTGCGTACTCCCCGGCTGGCGT -ATAAACGGCGCAGCAAGGGAGGCAATTCAGCGGGCAAGTCTGCCGTTTCATCGACTTCACGGCGACGAAG -TTGTATCTGTTGTTTCACGCGAATTATTTACCGCTGGTCATTTTTTGGTGTTCGTCGAGGAATTCTTTCA -TCTCTTTCGGCGGCTGGTAACCCGGAACAAGTGTGCCATTGCTCAGCACAACTGCCGGAGTACCGCTAAC -GCCAAGCTGGACGCCAAGTGCGTAATGGTCGGCAATATCCACGTCGCAACTGGCTGGTGCGACGCTTTTA -CCTGCCATCACATCATCAAACGCTTTGTTTTTATCTTTCGCACACCAGATAGCTTTCATTTCTTTCTCTG -CATCGCTGTCCAGCCCCTGGCGCGGGAAAGCAAGATAACGCACGGTGATCCCCAGCGCGTTGTAGTCTGC -CATTTGCTCATGCAGTTTGTGGCAGTAACCACAGGTAATATCAGTAAACACGGTGATGACGTGTTTTTCC -TGCGGCGCTTTATAAACGATCATCTCTTTTTCAAGCGCATTCAACTGCTTTAACAGCATCTTATTGGTGA -CATTGACCGGAGCCGTGCCACTAACGTCATACATTGGCCCCTGAATGATATGTTTACCATCATCGGTGAT -GTACAACACGCCGCTGTTAGTCAGAACTGTCTTCATGCCAGCTACAGGCGCGGGCTGAATATCGCTGCTT -TTGATGCCCATTTTGGCTAACGTTTGTTGAATTGCCGCGTCATCAGCCTGAGCAAAGCCTGAAAACGCCG -CTAACAAAGTAAACAACATAAAACCTTTCTTCATAAATCTTCCCGTTCTTTTCAGACATCACGCCCGCGG -GTGATGCTGTTGATGAAGTTGCCGCAGACGCTCGGTAGCGACATGCGTATAAATTTGCGTGGTGGAGAGA -TCGCTGTGGCCCAGTAGCATCTGCACCACGCGTAAATCCGCACCATGATTTAATAAATGAGTGGCAAAAG -CGTGACGCAACACATGCGGTGACAGCTTTTCGCTGTCGATACCCGCCAGCACAGCATAATGTTTAATACG -GTGCCAGAAGGTCTGTCGCGTCATCTGCTGCGCACGCTGGCTGGGAAACAACACGTCAATTGACACACCA -TTCAGCAGCCACGGACGCCCATGTTCCAGATAGGTTTCCAGCCAGTAAACCGCCTCTTCACCTAACGGCA -CCAGACGCTCTTTGTTGCCTTTACCAATGACCCGTACCACGCCCTGACGCAGGCTGATATCACTCATTGT -CAGTCCGACCAGTTCAGAGACACGCAGCCCGGTAGCATACAACACTTCAAGCATGGCTTTATCGCGTAGC -TCCAGTGGCTGATCGATTAATGGTGCCTGTAATAAACGTTCGACCTGCGCTTCGCTTAAATCTTTTGGCA -AACGCTGGGGCAATTTCGGTGAAGCGAGATGCGCACTGGGATCGTCTTCACGAAACTTTTCGCGATAAAG -ATACTGGAACAATCGGCGCACTGCACTCAGCAAACGCGCTGAGCTGGTGGCTTTATACCCGCCCTCCAGC -CGTTCTGCCAGTAATGCCTGCAAATCGTCACTTTGCGCCGTCGCCAGCGTCAACCCGCGGTGATGCAACC -ACTCCACCATCATTGACAGATCGCGACGGTAAGCGTTCAACGTATTTTCAGCCAGATTTTTTTCCAGCCA -CAGAGCATCAAGAAACTGCTCGATGCGTGCCAGATCCTGTTTCACTTGCGCCCCTTATGGTCACTCATTT -GATCCATTATGCCTTATTGTGCCGTGACTAAAGCGATTCTGATACACTAGCCGCAAAAGCCACAGCAGAA -TCGAGAAGCTTACGTTATGAATATGGGTCTTTTTTACGGTTCCAGCACCTGTTACACCGAAATGGCGGCA -GAAAAAATCCGCGATATTATCGGCCCAGAACTGGTGACCTTACATAACCTCAAGGACGACTCCCCGAAAT -TAATGGAGCAGTACGATGTGCTCATTCTGGGTATCCCGACCTGGGATTTTGGTGAAATCCAGGAAGACTG -GGAAGCCGTCTGGGATCAGCTCGACGACCTGAACCTTGAAGGTAAAATTGTTGCGCTGTATGGGCTTGGC -GATCAACTGGGATACGGCGAGTGGTTCCTCGATGCGCTCGGTATGCTGCATGACAAACTCTCGACCAAAG -GCGTGAAGTTCGTCGGCTACTGGCCAACGGAAGGATATGAATTTACCAGCCCGAAACCGGTGATTGCTGA -CGGGCAACTGTTCGTGGGTCTGGCGCTGGATGAAACTAACCAGTATGACCTTAGCGACGAGCGTATTCAG -AGCTGGTGCGAGCAAATCCTCAACGAAATGGCAGAGCATTACGCCTGATCTCACTGACGGCTTAGCGCAT -ATGCTTTGCCGTCATCTTTATCTTTGCGTCTCTTGTTGCAACAAAATCCGCCGTAAATCCCGCCATTCAG -CTTCGTCCATGCTGTCGGCTGCCAGCCATAAATGTTGCCGTTTACCGCCATCAGAACGTAAACGCAGCAT -CATGCCGCTCTTAATCATCCACGGTGCTTTGACGATGCTCCACTCCTGCCCTTGCCAACGCAAACGCCCG -TCCATCAACAAGCGAATTTCCCCCTGGCGAGCATTAATACGCCGCTGGCTGCGAACGCAATCAAACACCA -CCAGCGAAAGTAACACCATCCATAACGGGGTGTAACTGAGTGGCCAGGGCATGAGTAAAATAACAGCGGC -AACCAGCCCATGAATCAGCAAGGAAAGCCACTGTGCGCGCCAGGAGACGCGCAAATCAGATTGCCACAGG -ACCACGTTCCCGGTTCCGTGTCTGGATGAGTCGGACCATCATTTCCAGTTCTGCATCGGCCGGTTTACCG -TGATTCATCAGCCAGTTAAACAGGTCCGGATCGTCACATTCCAGCAGACGAATAAAGATGCGTTTTTCGT -CATCGCTTAAGCTGTCGTACTCATGTTCGAAAAACGGCATGATTGAAATATCGAGTTCGCGCATACCACG -GCGGCATGCCCAATGAATGCGGGCTTTGTTGTTAATGTCCATCTTCTTCCTGTCTCACGAAAATCCAGTA -CCCGGCTATTGTAACGTGTTTTTCGCCTTCTTTTACGGGAATATCAGTAAACACCATCGCGATCGCGAAA -TTAATTCACAACAATTCAATGGCTTCATTTTTTTGGAAGTCGCCTCGCAGAAGGCACAGATCGCGTAGTG -AAAGCACTTGCATTGCCTCATAGCTCTTTTACCATTAGTCATTAATACGCCGTTAAGCAACTCAGGACTC -TATTATGGCTTTTACACCTTTTCCTCCCCGTCAGCCTACGGCTTCTGCCCGTTTACCGCTGACGCTGATG -ACGCTTGATGACTGGGCGCTTGCCACCATTACTGGCGCGGACAGCGAAAAATATATGCAGGGTCAGGTGA -CAGCAGATGTCAGCCAGATGGCAGAAGATCAGCACCTGCTCGCCGCCCATTGCGACGCCAAAGGTAAAAT -GTGGAGCAATTTACGTCTGTTCCGCGACGGCGATGGCTTTGCATGGATTGAACGGCGCAGCGTGCGTGAA -CCGCAGCTGACTGAACTGAAAAAATATGCGGTATTCTCTAAAGTGACCATCGCGCCAGACGACGAGCGTG -TGCTGCTTGGTGTTGCCGGTTTTCAGGCGCGCGCCGCGCTGGCAAATCTCTTTAGCGAACTGCCTTCGAA -AGAAAAACAGGTAGTCAAAGAAGGCGCGACCACTTTGCTATGGTTTGAACACCCGGCAGAACGTTTCCTG -ATCGTAACCGATGAAGCTACTGCTAATATGCTGACCGATAAACTGCGCGGTGAAGCGGAACTGAACAATA -GCCAACAGTGGCTGGCATTAAACATTGAAGCGGGTTTCCCGGTGATTGATGCCGCCAACAGCGGGCAGTT -TATCCCACAGGCGACCAATCTCCAGGCGCTGGGCGGTATCAGCTTTAAGAAAGGCTGTTATACCGGACAA -GAGATGGTGGCGCGAGCAAAATTCCGTGGTGCCAATAAACGTGCGCTCTGGTTGCTGGCAGGTAGCGCCA -GCCGACTGCCGGAAGCTGGTGAAGACTTAGAGCTGAAAATGGGCGAGAACTGGCGTCGTACCGGTACGGT -ACTGGCTGCGGTAAAACTGGAAGATGGTCAGGTCGTGGTACAGGTCGTCATGAATAACGATATGGAACCG -GATAGCATCTTCCGCGTACGCGACGATGCGAATACATTGCATATCGAGCCGCTGCCGTATTCGCTCGAAG -AGTAAATCTCTTTATCGCATCAGGCATTTATCGCCTGATGCGACGCTGGCGCGTCTTATCATGTCTGGGA -TTTGATGCCTTTATCACAACAGGGACGAGGCCCGTAGATCGGATAAGGCGTTCACGCCGAATCCGGCAGT -TGTGCTCCGATGCCTGATGCGACGCTGGCGCGTCTTATCAGGCCTACAAAGGCATACCCATTACGCCTGC -CCAATATACAAATAGATCGCCAGAAAGTGGCACACACTACCGCCGAGCACGAAGCCGTGCCAGATGGCAT -GGTTGTATGGAATGCGTTTGCAGACGTAGAAAATCACCCCGAGCGAATAAACCACGCCGCCTACCGCCAG -TAAGGTAACGCTGCCCGCCGCGAGCTTAACTGCCATTTCATAAATTACCACCAGCGACAGCCAGCCCATC -GCCAGATAGGTCACCAGAGATAAAATTTTGAATCGGTGCGCGATGGTCAGTTTAAACAGAATACCCAGCA -ATGCCAGGCTCCAGATAACAATCATCAACCCGCGCGCTAACGGAGAATCCAGCCCCACCAGCAAAAACGG -CGTGTAGGTTCCGGCAATCAACAGGTAAATAGCGCAATGGTCAAATTTCTTCAGCCACATTTTTGCCCGT -TGATGAGGAATGGCGTGATAGAGCGTCGAAGCGAGGAACAGCAGGATCATACTGCCGCCATAGAGGCTGT -AGCTGGTTATCGCTGTGGCGCTGGCATTAAGATCCACCGCCTGAACCAGTAGCAACACCAGCCCAACGAT -ACCAAACACCAACCCAATGCCGTGACTGACGCTGTTGGCTATTTCCTCTGCCAGTGAATATCCCTGCTTA -ATGAGGGGCTTCTGAACCATAACTTACTCCGGAGAAACGTACACGCACATGTATACCTCTCCAGCGTAAC -TGAGAATAGTTCCAGTGAACACCTGTTAGCTAAAATAAATTCTGATTTGAGACTAATCTCCTAAAAATCA -TGAAATTAAATGCGAAATTTCAACTAACAGGCGTGAGTTCAATTTAAAGACATTTAAATTCAATCACATA -AAATTGTGTCTGACCGGGATAGATGTCAGCAATGACTTTTTTCAGTTCAGTCAGGGTCATATTTTCCTGC -TCTGCATGTTTTTCAGTCAGCGTATCCAGCGTTACGGTTGAGGTTGCGGTGACTTCAATCGTGCAAAAAT -AACCGTCATCTTCAAAACGTCCGACACGAAGCACATCACCCGTTTTGAAGTGCGATTCAGACTCGTCGCG -GATGGTGATGGTTTTACGCCCAGCCAGAATGTCATCCTGGAAACGTTGAAAAAAAGTGATGTCGTTTGGC -TGCATGGTACTATTTCCTGTAAGAATTGACTCATCTGGAGCCTATGATAGTGAAAAAACTCACCTTACCG -AAAGATTTCTTATGGGGCGGCGCAGTTGCCGCTCATCAGGTCGAAGGCGGCTGGAACAAAGGCGGAAAAG -GGCCGAGCATTTGTGACGTTCTGACCGGTGGCGCACACGGCGTGCCGCGCGAAATCACCAAAGAAGTCTT -GCCAGGAAAATACTATCCAAACCATGAAGCCGTTGATTTTTATGGTCACTATAAGGAAGACATCAAGCTA -TTTGCCGAAATGGGCTTCAAATGTTTTCGTACATCCATTGCCTGGACGCGCATTTTTCCAAAAGGCGATG -AAGCTCAGCCAAACGAAGAAGGGCTGAAGTTCTACGATGATATGTTCGATGAACTGCTGAAATACAACAT -CGAACCGGTGATCACCCTCTCCCACTTTGAAATGCCGCTGCATCTGGTGCAGCAATACGGTAGCTGGACC -AACCGTAAAGTGGTTGATTTCTTTGTACGTTTCGCGGAAGTGGTATTTGAACGCTATAAGCACAAAGTCA -AATACTGGATGACCTTCAACGAAATTAACAACCAGCGTAACTGGCGTGCACCGCTGTTCGGTTACTGCTG -CTCCGGCGTGGTGTATACCGAGCATGAAAACCCGGAAGAGACGATGTATCAGGTGCTGCATCACCAGTTT -GTCGCCAGCGCCCTGGCGGTGAAAGCTGCGCGTCGCATTAACCCGGAGATGAAAGTCGGCTGTATGCTGG -CGATGGTGCCGCTCTATCCTTACTCCTGTAACCCGGACGATGTGATGTTCGCTCAGGAGTCGATGCGCGA -ACGCTACGTCTTTACCGATGTGCAGCTACGCGGCTATTACCCGTCCTATGTGTTGAACGAGTGGGAGCGT -CGCGGATTTAACATCAAAATGGAAGACGGCGATCTGGATGTGCTGCGTGAAGGCACCTGCGATTATCTTG -GTTTCAGCTATTACATGACCAATGCAGTGAAGGCCGAAGGCGGCACCGGCGATGCGATCTCTGGTTTTGA -AGGCAGCGTACCAAACCCGTATGTTAAAGCATCTGACTGGGGCTGGCAGATTGATCCAGTAGGTCTGCGC -TATGCACTTTGCGAACTGTATGAGCGTTATCAGAGGCCGCTGTTTATTGTCGAAAACGGTTTTGGCGCTT -ACGACAAAGTGGAAGAAGATGGCAGCATCAACGACGACTACCGCATTGACTACCTGCGCGCCCATATCGA -AGAGATGAAAAAAGCGGTGACTTACGATGGCGTGGATCTGATGGGCTACACACCGTGGGGCTGCATCGAC -TGCGTGTCGTTCACCACCGGGCAGTACAGCAAACGCTACGGCTTTATCTATGTGAATAAACATGACGACG -GTACTGGCGATATGTCGCGTTCACGTAAGAAGAGCTTTAACTGGTACAAAGAGGTGATTGCCAGCAACGG -CGAGAAGCTTTAAGTCGATGAAGTACCGGATGCAATACTTGTTGCATCCGGTCAGACAACTTCCCTGTTT -TATTTCCCGCCCGCCAAATCGATAAAACTTCCCGTGACGTAAGAGGCTTTATCACTTAGTAGCCAGACAA -TGGCCTGCGCGACCTCTTCTGCCTGTCCACCACGCTGCATGGGGATGTTCGACTTAACGCGATCGACGCG -TCCAGGCTCGCCGCCGCTGGCGTGCATTTCGGTATAAATAAACCCTGGCCGCACGCAGTTAACGCGGATC -CCCTGCGCGGCGACTTCCAGCGATAGTCCGGTGGTTAACGTATCAATCGCCCCTTTCGATGCCGCGTAAT -CAACATATTCCCCTGGCGAACCCAACCGTGAGGCCACCGAAGAGACATTGACGATAGCGCCGCCACTGCC -ACCATTTTTAAGCGCCATGCGTTTTACCGCCTCGCGGCAGCAGAGAAAATATCCCGTCACGTTGGTGGAA -AGTACTCGGTTGATTCGCTCTGCGGTAAGGTTTTCAACGGTGCACTGGGTAAACAAGATCCCGGCGTTAT -TGACCAGCGCTGCTAGCGGTTCATCGTGCTGATCGATTGCTGTAAACATCGCAACGACCTGGTTTTCGTC -GCTGATATCCGCCTGGAGCACGAATGCTTTGCCACCGGCTTGCGTTATTAAGTTCATCACTTCCTGCGCC -GCGTGGAGGTTTTGCTGATAATTAACCGCCACCGTATACCCTTCTTGCGCCAACAGTAATGCAGTTGCCC -GCCCGATGCCGCGACTGCCACCAGTCACAAGTGCTATAGCCATTTGTTTTTCCGAGAAAAATTAATTCGT -TGACGTATCTTTGAGATTGCTAACAAACTGGCTCAATCTTCAATGTTGGCACGCTTTTCCCCCTCGCCCT -TTCAGGGAGAGGGCCGGGGTGAGGGTAAATATTCGCGCCAGTGCCGGCCTGTTCCCCTCACCCTAACCCT -CTCCCCAAAGGGGCGAGGGGACTGTCTGAGCACTTTTGTACTTTGTCATCTGACTAAAAAGGCGCCGAAG -CGCCTTTAGAAAATAGTCGAATCAGTGAATTACTGGTATTCGCTAATCGGTACGCAGGAGCAGAACAGGT -TACGGTCGCCGTAAACATCATCCAGACGTTTCACTGTCGGCCAGTATTTGTCTGCCACACCTGCCGGGAA -TACCGCAACTTCACGGCTGTACGGATGCGCCCACTCGGCGACCAGTTCGCTCTGAATGTGCGGCGCGTTC -ACCAGCGGGTTATCTTCCAGCGGCCAGACACCGGCTTTCACCTGGTCAATTTCTGCGCGGATAGCCAGCA -TCGCGTCGATAAAGCGATCCAGTTCCACTTTGCTTTCAGATTCAGTCGGTTCAACCATCAGCGTACCCGC -CACCGGGAACGACATCGTCGGCGCGTGGAAACCGTAGTCGATCAGGCGCTTGGCAATATCCAGCTCGCTG -ATGCCGGTTTCTTCTTTCAGCGGGCGAATATCGAGAATACATTCGTGCGCCACGCGACCGTCGCGACCGG -TATACAGCACCGGGAAGGCATCCTGCAGGCGGCTGGCAATATAGTTGGCGTTGAGGATTGCCACCTGGCT -TGCTTTTTTCAGCCCTTCTGCGCCCATCATGCGGATGTACATCCAGCTGATTGGCAGGATAGAGGCGCTA -CCGAACGGTGCCGCAGAAACCGCGCCCTGACGGGTTAACATGCCTTCGATTTGCACCACGCTATGACCCG -GTACAAACGGTGCCAAATGCGCTTTCACGCCGATCGGTCCCATACCCGGACCACCACCGCCGTGCGGAAT -GCAGAAAGTTTTATGTAGGTTAAGGTGTGAAACGTCCGCACCAATAAAGCCCGGCGAGGTGATGCCAACC -TGGGCGTTCATGTTCGCGCCATCAAGGTAAACCTGACCGCCGAACTGATGCACGACTTCACACACTTCAC -GGATCGTTTCTTCATACACGCCGTGGGTAGAAGGATAAGTCACCATGATACAGGAGAGGTTATCGCCCGC -CTGTTCCGCTTTCGCGCGCAGATCAGTCAGATCGATGTTGCCGTTTTTATCACACGCCACAACCACCACC -TGCATTCCTGCCATATGTGCAGAAGCGGGGTTAGTTCCGTGCGCAGAAGCCGGGATCAGGCAGATATCGC -GATGCCCTTCGTTGCGGCTTTCATGATAATGACGAATCGCCAGCAGGCCCGCGTATTCGCCCTGTGCGCC -AGAGTTCGGCTGCATACAAACGGCGTCGTAACCGGTCAGTTTCACCAGCCAGTCAGCCAGCTGCGCAATC -ATCTGCTGATAACCTTCGGCCTGCTCCGGCGGGCAGAACGGGTGCAGTTCGGCAAATTCCGGCCAGGTGA -TTGGGATCATCTCGGCGGCGGCGTTCAGTTTCATGGTGCAGGAACCCAGCGGGATCATCGCCTGATTCAG -CGCCAGATCTTTACGCTCCAGCGAGTGCATATAGCGCATCATTTCGGTTTCGCTGTGGTAGCGATTAAAC -ACCGGATGGGTGAGGATTTCGTCGTCGCGCAGCATCGCAGGCTGGATAGAGCGGCTGTCGTGAGCCACGT -CTTTGTCCAGCGTGTCGATGTCCAGGCCGTGGTTATCGCCCAGCAGCACGTTGAAAAGCTGCATTACGTT -TTCACGCGTGGTTGTTTCATCAAGGGTGATCCCAACCGCGTTCAGAATATCGCTACGCAGGTTGATTTCA -GCCGCTTCGGCACGCGTCAGTACGCCCGCTTTGTCGGCCACTTCCACACACAAGGTGTCGAAATAGTGCG -CATGGCGCAGTTTCAGACCTTTTTGTTGCAGGCCCGCCGCCAGGATATCGGTCAGACGGTGAATGCGGTT -AGCGATACGTTTCAGGCCAACCGGGCCGTGATAAACGGCATACAGGCTGGCGATGTTTGCCAGCAGTACC -TGGGAAGTACAAATGTTGGAGTTCGCTTTCTCACGGCGGATATGTTGCTCGCGAGTCTGCATCGCCATGC -GCAGCGCGGTATTGCCAGCTGCATCTTTCGATACACCGATAATACGGCCCGGCATTGAGCGTTTGTATTC -ATCTTTCGCCGCAAAGAATGCCGCGTGTGGGCCACCGTAGCCCATCGGCACGCCGAAGCGTTGCGCCGAA -CCAAAAACAATATCCGCGCCCTGTTTACCCGGCGCAGTTAACAGCACCAGCGCCATAATATCGGCGGCAA -CGCTGACCACAATTTTGCGTGATTTCAGTTCGCTAATAAGCGCAGTGTAGTCGTGAATTTCACCGGTAGT -GCCTACCTGCTGTAACAGCACGCCGAAGACGTCCTGATGGTCGAGCACTTTTTGCGCGTCATCGACAATC -ACTTCAAAACCAAAGGTTTCGGCACGAGTACGGACCACATCCAGCGTTTGCGGATGCACATCGGAAGCCA -CGAAGAAGCGGTTGGCATTTTTCAGTTTGCTGACGCGTTTCGCCATCGCCATTGCTTCGGCGGCAGCGGT -GGCCTCGTCCAGAAGAGAAGCAGAGGCCATATCCAGTCCAGTCAAATCCAGCGTTACCTGCTGGAAGTTG -AGCAGTGCTTCAAGGCGGCCCTGGGAGACTTCAGGTTGATACGGAGTGTACGCGGTATACCAGCCCGGAT -TTTCCAGCATGTTACGCAGGATAACCGGCGGTAGCTGCACGGCGGTGTAACCCATGCCGATGTAAGACGT -GAAGCGTTTATTGCGACTGGCAATAGCCTTGAGTTCTGCCAGTGCGGCGTATTCGGTCGCCGGTGCGCCA -ACCTGCGGTGGTGTCGCAAGTTGAATATCTTTCGGCACAATCTGGCCGGTCAGCGCGTTTAACGATTGTG -CACCAACGGCATTCAGCATTTCTTGCTGTTGCGCGGCGTCCGGTCCGATATGGCGTTCAATAAAAGCGCC -GCTGTTTTCAAGCTGGCTTAACGTCTGTGTCATGAGCGATGGTTCCTGAAACGTGCAGTGAATTGTGAAC -CTCTCTCCTTACGAAGAGAGTGAGGGTGAGGCATAAATTTTCCTCACCCTGATCCTCTCCCGCAGAAGAG -GAATAAAGCCGTTACTCGTCTTCTAACAATGCTTCGTATGCGGTCGCATCCAGCAGTGATTCCAGTTCGC -TTTCATCGCTGGCTTTGATTTTAAAGATCCAGCCGCCTGCATACGGTTCGCTGTTCACCAGTTCCGGGGA -ATCGCTCAGTGCGTCGTTTACCGCCACGATTTCACCGCTTACTGGCGCATAAATGTCTGACGCCGCTTTT -ACCGATTCGGCAACCGCGCAGTCATCGCCCGCGCTAACCGTTGCGCCCACTTCCGGCAGGTCAACAAACA -CCATATCGCCTAACAGCTCCTGAGCATGTTCGGTAATACCAACGGTGTAAGTGCCGTCGGCTTCTTTACG -CAGCCATTCGTGTTCTTTGCTGTATTTCAGTTCTGCTGGTACGTTGCTCATCAATCAATCTCCAAAAAAG -TAAATCACGCGACGGCTTTGCCGTTACGCACAAAAACAGGTTTTGTCACTTTAACCGGCATTTCACGGTT -GCGAATTTGCACAATCGCCGTTTCGCCAATACCTTCCGGCACGCGCGCCAGCGCAATGCTGTAACCCAGC -GTCGGGGAGAAAGTACCGCTGGTGATAATGCCTTCATGCTGGTTGCCCTGCGCATCGGTAAAGCGTACCG -GCAGTTCATTACGCAGCACGCCTTTTTCGGTCATCACCAGACCAACCAGTTTTTCTGTACCATGCTCACG -CTGCACTTCCAGGGCTTCACGACCGATAAAGTCACGATCTGCCGGTTCCCAGGCGATGGTCCAGCCCATG -TTGGCGGCTAAAGGAGAGATGGTTTCGTCCATCTCCTGACCATAAAGATTCATGCCCGCTTCCAGACGCA -GCGTGTCACGCGCGCCCAAGCCACATGGCTTAACACCCGCTTCCACCAGCGCACGCCAGAAATCGGCCGC -TTTTTCATTGGGCAGCGCAATTTCATAGCCCGCTTCACCGGTATAACCAGTGGTGGCAATAAACAGATCG -CCCGCCTGCACGCCAAAGAACGGTTTCATCCCTTCCACCGCCTGACGCTGGGCGTCATTAAACAGTGTGG -CAGCTTTTGCCTGCGCATTCGGCCCTTGCACGGCAATCATGGAAAGGTCATCACGAACGGTAATTTCGAT -GCCGAAAGGTTCAGCGTGTTGGGTAATCCAGGAGAGGTCTTTTTCGCGGGTGGCGGAGTTAACAACGAGG -CGGAAGAAATCTTCAGTAAAGTAGTAGACGATGAGGTCATCTATCACACCGCCAGAGGCATTCAACATCC -CCGAGTAAAGGGCTTTGCCGCTTTTGGTGAGCTTCGCCACATCGTTCGCCAGCAGATAACGCAAAAACTC -CCGGGTGCGGCTGCCGCGAAGATCGACGATGGTCATATGTGACACATCAAACATTCCGGCATCGGTACGT -ACCGCATGATGTTCGTCGATTTGCGAACCGTAATGCAGCGGCATCATCCAGCCGTGGAAATCCACCATGC -GAGCGCCGCAAAGCGTGTGTTGTTCGTACAAAGGAGTCTGTTGTGCCATCTTGTCCTCATTGAATAAGCG -GGGCTGACAACTTTTTCATGGTGAAATTATCACCACGAAACCCAGCATCGGAGCCACTCCCGGTCCCCAA -CGCAATCGTTCTCTTTTGCCTGAACTTACCACCGAAACAGACTGTTAACCATAAGGTAAAATTGATCATC -ACATTAGCTTATGGTTAAAAAATGCAAAAATCGCGACAGAATAAAAAACCAAAAAATACACCAGTTTCTA -TACAAAGATGATGTGATGAGAAAGTCAATTTGAATAAGACAATATTAAGAGCTAAAAAAATGTCAAAAAA -CACTAAATCAAAAAATAATGGCATTAGAAAATATAATGCGAAAACGGAGGTGAAATTAGTTTATTTCAAA -TGAGGAAAATCTCCCGGCGAAAAAACCGGGAGATGAAAGTGTGATGGGTATCAAATAAACAACAGAGGAG -AAATTTTTAACGCAGCCATTCAGGCAAATCGTTTAATCCCATTGCCTGGCGGATAAGTTGCGGCTTAACG -CCAGGAAGCGTGTCGGCCAGTTTCAAACCAATATCACGCAGCAGTTTTTTCGCCGGATTGGTACCGGAAA -ACAGATCGCGGAATCCCTGCATACCAGCCAGCATCAACGCCGCACTGTGCTTGCGGCTACGCTCATAGCG -ACGCAGATAAATGTACTGCCCGATGTCTTTCCCCTGACGATGCAACCGTTTCAGTTCGGCAATCAGCTCT -GCAGCATCCATAAAGCCGAGATTTACCCCCTGCCCCGCCAGCGGGTGAATGGTATGTGCGGCGTCGCCCA -CCAGCGCCAGACGGTGCGAGGCAAACTGGCGCGCATAACGCCCCGTCAGTGGGAACACCTGACGCGCGCT -CTCAACCTTGCATAAGCCCAGGCGATTATCAAAAGCGATATTTAACGCGCGATTAAATTCGTCTTCACTT -GCCTGCTGCATCCGCTGCGCTTCCTCTGGCGACAGTGACCAGACAATCGAGCAAAGATGCGGATCGCTAA -GCGGTAAAAAGGCCAGAATGCCTTCGCCATGGAAAACCTGCCGCGCCACCGCATCATGCGGTTCTTCCGT -GCGAATGGTCGCTACCAGCGCGTGATGCTGATAATCCCAGAAAGTCAGCGGAATATCGGCTTTGTTGCGC -AACCAGGAATTAGCGCCGTCCGCGCCAATCACCAGACGCGCCGTTAACATGCTGCCATCTTTCAGCGTCA -GGAAGGTTTCATTTTCTCCCCAGGCGACCTGCTGTAATTCTGCGGGGGCTAACAGAGTGATATCTGACGA -CTGATGCGCTTTGTTCCACAGCGCGTAGTGAATCACTGAATTTTCAACGATATGCCCAAGATGGCTATAG -CCCATGCTTTGATCGTCAAACGAAATGTGACCAAAGCTGTCTTTGTCCCACACTTCCATACCGTGATAAC -AGCTGGCCCTACGAGAGAGAATGTCCTGCCAGACGCCAAGACGGGTGAGTAATTTTTCGCTGGCGGCATT -GATAGCCGAAACGCGCAGTTGTGGTGGTGCATTCGCCGCCAGAGGTTCCTGTACGCGCTGCTCCAGTACG -GCAACGCGTAAGCCGCTCCCCTGTAAGCCACAGGCAACCGCCAGCCCCACCATGCCGCCGCCAACAATGG -CTACATCAACACTTTGCATTGTTTATTCCTTAAAACCGCCTTCAACGCGCCACCCAACCGAGGGTGCGCT -GCGCCAGCACATCGCGTGCCGGGGTGAATAATTCCATCGTCATCAGCCCGATGTTGCGCCCGACAACCAG -CGGTGCCCAACGGTTGGCAAAAAGATGTACAAGGCTGTCCGTGACGCCAATGGTTGCTTCGCGATCGCTC -TGTCGACGCTGCTGATAACGGCACAATACGCCGTAATCCCCCATGTCTTCTCCGCGCTCCTGCGCCTGAG -TCAGGGTTTCCGCAAGACTCATCACATCTCGCATACCGAGGTTAAACCCTTGCCCGGCAATCGGGTGCAG -AGTTTGCGCCGCATTGCCCACCAGCACGGTACGATGGGTAATAGATCTGGCGGCGTGGGTTAACGCCAGC -GGATAAGCACTGCGTTTACCAGCGTGGGTAATTTTCCCAAGTCGCCAGCCAAAGGCCGACTGGAGTTCAC -GGCAAAACTTCTCGTCACTCCACGACAACACCTCTTCGCGCCGTTCCAGTGGATGACACCAGACCAGCGA -ACAGCGTCCGTCAGACATCGGCAACATCGCCAGCGGGCCATGTTGCGTAAAGCGTTCAAAAGCGCGCCCT -TCATGCGCAACGGAAGTAGCAACGTTGGCAATCACGGCCAGTTGTTCGTAAGGCTCCTGCTGCCAGTCAA -CGCCGCACGCGGTGGCTAACGCTGAATGGGTGCCATCAGCTGCTACCAGCACGCGGCCCGTCAGCGTCTC -GCCACTCTCCAGCGTCACTTCAACGTGACTCTGAGTACGGGCAACGTTAGCCACGCGATCAGGGCAATGC -AGCGTTACGCCAGGTGCTTTACGCAGCAATGCAAACAGCCGTTGCCCGACATTGTGCAATTCGACAACCT -GTCCCAGCGCCGCCAGTTGGTAATCTTCTGCGGCGAGGGTGACAAATCCAGCGTGACCACGATCGCTGAC -ATGCACGGTGGTGATGGCAGTTGCGCAATCCGCCAGAGATTGCCAGACGCCGATGCGCGCCAGTTGCTGA -CAGGTACCCGCCGCCAGCGCTATCGCTCGTCCATCAAAGCCCGGATGAGCATGTGACTCTGGCGCAGTCG -CTTCAATCAAATGTACCGGCAGCGCCCCGTGACTTAACCGGGAAATAGCCAGCGCCAGCGTCGCGCCCGC -CATGCCGCCACCGACGATGATTACGCTCATTGCTTTCTCGCAGCAACCATCAACGCTTCGATTTCTTCCG -GCTTTTTCACCACGCTGGCGGTGAGGTTTTCGTTACCGGTTTCGGTAATCACAATGTCGTCTTCAATACG -AATGCCGATACCGCGATATTGTTCTGGCACTTCTGCATCCGGCGCAATATACAGCCCTGGCTCTACGGTC -AGTACCATGCCCGGTTCCAGAATGCGCGAGCGATCCTGACCATAAACACCCACGTCATGGACATCCAGTC -CTAACCAGTGGCTAAGGCCATGCATAAAGAAAGGACGATGGGCGTTCTGAGCGATCAGTTCATCAACATC -ACCTTTCAGGATGCCGAGTTTTACCAGGCCGCTAACCATGATGCGCACCACTTCACCAGTGACTTCCAGA -ATGGAAGTTCCCGGACGATACAGGCGCAGGCTGGTTTCGAGAGACTCCAGCACAATGTCGTAGATTTCAC -GCTGGGCCTGGGTGAATTTGCCGTTGACCGGGAAGGTGCGGGTAATATCGCCAGCGTAACCTTTGTATTC -ACAACCCGCGTCAATCAACACCAGGTCGCCGTCGCGCATTTCACACTCGTTTTCGGTGTAGTGCAGAATG -CAGCCGTTTTCACCGCTGCCGACAATGGTGTTATAGGACGGATAGCGCGCACCGTGGCGGTTAAATTCGT -GGTGAATTTCGCCTTCCAGATGGTACTCGAACATTCCCGGACGGCATTTTTCCATCGCCCGTGTATGTGC -CATGGCGGTGATTTCTCCCGCGCGGCGGAGTACGGCAATCTCTTCTGGCGATTTGAACAGGCGCATTTCA -TGAACAACAGGACGCCAGTCGATCATCGTTGCCGGTGCGGTGAGATTTTGCCGCGAACCTTTACGCAGTT -TTTCCAGCGCACTGTTCACGATTACATCAGCATATGCATATTCGCCCTGGGCATGGTAAACCACATCCAG -GCCGTTAAGTAGTTGATAAAGTTGCTGATTGATTTCGCTGAATGCCAGTGCGCGGTCAACGCCCAGTTTC -TCTGGCGCGGCATCCTGGCCTAAGCGACGGCCAAACCAGATCTCCGCCGTCAGGTCGCGAACGCGGTTAA -ACAGAACGCTGTGGTTATGAGTGTCATCGCTTTTAATCAGCACCAGCACCGCTTCCGGTTCGTTAAAGCC -GGTGAAGTACCAGAAGTCACTGTTCTGACGATAGGGGTATTCGCTGTCGGCGCTACGTGTTACTTCTGGT -GCAGCAAAAATCAGCGCGGCGCTGCCGGGTTGCATTTGCTCCACCAGGGCCTGACGGCGACGCTGAAACT -CTTGCCGGGATATCTCACTCATAACACTCTCCTTACGTTTTTTGTTTTTAGTGTAGAGTCGGTTTTTGTA -CTTCTGGCGCGGTCGGTTGCGGATGAGTAAAGGTGTCGTGGCATAACAGCGCGGCAACACGAACGTATTC -GATGATCTCTTCAAGCGACATTTCAAGCTCTTCCTGATCTTCGTCTTCGTCGTAACCCAGTTGCGCAATG -TTACGCAGATCGTCGATAGCTTCACCGGTTTCGCCGGTCACTTTATCCAGCTTCGGTTGCGTAACGCCAA -GACCAAGCAGGAAGTGATTGACCCAACCTGCCAATGCATCAGCCCGATCGAAAACGCTGACATCATCGCC -ATCAGGCAGATAAAGCTGAAAAAGGAAGCCGTCATCCTGCAGGGCATCGCTGGTGGCAGAGTGCATTTTA -CGCAGTGCCTGTGCCAGCTCATGACCGAAAGCCATGCCTTCGTTCGTCAGGTCGTGAAGTAGCGGTAGCC -ATGAGCTGTCATCGTTACCGCCACATATCATCCCGCTGATTAAACCATGCATCTCAGCTGGGGTCAGACC -CGTCCCTTGTTGGTTCAGATACTGGTTCATTTCGTTGTAACCAGGCATTTCGTTCTGTATAGACATAAGC -ATTCGTCGTCAAAGGGAGGAATATTCATGATATGCTACCACTTTGGGCCCTGGTGGACCAGAAAAGGGCT -TGTCTCTTCTCATCAGGGTAGCTATAGTGTCGCCCCTTCGCAGACCATGGGTCTAAAGACGAAGGCAGCG -CAGTCAATCAGCAGGAAGGTGGCATGTCTGCACAACCCGTCGATATCCAAATTTTTGGCCGTTCACTGCG -TGTGAACTGCCCGCCTGACCAAAGGGATGCGTTGAATCAGGCAGCGGACGATCTGAACCAACGGTTGCAA -GATCTGAAAGAACGCACTAGAGTCACAAATACTGAACAGTTGGTCTTCATTGCCGCATTGAATATCAGCT -ATGAGTTAGCGCAAGAAAAAGCAAAGACTCGTGACTACGCGGCAAGTATGGAACAGCGTATTCGGATGCT -GCAGCAGACCATAGAACAAGCGTTACTTGAACAAGGTCGCATCACCGAAAAAACTAACCAAAACTTTGAA -TGACACTTTTCGGTTTACTGTGGTAGAGTAACCGTGAAGACAAAATTTCTCTGAGATGTTCGCAAGCGGG -CCAGTCCCCTGAGCCGATATTTCATACCACAAGAATGTGGCGCTCCGCGGTTGGTGAGCATGCTCGGTCC -GTCCGAGAAGCCTTAAAACTGCGACGACACATTCACCTTGAACCAAGGGTTCAAGGGTTACAGCCTGCGG -CGGCATCTCGGAGATTCCCTTCTTATCTGGCACCAGCCATGACGCAACTACCAGAACTCCCACTGACATT -ATCCCGACAAGAAATCCGCAAAATGATTCGGCAACGTCGTCGTGCGTTAACGCCGGAACAACAGCAGGAA -ATGGGTCAACAAGCCGCTACCCGGATGATGACTTATCCCCCGGTGGTGATGGCACATACGGTCGCTGTAT -TCCTCTCTTTTGATGGCGAACTCGACACCCAGCCACTCATAGAACAACTCTGGCGCGCCGGTAAGCGCGT -ATATCTTCCAGTTTTGCATCCCTTTAGTGCCGGTAATTTGCTGTTCCTGAATTACCATCCGCAAAGCGAA -CTGGTGATGAACAGGTTGAAGATCCATGAGCCAAAATTGGATGTGCGTGACGTGCTACCCCTTTCCCGAT -TAGACGTGCTGATCACACCGCTGGTCGCCTTTGATGAGTACGGTCAGCGCCTGGGAATGGGCGGTGGTTT -TTATGATCGGACCTTACAAAACTGGCAGCACTATAAAACGCAACCGGTGGGTTATGCGCATGATTGTCAG -TTGGTGGAAAAACTCCCCGTTGAAGAGTGGGATATCCCTCTTCCTGCGGTGGTTACACCGTCGAAAGTCT -GGGAGTGGTAAGGGCGATACACCCGCATCGCCCTGATTGACATCGTTGATTCTTTGACCTAATTTAGTGA -GTAAGGGTAAGGGAGGATTGCTCCTCCCCTGAGACTGACTGTTAATAAGCGCTGAAACTTATGAGTAACA -GTACAATCAGTATGATGACAAGTCGCATCATAACCCTTCTCCTTCAAGCCCTCGCTTCGGTGAGGGCTTT -ACCGTTACAGCCCCATGCTGCCCTGCCATCGTAAATCCCCATTAAATAAACACAACGCATTGATCTGACT -TTGATTTATTTTCTGGAGCAGACTCGCAAAGTAGAATGCGCAACGCGGCAACGGTGTGGAGAAGGGATAA -AAAAACGGGCAAGTCAGTGACCTGCCCGTTGATTTTCAGAGAAGGGGAATTAGTACAGCAGACGGGCGCG -AATGGTACCCGGAATAGCTTTCATTGCCTGCAGCGCTTTTTCGGCAACGTCTTCGTCGGCTTCAATATCA -ATAACCACATAACCCATCTGGGCGGAAGTTTGCAGATATTGCGCGGCGATGTTGACGCCCTGCTCGGCGA -AGATTTTGTTCAGCGCAGTTAGCACGCCCGGACGGTTTTCGTGGATGTGCATCAGACGACGCCCACCGTG -CAGTGGCAGCGAGACTTCCGGGAAGTTCACCGCAGAGAGCGTTGAGCCATTGTCAGAATACTTGATCAAT -TTACCCGCAACTTCCAGGCCGATATTCTCCTGCGCTTCCTGAGTCGAACCGCCAATGTGTGGCGTCAGAA -GGACGTTGTCGAATTCACACAGCGGAGAGGTAAATGGATCGCTATTGGTCGCCGGTTCCGTCGGGAATAC -GTCGATTGCCGCCCCCGCCAGATGTTTGCTCGCCAGCGCATCACACAGCGCCGGAATATCCACCACAGTA -CCGCGCGAAGCATTAATCAGCAGCGAGCCGGGCTTCATTAGTGAAATTTCTTTCGCGCCCATCATATTTT -TGGTGGACGGATTCTCTGGTACATGCAGACTCACCACATCGCTCATATTCAGCAGGTCAGAAAGATGCTG -TACCTGAGTGGCGTTGCCCAGCGGCAGTTTATTTTCAATATCATAAAAGTAAACATACATTCCCAGCGAT -TCAGCCAGAATGCCCAATTGCGTACCAATATGACCGTAGCCGATGATACCCAGCTTTTTGCCGCGCGCTT -CAAAAGAACCCGCCGCCAGTTTGTTCCACACGCCACGGTGCGCTTTAGCATTGGCTTCCGGCACGCCGCG -CAATAGCAGCAGCAGTTCGCCAATCACCAGCTCCGCAACAGAGCGCGTATTTGAGAACGGTGCGTTAAAT -ACCGGGATCCCGCGCTTTGCCGCCGCATCCAGATCAACCTGGTTTGTTCCGATACAGAAACAGCCAATAG -CGACCAGTTTTTCTGCGGCGTTGATCACGTCTTCAGTCAGATGGGTACGGGATCGCAGGCCGATGAAGTG -GGCATCGCGGATGGATTCTTTTAATTGTTCATCATCCAGCGCGCCTTTGTGAAATTCGATGTTGGTGTAA -CCAGCTGCACGAAGGCTTTCCAGCGCCTTTTGGTGCACGCCTTCTACCAGCAGAAACTTAATCTTGTCTT -TCTCCAGCGATACCTTTGCCATTTACCCAATCCTGTCTTTTGAAATGTTGTGTGCGGATTTGCATCCGCC -TTTCAACATATCAAAAAATAATATTGCGGCAATATGAACGTTTGCGTCGCGATGTTGAGGAAATATCACG -CAAAGGTAATTCTTGGATGAATATGCTGGTTTAGAGGATTTATTTAGAGCAATCGACAATTGCCTGGTAA -AAGCGTGACACATGTCACCAAATTTAATGAAGAGAATTTTTTTAACGGGGGAGGTTCCCCCGTCAGATCA -TTTCACAATGGTTTTGACACCGTCAGGTGTGCCAATCAGCGCAACGTCCGCGCCACGGTTAGCAAACAAG -CCAACAGTCACCACGCCAGGAATCGCATTTATGGCGTTTTCCATCGCTATCGGGTCAAGGATTTCCATGC -CGTGGACGTCGAGGATCACGTTGCCATTATCGGTCACCACGCCCTGACGGTATTCCGGACGACCGCCCAG -TTTCACCAGCTGACGCGCCACTGCACTACGTGCCATCGGGATAACTTCTACTGGCAGCGGGAATTTACCC -AGAATATCAACCTGCTTGGAAGCGTCTGCAATACAGATAAATTTTTCTGCAACCGAAGCAATGATTTTTT -CACGGGTCAGCGCCGCGCCGCCGCCTTTGATCATTTGCATGTGGCCGTTGATTTCATCTGCGCCATCAAC -GTAGATGCCAAGGCTGTCGACTTCGTTGAGATCAAAAACGTGAATGCCGAGGCTTTTCAGTTTTTCAGTG -GAAGCATCTGAACTGGAAACGGCCCCTTCAATCTGGCCTTTCATTGTACCGAGCGCGTCAATAAAGTGTG -CGGCGGTGGAACCTGTACCTACACCAACAATGGTGCCGGGCTGAACATACTGAAGTGCCGCCCATCCTAC -TGCTTTTTTCAATTCATCCTGCGTCATGATCGTTTCGCCTGTGGTATGAAATTTCACACGCATTATATAC -AAAAAAAGCGATTCAGACCCCGTTGGCAAGCCGCGTGGTTAACTCATCCATAAAATATCGCGCAATGGCA -GGCATCCCCTTTCGCCCCGCAAATAAAGCATACAACGGTCTGGGTATGCCGCTCCACGGTGCAAACAGGC -GCACCAGTTCACCGTTCGCAAGCCCCTGTTTACAGGCAAATTGAGGCAATAACGCCACGCCATTCAACAC -AACCAGGGCGCGAACTCGCTGAGCGAAATGCATTAGCGCAAATCCCTGATCTTTTAAGCTGCGCTTTTAA -CCACGGATACAAATGTTACCCGCCGACGGCTTCGGTATATGCAACCTGACACAAAATTGTGTCATAGTGC -AGGAAAAAGCATTTACCAGGAGCAGACAACAGCAATGAAACGCCCGGACTACAGAACATTACAGGCACTG -GATGCGGTGATACGTGAACGAGGATTTGAGCGCGCGGCACAAAAGCTGTGCATTACACAATCAGCCGTCT -CACAGCGCATTAAGCAACTGGAAAATATGTTCGGGCAGCCGCTGTTGGTGCGTACCGTACCGCCGCGCCC -GACGGAACAAGGGCAAAAACTGCTGGCACTGCTGCGCCAGGTGGAGTTGCTGGAAGAAGAGTGGCTGGGC -GATGAACAAACCGGTTCGACTCCGCTGCTGCTTTCACTGGCGGTCAACGCCGACAGTCTGGCGACGTGGT -TGCTTCCTGCACTGGCTCCTGTGTTGGCTGATTCGCCTATCCGCCTCAACTTGCAGGTAGAAGATGAAAC -CCGCACTCAGGAACGTCTGCGCCGCGGCGAAGTGGTCGGCGCGGTGAGTATTCAACATCAGGCGCTGCCG -AGTTGTCTTGTCGATAAACTTGGTGCGCTCGACTATCTGTTCGTCAGCTCAAAACCCTTTGCCGAAAAAT -ATTTCCCTAACGGCGTAACGCGTTCGGCATTACTGAAAGCGCCAGTGGTCGCGTTTGACCATCTTGACGA -TATGCACCAGGCCTTTTTGCAGCAAAACTTCGATCTGCCTCCAGGCAGCGTGCCCTGCCATATCGTTAAT -TCTTCAGAAGCGTTCGTACAACTTGCTCGCCAGGGCACCACCTGCTGTATGATCCCGCACCTGCAAATCG -AGAAAGAGCTGGCCAGCGGTGAACTGATTGACTTAACGCCTGGGCTATTTCAACGACGGATGCTCTACTG -GCACCGCTTTGCTCCTGAAAGCCGCATGATGCGTAAAGTCACTGATGCGTTACTCGATTATGGTCACAAA -GTCCTTCGTCAGGATTAATCCATCAAATAATGCCTGATAGCACATATCAGGCGTTGTCCTCACTTCTTTT -TGTATTCCTTGAATCACATCACAAAATAGACAAATCTCAGGCGGCAAAAAACGACGTCTGAATGCATTTT -TTTTGCTGGCGACAAACCCACGTAAAAAGCTCACCGTAGGCGCAAATACCCTCATTTTGATTGCGTTTTA -CGGAGCAAATAATGTCTAACGTGCAGGAGTGGCAACAGCTTGCCAACAAGGAATTGAGCCGTCGGGAGAA -AACTGTCGACTCGCTGGTTCATCAAACCGCGGAAGGGATCGCCATCAAGCCGCTGTATACCGAAGCCGAT -CTCGATAATCTGGAGGTGACAGGTACCCTTCCTGGTTTGCCGCCCTACGTTCGTGGCCCGCGTGCCACTA -TGTATACCGCCCAACCGTGGACCATCCGTCAGTATGCTGGTTTTTCAACAGCAAAAGAGTCCAACGCTTT -TTATCGCCGTAACCTGGCCGCCGGGCAAAAAGGTCTTTCCGTTGCGTTTGACCTTGCCACCCACCGTGGC -TACGACTCCGATAACCCGCGCGTGGCGGGCGACGTCGGCAAAGCGGGCGTCGCTATCGACACCGTGGAAG -ATATGAAAGTCCTGTTCGACCAGATCCCGCTGGATAAAATGTCGGTTTCGATGACCATGAATGGCGCAGT -GCTACCAGTACTGGCGTTTTATATCGTCGCCGCAGAAGAGCAAGGTGTTACACCTGATAAACTGACCGGC -ACCATTCAAAACGATATTCTCAAAGAGTACCTCTGCCGCAACACCTATATTTACCCACCAAAACCGTCAA -TGCGCATTATCGCCGACATCATCGCCTGGTGTTCCGGCAACATGCCGCGATTTAATACCATCAGTATCAG -CGGTTACCACATGGGTGAAGCGGGTGCCAACTGCGTGCAGCAGGTAGCATTTACGCTCGCTGATGGGATT -GAGTACATCAAAGCAGCAATCTCTGCCGGACTGAAAATTGATGACTTCGCTCCTCGCCTGTCGTTCTTCT -TCGGCATCGGCATGGATCTGTTTATGAACGTCGCCATGTTGCGTGCGGCACGTTATTTATGGAGCGAAGC -GGTCAGTGGATTTGGCGCACAGGACCCGAAATCACTGGCGCTGCGTACCCACTGCCAGACCTCAGGCTGG -AGCCTGACTGAACAGGATCCGTATAACAACGTTATCCGCACCACCATTGAAGCGCTGGCTGCGACGCTGG -GCGGTACTCAGTCACTGCATACCAACGTCTTTGACGAAGCGCTTGGTTTGCCTACCGATTTCTCAGCACG -CATTGCCCGCAACACCCAGATCATCATCCAGGAAGAATCAGAACTCTGCCGCACCGTCGATCCACTGGCC -GGATCCTATTACATTGAGTCGCTGACCGATCAAATCGTCAAACAAGCCAGAGCTATTATCCAACAGATCG -ACGAAGCCGGTGGCATGGCGAAAGCGATCGAAGCAGGTCTGCCAAAACGAATGATCGAAGAGGCCTCAGC -GCGCGAACAGTCGCTGATCGACCAGGGCAAGCGTGTCATCGTTGGTGTCAACAAGTACAAACTGGATCAC -GAAGACGAAACCGATGTACTTGAGATCGACAACGTGATGGTGCGTAACGAGCAAATTGCTTCGCTGGAAC -GCATTCGCGCCACCCGTGATGATGCCGCCGTAACCGCCGCGTTGAACGCCCTGACTCACGCCGCACAGCA -TAACGAAAACCTGCTGGCTGCCGCTGTTAATGCCGCTCGCGTTCGCGCCACCCTGGGTGAAATTTCCGAT -GCGCTGGAAGTCGCTTTCGACCGTTATCTGGTGCCAAGCCAGTGTGTTACCGGCGTGATTGCGCAAAGCT -ATCATCAGTCTGAGAAATCGGCCTCCGAGTTCGATGCCATTGTTGCGCAAACGGAGCAGTTCCTTGCCGA -CAATGGTCGTCGCCCGCGCATTCTGATCGCTAAGATGGGCCAGGATGGACACGATCGCGGCGCGAAAGTG -ATCGCCAGCGCCTATTCCGATCTCGGTTTCGACGTAGATTTAAGCCCGATGTTCTCTACACCTGAAGAGA -TCGCCCGCCTGGCCGTAGAAAACGACGTTCACGTAGTGGGCGCATCCTCACTGGCTGCCGGTCATAAAAC -GCTGATCCCGGAACTGGTCGAAGCGCTGAAAAAATGGGGACGCGAAGATATCTGCGTGGTCGCGGGTGGC -GTCATTCCGCCGCAGGATTACGCCTTCCTGCAAGAGCGCGGCGTGGCGGCGATTTATGGTCCAGGTACAC -CTATGCTCGACAGTGTGCGCGACGTACTGAATCTGATAAGCCAGCATCATGATTAATGAAGCCACGCTGG -CAGAAAGTATTCGCCGCTTACGTCAGGGTGAGCGTGCCACACTCGCCCAGGCCATGACGCTGGTGGAAAG -CCGTCACCCGCGTCATCAGGCACTAAGTACGCAGCTGCTTGATGCCATTATGCCGTACTGCGGTAACACC -CTGCGACTGGGCGTTACCGGCACCCCCGGCGCGGGGAAAAGTACCTTTCTTGAGGCCTTTGGCATGTTGT -TGATTCGAGAGGGATTAAAGGTCGCGGTTATTGCGGTCGATCCCAGCAGCCCGGTCACTGGCGGTAGCAT -TCTCGGGGATAAAACCCGCATGAATGACCTGGCGCGTGCCGAAGCGGCGTTTATTCGCCCGGTACCATCC -TCCGGTCATCTGGGCGGTGCCAGTCAGCGAGCGCGGGAATTAATGCTGTTATGCGAAGCAGCGGGTTATG -ACGTAGTGATTGTCGAAACGGTTGGCGTCGGGCAGTCGGAAACAGAAGTCGCCCGCATGGTGGACTGTTT -TATCTCGTTGCAAATTGCCGGTGGCGGCGATGATCTGCAGGGCATTAAAAAAGGGCTGATGGAAGTGGCT -GATCTGATCGTTATCAACAAAGACGATGGCGATAACCATACCAATGTCGCCATTGCCCGGCATATGTACG -AGAGTGCCCTGCATATTCTGCGACGTAAATACGACGAATGGCAGCCACGGGTTCTGACTTGTAGCGCACT -GGAAAAACGTGGAATCGATGAGATCTGGCACGCCATCATCGACTTCAAAACCGCGCTAACTGCCAGTGGT -CGTTTACAACAAGTGCGGCAACAACAATCGGTGGAATGGCTGCGTAAGCAGACCGAAGAAGAAGTACTGA -ATCACCTGTTCGCGAATGAAGATTTCGATCGCTATTACCGCCAGACGCTTTTAGCGGTCAAAAACAATAC -GCTCTCACCGCGCACCGGCCTGCGGCAGCTCAGTGAATTTATCCAGACGCAATATTTTGATTAAAGGAAT -TTTTATGTCTTATCAGTATGTTAACGTTGTCACTATCAACAAAGTGGCGGTCATTGAGTTTAACTATGGC -CGAAAACTTAATGCCTTAAGTAAAGTCTTTATTGATGATCTTATGCAGGCGTTAAGCGATCTCAACCGGC -CGGAAATTCGCTGTATCATTTTGCGCGCACCGAGTGGATCCAAAGTCTTCTCCGCAGGTCACGATATTCA -CGAACTGCCGTCTGGCGGTCGCGATCCGCTCTCCTATGATGATCCATTGCGTCAAATCACCCGCATGATC -CAAAAATTCCCGAAACCGATCATTTCGATGGTGGAAGGTAGTGTTTGGGGTGGCGCATTTGAAATGATCA -TGAGTTCCGATCTGATCATCGCCGCCAGTACCTCAACCTTCTCAATGACGCCTGTAAACCTCGGCGTCCC -GTATAACCTGGTCGGCATTCACAACCTGACCCGCGACGCGGGCTTCCACATTGTCAAAGAGCTGATTTTT -ACCGCTTCGCCAATCACCGCCCAGCGCGCGCTGGCTGTCGGCATCCTCAACCATGTTGTGGAAGTGGAAG -AACTGGAAGATTTCACCTTACAAATGGCGCACCACATCTCTGAGAAAGCGCCGTTAGCCATTGCCGTTAT -CAAAGAAGAGCTGCGTGTACTGGGCGAAGCACACACCATGAACTCCGATGAATTTGAACGTATTCAGGGG -ATGCGCCGCGCGGTGTATGACAGCGAAGATTACCAGGAAGGGATGAACGCTTTCCTCGAAAAACGTAAAC -CTAATTTCGTTGGTCATTAATCCCTGCGAACGAAGGAGTAAAAATGGAAACTCAGTGGACAAGGATGACC -GCCAATGAAGCGGCAGAAATTATCCAGCATAACGACATGGTGGCATTTAGCGGCTTTACCCCGGCGGGTT -CGCCGAAAGCCCTACCCACCGCGATTGCCCGCAGAGCTAACGAACAGCATGAGGCCAAAAAGCCGTATCA -AATTCGCCTTCTGACGGGTGCGTCAATCAGCGCCGCCGCTGACGATGTACTTTCTGACGCCGATGCTGTT -TCCTGGCGTGCGCCATATCAAACATCGTCCGGTTTACGTAAAAAGATCAATCAGGGCGCGGTGAGTTTCG -TTGACCTGCATTTGAGCGAAGTGGCGCAAATGGTCAATTACGGTTTCTTCGGCGACATTGATGTTGCCGT -CATTGAAGCATCGGCACTGGCACCGGATGGTCGAGTCTGGTTAACCAGCGGGATCGGTAATGCGCCGACC -TGGCTGCTGCGGGCGAAGAAAGTGATCATTGAACTCAATCACTATCACGATCCGCGCGTTGCAGAACTGG -CGGATATTGTGATTCCTGGCGCGCCACCGCGGCGCAATAGCGTGTCGATCTTCCATGCAATGGATCGCGT -CGGTACCCGCTATGTGCAAATCGATCCGAAAAAGATTGTCGCCGTCGTGGAAACCAACTTACCCGACGCC -GGTAATATGCTGGATAAGCAAAATCCCATGTGCCAGCAGATTGCCGATAACGTGGTCACGTTCTTATTGC -AGGAAATGGCGCATGGGCGTATTCCGCCGGAATTTCTGCCGCTGCAAAGTGGCGTGGGCAATATCAATAA -TGCGGTAATGGCGCGTCTGGGGGAAAACCCGGTAATTCCTCCGTTTATGATGTATTCGGAAGTGCTACAG -GAATCGGTGGTGCATTTACTGGAAACCGGCAAAATCAGCGGGGCCAGCGCCTCCAGCCTGACAATCTCGG -CCGATTCCCTGCGCAAGATTTACGACAATATGGATTACTTTGCCAGCCGCATTGTGTTGCGTCCGCAGGA -GATTTCCAATAACCCGGAAATCATCCGTCGTCTGGGCGTCATCGCTCTGAACATCGGCCTGGAGTTTGAT -ATTTACGGGCATGCCAACTCAACACACGTAGCCGGGGTCGATCTGATGAACGGCATCGGCGGCAGCGGTG -ATTTTGAACGCAACGCGTATCTGTCGATCTTTATGGCCCCGTCGATTGCTAAAGAAGGCAAGATCTCAAC -CGTCGTGCCAATGTGCAGCCATGTTGATCACAGCGAACACAGCGTCAAAGTGATCATCACCGAACAAGGG -ATCGCCGATCTGCGCGGTCTTTCCCCGCTTCAACGCGCCCGCACTATCATTGATAATTGTGCACATCCTA -TGTATCGGGATTATCTGCATCGCTATCTGGAAAATGCGCCTGGCGGACATATTCACCACGATCTTAGCCA -CGTCTTCGACTTACACCGTAATTTAATTGCAACCGGCTCGATGCTGGGTTAATGACTCGTCCCGTCACGA -TCTTCAGCAATATGCTGAAGCATCGTGGCGGTATAACGATGATTTCTGATTGAATAAAGATATTCCTGCA -TATACATCGGCCTGTGCGGTGCATCAAAATATTTCAGCGTTGCCGGATTCACCAGTCGCCAGGCAAAATG -CGGGATCACCGTCAGAAAATGTCCGCGCTCCACGGCGCTGATTTTGGCCATAAAACTGTAGGGACGATAA -ATAATGGTTGGATTGATCCCACAAGGTCGCATATTCGCATCAATCATTGCTTCGAAGTTGGCCCGGTTCT -GAAAGCGCATTTGTAGCCAGGGCAGCTCCTGAAGCAGCTCTTGCTCTTGTCGCTCTTCATAACGGCGAGA -AACGAGAAAGCCTAATCGCAGCGGTGGTAGTTCACTGATAGTCAGGTTTTCCAGTTCCTGAACTCGTGCA -GATACATGCTGTGGGGAGATAATAAAATCTAACTGGCGGTCAAAAAGATTATCGATAACGCCATTTTCGC -TGAACTCAACTGGCTGGGCGGTCACGCCTTCATACTTATCTCCGAGACTAATCAACTGATCGAAAATAAT -TGTCGGATAAGTATTATCTATGCCAATCACAATTTCTCGTGAACGACGCCCTGAGTTATGGATTTCATTA -TCAATCGCAGAAAGCCGTTGATAAACCGGGAACAGTTTTTGATACAGTTCCTGTCCGGCTTTATTGAGGC -TGATATTATTATCTTTGCGGGTAAATAGCGTATAGCCAATTTGTTCTTCCAGCGCGGCAATGCTTTTACC -AAATGGCGAAGCCGTCATATGGATTTTTTCTGCCGCCCGGGCAATATTATTGGTTTGCGCTAATAAAATG -AAATTGCGCATCTTTTTCGAAATAAAAATGTCCATCCCCCTCCCCCGCATCCTTGTCCGCTTAACCGTTT -CAGTCAGCCTATCCTTGATGAAACCGCGAGCAAAGATAGGTGATTACGTCATGGTTTTACAGAAAATTAC -AGAAAAAGGAGGCAATATCGGGTAAAGGCATTAGCCCGACGAATACGTCGGGCTACAAATATTATTGTGC -TGCAGGTGTTTTAGCGGGTTGTTGATCCACAGGTTCTAACTGGAAGACCACATCGACCTGATCATCAAAC -TGAATAGCGGCCTGCTCGTAAGTTTCCTGGGCGGACACCGGCGCGGCATCGGCTTTCATCATCCGCACCA -TTGGGCTGGGCTGATAGTTGGAAACATGGTAGCGCACGCTATATACCGGCCCCAGTTTACGATGAAAGCC -GTTCGCCAGTTCCTGCGCCTGATGAATCGCGTTATCAATCGCTGCCTTACGCGCTTTGTCTTTATAGGCA -TCCGGCTGCGCCACGCCCAGCGACACAGAACGAATTTCGTTAAGACCCGCCTTCAGCGCGCCATCCAGCA -AGGAATTCAGTTTGTCTAACTGACGGAGCGTGACTTCCACCGTTCTCACAGCGCGGTAGCCTTTAAGGAT -ACTTTTACCATCCTGATAATCATAATCTGGCTGGGTGCGTAAGTTCGCTGAGCTGATATCTTTTTTCGCG -ATCTGATTGAGTTCAAGGAAGGAAATGTATTGTGCGACGCGCTCATCTGCCTGTTTCTTGGCAGTAGCGG -CATCCTTCGCGGCCACGTTAACTTCAATCGCAAGAGTGGCAATGTCTGGCACCGCATCCACGCTTGCCGT -ACCGGAGGTGACAATATGCGGTCCATCCGGCAATTCGTTAGCCTGCGCTGCCATCCCGCTAATACCCATT -AATGCCGCCAGGGCGATAACTTTGAACTTCACGTTAGTCTCTCCGTGTTAATTGACTTGCCCAAAATTCA -GGACCTCTGGAGGCAAGCTTAGCGCCTCTGTTTTATTTTTCCATCAGATAGCGCCTAACTGAACAAGGCT -TGTGCATGAGCAATACCGTCTCTCGCCAGCTGCAAGGCAATAAACCACATAACACATCCCACAACCAGAT -TGATAATGCGCTGTGCTTTTGCCGTGCGCAGACGCGGTGCCAGCCAGGCTGCGAGAAGAGCCAGACCAAA -GAACCACAGGAAAGAGGCGCTAATTGTCCCGAGTGCAAACCAGCGTTTTGGTTCCACATCAAGTTGCCCG -CCAAGGCTGCCCAGTACAACAAAAGTATCCAGGTAAACATGCGGATTCAGCCAGGTCACTGCCAACATGG -TGGCGATAATTTTCCATCTGCCTTGCTTCATGACTTCGGCGCTGGCTAACTCAATATTACTGCTCATTGC -TGTTTTAAAAGCGCCAAAACCATACCACAGCAAGAAGGCTACGCCGCCCCAGGTGACCAGCGCCAGCAAC -CACGGCGACTGCATCAATAACGCGCTGCCACCAAAAATCCCGGCGCAAATCAGGACCAAATCGCTGATAG -CACAAAGTAAGGCAATCATAATGTGGTACTGACGACGTATGCCCTGATTCATCACAAAAGCATTTTGTGG -ACCGAGCGGTAGGATCATAGCCGCCCCAAGTGCAAGACCTTGAAAGTAATAAGAAAACACGTTGGATATT -CCGAATTAAGTATCTGATGCAGAGACTATATCGCGGGATTGTTATTAGCGGAAATTGATAATATTAATTG -GCAATCAGAAAAACTAATAAGAGAGAGGCCAGAGAGTATTATCTGGCCTCAGCGTTGATTACGCAGCTTT -GTCTTCTTTCACCCGCTTAAAGTTCACATCCATTTGCGGGTACGGGAAGCTGATACCGGCGGCATCAAAT -TCACGTTTAATACGCTCCAGCACATCCCAGTACACGTTTTGCAGATCGCCGCTGTTGCTCCAGACGCGGA -CCACGAAATTAATCGACGATGCACCAAGTTCGTTCAGGCGCACAGTCATTTCGCGATCTTTCAAAATGCG -ATCTTCAGACTGGATAATATTGGTCAGGATCTGCTTAACCTGATCGATATCGGAATCATACGCCACGCCA -ATAATAAATTCGTTACGGCGAACTGGCTCGCGGGAGAAGTTAATAATATTTCCGGCAATAATTTTACCGT -TCGGAATAACGATAATTTTACCGTCTGCAGTACGCATGGTGGTGGAGAAAATCTGCACACTCAGCACAGT -ACCGGCTACGCCGCCCAGGTCAACATATTCTCCGGCACGGAACGGGCGGAACATGACAAGTAACACGCCA -GCGGCCAGGTTAGACAGTGACCCCTGCAAAGCCAGACCAACAGCTAAGCCTGCGGCACCGAGTACAGCAA -TGACTGACGCGGTTTGTACACCCACGCGTCCCAGTGCAGCGATTAGCGTAAAGGCGATAATACCGTAACG -GACTAATGCAGAAAGAAAATCAGCAACAGTGGCATCGATTTTACGGGAGATCATCAGGCGATTCACCGCG -TTGGAAATCATCCGCGCGATAATCAAACCAACGATGATGATCGCGAGTGCCGCCACGATGTTTACTGCAT -AACTTAGCAGCAGCGCCTGGTTAGCTACCAGCCAGCTTCCCGCGCCGTTTATGCTATCGACAACATTCAA -ATCTTCCATTCAATATTCCTTTTCAACTGACTCAAAATGGAGAAATACACTCCGCCGCCTTATGACGGGC -AGTCTGACAAGGGTAAACAATAAAGCATAATTTTGCCAAATAGATCACAGATTTCTCATCTGAATCACCT -TGCTTTTGGCGAAAAAATCCCCGCAGAGCGGGGCTCAGACAGATATCAATGTGCGCTTTGTCATGCCGGA -TGCGGCGTGAACGCCTTATCCGGCCTACAAAAACCTGCAAATTCAATATATTGCAGGATACGTGTAGGCC -TGATAAGCGTAGCGCATCAGGCAATTTTGCTTTTGGCGAAAAAAAGACCCGCAGAGCGGGCCTTGAGATA -AGCAGAAAGGAATATCTTACAGAACGTCGATCGCGTTCAGTTCCTGGAATGCTTTCTCCAGACGAGCGAT -CATCGAAGTCTGACCGGCACGCAGCCATACGCGCGGATCGTAGTATTTCTTGTTCGGCTGATCTTCGCCT -TTCGGGTTACCCAGCTGACCCTGCAGATAAGCTTCGTTCGCTTTGTAGTAGTTCAGAACGCCTTCCCAGG -TTGCCCATTGGGTATCGGTATCGATGTTCATTTTTACTACGCCGTAGCTTACGGAGTCTTTGATTTCCTG -AGCAGTAGAACCGGAACCACCGTGGAATACGAAGTTCAGGCTGTTGTGCGGCAGGTTGTGTTTCTTGGAA -ACATATTCCTGAGAATCACGCAGGATGGTCGGAGTCAGAACCACGTTACCCGGCTTGTAAACACCGTGTA -CGTTACCGAAGGACGCTGCGATGGTGAAACGCGGGCTGATTTTGCTCAGTTCGGTGTATGCGTAATCAAC -GTCTTCCGGCTGGGTGTACAGTGCAGAAGCGTCCATGTGGCTGTTGTCCACGCCGTCTTCTTCACCACCG -GTGCAACCCAGTTCGATTTCCAGAGTCATGCCGATTTTGGACATGCGCTCCAGGTATTTAGAGCAGATTT -CGATGTTCTCTTGCAGAGATTCTTCAGACAGGTCGATCATGTGAGAAGAGAACAGCGGCTTACCGGTAGC -TGCGAAGTGTTTTTCACCCGCGTCCAACAGACCGTCGATCCACGGCAGCAGTTTCTTCGCGCAGTGGTCA -GTGTGCAGGATAACCGGAACACCATAATGTTCAGCCATCTGGTGAACGTGATGCGCACCAGAGATCGCGC -CCAGGATAGCAGCACCCTGCGGAACGTCAGATTTCACGCCTTTACCAGCGATAAAGGAAGCACCACCGTT -GGAGAACTGAACGATAACCGGCGCTTTAACTTTAGCAGCGGTTTCCAGTACGGCGTTGATGGAGTCAGTA -CCGACGCAGTTTACTGCTGGCAGTGCGAAGTTGTTTTCTTTTGCTACCTGGAAAACTTTCTGTACGTCAT -CACCAGTGATTACGCCAGGTTTTACGAAATCAAAAATCTTAGACATGTCTCTTGTCCTGTATCGTCGGGC -CTTATACTCGTCATACTTCAAGTTGCATGTGCTGCGTCTGCGTTCGCTCACCCCAGTCACTTACTTATGT -AAGCTCCTGGGGATTCACTCTCTTGTCGCCTTCCTGCAACTCGAATTATTTAGAGTATGAAAAATTGCGT -GCTCTAAAAGCGCGCTGAAACAAGGGCAGGTTTCCCTGCCCTGTGATTTTTTACTTCTTAGCGCGCTCTT -CGAGCATCGCTACTGCAGGCAGTACTTTACCTTCCACGAATTCGAGGAATGCGCCGCCGCCAGTGGAGAT -GTAGGAGATTTTGTCAGCAATGCCGAACAGGTCGATTGCTGCCAGAGTGTCGCCGCCGCCAGCGATGGAG -AACGCTTCGCTGTCTGCGATAGCGTTAGCCACGATTTCAGTACCTTTGCGGAAGTTCGGGAATTCGAACA -CGCCAACCGGACCGTTCCACAGAATGGTTTTCGCATTCTTCAGGATTTCAGCCAGTTCCTGAGCGGAAGC -ATCACCGATATCCAGGATCTGCTCGTCAGCTTTCACATCGTTAACAGATTTCAGGGTAGCCGGTGCAGTT -TCAGAGAACTCGGTTGCTACGCGAACATCAGACGGAACCGGGATGTTGCAGGTGGTCAGCAGACGTTTAG -CTTCGTCAACCAGGTCAGCTTCGTACAGGGATTTACCCACATCGTGGCCTTGTGCCGCGATAAAGGTGTT -AGCGATACCACCACCAACAATCAGCTGGTCAGCGATTTTAGACAGGGAGTCCAGAACGGTCAGTTTGGTA -GATACTTTAGAACCACCAACGATAGCCACCATCGGGCGAGCAGGTTCTTTCAGTGCTTTACCCAGCGCGT -CCAGTTCAGCTGCCAGCAGCGGGCCTGCGCACGCAACGTCAGCGAATTTACCGATACCGTGAGTAGAAGC -CTGCGCGCGGTGAGCAGTACCGAATGCGTCCATTACGAACACGTCACACAGTGCAGCGTATTTTTTGGAC -AGGGTTTCGTCGTCTTTCTTCTCGCCTTTGTTGAAGCGAACGTTTTCCAGAACAACCAGTTCACCTTCAG -CAACGTCAACGCCGTCGAGGTAATCTTTAACCAGACGAACCGGGTTAGACAGTTTGTCTTTCAGGTAGTT -AACAACCGGCAGCAGAGAGAATTCTTCGTTGTACTCGCCTTCGGTAGGACGACCCAGGTGGGAAGTTACC -ATCACTTTTGCGCCTTGTTTCAGGGCCAGTTCGATGGTCGGCAGAGAAGCACGGATACGCGCGTCGCTGG -TTACTTTCCCGTCTTTTACTGGTACGTTCAGATCCGCACGGATAAATACACGTTTCCCAGCAAGATCCAG -ATCGGTCATCTTAATTACAGACATGGTGAATCCTCTCGTTGATTCTAAAAGTTTTGCAGACGCTGCTTGC -GTCTTACCTGAAAGCAACAGTAGCCATAGCTAACGTCGTGTCGAGCATTCGGTTAGCAAAGCCCCATTCG -TTATCGCACCAGACCAACGTTTTGATCAGGTGTGCGCCACTGACCCGGGTTTGGGTGCCATCGACAATGG -CACTGTGCGGATCGTGGTTAAAATCTACAGAGACCAACGGCAATTCCGTATAGTCAACTATACCATGAAA -TGCACCTTGTGCTGCTTTTTGCAGCAACAGGTTGACTTCATTGGCTTTTACAGGTTTCTTCACCGTCACG -CTTAAATCGATTGCCGTCACATTTATGGTTGGCACACGTACCGCAATCGCTTCAAAGCGATCGTTAAATT -GCGGAAAAAATCGTGTGATACCGGCGGCCAGTTTAGTATCGACCGGAATGATCGACTGGCTGGCTGCCCG -GGTGCGACGCAGGTCAGGATGGTATGCATCAATAACCTGTTGATCGTGCATGGCGGAGTGAATTGTGGTC -ACAGTGCCGGACTCAATACCGTACGCATCATCTAACAATTTGATGACGGGAATTATGCAATTCGTGGTAC -AGGAAGCGTTAGAAACGATGCGGTGTTCCGCACGAAGTTGATCCTGATTGACGCCGTAAACAACGGTCGC -GTCGAGATCGTTACTGCCAGGATGTGAAAAGAGCACTTTTTTGGCCCCGGCGGCAATATGCGCTTCGCCA -TGCTCGCGGGAGCCATATACGCCGGTGCAGTCGAGGACTACATCAACGCCAAGTTCACGCCAGGGGAGCG -ATTGCAGTGAACGTTCATGCAATACGCGGATGGCGTCATCACCAACAAAAAGTTGATCGCGTTCCTGTCG -TACTTCCCATGCAAAACGGCCATGGCTGGTGTCATATTTCAACAAATGCGCCATGCCCGCAGCATCCGCC -AGTTCGTTGATTGCCACCACGGTAATTTCCGCCCGGCGTCCGGATTCATACAAAGCACGAACCACATTAC -GCCCGATGCGACCGAAGCCATTTATCGCTACGCGTACGGTCATAGATCTCCTGCAAGGTTTTCCCTGAGC -AAATTTGCCAGACAGAGTAATCCAGCAAATCGTCCGGGGAAACCTTACCTGTCGCAAACTGCGACTGATT -GGTTAATTGTCGAACATTTAATCGACTGAAACGCTTCAGCTAGGATAAGCGAAACGTGGAATAAAAGGAA -TGTTTGTCCAGCCGAAGAAGACATTTATCTGACTCACATCACACTTTTATCCCCTTTTGTGGGAAGCTTT -ATTCCAGGCTGGCGTAATAATAACCCTACAATAACTGGAATAAATTGTCAGCTTGTGAAGTGATACCGGC -CTTCTTCAGTCATCTCTACTATCAGATTGGCCTGACGGCTATTCATCAGCACACGCTCGACATTGGGGCC -ATCGGTGCGGGCATAAAATGCTTCGGCTACTTGCCGCGTTAATCCTCCCGCAATTTTACGACTAATCAAG -CGCTCCCGCAGAATTTGAGCAGGTGCATGAATAAAAATAGAAAAATCGCAGAAAGATGCCAACTCCAGCC -ACTTTTCATCATCCAGTAACAACCAGTTTCCTTCGACGATGACGAGTGGTGCGGTAACGTGCAACGCATC -TTCAACAGGATCATGCTTTTGTCGATCGTACTGCGGCCACGTACAATCCCCTTCCACGACCTGGCGCAGA -TTTTCCGTCAGTTTCGCAACGTCAAATGTCTCTGGTGCGCCTTTGAAGGGGCGCAATTGATGCGCATCCA -GCCAGCTATTGTAATGGTGAAAACCATCCATCGGGAGCGTCTGAATAGCGGGCAGTTCCGGGTCTTGTTG -CGCGAGATATTCCCAGAAGGTGGTTAGGGTTGATTTACCCGTCCCCGGCGGAGCGCAAAGAAAAACCACC -GTACGCCGCTGCGGATTTACCGTCTGTAAGGCCGCCAACATGTGCAGCAACGGTTTATGTACATTTTCAA -TCTCTTCGTTCTGGTACTGTGCCTGTATCTTCAGCCCATTCACCGTTAATTCAATTTTCACGGCGTTAAT -TCCTTTAAGGTGGTCGTTACTGCCAGCGTCAGCGCCGTTTTGACCATTCCGCTAAAACGCGCCTCTGACC -AGACGGAGAAATCAGCGAACTTCATCGCTTTTAACGCGTCATAGAGCATCGCATTGCGGGTTATGCTATT -GACGTTGCTGATAAAATCCCAGGTCATGTCATCGGCAAATCCGGGCGTTTCATCCTGTTCGTTCAGGTAA -TGCCAGAACTGGGAAAAATGCGTGATATCGGCGTACAACCATTTATCCATTTTCCCCAACGCATAAATCA -AACGCAGTGCAACATCAATATCGTCAAGCGGGCCGCTTTGGGCGAGTAACGGCTTCACTGCATATTCCAC -GATCTCTTCATCGTTATCGACAAACAGCGACGGCAGAAACTGGCGTATCCCCTGGAGCAAAATGGTATGC -GCAGTTTTCATAAATGAAAATAAATTGTCCTGTGCATCCAGTTGCTCAAGCACATCATCTTCTGTCAGCG -TCGCCATTGGTCTTCCGATAGATCACCATCAATGCAGGGAGTCTATTATATTACACGTTTGGTCCGCGCC -GCCGATCAGTAATGTCTGCGTCCGCACCCCATTCGCCGTCTGTTGGATACCGTTCACCAGCTCACCGCCC -GTCACGCCCGTAGCGCTAAAGAGGATATCGTTCCCCCTCACCAGTTCATCGAGCGAGTACACACGGTTAA -CGTCAACGCCCATTGCCTTGCAACGCTTGCGCTCCTGCTCTGCAATCTGCCGATTTTCCGTGTAATCCCC -TTTAGCCTGGCAAAAGTCAATCAGCTCGGCCTGCATATCCCCGCCTAATGCTTTAACGGCACAGGCAGAA -ATCACGCCTTCTGGCGCACCGCCGATGGTGTACATCACATCGTAAGGATTATCCTGCCAGCAGGTCAGCA -CGCTGGCGGCGACATCGCCATCCGGCAGGGCAAAAACCTTCACGCCCAGCTGTGTTGCTTCCTCAATCGC -GGCACTCAGGCGCGGTTTATCCAGCGTAACCATGCGCAGCTTATCCAGCGGTTTGCCTAACGCTTTCGCC -ACGTTGCGCAGGTTGTCCGTCAGAGGCAAAGACAGATCAATCGCGCCCGCCGCCAGCCGATTAACAACCA -GCTTTTTCATATACATATCGGGCGCATGTAACAGGCTATCTCGAGGGGCGAAAGCCATGACCGCCAGCGC -ATTGCTCTGCCCCATCGCCACCATCCGCGTGCCTTCAATGGGATCAACCGCGATATCGACTTCTGGCCCA -TCGCCTTTGCCCACCTCTTCGCCAATCCACAGCATCGGCGCATGGTCAATTTCTCCTTCGCCGATAACCA -CTCGTCCACGAAAAGCGACGTCGTTTAATGCCTGGCGCATCGCGGTGACCGCCAGGCCATCAATTTTATT -TTTGTCGCCACATCCGGTTTGCGGCCAGGCAGCCAACGCTGCCTGTTCCGTAACGCGAAATAATGGCCAC -GCCAGGGACATCATTGCGCGGCCTCCCCGATATCAACGCCAAATTGTGCCAGCAGATATTTCTCGGCCTG -TTCATTCCAGATGCCGTGCGTTTCCTCAACCAGCCGCGCCAACTCTTTAAACAGCGGATCGGTTTTGCCT -TTTTCGGCAAAATCGGCAATGGCAGTGAGCGGCATGGTCACGCCGTTATAAATGAGTTTTTTACCGCCAG -GGATATCCGGCAGATTGAGCACGGTTTCTGGCACCGCATCCAGGCCACCGATATGGGTCACCATAAACGA -CGGCTGTAACTGCCCAGTGGCGCTAAGGGCAATCGCCTCTTTCATGTCGTCCGTTGAACCGCCAGATGTA -CCGACGACGTGCGTGCTGTTGTAATGGACGTTGTAGAAATTAAACGGCACTTTGAAGTTTTTATCCGTCG -GCCCGGCAAAGAAGTTCAGACAGCCATCTTCCGCCAGTAATTCATCAGCCATCTCAACGACAGCAGGCAC -CGCCGCATAAACAAAAATGTCATCGAACCCGGCATCTCCTGTCAGCGCCCGCAGCATCTGGACAGGATCG -CTCATCCCTTTGGTATTCACATACACCAGCTCAATGCCTTTACTGGCCGCCAGTTCCACCGGCAGCAGCT -TCTGTACCTGCGCCAGACGTTTGTCGTCGATATCGACCACCACCACCCGCGACGGTTGTATGCCGCCGTT -AATGGCGTAATCGATAGCGCCAATGCCCATCGGACCTGCACACGCCAGCAGTGCAATATTGCCGCCAGGT -TTGACGCCCATGCGATGCTCATAAACATATTGCGTGGTGTGATAATTGGCATGATAAGCACCAATAATGC -AGCACATAGGCTCTGCCAGCGACGCCGCAGCAAAATAAGAGCCGTGATACGGTAATACGCAGCCCAAATT -AATGGCGATTTCGGGAATAATCATATAAGTGGCATTGCCGCCAAAATATTCGTAGCTGTAGCCCGCTGAA -TATCCGCTTGGTAACCCCATCGCCGGTTGCAATACAAAACGCTGGCCTTTTTTATATTTGCCAGTGAGAT -TTTTACCCACTTCGACAATAACCCCGGCACATTCATGCCCGGTAATGACCGGATGATTTTCTAAATCGTC -GGGTACGCGTTTATGTTCACTACCGAGTAACGCCGCTTTCCAGGTCGATAAACAGACGCTGTCAGAAATT -ACACTCACCAGTAATTCATTATCGGTAATTTCTGGCAGTTCAAATACGCGCAGACGGACATCCCGCTTGC -CATAAATAGCAGCAACTTTGGTTTTCATTTTTACCTCTGTAATCAGTGTTTATGTTCGGCGGTTAATTGA -TTAAATAAAGTGTCGAGTTTTGGATCGCCAATATAGTTATTAATCAATATCAGTGGTTTATCCGTCACAC -GTTTCACGCGCCCTTCCAGACTGGCATGAGTAACGACGATATCCGCATCCGCAGGCACGTTTTCTATGGC -GTAATGTTTTACTTCAATTGCCAGCCCCGCTTTTTCCAGGCGTTTACGGAAGGTGGTCGCGCCCATCGCA -CTGGAGCCCATCCCCGCATCGCAAACAAAGGCGATACGCTTAACCCTGCTTAACGAGAATGCACCCTCTT -GTTTCATCGCCTTAACCGCATTGGCTGACTGAGCAAACTCATCTTCGCTCTCCGTTTCCACCGTTTTTTC -CATCTTCAGTATCAGCGAAGTAATAGCAAAGGACACCAGGGTACCTACCGTAACACCGGCAATTGTCGCC -AGGAACGAGCCTTTCGGCGTCAGTGCCAGGTAAGCAAAGATAGACCCCGGACTTGGGCCAGCCACCAGAC -CACCGTCCAGTAAGTTAAACATCCAGGTGCCAGACATACCGCCCGCAATCATGGCAATAATGGTCAGCGG -CTTCATCAGCACATACGGGAAATACAGTTCGTGGATCCCACCGAGGAAGTGAATAATCATCGCCCCGGGC -GCAGAACGTTTACTCATCCCTTTACCAAACAAGGTAAACGCCAGCAGCAGCCCCAGGCCCGGACCTGGGT -TAGAGGCCACCATAAAGAAGATGGATTTACCGTTAACCGAAGCCTGTTGCATTCCCAGCGGATAATAGAC -GCCCTGATCGATCGCATTATTGAGGAAAAGCACTTTCGCCGGTTCATTGATGACTGACAACAATGGCAGA -TAACCCGCATGTACCAGCGCCTCAATACACTCTTTGACGAAAGTATTGGCAATTAACACCGCCGGGCCGA -TAACTTCAAAACCCAGCAGACAAAGGAGCATCCCCGCGATACCTAATGAGAAGTTATTGATAACCATCTC -AAAACCGGCAGGTATGCGTTTTTCCAGTGCCTTATCGACATATTTTATGACCAACCCACCGAGCGGCCCC -ATGATCATTGAGCCAAGGAACATCGGGATCTCTGCGCCAACGATCACACCAATAGTACCTATTCCGCCCA -TGACCGCCCCGCGTTTACCGCCGACCAGATGACCACCTGTAGAACCAATCATCACGGGCAATAAATAGGT -AATCATCGGGCCGACAATTTTGGCGAAATGTTCGTTAGGGAAGGTGCGAACAAGTCCCTGATATGAGATC -ATGTTTGTCATCTGGAGCCATAGAACAGGGTTCATCATGAGTCATCAACTTACCTTCGCCGACAGTGAAT -TCAGCAGTAAGCGCCGTCAGACCAGAAAAGAGATTTTCTTGTCCCGCATGGAGCAGATTCTGCCATGGCA -AAACATGGTGGAAGTCATCGAGCCGTTTTACCCCAAGGCTGGTAATGGCCGGCGACCTTATCCGCTGGAA -ACCATGCTACGCATTCACTGCATGCAGCATTGGTACAACCTGAGCGATGGCGCGATGGAAGATGCTCTGT -ACGAAATCGCCTCCATGCGTCTGTTTGCCCGGTTATCCCTGGATAGCGCCTTGCCGGACCGCACCACCAT -CATGAATTTCCGCCACCTGCTGGAGCAGCATCAACTGGCCCGCCAATTGTTCAAGACCATCAATCGCTGG -CTGGCCGAAGCAGGCGTCATGATGACTCAAGGCACCTTGGTCGATGCCACCATCATTGAGGCACCCAGCT -CGACCAAGAACAAAGAGCAGCAACGCGATCCGGAGATGCATCAGACCAAGAAAGGCAATCAGTGGCACTT -TGGCATGAAGGCCCACATTGGTGTCGATGCCAAGAGTGGCCTGACCCACAGCCTGGTCACCACCGCGGCC -AACGAGCATGACCTCAATCAGCTGGGTAATCTGCTGCATGGAGAGGAGCAATTTGTCTCAGCCGATGCCG -GCTACCAAGGGGCGCCACAGCGCGAGGAGCTGGCCGAGGTGGATGTGGACTGGCTGATCGCCGAGCGCCC -CGGCAAGGTAAGAACCTTGAAACAGCATCCACGCAAGAACAAAACGGCCATCAACATCGAATACATGAAA -GCCAGCATCCGGGCCAGGGTGGAGCACCCATTTCGCATCATCAAGCGACAGTTCGGCTTCGTGAAAGCCA -GATACAAGGGGTTGCTGAAAAACGATAACCAACTGGCGATGTTATTCACGCTGGCCAACCTGTTTCGGGC -GGACCAAATGATACGTCAGTGGGAGAGATCTCACTAAAAACTGGGGATAACGCCTTAAATGGCGAAGAAA -CGGTCTAAATAGGCTGATTCAAGGCATTTACGGGAGAAAAAATCGGCTCAAACATGAAGAAATGAAATGA -CTGAGTCAGCCGAGAAGAATTTCCCCGCTTATTCGCACCTTCCTTAGGCAGCCAACCGGTGGGAATAAAT -AACGCAGTAATAAAACCCCAGGCAATAAAAGCACCAATATTGGGGATGACCATTGCAGTCAAAAAGCCCC -CAAAAGCCTGGACCTTTGCACGAGCAGACTTGTTTTCCATAATATTATCCTGTAGAGGAGAGAGTAATTA -TCCGCGGCTGATAATGTCCGCTAATTGTTTTTCTGATGATGCTGTTAAGAGTTGTTCGAGTATTTCTTCT -TCGCACAGTAATTCACTTAACGCCTGAATAGCGCCAATGTGCGAATCGGCATCGGCAGCAGAGAGTCCGA -TGAGTAATTTAATTGGTTCGTCATTCCCCGGAAAATAAACACCTTGTTCAAGTAATGTCAAAGACATCCC -GGTTTTAAGCGCCCCACATTCCGGTCGCGCATGAGGCATTGCCACGCCTGGTGCGAGAATATAATAAGGG -CCATTGTTAATGGTGGAATCTTTAATTGCCTGAATGTAATTCTCGCTGATATAGTTTTTATCCAGCAATG -ATACCATCGAGAAATCGATAGCTTCCTGCCAATCTTTTGCTGAATGTATAACTGAGATTGATGATTCTGG -AAAATAATCACTAAGCCGCATAAATTATCCTTATTTTATTTTTAGGGTACCGTCCGGCGGTAAAAATAAA -ATACTCGTGCGGTTTAATGAAAGCAATTGAGCAGGGAAACCGGTGTTTTGAAAACAGTGAATTATTAATT -TCTTATATAACATTGAGTTATAGATATAACAACAAATGTCAATACGCATATCGTGATGCATATTACATAA -TTGATATTTATTGCATATAAATATTTGTGATCTACAACACGCCTTATCTATTGCTTGTCCGCAAACGGAC -ATATCAAGGTAATAAAAAAGGTCGCCGAAGCGACCTTTTTACCCGAAATGCTAATTACAGCAGTTCTTTT -GCTTTCGCAACAACGTTATCAACAGTGAAGCCGAACTCTTCAAACAGCAGCTCTGCCGGAGCAGATTCAC -CGAAGGTGGTCATACCGACGATAGCACCGTTCAGGCCAACATACTTGTACCAGTAGTCAGCAATACCCGC -TTCTACAGCAACGCGTGCAGTAACCGCTTTCGGCAGTACGGATTCACGGTAAGCAGCATCCTGCTTGTCA -AATGCGTCGGTAGACGGCATGGACACCACGCGCGCTTTCACGCCTTCGGCAGTCAGTTTTTCGTAGGCAG -CAACAGCCAGTTCAACTTCTGAACCGGTAGCGATGAAAATCAGTTCCGGCTGACCGGCGCAGTCTTTCAG -CACATAACCACCGCGCGCGATGTTTGCCAGTTGCTCTTCAGTTCGTTCCTGCTGCGCCAGGTTCTGACGG -GAGAGGATCAGTGCGGTCGGGCCGTCCTGACGCTCAACACCGTATTTCCACGCGACCGCGGATTCAACCT -GGTCACACGGACGCCATGTAGACATGTTCGGGGTTACGCGCAGAGAAGCGACCTGCTCAACCGGCTGGTG -AGTCGGGCCGTCTTCGCCCAGACCGATGGAGTCGTGGGTGTAAACCATCACCTGACGCTGTTTCATCAGC -GCAGCCATACGTACGGCGTTACGTGCGTATTCCACGAACATCAGGAAGGTGGAGGTGTACGGCAGGAAGC -CACCGTGCAGGGAGATACCGTTAGCAATCGCGGTCATACCGAACTCGCGAACACCGTAGTGGATGTAGTT -ACCCGCAGCATCTTCGTTGATTGCTTTAGAACCAGACCACAGGGTCAGGTTAGACGGCGCCAGGTCAGCA -GAACCGCCGAGGAATTCCGGCAACAGCGGACCGAACGCTTCGATAGCATTCTGAGACGCTTTACGGCTGG -CGATTTTCGCCGGATTAGCCTGCAGTTTAGCGATGAACTCTTTCGCTTTAGCGTCGAAGTCAGACGGCAT -TTCGCCTTTCATACGGCGGGTAAATTCAGCGGCTTCCTGCGGATAAGCTTTCGCGTAAGCAGCGAATTTC -TCGTTCCATGCGGATTCTTTCGCCTGGCCTGCTTCTTTCGCATCCCACTGAGCATAGATTTCAGACGGGA -TTTCGAACGGCGCATATTTCCAGCCCAGTTGTTCGCGGGTCAGGGCAATTTCAGCGTCGCCCAGCGGCGC -ACCGTGGGAGTCGTGGGTACCGGCTTTGTTCGGGGAACCGAAACCGATGATGGTTTTGCACATCAGCAGG -GAAGGTTTGTCAGTCACTGCGCGCGCTTCTTCTACTGCGCGTTTGATAGATGCCGCGTCATGACCGTCGA -TGTCGCGAATAACGTGCCAGCCGTAAGCTTCGAAACGCATTGCGGTGTCGTCGGTGAACCAGCCTTCAAC -GTGACCATCGATAGAAATACCGTTGTCATCGTAGAATGCAATCAGTTTACCCAGCTTCAGCGTACCCGCC -AGAGAGCAAACTTCGTGGGAGATGCCTTCCATCATGCAGCCGTCGCCCATGAAGGCGTAGGTGTAGTGGT -CGACAATGTCGTGGCCCGGACGGTTAAACTGCGCCGCCAGCGTTTTTTCTGCAATCGCCATACCGACTGC -GTTGGCAATACCCTGACCCAGCGGACCGGTGGTGGTTTCCACACCAGCGGTGTAACCCACTTCCGGGTGA -CCCGGAGTTTTAGAGTGCAGCTGACGGAAGTTTTTCAGTTCTTCCATCGGCAGATCGTAACCGGTGAGGT -GCAGCAGGCTGTAGATCAGCATGGAGCCGTGGCCGTTGGACAGCACGAAGCGGTCACGGTCAGCCCAGGA -CGGATTCTGCGGGTTGTGTTTCAGGAAATCACGCCACAGGACTTCGGCAATGTCAGCCATACCCATAGGG -GCACCCGGGTGACCGGATTTGGCTTTCTGTACTGCGTCCATGCTCAGCGCACGAATAGCATTGGCAAGCT -CTTTACGTGAGGACATTTTGACTCCAGATCGGATGATGAAGGGCACGCCCTTAACGACTTGACGACAGCG -CGTTTTGGGCTACGCCGGAAAATTTGCCAACAATTTACCGCAAGCCGCGCGTCATGTACATGGAACATCC -TTTTGCCGCTTCAGAAATCTCTGGATCATGCTCGCATGTTGCGCAATCTACTCGCCCGTCCGCTGCGCTT -TTCCTTATACTGAGACTGAGCGTCGATTCACCTGCAAACGGCGCATTTTTAGAATAATCCTGACCTTGTG -CGGAAGAGAAAACATGAAAATTCGCGCCTTATTGGTAGCAATGAGCGTGGCAACGGTACTGACTGGTTGC -CAGAATATGGACTCCAACGGACTGCTCTCATCAGGAGCGGAAGCTTTTCAGGCTTACAGTTTGAGTGATG -CGCAGGTGAAAACCCTGAGCGATCAGGCATGTCAGGAGATGGACAGCAAGGCGACGATTGCGCCAGCCAA -TAGCGAATACGCTAAACGTCTGACAACTATTGCCAATGCGCTAGGCAACAATATCAACGGTCAGCCGGTA -AATTACAAAGTGTATATGGCGAAGGATGTGAACGCCTTTGCAATGGCTAACGGCTGTATCCGCGTCTATA -GCGGGCTGATGGATATGATGACGGATAACGAAGTCGAAGCGGTGATCGGTCACGAAATGGGGCACGTGGC -GTTAGGCCATGTGAAAAAAGGAATGCAGGTGGCACTTGGTACAAATGCCGTGCGAGTAGCTGCGGCCTCT -GCGGGCGGGATTGTCGGAAGTTTATCTCAATCACAACTTGGTAATCTGGGCGAGAAATTAGTCAATTCGC -AATTCTCCCAGCGCCAGGAAGCAGAAGCCGATGATTATTCTTACGATCTTCTGCGCCAACGCGGCATCAG -CCCGGCAGGTCTTGCCACCAGCTTTGAAAAACTGGCAAAACTGGAAGAAGGTCGCCAAAGCTCAATGTTT -GACGACCATCCTGCATCCGCCGAACGCGCCCAGCATATTCGCGATCGCATGAGCGCGGATGGGATTAAGT -AAAGCCTGGTGGTGTCGAACGTAGGTCAGATAAGGCGTTCACGCCGCATCTGACATGAATGGCACATTTG -TTACCTTGTGCGCATTGCCGGATGCGATGCTGGCGCATCTTATCCGGCCTACGGGTGCCGAACGTAGGTC -GGATAAGGCGTTCACGCCGCATCCGACATTAATGGCACGTTTTACCCGTGCGCATCGCATCTGGTGCTTA -CTCGCCCTTTTTCGCCGCCTGAATATACAGCATTTCCAGCGCCAGCGTTGCCGCTGCCAGAGCAGTGATT -TCCGACTGATCGTATGCCGGAGCCACTTCCACTACGTCCATCCCAACAATGTTGAGATCTTTCAGGCCGC -GTACCAGTTTAATAGCGCGATCGGAGGTCAGGCCGCCAATCACTGGCGTACCGGTGCCTGGTGCAAAAGC -AGGATCCAGGCAGTCGATATCAAAAGTCAGGTAAACCGGCATATCACCCACAATCTGTTTCACTTGGGCG -ATAACGTCATCCACGCTGCGATCGTTCACCTGGCAGGCGTCCAGCACGGTAAAGCCGTTGTCTTTATCAA -ACTCGGTACGAATACCAATCTGCACGGAATGATTCGGGTCGATCAGACCTTCTTTCGGCGCGGTATAGAA -CATAGTGCCGTGGTCAAATTCACAACCGTTCGCATAGGTATCGGTGTGGGCGTCAAAGTGTACCAGCGCC -ATTTTGCCGAAATGCTTCGCATGAGCACGCAGCAGCGGCAGCGTAACAAAGTGGTCACCACCGAAAGAGA -GCATACGCTTACCGGCAGCCAGCAGCTTCTCGGCGTGCGCCTGCAGCTTTTCGCTCATCTCACGGGCATC -GCCAAAGGCATATACCAGATCGCCGCAGTCCACGACGTTCAGACGCTCACGCATGTCGAAATTCCACGGG -AAGCGGTTGTGTTCCCAGGCCAGATTCGTCGAAACCTGACGGATCGCTGCCGGACCGTGGCGACCACCCG -CACGACCAGAAGTGGCCATATCGAACGGCACGCCAGTAATCACCCAGTCTGCATCGCTGTCATACGGCTG -GAAGTTCATCGGCAGGCGTAAAAAACCAAAGGCATTGGAAACCAGTGAGTTATCGTATTGATGACCTAAG -GTGCTCATGGATGGACTCCTATTACAAAGTCGATATAAAAAAACCCTTCCGCGTCGTTAGGCCCGACGAG -GAAGGGTTGGATTTGTCACAATAAATTGTGGCGGATTATCACCGCTAAATTAAGCGGATTCAAGTAACAC -AGGACTTACTCATCTTCAAGATAAGTATAACCGTACAAACCTGCCTCGAACTCTTCAAGGAACTGTTGTT -GCAGTTCAGCATCAAGATCGGTTTTCTTCACTTGATCGCGGAACTGGGTTAACAGCGTTTTCGGATCGAG -CTGTACATATTGCAGCATGTCCGCCACGGTATCGCCTTCGTCAGACAGTTCTACTTCTACGCTACCGTCA -GGGAAGACGAACACGTCAACCGCTTCGGTATCACCGAACAGGTTGTGCATGTTGCCGAGGATCTCCTGAT -ATGCGCCGACCATAAAGAAACCGAGCATCGGCGGATTCTCTGGATCGTACTCCGGCATTGGCATTGTCGT -GGCAATACCGTCACCATCAATATAGTGGTCGATAGCACCGTCAGAGTCACAGGTAATATCCAGCAGCACA -GCGCGACGTTCCGGCACTTGATCCAGCCCTTCCAGCGGCAGAACCGGGAACAACTGGTCGATCCCCCATG -CGTCCGGCATCGACTGGAACAGCGAGAAGTTGACGTACATTTTGTCCGCCATACGTTCCTGCAGCTCGTC -GATAATCGGACGATGAGCACGGTTTTGCGGATCCAGCTGCTTTTGCACTTCATGGCACATGCTCAAATAA -AGCTGCTCAGCCCATGCACGTTCTTGCAGGCTAAAGATGCCGGAAGAGTAGCCGATATGAATGTCGTGCA -GATCCATCTGACTGTCGTGTAACCATTCACGCAGAGAACGGCGAGTTCCCGGTTCGTGCATCTCCTGCCA -GGTTTCCCACATGCTTTGCAGCGCGCGCGGCGCATCTTCTGCAGGCGCGGTCGGCACCGTGTATTCGTTA -CGTTCCACGCCGATGATATTAGACACCAGCACGGTGTGATGCGCAGTCACCGCACGACCCGATTCGGTGA -TTACCGTCGGATGCGGCAGACCGTTTTCTTCACACGCATCGCCAATCGCCCAGATAATGTTGTTGGCGTA -TTCATTGAGGCCGTAGTTCACCGAACAGTCGGACTGCGAACGAGTACCTTCATAATCCACGCCCAGACCG -CCGCCGACGTCGAAGCACTGAATATTGACGCCCAGCTTGTGCAGTTCCACATAGAAACGCGCGGATTCAC -GAACGCCTGTCGCGATATCGCGAATATTCGCCATCTGCGAACCGAGGTGGAAGTGCAGTAGTTGCAGGCT -GTCGAGACGCCCGGCTTCACGCAGGGTTTCAACCAGTTGCAGTACCTGAGTCGCAGCCAGGCCGAACTTC -GATTTTTCCCCGCCGGAGGACTGCCATTTACCCGAACCCTGCGAAGCCAGACGTGCACGCACGCCCAGAC -GAGGAACGACATTCAGACGTTCTGCTTCATCCAGCACAATGGCGATTTCTGACATCTTCTCAATGACCAG -ATAGACCTTGTGCCCCATCTTCTCGCCAATTAATGCCAGGCGGATATATTCGCGGTCTTTATAACCGTTG -CAGACGATGACGCTACGGGTCATGCCAGCATGTGCCAGTACTGCCATCAACTCGGCTTTGGAACCGGCTT -CCAGACCCAGCGGTTCGCCCGAATGAATCAGGGACTCAATCACGCGGCGGTGCTGGTTAACTTTGATCGG -ATAAACAAGGAAGTAATCGCCGTTATAGCCGTAGGATTCCCTCGCACGTTTGAACGCGGCGTTAATGGAA -CGCAAACGGTGCTGCAGGATCTGTGGGAAACAGAACAGTGCAGGCAGACGCTGGCCCTGTGCTTCACGAG -TTTTCACTAACTGCGCGAGATCGACGCGAGCTTCCGGGACGTCCGGGTCCGGGCACACGCTAATGTGGCC -CAGCTCGTTAACGTCATAGTAGTTATTGCCCCACCAGGCAATATTGTAAGTACGCAGCATCTTGCTGGCT -TCCTGGGAGCTCATTGCAACCTCCTGCATGGAGCGTAGTACACCGTGTTCGCCCGCTGACGAAGGCAAAC -CCATAGACATGTCGTCAGACATAGCGAACCTCAAATTATTTTATTAAGTGTAAAACAGTTAACGACTATC -GCAGCCTGGAACTGCGATAACAACCCATAAGCACATGGATTTTCCAGCAGTGAATGCTGACGCTCCAACT -GCGCAACCGGTTTCTTTTTCATAACATTATTAAGCACATAACCGAACGTAAGTGTGAAAGTTCGGCGAAA -CCACGAGAAAACTCTTGTTTTTACAAGAGCGCCCTTGTTCAGTCCTCAGTAACTGTAACCAGCTCTTGAA -TCCTGAGAAGCGCCGAGATGGGTATAACATCGGCAGGTATGCAAAGCAGAGATGCAGAGTGCGGGGAACG -AATCTTCACCAGAACGGTGAGACAGGTTAAGCAGCAGACAACGGTTCATTATTTCGTATCACCTCCACGG -CCGCCTGTTAAGACGAACCCACAAGCCAAAACTCTGATTTCAACCCGGCTGGAAGTGGCAACACGAAAGA -AACGTCGTGTGCTTTTTATTTAAGCCGCGCGCCGCGTTTTATACCCCACAATGGCAGAAAATTGCAAAAG -ATAAATACGCAGAATGCCGGCATTGTCAGGAAAAATTTCCAGCCACGTTTTTAACAGAATGAGACACGAT -TCAAAAAAAAGTGGAAATAGGGTGAAGAATTGACCTAAAATAGCCATCCAGATGTTAATCCATCCATACC -GATTAACACTCAGACTGCCAGTGTTTTTAACCTGCAGAGTCGTGGTAGGATCCGCTACCACAGAAAATCC -ACACAACAGTTTGAGCTAACCAAATTCTCTTTAGGTGATATTAAATATGGCAAAACACCTTTTTACGTCC -GAGTCCGTCTCTGAAGGGCATCCTGACAAAATTGCTGACCAAATTTCTGATGCCGTTTTAGACGCGATCC -TCGAACAGGATCCGAAAGCACGCGTTGCTTGCGAAACCTACGTAAAAACCGGCATGGTTTTAGTTGGCGG -CGAAATCACCACCAGCGCCTGGGTAGACATCGAAGAGATCACCCGTAACACCGTTCGCGAAATTGGCTAT -GTGCATTCCGACATGGGCTTTGACGCTAACTCCTGTGCGGTTCTGAGCGCTATCGGCAAACAGTCTCCTG -ACATCAACCAGGGCGTTGACCGTGCCGATCCGCTGGAACAGGGCGCGGGTGACCAGGGTCTGATGTTTGG -CTACGCAACTAATGAAACCGACGTGCTGATGCCAGCACCTATCACCTATGCACACCGTCTGGTACAGCGT -CAGGCTGAAGTGCGTAAAAACGGCACTCTGCCGTGGCTGCGCCCGGACGCGAAAAGCCAGGTGACTTTTC -AGTATGACGACGGCAAAATCGTTGGTATCGATGCTGTCGTGCTTTCCACTCAGCACTCTGAAGAGATCGA -CCAGAAATCGCTGCAAGAAGCGGTAATGGAAGAGATCATCAAGCCAATTCTGCCCGCTGAATGGCTGACT -TCTGCCACCAAATTCTTCATCAACCCGACCGGTCGTTTCGTTATCGGTGGCCCAATGGGTGACTGCGGTC -TGACTGGTCGTAAAATTATCGTTGATACCTACGGCGGCATGGCGCGTCACGGTGGCGGTGCATTCTCTGG -TAAAGATCCATCAAAAGTGGACCGTTCCGCAGCCTACGCAGCACGTTATGTCGCGAAAAACATCGTTGCT -GCTGGCCTGGCCGATCGTTGTGAAATTCAGGTTTCCTACGCAATCGGCGTGGCTGAACCGACCTCCATCA -TGGTAGAAACTTTCGGTACTGAGAAAGTGCCTTCTGAACAACTGACCCTGCTGGTACGTGAGTTCTTCGA -CCTGCGCCCATACGGTCTGATTCAGATGCTGGATCTGCTGCACCCGATCTACAAAGAAACCGCAGCATAC -GGTCACTTTGGTCGTGAACATTTCCCGTGGGAAAAAACCGACAAAGCGCAGCTGCTGCGCGATGCTGCCG -GTCTGAAGTAATCTTTCTTCACCTGCGTTCAAAGGCCAGCCTCGCGCTGGCCTTTTTCTTTTGGATAGGC -GTTCACGCCGCATCCGGCAAAAAAACCGCCCGCACAATAACATCATTCTTCCTGATCACGTTTCACCGCA -GATTATCATCACAACTGAAACCGATTACACCAACCACAACAGACAAAGATTTGTAATATTTTCATATTAT -TATTCGGTTTTCACAGTTGTTACATTTCTTTTCAGTAAAGTCTTAATTGCAGATAACAGCGTTTAATCTA -TGATGATATAACTCAATTATTTTCATGCACTTAAATCATAACTAAGATAAATGTTAGTGTAAGCGATTAC -ACTGATGTGATTTGCTTCACATCTTTTTACGTCGTACTCACCTATCTTAATTCACAATAAAAAATAACCA -TATTGGAGGGCATCATGCCTGACGCTAAAAAACAGGGGCGGTCAAACAAGGCAATGACGTTTTTCGTCTG -CTTCCTTGCCGCTCTGGCGGGATTACTCTTTGGCCTGGATATCGGTGTAATTGCTGGCGCACTGCCGTTT -ATTGCAGATGAATTCCAGATTACTTCGCACACGCAAGAATGGGTCGTAAGCTCCATGATGTTCGGTGCGG -CAGTCGGTGCGGTGGGCAGCGGCTGGCTCTCCTTTAAACTCGGGCGCAAAAAGAGCCTGATGATCGGCGC -AATTTTGTTTGTTGCCGGTTCGCTGTTCTCTGCGGCTGCGCCAAACGTTGAAGTACTGATTCTTTCCCGC -GTTCTACTGGGGCTGGCGGTGGGTGTGGCCTCTTATACCGCACCGCTGTACCTCTCTGAAATTGCGCCGG -AAAAAATTCGTGGCAGTATGATCTCGATGTATCAGTTGATGATCACTATCGGGATCCTCGGTGCTTATCT -TTCTGATACCGCCTTCAGCTACACCGGTGCATGGCGCTGGATGCTGGGTGTGATTATCATCCCGGCAATT -TTGCTGCTGATTGGTGTCTTCTTCCTGCCAGACAGCCCACGTTGGTTTGCCGCCAAACGCCGTTTTGTTG -ATGCCGAACGCGTGCTGCTACGCCTGCGTGACACCAGCGCGGAAGCGAAACGCGAACTGGATGAAATCCG -TGAAAGTTTGCAGGTTAAACAGAGTGGCTGGGCGCTGTTTAAAGAGAACAGCAACTTCCGCCGCGCGGTG -TTCCTTGGCGTACTGTTGCAGGTAATGCAGCAATTCACCGGGATGAACGTCATCATGTATTACGCGCCGA -AAATCTTCGAACTGGCGGGTTATACCAACACTACCGAGCAAATGTGGGGGACCGTGATTGTCGGCCTGAC -CAACGTACTTGCCACCTTTATCGCAATCGGCCTTGTTGACCGCTGGGGACGTAAACCAACGCTAACGCTG -GGCTTCCTGGCGATGGCTGCTGGCATGGGCGTACTCGGTACAATGATGCATATCGGTATTCACTCTCCGT -CGGCGCAGTATTTCGCCATCGCCATGCTGCTGATGTTTATTGTCGGTTTTGCCATGAGTGCCGGTCCGCT -GATTTGGGTACTGTGCTCCGAAATTCAGCCGCTGAAAGGCCGCGATTTTGGCATCACCTGCTCCACTGCC -ACCAACTGGATTGCCAACATGATCGTTGGCGCAACGTTCCTGACCATGCTCAACACGCTGGGTAACGCCA -ACACCTTCTGGGTGTATGCGGCTCTGAACGTACTGTTTATCCTGCTGACATTGTGGCTGGTACCGGAAAC -CAAACACGTTTCGCTGGAACATATTGAACGTAATCTGATGAAAGGTCGTAAACTGCGCGAAATAGGCGCT -CACGATTAATCTCCCCAAGCTTCCTCCCATCGCGGAGGAAGCCACCTCTTGCAGTCATCTTTTCTTCGCT -CTATCCTCTGCCGCTATGAAAACATCCCGTCTCCCTATCGCCATCCAACAGGCCGTTATGCGTCGCCTGC -GGGAAAAACTCGCCCAGGCCAACCTGAAGCTAGGGCGTAACTACCCGGAGCCAAAACTCTCTTACACCCA -GCGCGGAACCTCCGCCGGAACGGCCTGGCTGGAAAGCTATGAAATTCGCCTCAATCCCGTTTTGCTGTTG -GAAAACAGTGAAGCTTTTATTGAAGAAGTGGTACCGCACGAACTGGCACATTTGCTGGTATGGAAACATT -TCGGCCGCGTAGCGCCACATGGCAAAGAGTGGAAGTGGATGATGGAAAACGTGCTGGGTGTTCCCGCCCG -TCGTACGCATCAGTTCGAACTGCAATCCGTGCGTCGCAACACCTTCCCCTACCGCTGCAAGTGCCAGGAG -CATCAGCTTACCGTACGCCGCCATAATCGCGTAGTTCGTGGCGAGGCCGTCTATCGCTGTGTTCACTGCG -GTGAACAGCTGGTTGCGAAATAACCATCTGAACTATCAGGAACTTTCCTGATCTGGCTGATTGCATACCA -AAACAGCTTTCGCTACGTTGCTGGCTCGTTTTAACACGGAGTAAGTGATGTACCGTTATTTGTCTATTGC -TGCGGTGGTACTGAGCGCAGCATTTTCCGGCCCGGCGTTGGCCGAAGGTATCAATAGTTTTTCTCAGGCG -AAAGCCGCGGCGGTAAAAGTCCACGCTGACGCGCCCGGTACGTTTTATTGCGGATGTAAAATTAACTGGC -AGGGCAAAAAAGGCGTTGTTGATCTGCAATCGTGCGGCTATCAGGTGCGCAAAAATGAAAACCGCGCCAG -CCGCGTAGAGTGGGAACATGTCGTTCCCGCCTGGCAGTTCGGTCACCAGCGCCAGTGCTGGCAGGACGGT -GGACGTAAAAACTGCGCTAAAGATCCGGTCTATCGCAAGATGGAAAGCGATATGCATAACCTGCAGCCGT -CAGTCGGTGAGGTGAATGGCGATCGCGGCAACTTTATGTACAGCCAGTGGAATGGCGGTGAAGGCCAGTA -CGGTCAATGCGCCATGAAGGTCGATTTCAAAGAAAAAGCTGCCGAACCACCAGCGCGTGCACGCGGTGCC -ATTGCGCGCACCTACTTCTATATGCGCGACCAATACAACCTGACACTCTCTCGCCAGCAAACGCAGCTGT -TCAACGCATGGAACAAGATGTATCCGGTTACCGACTGGAAGTGCGAGCGCGATGAACGCATCGCGAAGGT -GCAGGGCAATCATAACCCGTATGTGCAACGCGCTTGCCAGGCGCGAAAGAGCTAACCTACACTAGCGGGA -TTCTTTTTGTTAACCCCTACCCCACGCGTACAACCGCGTGGGGAGACGACGCGGATTTTTAACTATGCGT -ATCCCCCGCATTTATCATCCTGAACCACTGACCAGCCATTCTCACATCGCGCTTTGCGAAGATGCCGCCA -ACCATATCGGGCGCGTACTGCGCATGGGGCCGGGGCAGGCGTTGCAATTGTTTGACGGTAGCAACCAGGT -CTTTGACGCCGAAATTACCAGCGCCAGCAAAAAAAGCGTGGAAGTGAAGGTGCTGGAAGGCCAGATCGAC -GATCGCGAATCTCCGCTGCATATTCACCTCGGTCAGGTGATGTCGCGTGGTGAAAAAATGGAATTTACTA -TCCAGAAATCGATCGAACTCGGTGTAAGCCTCATTACGCCACTTTTTTCTGAGCGCTGCGGCGTTAAACT -GGATAGTGAACGTCTGAACAAGAAGCTTCAGCAGTGGCAGAAGATTGCAATTGCTGCCTGTGAGCAGTGT -GGTCGTAACCGGGTGCCGGAAATCCGTCCAGCGATGGATCTGGAAGCCTGGTGTGCAGAGCAGGATGAAG -GACTGAAACTGAATCTTCACCCGCGCGCCAGTAACAGCATCAATACGTTGCCGTTACCGGTTGAACGCGT -CCGCCTGCTGATTGGCCCGGAAGGCGGTTTATCGGCAGATGAAATTGCCATGACTGCCCGCTATCAATTT -ACTGATATCCTGTTGGGACCTCGCGTTTTGCGTACAGAGACAACTGCGCTCACCGCCATTACCGCGCTAC -AAGTACGATTTGGCGATTTGGGCTAACGGAGAAGAATAATGATCAAGCTCGGCATCGTGATGGACCCCAT -CGCAAACATCAACATCAAGAAAGATTCCAGTTTTGCTATGTTGCTGGAAGCACAGCGTCGTGGTTACGAA -CTTCACTATATGGAGATGGGCGATCTGTATCTGATCAATGGTGAAGCCCGCGCCCATACCCGCACGCTGA -ACGTGAAGCAGAACTACGAAGAGTGGTTTTCGTTCGTCGGTGAACAGGATCTGCCGCTGGCCGATCTCGA -TGTGATCCTGATGCGTAAAGACCCGCCGTTTGATACCGAGTTTATCTACGCGACCTATATTCTGGAACGT -GCCGAAGAGAAAGGGACGCTGATCGTTAACAAGCCGCAGAGCCTGCGCGACTGTAACGAGAAACTGTTTA -CCGCCTGGTTCTCTGACTTAACGCCAGAAACGCTGGTTACGCGCAATAAAGCGCAGCTAAAAGCGTTCTG -GGAGAAACACAGCGACATCATTCTTAAGCCGCTGGACGGTATGGGCGGCGCGTCGATTTTCCGCGTGAAA -GAAGGCGATCCAAACCTCGGCGTGATTGCCGAAACCCTGACTGAGCATGGCACTCGCTACTGCATGGCGC -AAAATTACCTGCCAGCCATTAAAGATGGCGACAAACGCGTGCTGGTGGTGGATGGCGAGCCGGTACCGTA -CTGCCTGGCGCGTATTCCGCAGGGGGGCGAAACCCGTGGCAATCTGGCTGCCGGTGGTCGCGGTGAACCT -CGTCCGCTGACGGAAAGTGACTGGAAAATCGCCCGTCAGATCGGGCCGACGCTGAAAGAAAAAGGGCTGA -TTTTTGTTGGTCTGGATATCATCGGCGACCGTCTGACTGAAATTAACGTCACCAGCCCAACCTGTATTCG -TGAGATTGAAGCAGAGTTTCCGGTGTCGATCACCGGAATGTTAATGGATGCCATCGAAGCACGTTTACAG -CAGCAGTAACCCACCTTAGCGAGAAGGATCTCGTTGAGACTCTGAGTGACAGCGCCCTTCTTTCCACGCA -TACTGGGCGCTGTTGCTTTTTTGAACCAGGAAACAGAACCTCTGACAATGAATTTACAGCATCACTTTCT -TATTGCCATGCCTGCTCTCCAGGATCCGATTTTCCGTCGTTCCGTGGTCTACATTTGCGAACATAATACC -AATGGTGCAATGGGGATCATCGTCAACAAGCCGCTGGAAAATCTCAAAATTGAAGGGATTCTGGAAAAGC -TGAAGATCACGCCGGAGCCGCGTGATGAATCAATCCGTCTGGATAAACCGGTTATGCTCGGCGGTCCGCT -GGCTGAAGATCGCGGGTTTATTTTGCATACTCCGCCCTCCAATTTTGCTTCCAGCATTCGCATTTCAGAC -AACACGGTAATGACCACTTCCCGCGATGTGCTGGAAACGCTCGGCACCGATAAACAACCGTCTGACGTAT -TGGTGGCTCTGGGTTATGCCTCCTGGGAGAAAGGTCAACTGGAACAAGAAATTCTCGATAACGCGTGGCT -AACGGCCCCGGCAGATCTGAATATTCTGTTCAAAACGCCGATTGCCGACCGCTGGCGCGAGGCGGCAAAA -CTGATTGGTGTGGATATTCTCACCATGCCTGGTGTGGCAGGACACGCCTGATGAGTGGAACCTTACTCGC -CTTCGACTTCGGCACCAAAAGCATTGGCGTAGCGGTCGGCCAACGCATTACCGGCACCGCTCGCCCTTTG -CCTGCAATTAAAGCACAGGACGGTACGCCGGACTGGAACATTATCGAGCGTTTACTGAAAGAGTGGCAGC -CGGACGAAATCATCGTCGGTTTGCCGCTGAATATGGACGGCACCGAGCAACCATTGACTGCCAGAGCGCG -TAAATTTGCCAACCGTATTCATGGCCGTTTCGGTGTTGAAGTAAAGCTCCATGACGAGCGTCTTAGCACT -GTGGAAGCCCGTTCCGGTCTGTTTGAACAGGGCGGCTATCGGGCGCTCAACAAAGGCAAAGTTGACTCTG -CCTCTGCGGTTATTATTCTCGAAAGCTATTTCGAGCAGGGATATTAAGGCGATTTAAACGCCTGGCGGAG -TGTAAATAATATCATCGCGTCTTATTGCCGGATGCGGCGTGAACACCTTATCCAGCACACATCTGGCAGC -GGCTATAGGTCTGATAAGACGCGTTAGCGTCGCATCAGACATTTATTGCCTTTGTAGGCCCGATAAGCTT -GCGCATCGGGCATGGCAACGTCACAAACGCCCTTCCCCCACCCGGTGCTGATAACTCTGCTGAAACGTTA -TCATCCCCACCTGCTGCCCGGTTTGAATAACATGCGGTAACTGGTGGGTTTTCCCTTCGCGAATCAAATT -CCCCACCGCGGGTGTGTTAATCAGCAATTCAAATAGCGCCACGCGTCCTTCCTGTTTATCCACTTCCAGC -TTTTGTGACAGCACTGCCCGTAAACTACCTGCCAGTTGATTACGCACGGGGTCTTTTTCCTGCGCCGGAA -ATGAATCCACCAGTCGCTCAACTGCCTGCGCGGCACCACGCGTATGTAATGTTGCCAGCACCAAATGCCC -GGTTTCTGCCGCCGTCAGTGCCAGACGGATTGTCTCGCTGTCACGCAGCTCTCCGAGCAAAATCACATCA -GGATCTTCCCGCAATGCGGCCCGCAATCCCGATGCGAACGTCATACAGTGCAAACCAATTTCCCGCTGCT -GGATCAAACATCGCTGGCTGGCATAGAGATATTCAACAGGATCTTCCAGCGTCAGAATATGCGCATCGGC -ATGTTGATTGAGATAGCCAACCATCGCCGCCAGCGTGGTAGATTTGCCACTCCCCGTCGCCCCCGTCACC -AGAATCAGGCCATTCTCGCTCTTGAGTAATTCCGGCAATACCGTTGGTGCGCCAAGCTGTTCGAGCTGCG -GGCAGTGCGAAGGTAACAGCCGTAACGCCAGCGAAATGCCATGCCGTTGCGCGAATGCGCTGCCACGCAA -TCGCTGGTTTTCCGCCAGCGACACGGCAAAATCCAGCTGACCATTCTCCAGCAATATTGCCCGCTGATCG -TCATCCAGCCACTCCCGCAGTAGCTCTTCGACGTCCGGCGTATCAAACGGCGCAGCTTCCATTCTGCCGC -GAATGCGCCATCGTGCGGGCCAGGCGCTGCACAGGTGTAGATCCGAGACGTTATGCTTTACACTAAGGGC -CACAATTTCTTCCATATTCATACTAAGATCCTCGGAAAATGAACGATATTGCGCATAACCTGGCACAGGT -CCGGGACAAAATCTCAGCGGCTGCAACGCGTTGCGGCCGTTCTCCAGAAGAAATTACGCTGCTTGCAGTC -AGTAAAACAAAACCTGCGAGCGCCATCGCAGAAGCCATTGATGCCGGGCAGCGTCAATTTGGTGAAAACT -ACGTTCAGGAAGGGGTAGATAAAATTCGCCACTTTCAGGAACTGGGCGTAACAGGATTAGAATGGCATTT -TATTGGCCCGTTGCAGTCTAATAAAAGCCGCCTGGTGGCAGAGCATTTCGACTGGTGTCATACCATCGAC -CGTTTGCGCATCGCTACCCGTCTCAACGACCAGCGCCCGGCAGAACTTCCCCCTCTTAACGTTCTGATTC -AAATTAACATTAGTGATGAAAACAGTAAGTCCGGGATTCAACTGGCTGAACTGGACGAGCTGGCAGCTGC -GGTCGCTGAACTACCGCGTTTACGTCTGCGCGGGTTGATGGCAATCCCTGCGCCTGAGTCAGAATATGTA -AGGCAGTTTGAAGTTGCACGCCAAATGGCTGTAGCATTTGCCGGACTGAAAACGCGCTACCCGCATATCG -ACACGCTCTCTCTGGGAATGTCGGACGATATGGAAGCCGCCATTGCGGCAGGTAGCACGATGGTTCGTAT -CGGCACTGCAATTTTTGGTGCGCGTGATTACTCTAAAAAATAAGGAATTAAAGGAACGCCATGAATACGT -TGACTTTCCTGCTTTCAACGGTCATTGAGCTGTATACCATGGTGCTGTTATTACGCATCTGGATGCAGTG -GGCTCATTGTGATTTTTACAACCCCTTCTCACAGTTTGTAGTGAAGGTAACGCAGCCAATTATCGGGCCA -CTGCGCCGCGTTATTCCGGCAATGGGGCCAATTGACAGCGCCTCGCTGCTGGTTGCCTATATTCTCAGTT -TTATCAAAGCCATCGTGCTGTTTAAAGTGGTGACCTTCCTGCCAATCATCTGGATTGCCGGTTTACTGAT -TCTGCTGAAAACCATCGGCCTGCTGATTTTCTGGGTCCTGCTGGTGATGGCGATTATGAGCTGGGTAAGC -CAGGGGCGTAGCCCGATTGAATACGTGCTGATTCAGCTGGCCGATCCGCTGCTGCGCCCGATTCGCCGCC -TGCTACCGGCAATGGGTGGGATTGATTTCTCGCCGATGATCCTCGTTCTGCTGCTGTATGTCATCAATAT -GGGTGTCGCAGAAGTATTACAGGCAACCGGAAATATGCTGCTGCCAGGGCTGTGGATGGCGTTATGAATG -CCGTAACAGTTAATGATGACGGTCTGGTTTTACGGCTCTATATTCAGCCGAAAGCCAGCCGTGATTCTAT -TGTCGGTTTACATGGCGACGAAGTTAAAGTCGCCATTACCGCGCCGCCGGTTGACGGCCAGGCCAACAGT -CATCTGGTGAAGTTTCTCGGTAAGCAATTCCGGGTTGCCAAAAGCCAGGTGGTGATTGAAAAAGGCGAAC -TTGGCCGCCACAAACAAATTAAAATCATTAATCCGCAACAAATCCCGCCAGAAATCGCGGCGTTAATTAA -TTAGGTATCCTATGCAAAAAGTTGTCCTCGCAACCGGCAATGTCGGTAAAGTGCGTGAGCTGGCGTCGCT -GCTTAGCGACTTCGGTCTTGATATCGTGGCCCAAACAGACCTCGGCGTTGATTCCGCTGAAGAAACCGGC -CTGACCTTTATCGAAAACGCGATTCTGAAAGCGCGCCATGCGGCAAAAGTGACCGCTTTACCGGCAATTG -CCGACGACTCTGGTCTGGCGGTAGATGTGCTTGGCGGCGCGCCGGGCATTTACTCCGCGCGTTATTCCGG -TGAAGACGCGACCGATCAAAAGAATCTGCAAAAACTGCTGGAAACAATGAAAGACGTACCGGACGACCAA -CGTCAGGCGCGTTTCCACTGCGTGCTGGTATATCTGCGTCACGCGGAAGATCCCACTCCGCTGGTATGCC -ACGGTAGCTGGCCGGGCGTGATTACTCGTGAACCAGCGGGCACTGGTGGCTTTGGTTATGATCCAATCTT -CTTCGTACCTTCCGAAGGGAAAACCGCCGCCGAACTGACCCGCGAAGAAAAGAGCGCCATTTCCCACCGT -GGTCAGGCGTTGAAACTGCTGCTGGACGCTTTACGTAATGGTTAAATTACCTCCGCTGAGTCTCTACATT -CACATCCCGTGGTGCGTGCAGAAATGCCCGTACTGCGATTTCAACTCTCACGCGTTGAAAGGAGAAGTGC -CGCACGACGATTATGTTCAGCATCTGCTTAACGATCTGGACAACGATGTGGCTTACGCTCAGGGCCGTGA -AGTAAAGACAATCTTTATTGGCGGTGGTACGCCGAGCCTGCTTTCCGGCCCGGCGATGCAAACGCTGCTG -GACGGCGTGCGTGCGCGTTTGCCGCTGGCAGCGGATGCAGAAATTACTATGGAAGCGAACCCTGGCACGG -TAGAAGCCGATCGCTTTGTCGATTATCAGCGTGCTGGTGTGAACCGCATCTCTATTGGTGTGCAGAGTTT -TAGCGAAGAAAAGCTGAAACGACTTGGGCGTATTCATGGCCCGCAAGAAGCGAAACGCGCGGCGAAGCTG -GCGAGCGGTTTAGGGTTACGTAGCTTTAACCTTGATTTGATGCATGGGCTGCCGGATCAATCACTGGAAG -AGGCGCTTGGCGATCTACGCCAGGCCATTGAACTGAATCCGCCGCATCTTTCCTGGTATCAACTGACCAT -CGAACCCAATACGCTGTTTGGTTCGCGACCACCGGTGCTGCCGGACGATGACGCGTTGTGGGATATATTC -GAACAGGGGCATCAGTTATTAACCGCAGCGGGTTATCAGCAATATGAAACTTCCGCTTACGCCAAACCCG -GTTATCAGTGCCAGCACAATCTCAACTACTGGCGCTTTGGTGACTACATCGGTATTGGCTGCGGCGCACA -CGGCAAAGTGACCTTCCCGGATGGGCGCATTCTGCGTACCACCAAAACGCGTCATCCGCGTGGTTTTATG -CAAGGAAGGTATCTGGAAAGCCAGCGTGATGTCGAAGCCACAGATAAGCCGTTTGAGTTCTTTATGAATC -GCTTCCGTCTGCTGGAGGCCGCGCCGCGCGTGGAGTTTATTGCGTATACCGGGCTTTGCGAAGATGTGAT -TCGCCCACAGTTAGACGAGGCGATTGCCCAGGGTTATCTCACCGAATGTGCGGATTACTGGCAGATAACG -GAACATGGGAAGCTGTTTTTAAATTCGCTGCTGGAGCTTTTTCTGGCTGAGTAAACTTGTATTGCCGGAT -GCGGCGTGAACGCCTTATCCAGCCGACATGTGGCAGCGGTTGTAGGTCTGATAAGACGCGCAAGCGTCGC -ATCAGACGTTGATTGCCGGATGCGGGGTCAACGCCGCATCCTGCTACAAATCGTGCACTATATCAAACTT -ACTTAATCACCCCATTGCGCCGCAGTTGTTCGGTATCTTTTTTCCAGCGTTCATTAGCTTGGTTGATATC -GTCAATTTTCATCAAAATCGCGACTTTTTTACTGTTTATTTCTGAAACTTTCATCGTTAACGGATATTGC -CCTTTTTCGAGCGTTACCCAGTCATCCTGCAATTTACGGCTAAGTTTTTGTGATTGCAGAAAAGTCTGTC -GCCGTTGTTCGTTGATATCGAAATCTCGTTTCTGCTGAATCGGCACTTCATAACACTCTTCACTCTGTTT -ATGACATGCCGCAATCGCCGGTTGATAAACCTCTTTGTCATATTTAACCGCGAACGCCTCGCTATCGTTC -TGTTTATTAAACTCATCACGCTGTTGGTGAATTTTTTTAAAGGCGTCTTCGCGGGTCATTTGCTTACCGT -TTGCATCTTTTCCCCAATATGCATCCGCTGCTTTCTGCGCCGCCACCATTTGCTTATCAAGCGCTTTCAC -TTCCTTTTCCAGCGCAGGAATCGAGTTCTTCTGGGTATTCAACGCAGATTCAAGCTGACTAAAGCGATAA -TTGAAATCTTCGCTATTCACGATCAGATATTTATTATTCGTTTTGATATCGTCGACCACCCGCCCACGAT -CGCTGGCTGCCGCCTGAAAAGAGTAAAAGTTCACCGACCAGCCAGACGCGGGCGTTCCTTTACTGGTTAA -CATCGCCGAGAATTTTACCGGTTTATCTTTCGTCCAGGTCTGTTCGAGCAGTTCGTAATCTGCCAACTGA -CCGACCCAGGTATAGAGATCGTCACTGGAAGAGACATCGCCTTCCGCTGACCAGGTGGCCTGATTACCCT -TAGCATCAAGATTTTTTAAGGTGATAGCATCAAGCTTGAGAATGCCGTGATACTGCTTTTTGAATTGATC -TTTTAAGATATTTTCAGTTGGCGGTTCGCCATCTGCCCAGGCATTACCAGTCATCAACATAAGCAGTGCC -GTGCCAACAATCCATTGCTTTTTCACCCGAAAAACCTCACGCGGAATAATTTATTCCGGTGATTATCATT -AGGGTAATTAAAATTGGCAATGGACGTGAGTCTGAAGTGAAAAAGCCCCGGCACGATACCGGGGCGAGGC -GATTAGTACTGATTGAAGATCTGCTGGATCTGCTGCGGATCTTTGGTTTGCGTCAGAGCCAGTTGCAGCA -GAACGCGCGCTTTTTGCGGGTTCAGCGTGCCAGAGGCGACGAAGCCGTATTTCGCATCATCCACTTCGGC -ATCCTGAGTGGTAGCGCCCGTCGGTACGCGGGAAGAACGCACGACTGCAGTACCGGTTTTCGCGGCGGTC -GCCAGCGTGTCGAACACAGATTTATACAGGTTGCCGTTACCCACACCAGCGCTAACGATGCCATCATAGC -CCGCATCTACCAGTGCTTTAGCCGGAAGATCGGATGCGTTAGCGTAGTTATAAACAATGCCGACTTTCGG -CAGTTCATTCAGCTTAGAGACATCGAATGGCGTGTCGCTGGTATGCTTACGTGCCGGGGTACGCTGGTAG -TCAATCTTACCGTTGTGAATGTAACCCAGAGGACCGTAGTTAACAGACTTGAAGGTCGCTACGTCGGTGG -TGTTGGTTTTGGTGACGTCACGGCCATCAAGCACGGTGTCATTCATCACTACCAGCACGCCACGGTTGGC -GGAGGCTTTATCAGCTGCGGTCACTACCGCGTTATACAGGTTGAATGGACCGTCTGCGCTCATAGACGTG -GACGGACGCATTGCGCCGACCATCACCACCGGTTTGTCGCATTTCACCGTCAGGTCGAGGAAGTAAGCAG -TTTCTTCCATCGTGTCGGTACCGTGGGTAATGACGAAGCCGTCGGTCTTATCGCAGTCGGTGTTAATTTT -TTTCGCCAGTGTCAGCCAGACATTATCGTTCATGTCCTGGGAGCCGATATTCACTACCTGCTCGCCTTTA -ACGTTCGCAATGTCTTTTAGTTGCGGCACCGCATTAACCAGATTTTCTACGCCAACTTTACCCACTGTGT -AGTTAGATTTGGTTGCGGAGTCACCACCACCGGCAATGGTCCCGCCGGTTGCTAAAATGGTGATATTGGG -TAATGCCAATGCTGCACCACTAAAACCCATAACCAGTGCGGCAAGTGCCGTCTTTTTGAAAAACTCCATT -TCATTCCTCCAGTTACGTGAACGCTACGCATTATCCCTTAGCTCTGTATGGGAAATTTGACGTTAAACAA -TTTACAACGTGAATATATTTTGGAGATCTACAAAGTTAGAGGCAGGTAACAAAACGAAGAATTAAACGGC -ATAAAAAAGTATTATGCCGTCTTAAAATAGAGGATTATTTTAAATTCCCGACCAGGGCTTTGCGGCTATC -TTCCAGAGTCACAACGCGGCTACAAACATCTTTGCCAAACTGCTGGAAATCTTTTTCCTGCTTTTTCCAC -TCGGTTTGGATTGAGGATTGCAGCCCCCCCAGGCTTCCCAGCACATTCTGTAATGGGTTACCGCCGCTTT -TCAGCACCGCTTTCGCGCCCATTTCATTAATGCTGTCCTGTAAAATTCCACCCATTGCCTGATTCACTAA -TTGCTGGCCTTCGGCGCGAACCTGATCAATGGCTTTATAGTGAAACGTCAGGCCATCGCTGCGCGTTTCA -ATAATGCGGTTCATCTGCTCTTTCAGCTGCGCATCAAGTTTGGTCAGACGGCTGCGCATTTTGCTGCTTT -CGCCCATCTCCTGAACGATAATTTTATCCAGAGCAATACGGGCTTTCTCGACGCGGCTTTTCGCGCCTTC -ATCAATCCACGGCAGCGTGCTGCGTAGTTCAGCCTGATAATCCTTCGCCTGCTCGCGCTGGGCGGCATTC -AGGGAATATTGCTTACCGTTATACATCACGTTGCCGTCTGGCGTGATCACCAGATTGCCGTTTTCGCCCT -TCACCTGCACGGTTTGCGGGCTGACAATCACATCGTCACGCGGCGTGACGCTGCACTGGTAGTCGGCGTG -AGCGGTCATTGCCGTCACTGAAAGTGCTGCCGCCAGCAGCATTTTGCGCATCATAGTCTTCCCTCAAGAA -AAAATCAGGCCAGCATTTGCTGGCCCCAGATTGATAACAAAGTACGCGTTTTCCATGCCGGATGCGGCGT -AAACACCTTATCCCGCCTACTCGATCGTGCATCTTTCCAGGCCTGATAAGCGTAGCGCATCAGGCAGTTT -TGCATTTGTCATCGCCCGTATGCTTTCTTAGTCCCACCAAACGTCGAAAAGTTCGCTGGTGCGTACCTCA -TCCAGTTTGCGCTCTTCCAGCCACTTACGCACAATCGCCTGATGTTCTTCGGTGCATTTGCCGATTTCCT -GCATGCAGATCAGACCTTCCCAGGCCAGATAACCGCTGCCGTCAAAGGCCAGTTTGTTCGGTTCGATAAC -CTCGTTAATAAAATCATCAACGGTTTTATCAATCTGTTCTTCCGATGTACCTTCCGGGAATCGCCATGCC -ACCGAAAATCCTAATTCCTGGAATTCGTCGATGTGCATTTTTTTACGCAGACGACGGCTACGGTTCTTTG -CCATTATTTCACCCTCTCGAACATTAAGTCCCATACTCCGTGACCAAGACGATGACCACGTTGTTCAAAT -TTCGTCACCGGACGTGATGCCGGACGCGGTACGTAATCATTGCTCTCTGACAGGTTTTTATAACCGTCAA -TAGAAGACATCACTTCAAGCATATGTTCCGCATAAGGTTCCCAGTCGGTCGCCATATGGAATACGCCCCC -CAGCTGCAGTTTGCTTTTTACCAGTTCGGCAAACGGCACCTGAACGATACGGCGTTTATTATGGCGCGCT -TTGTGCCACGGGTCAGGGAAAAAGAGCTGCACCATGCGCAATGAATTGTCAGGAATCATTTTATGCAGCA -CTTCAACCGCATCGTGACACATCACGCGCAGGTTGCTTAAACCTTCTTCATGCGCAGAAGCCAGGCACGC -ACCAACGCCCGGTGAATGCACTTCAATGCCGAGGAAGTCCTGCTCAGGGCGATCTTTAGCCATTGCCACC -AGCGACGCCCCCATGCCAAAACCAATCTCAAGCGTCACCGGCGCTTCACGGCCAAAAAGCGCGGGGAAAT -CCAGCATATCTTCGCTGAACTCAACGCCCATCACCGGCCAGTAGTTTTCCAGCGCATGTTCCTGGCCTTT -GGTCAGTCGCCCCTGGCGGCGCACAAAACTACGGATACGGCGCAGTGGGCGGCCGTTTTCATCAAATTCC -GGTGAAATGACGTCGTTTTTCATAAAGGTTTAGTCGCTTGTGAAAGTGTTCTGAAAACGGGCATTATCCA -AAGTTAGTTGCCGGATGCAAGCATGATAAGGCCGTGGCTGCGGAAAGTTCCGGTTTACACCCTGCCGTCG -CTGTGCTGCAATCTTGCCCCCAACAACAGTGAATTCGGTGACCATGCAAGCGTCGCAATTTTCAGCCCAG -GTTCTGGACTGGTACGATAAATACGGGCGAAAAACTCTGCCCTGGCAAATTGACAAGACGCCCTACAAAG -TATGGCTCTCAGAAGTGATGTTGCAACAAACTCAGGTTGCGACCGTTATCCCCTATTTTGAACGCTTTAT -GGCGCGCTTCCCGACGGTGACCGATCTCGCCAATGCGCCGCTCGACGAAGTTCTCCACTTGTGGACCGGG -CTTGGCTATTACGCCCGCGCGCGCAATCTGCATAAAGCGGCACAACAAGTGGCGACCTTACACGGCGGTA -AATTCCCGGAAACCTTTGAGGAAGTTGCAGCACTGCCGGGCGTCGGGCGTTCCACCGCAGGCGCGATTCT -CTCGCTTTCTCTGGGTAAGCACTTTCCGATTCTCGACGGTAACGTCAAACGCGTGCTGGCGCGCTGCTAT -GCTGTAAGCGGCTGGCCTGGGAAAAAAGAGGTCGAGAATAAATTATGGAGTTTGAGCGAGCAGGTGACGC -CCGCGGTTGGCGTGGAACGGTTTAATCAGGCGATGATGGATTTGGGTGCGATGATTTGTACGCGCTCGAA -ACCGAAATGTTCGCTCTGTCCGCTACAAAACGGATGTATTGCCGCCGCCAACAATAGCTGGGCGCTTTAT -CCGGGCAAAAAACCGAAACAGACGCTGCCGGAGCGCACCGGCTACTTTTTGCTATTACAGCACGAAGATG -AAGTATTGCTGGCGCAGCGTCCGCCGAGCGGATTGTGGGGCGGTTTATACTGTTTCCCGCAGTTTGCCGA -CGAAGAAAGTTTGCGGCAGTGGCTGGCGCAACGGCAGATTGCTGCCGATAACCTGACGCAACTGACCGCG -TTTCGGCATACCTTCAGCCATTTCCACTTAGATATTGTGCCTATGTGGCTTCCCGTGTCGTCATTCACCG -GCTGCATGGATGAAGGCAATGCGCTCTGGTATAACTTAGCGCAACCGCCGTCAGTTGGCCTAGCGGCTCC -CGTGGAGCGTTTGTTACAGCAGTTACGCACTGGCGCGCCGGTTTAGCGCGTGAGTCGATAAAGAGGATGA -TTTATGAGCAGAACGATTTTTTGTACTTTCCTGCAACGTGAAGCAGAAGGTCAGGATTTTCAGCTGTACC -CCGGCGAGCTGGGAAAACGCATCTATAACGAGATCTCCAAAGAAGCCTGGGCGCAGTGGCAGCACAAGCA -AACCATGCTGATTAATGAAAAGAAACTCAACATGATGAATGCCGAGCACCGCAAGCTGCTTGAGCAGGAG -ATGGTCAACTTCCTGTTCGAGGGTAAAGAGGTGCATATCGAGGGCTATACGCCGGAAGATAAAAAATAAA -AACAGTGCCGGAGCACGCCTCCGGCAACTTGCATAAAAACAAACACAACACGCACCCGGAATGATGAAAA -AATATCTCGCGCTGGCTTTGATTGCGCCGTTGCTCATCTCCTGTTCGACGACCAAAAAAGGCGATACCTA -TAACGAAGCCTGGGTCAAAGATACCAACGGTTTTGATATTCTGATGGGGCAATTTGCCCACAATATTGAG -AACATCTGGGGCTTCAAAGAGGTGGTGATCGCTGGTCCTAAGGACTACGTGAAATACACCGATCAATATC -AGACCCGCAGCCACATCAACTTCGATGACGGTACGATTACTATCGAAACCATCGCCGGGACAGAACCTGC -CGCGCATTTGCGCCGGGCAATTATCAAAACGTTATTGATGGGTGACGATCCGAGTTCGGTCGATCTCTAT -TCCGACGTTGATGATATTACGATTTCGAAAGAACCTTTCCTTTACGGTCAGGTGGTGGACAACACCGGGC -AGCCGATTCGCTGGGAAGGTCGCGCAAGCAACTTCGCGGATTATCTGCTGAAAAACCGTCTGAAGAGCCG -CAGCAACGGGCTGCGTATCATCTACAGCGTCACCATTAACATGGTGCCGAACCACCTTGATAAACGTGCG -CACAAATATCTCGGCATGGTCCGCCAGGCGTCACGGAAATATGGCGTTGATGAGTCGCTGATTCTGGCAA -TTATGCAGACCGAATCTTCCTTTAACCCGTATGCGGTCAGCCGTTCCGATGCGCTGGGATTAATGCAGGT -GGTACAACATACTGCCGGGAAAGATGTGTTCCGCTCGCAGGGGAAATCCGGCACGCCGAGCCGCAGTTTC -TTGTTTGATCCTGCCAGCAATATTGATACCGGCACCGCGTATCTGGCGATGCTGAACAATGTTTATCTCG -GCGGAATTGATAACCCAACATCGCGGCGTTATGCCGTCATCACCGCCTATAACGGCGGCGCAGGCAGCGT -GCTGCGAGTCTTTTCGAATGATAAGATTCAGGCTGCCAATATTATTAACACCATGACGCCGGGCGATGTT -TATCAGACGCTGACGACCCGCCATCCCTCTGCGGAATCTCGCCGTTATCTTTATAAAGTGAATACCGCGC -AAAAATCCTACCGCCGCCGATAATTCCATTAACCGCCCCTGACGATGCTCAGGGGCAAAAATGTTATCCA -CATCACAATTTCGTTTTGCAAATTGGGAATGTTTGCAATTATTTGCCACAGGTAACAAAAAACCAGTCCG -CGAAGTTGATAGAATCCCATCATCTCGCACGGTCAAATGTGCTTTTTCAAACACTCATCCGCATCACGAT -GTGAGGAAATTAACATGAATCTTAAGCTGCAGCTGAAAATCCTCTCTTTTCTGCAGTTCTGTCTGTGGGG -AAGTTGGCTGACGACCCTCGGCTCCTATATGTTTGTTACCCTGAAGTTTGACGGTGCTTCTATTGGCGCA -GTTTATAGCTCACTGGGTATCGCAGCGGTCTTTATGCCTGCGCTGCTGGGGATTGTGGCCGACAAATGGT -TAAGTGCGAAATGGGTATATGCCATTTGCCACACCATTGGCGCTATCACGCTGTTCATGGCGGCACAGGT -CACGACACCGGAAGCGATGTTCCTTGTGATATTGATTAACTCGTTTGCTTATATGCCAACGCTTGGGTTA -ATCAACACCATCTCTTACTATCGCCTGCAAAATGCCGGGATGGATATCGTTACTGACTTCCCGCCAATCC -GTATCTGGGGCACCATCGGCTTTATCATGGCAATGTGGGTGGTGAGCCTGTCTGGCTTCGAATTAAGCCA -CATGCAGCTGTATATTGGCGCAGCACTTTCCGCCATTCTGGTTCTGTTTACCCTGACTCTGCCGCATATT -CCGGTTGCTAAACAGCAAGCGAATCAGAGCTGGACAACCCTGCTGGGCCTCGATGCATTCGCGCTGTTTA -AAAACAAGCGTATGGCAATCTTCTTTATCTTCTCAATGCTGCTGGGCGCTGATGAATCCCCTAATGATTT -TGGTAAAAATCATTAAGTTAAGGTGGATACACATCTTGTCATATGATCAAATGGTTTCGCGAAAAATCAA -TAATCAGACAACAAGATGTGCGAACTCGATATTTTACACGACTCTCTTTACCAATTCTGCCCCGAATTAC -ACTTAAAACGACTCAACAGCTTAACGTTGGCTTGCCACGCATTACTTGACTGTAAAACTCTCACTCTTAC -CGAACTTGGCCGTAACCTGCCAACCAAAGCGAGAACAAAACATAACATCAAACGAATCGACCGATTGTTA -GGTAATCGTCACCTCCACAAAGAGCGACTCGCTGTATACCGTTGGCATGCTAGCTTTATCTGTTCGGGCA -ATACGATGCCCATTGTACTTGTTGACTGGTCTGATATTCGTGAGCAAAAACGACTTATGGTATTGCGAGC -TTCAGTCGCACTACACGGTCGTTCTGTTACTCTTTATGAGAAAGCGTTCCCGCTTTCAGAGCAATGTTCA -AAGAAAGCTCATGACCAATTTCTAGCCGACCTTGCGAGCATTCTACCGAGTAACACCACACCGCTCATTG -TCAGTGATGCTGGCTTTAAAGTGCCATGGTATAAATCCGTTGAGAAGCTGGGTTGGTACTGGTTAAGTCG -AGTAAGAGGAAAAGTACAATATGCAGACCTAGGAGCGGAAAACTGGAAACCTATCAGCAACTTACATGAT -ATGTCATCTAGTCACTCAAAGACTTTAGGCTATAAGAGGCTGACTAAAAGCAATCCAATCTCATGCCAAA -TTCTATTGTATAAATCTCGCTCTAAAGGCCGAAAAAATCAGCGCTCGACACGGACTCATTGTCACCACCC -GTCACCTAAAATCTACTCAGCGTCGGCAAAGGAGCCATGGGTTCTAGCAACTAACTTACCTGTTGAAATT -CGAACACCCAAACAACTTGTTAATATCTATTCGAAGCGAATGCAGATTGAAGAAACCTTCCGAGACTTGA -AAAGTCCTGCCTACGGACTAGGCCTACGCCATAGCCGAACGAGCAGCTCAGAGCGTTTTGATATCATGCT -GCTAATCGCCCTGATGCTTCAACTAACATGTTGGCTTGCGGGCGTTCATGCTCAGAAACAAGGTTGGGAC -AAGCACTTCCAGGCTAACACAGTCAGAAATCGAAACGTACTCTCAACAGTTCGCTTAGGCATGGAAGTTT -TGCGGCATTCTGGCTACACAATAACAAGGGAAGACTTACTCGTGGCTGCAACCCTACTAGCTCAAAATTT -ATTCACACATGGTTACGCTTTGGGGAAATTATGAGGGGATCTCTCAGCGTTACGCGCGATACCGCCACCT -TTAACCTGCCGTTTATTTCGCTGGGGCAAGTCGGTGAGGGCAAACTGATGGTTATCGGTAACCCACACTA -CAACAGCATTTTGCGTTGCCCGAACGGTTACAGCTGGAACGGGGGCGTTAATAAAGATGGGCAGTGTACG -CTCAACAGCGACCCGGATGACATGAAGAACTTCATGGAGAACGTGCTGCGCTATCTGTCCGACGATAAAT -GGAAGCCGGACGCGAAAGCCAGCATGACCGTAGGCACCAACCTGGATACTGTCTATTTTAAACGTCATGG -TCAGGTTACAGGAAACAGCGCTGCGTTCGACTTCCATCCGGATTTTGCGGGCATCTCTGTTGAGCATTTA -AGTAGCTATGGCGATCTCGATCCGCAGGAAATGCCGCTGCTGATCCTTAACGGCTTTGAATATGTGACTC -AGGTGGGTAACGATCCTTATGCAATCCCGCTGCGTGCAGATACCAGCAAACCGAAGCTGACTCAGCAGGA -TGTGACCGATCTGATCGCCTATCTGAACAAAGGTGGATCGGTGCTGATCATGGAAAACGTGATGAGCAAT -CTTAAGGAAGAGAGCGCGTCTGGTTTTGTGCGTCTGTTGGATGCCGCAGGTCTGTCGATGGCACTGAACA -AGTCGGTAGTAAATAACGATCCGCAAGGGTATCCGAACCGCGTTCGTCAGCAGCGCGCAACGGGCATTTG -GGTCTATGAACGTTATCCTGCCGTAGATGGTGCGCTGCCGTACACCATCGATAGTAAGACAGGGGAAGTT -AAGTGGAAATATCAGGTAGAAAACAAACCTGATGACAAACCGAAGCTGGAAGTTGCCAGCTGGCTGGAAG -ATGTAGATGGCAAACAGGAAACGCGTTATGCCTTTATTGATGAGGCCGATCATAAAACAGAGGATTCTCT -GAAGGCTGCGAAGGAGAAAATTTTCGCCGCGTTCCCGGGGCTGAAAGAGTGTACTAATCCGGCATATCAC -TATGAGGTCAACTGCCTGGAATATCGTCCTGGCACGGGGGTTCCGGTTACTGGTGGCATGTATGTTCCAC -AGTATACGCAACTAAGCCTTAACGCCGACACTGCAAAAGCGATGGTGCAGGCTGCGGATTTAGGCACCAA -CATTCAGCGTCTGTATCAGCATGAGCTCTACTTCCGGACCAATGGTCGCAAAGGTGAGCGTCTGAGCAGC -GTCGATCTGGAACGTCTGTACCAGAACATGTCGGTCTGGCTGTGGAACGATACGAGCTATCGTTATGAAG -AAGGCAAAAATGACGAGCTGGGCTTTAAAACGTTCACCGAGTTCCTGAACTGCTACGCCAATGATGCCTA -TGCAGGCGGCACCAAGTGTTCTGCAGATCTGAAAAAATCGCTGGTCGATAACAACATGATCTACGGTGAC -GGTAGCAGCAAAGCGGGCATGATGAACCCGAGCTACCCGCTCAACTATATGGAAAAACCGCTGACACGCC -TGATGCTGGGCCGTTCCTGGTGGGATCTGAACATCAAAGTTGATGTCGAGAAGTATCCGGGAGCAGTATC -GGAAGAGGGACAGAACGTTACTGAAACCATCAGCCTGTACTCGAATCCGACCAAATGGTTTGCAGGTAAC -ATGCAGTCAACTGGCCTGTGGGCACCGGCTCAGAAAGAGGTCACCATTAAGTCCAATGCGAACGTTCCTG -TGACCGTCACCGTGGCGCTGGCTGACGACCTGACCGGACGTGAGAAGCATGAAGTTGCGCTGAACCGTCC -GCCAAGAGTGACTAAAACGTACTCTCTGGACGCTAGCGGTACGGTGAAGTTCAAGGTGCCTTACGGTGGC -CTGATTTATATCAAGGGCAATAGCTCTACCAATGAATCTGCCAGCTTCACCTTTACTGGCGTGGTAAAAG -CACCGTTCTATAAAGACGGCGCATGGAAAAACGATCTGAACTCACCGGCTCCGCTGGGTGAGCTGGAATC -AGACGCTTTCGTCTATACCACACCGAAGAAGAACCTGAATGCCAGCAATTACACTGGCGGACTGGAGCAA -TTCGCTAACGATCTGGATACCTTTGCCAGCTCGATGAATGACTTCTACGGCCGTGATAGCGAAGACGGTA -AGCACCGGATGTTTACCTATAAAAACTTGCCGGGCCACAAACATCGTTTCACCAACGATGTGCAGATCTC -CATCGGTGATGCGCATTCGGGTTATCCGGTAATGAACAGCAGCTTCTCGCCGAACAGCACCACGCTGCCG -ACGACGCCGCTGAACGACTGGCTGATCTGGCATGAAGTCGGTCATAACGCCGCAGAAACGCCGTTGACTG -TACCGGGTGCAACTGAAGTCGCTAACAACGTGCTGGCGCTGTACATGCAGGATCGTTATCTCGGCAAGAT -GAACCGTGTCGCTGACGATATTACCGTCGCACCGGAATATCTGGAGGAGAGCAACAACCAGGCATGGGCA -CGCGGCGGTGCGGGTGACCGTCTGCTGATGTACGCACAGCTGAAGGAATGGGCAGAGAAAAACTTTGATA -TCAAGAAATGGTATCCAGATGGCACTCCTCTGCCAGAGTTTTACAGCGAGCGTGAAGGGATGAAAGGCTG -GAACCTGTTCCAGTTGATGCATCGTAAAGCACGCGGCGATGAGGTCAGCAATGACAAGTTTGGCGGCAAG -AATTACTGTGCTGAATCCAACGGTAACGCAGCGGACACGCTGATGCTGTGTGCCTCCTGGGTCGCCCAGA -CGGATCTTTCGGAGTTCTTTAAGAAATGGAATCCGGGCGCGAATGCTTACCAGCTGCCGGGGGCGAGCGA -GATGAGCTTCGAGGGCGGTGTGAGCCAGTCGGCTTACAACACGCTCGCGTCACTCGATCTGCCGAAACCG -GAACAGGGACCGGAAACCATTAATCAGGTTACCGAGCATAAGATGTCTGCCGAGTAAGCCCGTAGGCCGG -ATAAGGCGCTCGCGCCGCATCCGGCATGAAATAAGGCGCACCGGGTTAACACATTTGCCCGATGCGCCTG -CTTATCGGGCCTACAGACGGGGAAAGCCGCGATTATTTGCGCTGGCAGACACCCGTAGGACGGATAAGGC -GTTTTACGCCGCATCCAGCAAGTTACAACAAACAACCTTTAACCATGCTTTTTGATGTTTTTCAGCAATA -CCCCACGGCGATGCCCGTCCTGGCAACCGTCGGAGGATTGATCATCGGCAGTTTTTTGAATGTGGTGATT -TGGCGTTACCCAATCATGCTGCGCCAACAAATGGCGGAGTTTCACGGTGAAATGTCGAGTGCGCAGTCAA -AAATAAGCCTTGCGCTACCGCGTTCGCACTGCCCACATTGTCAGCAGACCATCCGGATACGTGACAATAT -TCCGCTGTTCTCCTGGCTGATGCTCAAAGGGCGCTGCCGCGACTGTCAGGCGAAAATCAGCAAGCGTTAT -CCGCTGGTGGAGTTATTGACAGCACTTGCTTTTTTGCTGGCGAGTCTGGTCTGGCCAGAAAGTGGATGGG -GGCTGGCGGTGATGATATTATCCGCCTGGCTGATTGCCGCGAGTGTCATCGACCTCGATCACCAATGGCT -GCCCGATGTTTTTACTCAGGGCGTATTGTGGACAGGACTGATTGCGGCATGGGCGCAGCAGAGTCCGCTC -ACGCTACAAGATGCAGTCACCGGCGTCCTGGTGGGATTTATCACTTTTTACTCTCTGCGTTGGATAGCCG -GAATAGTTCTGCGTAAAGAAGCATTAGGCATGGGCGATGTATTACTTTTCGCCGCGTTAGGTGGCTGGGT -GGGGGCATTGTCGCTGCCCAATGTTGCTTTAATCGCCTCATGCTGCGGCCTGATATATGCCGTTATTACA -AAAAGAGGATCAACCACACTGCCTTTTGGACCGTGTTTAAGTCTGGGCGGTATAGCAACACTTTATCTAC -AGGCATTGTTTTAATGATAACCACGTCATTATCAAAGTGACATTTTAACTCTTATTAATAACCTTAGAGA -TTATTTACCATGTCGATAAAACAAATGCCAGGGAGGGTATTAATATCGCTATTGTTGAGCGTTACAGGAT -TATTAAGTGGCTGTGCCAGCCATAATGAAAATGCCAGTTTACTGGCGAAAAAACAGGCGCAAAATATCAG -CCAAAACCTGCCGATTAAATCTGCGGGATATACCTTAGTGCTGGCGCAAAGTAGCGGCACAACGGTAAAA -ATGACCATTATCAGCGAAGCGGGTACACAAACCACGCAGACGCCTGACGCCTTTTTAACCAGCTATCAAC -GACAAATGTGCGCTGACCCGACGGTGAAATTAATGATCACTGAGGGAATTAATTACAGCATAACGATTAA -TGATACACGTACAGGTAACCAGTATCAGCGGAAACTGGATCGTACCACCTGTGGAATAGTCAAAGCATAA -CGTCGGGTAGATATAAATTGGCGCGGGTTGTTTTTCGTGACGCACGAATTTATCTCATTCAATGGCTGAC -AAAAATTCGTCACACTCTTAACCAGAGACAATCTCTTAATACAGACAAAGAGCATCTGCGAAAAATTGCA -CGCGGGATGTTCTGGCTGATGCTGCTTATTATTTCTGCAAAAATGGCGCATTCACTCTGGCGCTATATCT -CCTTTTCTGCGGAATATACGGCGGTTTCTCAACCGGTGAATAAACCGAGCCGTGTGGATGCAAAAACGTT -CGATAAAAATGACGTGCAATTAATCAGCCAGCAAAACTGGTTTGGCAAATATCAGCCTGTCGCCGCGCAG -GTAAAACAACCCGAACCTGTGCCTGTGGCAGAAACGCGTCTTAATGTGGTGCTGCGTGGGATCGCCTTTG -GTGCCAGACCCGGCGCGGTTATTGAAGAAGGCGGTAAACAGCAGGTCTATTTGCAGGGTGAAACGCTTGG -CTCTCACAACGCGGTGATTGAGGAAATCAACCGCGACCATGTGATGCTGCGTTATCAGGGAAAAATAGAG -CGTCTGAGTCTGGCAGAAGAGGAACGTTCCACTGTTGCTGTGACCAACAAAAAAGCCGTCAGTGACGAAG -CAAAGCAAGCTGTTGCTGAGCCTGCTGTCAGTGTGCCAGTTGAGATCCCGGCTGCCGTGCGTCAGGCACT -GGCGAAAGATCCGCAGAAAATTTTTAACTATATCCAGCTTACGCCTGTGCGTAAGGAGGGGATTGTCGGT -TATGCAGCGAAGCCGGGGGCAGATCGTTCTCTGTTCGATGCCAGCGGTTTCAAGGAAGGCGATATCGCCA -TTGCGCTAAATCAGCAGGATTTCACTGATCCACGAGCAATGATTGCTCTGATGCGGCAGTTACCTTCAAT -GGATTCCATTCAACTTACGGTTTTACGCAAGGGTGCGCGCCACGACATTTCCATCGCGCTGCGCTACCGA -CTATTCTGCCCGCCTTACTGGAAGAAGAGCTGAACCAGGATATCGATGAACTGCATTTCGCCCCGTTGAA -TATCGACCAGCAACTGGCAACCGTAGCAGTGATTCACCAACAGCATATGCGCAACATTGCGCAGTGGTTG -CAGGAAAACGGCATCACCCGCGCTACCGTCGCGCCGGACTGGATGTCCATTCCTTGTGGGTTTATGGCTT -GCGATGCGCAACGGGTTATCTGCCGCATCGATGAATGCCGGGGATGGAGCGCCGGGCTGGCGCTGGCTCC -GGTCATGTTCCGCGCCCAGCTCAATGAGCAGGATTTACCGCTTTCGCTAACCGTAGTCGGCATTGCACCG -GAAAAGCTATCAGCATGGGCTGGCGCAGACGCTGAACGCCTGACCGTTACAGCTCTGCCCGCCATTACCA -CTTATGGCGAACCGGAAGGGAACCTGCTGACAGGGCCGTGGCAGCCTCGCGTCAGCTACCGAAAACAGTG -GGCGCGCTGGCGGGTGATGATTCTGCCGATATTGCTGATTCTGGTTGCGCTGGCAGTGGAGCGGGGCGTG -ACGTTATGGAGCGTCAGCGAACAGGTGGCGCAAAGCCGCACCCAGGCGGAGGAACAGTTCTTAACGTTGT -TCCCGGAGCAGAAGCGGATTGTGAATTTACGCTCTCAGGTGACGATGGCGCTGAAAAAATATCGCCCACA -GGCCGACGATACCCGGCTGCTCGCCGAGTTGTCAGCGATAGCCAGCACCCTGAAATCAGCGTCACTTTCC -GACATCGAAATGCGTGGTTTTACCTTTGATCAAAAACGCCAGATACTTCACCTCCAGCTACGGGCCGCGA -ACTTTGCCAGTTTCGACAAACTGCGTAGTGTACTGGCAACCGATTATGTTGTGCAACAGGACGCGTTACA -GAAAGAGGGTGATGCGGTTTCCGGCGGCGTAACGTTGCGGAGGAAATAACATGTTACGCGATAAATTTAT -TCACTATTTTCAGCAATGGCGTGAACGCCAGTTAAGCCGTGGCGAACACTGGCTGGCACAACACCTGGCG -GGGCGTTCTCCGCGTGAAAAGGGCATGTTACTGGCAGCGGTGGTGTTCCTGTTTAGCGTCGGATATTACG -TCCTCATCTGGCAGCCGTTGAGCGAACGGATTGAGCAACAGGAGACAATATTGCAGCAGCTGGTGGCGAT -GAACACCCGACTGAAGAACGCCGCGCCGGATATTATTGCAGCGCGAAAATCTGCCACAACAACGCCTGCG -CAGGTATCGCGGGTCATCAGTGACAGTGCTTCCGCGCACTCGGTGGTCATCAGGCGGATAGCCGATCGTG -GGGAGAATATTCAGGTCTGGATAGAACCTGTGGTGTTTAATGACCTGCTGAAATGGTTAAACGCACTGGA -TGAAAAATATGCGCTGCGGGTGACACAAATTGATGTCAGTGCTGCTGAGAAGCCTGGGATGGTGAATGTG -CAGCGGCTGGAGTTTGGACGGGGGTAAAGTATCAGGAGATTAATATCAATAAAATTACTCTCGTTAACGT -GGCGAGAGTAATTCCCCCAGACTTTATAAGCTAATTTTTTTCGTGAAGGTTATTGTCAGATCCAAAAGCA -AAAACCCGCCTTGTGGGCGGGTTCTTAAGAATTAGTGGTGCCCGGACTCGGAATCGAACCAAGGACACGG -GGATTTTCAATCCCCTGCTCTACCGACTGAGCTATCCGGGCAACGGGGCGCATTAAACCTGATTCGCCTC -GTCTCGTCAATCAAATTTCTTCAATTTACTGCAGACTGCACAATCTATCATCACTTTGCCGATATTGCAC -GCATTGTCAGGCAAACCAGGCGGTCCAGGCGGCGGAAAGCGGCATTGCCAGAAGGAGTGCTGGAAGCATG -TTGACCACCGGGAACATTTTAATGCCACAGATGCGTAATCCGGTTGCCAGCAGCAATAAACCGCCTACGG -CGCTGAAGTCTGCCATCATCGACGGTGTGGTCAGCGGTAAAATCAGCGCGGCAGCCCACGCCAGCGTTAA -CTGGATGATCAGTAATGGGATACTAATCACCGATACCGCAATACCCAGCGAGCAGGCGAAGATCATCGCC -GTAAAGAAATCAAGAAATGACTTGGCGATTAAAATACTCGGATCGCCGGTCATCCCTTCGTTCATCGCCC -CGAAGATCCCGGTGCCGCTGGCGCAAAACAGGACAATAATCGCGACATAATTCTGAATAAAAGATTCATG -CGCTGGCTTCTTACGTGAGTGACGAAACAGATTTTGTGCTTTGGCGACTGCTGTATTGACACCTTTCTCC -AGCAAACAAATTTCGCCAATTAGAGCGCCAAGTAGCGTAGCTAAAACCATCGCTGGAAGGTTGGCACATT -TCACCACCAGTAAAATACCAATCCCCAGCGATGCCAGACCAAAAATTGATGTCATGGAGACGCGGATACG -TTCCGGTAAGCGTTGGCTGAGCAGTGCGCCGAGAACGCCACCCAGTAAGACTGCACTAGCGTTGATAAAA -GGGCCGATGACCACAAGAGTTCCTGTTAGCTGTATTGTTTGATTTTCTTATTATGACCGTTTGGTGCCGT -CGATGGCTTGTTTGTTCGCAAAGTCCTGGCTTGCACGCTTTAGCGAAAGGTGCCATGATTGCGCGAATTT -TCTCCTCTCTGTACGGAGTTTGCCCGATGCACGCCATCTCCTTACATTCTCTCGCTTATCGCCGTTTCGC -GCGAAACGTTTCCCTTTCTATGTTACTGCTCATGCGGTGAAGTTAACGCACGCTCACTGCAGGACAACAG -TAAAATCAGAGCGTTTCTGCTTTTACTGATGTCTGGCGGTCGGAGCTGGTGACCAGTTTGACCCATATCT -CATGGGGCAGGGTTTTCCACCTTGTCCGGTATTCTTACTTCCCCGAAACGGGTTTGCGCTTATGAAATCA -ATGAATATTGCCGCCAGTAGTGAACTGGTATCCCGACTTTCTTCTCATCGTCGCGTGGTGGCGTTGGGAG -ATACTGATTTTACGGACGTCGCGGCAGTCGTCATTACCGCTGCGGATAGTCGCAGTGGCATTCTTGCGTT -GCTTAAGCGCACCGGTTTTCATCTACCGGTGTTTTTGTATTCCGAACATGCTGTTGAATTACCTGCGGGC -GTTACGGCGGTAATCAACGGCAACGAGCAGCAGTGGCTGGAGCTGGAATCCGCAGCCTGTCAGTATGAAG -AGAATTTGCTGCCACCGTTTTATGACACGCTGACGCAGTACGTTGAGATGGGCAACAGCACCTTTGCTTG -CCCTGGACATCAACATGGTGCGTTTTTTAAAAAGCATCCTGCCGGACGCCATTTTTACGATTTCTTTGGT -GAGAACGTCTTTCGCGCCGATATGTGTAACGCTGACGTAAAATTGGGCGATCTGCTTATTCATGAAGGAT -CGGCGAAAGATGCGCAGAAATTCGCAGCCAAAGTCTTTCATGCCGATAAAACCTATTTTGTGCTGAACGG -CACATCGGCAGCGAATAAAGTGGTGACGAATGCGCTGTTAACGCGTGGCGATCTGGTGCTCTTCGACCGT -AACAACCATAAGTCGAATCATCACGGCGCGCTGATTCAGGCGGGGGCGACGCCGGTCTATCTGGAAGCTT -CACGCAACCCGTTTGGTTTCATTGGCGGTATTGATGCGCACTGTTTTAATGAAGAGTATCTGCGCCAGCA -AATTCGCGACGTTGCGCCAGAAAAAGCCGACCTGCCGCGCCCGTATCGCCTGGCGATTATTCAGCTGGGA -ACCTATGACGGCACTGTCTATAACGCCCGTCAGGTGATCGATACCGTTGGGCATCTGTGTGATTACATTC -TGTTTGATTCCGCGTGGGTCGGTTATGAACAATTTATCCCGATGATGGCGGATAGCTCGCCGCTGCTGTT -AGAACTTAACGAAAACGATCCGGGGATCTTTGTGACTCAGTCGGTGCACAAACAGCAGGCGGGATTCTCA -CAGACGTCGCAGATCCATAAAAAAGATAACCATATCCGCGGACAGGCGCGTTTTTGCCCGCATAAGCGGT -TGAATAACGCCTTTATGCTCCATGCTTCTACCAGCCCTTTCTATCCGCTGTTTGCTGCACTGGATGTTAA -CGCCAAAATTCATGAAGGGGAGAGTGGGCGTCGGCTGTGGGCTGAGTGTGTTGAGATAGGGATTGAAGCG -CGCAAGGCTATTCTTGCGCGCTGTAAGCTGTTCCGCCCGTTTATCCCGCCCGTTGTTGATGGCAAATTGT -GGCAGGATTATCCGACATCAGTGTTAGCCAGCGACCGCCGTTTTTTCAGTTTTGAGCCGGGGGCGAAGTG -GCACGGCTTTGAAGGATATGCCGCGGATCAGTATTTTGTTGATCCGTGCAAGCTGTTACTCACTACACCA -GGTATCGATGCCGAAACCGGCGAATATAGCGACTTTGGCGTTCCGGCGACGATTCTGGCGCACTATCTGC -GTGAGAACGGCATTGTGCCGGAGAAGTGCGATCTCAACTCCATTCTGTTTTTATTAACTCCGGCGGAAAG -CCACGAGAAGCTGGCACAACTGGTGGCGATGCTGGCGCAATTTGAACAGCATATTGAGGATGACTCGCCG -CTGGTTGAGGTGTTGCCGAGCGTTTATAACAAGTATCCGGTGCGCTATCGCGACTACACCCTGCGCCAGT -TGTGTCAGGAGATGCACGATCTGTATGTCAGTTTCGACGTCAAAGACCTACAAAAAGCGATGTTCCGCCA -GCAGAGTTTCCCGTCAGTGGTGATGAACCCCCAGGATGCGCATAGCGCTTATATTCGCGGTGACGTGGAG -TTGGTGCGGATTCGTGATGCCGAAGGGCGAATTGCGGCAGAAGGGGCGTTGCCTTATCCACCTGGCGTGC -TTTGCGTGGTACCCGGGGAAGTCTGGGGTGGGGCGGTTCAACGTTATTTCCTTGCACTGGAAGAAGGGGT -GAATTTGTTGCCGGGATTTTCGCCGGAGCTGCAAGGTGTTTATAGCGAAACCGATGCGGATGGCGTGAAA -CGGTTGTACGGTTATGTGTTGAAGTAAGAATAAAAAAAACGGGTCACCTTCTGGCGACCCGTTTTTCTTT -GCGTAATTAGTGGCTAACCGTCTGTGTGCCTGTCGGGACACGAACGTGTTTATATTTGAACATCGCCATG -AACGCGAAGGCCAGAACCACGGAGTAACCAGCGAAAATCAACCATACGGTCTGCCAGTCGGTAATGCCGT -TTTGGGTGTACATCTCAACAACTTTACCGCTCACGATGCCGCCGAGGATACAGCCGAAGCCGTTAGTCAT -CATCAGGAACATCCCTTGTGCACTGGCGCGAATTGCCGGGCTAACTTCTTTTTCGACAAACACCGAACCA -GAGATGTTGAAGAAGTCGAATGCGCAACCGTAAACGATCATCGACAGTACCAGCAGTACAGTACCGAACG -GAGTCGGGTCGCCGTAAGCAAACAGCGCAAAACGCAGGATCCACGCCACAATACTGATCATCATTACGTT -CTTAATACCGTAGCGGCTTAAGAAGAACGGGATGGTCAGAATGAACAGGGTTTCAGAGATCTGCGAAATC -GACATGATGATTGACGCATGCTGCACAATAAAGCTGCTGGCAAACATCGGATCTTTGTCGAAGCTGTGCA -GGAAGGTATTACCGAACATGTTGGTAATCTGCAGTTCCGCGCCCAGCACTGATGAATCCCCTAATGATTT -TTATCAAAATCATTAAGTTAAGGTAGATACACATCTTGTCATATGATCAAATGGTTTCGCCAAAAATCAA -TAATCAGACAACAAAATGTGCGAACTCGATATTTTACACGACTCTCTTTACCAATTCTGCCCCGAATTAC -ACTTAAAACGACTCAACAGCTTAACGTTGGCTTGCCACGCCTTACTTGACTGTAAAACTCTCACTCTTAC -CGAACTTGGCCGTAACCTGCCAACCAAAGCGAGAACAAAACATAACATCAAACGAATCGACCGATTGTTA -GGTAATCGTCACCTCCACAAAGAGCGACTCGCTGTATACCGTTGGCATGCTAGCTTTATCTGTTCGGGCA -ATACGATGCCCATTGTACTTGTTGACTGGTCTGATATCCGTGAGCAAAAACGGCTTATGGTATTGCGAGC -TTCAGTCGCACTACACGGTCGTTCTGTTACTCTTTATGAGAAAGCGTTCCCGCTTTCAGAGCAATGTTCA -AAGAAAGCTCATGACCAATTTCTAGCCGACCTTGCGAGCATTCTACCGAGTAACACCACACCGCTCATTG -TCAGTGATGCTGGCTTTAAAGTGCCATGGTATAAATCCGTTGAGAAGCTGGGTTGGTACTGGTTAAGTCG -AGTAAGAGGAAAAGTACAATATGCAGACCTAGGAGCGGAAAACTGGAAACCTATCAGCAACTTACATGAT -ATGTCATCTAGTCACTCAAAGACTTTAGGCTATAAGAGGCTGACTAAAAGCAATCCAATCTCATGCCAAA -TTCTATTGTATAAATCTCGCTCTAAAGGCCGAAAAAATCAGCGCTCGACACGGACTCATTGTCACCACCC -GTCACCTAAAATCTACTCAGCGTCGGCAAAGGAGCCATGGATTCTAGCAACTAACTTACCTGTTGAAATT -CGAACACCCAAACAACTTGTTAATATCTATTCGAAGCGAATGCAGATTGAAGAAACCTTCCGAGACTTGA -AAAGTCCTGCCTACGGACTAGGCCTACGCCATAGCCGAACGAGCAGCTCAGAGCGTTTTGATATCATGCT -GCTAATCGCCCTGATGCTTCAACTAACATGTTGGCTTGCGGGCGTTCATGCTCAGAAACAAGGTTGGGAC -AAGCACTTCCAGGCTAACACAGTCAGAAATCGAAACGTACTCTCAACAGTTCGCTTAGGCATGGAAGTTT -TGCGGCATTCTGGCTACACAATAACAAGGGAAGACTCACTCGTGGCTGCAACCCTGCTTACTCAAAATCT -ATTCACACATGGTTACGTTTTGGGGAAATTATGAGGGGATCTCTCAGCGCGTAACGTTTTCCGGCTCAAC -AAGAGAAGGCGCTTCCGTAATGTACGCCAGCTCGTTTTTATCCCAGGCGCGTTTTTCGCCGAAGGCCAGC -CAGTAGTTTTTATCATTACGCGCCATCAGAATCGGGAAGGCCGCGTTGGAGATATTCACCACCGCCTGAC -CGCGCGCATTACCCGTGCTGCCATAGAAGTTGGTGGAGTCATGGAATACATGGAACTTGCTGACAGATTT -GTAGTTCGTATCCACGCCCCACAGCTTGTTGATAACGCCCTGAATCTGGCCGTCATTAACATTGCGCGTC -GTCAGCGAGAACCAGCGAGCCTCGTTACAACCATCGGTTTTCGCACAAATCGCGGTATCGATCTCTTTGG -CCTGACCCGTATTAAACTGCTCAATAAATTCGTTAGGCAGATTAACGACTTGCTCACCTTCCCCCAGCGT -CGCACCGTTGGATAACGAGAGATTGATAATCTCGTTGATCACGTTGGGATATTCGGCAAAGACCTTGCGT -ACATCGTCCGGAACAACACGGGTATTATTTTGCCCGGTCGTCGAATAGCGATGAATAAGCTGATCAATAT -TCGCCCCGCGAACTTCATCACCCAGTTCAGTCAGCGCAATGGTCGACTTATTGCCGCGCACTGAACCCAG -TTCAAAGGTATCGATACCAAAGGAGATGGTTTCGCCCCAGCTAAAGGAAAATTCACCATTTTCCCCTGTC -ACGCCACGGCCTGAATTGGTGTAGTAGTTGACGCCAGCAACACCATATCCCTGGCTATCGACCAGTCGAC -CTTCAGAGAGAATGATTTCAGTGGGTTGATACTGATAAAACTGTTCCGCGTTAGCCGACACGAAGGAAGC -GTTCAGATCCGGTTTTGTTCCCGGCGTGGTGACGGGCACGACCGGTGAAGTATGAGTGGATGGCGCTTTA -TCGGTCGCAGCATTGTTTTCCACCTCTTCATTGACCAGCTTTTTGAACTCTTCCGGTGCCAGATCGATTT -GCTTATACAGCGAGTCGAAGCGTTTACTCTCGATCACCGAGGAGAACGTCAGACAAACCTGTTCTGTATT -CGCCGGACAGCTGTTACTGGACGTTACCAGCGAAACCGCATTGCTTTTCTTGTCATCGGAGCCCGCCAGT -TCTTGCGCGTCCTCAAGGCTAAACGACACTTTTTCAACCGCACGCAAGCTACGCGCAGCTTCTGACTGAG -TGTTGAAGGTGGCAATTGTCGTGTTACCCGCCACGCAAGTAACGTCCTCGCCAGGTTTAAATGTAAAGCC -ATCGCTGGATTCACCATTACAGGTAGCACCAGTTACCCGCTGGCTTCCGCCCAGGGTCAGATAACCCGTT -TTCGTAGGAACAGGTTCTGGCTCCGGTTCTGGTGTTGGTTCAGGATCAGGTATCGGTTCTGGCGTAGGCT -CTGGGTCCGGCGTTGGCTCAGGCGTCGGCTCCGGGTTTGGTGTTGGATCAGGTTTCACTTCCGGCAAAGA -CCCTGTTCCAGAATCTACAGGCGGCGTATCGGAGGAAGATCCGGAACCACCGCCATCACAACCGGCTAAC -AGGGTTGCGCTCAAAATAGCCGCTAAAAGCGATTTCTTATATTTAAATTTCTTATTCATTAATAACGCAA -GTGACAAAACAATGTTAAAAAATTCGTAACTGGGAGAAATAGTTTTATGCTTTATCTTCTCTAATAACTT -CCTCCATTCTTAAGAAAACGACATCATTGATAGAAAACAGGTGAAATTTATAAGAATAACCCCTATACGA -TGTCTATCTGGCTATTTTTACGAAATTTCAACAAACAAAAAATTAACAACATTTCACAACGTAACTATAT -AAATTTGTTGGTAGTTTTAACGATTAAGATTGCAAAAGCAACAGATAGAACGGTGTTTGCTCATCAAGCG -AACATAATTAATACAGACTTGTTTTGCGTGATAAAAAAATAGATGTTCTCACGCTCTTAATTATTTAGCA -GGTTATCTGAACGCAAAACATTATTGCTGCATGGATAATAAAGCGAGAAATGATTTTCAATTAATAAGAC -AGAATAATGTAAATGAAGCCGGATGATATTAACGATCATCCGGCTTTATTGATTTACGAGACTAACATCC -CGGTAAACACATACGCCTGCAGCAGGGTGATAATGCCGATAACGCTGGCAAAAATCAGACTGTGCTTCAC -GGTGTAGCGGAACAGTTCAGATTCTCGGCCCACCATGCCCGTCGCGGCGCAGGCCACGGCGATAGATTGC -GGGGAGATCATCTTGCCAGTTACGCCGCCGCTGGTGTTTGCTGCCACCAGCAGGGTGTCAGAGACGTTGA -TTTGCTGCGCCGTGGTCGATTGCAGTGAACCAAACAGGGCGTTAGAGGAGGTGTCCGAGCCGGTAAGGAA -TACGCCCAGCCAGCCGAGAAACGGTGAGAAGAACGGGAACATCACGCCTGTACCTGCCAGTACCAGCGCC -AGCGTGGTGGACATGCCAGAATAGTTGGTGACGAAGGCGAACGCCAGCACCATGCCAATCGACAGTATCG -GCCACTTCAAGCTAATTAGCGTTTCGGCAAAGACGCCAATACCTTTCTTGATCCCCACACCGAGGATGAA -GATAGAGATAATCGCCGCAATAAAAATAGCGGTGCCGCCAGCCGAGAGGGGGTCGAATTTAAACACCGCA -TCCATTGGCGTTGGTTGGGCGACAATGGGTGCCGCTTTCAACACTTGTTGATGCAAATGAGGGATCTGGA -AATTAATCACCAGTGAATAAAACGCGCCGCCCGGAGCAAATAACGCTTTAAACGGCTTCATGGTCCAGAT -GGTGACCAGCACCGTTAAGATTAAAAACGGTGACCACGCTCGAATGATTTGCCCCAGACTATATTCTGAA -GGCACGGGACCGCCAGAAGATGGCTTATTTACCACCATCGCACCTGCGGATTGTCCCATGCTGATTGCCG -TTTCGGTATTTTTCGGCCGCCAGACTTTAAGGAATAAAGCGAGTGAGACGATACTCACCAGCGCCGAAGT -AATATCCGGCAGTTCCGGACCAATATAGTTAGAGGTAAAGAACTGAGTGACAGCGAAGCTTCCCCCAGCA -ACCAGCGCCGCTGGCCACGTCTCTTTCACCCCTTTCCAGCCGTCCATCATTGCTACCAGCCAGAACGGCA -CAAGAACCGACAGGAACGGTAACTGACGTCCCGCCATTGCGCCAATGTGGAACGGATCGATTCCCGTTAC -CTGACCGGCGACCAGAATCGGCACGCCCAACGCACCAAACGCCACCGGCGCAGTATTGGCAATCAGACAC -AGCCCCGCCGCGTATAACGGTTTGAAGCCCAGGCCCACCAGCAGCGCACCGGTAATCGCCACCGGCGCAC -CAAAGCCAGCCGCTCCTTCCAGCAACGCACCAAAGGAGAAACCAATCAGTAACACCTGCAAACGCTGATC -GTCGGTGATGGAGATAACCGAGCTGCGGATAATATCGAACTGCCCGCTGGCAACGGTTAATTTATACAGG -AACACCGCCGCGACAATAATCCACGCTATTGGCCATAATCCATAAATAAAGCCATAGCCCGCAGCAGCAA -ATGCCATATCAATCGGCATTTTAAAGGCGAATATTGCAATCAGGATAGATAATATAAGGGTTATTGCTCC -AGCGACATGTCCTTTCAGACGTAATACCGCGAGTGCAACGAAGAAGAATATTATCGGGATCAGGGCGACC -AGAGCGGATAGCCCCAGTCCTCCCATCGGCATATACATTTGGGTCCAGGTAACCATATTGTTCAGTCTCT -TATTATCTTTATATGCTTGATATACTTAAGGTTGTAATAAGCAAAAGAGGACTGAACTGTAAAATATAGG -CGTTATACTTTACAGCAACAGTACGCCGCTAACGCAATTGCTACCTCTGGCATAACAAGTATATCGGGTA -AGGGTTTCTGTTCCGCACACGCAGACGCAGAGTATCGTTAAGATGTCCATATTGTTGTTTTAGGCCCGCT -AGTAATGCGCTACGGGTATTTAATATTGTTAAACCCTGATAATCGCTCCGGTTATTTCCGGGATAAATGT -ACTACCGCAGTTACTATCATAGCCCCGACAATAAAACTTGCCGGGGCTTTTTTGACGCTATTAATGACTT -TCTTTTTCGCGTAAACGCCAGGCGTGTAATAACGGTTCGGTATAGCCGTTTGGCTGTTTCACGCCGAGGA -AGATTAAATCGCTGGCAGCTTTAAAAGCACACGAGTTAGCGAAATTCCCCGCCATCGGACGATAAGCCGG -ATCGCCAGCGTTTTGCTGATCAACCACTTTCGCCATATTCTCCAGCGACGCCTGCACCTGTTCTTTGGTC -AGAATACCGTGACGTAACCAGTTGGCGATATGCTGGCTGGAGATACGCAGCGTTGCGCGGTCTTCCATCA -ACGCCACATTGTGAATATCCGGCACTTTTGAACAACCAATCCCCTGCTCCACCCAGCGCACCACGTACCC -CAGAATCCCCTGCACGTTGTTATCCAGCTCTTGTTGGATCTCTTGCGCCGACCAGTTAGCGTTTTCAGCA -ACCGGAATAGTCAGCAGATCGTCCAGCAGCGGTTCAAATTCAGCATTGAACTCGGTCTGGGCAATGTTGG -CTTGTACGCTCTGTACGTTGGTTTGGTGGTAGTGCAGCGCATGGAGCGTAGCAGCGGTTGGTGACGGAAC -CCAGGCTGTGTTTGCCCCGGCACGCAGTTGGTCGCCCTTCTGGCTGTACATGTCTGCCATCAGGTCCGGC -ATTGCCCACATGCCTTTACCAATTTGCGCTTTACCGCGCAGCCCACAGAACAGACCGGAAAGCACGTTAT -TACGCTCGTAGGCTTTGATCCAAGGCGTCGATTTCATCTGATTTTTACGCAGCATCGGGCCAGCTTCCAT -CACCGAATGCATTTCATCGCCGGTACGGTCGAGGAAACCGGTATTGATGAACGCCACGCGGTTGCGCGCC -TGAGCGATACAGCTACGCAAGTTCAGCGAGGTCCGACGTTCTTCATCCATAATGCCCATTTTCAGGGTAT -TCGGTGCCATACCGAGCATTGTCTCAATGCGGGTAAACAGTTTGTTGGCGAACGCCACTTCCTGCGGACC -GTGCATTTTCGGTTTCACAATATAGACGCTGCCAGTGCGCGAGTTTTTCTGCACTTTTAAATCATAGAGG -GCAATCGCGCCAGTCATGACGCCATCAAGAATGCCTTCCGGGATTTCATTGCCTTCGCTGTCCCAAATCA -CAGGAATGGTCATCAAATGACCCACGTTGCGGATAAACAGCAGCGAGCGTCCGTGCAGAGAAATTTCAGA -GCCATCGGCGGCGGTGTAATGACGATCGTCATTCAGTTTACGCACGATTTGCCGACCGTTTTTCTCCATT -TTCTCTTGCAGAGTCCCCTGCATCAGGCCCAGCAGGTTGCGGTACAGCAGGATTTTATCTTCCGCATCAA -CCGCCGCGACCGAATCTTCGCAGTCGAGAATGGTACTGATAGCAGCTTCGACGATAACATCGTTGATGTG -CGCCGGATCGTCTTTGCCAATCCGCCCATTGGCATCGATTTGCAGCTCAATATGCAGGCCGTTATTTTTC -AGCAAAATGCAGGTCGGCGCAGCGGCATCGCCACGGTAACCGACAAACTGTGCTGGAGTACGTAACGTGG -TTTCTTTACCATTTTTCAACTGGATGCGTAATTGTTTATCAACCACCTTAAACGCCACCACATCCTGATA -GCTGCCGTTTTCCAGCGGTAGAGATTCATCGAGGAAACGCCGAACCCAGGCGATAACCTGCTCACCGCGT -TGCGGATCGTAGCCGCTGACCATCGCCCCTTCCTGCGGGATGATGTCGCTGCCGTATAACGCATCGTACA -GTGAGCCCCAGCGAGCGTTCGCCGCGTTCAGCGCGTAGCGGGCGTTCATTGCCGGAACCACCAGCTGCGG -CCCCGCCTGGCTGGTGATTTCGCTGTCAATGCCCGTGGTTTCCACCGTCACGCGCTCCGGTTGCGGCACC -AGGTAGCCCAGTTCACGCAGGAAAGATTTATAGGCCGCTTTATCTTTTACCGGCCCCGGATTGCTGCGAT -GCCACTCATCAAGCGCTGCCTGAATGCGATCGCGTTCTGCCAGCAACTGACGATTTTCTGGTGCCAGATC -ATGAACGATCTCATCAAAATTGCGCCAGAACGCCGCAGCGTCCAGCCCTGTTCCCGGTAAAACTTCTTCA -TCCACAAAACGTTTAAAATTGGCGTCAATGCGTAAACGGCTCTGGGTTATGGTTTGACTCATTGTTTATC -TCCTCGTTTTCGCTTATTTCGCCAACACCGCTGCTGCCGCTTTCGCGACCTGCGCATCCTGTGCTCCGGT -TAAACCAGAAACGCCCACGGCACCAATAATTTGCCCATCCACAACAACCGGTACGCCGCCTTCCAGCGAC -GTTAATAACGGCGCAGTCACGAACGCGGTACGTCCGTTGTTCACCATCTCTTCATAGCCCTTAGTTTCAC -GACGCCCCAGCGCGGCGGTACGCGCTTTCTCCTGGGAGATATAAGCCGCAATCGGCGCGCAATCGTCCAT -GCGACTTAACGCCAGCAGATGACCGCCGTCATCGGCAACAGCAATGGAAACAGACCAGTTATTTTTCTGC -GCCTCTTCCTGACCTGCGGCAATAATTGCACTCGCCATTTGCTGGCTAAGAATGACTTTAGTTTTCATTT -TGTTATTCCTTTTCAAGGGCTTGTTCTACAATTTCAATCCAGTGACGCACAGAGGTACGACCGGCGCTCG -CCAGATGCGTCTGGCAACCAATGTTGGCGGTGACGATCATTTCCGGTTTGCCGCTTTCCAGCGCATTCAT -TTTGTTATCCCGCAGCTGGCGTGCCAGATCGGGATGCGTTAACGCATATGTTCCCGCTGAACCGCAGCAC -AGATGGCTGTCGGGAACGTCCGTTAAGGTAAATCCAAGACGAAGCAACACTTTTTCCACTTCGCCGTTCA -GCTTTTGCGCATGTTGTAGGGTACACGGACAGTGGAAGGCCAGCTTTTTATCGCCGCGAATTGCCAGTTT -TTCCAGCGGTTCCTCGCGCAGAAGTTCGACTAAATCGACCGCCAGTTCACTGACCTGACGTGCTTTATCG -GCATATAACGCATCGTTTTTCAGCATCTGCCCATACTCTTTGACAAACGCGCCGCAGCCGCTGGCGGTTT -GCAAAATTGCCTCGGCACCTGCTTCAATCGCGGGCCACCAGGCATCAATATTATTGCGCGCCCGTGCCAG -CCCTTTCTCCTGCGCATTAAGATGATAGTCCACCGCGCCACAACAGCCTGCTTCGTTAGCTGGCATGACG -CTGATCCCCAGACGATCCAGCACTCGCGCAGTTGCCGCGTTGGTGTTGGGCGAAAGCGTAGGCTGGGCGC -AGCCTTCCAACATTAAAACCCGACGCTTATGGCGCAGCGGCGGACGCGGTTTAGCTTTCACCGTTTCAGC -AGGCAGTTTTGCTCTGACCTGTTCCGGTAAAAACGGTCGCAGCACCAGCCCTACCTGCGTCAGCGCACGG -AAGACCGCCGGACGCGGCACTACCTGGCGCAATCCTTCGCGCAGTATTCGCTCCGGCAGTGGGCGTTTCA -CTTTCTGCTCGACAATATCACGCCCGATATCCAGCAAATTGTGATAGCGCACACCAGAAGGACAGGTGGT -TTCACAATTACGGCAAGTGAGGCAGCGATCGAGATGCTCCTGTGTTTTAAGCGTGACTTCGTTGCCTTCC -AGCACCTGTTTAATCAGATAGATGCGCCCGCGCGGCCCGTCCAGTTCATCGCCCAGAAGCTGATAGGTTG -GGCAGGTTGCGGTACAAAATCCGCAGTGAACACAGGCGCGCAGGATGCTGTCGGCTTCCAGCGCGCGCGC -GTTCTGCCGCATCTCTTCAGTTAATTGGGTTTGCATAGCCTGCTCCTCAAAGTTCCGCGTACATGCGACC -GGGGTTAAACACGCCGCAAGGGTCGAGCTGCTGTTTAAGCTGCTGGTGATAGCGGAATAAAGGAGCCGAT -AGCGGGGCAAAGCCACCATCTCCGGCACTAAAGCGGGTCGCATGACCGCCAGCGTTGCGGGCGATGCGAT -GGATTTGATTGTCCTCGGCTGTCGATTTCAGCCAGCGTAACGCCCCGCCCCAGTCGATCAGTTGCTCGCC -GGGTAAATCCATCATCGGCGCATCACTGGGTAATGAAATGCGCCATAAGGTACCTGGTAACGAGAAGAAC -GGCAGTTGTTGTTCACGCAATTGCTGCCAGAACTGACCGGCAACCTCTTCGCCACCCAGCAGTTCACGCG -CTGCTTTTACCGATCCTTCGCCGCCCTCAAGGCGGATCCACAACGCATTGTCGAAGTAACATAAGCCACT -AATGGGTAATGGCTGGAGTTGCCACTCGGCGATTTCACTCATGGCTTCTTGCAGGCTGATTTCCCGACGC -AGGCTCAGGGAGGCGCGCGGTCGCGGTAACACTTTCATTGAGATTTCAGTGAGCACGCCAAGACAACCGT -AGCTTCCGACCATTAACCGTGAGAGATCGTATCCGGCAACGTTTTTCATCACTTCGCCACCAAAACGCAG -ATGTTTTCCAGCGCCGGTAATGATGCGCGTGCCGAGGACAAAATCGCGGACCGAACCGCTCCACGGGCGA -CGCGGCCCCGCCAGCCCGCAGGCGACCATCCCGCCCCAGGTGGCTTCTTCACCATAATGCGGCGGCTCAC -AGGGGAGCATTTGCCCCGCGCTTTCCAGCGCCGCTTCAATTGTCACCAGCGGCGTTCCGACACGCGCGGT -TATCACCAGCTCGGTCGGGTCGTAATTAACAATGCCGCGATGACAACGAACATCCAGCGTTTGCCCGGTG -ACAGGGCGACCTAAAAAGGCTTTGCTATTGCTGCCCTGAATCACCAGCGGCGTTTTATCGCTAATCGCCT -GATTCACCTGCTCCAGCAGCGCCTGGCTGTAATCACACTCGCGTAGCATCAGAAACGCTCCAGTTCAGGG -AAAGGTAAATGACCGTGATGCACATGCATGGCACCAAATTCAGCACAGCGGTGTAGCGTGGGAATGTTTT -TCCCAGGGTTCAGCAAACCATCGGGGTCAAACGCCGCCTTGACCGCATGGAAGGTCGTGATTTCATCGCT -GTTGAACTGGGCGCACATTTGATTGATTTTTTCTCGCCCGATGCCATGTTCGCCACTGATGCTGCCGCCA -ACTTCAACGCAGAGTTCGAGGATCTTCCCGCCCAGCTCTTCCGCGCGGGCAAATTCACCGGGTTCGTTGG -CATCGAAAAGGATTAACGGGTGCATGTTGCCATCTCCGGCATGAAAGACGTTGGCAACACGTAAATCATA -TTGCTGCGATAAACGGGCAATGCCTTCCAGTACGCCAGGCAGGGCGCGACGCGGGATGGTGCCATCCATG -CAGTAGTAATCCGGGGAGATACGTCCTACCGCCGGGAACGCATTTTTGCGACCGGCCCAGAAACGTACGC -GCTCTGCTTCGTCCTGTGCCAGACGGACGTCAGTCGCGCCCGCTTTCAACAAGATGTCGTTAACCCGCTC -GCAGTCTTCCTGTACGTCAGACTCCACGCCGTCCAGCTCGCATAACAAAATCGCTTCGGCGTCGACGGGA -TAACCGGCATGAATAAAATCTTCCGCCGCGCGGATCGACAGGTTATCCATCATCTCCAGCCCGCCGGGGA -TAATGCCATTGGCGATGATGTCACCAACCGCAAGTCCGGCTTTTTCTACCGAGTCAAAGCTGGCTAACAG -AACCCGCGCCACGGGCGGCTTCGGCAGCAGTTTTACCGTCACTTCGGTGGTCACGCCGAGCATACCTTCC -GATCCGGTGAACAGCGCCAGCAGGTCAAAACCAGGTGAATCCAGCGCGTCCGATCCAAGCGTCAGTGCCT -CGCCGTCCAGCGTTTGCACTTCAATTTTCAGCAGGTTATGTACGGTCAGACCATATTTCAGGCAGTGGAC -GCCGCCGGCATTTTCAGCCACATTGCCGCCAATGGAACAGGCGATTTGTGAGGAAGGGTCCGGTGCGTAG -TAGAGATTATGCGGTGCAACGGCCTGGGAGATCGCCAGGTTACGCACGCCTGGCTGCACGCGCGCGCGGC -GACCAACGGGGTTAATGTCGAGGATCTCTTTAAAGCGCGCCATCACCAACAACACACCTTTTTCCAGCGG -CAGCGCGCCACCAGAAAGCCCGGTGCCTGCACCACGGGTCACCACCGGTACACGCAGGCGATGGCAGACA -GCCAGAATCGCTGTCACCTGTTCCATTTGCTTAGGCAGAACAACCAGTAATGGACGCGTGCGATACGCGC -TCAACCCGTCACACTCGTAAGGAATGATCTCCTCATCGGTATGCAGGATCTCAAGTCCAGGGACATGCTC -ACGCAGTGCCATCAGTACCGATGTGCGGTCGACATCGGGTAAAGCGCCATCAAGACGCTCTTCGTACAAG -ATGCTCATGAGTAGGCTTCGCTTTGTTGTGTTGTGTGGCAGCTGATTTTTGCGCGCTGCTTCTGTGAACA -GTTATTAAGCGGGCTTTTCGTTTTCGTCTATCTCTTTAGCTACCGGTCAGACCATTTTTTTTCCAGCTCT -GTGACCTTGTCTTGGTTAACTCAATGTTAAATTGATGTAACATAATCACTTACGTGATGTGCGTGTTTTG -CGAGTTAAGAACAGAAAAATTGGTCCTACCTGTGCACGAGGTCCGGGAATGAAAGATGAACGTCGCCCTA -TTTGCGAAGTGGTTGCAGAGAGTATCGAACGGTTAATTATCGACGGCGTACTGAAGGTCGGTCAGCCGCT -TCCCTCGGAACGTCGACTGTGTGAAAAGCTCGGCTTCTCACGCTCCGCACTGCGTGAAGGGCTGACCGTG -CTGCGCGGGCGCGGGATTATTGAAACGGCGCAGGGTCGCGATTCTCGTGTCGCACGGCTTAATCGGGTGC -AGGACACCAGCCCGCTGATCCATCTGTTCAGTACGCAGCCGCGAACGCTGTACGATCTGCTCGACGTTCG -CGCATTACTGGAGGGCGAATCGGCAAGGCTGGCGGCAACGCTGGGAACGCAGGCTGATTTTGTTGTGATA -ACCCGCTGTTATGAAAAAATGCTCGCCGCCAGTGAGAACAACAAAGAGATTTCGCTGATCGAACATGCGC -AGTTGGATCACGCTTTCCATCTCGCCATTTGTCAGGCTTCTCACAATCAGGTGCTGGTGTTTACGCTGCA -ATCATTGACCGATCTGATGTTTAATTCAGTGTTTGCCAGCGTAAATAATCTCTACCATCGACCACAGCAA -AAAAAGCAGATCGATCGCCAGCATGCGCGGATCTACAACGCGGTGTTGCAGCGGCTGCCGCACGTCGCCC -AGCGCGCAGCACGCGATCATGTGCGGACCGTGAAAAAGAATCTCCACGATATCGAGCTGGAAGGCCACCA -TTTGATTCGCTCGGCGGTGCCGCTGGAGATGAACCTGAGTTAGCTGGTATTAAATCTGCTTTTCATACAA -TCGGTAACGCTTGTACGGCTCCGCCCCAATGCGTTCCAGCATGTTATTCATGCCTGTATTGGTTTCGAGG -ATCCATGACATCTCCAGCGCATCGATCTTCCGGCGGGCAAACGGATCGCGTAAGGCTTCAATCAATAACA -GCGCAATCACCGGGCCGATGCGGCTGAACTGATACTCGTCGCGCACGCCCATCAGCGGTACTCGCGCAGT -TCGCACACCGCTGACTTTCAAACGCCACAGCAATTTTGCCCAGCCGAAGGGAAAGAGCGATCCGTTCAGA -TCGGCAATCGCCTCGTTGATGTTCGGCAAGCCGACAATAAACGCGCAGGGTGCAGAATCAATCTCAGCGA -TATAGATCATATCGTCCGGCACCAGATATTTAAGTTGATCGCCCATGGTCGCGAATTCATGTTCGGTAAA -CGGCACAAATCCCCAGTTGTGCTGCCAGCCAGAGTTGAAAATCTCACGCAGGATCTGCATCTCTTCGGCA -AACCGCTGACGATTGATGCAGCGAATGGTCACCTTTTTGCGCACCTGATCCATCAGTTTTTTTAGCGCCG -GAGAGAAAGTGAGATCGGTTCGCTGCATCCACCACGCCAGTAAATCAATGCCTTTGTGATAACCCAGTTG -TTCAATATGCGCGGCATACCACGGTTTGCCGTGTGGCATCATCGCACAGGGTGGTGTGTCAAAACCTTCA -ATCAGTAATCCGCTTTCCTGATTGATATTCAGGCTGAAAGGACCGCTGATCTTACTTGCACCTTGTGACT -TCAACCACGCTTCCGCTGCGCCAAACAACGCGGCAAAAACCTGCGGATCATCAATGGCGTCAATCATGCC -GAAATGACCGGTATCTTTGCCGTAACGCTCGCGGTGCAAGGTATCTATTTGCGCGGTAATACGCCCAACT -ATCTGCCCCGCTTTTTTTGCCACCCACGCCTGCCAGATGATATGGTCCGTCCCCGGATTTTTCGCAGACA -AATGCTCGTTGCGTTCAATGAATAAAGGGGGTATCCAGTTTGGATCGTCGGGATAAAGTGATGACGGAAA -AGCGATAAATGCCTTAAGGTCATTTTTATTAAGGAAGGTGCGAACAAGTCCCTGATATGAGATCATGTTT -GTCATCTGGAGCCATAGAACAGGGTTCATCATGAGTCATCAACTTACCTTCGCCGACAGTGAATTCAGCA -GTAAGCGCCGTCAGACCAGAAAAGAGATTTTCTTGTCCCGCATGGAGCAGATTCTGCCATGGCAAAACAT -GGTGGAAGTCATCGAGCCGTTTTACCCCAAGGCTGGTAATGGCCGGCGACCTTATCCGCTGGAAACCATG -CTACGCATTCACTGCATGCAGCATTGGTACAACCTGAGCGATGGCGCGATGGAAGATGCTCTGTACGAAA -TCGCCTCCATGCGTCTGTTTGCCCGGTTATCCCTGGATAGCGCCTTGCCGGACCGCACCACCATCATGAA -TTTCCGCCACCTGCTGGAGCAGCATCAACTGGCCCGCCAATTGTTCAAGACCATCAATCGCTGGCTGGCC -GAAGCAGGCGTCATGATGACTCAAGGCACCTTGGTCGATGCCACCATCATTGAGGCACCCAGCTCGACCA -AGAACAAAGAGCAGCAACGCGATCCGGAGATGCATCAGACCAAGAAAGGCAATCAGTGGCACTTTGGCAT -GAAGGCCCACATTGGTGTCGATGCCAAGAGTGGCCTGACCCACAGCCTGGTCACCACCGCGGCCAACGAG -CATGACCTCAATCAGCTGGGTAATCTGCTGCATGGAGAGGAGCAATTTGTCTCAGCCGATGCCGGCTACC -AAGGGGCGCCACAGCGCGAGGAGCTGGCCGAGGTGGATGTGGACTGGCTGATCGCCGAGCGCCCCGGCAA -GGTAAGAACCTTGAAACAGCATCCACGCAAGAACAAAACGGCCATCAACATCGAATACATGAAAGCCAGC -ATCCGGGCCAGGGTGGAGCACCCATTTCGCATCATCAAGCGACAGTTCGGCTTCGTGAAAGCCAGATACA -AGGGGTTGCTGAAAAACGATAACCAACTGGCGATGTTATTCACGCTGGCCAACCTGTTTCGGGCGGACCA -AATGATACGTCAGTGGGAGAGATCTCACTAAAAACTGGGGATAACGCCTTAAATGGCGAAGAAACGGTCT -AAATAGGCTGATTCAAGGCATTTACGGGAGAAAAAATCGGCTCAAACATGAAGAAATGAAATGACTGAGT -CAGCCGAGAAGAATTTCCCCGCTTATTCGCACCTTCCCTAAATCAGGTCATACGCTTCGAGATACTTAAC -GCCAAACACCAGCGAAATGAGCGGCTTGCCGACGATCAACACCGCGAGCGCCACCAGAATACCGATTCCG -CCCGCCAGTAAACCGGACTTCACACCTAACAACCACGGTCTGGTGGTGCGCGGATCTAAACGCATCACCT -CTGGGTAAAAACTTTTACCCAGCAAACCCGCTGGCGTTCCGGCGGCGTCGAAGAATGTCATGGCGATTTT -AAATAACCCGGCGGCAGCGGGTCCTAACACGATCCCCACCAACACTGTGCTGCACGAGTTACGCGCCGAC -CAGATGGAGTGGGCAATGTTGGTTGACCAGACAAAACTCCACGCGCCTTTAATGTATCGGGCAGACTCAA -ACAGATTCAATTTGAAGGCGTTATGGATATTTCGGCGGCGTAATTCGCGCGCGGCAAACCACCAGTACAT -GGTGCCGCCAACCAGATTCGACACGTACCAGGCAATAACAAAACCCGCAAAACCAAAGTCAAAATACCAG -GCTACGACGCTCCCCGCTGCGCGCAGAAAAGGTTTCGTCGCCTGCTGTACAGCAATTAAATCGAAGCGAT -CTACCGCACGCAGAATGCCGGTCGGCGTGGAGGAAGCCATTGAAGGAATGAGCGTGCAATAGAGCGCTGC -CAGCCAAAAACTTTGGTCATCCAGACCTAATGAATGGGAAAGGAATGGCAGTAAGGCAATGCCACCGACA -ATCGCCACCGCGCCGCTGACGATATCCAGCGAGAAGGAAAATGAGACGACATTGCGGAATTGCTGCGGAT -TATTGTTGGTTAATGCTGGTGTTCCGTACTGAACCACCAGTTGCCATGTCTGAAACTTAATAAAATCGCT -GATCGACTTGGCGTACGATTGCACAATCACCAGTACGCCAAACATGGCGGGCGTCATCCCTTTACCGGCA -CACGAGAGCGCCAACAGACCCAGCAAGGCGCTCACGACATTACTGGAGCCTAACCAGGCGCTATTGCGAA -TAATGGTGCGAAACGCGCCATCTGCAAACCAATGTTTGATGTTAAAACCCGCCAATTCAGCCTGACCTTA -TCGTTGATAGTAAAAAGTATCCCGCCAGCCTTAAGTTAAACTTCGGCGGTCAGAAACGATGGCAACCAGA -GAAACCGCCTTCTGTGCCTGTTCCAGCACTTCGCTGTAGGGCGCTCTGGAATCAATCTCAAGAATTTTTG -TGCCGTTATAGCCAATCTTCGACATGACACCGATTTTGTCCTGCAGCTCGGCATAGTCATGGTCAGGCTT -GCGGGAGATGGCAGTCTCAATATCAATGCCCAGGCGAATAATTAATTCCGGGCGATATTGCGCCATTTGT -TGGTATAAACGCCGTTCGCGCTGCGCCAGAAACATGCTGATTTTCCCGGTCGCACGTTCGACGCCAATCC -CCGGTCCATCATAATAAAAGCCCGAAATTTCAGCCTGCGGGAAGCGATCGCTGACCACCAGAACGCCACT -TTGCGCCAGTCGCTGAACCTTGCGTAGATTCGCCATTCTTCGCAGCGAGAAGCAGTACATAATCACCGCC -GCCCATAGCGCCGGAGATTTGGTTTTCATGCTTTGGGTTTTCGAGGATTTGGCCGCCAGTCGCCGTTCCA -GCCAGACGCCAACCAACGGCAATCGTTTGATTTTGTCGCCGTCTTCGCCGGAGAGCAGCCCCAGATAGCG -CCGCTCGGTTTGCCAGTGTTGTTGCAGCGATTTCACCAGGTCGGTGGTCAGTGTGGATTTACCGGTGCCA -TCACACCCGACCACCGCAATCAGCCCCGGAATGTAGTTGGGCTGCGGCGCGGTTGTACTATTAACAGTTT -GAGTTTGTAGTGCATCCATTCGTTAAATCATCCCCTATCCATTTTGGTGATCAGGAAAGCGCGGCGTGAA -TTGCGCGTAGTGACGCTTGCAGAATTTCATCGGCGGGGTGTCGCCCATCCAGTTCAAGGATCTTTGCGCC -ATTGAATGTCAGTTGCGGCGTAACGGCGATTTTTTCCTGTAACGCTGCCAGTTGGTGGTCAGGTTTACGC -GCAAACGCGGTTTGTTCATCAATGCCAAGACGAATCAACAATACGGGCAAATAAGATGCCATCCATTGGT -ACAGCTTCAGCTCGCGCTGCCTTAACATTTTTATCCAACCGTTACCGCCCGTGGTTTTTGCCAATTGCGG -GCCATCAAAGCGAAACCCCGGCACTTCAACCTGCGGGTAGCGGTCGGTGATGAGCAGAAAGCCTTGCTGG -CTTTTACACAACATTTTGCGAAACTTGTACGCCCGCCAGCAGGAAAGCAGATAGATAACCAGTGCAGTAA -TATTGCCAGGCGGTGTTGAGGGCTTTTCGTGCACATGTGCCGCTTTACTTCGCAGATAACGCCCAAAAGG -TGCGCCAATAACAGGGAGCTGTGAAATCCATTCGCCAATTCGCCCGGACGATTGCCCGAGATAAATGTGT -TCTGTTGGCATTCTTGCTGCCAGTTCATTTACCAGGCTTGCCGTGAGGGTCGATTTACCTGAACCATCAC -ATCCTACAATGGCAATAACACGCACTGGCGTGGAATTAATTATTGACATATTACGTTGATTCACGAAAAA -CCCGGCAGTAAATAATGTATTGAATATTACGTGGTCCGTGCTCAGAATATCCGTTCAACCTTATTGTGAC -AATGGTTAATTGTGACATTGACCTGAATTACGCTTTCATAAAAACATATTAACCAAATAAATATTTTTAA -TGGATATTTAAATTAAAGGATATATTCATGCAGTCAATAACACCTCCATTAATTGCCGTTATTGGTAGCG -ATGGTTCAGGCAAGTCAACGGTGTGTGAACATCTTATTACCGTTGTCGAAAAATATGGTGCTGCCGAAAG -AGTTCATTTAGGAAAACAGGCCGGAAATGTCGGTCGTGCAGTGACAAAATTACCGTTGATGGGAAAATCC -TTACATAAAACAATTGAACGAAATCAGGTGAAAACAGCAAAAAAATTGCCTGGACCAGTTCCGGCGCTGG -TAATTACAGCGTTTGTCGCCCGTCGCTTACTGCGCTTTCGTCATATGCTTGCCTGTCGTCGTCGCGGGTT -AATTGTTCTAACCGACCGTTATCCTCAGGACCAAATTCCTGGCGCTTACGATGGTACGGTGTTCCCACCT -AACGTTGAAGGTGGTCGTTTTGTCTCATGGCTGGCAAGCCAGGAACGTAAAGCGTTTCACTGGATGGCGA -GCCATAAGCCTGATCTGGTCATCAAACTCAATGTTGACCTTGAAGTTGCCTGTGCACGTAAACCCGACCA -TAAACGGGAATCGCTGGCGAGGAAGATTGCCATAACGCCACAGTTAACCTTTGGTGGTGCACAACTGGTT -GATATCGATGCCAATCAGCCACTGGAACAGGTGTTGGTTGATGCAGAAAAAGCGATTACGGATTTTATGA -CCGCGCGTGGTTATCACTAGTCAAAAATGGAAATGCCCGATCGCCAGGACCGGGCATTTTCAGGAAGGTT -AAATCAACTGCAATGCTATCCAGTACAGCCCACCAGAAAGAAAAATTGCCGCCGGTAAAGTAAATACCCA -CGCCATCAGGATGCTGGTTACCGTTTTACGCTGTAACCCACCGCCGTCCACCACCATCGTCCCTGCAACT -GCAGACGAGAGGACGTGTGTTGTGGAGACGGGCATCCCAATATAACTGGCAAGACCGATAGACACTGCCG -CCGTCATTTGTGCCGCCATGCCTTGCGCATACGTCATGCCGCGCTTACCAATCTTCTCACCGATGGTCAT -CGCTACACGACGCCAGCCAATCATGGTGCCAATGCCGAGCGCCAGTGCTACCGCCATGATGATCCACACC -GGAGCGTACTCAATGGTGCTTAACATATCGCTGCGAAGTTTTTTCAGCAGGTTCTGGTCTTCTTTACTGA -CGCCTGGCAGTTTCGCTAGCTTCGCGGAGGTATCAGAGATGCACAGCATAATGCGGCGCAGCTGGCTGCG -CTGACTCACGCTTAACGGCTCGTAACTTTCCATATTGCCTGGCAGCATCGTTTTAACGCGCGCAATAGCA -TCAAAGGTATTTGCCGGATGACAGTGAAACTCTGTTACTTGCGTGCCATCAGTCGATGCTGCAGGCAATG -GAGGTTCCATCGCAATCAACTTCTGCGGCAGTTCAGGATGCTGTTGCAGGTAGTGTTCGAAGTTGGTAAC -GGCATCGCGGGTACGGGTAATTTCATAGCCGGACGCATTCATATTGACGACGAAGCCAGCAGGGGCAATC -CCCACCAGTACCAGCATTACCAGGCCGATCCCTTTTTGTCCGTCGTTCGCGCCGTGCGAAAACGCCACGC -CCGCAGCGGAAACAATCAGCGCAATACGCGTCCAGAATGGCGGTTTACGTTTGCCTTTTTTCTTTTTGCG -ATCTTCCGGAATGCGGTGAATACGGTCACGCTTTTTCGTCCCGCTCCAGTAGCGTCGCAGCAGGAATATC -AGGCCTCCCGCAATGACCAGGCCGACGATAGGGGAAACAATCAGCGAGGAGAAAATTTTGGTCACTTCAC -GCAGGTTTAACGCATCCATCACCGATGAGCCGGTTAACAGCGCGTTGGTTAAACCGATGCCGATAATCGC -ACCAATCAAGGTGTGCGAACTGGAGGCCGGTAAACCGAAGAACCACGTTCCCAGGTTCCAGATAATCGCC -GCCAGCAGCATGGAAAAGACCATCGCCAGGCCGTGGGTTGACCCCATATTCAGCAACAAATCGGTTGGCA -ACATATGGACAATGGCATAGGCAACGCTAAGTCCGCCCAATAACACGCCAAAAAAGTTAAAAAATGCCGC -CATCACCACAGCAAGTTGTGGTTGCATGGCACGAGTATAAATAACGGCTGCCACCGCATTCGCCGTGTCA -TGAAAACCATTGATTGCTTCGTAGAACAACACAAATGCCAGAGCAAGCAATAACAAAAGCCCTGTGTATA -TATCAAGGCCAACAAATAAATTTAGCATATATTAGATTACGCCATTTTGAATTTACGAACGGACGCATTA -TCAGTGACTTTAACGGCATGGGCAAAGTGAAATATCATTTTTTAACGATAAAAAGAGTGTTATTTCTTGT -GTATCAGACAATAAGCATTCATTCAAAACCTTTAGAAATAATCAAAACACAGGTATTCCACTGGTTAATA -TATTCACATATGAAATGAATAAATATTGGAATATATAAATATTGAATATTTTGATTAATCCCCGTACTGA -TTATTCTTCATAATCAGTACGGGGTTGCTACAACATGTATTACTTTTTCACCACAATTAACGGTTCAATA -TCACTCTCTTTTTTGATGACCAGTGATTCATCACCGCGCAAACACGTCCCACCGTAGTTGCCGCCAACGG -TGAAGGTACATACCTGAATGTATTTACCGTCCACTTTCGGCAAACACCACAGTTGCTGATAGATGTTTTT -CTGCTCGGCAAATTTACCGCTGGTTTTGTCCAGCACCTCTTCATGATGGCTGACGAGGTCGATATTGCTG -CCACAGCGACCGGCGATCGGTTTCACTGCGTAACCTGTTTTCACCAGTTCATCATTAACAGTGAAATCGG -TATCCAGCAGGTAACGATGGTGCGGGAACAGCGACCAGAGGATCGGCAGAATCGCTTTGTTGCCGGGGAT -CACCGTCCACAGCGGCTCAAAGACCAGCACTTCCGGGCGCAGCAATACGTCGATAAGACGCACTTCGTTT -TGCGGATGACCGGTACGGATTGGCACCGCAGCAAACTCACGGTCGCTAACTTCACGAATCTGATCAAACG -CGGTTTCCCACGCCCAGGTTTTCCACACGCAGTTAACCAGTCGCCCTTCCCCATCAATCAGTTGCCCGGC -AGCATCCCAGCCCAGTTCATCCAATCCACGCAAGATACGCGTTTCAAAGCCCGCCTGGTGCAGCGCCTGC -TCCATAAACTGCGCGTGATAGTTTTCCTCGATATCTTTGTCCTGCATGATATGGACAAACGGACGTGCAC -GACTGTGTTTCCAGGCACCAGCCAATTCGTTAATCAGCCCTTCCGCCGGATTGAAGCCGTTGCCTTTATA -GCCCTGCTCCGCCCAACGTTCGAGGATCAAGCCCGCTTCGGTATGACAGGAGGCGGAGTCGGCGTTGTAC -TCGTAAACCTTCAGGCCACGCTCATCCATGCAGAAATCCATACGACCAGTGATCATATGGTGACGGCGAC -GCTGCCAGGAGAGACGCAAACGTGGCCAGAGGATTTTCGGGATGTCGAACAGCGCCAGCAGGTTGTCATC -TTTCAGCACCTTGTCGGTTGCGTGAAGATACATCAGGTGCAGCTCGTTGGTGGCTTTAATTAGCTCCTGC -TCGGCACTCTCGGTAATGGTGTAGTAATGATAAGGATCCTGATTGATCACCTGACCGTTGGCCTGCACAT -AGGCGTTTTGCAGCGGATCTTTTTCATCCAGCCATTTACCGTCAAACTGGCCTTTGTTTTCCAGGCGCGC -TCCGCTGATTTTCAGCAGCTCGCCTGCAATTTCCGGCTGCGGTAAGCTGTATTCAGTATCTTCCGTCTGG -ATCATCCAGCCCAGAATGGTGGTGTCATCAAAAGTGTCTTTCAGGGTATAGCAGCCGTTTTCGACCACCA -TCTCCAGCTCGCGCGTCCACTGTTGCCCTTGCGGCAACGGGGAATGAATCACGTTCTGTTCCGCAATACG -GACTTTGTTGCCATGCAATTGGGTAATGATGGCGACATGGCCAGTGTCTTTAAATTCACCGCCTTTATCC -CAGATAAGAAGCGCACCCGCGACCGGCGCACGCGGCGAGCCGTTAGGAAATGCCTGCAATGGCAGGATGT -TGTCATTAACCACTTCTCGCAGGAAGCGCAGCGAGAAAATCTCCCACGCCATACCCACGTCAGTAAAGAC -CACACCGTAATTCAGAAAGAGAAAACGGCGAGCAAATTCAACGCATTGCCACTTGTGGCCCATATATTCG -TCGTCGATATAGCTACGGAATACGGCGTCATCTTCGTATTCCTGCGGATCGAGAGAACTGTAATCTGAAG -AGTAGATTGCTACCCCACCTGGGGCGTAGCCCAATAATGTCCCGAACGGGGCATCCTGGCTGGTCGTTCC -TTTGCTCATCACTTTACCTTTAACAATACAACCTAAGCAGTTGGCGTAATTGTTGTGCTCTGATTACCTG -CTCAGCGACATTAACCGGACAGAGGTCAGACTAATCATACACCTCATCGCAGCGGCTGGCGCAAAGGGTT -AAAAAATTCACATTCTGTACAGCAAGTGACCTGCTACACTGCTTCAACACTACCACTCAGAAGGCAACTC -ACTATGACAGACAATACTTATCAGCCCGCGAAAGTCTGGACGTGGGATAAATCCGCTGGCGGCGCGTTCG -CCAATATCAATCGCCCGGTTTCTGGTCCGACGCATGAAAAAACGCTGCCCGTTGGCAAACACCCATTGCA -ACTTTATTCGCTGGGAACGCCGAACGGTCAGAAAGTAACGATTATGCTTGAGGAGCTGCTGGCGCTGGGC -GTTACTGGTGCAGAGTACGACGCCTGGCTGATTCGTATTGGCGATGGCGATCAATTCTCCAGCGGCTTTG -TCGAAGTGAACCCAAACTCGAAGATCCCGGCGCTGCGCGATCATACGCATAATCCGCCGATCCGCGTGTT -TGAATCTGGTTCGATCCTGCTTTATCTGGCGGAGAAATTTGGCTACTTCCTGCCGCAGGATTTGGCAAAG -CGTACTGAAACGATGAACTGGCTGTTCTGGTTACAGGGCGCGGCACCGTTCCTCGGCGGTGGTTTTGGTC -ACTTTTACCATTACGCACCGGTAAAGATTGAGTACGCCATCAACCGCTTTACCATGGAAGCCAAACGTCT -GCTCGACGTGCTGGATAAGCAACTGGCGCAGCATAAGTTTGTTGCGGGCGATGAGTACACCATTGCGGAT -ATGGCGATTTGGCCGTGGTTTGGCAACGTGGTGTTAGGTGGTGTGTATGATGCCGCTGAGTTTCTTGATG -CGGGCAGTTATAAGCATGTACAACGCTGGGCGAAAGAAGTAGGCGAACGTCCGGCGGTGAAACGTGGGCG -TATTGTTAACCGCACCAACGGACCGCTGAATGAGCAGTTGCATGAGCGCCATGACGCCAGTGATTTCGAG -ACGAATACGGAAGATAAGCGTCAGGGGTAAGGGTTGGTGTTCGTCGCAGCAAGCCATCCAGGCCGGATAA -GGCGTTCACGCCGCATCCGGCAATCGTGCACAATGCCTGATGCGACGCTGCCGCGTCTTATCAGGCCTAC -GAAAGCTAATCATCACGCGCTGGTAATGTCGTAATCCATTTGGCGCAGTGCGTCTAATGTGGCTTTGGCT -TCATCTTCGTCGATGATGCTCATGGCAAATCCGACGTGTACCAGCACCCACTGGCCCAGTAGATCGGCAG -GGTTACCTTCACAAATCAGGGCGATATTCACATCGCGCTTGATACCACATACTTCAACCTGCGCAAGCTG -GTGAATATCTTCACCGACAGCCAGCACCTGGCCTGGAACGCCAATACACATTATTAACTCCGGTTATTCA -ACTTCAATACTTTTGACGATCAGCGAATCGCCGGTATCGACACGCAACCGCTCGCCGTGACAGAGCGGAC -ACTGCGCATCGTGCTGATGAATCTCCACCACCTGGCTGCAATCCCAGCACCAAGCCTGGGCGGGTTTATA -GACGATATGTAAATCGCACCCTTGCGCCACCGTTCCGTGGCAGACAATTTCAAAACTAAAACGGACGGCG -CTCTCCTCAACGCAGGAGAGCGCGCCAATTTCCAGCCACACGGCGGTGACGCGCTTAACATCGTGCTGCT -CCGCCTGCCGTTGGATAATTTCAACGGCGCTCTGGCAAAGAGACAACTCATGCATTTTCGCCACTCCTGC -GACCAAACAGCAGGGCGCGACGCCCTGCGTGTGGTACATCCGGATTCGTGACTGGCAGCGAAAGGATCAT -TCGTGCGCAGTCATCCGTCAGGCGTTGGCCCTCTTCAATCGACATGCTGTGCGAAAGCGGCGACATCAGC -GAACAGGAGAGATATTGCGAAACACCGTCCAGTTCGCCAACGGTAAAGGTCATAGTGCCATACGGCAGTT -GCAGACCAATTTTTTCACTCACTTTGCGCAGCGGCCAGAGTTGATCCGGGCCGGGGAAGATAACTGCACT -CAGCATCCACGGGGTGATCACACACCCCGTCCACTGACCTTCGAACAGCGTAAAATCAGAAACATACACC -GGCATTGAAGGATGCAGAAAAGAGAGATCGTGCATCGAACGCCGGGCAATTTCTTCAAACGCTGCCTGTA -CTTGCGCCTTCGGGGAGGTCTGGAAACCTGCTATCTCTTCAGTCATGAATCGCCTCCCGTGGGATGGCTT -CCACGCCAGATTCACGCAGCGCAGCCAGAACCTGCTCAAGCGCAGGTTCAATCATTGCTTCAACCGTCGG -CGTTAAGCCGATGTGTGGCTCCAGCGATTCCGGGATCACGCCGACCAGGGTCAGCTTTTTCGGAAACTCG -CCGGTGAAGCGCAGGGCCGACAAGACGTCGGCCAGGCCAAGCTGATGCGGAGAGATTTTGTTGGTAAACA -ACGCCGGAACTTCTTCATCCCGCAGGATCATCATCGTTCCCGGCGCGTTCTTTTTCGAGACAATGGCATC -CGCAATAATCAAATGATCGCGATTTGCCATGTCGCCAAGCAGCTCCATTCCCGCCGTGCCGCCATCGAGG -ATCTCAACATAATCCGGCAGAATGTATCGTTGCTCTAACGCTTCGACAATCCGCACACCGATGGCTTCAT -CGGTCAGCAAAATATTGCCGACCCCTAAGACTAAAATACGCATTACAGAACCTTCACTGAAACCACTTCG -TTGCCGTCAGCATCCACTACGTGTACCGCACAGGCCATGCACGGGTCAAAGGAGTGAATGGTACGCACCA -CTTCCAGCGGTTTATTCGGATCGGCAACCGGTGTACCCACCAGCGACTGCTCGTAAGGACCGACGTCATC -ATTGAAGTTACGCGGACCAGAGTTCCAGGTTGATGGAACAACCGCCTGGTAGTTGCTGATGATACCGTCT -TTAATAACCATCCAGTGAGAGAGCATACCGCGCGGCGCTTCGAGGAAGCCAACACCTTTGAATTCACCCG -TTGCCGGAATGTTCGGCTTCACAAAGGTGGTGTGATCGCCTTTGCCGATATTGGTGATCAGTGCACTGTA -TTGGTTTTGCAGGATATCCTGCAATTCACAGCAGTGAACGGTACGACCAATAATACGGCCCAGCGTGGAG -TGCAGCTGTGCCACTTCCAGCGTGTTGCCAGTCAGTTTCTGATAAATCGCAACGATTTCATTCAGTTTGT -TCTGGGTAGATTCGCGACCTGCCGCCAGTTTCACCAGCATATTAGCCAGTGGCCCCACTTCTACCGTTTT -GCCGTAGAAAGTCGGTGATTTCACCCAGGAATATTTCCCGTCGTCAGACCAACCATCATAAGCCGGAATG -GTGGTGCCTTCCCACGGTGCCTGCGGCGCTTCGTCTTTATACCAGGAGTGCTTCGCGCTTTCCTGAATGC -CTTTGATCAGGTATTCATCGGAATGAGAAGTGATCGGACGATACGAGGACAGATCCGCATTCTCAATGTA -GCCGCCCGGGAACAGGAAGCTGCCGTTTTTACTGTCGGTCGGGAATTCCGGCACGCTCAGGTAGTTCACC -GCACCTTTACCGCGTGTCAGCCATTCCGGGTAGAACGCGGCAATAACTGCGGTATCAACCTTATAAACCT -GCTCAACAAAGTCGCTCAGTTTGTCGATGAAAGACTTGATGTACATCAGGCGCTCAAGGTTCAGCACGCC -CAAACCGTCGAGGTTGATCGGGTTCGCGACACCACCTACCGCCAGGTTCTGAATGTGCGGCGTTTTACCG -CCCAGCAGCGCCACGACGCGGTTAGCGTCACGCTGGCACTCCAACGCTTGCAGGTAGTGCGCTACCGCAA -TCAGGTTCACTTCCGGCGGCAGTTTCATCGCCGGATGACCCCAGTAGCCATTAGCGAAAATACCCAACTG -ACCGCTGGCAACCAGATCTTTGATCTTGTTCTGAACTTTGGTGAACTCTTCCGGACTGTTCAGGTGCCAG -GTCGAAACGCCTTTCAGCATTTCGGAGGCTTTGGTTGGGTCAGCTTGCAGTGCAGAAGTGATGTCCACCC -AGTCCAGCGCCGAAAGCTGATAGAAATGAACAATATGGTCATGCGTGGTGTGCGCAGCCAGAATGATGTT -ACGGATGTATTGCGCGTTAACCGGAACGTCGATATTCAGCGCACTTTCTGCCGCACGAACGGAAGACAGC -GCGTGAGTGGTAGTACATACGCCACAGATACGTTGCACAATCATCCATGCATCGCGCGGATCGCGGTTTT -TCACGATCTCTTCCATGCCGCGCCACATGGTACCGGAAGCCCATGCTTTCGAAACGACGCCATTTTCGAT -TTCGCAATCGATGCGTAAATGCCCCTCAATACGGGTTACCGGATCAATAGTAATTCTCTGGCTCATGCTT -TGCTCGCCTCATGACGATTATGATCGTTTTGTTTTAAAGGAGGAAGTATCGGCAGTAGACGAATGAGTAC -GATGTAAGCGCAAATCTCAATAGCCACAAAACCAATAGAAATCAACAGTTCTTCCCAGGTCGGGAAGTAG -GCGTAACCGCCGCCCGGGTTGAATGCCACCAGCGAATAGGTCAGACGCCAGGTTGCACAACCTAACAGTG -CGCTCAGTGCTGACAGGAACAGCATGCGGGAATCATTACGCAGCTTCGCCACACGCAGAACGACCAGCGG -GAAGAGCATCAGCAGGACTTCAATCCAGAACATCACGGAGTAGAAGTCACCGGCAAACGCTAACGACAGC -TTGTCGCGATAGATAAGCTCGCCAAAGCGCAGCACGATGAAAATCGCCAGCAACACACTGATGGTGTTGG -TCAGCTTAACAAACAGACTCTTTTCATCCGGACCGTTGCCACGCAGACCCGCCTGCACCAGCGAACCTTC -AAAGATGACAATCGAGAAGCCCATGATGAACGCCGTCAGCAGCGAGAACAGCGGCAACATTTCATAGCTC -TGCCACAACGGATGCACCTTGTAGCCCGCCGAGATCATCAGCGACCCCATTGAAGACTGGTGCATGGTCG -GCAGCAGCGCACCGAGCGCGATGATGAAGAACATCACCTTGTTTAGTCGCTGTAGCGACACCTTCCACCC -CAGACGTTCAAACAGTGCCGGAGCAAACTCCAGTGCCATCACGCCGATATAGATGGTCATACAGACCGCC -GTCTCGAACAGTACCGAGTTCACGTTGAAGTGACCCGGAATGTAGAAGTACGGCAGGTTCCAGTAGCGAC -CCACGTCGATAGTGATCGACAAGCCACCCAGTGAGTAACCAAACAGACTCGCCAACAGCGCCGGACGCAC -CAGCGGATGGTATTGCCCACGGTTAAAGACGTATACCGCCCACGCCAGCGCCCAGCCGCCACAGGCAAAG -CCGGTGCCAATCAGCAGGTCAAACGCGATCCACACGCCCCACGGGAAGCCGCCGTTCAGGTCAGAGACAG -AGCCCAGACCGAACACCAGACGCTTCACAATCAGGAGCATACAGATGACGATTAACGGTCCAAAAATCAT -GACCGGTTTACTGATGATTTTGCCGCCCAGCGGTTGTGGATCATGACTCATGATCGTCTCCTCCGTCGTG -ATGGTCGTTTTTGGTGTTGCGACGAACCAGCACGGTTAAGCCCGCCAGCACAGCCAGTGGTAGCATCATG -CCTTTATACAGGGTGTGTTGAATATTTTCGGAACGCGCACCGGTAGAAAGATCGTCCAGTTTCGGCAGGT -CGAGATTTTCATAAGGCACACCCGTCAGTACCAGAACCTGAGTACCGCCGCCCTCTTTCTCGCCGTACAG -ATGCGGATAATATTTCGGCACCGTATGCAGGTAAGTGTCGCCAGATTTCAGCGTCTGACGCGGATAGTGG -TATTCGCTGCCAGGCTTCAGCGCCAGACGTTTTTTCGCCTCCGCCATCAGCTCTTCACGCGTACCGAAAA -TCACCGCGCCCGCCGGGCACACTTCTACGCAGCCAGGTAGACCGCCTTTATCGAGACGTTCCACACCTTT -CTGGTTGCACAGCTCGCACTTATGCAGCGCACCAAACGGGTTGTTGTAGTCGTACTTCGGCACGTTGTAC -GGACAGGCGACCATGCAGTAACGGCAGCCGGTGCACACATCTTTGTCGTAATGGACAATGCCGGTTTTCG -GATCTTTTTTCAGTGCAGAGACCGGGCACACAGAGACACAGTTCGGATCGACGCAGTGCATACACTGTTT -CTTAATGTACGCGTAGCCGTTCTCCTCCTGGTCTTTGTTGACCCCTGTGCCGCTGGTCCACACCTGAATG -ATGTTATTGGTATACGGCGACAGTTTGTCGTTGTTCGACCAGGTCTGTTCCCCTTGCGGGTTACGTTCAG -GGAAATTGATATCCTGACACTTGGTGACGCAAGCCTGGCAGCCTACGCACAAGGTCGAGTCGTACAACAT -CCCCAGCGATCCCGGAATTGGCGGGCGGTTTTCAGCAGCCGCATGACTGACAGACGGCAGCGCGCCCGTC -AGCAATGCCCCGCAGGAGGCTGCTTTAATAAAATTACGTCTGTTCACGGTTATTCTCCCCGTGAGTCAGC -GTTATCTTTCTTTTGCTGACGACCCAGTTCACGCACCGCCATCACGCTGACACCGGCAACCAACCCAACC -ACACCGCCGAGCAAACCAATAGCGCCTGCAGAGACGTTGCCGCCCTCTTTAGCGTTAACATCCGGTTTCT -GTGAACGCGGAGTTTGATTTTCGACGTTGGCAAGCTGATGGATGCCTTTATGGAAGCCGATACCTTCTTC -GTTACAGCCATAGCAAGGGTGACCAATCGCCACCGGCCACACACCGCCAACATCGCAGAATTGCAGCGTT -GAGCAGTTGCCGTAAGTTTCTGGCCCTTTACAGCCGAGGTGGTACAGGCACCAGCCTTCGCGGTGGCCTT -CATCACCGAACTCTTTGGCAAAACGACCAGCATCGAAGTGCGGGCGACGTTCGCAGTGTTCGTGAATCAG -ACGGCCATAGGCGAAGGTCGGACGGTTTTTGTCATCCAGTTTCGGCGGTTTGCCGTAAGTGATGATGTGC -GCAACGGTCGCGAGGAAGTTGTGCGGGTTCGGCGGGCAGCCCGGAATATTGATAACGGTTTTGCCTGGCA -GAACTTCTTGCAGGCTGACTGCGCCAGTTGGGTTAACTCCAGCTGCGGCAACACCGCCCCACGCAGAGCA -GGAACCGATAGCGATAATGGCTGCTGCGCCTTCCGCCGCTTTGCGGATGTGATCCACAATCGGCTCACCG -GCAACCATGCAATAAATACCGTTATCTTTTAATGGGATGGAACCATCCACCACTAACACATACTGCCCTT -TGTACTTCTCGAGAGCGTTATGTTTGTTCTCTTCGACCTGATGACCGAAGGCGGCGGAAAGCACTTCGTG -ATACTCCAGAGAGATAGTCTCCAGTACGAGGTTTTCTACCGTTGGATGCGTTGCACGAAGCAGAGATTCC -GTACAACCGGTGCACTCCTGCGCGCCAATCCAGATAACTGGCGGACGCTGCGGGTTAGTAACCGATTCGG -CCATCTCTGCAGCGGCTTTGCTACTTAACCCCATGGTGGCGGCTAATGCTGCACAAAGCTTCATGAAATC -ACGACGGTTAATGCCGTGAGAATGGATGAGGGTGTTATCTCCAGTCATTTATAGTTATTCCGTTGCGAAG -ACCTGGCATATATTTTGCCTCAATCGCAAAATCAATAATGCGATCGATGCGCCATTTACCACACATTTAT -TATGGTTATCGATATCATGATACTGCGGCGGGGCGCTAAAACGAAGGGAAGAAGCATTAGTGTAATTAAT -TAAAGCAAGATAATACGTATGTTTGATCAATTTTCGAGGCGATAACCGGCCATAAAAAAGCGCAACGTAG -AACAGGAATTATTCTCACGAAAGAAATCCATTACCATCTCTTTATCCAGTCCATAGCGGCGCGTCAGAAT -ACCCGCTTCCCAGGCGCTAAGCTGGCGATCTCCGGTCTTTTCGTACATCCGGTGTGAGTAGCCTAATACA -AAACCGCGTTTATAATCGGCACAGAATTTTGTCACATTAACCGCACTGTCGGCATGCGTTGCTTTTAATC -CCGCCATTAAGCCTTTACCAAAATGGTTATTCATCGTTCACCTCATTCGCTATATATTGTCATATATAGC -GATATTTTAGGCAAAGAACGACTTTTGCGCACGCTATTTTTTCATGCTTGTTTAAGACGTAATCCCGTAA -GAGATAAACCTATCAGGAGAGATATTTATCGAACCATTTCAGTGTCCTTTGCCAGGCAAGATCGGCGGCA -GATTTGTCATAACGGGGCGTGGAATCATTATGGAATCCGTGATTAACCCCCGGATAGATATACGCCTCAT -AAACCTTATTATTGGCTTTCAACGCCGCCTCGTAAGCAGGCCAGCCCTCGTTGATTCGGGTGTCCAGTTC -CGCGAAGTGGAGTAGTAAAGGCGCTTCAATCTTCGCCACATCGGCAGTGGGTGCCTGACGACCATAAAAC -GGCACCGCGCAGGCCAGTTCCGGATACGCGACAGCCGCCGCGTTCGATACGCCACCGCCATAGCAAAATC -CGGTAATACCCACTTTGCCTGTCGCTTGCGGATAGCGTTGCATAAACTCAATTGCGGCAAAGAAATCATT -CATCAGTTTGTTGGATCAACCTGCTGTTGCAGCTCACGACCTTTATCATCATTTCCCGGATAACCTCCAA -CGGAACTTAAGCCGTCAGGTGCCAGGGCGATATACCCCGCCTTCGCCACTCGCCGTGCCACATCTTCGAT -ATACGGATTCAGTCCACGATTCTCATGCACCACCACTACGGCTGGCGTTTTGCCGCTCATCTTTGCGGGC -TTCACCAGATAACCCCGCACCTCGCCGTGACCATTTGGCGAAGGATACGTGATGTACTCAGCAACAATTT -CCGGGTCGGTAAACTCTACCTGAGTCGCCAGCGCATAATTTGGCTTGAGCAAATCAAACAACGCTAATGC -CGTCATCCCGCCTACCGCACTTCGCCGCAAGGTTGAGGAACTCACGTTTCGAGATTTTCCCGTGAGCGTA -ATAGTCATAGTAATCCAGCAACTCTTGTGGGAAATCTTTGGCGGTTAAACGCGGCATCGTTGCACTCCTC -AGTTGGTGTTTTTTTAAGCAAAGCATAAGCACGTATTTTTGCCCAGTTTTTCGTCACTCTGTGAGCCAGA -CTACGGGATACGCGCTGGCGAATCGCTAAACTAGAAACATTGTTTCGAAATTGAACGGTGGAAAGGAGAG -GTCATGGTCTGGTTAGCGAATCCCGAACGTTACGGGCAGATGCAATACCGCTATTGCGGAAAAAGTGGTT -TACGCCTGCCCGCGTTATCGCTCGGTTTATGGCACAATTTCGGTCACGTTAACGCGCTGGAATCACAGCG -TGCGATCCTGCGTAAAGCGTTTGATTTGGGCATTACGCACTTTGATTTAGCCAACAATTACGGGCCGCCT -CCAGGAAGCGCAGAAGAGAACTTTGGTCGCCTGCTGCGGGAGGATTTTGCCGCTTATCGCGATGAACTGA -TTATCTCTACCAAGGCTGGCTACGATATGTGGCCCGGCCCTTACGGCTCTGGCGGTTCACGTAAATACCT -GCTCGCCAGCCTCGACCAAAGCCTGAAGCGTATGGGGCTTGAGTATGTCGATATCTTTTACTCTCATCGC -GTCGATGAAAATACGCCGATGGAAGAAACCGCCTCTGCGCTGGCTCATGCGGTACAAAGCGGTAAGGCGC -TGTATGTCGGGATCTCCTCTTACTCGCCAGAGCGGACGCAAAAAATGGTCGAGTTGCTGCGCGAGTGGAA -AATTCCGCTGTTAATTCATCAACCTTCGTACAATTTACTGAACCGCTGGGTGGATAAAAGCGGCCTGCTG -GATACCCTGCAAAATAACGGCGTGGGCTGTATTGCCTTTACTCCTCTGGCTCAGGGATTGCTGACCGGAA -AATATCTCAACGGCATTCCGCAAGATTCACGGATGCATCGTGAAGGGAATAAAGTTCGTGGTCTGACACC -GAAAATGCTTACCGAAGCCAACCTCAACAGCCTGCGCTTATTGAATGAAATGGCACAGCAGCGTGGACAA -TCAATGGCGCAAATGGCGTTAAGCTGGTTGCTGAAAGATGATCGCGTGACGTCGGTATTGATTGGTGCCA -GCCGCGCGGAGCAACTAGAGGAGAACGTGCAGGCGCTGAATAATCTGACATTTAGCACCAAGGAGCTGGC -GCAGATTGATCAGCATATCGCCGATGGCGAGCTGAATCTGTGGCAGGCGTCTTCCGATAAATGACCTGTT -AATAACGGGCGCGCGAACCGCGCCCGAATCAGATCAGTGATTATGACGAGTCAGTCGGTCAAGATAGCCC -ATCACAAATGCAGAAAGCACAAACGTCAGATGGATAATGACGTACCACATCAGTTTGTTATCCGGGACAT -TTTTCGCATCCATAAAGACGCGCAGTAAGTGAATGGAAGAAATTGCCACAATCGACGCTGCTACTTTGTT -TTTCAGCGACGTTGCGTCCATTTTCCCCAGCCAGTTCAGCTTCTCTTTGTTCTCGGAGATATCCAGCTGT -GAGACGAAATTCTCATAACCGGAAAACATCACCATCACCAGCAAACCGCCAACCAGCGTCATATCCACCA -GCGACAGCAACACGAGGATCAAATCTGATTCCGCCATCGAGAAGATATTCGGCAGTACGTGAATAATCTC -CTGGAAGAACTTCAGCGCCAGGGCAACTAACGCCAGCGAAAGGCCAAAGTACACGGGGGCAAGCAGCCAG -CGAGAAGCATACATTGCATTTTCAAGAAAACGTTCCATACATTCCTGTCGTGTAGTTAAAACGGGCAACA -GTATATCGCAATTGAGTAAACAGCACGCAACAGCAAATCAACATATACGTTAAACCTTTGTCGCATAATT -CTGAGGTTTAGGGATCTTCCTGGTTCCCTTATCAACGCATCGAGAACGTCTACCCTTAAAGGACGTTGAA -CCTGAAGGGAGAAAAACGATGTCTCATTTAAAAGACCCGACCACGCAGTATTACACTGGTGAATATCCCA -AACAGAAACAACCGACGCCAGGCATCCAGGCGAAGATGACACCGGTACCGGATTGCGGCGAGAAAACCTA -TGTTGGTAGCGGTCGCCTGAAAGATCGTAAAGCACTGGTGACAGGGGGCGATTCCGGAATAGGTCGCGCT -GCCGCCATCGCTTACGCGCGTGAAGGGGCTGACGTGGCGATCAGTTATCTTCCCGTGGAAGAAGAAGACG -CTCAGGATGTGAAAAAGATCATTGAAGAATGCGGACGCAAAGCCGTTCTGCTGCCAGGCGATTTAAGCGA -TGAGAAATTTGCCCGTTCGCTGGTTCACGAAGCGCACAAGGCGTTAGGCGGGCTGGATATTATGGCGCTG -GTCGCCGGGAAACAGGTTGCCATTCCGGATATTGCAGACCTCACCAGCGAACAGTTTCAAAAGACCTTTG -CCATTAACGTTTTCGCGCTGTTCTGGCTAACCCAGGAAGCGATCCCCCTGCTACCGAAAGGTGCAAGTAT -CATCACCACTTCGTCAATCCAGGCATACCAGCCAAGTCCGCATTTACTGGACTATGCGGCTACGAAGGCG -GCGATTCTGAACTACAGCCGTGGCTTGGCAAAACAGGTCGCGGAGAAAGGTATTCGGGTGAATATTGTCG -CGCCAGGCCCGATCTGGACAGCACTGCAAATTTCCGGCGGACAAACGCAGGATAAGATCCCGCAGTTTGG -TCAGCAAACGCCGATGAAACGTGCGGGGCAACCGGCGGAACTGGCCCCTGTATATGTTTATCTGGCAAGT -CAGGAGTCGAGCTACGTCACCGCAGAAGTGCACGGCGTGTGCGGCGGCGAGCATTTAGGTTAAAAAAATG -CCCGGTTGTGAAAAGCAACCGGGCATCATTGTGAATTCACTCTTACCTGATGTGGCGAAAACGCCTTATC -CGCCTACAAACGCATGAAGATTCAACATGTTGCAATAGATTTTGTAGGCCTGATAAGCGTAGCGCATCAG -GCATTGAGCACCTAATGCCGGATGCGTCGTGAACGCCTTATCCGGCCTACAAACGCACGAAGATTCAACA -TGTTGCAATAGATTTTGTAGGCCTGATGAGCGTAGCGCATCAGGCAATTCTACTTTACTTCGCTTTGGCG -GTTTCTTCGCCGACCAGACCTATCTTCAGGTAACCCGCCTGATGCAGCGTATCCATTACCTTCATCAACG -TCTCGTAATCGACGGTTTTGTCCGCTCGGAAGAAGATGGTGGTGTCTTTCTTGCCTTCGGTTAACGCATT -CAACGCCGTAATCATTGTTTCATCGGTGACCGGATCGTTACCGATAAACATCGAGTTGTCTGCCTTCACC -GACAGATAAACCGGTTTTTCCGGGCGCGGCTGCGGCGTGCTGGTAGAAGCAGGCAAGTTCACCTTCACAT -CTACCGTCGCTAACGGTGCCGCCACCATAAAGATAATCAGCAGAACCAACATCACGTCGATAAACGGCGT -CACGTTGATATCATGCATTTCGCCGTTATCGTCGAGGTTTTCGTTAAGATGCATTGCCATCGGATATTAT -CCTGCGCGTAATTTTTGTGCGACACGAACCGGATGCGCAGCGGCGCTGGCTTCCAGATCCAGGTCACGGC -TTTGCAGCAACAATACCTGCGCTGCAACATCACCCAGCATCGCTTTAAAGCCGCCAATCTGGCGTGCAAA -TACGTTATAGATAACGACCGCAGGAATCGCTGCCACGAGGCCGATTGCCGTTGCTAACAGAGCTTCTGCG -ATACCCGGCGCAACGACTGCCAGGTTAGTGGTCTGCGTTTGCGCGATACCAATAAAGCTGTTCATGATGC -CCCAGACCGTACCAAACAGACCAACGAACGGAGAAATCGCGCCGATGGTTGCCAGATAGCCGTTACCGCG -GCCCATTTGACGACCCACTGCGGCGACCCGACGCTCCAGACGGAAGCTGGTACGTTCTTTAATACCTTCG -TTATCGTCGCTGCCTTCTGACAGTTCCAGCTCATTCTGCGCTTCATTGAGCAAATGCAGGCTTAAGCTTT -TGCTACCAAAATCAGCGGCGATATCGTTGGCCTGGTTTAAGGAACGCGCTTCAGCCAGCAGTTGCTGCTC -GCGCTTAAGGCGACGCTTCTGATTGAAGAACTCTACGCTCTTACTGAAGAAGATTGCCCAGGTGACTACG -GAGGCCAAAATAAGCCCAATCATCACGCACTTAACGACAATATCGGCGTGCTGATACATACCCCAGACGG -AAAGGTCCGTCTGCATTAAATTATTACCCACTGTGTATCTCCAGGACGCAAGTCACAAAATCTGCGCATA -ATAATATCAAAACGACGTCGAATTGATAGTCGTTCTCATTACTATTTGCATACTGCCGTACCTTTGCTTT -CTTTTCCTTGCGTTTACGCAGTAAAAAAGTCACCAGCACGCCATTTGCGAAAATTTTCTGCTTTATGCCA -ATTCTTCAGGATGCGCCCGCGAATATTCATGCTAGTTTAGACATCCAGACGTATAAAAACAGGAATCCCG -ACATGGCGGACAAAAAGCTTGATACTCAACTGGTGAATGCAGGACGCAGCAAAAAATACACTCTCGGCGC -GGTAAATAGCGTGATTCAGCGCGCTTCTTCGCTGGTCTTTGACAGTGTAGAAGCCAAAAAACACGCGACA -CGTAATCGCGCCAATGGAGAGTTGTTCTATGGACGGCGCGGAACGTTAACCCATTTCTCCTTACAACAAG -CGATGTGTGAACTGGAAGGTGGCGCAGGCTGCGTGCTATTTCCCTGCGGGGCGGCAGCGGTTGCTAATTC -CATTCTTGCTTTTATCGAACAGGGCGATCATGTGTTGATGACCAACACCGCCTATGAACCGAGTCAGGAT -TTCTGTAGCAAAATCCTCAGCAAACTGGGCGTAACGACATCATGGTTTGATCCGCTGATTGGTGCCGATA -TCGTTAAGCATCTGCAGCCAAACACTAAAATCGTGTTTCTGGAATCGCCAGGCTCCATCACCATGGAAGT -CCACGACGTTCCGGCGATTGTTGCCGCCGTACGCAGTGTGGTGCCGGATGCCATCATTATGATCGACAAC -ACCTGGGCAGCCGGTGTGCTGTTTAAGGCGCTGGATTTTGGCATCGATGTTTCTATTCAAGCCGCCACCA -AATATCTGGTTGGGCATTCAGATGCGATGATTGGCACTGCCGTGTGCAATGCCCGTTGCTGGGAGCAGCT -ACGGGAAAATGCCTATCTGATGGGCCAGATGGTCGATGCCGATACCGCCTATATAACCAGCCGTGGCCTG -CGCACATTAGGTGTGCGTTTGCGTCAACATCATGAAAGCAGTCTGAAAGTGGCTGAATGGCTGGCAGAAC -ATCCGCAAGTTGCGCGAGTTAACCACCCTGCTCTGCCTGGCAGTAAAGGTCACGAATTCTGGAAACGAGA -CTTTACAGGCAGCAGCGGGCTATTTTCCTTTGTGCTTAAGAAAAAACTCAATAATGAAGAGCTGGCGAAC -TATCTGGATAACTTCAGTTTATTCAGCATGGCCTACTCGTGGGGCGGGTATGAATCGTTGATCCTGGCAA -ATCAACCAGAACATATCGCCGCCATTCGCCCACAAGGCGAGATCGATTTTAGCGGGACCTTGATTCGCCT -GCATATTGGTCTGGAAGATGTCGACGATCTGATTGCCGATCTGGACGCCGGTTTTGCGCGAATTGTATAA -CATTGCCACTTTTGGACAATTTTGCAGACATTTTATTGTGAAAAGTCTTAAATTGTTGCGTCCGGGATCA -AGGCGTCCCGGACGATTCAGGAGTACAATAGGCAGATAAAGGCTTAAACGCTGTTCCACAGGAAAGTCCA -TGGCTGTTATTCAAGATATCATCGCTGCGCTCTGGCAACACGACTTTGCCGCGCTGGCGGATCCTCATAT -TGTTAGCGTTGTTTACTTTGTCATGTTTGCCACGCTGTTTTTAGAAAACGGCCTGCTGCCCGCCTCATTT -TTGCCAGGCGACAGCTTGTTGATACTGGCAGGCGCATTGATTGCCCAGGGGGTTATGGATTTTCTGCCTA -CGATTGCGATTCTGACCGCCGCAGCAAGTCTGGGCTGCTGGCTAAGTTATATTCAGGGGCGCTGGTTAGG -GAATACCAAAACGGTGAAAGGCTGGCTGGCACAGCTTCCTGCTAAATATCACCAGCGCGCCACCTGCATG -TTTGACCGCCACGGTCTGCTGGCGCTGCTGGCTGGACGTTTTCTTGCATTTGTCCGTACGCTGCTGCCAA -CCATGGCGGGAATTTCCGGTCTGCCAAACCGCCGCTTCCAGTTTTTCAACTGGTTAAGTGGATTGCTGTG -GGTCAGCGTGGTAACCAGTTTTGGCTATGCCTTAAGTATGATTCCGTTCGTTAAACGCCATGAAGATCAG -GTAATGACGTTCCTGATGATCCTGCCAATTGCCTTGTTAACCGCTGGCTTGTTAGGCACGCTGTTTGTGG -TGATTAAAAAAAAATACTGTAACGCCTGACGATTTTCCCCGTTCCCGGTTGCTGTACCGGGAACGTATTT -AATTCCCCTGCATCGCCCGCATTCTTGCCGCATCTTCCCCCGGCGTCACACCGAAGTAACGTTTAAACTC -ACGGCTAAATTGCGATGCGCTTTCATAGCCGACGCGCATCGCTGCTGCGCTGGCCTTCATGCCGTCATGG -ATGATCATCATCCGCGCCTTATGCAGACGGTAATTCTTCAAATACTGCAACGGCGAGGTACTGGTGACAG -ACTTAAAATTATGGTGGAACGCCGATACGCTCATGTTGGCTTCTGCCGCCAGTTGCTCGACGCTCAGGTT -TTCGGTGTATTTATTCTCAATCCGTTTCAGCACGCGGCTAATCAGACTGAAGTGAGTCTGGCGACTGACC -AGCGCCAGTAACGCGCCGCCGCAAGGTCCGGTCAGCACGTAGTACAGAATTTCGCGGATGATCTGTTTGC -CGAGAATACGCGCATCCAGTGGTCGCTCCATCACGTCGAGTAACCGCTCCGCCGCGCATAAAATCTCTTC -TGATAACGTGGCGGAGTTAATCCCGCTGGCTGCCATCGACGGCTGGAAATGCTCATCTTCGCCAATGTCC -ATCAACAGTTCCTGTAACTGCAAAATATCGACATTGAGACGCAACCCTGCCAGCGGCACCTCTGACGTGG -CATAGGTTTCGCACTCAAACGGCAACGGCACCGTCAGCAGCAGGTATTCATTGGCATCATAACGAAACAC -GCGTTCATTGATATAACCGATTTTATGCCCGGAAAAGAGAATTATGATGCCAGGCTCGTACATCACCGGT -GTACGTGCGAAAGGCGTCTCGCCATACAACAAACGCACATCGGGCAACAGTCCTGACAAACTATTTTCTT -TATTTTTCAGTTTATTAACTTTATCCGCCAGCAAGCGGCAAATCTCTTCACGTTTCATATCGCGTAATTT -CTTAGGAATAATGCGGCAATTTGATTGTGCGCAATTTTGTAGCATTTCTCCAGCACTCTGGAGAAATAGG -CAAGACATTGGCAGAAATGAGCATTGAGAGCCAGGGCGCTGGCGATCACAATGAAAAACATCAGGCAGAT -CGTTCTCTGCCCTCATATTGGCCCAGCAAAGGGAGCAAGTAATGAACAACTTTAATCTGCACACCCCAAC -CCGCATTCTGTTTGGTAAAGGCGCAATCGCTGGTTTACGCGAACAAATTCCTCACGATGCTCGCGTATTG -ATTACCTACGGCGGCGGCAGCGTGAAAAAAACCGGCGTTCTCGATCAAGTTCTGGATGCCCTGAAAGGCA -TGGACGTGCTGGAATTTGGCGGTATTGAGCCAAACCCGGCTTATGAAACGCTGATGAACGCCGTGAAACT -GGTTCGCGAACAGAAAGTGACTTTCCTGCTGGCGGTTGGCGGCGGTTCTGTACTGGACGGCACCAAATTT -ATCGCCGCAGCGGCTAACTATCCGGAAAATATCGATCCGTGGCACATTCTGCAAACGGGCGGTAAAGAGA -TTAAAAGCGCCATCCCGATGGGCTGTGTGCTGACGCTGCCAGCAACCGGTTCAGAATCCAACGCAGGCGC -GGTGATCTCCCGTAAAACCACAGGCGACAAGCAGGCGTTCCATTCTGCCCATGTTCAGCCGGTATTTGCC -GTGCTCGATCCGGTTTATACCTACACCCTGCCGCCGCGTCAGGTGGCTAACGGCGTAGTGGACGCCTTTG -TACACACCGTGGAACAGTATGTTACCAAACCGGTTGATGCCAAAATTCAGGACCGTTTCGCAGAAGGCAT -TTTGCTGACGCTAATCGAAGATGGTCCGAAAGCCCTGAAAGAGCCAGAAAACTACGATGTGCGCGCCAAC -GTCATGTGGGCGGCGACTCAGGCGCTGAACGGTTTGATTGGCGCTGGCGTACCGCAGGACTGGGCAACGC -ATATGCTGGGCCACGAACTGACTGCGATGCACGGTCTGGATCACGCGCAAACACTGGCTATCGTCCTGCC -TGCACTGTGGAATGAAAAACGCGATACCAAGCGCGCTAAGCTGCTGCAATATGCTGAACGCGTCTGGAAC -ATCACTGAAGGTTCCGATGATGAGCGTATTGACGCCGCGATTGCCGCAACCCGCAATTTCTTTGAGCAAT -TAGGCGTGCCGACCCACCTCTCCGACTACGGTCTGGACGGCAGCTCCATCCCGGCTTTGCTGAAAAAACT -GGAAGAGCACGGCATGACCCAACTGGGCGAAAATCATGACATTACGTTGGATGTCAGCCGCCGTATATAC -GAAGCCGCCCGCTAAGCTTTTTACGCCTCAAACTTTCGTTTTCGGGCATTTCGTCCAGACTTAAGTTCAC -AACACCTCACCGGAGCCTGCTCCGGTGAGTTCATATAAAGGAGGAACGTATGGCTAATCCAACCGTTATT -AAGCTACAGGATGGCAATGTCATGCCCCAGCTGGGACTGGGCGTCTGGCAAGCAAGTAATGAGGAAGTAA -TCACCGCCATTCAAAAAGCGTTAGAAGTGGGTTATCGCTCGATTGATACCGCCGCGGCCTACAAGAACGA -AGAAGGTGTCGGCAAAGCCCTGAAAAATGCCTCAGTCAACAGAGAAGAACTGTTCATCACCACTAAGCTG -TGGAACGACGACCACAAGCGCCCCCGCGAAGCCCTGCTCGACAGCCTGAAAAAACTCCAGCTTGATTATA -TCGACCTCTACTTAATGCACTGGCCCGTTCCCGCTATCGACCATTATGTCGAAGCATGGAAAGGCATGAT -CGAATTGCAAAAAGAGGGATTAATCAAAAGCATCGGCGTGTGCAACTTCCAGATCCATCACCTGCAACGC -CTGATTGATGAAACTGGCGTGACGCCTGTGATAAACCAGATCGAACTTCATCCGCTGATGCAACAACGCC -AGCTACACGCCTGGAACGCGACACACAAAATCCAGACCGAATCCTGGAGCCCATTAGCGCAAGGAGGGAA -AGGCGTTTTCGATCAGAAAGTCATTCGCGATCTGGCAGATAAATACGGCAAAACCCCGGCGCAGATTGTT -ATCCGCTGGCATCTGGATAGCGGCCTGGTGGTGATCCCGAAATCGGTCACACCTTCACGTATTGCCGAAA -ACTTTGATGTCTGGGATTTCCGTCTCGACAAAGACGAACTCGGCGAAATTGCAAAACTCGATCAGGGCAA -GCGTCTCGGTCCCGATCCTGACCAGTTCGGCGGCTAACATGCAAATTCTCCCGGTGGCGGTAATGTTCCG -CTACCGGACTTTTCAGAAATCATTTATTCCCCTCGCGTCCCGCCCGTTGTTACTCTTCCTTGTTCAGGAA -TGCCAAATATAAGGACATCATCATGCAGAGCCGGAAGCTCTTAAAAGAACAACTCATCTATATCCGGGAT -AAACGCAACGGAGAGGTGAAAAACAGATGAAAATAATACTTCTGTTTTTAGCAGCCCTGGCAAGTTTTAC -CGTACACGCACAGCCCCCCTCACAGACCGTAGAACAAACAGTCCGGCATATTTATCAGAACTATAAATCA -GATGCCACTGCCCCTTATTTTGGTGAAACCGGAGAGCGGGCGATAACTTCTGCGCGTATTCAACAGGCGC -TTACCCTGAACGACAATCTTACGCTGCCGGGCAATATTGGCTGGCTGGATTATGATCCGGTTTGTGATTG -TCAGGATTTTGGCGATCTGGTGCTAGAAAGCGTTGCGATAACCCAAACTGACGCCGATCATGCCGATGCC -GTTGTGCGCTTTCGTATCTTTAAAGATGATAAAGAAAAGACCACGCAGACACTGAAAATGGTGGCGGAAA -ATGGTCGTTGGGTCATTGACGATATTGTCAGCAATCATGGCAGCGTCTTACAAGCAGTTAATAGCGAGAA -TGAAAAAACGCTGGCCGCTTTAGCTTCGTTGCAAAAAGAACAGCCGGAAGCCTTTGTTGCCGAACTCTTT -GAACATATTGCTGATTATAGCTGGCCGTGGACGTGGGTGGTTTCCGACTCTTACCGCCAGGCGGTTAATG -CCTTCTATAAAACCACCTTCAAGACGGCCAATAATCCCGATGAAGATATGCAAATAGAACGGCAATTTAT -TTACGACAATCCGATCTGTTTTGGCGAAGAGTCGCTATTTTCACGCGTTGATGAAATTCGAGTCCTGGAG -AAAACCGCCGATTCCGCCCGCATTCATGTTCGTTTTACGCTGACCAATGGCAACAACGAAGAGCAAGAAC -TGGTTTTACAGCGGCGCGAAGGCAAGTGGGAAATCGCTGATTTTATCCGCCCGAACAGCGGCAGCCTACT -TAAGCAGATTGAGGCAAAAACTGCCGCCAGATTAAAGCAATGAGCTGAATTAAATAACAATTAGCCGGAA -CAATAAATAAAAGGGAACACTATATGAAAACGATTTTCACCGTGGGAGCTGTTGTTCTGGCAACCTGCTT -GCTCAGTGGCTGCGTCAATGAGCAAAAGGTCAATCAGCTGGCGAGCAATGTGCAAACATTAAATGCCAAA -ATCGCCCGGCTTGAGCAGGATATGAAAGCACTACGCCCACAAATCTATGCTGCCAAATCCGAAGCTAACA -GAGCCAATACGCGTCTTGATGCTCAGGACTATTTTGATTGCCTGCGCTGCTTGCGTATGTACGCAGAATG -ATAAAAAAATCCCCGGTAGCGTGTCAGTTGCCGGGGATATTTTTTAACGTCCAACCGCCGCTTTAGGCCG -TTTCTTCGCACCAGCATTCACCGGACGAGATTGCGTAGACGACGCTTTTTTTGCCGTAGCAGGCGTCTGA -CGCTGGGTCGCCATCGGCGTATGTTTCGTCAACGCCGGACGGGTATTGCGGTTCTGGCGACGAGCTTCAC -GCATCTCTTCAATGGTTGGCGCAGGCACTAAGCAATCGCGACGGCTGCCAATCAGATGCTTTTTGCCCAT -CGCTTCCAGCGCCTGGCGGATTAACGGCCAGTTTGCCGGATCGTGGTAACGCAACAACGCTTTATGCAAA -CGACGCTGTTTGTCGCCCTTCGGTACGAAGACGTCTTCGCTCTTATAACCAATCTTCGCCAGCGGGTTTT -TCCCGGTGTAATACATGGTGGTTGAGTTCGCCAGCGGCGACGGATAGAAGTTCTGCACCTGGTCGAGGCG -GAAGCGGTGCTTTTTCAGCCACAGCGCCAGATTCACCATATCTTCATCACGCGTACCGGGGTGCGCGGAG -ATGAAATAGGGGATCAGATACTGCTCTTTACCTGCCTGTTTTGAGTAAGTATCGAACAGCTCTTTAAAGC -GGTCATAGCTGCCCATGCCCGGCTTCATCATCTTCGATAACGGCCCTTCTTCGGTATGTTCCGGGGCAAT -CTTCAGATAACCGCCGACGTGATGGGTCGCCAGTTCTTTGATATAGCGCGGATCTTCTACGGCTATGTCA -TAACGCACACCAGAGGCAATCAGGATCTTTTTAATGCCTTTCAGATCACGCGCACGGCGATAGAGGTTGA -TCGTTGGTTCGTGGTTCGTGTCCATGTGCGGACAAATATCCGGATAAACGCACGACAAACGGCGACAAGT -TTGTTCAGCGCGTGGCGATTTGCAGCGCAACATATACATGTTGGCAGTTGGCCCACCAAGATCGGAAATC -ACGCCCGTAAAACCTGGAACGGTGTCGCGGATCGCTTCGATCTCATTAATGATCGAATCTTCGGAACGGC -TCTGAATAATGCGCCCTTCGTGCTCGGTGATAGAACAGAAAGAGCAGCCGCCAAAGCAGCCACGCATAAT -GTTGACCGAAAAACGGATCATTTCGTAAGCCGGAATACGGGCATTGCCATAGGCCGGATGTGGCACGCGC -TTGTATGGCAGCGCAAAAACGCTGTCCATCTCTTCGGTAGAAAGCGGAATAGCAGGCGGGTTGATCCACA -CATAGCGGTCGCCGTGTTTTTGCATCAATGCGCGGGCACAGCCTGGGTTGGTTTCGTGGTGCAGAATACG -CGAAGCATGGGCGTACAGCACTTTATCGCCCTTCACTTTCTCGAAAGAAGGCAGCAACACGTAGGTTTTT -TCCCACGGTTTCGGGCGCGGTGGCTGCACGGTTACGGCTTTGGCTTCCTGCTTTTTCGGTGCCACCGGTT -TGTTATCCGCGCACGGCAAATCTTCACCATACGGATGCGGGATTGGGTCGATTTTTCCAGGGGTATCAAG -ACGGGTGGAATCCACGCCGCTCCAGCCAGGCAGCGCCTCTTTCACGATAATCGCGGTATTACGCACATCG -CGGATTTCACTAATTGGCTCGCCCATCGCCAGACGATGCGCCACTTCCACCAGCGGACGCTCACCGTTAC -CAAACATCAGCATGTCGGCTTTCGAATCCACCAGCACGGAACGGCGCACGGTATCGGACCAGTAATCATA -ATGCGCGGTACGGCGCAGACTAGCCTCAATACCGCCGAGGATCACCGGTACATCTTTCCACGCCTCTTTA -CAACGCTGGGTATAAACCAGTGTGGCGCGATCCGGGCGCTTACCCGCGACGTTATCCGGCGTGTAGGCAT -CGTCATGACGTAAACGGCGATCGGCGGTATAACGGTTGATCATCGAATCCATGTTGCCAGCAGTAACACC -GAAAAACAGATTCGGTTTACCCAGACGCATAAAGTCGTCTTTGCTGCTCCAGTCCGGCTGGGCGATGATC -CCGACGCGAAAGCCCTGCGCTTCCAGCATACGACCGCAAATCGCCATCCCGAAGCTTGGGTGATCGACAT -ACGCGTCGCCAGTAACCAAAATGATGTCGCAGCTATCCCAGCCAAGTTGATCCATCTCTTCACGAGACAT -CGGCAAAAACGGTGCCGGTCCAAAACAGGCGGCCCAGTACTGCGGCCAGGAGAACAGGTCGCGATCCGGT -TGGATCAGGGAGATAGAGCTCATTTTGCTTCCAGAAATGATAAAAAAATAATCAAAGGCCGGGGATTATA -AGCCGGAACGAAAGAGAAATCGAAAGGTATTCCATACTCGCCCTCCTCGGGCGAGTATGAAGATTACGGT -ACCGGATTGACCAACAGTTGCCCAATCGAGCCACGGTCCGCCATTTCCAGCGTCTGACTGTTGAAGTAGA -ACGGGAAGTGCGCCCAGGAAGGCTGACCGAAATAAACAAGCAGCTCCACTTGTCCGTCAACCCAAACGGT -ATCTTTCCAGCCTCTGTCTTCCGGGAACGGCATCGCGCCATTCACGTTACGGATCTGGAACATTACGCCT -TCAATATGGAACGCTTGCGGCTCGTCCGCGCGTACCGTCCAGCGTTCCCACGTTCCTTGCTGCGCGGTGA -CATCAATACGGTTGACGTCCCACAGCTGTCCATTAATACCCGGGTCATCACCCAGACTGATATCGCGACT -GCGAATTGGCGAACCAGCCATGATTTCAGTTGGCAGCAAGCGCATCGGAAGACTGTCTGTGACCAGCGGC -AGAAGGCCGGTTGGGCGCAGCGTTAGCACCAGGGTAGAAACCAGAATACTGGATGGCTCAAAGAAGCCAC -GAATACGATCAACAATGCTCGCCGCTTCGCCACAGGTGATCGACACTTCATCGCCGTTGCTCATATCCAC -CAGAATCTCGCGGCGCTCGCCCGGTGCCAGCGAAAGTTGCTTCACCGATACAGGAGCAGGCAGGAATCCC -TGATCGCCAGAAATCACATGTAACGGGCGACCATCGTTCATCTGTAGTTGATAGCGACGAGAGTTCGACG -CGTTCAGCAGTCGCAAGCGCACCCAGCCACGCGAGACTTCAACGTACGGGCTTTGTACACCGTTAACCAG -CAGCGTATCACCAACAAAGCCGCCGCTTCCCGGTTCGTTGTATTCTGGCGTACCAAAGTTATCCAGCCGT -TTATCCTGGATAATGACCGGAAAATCATCCACACCATAATGGTTGGGGATAGGCAGCGACTTGCTGACTT -CATCTTCCACCAGCCACATTCCGGCAAGGCCGTTATAGACCTGCTGAGCCGTGCGGTTGGGAGTATTGGC -GTGATACCACAGAGTAGCTGCGTTCTGGCGAATGGGCAGTACGGGTGCCCAGTCAGCGTTTGGCGACATC -ATCCGTGCCGGACCGCCCATCAGCGGGCCTGGTACCTGTAGCCCGGCCACCGTCATTGAGACATTTTCTG -TCAGGCGGTTGCTGTAAATAAGCTTAACATCGTCGCCCTTCCAGACGCGGATAGTCGGCCCCAGGTAACG -ACCATTGATTCCCCAGACCGACGCGCGTGTCCCTGGCGTAAATGACCAGTGCGCACGTTGTACAGTCATA -AACAGCGGTTGCCCACGGCGAGATTCAAGTAGCGGCGGAACGGGTAGCGGTTGCTGTTGCCCGGCTGCGC -TGGCCTTCAGGGGAACAGCGCCTGCACAAAGTGCAATCCCCGATGCCTGAATGAACTGACGCCGACTGAG -TGACATATTTGCTCCATGTAAAACTGGCTAAAGTAATACCGTGCAGGAAAGTGTTCCCCGCAAAAATACA -GATTGCCGACTTAAACTTTTCCGGCGGCTTCGCGTTCTGCGACTTCTTTATCGAGCTCGGCGATTTTTTG -TTCCATTATCGAACGACAATGGGCAGCCAGCTCACGAACCTGATCTTTGCCATACTGACTGACGTCAATT -GGCGGCAGCATTTCGACAATCACCAGACCGTTGTGCAGTCGATTAAGATTAATCTTATTCGAAGTTGTAG -AGACGCACACGGGAATAATCGGGACGCCCGCCGCAATTGCCGCGTGAAATGCTCCAGTCTTGAACGGTAG -CAGGCCGCGACCACGGCTGCGGGTTCCTTCCGGGAACATCCAGATGGAAATACGGCGTTTTTTGAAGTGA -TTCACTACTTCCGCAATGGTGCCGTGAGCTTTAGTGCGATTGTTTCTGTCGATCAATAAGTTGCCGGTTA -ACCAGTACAACTGCCCGAAGAAGGGGATCCACAGCAAGCTCTTTTTACCTACCGTCACCGTCGGCGGTTG -CACGATGTTCGATGCTGTCACCATGTCATAGTTGTTCTGGTGGTTAGCGATATAGATAGCATTGCCGTAG -CTTTCAGCGTCTGTAGGTTTACGGCACTCAACTTTCAGGCCAAACAGCGGCGCAAGACGGCCAAACATAT -GCCCAAAGGTGGCCACATGTTTCGGGTTACGCGGGCTGAAAAGGCAGTAAATGGAGCCGAATACACAGAC -TAAGATGCTGTAAATCACGGTAATAATAAGACGAAAGATATATAGCATAACACCCTCTGAAGGTCTGAGA -GACTGGCATTGTACGTCACCTGAAATCAGGTTAGGGCATTGTTAAAAGCCGCTCTCTGGAAAAGCGTATT -GTTAATCGCAACGCATGAATAAACAACGGTTTCAAGGGAATTTTTATCGTTTCCGGGGGTTGAATACGCT -GCCGGATGACGACTTAACGTTTCATCCGGCGTTCCTTGCAAGCGGGAGGAAACAGCGCCCTCCCCGGCAT -ATTACTCTTCGCTATCACCGCTGCTGGCACGGCGAGGAGAGTCGATCTCAACACGATCGATACGCTGCAA -ACCGCGCATCAACGTACCGCGGCGTCCACGTTCGCCAGTGACTTTCTGTAACTCTTCCGGGCGCAGTTTA -ATTTTGCGTTTCCCAACATGAATGGTCAGCGTGCTTTGCGGCGGCAGAACGTACAATTGCGCCAGACCAT -CTTCTCCACGCGCGGCTTCTGCCGATGGAATGTTGATAATCTTGTTGCCTTTGCCCTTCGACAGCTGCGG -CAGATCACTTACCGGGAACATCAACATACGGCCTGCCTGAGTGATTGCCAGCAGCATATCGGAAGCATCT -TCAATCACCACCGGCGGCATAACATGGGCATTTTCCGGTAAGGTGATCAAAGCCTTACCTGCACGGTTAC -GCGCCACCAGATCGTTAAAGGTGCAGACGAAACCGTAACCCGCATCGGAAGCCATCAGCAGTTTCTGATC -GTCGCTTTCCATCAGCATATGGTCAACGGTCGCCCCAGGCGGCAACGTTAATTTGCCGGTGAGCGGCTCG -CCCTGACCACGCGCCGACGGCAGCGTAATCGGGTCAATGGCATAGCTACGACCGGTGGAATCAACAAACA -CTACCGGTTGGTTGCTCTTACCTTTCACCGCCGCTTTGAAGCTATCACCCGCTTTATAATTCAGGCCCGG -CGCGTCGATATCATGGCCTTTAGCGCTGCGTACCCAGCCCATCTGCGACAGCACAATGGTGACAGGTTCA -GACGGCAGCATGTCGTGCTCGCTCATCGCTTTCGCTTCTTCGCGTTCCTGCAACGGCGAACGACGATCGT -CACCGTAGGCTTGCGCGTCTGCCTGCAGTTCTTTCTTCAGCAGGTTATTCATTTTACGCTCGGAAGCCAA -AATGCCCTGCAACTGGTCGCGCTCTTTTTCCAGTTCACTCTGCTCACCGCGAATCTTCATCTCTTCCAGT -TTGGCAAGATGACGCAGTTTCAGTTCGAGGATCGCTTCCGCCTGGGTTTCCGTAAGGCCAAACCGCGACA -TCAGCGCCGGTTTCGGTTCATCTTCATTACGAATGATCTCAATCACTTCGTCGATATTGAGAAACGCCAC -CAGCAAACCTTCGAGGATATGCAGGCGCTTGAGGACTTTCTCCAGACGATAGTTCAGTCGGCGGCGCACG -GTATCGCGGCGGAACACCAGCCATTCGGAGAGGATTTCCAGCAGGTTTTTCACCGCCGGACGACCATCCA -GACCGATCATATTAAGGTTAATACGATAGCTCTTTTCCAGATCGGTGGTAGCGAAGAGGTGGTTCATCAC -CTGATCCATATCCACGCGGTTGGAACGCGGCACAATCACCAGGCGGGTCGGGTTCTCGTGGTCAGATTCA -TCGCGCAGATCGTCAACCATCGGCAGCTTTTTGTTGCGCATTTGCGCAGCAATTTGCTCCAGTACGCGCG -CACCTGAAACCTGATGCGGCAATGCGCTGATAACCACCGCGCCATCTTCTTTCTTCCACACCGCGCGCAT -ACGCACTGAACCACGTCCGTTCTCGTAGATTTTACGGATCTCGGCGCGCGAAGTGATAATTTCCGCTTCA -GTCGGATAATCCGGCCCCTGCACGATATCCAGCAGCTGATCGAGCGTGGTTTTCGGCTGGTCGATTAATG -CGATTGCCGCCTGAGCCACTTCACGCAGGTTATGCGGTGGAATATCGGTCGCCATGCCGACGGCAATACC -GGTGGTGCCGTTAAGCAAAATGTTTGGCAGACGGGCAGGTAGCATTTTCGGCTCCTGCAAAGTGCCGTCG -AAGTTTGGCACCCAGTCAGCCGTCCCCTGCCCCAGCTCGCTCAATAGCAGCTCGGAATATTTCGACAACC -GGGATTCGGTGTAACGCATTGCCGCGAACGATTTCGGATCGTCCGGCGCGCCCCAGTTCCCCTGACCATC -AACCAGCGGATAACGGTAAGAGAACGGTTGCGCCATCAGGACCATCGCTTCATAACAGGCGCTATCGCCG -TGCGGATGGTATTTACCCAGTACGTCACCGACGGTACGGGCCGATTTTTTAAATTTGGCGCTGGCATTCA -GGCCCAGTTCAGACATCGCATACACAATGCGGCGCTGAACAGGTTTCAGACCATCACCAATAAACGGCAA -CGCACGGTCCATGATCACGTACATGGAGTAGTTTAAGTAGGCGTTTTCCGTAAATTCATGTAGCGCAAGG -CGCTCTGCCATATCGCTCATTAATTCTGATTCCTCAACTTATTCGCCAGCCTTCAAAGGGGCAATATTGC -CGGAGATACTACATTATCTGCCGCGTCGAGTCACAGGAGATCAACGTGAATAGCGCCGCCGGACGTGCTC -CGACGGCGATAAAGGCATCAATGTGCCTTGATATACAACTCTTTGCTGTAGACATAATCCTGGGGATTAT -GCAGCGGAAAACCGCCAACGTAGGGTTTAAGCAGTTTGATTAACGGCTGATAGTAGATAGGAATCAGCGG -TGCCTGTTGGTTGATGATCACTTCTGCCTGCTGATACAACGCATTACGCTTTGTCGCATCAGTGATCTGC -GTGGCCTGGTTTAGTAAGGCGTCATACTGCGCATTTTTCCAGTGACCGACGTTTTCTTCACTATCGCTTT -TGAGCGTGTTCAGGAAGCTGGAAGCATCATTGTACGTCGCATCCCACGACTGCCGAGACAGCATGAAATC -ACCGGCTCGTCGGGCATCAAGATAGGTTTTCCACTCCATTGTGCGCAGCGTCACCTGTGCACCCAGCCAT -TTTTTCCATTCGGAAGACAACGCTATCGCGGTCTTTTCATGCAGATCGTACTTGTTGTAGAACAGCTCAA -AGCGTAGCGGATGAGAGGCGTCGTATCCCGCCTGTTTCAGCAAGGCTTTTGCCATCGCGACGCGCTCACT -CATTGGCTTTTGCAGTTCATCGAACGTCGTCGCGCTAAAGCCTTTTACCTCTGGCGGCGTCAGCGTGGTT -GCGGGCGTTCTCAACCCCAGTACCTTTTGCGCAATAAGCTGTCGATCAACCGTAAGATATAGCGCCCGAC -GCACTCGCACATCGTTAAATGGCGGTTTCTCAAGGTTGAAGTTGTAATATTCGCTGTTCAGACGCGGAAT -AATTCGTAGCTCGCCAGGCAGTGATTTTTCAATGGCGGGAATTTGCTGCGCCGGAACCCAGGTGAGATCG -ACCTCTCCCGCGCGATAGCGGTTATAGCCGGTGACCGAATTATCTAGCGCCAGATACTCAACCTGTTGCA -ATACTGTATGTTGCGCATCGCGGTACTTTGGATTTTTGCGTGCAGTAATCTTTTCGTTAACTACCCACTG -ATCAAGCACAAAGGCACCGTTGTAAACCATGTTCTCTGGCTTACTCCAGCTATCGCCATGTTTAGCGATG -ACATGATGAGGAACCGGGAACAGCGTCGGCCAGGCGAGCATCGTCGTGAACCAAGGAACCGGCTGCTCAA -GCGTAACTTCAAGAGTACGATCATCCGTCGCTTTGACACCCAGCGATGTAACATCTGCTTTACCCGCAAC -AATAGCTGCGGCATTGTTAATGTGCGCCTGTGCCAGATAGCCAGCAAAAGGGCTTGCCGTTTTCGGGTCA -ACCGCGCGCTGCCAGCCGAGGACAAAATCCTCTGCCGTCAGAGGCTGACCGTCGGACCACTGCAAACCGC -TACGCAGATGGAAAATATAGCGCTTGCCGCCGTCCAGTATCTCCCAGCGTTCAGCCTGAGCGGGCTGCAC -CTGGCCTTCACCGTCCATCCATACCAGACCTTCAAACAGATCCAGCACAATCTGCGCGGCAGTATTCTCC -TCCACCTTTTGCGGGTCGAGCGTACCTGGGTCGCTATGATTGTTGTAACGAAAGACTTGTTGCGGGGCGA -GCGGTGTGTTGGCGGGAACGTCAGCAGCGTAGAGAGGAGCCGCACTTACCAGGCTGACCAGCCATAATAA -ATTTCGCGTATACATGGTATTCCTTACCGGAGAAATTATAAGCCCAACAACAATACGCCTGTGGCATTGT -TCGCTCAAACTTATCGCGAGTGATTTGGCTCACACTCCGGTAAAGAAAAAAGCGAGTTGCCCCCGCTTTT -CCATTAATTAACGGATTTCATTCAATAGTTCTGGATGCTTATCCAGAACACGTAAAAGTTTGATTGTGGA -AGGATGAGGTTGGGCATTGCCTTTTTCGTAACGCGAAAACGCATTTACACCTCCCCCAAAAATTTCGCTT -GCCTCTTTTTGGGTAAGAGAGAGCTTTTTTCGAACCTTCACTATAAATTCAGGTGCCACTGTTTCGGCAT -TCACCGAAGCCCGAAATGCCTTTACTTGCGCCATGAAAGCATCTGACTCTTCTTTATTCATGATGCTCTC -TTCGCAATGGACACAATATAAACCGTGGATACCTTTCAATACTGTTTTTCGTCCACGGAAGGTGTATGGA -ATATCTTTAATGCCAGAAACCATTTCTCCCTGGTGGCAAACCGGACATTTCATATTACTTCTCCTTAAAC -GAGACGATCAGTACGTCATGAATTACCGTAATTTTAAGATAAACCTGGCCTGTAACAAGCCTGGGTCTGT -AAACATCCTGCCAGATAGTATGATCAGAGTAGGTGGTCATGCTTTTATAAAAGTCGCTCTCTGATAATCC -AATGATAACATTACACATACCATCAAAATCCAAACCTAACTCATCTGCATTTAACAGGGCACTACGTGTT -GTACGAACTTGCCCGGCATTGACAAGTTTTTTAACCTGACTCAAACGTGTATGTGGTGTGCGTTTTTCCA -TAACCCCCGCCTCCCTGTTACTTTAGTTATAACCTAAAAGGTTAATTACAGCAATGAAAAAGCACCTAAA -AGGTTAGTTAGATGTACGGAGATAGTGACCACACAAAACGTATTCTTTAAGGAAAGTGATTGACCATATA -AGAAAGTGGCGCATTAGTAGCGCCAGTTTGAAGCAGGAATTTATAAGGGAAGCTGGAGTCAGGCATCACG -CCAACGGCACATAAACATCCGTTTCCAGTCGCTGCTCTGTCACCCCTTCGGCAAGATTGGTGTAGTGAAA -CAGAATCGGTGCTTTACGCATTTTCTCGCCGCTTGCAGGCAGCCAGTGGCGAATGATGCCCCATACCGTG -TGTGAAATATCGTCCAGCTCGCCAACGTGGCGGGCCACGGCATAACGTCCACCGGTAAGTTCACCATTGC -TCACACCATAACGATTATCGGGAATCGGTTCGCTAACGCTGCCGCAGATATCAAAGCGAAACGCTTCCGG -TGCGGTGGTGGCAGGGTCGTCCCAGGCGACGCCAAAAGTCTGGCTTTGGTTAACAGGAGAAAGCCCCGTC -TCTTTACGCCACATGATAAATTTCGCCACGCTGTAGTTGAGCAATTCAGGGCTACAGCGGTGCGGCAACA -TCGCCACAGGTATTGATGGGAAATCGATAATGTTTACATCCAGTGTCAGGTTTGTCATTTTGCCTCCCTG -CGAAATTATTCCCGGGAACGCGTCCCGGGAGCGGTAACAATTACGGATTTACTTTGCGGATCTGTTTGAC -GTCAATTTCAACAGAATTCCAGTCTTTATCGACTTCACCCTGAATCTCAACCGTATCTTTCGGCGTCACC -GTCACGCCGTTCCAGCGTTTGTGGTCGATATCAACATTGATAGTACCGCTGGCATCTTTGAACACGTAGA -GATCGTCAGAGATGCGTTCAACGATATTGCCGCGCAGGGTTACCCAGGTGTCGTCACGCAGGGATTTTGC -GCTTTCTACAGTCGTTACGCTGCCGTTCGGCCCCTGGAATCCTCCGGCCTGACTTTGCGTTGCCGATGGG -CCAGAAAAACCGCCCTGCTCTGCTGCCATCACCGGTGCGCTGCACAGGGCCATTACTGCGATTACTGCTG -CGAATTTTTTCATGTTTATTACTCCCTTTAATGTCTGTTTCCGAGCATTTAACAAGATAGTCCTTAACAA -CTTCTTAAGGGAAAAAAATAAAATTTAGTGCTGTACAGAGCGCGTTACAACACGGTTTACTGGCAGCAAA -TACGGTTATCGCAGGGATGAAAAAATGCGAATTTTACTGATAGAAGATGACATGCTGATTGGCGACGGCA -TCAAAACGGGCCTTAGTAAAATGGGTTTTAGCGTCGACTGGTTTACACAAGGTCGTCAGGGAAAAGAGGC -GCTTTATAGCGCACCTTATGATGCGGTGATCCTGGATTTAACCTTACCAGGCATGGATGGTCGCGATATT -TTGCGCGAATGGCGAGAAAAAGGTCAGCGTGAGCCGGTACTGATCCTGACCGCGCGCGATGCGCTGGCGG -AACGTGTAGAAGGGCTGCGTCTGGGAGCTGACGATTATCTGTGTAAACCTTTTGCGTTGATAGAAGTCGC -CGCCAGGCTGGAAGCTCTGATGCGCCGAACCAACGGCCAGGCCAGCAACGAGCTGCGCCACGGTAACGTC -ATGCTCGACCCCGGCAAACGTATCGCCACGCTGGCTGGCGAACCCTTAACACTGAAACCAAAAGAATTTG -CCCTGCTGGAATTACTGATGCGTAACGCTGGTCGGGTACTGTCGCGCAAACTGATTGAAGAGAAACTGTA -TACCTGGGACGAAGAGGTCACCAGTAATGCCGTTGAAGTGCATGTGCATCATCTGCGACGCAAACTCGGT -AGTGATTTTATTCGTACCGTGCATGGTATTGGTTACACATTAGGTGAGAAATGAAATTTACCCAACGTCT -TAGTCTGCGCGTCAGGCTGACGCTAATCTTTTTAATTCTGGCCTCGGTGACCTGGCTGCTTTCCAGCTTT -GTCGCCTGGAAACAAACAACGGATAACGTCGATGAATTGTTCGACACCCAACTGATGCTGTTTGCCAAGC -GGTTAAGTACGCTCGATCTCAACGAAATCAACGCGGCGGATCGCATGGCACAGACGCCAAATAGATTAAA -ACACGGTCATGTTGATGACGATGCGCTGACCTTTGCCATCTTTACCCACGACGGCAGAATGGTCCTTAAT -GATGGCGATAACGGAGAAGATATTCCCTATAGCTATCAACGGGAAGGTTTTGCTGACGGGCAACTGGTCG -GTGAAGACGATCCTTGGCGTTTTGTCTGGATGACCTCACCTGATGGCAAATATCGCATCGTTGTTGGCCA -GGAATGGGAATACCGTGAAGACATGGCGCTGGCGATTGTTGCCGGGCAATTGATCCCGTGGCTGGTCGCA -CTGCCGATTATGTTAATCATCATGATGGTACTACTGGGTCGTGAACTCGCGCCGCTGAACAAACTGGCGC -TGGCACTACGTATGCGTGACCCTGACTCGGAAAAACCACTAAACGCGACTGGCGTACCCAGCGAAGTGCG -GCCACTGGTTGAGTCGCTAAATCAACTGTTCGCCCGCACACATGCGATGATGGTTCGTGAACGACGCTTT -ACCTCCGACGCAGCTCACGAACTTCGTAGCCCGTTAACGGCGCTGAAAGTGCAAACCGAAGTTGCGCAGC -TCTCTGACGATGATCCGCAGGCGCGGAAAAAAGCACTGCTCCAATTACATTCCGGGATCGATCGCGCTAC -TCGTCTGGTTGATCAACTGCTCACGCTATCGCGGCTGGACTCACTGGATAACCTTCAGGACGTCGCGGAG -ATCCCGCTTGAAGATCTCCTGCAATCGTCGGTGATGGATATTTACCACACGGCGCAGCAGGCGAAAATTG -ACGTGCGACTGACACTCAATGCCCACAGCATCAAACGCACCGGGCAACCGCTATTGCTAAGTTTGTTGGT -GCGAAATTTGCTGGATAACGCCGTGCGCTACAGTCCACAGGGCAGCGTGGTAGACGTCACGCTGAATGCT -GATAATTTCATCGTGAGGGATAACGGCCCCGGTGTGACACCAGAGGCACTGGCGCGAATTGGCGAACGCT -TCTATCGCCCACCCGGACAAACCGCTACCGGCAGCGGGCTTGGGCTATCGATTGTCCAGCGAATCGCCAA -ATTGCATGGCATGAATGTTGAATTTGGGAATGCGGAACAAGGTGGATTTGAGGCGAAGGTAAGCTGGTAA -CTTCTCTGTCTATGAGAGCCGTTAAAACGACTCTCATAGATTTTACTAATAGCAAAATATAAACCGTCCC -CAAAAAAGCCACCAACCACAAACCAGACAAATACCGAGCGAGAATACATATACCCAAAACTCGAACATTT -CCCGCATAAAGAGTTTTCTTAAGATAAGAATAATAAGTGGCGTAAGAAGAAAAAATGCTGCAATCATTGC -TTGCAATATACGATCTTCGCCTGAAACGGAAGGTATACTGCAAATATTTCCTCCCGACTCAAGCATCCAG -TCATACTTATTGAAAGCAAAAAAAGAATCTATTAACCAATAAGTAAGCATTATATATAGCAATGCTTCAA -ATATTGTTTTAATTTTCTGCTTTAACATATATCAGTACGCTCATAAAAATCCATTTATAATTATCAACAT -GACACGTTGATACTTTCATCTTTTACTTATTCAAAGCCATATTTTCAATCCCCAAAAAAACCGAACCAAA -CGTGTAAATTATTCCGGTGCGAGTAAGAATTATGAGGAATGGCTATCAGTATTGTCATTTTCAGAAAATA -TTTATCCTGCATCGGTGAGTCAGAGTAAGATCAGACTTTTGCTAAATTCGCAAAAGACTTTGCACATTTT -GCTAATTTCACCGTACCGCTCTGTGACGTACTATAGTCGGCAAACGTCTCACCTTGAGGTTAAAAAATGA -GCAACATCCTGATTATCAACGGCGCGAAAAAATTCGCCCACTCCAATGGTCAACTGAACGACACCCTGAC -CGAAGTCGCGGATGGCACACTGCGCGACCTTGGGCATGATGTCCGCATCGTTCGCGCCGACAGCGACTAC -GATGTCAAAGCGGAAGTACAAAACTTTCTCTGGGCTGATGTGGTGATCTGGCAGATGCCAGGCTGGTGGA -TGGGCGCGCCGTGGACAGTGAAAAAATACATTGATGATGTATTCACCGAAGGTCACGGGACGCTGTATGC -CAGCGATGGTCGTACCCGCAAAGATCCGTCGAAAAAATACGGTTCCGGCGGCCTGGTACAGGGCAAAAAA -TATATGCTTTCTCTGACCTGGAACGCACCAATGGAAGCCTTCACCGAAAAAGATCAGTTCTTCCACGGCG -TTGGCGTTGACGGTGTGTATCTGCCGTTCCATAAAGCAAACCAATTCCTCGGTATGGAACCGCTGCCGAC -ATTTATCGCTAATGACGTGATAAAAATGCCTGATGTTCCCCGCTATACTGAAGAATATCGCAAGCATCTT -GTGGAAATTTTTGGTTAACTAGAGCTCAGGCTTTAGAAGGAGTTAACCATGCTTACCGTAATCGCAGAAA -TCCGTACTCGTCCTGGTCAACATCACCGTCAGGCGGTATTGGATCAGTTTGCTAAAATCGTTCCAACCGT -ACTGAAAGAAGAAGGTTGCCACGGCTATGCGCCAATGGTGGATTGCGCAGCTGGCGTGAGTTTCCAGTCT -ATGGCACCGGATTCTATCGTGATGATTGAGCAGTGGGAAAGCATCGCGCATCTTGAAGCGCATCTGCAAA -CCCCGCACATGAAGGCGTATAGCGAAGCCGTAAAAGGTGACGTGCTGGAGATGAATATCCGTATTCTGCA -GCCAGGGATTTAATCCTGCCTTGTTTGCCCGGCCATCCTGACCGGGCAATGTTCTTTCCTTTAAACCTCA -ATCTCCGCCATGTCGCCTTTCTCTTGCAACCAGTTGCGGCGATCTTCCGAGCGTTTCTTCGCCAGCAGCA -TATCCATCATCGCGTCAGTACGCTGATCGTCTTCATCATCGATAGTCAACTGCACCAGACGGCGAGTGTT -CGGATCAAGCGTGGTTTCGCGCAATTGCATCGGGTTCATTTCCCCCAGACCTTTAAAACGCTGGACGTTC -GGCTTGCCTTTCTTGCGTTTTAATTGCTCAAGTACGCCCTCTTTCTCTTCTTCCGTCAGCGCGTAATAAA -CCTCTTTCCCGAGATCAATACGGTAGAGCGGTGGCAGTGCGACGTAAACGTGACCGTGTTTCACCAACGC -GCGGAAATGTTTTACGAACAAAGCGCAGAGCAGCGTGGCAATGTGCAGACCATCAGAGTCCGCATCCGCG -AGGATACAGATTTTGCCATAACGAAGCTGGCTCAGATCGTCGCTGTCAGGATCGATACCGATCGCTACCG -AAATATCGTGCACTTCCTGCGAAGCCAGCACTTCGTCGGAAGAGACTTCCCAGGTGTTAAGGATCTTACC -TTTCAGTGGCATGATCGCCTGATATTCGCGATCGCGCGCCTGCTTGGCAGATCCGCCTGCGGAGTCACCT -TCCACAAGGAACAGCTCGGTACGGTTAAGGTCCTGCGCGGTACAATCAGCCAGTTTGCCAGGCAACGCCG -GGCCGCTGGTCAGCTTTTTACGCACCACTTTTTTGGCCGCACGCATACGGCGCTGGGCGCTGGAAATCGC -CATCTCCGCCAGCAGTTCAGCCGCCTGAACGTTCTGGTTCAGCCACAGGATAAAGGCATCTTTCACCACG -CCAGAAACGAATGCCGCGCATTGACGCGAAGAGAGACGCTCTTTCGTCTGCCCGGCAAACTGCGGATCCT -GCATTTTTACTGACAGCACATAGGCGCAGCGATCCCAGATATCTTCCGCCGACAGCTTTACACCGCGCGG -CAGAATATTGCGGTATTCACAGAACTCACGCATCGCGTCCAACAGGCCCTGACGCAGACCATTAACATGG -GTACCGCCCTGCATCGTTGGGATAAGGTTGACGTAGCTTTCGGTCAGCAGTTCACCGCCTTCCGGCAGCC -ACAGTAGCGCCCAGTCCACAGCTTCAGTATCACCAGCGAAATTACCGATAAACGGTTTTTCCGGCAGCGT -CGGCAGACCATTTACCGCTTCCGCCAGGTAATCATTCAGACCGTCCTGATAGCACCAGCGTTGTTCGGTA -TTGTTGATCTCATCTTTAAAAGTGATCTCAACGCCAGGGCACAATACCGCTTTGGCTTTCAGCACATGCG -TCAGGCGTGAAACAGAAAATCGCGGGCTGTCAAAGAAGGTTTCATCCGGCCAGAAGTGCACACTGGTACC -AGTATTGCGTTTACCGCAAGTGCCGACAACCTGTAAATCCTGCACCTTTTCGCCATTTTCAAAGGCGATG -TTATAAACCTGACCATCGCGGCGCACGTTAACTTCTACGCGCTTCGACAGGGCGTTAACCACCGAAATCC -CCACGCCATGCAGGCCGCCAGAGAACTGGTAATTTTTGTTAGAGAATTTACCGCCTGCATGCAGACGGCA -AAGAATCAGTTCAACCGCCGGTACACCCTCTTCCGGGTGAATATCCACCGGCATCCCGCGCCCATCGTCA -ATAACTTCTAACGACTGGTCAGCATGTAAAATAACGTCCACGCGTTTTGCGTGACCCGCCAGTGCTTCAT -CCACACTGTTATCAATGACTTCTTGCCCCAAATGGTTAGGGCGAGTGGTATCGGTATACATCCCCGGACG -GCGGCGAACCGGCTCAAGCCCGGTGAGTACCTCAATGGCATCAGCGTTATAAGTTTGCGTCATGGTTTAA -GTTAGTAATTCGAGTTGATCGTCAGAGATGGTGCAGACCAAGAAAATCGACGATCGGGTTGAAATAATCT -TCGAAGCCCGTGAATGCGTGGTTGCCGCCTTCTATGACAGTCTGGCGGCAGGAAGCGTAGTACGCCACCG -CCTGGCGGTAATCCAGCACTTCATCTCCCGTCTGTTGCAGCAGCCAGATCAAATCCGGCGCTTCCAGCGG -GTCAATCTGCATGACTTTAAGATCGTAAATATGGCGTGACTCTAGCACATATTGCTGCCCGGTGTAGGGG -TTCTCGTTCTGACCGAGATAGTCCGTCAGCAGTTCAAACGGGCGCACCGCCGGGTTTACCACCACTGCGG -GCAGCATAAAACATTGTGACAACCAGGTGGCGTAATATCCCCCCAGTGACGAACCGACAATACCCAGCGA -ATCACCGCCATGTTCCAGGACAATGGATTCCAGCAGCTCTGCCGCGTCGGAAGGATACGGCGGCAACTGC -GGAATGATCATCTCAACGTCAGGGTGATGTTCCGCCAGCCAGTTTTTTAACAAGCTCGCTTTTGCAGAGC -GCGGCGAGCTGTTGAAACCGTGTAAATAAAGAAGCGTAGACATCAGTAGCCTTCTGAAGCGGTATCAGGT -TGGAAACGTGTGTCCGCCAGGCGATGCACCTCGGTGGTCAGCGTGCCATCAGCATGTAACTCGAGAGTAC -GCCAGCCGGGCGCGATGGTATCCAGCGTAAAGTTGGAACAGTGCGGCTTAAACTGCACACAGGTCGACGG -CGTTGCCAGCAGGCGGCGACCATTCCAGTCGAGATCCAGCTCCTGATGAATATGACCGCACAGCAAGTAT -TTGACGTGCGGAAACTTCGCCAGCACGGTATCCAGTTCGCCCGCGTTACGCAGACTGTGTTGATCGAGCC -AACTACAACCCGCAGGTAGCGGATGATGATGCAGCAGCAGCAACGTATGGCGTTCTGGCGCATCGGCCAG -TTTACGTTCCAGCCACTCAAGCTGAAACTCGCTCAGCTCACCGTGCGGCACGCCAAACACCTGGCTATCC -AGCAACAGGATTTGCCATTGCTCACCAATAAACACGCGCTTCGCCGGGGAGATACCCGCATCCTGTAACG -CGCTGTACATCGCGGGCTGGAAATCGTGGTTGCCCGGCAGCCAGACGCAGGGCGCACGAAAACTTGCGAT -GCCTTCAGCGAAATGCTGATAGGCCGCAGAGGATTGATCCTGCGCTAAATCACCTGTCGCGACAATCAGG -TCGAATTCGTGCTGGTGTGGCCGAATCGCCTCCAGCACCGCCTGGTAACTCTCCCAGGTGTTTACCCCTA -ACAGGGCTTCGTGCTTTTGTGCAAACAGGTGAGTGTCGGTAATTTGTAAAATCCTGACTCTGGCCTCACC -AGCCAGAGGAAGGGTTAACAGGCTTTCCAAATGGTGTCCTTAGGTTTCACGACGCTAATAAACCGGAATC -GCCATCGCTCCATGTGCTAAACAGTATCGCAACCAGTCCGCTAAAAACTGATTAATTTGATGCTTTTCGT -CGCGTTGATGCAACTTTTTATTAGGATAATCATACCGCGCTTTGAAGCGAAAAATCTGCTGGCTTGAACA -CACTTCAGCCACCATCGCGTCATGATACAGACGCACCGTCATTGACGGAAGGCTCCAGTAACTGATCGCG -GGCGCAGTCTGTTCTATTGTCACCAGGGTAGTGTATCGGGTCGATTCCACAATCGTCAGCCGATATTGTG -CGTTTGCCACCTGATAGCTTACAGTTTCGCCGGGTGCGTCATTGCGCGGTAACAAACGGCGCAATTGTGA -AAAGTTCATCTCGCACAGGCGCATCATTTCAGGAAAGTCAGGTGTGTAACGCTTCATTTATGCCCACTCA -TTTTTTAACGCTTGATGATGCAGCTGCAGCCATTGCAAAGCGATGACCGACGCTGCGTTGTCGATTTTCC -CCTCTTCTACCCACTGGTATGCCTGTTCCCGGCTTACCACATGAACGCGAATATCTTCGTTTTCATCAGC -CAGACCGTGAATACCGCTTGCGGTCGTGGCGTCCACTTCGCCCACCATAATTGACGAACGCTCACTGGTG -CCCCCCGGGCTTGCCAGGAAACTTAACACCGGTTTGGTCCGTTTGACTATCAGTCCCGCCTCTTCAATCG -CTTCGCGACGGGCAACATCTTCCACACTTTCACCCTCTTCAATCATCCCGGCAACCATCTCCAGTAGCCA -AGGGGTTTCGCTGGTGTCGTACGCGGCAATCCGAATCTGCTCAATCAGCACAACTTCATCACGCACTGGG -TCAAAGGGTAGCAAGACTGCGGCGTGACCGCGCTCAAAAATTTCCCGCCGCACCTCATGACTCATTTGCC -CGTTGAATAGACGATGACGAAATCTATAAAGATCTAATGAAAAAAAGCCGCGATAAAGTGTTTCTCGTGC -AATAATTTCTACATCGTTTTTGCCAAATGTAACGGGCAGGTTGTCTGGCTTAAGCATTGTTAATGTCCTG -GCACTAATAGTGAATTAAATGTGAATTTCAGCGACGTTTGACTGCCGTTTGAGCAGTCATGTGTTAAATT -GAGGCACATTAACGCCCTATGGCACGTAACGCCAACCTTTTGCGGTAGCGGCTTCTGCTAGAATCCGCAA -TAATTTTACAGTTTGATCGCGCTAAATACTGCTTCACCACAAGGAATGCAAATGAAGAAATTGCTCCCCA -TTCTTATCGGCCTGAGCCTTTCTGGGTTCAGTTCGTTGAGCCAGGCCGAGAACCTGATGCAAGTTTATCA -GCAAGCACGCCTTAGTAACCCGGAATTGCGTAAGTCTGCCGCCGATCGTGATGCTGCCTTTGAAAAAATT -AATGAAGCGCGCAGTCCATTACTGCCACAGCTAGGTTTAGGTGCAGATTACACCTATAGCAACGGCTACC -GCGACGCGAACGGCATCAACTCTAACGCGACCAGTGCGTCCTTGCAGTTAACTCAATCCATTTTTGATAT -GTCGAAATGGCGTGCGTTAACGCTGCAGGAAAAAGCAGCAGGGATTCAGGACGTCACGTATCAGACCGAT -CAGCAAACCTTGATCCTCAACACCGCGACCGCTTATTTCAACGTGTTGAATGCTATTGACGTTCTTTCCT -ATACACAGGCACAAAAAGAAGCGATCTACCGTCAATTAGATCAAACCACCCAACGTTTTAACGTGGGCCT -GGTAGCGATCACCGACGTGCAGAACGCCCGCGCACAGTACGATACCGTGCTGGCGAACGAAGTGACCGCA -CGTAATAACCTTGATAACGCGGTAGAGCAGCTGCGCCAGATCACCGGTAACTACTATCCGGAACTGGCTG -CGCTGAATGTCGAAAACTTTAAAACCGACAAACCACAGCCGGTTAACGCGCTGCTGAAAGAAGCCGAAAA -ACGCAACCTGTCGCTGTTACAGGCACGCTTGAGCCAGGACCTGGCGCGCGAGCAAATTCGCCAGGCGCAG -GATGGTCACTTACCGACTCTGGATTTAACGGCTTCTACCGGGATTTCTGACACCTCTTATAGCGGTTCGA -AAACCCGTGGTGCCGCTGGTACCCAGTATGACGATAGCAATATGGGCCAGAACAAAGTTGGCCTGAGCTT -CTCGCTGCCGATTTATCAGGGCGGAATGGTTAACTCGCAGGTGAAACAGGCACAGTACAACTTTGTCGGT -GCCAGCGAGCAACTGGAAAGTGCCCATCGTAGCGTCGTGCAGACCGTGCGTTCCTCCTTCAACAACATTA -ATGCATCTATCAGTAGCATTAACGCCTACAAACAAGCCGTAGTTTCCGCTCAAAGCTCATTAGACGCGAT -GGAAGCGGGCTACTCGGTCGGTACGCGTACCATTGTTGATGTGTTGGATGCGACCACCACGTTGTACAAC -GCCAAGCAAGAGCTGGCGAATGCGCGTTATAACTACCTGATTAATCAGCTGAATATTAAGTCAGCTCTGG -GTACGTTGAACGAGCAGGATCTGCTGGCACTGAACAATGCGCTGAGCAAACCGGTTTCCACTAATCCGGA -AAACGTTGCACCGCAAACGCCGGAACAGAATGCTATTGCTGATGGTTATGCGCCTGATAGCCCGGCACCA -GTCGTTCAGCAAACATCCGCACGCACTACCACCAGTAACGGTCATAACCCTTTCCGTAACTGATGACGAC -GACGGGGCTTCGGCCCCGTCTGAACGTAAGGCAACGTAAAGATACGGGTTATCTGCCGCATTCTTCCCCC -TTCTCGCTTCAATTTCGACCAGCCATCCTCTATTCTGATGGGTATTTACCACTGGTCCCGGAAGACAAAA -ATGAAACGGACAAAATCCATACGCCACGCATCGTTCCGCAAAAACTGGAGCGCACGCCATCTGACACCAG -TCGCTCTCGCGGTTGCCACTGTTTTTATGCTGGCTGGCTGTGAAAAGAGTGATGAAACAGTGTCTCTCTA -TCAAAATGCTGACGACTGTTCAGCTGCAAACCCAGGCAAAAGCGCCGAATGTACCACCGCGTACAACAAT -GCGCTGAAAGAAGCCGAACGTACTGCGCCGAAATACGCCACCCGTGAAGACTGTGTTGCTGAATTTGGTG -AAGGTCAGTGCCAGCAGGCACCAGCCCAGGCTGGCATGGCACCAGAAAACCAGGCGCAGGCCCAGCAATC -CAGCGGGAGTTTCTGGATGCCGCTGATGGCCGGTTACATGATGGGGCGTCTGATGGGCGGCGGCGCGGGA -TTTGCACAGCAGCCGCTGTTCTCCTCGAAAAACCCAGCCAGTCCGGCTTACGGTAAATATACCGACGCGA -CGGGTAAAAACTATGGCGCAGCCCAGCCAGGCCGCACCATGACCGTACCGAAGACGGCAATGGCACCAAA -ACCGGCGACCACCACTACCGTTACCCGTGGCGGTTTTGGTGAATCTGTTGCCAAACAAAGCACTATGCAG -CGTAGTGCAACCGGTACCTCTTCTCGTTCAATGGGTGGCTGATACCGATGGAAAGAGTCAGTATTACCGA -GCGCCCGGACTGGCGTGAGAAAGCCCACGAATACGGTTTCAATTTTCACACCATGTACGGCGAGCCGTAC -TGGTGTGAAGATGCTTACTACAAGTTGACCCTCGCCCAGGTTGAAAAGCTGGAAGAAGTCACCGCCGAAC -TGCACCAGATGTGCCTGAAAGTGGTGGAAAAAGTGATCGCCAGCGATGAGCTGATGACCAAATTCCGCAT -TCCAAAACACACCTGGAGTTTTGTGCGCCAGTCATGGCTGACGCACCAGCCATCGCTTTATTCGCGTCTT -GATCTGGCGTGGGATGGCACTGGTGAACCTAAACTTCTGGAAAATAACGCCGATACGCCAACGTCACTAT -ACGAGGCGGCGTTCTTTCAGTGGATCTGGCTGGAAGATCAGCTTAACGCCGGTAACTTGCCGGAGGGCAG -CGACCAGTTTAACAGTCTGCAAGAAAAACTGATCGATCGCTTCGTTGAGCTGCGTGAACAGTATGGCTTC -CAGTTGCTGCATCTCACCTGCTGTCGCGACACGGTGGAAGATCGCGGAACCATTCAGTATTTGCAGGACT -GCGCAACGGAAGCTGAAATTGCTACTGAGTTCCTCTACATCGATGATATCGGGTTAGGTGAAAAAGGTCA -GTTCACGGATTTACAGGATCAGGTAATTTCCAACCTGTTCAAACTGTATCCGTGGGAATTTATGTTGCGT -GAGATGTTCTCAACCAAGCTGGAGGATGCAGGCGTACGCTGGCTGGAACCGGCGTGGAAGAGCATTATCT -CCAACAAGGCACTTCTACCGCTACTGTGGGAGATGTTCCCGAATCACCCGAACCTGCTGCCCGCTTATTT -TGCGGAAGATGATCATCCGCAAATGGAAAAATATGTGGTTAAACCGATCTTCTCCCGTGAAGGCGCAAAC -GTGTCGATCATTGAGAACGGCAAAACCATTGAAGCAGCGGAAGGTCCGTATGGCGAAGAAGGGATGATTG -TTCAGCAATTCCACCCGTTACCGAAATTCGGCGACAGCTATATGCTGATTGGTAGCTGGCTGGTGAACGA -TCAACCCGCCGGAATTGGCATTCGTGAAGACCGTGCATTGATCACCCAGGATATGTCTCGGTTTTATCCA -CATATTTTTGTTGAATAAGCCACGATACCGGATGGCACTCGCCATCCGGTAATTGTTAGCCTATCTGCAC -CGACAGCATACTCAGGCTGCCCATTTCTATACCCTCAACCGGAATGGTAATTGGCTCCTGCCCATCCCAC -GCACCTAACACATACAACAACGGCAAATAATGCTCTGGCGTTGGGTTCGATAACGTGCCACCTTCATGGT -CGAGGTAATTCACCAGAGGATGTTGTTCCACTGGCCCTTGCCACGTCAGATTCGCTTTCACATACTCATT -AAACGACGTCGCCCACGGATACGGTGAACTATCACCGTGCCACTTCACTGTGCGCAGGTTATGCACCACG -TTACCGCTGGCGACCAACATTATTCCTTCATCTCGCAGCGCTGCCAGTTTGCGCCCCATTTCGAAATGCC -AGGCGGCAGGTTTGCTACTGTCGATACTCAACTGCACCATCGGGATATCAGCGTCAGGATACATCTTAAT -CAGCACGCCCCACGAGCCGTGGTCAAAGCCCCAGGCTTCTTTATCCAGCGTCACCGGGATCGGCGCTAAC -AGCTCAACCAGACGCTGTGCCAGCGCAGGCGAACCCGGAGCAGGATAATGCGTATCGTACAGCGCCTGCG -GGAAGCCACCAAAGTCATGAATCGTGGGCGGCGTCTCCATCGCGGTCACTCCTGTTCCACGGGTAAACCA -GTGAGCCGAAACCACCACAATCGCTTGCGGGCGTGGCAATGTCATCCCCAACTTCTGCCAGCTGCGGGTA -TACAAATTATCTTCCAGCACGTTCATCGGACTACCGTGACCTAAAAACAATGCTGGCATACGTGTTGAAG -ACATGATGATATCCTTAACTAAAGGTGTCATTTTGATATCCTCACAATACGCTTGTTCGGCGGAGTAAGA -ACCCGGATAACAATGATGATGATCATCAGTTATTTTGACGATCTGCCTGAAGGTGAAGATTTATAAGGAG -TTGTCGATGTCAGTACCTCTCATTCTGACCATACTGGCGGGGGCAGCCACGTTTATTGGCGCGTTTCTCG -GCGTTCTCGGGCAAAAACCCTCGAACCGCTTACTGGCGTTTTCGCTAGGTTTTGCGGCGGGGATCATGTT -GCTCATCTCATTAATGGAAATGCTTCCTGCCGCACTAGCAGCTGAAGGAATGTCGCCTGTGTTGGGTTAT -GGAATGTTTATCTTCGGTCTGCTTGGCTATTTTGGCCTGGACCGCATGTTGCCACATGCTCATCCGCAGG -ATTTAATGCAAAAATCGGTGCAGCCGTTGCCAAAATCGATCAAGCGCACAGCCATTCTGCTCACTCTCGG -CATCAGTCTGCATAACTTCCCGGAAGGGATTGCCACCTTTGTCACGGCGAGCAGCAACCTGGAGCTGGGA -TTTGGCATCGCACTGGCCGTCGCGTTGCACAATATCCCTGAAGGTCTGGCAGTGGCAGGCCCGGTTTATG -CGGCAACGGGGTCTAAACGCACCGCGATTCTGTGGGCGGGGATTTCTGGACTAGCAGAAATTCTTGGTGG -TGTGCTGGCGTGGTTAATCCTCGGTAGCATGATTTCCCCGGTGGTCATGGCGGCAATCATGGCGGCGGTT -GCAGGAATTATGGTGGCGCTCTCGGTTGATGAATTAATGCCGCTCGCCAAAGAGATTGACCCTAATAATA -ACCCCAGCTATGGCGTACTATGTGGAATGTCAGTGATGGGATTCAGTTTAGTGCTGCTACAAACGGCGGG -AATTGGTTAAAAACAACATCAGAAGTTGTCCAGCGCATGGACAACTTCTGCCAGCTTCACGAAAGCCTTA -TTCTACCTTTTCGGCTGTCTCTTCTCTCGTACTGTTTAAGTATTTGTTCCGCGCTTCAAGCAGTGCGTCT -CTGTCCTGGCGAAACGCCCGACAATAACGTTTCAAATGCAGGAAATAACCCACCACAACCAGAGCAATCA -ATACAATCCAGTACCAGGCGATAAACATCCTTTTACCCTTAATATTTAACAATACTAAACATTTAGCGTA -TAAATTTCACATATCCTTTTTCGGATATATTCATATGGTCGCATAATAACGGAACAATTATATGATTTTG -ATCATAATGAAAAAGAATGCCTGATATTAATGAAATTTTCTCATAGAAAGAGAAGCGGAATTAACATCTT -GCATAGCAGGGAAAAATAAAAACCGAAGCCTGCTACAACTTCGGTTTCTTGATTAAGGCAGTAAATTAAG -CAGCGGTTTTCAGCTGGCTTTACGCTCATGTGCCTGACGGTATGCCACCAGGTCTTCAATAGTCACGAGC -GCCATATTGTGTTTATTGGCAAACTCAATACACTCTGGTGCACGCGCCATCGTGCCATCGTCATTAGTCA -GCTCACACAGTACACCAGCCGGTTTAAAGCCTGCCAGCGTCATCAGATCAATAGTTGCTTCAGTATGACC -GCCACGCGTCAGTACACCACCTGCCTGAGCGCGAAGTGGGAAAACGTGGCCAGGACGATTCAGATCTGAC -GGTTTTGCGCCATCGGCAATCGCTGCGCGAACGGTCGTAATACGGTCAGCGGCAGAAACACCGGTAGTCA -CACCTTCAGCTGCTTCAATGGTCACGGTAAAACCGGTGCCATAGGCGCTGGTGTTATTTTCTACCATCAT -TGGCAGATCGAGTTGTTTACGGCGATCTTCAGTAATGCACAGGCAAACAATACCGCTACCGTGGCGAATG -GTCAGCGCCATCTGCTCAACAGTCATGGTTTCTGCCGGGAAGATCATATCACCTTCGTTTTCACGGTCTT -CATCATCAAGCACCATTACACCGCGTCCTTCACGCAGCGCAGCCAGTGCATTTTCAACACGTTCGAAAGG -CGTACCAAAAGAGGAAAGTAGCGTCTGATTCATGGTAAAAAAACCTCACTAAAATTATGGTTACCAGAAT -CAGGGCAGTCTTAGGAGTGGCGGCATATAGCCAAAATAACGTGAGCGGGTCCATGCCCGACAGAATCGTT -ACTCTCTCCCATCCGGACTCTAACCGTCGGCCCCGGAATTACACCGGATCTGCTGTCCTTTGAGTTCGCA -CCCAAAGCGCTCGCGGGCTTTCAACTGAGTTGATTTACCGCCGGTGGGGAATTTCGCCCCGCCCTGAGAA -TAAGCGGATTCACTATAACGCTAATGATTAGCGGCAGCAACGCATAGCTTCACATAATTCTGGTTTATGA -CTTACCCTTATCGCACTACAATGGCACTCAACACCTATCAGTACAGGGAAACTACAATGATTGACCCGAA -AAAAATTGAGCAAATCGCTCGCCAGGTTCACGAATCAATGCCTAAAGGAATCAGGGAGTTCGGGGAAGAT -GTGGAGAAAAAAATCCGCCAAACCCTACAAGCGCAGCTGACGCGCCTCGACCTTGTAAGCCGTGAAGAGT -TCGACGTCCAAACGCAAGTCCTGTTACGGACTCGTGAAAAACTGGCGCTGCTTGAACAAAGAATCAGCGA -ACTGGAAAATCGCAGTACTGAGATCAAAAAGCAGCCAGATCCAGAGACTCTCCCCCCAACGCTGTAAACA -TTCGTCTTTAATGCACTGTAAATTATGAATTAATCCTCTAATTTATAGTGCTTTCTATTACCTTATCGCG -TAATCCCATTCAGAAAACCATCACAAAAATGAATGAGTACAATTGAAAGTATAATTGCAATGTATTTTTT -AAGTTTTACTTAATCGATATTTAGATAAACTAATTTTATAAAAAACACAAAATAAAATATCATATTTCAA -TGATTAGTAGTCCTTAAATAACAGTTACTAATCATTCTCTTTTCTACTTATCTTTATATAAAGGAATATT -ATGTCCGCTTTTAAAAAGTCACTTCTTGTTGCTGGCGTAGCAATGATTCTTTCCAATAACGTGTTTGCTG -ATGAAGGTCACGGTATTGTTAAATTTAAAGGTGAAGTTATCTCTGCTCCATGTTCTATTAAACCAGGTGA -CGAAGATTTAACTGTAAATCTGGGTGAAGTAGCAGATACCGTACTGAAAAGCGATCAGAAATCTTTGGCT -GAACCTTTCACTATTCACCTGCAGGACTGCATGCTGAGTCAGGGTGGAACTACTTATTCAAAAGCGAAGG -TTACTTTCACTACAGCAAATACCATGACGGGTCAGTCTGATCTTCTGAAAAATACCAAAGAAACTGAAAT -CGGCGGCGCCACTGGCGTTGGCGTACGTATTCTGGACAGCCAGAGCGGCGAAGTAACTTTAGGTACTCCG -GTAGTAATTACGTTCAACAATACCAACAGCTATCAGGAACTGAATTTCAAAGCTCGTATGGAATCCCCAA -GCAAAGATGCCACCCCGGGCAACGTTTACGCTCAGGCTGACTACAAGATTGCTTACGAGTAATCGCATTT -GGCCGGGTTCGCCCGGCCACATCATTAACGGATTAATGATAAGTGGATCAGATGTATAAAAAATTAAAAT -TAACCACAATAAGCGAATTGATTAAAAATATTTATTGTTCATTATCCGTTATTAGACTGGCCCCCTGAAT -CTCCAGACAACCAATATCACTTAAATAAGTGATAGTCTTAATACTAGTTTTTAGACTAGTCATTGGAGAA -CAGATGATTGATGTCTTAGGGCCGGAGAAACGCAGACGGCGTACCACACAGGAAAAGATCGCAATTGTTC -AGCAGAGCTTTGAACCGGGGATGACGGTCTCCCTCGTTGCCCGGCAACATGGTGTAGCAGCCAGCCAGTT -ATTTCTCTGGCGTAAGCAATACCAGGAAGGAAGTCTTACTGCTGTCGCCGCCGGAGAACAGGTTGTTCCT -GCCTCTGAACTTGCTGCCGCCATGAAGCAGATTAAAGAACTCCAGCGCCTGCTCGGCAAGAAAACGATGG -AAAATGAACTCCTCAAAGAAGCCGTTGAATATGGACGGGCAAAAAAGTGGATAGCGCACGCGCCCTTATT -GCCCGGGGATGGGGAGTAAGCTTAGTCAGCCGTTGTCTCCGGGTGTCGCGTGCGCAGTTGCACGTCATTC -TCAGACGAACCGATGACTGGATGGATGGCCGCCGCAGTCGTCACACTGATGATACGGATGTGCTTCTCCG -TATACACCATGTTATCGGAGAGCTGCCAACGTATGGTTATCGTCGGGTATGGGCGCTGCTTCGCAGACAG -GCAGAACTTGATGGTATGCCTGCGATCAATGCCAAACGTGTTTACCGGATCATGCGCCAGAATGCGCTGT -TGCTTGAGCGAAAACCTGCTGTACCGCCATCGAAACGGGCACATACAGGCAGAGTGGCCGTGAAAGAAAG -CAATCAGCGATGGTGCTCTGACGGGTTCGAGTTCTGCTGTGATAACGGAGAGAGACTGCGTGTCACGTTC -GCGCTGGACTGCTGTGATCGTGAGGCACTGCACTGGGCGGTCACTACCGGCGGCTTCAACAGTGAAACAG -TACAGGACGTCATGCTGGGAGCGGTGGAACGCCGCTTCGGCAACGATCTTCCGTCGTCTCCAGTGGAGTG -GCTGACGGATAATGGTTCATGCTACCGGGCTAATGAAACACGCCAGTTCGCCCGGATGTTGGGACTTGAA -CCGAAGAACACGGCGGTGCGGAGTCCGGAGAGTAACGGAATAGCAGAGAGCTTCGTGAAAACGATAAAGC -GTGACTACATCAGTATCATGCCCAAACCAGACGGGTTAACGGCAGCAAAGAACCTTGCAGAGGCGTTCGA -GCATTATAACGAATGGCATCCGCATAGTGCGCTGGGTTATCGCTCGCCACGGGAATATCTGCGGCAGCGG -GCTTGTAATGGGTTAAGTGATAACAGATGTCTGGAAATATAGGGGCAAATCCAGTTATCATCATTGGTTG -TGCGTCAGCTTATGCCGTTGAATTCAACAAAGATTTAATCGAAGCCGAAGATCGTGAAAACGTTAACCTT -TCCCAATTTGAAACTGATGGCCAATTACCCGTCGGCAAATATTCACTAAGCACTCTGATTAATAATAAGA -GGACGCCAATCCACCTTGACCTCCAATGGGTATTAATTGATAACCAAACTGCAGTTTGCGTGACACCAGA -GCAATTAACATTATTAGGATTTACTGATGAATTTATTGAAAAAACTCAGCAAAACCTGATCGATGGTTGT -TACCCTATCGAAAAAGAAAAACAAATTACAACTTATCTCGATAAAGGGAAAATGCAATTATCCATATCTG -CACCTCAGGCATGGTTAAAATACAAAGATGCAAACTGGACGCCTCCTGAACTTTGGAATCATGGTATTGC -TGGGGCATTTCTTGACTACAATTTATATGCCTCTCATTATGCACCACATCAGGGCGATAATTCGCAAAAT -ATAAGTTCCTATGGGCAGGCTGGGGTTAATCTTGGGGCCTGGCGCCTGCGTACTGATTACCAGTACGATC -AGTCATTTAACAATGGCAAAAGCCAGGCGACCAACCTGGATTTTCCGCGTATTTATTTGTTTCGCCCAAT -CCCAGCAATGAATGCAAAACTAACTATAGGTCAATACGATACTGAATCCTCTATTTTCGACTCTTTCCAT -TTTTCTGGCATTTCGTTGAAAAGCGATGAGAATATGTTACCGCCAGACCTACGTGGTTACGCACCGCAAA -TCACGGGTGTCGCACAAACGAATGCAAAGGTCACTGTCTCACAGAACAACCGTATTATTTATCAAGAAAA -TGTTCCTCCAGGCCCATTTGCTATTACCAATTTATTCAATACATTACAGGGGCAACTTGACGTCAAGGTT -GAAGAAGAGGACGGACGCGTTACGCAATGGCAAGTTGCATCTAATAGTATTCCTTATCTGACGCGTAAAG -GGCAGATTCGCTACACCACTGCTATGGGTAAACCGACCAGCGTTGGTGGTGATTCCTTACAACAACCCTT -CTTCTGGACTGGTGAATTCTCATGGGGTTGGCTGAACAATGTATCCCTGTATGGTGGTTCAGTTTTAACA -AACCGTGATTATCAATCTCTGGCTGCCGGCGTTGGTTTTAATCTTAACTCATTAGGTTCATTATCTTTTG -ATGTCACACGATCTGATGCTCAGTTGCATAATCAGGATAAAGAAACGGGTTATAGCTACCGCGCTAACTA -TTCAAAACGTTTTGAATCTACCGGTAGCCAGCTCACTTTCGCTGGTTACCGTTTCTCTGATAAAAACTTT -GTGACAATGAATGAATATATCAATGACACTAACCATTACACGAATTATCAGAATGAAAAAGAGAGTTATA -TTGTCACGTTTAACCAGTATCTTGAATCATTAAGGTTAAATACATACGTAAGTTTGGCTCGTAATACTTA -CTGGGACGCCAGCAGTAATGTGAATTATTCATTATCACTTAGCCGCGATTTTGATATCGGGCCATTAAAA -AACGTCTCCACTTCTCTAACATTTAGCCGAATAAACTGGGAAGAAGACAACCAGGATCAACTGTACCTAA -ATATTTCGATTCCCTGGGGAACTAGTAGAACATTGAGCTATGGTATGCAACGAAATCAGGATAATGAGAT -TTCGCATACTGCTTCGTGGTATGACTCTTCCGATCGAAATAATTCCTGGAGCGTTTCTGCTTCAGGCGAC -AATGATGAATTCAAAGATATGAAAGCGTCACTACGCGCCAGTTATCAGCATAATACCGAGAACGGTCGAC -TCTACCTCTCCGGTACATCACAGCGAGACAGTTATTATTCTCTGAATGCCAGTTGGAATGGTTCATTCAC -TGCGACTCGCCACGGTGCCGCTTTCCACGACTATAGCGGTAGTGCTGACTCGCGTTTTATGATCGACGCA -GACGGCACTGAAGATATTCCGTTGAACAATAAACGCGCGGTAACTAATCGGTATGGCATCGGAGTTATTC -CATCAGTCAGCAGTTACATAACAACATCATTAAGTGTTGATACCCGAAATCTGCCAGAAAATGTGGATAT -CGAAAACTCGGTTATCACCACCACCTTAACCGAGGGTGCTATTGGCTACGCCAAACTTGATACCCGCAAG -GGCTACCAAATCATAGGGGTTATTCGCCTGGCAGATGGTAGTCATCCACCACTGGGGATTAGCGTAAAAG -ATGAAACCAGCCACAAAGAATTAGGACTGGTTGCTGATGGCGGCTTTGTATACCTCAACGGCATTCAGGA -TGATAACAAACTTGCTTTACGCTGGGGTGACAAATCTTGTTTTATTCAACCACCCAATAGCAGCAACTTA -ACCACCGGAACGGCTATTTTACCGTGTATTAGCCAAAATTAATTCAGGATGAAACTAATGCGCTACTTAA -ATACAAAGAATATCATTGCAGCAGGAGTATTACTCTCCTGTATGAGCAGCATTGCCTGGGGTGCCATCAT -CCCGGATCGTACCCGTATCATAATGAATGAGTCAGATAAAGGCGAAGCATTAAAACTTACTAATCAAAGT -AAAAACCTGCCCTATCTGGCCCAAACATGGATAGAAGATACGAAAGGCAATAAATCGCGTGACTTTATTG -TCACTGTTCCTCCAATGGTGCGTTTAAATCCCAGTGAGCAAATTCAAATAAGAATGATAACTCAGGAAAA -AATTGCTCAACTTCCTAAAGACAGAGAAACGCTCTTCTATTTTAACGTGCGAGAAATACCGCCCAAAACA -GATAAAAAAAATGTGATGCAAGTCACTATGCAGCACGCATTGAAACTATTCTGGCGGCCAAAAGCCATTG -AATTAGAAGACGATGGGGTAATGACTTACGAAAAAGTTGAAATCATTCGTAGAAATGACGGTTCGATCCG -CTTTAACAATAAGATGCCTTATCACGTTACGCTGGGTTATATCGGAACAAATGGGGTAACGATGTTACCA -CAAACGCAAAGCTTAATGGTAACCCCTTTTAGCTATGCAAATACGCAGTTTAAAAATGTTCCGTCAACTT -TTCAGGTGGGTTATATCAATGACTTTGGTGGATTAAGTTTTTATGAAATAAACTGCCCTGTAGTAAATAA -CATTTGTAATATTTCTGTAGCCAACCGAGATCAATAATATGCGCTACTTGTTAATTGTTATTACTTTTTT -TATGGGTTTTAGTTCATTACCTGCATGGGCAATGGACTGCTATGCTGAACATGAAGGTGGAAATACCGTT -GTCATTGGTTACGTACCAAGAATCTCTATCCCCAGCGATGGTAAAAAAGGTGATAAAATCTGGCAAAGCA -GTGAATATTTTATGAATGTTTTCTGTAATAATGCACTACCAGGCCCATCTCCAGGAGAAGAATACCCATC -TGCATGGGCAAATATAATGATGTTGTTAGCATCAGGTCAAGACTTTTATAATCAAAACTCTTATACTTTC -GGTGTAACTTATAATGGGGTTGATTATGATTCTACATCTCCACTACCTATTGCAGCACCTGTATGTATTG -ATATAAAGGGAGCCGGAACCTTCGGGAATGGCTACAAAAAGCCCGCAGTCTGTAGTGGCGGTCCTGAACC -GCAATTATCAGTAACTTTTCCAGTACGAGTGCAGCTATATATTAAGCTAGCTAAAAATGCCAATAAAGTA -AATAAAAAACTTGTATTACCTGACGAATATATAGCACTTGAATTTAAAGGTATGAGCGGAGCAGGTGCTA -TAGAAGTAGATAAAAATCTGACCTTCAGGATTCGCGGATTAAATAACATTCATGTCCTTGACTGCTTTGT -TAATGTTGATCTGGAACCAGCTGATGGCGTTGTCGACTTTGGTAAAATAAATTCCCGAACAATTAAAAAT -ACCAGCGTGAGTGAGACGTTTAGCGTAGTCATGACCAAAGATCCGGGTGCGGCCTGTACTGAGCAGTTTA -ATATTTTAGGGAGTTTTTTCACTACGGATATTTTGAGTGATTATAGCCATCTGGATATAGGTAATGGTCT -GCTATTGAAGATATTTCATAACGATGGAACAGCAACGGAATTTAACCGCTTCTCACAATTTGCTTCTTTT -TCATCGTCTAGTGCGCCTTCGGTCACCGCACCATTCAGGGCAGAACTGAGTGCGAACCCGGCAGAAACGG -TTGTTGAGGGACCGTTTAGTAAAGACGTAATCCTGAAAATCACCTATAACTAGTATCTAATACAAACACT -AAAACGGGCCATCAGGCCCGTTATATCAGTGCTCTAACTCCAGCTCTCTTGCCTGCATCATCTGTTGACA -ATACCAGGCATAACGTGCGCAAAACCAGGTTCTATGTTCTTCATCCATGTTACCAGTAACGGCCAGAATA -TCGACCGGGCGACCTTCTGCGTGCATTCTGGCAAAACTACGCGCCAGGAAATCGAAATTATTTAAAGAAT -TAAGACTATGATCCATAAGCACATCCTCCGGTTATCGCATACCTTTTAAGGCCATATGCTTTTTCTGATT -TCAGTATTCCCCAATCAGTGTAGTGCCTTTAAACATAACGTGCGTAAATATATTGTCCCCGATCACACTT -TTTAGTGAAAAATAAAAAACCATATTAAAAGACTTTCTCTTCCAGAACTTCTCTAACCTGTGTTATTATT -AACACAGATAAATGTAAGCAAGGAAACTATTACAAAGTAAATATTGCGTCACTAAATGGACATTGGAGTG -ATATATGATTTTATTCGCCGACTATAACACCCCTTATCTTTTCGCTATTTCCTTTGTACTGTTGATCGGC -CTGTTAGAAATTTTTGCGCTTATCTGCGGTCACATGCTCTCCGGTGCTCTTGATGCACATCTTGACCATT -ATGATTCTATAACCACAGGTCATATTAGCCAGGCACTTCATTATCTCAATATTGGAAGATTGCCAGCTCT -CGTCGTTCTCTGCTTACTGGCTGGTTTTTTTGGTCTTATTGGCATCCTGTTGCAGCATGCCTGCATCATG -GTCTGGCAATCACCACTGTCGAACCTGTTCGTGGTTCCTGTCAGTTTACTGTTTACGATTATTGCGGTGC -ATTATACCGGTAAAATAGTTGCGCCCTGGATTCCACGCGACCATAGTTCAGCTATTACAGAAGAAGAATA -TATTGGTAGCATGGCGTTAATTACCGGTCATCAAGCCACTTCAGGTAATCCCTGCGAAGGAAAACTCACC -GATCAATTTGGCCAAATACATTATTTACTACTGGAGCCTGAAGAAGGAAAAATTTTCACTAAAGGAGACA -AAGTGTTAATTATTTGCCGACTTTCTGCAACGCGATATTTGGCGGAAAATAATCCCTGGCCCCAAATATT -GTAATTTATTAATCAAAAGGAAATTTAATAATGGATGATATTGTTAATTCTGTGCCCTCCTGGATGTTTA -CCGCAATTATTGCCGTATGCATTCTGTTTATTATTGGAATTATTTTCGCCAGGCTCTATCGTCGCGCTTC -GGCAGAGCAAGCTTTTGTTCGTACTGGTTTAGGTGGGCAAAAAGTGGTAATGAGCGGTGGCGCAATCGTG -ATGCCGATCTTTCATGAAATAATCCCCATCAATATGAATACTCTGAAGCTGGAAGTCAGCCGCTCAACCA -TTGATAGCCTGATTACGAAAGATCGTATGCGCGTCGATGTAGTAGTCGCTTTCTTTGTGCGGGTAAAACC -TTCAGTAGAAGGGATTGCCACCGCTGCCCAGACGCTGGGGCAACGCACCCTGTCGCCTGAAGACTTACGT -ATGTTGGTTGAAGATAAATTTGTCGATGCCCTCCGTGCAACAGCTGCGCAAATGACCATGCATGAGTTAC -AGGATACCCGCGAGAACTTTGTGCAGGGGGTGCAAAATACAGTGGCAGAAGACCTGTCGAAAAACGGTCT -GGAACTGGAGAGCGTTTCACTTACCAACTTTAACCAGACCTCGAAAGAACATTTCAATCCGAACAATGCC -TTTGACGCCGAAGGTTTAACCAAACTGACTCAGGAAACAGAGCGCCGTCGCCGCGAACGTAACGAAGTTG -AACAGGATGTAGAAGTTGCGGTGCGTGAAAAAAATCGCGATGCGCTATCGCGCAAGCTGGAGATTGAACA -GCAAGAAGCGTTTATGACGCTTGAGCAGGAGCAGCAGGTTAAAACCCGTACTGCCGAACAGAATGCACGT -ATTGCGGCTTTTGAAGCTGAACGTCGTCGTGAAGCAGAGCAGACACGAATTCTGGCTGAACGACAGATTC -AGGAAACAGAAATCGACCGCGAACAGGCCGTCCGCTCAAGAAAGGTTGAAGCTGAACGTGAAGTTCGCAT -TAAAGAGATCGAACAGCAGCAGGTCACCGAAATCGCTAACCAGACGAAATCGATCGCTATTGCCGCCAAA -TCGGAACAACAGTCCCAGGCAGAAGCGCGTGCTAATCTCGCACTTGCAGAAGCGGTAAGCGCCCAACAAA -ACGTAGAAACCACTCGCCAGACTGCCGAAGCCGATCGTGCTAAACAAGTTGCCCTAATCGCTGCCGCGCA -GGATGCAGAAACCAAAGCGGTTGAACTGACCGTGCGGGCGAAAGCAGAAAAAGAAGCCGCAGAGATGCAG -GCGGCGGCTATCGTTGAGTTAGCCGAAGCTACACGTAAAAAGGGTCTGGCGGAAGCAGAAGCACAACGTG -CGCTGAACGATGCTATCAACGTACTTTCTGATGAACAAACCAGCCTTAAATTCAAACTGGCCTTGTTGCA -GGCGCTGCCTGCGGTAATAGAGAAATCCGTTGAGCCGATGAAGTCAATCGACGGTATCAAGATTATTCAG -GTCGATGGTCTGAATCGTGGCGGCGCTGCGGGTGATGCAAACACGGGTAATGTGGGGGGCGGAAACCTGG -CGGAACAAGCATTATCAGCCGCTCTCTCTTACCGCACACAGGCACCGCTGATTGACTCCTTGCTCAATGA -AATTGGCGTTTCAGGCGGCTCACTGGCGGCATTGACTTCACCCTTAACCTCAACAACTCCCGTCGAAGAA -AAAGCAGAGTAAACCCTCTTCCAGGAATAATCCCTGGCCCAAAAAGCCGGGGATTTTTTATATCTGCGTT -CCGCTAAAAAGTGCAAATGATCAGGTTGTTGCAGCATTTTGCGTGACGGCTCGGGGAAGGCAAAACTGCA -TCAGAGAAAGCATTGCGTGGGGTCTGGCGCTCATCAACAATCGGGGAGTCAGCAGGGGGCTGAAACGGGA -AAGCCCCTCCCGAAGAAGGGGGCCTTACAGAAGGAAAGGGTTATGATGAAGCTCGTCATCATACTGATTG -TGTTGTTACTCGTAAGTTTCGCAGCTTATTAACAGCCAATCAGAGGGGGGAGAAATCCTCCCTCACCCTT -GTTCCTTTACTTTAGGTTGAAAAAAAATCAGCGTCAAGAAGGTTTCATTAACACATATCCCTGGCCCAAA -AAGCCGGGGATTTTTTATATCTGCGTTCCGCTAAAAGGTGCAAATGCTCAGGACGTTGCAGCGTTTTGCG -TGACCGCTCGGGGAAGGCAAAATTGCCTCTGGGAAAGCATTGCGCGGGGTCCGGCGCTCATCAACAATCG -GGGGGCAGCAAGGGGCTGAAACGGGAAAGCCCCTCCCGAAGAAGGGGCCTTGTATAAGGAAAGGGTTATG -ATGAAGCTCGTCATCATACTGGTTGTGTTGTTACTGTTAAGTTTCCCGACTTACTAACAACTCATCAGAG -GGGGGAGAAATCCTCCCTTACCCTTGTTCCTTTACTCTAGGTTGAAAAAACAACAGCGTCAATAGGCCTG -CCATGTACGAAGCGAGATCTGTGAACCGCTTTCCGGTTAGCCTTTTTTATCCTGTTGGATCTTCTTGATG -ATGTTGGTCGTCGAGCAACCGTCTTCAAAGTTGAGCACCAACACTTCGCCACCGTTGGCCCAGACTTCTT -TACTCCCGGCAATCTCTTCTGGTTTATAGTCGCCGCCTTTCACCAGCAGATCTGGCAAGATCCCGGCGAT -CAAGCGCTGCGGCGTGTCCTCTTCAAACGACACTACCCAGTCGACCGCTTCCAGTGCGCCCAGCACAATC -ATACGCTGTTCGAGTGGGTTTACCGGGCGGGAATCCCCTTTCAGCCGTTTGGTGGAGGCATCGCTGTTGA -CGGCAACAATCAAGCGGTCACCCAGCTTGCGGGCATTTGCCAGATAAGAGACGTGCCCGGCGTGCAGGAT -GTCAAAGACACCGTTGGTCATCACCACTTTTTCACCACGTTTACGCGCTGCCGCTACGGCCAGCTTCAGT -TCCTCTTCGGTCATCACGCCAAAGCCTGTATCTGCACGTCCACGTACAGCATTTTCCAGCTCGATCGGCG -AAACCGTGGAGGTTCCCAGTTTGCCGACCACCACGCCAGCCGCCGCATTGGCAAAGAAGCAGGCTTCTTC -CAGCGAATTACCCGCTGCCAGCGTTGCCGCCAGGACGCCAATCACCGTGTCGCCCGCACCGGTAACGTCA -TACACTTCCTGCGCTTGGGTTGGCATATGCAGCGGCGCTTTACCCGGTTGCAGCAGCGACATACCCTGTT -CGGAACGGGTCACTAACAGAGCCGAGAGTTCGTAATCGGCAATCAGTTTCATGCCGCGCTCAACAATCTC -TTCTTCGGTCTTACATTTACCGACAACAGCTTCAAATTCCGAGAGATTCGGCGTTAACAGCGTAGCGCCG -CGGTAGCGCTCAAAATCGGTACCTTTTGGATCAATCAGCACCGGAACACCCGCTTTACGCGCCAGTTGGA -TCATCTGCTGTACGCTTGCCAGCGCACCTTTGGCGTAGTCAGAAAGCACCAGCGCGCCAATCGAACTCAG -CGCCTGATTAATCCGCTCGTGCAGCGGCTGCGGATCAACACCTTCGAAACCTTCTTCAAAATCCAGACGG -ATCAGCTGTTGGTTGCGGGAAAGTACCCGTAATTTGGTAATGGTCGGATGCGTCGGTACAGAAACGAAGT -CGCATTTGACGTTGACGTCGGCCAGAGATTTACTCAGCGCGCGCGCTGCATCGTCAATGCCCGTCAACCC -GACCAGGCGTGCATTAGCACCGAGAGAAGCGATATTCATCGCCACGTTAGCCGCGCCGCCCGGACGTTCT -TCGATGGTATTCACTTTAACCACGGGCACCGGCGCTTCCGGCGAGATACGACTGGTGGGGCCGTACCAGT -AACGATCCAGCATCACATCACCAACCACCATCACTCCTGCACGTTCAAACTCTGGCAGCGTTACTTTCAT -TCCTGTCTCCTGAGAGATTCAAAATTTGCGCGCGATAATACCATACTTCATTCTTCCACCAGCCACTTCT -GCCAGCTTGCCCGCACCAGTTCACGCTCTGCGGTGAAGCAATCCTCCGACACATGGCCCGGCAATTCCTG -TAATGCCAGATGATGAAGTTCATCGCGAAGCGTAGTGTAAGCACGGGTCAGCGCCATCGCTTCCTGCTCT -TCCATAATGTCGTTTTGCGCCAGTAGTTCCAGAATACGCACGTTGTCTGACCAGCGCGTTAACTTCGGTT -TTTCATGAGCGTAGCGCAACACCAGATATTGGGTAATAAATTCGATATCGGTAATTCCCCCTTCATCAGC -TTTGATATCAAAGCGATCGCGATGTTTATTGCCGAGATGAGCGCGCATTTTCTCGCGCATTTCCCGCACT -TCCGTTTGCAGAGTTTTACCTTCACGCGGCAGCGTCATAATCTCGCGACGCACTGCGTCAAAGTGCGCGG -TGAGCTGCGGATCGCCGTACACTACACGCGCACGCACCAGCGCCTGATGTTCCCACGTCCAGGCCTCGTT -TTTCTGATAATCGGCAAATGCTTCTGCGGATGTCACCAGCATTCCCGCCGCCCCGGACGGACGCAGTCGA -GCATCCACTTCATACAAAATGCCGGAAGAGGTACGCGTACTGAACAGATGCATAATGCGTTGCGCCAGAC -GCAGATAAAACTGCCGCCCGTCGATTTCCCGCTCACCGTCAGTCATCGCATCCATTGGGCAATCATGGAG -GAAGATAAGGTCAAGATCGGAACTGTAGCCTAACTCCCAGCCGCCCAGCTTGCCGTAGCCGACCACCGCA -AAACCACGCCCTTCGCGTTCGTTCAGGTGATTCGGCTTACCGTAGCGGGCAACCATTTGAACCCACGCCT -GCTGAACGACGGCATCTATCATGGCTTCCGCCAGCCAGGTTAAGTGATCGCTCACTTTCATCACCGGTAG -CGTACCGGCGATATCCGCTGCGGCGATGCGTAACAGCTGCGCCTGTTTGAACTGACGCAGCGCCTCAAGC -TGTTGCTCTTCGTCATCTTCCGGCACGCGCAGCAAATACTGGCGCAACTCATCGCGGTAGGCATCGGTCG -CCGTCGGCTGGTAAAGGGTGTTTGGATCGAGCAATTCATCCAGCAATAATGGATAACGCGCCAGCTGGCT -GGCAATCATCGGCGACGCGGCACACAGAGAAATCAAATGTTTAAGCGCCGCGGGGAATTCACTGAGCAAT -TCTAAATAGGTGGTGCGGGTAACAATCCCCACCAGCAAGGCGGTAATGCGCGACAGCGTAACGGCAGCGT -CTTCACGCGCACAGACATCACTTAGCAGATGCGGCATCAGATGGTCGAGCACCTGACGTCCTCGCGGCCC -GATGGTGCGCTTATCCAGCTCTTTGCGGAAATCGGCAATCAGCGTTAGCACCTGTTTGCGATCATCCTCG -CTAAGATGCGCCAGCACTGGCGTAGTGTCATCTTCCTGCAACGCATCCTGCCACAGCTCACGCCACTGTT -CCGACAGCGACTCTTCCTGAGTTTCACTTTCATCGTCGCCAATCAATTCATTAAACACCCGGCGCACATT -GGTCATATGTGCGGTCAGCGCCCCGGTCAGTTGCGGCCAGTCAGCAAAGTCCATCGCCCACGCCAGCCGC -GCACGATTAAGCTCATCAGAAGGAAGCGTCTGGGTTTGTTCGTCGTTAATGCTTTGCAGCAGGTTTTCCA -GACGCCGCAGGAACAGATACGCCACTCGCAATTGTTCAGCATCGTTTTCAGAAAGCAGATGCAGCTCGGC -AATGGCGCTGAGCGTTGGCAGTAAAGAGCGCGATTGCAGCGACGGTTCGCGTCCGCCGCGAATGAGCTGG -AACACCTGAACGATAAATTCAATTTCGCGAATGCCGCCTGCGCCGAGTTTGATATTGTCGGTCAAACCAC -GTCGACGCACTTCACGGGCAATCATCCCTTTCATGTTGCGCAGCGACTGAATCACGCTGAAATCGATGTA -ACGACGGAAAACAAACGGGCGCAGCATCGCACGCAACTCGTTAGCATAGACGCCTTCGCTATCGCCCATA -ATCCGCGCCTTGACCATCGCGTAACGCTCCCAGTCGCGCCCCTGCTCCTGGTAATAATCTTCCAACGCGG -CAAAGCTCAGCACCAGCGGGCCACTTTCGCCAAACGGACGCAGCCGCATATCCACGCGATAGACGAAGCC -ATCCTGCGTTGGTTGATCCAGCACTTTAATCAGCCGCTGCCCCATGCGGGTAAAAAACTGCGCGTTATCC -AGTTCCCGGCGTCCACCCTGCGTACAACCATGTTCCGGCCAGGCAAAAATCAGATCGATATCAGAGGAGA -AATTCAGCTCCCCACCGCCCAGCTTACCCATGCCTAAAATCAGCAGCGGTTGCGCTTCGCCCTGCGCATT -GCACGGCGTTCCCCACTCGCGGCAGCAGGCGTCATACAGCCAGTCACGCGCCGCAACAATCAGCGTCTCC -GCCAGATAGCTGAGCTGCTGCAATATGCTCTCTTCAGTAACCAGTGCCAGCGTTTGCGCCCAGGCGATGC -GCACCATAATGCGCCGCCGGAATAGCCGCAGCTCGCGCATTAACCCGGCTTCGTCACTCACATTACAGAG -CGCCTCCTGCAACCATGCCGCGTAATGCTGCCATTCGTCGGCCTGCGGCGGTTGGCTTTCCAGTTCCGTC -AGCCACTCTGGATGCGCAATCACGCTGTCCTGCACAAAATCACTAAAAGTAAGTACTGACTTCGCCTGTG -CGCTAAGTGATTCCTCGGCTAAAGGCTCTGGCAGCCGCTCAACAACGGTCTGCCAGTACTGCTGTAACGG -TGAAGAGAGCGGCTTCATAAGCGATTTTATCCTTGCCTGATTAACGTTTTCCGCTGTGCAACCAGAACGG -TTCCTGATTGTTTGCCTCATTACGGAAATGTTCAATTTCGATGCGTTGCCCGGTCGCAATAGCGTGATGC -AGCCCCTGCCAGTTCTCCAGCCAGGCTTGCGCGACGACAGGATCATAGTAACCCGCCAGCAACAGTATTG -AGTCAATATCACGCGTCAGGCGTGGCAACTGGTCACGGTAGCGATCGCCTAACGGCTGGCAGAAAACGCT -TTTCAGTTCAGCGGCATGGCGGGAAAGATGGATATCGGCAAAGCGTTTGAAGGAGTCGCTGATTTTGCCC -TGCGCTTTGGCATCTAAAAATGGCTGCCATGCTTTGCTTACCAACCATTCGGTCAACGCCAGCTTCGCCA -TTGCCGTTTCGGTAGAGTAGACCGCCGTCACGGCAGACACCGCAGAAGCAATGGTCGCCTCGCATTGAGT -CAGCAGATCACGTAAGTGAGTGCTCGCTTTACGCGGCACAATACCACCGAACAGCATCAGCGTATGACGG -ACCAGGCTAATGGCTGCCAGCACCTGTTCTTTCGCCGCATCGTTGCCGCGTACCCACAGTTCTTCATGAT -ACTGCCATTGCGCTAACGCCAGCTCGAGCGCCGCTTCCAGCCCCTGTTCCACATCGGCTTTTGCCGCAAC -ATGCAAAATGGTGGTCGGTTTGATTTCACGCGCCGGATTGCCCTGCGCCAGATGATAGCCACGCGCCGCT -TTGCTCAGGCTGCCCTGGCGTAATCCGGTTTGCGATACCAGTTGGTTCGCCAGTTTCAGCACCGCGCGCG -TGTCGCCGCTAAGCAGTTCCAGTTCCAGCTCACAGATAGGTTCAGCAAATTCACCCGCTTTCACTTCCCC -CTGGTCGAGGGCGATTTCAATTTGGCTACCATCGACCGCCACCAGCCATTTTTCGCGATAAAAATCGGTG -CTGAACAGCGGCTGCACGCGGGAGGCGAGATCGGCGGGCAATTCGCCGTTCGGCCAGACTTCCGTCGGTA -ACTGCGCCAGGTCGAGCGTCGGTTCGCTCAACGCCACGTTATATTCCGGGCGCTGATGTAAGCCGCCTGT -CACTCTTCCTGCAACTTTCATGGTCATCTCATAGCGACCGTTTTCGCCACGAATACGTAAGCCCATATCG -TGCCCACGCAGCCAGTTATCCGGCGTTTCGTAGTAAATATTCAGCAACTGCACGGGGTCATGGTGCTCGC -CGCCCAGCGTATTGAGATGGTCACGCAACGCCTCAACGGCACTGTGATTAACAATAAACTTTAATTCGAT -TTCCTGAGCCATGGCCTTTACTTATCGGTTATGTCACATAAGTGACGATGAACGGCGAACTTAATGCGAT -CTTTTTTGTCAGTAGATAGTATTTTGCGCCAAATTGCCATGCAACGGGCAATTTGACGGGCGTAAAAGTT -TGAAGCAGTGGCAAGACCTGACACAGAGGATTCCGATTGATGTCGAATGCTTTGCGTAGCGACACTGATG -CCACTACTATCGTTCCACTTTCCATGACAATAACGACAGCCTGATGCCAAAATTACGCCTGATCGGATTA -ACTTTACTCGCACTTAGCGCGACTGCCGTCTCACACGCTGAAGAAACGCGCTATGTTTCCGACGAACTGA -ATACCTGGGTCCGCAGCGGTCCGGGAGATCATTATCGCCTCGTGGGCACGGTTAACGCCGGCGAGGAAGT -GACCTTATTACAAACTGACGCCAACACCAATTATGCCCAGGTGAAAGACAGCTCTGGCCGTACCGCCTGG -ATCCCGTTGAAACAACTTAGCACTGAGCCAAGCCTGCGCTCCCGTGTGCCAGATCTGGAAAATCAGGTCA -AAACCCTGACCGATAAACTCACCAATATCGATAACACCTGGAATCAGCGCACCGCAGAAATGCAGCAAAA -AGTGGCGCAGAGCGACAGCGTGATCAACGGGTTAAAAGAAGAAAATCAGAAACTGAAAAACGAGCTGATT -GTCGCGCAGAAAAAGGTCGATGCCGCCAGCGTACAGCTGGATGACAAACAGCGCACCATCATCATGCAAT -GGTTTATGTATGGCGGTGGCGTGCTGGGGCTTGGCTTGCTGCTCGGTCTGGTACTGCCGCACCTGATCCC -AAGCCGCAAACGCAAAGATCGCTGGATGAACTAAATCGCCTTCTTCGTTGCACTGTCTTATTATTAGGAA -TTGTGTATTTGACGAAGGGATGATGGCGTGAAGATTTATCTGGTCGGTGGTGCTGTTCGGGATGCATTGT -TAGGGCTACCGGTCAAAGACAGAGATTGGGTGGTGGTCGGCAGTACGCCACAGGAGATGCTCGACGCGGG -CTACCAGCAGGTAGGCCGCGATTTTCCTGTGTTTCTGCATCCGCAAACGCATGAAGAGTATGCGCTGGCA -CGTACCGAACGGAAATCCGGTTCCGGTTACACCGGTTTTACTTGCTATGCCGCACCGGATGTCACGCTGG -AAGATGATCTTAAGCGTCGCGATCTGACCATTAATGCGCTGGCCCAGGACGATAACGGCGAGATTATCGA -CCCGTACAACGGTCTGGGCGATCTGCAAAATCGTCTGTTGCGCCATGTTTCCCCCGCTTTTGGCGAAGAT -CCGTTACGCGTATTGCGCGTGGCGCGTTTTGCTGCGCGTTATGCCCACCTCGGTTTTCGTATTGCCGATG -AAACTCTGGCGTTGATGCGCGAGATGACCCATGCGGGTGAACTGGAACACCTGACGCCTGAACGGGTATG -GAAAGAGACGGAAAGCGCCCTCACCACCCGCAATCCACAGGTGTTCTTCCAGGTACTGCGCGATTGCGGC -GCACTGCGCGTTTTATTCCCGGAAATTGACGCACTGTTTGGCGTTCCGGCCCCTGCCAAGTGGCATCCGG -AAATCGATACGGGTATTCATACCTTAATGACGCTCTCAATGGCGGCGATGCTGAGTCCGCAGGTCGATGT -CCGTTTCGCAACTTTATGCCACGATCTCGGTAAAGGGCTGACGCCGCCAGAACTCTGGCCGCGTCATCAT -GGTCATGGCCCGGCGGGTGTTAAGTTAGTGGAACAACTATGCCAGCGTCTGCGCGTGCCAAATGAAATTC -GCGATTTAGCCAGACTGGTGGCTGAGTTTCACGATCTCATCCACACCTTCCCAATGCTGAACCCAAAAAC -CATCGTCAAATTATTTGATTCCATCGATGCCTGGCGTAAACCGCAGCGTGTCGAGCAACTGGCGCTGACC -AGCGAGGCTGACGTGCGCGGCAGAACCGGTTTTGAATCAGCGGACTACCCGCAAGGCCGCTGGTTGCGCG -AAGCCTGGGAAGTGGCGCAGTCAGTGCCGACAAAAGCCGTCGTTGAAGCGGGATTTAAAGGTGTGGAGAT -TCGCGAGGAGCTGACCCGACGGCGGATTGCGGCGGTAGCCAGCTGGAAGGAACAACGTTGCCCAAAGCCT -GAATGAGTATTGGGCATTTTGCCGGATGCGGCGTAAACGCCTTATCCGGCTACATGTCAACGACAGTTGT -AGGCCTGATAAGACGCGCAAGCGTCGCATCAGGCGTTGATTGCCGGATGCGGCGTGAACGCCTTATTCGG -CCTACGCAATCGTTGACAACGCCAAGCATCCGACACTATTCCTCAATTAAAAGAACACGACATACACCGC -AGCCGCCACAATAAAGCGATAAATGGCGAACGGGATAAACGAAATGCGCTTAATCAATTGCAGGAAGGTT -TTAATCGCTATCAGCGCCACCACAAAAGCGGTGATAAACCCAACGGCAAACATCGGGATATCGCCGCTTG -TCAGGAAGCCCCAGCTTTTGTAGAGATCGAGCGCCGTTGCGCCCATCATCATCGGCACCGCCAGCAGGAA -CGAAAACTCGGAAGCAGCGTAACGGCTCACCCCCATCAGCATCCCACCTGAAATGGTCGCCCCGGAACGG -GAGAAACCCGGCCACAGCGCCAGACACTGGAAACAGCCAATCATAAATGCCTGACGATAGGTCATATCAT -CAAGACCCGGCGCACGCGGCTCTTTCGGCTTCAGGCATTCGGCGGCAATCAGCAACAAACCGCCAACGAC -CAGCGCATACATCACATTTATCGGGTTAAACAATGACTTAATCGTGTCGTGGAACAACAGCCCCAATACC -ACCGCCGGAATCATCCCCAGCAAAATGTGGATCAGCGTTAAACGACCTTTGCTTTCACCTTCGTGCTGCA -ACGGGCGGCCAAAGTGGATGCCAATCAGGCCAAACAGACGCCGCCAGAACATCACTACTACCGCCAGAAT -TGATCCTAACTGGATCACAACTTCAAAGGTTTTCGCCGTGTCGCCCTCAAACCCCAACAAGTGACCGACA -ATAATCATATGGCCCGTGCTGGATACCGGCAGAAATTCTGTCAATCCTTCGACCACACCCAATATTGCCG -CTATCAGCAGCGAGTGCATATCGCTCATCAATAAACCCCTAAATTATTAAAATGTACCGCTTGTCCGAAC -TACTGCGTATGACCAGGTTATAACCGTTTGGTTTAACAGCTGTAAAATTAATTATTTTCTTTCAGATTAT -TGCCACGCTCAATGATTACGCCAACATTCGCCGCCCGCGCCACTGCGCCTGGCTTGCTGAGTTTGATACG -CACCCACGGCGAGTTGAAGCGTGCTAACAGCAGCTCCGCCACCTCTTCAGCCACGCGTTCCACCAGCGCA -AAACGCGCCCCCTCGACGTGGCTGACCACCGTTTCTGCAATGTCAGCGTAACTGAGGCAATCCGCCACAT -CATCACTTTTCGCCGCTTTACGGTTATCCCACGCCATTTCGATATCGAACACTAACTTCTGTTCGATGGT -CTGTTCCCAGTCGTAAACACCAATAGTGGTGATTACCGAAAGTTGCTCTATAAATACAATATCCATCACG -TCCTGCCTGCTTTTTGGCTAACCGGATACCACTTCCGGCGAAATGTGCGTATTATCCACAGATTCATCGT -TGAACACGAATTTTCAAAACGGAACAGCTTATGAGTGCAATCGCGCCTGGAATGATCCTCATCGCGTACC -TCTGCGGCTCCATTTCCAGTGCCATTCTGGTTTGCCGCTTGTGTGGGCTGCCCGATCCGCGAACCAGCGG -CTCCGGCAATCCAGGCGCAACCAATGTGTTACGTATCGGTGGCAAGGGAGCAGCCGTAGCAGTACTGATT -TTCGACGTTCTGAAAGGAATGTTGCCCGTCTGGGGCGCGTATGAATTAGGTGTCAGCCCCTTCTGGCTAG -GCTTAATTGCCATCGCCGCCTGTCTTGGACACATCTGGCCCGTTTTCTTCGGATTTAAAGGAGGAAAAGG -CGTTGCTACCGCTTTTGGTGCCATCGCACCCATTGGCTGGGATCTCACCGGAGTAATGGCGGGAACCTGG -TTACTGACCGTGCTATTGAGCGGATACTCGTCGCTGGGAGCGATTGTCAGTGCACTGATTGCTCCGTTTT -ATGTCTGGTGGTTTAAGCCACAATTCACCTTCCCGGTTTCGATGCTCTCTTGCCTGATCCTGCTGCGTCA -TCATGACAACATCCAACGTCTGTGGCGTCGTCAGGAGACAAAAATCTGGACGAAATTCAAAAGAAAGCGC -GAAAAGGATCCCGAGTGATTTCTGGTGGATCTACATGACCTGATAGCCTTCATCGGGCTTGCCCAGCCGT -TGCTGGCACCATGCCGCCAGAAATTCCACGCAGACACGTAATTTCATGCTGCGATAGAGCGGCTCCCGGT -AAACAGCCCAGATATTGGCGCTTTGTGCATACTCTGGCAATACTTGCACCAGTTTGCCACTCTCCAGAAA -CGGCAACACATCCCACTCGGAACGCAGCATAATCCCTTTGCCCTCCAGCGCCCATTGCAGCACAATCTCG -CCGCTATTGGAGGAAAGATGCCCGCTTACCTTCACCGATTTTTTCTCCTGACCGTTCCCCAACTCCCATA -TTCCATGGGTCATATCGCGCTCTTTGGTCACCAGACAGTCATGACGACTTAATTCCTGTAGGGATTGTGG -CTGCGGATATTTTTGCAGATACTCAGGTGCTGCGCATAATATTCTTTTATTTTTTGTCAAAAGATGCGCA -ATATAATAATCAGGAATTTCGTCATTAATACGAATATCCAGATCAATATTATCCTGCACTAAATCAATTT -GCCGATCGAACAATTCAAAATGCACCTGTAACTCAGGATAATTGCGCATCAGTTCGGTAATAGCTGGCGC -AATATGGCTGCGCCCAAAACCAAAACTGCAACCAATACGAATCATCCCCTCCGGGCGCGTTTTGATTTGC -GTGACGTCATCGACCAGTCGCTGATATTGGGTGAGGATTTCCAACGCATGTTCGTAACAACGTTGGCCAC -TTTCAGTCAGCGCCACGCCGCGAGCGGAGCGGTTCAGCAGCGTTGTTGCCAGCGTATTTTCAAGGATTTG -GATCCGCTTGGTGACAAATGCAGGCGTCTGCCCAAGCGTCGCCGCTGCGGCGCTAAAACTCCCGCTGTGA -ACGATTTCTACCAGTACCTGCAAGTCTTTGGCTAAAGGCCAGCTATTCAGCATCGTTAATTATCCGCAGT -TGTGATAAGCGCAGTGTATTTCGCAAAACATTGCCATTCCCTGCTCTGGCGCAATATTCATTCTTATTTT -CGCGTTGATTCACGAACTGTTAATTACATATTCACGGTGGCAAAAAATATAAAACCACATTTTTAGTGGT -AGTTTGTGGCGGTGAATTTTTCCAGACAAATACAAAAACTGGAGTTGCCATGATGAGCGAAAGTAATAAG -CAACAGGCAGTGAATAAGTTGACAGAGATTGTCGCTAACTTTACCGCCATGATTTCTACCCGAATGCCTG -ATGACGTGGTGGATAAACTAAAACAGCTAAAGGATGCCGAAACGTCGTCGATGGGGAAAATTATCTACCA -TACGATGTTCGACAACATGCAAAAAGCGATTGACCTGAATCGTCCTGCCTGTCAGGACACCGGGGAGATT -ATGTTCTTCGTTAAAGTCGGTTCCCGCTTCCCACTGCTTGGCGAGCTGCAAAGCATACTCAAACAAGCCG -TGGAAGAGGCAACCGTCAAAGCGCCACTACGTCACAATGCGGTAGAAATTTTTGACGAAGTAAACACCGG -CAAAAATACCGGTAGCGGCGTACCGTGGGTCACCTGGGACATCATCCCCGACAATGACGATGCGGAAATC -GAAGTTTACATGGCAGGCGGCGGCTGCACGCTACCTGGCCGCTCGAAAGTGTTAATGCCGTCAGAAGGCT -ACGAAGGCGTGGTGAAATTCGTCTTCGAAAATATCTCCACCCTCGCCGTAAACGCCTGTCCACCGGTACT -GGTGGGCGTGGGCATCGCCACCTCGGTGGAAACCGCCGCCGTACTCTCGCGTAAAGCCATTTTGCGCCCG -ATTGGCAGCCGCCATCCCAATCCAAAAGCGGCAGAACTGGAGCTACGCCTGGAAGAAGGACTCAACCGTC -TGGGGATTGGTCCACAAGGGCTGACCGGCAACAGTTCAGTGATGGGCGTACATATCGAATCTGCCGCCCG -CCATCCGTCAACCATCGGCGTTGCTGTCTCTACCGGCTGCTGGGCGCATCGTCGCGGCACGCTGCTGGTT -CATGCCGATCTCACCTTTGAAAATCTGTCTCACACCCGGAGCGCGTTATGAAAAAGATCCTGACAACCCC -GATCAAAGCTGAAGATCTGCAAGATATTCGCGTCGGCGATGTGATCTACCTGACCGGTACGCTGGTGACC -TGCCGCGACGTTTGTCACCGCCGTTTGATCGAACTGAAACGTCCGATCCCTTACGATCTCAACGGCAAAG -CGATTTTCCACGCTGGCCCCATCGTGCGCAAAAACGGCGACAAATGGGAGATGGTCTCCGTCGGCCCGAC -AACCAGTATGCGTATGGAAAGTTTTGAACGTGAATTTATTGAGCAGACCGGCGTGAAACTGGTGGTTGGC -AAAGGTGGTATGGGGCCGCTGACCGAAGAAGGCTGCCAGAAATTCAAGGCGCTACATGTGATTTTCCCGG -CAGGCTGCGCGGTGCTGGCGGCAACCCAGGTGGAAGAGATTGAAGAAGTGCACTGGACAGAGCTCGGAAT -GCCGGAGTCACTGTGGGTCTGCCGGGTCAAAGAGTTCGGCCCGCTGATTGTCTCTATTGATACCCACGGC -AACAACCTGATAGCCGAAAACAAAAAGCTGTTCGCCGAACGCCGCGATCCCATCGTGGAAGAGATCTGCG -AGCACGTCCATTACATCAAATAACCCTCCCGGAGAGGCTCACCCCTCTCCTTTTTCGCAGGCATAACACG -ATGAAACCTTCCACTGAATGGTGGCGATATCTTGCGCCGCTGGCGGTCATCGCCATTATTGCTCTACTTC -CGGTTCCCGCAGGGCTGGAGAACCATACCTGGCTCTACTTTGCCGTTTTTACTGGCGTGATCGTTGGACT -GATCCTCGAACCCGTGCCGGGTGCCGTGGTGGCGATGGTGGGTATATCCATCATCGCCATACTCTCTCCC -TGGCTGCTGTTCAGCCCGGAGCAGCTCGCTCAGCCAGGCTTTAAATTCACTGCAAAATCCCTCTCGTGGG -CCGTTTCCGGTTTTTCTAATTCGGTTATCTGGCTGATTTTCGCCGCCTTTATGTTTGGCACAGGCTATGA -AAAAACCGGGCTTGGACGCCGCATTGCGCTGATTCTGGTGAAAAAGATGGGACATCGCACGCTGTTTCTC -GGCTATGCGGTGATGTTCTCCGAGCTGATCCTCGCACCTGTAACACCGTCCAACTCGGCGCGTGGTGCGG -GGATTATCTATCCCATCATCCGTAACCTGCCACCGCTCTATCAATCACAACCAAACGACAGCAGTTCGCG -CAGCATTGGCTCGTACATCATGTGGATGGGGATTGTTGCCGACTGCGTGACCAGCGCCATTTTCTTGACG -GCGATGGCACCAAACTTGCTGTTAATTGGACTGATGAAAAGCGCATCTCACGCCACGCTGAGTTGGGGCG -ACTGGTTCCTCGGGATGTTGCCGCTCAGCATTTTACTGGTTCTGCTGGTTCCCTGGCTGGCTTACGTGCT -GTACCCGCCGGTACTGAAGTCTGGCGATCAGGTGCCGCGCTGGGCAGAGACGGAACTGCAGGCAATGGGC -CCGCTCTGTTCGCGTGAAAAACGGATGCTGGGGCTGATGGTAGGCGCGCTGGTGCTGTGGATTTTCGGCG -GTGATTATATCGATGCCGCGATGGTCGGTTACAGCGTGGTGGCACTGATGCTGCTTCTGCGCATTATCAG -TTGGGACGACATTGTCAGTAATAAAGCGGCGTGGAACGTTTTCTTCTGGCTGGCCTCGCTTATCACCCTC -GCCACCGGACTCAACAACACCGGTTTTATTAGCTGGTTTGGCAAACTGTTAGCAGGCAGCTTAAGCGGTT -ATTCGCCAACGATGGTGATGGTGGCGTTGATTGTGGTGTTTTATCTACTGCGCTACTTTTTCGCCAGCGC -CACGGCGTATACCTCCGCTCTCGCACCGATGATGATTGCTGCTGCGCTGGCGATGCCGGAAATCCCGCTG -CCGGTGTTCTGCCTGATGGTTGGTGCGGCAATTGGTCTGGGGAGCATTCTTACACCATACGCCACCGGCC -CCAGTCCGATTTACTACGGCAGTGGTTATCTGCCAACGGCGGATTACTGGCGACTGGGGGCGATTTTTGG -GCTGATATTCCTCGTATTGCTGGTGATTACCGGCTTACTGTGGATGCCCGTGGTGTTGCTTTAAGTGAGG -ACGGTGCCGGAAATTGCTCTCCGGCACCCAATAGTTTTACGCAGCCGGTAACTCCGCCAGCGGCCAGCGC -GGACGCACGCTAACGCCGAGATCCGCCGTCGCGCCTGCTTTAAACCGCACCATTCCGGCATAGGCGATCA -TCGCGCCGTTATCAGTACAAAATTCCGGACGCGCGTAGAACACTTCGCCGCGGCGTTTTTTCATCATTTC -AGCCAGCTTCGCCCGTAACGTACGGTTAGCACTCACGCCGCCCGCCATGACCAGTCGCTTAAAGCCCGTC -TGATCCAGCGCCCGCTTGCACTTAATCATCAGCGTATCGACCACCGCATCTTCAAAGGCGCGGGCGATAT -CAGCACGCGTCTGGTCGTCGGTGCCGTTGTCACGAATGGTATTTGCCGCGAAGGTTTTCAGGCCGGAGAA -GCTGAAATCCAGCCCCGGACGGTCGGTCATCGGACGCGGGAAGACAAAGCGCCCGGCAGTACCCTGAGCC -GCCATTTTCGACAGTAACGGCCCGCCAGGATAATCCAGCCCCAGCAGCTTCGCGGTTTTATCAAACGCTT -CCCCGGCGGCATCATCGATAGACTCGCCGAGCAGCTCGTACTGACCAATGCCAGTCACGCTGATTAACTG -CGTATGACCGCCGGAAACAAGCAGCGCAACAAACGGAAATTCCGGCGGGTTATCTTCCAGCATCGGCGCT -AACAGATGCCCTTCCATATGGTGTACAGGGATCGCCGGAACGTCCCAGGCAAACGCCAGAGAACGCCCCA -CGGTCGCGCCAACCAGTAGCGCGCCGACTAATCCAGGGCCTGCGGTATAGGCCACAGCATCAATGTCTTT -TGCCGTTAAACCAGACTCCTTTAGCGCCGCCTGGATCAACGGTACGGTTTTACGCACATGATCGCGGGAG -GCCAGTTCAGGCACGACGCCGCCGTAGTCAGCGTGCAATTTCACCTGACTATACAATTGGTTGGCTAACA -AACCTTTTTCATCGTCGTAAATGGCGATGCCGGTTTCATCGCAGGAAGTTTCAATACCCAGTACACGCAT -GACTTGTTTTACCTCGCTTTATTACCGCGCAGTGTAGGACCAATGCGGGTTGATGTAAAACTTTGTTCGC -CCCTGGAGAAAGCCTCGTGTATACTCCTCACCCTTATAAAAGTCCCTTTCAAAAAAGGCCGCGGTGCTTT -ACAAAGCAGCAGCAATTGCAGTAAAATTCCGCACCATTTTGAAATAAGCTGGCGTTGATGCCAGCGGCAA -ACCGAATTAATCAAAGGTGAGAGGCACATGCCGGTAATTAAAGTACGTGAAAACGAGCCGTTCGACGTAG -CTCTGCGTCGCTTCAAGCGTTCCTGCGAAAAAGCAGGTGTTCTGGCGGAAGTTCGTCGTCGTGAGTTCTA -TGAAAAACCGACTACCGAACGTAAGCGCGCTAAAGCTTCTGCAGTGAAACGTCACGCGAAGAAACTGGCT -CGCGAAAACGCACGCCGCACTCGTCTGTACTAATTCCCCGAGAGCGTTGCTCTCCGATCAGACCGAGTTG -TAGTTGTAAGGCCGTGCTTCCGAAAGGAATGCGCGGCTTATTTTCGTTTATGAATTGCTAAAAATCGGGG -CCTATGGCTGGACGAATCCCACGCGTATTCATTAATGATCTGCTGGCACGCACTGACATCGTCGATCTGA -TCGATGCCCGTGTGAAGCTGAAAAAGCAGGGCAAGAATTTCCACGCGTGTTGTCCATTCCACAACGAGAA -AACCCCGTCCTTCACCGTTAACGGTGAGAAACAGTTTTACCACTGCTTTGGATGTGGCGCGCACGGCAAC -GCGATCGACTTCCTGATGAACTACGACAAGCTCGAGTTCGTCGAAACGGTCGAAGAGCTGGCAGCAATGC -ACAATCTTGAAGTGCCATTTGAAGCAGGCAGCGGCCCCAGCCAGATCGAGCGCCATCAGAGGCAAACGCT -TTATCAGTTGATGGACGGTCTGAATACGTTTTACCAACAATCTTTACAACAACCTGTTGCCACGTCTGCG -CGCCAGTATCTGGAAAAACGCGGATTAAGCCACGAGGTTATCGCTCGCTTTGCGATTGGTTTTGCGCCCC -CCGGCTGGGACAACGTCCTGAAGCGGTTTGGCGGCAATCCAGAAAATCGCCAGTCATTGATTGATGCGGG -GATGTTGGTCACTAACGATCAGGGACGCAGTTACGATCGTTTCCGCGAGCGGGTGATGTTCCCCATTCGC -GATAAACGCGGTCGGGTGATTGGTTTTGGCGGGCGCGTGCTGGGCAACGATACCCCCAAATACCTGAACT -CGCCGGAAACAGACATTTTCCATAAAGGCCGCCAGCTTTACGGTCTTTATGAAGCGCAGCAGGATAACGC -TGAACCCAATCGTCTGCTTGTGGTCGAAGGCTATATGGACGTGGTGGCGCTGGCGCAATACGGCATTAAT -TACGCCGTTGCGTCGTTAGGTACGTCAACCACCGCCGATCACATACAACTGTTGTTCCGCGCGACCAACA -ATGTCATTTGCTGTTATGACGGCGACCGTGCAGGCCGCGATGCCGCCTGGCGAGCGCTGGAAACGGCGCT -GCCTTACATGACAGACGGCCGTCAGCTACGCTTTATGTTTTTGCCTGATGGCGAAGACCCTGACACGCTA -GTACGAAAAGAAGGTAAAGAAGCGTTTGAAGCGCGGATGGAGCAGGCGATGCCACTCTCCGCATTTCTGT -TTAACAGTCTGATGCCGCAAGTTGATCTGAGTACCCCTGACGGGCGCGCACGTTTGAGTACGCTGGCACT -ACCATTGATATCGCAAGTGCCGGGCGAAACGCTGCGAATATATCTTCGTCAGGAATTAGGCAACAAATTA -GGCATACTTGATGACAGCCAGCTTGAACGATTAATGCCAAAAGCGGCAGAGAGCGGCGTTTCTCGCCCTG -TTCCGCAGCTAAAACGCACGACCATGCGTATACTTATAGGGTTGCTGGTGCAAAATCCAGAATTAGCGAC -GTTGGTCCCGCCGCTTGAGAATCTGGATGAAAATAAGCTCCCTGGACTTGGCTTATTCAGAGAACTGGTC -AACACTTGTCTCTCCCAGCCAGGTCTGACCACCGGGCAACTTTTAGAGCACTATCGTGGTACAAATAATG -CTGCCACCCTTGAAAAACTGTCGATGTGGGACGATATAGCAGATAAGAATATTGCTGAGCAAACCTTCAC -CGACTCACTCAACCATATGTTTGATTCGCTGCTTGAACTGCGCCAGGAAGAGTTAATCGCTCGTGAGCGC -ACGCATGGTTTAAGCAACGAAGAACGCCTGGAGCTCTGGACATTAAACCAGGAGCTGGCGAAAAAGTGAT -TTAACGGCTTAAGTGCCGAAGAGCGATCGGGAAGCCCCCGACAGCCGCACTGAGAGGCAGCGGCAAATAT -ATAAGTACGCCCTCGTAATTATCGTTGGCGGTAAACAACCGTTGGATTTCAGCGTTAACGGCTGAAGGAC -ATCGGGTCAATCGCCCAACACCAACCTCATGAAATAAGTGTGGATACCGTCTTATGGAGCAAAACCCGCA -GTCACAGCTGAAACTTCTTGTCACCCGTGGTAAGGAGCAAGGCTATCTGACCTATGCCGAGGTCAATGAC -CATCTGCCGGAAGATATCGTCGATTCAGATCAGATCGAAGACATCATCCAAATGATCAACGACATGGGCA -TTCAGGTGATGGAAGAAGCACCGGATGCCGATGATCTGATGCTGGCTGAAAACACCGCGGACGAAGATGC -TGCCGAAGCCGCCGCGCAGGTGCTTTCCAGCGTGGAATCTGAAATCGGGCGCACGACTGACCCGGTACGC -ATGTACATGCGTGAAATGGGCACCGTTGAACTGTTGACCCGCGAAGGCGAAATTGACATCGCTAAGCGTA -TTGAAGACGGGATCAACCAGGTTCAATGCTCCGTTGCTGAATATCCGGAAGCGATCACCTATCTGCTGGA -ACAGTACGATCGTGTTGAAGCAGAAGAAGCGCGTCTGTCCGATCTGATCACCGGCTTTGTTGACCCGAAC -GCAGAAGAAGATCTGGCACCTACCGCCACTCACGTCGGTTCTGAGCTTTCCCAGGAAGATCTGGACGATG -ACGAAGATGAAGACGAAGAAGATGGCGATGACGACAGCGCCGATGATGACAACAGCATCGACCCGGAACT -GGCTCGCGAAAAATTTGCGGAACTACGCGCTCAGTACGTTGTAACGCGTGACACCATCAAAGCGAAAGGT -CGCAGTCACGCTACCGCTCAGGAAGAGATCCTGAAACTGTCTGAAGTATTCAAACAGTTCCGCCTGGTGC -CGAAGCAGTTTGACTACCTGGTCAACAGCATGCGCGTCATGATGGACCGCGTTCGTACGCAAGAACGTCT -GATCATGAAGCTCTGCGTTGAGCAGTGCAAAATGCCGAAGAAAAACTTCATTACCCTGTTTACCGGCAAC -GAAACCAGCGATACCTGGTTCAACGCGGCAATTGCGATGAACAAGCCGTGGTCGGAAAAACTGCACGATG -TCTCTGAAGAAGTGCATCGCGCCCTGCAAAAACTGCAGCAGATTGAAGAAGAAACCGGCCTGACCATCGA -GCAGGTTAAAGATATCAACCGTCGTATGTCCATCGGTGAAGCGAAAGCCCGCCGTGCGAAGAAAGAGATG -GTTGAAGCGAACTTACGTCTGGTTATTTCTATCGCTAAGAAATACACCAACCGTGGCTTGCAGTTCCTTG -ACCTGATTCAGGAAGGCAACATCGGTCTGATGAAAGCGGTTGATAAATTCGAATACCGCCGTGGTTACAA -GTTCTCCACCTACGCAACCTGGTGGATCCGTCAGGCGATCACCCGCTCTATCGCGGATCAGGCGCGCACC -ATCCGTATTCCGGTGCATATGATTGAGACCATCAACAAGCTCAACCGTATTTCTCGCCAGATGCTGCAAG -AGATGGGCCGTGAACCGACGCCGGAAGAACTGGCTGAACGTATGCTGATGCCGGAAGACAAGATCCGCAA -AGTGCTGAAGATCGCCAAAGAGCCAATCTCCATGGAAACGCCGATCGGTGATGATGAAGATTCGCATCTG -GGGGATTTCATCGAGGATACCACCCTCGAGCTGCCGCTGGATTCTGCGACCACCGAAAGCCTGCGTGCGG -CAACGCACGACGTGCTGGCTGGCCTGACCGCGCGTGAAGCAAAAGTTCTGCGTATGCGTTTCGGTATCGA -TATGAACACCGACTACACGCTGGAAGAAGTGGGTAAACAGTTCGACGTTACCCGCGAACGTATCCGTCAG -ATCGAAGCGAAGGCGCTGCGCAAACTGCGTCACCCGAGCCGTTCTGAAGTGCTGCGTAGCTTCCTGGACG -ATTAATCGGTAGGCCGGATCAGGCGTTACGCCGCACCCGGCACTAGGCCCTCTGCACAAACGCCACCTTT -TCGGTGGCGTTTTTTATCGCCCACGCACTACCAGCGCCTGGTCCAGCTCGCGATACGCTTCAACCAGTTT -CTCCAGTGAAACGCGACTTAAACCGCTGGGATTTGGCAGCACCCAAATCTGCGTCGAACCAATGGTGAGC -GTTTGTTTCCCCCACTGTGCACCGCGCTGGCTGAATCCCTGTTCATATGCTTGTTTGCCCAGAATCGCCA -ACGCCTGCGGCTGATAATCTTCAATTTTTTCAATCAGCTTACGCCCGCCTGCGTGTAGCTCCTGCTTTGA -AACTTCATTGGCTTGCACCGTTGGACGGTCTACCAGTTTGGTGACGCCACAACGATAATCCAGCAGATGC -TGTGCCTCCTGCGGCTTCAACTGACGGTCGGTAAACCCGGCCTGATATATCACCTTCCAGAAGCGATTTG -CCGGATGAGCAAAGGGAAAACCAGTCCCGGCGGATGAAAGCCCAGGGTTGATACCGCAAAACACGACCCG -TAACCCTGGAGCCAAAATATCCTCAACCATATTTACTCCTTTCTAACATCACCAGGAAAAGTATAACGGA -TTGAAAATACATTGTTTATAAAAACAGCAGGCGCGCGGTAATGGCTGGATTGCGACACGGAGTTACTTTA -TAATCCGCTACCATGGCCCCTTAGCTCAGTGGTTAGAGCAGGCGACTCATAATCGCTTGGTCGCTGGTTC -AAGTCCAGCAGGGGCCACCAGATATAGCAAAGGCTGACGAGAAATCGTCAGCCTTTTTCTTTTTATATAT -CAGTTACTTTGCGTGCCAGTAAGCCGCTGCACGTACCCGCTGTGGGTCATACTGTTCCGCTTCAAAGCGG -CGGCTTAAATTCTTAACGACTTTACCTTCGCCGGTTATCCAGATGAAGTAATCATCGGCAGGGATTTGCA -TCTGCGCCAGACGCGCATCTACCGCCTGCTCATCATGTGCCAGCCATTCGATATTAAAACCATCAAGGTG -CGCGAGATAATCCTGACAGGCGTTATCCCGCACGCTAACCAGCGCACTAACTTGCGGTTTAACGGCAAGT -TTGCTCAACGTTTCCAGGCGGCGGCGCAATGCAGGCATTCCGGATTCATCGCAGACATACAGCTGATACG -CGTAATCTTCCGGCACCACCAGCGAACCGCGCGGACCTGCCACCGTAAGTTTATCGCCCGGTTGCGCCTG -CATCGCCCAGCCGCTGGCGACCCCACCGTCGTGAATAAAGAAATCAATCGCCAGTTCATGGCGTAGTTCG -TCATACAGCGGCGTATAGTCACGCGACGGTGGGCGTGGTCCTTCCGGCCAGACGATGCCCTCTTCCGTTA -CCGTTGGCGGCACAAAGTGAGCGTCAGGTTGAGGAAAGAAGAGTTTGCTGTGATCGTCAAAGCCACGCGA -TGTAAAACCGTCCAGCGCCTCGCCGCCGAGGACAATGCGCTGAAAACCGGCGCTGATGCGCTCAACGCGT -AACACAGTCAGTTCACGGAAGCGCAGATCATTGCGAACGCGCTGCGGGTAGCGGGGGGTGTTATTCATTG -TTATCGCCTTCGTGATGGTAATCAGATATATCTAAATAAAACTCGCAAATGATAATGATTGTTAATCATG -ATAAATGCAAGCGATTTGTAGAACTGATATGTCTATAGTCTGATAAGACGAACCGCCTCTTCTCAGGCAT -CATTACTCAACGCCGGATGCGGCGTGAACGCCTTATCCGGCCTACGTGTGAGATGAGTCCACGTTTAAAA -ATCATTTTTACACTTGCAAGAACGCTCATATCAGATATAAATTAGATATATCTAATTAAGCAAAAGGAGG -CTGATATGAGCCATCATCACGAAGGGTGTTGTAAACATGAAGGCCAGCCACGCCATGAGGGCTGCTGCAA -AGGTGAGAAGTCAGAACACGAGCACTGCGGACACGGTCACCAGCATGAACACGGTCAATGCTGCGGTGGT -CGCCACGGTCGCGGCGGCGGTCGTCGGCAACGTTTCTTTGGTCACGGTGAATTACGTCTGGTGATTCTGG -ATATTCTCTCGCGCGATGACAGCCACGGTTACGAATTGATTAAAGCGATTGAGAATCTAACCCAGGGGAA -TTACACCCCAAGCCCGGGCGTCATCTACCCAACGCTGGATTTTCTGCAGGAGCAGTCGCTGATTACCATC -CGCGAAGAGGAAGGAGGTAAGAAGCAGATTGCGCTGACCGAACAAGGCGCGCAGTGGCTGGAAGAAAACC -GCGAACAGGTGGAGATGATTGAAGAACGCATCAAAGCGCGTTGCGTTGGCGCGGCGCTGCGCCAGAACCC -GCAAATGAAGCGGGCGCTGGATAATTTTAAAGCGGTGCTGGATTTACGCGTCAACCAGAGCGATATCAGT -GATGCACAAATAAAAAAGATCATTGCGGTGATCGACCGCGCCGCTTTTGATATTACGCAACTGGATTAAT -CGCCGCATCCGCCAGTGGCGCGGTGCAATTGCCGGATGCGACGCTTGACGCGCCTTATCCGGCCTACACC -CGCTACACACCCCGCAGGCCTGATAAGATGCGCCAGCATCGCATCAGGCATTGTGCTCCAACCGCCGGAT -CCGGCATACCGATTAATGCAGTACCGTCACCGCGTCTTCCAGTCGGCTGGCGCGGTGTTTCACCATCGCC -GACACCTGCGCACTCTCTTCCACCAGCTCGGCATTTTTCTGGGTGATCAGGTTAAGCTCATCCACTGCAC -GGGTCAGGCTGGAAAGCCCATCGGCCTGTTCCAGCGTTGAATGGCTAATCTGGGCGATCAACTGGGTGAC -GTTTTTCACCTGTGCCACAATATCTTCCATCGTCCGTCCGGCGGCGTGTACCTGCTGCGAACCGGATTGC -ACCTTATCAGCACTGGCATCAATCAGCTTGCGAATATCGTTGGCAGCATTAGCGCTGCGGCTGGCTAAAT -GACGCACTTCCCCTGCCACCACTGCAAAACCTTTGCCCTGTTCGCCGGCACGCGCCGCTTCCACCGCCGC -ATTCAGGGCCAGAATATTGGTCTGAAACGCAATATCGTTAATCAGCGAAGTAATGGTGCCAATGCGCTGG -GTACTGTCGGCGATATCGTCCATTGTCTTGATCACCGTGGTCATCGCCTCCCCACCCTGCACTGCCGCAT -TACTGGCAGTGATTGACAGTTTATCGGCAGCCGACGCCGTGGCAGAGTTCTGTTTCACCGACGCCGCCAT -TTGGTTCATGGTCGCCACCGTTTGCTGAACGTTATCAACTGTCTGCTGGGTATGTTCGTTCAGTTCATCG -GTGCCTTTCGCCAGCGTCTCACTGCCATTTCTGACACTGGACACCTGGCTTGAGACATCGTTAATTAGCC -AACGGCACATCAGGCCAAGTTGCCCTACCGCACGTAATGTCAGCCCCAGCTCATCGCTGCGATTCAGATG -CTCAACACTATTACGTTCTCCGGTCGCCACCTTCAGTGCCTGATGGGCAACATTTTCTATCGGGCGCACA -ATCTGCCATTCAAAACAGGCGCTTGCCAACAATACCACTAACGCACAGAGGATATACGTCACCACCGGGG -CAGCAACAAACCAAAGCATGGCCGCCAGCAAGATAAACATCAGGGTCATCACTCCACGCGCCCGCCAGCG -AAGCGGTAATGAAGGCAGTTTACCCAGCCAGCCTTTACGCACCACCAGGCCTTTATGAATACGCTTACTG -GTACGTCCGGCGTTCAACGCTTTGTACAGCGGCTCCACCGCCGCGATCTCTTCATCCGTCGCCCGGGTAC -GAATCGACATATAGCCACTGATTTTTCCCTCGCGCACCATCGGTACCGCATTGGCCCGCACCCAATAATG -GTCACCATTTTTGCGGCGATTTTTCACGATGCCGCTCCAGGGCTCCCCTTTTTTCAGGGTGAACCACATA -TCCGCAAACGCCGCTTTTGGCATATCCGGGTGACGCACCATGTTGTGCGGCTGCCCTTGTAACTCTTGCA -AGGTATAGCCGCTCACCTGCACAAAAGTGTCATTAGCATGAGTGATATAGCTTTGCAGATCGGTAGTGGA -CATCAGAGTGGTATCGTCCGCCAGCGGGGTATTTTGCTGGGTGACATACGGATGAGAAGACATGTTCGCG -TCCTGTGCAGGTTATATGGTTGTTAACTTCTTGTCAGAGTTTATGTCGGCCCCGCTGCGGTTATCTTTAA -CCGATTAATTTGATTTAGATCGCAATTTGCGATTTAAACACAAATCTAATTCCTTGATTTAAAATACTTT -CACTCTGTTACTATACGAAAACGTTAATTATCTTGCCCAAAAATCAGGCAATTATTGCCCTGAAAACGTG -CATTTGCGCAGCAATCATCAAATCCATACCCGACAAAAACCGTGCAAAATAACAACAAATGTTAACAGAT -AGCATTAAATATTGCACAAATGATAACCGAATTTGTGTTTATCCCGATTTTCGCGATCGCAGCCGGAGTG -GCGCAATCCCTGCAATACTTAAATCGGTATCATGTGATACGCGAGCCTCCGGAGCATATTTTGAACAGGT -TACCTTCGAGCGCATCGGCTTTAGCGTGCAGCGCCCACGCCCTGAATCTCATTGAGAAGCGAACGCTGGA -TCATGAGGAGATGAAAGCACTTAACCGAGAGGTGATTGAATACTTCAAAGAGCATGTCAATCCGGGGTTT -TTAGAGTATCGCAAATCTGTTACCGCCGGCGGGGATTACGGAGCCGTAGAGTGGCAAGCGGGAAGTTTAA -ATACGCTTGTCGACACCCAGGGCCAGGAGTTTATCGACTGCCTGGGAGGTTTTGGAATTTTCAACGTGGG -GCACCGTAATCCAGTTGTGGTTTCCGCCGTACAGAATCAACTTGCGAAACAACCGCTGCACAGCCAGGAG -CTGCTCGATCCGTTACGGGCGATGTTGGCGAAAACCCTTGCTGCGCTAACGCCCGGTAAACTGAAATACA -GCTTCTTCTGTAATAGCGGCACCGAGTCCGTTGAAGCAGCGCTGAAGCTGGCGAAAGCTTACCAGTCACC -GCGCGGCAAGTTTACTTTTATTGCCACCAGCGGCGCGTTCCACGGTAAATCACTTGGCGCGCTGTCGGCC -ACGGCGAAATCGACCTTCCGCAAACCGTTTATGCCGTTACTGCCGGGCTTCCGTCATGTGCCGTTTGGCA -ATATCGAAGCCATGCGCACGGCTCTTAACGAGTGCAAAAAAACCGGTGATGATGTGGCTGCGGTGATCCT -CGAACCGATTCAGGGTGAAGGTGGCGTAATTCTGCCGCCGCCGGGCTATCTCACCGCCGTACGTAAGCTA -TGCGATGAGTTCGGCGCACTGATGATCCTCGATGAAGTACAAACGGGCATGGGGCGCACGGGCAAGATGT -TCGCCTGCGAGCATGAGAACGTACAGCCGGATATCCTCTGCCTTGCCAAAGCGCTCGGCGGCGGCGTGAT -GCCGATTGGCGCGACCATCGCCACTGAAGAGGTGTTTTCAGTTCTGTTCGACAACCCATTCCTGCATACC -ACCACCTTTGGCGGCAACCCGCTGGCCTGTGCGGCGGCGCTGGCGACCATCAATGTGTTGCTGGAGCAGA -ACTTACCGGCTCAGGCTGAGCAAAAAGGCGATATGTTGCTGGACGGTTTCCGTCAACTGGCGCGGGAATA -TCCCGATCTGGTACAGGAAGCGCGTGGTAAAGGGATGTTGATGGCGATTGAGTTTGTTGATAACGAAATC -GGCTATAACTTTGCCAGCGAGATGTTCCGCCAGCGCGTACTGGTGGCCGGAACGCTCAATAACGCCAAAA -CGATCCGCATTGAACCGCCACTGACACTGACCATTGAACAGTGTGAACTGGTGATCAAAGCGGCGCGTAA -GGCGCTGGCGGCCATGCGAGTAAGTGTCGAAGAAGCGTAATATCAAATCGGATGGCGATACGACGTCGCC -ATCCGATCTTTTTATACGACGCGTACGCCCGCAGGCATCATCCGCTCCGGCGTTAACAGCACGCTTTCAC -TGCCGTCATCGGTTTCCGCACACAACAGCATGCATTCCGACGTTTCACCACGCATTTTCGCTTTTTGCAG -ATTGCATAAGACCACCACCGTTTTCCCCATCAGCTCTTCTTCGCTGTAGTACGGCACCAGGCTGGTCACG -GTTTGCAGCGTTTTTTGCCCCACATCAACCTGTACGATGTACAGCTTGTCGGCGTTTTCATGGCGTTTCA -CTTCCACAATCTTTCCGACGCGCATTTCCAGACGTGCAAAATCAGCGTAAGCCACGGTTTCCATTGCTTC -CTCCCTTAGGGTAAAATTTTACTAAACTATAGCAAAAGTTTTTCTCAATCCTGTAGGCTAAAAATGGAGA -ATGCAGGCGTGATCACATTCGTGAGCCGCTGTGTTACCGTTACAGCGTCAAAGAAACGCGCTTTATTTAC -TGAAAACAGGTGACCCGATAAGCACTTCCTCTACAATGGGGGCGCACATCAGGGAAAGTAAAAAAGGTAA -ACATGGCAACACTAAAAGACATCGCAATCGAAGCTGGCGTATCCCTGGCGACAGTATCCAGGGTCTTAAA -TGACGATCCGACATTGAATGTGAAAGAAGAGACGAAACATCGCATTCTCGAGATCGCCGAAAAGCTGGAG -TACAAGACCAGTAGTGCCCGTAAACTCCAGACAGGTGCAGTCAACCAACACCATATTCTGGCTATCTACA -GCTACCAGCAGGAGCTGGAGATCAACGATCCTTACTATCTGGCGATCCGCCACGGCATTGAAACCCAGTG -CGAAAAGCTGGGCATCGAGCTCACCAACTGTTATGAACACAGCGGCTTACCAGACATTAAAAACGTCACC -GGTATTTTAATTGTCGGCAAACCCACGCCCGCCCTGCGCGCCGCTGCCAGCGCGTTGACCGACAATATCT -GTTTTATCGACTTTCACGAACCCGGCAGCGGTTACGATGCGGTGGATATCGATCTGGCACGCATCAGTAA -AGAAATCATCGACTTCTATATCAACCAGGGCGTTAATCGTATTGGTTTTATTGGCGGTGAAGATGAGCCT -GGCAAGGCGGATATTCGTGAGGTCGCCTTTGCGGAATATGGCCGACTGAAACAAGTGGTACGCGAAGAGG -ATATCTGGCGCGGCGGTTTTTCCAGTTCGTCGGGTTATGAACTGGCAAAACAAATGCTGGCGCGGGAAGA -CTATCCGAAGGCACTGTTTGTTGCTTCCGATTCCATTGCTATCGGCGTACTGCGGGCAATTCATGAACGA -GGCCTGAACATCCCACAGGATATTTCGCTTATCAGCGTTAACGATATCCCCACCGCGCGATTTACCTTTC -CGCCGCTCTCCACCGTGCGCATCCATTCCGAGATGATGGGAAGTCAGGGCGTTAACCTGGTGTATGAAAA -AGCCCGCGATGGTCGCGCGCTGCCGCTGTTAGTCTTCGTTCCCAGCAAATTAAAACTGCGCGGCACGACC -CGTTAAATCCCCTTACACACTGTCCGGCAATCGTTTTTGCCGGACAGTGCTGCCGTTTATTTTCGTGATC -CAGTTAAAGTAAATGCATTTACCTGCTACTTTTTAGTAAAAATTTTACTAAACTCCCCAGCAATTACACA -AACTACCATCACCATGAATGGTTCCGATTTCTCTCTACCGGGAGGCCCTATGAATCGCTGGGAAAACATT -CAGCTCACCCACGAAAACCGACTTGCGCCGCGTGCGTACTTTTTTTCATATGATTCTGTTGCGCAAGCGC -GTACCTTTGCCCGCGAAACCAGCAGCCTGTTTCTGCCCTTAAGCGGTCAGTGGAATTTCCACTTTTTTGA -CCATCCGCTGCAAGTACCAGAAGCCTTCACCTCTGAGTTAATGGCTGACTGGGGGCATATTACCGTCCCC -GCCATGTGGCAAATGGAAGGTCACGGCAAACTGCAATATACCGACGAAGGTTTTCCGTTCCCCATCGATG -TGCCGTTTGTCCCCAGCGATAACCCAACCGGTGCCTATCAACGTATTTTCACCCTCAGCGACGGCTGGCA -GGGTAAACAGACGCTGATTAAATTTGACGGCGTCGAAACCTATTTTGAAGTCTATGTTAACGGTCAGTAT -GTGGGTTTCAGCAAGGGCAGTCGCCTGACCGCAGAGTTTGACATCAGCGCGATGGTTAAAACCGGCGACA -ACCTGTTGTGTGTGCGCGTGATGCAGTGGGCGGACTCTACCTACGTGGAAGACCAGGATATGTGGTGGTC -AGCGGGGATCTTCCGCGATGTTTATCTGGTCGGAAAACACCTAACGCATATTAACGATTTCACTGTGCGT -ACCGACTTTGACGAAGCCTATTGCGATGCCACGCTTTCCTGCGAAGTGGTGCTGGAAAATCTCGCCGCCT -CCCCTGTCGTCACGACGCTGGAATATACCCTGTTTGATGGCGAACGCGTGGTGCACAGCAGCGCCATTGA -TCATTTGGCAATTGAAAAACTGACCAGCGCCAGCTTTGCTTTTACTGTCGAACAGCCGCAGCAATGGTCA -GCAGAATCCCCTTATCTTTACCATCTGGTCATGACGCTGAAAGACGCCAACGGCAACGTTCTGGAAGTGG -TGCCACAACGCGTTGGCTTCCGTGATATCAAAGTGCGCGACGGTCTGTTCTGGATCAATAACCGTTATGT -GATGCTGCACGGCGTCAACCGTCACGACAACGATCATCGCAAAGGCCGCGCCGTTGGAATGGATCGCGTC -GAGAAAGATCTCCAGTTGATGAAGCAGCACAATATCAACTCCGTGCGTACCGCTCACTACCCGAACGATC -CGCGTTTTTACGAACTGTGTGATATCTACGGCCTGTTTGTGATGGCGGAAACCGACGTCGAATCGCACGG -CTTTGCTAATGTCGGCGATATTAGCCGTATTACCGACGATCCGCAGTGGGAAAAAGTCTACGTCGAGCGC -ATTGTTCGCCATATCCACGCGCAGAAAAACCATCCGTCGATCATCATCTGGTCGCTGGGCAATGAATCCG -GCTATGGCTGTAACATCCGCGCGATGTACCATGCGGCGAAAGCGCTGGATGACACGCGACTGGTGCATTA -CGAAGAAGATCGCGATGCTGAAGTGGTCGATATTATTTCCACCATGTACACCCGCGTGCCGCTGATGAAT -GAGTTTGGTGAATACCCGCATCCGAAGCCGCGCATCATCTGTGAATATGCTCATGCGATGGGGAACGGAC -CGGGCGGGCTGACGGAGTACCAGAACGTCTTCTATAAGCACGATTGCATTCAGGGTCATTATGTCTGGGA -GTGGTGCGACCACGGGATCCAGGCACAGGACGACCACGGCAATGTCTGGTATAAATTCGGCGGCGACTAC -GGCGACTATCCCAACAACTATAACTTCTGTCTTGATGGTTTGATCTATTCCGATCAGACGCCGGGACCGG -GCCTGAAAGAGTACAAACAGGTTATCGCGCCGGTAAAAATCCACGCGCGGGATCTGACTCGCGGCGAGTT -GAAAGTCGAAAATAAACTGTGGTTTACCACGCTTGATGACTACACCCTGCACGCAGAGGTGCGCGCCGAA -GGTGAAACGCTCGCGACGCAGCAGATTAAACTGCGCGACGTTGCGCCGAACAGCGAAGCCCCCTTGCAGA -TCACGCTGCCGCAGCTGGACGCCCGCGAAGCGTTCCTCAACATTACGGTGACCAAAGATTCCCGCACCCG -CTACAGCGAAGCCGGACACCCTATCGCCACTTATCAGTTCCCGCTGAAGGAAAACACCGCGCAGCCAGTG -CCTTTCGCACCAAATAATGCGCGTCCGCTGACGCTGGAAGACGATCGTTTGAGCTGCACCGTTCGCGGCT -ACAACTTCGCGATCACCTTCTCAAAAATGAGTGGCAAACCGACATCCTGGCAGGTGAATGGCGAATCGCT -GCTGACTCGCGAGCCAAAGATCAACTTCTTCAAGCCGATGATCGACAACCACAAGCAGGAGTACGAAGGG -CTGTGGCAACCGAATCATTTGCAGATCATGCAGGAACATCTGCGCGACTTTGCCGTAGAACAGAGCGATG -GTGAAGTGCTGATCATCAGCCGCACAGTTATTGCCCCGCCGGTGTTTGACTTCGGGATGCGCTGCACCTA -CATCTGGCGCATCGCTGCCGATGGCCAGGTTAACGTGGCGCTTTCCGGCGAGCGTTACGGCGACTATCCG -CACATCATTCCGTGCATCGGTTTCACCATGGGAATTAACGGCGAATACGATCAGGTGGCGTATTACGGTC -GTGGACCGGGCGAAAACTACGCCGACAGCCAGCAGGCTAACATCATCGATATCTGGCGCAGCACCGTCGA -TGCCATGTTCGAGAACTATCCCTTCCCGCAGAACAACGGTAACCGTCAGCATGTCCGCTGGACGGCACTG -ACTAACCGCCACGGTAACGGTCTGCTGGTGGTTCCGCAGCGCCCAATTAACTTCAGCGCCTGGCACTATA -CCCAGGAAAACATCCACGCTGCCCAGCACTGTAACGAGCTGCAGCGCAGTGATGACATCACCCTGAACCT -CGATCACCAGCTGCTTGGCCTCGGCTCCAACTCCTGGGGCAGCGAGGTGCTGGACTCCTGGCGCGTCTGG -TTCCGTGACTTCAGCTACGGCTTTACGTTGCTGCCGGTTTCTGGCGGAGAAGCTACCGCGCAAAGCCTGG -CGTCGTATGAGTTCGGCGCAGGGTTCTTTTCCACGAATTTGCACAGCGAGAATAAGCAATGAGGATCATC -GATAACTTAGAACAGTTCCGCCAGATTTACGCCTCTGGCAAGAAGTGGCAACGCTGCGTTGAAGCGATTG -AAAATATCGACAACATTCAGCCTGGCGTCGCCCACTCCATCGGTGACTCATTGACTTACCGCGTGGAGAC -AGACTCCGCGACCGATGCGCTATTTACCGGGCATCGACGCTATTTTGAAGTGCATTACTACCTGCAAGGG -CAGCAAAAAATTGAATATGCGCCGAAAGAGACATTACAGGTAGTGGAATATTATCGTGATGAAACTGACC -GTGAATATTTAAAAGGCTGCGGAGAAACCGTTGAGGTCCACGAAGGGCAAATCGTTATTTGCGATATCCA -TGAAGCGTATCGGTTTATCTGCAATAACGCGGTCAAAAAAGTGGTTCTCAAAGTCACCATCGAAGATGGT -TATTTCCATAACAAATAACAACTACGGCGGCAAAAGGAGTTTGCCGCCACCGCTACCCTACTCATTTTCG -GAGATGTGTTATGTCTGATACCAAACGTAATACAATCGGCAAATTCGGCTTGCTCTCGCTGACTTTTGCC -GCCGTTTACAGCTTTAACAACGTTATCAATAATAATATTGAGCTTGGACTGGCCTCGGCACCGATGTTTT -TCCTCGCGACGATTTTTTATTTTATTCCCTTCTGTCTGATCATCGCAGAATTTGTTTCGTTAAATAAAAA -CTCAGAAGCCGGTGTCTACGCGTGGGTAAAAAGTTCGCTGGGCGGACGTTGGGCATTTATTACTGCCTAT -ACCTACTGGTTCGTAAACCTGTTCTTTTTCACCTCACTGTTGCCGCGCGTTATTGCTTATGCTTCGTATG -CCTTCCTCGGATACGAATATATTATGACGCCGGTTGCCACCACCATTATCAGTATGGTGCTGTTCGCCTT -CTCCACCTGGGTTTCCACCAACGGGGCGAAAATGTTGGGGCCAATTACCTCCGTCACTTCAACGCTGATG -CTGCTGTTAACGCTCTCCTACATTTTACTGGCAGGTACGGCGCTGGTTGGCGGCGTACAGCCTGCTGACG -CCATCACCGTTGACGCGATGATCCCGAACTTCAACTGGGCGTTCCTCGGCGTTACCACCTGGATCTTTAT -GGCCGCAGGTGGCGCGGAGTCCGTCGCTGTGTACGTTAACGACGTCAAAGGCGGTTCGAAATCGTTCGTT -AAAGTGATCATCCTCGCCGGGATTTTTATCGGCGTACTGTATTCCGTCTCCTCGGTGCTGATTAACGTCT -TCGTCAGCAGCAAAGAGTTGAAATTTACCGGCGGATCGGTGCAGGTATTCCACGGCATGGCGGCGTATTT -TGGTCTACCGGAAGCGTTGATGAATCGCTTTGTCGGTCTGGTGTCCTTTACCGCGATGTTCGGTTCCCTG -CTGATGTGGACCGCAACGCCGGTGAAAATTTTCTTCTCCGAAATCCCGGAAGGCATCTTTGGTAAGAAAA -CCGTCGAACTGAACGAAAACGGCGTTCCGGCGCGCGCAGCGTGGATCCAGTTCCTGATCGTCATCCCGCT -GATGATTATCCCGATGCTCGGTTCCAATACCGTGCAGGATCTGATGAATACTATTATTAATATGACCGCC -GCAGCGTCCATGCTTCCGCCGTTATTCATCATGCTGGCTTACCTGAATTTACGCGCCAAATTAGATCACC -TGCCACGCGATTTCCGTATGGGCTCCCGCCGCACCGGTATTATCGTTGTTTCAATGCTGATTGCGATATT -TGCCGTAGGGTTTGTCGCTTCGACATTCCCGACTGGCGCGAATATTCTGACCATCATTTTTTATAACGTC -GGCGGTATTGTTATCTTCCTTGGCTTTGCGTGGTGGAAATACAGTAAATATATAAAGGGATTAACGGCTG -AAGAGCGCCATATTGAAGCGACGCCAGCCAGCAATGTTGATTAAGCAGAATAATAAAAAATGAGCAGGCA -TTTTCCCTCTTCCTGGATGAGGAGAGGGAAAATAGTTTCTGCCTTTATATTTTTATAATTACAACGATAA -AAGGCTGTACTTTTTCTTTAGCTCATGGATTAACACAATGAAATTAATCACTGCACCATGCAGAGCATTA -CTTGCTCTGCCGTTTTGCTACGCCTTTTCTGCGGCAGGAGAAGAAGCACGTCCGGCAGAACATGACGACA -CAAAAACACCCGCAATTACCTCGACATCTTCTCCTTCATTTCGTTTTTACGGCGAATTAGGGGTTGGTGG -ATATATGGATTTAGAGGGTGAGAATAAACATAAATACAGCGACGGTACCTATATTGAAGGTGGCCTGGAG -ATGAAGTACGGCTCCTGGTTCGGCCTGATTTACGGCGAAGGCTGGACCGTGCAGGCCGACCACGACGGCA -ATGCCTGGGTGCCAGACCATAGCTGGGGTGGTTTCGAGGGCGGAATTAACCGTTTCTATGGCGGTTATCG -TACCAATGATGGCACCGAAATCATGCTCAGTCTGCGTCAGGATTCCTCGCTGGATGACCTGCAATGGTGG -GGCGATTTCACCCCCGATCTGGGCTACGTCATTCCCAATACCCGCGACATTATGACTGCGCTGAAGGTAC -AGAACTTAAGCGGCAACTTTCGTTATAGCGTCACCGCGACTCCTGCCGGACATCATGATGAAAGCAAAGC -CTGGCTACATTTTGGCAAATACGATCGCTATGACGACAAATACACCTATCCGGCAATGATGAACGGTTAC -ATCCAGTATGACCTTGCCGAAGGCATCACCTGGATGAACGGTCTGGAAATCACCGACGGCACAGGACAGC -TCTATCTCACGGGCCTGCTAACTCCTAACTTTGCCGCTCGCGCCTGGCACCATACCGGACGCGCCGACGG -GCTGGACGTACCGGGAAGTGAAAGTGGGATGATGGTGAGCGCCATGTATGAAGCGTTAAAGGGCGTTTAT -CTCTCCACCGCTTACACCTACGCCAAACATCGCCCTGACCACGCTGACGATGAAACCACCTCTTTCATGC -AGTTTGGTATCTGGTACGAATACGGCGGCGGACGTTTCGCCACGGCTTTTGATAGCCGCTTCTACATGAA -AAATGCCTCTCACGATCCCAGCGACCAAATCTTCCTGATGCAATATTTCTACTGGTAATAAGGACTGTAA -TTTCATGAAAATAAAAACTATTTTAACGCCAGTAACCTGCGCTCTGCTGATAAGTTTTTCCGCCCATGCC -GCTAACGCCGACAATTATAAAAACGTGATTAACCGTACTGGCGCGCCGCAGTACATGAAGGATTACGATT -ACGACGATCACCAGCGTTTTAATCCGTTTTTCGATCTCGGAGCCTGGCATGGTCATCTGTTGCCAGACGG -CCCTAACACCATGGGCGGCTTTCCGGGCGTTGCGCTGCTGACGGAAGAGTACATCAACTTTATGGCCAGC -AATTTCGACCGCCTGACCGTCTGGCAGGACGGCAAGAAAGTCGACTTTACGCTGGAGGCATACAGTATTC -CCGGTGCGCTGGTGCAAAAACTGACAGCAAAAGATGTGCAAGTCGAAATGACTCTGCGCTTCGCCACGCC -GCGCACGTCACTACTGGAAACCAAAATCACCAGCAATAAACCGCTGGATCTGGTGTGGGACGGCGAACTG -CTGGAAAAACTGGAAGCGAAAGAAGGGAAACCGCTTTCCGATAAAACCATTGCTGGCGAATACCCTGACT -ATCAGCGCAAAATCAGCGCCACCCGTGATGGCCTGAAAGTCACCTTTGGCAAAGTGCGCGCCACCTGGGA -TCTGCTGACCTCCGGCGAATCGGAATATCAGGTGCATAAATCCCTGCCGGTGCAGACTGAAATCAACGGT -AATCGCTTTACCAGTAAGGCGCATATCAACGGTTCGACCACGCTCTACACCACCTATTCCCATCTGCTGA -CCGCTCAGGAAGTTAGCAAAGAGCAAATGCAGATCCGCGATATTCTGGCGCGTCCGGCGTTTTATCTCAC -CGCCTCGCAGCAACGCTGGGAAGAATACCTGAAGAAAGGGTTAACCAATCCGGATGCGACGCCGGAACAG -ACGCGCGTCGCGGTGAAAGCGATCGAAACGCTCAACGGTAACTGGCGCTCACCGGGCGGTGCGGTGAAAT -TTAACACCGTTACACCGTCGGTGACCGGGCGCTGGTTCTCCGGCAATCAGACCTGGCCGTGGGATACCTG -GAAGCAGGCGTTTGCGATGGCGCATTTCAATCCGGACATCGCCAAAGAGAATATCCGCGCGGTCTTCTCC -TGGCAGATCCAGCCTGGCGATAGCGTGCGTCCGCAGGATGTGGGCTTTGTCCCCGACCTGATAGCGTGGA -ACCTTAGCCCCGAGCGTGGTGGCGATGGCGGCAACTGGAACGAACGTAATACCAAACCCAGCCTTGCCGC -CTGGTCGGTGATGGAAGTGTATAACGTCACCCAAGATAAAACCTGGGTGGCAGAGATGTACCCGAAACTG -GTGGCCTATCACGACTGGTGGTTACGTAACCGCGATCACAACGGCAACGGCGTGCCGGAATATGGCGCGA -CCCGCGACAAAGCCCACAACACTGAGAGCGGCGAGATGCTGTTTACGGTGAAAAAAGGCGATAAAGAAGA -GACGCAGTCTGGGCTGAACAACTACGCCCGCGTGGTGGAGAAAGGCCAGTACGACAGTCTGGAAATTCCG -GCACAGGTTGCTGCATCGTGGGAATCGGGGCGTGATGATGCCGCCGTCTTTGGGTTTATCGACAAAGAAC -AGTTGGATAAATATGTCGCTAATGGCGGCAAACGTAGCGACTGGACGGTGAAATTCGCCGAAAACCGCAG -TCAGGACGGAACGTTGCTGGGCTACTCGCTATTGCAGGAGTCGGTGGATCAGGCCAGCTATATGTACAGC -GATAACCATTATCTGGCGGAGATGGCAACCATCCTCGGTAAGCCAGAAGAGGCCAAACGCTATCGCCAGT -TGGCACAGCAGCTCGCGGACTACATCAACACCTGTATGTTCGACCCGACTACCCAGTTCTACTATGACGT -ACGTATTGAAGATAAACCACTGGCGAACGGCTGCGCGGGCAAACCGATTGTTGAGCGCGGTAAAGGGCCG -GAAGGCTGGTCGCCGCTGTTTAACGGTGCGGCAACGCAGGCCAATGCCGACGCGGTGGTGAAGGTGATGC -TCGATCCTAAAGAGTTCAACACCTTTGTCCCGCTGGGAACGGCGGCGTTAACCAATCCGGCTTTTGGCGC -TGATATCTACTGGCGTGGGCGCGTATGGGTGGATCAGTTCTGGTTTGGTCTGAAAGGGATGGAGCGTTAC -GGTTATCGTGATGATGCCCTGAAGCTGGCGGATACGTTCTTCCGGCACGCCAAAGGGTTAACCGCCGATG -GACCAATTCAGGAAAATTACAACCCGCTGACAGGCGCACAGCAAGGCGCACCAAATTTCTCCTGGAGTGC -CGCGCATTTGTATATGTTGTATAACGATTTTTTCCGTAAGCAATAATTTGCAACTGCTGGCGGATGCGGC -GTAAACGCCTTATCCGCCCTACATGTGCAATCCTCCTGGCCGGATAAAACGCGGCAAGCGTTGCATCCGG -CAACTGCACCGCGCCACTGGCGGATGCGGCGTGAACGCCTTATCCGCCCTACATGTGTGTTCCCGTAGGT -CGGATAAGACGCGACAAGCGTCGCATCCGGCATCTGCACCGCGCCACTGGCGGATGCGGCGTGGACGCCT -TATCCGCCCTACATGTGCAATTCCGTAACCTGGATAAAACGCGACAAGCGTCGCATCCGGCGTTATCACC -GGGCGTATTCTTTTTGAATCCCATCACAAACCCCGCACTCCCCTTTTCCCTTTTCTCCGGCGACGGCTAA -ATTAGAACTCATCCGACCACATAACAATTATTTTACATACTGGACAATTTTATGAGCTACCCGTCGCTGT -TCGCCCCGCTGGATTTAGGTTTTACCACGTTAAAAAACCGCGTGTTGATGGGCTCAATGCACACCGGGCT -GGAGGAATACCCGGACGGTGCCGAGCGGCTGGCAGCGTTTTATGCCGAACGCGCCCGTCACGGCGTGGCG -CTGATTGTCAGCGGCGGCATTGCACCAGATTTAACAGGCGTTGGCATGGAAGGTGGCGCAATGCTCAACG -ACGCCAGCCAGATCCCACACCATCGCACCATTACCGAAGCGGTACATCAGGAAGGCGGCAAAATAGCCCT -GCAAATTTTGCATACCGGGCGCTACAGCTACCAACCGCATCTGGTCGCCCCGTCCGCATTGCAGGCCCCC -ATCAACCGTTTCGTGCCCCATGAGTTAAGCCATGAAGAGATCCTGCAACTGATCGACAATTTCGCCCGCT -GCGCGCAACTGGCGCGGGAGGCAGGATACGACGGTGTAGAGGTGATGGGTTCCGAAGGGTATTTGATCAA -CGAATTTCTGACGCTGCGCACCAATCAGCGTAGTGACCAGTGGGGCGGCGATTACCGCAACCGGATGCGA -TTTGCCGTAGAAGTAGTGCGTGCGGTGCGCGAACGCGTCGGCAACGACTTCATTATTATCTACCGACTGT -CGATGCTCGACCTGGTCGAAGACGGCGGGACTTTTGCCGAAACGGTAGAGCTGGCGCAGGCCATTGAAGC -GGCGGGCGCGACCATTATCAACACCGGCATTGGCTGGCATGAAGCACGTATTCCGACCATTGCCACGCCC -GTGCCGCGCGGCGCATTTAGCTGGGTCACGCGCAAACTGAAAGGCCACGTCTCGCTGCCGCTGGTAACCA -CCAACCGGATTAACGATCCGCAGGTTGCCGACGATATTCTCTCGCGCGGCGATGCCGATATGGTATCGAT -GGCGCGACCGTTTCTTGCTGATGCGGAGCTGCTGTCAAAAGCGCAATCGGGACGAGCCGATGAGATCAAC -ACTTGTATTGGCTGCAATCAGGCCTGTCTCGATCAAATCTTCGTTGGCAAAGTCACCTCGTGCCTGGTGA -ATCCTCGCGCCTGCCACGAAACCAAAATGCCAATCCTTCCCGCCGTGCAGAAAAAAAATCTGGCGGTGGT -CGGTGCGGGACCTGCTGGGCTGGCGTTTGCCATTAACGCGGCGGCGCGTGGGCATCAGGTAACATTGTTT -GACGCTCATAGCGAGATTGGCGGGCAGTTTAATATCGCCAAACAGATCCCCGGCAAAGAGGAGTTTTACG -AAACGCTGCGCTATTACCGCCGGATGATCGAAGTGACGGGCGTGACGCTAAAACTCAATCACACCGTGAC -GGCGGATCAGTTACAGGCTTTCGATGAAACGATCCTCGCCAGTGGGATCGTGCCGCGCACTCCGCCCATC -GACGGGATCGATCATCCGAAGGTATTGAGTTATCTCGATGTACTGCGCGACAAAGCGCCGGTTGGCAACA -AAGTTGCCATCATCGGTTGTGGCGGGATTGGTTTTGATACGGCGATGTATTTAAGTCAGCCGGGCGAATC -CACCAGCCAGAATATCGCCGGGTTCTGTAATGAATGGGGGATCGACAGTAGCCTACAACAGGCTGGTGGC -TTAAGCCCGCAGGGAATGCAGATCCCCCGTAGCCCACGGCAGATTGTGATGCTCCAGCGCAAAGCCAGCA -AACCAGGACAGGGGTTAGGCAAAACCACCGGCTGGATCCATCGCACCACCCTGCTCTCGCGGGGTGTGAA -AATGATCCCAGGCGTAAGTTATCAGAAGATTGACGATGACGGGCTGCATGTGGTGATCAACGGCGAAACG -CAGGTATTAGCAGTGGACAATGTGGTGATCTGCGCAGGGCAAGAGCCAAACCGCGCGCTGGCGCAACCGC -TGATTGATAGCGGGAAAACGGTGCATTTAATTGGCGGCTGCGATGTGGCTATGGAGCTGGACGCACGACG -GGCAATTGCCCAGGGAACACGGCTGGCGCTGGAGATTTAAATCGTTATTTGAAGCGCCGGATGCAACGCA -TCCGGCACGTCGCGTTAATCAATAAACAAGGCGGGAGAAATGCCGAATCGCGTTGCCAATTTTTTAGCGT -GTTCCAGCGTTAATTTCCTCTTCCCGCTCAAAACGCGTGACACCATAGATTTACTGCCAATTTCCGGCAG -ATCGGAAAGGGTTAAACCATATTGATCCATAAGGGTACGAATCACGGCTATACCGCCAGGCATGGCTTGA -GCCATGGCATTAAATTCCGCAAATTCGGGCGCTGATTCTTCCCACGCGGTTATTTTGGCACACACCAGAT -CCAGCAAGGGGTTTTCAGGATCGTTGAGCAGCAGATGATCTACCAGTTCCAGCGCCTGGGTGTATTGTTC -CTCGTTCTGAATACCCGCCAGAAAAGGTGCCACAGCAGTTAGCTTTTCTCCTGCTTGCAAGATGTCGGCA -ATCGCAATCATTTTTTCCCCTTAGTACGATGAACAGCGGTAAAGAAATCGTATTCTTTATGCGTCATAAC -TTCACGTATGTAGCACTTTTGCGATTCAAAAAAGACCATTGCTACAACACGTAATTCATTGCCCCCAACA -TTGAAAACATAATGCTTATCCAGATATTTGAAGTTATCCAGAGATGGGAATACTGCTTTTAATGACTCAG -GTTTTTTGAAATATCCCTTAGCAATCGTGTTCCCCAGAGCCACCAACTCCGTTTTATGTTGCGGGTATTT -TTCCGCAGCATCTTTCAATGCTTTTTGAGTTATCAGGTGCATTCTTCATCACGTCCGTTGACAAATTGGC -AATATGATAACATCCGTTGCCAGATTGGCAACGGATGAATTTATCTGTGTGACGGAAGAATAAACGTAGA -AAAACGCTAAACAAGAGAATGTAGACGATGGTGACAGGGATTTTTTGTTTTATGGAAGCGCGATTCCAGA -ACTGGGCAGACATTGCCGGATGCGACGCTTGCCGCGTCTTATCCGGCCTGGAGTAACGTGCTGAACGTAG -GCCGGATAAGGCGTTTACGCCGCATCCGGCAGGTAACTCCCAATCTTACCGACGACGTCCCAGCTTCACC -GCTTTCAGTACCACAAATTTATTATTCGTCGCAATAGTGGTGCAGTTGCCGAAAATCTTCTTCAGTTTAT -GGAAGTAATCCAGGTGACGGTTGGCAACGATATACAGCTCGCCGTTGATTTTCAGGCAGCGGCGGGCGTG -GTGGAACATCTCCCAGGCGACGTTATCGGTCAGCGCATGTTGTTGGTGAAACGGCGGGTTGCAGAGCACA -GCATTAAAGCGGAAAGGCTCCACGCCGGAGAGCGCGTTGTTGATCATAAACTCGCAGCGATCCAACGCCT -CTGGCATGTTGGTTTCAACGTTCAAACGGCTGGAAGCAACCGCCATCGGCGATTCATCGACAAACACCAC -TTTCGCCTGCGGGTTTTTATCAAGCAGCGTCAGACCAATAACGCCATTACCGCAACCGAGATCGACAATC -TCCCCTTCGAGATTCTCTGGCAGATGTTGCATAAAGAAGCGCGCGCCGATATCAAGCCCGGTGCGGGAGA -AGACATTCGCATGGTTGTGGATAGTCCAGTCAGTACCTTCCAGCTTCCAGCTAACGGTCTGCGGCGCATC -GGCCAGCTGCGGTTCATTGAAAGTGCAATTAATCAGGCGCGCTTTTTTCCATGCCAGCGTGGTGGTGGTT -GGGCCGAGCACTTTTTCGAACAGTTCCAGCGTGGAAGTGTGAATGTCACGGGCCTTGGCACCGGCAATAA -TACGTGTATCCGACGTGACCACTTTGCGCAGCGCACGCAGTTGCTGTTCCAGCAATGCCAGTGTTTTCGG -CACTTTGATCAGCACCACACCCGGCTGTTGCGGGTAGTCGGCGGTGCTGTCGAGAAACTTCACGCTCGAC -TCATCAATCCCGTTGAGGCGTAAATTCTCGCGCGTCGCCAGTTCACTGATGTATGAGTCGCCAATGCTGT -ACGGCTTATGTTCCGCCAGTGCGCAGCTTAACGCACCAAAGGCATCATTCAGGATCAACACCGGGCCGCG -GATTTCTGTGTCGTCCAACTGTTGCAGCAAATATTCATCCGCCGCTTCCCACGCCTGTAGCGGGTTAACG -TCATCCGTCGCCGGAAAACGTTGTAGTGTCAGTGAACGGAAACCGTTGTCTAAGTGGCTCATCGGCCCTC -CTGAATGATAAAATTTCGACATTGCCCCTGAAAAGGGTGCGTGAGTATACCCTTTTTCTCTTTTTCGTGG -GCGGTTATGAGCAATCTTACTTATCTTCAGGGTTATCCCGAGCAGCTACTTTCCCAGGTGCGAACACTGA -TTAACGAACAGCGTCTGGGCGATGTGCTGGCAAAACGCTATCCGGGAACACACGACTACGCCACCGATAA -AGCCCTCTGGCAATATACTCAGGATCTGAAAAATCAGTTTCTGCGTAATGCCCCGCCGATCAATAAAGTG -ATGTATGACAATAAGATCCATGTGCTAAAAAACGCGCTCGGGTTACATACCGCTGTTTCTCGTGTGCAGG -GCGGCAAGCTGAAAGCAAAGGTGGAGATCCGCGTCGCTACCGTGTTTCGCAACGCGCCGGAACCGTTTTT -GCGCATGATCGTGGTGCACGAGCTGGCGCACCTGAAGGAGAAAGAGCATAACAAAGCGTTTTACCAGTTG -TGTTGTCATATGGAACCCCAGTACCACCAGCTTGAGTTCGACACCCGACTGTGGCTAACGCAGTTGTCGC -TTGGGCAGAACAAAATCTGAAAATGATGTCAGGCGTTATCTTTTCTTTCTTTAGCGCCTAAAATCGACCT -CCCCCCTTTCGTTAAGGATAACGACCATGCTGCGCGCATTTGCCCGCCTTCTTCTCCGTATTTGTTTTTC -TCGCCGGACTCTAAAGATTGCCTGCTTACTGTTACTTGTGGCAGGAGCGACCATCCTTATCGCCGATCGC -GTAATGGTCAACGCCAGCAAACAGCTGACCTGGAGCGATGTCAACGCCGTTCCGGCGCGTAACGTGGGTT -TATTGCTGGGGGCGAGGCCGGGTAATCGCTACTTTACCCGACGTATTGATACCGCAGCAGCGTTGTACCA -CGCCGGAAAAGTGAAATGGCTGCTGGTAAGTGGCGATAACGGACGTAAAAATTACGATGAAGCATCAGGT -ATGCAGCAGGCTTTGATCGCTAAAGGCGTACCAGCAAAAGTGATCTTCTGCGACTATGCCGGATTCTCAA -CGCTGGATTCGGTAGTGCGTGCCAAAAAGGTTTTTGGTGAAAACCATATCACCATTATCTCGCAAGAATT -TCATAATCAACGCGCCATCTGGCTGGCAAAACAGTACGGCATCGACGCTATCGGTTTTAACGCGCCAGAC -CTCAATATGAAGCACGGTTTTTATACTCAACTGCGGGAGAAACTCGCTCGTGTCAGCGCCGTGATTGACG -CCAAAATCCTCCATCGCCAGCCGAAATATCTCGGGCCTTCGGTCATGATTGGGCCGTTTAGTGAGCATGG -CTGTCCGGCGCAGAAATAATGCGTATCTGCGCACGTCGAAGATGAAAAAGGCGTGCTACATTGACGACAG -AATCCCTTTATGGAGTATCCACGCGTTATGATACGTTTCGCTGTGATTGGTACGAACTGGATCACTCGCC -AGTTCGTCGAGGCCGCCCATGAGAGCGGTAAATACAAGTTAACCGCCGTATATTCCCGCAGCCTTGAACA -GGCCCAGCACTTCGCCAATGATTTTTCTGTCGAGCATCTGTTTACCTCGCTGGAAGCGATGGCGGAAAGC -GATGCCATTGACGCGGTGTATATTGCCAGCCCGAATTCCCTGCATTTTTCCCAGACACAACTTTTCCTTA -GCCATAAAATTAATGTGATTTGCGAGAAACCGCTGGCGTCGAATCTGGCGGAAGTGGATGCCGCCATTGC -CTGTGCGCGGGAAAATCAGGTGGTGCTGTTTGAGGCATTTAAAACCGCCTGCCTGCCGAACTTTCATTTG -TTGCGCCAGGCGCTGCCGAAAGTCGGCAAACTGCGGAAAGTCTTTTTCAACTATTGCCAGTATTCCTCGC -GGTATCAACGTTACCTGGATGGTGAGAATCCCAACACCTTTAATCCGGCATTCTCTAACGGTTCAATTAT -GGATATCGGTTTTTACTGTCTGGCGTCGGCGGTGGCGTTATTTGGTGAGCCGAAAAGCGTGCAGGCAACC -GCCAGTTTGCTGGCAAGCGGCGTTGACGCCCAGGGCGTGGTGGTGATGGATTACGGTGATTTCAGCGTCA -CCTTGCAGCACTCAAAAGTCAGTGATTCTGTCCTGGCGAGCGAGATTCAGGGCGAAGCAGGATCGCTGGT -GATTGAAAAACTGTCTGAATGCCAGAAAGTGTGCTTCGTGCCGCGTGGCAGCCAAATGCAGGATCTCACC -CAGCCGCAGCATATTAATACCATGCTCTACGAAGCAGAGCTGTTCGCTACCCTGGTGGATGAGCATCTGG -TGGATCATCCAGGGCTGGCGGTCAGTCGCATCACCGCCAAACTGCTGACCGAGATCCGCCGCCAGACTGG -GGTGATTTTTCCGGCAGATAGCGTAAAACTATAATTGCCAAAGTAAAACAGTGTAAAAGGTATGTAACAG -ACCATTGACTGGCTGAATGGTCTGTCATACTTTGTTACCTGCAAAGGGGAGTAACTTCATTGCCGGTCGA -TCGTCATTACGATGTGTGAAAAAACACATCCGGTCACCGGGCAACCCGAAAGGAATACGCAGACGTATTC -CTTTTTTGTTGTAAGTGAGACCTTGCCGGAAGGCGAGGTCTATGCATAAAAAGCAGCGGCTGACGTCTTC -CGACGTTGGCCGTTTTTTTATGTGTAAGGAACTTCTATGAATACTGTCGGCACGCCGTTGCTATGGGGCG -GATTCGCTGTTGTTGTCGCCATTATGCTGGCTATCGACCTGTTGTTGCAGGGGCGTCGTGGGGCACATGC -CATGACCATGAAACAGGCTGCGGCCTGGTCGCTGGTCTGGGTGACGCTGTCGTTACTGTTTAACGCCGCT -TTCTGGTGGTATCTGGTGCAAACCGAAGGTCGCGCCGTTGCCGATCCACAGGCACTGGCCTTTCTCACAG -GTTATCTGATTGAGAAATCGCTGGCGGTCGATAACGTCTTTGTCTGGCTGATGTTGTTCAGCTATTTCTC -TGTTCCGGCGGCATTACAACGCCGCGTGCTGGTGTATGGCGTGCTCGGGGCGATTGTTCTGCGTACCATC -ATGATCTTCACTGGCAGCTGGCTAATTTCGCAGTTCGACTGGATCCTGTATATCTTCGGTGCCTTCCTGC -TGTTTACCGGCGTGAAGATGGCGCTCGCCCATGAAGATGAATCAGGCATTGGCGACAAGCCGCTGGTGCG -CTGGCTACGCGGTCATTTGCGCATGACCGACACCATCGACAACGAGCATTTCTTTGTGCGTAAGAATGGA -TTGCTGTACGCCACACCGCTGATGCTGGTACTGATTCTGGTGGAATTGAGCGACGTGATTTTCGCCGTGG -ATAGCATTCCGGCTATCTTCGCCGTGACCACTGACCCGTTCATTGTGCTGACCTCAAACCTGTTTGCGAT -CCTCGGCCTGCGTGCGATGTATTTCCTGCTGGCGGGCGTAGCAGAGCGTTTCTCGATGCTCAAATATGGC -CTGGCGGTGATTCTGGTGTTTATCGGTATCAAGATGCTGATTGTCGACTTCTACCATATTCCAATCGCCG -TCTCGCTGGGCGTGGTGTTTGGCATTCTGGTGATGACGTTTATTATCAACGCCTGGGTGAATTATCGGCA -TGATAAGCAGCGGGGTGGATAATTTTTAATCTGCCTAAGCCGTGTACCCTGTCATTAACATGAGCACCGT -TTTCTCCCTCTCCCTTCCAGGGAGAGGGTCGGGGTGAGGGTAATTTTTCGCACCGATGCTGGCCTGTTCC -CCTCACCCTAACCCTCTCCCCAAACGGGGCGAGGGGACTGACCGAGTCCTTTTTTGATGTTGTCATCAGT -CTGGAAGCCGCACGTTGGCTTTATTTTTATGTCAAAGAAATGTAACCATTAAGTTTCAAAATATGACCTC -TCTTTAAAATCCAGCATTTTTCGCTTCCCGAAGCTGTAACTTTCCTTATACTCGACCTTGCAAACACTTT -GTTACATCCTGAAAGATGCGTCGACAGAACGCACCAGGGATGTGCGACAACACAATGAAAGGATCGAAAA -ATGACTACGCAACGTTCACCGGGGCTATTCCGGCGTCTGGCTCATGGCAGCCTGGTAAAACAAATCCTGG -TCGGCCTTGTTCTGGGGATTCTTCTGGCATGGATCTCAAAACCCGCGGCGGAAGCTGTTGGTCTGTTAGG -TACTTTGTTCGTCGGCGCACTGAAAGCCGTTGCCCCCATCCTGGTGTTGATGCTGGTGATGGCATCTATT -GCTAACCACCAGCACGGGCAGAAAACCAATATCCGCCCTATTTTGTTCCTCTATCTACTGGGCACCTTCT -CTGCTGCTCTGGCCGCAGTAGTCTTCAGCTTTGCCTTCCCTTCTACCCTGCATTTATCCAGTAGCGCGGG -TGATATTTCGCCGCCGTCAGGCATTGTCGAAGTGATGCGCGGGCTGGTAATGAGCATGGTTTCCAACCCC -ATCGACGCGCTGCTGAAAGGTAACTACATCGGGATTCTGGTGTGGGCGATCGGCCTCGGCTTCGCACTGC -GTCACGGTAACGAGACCACCAAAAACCTGGTTAACGATATGTCGAATGCCGTTACCTTTATGGTGAAACT -GGTCATTCGCTTCGCACCGATTGGTATTTTTGGGCTGGTTTCTTCTACCCTGGCAACCACCGGTTTCTCC -ACACTGTGGGGCTACGCGCAACTGCTGGTCGTGCTGGTTGGCTGTATGTTACTGGTGGCGCTGGTGGTTA -ACCCATTGCTGGTGTGGTGGAAAATTCGTCGTAACCCGTTCCCGCTGGTGCTGCTGTGCCTGCGCGAAAG -CGGTGTGTATGCCTTCTTCACCCGCAGCTCTGCAGCGAACATTCCGGTGAATATGGCGCTGTGTGAAAAG -CTGAATCTGGATCGCGATACCTATTCCGTTTCTATTCCGCTGGGAGCCACCATCAATATGGCGGGCGCAG -CAATCACTATTACCGTGTTGACGCTGGCTGCGGTTAATACGCTGGGTATTCCGGTCGATCTGCCCACGGC -GCTGCTGTTGAGCGTGGTGGCTTCTCTGTGTGCCTGTGGCGCATCCGGCGTGGCGGGGGGGTCTCTGCTG -CTGATCCCACTGGCCTGTAATATGTTCGGTATTTCGAACGATATCGCCATGCAGGTGGTTGCCGTCGGCT -TTATCATCGGCGTATTGCAGGACTCTTGCGAAACCGCGCTGAACTCTTCAACTGACGTGCTGTTCACTGC -GGCAGCTTGCCAGGCAGAAGACGATCGTCTGGCAAATAGCGCCCTGCGTAATTAATTGTTTAACCCCTTT -CGTCTACGGCGGAAGGGGTTTTCTCAACTTTAAACGGATCAATTCCCCTTTTCTGCATCCGCCAGAAACG -AATGATATTCAGGCCATTCATAAGCAGAAAACTACCCTCAATCATCGTGCCGCCTATCGACCCCGCCCAG -AAGTTGTGAATCACCCAGCAACACGTTGAAAACCACATTACGCAGCGCATGGTCAGCCCTTTACAGCAGA -ATAGCGCCCAGGTACTGACAATCGTGCCGATAACCGGCAATAGTTCGACAGGATGATGGAACTTCGCGAG -GCCAATTCCGCCAGTCAGCACAATAAAAATCGCCATTACCCATAAGCTGCGCGTGCGTAAGGTAATCAAT -GTACGAATGGCATTAAGGATGGCACTGGCACCAGCGGGATAGGTGCCCAGAAGAAAAAAATGTACGCCAA -TAACGGCGCTATAGACCGAAAGCTGCTTTTTGAAGCGACGTTCGTCACGATTGAAAAATGTTGTGATACC -AATCAGAAAGGCGATGACACCCACGCCCTGGGCCAGCCAATACGCGGTCATGATAAATCCTTAGCAGGTA -TGGAAAAGCAAACGGCGCTTCACATTATGAAACGCCGTTTTTTATTAACAACTCATTTCGACTTTATAGC -GTTACGCCGCTTTTGAAGATCGCCAGTTCGCGGAAGTCGTTACGCTCGTTACAGGTTTGCTTACCGTTGG -CAAACTCAACGATGGTGTCGATAAATTCTTCCAGCAACTGCGGCATCGCTTTACCGTGGATCAACTGACC -CGCGTCAAAGTCGATCCAGTGTTTTTTCTTCGCCGCCAGTTCACTGTTGGTGGCGATTTTCACCGTCGGC -ACAAATCCACCATACGGCGTGCCACGACCAGTACTGAACAGCACCATATGGCAGCCCGCACCCGCCAGGG -CGCTGGTCGCTACGGCATCGTTACCCGGCGCACTTAACAAGTTCAGCCCTGGCGTTTTCAGACGCTCGCC -GTAACGCAGCACGTCAACCACGACGCTGGAACCCGCTTTCTGGGTACAGCCAAGTGATTTGTCTTCCAGC -GTGGTGATACCGCCCGCTTTGTTCCCCGGCGATGGGTTTTCATAGATCGGCTGATCATGGGCAATAAAGT -ACTGTTTGAAGTCGTTGACCATGGTGACCAGTTTTTCAAACGTTGCTTCGTCGCGGCAATGGTCCATCAG -CAACTGCTCTGCGCCAAACATCTCCGGCACTTCGGTCAGTACGGTAGTACCGCCGTTAGCAATCACGTAG -TCAGAGAAACGCCCCAGCATCGGGTTAGCAGTAATACCAGAAAGACCGTCAGAACCACCGCACTCCAGAC -CAAACTTCAGTTCGCTGAGTTTGCCTGGCTCGCGTTTATCGTTGCGCATCACGTTATACAGCTGATGCAA -ATGCTCGATTCCGGCTTCGATCTCATCATCCTGCTGTTGGCAGATCATGAAATGAACGCGTTCAGGATCG -ATATCGCCCAGCGTTTCACGGAATGCGGCAACCTGGTTGTTTTCACAGCCCAGACCAATCACCAGCACTG -CGCCTGCGTTCGGGTGGCGCACCATGTTTTGCAGCATGGTGCGGGTATTAATGTGATCGTCGCCCAGCTG -TGAGCAGCCGTAGGTGTGGCTGAAGAGGAACACGCCGTCAGTACCTTCGGCGTTGTTGGTCTCTTTCAGA -AAACGGTTCTGGATCTGCCGCGCGATGCCGTTGACACAGCCCACGGTTGGCAGGATCCACAGCTCATTAC -GCACCCCGACATCGCCGTTAGCGCGACGATAGATCTGCACTTCACGATCTGCCGCTTGCGCAGGCAGATC -CTGAAAATCAGGTTGATAGCGATACTGATCCAGATCGCTCAGATTCGTGCGCGTATTGTGGGCGTGAACG -TGAACACCTGCCGCAATATCCGCCAATGCATAACCAATCGGCAGGCCATATTTGATGACATTGGCCCCTT -TTGCGATATCCGTTAACGCAAATTTATGTCCACGAGCAACATCCTGGCGCAGCGTAACAGTCTGGTTATC -GACACTGACTTCTGTGCCTTCAGCCAAATCTGCTAAAGCGACCGCGACGTTATCCAGCGCATGGATCTTG -ATGTATTGCATATCAACCCCAGACCTTAGTTCAGTTCAATGGCGAAGTAGTCACGCGCATTGTTAAAGCA -AATATTTTTCACCATCTCGCCCAGCAGGTTGATGTCCGCCGGTGCTTCGCCCGCTTCCACCCAGCGACCG -ATCATCTGGCACAGAATGCGGCGGAAGTATTCGTGACGGGTGTATGACAGGAAGCTACGGCTGTCAGTCA -GCATACCGACAAAGCGGCTCAGCAGACCGAGCTGCGCCAGTTGGGTCATCTGACGTTCCATACCGTCTTT -CTGATCGTTAAACCACCAGCCGGAACCGAACTGCATTTTGCCCGGCATACCTTCGCCCTGGAAGTTACCG -ATCATGGTGCCCAGCACTTCGTTATCGCGCGGGTTCAGGCAGTACAGAATGGTTTTCGGCAGCAGGTTTT -CTTCATTCTGCTTGCTCAGCAACTTAGACAGCTCTTCCGCCATCGGACGGTCGTTGATGGAGTCAAAGCC -TACATCCGGCCCCAGCAGTTTGAACTGACGCAGGTTGTTATTACGCAGCGCGCCAATGTGGTACTGCTGT -ACCCAGCCGCGACGTGCATATTCGGCACCAAGGAACACCAGTACCGCAGTTTTGAACTGCGCCACTTCGT -GCTCGCTCAGGGTTTCGCCAGCCAGACGGCGCGCCAGAATGCTGTCCAGTTCCGCTTCGTTCGCTTCAGC -AAACATCACCACATCCAGCGCGTGGTCAGACACTTTACAGCCGTGAGCGGCGAAGTGATCCAGACGTTTG -GTCAGGGCAGTTTGCAGGTCAGCAAAGCGGCGAATGTCGGTATCGGAAACTTCGCCCAGCTTCGCCATGT -AGTCGTTAAAGGTCGCCTGTTCGATGTTGAAGGCTTTGTCCGGACGCCAGCTCGGCAGCACTTTGATGGT -GAAAGAGCCGTCTTTGGCGATCTCTGCGTGATGCTCCAGAGAATCGATCGGGTCATCGGTGGTGCCGACC -ATTTTCACGTTCATCTGCTGCATGATGCCGCGCGCGGAGAAGTTATCCTGCGCCAGCAGTTCGTTACATT -CGTTCCAGATTTCATCGGCAGTTGACGGAGAAAGCAATTTGCCAGTGATACCAAACGGACGGCGCAGTTC -GAGGTGCGTCCAGTGGTATAACGGGTTGCCGATAGTGTGCGGAACAGTCGCCGCCCAGGCGTCAAATTTT -TCACGGTCAGACGCATCACCGGTACACAGACGCTCGGCCACACCGTTGGTACGCATAGCGCGCCATTTGT -AGTGATCGCCTTTCAGCCAGATGTCATACAGGTTTTTAAAACGATAGTCTTCCGCAATCTGCTGCGGCGG -CAAATGGCAATGGTAATCGAAAATCGGCTGGTCTTTTGCGTAGTCGTGATACAGACGGCGGGCAAATTCG -GTATCTAACAGGAAATCTTCAGTCATAAACGGAGTCATTTTCGTCTTCCTCTCAACGAGTGAGCTAGCTT -GCTTATGGTGCGATGCTGACAAAGTTATCACACCAATTTCCAGAGTCCGAAGATATTTTCGTGAGTTAGA -TCAATAAACGTAGTTAAAAAAATTACTCTCAAAGTGGTAAATCTCGCTGCAGGCCGCGCCAGTACTGGCC -TTGCTGTCGTCAGGTAATGTCCCTACAAATATTCCCACATTTGTGATGGCTCTCACCTTTTAAAGTTGTA -TGACAAGTTATCTTTCTGCCGTCGCAAATCATAAGTCGACGGAATGCAAATTGCCGATTCATTCATTTGT -TAGATGAATCGGGTTAACCGGTACGGAAGCCGAATTAGCACGAAACTTTCATGGCAACGTTCGGGGCGTG -CCGGTTTTTTTTCGGTTACCCGGTCGTAACTAACATCTTCAGCCTCTGGCGGGATGATGGCCGCGCTTCC -TGCGGATATAACAAAACGATGAGGTTTTACATGCGTAAAATTAAAGGGTTACGTTGGTATATGATCGCAC -TGGTGACGCTCGGCACCGTGCTTGGTTACCTGACGCGTAACACTGTGGCGGCAGCTGCGCCAACTCTGAT -GGAAGAGTTAAACATCTCCACCCAACAGTATTCCTATATCATCGCAGCCTATTCTGCTGCTTATACGGTC -ATGCAACCGGTAGCAGGTTATGTACTGGATGTGCTGGGTACGAAAATCGGTTATGCAATGTTTGCTGTGC -TGTGGGCCGTGTTCTGTGGTGCAACCGCGCTGGCAGGTAGCTGGGGTGGCCTGGCTGTTGCTCGTGGTGC -GGTCGGTGCCGCGGAAGCAGCGATGATCCCGGCGGGTCTGAAAGCCAGCTCCGAATGGTTCCCGGCGAAA -GAGCGTTCCATCGCAGTAGGCTACTTTAACGTAGGTTCTTCGATTGGTGCGATGATTGCGCCGCCGCTGG -TGGTATGGGCAATCGTAATGCACAGCTGGCAGATGGCATTTATCATCTCCGGTGCATTGAGCTTTATCTG -GGCGATGGCATGGCTGATTTTCTATAAACATCCGCGCGACCAGAAGCATCTGACCGATGAAGAACGCGAC -TATATTATTAATGGTCAGGAAGCCCAGCACCAGGTGAGCACGGCGAAGAAAATGTCCGTTGGTCAGATCC -TGCGTAACCGTCAGTTCTGGGGTATCGCGCTGCCGCGTTTCCTGGCAGAACCGGCCTGGGGTACTTTTAA -CGCGTGGATCCCGCTGTTCATGTTTAAAGTTTACGGCTTTAACCTGAAAGAGATCGCGATGTTCGCCTGG -ATGCCGATGCTGTTTGCTGACCTCGGTTGTATCCTCGGTGGTTACCTGCCGCCGCTGTTCCAGCGTTGGT -TTGGTGTGAACCTGATCGTTTCCCGTAAGATGGTCGTAACGCTGGGTGCAGTGCTGATGATTGGCCCGGG -TATGATCGGCCTGTTCACCAACCCGTATGTCGCAATTATGCTGCTGTGTATCGGTGGTTTTGCCCACCAG -GCACTGTCTGGCGCGCTGATTACGCTCTCTTCCGATGTGTTTGGTCGTAACGAAGTGGCAACGGCAAACG -GTTTAACCGGGATGTCCGCATGGCTGGCAAGTACGCTGTTTGCGCTGGTTGTCGGTGCACTGGCTGACAC -CATCGGCTTCAGCCCGCTGTTCGCAGTTCTGGCAGTGTTCGACCTGTTAGGTGCGCTGGTTATCTGGACC -GTGTTGCAGAACAAACCGGCGATTGAGGTGGCGCAGGAAACACATAACGATCCCGCACCGCAACATTAAC -GTTTCGTGTAAGTTTTAGTTTCCCTTCAAAGCCGCCTTCTCAGGCGGCTTTTTCATCACTGCGAGTAGAG -CTAAACTCGCAAAAGTGGTATAACAAATATAGTCTGCCGTATCATGCCTGGAGCGCATATGGAAATCACT -GAACCACGCCGTTTGTATCAACAACTTGCCGCTGACCTGAAAGAGCGCATCGAACAGGGCGTCTATCTGG -TGGGTGATAAACTGCCTGCAGAACGCTTTATTGCCGATGAAAAGAACGTCAGCCGTACGGTAGTTCGTGA -AGCCATCATCATGCTGGAAGTTGAAGGCTATGTCGAAGTGCGTAAAGGTTCAGGTATTCATGTGGTTTCC -AACCAGCCGCGCCATCAGCAGGCGGCTGACAATAATATGGAATTCGCCAATTACGGTCCGTTTGAGTTGC -TTCAGGCTCGCCAGCTCATCGAAAGTAATATTGCCGAATTCGCGGCAACTCAGGTAACGAAACAGGACAT -CATGAAACTGATGGCCATTCAGGAACAGGCGCGCGGCGAACAATGCTTCCGTGATTCCGAGTGGGATTTG -CAGTTCCACATTCAGGTCGCTCTGGCGACGCAGAACTCCGCCCTGGCGGCTATCGTGGAAAAAATGTGGA -CCCAGCGTAGTCATAACCCGTACTGGAAAAAACTGCACGAACACATTGATTCCCGTACCGTCGATAACTG -GTGTGATGACCACGATCAAATCCTCAAGGCGCTGATTCGCAAAGATCCTCATGCTGCTAAGCTGGCAATG -TGGCAGCATCTGGAAAACACCAAGATCATGTTATTTAACGAAACCAGCGACGACTTCGAGTTCAATGCCG -ACCGCTATCTATTCGCCGAAAACCCGGTGGTGCATCTCGATACAGCCACCAGCGGCAGTAAATGAAATTC -CTGTCCGACAGGCGCTGCAATGCGCCTGTTTGTCTCGTCGGTAAGCGAAAAGTATAAAGTGTCAGCCTGT -GTAAATCCTCTCGCCACCCTCCCCTGCATTCAGCAAAATCAGACTCCACGGACATGTAATTTTGATAACG -AACAACGTTGACCTTTGTTACAATTAGATTCAATTTGAATTTATGTTTTTGAATGCTTTCTTATCTCACG -ATTTAACAGGGAATAGTTCAGGCTGTGTTGATGTATCAAACCCGCAGAACATACCAAAACAGCAATAACA -TTGCGGTAGTGCATCTTTTAAAACCAGCGTGGCGTTAACCGATTCACCAGGAATAATGAATGGAACTTTT -GACCCAATTGCTGCAAGCCCTGTGGGCGCAGGATTTTGAAACCCTGGCCAATCCATCGATGATTGGCATG -TTGTATTTTGTCTTGTTTGTAATTTTGTTCCTTGAAAACGGCTTGCTTCCGGCGGCCTTTTTACCGGGCG -ACAGTTTACTGGTATTGGTCGGCGTGTTGATTGCGAAAGGCGCGATGGGCTATCCGCAAACGATTCTGCT -GCTGACCGTTGCCGCCAGCCTCGGCTGCTGGGTCAGCTATATTCAGGGGCGATGGCTGGGCAATACCCGC -ACCGTACAAAACTGGCTATCTCATTTACCCGCGCATTATCATCAACGCGCACACCATCTTTTTCATAAAC -ACGGTTTATCGGCGCTGTTAATTGGTCGCTTTATTGCGTTTGTCAGAACACTGCTGCCGACGATTGCCGG -GTTATCAGGGCTGAATAACGCGCGCTTTCAGTTTTTCAACTGGATGAGCGGTCTGCTGTGGGTATTGATC -CTGACAACTCTGGGTTACATGCTCGGCAAAACGCCGGTATTTTTAAAGTACGAGGACCAGCTGATGTCAT -GCCTGATGCTGCTCCCGGTGGTGCTGCTGGTGTTTGGCCTGGCAGGTTCTCTGGTCGTGTTATGGAAAAA -GAAATATGGAAATCGGGGGTAAGGGATGCAAATACCTCGCATGTCGCTTCGCCAGCTAGCCTGGTCCGGC -GCTGTTTTACTTCTGGTCGGCACGCTGTTGCTGGCCTGGTCCGCGGTTCGCCAGCAAGAGTCTACGCTGG -CGATTCGTGCCGTTCATCAAGGCACAACGATGCCAGACGGTTTTTCAATCTGGCATCACCTTGACGCTCA -TGGCATTCCTTTCAAAAGTATCACCCCCAAAAACGACACTCTGTTAATTACATTTGACTCCAGCGACCAG -AGCGCCGCCGCAAAAGCGGTCCTCGACAGAACATTGCCCCATGGCTACATCATTGCGCAGCAGGACAATA -ACAGTCAGGCTATGCAGTGGCTGACCCGGTTACGGGATAACTCTCATCGCTTCGGATAACTTCCTGTTAT -CCGAAACATATCACTCACTTTGGTGATTTCACCGTAACTGTCTATGATTAATGAGGCGGTGGTTAACACT -ACCGCTTCGTTGTCTGGACAATCGTTCCTTTGTAATAGGTCCGAATCACAATGGAAGGTTCAAGAATGAA -ATACCGCATCGCTTTAGCTGTTTCTCTCTTTGCTCTTAGTGCCGGTAGTTATGCCACTACCCTGTGTCAG -GAAAAGGAGCAAAATATCCTTAAGGAGATCAGCTATGCCGAAAAACACCAAAACCAGAATCGTATTGACG -GTCTGAATAAAGCCCTGAGTGAAGTCCGGGCCAACTGTTCAGATAGCCAGCTGCGTGCCGATCATCAGAA -GAAAATCGCAAAGCAGAAAGATGAGGTGGCGGAACGCCAGCAAGATTTAGCCGAGGCGAAGCAAAAAGGC -GATGCCGATAAGATTGCCAAACGCGAACGGAAACTGGCAGAAGCGCAGGAAGAGCTGAAAAAGCTGGAAG -CGCGCGACTACTAACTCACAATAGTCACTACTTACTCACCTGGAGAAAACTATGTCGAAAGAACACACTA -CGGAACATCTGCGTGCTGAGTTGAAATCCCTTTCCGATACGCTGGAAGAGGTGCTTAGCTCATCTGGCGA -GAAGTCGAAAGAAGAGTTGAGTAAGATTCGTAGCAAAGCGGAGCAGGCACTGAAACAGAGCCGTTATCGC -CTGGGTGAAACCGGTGATGCCATTGCCAAACAAACCCGTGTCGCGGCGGCGCGTGCCGATGAGTATGTGC -GCGAAAATCCGTGGACGGGCGTGGGCATTGGCGCTGCAATCGGTGTAGTGCTCGGCGTTCTGCTGTCGCG -TCGTTAATTATGGCGGACACTCATCACGCACAAGGGCCCGGTAAAAGCGTTCTGGGCATCGGGCAGCGAA -TTGTTTCTATCATGGTTGAAATGGTAGAGACACGTCTGCGGCTGGCGGTGGTGGAGCTGGAAGAGGAAAA -AGCGAATCTCTTTCAACTTTTACTGATGCTGGGCCTGACGATGCTTTTCGCTGCATTTGGTCTTATGAGC -CTGATGGTGCTAATTATTTGGGCGGTTGACCCGCAATATCGCCTGAATGCGATGATTGCCACCACCGTGG -TGTTGCTGCTACTGGCACTGATTGGCGGTATCTGGACGCTACGTAAATCGCGTAAGTCTACGTTGCTGCG -CCATACACGCCATGAGTTAGCAAACGATCGGCAGCTGCTCGAGGAGGAGTCCCGTGAGCAGTAAAGTCGA -ACGTGAACGACGTAAGGCGCAACTGCTTAGCCAGATCCAGCAACAACGGCTGGATCTTTCCGCCAGTCGT -CGTGAATGGCTGGAGACAACAGGCGCTTACGATCGTCGCTGGAATATGCTGCTAAGTCTGCGCTCCTGGG -CGCTGGTTGGCAGTAGCGTGATGGCGATCTGGACGATTCGCCATCCTAATATGCTGGTCCGCTGGGCCAG -ACGCGGTTTTGGCGTATGGAGCGCCTGGCGTCTGGTTAAAACGACCCTCAAGCAGCAACAGCTTCGCGGT -TAACTTCCCTCTGGCCGGAGCCATTCCGGCCTTATCCCTCAAATTTTTTGAAGATTTTTGACAGTTTTCC -TTGCTAACAATCATCATTCACCACGTTTATGATTCTCTCCATCGACAGCAACGACGCTAATACCGCGCCA -TTGCACAAAAAAACAATCAGCAGCCTGAGTGGCGCAGTGGAGAGTATGATGAAAAAATTAGAAGATGTTG -GTGTACTGGTAGCGCGCATTTTAATGCCGATTCTGTTTATTACCGCTGGCTGGGGAAAAATTACTGGCTA -CGCGGGTACCCAACAATATATGGAAGCAATGGGCGTCCCGGGTTTTATGCTGCCACTGGTGATTCTGCTT -GAGTTTGGTGGTGGTCTGGCAATCCTGTTCGGTTTCCTGACTCGCACCACAGCCCTGTTTACTGCGGGCT -TTACGCTGCTGACGGCATTTTTATTTCACAGCAACTTTGCTGAAGGCGTCAACTCGCTGATGTTCATGAA -AAACCTGACAATTTCTGGCGGATTCCTGCTGCTGGCAATTACCGGTCCGGGCGCGTATAGCATCGACCGC -CTGCTGAATAAAAAGTGGTAAGCACGCGCTATACTTAACGATAAAAAACGAGGAGGAAGCTCCTCGTTTT -TGCTATTGGAGGAGAGAAAAATGGGTCAACTGATTGACGGCGTCTGGCATGACACCTGGTACGATACCAA -ATCTACCGGCGGTAAATTTCAACGTTCAGCTTCCGCATTTCGTAACTGGCTCACTGCCGATGGCGCTCCT -GGCCCCACTGGCACAGGCGGTTTTATCGCAGAGAAAGATCGTTATCATCTCTATGTTTCACTCGCCTGCC -CGTGGGCGCACCGCACGCTGATCATGCGCAAACTCAAAGGACTGGAACCGTTTATTTCCGTTTCCGTAGT -GAACCCGCTGATGCTGGAAAACGGTTGGACCTTTGATGACAGTTTTCCGGGAGCAACCGGAGACACGCTC -TATCAAAATGAATTTCTGTATCAGCTTTATCTCCACGCCGATCCACACTACAGCGGACGAGTTACTGTTC -CCGTGCTGTGGGACAAAAAGAACCACACCATCGTCAGCAACGAATCAGCAGAAATCATCCGCATGTTCAA -TACCGCGTTTGATGCGCTGGGCGCGAAAGCGGGTGATTACTACCCTCCAGCCCTGCAAACAAAAATTGAC -GAACTTAACGGCTGGATTTATGACACCGTTAACAACGGCGTGTATAAAGCTGGTTTTGCCACCAGCCAGG -AAGCTTACGACGAGGCGGTGGCGAAAGTGTTTGAATCGCTGGCACGACTGGAGCAGATTTTAGGCCAGCA -TCGTTACCTGACCGGCAACCAGCTAACCGAAGCCGATATTCGCCTGTGGACTACGCTGGTGCGTTTTGAT -CCGGTGTATGTGACCCACTTCAAGTGTGATAAGCACCGCATCAGCGATTACCTGAATCTGTACGGTTTTC -TGCGCGATATCTACCAGATGCCGGGGATCGCCGAAACAGTCAATTTCGATCATATCCGTAATCATTACTT -CCGCAGCCATAAGACCATCAACCCTACGGGGATTATTTCAATTGGTCCGTGGCAGGATCTCGATGAACCG -CATGGACGAGATGTTCGCTTCGGTTAAAAAAAGGCACCTTACGAGGTGCCTCTGATAATTAGCTAAGTGC -ATGTTGTTCATGTCGGATGTGGCATGAACGCCTTATCTGACATACAAAACATTGTACATTCAATAGATTG -CATAACCCGCGCAGACCAGATAAGCGTAGCGCATCTGGCGATTTTGCGCTTGTCATCAGTCTTAGCGCGC -CTTCACGGCACTTTATTAATTCCTTGAACGAATATTTACTGCCATTTCATTCACGTCTATTCTTAATTTG -CTGCTTTAAAAACAAGTGATTGAGCAAAATTGAGGCAAAAATGGACTGGTATCTGAAAGTACTAAAAAAT -TATGTCGGTTTCCGGGGTCGTGCGCGGCGCAAAGAGTACTGGATGTTTATTCTGGTCAACATCATCTTTA -CGTTCGTGCTGGGGCTGCTGGATAAAATGTTAGGCTGGCAACGCGCTGGTGGCGAAGGCATCCTGACGAC -AATCTACGGTATTCTGGTGTTTTTACCGTGGTGGGCGGTTCAGTTCCGCCGCCTGCACGACACCGACCGC -TCGGCGTGGTGGGCACTGCTATTCTTAATCCCGTTTATCGGCTGGCTTATTATCATCGTCTTTAACTGCC -AGGCGGGTACGCCAGGCGAAAACCGCTTTGGACCAGATCCAAAACTGGAACCTTAAAACAAATCTGCTCG -CCGGATGTCTGACTCATCCGGCTTTTATCATTATGTTGATGAATGAATAATTTACTAATGTTTATTTAAA -ATATTTCAATGTCGTTATATAAATTACCTATAAAAAATAACCATGTATTTATCTTAAATATCAAAACCTT -TATAACATCCGAAAAAGAAAGATACGAATAGCATTTACACAATACCCGGAATAGACTTTCGTCACTTTTA -ATTAAAGGGATGTTTTTATGCAGTGGTATTTGTCCGTATTAAAAAATTATGTTGGTTTCTCTGGTCGCGC -ACGTCGTAAAGAGTACTGGATGTTTACTCTGATTAACGCCATCGTCGGCGCTATTATCAATGTCATTCAA -TTGATTTTAGGTCTGGAGCTTCCATATCTGTCTATGCTTTATTTGCTGGCAACCTTCCTTCCCGTCCTTG -CGCTTGCTATCCGTCGCTTACACGATACCGACCGTTCAGGTGCCTGGGCCTTGCTCTTTTTTGTTCCGTT -TATTGGCTGGCTCGTGCTTCTGGTTTTTTTCTGCACAGAAGGTACTTCTGGCAGCAATCGTTACGGAAAC -GATCCGAAGTTTGGTTCAAATTAATCTTAGAATTGGGGCGATATTTCGCCCCTTTTTATTAACAATAATA -AATATTATTTTCCGTTAAAAAGTTTGGGAATTTCCCGCAGACACCAGGATTTCGCTTCCCCCATACTGTC -ACGACGCCAGGCCATAATAATATCGATCTCGCTGGTCGATTCCGGGCTGACGACACGCAACCGCCCTTCC -GCAATATCTTTTTCGACCATAGGATACGGCATCGTCGCCACGCCAAGCCCCGCCAGTAATGCCTGACGTT -TATCTTCAATCGTGCTCACCGTTAAGCGCGGCTGTTTGTCCAGCAGCTGTACGGTCAACACCGGGCGCTC -ACGAGCGGTATCCGCCACCGCAATTCCACGATATTTCACACGCGTCACTTCAGATAACGGTTCCGGCTCC -TGATGAATCGGGTGATCAGGCGCGGCAACGTAGACGTTCATTAACGTATAGAGCTTGCGCGAGTTGATCT -CCGACGAGGAACGAAAATGCATATCCGGCGCGATAACAATATCCGCCCGCCCCTGCTCCAGCCGTTCCCA -CGCCCCCGCCAGCACTTCTGTGATGATTGCCAGTTGGGTATTGGCTTTTGCCGCCAGTTTGTCGATTAAC -GGGAAAAAGGCAGGTGTCGGTACCAGCGCTTCGGTCACAATGGTGAGATGCGTTTCCCAACCGCGCGCGA -GAGCTTCCGCATCAGTAGTCAGTTTATCTGCGGCTTCCAGCAAAACGCGCCCTCGCTCCAACAACATCCT -CCCGACATTGGTGAATTTGGTACGATGGCCCGAGCGGTCAAACAGCACCACATCCAGCTCTTCTTCCAGT -TTTTGCATGGTGTAGCTAAGTGCGGAAGGCACGCGTCCCAGCTCATCCGCCGCCGCCGCAAAACTGCCCC -GGCGATCGATCGCATCCATAACCCGTAGTGCTTCCAGCGTTAATGCCCTTTCTTTGGCCATTTCGTTCTC -ATTCAGGAAATTTGAACATACCGGGCAGAATATCTGGCTAACAATGTAGCGTCCAGCCCCTTACCATAAA -AGGAAGTAAAGAGAGGTCAAGAATTATGATTACTACCCGAACTGCCAGGCAGTGTGGACAAGCAGACTAC -GGATGGTTGCAGGCCCGGTATACTTTTTCCTTTGGACACTACTTCGACCCGAAATTGTTAGGCTATGCCT -CCCTGCGTGTGCTTAACCAGGAAGTGCTGGCCCCAGGTGCCGCCTTTCAGCCGCGAACCTATCCCAAAGT -CGATATTTTAAATGTGATTCTGGATGGAGAAGCAGAGTATCGCGATAGCGAAGGCAATCATGTTCAGGCC -AGCGCCGGAGAGGCGTTGCTGCTCTCTACCCAGCCGGGTGTCAGCTATAGCGAACACAATCTCAGCAAAG -ACAAACCGTTAACGCGAATGCAGCTTTGGCTGGACGCCTGCCCGCAGCGAGAGAATCCGCTGATTCAAAA -GCTGGCGCTTAATATGGGCAAGCAGCAATTAATCGCCTCGCCAGAGGGTGCGATGGGAAGCCTGCAATTA -CGCCAGCAAGTGTGGCTGCACCATATCGTGCTCGACAAAGGCGAAAGTGCGAATTTCCAGTTGCATGGGC -CACGCGCGTATTTGCAATCGATTCACGGGAAATTTCATGCGCTTACGCATCATGAAGAGAAAGCGGCGCT -GACCTGCGGTGATGGGGCGTTTATTCGTGACGAGGCTAACATTACGCTGGTTGCCGATTCCCCACTGCGC -GCTTTGCTGATAGATTTGCCTGTCTAGTTGTTTTTACAGGGAGATGATGATGAGTAAAAAATTGGCCAAA -AAGCGCCAGCCGGTGAAGCCCGTGGTGGCGAAAGAACCTGCTCGCACCGCCAAAAATTTTGGCTATGAAG -AGATGTTGAGCGAGCTGGAAGCTATCGTCGCGGATGCTGAAACGCGTTTAGCCGAGGATGAAGCTACCGC -GTAAAGACAGGTTGCCGGATGCGGCGAAAACGCCTTATCCGGCCTACAAAATCCAACAACATTAACGAAT -TAAACAACCCGTAGGCCGGACAAGATGCGCCAGCATCGCATCCGGCACGATCCCCAAAACCTGGCGTTTA -TCTGGCCTTGCTCGCCATAATCTCGATAATCTGCCGATCCGTTTGCTGCATCGAATGGCTTGCTAACGCA -CACAGGTTGGCAATCGACTGCTCAACATCATGCGCCACAATCCCTTCATTGCCGGTCACGGCGGTATCAT -CCAGCGCCATTAACACCGCTTTCCACGCAGCCGAAGCACTGGTCGAAACCTTCATCGCGCAGCTGTTCGA -CGCACCATCGCAAATCATGCCGCTGACATCGCCGATCATACTGCTGATCGCCATCGAGATGGTTTCATAA -CGCCCATCCACCAGCCATGCCATCCCGGCGGCGGCCCCCATTGCTGCGGTCGTTGCGGCACACAGCGCAG -ACAAACGCGGTAACTGGTTATGGATGTAAATTGCGCTCAAATGCGAAAGCATCAGCGCACGCGCCAGCCG -TTCATCATCCGCTCCGAAGTGTTCTGCTACCACCACCACAGGCATTGTTGCGGTAATCCCCTGGTTACCC -GAGCCGGAGTTACTCATAGCCGGAAGCGTAGCGCCGCCCATACGCGCATCGGATGCCGCGCTGGTACGAA -TCACAATGGATGAAGAGAGATCTTTCGCCAGCAAACCGCGCTCGCACTGTTTTTCCAGCGTCGCGCCAAT -ATGCAGCCCCCACTTACCGCTCAAACCTTCCTGCGATAACGCACAATTTAGCTTCGCGGAATCGAGAATA -AAGCGGATCGCCGCAAACGGGACTTCATTGACGAACTTCAGGATCTCAGCCAGCGTCGTTCTGGAAAGCA -CCGTCAGCGGAGACTCTTGCTCGCCCTCTGCCACACACGCCTGCTGGGTAAACACCACACCATCGTGCGT -CTCGATATGCACAATGTTGGTATGCCCGCCGACGATGGTGACACACGCCCACTTCTCACCGTTCCAGACT -TTGGCGCGTGAGAAGAGGATTTCATCGCAAGGTTCCTGGATCTTAACGGAGACTTTCCCCGCCGCCAGCA -GTGCTTTGGCATCGGCAATTGCCTGCGCTGTTGCGTCTTTCAGCACTTCCAGCCCGGCGTTGGCATTTCC -ACCTAACGCCCCCAGCGCCGCCGCAATCGGCAGCCCCACCATTCCCGTGCCGGGAACGGTGACGCCCAGA -CCGTTCTTCATCAGATTTGGCGAAACCCAGGCTTCTACACGTTCAACCGGACCTTCCAGTTCTGCCGCAG -CAACCGCCGCCGCCAGCGCCAGTGAAATCGGTTCAGTACATCCCAGCGCCGGTTTTACTTCCTCCTGAAC -GGCGAGGATGTAACGCTGCCATAACGGATTTAAAGTCGAATCAAACATATTAAAAACCTTAAAATTTCAG -GTAAATCAAGAAAATGCCAGGAACGGAGAAACACACAGCAACAAACCAGTGACGATAATCAGGTACAGAG -ACATCCCTTTGTATTTGTGCAATGCTGGTACTTTGTAAACCAGCCACGCCGGGATCAGGCACCCTACCAT -GCCGAAAATCGGGCTACAGATAGAGGTGAAGCTCAACACCGGTGCGTTCAGTACGATGGCGCTCCAGGCC -AGCAAAATGGCGAAAATCATGATGCCGCGCTGAACGAGATTTTCGTTAATCTTCTCGGCAGGCATCTTGC -GACGCAGGATGTTCATTACGATCCCTTGCGTTGCTTCGCGAAAGCCTAAATAGACGCCAAAGAATGCAGT -CATGACAGCAAAGATATTGAGAATGACGCTGACCACTTTCACCCACGCTGCGCCGTCACCGCTAATAAAC -TGTGCGGCAATCGCCAGCGCGGAAATATTCTGCTCATAGGCTTTTACCGCTTCGTCATGTCCCATCGCCA -GCGTGAACGACACGGCGTAGAAAAAGACGGTGACAAACAAAATGCCAAACGCGATATTCATTGCCCGCAA -TGCTTTATGCCGCGCCACTTCAATTGATTTTTCCCGCGAGCGATAAGAGATCACCATCGGACTTAACGTC -TGGATAAACAGAATCGACGTCAGGGTAAACGGCAGCGTAATAATGGCGTTTTTCACCAGCAGCCCCAGCG -GCGGTAGCGAACCGACGTTATACAGATGCCACATTCCCACCATCGACACGCCCAGCGCCGCGACCACCAG -CAGCTTGGTCAGCACCATGCCGGTCGAAATTTTGAATAACAATTTCTCGCCGCGTGAGGAGATCGCCACC -AGAATGCAAATCAGTACCAGACCATAAAAGGGACTGTCTGACAGCAACCCTTCCGTCACGCCGAAGGTAT -GCAGGTAGGAAGCACTATCGTTGGTGATGGCGGTGGAATAGACGAACATCCAAATCACCAGCATTACGAA -ATAGAGCGCACCTAACAGGATGCCCCAGTTTTTACCTAAATAACCGCTAATGACGCTCGGGTAATCTTTA -CATTCTGGTGATTCTGCCAGCGTATTAATAAACAATCGCTGAAACAGATACATTGCCGGGTAACCAATCA -CCGATGAGAGCAAAAATACCCACAATCCCATCAAACCGACCTGCACCGGGAGAAAAACAATCCCCGCGCC -AATCGCCATCCCGATACTCATAATCACCCAGCCGGTGTCAGTACTGTCGAATTTGATCGCTTCTCGCCAC -TCGCTCTCACTCATTCCAGCACGACCCGCCGGGGTCGAAGCGTCTGCAATGACGCCTTTATTCGATGCAA -TTTCCATAATTTCTCGCTCAATATTTTGTAGGGCTTATTATTTTTTTCCGAGCCGCATCAAGGCGATATG -CGGTCTACGTTTTTGCAGGCGAGTTATTAGAATAAAGAAATGATACGCGCGAGGTCAGAGAAAATCTTCA -CAATCAAGACTTTGAAATAACGGAGATGGATAAGAATTTTCTACTAAATTAATCGCAGGAGAATATTCAT -TCTCTATTTGCGGCAGATCACAAAAAAAAGGTGCACATTTGTGCACCCAAGGATGAAAGCTGACAGCAAT -GTCAGCCGCAGACCACTTTAATGGCCAGTCCTCCGCGTGATGTTTCGCGGTATTTATCGTTCATATCTTT -GCCGGTTTCATACATCGTCTCGATCACTTTATCGAGTGAAACACGCGGTGCCGAGGTGCGGCGCATCGCC -ATCCGCGCGGCGTTTACTGCTTTCACGGCATTAATGGCATTACGTTCAATGCACGGGATTTGTACCTGTC -CGGCAACCGGATCGCAGGTCAGCCCAAGGTTATGCTCCATCGCGATTTCCGCCGCATTGCATACCTGCGC -CGGACTGCCGCCCAGTAGTTCAGTTAACCCTGCCGCCGCCATTGAACAGGCCACGCCAATCTCCCCCTGA -CAGCCGACTTCCGCGCCAGAGATGGAGGCGTTCATTTTATACAGCGCGCCAATAGCCCCCGCGGCCAGAA -AATAGCGGGCAATTGACCGCTCGTTTACCGGACGACGGAACTTATCGTAATAAGCCAGTACTGCCGGAAT -AATGCCGCACGCACCGTTAGTCGGTGCCGTTACCACGCGCCCGCCAGCTGCGTTTTCTTCACTAACCGCC -AGCGCGTACATGTTGATCCAGTCGATGACATTCATCGGATCGTTAGAGATGTTATCGCTGGAAACCAGCT -GACGACGCAGCGCTACGGCACGGCGCGGCACATTGAGCGGACCAGGCAGCACGCCTTCAGTGTTCATCCC -ACGTTCAATACCGTCATGCATCACTTGCCAGATACGGGCAAAACCGGCGTCAATTTCCGCTTTGCTGCGC -AGCGCTAGCTCGTTGTGCATCATCAGACCAGATATAGACAGGCCGTTGTAATCACACATTTTCAGCAGTT -CACCTGCTGAGTGGAAATCGTAAGGTACGGACGTTTCGACATCGTGCGACAGGCCGAAGTGTTCTTCTTC -GACAATAAACCCGCCGCCGACAGAGTAATAGGTTTTACTTAATAGCTCTTCCTGTCCCTTCCAGGCAGTG -ATCCGCATTCCGTTCTCATGGCGAGGCAACATTTCGGGATGGAAGATAATGTTCTTTGCTACAGGAAAAT -CAACAATATGCGCACCAGATGCCACTGGCAGCCGCCCGCTGCGCGTTACTAACTCTATAAATGCAGGGAT -CTCATCAATGACAACATCCTGCGGACTGTTTCCTGCCAGTCCCATGATGATGGCGACATCCGTGGCATGG -CCTTTGCCCGTCAGTGACAACGACCCGTACAGATCGACCACAATATGGCTCGTCGCGGTTAATAAGCCGC -TACTTTCCAGCCGATCAATAAAACTTTTTCCGGCATTCATTGGCCCCACGGTATGCGAACTGGAGGGACC -AATCCCAATTTTGAAAATATCGAATGCACTAATCATATCCACACCCTCGGATTGCCGTTCAGTGAAGTGG -AGCGGAACGACCTTACGACCGTCCCGCTCACGAGGCTTTACGCACTACGTACTGCGATGGCTTCAATTTC -CAGCTTCACATCTTTCGGCAAACGCGCGACCTGCACACAGCTCCGGGTCGGATAGGTCGCCTGATGCTCA -TCGAAGAACTGCTTATAGACTTCGTTGATGGTGGCAAAATCATTCAGATCGGTGATAAACACGGTCATCT -TGATGATATCGCCCACGCTCAGCCCGGCAGCAACCACGATCGCTTTGACGTTTTCGAGGCTTAAACGCGC -CTGATCTTGCACATCAGCCGGGATCTCACCGGTCTGTGGGCAAACCGGTATTTGCCCGGAGGTGAAGACC -ATGCTGCCTAAATCAACGCCCTGAACATAAGGGCCGATTGCGCCTGGGGCACGTTGCGTTTCGATAATCT -TTTTCATACATCCTCCGGCGTCAGAGCGCCTGGGTAAAGGTACGTGAAATAACATCCTGTTGCTGTTCAC -GGGTCAGTGCGTTGAAGCGCACGGCGTAGCCAGAGACACGGATTGTCAGGTTAGGATATTTTTCCGGGTG -CTCGATGGCATCCAGCAGCATTTCCCGATTCATTACGTTGACGTTGAGGTGTTGACCGCCTTCGACATCC -GCTTCGTGGTGGAAATACCCATCCAGCAGGCCGACAAGGTTGGTTTTACGTACTGGATCTTCTTTGCCCA -GCGCCGCAGGAACGATTGAGAAGGTGTACGAGATCCCATCTTTGGCGTAGGTGAACGGCAGTTTCGCCAC -CGACGTCAATGAGGCCACGGCACCTTTGCGGTCACGACCATGCATCGGGTTAGCGCCCGGCGCGAACGGT -GTTCCGGCGCGACGACCGTCCGGCGTATTACCGGTTTTCTGGCCGTACACCACGTTAGAAGTGATAGTCA -GAATCGACTGGGTAGGGACGGCGTTGCGATAGGTTGGCAGCGCTTTAATTTTCTTCATAAAGCGTTCAAC -CAGGTCGCAGGCAATGCTGTCTACGCGCTCGTCGTTGTTGCCGTACTGCGGATATTCACCGTCGATTTCA -AAGTCCACCGCCAGGCCGTTTTCGTCACGGATTGGTTTCACGCGGGCATATTTGATGGCAGACAGGGAGT -CCGTCGCCACCGACAGGCCCGCGATGCCGCATGCCATAGTGCGATAGACATCACGATCGTGCAGCGCCAT -CAGCGAAGCTTCGTAGCTGTACTTGTCGTGCATGTAGTGAATGATATTCAGCGCGCTGATGTACTGCACC -GCCAGCCAGTCCATGAAGTGATCGAGGCTGTCCATCACTTTGTCGTAATCCAGCACGTCGTCCATCAGCG -GTGCTGTTTTCGGCCCGACCTGAATCTTCAGCTTCTCGTCCACCCCGCCGTTAATTGCGTAGAGCAGCGT -TTTCGCCAGGTTAGCGCGTGCACCAAAGAACTGCATTTGCTTACCAATCACCATTGGGCTGACGCAGCAG -GCAATCGCGTAATCGTCGCTGTTGAAGTCAGTACGCATCAGATCGTCATTTTCATACTGCAAGGAAGAGG -TGACGATCGACACCTGCGCGGCATATTTTTTGAAGGCAATCGGTAATTCTTCCGACCAAAGAATGGTCAG -GTTAGGTTCCGGTGCCGGCCCCATAGTGTGCAGGGTGTGCAAATAGCGGAAGGAGTTTTTGGTCACCAGC -GTACGACCGTCCAGCCCCATCCCGCCGATCACTTCCGTCGCCCAGATTGGGTCGCCGGAGAACAGCGAAT -CAAATTCCGGTGTACGCAGGAAGCGTACCATACGGATCTTCATGATGAAGTGATCGATCAGTTCCTGTGC -CTGCTGCTCATTGAGTACGCCAGCTTTAAAGTCGCGCTCAATGTAGATATCGAGGAACGATGCCGTGCGG -CCCAGCGACATCGCGCCGCCATTTTGCGATTTCACTGCCGCCAGATAAGCGAAGTAGAGCCACTGCACCG -CTTCCTGCGCATTCTGCGCCGGGCGAGAGATATCAAAGCCATATTTCGCCGCCATTTCCTGAATCTGCAA -CAGCGCATGACGATGCTCTGCCAGCTCCTCACGCAGACGGATGGTGGCTTCCAGATCCTCGCCTTTTTCC -AGACGAGACTGGAGATCGGCAAATTGCAGTTCGCGTTCACGTACCAGATAACTGATGCCATACAGCGCTA -CGCGGCGATAGTCACCGATAATGCGCCCACGGCCATAGCCATCTGGTAAACCGGTCAGCACGCCAGATTT -ACGGCAGCGCAGCATATCCGGTGAGTAAACATCAAATACGCCCTGGTTATGGGTTTTACGCAGATCGGTA -AACAGATATTCAAATTCACTGTCCATTTCTCGGCCATAGGCGTGGAATGAACTTTTAATCATATTAATGC -CACCGAACGGGTGTAGCGCACGTTTCAACGGCGCATCCGTTTGCAGGCCAACAATTTTTTCCAGCGGCTG -GTTAATATATCCCGCATCATGAGCGGTAATTGTGGTGGCAATATTGGTATCGAAATCAACCGGCGCGTGG -GTTGCATTTTCGATACGGATGCCTTCCATTACTTTTTCCCACAATTCCGTGGTGGCAGGCGTCGCTTCGG -CGAGGAAAGATTCATCGCCTTCATACGGTGTATAGTTATGTTGAATAAAATCGCGGACATTAATTTCGTT -TTTCCAGTCCGTACCTTTAAAGCCAAGCCATGCGTCGGCGTACAGCTTATCGCTGGTATCAATATCTACC -TTCATGAAAAATAATCTCTCTACAATACTTCAACTAAATTATGCAAATTCTGCGGGCGCGTTAACTTTGC -CTAAATGAATGGCATCCAAAGCAATCATTTTTTCTTCGTTAGTCGGAATAACGGCACAAATGACACGCGC -ATTTTCACTGGAAACAATTCGCTCACCACAGGAGTTAGAGCGATTATTCATTTCTGTATCAATCTCTAAG -CCTAATACAGCCAAATGTTCCATGACCAGACGACGAATTAAGCTTGAATTCTCTCCTATTCCGCCGGTGA -ATATAATTCCATCCAGGCGACGTAATGAAGCTGCGTGTCCGGCAATATGACGGGCAATTCGGTGAACAAA -GGTTTTAATTGCCAGTTGCGCGCGTTCGTGACCTTCATGCCAGGCTTTTTCCAGAACACGTAAATCCGAA -GAAAGACCGGAAATACCTAATAATCCCGACTCTTTATTCACTACGCGTTCCAGGTCACCCAGGCTCTGGT -TGGTTTGGCTGGCGACCCAGGACATCGCACCAAAGTCGACATCGCCACTGCGGGTACCCATCATCAAGCC -TTCCAGCGGCGTCATTCCCATTGAGGTATCAACACTCTGACCGTTGCGAACCGCGCAGATTGACGCGCCA -TTGCCAAGATGCGCCACAACCAGGCCGGAGTCATCTTCCGCCAGATTCAGCAGCGAATGTGCGCGCTGGG -AAACATAGCGGTGCGACGTGCCGTGGAAACCATAACGGCGTACACCTAACTCTTCATAATATTTCCACGG -CAGGCCGTATAAATAAGCTTCCGGAGCCATCGTCTGGTGGAAACTGGTATCAAATACCGCCACCTGAGTT -ACGCCCGGAAATAATTGCTGCGCCGATTCAATACCACTTAAATTGGCGTAATTATGCAGGGGTGCCAGTG -GAGAAACGCGACGGATATTATCAATGACTTCATCGGTAATAATGGCGGACTCGGTAAAAATACTGCCGCC -GTGAGCGATGCGGTGGCCAATTAAGGCCACACTGTCATTTAAATTCCGTTTTTCCAGTTCAAATGCAATT -GCCTTCAATGCACCTTCGTAGCTGTGGTGAGCCAGCGGTGCTGGCTCTCCCCCATTTACGGATAAGAATG -CATTTTCCGAGTTAATACCGTCGGCAATACCTGACATTAATACTTCACAGTCGCTGGCATCGAGCACGGA -AAACTTAATCGAAGACGAACCACAGTTAATAACCAAAACAACCGGAAATTCATTCATCTCTTTTCTCATC -CTGAGTTACGGATTAAAACAGTTTGTATACGATGTTCAGGATGGTCAGCAGACCAATCACGGTAACAAAC -ACGTTATCCAGACGACCACGGTATTTCGCCAGAGACGGCGCTTTACGGATGGCATACATCGGCAACAGGC -ACAGCAGGGATGCGATAATCGGTGCGCCCATGGCTTCAATCAGGTCAAGGATGTTCGGGTTGGCGTAGGC -AACAACCCAGGTGGAGCCCATGATGAAGATCATGCTGATAGTGTTCAGTTTACCCAGCGACACTTTAGTT -TTGTCGCCTTTATAACCAAACTTCAGGACCAGGCCATTCAGACCTTCCAGCGTTCCCAGATAGTGACCGA -AGAAAGATTTGAAGATAGCCACGAGTGCGATGATGGAAGCCGCATATTCCAGTGTAATCGCGAACGTTGT -TTTGGTACCGGTCATGGACGCAAAGTGGTTAGCCAGATAAGAAAGCACTGGAATATTCTGCGCTTTGGCT -TCCGCCATGTTGGCCGGAGACAGAGTAAACAGGCAGCTAAAGGCAAAGAACATCACCACTGCAACCATCA -GCATGCTGGCACGAGAAATGATTTGGGAACATTTACGTTCGGTGAAGTCGCGACCGAAGTCTTTCTCATA -CTCTTCACGCTTAGAAACCACGAAGGAAGAGACGATTGGCGAGAAGTTAAAGGAGAAAACCATGATGGAA -ATCCCCAGCCAGACAGTGATCAGGATACCGTCATGACCGGTTAACGACAGCGAACCGAGGTCAACCTGGT -CGATAACTGCAGAGTTCCAGTAAGGGATCAGCGACAAAGAAATCAGCACCAGGCTGGCGATAAACGGCCA -TACCAGGTAGCTCATCACTTTAACCATCAGATCCTTACCAAACCAGATGACGAAAGCCATCAGCAGCAAC -AGGAACAGCGCCACAAAGCCGCGATTCAGCGGTGCAAAGCCGAGCTGGTTTTCCCAGAACGTCATAAAGG -TATTGGTAATAGTAACGCCATAAATCCACAGCAGTGGGCAAATCGCGAAGAAGTACAGGAACGTGATAAC -CACGCCGCCAGTTTTACCAAAATGCTCTTCCACCGTTTCCGTAATGTTGCCGGAAGGGTTAGAGCCAGAA -AGACACAGACGCGCCAGCGCCCGGTGGCAATAAAACGCGATGGGGTATGCCAATACCAACATCAGAAGAA -TCGGGATCAGTCCGCCAAAACCTGCGCGGATAGGGAAGAACAGCACCCCGGCGCCGATTGCCGTACCAAA -CAAGCCTAACGTCCATGTGGTATCTGATTTACGCCAGGACGATTGTTTTGTCTGGCTGGATACAATGCTA -TCTGAAGTACTCATATCCTATCCTCAACGAATTAATTAAGCGTCAACGAAACCGGTGATTTGAGAGACGC -GAGAAAGATCGATATTGCCGCCGGAAATAATACTGACGGTTTTTCTGTTTTGAATATATTGGTCTAATTT -ACCGCTTAATAATGCAGCACATGCCAGAGCGCCTGCGCCTTCGGTGACGACTTTATTGCGCTGAATTAAG -GCAATCATACTGTTTCTGATTTCGTCTTCGCTGACCAGCACGATGTCATCGACTAATTCACGAACGATTT -CGTAAGTTAAATTACCCGGGCGGGAGACATCACAACCATCCGCCAGGGTGCCGGTAGTTCGGTGCGTGGT -TATTTCTCCGGAGTGGAAAGAAGCCGCCATGCCGTGAACGTTTTCAGACTGTACGCCAATAACACGAATG -GTCGGGTTAATAGATTTAATTGCCACCGCAATACCAGCAATTAAACCGCCACCACCAATTGGCACAATCA -CGTTATCGACATCATAGAGATCTTCCATAATTTCCAGACCAATCGTTCCCTGGCCAGCAATCACTTTCGG -ATCATCGTAAGGTGGGATAAAAATACGGCCTTCCATTTCGACAATTTCGCTCACTTTAGCGATAGTGTCG -TTGAAGTTATCACCATGCAGAACGACTTCTGCGGAGTAGTCGCACGTTGCCGCTACTTTGGATTTTGGCG -CACCTTTTGGCATCACCACTTTACCGTCGATACCCAGCATCGCGCAGGAGAGGGAAACCCCTTGCGCATG -GTTGCCCGCAGAACAGGCCACCACGCCTTTGCGTTTTTCCGCATCGGTCAGTGAACTTAATTTATTAAAT -GCGCCACGAATTTTAAATGAACCCGTACGCTGCATATTTTCAAACTTCAGGAATATTTCACCTTTGCAAC -GTTCACTAAAATAGTTGGAGCGAGGCATGCCTGTTTTATAAATTCGCCCAGCCAGTCGTTGTTTCGCTTC -AATAATGTCATCAATAGCAACCGGCAGATCGTATGTAATATGCATTATAAAACCTCTTCGCCTGAATTAA -ATATGTAGGTAACCGTAACCGACACCTGCAAGACAGACAGGTGGATTATTTATGTTTAAATAAAAACAAA -TAACTAACCAACTTCTATTAATTGCCTTCGTCTACACCCATTATAAGATGAATACTCTTTGGCTAATTCC -ACCAAAACCGATGCTGCTTTTTTAATACGATAATTTTTCGACCATACCGCGGCATATTGTGCCACAGGTA -ATGTTTCTTCAACCGGAATAGTAATAAATTGATTAGAACCAAAAGGTGACGTCATATCACAAGGAATTAC -AGTTAAGAAATCAGCATTGAGAACAAGATTATAAATTGTCACGACTGAGTCGGTTTTAACGATGTTTTCA -ATACTGATGCCATTTCTTTGTAACGTAGTAAGCAGTTCGCTGTAGTACCCCATATTAGTTTGTGGCAACA -CCCACTGTTCGTTCTTCAACGACTCCAGCGTGGTGGTGCCGGTGCATGTTCGGGACTTACTGGCTACCAG -CACAAACTCGGACTCGAACAGCGGCTCAACATGTAAATCCTGAAGCTTCATTTCTGCACTTAACGTACCA -ATCGCAAAATCCAGTCGACCGTCGCGGATTGCCGGTAAGAACGAAGACAGTTGCGCTTCATACATAGAAA -CCTGCGCTTTCGGGAACACCTCTTTGAACTTGTTGATCATCCCTGACATAAAAGTAAAACCAATCAATGA -AGGAAAACCAAATGAGACTTCCACCACCGCCTCAGAAGACATACCGCTTATCTCATTAACCATATTTTTC -ATTTCACGGGTAATGGATTCGGAACGGGAGAGTAACAATTGACCGGCAGGTGTTAATGTTACACCGGTAT -TTTTCCGCACCACTAATTCCACACCAAAATAATCTTCAATATCGTTAATGATTTTACTGACGGCCGGTTG -AGTTAACCCTAATTCTTTTGCAGCCGAGCCGATAGAACCACTTCTAATGACTTCCTGAAAGACTACCAGG -TGCTGCGTTTTCGGAAGAAGAATAGTGCTCATAACGACCTACGTTAATTACCTCATTGACGGCATGAAGT -GTATCAAAATGAAATGAACAGGATATGTGCGACCACTCACAAATTAACTTTCAATACTTTCCAGAGTATC -GTTATTACAATTAAATACCTTTAAATATCAACAAGTTAAAGTATAAAAATCAGCATAAACCCTGATTTTT -GTCAAAAAAAATGACGGGGATAACCATATTTTATGGCGATAACATCATTCGTTATGTGGTTAATACAAAA -AAGGGGCTGAGACCATATTTCAAGCAATTACCGGATAATTACCAGGCAAAATTTGAGTTAAATTTAATGA -GCAAGTTCTCAAATTTTATTATAAATAAACCATTTTCAGTGATAAATAATGCGGCATGTCACATTTTTTC -ACGCTATTTGTTGGAGAACAAACATTTATTTTATCAATATTTTAAAATTTCGAATACATGTATTGATCAT -CTCGAACAATTGATTAACGTCAACTTTTTCTCTTCTGACAGGACGTCATTTTGTGAATGCAATCGTTTTC -CATAAATTCTTCTCCCCTCATAGGCGACGAATAGCATTTTGTGTTGAGGATCACAAAACGAATAATTGCT -GATCGCCGCGATAAGGTCAGACAAAGACAACAAGGGAAATTTTCACAGAGCTTTTGATCGGCGTAGGCCA -CAGAATGTTGCTTCGTTTACTGTAACGCCGGGTAAATGAGCGTTTTTTGATAGTGCGAAAGAACCCTGCG -AGGAAAATAAGCATCTATTATTGTTTGTCATGATGACAAGGCAGGCATCAATGAAAGGCTTCCCAATTGC -GCATATTTTTCACCCTTCAATCCCGCCAATGCACGCAGTGGTTAACAATCACAATAGAAATATTGATTAT -TGGACGGTAAAAAGAAAGTTTGCAGAAATTGTCTCCACCAATGACGTTAATAAAATTTACAGTATAAGTA -ATGAACTGCGGAGAGTATTATCTGCAATAACTGCATTGAATTTCTATCATGGCGATGTTCCTTCTGTCAT -GATCCGAATCCAACCGGAAAATATGAGTCCATTCATTATAGATATTTCTACAGGAGAACATGATGATTAT -ATCATACAAACATTAGATGTAGGCACTTTTGCACCTTTTGGTGAACAATGTACTTGCTCAGCCGTCAATA -AAAAAGAGCTGGAATGTATTAAGGAGACGATTTCTAAGTATTGTGCAAAATTCACCCGAAAAGAAGCCAT -CTTAACCCCCCTTGTGCACTTTAATAAAACCAGCATTACTTCAGATTGTTGGCAAATTCTCTTTTTTTCA -CCCGATCATTTTAATAATGATTTTTATTGATTATTTATAAAGGATAAAATAATGTTCCCTGTTTCATCAA -TTGGTAATGATATTAGTAGTGATTTAGTCCGTCGAAAAATGAATGACCTTCCTGAAAGCCCAACAGGAAA -TAACCTCGAAGCACTAGCACCAGGTATAGAAAAACTAAAACAGACCTCTATTGAAATGGTCACTTTACTT -AACACGTTACAACCTGGTGGAAAATGCATTATCACTGGTGATTTTCAAAAAGAATTAGCGTACTTACAAA -ATGTAATTCTTTATAATGTCTCGTCTCTTCGTCTGGATTTTTTAGGTTATAACGCCCAAATTATTCAACG -ATCGGACAATACTTGTGAACTTACCATTAATGAACCGTTAAAAAACCAGGAAATATCCACAGGTAATATC -AATATTAATTGCCCATTAAAAGATATTTACAATGAAATCAGGAGGTTAAACGTAATTTTTAGTTGTGGGA -CTGGAGATATCGTTGATCTATCCTCTCTGGACTTACGTAATGTCGATTTAGATTATTATGATTTCACAGA -TAAACATATGGCTAATACTATTTTAAATCCTTTTAAATTGAATTCAACAAATTTTACTAATGCCAACATG -TTTCAGGTTAATTTTGTTAGTTCAACACAAAACGCCACAATCTCCTGGGATTATTTACTAAAAATAACGC -CTGTTTTAATAAGCATTAGCGATATGTATTCTGAAGAAAAAATCAAGTTTGTCGAAAGTTGTTTAAATGA -GCCTGGAGACATTACCGAAGAACAATTAAAAATTATGAGATTTGCAATTATAAAATCTATACCAAGGGCA -ACTCTTACAGATAAATTAGAAAATGAATTAACAAAAGAAATATATAAAAGCTCATCGAAAATCATCAATT -GCTTGAACAGAATTAAATTAACAGAGATGAAAGAATTCTCATCAGAAAAAATATATGATTACATCGATAT -AATCATTGAAGATTATGAAAATACCAAAGAAAATGCTTATCTGGTCGTCCCCCAAATTAATTATACTATG -GATTTAAACATAGAAGACTCTAGCTCAGAAGAGTTACTTTCAGATAATACCCTCGAGAAAGACGAAAATT -CTCCGGACAATGGCTTTGAGGTCGGGGAATATAACACATATGAAGCATATAACTCAGAGAAGCAATATTT -TACCAGAGAGGACTATACGTATGATTACGACCTTTTAAATGCAATATAGACTTAATAACTTCTTACAAAG -TCTATTATTAATACCGTAGATATTTATTCATCTTACCCTGTGCACCAAAAGCAAAAACTCACTGACGCGG -GTTTGAAACTGATGGCAACCGCAAAAATGCCTGATGCGCTACGCTTATCAGGCCTACGCCATCTCTGCAA -TATATTGAATTTGCGTGCTTTTGTAGGCAGGATAAGGCGTTCACGCCGCATCCGGCATGAATAAAGCGCA -CTCAACAATCTGAAACCCGCCGGAACGGTTTATTACGTACATCAGGTAAAACTGACCGATAAGCCGCTTT -CTTTTGGGTATAGTGTCGTGGACAGTCATTCATCTTTCTGCCCCTCCAAAAGTAAAAACCCGCCGAAGCG -GGTTTTTACGTAAAACAGGTGAAACTGACCGATAAGCCGCTTTCTTTTGGGTATAGTGTCGTGGACAGTC -ATTCATCTTTCTGCCCCTCCAAAAGCAAAAACCCGCCGAAGCGGGTTTTTACGTAAACCAGGTGAAACTG -ACCGATAAGCCGCTTTCTTTTGGGTATAGCGTCGTGGACAGTCATTCATCTTTCTGCCCCTCCAAAAGCA -AAAACCCGCCGAAGCGGGTTTTTACGTAAATCAGGTGAAACTGACCGATAAGCCGGGTTCTGTCGTGGAC -AGTCATTCATCTAGGCCAGCAATCGCTCACTGGCTCAAGCAGCCTACCCGGGTTCAGTACGGGCCGTACC -TTATGAACCCCTATTTGGCCTTGCTCCGGGTGGAGTTTACCGTGCCACGGACTGTTACCAGCCGCGCGGT -GCGCTCTTACCGCACCCTTTCACCCTTACCTGATCCCGCTTGCGCGGGCCATCGGCGGTTTGCTCTCTGT -TGCACTGGTCGTGGGTTTCCCCCCCAGGCGTTACCTGGCACCCTGCCCTATGGAGCCCGGACTTTCCTCC -CCTCCGCCCGTCTCCCCCGAAGAGGACGACGACGAAGCGGCGACTGTCTGGTCAGCTTCGGCGCGCAGTA -TAGAGGGTTTGCGCGCCCTTGTCACCCCGCGTTGCGCATTCCAATCGCCAGTGTCGCGGCGATATTACGT -GAAGCACGGCAGATATTGTCATAAGCCCCGCGGAATGCTTCGTCCAACGTACCTATGCTGGTCAATACGC -TGAAGACCGCATCAATGCCATGCTGATGTACAACGCCAACATCATCGGTCAGGCTACCCGCAATGCCAAT -CACCGGTTTATGGTACTTCTTCGCCACGTTTGCGACACCAATCGGTACCTTCCCGTGAATACTCTGGCTG -TCAATACGCCCTTCACCGGTGATCACCAGCGTACAATCGTGAATATGTTCCTCCAGATTCAGCGCCGTAG -TGACGATTTCAATACCACTTTTCAGTTCCGCACCAAGAAACGCCATTAGCGCCGCGCCCATACCACCCGC -AGCTCCTGCACCGGGGACATCTTTCACATCAACATGCAGCGCTTTTTTAATGACCTCGGCATAGTGAGAG -AGGTTATTGTCCAGCTCAACAATCATCGCTTCACTGGCTCCCTTTTGTGGGCCAAAGATGCGCGATGCGC -CGTTATCGCCCACCAGCGGATTGGTGACATCACAAGCGACGCGAATGACGCAATCTTTTAAGCGCGGATC -GAGGCCGGAAATATCAATATCATTCAGAGTATTAAGACTACCGCCGCCAAAACCAATTTCATTGCCGTTG -GCGTCGCATAATTTCGCCCCCAGCGCCTGTACCATGCCTGCGCCGCCATCATTTGTAGCGCTGCCGCCAA -TGCCGATAATAATGTTTGTCGCACCGCTCTCCAGCGCCTGCAGGATTAACTCGCCTGTGCCGCGTGAAGT -GGTCACGAGTGGATCGCGTTTTTCCGCAGGTACCAGCTCCAGCCCACTGGCCGCCGCCATTTCAATAAAC -GCGGTTTTGCCATCGCCGGAGATCCCCCAACTGGCATTCACTTTCTCGCCCAGCGGCCCTGTAACCCAGG -CGTGACGTTCAGCCCCCTGGGTGGCTGCAATCATCGCTTCCACCGTTCCTTCGCCACCGTCGGCAACCGG -AACAGAAACGTACTGTGCATCAGGAAAAATTTCCCGAAATCCTTTTTCTATCGCCTGCGCAACCTCGCTG -GCAGATAAACTTTCTTTATAAGAGTCTGGGGCGATTACGATTTTCATACCTATGCCTGTTACCACATGAC -GCCGGAGGGCGTTTCTCTTATTCGGCCTGGATTCCAGGCCCGGATTGCAATACGCCATCCGGGCACGACG -TCATTAACGAGTAACTTCGACTTTCGCCAGTTTTTCGTAGTAGCACGCCAGGGCGCTATGATCCGCCGTT -CCTAAACCATCTGCTCGCAGTGCCTGCATCATCTCCATAACCGCAGCTGTGAGCGGCAGTTGTGCGCCGA -CGCCGTGAGAAGTATCCAGCGCATTCGCCAGATCCTTAATATGCAGATCAATACGGAAGCCCGGCTTGAA -GTTGCGGTCCATCACCATCGGCGCTTTGGCATCCAGCACGGTACTGCCCGCCAGTCCACCGCGAATTGCC -TGATAAACCAGGTCCGGGTTAACGCCCGCTTTAGTTGCCAGCGTTAACGCTTCTGACATCGCGGCAATAT -TCAGCGCCACAATGACCTGATTTGCCAGTTTGGTGACGTTACCTGCACCGATTTCCCCGGTATGCACCAC -GGAACCCGCCATCGCTTTCATCAAATCATAGTATTTGTCGAAAATAGCCTTGTCGCCGCCCACCATCACT -GACAGCGTACCGTCGATGGCTTTCGGTTCACCGCCGCTCACCGGAGCATCCAGCATATCAATGCCTTTCG -CTTTCAGCGCTTCGCTGATTTCACGGCTTGCCAGCGGTGCGATAGAACTCATATCGATCAATACCGTACC -TGGCTTCGCGCCTTCAATAATGCCATTCTCACCCAGCGCCACCTCTTTCACATGAGGGGAGTTTGGCAGC -ATGGTTATGATGACGTCGCACTGTTCAGCGATCGCTTTAGCCGTAGACGCTGTTTCTGCACCTGCAGCAA -TCACGTCAGCAATAGCTTCTGGGTTACGGTCAGCAACCACCAGCGAGTAACCTGCTTTCAGAAGGTTTTT -ACTCATTGGTTTACCCATAATCCCCAGGCCAATAAAACCAACTTTCATAGTCATATCAATCATCTCTCTT -GTTGCGGTGGTGGTTATTTTTTAAAGGTATCAGCCAGTTTCTGAGTGGCAGAGCGGAAGACGCCGAGATC -GCTGCCGACAGCCACAAACGTCGCGCCCCATTCCAGATAACGACGCGCATCGGCTTCGACCGGCGCGAGG -ATACCGCTGGGTTTGCCGTGCGCGCTGGCACGGTTAAAAATGTGCTGAATTGCTTTTTGTACATCCGGGT -GTGATGCATTGCCGAGATGGCCTAATGCCGCGGCCAGATCGCTGGGGCCGACGAAGATGCCGTCTACGCC -TTCGGTAGCGGCAATGGCATCGACGTTATCTACGCCCTGCTGACTTTCTATCTGGACCAGAATAGTGATG -TTCTTGTTCGACTGAGCGAAATAATCCGCCACGGTGCCAAACATATTGGCGCGGTGAGAAACGGAGACGC -CGCGAATGCCTTCCGGTGGGTAACGGGTTGATGCCACCGCCAGCTCTGCTTCCTCTTTTGTTTCTACAAA -AGGAATCAGGAAGTTATAGAAACCGATATCCAGAAGACGCTTAATAATTACCGGCTCGTTGGTCGGCACT -CGCACTACTGGCGCGCTGGCGCTGCCTTTCAAGGCCATTAACTGCGGAATAAACGTGGAGATATCGTTTG -GCGCATGTTCGCCATCCAGCACCAGCCAGTCAAACCCAGCCAAACCAAGAACTTCAGTGCTAATCGGGTT -AGAGAGTGCTGACCAGCAACCAATTTGTACCTGTTTCGCAGCCAGTGCGGCTTTGAATTTATTCGGGAAA -ACATCGTTATTCATCGCTTATACCTTTGCTTATTTCTGCAATTCCATACGTTTAATGTCGCCAACTACGA -AGAGGTAGCAGACCATCGCCATCAGCGCTGAACATCCCACGAAAACCAGTGCTGCATTGAAGGAGTGCAG -TTCACTTACCAGGTAGCCAATCACCAGTGGAGTGACAATGGAGGCAACATTGCCAAAGACGTTAAAGACG -CCGCCGCAGAGGCCAACAATCTCTTTCGGCGCGGTGTCAGAAATCACCGGCCAGCCCAGCGCACCAAATC -CTTTGCCAAAGAAAGCCAGCGCCATCAGCATGACCACCAGCGTGGTGTTGTTGGTGTAGTTACATAAGAT -GATGGTGGAAGCCAGCAACATTCCCAGCACAATCGGTAGCTTACGTGCCAGGGTCAGGGATAAACCGCGT -TTGATCAGATAATCCGAGAAGACACCTCCCAGCACGCCGCCCGCAAAACCACACAGTGCTGGAATCGAGG -CGACCAGACCCACTTTCAGAATCGACATGCCTTTTTCCTGCACCAGATAAATCGGGAACCAGGTGAGGAA -GAACCAGGTGATGGTGTTGATAAAATATTGTCCGAAAAATACGCCCAGCATCATGCGGTTAGAGAGCAAT -TGCTTGATGTAATGCAGTTTGGGTCCGCTTGCTGCCGCACTGCCCGGCTTTTTGTGGTCCATATCGACCA -CCGCGCCATTTTCAGAGATAAACTTCAGCTCTTCCGCAGACATACGTGGGTGATCTGTCGGGTTATGAAT -CAACTTGATCCACAGCGCCGTCAGCACAAAACCAATCACCCCCATAACGGTAAAGACGTGCTCCCAGCCC -CAGGCGAAAGTCAGCCAGCCAAGCAGCGGCGAAAAGAGCGCCAGCGAGAAATATTGCGCCGAGTTAAAGA -TGGCGGAGGCAGTACCACGTTCTTTCGTCGGGAACCAGGCGGCGACAATTCGGGCGTTCGCCGGGAATGA -TGGCGCTTCCGAGAAGCCGAGCATAAAGCGCATAAAGAACATGGAGATCCCTGCCCAGGCCAGCGGGAAC -ATATCAACAAAGCCTTGCAGGAAGGTGAATAGCGACCAGAAAAAGAGGCTGTAGGTGTAAACTTTTTTCG -AGCCAAACTTATCAAGCAGCCAGCCGCCGGGGATTTGCATCAGCAAGTAGGCCCAGCCAAAAGCGGAGAA -GATGTAACCCATCGAAACCGCACTTAACTGCAACTCTTTTGCCACTTCGGTACCAGCAATAGACAGCGTT -GCACGATCGGCGTAGTTAACGGCGGTAACAATAAAAATAATCAGTAATATTAAATAGCGGGTATGCACGC -CTTTCTTTTTTTCGTCAACGGTGTCCAGAATCATTTTATTTACCTCGGGTACTTATGCTGATTTTTATTA -TTATGGGGAAGGTGTTATTTATGAGTTTCATTTATGCCGTAACGACAATGAACTCGGGAATTAGTATAAG -CAGCGCGAGAATAATAATCATTGTGCAAATGCTAATTTAATTAATACTATTTAAATATTATTTTGAGCAT -ATGCACATAAGGTTGCGCGCTAAAGCACAGATTTGCGCTTTACCTTACCGGGCGGCACTGCAATCCCTGA -AATGATTGACATTGATCACATTTCTGCGTTTAAACTCCTGACATTCTTATTTCACCCAATGAAGTCATTT -ATTTTTAAATGAGACCAGGTCCTCATTTTAATAACCCCTGGCTGGAGAATATTGCACAATGGCCAACATC -GAAATCAGACAAGAAACGCCAACTGCGTTTTATATAAAAGTTCACGACACAGATAATGTGGCAATTATTG -TTAATGATAATGGCCTGAAAGCAGGAACGCGTTTTCCGGATGGGCTGGAATTAATTGAACATATTCCCCA -GGGGCATAAAGTCGCATTGCTGGACATTCCGGCTAATGGTGAAATTATTCGTTATGGCGAAGTGATTGGT -TACGCCGTGCGTGCAATCCCACGCGGAAGCTGGATCGACGAATCAATGGTTGTACTACCGGAAGCGCCGC -CGTTACACACGCTGCCACTGGCAACCAAAGTCCCGGAACCCTTACCGCCGCTGGAAGGATACACCTTTGA -GGGCTATCGCAATGCCGATGGCAGCGTGGGCACCAAAAACCTGCTCGGTATCACCACCAGCGTCCACTGT -GTGGCAGGCGTGGTGGACTATGTAGTAAAAATCATTGAACGCGATCTGCTACCGAAATACCCGAACGTCG -ATGGCGTGGTGGGGCTGAATCATTTGTACGGTTGTGGCGTGGCGATTAACGCACCGGCGGCAGTTGTACC -TATCCGTACCATTCACAATATTTCGCTGAATCCTAACTTTGGCGGCGAAGTAATGGTGATTGGCCTGGGT -TGTGAAAAGTTGCAGCCTGAGCGCCTGCTGACTGGAACGGATGATGTGCAAGCTATTCCAGTAGAAAGCG -CCAGCATTGTCAGTTTGCAGGATGAAAAGCATGTCGGTTTTCAGTCCATGGTCGAGGATATTTTGCAGAT -CGCCGAACGCCATCTACAAAAACTGAATCAACGGCAGCGAGAAACCTGCCCGGCTTCAGAACTGGTCGTT -GGTATGCAGTGCGGTGGCAGCGATGCGTTTTCTGGTGTAACGGCAAACCCGGCGGTTGGCTATGCGTCTG -ATCTACTGGTGCGCTGCGGCGCAACGGTGATGTTTTCAGAAGTAACGGAAGTGCGTGACGCGATCCATCT -GCTGACACCACGCGCAGTGAACGAAGAGGTCGGCAAACGGCTGCTGGAGGAGATGGAGTGGTACGATAAC -TATCTCAATATGGGAAAAACCGACCGCAGCGCCAACCCTTCGCCGGGCAACAAGAAAGGCGGTCTGGCAA -ACGTGGTAGAGAAGGCACTCGGCTCCATTGCTAAATCGGGTAAAAGCGCAATTGTTGAAGTGCTGTCGCC -CGGTCAACGCCCGACTAAACGCGGATTAATTTACGCCGCGACGCCAGCCAGCGATTTTGTCTGTGGCACG -CAACAGGTGGCTTCGGGTATCACAGTGCAAGTGTTTACGACCGGTCGTGGTACGCCGTACGGCCTGATGG -CGGTACCCGTCATTAAAATGGCAACCCGCACCGAGCTGGCGAACCGCTGGTTTGATTTAATGGATATTAA -TGCGGGCACCATCGCTACCGGCGAAGAAACTATTGAAGAGGTGGGCTGGAAGTTGTTCCACTTTATTCTC -GACGTCGCCAGCGGGAAGAAGAAAACCTTCTCGGATCAATGGGGGCTGCATAACCAGCTGGCGGTGTTTA -ACCCGGCACCGGTGACCTGATTTCTTTTGGAACGTCCCTCGCAAAACATGGCCTTAGTGCCATGTTTTTA -TTGTTTAAAGCCCCCACGTCCATTAATAATGCATTTGCATTACCTTAGTTCAAGCTTATAATTTGAGCAG -AAAACAGGCTGTAAAAGGACAGTGAATCATGCCCGCTAATGCTCGCTCTCACGCTGTACTGACCACTGAA -TCAAAGGTCACGATACGCGGACAAACAACTATCCCCGCGCCAGTGCGTGAGGCCTTAAAACTGAAGCCAG -GCCAGGACAGCATTCATTACGAAATTCTGCCTGGTGGGCAAGTATTTATGTGCCGACTGGGAGATGAACA -GGAGGATCATACTATGAATGCATTTTTGCGTTTTCTGGATGCAGATATCCAGAACAACCCGCAAAAAACT -CGTCCATTCAACATTCAACAAGGAAAGAAACTTGTCGCTGGCATGGACGTCAACATTGATGATGAGATTG -GCGACGACGAATAATGGATTTTCCACAAAGGGTTAATGGTTGGGCGCTATATGCTCATCCCTGTTTTCAG -GAAACCTACGACGCTTTAGTTGCCGAAGTCGAGACATTAAAGGGAAAAGATCCTGAAAATTATCAGAGAA -AAGCCGCCACAAAGTTATTGGCGGTAGTCCATAAAGTGATTGAGGAGCATATCACGGTCAATCCATCATC -ACCGGCATTCCGTCATGGCAAGTCGTTAGGCTCTGGGAAAAATAAAGACTGGTCACGGGTAAAATTTGGT -GCTGGTCGTTATCGTCTCTTCTTTCGTTATAGTGAAAAAGAGAAAGTCATCATTCTGGGATGGATGAACG -ATGAAAACACTCTGCGCACCTACGGTAAAAAAACAGATGCCTATACCGTATTCAGCAAAATGTTAAAAAG -AGGACATCCTCCTGCCGACTGGGAAACCCTCACCCGAGAAACAGAAGAAACCCATTGATGGTGTTCACAA -TGCCCGCCGAACGCATTCGTGTTGACCAGCGGGCATCCTTTCTCACTCCCCGACCAGAATCACTTCAACC -CCAGCCTTTCGCAGTCCTTCCAGGCTATCCGCAGGAATGCCTTCATCAACAATGATCATGTCGATACGTT -GAGTATCAATGATCTTATGTAAACTGGAACGATTGAACTTACTGGAATCGGTGACCACGATGATCCGTTC -CGCAACTTCGCACATCCGACGGTTTAAACGAGCTTCATCTTCATTATGTGTGCTGACGCCGCGCTCCAGA -TCGATCGCATCTACACCAAGAAACAGCATATCGAAGTGGTAATTTTGCAGCGATTGCTCAGCCTGATCGC -CGTAAAAAGATTGCGACTGACGGCGCAAATGCCCGCCGGTCATCAGCAGCTCAACGCCTTCCGCTTCCAG -CAACGCATTAGCCACGTTCATACCGTTGGTCATCGCAATTACGTCAGTGTGCTTGCGCATCAGACGAGCA -ATCTCAAAAGTGGTGGTCCCGGAATCGAGGATAACCCGATGACCTGGCTGAATCAACTCAACGGCAGCTT -TCGCAACGCTGCGTTTCATCGCGGTGTTCAGTGCGCTTTTATCTTCCACTGATGGCTCGACTGACGGCGT -CGTGCTATCGCAGATCAACGCGCCACCATAGGCACGCACAGCGATCCCCTGCTTTTCCAGAAACGCCAGA -TCGTTGCGGATCGTCACAGTAGATACGCCATACAATGCCGACAGATCGTTAACCTGCACACTCCCTTGCT -GTCGCAGACGCTGAATGATCTGTTCTCGTCGCTCGCTGGTGCCAGTCACTCGCTTCTCACCTGAAGCGTC -GGTATTACTCATAGTAAGTCCTTTCGTAAAACTTTCGTTTCATTTCGTTTTGCCTATTAACGCCTTTCTA -TTAAGCAAATGCAAGCCCACCTTGCCCATTGACGCAAGCTACTCTCGTTTCAGTGACTTTCATTATGTTT -CTTTTGTGAATCAGATCAGAAAACCATTATCTTTCGTTTTATTTTTATCTCACCATGACGCAGTATCAAC -TGAAACAAAACGAAAGATTAATATCGCAGTAATCTGAACTGGAGAGGAAAGTGAAACATCTGACAGAAAT -GGTGAGACAGCACAAAGCGGGCAAAACAAATGGAATTTATGCCGTTTGTTCCGCACATCCGCTGGTGCTG -GAAGCTGCAATCCGCTACGCCAGTGCAAACCAAACGCCGTTACTGATTGAAGCAACCTCCAATCAGGTAG -ACCAGTTCGGCGGTTATACCGGAATGACGCCCGCCGATTTTCGCGGCTTTGTTTGTCAGCTCGCCGACTC -GTTGAATTTCCCGCAGGATGCGTTGATTCTGGGTGGTGACCATCTGGGGCCAAACCGCTGGCAAAACCTG -CCGGCCGCTCAGGCAATGGCCAATGCCGATGATTTGATTAAAAGCTACGTTGCGGCAGGATTCAAAAAAA -TCCACCTTGATTGCAGCATGTCCTGTCAGGACGATCCGATTCCCTTAACTGATGACATCGTGGCTGAACG -CGCCGCCCGTCTGGCGAAAGTGGCGGAAGAAACCTGTCTTGAACACTTTGGCGAAGCCGATCTGGAGTAT -GTCATTGGTACCGAAGTGCCGGTACCTGGCGGCGCGCATGAAACCTTAAGCGAGCTGGCGGTCACCACGC -CGGATGCCGCCCGCGCCACGCTGGAAGCCCATCGTCACGCCTTTGAAAAGCAAGGTTTGAATGCCATCTG -GCCACGCATCATTGCCCTGGTGGTTCAACCCGGCGTCGAATTCGATCACACCAACGTTATTGATTATCAG -CCCGCCAAAGCGAGCGCCTTAAGCCAGATGGTCGAAAACTACGAAACGCTGATTTTCGAAGCGCACTCTA -CCGATTATCAAACGCCGCAATCGCTGCGCCAGCTGGTGATTGACCACTTTGCCATTCTGAAAGTTGGCCC -AGCGCTGACCTTCGCCCTGCGTGAAGCTCTGTTCTCTCTGGCGGCGATTGAAGAAGAACTGGTGCCAGCG -AAAGCCTGTTCTGGTCTGCGTCAGGTGCTGGAAGACGTGATGCTCGACCGCCCGGAATACTGGCAAAGCC -ACTACCACGGTGACGGCAACGCGCGTCGTCTGGCGCGTGGTTATAGCTACTCGGATCGCGTGCGCTATTA -CTGGCCGGACAGCCAGATTGATGACGCTTTCGCTCATCTGGTACGTAATCTGGCGGATTCACCAATTCCG -CTGCCGCTGATCAGCCAGTATCTGCCGCTGCAGTACGTGAAAGTTCGCTCCGGCGAGCTGCAGCCAACGC -CACGGGAACTCATTATCAACCATATTCAGGACATCCTGGCGCAGTACCACACAGCCTGTGAAGGCCAATA -AGCAAAACAAAGAGGAACACGCTATGCCAAATATTGTTTTAAGCCGGATTGATGAACGCTTGATTCACGG -TCAGGTCGGCGTTCAATGGGTCGGATTTGCGGGGGCAAATCTGGTGCTGGTAGCCAACGATGAGGTTGCC -GAAGATCCGGTACAACAAAACCTGATGGAAATGGTACTGGCAGAAGGGATCGCCGTACGTTTCTGGACGC -TGCAAAAAGTTATCGACAACATTCATCGCGCCGCCGATCGACAGAAAATCCTGCTGGTTTGTAAAACACC -CGCCGATTTCCTGACGCTGGTGAAAGGTGGCGTTCCGGTGAATCGCATTAACGTTGGCAATATGCACTAC -GCCAATGGCAAACAACAAATCGCCAAAACGGTTTCTGTGGATGCGGGCGATATCGCAGCATTTAACGACC -TGAAAACCGCTGGGGTGGAATGCTTCGTTCAGGGCGTCCCGACAGAGCCTGCTGTGGACCTCTTTAAATT -ACTTTGAGGGATTCATCATGGAAATCAGCCTGTTGCAGGCATTTGCGTTGGGCATTATCGCCTTTATCGC -TGGCCTGGATATGTTTAACGGCCTAACCCATATGCACCGCCCGGTGGTCCTCGGCCCGTTGGTCGGGCTG -GTACTTGGCGATCTGCATACCGGAATTTTAACCGGCGGTACGCTGGAACTGGTGTGGATGGGGCTGGCCC -CGCTGGCGGGCGCACAGCCGCCTAACGTGATTATCGGTACTATCGTCGGCACGGCGTTTGCCATTACTAC -TGGCGTGAAACCCGATGTCGCAGTAGGTGTCGCCGTACCTTTCGCTGTCGCAGTACAGATGGGGATTACC -TTCCTGTTCTCGGTGATGTCCGGCGTGATGTCTCGCTGCGACCTGGCAACAAACCCGCGCCGCATTTGAT -GCTGGTGCCGACGGCCTGGTGCATTGCTATAACGGGATGACAGGTTTACATCACCGCGAACCGGGAATGG -TTGGCGCGGGATTAACGGACAAGCGCGCCTGGCTGGAACTGATAGCCGATGGTCATCATGTGCATCCGGC -GGCAATGTCGCTGTGTTGTTGCTGTGCGAAAGAGAGAATCGTACTGATCACCGACGCGATGCAGGCAGCT -GGGATGCCGGATGGTCGCTATACGTTATGTGGTGAAGAAGTGCAGATGCACGGTGGCGTTGTCCGTACCG -CGTCTGGTGGGCTGGCGGGCAGTACGCTGTCTGTTGATGCGGCAGTGCGCAATATGGTCGAGTTGACGGG -CGTAACGCCTGCGGAAGCCATCCATATGGCGTCGCTGCATCCGGCGCGAATGCTGGGTGTTGATGGTGTT -CTGGGATCGCTTAAACCGGGCAAACGCGCCAGCGTCGTTGCGCTGGATAGCGGGCTACATGTGCAACAAA -TCTGGATTCAGGGTCAATTAGCTTCGTTTTGATAGTTTGCTCCTTTATTGGGCCTTCACTTCCCCCGTAA -GGCCTTTCTTTTTCTTTCGTTTTGATCTGTGCAGCGGTGTCGGATGCGACGCTAACGCGTCTTATCCGAC -CTACAGTTGGTGACCGCAAGGCCGGATAAAGCGTTTGCGCCGCATCCAGCAATCCCTTTTGCTTCCTTTA -TCTTTTCTTTCAACGATCACAAATTTCGTTTTATTTCTTTTTTCTCCATTGAACTTTCAGTTTCTTTTCT -ATAGATTTTAATCAACGAAAGACATCACCAAGTGAAATGAAACGAAAGGCAAGTGAAAGCGACAACGCCC -GACGTCAAGTTCATCAGACTAAGGATTGAGTTATGCCAGAAAATTACACCCCTGCTGCCGCCGCAACCGG -TACATGGACTGAAGAAGAGATCCGCCATCAGCCTCGCGCATGGATCCGTTCACTCACCAACATCGACGCG -CTACGTTCCGCGCTCAATAACTTCCTTGAACCGTTACTGCGCAAAGAGAATCTGCGGATCATCCTGACCG -GAGCCGGAACGTCGGCATTTATCGGTGACATCATCGCGCCGTGGCTCGCCAGCCATACCGGTAAAAACTT -CAGCGCCGTACCGACCACCGATCTGGTCACCAATCCGATGGACTACCTGAACCCAGCTCATCCGCTGCTG -TTGATCTCCTTCGGTCGATCCGGCAACAGCCCGGAAAGCGTCGCAGCCGTGGAACTGGCAAATCAATTTG -TACCGGAATGCTATCACCTGCCGATCACCTGCAACGAAGCGGGCGCTCTTTACCAAAACGCGATCAACAG -CGATAACGCGTTTGCCCTGCTGATGCCCGCAGAAACGCACGATCGCGGCTTTGCGATGACCAGCAGCATT -ACCACCATGATGGCCAGCTGCCTCGCGGTTTTCGCACCTGAGACGATCAACAGCCAAACCTTCCGCGACG -TGGCGGATCGTTGCCAGGCGATCCTGACCTCACTGGGCGATTTCAGCGAAGGTGTGTTTGGTTACGCACC -GTGGAAACGGATCGTTTATCTCGGTAGCGGTGGCTTACAGGGCGCAGCACGCGAGTCGGCGCTGAAAGTG -CTGGAACTGACGGCGGGTAAACTGGCGGCCTTTTATGATTCTCCAACCGGATTCCGTCATGGACCAAAAT -CGCTGGTCGATGACGAAACGCTGGTGGTGGTATTTGTCTCCAGCCACCCTTACACCCGTCAGTATGATCT -TGATCTGCTGGCTGAACTTCGCCGTGACAACCAGGCAATGCGTGTAATCGCCATCGCCGCGGAAAGCAGC -GACATCGTCGCTGCCGGTCCACATATCATCCTGCCACCGTCACGTCACTTTATCGACGTTGAGCAGGCAT -TTTGCTTCCTGATGTACGCCCAGACGTTTGCACTGATGCAGTCGCTGCACATGGGCAATACGCCGGATAC -CCCATCAGCCAGTGGCACCGTTAACCGCGTGGTGCAAGGCGTAATCATTCATCCGTGGCAGGCATAAGAG -GATCGCATTATGAGCATTATCTCCACTAAATATCTGTTACAGGACGCCCAGGCCAATGGCTACGCGGTGC -CTGCTTTTAACATTCATAACGCCGAGACGATCCAAGCGATCCTCGAAGTGTGCAGTGAAATGCGATCGCC -GGTGATCCTCGCCGGAACGCCGGGGACCTTTAAACACATCGCGCTGGAAGAGATCTACGCCCTGTGTAGC -GCCTATTCCACAACCTACAACATGCCACTGGCGCTGCATCTCGACCACCACGAATCGCTGGATGATATTC -GCCGTAAAGTCCACGCAGGTGTGCGCAGTGCGATGATCGACGGCAGCCACTTCCCGTTTGCCGAGAACGT -GAAGCTGGTGAAATCGGTTGTTGACTTCTGCCACTCACAAGATTGCAGCGTGGAAGCAGAACTGGGCCGC -CTGGGCGGTGTTGAAGATGACATGAGCGTTGACGCCGAAAGTGCATTCCTGACCGATCCACAAGAAGCTA -AACGCTTTGTCGAACTGACTGGCGTCGACAGCCTGGCGGTAGCGATTGGTACGGCGCACGGCTTATACAG -CAAAACGCCGAAGATTGATTTCCAGCGGCTGGCGGAAATTCGTGAAGTGGTGGATGTTCCTCTGGTGCTG -CATGGTGCCAGCGATGTTCCGGATGAATTTGTCCGTCGCACTATTGAACTTGGCGTCACAAAAGTGAACG -TTGCCACAGAATTAAAAATAGCCTTCGCTGGCGCGGTTAAAGCCTGGTTTGCGGAAAATCCGCAGGGTAA -TGATCCTCGTTATTATATGCGCGTCGGAATGGATGCGATGAAAGAAGTTGTCAGAAATAAAATTAATGTC -TGTGGTTCAGCGAATCGAATTTCAGCATAATCATTAGTTTTTTATGATTTATCCCAATGTACTTCCCGAT -TAATATCGGGGAGTGCCTTAATGGAAAAGGAGATAACTAAACCTTAATAAATACATCACTACAATATCGC -AACAATAATATATTTAAAAAAATTATATTATTCAACTTTATGGTGAGGATTACACAATGACCAGTCCAAA -TATTCTCTTAACCCGTATTGATAACCGTCTGGTTCACGGTCAGGTTGGCGTGACCTGGACATCCACCATC -GGTGCAAATCTGCTGGTAGTCGTGGATGATGTTGTCGCTAACGATGATATTCAACAGAAATTAATGGGTA -TTACCGCGGAAACCTACGGCTTTGGCATTCGTTTCTTTACTATCGAAAAAACCATTAACGTCATCGGCAA -AGCTGCACCACATCAGAAGATCTTCCTGATTTGCCGTACGCCACAAACGGTACGTAAATTGGTAGAAGGT -GGTATTGACCTGAAAGATGTCAACGTCGGCAATATGCATTTCTCGGAAGGGAAAAAGCAAATCAGCAGTA -AAGTTTATGTCGATGACCAGGATCTCACGGACTTACGTTTTATTAAACAACGTGGCGTGAATGTTTTCAT -TCAGGACGTCCCTGGCGATCAAAAAGAACAAATCCCTGACTAAATCTAAAATCGCCTTAATATTGGTTTG -AGGTAATAAAAATGCATGAAATAACCCTACTTCAGGGATTATCCCTGGCGGCGTTAGTTTTTGTTCTGGG -GATTGATTTTTGGCTGGAAGCCTTATTTTTATTCCGCCCGATAATCGTTTGTACCCTAACTGGCGCTATT -CTCGGTGATATTCAGACTGGCTTAATTACCGGTGGTCTGACAGAGTTGGCTTTCGCCGGATTAACCCCTG -CAGGTGGTGTTCAGCCGCCCAACCCGATTATGGCGGGTCTGATGACCACCGTCATTGCATGGTCTACGGG -CGTTGATGCCAAAACAGCAATTGGTCTTGGCCTGCCGTTTAGTTTGTTAATGCAGTACGTCATTCTGTTC -TTCTATTCCGCTTTCTCATTATTTATGACCAAAGCCGATAAATGCGCGAAAGAGGCGGATACGGCAGCGT -TTTCCCGGCTTAACTGGACAACGATGCTCATCGTCGCTTCAGCGTATGCGGTGATTGCTTTCCTCTGTAC -TTACCTGGCACAGGGGGCGATGCAGGCGCTGGTGAAAGCGATGCCCGCCTGGCTGACCCACGGCTTTGAA -GTGGCTGGCGGTATTCTGCCTGCCGTTGGTTTTGGCTTGCTGCTGCGCGTAATGTTCAAAGCGCAATATA -TCCCTTACCTGATCGCCGGTTTCCTGTTTGTTTGCTACATCCAGGTCAGCAACCTGTTGCCGGTTGCCGT -ACTGGGCGCAGGCTTTGCGGTGTATGAGTTTTTCAATGCGAAATCCCGGCAGCAAGCGCAACCGCAGCCC -GTTGCCAGTAAAAATGAAGAAGAGGACTACAGCAATGGGATCTGAAATCAGTAAAAAAGATATCACCCGT -CTGGGCTTTCGTTCGTCGCTGCTGCAAGCGAGCTTTAACTACGAAAGGATGCAGGCGGGCGGTTTTACCT -GGGCGATGTTGCCGATCCTGAAAAAGATTTATAAGGACGACAAACCGGGCTTAAGCGCGGCGATGAAAGA -TAACCTCGAATTTATTAATACCCACCCGAATCTGGTCGGATTCCTGATGGGGTTATTAATTTCGATGGAA -GAAAAAGGAGAAAACCGCGACACCATTAAAGGCCTCAAAGTGGCACTGTTTGGCCCAATCGCCGGGATTG -GCGATGCGATTTTCTGGTTTACTTTGTTGCCGATTATGGCGGGAATTTGCTCATCATTTGCCAGCCAGGG -AAACCTGCTGGGGCCGATTCTATTTTTCGCCGTTTACCTGCTTATCTTTTTCCTGCGCGTCGGCTGGACC -CACGTCGGTTATTCAGTCGGCGTGAAGGCGATCGATAAAGTGCGAGAGAACTCGCAGATGATTGCCCGTT -CGGCAACCATCCTCGGGATCACGGTAATCGGCGGGCTGATCGCTTCGTATGTGCATATTAACGTGGTGAC -ATCGTTTGCCATCGACAATACCCACAGCGTTGCGCTGCAGCAGGATTTCTTCGATAAAGTCTTCCCGAAC -ATTTTACCGATGGCCTACACCCTGCTGATGTATTACTTCCTGCGGGTGAAAAAAGCGCATCCGGTGCTGT -TAATCGGCGTGACTTTTGTGCTCTCTATTGTTTGTTCCGCATTCGGCATTTTGTAAATGGAACGAGGCAC -TGCGTCTGGTGGTGCCTCTTTACTTAAGGAATTTCATCCTGTGCAAACCCTTCAGCAAGTTGAAAACTAT -ACGGCGTTAAGTGAACGTGCCAGCGAATATTTATTGGCCGTGATCCGTAGCAAACCGAATGCCGTGATTT -GCCTGGCGACCGGAGCCACGCCATTACTGACGTATCATTATCTGGTAGAAAAAATCCACCAGCAGCAGGT -TGATGTCAGCCAGCTCACCTTCGTGAAGCTCGACGAATGGGTGGATCTGCCATTAACGATGCCAGGCACC -TGCGAAACTTTCCTGCAACAGCATATCGTGCAGCCGCTGGGGCTACGTGAAGACCAGCTCATCAGCTTTC -GCTCCGAAGAGATAAATGAGACAGAGTGCGAACGGGTAACGAACCTGATTGCGCGCAAAGGCGGTCTGGA -TTTATGCGTTCTCGGATTGGGGAAAAACGGTCATCTTGGGCTGAACGAACCGGGAGAAAGCCTGCAACCG -GCCTGCCATATCAGTCAACTTGATGCCAGAACACAGCAACATGAGATGTTAAAAACCGCGGGTCGCCCCG -TGACTCGTGGGATCACCTTAGGCCTGAAGGATATTCTCAATGCCCGCGAAGTTTTGTTACTGGTGACTGG -CGAAGGAAAGCAGGATGCGACAGATCGTTTTCTCACGGCTAAAGTCTCTACCGCTATCCCGGCTTCATTT -TTATGGCTGCACAGTAACTTTATTTGTTTAATTAACACCTAACCAGATGAAAAATTTGCTCAAAATGTTT -AAATTAACTTATGTAACAGTCACGCATTATATTAAATAACATTTGACTGGGTTGAACATAACGCCGATAG -CAAAAGGAGTTATGTTCAACAATTTAATTTTAGATATACATATAACTTGTTCTATTAATAAATCACCTCG -TATTCTGACTCGCCCCCTGGCGCAGCAAAGTCAGGCATTTATACTCTTTTGAATACATAGAAAATTGATA -TCAATATAATGAAAATATCAAATATTTGCATATAAATATAATCTTAAAGTTCAGTCTATTTAATGTTCAA -TGAAATATTTCTGCCTGTATAATCTTTAAAGATGTTGAACATATATTCACATTAAATATGATTATGTACT -TGTTACAAGGATAAGGTTATATATGAATAAAGTTACAAAAACAGCTATTGCGGGCTTACTTGCGCTTTTC -GCAGGTAATGCCGCTGCAACCGATGGTGAAATAGTTTTTGATGGCGAGATTTTAAAATCCGCTTGTGAAA -TCAATGACTCTGATAAGAAAATTGAAGTTGCTCTTGGTCACTATAATGCCGAACAGTTTCGTAATATTGG -CGAGCGTAGCCCAAAAATTCCATTCACTATTCCTTTAGTTAACTGCCCAATGACTGGGTGGGAGCACGAT -AACGGCAACGTTGAAGCGTCTTTCCGTCTATGGCTGGAAACGCGAGATAATGGCACCGTCCCTAACTTCC -CTAATCTGGCAAAAGTAGGCTCTTTTGCTGGCATAGCGGCAACAGGTGTGGGTATCCGTATTGACGATGC -GGAAAGCGGAAACATTATGCCACTGAATGCTATGGGCAATGATAACACGGTTTATCAGATCCCGGCGGAA -TCCAATGGTATTGTCAATGTTGACCTCATCGCTTACTACGTATCAACCGTAGTTCCATCAGAAATCACCC -CAGGGGAAGCAGACGCTATCGTTAACGTAACGCTGGATTACCGTTAATACGTTAGGGCGTTATCTGACCT -GTCAGATAACGCCCTTTTCCTTCCTCTTTCTCGTTGTATCAGGTTGAAAAATAACTATGTCAAAACGAAC -ATTCGCGGTGATATTAACCTTGTTGTGTAGCTTCTGTATTGGCCAGGCGCTTGCAGGAGGAATCGTTTTA -CAGCGAACGCGAGTGATCTATGATGCCAGCCGCAAAGAGGCTGCGTTACCTGTCGCAAACAAAGGCGCAG -AAACGCCTTATTTACTGCAATCATGGGTAGATAATATAGATGGTAAAAGCCGTGCCCCATTTATTATAAC -CCCACCGCTATTTCGTCTTGAGGCTGGCGATGACTCATCACTGCGAATTATTAAAACAGCTGATAACCTG -CCTGAAAATAAAGAGTCGCTGTTCTACATTAATGTTCGTGCCATTCCAGCAAAGAAAAAATCAGATGATG -TTAATGCTAACGAGTTGACGCTGGTATTTAAAACACGGATCAAAATGTTTTATCGCCCCGCACACCTGAA -GGGACGGGTAAACGATGCGTGGAAATCACTGGAATTTAAACGTAGTGACCATTCACTCAATATATATAAC -CCAACTGAATATTACGTCGTATTTGCCGGACTGGCAGTCGATAAAACCGATCTCACAAGCAAAATTGAAT -ATATCGCGCCCGGAGAACATAAACAGTTACCACTTCCTGCATCTGGCGGAAAGAACGTGAAATGGGCTGC -GATCAATGATTATGGCGGCAGTTCCGGGACAGAAACTCGTCCACTGCAATAAAAAATATAAAAACACAGG -TCATCAGGGAATGCCACAACGACACCACCAGGGACATAAACGCACACCGAAACAGTTGGCGCTCATCATC -AAACGTTGTTTGCCGATGGTGCTCACTGGCAGCGGCATGCTTTGCACTACCGCTAACGCCGAAGAGTATT -ATTTCGACCCCATTATGCTGGAAACCACAAAAAGTGGTATGCAAACAACCGATCTGTCGCGTTTTTCAAA -AAAATATGCACAACTACCAGGAACTTATCAGGTTGATATCTGGCTGAATAAAAAGAAGGTTTCACAGAAA -AAAATTACATTTACCGCCAATGCAGAGCAACTTCTGCAGCCACAGTTTACGGTAGAACAACTACGTGAGC -TGGGTATTAAGGTGGATGAAATCCCGGCGCTGGCTGAAAAAGATGACGATAGCGTGATCAACTCGCTTGA -ACAAATCATTCCCGGTACAGCTGCTGAATTTGATTTCAATCATCAGCAACTTAATTTGAGCATTCCCCAA -ATTGCACTGTACCGTGATGCAAGAGGTTACGTCTCCCCTTCTCGTTGGGACGATGGTATACCAACGCTGT -TTACCAACTACTCGTTTACAGGTTCTGATAACCGTTACCGCCAGGGCAATCGTAGCCAACGACAGTACCT -GAATATGCAAAATGGTGCTAATTTTGGCCCCTGGCGATTACGCAACTATTCCACATGGACACGCAACGAT -CAGACATCAAGCTGGAATACCATCAGTAGTTATTTACAACGTGATATCAAGGCGTTGAAGTCTCAGTTGC -TTCTGGGAGAAAGCGCCACCAGCGGCAGTATTTTTTCCAGCTACACCTTTACTGGCGTGCAACTCGCTTC -CGACGATAATATGTTGCCAAACAGCCAGCGCGGATTTGCCCCAACGGTACGCGGTATCGCAAACAGTAGT -GCAATCGTGACTATCAGGCAAAATGGTTATGTGATCTATCAAAGCAACGTGTCAGCGGGTGCCTTTGAAA -TTAACGATCTCTACCCCTCTTCCAACAGCGGCGATTTAGAAGTCACGATTGAAGAAAGTGACGGTACACA -ACGTCGCTTTATCCAGCCTTATTCTTCATTACCCATGATGCAGCGACCTGGGCATCTAAAGTATAGCGCG -ACCGCTGGACGCTATCGCGCTGATGCAAACAGTGATAGCAAGGAACCCGAATTTGCTGAAGCCACGGCAA -TATATGGTTTGAATAATACTTTTACGCTGTATGGCGGCCTGCTCGGTTCTGAAGATTATTATGCGCTGGG -GATCGGTATCGGCGGCACACTTGGCGCACTGGGCGCGTTGTCGATGGATATCAACAGAGCTGACACCCAA -TTCGATAACCAGCACTCTTTTCATGGCTATCAATGGCGTACGCAGTACATCAAAGATATCCCGGAAACCA -ACACCAATATCGCTGTCAGCTACTATCGCTATACCAACGATGGCTATTTTAGTTTTAATGAAGCCAATAC -CCGCAATTGGGACTATAACAGTCGCCAAAAAAGTGAAATTCAATTCAACATCAGCCAGACAATATTTGAT -GGGGTAAGTCTGTATGCCTCCGGTTCGCAGCAAGACTATTGGGGCAATAACGATAAAAACAGGAATATCT -CTGTTGGGGTTTCCGGCCAGCAATGGGGAGTTGGTTACAGCCTGAATTATCAATACAGCCGCTACACTGA -TCAAAATAATGACCGCGCACTCTCTTTGAATCTCAGTATTCCGTTAGAACGCTGGTTACCGCGTAGCCGG -GTTTCCTATCAGATGACCAGCCAGAAAGATCGCCCAACCCAACATGAAATGCGTCTTGATGGCTCACTGC -TGGATGATGGTCGCCTGAGCTATAGCCTGGAACAAAGTCTGGATGACGATAACAACCATAACAGTAGCCT -GAACGCCAGTTACCGTTCACCTTATGGCACCTTCAGTGCCGGATACAGCTACGGTAATGACAGCAGCCAA -TACAATTACGGCGTTACCGGCGGCGTGGTTATCCATCCTCATGGCGTGACGCTCTCGCAATATCTGGGCA -ACGCTTTTGCGCTTATCGATGCTAACGGAGCATCTGGCGTGAGGATACAAAACTATCCGGGGATTGCTAC -CGATCCTTTTGGCTATGCAGTGGTTCCTTATCTCACAACTTATCAGGAAAACCGTCTCTCGGTAGATACT -ACGCAGCTGCCCGATAACGTCGATCTTGAACAAACAACACAGTTTGTGGTGCCCAACAGAGGTGCAATGG -TAGCGGCGCGTTTCAACGCCAATATCGGTTATCGCGTACTTGTTACAGTCAGCGATCGCAACGGTAAACC -GTTGCCCTTTGGCGCTCTTGCCAGCAACGATGATACGGGGCAACAAAGTATCGTCGATGAGGGCGGCATA -CTATATCTCTCTGGGATATCGAGTAAATCACAAAGCTGGACTGTACGCTGGGGAAATCAGGCAGATCAAC -AATGTCAGTTTGCTTTCAGTACACCGGATTCAGAACCTACAACCTCTGTATTACAAGGCACAGCGCAGTG -CCATTAAGGATAAAAAAATGAAAAGAGCGCCTCTTATAACAGGTCTTTTGTTGATATCCACATCCTGCGC -TTATGCCTCCTCAGGAGGGTGTGGAGCCGACAGCACTAGCGGTGCGACAAATTACAGCAGTGTGGTTGAT -GATGTTACGGTGAACCAGACAGATAACGTGACAGGACGGGAGTTTACCTCTGCAACGCTAAGTAGCACTA -ACTGGCAATACGCCTGTTCCTGCTCTGCGGGTAAGGCAGTTAAACTTGTCTATATGGTCAGCCCCGTACT -TACCACCACTGGACATCAGACAGGATATTACAAACTCAATGACAGCCTGGATATTAAAACCACATTACAG -GCAAACGACATTCCAGGACTCACAACCGACCAGGTTGTCTCTGTTAACACCCGATTCACACAGATAAAAA -ACAACACGGTATATTCTGCTGCAACCCAAACGGGTGTTTGCCAGGGTGATACGTCTCGTTATGGACCCGT -TAATATTGGTGCGAACACCACCTTTACCCTGTATGTCACCAAGCCATTTCTCGGCTCGATGACCATTCCG -AAAACGGATATTGCCGTCATTAAAGGCGCGTGGGTCGATGGAATGGGAAGCCCGTCTACAGGTGACTTCC -ATGATTTAGTCAAGTTATCGATTCAGGGAAATCTCACCGCCCCACAGTCGTGCAAAATTAATCAGGGCGA -TGTTATTAAGGTTAATTTTGGATTCATCAATGGTCAGAAGTTTACCACCCGCAATGCCATGCCAGACGGT -TTTACTCCAGTAGACTTTGATATCACTTATGACTGTGGTGATACTTCAAAGATTAAAAACTCGTTGCAAA -TGCGCATCGACGGTACAACTGGGGTAGTAGACCAGTACAACCTGGTCGCCAGGCGAAGAAGTTCAGACAA -TGTGCCCGATGTCGGTATTCGTATTGAAAATCTCGGCGGCGGAGTTGCAAATATTCCTTTTCAGAACGGT -ATCCTTCCCGTTGATCCTTCCGGGCATGGCACCGTCAATATGCGCGCCTGGCCAGTTAATCTGGTCGGTG -GTGAGCTGGAAACAGGAAAATTTCAGGGCACAGCCACCATTACCGTCATCGTGCGGTAAAAGAAGACGTT -GCGTTTTGATTAACGCAACGCTTCGGCACTGTTACCCCTGCTGCTCCAGCGCATACTTATACAGCGCATT -TTTCTTCACGCCGTGAATTTCTGCGGCCAGCGCCGCCGCTTTTTTCAGCGGCAGTTCTGCCTGTAGCAGC -GCCAGCGTGCGCAGGGCATCGGCGGGTAAGTCTTCTTCCTGTGCTTTATGACCTTCGACAATCAGCACCA -TTTCGCCTTTGCGACGGTTTTCATCTTCCTTTACCCACGCCAGCAGCTCGCCAACGGGCGCGCCGTGAAT -GGTTTCCCAGGTTTTGGTCAGCTCACGCGCCAGAACCACGTAGCGGGATTCGCCTAATACCGCAACGATA -TCTTCCAGGCTATCTAACAGACGGTGGGTAGATTCATAAAAAATCAGCGTGCGCGGCTCCGCTTCAATGG -CTTTTAGCGCATCACGGCGGCCTTTTGATTTGGCAGGTAAAAAGCCTTCGTAACAGAAACGGTCAGAGGG -TAAACCCGCTGCGCTTAACGCAGTGATAGCAGCACACGGCCCGGGTAGCGGCACCACGCGGATCCCCGCT -TCACGGCAGGTACGCACCAGATGGTAGCCAGGATCGTTAATTAGCGGCGTTCCGGCATCGGAAACCAGCG -CAATGTTTTGCCCCTCTTGCAGCTTCGCCAGCAGCGTTTCAGCTTTTTGTTGTTCGTTATGGTCGTGCAG -CGCAAACAACCGGGCATTAATCCCAAAATGTTGCAGCAATAAACCGGTGTGACGAGTATCCTCGGCGGCA -ATCAGATCAACGGCCTGTAATACCTCTAACGCACGCTGGGTGATATCCGCCAGATTGCCGATTGGCGTCG -GTACAATGTAAAGCTGGCCCTGAGAATTATCCGCCGATTGGTGTTGTTTCATTGTGTCGTCCGTATTGCC -GATTTAATATTGAGCATTGCGTAAAAAAAATATCACTGGATACATTATGGTACCCTCAACATTTTCTCGT -TTGAAAGCCGCGCGTTGTCTGCCTGTTGTTCTGGCAGCCCTGATTTTCGCCGGTTGTGGCACCCATACTC -CCGATCAGTCCACTGCTTATATGCAGGGCACGGCGCAGGCTGATTCTGCCTTTTATCTTCAGCAGATGCA -GCAAAGCTCTGATGATACCAGGATCAACTGGCAATTACTCGCCATTCGTGCACTGGTGAAAGAAGGTAAA -ACCGGGCAGGCGGTTGAGTTGTTTAACCAACTACCGCAAGAACTGAACGATGCTCAGCGTCGCGAGAAAA -CACTGCTGGCGGTAGAGATTAAACTGGCGCAGAAAGATTTTGCTGGCGCGCAAAACTTGCTGGCGAAAAT -CACACCTGCCGATTTAGAACAAAACCAGCAAGCGCGTTACTGGCAGGCAAAAATCGATGCCAGCCAGGGG -CGTCCTTCCATTGATTTACTGCGCGCGTTAATTGCTCAGGAACCGCTGCTTGGCGCGAAAGAAAAACAGC -AGAATATTGATGCCACCTGGCAGGCGCTCTCCTCCATGACTCAGGAACAGGCGAATACGCTGGTGATCAA -CGCCGACGAAAATATTCTGCAAGGCTGGCTGGATCTGCAGCGCGTCTGGTTTGATAACCGTAACGATCCC -GACATGATGAAAGCCGGGATCGCCGACTGGCAGAAACGTTATCCGAACAATCCGGGCGCGAAAATGCTGC -CAACGCAGTTGGTTAACGTAAAAGCGTTTAAACCAGCCTCGACCAACAAAATCGCCCTGCTGTTGCCACT -GAATGGCCAGGCAGCGGTATTTGGTCGCACTATTCAGCAAGGCTTTGAAGCGGCGAAAAATATCGGCACT -CAGCCAGTGGCAGCTCAGGTAGCTGCCGCACCTGCCGCAGACGTAGCTGAACAACCTCAGCCGCAAACCG -TGGATGGCGTTGCCAGCCCGGCACAAGCCTCGGTTAGCGATCTGACCGGTGAACAGCCTGCAGCCCAGCC -GGTGCCTGTAAGCGCCCCGGCGACAAGCACCGCAGCGGTAAGCGCACCCGCAAATCCATCCGCAGAGCTG -AAAATCTACGATACCTCATCACAACCACTTAGCCAGATCTTAAGCCAGGTTCAGCAGGATGGCGCGAGTA -TTGTGGTCGGTCCGTTGCTGAAAAATAACGTTGAAGAGTTGCTGAAGAGCAACACTCCGCTGAACGTACT -GGCACTGAACCAGCCGGAGAATATCGAAAATCGCGTCAATATTTGTTACTTCGCGCTTTCACCGGAAGAC -GAAGCGCGCGATGCAGCGCGTCATATTCGTGACCAGGGTAAACAAGCGCCGCTGGTGCTGATCCCACGCA -GTTCATTGGGCGATCGCGTAGCCAATGCGTTTGCGCAAGAGTGGCAGAAACTGGGCGGCGGCACCGTTCT -GCAACAAAAATTTGGTTCCACCAGCGAATTACGCGCGGGTGTTAACGGCGGTTCTGGTATTGCTTTAACG -GGTAGCCCGATTACTCTCAGAGCGACAACCGACTCCGGCATGACGACCAACAATCCAACGCTGCAAACCA -CGCCAACCGATGACCAGTTCACCAATAATGGCGGTCGTGTCGATGCGGTGTACATTGTGGCAACGCCGGG -TGAAATCGCTTTTATCAAACCGATGATCGCCATGCGTAACGGTAGCCAGAGCGGTGCAACGCTGTACGCC -AGCTCCCGCAGTGCGCAAGGGACCGCTGGCCCGGATTTCCGACTGGAGATGGAAGGCTTGCAGTACAGCG -AAATCCCGATGCTGGCAGGCGGTAATCTACCGTTAATGCAGCAGGCACTCAGCGCGGTGAATAACGATTA -TTCACTGGCTCGCATGTATGCGATGGGCGTCGATGCCTGGTCGCTGGCAAATCATTTCTCACAAATGCGC -CAGGTTCAGGGTTTTGAAATCAACGGTAATACCGGAAGCCTGACGGCTAACCCGGATTGCGTGATTAACA -GGAACTTATCATGGCTACAGTACCAACAAGGTCAGGTAGTCCCCGTCAGTTAACCACCAAACAGACCGGC -GATGCGTGGGAAGCACAAGCGCGTCGCTGGCTGGAAGGCAAAGGACTGCGGTTTATCGCCGCTAACGTGA -ACGAGCGTGGCGGCGAGATCGATCTGATAATGCGTGAAGGCCGGACCACCATTTTTGTCGAGGTACGCTA -TCGCCGCTCTGCGCTTTATGGCGGCGCGGCAGCCAGTGTGACCCGCAGCAAACAACACAAATTATTACAG -ACTGCCCGCTTGTGGCTCGCGCGTCATAATGGGAGTTTTGATACTGTGGATTGCCGGTTCGATGTGGTAG -CCTTCACCGGGAATGAGGTTGAGTGGATTAAGGATGCCTTTAATGACCACTCATAATTAAGGTTTAAGGA -TTAGCGTGCAAGAAAGAATTAAAGCTTGCTTCACTGAAAGCATTCAAACTCAAATTGCGGCGGCAGAGGC -GCTTCCGGATGCCATCTCCCGTGCAGCCATGACGCTGGTTCAGTCTCTGCTCAATGGCAACAAAATCCTC -TGTTGTGGTAATGGAACTTCCGCTGCCAATGCACAGCATTTTGCTGCCAGCATGATCAACCGTTTCGAAA -CGGAGCGGCCCAGCTTACCTGCCATTGCACTAAATACTGATAATGTTGTCTTAACGGCGATTGCCAACGA -TCGCTTACATGATGAAGTGTATGCAAAACAGGTGCGGGCGCTGGGTCATGCGGGAGATGTATTGTTAGCC -ATTTCCACCCGTGGCAACAGCCGCGATATTGTTAAAGCAGTTGAAGCCGCCGTTACGCGTGATATGACCA -TTGTGGCATTGACCGGCTATGACGGCGGCGAACTTGCAGGTTTGTTAGGGCCACAGGATGTGGAGATCCG -CATTCCTTCGCATCGTAGTGCTCGCATTCAGGAAATGCATATGCTGACGGTAAATTGCCTGTGCGATCTG -ATCGATAACACGCTTTTCCCTCACCAGGATGATTAAGGAGAATACATGAAGGCATTATCGCCAATCGCAG -TCCTTATTTCCGCGCTGCTGTTGCAAGGTTGTGTTGCCGCTGCCGTAGTGGGTACCGCTGCTGTGGGTAC -CAAAGCCGCAACTGACCCACGCAGTGTCGGCACCCAGGTGGACGATGGTACCCTGGAAGTGCGCGTGAAC -AGCGCATTGTCGAAAGACGAACAGATTAAGAAAGAAGCGCGCATTAATGTAACGGCCTATCAGGGCAAAG -TGCTGCTGGTTGGGCAGTCACCAAATGCTGAACTTTCGGCTCGCGCCAAACAGATTGCTATGGGCGTAGA -CGGTGCCAACGAAGTGTATAACGAGATTCGTCAGGGCCAGCCGATTGGTCTGGGCGAAGCATCTAACGAT -ACGTGGATCACCACCAAAGTGCGTTCGCAGCTCTTAACCAGCGACCTGGTGAAATCGTCCAACGTGAAAG -TGACCACCGAAAACGGTGAAGTGTTCCTGATGGGGCTGGTGACTGAACGTGAAGCGAAAGCGGCGGCAGA -TATTGCCAGCCGGGTGAGCGGCGTGAAGCGGGTAACTACGGCGTTTACGTTTATTAAATAGCAGCCCCTT -GTAATGCCTGATGCGACGCTTGCCGCGTCTTATCAGGCCTACAACGATACAAACCGTAGGTCAGATAAGG -CGTTTACGCCGCATCCGACATGTTTTCCCTCAAATCAGAACAACAGCGCCAGCCCGCCGACAATCACACC -AGACACTGCCACCATCGCCCCTGTCAGCCATAAGGCTTTCGCCGGGAACGCTTTGCGCAGCATAATCAGT -GACGGCAAACTCACTGCCGGGAGCGTCATCAACAATGCCAGCGCCGGAGCGGTTCCCATACCTGCCAGCA -TCATCGTTTGTACAATCGGAATTTCTGCTGCCGTGGGAATGACAAACAAGCATCCTGCTACCGCCATCGC -CACCACCCACATCAGGCTGTTATCGACAGCACCATCGGCATGGGGGAATAACCAGACGCGAGCGGCACCC -AACACCAGTACTGCAAGGATGTAAACCGGGATCGTACTCCAGAAAAGCGTCCATAGCGCCCTGCCCCAGC -GGCTAAAAAACCCGCCCTGTGCTTCCGGTATGTCAATTTCGACCGGTGCCTGCGTTTGCGGTGTTTCACG -CACCCATTTTTGCACCAGCGTCGCAATCAGCAACACCATCACCAGCCCGGCCACCAGACGAATCGCCGCA -AAACCCCAGCCGAGGACAAAGCCCATAAACACCAGCGTCGCCGGGTTTAACACCGGATTGCCCATCCAGA -ATGCCAGCGCACCGCCCATCGACACCTGTTGGCGACGCATTCCCGCCGCGACCGGAGCCGCACAGCAGGT -ACACATCATGCCCGGCAACGAAAACAGCGTTCCCAGCAGCGTGCCGCGAAAGCGCGATTGCCCAAGCGTA -CGCAACAACCAGTCACGCGGGATCAGCACCTGAATCAACGAACCGAGGATCACCCCCAGCACCGCCGCTT -TCCATACCGCGAGGAAATAGATCATCGCGTAATCCAACGCCGCCTGCCATGGGTTAGCATCCGCCTGCGC -AAGGATAGATTTACCGATACTGTGGGTTTCGGCAGCAGTAAACGCTTTGCCGTAGTAAGGTTCCCATTTC -ACATACCAGAGACCGGCAATGACAACGAGAAAGAAAAGCGCGGGTTTCCACCACTGAATGGGCGTTGCCG -CCTGAGATGAAGACTGACCAGTCATAGCATTCCCCAGGAATAAGTTATGATAATTGAGCGCGTGAATATT -ACGCTCACTATCAATTCTTGGGAATAATTATTCAGCTCTTTTGCGTAATTCTGAAGAGCTTAAAATCGTC -ACGCCTTCATGCTCAGGCCGCATCGACTCTGCCAGCATGACCCGCGCCACGTCTCTCGCATCAATGGATT -TCCAGTTACCTGGTAACAAACGGAACAGCGGCGCAAAAAGCGTTTCGTTCATCCGCTGTTTGCTACGATC -GCCCAGTAACATCGACGGGCGAGCAATGGTCAATTTCGGCCAGTTCTGGGCGATTAATGCTTCTTCCATC -TCCCCTTTGACGCGGTTATAGAAAAACGGCGAGTGGGCATTGGCACCCATCGCACTGACTACCAACATAT -GCTGCGCGCCCAGTCGCCGCCCGGTTAATGCGGTATCCACTACCAGCGTGTAATCGGCATGAATAAACGC -CTCTTTGCTCCCCGCTTCTCGCCGCGTGGTGCCGAGACAACAAAACACAATGTCGATGGGATCGGTGACC -TGCGCCAACGCGTCACTCAGTTGCGGATCATGGGGATTAAACACCCCGGGCATATCGCCCAACGGACGTC -GCGTCGGCGCAGCAATGGCGTTAACTTTCGGTTCGTTAATCAACATCCGCAGCAGGTGACCGCCCACCAG -CCCCGTTGCGCCTGTAATCAGTACCTGACTCATCTTCGCTCCTTTACAGAATTGTCTGCCTTGCGCTCCA -CGGCTCATGCACCAGGCTTAATAGACCATGAGGTAATTATCCCCGATTGTGGGAAATTCGCCTCATCCAA -TGCAACAACGCGGAGGAAGCATGAGTAAGAAAATTGCCGTTTTAATCACTGATGAATTTGAGGATTCAGA -ATTTACTTCACCCGCAGACGAGTTCCGTAAAGCCGGACACGAAGTGATTACCATTGAAAAACAAGCGGGT -AAAACGGTGAAAGGCAAAAAAGGAGAAGCCAGCGTGACCATCGATAAATCCATCGATGAAGTGACGCCTG -CGGAGTTTGATGCCCTGCTGCTACCGGGCGGCCATTCACCGGATTATCTGCGTGGGGACAACCGTTTTGT -CACCTTTACCCGTGATTTTGTGAATAGTGGCAAACCGGTGTTTGCCATCTGTCACGGCCCGCAGTTGCTG -ATCAGCGCCGATGTGATTCGGGGGCGCAAACTGACCGCAGTTAAACCGATCATTATTGATGTTAAAAATG -CGGGCGCGGAATTTTACGATCAGGAAGTCGTGGTTGATAAAGATCAGCTGGTTACCAGCCGGACACCGGA -CGATCTGCCAGCGTTTAACCGCGAGGCGTTACGCCTGCTCGGTGCCTGAGTCGCGTAGCCAAATCATTTT -TTTACCAAAGCCCAGCGTGTTGTCGGTGAATTTGATTTCATCGAGCCGGATTTCCCACACCGGGGCCGAC -AGCATTCTGGCAACCGGAAAGCGACGATTGTACGCCTTGCGCGCGAGGTCGCTTTCCTCACCTTCCAGCC -TGCGGATCTCACCTTTAAACTGCACACCGCGAATTAACGCTACCGTTTTCGGCTGACCGTTTACCGTTCC -GGCAACCGCAGCCTGCGGCCCACTCATCTGCGCGTGGCGCGTTTTTTCTTCCGTCAAAATGTAGAAGGCG -ACTTTCTGCGCATCAAAAAGATAAAAGGCATTAGCGCACCAGAGTTCCCCTTCCTGCTGCACACACCAAG -TGACAACATGTTGTTTTGCCAGCCAACGGCTGATGGCGATGAGTGTTTCCATTGCTGTTCTCTTTTATAC -TGTGGGCCTGACCTTAACATGCGACGCAGACGATGACACCCTGGTTTCTTTACTTGATCCGTACCGCCGA -CAATAAGCTTTATACCGGGATCACCACGGATGTCGAACGCCGCTATCAGCAGCACCAAAGCGGCAAAGGG -GCGAAAGCACTGCGCGGGAAAGGAGAACTAACGCTGGTGTTTTCCGCGCCAGTGGGCGATCGTTCGCTGG -CGTTACGGGCGGAATATCGCGTTAAGCAACTGACCAAACGGCAAAAAGAGCGTCTGGTAGCGGAAGGCGC -AGGGTTTGCAGAGCTGTTAAGCAGTCTGCAAACCCCGGAGATTAAAAGCGATTGAAATGCTCGTGATACT -CAACCAGGCCGGTAACGCCATTCAGCGCGTCATCCGCTAAACGATGTACCTGGAAGGCGCTTTCAGTGCC -CGGCCAGCGGCAACGCAGATCGTGATGCGCCGCCAGTTCAAAGCCGAAACGACTGTACAGCGCCGGATCG -CCCAGCGTCACCACTGCGGCATAGCCGAACTCATTAAGCGAATCGAGTCCTTCATAGACCAGTTGGCGTG -CCAGCCCCTGTCCACGGTATTTTTCATCAACCGCCAACGGTGCCATGCCGACCCATTGCAGGTCTTCGCC -CTGCACATCAACCGGACTAAATGCCACATAGCCAATGACCTGACCTTCGTCATCTGTCGCCACCAGCCCC -AGCGTCAGAAAGCCATCTTCACGCAGATCGTGAACCAGCTTCGCTTCCGCATCACTTTCGAATGAGCGAC -GCAGCAGGGCATCAATACCCGGCGCATCAATGGGAATTTCTACTCGAATTAGCATGGTTCACCTACCGAT -GTCTGTTTGGTTTCAGGCGCGGTTTTCATTCCCGCCTCAACAAAATCCGCCAGTTGCAGCAGCATCATGC -GTAAGGCTTTCGGCATTTGCTCCAGTTCAATGGCGTCCATCAGGTTTTTCACATACAGCCCCAGCTCCGT -ATCGCCTTCAATCACCAGCCGACGCTGGAAGAAGAGCGTATCCGGATCTTGTTTACGCGCCGCAATCATC -AGCAGATCGCTGGCGTCGGCACTAAAACTCACATCAGCTTGCGCGTTCTGGCTAACGACCAGTTTGCCAT -TCACCACCGAGGTAAACCATTGCAGGTCAATATCACGCACATGAATACTTAACCAGCGGCCTTCAAGAAA -CTCCAGCTCGCCATCATCCAGCGCCTGGCGGAATTGCCAGCTTAAGACCTGCTCAAGAACCTGGCGTTTT -AGCGCAAATGGCGTCAGTTTTACCGGTACACTCAACAGAGATGGCCCCAAATGCACAATACGGGAACGCA -GTTTATCCAACACGAGTTTTACTCCCTGTTTCAACAATCATCCTATTTTGCCATATCAGAAAAATAACAT -AGCGGTATAAATCAACAATTCCATATGAAATTGCTGCTACCACCAATACAACTTTAACTGCCTTAAATCA -AAAATTGTCGCAGCAAGGTTAACTAAAATCCCAGTTCGTTAACATTTTTGCGTTTTGATAGCGCAACCTT -CAGGAAAAATTATGGAGCTGCTCTGCCCTGCCGGAAATCTCCCGGCGCTTAAGGCGGCCATCGAAAACGG -CGCAGATGCTGTTTATATCGGGCTAAAAGATGATACCAATGCCCGTCACTTCGCCGGCCTTAACTTTACC -GAGAAAAAATTGCAGGAAGCGGTGAGTTTTGTCCATCAACATCGCCGCAAACTTCACATCGCGATTAACA -CTTTTGCGCATCCGGACGGTTACGCCCGTTGGCAGCGCGCCGTGGATATGGCGGCGCAGCTGGGTGCCGA -CGCGCTGATCCTCGCCGACCTCGCCATGCTGGAGTACGCCGCCGAGCGTTATCCGCATATTGAGCGCCAC -GTATCGGTGCAGGCTTCGGCGACCAATGAAGAGGCGATTAACTTTTATCATCGCCATTTTGACGTTGCTC -GCGTGGTGCTGCCGCGCGTGTTGTCGATTCATCAGGTGAAACAACTGGCACGGGTCACACCTGTACCACT -GGAAGTCTTTGCTTTCGGCAGCCTGTGCATTATGTCGGAAGGTCGTTGCTATCTGTCGTCGTATCTGACG -GGTGAGTCGCCCAACACCATAGGCGCGTGTTCTCCGGCCCGTTTCGTGCGCTGGCAACAAACGCCGCAGG -GGCTGGAATCCCGCCTGAACGAAGTGCTGATCGACCGTTATCAGGACGGCGAAAACGCAGGTTATCCGAC -GCTATGTAAAGGGCGTTATCTGGTGGACGGCGAGCGCTATCACGCGCTGGAAGAACCAACCAGTCTCAAT -ACCCTGGAACTGCTGCCGGAGTTAATGGCGGCGAATATTGCTTCGGTGAAAATTGAAGGCCGCCAGCGTA -GCCCGGCGTATGTCAGCCAGGTGGCGAAAGTCTGGCGTCAGGCTATCGACCGTTGTAAGGCCGATCCGCA -AAACTTTGTACCGCAAAGCGCGTGGATGGAGACGCTCGGGTCGATGTCCGAAGGCACGCAAACCACTCTT -GGCGCATATCACCGTAAATGGCAGTGAGAAAAGCAATGAAATATTCCTTAGGGCCAGTGCTGTGGTACTG -GCCAAAAGAGACGCTGGAAGAATTTTATCAGCAGGCCGCCACCAGCAGCGCCGACGTGATTTATCTTGGT -GAAGCGGTATGCAGCAAGCGTCGGGCAACCAAAGTTGGCGACTGGCTGGAGATGGCAAAATCGCTCGCCG -GGAGTGGTAAGCAGATTGTGCTCTCCACGCTGGCGCTGGTGCAGGCATCATCTGAACTGGGCGAACTGAA -ACGCTATGTTGAGAACGGTGAGTTTCTGATTGAAGCCAGCGATCTCGGCGTGGTGAATATGTGCGCTGAA -CGCAAACTGCCGTTCGTCGCCGGGCACGCGCTGAACTGCTACAACGCGGTGACACTGAAAATATTGCTCA -AACAGGGCATGATGCGCTGGTGTATGCCAGTGGAGCTTTCCCGCGACTGGCTGGTGAATCTGCTTAATCA -GTGCGATGAGCTGGGCATTCGTAACCAGTTTGAAGTGGAAGTCCTGAGCTACGGTCATCTGCCGCTGGCC -TACTCCGCCCGCTGCTTTACCGCGCGTTCGGAAGACCGCCCGAAAGATGAGTGTGAAACCTGCTGCATTA -AGTATCCGAACGGGCGCAACGTGCTGTCGCAGGAAAACCAACAAGTGTTTGTACTCAATGGCATTCAGAC -CATGAGCGGCTACGTTTACAACCTCGGTAACGAGCTGGCATCCATGCAGGGCCTGGTTGATGTGGTCCGC -CTGTCACCGCAGGGTACTGACACTTTCGCGATGCTCGACGCCTTCCGCGCTAATGAAAATGGCGCTGCAC -CACTGCCGTTGACGGCGAACAGCGACTGTAACGGCTACTGGCGGCGGCTGGCAGGACTGGAGCTGCAAGC -CTAAGTAAATAGCTCACTTTGTTAACAACTTTAACTACTCTTTAATGCAGTATTAAAGATTAATCGGTAA -CAAAGTGAGCTGTTATGACTGATAAAACCATTGCGTTTTCGCTACTCGATCTGGCCCCCATTCCCGAAGG -TTCTTCAGCGCGAGAAGCATTCTCCCACTCTCTCGATCTCGCCCGTCTGGCTGAAAAGCGCGGCTATCAT -CGCTACTGGCTGGCAGAACACCACAATATGACTGGCATTGCCAGTGCTGCCACGTCGGTATTGATCGGCT -ATCTGGCGGCGAATACCACCACGCTGCATCTGGGGTCTGGCGGCGTGATGTTGCCTAACCACTCACCGTT -GGTCATTGCAGAACAGTTCGGCACGCTTAATACACTCTATCCGGGGCGAATCGATTTGGGGCTGGGTCGT -GCTCCGGGTAGTGACCAACGGACAATGATGGCGCTACGTCGTCATATGAGCGGCGATATTGATAATTTCC -CCCGCGATGTGGCGGAGCTGGTGGACTGGTTTGACGCCCGCGATCCCAATCCGCATGTGCGCCCGGTACC -AGGCTATGGCGAGAAAATCCCCGTGTGGTTGTTAGGCTCCAGCCTTTACAGCGCGCAACTGGCGGCGCAG -CTTGGTCTGCCGTTTGCGTTTGCCTCACACTTCGCGCCGGATATGCTGTTCCAGGCGCTGCATCTTTATC -GCAGCAACTTCAAACCGTCAGCACGGCTGGAAAAACCATACGCGATGGTGTGCATCAATATTATCGCCGC -CGACAGCAACCGCGACGCTGAATTTCTGTTTACCTCAATGCAGCAAGCCTTTGTGAAGCTGCGCCGTGGC -GAAACCGGGCAACTGCCGCCGCCGATTCAAAATATGGATCAGTTCTGGTCACCGTCTGAGCAGTATGGCG -TGCAGCAGGCGCTGAGTATGTCGTTGGTAGGTGATAAAGCGAAAGTGCGTCATGGCTTGCAGTCGATCCT -GCGCGAAACCGACGCCGATGAGATTATGGTCAACGGGCAGATTTTCGACCACCAGGCGCGGCTGCATTCG -TTTGAGCTGGCGATGGATGTTAAGGAAGAGTTGTTGGGATAGTGTGTCTTAACGCGGGAAGCCTTATCCG -AGCTGGCAACGCTGTCCTACATAGACCTGATAAGCGAAGCGCATCAGGCATTGTGTAGGCAGCAGAAATG -TCGGATAAGGCACCGCTGATTACTGATACACCGGCAGTAAATTAAAGCTCGATAAAATATGCACCAGTGC -GTTGCCGACGCCAAACACCAGAATCAGCGCAATCATCGGCTTGCCACCCCAGACGCGGAATTTCGGGCTG -CCAAAGCGTTTACGCGATGCACGGGCTAACAGCGCCGGAACAATTGCCGCCCAGATGGTAGCCGCTAAAC -CAGCATAACCAATGGCGTACAGGAATCCGTTCGGGAACAACAGCCCCCCCACAACTGGCGGGGCAAAGGT -CAGCAATGCCGTTTTCAAGCGGCCCACAGCCGAGTCGTCGAAACCAAACAGATCTGCCAGATAGTCAAAC -AAACCCAGCGTTACGCCGAGGAACGAACTCGCTACCGCAAAGTTTGAGAACACGACCAGCAGCAGATCCA -GACTACGGCTGTTCAGTACGCCGCTTAACGCCTGTACCAGCACATCAATATTACCGCCCTTCTCTGCAAT -ACCGATAAACTCCGGACGCGGGATGTTACCCATCGTCGCCAGCAACCAGATGGTATACAGCGCCAGCGCC -ATCAGCGTACCGTACACCAGACATTTCACGATGGTTTTCGGATCTTTGCCGTAATACTTCATCAGGCTTG -GCACGTTACCGTGATAACCAAACGATGCCAGACAGAACGGCAGGGTCATCAACAGATACGGTGCATAAGA -CGCATTGCTTTCGGCGACGTTGAACAATGTCGCAGGCTGCACATGCCCCAGCAGGCTACCAAAGGTGAGG -AAGAAGGTAATGACTTTCGCCCCCAGCACAATCGCTGTCATGCGACTGACGGCTTTAGTGCTCAACCACA -CCACAAACGCTACCAGCAATGCAAAACCAAAACCCGCCGCCCGTGCCGGGACGTTTAGTGACATCTCTGC -GAAGGTGTGATGCAGAATCGAACCACTGGCAGAAATATAGGCATAGGTCAGGATATAGAGCACAAAGGCA -ATGGAAATGCCGTTGACCACGTTCCAGCCTTTGCCCAGCAAATCTTTGGTGATGGTGTCAAAACTCGAAC -CGATTCTGTAATTCAGGTTAGCTTCCAGAATCATCAAGCCGGAATGCAGCATACAGAACCAGGTAAAGAT -CAGCGCCGCCATTGACCAGAAAAACCACGCCCCGGACATGACCACTGGCAGAGAAAACATCCCTGCGCCA -ATAATGGTGCCGCCGATAATCACCACGCCGCCAAGCAGCGACGGTGACGTTTGGGTGGTGGTTAGTGTTG -CCATGAGGGCTTCTCTCCAGTGAAAAATAGTGCGACTGCGTTGTTATGCATTGCACTGTACCAGTACACG -AGTACAAAAGACAGAAAAAAAGCCCCGATGGTAAAAATCGGGGCTGTATATATTATTTTACAGATTGTGT -TCGCTGTTCAGCGATGATTACGCATCACCACCGAAACGACGACGACCGGTAGAATCATCACGACGCGGAG -CGCGGCCTTCACGACGTTCGCCGCTAAAACGACGACCATCACCACGGCCACCTTCACGGCGTTCACCGCT -GAAGTTACGACCGCCTTCACGACGTTCGCCACCGAAACCACGACCACCGCCACGACGCTCACCGCCAGTA -TGCGGCTGTGCATCGCCCAGTAACTGCATGTTCATCGGCTTGTTGAGAATGCGAGTGCGCGTAAAGTGTT -GCAGCACTTCACCCGGCATACCTTTCGGCAGTTCGATGGTGGAGTGAGAAGCAAACAGCTTGATGTTACC -AATGTAACGGCTGCTGATGTCGCCTTCGTTAGCAATCGCACCAACGATATGACGAACTTCAACACCATCA -TCGCGGCCCACTTCAATGCGGTACAGCTGCATATCGCCAACATCACGACGTTCACGACGCGGACGATCTT -CACGGTCACCACGCGGGCCACGGTCGTTACGATCGCGCGGACCACGGTCATCACGGTCACGGAATTCACG -TTTCGGACGCATCGGCGCATCTGGCGGTACGATCAGAGTACGTTCACCCTGTGCCATTTTCAGCAGTGCC -GCAGCCAGAGTTTCGAGATCCAGCTCTTCACCTTCAGCAGTCGGCTGAATTTTGCTCAGCAGTGCGCGGT -ATTGATCCAGATCGCTGCTTTCCAGCTGCTGCTGTACTTTAGCGGCGAATTTTTCCAGACGGCGTTTGCC -TAGCAGTTCTGCGTTCGGCAGTTCTACTTCCGGAATAGTCAGCTTCATAGTACGTTCAATGTTGCGCAGC -AGACGACGCTCGCGGTTCTCAACGAACAGCAGCGCGCGGCCAGCACGACCCGCACGACCGGTACGACCGA -TACGGTGAACGTAAGACTCAGAATCCATCGGGATATCGTAGTTAACTACCAGGCTGATACGCTCAACGTC -CAGGCCACGGGCTGCAACGTCGGTCGCAATCAGGATGTCCAGACGACCATCTTTCAGGCGTTCCAGTGTC -TGTTCACGCAGCGCCTGGTTCATGTCACCGTTCAGCGCGGCGCTGTTGTAGCCGTTACGCTCAAGAGCTT -CAGCCACTTCCAGAGTCGCGTTTTTGGTACGAACGAAGATAATCGCCGCATCAAAATCTTCCGCTTCCAG -GAAACGTACCAGTGCTTCGTTTTTGCGCATACCCCAGACAGTCCAGTAGCTCTGGCTGATGTCAGGACGG -GTAGTCACGCTGGACTGAATGCGCACTTCCTGCGGCTCTTTCATAAAGCGGCGGGTAATGCGACGAATCG -CTTCCGGCATGGTTGCAGAGAACAGAGCGGTCTGATGACCTTCCGGGATCTGCGCCATAATGGTTTCAAC -GTCTTCGATGAAGCCCATGCGCAGCATTTCGTCAGCTTCATCCAGAACCAGACCGCTCAGTTTAGAGAGG -TCCAGAGTGCCACGTTTCAGGTGGTCCAGCAGACGGCCCGGAGTACCGACAACGATCTGCGGCCCCTGAC -GCAGGGCGCGTAATTGCACGTCATAACGCTGGCCGCCGTACAGAGCAACCACATTTACGCCGCGCATGTG -TTTAGAGAAATCCGTCATTGCTTCAGCAACCTGTACCGCCAGTTCGCGGGTCGGTGCCAGCACCAGAATC -TGTGGTGCTTTCAGCTCAGGATCAAGATTCTGCAACAGAGGTAAAGAGAATGCTGCAGTTTTTCCGCTCC -CCGTCTGGGCCATACCCAGAACGTCGCGGCCATTCAGCAGATGTGGAATACACTCTGCCTGAATTGGAGA -TGGTTTTTCGTAACCCAGATCGTTAAGGGCTTCAAGGATAGGAGCCTTCAGGCCCAGATCTGCAAAAGTG -GTTTCGAATTCAGCCATGTAGTACGTGTGCCTCAAAATTAATGGCGGCCAGTCTACATAACTCATCATGA -AATTGATCAGCAATTTTCATTGAAAAGTGTGAACCGGCTCAAAGTAGGTGTATTAACGAACAACAACGCC -CTCACCCGTTAAGGTGATGGCAATCAAAAAAGATTACGGGCTGATGTGTACGTCAGCTATTGCTGGTCCG -ATTCTGCCAGGTCATCTTGGTCCTGGCCCAGGAGCGATAATTCCAACAATGCGTATCGGTGCTCAACAAA -GTTATGAACGTTGTTGGCAACCGCCAGTTTGAACAGTGCCGTGGCGCTGTCCAAATCCCCCAGACTTAGG -TAGTACTTACCTAAATAGAAGTTGGTTTCACTGAGATGCTCAGCGAGCGAGGTGTTATCCGTTGCGTCCG -CCTTGAGCCTTTCCATTAACGTTTGTTCGCTAATGTTGCCCAGGTAGAACTCGACAATGTTCCATCCCCA -CTGTTCCTTATCCGATTTTTCGAAGTGCTGTTTCAACACTTCTTTAGCCTGCTTCTCATCGAGCTTCTGC -TCGGCGAGATAAAGCCACAGACTACGGAAAGGATCATTGGGATCGTCTTGATAAAACGCCAGCAGATCAT -CTTGCGCTAACTTGTCACGACCGCCGTAATATAATGCGATCCCGCGATTCAAGTGCGCGTAGTTGTAAGT -TGGATCAAGCTCAAGTACAGAATCAAACGCTTCATAGGCAGCATCAAAATTGCCTGCCTGCGTTAAATAT -ATGCCTAAGTAATTGAATACTTCAGGCATATCCGGTCGGATTGCCAGCGCTTGCGAAAAATCGTTACGCG -CTAATGCCCTCAGACCGAGACTATCATACAACACTCCGCGCTCATATAAAAGCTGTGCGCGTTCGTCATC -GGTTAAAGCCCGACTGGCAAGGATTTGTTCCATACGTGCCAGAATCACTTCCTGCTGTAAAGTCGGTTGC -AATGGTACCGCGAGGACTTCACTTTTACGCCAGGAAGTATTACTGCATCCTGCAAGCGTAAGTGCTGTCG -CAACGAAACACCAGCGCAAAAAAGGCTTCATTTCCCACTCCCGAAGACCACGGTTGAATGAACGTCCTGT -TCCCGGTTGCTAACAAGGCGTCCTGCCCGGTTAAAAGCCCCCCGCCGCAGCGGAGGGCAAATGGCAACCT -TACTCGCCCTGTTCAGCAGCCGGAGCTTCCGGTGCTGCAGCAGGTTGAGACTGCTCAGTCGCTTCTTTAA -TGCTCAGACGGATACGGCCCTGGCGATCAACTTCCAGAACTTTCACCGGTACTTCCTGACCCATCTGCAG -GTAATCGGTCACTTTCTCAACGCGTTTGTCAGCGATTTGAGAGATGTGGACCAGACCTTCTTTACCGCCG -CCGATGGCAACAAATGCGCCAAAGTCAACGATACGGGTCACTTTACCAGTGTAGACGCGGCCCACTTCGA -TTTCTGCAGTGATCTCTTCGATACGACGAATAGCATGTTTCGCTTTCTCGCCGTCGGTCGCTGCAATCTT -CACAGTACCGTCATCTTCGATTTCGATGGTGGTGCCAGTTTCTTCGGTCAGAGCACGGATTACAGAACCG -CCTTTACCGATAACATCTTTGATCTTGTCCGGGTTGATCTTGATGGTATGGATACGCGGTGCGAACTCAG -AGATATCGCCACGCGGCGCGTTGATCGCCTGTTCCATTACGCCCAGGATATGCAGACGCGCACCTTTAGC -CTGGTTCAGCGCAACCTGCATGATCTCTTTGGTGATACCTTCAATTTTGATATCCATCTGCAGTGCAGAG -ATACCGTCGCGGGAACCTGCAACTTTGAAGTCCATATCGCCCAGGTGATCTTCGTCGCCCAAAATGTCAG -ACAGTACAACGTAGTTGTCGCCTTCTTTCACCAGACCCATTGCGATACCCGCAACGGCAGCTTTGATCGG -CACACCTGCGTCCATCAGCGCCAGAGACGCGCCGCACACGGAAGCCATAGAAGAGGAACCGTTGGATTCA -GTGATTTCAGACACAACACGTACGGTGTACGGGAATTTGTCCATATCCGGCATGACTGCCAGCACGCCGC -GCTTCGCCAGACGACCGTGACCAATTTCACGACGCTTCGGAGAACCGACCATGCCGGTTTCGCCTACGGA -GTACGGAGGGAAGTTGTAGTGGAACAGGAAGGTATCGGTACGTTCGCCCATCAGTTCATCAAGAACCTGC -GCGTCACGAGCAGTACCCAGCGTTGCGGTAACCAGCGCCTGCGTTTCACCACGGGTGAACAGCGCAGAAC -CGTGAGTACGCGGCAGCACGCCAGTACGCACATCCAGACCACGGATCATATCTTTTTCACGACCGTCGAT -ACGCGGTTCGCCTGCCAGTACGCGGCTACGAACAACGTTTTTCTCGATCGCGTGCAGAATTTCACCCAGT -TCGTTTTCGTCCAGGGTTTCGTCTTCAGCAAGCAGCGTCGCGATGGTTTCAGATTTGATGACATCAACCT -GCGCATAACGCTCTTGTTTGTCGGTGATGCGGTAAGCATCGCTCAGGCGAGCTTCAGCCAGTGCAGCAAC -GCGCGCGTTTAGCGCTTCGTTTACCGGCTCCGGCTGCCAGTCCCAACGCGGTTTACCGGCTTCTTTCACC -AGTTCATTGATGTTCTGAATAACAACCTGCTGTTGTTCATGACCGAACACTACTGCGCCCAGCATCTGGT -CTTCGCTCAGCAGTTGAGCTTCAGATTCAACCATCAGTACAGCGGCTTCAGTACCGGCAACAACCAGATC -CAGTTTGCTCTCTTTCAGCTCGTCCTGAGTCGGGTTCAGTACGTACTGGTCATTGATGTAACCTACGCGG -GCAGCACCAATCGGGCCATTGAACGGAATACCAGACAGAGACAGCGCTGCGGAAGCACCAATCATCGCGA -CGATATCCGGGTTAACTTGCGGGTTAACAGAAACCACGGTGGCGATAACCTGAACTTCGTTGACGAAGCC -TTCCGGGAACAGCGGGCGAATCGGGCGGTCAATCAGACGCGCGATCAGGGTTTCGCCTTCGCTTGGGCGG -CCTTCACGACGGAAGAAGCTACCCGGGATACGACCAGCAGCGTAGGTACGCTCCTGATAGTTAACGGTCA -GTGGGAAGAAGTCCTGACCTGGTTTGGCTTTTTTCTGGCCAACAACGGTAACGAATACCGCGGTGTCATC -CATGCTAACCATAACAGCGGCAGTAGCCTGACGAGCCATCATGCCGGTTTCCAGAGTCACGGTGTGTTGG -CCGTACTGGAATTTACGAACGATCGGATTAAGCAATGTAATATCCTTTCTCTTTCTTAGACAGTACCTTA -CGGCACTGGTGTTAATACCCGATCTTCTGCGCATCCTCGCGACTAATGACAACCCTAACCCAGCTCTATG -TGGGTAAAGCCTCTCATTAGCCGCGCGAACCTCTGCAACGGAAGATCATTCATAGCAACAATACATTAGT -TTCCAGTGAATTGCTGCCGTCAGCTTGAAAAAAGGGGCCACTCAGGCCCCCTTTTCTGAAACTCGCAAGA -ATTAGCGACGCAGACCCAGGCGCTCGATGAGCTGGGTGTAACGTGCTACGTCTTTACGTTTCAGGTAGTC -GAGCAGTTTACGACGCTGAGAAACCATGCGCAGCAGACCACGACGGCTGTGGTGATCTTTTTTGTGCTCT -GCAAAGTGGCCCTGCAGGTGGTTGATCTGTGCAGTCAGCAGTGCTACCTGAACTTCGGTAGAACCGGTGT -CGTTTGCGTCACGACCAAACTCAGAAACGATTTTAGCTGTTGCTTCAGTACTTAGAGACATTTTAAAACT -CCAAAGTATATAGAATGAAAGGACGCCGATCTCTAATTCAGCGATCCCAGTGTACGTTACGCAAAGTGTT -AAACAATTTACGCGACGTTAAGCGGCAGTATTCTACTCGTAGCGACCTGTTATCGCAAGACGGTTAACAT -TACGCCGGGTATTCAACCACCAGGCGACGAGGCGCAACGCGGCCTTCATCGTCAATTTCGCCCATACCGA -TAAATTTGCCGTTCTCACCTTCCGTGACGCGAACCAGTCCTTCCAGTGGCGCACCAGATGTACGAACCGG -GTTACCATTTTTGAAGTAAACAGAAGACGTTAACGGAAGATTCACCACCGGATAGTCCGAAGCTGGACTG -TCCATTGGCATCAGTAATGGATCAAGTAACTCCGCGGCTGGAATATCCTGCTGTTCAGCTTGCTCAACAA -GTTCACGCAGGTGCTCCAGGGTCACCATCCGTTCAACCGGATATTTACTTACCGCCAGACGGCGCAGGTA -AATAACATGCGCGCCACAGCCGAGTTTTTCACCCAGGTCATCAATGATGGTGCGGATATAAGTGCCTTTT -GAGCAGTGAATTTCCAGCTCCAGCTCATTGCCTTCATGGCGAATAAACAGCAATTCATAAACGGTAATCG -GACGCGCTTCACGCGGAACTTCAATGCCCTGACGCGCATATTCGTACAGTTTTTTGCCCTGATATTTCAG -TGCTGAATACATCGAAGGGATCTGTTCGATATCGCCACGGAAAGTATCCAGTGCCGCTGCCAGCTGCTCT -GCGCTAAAGGTTACCGGACGTTCTTCAACGATCTGTCCGTCGGCATCAGAAGTATCGGTACGCTGTCCAA -GACGCGCAATGACCCGATAGCGTTTGTCGGAGTCCAGCAGATACTGGGAAAACTTCGTCGCTTCCCCGAG -GCAAATCGGCAACATGCCGGTCGCCAGCGGGTCCAGCGCACCGGTATGCCCGGCACGGTTGGCGTTATAT -ATACGTTTCACTTTTTGCAGCGCATCGTTGCTGGACATACCCTGAGGTTTATCCAGCAACAAAACGCCGT -TAATGTCGCGACCGCGACGACGAGGACGACTCATTAGTCCTCCTTGCTGTCGTCCGGGTTAACACGACGT -TCTTCGTCATGTTTGACCACGCTGGTCACCAGGTTTGACATGCGCATCCCTTCAACCAGAGAGTTGTCGT -AGAAGAAGGTCAGTTCCGGCACGATACGCAGGCGCATCGCTTTCCCCAGCAGGCTGCGGATGAAACCAGA -AGCTTCTTGCAACGCTTTGATGCCCGCTTTAACCGCGTCTTCATCTTTGTCGTTGAGGAACGTCACATAT -ACTTTGGCATACGCCAGGTCGCGAGACATTTCGACACCGGAAACGGTGGTCATCATGCCCAGGCGAGGAT -CTTTAATTTCACGCTGCAGGATGAGAGCGATCTCTTTTTGCATTTCCTGCGCTACGCGCTGCGGGCGACC -AAATTCTTTCGCCATAATAAATTCTCCTGACAAAAAAGGGGCTGTTAGCCCCTTTTTAAAATTAATTTCA -GGTGGAAGGGCTGTTCACGTTGACCTGATAAGACGCGCCAGCGTCACATCAGGCAATCCATGCCGGATGC -AGCGTAAACGCCTTATCCCGCATGGAACCCTAAAAACCTTAAGCAATGGTACGTTGGATCTCGATGATTT -CGAATACTTCGATCACATCGCCAGTGCGGACGTCGTTGTAGTTCTTAACGCCGATACCACATTCCATACC -GTTACGGACTTCGTTAACGTCATCTTTGAAGCGGCGCAGGGACTCCAGCTCGCCTTCGTAGATAACCACG -TTGTCACGCAGAACGCGGATCGGGTTGTGACGTTTAACCACACCTTCGGTAACCATACAGCCTGCGATGG -CACCAAATTTCGGCGATTTGAACACGTCACGAACTTCCGCCAGACCGATAATCTGCTGTTTCAGTTCCGG -AGACAGCATACCGCTCATCGCCGCTTTCACTTCGTCAATCAGGTTATAGATGACGGAGTAGTAACGCAGA -TCCAGGCTTTCCGCTTCAATCACTTTACGTGCAGAGGCATCAGCACGTACGTTAAAGCCAACCAGGATGG -CGTTGGACGCCGCAGCCAGGGTGGCGTCGGTTTCGGTGATACCACCTACGCCAGAACCGATGATCTTCAC -TTTAACTTCGTCAGTAGACAGTTTCAGCAAGGAGTCGGAGATCGCTTCGACAGAACCCTGTACGTCTGCC -TTCAGGACGATATTCACTTCGTGAACTTCGCCTTCGGTCATGTTGGCGAACATGTTCTCGAGTTTAGATT -TCTGCTGACGCGCCAGTTTAACTTCGCGGAATTTACCCTGACGATAGAGTGCAACTTCACGCGCTTTCTT -CTCGTCACGTACAACGGTAACTTCATCACCCGCAGCCGGTACGCCGGACAGGCCGAGGATTTCCACCGGA -ATGGACGGACCCGCTTCCAGCACTTCCTGACCCAGTTCGTTACGCATCGCACGAACACGACCGTATTCGA -AGCCACACAGAACGATATCGCCCTTGTGCAGAGTACCTTCACGTACCAGAACGGTAGCAACCGGACCACG -ACCTTTATCGAGGAAGGATTCGATAACCGCACCGCTCGCCATACCTTTACGTACCGCTTTCAGCTCCAGA -ACTTCCGCCTGCAGCAGGATAGCGTCCAGCAGTTCATCGATACCGGTACCCGCTTTCGCAGATACGTGTA -CGAACTGGCTTTCACCGCCCCACTCTTCCGGCAGGATGCCGTACTGGGAGAGTTCGTTCTTAACGCGATC -CGGATCAGCTTCTGGTTTATCGATCTTGTTCACTGCAACCACCACCGGTACCTGCGCCGCTTTCGCGTGC -TGGATTGCTTCGATGGTCTGCGGCATCACACCGTCGTCGGCAGCAACAACCAGGACTACGATGTCCGTTG -CCTGCGCACCACGAGCACGCATTGAAGTAAACGCGGCGTGCCCCGGGGTGTCCAGGAAGGTGATCATGCC -GTTTTCAGTTTCAACGTGGTATGCACCAATGTGCTGGGTAATGCCGCCCGCTTCGCCAGAGGCCACTTTC -GTTGAACGAATGTAGTCCAGCAGAGAGGTTTTACCGTGGTCAACGTGACCCATGATGGTCACAACCGGCG -CGCGCGGTTCAGCCGCAGCACCCGTGTCACGGTCGCTCATTACCGCCTCTTCCAGCTCGTTTTCACGACG -CAGGATAACTTTATGGCCCATCTCTTCAGCAACCAGCTGTGCGGTTTCCTGATCGATAACCTGGTTGATG -GTTGCCATTGCGCCCAGTTTCATCATCGCTTTGATGACCTGAGAGCCTTTAACCGCCATCTTGTTCGCCA -GTTCGCCAACGGTGATAGTTTCGCCGATCACAACGTCACGGTTAACGGCCTGAGCAGGCTTCTGGAAGCC -TTGCTGCAGCGAAGAACCTTTACGTTTTCCGCCTTTACCGCCACGTACTGCTGCGCGTGCTTCTTCACGA -TCAGCTTTTGATTCAGCGTGTTTGTTGCCTTTCTTCGGACGCGCTGCTTTCGCGTTACGACCACGGCCAC -GGCCGCCTTCGACTTCACGATCGCTTTCGTCTTCTGCCTGGCGAGCATGTTGAGAAGTAGTGACGTGATA -ATCGCTGGAATCTTCAGTCGGTTCCGCGTTATCAGTCCATTTGTTTTCTTCCGCCATACGACGTGCTTCT -TCAGCAACGCGACGTGCTTCTTCTTCGAGTTTACGACGCGCTTCTTCTTCAGCTTTACGCTTGAGCTCTG -CAGCTTCCTGCTCACGGCGGGCTTTTTCAGCCTGGGCGTTTTTAGTCATATCGTCTTGTTGATTGCTCAC -TTTGTCTTTTTCCGCAGCTTCACGTTTCGCTTGTTCAGCAGCTTCACGCTTAGCTTGTTCTGCGGCCTCA -CGTTCAGCTTTTTGTTGCGCCTCGCGTTTAGCCGATTCTTCTGCCTCACGACGGGCTTGCTCTTCCGCTT -CACGCTGCGCTTGCTCTTCCGCTGCAAGGCGTTCAGCCTCTTGCGGATCGCGTTTCACAAAGGTGCGTTT -CTTGCGGACTTCGATTTGTACCGATTTGCTTTTTCCACCGGTACCAGGAATGTTAAGGGTGCTGCGTGTT -TTACGTTGCAGCGTCAATTTGTCCGGGCCTGAATTTTTCTGATTCAGGTGGTCAATCAAAGTCTGTTTCT -CTTGTGCAGACACAGAGTCGTCAGCAGACTTCCGGATACCTGCATCAGCAAATTGCTGTACCAGGCGTTC -CACGGAGGTCTGTCGCTCTGCGGCCAGCGTTTTAATCGTTACATCTGTCATGCTGTTCCTTCCTGCTACA -GTTTATTACGCTTCGTCACCGAACCAGCAAATATTACGGGCAGCCATAATCAGTGCTCCGGCTTTTTCGT -CGGTCAACCCTTCGATATCAGCCAGATCATCAATGCCCTGTTCGGCGAGATCTTCCAGCGTACAAACGCC -ACGGGCGGCCAGTTTGAATGCCAAATCACGATCTACCCCTTCAAGGTTCAGCAGATCGTCAGCCGGTTTG -TTATCACCGAGGCTTTCTTCCTGGGCCTGTGCAATGGTGGCCAGTGCATTTTTAGCACGCTCGCGCAGTG -CTTCAACGGTCGGCTCATCAAGGCCTTCGATTTCCAACAGCTCTTTCATCGGCACATAGGCCAATTCTTC -CAGCGTCGAGAAGCCTTCTTCTACCAGAACAGTCGCGAAGTCTTCGTCGATGTCGAGATATTTGGTGAAG -GTGTCGATCGCTGCGTGCGCTTCCGCCTGATGCTTAGCCTGCAGGTCGTCAACGGTCATCACGTTGAGTT -CCCAACCGCTCAGCTGCGAAGCCAGACGCACGTTCTGACCGTTACGGCCAATCGCCTGCGCCAGGTTACC -GGCTTCAACGGCGATATCCATGGTGTGTTTATCTTCATCCACCACGATAGAAGCAACGTCTGCCGGTGCC -ATTGCGTTAATCACGAACTGCGCCGGGTTATCATCCCACAGGACGATATCGATACGCTCGCCACCCAGTT -CAGTAGACACCGCCTGAACACGCGCGCCACGCATACCTACGCAAGCACCTACCGGATCGATACGTTTATC -GTTGGTTTTCACCGCGATTTTCGCACGAGAACCCGGATCGCGAGCCGCTGCTTTAATTTCAATCACTTCT -TCGCCGATTTCTGGCACTTCAATACGGAACAGTTCGATCAGCATTTCCGGCTTGGAACGAGTGACGAACA -GTTGCGCGCCACGCGCTTCCGGGCGAACGGAATAGAGCACGCCACGAACGCGGTCGCCAGGGCGGAAGTT -TTCACGCGGCAGCATATCTTCGCGCAGGATCACGGCTTCAGCGTTGTTGCCCAGATCCAGAGAGATGTTG -TCGCGGTTTACTTTTTTCACCACGCCGGTGATGATTTCACCTTCGTGTTCACGGAACTGATCAACCACCA -TCGCACGTTCGGCTTCACGCACTTTCTGCACGATAACCTGTTTTGCCGTCTGGGTAGTGATACGGTCAAA -GGTAACAGACTCAATCTGATCTTCAACGTAATCGCCCAGGTTCAGGCTTTCATCTTCATAACGTGCGGCT -TCAAGGGTGATTTCCTTGGTCGGCTGGGTGACTTCATCAACAACTAACCAGCGACGGAAAGTGTCAAAAT -CACCGCTTTTGCGATCGATCTGTACGCGGACGTCGATCTCTTGTTCATATTTTTTCTTTGTTGCTGTCGC -CAGCGCGCTTTCCAATGCTTCGAAAATCTTCTCGCGAGGTAGCGCCTTTTCATTGGATACGGCTTCAACT -ACAGCCAAAATTTCTTTGTTCATCGCGGGCTTTTCACCTCATCCAGACTATTAAAAGTGGGGAACCAGGT -TCGCCTTCTGGATATTACTCAGCGCGAACACTTCATCTTTACCTTCGACGGTAACTGTGATCATTTCACC -GTCTACCGCTTTGATAACGCCCTGCCATTTACGACGGTTTTGTACCGCCATACGGAGAACCAGAGTCACC -TCTTCTCCGACAAAACGGGCGTAGTGTTCAGCCGTGAACAGTGGGCGATCGAGACCCGGTGAGGAGACTT -CCAGGTTATAAGCAACGGTGATGGGATCTTCAACATCCAGCACAGCACTTACCTGGTGGCTCACATCAGC -ACAATCATCAACATTGATGCCATCTTCACTATCAATATAGATGCGCAGTGTGGATGTGCGACCGCGAATA -AATTCGATGCCAACCAGTTCAAAACCCAGGGCCTCAACTGGCGCAGTAATCATCTCTGTTAATTTTTGCT -CTAATGTGGACAAGCCCACCCCCAAGACATAAAAAAAGGGCCTAAAGCCCAGTTATTCTGTAGTCAGATA -ACAAAAAACCCCGATAAATCGGGGCTTTATATAACTGAACCCTATAACCGCAACTGCGGTCTGGAGCACT -TTCCAGAAGGATTTTTTCAAATCCCACTACGAAGGCCGAAGTCTTCACAGTATATTTGAAAAAGGACTCT -AAGGGAAAGTGGTTGCGGGGGCCGGATTTGAACCGACGATCTTCGGGTTATGAGCCCGACGAGCTACCAG -GCTGCTCCACCCCGCGCCTGAAACGTGGCAAATTCTACTCGTTTTGGGTAAAAAATGCAAATACTGCTGG -GATTTGGTGTACCGAGACGGGACGTAAAATCTGCAGGCATTATAGTGATCCACGCCACATTTTGTCAACG -TTTATTGCTAATCATGTGAATGAATATCCAGTTCACTTTCATTTGTTGAATACTTTTGCCTTCTCCTGCT -CTCCCTTAAGCGCATTATTTTACAAAAAACACACTAAACTCTTCCTGTCTCCGATAAAAGATGATTAAAT -GAAAACTCATTTATTTTGCATAAAAATTCAGTGAGAGCGGAAATCCAGGCTCATCATCAGTTAATTAAGC -AGGGTGTTATTTTATGACGACGATTCTCAAGCATCTCCCGGTAGGTCAACGTATTGGTATCGCTTTTTCT -GGCGGTCTGGACACCAGTGCCGCACTGCTGTGGATGCGACAAAAGGGAGCGGTTCCTTATGCATATACTG -CAAACCTGGGCCAGCCAGACGAAGAGGATTATGATGCGATCCCTCGTCGTGCCATGGAATACGGCGCGGA -GAACGCACGTCTGATCGACTGCCGCAAACAACTGGTGGCCGAAGGTATTGCCGCTATTCAGTGTGGCGCA -TTTCATAACACCACCGGCGGCCTGACCTATTTCAACACGACGCCGCTGGGCCGCGCCGTGACTGGTACCA -TGCTGGTTGCTGCGATGAAAGAAGATGGCGTGAATATCTGGGGTGACGGTAGCACCTACAAAGGAAACGA -TATCGAACGTTTCTATCGTTATGGTCTGCTGACCAATGCTGAACTGCAGATTTACAAACCGTGGCTTGAT -ACTGACTTTATTGATGAACTGGGCGGCCGTCATGAGATGTCTGAATTTATGATTGCCTGCGGTTTCGACT -ACAAAATGTCTGTCGAAAAAGCCTACTCCACAGACTCCAACATGCTTGGTGCAACGCATGAAGCGAAGGA -TCTGGAATACCTCAACTCCAGCGTCAAAATCGTCAACCCGATTATGGGCGTGAAATTCTGGGATGAGAGC -GTGAAGATCCCGGCAGAAGAAGTCACAGTACGCTTTGAACAAGGTCATCCGGTGGCGCTGAACGGTAAAA -CCTTTAGCGACGACGTAGAAATGATGCTGGAAGCTAACCGCATCGGCGGTCGTCACGGCCTGGGCATGAG -CGACCAGATTGAAAACCGTATCATCGAAGCGAAAAGCCGTGGTATTTACGAAGCTCCGGGGATGGCACTG -CTGCACATTGCGTATGAACGCCTGTTGACCGGTATTCACAACGAAGACACCATTGAGCAGTATCACGCGC -ATGGTCGTCAGTTGGGCCGTCTGCTGTACCAGGGGCGTTGGTTTGACTCCCAGGCGCTGATGCTGCGTGA -CTCTCTGCAACGCTGGGTTGCCAGCCAGATCACTGGTGAAGTTACCCTGGAGCTGCGCCGTGGGAACGAT -TATTCAATCCTGAATACCGTCTCAGAGAACCTGACCTACAAGCCAGAGCGTCTGACGATGGAAAAAGGCG -ACTCGGTGTTCTCGCCAGATGATCGTATTGGTCAATTGACCATGCGTAACCTGGATATCACTGATACCCG -CGAGAAACTTTTCGGTTATGCCAAAACTGGCCTGCTTTCCTCCTCTGCCGCTTCAGGCGTGCCGCAGGTG -GAGAATCTGGAAAACAAAGGCCAGTAATTCGACATCAACCCTGCCCTTCAGGGGTGGGGTTACCTTGCTT -ATCCTCTGTAAACTCCTTTCTGAGCATCACATAATCGAAAACATCATGGTTTGCATCCACAACCCGTGAG -TCTCCTTTATAGTGTGCAATCACTTCCTCAAGCGTTTGCGGCTGTTCCGGCTTTGTTACCCCCATCCACG -CATTAATAAGGTAATTATTGTAAGCTGTCGAAAAGATGTTGTTTTCCGTTGTGCGATCCACGCCATCCCC -AAGAACGGGGCTATACCAGATAAACATCGGGACATGATATGCCTGCTGGCTAGCCTCCCTGCCTCCATGA -AAATAGACGTTCTTCTTCGTAGGGTCACGTTCCAGGCCGTGGTCGGCAAAATACATGACCGAGGCGCGGC -GATCTTTTAATAATTCAAAAACCTGACCTAGCAAACTATCTGTGTAATGAATGGAGTTGTCATAGCAGGC -ATCCTGATCGTCCTGCGGTTGAAACACGGCGCTGGATTGCGGATAGGCGCTACAAGCCGGTTCATGGCTT -CCATTTAAATGAAGAACAATCAGTTTCTTTTGCTGCGTATTTTGCTGTAATGCTTGCGATAAATGCGGCA -ACAACAATTCATCAAATCCTCTGACATAAACTGTTTCCATGGCGCGCATGGCGATACTGGTAACTGCTGT -ACCATTCTGCCGAAAAGCGGATTGCGAGCTTAGCCAGAAAGTCTGAAATCCTGCTTGATTAGCCATATTA -ATAATGTTGTCGGGGTAATTATGAATGTCATGACTCAAAACAGAATCAGCAGTTAAAGAAAGGGGAACCG -ACAGCGCAGTGTAAGGTGCGCCGCTTATTGCTTGATTAAACAGTTTGATCTGTTTTCTTTGTGCTTCAAC -TTGCGGTGTCGTAGAGCGTGTATATCCATACAAAGACATATTGTCGACACGTACAGACTCCCCCACAATC -AACACGTAGGTATCAATACCTGTATCCCTGACTGATAATTGAAAATACGGCACCGTGTTTGCAATTGAGA -GTAATCTTTGATGCTCTTTCGCTGCTAAAGCAAAATAGTTGAGATTGAAAAACGGCGTATAGGTAGCAAA -TCGCGACGCTAGTATATATGGACTGAACGCTTTTTTATTTTTTGCATCTTTATAAGCAAATTGACAAGCG -GAAAATAAACTGCCCGAAATGACAATCAGCAATAATATTCCTGTCACTTTTTTTGTCGGCAAGGAAACAT -CATATTTTATTATTACTGCCAAAAAAAGAAGGGATAAAAAAGCAAAGGCACATAGATAAGGGATATACAT -CCCCAGCATTTTGACAACTTCATCCGGATCACTCTGGAGCACACTAATCGCAAATCCATCATTGAAAGTT -GTACCAAAGGTACACCATGAATAGAGGCTAATACTCATGTCTGCCGCAGTCAGTAACACAAATGGTGCGG -CAACAAGCAGGCGAAGCGGAAGGGATGATATACGTTTTACAACCAGGATGGTCAGAACGAAGAACAGCAA -GCGCTGAACCATATGCGCTCCGGAAGAAGCGACTAAGTTCGTAATACCAAAAACAATAACACAAAGATAC -AACAACCAATGAGATTTAAAAGTTCTAGCAAATTTGTTGAATACTGTCATCCAGAAATCCAAGTTCACAA -CCAATATAAACAATTATCAACAATGTTTAATTTTATATCAGACATGTTTTTCAACTCTGATCCATATCAG -AACGAAACACTGTTAGTTTTTTCTTTTTAAATGATGCGGCCATTGCGTTCTCAGTAATTAAATAACATTA -TCAATGCGTCTCTAAACATTACGCAGAACGTAGCCATCAGTCGTTATACTGACAGGAGCAGGATGGTTTA -TCGAGAAGTAAACATATCCGTATTCGTACCGGAACTGGAGTTGACACAATAAAGTGCCAATTATGTCAGT -AGAAGGGAAAAATTTATAACTAAGGCGTACCGGCACCATCGTTTCAAGGTACCAGCTACGAGTAAAGCAA -CTGGACGAGATACAGATACCTGACAACCATTCCTCAGACCAGGACCAAAACGAAAAAAGACGCTTTTCAG -CGTCTCTTTTCTGGAATTTGGTACCGAGGACGGGACTTGAACCCGTAAGCCCTATTGGGCACTACCACCT -CAAGGTAGCGTGTCTACCAATTCCACCACCTCGGCACGGATACTACTTTTTAGTTCGGGATATCGCTGGT -CGGCTTAGCCGGAGCAGCTGGCTGAGTTTGTTCGGTTTTCGCCGGTGCACTCAGATTTTCCCATTCGCTA -CCTTTATTGGTTTTGTTGCTATTGATGTTACCCAGCACCAGACTGATGATGAAGAATAACGTTGCCAGCA -GCGCCGTCATGCGGGTCATGAAGTTACCAGAACCACTTGAACCAAACAGCGTAGCGGAAGCGCCTGCTCC -GAAGGAGGCTCCCATATCAGCGCCTTTACCTTGCTGCAGCATGATCAGACCAACAAGGCCAATTGCCACA -ATAAGGAAAACTACTAAAAGAGCTTCATACATAATCAACCTGTTCCTTGCGGAGTTGCCGCGTACCAATG -CTTCAACCAATAAAGCGGGAGTTTTTAATCTTTCCCACTGAAGCGGGTGTGAATACTAACCAAAGCGAAT -GACCTTCGCAAGGGCAATTTTATCGCATTGTATCAACTGCGGAAAAAAACAGCAAAACCGATGTGTTCGC -TGAGAAAAAAGGCGACAATCGCCGCCTTTTTAGCCAGTTATCTAACGCTTTAAACGGCTTTTACTGCATC -GGCGATGCGGTGTGCAAATTCAGTCACCTGCGCTTCGTCTTCGCCTTCCACCATCACGCGAATTAACGGT -TCGGTGCCGGATTTACGCAGCAACACGCGTCCACGGTTGCCCAGCGCAGCTTCAACCTCTGCGGTCACGG -CTTTAACTGACTCATGCTCAAGTGGATCGCCGCTACCTGCGGTGTAACGTACGTTAACCAGAATCTGCGG -GAACATTTTCATGCCGCTGCAAAGGTCGTGCAGGCTCATATGGTTACGTGCCATCGCCGCCAGCACCTGC -AAGCCAGCAACGATGCCGTCACCGGTAGTAGTTTTATCCAGCAGGATCACATGACCGGAATTCTCTGCAC -CGATACGCCAGCCTTTCTCCTGCATTTTTTCCAGTACGTAGCGGTCACCCACTTTCGCGCGCGCAAATGG -AATTCCTAACTGTTTCAGCGCCAGTTCAAGCCCCATGTTGCTCATCAATGTACCCACAGCGCCACCACGC -AGCTGGCCCTGACGAAGACCTTCACGCGCGATGATATACATGATCTGATCGCCATCGACTTTATTGCCTT -CATGGTCAACCATAATCACGCGATCGCCATCGCCGTCGAAGGCAATACCGAGATCCGCTTTTTCAGCCAG -CACACGAGCCTGGAGCGCGCGAACGTCGGTAGCCCCCACTTCGGCATTGATGTTTACACCGTTTGGCTCA -CAACCGATAGCGATAACGTTCGCCCCCAGTTCGCGCAGCACGTTCGGCGCGATGTGATAAGTCGCACCGT -TTGCACAATCCACCACAATCTTCAGTTCACTGAGGCTAAGTTCGTTCGGGAACGTGGCTTTGCAAAACTC -GATATAGCGACCCGCGGCATCAACGATACGGCTGGCTTTACCCAGTTCTGCCGAATCAACGCAGCTGATC -TCCTTTTCCATTTCCGCTTCGATGGCCTCTTCTACCGCATCCGGCAGTTTGGTGCCGTCGATAGAGAAGA -ATTTAATGCCATTATCGTAGAACGGGTTATGCGATGCAGATATCACAATTCCGGCCTCTGCGCGGAAGGT -ACGCGTCAGATAAGCCACGGCCGGTGTTGGCATCGGGCCAGTGAAGAGTGCGGAAAGGCCCGCTGCCGCC -AGACCCGCTTCCAGTGCTGACTCCAGCATATAGCCAGAAATACGCGTGTCTTTACCAATAATAATCTTAC -GGGAGCCGTGGCGCGCCAGCACTTTACCCGCGGCCCAACCCAGCTTAAGCACAAAATCAGGTGTGATCGG -CGCATCCCCTACACGACCACGAATCCCATCGGTACCGAAATATTTACGATTACTCATAGCGTTTGTTTTC -CTTTGCAGACAGAGTGGCTTCCACCACCCGCATCGCTTCTACGGTTTCTTTGACGTCATGAACACGAATG -ATGTGCGCGCCTTGCATTGCGGCAATGACCGCACAGGCCAGACTACCGCTCAGGCGCTCGGACGGCCCCA -CGTTCAGCAGCTGCCCAATCATCGATTTTCGTGACATACCCACCAACAGCGGCAGGTTGAAATGGTGAAA -TTCAGCCAGGCGCGCCAGTAATGAATAGTTATGGGAGAGATTTTTACCGAAACCGAATCCGGGGTCGAGC -AACAATTTCTCTTTTGCGATACCCGCCTGCTCGCAACGTGCTATTTGCTCAATAAAGTAGCGATTCACTT -CTGCAAAGACATCGTCATACTTCGGAGCTTCCTGCATGGTTTTTGGATTTCCCTGCATATGCATCAGACA -AACCGGTAAACCGGTTTCTGCAGCCGCCTCCAGAGCGCCAGGTTCGGAAAGGGAGCGGATATCATTAATA -ATGTGAGCGCCAACTTTCGCTGACTCACGGATGACTTCTGGTTTGGATGTATCGACTGAGATCCAGACTT -CGAAGCGTTGAGCAATTGCCTCAACCACAGGAATAACACGTTGCAACTCTTCTTCAACGCTAACTTCCGC -CGCCCCTGGGCGCGTGGACTCGCCACCAACGTCAATGATCGTCGCGCCAGCGTTGATCATCAGATTCGCA -TGTTTCACCGCATCTATCAGCGAGTTATGCGTGCCACCATCCGAAAAGGAATCAGGCGTGACGTTGAGGA -TCCCCATTACGTGAGGATGGCTAAGGTCCAGTGAAGTACCCTGGGCAAAGAGTTTCATGATGTTATCCCT -GGTATGAATTGATAAGAAAAAACCCCGGAGCACGCCCCGGGGTTTTCGGTACAAATACAGTCATCTGATG -CGGGAACTTACTTGTCGCCTAACTGCTCTGACATGGTGTTACCCGGGTTCGGCGTACGCGGTTCATCAAC -CGGACGAGGAGCCTTTGGACTACCATTGTCGCCAGAATTGTTAGAAGCGCCTGGTTCTTCCCAGCCCGCT -GGCGGACGTACATCGCGACGTGCCATCAGGTCATCAATCTGCGGTGCGTCGATAGTCTCATATTTCATGA -GAGCATCTTTCATCGCATGCAGAATATCCATATTGTCGGTCAGAAGCTGACGCGCACGATTATAGTTACG -CTCAATCAGTGCTTTCACTTCCTGGTCGATGATACGTGCAGTTTCATCGGACATATGTTTCGCTTTCGCT -ACGCTACGGCCGAGGAACACTTCACCTTCTTCTTCCGCGTACAGCAGTGGACCCAATTTCTCAGAGAAGC -CCCACTGAGTCACCATGTTACGTGCCAGGTTGGTCGCAACTTTAATATCGTTGGACGCACCGGTAGATAC -ATGTTCCGGCCCGTAGATGATCTCTTCTGCCAGACGACCACCGTACAGCGTAGAAATCTGGCTTTCCAGT -TTCTGACGGCTGGCGCTGATTGCGTCGCCCTCAGGCAAGAAGAAAGTCACACCCAGCGCACGACCGCGTG -GGATAATCGTCACTTTGTGCACCGGATCGTGTTCCGGCACCAGGCGACCGATAATCGCATGACCCGCTTC -GTGGTAAGCCGTCGATTCTTTCTGCGCTTCCGTCATCACCATGGAGCGACGTTCCGCACCCATCATGATT -TTGTCTTTCGCTTTCTCGAACTCAACCATCGACACAACGCGTTTGTTGCCACGAGCAGCGAACAGTGCCG -CTTCGTTCACCAGGTTCGCCAGGTCAGCACCGGAGAAACCAGGAGTACCACGGGCAATGATTGCCGCGTC -GATATCGGGTGCCAATGGTACGCGACGCATGTGAACTTTCAGGATCTGCTCACGACCGCGAACATCTGGC -AAGCCGACCACAACCTGACGGTCGAAACGGCCAGGACGCAGCAGGGCCGGGTCGAGAACGTCCGGACGGT -TAGTCGCGGCGATAACGATGATACCTTCGTTACCTTCGAAGCCATCCATCTCAACCAGCATCTGGTTCAG -AGTCTGTTCACGTTCATCGTGACCACCGCCCAGACCAGCGCCACGCTGGCGGCCTACGGCGTCGATTTCA -TCGATAAAGATGATGCACGGTGCCGCTTTCTTCGCCTGTTCGAACATGTCACGAACACGGGATGCACCCA -CACCGACGAACATTTCTACGAAGTCAGAACCGGAGATAGTAAAGAACGGAACTTTCGCTTCGCCTGCAAT -CGCTTTCGCCAGCAGCGTTTTACCGGTACCCGGAGGACCGACCATCAAGACGCCTTTCGGGATCTTACCG -CCGAGTTTCTGGAAGCGGCTCGGCTCGCGCAGATACTCAACCAGTTCAGCAACTTCTTCTTTTGCTTCGT -CGCAGCCCGCAACGTCAGCAAAGGTCGTTTTGATCTGATCTTCCGTCAGCATGCGCGCTTTGCTCTTACC -AAACGACATGGCACCTTTGCCACCGCCGCCCTGCATTTGACGCATGAAGAAGATCCAGACACCAATCAGC -AACAGCATCGGGAACCAGGAGATGAAGATAGAAGCCAGCAGGCTTGGTTCTTCAGGCGGTTCACCGACAA -CCTTGACGTTCTTGGTCAACAGGTTATCCAGTAATTTCGGATCCTGAACCGGAATGTAAGTGGTATAACG -GTTACTATCTTTCTTGGTAACGTTGATTTCACGTCCGTTGATACGCGCTTCACGAACCTGGTCGTTATTG -ACCTCTTGTAGGAAGGTAGAGTAATCCACCTTACGGCCATTAGACTCGCTGGGCCCAAAGCTCTGGAATA -CTGACATCAGCACAACGGCAATGACCAGCCAGAGTATTAGGTTTTTCGCCATGTCACTCAAGGGATTAAC -CTCTTATTACAACTGTGTTAAAAACAGCGTCAGGATACTCTATATCCAGCATCTTTCAAACTTTCGTCTG -AAATCTCCCGGTTAGGGTTTACGCCCGGTCGCTACAATATACACTTCCCGCGAACGTGCACGAGAAGAGT -CCGGCTTACGAACTTTGACCTTCGTAAACAGGGAGCGAATTTCCCTTAGATACTCATCGAAACCTTCGCC -CTGGAACACCTTCACTACAAAACTGCCACCTGGCGCTAATACATCACGACACATTTCTAGCGCCAGTTCC -ACCAGATACATGGCACGGGGGATATCCACCGCCGGTGTTCCGCTCATGTTTGGTGCCATATCGGACATGA -CAACCTGGACTTTGCTGTCGCCAACGCGCTCCAGCAGTGCTTTCATCACCAGTTCATCACGAAAATCGCC -CTGAAGAAAGTCCACACCAACGATAGGATCCATAGGTAAAAGATCGCAAGCGATGATGCGGCCTTTGCCG -CCAATTTGGGTGACCACATATTGTGACCAACCACCCGGAGCAGCACCAAGGTCGACAACCGTCATTCCCG -GTTTAAAGAGTTTGTCACTTTGCTGTATTTCATCAAGTTTAAACCAGGCACGGGAACGTAACCCCTTTTT -CTGTGCCTGTTGAACATATTTATCGCTAAAGTGTTCCTGAAGCCAGCGGCTGGAGCTGGCAGAACGCTTC -TTACCTGTCATTTAACTTTCCCATGGGGATAACTCATCGTAACCAATTGCGTAAATTTTTACGCGCCTAT -TTGGTGATATATGGGAGATGGCGGTAGAATGACCCGTTTTCAATCCCAACGTAAGCAAAAAATACGATGA -ATCTGAGTACTAAACAAAAACAGCACCTGAAAGGTCTGGCACATCCGCTCAAGCCAGTTGTTCTGCTTGG -CAGTAATGGTTTGACCGAAGGGGTGCTGGCCGAGATTGAACAAGCGTTAGAGCACCATGAACTCATCAAG -GTGAAAATCGCCACCGAAGATCGCGAAACTAAAACCTTGATCGTGGAAGCTATCGTGCGCGAAACCGGCG -CCTGTAATGTACAGGTCATCGGTAAAACGCTGGTGCTTTATCGCCCAACTAAAGAACGTAAAATCTCGCT -GCCACGCTAAGATTATCCTAAAGTTACACACATTTGCTGTGTAAAACGAGGGGTTTTCCGCAGGCAGGAG -AGCAAAATGCCACGCTCTGTTCGTTGATAAAAGGCCGCATAGCGGCCTTTTTCCTTTCTTTACAATACAT -CAACATCTTGAGTATTGGGTAATTCTTACAGGTATTCCACCTTAATTACTTCAAATTCTACTTCGCCGCC -CGGCGTTTTGATGACCACAACATCATCTTCTTCTTTGCCGATCAGGCCACGAGCAATAGGCGAGTTTACA -GAAATCAGGTTTTGTTTAAAGTCAGCTTCGTCATCGCCAACGATGCGATAAGTCTGTTCTTCGTCAGAAT -CCAGATTCAGCACCGTTACGGTAGCACCAAAAATAACGCGCCCATTGTTGGGCATTTTGGTGACATCAAT -CACCTGCGCGTTCGACAGCTTGGCTTCGATGTCTTTAATACGGCCTTCGCAGAAACCCTGCTGTTCACGA -GCTGCGTGGTATTCGGCGTTTTCTTTCAGGTCGCCATGCTCACGCGCTTCCGCGATAGCAGCAATGATTT -CAGGACGGCGCACAGATTTCAGAAAATCCAGCTCTTCGCGTAATTTTTCAGCGCCGCGTAAGGTCATCGG -AATAGCTTGCATTTGTTATACCTCTTGAATATTCCTGATAGGGCAAGTCTTCACCCACCCCGGCTGTTCG -GCCTGCCCGGCATAACTCCTTACCGGGACCAGAAGCAAAAAAATACCGACCCGGGTACAAGTCCCAGGTC -AGCTACAATTCACATTTTGATAGTCATTTTACCCTGAAGTTCCCGAAGGGTCATCGTTTACTTTATAGGG -CGTTGCGCCGTAGTATGACGGCTCGATTCCAGGTTGTTAGCGCGAGATTATGCGATTTTCCAGATTTATC -ATCGGATTGACCAGCTGTATAGCGTTCAGTGTTCAGGCCGCAAATGTTGATGAGTACATTACTCAACTCC -CCGCTGGTGCCAACCTTGCCCTGATGGTGCAAAAAGTCGGCGCGTCGGCCCCCGCTATTGATTACCACAG -TCAGCAGATGGCGCTGCCTGCCAGTACCCAGAAAGTGATTACTGCGCTGGCGGCGTTGATTCAACTCGGC -CCCGATTTTCGTTTTACCACGACGCTTGAAACCAAAGGCAATGTGGAAAACGGCGTACTTAAGGGTGACT -TAGTGGCGCGATTTGGTGCCGATCCGACGTTAAAACGTCAGGATATTCGCAATATGGTCGCGACTTTGAA -AAAATCTGGCGTCAACCAAATCGATGGCAATGTGTTGATAGATACCTCCATTTTCGCCAGCCACGATAAA -GCCCCCGGCTGGCCATGGAATGACATGACACAATGCTTTAGCGCTCCGCCTGCCGCCGCCATAGTTGACC -GCAACTGTTTCTCCGTCTCGCTCTACAGTGCCCCAAAGCCTGGTGATATGGCTTTTATACGCGTGGCATC -TTATTACCCCGTTACGATGTTCAGCCAGGTACGCACCCTCCCCCGTGGTTCTGCCGAAGCGCAATACTGC -GAACTGGATGTGGTGCCAGGCGACCTGAACCGCTTTACGCTGACGGGATGCCTGCCACAACGTTCTGAGC -CGCTCCCGTTGGCTTTTGCCGTGCAGGATGGAGCCAGCTATGCCGGTGCAATTCTGAAAGATGAGTTAAA -ACAGGCGGGTATCACCTGGAGCGGAACACTGCTGCGCCAGACTCAGGTTAACGAACCTGGAACGGTAGTT -GCCAGTAAACAGTCGGCCCCGCTGCACGATCTGCTTAAGATTATGCTGAAAAAGTCGGACAACATGATCG -CCGATACGGTTTTCCGCATGATAGGCCATGCGCGCTTCAATGTGCCTGGAACATGGCGGGCCGGGTCGGA -CGCCGTGCGTCAGATCCTGCGCCAGCAAGCCGGTGTCGATATTGGAAACACCATTATTGCCGATGGTTCA -GGGCTTTCGCGGCATAACCTGATTGCCCCCGCCACCATGATGCAGGTGCTGCAATACATTGCCCAACACG -ACAATGAACTTAACTTTATCTCCATGCTGCCGCTGGCGGGCTATGACGGCTCTTTGCAGTACCGTGCAGG -TCTGCATCAGGCGGGCGTGGATGGAAAAGTCTCAGCGAAAACCGGTTCGTTGCAGGGGGTATATAACCTG -GCGGGATTCATTACCACAGCGAGCGGGCAACGAATGGCGTTTGTGCAATATCTTTCTGGCTATGCAGTAG -AACCTGCGGATCAGCGTAATCGCCGTATTCCGTTAGTGCGTTTTGAAAGCCGTTTGTATAAAGATATTTA -TCAGAACAATTAGTCAAAAAGAAACCCCGGCACATGGCCGGGGCTTCAGATTATTGACAAAGTGCGCTTT -GTTTATGCCGGATGCGGCGTAAACGCCTTATCCGGCCTACAAAATCGTGCAAATTCAACATATTGCAATT -CTCTTGTAGGCCTGATAAGCGTAGCGCATCAGGCTGATTTGGCGTTTATCATCAGTGATTAACGCTTGTA -AATGAACTCAACGCCTTCTTCGTCGTCTTCGTCCCAGTCGTCATCCCAGTCTTCATCATCCTCTTCAGCA -ATCTCTTCAAGCTGCTGGCGATGATAATCATCCCACATGAATTCGACTTTCTCTGGCTGTTTCGCTTCTT -CAGCCTGCACGACCGGGTTTTCAATGATAAAGGTCATCACATCCCAGCAGAGATCTTTCACGCCCAGTCC -ACTCGCCGCAGAGATCAGATAATATTTATCTTCCCAGCCCAGCGCCTCAGCGATCGCTTTCGCTTTCTCT -TCGGCTTCTACCTTATCCAGCAGATCGATCTTGTTGAACACTAACCAACGCGGTTTCGTCGCCAGATCCT -GGCTGTATTTTTCCAGCTCGCTGATAATAATACGCGCGTTTTCAACCGGATCGGTGCCGTCAATCGGATC -GATATCGATGAGGTGCAACAGGACGCGGCAACGTTCCAGGTGCTTCAGGAAGCGAATGCCCAGACCTGCG -CCTTCCGCAGCGCCTTCAATCAGTCCTGGAATATCGGCAACAACGAAGCTCTTTTCGTTGTCCATTCGTA -CCACACCCAGACTTGGCACCAGAGTGGTAAACGGATAATCCGCCACTTTCGGTTTAGCCGCCGATACCGC -ACGAATAAAGGTCGATTTACCCGCGTTTGGCATCCCCAACATACCGACGTCAGCCAGCAGCATCAGCTCC -AGCAGCAGCTCGCGCTTATCGCCCGGCGTGCCGTTGGTTTTCTGCCGCGGTGTACGGTTAACGGACGATT -TGAAACGGGTATTGCCCAGACCGTGCCAGCCGCCCTTAGCAACCAGCAGACGCTGACCGTGTTTGGTCAT -ATCGCCCATGGTTTCACCAGTACCCTGGTCGATTACACGCGTACCTACCGGCACTTTAATCGTCACGTCT -TTACCGCGCTTACCGGTACAGTCGCGGCTTGCGCCATTCTGACCGCGCTCTGCACGGAAAGATTTTTCAA -AACGATAATCGATAAGCGTGTTCAGGTTCTCGTCGGCTTCCATCCATACGTCACCACCATCACCGCCGTC -GCCGCCATCCGGGCCGCCTTTCGGAATATACTTTTCGCGGCGGAAGCTCACGCAACCATTACCGCCATCA -CCTGCAACGACCAGAATCGATGCTTCATCAACAAACTTCATTTTATTCTCCGTAAATCATTCGCCTGCGC -GGGGTTGCGATACCACCGTTGTATGCTTACGTAATCCGCCCCAAATACGATGACCAATGGCGGAATACAT -CGCGCCCGCAACCACGACAAACGCACCGAGATAACCTAAAAGGTTTAACATCGGTCTGGCGAAGAAATCG -GGCCAGGCCAGTGATAAAAGATCTGAAAAAAACAGCGTAAACAGTGGGGTGAGCGTGATGATCGCGCTCA -CCTGCGCTGCCTGCCAGCGAGCCATCGCTTCCGCCAGGGCGCCATATCCTACCAAGGTATTCAGTCCGCA -AAAAATTAAACATGCGAGCTGCCAGTGGCTAAGCTGCGCTATCACTCCAGGCTTTGCCAGAGGGAAGAGC -GCAATTGTACATAAAGTGTACAGTAAAAACAGGATCTGCGGTGAGGCCAGCCGACGCAATAAAACCTTTT -GCGCCACGCCATAACTCACCCAAACCGTCGCCGCACCGACCCCAAAGATAACTCCCCAGGTGTAATCGGT -GAGCTTTGTAAATATCTCGACCAGACTGGTGTTAAAAAACATCACCAGGCCGCTCAGGAGCATCAATGCC -CCTACAACCTGAGTGCTGCGCATTTTCTCTTTGAGGATAAATACGCTGGCAACCATCATGCCAACTGGCG -AGAGTTGCCCAATCACCTGCGAAGCGGTCGGACTCAGGTATTGCAAGGATGAGCTGAACAGGATGAAGTT -CCCAAACAGCCCGGCGGTCGCCACTGCCAACAAAATCAACCAGCGTGGCTTACGAAACACGCGTAATGGC -GGCAACCTCTTCTTCACCGCAAGAATGGCACCCAGGCCAATACTCGCCATCAAGAAACGGTAAAACACGA -TTGTCGGAGGTTCCATCACCTCCAGCACCTGCTTCATTGCGATTGGCAACGCCCCCCAGCAAATTGCTGT -GGTGAGCGCCAAAAGAATGCCAATGCCTGCCTGCTGCTTCATACCGTATTCCCTGCAAAGCGCATTTGCG -GATTAACGTCGCACCATGCGCATTTTTACCGGTTATCGAATGTAAAAAGCCCCGCAACGTGTTGCGGGGC -TTTCATCCGTTACCGGGACGCGAAAAACTTATTCAGCTTCGATGCTGATAAATTTACGGTTTTTCGGGCC -TTTAACTTCGAATTTCACTTTACCGTCTGCTTTAGCAAACAGAGTGTGGTCACGACCGCAACCTACGTTA -GCGCCAGCGTGGAATTTGGTACCACGTTGACGAACGATGATGCTACCCGCCAGAACGGATTCGCCACCGA -AACGCTTAACGCCCAGGCGTTTAGCTTCTGAATCGCGACCGTTACGTGTGGAGCCGCCAGCCTTTTTATG -TGCCATTTGAAATCTCTCCTCAGGTCTTAGGCGCTGATGCCAGTAATTTTCACATCAGTGAACCACTGAC -GATGGCCCTGCTGCTTACGATAGTGTTTACGACGACGAAACTTAACGATTTTAACTTTCTCGCCACGACC -GTGAGCAACAACTTCAGCTTTGATTACGCCGCCATCAACGAAAGGAACGCCGATTTTGACTTCTTCACCG -TTTGCGATCATCAGCACTTCAGCGAACTCAACAGTTTCGCCAGTTGCGATGTCCAGCTTTTCCAGGCGAA -CGGTCTGACCTTCGCTTACTCGGTGTTGTTTACCACCACTTTGGAAAACCGCGTACATATAAAACTCCGC -TTCCGCGCACACCTTTTCAATGATTCAGAGTGCGCTATAAATATTCACAATAGGGCGCGAATATTACGCA -AAACGCACGCCTTTGACAAGTGCTACAGTCAATACACGAAGAAAAAAAACACAACTTGTACGGTAACGTT -TATCTGTGCCATTTTTTCAGTACAATCACCCTATATTCCTAACCATAAACCCTAAGTTGCCTTTGTTCAC -AGTAAGGTAATCGGGGCGAAAAGCCCGGCTTTTGCGATGAATTTAGAAAAAATCAATGAGTTAACCGCGC -AAGATATGGCGGGTGTTAATGCGGCAATCCTTGAGCAGCTTAATTCCGACGTCCAACTGATCAATCAGTT -AGGCTATTACATCGTCAGCGGCGGCGGTAAACGTATTCGTCCGATGATTGCTGTACTGGCTGCACGAGCT -GTTGGCTATGAGGGAAATGCGCATGTCACCATTGCTGCCCTGATCGAGTTTATCCACACGGCGACTCTGC -TACACGACGACGTTGTGGATGAATCAGATATGCGCAGGGGTAAAGCTACCGCCAACGCCGCATTTGGCAA -TGCCGCCAGCGTGCTGGTAGGCGATTTTATTTATACCCGCGCTTTCCAGATGATGACCAGCCTCGGTTCG -CTCAAAGTGCTGGAAGTCATGTCAGAAGCCGTAAACGTCATCGCAGAAGGTGAAGTTCTGCAACTGATGA -ACGTTAACGATCCGGACATCACTGAAGAAAACTACATGCGCGTTATCTATAGCAAAACCGCGCGTCTGTT -TGAGGCTGCCGCGCAGTGTTCCGGGATTCTGGCTGGCTGTACGCCGGAGGAGGAGAAAGGCCTGCAGGAT -TATGGGCGCTATCTCGGCACTGCTTTCCAGTTGATCGACGATTTACTCGATTACAATGCCGATGGCGAAC -AGTTAGGTAAAAATGTCGGCGACGATCTGAACGAAGGTAAACCGACGCTGCCGCTGCTGCATGCGATGCA -TCATGGCACACCAGAACAGGCACAGATGATCCGTACCGCCATCGAACAGGGTAACGGTCGCCATCTTCTG -GAACCGGTTCTGGAAGCAATGAACGCTTGTGGATCTCTTGAATGGACGCGTCAGCGTGCCGAGGAAGAAG -CAGACAAAGCCATCGCAGCGTTACAGGTGCTCCCGGACACCCCTTGGCGAGAAGCACTCATCGGCCTCGC -GCACATCGCTGTTCAACGCGATCGTTAATCCCCTCCCCTCATCCCGCGCAGCGCGCGGGATGGTTCCAGT -AAGTTCCATAAAAACACTTATTCAGCTCTATAACACCTGAAAAATAGGGATGTGCATCTTTATATATTCT -GAATATTCACACTCTTTACAGGAACTTTTTAGAGCAATAGGCCATCAGGAGTATAGTGATGCTCGACAGA -AGAAGTGTTCTGAATGAAAGCGACTAACTTAAGGAGTGAGGAAAAATGGAAAGTAATTTCATTGACTGGC -ATCCCGCTGACATCATTGCGGGTTTGCGCAAGAAGGGAACGTCAATGGCGGCGGAATCTCGCAGAAATGG -TTTGAGTTCCTCAACGCTGGCGAATGCATTATCGCGCCCATGGCCGAAAGGAGAGATGATTATTGCGAAA -GCCCTGGGAACTGACCCCTGGGTTATCTGGCCATCACGCTACCATGATCCGCAGACCCATGAGTTTATCG -ACAGAACGCAGTTGATGCGTAGCTACACTAAACCGAAAAAATGAGTGGTCTGGCGGTAGCCCCGCGAACG -GGGCTGCCAGCTCTCAGACGATTATTCGCCTTTCACACGCTCAATATTTGCACCTAAAGCGCGCAGTTTG -TCTTCAATGCGTTCGTAGCCACGATCGATGTGATAAATACGATCAACCACCGTCGTCCCTTCCGCAATAC -AGCCAGCCAGCACCAGGCTTGCTGATGCACGCAGATCGGTTGCCATAACCTGTGCGCCAGAAAGTTTTTC -AACACCGTGACAAATAACGGTATTGCTTTCGATTTCGGCGTGCGCGCCCATACGGCTCAGCTCTGGCACA -TGCATAAAGCGGTTTTCAAAGACCGTTTCGGTGATAAACCCGGTCCCTTCTGCCACCAGGTTCAACAGCG -TGAACTGGGCCTGCATATCGGTCGGGAATGCCGGATGCGGCGCGGTACGTACGTTAACAGCCTTCGGACG -TTTGCCATGCATATCCAGGCTAATCCAGTCTTCGCCGACTTCGATGTCCGCTCCAGCGTCACGCAGTTTC -GCCAGCACGGCGTCGAGAGTATCTGGCTGCGCGTTACGGCAGATAATTTTGCCGCGAGAAATCGCCGCCG -CCACCAGGAAAGTACCGGTTTCGATACGATCCGGCAGAACGCGATAGACACCGCCGCCTAAACGTTCCAC -ACCTTCGATGACGATACGATCGGTGCCCTGACCGCTAATTTTCGCACCCAGCGTAATCAGGAAGTTCGCG -GTATCGACGATTTCCGGTTCACGCGCTGCGTTTTCAATAATCGTGGTGCCTTCCGCCAGGGTTGCAGCAC -ACATGATGGTCACCGTTGCGCCAACGCTGACTTTATCCATCACGATATGTGCACCTTTCAAACGACCATC -GACGGAAGCTTTAACGTAACCTTCTTCCAGTTTGATGGTCGCGCCTAATTGTTCGAGGCCAGAAATGTGT -AGATCAACCGGACGCGCACCGATCGTACAACCGCCAGGTAGTGAAACTTGCCCCTGACCAAAGCGCGCTA -CCAGCGGCCCCAGCGCCCAGATAGAAGCACGCATGGTTTTAACCAGATCGTAAGGTGCGCAGAATACATT -AACGTCGCGGGCATCAATATGCACAGAACCATTACGTTCTACTTTCGCACCCAGCTGGCTTAGCAGCTTC -ATTGATGTATCGACGTCTTTCAGTTTCGGGACGTTCTGGATCTCTACCGGTTCTTCCGCCAGTAGTGCGG -CAAAAAGATTAGGCAGAGCAGCATTTTTAGCGCCGGAAATTGTGACTTCGCCCTGGAGCTTCGTTGGCCC -CTGAACACGAAATTTATCCATTTAGTTTGTTCTCAGTTAACAATTCATATCCGCTACCGGCGAATCGCCC -ATAGCTCAAAAGCCGTTCAGTTTGCGATCGCGCGCCCACTCCGCAGGGGTATACGCTTTGATCGACACAG -CATGAATGCGGTTATCCGCAATATATTCCATCAGCGGACCATAGACCGTCTGCTGTTTTTTAACCCGACT -CATGCCGTCAAACAACTCACCCACGGCAATAACCTGAAAGTGGCTGCCATCGCCGGAAACGTGGACTTCC -TGGAGGGAGAGAGCGTTCATCAACACGCTCTGAATTTCATTATTTTCCATGGGATCTTCAATCATCAGTT -AATAAACCAGCGAAACATCTTAGAGCAAAGTTGCGCTGGCATAAATAAGCAAAAAGCCTCGCTGATAAAT -CAGACAAGGCTCGACTTGCAGGCAGGTTTGCCGGACAGGCGGTTAACGCCATATCCGGCCTGAAAAAATT -TAACGAGGCAGAACATCAGCAGGCAAATTATACAATTTCGCCAGGGTATACACTTTGTCGTTTACCCCCT -GAAGCGTCACATTGTTGCCCTGCTTTTTCGCCAGATCGATAAGATGGAGCAGCAGTGCCAGTCCCCCCGT -ATCCACGCGGGAGACACGGCTAAGATCGATGCAGGTAATCCCCTTCACCGCTTCCTCACGCATTTCCCAA -AGCGGTAGCAAAACGTCCTGATCCAGCTCTCCGGATAACGCCAGCGTGTCACCCGTCTGCATCCAGCTCA -GTGACTCGCTCATTATTTTTTCTCTTCCAGAGTGATTTTCTGTTGAGAAATCGATTTCAGTTGCGCAGTC -AGGCCGTCGATACCTTTGGTACGCAGCAGCGTTCCCCACTCGTTTTGTTTGGTGGTGATCATACTGACGC -CTTCAGCAATCATGTCGTAAGCCTGCCAATTGCCCGTCTGGGAGTTTTTACGCCACTGGAAGTCCAGACG -CACCGGCGGACGGCCATTCGGGTCAATAATGGTAACGCGAATAGGCACAATGGTTTTATCGCCCAGCGGC -TGTTCTGGCGCAATCTGATAGGTTTGACCGTGATACATCGCCAGCGCCTGACCGTAAGCCTGCTTCAGGT -ACTCACGGAAAGCGGCAAAGTAGGCTTCACGTTGAGCAGGGGTCGCACTCTTGTAATACTGGCCCAGCAC -CAGCGCACCGGCGTATTTCACCTGTACGTATGGCAGCAGTTCCTGATCAACAATGGTACGCAGATAATCC -GGGTTGGCCCGAATTTGCGGTTGCTCATTCTTCAGGCGATCGAACGTTTTCTGCGCCGCCTCGTCCATCA -GCTTATACGGATTGGTCTGGTCTGCCGCGGTTGCCGCACTCAGAGGTGCAATCACCAGCAAAGCGACCAT -CATTAAACGTTTAAACATGCGTCGGTTCTCCTGAAATTATTTCGTTGTACCCACAGGTTCAGTGGTTTCA -TTATTACCTGGCGCAGCAGCTGGCGCATCGCCACTATTCTTATTGTCATCGCCTTTACTACCGTAAAGGA -ACTGACCAATGAGATCTTCCAGCACCATCGCAGACTTAGTGTCCTGAATTGTATCGCCATCCTTCAGGAT -AGCAGTCCCCAGTTCCGGGTCTTCAAAACCGACGTTTAATGCCAGATATTGTTCCCCCAGCAGGCCGGAA -GTACGAATGCTCAGCGAACTGGTATCTGGAATGTGGTTATAACGTTGTTCAATTTCCAGCGTTACGCGCG -GCAGATAGGTTTTCGGGTCCAGCGTAATATCCGCCACCCGACCCACAACAACGCCACCAATACTGACCGG -AGAGCGCGCTTTCAGGCCGCCAATGTTATCGAACGTCGCATAAAGCGTGTAGGTCGGTTCAGTACGTATG -GACGTCACGTTCGCCGCCTTCAGGCAAACAAACAGCGCCGCCAGCAGTGCTGCTAATAAAAAGATACCCA -CCCAAATTTCATTTTTTTTCGTTTGCATGAACTCAATTCCCAAACATCAATGCGGTCAGCACAAAATCCA -GCCCCAGAACAGCCAGAGACGAGTGGACAACGGTGCGAGTGGTTGCCCGGCTAATCCCGGCAGACGTCGG -GATGGCGTCGTAGCCGTTAAACAACGAAATCCACGTCACCGTGATGGCGAACACCACGCTCTTAATCAGA -CAGTTGACCAGATCCATACGCCAGTCGACGGCATTTTGCATTGCCGACCAGAAGAACCCGCTATCAATGC -CTTTCCAACTGACGCCGACCAGAGATCCGCCCCAGATCCCCACGGCGACGAAAATAACCGTCAACAGTGG -TAATGAAATAACCCCAGCCCAGAAACGGGGAGAAATAACCCGACGCAGCGGATCCACCGCCATCATCTCC -ATACTGGAGAGTTGCTCTGTAGCGCGCATCAGGCCGATTTCTGCGGTTAGCGCCGAACCAGCACGCCCGG -CAAACAACAACGCGGCAACCACCGGCCCCAGTTCACGCAGTAGCGATAACGCCACCAGCATACCCAGACT -GGTTTCCGCACTATAAGTGGTCAGAACCAGATAACCTTGCAGCCCCAACACCATTCCGATGAACACGCCA -GAAACCACAATAATCAGCATCGACAGGACGCCGACATTATAGAGCTGGCGCACCAGCAGCGGCGCATGTT -TGCGAAATTCCGGTTTGCCGACCAGCGCATTGAATAACATTAACCCGGCCCGCCCGAACGTTCTCAGGGT -TTTAATCCCTTTATGTCCGAGCGACGCCAGCGCATTTAACAGCATGAGTGGCTTAACTCCCTGGTAAAAG -ATCAGCGTGATAATCGCCGGCAGGATAGCGGAACGGAACAGGCCCGTCAGCTATCCCGTCCAGAAACTGA -CGTACGCGCGGATCAGGATTCGCCTGCAACGCCTGGGCACTGCCATGAGCGACAATTTTTTTGTCCGCCA -GGATCCAGGCGTGATCCGCAATACTTAACACTTCCGGCACATCGTGAGAAACCACCACACAAGTCACGCC -CAGCGCGCTGTTCAGCTCAGAAATCAGCTTCACCAGTACGCCCATGGTGATGGGATCTTGCCCAACAAAA -GGTTCATCAAACATGATGAGATCCGGCTCCAGCGCAATCGCACGCGCCAGCGCTGCACGCCGCGCCATCC -CACCGGAAAGTTCAGAAGGCATTAGTTTAGCCGCTCCACGCAGCCCCACGGCCTCCAGCTTCATCATCAC -CGTACTATGCAACAATGGCGCGGGAAGTTGGGTATGTTCGCGCAGTGGATAGGCGACGTTGTCAAATACG -TTCATATCAGTGAACAACGCCCCGGACTGAAATAACATGCTCATCCGTTTGCGCACTGTATACAGGCGCG -AACGAGACATCGCCGGAATATTCTCACCATCGAAAAGGATCTCACCATGATCTGGTGCGATTTGCCCGCC -AATCAGACGGAGTAGCGTCGTTTTACCGATGCCCGATGGCCCCATGATCGCCGTGATCTTCCCTCGCGGC -ACGGTCAGGGAAATATTATCGAAGATGCAGCGATTGCCACGCGTAAAACTGACATCGCGCATATCGACTA -AATTCGCCACAGACTGCTCCATAATTCACCCTTCGTCTTGCGTTGATTTTCTAAGCATGGCGCTCAATTT -AACCTTGAACCCAACATATTTACAGAATATTACCCGCCGTGGTTAGCGAAAGCTGGCATTTGTTTTACTT -TTTAGCCGCATAAAGTCAAAATTAAGCATCCGTTACGGCTTTCTGAAAATCTTCAGCGGACCGGCGAGTA -TACCTGAAGAAAGGACGTTAGATGCTTTTAGCTACGGCACTGTTAATTGTTGGTTTACTTTTGGTCGTTT -ACAGTGCCGACCGCCTGGTTTTTGCCGCGTCTATTCTTTGCCGAACCTTTGGCATCCCGCCGCTGATCAT -CGGCATGACGGTGGTCAGTATTGGTACATCGTTACCAGAAGTCATCGTCTCGCTTGCCGCGTCTCTGCAC -GAACAACGCGATTTAGCCGTTGGTACAGCCCTCGGCTCAAACATTATCAATATATTGCTGATCCTCGGTC -TGGCTGCGCTGGTTCGTCCTTTTACCGTCCATTCTGATGTTCTACGCCGTGAATTACCCTTAATGTTGTT -GGTCAGCGTGGTGGCCGGTTCCGTACTCTATGACGGACAACTTAGTCGCAGCGATGGTATCTTTCTCCTC -TTTCTGGCTGTGCTATGGCTGCTGTTCATTGTTAAACTTGCACGTCAGGCTGAACGTCAGGGGACTGACA -GCCTGACCAGAGAGCAGCTTGCAGAGCTGCCGCGTGACGGCGGATTGCCCGTCGCGTTTTTATGGCTCGG -CATTGCGCTTATCATCATGCCAGTGGCCACGCGGATGGTGGTTGATAACGCCACGGTGCTGGCGAATTAC -TTTGCCATCAGCGAGTTGACGATGGGTCTGACGGCAATTGCTATCGGAACCAGCCTGCCGGAACTGGCAA -CCGCAATAGCGGGGGTTCGCAAAGGTGAAAACGACATTGCTGTCGGAAATATCATTGGCGCAAACATTTT -TAATATTGTCATCGTGTTGGGTTTACCCGCGCTGATAACGCCAGGAGAGATTGATCCACTGGCGTACAGT -CGTGACTACAGCGTGATGTTGCTGGTGAGCATTATTTTTGCGTTGCTGTGCTGGCGGCGCTCCCCGCAAC -CGGGCCGTGGTGTAGGGGTATTATTAACTGGCGGATTTATCGTATGGCTGGCGATGTTGTACTGGTTATC -GCCAATACTCGTTGAATAACTGGAAACGCATTATGTCGCACGTAGAGTTACAACCGGGTTTTGACTTTCA -GCAAGCAGGTAAAGAAGTCCTGGCGATTGAACGTGAATGCCTGGCGGAGCTTGATCAATACATCAATCAG -AATTTCACGCTTGCCTGTGAAAAGATGTTCTGGTGTAAAGGGAAAGTTGTCGTCATGGGGATGGGAAAAT -CGGGGCATATTGGGCGAAAAATGGCGGCAACGTTTGCCAGCACCGGTACACCTTCATTTTTCGTCCATCC -TGGTGAAGCCGCGCATGGTGATTTAGGCATGGTTACCCCACAGGATGTGGTGATTGCTATCTCTAACTCT -GGTGAATCCAGCGAAATCACGGCCTTAATTCCAGTGCTTAAGCGTCTTCACGTACCGTTAATCTGCATCA -CCGGTCGCCCGGAGAGCAGCATGGCGCGCGCCGCAGATGTGCATCTGTGTGTTAAAGTAGCGAAAGAAGC -CTGTCCGTTAGGGCTGGCACCGACCAGCAGCACCACCGCCACGCTGGTTATGGGCGATGCCCTCGCTGTC -GCGCTGTTAAAAGCACGCGGCTTTACTGCTGAAGATTTTGCGCTCTCACACCCAGGCGGCGCACTGGGTC -GTAAACTTCTGCTGCGCGTAAACGATATTATGCATACGGGCGATGAGATCCCGCATGTTAAGAAAACGGC -CAGTCTGCGTGACGCGTTGCTGGAAGTTACCCGCAAAAATCTTGGTATGACTGTCATTTGCGATGACAAT -ATGATGATTGAAGGCATCTTTACCGACGGTGATTTACGCCGTGTCTTCGATATGGGCGTGGATGTTCGTC -AGTTAAGTATTGCCGATGTGATGACGCCGGGGGGAATACGTGTGCGCCCTGGCATTCTGGCCGTTGAGGC -ACTGAACTTAATGCAGTCCCGCCATATCACCTCCGTGATGGTTGCCGATGGCGACCATTTACTCGGTGTG -TTACATATGCATGATTTACTGCGTGCAGGCGTAGTGTAAAGATTCAAGGATAAACAACAATGAGCAAAGC -AGGTGCGTCGCTTGCGACCTGTTACGGCCCTGTCAGCGCCGACGTTATAGCAAAAGCAGAGAACATTCGT -CTGCTGATCCTCGATGTCGATGGCGTACTGTCAGATGGCCTGATTTATATGGGCAATAATGGCGAAGAGC -TGAAAGCGTTCAATGTTCGTGACGGTTATGGCATTCGTTGTGCGCTCACCTCTGATATTGAAGTCGCTAT -CATTACCGGGCGAAAGGCTAAACTGGTAGAAGATCGTTGTGCCACATTGGGGATCACTCACTTGTATCAG -GGGCAGTCAAACAAACTGATCGCCTTTAGCGATCTGCTGGAAAAACTGGCGATTGCCCCGGAAAATGTGG -CTTATGTCGGCGATGATCTCATCGACTGGCCGGTAATGGAAAAAGTGGGTTTAAGCGTCGCCGTGGCCGA -TGCGCATCCACTGTTGATCCCGCGCGCCGATTACGTGACGCGCATTGCTGGCGGTCGTGGCGCAGTGCGC -GAAGTTTGCGACTTATTACTCCTGGCGCAGGGCAAACTGGATGAAGCCAAAGGGCAATCGATATGAGTAA -AGCCAGACGTTGGGTTATCATTGTGCTATCACTGGCGGTTCTGGTGATGATCGGCATTAATATGGCCGAA -AAAGACGATACCGCCCAGGTGGTCGTCAACAACAATGATCCCACCTATAAAAGCGAGCATACGGACACGC -TCGTCTATAACCCAGAAGGGGCACTAAGCTATCGATTGATTGCTCAACACGTTGAATATTATTCCGATCA -GGCCGTTTCGTGGTTTACGCAGCCGGTACTTACCACGTTTGATAAGGATAAAATCCCGACATGGTCCGTA -AAAGCAGATAAAGCCAAGCTGACCAATGACCGGATGCTCTATTTATATGGACACGTTGAAGTCAACGCAC -TTGTGCCAGACTCTCAACTTCGCAGAATCACGACGGATAACGCGCAGATCAATCTGGTGACGCAGGATGT -TACCTCTGAAGACCTCGTCACGTTATACGGAACAACATTTAACTCCAGCGGTCTGAAAATGCGCGGCAAC -TTACGCAGCAAGAACGCCGAGCTGATTGAAAAGGTTAGAACATCCTATGAAATTCAAAACAAACAAACTC -AGCCTTAATCTTGTGCTTGCCAGCTCACTTCTGGCCGCCAGCATTCCGGCATTTGCCGTAACCGGAGACA -CTGATCAGCCGATCCACATTGAATCGGACCAGCAATCTCTTGATATGCAAGGCAACGTGGTTACCTTTAC -CGGTAATGTCATCGTCACCCAGGGCACCATCAAAATTAATGCCGACAAAGTGGTCGTTACCCGTCCGGGC -GGCGAACAAGGTAAAGAAGTGATTGACGGCTACGGTAAACCGGCAACGTTCTACCAGATGCAGGACAACG -GTAAACCCGTTGAAGGTCACGCTTCCCAGATGCACTACGAACTGGCAAAAGATTTTGTCGTTCTGACGGG -TAATGCTTATCTGCAGCAGGTCGATAGCAACATTAAGGGCGATAAGATCACTTACCTGGTGAAAGAGCAG -AAAATGCAGGCTTTCAGCGACAAAGGCAAGCGCGTAACAACCGTTCTGGTGCCGTCGCAGCTGCAGGACA -AAAACAACAAAGGCCAGACCCCGGCACAGAAGAAGGGTAATTAATTCGTTATGGCAACATTAACTGCAAA -GAACCTTGCAAAAGCCTATAAAGGCCGTCGCGTGGTAGAAGACGTCAGCCTGACCGTCAACTCCGGGGAA -ATTGTCGGTCTGCTGGGGCCAAACGGTGCCGGTAAGACCACCACTTTCTACATGGTTGTAGGCATTGTGC -CGCGCGATGCGGGCAACATCATTATTGATGATGACGATATCAGTCTGCTGCCTCTGCATGCACGCGCGCG -CCGCGGTATCGGCTATCTGCCACAGGAAGCCTCCATTTTCCGTCGCCTCAGCGTTTACGATAACCTGATG -GCGGTACTGCAAATTCGTGACGACTTGTCTGCTGAACAACGTGAAGACCGCGCGAACGAGCTGATGGAAG -AGTTTCACATTGAGCACCTGCGTGACAGCATGGGGCAGTCACTCTCCGGGGGTGAACGTCGCCGTGTAGA -AATTGCCCGCGCACTGGCTGCGAATCCGAAATTTATTCTGCTCGACGAACCGTTTGCCGGGGTTGACCCG -ATCTCGGTTATCGACATTAAACGCATCATTGAGCACCTGCGCGACAGCGGCCTGGGCGTGCTGATCACTG -ACCACAACGTGCGTGAAACACTGGCGGTTTGTGAACGCGCTTATATCGTCAGTCAGGGGCATTTGATCGC -CCACGGCACGCCTACAGAAATCTTACAAGACGAACACGTTAAGCGTGTATACCTTGGGGAAGACTTCAGA -CTCTGATAGGGTAGAAGTTTGCGACGTTTTAGCAGGAGAGTACGATTCTGAACATGAAGCAAGGTTTGCA -ACTCAGGCTTAGCCAACAACTGGCGATGACGCCACAGCTCCAACAGGCAATTCGTCTGTTGCAGTTGTCG -ACGCTGGAACTTCAGCAGGAGCTACAGCAGGCGCTGGAGAGTAATCCGCTGCTTGAGCAAATCGACACTC -ATGAAGAAATCGACACCCGCGAAACGCAAGACAGTGAAACGCTGGACACCGCCGACGCGCTCGAACAAAA -AGAGATGCCGGAAGAGCTGCCGCTCGATGCCAGTTGGGACACCATTTACACCGCTGGTACACCATCCGGC -ACCAGCGGTGACTACATTGACGACGAGCTGCCGGTCTACCAGGGCGAAACGACGCAGACCTTGCAGGATT -ACCTGATGTGGCAGGTTGAGCTGACACCGTTTTCCGACACTGACCGCGCTATTGCTACCTCTATCGTCGA -TGCCGTTGATGAAACCGGTTATCTGACTGTCCCGCTGGAAGATATTCTCGAAAGTATAGGCGATGAAGAG -ATCGACATCGACGAAGTTGAAGCCGTCCTTAAGCGGATCCAACGGTTTGATCCGGTCGGTGTGGCGGCAA -AAGATCTGCGTGACTGTCTGCTGATCCAACTCTCCCAATTCGATAAGACCACGCCGTGGCTGGAAGAGGC -CAGACTGATCATTAGCGATCATCTCGATCTGTTAGCCAATCACGACTTCCGCACTTTAATGCGCGTCACG -CGTCTGAAAGAAGATGTGCTGAAAGAAGCCGTCAATCTGATCCAGTCGCTCGATCCGCGCCCCGGGCAGT -CGATCCAGACTGGCGAACCTGAGTATGTCATTCCAGATGTGCTGGTGCGTAAGCATAACGGTCACTGGAC -GGTAGAACTCAACAGTGACAGCATTCCGCGTCTGCAAATCAACCAGCACTACGCCTCGATGTGCAATAAC -GCGCGCAACGATGGTGACAGCCAGTTTATCCGCAGCAATCTGCAGGATGCCAAATGGTTGATCAAGAGTC -TGGAAAGCCGTAACGATACGCTACTGCGCGTGAGTCGCTGTATCGTTGAACAGCAGCAAGCCTTCTTTGA -GCAAGGTGAAGAATATATGAAACCGATGGTACTGGCCGATATCGCCCAGGCTGTCGAAATGCATGAATCG -ACGATATCTCGCGTGACCACGCAAAAATACCTGCATAGTCCACGAGGCATTTTTGAACTGAAGTATTTCT -TTTCCAGTCACGTCAATACCGAGGGCGGCGGCGAAGCTTCCTCCACGGCGATTCGTGCGCTGGTGAAGAA -ATTAATCGCGGCGGAAAACCCAGCGAAACCGTTGAGCGACAGCAAGTTAACCTCTTTGCTGTCGGAACAA -GGTATCATGGTGGCACGCCGCACTGTTGCGAAGTACCGAGAGTCTTTATCCATTCCGCCGTCAAACCAGC -GTAAACAACTCGTTTGACCCAACCGATAAGGAAGACACTATGCAGCTCAACATTACCGGAAATAACGTCG -AGATCACCGAGGCACTGCGCGAATTTGTTACAGCCAAATTTGCCAAACTTGAGCAATATTTTGACCGAAT -CAACCAGGTCTATGTTGTTCTGAAAGTGGAGAAAGTCACCCACACCTCAGATGCAACACTGCATGTAAAC -GGTGGTGAAATTCATGCCAGCGCGGAAGGTCAGGACATGTACGCTGCCATTGATGGCTTAATTGATAAGC -TGGCACGCCAGTTGACCAAACATAAAGATAAACTGAAACAACACTAATTGTCCGGGCAATTAGCATGTGC -ATGGCGGTCTGTTGTGCGGCACAACGGGCCATTTGTACGGTTAATGCTCCGAGCCTGTTCCACTGTTTGA -GTGGGCAGGTTCTTAGGTGAAATTATGACAAATAATGATACAACTCTACAGCTTAGCAGTGTTCTTAACA -GGGAATGTACGCGAAGCCGCGTCCACTGTCAGAGCAAAAAACGCGCCCTGGAAATCATCAGCGAGCTGGC -GGCGAAACAACTTAGCCTGCCGCCTCAGGTGGTTTTTGAAGCTATCCTGACGCGGGAAAAAATGGGCAGT -ACCGGTATCGGCAATGGTATTGCCATTCCGCATGGCAAACTGGAAGAAGATACTCTGCGCGCCGTTGGCG -TTTTCGTTCAGCTCGAAACGCCTATAGCTTTCGATGCCATCGACAACCAACCGGTGGACTTACTTTTTGC -CCTGCTGGTGCCGGCAGACCAAACTAAAACGCACCTGCATACTCTGTCGCTGGTGGCGAAACGTCTGGCG -GACAAAACCATCTGCCGCCGTTTACGCGCAGCCCAGAGCGATGAAGAGCTGTATCAAATCATTACGGATA -CCGAAGGTACTCCGGATGAAGCGTAGTTATTCGGTAATGTCTCTTTTAGACGTTGTGAGGAGAAACAGTA -CATGGTACTGATGATCGTCAGCGGACGTTCAGGTTCAGGTAAATCTGTCGCCCTGCGTGCGCTGGAAGAT -ATGGGTTTTTACTGCGTGGATAACCTTCCCGTAGTGTTGTTACCCGATCTGGCTCGAACCCTGGCCGATC -GCGAGATTTCTGCCGCCGTCAGCATTGATGTTCGTAATATGCCGGAGTCACCAGAAATATTCGAACAGGC -GATGAGTAACCTGCCTGACGCTTTCTCACCGCAACTCCTGTTCCTGGATGCCGACCGTAATACCTTAATT -CGTCGTTACAGTGACACGCGCCGACTGCATCCGCTTTCCAGCAAAAACCTGTCGCTGGAAAGTGCTATCG -ACAAAGAAAGCGATTTGCTGGAGCCTCTGCGTTCGCGAGCGGATCTGATTGTCGATACCTCAGAAATGTC -CGTTCACGAGCTGGCTGAAATGCTGCGTACCCGTCTGCTGGGTAAACGTGAACGCGAACTGACCATGGTC -TTTGAGTCTTTCGGCTTCAAACACGGTATCCCTATCGATGCAGATTACGTCTTTGACGTGCGCTTCTTGC -CGAACCCGCACTGGGATCCGAAACTGCGTCCAATGACAGGTCTTGATAAACCTGTCGCCGCGTTCCTCGA -CCGCCACACAGAAGTACACAATTTTATCTACCAGACGCGAAGCTATCTTGAGCTATGGTTACCTATGCTG -GAAACCAACAACCGTAGCTACTTGACGGTCGCCATTGGTTGTACCGGCGGGAAGCACCGTTCGGTGTATA -TTGCAGAGCAACTGGCAGACTACTTCCGCTCGCGCGGTAAAAACGTCCAGTCACGCCATCGTACGCTGGA -AAAACGTAAACCATGACCGTCAAGCAAACTGTTGAAATCACAAACAAGCTGGGCATGCATGCCCGGCCTG -CAATGAAGCTGTTTGAATTAATGCAGGGTTTTGACGCTGAAGTGCTCTTACGTAATGACGAAGGCACCGA -GGCTGAAGCCAACAGCGTTATTGCGCTGCTGATGTTGGATTCTGCCAAAGGACGGCAGATTGAAGTTGAA -GCGACCGGTCCACAGGAAGAGGAAGCACTGGCCGCCGTTATCGCCCTCTTTAATTCTGGTTTTGATGAAG -ATTAATCTTCATCACTTTGACATACAACTCCCTTCAAACTCCCCCCGACAATAAGAAAATCACGTACTGA -AATCGTTCTCAATCAACGTCATTTGTACATTTTGTGCGCTTTTCACTTTCAGAAGAACCTTAAGAAAACC -TTAAGAGGCATTGTTTAGGTTTTGTTTAAGTTAATCGACCATACTGGAGATCGTCAGAAAATATTTCCAG -GAGATGGCATGATTCGCTTATCTGAACAAAGTCCCCTGGGCACCGGAAGACATCGGAAATGTTATGCGCA -TCCGGAAGATGCCCAACGCTGTATCAAGATTGTCTACCATCGTGGCGATGGTGGCGATAAAGAGATCCGC -CGTGAGTTAAAGTACTACGCGCATCTTGGTCGCCGGTTAAAAGACTGGAGTGGAATACCGCGCTATCACG -GTACCGTTGAGACGGATTGCGGAACCGGTTATGTCTACGATGTGATTGCAGATTTTGACGGCAAGCCTTC -CATTACGCTGACCGAATTTGCTGAACAATGCCGTTACGAAGAAGACATTGCACAACTGCGCCAGCTACTG -AAACAGCTGAAGCGTTATTTGCAGGATAACCGTATCGTGACGATGTCGCTGAAGCCGCAGAATATCCTCT -GTCACCGCATCAGTGAGTCAGAGGTTATCCCGGTCGTCTGCGACAACATTGGTGAAAGCACATTGATTCC -ACTGGCGACCTGGTCGAAGTGGTGTTGTCTGCGTAAGCAAGAGCGGTTATGGAAACGATTTATCGCCCAA -CCGGCGCTGGCTATTGCCCTGCAGAAAGATCTGCAACCTCGTGAGAGCAAAACGCTGGCCCTCACTTCGC -GCGAAGCTTAATCCAGCTGGTGTTGTTGCATAAACGGCTCACCGCCTAACTGATACATCTGCCGTAAAAT -CCACGCCTGACGGCTACGCACGTAGCCCGATGGCGAGGAGACTTTGAAACGAAGTGGATTAGGTAATACA -GCTGCCAGTAATGCAGCTTCCGACCGGGTAAGTTTGCTCGCGGGTTTGTGGAAATAACGTTGTGCCGCAG -CTTCGACGCCAAACACACCGTCGCCAAATTCGGCGATATTCAGGTAAACCGTCAGGATACGCTTTTTGCT -CCAGACCGTTTCTATCCCCAGCGTTAATCCGGCTTCCAGCCCTTTTCGAACCCAGCTACGCCCATCCCAT -AAAAAGAGATTTTTGGCTGTCTGTTGAGAAATCGTTGAAGCACCGCGAATACGGTTTTCATTGCGCTCGT -TGTGCGCCAGGGCTTTCTCAATGGAAGCGACATCAAAGCCCCAGTGCTCAGGAAATTTCTGATCTTCTGC -GGCAATCACCGCCAGTCCCATCCACGGCGAGATTTGATCCATACTGACCCAGTCAGAATGTGCCACGTAA -CGAAAATTGCCATGCAGCCAGGCGCTGACCTGTCGCTCGACCATTACCGCTGAGAAGGGAACAGGCGCAA -CGCTAAACAACGCGATGCCCCCGCCCCAGAAAACGGCGAGGACAACCATTAACCGCAAAAGAAAACGGCG -AACGAAACTAAACACCGTTAAGCGGCTTTTACTCATTCAGCCAGAACCAGCACGCGGGAAACCAGCTTAT -CAATGCCGCTCGCCGCTTCTGCAATGTTCTGCGCCAGCATATATGCTGGGGTGGTGACAATCTTATTGTC -TTCATCAACCACGATATCATCGACAGGACACGGCACATGCTCCGCGCCCATCTCTTCCAGCACTTCTGCG -GTATCGATATCAGTACCGATGGTCAAACGCAGCGGGAAATCGAAAATTTTCGGCAGCATCGCCGGGGCAA -TACACATAAAACCAAGCGGTTTTCCGGCCTGATGCATCGCTTGTGCCAGCGCCTTTAATTCACGGTCAAC -GGTGCATTCGCTACCAAGACTGGCAAAATTGCTTAAATTCTTCGCCGCGCCAAACCCCCCCGGCACAATC -AACGCATCCAGTTCAGCGGCATCGGCCTGGGCCAGAGGACGGATTTCACCGCGCGTTATTCGTGCCGCTT -CAATCAGCACATTGCGCGTTTCCGTCATCGCTTCGCCAGTTAAATGGTTGATAACATCAACCTGCTGCTT -ATCCGGTGCAAAGCAGACCGCCTGCGCACCGCTGCGTGAAATAGCTAACAACGTCAACACCGCTTCATGA -ATTTCAGAACCGTCATAGACGCCGCATCCGCTCAGAATTACGCCAATTTTCTTCATTGTGATCATCCTTT -CGCAATTGACTGAAACACATTAATTTTTTTAATAAAAATGGTACGCATCACACATTTAACTGATTCATGT -AACAAATCATTTAAGTTTTGCTATCTTAACTGCGTGCGGCCTGAAAAACAGTGCTGTGCCCTTGTAACTC -ATCATAATAATTTACGGCGCAGCCAAGATTTCCCTGGTGTTGGCGCAGTATTCGCGCACCCCGGTCTAGC -CGGGGTCATTTTTTAGTGGCTTTTGCCACCCACGCTTTCAGCACTTCTACGTCGTGACGCCACTCTTCTT -TCATCTCTTCAATCCATTCACCGACGTTATCTTCCCAGGCCGGAAGGTCAGGAGACTGAATTTGCTGACC -CAGCTGTTGCAGATGGCGTAACCCCACTGACCCCGCCGCACCTTTAATTTTATGTCCTTCCTCAACAATG -CCTTTTTTATCCTGCGCCGTCAGATTCGACTCCAGCACGCTGACATAGCCCGGCATCATCTTCTCAAACA -CCGCTAACCCGTCGGTGATCAGCTTCGGTCCTACAAGTTCGAGATACTGTTCCAGCATGGGAATATCGAG -CAATGCTTCTGATTTACTGTTCTCTTCTGTCGTCACCGTACTCTCCTCATCATCCTGGGTATCCCAGAAT -TTCTTGATCATCGCGGTTAGCGCCGGAACAGAAAGCGGCTTACTCAGCACATCATCCATTCCAGCATTGA -GGTACTCTTGTTTGTCTTTCAGCACGTTAGCGGTTAAGGCCACCAGCGGCGGTAAATCCTCGCGCGGATA -ACGTTTCGTCAGTTCACGAGAGATATCCAGCCCGGTCATATCTGGCAACTGAATATCCAGCAACACCAGG -TCGTATTCGCCCGGTTTAAACATCTCCAGCGCCGCCTTGCCGGTCATGGCGACATCAACGCTGTTACCTA -ATTTTTCCAGCACAGAACGCGCAACAATCACGTTCAGTTCAATGTCTTCCACCAGCAGCACATTCAGCGC -CGGTAAAGGCATATCGTCTTCATCAAACGCATCATCGACCTCTTCTGCTACCGACGGTGCGTGGATCGTC -AACGTAAAGGTTGAACCTTTGCCCTGTTCGCTGGTAACCGTAATATCGCCGCCCATATTTTTCGCCAGAC -GACGAGAAACGGCCAGACCAATACCGGTGCCGGTGGCAGGTTTACCGCCATGACTGTCTTTCACCTGGTA -ATACATGGCGAAAATTTTATCCAGCTCATCCTGCGGAATGCCGATACCAGAGTCTTCCACTTCAAAATGC -AGCATATCGCCTTCATCGTAGCGCACGCGCACGGTAACCTGGCCTTGCTGGGTGAATTTGACGGCGTTAC -TGATGAGGTTCCACAGGATCTGCCGTAAACGCGTCCCGTCGGTAATGACCTGATGCGGTAATGGCAGCGT -CGGCTCCAGGTTAAAGCGCAATCCTTTTTGTTGCGCCTGCAATGCGGAGAGATTTTCCAGATCGGCAAGG -AAGCTGGTGAAATCAACCGGTTGATTATCAAGCTGGACCTTGCGCCGTTCCATCTTATCCATGTCGATAA -TATCGTTAAAGATATTCCCCAGCGTGACGGCCGAAACATGGATGGTCTTGAGATATTTTTCCTGCTCGGC -GGTGAGTTCGGTATCCAGCAGAATGCGGCTCAGACCGACGATACCGTTCAGCGGTGTACGCAATTCGTGA -CTGATGGTGGAGATAAACGTCGTTTTGTCGCGGCTGGCCCGTTCAAGCGCATCCTGATACCGCTTACGCT -CGGTAATGTCGCGACCAAAGCCCATCAAACCGTGACGTTTACCCACGCGGTCGTAGTACGGCACTTTACG -GATTTCAAAGCAGGCTTTGCGCCCGTCCGGGTAATCCAGCCACTGTTCATAGGTCAGTGACACATTATGA -CGGAACACTTTTTCATCGGTTTCAATGACTTTTGCGGCGGCTTCCGGTGAGTAAACATCAGCAGGTTTCA -GGTGAACCAGTTGTTTTTCGCTTTTTCCGGTCAGCAGCTCCATCGCGCGGTTACAGCCGGAAAACTCTTT -ATCTTCGTTACGATAAAAAACCAGGTCGGGTGAAGCATCAAGGAAGGAACGTAAGAATGAGGATTGCTGC -TCGAGCTGAATTTGTGTCTCTTCGCGCTCTTTGATTTCAATTTTCAGTTGGCCGAAGGTTTCCTGCAGTT -CTGCTTCCGCTTTTTCACGAACGGCAATTTCCTGATTTAGCTGGGCAATATTATCTTTTAACTGAACGTT -GAGGCTCAAATCGCGCTCGCGCATCTCCTCCAGTTTTTGCACCAGCCGTGACAGACGTTGTCGTGACTCC -TCCAGTTGCTCGACGACCACCGATAGAAAGTAGACCGCCCACGGCGTAATCAGCAAACCAAAGAAGATAG -AACGAATAACATCAATGCTTTCGACCTGACCATGCAGCACCATGGTTACCGCCATTTGTACCACAATGGC -AAGAACGACGAGGGCCAGCGCCAGCAACATTGAGAAGCGCACCAGACCTAACTTCATCATCAGGTCAACA -TAATACTGCGCCAGCAGACGAATTTGCTTCATTAGGGAATTCCTTCACGACAACCTGCCCCAATAATACC -CAATTCTGACAGTTACGTTATAAATTGTGTGAGAAATGCGGAATTCCCCTCAACGACCTACTCCGTTGGA -GGTAGCCACGGACGTCCCAGCGCCGATCCCTGTACGCCATGTTCATTCAGATAGCGATCCAGCTCGACCA -TTCCCGTCCATCGATTTTCGCACCACAGCGGAGCAAGCAGCGTCGGGCGACGGGCGCTGGCGGAAATGCG -GTGGTAGATCACTTCCGGTGGCGTATGGCGAATCATTTCTCCGGCAGTGAGCGTGTAATCCTCCAGTTCA -ATACCGTTCAAACGCCCCGCTTCCCAGGCTTTCGCCATAATGCTGCCTTTCACAATATGCAGCGGATGCA -GCTTTATGCCGTCCACGCCGGTTTCAACCACTCGCTCCAGCGTTTGCAAACATTCAGCCTGCCCTTCGCC -AGGCAGGCCGACAATTAAGTGGGAACACACCTTCAGCCCGCGCTGACGTGCCAGCTGGGTTGTACGCTGA -TAACAGGCAAAATCATGGCCGCGGTTGATGCGATGCAGTGTTTTGTCGTGGGCGGTTTGTAGCCCCAGCT -CCAGCCACACTTCGTAACCCTGGTCCTTATATTCGCAAAGCAGATCCAGCACCGCATCCGGCACGCAGTC -CGGGCGGGTACCCACACACAAACCGACAATATTGGCCTGGCTCACCGCCTGCTGATACATAGAACGCAGC -ACCTGAACTTCCGCAAAGGTGCTGGTATACGCCTGAAAGTAGGCCAGATAGCGTTTAGCGCGGTTAACTA -AATTCGCCTGGTGCGCCAGTTGCTCGGCAATGGAACGATGCTGCTGCGCTTCATCGGCAAACGAGGCAAC -ATTACAGAATGTGCAGCCACCACGCCCGATGGTACCGTCACGGTTAGGGCAGCTAAAACCGCCGTGCAGC -GTCAGCTTATGCACCTTTTGCCCATAACGACGGGTGAGATCACCACCAAACATATTGACTAATTTCTGTA -ACTGCATAATCTGATAGACCGCGCCTTGAAAAGAGGCCAAAGCCTGCCATTTTTAGCTCAATTCGGCGAT -GACCTGGATCAATCGTCCCGGCCTGCTTTTATCAACTGCATAATCAATCAAAATTACCGAAATTTCATGC -ATAATCACATAAATCACTTTTGCTTATCTTGTGTCAGATTTTTTTATCTCCTGATGGATTTTAGGCAAAA -ACAGTAGCATGAAACGTCATTACCAATTAAGGCAGTATAAAATGCTGGTTTTGTCGTCAGTTCAAGGCAG -GATAAGGGTTAACACACCTTTATGACAGTCAGGAATTGACTGTTTCTCTAACGACTTCCCTTTTAGCCTT -AAAGATAAAATCCATTTTAATTTCAGTCATTTAATAAAGAATTTTGCGCTAAAGCACATTTCTGTACCAA -TAAGCTTGCCATTTGACCTGTATCAGCTTTCCCGATAAGTTGGAAATCCGCTGGAAGCTTTCTGGATGAG -CAGCCTGCTCATCATATTTATGCAGTAATTGAGATCCCCTCTTCACCGTATTAACCGATGCGAAAAGGAC -AACAAGGGGGCGAATGCGAGGCGCGCGTATGACACGCAAACCCCGTCGCCACGCTCTTTCTGTGCCCGTG -CGCAGCGGTTCGGAAGTGGGGTTCCCGCAGAGCCTGGGGGAGGTTCACGATATGTTGTACGATAAATCCC -TTGAGAGGGATAACTGTGGTTTCGGCCTGATCGCCCACATAGAAGGCGAACCTAGCCACAAGGTAGTGCG -TACTGCAATACACGCACTGGCCCGCATGCAGCACCGTGGCGCGATTCTCGCCGATGGTAAAACCGGCGAC -GGTTGCGGCTTGCTGTTACAAAAACCGGATCGCTTTTTTCGCATCGTTGCGCAGGAGCGCGGCTGGCGTT -TAGCAAAAAACTACGCTGTCGGGATGCTCTTCCTGAATAAAGATCCTGAACTCGCCGCTGCCGCACGCCG -CATCGTTGAAGAAGAACTGCAACGCGAAACCTTGTCGATTGTGGGCTGGCGTGATGTCCCCACTAACGAA -GGCGTGCTGGGTGAAATCGCCCTCTCCTCTCTGCCACGCATTGAGCAAATTTTTGTGAACGCCCCGGCAG -GCTGGCGTCCACGCGATATGGAGCGCCGTCTGTTTATCGCCCGCCGCCGCATTGAAAAGCGTCTCGAAGC -CGACAAAGACTTCTACGTCTGTAGCCTGTCGAATCTGGTGAACATCTATAAAGGTCTGTGTATGCCGACG -GATCTGCCGCGCTTTTATCTGGATCTTGCGGACCTGCGTCTGGAATCGGCCATTTGCCTGTTCCACCAGC -GCTTCTCCACTAACACCGTACCGCGCTGGCCGCTGGCGCAACCGTTCCGCTATCTGGCGCATAACGGTGA -AATCAACACCATCACCGGTAACCGCCAATGGGCGCGTGCGCGTACTTATAAATTCCAGACACCGCTTATC -CCTGACCTGCACGACGCCGCACCGTTCGTCAACGAAACCGGCTCTGACTCCAGTTCGATGGATAACATGC -TGGAACTGCTGCTGGCAGGCGGGATGGATATCATCCGCGCCATGCGTCTATTAGTACCACCCGCCTGGCA -GAACAACCCGGATATGGACCCGGAACTGCGTGCCTTCTTTGACTTTAACTCCATGCATATGGAGCCGTGG -GATGGCCCGGCGGGCATCGTGATGTCCGACGGTCGTTTTGCCGCCTGTAACCTCGACCGTAACGGTCTGC -GTCCGGCGCGCTACGTCATCACCAAAGATAAGCTCATCACCTGCGCCTCTGAAGTCGGTATCTGGGATTA -CCAGCCTGACGAAGTGGTCGAAAAAGGCCGCGTCGGGCCAGGCGAACTGATGGTTATCGACACCCGCAGT -GGGCGTATTCTGCACTCGGCAGAAACCGATGACGATCTGAAAAGCCGCCATCCATATAAAGAGTGGATGG -AGAAAAACGTCCGCCGACTGGTACCGTTTGAAGATCTGCCCGATGAAGAAGTGGGTAGCCGCGAACTGGA -CGACGACACGCTTGCCAGCTACCAGAAACAGTTTAACTACAGCGCGGAAGAGCTGGACTCCGTAATTCGC -GTACTGGGCGAAAACGGTCAGGAAGCGGTCGGTTCGATGGGCGATGATACCCCATTCGCCGTGCTCTCCA -GTCAGCCGCGCATTATTTACGACTACTTCCGCCAGCAGTTTGCCCAGGTGACTAACCCGCCAATCGACCC -GCTGCGTGAAGCGCATGTTATGTCGCTCGCCACCAGTATCGGTCGTGAAATGAACGTCTTTTGCGAAGCA -GAGGGCCAGGCGCACCGTTTAAGCTTTAAATCGCCGATTCTGCTCTACTCCGATTTCAAACAGCTCACGA -CGATGAAAGAGGAGCACTACCGCGCAGATACGCTGGATATCACCTTTGACGTCACTAAAACCACGCTCGA -AGCGACAGTCAAAGAGCTGTGCGACAAAGCCGAAAAAATGGTACGTAGCGGCACCGTGCTGCTGGTGCTC -TCCGACCGGAATATCGCTAAAGATCGCCTGCCGGTTCCAGCCCCGATGGCGGTTGGCGCGATCCAGACCC -GTCTGGTCGATCAAAGCCTGCGTTGCGATGCCAACATCATCGTCGAAACCGCCAGCGCCCGCGATCCGCA -CCACTTCGCCGTGTTGCTGGGCTTCGGCGCGACGGCTATTTATCCATACCTTGCCTATGAAACGCTGGGC -CGCCTGGTAGACACCCATGCGATTGCCAAAGATTATCGTACCGTGATGCTCAACTACCGTAACGGCATCA -ACAAAGGCTTGTACAAAATCATGTCCAAAATGGGCATCTCCACCATCGCCTCTTACCGCTGCTCGAAACT -GTTTGAAGCGGTCGGTCTACACGATGATGTAGTGGGCCTGTGCTTCCAGGGGGCGGTCAGCCGCATTGGT -GGAGCAAGCTTTGAAGACTTCCAGCAGGATCTGCTGAATCTGTCGAAACGTGCCTGGCTGGCGCGTAAGC -CCATCAGCCAGGGCGGTCTGCTGAAATACGTCCACGGCGGCGAATACCACGCCTACAACCCGGACGTGGT -GCGCACGCTGCAACAAGCGGTACAAAGCGGCGAGTACAGCGACTATCAGGAATACGCGAAGCTGGTTAAT -GAGCGTCCGGCAACCACGCTGCGCGATCTGCTGGCAATTACGCCGGGTGAAAACGCGGTCAACATTGCTG -ATGTTGAACCGGCAAGCGAACTGTTTAAACGCTTTGATACCGCCGCGATGTCTATCGGCGCGTTAAGCCC -GGAAGCCCACGAGGCGCTGGCGGAAGCGATGAACAGCATCGGCGGTAATTCGAACTCCGGTGAAGGCGGC -GAAGACCCGGCGCGCTACGGCACCAACAAAGTGTCGCGCATCAAGCAGGTGGCTTCCGGTCGCTTTGGGG -TTACTCCGGCGTATCTGGTCAATGCCGACGTCATTCAGATTAAAGTCGCCCAGGGCGCGAAGCCAGGCGA -AGGCGGTCAGTTGCCGGGTGATAAAGTCACGCCTTACATCGCCAAACTGCGCTATTCGGTGCCCGGAGTG -ACGCTGATCTCCCCGCCGCCGCACCACGATATCTACTCTATCGAGGACTTAGCGCAGCTCATTTTCGACC -TCAAGCAGGTTAACCCGAAAGCGATGATCTCCGTGAAGCTGGTTTCCGAACCGGGAGTAGGCACCATCGC -GACTGGCGTGGCAAAAGCTTATGCGGACTTGATCACCATCGCAGGCTATGACGGCGGCACCGGCGCAAGT -CCGCTTTCATCGGTGAAATACGCAGGCTGTCCGTGGGAGCTGGGGCTTGTTGAAACCCAGCAGGCGCTGG -TTGCTAACGGCTTGCGTCACAAGATCCGTTTGCAGGTCGATGGCGGCCTGAAAACGGGTGTCGATATCAT -CAAGGCGGCGATTCTCGGCGCAGAAAGCTTCGGCTTCGGCACTGGCCCGATGGTGGCGCTCGGCTGTAAA -TATCTACGTATTTGCCATCTGAACAACTGCGCAACGGGTGTAGCAACTCAGGATGACAAACTGCGTAAGA -ACCACTATCACGGCCTGCCATTCAAGGTGACGAATTACTTTGAGTTTATCGCCCGTGAAACCCGCGAGCT -GATGGCACAGCTTGGCGTAACACGTCTGGTGGATCTGATTGGTCGCACCGACCTGCTGAAAGAGCTGGAC -GGTTTCACCGCCAAACAGCAGAAGCTGGCGCTGTCGAAGCTGCTGGAGACTGCCGAACCGCATCCAGGTA -AGGCACTCTACTGCACCGAAAACAACCCGCCGTTTGATAACGGCCTGCTGAACGCGCAGTTGCTGCAACA -GGCGAAACCGTTTGTCGATGAGCGCCAGAGCAAAACCTTCTGGTTCGATATTCGCAACACCGACCGTTCT -GTCGGCGCGTCGCTTTCAGGCTATATCGCCCAGACGCACGGCGATCAGGGGCTGGCAGCCGATCCTATCA -AAGCGTACTTCAACGGCACCGCAGGCCAGAGCTTCGGCGTGTGGAACGCGGGCGGCGTGGAACTGTACCT -GACCGGTGATGCCAACGACTATGTCGGTAAAGGCATGGCGGGCGGCTTAATCGCCATTCGTCCTCCGGTT -GGTTCCGCCTTCCGCAGCCATGAAGCAAGCATTATCGGCAACACCTGCCTGTATGGCGCGACCGGTGGTC -GTCTGTATGCCGCAGGCCGCGCGGGTGAACGTTTCGGCGTGCGTAACTCCGGTGCTATCACCGTGGTAGA -AGGCATTGGCGACAACGGTTGTGAATATATGACGGGTGGTATCGTCTGCATTCTGGGTAAAACCGGCGTT -AACTTCGGTGCGGGCATGACCGGCGGTTTCGCTTACGTTCTCGATGAAAGCGGCGATTTCCGCAAACGCG -TTAACCCGGAACTGGTCGAGGTCTTAAGCGTTGACGCTCTGGCGATCCATGAAGAGCATCTGCGTGGTCT -TATCACCGAGCATGTGCAGCATACCGGCTCTCAGCGCGGTGAAGAGATTCTGGCGAACTGGTCAACCTTC -GCCACTAAATTTGCGCTGGTTAAACCGAAGTCCAGTGATGTAAAAGCACTGCTGGGTCACCGTAGTCGTA -GCGCAGCTGAGTTGCGCGTGCAGGCGCAGTAAGGGGTAGCAACAATGAGTCAGAATGTTTATCAATTTAT -CGACCTGCAGCGCGTTGATCCGCCAAAGAAACCGCTGAAGATCCGCAAAATTGAGTTTGTTGAAATTTAC -GAGCCGTTTTCCGAAGGCCAGGCCAAAGCGCAGGCTGACCGCTGCCTGTCGTGCGGCAACCCATACTGCG -AGTGGAAATGCCCGGTACACAACTACATCCCGAACTGGCTGAAGCTCGCCAACGAGGGGCGTATTTTTGA -AGCGGCGGAACTGTCGCACCAGACCAACACCCTGCCGGAAGTTTGCGGACGAGTCTGCCCGCAAGACCGT -CTGTGCGAAGGTTCCTGCACTCTGAACGATGAGTTTGGCGCGGTGACCATCGGCAACATTGAGCGCTATA -TCAACGATAAAGCGTTCGAGATGGGCTGGCGTCCGGATATGTCTGGTGTGAAACAGACCGGTAAAAAAGT -GGCGATTATCGGCGCAGGCCCGGCAGGTCTGGCGTGTGCGGATGTCCTGACGCGTAACGGCGTAAAAGCC -GTTGTCTTCGACCGTCATCCAGAAATTGGCGGGCTGCTGACCTTCGGTATTCCGGCCTTCAAGCTGGAAA -AAGAGGTAATGACGCGTCGCCGTGAAATCTTCACCGGCATGGGTATTGAATTCAAACTCAATACCGAAGT -GGGCCGCGACGTACAGCTGGACGATCTGCTGAGTGATTACGATGCCGTGTTCCTTGGCGTCGGGACTTAT -CAGTCAATGCGCGGCGGGCTGGAAAACGAAGACGCCGATGGCGTGTACGCAGCGCTGCCGTTCCTCATCG -CCAACACCAAACAGTTAATGGGCTTTGGTGAAACCCGCGACGAACCGTTCGTCAGCATGGAAGGCAAACG -CGTGGTGGTCCTTGGCGGTGGCGACACTGCGATGGACTGCGTGCGTACGTCCGTGCGCCAGGGAGCGAAG -CACGTTACCTGTGCCTATCGTCGTGATGAAGAGAACATGCCGGGTTCCCGCCGCGAAGTGAAAAACGCGC -GGGAAGAAGGCGTAGAGTTCAAATTCAACGTCCAGCCGCTGGGTATTGAAGTGAACGGTAACGGCAAAGT -CAGCGGCGTAAAAATGGTGCGTACCGAAATGGGCGAACCGGACGCCAAAGGCCGTCGCCGCGCGGAGATC -GTTGCAGGTTCCGAACATATCGTTCCGGCAGATGCGGTGATCATGGCGTTTGGTTTCCGTCCACACAACA -TGGAATGGCTGGCAAAACACAGCGTCGAGCTGGATTCACAAGGCCGCATCATCGCCCCGGAAGGCAGCGA -CAACGCCTTCCAGACCAGCAACCCGAAAATCTTTGCTGGCGGCGATATCGTCCGTGGTTCCGATCTGGTG -GTGACCGCTATTGCCGAAGGTCGTAAGGCGGCAGACGGTATTATGAACTGGCTGGAAGTTTAAGCGAGGT -AACAATGAATTCGCCAGACTGTGTCTGGCGAATCAAATTACTGACGAAGTGCGCGTTGTTTTCTGGCAAA -TGCGGCATGAGCGTTTGACCTTTCCTATAATAGGGATAATTTTCAATAAATTGTGCTTTGTTCACCAAGT -CTGATGAGTGAAGCACATCAAGCAATTTCTCATTTACAATCCGTCTCAATTACTTGTTAACACCTCTGAC -AATACCGATTCTGCAAGCTATTCAGTCTTTTCATTCCATGTAAATTGTCTCGATATTAATATACAAAATA -TGAATATAAAAAACCAATATATTATCCTTAATTATCTATATATTTTCCTATTTTTCAGCGCAAACATTCA -TGTAATGAATAATTATCACCACAAACCACCTCACCAGCACCTTATTATTCACATGATCGTAACTATAAAA -TTCATTAAATAAATACATCCCAGCAAGTTGGCTATTTCTGAACGAGTTATTTATTTACATTCACAAACAG -ATATATATACTGCTTCAGCTTTTTATTTTAAAAAATAAATTTGTTATTAAGGATATGTTCATATGTTTTT -CAAAAAGAACCTCACAACAGCTGCTATTTGTGCAGCACTTTCTGTTGCAGCATTCAGTGCCATGGCAACA -GATTCAACTGATACAGAATTAACTATCATCGGCGAGTATACCCCTGGTGCATGTACCCCAGTTGTTACGG -GCGGCGGCATTGTTGACTATGGGAAACATCATAACAGTGCGCTGAATCCGACCGGTAAAAGTAATAAACT -GGTTCAACTGGGCCGCAAAAACAGCACATTAAATATAACCTGCACAGCACCAACGCTAATTGCTGTAACC -TCCAAGGATAACCGTCAGTCGACCATTGTAGCGTTAAACGACACATCCTATATTGAAAAAGCTTATGATA -CTCTCGTAGATATGAAGGGAACGAAAAACGCCTTTGGTTTAGGTTCTGCGCCTAATGGACAAAAAATTGG -CGCTGCATCCATTGGTATTGACAGGTCTAATGGTGGGATTCACGCGGCGGACGATACAGGTGAAATTCCT -GTCGACCTGATTCAAACTGACCACTGGTCAGCAGCGACCCCCACATGGAAAGCCTCATCTAATGGCGCAT -TCTGCTCGCTGACAAGTTGCTCAGCAATCGAGCGCGGTTATTCTGTTGCAAAAACAGGGGAACTGACACC -TGTTGCTATTACAGCGGTCACCTTCCCGTTACTGATTGATGCTGCGGTAAATGACAATACTATTCTTGGT -TCTGATGAAACGATCAAACTGGATGGTAACGTCACTATCAGCGTTCAGTATTTATAAGAACTTGTAATAC -AGTTTTTATTTTTACGCATTAACCAGTTAGCTATAACTCGGACAGATTATGCCCTATGACATGGTCTGTC -TTAATCAATCTCATCGCAAACAGTGCATAACATATATTAACAATATGTTTCTGCGTTATTTATCATTATT -ACAGGAGTTTTAATTTAAATGCTCAGACACATTACATTCACTGTATTTATAACAACATCAATGAATACCT -TAGCCACAGGGATGGTTCCTGAAACATCAGTATTGCTGGTTGATGAAAAGCGTGGTGAAGCTAGTATTAA -TATTAAGAATACAGATGATCATCCTTCATTGCTTTACACCACCATTGTTGATTTGCCTGAAAGCAATAAA -TCAATTCGTTTAATCCCGACTCAGCCCGTTATTCGTGTTGAAGCCGGTCAAGTACAACAGGTTCGATTTT -TACTTCAGGCGACTGTTCCTCTGCAATCAGAAGAGCTGAAACGCGTAACGTTCGAAGGTATTCCACCAAA -AGATGACAAGAGCAGCAGAGTTACTGTTTCAATTCGTCAGGATCTACCTGTACTGATCCACCCGGCTTCC -CTGCCGGAAGAGCGAGAGACCTGGAAATTCCTGGAATGGCGTAAAAATGGCGACCAAATTGAGATTAGCA -ACCCCAGTAATTATGTCGTTCGTATGACCTTACAATTTAAAACGCTCCCTTCAGGAAAAACGGGGGCTAT -AAATAAGACCTATTTTCTACCACACACCAGTACAACTACTGCATTAACAAACGCTACGGATACAAAAGTC -GAGTTTTACCCAGCCAGCCGATATGGTTATCGCGGTAATAAATATGTCACTGACTTAAAATAACTTTGCC -TGGAGCGACAAGGATGTTAAAAAAAACGTTACTGGCCTACACCATTGGTTTTGCCTTTTCTCCCCCAGCC -AATGCAGATGGTATAGAGATTGCCGCTGTTGATTTTGATCGGGAAACATTAAAATCACTAGGTGTAGATC -CTAATATATCGCATTATTTTTCCCGTTCAGCCCGTTTTTTGCCAGGTGAATATTCACTGATAGTATCAGT -AAATGGCGAAAAAAAAGGCAACATTGCTACGCGCTTTGATGAAAATGGCGACATTTGTCTTGATCAGGCA -TTTCTGCAACAAGCCGGTTTAAAAATTCCTTCTGAAGAAAAAAATGGCTGTTACGACTATATATTGTCCT -ACCCGGGTACCACAATCACACCATTACCTAACCAGGAAGCGTTAGATATTATCGTTTCACCACAGGCGAT -CATTCCCATAGGGTTGGATCTCACAAACGCAGCAACTGGTGGAACAGCTGCGCTGCTAAACTACTCTCTG -ATGAGCAGCCGTGCAGAATTTTCTAATGGGAGTTCGGACTACTCCCAGGCTGCACTTGAAGGCGGGATTA -ATATTAATGACTGGATGTTACGCAGCCATCAGTTCCTTACACAAACAAATGGCACATTCAGTAACCAGAA -CTCGTCAACCTACCTTCAACGTACCTTTACAGATCTTAAAACACTCATGCGAGCAGGTGAAGTTAACCTC -AATAATAGCGTGTTGGAAGGAGCCAGTATTTACGGTATCGAAATCGCACCGGACAACGCATTGCAAACCA -GCGGCAGTGGTGTGCAAGTTACTGGTATAGCCAACACCTCTCAGGCTCGTGTCGAGATTCGTCAACAAGG -AGTTTTAATTCATTCCATTCTGGTTCCTGCGGGCGCATTCACTATCCCTGATGTACCTGTTCGCAATGGT -AATAGTGATCTTAATGTCACCGTTGTCGAAACAGACGGTAGTTCGCACAACTATATTGTTCCCTCCACCC -TGTTTAATCAGCATGTAGAAAGCTTCCAGGGTTATCGCTTCGCGATAGGGCGGGTAGACGATGACTATGA -CGAATCACCTTGGGTAATTAGTGCATCGAGCGGATGGAATCTGACACGCTGGAGTGCAATGAACGGCGGC -GTTATCGTAGCAGAAAATTATCAGGCGGCATCAATCCGGTCGAGTCTGGTTCCCCTGCCCGATTTAACAG -TGAGCAGCCAAATTAGTACATCGCAGGATACGAAAGACTCACTGCAAGGACAGAAATATCGTCTTGACGC -GAACTACAATCTCCCATTTTCACTTGGGCTAACAACCAGCCTCACTCGATCTGATCGCCATTATCGCGAA -CTGTCTGAAGCGATTGATGATGATTATACCGATCCGACTAAAAGCACTTATGCGCTTGGTTTAAACTGGT -CTAACTCCATTCTGGGTGGTTTCAACATCAGTGGCTATAAAACATATAGTTACGACGGTGACAATGACTC -AAGCAACCTTAATATTAACTGGAACAAAGCGTTCAAACACGCCACGGTTTCCGTCAACTGGCAGCATCAA -CTTAGTGCTTCAGAAAATAATGAAGACGATGGTGATCTGTTCTACGTCAACATCAGTATTCCATTTGGCA -GATCAAACACCGCCACACTGTATACTCGCCATGACGATCATAAAACCCACTATGGTACTGGTGTCATGGG -AGTCGTCTCAGATGAGATGTCCTACTATGTGAATGCTGAACGAGATCACGACGAACGTGAAACGAGCTTG -AACGGCAGTATCAGTTCCAATCTCCATTACACCCAAGTCAGCCTTGCCGCAGGAGCAAGCGGCAGTGATA -GCCGTACTTACAACGGTACGATGTCAGGTGGTATTGCCGTACATGATCAGGGAGTGACCTTTTCACCGTG -GACTATCAATGACACTTTCGCCATCGCAAAAATGGATAACAATATTGCAGGTGTCAGAATTACATCTCAG -GCAGGCCCAGTATGGACAGATTTTCGGGGTAATGCCGTCATTCCATCAATCCAGCCGTGGCGAACATCAG -GAGTTGAGATCGATACCGCCAGCTTGCCAAAAAATGTCGATATCGGTAACGGCACAAAAATGATCAAACA -AGGCCGTGGTGCAGTAGGGAAAGTCGGATTCAGTGCGATAACACAACGCCGTGCATTACTCAATATCACA -CTTTCCGACGGCAAAAAACTGCCCAGAGGCGTTGCGATTGAAGATAGTGAAGGCAACTATCTGACAACAT -CAGTGGATGACGGTGTTGTATTCCTCAATAACATCAAACCGGACATGGTGCTAGATATAAAAGATGAGCA -GCAATCATGCCGTATTCACCTTACATTCCCAGAAGATGCACCAAAAGATGTGTTCTATGAGACAGCAACA -GGAGAGTGCCAATGAAACGGATAATAACAGGATGCCTGCTGCTGAACTTCGCCATGGCCGCTCAGGCAGA -GTGTAATATCTCCAGTAGCATACAAAATATCGACTATGGCAAACGAAGTGCTGCCATGCGCCAAGTTGAC -CGGGGTAAAACAACACAATTAGCAGACAGAACAATCACGCTGGTAATGCAATGCGATCAGGACGCTCATA -TTCGTGTTCAGTTGAATACCGCTAATATTTCCAACAACGGATTTGGATTTGGCCCGAATGGTTCATTAAA -TCTGATCGCCAGCGATGCATTTTCAGGTAGTAACAATCTCGACCTGGCGTTAGCCAGTGGCAAAAATGAC -AATCCGGGCAGCACAGGAACAGCATCAATTAGGGAAGGTGCGAATAAGCGGGGAAATTCTTCTCGGCTGA -CTCAGTCATTTCATTTCTTCATGTTTGAGCCGATTTTTTCTCCCGTAAATGCCTTGAATCAGCCTATTTA -GACCGTTTCTTCGCCATTTAAGGCGTTATCCCCAGTTTTTAGTGAGATCTCTCCCACTGACGTATCATTT -GGTCCGCCCGAAACAGGTTGGCCAGCGTGAATAACATCGCCAGTTGGTTATCGTTTTTCAGCAACCCCTT -GTATCTGGCTTTCACGAAGCCGAACTGTCGCTTGATGATGCGAAATGGGTGCTCCACCCTGGCCCGGATG -CTGGCTTTCATGTATTCGATGTTGATGGCCGTTTTGTTCTTGCGTGGATGCTGTTTCAAGGTTCTTACCT -TGCCGGGGCGCTCGGCGATCAGCCAGTCCACATCCACCTCGGCCAGCTCCTCGCGCTGTGGCGCCCCTTG -GTAGCCGGCATCGGCTGAGACAAATTGCTCCTCTCCATGCAGCAGATTACCCAGCTGATTGAGGTCATGC -TCGTTGGCCGCGGTGGTGACCAGGCTGTGGGTCAGGCCACTCTTGGCATCGACACCAATGTGGGCCTTCA -TGCCAAAGTGCCACTGATTGCCTTTCTTGGTCTGATGCATCTCCGGATCGCGTTGCTGCTCTTTGTTCTT -GGTCGAGCTGGGTGCCTCAATGATGGTGGCATCGACCAAGGTGCCTTGAGTCATCATGACGCCTGCTTCG -GCCAGCCAGCGATTGATGGTCTTGAACAATTGGCGGGCCAGTTGATGCTGCTCCAGCAGGTGGCGGAAAT -TCATGATGGTGGTGCGGTCCGGCAAGGCGCTATCCAGGGATAACCGGGCAAACAGACGCATGGAGGCGAT -TTCGTACAGAGCATCTTCCATCGCGCCATCGCTCAGGTTGTACCAATGCTGCATGCAGTGAATGCGTAGC -ATGGTTTCCAGCGGATAAGGTCGCCGGCCATTACCAGCCTTGGGGTAAAACGGCTCGATGACTTCCACCA -TGTTTTGCCATGGCAGAATCTGCTCCATGCGGGACAAGAAAATCTCTTTTCTGGTCTGACGGCGCTTACT -GCTGAATTCACTGTCGGCGAAGGTAAGTTGATGACTCATGATGAACCCTGTTCTATGGCTCCAGATGACA -AACATGATCTCATATCAGGGACTTGTTCGCACCTTCCTTAGTACTTCCCCCAATAATTGGCTGGTGTTTA -TGCAAAATGGTCAAGAAGTGGTAATTGATAGCGGTAAAAGCGTTAGCCTCACACTGACAATGGCTCCAGC -TTTTAAGGATGAAGGGGAACTAACCGACATGACAGATATTACAGGCAATCTGACGGTCCTGGTGGAGGCA -AAATGAACAATGTAAAATTACTGATTGCCGGAAGTGCCTTTTTTGCCATGTCAGCGCAAGCCGCTGATAG -AGTATCAATTGACGTTAAGGTGACTCTGGAAGCTGCAGCTTGTACTCCAATACTAAGCAACGGCGGAGTT -GTTAACTTCGGTAGTCATTCAGTCAATAGACTTTCAACGCAGCACTACACACAGATTGGAACACGTAATA -TTAATATGACTATAACTTGCGAATCCGCTACCGGCATTGCGATTACCGCTCGTGATACACGAATGGATAG -TATGACCACCGGAAAAGATAGTGGGGGTCAGAGTGGTGTAAAATATACCTTAAATGGCGGAGGTTATATT -AGCCAGACAACGCGCTTATTCGGCTTAGGGAAAACAAAAGATAATAAAAATATCGGTAGTTATGCCGTGT -TAATTGATAGCAACAACATTAGTGCCAGCAATGGTAGCCAGACGTTAGCTGTATCAATAGCAGGTGCAGA -TGCCGTCATAACAGGGCAAAAAAGAGCATGGCAAACGCTCACCGCTTATCCGCTTGCAGTCGATCAAAGC -TATTATTACACCTTTGTAAAACCAGGTGAAACAACCCCAACTCCTGTAACGAACGCCATTATACCGCTTC -AGGTGAGCGCATCTATCGCGAATGATTTAGGCGGTTCAGAAAAAATCGAACTTGATGGGAAAGCTGTGAT -AAGCGTAGTCTACTTGTGATAACAATGCCGGACAGGAGTACTATCAGGCATTCGTTTTATACGATCGGTT -AATGTTTCAGGAAAGCTCTTCGCATATCTTGGGGAAAGTAAATGTAATACGCTGTTCTTAATTGTTCAGT -GCTCACCCCCCAGAGTATAGCTCATTCCATTATTCAACTTAGCTCCATATAAAGGGACAGATAATGGAAT -CGCTCTCAGAAGGAACCACAGCAGGCTACCAGCAAATCCACGACGGTATTATTCATCTGGTCGATAGCGC -CCGGACGGAAACGGTACGTAGCGTTAACGCGTTAATGACCACGACGTACCAGGAAATTGGCCGACGAATT -GTCGAATTTGAACAAGGTGGCGAGGCCAGGGCTGCGTATGGTGCGCAGCTAATCAAGCGACTATCAAAGG -ATTTATGTCTAAGGTATAAGCGTGGGTTCTCTGCAAAAAACTTACGCCAAATGAGGCTTTTTTACCTCTT -TTTTCAACATGTTGAAATTCACCAGACAATGTCTGGCGAATTAACACCATTGGGAATTCCGCAGACACCG -TCTGCAGAATTCCCATCGGCAAAGATTTGGCAGACGCTGTCTGCCAAATCTTTCCCCTTGCCCAGGTCCA -CCTACGTCCGTTTACTTTCCGTTAAAAACGCTGACGCCCGCAGCTTTTATGAAAAAGAGACGCTCCGCTG -TGGCTGGTCTGTTCGCCAGCTAGAGCGGCAAATTGCGACCCAGTTTTATGAGCGGACACTACTGTCACAT -GACAAATCAGCCATGCTGCAACAACACGCTCCTGCCGAGACGCATATTCTTCCGCAACAGGCGATACGCG -ATCCCTTTGTGCTCGAATTTCTGGAATTGAAAGATGAATATTCAGAATCCGATTTTGAGGAGGCGCTGAT -CAACCACCTGATGGATTTCATGCTGGAACTTGGGGATGATTTTGCCTTTGTTGGTCGGCAGCGAAGGTTA -CGCATTGATGACAACTGGTTTCGTGTCGATCTGCTGTTTTTCCACCGCCGTTTACGCTGCCTGCTAATCG -TCGATCTAAAAGTGGGCAAATTCAGCTATAGCGATGCCGGACAGATGAATATGTATCTCAACTACGCCAA -AGAGCACTGGACGCTACCGGATGAAAATCCGCCCATCGGTCTGGTTCTCTGTGCAGAGAAAGGAGCCGGA -GAAGCGCATTATGCTCTGGCAGGTTTGCCTAACACCGTTCTGGCAAGCGAATATAAGATGCAACTACCTG -ATGAGAAACGACTCGCAGATGAACTCGTTCGAACACAGGCGGTGCTAGAGGAAGGCTATAGACGCCGTTA -ATTTCAGCGGTTTCGAATTCTGCAGACAGTGTCTGCAGAATCTTTAAAACGAACTAAGTTTTAAGCCATT -AAATCAGCCTTAACCTTCACCACAACCTTTTTAATCTCTCCAGGCTCGCCGACAACGCATCCTGGTTTAT -GCGGTTCACCTGGCATAAACACGGCGAACATTCCCGGTTTTAAGATGATGGCTTGCTCGTTATCAATGGT -GCTGCAAAGCTGATAATCATCCTCATGGTGGAACTCTTCACACTGACGCGCAGTGCCTGCCATGCCAAAC -AGAATCCGTTCCTCACCGTTTAATAACAGCTGGATATCAATGTATTGCTCGTGCAATTCCGCTTTTTTCT -CGACGGGCGATTGAGTGTTAAACGTCATGACATTCATAAAGATATTGTCGCCCTGTAATTCGTAACGACC -CGGCGCTTTTTCTTGCGGTCTGGCAGCTAATGCCAGCGTTAACGCGTCCTGTAACGCAGGATGTAACCCA -GCAGACGGTAATGACTGTACTTCACCCATCATCATAATTTTTCTCCCTGGGCCAACAGCGCAGCCCCAAG -TAAACCTGCATCATGGCGGTAATGCGCCGCCAGTAAATCAACATGAAATGCCGCTGGCTCCTGCGCCAGA -TACGTTTCCACCAGCGCCAGATACCCTTCTGCCAGACCAACGCTGCCACCGACCACCACGCACTGGCAAT -CAGTTGTGGCTTTAATATCAGCGATCAGCCTTGCAAGCGTACGTGCGGAGCGGTGAATCAGCTGCTGCGC -CTGCTCGTCACCCTGCCCGGCGCGCGTGAAAATAGTTTTCGCATCCGCGCCAGCCAACTCCCCCTGCGCT -GCCGCTGCAATGCCGCGACCAGAAGCAATCGCTTCCACGCAACCTGTGCGTCCACAGCCGCAGACTGGGC -CGTGTGGATCGGCAAGCGTATGCCCGATATGCCCCGCCAGACCGCCAGGGCCGGTAAGCAGTTTGCAGCC -GCTCACTACACCGCCGCCAACGCCGGTGGAAACGGTGATAAAGACCATATCGGTTATATCGCCATCCAGC -GCCTGAAACTCCGCCCATGCTGCGGCCTGCGCGTCGTTAATGGCAATGGTCGGCAAATTGGTAAGTTGTT -CCAGCGTTTTGACTAACGGAAAGTGTAGCAATCCACCAAGATTATGCGGATTAAGCGCCAGCAAGCTGCC -GTCACGGATTATCCCGGTCGAAGCGATGGCAACCCGCTGCGCATGAGCTTGCAACGGAGAGACTAATGCG -GATAAGGCATCACGCAAGGCTTCTGGTGTCTGGCTGGCTGGCGTAGGAAGTTCACGACGATCGCGGATCT -GCCCGTCAGCGCCAATCAGCGCGGCGGCAAGTTTAGTACCGCCGATATCAATCGCCAGTGTGGTCATAGC -ACCGCCTTTTTCATCGCTGTGTTGTACCACTGACAAATGTGCTCAAGACGCGTGATTGCAGAACCGACCG -TCACCGCCCACGCGCCGTGGCGCATCGCATCCGCCGCCTGAGCAGGCGTGTTGTAACGCCCTTCGGCAAT -CACCCGACATCCGGCGTCGCTCAACGTTTTCACCAGCGCCAGATCCGGCTCTTCTGGCGTTTCAGGCGTG -GTATAGCCAGAAAGCGTAGTGCCAATAATTTCGGCTCCCAGCTTTTGGCATGCCAGGCCGTCTTCCGGCG -TTGAGCAGTCGGTCATCGCCAGTAAACCGTGATGGTGAATACGTGCCAGCAGCGTTTCAACAGGCACCGG -ACGCGGGCGGTCGGTGCCGTCAATGGCGATAATGTCCGCGCCCGCCTGCGCCAGCGCATCAACATCTTCA -ATATAGGCCGTGATGCGTACCGGAGAATCCTCCAGATCGCGTTTCACAATTCCAATAATCGGCACGCTCA -CCACCGCACGCGTGGCTTGCAGATTTGCCACACCTTCAATGCGAATGGCAACCGCGCCCGCCTGTTCTGC -CGCTAATGCCATGGCGGCGACGATTTCGGGTTTATCGAGCGGGCTGTCCGGAACCGGCTGGCAGGAGACA -ATCAGGCCACCGTTAGCAGCGATTTTTTGATCCAGTTGTGCAAGTAACGACATACATCTTCCCTTAGCGA -AAGGCCCGGTACATAGACCGGGCAACAGGATTAACTTTTGGTTTTGACTAAATCGTTTTTGGCGCTGCCA -AACGGCACGGCACCGCTGAATGGTTTACCGTCGATAGCGTCATGAGTACGCAACGCTTCCGGGCGCAACC -AACGCTGAACGCGAGAAGGCATATCCAGCCCAATCAGCAGGATCACCACGAACGTCAGACTGAACGAGAG -CGATGCCAGCGCAGTACCCAGATCCAGACGTTGAGCGATCAACGCGCCGATGATTGGGGCCAGTGCACCG -CCCAATGCGCCAACGTTGTAGGTAAAGCCCAGGCCCGCTGCACGCTGGTCGGTATCGAAATAACCGCCAA -TCAGTTTTGGTAAGATCCCGGCGATCCCTTGTCCAAGCATTTGCTGGAAGAACAGTAACAGACCGAGCAC -CCAGACGTTTGCGCCGCCAATCGCAAATACCGGAATAATCAGCAGCTGCGAGGCCAGCAGGCTACAAACG -TACGCTTTGCGGGTTCCCAGCCAGTCACCGAGGAAGCCACCTACGCAGCATCCCACCGCCGCGCCAAAGC -CACTAAAGAACAGCACATTGGCTACAGTATGCGGGTTATAAGCCAGATCGGTTTTCAGATACGTTGGCAG -CAGCGCCTGAATCGGCCATGAGTAGAGGAAAGCAAACAACACGACCACCATCAGCATTACGCCCGTTGGC -CAGCGTTTGCCTGCACTCTGCACCATAAAGCTGATAAAGATTGCGGCGCATAACAGCCCAAGAACAGCGA -CGATCGCGGCATTTTGCAGGTTACCGGCGAAGCAGAACCACAGCGCAGTAGCCGCCGCCAGTGTCATTAC -GATATTGGCAATGCGATGTTCACCACGGTAGAGAATATCCACCATTGTGCGTACTGGTGCTTTACCTGCG -TGTTTCTCTTTCCAGTCTTCCGCTTCCGGGATGTTTTTACGCAGCCAGAGAGCAAAGATGATTGGCAAAA -TGCCGATAAAGAACAGCGCACGCCAGCCCCAGACCGGAACCACCAGGCTATAGACCTGAGCGGCAACGAC -GGCCCCCACAGAGAAGCCTGAAATCAAAAAACCACTGGCTTTGTTACGCAGATGTTTTGGCCAGCTTTCA -ATGACATAGGTGGCGCTGGAACCGTATTCACCCGCCATCCCCATGCCGATGACCAGACGAGCGATAAACA -TGGTGATGTAGCCTGGCGCAAAGCCGCAGGCCAGCGTCCCGGCCGAGAAGAGAACGATGCTGGTGACCAT -TGCCAGACGACGCCCGTAGCGGTCACCCATAGCGCCGAGCATCAGGCCGCCGAACCAGCGAGAGATAAAG -GCTGCAGAGATCAGACTTGCCGCCTGCACCGTCGTCAGCCCGAATTCACCTTGTACTTCGGTGAGTACCA -GGGCGATTAAAACGAAATCAAAACCGTCAAGCAGATATCCCAACCAGGCAGCGGAAAATGCGCGCCATTG -TGCACGGTTGAGATGGCGATACCACGGGATATTCTGGGTTGTAGTACTCATTGTGAGTCTCCCGCGGTGG -GCGATGCCCACACGCTTTGGTATGAAAATTGTAGGGTACAGATGCGTTTATTTCCCCTCACCCGGTAGGG -GCGAGCGAGGGGAAACAACTCACCCGCGCTCTTGCATCAACTGCTGGGCCAGCGCCTTCAGTTCTGGCAG -ATATTTTTCATCTACCGGTCCAAACGGTTTGCGGCACAGCGGCACAGAAACGACATCCATATAATGGAGG -ACAGTTTTCAGGCCGCGGAATACGCCCGTTTTGATCAGTAAATCAATGACTTTATTGCATTCAGTTTGCA -GTTTCTGCGCGGTCTGGATATCGCCTTCTTTCAGCGCCTTAACGATCCCCTGATAGCGCCAGCCCATGAT -GTTGTAGGTACTGCCGATACCACCATCAGCGCCCGCCAGCAGACCAGAGGCGAAGATTTCGTCGTAACCG -TTATAGAGCACAAGATCAGGATGTTCACGACGGATCTGCTCCATCTGATAGAGATCGCCAGAGGTCTGTT -TCAGCGCACCTACGCCAGGCAATGTAACAAGTGTGTTGATCTGATCCAGGGTCAGTTTTACCCCACTCAG -GGCTGGAATGTTGTACACCACCATCGGCAAACCATCCGCCGAATCAATAATTGCCCGATAGTGATCGCAG -TGTTCTTCAAAGCTGAAAGGATAGTAGAACGGCGTGACGGCGGAGACGGCATCGAAGCCATAACGTTTAG -CCGATGCCGCAAGTTGTTGGCTTTCGGCGGTGCTGACGCAACCGACGTGGGCGATGAGTTTAATCTTACC -TTTCGCCTCTTCGGCGACGATTTCCAGTACCTGTTCACGCTCGGAAAGGCTTTGTACAAAGGCCTCGCCG -GTCGAACCACCCACGTATAAACCGTCGATGCCCTGCTGAATATTGAACTGAACCAGGCGACGCAGACTCG -CTTTATCCAGTGCTTGTTGTTGGTCAAAAGGAGTCAGGAGTGCAGCCATTACGCCACGTAAATTCGTTGC -CATAAATACCTCTGAAGTGATGCTTGTCTGATAAACGATATACCTTTATACCTGTTATACCAGATCAATT -AAGCAACACCCCATACAGAAAGCTTATAATGCGATCTGCTTCACTAAAGTGGCATTATTTCTTTTTGTTG -GTGGTCTGACCGAAAGCGTGCCAGGTAGCAGAGACGCTGTTGAGATGCGATTGCAACGCACGATCGGCTT -CGTCAGGATCATGACGGCGGATCGCATCAACGATCGCAATATGCTGTTGATAACTAACGTTGTTATGTTC -GTGCAGTGCCTGATCGGTAACCGTTGGGCGTGCGGCAATAAGCCAGTCGAGCAGGGCAACGTGGATCGCC -ATGAAGATTGGGTTACCGGGGATCTCCGCCAGCACGCGGTGGAAATCAACGTCTGAACGAATGAATGCCG -CGTTGTTATCCAGCGACTGACTGTTGATTTCCAGTGCTTTTGCCAGCAAATCGATTTGCTCATCGGTGGC -ATGTTCAGCCGCATAGCGCACCAGACTGGATTCAAAGAACAGACGTAATTGTTCGAAATGGGCAATCCCA -CCGGGATGAGAAAGGAAATCTTTCGCCATGCCGGAAAGCTCACCGATGATAGTGTCCGCAGAAGGACGCG -AGACGCGAGCGCGTTCGCCGTTGTTTATTTGCACCAGACCTTTGCGTTTTAACGCTGCCAGCGCTTCACG -CACCGAAGGACGCCCGACGTTAAAGAACGCCATCAGTTCGCGTTCAGACGGTAATTGTTCACCTTCGCCA -AATTCACGACGGCGGATCATCTGTTCCAGCTCTTCTTCCACCATTTCGGAGAGTTTTTTACGCGCCAGCG -GGCGGCTACGCAAGTTGCGACCAATTGCAGGTGAAGAATCTTCGGTTTGCGAATCAAATGCGTTCATAAG -GCCCATTCTGTAAGGTCAGTGTGATTAACATCATCAGTGACATCCTATCACAGGATTGAAAGTAGGGGAA -AATGGCAGGGTTTTCTCTTTGTGCCTCATCATTACCATAATTAACGGAATAATTAACTATTGCGAAAAAT -TAATGTAACGCAGATAAAAACATCCCGTTTGAATTATTTATAAGACTATTCACGAGCATTATGAATATTA -TGAATGTGTTCTTACAAAATAATCATAAGCGCATATTTTTTAATGAAAAATCACCTCACCTACAATTAAA -AACACGACATCCGCACCATAAATAGCCTTGCAAAAAATATAACATCGTTGTTTTCAATCTGCCGTTTATG -GGATTGACCGTTTTCTTTTGACACGGAGTTCAACAATGTTCGGCATAATTATATCTGTCATCGTATTAAT -TACGATGGGCTATTTGATCCTGAAAAACTACAAACCTCAGGTGGTGCTGGCTGCCGCAGGTATCTTCCTG -ATGATGTGCGGTGTCTGGTTAGGGTTCGGTGGTGTACTCGATCCCACCAAAAGCAGCGGCTACTTGATCG -TCGATATTTATAATGAAATCCTGCGCATGCTGTCCAACCGCATTGCCGGATTGGGGCTGTCGATTATGGC -GGTGGGCGGTTATGCCCGCTACATGGAGCGCATAGGGGCCAGTCGCGCGATGGTGAGCTTGTTAAGCCGC -CCGTTAAAACTCATTCGCTCGCCGTATATTATTCTGTCGGCAACTTACGTCATCGGCCAAATCATGGCGC -AGTTTATTACCAGCGCCTCCGGTCTGGGTATGTTGCTGATGGTCACCTTATTTCCGACGCTGGTGAGTCT -GGGAGTAAGTCGTCTCTCTGCGGTGGCAGTTATCGCAACCACGATGTCCATTGAGTGGGGGATTCTGGAA -ACGAACTCCATTTTTGCTGCCCAGGTAGCGGGAATGAAAATTGCCACATACTTCTTCCACTACCAGCTTC -CGGTCGCCTCTTGCGTCATTATCTCGGTGGCGATCTCCCACTTTTTCGTGCAACGCGCTTTTGACAAAAA -AGATAAAAATATCAATCACGAACAGGCAGAGCAAAAAGCTCTCGATAATGTCCCGCCGCTCTATTACGCC -ATTTTACCTGTGATGCCGTTAATCCTGATGCTCGGCTCGCTGTTCCTCGCCCACGTCGGGCTGATGCAGT -CAGAACTGCATCTGGTGGTGGTGATGTTACTGAGTTTGACTGTGACGATGTTTGTTGAGTTCTTCCGCAA -GCATAACTTGCGCGAAACAATGGACGATGTGCAGGCGTTTTTTGACGGCATGGGTACGCAGTTTGCCAAC -GTGGTAACGCTGGTGGTCGCGGGTGAAATATTTGCGAAAGGCTTAACGACGATTGGCACTGTCGATGCGG -TTATCAGGGGGGCGGAGCATTCTGGTCTGGGCGGTATTGGCGTGATGATTATTATGGCGCTGGTCATTGC -CATTTGTGCCATTGTGATGGGCTCTGGCAATGCGCCGTTTATGTCATTTGCCAGTCTTATTCCGAATATC -GCAGCCGGACTACATGTACCAGCGGTTGTAATGATTATGCCGATGCATTTTGCCACGACGCTAGCGCGCG -CGGTTTCGCCGATTACTGCGGTGGTGGTCGTTACGTCAGGAATTGCAGGCGTTTCGCCTTTTGCGGTGGT -GAAGCGGACAGCGATCCCCATGGCAGTCGGTTTCGTGGTGAATATGATTGCCACAATCACGCTATTTTAT -TAAGTCATTAAAAAGACAAAACAGGCCGCCTGGGCCTGTTTTGTATTACTTCACAACGCGTAATGCCGGT -CGACCACCGCGTGGTGGCTGCGGAGGTTCATCGTCAGGATGAGTGTCATCATCGTGATCTGGCTTGTCGC -CATCAATAACCGACATAACGGTTTCGTTGTCTGCCGATGCCTCTTCATCATTCATGATGCTGGTATCTTC -ATCGTAGGCAGCTTCAGGCTCAAACATCGTGCCTGCGCCATTTTCACGGGCGTAGATAGCCAGCACGGCA -GCCAGCGGCACAGAAACCTGACGCGGAATGCCACCAAAGCGCGCGTTAAAGCGCACCTCATCATTCGCCA -GTTCCAGATTGCCGACAGCACGCGGCGCAATGTTGAGTACGATTTGCCCGTCACGCGCATATTCCATAGG -AACCTGCACGCCAGGGAGCGTCACATCCACCACCAGGTGCGGCGTGAGCTGGTTATCCAGCAACCACTCA -TAGAATGCACGCAGCAGATAGGGACGACGTGGTGTTAGCTGTGACAAATCCATACAGATTAACTCCGGCC -CAGACGCATTTCACGTTCTGCTTCAGTTAAAGAAGCAAGGAAAGAGTCACGCTCAAAGACGCGGGTCATA -TAGCCTTTCAGCTCTTTCGCACCCGGGCCGCTGAACTCGATGCCCAGTTGCGGCAGACGCCACAGCAGCG -GAGCAAGATAGCAATCGACCAGGCTGAACTCATCGCTCAGGAAGTACGGCTTCTGACCGAAGACCGGCGC -AATCGCCAGCAGTTCTTCGCGCAGTTGCTTACGTGCGGCATCTGCTTCAGAAGCTGAACCGTTGATGATG -GTGTTCATCAGCGTGTACCAGTCTTTTTCGATGCGATGCATGTACAGACGGCTTTCACCGCGAGCTACCG -GGTAAACAGGCATCAGTGGCGGATGCGGGAAACGCTCATCCAGATATTCCATAATGATGCGAGATTCCCA -CAGGGTCAGCTCACGATCCACCAGGGTCGGAACGCTCTGATTCGGGTTGAGGTCAATCAGATCCTGAGGC -GGATTGTCCTTTTCCACGTGTTCGATCTCGAAACTTACACCTTTCTCAGCCAGCACAATGCGGACCTGAT -GGCTATAGATGTCAGTAGGACCGGAAAACAGCGTCATTACCGAACGTTTGTTGGCAGCGACAGCCATGAA -AACCTCCAGGTATAGTCAGAATTTTTACTGCTACCAGCCACCAGGTGGCCAGTCAGAAGTTGTGTTACCC -AATAAGGAACGACTCTCTTTGTTCGAAAATCAAACAAAAAATGAGCAATACCCGACATTTGGGCAGAAAA -TTGGATGATAGTTTACCAGATTTTGCGACCATTGTGGTGAGTCGATGCCGGAAATGGGGAAAAAGAGATG -CGCTTTAGTCTGAAATAGTTGACTTAGTCCCTTATTGGCGATGTGGTTTTTGTTTTACCTGTCTGTCAGG -TGGCAGCAAAAAGCAACTTTCCAGTTTTTACGCTGATTCAGATTTTAGCTATAAAAAAACCCGCCGAAGC -GGGTTTTTTCGAAAATTGTTTTCTGCCGGAGCAGAAGCCAATTAACGTTTGGAGAACTGCGGACGACGAC -GTGCTTTACGCAGACCGACTTTCTTACGTTCAACCTGACGAGCGTCACGAGTAACGAAGCCAGCTTTACG -CAGTTCAGAACGCAGGGACTCGTCGTATTCCATCAGAGCGCGGGTGATACCGTGACGGATCGCACCAGCC -TGACCAGAGATACCACCACCTTTAACGGTGATGTACAGGTCCAGTTTCTCAACCATGTCGACCAGTTCCA -GCGGCTGACGAACTACCATGCGGGCAGTTTCACGACCGAAGTACTGTTCCAGAGAACGTTGGTTGATTAC -GATTTTACCGTTGCCCGGTTTGATGAAAACGCGAGCTGCGGAACTTTTGCGGCGACCAGTGCCGTAGTAT -TGATTTTCAGCCATTGCCTATAATCCCGATTAGATGTCAAGAACTTGCGGTTGCTGTGCCGCGTGGTTGT -GCTCGTTACCCGCGTAAACTTTCAGTTTACGGAACATAGCACGACCCAGCGGGCCTTTTGGCAACATGCC -TTTAACCGCGATTTCAATCACACGCTCAGGACGGCGAGCAATCATCTCTTCAAAGGTCGCTTGTTTGATA -CCACCGATGTGGCCGGTGTGGTGATAGTACACTTTGTCAGTACGCTTGTTGCCGGTTACAGCAACTTTGT -CAGCGTTCAGAACGATGATGTAATCACCGGTATCTACGTGCGGAGTGTATTCCGCTTTGTGCTTACCGCG -CAGGCGACGAGCCAGTTCAGTAGCCAGACGGCCCAGAGTTTTACCGGTCGCGTCAACAACATACCAGTCG -CGTTTTACGGTTTCTGGTTTAGCTGTAAAAGTTTTCATTAAAAGCTTACCCAATAAATAGTTACACGTTG -GTGAACACCCAAACGTCTTCAATTGTTGAGGTTCACACGACAAAGTCCGGCAAACCTACCCCTTCGAATA -GCCTATGCCAGCACACAAAAAGTTTTGGGAAAAAAACTTTCTTGTAACGTGGGGTCGCAGGATTATAGAG -AAGTCGGGGTCAAAGATCGACCCCTTTTTGTGATTTGTGACAGGTTTTAACCCGCCAAATGCTCGCGCTT -CAGATACTCTTCGCTTTGCATCTCTTGCAGACGTGACAGGCAACGCTGGAACTCAAACTTCAGCCGATCG -CCCTGATAAATTTCATACAGCGGCACTTCTGCACTCACCACTAATTTGACATGGCGCTCGTAAAACTCAT -CCACCAGCGCAATAAAGCGCCGCGCTTCGCTCTCCATCAACCGCGTCATAACTGGTACATCAAACAACAT -GACCGTATGAAAGAGACGTGAGAGCGCAATATAGTCATGCTGACTGCGGGCGTCGACGCACAGCGTAGTA -AAAGAGACCGCCAGCGTCTGGTTCTCGACGCCCATTGTTGCTAATGGCCGATGGTTGATTTCTAACGTCG -GTGAATTTTCTCGTTTCCCCCCCGCCAGCGCCAACCATAGTTTATCCATTTGCGCCCGGGTTTCATCGTG -AAGTGGCGAAAGCCACAGATGCGCCTGAGTGAGTGTACGCAGACGATAATCAACACCAGCGTCCACGTTC -ATTACATCACAATGCTGTTTAATGGCATCGATTGCAGGCAGAAAACGCGCACGTTGCAGGCCATTTCGAT -AAAGTTCATCCGGCGGAATATTTGACGTCGCTACCAGGGTAATACCGCGAGCGAACAGGGCTTTCATCAG -ACCGCCAAGTAGCATGGCATCGGTAATATCAGAAACAAAAAATTCGTCAAAACAGAGCACGTCAGTTTCG -GCTTTAAAGCGATCGGCAATAATTTCCAGCGGATCGGTCTGCCCCTGTAAGGCAGTTAGCTCTTCATGCA -CCCGCAGCATAAAACGGTGAAAGTGCAGGCGCTGTTTCCGCTCTCCCGGCAGGCTTTGATAGAAAAGGTC -CATCAGCCAGGTTTTCCCGCGTCCTACACCGCCCCACATATATAAGCCACGCACTGGCGTATGCTTTGTG -TCTTCGCGTTTACCCCACAGCTTACCGACCCGCGCCATTAGCCCACTCGTCCTGGGGGCTGGTGGCGTGC -TATTGATGAGTTCCTGATAAATAATTTCCAGGCGGCTGACGGCCTCTTTTTGAACGTCGTCGGGTTGATG -GCTGCCTTCATTAAGCGCCTTCAGGTATTGCGATGTTGGGGTAACGCTTTGCATGATCTTATTGTTATTC -CTTGAATAATCGGTGCGCCGTTGTTCACGGTTGACGAAAAAAAGGCCGTTCTACACTACGCGATATGCAG -TCGGGATTCCACTTCTGTGGAATTAACGGTTATAGTGGCATAATCAGCCGCAGGCATGGAGCCTGAAGCC -AACACCCTACGGAAACAAAAGACAACGGGAGATGTTCATGACCTGGGAATATGCGCTAATTGGGTTAGTC -GTCGGCATCATTATTGGTGCTGTGGCCATGCGTTTTGGTAATCGTAAACTACGCCAGCAACAGGCGTTGC -AGTACGAACTGGAAAAGAATAAAGCTGAACTGGACGAGTATCGCGAAGAGCTGGTTAGCCACTTTGCCCG -CAGCGCGGAATTACTGGATACCATGGCGCACGACTATCGCCAGCTGTATCAGCACATGGCAAAAAGCTCC -AGCAGCCTGCTGCCGGAACTGTCTGCTGAAGCAAACCCGTTCCGTAATCGTCTGGCAGAGTCTGAAGCCA -GCAACGATCAGGCACCGGTGCAGATGCCTCGCGACTATTCTGAAGGCGCATCCGGCCTGCTGCGTACTGG -CGCGAAGCGCGACTAATTTATTTTTCGGGCGCAGCCATTGCGCCCTCCTCTTCTCTCCCTCCCCGACTAT -CATTTAATCTGGTGTCTCATTGTTAGCCGTCTGAAAATTCAATAACATCAAACTGTTTTGAATCTCTTTT -CTTATCATTCAGGTACGAGAGCAGGAATAATGAAAAAACAAACCCAGCTGTTGAGTGCATTAGCGTTAAG -TGTCGGGTTAACTCTCTCGGCGTCATTTCAGGCCGTCGCGTCGATTCCAGGCCAGGTTGCCGATCAGGCC -CCTCTCCCCAGTCTGGCTCCAATGCTGGAAAAAGTGCTTCCGGCAGTGGTGAGCGTACGGGTGGAAGGAA -CGGCCAGTCAGGGACAGAAAATCCCGGAAGAATTCAAAAAGTTTTTTGGTGATGATTTACCGGATCAACC -TGCACAACCCTTCGAAGGTTTAGGCTCCGGTGTCATCATCAACGCCAGTAAAGGCTATGTGCTGACCAAC -AACCATGTGATTAATCAGGCACAGAAAATCAGTATTCAGCTCAATGATGGGCGCGAGTTTGATGCAAAAC -TGATTGGTAGCGATGACCAGAGCGATATCGCCCTGTTACAAATTCAAAACCCGAGCAAATTAACGCAAAT -CGCTATTGCCGACTCCGATAAATTGCGCGTCGGTGATTTTGCCGTAGCGGTCGGTAACCCATTTGGCCTT -GGGCAAACCGCCACCTCTGGCATTGTTTCCGCATTAGGCCGCAGCGGGTTGAATCTTGAAGGTCTGGAAA -ACTTTATCCAGACAGATGCTTCCATTAACCGCGGTAACTCCGGCGGTGCACTATTAAACCTTAACGGTGA -GTTAATTGGCATCAACACTGCAATCCTTGCGCCTGGCGGCGGGAGCGTCGGGATTGGATTTGCCATCCCC -AGTAATATGGCGCGAACACTGGCGCAGCAGCTTATCGACTTTGGTGAAATCAAACGCGGTTTGTTAGGCA -TCAAAGGCACCGAGATGAGTGCCGATATCGCCAAAGCCTTCAACCTTGACGTGCAGCGTGGCGCGTTTGT -CAGCGAAGTGTTGCCAGGTTCTGGCTCGGCAAAAGCGGGCGTCAAAGCGGGCGATATTATTACCAGCCTC -AACGGCAAACCGCTGAATAGCTTTGCTGAGTTGCGCTCTCGTATCGCGACCACCGAGCCGGGCACGAAAG -TGAAGCTTGGCCTGCTGCGTAACGGCAAACCACTGGAAGTAGAAGTGACGCTCGATACCAGCACCTCTTC -GTCGGCCAGCGCTGAAATGATCACGCCAGCGCTGGAAGGTGCAACGTTGAGCGATGGTCAGCTAAAAGAT -GGCGGCAAAGGTATTAAAATCGATGAAGTTGTCAAAGGAAGCCCAGCTGCTCAGGCTGGCTTGCAAAAAG -ACGATGTGATCATTGGCGTCAACCGCGATCGGGTGAACTCGATTGCTGAAATGCGTAAAGTGCTGGCGGC -AAAACCGGCCATCATCGCCCTGCAAATTGTACGCGGCAATGAAAGCATCTATCTGCTGATGCGTTAATGT -CGTAAACCGGGCATCAGGCTTACGTGTGATGTCCGGTTAACTCGTGGTATGCTGCTGCCGTTCCCTTTTT -TAATGACGCCTCCATCATGTTTGTGAAGCTCTTACGTTCCGTTGCGATTGGATTAATTGTCGGCGCTATT -CTGCTGGTTGCCATGCCTTCGCTGCGCAGCCTTAACCCGCTTTCCACTCCGCAATTTGACAGTACCGATG -AGACGCCTGCCAGCTATAATCTGGCGGTTCGCCGCGCCGCGCCAGCGGTGGTTAACGTTTACAACCGTGG -TTTGAACACCAACTCTCACAACCAGCTTGAGATCCGCACCCTGGGATCCGGTGTAATCATGGATCAACGC -GGTTATATCATCACCAATAAACACGTCATCAACGACGCCGATCAGATCATCGTCGCCTTACAGGATGGAC -GTGTATTTGAAGCATTGCTGGTGGGATCTGACTCTCTAACCGATCTGGCGGTACTTAAAATTAATGCCAC -TGGCGGTTTACCTACCATTCCAATTAATGCACGTCGCGTACCGCACATTGGCGACGTAGTACTGGCGATC -GGTAACCCGTACAACCTCGGGCAGACCATTACCCAGGGGATTATTAGTGCCACGGGTCGAATCGGTCTGA -ACCCGACCGGGCGGCAAAACTTCCTCCAAACCGATGCTTCCATTAACCACGGTAACTCTGGCGGCGCGCT -GGTGAACTCGCTGGGCGAACTGATGGGCATTAATACGCTGTCGTTTGATAAGAGTAACGATGGCGAAACG -CCGGAAGGTATCGGCTTTGCGATTCCTTTCCAGTTAGCAACCAAAATTATGGATAAGCTGATCCGCGATG -GTCGCGTGATCCGCGGCTACATTGGTATCGGCGGACGTGAGATCGCACCACTGCACGCGCAGGGCGGTGG -TATAGATCAACTGCAAGGGATCGTGGTTAATGAAGTGTCACCTGACGGCCCGGCGGCGAATGCGGGTATT -CAGGTCAACGATCTGATTATTTCGGTGGATAACAAACCGGCCATCTCTGCTCTGGAGACGATGGATCAGG -TGGCGGAAATTCGCCCTGGTTCGGTGATCCCTGTAGTAGTGATGCGTGATGATAAGCAGTTAACGCTGCA -GGTCACCATTCAGGAATATCCGGCAACCAATTAAGTCGTGCGCTCAAAACAAAAAACCGGAGTCTGTGCT -CCGGTTTTTTATTATCCGCTAATCAATTACTTATTAACGAACTCTTCGCCCAGGGCGATATCTTTCTTCA -GCGTATCCAGCATACCTTCCAGCGCGTTCTGTTCAAATGCGCTCAGGGTACCGATAGATTTACGCTCTTC -CACGCCGTTTTTACCCAGCAGCAGCGGTTGAGAGAAGAAACGGGCGTACTGACCGTCGCCTTCAACGTAG -GCACATTCGACAACGCCTTGTTCGCCCTGCAGTGCACGAACCAGAGACAGACCAAAACGTGCAGCTGCCT -GGCCCATAGACAGGGTTGCAGACCCGCCACCGGCCTTCGCTTCAACCACTTCAGTACCCGCGTTCTGGAT -GCGTTTGGTCAGATCAGCCACTTCCTGCTCGGTAAAACTAACGCCAGGAACCTGTGACAGCAGCGGCAGA -ATGGTAACACCAGAGTGACCGCCAATAACCGGCACTTCAACTTCGCCTGGCTGTTTGCCTTTCAGTTCCG -CAACAAAGGTGTTGGAACGAATGATATCCAGCGTGGTAACGCCGAACAGTTTGTTTTTGTCATAAACACC -GGCTTTTTTCAGCACTTCAGCAGCAATTGCAACTGTGGTGTTAACCGGGTTAGTGATAATACCAATGCAC -GCTTTCGGGCAGGTTTTCGCAACTTGCTGTACCAGGTTTTTCACGATGCCGGCGTTAACGTTAAACAGGT -CGGAACGATCCATACCCGGTTTACGCGCTACGCCTGCAGAGATAAGAACGACATCTGCGCCTTCCAGCGC -CGGAGTCGCATCTTCACCAGAAAAACCTTTGATTTTCACAGCAGTAGGGATATGGCTCAGATCGACAGCC -ACACCGGGAGTCACTGGAGCGATATCATACAGAGAGAGTTCTGAACCTGAAGGCAGTTGGGTTTTTAACA -GTAGTGCAAGCGCCTGGCCAATACCGCCAGCAGCGCCGAGGACTGCGACTTTCATCCTAAACTCCTTATT -ATATTGATAAACTAAGATATGTTGCTCCGCTGCCGCGACCTTAATCCACAAAATTGCCGTTTACAATGAC -CACATCTCAAGAATGTGTAGTCACGCAAGTTTAGCGTTTATGCATTTAATTGCCGTAATCAGGAACCTAA -CTTACGTAATTAACAGTCGCTTATGCATTAGCGCAACATTCCAACAGGTGGTGACAATATACCCTACCGT -TCAGCCAAAACAACATCAATTTGATAACAATTAATTTACTTTTAAGCAGAATTTGCATGCCGTGACGCAG -GCATGTTTCTCAATAACGAAATTTGATAAAATCCCGCTCTTTCATAACATTATTTCAGCCTTCTTCAGGG -CTGACTGTTTGCATAAAAATTCATCTGTATGCACAATAATGTTGTATCAACCACCATATCGGGTGACTTA -TGCGAAGCTCGGCTAAGCAAGAAGAACTAGTTAAAGCATTTAAAGCATTACTTAAAGAAGAGAAATTTAG -CTCCCAGGGCGAAATCGTCGCCGCGTTGCAGGAGCAAGGCTTTGACAATATTAATCAGTCTAAAGTCTCG -CGGATGTTGACCAAGTTTGGTGCTGTACGTACACGCAATGCCAAAATGGAAATGGTTTACTGCCTGCCAG -CTGAACTGGGTGTACCAACCACCTCCAGTCCATTGAAGAATCTGGTGCTGGATATCGACTACAACGATGC -AGTTGTCGTGATTCATACCAGCCCTGGCGCGGCGCAGTTAATTGCTCGCCTGCTGGACTCACTGGGCAAA -GCAGAAGGTATTCTGGGCACCATCGCTGGCGATGACACCATCTTTACCACCCCTGCTAACGGTTTCACAG -TCAAAGACCTGTACGAAGCGATTTTAGAGCTGTTCGACCAGGAGCTTTAATCTCTGCCCCGTCGTTTCTG -ACGGCGGGGAAAATGTTGCTTATCCCTCTCAACCCCCTGCTTTCCCCTGCGATTAATTTAACGAATAGTG -CGTTTTACTGCGACATGTCATTCACACAATGAATACATAAGGTAAAAAAAGCACATTATGCAAAATTCAT -TATCTAATTGAAAAAACTAGAATTAACGATAAATAACCGTATTTTTAATTCTTTTTTGTTATTAAAATTC -ACATTTTTAACACTTAGTATCAACTGAAACAGTTAGCGCGGTATTAATTAGCTCAATAATTAGTGTATAC -TTGATTTTGTGATATGGGTCACGAAACAAAGGCCCAGCTAAAAGATTATGTCGAGGTAAAAATCATGAAA -ATCAAAACCACTGTTGCTGCATTAAGCGTACTTTCTGTTCTCTCTTTCGGTGCATTCGCTGCCGACTCCA -TTGATGCTGCACAAGCACAAAATCGTGAAGCAATCGGGACCGTATCCGTAAGTGGTGTGGCGTCTTCGCC -AATGGATATGCGTGAAATGCTGAACAAAAAAGCGGAAGAGAAAGGCGCAACGGCCTACCAGATTACTGAA -GCTCGTAGCGGTGACACCTGGCACGCTACGGCTGAACTGTACAAATAAACCCTCATCGTCTTGTCCGACG -ATATTGCCCCCGGTTCGGGGGCTTTTTTTTGCGCTAATGACGAACATTAAAACGCAAATGCCCTTCCAGC -TCTTCCTCTGCCTCATCAAACAGCAATATTAACGCGCCAAAACGGCGACGCGTTTTCTCTCCCAGATGAA -CAAATTCAATCTCAAGTGGTAGCGGCAGGACATCGTTCATTAACACATCCCATAGTGAGTCGAGATCGCG -TACCTTATCTTTCGCCAGACCAAAGGTTTGGCTAAAGTCACGATAAAAATCCTCCTGACTCTCAATCTCA -TCAAAATCAAAGGTATAAATATTCATCTGTTGCCACCGTCACGTTTCGCGGCGAGTTCTGCCGTGCATCG -CTAAGTATAGCCATGAAAAAACCGACGCTTTTGGCGTCGGTTTTGACTTAACTATCGGTCAACGCATGTT -GATACTTATGGAGCATCCCCGCCAGCCGATTTACCGGTTCCGTCACCTGCGGTGGCGCTTGCCAGATGCG -TAGCTTTTCCTGGTAGATTTCCAGTTCTTCCAGCAACTGGCCAAAGTACCGACGACGTTTATCATCGCTA -CGGGCAGATATCACATGGTCTGCTGTGCGGCGCATTTGTCGGTGAAACGCCGATAAATCCTCGTTAACCG -GGATCGGTGCATCACGCAGGCGCTGGTGCGCGATAATCATCGTCAGCGCCAGGCGAAATTTCGGCAAATC -CCCTGGGAACTTATTCATCAGCAAAAACAGCTGCTGATAAAGTGCCGGGAGGTGGTTCTCTTTACGACGT -GCCACATTGGTAGTCATCGCGGAAACAGCGGCAGAAACAAACTGATTAAGCAGTACACGTCCGGTCCTGT -CGCGCGATTTATCCCGCACCAGCAAAATAACGGTGAACGCGAGCACACAGCCGACGATTTGCCCTAATGC -GCTGTCGAGAAACTGACTGAAATGGAAAGTCATCGGGTTATCCAGCACGATAATATTTATGGTGCTGGCC -AGTGCCCCCATCGAGCCCAGTCGCCGTTTCTGTACTTCTATACCGAGGAAGAATCCCAGCACTGCCAGGC -TAATGCACAGCAGCAACATGCTCTGTTGGGTATTAGGGATAATCACCAAAAAGTAGAGCAGCCCTAACGG -CAGCGCGGCCAGCGTCCCGTAGATAAAGTCGATCGCCACCATGCGTGGATTCGGCAAACGCATTGCCAGT -GACGTCACTACCGCAATCATCACCATTGCACCACTGCCGGAAGTCCAGCCCGTCCACAGCCAGAAAAGCG -TGCCCAGAATGCAGGAAAGTGTGGTTCGCCAGAAGTTAACCATTGCATGATGACGTTCGGCTGACTCTAC -TTTTACTTCCGGTTCGCCTTGCAGGATCTCTTCTTCGGTGGCGTTGATTTTTGTGTTACTGATAACGCCG -CGCTTGAGAAGCTGATAACGCGTTGCCGCCGCGACCCAGCTATAAATGGTGACAGGCGTTTCCCGTTCCC -CGGTCCAGGCGATAACTCTCCGCAGGCGTTTGAGCTGCTTGTGGACGTCCTGCGCGGTTTCTACCGGCGT -GTCAAAAAATTCGCGGAAAGTATCAGTGATCAATTCCGGGCGCGTATTCTGAATAAGATAAGTTTCGCAG -GATTGGGTAATCAGCGTCAGCGATAGCGTATTGATCGCTTTTAAACGTCGATTGGCCCGCGCCCAGCGGG -AAGATTCCATATTCAGGTTGCTGCGCATGCCTTGTAGCGCCGTGGTGCGTCGCACCAGGTCGCCCCAGGC -TTTATCGACAACTTCACCATCGCCATGCTTGATACAGAGTTGCATTAATTGATATTGCGCGACCAGCAAA -CTTTCCAGCTCTCGATCCACTTCTTGTTTGATCGATCGCGGAGAAAAGAGCAAATCCGCCATAATCGCAC -ACACAATACCGATAACGATCTCGCTACAACGTTCGACGGCAAACTGCGGCGTAAGCAATGGTTCCGGCTG -AATGGTGATCACAATGATCAGCGCGGTATAACCGGCCAGCCCCCACGCATACGAGTTTTCTATTCGTACC -AGCGAGGATATCCAGGTACAAAAACCGGCCCAGATACAGCACACCAGAATCATCAATAATGGTGCGCGGA -TCATCGCAATGATGATCACCAGTCCGGCAATACAGCCAATAAATGTGCCGATGATGCGCAAAAAGCCACG -ATAGCGAATAGCGCCAGAATACGGTTCACCTCCCGCAGCAAAGGCCGGACCGGCGGCAACAATCGCCGCT -GTCAGTACCGCCCAGCGTGGCGTTTCCAGCTGGAAGTGAAAGCCAACAAACAGCGCCAGTACAATGGCGG -TCGCCAGTTTTACCGCAAAGCGAATATGTTGGTTAGCAATGGAGAAAATACCCATCGTGATTAACCAAAC -TCACGCAGGCGATGGGCCATTTTACGGAAGAACGAATCCTGGCTTTCGTCGCGATCTTGTTTGCCAGTGA -CCACCACTGTAGCAGTGGTGCCCGCAGGCCAGATGTTCTCTTGCTGGTTGTCGAGACGAATACGAACCGG -AACACGTTGCGCAAGACGCACCCATTCAAGGTTAGAGTCTATAGTCGCCATCCCTTTGTCGTCACGCGTG -CTGCTGGCGTTGGTGACCCCTGCGGCAACACTATCAACAGTCCCTTTCAGCACTTTGTTACTGCCAAGCG -GCGTGATCTCTGCACGATACCCCGGACGCACCCCTTCCAGCTTAGTTTCTTCCATATAGGCCAGTACATA -GAAGGAGTTCTGTTTCACCAGCGCAACCGCCGTTGATCCTCGAGTAATAAACTCACCGGTATAGACGTTG -AGGTTGGTCACCCAGCCATCTGCTGGCGCGCGGATCACCGTGCGTTCAAGATCCAGTTTTGCCAGATCGC -GGGTCGCCTGCGCTTTCGCTAACTGATGCAGAACCGTTTGTAGTACGTTGTTGGCCTGGTCGATCTCTTC -GCGAGACATCGCCTGCACACCGAGACGGTTACGACGTCCGGCCTCCTGGCGTTTCTCCTGTGCCAGTACC -TGATAATAAGCAACATCGGCTTGCGCTTCCTCAAGCGCCTTTTGATAGCGCGGCTGGTCGATGGTGAACA -GTATCTGTCCTTTTTTCACCAGCTGGTTATCATGAACATTCACCTGGGTAATGAGTCCAGAAACGTCCGG -CGCGATCGCAACGACGTCAGCGCTAAAGCGCGCGTCACGCGTCCAGGGGGATTCGGTGTAATAGACCCAG -GCATTAAAAATTGCGATGAAGGCCAGAATGACTAATACGACCGTGATGGCCGTACGGGAGAATTTTCTTA -TTAGTGTTTTCACTTCAACCTCAAACGAACAGTCGCGATATCAAATAAAACAAGCAGCAATAGAGCGCGG -TGTTGAACAACGCCGGATGCCAGACAAAGTCGTAGATACCTGTTGGCACAAGTACCCGGCGCACCAGCCA -GAAAATCGCCAGTGATAAAAGCAATTCAAAAAATATCGGTGGGAAGGACAGCCCAAACACCACGATAACG -GGAAACAGACTCATGTTGACCTTGGTTGTAAAGAGAGAGCAGGCGTTATTATTTTCAGCATCTGTCGCCG -CAGAGAAGGGCATGGAAAGCCGGGCGAGAGCAACATTGCTGTAGATTGATATTTAATATATTAGCGTAAC -TGTTATGCTGTTATCTATATTATGTGATCTAAATCACTTTTAAGTCAGAGTGAATAATGGAACGACTAAA -ACGCATGTCGGTGTTTGCCAAAGTAGTTGAATTTGGCTCTTTTACCGCCGCCGCCAGACAGCTACAGATG -AGCGTTTCGTCCATCAGTCAGACGGTATCAAAACTGGAAGATGAGTTGCAGGTAAAGCTGTTAAACCGTA -GCACACGCAGCATTGGCCTGACCGAAGCCGGTAGAATTTACTACCAGGGCTGCCGTCGTATGCTTCATGA -AGTGCAGGATGTTCATGAGCAACTGTATGCCTTCAATAACACCCCCATCGGGACGCTACGCATTGGCTGT -TCTTCAACTATGGCACAAAATGTTCTCGCCGGGCTGACAGCCAAAATGCTGAAAGAATACCCAGGTTTGA -GCGTCAATCTGGTTACCGGAATTCCAGCCCCCGACCTGATTGCCGACGGTCTGGATGTGGTGATCCGCGT -CGGCGCGTTGCAGGATTCCAGCCTGTTTTCCCGCCGTCTGGGCGCGATGCCAATGGTGGTGTGCGCCGCG -AAAAGCTATCTCACACAATACGGCATACCGGAAAAACCCGCCGATTTGAGTAGTCATTCATGGCTTGAAT -ACAGCGTGCGGCCCGACAATGAATTTGAACTGATCGCACCGGAAGGGATCTCGACTCGCCTGATCCCACA -AGGAAGATTTGTGACTAATGATCCGATGACGCTGGTGCGCTGGCTGACGGCGGGTGCCGGGATCGCCTAC -GTGCCGCTGATGTGGGTGATCAACGAGATCAATCGTGGGGAGCTGGAGATCCTGCTGCCGCGTTACCAGT -CAGATCCACGCCCGGTTTATGCGTTATATACCGAAAAAGATAAGCTGCCGCTGAAGGTACAGGTCGTGAT -CAACTCGCTGACGGATTATTTTGTTGAGGTCGGTAAATTGTTTCAGGAGATGCACGGGCGCGGGAAAGAG -AAGTAATTCATATTGTACTGTTACGTTGTACAAACCTGTGCCAACGGGTTCCCCTCACCCTAACCCTCAC -CCCAAAGGGGCGAGGGGACCGTTCGTGCACGTAGAAAGATTAATTATCCTTCTGAAAATAGTGAAATTAT -TACGCAGTACCGCCAACAGTCAGGTTATCGACTTTCAACGTTGGCTGGCCCACGCCAACCGGCAAACTTT -GCCCTTCTTTACCGCAGACACCCACGCCGTTATCCAGTTTCAGGTCGTTGCCAACCATCGAAATCTGCTG -CATGGTTTCGATACCGGAACCAATCAACGTTGCGCCTTTCACCGGCTTCGTTACTTTACCGTTTTCAATC -AGATATGCTTCTGAAGTGGAGAAAACGAATTTGCCGGAGGTGATATCCACCTGACCGCCACCAAAGTTCG -GTGCATAGATACCGTACTCAACGGATTCAATAATTTCCTGCGGGGTCGATTTACCCGGCAGCATATAGGT -GTTGGTCATACGCGGCATGGGCAGATGGGCGTAGGATTCACGGCGACCGTTGCCAGTCGGCGTCATCCCC -ATCAAACGCGCGTTGAGTTTATCCTGCATGTAGCCTTTCAGAATGCCGTTCTCAATCAGCACGTTGTACT -GGCCTGGCGTACCTTCGTCATCAATCGCCACCGAACCTCGGCGATCGACCATCGTGCCATCATCAACCAC -GGTACACAGTTCTGAAGCCACCAGCTCCCCGACCTGTCCACTAAATACTGAAGTGCCACGGCGGTTGAAG -TCGCCTTCCAGACCGTGACCAACCGCTTCATGCAACAGCACGCCCGGCCAACCTGCGCCAAGTACTACCG -GCATGGTGCCCGCTGGTGCAGCAACGGCAGAAAGATTGACCAGCGCCATACGCACTGCTTCTTTTGCCCA -TGCATCCGCACGGACTTCGCCGTCGAGATCGGCAAGGAAGAATTCATAACCAAAACGACCGCCGCCGCCA -CTGGCACCGCGTTCGCGTTTGCCATCTTCTTCGACGAGAACGCTCACGGAAAGACGCACCAGCGGACGGA -CATCCGCCGCTAGCGTGCCGTCGGTGGCCGCAACCAAAATTAATTCATAGACACCACTGAGGCTGGCAGT -CACTTCCTGTACGCGCTTGTCCGCTTCGCGGGCAACCTTATCGACGCGACGCAGGATATCCAGCTTCTCT -TCACGGCTCATGCTTTGCAGCGGATCTACCGAGGTATACAACGGGCTATGCTCTACCGCGCCCAGCGTCT -GTACTTTACCATCACCACTATCACGGACGATGGTGCGCGCCGCTTGCGCACTCTGTTCCAGCGCCAGCAG -GCTGATTTGGTCAGCGTAAGCAAATCCGGTTTTTTCACCGCTGATTGCACGCACACCAACGCCCTGATCG -ATGTTGTAAGAACCATCTTTAATAATGCGGTCTTCTAAAACCCAGGATTCGTGATAGCTCGACTGAAAAT -AGAGATCGCCATAATCAAGGCGACGTTCGGCCAGTTGACCGAGGATCGCGAACAAGTCCTGATGTTTCAG -GCCGTTCGCCGCTAGCAATTGTTCACTTACCAGGTTAAGACTCATCGTTTTTGCTACTCGTTAGTTACTG -CAGTAGAGGATTTTTTACGGCTGCCGGATGCGGCGTGAACGCCCTATCCAGCCTACGGTTATGTTCCGGT -TTGTAGGCCTGATAAGACGCACAGCGTCGCATCAGGCAACGGCTGTCGGATGCGGCGTAAACGCCTTATC -CGACCTACGGTTATGTTCCGTTTGTAGGCCTGATAAGACGCACAGCGTCGCATCAGGCAACGGCTGCCGG -ATGCGGCGTAAACGCCTTATCCGACCTACGGTTATGTTCCGTTTGTAGGCCTGATAAGACGCACAGCGTC -GCATCAGGCAACGGCTGCCGGATGCGGCGTGAACGCCCTATCCGACCTACGGTTATGTTCTGGCTCGTTG -GCCTTTGGCAACGATTATCCTATGAGATTGGGGCAATTACGCGCCCTCGTCAAATCATTGCGCTTTTTCT -TTACGCGGTTGGCGCAACACTTCGTTGATTTGCGGATCGTCCAGCGGACCCGAAATGTGATAGCGCAAAA -TGGAGACTTTGCTCCACAGCGGCCCCAGCACTTTACTGGCGGCAAACACTGCCGCGCCAACAATGGGGTT -AACCGCAAAAGCCGCAGCCACGCCCACCGTCGCAGAAATCTCTGGTGCGACAACCGCTTCCATATTCAGG -TCGCGACGTACCAGATTTACCGACCCTTTCATGGCGATATCCGCCTCCAGGCCATCCACCAGCGTGTCGT -CGGTGTGCATAACGCCGTCTTTAATCCACGCGGTGCTGCGAATGGAGTCAAAATAGAACCCTTCGCCAAA -AGTGTCTCTGAAATCAAAACGCAGCTTACGCATCAGGGCATCTACGCTCAATAAGCGCAGCAATTGCCCG -GCATGTCCGGTATTGATTTCGGTAATTTCGCCTTTACCCAGTTGAGTATGAATGATGCCATTCAACGTCG -CTTCATCTGGCTGCCAGGGTGCTTTGCGCCAGTGTAAATCGTAATCCACATTAAATGACGACTGGCGTAT -GGGCGTCGTGACACCAAAAAATTCTGCGGCGGCATCAATTTTCTGCCCGCGCAGTTTTCCTTTCAGCGAG -GTACGTTCATTCCCCGGATTATTAACCCATTCACCATCGGCAGTAAGCCGCGAGAAACCAGTATCAATCA -GTCCATTGGTCAGCGTTAACGTATCGCCAGAAATGGTGATATCACTGTCAATGCGACCGAATTTTTGCCC -CCAGAACCAGCACTCTGTGCATCGTATTTGGGCGTCCGGCCAGCCACGGAAGTTAATGCGCTCCGTTGTC -GGGAAAGGTGATGACGGCGTTGAATCACCACGAGTTTTCGCCACGCTCGGGTTGTAATAAAGATATTTGA -TATTCGCCAGCCACGGCGCGTTATTACGCATCGCTAGCGTGGCGTTGATTTCACGCCCTTGCGCTTCAAC -CAGGGTGCCATTTGCCGTCGGTTGCGAAACAATACTCAGGTTATTCCATTGCTGATTTCCCAGTGACAAC -ATAGGCGTACGTAACGTTATGTGTTGTGGGAAACTCGCTGCACCACCGACACTCTCCGCAGCGCCTTTCT -GGAACAGGGCCAGCCACTCGGCACCATTCATCGGCGGCATATTGAGTTCAACGCCACTTTGTTCCGGCAA -CGGCGGGAGCGTTTTACTGTCTGCCGCCCAAATAGCACGATCGAGCGTCAGCTTTTGACCGAGCAACCAG -CGGCTATTGAAATGATTATCCGCACCAGCCTGTCCGGTTAATTCAAAGCTGTTGAGATTGCCATCAACCT -TAACGTTTACCGCTAGTGGTTCACCCGCAGGTTTGGCTAACGGTGAAGGTAAGTGACTGCTCACATTCTT -TAGATCGCCGTTCAGCTCTATGTTATAGGTCGCACCAGCATGATAAGGCAGATCAATGCCCACTTTACCA -TCCCACGCCACGCTGCCACTCAATGCTTCGTTCACCGCTTCAGGCAGAACGCCGGTTTTCGCCGGTTGCC -AGTTACCGTTGAGGTTTACCGCTACCTGGTAGGCTTTTGCCCCTTCTTTGGTGGAAAAATCCACGTTCAA -CGGCTGATTAAACCAGCTTGCTGTCAGTGGTTCACTTTGCAGATCGCTATTGATAAAGCTGAATTTACCG -CTCAAATTTTTCAGGGTGCTGTCGAGTGGTTTGATAAACAGACTGTTATTACGCAGCGTCACTTCACCTT -TCGCGGTTACCAGTTCGCCGTTCAGCGGGATATCAAGATGTAAGCGAGCATTCACATCGCCGTCGAGCTG -GAGTTCTTGCAGGGTCGCACCCAGAGAATCTTTCAGCGGTGTCTCATCAAAGTAAGGGCCAACGGCTTTA -CCCGGACCTTTAATGTCAGCGTCAATCAGCAGTTTTTCTTTTGAGTAGTCAGGGATCACTGCGGTAAGAT -TACTCGCGCGCACGCCGCCCAGATTAACGCCATCGGTTTTCATCCATAAACCGTCGTTAATAAAGTCCAG -TTCAATATCAAGGTTAGTTAATGCAGGCCAGTCCGGCTGGAAGGCAAACTTCGCGTTGCGCAGCGGCACC -AGCACTTCAAACTGACCTTCGTTGTGTTTATAGGGGAAGAGTTGCGGATTGCCACCATAAACCAGCGTCG -CGTTATCCGCTTCACCGCCCTGAATCGCGCCACTTAAGTAATCAACCAGGTCTTTACCCATCAAGTTTTC -CGGGAAATAGCGCCAGGCTTGTGAACCATCATCGGTACTGATGCCAGCCAGAATACCCAGCCAGGGTTCA -TCGTTAGCAGGTTGCAGGTAACGAAAACCGCCGCGCGCATGGACGGCTTTGGCTTTAACGTCAATATTAC -GCCCATCCAGCTGGAAACCTTTGTTATTGTTCAGCCAGCTTATAGTTGCCTGGCCGTCGGCGATTTCTAG -TGGCGCACGGAATACCGTTTCGTAAGGCATCTTTGCCTGCTTCATCGACGCGGTAAGCAAACCATTTTCA -ACGCTGCCGGAAAGCGTCCCGGAGAAGTGTTCCGCACCCGGTAATAATTTCCATTGCTTCCAGGCCAGAT -CGCTCCACGATGCCTGAAAACGGGTCTTGTCTGCCGCCTGAAGCGGGATATCCAGCGCCAGAGTGTTAAT -CTTGCCGCTCGGTTGTGTGGAGCGCCAAACATCACCCAGTGCAGGTGAAAGTTTCGCGGCCAGCGGGCGT -ATGCCCTCCAGGCCTGCCAGCTCCAGATTACTGGCGCGAATCCGGAGTTCGTCACTGCGTTTATTGTCTT -TGCCGCCAACGTCCTGTTCCGGTATCCAGGCCAGCGTCAATGCTCCGCTCGGCCAGGGTTTGCCGTCCAT -CGTGATCCGTGTATCGGGAATAGAGAACTGCCAGCCCGGATTTTCACGCGTAATATGCGCGGTCAGATTA -TCCACCGACAGCGTATGCGTTTGCTTCTCGCCCAACCAGCTGGCACCGCCCTGTTTCAGCCAGACGTCAC -CGCCGGTTACATCGCCTTTGTCGATCGTCATCCAGCCTTCAAGGGAGAACTGTGCCGTTTCCAGCGCAAT -ATTGTCCTGCATCCATTTACCGAGCCACGGCTTCAGGTCGATGTCATCCGCCTGGAGCCAGACGCGACCA -TTGCTTAACAACCCCTCATCATCGCGCAAATCCATGCGCACCTGCATCACGCCGTGCTGTCCGGTAAGGC -TGGAGAGGCTTACCAGGCCTTCCGCACGGTGTCGACGTGGATCGTTCAGCCAGGTGAGTTGTGGGATCGC -CAGCTCGGCGCGCTGACCGGATGGCGTCAGGAAACTGACTTCACTGTCGCGAAGATCGAAATGGTCAAAT -TGACGAAGAAACAGATCGCTGATGTGACTGGCTTCCAGACTGTCATCACTACCACCGCTGGTGATAGGAG -TGTTGGTGCGAAAGCGCAGCTGCCAGAAAGTGAGGTCGCGAAACTGCCAGCGCATATGTAACAGGCTCTG -CCAGACATCCAGCGCCAGAGTAACGCGTTTAACCGAAAATTCGCCGCCATCTTTTAGTTCTGCACGGATG -TCGTGTGCTTCAAGCGTCGGGCCAAAATTCTGCCAGCTGGCTGAGAGCTGACTGGCTTCTACCGGCATGC -CAGTCGCGGATTCTATTTTGTTGAGGATTTCCGGACGCCAGGCGTCAAGATGCGGTAAAGCAATACGCAG -GCCGCTAACCAGCAGGGCAGCGATCACAACGAGCGCGGCTCCAGTAAGCAGTAAAATCCCCGGCAATCGC -CTCACCCGTCACTCCTTGTCTGCTAAAAATGTGACTCAAAAACCCTTTGCCGGATGGCGGCCCAGCATCT -GTTTACATCATTACGACGTCAAACTGCTCCTGGTTATAGAGCGGTTCAATTTGTACTTTAACCTGTTTGC -CAACGAAAATTTCCACTTCCGCCAGCGAGTGTGACTCTTCGCCTTTCAAGGCTTCAGCTACTGCCGGAGA -AGCATAGACCAGGAAACGGTCGGAGTCGTAAGCATGGTGGACACGAACAATCTCGCGCATGATTTCATAG -CATACCGTTTCCACGGTTTTCACCGTTCCGCGACCGTGGCAGGTTGGGCATTCGTTACACAGTACGTGCT -CAATGCTTTCGCGGGTGCGTTTACGCGTCATCTCCACCAGCCCCAGCGCCGAAAAACCATTAACGCTGGT -TTTCACCCGGTCTTTGCTCAACGCCTGCTCCAGCGAGTGCAGCACTCGGCGGCGGTGATCTTCATTATTC -ATATCGATGAAATCAATAATGATAATCCCGCCCAGATTACGCAACCGTAACTGGCGAGCGATAGCCTGCG -TCGCTTCAATATTGGTATTGAAAATGGTGTCGTCCAGATTGCGATGACCGACAAACGCTCCGGTATTGAT -GTCCACGGTGGTCATCGCTTCGGTCTGGTCGATAATGAGATAACCACCGGATTTCAGTTCTACTTTGCGT -TCCAGCGCTCGCTGGATTTCGTTTTCGACATCAAAGAGATCGAAAATCGGCTGGCGTCCTGTGTAATGCT -CCAGCTTGCTTGTCATCTCGGGAATGTACTCCGAGGTGAACTCAAGTAACGCTTCGTAAGTCAGGCGTGA -GTCAACGCGAATGCGGTCCAGTTCGGCATCGGCGAAATCACGCAGAACACGCTGCGCCAGCGCCAGTTCG -CCGTACAGCTGATAACGGGTCTGCGGGCGTTTTTTACGCTCCATAACTTTGGTCCAGACGCGTTTCAGAT -AAGCGGCATCGGAGGCCAGTTCAGCCTCGCCAACCCCTTCCGCTGCGGTACGGATGATAAACCCGCCCTG -CTCGTCGCAATACTCTGCGACCACTTTTTTCAGGCGTTCACGTTCTGATTCGCTTTCAATACGTTGGGAA -ACCCCAACGTGAGAAGCCCCTGGCATAAACACCAGATAGCGAGAAGGGAGCGTGATATCGGTGGTCAGGC -GCGCACCTTTAGTGCCAAGCGGATCTTTCACCACCTGCACCATCAGATCTTGCCCCTGACGAACCAGTTC -CGAGATGTCGCGCACCGTGAATTGCTTTTGTTCTTCACCCGCCACACATTCGGTGTGCGGCATGATGTCG -GATGCATGAAGAAACGCGGCTTTATCCAGCCCAATATCTACAAAAGCCGCCTGCATACCCGGAAGTACAC -GACTTACACGACCCTTGTAGATATTGCCTACTATTCCGCGTCGCGCCTCACGTTCAATATGAATTTCCTG -CAGAATACCGCCATCAATATACGCCACTCGCGTTTCCGAAGGCGTTACGTTTACTAACAATTCAGCCGTC -ATGTTTATCCCTTTTCTCACGCAGTGCGTTAAAATTACTTAATAATTCATACGTTTCAACCAGCGGTAAG -CCGACTACGGCGTGATAGCTGCCATTTATCTTCCTGACAAAACAGCCACCCAGCCCCTGAATACCGTATG -CACCTGCTTTATCTAACGGTTCATCGCTGGCGACATAGCCCGCGATGTCTTCGTCTGTTAACGTTCTGAA -AGTCACATCGGTGACCACCAGGCAATCGAGAATGTGCTGGCTGTCGGCCAACGCCACTGCTGTCATCACC -TGATGGGTCTGACCCGATAATTTGCGCAACATCTGCGCCGCATGCTCTGCGTCGCGCGGTTTCTCCAGCA -CTTCTCCGTTCAGGATAACGATAGTATCCGCACCCAGCACCGGGAGATCCTTCGCCGTTTGCGCGACACC -TGCCCGTGCTTTCTCGCGCGCCAGACGCACAACATACTGCTGCGCGCTCTCCTGCGGCTGACGCTGCTCC -TCAATGCCCGTAACAATACGTTCAAAGGTCACGCCAAGTTGCGCAAGTAACTCCTGACGACGCGGAGAAC -CGGAAGCTAAATACAGAGAAGTCATAGAAACCTTTATTGCACTGCAAACTGCTGACGGACTTTGCGCATC -AGCAAGAAAATCCACGGCCAGAGCACCCCATTGACTACACTACTCCAGAACACTTCCGGTCTGAAAGAGA -CGTTAATCACTAAAAACTCTGCCCAGAAAACAATAATATCCACCACCAGCGAAAGCAACATGACGACCAG -CGCCTGCTGCCATAATGCGAGGTTGCGGAAAAGCTGGTATTTCAGCGCCACCAGGTAAGCAATGATGCTC -ATCGCCAATACGCGTACGCCAAGCGTCGAGCCGCTGATCAGATCCAGTATGGCACCCATCACAAAACCTG -TGCCCACATTTACGCGATGAGGCAAGGCCAGGATCCAATACAACAAGATGAGTAACACCCAGTTTGGCCG -GAAAACAATCAGGTTATCCGGCCAGGGCATGATTTGCAGCAACAGCGCAATGAGGAAAGAGAGCCAGATT -ACCCAGCGTCCCTGGCTACGATAGCTCGCCACTATTGCCCTCCCGGCGCACGCGCAGGCGGTTGAGCACC -ACTTTGCGGCGGCGTAGCCCTTTGTGGAGAGCGATTAGCAGCAGGCTGTGTCGGCGCAGCAGGCGCAGTA -GCTGCATTTCCTGTCGCCGGTTGCTGCGGAGTCGGCTGAGCGATCCCCGTTGCCGGTTCAGGTAACTTTG -GCCCCATCGCGTCTGGCGAAGGCAATACCTGCGGCATCATCTGCATCAGACGTTCATTAGCAACACGATG -CACCTCTTCCGGCGTCATCGGGTTAGCGCCGTTACGATCTGCCCCCCACAGCAGCAGCAGATAACGCAAA -CGTTGCAGCCCTGCAGTCGGACGCGCCTGAATCACAGTATAAGCGCGCTGGGTATCGAGTTTTACGGAAG -AGACAACCGCGACCGGATAGCCTTCCGGGAAACGACCGCCCAGACCGGAAGTCACCAGCACATCACCAAC -ACGAATATCCGTATTCGCCGGCAGATGCTCAAGCTGCAAATCATCCGTACAACCGTTACCGGCTGCAATT -ACGCGGATATCGTTGCGCAGCACCTGGATTGGCAGCGCGTGGGTCGCATCACAAATCAGCAGCACGCGAC -TGGTCAGTTTAGCGACGGCCACCACCTGACCAACAACACCTTTGTCGCTGATGACCGGCTGGCCTTCATA -AACGCCATTAACGCTACCTTTATCGATAACAACTTGATCGCTATAAGGATCGTTAACCGTGGAGATAACC -TGAGTCACCATTTTCTGCTCATCCTGACGCAGCGGGGAACCCAGCAGCTCGCGCAGACGCGCGTTCTCCT -GTTTGTATTGTCCAAGCATCAGCAGTTCACTGTTTTTCAGCAACAGTTCCTGACGTAACGCCCGGTTTTC -AAGTTCTAATTGGTCACGCGAGGCCAGCGTCTGCGATACGCCATCCAGCAATTCACGAGGAGCATTGGAA -ACAAAGTAGAAAGGACTGACGGCGGTATCCATATAAGTACGGATTTGACTGAACGTCCCCAGGCGGCTGT -CGGCAATAATAATGCCGAGCGCCACCAGCACCGCCTGAATAAGGCGAATCTGTAGCGACGGGCCACGGCT -AAAAATTGGCTTCATAAGTTATGCGTATTCTCGTATCAGACCAGGCAGGGTAAACAGACACTTCCCCTGC -CTGCATCCGATTACTCTTCGCTGAACAGGTCGCCGCCGTGCATGTCGATCATTTCCAGCGCTTTGCCGCC -ACCGCGCGCCACACAGGTCAGCGGGTCTTCAGCAACAACGACTGGAATGCCGGTTTCTTCCATTAACAAA -CGGTCAAGGTTACGCAGCAGTGCGCCACCACCGGTGAGCACCATGCCGCGCTCGGAGATGTCGGAAGCCA -GTTCCGGCGGGCACTGTTCCAGTGCAACCATTACCGCGCTCACAATACCGGTCAGCGGTTCCTGCAGTGC -TTCGAGGATTTCATTGGAGTTCAGGGTAAAACCGCGTGGAACACCTTCTGCCAGGTTACGGCCACGAACT -TCGATTTCACGGACTTCATCGCCCGGATAAGCCGAACCGATTTCGTGCTTGATACGTTCTGCGGTGGCTT -CACCGATCAGAGAACCGTAATTACGACGCACATAGTTGATGATAGCTTCGTCGAAACGGTCACCACCAAT -GCGCACAGAAGAGGAGTAAACCACACCGTTCAAGGAGATAACAGCAACTTCAGTGGTACCACCACCGATA -TCAACCACCATAGAACCGGTCGCTTCAGAAACCGGCAGGCCAGCACCAATTGCGGCAGCCATCGGTTCTT -CAATCAGGAAGACTTCACGGGCACCAGCGCCCTGCGCGGATTCACGAATTGCGCGGCGTTCAACCTGGGT -CGCGCCAACCGGCACACAAACCAGAACGCGCGGGCTTGGACGCATAAAGCTGTTGCTGTGCACTTGTTTG -ATGAAGTGCTGGAGCATTTTTTCAGTCACGAAGAAGTCGGCGATAACGCCGTCTTTCATTGGGCGAATGG -CAGCAATATTGCCCGGCGTACGGCCCAGCATCTGCTTCGCGTCATGACCTACTGCAGCTACGCTTTTCGG -TGAACCGGCACGATCCTGACGAATGGCCACCACGGAAGGCTCATTCAATACGATGCCTTGTCCTTTTACA -TAAATGAGGGTATTCGCAGTACCCAGGTCAATGGACAAGTCATTGGAAAACATGCCACGAAATTTTTTCA -ACATACTAAGGGATAATCCTGAAAGCTGGGGCGGAAAAGAAAATCCGCTTACTTTACCAACCACACGCAG -CAGCGACAAGGCGCAAAAATCATCTGCTACGGTGAAAATTAGTGCAGTTCGTTTCCTTTGTTACAAATCT -CTGCCTGAGTCCAGAAAGGCTTAATGCATCAGCAGCATTCCTCGCCTGTTTGCAACCGCGTAAGGTCATT -CATCTGCATATGTGCTGCAACAATCTGGCGAGCAGACAAGCACACTCCCATGAGACGCAGCGCGCATTAT -TCTACGTGAAAACGGATTAAACGGCAGGTTAAACCGAGTATCTTTGTGAATATTTTTTCACGTTAGTATC -AAGTGGCTGTGAGGACGCGAAAAAATCCCCTTGCCCGCCTGTAACACCGCGCTGAATCAGGGTCTGCCAC -TCGCTTCGCGAACGCACGCCGGTGGCGTAAACCTGGGTGCTGGTCCCGGAGCAGGCTTCCACCAGGCTTT -GAACCAGCAGCTGGTTCTCCGTTCGCTTCTCAATGTTTCTGACCAGCCCCGGATGGAGCTTGAGTAACTC -AACATTAAGTTCTTTGATCCAACTGGTACTTACCAGCGTCAAACCAGCCTGGTTGACGGCTACCCGTACC -CCTAAAGCATTCACTAAACGAATAACAGGTTGTAAACGACTGATATGTTGACCTACATCGGCCTCTGCAA -GTTCAATAATTATGCGTTTTCGTTGTGATTTTTCACATTGCATTAACGTATCGCGCAGCCAACGCTGAAA -ACGCGGGCGAATCAGCGACTCAACGGTAACCTGAATCGCCAGATTTTCCTCTGGCCAGTAACGCAATAGT -GGAATAAGACGGCTGATTTGCAGACGGTCATACTCTTCCGATAAGCCAAACTGCAAGACCATCGGCATAT -ACTCCGCCGAGCTAACCTCTTCATTACCATCGAAGATGCGGCACATGAGTTCGCGATGATGAACCTGACC -TTCGCGAGTAACCGCCGGTTTTTGATAAAGGCGCGGGCCGCCGCGACTGAGCATTTGCTCGATAAGCGTA -CGCCAGCGAACATTACCGCGTCCTTTTTCAGGCAACGAGTCATCGTAAATAGCCCAGCTATTGCCGCCCT -GCAATCCCGCATTACGCGTGGCAGACTCTGCATGTTCCATTACCTGCTCGGTATCCTGACCACTACGCCA -GGCGCAGATACCAATGTGGATCATATCGTCGCGATCGAGCATTTTATTGTTCGGCAAGGTATCAACGGCT -TTGATTAACTGACCGGCGATGCTCTCTGCCTCTTTTAACGTCCGGTGCGGTAACAGCGCAGCAAAATCAC -TGCGGTGGTAACGCGCCAGCAGTGCGCCAGGGTAGCGCATCATAAATGTCGACAGCAGATTCGTCAGAGT -GAAGAACTGTTCTTCAACCTGGCTGTGCCCCCAGGTATCGCTCAACATATTGAAATCCGGCAGACGAATC -ATCATCACGATCCCGTGGGTACCTACTTTCTCCTGATCTTCCAGTAACGTTGCTAACTGATTATCGAAAA -AGAGTCGGTTATTGAGGCCGGTTTTCACGTCCTGGGCGGCATAAGAGCGGATCAGCGTATCAAGACGGCT -GTGTTGTTCGCGTGCGTTCTGAATTTCACGAAGCAGCGTATCCAGCGCACTGCTGGTTCTGGGCGGCCAT -TCATAGATGGTTCCCAACACATTAGAGCCACGCTCACCGTTTAAGATACGAGTAGCCCGGGTTTCCAGCA -ATTCTTGCCCGGCAAGTTGCCGTTGTAACCAGCGTACCGCCAGGAAGAGCATAACAATGATAAAGCCAAT -CGCCCCCGTGAGCGGCGCGGTGGTCATCAACGAATGGAAATAGTTGCCCATCGGATCCTGATAAACCAGA -CGCAACGACATCCCCGGATGCTTTATCAACGGAACGCTCAGTTCGCGAAACAGATCGCTGGAGCCAACTG -GACGATAACTACCATTTCTGGCCAGGGTATAAACCTGTTTATCACCATGGAGCAGGTCTACACGAACGAT -ATCTGCCGACATCATTAATTCGGTAATTTGTGGCCTTAATACGCTGAAGTCATTCGACACAAGGTGGGTA -TCAATCGCCGTCGCCACCGCCTGAACGCGATGACTAAACTTATACTGAATGGCGTTGTAGAAACTTAGCG -AACAGCCCAGCAAAGTCACAAAAATTGTTAACCCGGTGAGCAGCGTAACAAAGGCCGAAAATTTCGTCGT -TAATCTCATCCTTGTGTTAACTCCGATAGTGAGGAAGCGGGCATACTAGCAAATCAGATTTATCTCGCAA -TTTATTGCGCTTCATCGGCTTTGCTTTTCCATTAGCGAGTATAGTCTTCAGAAATTATTTTCCAATCCAT -CATGCACATGAGGACCACTTATGCAGGCGTTACTTTTAGAACAGCAGGACGGCAAAACTCTCGCATCAGT -ACAGACTCTGGACGAAAGTCGCCTGCCGGAGGGCGATGTCACGGTCGATGTTCACTGGTCGAGCCTGAAC -TATAAAGATGCGCTGGCGATTACCGGTAAGGGAAAAATCATCCGTAATTTTCCGATGATTCCTGGGATCG -ATTTTGCCGGAACTGTACGCACCAGCGAAGATCCGCGTTTTCATGCCGGTCAGGAGGTGTTACTCACTGG -CTGGGGCGTTGGTGAAAACCACTGGGGTGGGCTGGCGGAGCAGGCGCGAGTGAAAGGTGACTGGCTGGTT -GCCATGCCGCAAGGGCTGGACGCGCGTAAAGCAATGATTATCGGTACTGCCGGTTTTACCGCCATGCTGT -GTGTGATGGCGCTGGAAGATGCCGGTGTTCGCCCGCAGGACGGGGAGATTGTCGTGACGGGTGCCAGTGG -TGGCGTCGGCAGTACCGCCGTGGCGCTGCTGCATAAGTTGGGTTATCAGGTCGTTGCCGTTTCCGGTCGC -GAAAGTACCCATGAATATCTGAAAAGTTTAGGTGCTAGCCGTGTTCTCCCTCGTGATGAGTTTGCCGAAT -CCCGTCCTCTGGAAAAACAAGTCTGGGCTGGGGCAATTGACACCGTTGGCGACAAAGTGCTGGCAAAAGT -GCTGGCGCAAATGAATTACGGCGGCTGCGTGGCGGCCTGTGGTCTGGCGGGTGGTTTTACTCTGCCAACC -ACGGTCATGCCATTTATTCTGCGTAATGTCCGTTTGCAAGGGGTGGATTCAGTAATGACGCCACCAGAAC -GCCGCGCACAAGCCTGGCAGCGACTGGTCGCCGATTTACCGGAATCATTCTATACCCAGGCGGCAAAAGA -GATATCTCTGTCAGAGGCACCGAACTTTGCCGAGGCCATCATTAATAACCAGATCCAGGGTCGCACGCTG -GTGAAGGTTAACTAACCATTTAGCAGGGAATAATAAGAGAGGGAACTCATTTTGAAATCATTATTCAATC -GGTTAACGGGAAAAGCGGTTAGCCGGACAGCTTTCGTCGAACACCTTGGTCAGGAAGTTATACAACATCA -TCCAAACTGGAAAGTCATGATTTCGACTGACCACAAATTGATGCGCATTGATACTCCACTAAACAGCTAT -TATTGATACGCCTCCGTCGCCTGTTAGGTTTATGTTGCTTTGCCTGGGCGACGCTACGCTTAGCCCCTTA -CTTATTTCTGGTACCATGGGGTGAATAATCTGATTTTGTTTGACTACAAATTAATCACTCGAACCTATTT -AATGCTGAGCATTGTCAATCGGTTAATTTTGCGTGCTTTAGCATTCACATCTATCCAGACGATGCAGTGA -AAATTGGGTAATCCCCAGCAACCGCTGCGTAATGTCGTCTATCTTGTCGCGATCCTGGCATCCCTACATT -ATTTGTGGTCTGTGAAGATTATCTCATTGCAGCCCCTCATCTTCGCAGGGCTGGCTTTTCAGCTTTTCAC -CTTACGTTATAAGAAGTTCCGTCGATGATGGCGCTAATTTCGTGAATTGTGCGGCTTGTTGCAAATTACA -CGGTGTTGAAGGTTATTTACATGTTAGCTGTTGATTATCTTCCCTGATAAGACCAGTATTTAGCTGCCAA -TTGCTACGAAATCGTTATAATGTGCGACCTCGTCCTCCCTGACGCAGTTTTTGCGCTGCGGAAAAGGTGA -CATTGGCGCAACGAAGGTATATTTTGTTTTTTGCCGGAGGATAGCAGCAGATCGCTGCACAATGTCCGTC -AAGTCTAACATTGACACTCTGGGGCAAAATAGACCGGCGTCCCGGCCTGCTGGAATTTATCGCTATGCAT -ACAGCTGTCGGGGCATACGCTTTACAGACGGCGGTGAAACGCCTGTCACAATCACACTAAACAAAGAGTA -CGGAACCCACTCATGGATATTCGTAAGATTAAAAAACTGATCGAGCTGGTTGAAGAATCAGGCATCTCCG -AACTGGAAATTTCTGAAGGCGAAGAGTCAGTACGCATTAGCCGTGCAGCTCCTGCCGCAAGTTTCCCTGT -GATGCAACAAGCTTACGCTGCACCAATGATGCAGCAGCCAGCTCAATCTAACGCAGCCGCTCCGGCGACC -GTTCCTTCCATGGAAGCGCCAGCAGCAGCGGAAATCAGTGGTCACATCGTACGTTCCCCGATGGTTGGTA -CTTTCTACCGCACCCCAAGCCCGGACGCAAAAGCGTTCATCGAAGTGGGTCAGAAAGTCAACGTGGGCGA -TACCCTGTGCATCGTTGAAGCCATGAAAATGATGAACCAGATCGAAGCGGACAAATCCGGTACCGTGAAA -GCAATTCTGGTCGAAAGTGGACAACCGGTAGAATTTGACGAGCCGCTGGTCGTCATCGAGTAACGAGGCG -AACATGCTGGATAAAATTGTTATTGCCAACCGCGGCGAGATTGCATTGCGTATTCTTCGTGCCTGTAAAG -AACTGGGCATCAAGACTGTCGCTGTGCACTCCAGCGCGGATCGCGATCTAAAACACGTATTACTGGCAGA -TGAAACGGTCTGTATTGGCCCTGCTCCGTCAGTAAAAAGTTATCTGAACATCCCGGCAATCATCAGCGCC -GCTGAAATCACCGGCGCAGTAGCAATCCATCCGGGTTACGGCTTCCTCTCCGAGAACGCCAACTTTGCCG -AGCAGGTTGAACGCTCCGGCTTTATCTTCATTGGCCCGAAAGCAGAAACCATTCGCCTGATGGGCGACAA -AGTATCCGCAATCGCGGCGATGAAAAAAGCGGGCGTCCCTTGCGTACCGGGTTCTGACGGCCCGCTGGGC -GACGATATGGATAAAAACCGTGCCATTGCTAAACGCATTGGTTATCCGGTGATTATCAAAGCCTCCGGCG -GCGGCGGCGGTCGCGGTATGCGCGTAGTGCGCGGCGACGCTGAACTGGCACAATCCATCTCCATGACCCG -TGCGGAAGCGAAAGCTGCTTTCAGCAACGATATGGTTTACATGGAGAAATACCTGGAAAATCCTCGCCAC -GTCGAGATTCAGGTACTGGCTGACGGTCAGGGCAACGCTATCTATCTGGCGGAACGTGACTGCTCCATGC -AACGCCGCCACCAGAAAGTGGTCGAAGAAGCGCCAGCACCGGGCATTACCCCGGAACTGCGTCGCTACAT -CGGCGAACGTTGCGCTAAAGCGTGTGTTGATATCGGCTATCGCGGTGCAGGTACTTTCGAGTTCCTGTTC -GAAAACGGCGAGTTCTATTTCATCGAAATGAACACCCGTATTCAGGTAGAACACCCGGTTACAGAAATGA -TCACCGGCGTTGACCTGATCAAAGAACAGCTGCGTATCGCTGCCGGTCAACCGCTGTCGATCAAGCAAGA -AGAAGTTCACGTTCGCGGCCATGCGGTGGAATGTCGTATCAACGCCGAAGATCCGAACACCTTCCTGCCA -AGTCCGGGCAAAATCACCCGTTTCCACGCACCTGGCGGTTTTGGCGTACGTTGGGAGTCTCATATCTACG -CGGGCTACACCGTACCGCCGTACTATGACTCAATGATCGGTAAGCTGATTTGCTACGGTGAAAACCGTGA -CGTGGCGATTGCCCGCATGAAGAATGCGCTGCAGGAGCTGATCATCGACGGTATCAAAACCAACGTTGAT -CTGCAGATCCGCATCATGAATGACGAGAACTTCCAGCATGGTGGCACTAACATCCACTATCTGGAGAAAA -AACTCGGTCTTCAGGAAAAATAAGACTGCTAAAGCGTCAAAAGGCCGGATTTTCCGGCCTTTTTTATTAC -TGGGGATCGACAACCCCCATAAGGTACAATCCCCGCTTTCTTCACCCATCAGGGACAAAAAATGGACACT -CGTTTTGTTCAGGCCCATAAAGAGGCGCGCTGGGCGCTGGGGCTGACCCTTTTGTATCTGGCAGTTTGGT -TAGTAGCCGCTTACTTATCTGGCGTTGCCCCCGGTTTTACCGGCTTTCCGCGCTGGTTTGAGATGGCCTG -CATCCTGACGCCGCTGCTGTTTATTGGACTGTGCTGGGCGATGGTGAAATTTATCTATCGCGATATCCCA -CTGGAGGATGACGATGCAGCTTGAAGTAATTCTACCGCTGGTCGCCTATCTGGTGGTGGTGTTCGGTATC -TCGGTTTATGCGATGCGTAAACGGAGCACCGGCACCTTCCTTAATGAGTATTTCCTCGGCAGCCGCTCTA -TGGGCGGTATTGTGCTGGCGATGACGCTCACCGCGACCTATATCAGTGCCAGTTCGTTTATCGGCGGGCC -AGGAGCTGCTTATAAATACGGGCTGGGCTGGGTATTGCTGGCGATGATTCAGCTTCCTGCAGTCTGGCTT -TCACTCGGTATTCTCGGCAAGAAGTTTGCGATTCTTGCGCGCCGCTACAATGCAGTGACGCTGAACGATA -TGCTGTTTGCCCGCTACCAGAGTCGTCTTCTGGTGTGGCTGGCGAGTTTGAGTTTGCTGGTTGCGTTCGT -TGGTGCGATGACCGTGCAGTTTATCGGCGGTGCGCGCCTGCTGGAAACCGCGGCGGGTATTCCTTATGAA -ACCGGGCTGCTGATTTTTGGTATCAGCATTGCGTTATATACCGCCTTTGGTGGCTTTCGCGCCAGCGTGC -TGAACGACACCATGCAAGGGCTTGTGATGCTGATTGGCACCGTTGTGCTGCTTATTGGCGTAGTACATGC -CGCTGGCGGCTTAAGTAACGCAGTACAGACCTTGCAAACCATCGATCCGCAACTGGTTACGCCACAAGGC -GCTGACGATATTCTGTCGCCTGCCTTTATGACGTCGTTCTGGGTACTGGTGTGTTTTGGCGTGATTGGCC -TGCCGCATACTGCGGTGCGCTGTATCTCTTATAAAGACAGCAAAGCCGTACATCGGGGGATCATCATCGG -TACGATTGTGGTCGCAATTCTGATGTTCGGTATGCACCTGGCCGGAGCGTTAGGTCGGGCGGTGATCCCC -GATCTCACCGTACCGGACCTGGTGATCCCAACGTTAATGGTAAAAGTGCTGCCACCGTTTGCTGCCGGGA -TCTTCCTGGCTGCACCGATGGCTGCGATCATGTCGACAATTAACGCCCAACTGCTGCAAAGTTCCGCTAC -GATCATTAAAGATCTCTATCTGAATATCCGTCCGGATCAAATGCAAAACGAGACGCGTCTGAAGCGGATG -TCGGCGGTAATTACGTTAGTTCTCGGCGCGTTGCTGCTGCTTGCCGCCTGGAAGCCGCCAGAAATGATCA -TCTGGCTGAATTTGTTGGCCTTCGGTGGGCTGGAAGCCGTTTTCCTGTGGCCGCTGGTGCTGGGTCTTTA -CTGGGAACGCGCCAACGCCAAAGGCGCGCTAAGTGCGATGATCGTTGGCGGCGTGCTGTATGCCGTACTC -GCGACGCTGAATATTCAGTACCTGGGCTTCCACCCTATCGTGCCCTCGTTACTACTAAGTTTGCTGGCTT -TCCTGGTCGGAAACCGTTTCGGTACATCCGTCCCGCAAGCTACCGTTTTGACTACTGATAAATAAAGAGT -TTTGCCATGCCTTGGATCCAACTGAAACTGAACACCACCGGCGCGAACGCGGAAGATCTTAGCGATGCGC -TGATGGAAGCGGGTGCCGTTTCTATCACTTTTCAGGATACCCACGATACGCCAGTATTTGAACCGCTGCC -GGGCGAAACGCGCCTGTGGGGCGACACCGATGTGATTGGTCTGTTCGACGCTGAAACCGATATGAACGAC -GTGGTGGCGATTCTGGAAAACCATCCGCTGCTCGGCGCAGGCTTCGCGCATAAAATCGAACAACTAGAAG -ATAAAGACTGGGAGCGCGAATGGATGGATAATTTCCACCCGATGCGCTTTGGTGAACGACTGTGGATCTG -CCCTAGCTGGCGTGATGTGCCGGACGAAAACGCCGTCAACGTGATGTTAGATCCAGGGCTGGCGTTTGGT -ACGGGTACCCATCCAACCACCTCTCTGTGCCTGCAATGGCTCGACAGCCTCGATTTAACCGGTAAAACAG -TCATCGACTTTGGCTGTGGTTCCGGCATTCTGGCGATCGCGGCGCTGAAACTGGGTGCAGCAAAAGCCAT -TGGTATTGATATCGATCCGCAGGCGATTCAGGCCAGCCGCGATAACGCCGAACGTAATGGCGTTTCTGAC -CGTCTGGAACTCTACTTACCGAAAGATCAGCCAGAAGAAATGAAAGCCGACGTGGTGGTCGCTAACATCC -TTGCAGGCCCATTACGTGAACTGGCACCGTTAATCAGCGTCCTGCCGGTTTCAGGCGGTTTGCTGGGCCT -TTCCGGTATTCTGGCAAGCCAGGCAGAGAGCGTTTGTGAAGCTTATGCCGATAGCTTCGCACTGGACCCG -GTCGTGGAAAAAGAAGAGTGGTGCCGTATTACCGGTCGTAAGAATTAACCTTCGCATCGCCGTAGGGTGA -CGCGGGGCGAAGTGCGAGCAAGCTCACAAAAGGCACGTAAATTTGCCGATTATTTACGCAAATTTGCGTG -CCAAAATTTTCATTCATAAAGAAAAATTGAGAACTTACTCAAATTTCTTTGAGTGTAAATTTTAGTCACT -ATTTTCTAATATGATGATTTTTATGAGTAATTATCGCACCACGCTCATTTTAAATGCAATTCTTTGATCC -ATCTCAGAGGATTGGTCAAAGTTTGGCCTTTCATCTCGTGCAAAAAATGCGTAATATACGCCGCCTTGCA -GTCACAGTATGGTCATTTCTTAACTCATGCGCATCGGACAATATCAGCTCAGAAATCGCCTGATCGCAGC -GCCCATGGCTGGCATTACAGACAGACCTTTTCGGACGTTGTGCTACGAGATGGGAGCCGGATTGACAGTA -TCCGAGATGATGTCTTCTAACCCACAGGTTTGGGAAAGCGACAAATCTCGTTTACGGATGGTGCACATTG -ATGAACCCGGTATTCGCACCGTGCAAATTGCTGGTAGCGATCCGAAAGAAATGGCAGATGCAGCACGTAT -TAACGTGGAAAGCGGTGCCCAGATTATTGATATCAATATGGGTTGCCCGGCTAAAAAAGTGAATCGCAAG -CTCGCAGGTTCAGCCCTCTTGCAGTACCCGGATGTCGTTAAATCGATCCTTACCGAGGTCGTCAATGCAG -TGGACGTTCCTGTTACCCTGAAGATTCGCACCGGCTGGGCACCGGAACACCGTAACTGCGAAGAGATTGC -CCAACTGGCTGAAGACTGTGGCATTCAGGCTCTGACCATTCATGGCCGTACACGCGCCTGTTTGTTCAAT -GGAGAAGCTGAGTACGACAGTATTCGGGCAGTTAAGCAGAAAGTTTCCATTCCGGTTATCGCGAATGGCG -ACATTACTGACCCGCTTAAAGCCAGAGCTGTGCTCGACTATACAGGGGCGGATGCCCTGATGATAGGCCG -CGCAGCTCAGGGAAGACCCTGGATCTTTCGGGAAATCCAGCATTATCTGGACACTGGGGAGTTGCTGCCC -CCGCTGCCTTTGGCAGAGGTTAAGCGCTTGCTTTGCGCGCACGTTCGGGAACTGCATGACTTTTATGGTC -CGGCAAAAGGGTACCGAATTGCACGTAAACACGTTTCCTGGTATCTCCAGGAACACGCTCCAAATGACCA -GTTTCGGCGCACATTCAACGCCATTGAGGATGCCAGCGAACAGCTGGAGGCGTTGGAGGCATACTTCGAA -AATTTTGCGTAAACAGAAATAAAGAGCTGACAGAACTATGTTCGAACAACGCGTAAATTCTGACGTACTG -ACCGTTTCTACCGTTAACTCTCAGGATCAGGTAACCCAAAAACCCCTGCGTGACTCGGTTAAACAGGCAC -TGAAGAACTATTTTGCTCAACTGAATGGTCAGGATGTGAATGACCTCTATGAGCTGGTACTGGCTGAAGT -AGAACAGCCCCTGTTGGACATGGTGATGCAATACACCCGTGGTAACCAGACCCGTGCTGCGCTGATGATG -GGCATCAACCGTGGTACGCTGCGTAAAAAATTGAAAAAATACGGCATGAACTAATTCAGGTTAGCTAAAT -GCTTGATTAAAAAGGCGCTACTCGGCATGGGGAAGCGCCTTTTTTATAGGTGTCACAAAGGGAGTGACCA -TGAGAACAGGATGTGAACCGACCCGGTTTGGTAATGAAGCTAAGACCATTATTCACGGTGATGCGCTTGC -CGAACTTAAAAAGATCCCCGCCGAAAGTGTCGATCTGATCTTTGCCGACCCACCATATAACATCGGTAAA -AATTTTGATGGTCTGATCGAAGCCTGGAAAGAAGATCTGTTTATCGACTGGCTGTTTGAAGTGATTGCAG -AGTGCCACCGCGTTCTGAAAAAGCAGGGCAGCATGTACATCATGAACAGTACGGAAAACATGCCCTTTAT -CGATCTCCAGTGCCGCAAGCTTTTTACCATCAAAAGTCGCATCGTCTGGTCATATGACAGTTCTGGAGTG -CAGGCGAAAAAACACTACGGCTCCATGTACGAACCCATCCTGATGATGGTGAAAGACGCAAAGAACTACA -CATTCAACGGTGATGCTATTCTGGTAGAAGCCAAAACCGGATCGCAGCGCGCGTTGATCGATTATCGCAA -AAATCCTCCACAGCCTTACAATCATCAAAAAGTACCGGGTAACGTTTGGGATTTTCCGCGCGTGCGTTAT -TTGATGGATGAATATGAAAACCACCCGACGCAAAAACCGGAAGCCTTACTGAAACGCATTATTCTCGCCT -CTTCCAACCCAGGCGATATCGTTCTCGACCCGTTTGCTGGTAGCTTTACTACCGGTGCCGTAGCCATCGC -CAGCGGACGAAAATTCATTGGTATTGAGATCAACAGCGAGTACATCAAAATGGGGCTTCGACGGCTGGAT -GTCGCGTCGCATTACTCTGCGGAAGAACTGGCGAAAGTGAAAAAAAGAAAGACCGGCAACCTGTCAAAAC -GAAGCCGGTTAAGCGAAGTTGACCCCGATCTCATTACAAAGTAAAGGATGTGTAAGCCTGGTTTTCAGAT -TATTCATTTCGTGTATATTTCCTGCCAGACTTGGTTAAACATGCACAGGCTCAGGTAATGATTCGCAAGT -ATTGGTGGCTCGTCGTTTTCGCTGTCTTCGTTTTTCTGTTTGATACTTTACTGATGCAGTGGATTGAACT -GCTGGCAACAGAAACAGACAAATGCCGCAATATGAACTCAGTTAATCCACTAAAACTGGTTAACTGTGAC -GAACTGAATTTTCAGGACAGAATGTGAATTTACATGACACTTAATTCATTCGTTTGATGAATTAATTTCG -TTATGTTTTCATCTGGCATGAACATTCTTAATACGTTATCGACCAGAGCGGGGGCTTGTTTATAAAGATC -ATAACCCGCCATATTCATTAACCAGTTTTGAACAATTCCGCTGAAGGCACCATCAATAATAATCATCACA -ACATCTAAATCGAGGTTATTTGCTACACAACCTTGTTGCTGACACGCCTGCAATACTTCGCGGAGAGTCT -GCGGATTAAAGCCCATCTTTTCGCGTATCACTCCCTCGGCCAGCATCTCATCATTAAATTCACATTTGTG -ATATAAGATTTTCAGCAACGCCTGCTGGCGGGGAATTTTGGCAATATATTGCAAGCCGACAATCAATTTT -TCACGCAATTGTTGAAACGGGTCATGCTCTAATCCAGCCGTCAAGTGTTCCTGGATTAACTCCCGCAATG -AAGGCTGTTGCAACCACATCTCATTAAACAGTTGAGTCTTGTTTTCGAAGTGCCAGTAGATAGCGCCACG -CGTAACGTTAGCGGCGTCGGCAATGTCGTTGAGCGTCGTCTTGCTTACGCCATGCTGCGCAAACTGGGCG -ATGGCAGTTTCAATCAGTTCTTGCCGGGTCTTCAGAGCTTCGGCTTTGGTTCTTTTTGCCATGATTAATT -ATTCAGGAAATAAATATATTCGACACAGAGTGAGAAAATAGCGAAGGTTAATCTATCACCTAATGTGTAT -TTATACGAGAGGCTAATATTGAGTTGCTATAAATCGTTAAATAAATAATATATATTATTTACCTAAGATA -CATTCACTACATCAATATATATTTCAATTTACGAGGTTTTAATTCTGCCTCTTTCAACCCGCGTCAAAAT -AAAACAGTAGAATATTAATCTTTTTTTGTGTTTATGTGCCTTGAGATGCCTGTATTCATAACTATTCCTT -ACATCGACGAATGATAATTTGTAGGATAGCGAACTGTATTTTTCTTTCTGCGAGTTAACGCGTTGCCTTT -TTGGGTAAATAACGCGCTTTTGGTTTTTTGAGGAATAGTAATGACGAAACATGCCAGGTTTTTCCTCCTG -CCCTCCTTTATTCTGATCTCCGCGGCTTTAATCGCCGGTTGTAACGATAAGGGAGAAGAGAAAGCTCACG -TCGGTGAACCGCAGGTTACCGTTCATATTGTAAAAACGGCCCCGTTAGAAGTTAAGACTGAATTACCAGG -CCGCACCAATGCTTATCGTATAGCCGAAGTTCGCCCACAGGTTAGCGGGATCGTACTGAATCGCAATTTC -ACTGAAGGCAGCGATGTGCAAGCAGGCCAGTCCCTGTACCAGATCGATCCCGCGACCTATCAGGCAAATT -ATGACAGCGCGAAAGGCGAACTGGCGAAAAGTGAAGCCGCCGCCGCCATCGCGCATTTGACGGTAAAACG -TTACGTTCCGCTCGTGGGTACGAAATACATCAGCCAGCAGGAGTACGACCAGGCCATTGCTGATGCTCGT -CAGGCCGATGCCGCCGTGATTGCCGCAAAAGCCACAGTCGAAAGCGCTCGCATCAATCTTGCTTATACCA -AAGTCACTGCGCCAATTAGCGGACGTATCGGCAAATCGACTGTGACCGAAGGCGCTCTTGTCACTAATGG -GCAAACGACTGAACTGGCGACTGTCCAGCAGCTCGATCCTATCTACGTTGATGTGACCCAATCCAGCAAC -GATTTTATGAGGCTGAAGCAATCCGTAGAGCAAGGAAATTTGCATAAGGAAAACGCCACCAGCAACGTAG -AGTTGGTCATGGAAAACGGTCAAACCTATCCCCTGAAAGGTACGCTGCAATTCTCCGATGTGACCGTTGA -TGAAAGCACCGGCTCCATAACCCTACGTGCTGTCTTCCCTAACCCGCAACATACGCTTTTGCCGGGTATG -TTTGTGCGTGCACGGATTGATGAAGGCGTCCAACCTGACGCCATTCTTATCCCGCAACAAGGCGTTAGCC -GCACACCGCGTGGTGATGCAACCGTGCTGATTGTTAACGATAAAAGTCAGGTTGAAGCGCGCCCTGTCGT -TGCCAGTCAGGCGATTGGCGATAAATGGTTGATTAGTGAAGGACTGAAATCTGGCGATCAAGTCATTGTC -AGCGGCCTGCAAAAAGCGCGTCCGGGAGAGCAGGTTAAAGCCACTACCGATACCCCCGCAGATACTGCAT -CGAAGTAAGGTAATCTGACATGGCAAACTTTTTTATTCGACGACCGATATTTGCATGGGTGCTGGCCATT -ATTCTGATGATGGCGGGCGCACTGGCGATCCTACAATTGCCCGTCGCTCAGTATCCAACAATTGCACCGC -CTGCGGTTTCTGTTTCAGCAAACTATCCGGGCGCTGATGCGCAGACCGTGCAGGATACGGTGACGCAGGT -TATCGAACAGAATATGAACGGTATCGATAACCTGATGTATATGTCCTCCACCAGCGATTCCGCCGGTAGC -GTGACAATTACCCTTACCTTCCAGTCCGGGACCGATCCTGATATCGCGCAAGTGCAGGTGCAGAACAAAC -TCCAGCTCGCCACGCCGTTGCTGCCGCAGGAGGTTCAGCAGCAGGGGATCAGTGTTGAAAAGTCCAGTAG -CAGCTATTTGATGGTGGCGGGCTTTGTCTCTGATAACCCAGGCACCACACAGGACGATATCTCGGACTAT -GTGGCCTCTAACGTTAAAGATACGCTTAGCCGTCTGAATGGCGTCGGTGACGTACAGCTTTTCGGCGCAC -AGTATGCGATGCGTATCTGGCTGGATGCCGATCTGCTAAACAAATATAAACTGACACCGGTTGATGTGAT -TAACCAGTTGAAGGTACAGAACGATCAGATCGCTGCCGGACAGTTGGGCGGAACGCCAGCGTTACCAGGG -CAACAATTGAACGCCTCGATTATTGCTCAGACGCGGTTTAAAAATCCGGAAGAATTCGGCAAAGTGACCC -TGCGCGTAAACAGTGACGGCTCGGTGGTACGCCTGAAAGATGTCGCACGGGTTGAACTTGGCGGTGAAAA -CTATAACGTTATCGCTCGTATCAACGGAAAACCGGCGGCGGGCCTGGGGATTAAGCTGGCAACCGGCGCG -AATGCTCTCGATACCGCGAAAGCCATTAAGGCAAAACTGGCGGAATTACAGCCATTCTTCCCGCAGGGAA -TGAAGGTTCTCTACCCTTATGACACCACGCCATTCGTCCAGCTTTCTATTCACGAAGTGGTAAAAACGCT -GTTCGAAGCCATTATGCTGGTGTTCCTGGTGATGTATCTGTTCTTGCAGAATATGCGAGCAACGCTGATC -CCCACCATTGCGGTACCCGTGGTGTTGTTAGGGACGTTTGCCATCCTCGCCGCTTTTGGTTACTCCATCA -ACACACTAACGATGTTCGGGATGGTGCTTGCCATCGGGCTGCTCGTCGATGATGCGATAGTGGTGGTGGA -GAACGTCGAGCGCGTGATGATGGAGGATAAGCTCCCGCCAAAAGAAGCGACGGAAAAATCGATGTCGCAA -ATTCAGGGCGCACTGGTGGGTATCGCGATGGTGCTGTCAGCGGTATTTATTCCGATGGCATTCTTCGGCG -GTTCTACTGGGGCAATTTATCGCCAGTTCTCTATCACCATCGTTTCGGCAATGGCGCTTTCTGTTCTGGT -GGCATTGATTCTTACCCCTGCGTTATGTGCAACGCTGCTTAAACCCGTCTCTGCTGAGCATCACGAAAAT -AAGGGCGGTTTCTTCGGTTGGTTTAATACCACCTTCGATCATAGCGTTAACCACTACACCAACAGCGTCG -GCAAAATCCTCGGATCCACAGGACGATATTTACTGATCTATGCGCTGATTGTTGCAGGAATGGTGGTGTT -GTTTTTACGTCTTCCGTCTTCCTTCTTACCTGAAGAGGATCAGGGTGTCTTTCTGACCATGATTCAGTTA -CCCGCTGGCGCGACGCAAGAGCGGACGCAAAAAGTGTTGGATCAAGTTACGGATTACTATCTGAAGAACG -AGAAAGCGAACGTTGAAAGTGTCTTTACGGTTAACGGCTTTAGCTTCAGCGGCCAGGCACAAAACGCCGG -TATGGCCTTCGTCAGTCTGAAACCGTGGGAAGAGCGTAATGGTGACGAAAACAGTGCGGAAGCGGTAATC -CATCGTGCCAAAATGGAATTGGGCAAGATCCGCGACGGTTTTGTCATTCCATTCAATATGCCAGCCATTG -TTGAACTGGGCACGGCAACGGGTTTCGACTTTGAGTTAATTGATCAGGCTGGGCTGGGTCACGATGCCCT -AACCCAGGCCCGTAACCAGTTGCTTGGTATGGCGGCGCAACATCCTGCCAGCTTAGTCAGCGTGCGCCCT -AATGGCCTGGAAGACACCGCGCAGTTTAAACTGGAAGTTGACCAGGAAAAGGCGCAGGCATTAGGTGTTT -CACTTTCTGACATCAATCAGACCATTTCAACGGCGCTGGGTGGGACTTACGTTAACGACTTCATCGACCG -TGGCCGCGTGAAAAAGTTGTATGTTCAGGCGGATGCCAAATTCCGTATGCTGCCAGAAGATGTCGATAAA -CTTTATGTCCGCAGCGCCAACGGCGAAATGGTGCCATTCTCGGCCTTTACCACTTCACATTGGGTGTATG -GCTCTCCGCGACTGGAACGCTACAACGGTCTGCCGTCAATGGAGATTCAGGGGGAAGCCGCGCCAGGAAC -CAGTTCCGGCGATGCCATGGCGTTGATGGAAAACCTTGCGTCAAAATTACCTGCGGGCATTGGTTATGAC -TGGACGGGTATGTCGTATCAGGAACGCTTATCGGGAAACCAGGCTCCCGCTCTGGTAGCAATTTCCTTTG -TGGTTGTTTTCCTGTGCCTTGCTGCACTCTATGAAAGCTGGTCAATTCCTGTCTCGGTTATGTTGGTAGT -GCCGTTAGGGATTGTCGGCGTGCTGCTGGCGGCGACACTCTTTAATCAAAAAAATGACGTCTACTTTATG -GTGGGCTTGCTAACGACAATTGGCTTGTCGGCCAAAAACGCTATTTTGATCGTTGAGTTCGCTAAAGATC -TCATGGAGAAAGAGGGTAAAGGTGTTGTTGAAGCGACACTGATGGCAGTACGTATGCGTCTGCGTCCTAT -CCTGATGACCTCTCTCGCCTTTATTCTCGGCGTATTACCGCTAGCTATCAGTAACGGTGCCGGCAGTGGC -GCGCAGAACGCTGTGGGTATCGGGGTAATGGGAGGAATGGTCTCTGCAACGTTGCTGGCAATCTTCTTCG -TACCGGTGTTCTTTGTGGTGATCCGCCGTTGCTTTAAAGGATAAATCAGAAACATAAAGGCGCTTTCGGG -TGCCTTTATTATTTCCAGTGAAACCCATAAAAATTAATAAGATATTCTTCTGCTCACTCTTTAAAAGCTT -TCTATAGTTCCCGCTCCCTTCACTATTTTTACAATTCACATAATTTGTCATTATTCATTCCGCAAGATTT -ATAACCTCCGGTGATAAAATGGCATTCAGCTCGTTAATAAGAGAGTTAACTTATTAAGCGTTAGCGTTTA -TTACTGAGGTAACACCATGAAAAGATTAATTCCTGTGGCATTGCTCACCGCATTGCTGGCGGGCTGTGCT -CACGATTCGCCCTGCGTTCCGGTTTATGACGATCAGGGTCGTCTGGTTCACACCAATACCTGTATGAAAG -GCACGACTCAGGATAACTGGGAAACGGCTGGGGCTATTGCCGGCGGGGCAGCTGCTGTTGCTGGCCTGAC -GATGGGGATCATCGCTCTATCGAAATAACTGAACAGGGCGCGGAGTTCCGCGCTCTTTTTAACGATACAG -TATCTCTCCATAAGATAAAATATTGCTATATTCTGCTGGGTAATTCCCTGCTGATTTAGCATGTTACATC -GCGTTATTTCGCTGCTTTCGAAATAACGCATCAATTTAATTTTCACACTTCCCACCAGAAATATACTCAC -GCTAACAATCATTATTCTGCTTAGTAAAACACGCGTAAATATTTTGCGCCAAAATGTGGCGCATGTTTCA -TTTTCGCACCATTGCGGGGCGCTGTTTTTATTATTTCCTGTCTACACTCAGCTTATTGCGACGCGAAATC -GTGCGCAAAAGCTGGCACTACTTTTGCTTATAAGAGGATGGCCACAGACAGGTAAAAGACGTTTCCCAAA -CGTCCTATAACGATAATTTTCGCCTCACAGGAAGCATTATGAAAAAGATGATGATAGCCACACTGGCTGC -CGCCAGCGTGCTGCTTGCCGTTGCAAATCAGGCGCTGCTGGCGCGACGCTTGATGCCGTTCAGAAAAAAG -GTTTTGTGCAATGCGGGATCAGTGATGGATTACCTGGGTTCTCTTATGCCGATGCTGACGGTAAGTTTTC -AGGTATTGATGTTGATATTTGTCGTGGTGTTGCCGCTGCTGTATTTGGTGACGACACGAAAGTGAAATAT -ACCCCGCTCACTGCAAAAGAACGCTTCACCGCTTTACAGTCAGGGGAGGTGGATTTGCTCTCCCGTAATA -CGACCTGGACTTCATCTCGCGATGCCGGGATGGGAATGGCATTTACCGGCGTCACTTATTACGACGGCAT -TGGCTTCCTGACGCACGATAAAGCGGGGCTAAAAAGCGCGAAAGAACTGGATGGCGCTACCGTCTGTATT -CAGGCGGGTACTGATACCGAACTCAACGTCGCCGACTACTTCAAGGCAAACAATATGAAGTACACACCGG -TGACTTTCGATCGCTCTGACGAATCAGCGAAGGCACTGGAATCTGGTCGCTGCGATACGCTGGCCTCGGA -TCAATCACAACTGTATGCCCTGCGCATCAAATTAAGCAACCCAGCTGAATGGATTGTCTTACCGGAAGTT -ATCTCAAAAGAACCGCTTGGTCCGGTAGTTCGTCGTGGCGATGATGAATGGTTCTCGATTGTACGCTGGA -CGCTTTTCGCCATGCTGAATGCTGAAGAGATGGGCATCAATTCCCAGAACGTCGATGAAAAAGCGGCTAA -TCCAGCAACGCCTGATATGGCACATCTGCTGGGTAAAGAAGGCGATTACGGCAAGGATCTGAAGCTGGAT -AATAAATGGGCCTATAACATCATCAAACAGGTGGGTAACTACTCGGAAATTTTTGAGCGTAACGTAGGTT -CAGAAAGCCCGCTGAAAATTAAACGTGGGCAAAATAATCTCTGGAATAACGGCGGTATTCAGTACGCACC -GCCCGTGCGTTAAGTCGGTGTGAGGTAACGAGCGTCGCTACGGCGGCGCTCTCTTCAGCGTTATGCTTTC -CGAGGTTTCTATGTCTCATCGCCGCTCAACCGTTAAAGGCTCACTCTCTTTTGCCAACCCTACGGTTCGC -GCCTGGTTATTCCAGATCCTTGCCGTTGTTGCTGTTGTCGGCATTGTTGGTTGGTTATTTCACAACACTG -TAACGAATCTCAATAATCGTGGCATTACTTCAGGTTTTGCCTTTCTGGATCGCGGCGCTGGCTTCGGTAT -TGTCCAGCATTTGATCGATTACCAGCAGGGCGACACCTACGGACGCGTTTTTATTGTCGGCTTACTCAAT -ACGCTACTGGTTTCTGCATTGTGTATTGTGTTCGCTTCTGTTTTGGGCTTCTTTATCGGTCTGGCGAGAC -TTTCGGATAACTGGCTGCTACGAAAGCTTTCCACAATTTATATTGAGATCTTCCGTAATATTCCCCCGCT -GCTGCAAATCTTCTTCTGGTACTTTGCCGTGTTGCGCAATTTGCCCGGACCACGCCAGGCTGTGAGCGCG -TTTGATCTGGCCTTTTTGAGCAATCGTGGGCTTTATATTCCGTCACCGCAGCTGGGAGACGGATTTATTG -CGTTTATCCTGGCTGTTGTTATGGCTATAGTCCTTTCTGTTGGGCTATTCCGCTTTAATAAAACATACCA -GATAAAGACCGGACAACTGCGCCGCACCTGGCCGATCGCCGCAGTGTTGATCATTGGTTTGCCTTTACTG -GCGCAATGGCTTTTTGGCGCAGCACTACACTGGGATGTCCCAGCCCTACGAGGCTTTAACTTCCGCGGCG -GGATGGTTTTAATTCCTGAACTGGCAGCCTTAACGCTGGCACTTTCGGTTTATACATCTGCATTTATCGC -CGAGATTATCCGCGCTGGGATCCAGGCAGTGCCTTATGGTCAACATGAAGCGGCTCGGTCACTGGGATTA -CCCAACCCGGTTACGCTACGCCAGGTCATTATTCCCCAGGCATTGCGGGTGATTATTCCACCGTTAACCA -GCCAGTATCTCAACATCGTCAAAAACTCCTCTCTTGCCGCCGCTATTGGCTATCCCGATATGGTTTCGCT -GTTTGCCGGCACCGTGCTGAATCAGACGGGGCAAGCCATCGAGACGATAGCCATGACCATGTCGGTCTAT -CTGATTATCAGCCTGACTATCTCGCTGCTGATGAATATCTATAACCGCCGCATCGCGATCGTTGAACGCT -AAGGAGTCATGATGACAAAAGTATTGCTGTCTCATCCCCCGCGCCCGGCGAGCCATAACTCAAGCCGCGC -GATGGTGTGGGTGCGAAAAAATCTGTTCTCCAGCTGGAGCAATAGCCTGCTGACTATTGGCTGCATATGG -TTGATGTGGGAACTGATCCCACCGTTGCTGAACTGGGCATTTTTGCAGGCTAACTGGGTTGGCTCAACGC -GTGCCGACTGCACAAAAGCCGGTGCCTGTTGGGTCTTCATCCACGAACGATTTGGTCAGTTTATGTATGG -GCTTTACCCACACGACCAACGCTGGCGAATTAACCTCGCATTACTGATTGGGCTTGTGTCGATCGCACCA -ATGTTCTGGAAAATACTCCCGCATCGCGGTCGCTATATTGCGGCCTGGGCGGTGATTTACCCACTGATTG -TCTGGTGGCTGATGTATGGCGGTTTTTTTGCTCTTGAGCGGGTTGAAACCCGGCAATGGGGCGGGCTGAC -GCTAACTTTAATTATTGCATCAGTTGGGATTGCGGGGGCGCTACCGTGGGGGATCTTACTGGCGTTAGGT -CGCCGCTCCCATATGCCGATTGTGCGTATCTTATCGGTCATTTTTATCGAATTCTGGCGCGGCGTGCCGC -TGATTACCGTTCTGTTTATGTCTTCGGTCATGCTGCCGTTGTTTATGGCAGAAGGCACCAGTATCGACAA -ATTGATCCGCGCGCTGGTTGGCGTGATCCTGTTTCAGTCAGCATATGTTGCGGAAGTCGTGCGAGGTGGA -TTACAGGCGCTGCCTAAAGGGCAATATGAAGCGGCAGAGTCGCTGGCGTTGGGTTACTGGAAAACTCAGG -GGCTGGTTATTCTGCCACAGGCGTTGAAGCTGGTAATTCCTGGGCTGGTAAATACCATCATCGCACTCTT -CAAAGATACCAGCCTGGTGATCATTATCGGGTTGTTCGATCTTTTCAGTAGCGTTCAGCAGGCAACCGTT -GATCCCGCCTGGTTGGGTATGTCGACGGAAGGGTATGTTTTCGCCGCGCTGATCTACTGGATCTTCTGTT -TCAGCATGTCGCGCTATAGCCAGTATCTGGAAAAACGTTTTAACACCGGGCGTACACCGCATTGAGGACA -CTATGAGCCAAATTTTACTGCAACCTGCTAACGCGATGATTACGCTGGAAAACGTCAATAAATGGTATGG -ACAATTCCATGTTTTGAAAAATATAAATTTAACCGTGCAACCGGGAGAACGGATCGTTCTGTGTGGCCCT -TCAGGTTCCGGTAAATCGACAACCATTCGTTGTATTAATCATCTGGAAGAACATCAACAGGGACGGATCG -TGGTAGATGGCATCGAACTTAATGAAGATATCCGCAATATTGAGCGCGTCAGGCAGGAAGTGGGAATGGT -CTTTCAGCATTTCAATCTCTTCCCTCATCTGACCGTTTTACAGAACTGTACCCTGGCACCGATTTGGGTA -CGCAAGATGCCTAAGAAAGAGGCTGAAGATCTGGCGGTGCATTACCTAGAGCGGGTGAGAATTGCCGAAC -ATGCGCATAAGTTTCCCGGACAGATTTCAGGTGGTCAGCAGCAACGCGTTGCCATTGCGCGTTCGCTGTG -TATGAAGCCGAAAATTATGTTGTTTGATGAGCCAACGTCGGCGCTCGATCCTGAGATGGTGAAAGAGGTG -CTGGATACGATGATTGGGCTGGCGCAGTCGGGTATGACAATGTTGTGTGTAACACATGAGATGGGGTTTG -CACGAACCGTCGCTGACCGGGTAATTTTTATGGATCGTGGGGAAATAGTGGAGCAAGCTGCACCTGATGA -ATTTTTTGCGCATCCTAAATCAGAGCGTACGAGGGCATTTTTATCGCAGGTAATCCATTAATTGAATGTT -AGTTCGAAAAGCAAAAAGGCCATCCTTTCGGATGGCCTTTCGCTTGATTTGATGTCTGGCAGTTTATGGC -GGGCGTCCTGCCCGCCACCCTCCGGGCCGTTGCTTCGCAACGTTCAAATCCGCTCCCGGCGGATTTGTCC -TACTCGGGAGAGTGTTCACCGACAAACAACAGATAAAACAAAAGGCCCAGTCTTCCGACTGAGCCTTTTG -TTTTATTTGATGTCTGGCAGTTCCCTACTCTCGCATGGGGAGACCCCACACTACCATCGGCGCTACGGCG -TTTCACTTCTGAGTTCGGCATGGGGTCAGGTGGGACCACCGCGCTACTGCCGCCAGACAAATTCTTTTCT -AATCTGCCGAACTTTAACCTAAAAAGTGGTGCTGATACCCAGAGTCGAACTGGGGACCTCACCCTTACCA -AGGGTGCGCTCTACCAACTGAGCCATATCAGCACGCTAAATTTGATGCCTGGCAGTTCCCTACTCTCGCA -TGGGGAGACCCCACACTACCATCGGCGCTACGGCGTTTCACTTCTGAGTTCGGCATGGGGTCAGGTGGGA -CCACCGCGCTACGGCCGCCAGGCAAATTCTGTTTTATCAGACCGCTTCTGCGTTCTGATTTAATCTGTAT -CAGGCTGAAAATCTTCTCTCATCCGCCAAAACAGCTTCGGCGTTGTAAGGTTAAGCCTCACGGTTCATTA -GTACCGGTTAGCTCAACGCATCGCTGCGCTTACACACCCGGCCTATCAACGTCGTCGTCTTCAACGTTCC -TTCAGGACCCTTAAAGGGTCAGGGAGAACTCATCTCGGGGCAAGTTTCGTGCTTAGATGCTTTCAGCACT -TATCTCTTCCGCATTTAGCTACCGGGCAGTGCCATTGGCATGACAACCCGAACACCAGTGATGCGTCCAC -TCCGGTCCTCTCGTACTAGGAGCAGCCCCCCTCAGTTCTCCAGCGCCCACGGCAGATAGGGACCGAACTG -TCTCACGACGTTCTAAACCCAGCTCGCGTACCACTTTAAATGGCGAACAGCCATACCCTTGGGACCTACT -TCAGCCCCAGGATGTGATGAGCCGACATCGAGGTGCCAAACACCGCCGTCGATATGAACTCTTGGGCGGT -ATCAGCCTGTTATCCCCGGAGTACCTTTTATCCGTTGAGCGATGGCCCTTCCATTCAGAACCACCGGATC -ACTATGACCTGCTTTCGCACCTGCTCGCGCCGTCACGCTCGCAGTCAAGCTGGCTTATGCCATTGCACTA -ACCTCCTGATGTCCGACCAGGATTAGCCAACCTTCGTGCTCCTCCGTTACTCTTTAGGAGGAGACCGCCC -CAGTCAAACTACCCACCAGACACTGTCCGCAACCCGGATTACGGGTCAACGTTAGAACATCAAACATTAA -AGGGTGGTATTTCAAGGTCGGCTCCATGCAGACTGGCGTCCACACTTCTAAGCCTCCCACCTATCCTACA -CATCAAGGCTCAATGTTCAGTGTCAAGCTATAGTAAAGGTTCACGGGGTCTTTCCGTCTTGCCGCGGGTA -CACTGCATCTTCACAGCGAGTTCAATTTCACTGAGTCTCGGGTGGAGACAGCCTGGCCATCATTACGCCA -TTCGTGCAGGTCGGAACTTACCCGACAAGGAATTTCGCTACCTTAGGACCGTTATAGTTACGGCCGCCGT -TTACCGGGGCTTCGATCAAGAGCTTCGCTTGCGCTAACCCCATCAATTAACCTTCCGGCACCGGGCAGGC -GTCACACCGTATACGTCCACTTTCGTGTTTGCACAGTGCTGTGTTTTTAATAAACAGTTGCAGCCAGCTG -GTATCTTCGACTGATTTCAGCTCCACGAGCAAGTCGCTTCACCTACATATCAGCGTGCCTTCTCCCGAAG -TTACGGCACCATTTTGCCTAGTTCCTTCACCCGAGTTCTCTCAAGCGCCTTGGTATTCTCTACCTGACCA -CCTGTGTCGGTTTGGGGTACGATTTGATGTTACCTGATGCTTAGAGGCTTTTCCTGGAAGCAGGGCATTT -GTTGCTTCAGCACCGTAGTGCCTCGTCATCACGCCTCAGCCTTGATTTTCCGGATTTGCCTGGAAAACCA -GCCTACACGCTTAAACCGGGACAACCGTCGCCCGGCCAACATAGCCTTCTCCGTCCCCCCTTCGCAGTAA -CACCAAGTACAGGAATATTAACCTGTTTCCCATCGACTACGCCTTTCGGCCTCGCCTTAGGGGTCGACTC -ACCCTGCCCCGATTAACGTTGGACAGGAACCCTTGGTCTTCCGGCGAGCGGGCTTTTCACCCGCTTTATC -GTTACTTATGTCAGCATTCGCACTTCTGATACCTCCAGCATGCCTCACAGCACACCTTCGCAGGCTTACA -GAACGCTCCCCTACCCAACAACGCATAAGCGTCGCTGCCGCAGCTTCGGTGCATGGTTTAGCCCCGTTAC -ATCTTCCGCGCAGGCCGACTCGACCAGTGAGCTATTACGCTTTCTTTAAATGATGGCTGCTTCTAAGCCA -ACATCCTGGCTGTCTGGGCCTTCCCACATCGTTTCCCACTTAACCATGACTTTGGGACCTTAGCTGGCGG -TCTGGGTTGTTTCCCTCTTCACGACGGACGTTAGCACCCGCCGTGTGTCTCCCGTGATAACATTCTCCGG -TATTCGCAGTTTGCATCGGGTTGGTAAGTCGGGATGACCCCCTTGCCGAAACAGTGCTCTACCCCCGGAG -ATGAATTCACGAGGCGCTACCTAAATAGCTTTCGGGGAGAACCAGCTATCTCCCGGTTTGATTGGCCTTT -CACCCCCAGCCACAAGTCATCCGCTAATTTTTCAACATTAGTCGGTTCGGTCCTCCAGTTAGTGTTACCC -AACCTTCAACCTGCCCATGGCTAGATCACCGGGTTTCGGGTCTATACCCTGCAACTTAACGCCCAGTTAA -GACTCGGTTTCCCTTCGGCTCCCCTATTCGGTTAACCTTGCTACAGAATATAAGTCGCTGACCCATTATA -CAAAAGGTACGCAGTCACACGCCTAAGCGTGCTCCCACTGCTTGTACGTACACGGTTTCAGGTTCTTTTT -CACTCCCCTCGCCGGGGTTCTTTTCGCCTTTCCCTCACGGTACTGGTTCACTATCGGTCAGTCAGGAGTA -TTTAGCCTTGGAGGATGGTCCCCCCATATTCAGACAGGATACCACGTGTCCCGCCCTACTCATCGAGCTC -ACAGCATGTGCATTTTTGTGTACGGGGCTGTCACCCTGTATCGCGCGCCTTTCCAGACGCTTCCACTAAC -ACACACACTGATTCAGGCTCTGGGCTGCTCCCCGTTCGCTCGCCGCTACTGGGGGAATCTCGGTTGATTT -CTTTTCCTCGGGGTACTTAGATGTTTCAGTTCCCCCGGTTCGCCTCATTAACCTATGGATTCAGTTAATG -ATAGTGTGTCGAAACACACTGGGTTTCCCCATTCGGAAATCGCCGGTTATAACGGTTCATATCACCTTAC -CGACGCTTATCGCAGATTAGCACGTCCTTCATCGCCTCTGACTGCCAGGGCATCCACCGTGTACGCTTAG -TCGCTTAACCTCACAACCCGAAGATGTTTCACTTCAGAGTTGCGAAAATTTGAGAGACTCACGAACAACT -TTCGTTGTTCAGTGTTTCAATTTTCAGCTTGATCCAGATTTTTAAAGAGCAAAACTTCGCAGTGAACCTT -TGCAGGTACACTCTGAAGTATTTTTTATTTAATCACTACAGAGATGGTGGAGCTATGCGGGATCGAACCG -CAGACCTCCTGCGTGCAAAGCAGGCGCTCTCCCAGCTGAGCTATAGCCCCATAACATGTAGTTAAAACCT -CTTCAAATTTGCCGTGCAAATTTGGTAGGCCTGAGTGGACTTGAACCACCGACCTCACCCTTATCAGGGG -TGCGCTCTAACCACCTGAGCTACAAGCCTGTAGAGGTTTTACTGCTCATTTTCATCAGACAATCTGTGTG -AGCACTGCAAAGTACGCTTCTTTAAGGTAAGGAGGTGATCCAACCGCAGGTTCCCCTACGGTTACCTTGT -TACGACTTCACCCCAGTCATGAATCACAAAGTGGTAAGCGCCCTCCCGAAGGTTAAGCTACCTACTTCTT -TTGCAACCCACTCCCATGGTGTGACGGGCGGTGTGTACAAGGCCCGGGAACGTATTCACCGTGGCATTCT -GATCCACGATTACTAGCGATTCCGACTTCATGGAGTCGAGTTGCAGACTCCAATCCGGACTACGACGCAC -TTTATGAGGTCCGCTTGCTCTCGCGAGGTCGCTTCTCTTTGTATGCGCCATTGTAGCACGTGTGTAGCCC -TGGTCGTAAGGGCCATGATGACTTGACGTCATCCCCACCTTCCTCCAGTTTATCACTGGCAGTCTCCTTT -GAGTTCCCGGCCGGACCGCTGGCAACAAAGGATAAGGGTTGCGCTCGTTGCGGGACTTAACCCAACATTT -CACAACACGAGCTGACGACAGCCATGCAGCACCTGTCTCACGGTTCCCGAAGGCACATTCTCATCTCTGA -AAACTTCCGTGGATGTCAAGACCAGGTAAGGTTCTTCGCGTTGCATCGAATTAAACCACATGCTCCACCG -CTTGTGCGGGCCCCCGTCAATTCATTTGAGTTTTAACCTTGCGGCCGTACTCCCCAGGCGGTCGACTTAA -CGCGTTAGCTCCGGAAGCCACGCCTCAAGGGCACAACCTCCAAGTCGACATCGTTTACGGCGTGGACTAC -CAGGGTATCTAATCCTGTTTGCTCCCCACGCTTTCGCACCTGAGCGTCAGTCTTCGTCCAGGGGGCCGCC -TTCGCCACCGGTATTCCTCCAGATCTCTACGCATTTCACCGCTACACCTGGAATTCTACCCCCCTCTACG -AGACTCAAGCTTGCCAGTATCAGATGCAGTTCCCAGGTTGAGCCCGGGGATTTCACATCTGACTTAACAA -ACCGCCTGCGTGCGCTTTACGCCCAGTAATTCCGATTAACGCTTGCACCCTCCGTATTACCGCGGCTGCT -GGCACGGAGTTAGCCGGTGCTTCTTCTGCGGGTAACGTCAATGAGCAAAGGTATTAACTTTACTCCCTTC -CTCCCCGCTGAAAGTACTTTACAACCCGAAGGCCTTCTTCATACACGCGGCATGGCTGCATCAGGCTTGC -GCCCATTGTGCAATATTCCCCACTGCTGCCTCCCGTAGGAGTCTGGACCGTGTCTCAGTTCCAGTGTGGC -TGGTCATCCTCTCAGACCAGCTAGGGATCGTCGCCTTGGTGAGCCGTTACCCCACCAACAAGCTAATCCC -ATCTGGGCACATCCGATGGCAAGAGGCCCGAGGGTCCCCCTCTTTGGTCTTGCGACGTTATGCGGTATTA -GCTACCGTTTCCAGTAGTTATCCCCCTCCATCAGGCAGTTTCCCAGACATTACTCACCCGTCCGCCACTC -GTCAGCGAAACAGCAAGCTGTTTCCTGTTACCGTTCGACTTGCATGTGTTAGGCCTGCCGCCAGCGTTCA -ATCTGAGCCATGATCAAACTCTTCAATTTAAAAGTTTGATGCTCAAAGAATTAAACTTCGTAATGAATTA -CGTGTTCACTCTTGAGACTTGGTATTCATTTTTCGTCTTGCGACGTTAAGAATCCGTATCTTCGAGTGCC -CACACAGATTGTCTGATAAATTGTTAAAGAGCAGTTGCGACGCGGCTTTCAGCTCACTGTCGCGAGGTGG -CGTATATTACGCTTTCCTCTTTCAGAGTCAACCCTGAATTTCAGGATTTTTTTCTCTTCGTTGTTCCGAC -CATCCTGTGAAGTGTTTCACGTTGTCGTCTCAACGGAGGCGCATTATAGGGATCCCAATTTTTTGCACAA -GTATTTTTTTGATCTTTTTTTCTGTTTGTTGTTTTTTCACCCTTTTTGCTGCAATCGCACACAAAACGGT -GCTTTTTTGCATACTAAAAGACTTGCACAAGGCCAATAATGCCCCCAAAGTCATTAGTAAATCATTTATT -GCTGAGGTAAGTATGTCTGATGTTTTACGCCCATACCGCGATCTTTTTCCACAAATCGGTCAGCGCGTAA -TGATCGACGATAGCAGTGTCGTGATTGGTGACGTTCGTCTGGCTGATGATGTGGGGATCTGGCCGCTCGT -TGTGATTCGTGGAGATGTACATTATGTACAGATCGGAGCACGCACCAATATCCAGGATGGCAGTATGTTG -CATGTCACTCATAAATCCTCGTACAACCCAGATGGCAACCCATTAACCATTGGCGAAGATGTCACTGTTG -GTCACAAGGTGATGCTCCACGGCTGCACCATTGGCAATCGAGTTTTGGTTGGGATGGGCTCAATTTTACT -TGATGGCGCAATAGTAGAAGATGATGTGATGATTGGTGCGGGTAGTCTGGTCCCACAAAATAAACGGCTG -GAGAGCGGATATCTGTATCTCGGTAGCCCCGTCAAACAGATCCGCCCGTTAAGTGATGAAGAGAAGGCTG -GGTTACGCTATTCCGCGAATAATTACGTGAAATGGAAGGACGAATATCTGGATCAGGGTAACCAGACCCA -GCCTTGATCATCTTCACTTTGTTCCTGAATTAAGTTTTCCGCTTCTTCTTCCAGGTCCCAGCGATGCTGA -CGAAAACTCGCTAACCACTGTTCTGGCGTATCTCCAGTAAAGCGATACGCCAGACTCTCGCCAGAGATCG -CGCATGTCAGTTGCATACCATTCACGAGAGCGGGAAAACATACACATTTTTTATTCTCGTCCCACTCTTC -CCTGTCCGGAAACTGGATGGCCTGATTCACGCGGACAATTCCTCCTGCAATTGCTTTATAACTGGTTCTA -CGTCAGGCAGAACACCGTGCCAGAGAAGAAAGGCATGAGCCGCCTGTGCCACCAGCATTCCTAAACCATC -AGCATTACGCTTTGAGCCTCGCTGCTCACACCATGCCAGAAAAGGAGTTTTTCCTTTCTGATAGAACATG -TCATAGCAATAAATGCCTGGATGAATGAGCGATGACGGGATCGCCGGAATATCACCACTGATGCCACTGG -ATGTTGCATTAATAATGAGATCAAACTCATGACCTTCCAGTTCGTCCATACTCAACGCCTGAATACTGCC -AGTGTGCGCAAACAATTTAGCCAACTCTTCCGCGCGGGATACCGTCCGATTAGTTATTGTCACCGCACAG -TCCAGGGAAAGGAGTGGCAGTAGTACGCCGCGAGATGCTCCACCAGCGCCGATAAGCAGAATACGTAAAC -CAGGGCGGATAAAAGACAGACGTTCCAGATCGCTTAACAAGCCTACACCATCGGTATTGTCACCCAGCAG -GCGTCCATCTTCTAACCGCATGAGGGTATTAACAGCACCAGCCAACGCTGCCCGTTCAGTAAGCTCATCC -GCTCTGGCAAAAGCCTCTTCTTTAAAAGGCACCGTCACATTCGCACCTTTACCACCAGCACTAAAGAAAG -CGTTCAGTGTGTTGATGAAATCATTGATGGGTGCCAACACGCGCCCATAGGGATGTTCAATATTCAGTTG -CTGAGCAAATTGCTGATGAATGAATGGCGATTTGCTGTGGGCTATCGGATTACCAAAAACAGCATAGGTT -TCCATTATGTTACCCCTGTCGAAACAGTTCACCCGTCAGGGCATCGCGGATTTCTGAAGGATTTAAACGC -CCCCCCGTTTCACCAGGCACAACCGGGAACGCCGCGCCAAATTGTGCGCGAACTTCGTCTACTGTTCGAC -AAGGTGGCAATCCACTCAAGTTGGCACTGGTAGAAACCAGCGGTTTACCATAAGCCTGGCACAAAGCAAC -CACCAACGGATGGTCGGTGACTCGTACAGCAAGCGAATCAAAGCGGCCCGTCAACCAGCGCGGTGTTGTC -GCAGGCGCGGGAAAGACAAAGGTGACAGGACCTGGCCAGCGGGAAAAAATGGTTTCACGCTGCACGTCAG -TCAACATGGTGTCATCAATATAGGGTTTAAGCTGCTCGTAATTTGCTGCGATTAAAATCAGCCCCTTATC -AACCGGACGCTGTTTTAACTCCAACAGTCGCATCACTGCTGTTTCGCTATCAGGATCGCACCCAACACCG -AAAACGGCTTCCGTTGGATAGGCGATGACACGTTCTTCATTGAGAACATCTATCGCAGCTGCGATAGCGT -CTCTTTGCAGGTTATTATTCACGTTATTATTCCGCCGAAACCGGCTTTCCACATTGTTTACTGGCACAAA -AGTGTTTTACACCCTGCGCGGTTTTCTTTTCGATGAGTAGCGGATAATGACACTCAGGGCATTCTCCAGC -TATGGGTTTGAAGTTAATGGCAAATTGACACTCCGGGTAGCGATCACAAGAGTGAAATGTTTTGCCATAA -CGGGAGCGGCGCTGGACCAGATGGCCCGTCCGACATTGGGGGCATGTAATTGCTGTTTCGTCCGGTTTAT -CGATAAGTTCGGTATGTTCGCATTCAGGGTAGTTAATGCAACCAATAAACATACCAAAGCGTCCCTGGCG -TAATACCAGATTTGCGCCACATGCAGGGCAAACCTGCCCCTCCAGAACTTTGACGATATGTCCATCCGCT -GAAGATTTCAGAGGACGGACGTAGTCACACGCCGGATACTGTGAGCATCCAAGAAACGGACCGTGTTTCC -CGGATCGAATAACCAGTTCAGCCCCGCACTTTGGGCAGGACTCATTATTACGCACCGTGAACAGTGCTGA -TTTCGCCATAACAACTTATGCTGAATTAAAGAAATGATTAATGCAGCATACCTTCATTCACTTCAAAGAG -TAATTCTTCCATTTGCTGGTACGCATTTTCGCAGCCCGGAATATTGAACAACACCATCAGGATCACCCAT -TTCAGATCATCCAGTTCGAACTCTGCGTTATCCAGCGCGAGCACTCGCTCTATCACCATTTCACGAGTTT -CAAGGTTGAGCACCTGAATCTGCTCAAGGAAAAGCAGAAACCCACGGCAGCTGGCATCCAGTCGTTCACA -CTCTTCCGGTGTATAAATACGCATGGAGAGAGGATCCGAGGCCAGTTGCATCGGTTCTGCCAACCCTTCC -TGATAATCAGCAAGTTTTTCCAGCCATAGCAGGGCATTGTAGATATCTTCTCGCTCAAAACCTGCGTCGG -TAAGATCCTGTTCAAGTTTGTCTTGATCCACACGCAACTCAGCTTCTGTGTGAATATAGGTTTCAAACAA -ATACATTAGTACGTCGAACATGGCATGCCCTCCTCAATCGGACATAGCCGCCGGGTACAGCTGCGATCCA -TCCTGCTAACTCCAGTTCGAGTAGTTGAGTAACTACCTCTGGCACAGGTTGGCCGGCACGTTCAGCGACG -ACGTCAACAGGTGTTACCTCATCTCCTACGTTAGCCAGGAGCTCAGGAAATGGCAATGCCACGTCTTGCT -GATCTGGTGAATAAAATGAATTTTCAGGGGCGTCTGGCAACCAGTGCAATCCAAATTGCAAGTTTTCCAG -AATTTCTTCCGGTTCCGTCACAAGAATCGCACCTTGTTTTATTAACCAGTGAGGCCCTTCGCTTCCCGGA -TTCCCTATTGGACCTGGCAAGGCAAAAACTTCTCGCCCCTGCTCAAGCGCACAACGTGCTGTCACCAGCG -AACCACTACGCAAAGCCGCTTCCACCACCAGTACACCTTTACTTAGACCACTGATAATGCGATTTCTTCG -TGGGAAATTGTAAGCAAGGGGTGGAACATCGAGGGGAAATTCCGAGACGAGAGCGCCCCCCTGTTCAAGC -AGACTGGCAGCCAGTCGGGCATGACGGCGGGGATGAATGGTATTAAGTCCATTCCCCAATACAGCAATGC -TGACGCCATTTACCTGTAAGGCTGCTTTATGCGCTACACCATCGATTCCACGCGCCAGTCCACTCGTAAT -TGTCACTCCACGCGTCGCCAGAGTTTCGCAAAATAATCGTCCCCATCGCTCGCCATACCATGAATGCGCC -CGACTCCCCACTACGGCAAGCTGAAATGAATGCAGCGCGTGCAGTTCTCCTTCAACAAACAGTGCGCCGG -GGTAATCTGTCGTCGCCAGAAGTTGAGGAGGATAAAATTCGCTGTCCGCAGGAATTAAATGATGGTTGGG -TTGCTCCAACCAACAAAGTGAGCTTTCGATACTCTTTCGTGGAAATGAAAGAAAGCGTTGTGCCTGCCGC -AATGTAAGCCCTGTTTGCTGCAATACAACCGCATCAATATGCGACTGTTTTGCCACCCAGTGAGCGATAC -GGACCATATCATCGCCGTACAAGCTGCTGATACTCATTAAACGCAGCCAAATTTCTGTATCGACCATCCT -TATCTCCCTGCCATAAGCAGCCTTAGCAATCTTTGCGATTGGTCAGTGATGCTGTCAATCAGAGGGGGAT -TTGTCTAGAATAGAAGAAATAATCTTTCTAACTCCTGAACACATCTCTGGAGATTTATGTCAGTTTTGCA -AGTGTTACATATTCCGGACGAGCGGCTTCGCAAAGTTGCTAAACCGGTAGAAGAAGTGAATGCAGAAATT -CAGCGTATCGTCGATGATATGTTCGAGACGATGTACGCAGAAGAAGGTATTGGCCTGGCGGCAACCCAGG -TTGATATCCATCAACGTATCATTGTTATTGATGTTTCGGAAAACCGTGACGAACGGCTAGTGTTAATCAA -TCCAGAGCTTTTAGAAAAAAGCGGCGAAACAGGCATTGAAGAAGGTTGCCTGTCGATCCCTGAACAACGT -GCTTTAGTGCCGCGCGCAGAGAAAGTTAAAATTCGCGCCCTTGACCGCGACGGTAAACCATTTGAACTGG -AAGCAGACGGTCTGTTAGCCATCTGTATTCAGCATGAGATGGATCACCTGGTCGGCAAACTGTTTATGGA -TTATCTGTCACCGCTGAAACAACAACGTATTCGTCAGAAAGTTGAAAAACTGGATCGTCTGAAAGCCCGG -GCTTAAGGATAAGAACTAACGTGTCAGAATCACTACGTATTATTTTTGCGGGTACACCTGACTTTGCAGC -GCGTCATCTCGACGCGCTGTTGTCTTCTGGTCATAACGTCGTTGGCGTGTTCACCCAGCCAGACCGACCG -GCAGGACGCGGTAAAAAACTGATGCCCAGCCCGGTTAAAGTTCTGGCTGAGGAAAAAGGTCTGCCCGTTT -TTCAACCTGTTTCCCTGCGTCCACAAGAAAACCAGCAACTGGTCGCCGAACTGCAGGCTGATGTTATGGT -CGTCGTCGCCTATGGTTTAATTCTGCCGAAAGCAGTGCTGGAGATGCCGCGTCTTGGCTGTATCAACGTT -CATGGTTCACTGCTGCCACGCTGGCGCGGTGCTGCACCAATCCAACGCTCACTATGGGCGGGTGATGCAG -AAACTGGTGTGACCATTATGCAAATGGATGTCGGTTTAGACACCGGTGATATGCTCTATAAGCTCTCCTG -CCCGATTACTGCAGAAGATACCAGTGGTACGCTGTACGACAAGCTGGCAGAGCTTGGCCCACAAGGGCTT -ATCACCACGTTGAAACAACTGGCAGACGGCACGGCGAAACCAGAAGTTCAGGACGAAACTCTTGTCACTT -ACGCCGAGAAGTTGAGTAAAGAAGAAGCGCGTATTGACTGGTCACTTTCGGCAGCACAGCTTGAACGCTG -CATTCGCGCTTTCAATCCATGGCCAATGAGCTGGCTGGAAATTGAAGGACAGCCGGTTAAAGTCTGGAAA -GCATCGGTCATTGATACGGCAACCAACGCTGCACCAGGAACGATCCTTGAAGCCAACAAACAAGGCATTC -AGGTTGCGACTGGTGATGGCATCCTGAACCTGCTCTCGTTACAACCTGCGGGTAAGAAAGCGATGAGCGC -GCAAGACCTCCTGAACTCTCGTCGGGAATGGTTTGTTCCGGGCAACCGTCTGGTCTGATAGTCCACTCTT -CTAAGCCCGGTCTTGCCGGGCGTTTTTATACTTATGAAAAAACAACGTAATTTACGTAGCATGGCGGCCC -AGGCCGTTGAACAAGTCGTCGAGCAAGGGCAATCATTAAGCAACATTCTGCCACCGCTCCAGCAAAAAGT -TTCCGATAAAGACAAAGCACTTCTTCAAGAGTTGTGCTTTGGCGTACTGCGTACGCTTTCGCAGTTAGAC -TGGCTGATTAATAAGTTAATGGCCCGTCCGATGACCGGCAAACAGCGGACCGTGCATTACCTGATTATGG -TTGGTTTGTATCAACTGCTTTATACCCGCATTCCACCTCATGCTGCGCTGGCTGAAACGGTTGAAGGCGC -TATCGCAATTAAGCGTCCGCAACTTAAAGGGTTGATAAACGGTGTATTACGCCAGTTCCAGCGTCAGCAA -GAAGAGTTATTAGCCGAGTTTAATGCCAGTGATGCACGTTATCTGCATCCTTCCTGGTTGCTGAAGCGTC -TGCAAAAAGCGTATCCAGAGCAGTGGCAATCCATCGTCGAAGCCAATAACCAGCGTCCGCCAATGTGGCT -GCGTATTAATCGTACGCATCATTCCCGCGACAGCTGGCTTGCATTGCTGGATGAAGCAGGAATGAAAGGT -TTCCCGCATGCGGATTACCCTGATGCTGTACGTCTGGAAACACCTGCACCTGTTCATGCGCTACCTGGTT -TTGAAGACGGATGGGTTACCGTTCAGGATGCATCAGCACAAGGTTGCATGACCTGGCTTGCGCCACAAAA -CGGTGAACACATTTTGGATCTTTGTGCCGCCCCCGGCGGTAAAACAACGCATATCCTTGAGGTGGCACCA -GAAGCGCAGGTTGTTGCGGTTGATATCGACGAACAGCGCCTCTCTCGGGTTTACGACAATTTAAAACGCC -TTGGTATGAAGGCGACCGTGAAACAAGGTGATGGCCGTTACCCTTCTCAATGGTGTGGCGAGCAACAGTT -TGATCGCATTTTATTAGATGCGCCTTGTTCAGCAACCGGTGTGATTCGTCGCCATCCAGATATTAAATGG -TTACGTCGCGATCGCGATATCCCGGAACTCGCGCAATTGCAGTCTGAAATTCTCGACGCCATTTGGCCGC -ATTTAAAAACCGGTGGAACTCTGGTCTATGCCACCTGTTCGGTGTTACCGGAAGAGAATAGCCTGCAGAT -TAAAGCCTTTTTGCAACGTACCGCTGATGCCGAACTTTGCGAAACAGGAACACCAGAGCAACCGGGTAAA -CAAAATCTACCTGGTGCCGAAGAGGGCGACGGCTTCTTTTACGCTAAGCTAATCAAAAAGTGATGAGATA -ACGGGTCGCGACTGATGAAAATTATCATTCTGGGTGCCGGCCAGGTTGGCGGCACACTGGCGGAAAACCT -GGTTGGCGAGAACAACGATATTACTGTTGTCGATACCAACGGTGAGCGTCTGCGGACCTTACAGGATAAA -TTTGACCTGCGGGTCGTGCAGGGGCATGGCTCTCATCCACGCGTATTGCGGGAAGCAGGTGCCGACGACG -CCGATATGCTGGTTGCTGTAACCAGTTCAGATGAAACCAATATGGTTGCCTGCCAGGTAGCCTACTCACT -TTTCAACACCCCTAATCGCATCGCTCGTATCCGCTCACCAGACTACGTGCGCGATGCCGATAAGCTATTT -CATTCAGATGCTGTGCCGATTGATCATCTGATCGCACCAGAGCAGTTGGTTATCGATAATATTTACCGAC -TGATTGAGTATCCCGGCGCATTGCAGGTGGTGAACTTCGCTGAGGGTAAAGTCAGCCTGGCTGTGGTTAA -AGCCTATTATGGCGGCCCGCTGATTGGTAATGCACTTTCGACCATGCGCGAACATATGCCACATATCGAT -ACTCGTGTGGCAGCAATTTTCCGCCACGATCGCCCCATTCGTCCGCAAGGTTCGACCATTGTTGAAGCTG -GTGATGAAGTGTTCTTTATTGCCGCTTCACAGCATATCCGCGCGGTGATGAGTGAATTACAGCGACTGGA -AAAACCGTATAAGCGGATCATGCTGGTTGGTGGCGGTAATATCGGTGCAGGGCTGGCGCGTCGTCTGGAA -AAAGATTACAGCGTTAAACTCATCGAACGTAATCAGCAGCGCGCTGCCGAACTGGCGGAAAAGTTACAGA -ATACGATCGTCTTTTTTGGTGATGCGTCGGATCAAGAACTACTGGCCGAAGAACATATCGATCAAGTTGA -TCTGTTTATTGCCGTCACCAACGATGACGAGGCCAATATCATGTCCGCCATGCTTGCCAAACGTATGGGT -GCGAAAAAGGTGATGGTATTGATCCAGCGTCGCGCTTATGTGGATCTGGTTCAGGGGAGCGTTATCGATA -TTGCGATTTCACCACAACAAGCAACTATTTCTGCGTTGCTTAGCCATGTGCGAAAAGCAGATATTGTTGG -TGTTTCCTCATTGCGCCGCGGCGTAGCAGAAGCTATTGAAGCCGTTGCTCACGGTGATGAAAGCACCTCA -CGCGTTGTCGGCAGAGTCATTGACGAAATCAAGCTACCGCCAGGAACGATTATTGGAGCGGTGGTACGTG -GAAACGACGTGATGATTGCCAATGACAATCTGCGCATTGAGCAAGGCGATCACGTAATTATGTTCCTCAC -AGATAAAAAGTTTATTACCGACGTCGAAAGACTCTTCCAGCCAAGCCCTTTCTTCTTGTAATTAATAAGG -CGTCTAATGACGCCTTATTATTTCCCTTTGATTATCAAGGATTAATTAAATTCATTCCTGGCAGGAAAAT -GGCTTAACATTTGTTAGACTTATGGTTGTCGGCTTCATAGGGAGAATAACATGAGCATTATTAAAGAATT -TCGCGAATTTGCGATGCGCGGGAACGTGGTGGATTTGGCGGTGGGTGTCATTATCGGTGCGGCATTCGGG -AAGATTGTCTCTTCACTGGTTGCCGATATCATCATGCCTCCTCTGGGCTTATTAATTGGCGGGATCGATT -TTAAACAGTTTGCTGTCACGCTACGCGATGCGCAGGGGGATATCCCTGCTGTTGTGATGCATTACGGTGT -CTTCATTCAAAACGTCTTTGATTTTCTGATTGTGGCCTTTGCCATCTTTATGGCGATTAAGCTAATCAAC -AAACTGAATCGGAAAAAAGAAGAACCAGCAGCCGCACCTGCACCAACTAAAGAAGAAGTATTACTGACAG -AAATTCGTGATTTGCTGAAAGAGCAGAATAACCGCTCTTAACAAGCGCCTGAAAGCAGAAGACCAGTGGT -AAAAAAGTGATTTACTTTCTTGCCACTGGCCTCCCAGTTCCCCCGATTGCCATGTTTTCCTTTTCGCATG -TAACTGCCTTTCCCCTTCTTATTTTTCTCTACGCGCTGTCGGAATAAGGGATCATGTAGTAATGCTTCTA -TCGCATTATCCTTTATCTGCCCTTTAGTATGCTGATATCGACTCATAAAAACTCCAGTTGGTTATTTAAC -GGCGCGAGTGTAATCCTGCCAGTGCAAAAAATCAACAACCACTCTTAACGCCACTCGCCCCTTGTTCAAG -AGCTTCAAGAATCGAACAATAAACACTGCTATGAGCAGTCCCACAACAGGCATCGTTAAGGCGTTGCAAG -GAACGCTGCATACTCTGCAACTCGGCTATCCGTGCTTCGACTTCCTGCAATCTTTCCTGCACAATGCCTT -TTGACTCCTGACAGGTATGGTGTTCAGGATCGATGCGGATCGACAGCAACTCGCGGATCGACTCCAGACT -GAAACCTAGTTGTCTGGCATGGCGGATAAATTTCAATCGCTGGAGATCGCTTTCGGTATATAGGCGAAAC -CCACCTTCAGTACGCACTTCATGCTCCATCATCTGCTGTTTTTCGTAATAACGAATCGTGTCGGGTGTTA -CTTCCGCCATTTTTGCCAGCTCACCAATGCGATACATACATACTCCACTAGTTATCGTTGATTTTGTCCA -ACAACTTGTCAGCATAATCGCCGCGTAAAAAATCGGTACTCAATCCAGCTTGTCGCAGCTTCAATTCCAG -TAATGACAATCGACGGCTAACCTCTTGATATTGCGGATCATCGTGACGGATACCTTTGAGAATATCCAGA -AGCTGAATTGCTTCTCTCCGTTGCTCAAGTTCTGGCGGTAAGCAACCGGCATTCTTCAGCAAGCGATACC -CCGCACGTAATTCCGGTGGCACGTGAGAATCATCATCCAGTATCAATGGTTCGCCGCTACCTGCCAGGTT -ATCAAACTCACCTTTCGCTTGCGCTTCTGCTATATGGCGCTCTGCCCACTGGTCAAGTAACCACATAAAT -ACTCCAGGGGATGAACAAAAAGAGTACAGCTATTGTAGATAAGTGGGGATACTACGGGTATAAAAAAACC -CGCCGGGGCGGGTTTTTTTACGTTGCTTCAGATTACTCTGCAGCAGCTTCTGCTTTCTCTGAACGATCAA -CCAGCTCGATGTAAGCCATCGGCGCGTTGTCGCCTGCACGGAAGCCACACTTCAGAATACGAGTGTAACC -ACCGGCACGGCTCGCGAAACGCGGGCCCAGTTCGTTAAACAGTTTTGCCACGATCTCGTTATCACGAGTA -CGGGCGAATGCCAGACGACGATTAGCAACGCTATCAGTCTTGGCAAGAGTAATCAGCGGCTCAACTACGC -GGCGCAGCTCTTTCGCTTTAGGCAGAGTCGTCTTGATGATTTCATGACGAACCAGTGAACCTGCCATATT -GCGGAACATAGCCTGGCGATGGCTGCTGTTGCGGTTCAGTTGACGACCACTCTTACGATGGCGCATGACC -TTATCCTTCTCAGTAAAACCTTAACCTGTGATCCGGTTACTCGTCAGCGATGCTTGCCGGTGGCCAGTTT -TCCAGGCGCATGCCCAGAGACAGTCCACGGGAAGCCAGCACGTCTTTAATCTCAGTAAGAGATTTTTTAC -CAAGGTTAGGCGTTTTAAGGAGCTCAACCTCGGTACGCTGTACCAGATCACCGATATAGTGGATAGCTTC -TGCTTTAAGGCAGTTAGCAGAGCGGACAGTCAATTCCAGATCGTCAACAGGGCGCAGCAGGATCGGATCG -AACTCTGGTTTCTCTTCTTTCACTTCAGGCTGACGTACATCACGTAAGTCAACGAAAGCTTCCAGTTGTT -CAGCCAGAATGGTTGCCGCACGACGAATCGCCTCTTCAGGATCGATTGTGCCGTTGGTTTCCATTTCGAT -GACCAGCTTGTCCAGGTCGGTACGCTGTTCTACACGCGCTGCTTCAACATTGTAGGCAATACGCTCCACA -GGGCTGTAGCATGCGTCGACCAGCAGACGGCCGATTGGGCGCTCATCTTCTTCCGAATGAATTCGGGTAG -AAGCCGGCACATAACCACGACCGCGCTGAACTTTGATACGCATGCTAATAGACGCGTTCTCATCGGTCAG -GTGGCAGATCACGTGCTGCGGCTTGACGATTTCGACATCACCGTCGTGGGTGATATCGGCTGCAGTCACA -GGGCCAATGCCAGATTTATTCAAGGTAAGAATAACTTCATCTTTGCCCTGAACTCTCACCGCCAGCCCTT -TCAGGTTGAGCAGGATTTCCAGGATATCTTCCTGAACGCCTTCTTTGGTGCTGTACTCATGTAGTACACC -ATCAATCTCAACCTCGGTCACCGCGCAACCCGGCATCGATGAGAGCAGAATACGGCGCAGTGCGTTACCC -AGAGTATGGCCAAAGCCACGCTCTAAAGGCTCAAGGGTCACCTTGGCGTGCGTCGAACTCACTTGCTCGA -TATCAACCAGGCGCGGTTTTAGAAACTCTGTCACAGAACCCTGCATTGTGTCCTCTCTTTGGTACTAAGC -TTTACTTGGAGTAAAGCTCGACGATCAGGTGTTCGTTAATGTCCGCAGACAGATCAGAACGCTCCGGCTT -ACGCTTAAACGTACCTTCCATCTTGCCAGCATCAACTTCCAGCCAGGTTGGCTTTTCACGCTGCTCAGCC -AGCTCCAGAGCGGCTTTCACGCGAGACTGCTTCTTCGCTTTCTCACGAATGCTTACAACGTCATTCGGAC -TAACCTGATAAGAAGCGATGTTAACAACACGACCGTTTACCATAATTGCTTTATGGCTAACCAGCTGACG -TGCTTCTGCACGAGTGGCACCGAAGCCCATACGGTATACAACGTTGTCCAGACGACCTTCCAGCAGAGCC -AACAGGTTTTCACCGGTGTTGCCTTTCAGACGTGCTGCTTCTTTGTAGTAGTTACGGAACTGACGCTCCA -GCACACCATAGATACGGCGAACTTTTTGCTTTTCACGCAACTGCACACCATAGTCAGACAGACGCGGTTT -ACGCGCACCGTGCTGGCCAGGAGCTTGTTCAATTTTACACTTGGTATCGATCGCGCGAACGCCAGACTTA -AGGAATAAGTCGGTGCCCTCACGACGGCTCAGCTTGAGCTTAGGACCCAAATATCTTGCCATTTTCTTTC -TCCAACAAACCTGGAAAACGAGGCGTTATACGCGACGTTTTTTCGGCGGACGACAACCGTTATGAGGGAT -CGGAGTCACATCAGTAATGTTAGTGATGCGGAAACCTGCGGCGTTCAGAGCACGAATAGTAGATTCGCGG -CCTGGACCCGGACCTTTAACCATAACTTCCAGATTCTTGATGCCGTATTCTTTCACGGCGTCAGCGCAAC -GCTCTGCTGCAACCTGAGCTGCAAACGGAGTGGATTTGCGAGAACCACGGAAACCGGAACCACCGGCTGT -TGCCCAACCCAACGCGTTACCCTGACGATCAGTGATAGTCACGATGGTGTTGTTGAAAGAAGCATGGATA -TGAGCCACGCCGTCAGAGACTTGTTTTCTTACACGTTTACGTGCACGAATTGGTGCCTTTGCCATTATTC -AATCACCCCGATTATTTCTTGATCGGTTTGCGCGGACCCTTACGGGTACGTGCGTTGGTCTTGGTACGCT -GACCGCGAACCGGGAGACCACGACGATGACGCAAACCGCGATAGCAACCAAGATCCATCAGGCGCTTGAT -GCTCATGCTGATTTCACGGCGCAGATCACCTTCAACGACAAATTTGGCAACTTCGTCACGCAGCGTGTCG -ATTTGTCCTTCAGACAGCTCACTGATCTTAACATCTTCAGCGATACCCGCTGCAGCCAGGATGGCTTTAG -AACGGGTCTTGCCGACGCCATAAATCGAAGTTAATGCGATTACGGCATGCTTATGATCAGGAATGTTAAT -GCCTGCTATACGGGCCACTATGCACTCCTACTATTTAATATGTACGTTCCATGCTGAAAAGCCCGTTTTC -AGGATACTCAAATGGAAACGCACAGACATACAAAAGATTGGCTGGCTAATCTAGCCAGCTCAACCCAACT -TTGCAAGAAAAATATGCGAAAAAATCAGCCTTGGCGCTGTTTATGCTTCGGCTCGGCACTGCAAATCACA -CGGATGACACCATCACGCTTAACGATTTTGCAGTTACGGCATAATTTCTTGACGGAAGCACGAACTTTCA -TTTTTACTCTCCGTAACTTCTCGGGCGACCAATTATCGGCCGTAGCCTTTCAGGTTCGCCTTCTTCAATG -CAGACTCATACTGACTGGACATCATCAGAGTTTGCACTTGAGCCATAAAGTCCATAATCACGACAACAAC -GATAAGCAGTGAGGTCCCACCGAAGTAGAACGGTACTTTCATTGCATCACGCATGAACTCCGGGATCAGG -CAGATAAAGGTAATATACAGCGCACCAACCAGGGTCAGGCGGGTCATTACTTTATCGATATACTTCGCCG -TTTGCTCTCCCGGACGAATTCCTGGTACAAATGCACCGGACTTCTTCAGGTTATCTGCTGTTTCACGCGG -GTTGAAAACCAACGCCGTGTAGAAGAAACAGAAGAAGATGATTGCAGACGCATAGAGTAACACATAAAGC -GGTTGCCCAGGCTGCAAATACAGCGAAATTGTTGTCAGCCAGTTCCAACCAGTACCGCCCCCGAACCATG -ACGCGATGGTCGCCGGGAACAGAATAATACTGGAAGCGAAGATTGCCGGGATTACCCCCGCCATATTCAC -TTTCAGCGGTAAATGTGTGCTCTGTGCAGCATAGACACGACGACCTTGCTGACGTTTCGCGTAGTTTACC -ACAATGCGGCGTTGACCACGCTCAACAAATACAACAAAGAACGTCACTGCAAATACTAATACTGCAACCA -ACAGCAACACGAGGAAGTGCAGGTCGCCTTGACGCGCTTGCTCGATAGTATGGGCAATGGCTGGCGGGAG -TCCCGCGACAATACCGGCGAAGATAATGATTGAAATACCGTTGCCGATACCTCGTTCAGTAATCTGTTCG -CCCAACCACATCAGGAACATGGTTCCTGTGACCAGACTTACAACAGCGGTGAAGTAGAATGCAAAGCCCG -GGTTAATCACCAGGCCTTGCATACCAGGCATATTCGGCAGACCGGTAGCAATACCGATCGACTGGAATAT -TGCCAGCACCAGAGTACCGTAGCGGGTGTACTGGCTGATCTTACGACGACCAGACTCCCCTTCTTTCTTA -ATTTCTGCCAACGTTGGGTGAACCACCGTCAGCAGCTGGATAATGATCGACGCCGAAATATACGGCATGA -TCCCCAGAGCAAAGATAGAAGCACGGCTGAGAGCACCACCAGAGAACATGTTAAACATCTCAATGATGGT -GCCTCGCTGTTGCTCAAGCAGTTTGGCAAGTACAGCGGCATCAATACCAGGGATCGGAATAAAAGAGCCA -ATACGGAACACAATCAGCGCACCGATAACAAACAGCAGTCTGCGTTTCAGCTCGCCTAAGCCACCTTTGG -CACTTTGAAAATCTAATCCCGGTTGTTTAGCCATCTGCTACTTATTCCTCGATTTTACCGCCAGCAGCTT -CGATAGCAGCACGAGCGCCTTTAGTAACACGCAGGCCACGAACAGTTACCGGAGTCGTTACTTCGCCAGC -CAGGATCACTTTCGCGAACTCGATCTGGATACCGATAATGTTAGCCGCTTTCAGCGTGTTCAGGTCTACT -ACACCGCCTTCTACTTTAGCCAGGTCAGACAGACGAATTTCGGCTGTAATCGCTGCTTTACGAGAAGTGA -AGCCGAATTTCGGCAGACGACGGTACAGAGGCATCTGACCACCCTCGAAACCGCGACGTACGCCACCGCC -AGAACGAGACTTCTGACCTTTGTGACCACGACCACCGGTTTTACCGAGGCCAGAACCGATACCACGACCC -AGGCGTTTACCCGCCTTTTTGGAGCCTTCGGCCGGAGACAGAGTATTTAAACGCATCTCTTACTCCTCAA -CTTTAACCATGAAGGAAACCGCGTTGATCATACCGCGAATAGCAGGAGTATCCTCGCGCTCTACGGTGTG -ACCAATACGACGCAGACCCAGGCCAAGCAGCGTTGCCTTGTGTTTCGGCAGACGACCGATTGCACTGCGG -GTTTGAGTAATTTTAATAGTCTTTGCCATGGTTTATTTCCCCAGAATTTCTTCAACGGATTTACCACGCT -TGGCAGCGACCATTTCTGGAGAATTCATATTTTCCAGGCCATCAATAGTTGCACGAACCACGTTGATCGG -GTTGGTGGAACCATAGGCTTTAGCCAGAACGTTATGAACCCCAGCGACTTCCAGAACGGCGCGCATTGCA -CCACCGGCGATGATACCGGTACCTTCGGAAGCCGGCTGCATGAATACGCGAGAACCCGTGTGAACACCTT -TAACAGGGTGTTGCAGAGTGCCGTTATTCAGCGCGACGTTAATCATATTGCGACGGGCTTTTTCCATCGC -TTTCTGGATCGCTGCTGGAACTTCACGCGCTTTACCGTAACCAAAACCAACGCGACCGTTACCATCGCCA -ACTACAGTCAGAGCTGTGAAGGAGAAAATACGACCACCTTTAACGGTTTTAGATACGCGGTTTACCGCGA -TCAGCTTTTCCTGCAGTTCGCCAGCTTGTTTTTCGATGTGAGCCATCTTACACCTCTACCTTAGAACTGA -AGGCCAGCTTCACGGGCAGCATCTGCCAGTGCCTGGACACGACCATGATATTGGAACCCGGAACGGTCAA -AGGATACATCTTTGATGCCTTTTTCCAGAGCGCGTTCAGCGACAGCTTTACCCACAGCTGCAGCCGCGTC -TTTGTTACCGGTGTACTTCAGTTGTTCAGCGATAGCTTTTTCTACAGTAGAAGCAGCTACCAGAACTTCA -GAACCGTTCGGTGCAATTACCTGTGCGTAAATGTGACGCGGGGTACGATGTACCACCAGGCGAGTTGCGC -CCAGCTCCTGGAGCTTGCGGCGTGCGCGGGTCGCACGACGGATACGAGCAGATTTCTTATCCATAGTGTT -ACCTTACTTCTTCTTAGCCTCTTTGGTACGCACGACTTCGTCGGCGTAACGAACACCCTTGCCTTTATAA -GGCTCAGGACGACGGTAGGCGCGCAGATCCGCTGCAACCTGGCCGATCACCTGCTTATCAGCGCCTTTCA -GCACGATTTCAGTCTGAGTCGGACATTCAGCAGTGATACCCGCAGGCAGCTGATGGTCAACAGGATGAGA -GAAACCCAGAGACAGGTTAATCACATTGCCTTTAACCGCTGCACGGTAACCTACACCAACCAGCTGCAGC -TTCTTAGTGAAGCCTTCGGTAACACCGATAACCATTGAGTTCAGCAGGGCACGCGCGGTACCAGCCTGTG -CCCAACCGTCTGCGTAACCATCACGCGGACCGAAGGTCAGGGTATTATCTGCATGTTTAACTTCAACAGC -ATCGTTGAGAGTACGAGTCAGCTCGCCGTTTTTACCTTTGATCGTAATAACCTGACCGTTGATTTTTACG -TCAACGCCGGCAGGAACAACGACCGGTGCTTTAGCAACACGAGACATTTTTTCCTCCGATTAGGCTACGT -AGCAGATAATTTCGCCACCAAGACCAGCCTGGCGCGCTGCACGATCAGTCATAACACCTTTAGAGGTAGA -AACAACTGCGATACCCAGACCCGCCATAACTTTCGGCAGCTCATCTTTACGTTTATAGATGCGCAGACCT -GGGCGGCTGACACGCTGAATGCTTTCTACAACAGCTTTGCCCTGGAAATACTTCAGAGTAAGTTCCAGTT -CAGGCTTGGTGTCGCCTTCAACTTTAAAATCTTCAATAAAACCTTCTTCCTTCAGCACGTTGGCGATTGC -CACTTTCAGCTTGGAGGAAGGCATGGTGACCGCAGCTTTGTTCGCGGCCTGACCGTTACGGATACGGGTC -AGCATATCCGCGATCGGATCTTGCATGCTCATCTGTCTTTACTCCCGTGATTCAATTGGTGACAATTACC -AGCTAGCCTTTTTCAGACCCGGGATTTCACCGCGCATAGCGGCTTCACGGACCTTAATACGGCTCAACCC -GAACTTCCGCAGGAAACCATGCGGACGACCTGTTTGACGGCAGCGGTTACGCTGACGAGACGGGCTGGAA -TCACGCGGCAGAGTCTGCAGCTTGAGAACAGCGTTCCAACGATCTTCGTCGGAAGCGTTCACATCAGAGA -TGATCGCTTTCAGTTCAGCGCGTTTCGCGAAGTATTTATCAGCTAAAGCTACGCGTTTTACTTCGCGTGC -TTTCATTGATTGCTTAGCCATTTAGTAACCCTACCTTACTTGCGGAACGGGAAGTCAAAGGCAGCCAGCA -GAGCGCGGCCTTCTTCGTCAGATTTCGCAGTAGTGGTAATGGTAATATCCAAACCACGAACGCGGTCGAC -TTTATCGTAGTCGATTTCTGGGAAGATGATCTGCTCACGGACACCCATGCTGTAGTTACCACGACCGTCG -AAAGACTTAGCGGACAGGCCACGGAAGTCACGGATACGAGGTACAGCAATAGTGATCAGGCGCTCAAAGA -ACTCCCACATGCGTTCGCCACGCAGAGTTACTTTACAGCCGATCGGATAGCCCTGACGGATTTTGAAGCC -TGCAACAGATTTGCGTGCTTTGGTGATCAGCGGTTTTTGACCGGAGATTGCTGCCAGGTCTGCTGCTGCG -TTATCCAGCAGTTTTTTGTCAGCGATCGCTTCACCAACACCCATGTTCAGGGTGATCTTCTCGACCCGAG -GGACTTGCATGACAGAATTGTAGTTAAACTCAGTCATGAGTTTTTTAACTACTTCGTCTTTGTAGTAATC -ATGCAGTTTCGCCATCGTACTACTCCAAATTACTTGATAGTTTCGCTGTTAGACTTGAAGAAACGGACTT -TTTTACCGTCTTCGAATCTAAAGCCTACACGGTCAGCCTTGCCGGTTGCCGCATTGAAGATTGCTACGTT -GGAAACCTGAATAGCGGCTTCTTTTTCAACGATGCCACCCGGTTGGTTCAGGGCCGGAACCGGCTTCTGA -TGTTTCTTAACCAGGTTGATACCTTCAACAATGACCTTGCCGGAAGACAGGACATTCTTAACTTTACCGC -GTTTACCTTTATCTTTACCGGTTAACACGATAACTTCGTCATCACGACGGATTTTCGCTGCCATGATTCG -CTCCTTAGAGTACTTCTGGTGCCAGAGAGATAATTTTCATGAACTTCTCACTACGAAGCTCACGAGTTAC -CGGCCCAAAAATACGCGTACCGATAGGCTGCTCGCTGTTGTTGTTCAGAAGAACACAAGCATTACCATCG -AAGCGAATGACAGAACCGTCCGGGCGACGAACACCCTTCTTGGTGCGCACCACTACCGCCTTCAGCACAT -CACCTTTTTTGACCTTACCACGCGGAATTGCTTCTTTGATGGTGATCTTGATGATGTCGCCTACGCCTGC -GTAGCGACGGTGCGAGCCACCCAGAACCTTGATACACATTACGCGACGTGCACCGGAGTTGTCGGCGACG -TTCAGCATAGTCTGTTCTTGGATCATTTTAGTGCTCCGCTAATGTCAACTACTACTGAGACCCGAAAATC -AGGTCGTTAAAAATCCCCATATCGAGGGCGCGGCATTATAACACCGCTTCAAGGATATGGGTAGAAAAAA -TAAACGGCTCATTTCTGAGCCGTTTATTCGTATTGAGAGAGTGTACTGTATTACAGAACCGCTTTCTCTA -CAACGCGAACCAGCGTCCAGGATTTAGTCTTGGACAGCGGACGGCATTCGCGGATTTCAACCACGTCACC -GATACCGCATTCGTTGTTCTCGTCATGTACGTGCAGTTTGGTCGTACGCTTGATGAATTTACCGTAGATC -GGGTGTTTCACAAAACGTTCGATAGCAACAACAATGGATTTCTCCATTTTGTCGCTAACAACGCGACCTT -GCAGAGTACGGATTTTATCGGTCATTACGCACCCGCCTTCTCGTTCAGTAAAGTCTTAACGCGTGCGACA -TCGCGACGCACTTGCTTCAACAGGTGAGACTGTTGCAGCTGGCCACTTGCAGCCTGCATACGCAGGTTGA -ACTGCTCACGCAGCAGGTTCAGCAGCTCGGTGTTCAGCTCTTCAACGCTCTTCTCACGCAGCTCTTTTGC -TTTCATTACATCACCGTCTTAGTTACAAAGGTGGTTTTAATCGGCAGTTTCGCTGCTGCCAGCTTGAATG -CTTCACGGGCCAGCTCTTCCGGAACACCGTCCATTTCATACAGGACTTTACCCGGCTGAATCAAGGCAAC -CCAATACTCCACGTTACCTTTACCTTTACCCATACGCACTGCCAGCGGCTTTTCAGTGATCGGTTTGTCC -GGGAACACACGGATCCAGATCTTACCTTGACGCTTAACTGCACGGGTCATAGCACGACGTGCTGCTTCGA -TCTGACGGGCAGTCAGACGACCACGGCCAACAGCTTTCAGACCGAAGCTGCCGAAGCTAACATCCGTACC -CTGCGCCAGACCGCGGTTACGGCCTTTGTGCATTTTACGGAATTTTGTACGCTTTGGTTGTAACATCAGC -GACGCTCCTTATTTACGGCCTTTACGCTGCTGCTTTTTAGGCTGAGCAGCCGGTTTTTCCGGTTGTTCAA -CAGCAGCCATACCACCCAGGATCTCGCCTTTGAAGATCCACACTTTAACGCCGATTACACCGTAAGTGGT -GTGCGCTTCAGAGGTGTTGTAGTCGATGTCAGCACGCAGAGTGTGCAGCGGTACGCGACCTTCGCGGTAC -CATTCGGTACGTGCGATTTCCGCGCCGCCCAGACGGCCGCTAACTTCAACTTTAATACCTTTAGCGCCCA -GACGCATTGCGTTCTGTACAGCACGCTTCATAGCACGACGGAACATAACGCGACGTTCCAGCTGAGAAGT -GATGCTGTCAGCAACCAGTTTTGCGTCCAGTTCAGGCTTACGAACTTCGGCGATGTTGATCTGTGCAGGA -ACGCCAGCGATGTCCGCTACGACCTTACGCAGTTTTTCTACGTCTTCACCTTTTTTACCGATAACGATAC -CCGGGCGAGCAGTGTGAATGGTTACACGGATGCTCTTAGCCGGACGCTCGATAACGATACGAGATACGGA -CGCTTTAGCCAGTTCCTTAGTCAGGTACTGACGTACTTTAAAATCACTGTCCAGGTTGTCAGCGAATTCT -TTGGTGTTCGCAAACCAGGTAGAGTTCCATGGTTTTACAATACCCAGGCGAATACCATTAGGATGTACTT -TCTGACCCATTGCTAGTCTCCAGAGTCTCAGCGATCGGACACAACCACAGTGATGTGGCTGGTGCGCTTC -AGGATGCGATCTGCACGACCTTTTGCACGCGGCATAATGCGCTTCATGCTCGGGCCTTCGTCTACGAAAA -TTTTCGTAACTTTCAGATCGTCAATGTCAGCGCCATCGTTGTGTTCAGCGTTAGCAATGGCAGATTCCAG -AACTTTCTTGACCAGTACAGCCGCTTTCTTGTTGGTGTAGGTCAAAATATCCAGAGCCTGCGACACTTTC -TTACCGCGAATCAGGTCAGCAACAAGGCGAACCTTCTGAGCAGAAGAACGAGCATGGCGATGTTTAGCGA -TAGTTTCCATCTCTTCCTCCTACCTTATTTCTTCTTCGCTTTTTTATCAGCAGCGTGGCCGCGATAAGTA -CGAGTCGGTGCGAATTCACCCAGTTTGTGACCAACCATTTCGTCGGTTACAAATACCGGAACGTGCTGAC -GACCATTATGGACAGCGATGGTCAAACCGATCATGTTAGGAAAGATCGTTGAACGACGGGACCAAGTGCG -CAGGGGCTTCTTGTCTCCGCTTTCCACCGCTTTCTCTACCTTCTTCAGCAAGTGCAGGTCAATAAAAGGA -CCTTTCTTGAGAGAACGTGGCATGGCTTATCCTCTAAAATTATTTGCTACGGCGACGTACGATGAATTTA -TCAGTACGCTTGTTGCTGCGGGTCTTCTTACCTTTGGTCTGAACGCCCCACGGAGTTACCGGGTGCTTAC -CAAAGTTACGACCTTCACCACCACCATGTGGGTGGTCTACCGGGTTCATCGCGGTACCGCGAACGGTCGG -ACGAACACCACGCCAGCGTGCAGCACCTGCTTTACCCAGAACGCGCAGCATATGCTCAGCATTGCCAACT -TCGCCCAGAGTTGCACGGCAGTCTGCTTCTACTTTACGCATTTCACCAGAACGCAGACGCAGGGTGACAT -AAGCACCATCACGAGCAACGATCTGAACGTAAGTACCAGCGGAACGTGCCAGCTGACCGCCTTTACCTGG -TTTCATTTCTACGTTATGAACAGTAGAACCAACCGGGATGTTGCGCATCGGCAGGGTGTTACCTGGTTTG -ATTGCAGCATCAACGCCAGACTGAATCTGGTCGCCAGCTTTCAGGCCTTTAGGGGCCAGGATGTAACGGC -GTTCACCGTCTTTGTACAGAACCAGCGCGATGTTCGCGGAACGGTTCGGATCGTACTCAAGACGTTCAAC -AACTGCCGGGATACCGTCTTTGTTGCGTTTGAAGTCAACAATACGGTAAGCCTGCTTGTGGCCACCACCG -ATATGACGAGTGGTGATACGGCCATTGTTGTTACGACCACCGGATTTGCTGTTTTTTTCCAGCAACGGAG -CAAAAGGTTTGCCCTTGTGCAGCTCAGGGTTAACCACTTTAACTACGTGGCGACGACCCGGAGATGTCGG -TTTACATTTAACAACTGCCATTGTATTACTCCTCCGACTTACTCAGCGCCGCCAACGAAGTCCAGATTCT -GGCCTTCTTTCAGGGTGACGTAAGCTTTTTTCCAGTCGCTACGACGACCGATACGCTGTCCGTGACGTTT -AACTTTCCCTTTAACTACCAGGGTGTTAACGACTTCGACTTCGACTTCAAACAGTTTCTGCACAGCAGCT -TTGATTTCTGCTTTGGTCGCGTCTTTAGCAACTTTGAGTACGATGGTGTTGGATTTTTCCATCGCAGTAG -ACGCTTTTTCAGAAACGTGCGGTGCACGCAGCACCTTCAGCAGACGTTCTTCACGAATCATGCCAGCATC -TCCTCAACTTGCTTAACAGCATCAGCAGTCATTACGACTTTGTCGAAGGCGATCAGGCTAACCGGGTCGA -TACCAGTTGCATCGCGTACGTCAACCTTGTGCAGGTTGCGCGCAGCCAGGAACAGGTTTTCGTCCAGCTC -ACCGGTGATGATCAGCACATCTTCCAGAGCCATGTCTTTCAGTTTCTGTGCCAGCAGCTTAGTTTTCGGC -GCTTCTACAGAGAACTTCTCGACAACGATCAGACGATCCTGACGTACCAGTTCGGACAGGATGCTTTTCA -GCGCGCCGCGGTACATCTTCTTGTTAACTTTTTGACTGTGGTCCTGCGGACGAGCAGCAAAGGTCACGCC -ACCAGAACGCCAGATCGGGCTCTTGATAGAACCAGAACGCGCACGGCCGGTGCCTTTCTGGCGCCACGGT -TTTTTACCGGAACCAGTTACTTCAGCACGAGTCTTCTGAGCACGAGTACCCTGACGAGCACCAGCTGCAT -AAGCAACAACAACCTGGTGAACCAGCGCTTCGTTGAAATCACGACCGAAGGTAGTTTCGGAAACAGTCAG -CGCGCTCTGCGCGTCTTTCAATACTAATTCCATTGCTATCTCCTTACGCCTTCACAGCTGGTTTAACGAT -CAGGTCGCTACCGGTTGCACCCGGGACAGCACCTTTAACCAGCAGCAGGTTGCGCTCAGCGTCAACGCGT -ACTACGTCAAGGCTCTGAACGGTTACACGTTCGTTACCCATCTGACCTGCCATTTTCTTGCCTTTGAACA -CTTTGCCCGGAGTCTGGTTCTGACCGATAGAACCCGGAACGCGGTGAGACAAGGAGTTACCGTGAGTAGC -GTCCTGGGTACGGAAGTTCCAGCGCTTAACGGTACCTGCGAAACCTTTACCTTTAGAGGTGCCAGTTACG -TCAACTTTTTTAACGTCAGCAAACAGTTCAACGCTAATGCTCTGACCTACAGTGAACTCTTCGCCTTCAG -CCAGGCGGAATTCCCACAGACCACGGCCAGCTTCTACGCCAGCTTTAGCGAAGTGGCCAGCTTCAGGCTT -GGTCACACGGTTAGCTTTTTTAGCACCGGTGGTCACCTGAATAGCACGGTAGCCATCGTTAGCCAGGTCT -TTAACCTGAGTAACGCGGTTTGCTTCAACTTCGATTACGGTTACTGGGATAGAAACGCCGTCTTCTGTGA -AGATACGGGTCATACCCACTTTTTTACCGACTAAACCAATCATTGTTTCAACCTCTCAATCGCTCAATGA -CCTGATTAACCCAGGCTGATCTGCACGTCTACACCGGCAGCCAGATCCAGACGCATCAGAGCATCAACGG -TTTTCTCGGTTGGCTCAACGATGTCAACCAGACGCAAGTGAGTACGGATTTCGTACTGATCGCGCGCGTC -TTTGTTGACGTGCGGGGAGATCAGAACAGTGAAGCGCTCTTTGCGTGTCGGCAGCGGGATCGGACCACGG -ACCTGCGCACCAGTGCGCTTGGCAGTCTCGACGATTTCCGCGGTTGCTTGATCGATCAGACGATGATCAA -ACGCTTTCAGGCGGATACGGATTCTTTGGTTCTGCATGAGACCAGAGCTCCAATTATTTTATAAACGAAA -ATGATTACTCCTCAGACCCATTACGATTGATGGGAGAGTGTAACCGTTCTTACGTAGCTCCCCGATTGGG -AGCATTGTTAGGTAGCCAAATTCGGCTAACTGAGGTTCAGATTGAACCTGCTGTCAACTACGACAAGCCC -GCGCATTATACATACTTAACCACCGAACGCAAGCGTATTGCTAGTAAAGTAAACAGCCTTCGGGTTATCT -CTCAAGTTCGTTCAGTGCATTTTTGACACGCTCTCTTAAACCGGCTTTCTCTTCGCTTTCTTCCACAGTA -TTTTCTTCGTCTTCAGAAGAAGAGGGGGCATTCTCAACCGCGACGCCTGGGTCATCTTCCTCCTCGACGG -ATTCGACGACGGGGAGTGGCTGTTTTTTGAAGAAATAGTGTTGTGTTGATTGTTTAAAAGCGGGCGTTTC -AGCCTCTACAGTGACTTCGGCTTTTACTATCCAAAGCACCCATAGCTGCCTGGCATACCCACCAACCAGC -ACCATTCCTGCAAACCACAGGCAAATCAGTAATAAACAAATTACATATATTATGGTGCTGTGTTTTTGTC -GGGAGAAGATACCAGGGTGACCTGTTTCTTTCTGCTCACGCGCGGCGATATAGAATTCAAACATGTCATT -TCCCCTTCACTGTTGTTTCCGGGGAAATATTTGCTTCATCCCGATATAAGTAGGCACTCTCCCCTGCCAC -CTGCCAGAGATGTACTAACGTTGAAAAGCCAACAACACCGTCAGTTTTCAAGTGGTGGCTTTTTTGAAAT -TGCTTTATTTTTTCTACCAACAAGGGACGCCACTCCGCCGAAGGTTCTGTCGAAATATGCAATGCGCGGT -TTAACATCGTTTCCAGCCAGAGAATCTCTTCCTCGCTGCTATCACGCGTAATGGTACTCTCCCCTTCCGG -CGACATTTTCCACAACAGAAGATAATCACCCGTCCATACCGACTCAAACCATTTATGTGTCAGCGTCCAC -GTTTGCTGACCTACGAGGACATCAACGCTAGCCTCACCGACGCGAACGACCACAACAGGCAATTTTTTGT -CCCCGACTTTAAGCGATGCGATCCAGGGCAAATTCTGATCTACCAATGTTTGTAAAGAAGCATTCCCACT -TTTACATGCCAGCCCCGCTCTTACTGCCTGATCGCACCAGGCCGAATCAGCTGGGACCTCGTACCCCCAT -ACGCCGTATAACACGCTTAGCGCCTCACTATCGCGCATCACCACATGAGCAATATCCTTAGTCATATCTT -GTTTAACTACTGGCGTTACGGGTATCAGCCACGCAGGAACGGGTAACGTAGCTGTAAAAGAGGACAGCAG -TAGCCAACCACAGGTAAGAGCGATAATGGTTCCACTCATCACCACGGCAAGCTGCATTTTCCGGGGGCGG -TTATCACCCAATATGCGGTAAATCATTCGCCATTGTTTTGCTGTGAAAACGCTGGTCTGCTCGGCTTGCT -GTAATAAGCGAATTGTTTCGCCGGCAAGCGCCAGCTTTCTGCGATCGCCCCGACATAATAAAGCTATCCG -TTTCAGAACTCTGGCGGTTAAAAGGAGATCGGGTTGGTCAATATTCTGACCTTCAAGGATGCTTGCCTTA -AGTTCGTGCTCCGTCAGACGTCCTATCGAGACAAGTTCAATGCCCTGTTTTTTAAAATCACGTTCGACTT -TTCGATCGGGTCTGCCGATCAGCAAAAATTGACCGTCAGGAATAAGAGATATTGCGCGTTGGAGATCATC -AAGTATGCGGCGGTGATTCAGGTGAGCATTTTCAATAATAATAAGAGGGCAGCGACTATCAGTTCGATGA -AGCGCATGCAGTAATTGCCCCGCCATCTCATCTCGCGTCCAGGCGCTGTCACGGCAGCCCTGTTCAGCCG -CGTTATCGTCGGTAACGATCCATGCGGCCTTACCTTGCCAGGAAACAACGAGGCTTAAAGTAATCACACG -GCGATGTTTATCTTTTTGCAGTTGCTGCGCCAGCCAGGTTTTTCCACTTCCAGCCTCACCCAACAAATAG -CATAGACGCCAGGTTTGACGTTTCTCACACAACCAGGAAAGAATAACTTCTCTTCTCGTAGACATAGAAC -TTCCTGTTTTAATTATTGATTATCCTTAATCATAAAAATAATGTATGTATTTATTAATTAAATACATATT -ACTAATATAAATAAATTTTGCTTGATTCATGCAAGCGGCATTAATACTATTTATACTAACGTCAATATAC -AACCCACCCAATCTATTTTATTAGAACATACATCGTGCCCACACTACGTTTCCCCTTCCATCTGGCGAAT -CATAATAAAGATGCTGCCATCAATATATTGATTATATTTATAAGCATAGGGTCGATTATTTTTAATGTGA -ATTATTTCCATACAACTATAGTTAAAAATGGACAGATCATTAATCAACCAACAAACGCATTTCAGTCTGA -TTTCAGCCTTGCCGCTTTATGGCGTAACGAAAATCATGCTGGGGTAAAAGATGCAAATCCCGTGGCAGTT -AATCAGGAAACACCTAAGCTCTCTATAGCGCTTAATGGCATTGTACTCACATCGAATGATGAGACTTCTT -TTGTCTTAATTAATGAGGGGAGCGAACAAAAGCGATACTCCCTCAACGAAGCCCTTGAGTCAGCGCCGGG -AACGTTTATTAGAAAAATAAATAAAACCAGCGTTGTGTTTGAAACTCACGGGCATTACGAAAAAGTAACT -CTCCATCCAGGGCTACCTGACATCATCAAGCAGCCTGATTCAGAAAGTCAAAATGTACTCGCTGATTATA -TTATCGCCACGCCTATACGTGATGGAGAACAGATATACGGGCTTCGATTGAACCCTCGTAAGGGCCTCAA -TGCATTTACCACCAGCTTGCTACAACCAGGGGATATCGCCCTCAGGATCAATAATCTTTCGCTGACCCAC -CCTGATGAGGTTTCACAGGCATTAAGTTTACTGCTAACTCAACAAAGTGCTCAGTTTACAATTCGTCGCA -ACGGCGTACCCCGCTTGATAAATGTTTCCGTCGGGGAACTTACAGGAATGAATGGACTGCGTCATGAAAG -GACTCAATAAAATCACCTGCTGCTTGCTGGCAGCACTACTCATGCCTTGTGCAGGACACGCTGAGAACGA -ACAATACGGCGCGAACTTCAATAACGCCGATATCCGCCAGTTCGTGGAAATAGTGGGTCAGCATCTTGGC -AAAACGATCCTGATCGACCCTTCGGTACAGGGAACCATTTCCGTACGCAGTAATGATACGTTTAGCCAAC -AGGAGTACTACCAGTTCTTTTTAAGTATTCTTGATCTTTACGGTTATTCCGTGATCACGCTGGACAATGG -TTTTCTGAAAGTGGTTCGCTCAGCTAATGTAAAAACATCGCCAGGGATGATTGCTGACAGTTCTCGTCCA -GGCGTAGGTGATGAGTTGGTCACCCGAATTGTACCGCTTGAGAACGTTCCTGCTCGTGACCTGGCCCCCC -TGCTCCGCCAGATGATGGATGCGGGTAGCGTCGGTAATGTTGTGCATTATGAACCCTCCAACGTTCTTAT -TCTGACCGGTCGTGCCTCCACCATTAATAAACTGATTGAAGTCATAAAGCGCGTTGATGTCATCGGCACA -GAGAAGCAGCAAATTATTCATCTGGAATATGCGTCAGCGGAAGATCTCGCCGAGATTCTTAATCAATTAA -TCAGCGAAAGCCACGGTAAAAGCCAGATGCCAGCCCTCCTCTCCGCGAAGATTGTGGCGGATAAGCGAAC -CAACTCTCTTATCATCAGTGGACCGGAAAAAGCACGCCAGCGCATCACTTCATTACTGAAAAGCCTTGAT -GTCGAAGAGAGCGAGGAAGGAAATACCCGGGTTTATTACCTGAAATATGCTAAAGCCACGAATCTGGTGG -AAGTGCTAACCGGTGTTTCCGAAAAGCTGAAAGATGAAAAAGGGAATGCGCGTAAGCCCTCCTCTTCTGG -CGCGATGGATAACGTCGCCATTACCGCCGATGAACAGACTAACTCTCTGGTCATTACCGCTGACCAGTCC -GTCCAGGAAAAACTCGCCACGGTAATTGCGCGTCTGGACATTCGCCGTGCACAGGTGCTGGTTGAGGCAA -TCATCGTTGAAGTTCAGGATGGAAATGGACTAAACCTCGGCGTGCAATGGGCGAATAAAAACGTTGGCGC -ACAGCAATTTACCAATACCGGATTACCGATTTTTAACGCTGCGCAAGGTGTGGCTGATTATAAAAAGAAT -GGTGGGATCACCAGCGCGAATCCTGCCTGGGATATGTTTAGCGCCTACAATGGCATGGCCGCAGGCTTCT -TCAATGGCGACTGGGGAGTACTGCTTACCGCGCTGGCCAGTAACAATAAAAATGACATCCTCGCCACCCC -AAGCATCGTAACGCTGGATAATAAACTCGCGTCCTTCAACGTGGGGCAGGATGTGCCGGTGCTATCCGGG -TCACAGACCACTTCAGGGGATAACGTCTTTAATACCGTCGAACGCAAAACGGTGGGGACAAAACTCAAAG -TTACTCCGCAGGTCAATGAAGGCGACGCGGTGTTGCTCGAAATAGAGCAGGAAGTCTCCAGCGTTGACTC -TTCCTCTAACTCGACGCTCGGCCCGACGTTTAATACCCGTACTATTCAAAACGCCGTGCTGGTCAAAACC -GGTGAAACGGTGGTCCTGGGCGGATTGCTGGATGATTTTTCTAAAGAGCAAGTGTCAAAGGTTCCTCTGC -TTGGCGATATTCCTTTAGTGGGGCAACTCTTCCGCTATACCTCCACCGAGCGCGCTAAACGCAACCTGAT -GGTATTTATCCGTCCGACGATTATCCGTGACGATGATGTTTATCGCTCACTGTCAAAAGAGAAATACACC -CGTTACCGTCAGGAGCAACAACAGCGGATCGACGGGAAATCAAAAGCGCTGGTTGGCTCGGAAGATTTGC -CGGTGCTGGATGAAAACACGTTCAACAGTCACGCCCCTGCGCCATCGTCACGGTGAGGCATTCATATGAG -AATTCACTCACCGTACCCCGCCAGTTGGGCGCTGGCACAACGAATTGGTTATCTCTATTCAGAGGGCGAG -ATTATTTATCTCGCCGATACGCCATTCGAGCGGTTACTCGATATTCAACGTCAGGTTGGCCAGTGCCAGA -CCATGACCAGCTTGTCACAGGCTGATTTTGAAGCTCGGCTGGAAGCGGTATTCCATCAGAATACCGGTGA -GTCGCAACAGATTGCGCAGGATATCGATCAATCCGTCGATCTTCTCTCGCTTTCGGAAGAGATGCCCGCA -AATGAAGATCTCCTGAATGAAGATTCAGCGGCACCGGTTATCCGCTTGATCAATGCGATTTTGAGTGAGG -CCATCAAAGAAACCGCCTCTGATATCCACATTGAAACCTATGAAAAAACAATGTCGATCCGTTTTCGCAT -CGACGGCGTTTTGCGGACAATTTTACAGCCAAACAAAAAACTGGCGGCACTGCTTATCTCCCGAATTAAG -GTCATGGCTCGTCTTGATATCGCCGAAAAACGTATTCCACAGGATGGAAGAATTAGTTTGCGTATCGGGC -GACGTAACATAGATGTCCGCGTATCCACACTGCCGTCCATCTATGGTGAACGCGCCGTACTCCGCCTGCT -GGATAAAAACAGCCTCCAGCTTTCATTGAACAACCTGGGGATGACGGCAGCGGATAAGCAGGATTTAGAA -AATCTCATTCAGCTTCCGCACGGTATTATCCTGGTGACAGGGCCGACAGGCTCCGGTAAAAGCACCACGC -TCTACGCCATCCTTTCGGCGCTGAATACTCCCGGCCGCAATATTCTGACGGTAGAAGATCCCGTGGAATA -TGAGCTGGAAGGCATTGGGCAAACGCAGGTGAATACCCGTGTGGATATGTCTTTCGCTCGCGGCCTGCGC -GCCATACTTCGCCAGGACCCGGATGTCGTCATGGTGGGGGAAATTCGTGATACAGAAACCGCGCAGATTG -CGGTTCAGGCCTCGCTCACCGGCCATCTGGTACTCTCAACACTCCACACTAACAGTGCATCAGGCGCAGT -GACCCGGCTCCGCGACATGGGCGTCGAATCATTCCTGCTTTCGTCTTCCCTGGCAGGGATTATCGCGCAA -CGTCTGGTTCGTCGCCTGTGTCCGCAATGCCGACAATTCACGCCCGTATCACCCCAACAAGCGCAGATGT -TTAAATATCATCAGCTCGCGGTGACAACAATTGGCACTCCCGTAGGCTGCCCTCATTGCCATCAATCCGG -CTATCAGGGGCGCATGGCGATCCACGAAATGATGGTGGTGACGCCGGAATTACGGGCCGCTATTCATGAA -AATGTGGATGAACAAGCACTGGAGCGACTAGTCCGGCAACAACACAAGGCCTTAATCAAAAATGGCCTGC -AAAAAGTGATAAGCGGTGACACCTCCTGGGATGAGGTTATGCGCGTCGCCAGTGCCACGCTGGAGAGCGA -AGCATGAATTATCGCTATCGCGCCATGACCCAGGATGGTCAAAAATTGCAAGGGATCATTGATGCTAACG -ATGAACGTCAGGCACGACTGCGGCTGCGTGAAGAAGGGCTTTTCCTGCTGGATATTCGCCCCCAAAAAAG -TTCGGGAGTAAAAACACGTCGCCCGAGGATCAGCCATAGTGAACTGACGCTTTTCACCCGGCAGTTGGCA -ACCTTAAGCGCAGCGGCATTACCCCTGGAAGAGAGCCTTGCCGTAATCGGTCAACAAAGCAGTAATAAAC -GACTGGGTGACGTGTTAAATCAGGTACGCAGCGCCATCCTTGAAGGGCATCCCCTTTCCGATGCATTACA -GCATTTTCCCACGCTTTTCGATTCGCTCTATCGTACCCTGGTAAAAGCGGGCGAAAAGAGCGGGCTGCTG -GCCCCGGTGTTGGAAAAGCTGGCTGATTACAATGAAAACCGGCAGAAAATCCGCAGCAAGCTCATTCAGT -CACTGATCTACCCCTGTATGCTCACTACGGTGGCGATTGGGGTCGTGATTATTCTCCTCACTGCTGTCGT -GCCCAAAATTACCGAACAGTTCGTGCATATGAAGCAGCAACTGCCGCTGAGTACACGCATTCTTTTAGGT -CTGAGCGACACGTTGCAACGTACCGGCCCGACATTATTAGCGACAGTGTTTATTGTCGCTGTAGGTTTCT -GGCTCTGGTTAAAACGCGGCAATAACCGCCACCGTTTTCATGCCATGTTGCTGCGCGTTGCGCTCATCGG -CCCGCTGATTTGCGCCATTAACAGCGCACGCTATCTCCGCACTTTAAGTATTTTGCAATCCAGCGGCGTC -CCTCTGCTGGATGGGATGAATTTGTCCACCGAAAGCCTCAACAACCTCGAAATTCGCCAGCGTCTGGCAA -ATGCGGCAGAGAACGTTCGCCAGGGTAACAGCATTCATCTTTCGCTGGAACAAACCGCAATTTTCCCGCC -GATGATGCTCTACATGGTGGCCTCTGGCGAAAAAAGCGGGCAGCTCGGCACATTAATGGTCAGAGCCGCA -GATAACCAGGAGACACTCCAACAAAATCGGATCGCCTTAACGCTCTCCATCTTCGAGCCAGCACTCATTA -TTACGATGGCACTGATCGTCCTGTTTATTGTCGTGTCGGTACTCCAACCTCTTCTTCAACTTAACTCAAT -GATTAATTAAGGAAAGCATATGCGCGCAACGGATAAGCAACGCGGTTTTACATTACTGGAAATTATGGTG -GTGATCGTCATTATCGGCGTACTTGCCAGCCTGGTGGTTCCTAACCTAATGGGCAATAAAGAAAAGGCGG -ATAAGCAAAAAGCCGTCAGCGATATTGTGGCGCTGGAAAACGCCCTTGATATGTACAAACTCGACAATCA -TCACTATCCAACCACAAATCAGGGGCTTGAATCCTTAGTAGAAGCGCCGACACTGCCACCGCTGGCCGCA -AACTATAACAAGGAAGGTTATATCAAGCGTCTGCCTGCCGATCCCTGGGGCAATGATTATGTCCTCGTTA -ATCCTGGTGAACATGGTGCATACGATCTGCTTTCAGCAGGGCCCGATGGTGAAATGGGAACCGAGGACGA -CATCACCAACTGGGGTTTGAGCAAGAAGAAAAAGTAAGTCAGCGATGAATCAGCAACGCGGGTTTACCCT -GCTGGAGATGATGCTGGTGCTGGCGCTGGTCGCTATCACGGCAAGCGTGGTGCTCTTCACATATGGCCGG -GAGGATGTCGCCAGCACTCGTGCGCGCGAAACAGCGGCGCGGTTTACCGCTGCACTTGAATTAGCCATCG -ACCGCGCCACGCTCAGTGGTCAGCCTGTCGGTATCCATTTCTCTGATTCAGCATGGCGCATTATGGTACC -GGGCAAAACACCATCAGCCTGGCGCTGGGTTCCATTACAAGAAGATGCCGCAGACGAGAGCCAAAATGAC -TGGGATGAAGAACTCTCAATTCATCTTCAGCCATTTAAACCTGATGACAGCAACCAGCCACAGGTTGTGA -TTCTGGCCGACGGACAAATCACGCCCTTCTCTTTGTTGATGGCTAACGCCGGGACCGGTGAGCCGCTCCT -GACGTTAGTCTGTTCAGGCTCATGGCCCCTGGATCAAACGCTCGCCAGAGATACCCGCCCATGAACAAAC -AATCAGGGATGACACTGCTTGAAGTCTTACTGGCGATGAGTATTTTCACCGCTGTTGCTCTGACTTTAAT -GAGCAGTATGCAAGGGCAACGAAATGCCATCGAGCGAATGCGTAACGAGACGCTGGCATTGTGGATAGCG -GATAACCAGCTTCAGTCACAAGATTCATTCGGCGAGGAAAACACGTCCAGTTCTGGCAAAGAGTTAATAA -ATGGCGAAGAGTGGAACTGGCGCAGCGATATCCACTCAAGCAAAGACGGCACGCTTCTGGAACGCACCAT -AACGGTGACATTACCCAGCGGTCAGACAACCTCGCTTACGCGTTATCAAAGCATCGATAATAAATCCGGG -CAGGCACAAGATGATTAATCGCCAGCAGGGTTTCACATTGCTGGAGGTCATGGCGGCGCTGGCGATTTTC -TCAATGCTTAGCGTGCTGGCGTTTATGATTTTTTCGCAAGCTTCCGAGTTGCATCAACGCTCACAGAAAG -AAATCCAGCAGTTCAATCAGCTACAGCGCACCATCACCATTCTTGATAACGATCTCCTGCAACTGGTCGC -CCGGAGGAATCGGAGTACGGACAAAATCATGGTGTTGGGTGAAGAAGCTATTTTTACCACGCAAAGTCGC -GATCCGCTGGCTCCTCTCAGTGAAGCACAAACCTTACTCACTGTTCACTGGTATCTGCGAAATCATACGC -TCTACCGTGCTGTTCGTACTTCTGTGGATGGCAGGAAGGATCAACCCGCCCAGGCGATGCTGGAACATGT -CGAGAGCTTTCTTCTGGAAAGTAACAGCGGGGAAAGCCAGGAACTTCCTCTCTCAGTCACGTTACATCTG -CAGACTCAGCAATATGGGGGGTTACAGCGCCGTTTTGCATTACCTGAGCAGTTAGCGAGAGAAGAGTCGC -CAGCTCAGACGCAGGCCGGGAATAATAACCATGAATAATGAACAACGCGGCGTCGCGCTGCTCATTGTAC -TCATGTTACTGGCGCTCATGGCTGCTCTGGCAGCAGACATGACGCTCAGTTTTCACAGCCAGCTTCAGCG -AACCCGCCAGGTAAACCATCATCTGCAACGGCAATATGATATTGAACTGGCGGAGAAACTTGCGCTTGCC -AGCCTCACCCAGGACGTTAAAGATAACGACAGACAGACCACGTTGCAGCAGTACTGGGCACAGCCACAAC -AGTTGCAGCTGGAAGATGGCAATACAGTGAAGTGGCAGTTACGCGATGCCCAGCACTGTTTTAATCTCAA -TGCGTTAGCAAAAATCTCTGACGACCCGCTGGCTTCCCCTGATTTCCCCGCCCAGGTATTCAGTGCGCTG -CTGATTAACGCCGGTATCGATCGCGGAAACACCGATGAGATCGTGCAATCAATCGCTGACTATATTGATG -TCGATGACTCACCACGCTTTCACGGCGCAGAAGATAGCTTTTACCAAAGCCAGACGCCGCCCCGGCATAG -TGCCAATCAGATGCTTTTTCTGACTGGCGAATTACGTCAGATAAAAGGCATAACCGAAAACATCTATCAG -CGGCTTATCCCGTATGTCTGCGTTCTCCCGACCACGGAACTTAGCATCAATCTTAATATGCTAACGGAGA -ACGATATTCCGCTCTTCAGAGCGTTATTCCTCAATAACATCACGGATGCTGACGCTCGGGTCTTATTGCA -AAAAAGGCCGAGGGAAGGCTGGCTAACCACGGATGCATTTCTTTACTGGGCGCAGCAGGATTTCTCCGGT -GTGAAGCCACTGGTTGCTCAGGTGAAAAGGCATCTCTTTCCCTATAGCCGCTATTTTACGCTGAGTACGG -AAAGTATCAGCGACGAACAATCCCAGGGATGGCAAAGCCATATTTTTTTCAACCGTAAACAGCAGAGCGC -CCAAATCTATCGGCGTACGCTGCAACTCTACTAATCATAAGGATCGTGATGCCTGAATCGTTGATGGTCA -TACGTTCTTCCTCGACGCTGCGTAAGCATTGGGAATGGATGACGTTCTCCGCAGATAGCGTATCTTCGGT -ACATACGCTCACGGACGATCTTCCGCTGGAGTCGCTGGCCGATCAGCCCGGTGCCGGAAATGTTCATCTT -TTGATCCCACCAGAGGGCCTTTTATATCGTTCCCTCACGCTGCCCAACGCCAAATACAAACTCACCGCAC -AAACATTACAATGGCTGGCAGAGGAGACGTTACCCGACAACACCCAGGACTGGCACTGGACGGTTGTCGA -TAAACAAAACGAAAGTGTCGAGGTGATAGGCATTCAGTCGGAGAAACTCAGTCGCTATCTTGAGCGTTTA -CATACTGCCGGACTCAACGTGACGCGGGTTTTGCCAGATGGCTGCTATCTTCCCTGGGAAGTAGATAGCT -GGACTCTGGTTAACCAGCAAACAAGCTGGCTCATTCGCAGTGCCGCACATGCCTTCAACGAACTGGATGA -ACACTGGTTACAGCATCTTGCTGCCCAGTTTCCGCCTGAGAATATGCTTTGTTATGGTGTAGTACCTCAC -GGCGTTGCAGCGGCCAATCCACTTATCCAGCATCCTGAAATACCATCACTGAGTTTGTATTCTGCCGATA -TTGCATTCCAGCGCTATGACATGCTGCATGGTATTTTTCGTAAACAGAAAACTGTAAGCAAATCGGGAAA -ATGGCTCGCCCGCCTGGCAGTAAGCTGTCTCGTTCTCGCCATTCTTTCTTTTGTTGGCAGCCGGAGCATC -GCGCTCTGGCATACGCTTAAGATTGAAGATCAACTTCAGCAACAACAGCAAGAAACCTGGCAACGTTATT -TCCCGCAGATCAAACGCACCCACAATTTTCGTTTTTACTTTAAGCAGCAACTCGCTCAGCAATATCCTGA -AGCTGTGCCGTTGCTCTATCATTTACAAACACTTCTGCTGGAACACCCTGAACTGCAGTTAATGGAGGCG -AACTATAGCCAGAAGCAAAAGTCGCTGACCTTAAAAATGAGTGCTAAGAGTGAAGCTAATATCGATCGTT -TCTGTGAGTTAACACAGTCCTGGCTTCCGATGGAAAAAACAGAAAAAGATCCGGTCAGTGGTGTATGGAC -AGTAAGGAACTCAGGGAAATGATTAAATCATGGTGGGCAGAAAAATCCACATCGGAAAAACAGATCGTTG -CGGCACTGGCGGTTCTCTCGCTCGGCGTTTTTTGTTGGCTTGGGGTGATAAAACCGATAGATACCTACAT -TGCAGAGCATCAGTCCCACGCGCAAAAAATTAAGAAGGACATCAAATGGATGCAGGATCAAGCGAGCACC -CATGGTTTACTCGGTCATCCTGCGCTTACGCAGCCCATCAAAAATATCCTTCTCGAGGAAGCAAAACGTG -AGAATTTGGCTATCACGCTGGAAAACGGCCCGGACAATACTCTGACAATTCATCCTGTCACAGCTCCCCT -CGAAAACGTCTCCCGCTGGCTCACTACGGCACAGGTAACATACGGTATTGTTATTGAAGACCTTCAGTTT -ACTCTTGCCGGAAACGAAGAGATCACCCTCAGGCATTTGTCCTTCAGGGAGCAACAATAATGACAATGCT -ACTGCCGCTCTTCATTCTGGTTGGTTTTATTGCAGATTATTTTGTTAATGCCATCGCCTATCACCTCTCG -CCGTTGGAGGATAAAACGGCGTTAACGTTTCGCCAGGTATTGGTTCATTTCAGGCAAAAAAAATATGCCT -GGCATGATACAGTGCCCCTGATACTTTGTGTTGCTGCTGCTATCGCCTGCGCCCTGGCACCTTTCACGCC -CATCGTGACTGGCGCACTCTTTCTCTATTTCTGTTTCGTACTCACGCTCAGTGTTATTGATTTTCGCACT -CAGCTCCTGCCCGACAAACTCACCTTACCGCTGCTCTGGCTTGGCTTGGTATTTAATGCGCAGTATGGAT -TAATTGATTTACATGATGCGGTTTACGGCGCGGTAGCGGGCTATGGGGTGCTGTGGTGTGTTTACTGGGG -CGTCTGGTTAGTTTGTCACAAAGAGGGATTGGGCTACGGTGATTTCAAGCTACTGGCCGCTGCAGGCGCA -TGGTGTGGCTGGCAAACGTTGCCAATGATACTGCTGATTGCCTCGCTGGGTGGCATTGGTTACGCCATCG -TTTCACAACTTCTGCAACGCCGGACTATAACCACTATCGCATTCGGCCCGTGGCTTGCGCTCGGCAGCAT -GATAAACCTGGGGTATCTGGCCTGGATCTCTTATTAACCGGGAGGGTTCTCCCTCCCGACACGGCTCAAC -CTTCTTCGCGGATCTGTGCTTGCAGATAATTTTGCAGGCCCATCTTCTGAATCAGATCAAGTTCCGTTTC -CAGCCAGTCGATATGGCCTTCTTCATCACGCAAAATTTCTATCATCATATCGCGGCTGACGTAATCATGA -ACGCTATCGGCATAACCAATTGCCTCACGCAAATTCTTCGCGCCATCCAGCTCAAGTGCCAGATCAGAAC -GCAGCATTTCCTCAACATCTTCACCAATGTTCAGTTTGCCCAGGTCCTGTAAGTTTGGAAGACCTTCCAG -AAAAAGAATGCGCTCAATATAACGATCGGCGTGTTTCATCTCATCAATGGATTCATGATACTCCACATCA -TTGAGACGTTTGAGACCCCAGTTTTTAAACATTCGGGCATGGAGAAAGTACTGATTGATTGCGACAAGCT -CATTTCCCAACAGTTTGTTGAGATAATTTATAACTTTAGTATCACCTTTCATTTTTTGACTCCTTCGCTT -CCACTCTTTGAAGAGTAGAACGGCTTACGAGTAAGTCAAAAAACACACTCCGTTTATGCGGACTCCTTAA -ACTCCGGCAGCTGCATTAATTCATCCTCCATCACTTCACGCGCGGCCCGGACACATTTACCGCACTGATT -GCCGACCGGAATAAATTTTTTTAATTGCTGGAACGAGTGAGGGGAAAACTGGCGCACAGCCTGACGAATT -TTTTTATCGCTGATACCATTACAAAGACAAACGTACATAGAGACTCCCGTATACTTTCTTCAAAAATAAA -TGAAAATAGTTCTTATTTCAATTACGGAAAGACTCTTTTTTAAGCAAAGAATAGAAATATGAATAAAAAT -AATGGGCTACCAAAAGTAGCCCATTGACAAAAAATGCGGCGATACTGGAAGGTATCGCCAACACATTTAT -TGCTTAGTAAACGGCGCGAAGATTTCGCTAAATGCGTACTTCGGTGCCTGTTCTTTAGTCAGGCCGTGGA -ATTCCGGAGACAGGTTAGTGCCGCCCGGCAGGTCGCGCGCGATTGACCAGATACCAACCATACCGAGATT -ACGCTTCTGCGCATCCTGCATGACCAGACGAGCATCAGAGAGATAGAACACCTCGCCCTGAACGTCGTTC -ACGCCAACCATCGGCGTGGTACCCATCATAGCGTCAATTTCTGCATCGCTCTTATTGGGATGGAGGCCTT -TCAATTGTGAATGCAGGTTGGCAATCGCAGACGTTGCACACTTACCGTGAATGTTCTGGCCTTCGGTATT -TGCAGACTGACAAATCGCGTTACCGTAGTCCATTGTCATCACGTTCACACCCGCCAGCTCAACACCTTTC -GCTTTGGCATCGCTCAGGACATTCATCCCTTCCGGCGTCAGGCCAGTCGGCAGAATTGGCAAGGTGTACC -AGATAGCAATATCTTTGCCTTCTGACTTCCATTTATCCTGCACTTTCTTCACAGCAAGGTTACGACGTTC -AATAGATGCCTGATCCGCAACCCAGGTGCCTTCGATATCGAAGTCCAGGACTTTGAGGTTCAGGTTATCA -ACGATGTCATAATAATGCTGCATCAGATCGTCTACGTTCTTACAGGAAGCAGCCAGCGGAGCGTTGTTAG -CACCACCGATAGACAGCATCACATCGCCGCCAGCCTCACGCAGAGCTTTGATTTTGCTGTACTGAGCGTA -ATTCTGCATACCGTAAGCGGTACCCCATGTCGGCAGACAGGTGTTCGCATCTTTACTCACCACAAACGCC -AGCGTGAAGTGGTTGACGTTATGATTCTTAGCCAGCGCAGCCAGATCCGGGATCGTATTCAGCGTAAAGT -CGACATACGGTGCATAAACGTGTTTCGGCCACGCTTTCTTCGGCGTACCTACGCGCTCTTTGGTTCCGGT -CCAGTCAACAAAAACACGCCACGGGTTGCTGTCAGAAGGAGAAACTTTCTGCACTTTACTCTGAGAAATG -TAGTTCACACCGTTAAAGCGAATCAGCGTATCGCTGGCATAAAGCGTTTCTGGATTAAACTGCGGCGCAT -TATTCAGCTCTTCGTTGCTATAGCTCTGAGCCTTACCTAACGGCTTCCACGGGCGGCTATTGCTACCGGT -GGCGTTTTGGTTCGCCACCAGAGCAGGGTTGTCACTTTGCGTCCAGAACAGCGCTTCATAAGCCTGCCCA -TCAACAACAACGCGATCACCTTTCACGTACACAGTGGATGCGGACCATGCTTTCGCCGGTTCGTATTTCT -TCCACGGGTTATCGCCGCCCGGGACAAAGCCCCATGCGTCTTGATCGACAGAAGTTTTATAATGTGCATC -GTTATAATCTACGATGCTGTCCGCGCTGTACGCTTTGCTGGCCTGGAAACCATCCGCAACAATGACGCCG -CCGTTATCAATTTCACAGGTAGTCGGGTTACCGTACTGACTCAATTCCGCAGCGGTAGCTGTACGCTCGA -GACGCCATGGGTTATTGGAGTTTTCAGCGCTGGTACCCCGTGGGCAATCTTTAGACCCAACCCATCAGGC -GTTCTTGTAAACATTACCATTGAAAATAACATGGTAAATTTCGCTACCTTCCTGGCCGCTCCACGCTTGC -AATGAGTAATCGTTAACGCTATCCGCTGGTGTTGATGGCTCGCTGTTATCCGGAGTTGGGGTCACCGGTG -TTTCCGGAGTTGGATCAACCGGAGTCACAGCACCGCCATTATTATCCGGCTTAACGGAACAGGAGCCAGG -GTTACCATACTGGCTGATTTCTGTTGCCGTTGCCGCGCGAACATAACGCCATGGGTTACTGGCATCGTTT -TCTTTCGCATCGCCTGGGCAATTTGCCGCGCCTACCCACCAGGCGTTCTTATAAATGCCGCCGTTATAGA -TAACGTACCATGTAGAAGAACCTTCCTGACCTTTCCAGGCTACTACAGCATAGTTGTCGTTTGACTTATC -AGCTGGGGCTGGCTGAACATCAGGAGCCGGTTTAACGTCCGGTGCCGGTTTCACATCCGGTGAAGGCTGT -GGTGCTGAAGTACAGGACTGTGGATTACTGGTTTCTGAGATTTCCGTTGCCGTAGCGGCACGAACATAAC -GCCATGGGTTGCTGGCATCATTGCTTTTCGCATCACCCGGACAGTTAGAAGAGGCTACCCACCAGGCATT -TTTATATACCGCACCATTAAAGACGACATACCAGGTCTGACCGCCCTGCTGTTTATTCCAGGCAACTACA -GAAGAATTAGACGGAACAGTGCCCTGTGCTGGTGTAGCCGAACCGCCATTAGCCGGCGTATTGGATGCAG -GCGTATTTGAATTTGAAGAAGATGAGCTGCCGCTCTTTTCGCAGGAAAGTGTATTGCCAAACTGACTAAT -TTCAGCAGCTGTTGCGGTACGCTTTAAACGCCACGGGTTAGTTGCATCATTTGCTTTCGCTTTTCCCGGG -CAATTTGTAGAAGAAACCCACCAGGCATTTTCATAAATTTTGCCATCGAAAATAACCTGATATTTATTAC -CACCTTGTTGGTTATTCCATGCTTCCATTGCCAATGCTGGCAGAGCGGAACACACCAGCCCCATACCAAT -CATAGATTTAGTAAATATATTTAATTTCATTATAATCCCTTGTGACGTAAAAACTGCAAAACAAAAGTCC -TACGCAGGAATTATTTACGTTTTACGAGAACCCTTCAATATGAATTAAATTACGGCATTAAAAATAAGAA -AAAAGCCTGACAAATGAAGCATTTTAAAAACAGAAACATTCATATTTAAAATGTTAAATTGAATTGATAT -TTTAAATATGAATAATTTATTCGTTCTGACAGTACGAATAAGATATGCCGTCAACAAATGCAAAAAGGGC -GCCGAAGCGCCCTTTTCAATTCAAAACTAATTAACGTGTAATTAGCCCAGAACTTTAGCAACAACGCCCG -CGCCAACGGTACGGCCGCCTTCACGGATTGCGAAACGCAGACCGTCGTCCATCGCGATCGGGTGGATCAG -GGTAACAACCATTTTGATGTTGTCGCCCGGCATTACCATCTCTACGCCTTCCGGCAGTTCGATGGTACCA -GTCACGTCAGTAGTACGGAAGTAGAACTGCGGACGGTAGCCTTTGAAGAACGGAGTATGACGGCCGCCTT -CATCTTTGGACAGAATGTACACTTCAGATTCGAACTTGGTGTGCGGCTTGATGGTGCCCGGCTTAGCCAG -TACCTGACCACGTTCGATTTCTTCACGTTTGATACCACGCAGCAGAACACCTACGTTCTCACCAGCACGG -CCTTCGTCCAGCAGTTTGCGGAACATTTCAACGCCAGTACAGGTAGACTTCTGAGTCTCTTTGATACCAA -CGATTTCAACTTCTTCACCAACTTTGATGATACCGCGTTCTACACGACCGGTAACAACGGTACCACGACC -GGAGATGGAGAATACGTCTTCGATCGGCAGCAGGAACGGCTTGTCAATCGCACGCTCTGGTTCCGGAATA -TAAGAATCCAGGAAGCCAGCCAGTTCCAGGATTTTCGCTTCCCACTCTGCGTCGCCTTCCAGCGCTTTCA -GAGCAGAACCACGAACGATCGGAGTGTCGTCGCCCGGGAAGTCGTACTGAGACAGAAGTTCACGAACTTC -CATTTCAACCAGTTCCAGCAGCTCTTCGTCATCAACCATGTCGCATTTGTTCAGGAACACGATGATGTAC -GGAACGCCTACCTGACGACCCAGCAGGATGTGCTCACGAGTCTGCGGCATCGGGCCGTCAGTCGCAGCAA -CTACCAGGATCGCGCCGTCCATCTGAGCAGCACCGGTGATCATGTTTTTAACATAGTCGGCGTGCCCCGG -GCAGTCTACGTGTGCGTAGTGACGGGTCGGGGTGTCGTATTCAACGTGAGAAGTGTTGATGGTGATACCA -CGAGCTTTTTCTTCCGGCGCGTTATCGATCTGGTCGAATGCACGAGCAGCACCGCCGTAGGTTTTAGCCA -GTACGGTGGTGATTGCAGCGGTCAGAGTAGTTTTACCGTGGTCAACGTGGCCGATAGTACCAACGTTAAC -GTGCGGTTTTGTACGTTCAAATTTTTCTTTAGACACGGCTATATTCCTTACTATAGTGCTCTCCCCTTCA -GGAGAGAGCACGGGACTTTGGTATTAACCCTTAGGCTTATTTACCACGGGCTTCAATTACGGCCTGAGCA -ACGTTACTCGGCGCTTCATCATACTTCAGGAATTCCATAGTGTATGATGCACGACCTTTGGTCAGAGAAC -GCAGCTGAGTTGCGTATCCGAACATTTCAGACAGCGGTACTTCAGCGTGGATCTTAACGCCAGTAACTTC -AGATTCCTGACCTTTGAGCATACCACGACGACGGCTCAAGTCACCGATAACGTCACCGGTGTTCTCTTCC -GGAGTTTCTACTTCAACCTTCATGATCGGCTCAAGCAGAACTGGTTTCGCTTTCTTAAAGCCTTCTTTAA -AGGCGATAGAAGCAGCCAGTTTAAACGCCAGTTCAGAGGAGTCAACGTCATGGTAAGAACCGAAGTGCAG -ACGAATACCCATGTCTACTACCGGGTAGCCTGCCAGCGGACCTGCTTTCAGCTGTTCCTGGATACCTTTA -TCAACGGCCGGGATGTATTCGCCAGGGATTACACCACCTTTAATGTCGTTGATGAACTCGTAGCCTTTCG -GGTTTGAACCCGGCTCCAGCGGGTACATGTCGATAACAACATGACCATACTGACCACGACCACCAGACTG -TTTCGCGTGTTTACCTTCAACATCGGTAACTTTCTGGCGGATAGTTTCACGGTAAGCAACCTGCGGTTTA -CCTACGTTCGCTTCAACGTTGAATTCACGCTTCATACGGTCAACGATGATGTCGAGGTGCAGTTCGCCCA -TACCCGCGATGATGGTCTGGTTAGATTCTTCGTCAGTCCATACACGGAAAGACGGGTCTTCTTTAGCCAG -ACGGCCCAGAGCCAGACCCATTTTTTCCTGGTCAGCTTTGGTTTTCGGTTCAACTGCGATGGAGATTACC -GGCTCAGGGAATTCCATACGTTCCAGAATGATCGGCGCATCCGGGTCACACAGGGTGTCACCAGTGGTTA -CGTCTTTCAGACCGATAGCAGCAGCGATGTCGCCCGCGCGAACTTCTTTGATCTCTTCACGTTTGTTAGC -GTGCATCTGAACGATACGACCGAAACGCTCACGTGCAGCTTTCACGGAGTTCAGTACGGTATCACCAGAG -TTAACCACACCGGAGTAAACACGGAAGAAGGTCAGGTTACCAACAAACGGGTCGGTAGCGATTTTGAACG -CCAGTGCAGAGAACGGCTCGTCATCACTTGCGTGACGTTCAGCCGGAGTGTCTTTACCGTCGTCCAGGAT -ACCGTTGATCGCAGGTACGTCAACCGGGGATGGCAGGTAATCAATTACCGCATCCAGCATCGCCTGAACA -CCTTTGTTCTTGAACGCAGAACCACAGGTTACCAGGATGATTTCGTTGTTCAGAACGCGCTGACGCAGAG -CACCTTTGATTTCTGCTTCAGTCAGTTCTTCACCACCCAGGTATTTTTCCATCAGCTCTTCAGAAGCTTC -AGCTGCGGATTCGATCAGGTTCTGGTGCCATTCGTTAGCCAGTTCAACCATGTCTGCCGGGATATCTTCG -TATTCGAAGGTTACGCCCTGGTCAGCGTCGTTCCAGTTGATAGCTTTCATTTTCACCAGGTCAACAACAC -CGGTGAAATGTTCTTCAGCACCAATCGCCAGCTGCAGCGGAACCGGGTTCGCGCCCAGACGGGTTTTGAT -CTGGTTAACAACTTTCAGGAAGTTCGCACCCATGCGGTCCATTTTGTTAACGAACGCAATGCGCGGAACT -TTATATTTGTTTGCCTGACGCCATACGGTTTCAGACTGCGGCTGAACACCACCAACTGCGCAGTAAACCA -TTACCGCACCATCGAGAACACGCATGGAACGTTCTACTTCGATTGTGAAGTCAACGTGCCCCGGGGTGTC -GATGATGTTGATGCGATGCGGCTCATACTGCTTAGCCATACCAGACCAGAATGCAGTAGTCGCAGCGGAA -GTGATGGTAATACCACGTTCCTGCTCCTGCTCCATCCAGTCCATGGTTGCAGCGCCGTCATGAACTTCAC -CGATTTTATGGTTTACACCGGTGTAGAACAGAATACGTTCGGTAGTAGTGGTTTTACCGGCGTCGATGTG -CGCACTGATACCGATGTTACGGTAGCGTGCGATGGGTGTTGTACGAGCCATTTGTTTCCTCGTTTATCTT -TTAGGCGTTCAATTTAAGTAGCCCAAAGCGGGCTGCTTACTGGAAGCGCCCGCCTGGTGACTAAAACTCC -GAAGGGATAACCAACGGTAGTGTGCGAACGCCTTGTTGGCTTCGGCCATACGGTGAACGTCTTCACGTTT -CTTAACTGCAGTACCTTTGTTTTCTGCAGCATCAGAAAGTTCGTTCGCCAGGCGCAGAGCCATGGATTTA -TCACCGCGTTTACGAGCAGCTTCAACGATCCAACGCATTGCCAGAGCATTACGACGAACCGGACGGACTT -CAACTGGTACCTGATAAGTAGAACCACCAACGCGGCGAGACTTAACTTCTACAGTCGGGCGCACGTTTTC -GAGAGCTACTTCGAATGCTTCCAGTTCAGATTTACCAGAGCGCTGAGCCAGGGTCTCCAGCGCGCTGTAT -ACGATAGATTCAGCAGTAGATTTTTTACCATCTACCATCAGGATATTTACAAATTTAGCCAGCAGTTCTG -ATCCGAACTTCGGATCCGGCAGAATTTTACGCTGACCAATGACGCGACGACGTGGCATGGAAATACTCCG -TTGTTAATTCAGGATTGTCCAAAACTCTACGAGTTTAGTTTGACATTTAAGTTAAAACGTTTGGCCTTAC -TTAACGGAGAACCATTAAGCCTTAGGACGCTTCACGCCATACTTGGAACGAGCCTGCTTACGGTCTTTAA -CGCCGGAGCAGTCAAGCGCACCACGTACGGTGTGGTAACGAACACCCGGGAGGTCTTTAACACGACCGCC -ACGGATCAGGATCACGGAGTGCTCCTGCAGGTTGTGACCTTCACCACCGATGTAGGAAGTCACTTCGAAA -CCGTTAGTCAGACGAACACGGCATACTTTACGCAGCGCGGAGTTCGGTTTTCTAGGAGTGGTAGTATATA -CACGAGTACATACGCCACGTTTTTGCGGGCATGCTTCCAGCGCAGGCACGTTGCTTTTCGCAACTTTGCG -AGCACGTGGTTTGCGTACCAGCTGGTTAACTGTTGCCATTAAATAGCTCCTGGTTTTAGCTTTTGCTTCG -TAAACACGTAATAAAACGTCCTCACACAATATGAGGACGCCGAATTTTAGGGCGATGCCGAAAAGGTGTC -AAGAAATATACAACGATCCCGCCATCACCAGGCCATCTGGCTGGGGTGCTTAACCGTAAGTCTGACGAAA -TCAGTATAGTCAATGAGAATGATGTCGTTCGAAATTTGACCAGTCAAACCGCGGGCAATAAGGTCTTCGT -TCAGGGCATAGACCTTAATGGGGGCATTACGCAGACTTTCAAGGTAGCGGTTACCGTCAACTGCGGCAGT -TACGCCATCTTGCAATAATAGCAGTTCGTCTCCTTCACTGAGCAGACGCAGCAGCGCAGCAAAATCCGTC -AGCCAGGGTGAGCGATGTAATGTGTGCAGCATAAACGCCTCAAAACCTCAAAATAACATCGTAGTTGGCG -AGTTCGCGGCGTAAGGCATCTGCTTCGAGCGGCGTGGCTTCGACAACAAAGGGTGTCTGCGGATCTAACC -CGCGTTCGCGCAGTGAAGCCGCACAAACCCAGCACTGTTCAATGTCGTACAGACCCAACAATTTAAAAGT -GGCAATGTAATCACGCGCCAGCACTGCATCGGGCTTTTGTCCTGGCAGCAGCTGAAAAACGCCATCAGCT -ATAAAGAAGACAGCCAGATCGTCAGTTAATGCGGAAGTTGCCAGTAAAGCATCTAAACCTTCCCGGCCTG -CGGCTGTACCATGAGGTGCAGTAGAAAAAACAAACGCAATTCGTTTCATCAGAACTGTACCACCCTGTCA -CAGGTCAGCGAGGCTTCCGCCAGCGCCCCAAGTCCGCTTAAGGTAAATCCCTGCTGAAGGTTTGACGAAG -CCAGCCCCAGTCTTCCGGCCTCCGTTTCATCAACAACGCCACGGCGTAATGCTGCCGCTACGCAGATATT -CAGCGCCACACCATGTTGCGCATTCAGTTGTTGCCAGGCCCGTACGAGGTCAAATTCGTCACTTGCCGGA -GAGGTCAATTGGTTAGCGTTATAGACCCCTTCCCGATAGAAAAAGACGCTGCTTAACTCATGGCCATCTG -CTATCAGCGCCTGCGCAAACTGAAAAGCACTACTCGCCTGTTGCGTACCGTATGCTGGCCCGGTCACCAC -GATGGCAAAACGCATTACTTATCTTGCCCCTGGAAATCACCGCTCTTGAACTGGCGGATGTAGAGATAGA -CAGTGTGTTTGGAGATGTTCAGGCGGTCAGCAACCTGGTTGATCGCATCTTTAATATCGAAGATCCCTTT -CTCGTAGAGATTCAGCACGATCTGACGATTTTTGGCGTTATTAGAAACATTGCGATCGGCATTCACTTCT -TCGATGGTGAACTCCAGCGTTTGGGTAACCAGATCTTCAACAGAAGAGGCAAAGTTGACGCTTGAACCGA -CATCCGGGGTTTCTGGCGGCACAAAGGTGCTCATAATCTGCGAGAAGGGAACATCAAGATTCATATTGAT -GCACAGCAGACCAATTACACGCTGTTCGCGGTTACGAATCGCGATAGTCAGGGACTTCATTAATACGCCG -CTTTTGGCGCGAGTAAAGTAGCATTTAGAAACGCTGCTATCCGCTCCCGTCATATCGTGCAGCATACGTA -GCGCCAGGTCAGTAATTGGCGAACCAATCTTCCGGCCTGTATGTTCACCGTTAGCAATGCGAATGGCTGA -ACATTTTAGATCCTGCAAAGAGTGCAAAACGATTTCACAGTGGGAGCCAATAAGCATCGCTAACCCGTCC -ACCACCGCTTCGTAGGATTTCAGAATATCAAAATCGGTCTGGTCGAAAGGACGTTGATCCAGTAAATCCA -ACTCACTGGTTTCGTTGGTTAAAAGCGACCTGGACATGAAAAAAAACACTCCTTTTCAGGAGCCTGTCGT -TAACTTTTCAGGGCAGGCTCATTAATGATGCGGGTAACTAAATTAATACAGCGGAGGTTCCGCTTTCCAG -CACTAATTATATCCGGCCTGTAATAAAAAAACCGCCGCCTGGTCAGGCGGCGGTTCTTAATGCTTATTTT -TTAGCAGAATCTGCGGCTTTCGCATCAGCTTCCGGCTTTGCATCAGCCTTCGGCGCTGGTTTCACATCCA -GCAGCTCTACGTCAAACACCAGGGTAGAATTCGGTGGGATCCCCGGAACACCCGCTTTGCCGTAAGCCAG -TTCTGGTGGAATAACCAGTTTGATCTTACCGCCTTTCTTGATGTTCTTCAGACCTTCTGTCCAACCCGGG -ATAACACCGTCCAGACGGAAAGAAAGCGGTTCACCACGGGTGTAAGAGTTGTCGAACTCTTTACCGTCGA -TCAGCGTACCTTTGTAGTTCACTACAACAGTATCGCTGTCTTTCGGTGCTTCGCCTTTACCGGCTTCTAC -TACCTGATAAACCAGACCAGTTGAAGAGGTTTTCACACCTTTCTCTTTGGCAAATTTCTCGCGGTACTCT -TTACCTTTTGCTTCGTTATCAGCCGCGTCTTTTTCCATCTTCGCCTGAGCAGAAGACTTCACGCGAGCTT -CGAATGCTTGTAGAGTCTGTTCGATCTCTTGGTCGGAGAGTTTGCTCTTATCAGCAAATGCATCCTGAAC -ACCAGCGATCAGCTGATCTTTATCCAGTTTGATGCCCAGTTTTTCTTGTTCTTTTAGAGAGTTTTCCATG -TAACGACCCAGCGAGGCACCCAGTGCATAAGCTGATTTCTGATCGTCATTTTTGAACGCTGCTTTGCTGT -CAGCAGCTGTAGCAGGTTTTGCAGCTTCAGCAGCAAAAGTGATTGGTGCATGCAGGGCAACGGCCATTGT -GGTCGCCAGCAGCGTTACTTTAAACAGTGATTTCATCCATATCTCCAGGATCGGGGCATCTCACCCCAGG -GTTAACTATTATCAGAAGGGTACTATAAAGCGTTGTCGAACAAATCTACATACAGACACGCCCTATTATC -ATCTATTTTCAGACTCTTTTTGTTTAAATTAGTTTCGATGACCGCGAAATGAGTGCTGTCTCGGGCAGCA -AAGTTAAGTAGAATCCGCGGCGACCATTCGACAAAAGAGGTGAATCATGCAGGATTTATCATTGGAAGCA -CGCCTGGCAGAGCTGGAGAGCCGACTGGCTTTTCAGGAAATCACCATTGAAGAACTGAACGTCACGGTGA -CCGCTCATGAAATGGAGATGGCGAAACTGCGCGATCATCTGCGTCTGCTGACCGAGAAGTTAAAAGCCAG -CCAGCCGTCGAACATCGCGTCGCAGGCTGAAGAAACGCCACCGCCACATTATTGAGGCGTAAAAAAAGCG -GGGATTCCCCGCTTTTTTGTCACTTTTTCGGTATTAGTGGCAACCGCAACCGCCGTTGCCTTTACCGCCA -CAGCAGCCTTCGCCACCGTGTTCATGACCGTGATCGTGGCCATGACCGCCGCAGCAACCGTCGTGGTCGT -GATCGTGGTGGTGATCGTGCGCGCCGTGAACGTGACCATGAGCCAGTTCTTCTTCAGTCGCTTCGCGAAT -CGCCACAACTTCAACGTTGAATTTCAGGTTCTGACCGGCCAGCATGTGGTTACCATCAACCACGACGTGA -TCGTCTTCAACCGCAGTGATTTCAACCGGTACCGGACCCTGGTCGGTTTCAGCCAGGAAACGCATACCTA -CCTGCAGTTCATCAACGCCCATAAATACGTCTTTAGGAACACGTTGCACCAGGTTTTCGTCGTACTGACC -GTAAGCGTCGTTCGCGCCAACAGCGACATCAAATTTGTCGCCAACTTCATGACCTTCCAGCGCCGTTTCC -AGGCCAGAGATCAGGGAACCGTGACCATGCAGGTAGTCCAGCGGCGCACTCACCGGAGACTCATCAACCA -ACACACCGTCTTCTGTACGTACCTGATAGGCCAGGCTGACCACCAGGTCTTTTGCTACTTTCATGATATC -TCCTGAGCATGGGAAGAATAGTGGCGCAGATTGTAGCGGAATTCTGCAGCCGTGTACTCACTAGCTTAAA -AAAACTCGGCGCATATCGCTAGTCCGGATGAAAAATCCCGATCACTTGCTCATCTTTGCGAACGTGATCG -CGGGCTTCTTTGTCTGCTTCTCGCATCTGATGTCCGCACTTAACACATTCAACAATATCAATATTATTTT -CGCGCCACATCGCCATTGAATCCTGCGCCTGACAGGCCGGGCATTTTGCGCCCGCAATAAAACGTTTTCG -GATTGCCATCTTTACCCTCTACTCAAATTCATCCCAGCCGTCCAGCTGGCGTCGTTCTTGTTGCATTTCA -CGCTGGAAAATCTCTTCCAGTTCGCGTCGGGCTTCCCTGGCGCGAGAAATTTGTACGGTATCGGCATGCA -TTGGGATGAGCTCTCGCAGCATCCGCATATCCAGGCGGCGAAAATGCAGTTGCGCTCGCTGTGCCTGATG -CGGATGCATGCCAAGCGTGACCAGCGTCTTGCGCCCCAGCTCTAACGCACTGGAGAATGTTTCACGGGAA -AACTGCGTCACCCCTGCCTGTAATAACTCATGCGCTTCCACACGTCCGCGCGCTCGCGCAAGAATATGCA -AATGCGGAAAGTGCTGTTGGCATATTTCCACCAGCTTCATGGTGTCTTCCGGCTCGTTACAGGTAATGAC -GATAGACTCAGCGGCCTCTGCACCCGCAGAACGTAAAAGATCGACCTGCGTGGCGTCGCCGTAATAAACT -TTGTAGCCGTATTTACGCATCAGGTTAACGGCGCTGATATCCCGCTCCAGCACGGTAATGCGCATTTTAT -TTGCCATCAGCAAACGACCAATCACCTGACCAAAACGCCCGAAGCCCACGACAATGACCTGGGGTTTATC -ATCGTTGACCCACGGTTTTTCGTCTTCTTCTTCCGGTCCGTTAAACTGGCGGGATAGCCATTTATCCACC -AGCTTCATCAGCAACGGCGTGGTCATCATGGAAAGCGTCACCGTCACCAGCAACAACGCCATCTGGTCGC -CCTGGAATAAGCGTTGTGAAGAAGCGGTAGAAAAGAGGACAAAGGCAAACTCACCACCCTGACTCAACAC -GCCAGCAAACTGCATCCGCTCTGAGCTACGCACGCCATACAATCGCGCCAGCAGATACAGCACGAGAATT -TTCACCGCCACCAGCACAACCACGCTTATCACTACCCACAACAGATGGGTATAAAGCACCCCGAGGTTGA -GTGACATGCCGACAGAGATAAAGAACAAACCGAGCAGCAAGCCTTTGAAGGGATCGATAGCCGTTTCCAG -TTCATGGCGATATTCACTTTCCGCCAGCAGCACGCCCGCAATAAATGTACCGAGCGCCATCGACAGCCCC -AGCGCATCCATAAACAATGCGGAACCCAACACCAGCAGCAGCGTCGCGGCGGTGAACACTTCCCGCACGC -CAGAAGCTGCAATAAAGCGGAATACCGGACGCAGTAAATAGCGCCCACCAATCAGCATGCCGACAAACGC -CAGCACCTTCATGCCGACCTTCATCCAGTCGAAATGTTCGTCTGCCGACCCCGCCAACAACGGCACTAAC -GCCAGTGCTGGGATTACTGCCAGATCCTGAAACAGCAGAACCGAAAACCCGAGCTGGCCGGATTCGCTGC -GATTCATCCCTTTCTCACGCATCAATTGCAACGCCATTGCAGTTGAAGACATCGCAAGGCCAATGCCACC -GACCACCGCCGCCTGCCAGGCGAAATCCGTCAGCATCAATAATCCCGCCAGCAACGCCGCGCTTAACAGC -ACCTGTGCCGCGCCTACGCCAAAAATCGAACGCCGCAGTTGCCAAAGTTTGGAGGGATTCAACTCAAGGC -CGATGATAAACATCAGGAATACCACGCCGAGTTCCGAAAAGTGGAGGATCTCATCGACGTCGCTAATAAA -CCCCAGCCCCCACGGGCCAATTGCAATCCCTGCCAGCAAATATCCCAACACAGCGCCAATACCCAGCCGC -GATGCCAGCGGCACCGCAGCCACCGCCGCGAAGAGAAACAGCACTCCTGCGAGTAAAAAATCGGAACCTT -CCATCAGCGGCCTCCTGGAGACAGCGGATTTGCCAGCCAGTCACCGTAGGCTCTGGCGTGGCTCGCCAGC -TCCTGTGCGCTTTGCCGTCTCGCCCAGTAAATAATGATGGGACTTAACCAATGCATCCGGCACATGCCCG -CCGCCAGTTCAAAGGGGCGCAGCACATCGCTCATCGGGTAGCGATTCAGCGCGTCATAACGGTAAGCACT -TTCCGGCTCGCCGGTGGTAATCACGCTACGCCAGTACTTTCCCGCCAGTTGGTTTCCTCCCGGCCCGCTG -GCAAAACCACGACTTAATACCCGGTCCAGCCACTCTTTCAGTAGCGCCGGGCAGCTATAGGTATAAAGAG -GATGCTGAAAGACAATCACCTCGTGCTCGCGCAGTAATGCCTGCTCACGGGGGATATCAATAAAAAAATC -GGGATAGTGCGCGTAAAGGTCGTGCACGGTAACATTGCTGAGCTGCGTGGCCGGTTTAAGCAGTACCCGG -TTTGCCACCGAGTCCTGAGATTCCGGATGGGCATACAGCAGCAAAACTTTCGCTGGCTGAGACATCATCC -CCCTCCCGGTATGGTTTTTGTGTATAGTCGCTGTTTTGGGCTACCATTGCGCCCGGTGCGGCAGCTCGCC -CATACATTACATTATCATAATGATAAGTTAACATAGTCTGAACATACGGCACCTTATGATTGTTTTCTCC -TCGTTACAAATTCGTCGCGGCGTGCGCGTCCTGCTGGATAATGCCACCGCCACCATCAACCCTGGGCAGA -AAGTCGGCCTGGTGGGTAAAAACGGCTGTGGTAAATCTACCCTGCTGGCATTGCTGAAAAATGAAATCAG -CGCCGACGGCGGCAGCTACACCTTTCCGGGAAGCTGGCAACTGGCGTGGGTGAATCAGGAAACGCCGGCG -TTACCGCAAGCGGCGCTGGAATATGTCATTGACGGCGACCGTGAATATCGTCAACTAGAAGCGCAGCTAC -ACGACGCCAACGAACGTAACGACGGGCACGCCATTGCGACCATTCATGGCAAGCTGGATGCTATTGACGC -ATGGAGTATTCGCTCCCGTGCTGCCAGCCTGCTGCACGGCCTCGGTTTCAGCAATGAACAACTGGAGCGC -CCGGTAAGTGATTTTTCCGGGGGCTGGCGTATGCGTCTTAACCTTGCCCAGGCGCTGATTTGCCGTTCAG -ACTTGCTGCTGCTCGACGAACCGACTAACCACCTCGATCTCGATGCCGTTATCTGGCTGGAAAAATGGCT -GAAGAGCTATCAGGGCACGCTGATCCTGATCTCTCACGACCGCGACTTCCTCGATCCGATCGTCGATAAA -ATTATTCATATCGAACAACAAAGCATGTTCGAGTACACCGGCAACTACAGTTCGTTTGAAGTACAGCGCG -CCACCCGTCTGGCGCAGCAACAAGCGATGTACGAAAGCCAGCAGGAACGCGTAGCGCATCTGCAAAGTTA -TATCGACCGTTTCCGTGCCAAAGCCACCAAAGCGAAGCAGGCCCAGAGCCGCATTAAGATGCTCGAGCGT -ATGGAGCTAATTGCCCCCGCGCACGTCGACAACCCGTTCCGCTTTAGCTTCCGCGCGCCGGAAAGCCTGC -CAAATCCGTTACTGAAGATGGAAAAAGTCAGCGCGGGCTATGGCGATCGCATTATTCTCGACTCGATTAA -ACTGAACCTGGTGCCCGGCTCGCGTATTGGTCTGTTAGGCCGCAATGGCGCGGGTAAATCGACATTAATC -AAACTGTTAGCCGGTGAACTTGCGCCAGTCAGCGGTGAAATTGGTCTGGCGAAAGGGATCAAACTCGGCT -ACTTCGCCCAGCATCAACTTGAATACCTGCGCGCCGACGAATCACCTATTCAACATCTGGCACGTTTAGC -GCCGCAGGAGCTGGAACAAAAACTGCGTGACTACCTCGGCGGCTTTGGTTTCCAGGGCGATAAAGTAACC -GAAGAAACGCGCCGCTTCTCCGGTGGGGAAAAAGCCCGCCTGGTGCTGGCATTAATTGTCTGGCAGCGGC -CGAATCTGCTGCTGCTCGACGAACCGACTAACCACCTTGACCTCGACATGCGTCAGGCACTCACCGAAGC -ATTAATCGAGTTTGAAGGCGCGCTGGTTGTCGTTTCGCACGACCGTCATTTGCTGCGTTCCACCACTGAC -GATCTCTACCTGGTTCACGATCGTAAAGTCGAACCGTTCGACGGCGATCTGGAAGATTATCAACAGTGGT -TGAGCGACGTACAAAAGCAGGAAAACCAGACCGACGAAGCGCCAAAAGAGAATGCGAACAGCGCCCAGGC -ACGTAAAGATCAGAAGCGTCGGGAAGCTGAGCTGCGTGCGCAAACCCAGCCACTGCGTAAAGAGATTGCC -CGTCTGGAAAAAGAGATGGAGAAGCTGAACGCGCAACTGGCGCAGGCGGAAGAGAAACTCGGCGACAGCG -AACTGTATGACCAGAGCCGTAAAGCGGAGTTGACCGCCTGCCTGCAACAGCAAGCCAGCGCCAAATCCGG -CCTGGAAGAGTGCGAAATGGCATGGCTGGAAGCCCAGGAGCAGCTTGAGCAGATGCTGCTGGAAGGCCAA -AGCAACTGATGGCGCAGATAACGACGACCGATGCCAATGAATTCAGCAGCAGTGCTGAATTCATCCCCAT -GCGCGGCTTTAGCAATTGTCATCTGCAAACCATGCTGCCGCGTCTGTTTCGTCGTCAGGTGAAATTCACC -CCGTACTGGCAGCGGCTGGAGTTGCCCGACGGCGATTTTGTCGATCTTGCGTGGAGTGAAAACCCTGCAC -AGGCGCAACATAAACCTCGTCTGGTGGTGTTTCACGGGCTGGAAGGCAGTCTCAACAGCCCTTACGCCCA -CGGTCTGGTTGAGGCGGCGCAAAAGCGCGGCTGGCTGGGCGTGGTGATGCATTTTCGCGGATGCAGCGGT -GAACCAAACCGTATGCACCGCATTTACCATTCGGGCGAAACCGAAGACGCCAGTTGGTTTTTACGCTGGC -TGCAACGCGAATTTGGTCATGCGCCAACGGCTGCCGTCGGCTATTCGCTCGGCGGTAATATGCTGGCCTG -TTTGCTGGCAAAGGAAGGCAATGATCTCCCGGTTGATGCGGCGGTGATTGTCTCTGCGCCGTTTATGCTG -GAAGCCTGTAGCTATCATATGGAAAAGGGCTTTTCCCGCGTTTATCAGCGTTACTTGCTGAACCTGTTAA -AAGCCAATGCCGCGCGCAAGCTGGCAGCCTACCCCGGAACGCTGCCGATTAATCTCGCGCAGTTAAAATC -GGTACGTCGCATCCGTGAATTTGACGATCTCATCACCGCCAGAATTCACGGCTACGCCGACGCTATCGAC -TATTATCGTCAGTGTAGCGCCATGCCGATGCTGAACCGGATCGCCAAACCGACGCTGATTATTCACGCCA -AAGACGATCCGTTTATGGATCATCAGGTGATCCCGAAACCGGAAAGTCTCCCCCCGCAGGTGGAGTATCA -ACTGACTGAACATGGCGGTCATGTTGGCTTTATTGGCGGTACATTACTTCATCCGCAAATGTGGCTGGAG -TCACGCATTCCTGACTGGTTAACAACGTATCTGGAGGCGAAATCATGTTGATTCCGTGGCAAGACCTCTC -CCCCGAAACGCTGGAAAATTTAATTGAAAGCTTTGTGTTACGTGAAGGCACCGATTATGGTGAACATGAG -CGTACACTTGAACAGAAAGTCGCCGACGTCAAACGCCAGCTACAGTGCGGAGAAGCGGTGCTGGTATGGT -CGGAGCTGCACGAAACGGTCAATATTATGCCGCGCAGTCAGTTTCGCGAATAACCTGCAACCGTCGGCGG -ACGAGATAATAATGATAGCTAAGTCATGGAGTTACTATGTCTGCCAAACATCCGGTCATTGCGGTAACAG -GATCCAGCGGCGCGGGGACCACCACCACCAGCCTCGCGTTTCGTAAAATATTCGCGCAGTTAAATCTGCA -TGCAGCTGAGGTGGAAGGCGACAGTTTTCACCGTTACACCCGCCCGGAAATGGACATGGCGATCCGCAAA -GCGCGCGACGCCGGGCGGCATATCAGCTACTTCGGCCCCGAGGCTAACGACTTCGGCCTGCTGGAACAAA -CCTTCATTGAATACGGTCAGAGCGGCAAAGGGAAATCTCGCAAATATCTGCATACCTACGACGAAGCCGT -ACCGTGGAATCAGGTACCGGGGACATTCACCCCCTGGCAACCTTTACCGGAACCCACTGATGTACTGTTT -TATGAAGGTTTACACGGCGGCGTAGTCACGCCACAGCATAACGTTGCGCAGCATGTGGACTTACTGGTCG -GCGTGGTGCCTATCGTTAACCTTGAGTGGATTCAAAAACTGATCCGCGACACCAGCGAGCGCGGGCACTC -ACGAGAAGCAGTGATGGACTCAGTAGTGCGTTCAATGGAAGACTATATCAACTACATCACACCGCAGTTT -TCCCGCACCCATCTTAACTTCCAGCGCGTTCCCACCGTCGACACTTCAAACCCGTTCGCGGCAAAAGGTA -TCCCGTCGCTCGATGAAAGCTTTGTGGTGATCCATTTTCGTAATCTGGAAGGGATCGATTTCCCCTGGCT -GCTGGCGATGTTGCAAGGCTCATTCATTTCCCACATCAATACGTTAGTGGTACCGGGCGGCAAAATGGGT -CTGGCAATGGAATTAATTATGCTGCCGCTGGTGCAACGATTGATGGAAGGAAAGAAAATCGAGTAACTCT -GCTATTACGCCGGATAAAATACTATCCGGCTTCACAACGGGATAGTTAAGTCACGCGGCAACCACTTCAT -ACGAGTGAGTAATATTCACCGCTTTTTCCAGCATCAACGCCACTGAACAATATTTCTCGGCAGAGAGATC -AACCGCACGCGCAACCGCTGCGTCTTTCAGGTCGCGACCGGTGACGATAAAATGCAGATTAATGTGCGTA -AACAGGCGTGGTGCCTCTTCGCGGCGTTCAGAGGTCAATTTTACTTCACAATCGACCACATCCTGACGCC -CTTTTTGCAGGATCGAAACCACATCGATGGCACTGCAACCACCCGCCGCCATCAACACCATTTCCATCGG -ACTTGGTGCTTTATCGCCTGAGTTGCCGTCCATTAAAATCTGATGACCAGAGGCGGATTCGCCCAGAAAA -GTTAACCCTTCGACCCACTTCACTCGCGCTTGCATTTTTGCTACTCCACTGCGTCAATTTTCCTGACAGA -GTACGCGTACTAACCAAATCGCGCAACGGAAGGCGACCTGGGTCATGCTGAAGCGAGACACCAGGAGACA -CAAAGCGAAAGCTATGCTAAAACAGTCAGGATGCTACAGTAATACATTGATGTACTGCATGTATGCAAAG -GACGTCACATTACCGTGCAGTACAGTTGATAGCCCCTTCCCAGGTAGCGGGAAGCATATTTCGGCAATCC -AGAGACAGCGGCGTTATCTGGCTCTGGAGAAAGCTTATAACAGAGGATAACCGCGCATGGTGCTTGGCAA -ACCGCAAACAGACCCGACTCTCGAATGGTTCTTGTCTCATTGCCACATTCATAAGTACCCATCCAAGAGC -ACGCTTATTCACCAGGGTGAAAAAGCGGAAACGCTGTACTACATCGTTAAAGGCTCTGTGGCAGTGCTGA -TCAAAGACGAAGAGGGTAAAGAAATGATCCTCTCCTATCTGAATCAGGGTGATTTTATTGGCGAACTGGG -CCTGTTTGAAGAGGGCCAGGAACGTAGCGCATGGGTACGTGCGAAAACCGCCTGTGAAGTGGCTGAAATT -TCGTACAAAAAATTTCGCCAATTGATTCAGGTAAACCCGGACATTCTGATGCGTTTGTCTGCACAGATGG -CGCGTCGTCTGCAAGTCACTTCAGAGAAAGTGGGCAACCTGGCGTTCCTCGACGTGACGGGCCGCATTGC -ACAGACTCTGCTGAATCTGGCAAAACAACCAGACGCTATGACTCACCCGGACGGTATGCAAATCAAAATT -ACCCGTCAGGAAATTGGTCAGATTGTCGGCTGTTCTCGTGAAACCGTGGGACGCATTCTGAAGATGCTGG -AAGATCAGAACCTGATCTCCGCACACGGTAAAACCATCGTCGTTTACGGCACTCGTTAATCCCGTCGGAG -TGGCGCGTTACCTGGTAGCGCGCCATTTTGTTTCCCCCGATGTGGCGCAGACTGATTTATCACCCCGATA -TCAACTATGCACTTCGACAAACGCTGGTGCTATGTTTGCCCGTGGCCGTTGGGTTAATGCTTGGCGAATT -ACGATTCGGTCTGCTCTTCTCCCTCGTTCCTGCCTGTTGCAATATTGCGGGCCTTGATACGCCTCATAAA -CGTTTTTTCAAACGCTTAATCATTGGTGCGTCGCTGTTTGCCACCTGTAGCTTGCTGACACAGCTACTAC -TGGCAAAAGATGTTCCCCTGCCCTTTTTGCTGACCGGATTAACGCTGGTACTTGGCGTCACTGCTGAGCT -GGGGCCATTGCACGCAAAATTGCTTCCTGCATCGCTGCTCGCCGCCATTTTTACCCTCAGTTTGGCGGGA -TACATGCCGGTCTGGGAACCGTTGCTCATCTATGCGTTGGGCACTCTCTGGTACGGATTGTTTAACTGGT -TTTGGTTCTGGATCTGGCGCGAACAACCGCTGCGCGAGTCACTAAGTCTGCTGTACCGTGAACTGGCAGA -TTATTGTGAAGCCAAATACAGCCTGCTTACCCAGCACACCGACCCTGAAAAAGCGCTGCCGCCGCTGCTG -GTGCGCCAGCAAAAAGCGGTCGATCTAATTACCCAGTGCTATCAGCAAATGCATATGCTTTCCGCGCAAA -ATAATACTGACTACAAGCGGATGCTGCGTATTTTCCAGGAGGCGCTGGATTTACAGGAACATATTTCGGT -CAGTTTGCATCAGCCGGAAGAGGTGCAAAAGCTGGTCGAGCGTAGCCATGCGGAAGAAGTTATCCGCTGG -AATGCGCAAACCGTCGCCGCTCGCCTGCGCGTGCTGGCTGATGACATTCTTTACCATCGCCTGCCAACGC -GTTTTACGATGGAAAAGCAAATTGGCGCACTGGAAAAAATCGCCCGCCAGCATCCGGATAATCCGGTTGG -GCAATTCTGCTACTGGCATTTCAGCCGCATCGCCCGCGTGCTGCGCACCCAAAAACCGCTCTATGCCCGT -GACTTACTGGCCGATAAACAGCGGCGAATGCCATTACTTCCGGCGCTGAAAAGTTATCTGTCACTAAAGT -CTCCGGCGCTACGCAATGCCGGACGACTCAGTGTGATGTTAAGCGTTGCCAGCCTGATGGGCACCGCGCT -GCATCTGCCGAAGTCGTACTGGATCCTGATGACGGTATTGCTGGTGACACAAAATGGCTATGGCGCAACC -CGTCTGAGGATTGTGAATCGCTCCGTGGGAACCGTGGTCGGGTTAATCATTGCGGGCGTGGCGCTGCACT -TTAAAATTCCCGAAGGTTACACCCTGACGTTGATGCTGATTACCACCCTCGCCAGCTACCTGATATTGCG -CAAAAACTACGGCTGGGCGACGGTCGGTTTTACTATTACCGCAGTGTATACCCTGCAACTATTGTGGTTG -AACGGCGAGCAATACATCCTTCCGCGTCTTATCGATACCATTATTGGTTGTTTAATTGCTTTCGGCGGTA -CTGTCTGGCTGTGGCCGCAGTGGCAGAGCGGGTTATTGCGTAAAAACGCCCATGATGCTTTAGAAGCCTA -TCAGGAAGCGATTCGCTTGATTCTTAGCGAGGATCCGCAACCTACGCCACTGGCCTGGCAGCGAATGCGG -GTAAATCAGGCACATAACACTCTGTATAACTCATTGAATCAGGCGATGCAGGAACCGGCGTTTAACAGCC -ATTATCTGGCAGATATGAAACTGTGGGTAACGCACAGCCAGTTTATTGTTGAGCATATTAATGCCATGAC -CACGCTGGCGCGGGAACACCGGGCATTGCCACCTGAACTGGCACAAGAGTATTTACAGTCTTGTGAAATC -GCCATTCAGCGTTGTCAGCAGCGACTGGAGTATGACGAACCGGGTAGTTCTGGCGATGCCAATATCATGG -ATGCGCCGGAGATGCAGCCGCACGAAGGCGCGGCAGGTACGCTGGAGCAGCATTTACAGCGGGTTATTGG -TCATCTGAACACCATGCACACCATTTCGTCGATGGCATGGCGTCAGCGACCGCATCACGGGATTTGGCTG -AGTCGCAAGTTGCGGGATTCGAAGGCGTAATGCAGGCTAAACCATCGGATAAGGCATTCACGCCGCATCC -GACATCTTTTGCCTGATGCTTCGTATTTACGCCCCAACCACCTTCGCCACCGCGTGGGCGAAACGTTGCA -TCCCTTCATCGATATCCGCATCTTCCACCACCAGCGACGGTGCAAAACGCATCACATCCGGTCCGGCATT -CAGCACCATTACGCCAGCCTCTGCGCCCGCATACAGGAAATCACGCGCCCGACCTTTGTACTGTGGTTTC -AGCTCTGCGCCAATCAACAGCCCCATACCGCGAATATCGCTAAATACATCGTACTGCTGATCGATCTTCT -GCAGATGGTCAACAAAACGCTGGCGTTTCGCCTGAATGCCTTCCAGCACTTCAGGGGTATTGATGATATC -AAACGCCGCCCCCGCTACTGCACAGGCCAGAGGATTACCGCCGTAGGTGGAACCGTGAGAACCAGGATGA -AACGCAGAAGCAATTTCCGCCGTGGTCAGCATGGCGCTAATCGGGAAGCCGCCGCCTAACGCTTTCGCAG -AGGTCAGAATATCCGGCGTAACGCCGTAGTGCATGTAAGCAAACAAATCGCCGGTCCGCCCCATCCCGCA -CTGCACTTCATCAAACACCAATAATGCCTGATGTTGATCGCACAGCTCGCGCAAGCCCTGCAAAAACTCT -GGCGTCGCTGCCGTCACACCGCCCTCGCCCTGGATCGGCTCAACCACCACCGCACAGGTGTGATCATCCA -TCACCGCTTTCACTGCATGGAGATCGTTAAAGGGAACGTGGATGATGTCTGCCGGTTTCGGCCCAAAGCC -GTCGGAATATTTTGGCTGCCCACCCACCGAAACGGTAAACAGCGAGCGACCATGAAAAGCGTTATGGAAG -GCAATAATTTTGGTTTTGAACGGGCTATGACGCACACAGGCGTAATGGCGTGCCAGTTTAAAGGCGGTTT -CGTTAGCTTCCGTGCCGGAGTTCATAAACACCACGCGTTCGGCAAACGTTGCCTCAATCAGTTTACGCCC -AAGACGCAGCGCCGGTTCATTGGTGAAAACGTTACTGATATGCCACAGAGTTTCGCCCTGGGTTTTTAAC -GCGTTCACCAGCGCAGGATGGCAATGGCCCAACGCCGTAACTGCAATGCCACCCGCGAAATCGACATACT -CCTTGCCTTGCTGATCCCAGATTCGGCTGCCCTGACCTTTTACCGGAATAAACTCTGCCGGAGCATAAAT -CGGCAGGATCACTTCATCGAAAGTCGCGCGTGTAATTGCTGTTTGTTCAATTGCCATCTCATGATCACCC -TGTTACGCATAAACAAATGTGAAATTATAACCACAAAATATGCATAAAAAATCACTAAATGGCAATCAGA -AATCAGCGATGCAGGAAATTAGCCAGCAGTTGATGTCCTTGTTCGCTAAGAATACTTTCTGGATGGAACT -GCACACCTTCCAGATCCCACTGGCGATGGCGAATCCCCATAATCTCTCGGGTTTCGCTCCAGGCCGTCAC -GTCAAAGCACGCTGGTAATGAGTCAGGTTCCACCACCAGCGAATGGTAGCGTGTCACGGTAAGTGGATTT -GCCAGCCCCCGAAATACGCCCTCACCGTTATGTGTAATCGGCGAGGTTTTGCCGTGCATGACCTTTGCGG -CGCGCACAACTTTACCGCCAAATGCCTGCGCCATTGCCTGATGACCGAGGCAGACGCCAAGAATCGGCAA -GCGCCCGGCATAGTGGCGAATAACGTCAAGGGAGATCCCGGCTTCATCTGGCGTACAGGGGCCAGGTGAG -ATGACAATTTTTTGTGGTTTAAGGGCGTCGATATCCGCCAGCGTCAACGCATCGTTGCGCTTAACCAGCA -CATCCGCCCCCAGTTCACAAAAGTACTGGTAGAGGTTCCAGGTAAAAGAATCGTAGTTATCTATAAGCAG -GATCATGGCGGCTCCGGTACAAAAGAACCGCGCTATTTTACTCAGATTCCCCGGCTTCGCTTACCACTTT -GCTAAATATCATCTGCAGTGCGGTGAGATCCCCCATTGCCCCACTCTGATTTGCCTGATTCCAGGCCTCT -TTTTCGATACCCTGCCAGCTCAGTTGATATCCGGCATGAATCGCCAGTTGCTCGAAGAAGATCCGCTGTG -CCAGACCACTTCCCACCCGGAAGGGATGCAGCACGTTGATTTCACAATAGTAATGCGCCAGCCGCTCGAC -GAACTTCGCTTTCTCCAGGCCAACCAGATAACCTTCTTCCTCCAGATCCTGCATCAGGGCATTGCCCTCT -TTTTCGATATAAGCAAAGTGGCAGAACGGCGTATCACCCTGATAAATATCAACTTCACGCAGTTGCCCTG -CCCAGTCGAAAATATCCTGATACAGCTGGCGATGGATAGTTCGCAAATGCGGTAAACCGCGCACCAGCGG -ACCAAGCTCAATGGTCGCAGCACGCAGCGCCGTCATTTCGTAAGCGGCCTGTTCCAGCCGCTGCTGCTGG -CGGATGTTCAGCCGGTTACGCATGATATCAAGGCCTGGATAAAGATACGGATCGCGCCCTTCGCCGAATT -TATCGCTCATAGTGACTCCTCAGCTCTTCAAGGCGCGCTAAAGCCTCTGCGGCAGTAAGAGTGACTAAAG -GCATCTCGACGCCTTCAAGACGGCGACTGGCCTGAAAATTACGATTACGCTGAAGCTCCCAGAGACGGGA -CTTTTGCTTATCGGTGAGTTTCTTCACTTGATGCCTCCCTGAACGTGTCCATTTGCCACAAGTATAAGCG -GCAAATCCGGGTTACGCCGGGAGAGCAGAAGCGCGGGCAAGATTGCCCGCGCGAGAAATCATTACGGCAG -GACTTTAGCGGAAAGGATAACTACCGGTTTTGACGGCACATTCTGGTACGGACCAACGTCATGAGTCGGC -ACCTGGGAAATCTTATCGGCAACGTCCATGCCTTTCACCACTTTACCAAATACCGCGTAACCGAAATCAC -GCTGACCATGGTCAAGGAAGGCGTTATCGGCAACGTTGATAAAGAACTGGCTGGTGGCGCTGTCTTTGTC -AGCGGTACGTGCCATCGCGATGGTGCCACGCGTGTTGCGCAGGCCGTTATCGGCTTCATTTTTGATTGGC -GGGTTTGGTTTTTTCTGCTGCATCTGCTCGGTGAAACCGCCGCCCTGAATCATAAAGCCAGGAATGACGC -GGTGAAAGGTAGTGTTGTTATAAAAACCGCTGTTCACATAATCGACAAAGTTTTGCACAGACACTGGCGC -TTTTTGTTTATCCAGCTCCAGTTCGATGTTACCAGCTGAGGTTGTCAACAATACGTGCGGGTCCCCTTTC -GCTGCCATTGCTGCGGGAGAAAGAGCAGAAAGAGCGAAAACAGCAGCCATCGCCGCCAGGGTCGATTTGA -ACATGAGATTTCCTTAACAAACAGAGCAGAAAAAAAGCAAGTGAAGAGATTCTAAATAGCCTTCAAGAAC -AAGGCCATCCCTTTACCTAATTTTACGTATCTGAAATATATGTAACCTGACGATCACTTTTTATTCCGTG -ATCAAAATCACCTCTTAAAATGCAATTTAGCAACCGATTGCAATAAAACATTTAAACAGATCACAAAATC -ACCTAAAATCGCCCGCTCGCGGCATATCCCGCTATGCCATTTTATTTTTGAACGCAGGCCAATCATGACT -AACAGCAATCGCATCAAGCTCACATGGATTAGCTTTCTCTCCTACGCACTGACTGGTGCGTTGGTTATTG -TCACCGGGATGGTGATGGGAAATATCGCCGATTATTTCAATCTGCCTGTTTCCAGTATGAGTAATACCTT -CACCTTCCTCAACGCCGGCATTTTAATCTCTATCTTCCTCAACGCCTGGCTGATGGAAATCGTCCCGTTG -AAAACGCAGTTACGTTTTGGCTTTCTCCTGATGGTGCTGGCGGTTGCCGGTTTGATGTTCAGCCACAGCC -TGGCGCTGTTCTCGGCGGCGATGTTCATTCTCGGGGTGGTCAGCGGCATCACCATGTCGATTGGTACATT -CCTGGTAACACAAATGTATGAAGGGCGTCAGCGCGGTTCCCGCCTGTTATTTACCGACTCCTTCTTCAGT -ATGGCTGGGATGATTTTCCCAATGATCGCCGCGTTTCTACTGGCGCGCAGCATTGAGTGGTACTGGGTTT -ATGCCTGCATCGGGCTGGTGTATGTCGCTATTTTTATTCTGACCTTCGGCTGTGAGTTCCCGGCGCTGGG -CAAACATGCGCCAAAAACGGATGCTCCGGTAGAGAAAGAAAAGTGGGGGATCGGCGTACTGTTTCTCTCT -GTTGCGGCGTTGTGCTACATCCTCGGTCAGTTAGGTTTTATCTCCTGGGTGCCTGAGTATGCCAAAGGCC -TGGGCATGAGCCTGAACGACGCGGGCACGCTGGTGAGTAACTTCTGGATGTCATACATGGTCGGCATGTG -GGCGTTCAGCTTTATTCTTCGCTTCTTTGATTTGCAACGCATTCTGACCGTACTGGCTGGTCTGGCTGCG -ATTCTGATGTACGTCTTTAACACCGGAACACCAGCACATATGGCGTGGTCAATTCTCGCTCTGGGCTTCT -TCTCCAGCGCGATCTATACCACCATCATCACCCTGGGTTCACAGCAGACCAAAGTACCGTCGCCAAAACT -GGTTAACTTTGTCCTGACCTGCGGAACCATCGGTACTATGTTGACCTTTGTGGTTACCGGCCCGATCGTT -GAACATAGCGGTCCGCAGGCGGCACTGCTTACAGCAAACGGTCTGTACGCTGTCGTCTTTGTGATGTGCT -TCCTGTTAGGTTTCGTCAGCCGTCACCGTCAGCATAACACCCTGACCTCTCATTAATTGCTCATGCCGGA -CGGCACTATCGTCGTCCGGCCTTTTCCTCTCTTCCCCCGCTACGTGCATCTATTTCTATAAACCCGCTCA -TTTTGTCTATTTTTTGCACAAACATGAAATATCAGACAATTCCGTGACTTAAGAAAATTTATACAAATCA -GCAATATACCCATTAAGGAGTATATAAAGGTGAATTTGATTTACATCAATAAGCGGGGTTGCTGAATCGT -TAAGGTAGGCGGTAATAGAAAAGAAATCGAGGCAAAAATGAGCAAAGTCAGACTCGCAATTATCGGTAAC -GGTATGGTCGGCCATCGCTTTATCGAAGATCTTCTTGATAAATCTGATGCGGCCAACTTTGATATTACCG -TTTTCTGTGAAGAACCGCGCATCGCTTATGACCGCGTACACCTCTCGTCTTACTTCTCTCACCACACCGC -CGAAGAGCTGTCGCTGGTGCGCGAAGGCTTCTACGAGAAACACGGCATCAAAGTTCTGGTCGGCGAACGC -GCTATCACCATCAACCGTCAGGAGAAGGTGATTCACTCCAGCGCCGGACGTACCGTTTTTTATGACAAGC -TGATCATGGCAACCGGTTCCTACCCGTGGATCCCGCCAATCAAAGGTTCTGATACTCAGGACTGCTTTGT -CTATCGCACTATTGAAGACCTCAACGCCATTGAATCCTGCGCCCGTCGCAGCAAACGCGGTGCCGTTGTT -GGTGGCGGCCTGTTAGGTCTGGAAGCCGCAGGCGCGCTGAAAAACTTAGGTATTGAAACCCACGTTATCG -AATTTGCCCCTATGCTGATGGCAGAACAGCTTGATCAGATGGGCGGCGAGCAGCTGCGTCGCAAAATCGA -AAGTATGGGCGTGCGCGTTCACACCAGCAAAAACACCCTTGAGATTGTGCAGGAAGGTGTTGAAGCGCGT -AAAACCATGCGTTTTGCCGACGGCAGCGAACTGGAAGTCGACTTTATCGTCTTCTCTACCGGTATCCGTC -CGCGCGATAAGCTGGCAACCCAGTGTGGTCTGGACGTTGCTCCGCGTGGGGGTATTGTCATTAATGATTC -CTGCCAGACTTCCGATCCGGATATCTACGCCATCGGTGAATGCGCAAGCTGGAACAACCGTGTATTTGGT -CTGGTAGCACCTGGCTACAAAATGGCGCAGGTCGCCGTTGACCATATTCTCGGTAGCGAAAACGCCTTTG -AAGGTGCTGACCTTAGCGCCAAGCTGAAACTGCTGGGCGTAGACGTAGGCGGTATTGGTGATGCGCACGG -TCGCACGCCTGGCGCACGTAGCTACGTTTACCTCGACGAAAGTAAAGAGATCTACAAACGCCTGATTGTC -AGCGAAGACAACAAAACCCTGCTCGGTGCGGTACTGGTGGGCGATACCAGCGACTACGGTAACCTGCTGC -AACTGGTGCTGAACGCTATCGAACTGCCGGAAAACCCGGATTCCCTGATCCTGCCAGCACACTCGGGTAG -CGGCAAGCCGTCTATCGGTGTTGATAAACTGCCGGACAGCGCGCAAATCTGCTCCTGCTTCGACGTCACC -AAAGGTGATCTGATTGCTGCCATCAACAAAGGCTGCCACACAGTTGCGGCGCTGAAAGCTGAAACCAAAG -CGGGTACTGGCTGCGGTGGCTGTATCCCGCTGGTCACTCAGGTACTGAACGCGGAACTGGCGAAACAGGG -CATCGAAGTTAACAACAACCTGTGCGAACACTTTGCTTATTCGCGTCAGGAACTGTTCCATTTGATCCGC -GTTGAAGGCATTAAAACCTTCGAAGAACTGCTGGCGAAACACGGCAAAGGCTACGGTTGTGAAGTTTGTA -AACCAACCGTCGGTTCGCTGCTGGCCTCCTGCTGGAACGAATACATTCTGAAGCCGGAACATACTCCGCT -GCAGGATTCTAACGACAACTTCCTCGCTAACATCCAGAAAGACGGCACCTACTCGGTGATCCCGCGTTCT -CCGGGCGGTGAAATCACCCCGGAAGGGCTGATGGCGGTAGGTCGTATCGCGCGTGAATTTAATCTCTACA -CCAAGATCACTGGCTCCCAGCGTCTGGCGATGTTTGGCGCACAGAAAGACGATCTGCCGGAGATCTGGCG -TCAGCTGATTGAAGCCGGCTTCGAAACCGGTCATGCCTATGCGAAAGCACTGCGTATGGCGAAAACCTGC -GTGGGTAGCACCTGGTGCCGCTACGGCGTTGGCGACAGCGTCGGCCTCGGCGTGGAACTGGAAAACCGCT -ACAAAGGCATCCGTACGCCGCACAAAATGAAGTTCGGTGTCTCCGGCTGTACCCGTGAATGTTCAGAAGC -TCAGGGTAAAGACGTGGGTATTATCGCCACTGAAAAAGGCTGGAACCTGTATGTTTGCGGTAACGGCGGC -ATGAAACCGCGTCATGCGGATCTGCTGGCGGCGGATATCGATCGCGAAACGCTGATCAAATATCTCGACC -GCTTCATGATGTTCTACATCCGTACTGCCGACAAACTGACGCGTACCGCACCGTGGTTAGAAAACCTCGA -AGGCGGCATCGATTACCTGAAAGCAGTGATCATTGACGACAAACTGGGGCTGAACGCACATCTGGAAGAA -GAGATGGCGCGCCTGCGTGAAGCGGTACTGTGTGAGTGGACTGAAACGGTCAATACGCCGTCTGCGCAGA -CTCGCTTCAAACACTTCATCAACAGCGACAAGCGTGACCCGAACGTGCAGATGGTGCCAGAGCGCGAACA -GCACCGTCCGGCAACGCCGTATGAACGTATCCCAGTAACTCTGGTGGAGGACAACGCATGAGCCAGTGGA -AAGACATCTGCAAAATCGATGACATCCTGCCTGAAACCGGCGTCTGCGCGCTGTTAGGTGACGAGCAGGT -CGCGATTTTCCGCCCGTATCACAGCGATCAGGTGTTTGCGATCAGCAACATCGACCCGTTCTTCGAGTCC -AGCGTGCTGTCACGCGGACTGATTGCGGAACACCAGGGCGAGCTGTGGGTCGCCAGCCCGCTGAAAAAAC -AGCGTTTTCGCTTAAGCGACGGCTTGTGCATGGAAGACGAACAGTTTTCCGTCAAACATTACGAAGCGCG -AGTGAAAGACGGCGTGGTGCAGCTGCGCGGTTAATGTTTTAACGGGAGGCGCAATGCCTCCCCTTTTTGC -ATGGTCCTGTAATAATCTTCGGTATATTGCAGGACATTTTTTAAACTTTTTGTTTTATTTTTTGTTTTTA -TTTTTTAAAGGATAATCAAATGTTTACAGACACTATTAATAAGTGTGCGGCTAACGCTGCGCGCATTGCA -CGCCTGTCGGCAAATAACCCGCTCGGCTTTTGGGTCAGCTCCGCCATGGCGGGCGCGTATGTGGGTCTTG -GGATCATCCTGATTTTCACGCTCGGTAATTTGCTCGATCCATCCGTACGCCCTTTGGTGATGGGCGCGAC -CTTTGGTATCGCCTTAACGCTGGTGATTATCGCCGGTTCTGAACTGTTCACCGGACACACCATGTTCCTC -ACCTTTGGGGTAAAAGCGGGCAGCATCAGCCACGGGCAAATGTGGGCAATCCTGCCGCAAACCTGGCTGG -GTAACCTGGTCGGTTCCGTCTTCGTTGCCATGCTCTATAGCTGGGGCGGCGGTAGCCTGCTGCCGGTAGA -TACCAGCATCGTTCACTCCGTCGCGCTGGCTAAAACCACTGCACCGGCAATGGTACTCTTCTTCAAAGGT -GCATTGTGTAACTGGCTGGTTTGCCTGGCAATCTGGATGGCGCTGCGCACTGAAGGGGCGGCGAAATTTA -TCGCTATCTGGTGGTGTCTGCTGGCATTTATCGCGTCCGGCTACGAGCACTCTATCGCTAACATGACGCT -GTTCGCGCTCTCCTGGTTCGGCAACCACAGCGAAGCCTACACGCTGGCGGGTATTGGTCATAACCTGCTG -TGGGTGACGCTGGGTAATACTTTATCAGGTGCCGTATTCATGGGATTGGGTTATTGGTATGCTACGCCGA -AAGCGAATCGTCCGGTTGCGGACAAATTTAATCAAACTGAAACGGCTGCCGGTTAATTACTAAGGGGTTT -TTACGTGGATCATTTGCCTATATTTTGCCAATTACGCGATCGCGACTGTCTGATTGTCGGCGGTGGTGAT -GTCGCGGAACGCAAAGCAAGGTTGCTGTTAGACGCAGGCGCTCGCTTAACGGTGAATGCATTAGCGTTTA -TTCCACAGTTCACCGCATGGGCAGATGCAGGCATGTTAACCCTCGTCGAAGGGCCATTTGATGAAAGCCT -TCTCGACACCTGCTGGCTGGCGATTGCAGCGACGGATGATGACGCGCTTAACCAGCGCGTCAGCGAAGCC -GCTGAAGCTCGTCGCATCTTCTGTAACGTGGTCGATGCGCCGAAAGCCGCCAGCTTTATTATGCCGTCGA -TTATTGACCGCTCACCGCTCATGGTAGCGGTCTCCTCTGGCGGCACCTCTCCGGTTCTGGCACGCCTGTT -GCGCGAAAAACTTGAATCACTGCTGCCGTTACATCTGGGCCAGGTAGCGAAATACGCCGGGCAATTACGC -GGGCGAGTGAAACAACAGTTCGCCACGATGGGTGAGCGTCGCCGTTTCTGGGAGAAATTGTTCGTTAACG -ACCGCCTGGCGCAGTCGCTGGCAAACAACGATCAGAAAGCCATTACTGAAACGACCGAACAGTTAATCAA -CGAACCGCTCGACCATCGCGGTGAAGTGGTGCTGGTTGGTGCAGGTCCGGGCGATGCCGGGCTGCTGACA -CTGAAAGGACTGCAACAAATTCAGCAGGCAGATGTGGTGGTCTACGACCGTCTGGTTTCTGACGATATTA -TGAATCTGGTACGCCGCGATGCGGACCGTGTTTTCGTCGGCAAACGCGCGGGATACCACTGCGTACCCCA -GGAAGAGATTAACCAGATCCTGCTGCGGGAAGCGCAAAAAGGCAAACGCGTGGTGCGGCTGAAAGGTGGC -GATCCGTTTATTTTTGGCCGTGGTGGCGAAGAGCTGGAAACACTGTGCAACGCGGGTATTCCGTTCTCGG -TGGTTCCGGGTATTACCGCAGCTTCTGGTTGCTCTGCCTATTCGGGTATTCCACTCACGCATCGCGATTA -TGCCCAGAGCGTACGCTTAATTACCGGACACTTAAAAACCGGTGGCGAGCTGGACTGGGAAAACCTGGCG -GCAGAAAAACAGACGCTGGTGTTCTATATGGGGTTGAATCAGGCCGCGACTATTCAGCAAAAGCTGATTG -AACACGGAATGCCAGGCGAAATGCCGGTGGCAATTGTCGAAAACGGTACGGCAGTCACGCAGCGCGTGAT -TGACGGTACGCTCACACAGCTGGGAGAACTGGCGCAGCAAATGAACAGTCCATCGCTAATTATTATTGGT -CGGGTTGTTGGCCTGCGCGATAAACTGAACTGGTTCTCCAACCATTAATTTAACCCGGGCCAGAGAATTC -TGGCCTTCTTAATGACTCTTTTTATATATTCAGCAAATAAAACATAGCCCCTTAATAAATATTATCTGCT -AATGGGTTATATTCACCGTTACAGCGACTTACAAAATTAAGTCATTCGCTCACTGACGCCAATTAAATAT -TCCTGTATCGTTCTTAACGAGCAGTCTGCTTATATTCATATAATCAATGAATATTAATTAATATATAATA -CATAGGGAATGTAAATGAACAAATTTATTAAAGTTGCACTGGTAGGTGCAGTACTGGCTACGTTAACTGC -ATGTACTGGTCATATTGAAAACCGTGATAAGAACTGCTCTTACGACTACCTGCTGCACCCGGCAATTTCT -ATTTCTAAAATCATTGGCGGTTGCGGTCCTACTGCACAGTAAGTCTCTGACAGAAATCGGCTAACACCGG -TTTAATTGCCCGACGCCCTCTGGATTTTCCGAGGGCGTATTTGTTTCTATGTCCTTCTTGCCCCCGCCCG -TAAAAATATTTTCACTTTAAATTCAATTTGATAACTACATCCATTAGCCACAGCGCGATCCTGTGCGAAA -TTTTGTGATCTTCCTCCACATTACATAACATCATATGTTGTTATATTCATCATGCATTGTCATGTTACCT -TTTAAATGACTGCAAACTCTCCCCTACAACGTATTGGACAAGAAAAAGGTATCGCTATGGGAAGCCAGGA -ACTCCAACGCAAGCTCGGATTTTGGGCCGTTCTTGCAATCGCCGTCGGGACAACCGTCGGCTCCGGTATT -TTTGTATCTGTGGGTGAAGTGGCAAAAGCAGCGGGCACGCCGTGGCTTACGGTGCTCGCGTTTGTCATTG -GCGGGTTAATTGTGATCCCGCAAATGTGCGTCTATGCGGAACTATCCACCGCTTATCCGGAAAATGGCGC -AGATTATGTTTATCTGAAAAATGCCGGAAGCCGACCGCTGGCTTTCCTCTCCGGCTGGGCCAGCTTCTGG -GCCAACGATGCGCCGTCATTGTCGATTATGGCGCTGGCGATTGTCAGCAATCTTGGCTTTTTAACGCCTA -TCGATCCGTTGCTCGGTAAATTTATCGCCGCCGGATTAATTATCGCCTTTATGTTGCTACACCTGCGCTC -CGTTGAAGGCGGCGCAGCGTTTCAGACGCTAATTACCATCGCCAAAATTATCCCGTTCACTATCGTCATT -GGCCTTGGGATCTTCTGGTTTAAAGCGGAGAATTTTGCCGCCCCTACCACCACTGCGATTGGCGCAACGG -GCAGCTTTATGGCGCTGCTGGCGGGGATCTCTGCCACCAGTTGGTCGTATACCGGCATGGCCTCTATCTG -TTATATGACCGGCGAAATTAAAAACCCCGGAAAAACCATGCCACGAGCGCTGATTGGTTCCTGTCTGCTG -GTTCTGGTGCTCTACACCCTGCTGGCGCTGGTGATTTCCGGCCTGATGCCCTTCGACAAACTCGCCAATT -CTGAAACGCCGATTTCCGACGCCCTGACCTGGATCCCCGCACTCGGCAGCACCGCTGGGATCTTTGTTGC -CATCACGGCGATGATCGTCATTCTTGGTTCGCTTTCCAGCTGCGTGATGTACCAGCCGCGGCTGGAATAC -GCGATGGCGAAAGACAACCTGTTCTTTAAATGCTTCGGCCATGTGCATCCGAAATACAACACGCCGGATG -TCTCCATCATCCTGCAAGGGGCGCTGGGGATCTTCTTCATCTTCGTTTCCGATCTCACCAGCCTGCTGGG -TTATTTCACCCTGGTGATGTGTTTCAAAAATACCCTCACCTTCGGCTCCATCATCTGGTGTCGTAAACGC -GACGATTACAAACCGCTGTGGCGTACTCCGGCTTTCGGGCTGATGACCACCCTCGCCATTGCGTCAAGCC -TCATTCTGGTCGCCTCAACCTTTGTCTGGGCACCGATTCCCGGCCTTATCTGCGCCGTCATCGTTATTGC -TACTGGTCTGCCTGCTTACGCCTTCTGGGCGAAGCGTAGCCGCCAGCTCAACGCTTTGTCGTAATGTTAT -CTGGAGAAAATAAAATGTTGGATATTGATAAAAGCACCGTGGACTTTCTGGTCACCGAAAATATGGTTCA -GGAAGTGGAAAAAGTTCTCAGCCATGACGTTCCGCTGGTGCACGCCATCGTGGAAGAGATGGTGAAGCGC -GACATTGATCGTATTTATTTCGTTGCCTGCGGATCGCCACTCAACGCGGCGCAAACGGCGAAACATCTGG -CGGATCGCTTTTCCGATCTTCAGGTCTACGCCATTTCCGGCTGGGAGTTCTGCGATAACACCCCGTATCG -CCTCGACGATCGTTGCGCAGTAATTGGCGTTTCTGACTACGGTAAAACCGAAGAGGTAATCAAAGCGCTG -GAGCTGGGCCGGGCCTGCGGCGCACTCACTGCGGCGTTCACCAAACGCGCGGATAGCCCGATTACCTCGG -CGGCGGAATTTAGCATTGATTATCAGGCCGACTGTATCTGGGAAATTCACCTGCTGCTCTGCTACAGCGT -GGTGCTGGAGATGATCACCCGCCTCGCGCCGAACGCGGAAATCGGCAAGATCAAAAACGATCTCAAGCAG -TTGCCGAATGCGCTCGGTCATCTGGTACGCACCTGGGAAGAAAAAGGCCGCCAGCTTGGTGAACTGGCCA -GCCAGTGGCCGATGATTTATACCGTTGCTGCGGGTCCGCTGCGTCCGCTGGGTTACAAAGAAGGCATTGT -AACGCTGATGGAATTTACCTGGACGCACGGCTGCGTGATTGAGAGCGGAGAGTTCCGCCATGGCCCGCTG -GAGATTGTCGAACCGGGCGTTCCGTTCCTGTTCCTGCTCGGCAATGATGAAAGTCGCCACACCACCGAAC -GCGCCATTAACTTTGTTAAACAGCGTACTGACAACGTGATCGTCATCGATTACGCCGAAATTTCGCAAGG -GCTGCACCCGTGGCTGGCACCGTTCCTGATGTTCGTGCCAATGGAGTGGCTCTGCTACTACCTGTCTATT -TACAAAGATCACAACCCGGATGAACGCCGCTATTACGGTGGTCTGGTGGAATATTAATCCCTCTCCCGGC -CCGGCAACGGGCCGGATTTACGCAAGGAGTTACCCGATGAAAACAGGTATGTTTACCTGCGGCCACCAGC -GGCTGCCTATTGAACACGCATTTCGTGATGCAAGCGAGCTGGGTTACGACGGCATCGAAATTTGGGGCGG -TCGCCCGCACGCGTTCGCGCCGGACTTAAAAGCGGGCGGCATCAAACAAATCAAGGCGCTGGCGCAGACG -TATCAGATGCCGATTATCGGCTATACGCCAGAAACCAACGGCTATCCGTATAACATGATGCTGGGCGATG -AACATATGCGTCGCGAAAGCCTCGACATGATCAAGCTGGCGATGGATATGGCAAAAGAGATGAACGCGGG -TTATACGCTGATTTCCGCGGCCCACGCGGGCTATCTCACGCCACCTAATGTTATCTGGGGACGGCTGGCA -GAGAACCTAAGCGAACTGTGTGAGTACGCGGAAAACATCGGCATGGATCTAATCCTCGAACCGTTAACGC -CGTATGAATCGAACGTCGTGTGTAATGCTAATGATGTGCTTCATGCGCTGGCGCTGGTGCCTTCGCCGCG -CCTGTTCAGCATGGTCGACATTTGCGCGCCGTATGTCCAGGCGGAACCGGTGATGAGTTATTTCGACAAA -CTGGGCGATAAATTACGTCATCTGCATATTGTCGACAGCGACGGGGCCAGCGACACGCATTACATTCCTG -GAGAAGGCAAAATGCCGCTGCGGGAACTGATGCGCGATATTATTGAGCGGGGCTATGAGGGTTACTGTAC -GGTGGAGCTGGTGACGATGTATATGAACGAGCCCAGACTCTATGCCCGCCAGGCGCTGGAACGCTTTCGC -GCGCTGCTGCCGGAGGATGAGAGATGAAAACCCTGGCGACAATCGGCGATAACTGCGTCGATATCTACCC -GCAACTGAATAAAGCGTTTTCTGGCGGTAATGCGGTCAATGTGGCGGTGTACTGCACTCGCTACGGCATA -CAGCCGGGATGCATTACCTGGGTGGGTGACGATGACTACGGCACAAAGCTGAAGCAGGATCTCGCCCGCA -TGGGCGTCGATATCAGCCATGTCCATACGAAACACGGCGTTACCGCACAAACTCAGGTGGAACTGCACGA -CAATGATCGCGTTTTTGGCGACTACACCGAAGGCGTGATGGCCGACTTTGCCCTGAGTGAAGAGGATTAC -GCCTGGCTGGCGCAGTATGACATTGTGCACGCGGCAATCTGGGGACATGCGGAAGACGCATTCCCACAGC -TGCACGCTGCGGGCAAACTTACCGCTTTCGACTTCTCCGACAAGTGGGACAGCCCGCTCTGGCAGACACT -GGTGCCGCATCTCGATTTTGCCTTTGCCTCCGCACCGCAAGAAGACGAAACGCTGCGTCTGAAGATGAAA -GCGATTGTTGCCCGTGGCGCAGGAACAGTGATTGTCACGCTGGGTGAAAACGGCAGCATTGCCTGGGATG -GCGCGCAGTTCTGGCGTCAGGCTCCTGAACCGGTGACGGTTATCGACACCATGGGTGCCGGAGATTCGTT -CATTGCCGGATTCCTTTGCGGCTGGTCTGCGGGGATGACATTACCGCAGGCGATAGCGCAGGGAACGGCG -TGCGCGGCGAAAACCATTCAGTACCACGGTGCCTGGTAGGTATAACGTTGGCGTGAGCATCTTCACGCCA -ACGTGCTGTTACTTGCCGGAAAACGACCCTATAATCCGAGTAATTCATTCTTTATTTCAGGGTCGATTAT -GTCAGCTACGGACCGCTACTCTCATCAACTCCTCTACGCTACCGTCCGCCAGCGACTGCTGGATGATATC -GCGCAGGGGGTTTACCAGGCCGGGCAACAGATCCCTACCGAAAACGAGCTTTGTACACAATATAACGTCA -GCCGCATTACCATTCGCAAAGCCATCAGCGACTTAGTGGCAGACGGCGTACTGATCCGCTGGCAGGGAAA -AGGCACCTTTGTACAAAGCCAGAAAGTTGAAAACGCCCTGCTTACTGTCAGTGGTTTTACCGATTTTGGC -GTCTCACAAGGCAAGGCGACGAAAGAGAAAGTGATCGAACAGGAACGGGTCAGCGCCGCGCCGTTTTGCG -AAAAGCTGAACATCCCCGGAAACAGCGAAGTGTTCCATCTCTGCCGGGTGATGTATCTCGATAAAGAGCC -GCTGTTTATTGATAGTTCATGGATCCCGCTGTCGCGTTATCCTGACTTTGATGAGATTTACGTCGAAGGA -AGCTCCACCTATCAGTTATTTCAGGAGCGTTTTGACACGCGAGTGGTCAGCGACAAAAAGACCATCGATA -TCTTTGCCGCCACCCGCCCGCAGGCAAAATGGCTGAAATGCGAACTGGGCGAACCGTTGTTTCGCATCAG -CAAAATCGCCTTTGATCAGAATGACAAACCGGTGCACGTCTCCGAACTCTTCTGCCGCGCCAATCGCATC -ACCTTAACTATTGATAATAAAAGACATTAACCGTAGGCCGGATAAGATGCGCCAGCATCGCATCCGGCGA -TGCTGGCGCGTTGAATTTTACATCCCGTACGTTCCCCTCACCCTAACCCTCTCCCCAAAGGGGCGAGGGG -ACCGTTCAGTACGGAATTTAGCTTGACGGTGCTATCCAGCATTAAATACTGGCAATACTCTCACGCAAAA -TCCGCAGCACCGTCTCTTCACCGCTGCGATTCGGGTTAATGCGAATCGCACAATGTTCTGATTGTGGATT -CGCCTGGCGAAACGTTCCGGAAAGGCGATAAAAGAGCGGCGGGATTTCATATTTCGACTCTGCACCCACC -GGGTAAGGCAAGGCACCGCGCTTTTGCGCCTCTTCCAGCACTCTGGCGGCAATCGGCTGATGAAACTCGA -CAATCAACACCTTCGACTGCGCATTAGCAATCACCGCGCTTTTCACTTCCGGCACCGCACCACCGTTAAG -CAAAGCCAGCAACCGTTCAGATACCCCTGCCTGCACCGCGTGCATCACTGGCGCAAACACCAGACCACGC -AATACTTCCAGCGCCTGTGCGCCCTGGATCTGGCTACCGCCGGAGTAAAGCGTGGCGCGAATACGGTTGA -TAACATCAGCATCGCCGACCACTGCACCAACACCCTCTGGCCCAAATAGCTTGAAGCAGGAAAATGTCGA -GACATTCGCGCCGCATTCACAGCCGATTCGAGCCACCTTCATCACCGCATAGTTGTCATCGGTTAACGCT -GGAACACCTGCCGCGCGCAACGTTGCCAGCACATCTGCCAGCACGTAGCTGTCCTGCGGCTGCTGGCGCG -TATGCTGCACCAGCGCCGCATCCGGTTGTTGCTCGTCGACGACCTGCTTCAGTGCCGACAGGTCATTGAA -ATCAACAGTAATAAGCGTCAGCCCCATCTGCTCAATAATAACCCGTGTCGTCGGGTAAACAGGCGCGTCA -TGCACCAGAAGACGCTGCCCCGGTTTGAGCAAAGCCGCCAGCCCGGCGCGAATCGCGCCAGTCCCCGCGC -CCTGCACCAGCGCCGCAGCCTGTGCGTGAAATGCATCAGCCAGCACCTGTTCCACACGCTGGGTAACGCG -CGGTTGATTCAGTCCTGGCGTTAAGCCTAAATCACCGCCAGTAAGAAACTCGCTGCCGGGGAAATGGCGA -CAAATGCTATCCACCAGCGCAAACTGCTTTTGCTGCGCCTCAATAATCGTCAGGCTTTGCAGAGGAAACG -TCTTCATAGGTGCCTTCCTTAAGCCGGAACGAACAGGCCAAGCCAGTAAAGAACATTCAGCAGAATACCG -GTGATCATTACTGCCACGACCGGTGCCGCCATTTTCTGTACCGGACGGCCCAGGGATTCGTTGAGGAAGT -AAATGGCAACCGCGATAGAGAATCCGGTATAACCCGCCATCTTAATTGCTGCGAAAATCGAACCGACCAG -CAGCGCCACTTCCATCAGCATATTCATGGCGTTACGGATGTTATCCGACGCATTACGCACCGACGGGTAG -CGTCCCAGCCATTTGCCGATCGAACGAAGCAGCAAGACTTCCGCCGAAATAACCACTGCGCCTAATACCG -CTGCAACCATCGGATTCGGCGAGAGATAGTCCACCGCATAAACAAAGGTAAAGCCCGCAACTGCATACAC -ACCCGTTGCTAACGCGGTGGTGGCAATCAACGGCACAAACCCCAGTCCGCGCATAAATTCTGCCAGAGCC -GCCTGATTAATCAGCGTTTGCGATTGTTCCGGCGTTACGCCTGCGGAATATGCTTTCTCCAGTGTGAAGA -TCGACACTTCACTGCCAGCAAAAATCTTCATGCTGGCAACGGCGGCAATCAATGCTCCCACGATGGCGAT -ATAGGGTAAGTTTTTGATAATCCGTGACGTGCGTTCTTCAAACACCGAAAGCCCGCTGGCATCAATGTCA -TTTTCATCACGATGACGCAGGTCGTGAGTTATCGCGATCCCCAGCAGCATCACCATGCCAATAAAGATTT -CGATGGATTCAGGGTTAAGATGTGGGAAATAGCGCACGACTACCACACGGGTCATCAGTACCACCACGGC -GGCGATCAGACTTTGCTTCCAGCCAAACTGGTAGAAAATCGCCACCAGCGGGAACAGTGCAAAAGCTGAA -ACCACCGGCGAGCTTAATTCCCCCAGGCTACCTAATACATCCACCGGCAGCGCGGTCAGCAGCTGGTTTA -CTGGCAACAGGCAAGTAAGGATCAACACGCCCCAGATAGCGCCAAGACCAAACGCCATCAGGCTGTTTAT -CGCCAGGACGCCGAGGATATCGGTAGGAAGAAAGAGTAACCATGCGTTGAGCAGCCCGGTTTTCAGGGTA -AAAGAGATCCCCACCGAGGCCACAAAACCAATGCTCAGACCAAAAGCGATACTCCCCGCCTCGCGACGGT -TCATATAGCCTTCAATCAGTTGCGGCAGGATCGGGCGGATGCCGTCATGAAAAACAGCCGCCGAGCGATG -CGCCAGAAGCGATGTCATACCCGTCAGGCACGCCACCACGATAATCTGAATATACAGATCCATAGTCGTG -CCTTTTATTTCAGATGGTTAATCAGCATCGGAATCGCGTGTTCGACGTGCTCAACGGAAAGGCCAAACGC -CACTTTTCCTTCAGCGATCATTTTGGCGATATGCTCGTCTTTCGCTTTAATGCCTGGTTTGGCAATGGTG -CAACTTTTGTTATAGCCTATCACCGCGATGGCAATCGACAATGCCGCGCCCGCACCGGTATTACACGCGC -CGATGTAATAATCCAGTTGCCCGGATTTCACCTTCATTGCCGCTTCCATGTCGTTGTGAATGAAAACTTC -AAAACAGCCAGGAGCCGTCGCTTCAATAGTTTTTTTAATCTGCTCACGCTGTAAGCCTGCAACGCCAATC -TTTTTCATGAGTCTGTCCTTATTGGAAAAATTGAGAGGGATTTTCACGTAACATCACATCCACATCGGCC -TGACTGAATCCTGACTGGCGCAATTGCGGAATAAAGGTGGTTAGTAAATAGTCATAGCCATAACCACCGT -TGGCTTTTAAATGGGAGCGGCGCGTAATATCCATCGACAGCATGACGCGGTTCAGCAACCCACGGTCGCG -TAGCGCATGAAGCATCGCAATACGCTTTTCGTCCGGGTAGTAACTGTTCTTGCCGATGGTGTCGAACTGC -ACGTACGCGCCGAGATCGATCATCTTCAAAATGTTGTCGAGGTTGTCTTTCAGATCGCAGTGACCAACGG -TGACGCGCGAAAGATCAACCCCGTGGGCTTGTAGCAACGCCAGTTGCTCCAGCCCCATCGTGCTGAACGA -CGTATGCGTGGAGATCGGGCGTCCGGTCTGGTTATGCGCCAGCGCAGCGGCAATAAATACCTTCTCTTCC -AGCGGCGTAATCTTTCCTTCGCTGGTGCCGATCTCCGCGATGATCCCGGCTTTCAGCTCCGTGCCATCGA -TACCCTGTTCAATTTCATCGACCATCTCCTGCGCCAGTTCCTGCACGCTGCGGGTCGCCACATGTTCCGG -GAAAAACGCGTCCTGGTAATAACCGGTACAGGCCACCACGTTGATCCCCGTCTCGCGCATTACATCAAGC -ATAAATTGCGCATTGCGCCCCATGTAACGGTTGGTCATCTCAATCACATTACGCACGCCCCGGGTCATCA -GGTCGTTCATCTCCTGGCAAATGAACGCATACTGATCAAGGCGGCAGTCCACGTTGTTTTTAAAGCCGGA -GAGATCAATATGCAGATGCTCATGGGCGAGGGTGTAACCCGTCGGATCAAAACTCATAGGGTGTCTCCTG -CAAACCGGAGGGAGGAAAGAAAAGAGCGACCATTTTGTGGCGGTGGCGCGCGGAAAAATTCACACACGGT -AGCCCCCACATCAGAAAGCGTGGTGCGCACACCGAGCTGCGTAGCGATCATCCCTTGCTGATAAACCAGC -ACTGGCACCACTTCGCGGGTATGGTGGCTGTGACCAATGGTCGGATCGTTGCCGTGATCCGCCATCACGA -CCAGGCAATCATCTGGCTGCATCGCCTCAACAAGCCGGGCAAGGTTACGGTCAACGACCTGCAAACGTTC -GGCATAACGTGCGACGTCTTCTGCATGACCAGCGAGGTCGGTTTCCTGAATGTTGGTGCAAATAAACGCC -GTCGGATGGGTGTTAAATTCGTTGAGGGTGATATCCATAATCCGCTGGCTATCCACCAGATTTTGCCAGC -TCACGCCATAAGGATTGTTGACGATATCTGCCACCTTACCCACCAGCACGGTTGGCACGCCTGCTTCATA -CAGTTTTTGTGGCACCTGCACTTTTTCATCGACGCCATAGCCCATATGCACGACCTGGAAACCGTTGTCA -TAAGCGCCAGAACGCGGCGCATTGATACCAATAAAGCGCCCTTCTTTGCTTTCTGCGGCATCGAGAATGC -GTTGACTGTCGGTTAACAGGCCACCAAATGTAATGACCCGACCGACCTGTACCTGCTCACGCACGATACG -ACCAATTTTGATTGCGTCGTCAAAAGAGATCACAGAGAGATTGGCGGTAATGTTATAGACCTGGCCTAAA -TCCGCCTCGAGATTATCGCCAATCGCAACCGCCTGATTGACCCACAGAAATTGCAGATCATCGCCACGGC -GCTCCACCTGCCAGCCAGCGGAAACTAATGCCTGCTCAACACGGTCAATCACATCGCGAAAAGGCATCCG -CAGCGGCGGTAACGGGCGCGTGCCTAAAATTTCCTGATGCCCCATAAAGGTATCGCCACCTTCATGTTGC -AGCTCTGCCACGCCCCAGGTTGCGGAATCTGACGGCTGCATATCGCCTGGCGCATAACCCAATGCGTTGA -TTAGCCCCAGCGTCTCCAGCGTTGGTAGCTGCAAATGCGGCAACTGGCTCAGGATGTGACCACATGTATT -CGCTCCCGCATCTTGCGGACGCACCAGCGTGACATCTTTCATTGCCCCTACGCCAAAGCTATCAATCACT -AACACCACAAATCGCGCCATTACGCCCCCAGAGAGTTTCCAAGACTGTCATAACGACCGACGATTTCCGG -TTCGCCACGATGAATACCGGACACCAGCACCACATCGCTACGGGTGACAAAAATCTGCGTGCGAAAACAG -AGCACCACTGCACTGCTTACCGGAAACTCGCCTGCCAGCGGCAGGGTGTAGTCGATACTGCTGTCATCCA -CAGTTTTGAGATTGGTTTCAGTAATCTTTTGATTTTCTGGCGTAAACACCAACGCATGTTGCGCATGACC -ACGACGATAGTAACCGCCGCCGTAGCAGTAGCTGTCGCCACGGAAATGATGGGAGATTTCACTTAACCAG -AGCATCGCGATACGTTCAGGCTGATCGCCCTGCTGGTTTGCCGGAATAGTGCCCGTCAGCGCATGACCGG -GTTCGGCATGAGTCACACCGTATTGCGCCAGTAATGGCAGCGAAGTGCAGCTGGTCGCTGAAGGCGCGTT -CAGTTGCTCAAGTGCAATACCAGATTTCGCCAGTTGATCCCGTGCCTGTATCAGCGTGTGAAGATTCGGT -GTCGGCAAAACTTTTCCGACAGCCTCATCCCAAAGCAGGCAAGGGAAATGGGTAAGTCCGGCTAAATGCA -GCCCTGGCAGATTCTGGATTTCGGCGACAATCTCCGGCAACACCTTGAGGGCAAAACCGCTCTCCTGGCC -CGGATAAAGAAAATCATCGTCGCTATAAACTTTAAGCAGCACAGACTGGATTCGCCCGGCCTTCACCGCC -GCCGCAGAAACTTCCCGCGCTTTGTCGAGAGTAAACACGGTGATGACGTCGGTGCCCTGTTCAACGGCGT -CAGCAACCTGATGACAAGGGATTTGTACCAGATGCCCCTGATGCGCCACAGGCAAACCAGCGCGGCGCAT -GACTCGCGCCTCTTTGTAATCCACCGCCACAATGCCGCTGTAGCCTAATGCCAGCAATTTTTCCGCCAGC -CACGGATTACGACCAAACTGCTTGGTCATCAGATACAGTTCAATGCCGTAAAGCCGCGCCGTCTCAATCA -GCCGCTTACCGTTTTCCAGTATCTGATCCACGTCGATCACCCAGCTGTCCGGGGCGATCTTGCCCTGCTG -CCACAGGCTTAGTGCGGCGGAAATCAGCGCCGGGTTCTGGCGTTTCAATGCTTCTACAAACATCTTGTTG -CCTCGTTTCTGTTCCTTGAATTAAATATTCATTTTTTTGAATATTTAGGTTGTGCGACGTGGATTTGTCG -GGAGCTTCAAACCTCTTCGTTAGCAGCCATCCATAATCCATAAAGGTTGGCCAGCAAATAGCCTTCTTCA -CACGGGTTAACTTCCAGTGCGAATTCCTTCAACAACACCTGATGCAATTGCACAACGGCTTGCCAGTGGC -TGGATTGCGCCAGTTCTGCCAGCAACTCGTTATCCAGCGGCTCTATTTCTTCACCACGGCGACTGCGCAT -CAGTGCACTCGCCATATGTGTCATCGCCATCGTTCCTTGCTCACTGCGCACCGGCAGATGGCACTCTGTT -TCCAGTACGTTGACGACCTGCATCATGCCTTTGCAGATGTCCTTATCAATAACGCCTGCCTCGCAAAGCA -GGTTGAGTCTGGTTTCCATATCAGATGCCTTTCGTTTAATAACTCGGTTCCTGTTCCCCACTCACTACCC -GTTGTTGATGGGCGAGCAGGGCGTGTTTATCTACAACGGCACGCAGCAGTTGTTGCATTGGGTAATCATC -GACTCGCGTCAGGACCACGGCTTCGGTGGCCTGTAAAAATCGCGGATCGTCTGTGAGCGGCGTCGCCTCT -AATCCCAGCATGGTCAGTTCGTTTTCCGCCACCACGTTCCAGATCACCGCATCGACATCGCCTTTAACAA -TGCGTTGTAAACTCTCGTGATAAGAGAGATCGACTCGTTCCACATCACTACCGCCAAAAAAAACATCGGT -CATGATTTTCTGATCCGCCGAACGGTTATCCAGCCCCACGCGCTTCACGTTTGCGGACTCGCCTTTACGG -CAAATCAACTGGTGCTCGCCAACGTAGGTGTGCGGCCCCAACTCCAGCGCGAGGCATAAGCCTTTTTGCG -TGAGATAACTTTCCGCCGCTAGTCGCGAAACCACCGCCATGTCATACACGCCATTAAGCAGACACTCCAC -GCGAATATCCGCGCCACGCATGTGCGCATAGTAAAAAGGAATGCCATCAAACTGGGCTTTCAATCCGCTC -GCCAGGCCTTCGTACAAACGGGTATAGGGCAAGGGCATTGCACATACCACGTTGTTGATATCCACATGAG -TCAGCAATGCTTTGTTATCCATCTCGACCAGATAACTGCCATTGCGCCCACGGCGTTCAATCCGTATCGC -TCCGCTTGATTCCAGCGTTTTCAACGCGGCCTGCGTCAGGCCAACGGATGAACGGCATTCATTTGCCAGC -TCATCTATGGTTTTCAATCGATTACCGCACTTTTCACCCAACAAATAACGGGCCAGCGTCGTGATGACGA -CGCCTTCTTTTTTGATAAACGTTCGACGCATAATAAATTTTCAGTAAATTGAATATTTATATCTTCAGGA -ATTTGAAGATAAGGCGCAACAGCGAGATGTGGAAACGGCGAGGCACTTCACATTTTTTCGGATTATTGCA -AATGAGGATAAAAAAACCGGGTTTCCCCGGTTTCAGAGTGATGATAAAAGCAAAATTGCCTGATGCGCTA -CGCTTATCAGGCCTACATTTCCTTGCAATATGTGCATTACTTTGTAGGCCGGATAAGGCGTTCACGCCGC -ATCCGGCATGAACAAAGCGCAATTTGCCAGCAATAGTGAATTACGGCTTCGCCACAAAACCAATCGCTTC -GTACACCGCTTTTAGCGTACGGGAAGCGTGCGCGCTGGCTTTTTCCGCGCCATCTTTCATCACCTGTTGC -AGGAAGGCTTCATCGTTGCGGAAACGGTGATAGCGTTCCTGCAATTCAGTCAGCATACCGGAAACGGCAT -CAGCCACTTCACCTTTCAGATGACCATACATCTTGCCTTCGAACTGTTTTTCCAGTTCTGGGATGCTCTG -GCCCGTTACCGCTGAAAGGATATCCAACAGGTTGGAAACGCCCGCTTTGTTCTGCACATCGTAGCGAACT -ACCGGCGGCTCGTCGGAGTCAGTGACCGCACGTTTGATTTTCTTCACTACCGATTTCGGATCTTCCAGCA -GGCCGATAACGTTATTGCGATTATCGTCAGACTTGGACATCTTCTTGGTCGGCTCCAGCAGCGACATTAC -GCGCGCGCCAGATTTCGGAATAAACGGCTCCGGCACCTTAAAGATCTCGCCATACAGCGCGTTGAAACGC -TGGGCAATATCGCGGCTCAGTTCGAGGTGCTGTTTCTGGTCTTCACCCACCGGTACCAGATTAGTTTGAT -ACAGCAGGATGTCCGCTGCCATCAGCACCGGATAGTCAAACAGACCAGCGTTGATGTTCTCGGCATAACG -CGCAGATTTATCTTTAAACTGCGTCATGCGACTCAGTTCGCCGAAGTAGGTATAGCAGTTCAGTGCCCAG -CCTAACTGTGCATGTTCCGGCACGTGGGACTGAACAAAAATGGTGCTTTTCTCAGGATCGATACCACAAG -CCAGATACAAGGCCAGCGTATCCAGCGTCGCTTTACGCAGCTTCTGTGCATCCTGGCGCACGGTGATCGC -GTGTTGGTCAACGATACAGTAAATGCAATGGTAGTCATCCTGCATGTTTACCCACTGACGCAGCGCACCC -ATGTAGTTACCAATGGTCAATTCACCTGAGGGCTGTGCGCCACTAAAAACGATGGGCTTAGTCATTTTTC -GATTCCTGATTTTCGCTATGCGGAAGCCCTAATGCGGGCAGAAGGTCATTTATAGACTGATAAATTACAT -CAGGCTGGCTGAGATCGATAGCCTCGCCGTAGTTATATCCGTAGGTTAAGCCAACTGATGGGCAACCTGC -CGCTTTTGCCGCCTGAATATCATTGCGTGAGTCGCCGACAAACAGCATCTGTTGTGGGGCAATTCCCATC -CGCTCAGCCACCAGTAACAGCGGGTCCGGATGCGGTTTTTTGTTTTGCACATCATCACCACCAATCACCA -CGCTGAAGTATTTGGCGATATCTAAGGCTTCGAGCAGCGGCGCGACGAACGGCGTCGGTTTGTTGGTGAC -CAGGCCTAGCGGCAGGCCTTTAGCCTGCAACGCGCCCAACGTATCGGCAACGTGCGGGAACAAAAACGTC -CCCTCTTCGGCAACCTCGCCATAGTAGCGATCGAACAGTTTACGCAGAATACGTACCTGTTCTTCTGCCG -GAATGTCGTCATCAACGGGCGGTTTACCCATTGTTTTACGCTGAGTCGCACGTTCCTGACGCGCCCAGGT -CAATGCGCGCTCCATCAGAACATCTGCGCCGTTACCAATCCAGGTAATAACGCGTTCTTCACCTGCGACG -GGCAACTCCAGCGCATACAGCGCCATATCTACCGCAGCAGCAAGACCAGGAGCACTGTCGACCAGCGTAC -CATCAAGATCAAAAGCGACGCCGCGAATATCTTCAAACTTATTCATGACTTACCTTTGCCAGTTCACTGC -GCATTTCATCAATGACTTTTTTGTAGTCTGGCTGGTCGAAGATTGCCGAACCGGCGACGAACATATCCGC -GCCCGCCGCAGCGATTTCGCCAATGTTGTTCACCTTCACGCCACCGTCCACTTCTAGTCGAATGTCAAAG -CCAGACTCGTCGATACGGCGACGTACTTCGCGCAGTTTATCCAGTGTTTGAGGAATGAAAGACTGACCGC -CGAAACCAGGGTTGACGGACATCAGCAGGATCACATCCAGCTTATCCATCACGTAATCCAGATAGCTCAG -AGGTGTCGCCGGGTTAAATACCAGACCCGCTTTACAGCCATTTTCTTTAATCAGTTGCAGCGTGCGGTCA -ACATGCTCGGAGGCTTCTGGATGAAAGGTAATGATGCTGGCACCAGCGGCAGCGAAATCAGGCACAATGC -GATCGACGGGTTTCACCATCAGGTGTACGTCGATAGGGGCGGTAATGCCATAGTTACGCAAGGATTTCAG -CACCATTGGCCCAATCGTCAGATTGGGAACATAGTGGTTATCCATGACGTCAAAATGCACGACATCAGCG -CCAGCTGCCAGGGCTTTTGCGGTATCTTCACCCAGGCGGGCAAAATCAGCCGACAGAATTGAGGGGGCAA -TCAAATACTGTTTCATCCGCTTCTCCTTGAGAATTATTTTTTCGCGGGTGAAACGACTCCTGGTTTGTAC -AAAGCCAGCAGTTCGTCCACCTTTTTACGTGTGCCGCCGTTGCTGCTTATACTGCGTCGAACTTTGACGA -CATGCAATTTTGCGCGCTGATACCACTCACGCGTTAACATCGTATCGTGATTGGAGATCAGCACTGGAAT -ATGGCGCTCAACCAGACCTTCGGCGATCTCCGCCAGATGCGCTTGTTGTTCAAGCGTAAAACTGTTTGTG -TGATACGCCGTAAAGTTGGCGGTCGCAGACAGCGGTGCATAAGGCGGATCGCAATAGACGACGGATGCAT -CATCTGCGCGCGCCATGCTATCGGCGTAAGACTCACAATAGAAAAAGGCATTCTGCGCTTTTTCAGCGAA -GTGATACAACTCTGCTTCCGGGAAATAGGGTTTTTTGTAGCGGCCGAACGGCACGTTAAACTCACCGCGC -AGATTGTAACGACACAGGCCGTTGTAACCGTAGCGGTTCAAATATAAAAACAGTACCGCCCGACGGAACG -GATCCTGGCTTTTGTTGAACTCTTCGCGGAACTGATAGTAAACCTCGGCGCAATTTGTTTCGGGAACAAA -CAGCTCGCGTGCGGCCTGTACGTACTCATCAGTACGCATCTTCACAATGTTATAGAGACTGATCAGGTCG -CTATTGATATCGGCAAGGATATAACGAGAAAAGTCGGTGTTGAGAAACACCGACCCGGCACCTACAAAAG -GCTCAACCAGACATTCGCCCTTGGGCAAATGCCGTTTAATATCATCAAGCAGGGGATACTTGCCCCCTGC -CCACTTCAAAAAAGCGCGATTTTTCTTCATGCTGACTAACTAATTACACCTTCTCCGGCTGTGGAGAAAG -CTCCGACAGCATCCAGCGCTTCAGGCAACTCCCGCAACGATAAACCATTGCGGGAGATAACCTTGATTAC -TTCAGATCGGCCTGTACCTGACGCAGCGGTTTCGCCCACGGGTTTTTGGCCTGGACATCTGCTGGCAATG -TAGATACCGCTTTTTTCGCCTCTTCTTTCGAAGCGTACACGCCAGAAACCAGGACATACCACGGCTGACC -ATTACGCGTCGTTTCATAGACAACGTAGTTTTTCAGATTCTCTTTCTTCGCCCAACCGTTCAGGTTGTCG -TAGTTAGAGGAACTGCTCAGCTGCAGAGTGTAATGGCTGGACGGTGCCGATTTCAACGAACCAACATTAC -CTGCGGTCTTCGCCCCAGCAGCGGGTGTTGCTGTGGTTTGCGCCGGGGATGCCGTCTGTACTGGAGCCGT -AGTCGCCGTCTCTTTTGGTGCTGGCGTAGAAGTCGCAGCCGGTGCCTTCGTGCTCGCCACAGGGGCAGCT -GGTTCAGTACGCTTCGGCGTCTGTGCTACCGGCTTCGGCTCCGTTTTCACGGTTGCTTGCGGTTTTTTCG -GTTCAATCACCGCCTGCTGACGAGCTGGGCGCGTAGTGGACGGACGTTCAGCGGTTTGCGTTTTCGCCGT -GTCACGCGATGCATTGCCATTGCGAACAGGCGCAACCGTTGCGGGTTCAGTCGGCAACGTGGAATTGACC -GCCACATTGTTCAGCTGTTGCTGATTTTGTGGCTGGGTCAGCGCATTGTTCAGGTCACCCTGCACTTCAA -CACGTTGTTGACCATCCGTTGCCACCGGGGTTTGCCCTTGAGTCGGCGTAGAAGAGATCGGTGGCAGAGA -AACATCCTGCTGAGTATTTTCCGCAGACGTGGTTCCCGGCGCTGGCTGCACGCCATTCGCCTGATCGGTC -GCATTGCCAGCAAGATCAATACTCTTCTCGCCAGACGCGGTTTGATCGCTGGAAGTGGTCGAGGGGGCTT -TTAGCGCAGAACCGATACCGATGATCAACAGCAGTAGAACCAGAATGCCGACGCCCATCATCATATACTG -ACGAGAAGCGGGTTTACTGGCTGCTTTTTTGCGCTTACGCGGACGACGCTCTACGCGCTCTTCATCCACG -GTTTCATCTTCGGATTCGTCAATTTCTTCTTCGATTTCCGGTTCCTCATTGCGCTCTTTTTGCGCACGAG -TCGGACGGCGATCGTCAGTGTCATCAAGTTCAATATCATCAAAATTGATCTGCGGTTCGCCACGTTCAGT -ACGCTCAGAACGTTCAGAAGATTGACGAGAACGACCAGTACGACGATCGCTGGGATCGGGTTTCAGCTCG -TCTTCTGGTTTGAATTCATCCATTTAACACCCCACTAAAAGGTTAATGCTTACCACGTTGCAATTAACCT -GAAGCTAATAGACCGCTTGATAAGCGGCCTGACCTTTCTTGTTGTTACGCTGATTGACAATCGGCAATGG -CGTTAAGAACAAGCTCGTGCGAAACGCCGCTGCGAACTTCACTCTTACCAATTGCCAACGGAAGAATTAA -GCGCATCTCTCCCGCAAGGACTTTCTTGTCACGCAGCATATGCGGTAAATACGCCTGCGCGGACATTTCG -CGCGGCCCATTGACCGGTAACCCAGCCCGCTTGAGCAGGGTTATAATACGCTGCGTTTCGGCAGAACTAA -ACTGCCCGAGACGTTCCGACGTCCGCGCCGCCATCACCATACCCGCAGCGACCGCTTCACCATGTAACCA -ATTGCCATACCCCATTTCAGCTTCAATGGCATGACCAAAGGTGTGTCCCAGATTCAGTAAAGCACGTAAC -CCGGTTTCGCGCTCGTCGGCGGCGACAACTTCTGCCTTCAGTTCACAACAACGGCGAATACAGTACGCCA -TTGCCGGACCGTCCAGACGCAACAACGCATCCAGATTCTCTTCCAGCCAGTTAAAAAACGCACCGTCAAG -AATAATGCCGTATTTGATGACTTCTGCCAGCCCCGACGCTAACTCACGCGGGGGAAGCGTTTTCAGACAG -TCGAGATCCACCACCACTGAAGCAGGTTGGTAGAACGCGCCAATCATGTTTTTACCGAGGGGATGGTTGA -CCGCAGTTTTGCCGCCAACGGAGGAATCGACCTGCGACAGTAACGTCGTCGGGACTTGAATGAAACGGAC -ACCGCGCTGATAACTCGCCGCCGCGAAGCCGGTCAGATCGCCCACTACGCCGCCGCCAAGCGCCACCAGC -GTAGTATCGCGACCATGCGGTTTTTGTAACAACGCCGTAAAGACGGTATCGAGTACAGCCAGGCTTTTAT -ACTGCTCGCCGTCAGGGAGGATAACGCTATCGACGTTAACACCCGCCTGTTCAAGTACGCCGCGGACCTT -ATCGAGATACAGAGGAGCCAGGGTTTCGTTGGTGACCAACATGACCTGCTCGCCCGATTTCAGCGGTAAG -AATGAAGCTGGTTCATTAAACAAACCAGATGCGATGGTAATTGGGTAACTACGTTCCCCGAGAGTAACGA -CAATCCTCTCCATAACGCGACATCCACCTTAATTACTGTACCCGCAGACGAGTGTATATAAAGCCAGAAT -TAGTTGCTTTCCAGCATGTGAATAATCTGGTTTGCAACCACTTTAGCGCTTTGATCATCAGTACGAATGG -TCACGTCGGCAATCTCTTCATACAGCGGATTGCGTTCATTGGCCAACGCTTCCAGAACTTCACGCGGCGG -TGTTTCAACGTGCAGCAACGGGCGTTTTTTATCACGCTGCGTGCGTGCAAGTTGCTTTTCGATGGTCGTT -TCAAGATAAACGACAACGCCACGAGCGGAAAGACGGTTACGCGTTTCACGGGATTTCACAGAGCCGCCGC -CAGTAGCCAGCACAATACCCTGTTTCTCGGTCAACTCATTGATGACCTTTTCTTCGCGATCGCGGAAGCC -TTCTTCGCCTTCTAAATCGAAAACCCAGCCCACATCAGCTCCGGTTCGTTTCTCAATCTCTTGATCGGAA -TCGTAAAATTCCATATTGAGTTGTTGAGCTAACTGGCGCCCAATAGTGCTTTTTCCGGCACCCATAGGCC -CAACCAGAAAGATATTGCGTTTCTCTGCCATTTTTTCGGTACTACTAAGACTATTCGTTAATGATAAACC -CGCTTCGCTCAGAGAGCGCCGCAGGACATGAACTGAAACCTCATAAGATATTGCGAGAGTCAGACTGAAA -ATTATCTCAATACTCCAGCGGGTTTGGCAACTGAATAAATCACCCATCCCTCTGCATATCTGGTCGCTGC -AAGCGCGCTGCCTTGCTACCACCGCTCTGGCGATAAATCACCGGGTAAGATTAGCGTAAAAAAGACAGCA -AAATGCCGCCTGAATGATAAATCATCATCATGGAACGCAGGCAGCGAAGAGCACCAACTCTCAAATCGGT -ACTCCTTGTATGCTAAATACCTGCGCGCGTCAAATAGATGAAACACGTTCAGCGTAAAAACATTACCGCT -TTTACGGCTGTTTACTCACTGGAAACCAGTCGTGGCGTGATAAACACCACTAACTCGCGTCGTTCATCTT -CTTTTCCGTCATGACGAAATAATTGCCCGAACCAGGGAATGTCGCCAAGCAACGGTACGCTATCCTGACC -CGATTTATTTTTACGGGTAAAAATGCCGCCCAGCGCCAACGTTTCTCCGCTTTTGACCTCGACCTGCGTT -TCGATCTCCTGCTTATCAATCGCCAGCACTTCGCCATCGGCCTGCTGTAGCACCTGCCCCGGAACGTTCT -GGCTGATGTGTAATTTCAGCCGGATGCGACCTTTTTGTAACACCGTGGGCGTGACCTCCATCCCCAGGAC -GGCCTCTTTAAATTCCACCGACGTCGCGCCACTTTCCCCGCTGGAAACCTGATATGGAATTTCGCTCCCC -TGTTTAATGCTGGCAGGCTGAAGATGTGAGGCCAGCAGACGCGGACTGGCGATAATATCCAGCTGCTGTT -TTTGTTCGAGCGCGGAAAGCTCAAGATCCAGCAAGCGTCCGTTGATGCGCCCAATGTTAAAACCGACATG -CGTTGTCGCCGTCGCTACGGAGAGGTCGCTACCAAGCGTGGTGACTTGCCCAACGCCACCAGCGTGTTGC -GCATCGGCCAGCGTCCATTTCACGCCTAACTCACGCAAACTTTTTTCATTAATGGTGACAATATGCGCCG -ACAGCTCAACCTGCCCGACCGGCAGATCCATTTGCGCTACCCACTGTTCAAGCGCGCTTAACGCCGTTTT -GTTATCTCGTAGCAAAAGGCGATTGGTGCGTTTATCGACGGTCATACTCCCTTTGGCACTCAGTAGCTTC -TCCCCCGCTTTCGCCAGTTCTCCCGCGTCGGCGTATTGCAGGGTTATACTGCGATTTTCCAGCGGCAGAT -TTGCCTGCGCCCGCGCCTGCTCCGCCTCCTGGCGGGCGATATTGTTATTCTGCCAGGCAATGGAATGCAC -TGAGAGAATGTTGCCTTCCTGCCGCGTTATCAGTCCGGCGCTTTTCACTACAGTTTGTAGTGCCTGCTTC -CAGGGAACATCTGTTAGATGTAACGACACCGTACCGCTGACGTCTGGCGACACGACCAGGTTCAACTTCT -CCTGTTCAGCCAGCGCCTGCAACACCTGAGCTACCGGAACGTCATCCACCATCAGCGTCACTTTTTGCGG -CTTTGCCGCCTGTACGCCGGGTATCAGCATCAACAGTAGTGCGGCTATCCATTGCTTCATTTGTATCTCC -TTGCCGTTGCCACAACCATTGTGGCGGTTCGCAGTTTGTCCCGGTACCCAGCGTTAGTACGTCTGGCGTC -AGCTGTAAAATTGTCCAGCCGTTTTCCAGCACATCGTTTTGCTGCACCCGTCGCCATTTCTTTTGCCCGT -CTTTTATTACACCGATGATGCGCTCGCCTCGCCCTACCATCCCCTGATAGCGCCACTGGCTAAGTTCGCT -AATCCGGCATAGATCTTCCGGCGGTTTAAAAGGGTCACGCATACCGGTTAAAAGGCACAATGCAATACCT -GCCAACAACCAGCGTTTAACCCTCATGCGGCGTCTCCAGTTGTAGCGTGAACAAAAGATCATCACCTTCC -ACGCTTAACGAAAAACGGCTCACGCTGACGTTGCGCTCTGCCAGCCGTGTAAATGCCGACGGCACTGCTT -CCCACAGCGTTTTCAACGCCAACTCGCCTCCCTGCGCGGATGGATGCCAGGAAACCAGTTGCGCGCCGGA -TAACTGAAAATCCAGTGGCGAAAAGGGCAGCGTTTTTTCCTCGCTGAAGGGAGCGGTGTCTACCAGGCGA -TACAGTGCGGCCCACTGCTGGTGATGACTTGCCCGTAGTCGAATTAATGCGTCGCGCTCTTCATGGTGTG -TCGATGACAGAAAAATGAGCGTAACTAACATCAGCAACCAGAATGCCCAGCAAAGCTGGCGGAGGCGGGG -TGATGTGGCGAACCACCAGTCAAAGAACATGTTCATCGCTAACCTTCCTTGTTAACTGATACTCAAATTG -CCAGCGTCCCTGCGCATCCTGCTGCGTGGCTCCCCGCTGATTGAGATGAAAAGATGCATCCTGGCGGAGT -GACGTTTCTAGTGCGTTTAACGCGGTAATGCTTGTTGTCAGCCCCTTGATCTCCAGCGTTCCCTGCTGCC -AGCTTATCGTTGTCAGCCAGGCGTGCTCGGGTAAAAGCGCCGCCAGTGCTTCCAGCGCAGATTGCCAGTC -GCGGGTAAATTGTCGCTGGCGCTGCCGTTGCGAACGCTGTTCGCGTAACTGCTGTTGCTCCAGCAAACGT -GGCTTCGTTATCTGTAAGCTGCGGGCGAGTTGTTGTTCCGCCTGAAGCAAAACTGCGTCTATGCGCGCTT -CGGCGCTGCCTGTCAGACGCAGTATTAGCGTTATCCCGACGGCCAGCAGCAGAGGCGCAACGAACATCAG -CAACCAGAAACGCAGAAAAGCGGTCCGGCGTTGCTGTCGCCAGGGCAAAAAATTAATTGGCGGGTTCATC -AGTACGCCTTCCCAAGCGCCAGCCCCAGCGCGATGGCAAAGTCTCCACCTGGCGGCGGTAGCGGCGGCTG -ACGAACAGAAACGGCCTCCCAGGGATCAAATCCGCCTTCGCCACATATCGCGACGCTTTCGGGATCAACG -GATAACGCTGCCGCCAGCTCCTTCGCGCTAGTCATCCCCACCGCCAGTTTGCGCCCCCAGCTATAGCGCG -TCGCCCACAGCCACTGTTCGTTATCACGCCAGGCCAGACATTGCTGATGAGAAGGTAAAAAAGGCAGGAA -TCGCTGTAATGCACTGGCATCCGGGGTGATCGCGCTCACATGAACACGCAACCTTTCTGCCAGAGTAAGC -AGCGTTGCCAGCTCTTTGCTTTGCGCGGCAGTCACGTTATAGGCGGGACTGAGTGAGTCTTCGCTGTAAT -CGAAGCGCAGGGAGTCCGGATCCATATCCAGCTCGCGGGCCATCGTCCCTGACAGCCAGGCCGTTTGCTC -CCGCTCACCAAGGGACATCGACGGGCGCGGAAATGACCGCTGTAATGTGCGACTGGCGGGAAACGCCAAC -ATAATGTGATGACGCTGCGGCAGTTCGCGACTCCACGGTAACAACGTTTTAGCCAGCTGCTGCGCATCAA -CAATCCGCCCATCTTTGATAATGTCGTTCTCCAGCGGCAACCGCCACCAGCGTTGCAAAAAGCATTCTTT -TGCGCCCCGCACGATCGCAACCGCTACCGCTTCTTGCTGTTGTAAATGCAAACCAATTTGCCAGATCTTA -AATGCCATTGTGATGATCTCCTTATCACCCGTCACTCTGACGGGTATATCAATGCGTCTGGCTTGCCTTT -ATACTACCGCGCGTTTGTTTATAAACTGCCCAAATGAAACTAAATGGGAAATTTCCAGTGAAGTTCGTAA -AGTATTTTTTGATCCTTGCAGTCTGTTGCATTCTGCTGGGAGCAGGCTCGATTTATGGCCTATACCGCTA -CATCGAGCCACAACTGCCGGATGTGGCGACATTAAAAGATGTTCGCCTGCAAATTCCGATGCAGATTTAC -AGCGCCGATGGCGAGCTGATTGCTCAATACGGTGAGAAACGTCGTATTCCGGTTACGTTGGATCAAATCC -CACCGGAGATGGTGAAAGCCTTTATCGCGACAGAAGACAGCCGCTTCTACGAGCATCACGGCGTTGACCC -GGTGGGGATCTTCCGTGCAGCAAGCGTGGCGCTGTTCTCCGGTCACGCGTCACAAGGGGCAAGTACCATT -ACCCAGCAGCTGGCGAGAAACTTCTTCCTCAGTCCAGAACGCACGCTGATGCGTAAGATTAAGGAAGTCT -TCCTCGCGATTCGCATTGAACAGCTGCTGACGAAAGACGAGATCCTCGAGCTTTATCTGAACAAGATTTA -CCTTGGTTACCGCGCCTATGGTGTCGGTGCTGCGGCACAAGTCTATTTCGGAAAAACGGTCGACCAACTG -ACGCTGAACGAAATGGCGGTGATAGCCGGGCTGCCGAAAGCGCCTTCCACCTTCAACCCGCTCTACTCGA -TGGATCGTGCCGTCGCGCGGCGTAACGTCGTGCTGTCGCGGATGCTGGATGAAGGGTATATCACCCAACA -ACAGTTCGATCAGACACGCACTGAGGCGATTAACGCTAACTATCACGCGCCGGAGATTGCTTTCTCTGCG -CCGTACCTGAGCGAAATGGTGCGCCAGGAGATGTATAACCGTTATGGCGAAAGTGCCTATGAAGACGGTT -ATCGCATTTACACCACCATCACCCGCAAAGTGCAGCAGGCCGCGCAGCAGGCGGTACGTAATAACGTGCT -GGACTACGACATGCGCCACGGCTATCGCGGCCCGGCAAATGTGCTGTGGAAAGTGGGCGAGTCGGCGTGG -GATAACAACAAGATTACCGATACGCTGAAGGCGCTGCCAACCTATGGTCCGCTGCTGCCTGCCGCAGTCA -CCAGCGCCAATCCTCAGCAAGCGACGGCGATGCTGGCGGACGGGTCGACCGTCGCATTGAGTATGGAAGG -CGTTCGCTGGGCGCGTCCTTACCGTTCGGATACTCAGCAAGGACCGACGCCGCGTAAAGTGACCGATGTT -CTGCAAACGGGTCAGCAAATCTGGGTTCGTCAGGTTGGCGATGCATGGTGGCTGGCACAAGTGCCGGAAG -TGAACTCGGCGCTGGTGTCGATCAATCCGCAAAACGGTGCCGTTATGGCGCTGGTCGGTGGCTTTGATTT -CAATCAGAGCAAGTTTAACCGCGCCACCCAGGCACTGCGTCAGGTGGGTTCCAACATCAAACCGTTCCTC -TACACCGCGGCGATGGATAAAGGTCTGACGCTGGCAAGTATGTTGAACGATGTGCCAATTTCTCGCTGGG -ATGCAAGTGCCGGTTCTGACTGGCAGCCGAAGAACTCACCACCGCAGTATGCTGGTCCAATTCGCTTACG -TCAGGGGCTGGGTCAGTCGAAAAACGTGGTGATGGTACGCGCAATGCGGGCGATGGGCGTCGACTACGCT -GCAGAATATCTGCAACGCTTCGGCTTCCCGGCACAAAACATTGTCCACACCGAATCGCTGGCGCTGGGTT -CAGCGTCCTTCACCCCAATGCAGGTGGCGCGCGGCTACGCGGTCATGGCGAACGGCGGCTTCCTGGTGGA -CCCGTGGTTTATCAGCAAAATTGAAAACGATCAGGGCGGCGTGATTTTCGAAGCGAAACCGAAAGTAGCC -TGCCCGGAATGCGATATTCCGGTGATTTACGGTGATACGCAGAAATCGAACGTGCTGGAAAATAACGATG -TTGAAGATGTCGCTATCTCCCGCGAGCAGCAGAATGTTTCTGTACCAATGCCGCAGCTGGAGCAGGCAAA -TCAGGCGTTAGTGGCGAAGACTGGCGCGCAGGAGTACGCACCGCACGTCATCAACACTCCGCTGGCATTC -CTGATTAAGAGTGCTTTGAACACCAATATCTTTGGTGAGCCAGGCTGGCAGGGTACTGGCTGGCGTGCAG -GTCGTGATTTGCAGCGTCGCGATATCGGCGGGAAAACCGGGACCACTAACAGTTCGAAAGATGCGTGGTT -CTCGGGTTACGGTCCGGGCGTTGTGACCTCGGTCTGGATTGGCTTTGATGATCACCGTCGTAATCTCGGT -CATACAACGGCTTCCGGAGCGATTAAAGATCAGATCTCAGGTTACGAAGGCGGTGCCAAGAGTGCCCAGC -CTGCATGGGACGCTTATATGAAAGCCGTTCTTGAAGGTGTGCCGGAGCAGCCGCTGACGCCGCCACCGGG -TATTGTGACGGTGAATATCGATCGCAGCACCGGGCAGTTAGCTAATGGTGGCAACAGCCGCGAAGAGTAT -TTCATCGAAGGTACGCAGCCGACACAACAGGCAGTGCACGAGGTGGGAACGACCATTATCGATAATGGCG -AGGCACAGGAATTGTTCTGATTAAAAAGGCGCTTCGGCGCCTTTTCAGTTTGCTGACAAAGTGCACTTGT -TTATGCCGGATACGGCGTGAACGCGTTATCCGGCTAACAAAATCGTGAAAACTCAATAAATTGCAGAAAC -CCCATAAGCCTGATAAACATTGTGCATCAGGCAAACTTCACGCATTTACACTCGCCCCTGCCCTTTCAAC -CATTCGCGCACGAGGAACAGCGCACTGACATTGCGCGCTTCATTGAAGTCAGGGTCTTCCAGCAAATCCA -TCATATGCGCCAGCGGCCAGCGCACCTGTGGTAGCGGCTCTGGCTCATCGCCTTCCAGTGATTCCGGGTA -GAGATCTTGCGCTACCACGATATTCATTTTGCTGGAAAAGTAAGACGGTGCCATGCTGAGCTTCTTCAAA -AAAGTCAGATCGTTCGCTCCAAATCCAACCTCTTCTTTTAGCTCGCGGTTAGCGGCTTCGTAGACGCTTT -CACCCGGATCAATTAATCCTTTCGAAAAACCTAATTCGTAGGATTCAGTTCCCACTGCGTATTCGCGGAT -CAGGATCAGGTGATCGTCCACAATCGGCACAATCATCACTGCTTCCCGGTTGGTTGGACGCATTCGTTCA -TAAACACGCCGCACGCCATTGCTGAACTCCAGATCCACGCTCTCGACGGTAAACAGTCGGGAACGGGCTA -CAGTTTCAACATTCAGAATGGTGGGTTTTTGTAATGATTTGCTCATCGTGGGATCTATGCTGTGAAATCA -GCGGTTATTGTGCGATATCGGACACGCTTTCGGCAATGTGAATTGCATGTTATTTACATTTATGTAACTT -AATAAATAATCGTCCTCAAATCAAATTAAAAGTCAATAGGTTGAAATAACTCCAGGAATTTGCTGATATT -CCGCCTTCAGAGGGTTTGCTATGATCAGCGGTTACTGTGATGTGCTTAATGATGCTCAAGTTAAACTCCA -CGCTTGCCGATAGCCAACCGCAGAATCATGTATTGTGTCCGGTGCGACTGACCACGCCTGACAGACTAAG -TAAGATGGGGAAAGCATGAGCACCATTGTGATTTTTTTAGCTGCTTTGCTGGCCTGCTCACTACTTGCGG -GATGGCTGATAAAAGTGCGATCCAGACGGCGTCAGCTGCCCTGGACCAACGCCTTCGCGGATGCGCAAAC -GCGTAAACTCACACCTGAAGAACGTAGCGCCGTTGAAAATTATCTTGAGAGCCTGACGCAGGTATTACAG -GTGCCTGGCCCAACGGGAGCCAGCGCGGCACCGATCTCTCTGGCGCTGAATGCCGAAAGCAACAACGTCA -TGATGCTGACACACGCTATCACGCGTTACGGCATCTCTACCGACGATCCGAATAAATGGCGTTACTACCT -CGATTCGGTAGAAGTCCACCTGCCCCCTTTCTGGGAACAGTACATCAACGATGAGAATACCGTTGAACTG -ATTCATACCGATTCGCTGCCGCTGGTTATTTCACTCAACGGTCATACGCTGCAGGAGTACATGCAGGAAA -CTCGCAGCTATGCCTTGCAACCTGTTCCGTCAACGCAGGCGTCGATTCGCGGGGAAGAGAGTGAGCAAAT -CGAGCTACTCAATATTCGCAAAGAAACGCATGAAGAATATGCGCTGAGTCGTCCGCGCGGGCTGCGTGAA -GCGTTGCTGATCGTCGCCTCCTTCCTGATGTTCTTTTTCTGCCTGATTACCCCGGATGTATTTGTTCCGT -GGCTGGCAGGCGGCGCGTTACTGCTGCTGGGCGCAGGTCTGTGGGGGCTATTCGCGCCCCCGGCAAAATC -CTCCCTGCGGGAAATTCATTGTCTGCGCGGTACACCCCGTCGTTGGGGATTGTTTGGCGAAAACGATCAG -GAACAGATCAACAATATTTCACTCGGTATTATCGACCTGGTCTATCCCGCACACTGGCAGCCATACATTG -CTCAGGATCTCGGTCAACAAACCGATATCGATATCTATCTCGACCGCCATGTAGTGCGTCAGGGACGATA -TCTTTCGCTGCATGATGAAGTAAAAAACTTTCCGTTACAGCACTGGCTGCGCAGTACGATTATCGCTGCG -GGCTCGCTGCTGGTGCTGTTTATGCTGTTATTCTGGATCCCGCTGGATATGCCGCTGAAATTCACTCTCT -CATGGATGAAAGGCGCGCAGACCATTGAAGCCACCAGCGTAAAACAACTGGCTGACGCTGGCGTGCGGGT -AGGCGATACATTGCGTATTAGCGGTACGGGAATGTGTAATATTCGAACTTCCGGAACCTGGAGCGCGAAA -ACCAATTCACCTTTTTTACCGTTTGACTGCTCGCAGATCATCTGGAACGACGCCCGCTCATTGCCATTAC -CAGAATCTGAACTGGTCAACAAAGCGACGGCATTGACTGAAGCAGTTAATCGCCAGCTGCACCCTAAACC -GGAAGATGAATCTCGCGTCAGTGCCTCATTACGTTCAGCAATTCAAAAATCCGGCATGGTATTGCTTGAT -GATTTTGGCGACATTGTACTGAAGACAGCGGATTTATGTTCTGCCAAAGATGACTGTGTGCGACTGAAAA -ATGCGCTGGTCAATCTCGGCAACAGTAAAGACTGGGACGCGCTGGTAAAACGCGCCAACGCCGGGAAGCT -CGATGGCGTGAATGTGTTATTACGCCCGGTGAGTGCGGAATCGCTGGATAACCTGGTGGCAACCTCCACC -GCGCCGTTTATCACGCATGAAACGGCGCGAGCGGCACAATCACTAAACAGTCCGGCCCCCGGCGGATTCC -TGATTGTCAGCGACGAAGGCAGCGATTTTGTTGATCAGCCCTGGCCTTCGGCATCACTTTACGACTACCC -GCCGCAAGAACAGTGGAACGCTTTCCAGAAACTGGCACAAATGCTGATGCATACGCCGTTTAACGCCGAG -GGTATCGTCACAAAAATCTTCACTGACGCCAATGGTACGCAGCATATTGGCCTTCATCCGATCCCGGATC -GTTCCGGCCTGTGGCGCTATCTCAGCACCACATTGCTGCTACTGACGATGCTGGGTAGCGCCATTTACAA -TGGCGTACAGGCCTGGCGTCGTTACCAGCGTCATCGCACTCGCATGATGGAGATTCAGGCCTATTATGAA -AGCTGCCTGAACCCGCAACTGATCACCCCTTCAGAAAGCCTTATCGAATAACACGTTTGCGCGGCAGGTT -ATGCTACCCTGTCGCGCAAATTGCTTCACTCTGGAGATTTCCCTCATGCATATCAACATTGCCTGGCAGG -ACGTAGATACCGTTCTGCTGGATATGGACGGCACGTTGCTCGACCTCGCCTTCGATAACTATTTCTGGCA -AAAGCTGGTGCCTGAAACATGGGGCGCGAAAAACGGGGTTACGCCACAGGAAGCGATGGAATATATGCGC -CAGCAATATCACGACGTACAGCATACGCTAAACTGGTACTGTCTTGATTACTGGAGTGAGCAACTGGGTC -TGGATATCTGTGCGATGACCACCGAGATGGGACCGCGTGCCGTACTGCGTGAAGATACCATTCCGTTTCT -TGAGGCACTGAAAGCCAGCGGTAAGCAGCGAATTTTGCTCACCAATGCGCATCCGCACAACCTGGCGGTA -AAACTTGAGCATACCGGTCTGGACGCACACCTTGATTTATTACTTTCCACCCACACATTTGGTTATCCGA -AAGAGGATCAGCGGTTATGGCATGCGGTGGCCGAAGCTACGGGTCTGAAAGCTGAAAGAACGCTGTTTAT -TGATGACAGCGAAGCGATTCTCGATGCTGCCGCGCAATTTGGTATTCGTTACTGCCTCGGCGTGACTAAT -CCTGATTCCGGGATTGCCGAGAAACAGTATCAACGCCATCCGTCACTGAATGACTACCGCCGCCTGATCC -CCTCGCTAATGTGAAGGAGACGCCATGAAAGAGAAACCTGCTGTTGAGGTTCGACTGGATAAATGGCTAT -GGGCTGCCCGTTTTTATAAAACCCGCGCGCTGGCCCGTGAAATGATTGAAGGCGGTAAGGTGCATTACAA -CGGGCAGCGCAGCAAGCCGAGCAAAATCGTCGAGCTGAATGCCACGCTCACTCTGCGCCAGGGAAATGAC -GAACGCACGGTGATTGTAAAGGCGATTACTGAACAGCGTCGCCCCGCCAGCGAGGCAGCCTTGCTGTATG -AAGAGACTGCGGAAAGTGTAGAGAAACGCGAAAAAATGGCGCTGGCACGTAAACTTAATGCCTTAACCAT -GCCGCACCCGGACCGACGCCCGGACAAAAAAGAGCGCCGCGACCTGTTACGATTTAAACACGGCGACAGT -GAATAACTGTCACCTGCAAGAGAGATGATTATGCCGCAACATGACCAATTACATCGCTATCTGTTTGAAA -ACTTTGCCGTGCGCGGCGAACTGGTAACCGTTTCGGAAACCCTGCAACAGATCCTTGAGAACCACGATTA -TCCGCAGCCCGTTAAAAACGTGCTGGCAGAACTGCTGGTTGCGACCAGCCTGTTAACCGCTACGCTGAAG -TTTGATGGTGATATCACCGTACAGCTGCAGGGCGACGGTCCGATGAATCTGGCGGTTATTAACGGTAACA -ATAACCAGCAGATGCGCGGTGTGGCGCGCGTGCAGGGCGAAATTCCAGAAAATGCCGACCTGAAAACGCT -GGTCGGCAATGGTTACGTGGTGATCACCATTACCCCGAGCGAAGGCGAACGCTATCAGGGCGTAGTTGGT -CTGGAAGGTGATACCCTGGCGGCCTGCCTGGAAGATTACTTTATGCGTTCTGAACAGCTGCCGACGCGCC -TGTTTATTCGCACCGGCGACGTAGACGGCAAACCGGCTGCAGGCGGTATGTTGTTGCAGGTAATGCCTGC -GCAAAATGCCCAGCAGGACGACTTTGACCACCTGGCGACGCTAACCGAAACCATCAAAACCGAAGAACTG -CTGACCTTACCGGCAAACGAAGTGTTGTGGCGTTTGTATCACGAAGAAGAGGTGACGGTTTACGATCCGC -AGGATGTGGAGTTCAAATGCACCTGCTCGCGTGAACGTTGCGCCGATGCGCTGAAAACGCTGCCTGATGA -AGAAGTTGATAGCATCCTGGCGGAAGATGGCGAAATTGACATGCATTGTGATTACTGCGGTAACCACTAT -CTGTTCAATGCGATGGATATTGCTGAAATCCGCAACAACGCGTCTCCGGCAGATCCGCAAGTTCATTAAT -GAGTATGTCCGGCAGAGAGGGCTCTGCCGGATTTTACGACTAATACACCTGATGCGCTTTGTCACTCATT -CAGATTCACATTCAGCCTTTCACCATCCACTACAAGATCGCGCCACGCTTTAGGCTTCGTCCCCAGTTTT -CCATCCTTCGCAGCTGTGAGTAATTTTTCTTTCGTTATTTCGTTCGGAAGTAAACTCATATCAAGCGCGT -CCCATTCTTTTCTGTCTGAGTCAAAGCCATAGACAATGACTCTGTCATCATTAAAAGCAAACAGGATCCG -CTCCGCCTGACCATCACTATTCAGATCTTGCTCGACCAGGACGCAGGCGTCTTTTTCAATACAGGTCATC -ACGTTATAGCGATCCTGGATTAAGGCCGACCAGAATGTCGCATCAGGTTTAACAGAACCAGGGGCAATTA -ACACATTATCGGCTAATACTTTTTCCGATACCTGTTGCTGAAGATGTTGCTCTCCATCTAACGCCATCAG -CAGATCCCGCGCGCGTTTCGGGTCTTTCATAAACCCGGCATCGCTTTTCAGCGACTCAAGCGCAGCACGT -CCATAGCGACCGCTCTGCTCGAGCATGTAGATAGTTACCTGGTCTGACGTGTTTTTGCCGCTCTGATAAC -GCGCCATATGGCTGTTCACGCTAATGCGCATACTGTCCAGCACCGGCGAATTAAGAAGCACCAGTATCAC -CAACACCAATAACGAAACCGCAAGGTTCACTTTGCCCTGAAGAACAACGGGATTTTGCCCTTTACGCCAG -ACGATGCTGACAAAATACCCCAGCGACCACACCAGTAACACCAGCACCGCCAGCACGCCCTGCAAGCGGT -CGACAGTCCAGCCGTACTGAGCGACCCGCAGCCATAACGCCCAGGCGGCGACGAACACATACAGCGGAGC -AACCAGCAAAGCGGTTTTAATCAGGCAACGCAACGGCCCTGTCCAGGGAAGTGACGCTTTTTGCGGATCG -CGGACAATAGCCATTAAGATCAATTGCAAAAAGGCCAGCGTCAACAGCAACCCGGCGGCGGAGATGTGGC -GAGAAATCGCGCTCAGGCCCGTAAACGGCAGGGTGATGATAAACATCAGGGTTAGCAATGATACTAACGG -CAGCAACCCCGTGGCGATTAACGTGAACAACTTTTGAATAGAGTCGATTAAACGTGACTGTGTTCGCGCG -AGGATCACCGCCAGCGCGGTAACCAGACCTAACGTGAGATAAATAAACCAGTCGGTTGCAAAAAAGAGCG -TATTGAAAAACGTGATGCCAACAAGTTTAAACAACTCACTCCACAGTAAAAGCACCAGCCACGTCAAGCC -ATTGGCGAGAAAAATCACCAGTAATATAAGTACGTTATGCCATACTGACTGGTAAAAATAGCGATAGCGG -CTACTGTCATTGCGGATGCGAAGGCTTTGTTGTATCCACGGTAGCAACAACATTGCCATCAACAGCAGAT -AGCAACCAAAATCCCAAAGCGCCTTTTCAGCTCTCCAGGGGTTCATGCCATCAGTTTGCCACTTCAGCCA -GCCGCTCATCCCCAGCGTGGCAATAAACACTAGCGCCAGCCATCCCCAAAGGCGCTTCTGTTTAAAAGAG -ATCACGGAGAAGAGTAAAACGGATGAAAACGCGACGGTCGCAGGCACGCCATAAACAATCCAACTGTGAT -TTTTTCCGGAAAGCCAGGCGATCAGCAGGTAGCAAACCAGACCCTGAAGTAATCCGGTAGCAATCATCCC -CCAGCGTGTTGCGGGTGAAAGTTCAACGTTATCCATGTTGGTTATCCAGAATCAAAAGGTGGGTTAATTA -TCGCATCCGGGCAGTAGTATTTTGCTTTTTTCAGAAAATAATCAAAAAAAGTTAGCGTGGTGAATCGATA -CTTTACCGGTTGAATTTGCATCAATTTCATTCAGGAATGCGATTCCACTCACAATATTCCCGCCATATAA -ACCAAGATTTAACCTTTTGAGAACATTTTCCACACCTAAAATGCTATTTCTGCGATAATAGCAACCGTTT -CGTGACAGGAATCACGGAGTTTTTTGTCAAATATGAATTTCTCCAGATACGTAAATCTATGAGCCTTGTC -GCGGTTAACACCCCCAAAAAGACTTTACTATTCAGGCAATACATATTGGCTAAGGAGCAGTGAAATGCGC -GTTAACAATGGTTTGACCCCGCAAGAACTCGAGGCTTATGGTATCAGTGACGTACATGATATCGTTTACA -ACCCAAGCTACGACCTGCTGTATCAGGAAGAGCTCGATCCGAGCCTGACAGGTTATGAGCGCGGGGTGTT -AACTAATCTGGGTGCCGTTGCCGTCGATACCGGGATCTTCACCGGTCGTTCACCAAAAGATAAGTATATC -GTCCGTGACGATACCACTCGCGATACTTTCTGGTGGGCAGACAAAGGCAAAGGTAAGAACGACAACAAAC -CTCTCTCTCCGGAAACCTGGCAGCATCTGAAAGGCCTGGTGACCAGGCAGCTTTCCGGCAAACGTCTGTT -CGTTGTCGACGCTTTCTGTGGTGCGAACCCGGATACTCGTCTTTCCGTCCGTTTCATCACCGAAGTGGCC -TGGCAGGCGCATTTTGTCAAAAACATGTTTATTCGCCCGAGCGATGAAGAACTGGCAGGTTTCAAACCAG -ACTTTATCGTTATGAACGGCGCGAAGTGCACTAACCCGCAGTGGAAAGAACAGGGTCTCAACTCCGAAAA -CTTCGTGGCGTTTAACCTGACCGAGCGCATGCAGCTGATTGGCGGCACCTGGTACGGCGGCGAAATGAAG -AAAGGGATGTTCTCGATGATGAACTACCTGCTGCCGCTGAAAGGTATCGCTTCTATGCACTGCTCCGCCA -ACGTTGGTGAGAAAGGCGATGTTGCGGTGTTCTTCGGCCTTTCCGGCACCGGTAAAACCACCCTTTCCAC -CGACCCGAAACGTCGCCTGATTGGCGATGACGAACACGGCTGGGACGATGACGGCGTGTTTAACTTCGAA -GGCGGCTGCTACGCAAAAACTATCAAGCTGTCGAAAGAAGCGGAACCTGAAATCTACAACGCTATCCGTC -GTGATGCGTTGCTGGAAAACGTCACCGTGCGTGAAGATGGCACTATCGACTTTGATGATGGTTCAAAAAC -CGAGAACACCCGCGTTTCTTATCCGATCTATCACATCGATAACATTGTTAAGCCGGTTTCCAAAGCGGGC -CACGCGACTAAGGTTATCTTCCTGACTGCTGATGCTTTCGGCGTGTTGCCGCCGGTTTCTCGCCTGACTG -CCGATCAAACCCAGTATCACTTCCTCTCTGGCTTCACCGCCAAACTGGCCGGTACTGAGCGTGGCATCAC -CGAACCGACGCCAACCTTCTCCGCTTGCTTCGGCGCGGCATTCCTGTCGCTGCACCCGACTCAGTACGCA -GAAGTGCTGGTGAAACGTATGCAGGCGGCGGGCGCGCAGGCTTATCTGGTTAACACTGGCTGGAACGGCA -CTGGCAAACGTATCTCGATTAAAGATACCCGCGCCATTATCGACGCCATCCTCAACGGTTCGCTGGATAA -TGCAGAAACCTTCACTCTGCCGATGTTTAACCTGGCGATCCCAACCGAACTGCCGGGCGTAGACACGAAG -ATTCTCGATCCGCGTAACACCTACGCTTCTCCGGAACAGTGGCAGGAAAAAGCCGAAACCCTGGCGAAAC -TGTTTATCGACAACTTCGATAAATACACCGACACCCCTGCGGGTGCCGCGCTGGTAGCGGCTGGTCCGAA -ACTGTAATGATTTGAAGCTGGAGAATATCTATCCAGTATCTTATAGAAAGCAAAACGGGAGGCACCTTCG -CCTCCCGTTTATTTACCCTTCTTTTGTCGTGCCCTGCGCCCGCGTTACCGGCACTGGCAGCCAGGCGCGA -ATGGAAAGCCCGCCCCGCTCGCTGGTGCCAAGCTCCAGCATCCCGTTATGGTTATCCACGATACGCTGCA -CAATTGCCAGCCCTAATCCCGTGCCGCTAATGGTGCGCGCACTGTCGCCGCGGACAAACGGCTGGAACAG -GTGCTTACGTTGTTCCGGCGCAATTCCCGGACCGTCATCTTCCACCTGGAACCAGGCGCGATTCGGCTCC -GTTCCGCTGCTGACTTTGATCCAGCCATTGCCATAACGGGCGGCGTTGACCACCATATTCGCCACCGCGC -GTTTGATCGACAGCGGGTGCATTTTCACTTCAATGCTGCCGGGGTAAAGCGCGGTTTCAATTTCCCGCTC -ATAGCCACTTTCGGCAGCAATCACCTCACCGAGTACTGCATTAAGATCCGCCATTTCCATCGGCATCTCC -TGCCCGGTGCGCAGGTAGTCGATAAACTGCTCAATGATGGCGTTGCACTCTTCGATATCTTTATTGATCG -ATTCTGCCAGATAGCCATCCTGCTCGCTCATCATCTCAGTCGCCAGGCGAATACGCGTCAGCGGCGTGCG -CAAGTCGTGACTTACCCCCGCCATCAGCAGCGTGCGGTCATCCGCCAGTTGCTTAACACCAGCCGCCATA -TGGTTAAAGGCACGGGTAACGGAACGCACCTCCGAAGCGCCATACTCACGCAGCGGCGGCGGAATAATCC -CTTTACCAACCTGCAAGGCTGCGTGTTCGAGATCGACCAACGGTCGGTTCTGGATACGAATAAACAGCCA -CGCCCCGCCTATCGCCAATAGCATAATCGCCAGCGTATAGCGGAACAGCGGAGAGAAATCGCCCTGATGA -ATTTCGGTCAGCGGCACGCGTACCCAGATATTGGGCGACAGCCAGGTTTTCAGCCAGACGACAGGCGAAC -TTTTGTTGACCTCAACGCGCACTTCCGTCGGGCCGCCCAGTTGCTGCGCCATCTGATGGCTTAAGAATTC -ATAGTGTTGCGCCCAACGCAGACCTGCCTCTTCGGCAGCCTCGTTGGAGTAGAGAGAGATCCCCAGCTCA -CGGTAGATCTCCCGACGGAAAGCGGGAGGCACAACCAACTGCGTGCCGTCCTCCAGTTGCAGTTTGTCGG -TCATCAACATACGCACTTCGTACGCGAGGACTTTATTAAACTGCTGGAGGCTCGGCAAAATCGCGAAGTT -CAGCACCACCAGATAAGTCGTCACCAGGCTGGCGAACAGCAAGGTGACGATGAGCAATAACGTACGGGCA -AATGAACTTCGTGGCGAGAAGCGCAATCGCCTCATGCTTTAGAGCCGTCCGGTACAAAGACGTAGCCCAG -ACCCCAGACGGTCTGAATGTAACGCGGATGCGCTGGATCTTCTTCCACCATGCGGCGCAGACGCGAAATC -TGCACGTCGATGGAGCGTTCCATTGCGGAATATTCACGACCACGGGCAAGGTTCATCAGCTTATCGCGGG -AGAGCGGCTCACGCGGATGGCTGACCAGTGCCTTCAGTACCGCAAACTCACCGCTGGTGAGCGGCATCGG -CTCGTCTTCGCGGAACATTTCGCGCGTACCGAGGTTAAGTTTGAACTTACCGAAAGCAATTACCGCCTCT -TCCTGTGACGGTGCGCCTGGCAGTTCGTTCGCCTGACGACGCAGCACCGCACGGATACGGGCCAGCAGTT -CACGCGGGTTAAACGGTTTTGGAATGTAGTCGTCAGCGCCAATCTCCAGGCCTACGATACGGTCCACTTC -TTCCCCTTTCGCCGTCACCATAATGATCGGCATCGGGTTGCTCTGACTACGAAGACGTCGGCAAATCGAC -AAGCCATCTTCACCAGGTAACATTAAATCCAGTACCATAAGATGGAAAGATTCACGAGTCAGCAGGCGAT -CCATCTGTTCTGCATTAGCGACGCTTCGAACCTGGAAGCCTTGTTCGGTGAGATAACGTTCCAGCAGCGC -ACGCAGGCGCATGTCGTCATCGACCACCAGAATCTTGTAGTTCTCTTGCATTGTTTGTACTCCCAAAGGT -TCGCAACAATTTGTAAGCGTGTATTCTTAAAAAAGCTCACGTTCGTCACCAGCTAAATCTGGTATGAATT -TCAGCCTAAATTGTTACAAAGCATATTAAACAGCAGCTTAAGTATACAATTTATTCGGCGAAACATTATT -GATTCTGTTGATATGATCACGTTATACCCAATGTGCGCATTATCAAACAGACAAAGGGAATCAACGAGAT -GAAAACGCCCCTGGTTACCCGGGAAGGGTATGAAAAACTCAAACAAGAGCTTAATTATCTCTGGCGTGAA -GAACGCCCGGAGGTCACAAAAAAGGTGACCTGGGCCGCAAGTCTGGGCGACCGCAGCGAAAATGCTGACT -ATCAGTATAATAAAAAGCGTCTGCGTGAAATCGACCGTCGCGTGCGCTATCTCACTAAATGCCTGGAAAA -TCTCAAAATCGTCGATTACTCCCCTCAGCAGGAAGGCAAAGTCTTTTTTGGCGCGTGGGTGGAGATTGAA -AACGACGATGGCGTGACTCACCGTTTCCGTATTGTCGGCTACGATGAAATTTTTGGCCGTAAAGATTACA -TCTCTATCGATTCCCCGATGGCCCGCGCATTGCTGAAAAAAGAAGTCGGCGATCTGGCGGTGGTGAATAC -CCCTGCCGGGGAAGCGAGCTGGTATGTTAATGCTATCGAGTACGTGAAACCGTAAGGAAGAGTCTTAACC -TCCTGCCGATGGCTGGCATTTTTGCCAGCCAGTCCGTATAACTATCCCCTGATTTTTGATCCGAAAAGAT -GAACTCAAACCATGATGAATGATTCGTTCTGCCGCATTATTGCGGGTGAAATTCAGGCGCGCCCGGAACA -GGTTGACGCTGCCGTTCGCCTGCTTGACGAAGGGAATACCGTGCCGTTTATCGCACGTTATCGTAAGGAA -ATCACCGGCGGTCTGGATGACACGCAGCTGCGTAATCTGGAAACGCGTCTGAGCTATCTGCGCGAGCTGG -AAGAGAGACGTCAGGCGATCCTCAAGTCCATTTCCGAGCAAGGCAAACTCACCGATGATCTGGCGAAGGC -CATCAACGCCACCCTAAGCAAAACCGAACTCGAAGACCTCTACCTGCCCTACAAACCTAAACGCCGCACC -CGCGGGCAAATCGCCATTGAAGCAGGGCTTGAGCCGTTGGCTGACCTGCTGTGGAGCGATCCGTCACACA -CGCCAGAAGTCGCCGCTGCACAATATGTTTATGCCGATAAAGGCGTGGCAGATACCAAAGCCGCGCTGGA -TGGCGCGCGCTATATCCTGATGGAACGGTTTGCCGAAGATGCCGCGCTGCTGGCGAAAGTGCGTGATTAT -CTGTGGAAGAACGCGCATTTGGTTTCTACGGTGGTGAGCGGTAAAGAAGAGGAAGGGGCGAAATTCCGCG -ACTATTTCGATCATCACGAACCGTTGTCCACGGTGCCTTCTCACCGCGCGCTGGCGATGTTCCGTGGGCG -TAACGAAGGCGTACTTCAGCTTTCGCTGAATGCCGATCCACAGTTCGATGAGCCGCCCAAAGAGAGCTAT -TGCGAGCAAATCATCATGGATCACCTTGGCCTGCGCCTGAACAATGCCCCGGCGGATAGCTGGCGCAAAG -GCGTGGTGAGCTGGACGTGGCGCATCAAGGTGCTGATGCATCTGGAAACCGAACTGATGGGCACCGTGCG -CGAACGTGCGGAAGATGAAGCAATCAACGTCTTTGCCCGTAACCTGCACGATCTGCTGATGGCGGCCCCT -GCCGGACTGCGTGCAACGATGGGCCTCGATCCGGGTCTGCGTACTGGGGTAAAAGTGGCGGTGGTCGATG -CCACTGGCAAACTGGTGGCGACCGACACCATTTACCCGCACACCGGACAGGCCGCAAAAGCAGCGATGAC -CGTTGCTGCGCTGTGTGAAAAACATAACGTTGAACTGGTAGCGATCGGTAACGGTACAGCTTCCCGCGAA -ACTGAGCGTTTCTATCTCGATGTGCAGAAGCAGTTCCCGAAAGTGACCGCGCAGAAAGTAATCGTCAGCG -AAGCAGGCGCGTCGGTTTACTCGGCTTCCGAGCTGGCTGCACAGGAGTTCCCGGATCTCGACGTTTCGCT -GCGTGGCGCGGTGTCTATCGCCCGCCGTTTGCAGGATCCGCTGGCGGAGCTGGTGAAAATCGATCCGAAA -TCTATCGGCGTAGGTCAGTATCAGCATGACGTCAGCCAGACGCAACTGGCCCGCAAACTGGACGCAGTAG -TAGAAGACTGCGTAAACGCCGTTGGCGTCGATCTCAACACTGCTTCTGTTCCGCTGTTAACCCGCGTGGC -GGGCCTGACGCGCATGATGGCGCAAAACATCGTTGCCTGGCGCGATGAGAACGGTCAGTTCCAGAACCGT -CAGCAACTGTTAAAAGTGAGCCGTCTGGGGCCGAAAGCCTTCGAGCAGTGCGCGGGCTTCTTGCGCATTA -ACCACGGTGATAACCCGCTGGACGCGTCTACCGTTCACCCGGAAGCCTATCCGGTGGTGGAACGCATTCT -GGCAGCAACACAGCAGGCACTGAAAGATCTGATGGGTAACAGCAGCGAACTGCGTAACCTGAAAGCGTCT -GACTTTACTGATGAGAAATTCGGTGTGCCGACGGTAACCGACATCATCAAAGAGCTGGAAAAACCGGGTC -GCGATCCGCGTCCGGAATTTAAAACCGCTCAGTTTGCCGATGGCGTCGAGACAATGAACGACCTGCAACC -GGGTATGATCCTCGAAGGCGCAGTGACCAACGTCACCAACTTTGGCGCGTTTGTCGATATTGGCGTGCAT -CAGGACGGCCTGGTTCACATCTCTTCATTGTCGAACAAGTTTGTGGAAGATCCGCATACCGTGGTGAAAG -CGGGCGACATTGTGAAGGTGAAAGTGCTGGAAGTGGATCTTCAGCGTAAACGTATCGCCCTGACTATGCG -CCTGGATGAGCAGCCTGGCGAAACCAACGCTCGTCGCGGCGGCGGTAATGAACGCCCGCAAAACAACCGC -CCGGCAGCCAAACCACGCGGTCGTGAAGCGCAGCCTGCCGGTAATAGCGCGATGATGGATGCGCTGGCGG -CGGCAATGGGCAAAAAACGTTAAACGCCCGTACTGGCCTACGGTTCGAATTTGCACGAAATCGTAGGGCA -GATAAGGCGTTCACGCCGCATCTGGCAACGAACGCCTTGCCTGACATAAAAGTGCCGGAGAATATCTCCG -GCATTTTTATTCCACAGCCAAACTCATAATATATTCCGGCAATATTTATCATTTCATTAACAACTGAAAC -CTTAATTAAACATTAGCCAGTCCGGGTAATTCACTATTCGAATTATATTTTCGCTGCGATATAACCTTGA -GCCACATCAACATTGAGTCAGATTATTATTCAAACCAACATTCGCACACATTTTAAGTATTGCTGATAGA -AACCATTCTCATTATCATTGTGTTGTTGATTATTTAATCTCTCCTTTGTTGGCAAATCATCTGGTCTCAT -GTCGCTGTCAAACGCCCCATGAGGTAGTTATCCAGTTAATGAGAAACAAGTAGGCACCTATGCAATACAC -TCCAGATACTGCGTGGAAAATCACTGGCTTTTCCCGTGAAATCAGCCCGGCATATCGCCAAAAACTGCTT -TCTCTTGGCATGTTACCTGGCTCCTCTTTTAATGTGGTGCGCGTCGCTCCACTCGGCGACCCCATTCATA -TCGAAACCCGTCGTGTGAGCCTGGTATTACGCAAAAAAGATCTGGCCTTATTAGAAGTGGAAGCGGTTTC -CTGTTAATACGGTGATAACAACAATGAAAAAATTAACCATTGGCTTAATTGGTAATCCAAATTCTGGCAA -GACAACGTTATTTAACCAGCTCACTGGCTCACGTCAGCGTGTAGGTAACTGGGCTGGCGTTACCGTCGAA -CGTAAAGAAGGGCAATTCTCCACCACCGATCATCAGGTCACGCTGGTGGACCTGCCCGGCACCTATTCTC -TGACCACCATCTCATCGCAGACCTCGCTCGATGAGCAAATCGCCTGTCACTACATTTTGAGTGGCGACGC -CGACCTGCTGATTAACGTGGTGGATGCGTCTAACCTTGAGCGTAACCTGTACCTGACGCTACAACTGCTG -GAACTCGGCATTCCCTGCATTGTGGCACTGAACATGCTCGACATTGCCGAGAAGCAAAATATTCGTATTG -AAATTGATGCTCTGTCGGCGCGTCTGGGCTGTCCGGTGATCCCGCTGGTTTCAACCCGTGGTCGCGGTAT -TGAAGCGCTCAAGCTGGCGATTGATCGCTATAAAGCTAACGAGAATGTGGAACTGGTGCATTACGCACAG -CCGCTGCTCAACGAAGCAGATTCACTGGCAAAAGTGATGCCTTCCGACATCCCGCTGAAACAACGTCGCT -GGCTGGGCCTGCAAATGCTGGAAGGCGATATCTACAGCCGCGCCTACGCCGGTGAAGCGTCGCAGCATCT -GGATGCCGCCCTCGCCCGTCTGCGTAATGAGATGGACGATCCGGCGCTGCACATTGCCGATGCGCGTTAC -CAGTGCATTGCTGCCATCTGTGATGTGGTAAGCAACACCCTGACGGCAGAACCCAGCCGTTTCACCACTG -CGGTAGATAAAATCGTGCTCAACCGTTTCCTCGGTCTGCCGATTTTCCTCTTTGTGATGTACCTGATGTT -CCTGCTGGCTATCAACATCGGCGGGGCGTTACAGCCGCTGTTTGACGTCGGCTCCGTGGCGCTATTTGTG -CATGGTATTCAATGGATTGGCTACACGCTCCACTTCCCGGACTGGCTGACTATCTTCCTCGCCCAGGGCC -TGGGTGGCGGCATTAACACCGTGCTGCCACTGGTGCCGCAGATTGGCATGATGTACCTGTTCCTCTCCTT -CCTTGAGGACTCCGGGTATATGGCGCGTGCGGCGTTTGTGATGGACCGTCTGATGCAGGCGCTGGGCTTG -CCGGGGAAATCCTTTGTGCCGCTGATCGTCGGTTTCGGTTGTAACGTACCGTCGGTAATGGGTGCACGTA -CGCTTGATGCACCGCGTGAACGTCTGATGACCATCATGATGGCACCGTTTATGTCCTGCGGCGCGCGTCT -GGCTATCTTCGCAGTATTCGCGGCTGCCTTCTTCGGGCAGAACGGTGCGCTGGCGGTCTTCTCGCTGTAT -ATGCTGGGTATTGTGATGGCGGTGCTGACTGGCCTGATGCTCAAGTACACCATCATGCGCGGTGAAGCGA -CGCCGTTTGTCATGGAGTTGCCGGTCTATCATGTACCACACGTTAAAAGCCTGATTATCCAGACCTGGCA -GCGTCTGAAAGGCTTCGTTCTGCGTGCTGGTAAAGTGATCATCATCGTCAGCATTTTCCTGAGCGCTTTC -AACAGCTTCTCGCTGAGCGGGAAAATCGTCGATAACATCAACGACTCGGCGCTGGCGTCCGTCAGCCGGG -TGATCACCCCGGTCTTCAAGCCAATTGGCGTGCATGAAGATAACTGGCAGGCAACGGTTGGCCTGTTTAC -AGGTGCCATGGCGAAAGAAGTGGTAGTGGGTACGCTCAACACCCTCTACACCGCAGAAAATATTCAGGAC -GAAGAGTTCAATCCGGCAGAATTTAACCTCGGTGAAGAGCTGTTCAGTGCGATAGATGAAACCTGGCAGA -GCCTGAAAGACACCTTCAGCCTTAGCGTACTGATGAACCCCATTGAAGCCAGCAAAGGCGACGGCGAAAT -GGGTACCGGGGCGATGGGCGTGATGGATCAGAAATTCGGTAGCGCAGCAGCAGCTTACAGCTACCTGATT -TTCGTCCTGCTGTATGTACCATGTATCTCGGTGATGGGGGCTATCGCCCGTGAATCAAGCCGTGGCTGGA -TGGGCTTCTCCATCCTGTGGGGGCTGAATATCGCTTACTCACTGGCAACATTGTTCTATCAGGTCGCCAG -CTACAGTCAGCATCCAACTTACAGCCTGGTGTGCATTCTGGCGGTTATCCTGTTTAACATCGTGGTTATC -GGTCTGCTGCGCCGCGCGCGTAGCCGGGTGGATATCGAACTGCTGGCAACCCGCAAGTCGGTAAGCAGTT -GCTGCGCAGCCAGCACCACCGGTGATTGCCATTAATGGCTTCACTTATTCAGGTGCGCGATTTGCTGGCG -TTACGGGGCCGTATGGAAGCGGCCCAGATAAGCCAGACATTGAACACTCCACAGCCAATGATTAACGCCA -TGCTGCAACAACTGGAAAGTATGGGCAAAGCCGTGCGGATTCAGGAAGAACCTGACGGCTGCCTCTCTGG -CAGTTGTAAAAGCTGCCCGGAAGGAAAAGCCTGTCTGCGCGAGTGGTGGGCGCTGCGTTAACCTTACTCC -ATCGCCTGTTTTGGAAAGCCCGGTATGCGTCTGCATCCGGGCTTTTTTGCGTGCGGCTTTCCATAAAAAT -GCAACTCTTGCAGCACGGCGTAAGTTCCTTTGAAAGCATCTCGCAGGGATGAAAACTCGCTAATACACAG -GTGTGGAGTGGCGCGTAGAGTCGCGGCATTCAAACAACAGGTGAAGGAACGCCATGAGCAAAAAGCAGAG -TTCCACCCCACACGATGCGCTGTTCAAACTCTTTTTACGCCAACCGGACACGGCTCGTGATTTTCTTGCG -TTTCATTTACCGGCACCCATTCACGCGCTTTGTGATATGAAAACCCTCAAGCTGGAGTCGAGCAGCTTTA -TTGATGACGATCTGCGTGAAAGCTATTCCGATGTGCTGTGGTCGGTGAAAACGGAACAAGGACCAGGATA -CATCTATTGTCTGATTGAACATCAAAGCACCTCAAACAAACTGATCGCATTTCGCATGATGCGTTACGCT -ATTGCCGCAATGCAAAATCACCTTGATGCTGGATACAAAACGTTGCCGATGGTGGTGCCATTGTTGTTTT -ACCACGGTATTGAAAGCCCCTATCCCTATTCGCTGTGTTGGCTGGATTGTTTCGCCGATCCCAAACTGGC -AAGGCAGCTTTATGCCTCCGCATTTCCGCTGATTGATGTCACCGTCATGCCTGATGATGAAATCATGCAG -CACCGACGTATGGCGCTGCTGGAGTTAATTCAAAAACATATTCGTCAACGCGACCTGATGGGGCTGGTAG -AGCAAATGGCCTGCTTATTAAGTAGTGGATACGCTAATGACAGACAAATCAAAGGGCTGTTTAATTACAT -ACTGCAAACTGGCGACGCTGTACGTTTTAACGATTTTATCGACGGCGTTGCCGAACGTTCACCAAAACAC -AAGGAGAGTTTAATGACTATTGCGGAAAGATTGCGGCAGGAGGGGGAACAATCCAAAGCCCTGCATATAG -CCAAAATAATGCTTGAATCCGGAGTTCCTCTTGCAGACATCATGCGCTTTACCGGGCTGTCAGAAGAAGA -GTTGGCTGCGGCGAGTCAGTAAAGTTCTGTCTCGCCATTTCAAAAGCCACCTACACCCTCTGCTTCAACG -CCACCAGCAGGTGACAAAACTCGGCCGGATGCGAAATAAATGGCGCATGGGCCGCTTTGGCGAAGATATA -TGATTCGCTGTGAGGCCAAAGTTTATCCAGCATCGGCACCACTTTGCGCGGCACCAGACCGTCGAGATAG -CCATACAATCGCAAAAACGGCATGGACACGTTTTGCAGCGGCTGACGGAGATCGACCGTTTTCAGGATTT -CCAGCCCGCCATTAAGCACGTCAACCTCCGGCATCGGTAACGCCAGAACGGTTTTCTTCAACGCCCGCGC -ATCCTGGCGCGCCGTTTCAGTCCCCATGGTTTGTAACGCCAGGAACCGCTCCACTGTACGCTGAAAATCA -TCACTGAGTTGCTGCTGAAATCCCGCCAGCACGTCCGGTTTTATCCCCGGCCACTCGTCACGAGCACTAA -AACAAGGTGACGACGCCACGGTGACCAGCGCCTGAACACGCTCGGGATGGGTTAACGCAATCTGGCTTGC -CACCAGCCCGCCCAGACTCCAGCCTAACCAAATGGCTTTATCAGGTGCCTGTTGCAGCACGGCTTCGGCC -ATATCAGCAAGTGACAGCGCACCAAATCCCCGGCTACGCCCGAAGCCGGGCAGGTCAACAAGGTGCAGCG -TAAAATGCGAGCTAAGTTCCTCGTCAATGCAACGCCACACTTCGGCATTCAGTCCCCATCCGTGCAGCAG -CACAAGATGAACATTCCCCTGACCTTTGGTCTGCCACCAGATGTTATTCATCCGCTATTGTTCTCTTTTG -ACTTACAAGGATGAACATATGCTAACAGTACCGGGATTATGCTGGCTATGCCGAATGCCACTGGCGTTAG -GTCATTGGGGGATTTGTTCGGTCTGTTCACGCGCCACCCGCACAGATAAAACGTTATGCCCACAATGTGG -ATTACCCGCCACACACTCCCATCTTCCCTGCGGTCGCTGCCTGCAAAAACCGCCGCCCTGGCAAAGACTG -GTCACGGTTGCCGACTATGCGCCGCCGTTAAGTCCGCTTATCCACCAGCTTAAATTTTCCCGGCGCAGTG -AAATCGCCAGCGCCCTGTCACGTCTGTTACTATTGGAAGTCTTACACGCTCGTCGCACCACCGGGTTGCA -ATTGCCGGATCGCATCGTCAGCGTTCCGTTATGGCAGCGGCGTCACTGGCGTCGGGGATTTAATCAGAGC -GATTTGCTGTGTCAGCCGTTATCACGCTGGTTGCACTGCCAATGGGATAGCGAAGCCGTCACACGTACAC -GGGCCACTGCGACCCAGCATTTTCTCAGTGCCCGGCTGCGCAAGCGCAACCTGAAAAATGCCTTTCGTCT -TGAATTGCCCGTGCAAGGTCGCCATATGGTGATTGTGGATGATGTCGTTACCACCGGAAGTACCGTCGCA -GAGATTGCGCAGTTGCTTTTACGCAATGGTGCGGCGGCTGTCCAGGTCTGGTGCCTTTGTCGAACCTTGT -AGAGCCTCGATGATGGGCGTATTATAACCAACTAAAATAGTCAACTATTAGGCCATTACTATGATCCGTA -TTTCCGATGCTGCACAAGCGCACTTTGCCAAACTGCTGGCAAATCAGGAAGAAGGGACACAAATCCGCGT -ATTTGTGATTAACCCTGGCACGCCTAACGCTGAATGTGGCGTTTCTTATTGTCCGCCGGACGCTGTGGAA -GCCACCGACACAGCCCTGAAATTTGACCTGCTGACCGCGTATGTTGATGAGTTAAGCGCACCATACCTGG -AAGATGCAGAGATCGATTTTGTTACCGACCAGTTGGGTTCCCAGTTAACGCTGAAAGCCCCGAACGCCAA -AATGCGTAAAGTGGCAGACGATGCACCGCTGATGGAGCGCGTGGAGTATATGCTGCAGTCGCAGATCAAC -CCACAGCTTGCTGGTCACGGTGGTCGCGTTTCGCTGATGGAAATCACCGAAGACGGTTACGCCATTCTGC -AATTTGGCGGCGGCTGTAACGGTTGTTCCATGGTCGATGTGACGCTGAAAGAAGGGATCGAGAAGCAGCT -GCTGAACGAATTCCCGGAGCTGAAAGGTGTGCGCGATCTCACCGAACACCAGCGCGGCGAACACTCCTAC -TACTAAGTTATCCCCTCTTTTGTAGATTGCCCGATGCGACGCTAAAGCGTCATTTCGGGCCTACGTTGAA -CATGTGCCAGACGTTGGCGCAGCATTGCTTTGTCAAATCCTCGGTTCGTTTCCCCGCGATAATATGACCA -ACCTCTCATAATTTAAATTTACCCCGCTCTGGTGATTCTCAAACGCCAGATGTTACCCGTATCATTCACA -TGGGTACCAAACATACTCCTGACATCTGACTACAATAATTAGTTTTAGTGGGTATCAGTCGTGGTGCCGC -AATATCTCTGTTCCCGATTGGGATAATTAGAGTTTGTCGTCAGAAAATTGACGTTACCCATAACAAATGA -AAGGCCAGGTAAATCATGCCATTAGTCATTGTTGCTATCGGTGTAATCTTGTTGTTGCTCCTGATGATCC -GCTTCAAAATGAACGGCTTCATCGCTCTCGTCCTCGTGGCGCTTGCTGTTGGATTAATGCAAGGAATGCC -GCTGGATAAAGTTATTGGCTCCATCAAAGCCGGTGTCGGCGGGACGCTCGGTAGCCTTGCCCTGATCATG -GGTTTTGGCGCAATGCTGGGCAAAATGCTGGCAGACTGCGGTGGCGCACAACGTATCGCCACCACGCTGA -TTGCCAAATTTGGTAAAAAACACATCCAGTGGGCGGTGGTACTGACCGGTTTTACCGTTGGTTTTGCCCT -GTTCTATGAAGTGGGCTTTGTGCTGATGCTGCCGCTGGTGTTTACCATCGCGGCTTCTGCGAATATTCCA -CTGCTGTATGTTGGTGTACCAATGGCGGCTGCACTGTCTGTGACCCACGGCTTCCTGCCACCGCATCCGG -GTCCGACTGCGATTGCCACCATTTTCAATGCCGATATGGGTAAAACCCTGCTGTACGGTACTATTCTGGC -AATCCCGACCGTGATTCTCGCCGGTCCGGTTTACGCTCGCGTGTTGAAAGGTATCGATAAGCCAATTCCG -GAAGGTCTCTACAGCGCGAAAACCTTCAGCGAAGAAGAGATGCCGAGCTTTGGCGTCAGCGTCTGGACCT -CTCTGGTGCCGGTAGTACTGATGGCGATGCGTGCGATTGCCGAAATGATCCTGCCGAAAGGTCACGCTTT -CCTGCCGGTAGCGGAGTTCCTCGGTGACCCGGTAATGGCAACGCTGATTGCCGTGCTGATTGCGATGTTC -ACCTTTGGTCTAAACCGTGGTCGTTCAATGGATCAGATTAACGACACGCTGGTTTCTTCCATCAAAATCA -TTGCGATGATGCTGTTGATCATCGGTGGTGGCGGTGCGTTCAAGCAGGTGCTGGTAGACAGCGGCGTGGA -CAAATACATTGCTTCCATGATGCACGAAACCAACATTTCTCCGCTGCTGATGGCCTGGTCGATTGCTGCC -GTACTGCGTATCGCGCTGGGTTCCGCAACCGTTGCGGCAATCACTGCGGGTGGTATCGCGGCACCGCTGA -TTGCAACGACGGGTGTTAGCCCGGAGCTGATGGTTATTGCGGTTGGTTCCGGTAGTGTGATTTTCTCTCA -TGTGAACGATCCGGGCTTCTGGCTGTTCAAAGAGTACTTTAACCTGACTATCGGCGAGACCATCAAATCC -TGGTCGATGCTGGAAACCATTATCTCGGTGTGCGGTCTGGTAGGCTGTCTGCTGCTGAATATGGTGATTT -GATAACACTGACTGCCGGATGCGGCGTGACCGCCTTATCCGGCCTACGATTCGGGATGAATTAGTAGGCC -GGATAAGACGCGTCAAGCATCGCATCCGGCATCAACCGCACTCTACTTCTTCTTCGCTGCAGCTCTGCGC -CGTCTGTCCAAATCCTTCAGCAACTTGTTCACGCCATCATCGGCAAACATCGACTCAAGCGTTGCGGAAA -GCTTGCGTCGCCAGTTTTTATACTGGTAACTGGTGCCAGGAATATTCACCGGTTCGGCCATATCCAGCCA -GTCTTCCGGCTGTAGTCCTAACAGAGCACTGTTACTGTCGGCAATGTAGCGCTGCAAACCACGGTTCAGC -GTCGGCGTCATCGACATCAACGATGCCTTATGCCCGGCACGTTTCGGCAGACAACCATATTTATGCAGTG -CATCCAGCAGCCCTTGCTTCGCCAGTTCGCGATCCTGATACAGACCGCGCAGTACCACTTCATCCGGATA -CAGCCCCAGGGTTTTGCCCAGCGTTAGATCCCCGCACTCCCAGTAACCGCGCAGCGTTGGCAGGTCATGT -GTCGCCGCAACCGCCATCGACTGCTCCGGATACGCTTTCGGTGCACGGAACGTCTTCTCGTGGTCGTTTT -CGAAATAGAGCACTTTGTAAGAGTACACACCGCTGCTGCGCAGCTTACCGACAATCTCTACCGGTACGGT -ACCGAGATCTTCACCAATCACCATACAGCGATGACGTTTACTTTCGAGTGCCAGAATCGAGAGCAGATCA -TCCACCGGATAGTGAACATACGCGCCCTGATCTGCCGTCTCGCCATACGGTATCCACCACAAACGCAGCA -TCGACATCACATGGTCAATTCGTAATGCGCCGCAGTTTTGCATATTGGCACGCAACAGCTCGATAAACGG -TTCATAGGCACGCGCGGTGATGATATGCGGGTCCATTGGCGGTAATCCCCAGTTCTGCCCCAACGGGCCG -AGGATATCCGGCGGCGCGCCAACCGATGCTTTCAGGCAATATAGTTCACGGTCACACCAGGTTTCCGCCC -CACCTTCCGCTACGCCAACCGCCAGATCACGATACAAGCCAATCGGCATTTCATAGCCCTGGCTTATCTC -CCAGCAGGCGGCAAACTGGCTGTAAGCCAGCCACTGCAACCAGAGATAAAAATCGACGTCATCACGATGT -TCTTCGCAGAACTGACGCACTTCTGGTGAATCCACGTTCTGATACATCTCTGGCCATGCAGGCCAGCCCC -AGCGCATTTCGTCCTCTTTCACTTGCTGGGCATGTAGCGCATCAAAGGCTGCCTGCCAGAACAGGCTGTC -GCCCTGCTCTGCAACAAACTGGCGAAACGCGGCCATCTGCTCATCATCACGTTGCGCGAAACCTTTCCAC -GCCATTCGTAATGCTGTCATTTTTAGGGCGGTAACCGTGGAGTAATCGACCCAGTCGGCATCGCGCGCCT -GTTGCAGCGTCTGTTGCGTGGTCGGCAACTGCCACCAGGCCTGAGCCTCTTCGCTAAGATGGAAATCTTC -AACGGCGTTAACGTCGATATAAATCACATTCAGCCAACGGCGAGAAGACGGGCTGTATGGGCTGGCGCTC -TCCGGATTTGCCGGATAGAGCGCATGAATCGGGTTCAGGCCAATGAACGACCCGCCACGTTTTGCCACAT -CCACCAGCATCGCTTTGAGATCGCCAAAATCCCCAATACCCCAGTTTTTTTCCGATCGCAGCGTATAAAG -CTGAACGCAGGCACCCCACAGCTTTTGTTTATTCAGCAACGCCTGCGGTTCGTAACAGCGTTTCGGGGCG -ACAATCACCCGGCAATGCGCGCGCTGGTCGTCCTGGGTGAGTGTCAGCGTGTGATAACCTTCCGGCAGCT -TCGTCGGTAGATTGAACGCTTTGCCCCCCGTTACATGGCCTTTGTACTGCGTTCCTTCTTCGGTGGTCAG -CAGCCAGCTATATTCGCCGCTGCCCTCCACCACCATCGGCATTTTTTTGCCGCTGGTATAAACCATGACA -TTCGGGACTGGCGTTACCGCCACTTTCGTGGCGGTACGTTGATGCATCGCGTCAAGCAAACGCCGTTTGG -TTTCGGCGCTAATCGACTGCGGTTTACCGTGGGCATTGATGTAATTGGGGCTAATCCCCGCCGCCAGCGC -GGCATTATCCAGACGTTTGCTTTCCATCGAGCTTCCTTAGCGTTTTGCCTGCCAGATACGAGCCTGATAA -TCGCGAATAGAGCGATCCGAGCTAAACATACCGCAGCGGGCGGTATTGAGGATCGCCGCGCGAGTCCAGG -CCTCCTGGTCGCGGTACAGCACATCCACCTGCTTTTGTGCCTCTACATAGGCTGCGAAATCCGCCATCAC -CAGATACGGATCGCCGCCCTGTTTGCCGATACTGTGCAGCATCTGGTCGAAGGCATGCTTATCGCCGTCG -CTGTATTTACCGCTTTCCAGCTCTTTCAATACTGCGTCCAGCACCTTATCTTTCTTCCGCCATTTCACCG -GGTCGTAGCCTTTGGCCAGAATTGCCTTCACTTGTTCCACGGTATGACCAAAAATAAAGATATTTTCTTC -ACCGACTTTCTCGGCGATTTCAACGTTCGCCCCATCCAGCGTACCGACAGTAAGCGCACCATTGAGCGCC -AGTTTCATATTGCCGGTACCGGAAGCTTCTTTACCTGCAGTCGAAATTTGTTCGGAGATATCCGCCGCCG -GGATCAGTTTTTCCGCCGCCGAAACGCAATAATCCGGCAGGAACACCACCTTCAACTTATCGCCAACCAG -CGGATCGTTGTTGATCACGTCAGCCACTTTGTTGATCGCAAAGATAATATTCTTCGCCAGGTAGTAGCCC -GGTGCCGCTTTCGCGCCGAAGAGGAAGACGCGCGGTACGCGATCAGCCTGCGGGTTTTCACGAATTTCTT -TGTACAACGCCAGAATATGCAGCAGATTCAGGTGCTGGCGTTTGTACTCATGCAAACGTTTGATCTGAAT -ATCGAAAATCGCCTGTGGATTGATCTCAATACCGGTACGAACTTTCACAAACTCCGCCAGACGGACTTTA -TTCGCCTGCTTGATCTCGCGATATTGCTGACGGAATTTCGCATCATCAGCGAATTTTTCCAGATTGATCA -GCTGATCGAGATCGTTAGCCCACTCTTTTTGCAGTGATTTATCCAACAGAGCCGCCAGTGCCGGGTTGCA -CTGTTTGATCCAGCGACGTGGGGTAATACCGTTGGTGACGTTATGGAATTTGTTCGGCCATAGCTGGTGA -TATTCCGGGAACAGATCTTTCACCACCAGATCCGAGTGCAGCGCCGCAACACCGTTCACCGCGAAACCGC -CAACCACACACAGGTTCGCCATATGCACTTGTTTGTCGTGCACCACCGCCAGTTTGGCCCACACTTTTTC -ATCGCCCGGCCAGGTTTTCTCTACCAGCGTTTTAAAGCGAGTATTAATTTCGTTAATAATCTGCATGTGG -CGCGGCAGTAAGCCTTTCACCAGTTTCACATCCCAGCGTTCCAGCGCTTCTGGCATCAGGGTATGGTTGG -TGTAAGCGAAAGTTTTGCTGGTAATGGCCCAGGCGTCATCCCAGCTCATCTGGTGCTCATCGATCAGCAC -GCGCAGCAGTTCTGGAATCGCGATAGTTGGGTGGGTATCGTTCAGCTGAATAACTTCGTAATCCGCCAGT -TCGTGCAGTTTACGCCCCGCCAGATGATGGCGACGCAAAATATCCGCTACCGAACAGGCACACTGGAAGT -ATTGCTGCATCAGGCGCAGCTTTTTACCGGCAGTATGGTTGTCGTTTGGATAGAGAACTTTGGTCAGTTT -TTCCGCATTGATGCCCTGCTGTTCGGCACGCAAGAAATCACCGTCGTTAAATTTAGTCAGATCAAACGGA -TGCGCGTGCGTCGCCTGCCACAGACGCAGCGGCTGCGCCACGCCATTACGATAGCCGACAACGGGGAGAT -CCCACGCTTGACCGGTAATGGTAAACTCCGGCTCCCAGCGTCCGTCTTTCGTCACTTTACCGCCAATCCC -TACCTGCACATCCAGTGCTTCGTTGTGGCGGAACCACGGGTAGTTACTGCGATGCCAGTCATCCGGCGCT -TCAACCTGTTTGCCATCGACAAAAGACTGGCGGAACAAACCATATTGATAGTTCAGACCGTAACCCGTCG -CAGACTGACCGACAGTTGCCATTGAGTCGAGGAAGCACGCCGCCAGACGTCCCAGACCACCGTTACCCAG -CGCCGGGTCGATCTCTTCTTCCAGCAGGTCCGTCAGATTGATGTCATAAGCCTTCAACGAATCCTGTACA -TCCTGATACCAGCCGAGATTCAACAGGTTGTTGCCCGTCAGGCGACCAATCAAAAACTCCATTGAGATGT -AGTTAACATGTCGCTGATTCGCCACCGGCTTGGCGAATGGCTGAGCACGCAGCATTTCGGCCAGTGCTTC -ACTCACTGCTAGCCACCACTGGCGAGGAGTCATTTCAGCCGCAGAATTTAAGCCATAACGCTGCCACTGA -CGTGAAAGCGCTTCCTGAAATTGCTTATCGTTAAAAATAGGTTGTGACATAGGAGTTCCACTTTTCTTAG -ATTTTCAACACAACGTTATCGCTAGTTTGCCAGGCTCGATGTTGACCTTCCTCATCCTGCGGGGGATTAG -GCAGGGAGGAGTTGCGGGGATGAGCAAGGAAATGTGATCTCAACCACTTAAAGCTAGTGCAAACCACAGG -ATTAGCATCAAATCAATGCAATACAGCGCAGAAAATCTGTATCTAAGTGCAAAAAATGGCCGTTGCGTAT -TTTCAAAAAGCGGAAGGTAACTCTATAAATTAAGTAAAGGAGTGAAACAGTTTCATAAGTAAAATATCCA -GTGTGCTCCATCTCATTCTTAATAGATTTATTAAGATCATCTTTTTAGATGGCACTTTCATCAGGAATGA -AGAAGAAACCCTTGCTTAAATGAATCTGATGAACATAAGGGAAACCAGTATTCACGCTGGATCAGCGTCG -TTTTAGGTGAGTTGTTAATAAAGATTTGGAATTGTGACACAGTGCAAATTCAGACACATAAAAAAACGTC -ATCGCTTGCATTAGAAAGGTTTCTGGCCGACCTTATAACCATTAATTACGAAGCGCAAAAAAAATAATAT -TTCCTCATTTTCCACAGTGAAGTGATTAACTATGCTGATTCCGTCAAAACTAAGTCGTCCGGTTCGACTC -GACCATACCGTGGTTCGTGAGCGCCTGCTGGCTAAACTTTCCGGCGCGAACAACTTCCGGCTGGCGCTGA -TCACGAGTCCTGCGGGCTACGGAAAGACCACCCTCATTTCCCAGTGGGCGGCAGGCAAAAACGATATCGG -CTGGTACTCGCTGGATGAAGGTGATAACCAGCAAGAGCGTTTCGCCAGCTATCTCATTGCCGCCGTGCAG -CAGGCAACCAACGGTCACTGTGCGATATGTGAGACGATGGCGCAAAAACGGCAATATGCCAGCCTGACGT -CACTCTTCGCCCAGCTTTTCATTGAGCTGGCGGAATGGCATAGCCCACTTTATCTGGTCATCGATGACTA -TCATCTGATCACTAATCCAGTGATCCACGAGTCAATGCGCTTCTTTATTCGCCATCAACCAGAAAATCTC -ACCCTGGTGGTGTTGTCACGCAACCTTCCGCAACTGGGCATTGCCAATCTGCGTGTTCGTGATCAACTGC -TGGAAATTGGCAGTCAGCAACTGGCATTTACCCATCAGGAAGCGAAGCAGTTTTTTGATTGCCGTCTGTC -ATCGCCGATTGAAGCCGCAGAAAGCAGTCGGATTTGCGATGACGTTTCCGGTTGGGCGACGGCACTACAG -CTAATCGCCCTCTCCGCCCGGCAGAATACCCACTCAGCCCATAAGTCGGCACGCCGCCTGGCGGGAATCA -ATGCCAGCCATCTTTCGGATTATCTGGTCGATGAGGTTTTGGATAACGTCGATCTCGCAACGCGCCATTT -TCTGTTGAAAAGCGCCATTTTGCGCTCAATGAACGATGCCCTCATCACCCGTGTGACCGGCGAAGAAAAC -GGGCAAATGCGCCTCGAAGAGATTGAGCGTCAGGGGCTGTTTTTACAGCGGATGGATGATACCGGCGAGT -GGTTCTGCTATCACCCGCTGTTTGGTAACTTCCTGCGCCAGCGCTGCCAGTGGGAACTGGCGGCGGAGCT -GCCGGAAATCCACCGTGCCGCCGCAGAAAGCTGGATGGCCCAGGGATTTCCCAGCGAAGCAATTCATCAT -GCGCTGGCGGCAGGCGATGCGCTGATGCTGCGCGATATTCTGCTTAATCACGCCTGGAGTCTGTTCAACC -ATAGCGAACTGTCGCTGCTGGAAGAGTCGCTTAAGGCCCTGCCGTGGGACAGCTTGCTGGAAAATCCGCA -GTTGGTGTTATTGCAGGCGTGGCTGATGCAAAGCCAACATCGCTACGGCGAAGTTAACACCCTGCTAGCC -CGTGCTGAACATGAAATCAAGGACATCAGAGAAGACACCATGCACGCAGAATTTAACGCTCTGCGCGCCC -AGGTGGCGATTAACGATGGTAATCCGGATGAAGCGGAACGGCTGGCAAAACTGGCACTGGAAGAGCTGCC -GCCGGGCTGGTTCTATAGCCGCATTGTGGCAACCTCGGTGCTGGGTGAAGTGCTGCACTGCAAAGGCGAA -TTGACCCGCTCACTGGCGCTAATGCAGCAAACCGAACAGATGGCACGCCAGCACGATGTCTGGCACTACG -CTTTGTGGAGTTTAATCCAGCAAAGTGAAATTCTGTTTGCCCAAGGGTTCCTGCAAACCGCGTGGGAAAC -GCAGGAAAAAGCATTCCAGCTGATCAACGAGCAGCATCTGGAACAGCTGCCAATGCATGAGTTTCTGGTG -CGCATTCGTGCGCAGCTGTTATGGGCCTGGGCGCGGCTGGATGAAGCCGAAGCGTCGGCGCGTAGCGGGA -TTGAAGTCTTGTCGTCTTATCAGCCACAGCAACAGCTTCAGTGCCTGGCAATGTTGATTCAATGCTCGCT -GGCCCGTGGTGATTTAGATAACGCCCGTAGCCAGCTGAACCGTCTGGAAAACCTGCTGGGGAATGGCAAA -TATCACAGCGACTGGATCTCTAACGCCAACAAAGTCCGGGTGATTTACTGGCAAATGACCGGCGATAAAG -CCGCCGCTGCCAACTGGTTGCGTCATACGGCTAAACCAGAGTTTGCGAACAACCACTTCCTGCAAGGTCA -ATGGCGCAACATTGCCCGTGCACAAATCTTGCTGGGCGAGTTTGAACCGGCAGAAATTGTTCTCGAAGAA -CTCAATGAAAATGCCCGGAGTCTGCGGTTGATGAGCGATCTCAACCGTAACCTGTTGCTGCTTAATCAAC -TGTACTGGCAGGCCGGACGTAAAAGTGACGCCCAGCGCGTGTTGCTGGACGCATTAAAACTGGCGAATCG -CACCGGATTTATCAGCCATTTTGTCATCGAAGGCGAAGCGATGGCGCAACAACTGCGTCAGCTGATTCAG -CTTAATACGCTGCCGGAACTGGAACAGCATCGCGCGCAGCGTATTCTGCGAGAAATCAATCAACATCATC -GGCATAAATTCGCCCATTTCGATGAGAATTTCGTTGAACGTCTGCTAAATCATCCTGAAGTACCTGAACT -GATCCGCACCAGCCCGCTGACGCAACGTGAATGGCAGGTACTGGGGCTGATCTACTCTGGTTACAGCAAT -GAGCAAATTGCCGGAGAACTGGAAGTCGCGGCAACCACCATCAAAACGCATATCCGCAATCTGTATCAGA -AACTCGGCGTGGCCCATCGCCAGGATGCGGTACAACACGCCCAGCAATTGCTGAAGATGATGGGGTACGG -CGTGTAAGTTTAGCCGGATAACGCGCCAGATCCGGCTTACATCTCTGCATCATTCAATGCTCACCCGCGT -TACGCCATCTGTTTCTATCAAACTAAACCGCACCGGCAAGAAACGCTCCACCACCGCGATATTGGTCAGC -AGATGGCATGAGGGATGGGCGACCGTAAATTCCCCCGCGCCCGCCAGCGCCATCGGTAGCACCAGTTGGT -CAGCAAGATATTCCCCCACCGCCGCCGTGCTTGCCAGGTAGCGTTTCACCTCTTTCACCAACTGTGCCGC -AACCACCTCGGCACTGACGCGCTTTTCACCGACGACAAAAAAGCGTTCGGTGATATTTTCACTTTCGACT -TCAAGCGAGACGGTATTACCCGGCCCCTGGTCGCGCGGCAGGTTATGAATATTCTGTTCATGCAGGGAAA -AACTCCCCGCCAGTGTAGCGATTTCACGCTCAGCAACATGGCGCGGCACACCAGCTAATAGAACTTCTCC -ACGCATCTGCACAATGTTCCCGCGCTCGCCAAGTTGCAAGGTGTTAAACGATGCCACGGGCGAGACTTCC -GTTGCCACCACACCGCCTCCGGCAGGGTAAAAACCGTGGCGTAACAGCGTGGTTTGCTGATGAATTCCTA -TTTTCGCCAGCAGCGGCTCCAGCACCCGGCGGATAAAATCCGCAGGCGGCGCCGACGGGTTATCGGTGCC -GCCGCTCACTTCAACACGCGAAGGTCCATCGGCAAACCACAGCGCGGGCAGCACCGTTTGCAGCACCAGC -GTACAACTTCCGGCGCTACCGATAGCAAAGCGGTAATCGCCGCCGCGCACGGTGCCGGGCCGGAAGAGCA -GACGCTGCGACCCCAGCTCCGCGCCTTCCACGGTTGCTCCGCAAATTTCCGTCGCCGCCTTTACCGCGGT -CAGATGCTGGCGCAACAGCCCCGGTTTCGCCCGCCCGGCACGAATGCTGGTGATGGTAAATGGCTGGCCG -GTTATCATCGACAGGCTCAGCGCCGAGCGCAGGATCTGCCCGCCACCTTCGCCCTGTGCGCCATCCAGCG -CAATCATCCTTTTCATCATTTATCCTTTTACGCACACCACCTGACGCAGGGTATAGATAACTTCCACCAG -ATCGCTTTGTGCCGCCATCACCGCATCAATATCTTTATACGCCATCGGGATTTCGTCGATCACTTCGGCA -TCTTTACGGCATTCCACATGCGCGGTGGCACGAATTTGATCTTCCACGCTGAACAGTTTTTTCGCTTTAG -TTCGGCTCATTACCCGCCCGGCACCGTGGCTGCACGAACAGAACGACTCTTCATTTCCCAGCCCACGGAC -GATAAAGCTTTTTGCTCCCATCGAACCGGGAATAATTCCATATTGACCAGCACGCGCAGACACCGCGCCT -TTACGCGTCACGTAGATCTCTTCACCAAAGTGCTGTTCTTTTTGCACATAGTTGTGGTGACAGTTGATCT -CTTCCATCGCCAGCGTTTGTGGCTGTCTGACCGTTTTCTGCGTAATGCTCTGCAATGCCGTTACCACGTT -TTCCATCATCGCATCGCGGTTAAGGCTGGCAAAAAGCTGCGCCCAGGCCACGGCTTTCAGGTAATCATCA -AAGTATTCCGTACCTTCCATAAAGTACGCCAGATCACGCGACGGCAACGTCTCAAGCGTTTCCTGCATCT -CTTTTTGTGCCAGATCGATAAAGTAAGTCCCGATGGCGTTACCAATTCCGCGTGAACCGGAGTGCAGCAT -AATCCACACCTGGTCCGACTCATCAAGGCAGATTTCAATAAAGTGGTTACCGGTTCCCAGCGTTCCCAGG -TGTTTATAGTTATTGGTATTCAGGAAACGGGGATATTTTTGCGTTAACCACTGATAACCGGCTTCAAGCT -CAGCCCATTTAGCATCGACGTTAACAGGTGGATTTTCCCAGGCACCTTTATCACGTTTACAACGGCCAGT -GGTACGCCCGTGCGGCACGGCCGTTTCAATCGCCTGACGCAGCTCTGCCAGGTTTTCAGGCAGGTCTTCC -GCCGTTAACGCGGTACGCAGCGCGTTCATTCCACAGCCAATATCCACGCCCACCGCCGCCGGAATAATCG -CCCCTTTGGTCGGGATCACGCTACCAATGGTGGAACCTTTACCCAGGTGTACATCAGGCATTACCGCAAT -ATGTTTGAAAATAAACGGCATCTTCGCCGTATTAATAAGTTGCTGACGCGCATCGGCCTCTACCGGCACG -CCTTTGGTCCACATTTTTACCGGGGCATTTTCAGTGGTCAGTAATTCGTAATTCATTTTGTTTTTCTCTT -TTCGTTGTTTGCTGTCCTGATAATTGCAACCGTCGTGCCAGAAAATTAAATAAGCAGCTTAATTTTTTAA -TTCATTGTTTTAAAAAAGATTATATCTTTACGTCCGTAACCGGAGATTTCCCGCAAAGCCAATTTACCGA -TAATGAAATATCGTCTTTTATAAGGATATCTAAGATGCGTAAAACAGTGGCTTTTGGCTTTGTCGGTACC -GTACTGGATTATGCCGGGCGCGGCAGTCAGCGCTGGTCAAAATGGCGTCCGACACTCTGTTTATGCCAGC -AAGAATCGTTGGTCATCGATCGACTGGAATTGTTGCACGACGCCCGCTCGCGCTCGCTATTTGAAACGCT -TAAACGCGATATCGCCAGCGTTTCGCCAGAAACAGAAGTGGTGAGCGTTGAGATTGAACTGCATAACCCG -TGGGATTTCGAAGAGGTCTACGCCTGCCTGCATGATTTCGCCCGTGGTTACGAGTTTCAGCCAGAAAAAG -AAGACTATTTAATTCACATCACCACCGGTACCCACGTCGCGCAGATTTGCTGGTTTCTGCTGGCAGAAGC -GCGTTACCTGCCCGCCCGGCTGATACAATCTTCACCTCCGCGCAAAAAAGAACAGCCGCGCGGCCCAGGT -GAAGTAACGATTATCGATCTCGATTTAAGCCGTTATAACGCCATCGCCAGCCGCTTTGCCGAGGAACGCC -AGCAAACGCTTGATTTTCTTAAGTCCGGCATTGCCACGCGTAACCCCCACTTCAACCGCATGATTGAGCA -GATCGAAAAAGTGGCGATCAAATCCCGCGCGCCGATTCTGCTTAACGGTCCAACCGGCGCGGGCAAGTCA -TTTCTGGCGCGACGCATCTTAGAGTTAAAACAGGCGCGGCATCAGTTTAGCGGCGCGTTTGTGGAAGTGA -ACTGCGCCACCCTGCGCGGCGATACCGCCATGTCGACGCTGTTTGGTCATGTAAAAGGCGCGTTTACCGG -GGCGCGGGAATCTCGTGAAGGTTTATTACGCAGCGCCAACGGCGGAATGTTGTTTCTTGATGAGATTGGC -GAACTGGGCGCAGACGAACAGGCAATGCTGCTGAAAGCCATTGAAGAGAAAACCTTTTACCCGTTTGGCA -GCGATCGCCAGGTGAGCAGTGATTTTCAGCTTATCGCCGGAACGGTGCGCGATTTGCGCCAGCTGGTTGC -CGAAGGCAAATTTCGCGAAGATCTGTACGCGCGGATCAATCTCTGGACCTTCACCCTGCCGGGTCTACGC -CAGCGCCAGGAAGATATTGAACCGAACCTGGATTATGAAGTGGAGCGCCACGCCTCACTCACTGGCGACA -GCGTGCGTTTTAACACCGAAGCGCGGCGCGCCTGGTTGGCTTTTGCGACCTCTCCCCAGGCAACATGGCG -CGGTAACTTTCGCGAACTTTCTGCCAGCGTCACGCGGATGGCCACCTTTGCCACTAGCGGACGCATCACT -CTGGACGTGGTTGAAGATGAGATAAACCGTCTGCGCTATAACTGGCAGGAGAGCCGCCCCTCCGCGCTTA -CGGCGTTGCTGGGCGCAGAGGCAGAAAACATCGATCTCTTCGACCGTATGCAACTGGAACACGTTATCGC -TATCTGCCGCCAGGCAAAGTCGCTTTCCGCAGCCGGACGCCAGCTTTTTGACGTTTCGCGCCAGGGCAAA -GCCAGCGTCAATGACGCGGATCGGCTACGCAAATACCTGGCGCGTTTTGGTCTGACGTGGGAAGCCGTGC -AGGATCAGCACAGCTCCAGTTGAATATGGTGGTCCGTCAGCACCTGCATCACGCTTACTGGCGGCGGGGC -GTCGGTGTAGACGGCATCTACCATGCTGATGCTGCCCATATTGACCATCGCGTTACGGCCAAATTTCGAG -TGATCGACAACCAGCATAACGTGGCGCGAGTTCTCAATAATGGCGCGTTTGGTGCGAACTTCGTGGTAAT -CGAACTCCAGCAGCGAGCCGTCGCTATCGATGCCGCTTATCCCCAGAATGCCGAAATCAAGGCGGAACTG -GGAGATAAAATCGAGCGTCGCTTCGCCAATGATCCCGCCATCGCGGCTGCGTAATTCGCCACCGGCGAGA -ATGATGCGAAAATCTTCTTTTACCATCAACGTGTTAGCAACGTTGAGATTGTTGGTGACAATGCGCAAAT -TGCTGTGATTGAGCAGTGCGTGCGCTACCGCTTCCGGCGTGGTGCCGATATCGATAAACAGCGTCGAGCC -ATTGGGGATTTGCTCCGCCACTTTGCGGGCGATGCGCTCTTTTTCTTCGGTCTGGGTGGCCTTGCGATCG -TGCCACGGCGTGTTAACCGAACTGGAAGGCAGCGCCGCACCGCCATGATGGCGCAGGATCAGGTTTTGCT -CCGCCAGCTCATTGAGGTCGCGGCGAATAGTCTGCGGGCTGACGGAGAAATGCTCTACCAGCTCTTCGGT -ACTGACATAACCCTGCTGTTTAACCAGTTCGATAATACCGTTGTGACGTTGTGTTTGTTTCATTTATAAA -TCCCTGGAATTATTTTCGTTTTCGCGCATTGAGCGAATCAACAAAAGCCATCGCTAAACCCACGGCTAAC -CCGGCGATGTGTGCTCCGTTCGCCATCGACATCCCAAACAAATCAAACCATCCGGCGACAATCCAGATCA -GCGCAAAGATAATTAACCCACGTTGCAGGTAAATGCCACTTTGCGGATCGCGTTCGCCACGTAGCCAGAC -GTAGCCCATCAGCGCATACACCACGCCAGAAAGCCCGCCAAACCACGGCCCGCTGAATTTTTGCTGCACA -TAGCCGCTTAACAGGGCGCTGATAAGCGTAATGACAATTAGCTTACCGCTACCGAGGCGTTTTTCCACCG -CACCGCCGAGATACCACCACCAGAGCAGGTTAAAGAGGATATGCATCAGCGAGAAGTGCATTAACGCGTG -GGTGAAGTAACGCCAGAACTCAAATTTCAGTGTTGGATCGAATGGCCAGGCCAGCCATAACATCACTTCC -TGATCGCCGAGAATTTGCATGGCAATAAACACCACCACGCAGGCGATCATCATCACCCAGGTTACCGGAC -CTGCGCGTTCACGCAAGGCGGCAAAGAAAGGATAACGGCGATAATGCAGGCCACTGCCGGTATGGCCTGC -CTGCCAGCTCGCCGCCAGATAACGCGGATCTGCCGGGTTTTCGAGAAAACGCGCCAGCTCCGCCCGTACG -CGCTCGGCCTGGGACTCATCCGCCAGCCAGACATCGCTTTGGTTATGTTGTTGAATCGTGAGGATAACAC -CCTGCGTCGCCATGTAATCAACAAACGCCTGCGCCACGCGGGGGTTAGCAAAAGAGGTAATCATCAACAT -CGTTGCTGTCGCTTATTCCACACAAAAGGGGACAGTATAAAGCGTTACGCGCCGTACGCCACCTCTGCGG -GAAACTGACGTTGCCAGGCTTCAAAGCCGCCGTCAATGCTATAGACCACATCGTAGCCCTGTTGCAGCAG -ATACTGCGCCGCGCCTTTGCTGCTATTGCCGTGATAACACATCACCATCACCGGAGTGTCAAAGTCGTTA -TCACGCATAAAAGCGCCCAGCGTGTCGTTGGTTAAATGGAAAGCCTGCACCGCATGTCCCATTGCGAAAC -TCTGTGGATCGCGAATATCGACCAGCACCGCCTCTTTTTCCTGCAACTTCTGGTGCGCGTCGGCAACGTT -AATACATTCGAACTGATCCATGCGTCTCTCTTTCTTTACAAACAAGTGGGCAAATTTACCGCACAGTTTA -CGTCGAAGCGGCAGATAAACGCCATAATGTTATACATATCACTCTAAAATGTTTTTTCAATGTTACCTAA -AGCGCGATTCTTTGCTAATATGTTCGATAACGAACATTTATGAGCTTTAACGAAAGTGAATGAGGGCAGC -ATGGAAACCAAAGATCTGATTGTGATAGGGGGCGGCATCAATGGTGCTGGTATCGCGGCAGACGCCGCTG -GACGCGGTTTATCCGTGCTGATGCTGGAGGCGCAGGATCTCGCTTGCGCGACCTCTTCCGCCAGTTCAAA -ACTCATTCACGGTGGCCTGCGCTACCTTGAGCACTATGAATTCCGCCTGGTCAGCGAGGCGCTGGCTGAA -CGTGAAGTGCTGCTGAAAATGGCCCCGCATATCGCCTTCCCGATGCGTTTTCGCCTGCCACATCGTCCGC -ATCTGCGCCCGGCGTGGATGATTCGCATTGGTCTGTTTATGTACGATCATCTGGGTAAACGCACCAGCTT -GCCGGGATCAACTGGTTTGCGTTTTGGCGCAAATTCAGTGTTAAAACCGGAAATTAAGCGCGGATTCGAA -TATTCTGACTGTTGGGTAGACGACGCCCGTCTGGTACTCGCCAACGCCCAGATGGTGGTGCGTAAAGGCG -GCGAAGTGCTTACTCGGACTCGCGCCACCTCTGCTCGCCGCGAAAACGGCCTGTGGATTGTGGAAGCGGA -AGATATCGATACCGGCAAAAAATATAGCTGGCAAGCGCGCGGCTTGGTTAACGCCACCGGCCCGTGGGTG -AAACAGTTCTTCGACGACGGGATGCATCTGCCTTCGCCTTATGGCATTCGCCTGATCAAAGGCAGCCATA -TTGTGGTGCCGCGCGTGCATACCCAGAAGCAAGCCTACATTCTGCAAAACGAAGATAAACGTATTGTGTT -CGTGATCCCGTGGATGGACGAGTTTTCCATCATCGGCACTACCGATGTCGAGTACAAAGGCGATCCGAAA -GCGGTGAAGATTGAAGAGAGTGAAATCAATTACCTGCTGAATGTGTATAACACGCACTTTAAAAAGCAGT -TAAGCCGTGACGATATCGTCTGGACCTACTCCGGTGTGCGTCCGCTGTGTGATGATGAGTCCGACTCGCC -GCAGGCTATTACCCGTGATTACACCCTTGATATTCATGATGAAAATGGCAAAGCACCGCTGCTGTCGGTA -TTCGGCGGTAAGCTGACCACCTACCGAAAACTGGCGGAACATGCGCTGGAAAAACTAACGCCGTATTATC -AGGGTATTGGCCCGGCATGGACGAAAGAGAGTGTGCTACCGGGTGGCGCCATTGAAGGCGACCGCGACGA -TTATGCCGCTCGCCTGCGCCGCCGCTATCCGTTCCTGACTGAATCGCTGGCGCGTCATTACGCTCGCACT -TACGGCAGCAACAGCGAGCTGCTGCTCGGCAATGCGGGAACGGTAAGCGATCTCGGGGAAGATTTCGGTC -ATGAGTTCTACGAAGCGGAGCTGAAATACCTGGTGGATCACGAATGGGTCCGCCGCGCCGACGACGCCCT -GTGGCGTCGCACAAAACAAGGCATGTGGCTAAATGCGGATCAACAATCTCGTGTGAGTCAGTGGCTGGTG -GAGTATACGCAGCAGAGGTTATCGCTGGCGTCGTAAATTAACGTAAGGTGATCAGGTCAGATTTCAATCT -GGCCTGAGACTGATGACAAACACAAAACTGCCTGATGCGCTACGCTTATCAGGCCTACGTGGTTTATGCA -ATATATTGAATTTGCATGGTCTTGTAGGCCAGATAAGACGTTCACGTCGCATCCGGCATGAACAAAGCGC -ACTTTGTCAAAAATCTAACCTACTTTTTAATTCAGGGAATTACCGCAAAGCCCACGCCATCATACCCAAC -GTAACAAAACTCAGGCACGTTCCCCACTCGCCCCGAGAAAAATAGCATTAATGCGCCCAGCGCCAGCATA -AAAATTTTGAGCAGAAGGTAAATTGTTGGCGTGATAAGGATATTACAAACTTCAATAATACCGGCAAGTC -CGACACCCAGCATGGCAATAACCACCGCCAAAAATTGCGCCAGTATGGGGATGCCGAAAAAAGTCATTAC -CAGCGAGGTCAAAATCCATTTTCTGTTTTGCATTATTCTTTCCATTCTTTTTGAATGGTGAAATTATACT -CCCCGAGTCCCCTTGCCCCTTCTGGACACTTTTCCGAAATGATGGCGGAAAAAAACGGGACCCTTTGGCC -CCGTTCTATTTATTGGTGAACTTACAATCTCACCGGATCGATATGCCAGATATGATCGGCGTACTCTTTG -ATAGTACGGTCAGAAGAGAAGTAGCCCATATTGGCAATGTTCAGCATCGCTTTTGCGGTCCACTCTTCCT -GAAGCTCGTAGAGTTCATCGACTTTATCCTGACAATCGACATAGCTGCGATAATCCGCCAGTACCTGGTA -GTGATCGCCGAAGTTGATCAGCGAATCAACCAGATCGCGATAGCGACCCGGATCTTCCGGACTGAATACA -CCGCTGCCGATTTGCGTCAGCACCTGATGCAGCTCCTCATCTTTCTCGTAGTATTCACGCGGTTTGTAGC -CCTGACGACGCAGTTCTTCCACTTCTTCCGCTGTGTTACCAAAAATAAAGATATTGTCAGCACCGACATG -ATCCAGCATCTCGACATTCGCACCGTCCAACGTACCGATAGTCAGCGCACCGTTAAGCGCAAACTTCATG -TTACTGGTGCCGGAAGCTTCCGTCCCTGCCAGCGAAATCTGTTCAGACAGATCTGCCGCCGGAATGATCA -ACTGCGCCAGGCTAACGCTGTAGTTCGGGATGAACACGACTTTCAGCTTATCGCCAATCTGCGGATCGTT -GTTGATCACTTTCGCTACGTCATTGATCAAATGAATAATGTGCTTCGCCATGTAATAGGCCGAAGCCGCC -TTACCGCCAAAAATATTCACGCGCGGTACCCACTTCGCATCCGGGTCGGCCTTGATGCGGTTATAGCGGG -TAATCACATGCAACACATTCATCAATTGACGTTTGTATTCGTGAATACGTTTGATTTGTACATCGAACAA -CGCCTTTGGATTCACCACCACATTCAGCTGCTGGGCGATATACTCTGCCAGACGCTTTTTGTTCTCCAGC -TTCGCCTGATGCACAGCGTGATTAACCATTGGGAAATCACAGTGTTGTTGCAGCTCATTAAGCAGGCTAA -GGTCGGTGCGCCAGTTACGGCCCAGGTGTTCGTCCAGCACGGCTGAAAGCGATGGGTTCGCTACCGCCAG -CCAGCGACGCGGCGTCACACCGTTGGTGACGTTGGTGAAACGACCCGGGAAGATTTTCGCAAAGTCGGCA -AACAACGATTGCACCATCAGATTAGAGTGCAGTTCCGATACACCGTTAACTTTGTGGCTCACAACAACCG -CCAGCCAGGCCATACGCACACGACGACCGTTGGATTCATCAATGATCGACGCCCGTCCCAGCAGATCGGT -ATCGTTCGGATACTGTTCCTGCAAGGTTTTCAGGAAATAGTCGTTGATTTCAAAGATGATCTGCAGGTGA -CGCGGCAGAATTTTACCCAGCATATCAACCGGCCAGGTTTCCAGCGCCTCGCTCATCAGCGTGTGGTTAG -TGTAGGAGAAGACCTGACAACACACCTCAAACGCGTCGTCCCAGCTAAATTGGTGCTCATCGATCAGCAG -ACGCATCATCTCAGGAATCGACAGTACCGGATGGGTATCATTGAGATGAATCGCGATTTTATCCGCCAGG -TTATCGTAGGTTTTATGCAACTGATAATGGCGGCTTAAAATGTCCTGAATGGTCGAGGAAACCAGGAAGT -ATTCCTGACGCAGGCGCAGCTCACGCCCGGAGTAGGTGGAGTCATCCGGATACAGTACGCGAGATACGTT -CTCGGAGTGGTTTTTATCTTCCACTGCCGCGAAGTAGTCACCCTGGTTGAATTTACCGAGGTTAATTTCG -CTACTGGCTTGCGCACTCCACAAACGCAGCGTGTTGGTCGCGTCGGTGTCGTAACCAGGGATTATCTGAT -CGTAAGCGACTCCCAGAATCTCTTCGGTTTCAATCCAGCGCGTTTTTTTACCTTCCTGCTGAATGCGACC -GCCAAAACGGACTTTATAGCGCGTGTTGTGGCGTTTGAATTCCCACGGGTTACCGTATTCCAGCCAGTAG -TCTGGCGACTCTTTCTGGCTACCGTTAACGATGTTCTGCTTGAACATACCGTAGTCATAGCGGATGCCGT -AACCGCGCCCCGGCAACCCTAACGTCGCCAGAGAATCAAGGAAGCAAGCCGCCAGACGTCCCAGGCCACC -GTTACCGAGGCCTGGGTCATTTTCTTCATCAATCAGCTCTTCGAGATTTAACCCCATCGCTTCCAGTGCG -CCCTGTACATCTTCGTAAATTCCTAGCGACAACATGGCGTTGGAGAGCGTACGGCCAATCAAAAACTCCA -TCGACAGGTAGTAAACCTGACGAGTTTCTTGCGACAACTGGGCACGGTTTGAACGTAACCAGCGCTCCAC -GAGACGATCGCGCACAGCAAATAACGTTGCGTTCAGCCATTCATGTTTATTGGCGACGACCGGGTCCTTT -CCAATCGTAAACATCAGCTTGTAAGCGATAGAGTGCTTAAGAGCTTCTACGCTAAGCGTGGGCGATGAAT -ATGTAAACGGAGCATTCATATAGGCGTTTCCTGAAAACTATTTCAAGCGATAGTAAAGCTCACGGTACGA -CTTCGCCGCGACCTGCCAGCTAAAATCCATTGCCATAGCCTGACGTTGCACAAACCGCCACAGTGAAGGA -CGGGACCACAGTACAAAAGCACGTCGAATAGCCCGTAACAGCGACCAGGCATTACTATCTTCAAAGACAA -ACCCACTGGCGACGCCATCTGCAAGGTTCTCAAGAGAACAGTCAGAAACCGTATCAGCAAGCCCACCGGT -GCGCCGCACTAACGGCAGCGTACCGTACTTCAATCCATAAAGTTGCGTTAAGCCGCACGGTTCAAAACGG -CTGGGCACCAGAATGACGTCCGCGCCGCCCATAATGCGATGCGAAAATGCTTCGTGATAGCCAATCTGAA -CGCCCACCTGACCGGGGTATTCCGCTGCCGCCGCAAGGAAACCTTCCTGCAGCACCGGATCGCCCGCGCC -GAGTAGCGCCAGCTGCCCGCCCTGCTCCAGAAGACCCGGTAAGGCTTCCAGCACCAGGTCGAGACCTTTC -TGGCTGGTCAGACGGCTCACCACTGCAAAAAGCGGCACTTTATCGTCAACCTTAAGCCCCATTGCGATTT -GTAACTGGCGCTTATTTTCCGCTTTATCTTCCAACGTATCGCGGGTGTAACGCGAGGCCAACAGTAAGTC -CGTCTCTGGACTCCAGATTTTCTCGTCCACGCCGTTCAGTACGCCGGAAAGACGCCCTTCACGGTGACGC -TGTTGCAACAGACCTTCCATACCGTAGGCAAACTGCGGTTCGGTGATCTCGCGAGCGTAGGTTGGACTGA -CCGCCGTAATGTGATCGGCATAGTACAGACCGGCCTTCAGGAAAGAGATTTGTCCGTTGAATTCCAGCCC -ATGAATATTAAAGAATGACCATGGCAATTGGATGTCATTCATGTGATGTGCATAAAACATGCCTTGATAG -GCCAGGTTGTGCACAGTAAACACCGACTTCGCCGGACGCCCGCGCGCCGCCAGATACGCAGGCGCAAGGC -CTGCATGCCAGTCGTGCGCATGCACCACATCAGGACGCCAGAATGGGTCAAGCCCGCTGGCCATTTCTGC -CCCAACCCACCCCAGCAGCGCAAAACGCAATACGTTGTCGGTATAGGCAAATAAGTTGGTATCGTGATAC -GGGCTTCCCGGACGATCATAGAGATGCGGCGCGTCAATCAGGTAAATGCCAACCCCGTTGTAATGACCGA -ACAACAGCGTGATATGTCCGGCGAAGGTATCACGACGGGATACTACCTGCGCATCGGTCACGCCACGGCG -AATATCGGGAAATGCAGGCAACAGTACGCGAGCGTCAACGCCGTCTGCGATTTGTGCTGCGGGTAATGCC -CCAATAACATCAGCCAGACCGCCGGTTTTAAGCAGCGGGAACATCTCTGAACATACATGTAAAACCTGCA -TTATCGCTCCTGTTTATGCCCTAACTTCCGTAGCATTTCGCGCGTTACCAGCACGATGCCTTCTTCTGAA -CGATAGAAACGACGTGCATCTTCCTCTGCGTTTTCACCAATCACCATGCCTTCCGGAATAACACAAGCAC -GATCGATGACGCAGCGGCGCAGACGGCACGAGCGACCTACCCATACTTCCGGTAACAATACGGCGGAATC -AATGTTGCAGAATGAATTCACGCGAACGCGCGAGAACAGAACGGACTGCACCACCACCGAACCGGAGATC -ACACAACCGCCGGAAACCAGTGAGTTAAGGGTCATCCCGTGGCTACCGGAGCGATCCTGCACGAATTTCG -CTGGCGGTAATGATTCATTGTAGGTGCGAATTGGCCAATTGCGATCGTACATATCCAGTTCCGGCACCAC -AGAGGCCAGATCGAGGTTCGCTTTCCAGTAAGCTTCCAGCGTACCCACATCGCGCCAGTACGGCTCGGCA -TCCGGGTCGGATTGTACGCAAGAGAGCGGGAACGGGTGCGCATAGGCCAGACCGGCTTCGGTGATCTTGG -GAATCAAATCTTTGCCAAAGTCGTGGCTGGAGTTCTCATCGCGATCGTCTTCTTCCAGCAGTTCATACAG -ATAGTCGGCGTCAAAGACGTAGATACCCATACTCGCCAGAGATTTGCTCGGATCGTTCGGCATTGACGGC -GGGTTAGCAGGTTTTTCAACGAATTCGATAATTTTATCGTTCTCATCAACCGCCATAACGCCAAATGCGG -AGGCTTCTTCAATCGGTACTGGCATACAAGCAACGGTGCAACGTGCGCCTTTTTCGACGTGATCGATAAG -CATACGCGAGTAGTCTTGCTTGTAGATATGGTCGCCCGCCAGGATCACCACGTATTCCGCTTTATAACGG -CGGATAATGTCGAGGTTTTGGGTGACCGCATCTGCGGTGCCGCGATACCAGTTTTCCCCTTTCATTCTCT -GCTGTGCTGGCAGCAGATCGACAAACTCGTTCATTTCTTCATTGAAGAATGACCAGCCGCGCTGAATGTG -CTGCACCAGAGTGTGGGACTGGTACTGGGTGATCACGCCCATACGACGGATCCCGGAGTTGATGCAGTTA -GACAGCGCAAAGTCGATAATGCGGAACTTACCGCCGAAGTGTACGGCCGGTTTTGCTCGCTTATTGGTTA -AATCCTTCAGGCGGGTACCACGTCCTCCCGCCAGTATCAGGGCAACAGATTTCAATGGCAGCTGGCGCGC -CAACATTAAGTGATCGTTCTTCTCTAAACTAACCATGACTAACTCCTTTTTTATCATCTCTGGAACACAC -ACAATCCGTGTGCAGGTCCCTGCCAGACAGCCGTAATCACTGGGTTATCCTCTCCAGCGAATGGGGGAAT -GGCGTGCCACTCCCCAGCAGGTAAAACAATCTCTGTTACCTCAAGCGTGGCGTTAATTGCGATCAAAAAG -CGATCCGAGAGCAGAATTTGCAGCTGTTTCGGCCCGTTTTGCCACTCATCCGTGCTTAAAGGTTGAGCAT -ATCGATTTAGCCAACGGACATTGCCGTCGCCTTCTTCCCACCAGCGATTCTCCACCAAAGCGGGAATGCG -CTTGCGCAGATGGATTAACGCGGCGGTAAATGCGGTTAAACCACTGCTTGCCTGCGACCAGTCCAACCAG -GTTAATTGGTTATCCTGACAGTAGGCATTGTTATTGCCATGCTGGCTGTGACCATGTTCGTCACCGGCCA -GTAACATCGGCGTACCCTGGGAGAGCAACAACGTTGTTAACAGGGCGTGAATGCTGTCGCGCCGCCGTTC -AACCAGGTCAAGAGAACCGCCTAACCCTTCTTTACCATGATTGTTACTGTAATTGTTGTTGGTCCCGTCG -CGATTTTCTTCTCCGTTTGCTTCATTGTGTTTATGGTTGAAGCAAACGCAGTCGCGAAGCGTAAAACCGT -CATGCGCGGTGACGAGATTAATCGCGGCACTCGGCAGACGACCATTACGTTTAAAAACATCGCTGGAGGC -AGCAAAACGCCCGGCAAACGCCCCCAGAGGCAAATCATAATGTAGCCAGAAACGACGGGCAGCATCGCGG -AAATGATCGTTCCACTCGGCAAACAGCGGCGGGAAATTTCCCACCTGATAACCACCAGGAGCGATATCCC -ACGGTTCAGCAATTAACTTCACCTGCGAGAGCACCGGGCAGTTCTGGATAGCGGTAAACAACGGCGCATC -CTGACGGAACTCTGGCGTACGGCCCATGACTGCCGCCAGATCAAAGCGGAAACCATCGACGTGGCAGGTT -TCTACCCAATAACGCAGGCAGGCGCTGGCATAATCCACCACCGCCGGATGACTCAAATTGAGCGTGTTGC -CGCAACCGGTCCAGTTGTGATAATCGCCGTCTTCTCTTATCCAATAATAGCTACGGTTATCGATCCCACG -CAGCGAGAATAACGGGCCGTCGAGGTCCAGTTCCGCACTATGGTTGAGCACGATATCAAGAATGACTTCG -ATACCCGCTTTATGCAGTGCTTTGATTGCATCGCGAAACTCATCCAGCGCCGTTTCTGGCGAGCAGGCAT -ACGCCGGATGCAGCGCAAACATCGCCACCGGGTTGTAACCCCAGTAGTTACTTAGCCCCATGCGTTGCAG -ACGTGGTTCACTGGCAAACTGCGCCACTGGCAGCAGTTCCAGCGCGGTAATGCCCAATTGTTTCAAATAG -TTGATCATCACCGGATGCCCGAGGGCTTTATAAGTGCCACGGATCTCGACCGGGATCTCCGGGTGCAAGT -ACGTTAATCCTTTGACATGGGCTTCATAAATGATGGTGCTGCCCCACGGCGTGCGCGGCGGGGCATCATC -TTCCCAGTCATAGTGATCAACCACCACTACGCATTTCGGCGCAATGGCGGCGTTGTCGCGATAGTCAGGT -TCATTATGACCGGCGTGCAGCAGCGGGTTATCTTTAAACTCCCCGTCAATTTGCCGCGCGCAAGGATCAA -TCAACAACTTCGCCGGGTTAAAGCGATGCCCCTCGGCGGGTTGCCAGGGGCCATGAACGCGATAACCATA -ACGCAAACCCGGGCGCGCATCCGGCAGATAACCGTGCCAAATGTCGCCACTGTGCCCTGGCAAGTCATAG -CGATGTTCCTGGCCATTGGCGTCAAAGACACACAGTTCTACCCGCTCGGCATGAGCGGAGAAAAGTGTGA -AGTTGACGCCCTGACCGTCGTAATGCGCGCCGAGGGGAGCGGGTTTGCCAATGGCGAGTTGTGTCATTCT -GCCTCCCGAACCAGCCAGATAGTGGCCAGCGGTGGTAGCGTCAGGCTTAGTGAATGCTGACGACCGTGGC -TGGCAATCTCATCGCTGTGTACCGTGCCGCCATTGCCTGCATTACTGCCGTGATAGTGCATGGAATCGGT -ATTGAGGATTTCACGCCATTTGCCCGGCTGGTTTATGCCGAAGCGATAATCATGACGCGGTACCGGCGTA -AAGTTACTGGCAACGATGATTTCGTTACCCTCTTTATCGCGACGCACAAAGATCAGCACCGAGCGTTCTT -TGTCATCCACCACCAGCCATTCAAAGCCGTACGGGTCAAAATCCAGTTCATGCATTGCTTTATGGTGGCG -GTAGGTGAGGTTCAGATCGCGCACCAGACGCTGGACACCGTGGTGCCAGTTATCGCCGCCTTCCAACAGA -TGCCAGTCGAGGCTGGCGTCATGGTTCCACTCGCGGCCCTGGGCAAATTCGTTACCCATGAACAGTAGTT -TCTTGCCCGGGAATGCCCACATCCAGCCATAGTAGGCGCGCAGGTTCGCGAATTTCTGCCATGCGTCGCC -CGGCATGCGGTCGAGAATCGATTTTTTACCGTGGACCACTTCATCATGCGACAACGGCAGGACGAAGTTT -TCAGTGTAGTTGTAGAGAATCCCGAAGGTCAGTTTATCGTGATGATACTGACGATAAACCGGGTCGAGCT -TCATGTAGTCCAGGGTGTCATGCATCCAGCCGAGGTTCCACTTGTACCAGAAGCCCAGACCGCCCATATC -CTGCGGACGAGAAACGCCAGGGAAATCGGTAGACTCCTCAGCCATTGTCACCGCACCGGAAACCTGCTCA -CCAAGAATACGGTTGGTATTACGCAAGAATTCAATCGCTTCAAGATTCTCGCGCCCGCCAAATTCGTTCG -GGATCCACTCCCCCTCTTTACGGCTGTAGTCGCGATAAATCATTGACGCCACCGCATCGACGCGCAGCGC -ATCAATACCAAAACGTTCAATCCAGTAAAGCGCGTTACCGACGAGGAAGTTACTGACTTCACGGCGACCA -TAGTTGTAGATCAGCGTGTTCCAGTCCTGATGATAGCCTTCACGCGGATCGCTGTGTTCATACAAGTTCG -TGCCATCAAATTCGGCAAGCGCAAAGTCATCAGTCGGGAAGTGGCCTGGCACCCAGTCGAGAATCACGTT -CAGACCAGCTGCGTGTGCGGCATCAATGAAATAACGGAAGTCGTCGCGAGTACCAAAACGGCGGGTTGGC -GCATACAGGCCGGTTGGCTGATAACCCCAACTGCCATCGAAGGGATGCTCGTTAATGGGCAGTAGTTCGA -GGTGGGTAAAGCCCATCCATTTAGCATAAGGCACCAGTTGATCGGCCAGCTCGCGGTAGCTCAACCAGAA -ATTGTTGTCGGTGTGGCGACGCCAGGAACCCAGGTGAACTTCATAAATAGAGATTGGCGCATCAAACTGA -TTCGCTTTTTTGCGCTCTTCAGTCTGTACAACCTTTTCCGGCAGCCCGCAAATAAGAGACGCGGTTTCCG -GGCGCATTTGCGCTTCAAAGGCATAAGGGTCGGACTTCAGACGCAAGTTGCCATTGGCATCAATCATCTC -GTATTTATAGAGCTGACCGTTATGCGCCCCAGGGATAAACAGTTCCCAGATGCCGCTCTCTTTACGCAGG -CGCATCGGGTGACGGCGACCGTCCCAGTAGTTGAATTGCCCAACCACCGAGACCCGACGGGCGTTTGGAG -CCCAGACAGAGAAACGCGTACCTGTGACGCCATCCATAGTATCTGCATGCGCGCCTAAGGTTTCATACGG -GCGCAGGTGAGTACCTTCAGATAATAGCCAGGCATCCATTTCCTGGATTAGCGGACCAAAACGGTAAGGA -TCATCAATCAGGTTTTGCTGACCATGCCAGACAACAGCCAACTGATAGCGGAAAAAATTCTTACGTCGCG -GAATGACGCCGCTAAAGAATCCCCGTGAGTCGAGACACTCCAGTTTTGCGAGTTTGCGCCCGGTTTTCGG -TTCAATCACCCACACATCGGTAGCGTCGGGTAAAAGGGCACGGACTTCCAGTCCCGCGGTGGTTTTATGC -ATTCCCAGTACGGAAAAAGGATCCGCAAAATGGCCTGCAATTAGCGCGTTAATCACGTCTCTATCGATAC -GATCGGACATGCTTGTCTTCCTGTTTTATTGTGTCACCCCATCCAATTGGATTTTTGACTTCTGGTTGTG -ACATTTTTTTGACCTGAACGGCGCAGCACTCTGTGCATCCTCTCTGCGTCGTCCTCACTTCAGGTAAGGC -TGTGAATACTCATGTATTCAGCCACCCTTAAAGAATAGCCAATGCTCTATTTAACTCCCGGTAAATCATG -AAACATCTGCGCTTACTCCTGTATTACGCACTAACAGGGGCGGCATCGCGCCCCAGATTTAATGAATAAA -GATTACGCCAGTTGACGAAGCATCCGACGCAGCGGCTCCGCGGCCCCCCACAGCAGCTGGTCGCCCACGG -TAAAGGCTGACAGGAACTCTGGTCCCATATTCAGCTTACGCAGGCGGCCTACCGGCGTGGTCAGCGTGCC -GGTAACGGCAGCTGGGGTTAGCTCACGCATAGTGATTTCCCGATCGTTCGGAACGACTTTCGCCCACGGA -TTGTGCGCAGCCAGCAGTTCTTCCACGGTCGGAATAGACACATCTTTTTTCAATTTAATAGTGAATGCCT -GGCTGTGGCAGCGCAATGCCCCGACACGCACACATAAACCATCTACCGGAATTACGGAAGATGTGTTGAG -GATCTTGTTGGTTTCCGCCTGCCCTTTCCACTCTTCGCGGCTCTGACCGTTATCGAGCTGTTTGTCGATC -CACGGAATCAGGCTACCCGCCAGCGGCACGCCAAAGTTATCCACCGGCAGCTCACCGCTACGGGTTAAGG -TTGTGACTTTGCGTTCGATATCGAGAATAGCAGAGGACGGGGTCGCGAGTTCATCTGCCACATGGCCATA -CAGATGGCCCATCTGGGTTAATAACTCACGCATATGTCGCGCACCACCGCCGGAAGCGGCCTGGTAGGTT -GCAACGGACACCCAATCAACAAGATCATTGGCGAATAAACCACCCAACGACATCAACATCAGGCTTACGG -TACAGTTACCGCCAACAAAAGTCCTGATGCCATTATTTAATCCGTCGGTAATGACGTCCTGATTGACGGG -GTCAAGAATGATGATGGCGTCATCTTTCATGCGCAGAGACGATGCTGCGTCAATCCAGTAACCTTGCCAT -CCGCTTTCACGAAGCTTTGGATAGATTTCGTTGGTATAATCGCCGCCCTGACAGGTCACAATGATATCGA -GGGCCTTTAGCGCCTCCAGATCAAAGGCATCCTGAAGTGTGCCAGTGGTTCCGCCAAAAGACGGCGCAGC -CTGGCCAAGCTGAGAAGTAGAAAAGAAGACAGGGCGAATGGCGTCGAAGTCGCGCTCTTCAACCATGCGT -TGCATGAGAACGGAGCCGACCATACCGCGCCAGCCGATAAAACCAACATTTTTCATAAGCGTTTTTTTCC -TGCAAAGATGTGTGCTGTATAAATGTGCCGGTCTCCTCTTGGCACATCTTTCACCATACAAAAAGCAGCC -AAAGTCGCAAGTGAAATTAATCAATGATAGCGAAGCCATCAGTAATGCGACTTATCCTGCTTTGTTAGCA -CGCAGAAAGTCCGCGGCAATTATCAGGGAATTTGAGTTATGAATGAAATCATTTCTGCAGCAGTTTTATT -GATCCTGATTATGGATCCGCTCGGAAACCTACCTATTTTCATGTCCGTACTGAAACATACTGAACCGAAA -AGACGGCGGGCAATCATGGTGCGAGAGTTGCTTATTGCTCTCCTGGTGATGCTGGTGTTCCTGTTTGCGG -GTGAGAAAATTCTGGCATTTCTTAGCCTACGAGCAGAAACCGTCTCCATTTCTGGCGGCATCATTCTGTT -TCTGATCGCCATTAAAATGATTTTCCCCAGCGCTTCAGGAAATAGCAGCGGGCTTCCGGCAGGTGAAGAG -CCATTTATCGTGCCGTTGGCAATTCCGTTAGTCGCCGGGCCGACTATTCTCGCCACGCTGATGTTGTTGT -CTCATCAGTACCCGAATCAGATGGGGCATCTGGTGATTGCTCTGCTGCTGGCCTGGGGCGGCACCTTTGT -CATCCTGCTACAGTCTTCGCTATTTTTACGTCTGCTGGGCGAGAAAGGGGTGAACGCACTTGAACGCCTG -ATGGGATTGATTCTGGTGATGATGGCAACCCAGATGTTCCTCGACGGCATTCGAATGTGGATGAAGGGGT -AACGAGGAGAGTTTTTCGAAAAGAACCCGGTAGCGTCACAACTACCGGGCGAACAAACTTAACTCAACAG -CTGGAACGCAATCATCCCAACGATGGCACCGACAGTGCCGAGGATGGTTTCCATCATGGTCCAGGTTTTC -AGCGTTTCGGCTTCGGTCGCGCCGGTAAATTTACCGAACAACCAGAAACCGGCGTCGTTAACGTGGCTGA -CAACAATCGAACCACCAGCGATACAAATCGACAGCGCCGCCATTTGCGCACCGGAGTAGTTCAGTTGTTC -AATAACCGGCATCACCAGTCCTACCGCCGTTAAACAGGCTACGGTGGCAGAACCCTGAATGATGCGCACT -GCAGCTGCCAGCACGAAGCAGGTGATAGCAATCGGCAGGCCCATGCCGGTTAACGCTTCGCCCAGTGCCG -GACCTACGCCAGAGTCAACCAGCACCTGTTTGAACACGCCGCCCGCACCAATCACCAGCAGAATGATCCC -CGCCGGTTGCAGCGCGTGACCGCAAATCTCCATCACTTTGTCTTTTGGCATGCCCTGACGCATTGCCAGA -CCGTAAATCGCCACCAGACAAGCAACCAGAATCGCGGTAAACGGATGACCGATAAACTCAAACCATTCGT -AAGCAGTTGATCCTTCCGGCACAAAACGCGCGGCAATGGTTTTCAGCCCTACCAGCACCAGCGGCAGCAG -GATCAGCGACAGGCTGAATCCGAAAGATGGCATTTTGCCTTCGCCGAGATGCGGTTCGCTGATGTCGTCA -GGAATATGCAGCTCAACGTAACGGCTGATGAAGTTACCCCACAGCGGCCCGGCAATAATCATTCCCGGAA -TTGCCGCACACAGGCCAATCAGGATCATCCAGCCAAAGTCGGCATTCATCTGCGATGCCAGCAGCATCGG -CGCTGGTCCAGGCACCAGAAATGCCGCCGCTGCCGCCACGCCTGCAAATAATGGGATTACCAGCTTCACC -AGGTTCGTACCGGTGTGGCGCGCCATTGAGAAAGCAACGCTAATCAGCAGAACTATCGCCACTTCAAAGA -ACAGCGGTAGCGCACAGACCAGCCCCGCAAGGCCGATGGCATAATGCGCGCGGCTGTGACCGAAGGATTT -GAGCATTTTGACGGCAATCTGATCGACTGCGCCGGTTTCATGTAAGATCTTGCCAAACATAGCTCCCAGG -GCGACAACCACCGCCAGGAAGCCGAGGGTGCCTCCCATCCCTTTTTCCATCGTCGCTGCGATTTTATCGA -GCGGCATACCAGAAAAAAGGCCAGCCCCCATGGACACCACCATTAAAGCCAGGAAAGCGTGCATACGCGC -CTTCATGACTAAAAACAGCAGCAGTAAAACAGACCCTACTGCTGTTAAAACAAGCGTTAATGTAGTCACT -ACTTATTTGCCTTTTTTAATAACCTCAATGGTGCTTGCCACAACACCTTCCAGCGGTTGATCGATATCCA -CCACCAGTACATCGGTTTCGTCCGCACCCGGCTCCTGCAGCGTTTCAAACTGCGTCACCAACATTTGGGT -TTTAAAGAAATGGCCTTTGCGCGCTTTCAGGCGGCTTTCAATCACATCAAAATCGCCTTTCAAATAGATG -AAAGAGAGATTCGGATTACCTTCACGCAGCAAGTCGCGATAGTGTTTTTTCAATGCAGAACAGACGATCA -GCGACACTTTATTAGTGCGCTGCATAGCAAACGCGGCGTCGTTCAGCGCCTGCAACCACGGTTTGCGATC -GTCGTCATTCAGTGGTTCGCCAGACGCCATTTTTTCGATATTGCGCCGTGGATGGAGGAAATCGCCATCA -AGAAACGCGGCATGAAGTTGATGCGCCACTTCACTGGCGACCGCAGATTTGCCGCTGCCCGATACGCCCA -TCAAGACGTAAATGTGGTGATCATGGTTAGTCGTGCTCAAAGTGGTGCCCCCACAATACAAGAATTAAAA -ATGTTACGGGTAACTGTTATCGGTAACATTGTCCAGCCGGACAATATCAGAAGCAATATCCATCCATGCC -TTAAGTGTATAAGTGTGAGCTACTTCAAATTTGTGGGCTTAAATAGATCCGCCCGGTGACAAGGTGAAAC -CTAAATCTAACATTTTCGGTGTCACAGATTCGCCACGAATACGCGCCAGCAGGCGTTCAGCGCCAATACT -GCCCATCCGCTCACGCGGCGTCAGCACGCTCGCAAGTCGTGGCTCCATCACCTGACCAATGTCATGACCG -TGGAAACCGGCAATCGCCATATCGTCAGGAACTTTTAACCCCAGACGCTGACATTCAAACGCCGCGCCGA -CCGCCAGGTCATCATTCGTACAGAACACGCCATCCAGCTGCGGATATTCCCGCCGCGCCTGGCGAATCAG -TTCAATACCGGAAGAGTAAGAAGAAGATTGCTCAACCATCACGCTATATGGCACCAGGCCTGCATCCAGC -ATCGCCTGTTCGTATCCCTTCTGTTTGATGATAGTACGTTCGTCGAGACGTGCGCCGAGATAGGCAATGT -GGCGATGCCCGCGAGCAATAATGGCAGTGGTCATCTGGCGTGCTGCTTCAAAGTTATCAAAACCGACGGC -GATATCAAGGCATGGCGACTTGCTGTCCATCAGTTCCACCACGGGAATACCCGCCACTTCAATCATCTTT -AAGGTGCGCGGCGTGTGGGTACGTTCGGTGAGGATCAGGCCGTCGATATTCCAGGAGAGCATGGATTCGA -GGCGTTCTTGCTCCATTTCCGGTTTATAACCGTAGTGCGCCAGCATGGTCTGATAACCGTGCGCGTCGGT -GACGCTTTCGATTCCGCGTAATACTTCCGCGAAAACCTGGTTGGTGAGAGAAGGTAACAGGACGCCAATC -GCCCGGCTGGTGGCGTTAGAGAGGATATCGGGCGCACGATTGGGAATATAGCCCAGTTCATCAAGAGCCG -CGGCAATCTTGCCGCGTAGAGCGACGGAAACCTGCTCCGGGTTGCGTAAAAAACGGCTGACCGTCATTTT -GGTCACGCCTACACGGTCAGCCACATCCTGAAGTACGGGTCTTTTCTTTTTCATCGTCCTGAAGGTACAA -AAGAGATAGATTCTCTTAGTTTAACACGGACACATCAGAACCTTCCCGGGGAAAACAGTGCTTGTTTACA -ATTATTAGATATACACTAAATCAATTGCATCGCATTGTGCTAACGACGCGGCAAAACCCCGGAAGCGTAC -ATCAGCACGCGACCGGAGCGAGCGAGGAAGCCTGCAAAAAGGCAGGCTTCAAAGATGCCGTTGAGTTTTA -AACCGGCGGCAGATCGAACAGTAACACTTCGCTGTCGCTATCCGCATGGATGGAGATTGCCTGCTCATCC -CAGATTGCCAGACCATCGCTGGTCGAGGCTTTCACGCCGTTAATGGTGACATTGCCTTTCACCACCTGGA -TCCAGACGCGGCGTTCAGCGGCAATCTGATGCACCGACTGCTCATCTTTCAGCAACGCCCAGCGGTACAG -TTCCATATCCTGATGCACTTTCAATGAACCATCTCGCGCATCCGGCGAGAGCACCAGCTGTTTGCCCTGT -ACGGCATCGAAGCGACGCTGTTCATAACGCGGCGTAATACCGTTTTCTTCAGGCATGATCCAGATCTGAT -ACAGATGCAGACGCTCGGTGCTGCTTGGGTTGTACTCTGAGTGACGAATACCCGTACCAGCACTCATAAT -CTGGAACTCACCCGCCGGAACCTGCTCTTTATTGCCCATGCTGTCCTGATGCTCAACAGTACCTTCCAGC -ACGTAGGTCAAAATTTCCATATCTTTATGCGGGTGAGTGCCGAAGCCCTGCCCTGCTTCAATCACGTCGT -CGTTAATCACGCGCAGCGCGGAGAAGCCCATAAAGTTCGGATCGTAATAGTTGGCAAAAGAGAAAGTATG -CCAGGAGTCCAGCCAGCCATGATTTGCATGACCACGTTCATTTGCTTTGCGTAAGTAGATCATTTGTATT -CGCCCCCTGAATGATTTCGATGGGCTTAGTGTGGACCCGATCTGCCTGGGATGATAGAGGGTGAAAATTG -ACCCCTCTGTTCAAAAAAATTGAACTATTCGAGGGGCCATCAAACTTACTTAGCGAGAGTTACTGTGGAG -GGAGAGGCTTGCTCAAATCCGCGTTCAAGGATTTCCAGATTGGTAAGAACTTCAGATTCCTTGACGTAAT -TTGGCGCACCGTGGGTGATGGTTTGATACAACGCATCATAAACGCGCCCGTAATCGCCCATCTCCGGCTT -CATCTCTTCTCTGACCGTCACGCCCTCGTCATTGACATACTCCAGCACACCGACCGAATCATCCGCTGCG -AATCCCGGTTCGCCCGGCATAATATTAGCCTTCAGGCTGGTTTCCTGCTGGTCGATACCGTATTTAATAA -ACGAACCTTTCTTACCGTGAACGATAAATTTCGGATAATCGATTTTCACCAGATGGCTGGTTTTGACGAT -GGCTTTCAGGTCGCCATAAAACAGTTGCGCTTCAAAGGTGTCGTCAGGATTGGCTTTATTACGCAGGCTG -CGGATGTCATAAGCGACGTGATCCGGGCGACCGAACAGAGAAATAATCTGGTCCATCGTATGCACACCAA -GGCCATAAAACGCGCCATCCTGCGGCAGCCCAGGTTTGGTTTCTGCCACCGGGCGGTAATAGTCAAAATG -GCTTTCCACTTCAACAATCTCTCCCAACTTGCCACTTTCAATCGCTTTTTTCGCTGTCAGGAAGCAGGAG -TCAAAGCGACGATTCTGATACGGCGTGACGGTCAGCCCTTTGCTTTTCGCCAACGCAAACAGCTCTTTCG -CCTGCGCAAGTGTCGGAGTGAACGGTTTTTCGACCAGCACATTTTTCCCGGCTTCCAGCGCGCGTTTCGC -GTACTCGAAATGGCTGTCCGCGTGGGTGCAGACAACAACCAGCTTAACATCGGGATCGTTTAGTACTTCG -TCGAGATCGCTGGTGAAATGGATATGGGAATAAATGGGAGCCTGTTCTTCCGGCTTCGCATGGCGACGAA -AAATATGCGCGACATGCCAGCTATCCTTGCGGTTAAGTACATACGGCAGATGGTAACGGGTGGTGCTTTT -GCCGAAGCCAATAAAGGCGCAGTTGATGACCATGATTTCGTCCTTTTTAAGGTGGTTATTTACACCTTAG -CGCAAAGCGGACGTGGTTCCTACTGGAGTGCGCATAACGAACACAAGCACTCCCGTGGATAAATTGAGAA -CGAAAGATCAAAAAAAAAGCCAGCACCCGGCTGGCTAAGTAATACTGGAAGCAATGTGAGCAATGTCGTG -CTTTCAGGTTCTCCGCGAGGGTCTTCCTGATCGCGAGACAATAATAATCATTCTCATTCGCACTTGTCCA -ACACTTTTTGCAAAAAAATGCATTTGACTCGCATTTGAAAGTCAATGATGTTGAAAGGGACATTTACCCC -AAAGAGGACAAAGGAATGAGTGAGATAGTAATACGCCACGCAGAAACACGGGATTACGAGGCCATCAGGC -AGATTCACGCCCAGCCGGAGGTGTATTGCAACACACTACAGGTGCCTCATCCTTCCGATCATATGTGGCA -GGAGCGACTCGCCGATCGTCCCGGCATCAAGCAACTCGTCGCCTGTATTGATGGAGACGTCGTGGGCCAT -CTCACCATTGACGTGCAACAGCGCCCACGCCGCAGTCATGTTGCCGATTTTGGTATCTGTGTCGACTCTC -GTTGGAAGAACCGCGGCGTCGCCAGCGCCCTGATGCGAGAGATGATTGAAATGTGCGACAACTGGTTGCG -GGTAGATCGCATTGAACTAACCGTGTTTGTCGATAACGCCCCGGCAATTAAGGTCTATAAAAAATACGGC -TTTGAAATTGAAGGGACTGGTAAGAAGTACGCATTGCGTAATGGTGAATATGTCGATGCATATTATATGG -CGCGGGTGAAGTAAGATAGTGCCCTTTTTCTGAGATGGAAAAAGGGTGTCATTCAAAATCGACATACCTT -CCTTTAAGGTATTTATTTGCCCAATACATATATTGAGATTTAACTCATAATTACTTCCTAAAGTGTAATA -TTTTATTTTTTAATATATACGCCTACAATTTCCTGGAGTAAATAAATAACAATTAACAAGCATAATATTG -CCATTGATAAAATAGCATGCCATAAAAGGACTTTTCAGGGATGAGTAATATTGTTTACCTGACAGTAACG -GGAGAACAACAAGGAAGCATCTCCGCAGGTTGTGGGACTTCTGAGTCTACAGGTAATCGTTGGCAGAGCG -GGCATGAGGATGAAATATTTACATTCTCACTCTTAAATAATATTAATAATACGGGGCTTGGTTCACAGTT -CCATGGTATAACATTTTGTAAATTAATTGATAAAAGCACTCCATTATTTATTAATTCCATTAACAATAAT -GAACAATTATTTATGGGATTTGACTTCTATCGAATAAATAGATTTGGTAGATTGGAAAAGTATTATTATA -TACAACTAAGAGGCGCTTTTTTATCGGCTATTCATCACCAGATCATTGAAAACCAACTGGATACAGAAAC -AATAACTATTAGTTATGAATTTATCCTCTGTCAACATCTTATCGCAAATACCGAGTTCAGCTATTTGGCA -CTCCCTGAAAATTATAACCGTTTGTTTTTACCAAATTCAAAAAACCAAACAAATAATCGTTTCAAAACGT -TAAACAGCAAAGCTATTGGCAGGCTACTTGCTGCTGGTGGCGTATACAATGGGAACATTGAAGGATTCAG -AGATACTGCGGAAAAACTGGGTGGAGATGCAATAAAAGGCTATGATCAAATACTAAATGAAAAAACAGCG -GGCATAGCGATAGCAACAGCATCTATTCTTTTAACAAAGCGTTCTAATGTTGATACATATACAGAAATAA -ATAGTTACTTAGGCAAACTTAGAGGTCAACAAAAACTTCTTGATGGTATAGACATAATAGAAATAATATA -CATTAAGAGACCTTCAAAAGACTTAGCTAACTTACGAAAGGAGTTTAATAAAACTGTAAGAAAAAATTTT -CTTATCAAACTTGCAAAAACCTCCGAAGCATCTGGAAGATTCAACGCCGAAGACCTTTTAAGAATGAGAA -AGGGCAATGTTCCTCTAAATTATAATGTTCACCATAAACTATCTCTAGATGATGGTGGTACTAATGATTT -CGAAAATTTAGTATTAATCGAAAACGAACCATATCATAAAGTTTTTACTAACATGCAATCACGAATAGCT -AAGGGAATATTAGTAGGTGAAAGCAAAATCACTCCCTGGGCCATTCCATCTGGCTCAATTTATCCTCCCA -TGAAAAATATTATGGACCACACAAAATGATGACTAAAACCCAAATAAATAAATTAATAAAAATGATGAAT -GATTTAGACTATCCATTTGAAGCACCGCTCAAGGAATCATTTATTGAAAGTATAATCCAAATAGAATTTA -ATTCTAATTCAACTAATTGCCTGGAGAAGTTATGTAATGAAGTTAGTATTCTTTTTAAGAATCAACCTGA -TTATCTTACTTTTTTAAGAGCAATGGATGGATTCGAAGTTAATGGATTACGATTATTTAGCCTCTCGATT -CCAGAACCTTCAGTTAAAAACCTTTTTGCCGTAAATGAATTTTATAGAAATAATGATGATTTCATAAACC -CTGATCTACAAGAACGGTTAGTGATCGGGGATTATAGCATTTCAATATTTACTTATGACATTAAAGGTGA -TGCTGCCAACTTACTGATTTAGTGTATGATGGTGTTTTTGAGGTGCTCCAGTGGCTTCTGTTTCTATCAG -CTGTCCCTCCTGTTCAGCTACTGACGGGGTGGTGCGTAACGGCAAAAGCACCGCCGGACATCAGCGCTAT -CTCTGCTCTCACTGCCGTAAAACATGGCAACTGCAGTTCACTTACACCGCTTCTCAACCCGGTACGCACC -AGAAAATCATTGATATGGCCATGAATGGCGTTGGATGCCGGGCAACAGCCCGCATTATGGGCGTTGGCCT -CAACACGATTTTACGTCACTTAAAAAACTCAGGCCGCAGTCGGTAACCTCGCGCATACAGCCGGGCAGTG -ACGTCATCGTCTGCGCGGAAATGGACGAACAGTGGGGCTATGTCGGGGCTAAATCGCGCCAGCGCTGGCT -GTTTTACGCGTATGACAGTCTCCGGAAGACGGTTGTTGCGCACGTATTCGGTGAACGCACTATGGCGACG -CTGGGGCGTCTTATGAGCCTGCTGTCACCCTTTGACGTGGTGATATGGATGACGGATGGCTGGCCGCTGT -ATGAATCCCGCCTGAAGGGAAAGCTGCACGTAATCAGCAAGCGATATACGCAGCGAATTGAGCGGCATAA -CCTGAATCTGAGGCAGCACCTGGCACGGCTGGGACGGAAGTCGCTGTCGTTCTCAAAATCGGTGGAGCTG -CATGACAAAGTCATCGGGCATTATCTGAACATAAAACACTATCAATAAGTTGGAGTCATTACCGACATTA -AAAGTAACTTTTTTGAAATTAGAGATAATATTGGCACAGAAAATATATTCAGTTCGTTTAGTGATTTCTC -TTCATTCTTAAACGAAATCATGGACAGTTGTTCATAATAATCAAAAGGAAACAAAAATCATTGTAAACCA -TGCCATCTTTTTAGAGATTACCAGCAGAAAATTCCTTGTTCGAAATTTAGCAGTGCAAGCTATGGAAAAA -CTTACAACGGAACTACACTCCTTAAGTGAGATGGACCGAAGACATGTAGTCTCTATTTTAGCCGAAATAG -CTAATGGCTATGATGATTTTAATGACATGTTGATTTATTTAGAATTTTACCCGAATCATAAGATTCTGAT -ATCTTAAATAAGAAAATCCCGTTCGACGTTCTGAAAAAGAAATCATAAAATATTAGCAGATACTTATTTC -GTGACTATATCTTATCCGATGAACTTTTTTCAAAACCAGCATTTAATAATATCTTTGACGAAGATGAACG -CGTCTTTGCTCAATGTATCACACAGGAATAATAATATAACACTCAACAATAATATTTATTATAATTATGA -TTACTTATCACGACGCATTCGCGAAAGCGAACCATTACCTTGATGATGCAGATCTCCCGGTCGTCATTAC -TCTACATGGACGCTTTAGCCAGGGCTGGTATTTCTGTTTCGAAGCACGAGAATTTCTCGAAACTGGAGAT -GAGGCCGCGCGCTTAGCTGGTAACGCACCTTTTATTATTGATAAAGACAGTGGTGAAATTCATTCTCTGG -GAACGGCAAAACCGCTGGAAGAATATCTACAGGATTACGAAATAAAAAAGGCTACCTTCGGCTTGCCCTG -ACAAAATAGCCCTCTTCCCACGAAGAGGGCCGCTAACCTTAGTACCCCGCCGTTAAATCATCCACCGAGC -GCGGGTCGGATGCGCCGTACAACTCACCGTCCGGCCCAACCATAATGCTTTGTGTACTGCCCATCGCCTC -TTTCAGCGCCACTTTCTGACCTTTTGCTTCCAGCAGCTTGAGCGTATCCGGGCTAAACCCTTTTTCGACA -CGCAGCTCGTCCGGCAACCACTGATGGTGGAAACGCGGCGCATTGGTCGCTTCGGCGACGTTCAAGCCAT -AATCGATGCTATTCACCACCATTTGCAGCACTGTAGTGATGATCCGGCTACCGCCTGGGCTACCGGTAAC -CAGCCAGGTTTTACCGTCTTTCACCACAATGGTCGGCGACATCGACGACAGCGGGCGTTTGTTCGGCCCG -ACGGCGTTGGCATCACCGCCCACCAGCCCGTAAACGTTCGGTACGCCCGGTTTGGCGGAGAAATCATCCA -TCTGGTTATTAAGCAGAATACCGCTCTCGCCCGCGACAATGCCCGTACCGAAGGTGGTGTTCAGCGTATA -GGTCACCGCCACCGCGTTACCATCTTTATCCACCACTGAGTAATGGGTAGTTTGATTACTCTCATAAGGC -GCAAGCTTGCCGGGGCGAATTTCGCTGGATGGCTTCGCTTTATTGATATCAATTTGATCGGCAATAGATT -TGGCATAGGCTTTATTGGTCAGCGCCTGCCACGGTACTTTGACAAAATCCGGGTCGCCAAGATATTCCGA -GCGGTCGGCGTAGGCGTATTTCTCCGCTTCTGCCATGATTTGCATCGCATCGGCGCTGCCAAAGCCGTAT -TTCTTCATATCGAAGTTTTCCAGAATATTGAGGATTTGTACGATATGGATCCCGCCGGAGGATGGCGGTG -GCATGGAGTAAACCTGATACCCGCGATAATCGCCGCTTATCGGAGTGCGTTCGACCGCTTTATAGGCTGC -TAAATCTTCTTTAGTGATCAAGCCACCGTTTTTCTGCATCTCCTGGGCGATCTGTTCCGCAATCGTGCCT -TTATAGAATTCGTCCGGGCCGTTTTCAGCAATCATCTCCAGGCTCTTTGCCAGGTTCGCCTGCACCAGCG -TGTCGCCCTTTTTCAGCGGCTCGCCCTCTTTCCAGAAGATAGCTTTACTGTTTTCGTGATTCGGCAACAC -TTCGCTACCGTAGGTTTTGAGATCGTCAGCCAGCGCGTCGTTAACGATAAAACCATCGCGTGCCAGTTTA -AACGCGGGCTGCACGACTTTGTTCAGCGGCATGGTGCCGTATTTATCCAGCGCCAGCGAGAAACCTGCTA -CCGTACCCGGTGTGCCGGAAGCCAGATGCGAAGTGAGTGATTTTTTGCTGTCCGGGTTGCCCTGATCATC -GAGGAACATATCGCGGGTCGCTTTGGCGGGTGCCATTTCGCGGAAATCGATAGCCGTGGTATTGCCATTT -TTCGAGCGGATTAACATAAAACCACCACCGCCCAGATTCCCTGCCTGCGGATGCGTTACCGCCAGCGCGT -AGCCCACCGCCACGGCGGCATCAACGGCATTCCCGCCCTCCTTGAGAATATCCACCCCCACCTGAGTGGC -AGTGGCGTCCACAGACGCTACCATTCCCTGTTTCGCGCGTACCGGGTGGAAGACATCTTCCTCCACACCA -TACGAGACGGGCGGCGCAGGAGGCGCGGCGGCGGCGCTAAAACAACTTCCTGAGAGCAGAGCAGCAATGG -CCACCCGGCGTAAAAACGTCGGTTTTATCATCGTTATTCTCCAGAGATTAAGGGGCAACCCCAGCTAAGC -CTGGTATATAACTCTGAATTAATCATCGTTTTGTCGGGAAGCGAGTAAACTTAAAGGATATCTTCAGAGG -AGGATACGCGATGAAACGACTTCTGATTCTTACGGCACTCCTGCCGTTTGTCGGCTTTGCACAGCCCATT -AATACTCTGAACAACCCTAACCAGCCGGGGTATCAGATACCCAGCCAGCAGCGGATGCAAACCCAGATGC -AGACTCAGCAAATCCAGCAAAAAGGGATGCTGAATCAGCAACTGAAAACGCAAACTCAGTTGCAACAGCA -GCATTTAGAAAACCAGATAAACAATAATTCTCAGCGGGTGTTGCAGTCACAGCCGGGGGAGCGAAATCCC -GCCCGGCAGCAAATGCTGCCCAACACCAACGGCGGGATGTTAAACAGCAACCGTAATCCGGATAGTTCGT -TGAATCAGCAGCATATGCTGCCGGAGAGGAGAAACGGCGACATGCTGAATCAGCCCAGCACGCCGCAGCC -TGACATTCCGTTGAAAACTATTGGGCCGTAAAGTTCGGACCAATCACGTCAATCGCATCGGTACAGATGC -AATCCACACCCCAGCGCAGCAACTCTGCTGCGCGCTGGGGTTTATTGACGGTATAAACCAGAATCCGCAG -TCCGGCGTCTTTCAACTGCATCACTCGCGCTTTATTGAGTAACTTATGATTGAGATGAATAGAGACGCAG -CCCAGCCGCGCGGTCAGTTCGCGCCAGTCGTCGCGCCACTCATCCAGCAACAAACCGCGCGGCAGTTCCG -GTGCCGCCTGTTGTGCAGCTTCTAAAGCATCAATCTCAAACGATGACAGCAGCGGCGGCGTCATACCGGC -CCACAGCTCGCGTGCCGCCAGCGCCACCATTTTGCCCGTTAATGGCCCGGTGCCGGTGGTGGGTTTGATT -TCGATATTCGCCATCATCCCGTGTTCGCGGCAACGTTCCGCCACCTGCGAAAGCAACGGTAGCGGCTCAC -CTTTAAACATTTTGCTGTACCAACTGCCCGCATCCACGCGCAGTAAATCCTGCCAGTTCAGTTCACCCGC -GACGCCCCAGCCGTTGCTGGTACGTTCGAGATTGTCGTCATGGAGCAGGAAGATCTCGCCATCTTTCGAT -AACTTCGCGTCAAATTCGATCATCTTATGACCGTATTTTGCCCCGACGTCGATTGACGCCAGGGTGTTTT -CCGGGGCCAGCTTACCGCCGCCACGATGAGCGACGATGCGGGGATAAGGCCAGTTACTCATACTCGTTGT -CCTGTTTCACCATCAAAAAGATGCAGCTGATTTTCCGCCAGATGCAGCCACAGCGTGCTGCCTGCCGTCG -GGCGCTCCTGATGCGCCAGTCGCACCACCAGCTTCTGCTCGCCCCAGCGTCCGTGCGCCAGGTTATCTGC -GCCGAGGATCTCCAGCGTGTCCATCACCATCGGTACGCCGCCTTCTGCCTGCGAGCTTAGCGCAATATGT -TCCGGGCGAATGCCGAGAGTCATTTTACGCCCGGCATACTGACGGTAGCCACCGTTTAGCGGCAGCTCAA -TACCGCCGTCCAGTTCGAAATGCGTGCCTTCGTTATTCACGCGGCCTGTCAGCAGGTTCATCGCCGGACT -GCCGATAAAACTCGCTACAAACAGGCTGGCGGGCTTTTCGTAGACTTCAACTGGTGTGCCAATCTGTTCG -GCAACACCGCCGTTCATCACCATTACTCGCTGGGCGAGCGTCATCGCTTCAACCTGATCGTGAGTAACGT -AGAGTGAAGTCGTTTTCAGGCGACGGTGCAACTGTTGCAGTTCAAGACGCATCTGCACGCGCAGCTTGGC -ATCGAGGTTAGAGAGCGGCTCATCAAACAGGAACACCGCCGGATCGCGCACAATCGCGCGGCCCATCGCC -ACACGCTGGCGCTGACCGCCGGAAAGCTCGCGCGGGCGACGTTTGAGCAGACCGTCCAGCTCCAGAATGC -GCGCCGCTTCTTTAACGCGCTCGGCAATTTGCTGCTTGCCCATGCCGCGAATTTTCAGCCCCCACGCCAT -GTTTTCTTCGACACTCATATGCGGATAAAGCGCGTAGTTCTGGAACACCATCGCAATCCCGCGATCTTTT -GGCTCCATTTCAGTCACGCGCTGGTCGTTGATCCAGATATCGCCTTCTGTCACCCGCTCCAGCCCGGCAA -CCATGCGCAGCAGCGTCGATTTCCCGCAGCCAGACGGCCCGACCATCACGATAAATTCGCCATCCGCCAC -ATCAAGGGTCAGCGGTTTAATGACCTGGGTTTTACCATCCCAGCTTTTGGTTACTGCCTGTAATTTCAGT -CCTGCCATCTTATTTCTCACTATCGACCAGGCCGCGCACGAAGGCACGCTGCATCACTAAAACAATCACC -ACCGGAGGGATAAGCGTTAACAACATCGCCACCATCACTGAGTTCCATTCCGTGGTGCCTTCGCCTGTAG -CGATCATCCCTTTGATCCCTGCCACGGTGGTGCCGAGATCCACATCGGTAATAATCAACAACGGCCACAA -ATACTGATTCCAGCCGTAGATAAAGGTGATCACAAACAGCGCCGCCAGATTAGTTTTGGAGAGCGGAAAA -ACGATGTCGCAAAAGAAGCGCATTGGCGATGCGCCGTCGATCCGCGCGGCTTCCACCAGCTCATCCGGCA -GCGTCATAAAGAACTGGCGGAACAGGAAAGTAGCGGTCGCCGAGGCCATCAGCGGCAGCGTTAAACCGGC -GTAGCTGTCGAGCATCTGCAGGTTGGCGATGACTTCCACCGTCGGGAAGATACGTACTTCAACCGGCAGC -ATCAGGGTGATAAAAATCATCCAGAAGAAGAGGTTACGTAGCGGAAAACGAAACCAGACAATGGCAAATG -CCGAGAGCATCGAGACGGTAATTTTGCCGAGCGTAATGCTGAACGCCATCACAAAGCTGTTAAGCAACAT -CCGCCAGAACGGCGCGCTATTCGTGCCTACCCCGTTCACCCAGATGTTGTGGATGTTTTCCAGCAGATGT -GTGCCGGGGATGAGCGTCATCGGCGCGGCATAGACGGCCTGTTTATCCAGCGTCGCCGCGACAAACGCCA -CGTACAGCGGGAAGAGGATCACCGCGATCCCGAGGATCAGCATGGTATGGCTGAATATCGTCAGCCACGG -ACGGTTCTCAATCATTGGTAACGCACCTTGCTTTCAACATAGCGGAACTGCACCACCGTCAGCACGATGA -CGAGGAACATCAACACCACCGACTGTGCGGCAGACGAAGCCAGATCCAGTCCGGTAAAACCTTCGCGGTA -GATCTTATAAATCAGCGTCGTGGTGGCCTGAACCGGCCCGCCGGACGTGGCGGCGTCGATCACCGGGAAG -GTGTCGAAGAAGGCATACACCAGGTTCACTACCAGCAGGAAGAAACTCACCGGGGCGATAAGCGGCAGCG -CAATCTTAAAGAAGCGGCGAATCGGCCCTGCACCGTCGATGGCTGCGGCTTCGATCAACGAACGGGGAAT -GGATTGCAGCGCGGCATAGAAGAACAGGAAGTTGTAGCTGATTTGCTTCCATACTGAGGCAAACACCACC -AGAAACATTGCCTGACCGCTGTTTTGCGCGTGGTTCCAGTCGTAGCCGAACTCCGCGAGAAAATGGGTGA -TCAGCCCGCGACCGGGGTTAAACAGGAAGATCCACAATACGGCGGCAACGGCGGGAGCCACGGCGTAAGG -CAGCAACATTAAGGTTTGATAGAAACGGCTGCCGCGCACGATGTACTCCACCAGCGCCGCAAAGAACAGC -GATACCAGCAAACCGCTGACGGTGACAAAGGTGCTGAATTTTATCGTCGTCCAGAAGGAGTCGAGATAGT -AGCTGTCATGGAACAGCGTGACGAAGTTATCCAGGCCGACAAACTGGCTGGAGAAACCAAACGGATCGAC -GCTTTGTAGCGAGTACCACAACGCTTCGCCCGCAGGCCAGATAAAAAAGATAACGGTGATGATGAGCTGC -GGCGCGACCAGCAGATAAGGCAGCCAGCGCGAGCGGAACACCGGACGGGATGATGACATTACGGTTAATT -CCTGAACTGTGCCGGATGCGCTTCGCTTATCCGGCCTACACGCGATGCCAGGTCAGATAAGCGAAACGCA -TCCGACATTACACTGATTAAGACTTCGTCGATTTCTCAAAGCGGCGCAGCAACTGATTTCCACGCTCAAC -GGCGGTATCCAGTGCCTGCTGTGGTGTCTTCTTACCGGTCCACACGCTCTCCAGCTCTTCATCCACAATC -ACGCGGATCTGCGGCATGTTGCCCAGACGCAGCCCTTTGGTGAACGGCAACGGCGGCTTATTCAGCATCT -GACGCGTCGCGGTATCCGCCCCTGGGTTTTTCTCATAAAAGCCCTGCTCACGGGTCAGGTCATACGCTGC -TTTGGTGATTGGCAGATAACCGGTTTTCTGATGCCACTCGGCAGCGTTTTCTGGCTTCGCGAGGAAATCG -AGGAACTTCGCCACACCGGTATACGTTTCTTTATCTTTACCCTGCATCACCCACAGGCTGGCTCCGCCGA -TAATGGCGTTTTGTGGCGCATCTTTCGCATCGGCGTCGTAAGGCATCATGCCTACGCCGTAGTTAAATTT -GGCGTACTCGCGAATGTTGGCAAGAGAACCGGAAGAGGCGGTGGTCATCGCGCAATCACCGTTATAGAAC -TTCTCGGTGGATTCATCCTTACGACCGACGTAGCTGAAGTCGCCCTTCTTGTTCATCTCCTCGAGCATGG -CGATGTGTTTCACCTGCTCCGGCTTATTGAACTCCAGCACCGCGTCCGTGCCGTCAAAGCCGTTGTTTTT -GCTGGCAAACGGCAGACCGTTCCAGGCGCTAAAGTTTTCCAGTTGGATCCAGCCCTGCCAGCCGCTGGCG -TAGCCGCACTTCATGCCGGAGGCTTTCAGTTTCGCGGCATAGTCCGCCAGATCCTGCCAGGTTTTCGGCG -GCTGTTCCGGGTCTAATCCTGCTTTCTTGAAGGCGTCTTTGTTGTAATAGAGAACGGGGGTCGAGCTGTT -GAATGGCTGGGAGAGTAAGTGGCCCGTTTTGCTGTCGGAGTAGTAACCTGAAACCGTCGGCACAAACTGC -GACTCATCGAACTGAATCCCTGCCTCTTTAAACACGTCATACACCGGTTTAATGGCTTTCGACGCCATCA -TGGTGGCGGTGCCAACTTCATAAACCTGCAAAATAGCCGGCGCGTTGCCGGTACGAAATGCGGCAATCCC -CGCGCTTAAATTCTGTTCGTAGTTGCCTTTATAGGTCGGTACAATTTTGTAATCCGGGTTTTCGGCGTTA -AAACGTTGGGCCAGAGAATCCACCTCTTTACCCAGTTCCCCTTCCATAGAATGCCAGAACGGAATGGTCG -TCACTGCCTGTGCATTCCCCATTAACGCCAGTCCGAGCGCCAGTGCTGAAGCTGTATAATGTAACGGTTT -CATCGTTTATCTCTCTTGTTGTACCGAATGCGCGAATTCACGCGTTTTATGCTCGCGGGGTAACATGACA -TGCTCGAATTACAGAAAAATAACTTTTTTGTTACATTTGTAAGATAGTAAGGTGTCAGAAAGATGACAAG -GCGGTGACGGCGTGGGTGAGGGAAAATGGGAGATGGGGCACGGATAAGCGGGAAAATATAGAAGGTCTGA -ATCAAACTCTACAGATTGCTCATCGTTTCATGCCGGATGCGGCGTAAACGCCTTATCAGGCCTACAAGAT -CGTGCAAATTCAACATATTGCCACTCACCCAGTAGGCCTGATAAGCGCAGCGCATCAGGCAATTTTACAT -TTGTCACCTGTCTCAAAGGAGTCTTTTGACTCCCTATCAATCAACGTGTTATTACCCGCCTAAATACGCA -CTTCTCACCGCTTCATTCGCCAGCAGCGCATCACCAGTATCGGAAAGCACTACATGGCCGTTTTCCAGCA -CGTAGCCGCGATCCGCCAGCTTTAGCGCCTGGTTGGCGTTCTGCTCGACGAGAAAGATAGTCATCCCCTG -CTCGCGCAGCTGCTCGATGGTGTCGAAAATTTGCTGGATGATAATCGGCGCAAGACCGAGCGATGGCTCA -TCAAGCAGTAGCAAACGCGGGTTGCTCATCAGCGCACGACCAATCGCCAGCATCTGCTGTTCACCGCCGG -ACATGGTGCCCGCCCGCTGAATACGGCGCTCATGCAGACGTGGAAACAGCTCATACACCCACTTTATGCG -CTCCTGGAACTGGTCGCGTTCAGCAAAAAAACCGCCCATCGCCAGGTTCTCTTCCACCGTCATCCGCGAG -AAGACGCGACGCCCTTCCGGGACAATCGCCACCGCTTCGCGCATGATTTTCGCTGTCTGCCAGTCGGTAA -TGTCTTTATCATCAAACACAATTCGCCCGCTGGTGGCACGCGGATCGCCGCATAACGTGCCGAGCAAGGT -GGTTTTCCCCGCCCCGTTCGCGCCAATCAGCGTGACAATCTCGCCCTGATTGATATGCAGGCTCACCTCA -TGCAGCGCCTGGATTTTGCCGTAGTGGGCGCTGACTTTGTCAAAGGACAACATGACTTTTTCCATCTTAT -GCCTCACCTAAATAGGCACGGATCACGTCCGGGTTATTACGGATCTGCTCCGGCGTACCGTTTGCCAGCG -GCGTCCCCTGATTGACCACGTAAATTCGGTCCGAAATTCCCATCACCAGCTTCATATCGTGTTCAATCAA -CAAGATAGTGGTGTTGTGATGATTGCGCAGTTCGGCAATCAGCTCATCCAGCTCTTTCGTCTCTTTCGGG -TTAAGACCTGCCGCAGGTTCGTCGAGCATTAAAATCTCCGGCTGCGTCACCATGCAGCGGGCAATCTCAA -GACGGCGCTGGTCACCATAGGCCAGGTTACTCGCCTGACGGTTGGCGTGTTCCAGCAAACCAATGCGCTC -AAGCCAGGTCGCGGCGCGGTCGAGCGCTTCGCTCTGGGCGCGACGGAAGGATGGCGTTTTCAACAGGCCA -GAGAACAGCCCGGTTTTCAGTTGCTGATGCTGCGCCACCAGCAGGTTTTCAATTACCGTCATTTCACGGA -ACAGACGCACATGCTGGAAGGTGCGCACCACGCCCATGCGGGCAATTTGCTGCCCCGGTAAACCTTCCAG -GTGCTGATCGCGCAGTAAAATGGTGCCGCCGGTGGGTTTGTAGAATCCGGTCAGACAGTTAAAAACCGTG -GTTTTTCCGGCACCGTTAGGGCCGATTAACGAGACGATCTCCTGCGGGTACAGTTCAAGATTGACGTTGT -TCACCGCCAGCAGGCCGCCGAAGCGCATCATCAGGCCGTTAACAGATAATAATGGCTGACTCATGCCTGC -TCTCCTTTCGCTGCGCCGTTTTTCAGCTTCAGTTGCGGGCGCGTCATGGGCAGCAAGCCCTGCGGACGCC -AGATCATCATCAGCACCATCAAACCACCGAGCATTAACATGCTGTATTCGTTGAAATCACGCATCAACTC -GCGCGACACCACCAGCAAAATTGCCGCCAGAATCACCGCAAATTGCGAGCCCATACCGCCGAGCACCACT -ATCGCCAGCACAAACGCCGATTCGGCAAAGGTGAAGGATTCCGGGCTGACAAAGCCCTGACGCGCCGCAA -ACAGCGTTCCGGCAAAACCGGCAAACGCGGCACTTATGGTAAAGGCAGTCAGCTTGATACGACGCGGGCT -TAAGCCCAGCGAACGGCAGGCGATTTCATCTTCACGCAACGCTTCCCACGCACGCCCCAGCGGCATCCGC -AGCAGGCGGTTAATGACAAACAGGCTTAGCACCACCAGCAGCAACGCCACCAGGTAGAGGAAGATGACAC -GATCGGAGGGATCGTATTTCAGGCCAAAGAAATTACTGAACGTGTCCCAGCCGCCTTCACGAGCGGTACG -GCTGAACTCGAGTCCGAAGAGTGTCGGTTTCGGGATCTGACTGATTCCGTTCGGGCCGCCGGTAATTTCG -GTGTTATTGAGCAGCAATATGCGCACAATTTCGCCGAAACCGAGGGTAACGATCGCCAGATAGTCACCGC -GCAAACGCAGCACCGGAAAACCGAGCAGGAAGCCCGCCGCCGCTGCCATTAATCCAGCAATCGGCAGGCA -GGTCCAGAAGCCCAAGCCGTAATAGTGATTGAGCAGCGCAAAAGTGTAAGCGCCGATGGCGTAAAAACCG -CCGTACCCCAGCACCAGCAGACCAGAAAGACCAACAACCACGTTCAGCCCGAGACCGAGGATAATGTAGA -TCATGGTCAGGGTGGCAATATCCACCGTCCCGCGTGAAACCATAAACGGCCACGCCACCGCAAGCACCAA -CAGCGCCACGAGGAACAGTTTCTGCTTCACCGTGGAGCCATCAATGGCGGGCAGAATAAACTTCGGTCCG -GAAACGCTTTTCAACCCTTTCTGGAAAGCCGGTCGCAAAAGCTGGAAGAAAAAGACCACCGCCGTGCCGA -TAAACACCCACTGCCAACGGACATCCGAAGCCGTGTCGACCACCAGTTTGGTGCCATCCAGCTCCAGTTG -CACGCCCATAAAGACGCCCGCCAGCACAAAGAACATCGCGGCAGAGAGCAGCGCCATTGCAATATGCATC -GGTTTCATACTTTCTCTACCTCCGGGCGACCCAGAATACCGGTCGGCATCACCAGCAGCACCAGAATCAG -CAGGGCGAATGAGACCACATCTTTATATTCCGTACTCAGATAGGCAGAAGAGAGCGCCTCCGCAATCCCC -AGAATCAGGCCGCCAATCATCGCTCCCGGAATGCTGCCAATCCCACCGAGCACCGCCGCGGTAAAGGCTT -TCATCCCGGCCATAAAGCCGATGTAGGGGTTAATGACGCCGTAGAACTGACCGAGCAGCACACCCGCCAC -CGCCGCCATCGCCGCGCCAATCACAAAGGTCAGCGCAATCACCCGGTCGGTGTTAATGCCAAGCAGACTC -GCCATTTTCAGATCTTCCGCGCAGGCACGACACGCGCGACCCATGCGGGAATAGCGAATGAAAATCGTCA -GCGCCAGCATGGCGAGGAAGGTAACAATCCAGATCACCGCCTGCATGGTGGTAATAGAGGCAGAGAAGTT -TTCGCTATGCCCCACCACCCACTGACCGTTAAACAGGCTCGGCAGCGCCACGTCGCGCGAACCTTCGGTC -AGGCTGACGTAGTTTTGCAGGAAGATGGACATACCGATTGCAGAGATGAGTGCAATCAGGCGCTTAGAGT -TACGCACCGGGCGGTAAGCCACCCGTTCGATACTCCAGCCGTAGGCGCTGGCAATGACGATTGCGCCGAC -GAATCCCGCAGCTACCAGCAGCCAGCCGGTATCAATGCCCATCATCATCAGCGCGGCGATGATCATAAAT -GAGACGTAGCTGCCAATCATATAAACCTCGCCGTGGGCGAAGTTGATCATGCCGATAATGCCGTAAACCA -TGGTGTAGCCGATGGCTATCAGCGCGTAGGTACTGCCCAGCGTGACGCCGTTAAACATCTGCTGCAAGAA -ATACAAAAACTGCTCAGACATAAGGTAACCTTTCTAAACCCGCCCGCATTTTACGGGCGGTGGGATGATC -ACTTGGCTGCCGTGGATGAACCGTCGGCGTGCCACTGGAAGACACCAAAATCAAATCCCTTAAGATCGCC -TTTTTCATCCCAGTTCAGCGGCCCAATCACGGTGTTTGCACCGTTAGCTTTTAAATCTTTCACCAGCGCC -AGCGGCTCATCGCTGCCGGTACGCTCAAGGGCAGTCGCCAGAGATTGCACCGCCGCGTAGGTGATCCAGA -CATAAGGCCCGGACGGATCTTTCTTGTCTGCTTTCAGCGCATCAACGATGCCCTGGTTTGCCGGATCCTG -GTCATAGCGTTTTGGCATAGTGACCAACATGCCTTCGGCGGCATCACCGGCAATGTTCGACAACGACGCA -TTACCCACACCTTCCGGCCCCATAAACTGGGTTTTCAGGCCAACGGAACGGGCCTGGCGCAGCATCTGCC -CCATTTCCGGGTAGTAACCGCCGTAGTAAACGAAGTCGATGTTTTCTTTTTTCAGGCGGGCGATCAGCGC -GGAGAAATCTTTCTCCCCGGCGGTAATACCGTCGAAGAAGACGACGTTGGCGTTAGCCGCTTTCAGCCCG -TCCTGCACCGAACGCGCCAGCCCTTCGCCATACTGTTGTTTGTCGTGAATGATGGCGATGCGCTGGGGCT -TCACCGTCTCAAGAATGTATTTTGCCGCCGTTGGCCCCTGGGAAGAGTCCAGCCCGGCAGTACGCATAAT -GTGTTGATAACCGCGTTGGGTCAGCTCCGGGTTGGTCGCTCCCGGCGAGATCATCAGAATACCTTCGTCT -TCATAGATATCTGACGCAGGCTGGGTAGAAGAAGAACACAGATGACCAATAACGTATTTAATGCCGTCAT -TAACGATTTTGTTGGCGACCGCAACGGCTTGTTTCGGGTCGCATGCGTCGTCATATTCCACGCCAACCAG -TTTATCGCCCTTAATTCCCCCTTTGGCATTAATGTCTTTAATTGCCTGACGCGCGCCGTTAAATTCCATA -TCGCCCCACTGGGCAATCGGGCCGGACATCGCGCCGACAACGGCGACTTTAATATCGTCAGCCATAGCGG -TGTGTGAAATTGCCAGTGCAATCATCCCTGCGATGATAGTTTTCGCATTCCGTTTCATAGTCAAAAATCC -CCATTCGTGATGTTGTGTTGCTTTGTTTTTATGTGTTAACAAATCAGACTGTTCTTTTTTTATACTGCAC -TGTTTTTGCCTGTCTGATTAAGGGGTTAGCGCAGTATTTTGTGATAATAGCGATTAAAATCCCTATTTTT -CAGTCGATTAAGAACAGATAATATTCTGAATTTATTGATAGATAAACAGAAAAAAGTGCCTTTGTCAGCA -TAAAATAACGGCACAAAGGGCGGAATAATTCACTATCATTCAGGGGATTATGCTGGACATTTTTCATTCT -CTAATGTTTTAATTTTGTAATTATTGCTGTTAAAAAATTAATCACCTGCCAAAAGAAATAAAAAAGAGAA -AGCCTCCGATTAAATTATTTCGCTACACTGGTTCCACTTTTGTGATTTACACGGGTTACCCATGAAGCTG -ACCATCATTCGATTAGAAAAATTTAGCGACCAAGACCGGATTGACCTGCAAAAGATCTGGCCGGAGTATT -CCCCTTCCTCGTTACAGGTTGACGATAACCACCGTATCTACGCCGCGCGTTTTAACGAGCGCCTGCTCGC -TGCCGTGCGGGTAACCTTAAGCGGCACCGAGGGAGCACTGGATTCCCTGCGCGTGCGGGAAGTCACCCGC -CGTCGCGGTGTGGGGCAATATCTGCTGGAAGAGGTTTTGCGTAACAATCCTGGCGTTTCATGCTGGTGGA -TGGCGGATGCAGGCGTGGAAGATCGCGGTGTGATGACGGCGTTTATGCAGGCGCTGGGGTTTACGGCACA -ACAGGGCGGCTGGGAGAAGTGTTAATCGTCAAGTTTGATTTCAAAAGTGATATTGCCTGATGCGCTACGC -TTATCAGGCCTACAATGTGTGTTGCAATTTACTGATTTCTTTGGATCTTGTAGGCCGGATAAGGCGTTTA -CGCCGCATCCGGCATGAAGCAACGTACTCGATATTAGCAATTTGGCGGCAACCCAAAGTTGCCGATTAAT -GATTACTTCGCATCGGTCGCCGTGCCGTTGGCGTGCCAGTCAAATACGCCGAACTCAAAGCCTTTCAGAT -CGCCTTTCTCATCCCAGGTCAGCGGTCCCATTACGGTATCCACGGAGTTCGCTTTCAGGTATTTGGCGAT -TTCAGCCGGATCGTCAGACTGATTCAGGCCCGCCTGCAAAGATTGCAGCGCGGCGTAGGTGGTCCAAACG -AATGCGCCACTTGGGTCCTGTTTTTTCGCTTTGATCGCGTCAACAATGGGTTTGTTCGCCGGAACCTGAT -CGTAGTTCTTCGGCTTGGTCACCAGCAGCCCTTCCGCTGATTCGCCCGCAATGTTAGACAGCGAAACGTT -AGCCACACCTTCCGGCCCCATAAACTGAGTTTTCAGCCCTGCCGCGCGTGCCTGACGCAGGATTTGCCCC -ATTTCCGGGTGATAACCGCCGTAGTAAACGAAGTCGATATTCTCTTTTTTCAGACGCGCCACCAGCGTTG -AGAAATCTTTTTCCCCGGCGGTGATGCCATCAAAGAACACCACGTTTGCATTGCCTTTCTTCAGGCCGTC -CTGCACCGCTCGCGCCAGACCTTCGCCGTATTGCTGTTTGTCGTGAACGATAGCAATACGCTGCGGTTTC -ACTTTCTCAAGAATATATTTCGCCGCCGTCGGCCCCTGGTCGGAGTCCAGGCCGGTGGTGCGCAGGATCA -GCTGATAGCCACGGGCGGTCAGCTCCGGCGCGGTTGCCGCTGGGGTGATCATTAAAATGCCTTCGTCTTC -GTAGATGTCAGACGCAGGCTGCGTTGATGAAGAACAGAGGTGACCAATCACATATTTAATGCCGTCGTTA -ACGACTTTGTTCGCCACCGCAACCGCCTGTTTCGGGTCACAGGCATCGTCATATTTTACGATTTGCAGTT -TGTTGCCTTTAATGCCGCCTTTAGCGTTGATATCCGCAACCGCCTGCTCTGCGCCGGTAAACTCCTGGTC -ACCGTACTGCGCAACCGGACCGGACATTGCGCCCACGACCGCGACTTTAATATCTTCTGCCAGAGCCATA -TTGCTGAATGCCAGCGCGATACATCCTGCCAGTAACGCTTTACCCTTTATGTTCATCCTGAGAATCCCCA -TTCTTCTGGTTATTACGTGTGTTGTGATGTTGTTTTTCAGCACTTTATTTCGTTTTATGCATGACTACCC -GTGCTTTAGCAGCATACTCTGCTAAAACATACCCGATTTTTATGATATTGGAATAGCTATTTTGACAGTT -TATTAACAATCTGCGTGGGGATTGGCGTTTTGCCGGAGGGGAAATTGATTATTACAGAGGCCCAAAAAAC -AAAAACCCCGGACTCTCATCCAGGGTTCTCTGCTTAATAGCGGAAATTACGCTTCAATGGCAGCACGCAA -TTTTTTCATCGCGTTCTTTTCCAGCTGGCGTACACGCTCAGCGGAAACGCCGTAACGGTCAGCCAGTTCC -TGCAACGTGGACTTGTTGTCTTCGTCCAGCCAGCGCGCACGGATGATGTCCTGGCTGCGTTCGTCCAGAC -CCTGCATCGCGTCGGTCAGACGGTTTGCCGCCTGCTCTTCCCAGTTATCATCTTCAATGCCGTCGGCAAA -GTTAGATGATTTATCCTGCAGATAGAGCACCGGAGCCATCGGCTGGCTGTCGGAATCGTCGTCGGAAGAC -AGGTCAAAGGTCATGTCCTGTGCCGCCATACGTGATTCCATCTCACGTACGTCTTTGCTGGTTACGCCCA -GTTCACGGGCCACCATTTCGACTTCATCCTGGTTAAACCAGCCCAGACGCTGCTTGGTTTTACGCAGGTT -GAAGAACAGTTTGCGCTGCGCTTTGGTGGTCGCAACTTTGACGATACGCCAGTTACGCAGAACGTATTCG -TGGATCTCTGCTTTGATCCAGTGAACGGCGAAGGAGACCAGGCGCACACCCACTTCCGGGTTGAAACGGC -GCACTGCTTTCATCAGGCCGATGTTACCTTCCTGAATCAAATCCGCCTGTGGCAGGCCATAGCCCGCATA -ATTACGAGCAATATGAACAACAAACCGCAGGTGAGACAGGATCAGCGTTTTAGCTGCTTCCAGATCGCCA -TGGTAATGCAGCTTTTCAGCCAGCGCCCGCTCCTCGTCAGCCGACAACATCGGCCACGCGTTAGCTGCCC -GGATGTAGGAATCCAGGTTGCCAACTGGGGCTAAAGCTAAACTTTGCATTTTGTCAGTCATTCAAATCCT -CTCAATCGATATCTTCTGGCGCTTCAGTGGTAGCAACAACTGTGCCAGAGCTTAAGAGCAACGAGGTTAT -CATTCACTGTTTTATCAGACCGTGATTTTATCCACAAGTTCAATGCAAGCTTGTGAATAAATTACGCACA -AAATGTGACATAGAGATGAAATACCGGGAAGAGACAACGGGGTCTCTTTCCCTGCTACGGAACCCATTGC -AGGGAAAGAGTATAACACGCTTTTATTATTCAGGCGTAAAGTGGCGTAAATGTTGTACCGTGGCAAGCCA -CGCTGCCACCCAGCCAATCATCGAGCATACCAGCAGCAATAGCAGGCATTCATCGAATGATAAGCCATTG -ATATCAAACTTCGTTCCGAAAACCTGTGCCACTTCCGCAACCGCCGATGACAATCGCAGCACCAGAATTT -CTGACAAAATTAATGACAACAATGCGCCAGAAAATCCCAGCAGTGCGCCACCATACAGGAACGGGCGCAG -GATGAATCCATCTGTCGCACCAATCAGTTTCTGTACGTTAATGGAGTCACGGCGAGCAAAGATACTCAGA -CGCACACTGTTACCGATGACGAGGAACACGGCCGCCACCATCAACACGCCGATCATCGCCGAAACGCGCC -CGACCAGCCCGGTCAACGCCGCCAGACGGGCAAACCAGCTGTCATCCATCCGCACTTCGTCAATGCCGTT -AATCTGCGTGATACGATCACGCAGCGTATTCAGTGATTCCGTCCCCTGGAAATCGAGTTTCGGGATCACC -ACCGCCACTGCCGGAAGCGGGTTTTCTTCCAGCATATCCAGCGCACCACCAAAACCAGACCAGTTACGGA -ACTCACCCAGTGCGTCTTCACGAGAAAGATAGTTCACTTTCTCCACGCCTTGCTCGGCCTGCAACTGTGC -CACCACGCCCGCAGCAGCGTCATCGTCCAGCGTTTTTTGCAGATAAACAGTGATTTGCGGTGACGGATAA -TACTGCGTCGCCGCCTGGTTAACGTTTTTGTACACCATATAACAGACGCTGGGCAGCGTCAGAGAAATGG -CGATAACCATCACCGTTAAAAACGTGGCGAACGGTTTGCTTTTCAGATCCTGCAATGCGCCGTGGAAGGC -ATAGCGCACCTGTTCGTTGAAAACGTTGGTTTTGCGATTTACCGGTTTTGGCGAGGATTTCGCGCGTTTT -GGTGCGTTACGACCGCCGTCGCCTGAGCCGCCGACCGATTTACGGAAGCGATCAAGACGCCCGCCAAACT -GCCGAATATGATTGATTGCATCGCGCTTATTCATGGCCCACGCCTCCATGCAAGTGACCATCGCTCAGGG -TGAGCATGCGATAGGAACGCCGCGAGATCAGGTTGATGTCGTGCGTTGCCATCAATACGGTTACCCCAAC -GCGGTTAAACTCTTCAAACAGACGTAAAATGCCTTCCGACAGCGCGTCGTCCAGGTTACCAGTCGGTTCG -TCCGCCAGCAGTACCGCGGGCTTGTTCACCACCGCGCGGGCAATGCCAACACGCTGTTGTTCACCGCCCG -AAAGCTGAATAGGGAAGTTCTTCGCTTTGTCCAGTAGCCCGACTTTATCCAGCGCCGCCGACACCCGGCG -ACGAATATCGTCACCGCTGGCACCGGCGATAATCAGCGGGATCGCCACGTTATCGTAGACAGTACGGTCC -ATCAGTAGATGGTGATCCTGGAAAATCATGCCAATCTGGCGGCGCAGAAACGGAACTTCACGGTTTTTCA -GACGCGTGATGTCATGGCCGCTAAACCAGATTTTCCCGGCGCTGGGCCGCTCAATCCCACAGATCAGCTT -CAGGAGGGTACTTTTCCCTGCGCCGGAATGACCGGTCAGAAACGCCATCTCACCCGGCTGCATATGGAAC -GTAACGCCCTGCAGCGCCTGTCTCCCACCGAGATAAGCCTTGCTGACATGTTCAAAGCGAATCATTGTTA -ATCCTCTCGGGCAAAAAGTGCCTCTATAAAGTCGTCCGCCTTAAACGGACGCAAATCCTCAATACGTTCG -CCGACACCAATGTAGCGGATAGGGATACCAAACTGGTCAGCCACCGAGAAAATTACCCCGCCTTTCGCCG -TGCCGTCCAGTTTCGTTAGCGTGATGCCGGTTAAGCCAACGGCTTCATGGAACAGTTTGGCCTGGCTTAC -CGCGTTCTGCCCGGTGCTGGCATCAATAGTCAGCATAACTTCATGCGGCGCTTCAACGTCGAGTTTCTTC -ATCACGCGGACGATTTTCTTCAACTCTTCCATCAGGTGCGATTTGTTCTGCAGGCGTCCGGCTGTATCGG -CAATCAGGACGTCGATATTACGCGCTTTAGCTGCCTGAATGGCGTCGAAGATAACAGAGGCGGAATCCGC -CCCGGTATGCTGGGCAATCACCGGAATATTGTTGCGCTGACCCCAGACCTGAAGCTGTTCAACCGCAGCT -GCACGGAAAGTATCACCCGCCGCCAGCATCACCGATTTACCCTGCTGCTCAAACTGACGCGCCAGCTTAC -CAATCGTCGTGGTTTTACCCACACCGTTGACGCCCACCATCAGGATCACAAACGGCGCTTTGCCTTCAAC -ATTCAGCGGCTCATCGACTTTCGCCAGAATCTCGCCCATCTCTTCTTTCAGCAGGCCATAGAGCGCCTCG -GCGTCACGAAGCTGCTTGCGGGATGCGCCTTCCGTCAGATTGGTGATAATTTTACGTGTGGTTTCCACAC -CCACATCGGCGATCAAAAGCTGCTCTTCCAGCTCCTCAAACAGATCATCGTCGATTTTTTTACCGCGGAA -CAGGCTGATAAATCCGGAACCGAGATTTTCTTTGGTTTTTAACAGGCTGCGTTTCAGGCGCGCGAAAAAA -CCTTCTTTGGTCGGTTTTTCCTGCTCCTGAGCGATTTCTTCCACCGGCTGCTCTTCTTCTGCCGGAGGAA -CCACCATCACCGCCTCTTCTGCCGCTTCGGCAGCCAGCGCCGTTTCCAGCTCTTCGTCGGTAATTTCTTC -TTTAGCCGCTTCTTCTTCCGCCGCTTCGACAATCTCTACGGTTTCCGCTTCAGCCTGCCACTCTTCTGGC -GAAACCGCTTCGGCGTTGACGTCTTCCGGCAACGGCAGCTCTTCACGTTCGATAGCCACTGGCTCCGGCG -TTTCTTCTACGACCGGTTCCGGCTGTGCAACGACTTCCGCTTCAGGCTGCGCTTTTTCACTTTCAGCAAC -CTGTTCAGTGACTTCCACAACGTCGGCAGCAAAAGTTTCCGCCTCGGCTTCAGTATGCGCTTGCGGCTGC -TCTTCAACGGCTTGTTCAGAGGCCTTCACAGGCTCTTGCGCCTGAACGATTTCTTCTACAACCGGTTGTT -CATTCTGAACTTCTGTCTCTTTTTCCGGGGTCTGCTCTTTTTGACCAAAGCCCAGCCAGGAAAAAAAGCC -ACGTTTTTTTTCTTTCGCCATTTGCGACTACACTCCTCGCTGTTGCTTCATGGCACAGCGTTAACGCTAT -GTACATAGCAGCTAAAAAAATGATGAAATAGTCTATCACTTAACTTAATTCACATCACCGCCTGCAAGTA -TGTGTTATCTGGCGGATTGAGCAATTTATCATGAAAAAACCGAATCATTCCGGCAGCGGCCAAATCCGCA -TTATTGGCGGGCAGTGGCGAGGCCGTAAACTCCCGGTTCCTGATAGCCCAGGTCTGCGCCCCACCACCGA -CCGCGTACGCGAAACGTTGTTTAACTGGCTGGCTCCGGTCATTGTTGACGCCCAATGTCTGGATTGCTTC -GCCGGGAGCGGCGCGCTGGGGCTGGAAGCGTTATCGCGCTACGCTGCGGGGGCAACGTTGATTGAGATGG -ATCGCGCGGTTTCTCAGCAGTTAATTAAGAATCTGGCGACACTAAAAGCAGGCAATGCACGCGTGGTGAA -CAGCAACGCGATGTCATTCCTGGCGCAAAAAGGTACACCGCATAATATCGTGTTTGTCGATCCACCGTTC -CGCCGTGGCTTGTTAGAAGAGACGATAAATTTACTGGAAGATAACGGCTGGCTGGCTGACGAAGCCCTGA -TTTATGTCGAAAGCGAAGTCGAAAACGGTCTGCCCACTGTTCCAGCAAACTGGTCATTACATCGGGAAAA -AGTGGCGGGTCAGGTGGCTTATCGGCTGTATCAACGCGAAGCACAAGGAGAAAGTGATGCTGATTAATAT -TGGTCGTTTGTTAATGCTCTGCGTTTGGGGATTTTTAATCCTCAACCTGGTGCATCCCTTCCCACGCCCG -CTGAATATCTTCGTTAACGTGGCGCTGATTTTTACCGTGCTGATGCATGGTATGCAGCTGGCGCTATTGA -AATCCACTTTACCGAAAGATGGCCCGCAGATGACCACCGCCGAAAAGGTACGGATTTTCCTTTTCGGCGT -GTTTGAACTGCTGGCCTGGCAGAAGAAATTTAAAGTTAAAAAATAACCTTATTGTTCGCCTACAAAGCTG -ACAAAGCGCGTTCCTTTATAGCTCAGCGTACCTTTATCGCCCACTGTCAGGGCGTGGTACTGCTGGGCGT -CGAGGCGAAACGTCTGCTCCATTCCTCCGCTTTGCGGTTTGAAGCTTGCCTCATAGCGTATACTGGTGCC -TGCCGGAGTCACTTCCTGCTGGCGCGAACGGCGATCGTTAATCGGTTTTTCCCGCTTGTTGCTCACCACC -ACCAGCTTTTGCTGGAGCGGAGCCATATCATTATCAGCTTTTTCCCGTCGCTGTTGCATAAAACGAAACG -ATGCGGCGACGACAATTAAGCCAATGATAACAATAAAGAAAAGAGGTGGTTTGCTCATCTTTATCCCTCA -TCGGAAAATGCGGAAATAAGCATACCCTGCCAGTTATGGTGTTGTCATCCGTCCACCCTCGCCACTAAAC -TGGAAGCAAGACCGTAGGCATTCCGCTTACGAAAAAATAACGAATTCAAGGAACTAAGATGCTTTGGTCG -TTTATCGCTGTCTGTCTTTCCGCATGGCTATCTGTGGATGCATCGTATCGTGGGCCAACCTGGCAACGCT -GGGTGTTTAAACCGTTAACCCTTCTTCTCCTGCTGTTACTGGCCTGGCAAGCGCCGATGTTCGACGCCAT -TAGCTATCTGGTGCTGGCAGGGCTGTGCGCCTCACTGCTGGGCGATGCGCTAACCCTGTTGCCACGTCAA -CGTCTGATGTACGCCATCGGCGCGTTTTTCCTCTCGCACCTGCTGTACACCATCTATTTCGCCAGTCAGA -TGACGCTCTCTTTCTTCTGGCCTCTACCACTGGTGCTGCTGGTTCTGGGTGCGCTGTTACTGGCGATTAT -CTGGACGCGCCTGGAAGAGTACCGTTGGCCTATCTGCACGTTTATCGGCATGACGCTGGTGATGGTGTGG -CTGGCAGGTGAACTGTGGTTCTTCCGTCCGACCGCTCCGGCGCTCTCTGCGTTTGTTGGCGCTTCGTTGC -TGTTTATCAGTAACTTTGTCTGGCTGGGGAGCCACTATCGCCGACGCTTCCGTGCGGATAACGCGATTGC -TGCGGCCTGCTACTTTGCCGGTCACTTCCTGATCGTCCGCTCGCTGTATCTCTGATAAAACTTGACTCTG -GAGTCGACTCCAGAGTGTATCCTTCGGTTAATGAGAAAAAACTTAACCGGAGGATGCCATGTCGACTCCT -GACAATCACGGCAAGAAAGCCCCTCAATTTGCTGCGTTCAAACCGCTAACCACGGTACAGAACGCCAACG -ACTGTTGCTGCGACGGCGCATGTTCCAGCACGCCAACTCTCTCTGAAAACGTCTCCGGCACCCGCTATAG -CTGGAAAGTCAGCGGCATGGACTGCGCCGCCTGTGCGCGCAAGGTAGAAAATGCCGTGCGCCAGCTTGCA -GGCGTGAATCAGGTGCAGGTGTTGTTCGCCACCGAAAAACTGGTGGTCGATGCCGACAATGACATTCGTG -CACAAGTTGAATCTGCGCTGCAAAAAGCAGGCTATTCCCTGCGCGATGAACAGGCCGCCGAAGAACCGCA -AGCATCACGCCTGAAAGAGAATCTGCCGCTGATTACGCTAATCGTGATGATGGCAATCAGCTGGGGTCTG -GAGCAGTTCAATCATCCGTTCGGGCAACTGGCGTTTATCGCGACCACGCTGGTTGGGCTGTACCCGATTG -CTCGTCAGGCATTACGGTTGATCAAATCCGGCAGCTACTTCGCCATTGAAACCTTAATGAGCGTAGCCGC -TATTGGTGCACTGTTTATTGGCGCAACGGCTGAAGCTGCGATGGTGTTGCTGCTGTTTTTGATTGGTGAA -CGACTGGAAGGCTGGGCCGCCAGCCGCGCGCGTCAGGGCGTTAGCGCGTTAATGGCGCTGAAACCAGAAA -CCGCCACGCGCCTGCGTAAGGGTGAGCGGGAAGAGGTGGCGATTAACAGCCTGCGCCCTGGCGATGTGAT -TGAAGTCGCCGCAGGTGGGCGTTTGCCTGCCGACGGTAAACTGCTCTCACCGTTTGCCAGTTTTGATGAA -AGCGCCCTGACCGGCGAATCCATTCCGGTGGAGCGCGCAACGGGCGATAAAGTCCCTGCTGGTGCCACCA -GCGTAGACCGTCTGGTGACGTTGGAAGTGCTGTCAGAACCGGGAGCCAGCGCCATTGACCGGATTCTGAA -ACTGATCGAAGAAGCCGAAGAGCGTCGCGCTCCCATTGAGCGGTTTATCGACCGTTTCAGCCGTATCTAT -ACGCCCGCGATTATGGCCGTCGCTCTGCTGGTGACGCTGGTGCCACCGCTGCTGTTTGCCGCCAGCTGGC -AGGAGTGGATTTATAAAGGGCTGACGCTGCTGCTGATTGGCTGCCCGTGTGCGTTAGTTATCTCAACGCC -TGCGGCGATTACCTCCGGGCTGGCGGCGGCAGCGCGTCGTGGGGCGTTGATTAAAGGCGGAGCGGCGCTG -GAACAGCTGGGTCGTGTTACTCAGGTGGCGTTTGATAAAACCGGTACGCTGACCGTCGGTAAACCGCGCG -TTACCGCGATTCATCCGGCAACGGGTATTAGTGAATCTGAACTGCTGACACTGGCGGCGGCGGTCGAGCA -AGGCGCGACGCATCCACTGGCGCAAGCCATCGTACGCGAAGCACAGGTTGCTGAACTCGCCATTCCCACC -GCCGAATCACAGCGGGCGCTGGTCGGGTCTGGCATTGAAGCGCAGGTTAACGGTGAGCGCGTATTGATTT -GCGCTGCCGGGAAACATCCCGCTGATGCATTTACTGGTTTAATTAACGAACTGGAAAGCGCCGGGCAAAC -GGTAGTGCTGGTAGTACGTAACGATGACGTGCTTGGTGTCATTGCGTTACAGGATACCCTGCGCGCCGAT -GCTGCAACTGCCATCAGTGAACTGAACGCGCTGGGCGTCAAAGGGGTGATCCTCACCGGCGATAATCCAC -GCGCAGCGGCGGCAATTGCCGGGGAGCTGGGGCTGGAGTTTAAAGCGGGCCTGTTGCCGGAAGATAAAGT -CAAAGCGGTGACCGAGCTGAATCAACATGCGCCGCTGGCGATGGTCGGTGACGGTATTAACGACGCGCCA -GCGATGAAAGCTGCCGCCATCGGGATTGCAATGGGTAGCGGCACAGACGTGGCGCTGGAAACCGCCGACG -CAGCATTAACCCATAACCACCTGCGCGGCCTGGTGCAAATGATTGAACTGGCACGCGCCACTCACGCCAA -TATCCGCCAGAACATCACTATTGCGCTGGGGCTGAAAGGGATCTTCCTCGTCACCACGCTGTTAGGGATG -ACCGGGTTGTGGCTGGCAGTGCTGGCAGATACGGGGGCGACGGTGCTGGTGACAGCGAATGCGTTAAGAT -TGTTGCGCAGGAGATAAGGCAAACCGATCGCAACATTGAGCGCGATCGGTCCCCTCGCCCCTCTGGGGAG -AGGGTTAGGGTGAGGGGAAAAGGCGGCATCGAAGCCAATCAGCCCCTATCAACCGCCTTTACGAATCAAA -TAACGATAAGGCAGTCCATCCGTCTCTTTAGCAACCAGTTCGTGTTCCATAAAGGTACAAAACCCAGGAA -TATCGCGGGTAGTGGCCGGATCGTCGGCGATAATCAGCAACGTTTCGCCAGGCTGCATATTGCGCACGGT -TTTGCGCACCATCATCACCGGTTCCGGGCAGCGCAGGCCAAGCGCGTCGAGTGTGTGGTCAGGGCTGGAA -AAGAGATCGGTCATTTTCTTCTCATCACTTAAAAAAACGGCGCTAGTTTACGCCCTGTGAGTCCGTAAGC -AAACTAGGTTAACGATTGCGTGAAAATTAACCATTGCATTGTCAACGTAAAGCAGTATCATGCGGCGGCT -CGAAAAAAGGGTAAGCACGTTATTATGTTAAGGTAACAGACGTGTCGTACGTATTGGGTTCCCTCACCCC -AATGGTTAATCAAAAAGGTACAATATGAACGTTTTCTCGCAAACTCAACGCTATAAGGCGTTGTTCTGGT -TATCGTTATTTCATCTGCTGGTGATCACCTCCAGTAACTATCTGGTTCAGCTTCCCGTCTCCATTTTGGG -TTTCCATACCACCTGGGGCGCGTTTAGCTTTCCGTTTATTTTTCTTGCTACCGACCTGACCGTGCGTATT -TTTGGCGCACCGCTGGCCCGACGCATTATCTTCGCGGTAATGATCCCTGCGTTATTAATCTCCTACGTCA -TCTCGTCGCTATTCTATATGGGTTCCTGGCAGGGATTCGGCGCACTCGCCCACTTCAACCTGTTTGTCGC -CCGTATCGCCACCGCCAGTTTCATGGCCTACGCGCTGGGGCAAATCCTCGACGTGCACGTTTTTAACCGC -CTGCGTCAGAGTCGCCGCTGGTGGCTGGCACCGACAGCGTCCACACTGTTCGGTAACGTCAGCGACACGC -TGGCCTTTTTCTTCATTGCCTTCTGGCGTAGCCCGGATGCCTTTATGGCTGAACACTGGATGGAAATCGC -GCTGGTCGATTACTGTTTCAAAGTGTTAATCAGTATCGTTTTCTTCCTGCCAATGTATGGCGTATTACTC -AATATGCTGTTGAAAAGACTGGCAGATAAATCCGAAATCAACGCTTTGCAGGCGAGTTAAAGGTTCGTTA -TCAGAGTTGTGATAAGATGGATGAATGAGCCGTTATGGCCGTTTATCGAAAGGAAGAAGTCAATGCGCAA -TCTGGTTAAATATGTCGGAATTGGCCTGCTGGTTATGGGGCTTGCGGCCTGTGATGATAAAGACACTAAC -GCTACGGCGCAGGGTTCGGTCGCGGAAAGTAACGCTACCGGGAATCCCGTCAACCTGCTTGATGGCAAGT -TAAGTTTCTCGCTGCCAGCGGATATGACCGACCAGAGCGGTAAGCTGGGAACGCAGGCCAATAACATGCA -TGTCTGGTCCGACGCCACCGGGCAGAAAGCAGTCATCGTCATCATGGGCGATGATCCGAAAGAAGATCTG -GCGGTGCTGGCGAAGCGTCTGGAAGATCAGCAACGTAGCCGCGATCCGCAGCTGCAAGTGGTAACCAATA -AAGCCATTGAGCTGAAAGGTCACAAAATGCAGCAGTTAGACAGTATTATCTCCGCGAAAGGCCAGACGGC -GTACTCTTCCGTTATTCTGGGTAACGTGGGTAATCAACTGCTGACCATGCAAATTACGCTGCCCGCTGAC -GATCAGCAAAAAGCGCAGACCACCGCAGAAAACATCATTAATACGCTGGTTATTCAGTAAGTTTTAAGAT -GATGAGGCGGCCTCAGGGACGTGTTCCGGAGGCCGTTTTTTTAATCGCCACGTCAGTAATAACGCGATTG -CGACCAGTCCCGCCGCCGCCAGATAAATCACCGGTACGCCCGCCCAGCTCATCACCAGCCCAGCCAGTGG -TCCAGTCACGCCAAGCGATAAATCCATAAATACGGTGTAAGTTGCCAGCGCCGCCCCCTGATTTTGCTGC -GGAACCGCTTTTACCGCCACTACACCCAATGCCGGGAACACCAGCGAAAACCCGGCCCCCGCCAGTAAGA -CGCCGATTTTCGCCATCCACGGCATAGTCGCCACGCCAACCAGTAGCAGGCCGATTATCTCAACGCTAAA -GCAAATCATCGCTACGTTTAAGCCACCGATACGGTTAATGCCGTTAGGGAATAACAAACGCGTACCGACA -AACGCACAGCTAAACAGCGTCAGCGCGAAAGCCGCACCGTCCCAACCTTTAGCGTCATAAAACAGCGTGA -TAAAGGTGGCGATGACGCCAAATCCGGCGGAAGCCAGTGCCAGCGCCATACCGTACAGCCAGACGCGCCC -AAGCACCGCGCGAAACGGCAGCGGTTTGCCTTTACTGGCTTTTACCGTCGGACGCGGGATCGCCAACAAA -ATGGCCACCAGCGCCACGCCCATAATGATTAACGCTAACGCCTGCAAGCCGCCCCAGTGATAAAACACGA -CGCCTAACGGCGCACCCATCGCCATCGCCCCGTAAGTGACAATGCCGTTCCACGAAATCACCCGCCCGAT -ATGCAGCGAGCCAACCACGCCAACGCCCCATAGGGTCGATCCCGTTCCGGCAAAACTTTGCCCAATCCCA -AGGATGACGCGCCCCAGGCAAAGTAATAACAGGCTGATGACAGGCAGACTGGCGGTTAATCCTGCCGTCA -GATACCCCAGACCGCTCAAAAAGCAGCCGCATAAACCGAAGACGACAATCTTTTTGGGTCCCAGCGAATC -GGCGTAACGTCCGGCATGAGGGCGGCTCAGCAAGGTGGCGAAATATTGCAGGCTGATAACCAATCCTGCC -CAGAAGGCGCTAAAGCCCATCACATCATGGACATAGCCCGGTAATACAGCGAGCGGCAACCCGATGGTGA -GGTAGCTGGCGAAGTTAAACATGACTATAGAGACAATGCGCAAATTCAGGCGCAATCCGTTTAGCGCGGG -TTCGGCTACGGGTTCGGGCATGAGGATCACCACATTTTTACAACAGTGTTTCATTTTTACCACGTGCTGA -CGTGAAAATCAGCAGTAAGAATCAGAATATTGCTGGCGTGACTCCCGCTACACTTAATACAAAAAGTCAC -AAGGAAGCCCCAATGGAAACCCCTCAACCCGATAAAACGGGCATGCACATTCTGCTCAAGCTGGCCTCGC -TGGTAGTGATCCTCGCGGGCATTCACGCAGCGGCAGATATCATTGTGCAGCTGTTACTGGCGCTGTTTTT -TGCCATCGTCCTCAACCCGCTCGTCACCTGGTTTATTCGTCGGGGAGTACAACGCCCCGTTGCCATTACG -ATTGTAGTGGTGGTGATGCTGATCGCACTAACCGCGCTGGTCGGCGTACTGGCGGCATCGTTTAACGAAT -TTATCTCTATGCTGCCGAAGTTTAATAAGGAGCTGACGCGCAAACTTTTTAAATTGCAGGAGATGTTGCC -TTTTCTTAATTTGCATATGTCGCCGGAGCGAATGCTGCAGCGGATGGACTCGGAAAAAGTGGTTACCTTC -ACCACAGCGCTAATGACCGGGCTTTCCGGGGCAATGGCGAGCGTGCTTTTGCTGGTGATGACCGTAGTTT -TTATGCTGTTTGAAGTGCGCCACGTCCCTTACAAAATGCGTTTTGCGCTGAATAATCCACAGATTCACAT -CGCGGGATTACACCGCGCACTTAAAGGCGTTTCGCACTATCTTGCATTGAAGACGCTACTCAGTTTATGG -ACAGGTGTCATCGTCTGGCTGGGGCTGGAGCTGATGGGGGTGCAGTTTGCGCTGATGTGGGCAGTACTGG -CGTTTTTGCTCAACTACGTGCCCAATATCGGCGCGGTAATTTCCGCCGTACCGCCAATGATTCAGGTGCT -GCTGTTTAATGGTGTTTACGAATGTATTCTGGTCGGCGCATTGTTTTTAGTGGTCCATATGGTCATCGGC -AATATTTTAGAACCACGGATGATGGGCCATCGCCTGGGGATGTCCACCATGGTGGTATTTCTTTCATTGT -TAATTTGGGGATGGCTGCTCGGCCCGGTAGGGATGCTACTTTCGGTGCCATTAACCAGCGTGTGTAAAAT -CTGGATGGAAACCACCAAAGGCGGTAGCAAACTGGCGATTTTACTGGGGCCGGGCAGACCGAAAAGTCGG -TTACCGGGATGAGGCGACAAGTGATACGATACGCACTTTCATTTTCCATTAAACGTTGGCCCTGATATGT -ATCGGATAGTTCTGGGGAAAGTTTCGACCTTAAGCGCAGCTCCACTGCCACCGGGTTTACGCGAGCAAGC -ACCGCAAGGTCCACGACGCGAACGCTGGCTGGCGGGGCGTGCATTGCTTTCGCACACGCTTTCCCCGCTA -CCGGAGATCATCTATGGCGAACAAGGCAAACCTGCATTTGCGCCGGAAATGCCGCTATGGTTCAACTTAA -GCCATAGCGGTGACGATATCGCCCTGCTGTTGAGTGATGAAGGCGAAGTCGGCTGCGATATCGAAGTGAT -TCGCCCGCGCGCCAACTGGCGCTGGCTGGCGAACGCCGTATTCAGCCTCGGGGAACACGCTGAGATGGAC -GCCGTGCATCCTGATCAGCAACTGGAAATGTTCTGGCGCATCTGGACGCGCAAAGAAGCCATCGTTAAAC -AGCGTGGCGGCAGCGCCTGGCAAATCGTCAGCGTAGACAGCACCTATCACTCCTCGCTGTCAGTCAGCCA -TTGTCAGCTTGAAAATTTAAGCCTTGCGATCTGCACCCCTACTCCCTTTACGCTCACCGCCGACAGTGTG -CAATGGATCGATTCAGTTAACTGATCCGCCCACCCGACTGCCCATCTATTGATCCAGAACAGGTAATCAG -TATGACGAATACTTAAAATCGTCATACTTATTTCCGCCATCTATTTTAATCCATTGGGGTTACCATGCTC -TCCACACTCCGCCGCACTCTATTTGCGCTGCTGGCTTGTGCGTCTTTTATCGTCCATGCCGCTGCACCAG -ATGAAATCACCACCGCCTGGCCGGTGAATGTCGGGCCACTAAACCCGCACCTTTACACGCCTAACCAGAT -GTTCGCCCAGAGCATGGTTTATGAACCATTGGTGAAATATCAGGCAGACGGTTCGGTGATCCCGTGGCTG -GCAAAAAGCTGGACTCATTCAGAAGATGGTAAAACCTGGACCTTCACCCTGCGTGATGACGTGAAATTCT -CCAACGGTGAACCGTTCGATGCCGAGGCGGCGGCAGAAAACTTCCGCGCAGTGCTCGATAACCGTCAACG -TCACGCCTGGCTGGAGCTGGCAAACCAGATTGTTGATGTTAAAGCACTCAGTAAAACAGAGCTGCAAATT -ACCCTGAAAAGCGCCTACTATCCTTTCCTGCAAGAACTGGCCCTGCCCCGTCCTTTCCGTTTTATCGCTC -CCTCGCAGTTTAAAAACCATGAAACCATGAACGGAATTAAAGCGCCGATTGGCACCGGACCGTGGATTTT -GCAGGAATCGAAACTGAATCAGTACGATGTCTTCGTCCGTAACGAAAACTACTGGGGCGAAAAGCCAGCG -ATTAAAAAGATCACCTTTAACGTCATCCCGGACCCGACTACCCGCGCGGTGGCGTTTGAAACTGGCGATA -TCGACCTGCTGTACGGAAACGAAGGGTTATTACCGCTCGATACCTTCGCCCGCTTTAGCCAGAATCCGGC -TTACCACACCCAACTGTCACAGCCGATCGAAACCGTGATGCTGGCGCTCAATACCGCCAAAGCCCCCACC -AACGAGCTGGCAGTACGTGAAGCTCTTAATTACGCGGTAAACAAAAAATCGCTGATTGATAACGCGTTGT -ATGGCACCCAGCAGGTCGCCGACACCCTGTTTGCCCCTTCTGTGCCCTACGCCAACCTCGGCCTGAAACC -GAGCCAGTACGATCCGCAAAAAGCGAAAGCGTTGCTGGAAAAAGCCGGTTGGACGCTGCCTGCGGGCAAA -GACATCCGCGAGAAAAATGGTCAGCCGCTGCGCATTGAACTTTCGTTCATCGGCACCGATGCGTTAAGCA -AATCGATGGCGGAAATCATTCAGGCTGATATGCGCCAGATTGGCGCAGATGTCTCGCTGATTGGCGAAGA -AGAGAGCAGTATCTATGCTCGTCAGCGCGACGGTCGTTTTGGCATGATTTTCCACCGCACCTGGGGCGCG -CCATATGATCCACACGCCTTCCTCAGTTCAATGCGCGTACCGTCACACGCTGACTTCCAGGCACAGCAAG -GATTAGCCGACAAACCGCTGATTGATAAAGAGATCGGCGAAGTGCTGGCGACCCATGACGAAACGCAACG -TCAGGCGCTGTATCGCGACATTCTGACCCGTCTGCATGACGAGGCGGTTTATCTGCCTATCAGTTACATC -TCAATGATGGTGGTATCAAAACCGGAGCTGGGTAACATCCCCTACGCGCCGATCGCCACCGAAATTCCGT -TCGAACAGATTAAACCGGTGAAACCTTAATGTTGCGTTACGTATTACGCCGCTTTCTGCTGCTGATCCCG -ATGGTGCTCGCCGCCTCGGTGATCATTTTTCTGATGCTGCGCCTCGGTACCGGCGACCCGGCGCTCGATT -ATTTGCGTCTGTCTAACCTGCCGCCGACGCCGGAGATGCTGGCCTCTACCCGCACCATGCTGGGACTGGA -TCAGCCGCTGTACGTCCAGTACGGCACCTGGTTGTGGAAGGCGCTGCATCTTGACTTTGGTATCTCATTC -GCCAGCCAACGCCCGGTACTGGACGATATGCTGAACTTCCTGCCCGCCACGCTGGAACTTGCAGGTGCGG -CGCTGGTATTAATTCTGCTCACTTCCGTACCGCTCGGTATCTGGGCGGCGCGCCATCGCGACCGTCTGCC -GGATTTCGCCGTACGTTTCATCGCGTTTCTTGGCGTGTCGATGCCTAACTTCTGGCTGGCGTTTTTACTG -GTGATGGCGTTTTCGGTGTATCTGCAATGGCTACCCGCGATGGGTTACGGCGGCTGGCAGCACATCATTT -TGCCTGCGGTTTCCATTGCCTTTATGTCGCTGGCGATTAACGCGCGTTTACTGCGCGCCAGTATGCTGGA -CGTCGCCGGTCAGCGTCACGTCACCTGGGCGCGTCTGCGCGGCCTGAACGACAAACAGACCGAACGTCGC -CACATCCTGCGCAATGCCTCGCTGCCGATGATCACCGCCGTGGGGATGCATATCGGCGAACTGATTGGCG -GGACGATGATTATCGAAAACATCTTTGCCTGGCCGGGCGTCGGGCGCTATGCGGTGTCGGCGATTTTTAA -CCGTGACTATCCGGTGATCCAGTGCTTTACGCTGATGATGGTGGTGGTTTTTGTGGTCTGTAATTTGATT -GTCGATTTGCTCAACGCCGCGCTGGACCCGCGCATTCGTCGTCATGAAGGAGCGCACGCGTGAACTTTTT -CCTCTCTTCCCGCTGGTCGGTACGCCTGGCGCTGATCATTATCGCCCTGCTGGCGCTGATTGCGCTCACC -AGCCAGTGGTGGCTGCCGTATGACCCACAGGCGATTGATTTGCCGTCGCGCCTGCTTTCGCCGGATGCGC -AGCACTGGCTGGGCACCGATCACTTAGGTCGCGATATTTTCTCGCGGCTGATGGCAGCGACCCGCGTGTC -GCTCGGTTCGGTAATGGCCTGCCTGCTGCTGGTGCTGACATTAGGGCTGGTTATTGGCGGCAGCGCCGGG -TTGATTGGCGGGCGCGTTGATCAGGCCACCATGCGCGTCGCCGATATGTTTATGACCTTCCCGACCTCGA -TTCTGTCGTTCTTTATGGTTGGCGTGCTCGGCACCGGGCTGACCAACGTAATTATCGCCATCGCCCTGTC -GCACTGGGCGTGGTATGCACGCATGGTGCGCAGCCTGGTGATTTCACTACGCCAACGCGAGTTTGTGCTG -GCGTCACGGCTTTCCGGTGCGGGCCATGTGCGGGTGTTTGTCGATCATCTGGCAGGCGCGGTGATCCCTT -CGCTGCTGGTGCTGGCAACGCTGGATATCGGCCATATGATGCTGCACGTCGCGGGGATGTCTTTCCTTGG -CCTCGGTGTGACCGCGCCGACCGCCGAATGGGGCGTGATGATTAACGACGCGCGCCAGTATATCTGGACC -CAGCCGCTGCAAATGTTCTGGCCGGGGCTGGCGCTGTTTATCAGCGTGATGGCCTTTAACCTGGTGGGTG -ACGCACTGCGCGATCATCTGGACCCTCATCTGGTGACGGAGCACGCACACTAATGCCGCAACAGATTGAA -CTACGTAATATCGCGCTACAGGCCGCGCAGCCGCTGGTACACGGTGTATCGTTAACCCTGCAACGCGGGC -GCGTGCTGGCGTTAGTCGGCGGTAGCGGCAGCGGGAAATCATTAACCTGCGCCGCAACGCTGGGCATTTT -GCCCGCTGGCGTTCGCCAGACGGCGGGGGAAATTTTAGCCGATGGCAAACCGGTTTCGCCTTGCGCCCTG -CGCGGCATCAAAATTGCCACCATCATGCAGAACCCGCGCAGCGCCTTTAATCCACTGCACACCATGCACA -CCCACGCGCGGGAAACCTGCCTGGCGTTAGGGAAACCCGCCGATGACGCTACGCTTACCGCTGCCATAGA -AGCGGTGGGGCTGGAAAACGCCGCGCGCGTGCTGAAGCTGTACCCGTTCGAGATGAGCGGCGGCATGTTG -CAGCGCATGATGATTGCGATGGCGGTGCTGTGTGAATCACCGTTTATCATCGCCGATGAACCGACCACCG -ACCTTGACGTGGTAGCACAGGCGCGCATCCTCGATCTGCTGGAAAGCATTATGCAAAAACAAGCGCCGGG -AATGCTGCTGGTGACCCATGATATGGGCGTTGTGGCGCGTCTGGCGGATGACGTGGCGGTGATGTCTGAC -GGTAAGATTGTCGAACAGGGCGATGTAGAAACGCTGTTTAACGCCCCCAAACATACAGTGACGCGCAGCC -TGGTTTCCGCTCATCTCGCCCTCTACGGTATGGAGCTGGCATCATGACTTTACTTAACATCTCCGGCCTT -TCCCATCACTATGCGCACGGTGGATTTAACGGAAAACATCAACATCAGGCGGTGCTGAATAACGTTTCCC -TGACCCTGAAAAGCGGCGAAACCGTCGCCCTGCTGGGGCGCAGCGGCTGCGGGAAAAGTACCCTCGCGCG -GTTGCTGGTGGGTTTAGAATCGCCCGCGCAGGGGAATATTAGCTGGCGTGGCGAACCGCTGGCGAAACTC -AATCGCGCCCAGCGTAAAGCGTTCCGCCGCGATATTCAGATGGTATTTCAGGACTCCATCAGCGCCGTGA -ATCCGCGCAAAACCGTGCGCGAGATCCTGCGTGAACCGATGCGCCACCTGCTATCACTGAAAAAATCCGA -ACAACTGGCGCGCGCCAGCGAAATGCTGAAGGCGGTCGATCTCGATGACAGCGTTCTCGACAAACGCCCA -CCGCAGTTAAGCGGCGGCCAGCTCCAGCGCGTCTGCCTGGCTCGCGCGCTGGCGGTCGAACCGAAACTAC -TGATTCTGGATGAAGCCGTTTCTAACCTTGATCTCGTGTTACAGGCGGGTGTCATTCGCCTGCTGAAAAA -GCTACAACAACAGTTTGGCACCGCCTGCCTGTTCATCACCCACGACTTACGCCTGGTAGAACGCTTTTGC -CAGCGGGTAATGGTTATGGACAACGGACAAATCGTCGAAACCCAGGTGGTGGGAGAGAAATTAACCTTTT -CCTCTGACGCCGGACGTGTGCTACAAAACGCGGTATTACCCGCATTCCCCGTGCGCCGTCGCACCACAGA -AAAGGTTTAACGCAAATGCAACGAGTCACCATCACGCTTGATGACGATTTACTGGAGACGCTGGACAGCC -TGAGCCAGCGTCGTGGTTATAACAACCGTTCCGAAGCTATCCGCGACATTCTGCGTAGCGCCCTGGCGCA -AGAGGCCACCCAGCAGCACGGCACGCAAGGTTTCGCGGTGCTGTCGTATGTGTATGAACACGAAAAACGC -GACTTAGCCAGCCGCATTGTCTCCACCCAGCATCATCACCACGACCTCTCCGTCGCCACGCTGCATGTGC -ACATCAACCACGACGACTGTCTGGAAATCGCCGTGTTGAAAGGTGACATGGGTGACGTGCAGCATTTTGC -CGATGACGTTATCGCCCAGCGCGGCGTGCGGCACGGGCATTTGCAGTGCTTGCCGAAGGAAGATTGAGTC -TATTATTGGGTCCTTTGGTGAACGATCAACAAAGGGCCACTAGCACACCTGATTCCTCTCTAAATACCCT -ATCCGAACCTTCTCTTTTGTAACGTTCTAAATATATTCCTAAAAATCTTCAATTCATTGTGACCACAAGT -TTTTCTTCGCTTTTTCGTATGAAGATACTGTCATTAAAATAATAGAAAAGGATTTTACGATGAGCGGAAA -ACCGGCGGCGCGTCAGGGTGACATGACGCAGTATGGCGGTAGCATTGTTCAGGGTTCAGCCGGGGTACGT -ATTGGTGCCCCCACCGGCGTGGCCTGTTCGGTGTGCCCCGGCGGAGTGACGTCCGGCCATCCGGTCAATC -CCCTGCTCGGTGCAAAGGTCCTTCCCGGTGAAACCGACATCGCCCTGCCCGGCCCGCTGCCGTTCATCCT -CTCCCGCACCTACAGCAGTTACCGGACAAAAACGCCCGCGCCGGTGGGGAGCCTCGGCCCCGGCTGGAAA -ATGCCTGCGGATATCCGCTTACAGCTGCGCGATAACACACTGATACTCAGTGATAACGGCGGCAGAAGCC -TGTATTTTGAGCACCTGTTTCCCGGTGAGGACGGTTACAGCCGCAGCGAGTCACTGTGGCTGGTGCGCGG -CGGCGTGGCGAAACTGGATGAAGGTCACCGGCTGGCCGCACTCTGGCAGGCGCTGCCGGAAGAACTCCGC -TTAAGTCCGCATCGTTATCTGGCGACAAACAGTCCGCAGGGGCCGTGGTGGCTGCTCGGTTGGTGTGAGC -GGGTGCCGGAAGCGGATGAGGTGCTGCCTGCGCCGCTGCCGCCGTACCGGGTACTGACCGGGCTGGTGGA -CCGCTTCGGGCGCACACAGACGTTCCACCGCGAAGCCGCCGGTGAATTCAGCGGCGAAATCACCGGCGTG -ACGGATGGTGCCTGGCGTCACTTCCGGCTGGTACTGACCACGCAGGCGCAGCGGGCAGAAGAAGCCCGGC -AGCAGGCCATTTCCGGCGGGACGGAACCGTCCGCTTTTCCTGATACCCTGCCGGGTTACACCGAATATGG -CCGGGACAACGGCATCCGTCTGTCTGCCGTGTGGCTGACGCACGACCCGGAATACCCGGAGAATTTACCT -GCCGCGCCGCTGGTGCGCTATGGCTGGACGCCACGCGGCGAACTGGCGGTGGTGTATGACCGTAGTGGCA -AACAGGTGCGCAGCTTTACTTACGATGATAAATACCGGGGCCGGATGGTGGCGCACCGTCACACGGGCCG -GCCGGAAATCCGTTACCGTTACGACAGCGACGGGCGGGTGACAGAACAGCTAAACCCGGCAGGCTTAAGC -TACACGTATCAGTATGAGAAAGACCGCATCACCATCACCGACAGCCTGGACCGCCGTGAAGTGCTGCACA -CGCAGGGCGAAGCCGGGCTGAAGCGGGTGGTGAAAAAGGAACACGCGGACGGCAGCGTCACGCAGAGTCA -GTTTGACGCCGTGGGCAGGCTCAGGGCACAGACGGATGCCGCAGGCAGGACAACAGAGTACAGCCCGGAT -GTGGTGACGGGCCTCATCACGCGCATAACCACGCCGGATGGCAGGGCATCGGCGTTTTACTATAACCACC -ACAACCAGTTAACGTCAGCCACCGGGCCTGACGGGCTGGAATTGCGCCGGGAATATGATGAATTGGGCCG -TCTGATTCAGGAAACTGCCCCTGACGGCGATATCACCCGCTACCGTTATGATAATCCACACAGTGACTTA -CCCTGCGCAACGGAAGATGCCACCGGCAGCCGGAAAACCATGACGTGGAGCCGTTACGGTCAGTTGCTGA -GCTTCACCGACTGTTCCGGTTATGTAACCCGTTATGACCATGACCGCTTCGGGCAGATGACGGCGGTGCA -CCGCGAGGAAGGGCTGAGTCAGTACCGCGCATACGACAGCCGTGGACAGTTAATTGCCGTGAAAGACACG -CAGGGCCATGAAACGCGGTATGAATACAACATCGCCGGTGACCTGACCGCCGTCATTGCCCCGGACGGCA -GCAGAAACGGGACACAGTACGATGCGTGGGGAAAGGCCGTCCGTACCACGCAGGGCGGGCTGACGCGCAG -TATGGAATACGATGCTGCCGGACGGGTCATCCGCCTGACCAGTGAAAACGGCAGCCACACCACCTTCCGT -TACGATGTACTTGACCGGCTGATACAGGAAACCGGCTTTGACGGCCGCACACAGCGTTATCACCACGACC -TGACCGGCAAACTTATCCGCAGCGAGGATGAGGGTCTGGTCACCCACTGGCACTATGACGAAGCAGACCG -CCTCACGCACCGCACCGTGAAGGGTGAAACCGCAGAGCGGTGGCAGTATGACGAACGTGGCTGGCTGACA -GACATCAGCCATATCAGCGAAGGGCACCGGGTGGCGGTGCATTACAGGTATGATGAGAAAGGCCGGCTGA -CCGGTGAGCGTCAGACGGTGCATCACCCGCAGACGGAAGCACTGCTCTGGCAGCATGAGACCAGACATGC -GTACAACGCGCAGGGGCTGGCGAACCGCTGTATACCGGACAGCCTGCCCGCCGTGGAATGGCTGACCTAC -GGCAGCGGTTACCTGGCAGGCATGAAACTCGGCGACACACCGCTGGTGGAGTACACCCGCGACCGCCTGC -ACCGGGAAACGCTGCGCAGCTTCGGCCGTTATGAACTCACCACCGCTTATACCCCTGCCGGGCAGTTACA -GAGCCAGCACCTGAACAGCCTGCTGTCTGACCGCGATTACACCTGGAACGACAACGGCGAACTCATCCGC -ATCAGCAGCCCGCGCCAGACCCGGAGTTACAGCTACAGCACCACCGGCAGGCTGACCGGCGTTCACACCA -CCGCAGCGAATCTGGATATCCGCATCCCGTATGCCACAGACCCGGCAGGTAACCGCCTGCCCGACCCGGA -GCTGCACCCGGACAGCACCCTCAGCATGTGGCCGGATAACCGTATCGCCCGTGACGCGCACTATCTTTAC -CGGTATGACCGTCACGGCAGGCTGACAGAGAAAACCGACCTCATCCCGGAAGGGGTTATCCGCACGGATG -ATGAGCGGACTCACCGGTACCATTACGACAGTCAGCACCGGCTGGTGCACTACACGCGGACACAATATGA -AGAGCCGCTGGTCGAAAGTCGCTATCTTTACGACCCGCTGGGCCGCAGGGTGGCAAAACGGGTGTGGCGG -CGTGAACGGGACCTGACGGGCTGGATGTCGCTGTCACGGAAACCGCAAGTGACCTGGTACGGCTGGGACG -GCGACCGGCTGACCACGATACAGAACGACAGGAGCCGCATCCAGACGATTTATCAGCCGGGGAGCTTCAC -GCCACTCATCAGGGTCGAAACTGCCACCGGTGAGCTGGCGAAAACGCAGCGCCGCAGCCTGGCGGATGCC -CTTCAGCAGTCCGGCGGCGAAGACGGTGGCAGTGTGGTGTTCCCGCCGGTGCTGGTGCAGATGCTCGACC -GGCTGGAAAGTGAAATCCTGGCTGACCGGGTGAGTGAGGAAAGCCGCCGCTGGCTGGCATCGTGCGGCCT -GACCGTGGAGCAGATGCAAAACCAGATGGACCCGGTGTACACGCCGGCGCGAAAAATCCACCTGTACCAC -TGCGACCATCGCGGCCTGCCGCTGGCGCTCATCAGCACGGAAGGGGCAACAGCGTGGTGCGCAGAATATG -ATGAATGGGGCAACCTGCTGAATGAAGAGAACCCGCATCAGCTGCAGCAGCTTATCCGGCTGCCGGGGCA -GCAGTATGATGAGGAGTCCGGCCTGTATTACAACCGCCACCGCTATTATGACCCGCTGCAGGGGCGATAT -ATCACTCAGGATCCGATTGGACTGAAGGGGGGATGGAACCTGTATGGATATCAATTGAATCCGATATCAG -ACATCGACCCCCTGGGTTTATCTATGTGGGAGGATGCAAAATCGGGGGCATGTACTAATGGTCTTTGCGG -CACACTATCCGCTATGATAGGTCCAGATAAATTTGATTCTATAGATAGCACCGCATATGACGCCTTAAAT -AAAATAAATAGCCAATCTATTTGCGAAGATAAAGAGTTCGCTGGTTTAATATGTAAGGATAATAGTGGCA -GATATTTCTCAACAGCACCTAACCGAGGAGAAAGAAAAGGATCATATCCATTCAATAGCCCTTGCCCTAA -TGGTACTGAGAAAGTATCAGCTTATCATACTCATGGTGCAGATAGTCATGGAGAATATTGGGACGAAATA -TTTTCAGGTAAAGATGAGAAAATAGTTAAAAGTAAAGATAACAATATCAAGTCATTTTATTTAGGTACGC -CCAGTGGTAATTTTAAAGCAATAGATAACCACGGGAAGGAAATAACAAACAGAAAAGGATTACCTAATGT -CTGCAGAGTTCATGGTAATATGTAAAAAAATATTGTTTAGGAACTGTGTCATTGTATCTTTGTTTGTTTT -TACATACAACACATGGGCGCAGTGTAATAATAATATTAAAATAATGCGCAAGTATGAAAGTGAAGGTAAA -TATACCGTTAGAAATTTGGTTAAAAATAAAGCTATAGCATTGGAATTAGCTGAGATATATGTTAAGAATC -GTTATGGACAGGATGCCGCAGAAGAAGAAAAACCATACGAAATCACTGAGTTAACAACAAGTTGGGTTGT -TGAAGGTACCATTCACTCAGACCAAATTGCTGGTGGGGTTTTTATTATAGAAATAGGCAAAAATGATGGG -AGAATTCTGAATTTTGGCCACGGAAAATAAGTATGTAAGGATAATCAAACATCGTGTGCGCTGATGGCAG -AGTAGGTGGAGGACTCCAGACAGTCAAACGATAGAAAAAGATAGCCTTTATGGAGGTTCCTGCAATGTCA -AATACATACCAGAAAAGAAAGGCAAGTAAAGAGTATGGTTTATATAATAAATGTAAGAAACTAAATGATG -ATGAATTATTTCGCTTACTTGATGATCGCAATTCCTTGAAAAGGATTTCATCTGCCAGAGTATTACAGTT -AAGAGGGGGGCAAGACGCTGTTAGATTGGCAATTGAATTCTGCACTGACAAAAATTATATCCGTAGAGAT -ATCGGAGCATTTATACTCGGGCAAATATAAATTTGCAAAAAATGCGAAGATAATGTTTTTAATATTTTGA -ACAATATGGCATTGAATGATAAGAGTGCTTGCGTTCGAGCTACGGCAATCGAGTCAACGGCCAGGGAAAG -ATCATCAAAAGTTCACTTTTTGCACTAAATAATTCGCATTTTATGTTTAAAAATTGAGATATTCCTTATT -ACCTGAAGCTGTTTTTTATTGCTTATACATGATCAAATACTCCTTACCTAATTAAGGAGAACAAAATGGA -ACTTAAAAAATTGATGGAACATATTTCTATTATCCCCGATTACAGACAAACCTGGAAAGTGGAACATAAA -TTATCGGATATTCTACTGTTGACTATTTGTGCCGTTATTTCTGGTGCAGAAGGTTGGGAAGATATAGAGG -ATTTTGGGGAAACACATCTCGATTTTTTGAAGCAATATGGTGATTTTGAAAATGGTATTCCTGTTCACGA -TACCATTGCCAGAGTTGTATCCTGTATCAGTCCTGCAAAATTTCACGAGTGCTTTATTAACTGGATGCGT -GACTGCCATTCTTCAGATGATAAAGACGTCATTGCAATTGATGGAAAAACGCTCCGGCACTCTTATGACA -AGAGTCGCCGCAGGGGAGCGATTCATGTCATTAGTGCGTTCTCAACAATGCACAGTCTGGTCATCGGACA -GATCAAGACGGATGAGAAATCTAATGAGATTACAGCTATCCCAGAACTTCTTAACATGCTGGATATTAAA -GGAAAAATCATCACAACTGATGCGATGGGTTGCCAGAAAGATATTGCAGAGAAGATACAAAAACAGGGAG -GTGATTATTTATTCGCGGTAAAAGGAACCCAGGGGCGGCTAAATAAAGCCTTTGAGGAAAAATTTCCGCT -GAAAGAATTAAATAATCCAGAGCATGACAGTTACGCAATCAGTGAAAAGAGTCACGGCAGAGAAGAAATC -CGTCTTCATATTGTTTGCGATGTCCCTGATGAACTTATTGATTTCACGTTTGAATGGAAAGGGCTGAAGA -AATTATGCGTGGCAGTCTCCTTTCGGTCCATAATAGCAGAACAAAAGAAAGAGCCAGAAATGACGGTCAG -ATATTATATCAGTTCTGCTGATTTAACCGCTGAGAAATTCGCCACAGCGATCCGAAATCACTGGCACGTG -GAGAATAAGCTGCACTGGCGTCTGGACGTGGTAATGAATGAAGACGACTGCAAAATAAGAAGAGGAAATG -CAGCAGAATTATTTTCAGGGATACGGCACATTGCTATTAATATTTTGACGAATGATAAGGTATTCAAGGC -AGGGTTAAGACGTAAGATGCGAAAAGCAGCCATGGACAGAAACTATCTGGCGTCAGTCCTTGCGGGGAGC -GGGCTTTCGTAATCTTGCCCTGAATACAGGACTGAGTATCAAAAAGCCGGTTAACTGAAACTGTCCAGGT -TTTGGGGGTCAGTTCATAAACGCCTTATCCGGCCTAAAAACAACTAAAATTCAATAAATTGCACCGATGC -GTAGTCCCTATAAGCTTACGCATCGGGCAATTGTATTTACGCCATTGTCCCAATCGTCTTCCTGAATCGC -AGCAGCGCAATGGTGAAAAATGCGCCGCCAATTGCCATCAGCGTCAGAAACTGCGGCCAGACGATTTCGA -ATCCGGCACCCCGGTAGAGGATGGCCTGCGCGAGGCTAACAAAGTGTGTCGTCGGCATGGTCAGCATAAT -GTCCTGCACCATCTGCGGCATACTTTCGCGCGGCGTGGAACCACCGGAAAGCATTTGCAGCGGCAGCAGC -ACCAGAATCACCAGCAGCCCCAGTTGCGGCATTGAACGCGCTATCGTCCCCATAAAAATGCCGATTGACG -TGGTGGCAAACAGACTGAGCGCCACGCCCAGCATAAACAGCGGGATCGAGCCTTCAATCGGTACGCCCAG -TACACCTTTCACCATCAGCACCAGCGATAATCCCGATACCACCAGCACCACCAGCCCCATCGACCAGATC -TTCGCCATCATGATCTCAAACGGCGTTATCGGCATCACCAGTAAGTGTTCCACCGTGCCGTGTTCACGCT -CGCGGATCAGCGCCGATCCGGTCAATACAATCGCCAGCATGGTAATGTTGTTGATGATCGCCATCACCCC -GCCAAACCACGCGGGATCGAGGTTCGGGTTAAAGCGCATCCGGGTTTCCAGCGATACCAACGGTTCGCTG -TTATCACGGTAGCGCGCGACAAAGCTGTTCACTTCACCGTTGATAATATTCTGGATATACCCATTGCCGG -TAAATGCCTGGCTCATGCGCGTGGCATCGACGTTCACCTGAATATCCGGCTGGCGTCCGGCGAGGACATC -ACGCTGAAAATTAGGCGGAATATTTATCGCGAAGGTATAGCGTCCGGCGTCCAGTCCGGCATCCATCTCA -TCGGCGGTGATCATCTCCGGTGGCAAAAACCACGGACGATAGAAGCTGTTAACGATCCGGTTCGATAACT -GCGATTGATCCATATCGGCAATGGCGATCGGCGCGAGGTTCAACGATCCTGGCGTAACGGTCGCTGACGA -ATACACCGACACCGTAAACGAGAAGACAATCAGCGTCAGCATCGCTTTATCACCGAGCAGACTGCGCAAC -TCTTTGATACCCAGATTAAAAATATTGCGTAAATGGCGCATCATCCCTCCTGTTTTTTCAGCAGCAGGAT -ACTTAAGCCCATCACCAGCGGGATGGCTATCAGTAACGGGATAAAAAGTTGCCACAAATCAGTCAGATCC -AGCGCTTTCGAGAACGTCCCGCGGGCGATAGTCAGAAAATGACTGGTCGGGTAAACCTCGCCGATCCAAC -GTCCAGGCCCTTCCAGCGAAGCTACCGGATCGATCATCCCGGAAAACTGTGTCGCCGGGATCAACGTGAT -AATCGCCGTTCCGAAAATGGCGGCAATCTGGCTTTTCATAAAGGTGGAGATCAGCAGCCCCATTCCGGTG -GCAATGATGATATACAGCAGCGCCGCCAGGGTGAGCGTCAGGAAACTGCCTTTATGCGGTACGCCAAACA -CAAACACCGACAGGCCGCAGAGCAGGAAAAAGTTCAGCATCCCCAGCGCGATGTATGGCAACTGTTTACC -AAGCAAAAATTCACTACGCGTGGTGGGGGTCACGTAAAGGTTGATAATCGACCCAAGCTCTTTTTCCCGC -ACCACGCTAAGGGCGCTTAGCATTGACGGGATCATCATCAGCAGAAGCGGGATCACCGCCGGAACAATCG -CTGGCAGGCTTTTTACGTCCGGGTTATAGCGATAGCGCGTCTCAATATTCATCAGCCCGCTTTGGCTGGC -GGGTGTCGATTGTCGGCTCGCCACATCCTGTAACCAGCTCTGGTGCATGGCCTGCACGTAACCTTTTACC -GTTTCAGCACGGCTCGGCATCGCTCCGTCGATCCAGACGCCGAGTTCCACAGGCGTACCACGCGCGATAT -CGCGCCCGAAATTGGGCGGGATCTCAATCGCCACCGTGATATCGCCCGCACGCATCCGACGATCAAGCTC -GTCATAACTGGTGAGCGGCGGCTGTTCGATAAAGTAACGGGAACCGGAGAGGTTGAGTGTCCACGCCTGG -CTACTGACGGTCTGGTCGCGGTCGAGCACCGCAAAGCGCAGGTTTTCCACATCCATACTGATGCCGTAAC -CCATTATCAGCATCAGGATCACCGTTCCCATCAGCGCCAGCGTCGAACGTACTGGATCGCGTCGCAGTTC -CAGCGCTTCGCGGCGGCTGTAGCTAAACAGACGGCGCAGGCTAAATCCCTGACGCGGCGCGTGGGTGGTG -TCGTGTACCACGGGCGGCGCTTCGGCTTCGTTGCTCTGCCCTGCCGCTTCCTGCAAATAGGCGATAAATG -CCTCTTCCAGACTGGCGGCTCCGCGTTTCTCAACCAGTTCCTGCGGTGTACCGCTGGCAAGCACTTTTCC -GGCGTGCATCAGTGAGATGCGGTCGCAACGTTCCGCTTCGTTCATAAAGTGGGTGGAGATGAAGATAGTC -ACTTTGTCCTGGCGCGAGAGATCGACCATCAACTGCCAGAACATATCCCTCGCCACCGGATCGACACCAG -AAGTAGGCTCATCGAGGATTAACATCTCCGGGCGATGAATCACCGCCACCGCCAGCGAAAGCCGCTGGCG -AATGCCGAGCGGCAATGACTCCGGCAGAATATCTTCAACGTCGTTGAGCTTAAAACGCTCGCTCATTTCA -GCCACTCTTGCGGGAATTTCCGCTTCCGGGATGTGAAACAAACGGGCATGTAACTCAAGGTTTTGCCGCA -CGGTGAGTTCGTTATAGAGCGAAAACGCCTGCGACATATAGCCCACCCGACGGCGGGTATCGATATCTTT -TGGATCAACCGGTTGCCCGAACAGCCACGCCTCACCTTCGCTGGCGGGCAGCAGTCCGGTGAGCATTTTC -ATGGTGGTGGATTTACCGCAGCCGTTCGAACCAAGAAAACCAAAAATCTCCCCGCGTGGAATGCGGAAAT -TAACGTGATCAACGGCAACGAAGGAACCAAAACGCATGGTCAGATCGCGCGCTTCGATGGCAATCTCTGC -GTTTTCAGGTTGATACGGTGGGATCACTACCGCCTGATGCGCCTGGCGTTGCGCTTGCGGTAACAGATTT -ATAAATGCTTCTTCCAGCGTAGCGCTTTGCGTTTGCTGCCGTAGCTCTTCGGCGCTGCCAGTTGCCAGCA -CTTCTCCGGCATTCATCGCTACCAGCCAGTCGAAGCGTTCGGCCTCTTCCATATAGGCGGTGGCGACCAG -CACGCTCATATTGCTCTGCCGCTGGCGAATACTGTCGATCAGATCCCAGAACTGGGAGCGGGAGAGCGGG -TCAACCCCCGTTGTTGGCTCATCAAGGATCAACAGTTCCGGGTCGTGGATTAACGCGCAGCACAGCCCAA -GTTTTTGCTTCATCCCGCCGGAGAGTTTCCCTGCCGGACGATCGCGAAACGGTGCTAACCCGGTGCTGGT -CAGCAGCTCATTGATTCGCACTTCCCGCTCCGCTTTGTCGTGACCGAACAGGCGAGCGAAAAAATCGACG -TTTTCATACACCGACAAGGTGTGGTAGAGGTTTTTGCCCAGCCCCTGCGGCATCCAGGCGATGCGCGGGC -AGACGTCGCGGCGATGCTTCGGGTCGCGCATATCGCCGCCCAGCACCATCACATTGCCCTGTTCAATGAC -GCGGGCACCGGAAATCAACGACAACAAGCTCGACTTCCCGACGCCGTCCGGGCCAATCAGCCCGACCATA -CAGCGGGCCGGAATATCGAGAGTGATATTGTTCAGCGCAACGGTTTTTCCATAATGCTGGCTCACGCCCG -CCAGTTGCGCGACAGGCGGGACGGGAACCAGTTCCAGATGCGTCATTGCGGCAACCTCACCACGAGGTCG -TCAGGCCACGGAAGTTCTTCATTCACCCGCACCCACGCTACGCCCGGCAAACCGGTTTTGACATATTCCA -GATGCTGCTGGAGTAATTCCGGTGGGATACGCGCTTTGACGCGGAACATCAGTTTCAGCCGTTCATCGCT -GGTTTCGACGGTTTTTGGCGTGAACTGGGCGACACTGGCGACAAAACTGATGGTTGCAGGAATACGCAGA -TCTGGCGCGGCATCGAGGATCAGCCGGGCTTCACCGCCCAGTTTCAGCGTGCCCGCCTGTTCGGTTGGCA -GGAAGAAAGTCATATAGACGTCGCTGAGATCGACCATATTCAGCACCCGACCGCCTGCCGCCAGCACTTC -GCCTGGCTTGGCAACCCGATACTGCACGCGTCCGTCACGCGGGGCTTTCAGTTCGCTGTCATCGATATCT -GCGGCAATGCGCCGTTCAGTGGCTTGTGCCGCTTCGACGCGGGTTTGCGCCTGAATGATATTGGTGCGTG -CCGCTTCTATAGCCGCTTTAGAAGCCGATACCTGAGCTTTCGCCGATTCCAGCGCAGCTCGGGCGCTCTC -AGCGGCGGCGCGATCGTCATCCAGCTGTTGCGCAGAAATAGCCCCTCGTTGGGCCAGTGAACGGGAACGC -GTATGACGTTTTGCTACGGAGTCCAGTTCTGCCTGGCGTTGATTAACCAGCGACTGTGCGGCACGAGTTT -CGCTTTGTCGTTGCTCCAGCAAAGCCTGCGCGGCAGCAACGGCGCTTTGTGCCTCTTTGATTTGCGCGAT -GGCTTCCAGTCGCTGTTCCTGCAACACGCGAGTATCCATCTTCGCCAGCACTTCACCTTCGCGAACAAAC -TTGCCTTCTTTCACCAGAATGGTGTCGATACGCCCGGCAATTTTGCTGGCAATATCCACTTCCGTCGCTT -CAATGCGCCCATTACTGACAGCAAAGCCTTCCGGCACACCTGCCGGGCGCAACAGCCACCACGCCACGAT -AGCCGCCACCGCCAGTAACCCGACAACCCACCACGCCAGATGGCGCTTACTCTTATCCATAATCGACCCG -CCATAATCCCTGTAAGCAAACGACGCGTGTTACAACTGCCGCCGAACGACGTTCAGCGGATTCTTCCATC -CGGGATAAGAAGGAAACGGCAAATACGACCAGCGCGCAGAGCATTGAGCGCCAACGGGGAAGGCTTAGTG -AAAACGGGTAGTAATGTTGTCATCATCAGCATTCCTGGCCGTAAATGAAACACGCATACTCATAAGTGTG -ATCTATAAAACTGGCTGACAAAACGGTATCCATCCTGTTGGATAGCGTTTCACGCCTGTTCAGTTGCAGG -AACAGAGCATTCCTTTTTACGTTTTATCAACAGTCTCAACCAGATAGTAACATTAATATTCATGTTGTCT -ATGGTTCAGAGCTGTAACATTGTGCGCCTTCTAATCAAAGGCATAAGTCCATTTCTGTTTTTTTCATGCT -GGTAAGACTTCCAGGGAGTGGTTATCTCAGGCCCTGCACCAGGGTTAATTTGGCAATTATGCATGCTGAA -CATTCTTCCAGCATGTTTACTGTCACGGGCGTTAAGACCTAAAACTGTCCCCGTTTCGCCTATGCGTTCT -CTTCCACCATTTCCGTTATGTGCAACAACTTGATTTATACCTAACATTTGTGAACATGCTAATAGTGCTT -CAAGTTTAGGTCTGTAATCTGTCGAAACAGAAAAATAACGATTAAAGGATCGACAAGAGATAGCCCGGCT -AGTTTTAAACTTTTTGCCATTAATTATAGCATGATGCTTTTTATTGATAATTGCCGCTAATTCGACCGGA -TCGAGAGCATTGGTCATTTCATCAATAGAGACTGTTATCGGTCCTATAATGTAACGTTTTCGCTGATCAT -CAAAAGTTATCCCATGATGATTTGCCATTATTTTGTATTTGGGGTCATAGAAACATACAGGATAATCTTT -TATCCCAGAGTAGGTATCCTCATCGAGTGGTTTCATACGCGTGAAGTTCTGCATATAGTTACCATTGCAA -TTCGTTTCATGATTTCCAGCTAATACATGAACATTTTCATTGATACTCATTATGCGTTTTAACAAATCGA -TGATAAATTGATCACCACAGATATTGCTAAATCGATCGCCGGTTTGGTCGCCCAGAAACGTACATGGCGT -CACAGCGTCTTTATTAATAACTAAATAAGGCTGAAGACTTTCTAAAATAATGTCTCTTCTGTTCAGGATA -CTGATTATTGTATTAACATTAGTGTTAAGTTGCTCATTAAAGTTCTCCCTTAGCAATACGTTGAGAACTT -CATCTTCTATATTAAGCAACTGGCTAAGGAAATTTTCTCCTTCAGCCATGATTCCCAAATGTCCCGTTGC -GAAAAGCGCGAACAAAACTGCACCGACTGAGCCATCGGTATCACCAAAATAGGTTGGTCTGGTACTTGTG -GGATCAACGGGTAAACAATTGGAGAAATAGATTCTGTCAGCGAACTGGGGTTTTATCATTGTTTCGAATT -TAATATCAGATACATTATATTGCGATATTTTCCAGTTCCAGATGGGTTTGTACGACTCAGTAACTGCAAC -ATCATTAGCATTATCATTTACTGTCATATTATTAAGTAAATAAACAATACTGCACCAATTAATATCGGTA -TTATCAAGAGAGCAACCGTAATTTTTGCTATTAATTGTCACAATAAACTGATAATTATTATTCCTACGTA -GAATATGAGCACGCATGCCCGATAGCATACTATATTTTTCTGAATGATCCGTTTGTATGGTAAATGAAAT -TTTGTCATCTTGAATAGATTGTTGGAACCGTTCTATTTGCCAATCATCTATTTTTTCCACAACCTCACCG -AGCATTGTCCTGGCAATACTTGATATATCATCACCTATACCATTTGCAATATACCCAAACAGTTCTTTAG -TGAAGTTGGTAACATGCTCTTGCACCATATCATTTGTTGCGATTGTCGTTGTACTGTCGTTAGTGCCTGC -CACAGTTCCAATTTTCATATTTTACCTCATATTATTTACCGCGAGGAATACATAGTTAACATTTTATCTT -ATGACATACACCTCATGTTCGATGGGAAAATAATTATATTTTGCACAAATCATTCAGCCTCAAAGCATAA -TATGAAATTTCTTATCTCATAGCAGAGAAAGTCCCTAAAGATTGTAGAGGCGTCATCAGAACATGCCTCT -ACAATCGATTAAGAAAACCTATGAAATACTGGCAGGATTAAAAAGACATACCACCGTATTCATGGAGTTT -TAATGTAGTTGAAAACAACTAAGCCCTGAGGAATAAATTATTTTATTATTTTTATCACGTGCTTCCTTCA -GGGAATTTAGCCCCATAATACCATTATCAAATTGTTGATTATGATCTACCCCGGGCCCATGATGCCCATA -TTTTTGTCTAATGTATTTGCTGGGGTCTTCACCTTTGAGTGTCTCCCCACATATGAAGATACGTTCACGT -GCTGGTCTGAAATCAGTAGTGTTATCAAAATAATTAGCATATACAGGTGTGGGTTTCAAAGTATTGCTTC -GGATTAGATGGAATAGAGGATCATCCATGTGTTCTTTATGTTTTTTATTAAAAATATTGGCTAATTCCTC -AGGATCAGTAGGATTTTTCATCTGATTAAATGGAACCTGCAAAGCACCGAGACAATAACATTTTTTTCTT -CATCTCTTATTATTCCGTGATGACTGGTTAAAACTTGCCTTTCTGAGTCATAATTACAAACATCGAGCGT -TTTAATTAAGTTATACGTATCACCGGCAGAGAGTTTATGATTTGCTAGTCGTGCAGTATAGTTACCATTA -AAATTGATTTCATGATTTCCAGCCAGAACGACGACATTTTTATTAATACGGCTATCTTTATTACCCTCCA -TATTTCGCATAGAATTTAGCAAAGTAAGGATATATTTATCACCAAAAATAGTACTAAATCTATCGCCTGT -ATGATCCCCAAGGAAGATACAAGGGGTTATCGCATCGTCCTTTAAAAAAACATGTTGATGCAACTCATTC -AAGATCATGTCTCTCGTATTTAATAAATCGTAGAGCACTTTATTATTTTTATGTTTGTATGCAGATGAAG -CCATCTCTTCGTGTTTTAATAATTCACATAATAAACTCCAACCCTTTTCCCTGATGCCTATATGCCCTGA -AACGAGCAATGCATAAAGTACAGCGCCTACTCTTCCATCTGTATCGCCAAAATAAGCCGTGTTGGCATTT -TGTGGGTTAATCACACCACACTGTTTATAGAAGTCTATTTTTGAAAACACAGATTTAACATAGCTATCAA -ACTTTTCCTTAGTAAACGTCTCTTTAGAGACATCCCAACGCCAGTCAGGTTTGAAATTACCACTAAGAAG -AGTAAAGAAATTTCTCGCTATGATAGAAAGCCCATCAACTTTATAAATTATATCTGATTTATCTCCAGAG -GAATTAATAAAATAATAACCGCCCTTACACTCAACAGTAACGGTAATGGGAGACGATAATTTTAACACAT -GGTTATTGTCTGGTATAATTGTAAAGATAAACGTATCAGTAGTATTGTCGGCGAATCTATTATATTCTTG -AATATCTATAGAAGGTTCACTATTATAAAACCATACTTTCTCCATCTGGTGACTACGATCATTTACCTTC -CAGTGACCATGTTGCAGGAAATAGATGATATGCAGGCCAAAATCGTTATCTATTTGCGAATCATTATCCA -GTTTATCAAATTCAACTATCTTTGCACGATGTGTTTTATCAACCTTGCCATGGTGTTGATGACTGTTAAC -TTTATCTGAATGCTTATCTTGATGGCTTGAAGAGATGTTTCTAATCTGATTGTCAATTGCTTTCATAAAT -AACCTGTGATATTTTTGAATTGTTTGTAACAAAATAAATGATACTTGTCTGAAAAACAGATTTACGACGA -TATAAAATAATAATACTTATATGTTCGCTGATTTTAAGCACCGAGACTATCCGGTCTTTTACCAAATAAT -GAAGAATAATCCCTCCCTGGAAGATAATTGTAAAAAACAACAGCATAAGAATTAATCTTAGGATAAATTT -TTATTTATCATGGCCTTTTGAACGCTGAAAAGTAGCGCTCTGCAAAGTAAACCCCGCTATAGTTATGCTA -TGCATTTGTCTTTAATGATATCTCGTCATTATATTAACAGGATGAAATTATCATTAATGCATATTTCAAT -ATTAGCAGGGATACCTGAGGAGTTTAAAGTGAACATATATATCGGGTGGCTTTTCAAATTAATCCCTTTG -ATTATGGGCTTAATTTGTATCGCGTTAGGTGGCTTTGTGCTGGAAAGTTCAGGGCAAAGCGAGTATTTCG -TCGCGGGTCATGTGCTGATTTCTCTGGCGGCCATATGCCTGGCATTATTCACTACCGCATTTATTATCAT -TTCGCAGCTCACGCGCGGCGTTAATACGTTTTACAATACATTGTTCCCCATTATTGGCTATGCGGGGTCA -ATTATCACCATGATATGGGGTTGGGCACTGTTAGCAGGCAATGATGTGATGGCAGACGAGTTTGTCGCCG -GCCATGTTATTTTCGGCGTTGGTATGATTGCCGCCTGTGTATCGACGGTGGCAGCGTCATCCGGTCACTT -TCTGCTCATTCCCAAAAATGCAGCGGGGAGCAAGAGCGACGGAACACCGGTACAGGCTTATTCTTCATTA -ATCGGTAACTGCCTCATTGCCGTTCCCGTTTTACTCACCCTGCTCGGTTTCATTTGGTCTATTACGCTGT -TACGTAGTGCTGACATAACTCCGCATTATGTCGCGGGTCACGTATTGCTTGGGTTAACCGCAATCTGTGC -CTGTCTAATTGGCCTTGTTGCCACAATTGTCCATCAAACACGTAATACGTTTTCAACTAAAGAACACTGG -CTGTGGTGTTATTGGGTTATTTTTCTCGGCTCAATCACGGTACTGCAGGGGATATACGTCTTAGTCAGTT -CCGATGCAAGCGCCCGACTGGCTCCCGGCATTATTCTTATTTGCCTCGGAATGATCTGTTACAGCATATT -CTCAAAAGTCTGGCTACTGGCACTGGTATGGAGACGTACCTGTTCGTTAGCCAACAGAATACCGATGATT -CCCGTCTTCACCTGCCTGTTTTGCCTTTTCCTGGCATCGTTTCTTGCGGAAATGGCGCAGACCGACATGG -GATATTTTATTCCTTCGCGAGTTCTGGTCGGTTTGGGAGCGGTATGCTTTACGTTGTTCTCAATCGTTTC -AATATTAGAAGCGGGTTCTGCTAAAAAATAATTGCAACGTACCGGATAAAACCAGCGTTGACCATTTGCG -TAACGCTGGTTTTTCTTAGGCATCATGAAATAACGCAGCATTAATGCATAGTGGTTAAGTATAAAAAACA -GCAAAGTTACTGTTTTTTTCAACCTGTTCATATTTCATAAAGATCTGGCCACTGAGTGAGTTTTCAATCA -CCTTTCCATCCACCTTATATTAAGCATGGAGGGTTTCAGTTCACGGGCTCATTAGAAAATAATCACAAGA -TAACCACTATCAAAATTAGCTCATTTTTAATGCGACTCTAATAATTTTCATCTTTAGGAAATAGGTCAGG -ACGACTTTGCTGCAATCAAATCCTGCGCACAAGCCCACGCACTCGACCACGCCCACTGGAAGTTATAGCC -CCCCAGCCAGCCGGTGACGTCCATCACTTCGCCGATGAAGTACAGCCCAGGCACTTTGCGCGCTTCCATC -GTCCGTGAAGAGAGTTCGTTGGTGTCCACGCCGCCGAGCGTCACTTCGGCAGTGCGATAGCCTTCAGTGC -CGTTGGGTTGTACGCGCCAGTCGGTCAATGTGCTAATCAGTGCCTGTTGGTCACGCACGTTGAGCTGTTT -TAGCGAAACATCCGGGATTTGCCCGAGTTGCTGTAAGCGTTCAACCAACCGCTTCGGTAGATGAACCGCC -AGTGTGTTTTTCAGGCTTTGATTCGGATGTGCGTTACGCTGCTCATTCAGGAAGGTTTCGAGGTCCACAT -CCGGTAGCAGATTGATGCTGACAAATTCCCCCGGTTGCCAGTAGCTTGAAATCTGCAACACCGCCGGTCC -AGACAAGCCGCGGTGGGTGAAGAGTAAGTTCTCACGGAAAACGGTGCCGTTTTCAGCGGTAATCACGGAA -GGCACCGCCACGCCCGCCAGCACCTGTAACTCTTCGAGCAACGGTTTATGCAGAGTGAATGGCACCAGAC -CCGCGCGGGTCGGCAGCACGTTGAGGCCAAATTGTTCGGCAATCTTATAACCAAACGGCGACGCGCCCAG -CCCCGGCATTGACAGCCCACCAGTCGCGATGACCAGCTTTTCGCAACCGACAGTCATGCCGTTCAGATCA -AGCGTGAAGCCTGTTTCATCCTTCGCCACACTCAGCACTTCGCTACGCAATCTGAAGGTCACATTGCCCT -TCTCGCACTCATCCACCAGCATGTCGACAATCTGCTGCGCGGAGTCATCGCAGAAGAGTTGCCCTAACGT -TTTCTCGTGCCAGGCGATGCCGTGTTTATTGACCAGATCAATGAAATCCCACTGGGTAAAACGTGCGAGT -GCAGACTTACAAAAATGCGGATTCTGGCTCAGATAAGCGCCTGGTTCGACATAAAGGTTGGTAAAGTTGC -AGCGCCCACCGCCAGACATAAGGATTTTGCGCCCTGGTTTTTTACCATTATCGATCAGCAGAACCCGGCG -TCCTGCCTGACCTGCCAGCGCAGAACAGAACATACCCGCCGCACCAGCGCCTATAATAATGGCATCAAAC -CTTTCCACGTTGCGCTCCTCTTAGAAAAAACGGGCGTGAATTGTAAAGATTCCTCAGTGGTCGCACCAGC -ATCAATATTACTAAAAGGAAGTATTTGCCTGAATTATATAAGATAATTATTTTTTGAGTGAAATCCATAC -AGGGGGCAAATCAAAAAAAGTCTATATTTCACTTTGCCCGCGCCGCGAAAGTCACTGATAATGCGCCGCG -TTCATGTCCTCAAAATGGCGTAACGTCCTATGCTACATTTGTTTGCTGGCCTGGATTTGCATACCGGGCT -GTTATTATTGCTTGCACTGGCTTTTGTGCTGTTCTACGAAGCCATCAATGGTTTCCATGACACAGCCAAC -GCCGTGGCAACCGTTATCTATACCCGCGCGATGCGTTCTCAGCTCGCCGTGGTTATGGCGGCGGTATTCA -ACTTTTTGGGTGTTTTGCTGGGTGGTCTGAGTGTTGCCTATGCCATTGTGCATATGCTGCCGACGGATCT -GCTGCTTAATATGGGATCGTCTCATGGCCTTGCCATGGTGTTCTCTATGTTGCTGGCGGCGATTATCTGG -AACCTGGGTACCTGGTACTTTGGTTTACCTGCATCCAGCTCTCATACGCTGATTGGCGCGATCATCGGGA -TTGGTTTAACCAATGCGTTGATGACCGGGACGTCAGTGGTGGATGCACTCAATATCCCGAAAGTATTAAG -TATTTTCGGTTCTCTGATCGTTTCCCCTATTGTCGGCCTGGTGTTTGCTGGCGGTCTGATTTTCTTGCTG -CGTCGCTACTGGAGCGGCACCAAGAAACGCGCCCGTATCCACCTGACCCCAGCGGAGCGTGAAAAGAAAG -ACGGCAAGAAAAAGCCGCCGTTCTGGACGCGTATTGCGCTGATCCTTTCCGCTATCGGCGTGGCGTTTTC -GCACGGCGCGAACGATGGTCAGAAAGGCATTGGTCTGGTTATGTTGGTATTGATTGGCGTCGCGCCAGCA -GGCTTCGTGGTGAACATGAATGCCACTGGCTACGAAATCACCCGTACCCGTGATGCCATCAACAACGTCG -AAGCTTACTTTGAGCAGCATCCTGCGCTGCTCAAACAGGCTACCGGTGCTGATCAGTTAGTACCGGCTCC -GGAAGCTGGCGCAACGCAACCTGCGGAGTTCCACTGCCATCCGTCGAATACCATTAACGCGCTCAACCGC -CTGAAAGGTATGTTGACCACCGATGTGGAAAGCTACGACAAGCTGTCGCTTGATCAACGTAGCCAGATGC -GCCGCATTATGCTGTGCGTTTCTGACACTATCGACAAAGTGGTGAAGATGCCTGGCGTGAGTGCTGACGA -TCAGCGCCTGTTGAAGAAACTGAAGTCCGACATGCTTAGCACCATCGAGTATGCACCGGTGTGGATCATC -ATGGCGGTCGCGCTGGCGTTAGGTATCGGTACGATGATTGGCTGGCGCCGTGTGGCAACGACTATCGGTG -AGAAAATCGGTAAGAAAGGCATGACCTACGCTCAGGGGATGTCTGCCCAGATGACGGCGGCAGTGTCTAT -CGGCCTGGCGAGTTATACCGGGATGCCGGTTTCCACTACTCACGTACTCTCCTCTTCTGTCGCGGGGACG -ATGGTGGTAGATGGTGGCGGCTTACAGCGTAAAACCGTGACCAGCATTCTGATGGCCTGGGTGTTTACCC -TTCCGGCTGCGGTACTGCTTTCCGGCGGGCTGTACTGGCTCTCCTTGCAGTTCCTGTAATCGTACGCACC -AAAACGAGCGGGTCAGCTGGCCCGCTTCAGATTGTGACATAGTGCGCTTTGTTCATGCCGGATGCGGCGT -GAACGCCTTATCCGGCCTACAAAAACATGCAAATTCAATAGATTGCAGAGATTATGTAGGCCTGATAAGC -GTAGCGCATCAGGCAATTTTGCGTTTGTAATCAGTCTCGAGCGGGTCAGTTTACTGGCCCGCTTTTTTTA -TGCGTTATTATTGCTGAAGTGCTTAATGCCAAATCATCAATGCAATCAGGCTGACCACCACCAGACCACA -CAATGCGCTGGTCAGAATAAACTGCCGACGCACCCGCTCACAGCGGCGAATAAATTCATCATCGTGATGA -TCGCGATAACGTTGGGCATAGATATACCAAACGAGACGCACCTGTTTGTTGGGTTGGCCATGTGAGGTAA -AAAAGCCCCCTCCATCAACATATTGATAGAGCAATGGATCGCAGTTACGCAGTACCACTAACAACGCGCG -TAGTGATGAGAAATAGCGCGCCATGTTAACAATGCAAACGACACATAAAGCCCAAAATAATGCGACGGTG -CTTATCATACCTCCTCCCCGGCGACCTGCCCGCGGAGTTCCACCCCGGGGCTACCGCTCCCGATACGCTG -CCAATCAGTTAACACCAGGTCCTGGAGAAACCGCTTTTGTGGTGACCAACATACGAGCGGCTCTATAGAT -AGTGTAGGAGATCAGGTTGTTTTTTTTCCAGAAGGTTAACCACTATCAATATATTCATGTCGAAAATTTG -TTTATCTAACGAGTAAGCAAGGCGGATTGACGGATCATCCGGGTCGCTATAAGGTAAGGATGGTCTTAAC -ACTGAATCTTTACGGCTGGGTTAGCCCCGCGCACGTAGTTCGCAGGACGCGGGTGACGTAACGGCACAAG -AAACGCTAGCTGGCCAGTCATCGACAACTTTATGGAAGGAGTAACACTATGGCTTATAAACACATTCTCA -TCGCGGTCGACCTCTCCCCGGAAAGCAAAGTTCTGGTAGAGAAAGCAGTCTCTATGGCTCGCCCCTACAA -TGCGAAAGTTTCTCTGATCCACGTAGATGTAAACTACTCTGACCTATACACCGGGCTTATTGATGTGAAT -CTGGGTGATATGCAGAAACGCATCTCTGAAGAGACACATCATGCACTGACCGAGCTTTCCACTAATGCAG -GCTACCCAATCACTGAAACCCTGAGCGGCAGCGGCGACCTGGGCCAGGTTCTGGTCGATGCAATCAAGAA -ATACGATATGGATTTGGTGGTTTGTGGTCACCACCAGGACTTCTGGAGCAAACTGATGTCTTCCGCACGT -CAGCTGATCAACACCGTTCACGTTGATATGCTGATTGTTCCGCTGCGCGACGAAGAAGAATAATCTTCCC -TCTACGACGTGTTCCTGAACGCCCGCATATGCGGGCGTTTTGCTTTTTGGCGCGCCTTGTTACCTGATCA -GCGTAAACACCTTATCTGGCCTACGGTCTGCGTACGCAATCAAAATCCCCAGCCAATACAACATTTAACA -CCATCATATTTTCCATCATTAGTGTGATCATCTGGTTATTTTCTGTTGTAATAGTGTATTAATCTATTCA -CCGCATCAATATTAAGAATCTCTGACAGATGTAAACTTTTTCGCGCGTTATCCCTTACGCGTTCATACTT -TTCAGGATGGTATTGGAAGGTTAATAAATATGAATACAACAACACCCATGGGGATGCTGCAGCAACCTCG -CCCATTTTTCATGATCTTTTTTGTCGAGTTATGGGAGCGATTCGGCTACTACGGCGTGCAGGGCGTACTG -GCGGTTTTCTTCGTTAAACAGCTTGGATTCTCGCAAGAGCAGGCTTTTGTCACTTTTGGTGCTTTTGCTG -CGCTGGTCTATGGCCTCATTTCCATTGGCGGCTATGTCGGCGACCACCTGCTGGGGACCAAACGCACCAT -TGTTCTTGGAGCACTTGTGCTGGCGATTGGCTACTTCATGACCGGCATGTCGCTACTTAAGCCTGACCTG -ATTTTCATCGCCCTGGGGACTATCGCTGTCGGTAACGGCCTGTTTAAAGCTAACCCAGCCAGCTTGCTTT -CGAAGTGCTATCCGCCGAAAGATCCGCGGCTTGATGGCGCATTCACCCTGTTCTATATGTCGATCAACAT -CGGCTCGTTGATAGCGTTATCGCTGGCCCCTGTGATCGCTGATAGATTCGGTTATTCAGTCACCTACAAC -CTGTGCGGGGCGGGGTTAATTATCGCATTACTGGTTTACATCGCCTGTCGTGGAATGGTGAAAGACATTG -GTTCTGAACCCGACTTCCGGCCAATGAGCTTCAGCAAACTGTTGTACGTGTTACTTGGCAGCGTGGTGAT -GATCTTCGTATGCGCATGGCTGATGCACAACGTAGAAGTCGCCAATCTGGTGCTGATTGTTCTCTCCATC -GTCGTCACCATCATCTTCTTTCGTCAGGCATTCAAGCTGGATAAAACCGGGCGCAATAAAATGTTTGTCG -CCTTTGTCCTGATGCTCGAAGCGGTGGTGTTTTACATTCTCTACGCCCAGATGCCAACATCGCTGAACTT -CTTTGCCATCAACAACGTGCATCATGAAATTCTCGGTTTTTCCATCAACCCGGTCAGCTTCCAGGCGCTT -AACCCGTTCTGGGTGGTACTCGCCAGCCCAATACTGGCAGGCATTTACACGCATCTGGGTAACAAAGGCA -AAGACCTCTCGATGCCGATGAAATTTACTCTCGGCATGTTTATGTGCTCACTGGGCTTTTTGACGGCGGC -AGCTGCGGGAATGTGGTTTGCGGATGCACAAGGGCTGACATCGCCATGGTTTATCGTGCTGGTGTACTTA -TTCCAGAGCTTAGGTGAACTGTTTATTAGCGCCCTTGGCCTGGCGATGATTGCTGCCCTGGTGCCGCAGC -ATTTGATGGGCTTTATTCTCGGGATGTGGTTCCTGACGCAGGCTGCCGCGTTCTTGCTGGGCGGCTATGT -GGCAACATTTACCGCGGTGCCGGACAACATTACCGATCCGCTTGAGACGTTGCCCGTCTATACCAACGTG -TTTGGTAAGATTGGTCTGGTCACGCTGGGCGTTGCAGTAGTGATGCTGTTGATGGTGCCGTGGCTGAAAC -GCATGATTGCGACGCCGGAAAGCCATTAATTATTCTTGCAGAAAGCAGGGTAGCGTTATCGCTACCCTGT -TTTAGTTTTACACTGGCGTACCTGCATAGATATCAAAGCGATGCCCTTTAGTGACTACCGCGTTTGGCGT -GGCGACATTCGCCAGCGGTGGCGCGTAGTCCGGGCGCTTTACCACCACGCGTTTGGTCGCCAGCAAGCGT -GCAGGCTCCAGTAATCCATCGGCATCAAGATCCGGTCCCACCAGCGACTGAAAGACACGCATCTCTTTTT -TCACTAGCGCGCTTTTCTGCTTATGCGGGAACATCGGGTCGAGATAAACCACCTGCGGGCGCGGGGTAAT -ATCAGTCAGCGCCGTCAGGCTGGAGGCGTGAATTAACTGCAACCGCTCCTGCAACCAGCCGCCGATTTCC -GCATCCGCATAACCACGCGCCAGGCCGTCGTCGAGTAGCGCGGCAACCACTGGATTACGCTCCAGCATCC -GCACGCGGCAGCCGACTGAAGCCAGTACAAAGGCATCGCGCCCAAGTCCTGCAGTGGCATCCACCACATC -CGGCAAATAATCGCCTTTAATGCCCACCGCTTTCGCCACCGCCTCACCGCGACCACCGCCGAATTTGCGT -CGGTGCGCCATCGCTCCGCCAACAAAATCAACAAAGATGCCGCCAAGTTTTGGCTCATCACGCTTGCGCA -ATTCCAGATGTTCCGGCGTTAACACCAGCGCCATCAGGTTGTCTTCATCGTGCTCCAGCCCCCAGCGGGC -CGCCAGAACAGATAAGGCACCGTCTCCGGTGCCTGTTTCATCAATTAAGCAGATTTTCACTGAATGATCA -GCCCTTAATGCCGTAATGCTCCAGCATCGCATCCAGCTGCGGTTCACGACCACGGAAGCGTTTGAACAGA -TCCATCGGCTCTTCTGAACCGCCACGGCTCAGAATGTTGTCGAGGAACGACTGCCCGGTTTCACGGTTGA -AAATGCCCTCTTCCTCAAAGCGCGAGAAAGCATCTGCCGCCAGTACGTCAGCCCACAGGTAGCTGTAGTA -ACCTGCGGCATAACCACCGGCGAAAATATGGCTGAAAGCGTGCGGGAAACGGCCCCAGGACGGAGATGGC -ACCACGGCAACCAGTTTCTTGATTTCTGCCAGAGTTTCGAGGATTTTTGCCCCCTGATCCGGGCGGAACT -CGGCATGAAGGCGGAAATCAAACAGGCCGAACTCCAGCTGACGCAGAATAAACAGCGCCGCCTGGTAGTT -CTTCGCCGCCAGCATTTTATCCAGCAACTCTTTCGGCAGCGGTTCGCCGGTTTCATAGTGACCAGAGATA -AACGCCAGCGCCTCCGGCTCCCAGCACCAGTTTTCCATAAACTGACTCGGCAGTTCGACCGCATCCCACG -GCACACCGCTGATACCGGAAACACCAGCGGTTTCGATGCGGGTCAGCATATGGTGCAGGCCGTGACCGAA -CTCGTGGAAGAGGGTGATCACTTCGTCGTGAGTGAACAGCGCCGGTTTACCATTTACCGGGCGGTTGAAG -TTACAAGTCAAATACGCGACCGGTTTTTGCAAAGAACCATCAGCTTTACGCATCTGGCCTACGCAGTCAT -CCATCCACGCCCCGCCGCGCTTGTTTTCACGGGCATACAGATCGAGGTAGAAGCTACCGCGCAGTTCGTT -ATTTTCGTCATACAGTTCGAAGAAACGTACATCCGGATGCCAGACATCAACATCTTTACGCTCTTTAGCG -GTGATGCCGTAAATACGCTTAACCACTTCAAACAGGCCGTTAACCGCTTTGTTTTCCGGGAAGTACGGAC -GCAGCTGTTCGTCACTGATGCTGTAGAGGTGCTGTTTTTGTTTTTCGCTGTAGTAAGCGATATCCCACGG -CTGCAACTCATCGACGCCAAATTCGGCTTTGGCAAAGGCACGCAATTGCGCCAGCTCTTTTTCGCCTTGT -GGACGCGCGCGTTTTGCCAGATCGGTTAAGAAATCCAGCACCTGCTGCGGGTTTTCTGCCATTTTAGTGG -CAAGGGATTTAAAGGCGTAGTTTTCAAAGCCCAGCAGTTGCGCCAGTTCGTGACGCAGCGCGAGGATCTC -TTCCATCACCTTGCTGTTATCCCATTTACCGGCGTTTGGGCCTTGATCGGAGGCGCGGGTGCTGTAAGCG -CGATACATCTCTTCACGCAGAGCCTGGTTGTCGCAGTAGGTCATTACCGGCAAGTAGCTTGGGATATCCA -GCGTCAGCAAATAACCTTCCAGCTCTTTCGCTTCGGCCTGGGCTTTTGCCGCAGCCAGCGCGCTTTCTGG -CATCCCCGCCAGCTCCGCTTCGTCGGTAACGAGTTTGGTCCAGCCCATTGTCGCATCGAGGACGTTGTTG -CTGTACTGGTTGCCCAGTTCAGAAAGACGGGTCGCAATTTCGCCGTAACGCTGCTGTTTCTCTTTCGGCA -GACCTATGCCAGAGAGTTCAAAGTCGCGCAGTGCGTTATCAACCGCTTTCTTCTGCGCCGTGTTCAGCGT -GGCGTAATGATCGCCATCGCGCAGGTCGCGATACGCTTTATACAGCCCTTCATGTTGCCCTACCCAGGTG -CTGTATTCCGACAGCAGCGGCAGGGTTTGTTCGTAGGCTTCACGCAGTTCCGGGCTATTTTTCACCGAGT -TCAGGTGGCTGACCGGGGAGAAGATACGCCCCAACACATCGTCCACTTCCGCCAGCGGCTGGCAGAGATT -TTCCCAGGTGTACGGTGCCCCTTGCGCTACTACGCGCTCCACGTTTTCGCGGCAGTCGTTCAATGCCTTA -GTCACGGCTGGAACGACATGTTCCGGGAGAATTTTAGAAAACGGAGGCAATTCAAAGGGAGTCAGTAACG -GATTCGTCATTCGCGCAGTCCTGGTTAAAGAGGTTAAGGAAGCGCTCAACAGGCGCTTTACATAATGTGT -GTAGCATGGGGTTAAGTGTAGTGAATTTCAATGAGAAACGTTACGCTTTCGCGGCGGCGGCCTCTTTTCG -GTATACTGTCCTGATACGCTTTTGTGCGCCCCGAATACGGGCCGATTTTTACTTACCGGAACACCTTTAC -CCATGCTCAGTTATCGCCACAGCTTTCACGCTGGCAACCACGCCGACGTCCTTAAACATACCGTTCAGAG -CCTGATCATCGAGTCGCTGAAAGAGAAAGATAAACCGTTTCTCTATCTCGACACCCACGCAGGGGCCGGG -CGTTATCAGTTAGGCAGCGAACATGCCGAGCGTACCGGCGAATATCTCGAAGGCATCGCCCGTATCTGGC -AGCAGGACGATTTGCCCGCAGAACTGGAGGCGTACATCAATGTGGTAAAACACTTCAACCGTAGCGGTCA -GTTGCGTTACTACCCCGGTTCGCCGTTGATTGCTCGCCTGCTACTGCGTGAACAGGACAGCCTGCAACTG -ACCGAACTGCACCCGAGCGATTACCCGTTGTTGCGTTCTGAATTTCAGAAAGATAGCCGTGCGCGTGTCG -AAAAAGCCGACGGTTTCCAGCAGCTTAAGGCCAAACTGCCGCCGGTTTCCCGCCGTGGTTTAATCCTTAT -CGACCCGCCGTATGAAATGAAAACTGACTATCAAGCGGTGGTCAGCGGGATAGCAGAAGGTTACAAACGT -TTCGCCACTGGTATTTACGCACTGTGGTATCCGGTGGTGCTGCGTCAGCAAATTAAGCGCATGATCCACG -ATCTGGAAGCGACCGGTATTCGCAAAATTCTGCAAATTGAACTGGCGGTACTGCCAGACAGCGATCGCCG -TGGCATGACCGCTTCCGGCATGATTGTGATTAACCCGCCGTGGAAACTGGAACAACAGATGAATAACGTG -CTGCCGTGGCTGCACAGCAAACTGGTTCCGGCAGGCACCGGGCACGCCACCGTAAGCTGGATCGTGCCGG -AGTAATTGCAGCCATTGCTGGCACCTATTACGTCTCGCGCTACAATCGCGGTAATCAACGATAAGGACAC -TTTGTCATGACTAAACACTATGATTACATCGCCATCGGCGGCGGCAGCGGCGGTATCGCCTCCATCAACC -GCGCGGCTATGTACGGCCAGAAATGTGCGCTGATTGAAGCCAAAGAGCTGGGCGGCACCTGCGTAAATGT -TGGCTGTGTGCCGAAAAAAGTGATGTGGCACGCGGCGCAAATCCGTGAAGCGATCCATATGTACGGCCCG -GATTATGGTTTTGATACCACTATCAATAAATTCAACTGGGAAACGTTGATCGCCAGCCGTACCGCCTATA -TCGACCGTATTCATACTTCCTATGAAAACGTGCTCGGTAAAAATAACGTTGATGTAATCAAAGGCTTTGC -CCGCTTCGTTGATGCCAAAACGCTGGAGGTAAACGGCGAAACCATCACGGCCGATCATATTCTGATCGCC -ACAGGCGGTCGTCCGAGCCACCCGGATATTCCGGGCGTGGAATACGGTATTGATTCTGATGGCTTCTTCG -CCCTTCCTGCTTTGCCAGAGCGCGTGGCGGTTGTTGGCGCGGGTTACATCGCCGTTGAGCTGGCGGGCGT -GATTAACGGCCTCGGCGCGAAAACGCATCTGTTTGTGCGTAAACATGCGCCGCTGCGCAGCTTCGACCCG -ATGATTTCCGAAACGCTGGTCGAAGTGATGAACGCCGAAGGCCCGCAGCTGCACACCAACGCCATCCCGA -AAGCGGTAGTGAAAAATACCGATGGTAGCCTGACGCTGGAGCTGGAAGATGGTCGCAGTGAAACGGTGGA -TTGCCTGATTTGGGCGATTGGTCGCGAGCCTGCCAATGACAACATCAACCTGGAAGCCGCTGGCGTTAAA -ACTAACGAAAAAGGCTATATCGTCGTCGATAAATATCAAAACACCAATATTGAAGGTATTTACGCGGTGG -GCGATAACACGGGTGCAGTGGAGCTGACACCGGTGGCAGTTGCAGCGGGTCGCCGTCTCTCTGAACGCCT -GTTTAATAACAAGCCGGATGAGCATCTGGATTACAGCAACATTCCGACCGTGGTCTTCAGCCATCCGCCG -ATTGGTACTGTTGGTTTAACGGAACCGCAGGCGCGCGAGCAGTATGGCGACGATCAGGTGAAAGTGTATA -AATCCTCTTTCACCGCGATGTATACCGCCGTCACCACTCACCGCCAGCCGTGCCGCATGAAGCTGGTGTG -CGTTGGATCGGAAGAGAAGATTGTCGGTATTCACGGCATTGGCTTTGGTATGGACGAAATGTTGCAGGGC -TTCGCGGTGGCGCTGAAGATGGGGGCAACCAAAAAAGACTTCGACAATACCGTCGCCATTCACCCAACGG -CGGCAGAAGAGTTCGTGACAATGCGTTAAATGTTAAAGGGCTAAGAGTAGTGTGCTCTTAGCCCTTAATT -ACGTTTCCGCTATCAGTTCAGAAGCTGAAGCAGAAAGCGGATCAGTTCCAGCAGCGCAATTAACGCCCCT -AGAACGATGATTGCTTTATCAATCACCCGTTTTCTCCATGCGATGGAGTGAGAATGCATCCGCTTACTCA -TCCACTGCCTGTCACGGCGCATGTCTCATTGTTAGATAAGAACTCTCTCACTCCGGCCAGAGCATCAGTT -AACGGCACCACCCGTACTTCTGACCAGGACTTTGAAAGCGTTTATGCGCATTGCCAGAGTGAAAATGCCT -CAGAGCTAACTGGATAATCATACAGTACATGCAGGTTATAAAACCAGCACGTCCTTGCAATAGTTTCAGT -ATGGTATTAGCATTGATGCGTTAGATGATGGCTATCTCACTCCAGTCAGAGCCACCAACTCAGGGCTGGA -AAGTAAAAAACCGACGCAAAGTCGGTTTTTTTACATCCGGATTCGGACAAGGCTTAATATGACGATGACC -CAGTGAAAGTATATAAATCGTCACTGCGATATATACCGAAGTGCTCCCTCCGCCAGCTGAAGAAATCGCT -AATTCTTGCAATGTTAGCCACTGGCTAATAGTATTGAGCTGTTAGATAAGAACTCTCTCACTCCAGCCAG -AGCCACCAACTCAGGGCTGGAAAGTAAAAAACCGACGCAAAGTCGGTTTTTTTACGTCCTGATTCAGACC -TCCTTTCAAATGAATAGCCAACTCAAAATTCACACCTATTACCTTCCTCTGCACTTACACATTCGTTAAG -TCATATATGTTTTTGACTTATCCGCTTCGAAGAGAGACACTACCTGCAACAATCAGGAGCGCAATATGTC -ATTTCTGTTACCCATCCAATTGTTCAAAATTCTTGCTGATGAAACCCGTCTGGGCATCGTTTTACTGCTC -AGCGAACTGGGAGAGTTATGCGTCTGCGATCTCTGCACTGCTCTCGACCAGTCGCAGCCCAAGATCTCCC -GCCACCTGGCATTGCTGCGTGAAAGCGGGCTATTGCTGGACCGCAAGCAAGGTAAGTGGGTTCATTACCG -CTTATCACCGCATATTCCAGCATGGGCGGCGAAAATTATTGATGAGGCCTGGCGATGTGAACAGGAAAAG -GTTCAGGCGATTGTCCGCAACCTGGCTCGACAAAACTGTTCCGGGGACAGTAAGAACATTTGCAGTTAAA -AATTTAGCTAAACACATATGAATTTTCAGATGTGTTTTATCCGGGAGGCATTATGTTACTGGCAGGCGCT -ATCTTTGTCCTGACCATCGTATTGGTTATCTGGCAGCCGAAAGGTTTAGGCATCGGCTGGAGTGCAACGC -TCGGCGCAGTACTGGCGTTAGTTACGGGCGTGGTCCATCCGGGTGATATTCCGGTGGTGTGGAATATCGT -CTGGAACGCGACGGCTGCGTTTATCGCCGTCATTATCATCAGCCTGCTGCTGGATGAGTCCGGCTTTTTT -GAATGGGCGGCGCTGCACGTCTCACGCTGGGGTAATGGTCGTGGTCGCTTGCTGTTTACCTGGATTGTCC -TGCTCGGTGCTGCCGTTGCCGCCCTGTTTGCCAATGATGGCGCGGCGCTTATTTTGACACCGATTGTCAT -CGCCATGCTGCTGGCTTTAGGGTTCAGTAAAGGCACTACGCTGGCGTTCGTGATGGCGGCCGGATTCATT -GCCGATACCGCCAGCCTGCCGCTTATTGTCTCCAACCTGGTGAATATCGTTTCCGCTGATTTCTTTGGCC -TCGGCTTTCGCGAATACGCCTCGGTGATGGTGCCGGTGGATATCGCCGCGATTGTTGCCACGCTGGTGAT -GTTACATCTCTATTTTCGCAAAGATATTCCGCAGAACTACGATATGGCGCTGCTGAAATCTCCCGCAGAA -GCGATCAAAGATCCTGCTACGTTCAAAACTGGCTGGGTTGTTTTACTGCTTCTGCTGGTGGGATTTTTCG -TCCTGGAACCGCTCGGCATTCCGGTGAGCGCCATTGCAGCTGTGGGCGCGCTGATATTATTTGTCGTCGC -TAAACGCGGTCATGCGATTAATACGGGTAAAGTCCTGCGCGGTGCCCCCTGGCAGATTGTCATCTTCTCG -CTCGGCATGTATCTGGTGGTTTATGGCCTGCGCAATGCCGGATTAACGGAATATCTTTCTGGCGTACTCA -ACGTGCTGGCGGATAACGGCCTGTGGGCCGCGACGCTCGGCACCGGATTCCTCACCGCCTTCCTCTCTTC -TATTATGAACAATATGCCGACGGTACTGGTTGGCGCGTTGTCCATTGATGGCAGCACGGCATCTGGCGTT -ATCAAAGAAGCGATGGTTTATGCCAATGTGATTGGCTGCGATTTGGGACCGAAAATTACCCCAATTGGTA -GCCTGGCTACGCTACTCTGGCTGCACGTACTTTCGCAGAAGAATATGACTATCAGCTGGGGATATTACTT -CCGTACAGGGATTATCATGACCCTGCCTGTGCTGTTTGTGACGCTGGCTGCGCTGGCGCTACGTCTCTCT -TTCACTTTGTAATGAGATACTGATATGAGCAACATTACCATTTATCACAACCCGGCCTGCGGCACGTCGC -GTAATACGCTGGAGATGATCCGCAACAGCGGCACAGAACCGACTATTATCCATTATCTGGAAACTCCGCC -AACGCGCGATGAACTGGTCAAACTCATTGCCGATATGGGGATTTCCGTACGCGCGCTGCTGCGTAAAAAC -GTCGAACCGTATGAGGAGCTGGGCCTTGCGGAAGATAAATTTACTGACGATCGGTTAATCGACTTTATGC -TTCAGCACCCGATTCTGATTAATCGCCCGATTGTGGTGACGCCGCTGGGAACTCGCCTGTGCCGCCCTTC -AGAAGTGGTGCTGGAAATTCTGCCAGATGCGCAAAAAGGCGCATTCTCCAAGGAAGATGGCGAGAAAGTG -GTTGATGAAGCGGGTAAGCGCCTGAAATAAAGCGGCGATATCCCCCCCACAGGTTGTTAGAAAAGTGCGC -TTTATTTATGTCGGATGCGACGCTGGCGCGTCTTATCCGACCTACAAAGTTATGAAAATTCGATGAATAG -TATGTTATTTGTAGGCCTGACAGGCGTAGCGCATCAGGCGATTTTGCTATTTACACAGTACTCCCTGCGT -GAGATTCCAATTATCGCGTCCAGCATGGTGTATCAGTGAGCTGCTTAGTTATCAGCGATACAGCGCAGTA -GTTTAAAGACGTACTGGATTATGATTTATCAGTGGTTTACACAACAAATTATTAAATAATTATAAGATAC -CTTAACCCATTTTATTATTACACATCTAAAACATCACAAAAAAAATCACTTCACACACTATCAGAGAACA -TAATAACTTTTTAAAATGAGCGCATTTTGATAGTTGTTAACGATTTCCTTTACGATACTATCACTACCCT -TTTTTTACACACAAATATTACCGGGTGGAGATAAAAGGGAAATCAAAGGTAATTATATCAGGAAGATATA -ACGCATTACATTTATTGTGTGTAGAAGAAAATCCATTCCTGTTCTAATTATCCAATTTAAACATCTTAGC -ATAAAACAAATGATGAATAAGGAATTTTATGTCAATTGACTTTACCCCAGGTATAATAAATACATATCAC -GGCGATATTTATAACTGCACAACAAATACCGATAATGCTAAAACGCCAGACACACCGAAGTGGCCTTGCG -ATAATTGGGAAGAACAACAACCCATTAATTCCACATTCTCTGGAGAAGGATATATCTCTGATCAATATGA -TTTAGCGCAACACCAACTTCAACAAATTAATGCGTGCCACACGAACACTACATATACAAATGCAGACTAC -TCAAAAGTTGTGGCTCAACTTGTAAGTCTTATTACTAACATTGAAACGATAAGTTCGACACAACTTACGC -AACAGACACAATCAATACTTAATCAGATTAATAACATTAGATATGAAAAAAACAAAAGTGCTGAATGTCG -AATCATTGTTATCGCTAATCCTAAACCCGACAAGGCAATCATAACTAAAATTAGCGTAGAAGAGGGAATA -CCCATAACATTCAGTGTCCAAACCATGTTTTCAGATACTAATTTTATTGCTGAACAACGAGCTGACTTAC -CAACTAATATAAAAGATATTCAAAGCCTGTATCAAAAAATGACGAAGTTATATATTGAGCACAGTGAAAA -TAAAAACAGGATGAAAGTCTTTGCCGGAACCAACTTTATTGATTTCAATATGACAGGACAGAACCTGTCC -GGGTTCGTTCTAACCTTGTCAAGGTTTTATTTCGAAGATCTACTTAATATAAATTTCACTGACGCAAATT -TAGGGAAGGTGCGAATAAGCGGGGAAATTCTTCTCGGCTGACTCAGTCATTTCATTTCTTCATGTTTGAG -CCGATTTTTTCTCCCGTAAATGCCTTGAATCAGCCTATTTAGACCGTTTCTTCGCCATTTAAGGCGTTAT -CCCCAGTTTTTAGTGAGATCTCTCCCACTGACGTATCATTTGGTCCGCCCGAAACAGGTTGGCCAGCGTG -AATAACATCGCCAGTTGGTTATCGTTTTTCAGCAACCCCTTGTATCTGGCTTTCACGAAGCCGAACTGTC -GCTTGATGATGCGAAATGGGTGCTCCACCCTGGCCCGGATGCTGGCTTTCATGTATTCGATGTTGATGGC -CGTTTTGTTCTTGCGTGGATGCTGTTTCAAGGTTCTTACCTTGCCGGGGCGCTCGGCGATCAGCCAGTCC -ACATCCACCTCGGCCAGCTCCTCGCGCTGTGGCGCCCCTTGGTAGCCGGCATCGGCTGAGACAAATTGCT -CCTCTCCATGCAGCAGATTACCCAGCTGATTGAGGTCATGCTCGTTGGCCGCGGTGGTGACCAGGCTGTG -GGTCAGGCCACTCTTGGCATCGACACCAATGTGGGCCTTCATGCCAAAGTGCCACTGATTGCCTTTCTTG -GTCTGATGCATCTCCGGATCGCGTTGCTGCTCTTTGTTCTTGGTCGAGCTGGGTGCCTCAATGATGGTGG -CATCGACCAAGGTGCCTTGAGTCATCATGACGCCTGCTTCGGCCAGCCAGCGATTGATGGTCTTGAACAA -TTGGCGGGCCAGTTGATGCTGCTCCAGCAGGTGGCGGAAATTCATGATGGTGGTGCGGTCCGGCAAGGCG -CTATCCAGGGATAACCGGGCAAACAGACGCATGGAGGCGATTTCGTACAGAGCATCTTCCATCGCGCCAT -CGCTCAGGTTGTACCAATGCTGCATGCAGTGAATGCGTAGCATGGTTTCCAGCGGATAAGGTCGCCGGCC -ATTACCAGCCTTGGGGTAAAACGGCTCGATGACTTCCACCATGTTTTGCCATGGCAGAATCTGCTCCATG -CGGGACAAGAAAATCTCTTTTCTGGTCTGACGGCGCTTACTGCTGAATTCACTGTCGGCGAAGGTAAGTT -GATGACTCATGATGAACCCTGTTCTATGGCTCCAGATGACAAACATGATCTCATATCAGGGACTTGTTCG -CACCTTCCTTAGGTGACACTATTTTTTTACATAAAGAACACCCTACCCCCAAATTATATAAAGATGGACA -ATATCTTGACAAACAAATCGAAGGTTTATTTTCAACATTATTAACCATTAATGACAACCTTTTACGAGCA -AAAGCGGAAATTGCTTCGACAATAATTAAATTTTTAGAGGCCAGGATAACCAATCTTTCATACAATGACA -TATTAAAATATCAGCAAGAATTCCAAAGACAATGTTATAAGCAAGTTAAAGCCTTTACGACACTCTCCCG -ATACAATAAAATTCAAACATGGGCAGAAATGTCTGAATATCAATTCGAAGTATTTCAATACGAGACGCTT -AACCCAAAAAAAATGTCACACACGCCTTATTTAAAGAGGCCACTGCCTAATGAAAAAGATATAAATTATG -GGGTGGAAATAGAAATACCATCTGGTAAAAGAATTCGCTTATCAAATCATTACCAGAATATAATACCATA -ATATTGATTATTAGCACTTTATAATCATTGAATAAAAATAGATTTTATGTACTTTTAAAACAATGCACTA -TATTATGGGGTGATGGATATTCATGTCACGCCCCAAAATTAACTGAGTTCACCTAAACAGAAAGGATATA -AACATCAGACAGGTTTACGTTACTATCAGGCATATCACCTCAGAATCAGATGAAAACTATAAAGAAATAT -CTATTATGGTTTTAATATTTGTTGATAAGGATAGTAACATGAACATGACAAAAGGTGCACTCATCCTCAG -CCTTTCATTTTTGCTTGCCGCATGTAGTTCAATTCCGCAAAATATCAAAGGCAATAACCAACCTGATATT -CAAAAAAGTTTTGTTGCTGTTCATAACCAGCCGGGGTTATATGTTGGTCAACAAGCGCGCTTTGGTGGGA -AGGTTATCAACGTTATCAATGGCAAAACGGATACGTTGTTAGAAATCTCTGTATTACCGTTGGATAGCTA -TGCGAAGCCTGATATTGAAGCCAACTATCAGGGCCGACTGCTCGCCAGACAAAGCGGCTTCCTTGATCCA -GTGAACTATCGTAATCACTTTGTTACCATCCTCGGCACCATTCAGGGTGAACAACCTGGCTTTATCAATA -AAGTCCCGTATAACTTCCTGGAAGTGAATATGCAGGGCATCCAGGTGTGGCATTTGAGAGAAGTGGTTAA -TACCACCTATAACCTGTGGGATTACGGCTATGGTGCATTCTGGCCGGAACCGGGCTGGGGTGCGCCTTAC -TACACCAATGCGGTGAGTCAGGTAACACCTGAGCTGGTCAAATAACACCACCGAAAGATGCAGATGCTTT -CTCAGCATCTGCATCATGCATTACATCAAATTAATACACAGTAAGCTAACTATTATTATTATAAGCCCTG -TCCTGTTAATTACCTTTGGCAAACTGATTATAAAGTTAATGTCCGCACCAGGAGTCGGTTATGTTTCTTA -TAATTACCAGGGATACGATGTTCTTCACCGCGATGAAAAACATTCTGAGTAAAGGTAATGTCGTTCATAT -ACAGAACGAAGAAGAGATCGACGTAATGTTGCATCAGAATGCCTTCGTCATTATTGATACATTAATGAAT -AATGTATTTCATTCTAATTTTCTCACTCAAATTGAACGATTAAAACCTGTCCATGTCATTATTTTCTCCC -CCTTTAATATTAAACGCTGCCTGGGGAAAGTGCCGGTGACCTTTGTTCCGCGGACTATCACTATCATTGA -TTTTGTCGCACTCATCAATGGCAGTTACTGCTCTGTGCCTGAAGCGGCTGTGTCACTTTCGCGCAAGCAA -CATCAGGTTCTGAGCTGCATTGCGAATCAAATGACAACGGAAGATATTCTGGAGAAACTGAAAATATCGC -TAAAAACGTTCTACTGCCATAAACACAATATCATGATGATCCTCAATCTTAAGCGGATCAATGAGCTGGT -ACGCCATCAGCATATTGATTATCTGGTGTGAATTTCAGGCTTACGGTGAGTCTGGCTACGCTGCCACACA -GATTAGCTAATTGAAACGCCTTTCACCCCTGCCATACCTTTTAATAATCGCAACAGGTCTTCTATCGACG -TTGTGGCATGAAGCTGGATATCAATGGCGACCACTTCATGATCTTCATTTTCCTGCAACGAAACTAAATC -AGTTTTTATTTTTTGCTGCTTAAACCAGTCGAGCATTGATACCGTATTACCGTTCACTAATGTCAGCTGT -AAATGGTAATTTTTGTTCATCAGGCGGAAGGTTAATTGATGGAAGACTTCCAGCACCAACAAGGTCATCA -CTGAACCATAAATACCCAGTTCGTACATACCGCTGCCAATAACCATACCTATGGCGGCGGTCACCCAGAT -ATCCGCTGCCGTCGTCAGACCTACAATATTTTGGTTACGAACGAGAATGTTACCTGCACCGATAAACCCG -ACGCCCGTCACCACCTGAGCAGCAATACGGCTGGGGTCGAGTCCGACGTGATCTAAAGACAGCACGTCAG -CAAAACCATATTTCGAAACAATCATAAACAGGGCGCTTCCCATGCCAATTAATACATGTGTGCGTAACCC -TGCTCCTTTGCCGCGCATTTGCCTTTCCATGCCAATAGCGCCACAGGCAATTGCCGCGAGTATAAGACGT -ATAATAAATTCTGCTGTCATATAAAAATGCAAAAAGGAGCAGCAAGATGGCTCAACTTGCTACTCCTTTT -TACTTGCACCTCATTAATTCGGCAAGTCATTAGATGCTTGATTTTTGAAGGTATACAAATTTTTCTGCGG -GTTTTTCTTACAGTATTCGATCACTTTAGGAATTTGAGTGAGATCGGTTTCATTTAAAGTAACGGTATCG -CCACCTTTATATACTGTTTCTTCATGCAGCATCCACCATGCAACCGGGGTCATTGCTTTTGGATTCAGAT -CAATAAATTCCTGGCAGGTCATATCTTTAGCGGATTCATTGGCTGCCAACGCAGATTGTGCGTTCACCAG -TGACAAAGCCGCTACAGCGCCCATAAAAATAAACGCTTTACGGAGAGATGAAATATTCATTTTGTAACCC -ATTCAATATAGAGATTATATATGAACAGGAGGAATAGCTGCTTTTAAAGAAGATATTCCGGCCTGTTCAA -TATGCAAGGAAGTACGATGTAACGCATTCCCGGAATTACATATCTTTCTTAATTTTGTCCCATTCGCCTT -TAACTTTATCTTTAAAGTTGGCTTGTTTATCCTGAGTACAAGCCTGAACGATAGCTGGGGTTACGGTTGC -AATACCCTGAACATCTAAAACCGCATCTTCTGGTTTATCTTTGTTGTTCAGCGCTTCAGCAAAACCAACT -GCAGTTGGCTGGAAGGATTCGTCCACAGCCAGGAAATCTTCACAGGTCCAGGAGTTGACCGGTTTTTTGT -TATCAGCTGCTTTTTGCGCATCCGCTGCATTGCTCACAACTGGCAGAAGAAGCAGACCACCAAGAATAAC -GCCTAATACTTTTTTCATCGTAATATCCTCAACTATAAAGTGAAAGAGCCGTCACGAATCAATTTCGACA -CTGAGGTTATAACCTGGTTTTCTGTATATGTCATGTTGATGGAAAATATCAAAATCAGATATTTTTATTT -CAATACAATGAGTTACAGATGCATCAGATACTGCAATTAGGAAATTTTTATTAAATCGACTGCATTCTTA -GACGCGTTTTTGGCATAGATTGATAGCAGGGGATTTTCTTCTTAATTTTATAGGGTGGTTCTATGTTATA -TATAGATAAGGCAACAATTTTGAAGTTTGATCTGGAGATGCTTAAAAAACATCGCAGAGCAATCCAGTTT -ATTGCCGTGCTGCTGTTTATCGTCGGGTTGCTGTGTATCAGTTTCCCGTTCGTCTCTGGCGATATTTTAA -GCACAGTAGTGGGTGCATTATTAATCTGCTCGGGTATTGCGCTTATTGTCGGGTTATTCAGCAACCGCAG -TCATAATTTCTGGCCGGTATTATCCGGTTTCCTCGTCGCAGTCGCCTATTTATTGATCGGCTATTTCTTC -ATCCGCGCACCGGAGCTGGGCATTTTTGCCATTGCGGCATTTATTGCCGGTTTGTTCTGTGTTGCAGGGG -TTATTCGCCTGATGAGTTGGTATCGTCAGCGTTCAATGAAAGGCAGCTGGCTACAGCTCGTTATTGGTGT -GCTGGATATCGTCATTGCCTGGATATTCCTTGGTGCAACGCCGATGGTGTCTGTAACGCTGGTTTCCACA -CTGGTGGGAATTGAACTGATATTTAGCGCCGCCAGCCTGTTCAGCTTCGCCAGTTTGTTCGTTAAGCAGC -AATAATTACCCCGGTTGTCACCCGGATCATAGTCACTTGATGTGACTATGATCCGATTAATACTCTCTCC -GCTACGCAGTGTTGTAGATCAATTGCGCACTATCATTGAAATAATTACCTGCTAGTGATTATTTCAACCT -ACTGAATTTCATCTAATTTTTTTCACTCTATGGCAAATTAGCCATTTCAAACATTATCATGGCTGATATT -TTCCGTAGTCAGGTTTAATGTTTTAAAAGTGCTGTGGGAAAGTGAACAAAGAGTTCCGTAAGCGTTGATG -CTATGGGCGGTTAAATAAGTAATCCGGGTTCATTTTTTTGCAACTGGCGTTGATTACATTGCATAAATAT -CCGTGTCTCCAGACGCTATATAAAAACCTGAAGACATGAATGCGTTATTTACTCAGGTAATTTCAATGCG -TTAAAAGAAAGCTGGCAATCCAATTGCCAGCTTAAGTCGAAACAAGGAGACTCGATATTTAAATCGGATT -ACATTTTAACTTTAGTAATATTCTTCAGAGATCACAAACTGGTTATTGATAACTTATTCTTGGGCAGTAA -TCCGCAAACGTTAACTTTTTGTTTGCTATTTACAAGCTGATAACAACCAGGAATCTTACTTAGGATCAAT -ATATGGAGTGCGTGATGGATAAATCTGAAGTATTGATTAGTGTTAATAGACGTATTAGTTCACGAAGGGT -AAAGTTCTTATAGGCGTTTACTATATTGAACAACGATTCGGACAAGGATGTAAATAATGAAAAGGATGAC -ATATTCGAAACGATAACGGCTAAGGAGCAAGTTATGATTTTTCTCATGACGAAAGATTCTTTTCTTTTAC -AGGGCTTTTGGCAGTTGAAAGATAATCACGAAATGATAAAAATCAATTCCCTGTCAGAGATCAAAAAAGT -AGGCAATAAACCCTTCAAGGTTATCATTGATACCTATCACAATCATATCCTTGATGAAGAAGCGATTAAA -TTTCTGGAGAAATTAGATGCCGAGAGAATTATTGTTTTGGCACCTTATCACATCAGTAAACTAAAAGCTA -AAGCGCCTATTTATTTTGTTAGCCGCAAAGAAAGTATCAAAAATCTTCTTGAGATTACTTATGGTAAACA -CTTGCCCCATAAGAATTCACAATTATGTTTTTCACATAATCAGTTCAAAATTATGCAACTGATTCTGAAA -AATAAAAATGAAAGCAATATCACGTCGACGCTCAATATTTCGCAACAAACATTAAAGATTCAGAAATTCA -ACATTATGTACAAGCTGAAACTAAGACGTATGAGCGACATCGTCACCCTGGGTATCACATCTTATTTTTA -GTCAGGACATAAGCAACTGAAATTGATGGCTGGCATGACGAGGGATGCAGATGCTGATTTCATTACCCCC -GGTGATTACTAAAGGAGAGGCTAAAACGACTTTATTCCCCTGGTATGTGTATCCACCAGTAGAACCCTTC -GTTGCCCGAATGCTGGCAGGAACTGTTGGCAGAACGGCAACATTTTTTTTGTCGTTGACCTCACCATGTC -GATCACTGTGCCTGTATCCCACCTTACTGGCTGACAACCCCACTATGCCGCTGGTCTGTAAATCCCTCAT -ATCTCTCCTCGCGCGCAATTTAAAGAACCGTTATTTCTCAAGAATTTTCAGGGACTAAAATGAACAGAAG -AAGAAAGCTGTTAATACCGTTGTTATTCTGCGGCGCGATGCTCACCGCCTGCGATGACAAATCGGCGGAA -AACGCCGCCGCCATGACGCCTGAGGTCGGTGTCGTCACACTCTCCCCCGGTTCGGTCAATGTGTTGAGCG -AATTGCCCGGTAGAACCGTTCCTTATGAAGTTGCCGAGATACGTCCCCAGGTGGGCGGTATTATCATTAA -ACGCAACTTTATCGAAGGCGATAAAGTGAACCAGGGCGATTCGCTGTATCAGATTGATCCTGCACCTTTA -CAGGCCGAGCTAAACTCCGCCAAAGGCTCGCTGGCGAAAGCGCTCTCTACCGCCAGCAATGCCCGCATCA -CCTTTAACCGCCAGGCATCGTTGCTGAAGACCAACTACGTTAGCCGTCAGGATTACGACACCGCGCGCAC -CCAGTTGAATGAAGCAGAAGCCAATGTCACCGTCGCCAAAGCGGCTGTTGAACAGGCGACGATCAATCTG -CAATACGCGAATGTCACCTCGCCGATTACGGGCGTCAGCGGGAAATCGTCGGTGACCGTCGGCGCACTCG -TTACCGCTAATCAGGCAGATTCGCTGGTTACCGTACAACGTCTGGACCCGATTTATGTCGATCTCACGCA -GTCGGTGCAAGATTTCTTACGCATGAAAGAAGAGGTCGCCAGTGGGCAAATCAAACAGGTTCAGGGCAGT -ACGCCAGTACAGCTCAATCTGGAAAATGGTAAACGCTACAGCCAGACCGGCACGCTGAAATTCTCCGACC -CGACAGTGGATGAAACCACGGGCTCCGTGACGTTACGGGCGATTTTCCCCAACCCAAATGGTGACTTGCT -GCCTGGCATGTACGTCACGGCATTAGTGGATGAAGGTAGCCGCCAGAATGTATTACTGGTGCCGCAGGAA -GGCGTCACCCACAACGCCCAGGGTAAAGCAACGGCGCTCATTCTGGATAAAGACGATGTCGTGCAGCTAC -GCGAAATTGAAGCCAGCAAAGCCATCGGCGACCAGTGGGTCGTCACCTCTGGCTTGCAGGCTGGCGATCG -GGTGATCGTTTCCGGTTTGCAACGCATTCGTCCGGGTATCAAAGCACGAGCAATTTCCTCCAGCCAGGAA -AACGCCAGCACCGAATCGAAACAATAACGTTGCAGGCTTAAGGGGACTTTCATGGCTAACTATTTTATTG -ATCGCCCGGTTTTTGCCTGGGTACTTGCCATTATTATGATGCTTGCAGGTGGTCTGGCGATCATGAACTT -ACCGGTTGCGCAGTATCCGCAGATTGCGCCACCGACCATTACCGTCAGCGCTACCTATCCAGGTGCCGAT -GCGCAAACGGTAGAAGACTCGGTCACTCAGGTGATTGAGCAAAATATGAATGGGCTTGATGGCCTGATGT -ACATGTCTTCAACCAGTGATGCGGCGGGCAATGCCTCTATCACTCTGACCTTCGAGACTGGGACATCTCC -TGATATCGCACAGGTTCAAGTGCAAAATAAACTGCAACTCGCTATGCCTTCATTACCTGAAGCAGTGCAG -CAGCAGGGGATTAGCGTCGATAAGTCGAGCAGTAATATCCTGATGGTAGCGGCGTTTATTTCTGATAACG -GCAGCCTCAACCAGTACGATATCGCGGACTATGTAGCGTCTAATATCAAAGACCCGCTAAGCCGTACCGC -GGGCGTTGGTAGCGTACAACTCTTTGGTTCCGAGTATGCCATGCGTATCTGGCTGGACCCGCAAAAACTC -AATAAATATAACCTGGTACCTTCCGATGTTATTTCCCAGATTAAGGTGCAAAACAACCAGATTTCCGGTG -GTCAACTGGGTGGCATGCCACAGGCGGCAGACCAGCAGCTAAACGCCTCGATCATTGTGCAGACGCGTCT -GCAAACGCCGGAAGAATTTGGCAAAATCCTGTTGAAAGTTCAGCAAGATGGTTCGCAAGTGCTGCTGCGT -GATGTCGCTCGCGTCGAACTTGGGGCGGAAGATTATTCCACCGTGGCACGCTATAACGGCAAACCTGCTG -CCGGGATCGCCATCAAACTGGCTGCCGGAGCAAACGCCCTGGATACCTCGCGGGCAGTCAAAGAGGAACT -GAACCGCTTATCAGCCTATTTCCCGGCAAGTCTGAAGACGGTTTATCCTTACGACACCACGCCGTTTATC -GAAATTTCTATTCAGGAAGTTTTCAAAACACTGGTTGAGGCTATCATCCTAGTCTTCCTGGTCATGTATC -TGTTTTTGCAGAATTTCCGTGCCACAATCATCCCGACGATTGCCGTACCGGTGGTTATTCTCGGGACGTT -TGCGATCTTGTCGGCGGTCGGTTTCACCATCAACACGTTGACTATGTTCGGGATGGTGCTGGCGATAGGG -TTACTGGTGGATGACGCCATCGTGGTGGTGGAGAACGTCGAGCGTGTCATTGCGGAAGATAAGCTACCGC -CGAAGGAAGCGACGCATAAATCGATGGGGCAGATCCAACGTGCGCTGGTCGGTATTGCCGTTGTTCTTTC -CGCAGTGTTTATGCCGATGGCCTTTATGAGCGGTGCAACCGGGGAGATCTACCGCCAGTTCTCCATCACG -CTGATCTCCTCCATGCTGCTTTCAGTATTTGTGGCAATGAGCCTGACCCCTGCCCTGTGCGCCACCATTC -TGAAAGCCGCGCCGGAAGGCGGTCACAAACCTAACGCCCTGTTCGCACGCTTCAACACGCTGTTTGAAAA -ATCAACTCAACACTATACCGATAGCACCCGCTCGCTGTTGCGTTGTACCGGTCGCTACATGGTGGTCTAC -CTGCTGATTTGCGCCGGGATGGCGGTGCTGTTCCTGCGCACGCCGACCTCTTTCTTACCAGAAGAGGATC -AGGGGGTATTTATGACCACCGCGCAGTTACCTTCCGGTGCCACCATGGTTAACACCACGAAAGTGCTGCA -ACAGGTGACGGATTATTATCTGACTAAAGAGAAAGATAATGTCCAGTCGGTGTTTACCGTTGGCGGCTTT -GGCTTCAGCGGTCAGGGGCAAAACAACGGCCTGGCGTTTATCAGTCTCAAGCCGTGGTCTGAACGTGTCG -GTGAGGAAAACTCGGTTACCGCGATCATTCAGCGGGCAATGATTGCGTTAAGCAGTATCAATAAAGCCGT -CGTCTTCCCGTTCAACTTACCCGCGGTGGCTGAACTGGGTACCGCGTCAGGTTTTGATATGGAACTGCTG -GACAACGGTAACCTGGGGCACGAAAAACTAACCCAGGCGCGAAACGAGCTGTTATCACTGGCAGCGCAAT -CACCGAATCAGGTCACCGGGGTACGCCCGAACGGCCTGGAAGATACGCCGATGTTCAAAGTGAACGTCAA -CGCTGCGAAAGCTGAAGCGATGGGCGTGGCGCTGTCTGATATCAACCAGACAATTTCCACCGCCTTCGGC -AGCAGCTACGTGAACGACTTCCTCAACCAGGGGCGGGTGAAAAAAGTGTATGTCCAGGCAGGCACGCCGT -TCCGTATGTTGCCGGATAACATCAACCAATGGTATGTACGCAACGCCTCTGGCACGATGGCACCGCTTTC -TGCCTACTCGTCTACCGAATGGACCTATGGTTCACCGCGACTGGAACGCTACAACGGCATCCCGTCAATG -GAGATTTTAGGTGAAGCGGCGGCCGGGAAAAGTACCGGTGACGCCATGAAATTTATGGCAGACCTGGTCG -CTAAACTTCCGGCAGGCGTCGGCTACTCATGGACCGGACTATCGTATCAGGAAGCGTTATCCTCAAATCA -GGCTCCTGCGCTGTATGCGATTTCACTGGTCGTGGTGTTCCTCGCCCTCGCCGCACTCTATGAGAGCTGG -TCAATTCCGTTCTCGGTGATGTTGGTTGTTCCGTTAGGCGTCGTTGGCGCATTACTGGCCACCGATCTGC -GCGGCTTAAGTAATGACGTCTACTTCCAGGTTGGTTTGCTGACCACCATCGGGCTTTCCGCCAAAAACGC -CATCCTGATTGTCGAATTTGCCGTTGAGATGATGCAGAAAGAAGGGAAAACGCCGATAGAGGCAATCATC -GAAGCGGCGCGGATGCGTTTACGCCCAATCCTGATGACCTCTCTGGCCTTTATTCTCGGCGTGCTGCCGC -TGGTTATCAGTCATGGTGCCGGTTCTGGCGCGCAAAACGCGGTAGGTACCGGCGTGATGGGCGGGATGTT -TGCCGCAACAGTGCTGGCAATTTACTTCGTTCCGGTCTTTTTCGTTGTAGTGGAACATCTCTTTGCCCGC -TTTAAAAAAGCGTAACGTGTAAATGAGAGTAAGGTTGAACATGAAGGTTCAGCCTTACTCTTTCCTGCTA -ACCATTCACCACTCAACAACCAGCTAACCGTCAGGAATACCAGGCTTAGTACACAGCACTGAAAGTAGAA -ACCACTCCAGCCATTCGTCATCAATTTGAACAACACAATACTGACCCACATTCCCGTAATCGTATGAATT -GTCAGCTTAATAATCCCAAACATGCCGAGTCTTTTCCTCCTGAAAATACCGATACCGCCTGGCAAACTGC -GAAAGAGAACTAGCCGGTAGCCCGGCAGAAATCATCAGGGAAGAGTTTCACATGAAGCAGGTGTGAGATC -CTGACCAATATTCAAATGCGAAATATGTCAGGAAAAGGTACCTGGCGAATGTTGCGCAAACTGATGTGGC -GTTACACCATAATATTGTCGAAATGTGTTTATAAAGTACGATGTACTGCTATAGCCACATTTTTCCGCAA -TAGTATGCAGAGGAATTTGACGTAACTCGAGTAATCGTCTGGCCATCGACATCCTGGAGGCGAGTAATAT -TTTACTGAAACAGGTATTTTCATCCTGCAACTTTTTTTTGATTAGACTCTCGCTGGTATACATTCTTTCC -GCGATATCGCGCAGATACCAACGTTTGGCGATATCAAAGCTAATAAGGCGTTCAACTTTTCCTGAAACAG -TGCTGATGCTATTGAAAAGTAAGGGGATCAGTTCTTTCTTATGAGAAAACATCGATAAACAGGAAAGGTA -GAGCATATTGCTCAGTATCGGTGAATTTACCCCGGATTCATTGAAGCTATCAAAAATCGCCGTCACCAGC -GGCATGGGGGGTGACTGGTTAATTAACAAACGGTCTTTGCTGTGTAACCCTAAATTGCGTGGTAGCTGAC -GAATATTTTGTAAGTAATGGCAAACTGTCAGCTCATCGATATCCAGTCGTCGCGTATCCGGTGAACAAAA -CGCAAAATCGTCTGCCAAATTTTTCTCCAGCAGCAGAATACTCTCGTTATGCAGCGATATTTTTTGCTGT -TCATGATAAATATCGAATGAACGACGAATGAGGATCACCGAGCAGACATGAGTCATGATTATCCCTTATA -TTTCATACTGCGATTATTTCAATTTCAGTATACTAATGAAATGATGCCAGACTGTTTCTTAGCGCAAAAA -CTGCCAGATTTGGTAGGACCAAAATTTATCCACAAAGTAGTTTTGCATAACAGTTAATTGATAATAAGTA -AATGCAGCACGAATATATTTTCGCACAGCGTATAGCTTATGTTTATAAAAAAATGGCTGATCTTATTTCC -AGTAAAAGTTATATTTAACTTACTGAGAGCACAAAGTTTCCCGTGCCAACAGGGAGTGTTATAACGGTTT -ATTAGTCTGGAGACGGCAGACTATCCTCTTCCCGGTCCCCTATGCCGGGTTTTTTTTATGTCTGAGTAAA -ACTCTATAATCTTATTCCTTCCGCAGAACGGTCAGTGCCGTAAAAATTCCCTTGCGCAACAATACTTGCC -GCCGAGTCACGGTTCGACAATCTCTGCGCCGATCGCTCCTGATACTCTGTGGGCGTCATCCCATAATAAT -TTCGAAAGACGTAAATGAAATACGACACGCTGTGATATCCACAGGATACTGCAACTCGCTTAATTGAAAA -ACCATGTATAACAATAAGTTGCAAAGCACGTTGCATTCTACACTCAGTAAGCAACTGTGAATATGATGTC -TCTTCTTCGCGCAATTTTTTCTTTAACAGACTTGGACTCATCAACAGCTCGCTGGCGATTCGGGCTAGTG -TCCACTCATGGGCGATATTATTATTGATAACCGTACAAACTCGTGTTCGCATGTTCGGTTGTAAAACGTT -CAGAAGCAGCGGTATAAAGTGCTCATCCTCAAGAAAAACAGATAACAACGCAAAGATTAATGCTCTTTTA -CGTAGCATTTCTGCATAGCGAAGATTCTTATTCTGCGATAGTTGCGCAACTTCCTGAAAAACAGGAATAT -CTCTACTACAGTGATGAACGAGTAATGAAGAAACTTTTTTATGTGCATGAAGATTTAATGCCTCCTCCTT -GAGCATCGGGAGAAATAATGAAAGCGTGTCCCTTGACACGAATACAAAATTTTCAACACACTTATCTACT -CGAATTTGGCTTGCATCCGCAAAAACCAGGTCACCGCCATTAAAATAGCGATATTCACCATTAACCATGG -TGAGAATATATTTATGTCTTGCATACGCAATTAGACAATTCCCATGTAGTGATTGCATAGTTGACTTAAT -ATTACATAAACATATTACTGTTTATTAATGTAGCACGCCGCCCTCTTAAGTCAAATTGATTGATAAATAA -ATTTAAACGAAGCGGGAGAACAGGATGATAATGTGTGATGTTCTACGGGCAGGATGACTGGATTTATAAT -ACAAAAACGTGTTTAAGAACACAGGGAAATTAATAGTAAGCAAATAATCCCTTTTCGTGACATTAAAGGT -AATCGCTACATTTAATAAACATTCATATAACATATATCTTATCAACACGATGAATAGACAGCCAATATAT -TATTGCGATTAATAAGCAACCGAATGCCCAGCTGTTTTTTTAAAGGCTGGGCATTCGGTTTTTACAACGT -TATGTTATCAGGTGTGTTTAAAGCTGTTCTGCTGGGCAATACCCTGCAGTTTCGGGTGATCGCTGAGATA -TTTCAGGGAGGCTTTGTAGTCTTCCAGCAACAGTTCAGCAAAGTCCATTTCGAAGCCGCGACGACACATA -ATGCGCATCACCACGATGTCGGTGGCTTCACCGCCGAGAGTGAAGGCCGGAACCTGCCAGCCGCGCAGAC -GCAGACGTTCAGAGAGGTCGTACAGGGTGTATCCCGGATCTTCACCATCTTTCAGTTTGAAGCAAACCGC -CGGGATGCCTTCGTCCGGGCGACCCGTACAGATGAACTCATACGGCCCCAGTTTGGCGATTTCATCCGCC -AGATAAGCGGCAACCTGGTAAGAGGCGTTCTGTACTTTGGTATAGCCTTCACGACCGAGGCGCAGGAATT -CATAGTACTGTGCAATTACCTGACCCGCCGGGCGGGAGAAGTTGATGGCAAAAGTACCAATTTGACCACC -CAGGTAGTCAACGTTGAACACCAGTTCCTGCGGCAGCGCTTCTTCGTCACGCCAGATAACCCAGCCGCAG -CCCAGCGGAGCCAGACCGAATTTATGGCCTGAAGCACTGATCGATTTCACACGCGGCAGGCGGAAGTCCC -AGACGATATCCGGGGCGACGAACGGTGCCAGGAAGCCACCGCTGGCAGCGTCGATGTGCATGTCGATGTC -GATACCGGTGTCGGCCTGGAATTTATCCAGCGCATCGTGCAGCGGTTGTGGGAACTCATAGTTACCGGTG -TAGGTCACGCCGAAAGTCGGCACCACGCCGATGGTGTTTTCGTCACAGGCTTCAATCATGCGTTTCGGGT -CCATAAACAACTGACCGGGGCGCATAGGGATCTCACGCAGCTCCACATCCCAGTAGCGGGCGAATTTATG -CCAGCAGATTTGTACCGGACCGCACACCAGGTTTGGTTTATCCGTTGGTTTGCCTGCAGCTTCCATACGC -TTGCGCCAACGCCATTTCATCGCCATCCCGCCGAGCATACAGGCCTCGGAAGAACCAATGGTGTTGGTGC -CAACGGCCTGACCATTTTTCGGCGCAGGCGCATGCCACAGATCGGCAACCATATTTACGCAACGCAGGTC -GATGGCTGCGGATTGCGGATATTCTTCTTTGTCGATCCAGTTTTTATTGATCGACAAATCCATCAATTTA -TGGACGTTTTCGTCGTCCCAGGTCTGGCAGAAAGTGGCCAGGTTCTGACGAGCGTTGCCATCAAGATATA -ATTCATCATTGATAATCTGAAATGCGACATCATCGCGCATTTCGTGCAGCGGAAATCGTTTTGACTCCGC -GATAGTAGAAATGGCCTTTGCGCCAAAACGTGAATCGAGTAGTTCTGAGCGGAAATCCGTTAACAGCTTC -TGGTCCATTTCGAACTCCTTAAATTTATTTGAAGGCAATAAAAAAGTAGGATTTATCCGCAATGGAAGCA -AGGCATTACAGGCTTAATTTAAATAACAAAATCCTAAGCAGAAAAACGACTTTTTATAATATAAACATTT -AACATGATAATATTAAAAACAGACTTTATTATCGTAATAAAAATCGCCCAAACATTGCTGTTCGGGCGAT -CAAATTAATTATTGTTTATCCTGCATATACGGCGTGTACACCCCGTTCAGACTGTGCAGGAAAGCTACGA -TATCATCCACATCCTCCTGCGGCAGCTCTTTGCCTACCTGATAGCGCAGCATCAGTTTCACCGCCCCGTC -CAGCGTCGGCACGTCACCGCGATGGAAGTACGGTGCCGTTAAAGCAACGTTACGTAAACCGGGTACTTTC -TGACGCAATTTATCACGCTCTTCTTTAGTCACATTCATACGACCAATATCCGCCGCCGTAATTTCCCCAA -AGTTAAAGTCTTTTTTCAGCCCCAACGGTTCAAAGGAACGTCCGCCGAGAATAATACCACCATGACAAGT -TGCACATTTATTATCTTTAAATAATTGATAGCCTTTTTTCTGTTGCGCCGTCAGCGCATTTTCATCTCCG -CGCAACCATTTATCAAATGGGGAATCCGGCGTAATTAATGTTTTCTCAAATTCAGCAATGGCATCAGTAA -TATTTTCGCCACTGAAACCTTGCGGATAGACTTCGAGGAACTGCGTTTTAAGCTGCGGATCTTTTTCCAG -CTTAGCAATAATTTCGTCCCAGGATTTCGACGCCATTTCAATCGGGTTCAACGGCGGTCCACCAGCCTGA -TCCTGCAATGTTGCCGCACGACCATCCCAGAACTGCTCAACGTTAAATACTGAGTTAAATACCGTCGGCG -CGTTAATCGGCCCAACTGCGCCACCAACACCAATCGATGTTTTTCTGCCATCGACGCCCCCCGCATTCAA -CGCATGGCAATGAGCGCATGAAATGGTGCTATCAGCCGATAAACGGGGATCGTGATACAGCGCAAAACCC -AACGCCACTTTTTGCGCATCGGTAGGCAGTTTTTGCGGGATGGGCTGCACCGGTTCATTGCGATGTTCCG -GAGCAGTATCATTGCTGGCGTAATATTCCGCGCGCTGTTTTGCAATCCAGGCCAGTATTTCCGCCCGCTC -TTCATCACTCACCTTACCCGCCCAGTGTAGCGCGGTATAACGCGTTGGTGGCATAGTTTCATACTGCATC -ACCCATTCAATCTTATTCAAATCGCTTTGCGAAACGGGTTTATCAGCCAGCAGTGCCGCACGCACGGCCT -CAAGGTTAAAAGATTTATATCCAAGCTTAATGTCGTAATCCATCAACTGTTTCGCGCCAGGAATATAATA -ATAGGCGGGTAATTCTGCCGAAGGCGTGTGGCAATAGTCGCATCCTTTTTCGCGGAGAAAGCCTAAAACC -TTATTATTTTCACTGACAGCAGATGCCTGAACATCGGCCTGTTTACTGCGTTTATTATCGTGGTACCACA -CATAACCAGATAACCCTAAATAGCAAATCGCGACGCCAGCCAGGCCGATCGCGGTAATACGTGAGACCAT -TTTCATTATTCTTCCCTCACGGTGGTGAGTTATTGTGACCCAGAAAATTTTCCAGAATGCTGCAAACGTC -TCTGCGAGACAAAGCCATCATAAAAAACAGGGAGATACGCTTTTTGATAGGAATCAATCAATTACATGAA -TATAAACTATCAATAAGATAGCCTGTGCCTATTACCCAGATCAGGAATGGCATATCATGATTGCGGCGAG -AGCAGGATTGAATGTTCTGAAAATGAAAAACAACACCAAATCGGTATTTTTATAAATTCCATTGATATTA -GTGCGTTATATTTTTTGACAGGTTAATAAACGTGATCCACCGCACGCTTTGTCGCCCACCAGGCGGAGCG -AATGACTACCCTTAAAGAAAAGCCGATAATTAGCGACGAATTTCGGAGGTTGGATCCTTATGCTCAATCA -GAAAATTCAAAACCCTAATCCAGACGAACTGATGATCGAAGTCGATCTCTGCTATGAGCTGGACCCGTAT -GAATTAAAACTGGATGAGATGATCGAGGCAGAACCGGAACCCGAGATGATTGAAGGGCTGCCTGCCTCTG -ATGCGCTGACGCCTGCCGATCGCTATCTCGAACTGTTCGAGCATGTTCAGTCGGCGAAAATTTTCCCCGA -CAGTAAAACCTTTCCCGACTGCGCACCTAAAATGGACCCGCTGGATATCTTAATCCGCTACCGTAAAGTG -CGCCGTCATCGTGATTTTGACTTGCGCAAGTTTGTTGAAAACCACTTCTGGCTGCCGGAGGTCTACTCCA -GCGAGTATGTATCGGACCCGCAAAATTCCCTGAAAGAGCATATCGACCAGCTGTGGCCGGTGCTAACCCG -CGAACCACAGGATCACATTCCGTGGTCTTCTCTGCTGGCGCTGCCGCAGTCATATATTGTCCCGGGCGGC -CGTTTTAGCGAAACCTACTATTGGGATTCCTATTTCACCATGCTGGGGCTGGCGGAAAGTGGTCGGGAAG -ATTTGCTGAAATGCATGGCCGATAACTTCGCCTGGATGATCGAAAACTACGGTCACATCCCCAACGGCAA -CCGCACCTATTATTTGAGCCGCTCGCAACCACCGGTTTTTGCGCTGATGGTGGAGTTGTTTGAAGAAGAT -GGTGTACGCGGTGCGCGCCGCTATCTCGACCACCTTAAAATGGAATATGCCTTCTGGATGGACGGTGCAG -AATCGTTAATCCCTAATCAGGCCTATCGCCATGTTGTGCGGATGCCGGACGGATCGCTGCTCAACCGTTA -CTGGGACGATCGCGACACGCCGCGTGACGAATCCTGGCTTGAGGACGTTGAAACCGCGAAACATTCTGGT -CGCCCGCCCAACGAGGTGTACCGCGATTTACGCGCGGGGGCGGCCTCCGGTTGGGATTACTCTTCCCGTT -GGCTGCGTGATACTGGTCGTCTGGCGAGCATTCGTACCACCCAGTTCATCCCCATCGATCTGAATGCCTT -CCTGTTTAAACTGGAGAGCGCCATCGCCAACATCTCGGCGCTGAAAGGCGAGAAAGAGACAGAAGCACTG -TTCCGCCAGAAAGCCAGTGCCCGTCGCGATGCGGTAAACCGTTACCTCTGGGATGATGAAAACGGCATCT -ACCGCGATTACGACTGGCGACGCGAACAACTGGCGCTGTTTTCCGCTGCCGCCATTGTGCCACTCTATGT -CGGTATGGCGAACCATGAACAGGCCGATCGTCTGGCAAACGCCGTGCGCAGTCGGTTACTGACACCTGGC -GGGATTCTGGCAAGCGAGTACGAAACCGGTGAACAGTGGGATAAACCCAACGGCTGGGCACCGTTACAAT -GGATGGCGATTCAGGGATTTAAAATGTACGGCGATGACCTTCTGGGTGATGAAATCGCGCGAAGCTGGCT -GAAGACGGTGAATCAGTTCTATCTGGAACAGCACAAACTGATCGAAAAATACCATATTGCCGATGGTGTT -CCCCGCGAAGGCGGCGGTGGCGAGTATCCGTTGCAGGATGGGTTTGGCTGGACTAACGGTGTGGTACGCC -GTTTAATTGGTTTGTACGGCGAACCATAATATTTTTACAGCCAGCCGCTAACTTCCTGCTGGCTGTAAAA -TTATCCTCTTCAGGAGGAGATATTTAACATCATTGCCGCCTGGGTGCGATTTTTCACTTCCAGACGGCGA -TACAGGGATTCCAGATGCGCTTTTACCGTTCCGGTACTGATATTCAGCGCTCTGCCGATCTCCTTATTTG -ATTCGCCCGCCGCTAACATGGTTAAAATCTCCCGCTGGCGGGCGCTTAACGATTTGAGATCTTTAATGTC -CTTTTCCGGCGTCGTCCGCCAGTCTCCAGGCAGAAACATCATCCCCATCGCCGCACTATTTACCGCCAAC -GCAAATGTCTCGACGGTTGAATCACGAGGCACAATGGCCAGCACATTAAAATGGATAACTTCCTGTAACC -ACCGTTTATTGCAATCCGTCGCCGTAATTAACACCTTAACCTCAGGAAATTGCACCACGGTTTTTTGCAG -CAACCAGTAGCAAAACTCACCATCCTGATCGCCATCGAGCATAACTAAGGCTTCAGGGTAACTTTCCAGC -TTTTGCCATAACTCGTCTGCCTGACTGGCCCCCTGAATACTCACTCCTGGAATACGCTGCTGTAAACTGA -TTTTCATTCCATGAATAAATATTGACTGCCTGTCAAACATGACTATTTGCATAACTGAATCTCCACCTGA -ATACGTTAAAAAGACTTAAGTAGTGGAAGGGTATTACCCGCGAGAAAAAATAAGAATTCGCCATTTGGCG -GTGGCCATTCTACAGAGATGACGTGTAGAAAATAGTTACCGATATAAATAGTTACAGCTAAACGCCTGAA -ATTACATGTCGAGGGCACTATTTAAAACAATTTTGAGGATTTCCTTATATTGGTGGTTAGTACGCATGCA -ATTAAAAATGAAATTCCGCGACCACAAGCCAAAATAACAAACGGCAAGGAGACAAAAATAAGCACAAATA -GCCAACACGTCCTCTGTTCACTTTAAAGGGAATCGCTGAAAAATACGCTCTGTTTAAGGGGATTCACCTT -TCTCAGAAAGCTATTCCGCCCTTTTCCTGCTGAGAAATCGCCACATTCGGCATGACAACATTGTGAAACC -CGGCATTAGATGTTAGAAAAAACAATAAACAATGCGATATGCGCGTTACTGTTTCGCTGTGAACAACAAT -CGGTCAAAGAAATGGATAAAATTCACGCAATGCAGTTGTTCATCAAAGTCGCGGAGCTGGAAAGTTTTTC -CCGCGCAGCGGATTTCTTTGCTTTGCCAAAGGGAAGTGTTTCGCGCCAGATACAGGCACTGGAACATCAA -CTTGGCACCCAGCTTCTCCAGCGCACCACGCGACGGGTCAAACTCACGCCAGAAGGCATGACCTATTATC -AACGAGCAAAAGATGTGTTGAGTAATCTCAGCGAACTGGACGGTCTGTTTCAACAGGATGCCACCAGTAT -CAGCGGTAAATTACGCATCGACATCCCGCCAGGAATCGCGAAAAGCCTGTTACTGCCGCGCCTGTCGGAA -TTTCTCTATCTGCATCCGGGAATTGAGCTGGAACTGAGTAGCCATGACCGTCCGGTAGATATTCTTCATG -ATGGTTTTGATTGCGTGATACGCACTGGCGCGTTACCGGAAGATGGCGTTATCGCCCGTCCCCTCGGCAA -ACTGACCATGGTCAACTGTGCCAGTCCGCACTATCTGACGCGCTTTGGTTATCCGCAAAGCCCCGATGAT -CTGACTTCACACGCAATAGTGCGTTATACACCGCACCTGGGTGTACATCCGTTAGGTTTTGAGGTTGCCA -GCGTTAATGGCGTCCAGTGGTTTAAGTCTGGCGGCATGTTGACGGTAAACAGTAGCGAAAACTATCTCAC -CGCCGGTCTTGCCGGTCTGGGGATTATTCAGATCCCGCGCATTGCCGTGCGCGAAGCCCTGCGTGCCGGG -CGGCTTATTGAAGTATTACCTGGCTACCGTGCCGAGCCGCTCTCCCTTTCGCTGGTTTATCCGCAGCGTC -GGGAGCTTTCCCGGCGTGTAAACCTGTTTATGCAGTGGCTGGCTGGCGTAATGAAAGAGTACCTGGACTG -ACCGACTATACTTTTTAAGAATGACCACGACAGAAGGACAAAAGAGCGGATGACGCAGGAAAACGAGATC -AAACGTCCCATCCAGGATCTGGAGCACGAGCCGATTAAGCCGTTGGATAATAGCGAGAAAGGCAGCAAAG -TTAGCCAGGCGCTGGAAACCGTCACCACCACTGCCGAAAAAGTCCAACGCCAACCGGTTATTGCGCACCT -GATTCGCGCGACAGAACGCTTTAACGATCGGCTGGGTAACCAGTTTGGTGCGGCTATCACCTATTTCTCA -TTTTTGTCGATGATACCAATTTTGATGGTGTCGTTTGCCGCAGGGGGCTTTGTGCTGGCCTCCCATCCGA -TGTTGCTACAGGATATCTTCGACAAAATTCTGCAAAACATCAGCGATCCGACGCTAGCCGCCACGTTGAA -AAACACCATCAACACCGCCGTTCAGCAGCGTACGACTGTAGGGCTTGTCGGCCTGGCGGTGGCACTTTAT -TCCGGCATCAACTGGATGGGTAACCTGCGTGAAGCGATTCGTGCCCAGTCGCGCGATGTCTGGGAACGCT -CGCCGCAAGATCAGGAGAAGTTCTGGGTAAAATATCTGCGAGATTTTATTTCGCTGATTGGTTTGTTGAT -TGCGCTGATTGTGACGCTTTCGATCACCTCGGTTGCCGGTTCGGCGCAGCAAATGATTATTAGCGCCCTG -CACCTGAACAGCATTGAGTGGCTGAAACCGACGTGGCGATTGATTGGCCTGGCGATTTCCATCTTCGCCA -ACTATCTGCTTTTCTTCTGGATCTTCTGGCGGTTGCCGCGCCACCGTCCGCGCAAAAAAGCCCTGATTCG -CGGAACATTTCTGGCTGCTATTGGTTTTGAAGTGATTAAAATCGTGATGACCTACACCCTGCCATCGTTG -ATGAAATCCCCCTCTGGCGCAGCATTTGGTTCCGTGCTGGGGCTGATGGCATTTTTCTACTTCTTCGCCC -GTTTGACGCTGTTTTGCGCGGCGTGGATTGCCACCGCCGAATATAAAGACGACCCGCGAATGCCGGGGAA -AACGCAGCCTTAAAATAGGCCGGATGCGGCGTAAACGCCTTATCCGGCATACGATTTTATTCGGCCTGGC -TCCCCGTAGGCCGGATAAGATGCGCCAGCATCGCATCCGGCTATAATGCGCACATAACCTCTTGAAACTC -GTCCCCAGAGCCTCTTCAGCCATCTATTTGGGAGCAAACAATTTCATTCCAACTCATAACCCCAGCATAT -AAATCCAGTTGGTAACTTTTATTTAACCTGAAACCAGTTTTATCCACTATTTATAAAATTATGTGAAGCA -TTTCATAGAAGAAAAATCACTGGCCTAAACATTATCCCCTTTTTGCCTGATTTTTGACCATTTCCGCGAT -TTGTTACACATTGAAATATCACTTTTGCTGTGCGTAATATGGCTATTCGTTAGCCAAAAAATAAGAAAAG -ATTATGCAAGCAACAGCCACAACACTCGACCACGAGCAAGAATACACGCCGATCAACTCGCGTAATAAAG -TCCTTGTCGCCTCTCTCATTGGCACAGCCATTGAGTTCTTCGACTTTTACATTTACGCCACTGCGGCCGT -TATTGTGTTTCCGCATATCTTCTTCCCGCAGGGCGATCCTACGGCAGCAACGCTACAGTCGCTCGCCACC -TTCGCCATCGCCTTCGTCGCGCGCCCCATTGGCTCTGCCGTTTTTGGTCATTTTGGCGATCGCGTTGGGC -GTAAAGCGACGCTGGTCGCCTCGTTGCTAACGATGGGGATTTCGACCGTGGTGATTGGTCTGCTGCCGGG -CTATGCCACGATTGGTATTTTCGCCCCGCTGCTGCTGGCGCTGGCTCGATTTGGTCAGGGTCTGGGCTTA -GGCGGTGAATGGGGCGGCGCGGCGCTGCTGGCGACTGAAAACGCCCCACCGCGCAAACGTGCACTGTATG -GCTCCTTTCCGCAGCTGGGCGCACCGATTGGCTTCTTCTTTGCCAATGGCACTTTCTTGCTGCTTTCCTG -GCTACTGACCGACGAGCAGTTTATGAGCTGGGGCTGGCGTGTGCCATTTATCTTCTCGGCGGTGCTGGTC -ATTATCGGCCTGTATGTTCGCGTGTCGCTGCATGAGTCGCCGGTGTTTGAGAAAGTCGCTAAAGCGAAAA -AACAGGTGAAGATCCCGCTGGGTACGCTGCTGACCAAACATGTTCGCGTAACCGTACTGGGTACGTTCAT -TATGCTGGCAACCTATACGCTGTTTTACATCATGACGGTCTACTCTATGACCTTTAGTACCGCCGCCGCG -CCAGTTGGGCTTGGCCTGCCGCGTAACGAAGTGTTGTGGATGTTGATGATGGCAGTTATTGGTTTTGGCG -TGATGGTGCCAGTCGCTGGATTACTGGCTGATGCCTTTGGTCGCCGTAAAAGCATGGTAATCATCACCAC -GCTGATCATCCTGTTCGCGCTGTTCGCCTTTAACCCACTGCTCGGTTCTGGCAACCCGATTCTGGTTTTT -GCCTTCCTGCTGCTGGGGTTAAGTCTGATGGGTCTGACCTTCGGGCCAATGGGTGCGCTGTTACCAGAGC -TGTTTCCGACAGAAGTGCGTTACACCGGAGCATCGTTCTCTTACAACGTAGCGTCGATTCTCGGGGCTTC -CGTTGCGCCATATATCGCAGCCTGGTTGCAGACTAACTACGGGCTAGGTGCGGTGGGGTTATATCTGGCG -GCGATGGCTGGCTTGACGTTAATCGCCCTGCTGCTGACCCATGAGACGCGACATCAGTCGTTGTAATAAG -AGTGAAAAGCCTGATGCGCTACGCTTATCAGGCCTGAATTTCCATACAATATATTGAATTCGCAAGGATT -TGTAGGCCGGATAAGGCGTTCACGCCGCATCCGGCATGAACAAAGCACACTTTGCCAACAATCTAAATCT -GTTTAATTGCCGGATGTCAGACATCCGGCAATTATCATCACTTCTTCATCTGCGACAAAATCGTCCGACA -CTGATTAGCCTCCCCTTCGGAAGGTGAGATCAGTGCCAGTAACGCCGCCGCCGGTGTTACCAGCGTTGCC -AGTGCCGCAGCAACAGCACCACGGGCAATCAGCGGTCCGGCTTTCACCCCAGCCTGCGGATTTTTAAACG -TCCCCCGCACATACAGCGGCGAACGCAGTGTGATAATCCGAATTCCTTTACTCTCCGGATCAATAGTCAA -ATCCAGCTGTTCCGAAGCAAAACTTGCCGTGCCGGTAACATTAATCAACGCGTTCTCAGTATCGAAAGCA -AAAATCTGCGGGCGCGCCACGCCGTTGGCAATATTCAGATTCGCCGCCGCGCAGTTCACCCGCACCTCAT -CATCACCAAATATCGCACCGACAATGTAGTTGCCGACATTCAGCCCAACAATCTCCATCAGGTTGCGGCT -CACCAGCCCGTCATTCATCAACAGTTTCAGGTTGCCGTTACTGTTGCCTAAAAGTGCCGCCACCGAGTTA -CCGCTACCGCGTAGTTCCGCGTCACCGTTCATTTCCCCCAGCGTCTTCTGCATCAGTTCCACATCGGGCA -TCAGTTCTTTCAGTTTCAGTCGACGAGCCTGAATATCTGCCCGCCCCTGCATCGGCTTTTTATCGCCTTC -CAGATGAATATTCGCCGCAATGCTGCCGCCCGCCATGCCAAATTTCAGCGGTTGCAGGCGCAGGTCAGCA -TTTTTGAGGATGATATGAGTAGAAAGATCGCTAATCGGCAGGCTACTGCCATGCTCAATGCGCCGCCCTT -TGAAGCGAACATCGGCATCCATAACGTCCCATTTATCGGTTTCGAAGCGGTCATAAGGCAGCACTTTGCC -CGCAGGCTGAACGCTTTTTTCGCCCTTCTTCTGTTCAGACCGTTTCGACTTTTCTGCCCCTTTCCCGGAA -TCAACGCCAATCAACGGTCCCAGGTCCGCCAGCCGCAATTGCCGCGACTCGACATCACCTTCCAGTTTTG -GTCGTGGCTTTCCGGTGGTGTAGACCAGAGAACCGTGGATATCGCTATCACCAATTCGCCCATTAAAACC -GCGATAATCAAAGACCGACGATTTTTCAGTGTCGATTTTCGCTACCAGCCGACCATCCGTTTCAAACGGC -GGGGTATCGGGCAGCAGAACGCCCGTCAGTTCATAGAGATCACCCAGTGAATCGCCAGAAAATTTAAGCC -GTAAATCGACACCGCCCATCTTCATTGGGTCATTCACGACGCCATCAAAAGCAACACGGGTGTTACCAGA -GCGGAAATCAGCCTGTACCGGAAACGGCGTCCCTTCGCCACGCAGCGCCAGCATACCGCCTATTTTTCCC -GTACCCGTGAGCGGTTCACCGTTATATCGTCCCTGCGCCTTCAGGCCAAAAACGTAATCGCCCACCTTTT -CTTTATCCGCTTTACCTTTCGATCCAGTAACTTCGCTGAACGGCAGCGGCTTGCCTAAGGGATCAACAAA -AATCTCCAGATCCGCTTTGCTTACTTTGTCATCAATGGCGATCCGCCCTTGATCGAAAAGAATATTATCC -AGCCGAAACGACCATGCCGACGGCTTTGCATTCGCGTCTTTGTTATCATCGTTGGCAAGATTAAACGTCC -AGTTATTGTTCTTTTCAGAGAGGCGAATCAGGCGCGCGTCGGGCTTTTCGAGCTTGATCCACGGCAGCCA -GACCGTTTTGGTCAGCAGCGCCAGCGGGGCCAGCGTTGCCTCTACGCGTGGCAAATGCACCATCGTGACT -TCGGGAATATCCGGTGGATTGCCAAGAATGATGTCTTCCGCGTGTACATGGGGCCACGGCACCCAGCTGC -GCCAGCCAGTTTCTTGTTTTTGCCGCTCCCACACCACGCCCAGATCGCCACGGATAGCGAACGGACGATT -CAACTCCGCAGAGACTTTCTGGTTGATAGTCGGTTTGAGTCGATTCCAGTCAAAAGTTGCAATCAAAATG -ATCGCCACGACAATCAACAACAAGAAAGCCCCTGAAATCGCAGCGGTTATTTTGCCTGCCTTGCTCATCG -TTCGCTTCCTCATATTCTTCCTGTGCCAGTCCTAAAGATAGTCCAGCCAGGCGGAAAATGAGGCAGCTTA -TAGCGCCAGAACCGCCGTATTCAGCGTTTCTATCGGTGCCGGGCGTGAAAGAAACCAGCCTTGTGCGGCG -AATGCGGGCGAGTTCTGAACATCACGCCACTCTTCCGGCGTTTCTACGCCCTCGACAATCACCCCGCGAC -AATAGCGATTCATTAGATGTAAAAGCTGAGAAAAGAGTGTGCGTCCTTCCGGCGACTGACGCAGCATCAC -AAACAGTTCTCGCGCGATTTTGATGTAGTCATAACGCACTTCACTTAGCGCAGAGAAATTTGCCATCCCG -GTACCAAAATCATCCAGCCACAGCGGGCCAAATTCACACATCGAGGCAAAGGTTGAATCTTTCGGCAGAC -GGATATGCTCCACCAGTTCGAAACGCAGCCAGGGAAGACGCTCAATCTGGCGCAGGATTTTTGGTTGCTG -ACGCAGGGCGATGAGCGTAGGGCCATCAATATTGACCGATGCCAGCAGGCCGTGCTCTATAAAGAAGTCG -GCTTTTTGCGCCAGCAAATCAATCTGCTCTTTCACAACCTCCATCCGATGGCTGACGGTGATTTCAGTAA -AATAGCGATCCGGCGGCAGGCGTTGCGAAGGGTTCAAGGGATGCGTGACCACCGTTAATAGCTCCACGGC -CATTAACCGCCCGCATGTTTGATAGATCGGCTGCCAGGTGTAAGCACGCTCACACTGCAACCAAAAACGC -CGTTCCTGCAAGCTCTCGATGCTTGCTTCAGGGTTGCTTATTCGCTGGATAACCTGCCTTATCATCAAAG -ATGTCCTGTGTTTAAAAGTGATGCTGCCCGGACTCGACAAAGATTATCGGCGCGTAAGGGCAGAACTTTA -CCGCCTGGCCGGGGTAAATTTCCTCACTCCACAACGGAATCTTTCAGGAATACGTTCTGGCTCAAAAAAA -TAATGGAACACTGTTTTAATATGGTTGACCAGCAAACCACCACAGCGCAAACTAACGCTAATTTTTTACA -GATCAGGTTCACGACTATGTCCAAAAAGATTGCCGTGATTGGCGAATGCATGATTGAGCTTTCCGAGAAA -GGCGCGGACGTTAAGCGCGGTTTCGGCGGCGATACCCTGAACACTTCCGTCTATATCGCCCGTCAGGTCG -ATCCTGCGGCATTAACCGTTCATTACGTAACGGCGCTGGGAACGGACAGTTTTAGCCAGCAGATGCTGGA -CGCCTGGCACGGCGAGAACGTTGATACTTCCCTGACCCAACGGATGGAAAACCGTCTGCCGGGCCTTTAC -TACATTGAAACCGACAGCACCGGCGAGCGTACGTTCTACTACTGGCGGAACGAAGCCGCCGCCAAATTCT -GGCTGGAGAGTGAGCAGTCTGCGGCGATTTGCGAAGAGCTGGCGAATTTCGATTATCTCTACCTGAGCGG -GATTAGCCTGGCGATCTTAAGCCCGACCAGCCGCGAAAAGCTGCTTTCCCTGCTGCGCGAATGCCGCGCC -AACGGCGGAAAAGTGATTTTCGACAATAACTATCGTCCGCGCCTGTGGGCCAGCAAAGAAGAGACACAGC -AGGTGTACCAACAAATGCTGGAATGCACGGATATCGCCTTCCTGACGCTGGACGACGAAGACGCGCTGTG -GGGTCAACAGCCGGTGGAAGACGTCATTGCGCGCACCCATAACGCGGGCGTGAAAGAAGTGGTGGTGAAA -CGCGGGGCGGATTCTTGCCTGGTGTCCATTGCTGGCGAAGGGTTAGTGGATGTTCCGGCGGTGAAACTGC -CGAAAGAAAAAGTGATCGATACCACCGCAGCTGGCGACTCTTTCAGTGCCGGTTATCTGGCGGTACGTCT -GACAGGCGGCAGCGCGGAAGACGCGGCGAAACGTGGGCACCTGACCGCAAGTACCGTTATTCAGTATCGC -GGCGCGATTATCCCGCGTGAGGCGATGCCAGCGTAAACGCAGCATATGCAAAAGGCTGGATAAAGTGTTA -CCCCTCTATCCAGCTCATCCATAAATACCTGATGGTTGTGCTAACTCATCACCATCAGGCATTACTGTGC -AGGTGGAATATCCGTCACTTCAGGATGTACGTCATCCGTGGCGACAGAGGTGGTCGCAGCGGCGGTAGAT -GGGGCCATGATTTGATCCCAGACCGCCTGCAACGCTTTCATGTTAAATTCCGGCTCGCCTTTCGGCTGCA -GCAGTATTAACGCCATATCATTCGACAACTGTTGACGCAGATCCTGATTTAACATCTCTACCGTCAGGCT -ATTAAGGAAATCCTGCCGCAGTTTCTGATATTGCTCCGGCGCGATATCGACAACCTGATTTTGCAACGAA -CGCATCCGCTGACCCATCAGAATATCGGTATCAGCTCGTGCATAGGCGGCAAACAGTTTCTGCAGCTCCA -GTTTCTTTTGCGCCACTAACGCATTGAACTCTTCTTCCGGCAGACCTTTATCGCGAACCTTCGCCAGTTC -ACGCGCCACCAGATTAAGGTTGCTGTTCAGCTTGTCGTTTGGTGATTCGATGTTGATGGCACACTGCGCA -CGCAGATACAGCACACGGCAGTCAAATCCAAGACCGATGTCTTTGCTGTTACTGGCACTTAACGCTTGCT -GAACATGCCAGAACAGCGCCTCGCGGGCCAGGTCCGCACGCCAGTAGCGCAGCAGTGCGGCTGATTCACG -AATCGGCTGCCACGGCGTATCCCACATGATAGATAACCGGTCCTGACGCACCGCGTCAGTCATAATACTC -ACCGCTTCCGCACGCAGCGGAGAAAGCGTCGGCACCGGAGCTGGCGTTTCACGTTTGCCTTTCAGTTCGC -CAAACGTTTTGTTTATTTGGTCGACAACCGAGCGCGCATCCACGTTTCCCACCACCAGTAGCGTCATTGC -ATCCGGGGTGTACCATTTCTGATAGAAATCTTTAATTTTTTCCGCTTCAACGGGTTGTTTCAGCGGATCG -GCAGGATCGTGACCTAACAAGGTTGACCCTTTCAGACGATAGCGCCACCAGCCCTCTTTAGTATCGGCAG -GCCAGGTTGCCACCATGTCCTGACTTTGCAGCGCGTGGTTGATGGTTTCTGGTGTGATGGTCAATTTGCC -AGTGGCATTTGCCAGATAAGAGAGCGCTTCTTTCAGCAAATCGTTACGGTTATTGGGCAAACTCAGATTA -AACAGCGTGGTGTCATAAGAGACAATTACCGGCGGCATCGGGCGTTTAGGGTCGATCCCCTGCTGCCACA -ATGAACGCGCCTGTGCTGCGTCAAGGCCACCGCTTTGCGTTAGCGCAATACGAGGGATGGCGTGACTGTA -ACCGCTCTGTTGTGTACTTTCGGCGAGCGAACCGGTATTAACCAGCAGGCGAATTTCAACACGATCGCTG -GGACGCTGGGGGGTGGTCAGCACTTGCCACTGTAAACCGTTGGAAAGCGTCCCCTGTTGCCATGCTGGAT -CAGGCTGGAGCGCATCTGCCTGCACATAGCCAGCAGTGGCCATCATCAGCAAACCGCCCGCTAAAAGTCG -AATTTTTGTGCCCTGCATGTGAACCCCTGATCAACTATCCTGGTAATAAAAAAACTGCCCGTTGTCGGTC -AGTCTAAATGACGTTAAAAACACTTCGTGTTAGACCGCAAGAACATGAAAATGTCACGGAAGAAGTGAAA -TAAACCTGAACTCACCCAGGTGGTAAGTTCAGGCACAGGGGTCAATTATGCGCAAACACCCGCACTCGGG -GAAGGGAGTGCGGGCATAAGTGATGAGATTAAGAGGATAATTCGTGCGTTTTGCCATCCGGCGCACGATT -ATTCAGCACATCGTCCAGTTTTTTGTGGTCCAGTTCTTTCACCCACTTAGCAACGACAATGGTCGCTACG -CCGTTACCGACCAGGTTAGTCAGCGCACGAGCTTCTGACATAAAGCGGTCGATACCGAGGATCAGCGCCA -GACCCGCTACCGGCAAATGGCCCACCGCAGAGAGCGTCGCCGCCAGCACGATAAAGCCACTACCCGTTAC -CCCTGCCGCCCCTTTAGAAGAAAGCAGCAACACGATTAACAGCGTGATTTGGTGGACGATATCCATCTGA -CTGTTAGTGGCCTGGGCGATAAACACCGCCGCTATTGTCAGGTATATCGATGTGCCATCAAGGTTAAACG -AGTAGCCTGTCGGGATGACCAGCCCCACCACCGATTTACGGCAGCCGAGTTTCTCCATCTTGTCGAGCAT -ACGCGGCAGCGCCGACTCGGAAGATGAAGTCCCCAGTACAATCAGCAGTTCTTCACGGATGTAGCGGATA -AATTTGAAGATACTGAAACCAGTCGCTTTAGCGATTGAACCCAATACCAGCACCACAAACAGGATACAGG -TAATGTAGAAACAGATAATCAGCTGCCCCAGTTGCACCAGTGTGCCGACGCCGTATTTACCGATGGTAAA -CGCCATTGCCCCGAACGCACCAATAGGTGCCAGACGCATGATCATATTGATGATGCCGAAGATGACCTGC -GAGAAACTTTCGATGACGTTAAAAATCAGTTGGCCTTTGCTGCCCAGACGGTGGAGCGCAAAACCAAACA -GTACGGCAAACAGCAGCACCTGCAGAATGTTACCGCTGGCAAATGCGCCAATGACGCTCGCCGGGATGAC -ATCCATAATGAAGGCGACAATGCCCTGGTCTTTCGCCTGATCGGCGTAAACCGCTACCGCTTTCGCATCA -AGCGTTGCCGGATCGACGTTCATTCCGGCACCAGGCTGCACGACGTTAACGATGATAAGACCAATAATCA -GCGCGATGGTACTGACAATTTCAAAGTAAAGCAGTGCGACTGCGCCGGTACGACCGACCGCCTTCATGCT -TTCCATGCCCGCAATGCCCGTTACGACGGTACAAAAGATGACAGGAGCGATGATCATCTTAATGAGCTTA -ACGAAGCCGTCGCCAAGCGGTTTCATTTGCTCGCCTATTTCAGGATAGAAATGGCCAAGGAGAATACCAA -TGGCTATCGCTGTCAGGACCTGAAAGTAAAGGCTTTTAAACAGAGAGGTTTTCATAGGGTGTCCTTTAGT -AAAACCACAGGTCTTGTAAGGTTATGGGGTACCTGCGGCCTTAAAATAACACCCAGACAACATCACAGAA -ATGTACCTGGATCATAATTGAAACAAAAAGGTTAAAAAGTTTGAGCTGGCTCGCACAAACCAGCACTTTT -TAAAGTTTTGTAATCAGTTTGGGGTAGCTACTTTTCTTCCAGGTAACTCTCTTCGAAGATTTCAATAGGG -AGTGGGCGAGCAAAAAGGAAGCCCTGGGCAATACCAACGCCCGCTTTTGCCAGCCAGTCGCGTTGTGCTT -CAGTCTCCACGCCTTCGGCAATCATTTGTAAGTTCAGGCTCTGCGCCAGCATGATAATTGCAGCAATCAT -GCTGCTATCTCCCGGCAAGCCTTCAACAAACATTTTGTCGATTTTCAGTACGTCGATTGGCAACGATTTC -ATATGCTGCAGCTGACGCAGCCCTGCGTAGCCCATGCCGAAATCATCCAGCGCCACCCGAACTCCGGCAT -TGCGCAGCGGACGGAGGATTGCCACCGCAGCATGAGGGTCGTCAATACGTCGGCTTTCTGTCACTTCCAG -AATCAGTGTTCCCGGCTGAATGCGATAGCGGGTTAACAGTTCCAGCATATCCGCCACCATATTCGGGTGC -ATCAGTTGCAGCGCAGAGAGGTTTACCGACAAGGGCAGCATAATGCCGCGCTCTTGCCAGGCTGCAAGCA -ATCGACAGGACTCTTCCAGCACCCAGTGACCGACGGTAACCATCAGCCCACAGCACTCAATGCGATCGAT -TAAGCCATCCGGCAGGTCCCAACTGCCATCCGGTTGCTGGATACGCAGTAACACTTCCGCACTGACCAGT -TTACCGCTGGTCATCTCGACCTGTGGCTGTAACCAAATAGCAAACTGATGATTTTCCAGTGCATTAAGGA -TATCGCTCTCTTCCGTCAACCGCTTCTGGGCGGCTTCCATCTGCTGCGGATCAAAGAACTGAATCTGATT -CTTGCCTTTATGGCGAGCGGTAAATGCCGCAGAAATAGCGCGACTGTAAAGCTGTTCGGCGGTGAGATCG -CCGTAGAACATCGCCACGCCAATGCTACAGTGCGGACGGAGTTGAATACGTTCAATCGGCAGGCGCTCGC -TCATGATAGTGAGCACTTGCTGACCTAAGGTGATTGCGTGCCACGGTTCCTGTACACCGTTGGCAATGAC -AGCAAAGTCATAACCGCTAATCTGCGCGAGGATCATACGTGGCGACAGTACCGATTTGAGTTTTTCCACC -AGCGTCAGCAGCAGAATTTCTCGTTGCGCCTCTTTCAGCACGCCCGCAGTATCACGCAGGGTTTCACAGG -TGATGATCATCAGCGCGGTGGTTTGTTTACGCGCGACAACCTGCTCCAGCATCTCCATCAGCAAGGCTTT -GTTCGGCAAATCCGACACCGGGAAGCGCATCGCATTTTCGTTCTGTTCTTCATAATGGCGCTGCAGCAAT -TGCTGGTTGAGGTTGTAACTGCGCACCAACATACCGATTTCATCGTCCTGATGCAGACGCGGTAATGCCA -GTTGGTGACCAACAAGCTCCTTGGCTGGGATGGCGTTAAGTTCGCGAGCAATATTGCGTAACGGATGCAA -AATCAGGCGGTTAATGCACCAGCTGATGGCGACGGTCAGGATAAGCGACAAAAGTAAGTAAATGGTCACT -AACGTTGAGAGGGTGCTCATCACGAACTTATACATACGGAAGGAATCCGCCTGTAGTACCAGATAGGCAA -TTGGCTGCGGGTTTGCCGGACGTTCGAGCGAGTAAACGCCCAGCGAGATTTGAACCGGTAGCTCAAACAG -GCGAGTAACCATTACCGGCACCGGGCGCTCTGGAATAAAACTTTTACGCAGCGCCTGGAACTGGTTAGGC -AGCACTACATCGGCACGGCTGACCACGCCTGCCGGTTTAATGCTGGCAAGAATAGCTTCCGCTTCGGGAA -TATCGCCTTTCAAAATAGCTGAAGATAAGGGTTCGCGGACAGAGCGAGCAATGCTTTCCAGTTGCGTAGC -CGTGTTATAGCGATTCTGCTGGACCAGATGGAACAGCAAAACGGTGCAAAAAATAAAAACGAACACCAGG -ACAACGGCTGCCACCATTGCCATCTGCTTGATTGTTAACGAGCGACTTACGCGCAAATTGTCTCCCCCCG -GAAATCCCAGATTGCCGCCCGAGTATACCCGATCGCAGCGGCATTAAGAGAGGCGCTATCTGAAAACTTA -CCAGTCGGCGTAAGGTATCAGCGGCTGCGGCGGTAAATCCATGTCACCCTGCCATCCGGCGGCGGAATAA -CGTACGTAGAGCAGGAAATGGCTGGGTGCGTAATCTTTCGCCTGCTGGATATCAATTGCCGTGCCAACAA -ACCAGTTGGAAGTAACACGTCGTTCAAGTAATGCCCGCGCCGTGTAGCCGAAGCCCTGACTGCTGCCGCC -ATCGTTGGATTGCCGCGCAGCTTCTTCCTGCCAGTCGGTCGGGATCAGATTCATCAGCGGATAACGCGGC -ATGGTTTTGGTGCGTGAATGCGACCACGAGCCAGACGCACCCAGCTCCCACGACCAGTTTTCCGTGCGCT -CCCGCCACATCACCGGTATGGCAAACGACAGGTATTCCTGCGGACTGTAGTAACCGCCCTGACCGAGTGA -GTAGCCACTCAGATCTTTGTCGTAATGCCAGATCATGTTGTTCAGGCCGATTGTGACGCGGCGATTGTTC -TGGTTAATGACCTTATAGTAATAGCCCGTCATCCAGCGCACGCGCCAGTTATCTTCGACATTTTTACCGG -TTAACTGGTCGCCACTAAGCGATGCCCAGACGCCGTTTGCTTCACCTTTATCGTAGCTCAGACTTAGCCC -CACACCGTCGGCACGTACGCCACCCCATTTTTTCCCGGTATTGCTCGGGGAGTCTTTTTGCCCACCAAAG -GCCAGCAAAGAACTGGAGATGGGCCGACGGTGGGCGTTAACGGTGTAACCCAGCGGCCCGATATCATCGC -TGTAACTGATGCCGCCGACCACATCCACCACGTTGAAGCCCATCGGCGTGGTACCGATATCCCAGCTCCA -GACGTCATTTCGCCAGCCGACCGCCACGCTGGCACCGGAATCCGACTGGCTGCGGTTGCCGCTACAGTCC -TGTAATGTACAGGTGCCCCAGTTGTCATCCCATTTGCCATCGGCATTAGTGGAGAAACTGCCGACGTTCA -TATTGACGAAATCACTGCGAAAGAACATCCGCCCGTCAGAATACGGCGCATCCACCTGCAACATGGTAGT -GTGCGCTTTCAGATCGGAGTAACCACCGGTGCCGCTCGAACCCCAGTAATCGTGCTCAAGGGTGACGTTA -AGATCCTGCTGGCGATAGAGGTCCGCCGCATCGCTGCGCACGCCACGTTTCAGCCAGTCATCTTTCTCGT -CGTTACGGGTCAGTCGGGTAAAGGTGTCGTTATCCTGCGGACGCGTCGTAGTCACACCGGATGCGACCAT -GGCGTCTTTGTAGGTTTCCAGCGCCTGCGTTGGATCGCCCGCCTGCGCTTCAAACTTCGCACCATCACGC -AGCACCATCGCGCTTTCCATCGACGGTGGCTGAGATTTTGCCTGCGGGATCAACTTATTAAACGTCCGCT -GCGCTGCTGCGGTATCGCCAAGCTGCGCCTGTGCCAGCGCCACGCGCCGCTGTGTGTTCAGCGAGGCGTT -ATCGGTAGCGGGCAGTTTCGCCAGCTGGCTACGTGCCGCCGCTTTGTCACCGGCAGCAATATCCACTTCC -GTCAGACCAAGAATGGCGTCGGCGTTAGCTGGCTCCCGCGTCAGGACATTCTGATATGCAGCGCGGGCGG -CGGTGTAATCACGTCGTTGTTGCGCCCAGTCAGCCAGCGTGAGGTCAATACGCGTGGAAGGTGGTTGCTG -GCGCAGCATCGCTTCCGCTTCTGCCTCTTTGCCGCTTTCTCGCAGGCGGTTAGCGGTTTCCAGCACCTGA -TCGCTTTGCAGTCGATTAACCAGCTCCTGAATATTGCTGTTCCACTGCGCACGCGGCAGGCTATTGATAT -GCGCCAGCGCCGCTCTGTCCTGGTCATGACCAGAGAGGTACAGCCCGTAAGCGTAAACCTGCTCCGGGTC -GTTCGACTTCTGCTGCGCCAGATTGCGCATTAACGTATCGGCCTGGCTGCGTTGTCCGGCCTGCCAGAGA -TCCTGCGAAAGTCGGTAAGTAATCCATACGCTGCCGGGGTCCAGCGCCAGTCGTTGCCGCTGAAGTGCTG -CCGCCTGCGCCCATTTGCCCTGGTTTTCCAGTGCCTCTGCCTGCTGTGCCAGACGGTCGTTTTGCAGGCT -GCGTTCGATATCATCAATGCTACGCCGCTGACTGGCAGAGAGCGAGGCGATAAACGCTTCAGCTTTTTCT -GGCGATTGCTGGCGGTAAATATTTGCCAGCCCGCGCACGGCGTTAGTGTTGCCGCTGTCCATACGCAAGG -TCTGCTGATAATAACGTTCGGCGGCGGGATAATCTTTTCGCGCCATCGCCACATCGCCCAGCCCCAGCAC -TGCATAACTGTCGGTGTTATCGACATTACGCGCCTGCTGGAACAGGCGTTCTGCCCGGTCAGGATTATTG -GCTTTCAGCGCAGCATCGCCCTGCTGGATCGCCAGCCAGTAGCGGTTTACTTTCAGCAGACTGTTCCATT -TGTCGTTGTTGCTGCTGTGCGGGTCCAGTGCGAGGGCTTTTTCCAGATTCGCCACTGCATTGGCGCGATC -GCCTTTCTGAGAATACGCCTGGCCCAGCGCCCCCAGAGCTTCACTGTCTTTCGGGTTCGCCCGCACCGCC -TGTTGTAGTTCGGGAATGGCTTTACCCGCCATACCAGAGTCCACCGCCGCTAAACCTTGCGCACGAGCGC -GGAAAGCAGGATCGGCCAGCTGTTTTTGCTGTTCTGCCAGTTGCGATTGCGCAGCCGCCACGCTATCGCC -ATCACTAAAGATCGAGAGATATTTTTTCAGCGCCGACACACTGGCATCACTGACGGGCATGTCTTTAATC -TGCCCGTACCAGATTTTAGAGGCCCCTTCGCGCCCGGCGTTCGATTTTGCCATCTGTTCCAGGACGGCAA -AACCTTCGTCACGGCGATCGCTACTAAACAGCAATAGCGCCAGATTGTTTTGCAGGCCCGTATTGCCCGG -TGCATCCGCATTGATGCGTTTTAACTGATTAATCGCTTCGCCACGGCGAGCCGGAATTTTCGCCACCGTA -CTCCAGTACTCGACAGCAATGTCACCTTCCGGCGGCGCACCGTTGAACAGTTTGTTGTAACTCGCCACAG -CTTCTTCTGCATGACCGGTCGTCGCCTGCAATCGTGCCTGTTGCAGTGCCTGACGACCATCCGGCGTGGA -AAGTAGCATCGTAGTCCGCGACGATTTATACGCATTTGAACTCGGCGCTAACTGCGACAGCCGATCGAGC -TGTTTTTGCGCGCCATCAATATCGCCCTGACGTAACAAAGAACGGAAACGGGCGGCAACGACGTCCGGGT -TATTCGGATCAATAAGTTCCAGCCGATATAACGACTGTTGCACCAGATCTTCACGATGGGTCGCTTCGCC -TAACCGAACTTGCTCCAGCAACTGTTGCTGAGCGGTTGGTGCTGCCTCGACCATCGGCATGACGGCCAGA -CCGAGGGAAAGCGTGAATATGTTTAGTGTGAATTTGCGCATTCCTGGCCCCAGTCAGGTAATAACTCACC -TTTTGTCGAGAAGCGGAAACGGTGTTGATCCCAGCCTTGTCCAAACAGGGTCAGCACATAGTTGTAATAG -GCATCGCTGCCGGGAAAGTTATCGGCCACGCGCTGGCGCTGAACGGCCTGCGCATCGCGGTTTTGTAAAA -AGGGCAGCATGGCGGCAGAAAAACCGACTGGTCCTTTACCCTGCGCTTTCCCCGTAGCCACATCCACTTT -TTCCGGCGGATAACCGTTTTTCTCAGTGAATGTCGCCATCGGTTTAAACCGGTTGAGCATCCGCGCTTTT -TGCGGATCGCTGTCAGGCATCATGCCTACCCACATGTAAACGCGGATAGCGTCGTAGCTGCTGATCAATG -TTTTTTCGGCTTTTAGCTGCCAGCCTTTGTCTTTCTCATAGCGCACCCAGTCTGGCGAAAAACCTTTCGG -GGCGGTTTCCAGCAATAAACGTTGATTGGTTTCGCGCAGCGTGGTCCACGGCGCGCCAAAGCGGGTGAAA -TACTGCGCCAGCGTCGGCGGCAGGTAGCTGGGGTTAAAACGCCAGCTGTTATCCTCAGCAAAACCCACTT -TGCCCGGTAACAACATGGAACCCAGCCCAGGCACCGTCACCACTTCCTCCCGCGCGATACGTTTTAGCAA -CGCGCTGCCGATGTCGGTATAACGCTGCTCTTTCCACAAACGCCCCGCCTCCAGCAACGACCAGGCCATC -CAGACATCACCATCGGAGGCCGAATTGCTGTCCAGCACTTCCCACTTACTGTTCTCTTTCTTGCCCCACA -GCCAGGCGGGCAAACGTTCTTTTAAAGAACCCTGAGCGAGATTGTTCTGCGTCCAGTCGAGAATATTATC -GAAAGCTGCACGGTCGTTAGCCGCCAGGGCAGAGAACATGCCGTAACTTTGCCCTTCGGAGGTGGTGATT -TTGCGCGCGTCGCTGGGGTCGATGACGCGCCCTTCCTGACTGATGTAATCCTTTTTAAACTGCTCCCAGG -CAGGCCAGGTACAGGCTGCCTGAACACTAAAGGCAGCCAGCAGCAGCATCGTCACGATTCCACTACGCAA -CACATTCATCTTCAATTACTCGTTATCCGGGTTAAGACGACGACGACTAATAATTCGCAGCAGACGCCAC -AGTACCCATGCCAGCAATATCACACTGATAGCCGCCAGCACCGCCAGCAGAATCGGATGGTTTGCCAGCG -CATACCACACGCGCTCGAACCACGGCAGATGACCTACGTAATAAACGTCGCCAACACGTAGGCTGTTGAT -ACCGGACTCGCGGATCACCGCGACCGAACCGAACATGGTGGCGCGTTTGCCGCTATCGTTCACCGCATCG -TTAAGCATTTCATAACCGCGTGGGCTATCTGCCAACAGCGCAATCACGCTGCGCTGGTCGTTATACGGCG -ACTGGAAGCCAATCACCGCCGCCATCGCACCGGAAGAGGTCAGCGTTGACCGGGTTTCTGCCGCGCGATC -GCTCTCGTCCGGCACAATGCCGGGGAACGGGGTCTGGCGCATCGGTGTTTTCACCCAGCTTTCGGTCGCC -TGCACCAATAGGTCGATCTGCTTATCGTCTTTCAGTTTGTCCGGGATACCACCGATGATCATGATGTCGG -CATCTTTGCCCTGAATGGTGCTGCCATCATCGGTCACCGTCAGATTAATCGCCGGGAAGCCCGTCTGTGC -GCCGATAAAACCAACAGTATTCAGCAACGTTTCCATCTGTGCTTCGTTAGGCGCTTTCGGCATCACGGTG -ATGGTTTGCGACAGATCCGCCATCCGGCTGAATGGGAAGCCCGCGTTAGCAAAGGCGCGTAGATCCGGCA -TCGGGATGAAGTGGTAATACTTCGAGAAGTCGATGGTGGAGTCGTCACCAATCACCACATGATTCTGCAC -CGGCTGGAAGGTAATACAGTTATCCACCGAACCGCCCGGCATCGGGTTCATATACTCAAAGTCGAAGCGC -AGCTGGTTGGTCGCGCCCAGTTTCAGCGCCGGAATAGAGACATCTGTTTTGCCATCCAGCAAACCTTGTA -ATACCGGAATCCGCAGCAGCAGGCGGTTCGCCTCCTGTTTGCTGCTCAGGTTGAAGGATTGCAGGAACTG -GTTATTCAGGCTGATATCCATCCGCGAACTGTCTTTCACCGGCGGCATGGTGTAGCGGTAATTAATATCC -ATATCAATGCCGGTACTGCGCATCAGGTAGAGATCCGGCGGCAGGTTTAGCGAAACGTTAATCGCTGCTG -GCTCAAGACCGCTGGATTGTAACTGTTCTTCATAGGTTTTCAGTTCGCCAAATGTGACCGGACGATCGGT -ACGTACCCAGTTCGGCGCATCGTACGGCTTACGCGGTAGCAGCGGTTTCACTTCATTCACTACCACGCTT -TCACCACGGAACAGAATGTTACCCTGAGCGATACCTTTCGCTGCCTGCAACAGGTCTTTGTCGTCACGAC -CAAACACCACCAGCAGTTTGACGTAAGGATTCTGCGGATGGTTAATCATCTCAATCACCGGGGCTTTTAC -CGCCGGATGATCGCGCAGGAAGTCCGGCCGTTTGTCGTTGGTTGCAAAGACAATGGCATTGCGATCCGGC -AGTTGGTTATAGAGTACCGGGAAGTTCTGCCCACGCCAGCCAGAACGCGAACCAAACCACGAGGCGACAA -TGGCAGAGGCTTGTTGCAGCCCAACATCCGGCGCACCCGCAAAGACCATCGGCAAGGTGTTGGTGCGGTT -ATCGCTCGGGTCAAAGAATGGCACCGGGAAGTGTGACAGGTCATTCTTCACATTCAGGGTCTGATAGGTC -AGATCCAGTCCACTGCTCCGCCCAACATCCAGCCAAAGCGTGGTGCTGGCCGGTTTTTCGCACACGTCCT -GATAATGGCCGACAAACTCCAGCCGTACACGGTTGAAGTCGCTAATAAACAGTGGGTTAATGGGCATTTG -CGCCAGCGTTTTTTTACCCAACTGTTCTTTGGTCACTGGCAGCACGCCCATCAGTTCATCATTGAGATAA -ACCTTTAACTGCGACTGGACAGGCAGTAACGATGGCGATGGGGTGTATTCGAGGTTGAGCATCGCCTTCG -TCACCACTTCATCGCTGCGCATACCAAACTCAATGCTGCCGTTCGGGTTAATGCCACGTAGCACCATGCT -GCCCGGCGGCGGTGCAATTTGCGCAAAGGTCAGCTTCACATCACGCGAAGGACCGTTCTGCGCCACGACT -GGCGCATCAGCGCCCTGCACGCCCGGCATCACTTGCCCCACCTGCGGATTTTGTTCCGTCTGGGCGGCTA -CAGCTGGCTCAGCATTGATCAGTGGTTGCGTTGCTGGCGTCGCCTGCGTCATGAAAGAGGGGAACGCACT -CATCCCCATAGCCACTGCACAAATCCAGAATAGTTTTCTTTTCATCGCGTTATCATCATTGTTGAGCCAA -AGCCTGATCCGATGGTTGTGCCGTTTCGCTCCGCTCCGGGCGGCGCGGAATAAACGATACAACCCAGGAA -ACCAGAGAAGTCAGCACACGGAATATGCCCTTCACCGAAGAAGGCGCAAACTCCGCCAGATGGCGGTAGC -CACGGAAGCCGAGCTTCAGAATATCCAGCAGACTTTCCAGCGGCTTATCTTCCGGGTAGCTGTCCTGCCA -GAGCGCCCATGTATCCGCACGGGCAAACGTACACTGCACAAAATCGATATGTTGCTGGGTGGTGAGCGGC -ATTAATTTCAGCCCAACTTCATTACCCATCACGCGCGCCACCTGGGTCGGGAAGACGTATTCCTGCTGAC -CGCGTTTAAGCAACAGATTCACTTTCTGCCCTTCCAGAATCTGCGCCTGACCGTTGATCTTGATCCCCAA -ACCACCGTCGGAGAAATCCTGAACGGTACACGAGAAGAGGTGACCATCTTCGCGGGCAATTGCCGCGGGC -ATCGTCATCTCCACGCGGTGCGATCGGCGTACCTGTTTGCTTTCTACCGATACCGCAACTGCGCCGCCAA -GAACAATCAGGTTGTAGAACACCCACACCATACTGACGACCACGGTGAGCATCTCGGTTGGCGGGCCATA -GAAGTAGCGCCAGATGCCTACCGCAACGCCCACCAGGTTGAGCAGGACAAGGAAGATGTAGGGCCGCGAG -ATCACCCAGTCGACGTACTCTTCTTCCACCAGTCCACCTTTGGCGGTGACGTTAAATTTGCCTTTGTGCG -GGTTAATCAGCGCCACCAGCGTCGGTGGTGCGATATACCACGCCAGCACCGTTTCGTAGATTTCACTCCA -GAAAGAGTGGCGATATTTGCCCTGGATCTTGGAGTTGGTCAGGCTGGCATGGATCATATGCGGCAGCACG -AATAGGGCGATCATCAACGCTGGCGCATAGATGATGTAGGCATGAAGCAGCAGGAACGCCAGCGGCGCAG -TCAGGAAGATCAGCCGTGGAATGCCCGACAAGAAGTGGAACATGGCGTTGACGTAACATAGCCGCTGAGC -AAACTTCAGCCCTTTACCGGTGAGCGGGTTATCGAGACGGAAGATTTGTACCATCCCGCGCGCCCAGCGA -ATACGCTGACCGATATGCGCCGACAGACTTTCGGTCGCCAGCCCCGCCGCCTGCGGAATACGCATATACG -CGGAGGTATAGCCACGACGGTGCAACCGCAGAGAAGTATGCGCATCTTCAGTCACGGTTTCGACAGCAAT -GCCGCCAATTTCATCCAGCGGCTTACGACGAATCACCGCACAGGAACCGCAGAAGAAAGTGGCGTCCCAC -ATATCGTTGCCATCCTGCACCAGACCATAGAACAGCGTGCCTTCGTTCGGCGTTTTACGGAAACGCCCCA -GGTTGCGTTCAAACGGGTCCGGTGAGAAGAAGTGGTGCGGCGTCTGCATCATCGCCAGCTGTTTTTCTTT -CAGGAACCAGCCCATGGTCATTTGCAAGAACGATCGCGTTGGTACGTGGTCGCAGTCGAAAATCGACACG -AACTCGCCTTTGGCATATTTCAGCGCATTGTTGATGTTGCCTGCTTTCGCATGTTCATGAGTGGTGCGGG -CGATATATTTCACCCCCACGTTTTGCGCAAACTGGCGAAACTCTTCCCTGCCGCCGTCATCAAGGATCCA -GATATTCAGCTTATCTTTCGGCCAGTCGATACCCAGCGAGGCGTAAATGGTATTTTTCACCACGTTGAGA -TCTTCGTTGTAAGTCGGGACAAAGATATCCACCGACGGCCACAGCGACATATCTTTCGGCAATGGCACCG -GCTGACGATTCAGCGGCCATACTACCTGGAAGTAGCCGAGCACCAGCACAATCCACGCGTACGTTTCAGC -GAAGAGCAGAATAAGCCCGCACACCAGGCTGACCGGATCGTCCCAGTTCAGCGTAGAGGTGTAACGCCAC -CAGATATAACGGCAAGAAACGGTCAGCGACAGCACAATCAACATTAGCGCCGAGAAGCGCCCCGGCATCC -GCCGTACGATCAGCGCTACCCCCCACAGCAGCATCAGGAAGATAAACTGCGCCAGCGGGTTAAACGGCTG -AGTAACGCAGATTAACGCCAGAATCAGCGAGAAGGTGACGATGATACCGAGGATCAACCGCCGCGCCCCG -GCACTCAAATGACCGAGCTCTTTTTTCTCATCCAGATGCTGTGTTTTATGGCTAACGCGCTCAGGCAGCT -CGTTCATCCATTGATGGTAACGTCCACGAATATTTTGCAGACCTGAAAATGCCCGCCTGCGCGGTTTCGG -CGTTTCTTTGCGCGATGCACCGATCAATAACCAGCATGTTTGAATGAGATAACGGACCGGGTCCAGCGGA -CGCGGACGCGAGGCGTTGATATGCGGATACAGGTTTTTATGTTCTGCGCGAATACGCTGCCAGCGCGGGT -GCTCCAGCGGAATAAAAATCCAGGCCAGGATCATCCAGAAACAGCCGAGCGTCGCGCTGAAAGCCGACGC -ACCGTGACGACGATAATCGCGATAACGCCCGATAAGCCGCGCGTTGACCGGCGGGATAAGCAACCACCGG -GTCAGGATACTCATGATGCACTCCCGACTGGCGTTTTCAGCCCGGAGTAGTTCAACAGGCACCAGTTCGC -CAGCGTCAGTATCTCTTCAGCCGCCAGCGCATCACTGCGATATTCACCTACTGGTTGCTTAGCCGCCAGG -CATTCAGCCATCGCTTCATCACGATGAATGAGCATCGGCAGTAATCGGCGCTGGCTTTGCAACCAAAGCT -GGTAAATATCGTCCTGAACCTGACTGCCAATACGGAAGTCATTAATCAAAATATGTGCGCCATCCGGCAG -CGCTTGCTGATGCAGTCGGATATGGCAGTTGGCATCCACATTGACGATTGCCAGCGAGTGATCGCACAAA -CTCAGCAGCTGGTGGGTTATCTGCGAGGCATCACGCGGTAAGTCGATTAAAATCCACTGGTAACGCCCGC -TGGCTTTTAGTTGCTGTAAGCCGGAGCAAATATCGCTCAGCCGGGTTTGCCAGTGCTGTGGATTTTCTTG -TTCTTCAATGGATAACTGACCAAAAGGCAGCAAATCGAGCTGCGAGGTGTAGCGCAACCCAGCGTCACGC -CAGTCCTGGCCATCCAGCATCGCTCTGGCCCAGCCCTGACGGTGGGTAAAATCAACATTAAATGACAGGC -GCAACAAGTTGTCCGGGCAGGCATCGACCACCAGGACATTTTCTCCCAACATTTGTAATGACCAGGCTAA -TGCGGCGGTGATGGTTGTTGTCCCCACGCCTCCCCGCACCCCCTGCTATCCCAGTACGGCCATTCACCAA -TCCCCTACTTTTGTTGCGCAAACTCTGCCAGCAACGGCCAGCGTTTTAATGCCGCGGCCAACTGTTCGCG -TTGGGAAATATCGGCATAATCAATATCAGGCAGTGAAAATGCCTGCTTTAACGCCACAATATCATTCTGG -AAGATATAGCCTATCGCGGGATCAGGCAGAGTATCTGGTTCATTGTTATTCATTTTGCTTGATCCCTATG -AAATAACCGTACCGTTCATGAGACAATTCTAACCGTGAGCATTTCGCCGGTTTATTGTTTACGGCGAGAC -GGGAATTTGCTCACTTTTTGACTTTCCGTTACGCAACAGAAAAAGTTAAAAACGAAAAGACTAAAATCAC -ACGTCTTGTGACCTTCTAAATTGATTCACATGCTAAATCTGATAAGTTTTAATTTCAATGGTAGGTTTAT -TTCTTAGCTTTCGCTAGTAAACTGATAATCAGACAAAATGGTGACATGAGGGACATTGTGGACCCTGTAT -TCTCTATCGGTATCTCATCATTATGGGATGAGCTGCGACATATGCCAGCAGGCGGCGTCTGGTGGTTTAA -CGTCGATCGCCATGAAGATGCTATCAGTCTGGCGAATCAAACAATTGCATCCCAGGCTGAAACCGCACAC -GTCGCGGTCATTAGCATGGACAGCGATCCGGCGAAAATCTTTCAATTAGATGATTCTCAAGGGCCGGAAA -AAATAAAATTATTTTCAATGCTAAATCATGAAAAAGGTCTATACTATTTGACCCGTGATTTGCAGTGTTC -TATTGATCCCCATAATTACCTTTTTATTCTTGTTTGCGCAAATAACGCATGGCAAAACATTCCTGCCGAG -CGGCTTCGCTCATGGTTGGATAAAATGAATAAATGGAGCAGGTTAAACCATTGTTCGCTTTTGGTAATTA -ATCCCGAAAATAATAACGATAAACAATTTTCATTGTTGCTTGAGGAATACCGTTCACTTTTTGGTCTTGC -CAGTTTGCGTTTTCAGGGTGACCAACATTTGCTGGATATTGCCTTCTGGTGCAACGAAAAAGGGGTCAGC -GCCCGTCAGCAGCTTAGCGTTCAGCAACAAAATGGTATCTGGACATTAGTTCAAAGCGAAGAGGCGGAGA -TCCAACCACGCAGCGACGAAAAACGCATTCTGAGTAATGTTGCTGTACTGGAAGGTGCGCCGCCGCTATC -GGAACACTGGCAACTGTTCAACAATAACGAAGTCCTGTTCAATGAAGCCCGTACCGCTCAGGCGGCGACG -GTGGTCTTTTCTTTACAGCAAAATGCGCAAATCGAGCCACTGGCCCGCAGCATTCATACCCTGCGTCGCC -AGCGCGGTAGTGCGATGAAAATCCTCGTGCGGGAAAATACCGCTAGCCTGCGCGCCACCGATGAACGTTT -GTTATTGGCCTGCGGTGCAAATATGGTTATTCCGTGGAATGCGCCACTCTCCCGTTGTCTGACGATGATC -GAAAGCGTGCAAGGGCAGAAGTTTAGTCGCTATGTGCCGGAAGATATCACTACCTTGCTGTCAATGACCC -AGCCGCTCAAACTGCGTGGTTTCCAGAAGTGGGATGTGTTCTGTAATGCCGTCAACAACATGATGAATAA -CCCTCTATTACCTGCCCACGGTAAAGGCGTTCTGGTTGCCCTACGTCCGGTACCGGGTATCCGCGTTGAA -CAAGCCCTGACGCTGTGTCGCCCTAACCGTACCGGCGATATCATGACCATTGGCGGTAATCGGCTGGTGC -TGTTTCTCTCATTCTGTCGGATTAACGATCTGGATACCGCGTTGAATCATATTTTCCCATTGCCTACTGG -CGACATTTTCTCAAACCGTATGGTCTGGTTTGAAGATGATCAAATCAGTGCCGAGCTGGTGCAGATGCGC -TTGCTTGCCCCAGAACAATGGGGCATGCCGCTGCCTTTAACGCAAAGTTCTAAACCGGTCATCAATGCCG -AGCACGATGGTCGCCACTGGCGACGAATACCAGAACCCATGCGACTGTTAGATGATGCTGTGGAGCGCTC -ATCATGATGACCATCAGCGATATCATTGAAATTATTGTCGTTTGCGCACTGATATTTTTCCCGCTGGGCT -ATCTGGCGCGGCACTCTTTGCGACGCATTCGCGACACCTTACGTTTGTTCTTTGCTAAACCTCGTTATGT -TAAACCGGCCGGGACGTTACGCCGCACGGAAAAAGCCAGGGCAACCAAAAAATGACTCAATTTACGCAAA -ATACCGCCATGCCTTCTTCCCTCTGGCAATACTGGCGCGGCCTTTCCGGCTGGAACTTCTATTTTCTGGT -TAAGTTCGGCCTGTTGTGGGCGGGATATCTTAACTTCCATCCGCTCCTCAATTTGGTGTTTGCCGCGTTT -CTGCTGATGCCCCTTCCGCGCTACAGCCTGCATCGCTTGCGCCACTGGATTGCCCTGCCGATCGGCTTTG -CTTTGTTCTGGCATGACACCTGGTTGCCTGGCCCGGAAAGCATAATGAGCCAGGGTTCGCAGGTGGCGGG -GTTCAGTACCGATTATTTAATCGACCTTGTCACACGCTTTATTAACTGGCAGATGATTGGGGCCATTTTT -GTTTTATTAGTGGCCTGGTTATTCCTGTCACAATGGATTCGCATTACCGTTTTTGTGGTTGCCATACTGC -TATGGCTGAACGTACTTACCCTGGCGGGACCAAGTTTCTCCTTGTGGCCAGCCGGACAACCGACGACCAC -TGTAACAACGACGGGTGGTAACGCAGCGGCAACCGTTGCGGCGACGGGTGGCGCACCGGTAGTGGGTGAT -ATGCCCGCACAAACTGCACCGCCAACAACGGCGAACCTTAACGCCTGGCTGAATAATTTCTATAACGCGG -AGGCGAAACGTAAATCGACCTTCCCGTCTTCGCTGCCCGCTGATGCTCAGCCATTTGAACTACTGGTGAT -TAACATCTGTTCGCTTTCCTGGTCGGATATAGAAGCCGCCGGGTTGATGTCGCATCCACTGTGGTCGCAT -TTCGATATTGAGTTCAAGAACTTTAACTCCGCCACCTCCTACAGTGGCCCGGCGGCGATCCGTTTACTGC -GCGCCAGCTGCGGGCAGACTTCGCACACTAATCTGTATCAACCGGCAAATAACGACTGCTATCTGTTTGA -TAACCTTTCGAAACTGGGCTTTACCCAGCACCTGATGATGGGACATAACGGCCAGTTCGGCGGTTTTTTG -AAAGAAGTTCGCGAAAATGGCGGCATGCAGAGCGAATTGATGGATCAAACAAATCTGCCGGTTATTTTGC -TGGGCTTTGATGGTTCGCCGGTTTATGACGATACCGCTGTGCTTAACCGCTGGCTGGACGTTACCGAAAA -AGATAAAAACAGCCGTAGTGCCACGTTCTACAACACGCTTCCACTGCATGACGGCAACCATTATCCGGGG -GTCAGCAAAACAGCGGATTACAAAGCGCGGGCGCAGAAATTCTTTGATGAACTGGACGCCTTCTTTACTG -AACTTGAGAAATCGGGTCGTAAAGTGATGGTGGTCGTGGTGCCGGAACACGGCGGCGCGCTGAAGGGCGA -CAGAATGCAGGTATCTGGCCTACGTGATATCCCTAGCCCGTCTATCACCGACGTCCCCGTTGGGGTGAAA -TTCTTCGGCATGAAGGCACCGCATCAGGGGGCACCGATTGTCATCGAACAACCGAGCAGCTTCCTGGCTA -TCTCCGATCTGGTGGTTCGCGTTCTCGATGGCAAGATTTTCACCGAAGACAATGTTGACTGGAAAAAACT -CACCAGTGGGTTGCCACAAACAGCACCGGTCTCCGAGAACTCAAATGCAGTAGTTATTCAATACCAGGAT -AAACCGTACGTTCGCCTGAACGGCGGCGACTGGGTGCCTTACCCGCAGTAAGAACGAAAAAGGCCGCAGA -GTTTCCCCCCTGCGGCCTGGTCCGGGCGCAAATTGCCATTACGGCAGCCTGACGCCCGCATGACACGTTA -CTTCCGCTTGTTCAGCCAGTTCACGATCATACTGGCAAGAATGCCAGCAATGACCGGAGCCGCTAAATCA -TGCCAGAAGGCCATGCCCAGCTCTGCGAACGTCATATAGCCGCCTGTGTTGTAATGACAACGTTTCGCGG -CTATTCTTGAGTGGTCTAGAGTCAAGATTAGCCCCCGTGGTGTTGTCAGGTGCATACCTGCAACGTGCGG -GGGTTTTCTCTCTCCAGCAACCAATGCCACCAGGGATAAAGCCCCCGCAACATTGCGCCTCACCGGAACC -TTTCCGGCTTGCCGCTGATTCTACGATTGCTTTTTACTGTCAGCACCCGGCAATCTTCCTCATTGCGCGA -TGCCTTCCAGCTTAATTTCTTTATTTGCAATAGTTGCAGTTCATATCCGGGCTGACTCCAGACTGGTAGT -GAAATGCGCAATTTTGTAGAATTGCGCCTCCTCGCGACCTCCCCAGTGAATCTGTTGCCTCATTTTTTAC -ATACTGCGTATTCGACTTCTCCACCTGTTGCGCAAGAGAAACTGGGTTTATTCATTTTTGCGAGGCCGAC -TTCTTTCTGGACAGGACTTTATGCAGCACAACACACTATCGAAACACAATCAGAAATTGCCGTTTACACG -CTACGACTTCGGCTGGGTTTTATTATGCATAGGCATGGCGATTGGTGCCGGAACCGTGCTGATGCCAGTA -CAAATTGGCTTGAAGGGAATTTGGGTATTTATTACCGCAGCGATCATTGCTTATCCTGCCACCTGGGTAG -TGCAGGACATTTATTTAAAAACCCTTTCTGAAAGCGATTCCTGTAATGACTACACCGATATTATCAGTCA -TTACCTGGGGAAGAACTGGGGAATTTTCCTCGGGGTTATCTACTTTTTGATGATTATCCACGGGATTTTT -ATCTACTCTCTCTCCGTGGTTTTCGACAGCGCCTCGTACCTGAAAACCTTCGGTTTAACCGATGCCGATC -TTTCACAATCTCTACTTTATAAAGTCGCTATTTTCGCCGTACTGGTGGCGATTGCGTCTGGTGGTGAACG -ATTACTGTTTAAGATTTCCGGGCCAATGGTGGTGGTCAAAGTAGGGATTATTGTCGTGTTCGGTTTTGCG -ATGATCCCGCACTGGAATTTCGCCAATATAACCGCCTTCCCGCAAGCCTCCGTCTTTTTCCGCGATGTCT -TGCTTACCATTCCATTTTGCTTCTTTTCTGCAGTATTTATTCAGGTACTTAACCCAATGAATATTGCCTA -TCGTAAACGGGAAGCGGATAAAGTACTGGCAACCCGGCTCGCGCTGCGTACCCACCGAATTAGTTATATC -ACGCTCATCGCGGTGATCCTGTTTTTTGCCTTTTCGTTTACCTTCTCAATTAGCCACGAAGAAGCCGTTT -CTGCCTTTGAACAAAATATCTCAGCACTGGCGCTGGCCGCGCAGGTGATCCCTGGGCATATCATTCATAT -CACCTCTACGGTGCTTAATATCTTTGCCGTACTGACCGCATTCTTTGGCATTTATCTCGGTTTCCACGAG -GCCATTAAAGGCATTATTCTCAATCTGTTAAGCCGAATTATTGATACCAAGAAAATTAACTCACGCGTGC -TGACTCTGGCGATCTGCGCTTTTATCGTCATTACGTTGACGATTTGGGTTTCGTTTCGTGTATCGGTGCT -GGTGTTCTTTCAGTTGGGAAGCCCGTTATATGGTATTGTGTCGTGCCTCATTCCGTTTTTCCTGATCTAT -AAAGTCGCACAACTGGAAAAACTTCGCGGATTTAAAGCCTGGCTGATTCTGCTGTACGGCATTTTGCTAT -GCTTGTCGCCACTGTTGAAGCTGATTGAGTAAACCGGAGCGCATGGCCCCGGTTTTGTGAGTTAACGCTG -CGGATTTTCATCCTGATCAACAGCAAAACAAGCTACCAGTTGACCGCCGTAGTCTTTTAGCTGCGGCTGC -AACTGGGTGCAGGGGCCGAAGCGCCGACGACAGCGGGCGTTGAAGGCGCAACCCGGCGGTGGATTCAGTG -GGCTTGGTAGTTCACCGCTGAGCTTGATGCGCTCGCGGCGATCGTCCGGGTTCAGGCGCGGCGTCGCGGA -AAGTAGCGCCTGAGTGTACGGATGGCGCGGGTTATTGAAGATTTGGTCTTTCGTTCCCTTCTCCACGCAG -CGGCCCAGGTACATCACCATCACTTCATCAGCAATGTGCTCCACCACCGACAGGTCGTGGGAGATAAAGA -CATAAGACAGCCCCAACTCCTGCTGCAAATCCATCATCAGATTCAGCACCTGCGCGCGCACTGAAACATC -CAGCGCGGAAACCGGTTCATCGGCAATCACCACATCCGGGTCGAGCATCAGACCACGGGCGATGGCGATA -CGCTGACGCTGACCGCCGGAGAACATATGCGGATAGCGGTCATAGTGCTCGGTTTTCAGGCCGACTTTCG -CCATCATCGACAGGGCTTTTTCCCGACGCTGTTCTTTGCTTAAGCTGGTGTTGATCAGCAGCGGCTCTTC -AAGAATTTGCCCGACTTTTTTACGCGGATTCAGCGAACCGTAAGGGTTCTGGAAGACGATCTGGATTTTC -TGCCGACGCAGCTTCTGCGCCTGCGGATCGTGCTTAAGCAGATCCTGCCCCTGGTAATACAGCTCGCCAC -CGGTGGGCATTTCAATCATCGTCAGCAACCGACCGAGGGTCGATTTACCGCAGCCAGATTCGCCCACTAC -TGCCAGCGTTTTGCCACGTTCAAGGTTAAACGAAACGCCATCCAGCGCTTTAACCAGACGTTCCGGCGCG -AACATGCCTTTCTTCACCGGATAATGTTTTTTCAGGTCGATAGCCTGCAACAGCGGTTGTTGCAGGGTGG -CCTCTTGCGTACTCATAGTGTCGGCCTCCCGGCATCATCAAGTGGGTAATGGCATTTGGACTGACGCCCG -TCAGCGAGCATATTCAGCGCCGGTTCTTCAGCGCGACATCTGTCAGTGGCATAGGGGCAGCGCGGGTTAA -GCAGGCAGCCGTTCGGGCGGTCGTACTTGCCGGGAACGACACCTGGCAACGACGCCAGACGTTCTTTGTC -CTGAGCAAATTCTGGCAGCGCACGCAGCAATGCCTGAGTATACGGGTGACGCGGCGCATGGAAGATGGCG -TGCGCATCACCGGTTTCCACCACCTGGCCTGCATACATCACGATGATTTTATGTGCCGCTTCCGCCACCA -GCGCCAGGTCATGGGTAATTAACACCAGCGCCATGTTCTCTTTCTGCTGTAGCTCCAGCAGTAGTTCGAT -GATTTGCGCCTGAATGGTCACGTCCAGCGCGGTGGTCGGTTCATCGGCAATCAGCAGTTTTGGCCGACAG -GCAATCGCCATGGCGATCATCACGCGCTGGCTCATGCCGCCGGAAAGCTGATGCGGGTAAACATCCAGAC -GCGATGCCGGATCGGGAATACCGACCTGATTCAGCAGGTCAATCGCTCGCTGACGGCGGGTACTTTTGTT -GCCGCCCTGATGCACCTTAATCGCTTCCATAATCTGGAAACCCACGGTGTAGCACGGGTTAAGGCTGGTC -ATCGGGTCCTGGAAGATCATCGCCACTTCGGCACCCACCAGGTTGCGGCGCTCTTTTTCTGAGATACGCT -GCAAATCCTGGCCGTTAAACTCCAGTTTTTCTGCCATTACGCGGCCCGGATAATCAATCAGCCCCATAAT -CGCCAGTGAACTGACCGACTTACCGGAGCCGGACTCACCCACAATCCCGACCACTTCGCCCTGTTTTACG -CTGTAGCTGATGCGGTCTACGGCGCGGAACGGCGCGCTTTCGTCGCCGAAATGCACCGATAATTTATCTA -CATTTAATAACGCCATCTCGAACCTCTTACTGCTTCAGTTTGGGATCGAGCGCGTCACGCAGACCGTCAC -CCATCAGGTTAAATGCCAGCACCGTCAGCAGGATCGCCAGACCCGGGAAGGTCACGACCCACCAGGCGCT -TTGCGCGAACTGCAACACGTCGGAGAGCATGGTGCCCCACTCAGGCGTTGGCGGCTGTGCCCCCATGCCG -AGGAAACCAAGAGCAGCCATATCGAGAATGGCGTTAGAGAAACCGAGCGACGCCTGAACAATCAGCGGCG -CAAGGCAGTTCGGGAAGATGTTAATAAACATCTGACGCATCGCCCCGGCACCCGCCACGCGAGACGCGGT -GACGTAATCGCGGTTAACTTCCACCAGCACGGCGGCGCGGGTTAAGCGCACATAGTGCGGCAAGGCAACG -AAGGTCAGTGCCAGCGCGGCGTTACCAATCGACGGGCCGAAAATTGCCACCAGCACCAGCGCCAGCAGCA -GACTTGGCAGCGCCAGCATGATATCGACCACGCGCATAATGATGTTATCGACCAGGCCGCCAAAGTAACC -GGCGATCAGGCCGAGAATAACGCCCATAATCAGCGATAACACAACTACCAGACAGCCAACCAGCAGCGAC -AGGCGCGCACCGTACATCAGGCGCGACAGCACATCACGGCCTACGTCATCGGTGCCCAGCAAGTGCGCCA -TGCTGCCGCCTTCCTGCCAGGCTGGCGGGGCGAGCAGTGCATCGCGGAACTGTTCCGCCGGGTTATAGGG -TGCAATCCAGTTGGCAAAGATCGCGATGAACAGCACGATGACGACGTAAACCAGCCCGACGACCGCGCCT -TTGTTGCGTTTAAAATAGTGCCAGAACTCCTGTAACGGGGTCATCGGCACCGGTGCGCTAATCACTTTAT -TTTCAGTAACCTGTGACATGATGTCCCCTTACTTCTTATGACGAATACGCGGGTTCACCACGCCGTACAG -CAGATCGACCAGCAAGTTGACGAGGATAATCATCGTCGCCACCAGCAATACGCCGCCCTGCACTACCGGA -TAGTCGCGGCGTTGCAGTGCGTCAATCAACCAGCGTCCCAGACCGGGCCACGAGAAGATGGTTTCGGTCA -GAATCGCCCCCGCCAGCAATGTTCCCACCTGCAGGCCGATAACGGTCACCACCGGCAGCATCGCGTTACG -CAGCGCATGGACGATAATCACCCGCATGCGGGTTAGCCCTTTGGCGCGCGCGGTGCGGATGTAATCCTCG -CCCAGCACTTCCAGCATCGAGGAGCGTGTCATACGCACAATGACCGCCAGCGGAATAGTACCCAGCACAA -TGGCAGGCAAGATCATATGGGCGACGGCATCGATAAAGTTGCCGTCTTCACCCCAGATGGCGGTGTCGAT -TAGCATAAAACCGGTTAACGGATTGGAGTCATCGAGGAACACCATATCGCTCACGCGACCGGAGACGGGC -GTCAGGTTCCAGTGCACCGAAACCAGCATGATCAGCATCATGCCCCACCAGAAGATAGGCATTGAATAAC -CTGTCAGCGCCAGGCCAACCGCTGTGTGATCGAAAATGGAACCGCGTTTAACCGCAGCCAGCACGCCGAC -CGGAATACCGACTGCCGTAGCAAAAATCATCGCGCAGACGCCAAGTTCCAGCGTGGCCTGGAAGCGCGGC -ACGAACTCTTCCCAAACCGGGATGCGGCTTTTCATTGAAATGCCTAGATCGCCATGCATAACGCCCCAAA -TGTAATGGAGATACTGCTGCCACATCGGTTTATCTAAGCCGAGTTCAGCCAGCAGCTGCGCGTGACGCTC -TGGGGAGATCCCACGTTCGCCCGCCATGATCATCACCGGATCGCCCGGGATCATGTGGACAAAGGCAAAT -GTGAGAAGGGTAATACCGATAAACGTGGGGATGACGAGTCCCAAACGTCGGAGAATAAACTGCAACATAA -CCCGGATTCTCTATAGTGACCCGCAGCCTGGAACTGCGTGTCTGTATTGCTCACAAATCAATTCCCGCCC -TTATCGGACAGGGAATGAAGTATTGCTGCCGGATGGCGCTGCACGCAGAGGCACAGCGCCACCGGGTATA -CAGATTGTTGACAAAGTGCGCTTTGTTTATGCCGGATGCGGCGTTAACGCCTTATCCGGCCTACAAAATC -GTGCAAATTCAATACATTGCAGAATTTTCGTAGGCCTGATAAGCGGAGCGCATCAGGCATTTTTGCCTTT -GCCATCAGTCTTGTATGGCTTTTAATTATTCGATAGAGACGTTTTCGAAGTGATGTTTGCCTAATGGATC -AACCACATAGCCTTTAACTTCTTTACGTACCGGTTCAAACACGGTGGAGTGAGCGATGATCAGTGCCGGA -GCCTGATCGTGCATCACCACCTGCGCTTGTTTGTACAGTTCAACGCGTTTATTGTGGTCGTCGGTAGCAC -GCGCCGGTTGAATCAGATCTTCAAACGGTTTGTAGCACCATTTTGAGTAGTTGGAGCCTTGTTCAGAGGC -GGCGCAGCTGAACAGGGTGGCGAAGAAGTTATCCGGATCCCCGTTATCGCCAGTCCAGCCCATCATTACC -GTCTGGTGCTCGCCATCTTTCGCACGCTTGAGGTACTCACCCCATTCGTAGGTGACAATTTTGGCCTGCA -CGCCGACTTTCGCCCAGTCTGCCTGAATCATCTCCGCCATGCGGCGAGCGTTCGGGTTATACGGACGTTG -TACCGGCATCGCCCACAGGTCGATGGAGAAACCTTTTTCCAGACCCGCTTCTTTCAGCAAGGCTTTCGCT -TTTTCAGGATCGTAGGTGTAGTCCTGAACGTCGTCGTTATAGCCCCACATGGTTGGCGGGATCAGGTTTT -TCGCTGATACGCCCGCGCCCTGATAAACCGCTTTGATGATCGCGTCTTTGTTCACCGCGTAGGTCAGAGC -CTGGCGAACTTTCACGTCATCGAGTGGTTTTTTCTGCACGTTATACGAGAGATAACCGACGTTCAGCCCC -GGCATTTCCATCAGATTGATGGATTTATCCTGCTTCATGCGAGCGATATCTGCCGGGTTCGGGTACGGCA -TCACCTGGCATTCATTCTTCTGCAATTTCGCGTAACGCACGGAAGCGTCAGGGGTAATAGAGAAAACCAG -CGTATCGATCTGCGGTTTGGTGCCCCAGTAGCCATCAAACGCTTTGTAGCGGATACGGGAATCTTTTTGA -TACTGCTGTAACTGGAACGGACCGGTTCCGATTGGGTTGAGGTCCAGTTTTTCCGGTGTACCGGCTTTCA -TCATCGCATCAGCATATTCTTTTGACAGAATAGAGGCGAAGTCCATTGCCAGGTCAGCGAGGAACGGCGC -TTCCGGGCGAGTCAGCACAAACTGAACGGTGTTGTCGTCCACCTTTTTCACTTCACTGATCAGCTCTGGC -AAGCCCATGCCTTCGAAGTATTCGTAGCTGCCGCCAGAAACTTTATGGTACGGGTTTTGCGCGTTTTTCT -GACGATCGAACGAGAACACCACATCATCGGCGTTCAGTTCACGCGTCGGTTTGAATTCTTTATTGTCGTG -CCACTTCACACCTTTACGCAGATGGAAGGTATAGGTTTTACCGTCTTCGCTGACTTCCCACTTTTCAGCG -AGGCCCGGGATCACTTCGGTGGTGCCGATTTTAAATTCAACCAGACGGTTATAAAGCGGGACGGAAGAGG -CGTCATAGGTGGTGCCGGAGGTAAACAGCTGCGGGTTAAACCCTTCCGGAGATCCTTCTGAGCAATAAAC -CAGAGTTTTAGCCTGAACACTTGCTGCGACGGTCATAGCCACCAGGCTGAGACCAAGCTTCAGCATCCCT -GACTTTTTCAAGGAAATACGCATTATTCTGCTCCAATTGTGATGTTTGTTGTTTTAACCCTTTGCAGTGG -GTTGTCGCTGCCTGACCTTTTTTGTTTTTTGCCCGGTCGGGTCAACGTTATGAGGTGGGGATGCCGTACT -AATTAACATCAGTGTAACAGTGCGGATCCTCCATAAAATGCCCCTCGTGACCTACAATCTGTCAACAGAA -TGTGAAAACGTCAATACAGCCAACCGGGATTTACACCAACGGTGAGAATCCACAAACAAAGATTAAAAAA -ACTTCAAACAGCTATTTGCAGCAGAGAAATTTGTGCTACTCCAACATGACCAGAACAATCAGCTTAATAT -TTAGCAACATTTGGTGATTAAGTTTTATGCATTTAATGAAAAAAATCTGAGGAAAAGGTGGATATCTGAG -CGATTAATACCATGAACGCTAAAACGCACAGCGGAAAATGCCAGGGCCAGCCATAAGTAACGCAAAAAAA -GATTTAAGCAAATATAAAAAAAGACAATGGTTTCTGTCACAAATCCGTTAATGGATAGTGAGATATGGGG -CGCAAATTTGGCAGGGAAATGTGTGTCGTGTAGGTCGAATAAGGCGGTCGCGCCGCATCCGACAATGGCC -GGCACATTTGCCTGATGCGACGCTGACGCGTCTTATCAGGCCTACGTCGAGTCGAACCTCCCTGCCCCCG -GAGGTTCTCATCCTCATGAGCTGCAGATGCAAAAAAGCCTGCTCGTTGAGCAGGCTTTTCGAATTTGGTC -GGTGATAGAGGATTCGAACCTCCGACCCCTTCGTCCCGAACGAAGTGCGCTACCAGGCTGCGCCAATCAC -CGAATGCGGGGCGCATCTTACTGCGCAGATACGCCCTCGTCAATCCCTTAATAGCAAAATGCCTTTTGAT -CGGCGAGAAAGTCAGCAGGCCGCTTAGTTAGCCGCTGCCTCTTTTGCCTGCGGGATGTGACACCAGTTGT -TGTTTTCGTTAATTCCACCATCCGGTGAAGTATAGCCAAGACAACCCATGATGGTATCGTACAGCTCTAC -GTGACGGCGTGGCACTTTCATGTCGGCTTCTTTTTTCAGCTGCGCAAACGCCTGCGCATTGGCCGGATTT -TCCAGATATTTATCTGACATCCAGACCATCATCGGTACGCGGAACTGCTCCGGCGGTGCCAGTTCACGCG -GCGTGCCGTGCAGGTGCTCGCGTTCATTAATTGACTCACCGTGGTCAGCTGCGTAGAACACAATCGCTTT -CTTATCGCGAACCTGATCAATCACGCTGGAGATAAAGTGATCCACATAGGTCACCGAGTTGTCATAGGAG -TTGATCATCTGCGCTTTGGTACAGCCGCTATCAACACCAATACATTCCGGCTTCCACTGCGCGAAGCTAC -GCGGATAACGCTGGGTGTAGTTAAAATGCGAACCTTTGGTATGCAGAATGATCAGATGCTTACCATCCGG -GTTGCGCCCTAGCGATTGCTGCATTTCGTCTACCAGCAACATATCATCTACCGGCTTGCCACGATTACGT -GGCTCCGCACCAATCTGCTCACGATAAGCAATGTTGTCCGCCATCGTGTTGCTGTAGAACCACATTTCGC -TCTGCATAGCGTAGAGGTCAGAACTGAATCCTAACTGCTTCAGAACCGCGAAAATGTTCTGTTCTTTTAA -TGTGCGCTGCGGATTATCTTCCGCGCCCCCCTGACGTACAAACATGCAACGCAGTGAGAGTTTGGTTGCG -GTATCACAGGAGTAACCACGGAACGCCGCCAGATTTTTCTCCTGGGCCAGTTTCGGCGTGGTATTACGCT -CATAGCCGAAAATACCCATATGGTCCCAACGCGTGGTTTCACCGATGATAAACACGACATAAGTGTCATC -AACGTTTTGCGGTGCCTGATAAGTGAATTTCTTCGCCGGATTAAGCAATGAATTATTATCGGAAGATTCA -TCGACCCGCGCCCAGGCATACAGCCCCAACGCAGAAAGCCAGTTTGATGGCAGATAAGAGTTCGCTACGA -CACCGCCATAACTCGGCAAATCAACGCCGGTCGCCCTCTCCACTTTCTTCTGCTGGATATCCAGCAAACG -AATCGGTGCCCAAACCATAATACCCGCCAGTACGACGACCGCCAGGCTGCGAATACGCTGCCCTGGGGTT -CGCAGTTGTCGGAGCAAGGTGTAGCGACAGCGGTTATTCCAGATAAGGATAAGAGGCAATGCACTAACGG -CGATTAACCAGAGAATAAAGTTCAGACCAACAACTTCTTTTGACAGGTCGATATCGGTGGTCATGACGGA -AGCGATGATGCCATAACCAATGACCACATTAAGGAAGGTCATGTAATAGCTGGCACCTGCGGAAAAGAGC -ACCACCAGCGATGCCAGAATACGCCAGCTGCGGCGGCCAAACAGCGAAAGAAGACGTAGTAAAAAGAAGG -TCACCAGTACGGTGGCGGCCAGTTCAACAACAGCAGAAATGCCTTTCCAGACGGTAAAATCGTGCGCATA -GCTGCCGAAGCGGCGGTAAAAAACCGCGCCATTCATAAAAAGGCCAATATAGATTGCAAGCAAAAAGCTC -AGCTTCTGCTGTGTAATCGATTTGATGTATCTCATGCAAACAAACCCTGGACAAACAGGTGATAACACCC -TGCTTAGTGGCTTTTCAGGCCCGGCAGGGAAAAAGTGCGGAGGTAGTCAGATAAGTAAAATCTACACGCG -CGAATAAGTAGACCACAGCAAAGGGAAAAAGTGTGGGGAAAGAGTGTGCATGAAGCACAAATTTACAAAA -ATGCAAGTTTGAAAAGAGACTTTAGCGTTACAAAAAGCAGTAAAAAGGGCCAGTTAATTGGCCCAAATTT -TACGAGTCATTGTTTATACATTTCGTTGATGCGTTTGATGCACACGGAAGCTGAAGCCCAGTAGCTCGCG -GCTGAGCATTAAAGGGAGCCATGCGCCTCACGCAACATTTTCTGCTCTGGCTGACGAATCGTCGTAGAAA -GCGCCAATGACAGAATCAGCAGGGCGAAAATCACGTAGAAGGTCACATAGAAGCCGCCAAACAGTGAGGC -GATAATCGAACCACAAATGCTACCGATACCGAAACCGAGATAAATCACACCGTAGTTTTTCGCCAGGTTA -TTGAGGCCAAAGAACTCACTGACCAGTGACGGAAAGACGGTAATAGTGCCGCCAAAGTTAAATGCCACGC -AGGCAATCGCTGCAAAGAACGTCACTGCATTCAATGGTGCAAACAGCAGGGCCGCCATACCCACCAGCGA -TATCACCTGACCAATGGTAATAACACGGATACGGGCGATTTTGTCAGACAGAATACCCAGCACCAGACGA -CCTGAAAGGTTGGCGATGGAAATAACAGTGACTGCATTGGCTGCGGAAACCACATCAAGGTGTGCCAGAC -TTTGGGCGATATCTTTCGCTACCCCAATCACGTACAGGCCGCTCATGCAGGCGGTCAGGAACATTACCGC -TAACATCCAGTACTGCGGTTTACGCATCGACTCTGCCAGCGTGTAATCTTTCTCCACCACACCATTGCTG -GTTTTCACTTCCTGTTTTGGTGCGTCTTTCATTAACGTTGCGCCGAAAACAATCATCAACAGCGCAATCG -CTCCCCAAATCACAAAGGTTTTTTCCAGACCGACCGTTTCCAGCAGCTGCGTGTCGATAAATTTGAAACC -CAGGCTACCCAGACCATAAGAACCGATAGCGAACGCGGAGATCAGACCTTTACGCTCCGGGAACCACTTC -ACACAGTTAGAGAGCGTCAGCAGATAACCCGCGCCATCTGCCAGTCCCACCAGCACACCGGCGCTTAACC -ACAGCATCATCAGGTTGTCAGAATGCGCTGTCAGGAAGAAGCCTAATCCCAGCAAAATGCCGGAAGCCAT -GGTGACGCGTTTAACGCCAAAACGTTCCTGTAATTTGCCCGCAACAGAAGACGAAATTGCCAGCCCCAGA -CTTAACAAGCCGAAAGAGAAAGCGACCTGGCTTACCGGCGCATCCAGCTTGGCGGAAAGCGCGCCATTAA -ACAGGCTCCAGGTATAAACCGACCCCAGCGCAAACTGGGTAATGATAGTACCGATGAGTGTCAGCCAGCG -GGTACGCTGATAATTTGAAGGTGTCATGGCAGTATTCCTGCAGTAATAAAAAGGAAAAATCTCTGCCGAC -AACCATAACGAAGTGCACTTTATGCCTGGGGAAAAACGGCATGAAATGCCATCAGAACGGAATGAAATGC -CTTAGTTCAGGAATGAATGACGCGACAATTATTCACCAAATTTATTATTTGGTAAGTTAGCACCCACTAT -CGCCACAACTATTGTTATTTAATGGTTTCAATTGTGACTGTTACGTTAAAATCTGGCGCTAACCCCCATC -GTATACAGATAGTCGCTATTATTAGTGGTATTTTCTGCCTGAGTTAGCGCGGCATAGGCGGCAATATTTT -GATTGAGCAACATATCAGCGCCTACGGTGACATCCAGCCAGTTGCCGTTCTGGTTTGTCGCCGTCATCCG -GCTCAGGCCTGATTGCGCCTTCCAGATATTCTCGCCAAATTGCTGGTTATAGCTGATTTGCGCCCAGGGT -CGGAGATCGCCAAGCCGGGAGTCAACACGCCAGCCTAAGGTACTCACGCTGGCATGCCATAACGGATCGG -TCAGCGTGGTAGTACTGTCGCCAAACTCGTTATACATCGAGGTGGTTGTGCCATCGTAATGTAATGCCGC -GACCGGGCCGGTTGTAACCTGTTCATATAAAGGAAAATTCCAGCCCATACTCATACTGCTGGTCACATCC -ACAGGGGTTTCTTCCGCCAGATTGACTTCCAGTCCCAGCGCCCTTTGGCTACTTTGAATACGTTGCGACA -AAATATCGTTGTAATCAGGTTGATGATCACTATCCCAGGTGTAACGCTCTGTGGAAAGTCCGGGTTGCGT -ATCAACGATATATTCTTGTTGCCAGGCGTAAGCTGTGTTGAGAAAAAAGGCACTGATTACCACGCTCGCC -AGCAGGCTTAGCTGCCAGCGACCACCGCTTTTTTTTATGATCATTAACACGACTCCAGGGAAGAGCCGAA -TTCGGCAATATTATTGTCATTGTATGAAGGATATCGGGCATAGTAGCCCTGTATTAAATATTGACTTTTT -CACCGATGCGTCAAGAAAAGCGGCTGAAATTTTTACGATCGGGTACATAGCGAGGGAAAGTATGGAACGT -TGCGGCTGGGTGAGTCAGGACCCGCTTTATATTGCCTACCATGATAATGAGTGGGGCGTGCCTGAAACTG -ACAGTAAAAAACTGTTCGAAATGATCTGCCTTGAAGGGCAGCAGGCTGGATTATCGTGGATCACCGTCCT -CAAAAAACGCGAAAACTATCGCGCCTGCTTTCATCAGTTCGATCCGGTGAAGGTCGCAGCAATGCAGGAA -GAGGATGTCGAAAGACTGGTACAGGACGCCGGGATTATCCGCCATCGAGGGAAAATTCAGGCAATTATTG -GTAATGCGCGGGCGTACCTGCAAATGGAACAGAACGGCGAACCGTTTGTCGACTTTGTCTGGTCGTTTGT -AAATCATCAGCCACAGGTGACACAAGCCACAACGTTGAGCGAAATTCCCACATCTACGTCCGCCTCCGAC -GCCCTATCTAAGGCACTGAAAAAACGTGGTTTTAAGTTTGTCGGCACCACAATCTGTTACTCCTTTATGC -AGGCATGTGGGCTGGTGAATGATCATGTGGTTGGCTGCTGTTGCTATCCGGGAAATAAACCATGATTCGG -GAAGCGCAACGTTCAGAACTCCCCGCGATCCTCGAACTGTGGCTGGAAAGTACAACCTGGGGGCATCCCT -TTATAAAAGCGAATTACTGGCGTGACTGCATTCCGCTGGTGCGGGATGCCTATCTTGCCAACGCGCAAAA -CTGGGTCTGGGAAGAAGACGGTAAGCTTCTCGGTTTTGTCAGCATTATGGAAGGCCGATTTCTGGCAGCG -ATGTTTGTCGCACCGAAGGCCGTCAGGCGCGGTATTGGTAAGGCGCTGATGCAGTATGTGCAGCAGCGCC -ATCCCCACCTGATGCTGGAGGTTTATCAAAAAAATCAACCGGCGATAAATTTTTACCAGGCACAGGGTTT -TCACATTGTCGATTGCGCATGGCAGGATGAAACCCAACTACCCACATGGATTATGAGCTGGCCGGTGGTT -CAAACGCTGTAAGTGTCAGTTCCGGACCGTTGTATTTTTCCAGCCATGCCAGCGCCGTATTACCCGCACA -GCCATTCCCCAGCCGCGAGCTGGGGAGATCTTTGGTCAGCACGTTCACTGCGCCGTTTTTACAAATACCG -TCAGCGGTTAAATCCAGATCCGGCCATGCCCCTTCGTGAATGCAAATCACGCCAGGTTTAATTCCCTCGC -TAATGACCGCTCCGGCAAGAATTTGCCCGCGTGCGTTCCACAACCGAACAGTATCGCCATCTTGTATGCC -GCGCTCCTGGGCATCGTCAGGATGAATGGTGACAGGCTCACGATTTGCCACCGCGTACAATTCGCGCAGA -GAACTGTAATTCAGCTGGCTGTGCAGGCGGTGCGCCGGATGGGCAGAAAGTACCTGCAACTGTTCTGGTT -CGGCATTGCCCTGCCATTCGTCCGGCTCCAGCCACATTGGATGCCCAGGGCAATCCGGGTAACCGTAATC -GGCAATACGCTGTGAGAAGATTTCAATCTTGCCGCTGGCGGTTTTTAACGGATGCGCCAGCGGATCGCGG -CAAAAATCAGCGAAGCGAATAAACCGCTCGCTGTCCGGGTTTTCCGGCATCTCAATTAACTGGTTGGCTT -GCCAGAACTCAGCAAATGGCGGCAATTCAACCTGCTGGCTTGCCCCGCGCTGTCGGGCAACGTTATAAAA -CGTTTCCAGCCATTGCAGCTCACTTTTTCCTTCCGTAAAACGTGCATAACCGCCCTTCTCCCAGCGTTCA -CTTAACTCGGCAAAAACATCAAAATCATTACGCGCTTCATAGCGTGGCGGCACCACTTGCTTCATCGGCA -CCAGATGCTGATTACTGTAATCACCGGTCATGGTGAGATCATTACGCTCAAAAGAGGTAGTCGCAGGCAG -AACGATATCCGCGTGTTTTGCCGCCGCCGTCCAGAAGCATTCAGAGATCACCACCAGCTCCGGTTTTTGC -CAGGCACGGATCAGGCGATTGGTATCCTGATGATGAGTAAAGTTGGCACCGCCCGCCCACCAGATAAAAC -GAATATCCGGGAAATGTCGGTTCATACCGTTGTGTTGATATGCGCCACCAGGGTTTTCCAGTGCTTCAAC -AATGCGGGCAACAGGGATTTTATCCACCGCATCGCAGCCACCCGGCAAGCTGCCCTGCATGGAAGAGAGC -ACCGCAGAACGCCGCGTGGGGTTACCACCATTGGCAAAATGGTAAGAAAGACCAAAACCGCCGCCGGGTG -TGCCGATTTGCCCCAACATTGCTGCCAGCGTGACGATCATCCAGTGTTTTTGCTCACCAAACTGTTGGCG -CTGCATTCCCCAGCCTGCCATCAGCATGGTGGTATTTTGGTGGAAAATAGCCGCCAGCTCGCGGATTTTC -GCTGCGCCAACACCACAAATCTCTGCTGCCCATTCGGCGGTTTTCGCTATTCCGTCACTCTCGCCCAGCA -AATAAGAGGCGAAGACGGCATAACCTGTGGTGCAACGCGCCAGAAACGCTTCGTCGTGCCAACCATTTTC -CACCAGCGTATGGGCGATCCCCAGCATCAGCGCAACATCGGTGCCCATGTGCGGTGCCACCCACTCCATT -TTATCGCCAAAGAAATCGACGGTTTCCGATCGCATTGGATCAATGCAGATCAGCTTTTTCCCGCTGTCAC -GCAGTGCAGAAAAGTAAGAAAGCCCCTGCTCATCGGATGCATTCCACGCAATTTTCAGCGTATTGAGTGG -GTTAGCACTCCACAGCACCACGACATCGCTATGTTCCAGCACCAGCGGCCAACTGGTCTGCTGTTGATAA -ACTTCACTACCACCCACGACATACGGCATGATCGCCTGTGCCGCGCCGGTCGAATAATCCCCCAGATGCC -CGGTATAACCGCCTGCCAGCGCCATATAGCGTTGTAATAATGTCGAGGCCTTATGCAGCACGCCGTTTGA -ACGCCAGCCGTAGGAACCAGCAAAAATCGATGCCGGACCATAAGCCTCACGAATGCGTTTATGTTGTTGG -TGAATAAGATCCAGCGCCTCATCCCAACTCACGCGAACAAATTCATCCTGCCCACGAATGCCTTGCGGGT -TTTCCGGTGACGCAAGAAAGCCTTTTCGCACCATTGGAAATCGTACCCGCGTATTGCTGTGAACCTGGTC -GCGAACCGCGCTCTGCAAGGAGTTTTCCATTCCTGTGGCTAACGCGCCACGCGAGCTAAACACGGTTTCG -CCGTCGGTTTCAACCAGCATGGGCCCCCAATGGGCGGCAGTCAGAACGGAATATCGTGAGGATGAGTTGG -CCAAACCGAAGACTCCTGAAAGGTTAGATGTATTGAGCAGTTAAATATTACTTACAAATTTCCGAGTATT -CCCAGGAATAATCTTCATGTTCACGCGGCATAATCTCCCGCCACGGAACCCGTGGCAAAGAATAAAAAGG -TTATTAAGGATTAACAATGAAGAAACGTGTTTATCTTATTGCCGCCGTAGTGAGTGGCGCTCTGGCGGTA -TCTGGCTGCACAACTAACCCTTACACCGGCGAACGCGAAGCAGGTAAATCTGCTATCGGCGCAGGTCTGG -GCTCTCTCGTGGGCGCGGGTATTGGTGCGCTCTCTTCTTCGAAGAAAGATCGCGGTAAAGGCGCGCTGAT -TGGCGCAGCAGCAGGCGCAGCTCTGGGCGGCGGCGTTGGTTATTACATGGATGTGCAGGAAGCGAAGCTG -CGCGACAAAATGCGCGGCACTGGTGTTAGCGTAACCCGCAGCGGGGATAACATTATCCTCAATATGCCGA -ACAATGTGACCTTCGACAGCAGCAGCGCGACCCTGAAACCGGCGGGCGCTAACACCCTGACCGGCGTGGC -AATGGTACTGAAAGAGTATCCGAAAACGGCGGTTAACGTGATTGGTTATACCGACAGCACGGGTGGTCAC -GACCTGAACATGCGTCTCTCCCAGCAACGTGCGGATTCCGTTGCCAGCGCGTTGATCACCCAGGGCGTGG -ACGCCAGCCGCATCCGTACTCAGGGCCTTGGCCCGGCTAACCCAATCGCCAGCAACAGCACCGCAGAAGG -TAAGGCGCAAAACCGCCGTGTAGAAATTACCTTAAGCCCGCTGTAATCCCTTTCATGCCAGGTGATGCAG -AAATCACCTGGCATTCTTCAGTTTTCCTTCATCATATTTCAGGCTAAGGTGATCGCCTTATCAGTGAATG -GAGAGAAGCATGAAGCCGTCCGTTATCCTCTACAAAGCCTTACCTGATGATTTACTGCAACGCCTGCAAG -AGCATTTCACCGTTCACCAGGTGGCAAACCTCAGCCCACAAACCGTCGAACAAAATGCAGCAATTTTTGC -CGAAGCTGAAGGTTTACTGGGTTCAAACGAGAATGTAAATGCCGCATTGCTGGAAAAAATGCCGAAACTG -CGTGCCACATCAACGATCTCCGTCGGCTATGACAATTTTGATGTCGATGCGCTTACCGCCCGAAAAATTC -TGCTGATGCACACGCCAACCGTATTAACAGAAACCGTCGCCGATACGCTGATGGCGCTGGTGTTGTCTAC -CGCTCGTCGGGTTGTGGAGGTAGCAGAACGGGTAAAAGCAGGCGAATGGACCGCGAGCATAGGCCCGGAC -TGGTACGGCACTGACGTTCACCATAAAACACTGGGCATTGTCGGGATGGGACGGATCGGCATGGCGCTGG -CACAACGTGCGCACTTTGGCTTCAACATGCCCATCCTCTATAACGCGCGCCGCCACCATAAAGAAGCAGA -AGAACGCTTCAACGCCCGCTACTGCGATTTGGATACTCTGTTACAAGAGTCAGATTTCGTTTGCCTGATC -CTGCCGTTAACTGATGAGACGCATCATCTGTTTGGCGCAGAACAATTCGCCAAAATGAAATCCTCCGCCA -TTTTCATTAATGCCGGACGTGGCCCGGTGGTTGACGAAAATGCACTGATCGCAGCATTGCAGAAAGGCGA -AATTCACGCTGCCGGGCTGGATGTCTTCGAACAAGAGCCACTGTCCGTAGATTCGCCGTTGCTCTCAATG -GCCAACGTCGTCGCAGTACCGCATATTGGATCTGCCACCCATGAGACGCGTTATGGCATGGCCGCCTGTG -CCGTGGATAATTTGATTGATGCGTTACAAGGAAAGGTTGAGAAGAACTGTGTGAATCCGCACGTCGCGGA -CTAAGCCGCGACTGCGTAGAGTAAAGCCCGATAATCGCTCGGGCTTTTACTCTTTATTGGGTTGCAGTAA -CTGCTGTAGTCCAGGCCTGATTAAACGCCTGATGCTGTGCCGGTAATGGCGCAATCAGTTTGTTATATTC -ACTTGCCTGCTGTGAAGTCGGGAACTGGATGCCATTTGCGACAAAGCTCACCTGAGTACCTTGCTGAGCA -ATGTAGTCTCCAACCATCACCAGTTGTTGCGTGAAAGTTTGTGCCGCCGGAATCAACGGTTGCAATGCAT -CAGCTGGCGTCGTTACCACTTTGGTGAATGCCTGATCAAAGACCGGTTTCAAATCATCGCTCTGTTTTAG -CGCAGAGTGCGCAGCATCGGCCTGCAACTTCGCATTTTGCAGTTGTTGCGCCAGCACACCCAGCGAACCG -TTCATTTCACGCAGCGGACCGCTTTGCGTAACGTAATCCTGCGGTACGCGAATTGCGTTAACGCTGTCTA -CAACCGGGCGCAGACCGGAATCCATCGCCTGATTCACCTGCTGAGAATAACCATACAGAATCGCGTAATC -AGAGACAAAAGGACCAAACTGTTTTTTCTGATCGGCAGTCAGGGTTGGTAGACGTTCACCGCTACGCATC -ACTGTATTCTGCAGGAAGTCGATAAACGCTTTACGCTGATCGCCTTCTTTATCAAAACACCCACTCAGGC -TAACTACCATTAATAACGCCGCAAGAGGCGCAAACCAGCGAGAGCAGGACTTTCCTGTCGCCATTTTCTT -ACTCCTTTCACCCAAAAAAAGCGCACAACGACACACGCGTGTCTGACGTGACAAGGATAGTCCAGGACAG -GCTTGCAGGATACCCTTTCTACGTAATCTTCCTGGTAAAATCATGGAGAAAATGAAACAAGGTTAATTTG -TTGTTTCATTGTTAAAAAATGATAGTGCCGTTGCCTTTTTTGTAGCCAGAGATTTACGCCTTCGCAGAAG -GTTAGATTTTCGAAATCTTTACAAAACAGGAGTGGTAAGAGATATATCGGCATTTATCAGATCGTTAGGT -GGCTATAAGTCACGCTAAATGACAGGCTGAATCGAATCATAGCCAGAGCATGCCCTGACTTCACCCCGCT -GTGTCTGCTTTTCCCGACTATTCTTAATGAGCTTCGATGCAATTCACGATCCCGCAGTGTGATTTGAGGA -GTTTTCAATGGAATATAAAGATCCAATGCATGAGCTGTTGAGCAGCCTGGAACAGATTGTTTTTAAAGAT -GAAACGCAGAAAATTACCCTGACGCACAGAACAACGTCCTGTACCGAAATTGAGCAGTTACGAAAAGGGA -CAGGATTAAAAATCGATGATTTCGCCCGGGTTTTGGGCGTATCAGTCGCCATGGTAAAGGAATGGGAATC -CAGACGCGTGAAGCCTTCAAGTGCCGAACTAAAATTGATGCGTTTGATTCAAGCCAACCCGGCATTAAGT -AAGCAGTTGATGGAATAGACTTTTATCCACTTTATTGCTGTTTACGGTCCTGATGACAGGACCGTTTTCC -AACCGATTAATCATAAATATGAAAAATAATTGTTGCATCACCCGCCAATGCGTGGCTTAATGCACATCAA -CGGTTTGACGTACAGACCATTAAAGCAGTGTAGTAAGGCAAGTCCCTTCAAGAGTTATCGTTGATACCCC -TCGTAGTGCACATTCCTTTAACGCTTCAAAATCTGTAAAGCACGCCATATCGCCGAAAGGCACACTTAAT -TATTAAAGGTAATACACTATGTCCGGTAAAATGACTGGTATCGTAAAATGGTTCAACGCTGACAAAGGCT -TCGGCTTCATCACTCCTGACGATGGCTCTAAAGATGTGTTCGTACACTTCTCTGCTATCCAGAACGATGG -TTACAAATCTCTGGACGAAGGTCAGAAAGTGTCCTTCACCATCGAAAGCGGCGCTAAAGGCCCGGCAGCT -GGTAACGTAACCAGCCTGTAATCTCTGCTTAAAAGCACAGAATCTAAGATCCCTGCCATTTGGCGGGGAT -TTTTTTATTTGTTTTCAGGAAATAAATAATCGATCGCGTAATAAAATCTATTATTATTTTTGTGAAGAAT -AAATTTGGGTGCAATGAGAATGCGCAACGCCGTAAGTAAGGCGGGAATAATTTCCCGCCGAAGACTCTTA -CTCTTTCAATTTGCAGGCTAAAAACGCCGCCAGCTCATAACTCTCCTGTTTAATATGCAATTCACACAGT -GAATCTCTTATCATCCAGGTGAAAAATAAAAGCGTGAAACAAATCACTATTAAAGAAAGTAATCTATATT -TCTGCGGCATTCCCAGCCTCCTGTGTTGATTTCCAACGAGTATGTACTGCACCCATTTTGTTGGACGATG -AAATGGAATAGCCCCTAATATGTCAAAGCCAAAATACCCTTTTGAAAAGCGCCTTGAAGTCGTGAATCAC -TACTTCACAACTGATGATGGTTACAGGATCATCTCGGCACGTTTTGGTGTCCCCCGAACCCAGGTCAGGA -CATGGGTTGCCCTCTATGAAAAACATGGAGAAAAAGGTTTAATTCCCAAACCTAAAGGCGTTAGTGCTGA -TCCAGAGTTGCGTATTAAGGTCGTGAAAGCTGTGATCGAGCAGCACATGTCCCTTAATCAGGCTGCTGCT -CACTTTATGCTTGCTGGTAGTGGTTCTGTAGCCAGGTGGCTGAAGGTCTATGAAGAGCGCGGAGAAGCTG -GTTTACGCGCGCTCAAGATTGGCACCAAAAGAAACATTGCAATATCAGTTGATCCAGAAAAAGCGGCATC -AGCATTGGAGCTGTCAAAAGACCGACGCATTGAGGATCTTGAAAGGCAAGTTCGATTTCTTGAAACGCGG -CTTATGTATCTAAAAAAGCTGAAAGCCTTAGCTCATCCCACGAAAAAGTGAAAGTACTCAACGAGCTAAG -GCAGTTTTATCCTCTTGATGAGCTTCTCAGGGCTGCGGAGATACCGCGCAGTACGTTTTATTATCATCTA -AAGGCTCTCAGCAAGCCTGACAAGTATGCGGACGTTAAAAAGCGTATTAGTGAGATTTATCACGAGAATA -GAGGCCGATACGGATACCGTAGGGTAACGCTGTCTCTTCATCGAGAAGGGAAACAGATTAACCATAAAGC -TGTTCAGCGCCTGATGGGAACCCTCTCACTTAAAGCAGCGATTAAGGTCAAGCGATACCGCTCTTACAGA -GGAGAGGTAGGGCAAACCGCCCCTAATGTTCTCCAAAGAGATTTCAAGGCTACGCGGCCAAACGAGAAGT -GGGTTACCGATGTTACTGAATTTGCAGTCAATGGGCGCAAGCTGTATTTGTCTCCAGTAATAGATCTCTT -CAACAACGAAGTTATTTCTTACAGCCTTTCGGAAAGACCAGTGATGAACATGGTTGAGAATATGCTCGAT -CAGGCATTCAAAAAGCTTAATCCTCACGAGCATCCTGTTCTGCACTCTGACCAGGGATGGCAGTATCGTA -TGAGAAGATATCAAAATATCCTTAAAGAACATGGTATTAAACAAAGCATGTCCAGAAAAGGCAATTGTCT -GGATAATGCTGTGGTGGAGTGTTTCTTTGGAACCTTAAAGTCGGAGTGTTTTTATCTTGATGAGTTCAGT -AATATAAGCGAACTGAAGGATGCTGTTACGGAATATATTGAATACTACAACAGCAGAAGAATTAGCCTGA -AATTAAAAGGTCTGACTCCAATTGAATATCGGAATCAGACCTATATGCCTCGTGTTTAACTGTCCAACTT -TTTGGGGTCAGTACAAACTTTGATTTATAGTCAGGTGGGGCTTTTCTCTGTCTGCCTTTCGGTGAATACC -TGAGACAAACAGTCTCAAGCACCCGTGGCTATTCTAGCTTAATAAGTTTGTTTCTTCTCCTTGATATAAT -CCTAAAAAAATCTCATAAAATTAATATATGAGATAATCTTTATTCAGCAGAAGATTATTAAAGGTTGCTG -TATTATTTAGCGATAAAAAAAGCCTGCCAGATGGCAGGCTATTTAATAACGGCGTTATTATTGCAACAGC -GAAATATCCGCAACGCGCAGGAACAGTTCGCGCAGTTTCTCCAGCATGGTCAGACGGTTGATACGCAATT -CTTTGTCATCAACCATGACCATCACTTTATCGAAGAAAGCATCAACCGGTTCACGCAGCTCAGCCAGTTC -GACCAGCGCATCCTGGTAACGACCTTCCGTAAAGTACGGCTCCAGCTTGTCACGTAGCACCACAACCTGC -ATCGCCAGTTTAATTTCTTCCGGCTCTTTCAGGGTAGAGGCATTCACGCGGTCGCTCAGCACTTCGTCAG -ATTTCGCCAGAATGTTAGATACACGTTTGTTCGCCGCCGCCAGTGCAGCAGCTGCATCCAGGGTACGGAA -ATGCGATACCGCTTTCATACGGGCATCGAAATCAGCCGGACGAGTCGGACGACGCGCCAGTACCGCCTGG -ATGGTGTCAACGGTATAACCTTCGTCCTGATACCAGGCGCGGAAGCGACCGAGCATAAAGTCGATAACAT -CATCAACTACGTTGGCATTAGTCAGCTTATCGCCATACAGACGCACCGCTTCTTCGGTCAGCGTTTGCAG -ATCAAGGTTGAGGTTCTTCTCAACGATAATTCGCAGCACGCCAAGCGCGGCACGACGCAGCGCAAACGGG -TCTTTGTCGCCTTTCGGATGCTGACCGATACCGAAGATACCCGCCAGGGTATCCATCTTGTCAGCAATCG -CCAGCGCACAAGCTACTGGGTTGGACGGCAGGTCATCACCAGCAAAACGCGGCTGATACTGCTCATTCAG -CGCCACCGCGACATCTTCCGCTTCGCCATCGTGACGCGCATAGTGCATCCCCATAACGCCCTGGGTGTCG -GTGAACTCGAAGACCATGTTGGTCATCAGGTCGCACTTAGACAGCAGACCCGCACGGGTAGCGTGGTTAA -CGTCAGCGCCAATCTGTTCAGCAATCCAGCCAGCCAGCGCCTGGATGCGGTCAGTTTTGTCGCGCAGCGT -CCCCAACTGTTGCTGGAACAACACGGTTTGCAGGCGCGGCAGGTTATCTTCAAGACGTTTTTTACGGTCG -GTGTTGAAGAAGAACTCGGCATCCGCCAGACGCGGACGAACGACTTTCTCGTTACCGGAGATAATCTGCT -GCGGATCTTTCGATTCGATGTTGGCAACGAAGATAAAGTTCGGCAGCAGTTTGCCGTCGTTCGCATACAC -CGGGAAGTATTTCTGGTCACCTTTCATGGTGTAAACCAGCGCTTCAGCCGGCACCGCGAGGAATTTCTCT -TCGAATTTTGCGGTCAGAACGACCGGCCACTCCACCAGCGAAGCCACTTCTTCCAGCAGGCTTTCGCTTA -AGTCAGCGTTACCGCCAATCTTACGCGCTGCTTCTTCGGCATCGGCTTTAATCTTCGCCTTACGTTCTTC -GTAATCGGCGATGACTTTCCCACGCTCACGCAGAATTTCCGGATACTGATCGGCGTTATCGATGGTGAAT -TCCGGCTCGCCCATAAAGCGGTGGCCGCGAATCACGCGATCGGACTGAATGCCCAGAATGGTTGCCGGAA -TGACTTTGTCGCCCAGCAGCAGGGTCACGGTGTGCACCGGACGCACGAAGTGCACGTCGCTTGCGCCCCA -ACGCATCAGTTTCGGGATCGGCAGTTTCGCCAGAGAAGTCGCAACCATATTCGGCAGCAGTGCTTCGGTG -CTTTCGCCCTTCACATGGGCGCGATACAGCAGCCATTCGCCTTTATCGGTAGTCAGACGCTCAGCCTGGT -CAACGGTAATACCGCAACCACGCGCCCAACCTTCTGCCGCTTTGCTCGGTTTGCCTTCAGCGTCGAACGC -CTGGGCAATCGCCGGGCCGCGTTTTTCGATTTCACGATCCGGTTGCGCTTCCGCCAGGTTAGCTACTTTC -AGCGCCAGACGACGCGGAGCAGCAAACCATTGAACGGTGCCGTGTGCGAGGCCAGCGTTATCCAGCTCCG -CAGTAAAGTTCGCAGCAAAGGACTCAGCCAGGCTGCGCAGTGCTTTTGGTGGCAGCTCTTCAGTGCCGAT -TTCCACCAGAAAAGTTTTCTCAGACATAGCCGCCTCTTACTTATCTTTGTTGCACATCGGGAAGCCGAGG -GCTTCACGGGAAGCGTAGTATGCTTCTGCCACTGCTTTGGTCAGGGTGCGAATGCGCAGAATGTAGCGCT -GACGCTCGGTGACGGAGATGGCTTTACGCGCATCCAGCAGGTTGAAGCTGTGGGCGGCTTTCAGAATACG -CTCGTAGGCTGGCAGCGGCAGCGGATTTTCCAGCGCCAGCAGCTGCTGCGCTTCTTTCTCGTACTGCTCG -AAGCAGGTGAACAGGAAGTCCACATCCGCGTATTCGAAGTTGTAAGTGGACTGCTCCACTTCGTTCTGAT -GGAACACGTCGCCGTAGGTGGTTTTACCCAGCGGGCCGTCGCTCCAGACCAGGTCGTAAACGCTGTCTAC -GCCCTGAATGTACATGGCCAGACGTTCCAGACCGTAGGTGATCTCGCCGGTAACCGGTTTACACTCCAGA -CCACCAACCTGCTGGAAGTAAGTGAACTGCGTCACTTCCATGCCGTTCAGCCACACTTCCCAGCCCAGTC -CCCAGGCACCCAGCGTCGGGTTTTCCCAGTTATCTTCCACGAAACGGATGTCGTGAATAGTCGGGTCCAT -GCCCAGCTCTTTCAGAGAACCGAGGTACAGCTCCTGAATATTGTCCGGCGATGGCTTAATGACCACCTGG -AACTGATAGTAGTGCTGTAAACGGTTGGGGTTTTCGCCGTAGCGACCATCGGTCGGGCGACGAGAAGGCT -GAACATAAGCAGCCGCCATCGGTTCTGGCCCCAGCGCGCGCAGACAGGTCATTGGGTGAGAGGTTCCCGC -GCCGACTTCCATGTCCAATGGTTGAACAATGGTGCAGCCCTGGCGAGCCCAGTAATCCTGTAAGGTCAGG -ATCAAGCCCTGGAAGGTCCTGGTATCAAACTTTTGCATATTATTTCGTGCTGGATACGTGTGGATTTAAA -GGAAGGGATCAGTATACCCGCTGGATGGAAGATATACAGTACGAAACGGGAAAAAGCAGGGCTTAACGCA -TGGAAAGATGCAAAAAATGGCCATCCGCGTCAAAAGAACAGACAAACTGCTCTTTACGGAAGGTATAACC -GCGCATTTCATAGCTTCCCTGGAACTGTTCGAAGGCGGTGACGTCGATTTTTTGCTCGCCGGTGTTATAA -CGTTTTGCCGCCTGATCCTTGCATAACGCTTCCATATTCAACGAACGCAGAGGATCAACCTTTACCCGTT -GTGCTTTCTGCACGGGTGACGGTATAGAACAACCCACTAGCACCATAAGCGCCATTGCCGGAAAGAAAGC -GTTCATCATCATTAAATTACCGTCTGGTTTGCAGGTGAGTCTTATTATTTATATCGGTATAGTGGCTGAT -ATCTTACGAATTTCCTTAAGCCTCTATAAGCTGTAGTGATAAAACTCAGATTATTCCAGTGCGCCAACCA -AATGATTTATCGGTCAGACTTTTTTTAACCAGATACAGAGACACAGATGCAGCCCAAAATTTACTGGATT -GATAACCTGCGAGGGATAGCGTGTTTAATGGTGGTGATGATTCACACCACTACCTGGTATGTGACCAATG -CTCATAGTGTTAGCCCCGTCACATGGGATATCGCCAATGTTCTGAATTCTGCCTCTCGTGTCAGCGTGCC -GCTATTTTTCATGATTTCCGGCTATCTCTTTTTTGGCGAACGCAGCGCCCAGCCGCGCCATTTCTTGCGT -ATCGGCTTATGTCTGATTTTTTATAGCGCAATCGCACTGCTCTACATTGCGCTGTTTACCTCCATCAATA -TGGAGTTAGCGCTGAAAAACCTGCTGCAAAAGCCAGTGTTTTACCACTTGTGGTTTTTCTTCGCGATTGC -GGTGATTTATCTGGTTTCACCGCTGATTCAGGTGAAGAACGTCGGCGGAAAAATGTTGCTGGTGCTAATG -GCGGTGATTGGCATTATCGCTAACCCAAACACAGTGCCGCAGAAAATTGACGGTTTTGAATGGCTGCCAA -TTAACTTATATATCAATGGCGATACTTTTTACTACATTCTGTATGGCATGTTGGGCCGCGCTATAGGGAT -GATGGACACACAGCATAAAGCACTGTCGTGGGTGAGCGCCGCGCTGTTTGCGACGGGGGTTTTTATTATC -TCTCGCGGGACATTATATGAATTGCAGTGGCGCGGAAATTTTGCCGATACCTGGTATCTTTACTGTGGGC -CGATGGTTTTTATCTGCGCAATCGCGCTATTGACTCTGGTTAAAAACACGCTGGATACGCGTACCATTCG -CGGACTTGGCTTAATCTCCCGCCATTCATTGGGTATATACGGATTCCACGCCTTGATTATCCATGCGCTG -CGCACCCGGGGAATTGAGCTTAAAAATTGGCCAATACTGGATATTATTTGGATCTTTTGCGCGACGTTGG -CAGCGAGTTTGTTACTTTCTATGCTGGTACAACGAATCGACAGAAACAGATTAGTGAGTTAAGTAAAAGC -CCGGTCACATTGGACTGACCGGGCTTACGTGAGTTATTCGCTGTATTCTTCCTGGGTAACCTGTGTTTCT -TTTGGTGGGTTTATTCCGGCATCACGAATATTTTTCTGCACCGCTACTGCACCAAACAAGCTTAAGAAGA -AAGCCAGTCCATAAAAACCTTTTTCGCTGAGTAATAATGTCGCATTCCACAGACCTACCATCAGTAATGC -AACAGAGATAATAAAGACAGTCAGGCAGGTCATATAATAAATGGAAGTGGTCGGTATGCCTTCATACTTG -TCCCGAACGGTCTTTTGATAAGACGCCGCAGAAAACAGTCCTAATACCAGTACGGCAAAATAATATCCTT -TTTCATTTAACTGCATCTCTGCATTCCATAGCCCTAACAGATAGGTAACGATACCACCAACGAGAGCTAT -CCATGACACAATACTAAAGGCCGGTGAATAGGTTGATATTTTGTTGTCCATCACAGTATTCCTTTCATTC -CTGAATATGTAAGAGCTTTATGTTGCTCATGCCGAGCGAAACAAACGCATTTGACCAAACAAGCAGACAA -AAAAGGCGATGGGATAGATCACCATTTCATAAGTATTGATAGGTGCGTTTAAAACACCGATAAACAAGAG -ACCGATAGTGATTAACGCAACTAACTGGCAGATATGGGTAAAAAAATCATCCAGTTGCCCGAGTTTTTCT -GCGCGAAGATATGCATAGTTGCCAAAAGTTGCTGTCATTAACACGCCAAGAAAATAGCCTTTTCCACTTA -ACAATGGGCATGAGATCCATAGCCCAACCAGATAAACCAGCGCCCCGACAACAAATAATAGTTTTGCCAC -AGTCTTTGAGGTTTTCATAACGATCTCCATATCTACCAGCGATACATTACGAGTAACCAACGAAAGACAA -AACTGAAAAATGCCATTAACAAATGATTTTCAGAATAAATTCATACTAAATATTAATTAATTACTGAGAT -ATATAGATGTGAATTATCCCCCACCCGGTCAGGCAGGGGATAACGTTTACGCCATTAATGGCAGAAGTTG -CTGATAGAGGCGACGGAACGTTTCTCGTCGTGGCTGATAAGCGGCATAACGCTGCGCATCTGGTAGATGC -GACTGTTCTAACGGTAGTTGCGGCAACAATTCAATGAGCGATTTCTCTGGATTCGCCGCGATCTGCGCCA -GCCTTGCTGCGCCCAGTGCTGGCCCCACATCCCCCCCCGTACGGTAATCGAGCTGCTGACCGCTGATATC -CGCCAGCATCTGACGCCAGTACTCACTACGCGCCCCGCCCCCAATCAACGTAACACTTTGCGGTTTAATA -CCGCAGGCATGCACGACATCCATGCCATCTGCCAGCGCATAACCCACGCCTTCCAGCACTGCTCGCGCCA -GTTCATTGGGGCCATGTTGATGAGTCAAACCAAAGAAAACCCCCTTCGCCTGGGGATTATTGTGTGGCGT -ACGCTCGCCGGAAAGATAAGGCAGAAACCAAACTGGCTCGGCACTTTCATCAGCCTGTTGAGCTGCAGCG -ATTAAAGCTGGGACATTGCTCAGGCCGGTTAATTTCGCGGCCCAATCCAGACACGACGCTGCACTCAGCA -TCACAGACATTAAATGCCAACGTTGCGGTAGCGCATGGCAAAAGCTATGTACGGCGCTTTCTGGCTTGCT -TAAGAACCCTTCGCTGACAGCAAAATAGACCCCCGACGTCCCCAGCGATAACATTGCCTGATTAGCATCA -ACCATTCCCACACCAACTGCACCAGCTGCATTGTCGCCACCGCCTGCGACAACTGGCACCGTCGCCATAC -CCCACGCTTTCGCAACTTCAGGTAACAAAGCACCAGTAATTTCGCTGCCTTCGTATAATGCGGGCATCTG -GTCACGAGATAAGTCGCAAGCCTGCAGCATGACGTCACTCCAGTCACGCTTTGCGACATCCAGCCACATG -GTGCCAGCTGCGTCAGACATATCGCTGGCAAACTCCCCCGTCATACGCAGACGCAAGTAATCTTTCGGTA -ATAATACTTTGTCGATTTGACGGAATATCTCCGGCTCATGCCGCTGAACCCATAGCAATTTAGGCGCAGT -AAATCCGGGCATCATCAGGTTGCCGGTAATCACCCGCGATTGCGGAACTCGCGCTTCCAGCAAAGTGCAC -TCTTGCGCACAGCGCCCGTCGTTCCACAAAATGGCAGGGCGTAACACCCGTTGCTGAGCATCCAGCAAGG -TTGCTCCGTGCATCTGGCCGGCAATACCCAATGCTTTAACGTCCTGCAGAGAATGCTGATCGCCCAGAGC -TTTCATTGCGCGATCAGTTGCCTGCCACCACTGTTCCGGGTCTTGTTCCGACCAGAGTGGATGCGGGCGC -GAAACGGTCAGCTTTTCCGTTTGCGCAGCAACCACCTCACCCTGCTCGTTGAGCAAAATAACTTTTACGC -CCGAGGTGCCAAGATCTATCCCGATATACATATCGATCGTTCCTTAAAAAAATGCCCGGTATCGCTACCG -ATAACCGGGCCAACGGACTGCACAGTTAGCCGTTATTTGTCGAACAGATAATGGTTTACCAGATTTTCCA -GTTGTTCCTGGCGACCACTCTGATGCACCGGAGACAAATGATGTTCCTGAGCATATTTGGCTAAATCTGC -CAGTGACATTTGGCCTTTCAGGATTTGCTGGCCCAATTCGCTATTCCAGCCGGAATAACGCTGCGCGATG -CGTTTATCCAGCTCGCCATCTTCAATCATGCGCGCTGCAATTTTCAGCGCCAGTGCCATCGTATCCATCG -CGCCGATATGACCGTAAAACAGATCATATTTATCAGTACTTTGACGACGTACTTTGGCATCGAAGTTCAG -ACCACCGGTGGTGAAACCGCCTGCTTTGAGAATTTCATACATCACCAGCGCATTCTCTTCCACACTGTTC -GGGAACTGGTCGGTGTCCCAGCCCAGTTGCGCATCGCCACGGTTGGCGTCGACAGAACCGAACAGGCCAA -GCGCAATGGCGGTGGCTATTTCATGATGGAAAGAGTGACCTGCCAGCGTCGCGTGGTTAGCTTCAATGTT -CAGTTTAATCTCTTTTTCCAGACCAAACTGTTTCAGGAAGCCATAGACCGTCGCGGCATCGTAATCATAT -TGATGTTTGGTCGGTTCTTGCGGTTTCGGTTCGATAAGCAACGTGCCCTGGAAACCGATTTTATGTTTAT -GCTCAACCACCATCTGCATAAAGCGGCCCAGTTGTTCACGCTCCTGACGCAAGTCGGTATTTAACAGCGT -TTCGTAACCTTCACGACCGCCCCACAGGACATAGTTTTCACCGCCCAATTTATGGGTTGCTTCCATCGCT -GTAACAACTTGCGTTGCCGCCCAGCTGAAGACTTCAGGATCTGGGTTCGTCGCCGCACCCGCGCCGTAGC -GAGGGTTTGTAAAGCAGTTGGCCGTTCCCCACAGCAGCTTCACGCCGCTCTCTTCTTGCTTGCCTGCCAG -GACATCAACCATTTGCGCAAAATTATTGATGTACTCTTTTAACGACGCGCCCTCAGGGGAAACATCCACA -TCGTGGAAGCAATAAAATGGCACATGTAACTTGTGGAAAAACTCAAATGCGACATCTGCTTTACGCTTCG -CCAACGCCAGTGCCTCACCAGGCTGCTGCCACGGACGATTAAACGCCCCCACACCAAACATATCCGCCCC -GTTCCAGCAGAAGGTGTGCCAGTAGCAGGCGGCAAAACGCAAGTGCTCTTCCATACGCTTACCCAACACC -AGTTCGTCGGGATTGTAGTGACGGAATGCTAACGGGTTTGAGGATTTTGAGCCTTCATAACGAACGCGAT -CGAGCTGGTCAAAATAGGCTTGCATATTGAACTCCATAATCAGGTAATGCCGCGGGTGATGGATGATGTC -GTAATATTGGGCACTCCCTTTCAGTTGCTCAATTATGTTATTTCACACTGCTATTGAGATAATTCACAAG -TGTGCGCTCGCTCGCAAAATAAAATGGAATGATGAAACTGGGTAATTCCTCGAAGAGAAAAATGCAATAA -GTACAATTGCGCAACAAAAGTAAGATCTCGGTCATAAATCAAGAAATAAACCAAAAATCGTAATCGAAAG -ATAAAAATCTGTAATTGTTTTCCCCTGTTTAGTTGCTAAAAATTGGTTACGTTTATCGCGGTGATTGTTA -CTTATTAAAACTGTCCTCTAACTACAGAAGGCCCTACACCATGAAAATAAAGAACATTCTACTCACCCTT -TGCACCTCACTCCTGCTTACCAACGTTGCTGCACACGCCAAAGAAGTCAAAATAGGTATGGCGATTGATG -ATCTCCGTCTTGAACGCTGGCAAAAAGATCGAGATATCTTTGTGAAAAAGGCAGAATCTCTCGGCGCGAA -AGTATTTGTACAGTCTGCAAATGGCAATGAAGAAACACAAATGTCGCAGATTGAAAACATGATAAACCGG -GGTGTCGATGTTCTTGTCATTATTCCGTATAACGGTCAGGTATTAAGTAACGTTGTAAAAGAAGCCAAAC -AAGAAGGCATTAAAGTATTAGCTTACGACCGTATGATTAACGATGCGGATATCGATTTTTATATTTCTTT -CGATAACGAAAAAGTCGGTGAACTGCAGGCAAAAGCCCTGGTCGATATTGTTCCGCAAGGTAATTACTTC -CTGATGGGCGGCTCGCCGGTAGATAACAACGCCAAGCTGTTCCGCGCCGGACAAATGAAAGTGTTAAAAC -CTTACGTTGATTCCGGAAAAATTAAAGTCGTTGGTGACCAATGGGTTGATGGCTGGTTACCGGAAAACGC -ATTGAAAATTATGGAAAACGCGCTAACCGCCAATAATAACAAAATTGATGCTGTAGTTGCCTCAAACGAT -GCCACCGCAGGTGGGGCAATTCAGGCATTAAGCGCGCAAGGTTTATCAGGGAAAGTAGCAATCTCCGGCC -AGGATGCGGATCTCGCAGGTATTAAACGTATTGCTGCCGGTACGCAAACTATGACGGTGTATAAACCTAT -TACGTTGTTGGCAAATACTGCCGCAGAAATTGCCGTTGAGTTGGGCAATGGTCAGGAACCAAAAGCAGAT -ACCACACTGAATAATGGCCTGAAAGATGTCCCCTCCCGCCTCCTGACACCGATCGATGTGAATAAAAACA -ACATCAAAGATACGGTAATTAAAGACGGATTCCACAAAGAGAGCGAGCTGTAAGCGTTACGCCCCAGCGC -GGAGCGGGGGCGTGATTTCTCTCCATGCCGCGTGAATGAATTGGCTTAGGTGGAGTCGTTATGCCTTATC -TACTTGAAATGAAGAACATTACCAAAACCTTCGGCAGTGTGAAGGCGATTGATAACGTCTGCTTGCGGTT -GAATGCTGGCGAAATCGTCTCACTTTGTGGGGAAAATGGGTCTGGTAAATCAACGCTGATGAAAGTGCTG -TGTGGTATTTATCCCCATGGCTCCTACGAAGGCGAAATTATTTTTGCGGGAGAAGAGATTCAGGCGAGTC -ACATCCGCGATACCGAACGCAAAGGTATCGCCATCATTCATCAGGAATTGGCCCTGGTGAAAGAATTGAC -CGTGCTGGAAAATATCTTCCTGGGTAACGAAATAACCCACAATGGCATTATGGATTATGACCTGATGACG -CTACGCTGTCAGAAGCTGCTCGCACAGGTCAGTTTATCCATTTCACCTGATACCCGCGTTGGCGATTTAG -GGCTTGGGCAACAACAACTGGTTGAAATTGCCAAGGCACTTAATAAACAGGTGCGCTTGTTAATTCTCGA -TGAACCGACAGCCTCATTAACTGAGCAGGAAACGTCGATTTTACTGGATATTATTCGCGATCTACAACAG -CACGGTATCGCCTGTATTTATATTTCGCACAAACTCAACGAAGTCAAAGCGATTTCCGATACGATTTGCG -TTATTCGCGACGGACAGCACATTGGTACGCGTGATGCTGCCGGAATGAGTGAAGACGATATTATCACCAT -GATGGTCGGGCGAGAGTTAACCGCGCTTTACCCTAATGAACCACATACCACCGGAGATGAAATATTACGT -ATTGAACATCTGACGGCATGGCATCCGGTTAATCGTCATATTAAACGAGTTAATGATGTCTCGTTTTCCC -TGAAACGTGGCGAAATATTGGGTATTGCCGGACTCGTTGGTGCCGGACGTACCGAGACCATTCAGTGCCT -GTTTGGTGTGTGGCCCGGACAATGGGAAGGAAAAATTTATATTGATGGCAAACAGGTAGATATTCGTAAC -TGTCAGCAAGCCATCGCCCAGGGGATTGCGATGGTCCCCGAAGACAGAAAGCGCGACGGCATCGTTCCGG -TAATGGCGGTTGGTAAAAATATTACCCTCGCCGCACTCAATAAATTTACCGGTGGCATTAGCCAGCTTGA -TGACGCGGCAGAGCAAAAATGTATTCTGGAATCAATCCAGCAACTCAAAGTTAAAACGTCGTCCCCCGAC -CTTGCTATTGGACGTTTGAGCGGCGGCAATCAGCAAAAAGCGATCCTCGCTCGCTGTCTGTTACTTAACC -CGCGCATTCTCATTCTTGATGAACCCACCAGGGGTATCGATATTGGCGCGAAATACGAGATCTACAAATT -AATTAACCAACTCGTCCAGCAGGGTATTGCCGTTATTGTCATCTCTTCCGAATTACCTGAAGTGCTCGGC -CTTAGCGATCGTGTACTGGTGATGCATGAAGGGAAACTAAAAGCCAACCTGATAAATCATAACCTGACTC -AGGAGCAGGTGATGGAAGCCGCATTGAGGAGCGAACATCATGTCGAAAAGCAATCCGTCTGAAGTGAAAT -TGGCCGTACCGACATCCGGTGGCTTCTCCGGGCTGAAATCACTGAATTTGCAGGTCTTCGTGATGATTGC -AGCTATCATCGCAATCATGCTGTTCTTTACCTGGACCACCGATGGTGCCTACTTAAGCGCCCGTAACGTC -TCCAACCTGTTACGCCAGACCGCGATTACCGGCATCCTCGCGGTAGGAATGGTGTTCGTCATAATTTCTG -CTGAAATCGACCTTTCCGTCGGCTCAATGATGGGGCTGTTAGGTGGCGTCGCGGCGATTTGTGACGTCTG -GTTAGGCTGGCCTTTGCCACTTACCATCATTGTGACGCTGGTTCTGGGACTGCTTCTCGGTGCCTGGAAC -GGATGGTGGGTCGCGTACCGTAAAGTCCCTTCATTTATTGTCACCCTCGCGGGCATGTTGGCATTTCGCG -GCATACTCATTGGCATCACCAACGGCACGACTGTATCCCCCACCAGCGCCGCGATGTCACAAATTGGGCA -AAGCTATCTCCCCGCCAGTACCGGCTTCATCATTGGCGCGCTTGGCTTAATGGCTTTTGTTGGTTGGCAA -TGGCGCGGAAGAATGCGCCGTCAGGCTTTGGGTTTACAGTCTCCGGCCTCTACCGCAGTAGTCGGTCGCC -AGGCTTTAACCGCTATCATCGTATTAGGCGCAATCTGGCTGTTGAATGATTACCGTGGCGTTCCCACTCC -TGTTCTGCTGCTGACGTTGCTGTTACTCGGCGGAATGTTTATGGCAACGCGGACGGCATTTGGACGACGC -ATTTATGCCATCGGCGGCAATCTGGAAGCAGCACGTCTCTCCGGGATTAACGTTGAACGCACCAAACTTG -CCGTGTTCGCGATTAACGGATTAATGGTAGCCATCGCCGGATTAATCCTTAGTTCTCGACTTGGCGCTGG -TTCACCTTCTGCGGGAAATATCGCCGAACTGGACGCAATTGCAGCATGCGTGATTGGCGGCACCAGCCTG -GCTGGCGGTGTGGGAAGCGTTGCCGGAGCAGTAATGGGGGCATTTATCATGGCTTCACTGGATAACGGCA -TGAGTATGATGGATGTACCGACCTTCTGGCAGTATATCGTTAAAGGTGCGATTCTGTTGCTGGCAGTATG -GATGGACTCCGCAACCAAACGCCGTTCTTGATTTTGATAAAAATTTTCTCAAAGCCGGTTACGTATTACC -GGTTTTGAGTTTTTGCATGATTCAGCAGGAAAAGAACCATGTTTACTAAACGTCACCGCATCACATTACT -GTTCAATGCCAATAAAGCCTATGACCGGCAGGTAGTAGAAGGCGTAGGGGAATATTTACAGGCGTCACAA -TCGGAATGGGATATTTTCATTGAAGAAGATTTCCGCGCCCGCATTGATAAAATCAAGGACTGGTTAGGAG -ATGGCGTCATTGCCGACTTCGACGACAAACAGATCGAGCAAGCGCTGGCTGATGTCGACGTCCCCATTGT -TGGGGTTGGCGGCTCGTATCACCTTGCAGAAAGTTACCCACCCGTTCATTACATTGCCACCGATAACTAT -GCGCTGGTTGAAAGCGCATTTTTGCATTTAAAAGAGAAAGGCGTTAACCGCTTTGCTTTTTATGGTCTTC -CGGAATCAAGCGGCAAACGTTGGGCCACTGAGCGCGAATATGCATTTCGTCAGCTTGTCGCCGAAGAAAA -GTATCGCGGAGTGGTTTATCAGGGGTTAGAAACCGCGCCAGAGAACTGGCAACACGCGCAAAATCGGCTG -GCAGACTGGCTACAAACGCTACCACCGCAAACCGGGATTATTGCCGTTACTGACGCCCGAGCGCGGCATA -TTCTGCAAGTATGTGAACATCTACATATTCCCGTACCGGAAAAATTATGCGTGATTGGCATCGATAACGA -AGAACTGACCCGCTATCTGTCGCGTGTCGCCCTTTCTTCGGTCGCTCAGGGCGCGCGGCAAATGGGCTAT -CAGGCGGCAAAACTGTTGCATCGATTATTAGATAAAGAAGAAATGCCGCTACAGCGAATTTTGGTCCCAC -CAGTTCGCGTCATTGAACGGCGCTCAACAGATTATCGCTCGCTGACCGATCCCGCCGTTATTCAGGCCAT -GCATTACATTCGTAATCACGCCTGTAAAGGGATTAAAGTGGATCAGGTACTGGATGCGGTCGGGATCTCG -CGCTCCAATCTTGAGAAGCGTTTTAAAGAAGAGGTGGGTGAAACCATCCATGCCATGATTCATGCCGAGA -AGCTGGAGAAAGCGCGCAGTCTGCTGATTTCAACCACCTTGTCGATCAATGAGATATCGCAAATGTGCGG -TTATCCATCGCTGCAATATTTCTACTCTGTTTTTAAAAAAGCATATGACACGACGCCAAAAGAGTATCGC -GATGTAAATAGCGAGGTCATGTTGTAGCGATGATGAGAATTGTCGGCGTCACATCAGGTAACGCTGCGTG -GTTGTCGGATGCGGCGTGAACGCCTTATCCGACCTACCCGCCAGGCATGATAAAACGCACCAACAACGCT -TCAGGCTCGTAGCTCAACTGCCTGAGACAAAGTAAAAAGCCTTATCCGACTGACAAGTCGGATAAGGCTC -AAGGAAATGCAATTACATATGCGCCGCGATTAACCGTTGGTTATCCTGGTACATTGCGAACAGGTAGTTG -TTATAACTCTTCCCTTTGGTCGAGTAGCCCTTCAGCTTGTGAATCATCGCTGTGGCAGTCACTTCCTGAT -CCGCTTTACGCAGCTGCGCACGCGATTTACGGAACGAAGAGTAAGCCGGGTGCGTATTCAGGTTAGTGAC -ATAGGCGCTCACCGATTCTTTGACAGAACTAAACTGTGAGTACCCTTTCACTTTACCTGGCGCATTGGTA -CAACGTCCTTTCATGCATTTCATGCCGAACAGGTTGTTGTTGTTGCGCGCCAGCTTCGACGTTCCCCAAC -CGCTTTCTGCTGCAGCCATCGTCGCCACCATACTGGTGGGGATAATGTCTACGCGTTCAAGCAAGGTATT -CCACGGGATTTTTCGCGTATTACCGGACCACTTCACCTTGTAGCGTTTGGCGATGTCTTTCAGACGCGCA -CGCTCAGCAGGTGACCATTGGCCCTGATACTGTTTTGAAATGAGCCAGTTACGTTCCGCAGTAATGGCCG -CATTTTGGCTGGTAATGTAAGGCATTACGGTCCGGAGAAACGCCTTTTTCCTTGGTGTTCCGGAAGGGTA -TTTTCGCAAATCAGGAAGTGAACTACTCTTTGCACTATTGCGAGAATACTCTTGTTTACTGCTTACCTGT -TTATTACTAGCTTTAGTTAAGTGGGACTTTTGACTCGCTGTTGTTGTGTGCGTCTTCGCTAACACCTCAC -TCGAAAACACCAGAGTGAGTAACATAAGAATCATCGCCCCATATCGTCGTATGGGAGTCAAAATCATCAG -GTCTCCTGGTCGGATTTAATCATTCCAACACCTTATATTTTTCACAAATTTGAGAGTTGAATCTCAAATC -ATATCAAAAATAGCTGTCAAGAGCACCCCAAGGAATAGTCCAAATCTGAAACTATGTCACGTGTTAACGA -TTCAGATTGGCGCTAAATCGCAGAAAATGTGGGGGTTATCGCAAAATTCAGCCGTTTTTTGCGCGAGATC -GCTCACCCTTGCTTCTCATCCTGTGGACTTACCGCTCAGGGATGAGTTTTGTTTGGCTTATCGCTGGCAA -ACTGTCTGAAATCGCAGCAATAAGGACTCATCCGCCATGAAACTCGCCGCCTGTTTTCTGACACTCCTTC -CTGGCTTCGCCGTTGCCGCCAGCTGGACTTCTCCGGGGTTTCCCGCCTTTAGCGAACAGGGGACAGGAAC -ATTTGTCAGCCACGCGCAGTTGCCCAAAGGTACGCGTCCACTAACGCTAAATTTTGACCAACAGTGCTGG -CAGCCTGCGGATGCGATAAAACTCAATCAGATGCTTTCCCTGCAACCTTGTAGCAACACGCCGCCTCAAT -GGCGATTGTTCAGGGACGGCGAATATACGCTGCAAATAGACACCCGCTCCGGTACGCCAACATTGATGAT -TTCCATCCAGAACGCCGCCGAACCGGTAGCAAGCCTGGTCCGTGAATGCCCGAAATGGGATGGATTACCG -CTCACAGTGGATGTCAGCGCCACTTTCCCGGAAGGAGCCGCCGTACGGGATTATTACAGCCAGCAAATTG -CGATAGTGAAGAACGGTCAAATAATGTTACAACCCGCTGCCACCAGCAACGGTTTACTCCTGCTGGAACG -GGCAGAAACTGACACATCCGCCCCTTTCGACTGGCATAACGCCACGGTTTACTTTGTGCTGACAGATCGT -TTCGAAAACGGCGATCCCAGTAATGACCAGAGTTACGGACGTCATAAAGACGGTATGGCGGAAATTGGCA -CTTTTCACGGCGGCGATTTACGCGGCCTGACCAACAAACTGGATTACCTCCAGCAGTTGGGCGTTAATGC -TTTATGGATAAGCGCCCCATTTGAGCAAATTCACGGCTGGGTCGGCGGCGGTACAAAAGGCGATTTCCCG -CATTATGCCTACCACGGTTATTACACACAGGACTGGACGAATCTTGATGCCAATATGGGCAACGAAGCCG -ATCTACGGACGCTGGTTGATAGCGCACATCAGCGCGGTATTCGTATTCTCTTTGATGTCGTGATGAACCA -CACCGGCTATGCCACGCTGGCGGATATGCAGGAGTATCAGTTTGGCGCGTTATATCTTTCTGGTGACGAA -GTGAAAAAATCGCTGGGTGAACGCTGGAGCGACTGGAAACCTGCCGCCGGGCAAACCTGGCATAGCTTTA -ACGATTACATTAATTTCAGCGACAAAACAGGCTGGGATAAATGGTGGGGAAAAAACTGGATCAGAACGGA -TATCGGCGATTACGACAATCCTGGATTCGACGATCTCACTATGTCGCTAGCCTTTTTGCCGGATATCAAA -ACCGAATCAACTACCGCTTCTGGTCTGCCGGTGTTCTATAAAAACAAAATGGATACCCACGCCAAAGCCA -TTGACGGCTATACGCCGCGCGATTACTTAACCCACTGGTTAAGTCAGTGGGTCCGCGACTATGGGATTGA -TGGTTTTCGGGTCGATACCGCCAAACATGTTGAGTTGCCCGCCTGGCAGCAACTGAAAACCGAAGCCAGC -GCCGCGCTTCGCGAATGGAAAAAAGCTAACCCCGACAAAGCATTAGATGACAAACCTTTCTGGATGACCG -GTGAAGCCTGGGGCCACGGCGTGATGCAAAGTGACTACTATCGCCACGGCTTCGATGCGATGATCAATTT -CGATTATCAGGAGCAGGCGGCGAAAGCAGTCGACTGTCTGGCGCAGATGGATACGACCTGGCAGCAAATG -GCGGAGAAATTGCAGGGTTTCAACGTGTTGAGCTACCTCTCGTCGCATGATACCCGCCTGTTCCGTGAAG -GGGGCGACAAAGCAGCAGAGTTATTACTATTAGCGCCAGGCGCGGTACAAATCTTTTATGGTGATGAATC -CTCGCGTCCGTTCGGTCCTACAGGTTCTGATCCGCTGCAAGGTACACGTTCGGATATGAACTGGCAGGAT -GTTAGCGGTAAATCTGCCGCCAGCGTCGCGCACTGGCAGAAAATCAGCCAGTTCCGCGCCCGCCATCCCG -CAATTGGCGCGGGCAAACAAACGACACTTTTGCTGAAGCAGGGCTACGGCTTTGTTCGTGAGCATGGCGA -CGATAAAGTGCTGGTCGTCTGGGCAGGGCAACAGTAACTTTTCCGGCTTCCCGTTCGTCAGTACCTCGGG -AAGCCGCCAACCAGGATAAAATGTCAGCCCTAATCAGCGTTGCAGGATAAAGCACCGCTCACTCTTCAAC -AGACCGATTTGCACCCCAGCAAATGTAGCGTTATTGTTACCTTCCTTGCTACAGAGTTCGACAGATATCC -CGCTATGACATTCTCCCTTTTTGGTGACAAATTTACCCGCCACTCCGGCATTACGCTGTTGATGGAAGAT -CTGAACGACGGTTTACGCACGCCTGGCGCGATTATGCTCGGCGGCGGTAATCCGGCGCAGATCCCGGAAA -TGCAGGACTACTTCCAGACGCTACTGACCGACATGCTGGAAAGTGGCAAAGCGACTGATGCACTGTGTAA -CTACGACGGTCCACAGGGGAAAACGGAGCTACTCACACTGCTTGCCGGAATGCTGCGCGAGAAGTTGGGT -TGGGATATCGAACCACAGAATATTGCACTAACAAACGGCAGCCAGAGCGCGTTTTTCTACTTATTTAACC -TGTTTGCCGGACGCCGTGCCGATGGTCGGGTCAAAAAAGTGCTGTTCCCGCTTGCACCGGAATACATTGG -CTATGCTGACGCCGGACTGGAAGAAGATCTGTTTGTCTCTGCGCGTCCGAATATTGAACTGCTGCCGGAA -GGCCAGTTTAAATACCACGTCGATTTTGAGCATCTGCATATTGGCGAAGAAACCGGGATGATTTGCGTCT -CCCGGCCGACGAATCCAACAGGCAATGTGATTACTGACGAAGAGTTGCTGAAGCTTGACGCGCTGGCGAA -TCAACACGGCATTCCGCTGGTGATTGATAACGCTTATGGCGTCCCGTTCCCGGGTATCATCTTCAGTGAA -GCGCGCCCGCTATGGAATCCGAATATCGTGCTGTGCATGAGTCTTTCCAAGCTGGGTCTACCTGGCTCCC -GCTGCGGCATTATCATCGCCAATGAAAAAATCATCACCGCCATCACCAATATGAACGGCATTATCAGCCT -GGCACCTGGCGGTATTGGTCCGGCGATGATGTGTGAAATGATTAAGCGTAACGATCTGCTGCGCCTGTCT -GAAACAGTCATCAAACCGTTTTACTACCAGCGTGTTCAGGAAACTATCGCCATCATTCGCCGCTATTTAC -CGGAAAATCGCTGCCTGATTCATAAACCGGAAGGAGCCATTTTCCTCTGGCTATGGTTTAAGGATTTGCC -CATTACGACCAAGCAGCTCTATCAGCGCCTGAAAGCACGCGGCGTGCTGATGGTGCCGGGGCACAACTTC -TTCCCAGGGCTGGATAAACCGTGGCCGCATACGCATCAATGTATGCGCATGAACTACGTACCAGAGCCGG -AGAAAATTGAGGCGGGGGTGAAGATTCTGGCGGAAGAGATAGAAAGAGCCTGGGCTGAAAGTCACTAAAA -ATTGCCTGATGCGCTACGCTTATCAGGCCTACATGATTTCTGCAATATATTGAATTTGGAAGAATTTGTA -GGCCGGATAAGGCGTTTACGCCGCATCTGGCATAAACAAAGCGCACTGTTCCGGCGTTGAGAAACGCCGG -AAAACGTTTCAAACAGGCTGCTGCCGTAGCCGATGCCGCTGCACTTTCTCGACATCCATGCACTGCAACG -CCTTTGTCGGGCAGGCTTCAACACAGGCCGGTCCCGTCTCCCGATGCCAGCACAGATCGCACTTAATCGC -CCTCGCCTTTTTGCGCGAAGAAACGACCTCCATCGCACCAAACGGGCAAGCCAGCATACAGCTTTTACAG -CCAATGCAACGTGTTTGTTCAACGAAAATATGCCCATGTTCGCGGCTTATCGCGTCAACAGGGCAGACAT -TCGCGCACGGTGCATCTTCACACTGATGACAGGCTACTGCCGTGGTCCAGCAGTGGTCTTTAATGACACG -AATACGGGAAATAAACTCGTCTGGTGACAACGCAGCGCAATCCTGATTCTCATGATGCGACACTGCGCAA -GCCACTTCACAGGTACGGCAACCGATACATTTCGTCGCATCCGCAATAATAAACCGGTTCATGATCACTC -CTTTGCACTAAAACAGCAGAGTGCCAGAGAGCGCGTCCCTACTGCTTTGATCCAACGAAGGAAATGTTAA -AGTTTTGGCACTTGTCCAAAGCGTTATGTGATCGCGCCCAGGTCATCCCTGACAGTAAATCCCAGTTCAT -TAGAAATAGCCTGCGCGGTTTCACGCAGTGGTTTCAGGAGATTTTTCTCTCCCACCTGTTTCAGACGTGA -TGTCGAAAGCGAAATCGACACGGCGTACGGCACCCGCCCATGAATATCAAACACCGGAACAGCAATACAG -GAGACGCCGAGTTCGTTTTCTTCTCTGTCCATCGCCGCTCCGCTTTCACGAATGTGCGCCAGTTCGTCGA -ACATCGCGGGCAGCTCGGTAATGGTATTGCGGGTTAACGGCTGGATCTCATGCTGATGGCTTTCCCAGTA -TGACTTCACGTAGTCCGGGTGACCAAACGCCATGTAGATCTTGCCCATTGCGGAACAGTAGAGCGGCATA -TGCTGGCCAATATAGGCACGGGTTCGCAGCATCCCGGTTGTGGGTTCCAGCTTATAAATCAAAATAGCGT -GATCGTCTTCGCGGCTGGAGAAGTTAATGGTTTCACCAGTGGCGATGTTCAGTGCCTCAAGATGCGGAGC -GGCGATATGAATGATATTCAGCGAAGACAGCGCCTTCTGCCCGACGGCAATAAATTTGGTGGTCAGGCGA -TAACTCCCTGCGGCAGGCGCGGTGGTCACATAGCCGCAGGACTGTAATCCCTGCAATAAGCGATGGACGG -TACTCTTATTTAAACCAGCCAGCTCCGAAAGATGCGCCAACGGACAACCGTTTGGATAGTTGCTCAAAAT -CTCAATCAGCATCAACCCGCGAAACAGACTCTGGCTTCCGGCTGGACGCTCTTTTTCCTGCGCCATCTCG -TTCTCTTTTTTTCCCATCACTTCTTTCCCCATTTTGTCGCGTCCTGATGGTAGCGCAAAGTGTGCCGTAG -TTCACGATCTCGACAGATAATTTATAACCAATTGATTTTTATGTCTTTTGAAATTCATCAATCAGATTGC -CTTGTTAAAAAGTGATCGATATATTTGAAATCAAGTTTCGCATATTGAAATTTTAAGCCAAAAAAGCGAT -CAAAAAAACAAGGAAGCCTGGGATGAAAGTGACATTTGAGCAGTTAAAAGCAGCCTTTAATCGGGTCTTA -ATTTCACGCGGCGTTGACAGCGAAACGGCTGACGCCTGTGCAGAGATGTTCGCCCGCACCACCGAATCCG -GCGTTTATTCTCACGGCGTTAATCGTTTCCCTCGTTTCATTCAACAACTGGAAAACGGCGATATCATTCC -TGATGCCCAACCCAAACGTATAACCAGCCTCGGCGCAATTGAACAGTGGGACGCCCAGCGTTCGATCGGT -AACCTGACAGCGAAAAAGATGATGGATCGCGCCATTGAACTGGCTGCCGATCACGGTATTGGTCTGGTGG -CACTACGTAATGCCAACCACTGGATGCGCGGCGGCAGCTACGGCTGGCAGGCGGCGGAAAAAGGCTATAT -TGGCATTTGCTGGACCAACTCCATCGCCGTAATGCCGCCGTGGGGCGCAAAAGAGTGTCGCATAGGCACT -AACCCGCTGATCGTCGCCATTCCTTCCACGCCGATCACCATGGTCGATATGTCGATGTCGATGTTCTCTT -ACGGCATGTTAGAAGTTAACCGTCTGGCAGGTCGTCAGCTCCCGGTCGATGGTGGCTTTGATGATGAGGG -CAATTTGACCAAAGAACCTGGCGTTATCGAGAAGAATCGCCGCATTTTGCCGATGGGCTACTGGAAAGGT -TCTGGCATGTCGATTGTGCTGGATATGATCGCTACTCTCCTTTCCGACGGCGCATCCGTTGCCGAAGTCA -CCCAGGACAACAGCGACGAATACGGCATTTCACAAATTTTTATTGCCATTGAAGTGGACAAGCTTATCGA -CGGTCCCACCCGCGATGCCAAGCTGCAACGCATCATGGATTACGTTACTAGTGCCGAGCGTGCTGACGAA -AATCAGGCCATTCGCTTACCCGGCCATGAATTTACTACCCTGCTGGCCGAAAACCGCCGTAACGGCATCA -CTGTTGATGACAGCGTGTGGGCCAAAATCCAGGCGTTATGAGGAGATAAGTCATGATTTTTGGACATATC -GCGCAGCCCAATCCGTGCCGTTTGCCCGCCGCCATTGAAAAGGCGCTCGATTTTCTGCGCGCTACCGATT -TCAACGCCCTGGAGCCGGGCGTTGTCGAAATCGACGGCAAAAATATTTATACGCAAATTATCGATTTAAC -CACACGCGAAGCGGTGGTAAACCGTCCGGAAGTGCATCGTCGGTATATCGATATTCAGTTTCTGGCGTGG -GGCGAAGAGAAAATCGGCATTGCTATTGATACGGGAAATAATAAAGTCAGCGAATCACTATTAGAGCAGC -GCAATATTATTTTTTATCACGACAGTGAACATGAATCATTTATAGAAATGATACCGGGCAGCTACGCAAT -TTTCTTTCCGCAGGATGTTCACCGACCAGGTTGTATTATGCAAACAGCCTCTGAGATACGAAAAATTGTG -GTTAAAGTCGCATTAACGGCGCTGAATTAATCGAATAATCGTCTACGCCAGAACGCCTGGGTAATGTTAT -TGCTCTAACTATATTAATAATTCAGGTTGCTGCACATGCGACTTGAATTATGACAGACATAGCCTCAAGG -AATAGCTATGAAAAAAATACTCGAAGCAATACTGGCGATTAATCTCGCCGTACTTTCCTGTATTGTATTT -ATAAACATTATTTTAAGATATGGTTTTCAGACAAGCATTTTATCTGTTGATGAATTGTCACGTTATTTAT -TTGTCTGGTTAACGTTTATTGGCGCGATTGTAGCTTTTATGGATAACGCCCACGTTCAGGTCACCTTTCT -GGTGGAGAAACTCTCCCCCGCATGGCAGCGACGAGTCGCTCTGGTTACCCATTCCTTAATCTTATTTATT -TGTGGCGCACTGGCCTGGGGCGCAACGCTAAAAACAATTCAGGACTGGAGCGATTATTCACCGATCCTCG -GTTTACCCATCGGCCTGATGTATGCCGCTTGTCTGCCCACCAGCCTCGTTATCGCATTCTTTGAACTGCG -TCATTTATATCAACTCATCACGCGTAGCAATTCTCTAACGTCGCCACCGCAAGGAGCTTAATCATGGCTG -TGCTGATTTTTCTGGGCTGTCTGTTGGGTGGTATTGCTATCGGTTTGCCTATTGCCTGGGCACTGTTGTT -GTGCGGGGCGGCGTTAATGTTCTGGCTGGACATGTTTGATGTCCAGATCATGGCACAAACGCTGGTGAAC -GGAGCCGATAGCTTCTCCCTGCTGGCGATTCCGTTCTTTGTGCTGGCGGGTGAAATCATGAATGCGGGCG -GCTTGTCAAAACGCATTGTTGACCTGCCGATGAAACTGGTGGGGCATAAACCAGGCGGGCTGGGCTACGT -CGGCGTGCTGGCAGCTATGATTATGGCGAGCCTTTCTGGTTCTGCCGTTGCGGATACCGCCGCCGTTGCC -GCTCTACTGGTGCCGATGATGCGCAGCGCCAACTATCCGGTCAACCGGGCGGCGGGGCTGATTGCCTCTG -GCGGCATTATCGCGCCAATTATTCCCCCTTCCATTCCGTTTATTATCTTCGGCGTTTCCAGCGGATTATC -CATCAGTAAGCTGTTTATGGCGGGCATTGCCCCTGGCATGATGATGGGCGCAACGCTGATGCTTACCTGG -TGGTGGCAGGCCAGTCGCCTTAATTTACCCCGCCAGCAAAAAGCAACGATGCAGGAAATCTGGCACTCTT -TTGTCTCCGGTATCTGGGCGCTGTTTCTTCCAGTCATCATTATTGGCGGGTTTCGCTCCGGCCTGTTTAC -CCCTACCGAAGCCGGGGCCGTTGCTGCTTTCTATGCGCTGTTTGTCGCCACAGTTATTTACCGTGAAATG -ACCTTCGCCACACTTTGGCATGTACTCATTGGCGCGGCGAAAACCACCTCAGTGGTTATGTTTCTGGTGG -CCTCGGCACAAGTTTCCGCCTGGCTGATTACCATTGCTGAACTGCCGATGATGGTTTCTGATTTACTGCA -ACCGTTGGTCGATTCACCGCGTCTGCTGTTTATCGTCATTATGGTGGCTATCCTGATTGTCGGCATGGTC -ATGGATTTAACGCCGACGGTATTAATTCTTACCCCGGTATTAATGCCTTTAGTTAAAGAGGCAGGAATCG -ATCCGATTTATTTCGGTGTCATGTTTATCATTAACTGCTCAATCGGCTTAATTACACCGCCTATCGGTAA -TGTACTTAACGTTATTTCAGGGGTGGCAAAACTCAAATTCGATGATGCAGTCAGAGGCGTTTTCCCTTAC -GTCCTGGTTTTATATTCATTATTAGTCGTATTTGTTTTTATTCCCGATCTCATCATCCTCCCTTTGAAAT -GGATTAATTAAAAGGAAAATATTATGAAATTACGCTCTGTAACCTACGCATTATTCATTGCTGGCCTGGC -TGCATTCAGCACATCTTCTCTGGCGGCACAATCTTTACGTTTCGGTTATGAAACATCACAAACCGACTCG -CAACATATTGCGGCGAAAAAATTCAATGATTTATTGCAGGAGAGAACCAAAGGCGAGCTGAAATTAAAAC -TGTTCCCGGACAGCACTCTCGGTAACGCGCAGGCGATGATCAGCGGCGTACGTGGCGGCACCATCGATAT -GGAAATGTCCGGCTCGAATAACTTTGCCGGGTTATCACCAGTGATGAACTTGCTTGATGTCCCTTTCCTG -TTCCGCGATACCGCTCACGCGCATAAAACGCTCGACGGCAAAGTCGGTGATGATCTGAAAGCCTCACTTG -AAGGTAAAGGACTGAAAGTACTGGCCTACTGGGAAAACGGCTGGCGCGATGTCACCAACTCGCGCGCACC -GGTTAAAACCCCCGCCGACCTGAAAGGGCTGAAAATCCGCACCAACAATAGCCCGATGAATATCGCCGCA -TTCAAAGTCTTTGGCGCTAACCCGATCCCGATGCCGTTTGCCGAAGTCTATACCGGGCTGGAAACCCGCA -CTATCGACGCTCAGGAACACCCGATCAACGTCGTCTGGTCAGCAAAATTTTTCGAAGTGCAGAAGTTCCT -TTCTCTGACGCACCACGCCTATTCCCCGCTTCTGGTGGTGATCAACAAAGCGAAGTTTGATGGCTTAAGT -CCGGAGTTCCAGCAGGCGCTAGTTTCATCTGCACAAGAAGCGGGTAACTATCAGCGCAAACTGGTTGCTG -AAGATCAGCAAAAAATCATCGACGGCATGAAAGAAGCGGGCGTGGAAGTCATCACCGATCTCGACCGCAA -AGCCTTTAGCGACGCACTGGGGAATCAGGTTCGCGACATGTTTGTTAAAGATGTGCCGCAGGGAGCTGAT -CTGCTGAAAGCCGTGGATGAGGTGCAATAAACCATGACGCAATACTGGCTGGGGTTAGATTGTGGCGGTA -GCTGGCTGAAAGCCGGGCTGTATGACCGCGAAGGCCGGGAGGCAGGCGTGCAGCGCCTGCCGCTGTGCGC -ATTAAGCCCGCAGCCAGGCTGGGCAGAGCGCGATATGGCAGAACTGTGGCAATGCTGCATGGCTGTCATT -CGCGCCCTGCTTACTCATTCTGGTGTTAGCGGGGAACAAATTGTCGGTATCGGCATCTCCGCACAGGGAA -AGGGCTTGTTTTTGCTGGATAAAAACGACAAACCGCTCGGGAATGCTATTTTGTCCTCGGACCGCCGGGC -GATGGAAATCGTTCGTCGCTGGCAGGAAGATGGCATCCCGGAAAAACTCTACCCGCTGACCCGACAAACC -TTGTGGACCGGGCATCCGGTGTCGCTGTTACGCTGGCTGAAAGAGCACGAACCAGAACGCTACGCGCAAA -TTGGCTGCGTGATGATGACGCACGACTACCTGCGCTGGTGTTTAACTGGCGTCAAAGGCTGTGAAGAGAG -CAATATTTCCGAGTCCAACCTCTACAACATGAGTCTTGGGGAATATGACCCGTGCCTCACCGACTGGCTG -GGGATCGCTGAAATCAATCACGCCCTGCCGCCTGTTGTCGGATCTGCCGAAATCTGCGGGGAGATCACCG -CTCAGACAGCCGCCCTGACCGGTCTGAAAGCGGGTACGCCCGTTGTTGGCGGCCTGTTTGATGTGGTTTC -CACCGCACTCTGCGCCGGGATCGAAGACGAATTTACCCTCAATGCGGTGATGGGGACCTGGGCGGTGACC -AGCGGCATAACCCGCGGTTTACGTGACGGTGAAGCGCATCCGTATGTCTATGGTCGCTACGTTAACGATG -GTGAATTTATCGTTCACGAAGCCAGCCCTACCTCTTCCGGCAACCTCGAATGGTTTACCGCACAGTGGGG -AGAAATCTCGTTTGATGAGATCAATCAGGCCGTTGCCAGCTTGCCGAAGGCTGGGGGCGATCTCTTTTTC -CTGCCGTTCCTGTACGGCAGCAACGCCGGACTCGAGATGACCAGTGGTTTCTACGGGATGCAGGCCATTC -ACACCCGCGCGCACCTGTTGCAGGCCATCTATGAAGGGGTGGTGTTCAGCCATATGACCCACCTCAACCG -AATGCGCGAACGTTTTACTGATGTTCACACCCTACGCGTCACTGGCGGCCCGGCGCACTCCGATGTCTGG -ATGCAAATGCTGGCGGACGTCAGCGGTCTGCGTATCGAGCTGCCGCAGGTGGAAGAAACCGGCTGCTTTG -GTGCGGCCCTTGCCGCCCGCGTCGGCACCGGGGTTTATCACAACTTCAGCGAAGCCCAACGTGACTTGCG -ACACCCGGTGCGCACCCTGCTGCCAGATATGACCGCCCATCAGCTTTACCAAAAAAAATATCAACGTTAT -CAGCATCTCATTGCCGCACTTCAGGGCTTTCACGCCCGCATTAAGGAGCACACATTATGAGCCGACCACT -TCTGCAACTGGCCCTCGACCACTCATCACTTGAAGCCGCGCAGCGCGACGTGACGCTGTTAAAAGACAGC -GTCGATATCGTCGAAGCGGGCACCATTCTCTGTTTAAACGAAGGGCTTGGCGCGGTGAAAGCCTTGCGCG -AACAGTGCCCGGACAAAATCATCGTTGCTGACTGGAAGGTCGCCGACGCTGGTGAAACGCTCGCGCAACA -GGCGTTTGGCGCAGGCGCTAACTGGATGACCATCATCTGCGCCGCGCCGCTCGCGACGGTAGAAAAAGGC -CACGCAATGGCACAACGCTGCGGGGGTGAAATTCAGATAGAGCTGTTCGGTAACTGGACGCTGGACGACG -CCCGCGACTGGCATCGTATTGGCGTGCGGCAGGCCATTTATCATCGCGGTCGTGATGCACAGGCCAGCGG -GCAACAGTGGGGCGAAGCCGATCTGGCACGCATGAAGGCGCTTTCAGATATCGGCCTTGAGCTTTCCATT -ACTGGCGGGATTACCCCTGCTGACCTGCCGCTGTTTAAAGATATCCGCGTGAAAGCGTTTATTGCCGGGC -GGGCACTGGCAGGCGCGGCAAATCCGGCGCAAGTGGCTGGCGATTTCCATGCGCAAATCGACGCTATCTG -GGGAGGTGCGCGTGCGTAATCATCAGTTAGGGATTTATGAAAAAGCGCTGGCGAAAGATCTCTCCTGGCC -GGAGCGGCTGGTGCTGGCAAAAAGCTGCGGTTTTGATTTTGTCGAAATGTCGGTGGATGAAACCGACGAA -CGGCTCTCACGTCTTGACTGGAGCGCCGCACAAAGGACTTCGCTGGTTGCCGCGATGATCGAAACAGGTG -TTGGGATCCCGTCGATGTGCCTGTCCGCACATCGTCGCTTTCCCTTTGGTAGCCGTGACGAGGCAGTGCG -CGAACGGGCGCGGGAAATCATGAGTAAAGCGATTCGCCTGGCGCGCGATCTCGGCATTCGCACCATCCAG -CTGGCAGGTTATGACGTCTATTACGAAGACCACGACGAAGGCACCCGGCAACGTTTTGCTGAAGGGCTGG -CGTGGGCAGTCGAACAGGCGGCGGCATCACAAGTAATGCTGGCGGTGGAGATTATGGATACCGCGTTTAT -GAACTCCATCAGCAAATGGAAAAAATGGGACGAGATGCTCGCCTCACCGTGGTTCACCGTCTACCCGGAC -GTCGGCAACCTCAGCGCCTGGGGCAATGATGTTCCCGCCGAACTGAAACTGGGCATTGACCGTATCGCCG -CGATCCACCTGAAAGACACCCAGCCAGTCACCGGGCAAAGTCCCGGACAGTTCCGCGACGTGCCGTTTGG -CGAAGGCTGCGTCGATTTCGTTGGCATCTTCAAAACGCTGCATAAACTGAACTATCGCGGTTCTTTCCTG -ATTGAGATGTGGACCGAAAAAGCCAAAGAGCCGGTGCTGGAGATTATTCAGGCGCGGCGTTGGATTGAAG -CGCGTATGCAGGAGGCTGGATTTATATGTTAGAGCAACTGAAAGCCGACGTGCTGGCGGCGAATCTGGCG -CTTCCCGCTCACCATCTGGTGACGTTCACCTGGGGCAATGTCAGCGCGGTAGACGAAACGCGGCAATGGA -TGGTAATCAAACCTTCCGGCGTCGAGTACGACGTGATGACCGCCGACGATATGGTGGTGGTTGAGATAGC -CAGCGGTAAGGTGGTGGAAGGCAGCAAAAAACCCTCTTCCGATACACCAACGCATCTGGCGCTCTACCGT -CGCTATGCCGAAATTGGCGGTATTGTGCATACCCACTCGCGCCACGCCACCATCTGGTCACAGGCCGGGC -TGGATCTCCCCGCCTGGGGCACCACCCACGCCGATTATTTTTACGGTGCCATCCCCTGCACGCGACAGAT -GACCGCAGAGGAGATTAACGGCGAATATGAATATCAGACCGGCGAAGTGATCATTGAAACCTTCGAAGAA -CGTGGCAGGAGTCCGGCACAAATCCCGGCGGTGCTGGTGCATTCTCACGGCCCGTTCGCATGGGGTAAAA -ACGCCGCCGATGCCGTGCATAACGCCGTAGTACTCGAAGAATGCGCCTATATGGGTCTATTCTCGCGCCA -GCTTGCGCCGCAGCTCCCTGCGATGCAAAACGAACTGCTGGATAAGCACTACCTGCGTAAGCATGGGGCC -AATGCCTATTACGGGCAGTAATCCCTCACGCCGGGGCTTCATCGCCCCGGCACTACGAATTGATATGTTC -CTTGCTGTAACGCCGCTTCCACGCTGCTGGCGTTAAACCAGTATGTTTCTGAAAAATCTGCCGGAAATAG -CCAACGTCATTAAACCGTATTGCATGGAGCAGGCCGACAACGTCGAGTCACTGCATAACCTGTTGCTGCC -CGCCGATGCGCCATTTACGACATTTGAAGGCAAGGGATTGTTCAGCCATAAGATCCTGATTCAGACGCCA -GGTTCCCGGTATGAACAGAGCAATCCAGAGCAACAACCTTTGTGGCATTACGACGGAGCACCAGCCGCAC -CGACATCCACCGGTGAATTAAAAACGCCAGCTCACCCCGGTGACAAAGGTAAAACTCTCATTACGATCAA -TCATCGGGCTGTCGGTAATCTCTTCCGGCAGCTCGCTGTATCCTGCGCTCGCCATCAATACGACGTGCTC -TCCTATCGGGTATTTTGCCGTCAGGCTGACATAGGGCACCCAGGCATCCTGCGCGGAATAACTTGCCAGA -CCGCTACGACGGGACTCACTCTCTGAAATGCCATAGTAATAGTCACTGAAATTCTCGTCATAATAGAGAA -CGCCCAGCGCAGGTGTCAGCGACAGACGACCTATCTGCATTTTGTGGAATACCGATAGCTCCCCCACCCA -GCCGTTGCTGTTATCCAGAACGTCCGCAGCTGCAGAGGCTTTCACGGTTCCCCAACGCTCGTGGTGATAC -CAGGCAACCCCCGCCATAGCCGTACTATCACGCTTATCAAGCTGTTGCATGGCATAATCGTCATTATCGG -TAGGGTCAAATTCCAGCGGCATCCAGGATGCGGTCAGGCTAAGTTCATTTTTTTCACTTTGCGACAGAAT -AAAACCTAACGTGGTCTGACGAACATAAAAAGTATCACCTTCATAACTAATCAGCGGAATTGCCTTCGTA -TTTTCATTATAACCGCGATAAGGCGATTCATTATAAGCCGCACCAGCACCAATGGATAATTCAGAAGCAG -TTGCGCTTGCCATAAAAGGCAACGCAAATAACGCCACAATATTGCGATTAATTAACATGTCCGGTATTCC -ATTTTAAAATAAGATAAAAAAGAGTCGGCATAATAATGCTTACAATTTCTCCGGTGCAAGATTCATATTT -ATATAGTAATATATAAAATTATATATAATTGGGCTGTTGCGATGACAAAATTACAACTTAAGTACCGGGA -GTTAAAAATTATCTCGGTAATCGCTGCCAGTGAAAATATCAGCCATGCCGCGACTGTACTTGGCATCGCA -CAGGCCAACGTCAGCAAATATCTTGCTGATTTTGAATCAAAAGTGGGTTTAAAAGTCTTTGACCGAACCA -CCCGGCAGCTGATGCTCACACCTTTTGGCACCGCGCTGTTACCGTACATCAACGACATGCTGGACAGAAA -CGAGCAACTTAATAATTTTATTGCAGATTATAAGCATGAGAAACGTGGTCGGGTCACCATCTACGCCCCA -ACCGGCATAATTACCTATTTATCCAAACATGTAATCGATAAAATTAAAGATATCGGTGATATCACCTTAT -CGCTAAAAACCTGCAATCTTGAGCGTAATGCCTTTTATGAAGGCGTCGAATTTCCTGATGATTGTGATGT -TTTAATCAGCTACGCTCCACCAAAAGATGAATCGCTGGTTGCCAGTTTTATTACCCAATATGCCGTAACC -GCTTATGCCAGCCAGCGCTATCTTGAGAAACATCCCATTAGCCGTCCTGACGAACTCGAACATCACTCCT -GTATTTTGATCGACTCGATGATGATCGACGACGCGAATATCTGGCGCTTCAACGTCGCCGGGAGTAAAGA -GGTGCGGGATTATCGCGTGAAGGGAAATTACGTTTGCGACAACACGCAATCTGCGCTGGAGCTGGCACGA -AATCACCTGGGGATTGTGTTTGCGCCAGACAAAAGTGTGCAGAGCGACCTGCAAGACGGCACGCTGGTGC -CCTGCTTTCAGCAACCCTATGAATGGTGGCTGGATCTGGTGGCTATCTTCCGTAAACGGGAATACCAGCC -CTGGCGGGTCCAGTATGTGCTGGATGAAATGCTGCGTGAAATTCGCCACCAGCTTGCTCAGTCGCAGCAA -CTGCGGCCTGAACAAGCGGCGGAAAGCGAAGATTAATGATCGAGATAAAGGTAATGCACCCAGCTGGTCA -TGCGTAATAGCACTTTGCGCATCACCGAGACATGGCTGAAATGATCAGAGTAAACCGCCACCTGGGCGTA -AATACCGTCTGGTAAAGCGCTCAAATCAGTGTGCTCATCCAGTTCAATGGTCGCGATAACGCCATCTGAA -CCCGGCGCTGTGTTTAACGTCTGTAAGGTGCCGGTCGACTGATAAGCTCCGCCGGGAACGGCTGGACTAA -TGGCTGCCAGCTTACCGCTGAATACCTTACCTGGCAGAGCATTAAACACCACTTCCGCATCGTCGCCAGG -AGCCAGTCGCAGCAAGGAGTTCTGACGGAACTGCGCCACGATTTGTCGTTTCTGATCGGGTATAAACACC -ATCACCGGACGTAGCGGCAGCGACGCGGCATAGGTACCCGGACGAATCAGTACCTGGGTCACATAACCAT -CGCTCGGCGCACGCACTATCGTCTGCTCAAGGTTATATTTTGCTTCCGCGAGCTGTGCTTTCAGGCTGGC -GATTTGAGAATGTTCACCCAACACCAGGCTATCCAGCTGGCTCTGGATCTGTTTTTGTTCCGCCGCCGAT -GACTTCACGGAGGCTTCCTGCGCCAGATAATTTTGCCGCGCCACATCGATATCGCGTTCTGAAAACGGGT -TTACTTTCGCCTGGCTGCCACGTGCGTAACGCTGATACTCTTTAGCGAATTTATCCCGCGTGGCCTTTGC -CTGCTGAGTATTCGCCGCCATCTCATCTAACTCTGCGCCCAACGCCCGCTGTTTATGTTCTGCGGTAACG -ATATCCGCCATCAGCCGATCCACCCGCGCCTGATAACGCGTCGGGTCCAGTCGAAATAGCACCTCACCTT -TTTTAATCAGCGTATTTTTCTTATCCGTCACTTCAATCACCACACCAGTCACCTGTGGGACAACAGGAAT -AGAAATAACCGCTTTTTGCGCTTTAAAGGTATACGGATGGTTATAGTTCATTAACAGAATTAGACCGCTG -ACAATAAATATTCCACCCAGGGCCGCTGTGGGAATGGTCCATTTATTTACGGGAATTTTGAAGATCTTAA -ACATTGCCCATGCAAAAGCCACATAGGTCAAAATAATCAGTAAATCCATAAGTATTACTCGGCAGAAGAG -GATTTGATGTCGGCGAGCTGTTTCTCCAGCCCGGCAATGCGCTGTTGCAGTTGCATAACGGATGAATCAT -GGCTTTGCATTCCCCATCCCCGCTCCGGGCGGTAAAGCGTGGCCCAAATCCACAAAAACGGCCAGATAAC -ATGTAACGTAAAAAGACTCACCCAACCAGCAACATGAATGGCGTCGGCATGAGGATGATTACGTTTTTTG -GCAATCAGGTAGGGAATATCATGTAAAATAATGATCCCATAGAAGATCACCAGAAATACAAAAATAAGCA -CTCCCAGTGCAAAATAGTCCAGGAACATATTTCCCTCAAAGAATATAAAAAAGAACAATTAACGCATATT -ATGAAATGCCATGATGCAGTGCAATTTCCTTATTTATATAACGACATATTGTTTTTTATATACTTTCTTA -AATGTGCTGTCTGGTTTTTCAACAGGACGAGGTTTATCATATTGAAATAGTGGAACTATTGGCCAAACTA -ATGAATAACTCCAGTAAAACATCCACAGTACAGATTAAGCGTATTAAACCTTCAATTATCTACCGTTTAT -TGCTGATTGGCCTCGGATCACCAATGGTGATTTACGGCCTGGTTCGCCCGCTCACCATCGAAACGCGAGA -TTAAACTCCTGACAAAACACGCCCCAGAAACGTACTTCTGTTGGCGTAGTCTGGGTTATTGCGCACGTAG -GTTTAAAACGTAAATTGTAACAACGTGCGCTTTGTTTATGCCGGATGCGGCGTGTACGCCTTATCCGGCC -TACGGTCAGGTTCCCGTAGGCATGATAAGACGCGTAAGCGTCGCATCAGGCAATGAATACCCAATGCGAC -CAGCTTCTTATATCAGAACAGCCCCAACGGTTTATCCGAGTAGCTCACCAGCAGGCACTTGGTTTGCTGG -TAATGCTCCAGCATCATCTTGTGGGTTTCGCGACCGATACCTGATTGTTTGTAGCCACCAAACGCCGCAT -GTGCCGGGTAAGCGTGATAACAGTTGGTCCACACGCGCCCAGCCTGTATGCCGCGCCCCATCTTATAGGC -CAGATTACCGTTGCGGCTCCAGACGCCCGCGCCCAGGCCATATTGCGTATCGTTCGCCAGCTCCAGCGCT -TCTTCCATCGTTTTGAAGGTGGTCACCGCCAGCACCGGGCCAAAAATCTCCTCCTGGAACACCCGCATAT -TGTTCTGACCAAACAGAATCGTCGGTTCGAGGTAGTAGCCGTCTTTCAGTTCACCTTCCAGCAGCTTGCG -CCGCCCGCCTGTGAGCACGTCAGCGCCCTCTTTTTTACCGATATCAATGTAGTTGAGGATGGTTTCCAGT -TGCCCGTGAGAAACCTGCGCGCCCATTTGCGTCACGCTGTCGAGCGGGTTACCGCTACGAATGCTTTCGA -CACGGCGGATGGCGCGTTCCATAAAGCGTTCGTAGATAGATTCCTGCACTAAAGCACGACTCGGACAGGT -GCAAACTTCGCCCTGGTTAAAGGCAAACAGTGCAAAGCCTTCCAGCGCTTTATCGAAAAAGGCATCTTCT -TCATCCATCACATCAGCAAAGAAGATATTTGGCGACTTACCGCCCAACTCCAGCGTCACCGGAATAATGT -TTTGCGTTGCGTATTGCATAATTTGTTGGCCCACTTCCGTTGAGCCGGTAAACGCCACTTTGGCGATGCG -TTTCGAGGTCGCCAGATATTCGCCAATTACCCCACCTGCGCCATTGACCACGTTCACCACGCCCGGCGGC -AGTAAATCACCGACAATTTCCATTAGCAGCAGTACAGAAAGCGGGGTAAGACGTGCGGGTTTCAGCACCA -CACAGTTGCCCGCCGCCAGCGCGGGAGCCATTTTCCAGCTCGCCATCAGCAGCGGGAAGTTCCACGGGAT -AATCTGCCCCACCACGCCTAACGGTTCATGGAAATGATAGGCCACGGTTTCGCTATCAACTTCACTGATC -CCACCTTCCTGCGCCCGAATACACGAGGCGAAATAGCGGAAATGGTCAATCGCCAGCGGTACATCCGCAG -CACTGGTTTCGCGAATGGGTTTGCCGTTATCCCAGGTTTCAGCTGTCGCTAACAGCTCGAGGTTTTGTTC -CATTCGATCGGCAATCTTAAACAGAATCGCCGCACGATCCTGCACCGAGGTGTGCGCCCATTTATCTTTC -ACTTTGTGCGCAGCATCCAGCGCCAGATCGATGTCTCGTTTGCCCGAAGACGCCACTTCGCACAGCAGCT -GCCCGGTCACCGGCGTCAGATTCTGGTAATACTCGCCGTCGGCAGGGGCTACCCATTCGCCGCCAATAAA -GTTGTCATAGCGGGCTTTTAACTTGAGGGGGAAACCATACTCGCCGGGCTTAATCTGTGCTGAAGGGGGA -TTATTGGTCATGATCGTCTCCTTGCGGTGTGAGGTATAACAAGGGTAGACGTGACTGGCGAAATCTTCGC -CAGTCGGTAACAGCTTTACGACAGCTATCACGAATTTACGGGCAAGGGTTACAGAGATAGTTGAAAAAGC -GGCTAACAATTTGCCAGCCGTTGTGGAAATGATGATTACATCGCTGCGCGATAAATCGCCACAATTTCTT -CGTGAGTTGCCTGGATCGGGTTAGTAAAGCCACAGGCATCTTTCAGGGCATTAGTCGCCAATACCGCGAA -ATCTTCTTCTTTCACGTTCAGGTCGCGTAGGCCTGCCGGGATATCCACTTTCTTCGCCAGTTCACGGATG -GCGTTAATGCAGGCTTCAGCACCTTCCGCGTCGTTTTTACCTGTCACGTTCACGCCCATTGCAGCGGCAC -AGTCACGCAGACGTGCAGCGGCGACTTTGCTGTTGAATACCTGAACGTGCGGCAGCAAAACGGCGTTACA -TACACCGTGTGGCAGGTTGTAGAAACCGCCCAGCTGGTGCGCCATCGCATGAACATAACCCAGAGAAGCA -TTATTGAACGCCATACCGGCGAGGAACTGGGCATAAGCCATTGCTTCACGCGCTTTCGCATTACTGCCAT -CTTCAACGGCTAACGGCAGGTTTTCGGCAATCATGGTCACGGCTTTCAGTGCACAAGCGTCAGTGATCGG -CGTGGCGGCAATAGAAACATATGCTTCGATAGCGTGCGTTAAGGCATCCATACCCGTTGCGGCGGTCAGT -GACTTCGGCATACCAATCATCAGAGAGGAGTCATTGACAGAAAGCAGCGGAGTGACATGTTTATCAACAA -TCGCCATTTTGATATGACGCGCTTCGTCAGTGATGATGCAGAAACGGGTCATTTCAGAGGCCGTACCCGC -CGTGGTATTGATGGCGATCATCGGCAGCTGCGGTTTTGCAGAGCGGTCAACGCCTTCGTAATCGCGAATA -TCGCCGCCATTGGCTGCCACCAGCGCAATACCTTTTGCGCAGTCGTGTGGAGAACCACCGCCTAAGGAGA -TCACGCTATCGCAATTATTCTCTTTAAGTAATTTCAAACCTGCGGCGACGTTTTCCGTGGTGGGGTTAGG -TTGGGTGCCATCATAAATAACGCTAAAAATATTGCGTTCTTCCAGTGCTTTTTGCACATCGCCCGCCATA -CCTAATTTCGTTAACATATTGTCAGTGACAATTAAGGTACGGGTAAATCCATAATCTGCCATCATATTCA -TTGCATCAGTCAATGAATCAGCGCCGATGACATTCACAGAAGGAATAAAGAACGTTGAAGCTGCCATAAC -ACACTCCTGAAAGTGTAAAAAAGGGCGGGCAGCTTACTGAGGATTTTCATTCGAAAATATGATCAGTATT -ATTGATTATCAAAATTAATCTAATAAAAAGCACATTGTATTCATTAAACAATGTGCTTTTTTTAAATTCA -TAAGAATTTTGTATTAATTTATTTTAAAACTTAATTAATCATTTCCTTATTTTTCCGGAAATAATAATGC -GTCGCGCAATAAATGATCATTTCCACGACGACGCGTAAAGCCAATGCGGTCAAAATATTCCAGAATCTGA -ATTGCCAGCTTTCGGCCTACGCCTAAGCGATCGCGGAAATCCGCCGCGCAGGTTGAACCACACTCCTGAT -CGAGATCGCGGATCATATTGGCAAACTCGACAATCCGATCGTTACGGTAATAACGATCTTTAACGATCGC -GGTAATTATTCCTTGCTGCGCCGCCTGGCGTAGAGTCAGGCGCATTGCCTGCTCGTCGGTTCCCGTCTCT -TTTGCCAGGTCACGCACCCACCACGGTTCGTCACCAAACAGTGGCTCTGCTTTTTGCCAGATGGCCTGCT -GCTCTTCGCTGAAGCCCGCTTTGTGATCTGGCAGATGCAGCCAGCCGTGATGGCTGTGGATGTCGCCGCT -TTCGCGCATCTTTTCAATCAGCAACAGTACCAGCGCTTCATCTTCCATTGGCAACGCCATACGTCGCAGA -CGTTCGCGCCCAGGGCCAGGTTCATCGCGATGTTGCTCATGATAAGTCGCTAATGTGTCGAGAATTTTCC -GCTGCCAGCGGGCGGCAACCGGCGCATTCAACAAGCTATAACCAGCCTGAATATAACCAGGCTGTTGCAG -CAATTCGCGCATCCCTTCGCCGTTGAGCTGGCGCGCCCAGGCGAAATCCGCAAGGTTAACCGCGCCGCGT -TCCAGATGAACAGATAACGCATCGGCATCGCTCTGCGCCCGTGCAAGAGACGCCAGCCATTGCAGATATT -CCGGCTTACGTTTACCGCGACGCGGCGGGTTAAGCATCACGACGCGCGCTCCGGCCAGCGTGTTGCGGGC -AGAGATATCGCGCAATACCAGGCGGTCGTTATCTGCCAGCCATAACGGGGTGTCGAAGACCAGTTCAGCA -AGGTTATCTTCCAGCAGTGAAACGCGTCCCGTGACGTGGCTGGCGGCGTGGTGAATATGCAGCGGCTGCC -ACTGGGTCAGCGGTGTATGGGTTTGAAGCTCGACAATCACCCGTGTGAACGGCTCTGGCGGCACATCGGC -AAGCAGCCAGTCGCCACGGTTAATCTGCTCTTTTTCCGCATCACCCGCGATGTTAAGCGCGATACGCTGC -CCGGCATTGGCGGTTTCTGTTGGCTGGTTTTGCGCATGCAGCGCACGTACACGCATCGGTTTATTTACAC -CAGTCAGCCAGAGTGAATCGCCTACCTTCACTTCCCCGCTTAACGCCGTACCGGTGACGACCAGCCCGGC -ACCTTTTACGGTAAATGCGCGGTCAATCGCGAGGCGGAAACTATGTTGGCTGGCGTGCTCGCGTTCCGGC -AACTGAAGCAGATGCTCGCGCAGGGCATCCATTCCCCGACCTTCGGTTGCTGCGGTGATAAACAGTTTTG -CCTCAGCAAAACCGTATTCCCGCAGAACCTCCTTTACCTGGCGTTCAACCTCATCAACACGCGCTTCGTC -CACGCGATCGGCTTTGGTCAGCGCCACTGTCAGCATCGGGTTACCGGTCAGCTGCAAAATCGCCAGATGC -TCACGGGTCTGTGCCATCACGCCGTCATCGCACGCCACCACCAACAGCGCGTGATCGATACCACCAACGC -CCGCCAGCATGTTGGAAAGAAACTTTTCATGACCGGGAACGTCGATAAAACCAGGCACGCGACCATCCGG -CTGCGGCCAGTAGGCATAGCCGAGATCGATGGTCATGCCGCGCTTTTTTTCTTCCGGCAGACGGTCAGCA -TTTACGCCAGTAATCGCCTGCAATAAGGTTGTTTTGCCGTGGTCAACGTGTCCGGCAGTCGCAATAATCA -TTTCAACAACATCTCCAAAAACCGTTGCTCATCTTCAAGGCAGCGTAAATCCAGCCACAATCGTCCGTCA -TAAATACGACCAATCACCGGCACTGGCAATTCACGCCAGCGGGCGGCTAATGACTCAAGGTGGCTACCGC -GTCCATCATGGGGTGTAAACGTTAATGCCGCGCTCGGCAGGCGATCAACCGGCAGCGAACCACTGCCAAT -CTGCGAAAGACATGGCATAACCTGTACCGCAAACTCCGCGCCGTAATGTGCGGCAAGGGGGGCCTGTAAA -CGTTGTGCCTGGATTTGAATGACCTCTGCGCTGCGGGTAAGCAGGCGCAGGGTCGGTAATTTTTCACTCA -GAGCTTCAGGGTGTAAATAAAGACGCAACGTGGCTTCCAGCGCCGCGAGGGTCATTTTATCCGCGCGTAA -TGCACGCTTCAGCGGGTGGCTTTGCAGGCGGGCGATCATCTCTTTTTTACCAACAATAATTCCTGCCTGC -GGCCCGCCTAACAACTTGTCGCCGGAGAAACTCACCAGACTGACGCCCGCCGCAATCAACTCCTGCGGCA -TTGGCTCTTTCGGCAAACCGTACTGGCTAAGATCGACCAGCGAGCCACTGCCTAAATCAGTCACTACGGG -AACATCCAGCTCTTTGCCGAGCGCCACCAGTTCCGCTTCATCTATCGCTTTGGTGAACCCCTGAATGCTG -TAGTTACTGGTATGTACTTTCATCAACAGTGCGGTATTTTCATTCACCGCCTGACGATAATCATTCGCGT -GCGTGCGGTTGGTGGTCCCTACTTCGTGTAGGGTGCAGCCTGCCTGACGCATAACATCGGGAATACGAAA -CGCGCCGCCAATCTCCACCAGTTCGCCGCGAGATACCACCACCTCTTTTCCGCTGGCAGTGGCCGCCAAC -ATCAATAACACCGCCGCCGCATTGTTATTGACGATACAGGCATCTTCCGCCCCCGTAATACGGCACAGCA -GCTGCGCCAGCGCCCGATCGCGATGTCCGCGTCCGGCGTCGTCCAGATCATACTCGAGGGTCACTGGCGA -ACGCATAGCCTGCGCAACGGCTTCCACCGCGGCTTCCGCCTGTAAAGCTCGCCCAAGGTTGGTATGCAGC -ACGGTTCCCGTCAGGTTGATCACCGGACGCAGCGCGCTCTGCGCTTCTTTCGTCAACCGGGCATCGACTT -CTTGCGCCCAGTTTTCACACCACGCAGGCAGCGTCTGGCTGCCACGAATCACTTCTCGCGCTTCGTCGAG -CATCTGACGCAACAATTCCACCACGCGGGTGTGACCATAAGTATCACGCAAAGAAAGGAAGGAGCTATCG -CGCAATAAGCGATCAATAGCCGGAAGTTGACTATAGAGGAAACGCGTTTCGGTTGTCATAGGAAACCTGG -CTGATCAAGGCCCTCTCACACGGAGAAGGGCGTTTAACATAACCACGGATTGTAACGTGAGATGGGTCAG -GAGGACATATCGCGCATCAAGCCTTTGGCGGTTCGGTGCGAGCAAAACTTTCGCGGCTAAACAGGTTTTC -GACCAGTTTGACTAAGTGTGGGCGGTCGACACACCAACCTGGCGCAACGCGGCGGAAATTGAGATATCCG -ACGGCACAGGCAATGGCGATAGTCGCCAGATTGACCGTATCGGTTTTGAGTGTGCCATCGACCAGATATC -CTTCCAGCACATCCAGACTGCGGTTGATTTTCTCCCGCTGGCGTAACAATTCATCTTCAGACTGCTGCGC -CGCTGGACGCGCCTGTTCACGCACCGATACCAGCCCGGCATCCATAATGCCATCCGCCAGTGCCTCAATT -TTGCGCACCCGCAACGACTCCAGCGGATCGCGCGGCAACATCGCCGGAGCGACATTCATTAATTCAATAT -ATTCAGCGATGATCGGCGAATCAAACCAGCATTCGCCCTCTTCGGTCACCAGCACCGGCACTTTTCCTAA -CGGGTTAAATTGCGCCACGCCGTTGTCCGCGTTATAGGGCAGTTCATTAATAAATTCGAAAGTTATGCCC -TTTTCTAACAACAGAATAGAAAGTTTGCGTACAAACGGGCTGGTGTAGCTACCGACGAGTTTCATGCCGA -GTCCTTTGTGCGAGGAAAAATATCAGTATGGCCTGGTGATGGGAAAAAGGGCAGAAAATGTTGATGGTTT -GTTACTTCCAAATAAATCACATATTTATCATGGTGATATAAATATTTTCCTAATTATTTCACTCTGATGG -ATATCTCACTTCAGGCTTTCTTATAAATCTGTAGGGTTTCGCCTGTCAGCAGACAAATAACCCGATAAAA -CAAGGATGAGAAATGAGCGGAAAACCGGCAGCGCGTCAGGGCGACATGACGCAGTATGGCGGTAGCATTG -TTCAGGGTTCAGCCGGGGTGCGCATTGGTGCCCCCACCGGCGTGGCCTGTTCGGTGTGCCCCGGCGGAGT -GACGTCCGGCCATCCGGTCAATCCCCTGCTCGGTGCAAAGGTCCTTCCCGGTGAAACCGACATCGCCCTG -CCCGGCCCGCTGCCGTTCATCCTCTCCCGCACCTACAGCAGTTACCGGACAAAAACGCCCGCGCCGGTGG -GGAGCCTCGGCCCCGGCTGGAAAATGCCTGCGGATATCCGCTTACAGCTGCGCGATAACACACTGATACT -CAGTGATAACGGCGGCAGAAGCCTGTATTTTGAGCACCTGTTTCCCGGTGAGGACGGTTACAGCCGCAGC -GAGTCACTGTGGCTGGTGCGCGGCGGCGTGGCGAAACTGGATGAAGGTCACCGGCTGGCCGCACTCTGGC -AGGCGCTGCCGGAAGAACTCCGCTTAAGTCCGCATCGTTATCTGGCGACAAACAGTCCGCAGGGGCCGTG -GTGGCTGCTCGGTTGGTGTGAGCGGGTGCCGGAAGCGGATGAGGTGCTGCCTGCGCCGCTGCCGCCGTAC -CGGGTACTGACCGGGCTGGTGGACCGCTTCGGGCGCACACAGACGTTCCACCGCGAAGCCGCCGGTGAAT -TCAGCGGCGAAATCACCGGCGTGACGGATGGTGCCTGGCGTCACTTCCGGCTGGTACTGACCACGCAGGC -GCAGCGGGCAGAAGAAGCCCGGCAGCAGGCCATTTCCGGCGGGACGGAACCGTCCGCTTTTCCTGATACC -CTGCCGGGTTACACCGAATATGGCCGGGACAACGGCATCCGTCTGTCTGCCGTGTGGCTGACGCACGACC -CGGAATACCCGGAGAATTTACCTGCCGCGCCGCTGGTGCGCTATGGCTGGACGCCCCGCGGCGAACTGGC -GGTGGTGTATGACCGTAGTGGCAAACAGGTGCGCAGCTTTACTTACGATGATAAATACCGGGGCCGGATG -GTGGCGCACCGTCACACGGGCCGGCCGGAAATCCGTTACCGTTACGACAGCGACGGGCGGGTGACAGAAC -AGCTAAACCCGGCAGGCTTAAGCTACACGTATCAGTATGAGAAAGACCGCATCACCATCACCGACAGCCT -GGACCGCCGTGAAGTGCTGCACACGCAGGGCGAAGCCGGGCTGAAGCGGGTGGTGAAAAAGGAACACGCG -GACGGCAGCGTCACGCAGAGTCAGTTTGACGCCGTGGGCAGGCTCAGGGCACAGACGGATGCCGCAGGCA -GGACAACAGAGTACAGCCCGGATGTGGTGACGGGCCTCATCACGCGCATAACCACGCCGGATGGCAGGGC -ATCGGCGTTTTACTATAACCACCACAACCAGTTAACGTCAGCCACCGGGCCTGACGGGCTGGAATTGCGC -CGGGAATATGATGAATTGGGCCGTCTGATTCAGGAAACTGCCCCTGACGGCGATATCACCCGCTACCGTT -ATGATAATCCACACAGTGACTTACCCTGCGCAACGGAAGATGCCACCGGCAGCCGGAAAACCATGACGTG -GAGCCGTTACGGTCAGTTGCTGAGCTTCACCGACTGTTCCGGTTATGTAACCCGTTATGACCATGACCGC -TTCGGGCAGATGACGGCGGTGCACCGCGAGGAAGGGCTGAGTCAGTACCGCGCATACGACAGCCGTGGAC -AGTTAATTGCCGTGAAAGACACGCAGGGCCATGAAACGCGGTATGAATACAACATCGCCGGTGACCTGAC -CGCCGTCATTGCCCCGGACGGCAGCAGAAACGGGACACAGTACGATGCGTGGGGAAAGGCCGTCCGTACC -ACGCAGGGCGGGCTGACGCGCAGTATGGAATACGATGCTGCCGGACGGGTCATCCGCCTGACCAGTGAAA -ACGGCAGCCACACCACCTTCCGTTACGATGTACTTGACCGGCTGATACAGGAAACCGGCTTTGACGGCCG -CACACAGCGTTATCACCACGACCTGACCGGCAAACTTATCCGCAGCGAGGATGAGGGTCTGGTCACCCAC -TGGCACTATGACGAAGCAGACCGCCTCACGCACCGCACCGTGAAGGGTGAAACCGCAGAGCGGTGGCAGT -ATGACGAACGTGGCTGGCTGACAGACATCAGCCATATCAGCGAAGGGCACCGGGTGGCGGTGCATTACAG -GTATGATGAGAAAGGCCGGCTGACCGGTGAGCGTCAGACGGTGCATCACCCGCAGACGGAAGCACTGCTC -TGGCAGCATGAGACCAGACATGCGTACAACGCGCAGGGGCTGGCGAACCGCTGTATACCGGACAGCCTGC -CCGCCGTGGAATGGCTGACCTACGGCAGCGGTTACCTGGCAGGCATGAAACTCGGCGACACACCGCTGGT -GGAGTACACCCGCGACCGCCTGCACCGGGAAACGCTGCGCAGCTTCGGCCGTTATGAACTCACCACCGCT -TATACCCCTGCCGGGCAGTTACAGAGCCAGCACCTGAACAGCCTGCTGTCTGACCGCGATTACACCTGGA -ACGACAACGGCGAACTCATCCGCATCAGCAGCCCGCGCCAGACCCGGAGTTACAGCTACAGCACCACCGG -CAGGCTGACCGGCGTTCACACCACCGCAGCGAATCTGGATATCCGCATCCCGTATGCCACAGACCCGGCA -GGTAACCGCCTGCCCGACCCGGAGCTGCACCCGGACAGCACCCTCAGCATGTGGCCGGATAACCGTATCG -CCCGTGACGCGCACTATCTTTACCGGTATGACCGTCACGGCAGGCTGACAGAGAAAACCGACCTCATCCC -GGAAGGGGTTATCCGCACGGATGATGAGCGGACTCACCGGTACCATTACGACAGTCAGCACCGGCTGGTG -CACTACACGCGGACACAATATGAAGAGCCGCTGGTCGAAAGTCGCTATCTTTACGACCCGCTGGGCCGCA -GGGTGGCAAAACGGGTGTGGCGGCGTGAACGGGACCTGACGGGCTGGATGTCGCTGTCACGGAAACCGCA -AGTGACCTGGTACGGCTGGGACGGCGACCGGCTGACCACAATACAGAACGACAGAACCCGCATCCAGACG -ATTTATCAGCCGGGGAGCTTCACGCCACTCATCAGAGTTGAAACCGCCACCGGTGAGCTGGCGAAAACGC -AGCGCCGCAGCCTGGCGGATGCGCTTCAGCAGTCCGGCGGCGAAGACGGTGGCAGTGTGGTGTTCCCGCC -GGTGCTGGTGCAGATGCTCGACCGGCTGGAAAGTGAAATCCTGGCTGACCGGGTGAGTGAGGAAAGCCGC -CGCTGGCTGGCATCGTGCGGCCTGACCGTGGAGCAGATGCAAAACCAGATGGACCCGGTGTACACGCCGG -CGCGAAAAATCCACCTGTACCACTGCGACCATCGCGGCCTGCCGCTGGCCCTTATCAGCAAGGAAGGGAC -AACAGAATGGTGCGCAGAATACGATGAATGGGGCAACCTGCTGAATGAAGAGAACCCGCATCAGCTGCAG -CAGCTTATCCGCCTGCCGGGGCAGCAGTATGATGAGGAGTCCGGCCTGTATTACAACCGCCACCGCTATT -ATGACCCGCTGCAGGGGCGGTATATCACTCAGGATCCGATTGGGCTGAAGGGGGGATGGAATTTTTATCA -GTATCCGTTGAATCCAGTTACGAATACAGATCCTCTGGGGTTAGAAGTTTTTCCTAGACCATTCCCCTTG -CCAATTCCATGGCCCAAAAGCCCTGCACAGCAGCAAGCAGATGATAATGCTGCAAAAGCATTGACAAAAT -GGTGGAACGATACAGCATCACAAAGAATATTTGACTCTCTAATATTGAATAATCCGGGACTAGCATTAGA -TATAACAATGATAGCTTCTCGTGGAAATGTTGCAGACACAGGGATAACTGATCGTGTCAATGACATAATA -AATGACAGATTCTGGAGTGATGGGAAAAAACCCGACAGATGTGACGTACTTCAGGAACTAATTGATTGTG -GTGATATTAGTGCTAAAGATGCAAAAAGCACACAGAAAGCCTGGAATTGTCGTCACTCCAGACAGTCAAA -CGATAAAAAAAGATAGCCCTTGTGGAGGTTCCTGCAATGTCAAATACATACCAGAAAAGAAAGGCAAGTA -AAGAGTATGGTTTATATAATCAATGTAAGAAACTAAATGATGATGAATTATTTCGCTTACTTGATGATCA -CAATTCCTTGAAAAGGATTTCATCTGCCAGAGTATTACAGTTAAGAGGTGGGCAAGACGCTGTTAGATTG -GCAATTGAGTTCTGCTCTGATAAAAATTATATCCGTAGAGATATCGGAGCATTTATACTCGGGCAAATAA -AAATTTGCAAAAAATGCGAAGATAATGTTTTTAATATTTTGAACAATATGGCATTGAATGATAAGAGCGC -TTGCGTTCGAGCTACGGCAATCGAGTCAACGGCTCAGCGATGCAAGAAAAACCCAATTTATTCACCTAAA -ATAGTAGAACAATCTCAAATTACTGCTTTTGATAAATCGACTAATGTCAGACGTGCTACAGCATTTGCTA -TTTCTGTTATCAATGATAAAGCAACAATTCCACTATTGATTAATCTGTTAAAAGATCCAAATGGAGATGT -CAGAAACTGGGCCGCATTTGCAATAAATATCAATAAATATGATAATAGTGATATTAGGGATTGTTTTGTG -GAGATGCTTCAGGATAAAAATGAGGAAGTCCGTATTGAAGCAATAATCGGACTTTCCTACAGAAAAGATA -AAAGGGTTTTATCTGTTTTATGCGATGAGTTAAAAAAAAATACTGTTTATGATGATATCATTGAAGCTGC -GGGTGAATTAGGTGATAAAACGCTACTTCCTGTTTTAGATACTATGTTGTACAAGTTTGATGACAATGAA -ATTATAACTTCCGCTATTGATAAGCTGAAGCGTTCATAGCGTGAGTTGCCTATGCACAGTGGGGGATTCC -CGCCGGCACGGTGCAGATGCTCGACCGGCTGGAAAGTGAAATCCTGGCTGACCGGGTGAGTGAGGAAAGC -CGCCGCTGGCTGGCATCGTGCGGCCTGACCGTGGAGCAGATGAAAAACCAGATGGACCCGGTGTACACGC -CGGCGCGAAAAATCCACCTGTACCACTGCGACCATCGCGGCCTGCCGCTGGCGCTCATCAGCACGGAAGG -GGCAACAGCGTGGTGCGCAGAATATGATGAATGGGGCAACCTGCTGAGTGATGAGAACCCGCATCATCTG -CAGCAGCTCATTCGCCTGCCGGGTCAGCAGTATGATGAGGAGTCCGGCCTGTATTACAACCGCCACCGCT -ATTATGACCCGCTGCTGGGGCGGTATATCACTCAGGATCCGATTGGACTGAAGGGGGGATGGAATTTTTA -TCAGTATCCGTTGAATCCGGTCATAAATGTAGATCCGCAAGGTTTGGTTGATATAAATTTATACCCCGAA -AGTGATCTTATCCATTCTGTAGCTGATGAGATTAATATCCCAGGCGTTTTCACAATCGGGGGGCATGGTA -CCCCCACATCTATTGAATCCGCAACGCGCAGTATCATGACAGCTAAAGATCTAGCATATCTAATTAAATT -TGATGGGAATTATAAAGATGGGATGACAGTTTGGTTATTTTCTTGTAATACAGGTAAAGGACAAAATTCA -TTTGCTAGCTAATTAGCTAAAGAGTTACATACAAATGTAATAGGACCTGACACGCTATGGACGTGGTGGG -GGCGAGGAACTAATGGTAAGTTAAAAATGGATACAGTGCTAACAGCACCAACGAACCTTAATTCAAATAA -GGATCTAATGGCTATAACAACAAAAGACCTTGGTAATTGGATAACATATGGGCCATCTGGGCACCCCATT -TCTAATATGCAAGGTACGCCAGAAAAACCCAGTGATATAAGATAGGTTGTAGATGTATGAAAGCATGCTT -GTTACTATTTTTTTATTTCTCTTTTATTTGTCAATTGCATGGTGCTGATGTGAAAATAAAACAAAACGAA -AGTATGATGGGGTCTACAGCAATGACCTATGATTTAAGTGAAGAAAAGTTGATGAAACTGAAGTATAAAT -CACAACATGGTGATTCAGAGGCATCATTTCGACTATATCAATATTACTGCTTTACTAAAAATAACATTTA -CAAACAATTGCGATTCTTGGAAAGATCAGCATCTCAGGGGAATGTTACAGCGCAGTTTAATTATGGGGTC -TTTTTATCAGATACAAATCCAACATTATCAGAATATTATAATTTGAATAGAGCTATTTATTGGATGGAAT -TCGCTGTAAATAACGGTAATATTGATGCAAAGAGCAAACTTCAAGAGCTCAAAAAGCTAAAGCGAATGGA -TAGAAGGAAGAATAAGGAGAATCCGTAAAAGCAATAGTTCATCAGACTGCCGCAGCAGTAGTATGATGAT -GAATCAGGGCTGTACTATAACTATTATCGGTAACATTAACCGCAGCAGGGGCGGTATAACACTCAGGCTC -CGATTGGGCTGGAAGGTAGGTGGAATTTTTATCAGTATCCGTTGAACCCGATTTCTGGAATCGATCCCCT -TGGGATTAGCCACCTGTTTATACAGCATAACTTTAGGTATGCTTTCGTGTGTTTCAGATATACCATGTGA -TGATAATTTTTATGATGTGCTTAGTATTCCAGTCGCTTCTGGTAATAATATGCAATGTAAAAATAATCCC -CGTTGTACACATTTATAAATAGATGGCCAATACCTCAAGGCCTATGGAGTTGGAATGTTAATGACCCGGG -AGCAAGCAATAGAAAACCTGACGGCATACGATTAGTACCGTCAGTTAATACAGGAACTTATAATCGCAAT -GGATTTTCAATACATAGTTGTTTAAACGCTTTTGGTCCGTCTTTAGGACCTCGATTCTGTTCCGAGGGTT -GTATAACTGGTTTATCTAATGACATGCAAAAATTAAATGAGTTAATATTTTCAGAGCCAGATAGCACATT -AACAGTTACGGACTAAAAAATATGGCAAGGTTATTAACAATTGTATTTTTTTCTCTATTTCTGCGAGTGC -AGTTACTGCAAGACAATTTCAGAGAGAGTTAGATTTGGCAGACAAAGCAATATTATGGGCACTAATATCA -GCCAGTACTAAAGAGGGACGAAAAGCGTGTTCACTAAGCTATTTTGCCTGTAAGGCCGCAGAGGCTGAAC -TCGGACTGGCATATATGGCTGCGAATGATAACAAGGAATTTCTCACATCCTTATCTAATATAATGAGGTA -CAAAATAGATGCTGGACTTTCCGAATCCTATACATGCTATTTATTAAGTAAGGGAAAGATCATAAGACCA -TATCTGAAAAATCTAAATCCACTCCAACTTGCCGCTGATTGCATTGAAACAGTAAATAAAATAAAAGATA -AGAATAAAAAAAATCATTGATATAAATTCAGTTAATATTTGTAGTGATGATAAAAATATAAAATTGAGAG -TTAATAGTACTATTATGGCCATTGATGATTCTATAAAGTGCATCGATGAATGATAACTTAATTTTATTTA -AAAATATATTAATAACTCACTCTCCAGGAGTTTTTTTAACTTAGTTTTATAATGAATACGATAATTAAAA -GTGAAGAAGAAAATAGTTGTATACATATATTCCATGACCCTACATTGTGATCTATAGATTAAATATTTTT -TAAATGTGACTGTCATCCTTCAGATAATAAAGCCATCATCGCAATAGATGGAAAAGCACTCCTGCTCTTT -TTTGATTAGAGCCGTCGCAGGAGGAACAACTCATATCATCATTGCGATCTCGACGATGTATAGTCTCATC -CTGCGGCAGAACAAGACGGATAAAAAATCCAATGAGAGCACACTCATCCAGAACTTATTAACATAATGAA -TATTAAAGAAAAATCATCGAAGCTAATGAAGTAATATGCAAAAATAATTAGTCCTTACAAGGAGCAAAGT -TCCATAATCTCCCCCCTCCCCCTCAATGATCCAAATAAAGATAATGCATCCAGCTGGTCATTCTTAGCAG -CACTTTCCGCATCACCGAAACATGGCTGAAATGGTCGGAGTAAACCGCCACCTGGGCGTAGATGCCGTCG -GGTAAGGCATCGATATCATCGTTAGGGTCCAGTTCAATGGTTCCCAGCACACCGTCCGTGCCGGGCACGA -CCGTTAATGATTGCAATACCCCCTGCGCCTGATAAGAACCGCCTGGCACGACAGGTAAAATACTAGTCAG -TTTGCCGTGAAACACCTGCCCAGGTAGCGCGTTAAACACCACTTCCGCATCATCGCCAGGTTTCAGACGT -AACAGCGAGTTTTGCCGAAATTGGGCGACAATTTGCCGTTTTTGCTCGGGGATGAAGACCATCACCGGAC -GCAGCGGCAAGGCAGCTGCGTATGTACCTGGGCGGATCAGTACCTGAGTAACGTAGCCATTGCTCGGCGC -GCGAATGACAGTCTGCTCAAGGTTATATTTTGCTTCAGTAAGTTGCGCTCTTAAGCTCACAATCTGCGAT -TGCTCGCCGTTAACCATACTGTCGAGCTGGCTCTGGATCTGCGCCTGCTCCGCCACCGAGCCTTTCACCA -GCGCATCCTGCGCGAGGAAATTTTGCCGCGCATCGTCGATGTCACGTTCCGAGAACGGATTCACCGCCGC -CTGGCTGCCTTTCAAGTAACGTTGATAATTTTTAAACAGACGGTCGCGCTCCGCTGAAACCTGGGTGGTG -TTGGCCTGCGCTTCAGTGAGCTGCGCACGCAGCGTCTTTATATTATGCGTCGCCGTCATCAGGTCAGCCT -GAAGTCTGTCAACTCGCGCCTGGTAACGAACCGGGTCGAGCTTAAAAAGCACCTCGCCCTTTTGAATAAG -CTGATTATTCTTGTCAGTGACTTCAGTAACAATTCCCGTCACCTGTGGCGTGATAGGGATCGCTATCACT -GCCTTTTGCGCGGTAAAAGTGTAAGGGTGGTTGTAGTTCATCAACAAAATCAAACCACTCACCAGAAACA -CGCCTCCCAGCGCCGCCGTCGCCAGCGTCCACTGATTTACCGGAATGCGGAAGATTTTAAAGACCGCCCA -CGCCAGCGCCACGTAAGTTAAAACAATCAATAGATCCATAATTAGATCTCCGGGAACGTGGAATAGTCAG -TCTTTTTCTCGGCGGCGAGTTGATGCTCCAGCCGGGAAATTCGGTCAGAAAGTGCGGCGATTTCCGGGTC -AGTCGCTTTCTCCTGCGACGCAACATGTGACTGCATACCCCAGCCACGCTCCGGTTGATAGAGCGTCGCC -CAGATCCACAGAAACGGCCAGATAACATGCAGAGTAAACAGGCTCACCCAGCCCGCCGTATGAATAGCGT -CGGCATGGGGATGGTTGCGCTTTTTGGCAATCAGATAAGGGATGTCATGTATCGCGATGATTCCATAAAA -AATCACCAGAAAGACGAAGATCAGCACTCCCAACGCGAAATAGTTTAGAAACATATCTGCCTCGGATTCA -CGTTTATCAGTGTTGTTTTTGGGCTGGCAGCCAGAAGGGAGTCAGGCTGATATTTTGACAATAATCCGGG -TTCGCGATTCTCGCCATAACACCAAAGAATAATTTTTAGAGGTGATGAGTTGCTTAGTTACATAACGATT -GTATGACGAAGGCATAACATGCTGTAGATCACATCAGGTGAACGCCGTAAGAAAATATCTTGTGATTCAG -ATCACAAATATTCAACAAACCATCAAAACAAAAATGTGACACTACTCACATTTAAATGCCATTTTTAGCG -AAAATCGCCGCCTTGTTGCTTTTTTACACAAGCGTTTTGTGATGAACGTCACGTCAATTACCTCTCTACC -CCCTATATTTATGTGATTGATATCACACAAAAGGCCGTCGACTGGACAGTTAACCGATTCAGTGCCAGAT -TTCGCAGTATCTACAAGGTCCGGCTACCTCTGCCGCCACATTAACAAAAAACCTCGGGCTTCCAGCCTGC -GCGACAGCAAACATAAGAAGGGGTGTTTTTATGTCATCCGATATTAAGATCAAAGTGCAAAGCTTTGGTC -GTTTCCTCAGCAACATGGTGATGCCAAATATCGGCGCGTTTATCGCGTGGGGTATCATCACCGCGTTATT -TATTCCAACAGGGTGGTTACCGAACGAGACGCTGGCGAAGCTGGTCGGGCCGATGATCACTTATCTCCTG -CCGCTGCTGATCGGTTATACCGGTGGTAAGCTGGTAGGCGGCGAACGTGGCGGCGTAGTCGGTGCCATCA -CCACCATGGGCGTTATCGTCGGCGCAGACATGCCGATGTTCCTCGGTTCTATGATTGCAGGTCCGCTGGG -CGGCTGGTGCATTAAGCACTTCGACCGCTGGGTAGACGGTAAGATCAAATCCGGTTTTGAGATGCTGGTG -AATAACTTCTCCGCAGGCATCATCGGGATGATCCTCGCTATTCTGGCATTCCTCGGCATTGGCCCGATTG -TTGAAGCCCTGTCCAAAATGCTGGCTGCGGGCGTTAACTTCATGGTTGTCCATGACATGCTGCCGCTGGC -GTCTATCTTTGTTGAACCGGCGAAAATCCTGTTCCTCAACAACGCCATTAACCACGGTATCTTCTCGCCG -CTGGGTATTCAGCAGTCCCATGAACTGGGTAAATCAATCTTCTTCCTGATTGAAGCTAACCCAGGTCCAG -GTATGGGCGTGCTGCTGGCGTACATGTTCTTTGGTCGTGGTAGCGCTAAACAGTCTGCGGGCGGTGCGGC -AATCATCCACTTCCTGGGGGGTATCCACGAAATCTACTTCCCGTATGTGCTGATGAATCCGCGTCTGATC -CTCGCAGTCATCCTCGGCGGTATGACTGGCGTGTTCACGCTGACTATCCTGGGCGGTGGTCTGGTTTCTC -CGGCATCTCCGGGTTCTATCCTTGCTGTACTGGCGATGACACCAAAAGGTGCTTACTTCGCTAACATCGC -GGGTGTGTGTGCGGCGATGGCTGTCTCCTTCGTTGTCTCTGCTATTTTGCTGAAAACCAGCAAAGTGAAA -GAAGAAGATGATATTGAAGCAGCAACTCGTCGTATGCAGGACATGAAAGCTGAGTCTAAAGGCGCATCTC -CGCTGTCTGCTGGCGATGTGACTAACGACCTGAGCCACGTACGTAAAATCATCGTTGCCTGTGACGCCGG -TATGGGTTCCAGTGCGATGGGCGCAGGCGTTCTGCGTAAGAAAATTCAGGATGCAGGTCTGTCGCAGATT -TCTGTTACTAACAGCGCGATCAACAACCTGCCGCCAGATGTGGACCTCGTCATCACTCACCGTGACCTGA -CCGAACGCGCTATGCGCCAGGTTCCGCAGGCACAGCATATTTCGCTGACCAACTTCCTCGACAGCGGCCT -GTACACCAGCCTGACCGAACGTCTGGTTGCTGCCCAACGCCACACGGCAAACGAAGAGAAAGTAAAAGAC -AGCCTGAAAGACAGCTTTGACGATTCCAGTGCTAACCTGTTCAAGCTAGGCGCGGAGAACATCTTCCTCG -GTCGCAAAGCGGCAACCAAAGAAGAAGCGATTCGTTTTGCTGGCGAGCAGCTGGTGAAAGGCGGTTACGT -TGAGCCGGAATACGTTCAGGCGATGCTGGATCGTGAAAAACTGACCCCGACTTATCTGGGTGAGTCTATC -GCGGTGCCACACGGTACGGTTGAAGCGAAAGATCGCGTACTGAAAACGGGCGTCGTGTTCTGCCAGTACC -CGGAAGGCGTGCGCTTCGGTGAAGAAGAAGATGACATTGCCCGTCTGGTGATTGGTATTGCTGCCCGTAA -CAACGAGCACATTCAGGTTATCACCAGCCTGACCAATGCACTGGATGATGAGTCCGTCATCGAGCGTCTG -GCACACACCACCAGCGTGGATGAAGTGCTGGAACTGCTGGCAGGTCGTAAGTAATCCAATCCCACCCTCT -CCACATGGAGAAGGTGGGGTTAATTGCCTGATGCGCTACGCTTATCAGGCCTACAGGATGCATCACAATT -TGTTGAATTTGCACGTTCTTGTAGGCCGGATAAGGCGCTTACGCCGCATCCGGCGCTGCCCCTCTCCTCA -CGGAGAGGGTTTGGGTGAGGGAAAAGCCTCACCCCAGCCCTCTCGGGTAAAAACATTGATGAAGGTTAAT -ACTATGAAAGCATTACATTTTGGCGCAGGTAATATCGGTCGTGGCTTTATCGGTAAACTGCTGGCAGACG -CGGGTATCCAACTGACGTTTGCCGATGTCAATCAGGTGGTACTTGATGCCCTGAATGCCCGTCATAGCTA -TCAGGTACATGTGGTTGGTGAAACCGAGCAGGTAGATACCGTTTCCGGCGTCAATGCTGTCAGCAGCATT -GGTGATGATGTCGTTGATCTGATTGCTCAGGTTGATTTAGTCACTACCGCCGTTGGCCCGGTTGTGCTGG -AACGTATTGCTCCGGCAATCGCCAAAGGGCAGGTGAAACGTAAAGAACAAGGTAATGAATCCCCGCTGAA -CATCATCGCCTGTGAAAACATGGTACGCGGTACCACGCAGCTGAAAGGCCATGTGATGAACGCCCTGCCG -GAAGACGCCAAAGCGTGGGTAGAAGAACACGTTGGCTTTGTCGATTCCGCCGTTGACCGCATCGTACCGC -CTTCGGCTTCGGCAACTAACGATCCGCTGGAAGTGACGGTAGAAACCTTCAGCGAATGGATTGTCGATAA -AACGCAGTTCAAAGGCGCACTGCCGAACATCCCAGGCATGGAGTTAACCGACAACCTGATGGCATTTGTC -GAACGTAAACTCTTCACCCTGAACACGGGTCATGCTATAACCGCGTACCTCGGAAAACTGGCCGGTCATC -AGACCATTCGTGACGCGATTCTCGACGAGAAAATCCGCGCGGTGGTAAAAGGTGCGATGGAAGAAAGTGG -TGCAGTATTGATCAAGCGCTACGGCTTTGACGCTGACAAGCATGCGGCGTACATCCAGAAAATTCTCGGC -CGTTTTGAGAACCCGTATCTGAAAGATGATGTAGAGCGCGTAGGCCGTCAGCCACTGCGTAAACTGAGTG -CTGGCGACCGTCTGATCAAGCCACTGCTCGGTACGCTGGAATATGGTCTGCCACATAAAAACCTGATTGA -AGGTATTGCCGCTGCAATGCACTTCCGCAGTGAAGATGATCCGCAGGCTCAGGAACTGGCAGCACTGATC -GCTGACAAAGGTCCGCAGGCGGCGCTGGCACAGATTTCCGGTCTTGATGCCAACAGCGAGGTTGTATCCG -AGGCGGTAACCGCTTATAAAGCAATGCAATAATGGTGGACCAGGCGCAGGACACCCTGCGCCCGAATAAC -AGATTGTCAGATATGCAGGCAACAATGGAACAAACCCAGGCCTTTGAAAACCGTGTGCTTGAGCGTCTGA -ATGCTGGCAAAACCGTGCGAAGCTTTCTGATCACCGCCGTCGAGCTCCTGACCGAGGCGGTAAATCTTCT -GGTGCTTCAGGTATTCCGCAAAGACGATTACGCGGTGAAGTATGCTGTAGAACCGTTACTCGACGGCGAT -GGTCCGCTGGGCGATCTTTCTGTGCGTTTAAAACTCATTTACGGGTTGGGCGTCATTAACCGCCAGGAAT -ACGAAGATGCGGAACTGCTGATGGCATTGCGTGAAGAGCTAAATCACGACGGCAACGAGTACGCCTTTAC -CGACGACGAAATCCTTGGACCCTTTGGTGAACTGCACTGCGTGGCGGCGTTACCACCGCCGCCACAGTTT -GAACCAGCAGACTCCAGTTTGTATGCAATGCAAATTCAGCGCTATCAACAGGCTGTGCGATCAACAATGG -TCCTTTCACTGACTGAGCTGATTTCCAAAATCAGCTTAAAAAAAGCCTTTCAAAAGTAAGCAACGTCTGC -TTACTGCCCCTCTACCTGCTTCGGCCGATAAAGCCGACGATAATACTCCAGACGTTGTAGATATAACGGC -ACGCTTTCATCGGGTATTCCGGACGGAATCGCGTTACGGGGAGGAAGTTTTTTCAGATACTCCCGGAACG -CCTGGCTTGATGCCATGAAATCTACGGCTTTATCGATAAGAAGCGGAACGTTTTCACCTAATTTGCCCAT -GATGATATCTCCGTATTACCCCGCGCCGGGAATGCGCGGCCGCCAATTTTAGTTTAGGTTCCCGGTAAAG -ATGACATTAAGGAAAACGTGCTGAATCCTCAATAATCATCCGCTGCTGTTTATTATCTTTTTTCTATAGA -TTTCTTAATTAATCAACGAATTGCGCAGTTTTTGAGCATGTTAATGATTACGTTACAGAACTATTACAAT -GTCATTAGTTGTGAACAAAGCACCTGGTCGCGCATACTAGGGGCTATAAATTTATCTTTATCAGAAGCCA -TCACATGAAAGAAGTCGAAAAAAACGAAATCAAACGCCTCAGCGATCGCCTGGACGCCATCCGCCACCAG -CAGGCCGATCTTTCGCTGGTTGAAGCCGCAGACAAATATGCCGAGCTGGAAAAAGAGAAAGCCACGCTGG -AAGCAGAAATTGCTCGCCTGCGTGAAGTTCATAGCCAAAAACTGAGTAAAGAAGCACAGAAGCTGATGAA -GATGCCATTCCAGCGCGCAATTACCAAAAAAGAGCAGGCTGATATGGGCAAGCTGAAGAAAAGTGTTCGC -GGACTGGTCGTTGTGCACCCAATGACCGCACTGGGCCGCGAAATGGGCCTGCAGGAGATGACTGGGTTTT -CAAAGACCGCGTTTTAAGAACACAGTATCTACAGGGTGATTCTGCACATTCCTATAGGCCGAGTAAGGTG -TTCACGCCGCATCCGGCAAGATAAGGCGCTCTGGATCAACAACCTAAGGGCAATTCTCTGATGAGGATTG -CCCTTTTCTTTACCAGACATCTCCCCCCACAAGAATTGGCCCTACCAATTCTTCGCTTATCTGACCTCTG -GTTCACAATTTCCCAATTAAAACTCACATCAATGTTGCCAATACATAACATTTAGTTAACCATTCATTGT -CATTATCCCTACACAACACAATTGGCAGTGCCACTTTTACACAACGTGTGACAAGGAGATGAGCAACAGA -CTCATTACACGATGTGCGTGGACTCCAGGAGACCTGCAATGAATCTCTGGCAACAAAACTACGATCCCGC -CGGGAATATCTGGCTTTCCAGTCTGATAGCATCGCTTCCCATCCTGTTTTTCTTCTTTGCGCTGATTAAG -CTCAAACTGAAAGGATACGTCGCCGCCTCGTGGACGGTGGCAATCGCCCTTGCCGTGGCTTTGCTGTTCT -ATAAAATGCCGGTCGCTAACGCGCTGGCCTCGGTGGTTTATGGTTTCTTCTACGGGTTGTGGCCCATCGC -GTGGATCATTATTGCAGCGGTGTTCGTCTATAAGATCTCGGTGAAAACCGGGCAGTTTGACATCATTCGC -TCGTCTATTCTTTCGATAACCCCTGACCAGCGTCTGCAAATGCTGATCGTCGGTTTCTGTTTCGGCGCGT -TCCTTGAAGGAGCCGCAGGCTTTGGCGCACCGGTAGCAATTACCGCCGCATTGCTGGTCGGCCTGGGTTT -TAAACCGCTGTACGCCGCCGGGCTGTGCCTGATTGTTAACACCGCGCCAGTGGCATTTGGTGCGATGGGC -ATTCCAATCCTGGTTGCCGGACAGGTAACAGGTATCGACAGCTTTGAGATTGGTCAGATGGTGGGGCGGC -AGCTACCGTTTATGACCATTATCGTGCTGTTCTGGATCATGGCGATTATGGACGGCTGGCGCGGTATCAA -AGAGACGTGGCCTGCGGTCGTGGTTGCGGGCGGCTCGTTTGCCATCGCTCAGTACCTTAGCTCTAACTTC -ATTGGGCCGGAGCTGCCGGACATTATCTCTTCGCTGGTATCACTGCTCTGCCTGACGCTGTTCCTCAAAC -GCTGGCAGCCAGTGCGTGTATTCCGTTTTGGTGATTTGGGGGCGTCACAGGTTGATATGACGCTGGCCCA -CACCGGTTACACTGCGGGTCAGGTGTTACGTGCCTGGACACCGTTCCTGTTCCTGACAGCTACCGTAACA -CTGTGGAGTATCCCGCCGTTTAAAGCCCTGTTCGCATCGGGTGGCGCGCTGTATGAGTGGGTGATCAATA -TTCCGGTGCCGTACCTCGATAAACTGGTTGCCCGTATGCCGCCAGTGGTCAGCGAGGCTACAGCCTATGC -CGCCGTGTTTAAGTTTGACTGGTTCTCTGCCACCGGCACCGCCATTCTGTTTGCTGCACTGCTCTCGATT -GTCTGGCTGAAGATGAAACCGTCTGACGCTATCAGCACCTTCGGCAGCACGCTGAAAGAACTGGCTCTGC -CCATCTACTCCATCGGTATGGTGCTGGCATTCGCCTTTATTTCGAACTATTCCGGACTGTCATCAACACT -GGCGCTGGCACTGGCGCACACCGGTCATGCATTCACCTTCTTCTCGCCGTTCCTCGGCTGGCTGGGGGTA -TTCCTGACCGGGTCGGATACCTCATCTAACGCCCTGTTCGCCGCGCTGCAAGCCACCGCAGCACAACAAA -TTGGCGTCTCTGATCTGTTGCTGGTTGCCGCCAATACCACCGGTGGCGTCACCGGTAAGATGATCTCCCC -GCAATCTATCGCTATCGCCTGTGCGGCGGTAGGCCTGGTGGGCAAAGAGTCTGATTTGTTCCGCTTTACT -GTCAAACACAGCCTGATCTTCACCTGTATAGTGGGCGTGATCACCACGCTTCAGGCTTATGTCTTAACGT -GGATGATTCCTTAATGATTGTTTTACCCAGACGCCTGTCAGACGAGGTTGCCGATCGTGTGCGGGCGCTG -ATTGATGAAAAAAACCTGGAAGCGGGCATGAAGTTGCCCGCTGAGCGCCAACTGGCGATGCAACTCGGCG -TATCACGTAATTCACTGCGCGAGGCGCTGGCAAAACTGGTGAGTGAAGGCGTGCTGCTCAGTCGACGCGG -CGGCGGGACGTTTATTCGCTGGCGTCATGACACATGGTCGGAGCAAAACATCGTCCAGCCGCTAAAAACA -CTGATGGCCGATGATCCGGATTACAGTTTCGATATTCTGGAAGCCCGCTACGCCATTGAAGCCAGCACCG -CATGGCATGCGGCAATGCGCGCCACACCTGGCGACAAAGAAAAGATTCAGCTTTGCTTTGAAGCAACGCT -AAGTGAAGACCCGGATATCGCCTCACAAGCGGACGTTCGTTTTCATCTGGCGATTGCCGAAGCCTCACAT -AACATCGTGCTGCTGCAAACCATGCGCGGTTTCTTCGATGTCCTGCAATCCTCAGTGAAGCATAGCCGTC -AGCGGATGTATCTGGTGCCACCGGTTTTTTCACAACTGACCGAACAACATCAGGCTGTCATTGACGCCAT -TTTTGCCGGTGATGCTGACGGGGCGCGTAAAGCAATGATGGCGCACCTTAGTTTTGTTCACACCACCATG -AAACGATTCGATGAAGATCAGGCTCGCCACGCACGGATTACCCGCCTGCCCGGTGAGCATAATGAGCATT -CGAGGGAGAAAAACGCATGATTATTTCCGCAGCCAGCGATTATCGCGCCGCAGCGCAACGCATTCTGCCG -CCGTTCCTGTTCCACTATATGGATGGTGGTGCATATTCTGAATACACGCTGCGCCGCAACGTGGAAGATT -TGTCAGAAGTGGCGCTGCGCCAGCGTATTCTGAAAAACATGTCCGACTTAAGCCTGGAAACGACGCTGTT -TAATGAGAAATTGTCGATGCCGGTGGCACTGGCTCCGGTGGGTTTGTGTGGCATGTATGCGCGTCGTGGC -GAAGTTCAGGCAGCCAAAGCGGCGGACGCGCATGGTATTCCGTTTACTCTCTCGACGGTTTCCGTTTGCC -CGATTGAAGAAGTCGCGCCAGCCATCAAGCGCCCAATGTGGTTCCAGCTTTATGTACTGCGCGATCGCGG -CTTTATGCGTAACGCGCTGGAGCGAGCAAAAGCAGCGGGTTGTTCGACGCTGGTTTTCACCGTGGATATG -CCGACACCGGGCGCACGCTACCGTGATGCGCATTCAGGTATGAGCGGCCCGAACGCGGCAATGCGCCGCT -ACTTGCAAGCGGTGACACATCCGCAATGGGCGTGGGATGTGGGCCTGAACGGTCGTCCACATGATTTAGG -TAATATCTCAGCTTATCTCGGCAAACCGACCGGACTGGAAGATTACATCGGCTGGCTGGGGAATAACTTC -GATCCGTCCATCTCATGGAAAGACCTTGAATGGATCCGCGATTTCTGGGATGGCCCGATGGTGATCAAAG -GGATCCTCGATCCGGAAGATGCGCGCGATGCAGTACGTTTTGGTGCTGATGGAATTGTGGTTTCTAACCA -CGGTGGCCGCCAGCTGGACGGTGTACTCTCTTCCGCCCGTGCACTGCCTGCTATTGCAGATGCGGTGAAA -GGTGATATAGCCATTCTGGCGGATAGCGGAATTCGTAACGGGCTTGATGTCGTGCGTATGATTGCGCTCG -GTGCCGACACCGTACTGCTGGGTCGTGCTTTCTTGTATGCGCTGGCAACAGCGGGCCAGGCGGGTGTAGC -TAACCTGCTAAATCTGATCGAAAAAGAGATGAAAGTGGCGATGACGCTGACTGGCGCGAAATCGATCAGC -GAAATTACGCAAGATTCGCTGGTGCAGGGGCTGGGTAAAGAGTTGCCTGCGGCACTGGCTCCCATGGCGA -AAGGGAATGCGGCATAGTCGTTTGCGCCCCCTCACCCTAACCCTCTCCCTCAGGGAGAGGGGACCGTTCG -GCGCTGTATGTACTCCCTCACTCTGAAACGACACCGCACTCTTTTTTTCTCCCTCGCCCCTCCGGGGAGA -GGGCCGGGGTGAGGGGAAAAGGCCGCACTGCTCACCAATTTTCTGCTATCCTGCCCCCGCACTAAGGGGG -CAGTATGCTAAACATCGTACTTTACGAACCAGAAATTCCGCCAAATACTGGCAACATCATCCGTCTTTGC -GCTAATACCGGCTTTCGTCTGCATATCATCGAACCGATGGGATTTGCCTGGGACGATAAGCGCCTGCGCC -GCGCGGGGCTGGACTATCACGAGTTTACCGCCGTTACGCGTCATCATGACTATCGCGCGTTCCTCGAAGC -AGAAAATCCCCAGCGCCTGTTCGCCCTCACCACGAAAGGTACACCTGCTCACAGCGCCGTAAGCTATCAG -GATGGCGATTATCTGATGTTCGGCCCGGAAACACGCGGCCTGCCAGCGAGCATTCTTGATGCCCTGCCCG -CTGAACAAAAAATTCGCATTCCGATGGTGCCGGACAGCCGCAGCATGAATCTGTCCAATGCGGTGTCGGT -AGTGGTGTATGAAGCCTGGCGGCAGTTGGGGTATCCGGGAGCGGTATTGAGAGATTAGTTACTGTAGGCC -GGATAGATGATTACATCGCATCCGGCACGATCACAGGACATTAGATCCCATCCCCATACTCAAATGTATG -GTTAATACCGTTGAAATGCTGGTCCATATCCATTGATGGCTTATCGCTGTCTGGTTTACCGACAATACGA -GCCGGAACGCCAGCGGCGGTGGTATGCGGCGGCACCGGTTGCAGCACCACGGAACCTGCGCCAATCTTCG -CGCCGCGCCCAACTTCAATATTGCCGAGGATTTTCGCGCCCGCGCCAATCATCACACCTTCACGAATTTT -CGGGTGACGGTCACCACCAGATTTACCCGTACCGCCAAGCGTCACAGATTGCAGAATCGATACGTCGTTT -TCAATCACCGCCGTTTCACCAACGACGATGCCTGTCGCGTGGTCAAGCATGATACCGCGACCAATTTTTG -CTGCCGGGTGAATATCGACCTGGAACGTCACAGAAACCTGGTTTTGCAGAAAGATTGCCAGTGCGCGACG -CCCCTGATTCCACAACCAGTGACCGATGCGATAGGCCTGCAAGGCATGAAAACCCTTCAGGTATAACAAC -GGGGTTGAGTATTTATCGACTGCCGGGTCGCGGGTACGCACCGCCTGAATATCACAGGCCGCAGAGGCGA -TCATTTCCGGGTCAGCGGCGTAGGCTTCTTCCACCACTTCACGGATAGCAATAGCAGGCATAATTGGCGA -TGACAGCTTGTTCGCCAGCATGTAGCTCAGTGCACTGCCAAGGTTTTCGTGCTTGAGTAGCGTCGCGTGG -TAAAAACTGGCCAGCATTGGCTCACAGTCCGCCAGCGTTCTGGCTTCGGCTTTAATATTGTTCCAGACAA -TTTCCAGTTCTTCACACGACATTGCTTACTCCACACGATGAGATAATGACCGGCCCGTTCTGCGCGGGCC -GGGTCATAGCGGTAACAAAGGTTCCCTGGGGTTAGTGGCTGCTGCGCTCGTCCTTGCGTGCACGACCTAG -TAAAGTCAATGCTGCCTCGCGCGCGTTTTTTCCGCAATATAATACTTGATAAATTTCCTCGGTTATTGGC -ATTTCAACGCCGAAGCGATGCGCCAGTTCGCGGACTTCTTTCGTATTGCGGTAGCCTTCCACCACCTGAC -CAATCTTCTCCTGCGCGCTTTGTACATCCATGCCCTGACCGAGCATCATGCCAAAACGGCGGTTACGCGA -CTGGTTGTCGGTACAGGTAAGCACCAGATCGCCAAGCCCCGCCATGCCCATAAAGGTGGCAGGGTCGGCA -CCCAGCGCCGCACCAAGACGCGACATTTCAGCCAGCCCACGGGTGATCAGCGCCGTACGCGCATTCGCAC -CAAAACCGATACCGTCGGACATCCCCGCACCAATGGCAATAACGTTTTTCACCGCGCCGCCAAGCTGCAC -GCCAATGAAATCCGGATTGCTGTAAACGCGGAAACTTTTGCCGCAGTGCAGCAGCTGCTGGAGATCATCG -GCAAAGGTCTGATCGGTCGAGGCCAGCGAAATAGCTGTCGGTAAACCTGCCGCCAGTTCTTTCGCAAACG -TTGGGCCAGAGATAACCGCCAGCGGAATTTGATCGCCTAAGGCCTCACGCGCCACGTCCTGTAACAGACG -TCCGGTTTCCGCTTCCAGCCCTTTGGTCGCCCACACCAGACGCGCATCAGGACGCATCAGTGGTTTAATC -TGGCGCAGCACTTCACCAAAGACATGGCTGGGTACGACGACGAGAATATTACGGCTGGCTGCCAGCGCAG -TGGCGAGATCGCTTTCAAGATGGAGCGTATCGGGAAAAGGCACATCGGGGAGAAACGCGGCGTTACAGCG -GTCGCGTTCAAGCGTTGCGATATGTTCAGGGTCATGGCCCCAGAGGACAACCTCGTGGCCATTTCTTGCC -AGGGTGATGGCAAGAGCGGTGCCGTACGAGCCGGCACCGATCACAGTCATTGAAGCATTACGTTGGTTCA -TCAGGCATCCTGATGTTCTTCAGTACCTTCGCCAGCCTGCTGCTGCAAATAGTTCATGAACAGCGCATCG -AAGTTAACCGGCGCAAGGTTCAGTTGCGGGAATGTACCGCGGGATACCATGCTGGTGATGCACTCACGAG -CATACGGGAACAGAATGTTCGGGCAGTATGCTCCCAGGCAATGCGCCATCTGGGTGCCTTCGATACCCGC -GATGGAGAAAATACCGCCCTGCTGAACTTCACACAGGAACGCGGTTTCTTCGCCCAAAGAGGCCGTTACG -GTAACACGCAGTACCACTTCGTATACGTCATCTGCCAGTTGGGAAGATGCCGTATCCAGATCAAGTTTAA -CTTCTGGTTGCCAATCTTTCTGGAAAACGTGCGGCGCGTTCGGCGCTTCGAAAGAGATATCCTTGGTATA -AATACGTTGGATCTGGAAAGTCATTTCAGTGTTGTTTTGTTCTGACATGTGTAGAAAACCCTTAAGTGTT -GTCCTTAAATACTGCGCAATGTAATGCCAACGTTCACACGTTATTTCAGCAGGGGATCCAGTCCACCACG -TGCATCCAATGCATACAAGTCATCACAGCCGCCAATGTGCTGTGCGTCAATAAAAATCTGGGGAACCGTG -GTGCGACCGCTGCGTTTGATCATCTCTTCACGCTTGGCGGCGTTGCCATCGATCGGCAGCTCCTGGAAAC -TCACGCCCTTGCTGCTCAGCAGTGCTTTTGCACGATGGCAATACGGGCAGGTTTCTTTGGTATAGATTTC -AACATTGGCCATAAATTAGCTCCTGTTTTTTTACCCTGAAATTTCATGTTGCAGGGCGGCAGCAAAATGG -AGTGTCCCCAGAAGCTTATAACAATAAGTCGCTGGGGGCCTAATTGCAGCTAACGGCCTGCATCATGAAA -GACGACAGGTAAATTATTTGCCGCGCACCAAAGGCAAGTTTTCGCCAGCCCAGCCAGCGACGCCTTCTTT -CAGCACGAATACTTGCGCAAAACCAGCTTTCGTCAGTGCGTTTGCAGGCTCCTGGCACTGCATGCCAGAA -CCGTCTACCACGATAACCGGTTTGTCTTTGTGCTTCTCAAGCTCACCAACATTGTTGGCTTTGATTTCGC -TCGGCAACAGATTAATAGAACCTGCGATATGGCCTTTACGGAAGTCATCACGCTGACGTAAATCCACAAC -CACAGCGTCTTCTTTGTTGATCAGACGCGTAGCTTCACCACGAGTAATCACCTTCACTTTCGAGGTCAGG -CTCTTAAACGTAGTCACAAGAACCGCCACCAGTAACGCGATCCAGGCGATACTCAGTATGGGATGACGGC -CAACAAATTGCATAATTTCTTGCATGGGGGGTAACAACTCCCGACGTAGTGATTAAAAAAACCAGGAAAG -GAGTATACCTGCGCGGTGCGGCAAATACAGCCAGCGCGTTAACTGGAATGCAATTTTGCGGGGCGCGACG -AAAAAAAAGCGTAAATCTGGCATCGGCTTGCCGCGAGCGGTCGTATATTTTGATCTTCAGAGGCTATTTT -ATCGATTCAGCTGTAGTAAAATTACGCAAATTTTGACTCTTGAGTATGAGGTTGTCGCAATGTTGGTTTC -TAAAAAACCTATGGTACTGGTGATTCTGGATGGCTATGGCTATCGCGAAGAACAGCAGGATAACGCCATT -TTTAGTGCTAAAACCCCGGTAATGGATGCACTGTGGGCCAATCGTCCGCATACCCTAATCGACGCTTCCG -GTCTGGAAGTCGGTCTGCCTGACCGTCAGATGGGTAACTCCGAAGTAGGCCACGTTAACCTGGGTGCCGG -CCGCATCGTGTATCAGGACCTGACTCGTCTGGACGTTGAAATCAAAGATCGCGCTTTCTTTGCTAATCCG -GTGCTGACTGGCGCGGTAGATAAAGCGAAAAACGCAGGCAAAGCGGTACACATTATGGGTCTGCTCTCCG -CAGGCGGCGTACACAGCCACGAAGATCACATCATGGCGATGGTAGAACTGGCAGCTGAACGCGGCGCAGA -AAAAATCTACCTGCACGCATTCCTTGACGGTCGCGACACTCCGCCGCGCAGTGCTGAATCCTCGCTGAAA -AAATTCGAAGAAAAATTTGCCGCGCTGGGCAAAGGCCGCGTAGCGTCCATCATTGGTCGTTACTACGCGA -TGGACCGCGATAACCGTTGGGATCGCGTAGAAAAAGCTTATGACCTGCTGACTCTGGCGCAGGGCGAGTT -CCAGGCCGATACCGCCGTTGCTGGTTTGCAGGCTGCTTATGCTCGCGACGAAAATGATGAATTCGTGAAA -GCGACCGTTATCCGTGCTGAAGGTCAGCCAGACGCGGCAATGGAAGACGGCGATGCACTGATTTTCATGA -ACTTCCGTGCTGACCGCGCGCGTGAAATCACTCGTGCTTTCGTGAACGCTGATTTCGATGGCTTCGCGCG -TAAGAAAGTGGTTAACGTCGATTTCGTGATGCTGACCGAATACGCCGCTGACATCAAAACTGCGGTTGCT -TACCCACCCGCTTCCCTGGTTAACACCTTCGGCGAGTGGATGGCGAAAAACGACAAAACTCAGTTGCGTA -TTTCCGAAACCGAAAAATATGCCCACGTTACTTTCTTCTTCAACGGTGGCGTAGAAGAGTCGTTCAAAGG -CGAAGATCGCATTCTGATCAACTCACCGAAAGTGGCTACCTACGATCTGCAACCGGAAATGAGCTCCGCA -GAGCTGACCGAAAAACTGGTTGCGGCCATCAAGAGCGGCAAATACGACACCATCATCTGTAACTATCCGA -ACGGCGACATGGTAGGTCACACCGGGGTGATGGAAGCGGCGGTTAAAGCGGTTGAAGCGCTGGATCACTG -CGTGGAAGAAGTCGCGAAAGCGGTTGAGTCCGTGGGTGGACAACTGCTGATCACCGCTGACCACGGTAAC -GCTGAGCAGATGCGCGATCCGGCAACGGGTCAGGCACACACGGCACACACCAACCTGCCAGTTCCGCTGA -TTTACGTTGGTGATAAGAACGTGAAAGCGGTTGAAGGCGGCAAACTTTCTGACATCGCGCCGACCATGTT -GTCGCTGATGGGTATGGAAATCCCGCAAGAGATGACTGGTAAGCCGCTGTTCATCGTGGAATAATCCCTC -CCCATGAGGGGAAAGGCGATTAATACCATGACACGGGCCGTGAAACCGCGCAGGTTTGCAATCAGGCCCA -TCATCTACGCCAGCGTTCTTAGCGCTGGCGTATTGTTGTGCGCCTTTTCCGCCCACGCGGATGAGCGTGA -CCAACTCAAATCTATTCAGGCTGACATCGCCGCAAAAGAGCGCGCGGTACGCCAAAAGCAACAACAACGC -GCAAGCCTGCTCGCACAATTGAAAAAGCAGGAAGAAGCGATCTCTGAAGCCACCCGTAAGCTGCGCGAAA -CGCAAAACACGCTCAATCAACTCAATAAACAGATTGATGAGATGAACGCGTCGATTGCCAAACTGGAGCA -GCAAAAAGCCGCCCAGGAGCGCAGCCTCGCCGCACAACTGGATGCCGCATTCCGTCAGGGCGAGCATACC -GGTATTCAGCTGATTCTCAGCGGTGAAGAAAGCCAGCGTGGACAGCGTTTACAGGCTTATTTCGGCTATC -TCAACCAGGCGCGACAAGAAACCATTGCCCAGTTGAAGCAAACGCGTGAAGAAGTCGCCATGCAGCGTGC -TGAACTGGAAGAGAAACAGAGCGAGCAACAAACGCTGTTATATGAGCAGCGCGCCCAACAGGCGAAACTG -ACTCAGGCGCTGAACGAGCGTAAAAAGACGCTGGCAGGGCTGGAGTCTTCCATCCAGCAAGGTCAGCAAC -AGTTGAGCGAGCTGCGCGCCAACGAATCCCGTCTGCGTAACAGCATTGCCCGTGCGGAAGCCGCGGCGAA -AGCGCGTGCAGAACGAGAAGCACGTGAGGCCCAGGCGGTTCGCGACCGCCAGAAAGAAGCGACGCGCAAA -GGCACCACCTACAAACCGACCGAAAGCGAAAAATCGCTGATGTCCCGTACCGGTGGTCTGGGCGCGCCGC -GTGGTCAGGCATTCTGGCCGGTTCGCGGGCCGACGCTGCATCGCTATGGCGAACAGCTACAGGGTGAATT -ACGCTGGAAAGGTATGGTTATCGGTGCTTCTGAAGGTACTGAAGTTAAAGCGATTGCCGACGGTCGGGTG -ATTCTGGCTGACTGGCTGCAAGGCTACGGTCTGGTGGTGGTGGTTGAGCATGGTAAAGGCGACATGAGTC -TTTACGGCTATAATCAGAGCGCACTGGTGAGCGTTGGTTCGCAGGTTCGCGCGGGCCAGCCGATTGCACT -GGTGGGCAGCAGTGGCGGTCAGGGTCGGCCTTCACTCTATTTCGAAATTCGCCGCCAGGGTCAGGCGGTC -AATCCACAGCCGTGGTTGGGAAGATAAGTTTTGTTTCCATTTCGTCGTAACGTTCTTGCATTTGCCGCTC -TGTTGGCGCTCTCCTCCCCCGTACTTGCTGGCAAACTTGCCATCGTCATTGATGATTTTGGGTATCGCCC -GCACAACGAAAACCAGGTGCTGGCGATGCCTTCCGCTATCTCCGTCGCTGTATTACCCGATTCACCGCAC -GCCAGAGAGATGGCGACCAAAGCGCATAACAGCGGGCACGAAGTGTTGATTCATCTCCCGATGGCACCGT -TGAGTAAACAGCCGCTGGAGAAAAATACGCTACGCCCGGAGATGAGCAGCGACGAAATTGAGCGCATTAT -TCGTAGTGCGGTCAATAACGTGCCCTATGCCGTGGGGATCAACAACCACATGGGCAGCAAGATGACCTCT -AACCTGTTTGGTATGCAGAAAGTGATGCAGGCGCTGGAGCGTTACAATCTTTACTTCCTCGACAGCGTAA -CCATCGGTAATACCCAGGCGATGCGCGCCGCGCAAGGCACTGGCGTGAAGGTGATCAAACGGAAGGTATT -CCTCGACGATTCGCAAAATGAAGCGGACATCCGTGTGCAATTTAATCGCGCAATTGACCTGGCGCGTCGC -AACGGTTCGACCATTGCCATTGGGCATCCTCACCCTGCAACGGTACGCGTGTTGCAACAGATGGTTTATA -ACCTGCCGCCAGACATTACGCTGGTGAAAGCCAGCAGCTTGCTGAATGAACCGCAGGTTGATACTTCTAC -ACCGCCGAAAAACGCTGTGCCTGATGCACCGCGTAATCCGTTCCGTGGCGTGAAGCTGTGCAAACCGAAG -AAACCGATAGAACCTGTTTATGCTAATCGCTTCTTTGAAGTATTAAGCGAAAGCATCAGCCAGAGCACGC -TGATCGTTTACTTCCAGCATCAGTGGCAAGGCTGGGGCAAACAGCCCGAAGCGGCGAAGTTTAACGCTAG -CGCAAATTAAAGGCGCTACGCGTAATGCGATGGTGCGACCGCGTTTTGTCGCGCCATTGCCATAAGCGGA -AAGACCACAGTAACGCCTGGTAACCGACCTTCACGCTGCGCACATTGGTAATCAGGCGCTTATACATACC -GGAAGTAAATATCTCGGCAATCATCCGTTGGCGGGTAAGAATATCCGGCTCTTTGCGCACCGCATGGCAA -ACACGCAATGCCTCGTAAGTTATTTGCTGATGAAATTCCGGATAAATCATAATTTTGTCGGCATAATTTC -GATTTAATTTCTCCAGCAGGCGGGTAATCTTAATATAGTGACGTTGATAATTAAGGTTTTTATTCCCTTG -TCTATGCAACCGACTCACTGACGTATTATGCAGATAATATTTATATAATGATTGCTCGGTATATCGCGCA -CGCAGCGCGTTAAACATGAATTCTGTTGTCCAGACAATATCCTGATGATGTAATCCGGCAATAAATTTAA -TGTTATTTTTAACAATAACATCACGGCGATAAACCCCCATCCAGACAACGTGAGTCCAACGGCGCGAAGA -AAGCCCCATCCGCAGCCAGTCCGGGCCGGTTAATACGCCGGTTGAGCGAAGGCGATCGGTGGGGATGGAT -TGCCAGGTTTCTCCCGTTTCACGAAAACACCAGTCAGCGTTGCACTGCGCCACGTCGAGGTCGTCCTCTA -ACGCCATGGTCATCAGCGTTTCGTACATGGTGGGATAGACTTCATCGTCAGCATCGACAAAAGCGACATA -TTTGCCCGTTGCCACTTCAATCCCACGATTACGCGCCACCGATGCGCCAGCATTCGCCTGATGCAACAAA -CGAACGTGCGGATAGTTTTCTGCGTAATACTTTGCTATTTCAACAGAATTATCCGTTGAACCATCGTTAA -TAATAATGATTTCCAGAGCAGTCCAGGTTTGCGTAATTAAAGATTCCATACAAGTGCGGAAATCATCGCC -CGCATTATATAACGGAATAATAACACTAAGTTTATTGGTGCTGTTCATCATAAATTACCGACGACCTCTG -AAGTTATCCTGACGTTTTACAGGCTTTGTATTAAGAAACTATTAAGCCTGTGAGATATTATTTTTACAGG -TGAGAGAGTCACTTCAGGGTAGAGAGATAATGAGAGCAGCTATATAAGAGATCAGCACAATTACGAACTC -TTTATTACACTGACAGGATTTTACATATTTAACAGATTATCCTCAGATAAAAGGGCTGGAATACCAGCCC -TTGTTCGTGTTAATCCCAGCTCAGAATAACTTTCCCGGACTGGCCCGAACGCATAGCGTCAAAGCCCTTC -TGGAAATCATCGATAGAGAAACGATGGGTAATGATCGGCGAAAGATCGAGGCCAGACTGAATCAGCGCCG -CCATCTTGTACCAGGTTTCAAACATCTCACGACCGTAAATACCTTTAATGAACAAGCCTTTAAAGATCAC -TTTGGTCCAGTCGATAGACATATCAGACGGCGGAATACCCAGCATCGCAATACGGCCGCCGTGATTCATG -GTGTCAAGCATGGTACGAAACGCTGGCGGCGCACCGGACATTTCCAGACCGACATCAAAACCTTCGGTCA -TGCCTAACTCCGCCATCACGTCATTGAGATTTTCTTTGGCGACGTTAACCGCACGGGTGATACCCATTTT -ACGCGCCAGCTCAAGGCGGTATTCGTTAACATCAGTGATCACCACATTGCGTGCACCAACGTGTTTCGCC -ACCGCCGCTGCCATAATACCAATCGGGCCTGCACCAGAAACCAGCACATCTTCGCCCACCAGATCAAACG -ACAGCGCGGTATGCACGGCGTTACCGAAGGGATCAAAAATTGCGGCTAAGTCATCGGAAATATTGTCGGG -GATTTTGAAGGCGTTGAATGCCGGGATCACCAGATATTCGGCAAAGCAGCCCGGGCGATTAACACCAACG -CCTATCGTGTTGCGGCACAAATGGGTACGACCACCACGACAGTTGCGGCAATGACCACAGGTGATATGGC -CTTCGCCAGAAACGCGATCGCCGATCTTGAAGCCTTTCACTTCCTGACCAATACCTACCACTTCACCGAC -ATATTCATGGCCCACGACCATCGGCACCGGGATGGTTTTTTGCGACCACTCATCCCAGTTATAGATGTGA -ACGTCAGTCCCGCAGATGGCTGTTTTACGGATTTTAATCAGCAGATCGTTATGCCCGAGTTCCGGTACAG -GAACGTCGGTCATCCAGATGCCCTCTTCCGCTTTCAGTTTGGATAACGCTTTCATCTCACATCCTCAGGC -GATAACGCCCAGTTGTTTACCAATACGCGTAAATGCTTCTACTGCACGCGTAATTTGCTCAGGGGTATGC -GCCGCAGACATCTGGGTACGAATACGCGCCTGACCTTTCGGAACGACCGGATAGAAGAAACCGGTAACGT -AAATGCCCTCTTTTTGCAGCTCACGGGCAAATTTCTGCGCCACTACCGCATCACCAAGCATGACCGGAAT -AATGGCGTGATCGGCTCCCGCCAGGGTAAAGCCCGCCGCCGACATTTGCTCACGGAACTGACGCGCGTTC -GCCCACAGACGGTCACGCAGTTCGCTGCCCGCTTCGACCATCTCCAGTACTTTGATGGACGCGGCAACAA -TGGCCGGTGCCAGCGAGTTGGAGAACAGGTACGGACGAGAACGCTGGCGCAGCCACTCAACCACTTCTTT -GCGCGCCGCGGTATAACCACCAGAAGCCCCGCCCAGCGCTTTACCAAGCGTACCGGTGATAATATCGACC -CGGCCCATCACATCGCAGTATTCATGGGAACCACGACCATTTTCACCGACAAAACCGACCGCGTGGGAGT -CGTCTACCATCACCAGGGCATCATATTTATCTGCCAGATCGCAAACGCCCTTCAGGTTGGCAATCACGCC -GTCCATTGAGAACACACCATCGGTGGCGATCAGCACATGACGCGCACCGGCTTCACGCGCTTCTTTCAGA -CGTGCTTCCAGCTCCTGCATATCGTTGTTGGCATAGCGATAGCGTTTAGCTTTGCACAGACGCACACCAT -CAATAATAGACGCGTGGTTCAGTGCGTCGGAGATAATGGCGTCTTCCGCACCCAGAAGCGTTTCAAACAG -GCCACCGTTAGCATCAAAGCAGGAAGAGTAGAGAATCGCATCTTCCATCCCCAGGAAGGCCGCCAGTTTT -TGTTCAAGCTCTTTATGGCTGTCCTGAGTGCCGCAAATAAAACGCACCGAAGCCATGCCGAAACCGTGAG -AATCCATTCCCGCCTTTGCCGCCGCAATCAGATCAGGATGATTCGCCAGCCCGAGATAGTTGTTGGCACA -AAAGTTAATGACGTGGCTTCCATCAGCCACAGTGATATCTGCTTGCTGCGCAGACGTAATAATGCGCTCT -TCTTTAAACAACCCTTCCGCCCGTGCGGTTTCCAGATCGTTGGTTAACTGCTGATAAAATTCTCCACGCA -TTGCGATTCTCCAGACAGGGCAAATTCCAGCACATATTACCCAAACTTATAGGTCGCGACGAGATAACGC -GTTAACACTTCTGCAAAATTCAGGATAAATAACGTGTAACTTGATGTCTCTCAACACCTACAGATAGTAG -AAAAACTGTACAGTTTTGGCTGGGCATAATGATGATTGATTTTACTGCATTGATATAAAAAGAAAAAATG -ATGCCAAAGCATCATTTTTCCTATCTCAGTTGGTATCAAAACGCTACCCACTAATGGAGGGAAACCTATT -TTCTTGAAAGGAAAATTCTCAGCGCCTGCATTTTTGCCCCTAAAGTGTTACTCCTGAAGCAGCGAAACAA -ATCGAACCATTTTCCTCTCCCCAGATAGTTTAGGTTGAAGAGATCGGGGCGTTTGTAATAGCACATGACA -AAAATGCCCTGGTCATCGTCCACAATGTTATTATTTAGTGTTATTTTTTGACTTTCCAGAACTAATTTAT -AGAATTCTTTCCATTTATGCTGTGAACCAACAATTGCGCCCCCAATAATATATACATGATTGCCAATCAT -GAAATCAAAAACCTGTTGTTGAGATGTGACAGTAAGCCCTTTTTTTATAGTGAAAAGATGCATCTTACTT -TCATCAAATGGGAAATCCCAAATTTTCAATCCTCGAGTTACATTTGGCTTATGGCAATAGCCAAAATCTA -TCCACGCAACAAGAGGCGTTTTCACTAAGCCCATGTTGATAGCTTTATTTACAAAATAGGCCTTAAGGTT -ACATACCAAAACATACTCTGGTGACCAGTACTCTGGGTTTTTTAATTGTCGAGGCTCAAGTCTATTTGTA -AACGACTCATCTTTTTGAATTTTTTCGATACGACTTCTGATATATCTAAATTTCTTTTTTATATCGATAA -CGATAACCGTTGTTGGTTTTCCGTTGCGAATCGCTTCAACCCTTGGTTTCAAATCGGGAGAAGTGAAAAT -AATCATCTCATTTTCAAGTGCGGCCAGACGCTCAAAGTAACTAAAATAAACATCAACTGAACGAGCTAGT -TTTTCACGGAACCCTTTATTAGCAGTCCAATCCCCTCTACCAATGTCAAAATATGCAGTGATAATTGTGG -TGGATGATTTCATTACTAATAAGACCATTAATATAAAAAAAGAATTATATCATAAATATTAATAGAATGT -ATACTGTATATTATCCATTCAAATGCTTCCGTTATTTATCATACATCGGAATATTGATACTAAAGCACTA -TTCACATGCAAAACCAACATCCGCCATGAAGGACTAGCTAAAACCCAAACTAGTTTGTTGCAATTAGCAT -CCTTGCACCTCTATGTAAAGGGCTGAAGGGATTCGGATGTGATGGTATGATTACAGACATTCGTGTCTGA -GATTGTCTCTGACTCCATAATTCGAAGGTTACAGTTATGATCATCGTTACCGGCGGCGCGGGCTTTATCG -GCAGCAACATCGTTAAAGCCCTGAATGATAAAGGCATCACCGATATTCTGGTGGTGGACAACCTGAAAGA -CGGCACCAAGTTTGTGAACCTGGTGGATCTGAATATCGCAGACTATATGGATAAGGAAGACTTCCTGATC -CAGATTATGGCTGGCGAAGAGTTCGGCGATGTCGAAGCGATTTTCCACGAAGGCGCGTGCTCTTCCACCA -CCGAGTGGGACGGCAAGTATATGATGGATAACAACTATCAATACTCCAAGGAGCTGCTGCACTACTGCCT -GGAGCGTGAAATCCCGTTCCTGTACGCTTCTTCCGCAGCCACCTACGGCGGACGCACCTCCGACTTTATT -GAATCCCGCGAGTACGAAAAACCGTTGAACGTCTACGGTTACTCAAAATTCCTGTTTGATGAATATGTTC -GTCAAATCCTGCCTGAAGCGAACTCGCAGATTGTTGGCTTCCGTTATTTCAACGTTTATGGACCGCGTGA -AGGCCATAAAGGCAGCATGGCGAGCGTCGCTTTCCATCTCAACACCCAGCTTAACAACGGTGAATCACCG -AAGCTGTTTGAAGGTAGCGAGAACTTCAAACGCGACTTCGTCTATGTGGGCGACGTGGCTGATGTGAATC -TGTGGTTCCTGGAAAATGGCGTTTCCGGCATCTTCAATCTCGGTACTGGTCGTGCGGAATCCTTCCAGGC -GGTAGCTGATGCTACGCTGGCTTATCACAAGAAAGGCCAGATCGAATACATTCCGTTCCCGGATAAACTG -AAAGGCCGCTATCAGGCGTTCACTCAGGCAGATCTGACAAATCTGCGCGCGGCGGGTTACGACAAACCGT -TCAAAACCGTTGCTGAAGGTGTAACGGAATACATGGCCTGGCTGAATCGCGACGCATAAGAGCTCTGCAT -GAAAATACTGGTGATCGGCCCGTCTTGGGTTGGCGACATGATGATGTCGCAAAGTCTCTATCGCACGCTC -CAGGCGCGCTATCCCCAGGCGATAATCGATGTGATGGCACCGGCATGGTGCCGTCCATTATTATCGCGGA -TGCCGGAAGTTAACGAAGCTATTCCTATGCCTCTCGGTCACGGAGCGCTGGAAATCGGCGAACGCCGCAA -ACTGGGTCATAGCCTGCGTGAAAAGCGCTACGACCGCGCCTACGTCTTACCCAACTCCTTCAAATCTGCA -TTAGTGCCTTTCTTCGCGGGTATTCCTCATCGCACCGGCTGGCGCGGCGAGATGCGCTACGGTTTACTCA -ACGATGTACGCGTGCTCGATAAAGAAGCCTGGCCGCTAATGGTGGAACGCTATATAGCGCTGGCCTATGA -CAAAGGCATTATGCGCACAGCACAAGATCTGCCGCAGCCATTGTTATGGCCGCAGTTGCAGGTGAGCGAA -GGTGAAAAATCATATACCTGTAATCAATTTTCGCTTTCATCAGAACGTCCGATGATTGGTTTTTGCCCGG -GTGCGGAGTTTGGTCCGGCAAAACGCTGGCCACACTACCACTATGCGGAGCTGGCAAAGCAGCTGATTGA -TGAAGGTTATCAGGTGGTTCTGTTTGGCTCGGCGAAAGATCATGAAGCGGGCAATGAGATTCTTGCCGCT -TTGAATACCGAGCAGCAGGCATGGTGTCGGAACCTGGCGGGGGAAACACAGCTTGATCAAGCGGTTATCC -TGATTGCAGCCTGTAAAGCCATTGTCACTAACGATTCTGGCCTGATGCATGTTGCGGCGGCGCTCAATCG -TCCGCTGGTTGCCCTGTATGGTCCGAGTAGCCCGGACTTCACACCGCCGCTATCCCATAAAGCGCGCGTG -ATCCGTTTGATTACCGGCTATCACAAAGTGCGTAAAGGTGACGCTGCGGAGGGTTATCACCAGAGCTTAA -TCGACATTACTCCCCAGCGCGTACTGGAAGAACTCAACGCGCTATTGTTACAAGAGGAAGCCTGACGGAT -GCGGGTTTTGATCGTTAAAACATCGTCGATGGGCGATGTTCTCCATACGTTGCCCGCACTCACTGATGCC -CAGCAGGCAATCCCAGGGATTAAGTTTGACTGGGTGGTGGAAGAAGGGTTCGCACAGATTCCTTCCTGGC -ACGCTGCCGTTGAGCGAGTTATTCCTGTGGCAATACGTCGCTGGCGTAAAGCCTGGTTCTCGGCCCCCAT -AAAAGCGGAACGCAAAGCGTTTCGTGAAGCGCTACAAGCAGAGAACTATGACGCAGTTATCGACGCTCAG -GGGCTGGTAAAAAGCGCGGCGCTGGTGACGCGTCTGGCGCATGGCGTAAAGCATGGCATGGACTGGCAAA -CCGCTCGCGAACCTTTAGCCAGCCTGTTTTACAATCGTAAGCATCATATTGCAAAACAGCAGCACGCCGT -AGAACGCACCCGCGAACTGTTTGCCAAAAGTTTGGGCTATAGCAAACCGCAAACCCAGGGCGATTATGCT -ATCGCACAGCATTTTCTGACGAACCTGCCTACAGATGCTGGCGAATATGCCGTATTTCTTCATGCGACGA -CCCGTGATGATAAACACTGGCCGGAAGAACACTGGCGAGAATTGATTGGTTTACTGGCTGATTCAGGAAT -ACGGATTAAACTTCCGTGGGGCGCGCCGCATGAGGAAGAACGGGCGAAACGACTGGCGGAAGGATTTGCT -TATGTTGAAGTATTGCCGAAGATGAGTCTGGAAGGCGTTGCCCGCGTGCTGGCCGGGGCTAAATTTGTAG -TGTCGGTGGATACGGGGTTAAGCCATTTAACGGCGGCACTGGATAGACCCAATATCACGGTTTATGGACC -AACCGATCCGGGATTAATTGGTGGGTATGGGAAGAATCAGATGGTATGTAGGGCTCCAAGAGAAAATTTA -ATTAACCTCAACAGTCAAGCAGTTTTGGAAAAGTTATCATCATTATAAAGGTAAAACATGCTAACATCCT -TTAAACTTCATTCATTGAAACCTTACACTCTGAAATCATCAATGATTTTAGAGATAATAACTTATATATT -ATGTTTTTTTTCAATGATAATTGCATTCGTCGATAATACTTTCAGCATAAAAATATATAATATCACTGCT -ATAGTTTGCTTATTGTCACTAATTTTACGTGGCAGACAAGAAAATTATAATATAAAAAACCTTATTCTTC -CCCTTTCTATATTTTTAATAGGCTTGCTTGATTTAATTTGGTATTCTGCGTTTAAAGTAGATAATTCGCC -ATTTCGTGCTACTTACCATAGTTATTTAAATACTGCCAAAATATTTATATTTGGTTCTTTTATTGTTTTC -TTGACACTAACTAGCCAGCTAAAATCAAAAAAAGAGAGTGTATTATACACTTTGTATTCTCTGTCATTTC -TAATTGCTGGATATGCAATGTATATTAATAGCATTCATGAAAATGACCGCATTTCTTTTGGTGTAGGAAC -GGCAACAGGAGCAGCATATTCAACAATGCTAATAGGGATAGTTAGTGGCGTTGCGATTCTTTATACTAAG -AAAAATCATCCTTTTTTATTTTTATTAAATAGTTGCGCGGTACTTTATGTTCTGGCGCTAACACAAACCA -GAGCAACCCTACTCCTGTTCCCTATAATTTGTGTTGCTGCATTAATAGCTTATTATAATAAATCACCCAA -GAAATTCACTTCCTCTATTGTTCTACTAATTGCTATATTAGCTAGCATTGTTATTATATTTAATAAACCA -ATACAGAATCGCTATAATGAAGCATTAAATGACTTAAACAGTTATACCAATGCTAATAGTGTTACTTCCC -TAGGTGCAAGACTGGCAATGTACGAAATTGGTTTAAATATATTCATAAAGTCACCTTTTTCATTTAGATC -AGCAGAGTCACGCGCTGAAAGTATGAATTTGTTAGTTGCAGAACACAATAGGCTAAGAGGGGCATTGGAG -TTTTCTAACGTACATCTACATAATGAGATAATTGAAGCAGGGTCACTGAAAGGTCTGATGGGAATTTTTT -CCACACTTTTCCTCTATTTTTCACTATTTTATATAGCATATAAAAAACGAGCTTTGGGTTTGTTGATATT -AACGCTTGGCATTGTGGGGATTGGACTCAGTGATGTGATCATATGGGCACGCAGCATTCCAATTATCATT -ATATCCGCTATAGTCCTCTTACTCGTCATTAATAATCGTAACAATACAATTAATTAAGAATAAACAAGTT -TAAGAAGTGAGTTAAAACTCACTTCTTATCTATACAACTTAATCTCTTTACTGAATTAGTTAAAGTTTCA -GTATCGATATCTTTTACCGTATATGTTGGGGATACTATTTGTATAGATTTATGATGATTCGGGGACCAAA -TTAAATGCGAGGGATATTCCGGAGTACGTGAATTAGGGTAAAATGCAAGCGTTGGTTTATGATAAGCCGC -AGCGATATGAACAAGAGCTGTATCAACAGAAATGACAAAATCACTATACTTGGTCAACGCAACGGTATAA -ATAAACTCATCAAATGGTAGTGTTTCGATTTCAAGTATTGGTATTGTCAATAAATCTTGCGGTAACCCGG -TAAATATAATCCGATAATTTTCAAAGTGTGTTTTCACTTCTTGATATATAACTTTTATTTGCTCAAACGT -AAGACGGCATATTTTTTTTGCACCTAATGGATTAATAATGACTATTCTTGTATCTCCAATAAATTCTTTT -ATTTTATCTTCAACATCTACTGGTAAATGCAAGTCGTAGTTGGTGGAAAATTTACCCTCACCATAAATAT -GCTTCAGTATTTCTATTGCTCGTGTACTCATATGTTCTTTTAAACATTCATCGTGGGGATGGTAAAATGA -ATAGTAACGCTTATACCAATGATCAAAACCCAGAATGTAAGAATCTTTTAAACTTGATAATATTAAGCTA -TGCTTAAATGAGGGCATAGTTTCAAAGGGGTCTAATACAATATCGAACTGTAAATCCCGCAGATGCTTAC -ATAGAGTAAGCATTTCAAGAAAACCGGTTGATTCTTTAATACAGAACTCAAATATATTTTTATTATTAGA -GAGAAATTCCCCACCCTTTCTATTTGTGAGAAGAGTTATTTTAACCCCTTTACTATAAAGTTCACGATAA -ATCGAACTTAATACAATTAGATCACCAAGTTTATTATTATCATGAATAATAAGGCATGATTTAACTTGTG -CTGGATCTGTAATTTGATTATTTATTTTATTACGAAATAAAAAAGAAAGGAAATTAATCTTGATTTTGTT -TATATAAAATCTTTTCTTTTTGTGAAAAGTTCCTAAGCGCATTTTTATACCATATTATTTTAGTTTCAGG -ATGATTAATTAGCATAAGAATCGGTTGAAGTTCTATATTGCATTTTTTTTCTTGTCATATCTTTTGATTC -TTCTGCACTGATGTCTTGAAGTTTAATAAATGGAATTACATCGTAAGAAATAGCTGTATCATCTGATAAA -TTATAAATATTAATATCTTTTACATTATCATGCATAAAACGAAAAAATGGCAATATTTTGAATAAATCCC -TACTTAATTCCGAGGGCATGGGATTTTTATTCTCATCATAGAAACGAGAACAGCTACCCGTTAAATCAAG -ACCAGAACAAATAATCCGCGCATACTTAAGTGAATATGCGATTTGAATTGCAGCAAAGGCAATAGTATGG -CATGAGCAATAACCAAGACTAATGTCCTTGCAAAATCCAACCAGACGACCTTTTTTAGACAACGGTACAG -AGATCAGCAGTTCTTTGTGAATCTGTCTCAAAATATTAAATTTAATCTTCTTTATAAAACCACCTTTTTC -CCGACGGTAAAAGGACCGTAATACGAGGCAGTTCTGGAGGATATAAAGTTTATCTTCTTTGGAAGCGTGT -TCATAAACGTCAACGTTTACTATGGTATAACGACTTCTCTGGCTAAATTTATAAAAATCATCACGACGCT -GATGTAAAAATCGGACATCTGTAAGTACATATATAAAAGGAACGATATTATTACTTAACAGATATTGCGC -AGAACCATTGACAGCAATAATATCCTTTGTTCGTAATACTGACAAAGGTGTTTTTTGCGATGTAGGGCCC -GAAAGAAAAATAATAACATCATCAGATATTTTATTTTCAATCAGGTTTTCAACATCTTTTTTGTCAATGT -ATCTAATATTCTTCATGATAAACCTGTGAAATAAATAACTCCGCTTAAAACTGTCCTGGTGAAGACATGT -AATTGTGGGATTTTTTTTAGCGCGCTGGTTTCCCTTTCAAACGCCGCATAAAATTGCGCATTTTTTTACG -ATATACTAAAAGATAATAGCCTAGATCTCTAATCTCATTTTTAATACCGTAATGACGCTCTAAGTCAATA -CGATCTTTCGCTTTACGCTGCGCTGAAGCACGCTTTCCGGAGAGATCGATAATTCGAACCTCACCATTTT -TTATAATGAAGTTACCACGATGGGGGTCGCCAGAAACCATGCCATGTTGATGTAAGGCATTAATTGATTG -CTGAATTTTATTTTTTAGCGCATCATCAATATCGGGCATATCACACAACTCTATGCCATCAATATACTCG -ATGATCATGATATAAGTATGGACAAAACGTAAGGTTTTCCGTTCAGCCAATAAATAAAAGTCATTGAGTG -TATTTAACCCTTCATTTCGTACTTTTTGGGTTTGCTCAAAAAGGCGTTCGTAATAATCACCTTTTAACAG -AGACTTAAAGAAACGTTCGTTACGCTTAACTTTCGGAGAAAAAACCTTAAGAATCAATTTACCGTAATCG -GTATCAATAAGCATAACTTTTGTATCATCAATAGAACGAAAAACCTTGATGATATTTATATTATAAGACA -AGAAGTCATTTAATACATTGAGGTACTTTGAATTGTTTTCATCGGTAAAAACAACCAAGTCTTTGATCTT -GCTCTTCTGAATCATAATAAACCAGTTAAATGTTATTTACGGTAATATTTTCGGCAAAGATAACAGACTC -CTGCTATAATTCCTGAGATATAATGATGTTGCACTAAAAGATGTTTATATCTTTTTTTAAATTCAATAAT -TGATTTCGCATCTCGTGGAGAGTCATCTTTCCAGGGGGAATTTTCTAAAGCTATTTTATAGTATTTTACC -GATGGATAAATTGCCCATTTGTGCCACGGTTTAGTTGCACCTGTATAATGAATAAGAAGAGTACTTTCTG -TAATCAGCTTTTTATAGTTTTGATGTGTTTTGTCTTTTAATTCACTTTTAATTGTATAAATTGTATTGTA -CTCACGAGGCAAAAATAATGTCATCCCTTTCAGTAAGACATTCATAACATCCTGATCAGGGTATTTATAA -ACATTATCTTTACTCATAAGAATAGACAACGCTTTTTCTGTTAGTTTTGCGTCAGCCCATTTTTTTAAGT -CTAAATAAACGACACCGGAATTAAAGTACTGCCCAAGTAATTCAGGATCAGACAACCTGGATACCGCCTT -TTCTTGCATTGGCTCAACATCTTTAACAACAGCAGCAACCGCTCCATTTAAACCCAGATGTAATAGTTGG -CTAATATCGCCTTTACAAACAACATCTGCATCAAGATAAAGCAAACGATCAAGCGTTAAACCCAATAATT -GAAATGCAAATAAACGGAAGTACATTGCTCTTGACCAGACCTGTGTACAAGGCAAGCACTGGAGCTTATC -AGTGTTAATTCTATATAACGTGATTCTTAATTGGTTTTGCTCTGCAAGCTTTGCAATTTTTTGAAAAAAA -CCATCATTATAAACATCAGCAATAATATAAAAATCAAGATTAATATGTCGATTATTTAGGACAATTGATG -TGATGGAAACACCTACACCATCAAGATAATTAGCATCGACACCATAGGCAACATTTAAACATTCAGAAGT -ATTTATATTAGCTAGCCGAAAATCCCAGGCTTTAACTTTATCTATCTCTATGGCAGGAAATGAGTCCACA -ATGCTACCCTTATATCATTACTTTATAGTTTCCCAGTTTTAATGCTTTATCTTTTCAATAAAATAAAAAA -GATAGTTGCTAAATCCTTTTAGATATCTATGCTTTTTAAGCATATGTTTTGCGCTATATCTTAATTGATT -GCTATTGTTCGGTTTCAGCAACGCCGTATTCTTCCATGGCGAAGCATTTTTTGCCTCCATAAAGGCTTGT -GATACAGGATAATCCCAGGCCCAATCATGCCAGGGCTTGGTTGGCCCGATATAATGGATAAAAATAGTAT -CGTTGGTTACTGGGTTTATAAAGCTTTCTTTGAGTTGATAATTTAAGCTGAACTGGGTGTTATATTTAAT -ATCAGCGAAAATAAGTTTATCCGCCAGCAACATATTTAACACATCCTGATCAGGATGTGTTATTTTTTTG -ATTATTTCTGGCTCATTTAGCATTGCAATAGCTCGTGCAGAAACCTGCTGAGCCGCCCATTGGGCAGTAT -TAATCAATAAAAAACCGGAGTTAAAGTAACCTTTAGCAATTCCCGCAACACCTAACGAATGGGCGCGTTT -TTCCCACCAGTCAGCTTGCCCTTCTGTAACAACCATTGCGACTTTATCGTCAGGAAATGAGAAATTAATT -AGTGGCTCAATAGTCCCCTGACAAATGATATCTGCATCCAGATAAAGGACTTTAGGCGCCTTATTAATAA -AGTAATCTGCAATAACAAAACGAAAATATATTGCATGAGTCCAATTCTTAGTGCTAGGCAATGAGCGCAG -TCGATCACCATTAATCAGATATATTTTAATTCTGGTTTTATACTGCAACGCCAGGGCATCAAAATACTTA -CGATCATCATCACCAAAATAATCAGTAAAAATATGGAAACACAATCGACTTCCTTCATTATATTTTAATA -TTGAAGCAATCGAAATTCCGCAACCAAATAGAAAGTTTTTGTCAGTTCCATAAGCGATGTCCAGACAAAG -ATTTTCTGTTTCTACTTTATGATCATAATCAATAACTGAATTAAGAAACTCAGTTTCCTGGAAAAACACC -TGCTGCATTATTTCCTCCGGGAAATAGCAGAAATAATTACCTTATGTAATCTATCGTAATACTTCGATTG -GTAAAATTCATCGATCGACGCAGGAATTTTTTCATGTTCGATATGAATTTCACCTGCTATATATTTATTT -AGAAGAGTTACAAAACCAGCAATATCTCCCGGTTGATACAGATGGCCATTGACATCAGGTTGAATAATGT -CAGCAGGCCCGGAGACACAATCGGCACTGATACAAGGAATCCCCCACGACAAGGCTTCAAGTAGGGTCAT -TGGGAAACCTTCAAAAGATGACGTGAGCAATAACGCACTCACTTTTTCAATATCTTGCTGGACCAATTCC -CAGGGATATTGTTGCCAACCATACCAGACAATTCGATCATCAATATTTAATTCTCTACCATAAGCCTGGC -ATTTTTCGAAATCGGAGCCATCACCCAATACATGGAGTTTCCAGTTACCTTTCGCTTGTGATAAGCCATC -AAGCAGGTCTTTAACTCTTTTCTGGCCTTCAAATTTCATACGCCCAACATAAATAAACGTTGCCGTTTCA -CCTTCCTCGGGCGCGGGAATGACTGAGTCTTTAGTTTCGACGGGATTAAAAATAACATTTATCGTCGATT -CTGCTACACCTCGATTAATCATTTGCTGTTTAATGCCAGAGCTGATTGCTAAATGATAGTCGGCACAGGT -GATATATTCAGCATGTTTTTTGTGATCTAAAGAAAAATGTGGCCATGAAAATACTGGCATATCAATTCCT -GATTTTTTACGTGCTTTTGCGGCAAACAGGCAGGAGATCACATCAATACAAATAACGATATCTGGTTGGT -ACTCCTGAAGCCATTTACTTAGAGCATGAATATGTTTCGCCCGACGCAAAAAACCTAAACGAATATTGGA -AAATGAACATGAGTATTTAATACCTTCCAGCCATCCCTTATCCATTTTGTCATTACGACAAAAGAAAAAC -ATTTCACTTTGGATATGTTGTTGCCTGAAGGTAGTAATAACATCACGGATGACAGTTTCCATGCCGCCAA -ATCCAGAAACAGCTTCGCCGATAAACGCTATTTTCATAGAAACTCTCATTAATTGAGTAAAACTCACTGT -TTTAACGGTTTTATTTGTCTATAAAATCAGAAACAATCGTTGACATCATTTTATCTGGACTGAATTTATA -TAAACTATCATAATCCATTGGTTTAACAGATGAGTTAATAAAATACTCTAACTTATCCCAATCATCATGA -CCTATTATAAAAAAGCGAGATTCACTATAGATTTCTGAACCAAATACATTTATATTATTAGTAATTAATT -TTTTATTGAAAAATAGTGCCTCAAGTATACGAAGAGTCCAGCCAGATTGGTTTTCTTTGGTTATATCAAC -AATTATATTAGCATTTAATGTTCTTCTAATATTCTCTTCATAAGATATTTGTTTTTCAATCAAATACTTT -GAAGTCGTAGATGATGTCTTATCTTTGACAACATTAAAATCTAGCTTACATCCTAGTGTTGTTAATCTCT -CGGCTAACTCATTAATTATTTGAAGACGCCCTTTATCACGACCAAGGAAAAAACATATTGGCTGGCTGTT -ATTTTTGTCAGATAAACTATAATTTCTAATTTCATCCATTCCTATAGGAAAAAATTGTTCTATTGCCTTG -ATCTTTTCATTCCCTATAAATCTATGCTCAAAATCATATATAATATCGAAATAATTCGCGTTATCAAGAA -TAAAATCTTCGCCAACAGTATTTCTTAGAAGCAAAACTTTATGACAGTTAATATTTTTTAATATTTGTTT -ATTGATACCTTTATTAACAACACTGTCATTAATGATAATTATGTCATCTTTTTTAATATCATTGAGGTAA -TGCTTGATGAATAATCGCCCCAGCCATGCATTATCCATCCCTATTTTTGATATTTTTTTATTAATCCAGT -TATATTTTTTTGGTGTTGTTATATTTTTTATCTTGTACTTTTTTTTCAGGTACTGAATCATTTTTAATTC -ATAATCTGCAACCCAATTTATAAAATAAATAGTCATAATAAAGTTAGTTCCAGTACATACTAATAAATAT -TTTTATAATCCTTTGCGTTGTGTTCGCTCTTTAATACGCTCGGCCTTAACGCTTGCCATGTTCAATAAAT -TCTGTTCAAGAGACAATATTTTGCGTAAAGGCATCCCAAAATAAACCTTCATAAATCGCCAGATATCTCT -TTGCGTCAGGCCAATATTCATTGATGAGAAATATAAACCAATCAGGTCTTTATCGCGCCAGCGGCGCGGT -ACTTTTGCACGTATCTGTGCCCGATGCAGATCGATAACTGAAATTTTTAATTCATCTTCCCGGCCAGTAA -ATGGCAAATGAAGCAAAAAGTGGCAAATGTAACAGTCGCGGTGATTTATCCCTGCAGTATGCATTTTACG -CACCATAGTTGCTACACGTGCGATCAGCATACGCTTAACACGTATATCAGGCGGGTTGACTGCCCAATCG -GCACAATAATCTTCAAGGCTAATTGTGGGAGTGAGATCTTCGGTAATAATAAATGATGCGCGAGTTAATG -GATTTAACCCTTTTTCGCCAAACCCAATGCCCTTCATTGTATCAACGCCAACATCACTCAGGCGATGAAT -AGCGTGCCACTCTCTGTCTGCGCCCAAAACGGGCATCCGCAATGAGAGTAGATTTTTTATAATCTCTTTT -AATGTCGTCCCCTTGTGCCATTTAAGAAAATAGCTTTTCCCGGACAGTTCAAAGCGTAATGTACGACGAG -TCTCCAGTTCACGAAAGACCTCGCCGTTCAGTTTTTTGACCTCTGCAAAAGCATCTTTACCACGCCAAAG -TGTGGCAAGCGGCTCTTTTAATTCAACCATCTAAACCACCTGTAATGATATCCGCGGCTTTTTCTGGCAA -GCTATACAAATCCTGAGTATCGGCATAATGGCGAGCATTCTCCGCCCAGGCCATTCGCAATGGCGACTGA -GTTAACGCTTTACGTAAAACTTCATTTAATTGTTCCTGAGAGAAAGGTTCAGCGATGACCGTTCCACAAT -TGGCATCCGCAATATAATGCGCGTACCCACATACCGCTGTTGTTAAAACAGGTAACCCAGCAGTGATCGC -TTCTAGAAGAACGATACCCGCGGCTTCCTGATAAGCGGGATGCAGTAATAAATCAGCGGCTGCCATTAAT -TCTGACACATCATTGCGACCGGAGAAGAAATGCACATTGCTCCGCACGCCGAGTTTTTCTGCCAGCGCTT -CAAATTTTCGCGGCTTATCCTGACCAACAACAAATAAAAGCGTATTGTGACGTAATGATTCCGGTAACGA -TGCCAAAGCTTCAATTGAGCGATCTACACCTTTACGGCCAAAATCTGATCCAACCTGCAGTAATAAGTTT -TGTTGCTCTTTTATGCCATTTTTCTGGCGATAAATTTCACGGCTGTTTGGGATTTGCTCACTGTATTTTC -TGTCCGGATAAATACCGGGAGGAAGAATTTGAAAACGTTCAGGTTCAGTTTGATAATGCTTCTGGAAATC -GGCGATTTGCTTATCGGTCAGCATCATAAGTTTCGTCGATTTACCCTGCTCGAAAGTCGCTCGCTCAAAT -GCGGCATAATGGCGATATCGTGATGTTAAACGATATAAAAAACCTTTTTCTTGCGCAACTTTCTCGGCGT -AACAAACATCAGCGGCAAAATAAACATCCAGGCCAGGCATCTTATTAAACCCAACAACGCGATCTGCGGG -ATGCTCTTTGAGATGATTTTGTACCCAGGCATAATATTCTGCATTGCGTCCATGGTTGGTATGGGACTTA -ACTGGCACCTGAATAAGCTCAAATGCTTTCGGGCAATCGCCTTCCCACGACTGTGTATATACCCGAACAT -GGTGGCCCCGTGCGGCAACTGTTGATGCAATGCGCATAAAGTCACGTTGAAGCCCACCAAATGGAAAATA -TTTATATAAACAAAACGCCACGATCATAATTGTGCATTCCTGTCAGCTGAAGGGGCATCTTCTGGCAACA -GCTTTTCCGTAGCGGCGATCACATCCTCCGCTGGGATAACAGAAAGATATTTTTTGTTGCGGTCAAGTTC -ATGCCGGGTCGGCATTTTCTGATAATTCCCCGCCCAGAATTGAATAATATTCTCGGTCCAGGGACGCCAG -AATACGTGATCCGTTGCACCAAATAGACTAATGACTGGCGTTTTCACTGCCGCTGCAATATGTCCCGGCG -CAGAATCCACACCAATAAAAAGCACTGCATGATCAATTAATGCACCCAGTTCAGGAAAACGTGTTTTACC -TGCAAGGCCAGTAATGGGTTTTGTTTCGCAACCTCGTGCAATCTCATCTACACAAGCGAGATCATCTGCC -GAGGGCCCACAGGTTAGCACAACCTGATAGCCTCGCTGTTGCAGCGCATCGATAACCTTAGAAAATTTAT -CGTTATCCCAACACTTAAATATCTGACGCGCTGTCGGTTGGATGACAACATAATGATCTTTTACGCCCAG -GGCATCTAATTCCCGGCGCATCTTCTTCCAGCAATCTTCGGCGTAACTCATTGTTGTGTCGGTGTAGAAA -TCGGTAATACCTAATGGCTCAAGGACCGATAAATTACGCTCAACAATATGTGTACCGTGTATTGGCGCTA -AGTGTGTGAAGCTTTTTTTCCAAATACCATGCTGCCGATGACCATAAAGTTGCGATATTTTCATCCGTGC -AGGTAAACAACGTACCAGCAGCGCCACCATCCACTGATCCGTAAGATTAATGACCAGGTCATAATTATTC -GCACGCAGAGTTTTTATCAACGAAAGCACATTTTTAATTTTATCGAAAGTTCCCGCACCTTTATTGCTTA -TCCCATAGAGCGCATTAATTTCCGGGTTTTCAGACAAAATAGGGATGGTGTCCTGATAAAGCAGCATATC -GATTTTTGCATCAGGATAATTCTGCTTGAGCGTACTGATGACAGGAGTAGTTAATAACATATCCCCATGA -TATCGCATCTTTATGACCAGGATTTTTCGAAATGGCTTTTCCACTAGCGACTCTTTTGTGTGATTGTCTG -GTTAAGTTAAGCAGAAAAAAGCACGCTACCGCCCCAGGCTCAACAGCTACCTGAATACTGATAACGCACT -TACTTTGACGTGCTAGTGTATCATTTCTTTCGCAGCAATCCGACCCGAATGATTTTTATACACAAAATAT -ACTTTAATCATAAAAATCAAATAGATAAAAAATAGCATTTCGATAATGTCAGTACGGCCTATGTAGATTT -GAAAATGGGGCCGAGTTTCAATGAATCGCATAAAAATACAAAAAAAATGAAGATGTAGCGGCAGATCAGA -CCAAACTGAAGCTATTTAAGTCAAAAACGGGAAAAGTAATGGTAAAGCCACAGCTAAATACATAGAATCC -CCAGCACATCCATAAGTCAGCTATTTACTATGCTCGAATTGCTTTACACCGCCCTTCTCTACCTTATTCA -GCCGCTGATCTGGATACGGCTCTGGGTGCGCGGACGTAAGGCTCCGGCCTATCGAAAACGCTGGGGTGAA -CGTTACGGTTTTTACCGCCATCCGCTAAAACCAGGCGGCATTATGCTGCACTCCGTCTCCGTCGGTGAAA -CTCTGGCGGCAATCCCGTTGGTGCGCGCGCTGCGTCATCGTTATCCTGATTTACCGATTACCGTAACAAC -CATGACGCCAACCGGTTCGGAGCGCGTACAATCGGCTTTCGGGAAGGATGTTCAGCACGTTTATCTGCCG -TATGATCTGCCCGATGCACTCAACCGTTTCCTGAATAAAGTCGACCCTAAACTGGTGTTGATTATGGAAA -CCGAACTATGGCCTAACCTGATTGCGGCGCTACATAAACGTAAAATTCCGCTGGTGATCGCTAACGCGCG -ACTCTCTGCCCGCTCGGCCGCAGGTTATGCCAAACTGGGTAAATTCGTCCGTCGCTTGCTGCGTCGTATT -ACGCTGATTGCTGCGCAAAATGAAGAAGATGGTGCACGTTTTGTGGCGCTGGGCGCAAAAAATAATCAGG -TGACCGTTACCGGTAGCCTGAAATTCGATATTTCTGTAACGCCGCAGTTGGCTGCTAAAGCCGTGACGCT -GCGCCGCCAGTGGGCACCACACCGCCCGGTATGGATTGCCACCAGCACTCACGAAGGCGAAGAGAGTGTG -GTGATCGCCGCACATCAGGCATTGTTACAGCAATTCCCGAATTTATTGCTCATCCTGGTACCCCGTCATC -CGGAACGCTTCCCGGATGCGATTAACCTTGTCCGCCAGGCTGGACTAAGCTATATCACACGCTCTTCAGG -GGAAGTCCCCTCCACCAGCACGCAGGTTGTGGTTGGCGATACGATGGGCGAGTTGATGTTACTGTATGGC -ATTGCCGATCTCGCCTTTGTTGGCGGTTCACTGGTTGAACGTGGTGGGCATAATCCGCTGGAAGCTGCCG -CACACGCTATTCCGGTATTGATGGGGCCGCATACTTTTAACTTTAAAGACATTTGCGCGCGGCTGGAGCA -GGCAAGCGGGCTGATTACCGTTACCGATGCCACTACGCTTGCAAAAGAGGTTTCCTCTTTACTCACCGAC -GCCGATTACCGTAGTTTCTATGGCCGTCATGCCGTTGAAGTACTGTATCAAAACCAGGGCGCGCTACAGC -GTCTGCTTCAACTGCTGGAACCTTACCTGCCACCGAAAACGCATTGAGGTTGTTATGCAAAAACGGGCGA -TTTATCCGGGTACTTTCGATCCCATTACCAATGGTCATATCGATATCGTGACGCGCGCCACGCAGATGTT -CGATCACGTTATTCTGGCGATTGCCGCCAGCCCCAGTAAAAAACCGATGTTTACCCTGGAAGAGCGTGTG -GCACTGGCACAGCAGGCAACCGCGCATCTGGGGAACGTGGAAGTGGTCGGGTTTAGTGATTTAATGGCGA -ACTTCGCCCGTAATCAACACGCTACGGTGCTGATTCGTGGCCTGCGTGCGGTGGCAGATTTTGAATATGA -AATGCAGCTGGCGCATATGAATCGCCACTTAATGCCGGAACTGGAAAGTGTGTTTCTGATGCCGTCGAAA -GAGTGGTCGTTTATCTCTTCATCGTTGGTGAAAGAGGTGGCGCGCCATCAGGGCGATGTCACCCATTTCC -TGCCGGAGAATGTCCATCAGGCGCTGATGGCGAAGTTAGCGTAGCGTTTATGCCGGATGGTATGCCATCC -GGCGCGCATGAATTACTTCTGGCACTGCCGACAATAAAACGTTGCCCGCTGCGCATGTTTAGTCGCCACA -ATCGGCGTACCGCACACCCGACACGGCTCACCTTTTCGCCCGTAAACCTGCAATTCCTGAGCGAAATAGC -CCGGTTTACCATCACTTTGCAGAAAATCTTTCAGCGTTGTACCACCCTGCTCAATCGAACGCAGCAACAC -CGCTTTAATCACCCGAGCTAACAATTCACACTCTGCCAGCGACAGTGATGACGCCAGCCGATCCGGATGG -ATCCCCGCCGCAAACAGTGATTCGCTGGCATAGATATTCCCTACCCCTACCACCAGCTTGTTATCCATCA -GCCACGGTTTAATCGCCGTTTTTTTCTTCGCGCACTTCTGATGCAGATACTCACCATTGAAATCGTCGCT -AAGCGGCTCCGGTCCAAGATGGGTCAGCACATTATGCCCTTCCAGCTCTTTGGTCCACAGCCAGGCACCA -AAGCGGCGCGGATCGGTGTAGCGCAGCACTTTGCCGTTGCTCATCACCAAATCCACATGGTCATGCTTTT -CAGGGGGAAGTTCTTCTGGAAGGATGCGCAGGCTGCCAGACATCCCTAAATGAATGATAATCCAGCCCTC -AGGCAGCTCCAGCAGCAGATATTTAGCCCGCCGCTGCACGCTAAGCACTGGTTGGTCGCTTAAACGGTAG -ATCTCTTCTGAAACCGGCCAGCGCAAGCGTCCGTTGCGCACCACTGCATGAAGAATGGTTGCACCAACGA -GATGCGGTTCTATGCCGCGGCGGCTGGTTTCAACTTCGGGTAATTCAGGCATAGCATCTCCAGGAATGAA -CAGATGCAGTCAATATGGGGGCAAGCAGATAACAAAAAACCCCGCCGGAGCGAGGTTTTTTGTTACATCA -AAGCGAGAATTATTTGATTTTCGCTTCTTTGTAGATCACGTGCTGGCGAACAACTGGATCGAATTTTTTC -AGTTCCAGTTTTTCCGGCTTAGTACGTTTGTTCTTCGTAGTGGTATAGAAGTGACCAGTACCAGCAGAAG -AAACCAGCTTGATTTTCTCACGAATACCTTTAGCCATGATTTATTTCCTCTAAGTACTTAGTACTTTTCG -CCACGGGCACGCAGTTCAGCCAGAACTGTATCGATGCCTTTTTTATCGATTACACGCATACCTTTAGCAG -ATACGCGCAGGGTGACAAAACGCTTCTCGCTCTCAACCCAGAAACGGTGAGAGTGCAGGTTCGGCAGGAA -ACGGCGTTTAGTCGCGTTCAGTGCGTGGGAACGGTTGTTACCGGTCACCGGACGCTTGCCAGTAACTTGG -CAGACTCGGGACATGTCTATTCTCCAAAAATCAAATTAGCTCGAGCTTCGTATGGGGTATTGGCGCCTCG -TCAGGCTTTACAGCCCGGTCATCGCAGTTCTATGTGAACTCTCGATTGCCAGGCCCAAATGCCAAACCCG -AGATTCTCAAAGGTGGCGTAGTATACGCTGACTCAGCGATGTGCTCAAGTCCCGAACAGACAAAGATCCC -GAAGGATCGCGCATAGCGGGTTAAATCCAGCCGCGTTCGGCAAAAGAAACATACTCTCCACGCCCAATCA -CGATATGGTCGAGCACGCGTAAATCCATGAACTGACAACTCTTTATTATCCGTTCAGTAATGAGTTTATC -CGCTTTACTGGGTTCAGCACAACCCGAAGGGTGATTATGTGCAAGGATCAGCGCCGAGGCGTTTATTTTT -ATCGCTTCGCGGATAATTTCCCGAGGATGGACTTCAACATGGTTTAGCGTGCCGGAAAAAAGACGCCTAT -GCGTTATAACCCGGTGTTGGGAGTCGAGAAAGATCACCATAAAGATCTCCCGCTCCTCACCCGTGAGCTG -GCTTTGTAAAAATTCCCTCGTCATCTCCGGGCTGAGTAAAGGGCTTTCTTCACGCATCCGCACGTTGTAG -TAACGCCGCGCCAGTTCAGCAATCCCCTTTAACTGGGCAAATTTCGCCACGCCAATTCCATGAACGCCAC -TAAATTGTTCATATTCAGAGGTTAACAAGCCATAAAGAGAGCCGAAATTCTCCAGCATCTCTTTTGCCAG -GGTTAATACATCTTTACCGCGCGTTCCGGTACGCAGAAATAGCGCCAGCAGCTCGACATCCGTTAAGGCG -CTAATACCAAACTTCAGCATTTTTTCGCGCGGCATCAACAGCTGTGAATTGTTTTTCACCTTCACCTCCT -TTGTGGTGCTCGCATCCTGTCATAGCCGTTTCGTTAAATCGACGGCCAGTTTTCAATCCTGGAAAGCGCC -TCGCAAAGTGAATCTCAGGTGAAGGCACGACAACAAAAGTATTGTGATAAAATCGCCAACTTCTGGTGTC -ACCCTACAGGAAAAATCATCATGAGCCTGGCCGGTAAAAAAATCGTTCTCGGCGTTAGCGGCGGTATTGC -TGCCTATAAAACCCCTGAACTGGTGCGTCGTTTGCGCGATCGCGGGGCCGACGTCCGCGTAGCCATGACC -GAAGCGGCAAAAGCCTTTATCACCCCACTTAGCTTGCAGGCGGTTTCTGGTTATCCCGTTTCCGACAGTC -TGCTGGACCCGGCAGCCGAAGCCGCTATGGGCCATATTGAGCTGGGTAAATGGGCTGATTTAGTGATTCT -CGCCCCTGCCACGGCAGATTTGATTGCCCGTGTTGCTGCCGGAATGGCGAATGACCTGGTATCGACGATT -TGTCTGGCTACACCTGCGCCTGTAGCCGTGCTCCCCGCCATGAACCAGCAGATGTACCGTGCCGCTGCCA -CGCAGCATAATTTAGAGGTGCTTGCTTCCCGTGGTTTGCTCATCTGGGGGCCAGACAGTGGCAGTCAGGC -TTGTGGTGATATCGGTCCTGGGCGAATGCTCGATCCGTTAACCATTGTGGATATGGCGGTAGCGCATTTT -TCGCCCGTCAACGACCTGAAACATCTGAACATTATGATTACCGCCGGCCCGACGCGTGAACCGCTCGATC -CGGTGCGTTATATCTCTAATCACAGCTCCGGCAAGATGGGTTTTGCTATCGCCGCCGCCGCTGCCCGTCG -TGGCGCGAACGTCACGCTGGTATCAGGTCCGGTTTCACTACCGACGCCACCGTTTGTTAAACGTGTTGAT -GTGATGACCGCGCTGGAAATGGAAGCCGCCGTGAATGCTTCTGTACAGCAGCAAAATATTTTTATCGGCT -GCGCCGCCGTGGCGGATTATCGCGCAGCTACCGTGGCCCCAGAGAAAATCAAAAAGCAGGCCACGCAGGG -TGATGAATTAACAATAAAAATGGTTAAAAACCCCGATATCGTCGCAGGCGTTGCCGCACTAAAAGACCAT -CGACCCTACGTCGTTGGATTTGCCGCCGAAACAAATAATGTGGAAGAATACGCCCGGCAAAAACGTATCC -GTAAAAACCTTGATCTGATCTGCGCGAACGATGTTTCCCAGCCAACTCAAGGATTTAACAGCGACAACAA -CGCATTACACCTTTTCTGGCAGGACGGAGATAAAGTCTTACCGCTTGAGCGCAAAGAGCTCCTTGGCCAA -TTATTACTCGACGAGATCGTGACCCGTTATGATGAAAAAAATCGACGTTAAGATTCTGGACCCGCGCGTT -GGGAAGGAATTTCCGCTCCCGACTTATGCCACCTCTGGCTCTGCCGGACTTGACCTGCGTGCCTGTCTCA -ACGACGCCGTAGAACTGGCTCCGGGTGACACTACGCTGGTTCCGACCGGGCTGGCGATTCATATTGCCGA -TCCTTCACTGGCGGCAATGATGCTGCCGCGCTCCGGATTGGGACATAAGCACGGTATCGTGCTTGGTAAC -CTGGTAGGATTGATCGATTCTGACTATCAGGGCCAGTTGATGATTTCCGTGTGGAACCGTGGTCAGGACA -GCTTCACCATTCAACCTGGCGAACGCATCGCCCAGATGATTTTTGTTCCGGTAGTACAGGCTGAATTTAA -TCTGGTGGAAGATTTCGACGCCACCGACCGCGGTGAAGGCGGCTTTGGTCACTCTGGTCGTCAGTAACAC -ATACGCATCCGAATAACGTCATAACATAGCCGCAAACATTTCGTTTGCGGTCATAGCGTGGGTGCCGCCT -GGCAAGTGCTTATTTTCAGGGGTATTTTGTAACATGGCAGAAAAACAAACTGCGAAAAGGAACCGTCGCG -AGGAAATACTTCAGTCTCTGGCGCTGATGCTGGAATCCAGCGATGGAAGCCAACGTATCACGACGGCAAA -ACTGGCCGCCTCTGTCGGCGTTTCCGAAGCGGCACTGTATCGCCACTTCCCCAGTAAGACCCGCATGTTC -GATAGCCTGATTGAGTTTATCGAAGATAGCCTGATTACTCGCATCAACCTGATTCTGAAAGATGAGAAAG -ACACCACAGCGCGCCTGCGTCTGATTGTGTTGCTGCTTCTCGGTTTTGGTGAGCGTAATCCTGGCCTGAC -CCGCATCCTCACTGGTCATGCGCTAATGTTTGAACAGGATCGCCTGCAAGGGCGCATCAACCAGCTGTTC -GAGCGTATTGAAGCGCAGCTGCGCCAGGTATTGCGTGAAAAGAGAATGCGTGAGGGTGAAGGTTACACCA -CCGATGAAACCCTGCTGGCAAGCCAGATCCTGGCCTTCTGTGAAGGTATGCTGTCACGTTTTGTCCGCAG -CGAATTTAAATACCGCCCGACGGATGATTTTGACGCCCGCTGGCCGCTAATTGCGGCACAGTTGCAGTAA -TATGACGCCGGATGACTTTTCATCCGGCGAGTTTCTTTAAACGCCAAACTCTTCGCGATAGGCCTTAACC -GCCGCCAGATGTTCCGCCATTTCCGGCTTCTCTTCCAGGTAAGCAATCAGGTCTTTCAGGGTGATGATAG -AGATCACTTTGCAGTTGTAATCACGCTCAACTTCCTGAATCGCCGAAATCTCGCCGCGCCCGCGTTCCTG -ACGATCGAGCGAAATCAACACGCCAGCAAGCGTCGCGCCATTGGCCTGAATAATCTCCATCGACTCGCGA -ATCGCCGTTCCGGCGGTGATCACATCATCTACCAGCATTACGCGTCCTTGTAACGCGCTACCAACCAGAT -TGCCGCCTTCACCGTGGTCTTTTGCTTCTTTGCGGTTAAAGCAGTACGGCAGGTCCAGGTCGTGATGCTC -CGCCAGTGCCACAGCGGTTGTGGTGGCAATCGGGATCCCTTTGTAAGCAGGGCCAAACAGCAGATCGAAC -TCAATGCCGGAATCCACCAACGCTTCAGCGTAAAAACGGCCTAACAGTGCCAGATCGCGCCCGGTATTAA -ACAGCCCGGCGTTGAAGAAATAGGGGCTTTTGCGCCCGGATTTCAGCGTAAACTCGCCAAACTTTAACAC -CTGCTTGCTAAGCGCAAATTCAATAAACTGGCGCTGATATGGTTTCATGCCTTCGCTCCTCATCTTACTT -TTCTACAGACAAAAAAAAGGCGACTCATCAGTCGCCTTAAAAATCAGTTTGCCAGCGCCGCCTTCTGCGT -CGCTACAATGGATTCGATTCCCCCTCGGGCCAGAGCCAACAAGATGAGTAGCTCTTCATGGGTGAACGGC -TCGCCTTCTGCCGTCCCCTGCACTTCAATGATGCGCCCGTCTTCGGTCATCACTACGTTCATGTCGGTCT -CTGCGGCAGAGTCTTCAACGTATTCCAGATCGCAAACCGCTTCGCCGTTCACAATTCCGACAGAAACTGC -GGCTACCATCCCTTTCATCGGATTGGTTTTCAGCTTGCCGTTTTCCACCAGCTTCTGTAGCGCATCTACC -AGCGCCACGCAGGCACCCGTAATCGACGCGGTACGCGTGCCACCATCAGCCTGAAGCACGTCGCAGTCCA -GCGTAATGGTGAACTCACCCAGCGCTTTCAAATCTACTGCCGCGCGAAGAGCACGGGCGATCAGACGCTG -GATTTCCATTGTGCGTCCACCCTGCTTACCTTTCGCCGCTTCACGAGCGTTACGGGTGTGGGTAGAACGT -GGCAGCATGCCGTACTCTGCGGTGATCCAGCCCTGGCCCTGACCTTTCAGGAAGCGCGGCACGCCTTCTT -CAATAGAGGCGGTACACAACACTTTGGTATCGCCAAATTCGACCAGCACCGAGCCTTCTGCATGTTTTGT -ATAGTTACGAGTCAGGGTAACGGGACGCACCTGATTATTGCTACGGCCTGCTGGACGCATATTGAAATCT -CCGGCTTGAAACAAATGTGGCTGCGCATTATACGGACTTCCGGCGGTTATTCCTATCCTGACAAGGCATC -GATGGCTATAATCCTTCCACCTCTCCTTTTATAAACAGGAACGTCTATGATCCGCAGTATGACCGCCTAC -GCCCGGCGTGAAATCAAGGGTGAATGGGGGAGCGCAACCTGGGAAATGCGCTCGGTAAACCAGCGTTATC -TGGAAACTTACTTTCGTCTGCCGGAGCAGTTCCGTAGCCTTGAACCTGTCGTTCGCGAGCGTATTCGTTC -TCGCCTGACGCGCGGTAAAGTGGAATGTACCCTGCGCTATGAGCCAGATGTTAGCGCGCAAGGTGAGCTG -ATCCTCAACGAAAAACTGGCTAAACAGCTGGTAACTGCCGCGAACTGGGTAAAAATGCAGAGTGACGAAG -GGGAAATCAACCCGGTTGATATTCTACGCTGGCCGGGCGTGATGGCAGCCCAGGAGCAGGATCTTGACGC -CATTGCCGCTGAAATTCTCGCGGCGCTGGATGGTACGCTGGACGACTTTATTGTCGCGCGCGAAACCGAA -GGTCAGGCACTGAAAGCATTGATCGAGCAGCGTCTGGAAGGCGTCACCGCCGAAGTGGTCAAAGTCCGCT -CCCATATGCCGGAAATCCTGCAATGGCAGCGTGAGCGTCTGGTCGCGAAGCTGGAAGATGCTCAGGTGCA -ACTGGAAAACAACCGTCTGGAGCAGGAACTGGTTCTGCTGGCACAACGAATTGACGTTGCCGAAGAACTG -GATCGCCTCGAAGCGCATGTCAAAGAGACCTACAACATTCTGAAGAAAAAAGAAGCGGTTGGTCGTCGTC -TGGATTTTATGATGCAGGAGTTCAACCGCGAGTCGAACACTCTTGCGTCGAAGTCTATCAATGCCGAAGT -GACAAACTCCGCCATCGAGCTGAAAGTGTTGATTGAGCAGATGCGCGAGCAGATTCAGAACATCGAATAA -CTCGTAACGCCAATTCTTACTTTTCCGCCTTCACAAATGCCGCCACTCAAACAGAGCGGCATTTTTCTTC -CCCGCAACATTCAATTCTGTTTTGCGTGCCTGCTCCAGATTTTGCGATGTTTTTTTGCCCAGCACACTGA -GAACGTGAGATACTCACAACTGTATATAAATACAGTTACAGATTTACTTTCTTTGCAATTGATATCACAT -GGAGTGGGCAATGAACGAACATCATCAACCTTTTGAAGAGATAAAACTGATTAATGCAAACGGAGCAGAA -CAATGGTCAGCAAGACAACTTGGGAAACTACTGGGTTATTCAGAGTATCGTCACTTTATACCTGTATTAA -CGCGCGCCAAAGAAGCCTGTGAGAACAGTGGTCACACAATTGATGACCATTTCGAGGAGATCCTCGATAT -GGTCAAAATTGGCTCAAATGCCAAAAGAGCATTAAAAGACATCGTACTCTCCCGCTATGCCTGTTACCTG -GTAGTACAAAACGGCGACCCTGCGAAACCGGTCATTGCGGCAGGGCAGACTTATTTTGCTATCCAGACCC -GACGGCAGGAGCTTGCTGACGATGAAGCATTTAAGCAACTTCGTGAAGACGAAAAGCGTCTGTTTCTGAG -AAATGAGTTGAAAGAACATAACAAACAATTGGTTGAGGCAGCACAGCAAGCTGGGGTAGCGACAGCTACT -GATTTCGCCATATTTCAGAATCATGGTTACCAGGGGCTGTATGGTGGATTAGATCAGAAAGCTATTCATC -AGCGGAAGGGGCTGAAAAAGAATCAGAAGATCCTGGATCATATGGGTTCAACAGAACTGGCGGCTAATCT -CTTTCGAGCTACCCAAACAGAAGAAAAACTCAAGCGGGATGGCGTGAATTCAAAACAGCAAGCAAACACC -ACACACTTTGACGTGGGTCGCAAGGTGAGGCAAACCATTCAGGAACTTGGCGGAACCATGCCTGAGGAGT -TGCCGACCCCGCAGGTCAGCATCAAGCAGTTGGAAAACAGTGTAAAAATTACAGAGAAGAAATAGCAGAA -ACTAAAAACTCTTTTTGTTGATTGAGACACCCGATGCGTAAGCCAAGGTCCAGGTGCAGTGAACACAATG -GCTAAATATTGCACCTTTCTTTTCCCCCTCAGTTTTAACCTATTTTTTCTTATGCATTTTCTCAGACAAG -AAGTCAGAAGAATGCATCTCTGCTACAGAAAATAGCGATTTCACATAACTACAAGTTATCAATTTCCCCT -CCCCTTAAAAAATCTCAATCGTGACAATGCGCACAAATCGCTACCCTGCCAGACAGATTTTTAGGGAGAG -AACCATGCTGTTACACATTTTGTATTTGGTTGGCATTACTGCCGAAGCCATGACGGGGGCGCTGGCGGCC -GGACGACGGCGCATGGATACATTTGGCGTAATTATTATTGCGACCGCCACCGCAATTGGCGGAGGGTCAG -TGCGCGATATTCTGCTGGGCCACTATCCGCTCGGCTGGGTCAAACACCCGGAATATGTGATTATCGTCGC -TACCGCCGCAGTACTCACCACTATCGTTGCTCCTGTAATGCCTTACCTGCGCAAAGTGTTTCTGGTGCTC -GATGCGCTCGGACTGGTGGTCTTTTCTATCATCGGGGCACAGGTTGCACTGGATATGGGGCACGGCCCAA -TTATTGCCGTTGTCGCGGCGGTAACCACCGGCGTGTTTGGCGGCGTTTTGCGCGATATGTTCTGTAAACG -TATCCCACTGGTATTCCAGAAAGAGTTGTATGCCGGTGTCTCATTTGCCTCCGCCGTGCTGTACATCGCG -CTGCAACACTATGTTTCTAACCATGATGTGGTAATTATCTCCACCCTGGTATTCGGCTTTTTTGCCCGCT -TACTGGCGCTACGCCTTAAGCTGGGATTACCGGTCTTTTACTACAGCCACGAAGGACACTAAGGTTCAAA -ACCTGTGATCTGCTGGGCAGCCAGCCAACTGCCCAGCTTCTTGATTTGCGCATTTTCCTTCCATTCAATA -ACCTGTCTGGCGCGTCCCGATCCAGTCCCCGGCAGCTGCTGCCAGAACTGCTCCGTGCTAAATAAAAGTT -GCGACCAGGACCGTTCATCACTGGCATTAAGCGCCGCCCGGGTTAGCGGTATTCCCATTGCCATCACCCA -GCGAGTAAAAGGCTGCTTACGAGCCAGATTAAACTGATGCCATAGCTGCGCACTTTTACTTTTCGCGATC -CCCGGCGTGTTCTGTAATTGCTCTGGCGTTAATAAAAGCCAGGAAAAGATATGTTCAAAGCGATGAGTCT -GATGCAGCGCGCGCCAACCGGCCTCACCAATGCCATCCAGCCCAAGAACCTGTTTTGCCCCCAGCCAGAC -TAAGCGTGAAATGAACTGTTCCTGACAAACATCAGAAGCAAAGTAGCAGGTCAACGAGTTAAAGCGGTTT -TCTGGCGGTGTCGGTTTTGTACGTTCTGCACCGCGCCACACCACATCATCAATGCGAGGAATACCCTGAC -CGGCAAGGCTGACGAGAATCTGATCACCAGGCGCAATATCCCACTCCTGCCAGCGCCTGACGGAACCAAT -ATTCACCCGCTGGACTTTTTTATCATCCAGCATGACAGGTGCGAGTGACGCAACCACCGATATTTTACCG -CTCTTACCCACCGCAAACTGAATTGCCTTCACTTCGGCAACCTGAGCTACAGGTTGATATTTCCAGGCCA -CCAGCCACTCTGCCTGGCCCGGTAGCCAATGGCGGGATTCTGGCTCTTTCGCCGCTCGTACAACTACGCC -ATCGGTGACGAAGGGTAATTCCGCTTTCCACCACTCATTGCGTACGCGCGCAACTTCATCAGCATTTTTC -ACCGCACGGGTATACGTCTGCGTTAGAGTAAAACCTGCGGTAGCCAGCTCTTTTAAACGATCAGACATTA -ACTGCGGTCCATCCGGCCATGCCCAGACAAAAACGCCCAGAGAATTCAGCGTGTCGCTATCGTCCTGGCG -CATCATCAAGCCAGCAACTTTTGCGCGGGCATTTATTCCCCCCATTTGTTGTTGGATATGCCCCTCGCGC -TGGAGAAATATTTCCCCCTGAAGCGTACTGTTGGCTAAAGGCCCGCTAACGGTTTGCGGCACAGCGGAAA -TTAAGCTAACTTTCTGCGTCCAGTCCTCGCCTTTCAGGCCATTACCGCGACTGATTGCTTTGTTCAGTTT -CCCGTCCCGATAAACCAGGGTTACCGCAACGCCATCAACTTTTGGCTGCACCCAAAGATCGCTACGTTCT -CGCATCCACAGACTTAATGCGTTTTTATCCACCATTTTGCGTACACCCGTATGGGCAACCGGATGCATAA -CCGCACCATTTAAAGGCGGCATCATCACGTCGCGGGGCTCGCTCCCAAAGCAGCGTTGCCACTGCGTAAG -ACGGGCGCTTAACTGATCGTAAACACCGTCTTCCACCTCACTTTTTCCTTCCTTCCAGTAGTCATCGTCC -CACTGTTTTATTTGCTGTTGCAGGCGGGAAATTTCTTCCTGTGCTCTGGCTGGCGACCAGGCCGGACAGA -CCGCCCACACAGATGATTGCCAGCACAAGATACCTATTAATATCGCCATCCATACTTTCATCATCACCTC -CGCTGTAGATAGTCAGGCAGATATACAACGTGATGAAAGCAAAGCCGAGTGGCAAAAACGGAGTCTGCGA -GGACGCTTCCTGAAAATCGTCTTTATTGCAGTGAATGACAGGCAAATGCGGAAGCAGCTACGCAAAACGC -AACAACTTTGCGCAAAAAGTGTGAGCAAGGGCTACGTCACATGGCCGCGCCGTGTATAATAAGCTCGTAT -GTAGGCTTTATTTCGCTAATCACATACGAAAGATACTCATGGCTCAAGGCACGCTTTATATTGTTTCTGC -CCCCAGTGGCGCGGGTAAATCCAGCCTGATTCAGGCTTTATTAAAAACCCAACCGTTGTATGACACCCAG -GTTTCTGTTTCACACACCACACGCCAACCGCGTCCTGGTGAAGTCCACGGTGAACATTATTTCTTTGTTA -ATCATGATGAATTTAAAGAAATGATTAGCAGAGATGCGTTCCTCGAACACGCAGAAGTTTTTGGTAATTA -CTATGGCACTTCGCGTGAGGCCATTGAGCAAGTACTGGCGACCGGTGTCGATGTTTTTCTCGATATCGAC -TGGCAGGGCGCGCAGCAAATTCGCCAGAAGATGCCGCACGCGCGGAGTATCTTTATTTTACCGCCGTCCA -AAATTGAACTGGACCGCCGTCTACGCGGTCGCGGTCAGGACAGCGAAGAGGTCATTGCAAAGCGTATGGC -GCAAGCTGTTGCAGAAATGAGCCATTACGCCGAATATGATTATCTGATTGTGAATGATGACTTCGATACC -GCGTTGACCGATTTGAAGACCATTATTCGCGCCGAACGTCTGCGCATGAGCCGCCAAAAGCAGCGTCATG -ACGCTTTAATCAGCAAATTGTTGGCAGACTGAACCTGATTTCAGTATCATGCCCAGTCATTTCTTCACCT -GTGGAGCTTTTTAAGTATGGCACGCGTAACTGTTCAGGACGCTGTAGAGAAAATTGGTAACCGTTTTGAC -CTGGTACTGGTCGCCGCGCGTCGCGCTCGTCAGATGCAGGTAGGCGGAAAGGATCCGCTGGTACCGGAAG -AAAACGATAAAACCACTGTAATCGCGCTGCGCGAAATCGAAGAAGGTCTGATCAACAACCAGATCCTCGA -CGTTCGCGAACGCCAGGAACAGCAAGAGCAGGAAGCCGCTGAATTACAAGCCGTTACCGCTATTGCTGAA -GGTCGTCGTTAATCACAAAGCGGGTCGCCCTTGTATCTGTTTGAAAGCCTGAATCAACTGATTCAAACCT -ACCTGCCGGAAGACCAAATCAAGCGTCTGCGGCAGGCGTATCTCGTTGCACGTGATGCTCACGAGGGGCA -AACACGTTCAAGCGGTGAACCCTATATCACGCACCCGGTAGCGGTTGCCTGCATTCTGGCCGAGATGAAA -CTCGACTATGAAACGCTGATGGCGGCGCTGCTGCATGACGTGATTGAAGATACTCCCGCCACCTACCAGG -ATCAGGATATGGAACAGCTTTTTGGTAAAAGCGTCGCCGAGCTGGTAGAGGGGGTGTCGAAACTTGATAA -ACTCAAGTTCCGCGATAAGAAAGAGGCGCAGGCCGAAAACTTTCGCAAGATGATTATGGCGATGGTGCAG -GATATCCGCGTCATCCTCATCAAACTTGCCGACCGTACCCACAACATGCGCACGCTGGGCTCACTTCGCC -CGGACAAACGTCGCCGCATCGCCCGTGAAACTCTCGAAATTTATAGCCCGCTGGCGCACCGTTTAGGTAT -CCACCACATTAAAACCGAACTCGAAGAGCTGGGTTTTGAGGCGCTGTATCCCAACCGTTATCGCGTAATC -AAAGAAGTGGTGAAAGCCGCGCGCGGCAACCGTAAAGAGATGATCCAGAAGATTCTTTCTGAAATCGAAG -GGCGTTTGCAGGAAGCGGGAATACCGTGCCGCGTCAGTGGTCGCGAGAAGCATCTTTATTCGATTTACTG -CAAAATGGTGCTCAAAGAGCAGCGTTTTTACTCGATCATGGACATCTACGCTTTCCGCGTGATCGTCAAT -GATTCTGACACCTGTTATCGCGTGCTGGGCCAGATGCACAGCCTGTACAAGCCGCGTCCGGGCCGCGTGA -AAGACTATATCGCCATTCCAAAAGCGAACGGCTATCAGTCTTTGCACACCTCGATGATCGGCCCGCACGG -TGTGCCGGTTGAGGTCCAGATCCGTACCGAAGATATGGACCAGATGGCGGAGATGGGTGTTGCCGCGCAC -TGGGCTTATAAAGAGCACGGCGAAACCAGTACTACCGCACAAATCCGCGCCCAGCGCTGGATGCAAAGCC -TGCTGGAGCTGCAACAGAGCGCCGGTAGTTCGTTTGAATTTATCGAGAGCGTTAAATCCGATCTCTTCCC -GGATGAGATTTACGTTTTCACACCGGAAGGGCGCATTGTCGAGCTGCCTGCCGGTGCAACGCCCGTCGAC -TTCGCTTATGCAGTGCATACCGATATCGGTCATGCCTGCGTGGGCGCACGCGTTGACCGCCAGCCTTACC -CGCTGTCGCAGCCGCTTACCAGCGGTCAAACCGTTGAAATCATTACCGCTCCGGGCGCTCGCCCGAATGC -CGCTTGGCTGAACTTTGTCGTTAGCTCGAAAGCGCGCGCCAAAATTCGTCAGTTGCTGAAAAACCTCAAG -CGTGATGATTCTGTAAGCCTGGGCCGTCGTCTGCTCAACCATGCTTTGGGTGGTAGCCGTAAGCTGAATG -AAATCCCGCAGGAAAATATTCAGCGCGAGCTGGATCGCATGAAGCTGGCAACGCTTGACGATCTGCTGGC -AGAAATCGGACTTGGTAACGCAATGAGCGTGGTGGTCGCGAAAAATCTGCAACATGGGGACGCCTCCATT -CCACCGGCAACCCAAAGCCACGGACATCTGCCCATTAAAGGTGCCGATGGCGTGCTGATCACCTTTGCGA -AATGCTGCCGCCCTATTCCTGGCGACCCGATTATCGCCCACGTCAGCCCCGGTAAAGGTCTGGTGATCCA -CCATGAATCCTGCCGTAATATCCGTGGCTACCAGAAAGAGCCAGAGAAGTTTATGGCTGTGGAATGGGAT -AAAGAGACGGCGCAGGAGTTCATCACCGAAATCAAGGTGGAGATGTTCAATCATCAGGGTGCGCTGGCAA -ACCTGACGGCGGCAATTAACACCACGACTTCGAATATTCAAAGTTTGAATACGGAAGAGAAAGATGGTCG -CGTCTACAGCGCCTTTATTCGTCTGACCGCTCGTGACCGTGTGCATCTGGCGAATATCATGCGCAAAATC -CGCGTGATGCCAGACGTGATTAAAGTCACCCGAAACCGAAATTAATGTTTTATGAACCCAACACGTTATG -CACGCATCTGCGAAATGCTCGCCAGGCGGCAGCCTGATCTGACCGTCTGCATGGAGCAGGTCCACAAACC -TCATAACGTTTCTGCGATTATTCGTACCGCAGATGCCGTTGGCGTACATGAAGTTCACGCCGTCTGGCCT -GGTAGCCGCATGCGCACCATGGCTTCGGCAGCGGCGGGTAGTAACAGCTGGGTACAGGTGAAAACACACC -GCACCATTGGCGATGCCGTCGCTCATCTCAAAGGCCAGGGCATGCAGATTCTGGCAACCCATCTTTCTGA -TAACGCTGTCGATTTCCGCGAAATTGATTACACTCGCCCGACCTGCATTTTGATGGGACAGGAGAAAACG -GGCATCACGCAGGAAGCATTGGCCCTGGCGGATCAGGACATCATCATTCCGATGATCGGCATGGTGCAGT -CGCTGAATGTTTCCGTTGCCTCAGCCCTCATTCTTTACGAAGCCCAGCGTCAGCGGCAAAATGCAGGCAT -GTACCTGCGTGAAAACAGCATGTTGCCGGAAGCAGAGCAACAACGCCTGTTGTTTGAAGGCGGCTATCCG -GTGCTGGCGAAAGTCGCAAAACGCAAAGGCCTGCCTTATCCCCACGTCAATCAGCAAGGCGAGATCGAAG -CTGATGCCGACTGGTGGGCTACTATGCAGGCTGCAGGGTAAGTGCCATGAAAGGTCGCCTGTTAGATGCT -GTCCCACTCAGTTCCCTAACGGGCGTTGGCGCAGCACTTAGTAACAAACTGGCGAAAATCAACCTGCATA -CCGTGCAGGATCTACTCTTACACCTTCCCCTGCGCTACGAAGATCGCACCCATCTCTACCCCATCGGAGA -ACTACTGCCGGGCGTTTATGCCACGGTGGAAGGCGAAGTGCTGAACTGCAATATCTCCTTCGGCGGTCGG -CGGATGATGACCTGCCAGATCAGCGACGGTTCCGGCATCCTCACCATGCGCTTTTTCAATTTCAGCGCGG -CAATGAAAAATAGCCTGGCGGCGGGCCGCCGTGTACTGGCTTATGGCGAAGCAAAGCGCGGTAAATATGG -TGCGGAGATGATCCACCCGGAATACCGCGTGCAGGGCGATCTCAGCACGCCAGAATTACAGGAAACGCTC -ACGCCGGTTTATCCAACAACGGAAGGCGTAAAGCAGGCCACGCTGCGTAAATTAACCGACCAGGCGCTGG -ATCTGCTCGACACCTGCGCCATTGAAGAACTCCTGCCGCCGGAACTGTCACAAGGAATGATGACGCTACC -GGAAGCGTTGCGCACTTTGCACCGCCCGCCACCGACGCTACAGCTTAGCGATCTGGAAACCGGGCAGCAT -CCGGCGCAACGTCGTCTGATTCTGGAAGAACTGCTGGCGCACAACCTCAGCATGTTAGCCTTACGTGCCG -GAGCACAGCGTTTTCATGCCCAGCCGCTGAGCGCCAATGACACGCTGAAAAATAAACTCCTCGCCGCCTT -ACCGTTCAAGCCAACGGGCGCACAGGCACGCGTAGTGGCGGAGATCGAGCGCGATATGGCGCTGGATGTG -CCGATGATGCGTCTGGTGCAGGGCGATGTAGGTTCCGGTAAAACGCTGGTCGCCGCCCTCGCCGCGTTGC -GTGCGATTGCCCACGGCAAACAGGTAGCATTGATGGCACCAACCGAATTACTCGCCGAGCAGCACGCCAA -TAACTTCCGCAACTGGTTTGCACCGCTCGGTATCGAAGTGGGCTGGCTCGCCGGTAAGCAGAAAGGTAAA -GCACGGCTGGCACAGCAGGAAGCCATCGCCAGCGGTCAGGTGCAGATGATTGTCGGTACACACGCCATCT -TCCAGGAACAGGTGCAGTTTAACGGCCTGGCGCTGGTGATTATCGACGAACAGCATCGTTTTGGCGTGCA -TCAGCGTCTGGCATTGTGGGAGAAAGGCCAGCAGCAGGGCTTCCATCCGCATCAGTTGATCATGACCGCC -ACGCCGATCCCCCGCACGCTGGCAATGACTGCGTATGCCGATCTCGATACCTCGGTGATAGATGAGCTGC -CGCCAGGCCGCACGCCAGTGACTACGGTCGCTATTCCTGATACCCGCCGTACCGACATCATTGACCGCGT -GCACCACGCCTGCATAACTGAAGGTCGTCAGGCATACTGGGTTTGTACGTTGATTGAAGAGTCGGAATTG -CTGGAAGCGCAGGCGGCGGAAGCTACCTGGGAAGAGTTGAAACTGGCGCTACCAGAGTTGAACGTTGGCC -TGGTACACGGGCGGATGAAACCTGCCGAGAAACAGGCGGTGATGGCGTCGTTTAAACAAGGTGAGCTACA -CCTGCTGGTTGCCACAACCGTTATTGAAGTCGGCGTTGATGTGCCTAACGCCAGTCTGATGATTATCGAA -AACCCGGAGCGTCTGGGTCTGGCGCAGTTACACCAGCTGCGCGGGCGCGTAGGTCGTGGCGCGGTGGCTT -CTCACTGCGTGCTGCTCTACAAAACGCCGCTTTCTAAAACGGCGCAAATTCGCCTGCAAGTGCTGCGCGA -CAGTAACGACGGTTTTGTGATTGCGCAAAAAGATCTGGAGATTCGCGGCCCTGGCGAATTGTTAGGCACG -CGTCAGACGGGTAATGCTGAATTTAAAGTGGCGGATTTACTGCGCGATCAGGCGATGATCCCGGAAGTTC -AGCGCCTGGCACGCCATATTCACGAACGTTACCCACAACAGGCAAAAGCCCTGATAGAACGCTGGATGCC -GGAGACGGAACGTTACTCGAATGCGTAAAAGGCGGCAGTGAGAAGACCGCCATTTCAGGTTACCCTACCT -TCCTGCCGGATGCGATTCATCACCCTACAAATTCAATAAATTATGAATCAATACGCAGGCTTGATAAGCG -AAGCGTATCAGGCATTTGTCTTTGTTGCGGCGGCACTTCTACCGCCGCTTCATCGGTTAACCGGCAAAAA -TCGGCAACATCAAATACAACTTAATTACCAGCGCATTGACGATATCGATAAAGAACGCACCGACCATCGG -CACCACCAAAAACGCCATGTGCGACGGGCCAAAGCGTTCAGTGATCGCCTGCATGTTGGCGATTGCCGTT -GGCGTTGCACCGAGGCCAAAACCACAGTGACCCGCAGCCAGCACTGCCGCATCGTAGTTTTTGCCCATCA -TGCGCCAGGTAACGAAGATGGCATACAACGCCATGAAGATGGTCTGTACCACCAGAATCGCCAGCATCGG -CAGCGCCAGCGAAGCCAGCTCCCACAGTTTCAGCCCCATCAACGCCATCGCCAGGAACAACGACAAGCTT -ACGTTACCCAGCACGGATACCGCACGCTCAAAGACGCGGTAAAAGCCCATTATTGACAGACCGTTGCTCA -GAATCACGCCAACAAACAGTACACAGACGAAGGTCGGCAGTTCAAAAGCAGTGCCAGCCAAAAGTTGCGC -AACAATTTTCCCCACCGTCAGGCAGATAGCAATCAGCGCGATAGTTTCAATCAGCACCAACGAGGTGATC -ATGCGTCCCACATCCGGCTTTTCAAACGCCGTCGGGACTTCCTGGTCATCCGGAATACCGTTCGGCGTGG -TGGAGTGTTTCACCAGATAGCGCGCCACCGGACCGCCAATCAAGCCGCCCAGCACCAGACCGAACGTTGC -ACAGGCCATCGCCACTTCCGTCGCATTGGTGAAGCCATAACGTTCAATGAACAATTTACTCCACGCAGCG -CCCGTACCGTGACCGCCGGAAAGAGTAATAGAACCGGCCAACAGCCCCATCAGCGGATCAAGCCCTAACA -AGCTAGCCATACCAATGCCAATGGCATTTTGCATCACCAACAGACCAACAACCACAATCAAGAAGATGCC -AACCACACGCCCACCGGCACGCAAACTGGCAATGTTGGCGTTCAGGCCAATGGTGGCGAAGAAAGCCAGC -ATTAACGGATCGCGCAGGGACATATCAAAGTTGACTTCCCAGCCCATGCTTTTTTTCAGTACTAGTAGCG -CCAGCGCCACCAACAAACCACCCGCAACAGGTTCCGGTATGGTGTATTTCTTCAAAAAGGAGACGGAATG -GACCAACTTACGCCCGAGCAGCAACGTCAGCGTTGCGGCAACAAGCGTTGCTAAAGTATCGAGATGAAAC -ATAGTTACTCCTTTGTATCCGCATCACTCTTTCATACTCGTCATACTTCATCGCGCAGTGGCAACTTCAT -GAACTATGACGGGTATCGAGTTATGCTTTCCTGGGTCAAATTCTCAGCTGTTAATGAACAAATGGCATGG -ATTTTAAGCAGAAAAATACCAAAAGTTATATAAAAAAGTGCATTTATCTCATTTAAATATTTAGATGAGG -ATGTGGCAAACGTTTGCTTTTCTCTTTCGGTCAGCTAAAATGCCCGCTTTGCTACCACGGGATTGTTTTC -GATGTCTGTTTCCACCCTCGAGTCAGAAAATGCGCAACCGGTTGCGCAGACTCAAAACAGCGAACTGATT -TACCGTCTTGAAGATCGTCCGCCGCTTCCTCAAACCCTGTTTGCCGCCTGTCAGCATCTGCTGGCGATGT -TCGTTGCGGTGATCACGCCAGCGCTATTAATCTGCCAGGCGCTGGGTTTACCGGCACAAGACACGCAACA -CATTATTAGTATGTCGCTGTTTGCCTCCGGTGTGGCATCGATTATTCAAATTAAGGCCTGGGGTCCGGTT -GGCTCCGGGCTGTTGTCTATTCAGGGCACCAGCTTCAACTTTGTTGCCCCGCTGATTATGGGCGGTACCG -CGCTGAAAACCGGTGGTGCTGATGTTCCTACCATGATGGCGGCTTTGTTCGGCACGTTGATGCTGGCAAG -TTGCACCGAGATGGTGATCTCCCGCGTTCTGCATCTGGCGCGCCGCATTATTACGCCGCTGGTTTCTGGC -GTTGTGGTGATGATTATCGGCCTGTCGCTAATTCAGGTTGGGTTAACGTCCATTGGCGGCGGTTACGCAG -CCATGAGCGATAACACCTTCGGCGCACCGAAAAATCTGCTGCTGGCAGGCGTGGTCTTAGCCTTAATTAT -CCTGCTTAACCGTCAACGTAACCCTTACTTACGCGTGGCCTCACTGGTAATTGCGATGGCGGCCGGATAT -GCGCTGGCGTGGTTTATGGGCATGTTGCCAGAAAGCAACGAACCTATGACGCAAGAACTGATTATGGTGC -CAACGCCGCTCTATTACGGTCTTGGCATTGAATGGAGTCTGCTGCTGCCGCTGATGCTGGTCTTTATGAT -CACTTCGCTGGAAACCATTGGCGATATCACGGCGACCTCTGACGTTTCCGAACAGCCAGTGTCCGGTCCG -CTGTACATGAAACGCCTGAAAGGCGGCGTGCTGGCAAACGGCCTGAACTCGTTTGTTTCGGCGGTGTTTA -ACACCTTCCCGAACTCCTGCTTCGGGCAAAACAACGGAGTGATCCAGTTGACTGGTGTTGCCAGCCGCTA -TGTCGGTTTTGTCGTCGCGCTGATGTTGATCGTGCTGGGTCTGTTCCCGGCAGTGAGCGGTTTTGTACAA -CACATTCCAGAACCGGTTCTGGGCGGCGCAACGCTTGTAATGTTTGGCACCATCGCCGCCTCCGGTGTGC -GTATCGTTTCTCGTGAGCCGCTGAACCGTCGGGCGATTCTGATTATCGCGCTGTCGCTGGCGGTTGGTCT -GGGCGTGTCTCAGCAGCCGCTGATTTTGCAGTTTGCCCCTGAATGGCTGAAAAACCTGCTCTCCTCCGGG -ATCGCCGCGGGCGGTATTACTGCCATCGTGCTGAATCTGATTTTCCCACCAGAAAAACAGTAATTCACTG -GCGGCGGTAAGATAATTACCGCCGCAGTCTCACCTCTTTAACCATTCCCGCCTTGAGGATTGCGCGTAAA -TCGTGCATAACTCCCTTATGTGCATTTCACGGGATGGAAGACCATGAAATTTATTGGGAAGCTGCTTCTC -TACATTCTCATCGCTCTGTTAGTGGCGATCGCTGGCCTCTATTTTCTTCTGCAAACCCGCTGGGGAGCAG -AACATATCAGCGCATGGGTTTCCGAGAATAGCGACTATCATCTGGCCTTCGGGGCGATGGATCACCGTTT -TTCCGCGCCATCTCATATCGTGCTGGAGAACGTCACGTTTGGTCGTGATGGCCAGCCCGCGACCCTGGTG -GCCAAAAGTGTCGACATTGCGCTAAGCAGTCGGCAACTGACCGAACCACGCCATGTCGATACCATCCTGC -TGGAAAACGGGACGCTGAATCTCACCGACCAGACCGCGCCGCTACCGTTCAAAGCCGATCGTCTGCAACT -GCGTGATATGGCGTTTAATAGCCCGAATAGCGAATGGAAACTGAGCGCGCAGCGGGTAAATGGCGGCGTA -GTTCCGTGGTCACCAAAAGCCGGTAAAGTGCTGGGTACGAAGGCGCAGATTCAGTTTAGTGCCGGATCGC -TTTCGCTCAATGATGTTCCTGCCACCAATGTACTGATTGAAGGCAGTATTGATAACGATCGCGTTACGCT -GACTAACCTGGGTGCCGACATCGCCCGCGGGACATTAACCGGAAACGCGCAGCGTAACGCCGACGGCAGC -TGGCAAGTGGAAAACCTGCGCATGGCGGATATACGTCTACAAAGCGAAAAATCGCTAACCGACTTCTTTG -CGCCATTACGCTCTGTCCCGTCGTTGCAGATTGGTCGCCTGGAAGTGATCGATGCTCGTTTGCAAGGTCC -GGACTGGGCGGTGACCGACCTCGATCTCAGCTTGCGCAACATGACCTTCAGTAAAGATGACTGGCAGACA -CAGGAAGGCAAACTGTCGATGAACGCTAGCGAGTTCATTTATGGTTCGCTGCATTTATTTGACCCGATTA -TAAACACGGAATTTTCCCCGCAGGGCGTAGCGCTGCGCCAGTTCACCAGCCGCTGGGAAGGGGGTATGGT -CAGAACGTCAGGGAACTGGCTGCGTGACGGGAAAACGTTGATCCTTGATGATGCGGCAATTGCCGGGCTG -GAATATACCTTGCCGAAAAACTGGCAACAGTTGTGGATGGAAACGACACCCGGTTGGTTAAACAGCCTGC -AACTGAAGAGATTTAGCGCCAGCCGCAATCTGATCATTGATATCGACCCTGACTTCCCGTGGCAGCTCAC -CGCGCTCGATGGTTACGGTGCCAACCTGACGCTGGTTACCGATCATAAATGGGGCGTCTGGAGTGGCTCG -GCGAATCTGAATGCCGCCGCCGCGACATTCAATCGTGTTGATGTTCGTCGCCCGTCGCTGGCGCTGACCG -CCAACAGCAGCACGGTGAATATCAGCGAACTGAGTGCATTTACTGAAAAAGGCATTCTGGAAGCCACCGC -CAGTGTTTCACAAACGCCACAACGTCAGACACATATCAGCCTGAATGGACGCGGTGTGCCGGTGAATATT -TTGCAACAGTGGGGATGGCCTGAATTACCGTTGACTGGCGACGGCAATATTCAGCTTACCGCCAGTGGCG -ATATTCAGGCCAATGTCCCGTTGAAACCTACGGTTAGCGGGCAATTGCATGCCGTGAACGCCGCAAAGCA -GCAAGTGACTCAAACCATGAATGCTGGCATCGTTTCCAGCGGTGAAGTTACATCGACGGAGCCGGTGCGG -TAAACATCAATCTCGCCGGGTACGACTCAGACGTACCCGGCATTCCATCAATAGATTACAACGTAATTGT -CAGCGCATTCCCTTGAGGCTTCACCACCAGCCCCTGCTCACTTTCAGCCTGCGAACCGTCTTGCAGACCA -TTTACTTTCACAACATTGCGCAGGCACAGTGTCCAGTTCTTCGCCTCGCCCGCACCAGTCACAGTAATCG -TGTTGCCAGTACGTGCTGCTTTTAAAGTAAAGATCACCGATCCGTCAGCAGCGGGCACTTCACAGACGGC -TTCATGCCCGTCTTGCAGATTGAAGAGGTGGAATGCCGTGCCTTCGTGCCACACGTAATCGGGACGTTGA -TCGTTGTTGCCCAGCGCCAGTAGAGTGTTATCACGCACATAAACGGGCAGACTCAGGAAGCCGTGCTGCT -GTTTATGCCAGCGACTACCGTCGAGTTCATCGTTGTGCCACAGGTGTGTCCAGCGACCTTCCGGCAGGTA -GAACTGCACATCGCCCGCTTCAGTGAACACCGGCGCAACCATCACGTTGTCGCCTAACATGTATTGACGG -TCAAGGTAATCACAAGCCGGATCGTCCGGGAACTCCATCATCATGGCCCGCATCATCGGCGTACCCCGCG -CGTTCGCACGCGCAGCTTCACGATACAGATACGGCATCATGCGGCATTTCAGTTGCGTGAAGAAGCGCAC -CACATCACAGGACTCATCATCGTAGGCCCACGGCACACGATAAGATTTGCTACCGTGTAAACGGCTATGG -CTGGAGAGCAAACCAAACGCGCACCAGCGTTTGTAAACGTGCGCCGGAGCGGTATTTTCAAAGCCGCCGA -TATCGTGGCTCCAGAAGCCAAAACCTGAAAGGCCAATAGACAAACCACCGCGCAGGCTTTCCGCCATTGA -TTCGTAGTTAGCGTAACAATCGCCACCCCAGTGTACCGGGAATTTCTGCGCACCGACGGAGGCCGAGCGG -GCAAACAAGACAGCTTCTTCCTCACCAACGGTGTCCTTGAGCACGTTCCACACCAGTTCGTTGTAGATGT -ACGCATAATGGTTATGCATTTTCTGCGGATCGGAACCGTCAAACCACTGAACATCAGTTGGGATACGTTC -GCCAAAGTCGGTCTTAAAGCAATCAACGCCCATCGCGACCAGACCTTTCAGTTTGTCGGCGTACCATTTG -CAGGCATCCGGATTGGTAAAGTCATAAATCGCCAGACCTGGCTGCCATTTATCCCACTGCCATAGCGAAC -CGTCCGGGCGTTTGAGTAAATAGCCTTTCTCTTGTAACTCTTTAAAGACGGGGGATTTTTGACCGATATA -GGGGTTAATCCAGACGCAGATTTTCAGTCCTTTCGCTTTCAGGCGGCGGATCATCCCTTCCGGGTCAGGG -AAAGTCAGCGGGTCCCACTCAAAATCGCACCACTGGAAGGCTTTCATCCAGAAACAGTCAAAGTGGAAAA -CATGCAGCGGCAGATTGCGTTCCGCCATACCATCGATAAAGCTGTTTACCGTCGCTTCGTCGTAGTTGGT -GGTAAATGAAGTGGTTAGCCACAGGCCGAAGGACCACGCGGGCGGCAGCGCCGGACGACCAGTAAAGCGG -GTATAACGATCAAGTACCGCTTTCGGCGTCGGGCCGTCGATAACAAAGTATTCGAGATATTCACTCTCAA -CGCTGAACTGCACTTTGGAGACTTTCTCCGATCCCACTTCAAAAGAGACACACTGGGGATGATTGACCAG -TACCCCATAACCACGGTTAGTCATGTAGAACGGGATATTTTTATACGCCTGTTCAGTACTTGTGCCGCCG -TCCCGGTTCCAGGTCTCTACCGTCTGGCCATTGCGCACCAGGGCAGTAAAGCGCTCTCCCAGACCGTAAA -CTGTTTCGCCAACGCCAAGATCAAGCCGCTCAAACATATAATTGCGTTGATTATTCGTGTCCTGCACGTA -GCCATTATTTTTCACCTGACTACCGGTAATACGTTCGCCGTTGCGCAGAAAATCCAGTGACCAGAACTCA -CCTTTGCTGACACGCGCGCTTAAGTTGCCACTTTTAAACTCAGCATAACGTTCTGTGTTTTCGATTGTGA -CCTTCACGTCCTGCAAAATATTGAGCGGATAATGAGGACCGTTATTCAGCGCCCCCTGAAAATGCTCAAT -CCGCACACCGACAATACCTTCCTGTGGGGAGAAAAAGCGCAACGTAAATAAAGGCGTATCAAGCTGCCAG -GTACGTTCACGCACATCACGGGGGGCAGCATAGACCACCATTTCATTATCCTGCTGTTCAACCTCGAACA -CCTGAAGCGGGTGAATCAAATTGAGGCCAGGTTGAATCAACCAGTTTCCATCGCTAATTTTCATTGCCGT -TCCTTAGTTCTGCACTTCTTGAGAGGTGAATTGTTGCTGGCAACGGCGTTTACCCTGAGCCAGCTGTTCC -ATAACGGTTTTCAGATTGTGCGTCGTGAGTGAGTAGTAGCGTTTAGCGATAATCGCGCTCAGCAAATAAC -AGATCGCCGGAACAATCGTGAATAGCGCAATAATGATGCTAATCGTGGCGCTGTTCTGCGCTTTTTCTGC -CGCATCATATCCGCCATAAGCCAGCATCCAGCCGATAAGAGCGCCGCCGAAGGCCAACCCCAGTTTGAGC -ACAAACAGCGTGCCAGCAAAACTGATCCCGGTCAGGCGTTTACCATTGCACCACTCGCCGTAGTCGACGG -TATCGGACATCATTACCCACTGGATAGGTGTCACCAGTTGATGCAACACACCAATCACGAAGATGAAGAC -AAACATAGTGATGCTGGCCTGCATGGGAACAAAGAACATCGCGAGGCTAATCACTGCCAGCAGGGCGTTC -GTCCACCAGAAGATAGTGACTTTACATTTCCAGTCGGTCAGAGGTTTTGCCAGTGCGGAACCAATCAGGT -TACCCACGCAATAAGTGGTGAGAAAAGCGACAAACACTTCCGGCGTGCCCAAAATCCATGTGACGTAATA -CATCATCGCCCCACCGCGTACGCACACCGCCAGGATATTGAAAATGGTTAGTAAACCGACAATCCGCCAC -TGGTCGTTTTGCCAGATATCACGTAAATCTTCCCGCATAGACGTTGTTGTAGGTGGTGCTTCAACGCGTT -CTTTAGTGGTGAAGAAACAAAATGCCAGCATCATGAATGCCACCACGGAAAGGACCGCGATACCGCCCTG -GAAACCGAGTGGTTTATTATCACCGCCAATTAAATTAACCAGTGGCATCATCAGAACAGTAGAAAGCATG -CCTCCCGCGGTCGCCAGCACAAAACGCCAGGATTGCAGCGAGATACGCTGAGTCGGGTCATTGGTGATTA -CACCACCCAATGCGCAGTAAGGGATATTGACGACGGTATAAAGTAAGGTAAGTAGGGTGTAAGTAATTGC -TGCATAGATCATTTTGCCGTTCATACTGAGATCTGGCGTGCTATAGGCCAGTACACAGACGATCCCGAAT -GGCAGTGCGCCAAACAGTACCCACGGACGAAATTTACCCCAGCGAGAGCGCGTTCGATCGGCCAACAACC -CCATGCAAGGATCGGAAATCGCATCCAGTGCACGAGCGACCAAAAACATGGTTCCGACAAAACCGGCAGG -AATGCCAAAAATATCGGTATAAAAGAACATCATATATAACATTACGTTATCGAAAATAATGTGGCTGGCG -GCGTCTCCCATGCCATAACCAATTTTCTCTTTAACGGACAACACTTCACTCTTCATCTGCTTTTCCTTGA -TGCTATAGGGGTGCTGAGACCGATAACGCATTTTGTAAACCATCCCTGTGAGAGCGAATATTCCGATATC -TGGTTATTAATTTATGATTCTTGTTTTATGTGATCGTGGTAGCGTTAATTCCGCTCATATATCATTGTAA -AATATGGGTTTTATATGAACTATAATGCTTTCGTGATAATACGCTGCGTGTATTAGGCGGAAAAAACTGA -TCTGGGGGATGTAGAAACTCAAGGAAGTAGCTATAATGCGCCCCGCCTCCATGTAGCAATCGAGGCGCGG -AAGATCGTCGTCTCCGGTGAGGCGGCTGGACTTCAAATCCAGTTGGGGCCGCCAGCGGTCCCGGGCAGGT -TCGACTCCTGTGATCTTCCGCCAAAATGCCTCTCCTGACGTTCTCCAACCCCTTGTAATACTGTCAATCC -AGATATTTTCTACTGCTCAATATTCAATCGGCTTCAGGAATACCTGGTCTAAGGTTTTGTGATGGACGAT -GAGCGGCTGAAGAATCCGCCTGTCGGTTCTTCTGTCCTCGAACGCATCCGCGATATTCACGCCAGTATGC -GCCGTGTTTATTTGCAGGTGATTTGCCCCCCTGCTGACTCTCAGCCAACTGTATCGCCATTAAGGTGAAG -ATGTTGTTTTACTCGCCCCAGAACACCCTTTTTTATACGACTATTCTATTTCTTTAACCGCTGGCGAAAA -AAACTGACTATAAACTTCACCAATAATCAGACTGCCATCAAGATTAATTTGTTCATTTAATATATCAAAT -CAACTTGTTTTATTTTTACTATCAAAAATAGCTCATTGCCTTACTATAATTAATATATAAATTCGGTAAT -TAATTCTTAACATGCTTTTACTAATAATCTCAATTGCTGGCCCTATAATATTGCGCTAGCATTGCTTTCT -GGTTGTATCAGCGATACTCAAAAATTCTTAATACAATACTCATTCGACTGGTACTTATTTGTAACTCAGT -TATATTTTTTCGCCCGGTGATTCAGAAGAATGCAAAAAACGGCTACCACTCCATCAAAAATACTTGATCT -CACTGCCGCGGCATTTTTACTTGTCGCCTTTCTGACGGGTATTGCGGGCGCTCTTCAGACTCCTACCCTA -AGTATATTCCTCGCAGATGAACTGAAAGCCCGTCCTATAATGGTAGGTTTTTTCTTCACCGGTAGCGCTA -TTATGGGAATTCTGGTCAGTCAATTTCTGGCAAGGCACTCCGATAAACAAGGCGACCGTAAATTACTGAT -TCTGCTATGTTGCTTATTTGGAGTGCTGGCCTGCACGCTTTTTGCGTGGAATCGCAACTACTTCATTCTC -CTCTCAACGGGCGTACTTCTGAGTAGTTTTGCTTCCACCGCAAACCCGCAAATGTTCGCCCTCGCCCGTG -AACACGCCGACAGAACAGGCCGTGAGACGGTCATGTTCAGTACATTTTTACGTGCTCAGATCTCGCTTGC -CTGGGTTATCGGGCCACCGCTCGCTTATGAACTGGCAATGGGATTTAGTTTTAAAGTGATGTATCTCACC -GCTGCCATCGCATTTGTTGTTTGCGGACTGATAGTCTGGTTGTTTTTGCCATCAATACAAAGAAATATTC -CTGTCGTTACCCAACCCGTAGAAATTTTACCCTCCACCCACAGGAAGCGGGATACGCGGCTACTTTTTGT -GGTCTGTTCAATGATGTGGGCGGCGAATAATCTCTACATGATAAATATGCCGCTATTTATTATTGATGAA -CTGCATCTAACCGATAAACTGACTGGAGAAATGATTGGTATCGCTGCCGGTCTGGAAATTCCGATGATGT -TAATCGCAGGCTATTACATGAAACGTATTGGCAAGCGACTATTAATGCTCATTGCTATCGTGAGTGGAAT -GTGTTTTTACGCCAGCGTACTCATGGCGACGACTCCGGCGGTTGAGCTGGAATTGCAAATTCTTAATGCC -ATCTTCCTTGGTATTCTCTGTGGTATCGGCATGCTTTATTTTCAGGACTTGATGCCTGAAAAAATAGGCT -CTGCGACAACGTTATATGCAAATACTTCACGCGTCGGCTGGATTATCGCCGGCTCTGTTGACGGAATTAT -GGTTGAAATCTGGAGCTACCATGCGTTGTTCTGGCTGGCGATAGGGATGTTGGGTATTGCGATGATTTGC -CTGCTGTTTATTAAAGATATTTAGCTCACCAGTCTGGGCTAAGAAAAATCGGCGTGGCGCAAACAGAGCC -ATCCTCGCCATTTTTGCTATCATGCCTGCATACATAAACGACAAAACAGTATGCAGAGGGAAAAATGGGT -TCCACCAGAAAGGGGATGCTGAACGTTCTGATTGCCGCCGTGTTGTGGGGAAGTTCAGGGGTCTGCGCGC -AATACATCATGGAGCAAAGCCAGATGTCGTCGCAGTTTTTGACTATGACGCGTTTGATATTCGCCGGTTT -GATTCTACTGACGCTGTCATTTGTTCATGGCGATAAAATCTTTTCTATTATTAACAATCATAAAGATGCC -ATTAGCCTGCTGATTTTTTCCGTGGTTGGCGCGCTAACTGTACAGCTCACTTTTTTGCTAACCATCGAAA -AATCGAACGCAGCCACGGCAACGGTGCTGCAATTCCTCTCACCGACGATTATCGTCGCCTGGTTCTCACT -GGTGCGTAAATCGCGCCCGGGCATTCTGGTTTTCTGCGCTATTTTGACATCGCTGGTCGGGACTTTTTTA -TTGGTGACACACGGTAATCCGACGTCATTATCGATCTCTCCTGCCGCGTTGTTCTGGGGCATTGCCTCGG -CATTTGCTGCTGCATTCTATACCACCTATCCCTCAACGCTAATTGCCCGCTATGGCACGTTACCAGTCGT -CGGCTGGAGTATGCTGATTGGCGGTCTGATTCTGTTGCCTTTTTATGCCAGACAAGGAACAAACTTTGTC -GTTAACGGCAGTTTGATTCTGGCGTTTTTTTATTTGGTGGTCATTGGTACGTCCCTGACATTTAGTCTGT -ACCTGAAAGGAGCACAATTAATTGGCGGTCCAAAAGCCAGCATTTTGAGCTGTGCAGAACCATTAAGTAG -CGCGCTACTCTCTTTGCTGTTGCTGGGGATCACGTTCACATTACCGGACTGGCTGGGAACGCTGCTGATT -CTGTCATCGGTGATTTTGATTTCAATGGATTCCCGTCGCCGCGCCAGAAAAATAAATCGTCCGGCGCGGC -ATAAGTGAGAATTACCAGCCAGGCACCGCGCCACCGTTAAAAATGGTTTCTGCCGCTTTAGCGACTTCGG -GTGATTGATAAGATTGCAGAAATTCCTTCACGTTTTCTGCATTCTTATTATCTTCCCGTGCCACCAAAAT -ATTCACATACGGCGAATTCTTATCTTCAATAAATACGCTGTCGTGCACCGGAGAAAGCCCGGTCTGCTGA -ATGTAAGTGGTGCTGATAATCGCTACATCAACTTTGGGATCATCCAGTACGCGCGGGAGCTGCGCCCCCT -CGAGTTCCATAATCTGCAAATGACGAGGATTATCGGTTATATCCAGCGCGGTAGGTAATAACCCTTTTCC -CTCTTTCAGAGTAATTAGCTTCTCTTTTTGCAACAGTAAAAGTGCGCGACCAAGGTTGGTCGGGTCGTTG -GGGATCGCCACTGTCGCGCCTTCTTTTATTTGCGCCACGGTTTTGATTTTTTTGGAATAACCCGCCATAG -GGAAGACAAACGTATTTCCCACCGCTACCAGTTTATAACCATGCGCCTGATTATCTTGTTCAAGAAAGGG -TCGATGCTGGAAGACATTCGCATCAAGTTCGCCATGATTTGTCGCATCGTTCGGTAGCAACGAACCGCTA -AATCCTACCAGTTCAACATCGAGGCCATATTTCTCTTTTGCCACCTTTTTAGCGACTTCCGCGACATCTT -GTTCTGCGCCATTTATAACGCCAACTTTAATGTGTTTTGCATCGCTGCTACTCTGGTCGCAACCTGCCAG -CAGAATTCCGGCCAGCAATAATGCGGCCCCTGTCCGTAGATGATGTGTTGTCAGTTTCATTTTTTTATCC -TTTTATTAATGATTACCTGACTATAGCGGTAAGGTCGCTGCGGTTTAAAAAACGAAACGCTATCGATAAG -AATAAAAAGGAATAAAAGTGGAATATAAAGTCTGGCACTTCTTACTGACCACGCAAGCGCGTTTCGTACA -GCATGATGAGAGCGATGAAAGCAAACTACACTTATGCTTCATTCGATACACATTTGTAAAAGGTTGAATC -CATGAAACCAACGACACTACTGCTTATTTTCACTTTTTTCGCTATGCCAGGCATCGTATACGCCGAGTCG -CCTTTTAGCTCACTGCAGTCCGCAAAAGAGAAAACCACGGTATTACAAGATTTACGTAAAATTTGCACGC -CACAGGCGTCATTATCAGATGAAGCGTGGGAAAAGTTAATGTTGTCAGATGAAAACAATAAACAACATAT -ACGCGAGGCCATCGTGGCGATGGAACGTAATAATCAGAGCAATTATTGGGAAGCGTTGGGTAAGGTAGAA -TGCCCGGATATGTAAGAACAGCAACAACTACTGACCAACGCTTCTTTACCTGATATCAGGATTTCTTCAT -TTTCACCTTTGCAGTAACCAACAATGCAGTCAGCAACATCAATGTGCCGGACAACATCAACGGCGAAGTC -AGACCAATATTATCCAGCGCATAACCGCCGATTGCCGCGCCACAGGTATTAGCAAGCTGAATAACCGCCA -CCTGAATAGACCCGGCTTTTTCTGCCTGATCGGCCAGCGAGCGGGTGATCCACGTTGACCAGCCGACGGG -AACCAATGCAAAAGTTAGCCCCCAGATAATCGCCACGCCGGTAGCAACGATTTTATCGCTTCCCCACAAC -GTCAGTACCAACGCACTCACAGCCAGTATTAACGGCGCGCCTGCTAAGGCCAGTTTTACCGAACGTTTAA -GAATGAACGACGAAAGCGACGTACCAATAAAGCTGGCGATACCAAAACTCAACAGCACCAGCGTTAAGCC -ATCCACGCCGAATCCCGCCAGGTTCATATACACCGGGCGAATATACGTGAAGAAAGCAAACTGCCCGGCG -AAAGACATGAAGATGGCGATCATCCCTGCCATCACACCCGGACGTTGTAATAAGCGGAAAGTATTTTGTT -TCTGATGCGAGGGTTCGCCTGGCAGTGAAGGCAATGATTTGATAATCCAGAAAATACACAGCACGCCCAT -CACCGCCGCCGCATTAAAGACATTGCGCCAACCGATAAGCTCGCCTAAAAAACTGCCCAACGGCGCGGCA -ATCACCAGCGCAATAGAAACCGCGCCGAAGATCACCGACAGCGCCTTCGGCACCGTACGCGGCGGCACCA -GACGCATGGTCAGCGACGCCGACATCGCCCAGAACCCGCCCAGCGCCAGCCCCAGACAGGCACGACCGAT -TAAAAGCAAACTGAATGAGTTAGCAAAGGAAACCAGCAAGCAGGAGAGCGTCAGCAAAACGGCAAACAAA -ATAACAACGTAGCGGCGGTCAGTAGCCTGAATTGTCTGGGTAATAAACAAACTGGCAAACATTGCCACAA -AGGCGGTCACGGTCACCGATTGCCCGGCAACCCCTTCCGAAATGCCTAAATCCTGGGCCATTGGCGTCAA -CAAACTGACGGGCAAAAACTCAACGATAATCAGACAGGCGACACAAAACGCCACCGAGAAAACGGCTGAC -CAGTTCGGTCGGGTGATGGCATCCGCGCCGCGGTTTTCGGCAATAAATTCACTCATGGTGTTACCCGTGG -CATGTTTCAGGGGAAAAGCCGACCACTTTAACATTGAAATGTGTGACGCATTTAACGTTTTTGCAACTTT -TACGGTGTTGCTTGAGCTGGAGTTAAGATCGAAACGGAACAGGGCAAAGATTACCGGATGCGGCGTGAAC -GTCTTATCCACCCGACAGGTCAGGCGCGGTCTGTAGGCTGATAAGACGAAACGGTTTCAATGCAACCAGT -GAACGCCCTCGGCAGGCTGAAAGAACGCGTTATAGCGCATCTGAAAAGCATTAATATCCTGCATTTCAGG -TTCGGTTTCGCGCAGAAAACCTAGCGCCAGCCTGACCTGAGCGTCGGTAATCGGCGCGGCGAGGCGAGCT -TTTTGTAAAATCCGATGCCATTGCAGCAGGTTCTGTTCGCTACCATCGACAATGACAATTTGCCAGATGA -GCAACACCTGCGCGGCGTTTTGCAGGTGCGACTCATCCGGACGATGCAAATAACGTAAAAATTCGTCACC -AGCTGACTTTCCCATTTGATCGACCATCGACTCCACGGGTACGACATCGATGTTCAGCCGATCGCTGAGA -CGGCGAATCGCTTTTCTGGCCCCGGATGTCAGCACCCGAAAACCAACCACAAACACTACCGCCAGCGTGG -CGAGCATTATCCAGATCATGAGTTCTCCTGCGTAATCAGAACTCATGATATCTGGAAACCCTCGCCAGTT -ACTAATCCACCAGAATAATCTTCAGTGCAAACAGAGCTGCGACCACCACCACACACAGGTTCAGATCGCG -CCAGCGCCCGGTGCATACTTTCATGATGCAGTACGACATAAAGCCGAGTGCAATCCCTTCGGTGATCGAG -AAAGTAAAGGGCATCATCACCGTGGTAATAAACGCAGGCACCGATTCGGTAAAATCATCCCAGTTAACGC -GCGCCAGGCTCGAAGTCATCAGCACGCCAACAAAGATTAACGCTCCGGCGGTTGCGTAAGGAGGAACTAT -CGCCACCAGCGGTGAGAAGAACATAACCAACAGGAACATAACGCCAACCACAACCGCAGTCAGCCCCGTG -CGGCCACCGACTGCCACACCAGAAGTACTTTCAATATAGGCAGTAACAGACGAGGTGCCGATAAACGCAC -CCGCCACCGAACTGACGCTATCAACATACAGCGCCTTATTCATATTGGGGAATTTACCGTTACCATCTAT -TAAGCCCGCTTTATCAGTTACACCAATTAATGTTCCTGATGAATCAAATAGGTTGATCAGCATAAAGGAG -AAAATGATACCGGCGAGTTCAAGTGTTAACGCGCCGCTCAAATCTACTTCACCAATGACGCCGCTAATAT -CAGGCGGAATGGAATAGACGCCGCTAAAATGAACATCACCGAAAAATAATCCACAGCAAGACGTCACCAC -AATAGAAACCAGCACCGCGGCATGAAAATGACGTGATGACAACACGGTTATAATAAAAAACCCTAAAATA -CCTAACAACACGCCGTGAGAACTTAAATCGCCAATCATCACCAGCGTGTCTTTATTGGCGACAATAACGC -CAGTATTTTTTAATCCCATTAAGGCGATAAATAATCCAATTCCGCTGGTGATACCAATACGTAAACTTAA -GGGAATGTTGGAGATCATCCAGTACCGGATACGAAACAGCGTGAGCAAAAATAGTCCAACTGCGCCCCAG -AATATTGCGCCCATCCCGGTCTGCCAGGAGATGCCCATCGCCCCCACGACCACGAAGGCAAAGAAGGCGT -TCAGCCCCATTGCCGGAGCCAGCGCCACGGGTAAGTTAGCAAATATCCCCATCGCAATACTGCCGATACC -GGCAATCAAACAGGTGGTAACAAACACCACTTTCGGGTCCATTTGTGCCGCGCCGAGGATTTGCGGGTTC -ACAAAAACGATGTACACCATGGTTAAAAAAGTGGTCATCCCCGCAATCAATTCTGTGCGGACGGTGGTCC -CATGCTGAGGTAGTTTAAATAATCGCGAAAGCGTCCCTGATTCATTACTCACGTAATCGGTATTGTCATT -ATTCATTTTTTTGTCCATTGGAGGAGATTTAATCCCTTGCTTTTGTAAAACAAATGACAACAACGGTTCA -GTGATAATTATCACATTTCAATTGCACATTAATGGATATTCTTTAATAATCTCGCGACGTTTCTTTATGA -TAAATAATAATCAAATTGATAAAATCAAAATGAGAAAAATATGAATAATTCTATTAACCATAAATTTCAT -CACATTAGCCGGGCTGAATACCAGGAATTGTTAGCCGTTTCCCGTGGCGACGCTGTTGCCGATTATATTA -TTGATAATGTCTCTATTCTCGACCTGATCAATGGCGGAGAAATTTCCGGCCCAATTGTGATTAAAGGACG -TTACATTGCCGGTGTTGGCGCAGAATACACTGATGCTCCGGCTTTGCAGCGGATTGATGCTCGCGGCGCA -ACGGCGGTGCCAGGGTTTATTGATGCTCACCTGCATATTGAATCCAGCATGATGACGCCGGTCACTTTTG -AAACCGCTACCCTGCCGCGCGGCCTGACGACCGTTATTTGCGACCCTCATGAAATCGTCAACGTGATGGG -CGAAGCCGGATTCGCCTGGTTTGCCCGCTGTGCCGAACAGGCAAGGCAAAACCAGTACTTACAGGTCAGC -TCTTGCGTACCCGCCCTGGAAGGCTGCGATGTTAACGGTGCCAGTTTTACCCTTGAACAGATGCTCGCCT -GGCGGGACCATCCGCAGGTTACCGGCCTTGCAGAAATGATGGACTACCCTGGCGTAATTAGCGGGCAGAA -TGCGCTGCTCGATAAACTGGATGCATTTCGCCACCTGACGCTGGACGGTCACTGCCCGGGTTTGGGTGGT -AAAGAACTTAACGCCTATATTACTGCGGGTATTGAAAACTGCCACGAAAGTTATCAGCTGGAAGAAGGAC -GCCGGAAATTACAACTCGGCATGTCGTTGATGATCCGCGAAGGGTCCGCTGCCCGCAATCTCAACGCGCT -GGCACCGTTGATCAACGAATTTAACAGCCCGCAATGCATGCTCTGTACCGATGACCGTAACCCGTGGGAG -ATCGCCCATGAAGGACACATCGATGCCTTAATTCGCCGCCTGATCGAACAACACAATGTGCCGCTGCATG -TGGCATATCGCGTCGCCAGCTGGTCGACGGCGCGCCACTTTGGTCTGAATCACCTCGGCTTACTGGCACC -CGGCAAGCAGGCCGATATCGTCCTGTTGAGCGATGCGCGTAAGGTCACGGTGCAGCAGGTACTGGTGAAA -GGCGAGCCGATTGATGCGCAAACCTTACAGGCGGAAGAGTCGGCGAGACTGGCACAATCCGCTCCGCCAT -ATGGCAACACCATTGCCCGCCAGCCAGTTTCCGCCAGCGACTTTGCCCTGCAATTTACGCCCGGAAAACG -CTATCGGGTCATTGACGTCATCCATAACGAATTGATTACGCACTCCCACTCCAGCGTCTACAGCGAAAAT -GGTTTTGATCGCGATGATGTGAGCTTTATTGCCGTACTTGAGCGTTACGGGCAACGGCTGGCTCCGGCTT -GTGGTTTGCTTGGCGGCTTTGGACTGAATGAAGGTGCGCTGGCTGCGACGGTCAGCCATGACAGCCATAA -TATTGTGGTGATCGGTCGCAGTGCCGAAGAGATGGCGCTGGCGGTCAATCAGGTGATTCAGGATGGCGGC -GGGCTGTGCGTGGTACGTAACGGCCAGGTACAAAGTCATCTGCCGTTACCCATTGCCGGGCTGATGAGCA -CCGACACGGCGCAGTCGCTGGCGGAACAAATTGACGCCTTGAAAGCCGCCGCCCGTGAATGCGGTCCGTT -ACCCGATGAGCCGTTTATTCAGATGGCGTTTCTTTCTCTGCCAGTGATCCCCGCGCTAAAACTAACCAGT -CAGGGGCTATTTGATGGCGAGAAGTTTGCCTTCACTACGCTGGAAGTCACGGAATAATAAAAAAAGCCCG -GCGTCATGCCGGGCAAAAGTCACCAGTTACGTTTATGCCACTGTCAACTGCTGAATTTTTTTCTCGCGGC -GGATTTTGCGTTCTTCCATTACCGCCACTATCGCCATCAGGCAGATACAACCAATCGCGGCGATATCCAG -CGCGGCGAAGGTGCCTGCCCAGCCGGTAAGGCCGAATACCGGCGTCCCATCGGCAATCATTCCCAGACCT -AACTTGGCAAAGCTGTCACCAATCAGGTAAGCAAAGGTGCCTTTAATACCATCGGCAGCGCCAATCGCTT -TTTTAGGTACAAAGCCAACAGCAGCCACACCAATCAACAATTGCGGGCCAAAGACCAGGAAACCCAACGC -AAAGAGAGAAGCCAGATAGATATATTCGTTACTGGCATGTTGATACACACCGAGCGTGGCGATAATCAGC -GCCAGCGCGATGCAGGCCACCAGGCCACGGCGACCGTTCGCCAGGTCAGAGAGCCAGCCCCACAGCAGCG -TACCGACCAGCGCACCAGCTTCAAACAGCGTAAAGCCCTGAATCGCCACCGCTTTAGAGAGTTTCAGTTC -CTGGAACGCGTATACGGTTGACCACTGGTCGATACCAATACGTACCACATAGAGGAAAATGTTGGCGAAG -CACAGCAGCCAGATCACTTTGTTTTTCAGCACATACTCAACAAAGATCTGCCACTTGGTCATATCGGTAG -ATTCTGTCTCTTTGTCCTCTTCGCTGATCTCCTCGCCGAACAGTTCTTCAGCTTTGCCGAGGCCATAAGA -TTCCGGGGAGTCGCTGCCGTAACGCAGGCCGATAAAACCGACAATCAGCGCGATAATCGACGGGAAGATA -AACATGCCGATGACATGGCCATCGAACAGGTAATTTGCCCCGAACAGCGCCACACCTGCTGCGCCTGCAC -CGCCAAGGTTGTGAGAAATATTCCAGAAACCGAGGAATGTCCCGCGTTTACGACGCGGCGTCCATTTGGT -GATGGTGGAGTAACTGCACGAACCGCCGGTACTCTGGAAAAAGCCGCTTAAGGCGTAGAAGGCAATCATC -AGGAACAGGCTAACCGAGCCGCTGCCCATACTGGCACTGAAGCCCAGCATACAAATAGCAGAGAGGATCA -GCATGAACGGCAGGAATTGTTTGGTGTTTTTGCCGTCGGCGTAGTAGGAAACCAGCGTTTTACCCACGCC -ATAAGTGATGGAGAAACCCAGGCCGATCATCCCCAGCTGCGTCATGCTCAACCCGTAGGTCGAAATCATA -TCGTTCTGCGCGATGTTAAAGTTCTTGCGAATCAGGTACATCGTCAGGTAGCCGATAAAGACCACCAGGT -AGGATTGCATGAACGGTTTGAACCACATTTTGCGCCGCACTTCGAGCGGAAGGTCCAGGGTCGGCTTGCG -AACCTGGTTTAAGAAAGCCAGCATGGGTTACTCCTGAAATGAATACCTGCGTGAGGCATGCATTGTAAAA -ATCAGCAGCAAATCAGGCCTGAGATAGCGTCCAGGCAAAACCTGGAAAATTTCTTAGTTTTGCCGGATAT -GAAGTGAAAAGGTGAGATGCATCACGCTTCGCGCGGTGTCTGGGCGTTCAAAAAGGGCAGTAACAGCAGT -GCGGAAATCCCGGCGGCGATAGAGATAACCACAAAAAATCCGCTCCAGTGCCAGGTATCGAGTACTTTCG -CCAGCGGCCAACCAGCAAGCGACGCCCCCAGATAAGCAAACAAGCCGACAAACCCCGTCGCCGCCCCTGC -CGCCTCTTTGTGGGAACACTCTGCCGCCGCCATACCGATTAACATCTGTGGGCCAAAGACAAAAAAACCA -ATGGTGAAGAAGCAGGTTGCCTGCATCACGTAGCTGGCAAATGGCATCAGCCACAGGGAGCCGACTGAAA -GCAAAATTCCGGCGGCGAAAATCAAATTCATCGGCCCTCGGTTGCCGTTAAACAATTTGTCCGAGCCCCA -ACCGGCTACCAGCGCACCGATAAATCCGCCCAGTTCAAACATCGTCACTGCCGTATTCGCCGTGACCAGA -TCGACGCCCAGTGTCTCGGACATATACAAATTGCCCCAGTCGTTGATCGCCGCCCGGACCACATAGACCA -GCACATAGCAAAACGAAAGCAGCCAGATATACGGATTCAGCAACACATATTTGGTGAGGATCTCTTTACG -CGTCAACCCTGCCCCTTCTTGTTGTTGAGCAATTTCCAGCGCGTCGTGTCGCCATTCACCGACCGCCGGT -AAACCTAACGCCTGCGGGCGATCGCGTAGCCGCCAGCAGAGAAAAATCCCCACGACTATCGCCATACAAC -CAGCAATCATCATCCCGGCACGCCAGCCGTAATGCAGCGCAGCCGCTGCCATCACAATGGGAATGAGTGC -GCCGCCGACGTTATGCGCCGTGTTCCATAATGCCCACCAACCGCCGCGCTCGGTACGTGAATACCAGGCC -GTTAACAGACGCGCACACACCGGTGAACCCCAGCCCTGGAAAAAGGCGTTCAGCACCCAGAGCACGGCAA -ACGCCCATAGCGACGTCGAGAAGCCAAACAGAATGTTGATAATGCCCGTGGCGATAAGCCCTATCCCCAT -AAAATAACGGGCATTTGAGCGATCGCTGACAATGCCGGAGACAAACTTCGACACGCCATAGGTAATGTAA -AACAGGGTCGCTAACAGGCCGATATCGCTACGGCTGAGCACGCCGTTAGCAAGGATTTCTGGTACGGCGG -CGTTAAAACTTTTCCGCGTGAAGTAAAACAGCGCGTAACCCAGCCAGATGGTCAGCAGAATATGCCGACG -CCAGTAGCGATAGCGGGCATCAATTTCATATTTATCAGTCATTAATGGCGCATCGGCAGGCGCTTTCAGA -AACGGCAACATCATCAAACCTTAGACATAGCGTTGAGGTAGAGAAACGCTGACACGCGTGCCGTGCAGAC -AGGAAATGTGTAATGTGCCACCCAGCGCCGTTACGCGCTCGCGCATTCCGGTGAGGCCAAAACCTTGTTG -CCCGGAACCCGGCGGCAAACCGCTGCCATCGTCTTCAATAACCAGCATCAACCGTTCATCCTGCTGCCAG -CCTTGCAGGGTGACCGCGCTGGCATCAGCATGTTTCACAATGTTGTTCAGCCCTTCCTGGCAGACACGAA -ACAGCGTCACGCGCTGGTTTTCGCTTAACGCTGATTCATCGATTCGCCATTCGAGATGGCTGACAATACC -GCGCCCTTCCAGCTCCATTTCCCGCATCAGTGAGCGGATGGCCTGCTCCAGGGTGAGATCATCCAACTGG -CGCGGACGTAACCGACCCAACAAACGGCGCACCGCGTCGTAAACGCCCAGCGATAGTTGTTCGATGAGCT -GCCCGCTCTGCTTCACGCTGGCGTTATCTGCCGCCAGCCGCTGAACAATGCCCGCCTGAGTACGAATAGC -AGTGATGGTCTGACCGATATCATCATGCAGCTCACGCGCCACATCACGGCGCACGCTCTCTTCGGTTTCC -AGCAACCGTTCAGCCAGATGCTGATTGCGCGCCAGTTCCTTTTGCAGCGACTGGTTAAGTTCACGCAACC -GCTGGATGCCAGCGCCAAGCAACAACCCTGTCAGACTTTGCACCAGCAGCGAGAGCAATAAATCCACCGG -ATGATCGCGCCAGGTTTGACTGGCGATCAGCGCGATGGCGTTCATCAACGTCGCAATCAGCGCCCCTTGC -CAACCATAGTGCCAGGCCAGCGCGATAATCGGCAGCGCCAGACAGAATGGCGTAAAGCGCGACAGTTCGT -CCGGCAATCCCAACTGGAGCCAGAGACTGATAACAAACAGCAGCAAGTACCAGACCAGATGTCGCCCGCG -CCAGTTGATTGGCTGAGAAACCAGTGACGGACCGAGCGGCAGCCAGGTGTTATTGGCGAGATAGTGCCAG -AACACCAGACATATCGGGGCCAGCGTCAGGCCGCCAGTTAAAGTCAGCAACAGCGCATTCCACGACTCTT -TGCCGTGCCAAAGCCAGGGCAGCGACTGCAACAACGCCGCCGCCGTTAACGCCGCCCCCTGTAACAGCAA -GGTGCGCCAGTCACGCTGATGGCGATAGCGCGAGATCAGCGCTACGGGCAGTAACGTCAGTAAACTACCG -ATCATCAATAACGGAAAATGGGTTAAACCGACCGCCTGCGTTAGCCAGTAAATCAGCAGCCACTCCGCGC -CCAGCAATACGGGCCAGTATCCGCGCGGGCATTGCAGCATTAGCCCCAGACGCAGACCAAACGGAAATAA -CAGCACCGCCATATCAGGGCGCTCAACCAGATGCAGGCTGATACTCCACAGGCAAAACCATGCGGCAGAG -AAGATAAAAAAGCAGGCAATAACGGTAATTAAGCGGGAGAACAACGTCTTCATCACCAGCCATCAAACAT -GCGGCGCGCCAGCTCTACGTCGTTACTGACGCCCAGTTTTTCCATCAGATTGGCGCGATGGACGTGTACC -GTTTTCGGTGACAAGCCCAGTTCGGCGGCAATCTCTTTCACCGCCATTCCTTGCGCCAGTTTTTCCGCCA -CCTGGCGTTCACGTTTGGTTAGCGGGTCCTGACGACCGGATGCCAGTTTAATGGCAATATCCGGCGTCAG -ATAACAGCCGCCCGTGGCAACCGTATGCACCGCAGCAATGAGTTCATCCGGGCTACAGCGTTTGGAAAGA -AAGCCGCGTGCCCCCGCGTTAAGCGCCTGCTCAACCAGCGCAGGACTGTCGTGAACGGAGAGCATAATCG -TCGCCATACCTTTCGGCAGCTGGCTTAGCAGCTCCAGACCGGAGATATCGGGCATGGAGATATCGCAAAT -ACACACCTGCACACCGCGCCCCGGCAGCCCCGCCAGCGCCTCGCGCCCCGAACCAAACTCGGCAACTACC -TGCAAATCAGGTTCCAGCCCCAGCAGCTGCGCAAAGCCGGAGCGGACGATGAGGTGATCGTCTATAAGGG -CAACGGTGATCATGGTCTTGTCCTGGCGGGTAAAAAAAATACGCGCTTACCTTAACGATAAGCGCGATGT -TGTTCAAGCCTTGAGCGGTTACTGAAAAAACACCGCGATCTTGTTAAACATCGTCGGATCGGACTGATTA -CGCTGCACTTTCACGACATCTTCCAGCTTATCGATTTGGCTTATCATCTGCTCCAGACGCTGGTCGTCAT -TGACCAGTAGCCAGATATGGCTTTTGTCGCTGTCCTGAATCGGCAGACAAAGAATGCCTTCAACGTTAAA -AGCGCGGCGGGCAAAAAGGCCACAAACGTGGGTCATTACGCCCGGATGGTTGCGAACGGTGAGCTCCAGA -ATTACGTTGTCATGAGTTGTGTTTTGCATGGCTTATTCCCCCACCATTTCAGTATTCGCCGCACCTGGCG -GCACCATCGGGTAAACTTTTTCTTCGGCATCAATGCGCACATGGATCAGCGCCGGGCCAGGGCGATTGAT -GATTTCCTGCAATGAAGCCTGCGGATCGGCTTCGTTATTCAAATCACAGGTTTCGAGGCCGAATCCGGCG -GCAATCTGCATAAAGTTGATTTTGCCCGGATAGGTGGCGGCAAAAACGCCTTGCTCGTAGAACAGACTCT -GTTGCTGATGCACCAGCCCCAGCGCTTCGTTGTTCATCAGAATGATTTTGACATCCAGCTGATTTTCACT -GGCGGTCGCCATCTCCTGAATATTCATCATCAGGCTGCCGTCGCCGGAGAAACACAACACTTTGCGATCC -GGGTTCGCCAGCGCAGCGCCAATCGCCGCAGGCAGGCCAAAACCCATCGTGCCCAGCCCACCGGAGGTCA -GCCACTGGCGTGGGCGATTGAGCGGATAAGCTTGCGCGGTCCACATCTGATGCTGACCAACGTCGGTGGT -GATAATTGCATTGTCATCGACACAGGCGGCAACGGCGTTGATCAGGCCGTAATGGCTTAACGGATCGCAC -GCTTTCGGGATTGGACACGGAAACTCACGCTGCAAATCCGCTACCAACTGGTGCCACTCTGCACGCGGTT -GCGCTTCCACCAGCGGGATCAACTGCGCCAGCACGTCATCAACATCCGCCTGAATCGCCACGTGCGGCTG -CTTGATTTTACCCAGCTCTGCACGGTCGATATCGACATGAATGATTTTGGCATTCGGACAGAACTGCTCG -GTTTTGCCAATCGCCCGGTCATCAAAACGCGCACCGAGCACTATCAACAAATCCGCCTCCTGCAAAATAT -AGTTGGTGCTGCGCACGCCGTGCATCCCCAGCATACCCAGCGACAACGGATGCGCTTTTGGCAACATGCC -CAGCGCCATTAAAGTCATGGTGGTAGGCAGTTGCGCTTTCTCCGCCAGTTCACGCACCCGTGCGGGCGCA -TTGATCACACCGCCGCCCAGATAAAGCACCGGGCGTTTGGCAGCGTTAATCATCGCCGCTGCGTCACGAA -TGCTTTCTTCGCTAAAGGCGGGGGCGGCGGCTTTTTCTGCCATAGCGGGCTGTGTTTCAATCTCAAAAAC -TGCCGTTTGCACATCCTTAGGAATGTCTATCCACACCGGGCCTGGGCGGCCTGATTGCGCAATGCGGAAG -GCATCGCTCATGACCTGCGGGAGTTCTTCGATATGTCTGACCAGATAGTTGTGTTTGGTGATGGGGATAG -AGATGCCGTAGGTGTCCACTTCCTGGAAGGCGTCGGTGCCGATCATCGAGGCGGGAACCTGACCAGTGAT -GCAAATCAGCGGGATGGAGTCCAGCCGCGCATCGGCAATGGCGGTCACCAGGTTAGTCGCACCCGGTCCG -CTACAGGCCATACAGACCGCCGGTTTACCGTCGGTGCGCGCCATTCCCTGAGCGATAAAGCCCGCGCCCT -GTTCATGACGGGCCAGAATATGGCGGATTTGCGTGCTTTGGCTTAAGGCATCGTAAACAGGCAGGATAGA -ACCGCCCGGAATGCCTGTCACAATCTTAATGCCCTGCTGTTCCAGGAAATGAACGATAAATTCTGCGCCG -GTAAAGCGCTTACGCGTCGATGTTGTGCCCGAACTTGCCATGCTCCAGTCCTTTTCTTCTGGGCCGACTT -TCCGGGAGGTGCTTAAACGAAAAACCCCGCCCGGTTTGCGCCGGCGGGGTTTTGGAATCGTGTGTTGTTC -CAGTCCCTACGGCGCATTGCCGACGACCACCACCACACGCACGACGACCACTGCGGCGGATGGCGCAGTT -GGTAGTAGTTTTGCGTTGAGCATGGAAGTAGTCATTGGGGACCTTGTTGGTTTTGTGTTTAACAATATTT -ATACAAGCACAGCTTTACAGGGGAGACAATGGAAAATTTTTCAGCAAGGGAAAATTGAGGGGTTGATCAC -GTTTTGTACTGAATTGCAGATAACAAAAAACCCCGCCGGAGCGAGGTTTCGTCAGTCGCCTGCGGCTGGT -AACCGCAAAGCACACTGTATTATGTCAACACTGAAAGTATACGTGTTCCGCGCAGAACGCGCAATTTCGG -CACGAATTTTGACGTATTTAGTGCATAGTTGAGTATCGATCACAGTTTGCGTTTTGTCCAAATATTACTG -TTTATTTATACAGTAAACTTCTATAATATCACTGTACGCAATGTGTTATGCGGGGGCCGCATCGTTACCC -GGCGCACTAAGTCCTGGCTGAAACGGGTGGTGCCGTCAGCGCCTTAACCCCGCGTGAGCACACTGTGTTA -TGTCAACAAGCACAACGTTTCTCCTTGAGATACCGCGTGCACAACAGCTGGCAACAGGCAGCGGAAAGGT -ACGTCAGCTGGCAGTGCTCCTGAACCACAGGAGACGCGTATGAACCTGGTGGATATCGCCATTCTTATCC -TCAAACTCATTGTTGCAGCACTGCAACTGCTTGATGCTGTTCTGAAATACCTGAAGTAATTCAGATTCAA -GTCGCACCAAAGGGGAGCGGGAAACCGCTCCCCTTTTATATTTAGCGTGCGGGTTGGTGTCGGATGCGAT -GCTGACGCATCTTATCCGCCCTACCATCTCTCCCGGCAACATTTATTGCCGCTTTTGTTTACATATTCTG -CCGCTAAACAATTCCCCATTCCTGGCGTATATCTGGCTAACATTCATCAATGTGATAGATTCCTCTCCCG -CATTTATGGGAATGCGTAGTGACTTATTCTAATTATTTTTATAAAAGCATCCGTGATAATGAAAAGGCAA -AGAAACGTCAATTTGTTATTGATGTTGGTATTACTCGTGGCCGTCGGTCAGATGGCGCAAACCATTTATA -TTCCAGCTATTGCCGATATGGCGCGCGATCTCAACGTCCGTGAAGGGGCGGTGCAGAGCGTAATGGGCGC -TTATCTGCTGACTTACGGTGTCTCACAGCTGTTTTATGGCCCGATTTCCGACCGCGTGGGCCGCCGACCG -GTGATCCTCGTCGGAATGTCCATTTTTATGCTGGCAACGCTGGTCGCGGTCACGACCTCCAGTTTGACGG -TGTTGATTGCCGCCAGCGCGATGCAGGGGATGGGCACCGGCGTTGGCGGCGTAATGGCGCGTACTTTACC -GCGAGATTTATATGAACGGACACAGTTGCGCCATGCTAACAGCCTGTTAAACATGGGGATTCTCGTCAGT -CCGTTGCTCGCACCGCTAATCGGCGGTCTGCTGGATACGATGTGGAACTGGCGCGCCTGTTATCTCTTTT -TGTTGGTTCTTTGTGCTGGTGTGACCTTCAGTATGGCCCGCTGGATGCCGGAAACGCGTCCGGTCGATGC -ACCGCGCACGCGCCTGCTTACCAGTTATAAAACGCTTTTCGGTAACAGCGGTTTTAACTGTTATTTGCTG -ATGCTGATTGGCGGTCTGGCCGGGATTGCCGCCTTTGAAGCCTGCTCCGGCGTGCTGATGGGCGCGGTGT -TAGGGCTGAGCAGTATGACGGTCAGTATTTTGTTTATTCTGCCGATTCCGGCAGCGTTTTTTGGCGCATG -GTTTGCCGGACGTCCCAATAAACGCTTCTCCACGTTAATGTGGCAGTCGGTTATCTGCTGCCTGCTGGCT -GGCTTGCTGATGTGGATCCCCGACTGGTTTGGCGTGATGAATGTCTGGACGCTGCTCGTTCCCGCCGCGC -TGTTCTTTTTCGGTGCCGGGATGCTGTTTCCGCTGGCGACCAGCGGCGCGATGGAGCCGTTCCCCTTCCT -GGCGGGCACGGCTGGCGCGCTGGTCGGCGGTCTGCAAAACATTGGTTCCGGCGTGCTGGCGTCGCTCTCT -GCGATGTTGCCGCAAACCGGTCAGGGCAGCCTGGGGTTGTTGATGACCTTAATGGGATTGTTGATCGTGC -TGTGCTGGCTGCCGCTGGCGACGCGGATGTCGCATCAGGGGCAGCCCGTTTAAGCGCACGTCACCGCAGC -ATCGTCATCAGCTCCATGGGAGAACGATGCTGCTTTATCAGATCACGCATCACCCGCATATGCGGTGCGG -AGTAAGAATAAAACGCCTGATAGCCCGCACAAAGCACGCTGTCTGGCGTCTCCTGCCGAGCGTGCGGGCA -CAGGCGATGCCAGTCGCACGCCTGGCAGTCACAGCGCGGTTGCGGGTTTTCGCTGCCACACCATTTTTGT -AAGGTGGCGTCAAAAAGCTCAATCGAGATACGACTGATATCTGCCCGCACCCAACACTCGAACAGGGCAA -TTAAAAATTTCCCCCACAGCTCTGCTGTCACCGAAGCGGCCGTCAGATCGCCCCGGTCATCAAATTCAAG -ATAGGGAATGAGCTGTACGGAGCGGATGCCCCGCTGTTTGAAATTGTGATAAAAATCGGCAGGTTGCAGA -GCATCCTTGTACTCTACAACCAGTTTATGCCTGTCCTCTTCAGCATCAATGACCTGACTTCCTGTCATGC -GACTCTCTCAATAAATACGATAAGTTGATGTATATGCGTTACAGCAAACAGTATTGCGAGAGATAACACC -GCGAGGGAGATCAAAAATTTGTCACGGACTACGTGAAATTGGGAAAAATCGCTATTCGTGACATCCATTA -AATTGCGATTACGGGTGTAGTGCCAGAGGATCAGCGCCACGATGGCGAGAATGCCAATCGAAATCCAGAA -TAACATGCCCGCCTGGTGCCAGTTGTGTTTGATAGCCAACGCCATCAACGCGCCGTAGCCCAGCATGGTA -CGAAACCACGCCAGTGATGTGCGCTCCGGCTGCAGTCCTGGGTCGGCAATGCGTCTGGCTTTGCGGCTAT -CCGGCATACAACACCAGTCCCATAACGATCACCGCCACGACCATCAATATTAAGCTAATGATTAATAAGC -TGTTGGTGTAGGGCAGGTCCTCTTTCAGACGCATCGCTTTTTCATTGCGTAACCAGCGCAAGTAGCCATA -CATCGCTAACCCGCCGGAAAACAGACACAACAACAACGCCAGCAGTTCGCGAATGACGGGCGTGGCGAAA -TCTGGCGCAAGTTGATCAAGCCCAACCCCCGCCGCCAGAAATCCTAGTGCAGTACGGATCCACGCCAGAA -AAGTACGCTCATTAGCCAGCGAGAAGCGGTAATCAGGCGCTTCTCCGAGGCGGGAAATTTTCATTGTTGC -TCCTTTGCAATTTCACTAACGCTCTACCTTTAGCGGTTTTTTTAAGAATTTCGTCCGCCCGTTTCCTGAT -ATGCTTTTGCCATCCGCTACAAGGAGGTCAGATGGGTATCATAGCTCAAAATAAAATCAGTTCATTGGGC -ATGCTGTTCGGTGCCATCGCTTTAATGATGGGGATTATCCACTTTTCATTCGGCCCTTTCTCCGCACCAC -CGCCAACGTTTGAAAGCATCGTGGCGGACAAAACGGCTGAAATTAAAAGAGGTCTTCTCGCCGGAATAAA -AGGCGAAAAAATTACCACCGTGGAGAAAAAAGAGGACGTAGATGTCGATAAAATCCTCAATCAAAGCGGT -ATCGCACTGGCCATTGCTGCGCTACTTTGCGCATTTATTGGCGGTATGCGTAAGGAAAATCGCTGGGGCA -TTCGCGGCGCGCTGGTTTTTGGCGGCGGGACGCTGGCTTTCCATACCTTGCTTTTTGGTATCGGCATCGT -GTGCAGCATTTTGCTGATATTCCTTATCTTTTCCTTCCTGACCGGCGGTTCACTGGTTTAAGCAGCCTGA -ATAATGCCCGCCGGGTGATCATCAGCGGGCATTATCGTCAGAACTTCTGTTTTTTCTCCTCCACCTTCAC -CCCTTGTGTCGGTAGGCCGGTGTCATAGTCGCGTACAACTGGCGAATAGCCATCTTGTGGACGTGGACGA -AACGCCCCCATCCAGCGCGGCCGTGCATCTTTACGCCACGGACGCAGACTCCATTGGTAACTGCGGAACG -GATCGCGAATTTTGTCCATGTAATCCAATAAGGCGTCATGCATTTTGCTGCGAACGTCTGCAAAACGGAT -ATCATCGATCAGGTTATGCATTTCATTTGGGTCATTACGGCGATCGTAAAGTTCATCACTGGTGAAGAGG -TTGAGTACCAGTTTAAAGTCATCCGTCACCCAGCAACGCACCGGAATAAAACCGCCAAAGCTGTCATGCT -CAATCTCGTAGCGGTTAAATTCCACCATCACGCCGCGTGGCTCTTTCACGGCAAGGATATTTTCCCCCGG -CAGAATCTCTGGTTTTTCAATATCTGCCAGCGCCATCATTGTCGGCAGTAAATCGATATGACTGACTGGC -GTATCGACCTGTCGCCGCTCCCCTTGCGGCGAACGGATGATCAGCGGAATGCGGGTGATGTCGTCATACA -TCGCCGCCCCTTTACTGATCAGCTTATGTGCGCCCATCATTTCGCCGTGATCGGAGGTATAAATAACCCA -CGTATTTTCACGTTGCTCTGGCGTTAAGGCATTGATGACCCGTCCGATTTGGTCATCAACAAAGTCATTA -CAGGCAAAATAGAGCGGATGGTGATAAAGCCCGTCATCACCGACTGGCGATGGCATCGCCTGCGCCCATA -AGCGGTGATGTTCCGGTTTGTTAGCCAGGTCATCCTGTGCTTTCTCGCCCAGCTCGTAGTAAAAATCAGC -GTATTTCTCTAAATACTCCACCGGACAGGTGAACGGGTGATGCGGCTCATCATACGAAACCACCATCAGG -AAAGGCTCGTCTGCGCGCGCAGGCTGTTGCAGAAAATCCACCGCCCGATTGCTGATACGATGCGCCCAGG -TGAAGGTTTCGTCGATATGGTTCGCCTGTAAATCTTCGACGCTGTTTAGGCCATTGCGCCACAGGCTAAT -CTCTTTTTCCGTCAGTTCGCTAAGATAGTTCGCCCCATCGAACCAGTAATCAGCGTCCCACTCCGGCGGA -CACTCGCCAGTGCCGAAATAGTCATGACCGTCGAGATGCCATTTGCCGATGTAACAGGTGTGATAGCCGG -CATCCTTAAAGTAGCGCCCCATAGTGGAGATGTTTTTGCCTGGCGCGACGTTGTTGGTCCACGGGCCGGA -CTGGTTAGCGTAGATACCGGTAAATAGTCCGGCCCGTGCAGGCGTACAAACCGGTGAACAGGTGTAGGCG -GAATTAAAGCGAATACCTTCCGCCGCCAGACTATCAATATTTTGCGTATTCAGCGGTTTACCGCTATAGC -AACCGACCATATTGGTGGCCTGGGTATCGGTCATGACGAACAGAAAATTGGGGCGTTTCATAGGCTATCC -TTCCCGTCGGGAGTAAAGGTTACGGCTGGGTCGTGACGATGCCGCCAGCTGTCAAAAATCAGGTAGACAA -TCACTACGGCGGCAATGAAATAACTGATCATCGCTAACCAGCGCGTACCGTAGCCGCCGAATTCAGCCAG -CCCGGCATAGACGCCAATCATCGCGAACAGGATGCCAATTGACGCGATCTTGACGTTTTTCCACGGTTTC -ATGTCCACCGCAAACGCATCTTTGAAGGTGAACGGCGTGGCGCGCGGTTTGATAAAACCGATCACCAGCA -TCACGACCACGTTGATGCAGAACGTACAGGCCAGCACATAGAGGAAATGGAAGTCGAACTTCACCAGATA -GTTGATGGTGATGTAGCTGATTATGCCAATCCCCATCGCTACTTTTGCCGCCAGCGCCGGGATGCGCGGG -AAGAAAAAGCCCATAATGATGATGGTAACCAGCGGCACGTTGTAAATGCCGTTGAGCTGTTTCATCCAGC -TATACAGCCCCTGCGGCGCGTTGGCGATCCACGGCGCGACCAGCACCGAAACGATAGCGATAAAGAAACC -AAATTTGCGCCCGACGGTGACCAGCTGCTGCGGCTCGGCATTCTGGTTAATGATGCGACGGTAAATACCC -ATACTGAATAACGTACTGGCGCTATTCAGAAAGCCGTTGAAGGTACTGATCACCGCACCAAATAACACCG -CGCCGAAGAAACCCACCATTGGCACTGGCAGAACGTTATTGACCAGCGTCGGGTAGGCCATGTCGGCTTT -CGGTAAATCCTGATACAGATGAAACGCAATCAACCCTGGCAGCACCAGTACCAGCGGGTCGAGCATTTTC -AGCACCGCCGTTAACAGCGCCCCCTTTTGCCCTTCCGCCAGGCTTTTTGACGCCAGCGTGCGTTGCACGA -TGCCCTGATTTGTACACCAGTAAAAGGTGTTCACCAGAATCAAACCGGTAAATGCCGCGCCAATCGGCAA -GGGATCGGTCGGGCCACCGATTGAGTTTAATTTCTCGGCGTGAACGGTGGTGAGTTGCTCAATGCCCTGC -ATAAAGCTGCCCTTGCCCATCGCGATTAGGCCAAATACCGGCACCATCAACCCGCCGATAACCAGCCCAA -TACCGTTGATGGAGTCCGCCACTGCCATTGCGCGCAGTCCGCCGATCACCGCATACAAAATTCCCGCCAG -ACCAAGCAAAATTACCAGTAGCCAGATAGCCGCACCGTGAGAAATCTGTAGCGATTCCCCGACGTGAAAC -AGGCTGTTGAGCGCCAACGCGCCGGAGTAGAGAACAATCGGCAGAAAGCAGACGCCGGTGGCAATTAGGA -AGCAGAAGTCGATGATAATACGCGTCGTTTTATCATAACGTTCCTCCAGAAAATCGGGGATGGTGGCAAT -GCCGCGCTTCAGATAGCGCGGTAAAAAGATTAGCGCGAGGAAGATCAGCGTCACCGCTGAAGTCACTTCC -CAGCCCATCACCGACATGCCGCTTTTGTAGGCCTGCCCGGAAAGGCCGACCAGTTGTTCCGTGGAAAGGT -TGGTTAGCATTAACGAAGCGGCAATAACCGGCGCTTTTAGTGAACGTCCGGCAAGAAAATAGCCTTGTTG -CGATCCGGTATCTGTTTTGCGGACCTTCCACCAGGTGATCACCGCCACCAGCAGCGTAAAACCGACAAAA -CTCAAGATTTGTAACGAATTCATCTCATAGCCCTTATTTATGTTTATGTCCCGGACGCATGAATATAGGG -AGAGGTAAAATGCGTCGGGTCAGGCAGTCAGATTCTTAAAATACAAACGTCGTATCCCTGAACGGATTGT -TTTCTGTTAAGTTCAGGTTGTGAGCATAATTCGCCGGAGGGATATTAAAATGAATGGAAAATTGCAAAGT -TCAGATGTAAAAAACGAAACTCCGTACAATATTCCCTTATTGATTAACGAAAATGTGATCTCCAGCGGAA -TTTCTCTGATCTCGCTCTGGCATACCTACGCCGACGAGCATTACCGGGTGATCTGGCCGCGGGACAAGAA -GAAACCGCTTATCGCCAACTCATGGGTTGCGGTGTATACCGTACAAGGATGTGGGAAAATTCTTTTAAAG -AATGGCGAACAAATAACACTGCATGGCAACTGTATTATATTCTTAAAGCCAATGGATATTCACTCTTATC -ACTGTGAAGGTTTAGTCTGGGAACAGTACTGGATGGAATTTACCCCCACCAGTATGATGGATATTCCCGT -TGGTCAGCAAAGCGTTATTTATAATGGCGAAATTTATAATCAGGAACTCACCGAAGTTGCTGAGTTAATA -ACTTCACCAGAAGCAATAAAAAATAATCTGGCAGTCGCTTTTCTGACGAAAATTATTTATCAGTGGATTT -GTCTTATGTACGCAGATGGTAAAAAAGATCCACAACGGCGGCAAATTGAAAAATTAATTGCCACTTTACA -TGCCAGTCTGCAACAACGCTGGAGCGTAGCTGATATGGCTGCCACGATCCCCTGTAGCGAAGCCTGGTTG -CGTCGTCTGTTTTTACGCTATACCGGCAAGACGCCGAAAGAATATTACCTCGATGCGCGTCTGGATCTGG -CGCTATCGCTATTAAAGCAACAAGGAAACTCGGTTGGCGAAGTCGCTGATACGCTCAACTTCTTCGACTC -CTTTCATTTCAGCAAAGCCTTTAAACATAAATTTGGTTATGCGCCGTCAGCCGTGCTAAAGAATACGGAC -CAGCACCCAACGGATGCCAGTCCACACAATTAACGTAACTCTGGCCAGTACGCTTTGTTGGCCTCCAGCA -ACTCATCCAGAATAGCTTTGGCGACCGAGGCGCTCGGTACCGTTTTCGACAACGTAATCGCCTGCCACAG -GTGCTGATATGAACGCTGTTCCCAGGCGTCCACGACCAGTTTTTCCACCGCCACTTGCTGACTCATTAAC -CCTTTCTGAAACTGCGGGATATCGCCGACCACCAGTGGTTCAGGCCGTAGTAGCGCACGCGCATCTGTTT -GCGATCTTGCAGCCCAACAATTTGCGCCATCCGGCTTTCAATACCGATTGGCATGTCACAGATGTTGAGG -ATTTTCGCATTCGGGCGCAGACGACGCGTGGCTTCTGCGACAATGGCTGCCGGGTTGGAGTAGTTGAGCA -TCCAGGCATTTGGTGAATATTTTTCCATATAATCCACCAGTTCCAGGACGCCGCCAATGGAACGCATGCC -GTACGCTATTCCGCCGGGTCCGCAAGTTTCCTGACCAACAACGCCGTGGCGCAGCGGGATTTTTTCATCC -AGTTCGCGCATCGGGTATTTGCCGACGCGGATGTGCGCCATGACAAAATCAACGTCGCTGAATGCCACTT -CAGGATCGGTGGTGTAACTAAACGCAATGTCCGGCGCTTTTTCTTTAAGGATGACTTTACAGGCTTCGGC -AATCACTTCCTGCCGCGCACCATCGTTATCATAAAATTTCAGTGCACGAAGCGGGAAACGGTCCTGATTC -GCCAGGAGCATCAACACGATGCCTGGCGTAAAGGTGCTTCCACCGCCTGCGACAACCACTGAGAATTTGG -TCATTATACTGCCTCCGTAATGGCAACATTTTCTGCTGATTGATGAGAATTAATTAAGCTATCGAGCTGT -TCACGCAGCTGAGATACATGCAGACCAATGATCACCTGAATGGCATCGCCACTACGGAAGACGCCGTGCG -CTCCCAGCTTTTTAAAGACTTCGTCATCCAGCGTTTGTGACATGTCATGCAGTGCAATACGTAAACGCGT -CGCGCAATTGTTAATGCTGGAGATATTGCCGACCCCGCCCAGGGCTTGCAGGATACCGGCAGCCTGATCC -AGCTCTTTTTTTGGCTCTGCCGCGGTGGTTTGGCCTCGCGAGGCTTTGTATTCGGCTTTTGAGTAGAGTT -TCACTTCCGCATCTTCACGTCCCGGCGTGCACATGTTGAACTGCAGAATCAGTGTGCGGAAAACCACGAA -GTACAGCAGGGTAAAGCACAACCCAATGGCGATTTGGGTCAGCATCATATCCGCGTGGTTGCTGAACATC -GGGATCCAGTTTTGCGGTAAAACCTAGTCAATCAGACCTCCGCCCATGTTGCCCACCACACCAAAGAGAT -ACATTACGGTCGACATTGAGGCCGCCAGCACGGCGTGTACCGCAAACAGCAACGGTGAAATGAACAGGAA -GGTAAATTCCAGCGGTTCGGTAATTCCCACCAGCATGGCGGTTAAGGTTGCGGGAATCAGCAAGCCCGCC -ACTTTTACCCGATTTTCCGGTGCGGCAGTGAAGTACATCGCTAAAGAAATGCCCACGGCACCAAAGATTT -TTGAGTTACCGTGCAGGGCAAAACCGCCTTCCGGGAACAACGATTTCAGCGGCTCGGCGCTCAAACTGAA -CTCTTGCAGATGCTGCGCCCAGTACATCTGAATGCCGCCTTCAACAGCTGCCGGACCAAAGATAAACTGT -CCGTAGATGAAGTGGTGTAAACCGGTTGGGATCAGAATACGTTCGAGGAAGGTGTAAACCCAGACCCCAA -GTGCACCCGCCGAACGCAGGAACGCTTGCAGAGATTCAATCCCCATTTGTACTTTTGGCCAGCCGAGCAA -CGTCAGCCAGGCACAGGGGATCATCACCAGGAAGGCGATAATCACCACATAAGACGTCCCCTGGAAAATG -CCGAGAAAAACCGGCAGTTTTTTATCGAACAGACGGTTATGCAGCGCCGTCACAATGCCGGAAATGATAA -TTGCGCCGATAATGCTGGTATCGAGGGTTTTAATCCCGGCCATCATTGTCAGACCGCTACCTGCCACCGC -GTCCTGAGTGAAATCGACGCCGAAGTAGCTTCCCCAGGTCATTCCCATCGCGTTGATGAAATAGTTCCAG -GTCAGGAAACTCACCATCACCGCCAGACAAGCACGCCCCTGCGCTTGCTTAGCAAGGCCAATGGGTAAAC -CGACAGCAAAAATCAGCGGCATATTACGGAATACCGTCCAACCGCCCTCTTCAATAATGTGTACGATTTG -CGCGAATAAACTGTTCGGATCGGTCAGTGATTCCCCGACAAACATCGGGTTTTGCAGCAAGATGGCAAGA -CCCACCACAATCCCGGCGAAGGGAAACAGCAGCACTGGCGTGAACATCGCGCCGCCAAAGCGTTGAATTT -GACTGAGCATTTCCACATCCTCTTTTCTCAATTCTGTAAGTAGGAAGCCTGATTGGTTATGCGGCAGGCC -TGGAGCGAGGATAGGAAGATGCGATCGGCAGAACATGACGACCCAATGGGATTCGTGATCGCTTTCATGC -TTTTCGTTGGGCGGTAGAGATCTACGTTTTCGCGAAAAAGTAGACCTCTGTGAGCACAGGTACACAGCAT -CGAACACATCTTTAAAAAAAAGATGTTTTTTCAATCGATTAAGCAGAACTTGTGTGCGCATTACCCGGGC -TTGCAGGCAAAAAAGAGATCTAGAGATGATCTACAAAAGCATTGCGGAGCGGTTAAGAATTCGACTTAAC -TCCGCAGATTTCACGCTAAACAGCCTTCTTCCCGGTGAAAAAAAGCTGGCGGAAGAGTTTGCGGTATCGC -GGATGACCATCCGTAAAGCCATTGACCTGCTGGTAGCGTGGGGGCTGGTGGTCCGCCGCCACGGTAGTGG -CACTTACCTGGTGCGCAAAGATGTACTGCATCAAACCGCCAGTCTGACCGGGCTGGTGGAGGTGTTAAAA -CGGCAGGGAAAAACGGTCACCAGCCAGGTGCTGATTTTTGAAATCATGCCTGCGCCTCCGGCCATTGCCA -GCCAGTTACGGATTCAAATCAACGAGCAGATCTACTTCTCCCGTCGCGTTCGTTTTGTGGAAGGGAAACC -GCTGATGCTGGAAGACAGCTATATGCCGGTAAAACTGTTCCGTAATCTTTCGCTGCAACATCTGGAAGGG -TCGAAGTTTGAATATATTGAACAAGAGTGCGGGATTTTGATTGGCGGTAATTATGAAAGCCTGACGCCAG -TGCTCGCCGATAGACTGCTGGCGCGGCAAATGAAGGTAGCGGAACACACGCCACTGCTGCGGATCACCTC -GTTGTCATATAGCGAGAGCGGGGAGTTTTTGAATTATTCAGTGATGTTCAGAAATGCCAGCGAATACCAG -GTGGAGTACCATTTACGGCGACTCCACCCGGAAAAGAGTTAACCGATACTCCAGAAGAGCACCGCCAGTA -ATTGGGGGGTGATAATGCGCAGGAACATTACCAACGGATAGACAGTGGCGTAAGAGAGCGCCGCCGCACC -GCTGGTTGGATGAAGATTATTAGCAAACGCCAGCGCCGGAGGATCGGTCATGGAACCTGCCAGCATCCCG -CACATGGTCAGGTAATTCATTTTGGCTAACATCCGCGCCAGAATGCCAACAGTAATCAGCGGAACGGCGG -TGATCAGGGCACCATAACCAATCCAGCTTAGCCCTTCGCCATTGACCAGGGTATTCACAAAATCCCCACC -AGATTTCAGACCAACGACCGAGAGGAACAGCACGATCCCCAGCTCCCGCAGCGCGAGGTTGGCGCTTGGC -GGCATAAACCAGTACAGCTTGCCGATACTGCCGATACGCCCGAGGATCAACGCCATAATCAGCGGTCCGC -CCGCCAGCCCCAGTTTCAACGCGGCCGGGAATCCTGGCACAAAGACGGGAATAGAACCTAACAATACGCC -TAGCCCGATGCCAATAAACACTGGCAGCATCTGAACCTGTTGCAGTTTTTGCTGCGCATTCCCCAGCACA -TTGGCAACGGCATCAATTGCGGACGGACGCCCCACCAGATTGAGGATATCGCCGAACTGCAGGCTGATAT -CGCCACTGGCGACCAGTTCGACCCCGGCACGGTTCAGGCGCGAGATAACAACGTCATAGCGTTCTTTAAA -GTGCAGGTCGCGAATACGTTTTCCGAGCACGTTTTCATTGGTGACCACCACACGCTCGACGCGCAAATCA -GTGCCTTTCGTGGACAGCGAAGTATCGACCTCCTGACCAATCACCAGTTGCGCATTATGTAAATCCGCTG -GCTGACCCACCAGATGCAGCAAATCGCCCAGTTGGATAATGGTATCTGGCGAAGGAACTTTTAGGGTTTC -TTCGCGTTTCAGACGCGAGCAGATAATTTTGTCGCCGTTGAGAATCGGTACATCTTTAATGGCTAAATCA -TGCAGGTTAGGGTTCTCAACGCGAATATTGATAGTCTTGATCAGCGCGCCGCCATTGGTGCGTGAAGACT -CGTGCTGCTGAGCTTCTGTCTCGACATTGACGCGGAAAATAACCCGCAACATCCACATGGTGAACAAAAT -CCCGCAAATGCCGAATGGATACGCCATCGCGTAACTCATCCCCATCTGATCGACCATTTCCATTGGTGTA -CCCAGGTCGCGCAAAATCTGCTGCCCTGCCCCCAGCGCTGGCGTATTGGTAACCGCACCGGAGAAAATCC -CCAGCACTACCGGCAGTGGAATATCAAACAGTTTATGCAGGATGGCGGTAACCAGACCACCGATGATGAC -GATCAGAACAGCAAACAGGTTGAGGCGTAATCCGGAGACGCGCAATGAGGCAAAGAAGCCCGGCCCTACC -TGAATCCCGATAGTATAAACGAACAGGATCAGGCCAAATTCCTGAATAACATGCAGCATATCGCTACTTA -ATGTCATCCCCGCCTGAGAAACAAAATGGCCGACGATGATCCCACCAAACAGCACGCCGCCAATACCTAA -TCCTATGCCGCGAAATTTGACGTTGCCGATAAACAAACCGACGACTGCCACCAAAGCCAGAATACTGACC -GTTAATGCTATATCACTCATCGTCCATTTCTCTTGAGATAACATTTTAATTGCTACGGATTATGGCTGAA -TCGGTGAAGCAGATTTGCCTTATAGCGCACATTATCACGGGAAAGAACGTGCCGAAATATCTTAAACAGT -CGAAATTTAACGCATTGTTGAGTAAGTAAGACAAAAAAAGCCCCACCAGAATGGCGGGGCAAAGAGAATA -GCTAGTTAGCTATTTAACGCGGGACGTTCGCTGATAGCGATACGCTGCGCTGCGATGGGTTCAGGCTCAT -TACGAATTAAATCAATATGCAGTAAACCGTTTACGAAGGTTGCGCCAGAGACTTCCATATTTTCAGCCAG -CGTAAAGCTCAGGCTAAATGGCTGATTCATAAGCCCTTGATGCAGCCATTTTTTCTCTTCTTTTGGCTGC -TCCGGCGTGCCTTTTACGCTCAGGCGCGTACCTTCCAGTTGAATCTCTAAATCTTCCTGACGGAAACCTG -CCAGCGCAAGGGTAATGCGGTAGTGGTTATCGTCGCTTTTCTCAATGTTGTACGGCGGGAAGCTCTGGCT -TTCACCGGCGTTTTGCAGTGCGTTGGCCAGTTTGTCAAAACCGATCCATTGACGCATCAGTGGGGATAAA -TCGAAGTTACGCATAGTCATTTCTCCTTCTAAGAAGCGAGTAAGTACCTGCAAATCCGAAGATTCGCATA -TGCTCCCTGACGGCGAGCATGGAGATGTCAGGCCGCGCCAGGCGGCCTTAGGGAATTAGTTGATTTCGAT -ACGGCGCGGTTTTTTCGCTTCCGGAATCACGCGTTCGAGATCGATATACAGCAAACCATTTACCAGGTTA -GCACCACGAACATGAATGTTCTCAGCTAACTGGAATTTGCGTTCAAAGTTGCGTTCAGCGATGCCCTGGT -ACAGATAGGTGCGCTCTTTTTGTTCGTCGGCGTGAGCACCTTTCACCACCAGCAGATTATCCTGGGCGGT -AATTTCCAGTTCGCTCTCAGCAAAACCAGCCACAGCGATAGCAATGCGGTAATGGTTTTCGTCTACCAGT -TCAACGTTATACGGAGGGTAGCCGCCATTACTCTGGCTCTGGTTGTTTTCTAAGTGGTTAAACAAACGGT -CAAATCCAATAGCAGAACGGTAAAGCGGGGATAAATCAAAGTTACGCATAATCAATAGCTCCTGAAATCA -GCGAGAATGTAAGACCTTCCACAATGGACAGGTCAGGTAGCCAGAACACCCATCAGGCGCGTCCTCATCG -GCTACGATGTAAAAATGGGTCTGGAAATGAACTTTTCAAGCCTTATCAGCGGACTTTTTTTTGCAGTTTA -TGGTCTATTGCATAGACTGAGGGGGCAGCACGAAACGTTAAAGTGCGATAGCCGCCACAGTGCGACGTAA -TGATGATGTTATTTTCAGCAAGGGATCGCTATAACTCATCAGGCCAACACCCACGATCAACAGATGAATT -TATTATGATAAGAAATGTGTTGTTAGCGTTCATGATATGCAGCGGAATGACATTACTCGGAGGATGCTCC -AGCGTGATGTCCCATACCGGAGGGAAAGAAGGAACGTATCCCGGCACCCGCGCCAGCGCAACCATGATTG -GCGACGATGAAACCAACTGGGGCACTAAGTCGCTGGCGATTCTCGATATGCCGTTTACCGCTGTGATGGA -CACGCTTTTACTGCCGTGGGATGTGTTCCGCAAAGACAGCTCGGTGCGCTCGCGCGTTGAAAAAAGCGAA -GCCAACGCGCAAGCCACCAATGCGGTTATTCCACCGGCCAGAATGCCTGATAACTGATTTAGCGATCAGT -TTCGGTGATCCACAGCTGGCCGCCTTCCATCCACGCCAGCCACTGACCATCCGGCGAGAAGACCACGGCG -TCCGCAGAAGGTGAATTGGCGTGGTGTTCGGTTAAATACTCAACCTCGCCGCTTTGCGCATGGGCACAAG -CAATTCGATTATCCAGCACAAAGCCCAACCATTCTCCTGACGGATGCCAGTTAAATGCAGACTGAATATC -CGTTTTGTTATGGGTTAACTGGCGCGGCTCGCCGCCCTGTGGCGAGATAAGCCACAGTTGCACAATGCCG -TTATCATCTCGCATTAAAAACGCGATTTGTGTACCCTGCGGATTACAGCGCACCCAGTGGCGCGGGACGT -TGACTAACCCCGGATAAGCCCGATGGTGGGTAAAGGTTAAACGTCGCTGCACGACGCCACGCGGTGGCGC -GGGCAGGGTTGTTTCCGTTCCGCTTAACGGCGCATCACCTGCCGCTTTCCAGCCAGCTTCATCTTGCGGT -AACTCAACGATAAACAGCTCCGGCACTTTCTCGCCCTTTGGCGAAAGTGTGTCGCCAATAAATGCCAGCG -CGTGATTTCCTACCCATCCTTCTTCATAAGCACGATTGATTTCATCACTGCCAGGCTGTGGCGTGGGCGT -GGTTTTGCTCACCAGCACGCACCAGTGGCTACCGCTGTATTCACGCGGATGCTGCTTTTGTACGTTGACC -GGGCCAAACGGCGCAGCAACACCGACGTTTCGCAAATCCAGCGCCGGATCGAGTTCATGCATTACATGGT -CGTTATAGGTAAAGCTCACCCTTTCACCGTTCGGGCTAAAGACATGCACATGGCTGCCGCCGCGCAGCAC -TCCTGGCGTATACGGCGCGGTAATATCCATCGCATCAAGGTTACTCATCTTGCCGCCTTCAACAATCACT -CCGCGCCGATGATGGAAGTCGTAATGCCATGTTTCATCAGGATTTTCCGGGCCGTGGATGAAAACATATT -TCTCTGACTTCGGATGAACGGTCACCACGCCGACGTGTGCGCCCTGTGACGCGCGATAGATAACCTCGAC -CTCGCCGGTATGGATATTCACACGCTCAATGGTCTCGCCGGTAAACGACGCGCCAGAAGGACGCACGTCA -AATACCAGCCACTGGCTGTCGGGCGTCCAGGTATTGGTATTGGTGAGCAGGTGATTACGGGGAGCAAAGG -TTATCTGTTTCATGGCGCGGTCCTGATACAAAACGGGTCCCGCCATCATACTTCACAAGGACTTCACTTT -CAGACAATAGTCTTTTGCCATCGTGATGAATGTGAGTGAAAAGATGGAACATTTCGACGTGGCGATTATT -GGCCTCGGCCCGGCAGGATCGGCGTTGGCACGAAAGTTAGCAGGCAAAATGCAGGTGATCGCGCTGGATA -AAAAGCACCAGTGTGGTACTGAAGGTTTCAGCAAACCCTGCGGCGGTCTGCTGGCACCGGACGCGCAGCG -ATCTTTTATTCGCGATGGGCTGACGCTTCCTGTCGATGTGATCGCTAATCCGCAGATTTTCAGCGTCAAA -ACCGTCGACGTCGCCGCATCGCTAACGCGTAACTACCAGCGAAGCTATATCAATATTAATCGCCATGCTT -TCGACTTGTGGATGAAATCGCTGATCCCCGCCAGCGTTGAGGTTTATCACGACAGCCTGTGCCGAAAAAT -CTGGCGTGAGGATGATAAATGGCATGTCATTTTTCGTGCAGACGGCTGGGAGCAACATATTACCGCCCGC -TATCTGGTCGGTGCCGATGGCGCAAACTCGATGGTGCGGCGACATCTCTACCCGGATCATCAAATCCGTA -AATATGTCGCTATCCAGCAGTGGTTCGCGGAGAAACATCCGGTGCCGTTCTACTCCTGCATCTTTGATAA -TTCGATAACTAACTGTTATTCATGGAGTATCAGCAAAGACGGTTATTTTATCTTTGGCGGTGCCTATCCA -ATGAAAGACGGTCAGACGCGTTTCACGACGCTGAAAGAGAAAATGAGCGCCTTTCAGTTCCAGTTTGGTA -AGACGGTGAAAAGCGAAAAATGCACGGTGCTGTTTCCCTCGCGCTGGCAGGATTTTGTCTGCGGTAAGGA -CAACGCCTTTCTGATTGGTGAAGCGGCGGGATTTATCAGCGCCAGCTCGCTGGAGGGGATTAGCTATGCG -CTGGATAGCACAGACATTCTGCGTTCGGTGTTACTGAAGCAGCCAGAGAAGCTCAATACCGCTTACTGGC -GCGCCACCCGCAAACTGCGTTTAAAACTCTTCGGCAAGATAGTAAAAAGCCGATGCCTGACCGCACCGGC -TTTAAGAAAGTGGATTATGCGCAGTGGTGTGGCACATATTCCACAGTTGAAGGATTAGCCAACGCGCTTC -ACATCGCCCACCAGCAGGATATAAGAGAGCGCGCCAATCAACGCGACGGCGGAGATATAAACCAGTGCAG -GTGCGAAACCGTAACCCTGCGCCAGGTACCCCACCACCAGCGGAACGGTGATGCCGCCCAGACCACCGGC -GAAGTTAAACACGCCGCCGGTTAAACCAATCAGGCGCATCGGTGCCAGAGAAGAAACCAGCGACCAGGTA -ATCGAAGCAAAACCGTTACCGAAGAATGCCAGCGCCATCAGGCACATAATCATCATCGGATCGTTAGTGT -AGTTAGCGCCCATAATGCAGGTGGAGATCAGCAAGCCGCAGATAATCGGCGTTTTACGCGCAAAGCCCAG -TGAAAAGCCCTTACGTACCAGCAGATCCGCTACCCAGCCAGAGAGCAGGACGCCGACAAACGCCGCGAGG -AATGGCACCGTGGTCATAAAGCCTGCTTTCAGCGCCGTGATTCCTTTTTCCTGGGTTAAATAGTTCGGGA -ACCAGGTTAAGAAAAACCACAGTGTAGAAGCCACCGCAAATTGCCCAAGATAAACGCCGATCAGTTTACG -ATGGAACACCAGTTTCCAGTCTTTGGCTGTTAACGGCTGACGCGCCTCTTTCTTCACCGGCGCATCACCA -TCCACCAGACCGCCGCCATCACGAATGTAATCCAGTTCAGCTTTGCTGATACCTTTGGTCAGGCGCGGCG -GCTGATAAACCTTAAACCAAATCAGCGACCAGATAATGCCGATACCACCAGTGACAATGAACACCCAGTG -CCAGCTCAACATCTCCTGAATCCAGATCAGCAGCGGCGTCAGAAACGCCAGACCGACAAACTGACCAGAC -GTATAAAAACCAACGGCAGAAGCGCGTTCATGTTCCGGGAACCAGCTGGTCACCATCCGGTTATTGGTCG -GGAAAGCAGGCGCTTCGAAAATACCGGTTATCGCGCGCAGACCAATTAATGACATTAAGCCCGTGGCAAA -GCCCTGGAATAAAGTCGCCACTGACCAGCCAAATATCGCAATAAAATAAGTCACGCGAGAACCTACGCGA -TCTAAAAACCAACCGCCGGGGATCTGACATAGCGTATAAAGCCAGGCGAAGGCCGAAAATACATAGCCCA -TTTCCGCTTTGGTAATGCCGAACTCTTCCTGAATATGGGCGGAAGCCACGGCCAGGTTGGCGCGGTCGAC -ATAACAAATGACTACCGTAATAAAGATCATCACCAGCGTCAGATAACGCCGACGCCCCGGCTTTGCTGCA -TTAACGGGAATATCCATAGCGAGCTTTCTCCAGATTTTGGGCATAGCGAAGCCGCTCACCATGCCCTGTA -ATTTACAGAGGGTTATATTTTTGTATTGCTGTTTTAGTGCCCGATGAGGGGCTTACGTGGCAGGAATTAC -CACTCTGCTACGCTGTTATCTTCATGACGCCAGAGCGGATTACGCCAGTCCGGGGCATTTTTACTGAACT -CAATCACTTTAGCTTCGTCGATTTCCACGCCTAAGCCCGGTTTCGTTAACGGTTTAAAGAAGCCGCCGAC -CATGCTGAAGTCTTCTTTGTTTTTCACAAAGTCGAGTAACTCCGCGCCTTTGTTGTAATGAATTCCCATA -CTTTGTTCCTGAAGTACGGCGTTATAGGAAACAAAGTCGATATGCAGGCAAGCCGCCAGTGCAATCGGTC -CGAGCGGACAGTGCGGCGCAAGGGTCACGTCATAGGCTTCTGCCATTCCGGCGATTTTGTAGCATTCGGT -AATACCGCCCGCGTGGGAGAGATCCGGTTGCAGAATCGAAATACCACCTGCCTCCAGCACGCGTTTAAAA -TCGAAGCGTGAGAACATGCGTTCACCCGCCGCCAGTGGAATATGCGTTTGTGCCGCCAGTTTCGGGTAGT -ATTCGGCTTGTTCCGCCAGCACCGGCTCCTCAATAAACAGCGGGCGATACGGCTCCAGTTCTTTAATCAG -CACTTTCGCCATCGGCGCGCTGACGCGACCGTGGAAATCAAGACCAAACTCAATCTGATTGCCAAAAGCT -TCACGAATTTGTGCCACGGTGTTAACCGCCGCATCTACCGCGCGGGAGTTATCAATTAGCCCCAGTTCTT -CACAACCGTTCAGTTTGAAGGTATCGAAGCCGATTTCGCGTAGCGTTTTAATGCCGTCGATAACATCCGC -CGGACGATCGCCGCCAACCCAACTGTAGGCTTTAATTTTGTCGCGAACCAGGCCGCCCATCAGTTGCCAG -ACCGGCGCATTCAGCACTTTACCTTTGATATCCCATAACGCCTGGTCAATCCCGGCGATGGCGCTCATCA -GGATCGGACCGCCGCGATAGAATCCGGCGCGATACATCACTTGCCATAAGTCATTGATGCGCGATGGATC -CTGACCAATCAAATAGTCACCCAGCTCGTGAACTGCCGCTTCCACCGTACGGGCGCGGCCTTCGATCACG -GGCTCGCCCCAACCGACCACGCCTTCATCGGTTTCAATTTTCAGGAACATCCAGCGGGGAGGTAAACGAT -ACGTGGTAATTTTGGTGATTTTCATTGCACTGCCTCTCGATACGCCTTAACAAATGCTGCTGCCTGCTGC -GCGGTGCGCTCTACGGATTGCCCGGCGCGATAGAGATCGCTGCCTAAGCCCGCCCCTGCACAACCTGCGT -CTATCCACTGCGCCAGGTTTTCTGGCGTCACGCCGCCAACGGCAAAGACTGCGATGTCCGATGGCAATAC -CGCTTTTAACGCTTTGATGTATTGCGGACCAAAAGCCGATGACGGAAATATTTTCAGCGCCTGCGCGCCC -GCTTCGAGCGCGGTAAAGGCTTCGGTCGCCGTCGCGCAGCCGGGGCAGACGGTCATGCCGTAGCCCACCG -CACGGCGGATCACTTCACTATGGATATTGGGCGTAACGATGAGCTGACAGCCCATCCTGGCGAGCGCATC -GACCTGTTCAGGTTTCAGTACCGTACCTGCGCCAATCAACGCCTTGTCGCCGTACGCATCAACGATGGCG -GGAATGCTTTGCTCCCATTGTGGGGAATTCAGCGGGATTTCAACCGCGTCGAACCCGGCGTCAATCACCG -CGCCAACATGCGCCAGCGCCTCGTCGGGCGTAATACCGCGCAAAATGGCGATCAGCGGGAGTTTAGTTTG -CCACTGCATGAGCGATGCTCCTTATACCAGCCTGAAATGCCGTGTCGCCCGCCACCGCCGTCACGTCGCA -ACCCATCGCCTGAAAGGCTTGCTGGTAGCGCGCGGTCAGCGATGTTCCGGCGACAAGGGTGATGGCGTGT -TGATGGGCCACATAGTCGCGCATACTGGCGACCTCTGCGCCAATCAACAAACCAGAGAGAAATTCGCTGA -CCTGTTCGCGGGGAAGTGTTCCCAGCACATGCGAGGCGCGAACTTCAAAAAGCTGCGGCAATATGGCGGG -CGTATTAAGACCACGCTCAAGGCCAGCTGTGAAGGCATCGGCAGAGTTTTCCTGCGGCGGCAAACCTGCG -CCAATCAATGAGTGATTTAACAGTAAATGATGTAATTCACCGGTCATCACGGTGCGAAAATCGTTGATTT -GCTGGCTATCGGCCTGCACCCATTTGCAATGGGTTCCGGGCATGACATAAAGAGAGGAAGGAGCCAGAGC -TCGCGCGCCGATCAATTGTGTTTCTTCGCCGCGCATCACATTGTGGTTATCGTCATGAGAGACACATAAT -CCGGGAATAATCCAGATATTGTCGCCAACTGACGTTAATTGTTCGCCAATAGACGAAAAACAGGCAGGAA -CAGATAAATACGGTGCAACTTTCCAGCCGACGTTGCTGCCAACCATTCCTGCCATTACCACTGGCGTTTT -CTCTTCACGCCAGTCGGTCGTGACTTCTGCTAACACCGCAGCCGGAGATTTTCCGTTCAGGCGCGTGACG -CCTGCTTCTGATTGCCTGCTCTCCAGGCAGTGGTCGCCCTGATAAAGCCAGGCGCGCAGATTGGTCGATC -CCCAGTCAATTGCGATGTAGCGAGCTGTCATGTGATTTCCTTTAACCTTCGTGTCGAGCTGGCGATCATG -GTAAGCGCCGCCTGCTCTGCCGCATCGCCGTCCTGATGTCGTATCGCATCGAACAGCGCCTTATGTTCCT -GGAGCGTTTGCGGCATGTTGGCCTCATCGCCCATCCAGGTTCGTTCAAAAACCGCCCGCTGCAGCGAACT -GATCGCAATGCTAAGTTGCTGTAACACCGGGTTATGCACCGACTGCAGCACCGCCTCGTGGTAGCGAATA -TCCGCTTCGTTAAACGCTTCGCGGTCCTGATTGTTGGCAATCATCTCGTTCAGCGCCGATTCAATCTGCG -CCAGATCGCTGGAAGTCGCGCGCTCTGCTGCCCAACGGGCAATCGCCGGTTCCACCAGATTTCGCACTTC -GCTCATGGCACTGATAAGCCGTGGGTCGTAGTCATTTTCCAGCACCCATTGCAGTACGTCAGTGTCGAGG -TAATTCCACTGGTTACGCGGTGCCACAAACGCCCCGCGATAACGTTTCATTTCAATCAGCCGCTTCGCCA -TCAGCGAACGGAACACCTCACGGATGATGTTGCGCGAGGTTGCAAACTCCTCACAGAGTTCCGCCTCAGC -CGGAAGCGGCGAGCCTGGCACGTATTTGCCGTGAACGATCTGTTTACCCAGCGTAATGACAATGCGATCG -GTTTTATTGAGAGTCATGGAGAGTCCTTGTGCTCTGTATGTTCTTCTCTACTTTACCCCGATCGATGCAT -AACGCGGCAACTTTGTAGTACCAGCGTGATGACGTTCGCGTTTGCCGTGCGTGTAATGTAGTACAAACTT -ATATTGTTGTACTACAATTTAGATCACAAAAAGAACAATGCATAAAAAAATGACATGCGTCGGGCAGAAA -TCTGAAAAGGGATATCAGGCGCTAAACAGGAGGGAAAGAAGAGTATGCTTTCAACGGCTTAGCTACTCGT -TTAAAGGATTAATCATGAAGTTGAATTTTAAGGGATTTTTTAAGGCTGCCGGTTTATTCCCACTGGCGCT -GATGCTTTCAGGCTGTATCTCGTATGCTCTGGTTTCCCATACCGCAAAGGGTAGTTCAGGAAAGTATCAA -TCGCAGTCAGACACCATCACTGGGCTATCGCAGGCAAAAGATAGTAATGGAACAAAAGGCTATGTTTTTG -TAGGGGAATCGCTGGATTACCTTATCACTGATGGTGCCGATGACATCGTTAAGATGCTCAATGATCCAGC -ACTTAACCGGCACAATATTCAGGTTGCCGATGACGCAAGATTTGTTTTAAATGCGGGGAAAAAGAAATTT -ACCGGCACAATATCGCTTTACTACTACTGGAATAACGAAGAAGAAAAGGCACTGGCAACGCATTATGGTT -TTGCCTGTGGTGTTCAACACTGTACCAGGTCACTGGAAAACCTAAAAGGCACAATCCATGAGAAAAATAA -AAACATGGATTACTCAAAGGTGATGGCGTTCTACCATCCATTTAAAGTGCGATTTTATGAATACTATTCA -CCCAGAGGCATTCCGGATGGTGTTTCCGCAGCATTACTGCCAGTGACTGTTACGCTGGACATCATTACTG -CACCGCTGCAATTTCTGGTTGTATATGCAGTAAACCAATAATCAGTAAGCGGGCAAACGCGTTTATGCTG -TTTGCCCGCCCACAGATTAATTCAGCACATACTTCTCAATAGCAAACGCCACGCCATCTTCAAGGTTAGA -TTTGGTGACAAAGTTCGCCACTTCTTTCACTGAAGGAATAGCGTTATCCATCGCCACACCGACGCCTGCA -TATTCAATCATTGCGATATCGTTTTCCTGATCGCCAATCGCCATGATTTCTTCCGGTTTAATACCTAACA -CGTCGGCCAGTGATTTCACCCCCGTACCTTTGTTAACGCGTTTATCGAGGATTTCGAGGAAGTACGGCGC -ACTTTTCAGCACGGTATATTTCTCTTTCACTTCCTGCGGAATACGCGCGATAGCCTGGTCGAGGATGGCG -GGTTCATCAATCATCATCACTTTCAGGAACTGGGTATTGGGGTCCATTTTCTCCGCTTCGCAGAACACCA -GCGGAATGGTGGCAACGAAGGATTCATGCACCGTGTAGTAGCTGATATCACGGTTGGCGGTGTACAGCGT -GGTGCGGTCCAGGGCGTGGAAATGAGAACCGACTTCGCGAGAGAGTTTTTCCAGGAAACGATAGTCGTCA -TAGCTGAGAGCAGTTTGCGCCACGGTGCTACCATCAGCGGCCTTCTGTACCAGCGCGCCGTTATAAGTAA -TGCAGTAGTCGCCCGGCTGTTCCATATGCAGCTCTTTCAGGTAGTTGTGCACACCTGCATACGGGCGACC -CGTCGTTAGCACGACATTCACGCCACGGGCGCGAGCTGCGGCAATCGCATTTTTAACGGCGGGTGAAATG -GTGTGATCGGGCAGCAGAAGGGTGCCATCCATATCGATAGCAATGAGTTTAATAGCCATGAGTTCCCCAG -GTAGATTGGTTCCTGACCCATGCTAACGCGATTCCGCTCAAAAATCAGTACAACACCCGAGGGAAAAGGG -GGATGCAACGCGCGTTGCGTGCTCCCTTTTTGCTTAGCGGAAGAGTTTCCCTTTCAGCAGTTCCATGCCT -GCGGAAAGCAGATCGTTATTGGCTTGTGGTGACACTTCACCTTGCGGTGAGAGCGCATCAATAATCTTCG -GCAATTGTTCTGCCAGTAAACTGGAAGCTGTACTGGTATCCACGCCAAGTTTTTGCCCGAGATCGGACAC -CGCATTTGTGCCGAGCGCCGATTCCAGTTGCTCGCCACTAACCGATTGATTGCCCTGTTGATTACTCAGC -CAGGTTGAGAGAATGGCCCCTAAGCCGCCACTTTGCAGTTTTTCCAGCAGCACCTGAATGCCGCCCTGCT -CCTCAACCCAACTTAAAATAGCCTGATATTTCCCCGCATCGCCTTTCAGAAAGGCACCGACAACTTCATC -AAAAAGCCCCATGATAATCACCTGTAAAGCGTTACGTGTTGACCCAAAAAGTATAGATTTGCGGGATGAT -AATTGCGGATTGCAGAAATAAAAAGGGCGGAGATGATCTCCGCCCTTTTCTTATAGCTTCTTGCCGGATG -CGGCGTGAACGCCTTATCCGGCCTACAAAATCATGAAAATTCAATACATTGCAAGATTTTCGTAGGCCTG -ATAAGCGTAGCGCATCAGGCACGCTCGCATGGTTAGCGCCATTAAATATCGATATTCGCCGCTTTCAGGG -CGTTCTCTTCAATAAACGCACGGCGCGGTTCAACGGCGTCGCCCATCAGCGTGGTGAACAACTGGTCGGC -AGCAATCGCATCTTTAACGGTAACGCGCAGCATACGACGACTTTCCGGGTCCATAGTGGTTTCCCACAGC -TGTTCCGGGTTCATCTCGCCCAGACCTTTATAACGCTGGATGGAGAGGCCGCGACGGGACTCTTTCACCA -GCCAGTCCAGCGCCTGCTCGAAGCTGGCTACCGGCTGACGACGCTCGCCACGTTCGATAAACGCATCTTC -TTCCAGCAAGCCACGCAGTTTCTCACCCAGCGTGCAGATACGACGATATTCGCCACCGGTGATAAACTCG -TGATCCAGCGGATAGTCAGTATCCACACCGTGGGTACGCACGCGAACAATCGGCTCGAACAGGTTTTGCT -CAGCATTGGTGTGAACATCAAACTTCCACTGGCTGCCGTGCTGTTCTTTGTCGTTCAGTTCGCTGACCAG -CGCGTTCACCCAGCGGGTAACGGTCTGCTCATCAGAAAGGTCAGCTTCCGTCAACGTCGGCTGATAGATA -AGCTCTTTCAGCATTGCTTTCGGATAACGACGCTCCATACGATTGATCATTTTCTGCGTCGCGTTGTACT -CAGATACCAGTTTCTCTAACGCTTCGCCAGCCAATGCCGGTGCACTGGCGTTGGTGTGCAGCGTTGCGCC -GTCCAGCGCGATAGAGATCTGGTACTGATCCATCGCTTCGTCGTCTTTAATGTACTGTTCCTGCTTGCCT -TTCTTCACTTTGTACAGCGGCGGCTGAGCGATATAGACGTGACCGCGTTCAACGATTTCCGGCATCTGAC -GATAGAAGAAGGTCAACAGCAGCGTACGAATGTGCGAGCCGTCGACGTCCGCATCGGTCATGATGATGAT -GCTGTGATAACGCAGTTTGTCCGGGTTGTACTCGTCACGACCGATACCACAGCCAAGCGCGGTGATAAGC -GTCGCCACTTCCTGAGAAGAGAGCATCTTATCGAAGCGCGCTTTCTCGACGTTGAGGATTTTACCCTTCA -GCGGCAGAATCGCCTGGTTCTTGCGGTTACGCCCCTGCTTCGCAGAGCCGCCCGCGGAGTCCCCTTCCAC -CAGGTACAGTTCGGAAAGCGCCGGATCGCGTTCCTGGCAGTCTGCCAGTTTGCCCGGCAGGCCCGCTAAG -TCGAGCGCACCTTTACGGCGGGTCATTTCACGCGCGCGACGCGCCGCTTCACGGGCACGGGCAGCATCGA -TAATTTTGCCAACCACGATTTTCGCGTCGGTTGGGTTTTCCAGCAGGTATTCTGCCAGCAGTTCGTTCAT -CTGCTGTTCAACCGCCGATTTCACCTCAGAAGAAACCAGTTTGTCTTTGGTCTGGGAGGAGAATTTCGGG -TCCGGCACTTTCACGGAAACGACCGCAATCAGGCCTTCACGCGCATCGTCACCGGTGGCGCTGACTTTGG -CTTTTTTGCTGTAGCCTTCTTTGTCCATGTAGGCGTTCAGGGTACGGGTCATCGCCGCACGGAAGCCTGC -CAGGTGAGTACCGCCGTCACGCTGCGGAATGTTGTTGGTAAAGCAGTAGATGTTTTCCTGGAAGCCATCG -TTCCACTGCAACGCCACTTCGACGCCAATACCGTCTTTTTCAGTGGAGAAGTAGAAGATATTCGGGTGGA -TCGGCGTTTTGTTCTTGTTCAGATATTCAACGAACGCCTTGATGCCGCCTTCATAGTGGAAGTGGTCTTC -TTTGCCGTCGCGCTTGTCGCGCAGACGAATGGAAACGCCGGAGTTGAGGAACGACAACTCACGCAGACGT -TTCGCCAGAATTTCATATTCGAACTCGGTCACATTGGTGAAGGTTTCGAGGCTGGGCCAGAAACGCACCA -TGGTGCCGGTTTTTTCAGTCTCGCCGGTAACCGCCAGCGGGGCCTGCGGTACACCGTGTTCGTAGATCTG -ACGGTGAATTTTACCCTCGCGCTGGATAACCAGCTCCAGTTTTTGCGACAGGGCGTTTACTACCGAAACA -CCAACGCCGTGCAGACCGCCGGACACTTTATAGGAGTTATCGTCAAATTTACCGCCTGCGTGCAGAACGG -TCATGATCACTTCCGCCGCCGATACGCCCTCTTCCGGGTGAATACCGGTCGGAATGCCGCGCCCGTCATC -CTGTACAGAGACAGAGTTATCGGCGTGAATGGTGACGATAATTTCTTTACAGTGACCCGCGAGCGCTTCG -TCGATAGCGTTATCTACCACCTCGAATACCATGTGGTGCAGACCGGTGCCGTCATCCGTGTCGCCGATAT -ACATACCCGGGCGCTTACGCACCGCATCCAGCCCTTTCAGGACTTTGATACTGGAGGAGTCATAAGAATT -CGACATCAACGTTTCTCGCTCATTTATACTTGGGTTAATCCGTTATTTTACCCTTTTCCACGGTAAACAT -CTTCGAATTTTCGTCCGACATGTCTATAACGTGTTCAGCACTGATCGCGCTGACAAAGACCTGTGATTGC -GTCGCTTTTAAGCGGCTGGCAAGCAGCCCGCGACGCTCATCATCAAGCTCAGAGGCAAAATCATCTATCA -GGTAGAGACACCGCCGCCCGCTTTCACGGGTGAGGAACTCTCCTTGCGCCAGACGTAAGGCGCACATCAA -CAGCTTAAGCTGCCCACGCGATAAGGTATCTTCCACCGGCGCACCGTCGGCGCGAATGCGTAAGTCCGCT -TTGTGCGGGCCGTGCGCGGTGTAGGTTAGCTGGCGATCGCGTTCAAAATTACGTTCCAGCACCTCAGCAT -ATTCTGTCTCTTTCTCCCAGCCGCGCTGGAAAGAGAAAGTCAGAGAAAACTCAGGGAGAAATTGCTTACA -GGTATCAGCCATATCGGCCGCGATACCGGCGCTATACTCCGCGCGCCAGGTGCTGATTTGCTCCGCCAGC -GGGATCAGCTCTTTATCCCACGGGCGTAGCTGTTCGTAACGTGTCACCTGGCGCAGCGCCGCATTGCGCT -GCTTGAGCAATCGCTTGAGATTGCTCCAGGCGGTGAAAAATCCGGGTTCGTTGTGAAAGCATCCCCAGTC -GAGGAATGCTCTTCTGTATTTGGGGCCGCCGTTGAGTAAAGTAAACCCTTCTGGCGTTATCAACTGCATT -GGCATCAGGTGCGCCAGTTCCGCGACCTTATGCCCGTCTGTACCGTCGATGCGGACTTTGCTGTCGCCCT -GTTTGTCTTTGGTTAAGCCAATCGCTGTCTCGCGCTCTTCGCCCTGTAATCGCCCGTGGAGAACAAACGC -CTCCTGCTCATGGCGAATGACGCGACCAATCTGCAAACTGCGAAACGCCCGACCATGGCCGAGCGTATAG -ATGGCTTCCAGCACGCTGGTTTTGCCACTGCCGTTGGCACCTACCAGAAAGTTAAAGCCGGGAGATAAGG -CGAGATCCGCGGTTTCAATGTTGCGGAAATCGCGGATCAACAAGCGGGTGAGGGACATTACAGTCTCATT -GGCATGACAACATAAGCCGCGCTCTGGCTGGCCGCATCTTCAATCTGCACGCTGGAAACCGAATCGGTCA -GCATCATGCGGACGTTTTCGCATTTCAGCGCGTTCAGAACATCCAGCACATAACTGACGTTGAAGCCGAT -TTCCATCTCCGCACCGCTATAGGTAACGTCGAGGATCTCTTCCGCTTCTTCCTGTTCCGGGTTGTTGGCG -GTGATTTTCAGCTGGTTTTCGCTGACATAAAGACGTACGCCGCGGAATTTCTCGTTAGAGAGAATCGCCG -CGCGAGCAAACGCCTGCTTGAGCAGATCGCAGCCAGCTTCCAGATGTTTGTCCGGGTTCTTCGGCAGAAC -GCGGCGATAATCCGGGAAGCGACCATCCACCAGTTTGGAGGTGAAGATAAAGTCGCCAACGTGGGCGCGA -ATGTTGTTGCTGCCAATCTGTACGCGCAGCGGATTGTCGCCGCCGTCGAGCATACGCATCAGTTCAATCA -CGCCTTTACGCGGTACGATCACCGAATGGCTTGGCAAAGATTGACCAATTGGCATTGAACAGACCGCCAG -ACGGTGGCCGTCGGTTGCCACGGTGCGCAGTTCTTCACCTTCGGTTTCAAACAGCATACCATTTAAGTAA -TAGCGAACGTCCTGATGCGCCATAGAAAACTGGGTCGCTTCAATCAGACGCTTCATCGTTGCCTGCGGCA -GGGTAAATTCGACTTCACTCTGCCAGTCATCGAGGTTCGGGAAATCCGCCGCTGGCAGGGTAGACAGCGA -AAAACGGCTACGCCCGGAGCGTACCAGCATCCGTTCACCTTCCAGCTGCACGGCAATTTCCGCGCCTTCA -GGCAGACCACGGCAGATATCAAAGAATTTGCGCGCCGGAACGGTCGTCGCTCCTGGCTCGTGTGGCTGAA -CCAGCGCAACACGTGCCACCATTTCCATCTCGAGATCAGTACCGGTCAGCGACAACGTACCGTCAGCAAC -CTGTAACAGCAGATTACCGAGAATCGGTAGCGTAGGACGACCACCTAACGGACCGCTCACCTGTTGTAGC -GGTTTTAATAAATGCTCACGTTCTACGGTAAATTTCATAGGTTTACGATGACAATGTTCTGATTAAATTT -GAAAAATCTTCTTTGATATCGTGGCTCTCTTCACGCAACTGCTCGATCTTACGGCAGGCATGAAGCACCG -TCGTGTGGTCACGGCCACCAAACGCATCGCCAATCTCCGGCAGACTGTGGTTAGTCAGCTCTTTCGCCAG -CGCCATCGCCATCTGGCGCGGACGCGCCACCGAGCGGGATCGACGCTTGGAAAGGAGATCCGCGACTTTG -ATCTTGTAGTACTCCGCCACCGTCTTCTGAATATTGTCGATGGTGACCAGTTTTTCCTGCAATGCCAGCA -AGTCGCGCAGCGCCTCACGCACGAAGTCGATGGTGATCGCCCGTCCGGTAAAGTTGGCATTGGCAATGAC -GCGGTTCAGCGCCCCTTCCAGCTCACGTACGTTAGATCGTAGACGCTTGGCGATAAAGAACGCCACTTCG -CCCGGCAAACGAATGTCGTTTTCGTCGGCCTTTTTCATCAGGATCGCCACACGGGTTTCCAGCTCTGGCG -GTTCGATCGCCACAGTCAGTCCCCAACCGAAGCGGGATTTCAAACGATCCTCAACGCCGTTGATCTCTTT -CGGATAGCGATCCGAGGTGAGAATGATCTGTTGATTACCTTCCAGCAGGGCGTTGAAGGTGTGGAAAAAC -TCTTCCTGAGATCGTTCTTTATTAGCAAAAAACTGAATATCGTCGATCAGCAGTGCATCTACGGAACGGT -AGTAGCGTTTAAACTCTTCGATCGCGTTGTTTTGCAGGGCTTTAACCATGTCCTGAACAAAGCGCTCGGA -GTGCATATAAACCACTTTGGCATTCGGCTTGCGCGCCATAATGCCGTTACCCACCGCATGCAGCAGGTGA -GTTTTACCCAGACCCGTGCCGCCATAAAGGAACAACGGGTTATAGGCACCGCCAGGGTTATCCGCCACCT -GGCGAGCCGCCGCGCGCGCCAGTTGGTTAGATTTACCTTCAACGAAGTTATCAAACGTGTGTTTGACGTT -TACGTTAGAACGATAGGTCGGTTCTGCCGGGGCCGGGACGTTATCCCAACCTGAGCGCGTAGAAGGCGCA -GCACGTTGCGGCTGCGTTTGCGCCACCTGTGCAGGGGCCGCGACGTTGCTCGTCACTGCCGCTTGTGGCG -TTTGCGTCACCGGTTTGGTGCCGACTTCAAAACGCAGCTGTGGGGCATCCGCTCCGCAGAAACTGGTTAG -CAGTCCATTGATATTATTAAGGTACTTGTCCCGTACCCAATCGAGGACAAAACGGTTTGGCGCGTACAGG -GCCAGCGTGTTATCGCTCAGTTCCGCCTGCAATGGGCGTATCCACATACTGAATTCTGTGGCTGATAACT -CATCCTGCAATCGGGCAAGACACTGCTGCCAAAGCGAAAGTGACACGGCGGACTCCACTCGAACAAAAGT -CGATAATGACTAAGGCTGAAACATTCATGATTGTTGACGTACGTCGAAAAGACCCTGCTTGAGGGTGACG -CACGAACCGCTGTCTGCGGTTATATGCCCGATCAAGATCCTGCAAAACGATCGGGACCGCGGATCATAGC -CTAAACTGCGCAAGAGATCTTCTGTTTCTCACAGATTTTCCCGATTTATCCACAGGACTTTCCAGAACTC -GCTAAGTGTAAACGATCCTGCCGCGAGGCGGGCACGATTTACGCCGCATATTGGAAAATTTAATGACCAT -AGACAAAAATTGGCTTAATCGATCTAATAAAGATCCAGGACGATCCTTGCGCTTTACCCATCAGCCCGTA -TAATCCTCCACCCGGCGCGCCATGCTGGTTTCCACTGGTGTGAGGTCGTACATTTTCCCTGCGAAAAGGT -GCGGAAAAGCGCGGTAAATAAGGAAAGAGAATTGACTCCGGAGTGTACAATTATTACAATCCGGCCTCTT -TAATCACCCATGGCTTCGGTGTCCATCGTTTCATTTTTCGGCGGATATCCAATAAAGCCATTGAATTTAT -TCAAGTTTAGGTAGAAATCGCCATGAAACGCACTTTTCAACCGTCTGTACTGAAGCGCAACCGTTCTCAC -GGCTTCCGTGCTCGTATGGCTACTAAAAATGGTCGTCAGGTTCTGGCACGTCGTCGTGCTAAAGGCCGCG -CTCGTCTGACCGTTTCTAAGTAATAAAGCTAACCCCTGAGTGGTTAAGCTCGCATTTCCCAGGGAGTTAC -GCTTGTTAACTCCCAGTCAATTCACATTCGTCTTCCAGCAGCCACAACGGGCTGGCACGCCGCAAATTAC -CATTCTCGGCCGCCTGAATTCGCTGGGGCATCCCCGTATCGGTCTTACAGTCGCCAAGAAAAACGTTCGA -CGCGCCCATGAACGCAATCGGATTAAACGTCTGACGCGTGAAAGCTTCCGTCTGCGCCAACATGAACTCC -CGGCTATGGATTTCGTGGTGGTGGCGAAAAAAGGGGTTGCCGACCTCGATAACCGTGCTCTCTCGGAAGC -GTTGGAAAAATTATGGCGCCGCCACTGTCGCCTGGCTCGCGGGTCCTGATAGCCCTCATTCGGGTCTATC -AACGCCTGATTAGTCCGCTACTCGGGCCGCATTGTCGTTTCACTCCAACCTGTTCAAGCTACGGAATTGA -GGCATTGCGCAGGTTTGGAGTGATAAAAGGCAGTTGGTTGACGGTGAAACGCGTATTAAAATGCCACCCT -TTACACCCTGGTGGTGACGATCCCGTCCCGCCCGGACCATTTGATACCAGAGAACACTAACGATGGATTC -GCAACGCAATCTTTTAGTCATCGCTTTGCTGTTCGTGTCTTTCATGATCTGGCAAGCCTGGGAGCAGGAT -AAAAACCCGCAACCTCAGGCCCAACAGACCACGCAGACAACGACCACCGCAGCGGGTAGCGCCGCCGACC -AGGGCGTACCGGCCAGTGGCCAGGGGAAACTGATCTCGGTTAAGACCGACGTGCTTGATCTGACCATCAA -CACCCGTGGTGGTGATGTTGAGCAAGCTCTGCTGCCTGCTTACCCGAAAGAGCTGAACTCTACCCAGCCG -TTCCAGCTGTTGGAAACTTCACCGCAGTTTATTTATCAGGCACAGAGCGGTCTGACCGGTCGTGATGGCC -CGGATAACCCGGCTAACGGCCCGCGTCCGCTGTATAACGTTGAAAAAGACGCTTATGTGCTGGCTGAAGG -TCAAAACGAACTGCAGGTGCCGATGACGTATACCGACGCGGCAGGCAACACGTTTACCAAAACGTTTGTC -CTGAAACGTGGTGATTACGCTGTCAACGTCAACTACAACGTGCAGAACGCTGGCGAGAAACCGCTGGAAA -TCTCCTCGTTTGGTCAGTTGAAGCAATCCATCACTCTGCCACCGCATCTCGATACCGGAAGCAGCAACTT -CGCACTGCACACCTTCCGTGGCGCGGCGTACTCCACGCCTGACGAGAAGTATGAGAAATACAAGTTCGAT -ACCATTGCCGATAACGAAAACCTGAACATCTCTTCGAAAGGTGGTTGGGTGGCGATGCTGCAACAGTATT -TCGCGACGGCGTGGATCCCGCATAACGACGGTACCAACAACTTCTATACCGCTAATCTGGGTAACGGCAT -CGCCGCTATCGGCTATAAATCTCAGCCGGTACTGGTTCAGCCTGGTCAGACTGGCGCGATGAACAGCACC -CTGTGGGTTGGCCCGGAAATCCAGGACAAAATGGCAGCTGTTGCTCCGCACCTGGATCTGACCGTTGATT -ACGGTTGGTTGTGGTTCATCTCTCAGCCGCTGTTCAAACTGCTGAAATGGATCCATAGCTTTGTGGGTAA -CTGGGGCTTCTCCATTATCATCATCACCTTTATCGTTCGTGGCATCATGTACCCGCTGACCAAAGCGCAG -TACACCTCCATGGCGAAGATGCGTATGTTGCAGCCGAAGATTCAGGCAATGCGTGAGCGTCTGGGCGATG -ACAAACAGCGTATCAGCCAGGAAATGATGGCGCTGTACAAAGCTGAGAAGGTTAACCCGCTGGGCGGCTG -CTTCCCGCTGCTGATCCAGATGCCAATCTTCCTGGCGTTGTACTACATGCTGATGGGTTCCGTTGAACTG -CGTCAGGCACCGTTTGCACTGTGGATCCACGACCTGTCGGCACAGGACCCGTACTACATCCTGCCGATCC -TGATGGGCGTAACGATGTTCTTCATTCAGAAGATGTCGCCGACCACAGTGACCGACCCGATGCAGCAGAA -GATCATGACCTTTATGCCGGTCATCTTCACCGTGTTCTTCCTGTGGTTCCCGTCAGGTCTGGTGCTGTAC -TATATCGTCAGCAACCTGGTAACCATTATTCAGCAGCAGCTGATTTACCGTGGTCTGGAAAAACGTGGCC -TGCATAGCCGCGAGAAGAAAAAATCCTGATTCGGTGAGTTTTCGCTAAAATAAGGGCGGTCAGTTGACCG -CCTTTTTTCTTTTCGTAGGGCGGATAAGCACCGCGCATCCGCCACACAAAGCAACAGGAACATCATGAGC -GATAATGACACTATCGTAGCCCAGGCCACGCCTCCGGGACGTGGCGGCGTTGGCATCCTGCGCATCTCCG -GCTTCAAAGCCCGTGAAGTTGCCGAAACCGTGCTGGGTAAACTGCCTAAGCCGCGCTACGCCGATTATCT -TCCGTTTAAAGACGCCGACGGCAGCGTGCTCGATCAGGGGATTGCGCTATGGTTCCCTGGCCCGAACTCG -TTCACCGGCGAAGATGTGCTGGAACTGCAAGGTCATGGCGGTCCGGTGATCCTCGACCTGCTGTTAAAAC -GCATTCTGACCATTCCCGGCCTGCGGATTGCTCGCCCTGGTGAGTTTTCCGAACGCGCGTTTCTTAACGA -TAAACTTGACTTAGCCCAGGCCGAGGCGATTGCCGATCTTATCGACGCCAGTTCGGAACAGGCGGCCCGT -TCGGCACTTAACTCGCTGCAAGGCGCATTCTCCGCACGGGTTAATCATCTGGTAGAAGCCCTCACCCACT -TGCGCATTTACGTCGAAGCGGCAATTGATTTCCCCGATGAAGAGATCGATTTCCTCTCCGACGGAAAAAT -TGAAGCCCAGCTCAATGACGTTATTGCCGATCTTGATGCAGTGCGTGCTGAAGCACGTCAGGGTAGTTTG -TTGCGCGAAGGGATGAAAGTGGTGATTGCCGGACGTCCTAACGCCGGTAAATCGAGCCTGTTAAACGCGC -TGGCGGGGCGTGAAGCGGCAATCGTAACCGATATCGCCGGAACTACGCGTGACGTGCTGCGTGAGCATAT -CCACATTGACGGAATGCCGCTGCATATCATCGATACCGCCGGGCTACGTGAAGCCAGTGACGAAGTAGAA -CGTATTGGTATCGAGCGCGCGTGGCAGGAAATTGAACAGGCCGACCGCGTGCTGTTTATGGTCGATGGCA -CCACAACAGACGCCGTGGATCCGGCAGAGATCTGGCCGGAATTTATTGCCCGTCTGCCAGCGAAACTGCC -GATCACCGTGGTGCGCAATAAAGCCGATATCACCGGCGAAACGCTGGGAATGAGTGAAGTGAACGGTCAC -GCGTTAATTCGTCTCTCGGCAAGGACTGGTGAAGGCGTGGACGTGCTGCGTAACCATCTCAAACAGAGCA -TGGGCTTTGACACCAACATGGAAGGCGGCTTCCTGGCGCGTCGTCGCCACCTACAGGCGCTGGAACAGGC -AGCGGAACATCTACAACAGGGCAAAGCGCAACTGTTGGGAGCCTGGGCAGGTGAACTGCTGGCGGAAGAG -TTGCGTCTGGCACAGCAGAACTTAAGCGAAATCACCGGGGAATTTACTTCAGACGACCTGCTGGGGCGGA -TTTTCTCCAGCTTCTGTATTGGTAAGTAACCGCGCTTACGAAGCCGCATTCTGACTGTCAGATGCGGCTT -CGCTTCATTGTTACCACTCCTGTTATTCCTCAACCCTTTTTTTAAACATTAAAATTCTTACGTAATTTAT -AATCTTTAAAAAAAGCATTTAATATTGCTCCCCGAACGATTGTGATTCGATTCACATTTAAACAATTTCA -GAATAGACAAAAACTCTGAGTGTAATAATGTAGCCTCGTGTCTTGCGAGGATAAGTGCATTATGAATATC -TTACATATATGTGTGACCTCAAAATGGTTCAATATTGACAACAAAATTGTCGATCACCGCCCTTGATTTG -CCCTTCTGTAGCCATCACCAGAGCCAAACCGATTAGATTCAATGTGATCTATTTGTTTGCTATATCTTAA -TTTTGCCTTTTGCAAAGGTCATCTCTCGTTTATTTACTTGTTTTAGTAAATGATGGTGCTTGCATATATA -TCTGGCGAATTAATCGGTATAGCAGATGTAATATTCACAGGGATCACTGTAATTAAAATAAATGAAGGAT -TATGTAATGGAAAACTTTAAACATCTCCCTGAACCGTTCCGCATTCGTGTTATTGAGCCAGTAAAACGTA -CCACTCGCGCTTATCGTGAAGAGGCAATTATTAAATCCGGTATGAACCCGTTCCTGCTGGATAGCGAAGA -TGTTTTTATCGATTTACTGACCGACAGCGGCACCGGGGCGGTGACGCAGAGCATGCAGGCTGCGATGATG -CGCGGCGACGAAGCCTACAGCGGCAGTCGTAGCTACTATGCGTTAGCCGAGTCAGTGAAAAATATCTTTG -GTTATCAATACACCATTCCGACTCACCAGGGCCGTGGCGCAGAGCAAATCTATATTCCGGTACTGATTAA -AAAACGCGAGCAGGAAAAAGGCCTGGATCGCAGCAAAATGGTGGCGTTCTCTAACTATTTCTTTGATACC -ACGCAGGGCCATAGCCAGATCAACGGCTGTACCGTGCGTAACGTCTATATCAAAGAAGCCTTCGATACGG -GCGTGCGTTACGACTTTAAAGGCAACTTTGACCTTGAGGGATTAGAACGCGGTATTGAAGAAGTTGGTCC -GAATAACGTGCCGTATATCGTTGCAACCATCACCAGTAACTCTGCAGGTGGTCAGCCGGTTTCACTGGCA -AACTTAAAAGCGATGTACAGCATCGCGAAGAAATACGATATTCCGGTGGTAATGGACTCCGCGCGCTTTG -CTGAAAACGCCTATTTCATCAAGCAGCGTGAAGCAGAATACAAAGACTGGACCATCGAGCAGATCACCCG -CGAAACCTACAAATATGCCGATATGCTGGCGATGTCCGCCAAGAAAGATGCGATGGTGCCGATGGGCGGC -CTGCTGTGCATGAAAGACGACAGCTTCTTTGATGTGTACACCGAGTGCAGAACCCTTTGCGTGGTGCAGG -AAGGCTTCCCGACATATGGCGGCCTGGAAGGCGGCGCGATGGAGCGTCTGGCGGTAGGTCTGTATGACGG -CATGAATCTCGACTGGCTGGCTTATCGTATCGCGCAGGTACAGTATCTGGTCGATGGTCTGGAAGAGATT -GGCGTTGTCTGCCAGCAGGCGGGCGGTCACGCGGCATTCGTTGATGCCGGTAAACTGTTGCCGCATATCC -CGGCAGACCAGTTCCCGGCACAGGCGCTGGCCTGCGAGCTGTATAAAGTCGCCGGTATCCGTGCGGTAGA -AATTGGCTCTTTCCTGTTAGGCCGCGATCCGAAAACCGGTAAACAACTGCCATGCCCGGCTGAACTGCTG -CGTTTAACCATTCCGCGCGCAACATATACTCAAACACATATGGACTTCATTATTGAAGCCTTTAAACATG -TGAAAGAGAACGCGGCGAATATTAAAGGATTAACCTTTACGTACGAACCGAAAGTATTGCGTCACTTCAC -CGCAAAACTTAAAGAAGTTTAATTAATACTACAGAGTGGCTATAAGGATGTTAGCCACTCTCTTACCCTA -CATCCTCAATAACAAAAATAGCCTTCCTCTAAAGGTGGCATCATGACTGATCAAGCTGAAAAAAAGCACT -CTGCATTTTGGGGTGTTATGGTTATAGCAGGTACAGTAATTGGTGGAGGTATGTTTGCTTTACCTGTTGA -TCTTGCCGGTGCCTGGTTTTTCTGGGGTGCCTTTATCCTTATCATTGCCTGGTTTTCAATGCTTCATTCC -GGGTTATTGTTATTAGAAGCAAATTTAAATTATCCCGTCGGCTCCAGTTTTAACACCATCACCAAAGATT -TAATCGGTAACACCTGGAACATTATCAGCGGTATTACCGTTGCCTTCGTTCTCTATATCCTCACTTATGC -CTATATCTCTGCTAATGGTGCGATCATTAGTGAAACGATATCAATGAATTTGGGTTATCACGCTAATCCA -CGTATTGTCGGGATCTGCACAGCCATTTTCGTTGCCAGCGTATTGTGGTTAAGTTCGTTAGCCGCCAGTC -GTATTACCTCATTGTTCCTCGGGCTGAAGATTATCTCCTTTGTGATCGTGTTTGGTTCTTTTTTCTTCCA -GGTCGATTACTCCATTCTGCGCGACGCCACCAGCTCCACTGCGGGAACGTCTTACTTCCCGTATATCTTT -ATGGCTTTGCCGGTGTGTCTGGCGTCATTTGGTTTCCACGGCAATATTCCCAGCCTGATTATTTGCTATG -GAAAACGCAAAGATAAGTTAATCAAAAGCGTGGTATTTGGTTCGCTGCTGGCGCTGGTGATTTATCTCTT -CTGGCTCTATTGCACCATGGGGAATATTCCGCGAGAAAGCTTTAAGGCGATTATCTCCTCAGGCGGCAAC -GTTGATTCGCTGGTGAAATCGTTCCTCGGCACCAAACAGCACGGCATTATCGAGTTTTGCCTGCTGGTGT -TCTCTAACTTAGCTGTTGCCAGTTCGTTCTTTGGTGTCACGCTGGGGTTGTTCGATTATCTGGCGGACCT -GTTTAAGATTGATAACTCCCACGGCGGGCGTTTCAAAACCGTGCTGTTAACCTTCCTGCCACCTGCGTTG -TTGTATCTGATCTTCCCGAACGGCTTTATTTACGGGATCGGCGGTGCCGGGCTGTGCGCCACCATCTGGG -CGGTCATTATTCCCGCAGTGCTTGCAATCAAAGCTCGCAAGAAGTTTCCCAATCAGATGTTCACGGTCTG -GGGCGGCAATCTTATTCCGGCGATTGTCATTCTCTTTGGTATAACCGTGATTTTGTGCTGGTTCGGCAAC -GTCTTTAACGTGTTACCTAAATTTGGCTAAATCCTTCAAGAAGCCAGCCATTCGCTGGCTTCTTGCCTCT -CAGGAAATCACTTATGTCCAAATGGCAACTCGCCTGATCCTCCTTCACCACGTATGCTTTGCGTCACCTT -ACTATCAGGACGCTTTAGCCCATGTCCCGCTTTTTGATTTGTAGTTTTGCCCTGGTTTTACTTTATCCCG -CCGGGATTGATATGTACCTCGTTGGTTTACCGCGCATCGCCGCCGATCTCAATGCCAGCGAAGCGCAGTT -GCATATTGCGTTCTCCGTATATCTGGCGGGGATGGCAGCTGCGATGTTATTTGCCGGTAAAGTGGCCGAT -CGTTCAGGGAGAAAGCCGGTCGCCATACCCGGCGCGGCGCTATTTATTATTGCCTCGGTGTTCTGTTCAC -TGGCTGAAACCAGCACGTTATTTCTTGCAGGCCGATTTCTACAGGGGTTGGGCGCAGGCTGTTGTTACGT -AGTGGCGTTCGCTATTTTGCGCGACACGCTGGATGATCGACGTCGGGCTAAAGTGCTGTCATTACTCAAC -GGTATTACCTGCATCATTCCGGTGTTAGCGCCAGTGCTCGGACATCTGATTATGCTTAAATTCCCGTGGC -AGAGTCTGTTCTGGGCGATGGCAATGATGGGCATCGCGGTACTGATGTTGTCTTTGTTTATTTTAAAAGA -AACGCGCCCAGCGGCCCCCGCAGCTTCGGATAAACCACGAGAAAATAGCGAGTCGCTGCTTAACCGTTTT -TTCCTCAGCCGTGTTGTTATCACCACCCTCAGCGTTTCGGTGATCCTCACTTTCGTCAACACGTCACCGG -TATTGCTGATGGAAATCATGGGGTTTGAGCGCGGTGAATACGCCACCATTATGGCGCTGACCGCTGGCGT -CAGCATGACCGTTTCATTCTCCACGCCATTTGCGCTGGGAATTTTTAAGCCACGTACGTTGATGATCACC -TCGCAGGTGTTATTCCTGGCGGCGGGGATCACTCTTGCCGTTTCACCTTCCCATGCGGTTTCTCTGTTTG -GTATCACGCTGATTTGCGCCGGTTTCTCGGTAGGTTTTGGTGTGGCGATGAGTCAGGCGTTAGGGCCGTT -TTCATTACGCGCGGGCGTAGCCAGCTCGACCTTAGGTATTGCGCAGGTTTGCGGTTCGTCACTGTGGATT -TGGCTGGCAGCGGTGGTTGGTATCGGCGCATGGAATATGCTGATCGGGATTCTGATTGCCTGTAGCATAG -TGAGCCTGTTGCTGATTATGTTCGTCGCGCCTGGACGCCCCGTTGCCGCTCATGAAGAAATCCATCACCA -CGCTTGATCTCAATCTGCTGCTTTGTCTGCAACTGCTGATGCAGGAGCGCAGCGTAACCAAAGCGGCGAA -GCGGATAAACGTGACACCTTCGGCGGTGAGTAAGTCGCTGGCAAAGTTAAGAGCGTGGTTTGACGACCCG -CTCTTTGTGAACTCACCGCTGGGTCTGTCGCCCACACCGCTGATGGTCAGCATGGAGCAAAATCTGGCGG -AGTGGATGCAAATGAGCAACCTGCTGCTGGATAAACCGCACCACCAGACACCGCGCGGCCTGAAGTTTGA -GCTGGCGGCGGAATCACCGCTGATGATGATCATGCTTAATGCGCTGTCGAAACAGATCTACCAACGTTAC -CCGCAGGCGACCATCAAATTACGTAACTGGGATTACGATTCCTTAGATGCCATTACTCGTGGTGAAGTGG -ATATCGGTTTTTCCGGTCGCGAAAGCCATCCTCGCTCGCGGGAGCTGTTAAGCTCGCTACCGTTAGCCAT -TGATTATGAAGTGCTGTTTAGTGATGTGCCCTGCGTCTGGTTACGCAAAGATCATCCGGCACTGCATCAA -ACGTGGAATCTGGACACCTTCTTACGTTATCCGCATATCAGCATTTGCTGGGAACAGAGCGATACCTGGG -CGCTGGACAATGTGTTACAGGAGCTGGGACGCGAACGCACGATTGCTATGAGCCTGCCGGAATTCGAGCA -GTCACTGTTTATGGCAGCGCAACCCGACAATCTGCTACTGGCGACCGCGCCGCGCTACTGTCAGTACTAC -AATCAACTCCATCAACTGCCGTTGGTTGCTCTTCCTCTCCCGTTTGACGAAAGCCAGCAAAAAAAGCTGG -AAGTTCCTTTTACCCTGCTGTGGCATAAACGGAACAGCCATAATCCGAAGATCGTCTGGTTACGGGAAAC -CATTAAAAACCTTTACGCGTCGATGGCATAACCGAATCGTATGAAACGCGACCCAATTTCACAATAAAAT -GTAAAAAAGTTGTAATAAGCTTGTCTGAATCGAACTTTTAGCCGCTTTAGTCTGTCCATCATTCCAGTAA -ATGATTACTCTTGTATTCATAATGGACCATTAAGCATGGAGCGAAAAATGGCGACTCACTTTGCCCGAGG -GATTTTAACGGAAGGACATCTGATTTCTGTTCGTCTCCCCTCCCAGTGTCATCAAGAAGCCCGAAACATT -CCCCCTCATCGTCAAAGCCGTTTTCTGGCGTCCAGAGGTTTACTCGCAGAACTGATGTTCATGCTGTATG -GCATTGGCGAATTGCCGGAAATCGTCACCCTGCCGAAAGGTAAACCGGTTTTCAGTGATAAAAATTTGCC -TTCGTTTTCCATTTCCTATGCCGGGAATATGGTTGGCGTGGCGTTAACAACCGAAGGTGAATGTGGCCTC -GATATGGAACTACAGCGTGCGACGCGCGGGTTTCATAGCCCACACGCGCCCGATAACCACACCTTTTCCA -GCAATGAATCGCTATGGATCAGTAAACAAAACGATCCTAACGAAGCGCGGGCGCAGCTCATCACGCTGCG -CCGAAGCGTGCTAAAACTAACCGGTGATGTTTTGAATGACGATCCGCGCGATCTGCAGCTGCTGCCCATT -GCCGGACGCCTGAAATGTGCTCATGTAAATCATGTAGAAGCGTTATGCGACGCGGAAGACGTGCTGGTGT -GGTCCGTGGCGGTCACGCCCACGATTGAAAAGCTCAGTGTCTGGGAGTTAGATGGCAAACACGGCTGGAA -AAGCCTGCCGGATATTCACAGCCGCGCCAACAATCCTACCAGCCGGATGATGCGTTTTGCCCAACTCTCT -ACCGTGAAGGCTTTTTCGCCAAATTGATAGACAACCACAGGAGTCATCATGTCTGAAAAATTGCAGGTGG -TTACGTTACTGGGGAGCCTGCGCAAAGGCTCATTTAATGGCATGGTTGCACGTACCCTGCCGAAAATTGC -TCCGGCGAGCATGGAAGTCAATGCGTTACCATCCATTGCCGACATTCCCTTGTATGACGCTGACGTACAG -CAGGAAGAAGGTTTTCCAGCAACGGTTGAAGCTCTGGCGGAACAGATCCGTCAGGCTGACGGTGTGGTGA -TCGTCACGCCGGAATATAACTACTCGGTACCGGGTGGGCTGAAAAATGCCATCGACTGGCTTTCCCGCCT -GCCGGATCAACCGCTGGCCGGTAAACCGGTATTGATTCAGACCAGCTCAATGGGCGTGATTGGCGGCGCG -CGCTGTCAGTATCACCTGCGCCAGATTCTGGTTTTCCTCGATGCAATGGTGATGAACAAGCCGGAATTTA -TGGGCGGCGTGATTCAGAACAAAGTTGATCCGCAAACCGGAGAAGTGATTGATCAGGGTACGCTGGACCA -CCTGACCGGGCAATTGACCGCATTTGGTGAGTTTATTCAGCGAGTTAAGATCTAAATAAAAAACCCGCCA -GCAATCATGCATGGCGGGTTTTTAACGCGCTATCGATTTTAGTGAGCGTCGATAAAGACAATCTTCAGGA -TAAACAGCAGCGCAACGATGATTACGCACGGGCTTAGATCACGCAGACGTCCGGTACCGATTTTCATCAC -GCAGTAGGAGATAAAGCCCAGCGCGATACCTTCGGTAATCGAGAAGCTGAACGGCATCATCACGGCGGTA -ATAAACGCCGGAACAGATTCAGTAAGATCCTGCCAGTTCACGCGTGCCAGACTGGAAGTCATCAGCACGC -CAACGTAAATCAGCGCACCAGCTGCAGCGTAGCCTGGCACCATCCCCGCCAGCGGCGACAGAAAGATAAC -CAGCAGGAACAGCAGACCAACAACCACTGCCGTCAGACCGGTACGACCGCCAACCGATACGCCGGAAGAG -GACTCAATATAAGCCGTAACGGAAGAAGTACCGATAAACGAACCGGTCACGGAAGAGATACTGTCGACAT -ACAGCGCCTGCTTCATGCGCGGGAATTTCCCCTTCTCATCCGCCAGACCTGCTTTATCGGTCACGCCAAT -CAGCGTACCGGAGGAGTCAAACAAGTTGACCAACATGAAAGAGAAAATCACCCCTGCCAGCCCGAGGTTA -AACGACCCGGCTAAATCTACATGACCCACAACTGTCATTACGCTCGGCGGCGCAGAAACGATGCCATTGT -AGTGCACATCACCCAGCATCCAGCCCAGCAGCGTCGTCACCACGATAGAAACCAGCACCGCTGCGTGAAT -GTTGCGCGAGGCCAGAATAGCAATGATGAAGAAGCCGAGGATACCCAGAAGTACGCTGTGAGAAGTCAGA -TTACCGATGCTCACCAGCGTTTCCGGGTTAGCGACAATCACACCTGCGTTTTTCAGCCCCATCATGCCAA -TGAACAGACCGATACCGCTGGTAATACCCACACGCAGACTCACCGGAATGTTGGCTATCATCCAGTAGCG -AACGCGGAAAATCGTCAGTAACAGCAGACCTATCGCGCCCCAGAAGATTGCGCCCATCCCGACCTGCCAC -GGCAAGCCCATCGCCTGTACAACGACAAAAGCGAAGAACGCATTCAGGCCCATAGCGGGTGCCAGTGCAA -CTGGCAGGTTAGCAAACAGTCCCATCATAATACTGCCGAATGCAGCGATCAGACAGGTAGTGACGAAGAC -GGCGCTGGTATCCATGCCAGCAACGCCAAGAATTTGCGGGTTAACAAAAACGATGTAAACCATCGTCAGG -AAGGTGGTAAAACCGGCGATCACTTCGGTCCGTGCCGTCGTGCCATGTTCGCGCAGTTTAAACACGCGTT -CCAGCATCCCCTGACCAGAAGTCTGGGTGGTATGTTGATGACTCATTATCTATTTCCGAACAAGGAGGGA -AAATCCGTCGCTATCGTATACCAAAATGCGACAATAGGCGCGTTTGTGAGAGACTTTTTTATTGGATTTA -CTTATACGGCAACGATTGCGTTGCGCAAATCGGCTCTACGAAAACGTTAAACTGATTAAAAAGGAAAGGC -ATGTCCCGGATAGAAGCGGTATTTTTCGACTGCGACGGTACGCTGGTCGACAGTGAAGTCATTTGCTCTC -GCGCATATGTAACGATGTTTCAGGAATTTGGTATTACGCTCGATCCTGAAGAGGTATTCAAACGTTTCAA -AGGTGTAAAACTGTACGAAATTATCGATATTGTTTCCCTTGAACATGGTGTTACGTTAGCGAAAACAGAA -GCTGAACACGTTTACCGTGCAGAAGTCGCTCGGCTGTTCGATTCAGAACTGGAAGCCATCGAAGGGGCTG -GAGCGCTCCTGTCAGCGATCACTGCGCCAATGTGTGTGGTATCTAACGGCCCAAATAACAAAATGCAGCA -TTCTATGGGCAAGCTGAATATGTTGCACTACTTCCCGGATAAACTGTTCAGCGGCTACGATATTCAGCGC -TGGAAGCCAGACCCGGCGTTAATGTTCCATGCGGCAAAAGCGATGAATGTAAATGTAGAAAACTGCATTC -TGGTTGATGACTCAGTTGCCGGTGCACAATCTGGTATCGACGCAGGTATGGAAGTGTTCTACTTCTGCGC -CGACCCGCACAATAAGCCGATCGTTCACCCGAAAGTCACCACCTTTACCCATCTTTCGCAGTTACCTGAA -CTGTGGAAAGCGCGTGGTTGGGATATTACGGCATAGTTCTTCACACTCCCTTCACTTACCCCGCTTAAAT -TGGCGCTCAAAGGTAAGTAAAGGGAGTTTGATATGTCTGTTTCACGTCGGGTAATACATCACGGACTTTA -TTTTGCAGTTTTAGGACCGTTAATTGGTGTTCTGTTTCTTGTCCTCTACATATTCTTCGCAAAAGAACCG -CTGGTTCTTTGGGTGATAATACATCCAATTTTTCTCTTATTGTCGATAACTACGGGAGCTATTCCTGCGT -TGTTAACCGGTGTAATGGTTGCCTGTCTGCCGGAAAAGATCGGGTCACAGAAACGTTATCGTTGTCTGGC -TGGTGGCATAGGTGGCGTCGTTATCACCGAGATCTATTGTGCAGTTATTGTACATATTAAGGGCATGGCT -TCCTCGGAGTTGTTTGAAAACATTCTTTCTGGTGACAGTCTCGTTGTCCGCATCATTCCTGCATTGCTGG -CAGGTGTGGTGATGAGCAGAATCATTACCCGTCTACCCGGATTGGATATTTCATGTCCTGAAACAGACTC -TTTAAGTTAAGCGGGATACTTTATCTTTGGGCTACTCAAAAGCAGACAGGATGTTTCTATGACTCAAAAT -ATCAGGCCGTTACCCCAATTCAAATATCATCCCAAGCCACTGGAAACAGGCGCATTTGAACAGGATAAAA -CCGTAGAGTGCGATTGCTGTGAACAACAGACGTCAGTTTATTACTCGGGTCCCTTTTATTGCGTTGATGA -AGTTGAACATCTCTGTCCGTGGTGTATTGCGGACGGTTCTGCTGCTGAAAAGTTTGCAGGTAGTTTTCAG -GATGATGCCAGCATAGAAGGTGTTGAATTTGAGTATGATGAAGAGGACGAATTTGCCGGTATTAAGAACA -CATATCCTGATGAAATGCTGAAAGAGTTGGTTGAACGCACGCCAGGTTATCATGGATGGCAGCAGGAATT -CTGGCTCGCGCATTGTGGCGATTTCTGTGTTTTTATCGGCTATGTGGGCTGGAATGATATAAAAGATCGC -CTCGATGAATTTGCCAACCTTGAAGAAGATTGTGAGAATTTCGGTATTAGAAATTCTGATCTAGCTAAAT -GCCTGCAAAAGGGTGGTCATTGTCAGGGTTATCTCTTCCGCTGTCTCCACTGCGGCAAGCTGAGACTGTG -GGGTGATTTTTCGTAGTTATTTAAATAATGAGAACAGGCCGGAGCGTAATTCACACATCCGGCCTTATTT -CTTAAGCTTAACCGAGTGCTAATTCTGCGGCAGCGGCTTTATCAGCGATTACCATCAGCGAAGGATGCAG -CTGCAACACGGAAGCTGGAACATCTTCGGTAACCGGACCTTGCAGAACATTTTTCAGTGCCTGCGCTTTA -CCCGCGCCGCTGACAATTATCAGCAAGTTTTTCGCCGCCATGATGCTTTTCGGCCCCATCGTCACGTAGC -TGTCAGGCACTAACGAAAAGTCGCCGCCCAACTCGCCATGCGCCACAATATCAACCATCTCTCCCTGGAT -CGGGAACTCCACGGTTTGCTCATGGAAATGGGTCGTATTCGGCAAATTGCCACAAAAATGACCATCTGCA -CCTAATCCCAGCACCACCAAATCCAGTCCGCCTTCACGCGCCAGTTTCTGATCATGCTCGCGGTAGTTAT -CAATAGTGAGCTTCTGGATATTCTCTTCTTTGATCCCCGCAGGGGTGAAAAACAGATTACGCAGATTGGT -AATCGTTACGCCTTCTCCCTCTTTGCCGCGAAATGGAATTTCATCAAAATTATAGAAATAGCAGTTATCG -TACCAGGGCTTACCTTTAACCAGGGTGGTGAGGTATTCATACATGCCTTTGGGCGTGCTACCGGCGGTAA -TTGCCAGGTTAACACGACGCGTCTTCGACATATAACCAAGCAGATGGTGTGCCGCGACACGGCTCATTTC -CTGGTAATCTTCGGTAATGATTAATTTCATCTTAATGCCTTATTTTATTTAAATAATTTCTGTACAAAGG -CTGCATAGGCTGGTCGCCAGACATCCATTTCATGGTTCAGACCCGGATATTCCTGGTAATCAAAGTTAAT -TTTTTTCTGCTCAAGCTCAGTTTTCAGCCCGGCGATATCCTTGCCGGTTACGACATCTTTATCCCCCACA -ACCACAGTAAAATTACGTAGTTGCTGGTTGATAGCTGCCGGATCGTTCAGTCGGGCCGCGACACCTTCAT -CCGGTACGGTTGTCGTGGTAACACCACTGAATGTGGCCAGCCAGCCAAAGCTTTCCAGATGATTCATTCC -GGAAACCAGCGCCTGGTACCCGCCTTGTGAAAGCCCTGCCAGCGCGCGGCCATCGGCATCTTTACGGACA -TTAAAACGCTTGCTAATCAGCGGGATAATATCGTTCATCAGTTCGCGATCTGCCGCTTTAGCATTCAGCG -GATAAAAGACTTTACGTCTTTCCTGAGGCACGAAATCTTCGGGAATAATGCCCTTCGCATCGGTTTCTGT -ATCCGGGATCACCACCAGCATCGGTTTAATTTTCCCTTCAGCAAGCAGGTTATCCATGATTTGCGGGATA -CGCCCCTGATCGATAGCGGAACGTCCGGTATCACCAAAGCCGTGATAGAAATAGAGCACTGGCAAAGGCT -CGCCCATGCCGGTGTATCCTGGCGGGGTCCAGACATACATCTGACGTTCAGATTGCAATGCGTTGGAGTG -GTAAGTTATGGCGATCAAATCACCATGCGCAACAGAACGCGTATCCAGATAACTGCCTGGCACCAGAATC -ATACTGGAGTTAACCTGGCGCTGAGGATTAGTCATTGCGGTGCCTGTATCAATGCTGCGTACACCATCAA -CATTGAAAAAATACTCGTACAGGTTGCCTTTCAGGATAGGTGTGCGCCACGACCAGACTCCTGCTTCGTC -TTTGGTCATCGGGTGAATATTGTCCGGAACCGGAACACCCACCACTACAGAGACATTTTTTGCCCCAGGG -GCAAAGTAGCGAAAGGTCACGCTGTTATCGGCATTGACCTGAGTCACATACTGTTTCACCGGGATAGTGG -GTGCCGGGCTGGCTGGCATATCCGCTGCTATGGCCCACTGAGCAGAAATACCGCTGGCAATAGCCAGCGT -TAAAGCAGCAATTTTTATATTCATCGTAATATTCCTTTCATTAAGTTCCATTACCACCAGATTTCAGCCT -GGGCACCGACAGCAAACTGGTCGTCTTTATTGTCTTCAAAGGTGAAGCCATCCAGTTCGTTTTCCAGGGC -TTTGATATACGTGGCGTAGAAACGAATTTCCGGACGCGAGGTCAACATACTGGTATTGACTTTAAAGGTA -TGGAAGAGCGTGGTTTTATAACCAGACTCATTAAATTTATTACTATTCGCATCTTTGTTTTGCTGGGTGA -AATAGCCCAGTTCAACACCTGTCTGGTTATATTGGTCCCAAATATAGGCCGGGCGAACAACCGCACGAAT -AGATTCGAAATCAGAGTGGGCGCCTGTTTCGTAGCTATATATATCGTTACCGAAGGAGTAAACAATCGCG -TTAGCTACAATGAAATGATCGCCAATATAGGCTTCGCCCTGCGAAGTCAGACGTACCGCTGTTCCGCCGG -TGTGATCACCATAATAACGACCATTAAAGGTGGTAAATGGACTTGCGCCAGCATAACGGCCAAAGTTACT -GGCGATAGAGTTATTCGCGACCAGGAAGGAGAATTCGTTGAAGCCACCTTTATCAAATTTCTGCGTTAAA -GATGTGCCAAACATCCAGGTATCTTTCCAGTCATAATACCCGTTATTATCCTGATTATCTTTTTCCGATG -CGCTTTCGTTTGCCGTGACATAACGACCACTTACCATTAAGGTGGCTTTATCCCATAACGGGATATCTTT -ATAGCGTAAATCAATGGTATTGGTATTAATCTGCTGTTTGTTTTGCAGGCTGCGATCGTAATCATCGACA -TCTTCGCGAACCAGCGCGATATCAATTTTACCCGGACCGACTTTCCAGTTTTCCAGACCTACACCCGCTG -CGGCATCAGTACGCTGCGTTTTCCAGTCAAGCATCTGGATTTCAATTTTCGGCGCACCGTGTTTACCCAC -CCAGAAATCAGCCTCTGGCGCAAAGGGCAGGAAACCTTTGGTGGTAACGTACATATCGGAGAACTGCATA -TAGTTCTCGCCACCGGCGTTATCGCCAAACCAGCCGGTAGAGTACTGCTGACCAACGTTACCATCCATCA -TCACAACGGCATCAACCCGTTTGCCGTTTTCGTTGTAGACACGTTGTTTTAACTGCAAATCAAACCAGCC -GGAGTATTCGTTACCAAAGCGGCCCAGAGAACCAATCGCCCATGATTTAGGTGAACCATGAGAGGCGGTC -CCCCAACCAGAACGGTAATAGCCGTTGTAACTAAAGCCAATTTCATCTTTCACAAATTTACTGAAATCTT -TCAGAGTCATGGAAGAATAAATCGAGCCTGTCTCACTGGCATTTTTCTCTTCATTTTTGACCAGTACAGC -ATCAGGTTTTGCGGCACTACTGGTCGGGAACGGATTGGCGGCATACCCTTGATCATTCGTACTTACGCTA -CGATTCACCGTCGCTGGCGTATACTTTTTCTTCTCTTCATCTTTATACTTTTTGAGTTCGCTTTGCGTTT -CTCTTAACGCCTTTTCTAATAACTCAAGGCGTTGTTCCACCGTTAATGATTCAGCCAATGATTGTGCAGA -AAAGGCTAACGGTGCCATTAATAAGATGGCAGAGGTAATAAGATTTCGTCTAAACATAATATCCCTTTAT -GGTGCAAAGAAAGAATTAACGCATCGCATCCAGACTGTTCTGAATGCGACGATAATTAAGGTGCTTTAAT -GGTTATTTTTTTTAATGACAGCCCCCGCGTCTTGATCACCTCTGCATACCATCCGAAGCTTTTCTTGCGT -GTTCTTGTGAGGCTTCCTTCGCCATTATCATCACGATCCACATAAATAAAGCCGTAGCGCTTAGACATTT -GTGAATGAGATGCACTGACTAAATCAATTGGCCCCCAACTGGTGTACCCCATAATATCCACACCATCGGC -AATCGCTTCATTTACCTGTACCAGGTGATCGTTTAAATAGGCAATTCGATAATCGTCCTGTATCGAACCA -TCCGCTTCAACGCTGTCTTTTGCGCCTAATCCGTTCTCGACAATAAATAACGGTTTTTGATAACGATCCC -AAAGCGTATTTAACAGAACCCGTAATCCAACCGGATCAATTTGCCACCCCCACTCTGAACTTTTCAGATG -CGGATTGGGGATCATATTCAGTATGTTGCCCTGCGCATTTTTATTAATGCTTTCGTCGTGGGAAACACAA -CCAGTCATGTAATAACTAAAAGAGATGAAATCGACGGTATGTTTTAAATCTTCTGCGTCACTTTCAGTCA -TCTCAATGGTGATATTGTGGTCGCGGAAGAAACGCTGCATATAGCCGGGATACTGGCCACGCGCCTGAAC -ATCACCAAAGAACATCCAGCGCCGGTTCTCTTCCATGGCCTGCAACATATCCTGTGGCTGGCAGGTGAGG -GGGTAAACCAGCCCACCGAGAAGCATATTGCCGATTTTCGCTTCGGGGAGCAGGCTATGACAGGCTTTAA -CTGCCCGCGCACTGGCAACCAGTTGATGGTGGATAGCCTGATAAACTTCCGCCTCGCCACTCTCTTCTGC -CAGCCCCACGCCCGTGAATGGCGCGTGTAACGACATGTTGATTTCATTAAACGTCAGCCATAACGCCACT -TTATGTTGGTAGCGAGTAAAGACCGTGCGGGCGTAATGCTCGAAGTGATCGATGACCGCTCGATTAGCCC -AACCGCCGTAGTTTTTCACCAGCCCATATGGCATTTCGTAATGGGATAACGTTACCAGCGGCTTGATCCC -CGCCTGCGCCATTTCATCAAACAGCCGATCGTAAAACGCTAACCCCGCTTCATTCGGTTCGACTTCGTCG -CCCTGAGGGAAAATTCGCGCCCAGGCAATGGAAATACGCAGACAGGTGAAGCCCATCTCGGCAAATAACG -CGATATCTTCCGGGTAACGGTGATAAAAATCGATGGCGACATCTTTGATATTCTCTTTCCCCAGGATGCG -CGGTTCCATTTTTCCCATTACGCCATGAGGCTGTAAATCTGAGGTCGAGATCCCTTTGCCATCTTCCTGC -CAGGCACCTTCCACCTGATTGGCAGCTGTTGCGCCACCCCAAAGAAATGTTTCTGGAAATGCTTTCATAA -TTAACTCCTTTTATCGTTAGCGAATGATGGATAACAGCGGTTCACCTGCGCTTATCTGCGCCGTGCCGTG -GGGTAATACGTCCGTAAAATCATCGCTATTACTGATTAATACCGGCGTCGTCAGATCAAATCCGGCCTCG -CGAATAGCAGGGATATCAAAAGAAATCAGCCGATCGCCTGTATTGACCTTGTCACCCACGTTGACGTGAG -CGGAAAAGAATTTGCCGTCCAGTTTTACGGTGTCGATACCGACATGAATCAGGATCTCCACACCATCATC -TGACTCAATGCCAATGGCGTGTAATGTGGCGAACAACGAAGCAATTCGACCCGCAACCGGAGAACGCACT -TCACCAACCGAGGGCAGAATGGCAATACCTTTACCCAACAGGCCACTGGCAAACGTGGTATCAGCGACGT -GAATGAGCGGCACAATCTCTCCCGTCATCGGTGAACAGATACCGCCCTGCTCAGGTGGTGTAATAACCTC -TGGTGTTTTCTCTTGCGGGGCACCCTGCGCTGGCTGACGTTTAGCGGTGATGAAATGAAGCATCACCGTA -CCGACAAATGCGCAACCGATGGCAATGACACCGCCAATAACGCTGGCCCAGACGGTGAAATCAATTCCCG -TTGACGGGATGGTTTGCATGAAGGTGAAAATACTTGGCAAACCAAAGGAGTAGACTTTCGTTTGCGCGTA -GCCAATAATGGTGGCCCCCAAAGCCCCACTGATACAGGCGATAACAAAGGGGTACTTACGCGGCAGGTTG -ACGCCATATACCGCTGGTTCGGTGATACCAAACAGACTCGTCAACGCCGCTGATCCCGCCACCACTTTTT -TCTGCGCATCGCGTTCGCAGAGGAAGACGCCGAGCGCCGCCCCGACCTGCGCCATAATGGCGGGCATTAA -CAGCGGGATCATGGTGTCGTAGCCCAGCACGGTGAAGTTATTGATACACAGCGGCACCAGGCCCCAGTGC -AGTCCGAACATGACGAAGATTTGCCAGAAGCCGCCCATTACCGCGCCCGCAAATGCAGGAACCGCCTGAT -AAAGCCAGAGATAACCGGCGGCAATCAGTTCGCTTATCCAGGTTGATAGCGGCCCCACCAGCAGAAAGGT -GACGGGTGTGATAACCATCAGACATAGCAATGGTGTGAAGAAATTTTTGATTGCCGACGGTAACCACGCA -TTAAGTCGGCGTTCCAGAATGCTGCACAACCAGGCAGAAAAAATAATGGGAATAACCGATGACGAGTAAT -TCAACAATGTGACCGGAATACCCAGGAAATCCAGCCCCAGCGCATCCGCTTTTTGCCCGTTCTCGAAAGC -AGTCAGAATTAATGGATGCACTAACGCTCCACCAATCACCATGGCAGTAAATGGATTACCGCCGAAGCGT -TTCCCCGCGGTGTATCCCAGGATTATCGGGAAGAACCAAAACAAGGCATCACTGGCGCTGAATAAAATTA -AATAAGTACCACTTTGTTCGGTCGTCCACTGAAAAGTGAGCGCCAGAGCCAGCATACCTTTCAAGATCCC -GGTTGCCGCCATCAAACCGATCAGAGGCGTAAAAATACCTGAAATAACATAAACAAAGCGGTTTAGCAGA -TTACCTTTATCATCATTTTCCGGTGCCTGTTGCGCTTTTTCGTCAAGGCCTGCCACACTGTTAACCGCCA -GGAAGACATCGGCCACATGGTTACCTATGACCACCTGAAACTGGCCACCGCTTTCCACCACCATAATAAT -ACCGGGGGTCTTTTTCAGTACCTCTGCTTGCGCTTTGCTTTCATCCTTTAATTTAAAACGTAATCGCGTT -GCGCAATGCATCAGACTCACAATGTTATCTGCGCCCCCGACTCCTGCGACTATTTTTCTGGCTAACTCCG -TCATAACTTGCCCTCTACCGCTTTGCGGCAAAACTCCAAAAAAAAACCTGAAAAAAACGGCCTGACGTGA -ATCAAGCAATTTTTTTCAGGTTTTGCCCGCTTAGTGCGGTAACAATCCTTTACTCAGTAATAATATTTCA -GTGTTCTTTGCGCACGCGCTCTATATTTATGGCTAAAAACATAATCTCTGCGGGTGAAATTTTACGTTGA -TACTGCAAACCAATAAAAATGGCGATCCGTTCCGCACATTGCCATGCTTGCGGGTAATTTTGTTTTACTG -CTTGTTGTAATGATTCATCACTATCGTTAATTGAAGCATGTTCAAGAATACGCCAGGATAAAAACTTCAG -ATGTGTAACCAGTCGCTGATAACTCAAGCTTTCTTCCTGGTAATTAAGGCTGAACTGAAATTTTATTAAT -TGCAGCATTTCGCGCATTAACTGCGTGACACCTGCAACATCCTCCATATTTCCGCTCATTTGGGCACTGA -CCAGATGCATGGCAATAAAGCCCACTTCATCTTTCGGTAACTGCACGCCCAACCGTTTATCAATAATGGT -TAACGCTTCTTCCCCTAGCTGGAACTCTTTCGGGTAAAGCCGCTGGATATCCCACAGCAACGGGTTGGGC -AGCAACACGTTTTGCTGAAAGCGTTTAATCGCAAACTGGCAATGGTCAGTTAGCGAGATATAAATACTGT -CCTGTAATTTTCCCAAGCGCTCCTGCGCTAAAGAGATAATACGATCACAGGTTGCCATCACCTCAAGAGG -AATATGACTTAAGAGTTCGCTTAATCGCCCGTTCAGTTCATGACTGCTCAAGGCATACTCTTTTTCTATT -CCACTTGAGTTAATTCTTTCGCCAGCGCGTTTTTGAAAGCCAATTCCGCGCCCCATGACGACTTTTTCCC -GCTGTTGATCATCAATAACCACCACAACATTATTGTTGAGAATTTTGGTGATTTGCATGTTCATAGCAAG -GACCTTTTTTATAAACAAAAAAACCCGACTTCACCAGTATTCTCTGGTTATGTCAGGTTTTGCCTGCGAA -TGCAGTAACAATCCAGTCATTTATTAATGGTTTTTATAACGAACATCCAGGTTCGGAAATTAATTTAATT -GCGTGCAGAGAAAATAGCAATGCGCTATTGATAAAAATATGACCATGCTCGCAGTTATTAACTTTGTGTA -ATTTTAGGAATTTATAAAGTTATATATAACAAATCCCAATAATTAAGTTATTGGGATTTGTCTGGTGAAT -TATTTGTCGCTATCTTTCCCCGCCAGCAGTTTATCCAGCTCATCGCCACCGACGTGACGGAAATCCTGCC -CCTTCACGTAGTAGAAGATAAACTCACAAATATTCTGGCAGCGGTCGCCAATACGTTCGATAGAACGCGC -GCAGAACAGCGCAGTAAGTACGCTCGGAATGGTACGCGAATCTTCCATCATGTAGGTCATCAGTTGACGA -ACAATACCTTCGTATTCCTGATCGACTTTTTTATCTTCACGATAAATACGTACCGCTTCGTCAATGTCCA -TCCGCGCGAACGCGTCCAGCACGTCGTGCAGCATCTGGATGGTATGACGGCCCAGCGACTCCAGACTTAC -CAGCAACGGCTGATGCTGCTGGGAGAATTTCTCCAGCGCAGTACGGCAGATTTTGTCCGCCACGTCGCCA -ATACGCTCCAGCTCGGCAATGGTTTTACTGATCACCATAACCAGTCGCAGGTCGCTCGCCGTCGGCTGAC -GTTTGGCGATAATGCGCACGCAGGCTTCATCGATCGCCACTTCCATCATGTTGACGTTCTTGTCGCCTTC -GATGACGCGCTTCGCCAGATCGCTGTCCTGGTTATGCATCGCGGTGATTGCATCAGAAAGCTGCTGCTCC -ACCATGCCGCCCATGGTCATCACCTGCGTGCGGATACTTTCCAGTTCGGCGTTGAACTGGCCGGAAATAT -GTTTATTAAGATTGAGACTGTCCATAACGCACTCCTGAATCAACCGTAACGACCGGTGATGTAGTCTTCT -GTTTGTTTCTTCGCTGGCTTGGTGAACAGATCGTCCGTGTTGCTGAACTCAATCAATTCGCCCAGGTACA -TAAACGCCGTGTGGTCGGAACAACGCGCAGCCTGCTGCATGTTGTGGGTGACGATCACCACGGTGTAATC -CTGCTTCAGTTCGGTGATCAGCTCTTCAATACGCCCGGTAGAGATAGGGTCGAGCGCCGAACACGGTTCG -TCGAGCAGCAGCACTTCCGGGCGAATGGCGATACCACGCGCAATACACAGACGCTGTTGCTGACCACCAG -AGAGAGAGTAACCGCTCTGGTGCAATTTATCTTTGGTTTCGTTCCACAATGCGGCTTTGGTCAATGCCCA -CTGCACGCGCTCGTCCATGTCGGCACGGGAGAGCTTCTCAAACAGACGAACGCCAAAAGCGATGTTGTCG -TAGATGGACATCGGAAACGGCGTCGGTTTCTGGAACACCATGCCCACTTTCGCACGCAGCAGTGCGATAT -CCTGAGAGTTGGTCAGGATGTTGTCGCCATCAAGCAGAATTTCACCTTCCGCACGCTGCTCCGGGTACAG -TTCAAACATTTTGTTGAAGGTACGCAGCAGCGTCGATTTACCGCAGCCGGACGGCCCGATAAACGCCGTT -ACCTGGTTTTTAGCGATATCCAGGTTGATGTTTTTCAGGGCATGGAATTTGCCGTAGTAGAAGTTCAAAT -TACGAACCTGAATTTTACTCGGGGCAGTTTCAACCATACTCATTGCAATCTTTTCCTCATCGTGCCTGAT -GCACTTCGCTAATCAGGCTTACCGTAGGCCGGATCAGGCGTTCACGCCGCATCCGGCAAAGTGTTAACCG -TGTACAGAGTCAAAAAGGCGCTCGGTCGGTCCCCTCGCCCCTCTGGGGAGAGGGTTAGGGTGAGGGGAAA -ACCGTGTCAGCAATATCAACCGTGTTTATTCTTCGCAAAAACAACGCGCGCCAGAATGTTCAGCAGCAGT -ACGCACAGGGTAATGATCAATACCCCGGCCCAGGCCAATTGCTGCCATTCCGCAAACGGGCTCATCGCAA -ACTTAAAGATCGTCACCGGCAGGTTGGCGATCGGCTGCATCATGTCCGTGCTCCAGAACTGGTTGGAGAG -CGCGGTAAACAGCAGCGGCGCGGTTTCACCAGCAATACGGGCAATCGCCAGCAGGATACCGGTCATAATC -CCGGACACCGACGCTTTCAGCGTAATCGCAGAGATCATCTTCCACTTCGGTGTACCCAGCGCATAAGCCG -CTTCACGCAGGCTGTACGGCACCAGTTTCAGCATGTTCTCGGTGGTGCGGATAACAATCGGCACCTGCAA -CAACGCCAGGGCAATCACGCCCGCCCAGCCGGAGAAGTGCTCCATCTGCGCCACCACAATGGTGTAAACA -AACAGACCAACCACAATCGACGGCGCAGAGAGCAGAATGTCGTTAATGAAGCGAATCACTTCTGCCAGCC -AGGATTTACGACCATATTCCGCCAGATAAATCCCCGCCATAATGCCCAGCGGCGTACCGAATACCGTGGC -CCACAAAATTAACAGCCCGCTACCCGCCAGAGCGTTCGCCAGACCACCACCTTCCGTATTGGGCGGCGGC -GTCATTTCAGTGAACAGCGCCAGCGACATACCGTCGATACCGCGAGTGATGGTGGACATTAAAATCCAGA -TCAGCCAGAACAGGCCGAAGGCCATCGTCGCCATCGAGAGCGTCAGCGCAATACGGTTTTTGAGGCGGCG -ACGCGCCTGCATTTTGCGGCGAGATTCAGCCAGCGCCGCAGTGGTTTGCATTTCAACCATAGCCATTAGC -GTGCCCCCTCATTCTTAGCCAGGCGCATAATCATAAACTTCGATGCGGCGAGGACGATGAAGGTAATCAC -AAACAGGATCAGGCCCAGTTCCATCAGTGCGGCAACGTGCAGACCGGATTCCGCTTCCGCAAATTCGTTC -GCCAGCGCAGAGGTGATACTGTTGCCCGGCATATACAGCGAGGCGCTGTCGAGCTGGTAGGTGTTACCGA -TGATAAAGGTCACCGCCATGGTTTCACCGAGCGCGCGGCCCAGCCCCAGCATGATGCCGCCGATAACACC -ATTTTTGGTGAACGGAAGAACGATACGCCAGATAACTTCCCAGGTGGTGCAGCCAATACCGTAGGCCGAC -TCTTTCATCATCACCGGGGTTTGTTCGAACACATCACGCATTACCGCCGCAATGTACGGAATAATCATGA -TGGCGAGGATCACGCCTGCCGCGAGGATACCGATACCAAATGCGGGGCCAGAGAACAGCGCGCCAACAAT -CGGGATATTCGACATGATATTGCCGACCGGCTCCTGAAAGTAAACGGCGAACAGCGGCGCAAAGATAAAC -AGGCCCCACATGCCGTAAACGATACTTGGAATGGCTGCCAGCAGCTCAATGGCGATACCCAGCGGGCGTT -TCAGCCAGCCAGGCGCAAGCTCAGTCAGGAACAGGGCGATACCGAAACTCACCGGGACGGCGATCAGCAG -CGCGATAAACGAAGTCACCAACGTACCGTAGATCGGCACCAGCGCCCCGTAGATATCGTTCGGTGCATCC -CACTCTTTGGTCCATAGGAAAGCCAGACCAAATTTCTGAATGCTCGGCCAGGAGGAGATGATCAGAGAGA -CAATAATGCCACCCAACATCAATAGCACAATCAGCGCCGCCAGTTTTACCAGCACGCTGAAAATTATGTC -GCCCTTTTTACCCGGTGGGTTAAAAGCAGGCTTGGTTGCAGCCATAAGTTACTCTTCAGTTAAACGCGTT -TACAAAGTCATTTTGTAATGCCGGATGCGGCGTAAAACACCGTACCCGGCCTGGAGTTTTATTAGTACAG -CGGCTTACCGCTACTGTCTTTAATATTGGTCTTCCACGCAGCGCGAACCTGTTCAACTACACTATCCGGC -AGGCTGGCGTAATCCAGGTCGTTCGCCTGTTTAGCCCCGGTTTTGTACGCCCAGTCGAAGAATTTCAGCA -CTTCTGTGCCTTGTTCTGGTTTCTTCTGATCTTTGTGGATCAGAATGAACGTGGTAGAGGTAATAGGCCA -TGCATCTTCGCCTTTCTGGTTGGTCAGATCCTGAGCGAAGGTTTTGCTCCAGTCTGCACCTTTTGCTGCA -TTAGCGAAGTTTTCTTCGGTCGGACTAACCGGTTTACCATCAGCGGAGATCAGTTTGGTGTACGCCAGGT -TGTTCTGCTTCGCGTAAGCATATTCAACATAACCAATTGCACCCGGCAGACGCTGAACGAACGCGGCGAT -ACCGTCGTTACCTTTACCGCCCAGACCGATCGGCCATTTTACGGTAGAGCCAGTACCAACGTTGTTTTTC -CACTCTTCGTTCACTTTCGCCAGGTAGCTGGTGAAGACGAAGGAAGTCCCGGAGCCATCTGCGCGGCGTA -CTACAGCAATGTTTTGTGAAGGCAGTTTCAGACCCGGATTCAGTTTGGCGATGGCTTCATCATCCCACTT -CTTGATTTTGCCCAGGTAGATGTCGCCGAGGGTTTTACCATCCAGCACCAGTTCGCCAGACTTCAGCCCT -GGAATGTTAACCGCCAGCACCACGCCGCCAATCACGGTCGGGAACTGGAACAGACCTTCCTGAGCCAGTT -TTTCGTCAGACAGCGGCGCGTCAGAGGCACCAAAATCAACGGTATTAGCGATAATCTGTTTTACGCCACC -GGAAGAACCGATACCCTGGTAGTTAACTTTATTACCGGTTTCTTTCTGGTAAGTGTCAGCCCATTTGGCA -TACACCGGCGCAGGGAAGGTTGCACCTGCACCTGTCAGGCTTGCTTCTGCAAACACAGAGAAAGCACTCA -TCGATAAGGTCGCGGCGACAACAGTTGCGACGGTGGTACGCATAACTTTCATAATGTCTCCTGGGAGGAT -TCATAAAGCATTGTTTGTTGGCTACGAGAAGCAAAATAGGACAAACAGGTGACAGTTATATGTAAGGAAT -ATGACAGTTTTATGACAGAGAGATAAAGTCTTCAGTCTGATTTAAATAAGCGTTGATATTCAGTCAATTA -CAAACATTAATAACGAAGAGATGACAGAAAAATTTTCATTCTGTGACAGAGAAAAAGTAGCCGAAGATGA -CGGTTTGTCACATGGAGTTGGCAGGATGTTTGATTAAAAACATAACAGGAAGAAAAATGCCCCGCTTACG -CAGGGCATCCATTTATTACTCAACCGTAACCGATTTTGCCAGGTTACGCGGCTGGTCAACGTCGGTGCCT -TTGATCAGCGCGACATGGTAAGCCAGCAGCTGCAGCGGAACGGTGTAGAAGATCGGTGCAATCACCTCTT -CCACATGCGGCATCTCGATGATGTGCATGTTATCGCTACTTACAAAACCCGCATCCTGATCGGCGAAGAC -ATACAACTGACCGCCACGCGCGCGAACTTCTTCAATGTTGAATTTCAGTTTTTCCAGCAATTCGTTGTTC -GGTGCAACAACAATAACCGGCATATCGGCATCAATTAGCGCCAGCGGACCGTGTTTCAGTTCGCCAGCAG -CGTAGGCTTCAGCGTGAATGTAAGAGATCTCTTTCAACTTCAATGCGCCTTCCAGCGCGATTGGGTACTG -ATCGCCACGGCCCAGGAACAGCGCGTGATGTTTGTCAGAGAAATCTTCTGCCAGCGCTTCAATGCGTTTG -TCCTGAGACAGCATCTGCTCAATACGGCTCGGCAGCGCCTGCAGACCATGCACGATGTCATGTTCAATGG -AGGCATCCAGACCTTTCAGGCGAGACAGCTTCGCCACCAGCATCAACAGCACAGTTAACTGAGTGGTGAA -TGCTTTAGTGGATGCCACGCCGATTTCTGTACCCGCGTTGGTCATTAGCGCCAGATCGGATTCGCGCACC -AGAGAAGAACCCGGAACGTTACAGATTGCCAGTGAACCAAGGTAACCCAGCTCTTTCGACAGACGCAGGC -CAGCCAGGGTATCCGCGGTTTCGCCAGACTGTGACAAGGTGATCATCAGGCTGTTACGACGCACGGCAGA -TTTGCGATAGCGGAATTCAGAGGCGATTTCGACGTCGCACGGAATACCTGCTAGCGATTCAAACCAGTAG -CGGGAAACCATACCGGAGTTATAAGAAGTACCACAGGCGAGGATCTGAATATGCTCAACCTTCGACAGCA -GTTCGTCGGCGTTCGGTCCCAGCTCGCTTAAATCAACCTGACCGTGGCTGATGCGTCCGGTAAGGGTGTT -TTTGATCGCGTTCGGCTGTTCGTAGATCTCTTTCTGCATGTAGTGACGGTAAATGCCTTTATCGCCCGCG -TCATATTGCAGATTGGATTCGATATCCTGACGTTTTACTTCCGCGCCAGTTTTATCGAAGATGTTTACCG -AACGGCGAGTGATTTCCGCAATATCGCCCTCTTCAAGGAAGATAAAGCGACGGGTCACCGGCAACAGCGC -CAGCTGGTCAGAAGCGATAAAGTTTTCGCCCATCCCCAGGCCAATCACCAGCGGACTACCAGAACGTGCC -GCCAGCAGGGTATCCGGGTGACGGGAGTCCATGATCACTGTACCGTACGCACCACGCAGCTGCGGGATAG -CACGCAGAACGGCCTCACGCAGAGTCCCGCCTTGTTTCAGCTCCCAGTTCACCAGATGGGCAATCACTTC -GGTGTCGGTTTCAGAAACGAAGGTATAGCCACGCGCTTTTAGCTCTTCACGCAGCGGTTCATGGTTTTCG -ATGATGCCGTTATGCACCACCACAATGTGTTCAGAAACATGCGGATGCGCATTCACTTCTGAAGGTTCAC -CGTGGGTCGCCCAGCGAGTGTGAGCAATACCAGTGCCGCCATGCAGAGGATGTTCTTCCGCTGCCTGTGC -CAGCATCTGGACTTTACCGAGGCGACGCAGGCGGGTCATATGACCTTCTGCATCAACAACGGCCAGACCG -GCAGAGTCATATCCGCGGTATTCCAGACGACGTAAACCTTCAAGAAGGATTTCTGCTACATCACGTTGCG -CGATCGCGCCAACAATTCCACACATAGTTTTTGATTCCGATTTATATCGTTGTCGGTCAACCTGTATGCC -CGTTTTTTCGGGCGCCCCGAGCCTTGTAGAGAGTGGGGTTATTTTTATAGTTACTGCTTGTGGGAGGGAG -ATTATGTTATCTCCTCATCCCATGTGACCGGGTTAGCCGGCCAGAATCACTTTTTCTTTACCGGACGACG -CCAGCCTTCTTTCTGAGTCTGCGGCACACGGCTGATAGCTAATGCATTTTCGCCGACATTACGCGTCACA -GTTGTACCCGCAGCAATGGTCGCGCCTTTGCCTACTGTTACCGGGGCCACCAGCTGAGTGTCGGAACCAA -CAAACACATCGTCGCCGATAATGGTCTTAAATTTATTCGCACCATCGTAGTTGCAGGTAATGGTTCCCGC -GCCGATGTTAACGTTATCGCCAATTTCCGCATCGCCCAGGTAAGTCAGATGACCAGCTTTCGAGCCTTTA -CCCAGACGCGCTTTTTTCATCTCAACGAAGTTACCGACGTGAGCACCTTCCAGCAACTCAGCACCAGGAC -GCAAACGGGCAAACGGGCCAATGGTACAGGCCGCTGCCAGATTCGCATCTTCCACAACGGTATACGGACT -GATTTCGCAATCATCGCCAATCACGCTGTTTTTAATCACGCAACCGGTGCCAATTTTCACGCGATGACCG -AGAGTCACGTTGCCCTCGATGATAACGTTAGTATCAATTTCAACATCGCGCCCGTGAGTTAGCGTACCAC -GCAGATCAAAACGCGCTGGATCGCGCAGCATAACGCCTGCTAACAGCAGTTTTTCAGCCTGTTCGGACTG -ATAAACACGCTCCAGACGGGAGAGTTGCAGGCGGTTATTCACGCCTTCTACTTCGCTTAAACGTTGCGGA -TGAACGGCGACGATTTCACGCCCTTCCTGATACGCCAGCGCAATAATGTCGGTGATGTAGTATTCGCCCT -GAGCATTATTGTTGGTCAGCTTCGCCAGCCAGCGTTTCATATCTGCGCCGTTGGCAATCAGAATGCCGGT -GTTGATCTCCTGAATCTGACGCTGCTCGTCGGTGGCATCTTTGTGCTCAACAATGCCGGTAACTTTGCCG -TTTTCACGGGTGATACGTCCATAACCGGTCGGATCATCCAGTTTCACCGTCAGCAGACCAATGCCACCCT -GCGGTTTAGCATCACGCAGACGCTGGAGTGTTTCGACAGAGATCAGCGGCACGTCGCCGTAGAGCATTAA -AATGTCTTCATCATCGGCAAAGAAAGGTGCGGCCTGCTGCATTGCATGACCCGTACCCAGCTGCTCTGCC -TGAAGCACCCAGTTAAGGTTGTCGTCTTTCAGCGCCTGTTTTAGCAGATCGCCGCCGTGACCGTACACCA -GGTGAACGTGCGCTGCGCCTAATTCATTCGCAGCATCAATGACATGCTGAACCATCGCTTTCCCGGCAAG -GGTATGCAGCACTTTCGGAAGATCGGAATACATGCGCGTGCCTTTGCCTGCGGCAAGGATCACTACGCTC -ATAGCATTATTCAACATACGCGTCCTGACTGTAATTTGAGAACGAATTTAAACCGCTTCACCTTGAAAAA -ACTACATTTTTTTCATCGTGAAATGGACAGAGGATAAATTGTTCAATAACGGATTATCCCCGCTGACGAA -AGCGCCATTTTCGACCATCGTCACGCCTTTTGTCTGCAGAAAATTAAGGCAGTACCTTAATTTAAGCGTC -AGGTGGATGTTTTTGCTCTTATTTCGATCAATGAATAAACAGGAAAACAGGGGGGTTTTATATCAGCAGG -ATCTATGTGAACGCTATTCAGGACGGGTCACACGCGCAAAAAAAAGCCAGCCTGTTTCCAGACTGGCTTT -TGTGCTTTTCAAGCCGGTGTTACATCGCTTTTTTGGTCAACTCGATAACGCGCAGCTGCGCGATCGCTTT -GGCCAGTTCCGCAGACGCCTGAGCGTAATCTACGTCGCCGTGAGAGCTGCTAATGTGCTCTTCAGCCTTA -CGTTTCGCTTCCATGGCTCGCGCTTCGTCGAGATCCTGGCCGCGAATTGCGGTGTCGGCCAGAACGGTCA -CGTTGCCAGGCTGCACTTCAAGAATGCCGCCAGACAGATAGATAAACTCTTCGTGACCGTGCTGTTTCAC -GATGCGAATCATACCAGGCTTAATGGCGGTGAGCAGCGGTGCGTGGCCAGGGTAGATCCCCAGTTCACCT -TCGCTACCCGTTACCTGGATTTTCTCGACCAGACCAGAGAACATTTGTTGCTCTGCGCTGACGACGTCCA -GGTGGTAAGTCATTGCCATATCACCCTCCGATTAAGGCGTTAAAGTTTTTTGGCTTTTTCCACAGCTTCT -TCGATGGAACCGACCATGTAGAACGCCTGCTCCGGCAGGTGATCGTATTCGCCTTCCATGATGCCTTTAA -AGCCACGGATGGTGTCTTTCAGGGAGACGTATTTACCCGGAGAACCGGTGAATACTTCTGCCACGAAGAA -CGGCTGGGACAGGAAGCGCTGGATCTTACGAGCACGCGCTACCACCAGTTTGTCTTCTTCAGACAGTTCA -TCCATACCCAGGATGGCGATGATGTCTTTCAGTTCCTGATAACGTTGCAGGATGGACTGAACGCCACGCG -CGGTGTCGTAGTGTTCCTGACCAACCACCAGCGGGTCCAGCTGACGGCTGGTGGAGTCCAGCGGGTCAAC -GGCCGGGTAGATACCCAGAGACGCGATCTGACGGCTCAGTACCACGGTTGCGTCAAGGTGCGCAAAGGTG -GTTGCCGGAGACGGGTCAGTCAAGTCATCCGCAGGTACGTATACTGCCTGTACGGAGGTGATAGAACCAG -TTTTGGTGGAGGTGATACGTTCCTGCAGAACGCCCATCTCTTCCGCCAGGGTCGGCTGATAACCTACCGC -TGAAGGCATACGGCCCAGCAGTGCGGATACTTCCGTACCGGCCAGGGTGTAACGATAGATGTTGTCAACG -AACAGCAGAACGTCACGACCTTCGTCACGGAATTTCTCAGCCATGGTCAGACCGGTCAGAGCAACGCGCA -GACGGTTTCCCGGCGGCTCGTTCATCTGGCCATACACCAGGGATACTTTGTCGATAACGTTGGAGTCGGT -CATTTCGTGGTAGAAGTCGTTACCCTCACGAGTACGTTCACCTACGCCCGCAAACACAGAGTAACCGGAG -TGCTCGATCGCGATGTTACGAATGAGCTCCATCATGTTTACGGTTTTACCTACACCCGCACCACCGAACA -GACCAACTTTACCGCCCTTAGCGAACGGACACATCAGGTCGATAACTTTGATACCGGTTTCCAGCAGTTC -CTGAGAGTTTGACAGCTCTTCGTAGGAAGGTGCTGCGCGGTGAATCGCCCAACGCTCTTCTTCACCGATC -TCGCCTTTCATGTCGACCGGTTCACCCAGTACGTTCATGATACGGCCCAGAGTCGCTTTACCTACCGGGA -CTTCAATCGGGTGTTCGAGGTCTTTTACATCCAGACCGCGACGCAGACCGTCGGAGGAACCCATTGCGAT -GGTACGTACGATACCGCCGCCGAGCTGCTGCTGAACTTCCAGCACCAGACGCTCATTACCATTTTGCACC -TCAAGAGCATCGTACACGCGCGGTACGGCATCCTGAGGGAATTCGACGTCAACTACGGCGCCGATTACCT -GGACAATCTTTCCAGTAGCCATCTTAAATCCTCTACGAAATAACCTGTTTAAACCGCGGCGGCCCCCGAG -ACGATCTCGGTGAGTTCCTGAGTAATGCTGGCCTGACGAGCTTTGTTGTATACCAACTGCAGCTCTTTAA -TCAGGCTGCCGCCATTGTCGGTCGCGGCTTTCATCGCCACCATACGGGCGGCCTGCTCGCTGGCCAGGTT -TTCAACCACGCCCTGATAAACCTGAGATTCGACATAACGACGCAGCAGGGTATCCAGCAACGCCTTCGGA -TCGGGTTCGTACAGGTAATCCCAGGATTTATGTTTCAGATCATCATCATCTGATGCCGGTAACGGCAGCA -GCTGGCTGATGGTCGGAACCTGAGACATGGTGTTAATAAATTTGTTGCTGACAATGTAAAGCTTGTCCAG -ACGGCCTTCGTCGTAGGCCTGCAACATCACTTTTACCGGACCGATCAGTTCGGACAGGGAAGGGTTATCC -CCCATGCCGGTGACCTGGGCAACAACATTGCCGCCCACGGAGTTGAAGAACGACACGCCTTTCGAGCCGA -TCATTGCGAGGTCGCATTGAACGCCTTTGTCGGTCCAGGTCTTCATTTCCGCCAGCAGTTTTTTGAACAG -GTTAATGTTCAAACCACCGCACAAACCACGGTCGGTCGACACCACCAGGTAGCCCACGCGTTTAACGTCG -CGGTCTTCCAGGTAAGGGTGCTTATATTCCAGATTACCGTGTGCAAGGTGACCAATCACTTTGCGCATGG -TTTCTGCATAAGGACGGCTGGCCGCCATGCGATCCTGCGATTTACGCATTTTGGAAGCGGCGACCATCTC -CATCGCTTTAGTGATCTTTTGCGTGTTCTGGACGCTTGCGATCTTACTACGTATCTCTTTTGCGCCGGCC -ATGAGCTTCTCCTCAATGCCTTGCGGCCTGCCCTAAGGCAAGCCGCCAGACGTTACCAGGATTGGGTTGC -TTTGAAGGAATCGAGGATGCCTTTCAGCTTGCCTTCGATTTCGTCGTTGTAGCCACCGGTCTGGTTGATC -TCTTGCATCAACGGAGCGTGATCACGGTCGACGTAAGCCAGCAGAGCGGCTTCGAAGCTGCCAATTTTCG -ACAGTTCAACATCCGCCAGGTAACCACGTTCTGCTGCGAACAGAACCAGAGACTGCTGCGCAACGGACAT -CGGCGCATACTGTTTCTGTTTCAGCAGTTCGGTCACTTTCTGACCGTGGTCAAGCTGCTTACGTGTTGCA -TCGTCAAGGTCGGATGCAAACTGAGAGAACGCTGCCAGTTCACGATACTGTGCCAGAGCGGTACGGATAC -CACCGGACAGTTTTTTCATGATCTTGGTCTGTGCTGCACCACCAACACGGGATACGGAAATACCCGGGTT -AACCGCAGGACGAATACCGGCGTTGAACAGGTTGGTTTCCAGGAAGATCTGACCATCGGTAATGGAGATT -ACGTTGGTCGGAACGAACGCAGAAACGTCACCCGCCTGAGTTTCGATAATCGGCAGTGCGGTCAGAGAAC -CGGTTTTCCCTTTCACTTCACCTTTGGTGAAGGCTTCAACGTATTCGGCGTTAACACGTGCAGCACGCTC -CAGCAGACGAGAGTGGAGGTAGAAAACGTCGCCCGGGAATGCTTCACGTCCTGGCGGACGACGGAGCAGC -AGGGAGATCTGACGGTAAGCAACAGCCTGTTTAGACAGGTCATCGTAAATGATCAGCGCATCTTCACCGC -GGTCACGGAAGTATTCGCCCATTGCGCAACCGGCATACGGTGCCAGGTATTGCAGTGCAGCGGATTCAGA -CGCGGTTGCTACCACAACGATGGTGTTAGCCAGTGCGCCGTGCTCTTCCAGTTTACGTACCACGTTAGAA -ATGGTGGACGCTTTCTGGCCGATAGCGACATAGATACATTTGATACCGGAATCGCGCTGGTTGATGATGG -CATCGATAGCCAGTGCGGTTTTACCTGTCTGACGGTCACCGATGATCAATTCACGCTGACCACGACCGAT -TGGGATCATGGAGTCAACGGCTTTATAACCGGTCTGTACCGGCTGATCTACGGACTGACGTTCGATAACG -CCCGGAGCGATTGCTTCTACAGCAGAGAAGCCGTCGTGATCCAGCGGACCTTTACCGTCGATTGGTGCAC -CCAGAGTGTTAACCACACGGCCCAGCAGGCCACGGCCAACCGGAACTTCCAGGATACGGCCAGTACACTT -AACTTTCATGCCTTCGGCAAGGTCAGCGTACGGACCCATAACAACCGCACCTACAGAGTCGCGCTCGAGG -TTCAGTGCGATAGCGTAACGGTTACCCGGCAGGGAGATCATTTCACCCTGCATACAATCGGCCAGGCCGT -GAATGCGGATAACACCGTCACTTACAGAAACAATAGTACCTTCGTTGTGAGCTTCACTCACAACATTGAA -CTGAGCAATGCGCTGCTTGATCAGTTCGCTGATTTCGGTGGAATTCAGTTGCATGCTCCAGTCCCCTTAA -GACTGCAAGACGTCTGCAAGGCGCTCAAGACGACCGCGTACGCTGCCATCAATGACCATATCACCCGCTC -GGATGATAACGCCTGCCATTACAGACTTATCGATTTTGCAATTCAGCTTAACTTTGCGTGACAGACGTTT -TTCCATCGCAGCAGAAATTTTCGCGAGCTGTTGTTCACTCAGTGCGGCAGCGGAAATGACGTCTACCTCA -GCGGTAGCCTCACTCACGGCACGCAGGTGAATAAACTGCTCCAGAACATCCGGGAGCGCGTTAAGACGAC -CATTTTCAGCCATAACCCGAATCAGGTTCTGACCGTTTTCGTCCAGTTGCTCACCACAAACTGCGATAAA -CGACTCGGCGAGCGTTTCTGGCGCAAGCGCGCCAGAGAGAAGCTCTGCCATTTGTTCGTTTTTGGTTACC -TCGGCGGCAAACGCCAGCATGTCCTGCCAGCGTTCTACACTTTGGTGTTCGACGGCAAAGTCAAAAGCTG -CTTTGGCGTAGGGGCGAGCTACCGTAATAAATTCAGACATCAGCCCCTCCCTCCTTACAGTTCAGCGACA -AGTTTATCCACGATGTCGCTGTTAGCAGCTTCATCCACGGAACGTTCGATGATCTTCTCGGCGCCAGCAA -CAGCCAGGATAGCAACTTGCTTACGCAGCTCTTCACGGGCACGTTTACGCTCGGCTTCAATTTCCGCCTG -CGCCTGGGCCACGATTTTAGTACGTTCCTGTTCTGCCTCAGCTTTCGCTTCGTCCAGAATCTGCGAGCGG -CGTTTGTTCGCCTGCTCGATGATTACCTGGGCTTCCGCTTTCGCTTTTTTCAGCTGGTCGGTCGCGCTGG -CCTTTGCAAGGTCAAGGTCCTTATGTGCTCGTTCTGCGGAAGCAAGGCCGTCAGCAATTTCTTTTTGACG -TTTTTCGATGGCTGCCATTAATGGCGGCCATACGTACTTCATGCAGAACAGAACGAACAGGACAAACGCG -ATGGCCTGGCCGAGGATTGTTGCGTTAAGATTCACAGCACAATGCCTCTATTTAGTTAACGTTCTGATAT -TGCTCTTTAAATAAAAGCAACGCTTACTACGCGACAGCGAACATCACGTACAGACCCAGACCTACAGCGA -TCATCGGGATAGCATCCACCAGACCCATAACGATAAAGAACTGAGTACGCAGCAGAGGAATCAGATCAGG -TTGACGCGCTGCGCCTTCCAGGAATTTACCCCCGAGGATGCCGATACCGATCGCAGCACCGATTGCCGCC -AGACCCATCATCACAGCGGCAGCCATGTACAGCAGATCCATATTCAGGTTTTCCATGACAGTCTCCAGTT -TGTTTCAGTTAAAACGTAGTAGTGTTGGTAAATTAATGTTCTTCAGACGCCATCGACAGATAGACGATCG -TCAGAACCATGAAGATGAAGGCTTGCAGCGTAATGATCAGGATGTGGAAAATGGCCCACGGCACATTCAG -GATCCACTGTGACCACCACGGCAACAGACCAGCAATCAGAATGAAAATCAGCTCACCGGCATACATGTTA -CCGAACAGTCGCAAACCGAGTGAAACTGGTTTGGACAGCAGGCTTACCCCTTCAAGGATTAAGTTGACAG -GAATGAACGCCCAGTGATTGAACGGCTGCAGCGTCAACTCTTTCGTGAAGCCGCCGATGCCTTTCATTTT -GATGCTGTAGAACAGAATCAGGATAAATACGCCCAGTGCCATAGACAGCGTTACGTTCACGTCCGCAGAC -GGAACCACACGCAGTGCAGGCAGACCCAGTACATGTTCAGCAATGTACGGCAGCAGGTCGATAGGCAGTA -AATCCATCAGGTTCATCAGGAATACCCAGACGAAGATCGTCAGGGCCAGCGGAGCAATCAGCTTGCTTTT -GCCATGGTACATGTCTTTCACGCTACCATTAACAAAGCCGATCACCAGCTCAATCGCGGTCTGAAACTTA -CCTGGCACACCGCTGGTCGCCTTTTTGGCTACGCTACGGAATAAAACCAGGAACAACAGACCCAGCACCA -CCGAGAAGAACATGGAGTCAATATTGATTGTCCAGAAGGTGGCTGGGGGGTTTTGTGGATCCACCAGCGA -GAATGTACGCAGGTCCAGCTGAAGGTTATTCAGGTGGTGTCCTATGTAATCCTGCGGCGTCATATTTTCT -GAAGCCATGATGCCTTTTACCCTTTGTTGTTAATTACAGCCGGTGCCAGTATCTGAACCACCAGCACCAA -AACCCACGTAACGATCAGCGGCAAGAATACCGCCTTTAAAACCGCCAACGCCACCACCAGTAACACCAAC -ATCGCCAGAACTTTGAAAGCTTCGCCAAATGCGAATGTCCAGGCCACCCGGCCTTTCGCTGGTGTATGCG -CCTGGTGACGCCAGGCAAATATCATAAACAAAACGTTAGGCAGAAAGACTGCCAGGCCCCCGCTTATTGC -AGAGACGCCCCAGAAGGGGTCTTTGAGGCTGAACAGCAATCCACTTGCTATCACCACCAGTAACTGAACG -AGCAGAAGCTTCCGAGCAACGTTTCGACTCACGAGCGACACAGACATCACGTTTTTCACTCCTGCTCCCT -TCGAGGTATGCCGCGTGTCGTATAAAACTTTCTTTAAGGCTTAGAGTCAAGCATCAAAAAGCGGTCAAAT -TATACGGTGCGCCCCCGTGATTTCAAACAATAAGTAGCCAAAAGGTGAATAAATGTTTAAATATTTTTCC -AGTGCATACAATTGCGACTTTTCTGCTAACCCTGTTCGATCATGAAAAACTGTAAATAACGCGTAAACAC -TGGTGATAAAGCGTGCTTCAGATCACATATTGCGCATGTTCGCGCACAGCATATTTATTTACTTGGCAAA -TGATGCCTTTGCAAGTTTATGATATTTCAGTCTAAAAACAGATACTGTTTTAATAAATGACATTTACACA -ACAAAAACCACCCATTGACATTTTTAATAATGTTTTAACAGCCAATGATGGTTCTTAGCGCCGATTTTTA -GCAGACTGATATTTTCACTAATGACTTATTTTCTGCTTACCAAAAAAAGCCACGTTATCTTGTTGATGCA -AAAGAGTGAACGTGGCGTTAAATGTAACCAGTTATATCAGTAGAAAACCTGGTTGTTGTTAACAGTCTAA -CCGGTCAATTTTTTATGATTTTTTTGATAAAAATTAAATTTTATTTGCTTTAATCACCACCAGATGACGT -TCGCCATCCAGGGCTGGAACCTGAAGTTTAACCACTGATTCGACCTGATATTCTTCGGGCAACAAAGCGA -TTTCATCTTCCGGCATTTGCCCTTTCAGCGCGTAGAAACGGCCTTGCTCACCAGGAAGATGGTGGCACCA -GCTCACCATATCGTTCAGAGAGGCAAAAGCGCGGCTAATTACGCCATCAAATGGCGGCTCTGAAGGAAAC -TCTTCTACCCTGCTCTGTACTGGTTCAATATTCTCCAGTTTAAGCTCATGTTGCACCTGACGAAGGAAAC -GCACGCGTTTACCAAGGCTATCCAACAGAGTGAAATGGGCTTCAGGACGCACGATAGAGAGTGGAATGCC -TGGCAGTCCTGGTCCGGTGCCGACATCGATAAACCGTTCACCTTGCAGATACGGTGCCACCACAATGCTA -TCGAGAATATGGCGTACCAGCATCTCATTAGGATCGCGGACCGAAGTCAGGTTGTACGCTTTGTTCCATT -TATGCAGCATATTCACGTAGGCAATAAGCTGGTTTTTCTGGTGATCGGTAAGCGAAATACCTGCGTCTTT -CAGCAGTAAGGAGAGTTTGTTGAGCACGGTGATTACCTGTTCTTGATGCGTTGCCTGGTAAGCGGGTGCT -TACCAGGCATTTTTAATGCGTTATGCGCTACGACGCAGCATACCCTGTTTTTTCAGCCACACCAGCAGAA -TGGAGATGGCCGCAGGCGTGACGCCAGAAATACGCGAAGCTTGGCCGATAGAGGCTGGTTTGTGATCGTT -AAGTTTGGCGATCACTTCGTTAGAAAGACCGGATACCTGGCGGTAATCCAGTGTCGCGGGTAGCAGGGTG -TTCTCGTTACGCAGCTGCTTTTCGATCTCATCTTGCTGGCGCGCGATATAACCTTCGTATTTAACCTGAA -TCTCAACCTGTTCCGCCGCCTGTTCGTCTGTCAACGCAGGGGCAAACGGCGTCAGCGTGGTTAATTTTTC -ATAAGTCATTTCCGGACGACGCAGCAGATCTTCACCACTGGCTTCACGGGAAAGCGGCGCAGTCAGGTGA -GCATTCACTTCGGCTGCAGCTTCCGCCGACGGGGTTACCCAGGTCGATTTCAGACGCTGACGCTCACGCT -CGATATTCTCAAGTTTCTCGTTAAAGCGCGCCCAACGTTCGTCATCCACCAGGCCCAGTTCACGACCGAT -TTCAGTCAAACGCAGATCCGCATTATCTTCGCGTAGCATCAGACGATATTCTGCGCGCGAAGTAAACATA -CGATACGGTTCTTTGGTTCCTAAAGTGCACAGGTCATCAACTAGTACGCCGAGATACGCCTGAGAACGTG -CCGGAGCCCAACCTTCTTTGTCAGCAGACAGACGGGCAGCGTTAAGACCGGCCAGCAAACCTTGCGCAGC -GGCTTCTTCGTAACCGGTAGTGCCGTTAATCTGACCAGCAAAGAACAGCCCCTGGATAAACTTGCTCTCC -AGCGTCGGTTTCAGGTCGCGAGGATCGAAGAAGTCATACTCAATGGCATAACCCGGACGCACGATCTTCG -CGTTTTCCATCCCCTGCATAGAGCGGACGATTTGCATCTGCACATCGAACGGCAGGCTGGTGGAGATACC -GTTCGGATAAATTTCATTAGAGGTCAGTCCTTCCGGTTCAAGGAAGATCTGATGCTGATTTCTGTCGGCG -AAGCGCATGACTTTGTCTTCGATCGACGGGCAGTAGCGTGGGCCGACACCTTCGATCACCCCTGCGTACA -TTGGGCTACGATCGAGGTTACTGCGGATCACATCATGGGTTTTCTCGTTGGTATGAGTGATATAACACGG -CACCTGCTGGGGATGCTGGGACGCATTGCCCATAAACGAGAATACCGGCATTGGGTTATCGCCATGCTGT -TGCGCCAGTACGCTAAAGTCGATGGTTCGAGCATCAATACGCGGTGGTGTCCCGGTTTTCAGACGACCAA -CGCGCAGCGGCAGTTCACGCAAACGGCGAGAAAGCGGAATGGACGGCGGATCACCAGCACGGCCACCGCT -GTAATTATCCAGACCGATATGAATTTTACCGTCGAGGAACGTCCCAACGGTGAGCACGACGGCTTTGGCA -CGGAACTTCAGTCCCATTTGGGTAACAGCACCGACCACGCGATCGTTTTCGACAATAAGATCTTCAACCG -CCTGCTGGAAGATCATCAGGTTCGGTTGGTTCTCCAGCGCCGTACGTACCGCCTGACGGTAGAGCACACG -ATCCGCCTGAGCTCGGGTAGCGCGAACCGCCGGTCCTTTGCTTGCGTTTAGTATCCTAAACTGGATACCC -GCCTGATCGATCGCTTTCGCCATCAGACCGCCGAGTGCATCCACTTCTTTTACCAGATGTCCCTTCCCAA -TACCGCCGATCGCCGGGTTGCAGCTCATCTGCCCCAGAGTGTCGATATTGTGTGTCAAAAGCAGAGTCTG -TTGACCCATACGCGCCGCGGCCATCGCGGCCTCGGTGCCTGCATGACCCCCGCCAATGATGATGACGTCA -AAAGGATCCGGATAAAACATGGTGATTGCCTCGCATAACGCGGTATGAAAATGGATTGAAGCCCGGGCCG -TGGATTCTACTCAACTTTGTCGGCTTGAGAAAGACCTGGGATCCTGGGTATTAAAAAGAAGATCTATTTA -TTTAGAGATCTGTTCTATTGTGATCTCTTATTAGGATCGCACTGCCCTGTGGATAACAAGGATCCGGCTT -TTAAGATCAACAACCTGGAAAGGATCATTAACTGTGAATGATCGGTGATCCTGGACCGTATAAGCTGGGA -TCAGAATGAGGGGTTATACACAACTCAAAAACTGAACAACAGTTGTTCTTTGGATAACTACCGGTTGATC -CAAGCTTCCTGACAGAGTTATCCACAGTAGATCGCACGATCTGTATACTTATTTGAGTAAATTAACCCAC -GATCCCAGCCATTCTTCTGCCGGATCTTCCGGAATGTCGTGATCAAGAATGTTGATCTTCAGTGTTTCGC -CTGTCTGTTTTGCACCGGAATTTTTGAGTTCTGCCTCGAGTTTATCGATAGCCCCACAAAAGGTGTCATA -TTCACGACTGCCAATACCGATTGCGCCAAAGCGGACTGCAGAAAGATCGGGCTTCTGTTCCTGCAATGCT -TCATAGAAAGGAGAAAGGTTGTCCGGAATATCTCCGGCACCGTGGGTGGAGCTGATAACCAGCCAGATCC -CTGAGGCAGGTAAATCTTCTAACAGCGGACCGTGCAGCGTTTCGGTGGTAAAACCCGCCTCTTCCAGCTT -TTCAGCCAGGTGTTCTGCTACATATTCGGCACCGCCGAGGGTGCTGCCGCTGATAAGAGTGATATCTGCC -ATAAACCGCCACCTTTATTAAGAGTGGCGTATTGTACGCTGTGAACGCGTTGGGATCTACCTGTGGAAAA -GTATGGGATTAAAAAAGCCGATCAGGGCTTGATGGTACGCATGATCGGGTTTTGCAGGACGATCAATGTC -TCGGTGGACTGAATTTCATCAATTGTTTGGATCTTGTTGATAAGTACATGCTGGAGAGCGTCGATCGAAC -GGCACATCACTTTTATAAAGATGCTGTAGTGGCCGGTTGTGTAATAGGCTTCAGTGACTTCATCAAGGCT -TTCCAGCTTTGCCAGCGCGGAAGGGTAGTCTTTGGCGCTCTTTAATATAATGCCGATAAAGCAGCCTACG -TCATAACCGAGCTGCTTCGGGCTGACATCAATACGCGCCCCGGTAATGATCCCCGCCTGCTTCATTTTCT -CTACTCGAACGTGAATCGTCCCCGGACTGACGCCAAATTGTTTCGCCAGTTCGGCGTAAGCGGTGCGCGC -ATTGCCCATTAATGCTTCCAGGATGCCACGGTCCAGATTGTCGATCAGATAATTTTCCATAGGATTTTCT -TATGCGGATTGATGATTCATTCTATTTTAGCCTTCTTTTTTAATGAATCAAAAGTGAGTTAGGCTTTTTA -TTGAATGATTATTGCATGTGTGTCGGTTTTTGTTGCTTAATCATAAGCAACAGGACGCAGGAGTATAAAA -AATGAAAACCGCTTACATTGCCAAACAACGTCAAATTAGCTTCGTGAAATCTCACTTTTCTCGTCAACTG -GAAGAACGTCTGGGGCTGATCGAAGTCCAGGCGCCGATTCTTAGCCGTGTGGGGGATGGCACGCAGGATA -ACTTGTCGGGCTGTGAAAAAGCGGTGCAGGTAAAAGTGAAAGCTCTGCCTGATGCCCAGTTCGAAGTGGT -TCATTCACTGGCGAAGTGGAAACGTCAGACCTTAGGGCAACACGACTTCAGCGCGGGCGAAGGGCTGTAC -ACGCACATGAAAGCCCTTCGCCCCGATGAAGACCGTCTTTCTCCGTTGCACTCGGTCTATGTTGACCAGT -GGGACTGGGAACGCGTAATGGGCGACGGTGAGCGTCAATTCTCGACTCTGAAAAGCACGGTAGAGGCGAT -CTGGGCGGGAATTAAAGCAACCGAAGCTGCGGTTAGCGAAGAGTTTGGCCTGGCACCGTTCCTGCCGGAT -CAGATCCACTTCGTACACAGCCAGGAGTTACTGTCTCGTTATCCGGATCTTGATGCCAAAGGGCGTGAGC -GGGCGATAGCGAAAGATCTTGGCGCGGTATTCCTTGTCGGGATTGGCGGCAAGCTGAGCGATGGTCATCG -CCACGACGTGCGCGCACCGGATTATGATGACTGGAGCACCCCGTCAGAGCTGGGCCATGCGGGTCTGAAC -GGCGATATTCTGGTGTGGAACCCGGTACTGGAAGATGCGTTTGAGCTTTCCTCCATGGGGATCCGTGTAG -ATGCCGACACGCTGAAGCATCAACTGGCGCTGACCGGTGACGAAGATCGCCTGGAGCTGGAGTGGCATCA -GGCGCTGCTGCGCGGTGAAATGCCGCAGACCATCGGCGGCGGTATCGGCCAGTCTCGTTTGACTATGCTG -CTGCTGCAACTGCCGCATATCGGCCAGGTTCAGTGTGGAGTATGGCCAGCTGCTGTTCGCGAGAGCGTCC -CTTCTCTGCTGTAATAATTTATCGCCGCCAGCGTCTGAGCAGGCGGCTTCGCATCCCGGTATCAAAGCGC -CAGATATGATCGAAAATGCGCATGATGCCGGGTTTGCCGTGTGCCGACATCGCCACGGCATGAAAGCGAT -GCTGATGTACCCGCTGCAGCTCTTTCACTTTACTCGTCACGTCGTCAGGCAACCGCTGAGCGATAAAATC -AGAAATCACCACCGCATCGGCATCAAACCATTCCCTGCTTTGCAAGCGTTCCATAATGGCGCGAAAACAA -CTGGCAAGATCGGTGCCGCCACGAAACTGCTGGCTTAAAAAACGGATTGCTTGTTCGATGCCTTGTGGGC -CTGAAAGCTCATAACGGACGATCTCGGTGGAAAATAGCATAATATAGCAGCGCCGGTTTTCTGCGAGAGC -AATGCGCATCAAGGCCAGGCAGAACGCTTTCGCACACTGTTCATTAAAGCCGCCCATTGAGCCGGAAGTA -TCCACACAGACAATAAACGGCCCGCGCGGCTGTTCATCGTAATCTTTATGTACCACCGGACGTTCGATCA -CTTTTTCACGCCACGACTCACCGTGCAGGCGATAGGTGAGCAACTGTTTTTCCACCAGCCGACGGTAAAA -CTCATACTCCAGTTCCGTTATCCCTAGTGTCGCCAGTTCTGGCGGCAGGAGACGTAAAATATCATCGCTT -TGTTGCAGACCATCAACCTGCTCAGGAACCGTCGCCGGTTCGCGCACCATGGTGCGGAAGGTTTCCATCT -GCGCATCGTTGCGCGGTATTGATTTGGCTTCCCGAGAACGCCCCAGCTGCTCTGCCAGGCGTTTCAGTTC -CGGCTGTTCGTTAAGAAATTCACCGTATTTCACAATCAACTGATAGTCGCCACGTTTAAGCTGACCGGCG -CTCATATCCCACAGACGACCAGCTGCAGTATTGTTATCTGCGAGAATCGGTTCAAGTTGTCCGCTCAGCG -TCATGCGTTCCTGAACTTCACTCAACAGTTGTTCGCGTTCTTCTTCTAATAGCTGTTGATTTAACGTCGT -TGCTTGCACGATCAGACTTAAACGCCAACGCTGGAGAAAAAGCGTGTGTAACGCTGAAGTGATCGTGCTG -TTAGCATCAACCAACTGTCGGGCTTGTTCTGCCCATGGAGAATTCAGACGATGCAGTAAGTCCAGGATCT -GTGGTAGCTGCACAATAAACTGTGGCGTGGAGAGGAGCTGGCTTTGCTGATAGCACATCACCTCTTCGGT -GAGTTCCGGCGGGACTCGGGCATCTTTCAGCCGACTGCGCAGCGCTTCACGCCAGCGGGGAACATCATCA -GTGATTGCCGCCTTCAGGCGTGGGAATTTTTCAAAGAAGACCGCCAGCTGCGGTGAGGCCAGCAGTGCGA -TGATCATCTCTTCGATCAATCCCTCTTCGCTGACGGCCAGCATCACATTAAGCGTATCCAGCGTTAGCAT -TGTTGTGCCTGGCGAATCTGTGCACCGACATCCTGTAGGCTGGCTTCAATGCGACCTAACCAGTCGCCAG -GGATAAACAGACATTTTTGCTGTTCGCTGAATAAAGCGTGTTGCTTGCGCCAGTCGCTTTCAAGCTCTTC -CAGTTGTTGTTTTATTTCACCAGGCAGACCTTCAGCCGATGAACCGGGAAGTGCCAGCGTACTGCCTTGT -AAACTTACATCGCGAACGACAAGATGTTGGGCGCTATCAACTTCCAGATTCAGTTTCTGGGCAAAGCCGA -TACCGTTCAGTTTACCGCGAATTTCACCACCTTTGCTCAGCCACTGTTCCAGCGCGCTACGCTCAAAGGA -GATATGAACCACTTCCATATCATGCAGTTTTAACGGTTTTTGCAGCAGTAGAGTCAGAGTGGAAGCAGTA -ACGTTAACAGGAAGTTGATACTGCTGACGACGGCTGAAAATGCCGCCCAGACGAATTACCGTTAAGGCTG -TTTTATCGCTTTGTTGCTGCTGGAGTTGCAGGTGACGTTGCACAATCGCGCCAAGGCGAGTCAACATCCC -TTGCTGTTGCCAGGCGTGACCGGTCATCAATACATCAATTTGTTGTTGTATCAAATTCAGGCTTTGCGCG -TCATACCACAGGCAATCTTTCAGCAAAATGAGATCTACCGGGGCAACAGCACTGCGACCGCTAAAAAAGG -CGCTGGCCTGCAATAATCGGATCGCTTTTTTCCAGCGACGATCCGAGACATAAGGCGCATCCGGTAATTT -ATCCAGTTGCTGGCGCAGCATAAAAATCAGCTCAAATACATGATCGGGCAGCGTAATTTCACCAATCTCT -TTCTGCCAGCGTTCATATTCTTCATCTGTGACCTGCAAGGCATCAGGAACCGGATTGTCGTTTTCATCCT -GTTGACTGGTCAGCATGGAGCGGAAATTCGCTTTATCCTGCACTTTATCTAACCACAGACGAATCAGCAT -GCGGTCATATAACGCTTCCAGACTGCTGTCTGCTTCCGGCAGCTCGTTGGAGGCCGCCACCAGCAGACGC -ATCGGGATTTTTTCTACGTGTGCACCGTTGCGGAACTGGCGCTCGTTAATGGCGGTGAGCAAGGTATTAA -GAATTGCCGGGCCCGCTTTCCAGATCTCATCCAGAAAGACAATTTCTGCTTCCGGCAGGTAACCGCTGGT -TAAACGTTCATAGCGCCCTTCATCTTTTAGCGCCTGAATAGAAAGGGGACCAAAAACTTCTTCCGGCGTG -GAGAAGCGGGTCATCAGATATTCAAACGCGCGGGCATTCTGAAAGGCGAATTTTAAGCGCCGGGCGATCA -AACTTTTGGCAATACCTGGCGGGCCAAGGAGGAACACACTTTCACCACTTAATGCCGCTAATAAACACAA -GCGGATGGCGTGGCTACGTTCATAAAGCCCCTTTTCCAACGAACTGCTCAGGCGGGAAATTCTTTTCGCT -AATAAATGAGGGTGAGCCATAATGAAGTGGCGTCCTTTCGTCAAAAGTTCTGCGTAAATTGCGAGTATAG -ACGTTTCTTGCTGGTGGCTAAAATAGTCTCAAAGGGGGGGTATTTTTCTTTGAGCCAGGTTAATGTGGCC -GCATTTAGGAGTACGATTTTGCCGTTAATCGTGCATACTGTGCGCTTTTTTGTGGGCCAAGGGACTAAGC -ACACATTTCATATTTCAACGAAAGACTAGTCTATGAGCACTGATAATAAGCAATCATTGCCCGCGATTAC -CCTCGCGGCGATTGGAGTTGTCTACGGCGATATTGGTACCAGCCCGTTATATACACTTCGTGAATGTTTG -TCCGGCCAGTTTGGTTTTGGCGTTGAACGCGATGCCGTGTTTGGCTTTTTATCGCTGATCTTCTGGCTGC -TAATCTTTGTGGTTTCCATTAAATATCTCACCTTCGTGATGCGGGCAGATAACGCCGGTGAGGGGGGGAT -CCTGACGTTGATGTCGCTTGCCGGGCGTAATACGTCGGCGCGAACCACATCAATGCTGGTGATTATGGGG -CTAATCGGCGGCAGCTTTTTCTATGGTGAAGTCGTCATAACACCCGCTATTTCGGTGATGTCAGCCATTG -AAGGTCTGGAAATCGTCGCCCCGCAGCTGGATACCTGGATAGTTCCCCTCTCAATTATCGTTCTCACTTT -ATTATTTATGATTCAAAAACATGGCACGGCTATGGTCGGTAAGCTGTTTGCGCCGATCATGCTGACCTGG -TTTTTGATTCTGGCAGGACTGGGGTTACGTAGCATTATTGCTAACCCGGAAGTGCTGCATGCGCTGAATC -CAATGTGGGCGGTGCATTTCTTCCTTGAATACAAAACGGTTTCTTTTATTGCATTAGGGGCAGTGGTGTT -GTCGATTACGGGGGTCGAGGCGCTGTATGCTGATATGGGGCACTTTGGTAAGTTCCCTATTCGCCTGGCG -TGGTTCACCGTCGTATTACCTTCCTTGACCCTTAATTACTTCGGTCAGGGAGCGCTGTTGTTAAAGAACC -CGGAAGCGATTAAGAACCCGTTCTTCCTGTTGGCACCGGACTGGGCGCTGATCCCGCTGCTGATCATCGC -CGCACTGGCGACGGTAATTGCCTCGCAGGCGGTTATCTCTGGCGTCTTCTCATTGACGCGTCAGGCGGTA -CGTCTGGGATATTTGTCGCCGATGCGCATTATTCACACCTCCGAAATGGAGTCAGGGCAAATCTATATTC -CGTTTGTGAACTGGATGCTCTATGTCGCGGTCGTGATTGTGATTGTCAGCTTTGAGCACTCCAGCAACCT -GGCGGCGGCGTACGGGATTGCGGTGACCGGAACCATGGTGCTGACGTCTATTCTCTCGACTACCGTGGCA -CGTCAGAACTGGCACTGGAATAAGTATTTTGTTGCGCTGATCCTGATTGCTTTCCTTTGTGTCGATATTC -CATTGTTCACCGCTAACCTCGATAAACTGCTCTCCGGCGGCTGGTTGCCATTGAGCCTCGGTACTGTGAT -GTTTATCGTGATGACCACCTGGAAGAGCGAGCGTTTCCGCTTGCTGCGGCGGATGCATGAACATGGTAAC -TCTCTGGAAGCGATGATTGCTTCGCTGGAGAAATCACCGCCTGTTCGCGTGCCCGGGACCGCGGTGTATA -TGTCGCGTGCAATCAACGTCATTCCCTTTGCGCTGATGCATAACCTTAAACATAACAAGGTATTGCATGA -GCGGGTGATTCTGTTAACTCTGCGCACCGAAGACGCTCCATATGTCCATAACGTCCGTCGGGTACAGATT -GAACAACTGTCGCCCACTTTCTGGCGCGTGGTGGCAAGTTATGGTTGGCGAGAAACGCCAAACGTAGAAG -AAGTTTTCCACCGCTGCGGTCTGGAAGGATTAAGTTGCCGGATGATGGAAACCTCCTTCTTTATGTCGCA -TGAGTCGTTGATCCTCGGCAAACGCCCGTGGTATTTGCGTCTGCGCGGCAAGCTGTACTTGCTGCTGCAA -CGTAATGCGCTGCGTGCACCAGATCAATTTGAAATCCCGCCAAACAGGGTTATCGAACTGGGTACTCAGG -TCGAAATCTAACGCCAGACGCCTCCTTTCTTCATAAGGGGGCGTTTTTGTTTTCATGGTTAATCACCATG -TAAAACGTTTCGAGGTTGATCACATTTCCGTAACGTCACGATGGTTTTCCCAACTCAGTCAGGATTAAAC -TGTGGGTCAGCGAAACGTTTCGCTGATGGAGAAAAAAATGAAAAAAGGCACCGTTCTTAATTCTGATATT -TCATCGGTGATCTCCCGTCTGGGACATACCGATACGCTGGTGGTGTGTGATGCTGGTTTACCCATCCCCA -AAAGTACAACGCGTATCGATATGGCATTAACCCAGGGTGTACCTTCTTTTATGCAGGTGCTGGGCGTCGT -CACAAATGAAATGCAGGTCGAGGCGGCCATTATCGCGGAAGAGATCAAACACCATAATCCGCAACTCCAC -GAAACGTTGCTCACTCACCTTGAGCAGCTGCAAAAACACCAGGGAAATACCATTGAAATTCGTTACACCA -CGCATGAACAATTCAAACAACAAACCGCAGAAAGTCAGGCGGTAATTCGCAGCGGAGAATGTTCTCCGTA -TGCGAATATCATTCTCTGTGCTGGCGTGACGTTCTGAGGCCGTCATGGAAGCATTACTTCAGCTTAAAGG -CATCGATAAAGCCTTCCCGGGCGTAAAAGCCCTCTCGGGCGCAGCGTTAAATGTCTATCCGGGCCGCGTG -ATGGCGCTGGTGGGCGAAAACGGCGCGGGTAAATCCACCATGATGAAAGTGCTTACTGGCATCTATACTC -GCGATGCCGGTACGCTTTTATGGCTGGGGAAAGAAACGACATTTACCGGGCCAAAATCTTCCCAGGAAGC -CGGGATTGGGATTATCCATCAGGAACTGAACCTGATCCCGCAGTTGACCATTGCCGAAAACATTTTCCTC -GGTCGTGAGTTTGTTAATCGCTTTGGCAAAATTGACTGGAAAACCATGTATGCCGAAGCGGATAAATTGC -TGGCTAAACTTAACCTGCGCTTTAAAAGCGACAAGCTGGTGGGCGATCTTTCCATCGGTGACCAGCAAAT -GGTTGAAATCGCCAAAGTGCTGAGCTTTGAGTCGAAAGTCATCATTATGGATGAACCGACCGATGCGCTG -ACCGATACCGAAACCGAATCCCTGTTCCGCGTCATCCGCGAGCTGAAATCGCAAGGCCGCGGTATTGTCT -ATATCTCCCACCGCATGAAAGAAATCTTCGAGATTTGCGATGACGTTACCGTTTTTCGTGATGGGCAATT -TATTGCTGAGCGCGAAGTGGCATCACTGACCGAAGATTCGCTGATTGAGATGATGGTGGGTCGCAAGCTG -GAAGATCAATATCCGCACCTGGACAAAGCGCCGGGAGATATCCGCCTGAAAGTCGATAATCTCTGCGGAC -CTGGCGTTAACGATGTCTCTTTTACTTTACGCAAAGGCGAAATTCTTGGCGTCTCTGGTTTGATGGGCGC -AGGTCGTACCGAACTGATGAAAGTGCTCTACGGCGCACTACCGCGCACCAGCGGTTACGTCACCCTGGAT -GGGCATGAAGTCGTTACCCGTTCACCGCAGGATGGCCTGGCAAACGGCATTGTGTATATCTCCGAAGACC -GTAAACGTGACGGTTTAGTGTTGGGCATGTCAGTAAAAGAGAACATGTCGCTGACAGCGCTGCGCTACTT -CAGCCGCGCTGGCGGCAGTTTGAAGCATGCCGATGAACAGCAGGCTGTGAGTGATTTCATTCGTCTGTTT -AATGTGAAAACTCCGTCGATGGAACAGGCAATTGGTCTGCTTTCCGGTGGCAATCAGCAAAAAGTGGCGA -TTGCCCGCGGTCTGATGACACGCCCCAAAGTGTTGATCCTTGATGAACCTACCCGTGGCGTAGATGTCGG -CGCGAAAAAAGAGATCTATCAACTGATTAACCAGTTCAAAGCCGATGGCTTGAGCATCATTCTGGTGTCA -TCGGAGATGCCAGAAGTATTAGGCATGAGCGATCGCATCATCGTCATGCATGAAGGGCATCTCAGCGGGG -AATTTACTCGTGAGCAGGCCACCCAGGAAGTGTTAATGGCTGCCGCTGTGGGCAAGCTTAATCGCGTGAA -TCAGGAGTAAAAAAATGACAACCCAGACTGTCTCTGGTCGCCGTTATTTCACGAAAGCGTGGCTGATGGA -GCAGAAATCGCTTATCGCTCTGCTGGTGCTGATCGCGATTGTCTCGACGTTAAGCCCGAACTTTTTCACC -ATCAATAACTTATTCAATATTCTCCAGCAAACCTCAGTGAACGCCATTATGGCGGTCGGGATGACGCTGG -TGATCCTGACGTCGGGCATCGACTTATCGGTAGGTTCTCTGTTGGCGCTGACCGGCGCAGTTGCTGCATC -TATCGTCGGCATTGAAGTCAATGCGCTGGTGGCTGTCGCTGCTGCTCTCGCGTTAGGTGCCGCAATTGGT -GCGGTAACCGGGGTGATTGTAGCGAAAGGTCGCGTCCAGGCGTTTATCGCTACGCTGGTTATGATGCTTT -TACTGCGCGGCGTGACCATGGTTTATACCAACGGTAGCCCAGTGAATACCGGCTTTACTGAGAACGCCGA -TCTGTTTGGCTGGTTTGGTATTGGTCGTCCGCTGGGCGTACCGACGCCAGTCTGGATCATGGGGATTGTC -TTCCTCGCGGCCTGGTACATGCTGCATCACACGCGTCTGGGGCGTTACATCTACGCGCTGGGCGGCAACG -AAGCGGCAACGCGTCTTTCTGGTATCAACGTCAATAAAATCAAAATCATCGTCTATTCTCTTTGTGGTCT -GCTGGCATCGCTGGCCGGGATCATTGAAGTGGCGCGTCTCTCCTCCGCACAACCCACGGCGGGGACTGGC -TATGAGCTGGATGCTATTGCTGCGGTGGTTCTGGGCGGTACGAGTCTGGCGGGCGGAAAAGGTCGCATTG -TTGGGACGTTGATCGGCGCATTAATTCTTGGCTTCCTTAATAATGGATTGAATTTGTTAGGTGTTTCCTC -CTATTACCAGATGATCGTCAAAGCGGTGGTGATTTTGCTGGCGGTGCTGGTAGACAACAAAAAGCAGTAA -TAACGACTACAGGACATCTTGAATATGAACATGAAAAAACTGGCTACCCTGGTTTCCGCTGTTGCGCTAA -GCGCCACCGTCAGTGCGAATGCGATGGCAAAAGACACCATCGCGCTGGTGGTCTCCACGCTTAACAACCC -GTTCTTTGTATCGCTGAAAGATGGCGCGCAGAAAGAGGCGGATAAACTTGGCTATAACCTGGTGGTGCTG -GACTCCCAGAACAACCCGGCGAAAGAGCTGGCGAACGTGCAGGACTTAACCGTTCGCGGCACAAAAATTC -TGCTGATTAACCCGACCGACTCCGACGCAGTGGGTAATGCTGTGAAGATGGCTAACCAGGCGAACATCCC -GGTTATCACTCTTGACCGCCAGGCAACGAAAGGTGAAGTGGTGAGCCACATTGCTTCTGATAACGTACTG -GGCGGCAAAATCGCTGGTGATTACATCGCGAAGAAAGCGGGTGAAGGTGCCAAAGTTATCGAGCTGCAAG -GCATTGCTGGTACATCCGCAGCCCGTGAACGTGGCGAAGGCTTCCAGCAGGCCGTTGCTGCTCACAAGTT -TAATGTTCTTGCCAGCCAGCCAGCAGATTTTGATCGCATTAAAGGTTTGAACGTAATGCAGAACCTGTTG -ACCGCTCATCCGGATGTTCAGGCTGTATTCGCGCAGAATGATGAAATGGCGCTGGGCGCGCTGCGCGCAC -TGCAAACTGCCGGTAAATCGGATGTGATGGTCGTCGGATTTGACGGTACACCGGATGGCGAAAAAGCGGT -GAATGATGGCAAACTAGCAGCGACTATCGCTCAGCTACCCGATCAGATTGGCGCGAAAGGCGTCGAAACC -GCAGATAAAGTGCTGAAAGGCGAGAAAGTTCAGGCTAAGTATCCGGTTGATCTGAAACTGGTTGTTAAGC -AGTAGTTTTAATCAGGTTGTATGACCTGATGGTGACATAAATACGTCATCGACAGATGAACGTGTAATAT -AAAGAAAAGCAGGGCACGCGCCACCCTAACACGGTGGCGCATTTTATGGACATCCCGAATATGCAAAACG -CAGGCAGCCTCGTTGTTCTTGGCAGCATTAATGCTGACCACATTCTTAATCTTCAATCTTTTCCTACTCC -AGGCGAAACCGTAACCGGTAACCACTATCAGGTTGCATTTGGCGGCAAAGGCGCGAATCAGGCTGTGGCT -GCTGGGCGTAGCGGTGCGAATATCGCGTTTATTGCCTGTACGGGTGATGACAGCATTGGTGAGAGCGTTC -GCCAGCAGCTCGCCACTGATAACATTGATATTACTCCGGTCAGCGTGATCAAAGGCGAATCAACAGGTGT -GGCGCTGATTTTTGTTAATGGCGAAGGTGAGAATGTCATCGGTATTCATGCCGGCGCTAATGCTGCCCTT -TCCCCGGCGCTGGTGGAAGCGCAACGTGAGCGTATTGCCAACGCGTCAGCATTATTAATGCAGCTGGAAT -CACCACTCGAAAGTGTGATGGCAGCGGCGAAAATCGCCCATCAAAATAAGACTATCGTTGCGCTTAACCC -GGCTCCGGCTCGCGAACTTCCTGACGAACTGCTGGCGCTGGTGGACATTATTACGCCAAACGAAACGGAA -GCAGAAAAGCTCACCGGTATTCGTGTTGAAAATGATGAAGATGCAGCGAAGGCGGCGCAGGTACTGCATG -AAAAAGGTATCCGTACTGTACTGATTACTTTAGGAAGTCGTGGTGTATGGGCTAGCGTGAATGGTGAAGG -TCAGCGCGTTCCTGGATTCCGGGTGCAGGCTGTCGATACCATTGCTGCCGGAGATACCTTTAACGGTGCG -TTAATCACGGCATTGCTGGAAGAAAAACCATTGCCAGAGGCGATTCGTTTTGCCCATGCTGCCGCTGCGA -TTGCCGTAACACGTAAAGGCGCACAACCTTCCGTACCGTGGCGTGAAGAGATCGACGCATTTTTAGACAG -GCAGAGGTGACGCTTGGCTACAATGAAAGATGTTGCCCGCCTGGCGGGCGTTTCTACCTCAACAGTTTCT -CACGTTATCAATAAAGATCGCTTCGTCAGTGAAGCGATTACCGCCAAAGTTGAAGCGGCGATTAAAGAAC -TCAATTACGCGCCATCAGCTCTGGCGCGTAGCCTCAAACTCAATCAAACACATACCATTGGCATGTTGAT -CACTGCCAGTACCAATCCTTTCTATTCAGAACTGGTGCGTGGCGTTGAACGCAGCTGCTTCGAACGCGGT -TATAGTCTCGTCCTTTGCAATACCGAAGGCGATGAACAGCGGATGAATCGCAATCTGGAAACGCTGATGC -AAAAACGCGTTGATGGCTTGCTGTTACTGTGCACCGAAACGCATCAACCTTCGCGTGAAATCATGCAACG -TTATCCGACAGTGCCTACTGTGATGATGGACTGGGCTCCGTTCGATGGCGACAGCGATCTTATTCAGGAT -AACTCGTTGCTGGGCGGAGACTTAGCAACGCAATATCTGATCGATAAAGGTCATACCCGTATCGCCTGTA -TTACCGGCCCGCTGGATAAAACTCCGGCGCGCCTGCGGTTGGAAGGTTATCGGGCGGCGATGAAACGTGC -GGGTCTCAACATTCCTGATGGCTATGAAGTCACTGGTGATTTTGAATTTAACGGCGGGTTTGACGCTATG -CGCCAACTGCTATCACATCCGCTGCGTCCTCAGGCCGTCTTTACCGGAAATGACGCTATGGCTGTTGGCG -TTTATGGATTTGCCCCTATATTTCCAGACATCTGTTATCACTTAACCCATTACAAGCCCGCTGCCGCAGA -TATTCCCGTGGCGAGCGATAACCCAGCGCACTATGCGGATGCCATTCGTTATAATGCTCGAACGCCTCTG -CAAGGTTCTTTGCTGCCGTTAACCCGTCTGGTTTGGGCATGATACTGATGTAGTCACGCTTTATCGTTTT -CACGAAGCTCTCTGCTATTCCGTTACTCTCCGGACTCCGCACCGCCGTGTTCTTCGGTTCAAGTCCCAAC -ATCCGGGCGAACTGGCGTGTTTCATTAGCCCGGTAGCATGAACCATTATCCGTCAGCCACTCCACTGGAG -ACGACGGAAGATCGTTGCCGAAGCGGCGTTCCACCGCTCCCAGCATGACGTCCTGTACTGTTTCACTGTT -GAAGCCGCCGGTAGTGACCGCCCAGTGCAGTGCCTCACGATCACAGCAGTCCAGCGCGAACGTGACACGC -AGTCTCTCTCCGTTATCACAGCAGAACTCGAACCCGTCAGAGCACCATCGCTGATTGCTTTCTTTCACGG -CCACTCTGCCTGTATGTGCCCGTTTCGATGGCGGTACAGCAGGTTTTCGCTCAAGCAACAGCGCATTCTG -GCGCATGATCCGGTAAACACGTTTGGCATTGATCGCAGGCATACCATCAAGTTCTGCCTGTCTGCGAAGC -AGCGCCCATACCCGACGATAACCATACGTTGGCAGCTCTCCGATAACATGGTGTATACGGAGAAGCACAT -CCGTATCATCAGTGTGACGACTGCGGCGGCCATCCATCCAGTCATCGGTTCGTCTGAGAATGACGTGCAA -CTGCGCACGCGACACCCGGAGACAACGGCTGACTAAGCTTACTCCCCATCCCCGGGCAATAAGGGCGCGT -GCGCTATCCACTTTTTTGCCCGTCCATATTCAACGGCTTCTTTGAGGAGTTCATTTTCCATCGTTTTCTT -GCCGAGCAGGCGCTGGAGTTCTTTAATCTGCTTCATGGCGGCAGCAAGTTCAGAGGCAGGAACAACCTGT -TCTCCGGCGGCGACAGCAGTAAGACTTCCTTCCTGGTATTGCTTACGCCAGAGAAATAACTGGCTGGCTG -CTACACCATGTTGCCGGGCAACGAGGGAGACCGTCATCCCCGGTTCAAAGCTCTGCTGAACAATTGCGAT -CTTTTCCTGTGTGGTACGCCGTCTGCGTTTCTCCGGCCCTAAGACATCAATCATCTGTTCTCCAATGACT -AGTCTAAAAACTAGTATTAAGACTATCACTTATTTAAGTGATATTGGTTGTCTGGAGATTCAGGGGGCCA -GTCTAGTTTACCAGGCGTTATATCAGGCAGAGTTACAGGTTCCGCAGGATATCGCGGTGATTGGCTATGA -CGATATCGAACTGGCAAGCTTTATGACGCCACCATTAACCACTATCCACCAACCGAAAGATGAACTGGGG -GAGCTGGCGATTGATGTACTCATCCATCGGATAACCCAGCCGACCCTTCAGCAACAACGATTACAACTTA -CTCCGATTCTGATGGAACGCGGTTCGGCTTAGATTTACGCTGTCTTTTGATCAAATTATTACCATCGGTT -GTTTTCAGAAGCATGAACATTGCTGCTGAAGCAACAGTAATAATGCCCATTGTGATAAACGTATAGTGGA -ATTGTTCGACAGTCGTTGTGCCTTCCATTCCTTCATAAACGCGAAGGACGGCCGCACTTACAGCAACGCC -TAAACTAATCGACAGTTGCTGCGTGACCGCCAGAACACTGTTACCGCTGCTGGCATTGTCATCGGTCAGA -TCGGCAAGTGTGATGGTATTCATCGCGGTAAACTGCGTCGACATAGCCATCCCTAATATAAACAACGGCA -AGATCAGCATCCATATAGCCATTGCTGGTGATTGCAAAGAGAACTGAGCGATCATTAGCCCAATAATCAC -CGTGATCCCCACTAACGTATGGCGATAGCCCAGACGACGTAAGACTTGGGTAACCATCGATTTTGCAATA -ATGGAACCTAACGCTGTCGGTGCCATCATACAGCCAGCAATAAACGCCTGATAACCAAATCCTACCTGTA -ACATCAATGGCATAAGGAACGGTACACAGCCGGTCCCCAGACGGGTTGCAATATTGCCTACGATACCGAT -CGAGAAAGTGCGGGTTTTAAATAAATCTAATGAAATTAATGGGTTTGGCGTGCGTCGTGCATGGAGAATA -TAGAGAAGCAGTAACCCGATGCTGGTGACAATTACCGTCAAGGCAATCCAGCTGGCGACAATCTTTTCCC -CGAATAGCTCTATTCCGCTTGAGAAGAGAACAAGGCTGAGGCCAAACAGCAAAAAGCCAGTGATATCGAA -TCTGCGTCGTGCGGTGGTGAAATTGGGCATATGTTTGCGCGCGTAAAGAAGGCCCGCAATACCTATGGGG -ATATTGATTAAAAATATCCAGTGCCAGGTTGCCCAGGTGACCAGCACGCCGCCAAGAACGGGGCCTAAAA -TTGGCCCCACCAGACCCGGCATGGCGACAAAATTCAATACTGGAAGAAGTTCATTACGAGGATAAGCGCG -CAGTAAGGCCAGCCGAGCAACAGGCATCATCATTGCGCCGCCTATCCCCTGAATAACCCGGAAGACAACC -AGCTGTGGTAGCGAATTAGAAAGTGCGCAGGCCAGAGAACCCAATGTGAACAGACTCACGGCAAGGGTAA -AAATGCGACGCGTACCGAAGCGATCGGCTAGCCATCCGCTTACCGGAATAAGCATCGCCACCGTCAGCGT -ATAACTGATGATGGCTGATTGCATCGCGAGAGGAGAACGATTAAGGCTATGAGCGATTGCGGGTAAGGCG -GTATTAAGAATAGTGGCATCAAGTGCCTGCATGAAGAAGGCCATCGCCGCGATCCACGGCAAACCCGCCA -TACTGCGCTTCTTTTTATCGCTCATTCAATGTCCTGTTATCGGGTTATCACTTATCAGGTGAGCGTAGCA -GCGCCTGACAAGCTTTAAATGCCGCGTCGCCATCGCTTTGGATAATCGCATCGACAATCGCCTGATGCAG -ATCCAGCTTTATCACTGTGTCGCTGGTAATTGACGTGAAGTAAGTGTGATAAACCGAATGGAATAGCGAG -GCGAATGAGGTCAAAAACGGATTGGCGCTCATTTCATAGATATGCTCATGCCAGGCCATATCGACTTCGA -TCCAGCGTTCACGGCGAAAGTTCTCTTTTAATGCCGCCATTTCGGCCATTAACGTATTGAGATGCGCTTT -CTGTTCCGCGGTGCCAACCGTTGCTGCCAGTAGGCAGGCTTGCGGCTCCAGACAGATACGCATAACCAGA -AAGTGATCGATGACCTGATGAAAGTTCTCTTCTGTCATCCACCAGGTAAGCAATTCCTGATCAAGAAAAT -TCCAGTTCGATTGTGGCATGACCCGAGTACCAATTCGCGGTCGCGGTAAAACCATCCCTTTTGCCGTTAA -CGTTTTGACCGCTTCGCGTACCGCTGTACGACTCACTCCAAATTGCTCGCCCAGCTCAATCTCACCGGGC -AAAATGGTGCCGGGTTCATATTCACCTTTTAAGATCCGTTGCGCCAGCTTCTCAGCCAGAACATACGAAA -GGTTTTTCTGTGCAGCTAACTGTTGTGCGCTTAAAGGCATTACTTATCTTCCTTTTTCTTTTTATTCCTC -CTTAGTATGCCACCAGGAAGTGTGATTACGGTTGCAAAAACGGCAAATTGCTTGTTTTATGGCACATTAA -CGGGGCTTTTGCTGAAAAAATGCGCGGTCAGAAAATTATTTTAAATTTCCTCTTGTCAGGCCGGAATAAC -TCCCTATAATGCGCCACCACTGACACGGAACAACGGCAAACACGCCGCCGGGTCAGCGGGGTTCTCCTGA -GAACTCCGGCAGAGAAAGCAAAAATAAATGCTTGACTCTGTAGCGGGAAAGCGTATTATGCACACCCCGC -GCCGCTGAGAAAAAGCAAAGCGGCACTGCTCTTTAACAATTTATCAGACAATCTGTGTGGGCACTCGAAG -ATACGGATTCTTAACGTCGCAAGACGAAAAATGAATACCAAGTCTCAAGAGTGAACACGTAATTCATTAC -GAAGTTTAATTCTTTGAGCATCAAACTTTTAAATTGAAGAGTTTGATCATGGCTCAGATTGAACGCTGGC -GGCAGGCCTAACACATGCAAGTCGAACGGTAACAGGAAACAGCTTGCTGTTTCGCTGACGAGTGGCGGAC -GGGTGAGTAATGTCTGGGAAACTGCCTGATGGAGGGGGATAACTACTGGAAACGGTAGCTAATACCGCAT -AACGTCGCAAGACCAAAGAGGGGGACCTTCGGGCCTCTTGCCATCAGATGTGCCCAGATGGGATTAGCTA -GTAGGTGGGGTAACGGCTCACCTAGGCGACGATCCCTAGCTGGTCTGAGAGGATGACCAGCCACACTGGA -ACTGAGACACGGTCCAGACTCCTACGGGAGGCAGCAGTGGGGAATATTGCACAATGGGCGCAAGCCTGAT -GCAGCCATGCCGCGTGTATGAAGAAGGCCTTCGGGTTGTAAAGTACTTTCAGCGGGGAGGAAGGGAGTAA -AGTTAATACCTTTGCTCATTGACGTTACCCGCAGAAGAAGCACCGGCTAACTCCGTGCCAGCAGCCGCGG -TAATACGGAGGGTGCAAGCGTTAATCGGAATTACTGGGCGTAAAGCGCACGCAGGCGGTTTGTTAAGTCA -GATGTGAAATCCCCGGGCTCAACCTGGGAACTGCATCTGATACTGGCAAGCTTGAGTCTCGTAGAGGGGG -GTAGAATTCCAGGTGTAGCGGTGAAATGCGTAGAGATCTGGAGGAATACCGGTGGCGAAGGCGGCCCCCT -GGACGAAGACTGACGCTCAGGTGCGAAAGCGTGGGGAGCAAACAGGATTAGATACCCTGGTAGTCCACGC -CGTAAACGATGTCGACTTGGAGGTTGTGCCCTTGAGGCGTGGCTTCCGGAGCTAACGCGTTAAGTCGACC -GCCTGGGGAGTACGGCCGCAAGGTTAAAACTCAAATGAATTGACGGGGGCCCGCACAAGCGGTGGAGCAT -GTGGTTTAATTCGATGCAACGCGAAGAACCTTACCTGGTCTTGACATCCACGGAAGTTTTCAGAGATGAG -AATGTGCCTTCGGGAACCGTGAGACAGGTGCTGCATGGCTGTCGTCAGCTCGTGTTGTGAAATGTTGGGT -TAAGTCCCGCAACGAGCGCAACCCTTATCCTTTGTTGCCAGCGGTCCGGCCGGGAACTCAAAGGAGACTG -CCAGTGATAAACTGGAGGAAGGTGGGGATGACGTCAAGTCATCATGGCCCTTACGACCAGGGCTACACAC -GTGCTACAATGGCGCATACAAAGAGAAGCGACCTCGCGAGAGCAAGCGGACCTCATAAAGTGCGTCGTAG -TCCGGATTGGAGTCTGCAACTCGACTCCATGAAGTCGGAATCGCTAGTAATCGTGGATCAGAATGCCACG -GTGAATACGTTCCCGGGCCTTGTACACACCGCCCGTCACACCATGGGAGTGGGTTGCAAAAGAAGTAGGT -AGCTTAACCTTCGGGAGGGCGCTTACCACTTTGTGATTCATGACTGGGGTGAAGTCGTAACAAGGTAACC -GTAGGGGAACCTGCGGTTGGATCACCTCCTTACCTTAAAGAAGCGTTCTTTGCAGTGCTCACACAGATTG -TCTGATAGGAAGTGAAAAGCAAGGCGTCTTGCGAAGCAGACTGATACGTCCCCTTCGTCTAGAGGCCCAG -GACACCGCCCTTTCACGGCGGTAACAGGGGTTCGAATCCCCTAGGGGACGCCACTTGCTGGTTTGTGAGT -GAAAGTCACCTGCCTTAATATCTCAAAACTCATCTTCGGGTGATGTTTGAGATATTTGCTCTTTAAAAAT -CTGGATCAAGCTGAAAATTGAAACACTGAACAACGAAAGTTGTTCGTGAGTCTCTCAAATTTTCGCAACA -CGATGATGAATCGAAAGAAACATCTTCGGGTTGTGAGGTTAAGCGACTAAGCGTACACGGTGGATGCCCT -GGCAGTCAGAGGCGATGAAGGACGTGCTAATCTGCGATAAGCGTCGGTAAGGTGATATGAACCGTTATAA -CCGGCGATTTCCGAATGGGGAAACCCAGTGTGTTTCGACACACTATCATTAACTGAATCCATAGGTTAAT -GAGGCGAACCGGGGGAACTGAAACATCTAAGTACCCCGAGGAAAAGAAATCAACCGAGATTCCCCCAGTA -GCGGCGAGCGAACGGGGAGCAGCCCAGAGCCTGAATCAGTATGTGTGTTAGTGGAAGCGTCTGGAAAGGC -GCGCGATACAGGGTGACAGCCCCGTACACAAAAATGCACATATTGTGAGCTCGATGAGTAGGGCGGGACA -CGTGGTATCCTGTCTGAATATGGGGGGACCATCCTCCAAGGCTAAATACTCCTGACTGACCGATAGTGAA -CCAGTACCGTGAGGGAAAGGCGAAAAGAACCCCGGCGAGGGGAGTGAAAAAGAACCTGAAACCGTGTACG -TACAAGCAGTGGGAGCACGCTTAGGCGTGTGACTGCGTACCTTTTGTATAATGGGTCAGCGACTTATATT -CTGTAGCAAGGTTAACCGAATAGGGGAGCCGAAGGGAAACCGAGTCTTAACTGGGCGTTAAGTTGCAGGG -TATAGACCCGAAACCCGGTGATCTAGCCATGGGCAGGTTGAAGGTTGGGTAACACTAACTGGAGGACCGA -ACCGACTAATGTTGAAAAATTAGCGGATGACTTGTGGCTGGGGGTGAAAGGCCAATCAAACCGGGAGATA -GCTGGTTCTCCCCGAAAGCTATTTAGGTAGCGCCTCGTGAATTCATCTCCGGGGGTAGAGCACTGTTTCG -GCAAGGGGGTCATCCCGACTTACCAACCCGATGCAAACTGCGAATACCGGAGAATGTTATCACGGGAGAC -ACACGGCGGGTGCTAACGTCCGTCGTGAAGAGGGAAACAACCCAGACCGCCAGCTAAGGTCCCAAAGTCA -TGGTTAAGTGGGAAACGATGTGGGAAGGCCCAGACAGCCAGGATGTTGGCTTAGAAGCAGCCATCATTTA -AAGAAAGCGTAATAGCTCACTGGTCGAGTCGGCCTGCGCGGAAGATGTAACGGGGCTAAACCATGCACCG -AAGCTGCGGCAGCGACGCTTATGCGTTGTTGGGTAGGGGAGCGTTCTGTAAGCCTGCGAAGGTGTGCTGT -GAGGCATGCTGGAGGTATCAGAAGTGCGAATGCTGACATAAGTAACGATAAAGCGGGTGAAAAGCCCGCT -CGCCGGAAGACCAAGGGTTCCTGTCCAACGTTAATCGGGGCAGGGTGAGTCGACCCCTAAGGCGAGGCCG -AAAGGCGTAGTCGATGGGAAACAGGTTAATATTCCTGTACTTGGTGTTACTGCGAAGGGGGGACGGAGAA -GGCTATGTTGGCCGGGCGACGGTTGTCCCGGTTTAAGCGTGTAGGCTGGTTTTCCAGGCAAATCCGGAAA -ATCAAGGCTGAGGCGTGATGACGAGGCACTACGGTGCTGAAGCAACAAATGCCCTGCTTCCAGGAAAAGC -CTCTAAGCATCAGGTAACATCAAATCGTACCCCAAACCGACACAGGTGGTCAGGTAGAGAATACCAAGGC -GCTTGAGAGAACTCGGGTGAAGGAACTAGGCAAAATGGTGCCGTAACTTCGGGAGAAGGCACGCTGATAT -GTAGGTGAAGCGACTTGCTCGTGGAGCTGAAATCAGTCGAAGATACCAGCTGGCTGCAACTGTTTATTAA -AAACACAGCACTGTGCAAACACGAAAGTGGACGTATACGGTGTGACGCCTGCCCGGTGCCGGAAGGTTAA -TTGATGGGGTCAGCGCAAGCGAAGCTCTTGATCGAAGCCCCGGTAAACGGCGGCCGTAACTATAACGGTC -CTAAGGTAGCGAAATTCCTTGTCGGGTAAGTTCCGACCTGCACGAATGGCGTAATGATGGCCAGGCTGTC -TCCACCCGAGACTCAGTGAAATTGAACTCGCTGTGAAGATGCAGTGTACCCGCGGCAAGACGGAAAGACC -CCGTGAACCTTTACTATAGCTTGACACTGAACATTGAGCCTTGATGTGTAGGATAGGTGGGAGGCTTTGA -AGTGTGGACGCCAGTCTGCATGGAGCCGACCTTGAAATACCACCCTTTAATGTTTGATGTTCTAACGTGG -ACCCGTGATCCGGGTTGCGGACAGTGTCTGGTGGGTAGTTTGACTGGGGCGGTCTCCTCCTAAAGAGTAA -CGGAGGAGCACGAAGGTTGGCTAATCCTGGTCGGACATCAGGAGGTTAGTGCAATGGCATAAGCCAGCTT -GACTGCGAGCGTGACGGCGCGAGCAGGTGCGAAAGCAGGTCATAGTGATCCGGTGGTTCTGAATGGAAGG -GCCATCGCTCAACGGATAAAAGGTACTCCGGGGATAACAGGCTGATACCGCCCAAGAGTTCATATCGACG -GCGGTGTTTGGCACCTCGATGTCGGCTCATCACATCCTGGAGCTGAAGTAGGTCCCAAGGGTATGGCTGT -TCGCCATTTAAAGTGGTACGCGAGCTGGGTTTAGAACGTCGTGAGACAGTTCGGTCCCTATCTGCCGTGG -GCGCTGGAGAACTGAGGGGGGCTGCTCCTAGTACGAGAGGACCGGAGTGGACGCATCACTGGTGTTCGGG -TTGTCATGCCAATGGCACTGCCCGGTAGCTAAATGCGGAAGAGATAAGTGCTGAAAGCATCTAAGCACGA -AACTTGCCCCGAGATGAGTTCTCCCTGACTCCTTGAGAGTCCTGAAGGAACGTTGAAGACGACGACGTTG -ATAGGCCGGGTGTGTAAGCGCAGCGATGCGTTGAGCTAACCGGTACTAATGAACCGTGAGGCTTAACCTT -ACAACGCCGAAGATGTTTTGGCGGATGAGAGAAGATTTTCAGCCTGATACAGATTAAATCAGAACGCAGA -AGCGGTCTGATGAAACAGAATTTGCCTGGCGGCCGTAGCGCGGTGGTCCCACCTGACCCCATGCCGAACT -CAGAAGTGAAACGCCGTAGCGCCGATGGTAGTGTGGGGTCTCCCCATGCGAGAGTAGGGAACTGCCAGGC -ATCAAATTAAGCAGTAAGCCGGTCATAAAACCGGTGGTTGTAAAAGAATTCGGTGGAGCGGTAGTTCAGT -CGGTTAGAATACCTGCCTGTCACGCAGGGGGTCGCGGGTTCGAGTCCCGTCCGTTCCGCCACCCTAATTA -GGGGCGTAGTTCAATTGGTAGAGCACCGGTCTCCAAAACCGGGTGTTGGGAGTTCGAGTCTCTCCGCCCC -TGCCAGAAATCATCCTTAGCGAAAGCTAAGGATTTTTTTTATCTGAAATAACCCTCTCCGAAGTAAATCC -TTCTACCGGCATCCTTGCCAGCCATTCATATTAATACACTTCATCCAGCACGTTAATTTTCAAAAGATCG -CGAATCAACGCATTTTTATCGCTATTTTGCAGCCATATGGCATAAAGCGGCCGTGAAAGTGTTGTGCTAT -CGACAACGGTATGCAGGCCGCCTTTTTTACGCGCCCAGCTGACGGGTAGCCAGGTGCAACCATTAAGCAT -CGCAATCTGTTGCTGTGCCAGTTCAGCAGAACTGGTTGTCAGAATGGGCACTTCGTCAGCACCGATCAAA -CCTGCCTCATGCTGTTGAAAATCTGGCCCCCACTCAAGTCGCAGATAATTAAGATCTCCCTTTAGTTTTG -AAGGGGCACTGGTATAAAGCGCTAAAGTGAAATATCCCAGCAACTGACTACTAAATTCGTCCATTTTGGG -CGCTTCAGTGGTAATAAGAAGATCAAGCTGGCGTTCATGCAGCTGTTTTACCAGAGACTGCCGTTGGGCA -ATTCGCGCTTCGAACTGTAAGCCTGTATGGGCATCCTGATTTTGATACAAGCGTCCCAGCCACTGATTAA -GCATACATTCCCACAACGAGGCGCTGGCACCGATAGAAAACTCGTTATGTCGTGAGGTATGCGCCACCTC -CTTACGGGCGGCCTGCCAGGTGCTCATGAGCGTTTCTGCATAAGGCAGTAGTTTTTCACCGGCAGCGGTT -AAACGGATATTGTTTCTGTGGCGGGTGAAAAGGTTCACACCCAGTTGATTTTCCAGTTGTCTGATTCGAA -AGCTCACTGCTGACTGGGTCAGATAGAGCGATTCAGCCGCTCGACCAAAGTGACGCGTTCGGCTAACTTC -CAGGAAAGTTTTTAACAATTCCGTATCCACAGTGCTCTCCGCAAAATTATTTGTCGTTATGATTTAAATG -TTTTGTTTTACACTCTGTCAAGCGTAACTAATACTCCGCGCCATAACTAGCTCGGTCAAAGAATTAGGAG -CGTGCAGGATGGCGGAAAGCTTTACGACGACTAATCGATATTTCGACAATAAACATTATCCACGTGGATT -CTCTCGTCATGGTGATTTCACCATCAAAGAGGCACAACTGCTTGAGCGTCATGGTTATGCCTTCAATGAG -TTGGATCTTGGCAAACGCGAGCCGGTTACCGAGGAAGAGAAACTCTTCGTAGCAGTATGCCGTGGCGAAC -GTGAGCCAGTGACAGAAGCAGAACGCGTGTGGTCCAAGTATATGACGCGTATTAAGCGTCCAAAACGTTT -TCACACCCTTTCCGGCGGTAAACCGCAGGTTGAAGGTGCTGAAGACTACACCGATTCTGACGATTAATAA -AAAGGGCGAAATGCCCTTTTTTTATGTCAGTAGTTTCTGCAGATGGATGAGCAAACGGTCAATCGCTCGA -TAGCTAACTGCCTCCTGCAAATGCTGACGTGTGATAATGTCAGACTGATCAATATCAGCAATGGTTCGTG -CAACTTTCAATAACCGCTGCCAGGCACGAATCGATAACCCCAGATGGATCAGTGTTCCTTCCAACCACAT -CGCATCTTCGCTCTCAAGTTTGCAGAATTGGCGTATTTCCGGACTATCCAGCCAGGCATTCAGTTTATTC -TGCCGCTTAAATTGGCGCTCTCTGGCGGCCATTACGCGTTGTTTAACGGTGGCGCTGCTTTCTCCCGGCA -CTACCGTTTTACTCAAAATGCCGGGGGGTGGTAATGGGATCTCCAGTGAGAGATCGAAGCGGTCGAGAAA -GGGCCCCGAGAGCCGGTTGAGATAACGTAATGTCTGTTCTGGCGTGCAGCGGTTATGGTTTCCCTGATAA -TGTCCGGTAGGGCTGGGATTCATCGCCGCAACAAGCTGGAAACGGGCTGGATAGGTTATTTTTGCTCGTG -TGCGTGAAAGATGGATCTGCCCGGATTCAATCGGCTCTCGCAAGGCATCCAGTGTACGCCGTTCAAATTC -AGGTAGCTCATCAAGAAAAAGCACGCCGTTATGCGCCAGCGAAATTTCACCGGGCCCTGGAATTGCGCCA -CCGCCTACCATCGCAGTTAACGATGCACTGTGATGAGGTGAGCGGAACGGGCGCTGCCGCCATTGTTTTT -GTACTGATTCAGCATTTACCAGACTTAATATCGCAGCACTCTCCAGTGCCTCTTCATTGCTTAAATCTGG -CAACAGGCCATTAATACGGCTGGCGAGCATTGTTTTACCTGTTCCCGGCGGCCCAATCAGTAAAAGGTTG -TGCCCGCCAGCAGCGGTAATTTCCAGTCCTCGCTTTCCTTGTTCCTGACCGATAACATCACTGAGATCAT -GTTGTAGCGCCCGGGATACTGCATCAGTTGGTTTCGGGCGTTCGAGAGCGTGCTTACCTTCCAGAAACGC -ACAGACAGCTTGCAGATGATCGGCTATCAGGCATCCTTCACCGTTAATTAGCCCCACTTCATCTTCGTTA -TCTTTCGCGACGATAATTTTTCTGCCCGACTTAATAGCTTCAGTTGCACTGGAGATTGCGCCGGGAACGC -CACGCAGAGCGCCTGTAAGCGCCAGTTCTCCGACTAATTCATATTCATCTAACTTATTGGCTGTAAGCTG -TTCTGAGGCCGCCAGCAACGCAATGGCGATAGGTAAATCATATCGTCCCCCTTCTTTTGGCAGATCAGCT -GGAGCCAGGTTGATGGTGATTTTTTTCGCCGGATATTCATATCCGCTATTGATAATGGCGCTGCGCACGC -GATCGCGAGCTTCTTTTACCGTTGTTTCTGGTAAGCCCACCATCGTTAAGCCGGGTAGACCTTTACTGAT -ATGTACCTCAACAGTGATCGGGGGCGCATTTACTCCCAGGGCTGCGCGGGTATGAACAATTGACAGTGAC -ATAAGCCCTCCTTGAGTCACCATTATGTGCATAAGATATCGCTGCTGTAGCCCGCTAATTCGTGAATTTT -AGTGGCTGATTCCTGTTTATTTGTGCAAGTGAAGTTGAGTTGTTCTGGCGGTGGAATGATGCTCGCAAAA -ATGCAGCGGACAAAGGATGAACTACGAGGAAGGGAACAACATTCATACTGAAATTGAATTTTTTTCACTC -ACTATTTTATTTTTAAAAAACAACAATTTATATTGAAATTATTAAACGCATCATAAAAATCGGCCAAAAA -ATATCTTGTACTATTTACAAAACCTATGGTAACTCTTTAGGCATTCCTTCGAACAAGATGCAAGAAAAGA -CAAAATGACAGCCCTTCTACGAGTGATTAGCCTGGTCGTGATTAGCGTGGTGGTGATTATTATCCCACCG -TGCGGGGCTGCACTTGGACGAGGAAAGGCTTAGAGATCAAGCCTTAACGAACTAAGACCCCCGCACCGAA -AGGTCCGGGGGTTTTTTTTGACCTTAAAAACATAACCGAGGAGCAGACAATGAATAACAGCACAAAATTC -TGTTTCTCAAGATTCAGGACGGGGAACTAACTATGAATGGCGCACAGTGGGTGGTACATGCGTTGCGGGC -ACAGGGTGTGAACACCGTTTTCGGTTATCCGGGTGGCGCAATTATGCCGGTTTACGATGCATTGTATGAC -GGCGGCGTGGAGCACTTGCTATGCCGACATGAGCAGGGTGCGGCAATGGCGGCTATCGGTTATGCTCGTG -CTACCGGCAAAACTGGCGTATGTATCGCCACGTCTGGTCCGGGCGCAACCAACCTGATAACCGGGCTTGC -GGACGCACTGTTAGATTCCATCCCTGTTGTTGCCATCACCGGTCAAGTGTCCGCACCGTTTATCGGCACT -GACGCATTTCAGGAAGTGGATGTCCTGGGATTGTCGTTAGCCTGTACCAAGCACAGCTTTCTGGTGCAGT -CGCTGGAAGAGTTGCCGCGCATCATGGCTGAAGCATTCGACGTTGCCTGCTCAGGTCGTCCTGGTCCGGT -TCTGGTCGATATCCCAAAAGATATCCAGTTAGCCAGCGGTGACCTGGAACCGTGGTTCACCACCGTTGAA -AACGAAGTGACTTTCCCACATGCCGAAGTTGAGCAAGCGCGCCAGATGCTGGCAAAAGCGCAAAAACCGA -TGCTGTACGTTGGCGGTGGCGTGGGTATGGCGCAGGCAGTTCCGGCTTTGCGTGAATTTCTCGCTGCCAC -AAAAATGCCTGCCACCTGTACGCTGAAAGGGCTGGGCGCAGTAGAAGCAGATTATCCGTACTATCTGGGC -ATGCTGGGGATGCACGGCACCAAAGCGGCAAACTTCGCGGTGCAGGAGTGTGACCTGCTGATCGCCGTGG -GCGCACGTTTTGATGACCGGGTGACCGGCAAACTGAACACCTTCGCGCCACACGCCAGTGTTATCCATAT -GGATATCGACCCGGCAGAAATGAACAAGCTGCGTCAGGCACATGTGGCATTACAAGGTGATTTAAATGCT -CTGTTACCAGCATTACAGCAGCCGTTAAATCAATGACTGGCAGCAACACTGCGCGCAGCTGCGTGATGAA -CATTCCTGGCGTTACGACCATCCCGGTGACGCTATCTACGCGCCGTTGTTGTTAAAACAACTGTCGGATC -GTAAACCTGCGGATTGCGTCGTGACCACAGATGTGGGGCAGCACCAGATGTGGGCTGCGCAGCACATCGC -CCACACTCGCCCGGAAAATTTCATCACCTCCAGCGGTTTAGGTACCATGGGTTTTGGTTTACCGGCGGCG -GTTGGCGCACAAGTCGCGCGACCGAACGATACCGTTGTCTGTATCTCCGGTGACGGCTCTTTCATGATGA -ATGTGCAAGAGCTGGGCACCGTAAAACGCAAGCAGTTACCGTTGAAAATCGTCTTACTCGATAACCAACG -GTTAGGGATGGTTCGACAATGGCAGCAACTGTTTTTTCAGGAACGATACAGCGAAACCACCCTTACTGAT -AACCCCGATTTCCTCATGTTAGCCAGCGCCTTCGGCATCCATGGCCAACACATCACCCGGAAAGACCAGG -TTGAAGCGGCACTCGACACCATGCTGAACAGTGATGGGCCATACCTGCTTCATGTCTCAATCGACGAACT -TGAGAACGTCTGGCCGCTGGTGCCGCCTGGCGCCAGTAATTCAGAAATGTTGGAGAAATTATCATGATGC -AACATCAGGTCAATGTATCGGCTCGCTTCAATCCAGAAACCTTAGAACGTGTTTTACGCGTGGTGCGTCA -TCGTGGTTTCCACGTCTGCTCAATGAATATGGCCGCCGCCAGCGATGCACAAAATATAAATATCGAATTG -ACCGTTGCCAGCCCACGGTCGGTCGACTTACTGTTTAGTCAGTTAAATAAACTGGTGGACGTCGCACACG -TTGCCATCTGCCAGAGCACAACCACATCACAACAAATCCGCGCCTGAGCGCAAAAGGAATATAAAAATGA -CCACGAAGAAAGCTGATTACATTTGGTTCAATGGGGAGATGGTTCGCTGGGAAGACGCGAAGGTGCATGT -GATGTCGCACGCGCTGCACTATGGCACTTCGGTTTTTGAAGGCATCCGTTGCTACGACTCGCACAAAGGA -CCGGTTGTATTCCGCCATCGTGAGCATATGCAGCGTCTGCATGACTCCGCCAAAATCTATCGCTTCCCGG -TTTCGCAGAGCATTGATGAGCTGATGGAAGCTTGTCGTGACGTGATCCGCAAAAACAATCTCACCAGCGC -CTATATCCGTCCGCTGATCTTCGTCGGTGATGTTGGCATGGGAGTAAACCCGCCAGCGGGATACTCAACC -GACGTGATTATCGCTGCTTTCCCGTGGGGAGCGTATCTGGGCGCAGAAGCGCTGGAGCAGGGGATCGATG -CGATGGTTTCCTCCTGGAACCGCGCAGCACCAAACACCATCCCGACGGCGGCAAAAGCCGGTGGTAACTA -CCTCTCTTCCCTGCTGGTGGGTAGCGAAGCGCGCCGCCACGGTTATCAGGAAGGTATCGCGCTGGATGTG -AACGGTTATATCTCTGAAGGCGCAGGCGAAAACCTGTTTGAAGTGAAAGATGGTGTGCTGTTCACCCCAC -CGTTCACCTCCTCCGCGCTGCCGGGTATTACCCGTGATGCCATCATCAAACTGGCGAAAGAGCTGGGAAT -TGAAGTACGTGAGCAGGTGCTGTCGCGCGAATCCCTGTACCTGGCGGATGAAGTGTTTATGTCCGGTACG -GCGGCAGAAATCACGCCAGTGCGCAGCGTAGACGGTATTCAGGTTGGCGAAGGCCGTTGTGGCCCGGTTA -CCAAACGCATTCAGCAAGCCTTCTTCGGCCTCTTCACTGGCGAAACCGAAGATAAATGGGGCTGGTTAGA -TCAAGTTAATCAATAAATACAAAAAATGGGACGGCACGCACCGTCCCATTTACGAGACAGACACTGGGAG -TAAATAAAGTATGCCTAAGTACCGTTCCGCCACCACCACTCATGGTCGTAATATGGCGGGTGCTCGTGCG -CTGTGGCGCGCCACCGGAATGACCGACGCCGATTTCGGTAAGCCGATTATCGCGGTTGTGAACTCGTTCA -CCCAATTTGTACCGGGTCACGTCCATCTGCGCGATCTCGGTAAACTGGTCGCCGAACAAATTGAAGCGGC -TGGCGGCGTTGCCAAAGAGTTCAACACCATTGCGGTGGATGATGGGATTGCCATGGGCCACGGGGGGATG -CTTTATTCACTGCCATCTCGCGAACTGATCGCTGATTCCGTTGAGTATATGGTCAACGCCCACTGCGCCG -ACGCCATGGTCTGCATCTCTAACTGCGACAAAATCACCCCGGGGATGCTGATGGCTTCCCTGCGCCTGAA -TATTCCGGTGATCTTTGTTTCCGGCGGCCCGATGGAGGCCGGGAAAACCAAACTTTCCGATCAGATCATC -AAGCTCGATCTGGTTGATGCGATGATCCAGGGCGCAGACCCGAAAGTATCTGACTCCCAGAGCGATCAGG -TTGAACGTTCCGCGTGTCCGACCTGCGGTTCCTGCTCCGGGATGTTTACCGCTAACTCAATGAACTGCCT -GACCGAAGCGCTGGGCCTGTCGCAGCCGGGCAACGGCTCGCTGCTGGCAACCCACGCCGACCGTAAGCAG -CTGTTCCTTAATGCTGGTAAACGCATTGTTGAATTGACCAAACGTTATTACGAGCAAAACGACGAAAGTG -CACTGCCGCGTAATATCGCCAGTAAGGCGGCGTTTGAAAACGCCATGACGCTGGATATCGCGATGGGTGG -ATCGACTAACACCGTACTTCACCTGCTGGCGGCGGCGCAGGAAGCGGAAATCGACTTCACCATGAGTGAT -ATCGATAAGCTTTCCCGCAAGGTTCCACAGCTGTGTAAAGTTGCGCCGAGCACCCAGAAATACCATATGG -AAGATGTTCACCGTGCTGGTGGTGTTATCGGTATTCTCGGCGAACTGGATCGCGCGGGGTTACTGAACCG -TGATGTGAAAAACGTACTTGGCCTGACGTTGCCGCAAACGCTGGAACAATACGACGTTATGCTGACCCAG -GATGACGCGGTAAAAAATATGTTCCGCGCAGGTCCTGCAGGCATTCGTACCACACAGGCATTCTCGCAAG -ATTGCCGTTGGGATACGCTGGACGACGATCGCGCCAATGGCTGTATCCGCTCGCTGGAACACGCCTACAG -CAAAGACGGCGGCCTGGCGGTGCTCTACGGTAACTTTGCGGAAAACGGCTGCATCGTGAAAACGGCAGGC -GTCGATGACAGCATCCTCAAATTCACCGGCCCGGCGAAAGTGTACGAAAGCCAGGACGATGCGGTAGAAG -CGATTCTCGGCGGTAAAGTTGTCGCCGGAGATGTGGTAGTAATTCGCTATGAAGGCCCGAAAGGCGGTCC -GGGGATGCAGGAAATGCTCTACCCAACCAGCTTCCTGAAATCAATGGGTCTCGGCAAAGCCTGTGCGCTG -ATCACCGACGGTCGTTTCTCTGGTGGCACCTCTGGTCTTTCCATCGGCCACGTCTCACCGGAAGCGGCAA -GCGGCGGCAGCATTGGCCTGATTGAAGATGGTGACCTGATCGCTATCGACATCCCGAACCGTGGCATTCA -GTTACAGGTAAGCGATGCCGAACTGGCGGCGCGTCGTGAAGCGCAGGACGCTCGAGGTGACAAAGCCTGG -ACGCCGAAAAATCGTGAACGTCAGGTCTCCTTTGCCCTGCGTGCTTATGCCAGCCTGGCAACCAGCGCCG -ACAAAGGCGCGGTGCGTGATAAATCGAAACTGGGGGGTTAATAATGGCTGACTCGCAACCCCTGTCCGGT -GCTCCGGAAGGTGCCGAATATTTAAGAGCAGTGCTGCGCGCGCCGGTTTACGAGGCGGCGCAGGTTACGC -CGCTACAAAAAATGGAAAAACTGTCGTCGCGTCTTGATAACGTCATTCTGGTGAAGCGCGAAGATCGCCA -GCCAGTGCACAGCTTTAAGCTGCGCGGCGCATACGCCATGATGGCGGGCCTGACGGAAGAACAGAAAGCG -CACGGCGTGATCACTGCTTCTGCGGGTAACCACGCGCAGGGCGTCGCGTTTTCTTCTGCGCGGTTAGGCG -TGAAGGCCCTGATCGTTATGCCAACCGCCACCGCCGACATCAAAGTCGACGCGGTGCGCGGCTTCGGCGG -CGAAGTGCTGCTCCACGGCGCGAACTTTGATGAAGCGAAAGCCAAAGCGATCGAACTGTCACAGCAGCAG -GGGTTCACCTGGGTGCCGCCGTTCGACCATCCGATGGTGATTGCCGGGCAAGGCACGCTGGCGCTGGAAC -TGCTCCAGCAGGACGCCCATCTCGACCGCGTATTTGTGCCAGTCGGCGGCGGCGGTCTGGCTGCTGGCGT -GGCGGTGCTGATCAAACAACTGATGCCGCAAATCAAAGTGATCGCCGTAGAAGCGGAAGACTCCGCCTGC -CTGAAAGCAGCGCTGGATGCGGGTCATCCGGTTGATCTGCCGCGCGTAGGGCTATTTGCTGAAGGCGTAG -CGGTAAAACGCATCGGTGACGAAACCTTCCGTTTATGCCAGGAGTATCTCGACGACATCATCACCGTCGA -TAGCGATGCGATCTGTGCGGCGATGAAGGATTTATTCGAAGATGTGCGCGCGGTGGCGGAACCCTCTGGC -GCGCTGGCGCTGGCGGGAATGAAAAAATATATCGCCCTGCACAACATTCGCGGCGAACGGCTGGCGCATA -TTCTTTCCGGTGCCAACGTGAACTTCCACGGCCTGCGCTACGTCTCAGAACGCTGCGAACTGGGCGAACA -GCGTGAAGCGTTGTTGGCGGTGACCATTCCGGAAGAAAAAGGCAGCTTCCTCAAATTCTGCCAACTGCTT -GGCGGGCGTTCGGTCACCGAGTTCAACTACCGTTTTGCCGATGCCAAAAACGCCTGCATCTTTGTCGGTG -TGCGCCTGAGCCGCGGCCTCGAAGAGCGCAAAGAAATTTTGCAGATGCTCAACGACGGCGGCTACAGCGT -GGTTGATCTCTCCGACGACGAAATGGCGAAGCTACACGTGCGCTATATGGTCGGCGGACGTCCATCGCAT -CCGTTGCAGGAACGCCTCTACAGCTTCGAATTCCCGGAATCACCGGGCGCGCTGCTGCGCTTCCTCAACA -CGCTGGGTACGTACTGGAACATTTCTTTGTTCCACTATCGCAGCCATGGCACCGACTACGGGCGCGTACT -GGCGGCGTTCGAACTTGGCGACCATGAACCGGATTTCGAAACCCGGCTGAATGAGCTGGGCTACGATTGC -CACGACGAAACCAATAACCCGGCGTTCAGGTTCTTTTTGGCGGGTTAGGGAAAAATGCCTGATAGCGCTT -CGCTTATCAGGCCTACCCGCGCGACAACGTCATTTGTGGTTCGGCAAAATCTTCCAGAATGCCTCAATTA -GCGGCTCATGTAGCCGCTTTTTCTGCGCACACACGCCCAGCTCAAACGGCGTTTTCTCATCGCTGCGCTC -TAAAATCATCACGCGGTTACGCACCGGTTCGGGGCTGTTTTCCAGCACCACTTCCGGCAACAATGCCACG -CCACAGCCGAGTGCCACCATCGATACCATCGCTTCATGCCCGCCAACCGTGGCGTAAATCATCGGGTTAC -TGATTTTATTGCGTCGAAACCACAGTTCAATGCGGCGGCGTACCGGCCCCTGATCGGCCATAATAAACGG -CACCGTTGACCAGTCCGGCTTCTCTACCGACACCTGATTACGCACCGGGCAGGGCAGCGCGGGGGCAATC -AGCACTACTGCCAGATTCTCCAGCATCGAAAACGCCACTGCGCCGGGCAAGGTTTCCGGTTTACCCGCAA -TCGCCAGATCCGCTTCACCAGTGACCACCTTTTCCATCGCATCTGCCGCATCACCAGTAGTAAGTTTAAT -CTCCACCGACGGGTGTTCCGCGCGGAAGCGATCCAGAATCGGCGGCAGATGGCTGTAGGCAGCGGTCACC -GAGCAGAAGATATGTAATTCGCCAGAGAGCGACGGCCCTTGCTGATCGATGGTGTGGCGCAACTGCTGAT -ACTGCAACAGCGTTTGCTGGGCGAAAACGCGCAGCTCTTCGCCCGCTTCAGTCAGCGTCACCGTGCGGTT -ATCGCGCACAAACAGCGGCTGACCGAGATCTTCTTCCAGGCGCTGAATCTGCCGTGAGAGCGTGGATGGG -CTAACGTGCATCGCCCGCGCGCTGCGGCCAAAATGGCGGCTTTCCGCCAGATGCAGGAAGGTTTTCAGAT -CGCGTAAATCCACAGGGACAGCCCTCGATGTTGACGTTGCAAAAATTGCAATGTGACGTTGTGAATATAT -CAATTTCCGCAATAAATTTCCTGTCATATAGTGAATTCAATCTCGCAAACGCGAACCGAACAATAAGAAG -CACAACATCACGAGGAATCACCATGGCTAACTACTTCAATACACTGAATCTGCGCCAGCAGCTGGCACAG -CTGGGCAAATGTCGCTTTATGGGCCGCGATGAATTCGCCGATGGCGCGAGCTACCTTCAGGGTAAAAAAG -TAGTCATCGTCGGCTGTGGCGCACAGGGTCTGAACCAGGGCCTGAACATGCGTGATTCTGGTCTCGATAT -CTCCTACGCTCTGCGTAAAGAAGCGATTGCCGAGAAGCGCGCGTCCTGGCGTAAAGCGACCGAAAATGGT -TTTAAAGTGGGTACTTACGAAGAACTGATCCCACAGGCGGATCTGGTGATTAACCTGACGCCGGACAAGC -AGCACTCTGATGTAGTGCGCACCGTACAGCCACTGATGAAAGACGGCGCGGCGCTGGGCTACTCGCACGG -TTTCAACATCGTCGAAGTGGGCGAGCAGATCCGTAAAGATATCACCGTAGTGATGGTTGCGCCGAAATGC -CCAGGCACCGAAGTGCGTGAAGAGTACAAACGTGGGTTCGGCGTACCGACGCTGATTGCCGTTCACCCGG -AAAACGATCCGAAAGGCGAAGGCATGGCGATTGCCAAAGCCTGGGCGGCTGCAACCGGTGGTCACCGTGC -GGGTGTGCTGGAATCGTCCTTCGTTGCGGAAGTGAAATCTGACCTGATGGGCGAGCAAACCATCCTGTGC -GGTATGTTGCAGGCTGGCTCTCTGCTGTGCTTCGACAAGCTGGTGGAAGAAGGTACCGATCCAGCATACG -CAGAAAAACTGATTCAGTTCGGTTGGGAAACCATCACCGAAGCACTGAAACAGGGCGGCATCACCCTGAT -GATGGACCGTCTCTCTAACCCGGCGAAACTGCGTGCTTATGCGCTTTCTGAACAGCTGAAAGAGATCATG -GCACCCCTGTTCCAGAAACATATGGACGACATCATCTCCGGCGAATTCTCTTCCGGTATGATGGCGGACT -GGGCCAACGATGATAAGAAACTGCTGACCTGGCGTGAAGAGACCGGCAAAACCGCGTTTGAAACCGCGCC -GCAGTATGAAGGCAAAATCGGCGAGCAGGAGTACTTCGATAAAGGCGTACTGATGATTGCGATGGTGAAA -GCGGGCGTTGAACTGGCGTTCGAAACCATGGTCGATTCCGGCATCATTGAAGAGTCTGCATATTATGAAT -CACTGCACGAGCTGCCGCTGATTGCCAACACCATCGCCCGTAAGCGTCTGTACGAAATGAACGTGGTTAT -CTCTGATACCGCTGAGTACGGTAACTATCTGTTCTCTTACGCTTGTGTGCCGTTGCTGAAACCGTTTATG -GCAGAGCTGCAACCGGGCGACCTGGGTAAAGCTATTCCGGAAGGCGCGGTAGATAACGGGCAACTGCGTG -ATGTGAACGAAGCGATTCGCAGCCATGCGATTGAGCAGGTAGGTAAGAAACTGCGCGGCTATATGACAGA -TATGAAACGTATTGCTGTTGCGGGTTAAGTGCGCGCTGATGCCCTCACCCCGACCCTCTCCCACAGGGAG -AGGGAGAAAACACTCAAGGCCTTCTCCTGGAGAAGGCCTTGCTATTAGTTGCGGTACAGCACCTTAATGA -TGTGATATCCGAACTGGGTGTGCAGCGGGCCGGTCGGCTCCAGTACCGGACAAGAGAAAACCACTTTATC -GAACGCCGGAACCATCTGACCCTGGCGGAATTCACCTAAATCACCGCCGCGTTTGCCTGATGGGCAAATG -GAGTGTTTCTTCGCCAGCTTGCCGAAATCGGCCCCGTTCTTAATCTGCTCGAGAAGATCCAGAGCCAGTT -TCTCTTCTTTTACAAGGATATGCAGTGCTGCTGCTGTTTTTGCCATGATCGTGCCTTGAGTGAATAATTG -TCAGGCGGCGATTTTAGCATGATCCGCAGATGCTAACGTAATTGTCAGTCAGGGAGTGGCTGGTACATAT -ATGGCAAAAGCCCGGAAAATCCGGGCTTCGCAGGTCCCTCAAGGGGAGAAAACTTAGGGCCTCTATGGGC -TACAAAGTCATTATCGGGGATGGTTATTTTATTGTCAATTTATGAGCGATATGGCATTGATTGACTTGAT -GACCGCCCTCTGTATGTCTGCAACCAACTCATGTGGCAAACATTGATTAAGATACCCTCTGTAAGTCCTT -GCTCTGTTTAATCTGTTTCGACTGACTTGTTGTACCAGGTCGGCTTTGGCCCAACGAATCTGCTGATCAA -AGAATTGCAGGTCATTGATAACATTACTGGCTATTTCAACATGCATTCCACGTTTTAACTTGTCTGGTCG -CGAGTGGTTGATAATGGAACGACGATGCATGCGTTGCCATTAATTTTTCCGTTGAGCACGACAACTAACC -TGTTTTTTATCATTTCAGGAGGAATGCGGCCATCGTAATACGTCGTGCTGAACGGTCCATTTTGGCTAAC -AGGATAGTTACCAAAGTTGCATTCCAGTATTTCACCAACCTTAGGGCTGAAATTAATCGCCACGAGTAAA -CCTCTCCTTAGTAAACTCTGAAAAAGTAATAACACAACGTTACGACCCGATATTTTCTAAGTCTAATGGA -TTCACGATGAACTCCGATTTCGGTCTTCTCTCTCTGATTTAAACATCCGCAGCCAACCGGTTAGCGGCTT -ACACGCGGTCACATTCAAATGCGATTCTGCTACAATCCTCCCCCCGTTCGAAGATTGAGCAATACACCTA -TGCGTCTAAACCCCGGCCAACAACAAGCTGTCGAATTCGTTACCGGCCCCTGCCTGGTGCTGGCGGGCGC -GGGTTCCGGTAAAACTCGTGTTATCACCAATAAAATCGCCCATCTGATCCGCGGTTGCGGTTATCAGGCG -CGGCACATTGCGGCGGTGACCTTTACTAATAAAGCAGCGCGCGAGATGAAAGAGCGTGTAGGGCAGACGC -TGGGGCGCAAAGAGGCGCGTGGGCTGATGATCTCCACTTTCCATACGTTGGGGCTGGATATCATCAAACG -CGAGTATGCGGCGCTTGGGATGAAAGCGAACTTCTCGTTGTTTGACGATACCGATCAGCTTGCTTTGCTT -AAAGAGTTGACCGAGGGGCTGATTGAAGATGACAAAGTTCTCCTGCAACAACTGATTTCGACCATCTCTA -ACTGGAAGAATGATCTCAAAACACCGTCCCAGGCGGCAGCAAGTGCGATTGGCGAGCGGGACCGTATTTT -TGCCCATTGTTATGGGCTGTATGATGCACACCTGAAAGCCTGTAACGTTCTCGACTTCGATGATCTGATT -TTATTGCCGACGTTGCTGCTGCAACGCAATGAAGAAGTCCGCAAGCGCTGGCAGAACAAAATTCGCTATC -TGCTGGTGGATGAGTATCAGGACACCAACACCAGCCAGTATGAGCTGGTGAAACTGCTGGTGGGCAGCCG -CGCGCGCTTTACCGTGGTGGGTGACGATGACCAGTCGATCTACTCCTGGCGCGGTGCACGTCCGCAAAAC -CTGGTGCTGCTGAGTCAGGATTTTCCGGCGCTGAAGGTGATTAAGCTTGAGCAGAACTATCGCTCTTCCG -GGCGTATTCTGAAAGCGGCGAACATCCTGATCGCCAATAACCCGCACGTCTTTGAAAAGCGTCTGTTCTC -CGAACTGGGTTATGGCGCGGAGCTAAAAGTATTAAGCGCGAATAACGAAGAACATGAGGCTGAGCGCGTT -ACTGGCGAGCTGATCGCCCATCACTTCGTCAATAAAACGCAGTACAAAGATTACGCCATTCTTTATCGCG -GTAACCATCAGTCGCGGGTGTTTGAAAAATTCCTGATGCAAAACCGCATCCCGTACAAAATATCTGGTGG -TACGTCGTTTTTCTCTCGTCCTGAAATCAAGGACTTGCTGGCTTATCTGCGCGTGCTGACTAACCCGGAC -GATGACAGCGCATTTCTGCGTATCGTTAACACGCCGAAGCGAGAGATTGGCCCGGCTACGCTGAAAAAGC -TGGGTGAGTGGGCGATGACGCGCAATAAAAGCATGTTTACCGCCAGCTTTGATATGGGCCTGAGTCAGAC -GCTTAGCGGACGTGGTTATGAAGCATTGACCCGCTTCACTCACTGGTTGGCAGAAATCCAGCGTCTGGCG -GAGCGGGAGCCGATTGCCGCGGTGCGTGATCTGATCCATGGCATGGATTATGAATCCTGGCTGTACGAAA -CATCGCCCAGCCCGAAAGCCGCCGAAATGCGCATGAAGAACGTCAACCAACTGTTTAGCTGGATGACGGA -GATGCTGGAAGGCAGTGAACTGGATGAGCCGATGACGCTCACCCAGGTGGTGACGCGCTTTACTTTGCGC -GACATGATGGAGCGTGGTGAGAGTGAAGAAGAGCTGGATCAGGTGCAACTGATGACTCTCCACGCGTCGA -AAGGGCTGGAGTTTCCTTATGTCTACATGGTCGGTATGGAAGAAGGGTTTTTGCCGCACCAGAGCAGCAT -CGATGAAGATAATATCGATGAGGAGCGGCGGCTGGCCTATGTCGGCATTACCCGCGCCCAGAAGGAATTG -ACCTTTACGCTGTGTAAAGAACGCCGTCAGTACGGCGAACTGGTGCGCCCGGAGCCGAGCCGCTTTTTGC -TGGAGCTGCCGCAGGATGATCTGATTTGGGAACAGGAGCGCAAAGTGGTCAGCGCCGAAGAACGGATGCA -GAAAGGGCAAAGCCATCTGGCGAATCTGAAAGCGATGATGGCGGCAAAACGAGGGAAATAATCAAGGCCG -GAAAAGATGCGTCAGCATCGCATCCGGCACTTACTCATTAATGCACTTCCAGCGGCCAGTGGACATAGCT -CTGCCACTGGCTTTCCTGAGCAATAATCTCTTTACCCAGCGGATGTTGGGTTAGCCAACCTTGCGGAAGC -GTCAAGGTCAACAGTTCATGGTTAGCCTGTAATGTCATCTCTGGCACGAGATCGTCACGGCGACGGCTGG -CAAAAATGATGGCCAGGCGTAGTAAACGGCAGAGTTGTTCTGCGACGCGCGGCGGTACGGCATTTTGCTG -ATGCAGCGATGAGAGATCGACCGGATTAGTCTGGTTGAGCAGTAGCGTCGCCAGCAATTTTTTCTGTGCG -GGGGTAAAACCGGGAAGATCCAGATTACGCACCAGATAAGCAGCGTGTTGCGGCGCTTGTTTGAAGTCAA -CGCTCAGGCCGATTTCATGAAGCTGACAGGCGCTGATGAGCAAATCGCGGCTTATTGCTTCAAGATGCCA -TTCGTTTTCCACCTGATCGAAGAAGTTAGCCGCAACTTTGGCTACGCGCTGTGCCTGATCAATATCGATC -ATAAAGCGGCGTTGAATATTACGCAGCGTACGGCTGCGAATATCCTGCTCGACGGCCAGATGCAACATGC -CGTAGACCAGGCCTTCACGCAGCGCACCGCCCGCCAGGGTCATACACTGAATATTCAGTTCGGTAAAAAT -GGCGATCAGGATCGCCAGACCACTCGGGAACACTAACGCACGTTCCAGCGTCAGCCCGTCAATCTCCAGT -TCCTCCAGCCGACCGCAATGAATGGCTCGCTGTTTCAATTGCTGCAACTTTTCCAGGGTAATGCGTTCAT -CCATCCCCTGTGCCATCATGATTTCCTGTAACGCCTGCACGGTGCCGGAAGCACCAACGCACACTTTCCA -GCCGTGATACCGTAATTCATCGGCAACCGGACGTAACACTTCGCGTGCCGCTTTTTCTGCAGCATCAAAA -TTTTCCTGCCCCAGATTACGATCGGCAAAATAGCGTTCCAGCCAGGTGACGCAGCCCATCGACAGGCTGA -ACAACGAGGTGGTTTGTGCACCCGTGCCGGTTACCAGTTCAGTACTGGCTCCGCCTATATCCACCACCAG -GCGCTGATCGGCACCACCAGTGGTGTGAGCAACGCCCTGATAAATCAGACGTGCTTCCTCTTCACCGCTG -ATCACCTGTACCGGACAACCGAGAATTTCCTGCGCTTTGGCAATAAAATCACCCGCATTGACGGCAAGGC -GTAACGTCGCCGTAGCGACAACGCGAATTTGCGAGGGAGGAATATCTTGCAGACGTTCAGCAAACAGGCG -CAAACATTGCCAACCGCGCTCCATTGCTTCATTGGAGAGGGCATTTTCGCTATTCAGGCCAGCAGCCAGA -CGCACTTTGCGTTTTATTCGCGTCAGCGTCTGGATGCTTCCAGCCACCTCGCGCACAACCAGCATATGAA -AACTATTCGAACCGAGATCAATGGCTGCATACAGCGACGAGGTGGAACCCATACTCTTCATCCTTCAATC -TGTCTCTGTGTTGGCTGCATTCTTTCACCTGAATCACTTACTACAGTAAGCTCATCGGGATTCATTCTCT -TGCCATCTTGATACAGTTTGAATGATTTTGAGTATGACATTTTTTATTTAACCTGAACGACGACGATTAC -GCGGAGCGCCAGTACGACGCGGACCATTGCCTGTGCGCGGGCGCGTGAGGCGCAGCGGTTTTGGCAGATC -GGTCATCAATGCGTCCGGATTGTATTTGCTTACCGGAATTGAGTGACCAATATAGGTCTCAATAGCAGGC -AAATTCAATGCATACTCTTCACACGCCAGGCTGATAGAGTGACCGCTTGCGCCTGCGCGACCTGTACGAC -CAATACGGTGAACGTAATCTTCACAGTCATCGGGTAAATCGTAGTTAAAGACGTGCGTCACTGCCGGAAT -ATGCAAACCACGCGCGGCAACGTCGGTGGCAACCAGAATATCCAGATCGCCACGGGTAAATTCATCAAGA -ATACGCAGACGTTTTTTCTGCGCGACATCGCCTGTCAATAAACCGACACGATGACCATCTGCTGCCAGGT -GGCCCCAGATCTCTTCACAACGGTGTTTGGTGTTGGCGAAAATAATCGCTCTGTCTGGCCACTCTTCTTC -GATCAGCGTTTGCAGCAAACGCATTTTTTCTTCGTTAGAAGGGTAGAAAAGCTCTTCTTTAATACGGTGG -CCCGTTTTCTGTTCCGGTTCCACTTCAATATATTCGGCATTGTTCATCTGCTCGAACGCCAGTTCACGTA -CCCGGTACGAAAGCGTGGCGGAGAACAGCATGTTGAGGCGCTGGTTTGCAGGCGGCATACGGCGGAACAG -CCAGCGGATATCTTTAATAAAGCCCAGATCGTACATGCGATCGGCTTCGTCCAGTACCACCACCTGAATG -GCACCGAGGTTAATGTGGTTCTGCTTGGCGTAGTCAATTAAACGCCCCGTGGTGCCAATCAGAATGTCAA -CGCCGCTTTCCAGCACTTTCAGCTGTTTGTCGTAGCCATCACCACCGTAAGCCAGACCCAGCTTCAGGCC -AGTAGCTTCCGCCAGCGGTTCTGCGTCGGCATGGATCTGCACGGCAAGTTCACGCGTCGGTGCCATAATT -AAGGCACGCGGCTGATTCACCTTGCGATCGGCAATCGCAGGATGAGAGAGAAGATAATGAAACGTTGACG -TAAGAAACGCCATCGTTTTCCCGGTACCGGTTTGCGCCTGCCCGGCTACGTCACGACCCGCCAGCGTCAG -CGGAAGGGCCAGTGCCTGAATGGGCGTACAGTTATGAAACCCTTTTTTTTCAAGGGCTTCTACAACCTTC -GGATGCAGGGCGAAGTCGGAAAACTTCTGTTCTGTTAAATGTGTTTTGCTCATAGTGTGGTAGAATATCA -GCTTACTATTGCTTTACGAAAGCGTATCCGGTGAAATAAAGTCAACCTTTAGTTGGTTAATGTTACACCA -ACAACGAAACCAACACGCCAGGCTTATTCCTGTGGAGTTATATATGAGCGATAAAATTATTCACCTGACT -GACGACAGTTTTGACACGGATGTACTCAAAGCGGACGGGGCGATCCTCGTCGATTTCTGGGCAGAGTGGT -GCGGTCCGTGCAAAATGATCGCCCCGATTCTGGATGAAATCGCTGACGAATATCAGGGCAAACTGACCGT -TGCAAAACTGAACATCGATCAAAACCCTGGCACTGCGCCGAAATATGGCATCCGTGGTATCCCGACTCTG -CTGCTGTTCAAAAACGGTGAAGTGGCGGCAACCAAAGTGGGTGCACTGTCTAAAGGTCAGTTGAAAGAGT -TCCTCGACGCTAACCTGGCGTAAGGGAATTTCATGTTCGGGTGCCCCGTCGCTAAAAACTGGACGCCCGG -CGTGAGTCATGCTAACTTAGTGTTGACTTCGTATTAAACATACCTTATTAAGTTTGAATCTTGTAATTTC -CAACGCTTCCCGTTTTATCTTAAATGCGAAGTGAACAGATTTCTGGCTCGTCACTCAATCCGTCTTGTCG -TTTCAGTTCTGCGTACTCTCCTGTGACCAGGCAGCGAAAAGACATGAGTCGATGACCGTAAACAGGCATG -GATGATCCTGCCATACCATTCACAACATTAAGTTCGAGATTTACCCCAAGTTTAAGAACTCACACCACTA -TGAATCTTACCGAATTAAAGAATACGCCGGTTTCTGAGCTGATCACTCTCGGCGAAAATATGGGGCTGGA -AAACCTGGCTCGTATGCGTAAGCAGGACATTATTTTTGCCATCCTGAAGCAGCACGCAAAGAGTGGCGAA -GATATCTTTGGTGATGGCGTACTGGAGATATTGCAGGATGGATTTGGTTTCCTCCGTTCCGCAGACAGCT -CCTACCTCGCCGGTCCTGATGACATCTACGTTTCCCCTAGCCAAATCCGCCGTTTCAACCTCCGCACTGG -TGATACCATCTCTGGTAAGATTCGCCCGCCGAAAGAAGGTGAACGCTATTTTGCGCTGCTGAAAGTTAAC -GAAGTTAACTTCGACAAACCTGAAAACGCCCGCAACAAAATCCTCTTTGAGAACTTAACCCCGCTGCACG -CAAACTCTCGTCTGCGTATGGAACGTGGTAACGGTTCTACTGAAGATTTAACTGCTCGCGTACTGGATCT -GGCATCACCTATCGGTCGTGGTCAGCGTGGTCTGATTGTGGCACCGCCGAAAGCCGGTAAAACCATGCTG -CTGCAGAACATTGCTCAGAGCATTGCTTACAACCACCCGGATTGTGTGCTGATGGTTCTGCTGATCGACG -AACGTCCGGAAGAAGTAACCGAGATGCAGCGTCTGGTAAAAGGTGAAGTTGTTGCTTCTACCTTTGACGA -ACCCGCATCTCGCCACGTTCAGGTTGCGGAAATGGTGATCGAGAAGGCCAAACGCCTGGTTGAGCACAAG -AAAGACGTTATCATTCTGCTCGACTCCATCACTCGTCTGGCGCGCGCTTACAACACCGTTGTTCCGGCGT -CAGGTAAAGTGTTGACCGGTGGTGTGGATGCCAACGCCCTGCATCGTCCGAAACGCTTCTTTGGTGCGGC -GCGTAACGTGGAAGAGGGCGGCAGCCTGACCATTATCGCGACGGCGCTTATCGATACCGGTTCTAAAATG -GACGAAGTTATCTACGAAGAGTTTAAAGGTACAGGCAACATGGAACTGCACCTCTCTCGTAAGATCGCTG -AAAAACGCGTCTTCCCGGCTATCGACTACAACCGTTCTGGTACCCGTAAAGAAGAGCTGCTCACGACTCA -GGAAGAACTGCAGAAAATGTGGATCCTGCGCAAAATCATTCACCCGATGGGCGAAATCGATGCAATGGAA -TTCCTCATTAATAAACTGGCAATGACCAAGACCAATGACGATTTCTTCGAAATGATGAAACGCTCATAAA -TTTGTCTTATGCCAAAAACGCCACGTGTTTACGTGGCGTTTTGCTTTTATATCTGTAATCTTAATGCCGC -GCTGGCGATGTTAGGAAAATTCCTGGAATTTGCTGGCATGTTATGCAATTTGCATATCAAATGGTTAATT -TTTGCACAGGACTGGTGGGTTTGGAACGGACTTTCCCTTCTGAATAAAGGTCTTCGTGGTTATACTTCTG -CTAATAATTTTCTCTGAGAGCATGCATTGTGAATTTACTGACAGTGAGTACTGATCTCATCAGTATTTTT -TTATTCACGACACTGTTTCTGTTTTTTGCCCGTAAGGTGGCAAAAAAAGTCGGTTTAGTGGATAAACCAA -ACTTCCGCAAACGTCACCAGGGATTGATACCTCTCGTTGGGGGGATTTCGGTTTACGCAGGGATTTGCTT -CACGTTCGGAATTGTCGATTACTATATTCCGCATGCATCTCTCTATCTCGCTTGTGCCGGTGTGCTTGTT -TTCATTGGCGCGCTGGATGACCGTTTTGATATCAGCGTAAAAATCCGTGCCACCATACAGGCCGCTGTTG -GCATTGTTATGATGGTGTTCGGCAAGCTTTATCTCAGTAGCCTGGGTTATATCTTTGGCTCCTGGGAGAT -GGTGCTCGGACCGTTTGGTTACTTCCTGACGCTATTTGCCGTCTGGGCGGCCATTAATGCGTTCAACATG -GTTGATGGCATTGATGGCTTGCTGGGCGGGTTGTCCTGCGTCTCGTTTGCAGCAATCGGTATGATTTTGT -GGTTCGACGGGCAAACCAGCCTCGCAATCTGGTGCTTTGCGATGATCGCCGCCATCCTGCCATACATCAT -GCTTAACCTTGGTATCCTGGGTCGCCGCTACAAAGTCTTTATGGGTGATGCGGGCAGTACGCTGATTGGT -TTTACCGTTATCTGGATCCTGCTCGAAACGACCCAGGGCAAAACCCATCCCATCAGCCCGGTTACCGCTT -TGTGGATAATCGCCATTCCGCTAATGGATATGGTGGCGATTATGTACCGTCGCCTGCGTAAAGGCATGAG -CCCATTCTCTCCTGACCGTCAGCATATTCACCATTTGATCATGCGTGCCGGGTTTACTTCCCGTCAGGCG -TTTGTGCTGATTACCCTTGCCGCAGCACTGCTCGCTTCCATTGGCGTGCTGGCAGAATATTCTCATTTTG -TCCCGGAGTGGGTCATGCTGGTGCTCTTTTTGCTAGCATTCTTCCTCTATGGATATTGCATTAAGCGTGC -CTGGAAAGTTGCTCGCTTTATTAAGCGCGTAAAACGCAGACTGCGTAGAAATCGTGGTGGCAGCCCCAAT -TTAACCAAATAAATGAGGATGTGATGACACAACCAATGCCTGGGAAACCGGCCGAAGACGCTGAAAATGA -ACTGGATATTCGTGGGTTGTTTCGTACCTTGTGGGCTGGGAAGCTATGGATTATTGGCATGGGGCTGGCG -TTTGCGTTAATCGCGCTGGCGTATACGTTTTTTGCTCGTCAGGAGTGGAGCTCGACGGCGATTACCGATC -GTCCAACGGTGAATATGCTGGGGGGATATTACTCGCAGCAGCAATTTTTGCGTAACCTGGATGTCCGTTC -AAACATGGCTTCTGCCGACCAACCATCGGTCATGGACGAAGCCTATAAAGAGTTTGTTATGCAACTGGCC -TCGTGGGATACCCGCAGAGAGTTCTGGCTGCAAACCGACTATTACAAACAGCGGATGGTGGGCAACAGCA -AAGCCGATGCGGCGTTGCTGGATGAAATGATTAACAACATCCAGTTTATCCCCGGAGACTTTACCCGCGC -GGTCAATGACAGCGTGAAGCTTATTGCCGAAACCGCGCCTGACGCTAATAACCTGTTACGTCAGTATGTT -GCTTTTGCCAGCCAGCGTGCAGCCAGCCATCTGAATGATGAGCTGAAAGGCGCATGGGCGGCGCGTACCA -TCCAGATGAAAGCTCAGGTGAAGCGTCAGGAAGAGGTGGCGAAAGCCATCTACGACCGCCGGATGAACAG -CATTGAGCAGGCGCTGAAAATTGCTGAGCAGCATAATATTTCGCGCAGTGCGACAGATGTACCTGCCGAG -GAATTACCTGATTCAGAAATGTTCCTGCTTGGGCGTCCAATGCTTCAGGCTCGACTGGAAAATTTACAGG -CCGTCGGTCCGGCCTTTGATCTCGACTATGATCAGAATCGGGCCATGTTAAACACCCTGAATGTTGGTCC -AACCCTGGATCCGCGTTTTCAGACCTATCGCTATTTGCGTACGCCGGAAGAACCGGTAAAACGCGATAGC -CCACGTCGTGCCTTCCTGATGATTATGTGGGGCATTGTCGGGGGGCTGATCGGGGCTGGTGTCGCATTAA -CCCGCCGTTGCTCGAAATAGCAACACTGCTGCGGTGAGCGCAAAGGCGCTCGCCGCTTATTCGAAGAGAA -TCGATGTGAAAGTACTGACTGTATTTGGTACGCGCCCGGAAGCCATCAAGATGGCGCCGTTGGTGCATGC -GTTGGCAAAAGATCCTTTTTTTGAGGCTAAAGTTTGCGTCACTGCGCAGCATCGGGAGATGCTCGATCAG -GTGCTGAAACTCTTTTCCATTGTACCTGACTACGATCTCAACATAATGCAGCCAGGACAGGGCCTGACAG -AGATAACCTGTCGGATTCTGGAAGGGCTAAAACCTATTCTTGCCGAGTTCAAACCAGACGTCGTGCTGGT -TCACGGCGATACGACGACGACGCTGGCAACCAGCCTGGCGGCGTTTTATCAGCGTATTCCTGTTGGTCAC -GTTGAGGCTGGTCTGCGCACGGGCGATCTCTATTCGCCGTGGCCGGAAGAGGCTAACCGTACATTGACCG -GGCATCTGGCGATGTATCACTTCTCTCCAACCGAAACTTCCCGGCAAAACTTGCTGCGTGAAAACGTTGC -GGATAGCCGAATCTTCATTACCGGTAATACAGTCATTGATGCACTGTTATGGGTGCGTGACCAGGTGATG -AGCAGCGACAAGCTGCGTTCAGAACTGGCGGCAAATTACCCGTTTATCGACCCCGATAAAAAGATGATTC -TGGTGACCGGTCACAGGCGTGAGAGTTTCGGTCGTGGCTTTGAAGAAATCTGCCACGCGCTGGCAGACAT -CGCCACCACGCACCAGGACATCCAGATTGTCTATCCGGTGCATCTCAACCCGAACGTCAGAGAACCGGTC -AATCGCATTCTGGGGCATGTGAAAAATGTCATTCTGATCGATCCCCAGGAGTATTTACCGTTTGTCTGGC -TGATGAACCACGCCTGGCTGATTTTGACCGACTCAGGCGGCATTCAGGAAGAAGCGCCTTCGCTGGGGAA -ACCTGTGCTGGTGATGCGCGATACCACTGAGCGTCCGGAAGCGGTGACGGCGGGTACGGTGCGTCTGGTA -GGCACGGATAAGCAGCGAATTGTCGAGGAAGTGACGCGTCTTTTAAAAGACGAAAACGAATATCAAGCTA -TGAGCCGCGCCCATAACCCGTATGGTGATGGTCAGGCATGCTCTCGCATTCTGGAAGCGTTAAAAAATAA -TCGGATATCACTATGAGTTTTGCGACCATTTCTGTTATCGGACTGGGTTATATCGGGCTGCCAACGGCAG -CAGCGTTTGCCTCACGGCAAAAACAGGTAATTGGTGTCGATATCAACCAACATGCGGTTGATACCATCAA -TCGTGGCGAAATCCATATCGTCGAACCTGATTTGGCGAGTGTAGTAAAAACTGCCGTAGAAGGCGGTTTT -TTACGAGCGAGCACGACGCCAGTTGAAGCGGATGCCTGGCTGATTGCTGTACCCACGCCGTTTAAGGGCG -ATCATGAGCCAGATATGACCTACGTTGAATCGGCTGCTCGCTCCATTGCGCCAGTGCTGAAAAAAGGCGC -GCTGGTGATCCTTGAATCCACCTCGCCGGTGGGGTCAACCGAGAAGATGGCAGAATGGTTAGCAGAGATG -CGTCCGGATCTCACTTTCCCGCAGCAGGTGGGCGAGCAGGCGGACGTCAACATTGCTTACTGCCCGGAAC -GCGTGTTACCAGGACAGGTAATGGTCGAGCTGATTAAAAACGATCGCGTGATTGGTGGTATGACGCCGGT -TTGTTCGGCCCGCGCCAGCGAACTGTACAAAATTTTCCTCGAAGGTGAGTGTGTCGTCACTAACTCGCGG -ACGGCGGAAATGTGTAAGCTCACCGAAAACAGCTTCCGCGATGTGAATATCGCTTTTGCTAATGAATTGT -CGCTGATTTGTGCCGATCAGGGGATTAACGTCTGGGAACTGATTCGCCTGGCGAATCGTCACCCTCGCGT -TAATATTCTTCAGCCTGGCCCTGGCGTGGGCGGTCACTGCATTGCTGTTGATCCGTGGTTTATCGTGGCA -CAGAACCCCCAGCAGGCGCGGCTTATCCGTACCGCGCGCGAAGTGAACGATCACAAACCGTTCTGGGTTA -TCGATCAGGTGAAAGCGGCGGTGGCTGATTGCCTGGCGGCTACCGATAAACGCGCCAGTGAACTGAAAAT -CGCCTGCTTTGGTCTGGCGTTTAAACCGAATATTGATGACCTGCGCGAAAGCCCGGCGATGGAAATCGCT -GAACTGATCGCCCAGTGGCATAGCGGCGAAACTCTGGTTGTTGAGCCTAACATCCACCAGTTGCCGAAAA -AACTGACCGGGCTTTGTACTCTGGCGCAGCTTGACGAGGCGCTGGCAACGGCAGACGTGCTGGTGATGCT -GGTCGATCATAGTCAGTTCAAAGTTATCAATGGCGACAATGTCCATCAGCAGTATGTCGTCGATGCCAAA -GGAGTCTGGCGCTGATGAGAAAAATTCTGATAACAGGTGGTGCCGGGTTTATTGGCTCGGCGCTGGTGCG -TTATATCATCAACGAAACGAGCGACGCGGTGGTAGTGGTCGATAAGCTGACCTACGCCGGAAACCTGATG -TCGCTGGCACCGGTCGCGCAAAGCGAGCGCTTTGCCTTTGAGAAAGTTGATATCTGCGATCGGGCAGAAC -TGGCACGCGTATTCACTGAGCATCAGCCAGACTGTGTCATGCATCTGGCAGCCGAAAGCCATGTTGACCG -TTCTATTGACGGCCCGGCAGCGTTTATTGAAACCAACATTGTCGGGACTTATACATTGCTTGAAGCGGCG -CGGGCTTACTGGAATGCGCTGACGGAAGATAAAAAATCAGCGTTCCGTTTTCATCATATCTCCACTGACG -AAGTATATGGTGACCTGCACTCGACGGATGATTTCTTCACCGAAACCACGCCGTATGCGCCGAGCAGCCC -TTATTCCGCGTCAAAAGCCAGCAGCGACCATCTGGTGCGCGCCTGGCTGCGGACCTATGGTCTGCCGACG -CTTATCACCAACTGCTCGAATAACTACGGCCCTTACCACTTTCCGGAAAAACTGATCCCGCTGATGATCC -TCAACGCGCTGGCGGGTAAATCGCTGCCGGTATATGGCAACGGGCAGCAAATCCGTGACTGGCTGTATGT -GGAAGATCACGCCCGCGCGCTGTATTGCGTGGCGACCACCGGGAAAGTCGGTGAAACCTATAATATTGGT -GGTCACAACGAGCGTAAGAATCTCGATGTTGTGGAAACCATTTGCGAGCTGCTGGAAGAACTGGCTCCGA -ACAAGCCGCACGGCGTGGCGCACTATCGTGACCTGATCACCTTTGTCGCTGACCGTCCGGGGCATGATCT -GCGTTATGCCATTGATGCTTCGAAAATTGCCCGTGAACTTGGCTGGCTGCCGCAGGAAACCTTTGAAAGT -GGAATGCGTAAAACGGTTCAGTGGTATCTGGCTAATGAAAGCTGGTGGAAGCAGGTGCAGGACGGCAGCT -ATCAGGGCGAGCGTTTAGGTCTGAAAGGCTAATTTTCAGCGGAGGCAAACATGAAAGGTATTATCCTGGC -GGGCGGTTCCGGCACCCGATTGCATCCGATTACGCGCGGCGTATCGAAGCAACTGTTGCCGATTTACGAT -AAGCCAATGATTTACTATCCGCTGTCGGTGCTGATGCTGGCCGGTATCCGCGAAATTCTCATCATCACTA -CGCCGGAAGATAAAGGTTATTTCCAGCGCCTGCTGGGCGATGGTAGTGAGTTCGGTATCCAGCTGGAATA -TGCCGAACAGCCCAGCCCGGACGGTCTGGCGCAGGCCTTTATCATCGGTGAAACCTTCCTTAATGGTGAA -CCTTCTTGTCTGGTGCTGGGCGATAACATCTTCTTCGGTCAGGGCTTCAGTCCGAAGCTGCGTCATGTTG -CGGCGCGCACCGAAGGGGCGACGGTTTTTGGCTATCAGGTGATGGACCCGGAACGCTTTGGCGTGGTGGA -GTTTGACGACAATTTCCGCGCTATCTCGCTGGAAGAAAAGCCAAAACAGCCGAAGTCAAACTGGGCGGTG -ACCGGGCTTTATTTCTACGACAGTAAAGTCGTGGAGTACGCAAAGCAGGTGAAGCCGTCGGAGCGTGGTG -AACTGGAGATTACCTCCATCAACCAGATGTACCTCGAGGCGGGCAACCTGACCGTTGAACTGCTCGGGCG -CGGATTTGCCTGGCTGGATACCGGCACTCACGACAGCCTGATTGAAGCCAGCACCTTTGTACAGACGGTG -GAAAAACGCCAGGGCTTTAAGATTGCCTGCCTGGAAGAGATTGCCTGGCGTAACGGCTGGCTCGATGACG -AGGGTGTGAAGCGTGCTGCCAGTTCATTAGCGAAAACTGGCTACGGCCAATATCTGCTGGAGTTACTTCG -TGCCCGTCCGCGCCAGTATTGAGCCACTAACCTGGGAAAACGCCTTCTTTGGTGTTAACAGCGCCATCGT -GCGCATTACGTCTGAAGCACCGCTCCTGACGCCAGACGCGTTAGCGCCGTGGTCACGGGTGCAGGCCAAA -ATTGCGGCATCAAATACGGGTGAACTGGATGCCCTGCAACAGCTGGGATTCTCCCTGGTAGAAGGTGAAG -TTGATTTGGCGCTACCCGTGAACAATGCCAGTGATAGCGGTGCTGTAGTGGCACAAGAGACCGATATTCC -CGCATTACGTCAGTTAGCCAGCGCCGCATTTGCGCAAAGCCGTTTTCGTGCGCCGTGGTATGCGCCTGAC -GCCAGCAGTCGCTTTTATGCACAGTGGATTGAAAATGCCGTGCGCGGCACCTTTGATCATCAATGTCTGA -TTTTACGTGCGGCGTCCGGCGATATTCGCGGCTATGTCTCTTTACGGGAACTCAATGCGACAGATGCGCG -AATTGGCCTGCTGGCTGGACGCGGTGCAGGTGCTGAGCTGATGCAAACGGCGCTAAACTGGGCGTATGCT -CGCGGTAAAACAACTTTGCGGGTGGCGACCCAAATGGGCAACACCGCCGCGCTTAAACGATACATACAAA -GTGGTGCGAATGTAGAAAGCACCGCGTACTGGTTATACAGGTGATCACATGATTCCATTTAACGCACCGC -CGGTGGTGGGAACCGAACTCGACTATATGCAGTCGGCAATGGGTAGCGGCAAACTGTGTGGCGATGGCGG -TTTTACCCGTCGCTGCCAGCAGTGGCTGGAGCAACGTTTTGGCAGCGCCAAAGTGTTACTGACGCCGTCC -TGCACCGCTTCGCTGGAGATGGCGGCGCTGCTGCTCGATATCCAGCCTGGCGATGAAGTGATCATGCCGA -GCTACACCTTTGTCTCCACCGCCAATGCCTTTGTGCTGCGTGGCGCAAAAATCGTTTTTGTGGATGTTCG -CCCGGACACCATGAACATCGACGAAACGCTGATTGAAGCGGCGATCACCGACAAAACGCGCGTTATCGTG -CCGGTCCATTACGCGGGTGTGGCCTGCGAAATGGACACCATTATGGCGTTGGCGAAAAAGCATAATTTGT -TTGTGGTAGAAGATGCCGCTCAGGGCGTGATGTCCACTTACAAAGGGCGTGCACTGGGAACCATTGGTCA -TATTGGCTGCTTTAGCTTCCATGAAACCAAAAACTACACGGCGGGCGGTGAAGGCGGCGCGACGCTGATT -AACGATAAAGCGTTAATCGAACGAGCCGAGATCATCCGTGAAAAGGGCACTAACCGCAGCCAGTTCTTCC -GTGGTCAGGTCGATAAATATACCTGGCGCGATATTGGCTCCAGCTATTTGATGTCCGATCTGCAAGCTGC -ATACCTGTGGGCGCAACTGGAAGCAGCGGATCGTATCAACCAGCAACGTCTGGCGCTGTGGCAAAACTAC -TACGATGCGTTAGCGCCTCTGGCGAAAGCCGGGCGTATCGAGCTGCCGTCGATTCCCGATGGCTGCGTGC -AGAACGCGCATATGTTCTACATTAAACTGCGGGATATTGATGACCGGAGCGCGTTGATTAACTTTCTGAA -AGAAGCGGAAATCATGGCGGTGTTTCATTACATTCCGCTGCACGGTTGCCCTGCGGGGGAACACTTTGGT -GAGTTCCACGGTGAAGATCGCTACACCACCAAAGAGAGCGAGCGCCTGCTGCGCCTGCCGCTGTTCTACA -ACCTGTCGCCCGTCAATCAGCGTACGGTAATTGCGACTTTGTTGAACTACTTTTCCTGATATGTCGTTGG -CAAAAGCGTCCTTGTGGACGGCGGCCAGTACACTGGTCAAGATTGGTGCCGGGTTACTGGTCGGTAAGTT -GCTGGCGGTGTCATTTGGTCCGGCGGGGCTTGGGCTGGCGGCAAATTTCCGCCAGTTGATTACCGTGCTC -GGCGTGCTTGCCGGGGCTGGCATCTTTAACGGTGTAACCAAATACGTTGCCCAGTACCATGATAATCCGC -AACAGCTGCGCCGCGTGGTCGGCACTTCATCAGCGATGGTACTTGGTTTCTCTACGCTGATGGCGCTGGT -TTTTGTGCTGGCAGCTGCGCCAATCAGCCAGGGATTGTTTGGTAATACCGACTATCAGGGGCTGGTGCGT -TTAGTGGCGCTGGTGCAAATGGGGATCGCCTGGGGCAACCTGTTACTGGCGCTGATGAAAGGCTTTCGCG -ATGCCGCAGGTAATGCGTTATCGCTGATTGTCGGCAGCTTGATTGGCGTTCTCGCGTACTACGTCAGTTA -CCGTTTGGGCGGTTATGAAGGGGCGTTGCTGGGTCTGGCGCTGATTCCCGCGCTGGTGGTAATTCCTGCC -GCCATCATGTTGATCAAACGTGGTGTCATCCCGTTAAGCTATCTGAAACCCAGCTGGGATAACGGTCTGG -CAGGGCAGTTGAGCAAATTTACGCTCATGGCGTTGATTACGTCGGTGACCTTGCCTGTTGCTTACATCAT -GATGCGTAAACTGCTGGCGGCGCAGTATAGCTGGGATGAGGTGGGGATCTGGCAAGGGGTGAGCAGTATT -TCCGATGCCTACCTGCAATTTATTACGGCATCGTTCAGCGTATATTTGCTGCCCACGTTGTCGCGGCTAA -CGGAAAAGCGCGATATCACCCGGGAAGTGGTTAAATCGCTGAAATTCGTCTTACCGGCAGTGGCGGCGGC -GAGTTTTACCGTCTGGCTGCTGCGTGATTTTGCTATCTGGCTGCTGTTGTCGAATAAATTTACCGCTATG -CGCGATCTCTTTGCCTGGCAGTTAGTGGGTGATGTGTTAAAAGTGGGCGCTTATGTCTTTGGTTATCTGG -TGATCGCCAAAGCGTCACTGCGGTTTTATATTCTGGCGGAAGTCAGCCAGTTCACTTTATTGATGGTATT -TGCCCACTGGCTAATCCCTGCGCATGGTGCACTGGGCGCGGCGCAGGCATATATGGCAACTTATATCGTC -TATTTTTCTCTTTGTTGTGGCGTGTTTTTACTCTGGCGTAGGCGGGCATGACTGTACTGATTCACGTACT -GGGATCGGATATCCCTCACCATAACCGAACCGTTTTGCGGTTTTTCAATGACGCGCTGGCCGCGACGAGC -GAGCACGCGCGCGAGTTTATGGTTGTTGGCAAGGACGACGGCTTAAGTGATAGCTGTCCGGCGCTTTCTG -TGCAATTTTTCCCTGGGAAAAAATCGCTGGCGGAAGCGGTCATCGCGAAAGCAAAAGCTAACCGTCAGCA -GCGTTTTTTCTTCCACGGTCAGTTCAATCCCACACTGTGGCTGGCTCTGCTGAGTGGTGGCATTAAGCCC -AGCCAGTTTTTCTGGCATATCTGGGGGGCAGACCTGTATGAGCTTTCCAGTGGCTTGAGATATAAGCTTT -TTTACCCACTACGTCGCCTGGCGCAAAAGCGAGTCGGCTGTGTATTTGCCACCCGCGGCGATTTGAGCTT -TTTTGCCAAAACGCACCCAAAGGTGCGGGGCGAACTGCTGTTCTTCCCGACGCGGATGGACCCTTCGCTC -AATACGATGGCGAACGATCGGCAACGTGAAGGGAAAATGACCATTCTGGTGGGGAACTCCGGCGACCGCA -GCAATGAGCATATTGCTGCCTTGCGCGCCGTTCATCAGCAATTTGGCGATACGGTAAAAGTGGTGGTGCC -GATGGGATATCCGCCTAATAACGAAGCGTACATTGAGGAAGTTCGTCAGGCGGGGCTGGAGTTATTCAGC -GAAGAAAATCTACAAATTCTGAGCGAAAAACTGGAATTTGACGCCTATCTGGCGCTACTTCGTCAGTGCG -ATCTTGGTTACTTTATTTTTGCCCGCCAGCAGGGCATTGGTACGCTGTGCTTACTGATTCAGGCGGGCAT -TCCTTGTGTGCTTAACCGGGAAAATCCGTTCTGGCAGGATATGACGGAACAACATTTGCCGGTGCTGTTT -ACTACCGACGATCTCAACGAGGATATTGTGCGTGAAGCGCAGCGCCAGTTGGCGTCGGTGGATAAAAACA -CCATTGCCTTCTTTAGCCCTAACTATCTACAAGGCTGGCAGCGGGCGTTGGCGATTGCCGCCAGGGAGGT -CGCATGAGTCTGCTGCAATTCAGTGGCCTGTTTGTTGTCTGGCTGCTCTGCACGCTGTTTATTGCCACGC -TGACCTGGTTTGAGTTTCGCCGTGTGCGCTTTAACTTCAATGTCTTCTTTTCATTGCTGTTTTTGCTCAC -CTTTTTCTTCGGCTTCCCGCTGACCAGCGTGCTGGTATTTCGCTTTGATGTTGGTGTCGCGCCGCCAGAA -ATCTTGTTGCAGGCGTTGCTTTCTGCGGGCTGCTTCTACGCGGTTTACTATGTCACCTACAAAACCCGCC -TACGCAAACGCGTTGCTGATGTACCGCGCCGTCCGCTGTTTACCATGAACCGCGTGGAGACCAATCTTAC -GTGGGTGATCCTGATGGGTATCGCGCTGGTAAGCGTCGGCATCTTCTTCATGCACAACGGCTTTTTGCTG -TTCCGGCTTAACTCCTACAGTCAGATCTTTTCCAGTGAAGTCTCCGGCGTGGCGTTAAAACGCTTCTTTT -ACTTTTTCATCCCGGCGATGCTGGTGGTCTACTTTCTGCGCCAGGACAGCAAAGCGTGGCTGTTTTTCCT -CGTCAGCACGGTCGCCTTTGGCTTGCTGACTTATATGATTGTCGGCGGCACTCGCGCCAATATCATCATC -GCATTCGCTATCTTCCTGTTTATTGGCATTATTCGCGGCTGGATTTCGTTGTGGATGCTGGCGGCGGCGG -GCGTGCTGGGGATTGTTGGCATGTTCTGGCTGGCACTAAAACGCTATGGAATGAATGTGAGCGGCGATGA -AGCGTTCTATACGTTTCTCTATCTCACTCGCGACACCTTCTCGCCGTGGGAGAATCTGGCGTTGCTGTTG -CAGAACTACGACAACATCGACTTCCAGGGCCTGGCTCCAATTGTCCGCGATTTCTATGTCTTTATCCCTT -CCTGGCTGTGGCCGGGTCGCCCGAGTATGGTGCTGAACTCAGCCAACTACTTTACCTGGGAAGTGCTGAA -TAACCACTCCGGACTGGCGATCTCGCCTACGCTTATAGGCTCACTGGTGGTGATGGGCGGCGCGTTGTTC -ATCCCGCTCGGGGCGATCGTGGTTGGTCTGATCATCAAATGGTTCGACTGGCTGTATGAGCTGGGCAACC -GCGAGCCTAATCGCTATAAAGCTGCGATATTGCACAGTTTCTGCTTTGGGGCGATCTTCAATATGATCGT -GCTGGCGCGTGAAGGGCTGGATTCGTTTGTCTCACGCGTGGTCTTTTTTATCGTGGTCTTCGGCGCATGT -CTGATGATCGCAAAACTGTTGTACTGGCTTTTTGAAAGCGCCGGACTCATTCATAAACGTACAAAATCAT -CGCTCCGGACGCAGGTTGAAGGATAACAATGAATAACAACACCACGGCACCAACCTATACGCTGCGTGGC -TTACAGTTGATTGGTTGGCGTGATATGCAGCACGCCCTCGATTATCTGTTTGCTGACGGGCAGCTTAAGC -AGGGAACGCTGGTTGCCATTAATGCTGAAAAAATGCTGACTATTGAAGATAACGCCGAGGTCAGGGAGTT -AATTAACGCTGCCGAATTTAAATATGCGGATGGCATCAGCGTTGTACGTTCAGTACGTAAAAAGTACCCG -CAGGCGCAGGTTTCCCGCGTTGCCGGTGCCGATCTCTGGGAAGAGCTGATGGCGCGCGCAGGCAAAGAAG -GGACGCCGGTATTTCTTGTGGGCGGTAAACCTGAAGTGCTGGCGCAAACTGAAGCTAAACTGCGCAACCA -GTGGAATGTGAATATCGTTGGCAGTCAGGATGGTTATTTTAAACCCGAGCAGCGTCAGGCGCTGTTTGAA -CGCATTCATGCCAGCGGTGCGCAAATCGTCACCGTTGCGATGGGATCGCCAAAGCAGGAGATCATCATGC -GCGACTGCCGTCTGGTACATCCAGATGCGCTGTATATGGGCGTTGGCGGGACTTACGATGTTTTCACCGG -TCACGTAAAACGCGCACCGAAAATCTGGCAAACGCTGGGGCTGGAGTGGCTCTACCGCCTGCTTTCGCAG -CCGAGCCGCATTAAGCGTCAGCTTCGTTTGCTGCGTTATTTACGCTGGCACTACACCGGCAACCTATGAT -TTTCCTCTCTTTGTAAAGCGACGGAGTGGTCACTCCGTCGCCTGTCTGCTTTTTTATTACACAAAGCATT -CAAATTTTTAATGCTTTATTTGCCATTTCTCCTGAATTACGAAAACATTTGCAACACTCGATGTACCCAT -AACGATAACCGGTAACACCGGAAAGCATGCAAACACAACACGAGGATTTATGGCAGATAACAAACCAGAG -CTACAGCGTGGGCTGGAAGCTCGACATATCGAACTCATCGCCCTGGGGGGCACCATTGGCGTCGGCCTGT -TTATGGGGGCCGCCAGTACCCTGAAATGGGCCGGGCCATCCGTATTGTTGGCCTATATCATCGCCGGGCT -GTTCGTCTTTTTCATCATGCGTTCAATGGGCGAAATGTTGTTCCTCGAACCGGTTACCGGTTCGTTCGCC -GTTTATGCGCATCGTTATATGAGCCCGTTCTTTGGCTATCTCACCGCCTGGTCTTACTGGTTTATGTGGA -TGGCGGTGGGGATCTCTGAAATCACCGCCATTGGCGTTTATGTCCAGTTCTGGTTCCCGGAGATGGCGCA -GTGGATACCCGCATTGATCGCAGTGGCGCTGGTGGCGTTGGCGAATCTGGCGGCGGTGCGGTTGTACGGC -GAAATCGAGTTCTGGTTCGCGATGATCAAAGTCACCACGATTATCGTGATGATTGTCATTGGCCTGGGCG -TGATTTTCTTTGGCTTTGGCAATGGCGGGCAGTCGATTGGTTTTAGCAATCTCACAGAGCATGGCGGTTT -CTTTGCGGGTGGCTGGAAAGGGTTCCTGACCGCTCTGTGTATTGTGGTGGCGTCCTACCAGGGCGTGGAG -CTGATTGGCATTACTGCCGGTGAAGCGAAGAATCCGCAGGTGACGCTGCGCAGTGCCGTAGGCAAGGTGC -TGTGGCGGATCCTGATTTTCTACGTAGGCGCGATTTTCGTTATCGTCACCATCTTCCCGTGGAATGAAAT -AGGCAGCAACGGCAGCCCGTTCGTACTGACTTTTGCCAAAATCGGTATTACCGCAGCGGCGGGCATTATC -AACTTTGTGGTGCTGACGGCTGCGCTCTCTGGCTGTAACAGCGGCATGTACAGTTGCGGACGTATGCTCT -ACGCACTGGCGAAAAACCGTCAGTTACCGGCGGCAATGGCGAAAGTTTCCCGTCACGGCGTACCGGTTGC -GGGTGTGGCAGTATCTATTGCTATTCTGCTAATTGGCTCATGCCTGAACTACATCATTCCCAATCCGCAG -CGTGTGTTTGTCTACGTCTACAGTGCCAGCGTGCTTCCGGGGATGGTGCCATGGTTTGTGATATTGATAA -GCCAGCTGCGTTTTCGGCGTGCACATAAAGCGGCGATTGCCAGCCATCCGTTCCGCTCAATCCTGTTCCC -GTGGGCCAATTACGTAACAATGGCATTCCTGATTTGCGTTTTGATCGGCATGTACTTTAATGAAGATACG -CGTATGTCGCTGTTTGTTGGCATCATCTTTATGCTGGCGGTGACGGCGATTTATAAAGTTTTTGGCCTTA -ATCGCCACGGGAAAGCGCATAAACTGGAGGAATAAGCAGCAAAACGCACAAACCGTAACCAAACGCGCAA -TTTATTTAAAAAGGGACTAGACAGAGGGGTGGGAAGTCCGTATTATCCACCCCCGCAACGGCGCTAAGCG -CCCGTAGCTCAGCTGGATAGAGCGCTGCCCTCCGGAGGCAGAGGTCTCAGGTTCGAATCCTGTCGGGCGC -GCCATTTAGTCCCGGCGCTTGAGCTGCGGTGGTAGTAATACCGCGTAACAAGATTTGTAGTGGTGGCTAT -AGCTCAGTTGGTAGAGCCCTGGATTGTGATTCCAGTTGTCGTGGGTTCGAATCCCATTAGCCACCCCATT -ATTAGAAGTTGTGACAATGCGAAGGTGGCGGAATTGGTAGACGCGCTAGCTTCAGGTGTTAGTGTCCTTA -CGGACGTGGGGGTTCAAGTCCCCCCCCTCGCACCACGACTTTAAAGAATTGAACTAAAAATTCAAAAAGC -AGTATTTCGGCGAGTAGCGCAGCTTGGTAGCGCAACTGGTTTGGGACCAGTGGGTCGGAGGTTCGAATCC -TCTCTCGCCGACCAATTTTGAACCCCGCTTCGGCGGGGTTTTTTGTTTTCTGTGCATTTCGTCACCCTCC -CTTCGCAATAAACGCCCGTAATAACTCATTGCCCCACGGTATGATTTCGCCCTTAACGTATTGAAGGATG -ACTTCAGGCAAGGAGCGACCATGCTGCAACAGGTTCCAACGCGTGCTTTTCATGTGATGGCGAAACCGAG -CGGTTCCGATTGTAATCTGAACTGTGACTACTGTTTTTATCTCGAAAAACAATCCCTTTACCGCGAAAAG -CCAGTCACGCATATGGACGATGACACGCTGGAAGCGTATGTCCGTCACTATATCGCTGCCAGCGAACCGC -AAAACGAAGTGGCTTTTACCTGGCAGGGCGGCGAACCAACGCTACTCGGGCTGGCGTTTTACCGCCGTGC -CGTAGCGCTACAGGCGAAATATGGTGCTGGCAGGAAGATAAGTAACAGCTTCCAGACTAACGGCGTGCTG -CTGGATGACGAATGGTGCGCGTTTCTCGCGGAGCATCATTTTCTTGTTGGTTTATCGCTGGATGGCCCGC -CTGAGATCCACAATCAATATCGCGTGACTAAAGGTGGCAGACCCACGCATAAGCTGGTGATGCGTGCCCT -GACGCTCCTGCAAAAACATCATGTCGACTATAACGTGCTGGTCTGCGTTAATCGCACCAGCGCGCAGCAA -CCGTTGCAGGTATATGATTTTTTGTGCGATGCGGGAGTCGAATTCATCCAGTTTATTCCGGTGGTCGAGC -GCCTGGCTGATGAAACAACTGCCCGCGATGGACTTAAGTTACATGCGCCTGGTGATATTCAGGGTGAGCT -AACGGAATGGTCGGTGCGCCCCGAGGAGTTCGGTGAGTTTCTGGTGGCGATATTCGACCACTGGATCAAA -CGCGACGTCGGCAAGATTTTCGTGATGAATATCGAATGGGCGTTTGCCAATTTTGTCGGTGCGCCGGGTG -CGGTTTGCCATCATCAGCCAACCTGTGGGCGCTCGGTGATTGTTGAGCACAACGGCGACGTTTACGCCTG -TGATCACTATGTTTATCCGCAATATCGGCTGGGGAATATGCACCAGCAAACAATTGCAGAAATGATCGAT -TCCCCGCAACAGCAGGCGTTTGGTGAAGATAAATTTAAGCAGTTACCGGCGCAGTGTCGCAGTTGTAACG -TGTTAAAAGCGTGCTGGGGAGGCTGCCCGAAACACCGCTTCATGCTCGATGCCAGCGGCAAACCGGGACT -GAATTATTTGTGTGCCGGGTATCAGCGTTATTTCCGCCATCTACCGCCATATCTTAAAGCAATGGCTGAT -TTGCTGGCGCACGGTCGCCCGGCCAGCGACATTATGCATGCGCATTTGCTGGTGGTGAGTAAGTAGAAAT -CGGCGGCCGCCTGCGGTTGATTGCCGGATGCGGCGTAAACGCCTTATCCGGCCTACATGATCGTGCAAAT -TCAATAAATTGCAGCGTTCTGTAGGCTGGATAAGATGCGTCAGCATCGCATCCGGCAAAGGCAGATCTCA -GCGATAGCGCCGGCTTAGTCAGATTTAATCTGCGCGCGTGGTGGATATTTTTTCAGGATCTCCATATACG -CGTGCATTTCGGTCTGTAGCGGTACACCCATCGGAATATGGCGCACGCCGATGGAGTCGCTTTCCTGCGG -ATCGGTGTAGAGGTTAAACACCGACGATCCCGCCGTTTGCATTACTGTGCCGGTGAATCCACCCTGATAT -CCGCTCTGGGTATAAGCGTAAGGTTGCTGAATCAGGACGTGATACTTGAACTCATCCATACGCACAGCAG -CGAGTTTACCGTTGAGGAAGTAGTGCTCGGCCTTACGGTTAGACTGACCATTTGTTCCCAGGAAGAAGGA -TGTCTGGTCCACACCATCGATAAAGGTGGTTTTCGGCACTAAATTCGCCACTTTCGCTCCAGGATGCCCT -GCCAGATCCAGCGCGGTAGGGAAGAGATCTGCCAGATCGACAATACCGTCAGATTTACGCGGTTGGATCA -TCCCTTTCCAGTAAACGAAAGTCGGTACGCGAACGCCGCCTTCCCAGGTCGAACCTTTCGCACCACGGAA -CGGGGTGCGTCCGTGCGGCGGTACTTCGGCTTCCGGTCCGTTATCGGAGGTAAAGACGATCAGCGTGTTA -TCAAGCTGACCGTTTTTCTCCAGTGTTTTATACAGATTAGCGAACACATCGTTCATCTCCACCATGCAGT -CGCCATACGAGGTGCGTGCCGGAGAGCTACCCGCATATTTCGCATTTGGGTAGTTATCGAAGTGGCAGCC -ACGAGTGCCGTAGTAGAGGAAGAATGGTTTATCGCTCTTCGCCATCTTGTCGAGGAACTTAACGCCATAG -TCCATCCAGCGTTGATCCAGATCTTCCATATATTTCGGCGTAATGTCGGCAATGGCCTGTTGTTCGCCGC -CGCGCACCGCATGAACGTCATCTTTGCTGAACGGTAATTGCTTGATGTATTCAGAACGGTCCGGACTCAG -GGCCACTTCCGGATTGACGTGAACGTCGCGCCATTCGGTGTACATATCAGACACCGAGTTAAAGCCACGG -AAATCATCAAAGCCAACGTTCTGCGGCTGCGACTCTTTGTTTTCCCCCATATGCCATTTTCCGATGGCCT -GAGTGACGTAGCCCTGATCGTGCAGCAACTGCGGCAGCGTGGTTAACCCTTGCAGCCCGCCCGGTTGCCC -GTACATTGGCGGCATCAGAATGCCGTGGTGGATGGAGTATTGTCCGGTGAGAATGGTGGCGCGGGTTGGG -GAAGAGCTTGGTTGAGAATACGCCGAAGTTAAAATCAGCCCCTGGCTGGCAACGGCGTCGATATCTGGTG -TAGGGTTACCCACCGCCACGCCGCCACCGTTAAAACCGACGTCCATCCAGCCCACATCGTCCAGCAAGAA -AACAACCACATTCGGTTTCTTACCGGTTTTTTTCTCAAGTTCTGCCAGCTTCTGCTGGGTTTCTTTATCC -TGCGCCGGATGCTGCATTACTGGCATCATATTGTCGGCAATAGTGGTCGCCGGTTTAACCAGATACTGGT -TTGGGTGATCGTATCCGGCAAAGCCTTTGCGTGCGGTGGCAGTTGACGGGGTATCTGCTGCGCTGGCCAT -GAGAGGAAGAGCGGCGGCGACAGCAACAACAAGACGTTTGGGTGAAAACGAAAATTCCATGCAAAATGCT -CCGGTTTCATGTCATCAAAATGATGACGTAATTAAGCATTGATAATTGAGATCCCTCTCCCTGACAGGAT -GATTACATAAATAATAGTGACAAAAATAAATTATTTATTTATCCAGAAAATGAATTGGAAAATCAGGAGA -GCGTTTTCAATCCTACCTCTGGCGCAGTTGATATGTAAGGCAGGTTTATTATATCGCGTTGATTATTGAT -GCTGTTTTTAGTTTTAACGGCAATTAATATATGTGTTATTAATTGAATGAATTTTATCATTCATAATAAG -TATGTGTAGGATCAAGCTCAGGTTAAATATTCACTCAGGAAGTTATTACTCAGGAAGCAAAGAGGATTAC -AGAATTATCTCATAACAAGTGTTAAGGGATGTTATTTCCCGATTCTCTGTGGCATAATAAACGAGTAGAT -GCTCATTCCATCTCTTATGTTCGCCTTAGTGCCTCATAAACTCCGGAATGACGCAGAGCCGTTTACGGTG -CTTATCGTCCACTGACAGATGTCGCTTATGCCTCATCAGACACCATGGACACAACGTTGAGTGAAGCACC -CACTTGTTGTCATACAGACCTGTTTTAACGCCTGCTCCGTAATAAGAGCAGGCGTTTTTTTATGTATCAG -GAAGGCCCCGGAGGTGCTTGCCTCCGGGTGAGAAGGAACTACTGTGGCGGGTTATTCTGCAACGTTAACA -TCAAACCGTCGCGACGCATAGCTGCAGCTTCTTCCGGCTTGTGCAGTCTGTCCAGCGCGTCGGCAAGCCA -TGCGTAATCGTAGGCGTCCGGACGTTGTTTCAGCGCTGCGCGGAAGGCGAGCGATGCTTCCTGCCATTCT -CCGTGCTTCATCAGTGACTGGCCCAGTGTGCTCCACAACAGCGGGCGATCGCCGACGTTTTTGATTTGCT -GGCGCAGCACTTTTTCCAGCTGTTCCGGATTGTTTGTTTTCAGTCGAGGAATCGGCAGCAGTAGGCGATC -GTCGTACTGGCGTTTCAGGCCATCGATGATAATTTGCTGGGCAGTATCATGATCGTCACATTCAATAAGA -TGTTCCGCCATTGCCACCTGCAACGCTACCTGATGACGCGTTTTCCGGCTTTGGTTTTTCCACCAGTTAC -GCAAACCTTCGCTACCGTTATCGGCACGCGCCTGATCCATCAGGCCAATCCATGCCTGTTGTTCCAGCAT -TGCACGATGTTCTTCATCACCAACATGGGCTTTCGCCATTGATGGGATAATATCCAGCAGCGAACTCCAT -GCACCTGTGCGGATATACGCCTGTTCCGCCAGACGTAATACTTCCGGATGGCGTGGCGTAACTTCCAGCA -GCTTATCCACGCCGTGGCGTGCAGCATGGTTTTCATTACGGGCCAGTTGCAGACGTACGCGGGTGATTTC -TACCGGAATGGTGTCGTTGCCGGCCAGCTCCGCTGCGCGTTCCAGATGTTGGTTGGCGCGTGCTTCATCA -CCACGTTGTTGCGCGGCTTCGGCAGCCAGTAGATAGTTCACCACCGGTTGTTCCGCGTGATCGGCATTTT -TCGCCATCAGCTTTTCAACTTGCTGATAATCGCCTTCCGCCAGTTTCAGCAGCGCCTGTTCGGTCTGCTT -ACGTGCACGGCGACGCTTACGTCCGACAAACCACCCACGGGTGTGCGCGCCAGTGCGGAAGATCCGCCGC -AGTAGCCACTCAATGGCAAACAGCACTACCATCGCCAGAATCAATATGATCGCCAGGCCCGTGACGCTGG -TTTCGATATTGTAGTTGTCGGTCTGGATCAGCACATAACCCTGATGGCCGGCAATCATCGGGCCAACCAC -GATCCCCGCAATCAGCAACACAAAGAGCAATAACACTTTTAGCATGGTTATTCTCCTTGCGGCGCGGCTG -CCGGAGTATCAGCTTGCGGTGCAGGTGCAGGTTTAGCTTCCGTTGTCCCCGCTGCCGGTTGTGCCAGCAG -GTTACGCACGCGAGTCTGCATCAGTTTTTCCAGCATCGCCTGGCTTTGCAGGGTTTCCGGAAGATCCATC -GAGATATTTTGCTGGCTTAACTGGTCCACCTCGTCGAGGAACGCTTTGGTGGTGGCATCATCAGTATTGT -AGTAAGCACGTACCCAGGTGGAGACGTTCTCCAGCGCCTGGCGATAAGTCTCTTCCTGGTGACGCGGTAC -AGCTTGTGCTGCGACCAGCAGGCGAGAGCGAATATTTTCGCGCAGATAGATATCCTGATTTGGCGCTAAC -AGCGGTACGGCGGTGTCATCACGACGGCGAATCGTAATGAAGTTGTCCATAAAGTTCTGCCAGCTTTTTT -GCAGATTGATACGCCATTCGCTGATGGAACTGGAAAGCTCTTCACCGTCTGAATCCATCGGCGAACCATC -GCTGTCATTATCGGCCAGACGCAGGTTATCTACCTGATTTGAAAGCTGATTAAGCTTAAGGATGATGCCG -TCATAATCCACCTGCGATACTGCAGAAAGGCTGGCGATATCATCGGTAATTGCCCGACGAACGGTAATCA -GACTCGGGTCATTCATATCCGCCAGGCTGGCGTCTGCACTTTTCAGCAACGCTGCAGCGGTCGTGACGTC -CTGATCGCTCCACAGCTTCCGTCCGGCGAGTTTCACCAGAAAATCGGCCTGAGCCAGCAGCCAGGTTTTA -GCATCGCTGCCGGAAATGGTGGCGACCTTTTGTTGGACTTCATCCAACTGTTTTGCCAGCGTTTCTTGCT -GACGATTCGCCTGCTTAAGTTGTGCAGCTTGTTGCTTAATAATGCCTTCCAGCTCGGCTTTTTGGCTCTC -CTGGGCTTTTTGCAATGCCGTCAGTTGGTTAGCCAGGGCATCGCTGGTGGCGGTCTGATTGACGGCCTGT -TGTTTACCCCAGCCATACAAACCGATGCCCGCCGCCAGAGCAATAGCGATAGCCACCGCGCTGAGAATCA -ATGCGGTATTGTTCTTACTCTTTTTTTCTGTTGCGACAGGTTGTGACGTGGTGTCCACGGCCTCCCTGGT -CTCTTCAACCACGGCGGAGGTTTTTTCTTGTTCCGTCATTATGGCTTCCTGTTATGAGAGTTATTGTAAT -GCCCGTAAAAGCGCATCGTTGTCAGCGTTATCGGCGACCTTAATGTCTTGCCAGCCCAGTTCCCGGGCGA -GTTTCGCCAAACGCTCACTGACGACCAATAGTCGACAGTGTAGTAACCAGTGCTCACGATACCATTGTGG -GATCAGCGACCAGAGTTGCTGCAACATTTCACCGCTGGTAACAACGACCATCGTCACCTCGCGGGCTTGC -CAGCGCATCGCTTCTTCTGCACCATCGTAATGGATTGCGCATCGTTGATAACATTCACAAAAAGTGACCT -CAGCACCGCGCGCCGTCAGGGTATCCCCAATTAGCTCACGACCACCATTGCCACGTAATATCAGCGCACG -TTTGCCCGCAATATTTTGTAATTCAGGTAATTGTAGCAAGACTTCGCTGATTTCCCGATCCTGCGGGTAG -AGAATCTTCTGTCCACTTACGGTATGTAGTGCCAGTGCGGTGGTGCGTCCAATGGCGAAATAATCAGGTA -GTCGGGGCCATTTACGATCTTGCTGATGCAGCTGTGATTGGGCAAAAGCAACCGCGTGTTGCGAGAGGGC -AAACAACAGATCGCTCTCCCCCAGCGCTGCCAGTTGATCAGCAAGTTGCGGTAATTGTTGACCCGGAGAA -AACTCAATCAGCGGAAAATGCCAGGCCACCTGCCCCAGTGTGCGCAGACGGCTCACTAACTCTTCTCCAG -CGGGAGACGGGCGGGTGACAAGGATACTCATGCCGGGGCGTCTCCGTTATAGACTTCAGCGAGGATCTCG -CGCGCGCCGTTATTCAGTAGCTCTTCTGCCAGCGAAATCCCCATTTGTTCGGCATCTTGCGGCGCACCGC -GGCGTTCACCGCGAATAATCTGCGAACCGTCCGGCGCGCCGACCAGCGCACGCAGCCAGATTTCGCCATC -AATAAGCTCGGCGTAGCTACCAATTGGCACCTGACATCCGCCTTCGAGACGGGTATTCATGGCGCGTTCT -GCGGTAACGCGCAGTGCAGTTTCGTGGTGATTCAGCGCGGCAAGCAGCTCGCGAGTGCGTGAATCATCAA -GGCGGCATTCAATACCCACCGCACCTTGTCCTACCGCCGGAAGAGAAATCTCGGGTGGCAACGCGGCGCG -AATACGTGACTCCAGACCTAAACGTTTTAGTCCGGCTACGGCAAGAATGATGGCATCGTATTCGCCGTTA -TCCAGTTTGCTCAGGCGAGTGCCGACGTTGCCGCGCAGGGAGCGGATAATCAGATCCGGACGGCGTTCAG -CCAGTTGGCACTGGCGACGTAAACTGGACGTCCCGACGATACTGCCTGCCGGTAACGCATCCAGACTGTC -ATAGTTATTGGACACAAAGGCATCGCGAGGATCTTCACGCTCACAAATAGTGACCAGTCCCAGACCTTGC -GGGAATTCAACCGGCACATCTTTCATTGAGTGTACGGCGATATCGGCGCGATTTTCGAGGAGCGCGACTT -CCAGCTCTTTTACAAATAAGCCTTTTCCGCCTACTTTCGCCAGCGGCGTATCAAGAATCACATCGCCGCG -CGTCACCATCGGTACCAGTTCAACGACCAGGCCCGGATGGCTCGCCATCAACTTGTCTTTGACATAGTGT -GCCTGCCAGAGTGCAAGTGGGCTTTGGCGTGTGGCAATTCTTAAAACATTGTCTAACATGCTTGTTACCG -TCATTATCATCCGTGGTCCATCCTAACATCCTTGCCAGAGTGATGTCAGTGTTGTGGTGAAACGTAGACG -CCTGCGCAAACCGTAAAATGAGGTCTGGCAGTGGATCCTGACAGGCGTTTCACGCCGTTGTAATAAGGAA -TTTACAGAGAATAAACGGTGCTACACTTGTATGTAGCGCATCTTTCTTTACGGTCAATCAGCAAGGTGTT -AAATTGATCACGTTTTAGACCATTTTTTCGTCGTGAAACTAAAAAAACCAGGCGCGAAAAGTGGTAACGG -TTACCTTTGACATACGAAATATCCCGAATGCCGCGTGTTACCGTTGATGTTGGCGGAATCACAGTCATGA -CGGGTAGCAAATCAGGCGATACGTCTTGTACCTCTATATTGAGACTCTGAAACAGAGACTGGATGCCATA -AATCAATTGCGTGTGGATCGCGCGCTTGCTGCTATGGGGCCTGCATTCCAACAGGTCTACAGTCTACTGC -CGACATTGTTGCACTATCACCATCCGCTAATGCCGGGTTACCTTGATGGTAACGTTCCCAAAGGCATTTG -CCTTTACACGCCTGATGAAACTCAACGCCACTACCTGAACGAGCTTGAACTGTATCGTGGAATGTCAGTA -CAGGATCCGCCGAAAGGTGAGCTTCCAATTACTGGTGTATACACCATGGGCAGCACCTCGTCCGTAGGGC -AAAGTTGTTCCTCTGACCTGGATATCTGGGTCTGTCATCAATCCTGGCTCGATAGCGAAGAGCGCCAATT -GCTACAACGTAAATGTAGCCTGCTGGAAAACTGGGCCGCCTCGCTGGGTGTGGAAGTCAGCTTCTTCCTG -ATTGATGAAAACCGCTTCCGTCATAATGAAAGCGGCAGCCTGGGGGGCGAAGATTGTGGCTCCACCCAGC -ATATACTGCTGCTTGACGAATTTTATCGTACCGCCGTGCGTCTCGCCGGTAAGCGTATTCTGTGGAATAT -GGTGCCGTGCGACGAAGAAGAGCATTACGACGACTATGTGATGACGCTTTACGCGCAGGGCGTGCTGACG -CCAAATGAATGGCTGGATCTCGGTGGCTTAAGCTCGCTTTCTGCTGAAGAGTACTTTGGTGCCAGCCTTT -GGCAGCTCTACAAGAGTATCGATTCCCCATACAAAGCGGTACTGAAAACACTGCTGCTGGAAGCCTATTC -CTGGGAATACCCGAACCCACGTCTGCTGGCGAAAGATATCAAACAGCGTTTGCACGACGGCGAGATTGTA -TCGTTTGGTCTCGATCCATACTGCATGATGCTGGAGCGTGTTACTGAATACCTGACGGCGATTGAAGATT -TTACCCGTCTGGATTTAGTACGTCGCTGCTTCTATTTAAAAGTGTGCGAAAAGCTCAGCCGTGAACGCGC -CTGCGTAGGCTGGCGTCGCGCAGTGTTGAGCCAGTTAGTGAGCGAGTGGGGTTGGGACGAAGCTCGTCTG -GCAATGCTCGATAACCGCGCTAACTGGAAGATTGATCAGGTGCGTGAGGCGCACAACGAGTTGCTCGACG -CGATGATGCAGAGCTACCGTAATCTGATCCGCTTTGCGCGTCGCAATAACCTTAGCGTCTCCGCCAGTCC -GCAGGATATCGGCGTGCTGACGCGTAAGCTGTATGCCGCGTTTGAAGCATTACCAGGTAAAGTGACGCTG -GTAAACCCGCAGATTTCACCCGATCTCTCGGAACCGAATCTGACCTTTATTTATGTGCCGCCGGGCCGGG -CTAACCGTTCAGGTTGGTATCTGTATAACCGCGCGCCAAATATTGAGTCGATCATCAGCCATCAGCCGCT -GGAATATAACCGTTACCTGAATAAACTGGTGGCGTGGGCATGGTTTAACGGCCTGCTGACCTCGCGCACC -CGTTTGTATATTAAAGGTAACGGCATTGTCGATTTGCCTAAGTTGCAGGAGATGGTCGCCGACGTGTCGC -ACCATTTCCCGCTGCGCTTACCTGCACCGACACCGAAGGCGCTCTACAGCCCGTGTGAGATCCGCCATCT -GGCGATTATCGTTAACCTGGAATATGACCCGACAGCGGCGTTCCGCAATCAGGTGGTGCATTTCGATTTC -CGTAAGCTGGATGTCTTCAGCTTTGGCGAGAATCAAAATTGCCTGGTAGGTAGCGTTGACCTGCTGTACC -GCAACTCGTGGAACGAAGTGCGTACGCTGCACTTCAACGGCGAGCAATCGATGATCGAAGCCCTGAAAAC -TATTCTCGGCAAAATGCATCAGGACGCCGCACCGCCAGATAGCGTGGAAGTCTTCTGTTATAGCCAGCAT -CTGCGCGGCTTAATTCGTACTCGCGTGCAGCAACTGGTTTCTGAGTGTATTGAATTGCGTCTTTCCAGCA -CCCGCCAGGAAACCGGGCGTTTCAAGGCGCTGCGCGTTTCTGGTCAAACCTGGGGGTTGTTCTTCGAACG -CCTGAATGTATCGGTACAGAAACTGGAAAACGCCATCGAGTTTTATGGCGCGATTTCGCATAACAAACTG -CACGGCCTGTCAGTGCAGGTTGAAACCAATCACGTCAAATTACCGGCGGTGGTGGACGGCTTTGCCAGCG -AAGGGATCATCCAGTTCTTTTTCGAAGAAACGCAAGACGAGAATGGCTTTAATATCTACATTCTCGACGA -AAGCAACCGGGTTGAGGTATATCACCACTGCGAAGGCAGCAAAGAGGAGCTGGTACGTGACGTCAGTCGC -TTCTACTCGTCATCGCATGACCGCTTTACCTACGGCTCAAGCTTCATCAACTTCAACCTGCCGCAGTTCT -ATCAGATTGTGAAGGTTGATGGTCGTGAACAGGTGATTCCGTTCCGCACAAAATCTATCGGTAACATGCC -GCCTGCCAATCAGGATCACGATACGCCGCTATTACAGCAATATTTTTCGTGATGAACGTGCCGGAAAGCG -AGGCTTATCCGGCATGCAATCTTAGCGGAAACTGACTGTTTCACCCGCCTGCTGCGTCGCCGCCTGTTCC -AGCAAATCCCAGAAGGTTTCGCCGCTGCGATCACAAATCCACTCATCGCCTTTCAGGTCAAAATGGTAGC -CGCCCTGTTTGGTTGCCAGCCATACCTGGTGCAGCGGCTCCTGGCGGTTGATAATGATTTTGCTGCCATT -CTCAAAGGTAATGGTCAGTACGCCGCCGTTGATTTCGCAGTCGATATCGCTGTCGCCATCCCAGTCGTCC -AGGCGTTCTTCAATGGTCAGCCAGAGTTGATCAGCCAGGCGATGAAATTCACTGTCGTTCATTGTTGTAT -CCTGTTTTTAAGTGATGGCGGCAGTATAGCGGCATGGGGTCAGGGCTTCAAAGTTTGCACCTCTGCGGCT -GCGTTCCGGCACGATTCATCCGTCACCGGAATAATGATGTCTCTGTGTAGCGAAAGATTTGTCTCTTCAT -TAGGGCGCAGTTACACCACGTCTTTCCCTGTTTCTGGTAAACATTATGATCAGGTTTACCGAGCGAGCAT -CCTCACGCTGACGGAACTAAAAAAGACAACAAACAAACCACATTGCGATAGTGCATAAAGCCATCCTGGC -GCGAGGTGCCGATCACGAAACTACCAGCAAAACATAAATCCCCACGAGTAAGCGTTATACTCGCAGCATT -TCCTCACTTTTCAGACTTCATAAAGAGTCGCTAAACGCTTGCTTTTACGTCTTCTCCTGCGATGATAGAA -AGCAGAAAGCGATGAACTTTACAGGCAATCCATAATGAAAAACGTGTTTAAGGCACTCACTGTATTACTT -ACTCTCTTCAGCCTGACGGGCTGCGGTCTGAAAGGTCCGCTCTATTTCCCGCCTGCAGATAAAAACGCAC -CGCCGCCGACCAAACCGGTAGAGACGCAAACGCAATCCACGGTGCCGGATAAAAACGATCGCGCCACTGG -CGATGGTCCATCCCAGGTGAATTACTAAAAGTCAGTTTCTGTACCCGCGTGATTGGAGTAAATGATGCAG -TTCTCGAAAATGCATGGCCTTGGCAACGATTTTATGGTCGTCGACGCGGTAACGCAGAATGTCTTTTTTT -CACCGGAGCTGATTCGTCGCCTGGCTGATCGGCACCTGGGGGTAGGGTTTGACCAACTGCTGGTGGTTGA -GCCGCCGTATGATCCTGAACTGGATTTTCACTATCGCATTTTCAATGCTGATGGCAGTGAAGTGGCGCAG -TGCGGCAACGGTGCGCGCTGCTTTGCCCGTTTTGTGCGTCTGAAAGGACTGACCAATAAGCGTGATATCC -GCGTCAGCACCGCCAACGGGCGGATGGTTCTGACCGTCACCGATGATGATCTGGTCCGCGTAAATATGGG -CGAACCCAACTTCGAACCTTCCGCCGTGCCGTTTCGCGCTAACAAAGCGGAAAAGACCTATATTATGCGC -GCCGCCGAGCAGACAATCTTATGCGGCGTGGTGTCGATGGGAAATCCGCATTGCGTGATTCAGGTCGATG -ATGTCGATACCGCGGCGGTAGAAACGCTTGGTCCTGTTCTGGAAAGCCACGAGCGTTTTCCGGAGCGCGC -CAATATCGGTTTTATGCAAGTGGTTAAGCGCGAGCATATTCGTTTACGCGTTTATGAGCGTGGGGCAGGA -GAAACCCAGGCCTGCGGCAGCGGCGCGTGTGCGGCGGTTGCAGTAGGGATTCAGCAAGGTTTGCTGGCCG -AAGAAGTACGCGTGGAACTCCCCGGCGGTCGTCTTGATATCGCCTGGAAAGGTCCGGGTCACCCGTTATA -TATGACTGGCCCGGCGGTACATGTCTACGACGGATTTATTCATCTATGAAGCAACCAGGGGAAGAACTGC -AGGAAACACTCACGGAGCTTGATGACCGGGCGGTTGTCGATTATCTGATTAAAAATCCTGAGTTTTTTAT -CCGTAATGCGCGCGCAGTAGAAGCGATACGTGTGCCGCATCCGGTACGCGGCACCGTTTCGTTGGTCGAG -TGGCACATGGCCCGCGCACGTAATCATATTCATGTTCTGGAAGAGAACATGGCGCTGTTGATGGAACAGG -CTATCGCCAACGAAGGCCTGTTTTATCGCCTACTCTACCTGCAGCGCAGTCTCACCGCCGCCAGCAGTCT -CGACGATATGCTGATGCGCTTTCACCGCTGGGCGCGCGATCTCGGCCTGGCAGGTGCGAGTCTGCGCCTG -TTTCCGGATCGCTGGCGCTTAGGTGCGCCGTCGAACCACACTCATCTGGCATTAAGCCGTCAGTCTTTCG -AACCGCTGCGTATTCAGCGTTAGGGGCAGGAACAGCACTATCTTGGGCCGCTTAACGGACCAGAGCTGCT -GGTGGTGCTACCGGAAGCGAAAGCGGTGGGATCGGTGGCGATGTCGATGCTGGGAAGCGATGCTGATTTG -GGTGTCGTGCTGTTTACCAGTCGCGATGCCAGTCACTATCAACAAGGGCAAGGAACGCAGTTACTTCATG -AAATTGCGCTGATGTTGCCGGAGCTTCTGGAGCGTTGGATTGAACGCGTATGACCGATTTACACACCGAT -GTAGAACGCTACCTACGTTATCTGAGCGTGGAGCGCCAGCTTAGCCCGATAACCCTGCTTAACTACCAGC -GTCAGCTTGAGGCGATCATCAATTTTGCCAGCGAAAACGGCCTGCAAAGCTGGCAGCAATGTGATGTGAC -GATGGTGCGCAATTTTGCTGTACGCAGTCGCCGTAAAGGGCTGGGAGCAGCAAGTCTGGCGTTACGGCTT -TCTGCGCTACGTAGCTTTTTTGACTGGCTGGTCAGCCAGAACGAACTCAAAGCTAACCCGGCGAAAGGTG -TTTCGGCACCGAAAGCGCCGCGTCATCTGCCGAAAAACATCGACGTCGACGATATGAATCGGCTGCTGGA -TATTGATATCAATGATCCCCTCGCTGTACGCGACCGTGCAATGCTGGAAGTGATGTACGGCGCGGGTCTG -CGTCTTTCTGAGCTGGTGGGGCTGGATATTAAACACCTCGACCTGGAGTCTGGTGAAGTGTGGGTTATGG -GGAAAGGCAGCAAAGAGCGCCGCCTGCCGATTGGTCGCAACGCTGTGGCGTGGATTGAGCACTGGCTTGA -TTTGCGCGACCTGTTTGGTAGCGAAGACGACGCGCTTTTTCTGTCGAAACTGGGCAAGCGTATCTCCGCG -CGTAATGTGCAGAAACGCTTTGCCGAATGGGGCATAAAACAAGGGCTGAATAATCACGTTCATCCGCATA -AATTACGTCACTCGTTCGCCACGCATATGCTGGAGTCGAGCGGCGATCTTCGTGGTGTGCAGGAGCTGCT -GGGTCATGCCAACCTCTCCACCACGCAAATCTATACTCATCTTGATTTTCAACACCTTGCCTCGGTGTAC -GATGCGGCGCATCCACGCGCCAAACGGGGGAAATAATGCGTTTTTACCGGCCTTTGGGGCGCATCTCGGC -GCTCACCTTTGACCTGGATGATACCCTTTACGATAACCGTCCGGTGATTTTGCGCACCGAGCGAGAGGCG -CTTACCTTTGTGCAAAATTATCATCCGGCGCTGCGCAGCTTCCAGAATGAAGATCTGCAACGCCTGCGCC -AGGCGGTACGGGAAGCGGAACCCGAGATTTATCACGACGTGACGCGCTGGCGTTTTCGTTCGATTGAACA -AGCGATGCTCGACGCCGGGCTGAGTGCCGAAGAAGCCAGTGCAGGCGCACACGCAGCAATGATCAACTTT -GCCAAATGGCGCAGCCGAATCGACGTCCCGCAGCAAACTCACGACACCTTAAAACAGCTGGCGAAGAAAT -GGCCGCTGGTGGCGATCACCAACGGTAACGCCCAGCCGGAGCTGTTTGGTTTGGGGGATTATTTTGAGTT -TGTGCTGCGCGCTGGCCCGCACGGGCGCTCAAAACCGTTCAGCGATATGTACTTTTTGGCTGCGGAAAAA -CTCAACGTGCCGATCGGCGAGATCTTACATGTTGGGGACGATCTCACCACTGACGTGGGTGGGGCAATTC -GCAGCGGAATGCAGGCTTGTTGGATCAGACCGGAAAATGGCGATCTGATGCAAACCTGGGACAGCCGTTT -ACTGCCGCATCTGGAAATTTCCCGGTTGGCATCTCTGACCTCGCTGATATAATCAGCAAATCTGTATATA -TACCCAGCTTTTTGGCGGAGGGCGTTGCGCTTCTCCGCCCAACCTATTTTTACGCGGCGGTGCCAATGGA -CGTTTCTTACCTGCTCGACAGCCTTAATGACAAACAGCGCGAAGCGGTGGCCGCGCCACGCAGCAACCTT -CTGGTGCTGGCGGGCGCGGGCAGTGGTAAGACGCGCGTACTGGTGCATCGTATCGCCTGGTTGATGAGCG -TGGAAAACTGCTCGCCATACTCGATTATGGCGGTGACGTTTACCAACAAAGCGGCGGCGGAGATGCGTCA -TCGTATCGGGCAACTGATGGGCACGAGCCAGGGCGGTATGTGGGTCGGCACCTTCCACGGGCTGGCGCAC -CGTTTGCTGCGTGCGCACCATATGGACGCCAATCTGCCGCAGGATTTCCAGATCCTCGACAGTGAAGACC -AGCTACGCCTGCTTAAGCGTCTGATCAAAGCCATGAACCTCGACGAGAAGCAGTGGCCGCCGCGGCAGGC -AATGTGGTACATCAACAGCCAGAAAGATGAAGGCCTGCGTCCGCATCATATTCAAAGCTACGGTAATCCG -GTGGAGCAGACCTGGCAGAAGGTGTATCAGGCGTATCAGGAAGCGTGTGACCGCGCGGGCCTGGTGGACT -TCGCCGAGCTGCTGCTGCGCGCTCACGAGTTGTGGCTTAACAAGCCGCATATCCTGCAACACTACCGCGA -ACGTTTTACCAATATCCTGGTGGACGAATTCCAGGATACCAACAACATTCAGTACGCGTGGATCCGCCTG -CTGGCGGGCGACACCGGCAAAGTGATGATCGTCGGTGATGACGACCAGTCAATCTACGGCTGGCGCGGGG -CGCAGGTGGAGAATATTCAGCGTTTCCTTAATGATTTCCCCGGTGCCGAAACTATTCGTCTGGAGCAAAA -CTACCGCTCTACCAGCAATATTCTGAGCGCCGCTAACGCCCTGATTGAAAACAATAACGGGCGTCTGGGT -AAAAAACTGTGGACCGATGGCGCGGACGGTGAGCCTATTTCCCTCTATTGCGCTTTTAACGAACTCGATG -AAGCGCGTTTTGTGGTTAACCGCATCAAAACCTGGCAGGACAACGGCGGAGCGCTTGCCGAGTGCGCCAT -TCTCTACCGCAGCAACGCCCAGTCGCGGGTGCTCGAAGAGGCGTTATTGCAGGCCAGTATGCCGTACCGT -ATTTACGGCGGGATGCGCTTCTTCGAACGCCAGGAAATCAAAGATGCGCTCTCGTATCTGCGCCTGATTG -CCAACCGCAACGACGACGCGGCCTTTGAGCGTGTGGTGAATACGCCAACGCGGGGTATTGGTGACCGGAC -GCTGGACGTGGTACGTCAGACATCGCGCGATCGCCAGTTAACACTCTGGCAGGCATGTCGTGAGCTGTTG -CAGGAAAAAGCCCTCGCCGGGCGAGCTGCCAGCGCCTTGCAGCGATTTATGGAATTAATCGACGCCTTAG -CGCAGGAAACTGCCGATATGCCGCTGCATGTACAGACTGACCGGGTAATTAAAGACTCCGGCCTGCGTAC -CATGTATGAGCAGGAGAAGGGCGAAAAAGGTCAGACGCGTATCGAAAACTTAGAGGAACTGGTGACGGCA -ACGCGCCAGTTCAGCTACAACGAAGAAGACGAAGATTTAATGCCGCTGCAGGCGTTCCTCTCCCATGCGG -CACTGGAAGCAGGTGAAGGGCAGGCGGATACCTGGCAGGATGCGGTGCAGTTGATGACGCTACACTCGGC -GAAAGGCCTGGAGTTCCCGCAGGTGTTTATCGTTGGTATGGAAGAGGGCATGTTCCCAAGCCAGATGTCG -CTGGATGAAGGCGGGCGTCTGGAAGAAGAACGCCGTCTGGCCTACGTTGGCGTAACCCGCGCGATGCAGA -AACTGACGCTGACCTACGCGGAAACCCGCCGTCTGTATGGTAAAGAGGTTTACCATCGCCCGTCGCGCTT -TATCGGCGAGCTGCCGGAAGAGTGTGTGGAAGAGGTGCGCCTGCGCGCCACGGTAAGCCGCCCGGTCAGC -CATCAGCGGATGGGTACGCCGATGGTCGAGAACGACAGCGGCTACAAGCTCGGCCAGCGCGTACGCCACG -CTAAGTTTGGTGAAGGCACCATTGTCAATATGGAAGGCAGCGGTGAGCATAGCCGTTTGCAGGTGGCATT -TCAGGGCCAGGGTATTAAATGGCTGGTGGCGGCATACGCCCGGCTGGAGTCGGTGTAACGTTGCCGGATG -CGGTGCTGCGCACCTTATTTGGCCTAAAAAATCATTCAGATTCAATAAATTGCAACGTCATGTAGGCCGG -ATAGGGCGTTTACGCCGCATCCGGCATCTGCGCCATCTTCAGTATCTGACACAAAACTATCGTTTTAACC -TTTCCGCTCGACGGAAATCATGGTGACAAAAGGATAGCGTTGCCACGGGATTGCCCCGCCTTTCATATAC -ATATGTGAAATCGTGCCATCAAGATAAAGCAGCTGCTCAACGTTCAGTTTCGCTTTGGCATAACAGGCAA -AATCATAAAAATTTGTTGCCTGCTGGCTCAACAAAAACACGGCGTTCCCATGTTTATTAATCCCAACACC -GTTACGAATTTTGCTTGAGGCGACGTTGGGATGAATACGCGGATTAATTACACCGTTTTCCATCAACATT -GGCCCTGACTGCACCGCAAACTGAATCTCTTTACTGGTTTTGAAGGCATCCAGACGAACGATGCCGACTT -TATCTCCCGCGACATAAAACACGCCGCCAGGACGGATAAAGAAATTCCCTTCACCTGAAGCGAGATTTAA -CGCCACCTTCTGCTGACCGTTTTCGATGTACAAACCGAGCGGCGCATAGCTTTCATCATAGATGCCGCCG -TTCATCGCCATCTGCACCTGACCCTGACTATTAATATCCGCCAGCAGAGCATGTAACGTTCCCCACGCTT -CGCCATTGGCTTTTTGCCAGTACATTTTCACCCGCTCTGTTTGAGGATTAACGGTATACGCCTGTACGGT -CAGCGTCGGATCTGAGAGTGCGCAATCATCAGCGGCAACAGCAAACAAGGGAAGTAAGGTGAGGGCGAGA -AAAATCCGTTTGAGATTCAAGGTGATCATTCCTTTACCAATGAGTAGCTGATGCGCCATTATAGGTCCTG -GATGTGGGATTTTTTTATCCTGTTAGCGACCTTGACGAGTACCAAAAAGCGCGAAGTTCAACTATTGTTC -TGTGGTGTTCTGTTGCGTGTTGACGGCAAAATTTTGCTGGCGTAACATGCGCGCACGATCACTCTAAGAG -GACATTCGCCTTGGACACACCCAGTAGATACTGGCTCACTATCCTGTCATCCAGGATCAACTCCTAAGGC -TATCCCTTTTTGCTGATAGCCTTAGCGGTTGTCAGCGACCTCAATTTTTCCCGTCGCGCTGAGTCAGGCT -GTTTAATGGTCTGAAACCCAATTTGTTTCTGTGTGCCCACCGAACTGTCCGATATTTTAAGCATTGGGAG -TCCCGGTCATGCTGAGCGCATTTCAACTGGAAAATAACCGACTGACCCGGCTGGAAGTCGAAGAGTCACA -ACCCCTTGTAAATGCAGTATGGATTGATCTTGTCGAACCGGACGACGACGAGCGACTGCGCGTACAATCT -GAACTTGGCCAGAGCCTGGCAACCCGCCCGGAACTGGAAGACATCGAAGCATCGGCACGTTTCTTTGAAG -ACGACGACGGCCTGCATATTCACTCCTTCTTCTTCTTTGAAGATGCGGAAGATCACGCCGGTAACTCCAC -TGTGGCATTTACCATCCGTGATGGTCGTCTGTTTACTCTGCGTGAGCGTGAACTGCCCGCTTTTCGTCTG -TATCGTATGCGTGCCCGTAGCCAGTCGATGGTAGACGGTAACGCCTACGAGTTGCTGCTGGATCTGTTCG -AAACCAAAATCGAACAGTTGGCAGATGAAATTGAAAATATCTATAGCGACCTGGAGCAGTTGAGCCGGGT -GATTATGGAAGGGCATCAGGGCGATGAGTACGACGAGGCGCTCTCCACTCTGGCGGAACTGGAAGATATC -GGCTGGAAAGTTCGCCTGTGTCTGATGGATACCCAGCGCGCGCTCAACTTCCTGGTGCGTAAAGCGCGTT -TACCGGGTGGGCAACTGGAGCAGGCGCGTGAAATCCTGCGAGATATCGAATCCCTGCTGCCGCATAACGA -ATCCCTGTTCCAGAAGGTGAACTTCCTGATGCAGGCGGCAATGGGTTTTATCAACATCGAGCAGAACCGC -ATCATCAAAATCTTCTCGGTGGTATCCGTGGTATTCCTGCCGCCGACGCTCGTTGCTTCCAGCTATGGCA -TGAACTTTGAGTTTATGCCAGAACTGAAGTGGAGCTTCGGCTACCCTGGCGCGATTATCTTTATGATCCT -CGCGGGCCTGGCACCGTATCTGTACTTTAAGCGGAAGAACTGGTTGTAAAAAACGAGAGCGGTGGCTTAG -TCTGGCTAAGCCACCTGTTATTCAAAGGCTCCAGGTATTTAACCCTTTTACCTCTTTCTCATAGAACCAT -TTGTTCGTGTTAACAGCAACATAGGCTGCTACGGCAATTCCCAGAATGTTAACGCCAATTAGTGCACCAA -CAAATAGAGATAGAATACCAAGTAATAGAACTATAATTGCTTTTTTCCATAACCCCAGGACAAATAAATA -TATCCAGGAACAGAAGAAAGCAATGAAATTCATTTGAATAGTTAAGCGTTGTCTTACTTTTAATGCTTTA -AATGCTGCTTTATATTCTGGTGTTGCCCCCCAGAATCCAGGAAAACCATGTTGATCATAAAAATTAAATC -GGTATTTCCATTTTTCACTTAATGAACCATCGTTCATATATTCCTTACTCATAAATACTCCATAACTATT -GTTTTGATGAATCAGTAGGTGCAAGCATTAGCATACTGAAAGTGGAAAAATAACAAATCAAAAAAATCAT -CGAACCATTGCCTGAACAGGCAAAATCTTCGGCTATCATTGTGATGATAGAGATGATATATACTGCTAAT -GTACCAAAAACATAAGTTTTTATATAGATGAAACCACTATCACGGAGTCGCTGGCAATTCATGTTGATGA -CGAGATAATGGAGTACGATGGTAGAGACTATAACAAGAAAGCCTGCTTCTCCATCGTTAAAAAAGATAAT -AAGAAAGGCAAAAATGAAATTTATTAAAATAAATGAAAATATATAACGACGTCTGGAAATCTTACCGTTA -GATGTTGGGATAAATATACGTAACATAAATTTTACATCCTTGTATGAGTCTCCGGTCAGCATGGCAATAT -GCCCACTCTCATGCAAGAGTCGGCATATTTTTTCAGAATATATTTATTTTTTATTTGGACGTTCTACGCT -GCGTATAAATCGCATCCATCACAAAAATTGCCAGCGCCACCCAAATAAAGGCGAAAGTCACCATCTTATC -GGCACCCGGTTTTTCACCATAAAACGTCACAGCCAGCAGGAACATCAGCGTCGGGCCAATGTACTGGAAA -AAGCCTAACGTTGAGAGACGCAAGCGCGTGGCAGCGGCGGTAAAACACAACAGCGGTACGGTAGTGACAA -TACCGGCGGCGATCAGCAGTAAATTCAGCGACATCGGGTTTTGCCCCATATGGCTGGTTGAGCTGTCGGC -AATAGCAAACAGGTAAATTGCCGCCACGGGCAGCAGCCACATGGTTTCGATTAACATGCCGGTTTGCGCT -TCAACGGCAATCTTCTTGCGTACCAGACCGTAGAAGGCAAAACTAAATGCCAGTCCCAGCGCGATAATAG -GTAGCGAACCAAAAGTCCACAGCTGGACTAACACGCCACATATCGCCAGAATCACCGCCAGCCATTGCAT -CCGGCGGAATCGCTCGCCGAGGAAAATCATCCCCAGCACAATGTTCACCAGCGGGTTAATAAAGTAACCA -AGGCTCGCTTCCAGCATATGGTGATTGTTCACCGCCCAGATAAACAGTAGCCAGTTGCCACCAATCAGCA -CGGCAGAGACTGCCAGCATAAAAATTTTCTGTGGCGTCTGAATCAGCGTTTTTAAATAGGACCACTGGCG -GCAAATGCTCATCAGCACCACCATAAAGAAAAACGACCAGATCACGCGATGCGTCAGGATTTCATCGGCG -GGCACGTAGTAAATCAACTTGAAGTACGCTGGCGCTATACCCCAAATAAAATAAGCGGCAAGAGCGAGTA -ATACGCCCTGCCGCGTTTGTTTTGCATCCATCGGGAATACTCATTTTTAATTGGTAACAGCAGTTTACCT -GCTTTTATGTCTTCAACCTACCATATAGGTGGCGGTGGCACTGGCAATATAAAGCTGTTCTTCATTGTGT -AATTCAACGCGGGCGACGGCGACTTTATTGCCTGCACGCAACAGGCTACTAGTAGCAGTAAAACGCTCGC -CCCTGCCTGGGCGCAGATAATCAACGCGAAGATCAATGGTCCCCATCCGCGATAGCCGCTGGCGTAGTTC -ATCTTCACTGATGGTTTCGTGGCGGGTTAAGGTACTTCCCACGCACACCAGACCGGCGGCGACATCCAGC -GCCGACGCAATGACCCCGCCGTGCAAAATGCTTTGCGCCCAGTTGCCCACCATCATTGGCTGATTTTTAA -AGGCCAGCTGTGCGAACTCTTTTTCGTAACGCTCCAGTTCCATCCCCAATGCGCGGTTAAATGGCATGTG -ATAAACAAACATCTCACCCACTAATTTCAGGGCTTGTTCAGCGGTCAGTACGGCAGACATATCATCCTTA -CACTTCATTGGTTAATGAAATGTTGATTTTATGCTTCTTTGTTGTTGGTTTCTACTTTAGGAAGGGATAA -CTAACGGCTATGGAGTTAAGTATGTAAAATAGCCCGCAGAAAAATATTCACCTTATCAATAATTCGTTAC -GGAGAACACGACCGATGCGGACTCTGCAGGGCTGGTTGTTGCCGGTGTTTATGTTGCCTATGGCAGTATA -TGCACAAGAGGCAACGGTGAAAGAGGTGCATGACGCGCCAGCGGTGCGTGGCAGTATTATCGCCAATATG -CTGCAGGAGCATGACAATCCGTTCACGCTCTATCCTTATGACACCAACTACCTCATTTACACCCAAACCA -GCGATCTGAATAAAGAAGCGATTGCCAGTTACGACTGGGCGGAAAATGCGCGTAAGGATGAAGTAAAGTT -TCAGTTGAGCCTGGCATTTCCGCTGTGGCGTGGGATTTTAGGCCCGAACTCGGTGTTGGGTGCGTCTTAT -ACGCAAAAATCCTGGTGGCAACTGTCCAATAGCGAAGAGTCTTCACCGTTTCGTGAAACCAACTACGAAC -CGCAATTGTTCCTCGGTTTTGCCACCGATTACCGTTTTGCAGGTTGGACGCTGCGCGATGTGGAGATGGG -GTATAACCACGACTCTAACGGGCGTTCCGACCCGACCTCCCGCAGCTGGAACCGCCTTTATACTCGCCTG -ATGGCAGAAAACGGTAACTGGCTGGTAGAAGTGAAGCCGTGGTATGTGGTGGGTAATACTGACGATAACC -CGGATATCACCAAATATATGGGTTACTACCAGCTTAAAATCGGCTATCACCTCGGTGATGCGGTGCTCAG -TGCGAAAGGACAGTACAACTGGAACACCGGCTACGGCGGCGCGGAGTTAGGCTTAAGTTACCCGATCACC -AAACATGTGCGCCTTTATACTCAGGTTTACAGCGGCTATGGCGAATCGCTCATCGACTATAACTTCAACC -AGACCCGTGTCGGTGTGGGGGTTATGCTAAACGATTTGTTTTGATGAACGGTTGAGTGGTTGGCAAATCT -GGAATCCAGCATCCAGGATTACCCTCTCAGAGACTAAAAGCATTGCAGTTTCTCGCGCAGGCGCTGAAAA -TAGCGCCTGTTTTTATTTCAGGCAATCGGGGTGAATGTGGCGCAGGCGGAAGTGTTGAATCTGGAGTCCG -GAGCTAAACAGGTTTTACAAGAAACCTTTGGCTACCAACAGTTTCGCCCCGGCCAGGAAGAAATTATCGA -CACTGTGCTTTCCGGCCGCGATTGCCTCGTCGTCATGCCCACTGGTGGCGGAAAATCCCTTTGCTATCAA -ATCCCTGCCTTATTGCTAAACGGCCTTACCGTGGTTGTTTCACCGCTGATTTCGTTGATGAAAGATCAGG -TGGATCAACTGCAAGCCAACGGCGTGGCGGCGGCGTGCCTTAACTCGACGCAAACCCGCGAACAGCAACT -TGAAGTGATGACAGGCTGCCGCACCGGGCAAATTCGTCTGCTTTATATCGCCCCGGAACGCCTGATGCTG -GATAACTTTCTTGAGCATCTGGCGCACTGGAATCCGGTGTTATTAGCCGTTGATGAAGCGCACTGTATCT -CCCAATGGGGCCACGATTTCCGCCCGGAATATGCCGCGCTCGGTCAGTTGCGCCAGCGGTTCCCGACGCT -GCCGTTTATGGCGCTGACCGCCACAGCCGACGACACCACGCGCCAGGATATCGTGCGCCTGCTGGGGCTG -AACGATCCGCTGATTCAAATCAGCAGTTTTGACCGTCCGAATATTCGCTACATGCTGATGGAGAAGTTCA -AACCGCTCGATCAGTTGATGCGCTACGTGCAGGAACAGCGCGGTAAGTCAGGCATTATCTACTGCAACAG -CCGCGCGAAAGTAGAAGACACCGCTGCGCGCCTGCAAAGCAAGGGAATTAGCGCGGCGGCCTATCATGCC -GGGCTGGAAAATAATGTTCGCGCCGATGTGCAGGAAAAATTCCAGCGCGATGACCTGCAAATTGTGGTGG -CGACGGTGGCGTTCGGCATGGGCATCAATAAACCAAACGTTCGCTTCGTGGTCCACTTTGATATTCCGCG -CAATATCGAATCCTATTATCAGGAAACCGGACGCGCCGGGCGTGATGGCCTGCCCGCGGAAGCGATGCTG -TTTTACGATCCGGCTGATATGGCGTGGCTGCGCCGTTGTCTGGAAGAGAAGCCGCAGGGGCAGTTGCAGG -ATATCGAGCGCCACAAACTCAATGCGATGGGCGCGTTTGCCGAAGCGCAAACTTGCCGTCGTCTGGTATT -GCTGAACTATTTTGGCGAAGGGCGTCAGGAGCCGTGCGGGAACTGCGATATCTGCCTCGATCCGCCGAAA -CAGTACGACGGTTCAACCGATGCTCAGATTGCCCTTTCCACCATTGGTCGTGTGAATCAGCGGTTTGGGA -TGGGTTATGTGGTGGAAGTGATTCGTGGTGCTAATAACCAGCGTATCCGCGACTATGGTCATGACAAACT -GAAAGTCTATGGCATGGGCCGTGATAAAAGCCATGAACATTGGGTGAGCGTGATCCGCCAGCTGATTCAC -CTCGGCCTGGTGACGCAAAATATTGCCCAGCATTCTGCCCTACAACTGACAGAGGCCGCGCGCCCGGTGC -TGCGCGGCGAATCCTCTTTGCAACTTGCCGTGCCGCGTATCGTGGCGCTCAAACCGAAAGCGATGCAGAA -ATCGTTCGGCGGCAACTATGATCGCAAACTGTTCGCCAAATTACGCAAACTGCGTAAATCGATAGCCGAT -GAAAGTAATGTCCCGCCGTACGTGGTGTTTAACGACGCAACCTTGATTGAGATGGCTGAACAGATGCCGA -TCACCGCCAGCGAAATGCTCAGCGTTAACGGCGTTGGGATGCGCAAGCTGGAACGCTTTGGCAAACCGTT -TATGGCGCTGATTCGTGCGCATGTTGATGGCGATGACGAAGAGTAGTCAGCAGCATAAAAAAGTGCCAGT -ATGAAGACTCCGTAAACGTTTCCCCCGCGAGTCAAATGTATGTTGATGTTATTTCTCACCGTCGCCATGG -TGCACATTGTGGCGCTTATGAGCCCCGGTCCCGATTTCTTTTTTGTCTCTCAGACCGCTGTCAGTCGTTC -CCGTAAAGAAGCGATGATGGGCGTGCTGGGCATTACCTGCGGCGTAATGGTTTGGGCTGGGATTGCGCTG -CTTGGCCTGCATTTGATTATCGAAAAAATGGCCTGGCTGCATACGCTGATTATGGTGGGCGGTGGCCTGT -ATCTCTGCTGGATGGGTTACCAGATGCTACGTGGTGCACTGAAAAAAGAGGCGGTTTCTGCACCTGCGCC -ACAGGTCGAGCTGGCGAAAAGTGGGCGCAGTTTCCTGAAAGGTTTACTGACCAATCTCGCTAATCCGAAA -GCGATTATCTACTTTGGCTCGGTGTTCTCATTGTTTGTCGGTGATAACGTTGGCACTACCGCGCGCTGGG -GCATTTTTGCGCTGATCATTGTCGAAACGCTGGCGTGGTTTACCGTCGTTGCCAGCCTGTTTGCCCTGCC -GCAAATGCGCCGTGGTTATCAACGTCTGGCGAAGTGGATTGATGGTTTTGCCGGGGCGTTATTTGCCGGA -TTTGGCATTCATTTGATTATTTCGCGGTGATGCCAGACGCGTCTTCAGAGTAAGTCGGATAAGGCGTTTA -CGCCGCATCCGACATTATTTTTCACGCATGCCTCGCCGATGCTAACAGCGCTCCCACCAGCATAAACAAC -GAGCCGAAAATCTTATTCAGCGCCTTCATCTGCTTTGGTCCTTTAATCCATAGAGCAATCCGTTGAGCAA -GGGTGGCGTAACCGATCATCACAATAATATCGACCACAATAGTGGTGACGCCGAGCACGATATACTGCAT -CAGTTGCGGCTGTTGCGGCATGATGAATTGCGGAAATAGCGCCGCCAGAAACACAATACTTTTGGGATTG -GTGAGATTCACAAAAACTGCGCGCTGGAACAAATGTCGACGCGATTGAGTAGAGGCCAGCGATTTAAGGT -CAATTGCACCAGCGGCGCGCCACTGCTGGATTCCCAGCCAAATCAAGTAAGCCGCGCCTGCCCACTTCAA -CACTTCAAACGCAATCACTGAGCGGGAAAATAGCGTCCCCAACCCCACGCCAACCAGCACAATATGAATC -GCCAGTCCGGTCTGAAGCCCAGCAATAGACGCCACCGCGCCGCGATAACCGTGGTTGAGCGAGGTGGTCA -TAGTGTTGATTGCACCAGAGCCTGGCGACAGGCTTAAAATGATCGATGTCAGCAGGTAGGCAAACCACCA -TTCTAAGGTCATGATGAACTCCCGGTGTGTCTATTTTTGTGCCACAATACGCTACTGTCGCAGCGTTGTG -TCAGGCACGCTAAAAAAAACGATTTTACGTGGTTTAAGAGGCAGATTACCCGATGTTTCAGCAGCAAAAA -GACTGGGAAACAAGAGAAAACGCGTTTGCTGCTTTTACCATGGGACCGCTGACTGATTTCTGGCGTCAGC -GTGATGAAGCAGAGTTTACTGGTGTGGATGACATTCCGGTGCGCTTTGTCCGTTTTCGCGCACAGCACCA -TGACCGGGTGGTAGTCATCTGCCCGGGGCGTATTGAGAGCTACGTAAAATATGCGGAACTGGCCTATGAC -CTGTTCCATTTGGGGTTTGATGTCTTAATCATCGACCATCGCGGGCAGGGACGTTCCGGTCGCCTGTTAG -CCGATCCGCATCTCGGGCATGTTAATCGCTTTAATGATTATGTTGATGATCTGGCGGCATTCTGGCAGCA -GGAGGTTCAGCCCGGTCCGTGGCGTAAACGCTATATACTGGCACATTCGATGGGCGGTGCGATCTCCACA -TTATTTCTGCAACGCCATCCAGGTGTATGTGACGCCATTGCGCTAACTGCGCCAATGTTTGGGATCGTGA -TTCGTATGCCGTCATTTATGGCACGGCAGATCCTCAACTGGGCCGAAGCGCATCCACGTTTCCGTGATGG -CTATGCAATAGGCACCGGGCGCTGGCGCGCGTTGCCGTTTGCTATCAACGTACTGACCCACAGCAGACAG -CGATATCGACGTAACTTACGCTTCTATGCTGATGACCCAACGATTCGCGTCGGTGGGCCGACCTACCATT -GGGTACGCGAAAGTATTCTGGCTGGCGAACAGGTGTTAGCCGGTGCGGGTGATGACGCCACGCCAACGCT -TCTCTTGCAGGCTGAAGAGGAACGCGTGGTGGATAACCGCATGCATGACCGTTTTTGTGAACTCCGCACC -GCCGCGGGCCATCCTGTCGAAGGAGGACGGCCGTTGGTAATTAAAGGTGCTTACCATGAGATCCTTTTTG -AAAAGGACGCAATGCGCTCAGTCGCGCTCCACGCCATCGTTGATTTTTTCAACAGGCATAACTCACCCAG -CGGAAACCGCTCTACAGAGGTTTAAATTTCTTATGTACCAGGTTGTTGCGTCTGATTTAGATGGCACGTT -ACTTTCTCCCGACCATACGTTATCCCCTTACGCCAAAGAAACTCTGAAGCTGCTCACCGCGCGCGGCATC -AACTTTGTGTTTGCGACCGGTCGTCACCACGTTGATGTGGGGCAAATTCGCGATAATCTGGAGATTAAGT -CTTACATGATTACCTCCAATGGTGCGCGCGTTCACGATCTGGATGGTAATCTGATTTTTGCTCATAACCT -GGATCGCGACATTGCCAGCGATCTGTTTGGCGTAGTCAACGACAATCCGGACATCATTACTAACGTTTAT -CGCGACGACGAATGGTTTATGAATCGCCATCGCCCGGAAGAGATGCGCTTTTTTAAAGAAGCGGTGTTCC -AATATGCGCTGTATGAGCCTGGATTACTGGAGCCGGAAGGCGTCAGCAAAGTGTTCTTCACCTGCGATTC -CCATGAACAACTGCTGCCGCTGGAGCAGGCGATTAACGCTCGTTGGGGCGATCGCGTCAACGTCAGTTTC -TCTACCTTAACCTGTCTGGAAGTGATGGCGGGCGGCGTTTCAAAAGGCCATGCGCTGGAAGCGGTGGCGA -AGAAACTGGGCTACAGCCTGAAGGATTGTATTGCGTTTGGTGACGGGATGAACGACGCCGAAATGCTGTC -GATGGCGGGGAAAGGCTGCATTATGGGCAGTGCGCACCAGCGTCTGAAAGACCTTCATCCCGAGCTGGAA -GTGATTGGTACTAATGCCGACGACGCGGTGCCGCATTATCTGCGTAAACTCTATTTATCGTAATCGTTCT -TTATTTGGTCAGTTGTCAACCTGATACTTCGCTACAATGGATACCCGTTAATCAAAGAGTTTTCCATTGT -GGCGCTACTTATCATCACCACGATTCTGTGGGCCTTCTCCTTTAGCTTTTATGGCGAGTACCTTGCGGGG -CACGTCGATAGCTATTTTGCGGTGCTGGTGCGCGTTGGCCTGGCGGCACTCGTTTTTCTGCCGTTTCTGC -GTACCCGTGGCAATAGCCTGAAAACGGTCGGCCTGTATATGCTGGTGGGCGCGATGCAGCTTGGCGTGAT -GTATATGCTGAGTTTCCGCGCTTATCTCTACCTGACGGTTTCCGAGCTGCTGCTGTTCACCGTGCTGACG -CCGCTCTACATCACGCTGATTTATGACATCATGAGTAAGCGCCGTCTGCGCTGGGGCTATGCCTTTAGCG -CCTTGCTGGCGGTGATTGGTGCCGGGATTATTCGCTATGATCAGGTCACCGACCATTTCTGGACTGGCTT -GCTGCTGGTGCAACTCTCCAATATCACTTTTGCCATTGGCATGGTGGGTTACAAACGCCTGATGGAAACT -CGCCCGATGCCACAGCATAACGCCTTTGCGTGGTTCTATCTTGGCGCGTTTCTGGTGGCAGTGATTGCAT -GGTTCTTGCTGGGAAATGCGCAGAAAATGCCGCAAACCACGCTGCAATGGGGCATTCTGGTGTTTCTTGG -CGTGGTGGCTTCCGGGATTGGCTACTTTATGTGGAACTACGGCGCGACGCAGGTGGACGCCGGAACGCTG -GGCATTATGAATAATATGCACGTTTCGGCAGGGCTGCTGGTAAACCTGGCTATCTGGCACCAACAGCCGC -ACTGGCCAACGTTTATTACAGGCGCGCTGGTGATCCTGGCCTCACTGTGGGTGCATCGTAAGTGGGTCGC -TCCGCGCTCTTCACAAACGGCAGATGATCGCAGGCGTGATTGCGCGCTGAGCGAATAAACGCTTCCGTAA -CTGGCTGACGCTGCTCGCCATCGCGCACGGCGGCGTACAGTCGGCTCCACAAGCCTTCGCCCAGGGTTTT -GGTCACCACCAGACCCTGGCGCTCAAAACTCTCTACTACCCAATGCGGTAGCGCGGCAATACCCATCCGC -GCGGCAACCATCTGAATCAACAATAAGGTGTTATCGACGCTTTTCAGTGACGGGCTGACGCCTGCCGGCT -GAAGAAAATGCCGCCAGACATCCAGTCGACTACGCTGCACCGGATAAATTAATAGCGTCTCGCTGGCGAG -ATCTTCCGGTGTAATTCGCGTTTTCGCCGCCAGTGGATGGTCAGGTGCTAACACCAGACGCACTTCATAG -TCGAACATCGGCGAATAATGCAGGCCACTGCGCGGCAGAATATCGGACGTCATTACCAGATCCAGCTCTC -CCTGTTGCAAGGCGGGCTGCGGGTCAAATGTCACGCCCGATTTAAAATCCATCTCTACCTGCGGCCAGTT -CTTATGGAAATTTTCTAACGCGGGTGTCAGCCACTGAATACAGCTATGGCACTCAATGGCAATGCGCAGA -CGCGTCTGCTGCGGTTCATTGCAGGCTTGCAGGGCCTGGCTAATTTGCGGCAGTACCTGGTTTGCCAGTT -GCAACAGGATTTCTCCCTGCGGTGTAAAGCGTAGCGGCTGGCTCTTACGCACAAATAGCCGGAAGCCAAG -GCGTTGTTCCAGATCGCTAAACTGGTGAGACAGGGCGGATTGCGTCTGATGCAACGTCGCCGCAGCGGCT -GCGAGCGAGCCGCAGTTCCGCAACGCTTGTAGCGTTTTCAGGTGTTTTACTTCGATCATGAAAGTCCTTC -ACTTCGGCATGAATAATTTGCGCTTGAGGAATATACAGTAACCGCCAATTATGGATGTGTAAACATCTGG -ACGGCTAAAATCCTTCGTCTTTTAAATTTATGGTGCGTTGGCTGCGTTTCTCCACCCCGGTCACTTACTT -CAGTAAGCTCCCGGGGATGAATAAACTTGCCGCCTTCCCTAAATTCAAAATCCATAGGATTTACATATAA -TTAGAGGAAGAAAAAATGACAATATTGAATCACACCCTCGGTTTCCCTCGCGTTGGCCTGCGTCGCGAGC -TGAAAAAAGCGCAAGAAAGTTATTGGGCGGGGAACTCCACGCGTGAAGAACTGCTGGCGGTAGGGCGTGA -ATTGCGTGCTCGTCACTGGGATCAACAAAAGCAAGCGGGTATCGACCTGCTGCCGGTGGGCGATTTTGCC -TGGTACGATCATGTACTGACCACCAGTCTGCTGCTGGGTAACGTTCCGGCGCGTCATCAGAACAAAGATG -GTTCGGTAGATATCGACACCCTGTTCCGTATTGGTCGTGGACGTGCGCCGACTGGCGAACCTGCGGCGGC -AGCGGAAATGACCAAATGGTTTAACACCAACTATCACTACATGGTGCCGGAGTTCGTTAAAGGCCAACAG -TTCAAACTGACCTGGACGCAGCTGCTGGACGAAGTGGACGAGGCGCTGGCGCTGGGCCACAAGGTGAAAC -CTGTGCTGCTGGGGCCGGTTACCTGGCTGTGGCTGGGGAAAGTGAAAGGTGAACAATTTGACCGCCTGAG -CCTGCTGAACGACATTCTGCCGGTTTATCAGCAAGTGCTGGCAGAACTGGCGAAACGCGGCATCGAGTGG -GTACAGATTGATGAACCCGCGCTGGTACTGGAACTACCACAGGCGTGGCTGGACGCATACAAACCCGCTT -ACGACGCGCTCCAGGGACAGGTGAAACTGCTGCTGACCACCTATTTTGAAGGCGTAACGCCAAATCTCGA -CACGATTACTGCGCTGCCTGTTCAGGGTCTGCATGTTGACCTCGTACATGGTAAAGATGACGTTGCTGAA -CTGCACAAGCGCCTGCCTTCTGACTGGTTGCTGTCTGCGGGTCTGATCAATGGTCGTAACGTCTGGCGCG -CCGATCTTACCGAGAAATATGCGCAAATTAAGGACATTGTCGGCAAACGTGATTTGTGGGTGGCATCTTC -CTGCTCGTTGCTGCACAGCCCCATCGACCTGAGCGTGGAAACGCGTCTTGATGCAGAAGTGAAAAGCTGG -TTTGCCTTCGCCCTACAAAAATGCCATGAACTGGCACTGCTGCGCGATGCGCTGAACAGTGGTGACACGG -CAGCTCTGGCAGAGTGGAGCGCCCCGATTCAGGCACGTCGTCACTCTACCCGCGTACATAATCCGGCGGT -AGAAAAGCGTCTGGCGGCGATCACCGCCCAGGACAGCCAGCGTGCGAATGTCTATGAAGTGCGTGCTGAA -GCCCAGCGTGCGCGTTTTAAACTGCCAGCGTGGCCGACCACCACGATTGGTTCCTTCCCGCAAACCACGG -AAATTCGTACCCTGCGTCTGGATTTCAAAAAGGGCAATCTCGACGCCAACAACTACCGCACGGGCATTGC -GGAACATATCAAGCAGGCCATTGTTGAGCAGGAACGTTTGGGACTGGATGTGCTGGTACATGGCGAGGCC -GAGCGTAATGACATGGTGGAATACTTTGGCGAGCACCTCGACGGATTTGTCTTTACGCAAAACGGTTGGG -TACAGAGCTACGGTTCCCGCTGCGTGAAGCCACCGATTGTCATTGGTGACATTAGCCGCCCGGCACCGAT -TACCGTGGAGTGGGCGAAGTATGCGCAATCGCTGACCGACAAACCGGTGAAAGGGATGCTGACGGGGCCG -GTGACCATACTCTGCTGGTCGTTCCCGCGTGAAGATGTCAGCCGTGAAACCATCGCCAAACAGATTGCGC -TGGCGCTGCGTGATGAAGTGGCCGATCTGGAAGCCGCTGGAATTGGCATCATCCAGATTGACGAACCGGC -GCTGCGCGAAGGTTTACCGCTGCGTCGTAGCGACTGGGATGCGTATCTCCAGTGGGGCGTAGAGGCCTTC -CGTATCAACGCCGCCGTGGCGAAAGATGACACACAAATCCACACTCACATGTGTTATTGCGAGTTCAACG -ACATCATGGATTCGATTGCGGCGCTGGACGCAGACGTCATCACCATCGAAACCTCGCGTTCCGACATGGA -GTTGCTGGAGTCGTTTGAAGAGTTTGATTATCCAAATGAAATCGGTCCTGGCGTCTATGACATTCACTCG -CCAAACGTACCGAGCGTGGAATGGATTGAAGCCTTGCTGAAGAAAGCGGCAAAACGCATTCCGGCAGAGC -GCCTGTGGGTCAACCCGGACTGTGGCCTGAAAACGCGCGGCTGGCCAGAAACCCGCGCGGCACTGGCGAA -CATGGTGCAGGCGGCGCAGAACTTGCGTCGGGGGTAAAATCCAAACCGGGTGGTAATACCACCCGGTCTT -TTCTCATTACAGCGACTTCTTCCCACCATACTGCTTAAACCATTCCAGCATACGCTGCCAGCCATCTTCT -GCAGATGCGGCATGATAGCTCGGGCGATAATCAGCGTTGAATGCATGCCCGGCGTCCGGGTACACGATAA -TCTCTGCTTTCGCATTAGCAGCCCGCAGCGCCTGGCGCATGGTTTCAACGCTCTCCTGCGGAATGCTGTT -ATCCTGACCACCATATAAGCCGAGAATCGGCGCGTTAAGATCGGTTGCGATATCAACAGGTTGTTTCGGT -GAATTCAGCGACTTGTCGCCCGTCAGTTTGCCGTACCACGCCACTGCGGCTTTTAGCTGTGGATTATGCG -CGGCATACAGCCAGGTGATACGTCCACCCCAGCAGAATCCGGTGATCATTAAACGATGAACATCGCCGCC -GTTGCGGGAAGCCCAACTGGCGACATGATCGAGATCGGCCAGCACCTGCGAGTCAGGCACTTTTGCTACC -AGACCGCTAAGCAACGTGGGGATATCGGCAAAATCATTCGGATCGCCTTCGCGGAAGTAAAGTTCAGGTG -CGATAGCCAGATACCCCTCCAGCGCCAGACGGCGACAAATGTCGCGGATATGTTCATGCACGCCAAAAAT -TTCCTGCACTACAATGACCACTGGCAGTGGGCCATCGCTTTGCTTTGGTCTGGCATGGTAAGCAGGCATG -TTATCCCCTTGTGAAGGGATAGAGGTGAAGCCCGCCACAATCGCGTCGTCCGGGGTCTGAACGATGGTCG -AAGCGAGAGGCGATGCAGCAGGTGCAAATCCAGATTGTTGTGTTGTTGCCATGGTATTCTCCGTACCCTT -ATAAAAATGTTGCGCAATGTTAACTATAGTCAGCATGCAACAAATCACATTGCCTGAATCGGCTCATCTT -TTATGCAGTCCTGCAGAATGAAGGGTGATTTATGTGATTTGCATCACTTTTGGTGGGTAAATTTATGCAA -CGCATTTGCGTCATGGTGATGAGTATCACGAAAAAATGTTAAACCCTTCGGTAAAGTGTCTTTTTGCTTC -TTCTGACTAAACCGATTCACAGAGGAGTTGTATATGTCCAAGTCTGATGTTTTTCATCTCGGCCTCACTA -AAAACGATTTACAAGGGGCTACGCTTGCCATCGTCCCTGGCGACCCGGATCGTGTGGAAAAGATCGCCGC -GCTGATGGATAAGCCGGTTAAGCTGGCATCTCACCGCGAATTCACTACCTGGCGTGCAGAGCTGGATGGT -AAACCTGTTATCGTCTGCTCTACCGGTATCGGCGGCCCGTCTACCTCTATTGCTGTTGAAGAGCTGGCAC -AGCTGGGCATTCGCACCTTCCTGCGTATCGGTACAACGGGCGCTATTCAGCCGCATATTAATGTGGGTGA -TGTCCTGGTTACCACGGCGTCTGTCCGTCTGGATGGCGCGAGCCTGCACTTCGCACCGCTGGAATTCCCG -GCTGTCGCTGATTTCGAATGTACGACTGCGCTGGTTGAAGCTGCGAAATCCATTGGCGCGACAACTCACG -TTGGCGTGACAGCTTCTTCTGATACCTTCTACCCAGGTCAGGAACGTTACGATACTTACTCTGGTCGCGT -AGTTCGTCACTTTAAAGGTTCTATGGAAGAGTGGCAGGCGATGGGCGTAATGAACTATGAAATGGAATCT -GCAACCCTGCTGACCATGTGTGCAAGTCAGGGCCTGCGTGCCGGTATGGTAGCGGGTGTTATCGTTAACC -GCACCCAGCAAGAGATCCCGAATGCTGAGACGATGAAACAAACCGAAAGCCATGCGGTGAAAATCGTGGT -GGAAGCGGCGCGTCGTCTGCTGTAATTCTCTTCTCCTGTCTGAAGGCCGACGCGTTCGGCCTTTTGTATT -TTTGCGTAGCGCCTCGCAGGAAATGCCTTTCCAACTGGACGTTTGTACAGCACAATTCTATTTTGTGCGG -GTAAGTTGTTGCGTCAGGAGGCGTTGTGGATTTCTCAATCATGGTTTACGCAGTTATTGCGTTGGTGGGT -GTGGCAATTGGCTGGCTGTTTGCCAGTTATCAACATGCGCAGCAAAAAGCCGAGCAATTAGCTGAACGTG -AAGAGATGGTCGCGGAGTTAAGCGCGGCAAAACAACAAATTACCCAAAGCGAGCACTGGCGTGCAGAGTG -CGAGTTACTCAATAACGAAGTGCGCAGCCTGCAAAGTATTAACACCTCTCTGGAGGCCGATCTGCGTGAA -GTAACCACGCGGATGGAAGCCGCACAGCAACATGCTGACGATAAAATTCGCCAGATGATTAACAGCGAGC -AGCGCCTCAGTGAGCAGTTTGAAAACCTCGCCAACCGTATTTTTGAGCACAGCAATCGCCGGGTTGATGA -GCAAAACCGTCAGAGTCTGAACAGCCTGTTGTCGCCGCTACGTGAACAACTGGACGGTTTCCGCCGTCAG -GTTCAGGACAGCTTCGGTAAAGAAGCACAAGAACGCCATACCCTGACCCACGAAATTCGCAATCTCCAGC -AACTCAACGCGCAAATGGCCCAGGAAGCGATCAACCTGACGCGCGCGCTGAAAGGCGACAATAAAACCCA -GGGCAACTGGGGCGAGGTAGTATTGACGCGGGTGCTGGAGGCTTCCGGTCTGCGTGAAGGGTATGAATAT -GAAACCCAGGTCAGCATCGAAAATGACGCCCGCTCGCGGATGCAGCCGGATGTCATCGTGCGCCTGCCGC -AGGGAAAAGATGTGGTGATCGACGCCAAAATGACGCTGGTCGCCTATGAACGCTATTTTAACGCCGAAGA -CGACTACACCCGCGAAAGCGCGCTACAGGAACATATCGCGTCGGTGCGTAACCATATCCGTTTGCTGGGA -CGCAAAGATTATCAACAGCTGCCGGGGCTGCGAACTCTGGATTACGTGCTGATGTTTATTCCCGTTGAAC -CCGCTTTTTTACTGGCGCTTGACCGCCAGCCGGAGCTGATCACCGAAGCGTTGAAAAACAACATCATGCT -GGTTAGCCCGACTACGCTGCTGGTGGCGCTGCGCACTATCGCCAACCTGTGGCGTTATGAGCATCAAAGC -CGCAACGCCCAGCAAATCGCCGATCGTGCCAGCAAGCTGTACGACAAGATGCGTTTGTTCATCGATGACA -TGTCCGCGATTGGTCAAAGTCTCGACAAAGCGCAGGATAATTATCGGCAGGCAATGAAAAAACTCTCTTC -AGGGCGCGGAAATGTGCTGGCGCAGGCAGAAGCGTTTCGCGGTTTAGGAGTAGAAATTAAACGCGAGATT -AATCCGGATTTGGCTGAACAGGCGGTGAGCCAGGATGAAGAGTATCGACTTCGGTCGGTTCCGGAGCAGC -CGAATGATGAAGCTTATCAACGCGATGATGAATATAATCAGCAGTCGCGCTAGCCCATTGGGAGTAGTTA -AGCCGGGTAGAAATCTAGGGCATCGACGCCCAATCTGTTACACTTCTGGAACAATTTTTTGATGAGCAGG -CATTGAGATGGTGGATAAGTCACAAGAAACGACGCACTTTGGTTTTCAGACCGTCGCGAAGGAACAAAAA -GCGGATATGGTCGCCCACGTTTTCCATTCCGTGGCATCAAAATACGATGTCATGAATGATTTGATGTCAT -TTGGTATTCATCGTTTGTGGAAGCGATTCACGATTGATTGCAGCGGCGTACGCCGTGGGCAGACCGTGCT -GGATCTGGCTGGTGGCACCGGCGACCTGACAGCGAAATTCTCCCGCCTGGTCGGAGAAACTGGCAAAGTG -GTCCTTGCTGATATCAATGAATCCATGCTCAAAATGGGCCGCGAGAAGCTGCGTAATATCGGTGTGATTG -GCAACGTTGAGTATGTTCAGGCGAACGCTGAGGCGCTGCCGTTCCCGGATAACACCTTTGATTGCATCAC -CATTTCGTTTGGTCTGCGTAACGTCACCGACAAAGATAAAGCACTGCGTTCAATGTATCGCGTGCTGAAA -CCCGGCGGCCGCCTGCTGGTGCTTGAGTTCTCGAAGCCAATTATCGAGCCGCTGAGCAAAGCCTATGATG -CATACTCCTTCCATGTGCTGCCGCGTATTGGCTCACTGGTCGCGAACGACGCCGACAGCTACCGTTATCT -GGCAGAATCCATCCGTATGCATCCCGATCAGGATACCCTGAAAGCCATGATGCAGGATGCCGGATTCGAA -AGTGTCGACTACTACAATCTGACGGCAGGGGTTGTGGCGCTGCATCGTGGTTATAAGTTCTGACAGGAGA -CCGGAAATGCCTTTTAAACCTTTAGTGACGGCAGGAATTGAAAGTCTGCTCAACACCTTCCTGTATCGCT -CACCCGCGCTGAAAACGGCCCGCTCGCGTCTGCTGGGTAAAGTATTGCGCGTGGAGGTAAAAGGCTTTTC -GACGTCATTGATTCTGGTGTTCAGCGAACGCCAGGTTGATGTACTGGGCGAATGGGCAGGCGATGCTGAC -TGCACCGTTATCGCCTACGCCAGTGTGTTGCCGAAACTTCGCGATCGCCAGCAGCTTACCGCACTGATTC -GCAGTGGTGAGCTGGAAGTGCAGGGCGATATTCAGGTGGTGCAAAACTTCGTTGCGCTGGCAGATCTGGC -AGAGTTCGACCCTGCGGAACTGCTGGCCCCTTATACCGGTGATATCGCCGCTGAAGGAATCAGCAAAGCC -ATGCGCGGAGGCGCAAAGTTCCTGCATCACGGCATTAAGCGCCAGCAACGTTATGTGGCGGAAGCCATTA -CTGAAGAGTGGCGTATGGCACCCGGTCCGCTTGAAGTGGCCTGGTTTGCGGAAGAGACGGCTGCCGTCGA -GCGTGCTGTTGATGCCCTGACCAAACGGCTGGAAAAACTGGAGGCTAAATGACGCCAGGTGAAGTACGGC -GCCTATATTTCATCATTCGCACTTTTTTAAGCTACGGACTTGATGAACTGATCCCCAAAATGCGTATCAC -CCTGCCGCTACGGCTATGGCGATACTCATTATTCTGGATGCCAAATCGGCATAAAGACAAACTTTTAGGT -GAGCGACTACGACTGGCCCTGCAAGAACTGGGGCCGGTTTGGATCAAGTTCGGGCAAATGTTATCAACCC -GCCGCGATCTTTTTCCACCGCATATTGCCGATCAGCTGGCGTTATTGCAGGACAAAGTTGCTCCGTTTGA -TGGCAAGCTGGCGAAGCAGCAGATTGAAGCTGCAATGGGCGGCTTGCCGGTAGAAGCGTGGTTTGACGAT -TTTGAAATCAAGCCGCTGGCTTCTGCTTCTATCGCCCAGGTTCATACCGCGCGATTGAAATCGAATGGTA -AAGAGGTGGTGATTAAAGTCATCCGCCCGGATATTTTGCCGGTTATTAAAGCGGATCTGAAACTTATCTA -CCGTCTGGCTCGCTGGGTGCCGCGTTTGCTGCCGGATGGTCGCCGTCTGCGCCCAACCGAAGTGGTGCGC -GAGTACGAAAAGACATTGATTGATGAACTGAATTTGCTGCGGGAATCTGCCAACGCCATTCAGCTTCGGC -GCAATTTTGAAGACAGCCCGATGCTCTACATCCCGGAAGTTTACCCTGACTATTGTAGTGAAGGGATGAT -GGTGATGGAGCGCATTTACGGCATTCCGGTGTCTGATGTTGCGGCGCTGGAGAAAAACGGCACTAACATG -AAATTGCTGGCGGAACGCGGCGTGCAGGTGTTCTTCACTCAGGTCTTTCGCGACAGCTTTTTCCATGCCG -ATATGCACCCTGGCAACATCTTCGTAAGCTATGAACACCCGGAAAACCCGAAATATATCGGCATTGATTG -CGGGATTGTTGGCTCGCTAAACAAAGAAGATAAACGCTATCTGGCAGAAAACTTTATCGCCTTCTTTAAT -CGCGACTATCGCAAAGTGGCAGAGCTACACGTCGATTCTGGCTGGGTGCCACCAGATACCAACGTTGAAG -AGTTCGAATTTGCCATTCGTACGGTCTGTGAACCTATCTTTGAGAAACCGCTGGCCGAAATTTCGTTTGG -ACATGTACTGTTAAATCTGTTTAATACGGCGCGTCGCTTCAATATGGAAGTGCAGCCGCAACTGGTGTTA -CTCCAGAAAACCCTGCTCTACGTCGAAGGGGTAGGACGCCAGCTTTATCCGCAACTCGATTTATGGAAAA -CGGCGAAGCCTTTCCTGGAGTCGTGGATTAAAGATCAGGTCGGTATTCCTGCGCTGGTGAGAGCATTTAA -AGAAAAAGCGCCGTTCTGGGTCGAAAAAATGCCAGAACTGCCTGAATTGGTTTACGACAGTTTGCGCCAG -GGCAAGTATTTACAGCACAGTGTTGATAAGATTGCCCGCGAGCTTCAGTCAAATCATGTACGTCAGGGAC -AATCGCGTTATTTTCTCGGAATTGGCGCTACGTTAGTATTAAGTGGCACATTCTTGTTGGTCAGCCGACC -TGAATGGGGGCTGATGCCCGGCTGGTTAATGGCAGGTGGTCTGATCGCCTGGTTTGTCGGTTGGCGCAAA -ACACGCTGATTTTTTCATCGCTCAAGGCGGGCCGTGTAACGTATAATGCGGCTTTGTTTAATCATCATCT -ACCACAGAGGAACATGTATGGGTGGTATCAGTATTTGGCAGTTATTGATTATTGCCGTCATCGTTGTACT -GCTTTTTGGCACCAAAAAGCTCGGCTCCATCGGTTCCGATCTTGGTGCGTCGATCAAAGGCTTTAAAAAA -GCAATGAGCGATGATGAACCAAAGCAGGATAAAACCAGTCAGGATGCTGATTTTACTGCGAAAACTATCG -CCGATAAGCAGGCGGATACGAATCAGGAACAGGCTAAAACAGAAGACGCGAAGCGCCACGATAAAGAGCA -GGTGTAATCCGTGTTTGATATCGGTTTTAGCGAACTGCTATTGGTGTTCATCATCGGCCTCGTCGTTCTG -GGGCCGCAACGACTGCCTGTGGCGGTAAAAACGGTAGCGGGCTGGATTCGCGCGTTGCGTTCACTGGCGA -CAACGGTGCAGAACGAACTGACCCAGGAGTTAAAACTCCAGGAGTTTCAGGACAGTCTGAAAAAGGTTGA -AAAGGCGAGCCTCACTAACCTGACGCCCGAACTGAAAGCGTCGATGGATGAACTACGCCAGGCCGCGGAG -TCGATGAAGCGTTCCTACGTTGCAAACGATCCTGAAAAGGCGAGCGATGAAGCGCACACCATCCATAACC -CGGTGGTGAAAGATAATGAAGCTGCGCATGAGGGCGTAACGCCTGCCGCTGCACAAACGCAGGCCAGTTC -GCCGGAACAGAAGCCAGAAACCACGCCAGAGCCGGTGGTAAAACCTGCTGCGGACGCTGAACCGAAAACC -GCTGCACCTTCCCCTTCGTCGAGTGATAAACCGTAAACATGTCTGTAGAAGATACTCAACCGCTTATCAC -GCATCTGATTGAGCTGCGTAAGCGTCTGCTGAACTGCATTATCGCGGTGATCGTGATATTCCTGTGTCTG -GTCTATTTCGCCAATGACATCTATCACCTGGTATCCGCGCCATTGATCAAGCAGTTGCCGCAAGGTTCAA -CGATGATCGCCACCGACGTGGCCTCGCCGTTCTTTACGCCGATCAAGCTGACCTTTATGGTGTCGCTGAT -TCTGTCAGCGCCGGTGATTCTCTATCAGGTGTGGGCATTTATCGCCCCAGCGCTGTATAAGCATGAACGT -CGCCTGGTGGTGCCGCTGCTGGTTTCCAGCTCTCTGCTGTTTTATATCGGCATGGCATTCGCCTACTTTG -TGGTCTTTCCGCTGGCATTTGGCTTCCTTGCCAATACCGCGCCGGAAGGGGTGCAGGTATCCACCGACAT -CGCCAGCTATTTAAGCTTCGTTATGGCGCTGTTTATGGCGTTTGGTGTCTCCTTTGAAGTGCCGGTAGCA -ATTGTGCTGCTGTGCTGGATGGGGATTACCTCGCCAGAAGACTTACGCAAAAAACGCCCGTATGTGCTGG -TTGGTGCATTCGTTGTCGGGATGTTGCTGACGCCGCCGGATGTCTTCTCGCAAACGCTGTTGGCGATCCC -GATGTACTGTCTGTTTGAAATCGGTGTCTTCTTCTCACGCTTTTACGTTGGTAAAGGGCGAAATCGGGAA -GAGGAAAACGACGCTGAAGCAGAAAGCGAAAAAACTGAAGAATAAATTCAACCGCCCGTCAGGGCGGTTG -TCATATGGAGTACAGGATGTTTGATATCGGCGTTAATTTGACCAGTTCGCAATTTGCGAAAGACCGTGAT -GATGTTGTAGCGTGCGCTTTTGACGCGGGAGTTAATGGGCTACTCATCACCGGCACTAACCTGCGTGAAA -GCCAGCAGGCGCAAAAGCTGGCGCGTCAGTATTCGTCCTGTTGGTCAACGGCGGGCGTACATCCTCACGA -CAGCAGCCAGTGGCAAGCTGCGACTGAAGAAGCGATTATTGAGCTGGCCGCGCAGCCAGAAGTGGTGGCG -ATTGGTGAATGTGGTCTCGACTTTAACCGCAACTTTTCGACGCCGGAAGAGCAGGAACGCGCTTTTGTTG -CCCAGCTACGCATTGCCGCAGATTTAAACATGCCGGTATTTATGCACTGTCGCGATGCCCACGAGCGGTT -TATGACATTGCTGGAGCCGTGGCTGGATAAACTGCCTGGTGCGGTTCTTCATTGCTTTACCGGCACACGC -GAAGAGATGCAGGCGTGCGTGGCGCATGGAATTTATATCGGCATTACCGGTTGGGTTTGCGATGAACGAC -GCGGACTGGAGCTGCGGGAACTTTTGCCGTTGATTCCGGCGGAAAAATTACTGATCGAAACTGATGCGCC -GTATCTGCTCCCTCGCGATCTCACGCCAAAGCCATCATCCCGGCGCAACGAGCCAGCCCATCTGCCCCAT -ATTTTGCAACGTATTGCGCACTGGCGTGGAGAAGATGCCGCATGGCTGGCTGCCACCACGGATGCTAATG -TCAAAACACTGTTTGGGATTGCGTTTTAGAGTTTGCGGAACTCGGTATTCTTCACACTGTGCTTAATCTC -TTTATTAATAAGATTAAGCAATAGCATGGAGCGAGCCTCACCATCGGGTTCGGTGAAAATGGCCTGAAAG -CCTTCGAACGCGCCTTCGGTAATAATCACCTTATCACCCGGATAAGGGGTTGCCGGATCGACAATGTCTT -TCGGTTTATATACCGATAGCTGATGAATAACCGCCGATGGGACTATCGCTGGCGACGCGCCAAAGCGCAC -GAAGTGGCTGACACCGCGGGTCGCGTTGATAGTCGTGGTATGAATCACTTCTGGGTCAAATTCCACAAAC -AGGTAGTTGGGGAACAATGGCTCACTGACTGCAGTACGTTTTCCACGCACGATTTTTTCCAGGGTGATCA -TCGGTGCCAGGCAATTCACAGCCTGTCTTTCGAGGTGTTCCTGGGCACGTTGAAGTTGCCCGCGCTTGCA -GTACAGTAAATACCAGGATTGCATAATGACTCTTATCCGTTTAATCGGGGCGCAAGGATAGCAAAAGCTT -TACGCTAAGTTAATTATATTCCCCGGTTTGCGTTATACCGTCAGAGTTCACGCTAATTTAACAAATTTAC -AGCATCGCAAAGATGAACGCCGTATAATGGGCGCAGATTAAGAGGCTACAATGGACGCCATGAAATATAA -CGATTTACGCGACTTCTTGACGCTGCTTGAACAGCAGGGTGAGCTAAAACGTATCACGCTCCCGGTGGAT -CCGCATCTGGAAATCACTGAAATTGCTGACCGCACTTTGCGTGCCGGTGGGCCTGCGCTGTTGTTCGAAA -ACCCTAAAGGCTACTCAATGCCGGTGCTGTGCAACCTGTTCGGTACGCCAAAGCGCGTGGCGATGGGCAT -GGGGCAGGAAGATGTTTCGGCGCTGCGTGAAGTTGGTAAATTATTGGCGTTTCTGAAAGAGCCGGAGCCG -CCAAAAGGTTTCCGCGACCTGTTTGATAAACTGCCGCAGTTTAAGCAAGTATTGAACATGCCGACAAAGC -GGCTGCGTGGTGCGCCCTGCCAACAAAAAATCGTCTCTGGCGATGACGTCGATCTCAATCGCATTCCCAT -TATGACCTGCTGGCCGGAAGATGCCGCGCCGCTGATTACCTGGGGGCTGACAGTGACGCGCGGCCCACAT -AAAGAGCGGCAGAATCTGGGCATTTATCGCCAGCAGCTGATTGGTAAAAACAAACTGATTATGCGCTGGC -TGTCGCATCGCGGCGGCGCGCTGGATTATCAGGAGTGGTGTGCGGCGCATCCGGGCGAACGTTTCCCGGT -TTCTGTGGCGCTGGGTGCCGATCCCGCCACGATTCTCGGTGCAGTCACTCCCGTTCCGGATACGCTTTCA -GAGTATGCGTTTGCCGGATTGCTACGTGGCACCAAGACCGAAGTGGTGAAGTGTATCTCCAATGATCTTG -AAGTGCCCGCCAGTGCGGAGATTGTGCTGGAAGGGTATATCGAACAAGGCGAAACTGCGCCGGAAGGGCC -GTATGGCGACCACACCGGTTACTATAATGAAGTCGATAGTTTCCCGGTATTTACCGTGACGCATATTACC -CAGCGTGAAGATGCGATTTACCATTCCACCTATACCGGGCGTCCGCCAGATGAGCCCGCGGTGCTGGGTG -TCGCACTGAACGAAGTGTTTGTGCCGATTCTGCAAAAACAGTTCCCGGAAATTGTCGATTTTTACCTGCC -GCCGGAAGGCTGCTCTTATCGCCTGGCGGTAGTGACAATCAAAAAACAGTACGCCGGACACGCGAAGCGC -GTCATGATGGGCGTCTGGTCGTTCTTACGCCAGTTTATGTACACTAAATTTGTGATCGTTTGCGATGATG -ACGTTAACGCACGCGACTGGAACGATGTGATTTGGGCGATTACCACCCGTATGGACCCGGCGCGGGATAC -TGTTCTGGTAGAAAATACGCCTATTGATTATCTGGATTTTGCCTCGCCTGTCTCCGGGCTGGGTTCAAAA -ATGGGGCTGGATGCCACGAATAAATGGCCGGGGGAAACCCAGCGTGAATGGGGACGTCCCATCAAAAAAG -ATCCAGATGTTGTCGCGCATATTGACGCCATCTGGGATGAACTGGCTATTTTTAACAACGGTAAAAGCGC -CTGATGCGCGTTTGTTTTGCCCTATTTATCGATCCGACAGAGAAAGCGCATGACAACCTTAAGCTGTAAA -GTGACCTCGGTAGAAGCTATCACGGATACCGTATATCGTGTCCGCATCGTGCCAGACGCGGCCTTTTCTT -TTCGTGCTGGTCAGTATTTGATGGTAGTGATGGATGAGCGCGACAAACGTCCGTTCTCAATGGCTTCGAC -GCCGGATGAAAAAGGGTTTATCGAGCTGCATATTGGCGCTTCTGAAATCAACCTTTACGCGAAAGCAGTC -ATGGACCGCATCCTCAAAGATCATCAAATCGTGGTCGACATTCCCCACGGAGAAGCGTGGCTGCGCGATG -ATGAAGAGCGTCCGATGATTTTGATTGCGGGCGGCACCGGGTTCTCTTATGCCCGCTCGATTTTGCTGAC -AGCGTTGGCGCGTAACCCAAACCGTGATATCACCATTTACTGGGGCGGGCGTGAAGAGCAGCATCTGTAT -GATCTCTGCGAGCTTGAGGCGCTTTCGTTGAAGCATCCTGGTCTGCAAGTGGTGCCGGTGGTTGAACAAC -CGGAAGCGGGCTGGCGTGGGCGTACTGGCACCGTGTTAACGGCGGTATTGCAGGATCACGGTACGCTGGC -AGAGCATGATATCTATATTGCCGGACGTTTTGAGATGGCGAAAATTGCCCGCGATCTGTTTTGCAGTGAG -CGTAATGCGCGGGAAGATCGCCTGTTTGGCGATGCGTTTGCATTTATCTGAGATATAAAAAAACCCGCCC -CTGACAGGCGGGAAGAACGGCAACTAAACTGTTATTCAGTGGCATTTAGATCTATGACGTATCTGGCAAA -CCATGCCCGATGCGACGCTGTCGCGTCTTATCGTGCCTACAAATAGTCCGAACCGTAGGCCGGATAAGGC -GTTTACGCCGCATCCGGCAATTGGTGCATGATGCCTGATGCGACGCTGTCGCGTCTTATCGTGCCTACAA -ATAGTCCGAACCGTAGGCCGGATAAGGCGTTTACGCCGCATCCGGCAATTGGTGCATGATGCCTGATGCG -ACGCTGGCGCGTCTTATCAGGCCTACATTGGTGCCGGATCGGTAGACCGGATAAGGCGTTCACGCCGCAT -CCGGCAAGTGGTTAAACCCGCTCAAACACCGTCGCAATACCCTGACCCAGACCGATACACATCGTCGCCA -GACCAAACTGAACGTCTTTGCGTTCCATCAGATTCAGCAGCGTGGTGCTGATACGCGCACCGGAACAACC -CAGCGGATGACCCAGCGCGATCGCGCCACCGTTGAGGTTGATCTTCTCGTCAATCTGCTCAATTAGTCCC -AGATCTTTAATACATGGCAGGATCTGCGCGGCAAAGGCTTCGTTCATTTCAAACACGCCGATATCGCTGG -CAGAAAGCCCCGCTTTTTTCAGCGCCAGTTTCGAGGCCGGAACCGGGCCGTAACCCATAATCGATGGGTC -ACAACCAACGACCGCCATCGAACGCACACGAGCGCGCGGCTTAAGACCTAATTCATGGGCGCGGCTTTCA -CTCATCACCAGCATGGCAGCTGCGCCATCGGAAAGTGCAGAAGATGTGCCCGCCGTTACCATACCGTTTA -CTGGATCAAACGCCGGACGCAGCGTGGCGAGGGCTTCCACGGTGGTTTCCGGGCGAATCACTTCGTCGTA -ATTAAACTGCTTCAGGACGCCGTCGGCATCGTGACCACCGGTCGGGATGATTTCATTTTTAAATGCGGCC -GACTGCGTGGCGGCCCAGGCGCGGGCGTGTGACCGCGCGGCAAAGGCATCCTGCATTTCACGGCTGATAC -CGTGCATACGCGCCAGCATTTCTGCCGTTAAGCCCATCATGCCCGCCGCTTTGGCGACATTGCGGCTCAG -GCCGGGGTGAAAATCGACGCCGTGACTCATCGGCACATGGCCCATATGCTCCACGCCGCCAACCAGACAT -GCCTGCGCATCGCCAGTCATGATCATTCGTGCTGCGTCATGCAGTGCCTGCATGGATGAACCACACAAGC -GATTAACGGTAACCGCCGGGACAGAGTGTGGTACTTCTGCCAGCAGCGCCGCGTTACGGGCGATATTAAA -ACCCTGCTCCAGCGTCTGCTGCACACAACCCCAGTAAATATCGTCGAGGGCCGCCGCTTCCAGCGCCGGG -TTACGCGCCAGCAGGCTACGCATTAAATGAGCGGAGAGATCTTCTGCACGCACGTTACGAAAAGCACCGC -CCTTCGAACGGCCCATCGGGGTGCGAATTGCATCGACAATGACAACCTGTTCCATTGTGACTCCTTAAGC -CGTTTTCAGGTCGCCAACCGGACGGGCTGGCTCAACCGGAGGATAGTACGGTTCGTTATGACGCGCTTTA -TTACGCAGACCTTCCGGCACTTCATACAGCGGGCCGAGGTGCTGATATTGCTGTGCCATATCGAGGTATT -TTGCGCTACCGAGGGTGTCCAGCCAGCGGAACGCGCCGCCGTGGAACGGAGGGAAGCCCAGGCCGTAGAC -CAGCGCCATATCCGCTTCCGCCGGAGTGGCGATAATGCCTTCCTCCAGACAGCGCACCACTTCGTTGACC -ATCGGGATCATCATGCGGGCGATAATCTCTTCTTCGCTGAAATCGCGCTTCGGCTGGCTCACTTCTGCCA -GCAGGTCTTCAACGGCGGCGTCTTCTTCTTTCTTCGGCTTACCTTTGCTGTCTTCTTTATAACGCCAGAA -ACCGAGGCCGTTCTTCTGACCAAAGCGGTTGGCATCAAACAGCGCGTCGATGGCATCGCGGTAATCTTTC -TGCATCCGCTGCGGGAAGCCTGCTGCCATGACAGCCTGAGCGTGATGCGCGGTATCAATGCCCACAACGT -CCAGCAGATATGCCGGGCCCATCGGCCAGCCAAACTGTTTTTCCATCACTTTGTCGATCTTGCGGAAATC -CGCGCCGTCGCGCAGCAGCTGGCTGAAACCGGCGAAATACGGGAACAGCACGCGGTTAACAAAGAAGCCG -GGGCAGTCGTTAACCACAATCGGCGTCTTGCCCATCTTGCTCGCCCAGGCGACAACTTTCGCGATGGTTT -CGTCGGAGCTTTTCTCGCCGCGAATAATTTCTACCAACGGCATTCGGTGGACCGGGTTAAAGAAGTGCAT -CCCGCAGAAGTTTTCCGGGCGTTCCAGCGCGTTGGCCAGTTCGCTGATAGGAATGGTTGAAGTGTTAGAC -GCCAGCACGGTATCCTGGCGTACTTTTTGTTCGGTTTCTGCCAGTACGGCTTTTTTCACTTTCGGGTTTT -CAACAACCGCTTCTACCACAATATCCACGCGGTCAAATCCGGCGTAGTCGAGCGTTGGGTGGATTGTGGA -GATCACGCCAGCCAGTTTCAGACCATCGATCTTGCCGCGCTCAAGCTGCTTGTTCAGCAGTTTCGCGGCT -TCGGTCATGCCGAGGGTTAACGACTTGTCGTTGATATCTTTCATGACAACCGGCACGCCTTTCCACGCAG -ACTGGTAAGCGATGCCGCCGCCCATAATGCCTGCACCCAGCACCGCGGCCTGTTTCGGGGTTTCAACGTC -TTTGGTGAGTTTCTTCGCTTTGCCTTTTACATATTGATCGTTAAGGAAAATGCCGACCAGTGCGCGGGCT -TCGTTGGTATGCGCCAGCGGGACAAAACTTTTGTTTTCCAGGTTTAAGGCTTCTTCACGACCAAAACGGG -CCGCAGCTTCAATGGTTTTTACTGCGGTGATGGGGGCCGGATAATGTTTCCCCGCTGTTTGTGCGACCAT -CCCTTTAGCGATGGTGAAGCTCATGGTGGCTTCAATCTTGCTCAGTTTTAGTGGTTCCAGCTTCGGCTGA -CGTTTTGCTTTCCAGTCGAGGTCGCCGTTAATGGCCTGGCGTAAAACCGCCTTTGCGCCTTCAACCAGTT -TTTCTGCTTTGACTACGCCATCCACCAGACCGATTTTCAGCGCCTGATCCGCGCCGACATCTTTACCGGC -GGCAATGATTTCCAGCGCACTGTCAGCGCCCAGCATACGTGGCATACGTACAGAACCGCCAAAGCCAGGC -ATGATGCCCAGTTTGGTTTCCGGCAGACCGATGCGCAGATCCGGCGTCGCCAGACGATAATCGGTCGCCA -GCACGCATTCGCAGCCACCGCCCAGCGCATAGCCATTGACGGCAGCAATGGTCGGCACCGGCAGATCTTC -CAGGCGATTAAACACGCTATTGGCAAAGTGCAGCCACTGACTTAACTGTTCTTCAGGAACGAGGAACAGG -GACAAAAATTCGGTGATATCAGCACCGACGATAAAGGCTGCTTTGTTCGAACGCAGCAGCAGCCCTTTTA -GATCTGATTGCTGTTCCAGCACGCCGATGGCCTCGCCGAGGCTGGCGACGGTCGCAGTGTCGAGTTTATT -AACTGAACCTGGGGCATCAAATACCAGTTCGGCAATGCCATCTTCCAGCCAGTCAAGGTACAGGGTGTCG -CCTTTGTAAAGCATGTCAGTCTCCTGAATCCGCAAGGTGATCTGGTCGTACCAGATGAGTCGAAGTGTGT -ATTTTGTGTTAAAAATATGCAAACAAAAGATTAAAGAAATGCCGATCTGATCACGCTCGGCAGAAATCAC -GCTCTGGATGAACGATGTGCTAAGATGCGGAGACTTAAGGTCAAAAAAACAGAAGGGTAAAAAATGGAAT -CACTGGCCTCGCTCTATAAAAATCATATAGCTACCTTACAAGAACGGACTCGCGATGCGCTGGCGCGCTT -CAAGCTGGATGCGTTACTTATTCACTCCGGCGAGCTGTTCAATGTTTTTCTCGACGATCATCCCTATCCG -TTTAAAGTGAACCCGCAATTCAAAGCGTGGGTGCCGGTAACTCAGGTGCCAAACTGCTGGTTGCTGGTGG -ATGGCGTGAACAAGCCGAAACTGTGGTTCTATCTGCCGGTTGATTACTGGCACAACGTCGAACCGCTGCC -GACCTCTTTCTGGACTGAAGATGTGGAAGTGATCGCGCTGCCGAAAGCCGATGGCATTGGTAGCCTGCTG -CCTGCTGCGCGCGGCAATATCGGTTATATCGGTCCGGTGCCGGAACGTGCGCTGCAACTGGGTATTGAGG -CCAGCAACATCAACCCGAAAGGGGTTATCGACTACCTGCATTACTATCGCTCCTTCAAAACTGAGTACGA -ACTGGCCTGTATGCGTGAAGCGCAGAAAATGGCGGTCAACGGTCACCGCGCGGCAGAAGAAGCGTTCCGT -TCTGGCATGAGCGAGTTCGATATCAACATTGCCTATCTGACCGCGACCGGTCATCGTGATACCGACGTAC -CTTACAGCAACATTGTGGCGCTTAACGAACACGCTGCGGTACTGCATTACACCAAACTGGACCATCAGGC -ACCGGAAGAGATGCGCAGCTTCCTGCTGGATGCCGGGGCAGAATATAACGGCTATGCGGCTGACCTGACC -CGTACCTGGTCGGCAAAAAGTGACAACGACTACGCGCAGCTGGTGAAGGACGTTAATGATGAACAACTGG -CGCTGATCGCCACCATGAAAGCAGGCGTCAGCTATGTGGATTACCACATCCAGTTCCATCAGCGCATCGC -CAAACTGCTGCGTAAACATCAAATCATCACCGATATGAGTGAAGAAGCGATGGTCGAAAACGATCTTACC -GGGCCGTTTATGCCGCATGGTATCGGCCATCCGCTGGGCCTGCAGGTGCATGACGTCGCTGGTTTTATGC -AGGATGATAGCGGTACGCACCTCGCGGCACCGGCAAAATATCCGTACCTGCGCTGCACCCGTATTCTCCA -GCCGGGCATGGTGTTAACCATCGAACCGGGTATCTACTTCATCGAATCGCTACTGGCACCGTGGCGTGAA -GGGCAGTTCAGCAAGCACTTCAACTGGCAGAAAATTGAAGCACTGAAACCGTTCGGCGGCATTCGTATCG -AAGACAACGTGGTGATCCACGAAAACAACGTGGAAAACATGACCCGGGATCTGAAACTGGCGTGATGGAA -AGCTGGTTAATTCCTGCGGCACCGGTCACGGTCGTTGAAGAGATCAAAAAGAGCCGCTTCATAACGATGT -TGGCGCATACCGATGGCGTTGAGGCGGCGAAAGCGTTTGTTGAATCGGTGCGGGCAGAACACCCCGATGC -CCGGCACCATTGCGTGGCGTGGGTCGCGGGTGCGCCGGATGATTCTCAACAGCTGGGTTTCTCTGACGAC -GGGGAGCCGGCGGGAACGGCAGGTAAACCGATGCTCGCCCAGCTAATGGGCAGCGGCGTCGGGGAAATTA -CCGCTGTGGTAGTGCGCTACTACGGCGGCATATTGCTTGGCACCGGTGGGTTAGTGAAAGCGTATGGCGG -CGGCGTGAATCAGGCGCTGCGCCAGCTAACGACCCAACGCAAGACGCCATTAACCGAATATACTTTGCAA -TGTGAATATCATCAGTTAACCGGCATTGAAGCGTTGCTGGGGCAGTGTGACGGCAAAATTATCAACAGTG -ATTATCAGGCATTCGTTCTGCTGCGGGTGGCGCTTCCGGCGGCGAAAGTGGCTGAATTTTCCGCAAAGCT -GGCGGATTTTAGCCGTGGTTCATTGCAATTGTTAGCGATTGAAGAATAATCCCCACTTCGTTTTGCAGAA -CTAAGGAAGCGGCAGAGATGCATTTTCGCGCCATTACCCGAATCGTTGGACTACTGGTCATCTTATTTTC -AGGGACCATGATTATCCCTGGGCTGGTAGCACTCATCTACCGGGATGGAGCGGGCCGCGCTTTTACCCAG -ACCTTTTTTGTCGCCCTCGCCATTGGCTCTATGCTGTGGTGGCCGAACCGCAAAGAGAAAGGCGAACTTA -AATCCCGTGAGGGGTTTCTGATAGTGGTGCTGTTCTGGACCGTGCTGGGTAGCGTCGGTGCGCTCCCTTT -TATCTTCTCGGAAAGCCCGAACCTCACGATTACCGATGCGTTTTTTGAATCTTTCTCTGGCCTGACCACT -ACGGGAGCCACTACGCTGGTGGGGCTGGATTCGCTCCCTCACGCCATCCTCTTTTATCGCCAGATGCTGC -AATGGTTTGGCGGGATGGGGATCATCGTGTTGGCGGTTGCGATACTGCCTATCCTCGGCGTGGGTGGGAT -GCAGCTCTATCGCGCAGAAATGCCCGGCCCGCTGAAAGATAACAAAATGCGCCCGCGAATTGCGGAAACG -GCGAAAACCCTGTGGTTGATTTATGTCTTGCTGACCGTCGCCTGTGCGCTGGCGTTGTGGTTTGCCGGAA -TGGATGCCTTTGATGCCATCGGCCATAGCTTTGCGACTATCGCTATTGGCGGCTTCTCGACACATGATGC -CAGTATCGGTTATTTCGATAGCCCGACTATTAACACTATCATTGCTATCTTCCTGCTGATCTCCGGCTGT -AACTACGGTCTGCACTTTTCACTGTTAAGTGGGCGTAGTCTGAAGGTTTATTGGCGCGATCCGGAATTTC -GCATGTTTATCGGCGTACAGTTTACGCTGGTGGTTATTTGTACCCTCGTACTGTGGTTTCATAATGTCTA -CAGTTCGGCGCTGATGACAATTAACCAGGCGTTTTTCCAGGTGGTGTCGATGGCGACAACCGCCGGGTTT -ACAACTGACAGCATTGCCCGCTGGCCGCTCTTTTTGCCGGTACTGCTTTTATGTTCAGCCTTTATCGGCG -GTTGCGCCGGGTCAACGGGCGGTGGCCTGAAGGTGATCCGCATCCTGCTGCTGTTTAAGCAGGGGAACCG -TGAGCTGAAACGACTGGTGCATCCGAACGCCGTCTATAGCATTAAGCTGGGGAATCGCGCACTGCCGGAA -CGTATCCTCGAAGCCGTTTGGGGATTTTTCTCCGCCTATGCATTGGTGTTTATTGTCAGTATGCTGGCGA -TTATCGCCACGGGCGTGGATGACTTTTCTGCCTTTGCGTCGGTTGTTGCGACATTGAATAACCTGGGGCC -AGGGCTTGGCGTGGTTGCTGATAACTTTACCAGTATGAACCCGGTGGCTAAATGGATCCTGATTGCCAAC -ATGCTGTTTGGTCGTCTCGAGGTCTTTACATTGCTGGTGCTCTTTACCCCGACTTTCTGGCGTGAATGAT -GGAGTAATACGTGAAAACATTAATTCTTTTCTCAACAAGGGACGGACAAACGCGCGAGATTGCCTCCTAC -CTGGCTTCGGAACTGAAAGAACTGGGGATCCAGGCGGATGTCGCCAATGTGCACCGCATTGAAGAACCAC -AGTGGGAAAACTATGACCGTGTGGTCATTGGTGCTTCTATTCGCTATGGTCACTACCATTCAGCGTTCCA -GGAATTTGTCAAAAAACATGCGACGCGGCTGAATTCGATGCCGAGCGCCTTTTACTCCGTGAATCTGGTG -GCGCGCAAACCGGAGAAGCGTACTCCACAGACCAACAGCTACGCGCGCAAGTTTCTGATGAACTCGCAAT -GGCGTCCCGATCGCTGCGCGGTCATTGCCGGGGCGCTGCGTTACCCACGTTATCGCTGGTACGACCGTTT -TATGATCAAGCTGATTATGAAGATGTCAGGCGGTGAAACGGATACGCGCAAAGAAGTTGTCTATACCGAT -TGGGAGCAGGTGGCGAATTTCGCCCGAGAAATCGCCCATTTAACCGACAAACCGACGCTGAAATAAGCAT -AAAGAATAAAAAATGCGCGGTCAGAAAATTATTTTAAATTTCCTCTTGTCAGGCCGGAATAACTCCCTAT -AATGCGCCACCACTGACACGGAACAACGGCAAACACGCCGCCGGGTCAGCGGGGTTCTCCTGAGAACTCC -GGCAGAGAAAGCAAAAATAAATGCTTGACTCTGTAGCGGGAAGGCGTATTATGCACACCCCGCGCCGCTG -AGAAAAAGCGAAGCGGCACTGCTCTTTAACAATTTATCAGACAATCTGTGTGGGCACTCGAAGATACGGA -TTCTTAACGTCGCAAGACGAAAAATGAATACCAAGTCTCAAGAGTGAACACGTAATTCATTACGAAGTTT -AATTCTTTGAGCGTCAAACTTTTAAATTGAAGAGTTTGATCATGGCTCAGATTGAACGCTGGCGGCAGGC -CTAACACATGCAAGTCGAACGGTAACAGGAAGAAGCTTGCTTCTTTGCTGACGAGTGGCGGACGGGTGAG -TAATGTCTGGGAAACTGCCTGATGGAGGGGGATAACTACTGGAAACGGTAGCTAATACCGCATAACGTCG -CAAGACCAAAGAGGGGGACCTTCGGGCCTCTTGCCATCGGATGTGCCCAGATGGGATTAGCTAGTAGGTG -GGGTAACGGCTCACCTAGGCGACGATCCCTAGCTGGTCTGAGAGGATGACCAGCCACACTGGAACTGAGA -CACGGTCCAGACTCCTACGGGAGGCAGCAGTGGGGAATATTGCACAATGGGCGCAAGCCTGATGCAGCCA -TGCCGCGTGTATGAAGAAGGCCTTCGGGTTGTAAAGTACTTTCAGCGGGGAGGAAGGGAGTAAAGTTAAT -ACCTTTGCTCATTGACGTTACCCGCAGAAGAAGCACCGGCTAACTCCGTGCCAGCAGCCGCGGTAATACG -GAGGGTGCAAGCGTTAATCGGAATTACTGGGCGTAAAGCGCACGCAGGCGGTTTGTTAAGTCAGATGTGA -AATCCCCGGGCTCAACCTGGGAACTGCATCTGATACTGGCAAGCTTGAGTCTCGTAGAGGGGGGTAGAAT -TCCAGGTGTAGCGGTGAAATGCGTAGAGATCTGGAGGAATACCGGTGGCGAAGGCGGCCCCCTGGACGAA -GACTGACGCTCAGGTGCGAAAGCGTGGGGAGCAAACAGGATTAGATACCCTGGTAGTCCACGCCGTAAAC -GATGTCGACTTGGAGGTTGTGCCCTTGAGGCGTGGCTTCCGGAGCTAACGCGTTAAGTCGACCGCCTGGG -GAGTACGGCCGCAAGGTTAAAACTCAAATGAATTGACGGGGGCCCGCACAAGCGGTGGAGCATGTGGTTT -AATTCGATGCAACGCGAAGAACCTTACCTGGTCTTGACATCCACGGAAGTTTTCAGAGATGAGAATGTGC -CTTCGGGAACCGTGAGACAGGTGCTGCATGGCTGTCGTCAGCTCGTGTTGTGAAATGTTGGGTTAAGTCC -CGCAACGAGCGCAACCCTTATCCTTTGTTGCCAGCGGTCCGGCCGGGAACTCAAAGGAGACTGCCAGTGA -TAAACTGGAGGAAGGTGGGGATGACGTCAAGTCATCATGGCCCTTACGACCAGGGCTACACACGTGCTAC -AATGGCGCATACAAAGAGAAGCGACCTCGCGAGAGCAAGCGGACCTCATAAAGTGCGTCGTAGTCCGGAT -TGGAGTCTGCAACTCGACTCCATGAAGTCGGAATCGCTAGTAATCGTGGATCAGAATGCCACGGTGAATA -CGTTCCCGGGCCTTGTACACACCGCCCGTCACACCATGGGAGTGGGTTGCAAAAGAAGTAGGTAGCTTAA -CCTTCGGGAGGGCGCTTACCACTTTGTGATTCATGACTGGGGTGAAGTCGTAACAAGGTAACCGTAGGGG -AACCTGCGGTTGGATCACCTCCTTACCTTAAAGAAGCGTTCTTTGAAGTGCTCACACAGATTGTCTGATG -AAAATGAGCAGTAAAACCTCTACAGGCTTGTAGCTCAGGTGGTTAGAGCGCACCCCTGATAAGGGTGAGG -TCGGTGGTTCAAGTCCACTCAGGCCTACCAAATTTGCACGGCAAATTTGAAGAGGTTTTAACTACATGTT -ATGGGGCTATAGCTCAGCTGGGAGAGCGCCTGCTTTGCACGCAGGAGGTCTGCGGTTCGATCCCGCATAG -CTCCACCATCTCTGTAGTGATTAAATAAAAAATACTTCAGAGTGTACCTGCAAAGGTTCACTGCGAAGTT -TTGCTCTTTAAAAATCTGGATCAAGCTGAAAATTGAAACACTGAACAACGAAAGTTGTTCGTGAGTCTCT -CAAATTTTCGCAACACGATGATGAATCGAAAGAAACATCTTCGGGTTGTGAGGTTAAGCGACTAAGCGTA -CACGGTGGATGCCCTGGCAGTCAGAGGCGATGAAGGACGTGCTAATCTGCGATAAGCGTCGGTAAGGTGA -TATGAACCGTTATAACCGGCGATTTCCGAATGGGGAAACCCAGTGTGTTTCGACACACTATCATTAACTG -AATCCATAGGTTAATGAGGCGAACCGGGGGAACTGAAACATCTAAGTACCCCGAGGAAAAGAAATCAACC -GAGATTCCCCCAGTAGCGGCGAGCGAACGGGGAGCAGCCCAGAGCCTGAATCAGTGTGTGTGTTAGTGGA -AGCGTCTGGAAAGGCGTGCGATACAGGGTGACAGCCCCGTACACAAAAATGCACATGCTGTGAGCTCGAT -GAGTAGGGCGGGACACGTGGTATCCTGTCTGAATATGGGGGGACCATCCTCCAAGGCTAAATACTCCTGA -CTGACCGATAGTGAACCAGTACCGTGAGGGAAAGGCGAAAAGAACCCCGGCGAGGGGAGTGAAAAAGAAC -CTGAAACCGTGTACGTACAAGCAGTGGGAGCACGCTTAGGCGTGTGACTGCGTACCTTTTGTATAATGGG -TCAGCGACTTATATTCTGTAGCAAGGTTAACCGAATAGGGGAGCCGAAGGGAAACCGAGTCTTAACTGGG -CGTTAAGTTGCAGGGTATAGACCCGAAACCCGGTGATCTAGCCATGGGCAGGTTGAAGGTTGGGTAACAC -TAACTGGAGGACCGAACCGACTAATGTTGAAAAATTAGCGGATGACTTGTGGCTGGGGGTGAAAGGCCAA -TCAAACCGGGAGATAGCTGGTTCTCCCCGAAAGCTATTTAGGTAGCGCCTCGTGAATTCATCTCCGGGGG -TAGAGCACTGTTTCGGCAAGGGGGTCATCCCGACTTACCAACCCGATGCAAACTGCGAATACCGGAGAAT -GTTATCACGGGAGACACACGGCGGGTGCTAACGTCCGTCGTGAAGAGGGAAACAACCCAGACCGCCAGCT -AAGGTCCCAAAGTCATGGTTAAGTGGGAAACGATGTGGGAAGGCCCAGACAGCCAGGATGTTGGCTTAGA -AGCAGCCATCATTTAAAGAAAGCGTAATAGCTCACTGGTCGAGTCGGCCTGCGCGGAAGATGTAACGGGG -CTAAACCATGCACCGAAGCTGCGGCAGCGACACTATGTGTTGTTGGGTAGGGGAGCGTTCTGTAAGCCTG -TGAAGGTGTGCTGTGAGGCATGCTGGAGGTATCAGAAGTGCGAATGCTGACATAAGTAACGATAAAGCGG -GTGAAAAGCCCGCTCGCCGGAAGACCAAGGGTTCCTGTCCAACGTTAATCGGGGCAGGGTGAGTCGACCC -CTAAGGCGAGGCCGAAAGGCGTAGTCGATGGGAAACAGGTTAATATTCCTGTACTTGGTGTTACTGCGAA -GGGGGGACGGAGAAGGCTATGTTGGCCGGGCGACGGTTGTCCCGGTTTAAGCGTGTAGGCTGGTTTTCCA -GGCAAATCCGGAAAATCAAGGCTGAGGCGTGATGACGAGGCACTACGGTGCTGAAGCAACAAATGCCCTG -CTTCCAGGAAAAGCCTCTAAGCATCAGGTAACATCAAATCGTACCCCAAACCGACACAGGTGGTCAGGTA -GAGAATACCAAGGCGCTTGAGAGAACTCGGGTGAAGGAACTAGGCAAAATGGTGCCGTAACTTCGGGAGA -AGGCACGCTGATATGTAGGTGAAGCGACTTGCTCGTGGAGCTGAAATCAGTCGAAGATACCAGCTGGCTG -CAACTGTTTATTAAAAACACAGCACTGTGCAAACACGAAAGTGGACGTATACGGTGTGACGCCTGCCCGG -TGCCGGAAGGTTAATTGATGGGGTTAGCCGCAAGGCGAAGCTCTTGATCGAAGCCCCGGTAAACGGCGGC -CGTAACTATAACGGTCCTAAGGTAGCGAAATTCCTTGTCGGGTAAGTTCCGACCTGCACGAATGGCGTAA -TGATGGCCAGGCTGTCTCCACCCGAGACTCAGTGAAATTGAACTCGCTGTGAAGATGCAGTGTACCCGCG -GCAAGACGGAAAGACCCCGTGAACCTTTACTATAGCTTGACACTGAACATTGAGCCTTGATGTGTAGGAT -AGGTGGGAGGCTTTGAAGTGTGGACGCCAGTCTGCATGGAGCCGACCTTGAAATACCACCCTTTAATGTT -TGATGTTCTAACGTTGACCCGTAATCCGGGTTGCGGACAGTGTCTGGTGGGTAGTTTGACTGGGGCGGTC -TCCTCCTAAAGAGTAACGGAGGAGCACGAAGGTTGGCTAATCCTGGTCGGACATCAGGAGGTTAGTGCAA -TGGCATAAGCCAGCTTGACTGCGAGCGTGACGGCGCGAGCAGGTGCGAAAGCAGGTCATAGTGATCCGGT -GGTTCTGAATGGAAGGGCCATCGCTCAACGGATAAAAGGTACTCCGGGGATAACAGGCTGATACCGCCCA -AGAGTTCATATCGACGGCGGTGTTTGGCACCTCGATGTCGGCTCATCACATCCTGGGGCTGAAGTAGGTC -CCAAGGGTATGGCTGTTCGCCATTTAAAGTGGTACGCGAGCTGGGTTTAGAACGTCGTGAGACAGTTCGG -TCCCTATCTGCCGTGGGCGCTGGAGAACTGAGGGGGGCTGCTCCTAGTACGAGAGGACCGGAGTGGACGC -ATCACTGGTGTTCGGGTTGTCATGCCAATGGCACTGCCCGGTAGCTAAATGCGGAAGAGATAAGTGCTGA -AAGCATCTAAGCACGAAACTTGCCCCGAGATGAGTTCTCCCTGACTCCTTGAGAGTCCTGAAGGAACGTT -GAAGACGACGACGTTGATAGGCCGGGTGTGTAAGCGCAGCGATGCGTTGAGCTAACCGGTACTAATGAAC -CGTGAGGCTTAACCTTACAACGCCGAAGGTGTTTTGGCGGATTGAGAGAAGATTTTCAGCCTGATACAGA -TTAAATCAGAACGCAGAAGCGGTCTGATAAAACAGAATTTGCCTGGCGGCAGTAGCGCGGTGGTCCCACC -TGACCCCATGCCGAACTCAGAAGTGAAACGCCGTAGCGCCGATGGTAGTGTGGGGTCTCCTCATGCGAGA -GTAGGGAACTGCCAGGCATCAAATAAAACGAAAGGCTCAGTCGGAAGACTGGGCCTTTCGTTTTATCTGT -TGTTTGTCGGTGAACGCTCTCCTGAGTAGGACAAATCCGCCGGGAGCGGATTTGAACGTTGCGAAGCAAC -GGCCCGGAGGGTGGCGGGCAGGACGCCCGCCATAAACTGCCAGGCATCAAATTAAGCAGAAGGCCATCCT -GACGGATGGCCTTTTTGCATTGGCGCAGAAAAAAATGCCGGATGCGACGCTGGCGCGTCTTATCCAGCCT -ACTCTTGCTTATCCGTTCTGCTTTTGCATCCACTCCACCACAAAATCAGCCAGCCCCTCAACATCATTAA -TATCCAGTAATGCGACATCAAGATTAAGCGGCACATCACTGGCTACAGCAATAACATGCCTGTCTATCAC -TAATTCTTCAGGTCGATGTCCGGCTCCATCGCGAAACAGCACAATCTTTGCGATCTCTTCATGCTTAAAC -CCTTCGACCAGAATCAAATCCAGCTTTGAGGTATCCATTCGACTTGCGAGAAACTGTAGATCCAGCTCTT -CTTCGTCTGGTGTTTCCGTCATCAAGGCCCATCGTTGCTGGCTGGCAACGATGGTTTGTGCCGCGCCAGC -CTTGCGCAGCTCATAGCTATCTTTGCCTGGCTTATCAACATCCATATCATGGTGCGTATGCTTAATCAGC -CCTGGACGGATCCCTCTGGCGCATAATGCCGGGATCAGTTTTTTCAAAAGCGTAGTTTTTCCGGTACCAC -TCCACGCGGCAAAGGCGAGTAACGGTATCATCGTTTTTCCTGCCATCGGGCAAGCTCCTCTGGCGTATTC -ACGTTAACAAATGCATCTTTATGATCGCTGAAATCAACCGCATGACCGCCAGCCAGACGCATAAATACCA -TTACCCGGCGTTCTCCTGCTTGCAGATATTCCAGTAATAAAGGCTCAATAGCGCGGTTTACCAGAGCAAT -AGTCGGGTGATCGCGTTCACCGTCATGGACCCACACGACAGGCGCATCTTTGCGCTGATGATTAAGCCTG -GCTGCTAAATCAGGGGGAATGTAAGGCGTATCGCACGGGCAAAACAAAAACCACTCACCAGCTTCCTGCT -GCATTACTGAAAGCATTCCTGCCAGAGGGCCTGGGTAATCCGCCAGTGAATCTTCAATCACTTTCAGACC -GCTTGCCTGATAGATTTCCTGATGACGATTAGCATTAACCACGACGTGAGAGAGCTGCGTCATAAGCGCG -TCAGCGACATGTTGCCATAATGGTTTGCCGTTTAATTCAAGCAATCCTTTATCTACGCCGCCCATTCGTC -TGGCTTTACCGCCTGCCAGCACAACGCCTGTTATCGTCGTCATCAGATTCACCGATATCGCCTCTTTTAT -TGTGGGATTGACCCTGCTAACGTGTCTGTCTCAAGAGTAAGGAGCATCACTATGAAATGTAAACGTCTGA -ATGAAGTTATTGAACTCCTCCAGCCAGCCTGGCAAAAAGAGCCAGACCTTAACCTGCTGCAATTTTTGCA -GAAACTGGCGAAAGAGTCAGGTTTTGACGGCGAACTGGCGGATTTGACGGATGACATTCTGATCTATCAC -CTGAAAATGCGTGATTCCGCGAAAGATGCGGTGATCCCGGGTTTGCAGAAAGATTATGAAGAAGACTTCA -AAACGGCGCTGTTACGCGCTCGCGGCGTAATTAAAGAGTAAAAGCTTGTAAGCGGCGCCACCAAAATCAT -CGTGAAATGATATCCTTCGTCATTCGTAATGTTTTCCGGATGATGGGATGAATAACAGCGCTTTTACTTT -CCAGACACTACACCCGGATACCATCATGGACGCTCTGTTTGAGCATGGGATCCGGGTGGATTCCGGTCTT -ACCCCGCTTAACAGCTATGAAAACCGTGTCTATCAATTTCAGGACGAAGATCGTCGACGTTTTGTCGTCA -AATTTTATCGCCCTGAACGTTGGACAGCCGATCAAATCCTCGAAGAACATCAATTTGCGTTGCAGCTGGT -AAATGATGAAGTTCCGGTCGCAGCACCTGTGGCCTTTAACGGTCAGACTTTATTGAATCATCAGGGATTT -TATTTCGCTGTTTTTCCAAGCGTCGGTGGTCGCCAGTTCGAAGCTGATAATATCGATCAGATGGAAGCGG -TTGGGCGTTATTTAGGGCGTATGCACCAGACGGGGCGCAAACAGCTTTTTATCCATCGCCCGACCATCGG -TTTGAACGAATATCTCATTGAGCCACGCAAGCTGTTTGAGGACGCTACACTGATACCTTCCGGGTTGAAA -GCGGCATTCCTGAAAGCGACAGATGAGCTGATTGCCGCCGTTACAGCACACTGGCGGGAAGATTTCACCG -TTCTGCGGCTACATGGAGACTGCCACGCCGGGAATATTCTCTGGCGCGATGGTCCAATGTTTGTTGATCT -GGATGATGCACGTAATGGTCCAGCCGTTCAGGATTTGTGGATGTTGCTCAATGGCGATAAAGCCGAGCAG -CGGATGCAACTGGAAACTATTATTGAAGCTTATGAAGAATTTAGCGAGTTCGACACCGCTGAAATCGGAC -TGATTGAACCTTTACGCGCCATGCGTTTGGTTTATTATCTTGCCTGGCTAATGCGGCGTTGGGCTGATCC -CGCGTTCCCGAAAAATTTCCCGTGGTTAACCGGGGAAGATTACTGGCTGCGACAGACGGCGACTTTTATA -GAACAGGCAAAAGTTCTACAAGAACCCCCTTTGCAATTAACACCTATGTATTAATCGGAGAGAGTAGATC -ATGAAAAAGATTTGGCTGGCGCTGGCTGGTTTAGTTTTAGCGTTTAGCGCATCGGCGGCGCAGTATGAAG -ATGGTAAACAGTACACTACCCTGGAAAAACCGGTAGCTGGCGCGCCGCAAGTGCTGGAGTTTTTCTCTTT -CTTCTGCCCGCACTGCTATCAGTTTGAAGAAGTTCTGCATATTTCTGATAATGTGAAGAAAAAACTGCCG -GAAGGCGTGAAGATGACTAAATACCACGTCAACTTCATGGGTGGTGACCTGGGCAAAGATCTGACTCAGG -CATGGGCTGTGGCGATGGCGCTGGGCGTGGAAGACAAAGTGACTGTTCCGCTGTTTGAAGGCGTACAGAA -AACCCAGACCATTCGTTCTGCTTCTGATATCCGCGATGTATTTATCAACGCAGGTATTAAAGGTGAAGAG -TACGACGCGGCGTGGAACAGCTTCGTGGTGAAATCTCTGGTCGCTCAGCAGGAAAAAGCTGCAGCTGACG -TGCAATTGCGTGGCGTTCCGGCGATGTTTGTTAACGGTAAATATCAGCTGAATCCGCAGGGTATGGATAC -CAGCAATATGGATGTTTTTGTTCAGCAGTATGCTGATACAGTGAAATATCTGTCCGAGAAAAAATAATTC -AATGTAAATTACATAAAGCCCGTGAATATTCACGGGCTTTTTTTATTATTTAATAAATATAAATACATTC -TGATAATGCATCCTGCCGCTGGACATTATTTCAGCATAAGTGGATATTCAAAGTTTTGCTGTTTTATCAG -GGAATATTTATATGATACGTAAGTCAGCTACAGGTGTTATTGTTGCGTTAGCCGTAATCTGGGGTGGTGG -CACATGGTACACAGGTACGCAAATTCAGCCTGGTGTCGAAAAATTTATTAAAGATTTTAACGATGCTAAA -AAGAAAGGTGAACATGCCTACGATATGACGTTAAGTTATCAAAATTTTGACAAAGGCTTTTTTAATTCCC -GTTTTCAAATGCAAATGACATTCGATAACGGTGCACCCGATCTCAATATCAAGCCAGGCCAGAAAGTTGT -ATTTGATGTGGATGTTGAGCACGGTCCGTTGCCCATCACAATGTTAATGCATGGTAATGTCATCCCAGCA -CTGGCAGCGGCAAAAGTGAACTTAGTGAATAATGAACTGACACAACCGCTATTTATCGCCGCGAAAAATA -AATCGCCCGTGGAAGCGACATTGCGATTCGCGTTTGGTGGCTCATTCTCTACGACATTAGATGTTGCCCC -TGCAGAGTATGGAAAGTTTTCTTTTGGTGAGGGCCAGTTTACTTTTAATGGTGATGGTAGTTCATTGTCT -AACCTGGATATTGAAGGCAAAGTCGAAGATATTGTTCTGCAATTATCACCAATGAACAAAGTAACGGCAA -AAAGTTTTACCATTGATTCTCTGGCGCGATTAGAAGAAAAGAAATTTCCGGTTGGTGAAAGCGAGTCGAA -ATTTAATCAGATTAACATTATCAATCACGGGGAAGACGTTGCCCAAATCGATGCTTTCGTTGCAAAAACC -AGGCTGGATCGCGTTAAAGACAAAGATTATATCAATGTCAATCTCACCTACGAACTTGATAAGTTAACAA -AAGGGAATCAGCAACTCGGTAGTGGTGAGTGGTCATTGATTGCTGAATCTATTGATCCCTCAGCAGTGCG -CCAATTTATCATCCAGTATAACATTGCGATGCAGAAGCAGCTTGCTGCACACCCTGAGTTAGCAAACGAT -GAAGTTGCTCTGCAAGAAGTGAATGCTGCATTGTTCAAAGAGTATTTACCGTTATTACAAAAAAGTGAGC -CGACCATTAAACAACCGGTAAGATGGAAGAACGCACTCGGCGAACTAAATGCCAATCTGGATATCAGTAT -TGCCGACCCAGCCAAATCTTCATCATCCACAAACAAAGATATCAAATCGCTCAATTTTGATGTGAAGTTA -CCGCTTAATGTCGTCACAGAAACCGCAAAACAGCTTAATTTATCTGAAGGAATGGATGCGGAAAAAGCGC -AAAAGCAGGCTGATAAACAAATCAGCGGGATGATGACATTAGGTCAGATGTTTCAGTTAATCACGATTGA -CAACAATACCGCCTCGCTGCAGCTGCGTTATACACCGGGTAAAGTTGTTTTTAACGGACAGGAGATGAGC -GAAGAAGAATTTATGTCTCGTGCCGGACGTTTTGTTCATTAAAATACTCACTCGCCTCTGCTCATTCAGA -GGCGAGTAAAACTTACTTATTCTGACGCTGTGATGACATGAGAGACGTCAGAAGCCGGTCTTTTTCCTGC -CACAATGAGTTCAGCCATTGCTGAAAATGGCGCTTAAAGCTTTTGTCATTGATGTAGTCGCCATGTAACT -CATCGGCAATAGGCTGTAAATCCACATGTACGACAATCCGCGTCAGTTTACCGCTTAACATATCGAAGAA -CGGCTGACGGTTATTGTCCGGATAACACAGCGTAACATTAAGCAGTTTATCGAATTGTTTACCCAGTACA -TTTAGCGCCATCGCAATGCCTGCCGCCTTTGGTGGCAACAAGTTTTGAAAAGTGGAGTGGGTTTGCTGAT -GTTTTTCTTGCGTGAAACGGGAGCCTTCAACGAAATTGACAATGGTGGTGGGATGCAGGCGAAACTTTTC -ACAAGAACGCCGAGTGGTTTCAACATCTTTACCACGTCGCTCCGGATGACGTAATAAATAAGCGCGGGAA -TAACGCTTCATAAACGGCATATCCAGCGACCAGCACGCCAGGCCAAGAAATGGCACCCAGGCCAGCTGTT -GCTTGAGGAAATATTTATTCATCGGAATGTGCTTACGAAACAGCACGCACAGTACGACAATATCTGCCCA -ACTACGGTGGTTACAAATAAGCAGATACCAGTTCTTCTTACTTAACCCTTCCAGCCCGTGAACTTCCCAT -TGAAGGTGTGGGTTCAGATGCAGTAATACCGCCAGACCTTCACACCAGCAATACATCATAAAATCACAAA -AACGCGAAACCTTTCGCCAAATGACTGGCACAGGTAGCAATAGTTTTACAATCCCGGCAATGATGATCGG -GACGGAACAAAAAATAGTGACCAAAATGGTCAATACGATACTCAGCAAAAGGGTTATCGCAGCGAGTATT -CTCGTCATAATGAATTTATTCAAAAGGTTAGCCATAGACAGTGCGCTAAAGAAGCGCAAGGCGCAGATTT -TAGCAGAAAACGACCCAAATAACGGATGATCCTTAAGGAGAAAAATAATTCATATCTATCCACATTAGAA -AAAATCCCATTATCTCAATTATTAGGGATGGATTTATTTTTAACTGCATGAAAAACAAAGACAAACATCA -TGCTGTAAAAAGCATGATAATAAATTAAAAGCGATGTAAATAATTTATGCACAAAGTTATCCACATGACG -ATTTGCGAGCGATCCAGAAGATCTACAAAAGATTTTCACGAAAAGCGGTGAAAAACTCATGTTTTCATCC -TGTCTGTGGCATCCTTTACCCATAATCTGATAAACAGGCACGGACATTATGGTTCAGATCCCCCAAAATC -CACTTATCCTTGTAGATGGTTCATCTTATCTTTATCGCGCATATCACGCGTTTCCCCCGCTGACTAACAG -CGCAGGCGAGCCGACCGGTGCGATGTATGGTGTCCTCAACATGCTGCGCAGTCTGATCATGCAATATAAA -CCGACGCATGCAGCGGTGGTCTTTGACGCCAAGGGAAAAACCTTTCGTGATGAACTGTTTGAACATTACA -AATCACATCGCCCGCCAATGCCGGACGATCTGCGTGCACAAATCGAACCCTTGCACGCGATGGTTAAAGC -GATGGGACTGCCGCTGCTGGCGGTTTCTGGCGTAGAAGCGGACGACGTTATCGGTACTCTGGCGCGCGAA -GCCGAAAAAGCCGGGCGTCCGGTGCTGATCAGCACTGGCGATAAAGATATGGCGCAGCTGGTGACGCCAA -ATATTACGCTTATCAATACCATGACGAATACCATCCTCGGACCGGAAGAGGTGGTGAATAAGTACGGCGT -GCCGCCAGAACTGATCATCGATTTCCTGGCGCTGATGGGTGACTCCTCTGATAACATTCCTGGCGTACCG -GGCGTCGGTGAAAAAACCGCGCAGGCATTGCTGCAAGGTCTTGGCGGACTGGATACGCTGTATGCCGAGC -CAGAAAAAATTGCTGGGTTGAGCTTCCGTGGCGCGAAAACAATGGCAGCGAAGCTCGAGCAAAACAAAGA -AGTTGCTTATCTCTCATACCAGCTGGCGACGATTAAAACCGACGTTGAACTGGAGCTGACCTGTGAACAA -CTGGAAGTGCAGCAACCGGCAGCGGAAGAGTTGTTGGGGCTGTTCAAAAAGTATGAGTTCAAACGCTGGA -CTGCTGATGTCGAAGCGGGCAAATGGTTACAGGCCAAAGGGGCAAAACCAGCCGCGAAGCCACAGGAAAC -CAGTGTTGCAGACGAAGCACCAGAAGTGACGGCAACGGTGATTTCTTATGACAACTACGTCACCATCCTT -GATGAAGAAACACTGAAAGCGTGGATTGCGAAGCTGGAAAAAGCGCCGGTATTTGCATTTGATACCGAAA -CCGACAGCCTTGATAACATCTCTGCTAACCTGGTCGGGCTTTCTTTTGCTATCGAGCCAGGCGTAGCGGC -ATATATTCCGGTTGCTCATGATTATCTTGATGCGCCCGATCAAATCTCTCGCGAGCGTGCACTCGAGTTG -CTAAAACCGCTGCTGGAAGATGAAAAGGCGCTGAAGGTCGGGCAAAACCTGAAATACGATCGCGGTATTC -TGGCGAACTACGGCATTGAACTGCGTGGGATTGCGTTTGATACCATGCTGGAGTCCTACATTCTCAATAG -CGTTGCCGGGCGTCACGATATGGACAGCCTCGCGGAACGTTGGTTGAAGCACAAAACCATCACTTTTGAA -GAGATTGCTGGTAAAGGCAAAAATCAACTGACCTTTAACCAGATTGCCCTCGAAGAAGCCGGACGTTACG -CCGCCGAAGATGCAGATGTCACCTTGCAGTTGCATCTGAAAATGTGGCCGGATCTGCAAAAACACAAAGG -GCCGTTGAACGTCTTCGAGAATATCGAAATGCCGCTGGTGCCGGTGCTTTCACGCATTGAACGTAACGGT -GTGAAGATCGATCCGAAAGTGCTGCACAATCATTCTGAAGAGCTCACCCTTCGTCTGGCTGAGCTGGAAA -AGAAAGCGCATGAAATTGCAGGTGAGGAATTTAACCTTTCTTCCACCAAGCAGTTACAAACCATTCTCTT -TGAAAAACAGGGCATTAAACCGCTGAAGAAAACGCCGGGTGGCGCGCCGTCAACGTCGGAAGAGGTACTG -GAAGAACTGGCGCTGGACTATCCGTTGCCAAAAGTGATTCTGGAGTATCGTGGTCTGGCGAAGCTGAAAT -CGACCTACACCGACAAGCTGCCGCTGATGATCAACCCGAAAACCGGGCGTGTGCATACCTCTTATCACCA -GGCAGTAACTGCAACGGGACGTTTATCGTCAACCGATCCTAACCTGCAAAACATTCCGGTGCGTAACGAA -GAAGGTCGTCGTATCCGCCAGGCGTTTATTGCGCCAGAGGATTATGTGATTGTCTCAGCGGACTACTCGC -AGATTGAACTGCGCATTATGGCGCATCTTTCGCGTGACAAAGGCTTGCTGACCGCATTCGCGGAAGGAAA -AGATATCCACCGGGCAACGGCGGCAGAAGTGTTTGGTTTGCCACTGGAAACCGTCACCAGCGAGCAACGC -CGTAGCGCGAAAGCGATCAACTTTGGTCTGATTTATGGCATGAGTGCTTTCGGTCTGGCGCGGCAATTGA -ACATTCCACGTAAAGAAGCGCAGAAGTACATGGACCTTTACTTCGAACGCTACCCTGGCGTGCTGGAGTA -TATGGAACGCACCCGTGCTCAGGCGAAAGAGCAGGGCTACGTTGAAACGCTGGACGGACGCCGTCTGTAT -CTGCCGGATATCAAATCCAGCAATGGTGCTCGTCGTGCAGCGGCTGAACGTGCAGCCATTAACGCGCCAA -TGCAGGGAACCGCCGCCGACATTATCAAACGGGCGATGATTGCCGTTGATGCGTGGTTACAGGCTGAGCA -ACCGCGTGTACGTATGATCATGCAGGTACACGATGAACTGGTATTTGAAGTTCATAAAGATGATGTTGAT -GCCGTCGCGAAGCAGATTCATCAACTGATGGAAAACTGTACCCGTCTGGATGTGCCGTTGCTGGTGGAAG -TGGGGAGTGGCGAAAACTGGGATCAGGCGCACTAAGATTCGCCTGAACATGCCTTTTTTCGTAAGTAAGC -AACATAAGCTGTCACGTTTTGTGATGGCTATTAGAAATTCCTATGCAACAACTGAAAAAAAATTACAAAA -AGTGCTTTCTGAACTGAACAAAAAAGAGTAAAGTTAGTCGCGTAGGGTACAGAGGTAAGATGTTCTATCT -TTCAGACCTTTTACTTCACGTAATCGGATTTGGCTGAATATTTTAGCCGCCCCAGTCAGTAATGACTGGG -GCGTTTTTTATTGGGCGAAAGAAAAGATCCGTAATGCCTGATGCGCTATGTTTATCAGGCCAACGGTAGA -ATTGTAATCTATTGAATTTACGGGCCGGATACGCCACATCCGGCACAAGCATTAAGGCAAGAAAATTATT -CGCCGTCCTGCGTTTCTTCTACAGGCTGCATCTCGCTAAACCAGGTATCCAGTTTCTGCCGCAGCTTGTC -CACGCCTTGTTTCTTCAACGAAGAAAACGTTTCAACCTGCACATCACCGTTAAACGCCAGTACAGCTTCA -CGCACCATATTCAATTGCGCTTTACGTGCGCCGCTTGCCAGTTTGTCCGCTTTGGTCAGCAGCACCAGAA -CGGCGATATTGCTGTCTACCGCCCACTCAATCATCTGCTGATCCAAATCTTTCAGCGGATGGCGAATATC -CATTAGCACCACCAGACCTTGCAGGCTCTGACGTTTTTCGAGGTATTCGCCGAGCGCACGCTGCCATTTG -CGCTTCATCTCTTCCGGGACTTCCGCATAACCGTACCCAGGCAAGTCAACCAGACGCTTGCCGTCAGCCA -CTTCAAACAGGTTGATAAGCTGGGTGCGCCCTGGGGTTTTTGAGGTACGAGCCAGGCTTTTCTGGTTAGT -CAGCGTGTTCAGCGCGCTGGATTTACCTGCGTTGGAACGGCCTGCAAAAGCCACTTCAATTCCGGTATCG -GAAGGTAGGTGGCGAATATCAGGCGCACTCATCACAAAATGCGTCTGTTGATAATTCAAATTAGTCAAAG -CGGTCGTCTCCGTCAGTCAAAGCTTTGTGGCGATTATACCTGAACCATAATAAAAGGCGGATTTTTCGGC -GTGAGCGTTGTAAGTAAAAGCCATACGCTTTGTGAGACATTGCCGATAGTCTTTATGCGAAATAGCAGAG -AAAATTCTGCGATGCATGTCAAATAAGCTATATAAATCAGTGAATTGCTTTTATATAAAACTCTGAAAAT -GTGCAAATACTGATGGCGGTTGATTGTTTGTTTAAAGCAAAGGCGTAAAGTAGCACCCATAGAGCGAGGA -CGCTAACAGGAACAATGACTCAGGATGAGGGTCAGGAGCGCCAGGAGGCGAAGACAGAGGATTGTCAGGA -AGACAAACGTCCGGAGACGTAATTAAACGGAAATGGAATCAACACGGATTGTTCCGGCTAAAGGAAAAAC -AGGGTGTGTTGGCGGCCTGCAAGGATTGTAAGACCCGTTAAGGGTTATGAGTCAGGAAAAAAGGCGACAG -AGTAATCTGTCGCCTTTTTTCTTTGCTTGCTTTCTGTTAGATTCCGCCGCAAATCTATACTGAATAAAAC -GGCTAAAAGACGAACCATTATGAAACCATCATCTTCAAACTCACGCAGCAAAGGTCATGCAAAAGCGCGT -CGAAAAACACGCGAGGAGCTGGATCAGGAAGCTCGTGATCGCAAGCGTCAGAAAAAACGTCGTGGTCATG -CGCCGGGCAGCCGCGCAGCGGGCGGAAACACCACGTCAGGCAGCAAAGGCCAGAACGCACCAAAAGATCC -ACGTATTGGCAGTAAAACCCCTATTCCATTGGGCGTGACTGAAAAAGTCACCAAACAGCACAAACCGAAG -AGTGAGAAACCTATGCTTTCACCGCAGGCGGAGTTGGAATTACTGGAAACGGATGAGCGTCTGGATGCGC -TGCTGGAACGTCTGGAAGCAGGCGAAACCCTGAGTGCCGAAGAGCAATCCTGGGTGGATGCTAAACTGGA -TCGTATTGATGAGTTGATGCAGAAACTCGGCCTCTCTTATGACGATGACGAAGAAGAGGAAGAAGACGAG -AAGCAAGAAGACATGATGCGTCTGCTGCGGGGCAACTAACGGATTGCCGCCGTGGGCCTTCCCGTTCTGC -TGATAACCCTTCCGGTTATATGTTATCTGGTGTGGTTATTCGTTAAACTACAGCGGTTGTCGCGGCGACA -AAAGTGGCTGCGCAACCGGCTGATGACCCGAAACGGGCATCCGCCGGTACGCCGTAGCCGCCAGAGACGC -CATCGGAAGGAGTGAGCATGTCTGTACAGCAAATCGACTGGGATCTGGCCCTGATCCAGAAATATAACTA -TTCCGGGCCACGATACACCTCGTACCCGACCGCGCTGGAGTTTTCAGAAGACTTCGGCGAACAGGCGTTT -TTACAAGCCGTGGCGCGCTATCCTGAGCGTCCATTATCTCTCTACGTACATATCCCGTTCTGCCATAAGC -TTTGTTACTTCTGCGGTTGCAATAAGATTGTTACTCGCCAGCAGCACAAGGCCGATCAGTATCTGGACGC -GCTGGAGCAAGAAATCGTCCATCGTGCACCGCTGTTCGCCGGGCGTCACGTCAGCCAATTGCACTGGGGC -GGCGGAACGCCGACGTATCTGAATAAAGCGCAAATCAGCCGCCTGATGAAGCTGCTGCGCGAAAACTTCC -AGTTCAATGCCGATGCGGAGATTTCGATCGAAGTCGATCCGCGGGAAATCGAACTGGATGTACTCGATCA -TTTACGCGCCGAAGGCTTTAATCGCCTGAGCATGGGCGTGCAGGACTTCAACAAAGAAGTGCAACGTCTG -GTTAACCGCGAGCAGGATGAAGAGTTCATCTTTGCACTGCTTAACCATGCGCGTGAGATTGGTTTTACCT -CCACCAACATCGACCTGATTTACGGCCTGCCGAAACAGACGCCGGAGAGTTTCGCCTTTACCCTGAAACG -TGTGGCGGAGCTGAACCCCGATCGTCTGAGTGTCTTTAACTACGCGCATCTGCCGACCATTTTTGCTGCT -CAGCGCAAAATCAAAGATGCTGACCTGCCGAGTCCGCAGCAAAAACTCGATATCCTGCAGGAAACCATCG -CCTTCCTGACGCAATCGGGCTATCAGTTTATCGGTATGGATCACTTTGCCCGTCCGGATGACGAGCTGGC -GGTGGCCCAGCGTGAAGGCGTGCTGCATCGTAACTTCCAGGGCTACACCACTCAGGGCGATACCGATCTG -CTGGGGATGGGCGTTTCCGCCATCAGCATGATTGGCGACTGCTACGCGCAGAACCAGAAAGAGTTGAAGC -AGTACTATCAGCAAGTGGATGAACAAGGCAATGCGCTGTGGCGTGGTATTGCGCTAACGCGTGATGACTG -TATTCGCCGCGATGTGATTAAGTCGCTCATCTGCAACTTCCGTCTGGATTACGCCCCTATTGAGAAACAG -TGGGATTTGCACTTCGCTGATTACTTTGCGGAAGATCTCAAGCTGCTCGCCCCGTTAGCAAAAGATGGGC -TGGTGGATGTGGATGAGAAGGGAATACAGGTGACGGCGAAAGGTCGCTTGCTGATCCGCAACATTTGCAT -GTGCTTTGATACCTATCTGCGCCAGAAAGCGCGGATGCAGCAGTTCTCTCGGGTGATTTAAATAGTGAAT -GGCGCTTCGTTTACAAAGTAGAAAACGAAAGCGCCATCAATGTGCTGAGAACAAGATTGCCTGATGCGCT -GGGCAACAAAACCTGTTGAAATTATTGCTTTTGTAGGCCGGATAAGGCGTTTACGCCGCATCAGGCATCT -GAGCATGATGCCTGATGCGGCGCTGGTCGCGTCTTATCAGGCCTACGACTTTCTCCGCATCCGGCATAAA -CAACGAGCTTCAGCTAAACAGCCCAATCATTGCGGCACACAGCACGGCAGCAACGGCAGTTTGCGGTGTG -TGGCTGTCAACTGCGCCACTCGATACCAGATTAATTATTGATTCCAGCATAATGACTCTCCCCGTTTTCC -GGGCAAGATCATACTGAACTTATCGGAACAGTAAAGCGTAAAATACCAGCAATTTGCGCTCAATAATCAA -TCTTTACACACAAGCTGTGAATCACTCCATCCCCAGCTCTTTTAACTTACGCGTCAGGGTGTTGCGGCCC -CAGCCGAGTAGCCGCGCCGCTTCCTGTTTATGCCCCTGCGTATGTCGCAACGCGGTCGTCAGTAACGTCC -GCTCCAGCTCTGGCTGCGCTTCGGAAAGCAGATTTTGATGACCGGAACGCAGCGCTCTGTCTGCCCACTG -CGCAAGAAGCGTCGCCCAGCTGTCCGGTTGCATTTGCGAAGTACTCTCCGCAACCGTTGATTCAAACAGT -TCGCCGGGCAAATCCTGAATCAACACTTCCTGCCCGGCGGCCATCACCGTTAGCCAGCGGCAGGTGTTTT -CCAGCTGGCGCACGTTGCCTGGCCACGCCAGACGCGTCAGAGCAGCTTCGGTTTCCGGATGCAGTAACTT -CGCTTCTACGCCCAGTTCGCGCGCGGCAACCTGTAAAAAATGGCGCGCCAGACGGGGAATATCTTCCCGA -CGTTCGCGCAGCGGCGGCAGATGAACGCGGATAACGTTCAGGCGGTGGAACAGATCCTCACGGAACTTAC -CTTCCTGCACTCGCTGTTCGAGATTCTGGTGAGTGGCAGCGATAATCCGCACATCCACTTTCACCGGCGC -ATAGCCGCCAACGCGGTAAAACTGACCGTCTGCCAGCACGCGCAGCAAACGCGTCTGCACATCCAGCGGC -ATATCACCAATTTCGTCGAGGAATAATGTACCGCCATCGGCCTGTTCAAAACGCCCCTGACGAATGGTAT -TCGCGCCAGTAAACGCGCCTTTCTCGTGGCCAAACAGTTCTGATTCGATCAAATCTTTTGGGATAGCTGC -CATATTCAGCGCGATAAACGGCGCTTTGGCGCGCGGACTGTGGCGATGCAGGGCATGAGCGACCAGTTCT -TTACCGGTGCCGGATTCGCCGTTAATCAGCACGCTAATAGAAGAACGCGAAAGCCGACCGATAATACGGA -ACACGTCCTGCATGGCTGGCGCTTCGCCGATGATATCGGTCGTTGGGCCGTTAAGCTGAACATTACGCGG -CTGCTGCTGTTCCTGGTAATGACTGATAGCGCGCTCAACCAGCGCCACTGCTTCGTCGATATCAAACGGT -TTGGGCAGATAATCAAACGCCCCTTGTTGATAGGCGCTGACGGCAGCATCCAGATCGGAATGTGCGGTCA -TAATGATGACCGGAAGCATTGGATGGCGCTGTTTAATCTGCTTGAGCAGCGCCAGCCCGTCCATTCCCGG -CATACGGATATCTGAAAGCAGCACATCCGGCGTTTTGCTCGCCAGCGCCTCCAGCACTTCTGCGCCGTTC -TCAAACGTCGTACAGGTTAAACCTGCCCCAGCGAGCGCACGTTCAAGCACCCAACGGATGGAACTATCGT -CATCGACTACCCAGACTATCCCTCGTTGCATAAACGTCACCTTTATTTCCTGATAGGCAGGTAAACCGAG -AACTCGGTATGCCCTGGCCAACTGGTAAATTCAATTTTGCCTGAATGCTGATCAATCAAATTACGAGCGA -TGGATAAGCCAAGCCCGGTGCCACCTTCGCGGCCGCTGACCATCGGGTAAAACAGCGTATCCTGCAAATG -AGGCGGAATGCCCGGCCCGTTATCTTCCACATCAATCCGCGCCGCCAGCCGGTAGCGCTCGCCGTGTAAG -GTCAGTTGAAACGCGGTGCGGGTACGCAGAATGATTTCACCGCCTTCCGGCCCCAGCGCCTGTAGCGCAT -TGCGCACAATATTCAGCAAGACCTGTTCAATTTGATCCGGGTCGTGCGCCAGTTCCGGTAGGCTGGGATC -GTAATCACGAATCAACCGCACGTTGTCCGGCAGTTCCATCGACACCAGCGTTACCACGCGTTCAGCCACT -TTGTGAATACTTTCGGTAACGCGCGTACCGGGCAGCTGCGGCCCCAACAGACGGTCGACCAGATTTCGCA -GCCGGTCCGCCTGTTCGATAATCACTTTGGTATATTCGAGTAGTGATGGGTCAGGTAACGCTTTGCTGAG -CAGCTGCGCCGCGCCACGTAAACCGCCAAGCGGATTTTTAATCTCATGTGCCAGGCCGCGCACTAAATCA -CGGGCAGCAACCTGCTGGGCGTGCTGTAGCTGTTCCTGACTTAAGCGGCGCTGGTTATCCATCGGAGCCA -TCTCCAGCAGGATCATGCCGTCCGGCATACGCTGGGCCGTCACAGAAAGGATATGCGAGCGCCCGTCGAT -GACCAGCGTCACTTCGTTATCGGTAAAACCTTGCCCCGCCTCCAGACTTTCTTGCATCAGCTCGATATTT -AATGAGAAGTAGCTCAACAGTTCCGGTAACGGTGTACCAAACAATTTGCGGGAGCTTTGGGCGAGCAGTT -GTTGCGCGGCAGGGTTGGCGTAATGGATCGCCAGGTTGTCATCGATTAACAAAATACTGTTAATCAGCGA -GTTGAGGATCTGCCCAGCATCGGGCTGCGTGCCTGTTGCCATAAAGCAGTCTCCTGAACAGGTTGCACCA -TTTTAGTGCATTATAGCTTTTTACGGATAAAAAGCGCGAAGCATCAGAGAATTGACGGAGAAAAAAGCCC -ATGCAGAGATGGGCTACAGATAGCTGACAAACTTCACGTTGGAGAGCGACTCACCTGCTCCGGCCTACCA -CATCATCACCGTGTAGGCCGGATAAGACGCATTTGCGTCGCATCCGGCGTGATGTGCTTGCCACCGATCC -CAGGCCTGCCAGAGACAGGCGAAAAGTTTCCACGGCAACTAAAACACTTAGACGCTGTAGTACAGCTCAA -ACTCTACCGGATGCGGAGTCATACGCACGCGGTCATCTTCTTCGCGACGCAGAGCGATGTACGCATCAAT -TGCTTCGTCAGTGAACACGCCACCGGCTTTCAGGAACTCGCGGTCCAGATCCAGTTCGTTCAGTGCTTCT -TCCAGAGAGCCTGCAACCTGTGGGATCTCTTTCGCTTCTTCTGGCGGCAGGTCATACAGGTTTTTGTCCA -TGGCTTCGCCCGGATGGATCTTGTTCTTGATACCATCAAGACCGGCCATCAGCAGGGCAGCAAAGCACAG -GTACGGGTTAGCTGCCGGATCCGGGAAACGTACTTCGATACGACGTGCTTTCGGAGAAGAAACCACCGGA -ATACGGATAGACGCAGAACGGTTACGCGCAGAGTAAGCCAGCATTACCGGTGCTTCATAGCCCGGGACCA -GACGCTTATAAGAGTTGGTGGTCGGGTTTGCCAGGGCGTTAATCGCTTTAGCGTGTTTGATTACGCCGCC -AATGTAGTACAGCGCCTGCTCAGACAGACCTGCGTATTTGTCGCCTGCGAACAGGTTAACGCCGTTTTTA -GACAGAGACATGTGGCAGTGCATACCGGAGCCGTTATCACCGAACATCGGTTTTGGCATAAAGGTCGCGG -TTTTACCGAAGCGGTGCGCTACGTTGTGCACAACATATTTGTAGATCTGAATTTCGTCAGCTTTTTTGGT -CATGGTATTGAAGCGGGTAGCCACTTCGTTCTGACCAGCAGTCGCTACTTCGTGGTGATGGGCTTCAACC -ACCAGACCCATCTGTTCCATCACCAGACACATTTCAGAACGAATATCCTGAGCCGAGTCTACCGGTGGAA -CCGGGAAGTAACCGCCTTTCACTGCCGGACGGTGACCTTTGTTACCACCTTCGTATTGGGTGGAGGAGTT -CCATGCGCCTTCGATATCGTCGATAGCAACGTGGGAACCGGAGATAGATGATCCGAAACGGATGTCATCG -AACAGGAAGAATTCAGGTTCTGGCCCGAACAGTACGGTGTCGGCAATGCCAGTGGAACGCAGGTAATCTT -CGGCGCGCTTCGCAATGGAGCGCGGGTCACGGTCATAGCCTTGCAGGGTGCCAGGTTCAAGGATGTCGCA -ACGGATAATCAGGGTGGAGTCGGCGAAGAACGGGTCAATCACTGCGGTGGATGCGTCTGGCATCAGCACC -ATGTCGGACTCGTTAATGCCTTTCCAGCCGCCAATCGAGGAGCCGTCAAACATTTTGCCTTCTTCGAAGA -ATTCAGCATTCACCTGATGAGCAGGGATAGTGACGTGCTGTTCTTTACCTTTAGTATCGGTGAAGCGCAA -ATCAACAAACTTCACTTCGTGCTCGTTCAGCATCGTCAGTACGTGTTCAGCGGACATACTTTAACTCTCC -TGGATTGGTCATGGTCGTCGTGGTAACGAAATCTGCAATTATTTTGGCCGTGTCGCCGTAAAAAAGATAA -AGCGAAATCTGTGCCAACTTTTAAATTGCCCCTAAAAGGCGTTATCATGCGCACCATCGTGCAAAAGGGC -TGCACCACGATGTGAATGTTGCACCAATATAGTGCTTCAATGGAAACATTAAGCACCATGTTGGTGCAAT -GACCTTTGGATAACCCTTTTTATGCTCCGTGAAAGCGATCACAAAGGGACTCTGCAATACTTGTTTGCGG -AGGATGTTTGTGATCCTGTTTTGTAGTGCGATTAATCCGTGTACAATAACGCGCTATTTCTAATGCCTGA -GGCAAAGTTGTGATCGAAAAATTGCGTAATATCGCCATCATCGCGCACGTAGACCATGGTAAAACCACCC -TGGTAGACAAGCTGCTCCAACAATCCGGTACGTTCGACTCTCGTGCCGAAACCCAAGAGCGCGTGATGGA -CTCCAACGATTTGGAGAAAGAGCGTGGGATTACCATCCTCGCGAAAAACACCGCTATCAAATGGAATGAT -TACCGTATCAACATCGTTGATACCCCGGGGCACGCCGACTTCGGTGGTGAAGTTGAACGTGTAATGTCCA -TGGTAGACTCAGTGCTGCTGGTGGTTGACGCATTTGACGGCCCGATGCCGCAAACGCGCTTCGTAACCAA -AAAAGCGTTTGCTTACGGCCTGAAGCCGATTGTTGTTATCAACAAAGTTGACCGCCCTGGCGCGCGTCCT -GATTGGGTTGTGGATCAGGTATTCGATCTGTTCGTTAACCTCGACGCGACCGACGAGCAGCTGGACTTCC -CGATCGTTTACGCTTCTGCGCTGAACGGTATCGCGGGTCTGGACCACGAAGATATGGCGGAAGACATGAC -CCCGCTGTACCAGGCGATTGTTGACCACGTTCCTGCGCCGGACGTTGACCTTGACGGTCCGTTCCAGATG -CAGATTTCTCAGCTCGATTACAACAGCTATGTTGGCGTTATCGGCATTGGCCGCATCAAGCGCGGTAAAG -TGAAGCCGAACCAGCAGGTCACTATCATCGATAGCGAAGGCAAAACCCGCAACGCGAAAGTCGGTAAAGT -GCTGGGCCACCTCGGTCTGGAACGTATCGAAACCGATCTGGCGGAAGCTGGCGATATCGTTGCGATCACG -GGCCTTGGCGAACTGAACATTTCTGACACCGTTTGCGACACGCAAAACGTTGAAGCGCTGCCGGCACTCT -CCGTTGATGAGCCGACCGTTTCTATGTTCTTCTGCGTTAACACCTCGCCGTTCTGCGGTAAAGAAGGTAA -GTTCGTAACGTCTCGTCAGATCCTGGATCGTCTGAACAAAGAACTGGTACACAACGTTGCGCTGCGCGTA -GAAGAAACCGAAGACGCCGATGCGTTCCGCGTTTCTGGTCGTGGCGAACTGCACCTGTCTGTTCTGATCG -AAAACATGCGTCGTGAAGGTTTCGAACTGGCGGTATCCCGTCCGAAAGTTATCTTCCGTGAAATCGACGG -TCGTAAACAAGAGCCGTATGAAAACGTGACTCTGGACGTTGAAGAACAGCATCAGGGTTCTGTAATGCAG -GCGCTGGGCGAACGTAAAGGCGACCTGAAAAACATGAATCCAGACGGTAAAGGCCGCGTACGTCTCGACT -ACGTGATCCCAAGCCGTGGTCTGATTGGCTTCCGTTCTGAGTTCATGACCATGACTTCCGGTACTGGTCT -GCTGTACTCCACCTTCAGCCACTACGACGACGTACGTCCGGGTGAAGTGGGTCAGCGTCAGAACGGCGTA -CTGATCTCTAACGGTCAGGGTAAAGCGGTCGCGTTCGCGCTGTTCGGTCTGCAGGATCGCGGTAAGCTGT -TCCTCGGTCACGGTGCAGAAGTTTACGAAGGTCAGATTATCGGTATTCATAGCCGCTCTAACGACCTGAC -TGTAAACTGCCTGACCGGTAAGAAACTGACCAACATGCGTGCTTCCGGTACTGACGAAGCCGTTGTTCTG -GTTCCGCCTATCCGCATGACTCTGGAACAAGCTCTGGAGTTCATCGATGATGACGAACTGGTAGAAGTGA -CTCCGACCTCTATCCGTATTCGTAAACGTCACCTGACGGAAAACGATCGTCGCCGCGCCAACCGCGCACC -GAAAGACGATTAATTTCGTTTTTTAGTCATAAAAAACCTGCCAGCGATGGCAGGTTTTTTTTTGCCTGTC -GTGAGCGCACACCAATGCGAGTATCTCCCTTATAAGTCTGTGGTTACGTCAATAGAGAGCTTTGTCACAA -TTATCTGCAAAGTCATACGCCGTTAATTGCTTTCTTTTTTGGCGTAAGCGTAAGATGCTTCATCTGGTTT -AAACCAAAAGGATTAAACAATGGCGGAGAATCAATCCACCGTAGAAAATGCAAAAGAGAAACTGGATCGG -TGGTTGAAAGATGGCATCACCACGCCGGGTGGAAAACTCCCTTCAGAAAGAGAGCTGGGAGAACTGCTGG -GCATTAAACGTATGACGCTGCGCCAGGCGTTGTTGAACCTCGAGGCAGAATCCAAAATCTTCCGTAAGGA -TCGTAAGGGGTGGTTCGTGACCCAGCCGCGATTTAATTACAGTCCGGAGCTGTCGGCGAGCTTTCAGCGG -GCCGCAATTGAGCAAGGGCGAGAGCCTTCCTGGGGGTTTACCGAGAAAAACCGTACCAGCGATATTCCCG -AGACGCTCGCGCCACTGATTGCAGTGACGCCATCAACTGAACTCTATCGCATCACCGGCTGGGGGGCGCT -GGAAGGACATAAAGTTTTCTATCACGAAACATATATTAATCCTGAAGTTGCTCCGGGCTTTATTGAACAA -CTTGAAAACCACTCATTTTCTGCAGTCTGGGAAAAGTGCTACCAAAAAGAGACGGTAGTAAAAAAATTGA -TTTTCAAACCCGTCAGAATGCCGGGCGATATCAGCAAGTATCTTGGCGGTTCTGCGGGTATGCCAGCGAT -CTTAATTGAAAAGCATCGCGCCGACCAGCAAGGCAATATTGTCCAAATAGATATTGAATATTGGCGATTT -GAGGCCGTAGACCTCATCATTAATCTGTAGGTGTTTTATGGTGACAATAAATAACGCAAGAAAGATTCTA -CAACGTGTCGACACTCTTCCTCTTTATTTACATGCTTATGCCTTTCATTTAAATATGCGGCTGGAAAGAG -TGTTGCCTGCTGATTTACTTGATATCGCAAGTGAAAATAATCTACGTGGCGTCAAAATCCATGTTCTCGA -TGGCGAGCGTTTTTCTCTTGGTAATATGGACGATAAAGAACTCTCTGCCTTTGGGGATAAAGCCCGCCGT -CTGAACCTTGATATTCATATTGAAACCAGCGCCTCAGATAAGGCATCTATTGACGAAGCCGTCGCCATCG -CGTTGAAAACTGGGGCATCGTCCGTACGTTTTTATCCACGTTATGAAGGTAATTTGCGCGACGTATTATC -GATTATCGCTAACGACATTGCCTATGTACGGGAAACGTATCAGGACAGCGGCCTGACTTTTACGATCGAG -CAGCATGAAGATTTAAAAAGTCATGAGCTGGTGTCGCTGGTCAAAGAAAGTGAGATGGAATCTCTTTCCT -TACTGTTTGATTTTGCGAACATGATCAATGCAAATGAGCATCCCATCGACGCTTTAAAAACGATGGCACC -GCATATTACCCAGGTCCATATCAAAGATGCCTTGATCGTTAAAGAACCGGGTGGCCTGGGTCATAAAGCC -TGTATTTCAGGTCAGGGTGATATGCCGTTCAAAGCGTTATTAACGCACCTTATCTGCCTGGGTGATGATG -AGCCGCAGGTGACGGCATATGGCCTGGAAGAAGAGGTTGATTACTATGCGCCGGCGTTCCGCTTTGAAGA -CGAAGATGATAATCCGTGGATCCCTTATCGCCAGATGAGTGAAACACCATTGCCAGAAAATCATTTACTG -GATGCGCGGTTACGTAAAGAAAAAGAAGATGCAATTAATCAGATAAATCATGTGCGTAACGTACTACAAC -AAATCAAACAAGAGGCAAACCATCTTCTGAACCACTAATAAGTTTTAACTCATACGCAGTTAATAAAACC -ATTCCATATGAATGGTCGGTATCTTATTGCCTTTAAAACAGTGATTTTAAAAATCGCTTAGGGGATGTTA -TGCTCACGAAAAAGAAATGGGCGTTATTTAGTCTATTAACACTGTGTGGCGGTACAATTTATAAATTACC -GTCGCTGAAAGATGCGTTTTATATCCCGATGCAGGAATATTTCCATTTGACCAATGGTCAAATTGGTAAT -GCTATGTCGGTAAACTCATTTGTCACCACAGTGGGCTTTTTTCTGTCTATTTATTTTGCCGATAAACTAC -CGCGCAGATACACCATGTCATTCTCACTCATTGCGACAGGATTACTGGGTGTTTATTTGACGACAATGCC -GGGGTATTGGGGCATCCTCTTTGTCTGGGCGCTATTTGGCGTTACTTGCGACATGATGAACTGGCCGGTC -TTGCTCAAGTCGGTAAGTCGATTGGGCAATAGCGAACAACAAGGTCGGTTGTTTGGCTTCTTCGAAACAG -GGCGTGGCATTGTCGATACCGTGGTGGCATTTTCTGCGTTGGCAGTATTTACCTGGTTTGGCAGTGGCTT -ATTAGGTTTTAAAGCAGGCATCTGGTTCTATTCCCTTATTGTGATTGCCGTAGGCATTATTATTTTCTTT -GTCCTGAATGACAAAGAAGAGGCACCGTCCGTTGAGGTGAAAAAAGAAGACGGAGCATCGAAAAACACCA -GTATGACCTCGGTGCTGAAAGACAAAACTATCTGGCTTATCGCTTTTAACGTCTTCTTCGTTTACGCGGT -TTACTGTGGCCTGACATTCTTCATTCCATTCCTGAAAAACATCTATCTATTGCCCGTTGCGCTGGTGGGG -GCTTACGGCATCATTAACCAATACTGTCTGAAAATGATTGGTGGACCGATTGGTGGCATGATTTCAGATA -AGATCCTGAAATCGCCAAGTAAATATCTATGCTACACCTTTATCATTAGTACCGCTGCGCTCGTACTGTT -GATTATGCTGCCGCACGAAAGTATGCCGGTCTATTTAGGGATGGCATGTACGCTGGGCTTTGGCGCGATA -GTCTTTACACAGCGAGCCGTATTTTTTGCACCTATCGGCGAAGCAAAAATTGCTGAAAATAAAACAGGTG -CGGCGATGGCGTTGGGTAGCTTTATTGGTTACGCTCCGGCGATGTTCTGCTTCAGTCTGTATGGCTACAT -TCTGGATTTAAATCCGGGGATTATTGGCTACAAAATCGTGTTTGGCATTATGGCCTGCTTCGCATTCAGT -GGTGCGGTGGTTTCCGTAATGCTGGTTAAGCGTATTAGCCAACGTAAGAAAGAGATGCTGGCGGCTGAAG -CTTAATTAATGGCCGGATGTGCTTAATCCGGCCAACGAAAACCGTATCAACCGTAGGCCGGATAAGGCGT -TTACGCCGCATCCGGCAGTTTCACATCAGAAGAAATACTTCGTCCCGATACGGATCTGGTTTTGCTCGCG -GTGGTACGGTTCGACGTTGCGGTCTAACCAGCGCAATTCGAAATAAGGGAGCCAGTGTTCATTAATACGG -TAACGGAAGGTGTTAGTGATTTCCCAATGATGATCTTTCCCGTTGCTACTATTAAAGTCATTCACTCGCA -TGAAGTAATGTGGCTCAAATGTATAGGAAAATTTATCGGTGATTTTAAAATTCCAGTAGGTGCCAATTTC -ATAGGTGTCATTATTATCCAGTTCCCCGCTCAAATCTGTTGAACTATAGTTATTATGGTTATAGCGATTT -CGTACTGTCAGATTAAACCATGGTACAAATTTATAGTTGACGTCCAGATACACTGCACCACCCGAACCGA -TACTCTTATCATTAATTAAGCCACCGGGCTGGATGGTTAATTTATCGGTTGGTTTAAATAACGGATACCA -GCCTTCAATTTCGTTATATCCATGTTTTAGTTCATCTTCTCGCTGAAAGTTGTAGGTATTGGTTAACATA -ATACCCGCGCCCATATCGAAGTTATAACCCACACGTAGCATAACCTCGCCCTGATCGGAGGCAAGATTAT -ATGCCTCCCTGTTTTCGACGTATGCGCCAGCAAATACCGAGGCAGAGGTCAGAGAAGATAATAAAATTAT -TGCATTAATCTTTTTCATAATAAGTCCATTTTTTAAACGTAGGGAGGCCGCCACCCACCAGGATGGAAAT -AGCGGCTATTGACATTTATAACGTTACGGAAGCCGTTTTTTCTTCTGTCGCCATCTCTTTATTTTTGCGT -TGGTTGATTTCCTCAATAATCAATGCAAACCGTTTTTCATTGAGTGTGTAAAAGAATCCCATCGTCAATG -CAGCAATAATTGCCAGTGCACAAGGCCAGATAAAAATGAGCTGACGCAAACCCTGTAATGTCGCATCGCT -TTGCGCGATGTTGGGAACATAACCAATTTGCGTCAGCATAATGCCTGGCAAGAAGCCAGCAAGTGCGGCA -GAAATTTTACGAAAGAAGGTATAACCGGTATAAACAGAACCTTCGGCACGAATACCGGTTTTCCATTCAC -CGTAATCTACGGTATCTGGTACCAGTGCCCAGTTCAGGCTGTTTACAAAGGCCGTGCCAAAAAAGGCGAC -ACAAGAGAACATGACGAAAGTGAAAGAGTTACTTCCCCAGAAATAATTCAGTATATCACCCACCGCCCAC -AGCACCATGCCAGCCAGATAAACCTGTTTTTTACCAAAACATTTTACAGTTAATGGCACCAGTAATACGC -CGATGAGGATGCATCCCATACTGAAGAATCCCATCCACGACAATAAATTAATATCATTCAGCACATACTG -GGTGTAATAGACCTGAATCGCCAGTTTGATATTAAATGCCGCCAGGGTACACAAGTTAGCAATGCATAAA -ACCAGCAATGGCGGATTCCGAAATATCGCGCAAAATGATTTGAGAATACTGGCTTTATGTCCGGTTGGCG -TTGTGTCCACATAATGCTCTTTGACGCCTCTGTAGCACAGCATCATAAAAATAAAGCCGCCAATGGAGAA -CATAAGTGCCGCACAGGCATAACCGACGGTTGAGTCAGAAAAAAGCGACTGCAACGGAATAAACGCCACG -GTACAAATCAATAGCCCTATGGTTGCACCACCCTGGCGGTAAGCCGCGAGCTGCGCGCGCTCATTCGGGT -TTTTGGTAATTGCCGGGATCATCGCACCATACGAGCAGTTCATCAGACTGTATGAAAGTCCAAACATCAT -AAACAGCGCGGTGGCAATCGTCGTTTTAACCGGCAAACAAAAGGTGGTGGCGATAAACTGGAGCGTTGCA -ATTAACGCCGCCGGAACCGCTGCATATAAAATAAAGGGACGAAATTTGCCTTTAGGCCCAATATTTTTCC -GCGAGTCGAGTAAAAATCCGGTGAGCATATCGGTAAACGCGGTAAAAAACTTCGCCACCAGAAAGATAAT -CCCGCCATAGTAAGCAGGCATCCCTAATTCATCGGTATAAAATTTGAGGAGATACAGAGTACCGATGCAG -AGCATTAAATTCGAACCGACGTCGCCCATACCATAGGCGATTTTTTCCCGCAGATTCAGTTTTAATGTCA -GTGGATTATGGTCAGACATAATCACTCCTTATAACGCCCCGCAGGGCGTCGTTTATTATTATTACGCCGT -GCGTTTACGGGCTTCTATCTCTTCCACAATGCGGACATACATCTTCTCGTTCAGGCTGTAGAAGCAACCC -ATCGCCACAATGGTGACTACCGCCAGTGCGCTTGGGTAGATGAAGATCAACTGGCGTAACCCTTCAATGG -TGTGGTCAGCCTGTGCGACGTTCGGCACATAGCCAATTTGCGTCAGCATCCAGCCGGGGAAGAAACCAGC -CAGCGCCTGAGACACTTTGCGAAAGAAGGTAAAACCGGTGTAGACCGTTCCTTCCGAACGCACGCCGGTG -CGCCACTCGCCGTACTCGACGGTGTCGGAAACCAGCGCCCAGTTCAGGCTGTTAACAAACGCTGAGCCAA -AGAACGCCAGGCAGGAGAACGCCACGAAGCTGACCGAACCGCCGCCGAAGAAATAGTTGAGCAGATCGCC -CAGCACCCAAATCAGCAGGCCGCCGATATAAACTTTCTTCTTGCCAAAACGTCTGACTGAGGCAGGCATC -AGGAATACGCCGATGAAAATACAGCCCATGCTGAAAAATCCCATATACGACAACAGGATGGGATCGTTAA -GCACGTACTGGGTGTAATAGACCTGGATGGCGAGCTTGACGTTAAACGCCCCTAAAGTGCAGAGGTTGGC -AATGCACAGAATGAACAGCGGGCGGTTACCCGCAATTGCGCGGAAAGATTGCAGCAGGCCCGGCTTTTGC -GCCGGATTAGCAGGCTGGGTTTCGACATAACGCTCTTTCACGCCCGAGTAGCAGATCCACATAAACAGCA -GGCCAAACAGTGAAAACAGCGTGGCGGCGAAGATATAGCCAAGTTGCTGATTACCTTCGATAAGATTCAT -AACTGGCACGAATCCCACCGTGCACAGCAGCAGGCCCAGCGTAGCGCCGCCCTGACGCCATGCCGCCAGT -GAGGCGCGTTCGTTGGGGTTTTTGGTGATAGCGGGAACCATTGCGCCGTAGGAGCAGTTCATCATGCTGA -AAAACAGTCCGTAAAGCATAAACAGAATAGTGGCCATCACCGTTTTACCGGTGACATCAAACGGTGTGCC -GACAAAGTTGGCGATCGCCAGTAAGGTGACCGGGAATGACGCATACAGAATAAAAGGACGGAACTTACCT -TTTGGACCGATCTTGCGTCGGGAATCCAACATAATGCCGGTACCCATATCGGTAAACGCAGTAAAGAATT -TTGAAATCAAAAAGATAATGCCGCCATAGGTGCCTGGCAGCCCCAGAACGTCGGTATAAAACTTCAAAAG -ATAAAGCGTACCGATATCCAGCAGGATGTTAGAGGCCAGGTCGCCAATACCGTAAGAGAGTTTCTCTTTA -AAGGGCAGGCGTAAAGTTGCTGGATCTTCCGTTGTGATGTGACTCATCGATGTTCTCCCTTTGCCCATGA -GTTTCCCCACGGGCGGATGTGATTAGATGCTTTTTAACGACGCGAACAGTGCCGCCCATTCGCTATCGGC -GCGATAAAAGACCGGCGGCTTGCCGATGGGCGCATTAACGGTAACTTCCCCGCCCCGGAACGCTTCACCC -GTCCAGGCGTGGACCCAGTTATCCTCCGGCAGATAGAGCGTCCAGTCGCTACGGCCTTCTTCATGCACCG -GAGCGACCAGAATGTCGCGACCTAACAGGTACTGATATTTCAGGGTGTAAGTGTGCGCATCGTCTTCGTA -ATGCAGGAACAGCGGGCGCATAACCGGCAGGCCGGACTTCGCATTCAGCGCGACGGCCTCTTTCAGGTAA -GGTTTCAGGGTGGTGAAGACGGTGGTCATACGGGCGAAATGGGCGATGGTTTCTGCGTCGCCGTCAAACT -GCCAGTTGTCGCCAGGACGGTTACCTTCGTGGGTGCGCATCATCGGCGTGAAGGCGCTGAAATCGCACCA -GCGCAGCAGCAGCTCTTTGCTGCGCTTCATCTCAAACAGGGTGGTGTAACCGCCAATGTCGCTGTGGTGC -AGGCCATGTCCGGTCATTGCCAGCGACAGCGCCGCCGGGACAACCGACGCCAGGCCATCGTCGAGACTCC -AGTCGACGTTCTGGTCGCCCGCCCACATCATGGTGGAGTATTTCTGGCTACCGGTAGAACCGGCGCGCAT -AAAGAAAAGGATCTCGCCGAGCTTGCCCGTTTCTTCAAGGGCTTCGTAGTTACACTTCGCCCACAGCGCA -GGCCAGGCGTTATGCATAATTTCGGCACTGACGCCGTTATGCAAGTACGTGTCGGTGGGCAGATACTCGC -CGAAGTCAGCCATCCAGCCGCCGCAGCCGAGTTCAATCATGTTCTTTTTGATCACTTCCTTGAACCAGGC -GTAGGCTTCTGGATTAGTGAGATCGACAACGCCGCCGTAAAACTCGCCAAACTCCACCAGATAGTCACCG -CCAGAGGCATCTTTTGCCAGATAGCCGTGTTGTGCCGCTTCTTCGCAGAGATCTTTATCGCTGGCAACAT -ACGGGTTGATATAGGCCAGGAACTGCACGCCCTCCTGATTCCACTGCTTAATGCGTGAATCCAGTTGCGG -GTAGTTTTCGCTGTTCCACTTCCAGTTCCACATCACGCGTTTGCCAAAAGAGGTCATACGAATACCGGAC -CAGTCCTGCGCCCAGATGCCGTTGACCTTCACGCCCGCGTTACGCATGGTGTCCAGTTTCTTCTGGCACA -CTTCCGTCCCGCCCTGAATGCCGAGCGTTACTCCGTCATAAATCCAGTCGGGCAGTTCTGGCTGGCGTCC -CAGCAGGGCGGTTAATTTTTCCAGCAGGGAAATGTATGTGTCAGCACATTCAAAACGCAGCGTTGCTTTG -TCTTCCCACAGCGCCAGTTCATGGTATTCCGGGGCACTAAAGTCGAAGTTCATATAGCAACTGTTATCAA -CATGGCAGTAATACTTCTGCGTGCTGACAAACGTAGGCTGTGGGAAGAAAGTCCAGTAATAGTCGCCGCC -CGCATTTTCTTTGCAGTCGGCCTGCCAGGTGACATAGGTTTGTTTGTTGCGACCAACGCCTTGTTCACTG -GTCCATAGCGGGAACGGTTTGCCACGCAGATCGAAGTAGGAAAACTGTTCGCCGCAGCCGTAGATATGGT -CCTCTGGTTGAGCGGCAAGGCGCAGCCAGATACGGTTGTGGTTAAGGTTGTCGTTTTGTAGTTCCAGCAA -TAAACGCCCCTGATCGTCGGCAGAGATATTCAGCGTGGCGCTAATGTCAGAACCACGGCTGAAATGAATT -AACCAACCATCCGGTGACTGGCTGACGATGGCGTCGGTAAGCGCAATTTTCTCCTGTAGTTTATCTTTAA -TGCTGAAATTACCGCGGAACATATCGATATCCGCTATACCTGAGCCAATCCATAAACAAGGATTATCTTT -GCTATGGGTTAAAATAAGACGTTGTTGAAAATGTAGGGTAAAACTGTCGTTATTCTGATGAAATTGAAAA -TCTAATAACTGTGGACGTGGCGTATCCATAACTAATCTCCATAGAGTTGAGAACGAGATTGTTGCCTTCC -TGTTATTACAGGCTTATGTAAAATGATTCTCATAAAACTGATATATAAAAACTTTACAGAAGCTGAGCTG -GGTGATGCTGCCAACTTACTGATTTAGTGTATGATGGTGTTTTTGAGGTGCTCCAGTGGCTTCTGTTTCT -ATCAGCTGTCCCTCCTGTTCAGCTACTGACGGGGTGGTGCGTAACGGCAAAAGCACCGCCGGACATCAGC -GCTATCTCTGCTCTCACTGCCGTAAAACATGGCAACTGCAGTTCACTTACACCGCTTCTCAACCCGGTAC -GCACCAGAAAATCATTGATATGGCCATGAATGGCGTTGGATGCCGGGCAACAGCCCGCATTATGGGCGTT -GGCCTCAACACGATTTTACGTCACTTAAAAAACTCAGGCCGCAGTCGGTAACCTCGCGCATACAGCCGGG -CAGTGACGTCATCGTCTGCGCGGAAATGGACGAACAGTGGGGCTATGTCGGGGCTAAATCGCGCCAGCGC -TGGCTGTTTTACGCGTATGACAGTCTCCGGAAGACGGTTGTTGCGCACGTATTCGGTGAACGCACTATGG -CGACGCTGGGGCGTCTTATGAGCCTGCTGTCACCCTTTGACGTGGTGATATGGATGACGGATGGCTGGCC -GCTGTATGAATCCCGCCTGAAGGGAAAGCTGCACGTAATCAGCAAGCGATATACGCAGCGAATTGAGCGG -CATAACCTGAATCTGAGGCAGCACCTGGCACGGCTGGGACGGAAGTCGCTGTCGTTCTCAAAATCGGTGG -AGCTGCATGACAAAGTCATCGGGCATTATCTGAACATAAAACACTATCAATAAGTTGGAGTCATTACCGC -TGAGCTGTTTTTAACTTAATAAATTGAAGATACATAATGTTGCCTTTAGCGAGTGAAATGTTCTTCAATG -ATTTTGACTGCTAATCAATACAAGTTATTTTCTCTGTCCGTAAATATTAAAAAACAGGCGGTGCGGTTTT -CCTGATTCCAGTAATAATAAGTCGATACCTGAATTAAAGGCGTTAGGCGGGCAACTCATAGGTTCAACTG -CCAGTCCCTGACGCTGTAATTTTTCACCGCTATAAACCTGCACCCAGAGTTGATCGGAACAAAGGCTTAC -CGAAAGCGCCTGCTGTGGATGGGTAATGGTCATTTCCCACAAATCATTAGCGGTTTTAAAGGTGTGGTCG -ATTTTTGTCGCGGCTATTTTTTTCGCCTGCGTGAAATTTAAATCCAGCTCATCAACGTGGTGAAGCGTTG -TCGGATTCGCGTGCTCATCGACGGCATAAACCTGGTTTGCCGGAAGCTGGAACAGATATTCATCAACAGA -TGTTAAGTTGCAGGTTAAATAAGGATGAATACCCACGCCATAAGGCGCTGCGACAGTGCCGATATTCTGG -CTTGCGATCTCAACGGAAAGACCCGTGTGTGCGTTGAGCGAATAAACAACTTGTGAAGCCAGCATAAACG -GATAGCCGTAACTGGGCGGCAGAAAAGCTGTCAGGGTAACGCTGGTGGCGGTTAATTCACTAATTTGCCA -GTCTCGCCAGGCAAGCAGCCCGTGAATAGCGGCTTTTGAACTATGTTCATTAATGGGTAACTGATATTCC -TGCCCCTGATAGCGGTAACAGCCGTTGGCGATCCGGTTCGGCCACGGAATAAGCACTTTACCCAGATGCG -CCAGCGGCATCTCTTCGGGTTTGTGCGGGATGACTAAATGACAACCCTGAAAGGTTAATTCAGCCAGACC -AGCACCGACGGTCACAATGGTCGCGTGATAATCCCCCGCGGCAAGTGAAACGGTCTGTCCACTGCAATGC -ATATTGGTGATTTGCATACAAGGCACCTTAATTAACGACATACAGCCTCCCGTGAGGCTGATGTCAAACC -CAAAAACTGCACCGGACGGTCCCCTCGCCCCTTTGGGGAGAGGGTTAGGGAGAGGGGAAAACCCGCACCC -TATTTTCAGATCAGTTATTTCGCATTAATATCCAGCAGACCCGCTGCAACCGCTGGAGCCATGCCGGGCG -CTAACGGGATACGCGGGATCACCAGGCAATGCAGCAGGTGATAAATATCCTGTTTGCCGTCCCAGACTTT -GGTGGTGACCTTATTGTCCGCATCCAGCTCCTGCCACCAGGAACCATTTTCATAGTCCATCAGGTACTTA -ATGCAGTACTCCCACCATGTTTGATACCAGGTTTCATACTGGCGATCGCCAGTGACGGTGTAGAGCGCGT -AGGCCGTACCCATTGCTTCGACGATAGGCCAACGTACACGTTCGCGGACCACCGGTTTTCCTTCCCAGTC -AACGGTATAAACAATCCCGTCCGCGCCATCGGGTGCCCAGGCATCGCGCACGGTGGCGTTAAACAGACCT -TTGGCATCTTCTAGCAGCCATGCTGGTGGTTGTTCGCAACGGGCTTCCAGGGCAGCATGGATGTGCAGCA -TTAAACGGCCCCATTCGATCCAGTGGCCTGGTGTACCTCCGAACGCGCGGAAGCGATGCGCCGGGTTATC -TTTGTTGTAATCCGGCAGCGGATTCCACTGGGTATCGAAGTGTTCGTTAACGCGATAATGATTATTTCTG -GCGACGTCGTGGATAATCACGGAAGCCACGCGAATCGCGCGATCCAGCCATTTTTTGTCGTGAGTGACGT -CATAAACAATCAAGAAAGCTTCCACCGCGTGCATATTGGCATTGCCGCCGCGGTACTCTTCGGTTTTGCT -GAAGGCTTCGTCCCAGGATTCCAGGCACATCTGCTCTTCTTCGCTCCAGAAATATTTCTCGATAATTTCA -ATGGTGTAATCGAGCAGCTTGCGCGCTTCCGGGTGACCCGTTGTGACGGCGCTGGCGGCACCCAGCAGAG -CAAAGAAGTGTTGATAGCCCTGTTTGGAGGCATCCACCACGCCCTCGTCATTCACGCAGGCATACCAGCC -GCCATATTTTTTATCACGCAGTGCGCCGTTCATGGCTTTGATACCGTGATCAACCAACGAGTAAGCGCCA -GGTCGACCCATCGCCGCAGCAACGGAATAAACGTGCAACATACGAGCGGTGATCCACAGATGGGTGCCCA -TCTCTTCTTTGATTTGCCCTTTATTGCCTAACCAGCCAAAACCAGTCGGCACTACGGAATTTTTACCAAA -ATCAAAGATGCGGTCGGTTTCCTGTTCCAGCCAACGGTTGTGGCTTAGGGTGTTAAACCATTTCATTCCT -TTTATCCTCATCTTAGCGGCGTTTAGCCATCATTTCGTCGACGATATCGCCAAGTTGTTGTAATTTCGGT -GCGCAAACGTCACGCAGCATCAGCTCGTTGTCTGGTAAACCGACGACCGATGCCCAGACTGCACGGCCTG -CCAGGAATCCCGATGCGCCCGCCGTCATTGCCACGCGTACGGCACGCGGGAACAGTTTTTCGTCGACACC -GGAAGAGAGGATCACCCATGGCATATTGATATGGTCATTCAGACGTTGTGAAGCACAGAGAAGCTCTTGT -TGCGGACCTTTGCCATAAAGCGGCATTTCAACTTTGTAGAGGTCAGCGCCACTGTCGCCCAGCTCTTTGG -CGGCATCGATGATCGCTTGTTCGCGATCGAATTTATCGCCACGACGCGGTGGGCGGACGACTGGCTCAAT -GATGCTTACCAGACCGTGTGAGTGGCACAGTTCGTTGAACTCTTTCACCATATCCAGACGTTGCTGCGCA -TCTTCATCACTACGCCACAGCACCAGCAGTTTTAAGGCTTTGCCACCGTCTTGTTTGATCTGTAGCGGAT -TGATTTTGCGGTCAATAACCACGCTATCGACCGGAATACCGTTGCCAGGAATGAACTCATCGGCGGCGAC -AATCATGGCGCAACTTTTGGCAATCGCGTTTTGCTCAACCACCTGGCGGTAGCAGAATTGTTGATCTACC -AGAATCGCCGAGGCATAAGGCGAGAGGGCCTTTGCAGCGTTAACTTTGAAATCAGTTAAAACGCTATCGG -CTACCGGAGCGGGTGCCCCAGCCGCGGCAAACATCATGCGCATGGCTTCGCGCTGATCGACCGCCAGCAT -GGCAAAACCGCCCGATGCGCGCGTAATGTCGTTGATGGTGTACTTATTCATTCATTTATTCCTTTATCCA -GTCGTTACATTTTTACTTTGGCAGTCATCCCGGCACTGACACGGACCTGTTCCAGAATGGCGGACCAGTC -CTGGCGACCGCGACCCGCTGCGCGCGCCTGGCTATAAACCTCCCGTGAGGCGGCCCCCAGCGGCATTGGC -ACATGCAGCTGGTTGGCGACATCAAGGGCGATGCCAAGATCCTTATGGGCAAGATCGATCATGAAGGCGG -GAGAAAGATCTCCGCTGAGGACTTTGTTTGGCCAGGAAGTGGTGAAGTGACCTTTACCGGCGGCGGTACC -GCTCATCACTTTGACGGCAACATCGAAGGGAAGATTCAGGGCTTCGCACAAAACGGCGGCTTCTGCCGAA -AGCGCATTGAGCGCGATGCTCATGTAGTTGTTGATGAGCTTAACGCGGATCCCCATGCCCGGACCGCCAG -CGTTGATCAACTCACTGCCCATCGCCATCAGGATCGGTGTGGCACGTTCAACTTGTTCAGCGGTGCCGCC -AGCCAGCAGTAACAGAGTACCGGTAATGGCATTTGCAGAAGTACGGCCTACCGGAACATCCATCATGCTG -AAGCCTTTGGCTTGCATATCGGCAATCAATTTATCGGTTTGCAGCGGATGGATGGTGGACATATCAATGA -CCAGCGCATCGGTAGATAAGCCTTCGCAAACGCCGTTTTCACCGAACAACACGTTGCGCACCAGATCGCC -ATTCGGCAACATGGTAATGATAAATTCGGCATCTTTAGCGGCCTGCGCCGGGTTGGCGGCGGGAGTCGCA -CCTTTGTCTACCAGATGCCGCACAGCTTCGGCGTTCACATCAAAGACGCGAAGTTGATGCCCTTGCTGCA -ATAAATTGCTCGCCATTGGCGAACCCATTTGTCCTAAACCGATAAACGCGATTGCTGCCATAACCCTCTC -CTGAATACAGTTATGTCACTTTTTGTCATTTATGACATGCTTTGCTTGTCTGTTTTTGATCGTATTTGTA -ATTTATCGTCAAAAAATTGACAGCCGTCACTTTTTAAACAATTGGTGAAATTAAAATGAACGCATCCCAA -AATGTTTAAGGAATGACCATGATTCGTGTTGCTTGTGTAGGTATAACCGTGATGGATCGCATCTATTACG -TGGAAGGGTTACCGACGGAGAGCGGTAAATACGTGGCGAGAAATTATACGGAAGTTGGTGGCGGGCCAGC -GGCGACGGCAGCGGTTGCGGCGGCAAGGCTGGGGGCGCAGGTCGATTTTATTGGTCGCGTAGGTGATGAC -GACACGGGCAACAGCCTGCTGGCAGAGCTGGAATCCTGGGGCGTTAACACCCGTTACACCAAACGGTATA -ACCAGGCGAAATCTTCGCAATCCGCCATCATGGTGGATACCAAAGGCGAGCGGATAATCATTAACTACCC -CAGCCCGGATCTGCTGCCTGACGCAGAGTGGTTGGAGGAAATTGATTTCTCTCAGTGGGATGTTGTGCTG -GCAGATGTACGCTGGCACGACGGCGCTAAAAAAGCCTTCACCCTGGCCCGTCAGGCGGGTGTGATGACCG -TTCTGGACGGGGACATTACGCCGCAGGATATCAGTGAGCTGGTGGCATTAAGCGATCACGCGGCCTTTTC -AGAACCGGGTCTGGCGCGCTTAACGGGCGTGAAAGAGATGGCCAGTGCGCTAAAACAGGCACAAACGCTC -ACAAATGGTCATGTCTATGTGACCCAGGGTAGCGCAGGCTGCGACTGGCTGGAAAATGGTGGGCGTCAGC -ATCAACCGGCCTTCAAAGTTGATGTGGTAGATACCACAGGTGCGGGTGATGTTTTTCACGGCGCTTTGGC -GGTGGCGCTGGCAACAAGTGGGGATTTAGCGGAGTCAGTCCGCTTCGCCAGCGGTGTAGCGGCGTTAAAA -TGCACACGTCCCGGTGGACGAGCCGGGATCCCTGACTGTGATCAAACCCGATCTTTTTTGTCACTTTTTG -TATAAAATGCCAGGGTGATGGTTTTTCGAGGAATTTTCATGAGCCTTACCGAACTAACCGGTAACCCGCG -GCACGACCAACTCCTCATGCTGATCGCCGAGCGTGGGTATATGAATATTGATGAGCTGGCAAATCTGCTG -GATGTCTCCACGCAGACGGTCCGCCGGGATATTCGTAAATTAAGCGAGCAAGGCCTGATTACGCGCCATC -ACGGTGGCGCGGGTCGGGCTTCCAGCGTCGTTAATACGGCGTTCGAGCAGCGTGAGGTTTCGCAAACCGA -GGAAAAAAAAGCGATTGCCGAAGCGGTGGCAGACTATATTCCTGATGGTTCAACAATATTTATCACCATT -GGTACGACTGTTGAGCATGTTGCCCGGGCGTTACTTAACCATAATCATTTGCGGATAATCACCAACAGCC -TGCGTGTGGCGCATATTCTTTACCACAACCCGCGCTTTGAAGTGATGGTGCCCGGCGGTACGTTGCGCTC -TCATAATAGCGGGATCATTGGCCCTTCAGCGGCGTCCTTTGTGGCTGATTTTCGTGCTGATTATCTGGTA -ACAAGCGTTGGGGCGATTGAGAGCGATGGCGCGTTGATGGAGTTTGATGTAAACGAAGCTAACGTGGTGA -AAACGATGATGGCGCACGCGAGAAATATTCTGCTGGTCGCCGATCACACTAAGTATCATGCTTCGGCGGC -GGTTGAAATTGGTAACGTGGCACAGGTCACTGCGCTCTTTACCGACGAGCTGCCGCCCGCTGCGCTAAAA -TCACGCTTACAAGACAGCCAAATTGAAATCATTCTTCCCCAGGAAGACGCGTAGATTTTTGTGACCGTTA -ACCTGGCTTCATACCTTGCCACATAGCCAAACCCATCCTTTCCCGCTACAGTTAATTTCTTGTGGCGCGA -AAGGAGGCAAAAATGCTCTATATCTTTGATTTAGGTAATGTGATTGTCGATATCGACTTTAACCGTGTGC -TGGGAGCCTGGAGCGATTTAACGCGTATTCCGCTGGCATCGCTTAAGAAGAGTTTTCATATGGGGGAGGC -GTTTCATCAGCATGAGCGTGGGGAAATTAGCGACGAAGCGTTCGCAGAGGCGCTGTGTCATGAGATGGCT -CTACCGCTAAGCTACGAGCAGTTCTCTCACGGCTGGCAGGCGGTGTTTGTTGCGCTGCGCCCGGAAGTGA -TCGCCATCATGCATAAACTGCGTGAGCAGGGGCATCGCGTGGTGGTGCTTTCCAATACCAACCGCCTGCA -TACCACCTTCTGGCCGGAAGAATACCCGGAAATTCGTGATGCTGCTGACCATATCTATCTGTCGCAAGAT -CTGGGGATGCGCAAACCTGAAGCACGAATTTACCAGCATGTTTTGCAGGCGGAAGGTTTTTCACCCAGCG -ATACGGTCTTTTTCGACGATAACGCCGATAATATAGAAGGAGCCAATCAGCTGGGCATTACCAGTATTCT -GGTGAAAGATAAAACCACCATCCCGGACTATTTCGCGAAGGTGTTATGCTAAAAACCATTCAGGACAAAG -CCAGGCACCGTACCCGTCCACTATGGGCCTGGCTAAAACTACTCTGGCAACGCATTGATGAGGACAACAT -GACAACCCTGGCAGGTAACCTTGCCTATGTGTCGTTGCTCTCATTAGTGCCGCTGGTTGCCGTTGTTTTT -GCGCTTTTCGCCGCTTTTCCCATGTTTTCCGACGTCAGCATTCAGTTACGTCACTTTATTTTTGCCAACT -TTCTGCCTGCTACTGGCGATGTTATTCAGCGGTATATCGAACAATTTGTTGCCAATTCCAACAAGATGAC -CGCCGTTGGGGCGTGCGGGCTGATCGTCACCGCGTTATTGTTGATGTACTCCATCGATAGCGCGTTGAAT -ACCATCTGGCGCAGTAAACGAGCGCGACCAAAAATTTACTCGTTCGCCGTGTACTGGATGATTTTAACGC -TGGGGCCGCTGCTGGCAGGGGCCAGTCTGGCGATCAGTTCCTATTTGCTCTCCCTGCGCTGGGCGAGCGA -TCTCAATACTGTCATCGACAACGTGCTGCGTATTTTTCCGTTGCTGTTGTCGTGGATCTCCTTCTGGTTG -CTGTACAGCATTGTTCCTACCATCCGCGTACCTAACCGCGACGCGATTGTCGGCGCGTTTGTCGCCGCAC -TCCTGTTCGAAGCAGGAAAGAAAGGTTTCGCGCTTTATATCACCATGTTCCCGTCATATCAGCTCATTTA -TGGTGTGCTGGCGGTGATCCCCATTCTCTTTGTTTGGGTCTACTGGACATGGTGTATCGTCTTGCTTGGC -GCGGAAATTACTGTCACTCTCGGGGAATACCGCAAACTAAAACAAGCAGCTGAACAAGAAGAAGACGACG -AACCATGATTGCATTAATTCAACGCGTAACCCGTGCCAGCGTCACCGTGGAGGGAGAAGTGACGGGCGAA -ATTGGCGCGGGACTTTTGGTGTTATTGGGTGTCGAAAAGGATGACGACGAACAGAAAGCAAACCGTCTGT -GCGAGCGTGTGCTCGGCTACCGCATCTTTAGCGATGCCGAAGGCAAGATGAATCTCAACGTGCAACAGGC -GGGCGGCAGTGTGCTGGTGGTTTCCCAGTTTACCCTCGCCGCAGATACCGAACGGGGGATGCGCCCAAGT -TTCTCCAAAGGTGCATCACCGGATCGCGCAGAGGCGTTATATGACTATTTCGTCGAACGCTGCCGTCAGC -AAGAGATGAACACGCAAACAGGACGCTTCGCTGCGGATATGCAGGTATCGCTGGTCAATGATGGCCCCGT -GACATTCTGGTTGCAGGTATGAGCCAGCTTCCAGGGTTGTCACGGGAAACAAGAGAGAGTATCGCTATGT -ATCACCTTCGGGTTCCACAAACAGAAGAAGAATTAGAGCGTTACTATCAGTTTCGCTGGGAAATGTTGCG -TAAGCCCCTGCATCAACCAAAAGGTTCGGAACGCGACGCGTGGGATGCGATGGCGCATCACCAGATGGTC -GTCGACGAGCAGGGTAATCTGGTGGCGGTAGGCCGACTGTATATTAATGCCGACAATGAAGCGTCCATTC -GCTTTATGGCCGTTCATCCCGACGTGCAGGACAAAGGGTTAGGCACGCTGATGGCGATGACCCTGGAGTC -GGTGGCGCGTCAGGAAGGCGTTAAGCGCGTGACCTGTAGCGCCCGTGAAGACGCGGTGGAGTTTTTCGCC -AAGCTGGGGTTTGTTAATCAGGGAGAAATCACCACGCCAACCACCACGCCGATTCGCCATTTTTTGATGA -TTAAGCCCGTCGCCACTCTGGATGACATTCTGCATCGCGGCGACTGGTGCGCGCAGCTGCAACAGGCGTG -GTACGAACATATCCCGCTTAGTGAAAAAATGGGCGTGCGCATTCAGCAATATACCGGGCAAAAATTTATC -ACTACCATGCCAGAAACCGGCAATCAGAATCCGCACCATACGCTGTTTGCCGGGAGTTTATTCTCACTGG -CGACGCTCACTGGTTGGGGACTTATCTGGCTGATGCTGCGTGAACGCCACCTCGGCGGAACGATTATTCT -TGCGGATGCGCATATCCGCTACAGCAAGCCGATTAGCGGTAAACCTCATGCGGTAGCCGACCTCGGTGCC -TTAAGCGGCGATCTCGACCGTCTGGCGCGCGGACGAAAAGCACGGGTGCAGATGCAGGTCGAAATCTTTG -GCGACGAGACGCCGGGTGCAGTGTTTGAAGGCACGTATATCGTTCTGCCCGCGAAGCCATTTGGCCCGTA -TGAAGAGGGCGGGAACGAAGAAGAGTAGCTGATGGAGAGGGGCGGTGCTGCCTCTCTCATTCAGGTCATT -TATATTAGTCCTTGGCTATTTCGGTTATATTAAATAAGAACTCTATAAATTTTTATTCTTCGTTGGCTCC -ATACGTGTCTTGCTACATCACTGTTCAGGAGCATTTAAATATTATTTGTAGAACTGAGTGGCAATTATCG -CAGATAATGCTTAATTCATCATCTTAGTTCATGTTTGAGCGATTTTTGATAGTCAAAACCCCCTCTGGTG -CCATACTTTTCTCATAAATATTTTTAAAATCTATAGCTAACAAATATTATGCAAAGATAATGGACTAGCA -TCATTGTCAGTATCATTCATTTACTGCTCTGTATGTTATGAATAATTATGTTGTATGTTTGCTCTTAAAC -CGTGGGAAGGAGGCTATAATGGTTGCCAATATTAATCTCATTAAACAAGAAAGTTATTCTGTTGTTAATT -TAGAAAAACAACTTTCCCGAACTGTTACCAACAAAATTATAACGATGAGCAAGTAAAGACCGGTTGGTGG -CAGTACTGACCGGTCTGTGATGAAAGATTAATTTCACCTTAAATCCTGGTGCTGTTAGGATGCTGACGTT -TTTCGGCTACACCATTCAGATTATGCAAATAAATATCTCTGAATATAATATATTCATAGCACCCATAATT -CATCCTGGGCGATAACTAAACCATTTTTGAGTAATAAATGAAACAACTGCAACACTCTTATTATTTCTGG -AAAACGCCTCGCAAAAACAAAACAACATGCAAAAATCCGCTTTTTTTAAATGATTTTCCGGCGTAATTTT -CGCACATACATTAATGAGTAATATATGTAAGGTATTGGTAATGGCGATGAATACGGTTTTTCTTCATTTA -TCAGAAGAGGCAATTAAACGGCTGAACAAGCTTCGGGGCTGGCGTAAGGTTTCACGATCTGCAATTTTAC -GCGAAGCGGTAGAGCAATATCTGGAACGTCAGCAATTCCCGGTGCGTAAAGCAAAGGGAGGCAGGCAAAA -GGGGGAGGTAGTTGGTGTTGATGATCAGTGTAAGGAGCATAAGGAATGACAAAAATTTTTCATTCTTGAA -TATAAAAAACAGATGCCCTTATTCTGGTATTAATACAAGGCTGTTTTACTTGAACTTATAATAACTGCAA -CTGTTACATCATATCTGGAAAACGCCTCGCAAAAATAAAAAATGATGCGTAAATGAGCTTTCTTTAAAGA -TTCGGCAAGGGTACTTTTCTCTCCATAGATTCAAAAATGATATTGGCGAGATATTTATGAACTCTCTGGC -AGGTATAGATATGGGCAGAATTTTACTCGATTTATCGAATGAGGTGATTAAGCAACTTGATGATCTCGAG -GTGCAGCGTAATCTTCCTCGTGCGGACCTATTAAGGGAAGCGGTAGATCAATACCTGATAAATCAATCGC -AAACAGCAAGAACCAGTGTTCCTGGCATCTGGCAAGGGTGTGAGGAAGATGGTGTCGAATATCAGCGTAA -GCTGCGCGAGGAATGGTAATGGGAAAAAATGATGTCAATCAGATTGCTGACAACGTGCGCGTTGTTCATG -CCGGATGCGGCGTGAACGCCTTATCCGGCCTACAAAGTCGTATAAATTCAATGTATTGCAGTTTATTGGT -AGGCCTGATAAGCGCAGCGCATCAGGCAATCTTACGCTTGTCATCAGTCTCATGCCCATAACCTTATTGA -TGTGGTGGTGGGTAAATTGAGGCCAAACCGGCACTGGCGGCATAGCTTGAGGTGGTAACGCGGAATACGA -GAGATGGTGTCGTCACACCCTATGAGCTGTAATCCGGGCGACCTGCGCCACCCGGAAAACGTCAGAGATT -ACTCTCCTTCACCCGGAAACAGGAACGGGTTGATGGAACTGCGGGCATAGCCTTCTTGCTCCATTCGTGC -GTCCAGTACCAGAGAGGCGAGGTCATCTGCTACGGCTTCGATTTTTGGATCTTTTTCCTGATAGAGAATT -TTCAGGTAAGTGTCGCAGTCATCGCAGCTTTCGGCTTTAATCGCGGCCTGTTCGTCATCCAGCGACCAGT -AATGCAGTTTGCCGCTCTGCTCGCAGTTGCTGCATTTTACGCGCACTACGTGCCATTCAGTTTCACACAG -GTTGCAGTGCAGGTAACGTAGCCCCTGAGTGGTGCCAATTTGCACCATGCTGGACACCGGCATAGAACCA -CAAACCGGGCAATATTGACGTTGCTCGCCGTATTCAGCGCGGGCTTTGCCGGGGATCAGATTGGCCATCT -GCGCCCAGTAGAGCGACAGTGCAGCCCAGATAAACGGCGCTTTATCGCTGCTGACGGACGAGAAATCAGA -GGCAAACAGCGCGCTGGCCATATCTTCCAGCTCCTGAGTCGATGCCTTCTCCAGATTCTCAATCACTGCC -AGCGCCGGGCCGCTCATTTCAGGTTTCAGCTCAGCAATCAGCGCCATCAGCAGCTTTTGCCAGTGCTTAT -CACGCGGCAGAACGTGAATATCCAGCGGGGGCTTGCCTTGTGCGCTGGCTTCTTTAATGCGCGCAGTCAG -ATCCATCTCCAGCGGATGGTCGTACAGCACCACTTCCTGGGCGTGGGCGATAAGCGCAGCAAAGCGCAGG -TAATCACCCAGAGGATTATTTTCTGCCAGCTCGCGCAGACGCTCGGCGCGGCGGTTGTATAAATTCTTGA -GCCGAGGGAACAATAACGGCGGAATCATATCCGCCGTACGTTTCTCGCTTGAACCCAGCTCATCTTGCGG -GATTATGCGAATACTCATTCAGCTTTCTTTTCCGTTGTCTTGCGGACCTCACGGTACCAGCGCGGGTGAT -GTTTCTTCGCCCAGGCGCTGGTAACCCATCCTTCCACCATGGCGGTAATCGTGCCTTTCACCCAAAGGGC -GGCGTAGATATGCACCATGATAACCACAATTAACGCCACTGCGGCAAATGAATGCAGCATTAACGCGAAT -CGGATCACCGGGATTGAGAAAGCAGGCGCAAAATAAGGACGCCAGATAATCACGCCGCTCACCAGCAGCA -GAACCAGGAAAATAATCGCCGCCCAGAAAACGCATTTCTGACCGAAGTTATAACGCCCGGTGTCACCTAC -TTCCTCGTTGACGACGATCTTACGAATATTCTTCGCCCAAAAGATATCATCCCGATTGATTAGGTTGTGA -TGCCAGTAACGGAAAAACATGATGATGAACGAGGCAAACATAACCACGCCGACAAACGGGTGCAGAATTC -GCGCCAGCTGCGGTGTGCCCATGATTTGCATCAACCAGTTGAAGGACGGGAACAAAAAGCCCAGCCCGCT -CACCGCCGCCAGGATGAAGCAGAAGGCGGTGATCCAGTGGTTGATACGTTCCGGCGCGGTGTAGCGCACG -ATGGTGTCACGTCGTTTCATTTGCGCTCCTCGTCTTTCTCTTCGTGCAGATTATTCTCTTCCTCATCCGC -ACGGTTCGGACCGACACCCACGTAGTGGAAGATACTGGCCGCAAAGGTAGCCGCAAAGCCAACAGCCGCG -AGCGGTTTCCAGATGCCTTTCCAGAATTTCACGGTTTCGCTGATTTCCGGGTTCTCCGGCAAGCCATGAT -ACAGATTTGGCTTGTCAGCATGGTGCAGCACGTACATGACGTGTGTACCACCGACGCCTGCCGGATCGTA -CAGACCCGCATTGTCGTAACCGCGGGTTTTCAGCTCAGCAACGCGCTCGCTCGCCAGCGTTTTCATCGAC -TCTTTCGTACCGAAGTGAATCGCGCCCGTTGGGCAGGTCTTCACGCAGGCTGGTTCTTGCCCAACCACCA -CGCGGTCAACGCACAGCGTACATTTGTAGACGCGGTTGTCTTCCGGGTTGAGGCGCGGAATGTCGAACGG -ACAGCCCGCAATGCAATAACCGCAGCCAATGCACTGCTCGGACTGGAAGTCGACGATACCGTTGGCATAC -TGAATAATTGCACCTTCCGCCGGGCACGCTTTCAGGCAGCCTGGATCGGAACAGTGCATACAGCCGTCTT -TGCGGATCAGCCATTCCAGTTTGTCGTTCTGCTCCACTTCCGAGAAGCGCATTACCGTCCACGATTTGGC -GCTTAAATCATTGGGGTTGTCGTACACCCCAATGTTATTGCCGACGGTATCGCGAATGTCGTTCCACTCT -GAACACGCCACCTGACAGGCTTTACAGCCGATACAGGTGGTAACGTCGATGAGTTTCGCCACTTCTTCCT -GGAAGTCCCGCGCCTGAGGCGCGGGGGTCAGACCGTTAGTCGCGGAACGACGAATGATATCTTGAGATTG -ATAAGCCATATGTCGTCTCCGTTACACCTTTTCCACATTCACAAGGAAGGACTTAAACTCCGGCGTCTGC -GTGTTCGCATCACCAACGAATGGCGTTAAAGTATTGGCAATAAAGCCTTTTTTAGCTACGCCTTCATAGC -CCCAGTGAATCGGAATACCGATGGTATCGATATCTTTGCCGTTCGCTTTCAGCGTGCGAATACGTTTGGT -CACCACCGCTTTGGCTTTGATATAGCCACGGTTGGAGGAGACTTTCACGGTATCGCCCTGGGCAATGCCA -AGTTTATTCGCCAGCGACTCCCCGATTTCCACAAACTGCTCTGGCTGCAAAATCGCGTTCAACAGCGCGT -GTTTGGTCCAGTAGTGGAAGTGCTCGGTCAGACGATAGGTGGTTCCGACATACGGGAACTTATCGGCTTT -ACCCAATGCTTCGGCGTCGTCTTTAAAGATACGTGCAGCCGGGTTCGAGATAACGTTTGGATGCAGCGGG -TTAGTTCCCAGCGGCGTTTCAAACGGCTCGTAGTGTTCCGGGAACGGACCTTCCGCCATCTTATCGAGGG -CAAACAGACGCCCCATGCCTTCCTGCTGCATGATAAACGGCCCGACGCCGCTACCCGGAGGCGCTGCGCT -GTAGTCCGGAATATCCCAGCCGGTCCACTTAGTGCCGTCCCATTTCAGCAACTGACGCTTCGGATCCCAC -GGGTTACCCTGCGGATCTGCGGAGGCGCGGTTATACAGAATGCGGCGGTTAAGCGGCCATGCCCATGCCC -AGCCCAGCGTGTTACCGAGGCCAGACGGATCGGCGTTATCACGGCGTGCCATCTGGTTGCCTTCCGGCGT -CCAGCTACCGGCGAAAATCCAGCAGCCACAGGAGGTTGTACCGTCATCGCGCAATTGGGCGAACGAACTA -AGTTGTTGGCCTTTCTTGACGATAACCGCACCGGTTGCCGGATCGGTAATATCGGCCAGCGCCTTACCGT -TGCTCTCCATCGCCACTTCTTCTGAAGATGGCTCATGCGGAATGGCGTAGTTCCATGTCATGTTCAGCAC -CTGGTCCGGGTTCGCGCCACCCTGTTCGGCATACATCTTGCGCAAGCGCAGGAAGATACCGGAGAGGATC -TCGCCGTCAGTCAGCGCAATCCCCGGGGCGTCCGCACCTTTCCAGTGCCACTGTAACCAGCGACCTGAGT -TAACGATAGAACCGTTCTCTTCCGCGAAGCAGGTCGATGGCAGACGGAACACTTCGGTCTGGATCTTCGA -CGAGTCAACTTCGTTCAGCTCACCGTGGTTCTGCCAGAAGTTAGAGGTTTCAGTGTTCAGTGGGTCGATG -GTGACGAGGAACTTCAGTTTCGACAGACAACCGATCACTTTGTTTTTGTTCGGGAATGAGGCAACAGGGT -TAAAGCCCTGGCAGATATAGCCATTGACCTTGCCCTCTTTCATCATCTCGAAGTATTGCAGGACGTCGTA -GCCTTTATCCCACTTCGGCAACCAGTCAAAGCCCCAGCTATTTTCCGCCGTCGCTTTATCACCAAAGAAG -GCCTTCATCATAGAGACGAAGAATTTCGGGTAGTTGCCCCAGTAGTTTACCTGGCCTTCCAGCAGCGGTT -TTGGCGTGTTGGCGGTAAGGTAGGTTTGCAGATCGGTCTGCTTCTCGCTTGGCAGCGTCATGTAACCTGG -CAGGCTCTGCGACAGCAGCCCCAGGTCCGTCAGCCCCTGAATATTGGAGTGACCGCGCAGGGCGTTAACG -CCGCCGCCTGCCATCCCCATATTGCCGAGCAGCAGCTGGATCATCGCCATCGTACGAATGTTTTGCGCAC -CAACGGAGTGTTGCGTCCAGCCGAGGGCATACAGGAACGAGGCAGTTTTATCGTGAGCACTGGTTTCTGC -GATGTATTCGCAGACTTTCAGGAACGCGTCTTTTGGCGTACCACAGATGTTTTCAACCACATCTGGCGTG -TAGCGGGAAACGTGCTGTTTCAGCAAGTTCCACACGCAGCGCGGATGTTGCAGCGTGGTATCGCGTTTGG -CGAAGCCGTTTTCGTCCAGTTCATAAGTCCAGGAGGATTTATCGTACTTGCGTTTTTCCGCGTCGTAGCC -GGTGAACAGGCCATCTTCAAAGCCGTAATCCTCACGCACGATCAGGCTGGCGGTGGTATAGGCTTCGGTG -TATTCGCGGTTGAATTTTTCATTGTTCAGCAGGTACAGCAATACGCCTGACAGGAAAGCAATGTCAGTAC -CGGAACGAATAGGGGCATAGTAGTCAGCTACCGCCGCCGTACGCGTAAAGCGAGGATCGATCACAATCAG -CTTCGCGCCGTTGTGAATTTTGGCTTCCATCGCCCAGCGGAACCCGACCGGGTGAGCTTCAGCGGCGTTA -CCGCCCATCACCACGACGAGGTTGGCGTTCTTGATGTCGACCCAGTGGTTGGTCATCGCACCGCGACCAA -ATGTTGGAGCAAGACTTGCTACCGTTGGTCCGTGTCAGACACGCGCCTGGTTGTCGACCGCGAGCATACC -CAGCGCGCGGGAGAATTTTTGCGTTAAATAGCCGGTTTCGTTACTCGACGCGGAAGCACACAGCATCCCG -GTGGAGAGCCAGCGGTTAACAGTCACGCCTTCGGCGTTTTGCGCAATGTAGTTAGCATCGCGGTCTTCTT -TCATCAGTTTGGCGATGCGATCAAACGCCTCTTCCCAACTGATTTGCTGCCATTTATCAGAACCTGGCGC -ACGGTATTCCGGAAACTTCAGACGGCTTTCGGAGTGGATGAAATCCACCAGGCCAGCGCCTTTCGGACAA -AGTGCACCGCGGTTGACCGGGTGATCCGGATCGCCTTCGATATGGAAGATAGATGCTTTGGCGTTTTTTG -CTCCGTCACCGAGGCTGTACATCAACAGCCCACAGCCTACGGAACAATAGGTGCAGGTATTACGGGTTTC -GCGGGTGCGCAGCAGTTTATACTGCCGGGTTTCCGCGAGTGCTACGCTGGGTGCAAAACCCAGTGCCGCT -GCCGTGGTGCCTGCCATACCGCCAGCGCAGATCTTAAAGAACTGCCTTCTGCTGACCTGCATGGATTGCT -CCTTGTTTCGACATTGTCACGTCCCATTTACATTCGCTTGCTGCGTGTGCAGGGAGTGGGAGTTATTTTT -CTTTGCGGAAGGGGCCGCAAAGGTCCAGAATTGGCTCAATTTCCCTCCATCCAGGAAGGGTTTGTAACAG -AATACCATAATGTTGGTGTGTGTGTTCTTATCTGGTTAAGAGAAAGTGAAAAAAACACAGCGAAAAGAAA -TCGAAAATGTGACAAATATCACAGGTGTTCGTCAAATTGAGTTATGGCGGCGTGATGATTTACAACACCC -ACGGTTAGATGAGGTCGCGGAAGAAGTTCCCGTTGCGCTGGTCTACAACGGCATTTCGCATGTGGTGATG -ATGGCGTCGCCCAAAGACCTTGAGTACTTTGCGCTCGGTTTTTCGCTTTCCGAGGGGATTATCGAAAGTC -CGCGCGATATCTTCGGCATGGATGTCGTTCCTTCCTGTAATGGTCTTGAAGTACAAATTGAGCTTTCCAG -CCGCCGCTTTATGGGGTTGAAGGAGCGCCGCCGGGCGCTGGCGGGACGTACGGGCTGTGGCGTATGCGGC -GTGGAGCAACTTAATGACATCGGAAAACCGGTGCAGCCGCTACCGTTCACCCAGACGTTTGATCTCAACA -AACTGGATGATGCATTACGTCATCTCAACGATTTTCAGCCAGTGGGGCAACTGACTGGTTGTACTCACGC -CGCTGCCTGGATGTTGCCATCTGGCGAACTGGTCGGCGGGCATGAAGACGTGGGTCGCCATGTGGCGCTG -GACAAACTGTTAGGCCGCCGGTCACAAGAAGGGGAAAGCTGGCAGCAAGGTGCGGTACTGGTTTCCAGTC -GTGCCAGTTATGAAATGGTGCAAAAGTCGGCGATGTGCGGCGTAGAGATTTTGTTTGCGGTGTCTGCCGC -GACCACGCTTGCTGTAGAAGTGGCTGAGCGCTGTAATCTGACACTGGTAGGTTTTTGTAAACCGGGTCGG -GCAACGGTTTATACCCATCCGCAGCGTTTGAGCAATTAATTAAAATAAGTCCTGCGAAATATATTAAATT -GCAGGACTTATTCATTTCGTGAATTTTATTATTTTATTTATAAACAAAATGCGTGTAGTGGCGTTTTCTT -TTTTCATTTATTATGTTCACTCTCTTATCTATATATTTATAAGGCAATTAAATGAAAAGGAATTTATTAT -CTTCCGCTATTATAGTCGCCATCATGTCCCTCGGTCTGACGGGTTGTGATGATAAAAAAGCCGAAACAGA -AACGCTCCCGCCTGCCAATAGTCAACCTGCCGCACCAGCTCCTGAAGCGAAACCTACTGAAGCTCCCGTT -GCAAAAGCAGAAGCTAAACCTGAAACACCTGCGCAACCGGTGGTCGATGAACAAGCGGTTTTCGACGAAA -AAATGGATGTCTATATCAAGTGCTACAACAAGTTACAGATCCCGGTACAGCGCAGTCTGGCGCGTTATGC -TGACTGGCTGAAAGATTTTAAACAGGGGCCTACCGGTGAAGAGCGTACTGTTTATGGCATCTACGGCATT -AGTGAATCCAACCTCGCTGAGTGTGAAAAAGGCGTAAAAAGTGCTGTGGCGTTAACGCCTGCGCTGCAAC -CAATTGATGGCGTGGCGGTGAGTTATATCGATGCTGCCGTGGCGTTGGGTAATACCATTAACGAAATGGA -TAAATATTACACCCAGGAAAATTATAAAGACGATGCGTTTGCGAAAGGGAAAACGCTGCACCAGACATTC -TTAAAAAATCTGGAAGCCTTTGAACCTGTAGCCGAATCTTATCATGCGGCGATTCAGGAAATTAATGATA -AGCGTCAGCTTGCGGAACTGAAAAATATTGAAGAAAGAGAAGGGAAAACATTCCACTACTACTCTCTGGC -AGTCATGATTTCAGCGAAACAAATTAATAACCTGATATCGCAAGATAAGTTTGATGCAGAAGCGGCAATG -AAGAAAGTGTCTGAACTGGAAACGCTAGTGGCGCAGGCCAAAGAAGCGGATAAAGGCGGCATGAATTTCT -CGTTTATTAATTCGGCAGGCCAGTATCAACTCGAGGCTAAAAAATACGTTCGCCGCATCAGAGATAAAGT -CCCGTACTCTGACTGGGATAAAGAGCAACTTCAGGACGCAAACTCAAGCTGGATGGTCGAAGACTCTTTC -CCGAGAGCATTACGCGAGTACAACGAAATGGTTGATGACTATAATAGCCTGCGTTAAACGTTTTTGATGA -TAAATGCAGTGTCGGATGCGGCGCATCCGACACAGTTCACCCCTTGTGAAGTAACTCCATAAATGCCTCA -TATCCTGTTAACCCGGCAATAATCTCCGCCGGATGCTGACACAATATGCTTGCCAGATAGCTAAATATTT -TTAGCTCATGACGCGCATCGGCGGCGGCGCAGGCGATCAAGACATGGTTAATGACTTCGTTATTCACCTC -AACTGGTTGGGCGAGGGTAATAAAAAATCCACGAAAACGTCGCTCCTGTTCGCTCCAGCAATGTGGGATG -GCGAGGCGATTAACAATCAGGTTTTCACCTTCGCCTTCGCGGGCGATGATGCGTTGTGCTTCATCGGCGG -TAATATGGTGTTGTGCGACTAATTGCGCACAAATTTGCCGGGTAATATGTTGCCAGCTTTCACCGCGTAC -ATTCGAATAATGAAAACTTCCGGGGGCAGAGAAAAAACGCTCCGGCTGTTGGCGAATAAATGCCGTCGCC -AGAAAATGTTTTATTTGTTCGATACCGGCAGCCGTAATGATATTTTTTACGGTGATGTAATTATTTACCG -CGTCATCCAGTAAATAATGGCTGTTGTTAATGATCAATAACGGCTCAATCTCTTCGCGAATGGCAACAAG -TTCGCTTAAGCTACGGGCAATAATTACCCGACAATTTAAAACATCGCGCTCAATGGCGAGCTGATTAATA -GTGGCAATCGCGTTCTGGTCCGAGAGCAAAATGATCGGCTGGCGTTCGTTTTGATGCCGCTCCAGCGCAC -AGGCAAAATACAAACCGATCAGATCGCTGTCGAAAAGGGGAATATCGAGCTGTTCACGCAGTAGCGTAAT -AAAGTGCAGACTCATATCAAAGGCCGCAGGCCAGGCGGCTTTCAGGTTATTCATGCTGCTCTGGCGGTGC -TCAGCAATCCACACTGGTGCGGCAAGGCAACGTAATAAATGCCCGGTAATATTCTCAACCAGCTGCGCAT -CAATAATATTCAATGACGCGATGCCCGGCACCCTTTGCAGCAACCCCTGCACATTATCGGCTGAAATTAC -CTGCGCTTGCTGATGCTGTTTCTCTATCAAACCCGTCAGGGTTCTTACAGCGTTATCACCAAGAAACAGA -CCGCTATGTTCAACGATTTGTTTTATCTCGTCACCGGGATATTGCGGCCACTCATCGGTCAGTTGATTAC -GCAGGGCGTAAATCGCCAGAATCAGGCTGGAGAGATAATCACCCTGCATGAGCGGCCAGCGGTGTTGGTT -GTCGCAGGCCGTGGATAAATGCTGAAGGTTGTCTCGTGTTATGCCCGCCAGCGGAATTAAAAACGGATCT -TTGCGCAGCAAGTTCGCCAGCAAGATAACGCGTTTCTCTTCTGTCTCATCAATGAAATGGCCCAAACCAG -GGCGGCTGGCCAGGCAACAAGTGCGTTCATAACGCTGTTTTAACCGGGGCAGACGCTCTGCTACCCACGT -TTCTGGCAAATTAAGCGCCGAGGCGAGTTGCGCACGGGGAGTGAAAGTATTCAGTAATAACAGCGCCAGC -AGCCGATCGTCGTTATCGTGCTTTTGCAGCAACTGAAAAAAGCTGCGGCGCTCGAAGATTTCCAGCTGAT -AGCCCGCACTGCCACTGGCGAAAATGCGGGCTTTGCCGTTAAGGGTGAAGTTGAGATAGTCAATATCACG -CAGGATGGTCCTGCCTGAAACGCCAGTCTGTTGCGCCAGCTCGCCAGGCGTGCGCGGCTGTTGCTCCAGC -AGATCGACAATCTTTAACTGGCGTTCGTTTAGCATTAATCCACCTGACGGAACTGGCTAAACGCGTTGAC -TTTCTCCGCAGTTAAGGTCGTCAGAAAACCCCGTATCAGCGTGAGCAGAGCTTCGTAATCGGCTTTTGAA -ATCATACCGCTGTTGGCGTGCAGATAACGAGTTGGCAGACACAGCGCGACAACCGGACGCCCGCCGCCCA -TCACGTTGTAGCGCCCGCCATCCGTCGCACCGGTTTTCATGGTGGAAAATTGCAGCGGTAAATCGTTATG -TGCGGCACAGCTTTTTAACGCTGCTACCAGTTTCTGGTTGGGGAAGTAGCGCTTGTCAAACAGCATCAGC -CCCGGCCCCTGGCCCAGTTTCAGCGGGTATTTAATGTTATCAATGCCCGGAACATCGCCCGCTACGGCGG -TATCCAACACGATCACGACGTCCGGTTTAATGTGTTCCGCCGAGGTTTGCGCCCCGCGTAGCCCAACTTC -TTCTTCCACACTGCCAACGCCATACAGCGTAATTTCGGGATTATTCACCGTCTGCAATAGTTCAGCCATC -ATTGCGCAGCCGATGCGGTTATCCAACGCCTTGCCGACCACTTTATCTTCGCCCCAGCAGGCAAAATTGG -CTTCCGGGCTAATAAAATTACCAATTTCCACGCCGCGCTTTTCCACCTCTTCGCGACTGTTCGCGCCAAT -ATCAATGAACATCTCATCAAATGACAGCGGTTGTTGCTTTTGCTTTTCCGTTAACGCATGAGGCGCGACG -GAACCAATCACACCAGGGATTTTCACTCCCTTGTGTGTGCGTATGGTTACCCGGTGGTTGAGCATCGACT -GATTCCACCAGCCGCCAATGGTGGTAAAACGCAGAAAACCGCTCTCGTCGATGTGGGTGACCATAAAGCC -GACTTCATCCATATGTCCGACAACGGCAACTTTTGGACCTTTATTCCCCTTACGGGCAACAAAGCTGCCC -AGACCATCGAAGGTGATTTCATTCACGCAAGGTTCCAGCGTGTTTATCAGAATGTCGCGAACTTCCTGTT -CATCGCCGCTGACGGCGCTGGCTTCGCACAACTGTTGCAGTAACTCAATGTTCATGGACAAGCTCCTGTT -GCGCGGCTTTCGCTTTGCGGCGTAACCACAATCCTTTCAGGACGATAATGAATGAAATGTTCAGCGCGAG -GCCAATCGCCAGCACCAGATAAAACGAACCCACCGGCGACATCAGGCCGATCAGCGGGTCAAAGATACCC -AAACCAGGTGCCAGACGTTTGATTCCGAAAGCGATCACCAGCACGCCGGTAATGCCGCCCGCCAGCGTAT -TGGCGGTAATCATCGGCAACGGAGCTGCCAGAGCGTAAGGAATAGCCGGTTCGGTTGCGACTGTGGCACC -GACCACAATGGCACTACTGGCAGCCTCTTTTTCCTGTCGGGTAAACAGTTTGGGCGCAATGAACGTCGCA -AGACCCGCCGCGACGGGCGGCATCAGCGCGACAACGCCGACGATGGCGTACCAGTCATAAATGTGTTTTT -CCAGCAGTGAGAAGCAGAAGAACCAGGCGGTTTTATTGATGGGGCCGCCCATATCGAACGCCAGCATCGC -ACCGACCAGAAACGCTGCCGCAAACTTCATTGATGGAGGAATGGTATTCAGGAAGTGGAGCAGCCCGCCC -ATGAGGTCGGACATCACCGGCCCGATAACGTAGTAAGTGAGCACGCCGAAAACCAGCAGAGTAACGAACG -GGATCAGCATTGAACCGAGCAGCGGTTGTAATGCTTTGCCAAGGCGCACTTTGCGGAACCAGAAGACGAA -ATAGCCAATCGCCAGCCCCAGCACCACCGCGCCGAGGAATCCCGCACCCGACTGGGTGCCGAGCAGCGCT -TTGTCGTTCGCCAGATAGCAAACCAGAAACGCCGGAGCGAAAGCCGGTTTATCGGCAATCGACGAGGCAA -TATAAGCGCCCATGATGGGGATCATAAAGGTGAAGCCAAGGTAACCGATGGATTCAACTACCCAGGTAAA -CGACGGCGCGCCTTTCGACATATCGGTATACGGCAAACCGAACTGCACCAGCATGTTGGCAAGCGCCACC -AGGATACCACCGCCGATGACAAACGGCAGCGCCGCAGAGACGCCCGCCATCAGGTGGCTCATCACGCTAC -CGCTTTGCACTTCCTGTTTGCCAAGCTTCACGCCGCTATCTGCGGCAAAAAGCTGCGAGTTTGTCGGTAA -TTCGCTGAAAATCTGGTCGATATTTTTCAACGCCTGGGAGATGGCAATCTCATAAACTTTCTTCCCGGCA -AACCGCGCGCGATCATCACCGCTCAGGCCACGCCCGGTAGCGAGAATGACGTAATCGGCAGCGGCAATCT -CTTCGCTGGATAAGCGGTTTTCAACGCCACTGGACCCTTGAGTTTCCACTTTTATGGTATGACCGAGAGA -ACGGGCTTTCTGTTCCAGGGCTTCCGCCACCATGTAGGTGTGAGCGATCCCGGCGGGGCAGTTGGTGATC -GCGACAATACGTAAGGATGACTCCATCGCCACTTCCTTATGAGCTGAGGGTTTGATTTAACAAGGCAAGC -ACCTGGTCGGTATCGCCCTGTTGCAGTTGATGAATAAATTCCTTGTGAATAATTTTGCGACACAGTGTGC -CGATGATTTTGACCTGATCCTCTTCGCCGCTTTGCGGCACGCCGAGGCAGATCCAGCAATTGACGTCTTC -GCCATCGCTGGCTTTCCAGTCAATAGCCTGCGCTTTGCGGGCGAATAATACGAACGGTTGTTTAACGCAG -GCGCTTTTACCGTGCGGCACGGCGACACCGGAACCAAATCCAGTAGAGTGCATTTTTTCGCGCAGCAGCA -GGGTTTGCAGGAGCTGGTGTGAGTCGGTGATAAAACCGTTTTGTAACGCTATTGTCGCCAACTGCTTCAG -AACGGAATAAGCGCCATTGCCCTGAATATTCAGGTCAATACAGCTTGCAGTAAGAGCTGCCATTAATCGG -ACTCCATAAAATATATTTTAATCAATTGTAATGGTGGAGCGATTAAGTGATGAGAGGCGATATGTCGGTA -AACAATGACAATTTGAGACAGAGTGAAAGGTCAGATTTGCGGAGTAATGCACATAATGGTTATTTAAATA -AACCACATGAATCATTAATGGGTTATTCATTATTTTTGTGATTTACTCACAATGTATCAGGGAAATATAA -CTTACCGGGAGATGTAATATGTTTAATTTTTCAAATCGAAATTTAAAATATTGTGCCGGAGGCATCTCTG -GCACATTGGGCAATTACGGCAGGTAAAACACTTCTTGCAGCTCGCTACTCACCGGGCTGTTATCCGGGTT -AGCGGGCATAACATCGGTCATATATTTCCACCAACGTTGGCAAACATCAGTGCTGGCAACCGCATTCCAG -CGTTCTTCAGATTCAATCTCTACCATGGCAAACAGCAGATTACGCGCTTTGTCGAGATAGATGGCGTAGT -TATGCGCACCGTGAGATTTCAGCACTGCTTCCAGTTCTGGCCAGATGGGATTATGCCGACGCTGATACTC -TTCGTGGGCGTCGGGGTTTACCTGCATGACAAAGGCTTTGCGGATCATGTTTGCTCCTTACAGCGCCAGC -GCACTGGCGAGTGGCGTAACGCCGAAACGCTTGCCGAGCGCTATCAACTCTTCACGGCTGATGGTCTGTT -TCATGCCGCCCATCGAATAAACCTTCACTAATACTTGTGCTGATTTTTCTGCGGTGTCGATTAAACCGAA -GGTTTCATCCAGCGTCGGTCCGCTGCCGAAGACGCCGTGGAAGGGCCACAACACCAGCGAATGTTTTTGC -ATCTCTTGTGCGGTCGCCTGGCCGATTTCGTCCGTGCCGGGCACCATCCACGGCAAAATGCCAACGCCAT -CCGGGAATACCACCAGACACTCGGTGCTGCCTTCCCACAGTTGGCGAGTGAAGACCGCGGTGTCGTTTTC -AAGTACATAGGTGAGGGCGATCAGGTTGGTGGCGTGGCAGTGCATGATCACCCGATCTTTGCCGTTGGTG -GCTTTAATGCGCTCGCAGTGGGAAAGGAAGTGAGCCGGAAGTTCGGAAGTGGGGACGGCTTCGTTGGTTA -ACCCCCAAAGAATGTGGTAGCCCGCGCCGTCGCTGTCGACTTTTACGATGCCTAAGTTAGCCGCAGGATC -AAGCTGGACGTTACGGAAGAATTTGCCCGAGCCGGTGACAATAAACGGTGTATTTGCCAGTAAAGGCATG -GGCTGGCTGAGCGGGATATAGCGCGGTTGTTGGTGGAAATTGTCGTGATATGGTGCGATATCGGCGTCAT -CCAGGCGTAGCGTCAGGTTGCCGCCGTTGCGCTCATCCCAGCCTTTCAGCCAGGCGTCGGTGGTGGCTTT -GATCATTCCCTGGACAAACCAGGACTGAGTAATGTTTTGCATGTTCTGTGTTCCTGTAAATTCGGTGTTG -TCGGATGCACGACCCGTAGGCCGGATAAGGCGCTCGCGCCGCATCCGGCAATCAATGCCTGATGCGACGC -TGTCGCGTCTTATCAGGCCTACAACTATTGCCGACCTGTAGGCCTGATAAGGCACTTGTGCCGCATCCGG -CAATCAATGCCTGATGCGACGCTGTCGCGTCTTATCAGGCCTACAACTGTTGCCGACCTGTAGGCCGGAT -AAGGCACTTGTGCCGCATCCGGCAATCAATGCCTGATGCGACGCTGTCGCGTCTTATCAGGCCTACAACT -ATTGCCGACCTGTAGGCCGGATAAGGCACTTGTGCCGCATCCGGCAATCAATGCCTGATGCGACGCTGTC -GCGTCTTATCAGGCCTACAACTGTTGCCGACCCGTAGGCCGGATAAGGCGCTCGCGCCGCATCCGGCAGT -GTTTACCCGCGGCGACTCAAAATTTCTTTCTCATAAGCCCGCACGCTCTCCAGCCATTCGCTACCTGCTG -GCGTATCGTGACGTTGGCAATACATTTCCCAGACCGCCTGCCACGGCAACGATTTCTGCTCTTCCAGCAG -TGCCAGACGCGCAGTGTAATCGCCCGCCGCTTCCAGCTTGCGCAGCTCAGCGGTAGGTTCCAGCAACGCA -CGCAGCAGGGCTTTTTTCATATTGCGTGTACCAATGACCCACGCGGCAATGCGGTTGATAGAGGCATCGA -AGAAGTCAAGGCCGATATGCACCCGGTCAAACAGATCGTGACGCACAATCTCACTGGCAATTGCCTGGGT -TTCATCATCCAGCAGCACTACGTGATCGCTGTCCCAGCGAACCGGACGGCTGACGTGCAGCAGCAACTGC -GGCACATACAGCATGGCGGCGGAAATCTTGTCGGAAATCACTTCAGTCGGGTGGAAGTGCCCGGCGTCCA -GGCACAGCGCAGTCTGGCGGCTGGTGGCATACCCCATGTAAAACTCATTGGAGCCAACCGTGTAGCTCTC -TGCGCCAATGCCAAACAATTTGCTCTCAACGGCGTCGATATGGTGCGCAGGGTTTAGCTTCTCGCTGATC -ACCTCATCCAGTGCTGCCAGCAGACGCTGACGCGGGGCGAGACGGTCAACGGTGATATCTTTCATACCAT -CCGGGATCCAGATGTTCATCACCGATGGTGTGCCGAGTTGCTCGCCAAAATAGGCCGAAACGCGACGGCT -GGCTTTGCAGTGATCAATCCAGAACTGGCGAATGCTGTCGTCGGCATGGGAAAGCGTAAAGCCATCGGCG -CTTAGCGGATGCGAAAAGCAGGAGGGGTTAAAATCCAGACCGAGCTGATTGGCTTTCGCCCATTCAACCC -AGTTTTTGAAGTGCTCTGGTTTGATCTGGTCGCGCGAGACTGGCGTATCTGATTCCAGATAGATGGCATG -TAAATTAAGCCGTTTCGGCCCCGGAATCAGCCGCATAGCCTGTTCCAGATCGGCACGTAGCTCACTGGCA -TTACGCGCTTTGCCCGGATAATTGCCTGTGGCCTGAATCCCCCCGGTCAGCGAACCTTCCGGGTTTTCAA -AACCGGAAACATCATCGCCCTGCCAGCAGTGCATTGAAACGGGTAAACGATCAAGTTGGCGCAGCGCCTC -CTCGACATCAATCCCCACCGCCGCGAAACGCTGTTTCGCTAGCTCCCAGGCCTGTTCCAGTTGAGTGGTC -ATGCGCAAAGCTCCTTTGTCTGTCGTGTAGAGTGAATCTGCGCCACATAGTGGGCAATTTCACTGTCAGG -ATTAGGGGTAAAGGTGGTCAGATTCGCGGTGGTGCTGACGACCTGACGGAAATCATCCACATTGTTGAGT -TCATCCAGCGTCATTAACTGGATGCCGATATTGCCGAGCGTCGAGGCTTCAACAGGCCCGGCGATCACCC -GAATACCGCAGGCATCGGCGCATAGCTGGTTGAGCAGCGTGTTCTGGCAGCCTCCGCCGACAATATGCAG -TTGCGAGAAATCTTCACCGCGCAGCTGCGCCAGCTCATGCAACACATCGGCATACAGCAGCGCCAGACTG -TCGAAAATGCAGCGCGCCAGTTCAGCATCACTTTCCGGGATCGGTTGCGCCGTTTCCCGACACGCAGCCT -GAATTTCGCTGCACATCGTCTCAGGATTAATAAAGCGATCGTCATTGGGATTGATAATGAAGCGGCAAGC -CGGAAGTGCCTGTGTCGCGGAGATAAGCGCCGGAAGATCGTTGATTTGCTGCTCCTGAAGCACTCGCTGA -AGCAGCCATAAGCCCATAATATTTTTCAGCACCCGATAGCGACCTTCCGCCCCGCCTTCATTGGTGATGT -TGGCTGCCAGTGCCGTGTCATTGGTAAATGGCGTCTGGCTTTCGAAGCCCATCAATGACCAGGTGCCAGA -AGAGAGATAAGCAGCACGTGAGCCGTTTAACGGCGAGGCGATAACCGCGCTGGCGGTATCATGGCTGGCA -ACGGCGACCACTGGAATCTCATTACCCTGCGGGCAAATCCAGTGACCTATGACATTACCCGGATGCGTCG -GGCGACCAAACCAGGCTTTGTTGGCCCCGCTCCACGCCAGTAGCGACTCGTCCCAGTCGTCGCTATTGAT -ATTGACCAGTTGCGTGGTCGTGGCGTTGGTATATTCCCAGTTCATCTTGCCGGTCAGGCGATAACTGAAG -TAATCCGGCATCAGCAGAGCGTGAGCAATGTGTGGAATAAGTTCAGGTTGTTGCTCCGTCAGCGCACGCA -ACTGATAAAGCGTATTGAAGGGCAGAAACTGGATGCCGCTACGTTGATAAATATCGCGTTTGCCGAGTTG -TTGTTGTGCCTGCGCCATTAGGCCATTGGTGCGGCTATCGCGATAAGCAACGGGCAGGCCCACACGCTGA -CCCTGTTGGTCGAGCAGCACAAAGTCCACGCCCCAGGTATCAATCCCAATGCTATCGATACGAATCCCTT -CCTCGCACACCTTGTTTAATCCAAGGCGAATGGCACTTTCAAGGCTATCCACATCCCAGGTGACATAGCC -GTTCTGACTATGCAGCCCATTGTTAAAACGATGGATTTCGCGCAGCGTCAGGCTGCGGCATTCACGCTCG -TAACGCGCCAGCATCACGCGCCCACTGGATGCGCCGAGATCGACGGCGACACAATTGCGAAAGGTCATAA -TGTGATCCTGCTGAATTTCATTACGACCAGTCTAAAAAGCGCCTGAATTCGCGACCTTCTCGTTACTGAC -AGGAAAATGGGCCATTGGCAACCAGGGAAAGATGAACGTGATGATGTTCACAATTTGCTGAATTGTGGTG -ATGTGATGCTCACCGCATTTCCTGAAAATTCACGCTGTATCTTGAAAAATCGACGTTTTTTACGTGGTTT -TCCGTCGAAAATTTAAGGTAAGAACCTGACCTCGTGATTACTATTTCGCCGTGTTGACGACATCAGGAGG -CCAGTATGACCGTATTACATAGTGTGGATTTTTTTCCGTCTGGTAACGCGTCCGTGGCGATAGAACCCCG -GCTCCCGCAGGCGGATTTTCCTGAACATCATCATGATTTTCATGAAATTGTGATTGTCGAACATGGCACG -GGTATTCATGTGTTTAATGGGCAGCCCTATACCATCACCGGTGGCACGGTCTGTTTCGTACGCGATCATG -ATCGGCATCTGTATGAACATACCGATAATCTGTGTCTGACCAATGTGCTGTATCGCTCGCCGGATCGATT -TCAGTTTCTCGCCGGGCTGAATCAGTTGCTGCCACAAGAGCTGGATGGGCAGTATCCGTCTCACTGGCGC -GTTAACCACAGCGTATTGCAGCAGGTGCGACAGCTGGTTGCACAGATGGAACAGCAGGAAGGGGAAAATG -ATTTACCCTCGACCGCCAGTCGCGAGATCTTGTTTATGCAATTACTGCTCTTGCTGCGTAAAAGCAGTTT -GCAGGAGAACCTGGAAAACAGCGCATCACGTCTCAACTTGCTTCTGGCCTGGCTGGAGGACCATTTTGCC -GATGAGGTGAATTGGGATGCCGTGGCGGATCAATTTTCTCTTTCACTGCGTACGCTACATCGGCAGCTTA -AGCAGCAAACGGGACTGACGCCTCAGCGATACCTGAACCGCCTGCGACTGATGAAAGCCCGACATCTGCT -ACGCCACAGCGAGGCCAGCGTTACTGACATCGCCTATCGCTGTGGATTCAGCGACAGTAACCACTTTTCG -ACGCTTTTTCGCCGAGAGTTTAACTGGTCACCGCGTGATATTCGCCAGGGACGGGATGGCTTTCTGCAAT -AACGCGAATCTTCTCAACGTATTTGTACGCCATATTGCGAATAATCAACTTCGTTCTCTGGCCGAGGTAG -CCACGGTGGCGCATCAGTTAAAACTTCTCAAAGATGATTTTTTTGCCAGCGACCAGCAGGCAGTCGCTGT -GGCTGACCGTTATCCGCAAGATGTCTTTGCTGAACATACACATGATTTTTGTGAGCTGGTGATTGTCTGG -CGCGGTAATGGCCTGCATGTACTCAACGATCGCCCTTATCGCATTACCCGTGGCGATCTCTTTTACATTC -ATGCTGACGATAAACACTCCTACGCTTCCGTTAACGATCTGGTTTTGCAGAATATTATTTATTGCCCGGA -GCGTCTGAAGCTGAATCTTGACTGGCAGGGGGCGATTCCGGGATTTAACGCCAGCGCAGGGCAACCACAC -TGGCGCTTAGGTAGCATGGGGATGGCGCAGGCGCGGCAGGTTATCGGTCAGCTTGAGCATGAAAGTAGTC -AGCATGTGCCGTTTGCTAACGAAATGGCTGAGTTGCTGTTCGGGCAGTTGGTGATGTTGCTGAATCGCCA -TCGTTACACCAGTGATTCGTTGCCGCCAACATCCAGCGAAACGTTGCTGGATAAGCTGATTACCCGGCTG -GCGGCTAGCCTGAAAAGTCCCTTTGCGCTGGATAAATTTTGTGATGAGGCATCGTGCAGTGAGCGCGTTT -TGCGTCAGCAATTTCGCCAGCAGACTGGAATGACCATCAATCAATATCTGCGACAGGTCAGAGTGTGTCA -TGCGCAATATCTTCTCCAGCATAGCCGCCTGTTAATCAGTGATATTTCGACCGAATGTGGCTTTGAAGAT -AGTAACTATTTTTCGGTGGTGTTTACCCGGGAAACCGGGATGACGCCCAGCCAGTGGCGTCATCTCAATT -CGCAGAAAGATTAATTCGCCATGCCGATGCCGACGATGTTAGCGGCGACAATAATCACCACACAACCGAG -GCTCAACACCGTTACCGGACGGCGTCCTGCATTGTTCCACTCTTTCAGCACCAGCCCGACGATACCGCCG -CACAATACATAGAAACTCATATGCAGCATCCAACTGATGTAGTCATACTGCGCCGGAATGCGGGCGTGGC -CCCAGGCATAGAAAAAGAATTGCAGATACCACATCAACCCGCCCAGTGTCGAGAGTAACACATTGTGAAT -GATCAGCGATTTTGCCAGCGAGAAGTCGGCTTTTAGCGACAAATCCTTCACTTTTGCCAGACGAATAAAA -CAGAAACCGAGGTTAATGATCGCGCCGCCGCCCATGATGACAACATAGCTTGGCAGAGCGACATACAGTG -GATCGACGCCAAGTGCGGCAGCGGCTTCATGCATCGGTTTTGCGGCGTTCATCGCAAAGGACATCCCGGC -AGAGAAAATGCCGCACATCACCGCCAGCACCAGCCCTTTTTTCAGATTGAACTCTTCGGCTTTAATGCCC -ATCTTGCGCTCTTTCAACTGCCCGGCGCGAGTTACAATCCCTACGCCAATCAGCGCCACCAGAACGCCGA -GCAACGTCATGCGTCCGCCTTCGGTGCTAATCAACACATCGAAATTGCCGTTGATAATTGGCGTCATCAG -CGTACCGACAATCAACGTAATGCCAATGGCGATGCCAATTCCCATCGACATGCCGAGATAACGCATGGTC -AGGCCGTAGTTGATATTACCGATCCCCCACATAGCGCCGAACAGAAAAACAGGCAGTCGCGTAGAGAGAC -TAAACGAGCTGTAATACGCCCAGAAATTCGGTAGTAACAGGGCGCTGATGGCCCACGGCAGAATAATCCA -CGAAACAATCCCACCGACTGACCACATGGTTTCCCATGACCATTTTTTTACTTTTTTGAACGGAGCGTAA -AAACAGGCTGCACTGGCCGCGCCGATCAAATGCCAAAATATCCCCATCGTAATCGCGTTACTCATCTTCT -TATCCTCATCATTTTTCGTCGCGTCACATCTCCGACGAGATGAGTGTAAAAATCGTGCTGTCGATTAACC -TTTCGCCTGTTGCCGCCGTTGTCGATTTACTGGCAATCACGGCATTAAGTGGGTGATTTGCTTCACATCT -CGGGCATTTTCCTGCAAAACCATACCCTTACGAAAAGTACGGCATTGATAATCATTTTCAATATCATTTA -ATTAACTATAATGAACCAACTGCTTACGCGGCATTAACAATCGGCCGCCCGACAATACTGGAGATGAATA -TGAGCTATACCCTGCCATCCCTGCCGTATGCTTACGATGCCCTGGAACCGCACTTCGATAAGCAGACCAT -GGAAATCCACCACACCAAACACCATCAGACCTACGTAAACAACGCCAACGCGGCGCTGGAAAGCCTGCCA -GAATTTGCCAACCTGCCGGTTGAAGAGCTGATCACCAAACTGGACCAGCTGCCAGCAGACAAGAAAACCG -TACTGCGCAACAACGCTGGCGGTCACGCTAACCACAGCCTGTTCTGGAAAGGTCTGAAAAAAGGCACCAC -CCTGCAGGGTGACCTGAAAGCGGCTATCGAACGTGACTTCGGCTCCGTTGATAACTTCAAAGCAGAATTT -GAAAAAGCGGCAGCTTCCCGCTTTGGTTCCGGCTGGGCATGGCTGGTGCTGAAAGGCGATAAACTGGCGG -TGGTTTCTACTGCTAACCAGGATTCTCCGCTGATGGGTGAAGCTATTTCTGGCGCTTCCGGCTTCCCGAT -TATGGGCCTGGATGTGTGGGAACATGCTTACTACCTGAAATTCCAGAACCGCCGTCCGGACTACATTAAA -GAGTTCTGGAACGTGGTGAACTGGGACGAAGCAGCGGCACGTTTTGCGGCGAAAAAATAATCATTTGCCG -CCTGCTGCAATGAGGCGTATAGGCCGCATATCAGCTTAAAAAATGAACCATCGCCAACGGCGGTGGTTTT -TTTGTGATCAATTTCAAAATAAAAACAATGATCCGATAAAAATAAAACAGCGTTTCAATTGATGTGGTTT -TGATCACTTTTATTGATTAAATGAATGTCTATCTTCGTTTCCATCAACACTGATGCTCCATTGAGGAATT -ACGCATCAGCCCTTAAAAATATGCCGACAGGTGATGGAAATGCAGATAAAACGCTCGATTGAGAAAATCC -CGGGGGGGATGATGCTCGTCCCGCTATTCCTTGGCGCACTGTGCCACACCTTCTCGCCGGGGGCGGGGAA -ATATTTTGGATCATTCACCAACGGGATGATTACCGGTACGGTGCCCATTCTGGCGGTGTGGTTTTTTTGC -ATGGGGGCGTCAATAAAATTAAGCGCGACGGGAACGGTACTGCGTAAATCCGGTACGCTGGTGGTAACTA -AAATTGCCGTCGCGTGGGTGGTTGCGGCAATTGCCTCGCGTATTATTCCGGAACATGGTGTTGAAGTTGG -ATTCTTTGCCGGACTTTCAACGCTGGCGCTGGTGGCGGCGATGGATATGACCAATGGCGGACTTTACGCT -TCCATCATGCAGCAGTACGGCACAAAAGAAGAAGCTGGGGCATTTGTGTTGATGTCGTTGGAGTCCGGGC -CGCTCATGACGATGATTATTCTGGGCACTGCCGGGATTGCCTCGTTTGAACCGCATGTTTTCGTCGGCGC -AGTATTACCGTTCCTGGTGGGCTTTGCCCTGGGGAACCTTGACCCTGAATTGCGAGAATTTTTCAGCAAA -GCGGTGCAAACGCTGATTCCATTCTTTGCCTTCGCGCTGGGCAATACCATTGATTTGACTGTGATTGCCC -AGACTGGTTTGCTGGGGATCCTGTTGGGTGTGGCAGTAATTATCGTGACCGGTATTCCGTTGATTATCGC -CGATAAATTGATTGGCGGTGGCGATGGCACTGCCGGAATTGCCGCTTCCAGTTCCGCAGGGGCCGCGGTA -GCGACACCTGTGCTGATTGCAGAAATGGTGCCTGCGTTTAAACCGATGGCTCCGGCAGCAACTTCGCTGG -TAGCGACGGCGGTCATTGTGACTTCGATTCTGGTGCCAATTCTTACCTCTATCTGGTCACGTAAAGTCAA -AGCCAGAGCAGCGAAAATCGAAATTTTAGGTACGGTGAAATAAACCTGCTTCCTTAATCCCCACAGCCGG -ATGAACTAACGTTCGTCCGGTTTGCTATTGAGTTCCTGCCTGGATACTTACCGCGAAAACAGCACGCCTG -ACATAAAATAAATATGGTCTAATGGGGAAATTTCTCGTGGAGAGGGAACAGATGCGATATCCGGTTGATG -TATACACAGGCAAGATTCAGGCTTATCCCGAAGGCAAACCCAGCGCAATTGCTAAAATCCAGGTTGATGG -TGAGTTGATGCTGACGGAGCTGGGGCTGGAAGGTGACGAGCAGGCGGAGAAAAAGGTTCACGGCGGGCCA -GACAGAGCGCTGTGTCATTATCCTCGTGAGCATTATCTCTACTGGGCGCGGGAATTTCCGGAACAGGCGG -AGTTGTTTGTTGCGCCTGCGTTTGGTGAAAACCTCTCAACCGACGGCCTGACGGAAAGTAATGTTTATAT -GGGCGATATTTTCCGCTGGGGAGAGGCATTAATTCAGGTCAGCCAGCCGCGCTCGCCTTGCTATAAACTC -AATTACCATTTTGATATCAGCGATATAGCGCAGTTGATGCAAAACACAGGTAAGGTGGGGTGGTTGTATA -GCGTGATAGCGCCAGGGAAAGTGTCTGCGGACGCGCCGCTGGAGTTGGTTTCCCGTGTCAGCGATGTGAC -CGTGCAGGAGGCTGCCGCCATCGCATGGCATATGCCGTTTGATGACGATCAATATCACCGTTTACTCTCC -GCTGCCGGGTTATCGAAAAGCTGGACGCGGACGATGCAAAAGCGCCGACTGAGCGGCAAGATCGAAGATT -TTTCCCGCCGGTTGTGGGGAAAATAACCCCCGGAGTGTAGGCCTGATAAGACGCTATCAGCGTCGCATCA -GGCATCCTGCTCAAATGCCGGATGCGGCGTAAACGCCTTATCCTGCCTGCAAATGCGAAGTTTAACTCCG -CTTATACAGCGGCAACCAAATCACCAGCCGTAAACCGCCCAGCGGGCTGTCTTCTGCCTTCACCCAGCCA -CGATGCTGCTGAATGGCGGTTTCAACAATCGCCAGCCCCAAACCTGTACCGCCAGATTCACGATCGCGTG -CTTCATCGGTACGATAGAACGGACGGAAAATCTGTTCGCGATCTTCCGGGCTAACGCCAGGACCATCGTC -GTCCACCGTAATGGTGATACCGTCTTTATCTACCGCAAAGCCCACTTCAATCTTCGTATGGGAATAACGC -AGAGCATTACGAACAATGTTTTCCAGCGCACTTTCCAGGGCGTTCGGATTGCCGTACAGCGGCCACGGCC -CAGGCGGGAAGTTAACTGTCAACGACTTGCCCATTTGCTCGGCTTCGAACGCCGCGTTATCCAGCACTTC -ACTCCACAACTGGTTGGCTTTGATGGTTTCGCTAACCAGCGCGTTTTTTTGCTGATTACGTGACATCACC -AACAGATCGTTGATCATGCTGTCCAGACGTTGCGCTTCGGTTTCAATACGCTCCAGTTCCTTGCTTTCAC -CGCTACGACGGCGCAGTAACGCCGTACCCAGTTGCAGACGCGTCAGCGGGGTGCGCAGCTCGTGAGAGAT -ATCAGAAAGCAGACGCTGCTGAGAGGTCATCATGCGCTCCAGCGCGGTGACCATCTGGTTAAAACTGGCA -CCTGCGGCAAGGAATTCCTGTGGCCCCGCTTCCAGTTCCGGGTGCTGGCGTAAGTTTCCCTGGGCAACTT -CATCGGCAGCGTTTTTCAGCTTACGCGCCGGTTTTGCCAGACTCCAGGCCAACCACAACAGCAGCGGCGT -ACTGACCAACATGGTGACAATCAGCAGTAATAGCGGGCGGTCAAACAGTAAGTTAATGAAATCGGATTGA -GAACTGCTGGCCGGACGAATCAGATAAAGTTGGTAATTATCTTCGCCATCACGCACGGAGAACGGACCGA -CCAGTTCCACGCGGCCATACTTTTTCTTCTGCGGATGATCGGCGTTATCGGCCTGACCAATAAAGTTACG -AATGATCTGCATTTCGCTGCGTTCAGCGCCGATCACGCGGCCTTCGGTGGTCACCAATAACAAACGCTGT -CCTGGCGGTGCCCACTTATCAATCGCCCGGAACAGACGCCGCCACCACATTAAATCGTTGGGCGGATCGT -TCGCCAGCTCCGCTTCGACATGCTGCTCAATCATCAGCCCCTGACGCTGTTCGCTATCCAGAAGCTCGGT -CATCTGGCGTGAATCGAGCTTGGGTAACATCAAAACCAACATCAACACCAGCGCCAGCGTCAGCCAGAAG -ATGGCGAAGATGCGCGCGGTTAAGCTGCCTATCATGAAGCAGAAACCATCAGATAGCCGCGACCACGCAA -GGTTTTAAACCACGGGTGACCATCTTTACGATCCGGCAGTTTACGACGCAGGTTGGAAATGTGCATATCA -ATAGCGCGGTCGAAAGGCGTCAGGCGTTTGCCCAACACTTCCTGGCTTAAATGTTCACGGGAAACCACCT -GACCCAGATGCTGTGCCAGCAAATAGAGCAGGGTAAACTCAGTACCGGTTAACTCCAGCGTTTGCCCGTC -GAAGCTGGCTTCCTGACGGCCTGGATTCAGCACTAAGGCATCAACTTCCAGTGTCGGTGAACCGTTGTCG -TTGTTTTGCTGTTGCTCGCTCCAGTGCGAACGGCGCAGGATCGCGCGAATACGTGCCACCAGCTCACGAT -CATTAAACGGTTTCGGGAGATAGTCATCTGCGCCCAGCTCAAGGCCGAGAACGCGATCAAGTTCACTGCC -GCGCGCCGTCAACATAATGACAGGCGTCTGGTGTGTCTGGCGAAGTGCTTTTAATGTGTCGATACCATTT -TTCTTCGGCATCATTACGTCAAGCAAAAGTAAATCAATGCTGTCGTCCAGAAGATCAAGCGCCTGTTCCC -CATCGTGGGCAACAATCACGTTGAAGCCTTCCATCTCGAGCAGCTCCTTTAATAGGGAAGTCAGCTCTCG -GTCATCATCAACTAACAGGATTTTATTCATTGTTTAAATACCTCCGAGGCAGAAATTACGTCATCAGACG -TCGCTAATCCATGACTTTACGTTGTTTTACACCCCCTGACGCATGTTTGCAGCCTGAATCGTAAACTCTC -TATCGTTGAATCGCGACAGAAAGATTTTGGGAGCAAATGATGCGCATAGTTACCGCTGCCGTCATGGCCT -CAACGCTGGCAGTCAGTTCATTAAGCCACGCTGCTGAAGTCGGTTCAGGCGATAACTGGCATCCGGGTGA -AGAACTTACGCAGCGCAGTACGCAGAGCCATATGTTCGACGGCATAAGTTTAACCGAACATCAGCGTCAG -CAGATGCGAGATCTTATGCAACAGGCCCGGCACGAACAGCCTCCTGTTAATGTTAGCGAACTGGAGACAA -TGCATCGCCTTGTCACCGCAGAAAATTTTGATGAAAACGCTGTGCGCGCACAGGCAGAAAAAATGGCGAA -TGAGCAAATTGCTCGTCAGGTTGAGATGGCAAAAGTCCGCAACCAAATGTATCGCCTGTTAACGCCGGAG -CAGCAAGCGGTTTTAAACGAGAAACATCAACAACGAATGGAGCAGTTGCGTGACGTGACGCAATGGCAAA -AAAGTTCATCGTTGAAGCTATTGAGTAGTAGCAACTCACGTTCCCAGTAGTAAACCCTGTTTTCCTTGCC -ATAGACACCATCCCTGTCTTCCCCCACATGCTGTGGGGGTTTTTTTTATCCTCAATTTGCCTGCTGCTTA -ATGCATTGCAGATGATTTGCTTCCGTTATACTAGCGTCAGTTGATAGCGGGAGTATTTATGAATCAATCT -TATGGACGGCTGGTCAGTCGGGCGGCGATTGCTGCGACGGCGATGGCTTCGCTGCTATTGCTGATTAAAA -TTTTTGCATGGTGGTATACCGGGTCGGTGAGTATTCTCGCCGCGCTGGTGGATTCGCTGGTGGATATCGG -CGCGTCGTTGACGAATTTATTGGTGGTGCGATATTCCCTGCAACCTGCCGACGATAATCACTCGTTTGGT -CACGGTAAAGCTGAGTCCCTCGCGGCGCTGGCGCAAAGTATGTTTATCTCCGGTTCGGCACTATTCCTGT -TTTTGACGGGTATTCAACATCTGATATCTCCAACACCGATGACAGATCCAGGCGTCGGGGTTATCGTGAC -AATTGTGGCGCTAATTTGTACGATTATCCTTGTCTCGTTTCAGCGTTGGGTGGTGCGGCGGACGCAAAGC -CAGGCGGTGCGGGCTGATATGCTACATTACCAGTCTGATGTTATGATGAACGGCGCAATTCTGCTGGCGC -TGGGGTTGTCCTGGTACGGCTGGCATCGCGCCGATGCTCTGTTTGCATTGGGAATCGGCATCTATATTTT -ATATAGCGCGTTACGCATGGGATATGAGGCGGTACAGTCATTACTGGATCGCGCATTGCCTGATGAGGAA -CGGCAAGAAATTATTGATATCGTGACTTCCTGGCCGGGTGTTAGCGGCGCTCACGATCTTCGCACGCGGC -AGTCAGGGCCGACCCGCTTTATTCAGATTCATTTGGAAATGGAAGACTCTCTGCCTTTGGTTCAGGCACA -TATGGTGGCGGATCAGGTAGAGCAGGCTATTTTACGGCGTTTTCCGGGATCGGATGTAATTATCCATCAG -GACCCCTGTTCCGTCGTACCCAGGGAGGGTAAACGGTCTATGCTTTCATAATCAGTATAAAAGAGAGCCA -GACCCGCATTTTGTGTATAAAATACCGCCATTTGGCCTGACCTGAATCAATTCAGCAGGAAGTGATTGTT -ATACTATTTGCACATTCGTTGGATCACTTCGATGTGCAAGAAGACTTCCGGCAACAGATTTCATTTTGCA -TTCCAAAGTTCAGAGGTAGTCATGATTAAGAAAATCGGTGTGTTGACAAGCGGCGGTGATGCGCCAGGCA -TGAACGCCGCAATTCGCGGGGTTGTTCGTTCTGCGCTGACAGAAGGTCTGGAAGTAATGGGTATTTATGA -CGGCTATCTGGGTCTGTATGAAGACCGTATGGTACAGCTAGACCGTTACAGCGTGTCTGACATGATCAAC -CGTGGCGGTACGTTCCTCGGTTCTGCGCGTTTCCCGGAATTCCGCGACGAGAACATCCGCGCCGTGGCTA -TCGAAAACCTGAAAAAACGTGGTATCGACGCGCTGGTGGTTATCGGCGGTGACGGTTCCTACATGGGTGC -AATGCGTCTGACCGAAATGGGCTTCCCGTGCATCGGTCTGCCGGGCACTATCGACAACGACATCAAAGGC -ACTGACTACACTATCGGTTTCTTCACTGCGCTGAGCACCGTTGTAGAAGCGATCGACCGTCTGCGTGACA -CCTCTTCTTCTCACCAGCGTATTTCCGTGGTGGAAGTGATGGGCCGTTATTGTGGAGATCTGACGTTGGC -TGCGGCCATTGCCGGTGGCTGTGAATTCGTTGTGGTTCCGGAAGTTGAATTCAGCCGTGAAGACCTGGTA -AACGAAATCAAAGCGGGTATCGCGAAAGGTAAAAAACACGCGATCGTGGCGATTACCGAACATATGTGTG -ATGTTGACGAACTGGCGCATTTCATCGAGAAAGAAACCGGTCGTGAAACCCGCGCAACTGTGCTGGGCCA -CATCCAGCGCGGTGGTTCTCCGGTGCCTTACGACCGTATTCTGGCTTCCCGTATGGGCGCTTACGCTATC -GATCTGCTGCTGGCAGGTTACGGCGGTCGTTGTGTAGGTATCCAGAACGAACAGCTGGTTCACCACGACA -TCATCGACGCTATCGAAAACATGAAGCGTCCGTTCAAAGGTGACTGGCTGGACTGCGCGAAAAAACTGTA -TTAATGATTTCGGAAAAAGGCAGATTCCTTTACCCTGAAACCGATGACAGAAGCAAAAATGCCTGATGCG -CTTCGCTTATCAGGCCTACATGAATTCTGCAATTTATTGAATTTGCAAACTTTTGTAGGCCGGATAAGGC -GTTCGCGCCGCATCCGGCATGGACAAAGCGCACTTTGTCAGCAATATGAGGCGGATTTCTTCCGCCTTTT -TAATCCCTCAACATATACCCGCAAGTTATAGCCAATCTTTTTTTATTCTTTAATGTTTGGTTAACCTTCT -GGCACGCTTTGCTCATCACAACACAACATAAGAGAGTCGGGCGATGAACAAGTGGGGCGTAGGGTTAACA -TTTTTGCTGGCGGCAACCAGCGTTATGGCAAAGGATATTCAGCTTCTTAACGTTTCATATGATCCAACGC -GCGAATTGTACGAACAGTACAACAAGGCATTCAGCGCCCACTGGAAACAGCAAACTGGTGATAACGTGGT -GATTCGTCAGTCACACGGTGGCTCAGGTAAACAAGCGACGTCGGTAATCAACGGTATTGAAGCTGATGTT -GTCACGCTGGCTCTGGCCTATGACGTGGACGCAATTGCGGAACGCGGGCGGATTGATAAAGAGTGGATCA -AACGTCTGCCGGATAACTCCGCACCGTACACTTCCACCATTGTTTTCCTGGTACGTAAGGGAAATCCGAA -GCAGATCCATGACTGGAACGATCTGATTAAACCGGGTGTTTCGGTGATCACGCCTAATCCGAAAAGCTCT -GGTGGCGCGCGCTGGAACTACCTGGCAGCCTGGGGCTACGCGCTGCATCACAACAACAACGATCAGGCAA -AAGCACAGGATTTTGTTCGGGCACTGTATAAAAACGTCGAAGTTCTGGATTCTGGCGCGCGTGGCTCCAC -TAACACTTTTGTCGAGCGCGGAATTGGCGATGTACTGATTGCCTGGGAAAACGAAGCTCTGCTGGCAGCG -AATGAACTGGGGAAAGATAAATTCGAAATCGTCACGCCGAGTGAGTCTATCCTCGCAGAGCCAACCGTGT -CGGTGGTCGATAAAGTGGTCGAGAAAAAAGGTACTAAAGAGGTGGCGGAAGCCTACCTGAAATATCTCTA -CTCGCCAGAAGGTCAGGAAATTGCCGCGAAAAACTACTACCGTCCGCGCGACGCTGAGGTGGCGAAAAAG -TACGAAAATGCGTTTCCAAAGCTGAAGTTATTCACCATTGATGAAGAGTTCGGCGGCTGGACGAAAGCGC -AAAAAGAGCATTTTGCTAACGGCGGTACGTTCGATCAGATCAGCAAACGCTGATTTCCCCAGGATAATTA -TCAAACCCGGTGGTTTCTCGCGACCGGGTTTTTTATTTGTCACGATTTTGCGTTACCCTTGCATCTCTTT -GAGGTACAGGGAAAAAAAGATGAAAAAAGCGGGTCTTCTTTTTTTGGTGATGATAGTTATCGCCGTTGTG -GCTGCCGGTATTGGTTACTGGAAATTAACCGGTGAAGAGTCGGATACATTACGTAAGATTGTCCTTGAGG -AATGTTTGCCCAATCAGCAGCAAAATCAAAATCCTTCGCCATGTGCGGAAGTCAAACCCAATGCCGGATA -CGTGGTTTTAAAAGATCTTAATGGCCCACTGCAATATCTGTTGATGCCAACGTATCGTATTAACGGTACT -GAAAGTCCTTTGTTGACCGATCCTTCAACGCCGAACTTCTTTTGGTTGGCTTGGCAGGCGCGTGATTTTA -TGAGCAAAAAATACGGCCAGCCGGTTCCCGATCGCGCGGTTTCTTTGGCGATCAACTCCCGCACCGGGCG -TACGCAAAACCATTTTCATATTCATATCTCTTGTATTCGTCCTGATGTGCGCAAACAGCTGGATAACAAT -CTGGCGAACATCAGCAGCCGCTGGTTGCCACTGCCAGGTGGTTTGCGCGGGCATGAATACCTGGCGCGTC -GGGTAACGGAAAGCGAACTGGTACAACGCAGCCCATTTATGATGCTGGCAGAAGAAGTACCTGAGGCGCG -GGAACATATGGGACGCTACGGGCTGGCGATGGTACGGCAGAGTGATAACTCATTTGTATTGCTGGCGACA -CAACGAAATCTACTGACGCTTAACCGTGCTTCAGCCGAGGAAATTCAGGATCATCAGTGTGAGATTTTGC -GTTAAGGCGAAGAGTTAAGGAAAGTAAGTGCCGGATATGAAATCCGGCACCTGTCAGACTTAAGCCTGTT -TAGCCGCTTCTGCAGCTTTAACGATTACTGCGAAGGCGTCAGCTTTCAGAGAAGCACCACCAACCAGCGC -GCCGTCGATATCCGGCTGAGCAAACAGTTCTGCAGCGTTAGACGCGTTTACAGAGCCGCCGTACTGAATG -ATCACTTGTTCAGCGATGTTAGCGTCAACTTTAGCGATGTGGTCACGGATGAATTTGTGAACAGCCTGTG -CCTGAGCCGGAGTTGCAGATTTGCCAGTACCGATTGCCCATACAGGTTCGTAAGCGATAACCGCACCTTC -GAATGCCGCAGCACCCTGAGTTTTCAGTACCGCGTCGATCTGACGTGCGCAAACTTCTTCAGTTTTGCCC -GCTTCATTTTCAGCTTCGGTTTCACCGATGCACAGAACCGGAGTCAGGCCCTGCTCTTTCAGCACCGCGA -ATTTTTTCGCGATCAGTTCGTCAGATTCTTTGTGGTAAGTACGACGTTCAGAGTGACCGATGATGATGTA -CTGTGCGCCGATGTCTTTCAGCATAGCAGCAGAGGTTTCACCGGTGAATGCGCCGGACAGGTTCAGGTCC -ACGTTTTGCGCACCCAGCATGATGTGGCTGCCTTCAGCTTCGCGCTTCGCCATATCGATATACATTTCCG -GTGGTGCGATTGCAACCGCACAGCCAGCAACACCTGCCAGCTCTTTACGCAGGTTAGAAACCAGCTCGTG -AACCATGTGGCGGCTGCCGTTCAGTTTCCAGTTACCCATCACTAAAGGATGTCGCATTTTAATTCTCCAC -GCTTATAAGCGAATAAAGGAAGATGGCCGCCCCGCAGGGCAGCAGGTCTGTGAAACAGTATAGAGATTCA -TCGGCACAAAGGCTTTGCTTTTTGTCATTTATTCAAACCTTCAAGCGATTCAGATAGCGCCAGCTTAATC -GGTTCAACAGCGAAGGTCAGCCCCTTTTCGCCGTTGTCCGCGACAACATAACGCAGTGCACCTTCTGTCT -CGGTGTAATAACGTTTGTTTTTCCCCGCCGTTAGTAGCGACTGCAGTTTTTTCTGGCTTTGTGTTTTGGT -CATTAATGGGGTGAGTGTGCGGATCACCGCTGCCATGTATTCCTGAGCTTTCGCTTTCGCGGCTTTTTGC -TCTGGCCCCTGGATGGGTAGCCAGGTCATTTGAATGCTTTTGATTTTTAAGGTACCGCGCTCCAGCGCTG -TAGAAGCATACAAGTTCTCATTAATTTTACTTGCAGCACGAGTGAGATTGGCTTTGTCGGGACTGCTGTC -GATGGCACGAAATTCGTTCAGTGGCAGGCTGGGATTCTGGCTGTTAAAGTCTTCTCGAAACTGGCTGATG -GAGAGATCGAAAGTAGGGGCTCCAGCCAGCAGATAAGGCGCGGTCGTTGCCGTATCTGGTGTTTGTGCAT -GCGCCTCTGTTGTAACGGTTAATGCAGAACATAAGAGAAAAAACAGCGTACACCCTGGCTTCATTGACAG -TACCTTTTGTTATGACTGGCTCCGATTAAAACGATATCTGTCGCCCTTGTCAAAAGGGTAGAATCCTGGA -AAAGACAACCATCAAGGAACTTACATGACCATACAGCAATGGTTATTCTCATTTAAAGGGCGTATTGGAC -GCCGTGATTTCTGGATTTGGATAGGCCTGTGGTTCGCAGGCATGCTGGTGCTTTTCTCACTGGCGGGTAA -GAATCTACTCGATATTCAGACCGCGGCGTTTTGCCTTGTGTGCTTGCTCTGGCCAACAGCGGCAGTAACT -GTTAAGCGCTTGCATGATCGCGGGCGTTCCGGCGCATGGGCATTTCTGATGATTGTGGCGTGGATGCTGC -TGGCGGGTAACTGGGCGATTTTACCGGGTGTCTGGCAATGGGCGGTGGGGCGTTTTGTCCCGACGTTGAT -TCTGGTGATGATGCTTATCGATCTTGGTGCGTTTGTTGGCACACAAGGCGAAAATAAATATGGTAAAGAT -ACTCAGGATGTGAAGTATAAAGCCGACAATAAATCAAGTAATTAACCTTTAATATATCTCTTACTGCTAT -TTTTTTCCGGGATTGTTATTTCCACGATGCAAATGACAATACCCGGAAAATCCTTCTGAACTCTTCACCT -TAAGCAATATCAAAAAAAATGGTAATCCATAAGATCATTACTTGTTTGTTCTTCCCTTAACGGCGCATTA -TTCTTAAGTCGTAATCGACAGAGAGGCGAATATACAGAGGTGCCCTATGAAAGATGTCGTAGATAAATGC -AGTACTAAAGGATGTGCGATTGATATCGGTACGGTGATTGATAACGACAACTGTACCAGTAAGTTTTCGC -GCTTTTTTGCCACCCGCGAAGAAGCAGAGTCTTTTATGACCAAACTGAAAGAGCTTGCCGCCGCTACATC -CTCTGCAGATGAAGGGGCCAGCGTGGCCTATAAGATTAAGGATCTGGAGGGGCAAGTTGAGCTTGATGCG -GCCTTCACTTTCTCATGCCAGGCCGAGATGATTATTTTTGAGTTATCACTGCGTTCGTTAGCTTGATGGA -GTTGCTTTAGAAGGAGTTAAACATGGCTTATAAACACATTGGCGTGGCAATTTCCGGGAATGAAGAAGAT -GCCTTACTGGTGAATAAAGCCCTGGAGCTCGCCAGACATAATGACGCTCACCTGACGTTAATTCATATTG -ATGATGGCTTAAGCGAGTTGTATCCGGGTATCTACTTCCCTGCAACAGAAGATATTCTTCAATTGTTGAA -GAATAAGTCGGATAACAAGCTGTATAAACTGACGAAAAATATTCAATGGCCGAAGACAAAACTGCGTATT -GAACGCGGAGAAATGCCGGAAACACTGCTGGAAATTATGCAAAAAGAGCAGTGCGACCTCCTTGTCTGTG -GTCATCATCACTCATTTATCAACCGTTTGATGCCGGCATATCGCGGGATGATCAATAAGATGAGTGCGGA -TTTGCTCATCGTGCCGTTTATCGATAAGTAACCGCTTACCAGTAATGCTCCGCTGTCATATGGCCCGGTC -GGCGACGTAAATGTTTCGTCATCTGCCGGGTCTCTTTCAGCAACTGTTGTGTATCGCGCACCATCTGTGG -ATTGCCGCACAGCATCACATGGCTGGTTTCTTTATTCATCGGCAGGCCAATCGTGCTTTCCAGTTCCCCA -CTTTCAATTAATGCCGGTATCCGTCCGGTGAGCGACCCCGCTGCCGTTTCCCGACTGACCACCGTCTGAA -TGCGCAGTTTTCCTTCGTAGCGTTTTTCCAGTTCCTGCATCAGTGGCAAATAGCTTAAGTCGGCGGCATA -ACGTGCGGCGTGCACCAGGACCAGATTTTTGAAGCGATCTAAATCTTTACCTAGTTGCAGAATCGATAAA -TAAGGGCCAATCGCTGTACCGGTTGCCAGCATCCATAGCGTTTCGCAGTGCGGCACTTCATCGAGCACAA -AGAATCCTGCCGCTTCGCTAACCACCTGCACTTCATCGCCTGGTTTCAGTGCCGCCAGTCGTGGGCTTAA -TTTGCCATCGGGGACGGTGACCAGGTAAAACTCCAGATCGGGATTATCGGGCGAGTTTACATAGGAGTAG -GCGCGCTGGACGCGTTCGCCGTCGATTTCAAGGCCAAGCTTGGTAAATTGCCCGGCGGTAAACGGAAGCA -CGGGGGCGTGAACGGTGAGACTAAACAGGGCGTCGGTCCAGTTCTGCACTTTAGTGACTTTGCCTGTTAC -CCAATCAGCCATGTTTTTCTCCTGTTTTGATTGACTTGCCTTATCTTCGTTCTCCGAACAAAAAAATTCC -AGTCCCGAAGGACTGGAAGGCTCAATCGATCAAATCAATCAGAGGATGTGCACCTGCATTTCCGGGTCTT -TGCGATCCAGATAGTGGATGGACTGAATGCGGCGAATGGTGCGTGACTTGCCGCGGATCAGCAGCGTTTC -GGTAGTCGCGATATTGCCTTTGCGGCTAATGCCTTCCAGCAGATCGCCTTTGGTAATACCGGTGGCAGAG -AAGATGACGTTATCGCTGCGCGCCATATCGCCCAGGCGCAATACTTTACCGGCTTCGATGCCCATCGCTT -TGCAGCGTGCCAGCTCCTGCTCGCCAATGCGACGATTCTCTTCGTTGTCGCCTTTGACGTCATGACGCGC -CAGCAGACGACCGTTCATGTCGCCATCTAATGCGCGGATCACCGCCGCAGAAACTACGCCTTCCGGCGCG -CCACCAATACCGTACAGCACGTCAACTTCGCTGTCTGGCATACAGGTGAGAATTGAGGCCGCAACGTCGC -CGTCCGGAATAGCAAATACGCGTACGCCGAGTTGCTGCATTTCAGCGATAACGGCATCGTGGCGTGGTTT -AGCCAGAATCGTTACCGTCAGTTCGCTCAACGGTTTGCCGAGCGCCGCCGCTACATTGCGCAGGTTATCC -GCCAGCGGCAGGTTCAGATCAATGGTGCCTTTGGCTCCCGGCCCGACAATCAGCTTCTCCATATACATAT -CCGGCGCATTGAGGAAGCAGCCTTTATCGCCTACTGCCAGCACCGCCAGCGCGTTAGCCTGGCCCATCGC -CGTCATGCGCGTGCCTTCAATCGGATCAACAGCAATATCTACCGCGTCGCCGCGACCAGTACCGACTTTT -TCACCAATGTAGAGCATCGGTGCTTCGTCGATTTCACCTTCACCAATGACGATGGTGCCGTCAATGTTGA -CCTGGTTGAGCATAATACGCATGGCGTTTACCGCCGCGCCGTCCGCGGTGTTTTTATCGCCGCGTCCTAA -CCATTTGTAGCCAGCCAGCGCCGCTGATTCGGTGACGCGGGAAAATTCGATGGCAAGTTCTCGTCTCATA -GCAAACTCTAAGCAGTAAGGAATGGCGCGAAGTGTAGCACAGGGGAAGGGAGGGATTATTGATGTGTGCG -GGGTTGCCCCCGCACGTTTCGGGACTACCGGATGCGGCATAAACGCTTCATTCGGCATTTACATTATTCG -TCGTGTTCTTCCCACGCCATCGCGCGTTTAACCGCTTTTTTCCAGCCTGCGTAACGGTAATTACGCTCAG -TGGTTTCGATGCCTGGACGGAACTCGCGCTCAATCACCGCTTTCTCTTGCAGCTCGTCGAGGTTCTGCCA -GAAGCCAACCGCCAGGCCTGCGAGATAGGCCGCACCCAATGCGGTGACTTCGCGCACTTCCGGGCGCTCA -ACGCGGGTGCCGAGAATATCGGACTGGAACTGCATCAGGAAATTGTTTGCTACTGCGCCACCATCCACGC -GCAGGGCGTGCAGACGGATACCAGAGTCGGCCTGCATCGCTTCCAGCACGTCACGCGTCTGATAAGCAAT -AGACTCCAGCGTCGCGCGTATAATGTGGTTAGCGTTCACCCCACGAGTCAGACCGAAAATCGCCCCGCGC -GCATACGGGTCCCAGTACGGCGCACCCAGCCCGGTAAATGCCGGAACCACATACACACCATTGGTGTTTT -GCACTTTGGTGGCGAAATATTCGGAATCGTAGGCGTCGTTAATCAACTTCATTTCATCGCGCAGCCACTG -AATGGATGCGCCTGCCATAAACACCGCACCTTCCAACGCATAGTTCACTTCGCCAGTCGGGCCGCAGGCG -ATGGTGGTCAGCAGGCCGTTTTCTGATTTCACCGCTTTCTCGCCAGTGTTCATCAGCATAAAGCAGCCAG -TGCCATAGGTGTTCTTCGCCATCCCTTCTTTCACGCACAACTGACCAAACAGCGCGGCCTGCTGGTCACC -GGCGATCCCGGAGATTGGAATACGCGTGCCGCCTTTGCCGCCAATGTTAGTCTGACCGTATACTTCGGAA -GAACGACGCACTTCTGGCAGCATCTCGCGCGGAATATCCAGCACTTCCAGCATTTTGTCGTCCCAGTCCA -GGGTATGGATGTTGAACAACATGGTACGAGAGGCGTTGGTGTAATCGGTCACATGGACACGGCCCTGAGT -CATTTTCCAGATAAGCCACGTATCAACCGTACCAAACAGCAATTCACCACGACGTGCACGCTCGCGAGAG -CCTTCCACATGGTCGAGGATCCACTTCACTTTGGTGCCAGAAAAGTACGGGTCAATCACCAGACCGGTAT -TGCTGCGGATATAATCTTCTAAACCGTCACGTTTTAAATGCTCGCAGATTTCTGCGGTACGACGGCACTG -CCAGACAATGGCGTTATAGATAGGCTTGCCGGTTTCTTTTTCCCAGACAATAGTGGTTTCACGCTGGTTC -GTAATACCGATAGCTGCAATTTGATCGGAACTGATATCGGCTTTCGCCAGCACTTCTACCAGCGTGGAGC -TTTGGGTGGCCCAGATTTCCATTGGGTCGTGTTCTACCCAACCTGGTTTTGGGTAGATTTGCTCAAATTC -GCGCTGCGACACGCTAATGATATTGGCATCGTGATCCATTACGACCGCGCGGGAGCTGGTGGTGCCCTGG -TCGAGCGCAACGATATATTTTTTTTCAGTCATGTTTAATTGTCCCGTAGTCATATTACAGCGAAGCTTTT -TGTTCTGAAGGAGTTGTGGTTTCCTTTTCTTCCACAACACAGATATCGCAAGGCAAATGGCGACCAATCA -GTTTGCGGTAGGCAAATGCACCTACAATCGCGCCAACGATAGGGCCGAAAAGCGGCACCAGGAAGTAAGG -AATGTCTCTGCCGCCGGTAAAGGCGACATTGCCCCAGCCCGCCAGCCAGGCAAAGACTTTCGGACCGAAG -TCACGCGCTGGGTTCATGGCAAAACCTGTCAATGGGCCCATAGATGCGCCAATGACCGCAATCAGTAGAC -CAATCAGCAAGGGAGCCAAAGGGCCGCGTGGTACACCGTTGCCATCGTCCGTTAACGCCAGGATCAGCCC -CATCAGAATAGCGGTAATCACCATCTCAACTGCGAAAGCCTGCACAAAATTGATATGAGGATTAGGGTAA -GTAGAGAAAGTGCCAGCCAGATCAACACTTTCAACGCTGCCGCGAACAATGTGATGAGTCTGCTCGAAGT -CGAAAAATAAATTGTAGTAAAGCCCGTAAACTAAAGCCGCAGCACAGAAAGCGCCGGCAACTTGTGAAAC -GATAAAAGGAATAACTTTGCGCTTGTCGAAACAGGCAAACAGCCACAATGCAATGGTAACAGCGGGATTA -AGATGCGCGCCGGAAACCCCTGCGGTCAGGTAGATGGCCATTGCCACCCCCAGTCCCCAAATGACACTGA -TTTCCCACTGACCAAAAGACGCACCAGCGACTTTTAGTGCTGCAACGCAACCCACACCGAAGAAAATCAA -CAACCCGGTACCGAGGAATTCAGCAATGCACTGGCCTTTCAAGGTTGATGTTTGACTCATAATCGGATCC -TGAAGAGTTAATGTTTGTTGTATGCGTGAAAGTCACGGACCTCCACGATGCTTGTAGGCATGCTGTAAAC -TTATCGTTAACGAGCAAAAACGAGAAATATCGAACTTAAAATGTGTGTGCCTCGTCATAAAATGAGCGTT -ATCGCGCCATTTATTCCATCTGATTGTACATGATGCATGTTTGTTAGATCATTCGCGCAACAAATTTATT -AACATTTTCGATTGATGTGGATTATGTCACCAGGAGAAGGATGAAAAGTGTGGCAAACCGTAATCTGCAA -GGCGTGCCGCTGGACAGCGATGGCGCGGCTTCATACAATCGGAGCTAACTAAAGTGCGCTCGTATTTATT -AAGGCGTCACCGGTAATCGGGACGAGGATTTTTATCCATCAACGCCTTGCAATTCAGGAGAGGTATGACA -ATGTCATTAGAAGTGTTTGAGAAACTGGAAGCAAAAGTACAGCAGGCGATTGATACCATCACTCTGTTGC -AGATGGAAATCGAAGAGCTGAAAGAAAAAAACAACTCACTGTCGCAGGAAGTTCAAAATGCCCAGCATCA -GCGCGAAGAGCTGGAGCGTGAGAACAACCATCTGAAAGAACAGCAGAACGGCTGGCAGGAACGTCTGCAG -GCCCTGCTGGGTCGCATGGAAGAGGTCTGATTACGCTTCATCTTCCGCGTAATTTCTTTACTGTGTAGGC -CAACAGGTAACGCAGAAAAAAGGCACCTTGCGGTGCCTTTCTTATCATTCAATATCCAGCGGATCTTCTG -AAAGAATAATCCCGGTATTGTCGGCATAAAGATGGTCGCCGGAGAAGAAGGTGACACCGCCAAAATTGAC -GCGGACATCGCTTTCGCCAATGCCTTCGCCAGCGGCACCAACCGGAATTGCCGCCATCGCCTGGATGCCG -ATATCCAACTCTTCCAGGTCATCTACCTGACGCACCGCGCCGTAAATGACCAGACCTTCCCATTCATTTT -GTACTGCCAGACGCGCCAGTTCAGCATCGACCAGTGCGCGACGAACAGAACCACCGCCATCGACGACAAG -AACACGACCACGGCCATTCTGTTCGAGCAGATCGTACAGCAACCCGTTGTCCTCGAAACATTTTACCGTG -ATTATTTGTCCGCCAAACGACGCCCGTCCGCCAAAGTTGGAGAACAGCGGTTCCACGACGTTAACATCTT -CTTGATAGATGTCACAAAGCTCGGAAGTATCGTATTTCATAGGCTTAACATTCAGTTGCTGCGAGAATTT -TCAGTATATCGCGCTATGTGGGCTGTTGGCAAAATCATCAATTGTTAATTGATATTTGTCAGTTATGCTG -CCCACTGGCTTAGGAATATCCCTAAAACAAACAGCAGGTTAGTCAGTAACGCTCCCTTGACAGTACGTTC -CAGCATTGGTCGCATCGCCACCGGGTCCATTTCCCGCATCACATAACGGGCTTGCTTCACCAGTAATGGT -GCCGCCAGCAGGAACAGCCAGCCCCACAGGCTATGCAGCGAAAAGAGATTAAACAGCGCCAGACACACCA -GCGAGCCCATCAGCAGGCAGGCATGATAACGACGCGCGTTCACTTCACCTAAGCGCACCACCAGCGTGTT -TTTGCCATTTTCGCGGTCGCTATTGATATCACGCAGGTTATTAATATTCAGTACTGCCGTTGCCAGCAGG -CCGCATGCGGTCGCCGGAAGGATCAGTGCCGGAATCAATGTATGAGCCTGTAAATACCAGCTCCCCATGA -CACTCAACCAGCCAAAGAAAACCAGTACGGAAATATCACCCAGACCGATATAACCATAAGGACGATTGCC -CACGGTGTAGGTGATAGCGGCAATGATCGACAACCCGCCAAGAATCAGGAAACCGACAAAATCGGCCAGC -GTATGGCATGCCACTGCAACCAGTGCCAGCCCGGAGAGACAGATGAGCACGACGGTAATAATGAGCGCCC -GTTTCATCTCTTGCTGGGTAATGACCCCTTTTTGCATGCCGCGTAGCGGCCCAATGCGGTCAGGTTTATC -GCTGCCTTTTACCGCATCGCCGTAATCATTGGCGAGGTTAGAAAGGATCTGTAATAGCCCGGCGGTAATT -AGTGCCAGCAGGGCGACCAGCGGATCGAAGTGACCTTGCCACCATGCCAGCGCTGTCCCGACGATAATTG -CAGCAAAGGCGAGGGGGAGGGTTTTAGGTCGTAAACTTTCCAGCCACGCCTGAGTTCGGCTAATTTGTTG -TTCAGTCATAATACGCGCCAATAAAAATGGGGCCTTTCAGCCCCATCAAACAATGATGAAAATGATTGAA -CGCGATTATAGGATAAAACGGCTCAGATCTTCATCTGCCACCAACGCATCCAGATGTTTGCTCACATAAT -CTGCGTCAATAGTGATATTTTGACCGCTTAAATCGCTGGCGTCGTAGGAAATCTCTTCCATTAAACGCTC -CAGAACAGTGTGTAAACGACGAGCACCGATGTTTTCGGTAGATTCGTTCACCTGCCATGCCGCTTCCGCG -ATGCGTTTAATACCGGAGTCGGTAAACTCGATATTTACGCCTTCAGTCGCCATCAGTGCTTTGTACTGCA -CGGTGATAGAGGCATTCGGCTCGGTCAGAATACGCTCGAAGTCGCTGGTGGTCAGCGCCTGCAGTTCAAC -GCGGATTGGCAGACGACCTTGCAGTTCCGGGATCAGGTCAGACGGTTTCGCAATCTGGAACGCGCCAGAA -GCGATAAACAGAATGTGGTCAGTTTTGACCATCCCGTGTTTGGTGGAAACGGTGCAACCTTCTACCAGCG -GCAGCAGGTCACGCTGAACGCCTTCACGAGAAACATCCGGACCGGAAGACTCGCCGCGCTTACAGATTTT -GTCGATTTCGTCGATAAACACGATCCCGTGCTGCTCAACAGCGTCGATAGCGTCTTGCTTCAGCTCTTCC -GGGTTCACCAGTTTCGCCGCTTCTTCTTCAATCAGCAGCTTCATGGCGTCTTTGATTTTCAGCTTACGCG -CTTTTTGCTTCTGGCCGCCCAGGTTCTGGAACATGGACTGCAGCTGGCTGGTCATCTCTTCCATGCCCGG -AGGAGCCATAATTTCAACGCCCATCGGTGCTGCGGCAAGATCGATCTCGATTTCTTTGTCATCAAGCTGG -CCTTCACGCAGTTTTTTGCGGAATGCCTGACGAGCAGCGGACGGTTCCTGCTGCTGTTCGGTCTGTCCCC -AGTTGTTTTTAGCAGGTGGGATCAGCACGTCGAGAATACGTTCTTCTGCCAGTTCTTCAGCGCGATAACG -GTTTTTCTCGATAGCCTGGACGCGTACCATTTTCACGGCGGCATCGGTCAGATCGCGAATAATAGAATCC -ACTTCCTTACCGACGTAGCCCACTTCGGTGAATTTGGTCGCTTCAACTTTGATGAACGGCGCATTCGCCA -GCTTAGCCAGACGACGGGCGATTTCAGTTTTACCGACACCGGTCGGGCCGATCATCAGGATATTTTTCGG -GGTCACTTCATGGCGCAGCTCTTCGTTGAGCTGCATGCGACGCCAGCGGTTACGCAGAGCAATCGCCACA -GAACGCTTGGCGTTGTCCTGGCCGATGATGTGCTTATCCAGTTCGCTGACGATTTCGCGTGGGGTCATTT -CAGACATGGGAGATCCTTACGCTTTGTAGCTTAATTCTTCGATGGTGTGGAAATGGTTGGTATAGATGCA -AATGTCGCCTGCAATATCCAACGCCTTTTCAGCAATTTCACGGGCGCTAAGTTCAGTGTTTTCTAACAGC -GCGCGCGCCGCAGCCTGGGCGTAAGGGCCGCCGGAGCCGATAGCAATAAGATCGTTTTCTGGCTGCACCA -CGTCACCGTTACCGGTGATGATAAGCGATGCAGTTTCATCCGCGACTGCCAGCAGTGCTTCAAGTTTGCG -CAGCATGCGATCGGTACGCCAGTCTTTTGCCAGCTCAACGGCGGCTTTGACCAGATGGCCCTGATGCATT -TCCAGTTTACGTTCAAACAGTTCGAACAGCGTAAAAGCATCCGCAGTACCGCCCGCAAAGCCCGCGATGA -CTTTGTCGTTGTACAGACGGCGGACCTTTTTCACGTTGCCTTTCATTACGGTATTGCCCAACGTGGCCTG -ACCATCACCAGCGATGACCACATGGCCGTTACGGCGTACGCTTACTATAGTTGTCACGAGCTGACCCCTT -GGTTACGAATACAGAGTACAAACCCCGTACAAAAGTACGGGGCATAATGCAATTATAGATGGGGGGGATT -TTGAGGGTTTCAACCCCCGGCGGCGAGCCGAATGCAGTTTGTATGACCCGCCATCTTCAACCGATTGAGG -GTGCTGTCTGCGTTCTCTTTGCCTTTCACCGGGCCAATGACCACACGATTCCAGCCATTGTTGGTGGTGA -TTTTCGAGTCAAAGCCTTCGAACGCCAGCTGAGCACGTACCGTCTCTGCCTGTTCCGCGCCTCTGAACGA -ACCGCACTGCACCATCCAGCGGCGTTCGTCTTTTTTCTCCGCCGTCGGTTTTGGCGCGTCAGCGGCACGA -GCAACTGGCGCAGCTTGCTGCGGCTTCGACTGCGCAGTCGTGTGCGCAGGAGTTTGCAGCAGATCCTGGT -ACGGCTGCTGAGAAGAAGCCGGTTTAGACTGGCGCGGTTGCGCCTGTACCGGTGCGGCTTGCGACGTACG -CGTCTGCTGCTGCCAGCTTTGTTCAGTCGTACGCGACTGCTGAGCCAGGCGTTGCTGTTCCGCTAATTGC -TGCGCCTGACGTTGGCGCTGTAGCGTTTGCTGACGCTGTTCCGGCGTCTGTTCATTCCACGGAACTTCAA -CCAGCTGCGTTGGCTGCTGGCGCATATCAGCCTGCATTTGTTCAAGAAGCTGACGTTGTTCTGGTGTCAG -TTGCTCCGGCGTTTTCACTTCACCACCGGCAGAAGGTTCTGTGGGCGCACGCACTCCCGGCTGGCGACTT -TCCAGCTCTTTAATGTAGCGCCAGCGTTCTTCTGGTTTTGGTGGTAGTCCGTTTCCGGTCACTTTCTGGC -TTTGCAGCGTCTCGGACTCTTCTTTCTTGTGATGCGTAATGAAGTACAGACCACCGATAAAGGTCACAAG -AACGGCGGCAGCAATAGCGACCATAGCGGGAGAAACCGCAGGCAGATTTCGTTGCTTTTTCCGTGAGGTG -CTCTTTTTTCGCCGCGAAGGTGCCGGTTGGCTGCGGCGTACATAATCTCGTTGTGCCACTATCGTTTCGC -TGTATTTATTCGTTCGTCAGCCCGCCATGTTACTTAAGCGGCGGGCCTTTGACCAGTCACGGCAGTCTTA -AAGGTTTACTTTAAGGTAACGCGCGTGTTGATCCCCGGATGATAAGTTCGCAGTCCATTAAACGAGAGCC -ACTGCCAACGTGTTGCCCCTGCATTTGATCAAGCAATAACAGCATAGCTTCCCGACCGATTTCGTAACGC -GGCTGCGCGATGGTTGTCAGCGGCGGATCACAAAATTGCGTCAGGTCGATGTTATCAAAACCGATTATGG -AAAGGTCTTCCGGGACTTTCAGCCCCTGGCGTTTTGCCTGAGAAAGTGCGCCGAGCGCCATCACATCGCT -ATGGCAGAAGACAGCAGTAGGCGGTTGTGGAAGATCAAGCAGCTGCTGCATCGCTTTGCTTCCGGCTTCG -AAGGTGAAGTCGCCACGGGCGATGTATTGCGGATCAACCATAATGCCGCAGCGACGCAGCGCCTGAACAT -AGCCTTGCAGGCGGTAGTGACACAGCGGCATCTCTTCGGGACCGGCTATACAGCCAATCCGTTTATGCCC -TTGCTCATATAAATAATTTACTGCATCAAATGCGGCGGTCAGATTGTCGATATGAACTGTAGGCAGCTCC -AGCTCCGGTGCAAATTCGTTCGCCATCACCATCGGCGGCAGATTACGCTGTTCCTCAATGCTGGCATCAA -ACGGCAGCCTTGAACCCAGCAACAACATGCCATCAATTTGCTTGGTGATGATCAAATCGATAAAGGTTTT -TTCCTGCTGATTTTGATGCGCACAGTCGCCAATCAGCACCAGATATCCGTGATTTGCCGCCGTAACTTCG -ATACCGCGAATAATTTCGCTAAAGAAGGGATCGCAGATATCCGGGACAATCACCAGAATGGTGCGGGATT -CATTACGCTTGACGTTGCGCCCCATAGGCTGCGGTAAATAACCCACTTCCCGGGCCGCTTTTTCAACCCG -ATTACGGGTGGCCTGGGAGACTTTATCGGGATTCATTAATGCTCGGGAGACGGTCGCTGTAGAGACTTTT -GCCTTGAGGGCAACGTCTTTCATGGTCGCGGCAGTTTCCTGCTTCTTCGCTTTCACACTCACTCCTCGCC -TGGCACGTCAGGCGTACTACATCCATGTTTACTTCACATCGGCAACATTTTTAGCAGATAGCGCGTGAAA -ACGGTTACAGAATTTTCATGAAAAGTGTGATGAATATTGAATTTTTCGATCCGCCTCGCATCGTGAGCGG -TTTAACCCTCAATCGGATCAACATCCAGCACCCATTTCACCTTACGGGAATCCGGTATTGTATTGATGAG -CGCCAGCGTACCGTTAATGATGTGTTGCAAGCGCACGCGGGAAGGGTGCTGCAACAATATCTGCCAGCGC -CAGCGACCGCCACGTTTAGGTGCCAGAGCCGGAACCGGACCGAGAACCCACAGTTTCTCGTCTGCCAGTG -GGCTGGAGAGGATCAGATTACGCAGTTGTTGCAGGAACAATGGCGCGTGCTGATTGTTATGATCTTCCGC -ACGCACAATCACATGGCTGGTCCACGGCGGTAGCTGCATCATTCGCCGCTCAGCCAGCGCCTGTTCGGCA -AAGGCGTCGTAGCCTTTATAGAGCAACGTTTGCAACAGAGGATGTTCCGGATGGTGCGTTTGCAGCACCA -CTTCGCCCTGTTTACCCGCACGCCCGGCACGACCGGCGACCTGGGTGTAAAGCTGAGCGAAACGCTCTGC -CGAGCGAAAATCGGCAGAAAACAGCGCGCCGTCCACGTCCAGTAATGCAACCAGCGTCACATCCGGGAAA -TGGTGACCTTTCGCCAGCATTTGTGTACCAATCAAAATCCGCGCGCCGCCGCGATGTACTTCTGCCAGTT -GCTGTTCCAGCGCCCCTTTGCGGCTGGTGGTATCGCGGTCGATACGAGAAATGGGCACGCCGGGGAACAA -CGGCGCGAGCGTCTGTTCAAGCTGTTCGGTGCCCAGCCCCACGGGGACCAGGTGCGTGGAACCGCAGGAA -GGGCACTGGCGCGGCACCGGACGCTGACTGTCACAGTGGTGGCAGCGCAGATGGTGCTGCGCCTGATGCA -GCGTGTAGTAGTGATCGCAACGTGGGCATTCGGCAATCCAGCCACAGTCGTGGCACAGCAGTGCAGGCGC -AAAGCCACGGCGGTTAAGAAAGAGAATGACCTGGTTATCAGCCTGTAAATGCTGGCGCATACGAGTGATT -AACGCCGGAGCCAGACCTGCCTGCACCTTCTGACCTTTTAAATCCAGCACATGTTGAATTGCCGGACGCG -CATTCCCTGCCCGACGGGTCAGGCGCAGCAGGCGGTATTTTTTCTGCTGGACGTTGCATAACGTTTCCAG -CGCGGGCGTTGCGGAGCCAAGAATAATCGGGATTTGCTCGCTGTGCGCACGATACACCGCCAGGTCGCGG -GCATGATAGCGCCAGCCTTCCTGCTGCTTGTAGGAGCTGTCGTGCTCTTCATCAATGACAATCACGCCGA -GATTTTTAAACGGCGTAAACAGCGCGGAGCGGGTGCCGATCACAATCGCCGCCTCACCATTTTTCGCTTT -CAGCCACGCCGAAAGACGCTCGCTGTCGTTCAGGCCGGAATGCAGAACTTCCACGGGGGCATTAAAACGT -TCACGAAAACGGGCGATAGTTTGCGGTGTCAGGCCGATTTCCGGCACCATCACCAGCGCCTGTTTGCCCT -GAGCGAGCACGTTTTCCAGTACGCTGAGATAAACCTCCGTTTTACCGGAACCGGTAACGCCCGCCAGCAG -CCAGGCAGAAAAAGTATCTGCCGCGCTATGAATTGCGCCAACGGCGGTGGCCTGTTCGGTATTCAATCGC -AACCGCTCACCAGAAACGGCATAGTTCGTTCGCCAGTCGCTAAACTCTGGTGTTTCACTTGCTAAATCAC -ACAGACCTTTTTTGCGTAGCGCCTGCAACGCGGCATCATTAAATTCGAGCGTGGCGACCTGGTCGCGCCA -GATTTTGCCTTGCCGTAACGCCGCCAGCGCCTGTTGTTGCTTGGGGGAGCGTTTCAGGCTGTTCAGATCC -ACCGCCTGGCCTTGTTCAGTGGCAAACCAGTACCACATCGGCGCGTTCGCCGCAGGCCGCCCCTGGCGTA -GTAAAATCGGCAAGGCATGAAACAGCACATCGCCAATCGGATGATGATAGTAATCTGCCGCCCATAGCAG -CAATCGCCAGACGGAGTGAGTAAACACCGGCTCACTATCCAGCACTTCGACTACCGCTTTTAGCTCATTG -AGCGGCAGTTCGCTGGCATCGCTAACTGATACCACAATCCCGATGCGCTCCTGCTGTTTGCCAAACGGCA -CGCGCACGCGACACCCAGCTTTAACCGTCATGCCTTCTGGCAGCAGATAGTCAAAGGTACGAGGAAGCGG -AACGGGCAAGGCAACGTGGGCAACGGGCATAGCATCATCCTGACTTGAAATTCGGTGGGTTAGTATACAC -ATTGCCGTAGAAGAGTGCGGATCAGTTTGCATACGCTGGTTAATTTCTGTATGATTTCGCGCCTTCGTAC -GAAATGATCGTATTGAAGCTATACTTTTAACATCGCGTGGTGTCTGGCGTTAGGGCTGGAAGAGCGACGC -GGCCTTAAACCGAGGTTTTCCCATGAAAAAAGATATTCACCCGAAATACGAAGAAATTACTGCTAGCTGC -TCTTGCGGTAACGTAATGAAAATCCGCTCCACCGTTGGTCATGACCTGAACCTCGACGTGTGCAGCAAGT -GCCACCCGTTCTTCACTGGCAAACAGCGTGATGTTGCTACCGGTGGCCGTGTTGACCGCTTCAACAAGCG -TTTCAACATCCCGGGCAGCAAATAAGACCGGATTTCCGAAAAAAGCGCCGCACGGCGCTTTTTTTGTGCC -TGAATTTTGGTCGTATTACCACGAAAACAGCGGCCATTCTTTGGCGACCGTGGTGAGTTGTGGCGCATCG -AAAACGGCTTGTGGCGAGACCACCGTTTCCTCAAGCGGAATATTCTTGCCGTAACGTTCTTTGAGCTTTG -CCTGAACTTGTGGGCTGCTCAGGTCGAACTCTTTCAACTTCTGCTGCTCGCCCACGCGCATTCCCAGCGC -GTTCTGGTAAACCTTCCACACCACTTCCGAACAGTACTGGCGATCGTCGCTCCATGAGAAGCTGAAATCA -TACGGTTTACCGAGATAACGTTTTGCCGTTTGCGCCAGTTTTTGCTGTTGTTCAACACTCAGTCCGCCTT -CAACGCGGCGAACAACGTATTTGCCCTTTTCACCATGGGCGATCCACTGCTTGAGCGGGGTGTATTTCAC -CGGGCCGACTGCTTCAAAAACGTAGGGCTTTTTGTTGCGTATCACCAGCATACCGGTGTGGCTATAATCG -GTATGGGTCGCCAGTTGGATCGCTTTACTTTGCGATGAGCGAGAGATCTGAAAGATGATGTCGCCGGTTT -GTGGCTGCCAGGCAAAGGCAGGTACAGAAACCAGCAGGCTGAGGATCAGCAGCCTGTTTTTCATAGTTAA -ACGTCCATGTATAAAAAGCGGTGGGTCGCAGACAACGTGCTCGTTGTTTATGCCGGATGCGGCGTGAACG -CCTTATCCGGCCTACAAGTTCGTGCAAATTCAATAAATTGCAATATGACGTAGGCCTGATAAGCGTAGCG -CATCAGGCGATTCCACTCCGCGCCGCTCTTTTTTGCTTTAGTATTCCCACGTCTCCGGGTTAATCCCCAT -CTCACGCATGATCTCTTTTGCCGCTTCCGGGATTTCGTCGCTGCGCTCTTTACGCAGATCGGCATCATCC -GGCAAAGGTTGCCCGGTAAAGGCATGCAGAAACGCTTCGCACAGCAGCTCGCTGTTGGTAGCGTGACGCA -GGTTGTTCACCTGACGACGCGTGCGTTCATCGGTGAGGATTTTTAACACCTTAAGAGGAATGGAAACCGT -AATCTTTTTGACTTGTTCACTCTTCTTGCCGTGCTCAGCGTATGGGCTGATATATTCGCCGCTCCATTCA -GCCATGAGATACTTAATCCTCTTCGTCAATAAATTGAGACCAGACCACACAGTTGATGTGGGTACTGACC -GTAAACCCGCATAGTTTACCGTACAGGCGTTACCGTGACATCGTGTAATGCACCTGTCGGCGTGATAATG -CATATAATTTTAACGGCTATTTGGGATTTGCTCAATCTATACGCAAAGAAGTTTAGATGTCCAGATGTAT -TGACGTCCATTAACACAATGTTTACTCTGGTGCCTGACATTTCACCGACAAAGCCCAGGGAACTTCATCA -CATGACGCGTAAACAGGCCACCATCGCAGTGCGTAGCGGGTTAAATGACGACGAACAGTATGGTTGCGTT -GTCCCACCGATCCATCTTTCCAGCACCTATAACTTTACCGGATTTAATGAACCGCGCGCGCATGATTACT -CGCGTCGCGGCAACCCAACGCGCGATGTGGTTCAGCGTGCGCTGGCAGAACTGGAAGGTGGTGCTGGTGC -AGTACTTACTAATACCGGCATGTCCGCGATTCACCTGGTAACGACCGTCTTTTTGAAACCTGGCGATCTG -CTGGTTGCGCCGCACGACTGCTACGGCGGTAGCTATCGCCTGTTCGACAGTCTGGCGAAACGCGGTTGCT -ATCGCGTGTTGTTTGTTGATCAAGGCGATGAACAGGCATTACGGGCAGCGCTGGCAGAAAAACCCAAACT -GGTACTGGTAGAAAGCCCAAGTAATCCATTGTTACGCGTCGTGGATATTGCGAAAATCTGCCATCTGGCA -AGGGAAGTCGGGGCGGTGAGCGTGGTGGATAACACCTTCTTAAGCCCGGCATTACAAAATCCGCTGGCAT -TAGGTGCCGATCTGGTGTTGCATTCATGCACGAAATATCTGAACGGTCACTCAGACGTAGTGGCCGGCGT -GGTGATTGCTAAAGACCCGGACGTTGTCACTGAACTGGCCTGGTGGGCAAACAATATTGGCGTGACGGGC -GGCGCGTTTGACAGCTATCTGCTGCTACGTGGGTTGCGAACGCTGGTGCCGCGTATGGAGCTGGCGCAGC -GCAACGCGCAGGCGATTGTGAAATACCTGCAAACCCAGCCGTTGGTGAAAAAACTGTATCACCCGTCGTT -GCCGGAAAATCAGGGGCATGAAATTGCCGCGCGCCAGCAAAAAGGCTTTGGCGCAATGTTGAGTTTTGAA -CTGGATGGCGATGAGCAGACGCTGCGTCGTTTCCTGGGCGGGCTGTCGTTGTTTACGCTGGCGGAATCAT -TAGGGGGAGTGGAAAGTTTAATCTCTCACGCCGCAACCATGACACATGCAGGCATGGCACCAGAAGCGCG -TGCTGCCGCCGGGATCTCCGAGACGCTGCTGCGTATCTCCACCGGTATTGAAGATGGCGAAGATTTAATT -GCCGACCTGGAAAATGGCTTCCGGGCTGCAAACAAGGGGTAAAAATGAGTGTGATTGCGCAGGCAGGGGC -GAAAGGTCGTCAGCTGCATAAATTTGGTGGCAGTAGTCTGGCTGATGTGAAGTGTTATTTGCGTGTCGCG -GGCATTATGGCGGAGTACTCTCAGCCTGACGATATGATGGTGGTTTCCGCCGCCGGTAGCACCACTAACC -AGTTGATTAACTGGTTGAAACTAAGCCAGACCGATCGTCTCTCTGCGCATCAGGTTCAACAAACGCTGCG -TCGCTATCAGTGCGATCTGATTAGCGGTCTGCTACCCGCTGAAGAAGCCGATAGCCTCATTAGCGCTTTT -GTCAGCGACCTTGAGCGCCTGGCGGCGCTGCTCGACAGCGGTATTAACGACGCAGTGTATGCGGAAGTGG -TGGGCCACGGGGAAGTATGGTCGGCACGTCTGATGTCTGCGGTACTTAATCAACAAGGGCTGCCAGCGGC -CTGGCTTGATGCCCGCGAGTTTTTACGCGCTGAACGCGCCGCACAACCGCAGGTTGATGAAGGGCTTTCT -TACCCGTTGCTGCAACAGCTGCTGGTGCAACATCCGGGCAAACGTCTGGTGGTGACCGGATTTATCAGCC -GCAACAACGCCGGTGAAACGGTGCTGCTGGGGCGTAACGGTTCCGACTATTCCGCGACACAAATCGGTGC -GCTGGCGGGTGTTTCTCGCGTAACCATCTGGAGCGACGTCGCCGGGGTATACAGTGCCGACCCGCGTAAA -GTGAAAGATGCCTGCCTGCTGCCGTTGCTGCGTCTGGATGAGGCCAGCGAACTGGCGCGCCTGGCGGCTC -CCGTTCTTCACGCCCGTACTTTACAGCCGGTTTCTGGCAGCGAAATCGACCTGCAACTGCGCTGTAGCTA -CACGCCGGATCAAGGTTCCACGCGCATTGAACGCGTGCTGGCCTCCGGTACTGGTGCGCGTATTGTCACC -AGCCACGATGATGTCTGTTTGATTGAGTTTCAGGTGCCCGCCAGTCAGGATTTCAAACTGGCGCATAAAG -AGATCGACCAAATCCTGAAACGCGCGCAGGTACGCCCGCTGGCGGTTGGCGTACATAACGATCGCCAGTT -GCTGCAATTTTGCTACACCTCAGAAGTGGCCGACAGTGCGCTGAAAATCCTCGACGAAGCGGGATTACCT -GGCGAACTGCGCCTGCGTCAGGGGCTGGCGCTGGTGGCGATGGTCGGTGCAGGCGTCACCCGTAACCCGC -TGCATTGCCACCGCTTCTGGCAGCAACTGAAAGGCCAGCCGGTCGAATTTACCTGGCAGTCCGATGACGG -CATCAGCCTGGTGGCAGTACTGCGCACCGGCCCGACCGAAAGCCTGATTCAGGGGCTGCATCAGTCCGTC -TTCCGCGCAGAAAAACGCATCGGCCTGGTATTGTTCGGTAAGGGCAATATCGGTTCCCGTTGGCTGGAAC -TGTTCGCCCGTGAGCAGAGCACGCTTTCGGCACGTACCGGCTTTGAGTTTGTGCTGGCAGGTGTGGTGGA -CAGCCGCCGCAGCCTGTTGAGCTATGACGGGCTGGACGCCAGCCGCGCGTTAGCCTTCTTCAACGATGAA -GCGGTTGAGCAGGATGAAGAGTCGTTGTTCCTGTGGATGCGCGCCCATCCGTATGATGATTTAGTGGTGC -TGGACGTTACCGCCAGCCAGCAGCTTGCTGATCAGTATCTTGATTTCGCCAGCCACGGTTTCCACGTTAT -CAGCGCCAACAAACTGGCGGGAGCCAGCGACAGCAATAAATATCGCCAGATCCACGACGCCTTCGAAAAA -ACCGGGCGTCACTGGCTGTACAATGCCACCGTCGGTGCGGGCTTGCCGATCAACCACACCGTGCGCGATC -TGATCGACAGCGGCGATACTATTTTGTCGATCAGCGGGATCTTCTCCGGCACGCTCTCCTGGCTGTTCCT -GCAATTCGACGGTAGCGTGCCGTTTACCGAGCTGGTGGATCAGGCGTGGCAGCAGGGCTTAACCGAACCT -GACCCGCGTGACGATCTCTCTGGCAAAGACGTGATGCGCAAGCTGGTGATTCTGGCGCGTGAAGCAGGTT -ACAACATCGAACCGGATCAGGTACGTGTGGAATCGCTGGTGCCTGCTCATTGCGAAGGCGGCAGCATCGA -CCATTTCTTTGAAAATGGCGATGAACTGAACGAGCAGATGGTGCAACGGCTGGAAGCGGCCCGCGAAATG -GGGCTGGTGCTGCGCTACGTGGCGCGTTTCGATGCCAACGGTAAAGCGCGTGTAGGCGTGGAAGCGGTGC -GTGAAGATCATCCGTTGGCATCACTGCTGCCGTGCGATAACGTCTTTGCCATCGAAAGCCGCTGGTATCG -CGATAACCCTCTGGTGATCCGCGGACCTGGCGCTGGGCGCGACGTCACCGCCGGGGCGATTCAGTCGGAT -ATCAACCGGCTGGCACAGTTGTTGTAATTTCAGAAATTTAATAATGCCCGGTACTCATGTTTTCGGGTTT -ATGGTTTCTAATGAAATATATTGAATTATCATAGGATTAGGCCGGATTAAGCGTTTACGACGAATCCGGC -AAGAAGCAATAAGTACATGGTTAGTTTATATTTGCAGTCCGGTTTGCTTTGCATACCGGATTTTCTTTTT -CTTACCATCCTGAAGTTTTTTCATCTTCCCTGATTTTTCCTCACCATCATTGGTCATTTTTCGGTTGACG -CCCTTCGGCTTTTCCTTCATCTTTACATCTGGACGTCTAAACGGATAGATGTGCACAACACAACATATAA -CTACAAGCGATTGATGAGGTAAGGTATGAGCTTTTTTCACGCCAGCCAGCGGGATGCCCTGAATCAGAGC -CTGGCAGAAGTCCAGGGGCAGATTAACGTTTCGTTCGAGTTTTTCCCGCCGCGTACCAGTGAAATGGAGC -AGACCCTGTGGAACTCCATCGATCGCCTTAGCAGCCTGAAACCGAAGTTTGTATCGGTGACCTATGGCGC -GAACTCCGGCGAGCGCGACCGTACGCACAGCATTATTAAAGGCATTAAAGATCGCACTGGTCTGGAAGCG -GCACCGCATCTTACTTGCATTGATGCGACGCCCGACGAGCTGCGCACCATTGCACGCGACTACTGGAATA -ACGGTATTCGTCATATCGTGGCGCTGCGTGGCGATCTGCCGCCGGGAAGTGGTAAGCCAGAAATGTATGC -TTCTGACCTGGTGACGCTGTTAAAAGAAGTGGCAGATTTCGATATCTCCGTGGCGGCGTATCCGGAAGTT -CACCCGGAAGCAAAAAGCGCTCAGGCGGATTTGCTTAATCTGAAACGCAAAGTGGATGCCGGAGCCAACC -GCGCGATTACTCAGTTCTTCTTCGATGTCGAAAGCTACCTGCGTTTTCGTGACCGCTGTGTATCGGCGGG -CATTGATGTGGAAATTATTCCGGGAATTTTGCCGGTATCTAACTTTAAACAGGCGAAGAAATTTGCCGAT -ATGACCAACGTGCGTATTCCGGCGTGGATGGCGCAAATGTTCGACGGTCTGGATGATGATGCCGAAACCC -GCAAACTGGTTGGCGCGAATATTGCCATGGATATGGTGAAGATTTTAAGCCGTGAAGGAGTGAAAGATTT -CCACTTCTATACGCTTAACCGTGCTGAAATGAGTTACGCGATTTGCCATACGCTGGGGGTTCGACCTGGT -TTATAAATAGTGTGGCTTTTGTGAAAATCACACAGTGATCACAAATTTTAAACAGAGCACAAAATGCTGC -CTCGAAATGAGGGCGGGAAAATAAGGTTATCAGCCTTGTTTTCTCCCTCATTACTTGAAGGATATGAAGC -TAAAACCCTTTTTTATAAAGCATTTGTCCGAATTCGGACATAATCAAAAAAGCTTAATTAAGATCAATTT -GATCTACATCTCTTTAACCAACAATATGTAAGATCTCAACTATCGCATCCGTGGATTAATTCAATTATAA -CTTCTCTCTAACGCTGTGTATCGTAACGGTAACACTGTAGAGGGGAGCACATTGATGAGCACGTCAGACG -ATATCCATAACACCACAGCCACTGGCAAATGCCCGTTCCATCAGGGCGGTCACGACCAGAGTGCGGGGGC -GGGCACAACCACTCGCGACTGGTGGCCAAATCAACTTCGTGTTGACCTGTTAAACCAACATTCTAATCGT -TCTAACCCACTGGGTGAGGACTTTGACTACCGCAAAGAATTCAGCAAATTAGATTACTACGGCCTGAAAA -AAGATCTGAAAGCCCTGTTGACAGAATCTCAACCGTGGTGGCCAGCCGACTGGGGCAGTTACGCCGGTCT -GTTTATTCGTATGGCCTGGCACGGCGCGGGGACTTACCGTTCAATCGATGGACGCGGTGGCGCGGGTCGT -GGTCAGCAACGTTTTGCACCGCTGAACTCCTGGCCGGATAACGTAAGCCTCGATAAAGCGCGTCGCCTGT -TGTGGCCAATCAAACAGAAATATGGTCAGAAAATCTCCTGGGCCGACCTGTTTATCCTCGCGGGTAACGT -GGCGCTAGAAAACTCCGGCTTCCGTACCTTCGGTTTTGGTGCCGGTCGTGAAGACGTCTGGGAACCGGAT -CTGGATGTTAACTGGGGTGATGAAAAAGCCTGGCTGACTCACCGTCATCCGGAAGCGCTGGCGAAAGCAC -CGCTGGGTGCAACCGAGATGGGTCTGATTTACGTTAACCCGGAAGGCCCGGATCACAGCGGCGAACCGCT -TTCTGCGGCAGCAGCTATCCGCGCGACCTTCGGCAACATGGGCATGAACGACGAAGAAACCGTGGCGCTG -ATTGCGGGTGGTCATACGCTGGGTAAAACCCACGGTGCCGGTCCGACATCAAATGTAGGTCCTGATCCAG -AAGCTGCACCGATTGAAGAACAAGGTTTAGGTTGGGCGAGCACTTACGGCAGCGGCGTTGGCGCAGATGC -CATTACCTCTGGTCTGGAAGTAGTCTGGACCCAGACGCCGACCCAGTGGAGCAACTATTTCTTCGAGAAC -CTGTTCAAGTATGAGTGGGTACAGACCCGCAGCCCGGCTGGCGCAATCCAGTTCGAAGCGGTAGACGCAC -CGGAAATTATCCCGGATCCGTTTGATCCGTCGAAGAAACGTAAACCGACAATGCTGGTGACCGACCTGAC -GCTGCGTTTTGATCCTGAGTTCGAGAAGATCTCTCGTCGTTTCCTCAACGATCCGCAGGCGTTCAACGAA -GCCTTTGCCCGTGCCTGGTTCAAACTGACGCACAGGGATATGGGGCCGAAATCTCGCTACATCGGGCCGG -AAGTGCCGAAAGAAGATCTGATCTGGCAAGATCCGCTGCCGCAGCCGATCTACAACCCGACCGAGCAGGA -CATTATCGATCTGAAATTCGCGATTGCGGATTCTGGTCTGTCTGTTAGTGAGCTGGTATCGGTGGCCTGG -GCATCTGCTTCTACCTTCCGTGGTGGCGACAAACGCGGTGGTGCCAACGGTGCGCGTCTGGCATTAATGC -CGCAGCGCGACTGGGATGTGAACGCCGCAGCCGTTCGTGCTCTGCCTGTTCTGGAGAAAATCCAGAAAGA -GTCTGGTAAAGCCTCGCTGGCGGATATCATAGTGCTGGCTGGTGTGGTTGGTGTTGAGAAAGCCGCAAGC -GCCGCAGGTTTGAGCATTCATGTACCGTTTGCGCCGGGTCGCGTTGATGCGCGTCAGGATCAGACTGACA -TTGAGATGTTTGAGCTGCTGGAGCCAATTGCTGACGGTTTCCGTAACTATCGCGCTCGTCTGGACGTTTC -CACCACCGAGTCACTGCTGATCGACAAAGCACAGCAACTGACGCTGACCGCGCCGGAAATGACTGCGCTG -GTGGGCGGCATGCGTGTACTGGGTGCCAACTTCGATGGCAGCAAAAACGGCGTCTTCACTGACCGCGTTG -GCGTATTGAGCAATGACTTCTTCGTGAACTTGCTGGATATGCGTTACGAGTGGAAAGCGACCGACGAATC -GAAAGAGCTGTTCGAAGGCCGTGACCGTGAAACCGGCGAAGTGAAATTTACGGCCAGCCGTGCGGATCTG -GTGTTTGGTTCTAACTCCGTCCTGCGTGCGGTGGCGGAAGTTTACGCCAGTAGCGATGCCCACGAGAAGT -TTGTTAAAGACTTCGTGGCGGCATGGGTGAAAGTGATGAACCTCGACCGTTTCGACCTGCTGTAATCTGA -CCCCGTTCAGCGGCTGCTTGCTGGCAGTCGCTGAACGTTCTTTACCAGCGTATAGTGGGCGAACGAAAAC -TACACACTGGATCTCTCATGTCTGCCGCAGGAAAGAGCAACCCACTGGCAATCAGTGGCCTGGTTGTGCT -CACACTTATCTGGAGTTATAGCTGGATTTTCATGAAGCAAGTCACCAGTTACATCGGTGCCTTCGACTTT -ACCGCCTTACGCTGCATTTTCGGCGCTCTCGTTTTATTCATCGTCCTTTTATTACGTGGTCGCGGAATGC -GCCCGACACCGTTTAAATACACCTTAGCCATTGCCCTGTTACAAACCTGCGGGATGGTTGGTCTGGCGCA -GTGGGCGTTGGTCAGCGGAGGTGCGGGGAAGGTGGCGATCCTGAGCTATACCATGCCGTTCTGGGTGGTG -ATTTTCGCCGCGTTGTTTCTCGGTGAACGCCTGCGACGTGGGCAATATTTCGCGATTCTGATTGCCGCTT -TCGGCTTATTTTTGGTGTTGCAGCCGTGGCAACTCGATTTCTCTTCGATGAAAAGTGCCATGCTGGCAAT -CCTCTCCGGCGTCAGTTGGGGGGCGAGCGCGATTGTTGCTAAACGTCTGTATGCCCGTCATCCGCGCGTG -GATTTATTGTCGTTAACATCCTGGCAGATGCTGTATGCGGCGCTGGTGATGAGTGTGGTCGCTTTACTGG -TGCCGCAACGTGAAATTGACTGGCAGCCCACCGTGTTCTGGGCGCTGGCCTACAGTGCGATTCTGGCGAC -GGCACTGGCGTGGAGCTTATGGTTGTTTGTATTGAAAAACTTGCCTGCCAGTATTGCCAGCTTAAGCACA -CTGGCCGTTCCCGTTTGCGGCGTACTCTTTTCCTGGTGGCTGCTCGGCGAGAATCCGGGGGCCGTTGAAG -GTAGCGGTATTGTGCTGATTGTGCTGGCACTGGCGCTGGTGAGCCGTAAGAAAAAAGAAGCCGTCAGTGT -AAAAAGGATCTGAATTTTTTCTTCATGTGGGGCGATCTCTTATTTAACAAAATAACGATAATGCCCCACC -ATCCGCCAGTTAAACAGCACATCTTCTTCCTGCGCGCCTGCGCCAATGTTATGTATCACCAGCGGCGTAC -CGTCGCGGGCGAAGCCATCTGAAACCACCCCAATATGTGCCAGCCCGTTATCCAGTCGCCAGGAGACAAT -ATCGCCCGCTTGATAGTCACTGGGGTTCTTGCTGGTGGGGCGTGTTTTATCATGGCGGCTAAACCAGGTT -TCCAGATTAGGCACCCGACGGTGATCGATGTTGCTGTCCGGGCGCTTTAACTTCCATTTTTGCGGGTACT -CAGCAAAATTCTTCGCCATATCTTCGTGAACCAGTTTCTGCAAATCGACCTTCTGGCTGCGCAATGCGCG -GATCACCACATCGGAACATACACCGCGTTCTTGCGGAACATCACCGCCAGGATAAGTAAGCTGCACATAC -GCCGGATCGTAAAATAGCGTGCTGCCAATTTGCTGTCTGGCACCGTCTGCGATGGCAAGGTTGGTATTGG -CCTGGATTTGTACCACGGTTGGTGGAACGGCGGGAGATTTTAAGGAGTGGCTGGTAAATGCCGTTAGCAG -GCTGAGCAGCGCCAGTGAAGCTTTCATCTGGTTCGTCCGTGAAAATAAGAGTCACAGATTCGACCTTCCG -GGCTAACGATTGTTCTGTAGAGAAAATGTCCAGAAGCGGATAAAAAATTCCTGAACAACGTGGGAGTTTC -AGATTACTGGCACAGAGTGCCGGATGCGGAGTGAACGCCTTATCCGGCCTACAAAAGCACGCAAATTCAA -TATATTGCAGAGATTGCGTAGGCCTGATAAGCGTAGCGCATCAGGCAATTTTGCGTTCAAACTCCCGGAC -AAGCCGGGAGTTTGGAGTAGGTTATTCCCACTCTTGCAGGAAACGCTGACCGTACTGGTCGGCTACCAGC -AGAGCGGCGTAAACCTGATCTGGCGTCGCGCCGCCAGGCATGTTGTGAATGGTTTCACCTTCTGCACATG -CCGCTTCTGCCACAATTCGCATTTTCGCCGGGACATCTTCTTTAATATCCAGTTGAGCGAGAGTTATTGG -CAAACCTACCGCATGGCTAAGGGCAGCTACGGTTTCGATTTCCTCCACCGGCGCATTTTCCAGAACCAGC -TGCGTCAGCGTACCGAATGCCACTTTTTCACCGTGATAATAGTGATGCGCGTCCGGGATAGCGGTCAGGC -CGTTATGCACTGCGTGCGCCGCAGCCAGACCACCACTTTCAAAACCAACACCGCTCAAATAGGTGTTCGC -TTCAATCACGCGCTCCAGCGCCGGAGTCACTACATGCTGTTCGGCAGCAAGCATCGCTTTTTCGCCTTCT -TCCAGCAGGGTGTTGTAGCACAGTTCAGCCAGTGCCAGCGCAGCCTGGGTGCACTTGCCGCCCGCCATGG -TGGTCGCGCCGCTACGAGAGCAGGCACGCGCTTCAAACCAGGTTGCCAGCGCATCGCCGATACCCGCCGC -TAACAGACGTGCAGGTGCGCCAGCGACGATTTTGGTGTCGACAATGACCATATTCGGGTTATTTGGCAAC -AGCAGATAGCGGTCAAACTCACCCTCATCGGTGTAGATAACAGACAATGCGCTGCACGGTGCATCGGTAG -AGGCGATAGTCGGTGCGATCGCTACCGGAACACCCATGAAATGTGCCAGTGCTTTGGCAGTATCGAGGGT -TTTTCCGCCACCGATACCGAGAATTGCGCCACACTGCGCAGTCTCCGCGATGCCACGCAGACGGTCGATC -TCATTTTGCGAACATTCACCGCCAAACGGCGCAATTTCTACTACCAGTCCAGCATCTTTAAAGCTTTTCT -CGACAGTGGATTGAGCAAAACCTAAAACAAATTTGTCACCCACCACTAACCAGCGTTCTGCCAGCGGCTT -CAGGTATTCGCCCAGACGATTAATCACATCAGCGCCCTGGATGTATTTACCCGGTGATTGAATAATGCGG -TCCATAATTGCTCCTTTAGAGATGAGTAGTGCCAAATGCGGCATTCCAGTCGTGTTCGAACTTCTCTATA -GCTGACTCTACCGCAGGGGTGTTGAGCATTTGTTGCGCTACATCTAAGGGCAGGGTGATGGATTCACATC -CTGCCAGTAAACAGTCCAGCGCCTGACGCGGCGTTTTAAAGCTGGCTGCCAGCACCATGCTTTCTGGCGC -GTGCATTTCTAACAGCGTTTGCAGCTCCTGAACCGTACGAATGCCGTCTCCGCCCTGGGCATCTACGCGG -TTAACATACGGAGCAACGTATTTTGCCCCTGCCAGTGCGGCTAATAACCCTTGTGCGGCGCTATATACAG -CAGTGCCAAGTGTAGTAATACCCTCTTTTTTCAGTATTTTAATTGCTGCCAGACCTTCGGAAGTCACCGG -GATTTTCACCACAATACCCGGAATAGCGTCGCGCAGGCGCTTCGCTTCTTCCACCATCCCCTGCGCGTCG -CGGCTCATGGTCTGAGCAAACAGAATGCCCTCATCACCAATCGCTTTTTGCAGACGCGGCAGCACTTCCC -ATATGGACTCCTTGCTGGCAGCGATAATGCTCGGGTTAGTTGTCACCCCGGCAATGGGGAATATGCGTGC -CAGACGTTCGACTTCTGCGACGTTAGCGGTGTCCAGATACAGTTCCATGATGTTTCCTTTTACAGTTCCA -GTTCATGTTGCAGCAGGCTGGCGATAGCGTCGGCAGAGGCGGCGTTAACCAGCGCGTTACGGAATTCTTC -GTGCATGATGCGGCGAGCGAGGCGCGAGAAAATGCGCATATGCTGATCGCCCGCAGCGTGTTTGTTCAGG -GTTAACATAATGATGAATTGCGCTTCATCATCGCCCCAGCGCACCGGCGCTTGCAGACGCGCCACGCTGA -TGGTGGATTGCTCAATGTGTTCTGATTTGCTGTGTGGAATGGCAAAACTAAAGCCCAGACCGGTAGAGAA -AACGGCCTCGCGCGCCCACAAGTCGGCTTCCAGTTTACGCGGATAGCGGCAGCGGCCCGCCAGCAGCAGG -TTATCGGTCATGCCTTTGAGCACTTCTTCTTTGCTGCGCCAGTCGCTTTCCAGTGTGATGCACTCGGCGG -TGACCAGCGGTGCGTCTTGTTGGGTCATGCGGAATTGCGCCAGCAGGTGTTCTACTTCCAGCGAAGTACG -GCAGGCCATTGCCTGGTTGAGCAACTTGCGGCACTCACGGCTATCAAGTTGCGCCATCCGAGCTTTCGCC -GCCGGAATTGATGGTGCGCTCATGCTGAGTTCATCCAGCCCTAAGCCGACCAGCAACGGCAGCACGGAAC -CTTTCGCTCCCAGCTCACCGCACAGACCAATCCATTTGCCCTGGCGATGCACCGCTTGCACGGCGTAATC -GAGCGCCCGCAAGAATGCCGGATTCAGGCTGTTGTAGTGACGAGTAACCTTAGCGTTATCGCGATCCACC -GCCAGCAGATACTGCGTCAGGTCATTACTACCAATACTAAAGAAATCAATCTCTTCGCAGCATTGATCGA -TGATGAACATCACCGACGGCACTTCCAGCATGATGCCGAGCTGGATTTTCTCATCAAACGGAATGTGTTC -GTTACGTAGTTGCTGTTTGGCTTCCGCCAGTTTTTCTTTCACCCATAAGATCTCTTCCATTGAGGAGATC -ATCGGGATCATGATTTTCAGGCTGCCGTGAGCGGAGGCGCGGAGGATCGACCGTAGCTGCGTGGTAAACA -ACGACGCGTACTCTTCATAAATACGCACGGCGCGATAACCGAGGAACGGGTTTGCCTCTGCGGGAATGTT -CAGATAATCAACGGGTTTGTCGCCGCCAATGTCCATAGTGCGCACAATAATGCTGCGTCCGTTGGCGGAT -TCCAGCGCCTGACAAAAAATGTTGTACAACTCGCTTTCGCCCGGTGCGCTGGTGCGATCCATATAGAGCA -TTTCAGTGCGGAACAAACCAACGCCTTCCGCACCATTGCCGAATGCGGCCTGCGCTTCCACGGAGTGAGC -GATGTTAGCGGCAATTTCAATGCGGATACCGTCAGCGGTACGGGCTTGTTGGGTCAGCCAGACACGCTGT -TGCTCACGCAGGGCGTCCTGTACGCGGGCTTCTTGCTGATAATAACGAGCTACGGCTTCCCCTGGCTCAA -CCACAATCGCCCCGGCGTTGCCGTCGATATAAATCGTTTGTTGCTGCCACGGAGTAAGGGCATCAATATC -CACACCAACCAGCGTTGGAATGTTGAACGAACGGGCAAGGATCACCGTATGTGAGGTGGTGCCGCCGCTT -TTGAGCAACAATCCTTTGAGGTGATTTTTATCCAGTTCGAGGAACTGGCTGGGGGTCAGTTCATCAGCCA -TACAAATGGCGGGCTGCGTCAGTTTGCCCGGTGCCGGGAAGCGTTGCTCACCGTAGATTTGCTGGAGTAA -CTGGAAGCAGACGTCGCGTACGTCCAGGGCACGTTCTTGCAGGTAGCTGCTGCTGGAACGGGAAAACTCT -TCGCAAAAGTGATTCGCGCTGGCAACAATTGCTTCGGCGCAGCTTAATCCGGCGCTGACGCCTGCCAGTA -AATGTTCGCGCAGGGAAGTATCGCCAGCCAGGGATCGGTGAGCTTCCAGAATCGCGCTGGTAGCACCGTC -GCTATCCAGCAGACGAAACTCAATGTTTTTCAGTACCAGCGTCAGGCCGTTTTCCAGTGCGGATTGCTCG -GCGTCAACGCCTTTGGCTGCGGGAAGATTACCCAGCGCATTGAGATCTAAAGAAGAGATCGGCGTCAGAA -TGCCGCCTGCACTACCGCTGCACACGGTGCGGGCGCGGATAATTTGCGGATTCAGATTGGTCAGTGAAAC -CGGCAGTGGTTCCAGTTCGTCAGATTTAACTTCCGCCAGCGGCGCATCGCAGTGGGGGAATTCATCGCGC -AGCCATTGGCTTAAACGCTGGTGCGCTTCCTGTTCGTCGGCCCCGGAAATCAGTAACTGGCAGTTATCGC -CCGCCAGCGTATCGGTGCCAATCAGCGCAAGGGCGCTTTTGGCGTTGCCCTTGCGGTCAGTGCGCAGGTT -ATGCCACTCAATTTGTGATGAAAAAGTATTACACAGCGTTTCAACGTGGCTTGCCGGACGCGCATGTACG -CCGTTAGGTAGCTCACAAATAAATTCCACAATCAGGGCCATTGCCTCTCTCCCGGTACGGTTTTCTGTTT -ACAGGATAAGAGCGCACGGCAACGGCCTGCCATGTGACAAATCTGCCAAAAGCTGGACAAATGTAATGTA -ACCGTCAATTTGCGACGCGTCTCACAAGACGCTGTTTTGCGGCATGCTTCCGGTTTATCGCAAGTTATGA -GGCGGATCGCATTTTTGTACTGATATTACAAAAGTCCAGTAAATGGCCTTTTTATCCACTGTTTGCTCCG -CCTGCGATTGCCTATTGTTTCCTCCATCAAAAATATGGACATGGGCTTTCGCAAGCCCGGGAGCAGCTTA -TGAATGAGTTGGTGCAGATCCTGAAAAATACCCGTCAGCATTTAATGACGGGCGTTTCACACATGATTCC -CTTCGTGGTATCGGGCGGTATTTTGCTGGCGGTTTCCGTCATGTTGTATGGCAAAGGCGCAGTGCCGGAT -GCCGTAGCCGATCCAAATCTGAAAAAACTGTTTGATATCGGCGTTGCGGGCTTGACGCTGATGGTGCCTT -TCCTCGCAGCGTACATCGGTTATTCCATTGCAGAGCGTTCTGCGCTGGCTCCGTGCGCTATCGGTGCCTG -GGTTGGTAACAGCTTTGGTGCGGGCTTCTTTGGTGCACTGATCGCCGGGATTATCGGCGGCATCGTGGTG -CATTACCTGAAGAAAATTCCGGTGCATAAAGTTCTGCGCTCGGTGATGCCTATCTTCATTATTCCTATCG -TCGGCACACTGATTACCGCAGGCATCATGATGTGGGGCTTGGGCGAGCCTGTAGGGGCGTTGACCAACAG -CCTGACTCAGTGGCTTCAGGGGATGCAGCAGGGCAGCATTGTTATGCTGGCGGTGATCATGGGTCTGATG -CTGGCGTTCGATATGGGCGGTCCGGTTAACAAAGTGGCCTATGCCTTCATGCTGATTTGCGTTGCTCAGG -GTGTTTATACCGTGGTGGCCATCGCTGCCGTGGGTATTTGTATCCCGCCGCTGGGGATGGGGCTGGCGAC -GCTGATTGGTCGTAAAAATTTCTCCGCAGAAGAGCGCGAAACCGGCAAAGCGGCACTGGTGATGGGCTGT -GTTGGCGTTACTGAAGGGGCGATTCCTTTCGCCGCTGCCGATCCGCTGCGTGTCATTCCTTCCATCATGG -TCGGTTCAGTTTGTGGTGCAGTAACTGCGGCGCTGGTCGGTGCGCAGTGCTATGCAGGCTGGGGTGGTCT -GATTGTGCTGCCGGTGGTTGAAGGCAAGCTGGGTTATATCGCAGCAGTGGCTGTCGGAGCAGTGGTGACG -GCTGTTTGTGTGAACGTGCTGAAAAGTCTGGCGCGTAAAAATGGGTCTTCGACTGATGAAAAAGAAGACG -ACCTGGATTTGGATTTTGAAATTAATTAATTGAGGAACGAGCCATGACGAAAATTATTGCAGTAACCGCA -TGTCCTTCAGGTGTTGCCCATACCTATATGGCAGCAGAGGCGCTGGAAAGTGCCGCGAAAGCGAAAGGCT -GGGAAGTGAAAGTAGAAACCCAGGGGTCAATTGGTCTGGAAAATGAACTGACTGCGGAAGATGTGGCGAG -CGCTGATATGGTGATTCTGACCAAAGATATCGGCATCAAGTTTGAAGAGCGTTTTGCTGGCAAGACCATC -GTGCGCGTCAACATCAGCGATGCAGTAAAACGTGCTGACGCCATTATGAGCAAAATTGAAGCTCACCTGG -CGCAAACCGCTTAAGTTCTTCTCCCGCTCGCAAGGGCGGGTTCGCTTTCCCACAGGAGTTCCTCATGACG -AATCGTATCTCTCGCCTCAAAACTGCACTGTTTGCCAATACCCGTGAAATCTCGCTGGAGCGGGCGCTGC -TTTATACCGCCAGCCATCGGCAAACCGAAGGCGAACCGGTGATATTGCGCCGGGCGAAAGCAACAGCGTA -TATCCTTGAACATGTTGAAATTTCGATTCGTGATGAAGAACTGATTGCCGGTAACCGCACCGTAAAACCG -CGCGCCGGGATTATGTCGCCGGAAATGGACCCTTACTGGCTGCTGAAAGAGCTGGATCAATTCCCGACGC -GTCCGCAGGACCGCTTTGCTATCAGCGAAGAAGATAAACGTATCTACCGTGAAGAGTTGTTCCCGTACTG -GGAAAAACGTTCGATGAAAGATTTCATCAACGGGCAGATGACAGATGAAGTAAAAGCCGCGACCAACACG -CAGATTTTCAGCATCAACCAGACGGATAAAGGCCAGGGGCACATTATTATTGATTACCCACGCCTGTTGA -ATCACGGGCTGGGTGAGCTGGTGGCACAGATGCAGCAACATTGTCAGCAACAGCCGGAGAATCACTTTTA -TCAGGCCGCGTTGTTACTGCTGGAAGCCTCGCAGAAACACATTTTGCGTTACGCCGAACTGGCGGAAACG -ATGGCGGCAAACTGCACAGATGCCCAGCGTCGCGAAGAGCTGCTGACTATTGCAGAGATCTCCCGCCATA -ACGCGCAACATAAGCCGCAGACGTTCTGGCAGGCGTGCCAGTTATTCTGGTACATGAACATCATTCTGCA -ATACGAATCCAACGCCAGTTCGCTATCGTTGGGGCGCTTCGACCAGTATATGTTGCCGTTCTATCAGACA -TCATTAACCCAGGGCGAAGATGCGGCGTTCCTGAAAGAACTGCTCGAATCTTTATGGGTGAAATGCAACG -ACATCGTGCTGTTGCGCTCCACCAGTAGCGCGCGTTATTTCGCCGGTTTCCCGACCGGCTATACCGCACT -GCTCGGCGGGTTAACCGAGAACGGACGTAGCGCGGTGAACGTGCTTTCGTTCCTTTGCCTTGACGCCTAT -CAAAGCGTGCAATTACCGCAACCGAACCTCGGCGTGCGCACTAACGCCTTGATCGACACGCCGTTCCTGA -TGAAAACCGCCGAAACCATTCGCTTCGGTACCGGTATTCCGCAAATCTTTAACGATGAAGTGGTGGTGCC -AGCGTTCCTCAACCGTGGCGTTTCGCTGGAAGATGCGCGCGACTATTCCGTAGTGGGCTGTGTGGAATTA -TCTATTCCCGGCAGAACCTACGGCTTGCATGACATCGCGATGTTTAATCTGCTGAAAGTGATGGAAATCT -GCCTGCATGAAAATGAAGGCAATGCTGCGCTGACTTATGAAGGTTTACTGGAGCAGATCCGCGCCAAGAT -CAGCCACTACATCACCCTGATGGTTGAGGGCAGCAATATTTGTGATATCGGCCATCGCGACTGGGCACCT -GTACCGCTGCTCTCATCGTTTATCAGCGATTGTCTGGAAAAAGGCCGCGATATTACCGATGGCGGCGCGC -GTTATAACTTCTCCGGCGTACAGGGGATCGGTATCGCCAACCTGAGCGATTCTCTCCATGCGTTGAAAGG -GATGGTTTTTGAGCAACAGCGTTTAAGTTTTGACGAATTGCTGTCGGTATTAAAAGCCAACTTCGCAACG -CCAGAAGGCGAAAAAGTCCGCGCTCGCTTAATTAACCGCTTCGAGAAATACGGTAACGATATCGACGAGG -TGGATAACATCAGCGCCGAACTGTTGCGCCACTACTGCAAAGAAGTGGAAAAATACCAGAACCCGCGCGG -CGGCTACTTCACGCCGGGATCGTATACCGTTTCTGCTCACGTCCCGTTGGGATCGGTGGTTGGCGCGACG -CCAGACGGTCGTTTTGCCGGAGAACAGCTGGCAGACGGCGGCTTGTCACCCATGCTGGGCCAGGACGCAC -AAGGGCCAACAGCGGTACTGAAGTCAGTCAGTAAGCTCGATAACACGCTGCTGTCTAACGGTACGTTGCT -GAACGTGAAATTCACTCCGGCGACCCTGGAAGGTGAAGCAGGATTACGCAAACTGGCCGACTTCTTACGG -GCGTTTACCCAGCTTAAGTTACAACATATTCAGTTTAACGTGGTGAACGCCGACACGTTGCGGGAAGCGC -AACAGCGCCCACAAGATTATGCCGGGCTGGTGGTGCGCGTTGCCGGATACAGCGCCTTCTTTGTCGAACT -GTCGAAGGAGATCCAGGATGACATCATCCGCCGGACAGCGCATCAGCTGTAACGTTGTGGAAACGCGCCG -CGATGATGTGGCGCGCATTTTCAACATTCAGCGTTATTCACTGAATGACGGCGAGGGCATTCGTACGGTG -GTCTTTTTTAAAGGCTGTCCGCATCTTTGCCCGTGGTGTGCTAATCCGGAGTCGATCTCCGGCAAAATCC -AGACGGTACGCAGAGAGGCGAAATGTCTGCACTGTGCGAAATGTTTGCGTGATGCGGATGAATGCCCCTC -CGGGGCGTTTGAACGGATTGGTCGCGATATCAGCCTTGACGCTCTGGAACGGGAAGTGATGAAAGATGAC -ATTTTCTTTCGCACGTCCGGCGGCGGCGTCACGCTTTCTGGCGGCGAAGTGTTAATGCAGGCGGAGTTTG -CTACCCGTTTTTTACAGCGACTGCGGCTGTGGGGTGTGTCATGCGCCATTGAAACTGCCGGAGACGCACC -AGCCAGCAAGCTATTACCGCTGGCGAAATTGTGCGATGAAGTGTTGTTCGATTTAAAAATTATGGACGCG -ACTCAGGCGCGGGATGTGGTGAAGATGAACCTGCCACGCGTGCTGGAGAATCTGCGTTTGCTGGTGAGTG -AGGGCGTCAACGTGATCCCGCGTTTACCGCTGATCCCTGGTTTCACGCTCAGCCGGGAGAATATGCAGCA -GGCGCTGGATGTACTGATCCCGCTGAATATCAGGCAGATCCATCTGTTACCGTTTCATCAGTACGGCGAA -CCGAAATACCGCCTGCTGGGGAAAACATGGTCGATGAAAGAGGTGCCTGCGCCGTCGTCAGCTGATGTGG -CAACGATGCGCGAAATGGCAGAACGGGCCGGACTTCAGGTTACCGTGGGAGGTTAAAATGGCATACCTGG -TGGCAGTAACCGCCTGCGTAAGCGGCGTGGCGCATACTTATATGGCGGCGGAACGGCTGGAAAAGTTGTG -CCTGTTAGAGAAGTGGGGAGTCAGCATTGAAACTCAGGGCGCGCTGGGAACGGAGAATCGTTTAGCGGAT -GAGGATATCCGCCGGGCGGATGTTGCTCTGTTGATTACGGATATCGAGCTTGCCGGTGCCGAGCGATTTG -AACATTGCCGCTATGTGCAATGCAGCATCTACGCATTCCTGCGTGAGCCGCAGCGGGTAATGAGCGCGGT -GCGCAAAGTGCTTTCTGCGCCGCAGCAAACCCATCTTATTCTGGAGTAGTCGGTTTTTCTGTCAGTTGGC -TGTGGTACTGCCGGCGATATTCCGACGGCGAGCGTTCGGTGTTTTTACGAAACAGACGGCAGAAGTAGTT -GCTGTCGACAAAGCCGCAGGCGTGCGCCACTTCTTTTACCTTCAGGTCATAGCCTTTCAATAACGTCTTA -GCGTGCTCCAGTCGCGTGTGATTCAGGTATTCGTTAAAACCAATGGCCCCCGTTTTTTGAAACAGGTGCG -AGAGGTAATTTGGCGAAATATAAAACGCCTGTGCAACAGATTCGCGGGTAAGCGCGGAGGCATAGCGTTC -GTCGATATAATCGCGAATAGCTTCAAATAGTGCCTGGCTGCGTGAGGCGGTCTGGATTTGGCTGCCAAGC -AAATCGCGGCAGTGGCTAAGCAGGCTGGCGACGATAAGCCTTGCCGTTTGCTGCTCCTGCGGCTGCATTT -GCATTTCATTGAGCGTTTGTAGCAGAAAAGAACCTATGCGTGGGCCGCGTCGGGCGACGTGTTGCTTCGC -CAGATTTTGATATTGTTTGCCATCCCATTGCACGACGCTGAAGCCGAGTTGCTGTTTGCCAAACAGCACG -CTAAAGGTAGTAGCGGGGGCTTGCCATTGTGGAAAATTCCAGCCACCAGCAGGAACGTACAGCACATCGC -CGGGAACTAACGTTGCTCCAGCGCCGGTATCAACAAACTCACCTTCCAGCACAATTTCCAGCCGTGGAAA -ATCGACCTGATACGCAAGATCGGGCACCGGGCCGTTACTGCTGGCAAAGTAAATCTGGCGCAGGGACAGC -GGGCCGTTGATCAGGCGGGAGAGCAGATAGCTGACGTCGTGATACATGTTATTCCCTTAGGTATGTAGAC -GGGAAAACAGTAACTGGCATTATTAAAAAAGGCCACCTGAAAAGTGTGGCCTGAGGGGAGTTCGATGTAA -ACATTGCGGCAGTTGTATTGCCGGATGTGGCGTAAACGCCTTATCCAGCCTACCGCCGCGATCTGTAGGC -CGGATAAGACGCGTCAAGCGTCGCATCCGGCAAATAGCGCCTGGCTGATAATTACTGATTACCCACCTGA -TCGCCATAGGGCAGTGTGTCGTAATCGATCAGTGCGTTTTTCTTATACGGGTTACCAATCCAGCGGGTAG -TTTCTTTGAACTGCGGATTCACCACTGAACGGGTTGGATCGTAACCGTCGTAAGATAAGCCCGCCAAATC -TGACCAGGTGTGGATCAGTTCCGCCAGGCTGTATTTACGATCAACATCCTGCGAGAAATCACGGGGATGA -GTCGCTTGCCATTTTTCTGACGTCCACAGCAGGAACGGAATGGTGTACATATGACGCGTCGGGTTGTCCT -CATTACGCCCCTGAGTTTTGTGCGGCGGCGTGTCGTAAACCTCTTCACCGTGGTCAGAGAAATAAACCAG -GAAACCGTTCGGGTTTGCTGCTTTAAAGTCTTTAATCAGGCTGGCAACCACATGATCGTTATACAGGTTA -GCGTTGTCATAATCGTTATATGACTCCAGCTCTTCCGCGTTTAATCCCGGCGGAACATGATCGGTATTGC -CATCAAACTTGCCCTGATTTTCCGGGTAGCGGTATTTGTATTTGATATGCGTACCCAGCAGATGAACAAT -GATCAGTTTCTTCGGCGCAGGGTCATTCAGCACTTCCTGGAACGGCTTCAGCACGTTGGTGTCGTATTCA -CGCGCACTCTGCGTACGTTGCTGGTTCATGTAGTACTGCTTGTCGGTCTGGCGCGAAAATACCGTCAGCA -TGGTATTGCGGGCGGTCATCGTCTGCTGGTTGGTGATCCAGAAGGTTTTATAACCCGCCTGTTTCATCAT -GTTCATCAGCGACGGCTGCGTCAGATACAGATCCGGGTTCTTTTCATTGGCAAAGGTCAGCGCCTGTTGC -AGGATTTCAATGGTGTACGGACGAGACGTAACTACGTTATTAAACACGGTCAGATTCGGATCGGTTTTAT -GCAGCGCATCCAGCTCCGGCGTGGTTTCACGCGGATAACCGTACAGACTCATGCGTCCGCGCTGGGTCGA -CTCGCCAATCACCAGCACTAAAGTGCGCGGTTCGTTACCCGATTCATCTTTGAAATTAGCCAGTGGCGGC -AAGGCATTATTTTCATTCAGTAACTTTGTTAGCGAGTTTAGTTGCTGACGATACTGATAATAGCCGGTCA -GGAATTGCCACGGTGCGGCAGGCTCCATACGCGAGGCCAGGTTATCCAACGTTTTCTCAAACGGCTTGTT -TTTGATAAACGTATTCATGGCGATCGGATGCAGAATCAAGCCATAAAGCAGGGCAAAAGAGACAACATAA -CGCCACGGCTTTGGAATATAGACCGGGCGCAGGCGTGTCCACAGCAGAACTGCCACCGCCGTATAGGCCA -GCGCGATAAGCACAATTTTCAGGCTGAAATACTGGCTTAAATACTCGCTGGCTTCGTTGGTGTTGGTTTC -GAACATCACAAACAGAACGCTCTGCGAGAACTCCTGACCGTAGATGACGTAGTAGCACAGCGCCGCCAGA -GAGGCCGCCCATAGCACCACGCCGATTACTGCGGCAATAATTTTAATCCGCTTCGGAAAGAGGAATACCG -GGATCAACCACAGCGAACTGAATAACAGCGAGTCGCGAATGCCGTTAGTGCCACTATAACCACTGATGTA -AATAATGGCCTGTAGCAGAGTAGAGAAAAACCAAAAGTAGAGCAGTGCCCAACCCAGGGCTTTCCAGCTA -AAAAGAGGTTTAGCCTGGACTTCTGTGGAATGCATAGTAAGAACCTGTCTTGAAAAAATATCGCCGAATG -TAACGACAATTCCTTAAGGATATCTGAAGGTATATTCAGAATTTGAATAAAATGCAGACAGAAATATATT -GAAAACGAGGGTGTTAGAACAGAAGTATTTCAGAAAACCCTCGCGCAAAAGCACGAGGGTTTGCAGAAGA -GGAAGATTAGCCGGTATTACGCATACCTGCCGCAATCCCGGCAATAGTGACCATTAACGCTTGTTCGACG -CGAGGATCCGGTTCCTGGCCTTCTTTTTCTGCCTGGCGGGAGCGGTGCAGCAACTCGGCCTGCAATACGT -TCAGCGGGTCGGTGTAAATATTCCGTAGCTGAATAGACTCTGCAATCCACGGCAGATCGGCCATCAGATG -GGAATCGTTGGCAATCGCCAGCACCACTTTGATGTCTTCTTCTTGCAGGTTGCGTAACTCTTTACCTAAC -GGCCACAGTGCTTTGTCTACCAGGCGTTGGTCATAGTATTCCGCCAGCCACAGGTCTGCTTTGGCGAAGA -CCATCTCCAGCATGCCGAGACGCGTCGAGAAGAATGGCCAATCGCGGCACATAGCCTCCAGCTCGCTCTG -TTTGCCGTCTTCGACCACTTTTTGCAGCGCCGTACCTGCACCCAGCCAGGCGGGGAGCATCAGACGGTTT -TGCGTCCAGGCGAAGATCCACGGAATGGCGCGTAGTGACTCGACGCCGCCGGTTGGGCGACGTTTCGCCG -GACGTGAACCCAACGGCAGTTTGCCCAGTTCTTGTTCCGGCGTAGCGGAGCGGAAGTAAGGCACAAAATC -TTTGTTTTCACGTACGTAGCCGCGGTAGACATCGCAGGAGATGACTGACAGTTCATCCATAATGCGACGC -CAGCTCTCTTTCGGCTCCGGCGGTGGCAGCAGGTTGGCTTCCAGAATCGCCCCGGTATAAAGCGACAGGC -TGCTGACGGTGATTTCTGGCAGACCATATTTAAAGCGGATCATCTCGCCCTGTTCGGTTACGCGCAGGCC -GCCTTTCAGGCTTCCTGGCGGTTGTGACAGCAGCGCCGCATGAGCAGGTGCGCCGCCGCGACCAATGGAA -CCGCCGCGACCGTGGAACAACGTCAGCTCAATACCCGCTTTTTCGCAGGTTTTGATTAATGCATCCTGTG -CCTGATATTGCGCCCAGGAAGCTGCCATCACTCCCGCATCTTTTGCTGAGTCGGAATAGCCAATCATCAC -CATCTGTTTGCCCTGAATCAGGCCACGATACCAGTCAATATTGAGCAGCTGGGTCATGACATCGTTGGCG -TTGTTCAGATCATCGAGGGTTTCAAACAGCGGAGCAACCGGCATCGCAAACCCGATACCCGCTTCTTTCA -GCAGCAGGTGGACAGCCAGTACGTCGGACGGCGTTTTCGCCATCGAGATCACGTAGGCGGCAATGGAGCC -TTGCGGTGCTTCGGCAATCACCTGGCAGGTATCGAGCACTTCGCGCGTTTCGGCGCTTGGTTGCCAGTTG -CGCGGCAGAAGCGGACGTTTGGAGTTCAGTTCGCGGATCAGGAACGCCTGTTTGTCGGCCTCTGACCAGC -TTTCGTAGTCGCCGATACCGAGGTAGCGGGTCAGCTCGCCCAGCGCTTCGGTATGACGCGTGCTCTCCTG -ACGGATATCAATACGGACCAGCGGTACGCCGAAACATTTCACGCGGCGCAGGGTGTCGAGCAGATCGCCG -TTGGCGATAATACCCATGCCACACGCCTGAAGTGACTGGTAGCAAGCGTAGAGCGGTTCCCACAGTTCTT -CGTTTTGTGTCAGCAGGCCTTCTGGTTTTGGCAGTTCTTCGCCTTTCAGGCGCGCTTCCAGCCATGCCTG -TGTCGCCATCAGGCGAGAACGCAGGTTTTTCATCAGATAGCGATACGGTTCTGCGGCACCTTCTTCGCCA -ACCAGCGCCAGCAGTTCAGGGGTCGCTTCAACCATCGACAGTTCAGAAACCAGCACCTGAATATCTTTCA -GGAACAAATCGGTGGCTTTCCAGCGGCTGAGTAGCAGGACGTGGCGGGTGATATCGGCAGTGACGTTCGG -GTTGCCGTCGCGGTCGCCGCCCATCCACGAAGTAAAACGGACCGGAACAAATTCGACGGGCAGTTTGTAG -CCGAGGTTCTCTTCCAGTTGTTCGTTCAGTTCGCGCAGGTAATTTGGTACGCCTTGCCACAGGCTGTTTT -CCACTACGGCAAAGCCCCATTTGGCTTCATCTACCGGGCTTGGACGCAGCTTACGGATTTCATCGGTATG -CCATGACTGGGCGATCAACTGGCGCAGGCGACGCATCAGCTGGTTGTGTTCGTAGTCAGCGATATCTTTG -TTATCGAGCTGTTTTAAACAGGCGTTCACTTCCACCATTTTGTGGATCAGTGTACGACGGGTAATTTCGG -TTGGGTGAGCCGTGAGGACCAGTTCCAGCGACAGCGATTCCACTGCTTTTTTGATGGTGTCTTCGCTCAG -TTCCGGCTGGTTTTTCAGTTTACGCAGGGTGCGGGCGATCACTTCCGGGTTGCTGGCAGCTTCGCCTTTC -GGCGAAATGCTGTGGTATTGCTCGGCGGTGTTGGCCAGGTTCAGGAACTGACTAAACGCACGCGCAACGG -GCAGCAGCTCGTCGTTCGACAAATTTTGTAAGGTGGTGAGCAACTCCTGGCGGTTAGCATCATTGCCAGC -GCGTGAAGATTTCGACAACTTACGGATAGTTTCTACGCGTTCAAGAATGTGTTCTCCCAACGCATCCTTG -ATGGTTTCTCCCAGCACTTTGCCGAGCATACTGACATTACTACGCAATGCGGAATATTGTTCGTTCATAT -TACCCCAGACACCCCATCTTATCGTTTGATAGCCCTGTATCCTTCACGTCGCATTGGCGCGAATATGCTC -GGGCTTTGCTTTTCGTCGTCTTTTATAAAGCCACGTAAAAGCGGTGACGTCAAATGCTGCGAAATCGCTT -CAGCAAACGAATAAATAGCAGGAATTTACGTCATTAAATTCACGACGCTTTAAATAAGCGTAACTTATGG -AAATGTTAAAAAATCGCCCCAAGTAACACCAAAGGTGTAGGTCGGATAAGATGCGCAAGTATCGCATCCG -ACATTATTGCGGCACTGGAGTTTGGCAACAGTGCCGGATGCGGCGCGAGCGCCTTATCCGGCCTACAGTT -GGGCATCGTTTGAGTCACTGTCGGTCGGATAAGATGCGCAAGTATCGCATCCGACATTATTGCGGCACTG -GAGTTTGGCAACAGTGCCGGATGCGGCGCGAGCGCCTTATCCGGCCTACGGTTGGGCATCGTTTGAGTCA -CTGTAGGTCGGATAAGATGCGCAAGCATCGCATCCGACATTATTGCGGCACTGGAGTTTGGCAACAGCGC -CGGATGCGGCGCGAGCGCCTTATCCGGCCTACGTTTTAATGCCAGCAAAAATGGTGAATTACCTGGGTTA -TCAGTTCGCGGGTGGGCTTGATAAACCGTGTTTCCAGATATTCATCAGGTTGATGAGCCTGATTAATTGA -GCCAGGCCCCAACACCAGCGTCGGGCATAACGTTTGAATAAACGGCGCTTCGGTACAGTAGTTCACCACT -TCGGTTTTTGCTCCGAGCAATTTCTCAACCACTTCAACCAGTTGATGATTCGGTGGGCATTCATAGCCAG -GGATCGGCGGATGCAGCTCGTCGACCGTCAGACGACCCGGCCAGCGTTCGCTCACCGGAGCCAATGCATC -GTTGAGCAAACCATTAAGTTCATTGAGTGTCATGCCAGGCAGCGGACGAATATCCATATGCAACTCACAG -CAAGCGCAAATACGGTTAGAAGCGTCGCCACCGTGAATATGCCCGAGGTTGAGCGTAGGGTATGGCACGG -TAAACGCTTCGTAGTGATAACGTTCTTTCAGGTTATCGCGCAATTGCAAAATATGCCCGATGGCGTCGTG -CATTAGTTCGATAGCGTTAACTCCGCGTGCTGGATCGCTGGAGTGCCCCGACTGGCCCTGAATACGGATG -GCGTTAGAGATATGACCTTTATGTGCGCGTACCGGTTGTAGTGACGTCGGTTCGCCAATGATGGCGCAAT -CCGGGCGCAGGGCGGTAGTTTCGGCAAAATAACGCGCTCCGGCCATACTGGTTTCTTCATCAGCAGTCGC -CAGAATGTAGAGCGGTTTTTTCAGTTTCGTGACGTCGACATCGCGTAGCGCATCAAGGATAAACGCAAAA -AAGCCTTTCATGTCGGCGGTGCCTAAGCCGTAAAGCTTGCCGTCATGCTCCGTCAGTGTAAACGGATCGC -GCGTCCAGCGACCGTCATCAAATGGCACCGTATCGGTATGCCCCGCCAGCAACAAGCCGCCAGCCCCCTG -TCCGATACTTGCCAGCATATTGAATTTGTTGCGAGTTCCTGGAACAGGCTGCACTTCCACATTGAAGCCC -AAATCTTTAAACCAGTCCGCCAGCAGAGTGATTAAATCTGCATTGCTTTGATCGAGTGCCTCTTCCGTGG -CGCTTATTGAAGGTGTGGCAATCAGAGCGCGGTAAATCTCGATAAATGGCGGTAATTTGTTTTTCATTGT -TGACACACCTCTGGTCATGATAGTATCAATATTCATGCAGTATTTATGAATAAAAATACACTAACGTTGA -GCGTAATAAAACCCACCAGCCGTAAGGTGAATGTTTTACGTTTAACCTGGCAACCAGACATAAGAAGGTG -AATAGCCCCGATGTTGAATACGCTGATTGTGGGTGCCAGCGGCTACGCTGGCGCAGAGCTAGTGACCTAT -GTAAATCGCCATCCGCATATGAACATAACCGCTTTGACTGTTTCAGCGCAAAGCAATGATGCGGGAAAGT -TAATCTCCGATTTGCATCCGCAGCTAAAAGGCATCGTTGATCTGCCGTTGCAGCCGATGTCGGATATCAG -CGAGTTTAGCCCAGGGGTGGACGTAGTGTTTCTCGCCACCGCCCATGAAGTTAGCCACGATTTAGCGCCG -CAGTTTCTTGAAGCGGGCTGCGTGGTGTTCGACCTTTCCGGCGCGTTTCGTGTTAACGACGCCACCTTCT -ATGAAAAATATTACGGCTTTACCCATCAATACCCGGAACTGTTGGAACAGGCAGCCTACGGTCTGGCGGA -GTGGTGCGGTAATAAATTAAAAGAAGCGAATTTGATTGCGGTGCCGGGCTGTTATCCGACGGCGGCACAG -CTGGCGCTGAAACCGTTGATTGATGCCGATCTTCTTGACCTCAATCAGTGGCCGGTGATCAACGCCACCA -GCGGCGTGAGCGGTGCAGGGCGTAAAGCGGCCATTTCAAACAGCTTTTGTGAAGTTAGCCTGCAACCGTA -TGGCGTCTTTACTCATCGCCATCAACCAGAGATCGCCACACACCTCGGTGCTGACGTTATCTTCACCCCA -CATCTGGGCAATTTCCCGCGCGGCATTCTCGAAACCATTACCTGCCGCCTGAAATCGGGTGTGACCCAGG -CGCAAGTCGCGCAAGTGTTACAGCAGGCGTATGCCCATAAACCGCTGGTGCGGCTGTATGACAAAGGCGT -TCCGGCGCTGAAAAATGTCGTTGGGCTGCCATTTTGCGATATCGGGTTTGCCGTTCAGGGCGAGCATCTG -ATTATTGTGGCGACCGAAGACAACTTACTGAAAGGCGCGGCGGCACAAGCGGTACAGTGCGCCAATATTC -GTTTCGGCTATGCGGAAACGCAGTCTCTTATTTAAGGGTGCAATGATGAATCCATTAATTATCAAACTGG -GCGGCGTACTGCTGGATAGTGAAGAGGCGCTGGAACGTCTGTTTAGCGCACTGGTGAATTATCGTGAGTC -ACATCAGCGTCCGCTGGTGATTGTGCACGGCGGCGGTTGCGTGGTGGATGAGCTGATGAAAGGGCTGAAT -CTGCCGGTGAAAAAGAAAAACGGCCTGCGGGTGACGCCTGCTGATCAGATAGACATTATCACCGGAGCAC -TGGCGGGAACGGCAAATAAAACCCTGTTGGCATGGGCGAAGAAACATCAGATTGCGGCCGTAGGTTTGTT -TCTCGGTGACGGCGACAGCGTCAAAGTGACCCAGCTTGATGAAGAGTTAGGTCATGTTGGACTGGCGCAG -CCAGGTTCGCCTAAGCTTATCAACTCCTTGCTGGAGAACGGTTATCTGCCGGTGGTCAGCTCCATTGGCG -TAACAGACGAAGGGCAACTGATGAACGTCAATGCCGACCAGGCGGCAACGGCGCTGGCGGCAACGCTGGG -CGCGGATCTGATTTTGCTCTCCGACGTCAGCGGCATTCTCGACGGCAAAGGGCAACGCATTGCCGAAATG -ACCGCCGCGAAAGCAGAACAACTGATTGAGCAGGGCATTATTACTGACGGCATGATAGTGAAAGTGAACG -CGGCGCTGGATGCGGCCCGCACGCTGGGCCGTCCGGTAGATATCGCCTCCTGGCGTCATGCGGAGCAGCT -TCCGGCACTGTTTAACGGTATGCCGATGGGTACGCGGATTTTAGCTTAAGTTTTGTTGGCCGGAGGCGCA -GCTTTCCGGCATTGAATTTCAAAATAAGGAAACAGAGTTATGGCACTTTGGGGCGGGCGTTTTACCCAGG -CAGCAGATCAACGGTTCAAACAATTCAACGACTCACTGCGCTTTGATTACCGTCTGGCGGAGCAGGATAT -TGTTGGCTCTGTGGCCTGGTCCAAAGCCCTGGTCACGGTAGGCGTGTTAACCGCAGAAGAGCAGGCGCAA -CTGGAAGAGGCGCTGAACGTGTTGCTGGAAGATGTTCGCGCCAGGCCACAACAAATCCTTGAAAGCGACG -CCGAAGATATCCATAGCTGGGTGGAAGGCAAACTGATCGACAAAGTGGGCCAGTTAGGCAAAAAGCTGCA -TACCGGGCGTAGCCGTAATGATCAGGTAGCGACTGACCTGAAACTGTGGTGCAAAGATACCGTTAGCGAG -TTACTGACGGCTAACCGGCAGCTGCAATCGGCGCTGGTGGAAACCGCACAAAACAATCAGGACGCGGTAA -TGCCAGGTTACACTCACCTGCAACGCGCCCAGCCGGTGACGTTCGCGCACTGGTGCCTGGCCTATGTTGA -GATGCTGGCGCGTGATGAAAGCCGTTTGCAGGATGCGCTTAAGCGTCTGGATGTCAGCCCGCTAGGCTGT -GGCGCGCTGGCGGGAACGGCCTATGAAATCGACCGTGAACAGTTAGCAGGCTGGCTGGGCTTTGCTTCGG -CGACCCGTAACAGTCTCGACAGCGTTTCTGACCGTGACCATGTGTTGGAACTGCTTTCTGCTGCCGCTAT -CGGCATGGTGCATCTGTCGCGTTTTGCTGAAGATCTGATTTTCTTTAACACCGGCGAAGCGGGGTTTGTG -GAGCTTTCTGACCGCGTGACTTCCGGTTCATCATTAATGCCGCAGAAGAAAAACCCGGATGCGCTGGAGC -TGATTCGCGGTAAATGCGGCCGGGTGCAGGGGGCGTTAACCGGCATGATGATGACGCTGAAAGGTTTGCC -GCTGGCTTACAACAAAGATATGCAGGAAGACAAAGAAGGTCTGTTCGACGCGCTCGATACCTGGCTGGAC -TGCCTGCATATGGCGGCGCTGGTGCTGGACGGCATTCAGGTGAAACGTCCACGTTGCCAGGAAGCGGCTC -AGCAGGGTTACGCCAACGCCACCGAACTGGCGGATTATCTGGTGGCGAAAGGCGTACCGTTCCGCGAGGC -GCACCATATTGTTGGTGAAGCGGTGGTGGAAGCCATTCGTCAGGGCAAACCGCTGGAAGATCTGCCGCTC -AGTGAGTTGCAGAAATTCAGTCAGGTGATTGACGAAGATGTCTATCCGATTCTGTCGCTGCAATCGTGCC -TCGACAAGCGTGCGGCAAAAGGCGGCGTCTCACCGCAGCAGGTGGCGCAGGCGATTGCTTTTGCGCAGGC -TCGGTTAGGGTAAGAACATTTATATGTATAAATTTGAGCCTGGCTTATCGCCGGGCTTTTTTATGGCAAA -AAAAAGCGGATCCTGGAGATCCGCAAAAGTTCACGTTGGCTTTAGTTATTCGAGTTGAGAAACTCTCGAA -ACGGGCAGTGACTTCAAGGGTTAAAAGAGGTGCCGCTCCGTTTCTGTGAGCAATTATCAGTCAGAATGCT -TGATAGGGATAATCGTTCATTGCTATTCTACCTATCGCCATGAACTATCGTGGCGATGGAGGATGGATAA -TGAATATTCGTGATCTTGAGTACCTGGTGGCATTGGCTGAACACCGCCATTTTCGGCGTGCGGCAGATTC -CTGCCACGTTAGCCAGCCGACGCTTAGCGGGCAAATTCGTAAGCTGGAAGATGAGCTGGGCGTGATGTTG -CTGGAGCGGACCAGCCGTAAAGTGTTGTTCACCCAGGCGGGAATGCTGCTGGTGGATCAGGCGCGTACCG -TGCTGCGTGAGGTGAAAGTCCTTAAAGAGATGGCAAGCCAGCAGGGCGAGACGATGTCCGGACCGCTGCA -CATTGGTTTGATTCCCACAGTTGGACCGTACCTGCTACCGCATATTATCCCTATGCTGCACCAGACCTTT -CCAAAGCTGGAAATGTATCTGCATGAAGCACAGACCCACCAGTTACTGGCGCAACTGGACAGCGGCAAAC -TCGATTGCGTGATCCTCGCGCTGGTGAAAGAGAGCGAAGCATTCATTGAAGTGCCGTTGTTTGATGAGCC -AATGTTGCTGGCTATCTATGAAGATCACCCGTGGGCGAACCGCGAATGCGTACCGATGGCCGATCTGGCA -GGGGAAAAACTGCTGATGCTGGAAGATGGTCACTGTTTGCGCGATCAGGCAATGGGTTTCTGTTTTGAAG -CCGGGGCGGATGAAGATACACACTTCCGCGCGACCAGCCTGGAAACTCTGCGCAACATGGTGGCGGCAGG -TAGCGGGATCACTTTACTGCCAGCGCTGGCTGTGCCGCCGGAGCGCAAACGCGATGGGGTTGTTTATCTG -CCGTGCATTAAGCCGGAACCACGCCGCACTATTGGCCTGGTTTATCGTCCTGGCTCACCGCTGCGCAGCC -GCTATGAGCAGCTGGCAGAGGCCATCCGCGCAAGAATGGATGGCCATTTCGATAAAGTTTTAAAACAGGC -GGTTTAAACCGTTTAACGCAGCTACCCGATAGGCTTCCGCCATCGTCGGGTAGTTAAAGGTGGTGTTGAC -GAAGTACTCAATAGTGTTGCCGCCACCTTTCTGTTCCATAATCGCCTGACCGATATGAATAATTTCGGCA -GCGCGCTCGCCAAAGCAGTGAATACCCAGAATCTCTTTTGTTTCCCGATGGAACAAAATTTTCAGCGTGC -CCACGTTCATGCCGACGATTTGTGCGCGTGCCAGATGTTTAAACTGGGCGCGGCCCACTTCATATGGCAC -TTTCATTGCGGTCAGCTGCTGTTCGGTTTTGCCCACAGAGCTGATTTCCGGGATGGTGTAAATACCGGTA -GGGATATCTTCAATCAGATGTGCGGTGGCTTCGCCTTTTACCAGCGCCTGCGCGGCAATGCGCCCCTGGT -CATAGGCCGCCGACGCCAGGCTCGGATAACCAATCACGTCGCCCACCGCGTAAACGTGTGGCTGTGCGGT -CTGATACATGCTGTTGACCTTCAGCTGTCCGCGGCTGTCAGTTTCTAGCCCAATGTTCTGTAACGCCAGC -GAATCGGTATTACCGGTGCGACCGTTGGCATAGAGCAGGCAGTCAGCTTTCAGTTTTTTACCCGACTTCA -GATGCATGATCACACCATCGTCACAGCCTTCGATCTTCTCGTACTCTTCGTTGTGACGAATCACTACGCC -ACTGTTCCAGAAGTGATAGGAGAGAGAATCTGACATCTCTTGATCGAGAAATGCCAGCAGGCGATCGCGG -GTGTTGATCAGATCCACTTTTACATCCATACCGCGGAAGATCGACGCATATTCACAGCCGATCACTCCAG -CACCATAGATAAGTACATGGCGCGGTTCGTGGTGCATGCTGAGAATTGAGTCGCTGTCGTAAATGCGTGG -ATGGGTGAAATCAACATCTGTTGGATGATATGGACGAGAGCCGCAGGCAATAACAAATTTTTCAGCGGTT -AGTGTTTCAACGCTGCCGTCCGGGCAATCCAGCGCCAACGTATGCTCGTCAACAAAGCGAGCGTTTCCCT -GCAATATTTCACAGTGATTACGTTCGTAAAATCCCTGACGCATGCGCGTTTGTTGATTAATCACGTTATC -GGCATGGTTAAGGATATCGGCAAAAGAAGAGCGGAGCAGTCGGGAATGGTCGCTGTAAAGTGGGTTTTGA -TTGAATTCTATAATGCGGCTGACGGCGTGACGGAGAGCTTTCGACGGGATGGTGCCCCAGTGGGTGCAAC -CGCCGCCAACATTTTGATAACGCTCGATAACTGCGACGCGCGCACCTTGCTTAACCAGGCCCATTGCAGC -GCCTTCGCCGCCGGGGCCGGAACCTATTACTATGGCATCGTAATCGTAGGAATGTGGCATGGTAGGGCTT -ACCTGTTCTTATACATAAAAGCAACAGAATGGTAACATTTTATCGCGGGTAAGCCAATTGATCCCCGTCA -TTTATCTGGCTATATCCTGAGCGGCCTTTGCTTTGTCTGTTTCTTACTTTTGCCCTGACGTTTTATTGGA -TTTTTATCGACGATACTCTCCGTTTAAGCGGCAGGTTTCCGCTGTACGTAAAAGAACCGGCCAAAGAATT -GCAGTAAATATGTTTTATTGCGTTACCGTTCATTCACAATACTGGAGCAATCCAGTATGTTCATTCTCTG -GTATAGTGCCAGCAGTACTTTTGGCAAGGATTCAGACATCGTGATGGGCGTAAGAGCGCAACAAAAAGAA -AAAACCCGCCGTTCGCTGGTGGAAGCCGCATTTAGCCAATTAAGTGCTGAACGCAGCTTCGCCAGCCTGA -GTTTGCGTGAAGTGGCGCGTGAAGCGGGCATTGCTCCCACCTCTTTTTATCGGCATTTCCGCGACGTAGA -CGAACTGGGTCTGACCATGGTTGATGAGAGCGGTTTAATGCTACGCCAACTCATGCGCCAGGCGCGTCAG -CGTATCGCCAAAGGCGGGAGTGTGATCCGCACCTCGGTCTCCACATTTATGGAGTTCATCGGTAATAATC -CTAACGCCTTCCGGTTATTATTGCGGGAACGCTCCGGCACCTCCGCTGCGTTTCGTGCCGCCGTTGCGCG -TGAAATTCAGCACTTCATTGCGGAACTTGCGGACTATCTGGAACTCGAAAACCATATGCCGCGTGCGTTT -ACTGAAGCGCAAGCCGAAGCAATGGTGACAATTGTCTTCAGTGCGGGTGCCGAGGCGTTGGACGTCGGCG -TCGAACAACGTCGGCAATTAGAAGAGCGACTGGTACTGCAACTGCGAATGATTTCGAAAGGGGCTTATTA -CTGGTATCGCCGTGAACAAGAGAAAACCGCAATTATTCCGGGAAATGTGAAGGACGAGTAATGAAACAAG -CAAATCAAGATAGAGGTACGCTGCTGCTGGCGTTAGTTGCTGGCTTATCGATTAATGGTACTTTCGCAGC -GCTGTTTAGCTCCATTGTGCCATTTTCTGTATTCCCGATTATTTCCCTGGTGCTGACGGTTTACTGCCTG -CATCAACGTTATCTTAATCGCACTATGCCGGTAGGCTTGCCGGGTCTGGCAGCTGCCTGTTTTATTCTCG -GCGTACTGCTGTACAGCACGGTAGTTCGTGCGGAATATCCGGATATCGGCTCTAACTTCTTCCCGGCAGT -ACTCTCCGTCATTATGGTGTTCTGGATTGGCGCGAAGATGCGTAACCGTAAGCAGGAAGTTGCTGAGTAA -TCGGTATTATGCCGGATGCTGGCGCATCCGGCATGGGTTTTACTTCGCGGTCAGTAATACGCCGCACTCC -ATATGGTGCGTGTAGGGGAACTGATCAAACAGAGCCAGACGTTCGACCTTGTGCGTCTGGCTTAATGTTT -CCAGATTCTTGCATAACGTTTCCGGGTTACAGGAGATGTACAAAATACGCGGATACGCCTGCACCATTTT -CTCGGTTTCACTGTCCAGACCGCTGCGCGGAGGGTCGACAAAAATGGTTTCGCACTGATAACTCTTTAAG -TCGATCCCTTGCAGGCGGTTAAACTCGCGCACACCATTCATCGCCTGAGTAAATTCTTCTGCCGCCATAC -GAATAATTTGTACGTTATCAATATGGTTAGCTGCGATGTTGTATTGCGCAGCAGCAACCGACGGCTTAGC -GATTTCGGTGGCTAATACCCGATCAAAATTACGCGCCAGCGCTAATGAAAAGTTACCGTTGCCGCAGTAC -AGCTCCAGTAAATCGCCTTTTGAGCCTTTGGTTACGTCCAGCGCCCATTCCAGCATCTGAATATTCATCG -CCGCGTTCGGCTGGGTAAAGCTGTTTTCTACCTGACGGTAGATCATCTCTTTCCCTGCGACCGGCAGACG -TTCATCGATGTAATCCTGATCCAGCTCGATTTTGGTTTTCGTTGCCCGACCAATCAGATGCACATTCAGA -TTCTGCGCGCGCAGTGCATCGCGCAGGGCCTCCGCTTCCTGACGCCACTCATCATCCAGCTTCTTATGGT -ATAGCAGGGAAACCACCGCCTGATTACTCAGTGTAGTGAGGTAATCAATCTGGAACAACTTGTGGCGCAG -AACGGGATTATTACGCACACCCGCAATCATCGCCGTCATCAACTGGTTGATAAGTTCACTGGCGGCGGGG -AAGCTATCCACGCGGATGCGGCTTTTGGTTTGTTGATCGAAAATGATGTGATACAGGTCATCGCCATCGT -GCCAGATGCGGAACTCCGCGCGCATCCGGTAATGACTGACCGGCGAGCGAAACACTTCCGGAACCAGGTC -AGAAAACGGTGCCATCATACTTTGCAAACGTACCACTTTTTCGGCTAACTGCGCTTCATACTGTTCTGTT -GGAAGGTGTTCGGGGGTCATGATGTATCCTGAAAAATTAAAGTACGCGGCGATTGTAGGGATTGCTCATC -AGATGTCCAGATCTTGATGAATTCCTATTTGTGAGCTACGTCTGGACAGTAACTTGTTACAACCTGTAGC -ATCCACTTGCCGGTCCTGTGAGTTAATAGGGAATCCAGTGCGAATCTGGAGCTGACGCGCAGCGGTAAGG -AAAGGTGCGATGATTGCGTTATGCGGACACTGCCATTCGGTGGGAAGTCATCATCTCTTAGTATCTTAGA -TACCCCTCCAAGCCCGAAGACCTGCCGGCCAACGTCGCATCTGGTTCTCATCATCGCGTAATATTGATGA -AACCTGCGGCATCCTTCTTCTATTGTGGATGCTTTACAATGATTAAAAAAGCTTCGCTGCTGACGGCGTG -TTCCGTCACGGCATTTTCCGCTTGGGCACAGGATACCAGCCCGGATACTCTCGTCGTTACTGCTAACCGT -TTTGAACAGCCGCGCAGCACTGTGCTTGCACCAACCACCGTTGTGACCCGTCAGGATATCGACCGCTGGC -AGTCGACCTCGGTCAATGATGTGCTGCGCCGTCTTCCGGGCGTCGATATCACCCAAAACGGCGGTTCAGG -TCAGCTCTCATCTATTTTTATTCGCGGTACAAATGCCAGTCATGTGTTGGTGTTAATTGATGGCGTACGC -CTGAATCTGGCGGGGGTGAGTGGTTCTGCCGACCTTAGCCAGTTCCCTATTGCGCTTGTCCAGCGTGTTG -AATATATCCGTGGGCCGCGCTCCGCTGTTTATGGTTCCGATGCAATAGGCGGGGTGGTGAATATCATCAC -GACGCGCGATGAACCCGGAACGGAAATTTCAGCAGGGTGGGGAAGCAATAGTTATCAGAACTATGATGTC -TCTACGCAGCAACAACTGGGGGATAAGACACGGGTAACGCTGTTGGGCGATTATGCCCATACTCATGGTT -ATGATGTTGTTGCCTATGGTAATACCGGAACGCAAGCGCAGACAGATAACGATGGTTTTTTAAGTAAAAC -GCTTTATGGCGCGCTGGAGCATAACTTTACTGATGCCTGGAGCGGCTTTGTGCGCGGCTATGGCTATGAT -AACCGTACCAATTATGACGCGTATTATTCTCCCGGTTCACCGTTGCTCGATACCCGTAAACTCTATAGCC -AAAGTTGGGACGCCGGGCTGCGCTATAACGGCGAACTGATTAAATCACAACTCATTACCAGCTATAGCCA -TAGCAAAGATTACAACTACGATCCCCATTATGGTCGTTATGATTCGTCGGCGACGCTCGATGAGATGAAG -CAATACACCGTCCAGTGGGCAAACAATGTCATCGTTGGTCACGGTAGTATTGGTGCGGGTGTCGACTGGC -AGAAACAGACTACGACGCCGGGTACAGGTTATGTTGAGGATGGATATGATCAACGTAATACCGGCATCTA -TCTGACCGGGCTGCAACAAGTCGGCGATTTTACCTTTGAAGGCGCAGCACGCAGTGACGATAACTCACAG -TTTGGTCGTCATGGAACCTGGCAAACCAGCGCCGGTTGGGAATTCATCGAAGGTTATCGCTTCATTGCTT -CCTACGGGACATCTTATAAGGCACCAAATCTGGGGCAACTGTATGGCTTCTACGGAAATCCGAATCTGGA -CCCGGAGAAAAGCAAACAGTGGGAAGGCGCGTTTGAAGGCTTAACCGCTGGGGTGAACTGGCGTATTTCC -GGATATCGTAACGATGTCAGTGACTTGATCGATTATGATGATCACACCCTGAAATATTACAACGAAGGGA -AAGCGCGGATTAAGGGCGTCGAGGCGACCGCCAATTTTGATACCGGACCACTGACGCATACTGTGAGTTA -TGATTATGTCGATGCGCGCAATGCGATTACCGACACGCCGTTGTTACGCCGTGCTAAACAGCAGGTGAAA -TACCAGCTCGACTGGCAGTTGTATGACTTCGACTGGGGTATTACTTATCAGTATTTAGGCACTCGCTATG -ATAAGGATTACTCATCTTATCCTTATCAAACCGTTAAAATGGGCGGTGTGAGCTTGTGGGATCTTGCGGT -TGCGTATCCGGTCACCTCTCACCTGACAGTTCGTGGTAAAATAGCCAACCTGTTCGACAAAGATTATGAG -ACAGTCTATGGCTACCAAACTGCAGGACGGGAATACACCTTGTCTGGCAGCTACACCTTCTGAACCACGT -CCCACCGTGCTGGTGTTTGACTCCGGCGTCGGTGGGTTGTCGGTCTATGACGAGATCCGGCATCTCTTAC -CGGATCTCCATTACATTTATGCTTTCGATAACGTCGCTTTCCCGTATGGCGAAAAAAGCGAAGCGTTTAT -TGTTGAGCGAGTGGTGGCAATTGTCACCGCGGTGCAAGAACGTTATCCCCTTGCGCTGGCTGTGGTCGCT -TGCAACACTGCCAGTACCGTTTCACTTCCTGCATTACGCGAAAAGTTCGACTTCCCGGTTGTTGGTGTCG -TGCCGGCGATTAAACCTGCTGCACGTCTGACGGCAAATGGCATTGTCGGATTACTGGCAACCCGCGGAAC -AGTTAAACGTTCTTATACTCATGAGCTGATCGCGCGTTTCGCTAATGAATGCCAGATAGAAATGCTGGGC -TCGGCAGAGATGGTTGAGTTGGCTGAAGCGAAGCTACATGGCGAAGATGTTTCTCTGGATGCACTAAAAC -GTATCCTACGCCCGTGGTTAAGAATGAAAGAGCCGCCAGATACCGTTGTATTGGGTTGCACCCATTTCCC -TCTACTACAAGAAGAACTGTTACAAGTGCTGCCAGAGGGAACCCGGCTGGTGGATTCTGGCGCAGCGATT -GCTCGCCGAACGGCCTGGTTGTTAGAACATGAAGCCCCGGATGCAAAATCTGCCGATGCGAATATTGCCT -TTTGTATGGCAATGACGCCAGGAGCTGAACAATTATTGCCCGTTTTACAGCGTTACGGCTTCGAAACGCT -CGAAAAACTGGCAGTTTTAGGCTGATTTGGTTGAATGTTGCGCGGTCAGAAAATTATTTTAAATTTCCTC -TTGTCAGGCCGGAATAACTCCCTATAATGCGCCACCACTGACACGGAACAACGGCAAACACGCCGCCGGG -TCAGCGGGGTTCTCCTGAGAACTCCGGCAGAGAAAGCAAAAATAAATGCTTGACTCTGTAGCGGGAAGGC -GTATTATGCACACCCCGCGCCGCTGAGAAAAAGCGAAGCGGCACTGCTCTTTAACAATTTATCAGACAAT -CTGTGTGGGCACTCGAAGATACGGATTCTTAACGTCGCAAGACGAAAAATGAATACCAAGTCTCAAGAGT -GAACACGTAATTCATTACGAAGTTTAATTCTTTGAGCGTCAAACTTTTAAATTGAAGAGTTTGATCATGG -CTCAGATTGAACGCTGGCGGCAGGCCTAACACATGCAAGTCGAACGGTAACAGGAAGAAGCTTGCTTCTT -TGCTGACGAGTGGCGGACGGGTGAGTAATGTCTGGGAAACTGCCTGATGGAGGGGGATAACTACTGGAAA -CGGTAGCTAATACCGCATAACGTCGCAAAACCAAAGAGGGGGACCTTCGGGCCTCTTGCCATCGGATGTG -CCCAGATGGGATTAGCTAGTAGGTGGGGTAACGGCTCACCTAGGCGACGATCCCTAGCTGGTCTGAGAGG -ATGACCAGCCACACTGGAACTGAGACACGGTCCAGACTCCTACGGGAGGCAGCAGTGGGGAATATTGCAC -AATGGGCGCAAGCCTGATGCAGCCATGCCGCGTGTATGAAGAAGGCCTTCGGGTTGTAAAGTACTTTCAG -CGGGGAGGAAGGGAGTAAAGTTAATACCTTTGCTCATTGACGTTACCCGCAGAAGAAGCACCGGCTAACT -CCGTGCCAGCAGCCGCGGTAATACGGAGGGTGCAAGCGTTAATCGGAATTACTGGGCGTAAAGCGCACGC -AGGCGGTTTGTTAAGTCAGATGTGAAATCCCCGGGCTCAACCTGGGAACTGCATCTGATACTGGCAAGCT -TGAGTCTCGTAGAGGGGGGTAGAATTCCAGGTGTAGCGGTGAAATGCGTAGAGATCTGGAGGAATACCGG -TGGCGAAGGCGGCCCCCTGGACGAAGACTGACGCTCAGGTGCGAAAGCGTGGGGAGCAAACAGGATTAGA -TACCCTGGTAGTCCACGCCGTAAACGATGTCGACTTGGAGGTTGTGCCCTTGAGGCGTGGCTTCCGGAGC -TAACGCGTTAAGTCGACCGCCTGGGGAGTACGGCCGCAAGGTTAAAACTCAAATGAATTGACGGGGGCCC -GCACAAGCGGTGGAGCATGTGGTTTAATTCGATGCAACGCGAAGAACCTTACCTGGTCTTGACATCCACG -GAAGTTTTCAGAGATGAGAATGTGCCTTCGGGAACCGTGAGACAGGTGCTGCATGGCTGTCGTCAGCTCG -TGTTGTGAAATGTTGGGTTAAGTCCCGCAACGAGCGCAACCCTTATCCTTTGTTGCCAGCGGTCCGGCCG -GGAACTCAAAGGAGACTGCCAGTGATAAACTGGAGGAAGGTGGGGATGACGTCAAGTCATCATGGCCCTT -ACGACCAGGGCTACACACGTGCTACAATGGCGCATACAAAGAGAAGCGACCTCGCGAGAGCAAGCGGACC -TCATAAAGTGCGTCGTAGTCCGGATTGGAGTCTGCAACTCGACTCCATGAAGTCGGAATCGCTAGTAATC -GTGGATCAGAATGCCACGGTGAATACGTTCCCGGGCCTTGTACACACCGCCCGTCACACCATGGGAGTGG -GTTGCAAAAGAAGTAGGTAGCTTAACCTTCGGGAGGGCGCTTACCACTTTGTGATTCATGACTGGGGTGA -AGTCGTAACAAGGTAACCGTAGGGGAACCTGCGGTTGGATCACCTCCTTACCTTAAAGAAGCGTACTTTG -TAGTGCTCACACAGATTGTCTGATAGAAAGTGAAAAGCAAGGCGTTTACGCGTTGGGAGTGAGGCTGAAG -AGAATAAGGCCGTTCGCTTTCTATTAATGAAAGCTCACCCTACACGAAAATATCACGCAACGCGTGATAA -GCAATTTTCGTGTCCCCTTCGTCTAGAGGCCCAGGACACCGCCCTTTCACGGCGGTAACAGGGGTTCGAA -TCCCCTAGGGGACGCCACTTGCTGGTTTGTGAGTGAAAGTCGCCGACCTTAATATCTCAAAACTCATCTT -CGGGTGATGTTTGAGATATTTGCTCTTTAAAAATCTGGATCAAGCTGAAAATTGAAACACTGAACAACGA -GAGTTGTTCGTGAGTCTCTCAAATTTTCGCAACACGATGATGAATCGAAAGAAACATCTTCGGGTTGTGA -GGTTAAGCGACTAAGCGTACACGGTGGATGCCCTGGCAGTCAGAGGCGATGAAGGACGTGCTAATCTGCG -ATAAGCGTCGGTAAGGTGATATGAACCGTTATAACCGGCGATTTCCGAATGGGGAAACCCAGTGTGTTTC -GACACACTATCATTAACTGAATCCATAGGTTAATGAGGCGAACCGGGGGAACTGAAACATCTAAGTACCC -CGAGGAAAAGAAATCAACCGAGATTCCCCCAGTAGCGGCGAGCGAACGGGGAGCAGCCCAGAGCCTGAAT -CAGTGTGTGTGTTAGTGGAAGCGTCTGGAAAGGCGCGCGATACAGGGTGACAGCCCCGTACACAAAAATG -CACATGCTGTGAGCTCGATGAGTAGGGCGGGACACGTGGTATCCTGTCTGAATATGGGGGGACCATCCTC -CAAGGCTAAATACTCCTGACTGACCGATAGTGAACCAGTACCGTGAGGGAAAGGCGAAAAGAACCCCGGC -GAGGGGAGTGAAAAAGAACCTGAAACCGTGTACGTACAAGCAGTGGGAGCACGCTTAGGCGTGTGACTGC -GTACCTTTTGTATAATGGGTCAGCGACTTATATTCTGTAGCAAGGTTAACCGAATAGGGGAGCCGAAGGG -AAACCGAGTCTTAACTGGGCGTTAAGTTGCAGGGTATAGACCCGAAACCCGGTGATCTAGCCATGGGCAG -GTTGAAGGTTGGGTAACACTAACTGGAGGACCGAACCGACTAATGTTGAAAAATTAGCGGATGACTTGTG -GCTGGGGGTGAAAGGCCAATCAAACCGGGAGATAGCTGGTTCTCCCCGAAAGCTATTTAGGTAGCGCCTC -GTGAATTCATCTCCGGGGGTAGAGCACTGTTTCGGCAAGGGGGTCATCCCGACTTACCAACCCGATGCAA -ACTGCGAATACCGGAGAATGTTATCACGGGAGACACACGGCGGGTGCTAACGTCCGTCGTGAAGAGGGAA -ACAACCCAGACCGCCAGCTAAGGTCCCAAAGTCATGGTTAAGTGGGAAACGATGTGGGAAGGCCCAGACA -GCCAGGATGTTGGCTTAGAAGCAGCCATCATTTAAAGAAAGCGTAATAGCTCACTGGTCGAGTCGGCCTG -CGCGGAAGATGTAACGGGGCTAAACCATGCACCGAAGCTGCGGCAGCGACGCTTATGCGTTGTTGGGTAG -GGGAGCGTTCTGTAAGCCTGCGAAGGTGTGCTGTGAGGCATGCTGGAGGTATCAGAAGTGCGAATGCTGA -CATAAGTAACGATAAAGCGGGTGAAAAGCCCGCTCGCCGGAAGACCAAGGGTTCCTGTCCAACGTTAATC -GGGGCAGGGTGAGTCGACCCCTAAGGCGAGGCCGAAAGGCGTAGTCGATGGGAAACAGGTTAATATTCCT -GTACTTGGTGTTACTGCGAAGGGGGGACGGAGAAGGCTATGTTGGCCGGGCGACGGTTGTCCCGGTTTAA -GCGTGTAGGCTGGTTTTCCAGGCAAATCCGGAAAATCAAGGCTGAGGCGTGATGACGAGGCACTACGGTG -CTGAAGCAACAAATGCCCTGCTTCCAGGAAAAGCCTCTAAGCATCAGGTAACATCAAATCGTACCCCAAA -CCGACACAGGTGGTCAGGTAGAGAATACCAAGGCGCTTGAGAGAACTCGGGTGAAGGAACTAGGCAAAAT -GGTGCCGTAACTTCGGGAGAAGGCACGCTGATATGTAGGTGAGGTCCCTCGCGGATGGAGCTGAAATCAG -TCGAAGATACCAGCTGGCTGCAACTGTTTATTAAAAACACAGCACTGTGCAAACACGAAAGTGGACGTAT -ACGGTGTGACGCCTGCCCGGTGCCGGAAGGTTAATTGATGGGGTTAGCGCAAGCGAAGCTCTTGATCGAA -GCCCCGGTAAACGGCGGCCGTAACTATAACGGTCCTAAGGTAGCGAAATTCCTTGTCGGGTAAGTTCCGA -CCTGCACGAATGGCGTAATGATGGCCAGGCTGTCTCCACCCGAGACTCAGTGAAATTGAACTCGCTGTGA -AGATGCAGTGTACCCGCGGCAAGACGGAAAGACCCCGTGAACCTTTACTATAGCTTGACACTGAACATTG -AGCCTTGATGTGTAGGATAGGTGGGAGGCTTTGAAGTGTGGACGCCAGTCTGCATGGAGCCGACCTTGAA -ATACCACCCTTTAATGTTTGATGTTCTAACGTTGACCCGTAATCCGGGTTGCGGACAGTGTCTGGTGGGT -AGTTTGACTGGGGCGGTCTCCTCCTAAAGAGTAACGGAGGAGCACGAAGGTTGGCTAATCCTGGTCGGAC -ATCAGGAGGTTAGTGCAATGGCATAAGCCAGCTTGACTGCGAGCGTGACGGCGCGAGCAGGTGCGAAAGC -AGGTCATAGTGATCCGGTGGTTCTGAATGGAAGGGCCATCGCTCAACGGATAAAAGGTACTCCGGGGATA -ACAGGCTGATACCGCCCAAGAGTTCATATCGACGGCGGTGTTTGGCACCTCGATGTCGGCTCATCACATC -CTGGGGCTGAAGTAGGTCCCAAGGGTATGGCTGTTCGCCATTTAAAGTGGTACGCGAGCTGGGTTTAGAA -CGTCGTGAGACAGTTCGGTCCCTATCTGCCGTGGGCGCTGGAGAACTGAGGGGGGCTGCTCCTAGTACGA -GAGGACCGGAGTGGACGCATCACTGGTGTTCGGGTTGTCATGCCAATGGCACTGCCCGGTAGCTAAATGC -GGAAGAGATAAGTGCTGAAAGCATCTAAGCACGAAACTTGCCCCGAGATGAGTTCTCCCTGACCCTTTAA -GGGTCCTGAAGGAACGTTGAAGACGACGACGTTGATAGGCCGGGTGTGTAAGCGCAGCGATGCGTTGAGC -TAACCGGTACTAATGAACCGTGAGGCTTAACCTTACAACGCCGAAGCTGTTTTGGCGGATGAGAGAAGAT -TTTCAGCCTGATACAGATTAAATCAGAACGCAGAAGCGGTCTGATAAAACAGAATTTGCCTGGCGGCAGT -AGCGCGGTGGTCCCACCTGACCCCATGCCGAACTCAGAAGTGAAACGCCGTAGCGCCGATGGTAGTGTGG -GGTCTCCCCATGCGAGAGTAGGGAACTGCCAGGCATCAAATAAAACGAAAGGCTCAGTCGAAAGACTGGG -CCTTTCGTTTTATCTGTTGTTTGTCGGTGAACGCTCTCCTGAGTAGGACAAATCCGCCGGGAGCGGATTT -GAACGTTGCGAAGCAACGGCCCGGAGGGTGGCGGGCAGGACGCCCGCCATAAACTGCCAGGCATCAAATT -AAGCAGAAGGCCATCCTGACGGATGGCCTTTTTGCGTTTCTACAAACTCTTCCTGTCGTCATATCTACAA -GCCATCCCCCCACAGATACGGTAAACTAGCCTCGTTTTTGCATCAGGAAAGCAGCTATGAACCACTCCTT -AAAACCCTGGAACACATTTGGCATTGATCATAATGCTCAGCACATTGTATGTGCCGAAGACGAACAACAA -TTACTCAATGCCTGGCAGTATGCAACCGCAGAAGGACAACCCGTTCTTATTCTGGGTGAAGGAAGTAATG -TACTTTTTCTGGAGGACTATCGCGGCACGGTGATCATCAACCGGATCAAAGGTATCGAAATTCATGATGA -ACCTGATGCGTGGTATTTACATGTAGGAGCCGGAGAAAACTGGCATCGTCTGGTAAAATACACTTTGCAG -GAAGGTATGCCTGGTCTGGAAAATCTGGCATTAATTCCTGGTTGTGTCGGCTCATCACCTATCCAGAATA -TTGGTGCTTATGGCGTAGAATTACAGCGAGTTTGCGCTTATGTTGATTCTGTTGAACTGGCGACAGGCAA -GCAAGTGCGCTTAACTGCCAAAGAGTGCCGTTTTGGCTATCGCGACAGTATTTTTAAACATGAATACCAG -GACCGCTTCGCTATTGTAGCCGTAGGTCTGCGTCTGCCAAAAGAGTGGCAACCTGTACTAACGTATGGTG -ACTTAACTCGTCTGGATCCTACAACAGTAACGCCACAGCAAGTATTTAATGCGGTGTGTCATATGCGCAC -CACCAAACTCCCTGATCCAAAAGTGAATGGCAATGCCGGTAGTTTCTTCAAAAACCCTGTTGTATCTGCC -GAAACGGCTAAAGCATTACTGTCACAATTTCCAACAGCACCAAATTACCCCCAGGCGGATGGTTCAGTAA -AACTGGCAGCAGGTTGGCTTATCGATCAGTGCCAGCTAAAAGGGATGCAAATAGGTGGGGCTGCGGTGCA -CCGTCAACAGGCGTTAGTTCTCATTAATGAAGACAATGCAAAAAGCGAAGATGTTGTACAGCTGGCGCAT -CATGTAAGACAGAAAGTTGGTGAAAAATTTAATGTCTGGCTTGAGCCTGAAGTCCGCTTTATTGGTGCAT -CAGGTGAAGTGAGCGCAGTGGAGACAATTTCATGAAGGATAACACCGTGCCACTGAAATTGATTGCCCTG -TTAGCGAACGGTGAATTTCACTCTGGCGAGCAGTTGGGTGAAACGCTGGGAATGAGCCGGGCGGCTATTA -ATAAACACATTCAGACACTGCGTGACTGGGGCGTTGATGTCTTTACCGTTCCGGGTAAAGGATACAGCCT -GCCTGAGCCTATCCAGTTACTTAATGCTAAACAGATATTGGGTCAGCTGGATGGCGGTAGTGTAGCCGTG -CTGCCAGTGATTGACTCCACGAATCAGTACCTTCTTGATCGTATCGGAGAGCTTAAATCGGGCGATGCTT -GCATTGCAGAATACCAGCAGGCTGGCCGTGGTCGCCGGGGTCGGAAATGGTTTTCGCCTTTTGGCGCAAA -CTTATATTTGTCGATGTTCTGGCGTCTGGAACAAGGCCCGGCGGCGGCGATTGGTTTAAGTCTGGTTATC -GGTATCGTGATGGCGGAAGTATTACGCAAGCTGGGTGCAGATAAAGTTCGTGTTAAATGGCCTAATGACC -TCTATCTGCAGGATCGCAAGCTGGCAGGCATTCTGGTGGAGCTGACTGGCAAAACTGGCGATGCGGCGCA -AATAGTCATTGGAGCCGGGATCAACATGGCAATGCGCCGTGTTGAAGAGAGTGTCGTTAATCAGGGGTGG -ATCACGCTGCAGGAAGCGGGGATCAATCTCGATCGTAATACGTTGGCGGCCATGCTAATACGTGAATTAC -GTGCTGCGTTGGAACTCTTCGAACAAGAAGGATTGGCACCTTATCTGTCGCGCTGGGAAAAGCTGGATAA -TTTTATTAATCGCCCAGTGAAACTTATCATTGGTGATAAAGAAATATTTGGCATTTCACGCGGAATAGAC -AAACAGGGGGCTTTATTACTTGAGCAGGATGGAATAATAAAACCCTGGATGGGCGGTGAAATATCCCTGC -GTAGTGCAGAAAAATAAGAAAGGGGAGTATTCGCTCCCCTGCAAATTATTTGCGTAGTCTGACCTCTTCT -ACCGCATGATTAGCACTTTTCGTCAGGATTAAACTGGCGCGCTCACGAGTAGGTAGAATATTTTGCTTTA -AGTTCAGCCAGTTGATCTCTTTCCACAATGTCATGGCAGTCTTAATCGCTTCTTCTTTAGTTAATTTCGC -GTAGTTATGAAAATAGGAATCCGGGTCGGTAAAAGCCCCTTCGCGGAATTTCAGAAAACGGTTGATATAC -CATGTCTGAAGTAAGTCTTCCGGTGCATCAACATATATCGAAAAATCGACAAAATCAGAAACAAATACAT -GATGTGGATCGTGTGGATAATCCATCCCGCTCTGTAAGACATTTAACCCTTCAAGAATTAAAATATCAGG -CTGAACAACCGTTTTATCTCCATCCGGGATCACATCATAAATAAGATGTGAGTAAACAGGTGCTGTAACG -TTTGGCACGCCGGATTTGAGATCGGAAACAAACTTCACCAGGCGATGCATATCATACGATTCCGGGAAGC -CTTTCTTCTTCATCAGACCACGTTCTTTCAGAACCTGATTAGGGTGAAGGAAGCCATCTGTAGTGATCAG -TTCAACACGACGATGTTCCGGCCAACGGCTTAATAGCGCCTGCAATACACGGGCGGTTGTACTTTTCCCC -ACCGCGACACTGCCAGCAATACTGATAATGTAAGGAATGCGTTGCCCGTTGGTACCAAGAAACTGTTCCA -GAACTGCCTGACGGCGCAGATTCGAGCTTATATAGAAGTTCAGCAAACGTGACAAAGGTAAATAGATCTC -GGCAACTTCTTCTAACGAGAGATCTTCATTAATACCTTTGAGACGGGCGATCTCATCTTCCGATAACGTC -ATAGGTACGGAATCACGCAGAGCTGCCCACTGGTTGCGGTCAAACTGTAGGTAAGGCGTCATTAACGTTT -GCTCTTTTATACTCATAAGCATGTTTCTGGCGGTCATAGCTCTATCGGCAAAGCGATATTTGCCATGGCG -CGTCACAGTTCTGTTGAATGGGTTAATGGGCAGGAGGGTAACACCAGATGGGGAGGAATAATAAGAAAAA -ATCTCTGCCAGGAAGCTATCGTTGAAAAGCAATGTGACAGATATTCCATCTGATAAAAAGAATTATGGTT -TAGCAGGAGCGCATTGTTGAGCACAATGATGTGAAAAAGTGTGCTAATCTGCCCTCCGTTCGGCTGTTTC -TTCATCGTGTCGCATAAAATGTGACCAATAAAACAAATTATGCAATTTTTTAGTTGCATGAACTCGCATG -TCTCCATAGAATGCGCGCTACTTGATGCCGACTTAGCTCAGTAGGTAGAGCAACTGACTTGTAATCAGTA -GGTCACCAGTTCGATTCCGGTAGTCGGCACCATCAAGTCCGGTGGGGTTCCCGAGCGGCCAAAGGGAGCA -GACTGTAAATCTGCCGTCACAGACTTCGAAGGTTCGAATCCTTCCCCCACCACCAATTTCGGCCACGCGA -TGGCGTAGCCCGAGACGATAAGTTCGCTTACCGGCTCGAATAAAGAGAGCTTCTCTCGATATTCAGTGCA -GAATGAAAATCAGGTAGCCGAGTTCCAGGATGCGGGCATCGTATAATGGCTATTACCTCAGCCTTCCAAG -CTGATGATGCGGGTTCGATTCCCGCTGCCCGCTCCAAGATGTGCTGATATAGCTCAGTTGGTAGAGCGCA -CCCTTGGTAAGGGTGAGGTCGGCAGTTCGAATCTGCCTATCAGCACCACTTCTTTTCTCCTCCCTGTTTT -TTCCTTCTGTTTATTGCATTCAACAAGTCGGGCATGTTGCCTGGTTGATGTGGTGATATCACCGATTTAT -CCGTGTCTTAGAGGGACAATCGATGTCTAAAGAAAAGTTTGAACGTACAAAACCGCACGTTAACGTCGGT -ACTATCGGCCACGTTGACCATGGTAAAACAACGCTGACCGCTGCAATCACTACCGTACTGGCTAAAACCT -ACGGCGGTGCTGCTCGCGCATTCGACCAGATCGATAACGCGCCGGAAGAAAAAGCTCGTGGTATCACCAT -CAACACTTCTCACGTTGAATACGACACCCCGACCCGTCACTACGCACACGTAGACTGCCCGGGGCACGCC -GACTATGTTAAAAACATGATCACCGGTGCTGCGCAGATGGACGGCGCGATCCTGGTAGTTGCTGCGACTG -ACGGCCCGATGCCGCAGACTCGTGAGCACATCCTGCTGGGTCGTCAGGTAGGCGTTCCGTACATCATCGT -GTTCCTGAACAAATGCGACATGGTTGATGACGAAGAGCTGCTGGAACTGGTTGAAATGGAAGTTCGTGAA -CTTCTGTCTCAGTACGACTTCCCGGGCGACGACACTCCGATCGTTCGTGGTTCTGCTCTGAAAGCGCTGG -AAGGCGACGCAGAGTGGGAAGCGAAAATCCTGGAACTGGCTGGCTTCCTGGATTCTTACATTCCGGAACC -AGAGCGTGCGATTGACAAGCCGTTCCTGCTGCCGATCGAAGACGTATTCTCCATCTCCGGTCGTGGTACC -GTTGTTACCGGTCGTGTAGAACGCGGTATCATCAAAGTTGGTGAAGAAGTTGAAATCGTTGGTATCAAAG -AGACTCAGAAGTCTACCTGTACTGGCGTTGAAATGTTCCGCAAACTGCTGGACGAAGGCCGTGCTGGTGA -GAACGTAGGTGTTCTGCTGCGTGGTATCAAACGTGAAGAAATCGAACGTGGTCAGGTACTGGCTAAGCCG -GGCACCATCAAGCCGCACACCAAGTTCGAATCTGAAGTGTACATTCTGTCCAAAGATGAAGGCGGCCGTC -ATACTCCGTTCTTCAAAGGCTACCGTCCGCAGTTCTACTTCCGTACTACTGACGTGACTGGTACCATCGA -ACTGCCGGAAGGCGTAGAGATGGTAATGCCGGGCGACAACATCAAAATGGTTGTTACCCTGATCCACCCG -ATCGCGATGGACGACGGTCTGCGTTTCGCAATCCGTGAAGGCGGCCGTACCGTTGGCGCGGGCGTTGTAG -CAAAAGTTCTGAGCTAATTGCCGATAACATTTGACGCAATGCGCACTAAAAGGGCATCATTTGATGCCCT -TTTTGCACGCTTTCGTACCAGAACCTGGCTCATCAGTGATTTTCTTTGTCATAATCATTGCTGAGACAGG -CTCTGTTGAGGGCGTATAATCCGAAAAGCTAATACGCGTTTCGATTTGGTTTGCCTCGCGATCGCGGGGT -GAAAATGTTTGTAGAAAACTTCTGACAGGTTGGTTTATGAGTGCGAATACCGAAGCTCAAGGAAGCGGGC -GCGGCCTGGAAGCGATGAAGTGGGTCGTTGTGGTGGCATTGCTCCTGGTGGCGATTGTCGGCAACTATCT -TTATCGCGACATTATGCTGCCGCTGCGTGCGCTGGCCGTAGTAATTCTGATTGCTGCAGCGGGTGGTGTC -GCGCTGTTAACGACAAAAGGTAAAGCTACCGTTGCTTTTGCCCGTGAAGCGCGTACCGAAGTCCGTAAGG -TCATTTGGCCGACTCGCCAGGAAACATTGCACACCACGCTGATTGTGGCTGCGGTTACCGCAGTAATGTC -ACTGATCCTGTGGGGACTGGATGGTATTCTGGTTCGCCTGGTATCCTTTATCACTGGCCTGAGGTTCTGA -GATGTCTGAAGCTCCTAAAAAGCGCTGGTACGTCGTTCAGGCGTTTTCCGGTTTTGAAGGCCGCGTAGCA -ACGTCGCTGCGTGAGCATATCAAATTACACAACATGGAAGATTTGTTTGGTGAAGTCATGGTACCAACCG -AAGAAGTGGTTGAAATCCGTGGCGGTCAGCGTCGCAAAAGCGAACGTAAATTCTTCCCTGGCTACGTCCT -CGTTCAGATGGTGATGAACGACGCGAGCTGGCACCTGGTGCGCAGCGTACCGCGTGTGATGGGCTTCATC -GGCGGTACTTCCGATCGTCCTGCGCCAATCAGCGATAAAGAAGTCGATGCGATTATGAACCGCCTGCAGC -AGGTTGGTGATAAGCCGCGTCCGAAAACGCTGTTTGAACCGGGTGAAATGGTCCGTGTTAATGATGGTCC -GTTCGCTGACTTCAACGGTGTTGTTGAAGAAGTGGATTACGAGAAATCTCGTCTGAAAGTGTCTGTTTCT -ATCTTCGGTCGTGCGACCCCGGTAGAGCTGGACTTCAGCCAGGTTGAAAAAGCCTAACCCAGCGATCAAA -AAAGCGGCGATTTAATCGTTGCACAAGGCGTGAGATTGGAATACAATTTCGCGCCTTTTGTTTTTATGGG -CCTTGCCCGTAAAACGATTTTTTATATCACGGGGAGCCTCTCAGAGGCGTTATTACCCAACTTGAGGAAT -TTATAATGGCTAAGAAAGTACAAGCCTATGTCAAGCTGCAGGTTGCAGCTGGTATGGCTAACCCGAGTCC -GCCAGTAGGTCCGGCTCTGGGTCAGCAGGGCGTAAACATCATGGAATTCTGCAAAGCGTTCAACGCAAAA -ACTGATTCCATCGAAAAAGGTCTGCCGATTCCGGTAGTAATCACCGTTTACGCTGACCGTTCTTTCACTT -TCGTTACCAAGACCCCGCCGGCAGCAGTTCTGCTGAAAAAAGCGGCTGGTATCAAGTCTGGTTCCGGTAA -GCCGAACAAAGACAAAGTGGGTAAAATTTCCCGCGCTCAGCTGCAGGAAATCGCGCAGACCAAAGCTGCC -GACATGACTGGTGCCGACATTGAAGCGATGACTCGCTCCATCGAAGGTACTGCACGTTCCATGGGCCTGG -TAGTGGAGGACTAAGAAATGGCTAAACTGACCAAGCGCATGCGTGTTATCCGCGAGAAAGTTGATGCAAC -CAAACAGTACGACATCAACGAAGCTATCGCACTGCTGAAAGAGCTGGCGACTGCTAAATTCGTAGAAAGC -GTGGACGTAGCTGTTAACCTCGGCATCGACGCTCGTAAATCTGACCAGAACGTACGTGGTGCAACTGTAC -TGCCGCACGGTACTGGCCGTTCCGTTCGCGTAGCCGTATTTACCCAAGGTGCAAACGCTGAAGCTGCTAA -AGCTGCAGGCGCAGAACTGGTAGGTATGGAAGATCTGGCTGACCAGATCAAGAAAGGCGAAATGAACTTT -GACGTTGTTATTGCTTCTCCGGATGCAATGCGCGTTGTTGGCCAGCTGGGCCAGGTTCTGGGTCCGCGCG -GCCTGATGCCAAACCCGAAAGTGGGTACTGTAACACCGAACGTTGCTGAAGCGGTTAAAAACGCTAAAGC -TGGCCAGGTTCGTTACCGTAACGACAAAAACGGCATCATCCACACCACCATCGGTAAAGTGGACTTTGAC -GCTGACAAACTGAAAGAAAACCTGGAAGCTCTGCTGGTTGCGCTGAAAAAAGCAAAACCGACTCAGGCGA -AAGGCGTGTACATCAAGAAAGTTAGCATCTCCACCACCATGGGTGCAGGTGTTGCAGTTGACCAGGCTGG -CCTGAGCGCTTCTGTAAACTAATGCCTTTACGTGGGCGGTGATTTTGTCTACAATCTTACCCCCACGTAT -AATGCTTAATGCAGACGTATATCCGAGATATTCGGGTTGTGGCAAGGCGGCAACTGAGTGAGTCGCCAGG -AGCATAGCTAACTATGTGACTGGTGCGAATGAAGGAAGCCAACGCCGTCACAAGCTGAATAGCGACGGAT -AGAAAAGATTTGTTCGTTGGAGCCTGGCCTATCCAGGCCTCCGTCGAAGACCGCAGGAGTTTCGCAAGAA -ACTTAATCCCCTGCGTAGACGGTGACAGAACGCTAAGATTATTCTTTTATATTCTGGCTTGTTTCTGCTC -ACCGTAATTAAGACGCTCTCTCCGTTTGGAGGAGTGAAGTGAGTTCCAGAGATTTTCTCTGGCAAACATC -CAGGAGCAAAGCTAATGGCTTTAAATCTTCAAGACAAACAAGCGATTGTTGCTGAAGTCAGCGAAGTAGC -CAAAGGCGCGCTGTCTGCAGTAGTTGCGGATTCCCGTGGCGTAACTGTAGATAAAATGACTGAACTGCGT -AAAGCAGGTCGCGAAGCTGGCGTATACATGCGTGTTGTTCGTAACACCCTGCTGCGCCGTGCTGTTGAAG -GTACTCCGTTCGAGTGCCTGAAAGACGCGTTTGTTGGTCCGACCCTGATTGCATACTCTATGGAACACCC -GGGCGCTGCTGCTCGTCTGTTCAAAGAGTTCGCGAAAGCGAATGCAAAATTTGAGGTCAAAGCCGCTGCC -TTTGAAGGTGAGCTGATCCCGGCGTCTCAGATCGACCGCCTGGCAACTCTGCCGACCTACGAAGAAGCAA -TTGCACGCCTGATGGCAACCATGAAAGAAGCTTCGGCTGGCAAACTGGTTCGTACTCTGGCTGCTGTACG -CGATGCGAAAGAAGCTGCTTAATCGCAGTTATCTTTTTAACGCATTCGCTTACGTATAAACTTATTCTGA -TATTCAGGAACAATTTAAATGTCTATCACTAAAGATCAAATCATTGAAGCAGTTGCAGCTATGTCTGTAA -TGGACGTTGTAGAACTGATCTCTGCAATGGAAGAAAAATTCGGTGTTTCCGCTGCTGCTGCTGTAGCTGT -AGCTGCTGGCCCGGTTGAAGCTGCTGAAGAAAAAACTGAATTCGACGTAATTCTGAAAGCTGCTGGCGCT -AACAAAGTTGCTGTTATCAAAGCAGTACGTGGCGCAACTGGCCTGGGTCTGAAAGAAGCTAAAGACCTGG -TAGAATCTGCACCGGCTGCTCTGAAAGAAGGCGTGAGCAAAGACGACGCAGAAGCACTGAAAAAAGCTCT -GGAAGAAGCTGGCGCTGAAGTTGAAGTTAAATAAGCCAACCCTTCCGGTTGCAGCCTGAGAAATCAGGCT -GATGGCTGGTGACTTTTTAGTCACCAGCCTTTTTGCGCTGTAAGGCGCCAGTAGCGTTTCACACTGTTTG -ACTACTGCTGTGCCTTTCAATGCTTGTTTCTATCGACGACTTAATATACTGCGACAGGACGTCCGTTCTG -TGTAAATCGCAATGAAATGGTTTAAGCGTGATAGCAACAGGCATTGCGGAAAGTGTTCCATTTTCCGGTC -AACAAAATAGTGTTGCACAAACTGTCCGCTCAATGGACAGATGGGTCGACTTGTCAGCGAGCTGAGGAAC -CCTATGGTTTACTCCTATACCGAGAAAAAACGTATTCGTAAGGATTTTGGTAAACGTCCACAAGTTCTGG -ATGTACCTTATCTCCTTTCTATCCAGCTTGACTCGTTTCAGAAATTTATCGAGCAAGATCCTGAAGGGCA -GTATGGTCTGGAAGCTGCTTTCCGTTCCGTATTCCCGATTCAGAGCTACAGCGGTAATTCCGAGCTGCAA -TACGTCAGCTACCGCCTTGGCGAACCGGTGTTTGACGTCCAGGAATGTCAAATCCGTGGCGTGACCTATT -CCGCACCGCTGCGCGTTAAACTGCGTCTGGTGATCTATGAGCGCGAAGCGCCGGAAGGCACCGTAAAAGA -CATTAAAGAACAAGAAGTCTACATGGGCGAAATTCCGCTCATGACAGACAACGGTACCTTTGTTATCAAC -GGTACTGAGCGTGTTATCGTTTCCCAGCTGCACCGTAGTCCGGGCGTCTTCTTTGACTCCGACAAAGGTA -AAACCCACTCTTCGGGTAAAGTGCTGTATAACGCGCGTATCATCCCTTACCGTGGTTCCTGGCTGGACTT -CGAATTCGATCCGAAGGACAACCTGTTCGTACGTATCGACCGTCGCCGTAAACTGCCTGCGACCATCATT -CTGCGCGCCCTGAACTACACCACAGAGCAGATCCTCGACCTGTTCTTTGAAAAAGTTATCTTTGAAATCC -GTGATAACAAGCTGCAGATGGAACTGGTGCCGGAACGCCTGCGTGGTGAAACCGCATCTTTTGACATCGA -AGCTAACGGTAAAGTGTACGTAGAAAAAGGCCGCCGTATCACTGCGCGCCACATTCGCCAGCTGGAAAAA -GACGACGTCAAACTGATCGAAGTCCCGGTTGAGTACATCGCAGGTAAAGTGGTTGCTAAAGACTATATTG -ATGAGTCTACCGGCGAGCTGATCTGCGCAGCGAACATGGAGCTGAGCCTGGATCTGCTGGCTAAGCTGAG -CCAGTCTGGTCACAAGCGTATCGAAACGCTGTTCACCAACGATCTGGATCACGGCCCATATATCTCTGAA -ACCTTACGTGTCGACCCAACTAACGACCGTCTGAGCGCACTGGTAGAAATCTACCGCATGATGCGCCCTG -GCGAGCCGCCGACTCGTGAAGCAGCTGAAAGCCTGTTCGAGAACCTGTTCTTCTCCGAAGACCGTTATGA -CTTGTCTGCGGTTGGTCGTATGAAGTTCAACCGTTCTCTGCTGCGCGAAGAAATCGAAGGTTCCGGTATC -CTGAGCAAAGACGACATCATTGATGTTATGAAAAAGCTCATCGATATCCGTAACGGTAAAGGCGAAGTCG -ATGATATCGACCACCTCGGCAACCGTCGTATCCGTTCCGTTGGCGAAATGGCGGAAAACCAGTTCCGCGT -TGGCCTGGTACGTGTAGAGCGTGCGGTGAAAGAGCGTCTGTCTCTGGGCGATCTGGATACCCTGATGCCA -CAGGATATGATCAACGCCAAGCCGATTTCCGCAGCAGTGAAAGAGTTCTTCGGTTCCAGCCAGCTGTCTC -AGTTTATGGACCAGAACAACCCGCTGTCTGAGATTACGCACAAACGTCGTATCTCCGCACTCGGCCCAGG -CGGTCTGACCCGTGAACGTGCAGGCTTCGAAGTTCGAGACGTACACCCGACTCACTACGGTCGCGTATGT -CCAATCGAAACCCCTGAAGGTCCGAACATCGGTCTGATCAACTCTCTGTCCGTGTACGCACAGACTAACG -AATACGGCTTCCTTGAGACTCCGTATCGTAAAGTGACCGACGGTGTTGTAACTGACGAAATTCACTACCT -GTCTGCTATCGAAGAAGGCAACTACGTTATCGCCCAGGCGAACTCCAACTTGGATGAAGAAGGCCACTTC -GTAGAAGACCTGGTAACTTGCCGTAGCAAAGGCGAATCCAGCTTGTTCAGCCGCGACCAGGTTGACTACA -TGGACGTATCCACCCAGCAGGTGGTATCCGTCGGTGCGTCCCTGATCCCGTTCCTGGAACACGATGACGC -CAACCGTGCATTGATGGGTGCGAACATGCAACGTCAGGCCGTTCCGACTCTGCGCGCTGATAAGCCGCTG -GTTGGTACTGGTATGGAACGTGCTGTTGCCGTTGACTCCGGTGTAACTGCGGTAGCTAAACGTGGTGGTG -TCGTTCAGTACGTGGATGCTTCCCGTATCGTTATCAAAGTTAACGAAGACGAGATGTATCCGGGTGAAGC -AGGTATCGACATCTACAACCTGACCAAATACACCCGTTCTAACCAGAACACCTGTATCAACCAGATGCCG -TGTGTGTCTCTGGGTGAACCGGTTGAACGTGGCGACGTGCTGGCAGACGGTCCGTCCACCGACCTCGGTG -AACTGGCGCTTGGTCAGAACATGCGCGTAGCGTTCATGCCGTGGAATGGTTACAACTTCGAAGACTCCAT -CCTCGTATCCGAGCGTGTTGTTCAGGAAGACCGTTTCACCACCATCCACATTCAGGAACTGGCGTGTGTG -TCCCGTGACACCAAGCTGGGTCCGGAAGAGATCACCGCTGACATCCCGAACGTGGGTGAAGCTGCGCTCT -CCAAACTGGATGAATCCGGTATCGTTTACATTGGTGCGGAAGTGACCGGTGGCGACATTCTGGTTGGTAA -GGTAACGCCGAAAGGTGAAACTCAGCTGACCCCAGAAGAAAAACTGCTGCGTGCGATCTTCGGTGAGAAA -GCCTCTGACGTTAAAGACTCTTCTCTGCGCGTACCAAACGGTGTATCCGGTACGGTTATCGACGTTCAGG -TCTTTACTCGCGATGGCGTAGAAAAAGACAAACGTGCGCTGGAAATCGAAGAAATGCAGCTCAAACAGGC -GAAGAAAGACCTGTCTGAAGAACTGCAGATCCTCGAAGCGGGTCTGTTCAGCCGTATCCGTGCTGTGCTG -GTAGCCGGTGGCGTTGAAGCTGAGAAGCTCGACAAACTGCCGCGCGATCGCTGGCTGGAGCTGGGCCTGA -CAGACGAAGAGAAACAAAATCAGCTGGAACAGCTGGCTGAGCAGTATGACGAACTGAAACACGAGTTCGA -GAAGAAACTCGAAGCGAAACGCCGCAAAATCACCCAGGGCGACGATCTGGCACCGGGCGTGCTGAAGATT -GTTAAGGTATATCTGGCGGTTAAACGCCGTATCCAGCCTGGTGACAAGATGGCAGGTCGTCACGGTAACA -AGGGTGTAATTTCTAAGATCAACCCGATCGAAGATATGCCTTACGATGAAAACGGTACGCCGGTAGACAT -CGTACTGAACCCGCTGGGCGTACCGTCTCGTATGAACATCGGTCAGATCCTCGAAACCCACCTGGGTATG -GCTGCGAAAGGTATCGGCGACAAGATCAACGCCATGCTGAAACAGCAGCAAGAAGTCGCGAAACTGCGCG -AATTCATCCAGCGTGCGTACGATCTGGGCGCTGACGTTCGTCAGAAAGTTGACCTGAGTACCTTCAGCGA -TGAAGAAGTTATGCGTCTGGCTGAAAACCTGCGCAAAGGTATGCCAATCGCAACGCCGGTGTTCGACGGT -GCGAAAGAAGCAGAAATTAAAGAGCTGCTGAAACTTGGCGACCTGCCGACTTCCGGTCAGATCCGCCTGT -ACGATGGTCGCACTGGTGAACAGTTCGAGCGTCCGGTAACCGTTGGTTACATGTACATGCTGAAACTGAA -CCACCTGGTCGACGACAAGATGCACGCGCGTTCCACCGGTTCTTACAGCCTGGTTACTCAGCAGCCGCTG -GGTGGTAAGGCACAGTTCGGTGGTCAGCGTTTCGGGGAGATGGAAGTGTGGGCGCTGGAAGCATACGGCG -CAGCATACACCCTGCAGGAAATGCTCACCGTTAAGTCTGATGACGTGAACGGTCGTACCAAGATGTATAA -AAACATCGTGGACGGCAACCATCAGATGGAGCCGGGCATGCCAGAATCCTTCAACGTATTGTTGAAAGAG -ATTCGTTCGCTGGGTATCAACATCGAACTGGAAGACGAGTAATTCTCGCTCAAACAGGTCACTGCTGTCG -GGTTAAAACCCGGCAGCGGATTGTGCTAACTCCGACGGGAGCAAATCCGTGAAAGATTTATTAAAGTTTC -TGAAAGCGCAGACTAAAACCGAAGAGTTTGATGCGATCAAAATTGCTCTGGCTTCGCCAGACATGATCCG -TTCATGGTCTTTCGGTGAAGTTAAAAAGCCGGAAACCATCAACTACCGTACGTTCAAACCAGAACGTGAC -GGCCTTTTCTGCGCCCGTATCTTTGGGCCGGTAAAAGATTACGAGTGCCTGTGCGGTAAGTACAAGCGCC -TGAAACACCGTGGCGTCATCTGTGAGAAGTGCGGCGTTGAAGTGACCCAGACTAAAGTACGCCGTGAGCG -TATGGGCCACATCGAACTGGCTTCCCCGACTGCGCACATCTGGTTCCTGAAATCGCTGCCGTCCCGTATC -GGTCTGCTGCTCGATATGCCGCTGCGCGATATCGAACGCGTACTGTACTTTGAATCCTATGTGGTTATCG -AAGGCGGTATGACCAACCTGGAACGTCAGCAGATCCTGACTGAAGAGCAGTATCTGGACGCGCTGGAAGA -GTTCGGTGACGAATTCGACGCGAAGATGGGGGCGGAAGCAATCCAGGCTCTGCTGAAGAGCATGGATCTG -GAGCAAGAGTGCGAACAGCTGCGTGAAGAGCTGAACGAAACCAACTCCGAAACCAAGCGTAAAAAGCTGA -CCAAGCGTATCAAACTGCTGGAAGCGTTCGTTCAGTCTGGTAACAAACCAGAGTGGATGATCCTGACCGT -TCTGCCGGTACTGCCGCCAGATCTGCGTCCGCTGGTTCCGCTGGATGGTGGTCGTTTCGCGACTTCTGAC -CTGAACGATCTGTATCGTCGCGTCATTAACCGTAACAACCGTCTGAAACGTCTGCTGGATCTGGCTGCGC -CGGACATCATCGTACGTAACGAAAAACGTATGCTGCAGGAAGCGGTAGACGCCCTGCTGGATAACGGTCG -TCGCGGTCGTGCGATCACCGGTTCTAACAAGCGTCCTCTGAAATCTTTGGCCGACATGATCAAAGGTAAA -CAGGGTCGTTTCCGTCAGAACCTGCTCGGTAAGCGTGTTGACTACTCCGGTCGTTCTGTAATCACCGTAG -GTCCATACCTGCGTCTGCATCAGTGCGGTCTGCCGAAGAAAATGGCACTGGAGCTGTTCAAACCGTTCAT -CTACGGCAAGCTGGAACTGCGTGGTCTTGCTACCACCATTAAAGCTGCGAAGAAAATGGTTGAGCGCGAA -GAAGCTGTCGTTTGGGATATCCTGGACGAAGTTATCCGCGAACACCCGGTACTGCTGAACCGTGCACCGA -CTCTGCACCGTCTGGGTATCCAGGCATTTGAACCGGTACTGATCGAAGGTAAAGCTATCCAGCTGCACCC -GCTGGTTTGTGCGGCATATAACGCCGACTTCGATGGTGACCAGATGGCTGTTCACGTACCGCTGACGCTG -GAAGCCCAGCTGGAAGCGCGTGCGCTGATGATGTCTACCAACAACATCCTGTCCCCGGCGAACGGCGAAC -CAATCATCGTTCCGTCTCAGGACGTTGTACTGGGTCTGTACTACATGACCCGTGACTGTGTTAACGCCAA -AGGCGAAGGCATGGTGCTGACTGGCCCGAAAGAAGCAGAACGTCTGTATCGCTCTGGTCTGGCTTCTCTG -CATGCGCGCGTTAAAGTGCGTATCACCGAGTATGAAAAAGATGCTAACGGTGAATTAGTAGCGAAAACCA -GCCTGAAAGACACGACTGTTGGCCGTGCCATTCTGTGGATGATTGTACCGAAAGGTCTGCCTTACTCCAT -CGTCAACCAGGCGCTGGGTAAAAAAGCAATCTCCAAAATGCTGAACACCTGCTACCGCATTCTCGGTCTG -AAACCGACCGTTATTTTTGCGGACCAGATCATGTACACCGGCTTCGCCTATGCAGCGCGTTCTGGTGCAT -CTGTTGGTATCGATGACATGGTCATCCCGGAGAAGAAACACGAAATCATCTCCGAGGCAGAAGCAGAAGT -TGCTGAAATTCAGGAGCAGTTCCAGTCTGGTCTGGTAACTGCGGGCGAACGCTACAACAAAGTTATCGAT -ATCTGGGCTGCGGCGAACGATCGTGTATCCAAAGCGATGATGGATAACCTGCAAACTGAAACCGTGATTA -ACCGTGACGGTCAGGAAGAGAAGCAGGTTTCCTTCAACAGCATCTACATGATGGCCGACTCCGGTGCGCG -TGGTTCTGCGGCACAGATTCGTCAGCTTGCTGGTATGCGTGGTCTGATGGCGAAGCCGGATGGCTCCATC -ATCGAAACGCCAATCACCGCGAACTTCCGTGAAGGTCTGAACGTACTCCAGTACTTCATCTCCACCCACG -GTGCTCGTAAAGGTCTGGCGGATACCGCACTGAAAACTGCGAACTCCGGTTACCTGACTCGTCGTCTGGT -TGACGTGGCGCAGGACCTGGTGGTTACCGAAGACGATTGTGGTACCCATGAAGGTATCATGATGACTCCG -GTTATCGAGGGTGGTGACGTTAAAGAGCCGCTGCGCGATCGCGTACTGGGTCGTGTAACTGCTGAAGACG -TTCTGAAGCCGGGTACTGCTGATATCCTCGTTCCGCGCAACACGCTGCTGCACGAACAGTGGTGTGACCT -GCTGGAAGAGAACTCTGTCGACGCGGTTAAAGTACGTTCTGTTGTATCTTGTGACACCGACTTTGGTGTA -TGTGCGCACTGCTACGGTCGTGACCTGGCGCGTGGCCACATCATCAACAAGGGTGAAGCAATCGGTGTTA -TCGCGGCACAGTCCATCGGTGAACCGGGTACACAGCTGACCATGCGTACGTTCCACATCGGTGGTGCGGC -ATCTCGTGCGGCTGCTGAATCCAGCATCCAAGTGAAAAACAAAGGTAGCATCAAGCTCAGCAACGTGAAG -TCGGTTGTGAACTCCAGCGGTAAACTGGTTATCACTTCCCGTAATACTGAACTGAAACTGATCGACGAAT -TCGGTCGTACTAAAGAAAGCTACAAAGTACCTTACGGTGCGGTACTGGCGAAAGGCGATGGCGAACAGGT -TGCTGGCGGCGAAACCGTTGCAAACTGGGACCCGCACACCATGCCGGTTATCACCGAAGTAAGCGGTTTT -GTACGCTTTACTGACATGATCGACGGCCAGACCATTACGCGTCAGACCGACGAACTGACCGGTCTGTCTT -CGCTGGTGGTTCTGGATTCCGCAGAACGTACCGCAGGTGGTAAAGATCTGCGTCCGGCACTGAAAATCGT -TGATGCTCAGGGTAACGACGTTCTGATCCCAGGTACCGATATGCCAGCGCAGTACTTCCTGCCGGGTAAA -GCGATTGTTCAGCTGGAAGATGGCGTACAGATCAGCTCTGGTGACACCCTGGCGCGTATTCCGCAGGAAT -CCGGCGGTACCAAGGACATCACCGGTGGTCTGCCGCGCGTTGCGGACCTGTTCGAAGCACGTCGTCCGAA -AGAGCCGGCAATCCTGGCTGAAATCAGCGGTATCGTTTCCTTCGGTAAAGAAACCAAAGGTAAACGTCGT -CTGGTTATCACCCCGGTAGACGGTAGCGATCCGTACGAAGAGATGATTCCGAAATGGCGTCAGCTCAACG -TGTTCGAAGGTGAACGTGTAGAACGTGGTGACGTAATTTCCGACGGTCCGGAAGCGCCGCACGACATTCT -GCGTCTGCGTGGTGTTCATGCTGTTACTCGTTACATCGTTAACGAAGTACAGGACGTATACCGTCTGCAG -GGCGTTAAGATTAACGATAAACACATCGAAGTTATCGTTCGTCAGATGCTGCGTAAAGCTACCATCGTTA -ACGCGGGTAGCTCCGACTTCCTGGAAGGCGAACAGGTTGAATACTCTCGCGTCAAGATCGCAAACCGCGA -ACTGGAAGCGAACGGCAAAGTGGGTGCAACTTACTCCCGCGATCTGCTGGGTATCACCAAAGCGTCTCTG -GCAACCGAGTCCTTCATCTCCGCGGCATCGTTCCAGGAGACCACTCGCGTGCTGACCGAAGCAGCCGTTG -CGGGCAAACGCGACGAACTGCGCGGCCTGAAAGAGAACGTTATCGTGGGTCGTCTGATCCCGGCAGGTAC -CGGTTACGCGTACCACCAGGATCGTATGCGTCGCCGTGCTGCGGGTGAAGCTCCGGCTGCACCGCAGGTG -ACTGCAGAAGACGCATCTGCCAGCCTGGCAGAACTGCTGAACGCAGGTCTGGGCGGTTCTGATAACGAGT -AATCGTTAATCCGCAAATAACGTAAAAACCCGCTTCGGCGGGTTTTTTTATGGGGGGAGTTTAGGGAAAG -AGCATTTGTCAGAATATTTAAGGAATTTCTGAATACTCATAATCAATGTAGAGATGACTAATATCCTGAA -ACTGACTGAACTAATTGAGTCAAACTCGGCAAGGATTCGATACTATTCCTGTGTAACTTTCTTAAGGAAC -GAGAATGAAACAGGAAGTGGAAAAGTGGCGACCTTTTGGACATCCGGATGGTGATATTCGTGATTTATCA -TTTCTTGATGCTCATCAGGCTGTCTACGTTCAGCATCATGAGGGCAAAGAGCCTTTAGAGTATCGCTTTT -GGGTTACCTACTCTCTTCACTGCTTCACAAAAGATTATGAACATCAGACGAACGAAGAAAAACAATCGTT -AATGTACCACGCGCCTAAAGAATCTCGTCCCTTCTGCCAGCACCGTTATAACTTAGCGCGCACACACTTA -AAAAGAACTATTTTGGCGCTGCCAGAAAGCAACGTTATTCATGCCGGGTATGGTAGCTATGCCGTGATTG -AGGTGGACTTAGACGGAGGAGATAAGGCATTTTACTTTGTTGCGTTCAGGGCTTTCAGGGAAAAGAAAAA -ACTCCGTTTGCATGTAACTAGCGCTTATCCCATTTCTGAAAAACAGAAAGGTAAATCAGTGAAATTTTTC -ACCATTGCCTACAACTTATTGAGAAATAAGCAGCTTCCTCAGCCCTCAAAATAACAAAACCCACCTTAAG -GTGGGTTTCGCCAGAGAATTATCTCTGGTATTCAGAACGCCATTACCGGACTTTGCCTTGACCTTGCGAT -AATCGCAGGTTGCGGGATGTCTGAATTTCTTCAGTCTGCTGCATCCTGGAAGATGAGAACATGTGTTCTT -ATTTTCGTCTCTATCATAGTTGAGTATTTACTCTCTTACAATCAGATCTCTTTCATTGCTCAACAGGCGA -TGGCTTCAGACTTTGCATTACGGAATTTTTAAGAAAGGCAGGGCGAAACGAGGAAGAAGCTTTTCGCCCT -GGACAACATTCCTGCTGACGGCACTACCATAAAAAAACACAACGCTTTCAACAACCTTGCGTTTTTCATC -TTCCGTAGCGGCTCGGAATAAATTTACGTTCTTACATTCCGTCTCATAGTCTTTGCGAGGCGCGTCCCAG -ATAGCTGTCCCAGTCTTTCCATACCGGCTGCAAACCCTGAGCGGTTAACGCGGCAGCAACCGCTTCCGGT -CTGCGATCGTCGTGCGGTGAGAACTGTTCCAACTCGGGGTGATTATCGGCATAGCCACCTGGCTGCGTTT -TCGAGAAGGCGCTGACGTTATTGATCGCCAGCGGAATAACGCGATCGCGAAACCACGGTGATTCCCGCGT -GGAGAGTGACAGTTCAATCTCCGGTGCAAGCAGTCGGAAGGCGCAGATGGTTTGCACTAACTGGCGTTCA -TCCATAATCGACGCAGGCTCAATGCCGCCAGTACACGGGCGCAGGCGCGGAAAGGAGACAGAGTAACGGC -TTTGCCAGTAATGCTGTTGCAGCCATAGCAAATGTTCGGCAACCATATAGCTGTCAACGCGCCAGTTGTC -GGAAAGGCCAATTAGCGCGCCGAGGCCTATCTTATCAATCCCCGCACGCCCCAGCCGATCCGGCGTTTCC -AGCCGCCAGAAGAAGTCCTGTTTTTTGCCTTTCAGATGATGGCGGGCATAAGTCGCCTCGTGATATGTCT -CCTGATAAACCATCACGCCATCCAGACCAAGTTGCTTTAACTCGGCGTATTCCGTCTCCGCCAGCGGTTG -CACTTCCATCTGTAGTGAAGAGAACTGTTCACGAAGGGCAGGGAGATGACGACGAAAGTAATCCATCCCC -ACTTTCGCCTGATGTTCACCAGTGACTAACAGCAGATGTTCAAAGCCCATCTCCCGTATAGCGGCACTTT -CCCTGGCAATATCCGCTTCATCCAGCGTTTTGCGCTTGATGCGATTACTCATGGAAAATCCACAGTACGT -GCAGTCGTTAGCGCAAAGATTGGAAAGATAAAGCGGGACGTAGAAACTAACTGTGTTGCCAAATCGCTGA -CGGGTCAGACGCTGCGCCCGTTGGGCCAGTTGTTCCAGATAGCCACTGGCGGCAGGCGATAACAGCGCCA -TCATGTCGTCGCGGGTGAGTTGCGAGGCATTTAGCGCCCGCTCTACGTCAGCAGCCGTTTTGCCGTTGAT -ACGCAGGCGGATGTCGTCCCAGTCCAGTTGTCGCCAGCGATCGCTGAAGGTTTTCATGCCGATGCCTCCA -GAAATCCGGTCAGCGGGCTGGTGGCATGAGCAAAATAACTGCGGCTGCCCGGTCCGGACTGACGTGCCAG -TAGGCCTGCTTCTACCGCCAGACGAAATGCCTTCGCCATGTTGACGGGATCGTCCGCGACGGCAATCGCC -GTATTCACTAACACCGCGTCGGCCCCCATTTCCAGCGCCTGCGCGGCATGGCTGGGAACGCCGATGCCAG -CATCGACAACCACCGGCACTGTGGCCTGCTGGATAATAATCTCCAGCATGGCGCGGGTTTCCAGTCCCTG -ATTCGAGCCAATCGGCGCGCCGAGCGGCATCACCGCTGCACAGCCGACTTCTTCCAGACGTTTACACAAT -ACCGGATCGGCCCCGCAGTAAGGCAGCACGACAAATCCCTGTTGTACCAGCGTTTCGGCGGCTTTCAGGG -TTTCGATGGGATCGGGCAACAGCCAGCGGGCGTCAGGGTGAATCTCTAATTTTAACCAGTTTGTGCCTAA -CGCTTCACGAGCCAGATGGGCGGCGAAAATGGCTTCTTCCGCTGTTTTCGCCCCGGATGTATTTGGCAGC -AGGGTCACACCCGCCGCGATAAGCGGTTCGAGGATAGCGTCGTTGTGCTGGCGCAAGTCGACACGTTTCA -TCGCCAGTGTCACCAGCTGGCTGCCGGAAGCGCGGATCGCCTCCACCATCAGTTGTGAAGAAGCGAATTT -CCCTGTGCCGGTAAACAGATGTGAATCAAACGTTTTGTCCGCAATACGTAACATTTCAACCCCCTGCAAT -AACCTGAAAAAGCAGGATCTGGTCGCCATCCTGCACGATATGTTGCGCCCACTGCTCACGCGGGACGATT -TGCTGATTAATCGCCAGAGCCGCGCCCGCTTGTCGTTGGTCGAGTTGCTCCAGTAGTTCGTGAACAGTTT -GCCCGGCGGCGCACTGCATCGCTTGATCGTTAAACAGGATCTGCATTGCTTCCTCCGCATACCGGGCAAC -CACTGGCGCGGCGCAACGCCAGGCTGCGCCACTGGCTCGATTTACCGTCGAACAGTCGGAGTTCTCCCGC -AGGTGTCTCTATACCGCTTAATAACTTAATGGCTTCCAGTGCCTGCAAAGTGCCCATAACCCCGACCACC -GGGCCAACCACGCCCGCCGTGCGGCAGTTGCGTTCTGGCTCCTGGTTATCTGGCCACAGGCAGCGGTAAC -ACCCCTGCTCCCAGGGCGGCGTCAGTACCATCAACTGACCGCCAAATCCGACCGCGCTGGCGGTGATAAG -CGGCGTGTTGAGTGCCACGCAGGCGGCATTAATCTCCTGGCGAGTCGCCATATTGTCGGTACAGTCGAGC -ACCACATCGGCCCGTGCAACCGCATCTTTTAACGCCTCACCCGTTAACCGTTGTTGTAATGCTGTCAGTT -GAATGTCGGGATTCAACTGTGTCAGTCGCTGTTGGCTGACCTGCGATTTCGGGCGATCGATATCTTCAGT -GGTAAAGAGGATTTGTCGTTGCAGATTGCTTAAATGCACATCGTCGTCATCTGCCAGTACCAGCGTCCCG -ACGCCAGCGCCCGCCAGGTACAGCGCAGCAGGTGTACCCAGCCCGCCCAGACCGATAATCAGCACCTGGC -TGTCGAGCAGTTTTTGCTGCCCGTCCAGAGCGATATCGTCGAGCAGGATTTGGCGGCTATAACGCATAAA -GTCACGGTCATTCATCGCCAACTCCTGCAATTTCCAGCAACTGTGCCGTTGCCAAACGCCAGTCTGCGGC -TTGAGTAATGGCGCTGACGACGGCGATACTGCCGACACCCGTTGCTATCACCGCAGGCGCGCGTGCCAGA -CTGATACCGCCAATCGCCACGGTGGGATAATCCGCCAGTCGCTCAACATGCCGTGCCAGCTGTTCCAGCC -CCTGCGGTGCAGAAGGCATCTGTTTGGTTTGCGTCGGGAACACATGTCCCAGCGCGATATAAGAGGGGCG -TGCTGCCAGCGCGACGTCGATTTCCATATCGTCATGTGTCGAAACGCCCAGCCGCAGGCCTGCCGCGCGG -ATGGCATTGAGATCGGTGGCTTGCAAATCTTCCTGCCCCAAATGGACGCCATACGCCTGATGCTTGATCG -CCAGCCGCCAGTAATCGTTGATAAACAATCGCGCGTTATAGCGGCGGCCCAGCGCAATTGCCGCCACGAC -ATCGGCTTCCACCTCTTCATCGCGCCGATCTTTGATGCGTAGCTGGAGAGTACGTACGCCTGCATCCAAC -AGACGTTCGATCCACTGTACGCTGTCCACCACCGGGTACAGTCCTGAACGAAAAGGTACAGGAGGAAAAT -CAGGCTGATACATCACGCTTCCTCCTTACGCAGGTAGATTTCTCCGCCTCTGGCACGGAAGTTCTCCGAC -ATATCCGCCATTCCCATTTCAATAGTTTGCGTGGCGGCGTAATCACGCACTTCCTGGCTGATTTTCATCG -AGCAGAATTTCGGCCCACACATGGAGCAAAAATGGGCGACTTTACCTGACTCTTGCGGCAGGGTTTCATC -GTGATAAGCGCGGGCGGTAAACGGGTCGAGGGCCAGATTAAACTGGTCTTCCCAGCGAAATTCGAAGCGG -GCTTTCGACATGGCGTTATCGCGAATTTGCGCGCCCGGATGCCCTTTCGCCAGGTCAGCGGCGTGGGCAG -CAATCTTATAGGTGATAAGCCCCTGCTTAACATCTTCTTTATTGGGCAGACCCAGATGCTCTTTTGGCGT -TACGTAACAGAGCATCGCGCAGCCAAACCAGCCAATCATCGCCGCACCAATCCCCGACGTGAAGTGGTCA -TAGCCCGGCGCAATATCGGTAGTTAGCGGCCCCAGAGTGTAAAACGGCGCTTCGTGGCAGTGCTCTAACT -CCTCGGTCATATTGCGGCGGATCATCTGCATCGGCACGTGGCCTGGGCCTTCAATCATCACCTGCACGTC -ATATTCCCAGGCAATTTTGGTCAGTTCGCCCAGCGTATGCAGCTCGGCAAACTGCGCTTCATCGTTGGCG -TCCTGAATAGAACCGGGGCGCAGACCGTCGCCCAGCGACAGCGAAACGTCATAAGCGGCACAGATTTCAC -AAATTTCGCGGAAGTGTTGATAGAGGAAATTTTCCTGATGATGGGAGAGGCACCATTTCGCCATAATCGA -ACCGCCGCGAGAGACGATACCGGTCAGGCGTTTCGCGGTCATCGGCACATAGCGCAGCAGTACGCCCGCA -TGGATAGTGAAGTAATCCACACCTTGCTCGGCCTGTTCCAGCAGCGTGTCGCGGAACGCTTCCCAGGTAA -GATCTTCGGCGATCCCGTTAACCTTCTCCAGCGCCTGGTAGATCGGCACTGTACCGATCGGCACCGGGCT -GTTACGCAAAATCCACTCGCGGGTTTCGTGAATATAGCGACCGGTGGAGAGATCCATCACCGTATCCGCT -CCCCAGCGCGTGGACCATACCAGCTTTTCCACTTCTTCTTCGATGGAAGAGGTGACCGCCGAGTTGCCGA -TATTGGCGTTAACTTTTACCAGGAAATTGCGACCAATAATCATCGGCTCCGATTCCGGATGATTAATGTT -GGCCGGGATAATCGCACGTCCGGCAGCAACTTCATCACGGACAAATTCCGCAGTGATATTTTCCGGCAGA -TGTGCGCCAAAGCTCATTCCCGGATGCTGGTGGCGTAAAACCTCGCTACGGATGCGCTCGCGGCCCATAT -TCTCGCGGATGGCGATGAATTCCATTTCCGGCGTGATGATGCCCTGGCGGGCGTAGTGCAGTTGGGTGAC -ACGGCGTCCTGCTTTGGCGCGTTTTGGTGTTAGTACGCCGCTAAAACGCAGTTCGTCGAGGCCATCATCT -GCCAGCCGCGCTTTAGTGTAATCGGAACTGCGCACGGTAAGTTCTTCGGTATCGCCGCGCGCATCGATCC -ACGGCTGGCGTAGTTTTGCCAGCCCTTGCTGCACGTTAATGGCAATCTGCGGATCACCATACGGGCCGGA -GGTGTCGTAGACCGGAATCGCTTCGTTTTCTTCGTACTGCGGCTGTTCTTTGCTACCGCCAATTAGCGTC -GGGCTAAGCTGGATCTCACGCATCGGCACGCGCACGCCGGGGTGTGTGCCAGTGATATAAATGCGTTTTG -AGTTGGGAAAGGCGGTGCCTTCCAGGGTGTCGATAAAATGTTGGGCCCGGGCGCGTTGTTCGCGGCGGGT -CAGTTTTGTTGCAGACATAGCTCATTCCAAAAAGTTAAGGACGTGGCTTGTCAGACGACGGATGAAGCAA -GAGACGATCGCCGCAGGGGCGATGCGATAGCAGATTAACTCTTGTTCCCTTCGCAGGTATTAGCCTGATC -AGGTTCCGCGGATCCCGAATAAACGGTCTCAGCCAGTTAAGGCACTCCGACAAGAAATTAGCCCCGCAAA -TGGGGCATTGAATGTAAATTACGCGTTAACAGCGCAGAACTCAAGCAGGATGTTTGACGCGGGCGGCGTC -AAGCACCAGCAGAATCAGCTTATCTTCCAGCACAAAGCGCGCTTCCAGCGCCTCGCCGATGTCAGATAAA -ACCTGTTGAAACTCAAGGTAATTATCATGATCGATGGCGGTTTCCAGACTGGAATCGTAGTAATCCATAA -TCTGTTGAGTATTGGCTTCGAGTTGCGGCCAAATCTTCGCGGCGCGCGCGAGTTGCCCGTTGCCTTCCAG -CTTATGAAGAATGCGCTCATAAATACTGAAATGTCCGGCAGACAAGTAATCGACCAGGCTCTGACAAAAA -TCATCAAGGGCTTTTTCGTTTAGCCTCATGTACGATTCTTTGCCAGGCTTAATGCCAACCAGATTGTAGT -AAGCCACGAGCAGATGCTTACGTACATGTAGCCAGCGATCAACCAGTTTGTTACTTCCTCTGACGCGCTC -CGTCAGGTTATCGAGCTGGTTAAGCATGATTGACTCCGCAAGTTTGTATTCAAAAACTGCTCAGTGAGAA -ATGTAAAAACCATGTTAAACATGCCAGTGATGCAAAGGTAGTGCAAGAGCTATGGATCGTATAATTGAAA -AATTAGATCACGGCTGGTGGGTCGTCAGCCATGAACAAAAATTATGGTTGCCGAAGGGAGAATTGCCATA -TGGCGAAGCGGCAAATTTCGATCTTGTGGGTCAGCGCGCACTACAAATCGGCGAATGGCAGGGGGAACCT -GTTTGGTTAGTACAACAGCAGCGGCGTCACGATATGGGGTCGGTACGTCAGGTCATTGATCTCGATGTTG -GGCTGTTTCAACTGGCCGGACGAGGCGTACAACTGGCGGAGTTTTACCGATCGCATAAATACTGTGGTTA -CTGCGGGCATGAAATGTATCCGAGCAAAACCGAATGGGCGATGCTGTGCAGCCATTGCCGTGAGCGTTAC -TACCCGCAAATCGCCCCCTGCATTATTGTTGCCATCCGTCGCGATGATTCGATCCTCCTCGCCCAGCATA -CCCGCCATCGTAACGGTGTCCATACAGTACTTGCCGGATTCGTCGAAGTGGGCGAAACCCTCGAGCAGGC -AGTCGCGCGGGAAGTGATGGAAGAGAGCGGAATTAAAGTTAAAAACTTGCGTTACGTGACTTCTCAGCCG -TGGCCGTTTCCTCAGTCTTTAATGACCGCGTTTATGGCGGAATATGACAGCGGCGACATCGTGATCGACC -CGAAAGAATTGCTCGAGGCGAACTGGTATCGCTATGACGATTTGCCGTTACTCCCGCCGCCCGGCACCGT -AGCGCGCCGTCTGATAGAAGATACGGTGGCGATGTGTCGGGCAGAGTATGAGTGATGATACACTGACCGC -CTGACGCACTAAGGAACAGCCAAAATGACCGAACTTAAAAACGATCGTTATCTGCGGGCGCTGCTGCGCC -AGCCCGTTGATGTCACTCCAGTATGGATGATGCGCCAGGCGGGTCGCTATCTACCGGAATATAAAGCCAC -GCGCGCCCAGGCAGGCGATTTTATGTCGCTGTGCAAAAACGCCGAGCTGGCGTGCGAAGTGACTTTGCAA -CCGCTGCGTCGCTACCCGCTGGATGCGGCGATCCTCTTTTCCGATATCCTCACCGTGCCGGACGCGATGG -GGTTAGGGCTCTATTTTGAAGCCGGAGAAGGTCCGCGTTTTACCTCGCCAGTCACCTGCAAAGCTGACGT -CGATAAACTGCCAATTCCGGACCCGGAAGATGAACTGGGTTACGTGATGAACGCGGTGCGTACCATTCGT -CGCGAACTGAAAGGCGAAGTGCCGCTGATTGGTTTTTCCGGCAGCCCGTGGACGCTGGCGACCTACATGG -TGGAAGGCGGCAGCAGCAAAGCCTTCACCGTGATCAAAAAAATGATGTATGCCGATCCGCAGGCGCTGCA -CGCTCTGCTCGATAAACTGGCGAAAAGCGTCACTTTGTATCTGAATGCGCAGATTAAAGCCGGTGCTCAG -GCAGTGATGATTTTCGACACCTGGGGCGGCGTGCTTACCGGGCGCGATTATCAACAGTTCTCGCTCTATT -ACATGCATAAAATTGTTGATGGTTTACTGCGTGAAAACGACGGTCGCCGCGTACCGGTCACGCTGTTTAC -CAAAGGCGGCGGACAGTGGCTGGAAGCCATGGCAGAAACCGGTTGCGATGCGCTGGGCCTCGACTGGACA -ACGGACATCGCCGATGCGCGCCGCCGTGTGGGCAATAAAGTCGCGTTGCAGGGTAATATGGATCCGTCGA -TGCTGTACGCGCCGCCTGCCCGCATTGAAGAAGAAGTAGCGACTATACTTGCAGGTTTCGGTCACGGCGA -AGGTCATGTCTTTAACCTTGGTCACGGCATTCATCAGGATGTGCCGCCAGAACATGCTGGCGTGTTCGTG -GAGGCAGTGCATCGACTGTCTGAACAGTATCACCGCTAAGGAGTGATTATGGATCTCGCGTCATTACGCG -CTCAACAAATCGAACTGGCTTCTTCTGTGATCCGCGAGGATCGACTCGATAAAGATCCACCGGATCTGAT -CGCCGGAGCCGATGTCGGGTTTGAGCAGGGCGGAGAAGTGACGCGAGCGGCGATGGTGCTGCTGAAATAT -CCCTCGCTTGAGCTGGTCGAGTATAAAGTTGCCCGCATCGCCACCACCATGCCTTACATTCCAGGTTTTC -TTTCCTTCCGCGAATATCCTGCGCTGCTGGCAGCGTGGGAGATGCTGTCGCAAAAGCCGGATTTAGTGTT -TGTCGATGGTCATGGGATCTCGCATCCTCGCCGTCTTGGCGTCGCCAGCCATTTTGGCTTATTGGTGGAT -GTGCCGACCATTGGCGTGGCGAAAAAACGGCTCTGCGGTAAATTCGAACCGCTCTCCAGCGAACCGGGCG -CGCTGGCCCCACTGATGGATAAAGGCGAGCAGCTGGCCTGGGTCTGGCGCAGCAAAGCGCGCTGTAACCC -GTTGTTTATCGCTACCGGCCATCGGGTCAGCGTGGACAGCGCGCTGGCGTGGGTACAACGCTGCATGAAA -GGCTATCGTCTGCCGGAGCCAACGCGCTGGGCGGACGCGGTGGCCTCGGAACGTCCGGCGTTCGTGCGCT -ATACAGCAAATCAGCCCTAATTCAGGTAAACTGCGGATAATTTCCGTATTTGAGAACTCAACATGTTACA -AAACCCAATTCATCTGCGTCTGGAGCGCCTGGAAAGCTGGCAGCATGTCACTTTCATGGCTTGCTTATGC -GAACGCATGTACCCCAATTACGCCATGTTCTGCCAGCAAACCGGTTTTGGTGATGGGCAAATTTACCGTC -GCATTCTCGATCTCATCTGGGAAACGCTGACCGTTAAAGACGCAAAAGTAAATTTCGACAGCCAACTGGA -GAAATTTGAAGAAGCGATTCCTTCAGCCGACGATTTCGATCTGTACGGCGTTTATCCGGCAATCGATGCC -TGCGTGGCGTTAAGTGAACTGGTCCATTCGCGTTTGAGTGGTGAAACGCTCGAACACGCGGTGGAAGTGA -GTAAGACCTCCATCACGACCGTTGCGATGCTGGAAATGACTCAGGCTGGTCGCGAAATGAGCGATGAAGA -GCTTAAAGAAAACCCAGCTGTAGAGCAAGAATGGGACATTCAGTGGGAAATATTCCGACTTTTAGCTGAG -TGCGAAGAACGCGATATCGAGCTGATAAAAGGCCTTAGGGCAGACCTGCGTGAGGCGGGTGAGAGCAATA -TTGGTATAATTTTTCAGCAATAAGACCAGAAAACGTGATTTAACGCCTGATTTGTCGTACCTGGAGTCTT -CCCTTTCGCCCCCCGTCTGGTCTACATTTGGGGGGCGAAAAAAAGTGGCTATCGGTGCGTGTATGCAGGA -GAGTGCTATTCTGGCATTTCCGTCGCACTCGATGCTTAGCAAGCGATAAACACATTGTAAGGATAACTTA -TGAACAAGACTCAACTGATTGATGTAATTGCAGAGAAAGCAGAACTGTCCAAAACCCAGGCTAAAGCTGC -TCTGGAGTCCACTCTGGCTGCAATTACTGAGTCTCTGAAAGAAGGCGATGCTGTACAACTGGTTGGTTTC -GGTACCTTCAAAGTGAACCACCGCGCTGAGCGTACTGGCCGCAACCCGCAGACCGGTAAAGAAATCAAAA -TTGCCGCAGCTAACGTACCGGCATTTGTTTCTGGCAAGGCACTGAAAGACGCAGTTAAGTAAGATTGCGT -GGCAGTGAACAGTTTTAACGAAGGGGTGGTTTCACCCCTTTTGTCTTTCTGGCGTCGATCATTGATGCTG -GCTGGCGCTCTGCTTCTCACTGCCTGTAGTCATAACTCTTCACTTCCTCCCTTTACCGCCAGTGGATTTG -CTGAAGACCAGGGCGCGGTACGCATCTGGCGAAAAGACAGCGGCGATAATGTGCATCTGCTTGCCGTGTT -TAGCCCGTGGCGCAGTGGCGATACCACGACGCGAGAGTATCGCTGGCAGGGCGATAACCTCACGCTCATC -AATATCAATGTTTACAGCAAACCGCCGGTGAATATTCGCGCGCGTTTTGACGATCGCGGTGATCTGAGCT -TTATGCAACGTGAATCCGATGGGGAAAAGCAGCAGCTTTCTAACGACCAAATCGATTTATACCGTTATCG -TGCTGATCAGATCCGCCAGATTAGCGATGCCTTACGTCAGGGGAGAGTCGTGCTGCGCCAGGGGCGCTGG -CATGCGATGGAACAGACCGTGACCACCTGCGAAGGGCAAACCATTAAACCTGATTTAGATTCGCAGGCGA -TAGCGCATATCGAGCGCCGCCAGAGCCGCTCTTCTGTTGATGTCAGCGTGGCATGGCTGGAAGCGCCCGA -AGGTTCGCAATTACTGTTAGTGGCAAACTCTGATTTCTGTCGCTGGCAACCCAACGAGAAAACGTTCTGA -TTTACCAGTGGCCCATACCCATATGACCGCCACCACCGCAGCCGCCGTAGCCCATGCCCATTCCGGCTCC -GCGCGGAATACCCGCTTCAGCCATCGCGATATCTCGTTTCACCCGTAACTCATCTAACGACTGACGCAAA -TTCTCCATCTCTTTGGCGACCGCGTTAATTTTGCTGCTATCCGGTGGGTTCGCGGCTAACAGGGCATTGT -ATTCATAACGCTTCGTCACCAGTTGCTGTTGCAGTGCGCTGCTTTGAGCGTAAAAGTCATTATGGATTTT -CTGCCACGCTGTCTGTTGTTCGCTGGTCAAAGGCGCGGCATTTTGCTGCCACATACCGTGTCCGCCGTGA -GCAAATGCAGATGTCGATCCCATCGCCATTGCTGAAAGCGCCATCATTACCAGGGCAATTTTCGTGTTCC -GTTTCATGGTTAATCCTCCAGTGGTTGTCTTACTTCGGGTATTGCATCTTCCGTGCCAACGATGAAACGC -TGATATGACGGGTAATCTGGCATGATAAACGAGTAAAAATGACTCGCCTGCTGCGGGTAGCGAGTCATTT -TTACTCATTGAAACTTAAGCCTTTGTGTTACAGCGCAGGGTAAGCGCTGATAAAAGATGGCATGATTTCT -GCTGTCAGAAAGGGATGAGCAGGCAAAGAAGAAGATGCGTTTTATGCAACGTTCTAAAGACTCCTTAGCT -AAATGGTTAAGCGCGATCCTCCCCGTGGTCATTGTTGGGCTGGTGGGATTGTTTGCGGTAACTGTGATTC -GTGATTATGGGCGGGCAAGCGAGGCAGACCGCCAGGCATTACTGGAAAAAGGTAATGTGCTTATCCGCGC -TCTGGAGTCGGGAAGCCGCGTAGGGATGGGGATGCGAATGCACCATGTACAGCAACAGGCGCTTCTGGAA -GAGATGGCGGGACAGCCGGGAGTGTTGTGGTTCGCAGTCACCGATGCGCAGGGCATCATTATTCTTCATA -GCGACCCCGATAAGGTCGGGCGTGCGCTCTATTCGCCGGATGAAATGCAGAAATTAAAGCCAGAGGAAAA -CTCCCGCTGGCGGCTGCTTGGGAAAACGGAAACTACGCCTGCACTTGAGGTCTATCGTTTGTTCCAGCCA -ATGTCAGCGCCCTGGCGGCATGGAATGCACAATATGCCGCGCTGTAACGGCAAAGCTGTGCCACAAGTAG -ATGCACAACAGGCTATTTTTATCGCCGTTGATGCCAGTGATCTGGTTGCAACCCAGAGTGGGGAAAAGCG -CAATACCCTGATTATCCTCTTCGCCCTGGCGACGGTCTTGCTGGCAAGCGTATTGTCATTCTTCTGGTAT -CGCCGCTATCTGCGCTCGCGCCAGCTTCTACAAGATGAAATGAAGCGCAAAGAGAAGCTGGTGGCGCTGG -GGCATCTTGCGGCAGGCGTTGCCCACGAAATCCGTAACCCACTTTCCTCGATTAAAGGACTGGCGAAATA -CTTTGCCGAGCGCGCGCCTGCAGGGGGAGAAGCGCATCAACTGGCGCAGGTGATGGCGAAAGAGGCCGAC -CGTTTAAACCGCGTGGTAAGCGAGTTGCTGGAACTGGTTAAGCCAACGCATCTGGCTTTGCAGGCGGTGG -ATCTCAACACGCTGATTAACCACTCATTACAGCTGGTAAGTCAGGATGCAAACAGCCGGGAGATCCAGTT -ACGCTTTACCGCCAACGACACATTACCGGAAATTCAGGCCGACCCGGACAGGCTGACTCAGGTCCTGTTG -AATCTCTATCTCAATGCTATTCAGGCGATTGGTCAGCATGGCGTGATTAGCGTGACGGCCAGCGAAAGCG -GCGCGGGCGTGAAAATCAGCGTTACCGACAGCGGTAAGGGAATTGCGGCAGATCAGCTTGATGCCATCTT -CACTCCGTACTTCACCACTAAAGCCGAAGGCACCGGATTGGGGCTGGCGGTCGTGCATAATATTGTTGAA -CAACACGGTGGTACAATTCAGGTCGCAAGCCAGGAGGGAAAAGGCTCAACGTTCACCCTCTGGCTTCCGG -TCAATATTACGCGTAAGGACCCACAAGGATGACGCACGATAATATCGATATTCTGGTGGTGGATGATGAC -ATTAGCCACTGCACTATTTTGCAGGCTTTACTGCGCGGCTGGGGCTATAACGTCGCGCTGGCGAACAGCG -GGCGACAGGCGTTGGAGCAGGTGCGGGAACAGGTTTTTGATCTTGTGCTTTGCGATGTGCGAATGGCGGA -GATGGACGGCATCGCCACGCTGAAAGAGATCAAAGCGTTAAACCCGGCAATTCCGGTGCTGATTATGACT -GCGTACTCCAGCGTCGAGACGGCGGTAGAGGCACTGAAAACTGGGGCGCTGGATTATCTCATCAAGCCGC -TGGATTTCGATAACCTACAGGCGACGCTGGAAAAAGCGCTCGCGCATACGCACAGTATTGATGCTGAAAC -ACCTGCGGTGACTGCCAGCCAGTTCGGTATGGTCGGTAAAAGCCCGGCGATGCAACACCTGCTCAGTGAA -ATCGCCCTCGTCGCGCCATCGGAAGCCACGGTACTGATCCACGGCGATTCCGGCACCGGTAAAGAGCTGG -TCGCCAGGGCGATTCACGCCAGTAGCGCACGTAGCGAAAAACCGCTGGTAACGCTCAACTGTGCGGCACT -CAACGAATCCTTGCTGGAATCTGAATTGTTCGGTCACGAAAAAGGGGCGTTTACTGGAGCCGATAAACGC -CGGGAAGGGCGCTTTGTTGAGGCGGACGGCGGCACGCTGTTTCTCGATGAAATTGGCGATATCTCGCCGA -TGATGCAGGTGCGTCTGCTGCGTGCGATTCAGGAGCGCGAAGTTCAGCGTGTCGGTAGCAACCAGATTAT -CTCGGTTGATGTCCGGCTGATTGCGGCGACCCATCGCGATCTTGCCGCAGAGGTGAATGCCGGGCGTTTT -CGCCAGGATCTCTACTATCGCCTGAATGTGGTGGCGATTGAAGTACCATCGCTGCGGCAACGGCGGGAAG -ATATCCCTCTGCTGGCTGGCCATTTTCTGCAGCGCTTTGCCGAGCGTAATCGCAAGGCGGTAAAAGGTTT -TACGCCCCAGGCGATGGATCTGTTGATTCATTACGACTGGCCGGGAAATATTCGTGAGCTGGAAAACGCG -GTGGAACGGGCAGTGGTGCTGCTGACCGGGGAATATATTTCCGAACGCGAGCTGCCGCTGGCGATTGCCA -GTACGCCGATCCCGCTGGGACAAAGTCAGGATATTCAGCCGTTGGTGGAAGTGGAAAAAGAGGTGATTCT -GGCGGCGCTGGAGAAAACGGGCGGCAACAAAACCGAAGCCGCCCGTCAGTTAGGGATCACGCGCAAAACG -CTATTGGCAAAACTGTCGCGTTAGTTCTGCTCGCGTTCGATAGCGCGCCAGCCGATATCTTTCCGGCAGA -AGCAGTCGTCCCAGTGGATATCGGTCATTAAGGCATAGGCGCGTTTCTGCGCTTCTGCCACGGTATGACC -CAGCGCGGTGACGCACAGTACGCGCCCGCCGTTGGTCACTACCTGCTCGTCATCCGCCAGTTTTGTGCCC -GCGTGGAACACTTTGCCGCCTGCCACTTCTTCCAGCGGCAGGCCGTGGATCACGTCACCGGTGCGGTAAT -CACCCGGATATCCACCCGCAGCCATCACCACGCCGAGAGAAGCGCGTTCATCCCACTCGGACGTTTTCTC -GTCCAGTTTGCTTTCACAGGCCGCCAGGCAGAGCTCAACCAGATCGGACTTCATGCGCAGCATAATCGGC -TGGGTTTCCGGATCGCCAAAGCGGCAGTTAAATTCAATAACCTTCGGATTGCCCTGTTTGTCGATCATCA -GGCCCGCGTAGAGAAAACCGGTGTAGGTGTTGCCTTCCGCCGCCATGCCTTTCACGGTTGGCCAGATAAT -ACGTTCCATGGTGCGCTGATGAACGTCATCGGTTACTACCGGCGCGGGGGAGTAAGCGCCCATCCCGCCG -GTGTTTGGTCCGGTATCTTTATCGCCTACGCGTTTGTGATCCTGGCTGGTAGCCATCGGCAGCACATGCT -CGCCGTCCACCATCACGATAAAGCTCGCTTCTTCGCCATCGAGGAACTCTTCGATAACGATGCGATGACC -CGCGTCGCCAAAAGCGTTGCCCGCCAGCATATCGTGAACAGCCGCTTCCGCTTCTTCCAGCGTCATCGCC -ACGATAACGCCTTTCCCGGCAGCCAGACCGTCCGCTTTAATGACGATTGGCGCGCCTTTCTCACGCAGAT -ACGCCAGCGCAGGTTCTACCTCGGTGAAGTTCTGGTATTCCGCCGTAGGGATCTTATGGCGGGCCAGGAA -ATCTTTGGTAAACGCTTTTGAGCCTTCCAGTTGGGCCGCACCTGCGGTTGGGCCGAAGATTTTCAGCCCG -GCGGCGCGGAAGGTATCGACCACGCCTTTCACCAGCGGCGCTTCCGGGCCGACGATGGTCAGATCAATCT -TTTCGTTTTGTGCGAAATCCAACAGCGCCGGGATATCGGTCACGCCAATAGCAACGTTTTGCAGCGCGGG -TTCCAGTGCAGTGCCTGCATTACCCGGAGCAACAAAAACAGTCTCAACCAGCGGCGACTGGGCCGCTTTC -CAGGCCAGCGCGTGCTCGCGCCCGCCGTTACCAATCACTAATACTTTCATCTATTGCTCCATTAATGGCG -GAAGTGGCGCATGTCGGTGAAGAGCATCGCAATACCGTGCTCGTCGGCGGCGGCAATCACTTCGTCATCA -CGGATAGAACCGCCAGGCTGGATTACGCAGGTCACGCCCGCAGCGGCGGCGGCATCAATACCGTCGCGGA -ACGGGAAGAACGCGTCAGAAGCCATCGAGGAACCTTTCACTTCCAGGCCTTCATCGGCCGCTTTAATACC -GGCGATTTTTGCGGAGTACACGCGGCTCATCTGGCCCGCGCCAATGCCGATAGTCATATTGTTTTTGGCA -TAGACGATAGCGTTGGATTTCACAAACTTCGCCACCTTCCAGCAGAACAGCGCATCACGCAGTTCCTGTT -CGCTCGGCTGACGTTTGGTCACCACGCGCAGTTCTTCCGCACCGACCATCCCCAGGTCACGATCCTGAAC -CAGCAGACCGCCGTTCACGCGTTTGAAATCGAGGCCCGGAACACGCTCGCCCCACTGACCGCAGGTCAGA -ACGCGTACGTTCTGTTTGGCGGCGGTGATTTTCAGGGCTTCTTCGCTGGCGGACGGCGCAATAATCACTT -CGACAAACTGACGAGAAATGATGGCCTGTGCGGTTTCCGCATCCAGCTCGCGGTTAAAGGCAATGATGCC -GCCGAATGCGGAGGTTGGGTCGGTTTTGTACGCGCGATCGTAAGCATCAAGAATGGAATTGCCGATAGCC -ACGCCGCAAGGGTTGGCGTGCTTCACAATCACACATGCCGGCTCGGCGAACTCTTTCACGCACTCCAGCG -CCGCATCGGTATCGGCGATGTTGTTATAAGAGAGGGCTTTACCCTGAACCTGGGTTGCGGTAGCAACGGA -GGCTTCTTTCACATTCTCTTCTATATAGAAGGCAGCCTGCTGGTGGCTGTTCTCGCCGTAACGCATATCC -AGCTTCTTAATGAAGTTCAGGTTCAGCGTGCGTGGGAAGCGACCGGCGGCTTCTTTGCTTTCACCGTGGT -AAGCCGGAACCATGCTGCCGAAGTAGTTGGCAATCATGCTGTCGTAGGCGGCAGTGTGTTCGAAGGCTTT -GATGGCGAGGTCGAAACGGGTTGCAAGCGTCAGCGATCCTTCGTTGTCATCCATCTCTTTAATAATGGCG -TCATAGTCGCTGCTCTTCACCACGATTGCGACATCTTTATGGTTCTTGGCGGCGGAGCGCACCATCGTTG -GGCCGCCGATATCGATGTTCTCAACCGCATCTTCCAGCGAGCAACCTTCACGGGCCACGGTCTGGGCGAA -CGGATACAGGTTAACAACCACCATATCGATAGGCTGGATCTGATGTTCTTCCATAATGGCATCGTCCTGG -CCGCGACGGCCCAGAATGCCACCATGTACTTTCGGATGCAGGGTCTTCACGCGTCCATCCATCATCTCCG -GGAAACCGGTGTAATCGGAAACTTCGGTTACCGGCAGACCTTTTTCTGCTAACAGACGGGCAGTGCCCCC -TGTAGACAGCAGCTCCACACCGCGTGCGGAAAGTGCCTGGGCGAATTCGACGATACCGGCTTTGTCAGAA -ACACTGAGCAGAGCGCGGCGGACTGGACGACGTTGTTGCATGGTAAATCCCCTGGATTTGACTATTACAG -AGAGCGTTAGCTGAATTTTTCGCGAAAAACTCAGCTAACGCCCCTAACGGGGCATCCTTATTTTTCGCCC -GCATTGTAACGAAAACGTTTGCGCAACGCTCGCGAATTTTTCTCTTTCAATGGTGATCACAATTTTGACT -GTGGTTACCGTGGGCAAAATACAGAAATTACATTGATGATTGTGGATAACTCTGTGCGTAAAAAGGTATA -AAGCGGGCTTTTGCTGGGGAATGCAGCAGTCAGTCATTTTTCTGCAATTTTTCTATTGCGGCCTGCGGAG -AACTCCCTATAATGCGCCTCCATCGACACGGCGGATGTGAATCACTTCACACAAACAGCCGGTTCGGTTG -AAGAGAAAAATCCTGAAATTCAGGGTTGACTCTGAAAGAGGAAAGCGTAATATACGCCACCTCGCGACAG -TGCGCTAAAGCGCGTCGCAACTGCTCTTTAACAATTTATCAGACAATCTGTGTGGGCACTCGAAGATACG -GATTCTTAACGTCGCAAGACGAAAAATGAATACCAAGTCTCAAGAGTGAACACGTAATTCATTACGAAGT -TTAATTCTTTGAGCATCAAACTTTTAAATTGAAGAGTTTGATCATGGCTCAGATTGAACGCTGGCGGCAG -GCCTAACACATGCAAGTCGAACGGTAACAGGAAGAAGCTTGCTTCTTTGCTGACGAGTGGCGGACGGGTG -AGTAATGTCTGGGAAACTGCCTGATGGAGGGGGATAACTACTGGAAACGGTAGCTAATACCGCATAACGT -CGCAAGACCAAAGAGGGGGACCTTCGGGCCTCTTGCCATCGGATGTGCCCAGATGGGATTAGCTAGTAGG -TGGGGTAACGGCTCACCTAGGCGACGATCCCTAGCTGGTCTGAGAGGATGACCAGCCACACTGGAACTGA -GACACGGTCCAGACTCCTACGGGAGGCAGCAGTGGGGAATATTGCACAATGGGCGCAAGCCTGATGCAGC -CATGCCGCGTGTATGAAGAAGGCCTTCGGGTTGTAAAGTACTTTCAGCGGGGAGGAAGGGAGTAAAGTTA -ATACCTTTGCTCATTGACGTTACCCGCAGAAGAAGCACCGGCTAACTCCGTGCCAGCAGCCGCGGTAATA -CGGAGGGTGCAAGCGTTAATCGGAATTACTGGGCGTAAAGCGCACGCAGGCGGTTTGTTAAGTCAGATGT -GAAATCCCCGGGCTCAACCTGGGAACTGCATCTGATACTGGCAAGCTTGAGTCTCGTAGAGGGGGGTAGA -ATTCCAGGTGTAGCGGTGAAATGCGTAGAGATCTGGAGGAATACCGGTGGCGAAGGCGGCCCCCTGGACG -AAGACTGACGCTCAGGTGCGAAAGCGTGGGGAGCAAACAGGATTAGATACCCTGGTAGTCCACGCCGTAA -ACGATGTCGACTTGGAGGTTGTGCCCTTGAGGCGTGGCTTCCGGAGCTAACGCGTTAAGTCGACCGCCTG -GGGAGTACGGCCGCAAGGTTAAAACTCAAATGAATTGACGGGGGCCCGCACAAGCGGTGGAGCATGTGGT -TTAATTCGATGCAACGCGAAGAACCTTACCTGGTCTTGACATCCACGGAAGTTTTCAGAGATGAGAATGT -GCCTTCGGGAACCGTGAGACAGGTGCTGCATGGCTGTCGTCAGCTCGTGTTGTGAAATGTTGGGTTAAGT -CCCGCAACGAGCGCAACCCTTATCCTTTGTTGCCAGCGGTCCGGCCGGGAACTCAAAGGAGACTGTTAGT -GATAAACTGGAGGAAGGTGGGGATGACGTCAAGTCATCATGGCCCTTACGACCAGGGCTACACACGTGCT -ACAATGGCGCATACAAAGAGAAGCGACCTCGCGAGAGCAAGCGGACCTCATAAAGTGCGTCGTAGTCCGG -ATTGGAGTCTGCAACTCGACTCCATGAAGTCGGAATCGCTAGTAATCGTGGATCAGAATGCCACGGTGAA -TACGTTCCCGGGCCTTGTACACACCGCCCGTCACACCATGGGAGTGGGTTGCAAAAGAAGTAGGTAGCTT -AACCTTCGGGAGGGCGCTTACCACTTTGTGATTCATGACTGGGGTGAAGTCGTAACAAGGTAACCGTAGG -GGAACCTGCGGTTGGATCACCTCCTTACCTTAAAGAAGCGTTCTTTGCAGTGCTCACACAGATTGTCTGA -TAGAAAGTGAAAAGCAAGGCGTCTTGCGAAGCAGACTGATACGTCCCCTTCGTCTAGAGGCCCAGGACAC -CGCCCTTTCACGGCGGTAACAGGGGTTCGAATCCCCTAGGGGACGCCACTTGCTGGTTTGTGAGTGAAAG -TCACCTGCCTTAATATCTCAAAACTCATCTTCGGGTGATGTTTGAGATATTTGCTCTTTAAAAATCTGGA -TCAAGCTGAAAATTGAAACACTGAACAACGAAAGTTGTTCGTGAGTCTCTCAAATTTTCGCAACACGATG -ATGAATCGTAAGAAACATCTTCGGGTTGTAAGGTTAAGCGACTAAGCGTACACGGTGGATGCCCTGGCAG -TCAGAGGCGATGAAGGACGTGCTAATCTGCGATAAGCGTCGGTAAGGTGATATGAACCGTTATAACCGGC -GATTTCCGAATGGGGAAACCCAGTGTGTTTCGACACACTATCATTAACTGAATCCATAGGTTAATGAGGC -GAACCGGGGGAACTGAAACATCTAAGTACCCCGAGGAAAAGAAATCAACCGAGATTCCCCCAGTAGCGGC -GAGCGAACGGGGAGCAGCCCAGAGCCTGAATCAGTGTGTGTGTTAGTGGAAGCGTCTGGAAAGGCGCGCG -ATACAGGGTGACAGCCCCGTACACAAAAATGCACATGCTGTGAGCTCGATGAGTAGGGCGGGACACGTGG -TATCCTGTCTGAATATGGGGGGACCATCCTCCAAGGCTAAATACTCCTGACTGACCGATAGTGAACCAGT -ACCGTGAGGGAAAGGCGAAAAGAACCCCGGCGAGGGGAGTGAAAAAGAACCTGAAACCGTGTACGTACAA -GCAGTGGGAGCACGCTTAGGCGTGTGACTGCGTACCTTTTGTATAATGGGTCAGCGACTTATATTCTGTA -GCAAGGTTAACCGAATAGGGGAGCCGAAGGGAAACCGAGTCTTAACTGGGCGTTAAGTTGCAGGGTATAG -ACCCGAAACCCGGTGATCTAGCCATGGGCAGGTTGAAGGTTGGGTAACACTAACTGGAGGACCGAACCGA -CTAATGTTGAAAAATTAGCGGATGACTTGTGGCTGGGGGTGAAAGGCCAATCAAACCGGGAGATAGCTGG -TTCTCCCCGAAAGCTATTTAGGTAGCGCCTCGTGAATTCATCTCCGGGGGTAGAGCACTGTTTCGGCAAG -GGGGTCATCCCGACTTACCAACCCGATGCAAACTGCGAATACCGGAGAATGTTATCACGGGAGACACACG -GCGGGTGCTAACGTCCGTCGTGAAGAGGGAAACAACCCAGACCGCCAGCTAAGGTCCCAAAGTCATGGTT -AAGTGGGAAACGATGTGGGAAGGCCCAGACAGCCAGGATGTTGGCTTAGAAGCAGCCATCATTTAAAGAA -AGCGTAATAGCTCACTGGTCGAGTCGGCCTGCGCGGAAGATGTAACGGGGCTAAACCATGCACCGAAGCT -GCGGCAGCGACGCTTATGCGTTGTTGGGTAGGGGAGCGTTCTGTAAGCCTGCGAAGGTGTGCTGTGAGGC -ATGCTGGAGGTATCAGAAGTGCGAATGCTGACATAAGTAACGATAAAGCGGGTGAAAAGCCCGCTCGCCG -GAAGACCAAGGGTTCCTGTCCAACGTTAATCGGGGCAGGGTGAGTCGACCCCTAAGGCGAGGCCGAAAGG -CGTAGTCGATGGGAAACAGGTTAATATTCCTGTACTTGGTGTTACTGCGAAGGGGGGACGGAGAAGGCTA -TGTTGGCCGGGCGACGGTTGTCCCGGTTTAAGCGTGTAGGCTGGTTTTCCAGGCAAATCCGGAAAATCAA -GGCTGAGGCGTGATGACGAGGCACTACGGTGCTGAAGCAACAAATGCCCTGCTTCCAGGAAAAGCCTCTA -AGCATCAGGTAACATCAAATCGTACCCCAAACCGACACAGGTGGTCAGGTAGAGAATACCAAGGCGCTTG -AGAGAACTCGGGTGAAGGAACTAGGCAAAATGGTGCCGTAACTTCGGGAGAAGGCACGCTGATATGTAGG -TGAAGCGACTTGCTCGTGGAGCTGAAATCAGTCGAAGATACCAGCTGGCTGCAACTGTTTATTAAAAACA -CAGCACTGTGCAAACACGAAAGTGGACGTATACGGTGTGACGCCTGCCCGGTGCCGGAAGGTTAATTGAT -GGGGTTAGCGCAAGCGAAGCTCTTGATCGAAGCCCCGGTAAACGGCGGCCGTAACTATAACGGTCCTAAG -GTAGCGAAATTCCTTGTCGGGTAAGTTCCGACCTGCACGAATGGCGTAATGATGGCCAGGCTGTCTCCAC -CCGAGACTCAGTGAAATTGAACTCGCTGTGAAGATGCAGTGTACCCGCGGCAAGACGGAAAGACCCCGTG -AACCTTTACTATAGCTTGACACTGAACATTGAGCCTTGATGTGTAGGATAGGTGGGAGGCTTTGAAGTGT -GGACGCCAGTCTGCATGGAGCCGACCTTGAAATACCACCCTTTAATGTTTGATGTTCTAACGTTGACCCG -TAATCCGGGTTGCGGACAGTGTCTGGTGGGTAGTTTGACTGGGGCGGTCTCCTCCTAAAGAGTAACGGAG -GAGCACGAAGGTTGGCTAATCCTGGTCGGACATCAGGAGGTTAGTGCAATGGCATAAGCCAGCTTGACTG -CGAGCGTGACGGCGCGAGCAGGTGCGAAAGCAGGTCATAGTGATCCGGTGGTTCTGAATGGAAGGGCCAT -CGCTCAACGGATAAAAGGTACTCCGGGGATAACAGGCTGATACCGCCCAAGAGTTCATATCGACGGCGGT -GTTTGGCACCTCGATGTCGGCTCATCACATCCTGGGGCTGAAGTAGGTCCCAAGGGTATGGCTGTTCGCC -ATTTAAAGTGGTACGCGAGCTGGGTTTAGAACGTCGTGAGACAGTTCGGTCCCTATCTGCCGTGGGCGCT -GGAGAACTGAGGGGGGCTGCTCCTAGTACGAGAGGACCGGAGTGGACGCATCACTGGTGTTCGGGTTGTC -ATGCCAATGGCACTGCCCGGTAGCTAAATGCGGAAGAGATAAGTGCTGAAAGCATCTAAGCACGAAACTT -GCCCCGAGATGAGTTCTCCCTGACTCCTTGAGAGTCCTGAAGGAACGTTGAAGACGACGACGTTGATAGG -CCGGGTGTGTAAGCGCAGCGATGCGTTGAGCTAACCGGTACTAATGAACCGTGAGGCTTAACCTTACAAC -GCCGAAGGTGTTTTGGCGGATTGAGAGAAGATTTTCAGCCTGATACAGATTAAATCAGAACGCAGAAGCG -GTCTGATAAAACAGAATTTGCCTGGCGGCAGTAGCGCGGTGGTCCCACCTGACCCCATGCCGAACTCAGA -AGTGAAACGCCGTAGCGCCGATGGTAGTGTGGGGTCTCCCCATGCGAGAGTAGGGAACTGCCAGGCATCA -AATTAGAAAAACCCCGGTCCATAAGGCCGGGGTTTTTTGCATATCAATTATTTGCATGATGAAGGGAATC -TCATGTCAGTTCTGTATATCCAAATTCGTCGTAATCAAATTACTGTTCGCGATCTTGAAAGCAAACGTGA -AGTGTCAGGAGACGCTGCCTTCAGTAACCAGCGCCTGTTAATCGCCAATTTCTTTGTTGCAGAAAAAGTT -CTGCAAGATCTTGTTCTGCAACTCCACCCACGTTCAACCTGGCATTCTTTTTTGCCAGCAAAACGTATGG -ATATTGTTGTGAGCGCACTGGAAATGAATGAGGGCGGTTTGTCACAGGTTGAGGAACGCATTCTCCATGA -AGTGGTCGCTGGGGCAACGTTAATGAAATATCGCCAGTTCCACATCCATGCGCAATCAGCGGTACTCAGT -GATAGTGCGGTCATGGCAATGCTTAAGCAGAAATAATCGTGTCACCATTGGTGGGTACTAAACCTGAAGT -TCAGCCCACCGGGATGAGAAAAAATCGCCTACGCCCCCACATACGCCAGATTCAGCAACGGATACGGTTT -CCCCAAATCGTCCACCTCAGAGCGTCCCGTAACCTTAAAACCCACCTTCTTATAGAACCCAACCGCCTGC -TCATTTTGCTCATTAACGTTGGTTGTCAGTTCCGGTGCCATCGAGAGCGCATGCTCCACCAGCACCCGAC -CTACGCCGCAGCCGCGCACATCAGGATCGATAAACAGCGCATCCATATGCTGCCCACTTAGCAACATAAA -TCCAACCGGCTGATCCCGCTCATTAACCGCGACCCACAACGGCGCTTCCGGCAGGAAGGAACGAACTAGG -TCCTCCAGCTCGGTCCGATACTCTGCTGATAGAAAATCGTGAGTGGCATCGACAGAACGACACCAAATCG -CAACGAGTTCCTCCCCTTCCTCATGCCGTGAGCGGCGAATACTAATAACCATTTTCTCTCCTTTTAGTCA -TTCTTATATTCTAACGTAGTCTTTTCCTTGAAACTTTCTCACCTTCAACATGCAGGCTCGACATTGGCAA -ATTTTCTGGTTATCTTCAGCTATCTGGATGTCTAAACGTATAAGCGTATGTAGTGAGGTAATCAGGTTAT -GCCGATTCGTGTGCCGGACGAGCTACCCGCCGTCAATTTCTTGCGTGAAGAAAACGTCTTTGTGATGACA -ACTTCTCGTGCGTCTGGTCAGGAAATTCGTCCACTTAAGGTTCTGATCCTTAACCTGATGCCGAAGAAGA -TTGAAACTGAAAATCAGTTTCTGCGCCTGCTTTCAAACTCACCTTTGCAGGTCGATATTCAGCTGTTGCG -CATCGATTCCCGTGAATCGCGCAACACGCCCGCAGAGCATCTGAACAACTTCTACTGTAACTTTGAAGAT -ATTCAGGATCAGAACTTTGACGGTTTGATTGTAACTGGTGCGCCGCTGGGCCTGGTGGAGTTTAATGATG -TCGCTTACTGGCCGCAGATCAAACAGGTGCTGGAGTGGTCGAAAGATCACGTCACCTCGACGCTGTTTGT -CTGCTGGGCGGTACAGGCCGCGCTCAATATCCTCTACGGCATTCCTAAGCAAACTCGCACCGAAAAACTC -TCTGGCGTTTACGAGCATCATATTCTCCATCCTCATGCGCTTCTGACGCGTGGCTTTGATGATTCATTCC -TGGCACCGCATTCGCGCTATGCTGACTTTCCGGCAGCGTTGATTCGTGATTACACCGATCTGGAAATTCT -GGCAGAGACGGAAGAAGGGGATGCATATCTGTTTGCCAGTAAAGATAAGCGCATTGCCTTTGTGACGGGC -CATCCCGAATATGATGCGCAAACGCTGGCGCAGGAATTTTTCCGCGATGTGGAAGCCGGACTAGACCCGG -ATGTACCGTATAACTATTTCCCGCACAATGATCCGCAAAATACACCGCGAGCGAGCTGGCGTAGTCACGG -TAATTTACTGTTTACCAACTGGCTCAACTATTACGTCTACCAGATCACGCCATACGATCTACGGCACATG -AATCCAACGCTGGATTAATCTTCTGTGATAGTCGATCGTTAAGCGATTCAGCACCTTACCTCAGGCACCT -TCGGGTGCCTTTTTTATTTCCGAAACGTACCTCAGCAGGTGAATAAATTTTATTCATATTGTTATCAACA -AGTTATCAAGTATTTTTAATTAAAATGGAAATTGTTTTTGATTTTGCATTTTAAATGAGTAGTCTTAGTT -GTGCTGAACGAAAAGAGCACAACGATCCTTCGTTCACAGTGGGGAAGTTTTCGGATCCATGACGAGGAGC -TGCACGATGACTGAACAGGCAACAACAACCGATGAACTGGCTTTCACAAGGCCGTATGGCGAGCAGGAGA -AGCAAATTCTTACTGCCGAAGCGGTAGAATTTCTGACTGAGCTGGTGACGCATTTTACGCCACAACGCAA -TAAACTTCTGGCAGCGCGCATTCAGCAGCAGCAAGATATTGATAACGGAACGTTGCCTGATTTTATTTCG -GAAACAGCTTCCATTCGCGATGCTGATTGGAAAATTCGCGGGATTCCTGCGGACTTAGAAGACCGCCGCG -TAGAGATAACTGGCCCGGTAGAGCGCAAGATGGTGATCAACGCGCTCAACGCCAATGTGAAAGTCTTTAT -GGCCGATTTCGAAGATTCACTGGCACCAGACTGGAACAAAGTGATCGACGGGCAAATTAACCTGCGTGAT -GCGGTTAACGGCACCATCAGTTACACCAATGAAGCAGGCAAAATTTACCAGCTCAAGCCCAATCCAGCGG -TTTTGATTTGTCGGGTACGCGGTCTGCACTTGCCGGAAAAACATGTCACCTGGCGTGGTGAGGCAATCCC -CGGCAGCCTGTTTGATTTTGCGCTCTATTTCTTCCACAACTATCAGGCACTGTTGGCAAAGGGCAGTGGT -CCCTATTTCTATCTGCCGAAAACCCAGTCCTGGCAGGAAGCGGCCTGGTGGAGCGAAGTCTTCAGCTATG -CAGAAGATCGCTTTAATCTGCCGCGCGGCACCATCAAGGCGACGTTGCTGATTGAAACGCTGCCCGCCGT -GTTCCAGATGGATGAAATCCTTCACGCGCTGCGTGACCATATTGTTGGTCTGAACTGCGGTCGTTGGGAT -TACATCTTCAGCTATATCAAAACGTTGAAAAACTATCCCGATCGCGTCCTGCCAGACAGACAGGCAGTGA -CGATGGATAAACCATTCCTGAATGCTTACTCACGCCTGTTGATTAAAACCTGCCATAAACGCGGTGCTTT -TGCGATGGGCGGCATGGCGGCGTTTATTCCGAGCAAAGATGAAGAGCACAATAACCAGGTGCTCAACAAA -GTAAAAGCGGATAAATCGCTGGAAGCCAATAACGGTCACGATGGCACATGGATCGCTCACCCAGGCCTTG -CGGACACGGCAATGGCGGTATTCAACGACATTCTCGGCTCCCGTAAAAATCAGCTTGAAGTGATGCGCGA -ACAAGACGCGCCGATTACTGCCGATCAGCTGCTGGCACCTTGTGATGGTGAACGCACCGAAGAAGGTATG -CGCGCCAACATTCGCGTGGCTGTGCAGTACATCGAAGCGTGGATCTCTGGCAACGGCTGTGTGCCGATTT -ATGGCCTGATGGAAGATGCGGCGACGGCTGAAATTTCCCGTACCTCGATCTGGCAGTGGATCCATCATCA -AAAAACGTTGAGCAATGGCAAACCGGTGACCAAAGCCTTGTTCCGCCAGATGCTGGGCGAAGAGATGAAA -GTCATTGCCAGCGAACTGGGCGAAGAACGTTTCTCCCAGGGGCGTTTTGACGATGCCGCACGCTTGATGG -AACAGATCACCACTTCCGATGAGTTAATTGATTTCCTGACCCTGCCAGGCTACCGCCTGTTAGCGTAAAC -CACCACATAACTATGGAGCATCTGCACATGAAAACCCGTACACAACAAATTGAAGAATTACAGAAAGAGT -GGACTCAACCGCGTTGGGAAGGCATTACTCGCCCATACAGTGCGGAAGATGTGGTGAAATTACGCGGTTC -AGTCAATCCTGAATGCACGCTGGCGCAACTGGGCGCAGCGAAAATGTGGCGTCTGCTGCACGGTGAGTCG -AAAAAAGGCTACATCAACAGCCTCGGCGCACTGACTGGCGGTCAGGCGCTGCAACAGGCGAAAGCGGGTA -TTGAAGCAGTCTATCTGTCGGGATGGCAGGTAGCGGCGGACGCTAACCTGGCGGCCAGCATGTATCCGGA -TCAGTCGCTCTATCCGGCAAACTCGGTGCCAGCTGTGGTGGAGCGGATCAACAACACCTTCCGTCGTGCC -GATCAGATCCAATGGTCCGCGGGCATTGAGCCGGGCGATCCGCGCTATGTCGATTACTTCCTGCCGATCG -TTGCCGATGCGGAAGCCGGTTTTGGCGGTGTCCTGAATGCCTTTGAACTGATGAAAGCGATGATTGAAGC -CGGTGCAGCGGCAGTTCACTTCGAAGATCAGCTGGCGTCAGTGAAGAAATGCGGTCACATGGGCGGCAAA -GTTTTAGTGCCAACTCAGGAAGCTATTCAGAAACTGGTCGCGGCGCGTCTGGCAGCTGACGTGACGGGCG -TTCCAACCCTGCTGGTTGCCCGTACCGATGCTGATGCGGCGGATCTGATCACCTCCGATTGCGACCCGTA -TGACAGCGAATTTATTACCGGCGAGCGTACCAGTGAAGGCTTCTTCCGTACTCATGCGGGCATTGAGCAA -GCGATCAGCCGTGGCCTGGCGTATGCGCCATATGCTGACCTGGTCTGGTGTGAAACCTCCACGCCGGATC -TGGAACTGGCGCGTCGCTTTGCACAAGCTATCCACGCGAAATATCCGGGCAAACTGCTGGCTTATAACTG -CTCGCCGTCGTTCAACTGGCAGAAAAACCTCGACGACAAAACTATTGCCAGCTTCCAGCAGCAGCTGTCG -GATATGGGCTACAAGTTCCAGTTCATCACCCTGGCAGGTATCCACAGCATGTGGTTCAACATGTTTGACC -TGGCAAACGCCTATGCCCAGGGCGAGGGTATGAAGCACTACGTTGAGAAAGTGCAGCAGCCGGAATTTGC -CGCCGCGAAAGATGGCTATACCTTCGTATCTCACCAGCAGGAAGTGGGTACAGGTTACTTCGATAAAGTG -ACGACTATTATTCAGGGCGGCACGTCTTCAGTCACCGCGCTGACCGGCTCCACTGAAGAATCGCAGTTCT -AAGCAACAACAACCGTTGCTGACTGTAGGCCGGATAAGGCGTTCACGCCGCATCCGGCAATCGGTGCACG -ATGCCTGATGCGACGCTTGCGCGTCTTATCATGCCTACAGCCGTTGCCGAACGTAGGCTGGATAAGGCGT -TTACGCCGCATCCGGCAATTCTCTGCTCCTGATGAGGGCGCTAAATGCCGCGTGGCCTGGAATTATTGAT -TGCTCAAACCATTTTGCAAGGCTTCGATGCTCAGTATGGTCGATTCCTCGAAGTGACCTCCGGTGCGCAG -CAGCGTTTCGAACAGGCCGACTGGCATGCTGTCCAGCAGGCGATGAAAAACCGTATCCATCTTTACGATC -ATCACGTTGGTCTGGTCGTGGAGCAACTGCGCTGCATTACTAACGGCCAAAGTACGGACGCGGCATTTTT -ACTACGTGTTAAAGAGCATTACACCCGGCTGTTGCCGGATTACCCGCGCTTCGAGATTGCGGAGAGCTTT -TTTAACTCCGTGTACTGTCGGTTATTTGACCACCGCTCGCTTACTCCCGAGCGGCTTTTTATCTTTAGCT -CTCAGCCAGAGCGCCGCTTTCGTACCATTCCCCGCCCGCTGGCGAAAGACTTTCACCCCGATCACGGCTG -GGAATCTCTACTGATGCGCGTTATCAGCGACCTACCGCTGCGCCTGCGCTGGCAGAATAAAAGCCGTGAC -ATCCATTACATTATTCGCCATCTGACGGAAACGCTGGGGACAGACAACCTCGCGGAAAGTCATTTACAGG -TGGCGAACGAACTGTTTTACCGCAATAAAGCCGCCTGGCTGGTAGGCAAACTGATCACACCTTCCGGCAC -ATTGCCATTTTTGCTGCCGATCCACCAGACGGACGACGGCGAGTTATTTATTGATACCTGCCTGACGACG -ACCGCCGAAGCGAGCATTGTTTTTGGCTTTGCGCGTTCTTATTTTATGGTTTATGCGCCGCTGCCCGCAG -CGCTGGTCGAGTGGCTACGGGAAATTCTGCCAGGTAAAACCACCGCTGAATTGTATATGGCTATCGGCTG -CCAGAAGCACGCCAAAACCGAAAGCTACCGCGAATATCTCGTTTATCTACAGGGCTGTAATGAGCAGTTC -ATTGAAGCGCCGGGTATTCGTGGAATGGTGATGTTGGTGTTTACGCTGCCGGGCTTTGATCGGGTATTCA -AAGTCATCAAAGACAGGTTCGCGCCGCAGAAAGAGATGTCTGCCGCTCACGTTCGTGCCTGCTATCAACT -GGTGAAAGAGCACGATCGCGTGGGCCGAATGGCGGACACCCAGGAGTTTGAAAACTTTGTGCTGGAGAAG -CGGCATATTTCCCCGGCATTAATGGAATTACTGCTTCAGGAAGCAGCGGAAAAAATCACCGATCTCGGCG -AACAAATTGTGATTCGCCATCTTTATATTGAGCGGCGGATGGTGCCGCTCAATATCTGGCTGGAACAAGT -GGAAGGTCAGCAGTTGCGCGACGCCATTGAAGAATACGGTAACGCTATTCGCCAGCTTGCCGCTGCTAAC -ATTTTCCCTGGCGACATGCTGTTTAAAAACTTCGGTGTCACCCGTCACGGGCGTGTGGTTTTTTATGATT -ACGATGAAATTTGCTACATGACGGAAGTGAATTTCCGCGACATCCCGCCGCCGCGCTATCCGGAAGACGA -ACTTGCCAGCGAACCGTGGTACAGCGTCTCGCCGGGCGATGTTTTCCCGGAAGAGTTTCGCCACTGGCTA -TGCGCCGACCCGCGTATTGGTCCGCTGTTTGAAGAGATGCACGCCGACCTGTTCCGCGCTGATTACTGGC -GCGCACTACAAAACCGCATACGTGAAGGGCATGTGGAAGATGTTTATGCGTATCGGCGCAGGCAAAGATT -TAGCGTACGGTATGGGGAGATGCTTTTTTGAGTAAAGCTTCCATATAATTTTTCTCCGCAATGTATCGAG -GGTTATCCGTAAAGCCAAAGCTTTCAGCCATCTTATTTAATGTATTAAGGATTAATTCAGCAATAACCCG -GTGACCAAATTCAAAAGCCAACTCAAAGGCAGAGTATTTTTGTGGGGCTTTGTGTTGCCAAAAATCCATA -ATATCTTCAGCGGTAAATCCAAACAGGCGTGCATGGTCAGATAAAGCAAGATAAACCGTCTCTACAACAT -TTTGTTGTTTATGCTGTATCGCTGAAAACAAACCGGGATATTCATTAGAATTATTTGCCAGGAGGAGGGG -CTTCATATTTTTTTTATCGAATTTAAACGTATTAAACAGAGTGGGTAATGCGTTAAAAATAGTATTAATA -ACGTTCATGTGTCCGCGCTGCATGGCCATAAACAAACCCGTGTCGCGCGCAAGACTTTTAGCGGTCAGAA -GATCTACAATATCGGAAGCTGAAATGTTAATTTCCTGGGCTAGGCTGGGCAATGCTTCAAGAATAACTTT -CACGATATCGCTATGTCCATTTTGCATCGCCAGATATAGTCCTGGGCAACCATAAAAATCCTTTGCCTTC -AGGAGATCGAGTACCTGTTCTTTAGTCAAATGACATGTGCGAATTAACAAAGGTAACGCGTTCAAAACAA -TTTTCAGCATGTCGGCATCACCATTCGCCATAACATGGTATAAAACATGGCTGGACGTTCTATTTTTGGC -ACTCAGGAATTTATACACTTGTTCGTTATCTAAATGATGTGTTGCGGCCAGTTTAGGTAAGGCGTTCAGA -ATCGAGGTTACAACATTTTTATCCTTACGTGATATCGCTAAAAATAATCCAGAAAAACCATTTTTATCTT -TTGCCTCCAGAATATGCATGAGATTTTTTTTCGAGAGTAATCCTTCATATCCTGTTTCTGACAATGAATT -GAAAATAGTCTCAACGATATCCGCATTACCATAATTTATAGCCAAATATAAACCTGGCAGGTTAATACTA -TTATAGGCAGTCAACATTTCTGTTCTATGTAGTTCTGGCATTTTCTGGAGTTGAATCATCAGTTGCGTAA -GTTGGTGATTCTGACCAATTGCCATTAGCAAATTCATCGTTGCAGGTGATAATGGAGGGGTTATTTCATC -CACAGATCCTTTTAACATCAATAGCTGTTCTTTCGGAAGTGCTGGAATTATTGCAACAGATTGATTAATA -ACATGATCATTTGACCATTTCAGGAGGCTATAATCTACATTCATAAAATCCATCAGAGAATAGTGTTTAA -TATTCTCTTTGCTTTCGCTCATAATTCTTATTTTATCGTTAGTTACATTAGGATCATAAACCGAAACCAC -GTAATGGGTACATCCTTCAGTTGTGTTCTTTATTCTTAGCCGGACCGTCAAAGCATGGTTATCCACCAGT -AATATGGCTGCCATAACACTGATGCCATTTGATTCCATCTTGTCAAAATATGCTTTCATAACTAGCCCGA -AATCACCGCAGGCAGCAACGCAACGCCCCTCAGGACGGCTGGAAACCAACGCCAAAGTCTGGTTTTTGCA -TTTTTTGTTGAAGTGCGTGAGAAATTTTTCAGCTGAAGAGTAATCATCTTGATGGGGTTTGTAATCAACA -TTCTGATAAATATCATTAATATATTGTGCAGCAATGTGTCGGCATACTATACGGTTTTGGGGTCGCCCCG -GAAAATAACATTGACCATTAAGTTTAATTCTTGGGAATTCTTTTTCTTTTCTATCTGATTTTAGGTTTAA -TTCTTGTTTATCAAGAGTGTCTGAGCGTTGAGGTAAAATTTCCATTAGGTATTTTTCAAATATTGGGGCA -ATGGTTTGAGTAAGTGTCGTGTTTTCGTTTTTATTAATTATCGTAATTTCTTTCTTATCAGCTTGTAAGA -CGGACGTGGAAAATTTAATGACAAAATCCTTGTTGCTAAAGATATGACGACCATTTTGTCTACAGTTCTC -TGAGAAGCTTTTTAATAGAGGCGTCGCCAGCTCCTTGCCAGAAAATTTATCCTCGAGTTCTTTATAAAAC -AATTCACTCAGGGTTTGGTGTTCATTTGTCTGGGCTGTATTATTAATATTTGCAGAGAAAGAACTACGAG -GAATACGAGTAATCATTTAAATATCTCATTGTTTATTGATGTCTTGAATTTTAACTATCAGAACAGTGAA -AAAATTTAATATGATTACAACTAAAGAAATATCATAAATCGCTCAATCTCATAATGCAGCCGTAAAAGTT -TCGGTGGAATGAGATCTTGCGATTTTGTTAATAATTAAGTGGTTTGATGTTTAAAAATAATGCTGAGTTA -ATAAAAGTGTGTGAAGTGTATGACATTAAGTTATTTTGGCGTCAATGCGATTAACAGACACCCTTATTCT -ATTGCCACTCAGGTATGATGGGCAGAATATTGCCTCTGCCCGCCAGAAAAAGTCAGCGCATTCCACCGTA -CGCCAGCGTCACTTCCTTCGCCGCTTTAATCACCATCGCGCCAAACTCGGTCACGCGGTCATCGGTAATA -CGTGAAATCGGTCCGGAAATAGAAATTGCGGCAAACGGTTCACGGTGCTCATCGAAAATACACGCTGCAA -GGCAACGTAGCCCCAGTGCATGTTCCTCATCGTCAAATGAATAACCCCGTTTGCGCGTTTGGGCGAGATC -TTCTTTTAAATGCACAGGAGACACCAGCGTTGCGTGGGTATAGGCATGTAACCCTTTGCGGTGCAGCAGC -TTCGTCACCTGTTCTTCGCTCAGTTGGGCTAAAAAGGCTTTACCCGCACCGGAAGCGTGCATCGGCAATT -TACCGCCGATAGGCGCGGACATTCGCATCAGATGCGTACACTGTACCTGGTCGATAATAATCGCTTCGTG -ATCGCTTTGATCAAGCACCGCCATATTGACCGTTTCGCCAGACTCTTCCATTAGATTGCGCAGGATAGGG -TGAACAATCGCTAACAAATTACGGCTCTGGAGAAAGCTGCTGCCGACCATAAAGGCATGTGCGCCGATTG -CCCAATGTCCCAGTTCGCCAACCTGACGCACGAAACCCTGCTGTTGCATCGTGGTTAGCAGGCGGTGGGT -CGTGGAATTGGGTAACCCGGCTTGTTGCGCCAGTTCCGTGAGTGCCACACTGCCATTGGATTCGGCAATC -CACTCCAGTAATTTCAGGCCACGCGTTAAAGACTGAACCTGTCCAGTCGCTGGTGCGGTGGCAACGGCGG -GTTTTCTGCCGCGTTTCGCGGGAATGGGTGCGACCATGACAGTCTCTTTTTTCTGTATCGTGGAAATCAT -TTTCATTTTTATTGTTAGCTAATGCAATAGTTACTGAACTGATCCGATGAGTTAATGTTGAACAAATCTC -ATGTTGCGTGGTGGTCGCTTTTACCACAGATGCGTTTATGCCAGTATGGTTTGTTGAATTTTTATTAAAT -CTGGGTTGAGCGTGTCGGGAGCAAGTGTGAGCAGCAAAGTGGAACAACTGCGTGCGCAGTTAAATGAACG -TATTCTGGTGCTGGACGGCGGTATGGGCACCATGATCCAGAGTTATCGACTGAACGAAGCCGATTTTCGT -GGTGAACGCTTTGCCGACTGGCCATGCGACCTCAAAGGCAACAACGACCTGCTGGTACTCAGTAAACCGG -AAGTGATCGCCGCTATCCACAACGCCTACTTTGAAGCGGGCGCGGATATCATCGAAACCAACACCTTCAA -CTCCACGACCATTGCGATGGCGGATTACCAGATGGAATCCCTGTCGGCGGAAATCAACTTTGCGGCGGCG -AAACTGGCGCGAGCTTGTGCTGACGAGTGGACCGCGCGCACGCCAGAGAAACCGCGCTACGTTGCCGGTG -TTCTCGGCCCGACCAACCGCACGGCGTCTATTTCTCCGGACGTCAACGATCCGGCATTTCGTAATATCAC -TTTTGACGGGCTGGTGGCGGCTTATCGAGAGTCCACCAAAGCGCTGGTGGAAGGTGGCGCGGATCTGATC -CTGATTGAAACCGTTTTCGACACCCTTAACGCCAAAGCGGCGGTATTTGCGGTGAAAACGGAGTTTGAAG -CGCTGGGCGTTGAGCTGCCGATTATGATCTCCGGCACCATCACCGACGCCTCCGGGCGCACGCTCTCCGG -GCAGACCACCGAAGCATTTTACAACTCATTGCGCCACGCCGAAGCTCTGACCTTTGGCCTGAACTGTGCG -CTGGGGCCCGATGAACTGCGCCAGTACGTGCAGGAGCTGTCACGGATTGCGGAATGCTACGTCACCGCGC -ACCCGAACGCCGGGCTACCCAACGCCTTTGGTGAGTACGATCTCGACGCCGACACGATGGCAAAACAGAT -ACGTGAATGGGCGCAAGCGGGTTTTCTCAATATCGTCGGCGGCTGCTGTGGCACCACGCCACAACATATT -GCAGCGATGAGTCGTGCAGTAGAAGGATTAGCGCCGCGCAAACTGCCGGAAATTCCCGTAGCCTGCCGTT -TGTCCGGCCTGGAGCCGCTGAACATTGGCGAAGATAGCCTGTTTGTGAACGTGGGTGAACGCACCAACGT -CACCGGTTCCGCTAAGTTCAAGCGCCTGATCAAAGAAGAGAAATACAGCGAGGCGCTGGATGTCGCGCGT -CAACAGGTGGAAAACGGCGCGCAGATTATCGATATCAACATGGATGAAGGGATGCTCGATGCCGAAGCGG -CGATGGTGCGTTTTCTCAATCTGATTGCCGGTGAACCGGATATCGCTCGCGTGCCGATTATGATCGACTC -CTCAAAATGGGACGTCATTGAAAAAGGTCTGAAGTGTATCCAGGGCAAAGGCATTGTTAACTCTATCTCG -ATGAAAGAGGGCGTCGATGCCTTTATCCATCACGCGAAATTGTTGCGTCGCTACGGTGCGGCAGTGGTGG -TAATGGCCTTTGACGAACAGGGACAGGCCGATACTCGCGCACGGAAAATCGAGATTTGCCGTCGGGCGTA -CAAAATCCTCACCGAAGAGGTTGGCTTCCCGCCAGAAGATATCATCTTCGACCCAAACATCTTCGCGGTC -GCAACTGGCATTGAAGAGCACAACAACTACGCGCAGGACTTTATCGGCGCGTGTGAAGACATCAAACGCG -AACTGCCGCACGCGCTGATTTCCGGCGGCGTATCTAACGTTTCTTTCTCGTTCCGTGGCAACGATCCGGT -GCGCGAAGCCATTCACGCAGTGTTCCTCTACTACGCTATTCGCAATGGCATGGATATGGGGATCGTCAAC -GCCGGGCAACTGGCGATTTACGACGACCTACCCGCTGAACTGCGCGACGCGGTGGAAGATGTGATTCTTA -ATCGTCGCGACGATGGCACCGAGCGTTTACTGGAGCTTGCCGAGAAATATCGCGGCAGCAAAACCGACGA -CACCGCCAACGCCCAGCAGGCGGAGTGGCGCTCGTGGGAAGTGAATAAACGTCTGGAATACTCGCTGGTC -AAAGGCATTACCGAGTTTATCGAGCAGGATACCGAAGAAGCCCGCCAGCAGGCTACGCGCCCGATTGAAG -TGATTGAAGGCCCGTTGATGGACGGCATGAATGTGGTCGGCGACCTGTTTGGCGAAGGGAAAATGTTCCT -GCCACAGGTGGTCAAATCGGCGCGCGTCATGAAACAGGCGGTGGCCTACCTCGAACCGTTTATTGAAGCC -AGCAAAGAGCAGGGCAAAACCAACGGCAAGATGGTGATCGCCACCGTGAAGGGCGACGTCCACGACATCG -GTAAAAATATCGTTGGTGTGGTGCTGCAATGTAACAACTACGAAATTGTCGATCTCGGCGTTATGGTGCC -TGCGGAAAAAATTCTCCGTACCGCTAAAGAAGTGAATGCTGATCTGATTGGCCTTTCGGGGCTTATCACG -CCGTCGCTGGACGAGATGGTTAACGTGGCGAAAGAGATGGAGCGTCAGGGCTTCACTATTCCGTTACTGA -TTGGCGGCGCGACGACCTCAAAAGCGCACACGGCGGTGAAAATCGAGCAGAACTACAGCGGCCCGACGGT -GTATGTGCAGAATGCCTCGCGTACCGTTGGTGTGGTGGCGGCGCTGCTTTCCGATACCCAGCGTGATGAT -TTTGTCGCTCGTACCCGCAAGGAGTACGAAACCGTACGTATTCAGCACGGGCGCAAGAAACCGCGCACAC -CACCGGTCACGCTGGAAGCGGCGCGCGATAACGATTTCGCTTTTGACTGGCAGGCTTACACGCCGCCGGT -GGCGCACCGTCTCGGCGTGCAGGAAGTCGAAGCCAGCATCGAAACGCTGCGTAATTACATCGACTGGACA -CCGTTCTTTATGACCTGGTCGCTGGCCGGGAAGTATCCGCGCATTCTGGAAGATGAAGTGGTGGGCGTTG -AGGCGCAGCGGCTGTTTAAAGACGCCAACGACATGCTGGATAAATTAAGCGCCGAGAAAACGCTGAATCC -GCGTGGCGTGGTGGGCCTGTTCCCGGCAAACCGTGTGGGCGATGACATTGAAATCTACCGTGACGAAACG -CGTACCCATGTGATCAACGTCAGCCACCATCTGCGTCAACAGACCGAAAAAACAGGCTTCGCTAACTACT -GTCTCGCTGACTTCGTTGCGCCGAAGCTTTCTGGTAAAGCAGATTACATCGGCGCATTTGCCGTGACTGG -CGGGCTGGAAGAGGACGCACTGGCTGATGCCTTTGAAGCGCAGCACGATGATTACAACAAAATCATGGTG -AAAGCGCTTGCCGACCGTTTAGCCGAAGCCTTTGCGGAGTATCTCCATGAGCGTGTGCGTAAAGTCTACT -GGGGCTATGCGCCGAACGAGAACCTCAGCAACGAAGAGCTGATCCGCGAAAACTACCAGGGCATCCGTCC -GGCACCGGGCTATCCGGCCTGCCCGGAACATACGGAAAAAGCCACCATCTGGGAGCTGCTGGAAGTGGAA -AAACACACTGGCATGAAACTCACAGAATCTTTCGCCATGTGGCCCGGTGCATCGGTTTCGGGTTGGTACT -TCAGCCACCCGGACAGCAAGTACTACGCTGTAGCACAAATTCAGCGCGATCAGGTTGAAGATTATGCCCG -CCGTAAAGGTATGAGCGTTACCGAAGTTGAGCGCTGGCTGGCACCGAATCTGGGGTATGACGCGGACTGA -TTCACAAATCTGTCACTTTTCCTTACAACAAACAGGGCGCTCAATGAGTGCCCTGTCTCTTTATTAATAT -GAAACACTTATACTGGAAACAGGCTGGAATAATCTTAGCCGGAAAAACGAATGTCAAAAGGCACAGTAAA -GATGCCAGTCAGCGTGTTTCCGGTCCTTTGGTCATTCAATTGCTTCAGGAACATATAACGATAAGGAGAA -CCTGAACTCGTGTTAACGCTGCTTCACCTGCTTTCTGCCGTCGCCCTGCTGGTCTGGGGGACTCATATTG -TTCGAACCGGCGTAATGCGCGTCTTCGGCGCGCGTTTGCGTACTGTCCTTAGCCGGAGCGTCGAAAAAAA -GCCGCTCGCCTTTTGCGCGGGGATCGGCGTTACCGCACTGGTACAGAGCAGTAATGCCACCACCATGCTG -GTGACCTCGTTTGTCGCTCAGGATCTGGTAGCCCTCGCACCGGCTCTGGTCATTGTGCTGGGTGCAGATG -TCGGGACGGCGCTAATGGCGCGTATTCTCACCTTCGACTTATCCTGGCTGTCACCGTTACTTATTTTTAT -CGGCGTGATTTTTTTCCTCGGACGCAAACAGTCACGCGCCGGGCAACTGGGCCGCGTCGGTATTGGTCTT -GGGCTGATTTTGCTAGCGCTGGAGTTGATTGTGCAGGCCGTAACGCCGATCACCCAGGCAAACGGCGTTC -AGGTGATCTTTGCCTCGCTGACCGGCGATATTCTGCTGGATGCGCTGATTGGCGCGATGTTCGCCATTAT -CAGCTACTCCAGCCTTGCTGCTGTACTGCTGACCGCGACTCTGACCGCCGCAGGCATTATCTCCTTCCCC -GTGGCGCTCTGTCTGGTGATTGGTGCTAACCTCGGTTCCGGTCTGCTGGCAATGCTCAACAACAGTGCCG -CCAATGCCGCAGCCCGCCGTGTCGCGCTGGGTAGTCTGCTGTTTAAGCTGGTGGGTAGCCTGATTATCCT -GCCGTTTGTCCATTTGCTGGCAGAGACAATGGGGAAGTTGTCATTGCCAAAAGCGGAACTGGTGATCTAT -TTCCACGTCTTCTACAACCTTGTACGTTGCCTGGTCATGCTGCCATTTGTTGACCCGATGGCACGGTTTT -GCAAAACGATTATTCGCGATGAACCGGAACTGGATACCCAGCTACGGCCTAAACATCTGGATGTCAGCGC -GCTGGATACGCCCACGCTTGCTCTGGCGAACGCCGCGCGCGAAACCCTGCGCATTGGCGACGCCATGGAA -CAGATGATGGAAGGGTTGAATAAAGTGATGCACGGTGAGCCACGGCAGGAGAAAGAGCTGCGTAAGCTGG -CAGATGATATCAACGTTCTCTACACCGCCATTAAGCTGTATCTGGCGCGGATGCCAAAAGAAGAGCTGGC -GGAGGAAGAGTCGCGCCGCTGGGCAGAGATCATCGAAATGTCGCTCAACCTTGAACAGGCCTCCGATATC -GTCGAGCGCATGGGCAGCGAAATTGCTGACAAATCACTGGCAGCACGGCGGGCATTTTCGCTTGATGGGT -TGAAGGAACTGGATGCGCTCTATGAGCAATTGCTCAGTAATTTAAAGCTGGCAATGTCGGTGTTCTTCTC -TGGCGATGTCACCAGCGCTCGTCGTTTGCGTCGCAGCAAACATCGTTTTCGCATTCTTAATCGCCGCTAT -TCCCACGCCCACGTCGATCGCCTGCATCAGCAAAACGTGCAGAGCATTGAAACCAGTTCGCTACATTTAG -GCTTACTGGGAGATATGCAGCGCCTGAACTCGCTGTTTTGTTCGGTGGCTTACAGTGTGCTGGAACAGCC -GGATGAAGATGAAGGACGGGACGAGTATTAATATTGTGAATCCTGTAGGCCTGATAAGACGCGTCAAGCG -TCGCATCAGGCACTATGAACAAGATGCCGGATCATGCATCCGGCAATTCACTTAAAAACGGTGACCAGCT -TCCAGCGGAACCGCTTCTTCACCAGCCTTAAACACATAAGTGGTGTTCGGGCCACCCAGCGTAGCGTGAC -CTTTACTCACTGTGATCCAGTTACCTTCCGGTAGACCAATAATCGTCAGTTCTGGCGCGACGACCAGCAG -TTCGCGAATACGCTGCTCACGGGTTTCACCTTTATGGCCTTCCGGCAGCGCGTTGGTGAAGTGCGGGTTG -ATTTGCAGCGGGAACAGATTTAGCGCATCGAAACCTTGCGGATCGACAATCGGCATATCGTTGGTGGTAC -GAATAGTTGGGCAAGCAAGGTTAGCGCCTGCGCTCCAGCCAATATACAGAGCGCCACGTTTAACCACGTC -AGTAATTGGTGCCAGCAGCCCGCGCTCGCGGCACTGTTTCAGCAACTGGAAAGTATTCCCGCCGCCGACA -ATCACGATCTCAGCATTTTCAATCGCGGCAACGGGATCGACAACGCTATGAATACCGGTGACAGAAACAC -CCAGCGGAGCGAGAACCGCAGCCGTTTTCGCTGTGTAATCATCCCAGGTCTGCGTTACGCCAGCGAAAGG -GATAAACACCGCTGAGCGGCGACCCTGCAACTGTTCAGCAATTAGCGGCAGTGCATGTTCCAGCCAGGCT -TTACCCGGCAGCGTCGAGTTACTCAATAAAAGCAGTTCCATTACTTCTCCGGTTAGTAAGAAATCACGGG -AGGCATGCTACCACTGCGAATTTAACCACTTACTGACATGGCTCACGATGTCGCACATTGCTTCTGGAAA -GTGATTTGAGCAGGTAACGAATTCAAGCCAATGGAAATAACAAATAGTTCGCTCATGACTATTTTTTATC -AACCCAAAGGTACGGTATATTCCGTTTTTTACAGGAGAATTTATGCTGCCCGACTCATCAGTCCGTTTAA -ATAAATACATCAGCGAAAGCGGAATTTGCTCACGCCGCGAAGCGGATCGCTATATCGAGCAAGGCAATGT -GTTCCTTAATGGCAAGCGAGCCACCATTGGCGATCAGGTGAAACCCGGCGACGTTGTGAAAGTAAACGGT -CAGTTGATTGAACCTCGGGAAGCCGAAGATTTGGTACTTATCGCCCTGAACAAGCCCGTTGGTATTGTAA -GCACCACCGAAGATGGCGAGCGCGATAACATTGTCGATTTCGTTAACCACAGCAAACGCGTGTTCCCGAT -TGGCCGCCTGGATAAAGACTCCCAGGGGCTGATTTTCCTCACCAATCACGGCGATCTGGTGAATAAGATC -CTGCGTGCTGGCAATGATCATGAGAAAGAGTATCTGGTGACGGTCGATAAACCGATTACCGAGGAGTTTA -TTCGCGGCATGAGTGCGGGGGTGCCAATCCTCGGGACAGTGACCAAAAAGTGCAAAGTTAAAAAAGAAGC -GCCGTTTGTCTTCCGCATTACCCTGGTGCAGGGGCTGAACCGTCAGATCCGGCGCATGTGCGAGCATTTC -GGCTATGAAGTGAAAAAGCTGGAACGCACGCGCATCATGAACGTTAGCTTAAGCGGCATTCCGCTGGGGG -AATGGCGCGATTTAACCGACGATGAGTTAATCGACCTCTTTAAGCTCATTGAAAATTCCTCTTCCGAGGT -AAAACCTAAAGCGAAGGCCAAACCGAAAACAGCGGGCATCAAACGTCCAGTCGTTAAGATGGAAAAAACG -GCGGAAAAAGGCGGTCGCCCGGCGTCCAACGGTAAGCGTTTTACCTCGCCGGGGCGTAAAAAGAAGGGGC -GCTGATTAACGCCTCAGACTGATGAAAACGGCCCAAAAGTGCCCGGACAGTCCCCTCGCCCCTTCGGGAA -AAGGGTTAGGGTGAGGGGAAAATTGTGTTCACACTGACGAGTGAAAATCTCAGGCGTTGATTGTGGATTA -GCGCCTGCCGCGCGTCGACGTATTTGCTGACCAGCTAAATGACGCTTCAGGATCCGGTTTATAAGCCTGC -TTTTTCTTCAACTGGCGGGCTTTTTTCGCTTCAGCCTCACGCTCAACCATTAATTTATCGATGTAATCTT -TCTTAATGCTGTTGGTTTCGGAGTTGGTCAATACGCGACCATGCGCAATCCGCGCCCGATCCAGCAGTGT -TTTAAGTTCACGCTGCTCGCGTTCAGTCATCTCTTTTTGGGTAATACGGGGGAGTGCCATGATGGTGCCC -TCAGTGAGCCAGAGAGTTCAGTGTACGGGAATTCGTTTGCGAGCAGAACTGATAATATTCATTTTGCCTT -CTCTTAACTATTTATCTCTTTCGATAATTAATTAGAGATGCAGATAAAAAAATTAAAGGCAATTATTCTC -CGATAAAGACGCTGGTTAACAGAGTACAGGCTCGTTTATTGATGAGCATAGTGACAAGAAAATCAATACG -GCCCGAAATATAGCTTCCAGGCCATACAGTATTTACTCAAACAAATTACTATGCAGTTTTTGCACCACCT -GCTCGGCATCTTCGCCGGGCACCAGGAAGCACAGGTTATGGCTGGATGCGCCATAACAAATCATGCGAAT -GTTGAACGGTTCCAGTACGCCGAATACCTCTTTGCCAACGCCGCAGGCTTTTGACAGGTCATTGCCAATC -AACGCGACCAGCGCCAGACCTTCTTCCACCTCCACCCGACACAGTGCGGAAAGCTCCATCAGCAGAGATT -GCGTCAGCAACGTATCGCCAGTGGAGGTTGAACCGGTGGTATCAAGGGTTAATGCCACGCTCACTTCTGA -CGTGGTGATTAAGTCTACCGAAATATTATGCCGCGCGAGGATGCCGAAAACTTCCGCGAGGAAACCGCGA -GAATGCAGCATATTCAGGCTGTGCAAAGTGAGCAGAGTCTGATTGCGACGAAGCGCCAGAGCGCGGAACA -GCGGCGGATTTTCAGTTTTATTGCACACCAGCGTACCACCTGCGCGTGGGTCTTTGCTGGAGCCGACAAA -GACCGGGATATCGCTGCGTACTGCGGGTAGCAACGTTGCCGGATGCAGTACTTTTGCACCAAAAGTTGCC -ATCTCTGCCGCTTCGGCAAACGCGATTTCATCAATGCGTTTTGCTGCGGAAACTACGCGTGGATCGGTGG -TGTAGATGCCCGGGACGTCGGTCCAGATATCAACACGAGATGCGTGTAAAGCCTCCGCCAGCAAGGCTGC -CGTATAATCGCTGCCTCCACGGCCAAGCGTCGTTGTACGACCTTTATTTTCGCTACCGATAAATCCCTGG -GTGATCACTAAGCCTTCATTGAGACGTGGGAGCAGCTGCAGCGCGGCCAGTTCCGCCAGCGCGGCTATAT -CTGGCTCTGCACGACCAAATCGGTCGTTGGTACGCATCACTTTACGTACATCAAACCACTGTGCCTGAAC -ATCGCGTTCGCGCAGGATCTCAACAAACAGCAGGGTCGACATCAGCTCGCCGTGGCTGACCAGCTCATCT -GTCAGCGCCGGAGACGTTGCCAGCGCCGCCGCTTCTGCCAGAACAGTAATGTTCTCCAGCAGACGTTCAA -TCTCTTCACGGATAACGTTCGGGTAACGCAGACGTTCCAGAATGGCAAACTGGATGTTGCGGATAGCGTC -GAGTTTTTCGAATCGCTCGCCAGGTTCCAGTCCTTCAGCTAAAGCGACCAGCAGATTAGTGATACCAGCA -GAAGCCGAGAGGACAACTAAACGCACGTTGGCATCAGAAAGCACAATATCAGCGCTGCGGTTCATGGCGT -CAAAATCAGCTACGCTGGTACCGCCAAATTTGGAGACAACAATTTCAGACATAACTACCTCGTGTCAGGG -GATCCATTTTCAGCCTTGGCACAAGGGAAGAGCGGAAGACGGGTGGGCGCAGAGCGATACTTCGCTACTA -TTTTCACCCAGAAGTGCTCCACCACTTGCGAAACGCCCGACTGCGAACGCTTCTGGTGACAACCCAGGGG -ATTCAGCCCCTGTAGCCGATGATGAACGTGGCCAGCCGTTCAATCACCTCGGCGATGCACCCCCTCAGGT -GTTATCACAGGACTGGCTCCTCCAACACCGTTACTTGGGCAACGCGCCTCTTCTGGCCTGCGCTAGCGCA -GGTAGTACATTTATAAATAAAGGGTGAGCGGGGCGGTTGTCAACGATGGGGTCATGCGGATTTTTCATCC -ACTCCTGGCGGTCAGTAGTTCAGCTAATAAATGCTTCACTGCGCTAAGGGTTTACACTCAACATTACGCT -AACGGCACTAAAACCATCACATTTTTCTGTGACTGGCGCTACAATCTTCCAAAGTCACAATTCTCAAAAT -CAGAAGAGTATTGCTAATGAAAAACATCAATCCAACGCAGACCGCTGCCTGGCAGGCACTACAGAAACAC -TTCGATGAAATGAAAGACGTTACGATCGCCGATCTTTTTGCTAAAGACGGCGATCGTTTTTCTAAGTTCT -CCGCAACCTTCGACGATCAGATGCTGGTGGATTACTCCAAAAACCGCATCACTGAAGAGACGCTGGCGAA -ATTACAGGATCTGGCGAAAGAGTGCGATCTGGCGGGCGCGATTAAGTCGATGTTCTCTGGCGAGAAGATC -AACCGCACTGAAAACCGCGCCGTGCTGCACGTAGCGCTGCGTAACCGTAGCAATACCCCGATTTTGGTTG -ATGGCAAAGACGTAATGCCGGAAGTCAACGCGGTGCTGGAGAAGATGAAAACCTTCTCAGAAGCGATTAT -TTCCGGTGAGTGGAAAGGTTATACCGGCAAAGCAATCACTGACGTAGTGAACATCGGGATCGGCGGTTCT -GACCTCGGCCCATACATGGTGACCGAAGCTCTGCGTCCGTACAAAAACCACCTGAACATGCACTTTGTTT -CTAACGTCGATGGGACTCACATCGCGGAAGTGCTGAAAAAAGTAAACCCGGAAACCACGCTGTTCTTGGT -AGCATCTAAAACCTTCACCACTCAGGAAACTATGACCAACGCCCATAGCGCGCGTGACTGGTTCCTGAAA -GCGGCAGGTGATGAAAAACACGTTGCAAAACACTTTGCGGCGCTTTCCACCAATGCCAAAGCCGTTGGCG -AGTTTGGTATTGATACTGCCAACATGTTCGAGTTCTGGGACTGGGTTGGCGGCCGTTACTCTTTGTGGTC -AGCGATTGGCCTGTCGATTGTTCTCTCCATCGGCTTTGATAACTTCGTTGAACTGCTTTCCGGCGCACAC -GCGATGGACAAGCATTTCTCCACCACGCCTGCCGAGAAAAACCTGCCTGTACTGCTGGCGCTGATTGGCA -TCTGGTACAACAATTTCTTTGGTGCGGAAACTGAAGCGATTCTGCCGTATGACCAGTATATGCACCGTTT -CGCGGCGTACTTCCAGCAGGGCAATATGGAGTCCAACGGTAAGTATGTTGACCGTAACGGTAACGTTGTG -GATTACCAGACTGGCCCGATTATCTGGGGTGAACCAGGCACTAACGGTCAGCACGCGTTCTACCAGCTGA -TCCACCAGGGAACCAAAATGGTACCGTGCGATTTCATCGCTCCGGCTATCACCCATAACCCGCTCTCTGA -TCATCACCAGAAACTGCTGTCTAACTTCTTCGCCCAGACCGAAGCGCTGGCGTTTGGTAAATCCCGCGAA -GTGGTTGAGCAGGAATATCGTGATCAGGGTAAAGATCCGGCAACGCTTGACTACGTGGTGCCGTTCAAAG -TATTCGAAGGTAACCGCCCGACCAACTCCATCCTGCTGCGTGAAATCACTCCGTTCAGCCTGGGTGCGTT -GATTGCGCTGTATGAGCACAAAATCTTTACTCAGGGCGTGATCCTGAACATCTTCACCTTCGACCAGTGG -GGCGTGGAACTGGGTAAACAGCTGGCGAACCGTATTCTGCCAGAGCTGAAAGATGATAAAGAAATCAGCA -GCCACGATAGCTCGACCAATGGTCTGATTAACCGCTATAAAGCGTGGCGCGGTTAATCATCGTCGATATG -TAGGCCGGATAAGGCGTTCACGCCGCATCCGGCAACCGATGCCTGATGCGACGCGGTCGCGTCTTATCAG -GCCTACAGGTCGATGCCGATATGTACATCGTATTCGGCAATTAATACATAGCACGATTGATTAAATAACC -TTAATAACAATGCCGACGTTATGTCGGCATTTTTTTATCAGATAAATCCCCTTGTCTGTAATTTAACGGA -AATCATACCGTGAGGTTAATCCTAAAATAGATTTTTAATCGTTGTTTATTTCGGAAAATACGCAGATTAA -TTGCTTTTGTTTTTATTTTAAGTTTATGATTTTTATTGTTATTTAAATATAAGTTGAAACTTATATTTGA -TATTCATTCCAATTATCCTAAAACGCCATCGCTAATTCCCCGCGCCGTAATTCGCATGCTTTAGTTGTGT -ATACTCGATCCCGCCCGAAATGTTTTTGGGTAAATCTCCATTCATTCAATGAAGGGAAATTGTTATGAAA -AAAGTTCTGTATGGCATTTTTGCCATATCTGCGCTTGCGGCGACTTCTGCGTGGGCTGCACCTGTACAGG -TGGGCGAAGCGGCAGGGTCGGCAGCAACGTCGGTTTCGGCGGGGAGTTCCTCCGCGACCAGCGTCAGCAC -CGTAAGCTCGGCGGTGGGTGTCGCGCTTGCGGCAACCGGTGGCGGTGATGGTTCTAATACCGGGACCACC -ACAACCACGACCACCAGTACCCAGTAATAAAGTATGTATCCCCAAAATAATTCGAGTCATTGCATCTGTG -GCTAGAAGTATGAAGGGATTAACCATAACCACACTCCGGTGTGGTTATTCTGCCCCTCTGGAGAAGAGTC -GTGAAGCGACCTGCACTCATTCTTATCTGCCTGTTATTACAGGCCTGTTCAGCCACGACTAAAGAGCTGG -GCAATTCACTGTGGGACAGTCTGTTCGGCACGCCAGGCGTACAGCTGACGGATGATGATATTCAAAATAT -GCCCTACGCCAGCCAGTACATGCAGCTTAATGGCGGGCCGCAGTTATTTGTGGTGCTGGCCTTCGCTGAA -GACGGACAACAAAAATGGGTCACTCAGGATCAGGCTACTCTCGTTACCCAACATGGCCGTCTGGTGAAGA -CTCTGCTCGGCGGCGACAACCTGATTGAAGTGAATAACCTTGCTGCCGACCCGCTGATTAAACCCGCACA -AATCGTTGATGGCGCAAGCTGGACGCGCACGATGGGCTGGACCGAGTACCAGCAGGTACGCTACGCCACC -GCACGCTCAGTCTTCAAATGGGATGGCACCGATACCGTCAAAGTCGGCAGCGATGAAACCCCGGTTCGCG -TGCTGGACGAAGAAGTCTCCACCGACCAGGCGCGCTGGCATAACCGCTATTGGATCGACAGCGAAGGGCA -AATTCGCCAGTCGGAACAGTATCTCGGCGCGGATTATTTTCCGGTGAAAACCACTCTCATCAAGGCGGCA -AAACAATGATTAAACAAACTATTGTCGCGTTGCTTTTGAGTGTGGGAGCGTCATCGGTCTTCGCGGCAGG -AACCGTCAAGGTGTTCAGCAATGGCAGCAGTGAGGCCAAAACGCTAACGGGCGCAGAGCATTTAATCGAT -CTGGTAGGCCAACCGCGGCTGGCAAACAGCTGGTGGCCCGGTGCGGTGATTAGCGAAGAGCTGGCAACGG -CGGCAGCATTGCGTCAGCAGCAGGCGTTGCTGACACGGCTGGCAGAACAGGGCGCAGATTCCAGCGCCGA -CGATGCCGCTGCGATTAACGCCTTACGCCAGCAAATTCAGGCGTTGAAAGTGACGGGCAGGCAAAAAATC -AATCTTGATCCCGATATCGTCCGCGTTGCCGAACGCGGTAACCCGCCGTTGCAGGGCAACTACACGCTGT -GGGTCGGACCACCGCCGTCCACGGTCACGTTGTTCGGGCTTATCAGCCGTCCTGGCAAGCAGCCATTCAC -TCCAGGTCGCGACGTGGCGAGCTATCTCTCTGACCAGAGCCTGCTCAGCGGTGCGGATCGCAGCTACGCG -TGGGTGGTTTACCCGGACGGACGCACGCAAAAAGCGCCGGTGGCTTACTGGAACAAGCGTCACGTAGAGC -CGATGCCCGGCAGCATTATTTATGTTGGCCTCGCGGACTCCGTCTGGAGTGAGACGCCTGATGCCCTTAA -CGCCGACATTCTTCAGACTCTGACGCAGCGGATACCTCAATAATGAAAAAAAGACATCTGCTTAGCTTAC -TGGCGCTGGGCATTAGCACAGCTTGCTACGGCGAAACATATCCTGCGCCCATTGGTCCGTCGCAGTCGGA -TTTCGGTGGCGTAGGATTATTACAAACGCCCACCGCGCGTATGGCACGGGAAGGGGAGTTGAGTCTGAAC -TATCGCGATAACGATCAGTACCGTTATTACTCAGCTTCAGTGCAACTCTTCCCGTGGCTGGAAACAACGC -TGCGCTACACCGACGTGCGCACCCGGCAGTACAGCAGCGTCGAAGCGTTCTCTGGCGATCAAACGTATAA -AGATAAAGCCTTCGATCTCAAACTGCGTTTGTGGGAAGAGAGTTACTGGCTGCCGCAAGTGGCGGTTGGT -GCGCGGGATATCGGCGGTACGGGGCTGTTTGATGCGGAATATCTTGTTGCCAGCAAAGCCTGGGGGCCGT -TCGATTTTACGCTCGGCCTGGGCTGGGGGTATTTGGGCACCAGCGGTAATGTGAAAAATCCGCTCTGTTC -AGCCAGTGATAAATATTGCTATCGCGATAACAGCTACAAACAGGCGGGATCTATCGACGGTAGCCAGATG -TTCCACGGTCCTGCCTCACTGTTTGGCGGCGTGGAATACCAGACGCCCTGGCAACCGCTGCGCCTGAAAC -TGGAGTATGAAGGCAATAATTATCAGCAGGATTTTGCCGGGAAGCTGGAGCAAAAAAGTAAGTTTAACGT -CGGTGCGATTTATCGCGTTACCGATTGGGCCGACGTTAACCTTAGCTATGAACGTGGCAACACCTTTATG -TTTGGCGTTACGTTGCGCACCAACTTTAACGATCTGCGCCCGTCTTACAACGATAACGCCCGCCCGCAAT -ATCAACCGCAGCCGCAGGATGCCATTTTGCAGCATTCGGTGGTGGCGAATCAGTTAACGCTGTTGAAATA -CAATGCCGGACTTGCCGATCCACAGATCCAGGCGAAAGGCGATACGCTGTATGTTACCGGCGAGCAGGTG -AAATATCGTGATTCGCGCGAAGGGATCATCCGTGCGAATCGGATCGTGATGAACGATCTGCCGGATGGGA -TCAAAACGATCCGCATTACGGAAAATCGCCTTAACATGCCGCAGGTGACGACGGAAACCGATGTCGCCAG -CCTGAAAAATCATCTCGCCGGAGAGCCGTTGGGCCACGAAACGACGCTGGCGCAAAAACGCGTCGAGCCA -GTGGTTCCGCAGTCCACCGAGCAGGGCTGGTATATCGACAAATCACGCTTTGATTTCCATATCGATCCGG -TGCTGAACCAGTCGGTCGGTGGCCCGGAAAACTTTTACATGTATCAGCTGGGCGTGATGGGAACGGCAGA -TTTGTGGCTGACGGACCATCTGCTGACCACCGGCAGCCTGTTTGCAAATCTTGCCAACAACTACGACAAG -TTTAACTACACTAATCCTCCGCAGGACTCGCACTTACCGCGCGTGCGTACCCATGTGCGCGAGTATGTGC -AGAACGATGTCTATGTGAATAACCTGCAAGCCAACTACTTCCAGCATCTGGGCAACGGCTTCTACGGTCA -GGTCTACGGTGGTTATCTCGAAACCATGTTTGGCGGTGCGGGGGCAGAAGTGTTGTATCGCCCGCTGGAC -AGCAACTGGGCGTTTGGTCTGGATGCCAACTACGTTAAACAGCGCGACTGGCGTAGTGCAAAAGATATGA -TGAAATTCACCGACTACAGCGTGAAAACCGGACATCTGACCGCCTACTGGACGCCATCTTTCGCTCAGGA -TGTGTTAGTTAAAGCCAGCGTCGGGCAGTATCTGGCAGGGGATAAAGGCGGCACGCTGGAGATCGCCAAA -CGCTTTGATAGCGGCGTGGTGGTGGGTGGCTATGCCACGATCACTAATGTTTCGAAAGAGGAGTACGGCG -AAGGGGACTTCACCAAAGGCGTGTATGTCTCGGTACCGTTGGATCTCTTCTCGTCTGGCCCGACACGCAG -CCGTGCGGCGATTGGCTGGACGCCGCTGACGCGTGACGGTGGTCAGCAACTTGGGCGTAAGTTCCAGTTG -TATGACATGACCAGCGACCGTAGCGTCAATTTCCGCTAAGTCATGGGAAAGGTGCCAGTTTTCGCACTCA -CTGGCACCTTCATTCTTAATGGCCTGTCGAGCCATCAGGAACGCAGTTCACTCCCGGTTTGCGATCTGGT -GTGTAAAGGCGAAAACATTCTGTCTTCCTGTCCGTCGATATCGGTTGCAGGTCTGGTTGCCTGAGCGACT -GGGCCATCATTGGGCTGGAGACATTGCTTTGCGGTAGGTCGGCTTTATCAGCAGTACCGAGCGGACCAGC -ATAAGCAGGAAGAACAGAGACTGATAACATCAAAGCAGCAAAATAAGGCTTCATTTTTACCACCTTTATC -AGGTTACGTTTCATTTGTTCCAGAGGAACATTGTCGATTTTTCGCGCATTGCTGGTGGCTGGGAATCACC -TGAATGGGTGATTTTTGAATTACCGGCTTTGGTGCGGTTTGTCTTGCCGGATGCGCCGCCAGGCGCGGCT -TATCCGGCCTACGGGTAGGTATATCCGGCTTTGGTGGAGGCGCGCTCCAAATCCAGGTTGAACAAAACAT -ACACAAAAAATATAGATCTCCGTCACATTTTTGCGTTATACAGGAAGCTCGCCACTGTGAAGGAGGTACT -GCTATGACGTCACTCTCTCGTCCGCGCGTGGAGTTTATCTCCACCATTTTGCAGACCGTACTCAATCTTG -GCCTGCTGTGCCTCGGCCTGATTTTGGTTGTCTTCCTCGGCAAAGAAACGGTGCATCTGGCTGATGTGCT -GTTCGCGCCAGAACAAACCAGCAAATATGAGCTGGTAGAAGGACTGGTGGTTTACTTTCTCTATTTCGAA -TTTATCGCGCTGATTGTGAAGTACTTTCAGTCCGGTTTTCACTTCCCGCTACGTTACTTTGTCTATATTG -GGATCACCGCCATTGTGCGCTTGATCATCGTCGATCATAAATCGCCACTGGATGTGTTGATCTACTCGGC -TGCGATCCTGTTACTGGTGATCACCCTGTGGCTGTGTAATTCGAAACGGCTGAAGCGGGAGTAAAAAGTC -AGCACGCCGAAATGGCGCGGCGTGCTGGACAGGAAGATTACAGCGTAGCAGTTTGTTGTGTTTTCTTCGT -TTCCGGTTCCCAGAGCGCTTCCAGCTCCTCAAGGGTTTTACCTTTGGTTTCCGGGACAAATTTCCACATA -AACAGTGCTGCCAGAACGCCCATACAACCGTAAATCCAGTAGGAGAAACCGTTGTGGAAATGGGCCACCA -GCCAGGAGTTTTTGTCCATCATCGGGAAGGTCCAGGAGACGAAGTAGTTCGCCAGCCACTGGGCCGCCAC -CGCGATTGCCAGCGCTTTACCACGAATAGCATTCGGGAAGATTTCCGACAGCAGTACCCAGCATACCGGA -CCCCAGGACATGGCAAAGGCGGCAACATAGAACAGCATCGACAGTAGCGCCACAATACCCGGTGCCTGAG -TGTAAAACGCGGTACCGAGGCTAAACATACCGATTGCCATTCCGAGTGCGCCGATAATTTGCAGTGGCTT -ACGACCAAATTTATCCACCGTCATAATTGCCAGAACGGTGAAGGTGAGGTTGATAACTCCGACAATAATG -GTCTGCAACAGCGCGATATCCGTGCTGGCCCCCAGCGTTTTGAACACTTCCGGCGCGTAGTACAGCACCA -CATTGATGCCGACAAATTGCTGGAAGATGGAGAGCATTACGCCGATTACAATCACGCCCACGCCAAACAT -CAGCAGACGACCACCGGTTTTGCGGCCATGATCCAGGGAGTGTTTAATTTCCTGTACTGCCTGAGTTGCA -AGCGTGTTGCCCATAATTTTGCGCAGGATACCTTCCGCCTGTTCTTGCTTGCCGCGCGACATCAGCCAGC -GAGGACTTTCTGGCACGGTATACAGCAGCATTAAGAACAGCAGTGCAGGGATACATTCCGAGGCAAACAT -ATAACGCCAGCCGTCAGTATTCAGCCAGCTGGCATCACCGGAACGGGCAATAAAATAGTTTACGCAGTAA -ACTAAAAGTTGCCCGAAAATAATCGCAAACTGGTTAAAAGAGACCAGTTTCCCGCGAATATGAGCTGGAG -CCAGTTCCGCAATATACATTGGCGAGAGCATTGAGGCTAAACCAACGCCAATACCGCCAATAATGCGATA -AATAACAAATTCCGGGACATAACCTGCCAGATAAACAGGCACAGTGTTGTCCGGGTTTATAGAGGTAAAA -CCAAGTTCTGGCCAGGCAGAACCTACACCAGAAATAAAAAACAGGACAGCAGCAATCTTAAGTGAATCAC -GACGACCGAAGCGGTTACTGCAATAACCACCGAGGGCACCGCCGATGATGCAACCAATCAGAGCGCTGGC -CACGCAAAACCCTAACAGGGAGTTGGCAGCGGATTCACTTAAGTTTTGTGGAGCAACAAAGACGGTATTG -AGTGACTCAACAGTACCGGAAATAACGGCGGTGTCGTAGCCAAATAATAAACCACCTAATGTAGCGACTA -AGGTAATCGAAAATATATAACTGGAATTATACTGGGTATTCATTCAGACCTGCCTTAGACCATTCTGATC -TTTTATCAGTGCATTGATGTTGGAATTGTCAGGCAGTTAAGGCAATTATCATTTTTTACAATGCGTTTAC -GTAATGTCTTTTCTGTGATCTTAATTGTGATAATTATCCAAAATTGATAAAAACAATACTATTGCCGTGA -CTCAGAGCACGAAAGAGAATTATCGTAAGTGGGAAAACAAATAACGTAAAAATAATAAGCTCTATGATGG -AAATATTAACCGGCGAACGATTCAGATTGCAGACGAAAGAAAAAAAGGCGCTCCGTGGAGCGCCGAATAA -CAGTCACAAGTTGGGATAACGTAAGTTGAGGGTGCAGCGGCATAACATTGGCAGAACAACATCTTTAACC -TTTCACACCACCTGCCGTCAGGCCGTTGACCAGCCAGCGTTGAGCCAGCAAGAAGACGATGGTGATCGGT -AATGCAGACATCACGGCAGCGGCGGCAAAGTCACCCCACAGGTAGTTTTGCGGGTTGAGGTATTGCTGCA -TCCCCACGGCCAGGGTGTAGCTGTTTACGTCACGCAGTAACAGCGACGCGACCGGAACTTCAGTAATGGC -AGCGATAAACGACAGGATGAATACCACCGCCAGAATCGGTACTGACAGCGGCAACAGGACAAGGCGGAAG -GCCTGCCACGGTGTCGCACCATCCAGCGCAGCAGCTTCTTCCAGCGAACTGTCGATGGTTTCGAAATAGC -CTTTGATGGTCCAGACATGCAGCGCAATCCCACCCAGATACGCGAAAATTACGCCGCCGTGAGTATTCAG -GCCAATGAATGGAATGTACTCACCCAGACGATCAAACAACGCATACAACGCGACCAGTGAAAGTACTGCC -GGGAACATCTGGAAAATCAGCATTCCTTTCAGCAGCGTCGCTTTGCCTGGAAAGCGCATACGGGCGAAAG -CGTAGGCGCAGGTGGTGGAGAGCGCCACAATGCCAATCGCGGAAATCCCGGCGACCTTTACCGAGTTCCA -CAGCCACAGCAGTACCGGGAATGGCGGTGGCGTAATGCGACCATCAGCCTGTTCAACGCTAAAACCTAAC -GCCAGTTTCCAGTGATCCCAGGAGATTTGCTCCGGGATCAGGCTGCCGGTCGCAAAGTTTCCCTGACGCA -GCGAGATAGCGACGACCATCAGCAGCGGGAACATAATCGCTGCGATAAAAAGTAGCAGTAGCAGGTGAGT -AATAAATAAACGAGCTTTTTGCGATTTCGGTTGGACCATTGCCATTTTTGTTATCTCCCTTAATCAAACT -TCATTCGCGTGGCTTTCAGGTTCACTATCGCCAGCGCACCCACCAGCAGGAAGATCAGCGTGGCAATTGC -TGCCGCCAGACCGAAGTCCTGACCCCCGCCGCCTTCAAAAGCGATGCGGTAGGTGTAGTTAACAAGCAGG -TCGGTATAACCGGCTGGCGTGGTCGTGCCAAGACGATCCGGGCCGCCGTTGGTTAACAGTTGAATCAGCA -CGAAGTTGTTAAAGTTAAAGGCGAAGCTGGCGATCATCAGCGGCGTCAGCGGTTTAATCAGCAGCGGCAG -CGTAATCTTAAAGAAGTTCTGGAACGGACCTGCGCCATCCATTGCTGAGGCTTCATACAAATCGTCCGGA -ATCGCTTTCAGCAAGCCCATGCAGAGGATCATCATGTACGGATAACCCAGCCAGGTATTGACGATAATTA -GCATCGTGCGGGCGGTGGTCGGATCGCTGAACCAGGCGGGCTTCACGCCAAACAGCGCGCTCAACATCAT -GTTGATTTCACCGAAGCTCTGGTTAAACAACCCTTTGAAAATCAAGATTGAAATGAACGATGGCACCGCG -TAGGGCAGAATCAGCAGGACGCGATAGACCGCTTTGCCGCGCAACGCTTCCCACTGCACCAGACACGCCA -GAACCATGCCGACCGCCACCGTTAAAAAGACAGTGATCAGCGAGAACACCACGGTCCAGACGAAAATGGC -GAGGAACGGTTTCTGAATGCCTTCGTCGGTAAAGACGCGGGTAAAGTTTTTCCAGCCGGTGGTCACGGTG -TAACCGGGGCTTAGCTTTTCATCACCCCAGTTGCCGTCGGCGGTAATGGACTGGTAAAAGCCAATTTGGT -TATTCGGACGATATTTCACGCCGCTCTGATTATTCGTCAACGTGCCGTCACCGTCGAGTGTGTAGAGCGG -CTGCGTGCCAGAAAACTGGCGCAGGGAGCTCATCATCACTTTGTTGCCATCCGGCAGAATGGCGGTAATG -TCACTCAGCGCCTGACGATTCTGGGTAATCACGCGCAGATTCGCGCGTTCGCCTTCGGGCTGGGCGGTCG -TTTCTTTCAGTTGCAGTTTTTGCTCGCCGCCAAATTTAAAAGCGTCGGAGAGGTAATTTTTGCCGGTTTC -GCCGTCGCTGAGCGCCAGTTGCCACTCATCGCCCGCCGGGTAAAGACCAAAGTTATAGGTTTTGCCTGCT -TGCCAGGAGCGATCTAACAACACTTCCTGCGCACGTTCAAAAGTCAGCTGGTTAGTGCTGCTGTAGTTGG -TGAAGGCAATGGCGATGGTGCAGACCAGAGGGAAGAGGACGAATAATCCCATTCCAGCCATTCCCGGGTA -AACATAGCGCCAGGCGTAGGCTTTACGATTGGCGAAAATATACAGCCCCGCTGAACTCAATATCAGCGTG -GTAATGGCGAACAGGTATTCCCCTTGTGCGTACATTAAAACAACAAGGTAACCCACCAGCAGGCCGAGCA -GACCTAGCACTGACCATTTCAGCGCGTCGCTTTGCCACCAATGTTTCTTTTTAATGACATCCATGGGGTT -CTTCCTCATTCCAGGACGGATAAGGCTTTCACGCCTTATCCGACAACAACTGCCTGATGCGACGCTGACG -CGTCTTATCAGGCCTACATACGTTTCGGTTTTGTAGGCCGGACAAGGCGTTCACGCCGCATCCGGCATTT -CACAGCATTACTTGGTGATACGAGTCTGCGCGTCTTTCAGGGCTTCATCGACAGTCTGACGACCGCTGGC -GGCGTTGATCACCGCAGTACGCACGGCATACCAGAAAGCGGACATCTGCGGGATGTTCGGCATGATTTCA -CCTTTCTGGGCGTTTTCCATGGTGGCGGCAATACGTGGATCTTTCGCCAACTCTTCCTCGTAAGACTTCA -GCGCTACGGCACCCAGCGGTTTGTCTTTATTAACCGCTTCCAGACCTTCATCAGTCAGCAGATAGTTTTC -GAGGAACTCTTTCGCCAGCTCTTTGTTCGGACTGGCGGCGTTAATACCTGCGCTCAGCACGCCAACGAAC -GGTTTGGATGGTTGACCCTTGAAGGTCGGCAGTACCGTTACACCATAATTCACTTTGCTGGTGTCGATGT -TGGACCATGCCCACGGGCCGTTGATGGTCATCGCTGTTTCGCCTTTATTAAAGGCAGCTTCTGCGATGGA -GTAATCGGTGTCTGCATTCATGTGTTTGTTTTTAATCAGGTCAACCAGGAAGGTCAGACCCGCTTTCGCG -CCAGCGTTATCCACGCCCACGTCTTTAATGTCGTACTTGCCGTTTTCATACTTGAACGCATAACCCCCGT -CAGCAGCAATCAGCGGCCAGGTGAAGTACGGTTCTTGCAGGTTGAACATCAGCGCGCTCTTACCTTTCGC -TTTCAGTTCTTTATCCAGCGCCGGGATCTCTTCCCAGGTTTTTGGCGGGTTCGGCAGCAGATCTTTGTTA -TAAATCAGCGATAACGCTTCAACAGCGATCGGGTAAGCAATCAGCTTGCCGTTGTAACGTACGGCATCCC -AGGTAAACGGATACAGCTTGTCCTGGAACGCTTTGTCCGGGGTGATTTCAGCCAACAGGCCAGATTGAGC -GTAGCCACCAAAGCGGTCGTGTGCCCAGAAGATAATGTCAGGGCCATCGCCAGTTGCCGCAACCTGTGGG -AATTTCTCTTCCAGTTTATCCGGATGCTCAACGGTGACTTTAATTCCGGTATCTTTCTCGAATTTCTTAC -CGACTTCAGCGAGACCGTTATAGCCTTTATCGCCGTTAATCCAGATTACCAGTTTACCTTCTTCGATTTT -GGCGAGAGCCGAGGCGGAAAACATCATCGTCGTTAATGCGGATAATGCGAGGATGCGTGCACCTGTTTTT -ATTTTCATAATCTATGGTCCTTGTTGGTGAAGTGCTCGTGAAAACACCTAAACGGACTCTAGTTTCTTTA -TACGGCAACCTCTTTCCATCCTCCTTGCCCCTACGCCCCACCGTCGCTTTGTGTGATCTCTGTTACAGAA -TTGGCGGTAATGTGGAGATGCGCACATAAAATCGCCACGATTTTTGCAAGCAACATCACGAAATTCCTTA -CATGACCTCGGTTTAGTTCACAGAAGCCGTGTTCTCATCCTCCCGCCTCCTCCCCCATAAAAAAGCCAGG -GGGTGGAGGATTTAAGCCATCTCCTGATGACGCATAGTCAGCCCATCATGAATGTTGCTGTCGATGACAG -GTTGTTACAAAGGGAGAAGGGCATGGCGAGCGTACAGCTGCAAAATGTAACGAAAGCCTGGGGCGAGGTC -GTGGTATCGAAAGATATCAATCTCGATATCCATGAAGGTGAATTCGTGGTGTTTGTCGGACCGTCTGGCT -GCGGTAAATCGACTTTACTGCGCATGATTGCCGGGCTTGAGACGATCACCAGCGGCGACCTGTTCATCGG -TGAGAAACGGATGAATGACACTCCGCCAGCAGAACGCGGCGTTGGTATGGTGTTTCAGTCTTACGCGCTC -TATCCCCACCTGTCAGTAGCAGAAAACATGTCATTTGGCCTGAAACTGGCTGGCGCAAAAAAAGAGGTGA -TTAACCAACGCGTTAACCAGGTGGCGGAAGTGCTACAACTGGCGCATTTGCTGGATCGCAAACCGAAAGC -GCTCTCCGGTGGTCAGCGTCAGCGTGTGGCGATTGGCCGTACGCTGGTGGCCGAGCCAAGCGTATTTTTG -CTCGATGAACCGCTCTCCAACCTCGATGCTGCACTGCGTGTGCAAATGCGTATCGAAATCTCCCGTCTGC -ATAAACGCCTGGGCCGCACAATGATTTACGTCACCCACGATCAGGTCGAAGCGATGACGCTGGCCGACAA -AATCGTGGTGCTGGACGCCGGTCGCGTGGCGCAGGTTGGGAAACCGCTGGAGCTGTACCACTATCCGGCA -GACCGTTTTGTCGCCGGATTTATCGGTTCGCCAAAGATGAACTTCCTGCCGGTAAAAGTGACCGCCACCG -CAATCGATCAAGTGCAGGTGGAGCTGCCGATGCCAAATCGTCAGCAAGTCTGGCTGCCAGTTGAAAGCCG -TGATGTCCAGGTTGGAGCCAATATGTCGCTGGGTATTCGCCCGGAACATCTACTGCCGAGTGATATCGCT -GACGTCATCCTTGAGGGTGAAGTTCAGGTCGTCGAGCAACTCGGCAACGAAACTCAAATCCATATCCAGA -TCCCTTCCATTCGTCAAAACCTGGTGTACCGCCAGAACGACGTGGTGTTGGTAGAAGAAGGTGCCACATT -CGCTATCGGCCTGCCGCCAGAGCGTTGCCATCTGTTCCGTGAGGATGGCACTGCATGTCGTCGACTGCAT -AAGGAGCCGGGCGTTTAAGCACCCCACAAAACACACAAAGCCTGTCACAGGTGATGTGAAAAAAGAAAAG -CAATGACTCAGGAGATAGAATGATGATTACTCTGCGCAAACTTCCTCTGGCGGTTGCCGTCGCAGCGGGC -GTAATGTCTGCTCAGGCAATGGCTGTTGATTTCCACGGCTATGCACGTTCCGGTATTGGTTGGACAGGTA -GCGGCGGTGAACAACAGTGTTTCCAGACTACCGGTGCTCAAAGTAAATACCGTCTTGGCAACGAATGTGA -AACTTATGCTGAATTAAAATTGGGTCAGGAAGTGTGGAAAGAGGGCGATAAGAGCTTCTATTTCGACACT -AACGTGGCCTATTCCGTCGCACAACAGAATGACTGGGAAGCTACCGATCCGGCCTTCCGTGAAGCAAACG -TGCAGGGTAAAAACCTGATCGAATGGCTGCCAGGCTCCACCATCTGGGCAGGTAAGCGCTTCTACCAACG -TCATGACGTTCATATGATCGACTTCTACTACTGGGATATTTCTGGTCCTGGTGCCGGTCTGGAAAACATC -GATGTTGGCTTCGGTAAACTCTCTCTGGCAGCAACCCGCTCCTCTGAAGCTGGTGGTTCTTCCTCTTTCG -CCAGCAACAATATTTATGACTATACCAACGAAACCGCGAACGACGTTTTCGATGTGCGTTTAGCGCAGAT -GGAAATCAACCCGGGCGGCACATTAGAACTGGGTGTCGACTACGGTCGTGCCAACTTGCGTGATAACTAT -CGTCTGGTTGATGGCGCATCGAAAGACGGCTGGTTATTCACTGCTGAACATACTCAGAGTGTCCTGAAGG -GCTTTAACAAGTTTGTTGTTCAGTACGCTACTGACTCGATGACCTCGCAGGGTAAAGGGCTGTCGCAGGG -TTCTGGCGTTGCATTTGATAACGAAAAATTTGCCTACAATATCAACAACAACGGTCACATGCTGCGTATC -CTCGACCACGGTGCGATCTCCATGGGCGACAACTGGGACATGATGTACGTGGGTATGTACCAGGATATCA -ACTGGGATAACGACAACGGCACCAAGTGGTGGACCGTCGGTATTCGCCCGATGTACAAGTGGACGCCAAT -CATGAGCACCGTGATGGAAATCGGCTACGACAACGTCGAATCCCAGCGCACCGGCGACAAGAACAATCAG -TACAAAATTACCCTCGCACAACAATGGCAGGCTGGCGACAGCATCTGGTCACGCCCGGCTATTCGTGTCT -TCGCAACCTACGCCAAGTGGGATGAGAAATGGGGTTACGACTACACCGGTAACGCTGATAACAACGCGAA -CTTCGGCAAAGCCGTTCCTGCTGATTTCAACGGCGGCAGCTTCGGTCGTGGCGACAGCGACGAGTGGACC -TTCGGTGCCCAGATGGAAATCTGGTGGTAATAGCAAAACCTGGGCCGGATAAGGCGTTTACGCCGCATTC -GGCAACCAACGCCTGATGCGACGCTTGCGCGTCTTATCAGGCCTACAACGGCTGTCAAATGTAGGCCGGA -TAAGGCGTTTACGCCGCATCCGGCATAAAAACAGGTTGTCATTATCTGAAAGGGGCGAAAGCCCCTCTGA -TTATCGGGTTTAGCGCGCTATTGCCTGGCTACCGCTGAGCTCCAGATTTTGAGGTGAAAACAATGAAAAT -GAATAAAAGTCTCATCGTCCTCTGTTTATCAGCAGGGTTACTGGCAAGCGCGCCTGGAATTAGCCTTGCC -GATGTTAACTACGTACCGCAAAACACCAGCGACGCGCCAGCCATTCCATCTGCTGCGCTGCAACAACTCA -CCTGGACACCGGTCGATCAATCTAAAACCCAGACCACCCAACTGGCGACCGGCGGCCAACAACTGAACGT -TCCCGGCATCAGTGGTCCGGTTGCTGCGTACAGCGTCCCGGCAAACATTGGCGAACTGACCCTGACGCTG -ACCAGCGAAGTGAACAAACAAACCAGCGTTTTTGCGCCGAACGTGCTGATTCTTGATCAGAACATGACCC -CATCAGCCTTCTTCCCCAGCAGTTATTTCACCTACCAGGAACCAGGCGTGATGAGTGCAGATCGGCTGGA -AGGCGTTATGCGCCTGACACCGGCGTTGGGGCAGCAAAAACTTTATGTTCTGGTCTTTACCACGGAAAAA -GATCTCCAGCAGACGACCCAACTGCTCGACCCGGCTAAAGCCTATGCCAAGGGCGTCGGTAACTCGATCC -CGGATATCCCCGATCCGGTTGCTCGTCATACCACCGATGGCTTACTGAAACTGAAAGTGAAAACGAACTC -CAGCTCCAGCGTGTTGGTAGGACCTTTATTTGGTTCTTCCGCTCCAGCTCCGGTTACGGTAGGTAACACG -GCGGCACCAGCTGTGGCTGCACCCGCTCCGGCACCGGTGAAGAAAAGCGAGCCGATGCTCAACGACACGG -AAAGTTATTTTAATACCGCGATCAAAAACGCTGTCGCGAAAGGTGATGTTGATAAGGCGTTAAAACTGCT -TGATGAAGCTGAACGCCTGGGATCGACATCTGCCCGTTCCACCTTTATCAGCAGTGTAAAAGGCAAGGGG -TAATTACGCCCCACAGTGCTGATTTTGCAACAACTGGTGCGTCTCCTGGCGCACCTTTTTTTATGCTTCC -TTCCTGGGATATGAGCGATTTTTTATAGTAACTCACTTCTTCTTCACTAAGAATATCCATTATCTCAATG -CCTTATCAGAGATTCTTTTCCTTTCGCCGGTAGTGTCTGGACATTCAGGCTACTTTTCCAGGTTATTTTA -TTTCTGTTATGCAGAGGTTTTATGATAAGTCATATCCTAAATTCTGGCGGCAATAACTCTTTGATGAAAC -ATGATGTGGTGCAAGGAAATAATATAGTAGATCTTGATTTACTACGTAATTTAAATGGGGTGCCAGGTTT -AAACAGAGATAACTTTATTTATATCAGCAATATTTTTTCAAATATAAAACAACGGAACGAAAAAATCATG -CAATAAATATGTTTCGTGAAGTCTCAATCAGTAATGATACTATAAGTGTAAAATTCTACAGAAATGAAAA -AAATTGAATGCGCTTGCAATTTTCTGATGGATAAAGATGCGCAGGGGTATATCGACCTGTCTGATTTGGA -TTTAACAAGTTGTCATTTTAAAGGTGACGTTATATCGAAGGTGTCTTTTTTATCATCAAATCTACAACAT -GTAACATTCGAATGTAAAGAAATTGGGGATTGCAATTTTACTACTGCAATAGTTGATAATGTCATATTTA -GATGTCGACGTTTACACAATGTGATTTTTATCAAAGCGAGTGGTGAATGTGTCGATTTCAGCAAAAATAT -TCTTGATACAGTTGACTTCTCGCAGAGTCAACTTGGTCATAGTAATTTTCGCGAATGTCAGATTAGAAAT -TCAAACTTCGATAATTGTTATCTTTACGCTTCGCACTTCACCAGAGCAGAGTTTCTGTCTGCCAAAGAAA -TATCATTTATTAAATCGAATTTGACAGCTGTTATGTTTGATTATGTGCGAATGTCGACAGGGAATTTTAA -AGATTGCATTACAGAACAATTGGAATTAACTATTGATTATTCAGATATATTTTGGAATGAAGATCTCGAT -GGTTATATCAATAACATTATAAAAATGATTGATACATTGCCAGATAATGCAATGATATTGAAATCCGTTC -TGGCCGTAAAACTGGTGATGCAATTAAAAATACTTAATATTGTTAATAAAAACTTTATTGAGAATATGAA -GAAAATATTTAGCCATTGTCCTTATATAAAAGATCCCATTATACGCAGTTATATCCATTCTGATGAAGAT -AACAAGTTCGATGATTTTATGCGTCAACATCGATTCAGTGAGGTGAATTTCGATACCCAACAGATGATCG -ATTTTATTAACAGATTTAATACGAATAAATGGCTAATTGATAAAAATAACAATTTTTTTATCCAACTTAT -CGATCAGGCCTTACGATCAACGGATGATATGATCAAAGCAAATGTTTGGCATCTTTATAAAGAGTGGATT -CGTAGTGATGATGTTTCACCTATATTTATAGAAACTGAAGATAATTTAAGAACCTTTAACACGAATGAAT -TAACACGAAACGATAATATCTTTATCCTGTTCTCCTCAGTCGATGATGGGCCAGTTATGGTGGTAAGCTC -CCAGCGCTTACATGATATGTTGAATCCTACAAAAGATACCAATTGGAATTCCACGTATATCTACAAATCC -AGACATGAGATGTTGCCTGTTAATCTTACTCAGGAAACACTTTTCAGCTCCAAATCTCATGGTAAATATG -CGCTTTTCCCCATTTTTACTGCGAGTTGGCGAGCTCATCGTATAATGAATAAGGGTGTTTAAGTAAAGGA -AAACATCACCGTTCCTGGCATCCTGGACGGTGATGCCCCTACGGTTGCCCTCGCCAGCACGGGCATCGGT -AAAGCGTAAGGTTCAACATCGTTTTACCACTTCATGCGATTGTTGCGTTTTTGTTGCGTATTAGATCACT -TAATTTGCTTTACATCTCCCGTAAACACTTTTCTGCGATACAATGCCTTTACGTTATGTAACGGAGAGTT -CGGCATGTCACACCCCGCGTTAACGCAACTGCGTGCGCTGCGCTATTGTAAAGAGATCCCTGCCCTGGAT -CCGCAACTGCTCGACTGGCTGTTGCTGGAGGATTCCATGACAAAACGTTTTGAACAGCAGGGAAAAACGG -TAAGCGTGACGATGATCCGCGAAGGGTTTGTCGAGCAGAATGAAATCCCCGAAGAACTGCCGCTGCTGCC -GAAAGAGTCTCGTTACTGGTTACGTGAAATTTTGTTATGTGCCGATGGTGAACCGTGGCTTGCCGGTCGT -ACCGTCGTTCCTGTGTCAACGTTAAGCGGGCCGGAGCTGGCGTTACAAAAATTGGGTAAAACGCCGTTAG -GACGCTATCTGTTCACATCATCGACATTAACCCGGGACTTTATTGAGATAGGCCGTGATGCCGGGCTGTG -GGGGCGACGTTCCCGCCTGCGATTAAGCGGTAAACCGCTGTTGCTAACAGAACTGTTTTTACCGGCGTCA -CCGTTGTACTAAGAGGAAAAAAATATGGAGTGGAGTCTGACGCAGAATAAGCTGCTGGCGTTTCATCGCT -TAATGCGTACGGATAAGCCAATTGGCGCGTTACTGCTGCTCTGGCCAACATTATGGGCGTTGTGGGTGGC -GACACCGGGCGTTCCCCAGCTCTGGATCCTGGCGGTGTTTGTCGCGGGTGTCTGGCTGATGCGCGCTGCC -GGATGTGTGGTGAATGATTATGCTGACCGCAAGTTTGATGGTCATGTTAAGCGCACGGCGAACCGACCAC -TTCCCAGCGGCGCGGTAACAGAGAAAGAGGCGCGCGCGCTGTTTGTCGTGCTGGTACTGATTTCGTTTTT -ACTGGTGCTGACGCTGAATACGATGACCATTCTGTTGTCGATTGCCGCGCTAGCGCTGGCGTGGGTGTAC -CCGTTTATGAAGCGGTATACCCATCTACCGCAAGTGGTGCTGGGCGCGGCGTTTGGCTGGTCGATTCCAA -TGGCTTTTGCCGCTGTGAGTGAGTCGGTGCCATTGAGTTGCTGGTTAATGTTCCTCGCCAATATTCTCTG -GGCGGTGGCTTACGACACGCAGTATGCGATGGTTGACCGCGATGATGATGTGAAGATTGGCATTAAATCC -ACGGCAATCCTGTTCGGCCAATACGATAAATTGATTATTGGTATTTTGCAGATTGGCGTACTGGCACTGA -TGGCGATCATCGGTGAGTTAAATGGCTTAGGCTGGGGATATTACTGGTCAATTCTGGTGGCTGGCGCGCT -GTTTGTTTATCAACAAAAACTGATTGCCAACCGCGAGCGTGAAGCCTGCTTTAAAGCATTTATGAATAAT -AACTATGTTGGTCTGGTACTATTTTTAGGGCTGGCAATGAGTTACTGGCATTTCTGATGATGTAAAAAAG -CCGGATGATCATCCGGCTTTCTTCTGGGTTGCCTGATGCGCGGCGCTTCTCAGGCCTACACAACACATCG -CAATTTATTGAATTTGCAGATTATGGAAGGCCGGATAAGGCGTTTTCGCCGCATCCGGCAATTCTCTCTG -ATTACCCTTCGCCCTGCGTCGCACTCTCAATCGTCAAACGCACGTCTGATGTAATCAACTCCGCCAGCAA -CTGATAAACCTTCATCGTTTCTGCCGGTTCGGCATCGCCGCTATCGCTGATATACCCTTCATCACGCAGT -GTCAGCACCAGAGAACTGAACACCGCCTTGTCGAAGAACTCCGGCGCGTTGATGCCGTGCAGCACGGAGA -GACGTTGCGCGACGGTGCGGCTCTCTTTCTCCAGCGTACCGCGGTTGATCGACGGGTTGGCACTCAACAA -CCAGAAGGTGATGGCATAACGTTGCAGCGTTTCGCGCGCGCCTGCGGCCAGCAGCTGTAGCGTGCGAGAA -TGCGCCGGGTTGATATGCAACTCATCATCTTGCAGGGTAATCAGCCCCTGACGTTGCATCTCATTTGCCA -GCGCATCAATAACGTCCGGCAACTCGTCGCGATCCCAGCGCAGGAACAGCTCCGCTTTCAGCATTGGGTA -AAGCACATTGACGTGCTCCATCAATACGTCGCGGGAGATGTGGCGATGCTGGGTGACGATTGCCGCCATC -AGCGAAGGCAGCACCAACATATGCGCAATGTTGTTGCGATAGTAGGTCATCAGCACCGCTTGCTCGCGCG -GCAGAATGATGATGTCGCCGATTGTGTCTTTCTCGACTTCAAACTTGTTCATTTGCAGCGCGTGATCGAT -AAGCTCGCTGGCGCTGGCTGAAGGAACGGTAGAGTCCGTGGAGTAGGGCACGTTGCGCATCAGATCCAGG -TAGCAGTTGAGTTGCTCGGTTAACTGCTCGCGGGTGAGTGAGCGCTGACGTGATGCCAGTAGCGCAGTAC -AGCACAGGTTCATGGCGTTTGCCGCGCCTGCGTTGTTAATGCGTACCATCAGATCGGCAGCAATATTATT -GACCGTCGGCGTTAACCATGCCGGACGCACCGCTTCGATGGGATCGATAGATTCACGCCAGTCAGGTACA -TGCTGGTTAAGGTAGGTCATCAACGGCATTGGTTCACCGAAGTTGACGTAACCCTGACCGAGATTACGCA -GCTTGCTTAAACCGCGCAGCATCTGCGGCAGGCTCTCTTTCTCTTTCGTCGCGCCGCGCAGTTCTTTGGC -GTAAGTACCCACTTCCATGACGTGCTCATAACCGATATAGATCGGAATCAGCGTAATCGGACGCGTGCCG -CCACGCAGCATCGCCTGAATGGTCATCGACAGCGTACCAGTTTTCGGATCCAGCAAACGCCCCGTACGGG -AACGACCGCCTTCCACGAAGTACTCGACGGAATAACCACGGCTGAACAGTTCGCCGAGATACTCCCGGAA -AACGGTGGAATAAAGTTTATTGCCTTTAAACGTACGGCGAATAAAGAACGCCCCCAGACGGCGGAAAATC -GGCCCGGCAGGCCAGAAATTCAGGTTGATCCCGGCGGCGATATGCGGCGGCACCAGCCCCTGGTGATACA -GCACGTAAGAAAGCAGCAGGTAGTCCATGTGACTGCGGTGGCAAGGCACATATACCAGCTCATGACCGTC -GTGGGCCAGCTGGCGAACGCGCTCAGCGTTATGGACGTTGATGCCCTGGTAAAGTCGGTTCCAGGTGAAG -CCCAGAATACGGTCAGTCAGGCGAATCATCTCGTAAGAGAAATTCGCCGCAATCTCTTCCATCAGTGCAA -TCGCGTTCTGCTGCGCTTTTTCATGGGAGATTTTTTTGCTGCGCGCTTCATCTTCTACCGCTTTGGCAAT -GGCGCGGGAGGCGAGCAGCTTATTAAACAGATCCTGACGAGCAGGCAAACGTGGGCCTACGGCAGCCAGA -CGTTGACGGGCAAAGTGCATACGCGCCACGCGCGCCAGTTTCTGAGCGATAGTTTTATCCGTGCCGTGTT -CATCCGCCATACGGCGCAGCGAAACTGACGGCGAGAAACGCACAAAACTGTCGCGACCGAGCCACAGTAC -AGCGAAAAATTTCTGTACGCCGTTAAGCATACGCAGCGGCGGGTTCACTTCGCCTTTTTCACGCCCCGGC -GCGCGACCAAACATCACCGACACTGGCACCATCTGCACATCCAGATTTGGGTTGCTACGGTGCAAATCGA -GATAGTCGTGGAACAGCTTAATAGACTCTTCTTTCGGCGTGTAATAGGTGAACACACGCGGCCCGCCGTG -AATGAACACATAGCGCGGCAGTAGCGTGCCGTCGATTTCCAGCGGCTCTAACGGGTCAGGCAAGTCATGT -GCCAGACACTGGGCGCGCAACGTCAGCAAATCTGCTTTCGAGTTGTACGGTAAAACGTACATAATTGGAC -GAGAGGTATCCAGCCCCAGTTCCGGGGCAGGATCTGCCGGAATAGACTTGCTTTTTACCAGGATGCTTAA -TGGTAAATTCAGTAATTTGTAGTAAATTCGTGGCCAGCCGGACATAAACGATGTAAAGCCTCTGGTTAAT -AATGCAAATGCGCGGCAAGGATAGCAGAAAGTCATGGGAAATTCTGTGGTATCCGCTCATGTTTCGCGCG -GCGCTACGCAAACCCGAATCATCGGATTTAACGGTACACTGATATTGACGCTCATAATGTAAAAAGGTTC -TTTCAATGGCCAATAATACCACTGGATTCACCCGAATTATCAAAGCTGCTGGCTATTCCTGGAAAGGTTT -ACGCGCTGCATGGATCAACGAAGCGGCATTCCGTCAGGAAGGCGTAGCGGTATTGTTGGCGGTGGTCATC -GCCTGCTGGCTGGATGTGGACGCGATTACCCGCGTGCTGCTTATCAGCTCCGTGATGCTGGTGATGATTG -TGGAAATCCTCAATAGCGCCATCGAAGCAGTGGTTGACCGAATTGGCTCTGAATACCATGAGCTTTCCGG -ACGCGCAAAAGATATGGGATCCGCTGCGGTGCTGATTGCCATTATCGTCGCCGTGATTACCTGGTGCATT -CTGTTATGGTCGCATTTTGGATAACCCTTCCAGAATTCGATAAATCTCTGGTTTATTGTGCAGTTTATGG -TTCCAAAATCGCCTTTTGCTGTATATACTCACAGCATAACTGTATATACACCCAGGGGGCGGAATGAAAG -CGTTAACGGCCAGGCAACAAGAGGTGTTTGATCTCATCCGTGATCACATCAGCCAGACAGGTATGCCGCC -GACGCGTGCGGAAATCGCGCAGCGTTTGGGGTTCCGTTCCCCAAACGCGGCTGAAGAACATCTGAAGGCG -CTGGCACGCAAAGGCGTTATTGAAATTGTTTCCGGCGCATCACGCGGGATTCGTCTGTTGCAGGAAGAGG -AAGAAGGGTTGCCGCTGGTAGGTCGTGTGGCTGCCGGTGAACCACTTCTGGCGCAACAGCATATTGAAGG -TCATTATCAGGTCGATCCTTCCTTATTCAAGCCGAATGCTGATTTCCTGCTGCGCGTCAGCGGGATGTCG -ATGAAAGATATCGGCATTATGGATGGTGACTTGCTGGCAGTGCATAAAACTCAGGATGTACGTAACGGTC -AGGTCGTTGTCGCACGTATTGATGACGAAGTTACCGTTAAGCGCCTGAAAAAACAGGGCAATAAAGTCGA -ACTGTTGCCAGAAAATAGCGAGTTTAAACCAATTGTCGTTGACCTTCGTCAGCAGAGCTTCACCATTGAA -GGGCTGGCGGTTGGGGTTATTCGCAACGGCGACTGGCTGTAACATATCTCTGAGACCGCGATGCCGCCTG -GCGTCGCGGTTTGTTTTTCATCTCTCTTCATCAGGCTTGTCTGCATGGCATTCCTCACTTCATCTGATAA -AGCACTCTGGCATCTCGCCTTACCCATGATTTTCTCCAATATCACCGTTCCGTTGCTGGGACTGGTCGAT -ACGGCGGTAATTGGTCATCTTGATAGCCCGGTTTATTTGGGCGGCGTGGCGGTTGGTGCAACGGCGACCA -GCTTTCTCTTTATGCTGTTGCTGTTTTTACGCATGAGCACCACCGGGCTGACTGCGCAGGCTTATGGTGC -CAAAAATCCTCAGGCATTAGCCCGTACGCTGGTGCAACCGTTGCTGTTGGCGTTGGGGGCTGGGGCGTTA -ATTGCGCTGCTGCGTACGCCGATTATCGATCTGGCGCTGCATATTGTTGGCGGTAGTGAGGCAGTCCTGG -AACAGGCGCGGCGCTTTCTTGAAATCCGCTGGTTAAGCGCACCGGCGTCGCTGGCGAATCTGGTATTACT -CGGTTGGTTACTCGGCGTGCAATATGCCCGTGCGCCAGTAATTTTGTTAGTGGTCGGCAATATCCTCAAC -ATTGTGCTGGATGTCTGGCTGGTGATGGGGCTGCATATGAACGTGCAGGGCGCGGCGCTGGCGACGGTTA -TTGCGGAATATGCAACATTGCTGATTGGTCTGCTAATGGTGCGTAAAATCCTCAAACTACGCGGAATTTC -CGGCGAAATGCTGAAAACTGCCTGGCGAGGAAACTTCCGTCGCTTGCTGGCGCTTAACCGCGATATCATG -CTGCGTTCGCTGTTGTTGCAACTCTGTTTCGGCGCGATCACCGTACTTGGCGCGCGACTGGGGAGTGACA -TTATCGCTGTTAACGCGGTTCTGATGACGCTACTCACCTTTACCGCCTATGCGCTGGATGGTTTTGCCTA -CGCGGTTGAAGCGCACTCCGGTCAGGCATACGGTGCGCGCGACGGTAGCCAGTTGCTGGATGTCTGGCGG -GCAGCGTGCCGCCAGTCGGGGATCGTAGCGTTACTGTTTTCGGTGGTTTATTTGCTGGCTGGGGAACACA -TCATTGCGTTACTGACGTCGTTAACCCAGATTCAGCAGCTGGCTGACCGCTATCTTATCTGGCAGGTGAT -TTTGCCGGTGGTTGGCGTCTGGTGTTATCTGCTGGACGGCATGTTTATAGGCGCAACGCGTGCCACCGAA -ATGCGTAACAGTATGGCGGTGGCCGCCGCAGGTTTTGCGCTGACGCTCCTTACGCTGCCGTGGCTGGGTA -ATCATGCTTTGTGGCTGGCATTAACCGTCTTTCTGGCGTTGCGCGGGCTTTCTCTGGCGGCTATCTGGCG -GCGTCACTGGCGCAATGGTACCTGGTTTGCCGCAACGTGACGGTTAAAAATTCTGAATAAATAATCCTAA -GCCAAATTGCTGACTACACTTAATCTCACGTTCAGAAGAAAAGTGAACGTACTCTCATTCACAACCTAAC -GATGAGGTCTTGATTATGAATAAAGATGAAGCCGGCGGTAACTGGAAACAGTTTAAAGGTAAAGTGAAAG -AGCAATGGGGCAAACTGACCGATGATGATATGACGATCATTGAAGGTAAACGTGATCAACTGGTCGGTAA -AATCCAGGAACGTTATGGTTATCAGAAAGATCAGGCAGAAAAAGAGGTCGTGGATTGGGAAACCCGCAAT -GAATATCGCTGGTAATTAATCCCTCCTGCCCGACGTGTACAAGGATGTACGCCCTCTTAACGCGGTTTCT -TTTTCACCTGCACAGAGTGATCATGCTGGCACTGTTCAGGATGACGACACGCTTCCACTTCTACACATGC -CGCACAGAGCCCATGTGCTTCAATCACATTATGCCGCAGGGCAAACCCCATTTTTGCCGCCAGCGTATGC -ATAATGTCTTCCACGCCTTCTGCACACTCTTCTTTCACTGCGCCGCAGCGATCGCAAATAAACATGGCTG -ACGTATGGGTGGGCTGATCGAACAGATGACAGAGCACATAACTGTTGGTGGATTCCACCTTATGCACAAA -ACCTTGCTCAAGCAGAAAATCCAGCGCGCGATAAACCGTTGGCGGCTTGGCTTGCGGTTCAGCTTCGCGC -AGTAAATCAAGCAGATCATAAGCGCTGATAGCGCCATCCTGCAGACTCATCAGGCGCAACACTTCCAGGC -GCTGTGGGGTCAGGCGCACATTACGCTGCGCGCAGATTTTTTCAGCCTGCGCTAATAACTCCTGCGTTGT -GGTCTTTTCCATCGGGCACCTCAAAGTGGGGGTTAAGAATGTCCTTACTTTACCATGTTCCAGGAAAAAC -ACCGAGAACCCTTATTGTTGCCGTAATGTTGATTTTCTGTTTTGTAGGTAAGGTGTTATGTTGCCTTGTC -GTACCATTATCAACACGATAATAATTAATAATTCATTTTTAAATAAATTGCTTCAAGTTAACTCGCTATT -TATTTAACTGGGTTTAAACGCATACCTGTAGTTCAGAAATTATGAGCGATTTTTGATAGTGACCAGATGG -CAAAAGAATTATAAGGAGGACACGGTACGACAAAAAAGGTAGATGAATCATGTTGAAGATAATACCCGGT -GCAACTGGATACTTTAATAAAACACTCAATTCAAATCAATTCGATAATGAAGATGCAATCAAAGATAAAT -TAGATAATAGAGGTTCAATCAAAGGTAAATTAAATAATATATATGGTAAATCTATTGATTATGCAGCGCT -GCGTCATCGGGATATAATTATTGCAAAAATAGATTTGTTTATTCAACGAATCACGCATAATTTATGGCAT -GCACGTAAAAAAATGTGTTTTTAATTGTGCAAATAAATGATCTCAAAATGTGGGTCAATAAGTATATTGA -CGATTGCACTGATGAGGATTTAAACGATCGTGACTTTATTGCATCAGTTGTTGACCGGGCTATTTTTCAT -TTCGCGATTAATAGTATATGTAATCCTGGGGATAATAAAGATGCAATGCCCATTGAACAATGTACTTTTG -ATGTAGAAACTAAGAATGACCTTCCCTCCACGGTTCAGCTATTTTATGAGGAATCTAAGGATAATGAACC -TTTAGCGAATATACATTTTCAAGCAATAGGTTCTGGTTTTTTAACGTTTGTTAATGCCTGCCAGGAACAT -GATGACAACAGCTTAAAATTATTTGCTTCGCTGTTAATTTCACTTTCATATTCTAGTGCCTACGCAGATT -TATCAGAAACAGTGTATATTAATGAAAATAATGAGAGCTACCTGAAAGCTCAGTTTGAAAAATTATCTCA -ACGTGATATGAAGAAGTACCTGGGAGAGATGAAGCGTCTGGCTGATGGGGGAGAAATGAATTTTGATGGC -TATCTGGATAAGATGTCACATCTGGTGAATGAAGGAACGCTCGATCCTGATATTTTAAGCAAAATGCGAG -ATGCTGCACCACAATTAATTAGCTTCGCGAAGTCGTTTGACCCAACCTCAAAGGAAGAGATTAAAATACT -TACAGACACTTCTAAATTAATTTATGATTTGTTCGGGGTTAAATCGGAGAAATAATATGTGAAGTTCTTC -GATAGTATGGAAGGCATTATATAAAAGGACCCAATATTTATTGGGTTCTTTTTTCTCTATCAATACTATT -AGCAGGGAGATATATCACCAGAGTTTAATGTGTGATTTTTTATTTATCGTCGAACCTGGATTGTTTATCA -TTGGCCTTAACAAAGTTAACGGCTAATAAGATTATTTCCATCACTTCGTGAGAGCTTCATGCCTTGAGAG -GATCTCAATTTTCTTTTGCAATGAGACAGGCGCTTCCTGTTGTTATGGTATAGTACCCCGCTATTGAGCC -TCCTGAATAGTGATGCTGAATAACATAACCCCATGATATATCGATAAAATAATCTCTACATTTGAAAATG -CACGGTAATTCTGAAATGCAAAAAATCAACCAAACCAGCGCAATGCCTGAAAAAACTGACGTTCACTGGA -GTGGTCGGTTTAGCGTTGCACCAATGCTCGACTGGACGGACAGACATTGCCGCTATTTCTTGCGTCTGCT -TTCCCGCAATACGTTGCTGTATACCGAAATGGTGACCACAGGGGCGATTATTCACGGTAAAGGTGATTAT -CTGGCGTACAGTGAAGAAGAACATCCGGTAGCGTTGCAACTGGGCGGTAGCGATCCGGCGGCGCTGGCGC -AGTGTGCAAAGCTGGCAGAAGCGCGCGGATATGATGAGATCAACCTGAATGTCGGCTGCCCGTCTGACCG -GGTGCAGAACGGCATGTTTGGTGCGTGTCTGATGGGTAATGCGCAGCTGGTTGCCGACTGCGTGAAAGCG -ATGCGCGATGTGGTGTCGATTCCGGTGACGGTGAAAACGCGTATTGGCATCGACGACCAGGACAGCTATG -AATTTCTCTGCGATTTCATCAATACCGTTTCCGGCAAAGGCGAGTGTGAGATGTTCATCATCCACGCACG -TAAAGCCTGGCTTTCGGGGTTAAGCCCGAAAGAAAACCGTGAAATCCCGCCGCTCGATTATCCGCGTGTG -TATCAACTGAAGCGTGACTTTCCGCATCTGACAATGTCGATTAACGGTGGTATCAAGTCGCTGGAAGAGG -CCAAAGCACACCTGCAACATATGGATGGCGTGATGGTCGGGCGCGAGGCGTATCAGAATCCGGGTATTCT -GGCGGCGGTAGACCGGGAGATCTTTGGTTCCTCGGATACCGATGCCGATCCGGTGGCGGTAGTGCGCGCC -ATGTATCCGTACATTGAGCGTGAACTCAGCCAGGGGACGTATCTCGGCCATATTACCCGGCATATGTTGG -GCTTGTTCCAGGGTATTCCTGGCGCGCGGCAGTGGCGGCGTTATTTAAGTGAAAATGCCCATAAAGCGGG -TGCAGACATTAATGTGCTGGAACACGCGCTCAAACTGGTGGCGGATAAGCGTTAACTTTTCACCAAAAAG -TAGTCAAATTCACCACGCCCTGCGCACCGTCGCGGGGCGTTTTGCTGTTAAATCAATAGATTATTTTTGG -CATGATTCTTGTAATGCCAGCAAGAGATTTCATATTTGGGAGAGCATCATGCTGGAACTACTTTTTGTGA -TTGGCTTTTTTGTCATGCTGATGGTCACCGGCGTTTCGTTGCTGGGCATTATCGCCGCGCTGGTTGTGGC -GACGGCCATTATGTTCCTCGGCGGTATGCTGGCATTGATGATTAAGTTGCTGCCGTGGTTACTACTGGCG -ATTGCGGTGGTGTGGGTTATTAAGGCGATTAAAGCACCAAAAGTGCCGAAATATCAGCGTTATGACCGCT -GGCGTTACTAAGGGATTGTGCGGATGATCACAACCTAAGGTTTTATCCTTAGAACAAAATAGGAATTGAT -AATCAAATCTGTCACTATTGCGCCTCTAACAGATTCATCGTGCTGTACCCTACATACAGCCGAACTATAA -AAAGAAAGGGCTTCCCAGGTGGAAGCCCTATTTCTTTTATGGAATCAGCAGGCTGGAACCTTGCGTCGCC -CGGCTTTCCAGAATCTCATGCGCACGCTGCGCATCCTTCAGCGGATATTTCTGCTGCTCGGCGACATCGA -CCTTAATCACACCGCTGGCAATCAAAGAGAACAGTTCATTACTGGCCTCGGTTAATTCCTCCCGCGTGGT -GATATAGCCTTGCAGGGAAGGGCGTGTCACATACAACGAGCCTTTTTGATTGAGAATGCCTAAGTTCACA -CCGGTAACCGCACCTGATGAGTTGCCAAAACTGACCATTAAGCCGCGGCGTTGCAGGCAATCCAGCGACC -GTTCCCAGGTGTCTCTGCCCACGGAATCGTACACCACGCGCACTTTCTTACCGCCGGTGATCTCTTTTAA -CCGCTCGACCAGATCCTCTTCACGATAGTTAATAACCTGCCACGCGCCCGCTTTTAGCGCGCTCTGCGCT -TTTTGCGCGGTTCCTACGGTGCCGATAAGTTTCGCGCCCAGGGCTTTTGCCCACTGGCAGGCAATTAAGC -CAACGCCGCCAGCCGCTGCGTGGAACAGGAACTGTTCATCGGGTTTAATTTCATAGGTTTTGCGCAGCAG -ATAATAAACCGTTAAGCCTTTCAGGAAGGATGCCGCAGCTTGCTCAAAAGAAATTGCCGCAGGCAGAATC -GCCGCTTTATCCGCAATAATGTTATGCACAGAGCTGTAAGCGCCTAACGCCGACTGCGCATAGACTACAC -GATCGCCTGCCTTAATATGCTTTACACCACTGCCGACTTTACTCACGATGCCTGCTGCTTCGGTGCCTAA -TCCGCTGGGTAGCGATGGCGGCGGGTAAAGGCCGCTGCGGATATATGTGTCGATAAAATTGATGCCGATG -GCTTTATTTTCGACCTGGATTTCATTCTCCGCCGGATCGGCAGGAGTGAACTCTACGGCTTGAAGTACTT -CCGGGCCACCGTGCTTGTGAAATTCAATTCGTGTTGCCATGTGTCCTCCAGAACGTATCGTCAGGGTCTG -CTTCATATGATAAAGTTTCGACCCATTCTTTATCTCGGTAACTCCATTCACTATGGCAGGAAATAAACCC -TTCAACAAACAGCAGGCTGAACCCCGCGAACGCGATCCACAAGTTGCCGGGCTGAAAGTGCCTCCGCACT -CGATCGAAGCGGAGCAGTCGGTGTTGGGCGGTTTAATGCTAGATAACGAACGCTGGGATGATGTAGCCGA -GCGTGTGGTAGCAGACGATTTTTACACCCGCCCACACCGTCATATCTTTACTGAAATGGCGCGTTTGCAG -GAAAGCGGTAGCCCTATCGATCTGATTACTCTTGCGGAATCGCTGGAACGCCAGGGGCAACTCGATAGCG -TCGGTGGTTTTGCTTATCTGGCAGAGCTGTCAAAAAATACGCCAAGTGCGGCTAACATCAGTGCCTATGC -GGACATCGTGCGTGAACGTGCCGTTGTCCGTGAGATGATCTCGGTTGCGAATGAGATTGCCGAAGCTGGT -TTTGATCCGCAGGGGCGTACCAGCGAAGATCTGCTGGATCTGGCTGAATCCCGCGTCTTTAAAATTGCCG -AAAGTCGTGCGAACAAAGACGAAGGGCCGAAGAACATCGCCGATGTGCTCGACGCAACCGTGGCGCGTAT -TGAGCAGTTGTTTCAGCAGCCACACGATGGCGTTACCGGGGTAAACACCGGTTATGACGATCTCAACAAA -AAAACCGCTGGCTTGCAGCCGTCGGATTTGATCATCGTCGCCGCGCGTCCGTCGATGGGTAAAACAACAT -TTGCGATGAACCTCGTCGAAAACGCGGCGATGTTGCAGGATAAACCGGTACTTATCTTCTCGCTGGAGAT -GCCATCAGAACAGATCATGATGCGTTCTCTGGCGTCGCTGTCGCGCGTTGACCAGACTAAAATCCGTACC -GGGCAGCTCGATGACGAAGACTGGGCGCGCATTTCCGGCACCATGGGTATTTTGCTCGAAAAACGCAATA -TCTATATCGATGACTCCTCCGGCCTGACGCCAACGGAAGTGCGTTCCCGCGCACGCCGTATTGCCCGTGA -ACACGGCGGCATCGGGCTTATCATGATCGACTACCTGCAACTGATGCGCGTACCGGCGCTTTCCGATAAC -CGTACGCTGGAAATTGCAGAAATCTCTCGCTCGCTGAAAGCACTGGCGAAAGAACTGAACGTGCCGGTGG -TGGCGCTGTCCCAGTTGAACCGTTCTCTGGAACAACGTGCCGACAAACGCCCGGTCAACTCCGACCTGCG -TGAATCTGGCTCTATCGAGCAGGATGCGGACTTGATCATGTTTATCTATCGTGATGAGGTGTATCACGAA -AACAGTGATTTAAAAGGCATCGCGGAAATTATTATCGGTAAACAACGTAACGGCCCAATCGGGACGGTAC -GCCTGACCTTTAACGGTCAATGGTCGCGCTTCGACAACTATGCGGGGCCGCAGTACGACGACGAATAATA -ATTATTTTATGAATTAGGTAATTAAAGCAAACACTTATCAAGGAACACAAATGCAAGCGGCAACTGTTGT -GATTAACCGCCGCGCTCTGCGACACAACCTGCAACGTCTTCGTGAACTGGCCCCTGCCAGTAAAATGGTT -GCGGTGGTGAAAGCGAACGCTTATGGTCACGGTCTTCTTGAGACCGCGCGAACGCTCCCCGATGCTGACG -CCTTTGGCGTAGCCCGTCTCGAAGAAGCTCTGCGACTGCGTGCGGGGGGAATCACCAAACCTGTACTGTT -ACTCGAAGGCTTTTTTGATGCCAGAGATCTGCCGACGATTTCTGCGCAACATTTTCATACCGCCGTGCAT -AACGAAGAACAGCTGGCTGCGCTGGAAGAGGCTAGCCTGGACGAGCCGGTTACCGTCTGGATGAAACTCG -ATACCGGTATGCACCGTCTGGGCGTAAGGCCGGAACAGGCTGAGGCGTTTTATCATCGCCTGACCCAGTG -CAAAAACGTTCGTCAGCCGGTGAATATCGTCAGCCATTTTGCGCGCGCGGATGAACCAAAATGTGGCGCA -ACCGAGAAACAACTCGCTATCTTTAATACCTTTTGCGAAGGCAAACCTGGTCAACGTTCCATTGCCGCGT -CGGGTGGCATTCTGCTGTGGCCACAGTCGCATTTTGACTGGGTGCGCCCGGGCATCATTCTTTATGGCGT -CTCGCCGCTGGAAGATCGCTCCACCGGTGCCGATTTTGGCTGTCAGCCAGTGATGTCACTAACCTCCAGC -CTGATTGCCGTGCGTGAGCATAAAGCCGGAGAGCCTGTTGGTTATGGTGGAACCTGGGTAAGCGAACGTG -ATACCCGTCTTGGCGTAGTCGCGATGGGCTATGGCGATGGTTATCCGCGCGCCGCGCCGTCCGGTACGCC -AGTGCTGGTGAACGGTCGCGAAGTACCGATTGTCGGGCGCGTGGCGATGGATATGATCTGCGTAGACTTA -GGTCCACAGGCGCAGGACAAAGCCGGGGATCCGGTCATTTTATGGGGCGAAGGTTTGCCCGTAGAACGTA -TCGCTGAAATGACGAAAGTAAGCGCTTACGAACTTATTACGCGCCTGACTTCAAGGGTCGCGATGAAATA -CGTGGATTAATCGTTCTGTAATATTTGATTGTCTGTGCCGGATGCGGCGTGAATGCCTTATCCGGCCAAT -AAAATCCTAAAAATTCAATAAGTTGATGTTCTTTCATGCTCTTATAAAGGTCGTGCCTCTGGCGGATGTA -CGTTTGTCATGAGTCTCACTCTGTTGCTAATTGCCGTTCGCTCCTGAACATCCACTCGATCTTCGCCTTC -TTCCGGTTTATTGTGTTTTAACCACCTGCCCGTAAACCTGGAGAACCATCGCGTGTTTCAAAAAGTTGAC -GCCTACGCTGGCGACCCGATTCTTACGCTTATGGAGCGTTTTAAAGAAGACCCTCGCAGCGACAAAGTGA -ATTTAAGTATCGGTCTGTACTACAACGAAGACGGAATTATTCCACAACTGCAAGCCGTGGCGGAGGCGGA -AGCGCGCCTGAATGCGCAGCCTCATGGCGCTTCGCTTTATTTACCGATGGAAGGGCTTAACTGCTATCGC -CATGCCATTGCGCCGCTGCTGTTTGGTGCGGACCATCCGGTACTGAAACAACAGCGCGTAGCAACCATTC -AAACCCTTGGCGGCTCCGGGGCATTGAAAGTGGGCGCGGATTTCCTGAAACGCTACTTCCCGGAATCAGG -CGTCTGGGTCAGCGATCCTACCTGGGAAAACCACGTAGCAATATTCGCCGGGGCTGGATTCGAAGTGAGT -ACTTACCCCTGGTATGACGAAGCGACTAACGGCGTGCGCTTTAATGACCTGTTGGCGACGCTGAAAACAT -TACCTGCCCGCAGTATTGTGTTGCTGCATCCATGTTGCCACAACCCAACGGGTGCCGATCTCACTAATGA -TCAGTGGGATGCGGTGATTGAAATTCTCAAAGCCCGCGAGCTTATTCCATTCCTCGATATTGCCTATCAA -GGATTTGGTGCCGGTATGGAAGAGGATGCCTACGCTATTCGCGCCATTGCCAGCGCTGGATTACCCGCTC -TGGTGAGCAATTCGTTCTCGAAAATTTTCTCCCTTTACGGCGAGCGCGTCGGCGGACTTTCTGTTATGTG -TGAAGATGCCGAAGCCGCTGGCCGCGTACTGGGGCAATTGAAAGCAACAGTTCGCCGCAACTACTCCAGC -CCGCCGAATTTTGGTGCGCAGGTGGTGGCTGCAGTGCTGAATGACGAGGCATTGAAAGCCAGCTGGCTGG -CGGAAGTAGAAGAGATGCGTACTCGCATTCTGGCAATGCGTCAGGAATTGGTGAAGGTATTAAGCACAGA -GATGCCAGAACGCAATTTCGATTATCTGCTTAATCAGCGCGGCATGTTCAGTTATACCGGTTTAAGTGCC -GCTCAGGTTGACCGACTACGTGAAGAATTTGGTGTCTATCTCATCGCCAGCGGTCGCATGTGTGTCGCCG -GGTTAAATACGGCAAATGTACAACGTGTGGCAAAGGCGTTTGCTGCGGTGATGTAATGCAGGAAAGCAGG -CTGGAGCTACCCAGCCTGCAGTGAAATTAAACTGTCGTCGCTTTCACTCTTTCTTTATAGATGATTTTTT -TGATGCCATCGTTCTACGTGAGAGATAATAAACGTTGTTAGTTCTTTTATTGTTAAGCTTATCCCAATTA -TCTGGAATTCCTTATCCTGTTTTTTTGGGTGGAGTAATAATTTCTGCACATCTAACCATTATTAAATTTA -ATAATAAGTATCGGGTTTGTTACGATAGAATATTTCTATATCCTCAAGAATATGCTTTGCCTTATTGCCT -GTGACTTTCTGAGATTCAATTATAGTATCGTTAAATTCTAATGTTAAAGAGAACTCTTTTTTCCGCTTTG -TGTAAGTTTAACCTTATATTGATTACCAATATCAAATAAAAAGGTCCTGTAATGAGAATAATCACCTTTA -ACCTCCTCGGCAAAACAGCAAAGCGTGCAAATATACATAAAGTCTTTCTTACCCCTGATTTTGTTAACTA -AATCAATAAATGCGTGAAAAACTTTACTTGCAATAGAACTTGATACTTCTTCTCCAGGTCTAAAAAATCT -TTTGCAATTTTTAACTGTGTTTCTATGTATAAAAAGAAATCTTTGGCATAAGAGATATCTTTATTATTTA -GTGCATCTAGCTCAACAGGTAAAGATGTCGTTTTGTTGCTATTCACATATGATATATTCATATCATCATC -TCCATCGCGAGTAATAAAATTAATCACCATTGTAGGGTAGGGGGCTGGTCAATCAGAAATCATCTTTATA -AACTTCGATTGTTTTTGTAATGCTGTATCATTAAGTTCATTAAATCGTACAGCAGATAAATGTTCTATCA -AATTTCGCTCATTTGCCGAGGATTCATCATAATAAACGTAAAATTAATGTATCCTTACATCGAGTAATAA -ACATTTTTTATACAAAAAAAGACAGGAACGTATTTACTGGGTTAAATATAATCATCCTGCTTTTCATCAC -AAAAACCGCAGATAATCCTTCCTTTCCCCGGCAGCTGGCGTTATGGTCAGATGGTTTTTGCAACAAATCT -CACAATAAAAAGTTTCAACATACTGACTATTTAGGGAAAAATATGCGCAAGATCACACAGGCAATCAGTG -CCGTTTGCTTATTGTTCGCTCTAAACAGTTCCGCTGTTGCCCTGGCCTCATCTCCTTCACCGCTTAACCC -TGGGACTAACGTTGCCAGGCTTGCTGAACAGGCACCCATTCATTGGGTTTCGGTCGCACAAATTGAAAAT -AGCCTCGCAGGGCGTCCGCCAATGGCGGTGGGGTTTGATATCGATGACACGGTACTTTTTTCCAGTCCGG -GCTTCTGGCGCGGCAAAAAAACCTTCTCGCCAGAAAGCGAAGATTATCTGAAAAATCCTGTGTTCTGGGA -AAAAATGAACAATGGCTGGGATGAATTCAGCATTCCAAAAGAGGTCGCTCGCCAGCTGATTGATATGCAT -GTACGCCGCGGTGACGCGATCTTCTTTGTGACTGGTCGTAGCCCGACGAAAACAGAAACGGTTTCAAAAA -CGCTGGCGGATAATTTTCATATTCCTGCCACCAACATGAATCCGGTGATCTTTGCGGGCGATAAACCAGG -GCAAAATACAAAATCGCAATGGCTGCAGGATAAAAATATCCGAATTTTTTATGGCGATTCTGATAATGAT -ATTACCGCCGCACGCGATGTCGGCGCTCGTGGTATCCGCATTCTGCGCGCCTCCAACTCTACCTACAAAC -CCTTGCCACAAGCGGGTGCGTTTGGTGAAGAGGTGATCGTCAATTCAGAATACTGACAGAGCGGGAGAGC -GTGATGCTCTCCCGAATGCTGTTTTTTTAATCACACCTTTATCCTTTCGCTGTCTTGCTGCAAACTGATT -AAGAGAGTTTTATCAAGGAGCAGCACATGTGGTATCAAAAGACGCTCACGCTTAGCGCCAAATCTCGTGG -GTTTCATCTGGTAACGGATGAAATTCTGAATCAGCTGGCTGATATGCCGCGCGTTAACATCGGCTTACTG -CATCTGTTGCTGCAACATACCTCCGCCTCTCTGACACTTAATGAGAACTGCGATCCCACCGTACGCCACG -ACATGGAGCGTTTTTTCCTCCGCACCGTTCCCGACAACGGAAATTATGAGCATGACTATGAGGGAGCAGA -CGATATGCCTTCTCATATCAAATCCTCAATGCTGGGAACATCGCTTGTATTGCCGGTGCATAAAGGGCGT -ATTCAGACCGGCACCTGGCAAGGCATTTGGCTGGGGGAACATCGCATCCACGGCGGATCGCGTCGCATCA -TCGCGACACTACAAGGGGAGTAAAAAATGACCATTTCGGAGTTGCTACAATATTGCATGGCAAAACCAGG -CGCAGAACAGAGCGTGCATAATGACTGGAAAGCGACGCAGATCAAAGTGGAAGATGTACTGTTTGCGATG -GTGAAAGAAGTAGAAAATCGCCCAGCTGTTTCGCTGAAAACCAGCCCGGAGCTGGCGGAGCTGCTACGTC -AGCAGCACAGCGATGTGCGTCCAAGCCGCCATCTGAATAAAGCGCACTGGAGCACCGTGTATCTCGACGG -TTCGCTGCCAGATTCGCAAATCTATTATCTGGTGGATGCGTCTTATCAGCAGGCGGTGAATTTACTGCCG -GAAGAAAAACGTAAATTGCTGGTGCAACTCTGAAAGGAAAAGGCCGCTCAGAAAGCGGCCTTAACGATTA -CAGCATCGGCTTAAGGAAGCGTGCCGTGTGTGATGCTTCGCACTCCGCGACGGTTTCTGGCGTACCGGAG -ACGAGGATCTCGCCGCCACCACTGCCGCCTTCTGGTCCCAGGTCGACAATCCAGTCAGCGGTTTTGATCA -CGTCGAGATTGTGCTCAATCACCACAATGGTGTTGCCCTGATCGCGCAGTTTATGCAGTACGTCGAGCAG -TTGCTGAATATCGGCGAAGTGCAGACCGGTGGTCGGCTCGTCGAGAATATACAGCGTCTGCCCGGTGCCG -CGTTTTGACAGTTCACGCGCCAGCTTCACGCGCTGGGCTTCACCGCCTGAAAGGGTGGTTGCGGACTGCC -CCAGTCGAATGTACGTCAGGCCAACGTCCATCAACGTTTGCAGCTTACGCGCCAGTGCAGGTACGGCATC -AAAGAACTCACGCGCCTCTTCGATGGTCATATCCAGCACTTCGTGGATGGTTTTGCCTTTGTACTTAATC -TCCAGCGTTTCACGGTTATAGCGTTTACCTTTGCACTGGTCGCACGGCACGTAGATATCCGGCAGGAAGT -GCATCTCCACTTTGATCACGCCATCGCCCTGACAGGCCTCGCAGCGTCCGCCACGAACGTTAAAGCTGAA -ACGTCCCGGCGTATAGCCGCGCGCACGGGATTCCGGTACGCCCGCAAACAGTTCGCGCACAGGCGTAAAC -ACGCCGGTATAGGTCGCCGGGTTAGAACGTGGAGTACGACCAATTGGGCTTTGGTCGATATCGATCACTT -TATCGAAATGCTCCAGCCCCTGAATATCGCGATACGGTGCTGGTTCGGCGATGGTCGCCCCATTCAACTG -GCGTTGGGCAATCGGGAACAGTGTGTCGTTAATCAGCGTCGATTTACCGGAACCTGAAACCCCGGTGATG -CAGGTAAACAGACCCACCGGCAGCGTCAGCGTCACGTCCTTCAGGTTGTTGCCGCGTGCGCCTGTCAGCT -TCAGCACTTTTTCCGGATTCGCCGGAACGCGTTTCTTCGGCACTTCAATCTTGCGTTTGCCGCTCATGTA -CTGCCCGGTCAACGACTCCGGCACCGCCATAATCGCTTCCAGCGGACCTTCTGCGACCACTTCACCGCCG -TGAACACCTGCGCCCGGGCCAATGTCGATCACATGGTCAGCGGCGCGAATTGCGTCTTCGTCGTGCTCCA -CCACAATCACGGTATTACCGAGATCGCGCAGATGGATAAGCGTACCCAACAGGCGCTCGTTATCACGCTG -GTGCAGGCCGATAGACGGCTCGTCCAGCACGTACATAACGCCAACCAGGCCCGCACCAATCTGGCTCGCC -AGACGGATACGCTGTGCTTCACCGCCAGAAAGCGTTTCTGCCGAGCGGGAAAGCGTCAGGTAATTCAGGC -CGACGTTAACGAGGAATTTCAGACGATCGCCGATCTCTTTAAGGATTTTTTCTGCAATCTTCGCCCGCTG -ACCTGCGAGTTTGAGATTGTTGAAGAATTCCATCGCATGACCAATGCTCATGTCGGAGATAGCAGGCAGC -GGCGTATTCTCGACATACACGTGGCGCGCTTCCCGACGCAGACGCGTCCCTTCGCAGCTGGCGCACGGAC -GATTACTGATAAACTTGGCTAATTCTTCGCGTACCGCGCTGGATTCCGTCTCTTTATAGCGGCGCTCCAT -ATTATGCAGCACGCCTTCGAACGGATGACGACGAATGGAGGTATCGCCACGATCGTTCATGTATTTGAAT -TCAATGTTTTCTTTGCCAGAACCGTACAACACCACTTTATGCACGTTCGCGCTCAGGCTGCCCCACGGCG -CTTCGAGGTCGAACTTATAGTGATCTGCCAGCGATTTCAGCATCTGGAAATAATAGAAGTTGCGGCGATC -CCAGCCACGGATCGCACCACCAGCCAGCGACAGTTCCGGATTCTGGATCACTCGATCAGGATCGAAATAT -TGCTGTACGCCAAGGCCGTCGCAGGTCGGGCAGGCCCCCGCCGGGTTGTTAAACGAAAACAGTCGCGGCT -CCAGTTCACGCATACTGTAGCCGCAAATTGGGCAGGCGAAGTTGGCGGAGAACAGCAGCTCTTCCGCTTT -CGGGTCGTCCATATCCGCCACTACCGCGGTACCACCGGAAAGCTCCAGCGCGGTTTCAAATGACTCGGCA -AGACGTTGGGTAAGATCGTCACGCACCTTGAAGCGATCAACCACCACTTCAATGGTATGTTTCTTTTGCA -GTTCCAGTTTTGGCGGATCGGAAAGATCGCAGACTTCGCCATCAATACGAGCACGGATGTAGCCCTGGCT -TGCCAGGTTCTCCAGCGTTTTGGTGTGTTCGCCTTTGCGCTCTTTAATGATTGGCGCGAGTAGCATCAGA -CGCTTGCCTTCCGGCTGCGACAGCACGTTATCCACCATCTGGCTGACGGTTTGCGCCGCCAGCGGGACGT -CGTGGTCCGGACAGCGCGGCTCGCCAACGCGGGCGAATAACAAACGCAAATAGTCGTGGATTTCGGTGAT -TGTCCCCACCGTAGAACGCGGGTTATGAGACGTCGATTTCTGCTCAATTGAGATGGCAGGAGAAAGCCCC -TCAATATGATCGACGTCCGGCTTTTCCATCAGTGACAGAAACTGCCGCGCGTAGGCGGAAAGGGATTCAA -CGTAACGGCGCTGCCCTTCGGCATATAAGGTGTCGAAAGCGAGCGAGGATTTGCCAGAACCCGAAAGCCC -GGTCACGACAATGAGCTTGTCGCGGGGGATAACGAGGTTGATGTTTTTGAGATTATGGGTGCGGGCGCCC -CGAACTTCGATCTTATCCATTCACCTTTCCCGGATTAAACGCTTTTTTGCCCGGTGGCATGGTGCTACCG -GCGATCACAAACGGTTAATTATGACACAAATTGACCTGAATGAATATACAGTATTGGAATGCATTACCCG -GAGTGTTGTGTAACAATGTCTGGCCAGGTTTGTTTCCCGGAACCGAGGTCACAACATAGTAAAAGCGCTA -TTGGTAATGGTACAATCGCGCGTTTACACTTATTCAGAACGATTTTTTTCAGGAGACACGAACATGGCCA -GCAGAGGCGTAAACAAGGTTATTCTCGTTGGTAATCTGGGTCAGGACCCGGAAGTACGCTACATGCCAAA -TGGTGGCGCAGTTGCCAACATTACGCTGGCTACTTCCGAATCCTGGCGTGATAAAGCGACCGGCGAGATG -AAAGAACAGACTGAATGGCACCGCGTTGTGCTGTTCGGCAAACTGGCAGAAGTGGCGAGCGAATATCTGC -GTAAAGGTTCTCAGGTTTATATCGAAGGTCAGCTGCGTACCCGTAAATGGACCGATCAATCCGGTCAGGA -TCGCTACACCACAGAAGTCGTGGTGAACGTTGGCGGCACCATGCAGATGCTGGGTGGTCGTCAGGGTGGT -GGCGCTCCGGCAGGTGGCAATATCGGTGGTGGTCAGCCGCAGGGCGGTTGGGGTCAGCCTCAGCAGCCGC -AGGGTGGCAATCAGTTCAGCGGCGGCGCGCAGTCTCGCCCGCAGCAGTCCGCTCCGGCAGCGCCGTCTAA -CGAGCCGCCGATGGACTTTGATGATGACATTCCGTTCTGATTTGTCATTAAAACAATAGGTTATATTGTT -TTAAGGTGGATGATTAAAGCATCTGCCAGCCATAAAAAAGAAGCCTCCGTTATGGAGGCTTCTACGTATC -AGGTCAAAATCATTGGCCATTGTGGCGGTGTCTGATTCATCTCTTCTATCATCACCGACTCGATGTTGTG -CCAGATAGCGGTGATGTCCGCCATTGTGATGCCAAGCAACCCCATTGCGAACCAACAGGCGGAAACAACG -CCCAGACCGCTGCTGATCACCGCAAGCCCGACATAATCAGACCGACGAAAACGGATGTTGAGTGTGCTGG -CCAGAAACATCATTACGGCACTAAGAAGTTGCCAGCGAAGAAGAACCACGCCAGTGGTGAGGGTAGCCAT -CAAACAATTCCTCTGAAAAGAGCCGATGCCCTGGACAGCGCGGCGTTGTTCACGGGAGGCGTGGTACACT -CTGGCTATCGCGGGGCTTGCAGAACACAAAAATGAAACACTCTGTTTGTTTCATTAATTTTGTGAACTAT -ATCACAATTGATTGTTTGTTAGCCATATTAGGCCGTGACTTTTATTGCTGTACAGATTATGTGGTTTTTC -AGTGGCATTAAGGGCATATCTTCCCGCCGCCTCTGCATTCCTGTAGGAAATTAATTTTGAATATCAATGA -ATTATTTTCATCCAGGTGACGATTAGAAAGGTATCAATTTCAAATCAGGCAAAAGTGCTATTTATACCGT -AAGATTTATCTAAAGACGTCGGTACCCAGGGTTTTCACCTTGCAATGGCCGGGTATAAACAGGCAGGAAA -TTGATAGCAATGAGTCATCGTGCACGACACCAATTACTGGCGTTGCCGGGCATTATCTTTTTAGTTCTCT -TTCCCATCATTCTTTCGCTATGGATTGCCTTCCTTTGGGCAAAATCAGAAGTGAATAATCAGCTCCGAAC -CTTTGCTCAACTGGCACTGGATAAATCCGAGCTGGTCATTCGCCAGGCAGATTTAGTGAGCGATGCAGCT -GAACGCTATCAGGGGCAAGTTTGCACTCCAGCCCATCAAAAGCGAATGTTGAATATTATTCGTGGCTATC -TTTATATTAATGAATTGATCTATGCCCGTGATAACCATTTTTTATGCTCATCGCTGATAGCGCCTGTAAA -CGGCTATACGATTGCACCGGCCGATTATAAGCGTGAACCTAACGTTTCTATCTATTATTACCGCGATACG -CCTTTTTTCTCTGGCTATAAAATGACCTATATGCAGCGGGGAAATTATGTGGCGGTTATCAACCCTCTCT -TCTGGAGTGAAGTGATGTCTGATGACCCGACATTGCAATGGGGTGTGTATGATACGGTGACGAAAACCTT -TTTCTCGTTAAGCAAAGAGGCCTCGGCAGCAACGTTTTCTCCGCTGATTCATTTGAAGGATTTAACCGTA -CAAAGAAATGGCTATTTATATGCGACAGTTTATTCGACAAAACGCCCAATTGCAGCCATTGTTGCGACTT -CATATCAACGTCTTATAACCCATTTTTATAATCATCTTATTTTTGCGTTGCCCGCCGGTATTTTGGGGAG -TCTTGTTCTGCTATTACTCTGGCTACGTATTCGACAAAACTATTTATCTCCCAAACGTAAATTGCAACGC -GCCCTCGAAAAACATCAACTTTGTCTTTATTACCAGCCAATAATCGATATCAAAACAGAAAAATGTATCG -GCGCTGAAGCGTTGTTACGTTGGCCTGGTGAGCAGGGGCAAATAATGAATCCGGCAGAGTTTATTCCGCT -GGCAGAAAAGGAGGGGATGATAGAACAGATAACTGATTATGTTATTGATAATGTCTTCCGCGATCTGGGC -GATTACCTGGCAACACATGCAGATCGCTATGTTTCTATTAACCTGTCGGCCTCCGATTTTCATACGTCAC -GGTTGATAGCGCGAATCAATCAGAAAACAGAGCAATACGCGGTGCGTCCGCAGCAAATTAAATTTGAAGT -GACTGAGCATGCATTTCTTGATGTTGACAAAATGACGCCGATTATTCTGGCTTTCCGCCAGGCATGTTAC -GAAGTGGCAATTGATGATTTTGGTATTGGCTACTCTAACTTGCATAACCTTAAATCATTGAATGTCGATA -TTTTGAAAATCGACAAATCGTTTGTTGAAACGCTGACCACCCACAAAACCAGTCATTTGATTGCGGAACA -CATCATCGAGCTGGCGCACAGCCTGGGGTTAAAAACGATCGCTGAAGGCGTCGAAACTGAGGAGCAGGTT -AACTGGCTGCGCAAACGCGGCGTGCGCTATTGCCAGGGATGGTTCTTTGCGAAGGCGATGCCGCCGCAGG -TGTTTATGCAATGGATGGAGCAATTACCCGCGCGGGAGTTAACGCGCGGGCAATAAAATTACAGGCGGTG -GCGATAATCGCTGGGAGTGCGATCAAACTGCCGACGGAAAACGCGGGAGAAGGTCTGCTGCGAGACATAA -CCCAGGTCCATTGCGATATCAAAAATCGGACGCTCGGTGGTGCGCAACTCAACGGCGGCCAGTAACAGGC -GGCGTTGGCGAATGTAATCGCCAAGCGTCTGATGCGTCACCGTGCGGAACATTCGTTGCAAGTACCACTT -TGAATAGCCTGATTTTTTTGCGACTACATCAATGTTAAGCGGCTGGTCAATATGCTCGTCAATCCATGCG -ATAAGATCCTGAATAATTTTCTGATGGGACATAAATCTGCCTCTTTTCAGTGTTCAGTTCGTTAATTCAT -CTGTTGGGGAGTATAATTCCTCAAGTTAACTTGAGGTAAAGCGATTTATGGAAAAGAAATTACCCCGCAT -TAAAGCGCTGCTAACCCCCGGCGAAGTGGCGAAACGCAGCGGTGTGGCGGTATCGGCGCTGCATTTCTAT -GAAAGTAAAGGGTTGATTACCAGTATCCGTAACAGCGGCAATCAGCGGCGATATAAACGTGATGTGTTGC -GATATGTTGCAATTATCAAAATTGCTCAGCGTATTGGCATTCCGCTGGCGACCATTGGTGAAGCGTTTGG -CGTGTTGCCCGAAGGGCATACGTTAAGTGCGAAAGAGTGGAAACAGCTTTCGTCCCAATGGCGAGAAGAG -TTGGATCGGCGCATTCATACCTTAGTGGCGCTGCGTGACGAACTGGACGGATGTATTGGTTGTGGCTGCC -TTTCGCGCAGTGATTGCCCGTTGCGTAACCCGGGCGACCGCTTAGGAGAAGAAGGTACCGGCGCACGCTT -GCTGGAAGATGAACAAAACTAAAGCGCCACAAGGGCGCTTTAGTTTGTTTTCCGGTCTTTGTCTTTCTCT -CTATCCCGCTGGTACACAGGAGGGTTTCCCCCGACGTCAACACACCTCATTCGAGCACGTGGTGGAGGTT -CCGGTTGGTGTTGATGCTTTAATTGTATGTCACCGACGTTTCTTCGCCAGTGTAAAAGTATACTTTTTAA -CCGCAATATTTTTGTCATCTCAGACGATTTTTTATCGCAATCCTGAACGGTATACGGCTCGATAACGCTG -CAATCTTGCGCACCGACGATAACGTTTGCGCATCAATTGCCTGGTTTTTCATCGTCAAGACAATAAAAGA -GAAAAAAGCAGCAAACTTCGGTTGAAAAAGCCGCTATGATCGCCGGATAATCGTTTGCTTTTTTTACCAC -CCGTTTTGTATGCGCGGAGCTAAACGTTTGCTTTTTTGCGACGCAGCAAATTGTCGCAAACCTGGAGCAG -GAAGATAACGTTTCGCTGGCAGGGGATTGTCCGCCACGCATCTTGACGAAAATTAAACTCTCAGGGGATG -TTTTCTTATGTCTACGCCATCAGCGCGTACCGGCGGTTCACTCGACGCCTGGTTTAAAATTTCACAACGT -GGAAGCACTGTCCGTCAGGAAGTGGTTGCCGGGTTAACAACGTTTCTGGCGATGGTCTACTCGGTCATCG -TCGTTCCAGGTATGTTGGGTAAAGCAGGCTTCCCGCCTGCGGCAGTTTTCGTTGCAACCTGTCTGGTTGC -CGGACTCGGTTCTATCGTGATGGGTCTGTGGGCTAATCTGCCGTTGGCGATTGGTTGCGCCATCTCCCTG -ACAGCGTTTACCGCATTCAGCCTGGTGCTGGGGCAACATATTAGCGTACCTGTCGCGCTGGGTGCCGTGT -TCCTGATGGGTGTGCTGTTTACGGTAATTTCTGCCACGGGTATCCGTAGCTGGATTTTGCGCAACTTGCC -TCACGGTGTGGCGCACGGCACGGGGATTGGTATCGGTCTGTTCCTGCTGCTCATTGCCGCTAACGGTGTC -GGTCTGGTGATTAAAAACCCGCTTGATGGTCTGCCCGTTGCGCTGGGTGATTTCGCGACCTTCCCGGTGA -TTATGTCACTGGTAGGTCTGGCGGTGATCATCGGCCTGGAAAAACTGAAAGTCCCTGGTGGCATTCTGCT -GACCATTATCGGTATCTCAATTGTCGGTTTGATCTTCGATCCTAACGTCCATTTCTCCGGCGTTTTCGCC -ATGCCTTCATTGAGCGATGAAAACGGCAATTCACTGATTGGCAGCCTGGACATTATGGGCGCGCTGAATC -CTGTAGTCCTGCCAAGCGTTCTGGCGCTGGTGATGACGGCAGTATTTGATGCCACCGGAACTATCCGTGC -CGTCGCCGGCCAGGCGAACCTGCTGGATAAAGATGGGCAGATCATCGACGGTGGGAAAGCACTGACCACT -GACTCCATGAGCAGCGTTTTCTCTGGCCTGGTGGGTGCGGCTCCGGCAGCGGTATACATCGAGTCTGCGG -CGGGTACGGCGGCGGGCGGTAAAACCGGTTTGACGGCTATCACCGTTGGCGTGCTGTTCCTCCTGATTCT -GTTCCTCTCTCCGCTCTCTTACCTCGTTCCGGGGTATGCAACGGCTCCGGCGCTGATGTACGTTGGCCTG -CTGATGCTGAGCAACGTGGCGAAAATCGACTTTGCTGATTTTGTTGATGCGATGGCGGGTCTGGTTACGG -CTGTATTCATCGTGCTGACCTGTAACATCGTAACAGGCATCATGATCGGCTTCGCGACTCTGGTGATTGG -TCGTCTGGTTTCCGGCGAATGGCGCAAGTTGAACATCGGTACGGTCGTTATCGCCGTGGCGCTGGTGACC -TTCTATGCGGGTGGCTGGGCTATCTAATCTTTCATCGGATTCTGAAAACGGGTGGCAATGGCTGCCCGTT -TTTATTTTCTCCGCACATTGTGTGAGCTTTTGCGATATTCTGAAAAAAATGAGAATTCAGGCATAACGTC -TTTCTCAGATCATAAAAAACATCGCAAACAGGGAACGCATGGAAATCTTCTTCACCATACTGATAATGAC -CCTCGTGGTCTCGCTGTCCGGGGTGGTCACTCGTGTCATGCCCTTTCAGATCCCGCTTCCGCTTATGCAA -ATCGCCATCGGTGCGCTACTGGCGTGGCCGACGTTTGGTTTGCATGTGGAGTTTGATCCTGAACTCTTTT -TAGTCTTGTTTATCCCGCCGTTGCTGTTCGCTGATGGCTGGAAAACGCCGACCCGTGAATTTCTCGAACA -TGGTCGAGAGATTTTCGGCCTCGCGCTGGCGCTGGTGGTGGTCACCGTGGTCGGCATTGGCTTCCTTATT -TACTGGGTGGTGCCGGGCATTCCGCTGATCCCTGCCTTTGCGCTGGCGGCGGTGCTTTCTCCGACCGATG -CTGTGGCGCTCTCCGGGATTGTTGGCGAAGGGCGCATCCCGAAAAAAATCATGGGCATTTTGCAGGGCGA -AGCGTTGATGAATGACGCCTCCGGTCTGGTGTCGTTGAAGTTTGCCGTAGCAGTGGCGATGGGGACGATG -ATCTTCACCGTCGGCGGTGCGACGGTCGAATTTATGAAAGTAGCCATTGGCGGTATTCTCGCCGGTTTTG -TGGTGAGCTGGCTGTACGGTCGCTCGCTGCGATTCCTCAGCCGCTGGGGCGGTGATGAACCCGCGACGCA -GATCGTCCTGCTGTTCCTGCTGCCATTCGCTTCTTATCTGATTGCCGAACATATTGGCGTTTCCGGCATC -CTCGCTGCGGTTGCCGCCGGGATGACCATCACCCGCTCCGGTGTGATGCGCCGTGCGCCGCTGGCAATGC -GCCTGCGTGCAAACAGCACCTGGGCGATGCTGGAATTTGTCTTTAACGGCATGGTGTTCCTGCTGTTAGG -TCTGCAGCTGCCGGGTATTCTGGAGACGTCGCTGATGGCAGCAGAAATCGACCCTAACGTCGAAATCTGG -ATGCTGTTTACCAATATTATTCTGATATATGCGGCGCTGATGCTGGTCCGTTTCGGCTGGCTGTGGACGA -TGAAAAAGTTCAGCAACCGCTTCCTGAAGAAGAAGCCGATGGAGTTTGGTTCGTGGACCACACGAGAAAT -CCTGATCGCGTCTTTCGCCGGGGTGCGTGGGGCGATCACTCTGGCCGGTGTGCTCTCTATCCCGCTGCTC -TTGCCGGATGGTAACGTCTTCCCGGCGCGCTATGAGCTGGTGTTCCTGGCGGCTGGCGTCATTCTCTTCT -CGCTGTTTGTCGGCGTGGTGATGTTGCCTATTCTGCTACAACACATTGAAGTCGCGGATCATTCGCAACA -ATTGAAAGAGGAACGTATTGCGCGAGCGGCAACGGCAGAAGTGGCGATTGTGGCGATCCAGAAAATGGAG -GAGCGTCTGGCGGCGGATACCGAAGAGAATATCGATAACCAGCTGCTTACGGAGGTCAGTTCTCGCGTCA -TTGGTAACCTGCGTCGTCGCGCCGATGGACGTAACGACGTTGAAAGTTCCGTGCAGGAAGAGAACCTTGA -GCGTCGCTTCCGTCTGGCGGCATTGCGTTCTGAACGTGCTGAACTTTACCACCTGCGCGCCACACGGGAG -ATCAGCAACGAAACGCTGCAAAAATTACTGCACGATCTCGATTTGCTTGAAGCGTTGCTAATTGAGGAAA -ATCAGTAAGCCGAAAGCGACGTAACCAGGCCCGAGGTAATCTGAAAAAGGTGCAATCTTTTGCACCTTTA -ACAGGTTAGCTCGGGCTAACATTCATGATTCTAAAACAAATAAATTATCTCTCTTTTAAAGTCAATTCAT -TGGCTGTTCTTCGACTTAACCTCAATCTGCATCTTGCATAATATCTGCAGTAATCTTCATAGCGACTGCA -TGAAGATTATCCTCAGTTTGTGACATGCCAGTATGAGTGGCACAATCTTCTTCAAAGAATTTCTGTAGTG -TTACCAGGATATCACTATTAATGGAGATATTTTCCTCACCACGGAGAATGGTAATACCCATTCCCTGGAC -GCTAGCCTCATCGAAATTAACACGATAGAGACGGATATTAAACATCCAGGCTTTTGTTAAAACAGAACAG -TTGAAATGGCAATTGCTTAAATTGGCATTATTAAAATTAACATTAGCCATATTAGAGTCGGTACATATAA -CCATTTCGAGGAACGTATTTGTTAACCGCGTAAAAAAGAGTTTGCTATCAATTAAGTTTATATTCTGGAG -GGTTGCTTTATTCAGGTTGACACGAGACAGATCAGCATGTTCAAAGTTAATTAAATCAAGTTTAGAGAAG -CTAAGGTCGGCTCTAAATAAATTAATATATGGCGCTATTACTTTATAAAGATTTACCTCAGCCATGTATG -CCATATAAAAATTTGAATAATCAAGGAAGGTATTTTTAATATTGGCTCTATTCATTGTTGCATTGTAGAA -TTGAACATGCATAGCGGAACATGAATTTAGAGTTCCGTCAGTCATTTTTATCTGAGCGAAATTTGAGTCA -TCGAGAATACAATTATCAAAAAGTATTTTTTCCATTATGGCGAAATTAAAATTCGTTTTATACATATTAC -AGTCCTGAAAAATAGCGTTTTGTAGTCTGCAACCTGCAAAATTCGAATTGGATAAATCTTCATCTTTAAT -CACGATACCTTTCAGGCTAAGGTGTGAAAAATCGTAACCACCATTTACTGTCTGTGGGATTTCGATAGTA -TTATTATGGACGGTGACATTATTTATAAAATATACCACCTTAATTGACACTTCCTTATCTTTATTAAGGT -AAACTCTTCTCGTAATTCTATCGTCACATTTATTATTTGCATGTGAAGCTATATCTATAAAATATTTATG -TATTTTCCTGTCCGTTTCTTTCGTGATTTTTCCTGATGGTAAACTATCATAAATTCTTTTCATTTTCTGA -ATCAAGCCTATCACTTTTTCATGATCATCCATTTTGAAAAGAGAGAGGGCTTTATTGTCAATTAACGTGT -TTTTATGATGTTTGCTGTAATTATCTGATTTTGTTTTCTTTGTATGTGATGGACTTGTGACAGAGTGGTT -ATCGTTAATCAGGCAAAGAGGGAAAAACATATTATTTAAACCATTATAGCGCATAAAATATCCTTATAAT -TAACAAGAAAGAAAAGGCATATTCTCTGCATTATCATTTTCTACGACTGTCAAAAATCGCTCATTTTTTA -ATGAGTTTATTTGTTTAATATTATGGGAAAAGGTGATGCATTTGGGAGAGGAAGAGTATTCCCCGGTCAG -ACGACCGGGGAAGGGGAGAGATTAATGCGCGCGGCCTTGCTCAACGCCAAAGCCGGTCTGGGAGCGGATA -AACTGCGCGCGGAACAGTTCACGCTCACGCGCGCCTTCCGCTGAGTTATCGGTTGCCGAGAAGAACCAGA -TGCCGAGGAATGCCACGGTGATAGAGAACAGCGCCGGGTATTCATACGGGAAGATGGCTTTTTCGTGACC -AAGGATCTGTACCCAAATCGTCGGGCCGAGGATCATCAGTACTACTGCGGTAATCAGCCCCAGCCAGCCA -CCCATCATCGCGCCACGCGTGGTCAGTTTCGACCAGTACATAGAAAGCAGAATGATCGGGAAGTTACAGC -TCGCCGCGATGGCAAACGCCAGCCCCACCATAAAGGCGATGTTCTGATTCTCAAACAGCACGCCGAGGAT -AATCGCAATCACGCCGAGGATCAGTACGGTGATTTTTGATACCCGCAGCTCTTCACGTTCGGTCGCGCCT -TTTTTGAAGACGTTAGCGTACAAGTCATGCGAAACCGCGGATGCGCCCGCCAGCGTCAGACCCGCAACCA -CCGCGAGGATAGTGGCGAAAGCAACCGCTGAAATAAAACCGAGGAACAGGTTGCCGCCCACTGCATTCGC -CAGGTGAACGGCCGCCATGTTGTTACCACCAATCAGATGGCCCGCCGCGTCTTTATATTCCGGATTCGCA -CCAACCAGCATGATCGCGCCGAAGCCGATAATAAAGGTCAGAATATAGAAGTAGCCCATAAACCCGGTGG -CGTAGAACACGCTCTTACGTGCTTCGCGGGCATCGCTGACTGTAAAGAAGCGCATCAGAATGTGCGGCAA -GCCCGCCGTACCAAACATCAGTCCCAGACCCAGAGAGAGCGCGGAGATCGGATCTTTCACCAGCCCGCCC -GGCTTCATGATGTCGACACCTTTCGGGTGTACCGCCATCGCTTCACTGAACAGATTGTTGAAGCTAAAGC -CGACGTGTTTCATCACCATAAAGGCCATAAAGCTGGCACCGAACAGCAACAGCACGGCTTTGATAATTTG -CACCCAGGTGGTCGCCAGCATGCCGCCGAACAGGACGTACATCATCATCAGCACGCCGACCAGCACCACC -GCAATGTGATAGTTAAGGCCAAACAGCAGCTCGATCAGTTTACCTGCGCCCACCATCTGGGCGATAAGGT -AAAGCGCCACCACCACCAGAGAACCACAGGCCGAAAGAATACGAATCGGCCCTTGTTTCAGACGGTAAGA -GGCCACATCGGCAAAGGTGTAGCGCCCCAGGTTACGCAGACGTTCGGCAATCAGGAACAAAATGATCGGC -CAGCCCACCAGGAAGCCCAGCGAGTAAATTAAGCCGTCATAGCCGGAGGTAAACACCAGCGCGGAGATCC -CCAAGAATGAGGCGGCGGACATATAGTCCCCGGCAATCGCCAGCCCGTTCTGGAAGCCAGTGATATTGCC -GCCTGCGGTGTAGTAGTCGCTACGAGAACGTACGCGTTTTGATGCCCAGTAGGTAATGCCGAGCGTAAAC -ACGACGAAAATCAGGAACATAATAATCGCCTGCCAGTTCGTTGGCTGGCGCTCTACGGCCCCGCTAATAG -CATCCGCGGCGTTAGCTGCGAAAGGGAGTGTGGCGGCAAGCGCCGTCAGAACTCTTTTCATGATGCTTGT -ACCTCATGCAGGACTTCATTATTAAGACGGTCGAATTCGCCGTTCGCCCGCCAGATGTAGATACCGGTGA -GAACAAAGGAGATCACAATCACTCCAACACCAATTGGAATACCGCGTGTGACGCTGGTGTTCGGATTCAG -CGGCGTGCCCAGCCAGCCGGGCGCGAAGGCGATCAGTAAAATAAAGCCGATATAAACTGCCAGCATAATA -ATCGACAGGATGGTGGCAAACCGTTGCCGTTTTTCGACTAACTCCCTGAAATGCGCATTGTCTTCTATCC -GCTGATAAATAGTGCCATTCATCACAGATTCTCCAGAGGTAATGTAGGGATTGTTTTAATTCCCGCTCCC -TTATGGGAGAAGGTTAACGCTCGGGTAACCCTTGCCGAATGTAGGCCGGATAAGGCGTTTACGCCGCATC -CGGCAATCAATGCCTGATGCGACGCTGTCGCGTCTTATCAGGCCTACAAACCGTTACCGACTCGCATCGG -GCAATTGTGGGTTACGATGGCATCGCGATAGCCTGCTTCTCTTCAAGCAGCTTCTCGACTACGCCAGGAT -CGGCAAGCGTCGAGGTATCGCCCAGGTTGCTGGTATCGCCCGCCGCAATTTTGCGCAGAATACGGCGCAT -AATTTTGCCGGAGCGGGTTTTAGGCAGGGAGTCGGTCCAGTGCAGCACGTCTGGCGTCGCCAGCGGGCCA -ATCTCTTTACGCACCCAGTTGCGGACTTCTGCGTACAGTTCTGGTGACGGTTCCTCCCCGTGATTAAGCG -TGACGTAGGCGTAGATCGCCTGACCTTTAATATTGTGCGGAATACCTACTACGGCGGCTTCGGCAATCTT -CGGATGCGCCACCAGCGCCGACTCAATCTCTGCCGTCCCCAGACGGTGACCGGAGACGTTCAGCACGTCG -TCCACACGCCCGGTTATCCAGTAATAGCCATCTTCATCGCGACGCGCGCCGTCGCCGCTGAAATACATAT -TTTTGAAGGTGGAGAAGTAGGTCTGTTCAAAACGTTCGTGATCGCCAAACAGCGTACGCGCCTGACCCGG -CCAGGAGTCGGTGATTACCAGGCTACCTTCGGTGGCCCCCTCCAGCGGGTTACCTTCGTTATCGACCAGC -GCCGGTTGCACGCCGAAGAACGGACGTGTTGCCGAACCGGCTTTCAGCTCGGTAGCGCCAGGCAGCGGGG -TGATCATGAAACCGCCGGTTTCGGTCTGCCACCAGGTATCGACCACCGGACATTTCTCGTTGCCGATTTT -TTTCCAGTACCACTCCCACGCTTCCGGGTTAATTGGCTCGCCCACGGAACCGAGAATGCGCAGCGACGAA -CGGTCGGTGCCTTCGATCGCTTTATCGCCTTCCGCCATCAGCGCGCGGATCGCCGTGGGTGCGGTATAGA -GAATATTGACCTGATGCTTGTCCACCACCTGCGCCATACGGGCAGGCGTCGGCCAGTTGGGTACGCCTTC -AAACATCAGCGTGGTCGCACCGCAGGCCAGCGGGCCGTACAGCAAGTAACTGTGTCCGGTCACCCAGCCC -ACATCGGCGGTGCACCAGTAGATATCACCCGGATGATAATCAAAGACATATTTAAAGGTCAGCGCCGCGT -ACACCAGATAACCGCCGGTAGTATGCAGCACACCTTTTGGCTTACCGGTAGAACCGGAGGTGTAGAGAAT -AAACAGCGGATCTTCGGCGTTCATCTCTTCCGCCTGGTGCTGATCGCTCGCTTGCTCAACCAGGTCGTGC -CACCACAGGTCGCGCCCTTCCTGCCAGTCAATTTTCCCGCCAGTACGCTTCAGTACCACCACATGCTCTA -CGCTGGTGACGTTCGGGTTTTTCAGCGCGTCATCAACGTTTTTCTTCAGCGGAATACTGCGCCCGGCACG -CACACCTTCGTCGGAAGTGATCACCAGTCGTGAGTTGGAATCAATAATGCGCCCGGCAACGGCTTCCGGC -GAGAAGCCGCCGAAAATCACCGAATGCACCGCGCCAATGCGGGCGCAGGCCAGCATCGCAACCGCGGCTT -CCGGCACCATCGGCATATAAATCGCCACCACATCACCTTTTTTAATGCCCAGCTCGAGCAGGGTATTGGC -GAAGCGGCAGACGTCGCGGTGCAGCTCTTTATAGCTGATATGTTTGCTCTGGCTGGCGTCGTCGCCTTCC -CAGATGATGGCGGTACGATCGCCGTTTTCTTGCAGATGGCGGTCAAGGCAGTTTGCCGCCAGATTCAGCG -TGCCGTCCTCGTACCATTTAATGGACACATTACCGGGGGCAAAGGAGGTGTTTTTCACCTTCTGGTAAGG -TTTGATCCAGTCAAGAATTTTTCCCTGTTCGCCCCAGAAGGTATCAGGTACGTTAATAGATTGTTGATAC -ATCGCCTCGTACTGCTGAGGGTTTATCAGGCAACGGTCTGCGATGTTGGCAGGAATGGTGTGTTTGTGAA -TTTGGCTCATGCTTTTGTTCTCCTTGTAGGATGTTAATAATATGTGGCATAAGCGTTAAATGTAGGGGTA -TTGGCAGTTTTGTTTAGTATTTGGGCGACAGATCACGCAAAAGTAGAATTGTGCAAATAAACGGCAGGGT -AATTTTTGAAGGTCAGCAACAAAAGTTGATTAATTCTTTGAGGAACATGCAGTTATGCATGCTGTTGAAA -AAGAGGAAGATACTGACTAACTCTAAAGTGGTATTTTACATGCACTTACAATTGATTAAAGACAACATTC -ACAGTGTGGTTATTTGTTACACATAGGGGCGAGCAATGTCATGACAGTGTAGGTGCGGTTACTGTCGTGA -AAAACAATAAAAACCGCCATTGCAACAATGGCGCAATTCGGATGAAGCCCCTATGACAAGGATAAAAATA -AACGCACGCCGTATCTTCAGCTTATTGATTCCTTTTTTCTTTTTCACTTCTGTTCACGCTGAACAAACGG -CTGCTCCCGCAAAACCTGTAACTGTGGAAGCGAAGAATGAAACCTTTGCCCCGCAGCATCCCGATCAATA -TCTCTCCTGGAAAGCCACCTCGGAACAGTCAGAGCGTGTTGACGCCCTGGCGGAAGATCCACGGCTGGTG -ATCCTGTGGGCGGGGTATCCCTTCTCGCGCGATTACAACAAGCCGCGTGGACATGCTTTTGCTGTGACCG -ATGTGCGTGAAACCCTGCGTACCGGTGCGCCGAAAAACGCTGAAGATGGTCCGCTACCGATGGCATGCTG -GAGTTGTAAAAGCCCGGATGTGGCGCGTCTGATCCAGAAAGACGGCGAAGATGGCTACTTCCACGGTAAA -TGGGCGCGCGGCGGTCCGGAAATCGTCAACAACTTAGGTTGTGCCGATTGCCATAACACCGCCTCTCCAG -AGTTCGCCAAAGGCAAACCGGAGTTAACCCTTTCCCGTCCGTATGCGGCTCGCGCGATGGAAGCCATTGG -TAAACCTTTTGAGAAAGCCGGACGTTTCGACCAGCAATCGATGGTTTGCGGTCAGTGCCATGTGGAGTAT -TACTTCGACGGCAAAAACAAAGCGGTTAAATTCCCGTGGGATGACGGCATGAAAGTCGAAAATATGGAGC -AGTATTACGACAAAATTGCCTTCTCTGACTGGACTAACTCCCTGTCGAAAACGCCAATGCTGAAAGCGCA -GCACCCGGAATATGAAACCTGGACAGCGGGCATTCACGGTAAAAACAACGTGACCTGTATCGACTGCCAT -ATGCCAAAAGTGCAGAACGCCGAAGGCAAACTCTACACCGACCATAAAATTGGTAATCCGTTTGATAACT -TCGCCCAGACTTGTGCGAACTGCCATACCCAGGACAAAGCTGCCTTGCAAAAAGTGGTCGCGGAACGTAA -GCAGTCGATTAACGACCTGAAAATCAAGGTTGAAGATCAACTGGTTCACGCTCACTTCGAAGCGAAAGCA -GCGCTGGATGCAGGCGCGACGGAAGCTGAAATGAAGCCAATTCAGGACGATATCCGTCATGCCCAGTGGC -GCTGGGATCTGGCGATCGCTTCCCACGGCATTCATATGCACGCACCGGAAGAAGGTTTACGGATGCTCGG -TACGGCGATGGATAAAGCGGCGGATGCACGCACCAAACTGGCGCGCCTGCTGGCGACCAAAGGCATCACC -CATGAAATCCAGATCCCGGATATCTCAACCAAAGAGAAAGCCCAGCAGGCCATTGGCCTGAACATGGAAC -AAATCAAGGCCGAGAAGCAGGACTTCATCAAAACGGTGATCCCGCAGTGGGAAGAACAGGCACGTAAAAA -CGGTCTGTTAAGCCAATAACCCCGTTCCGCCTCGCAAGGGGCGGAAAACACAATGGAGTGAATATGAGCG -TATTACGTTCGTTATTAACTGCCGGGGTGCTGGCGTCGGGCCTGTTGTGGAGCCTGAACGGAATTACCGC -TACCCCTGCGGCGCAGGCATCTGATGATCGCTACGAAGTTACCCAGCAGCGTAACCCGGATGCCGCCTGT -CTGGACTGTCATAAACCAGATACCGAAGGTATGCATGGAAAACATGCTTCCGTTATCAACCCGAAGGTGA -TGCTGCCAACTTACTGATTTAGTGTATGATGGTGTTTTTGAGGTGCTCCAGTGGCTTCTGTTTCTATCAG -CTGTCCCTCCTGTTCAGCTACTGACGGGGTGGTGCGTAACGGCAAAAGCACCGCCGGACATCAGCGCTAT -CTCTGCTCTCACTGCCGTAAAACATGGCAACTGCAGTTCACTTACACCGCTTCTCAACCCGGTACGCACC -AGAAAATCATTGATATGGCCATGAATGGCGTTGGATGCCGGGCAACAGCCCGCATTATGGGCGTTGGCCT -CAACACGATTTTACGTCACTTAAAAAACTCAGGCCGCAGTCGGTAACCTCGCGCATACAGCCGGGCAGTG -ACGTCATCGTCTGCGCGGAAATGGACGAACAGTGGGGCTATGTCGGGGCTAAATCGCGCCAGCGCTGGCT -GTTTTACGCGTATGACAGTCTCCGGAAGACGGTTGTTGCGCACGTATTCGGTGAACGCACTATGGCGACG -CTGGGGCGTCTTATGAGCCTGCTGTCACCCTTTGACGTGGTGATATGGATGACGGATGGCTGGCCGCTGT -ATGAATCCCGCCTGAAGGGAAAGCTGCACGTAATCAGCAAGCGATATACGCAGCGAATTGAGCGGCATAA -CCTGAATCTGAGGCAGCACCTGGCACGGCTGGGACGGAAGTCGCTGTCGTTCTCAAAATCGGTGGAGCTG -CATGACAAAGTCATCGGGCATTATCTGAACATAAAACACTATCAATAAGTTGGAGTCATTACCCAACCCG -AATAACAAACTGCCGGTCACCTGCACCAACTGTCACGGCCAGCCATCACCGCAACACCGCGAAGGGGTGA -AAGATGTGATGCGCTTTAACGAGCCGATGTACAAGGTTGGAGAGCAGAACAGCGTCTGTATGTCCTGTCA -TCTGCCGGAACAGTTGCAAAAAGCGTTCTGGCCGCACGATGTCCACGTAACCAAAGTGGCGTGCGCCAGC -TGCCATTCCCTGCATCCACAGCAAGATACGATGCAGACGTTAAGTGACAAAGGACGGATTAAGATTTGCG -TCGATTGCCACAGCGATCAGCGCACCAATCCGAACTTTAACCCGGCGTCTGTTCCGTTGCTTAAGGAGCA -GCCATGACCTGGTCTCGTCGCCAGTTTCTCACCGGCGTCGGCGTGCTGGCAGCCGTCAGCGGCACCGCAG -GGCGCGTGGTGGCGAAAACGTTGAATATCAATGGGGTGCGTTACGGCATGGTGCATGACGAGTCGTTATG -CATCGGCTGTACCGCCTGTATGGATGCTTGTCGGGAAGTGAACAAGGTGCCGGAAGGCGTCTCGCGCCTG -ACGATTATTCGTAGCGAGCCGCAGGGCGAATTTCCTGATGTGAAATATCGCTTCTTCCGTAAGTCTTGCC -AGCACTGCGATCATGCGCCGTGCGTTGACGTCTGCCCGACCGGTGCGTCTTTTCGCGATGCTGCCAGTGG -GATTGTCGATGTTAATCCGGATCTCTGCGTCGGTTGTCAGTACTGCATCGCCGCCTGTCCGTACCGCGTG -CGCTTTATCCATCCGGTCACGAAGACGGCGGACAAATGCGATTTCTGCCGTAAGACCAATTTGCAGGCCG -GTAAGTTGCCCGCGTGCGTTGAAGCTTGCCCGACCAAGGCGCTGACGTTTGGCAATCTGGACGATCCCAA -CAGTGAGATTTCGCAACTGCTGCGCCAGAAGCCCACTTACCGCTACAAGCTGGCGCTGGGAACCAAACCG -AAGCTGTACCGCGTACCGTTTAAATACGGGGAGGTGAGCCAATGACGCAGACTTCCGCATTTCATTTTGA -ATCGCTGGTGTGGGACTGGCCGATTGCCATCTACCTGTTTTTGATTGGTATTTCTGCTGGTCTGGTGACG -CTGGCCGTGCTGTTACGTCGCTTCTACCCGCAGGCGGGCGGTGCAGACAGTACGTTGCTGCGCACCACGC -TGATTGTCGGGCCGGGCGCGGTGATCCTCGGTCTGTTGATCCTCGTCTTCCACCTGACAAGACCGTGGAC -CTTCTGGAAGCTGATGTTCCACTACAGTTTTACCTCGGTGATGTCGATGGGGGTGATGCTGTTTCAGCTC -TACATGGTGGTGCTGGTGCTGTGGCTGGCGAAAATCTTTGAACATGATTTGCTTGCCCTGCAACAACGCT -GGTTGCCGAAGCTGGGGATCGTGCAAAAGGTTCTGAGCCTGCTGACGCCCGTTCATCGCGGACTGGAAAC -ATTGATGCTGGTGCTGGCGGTGTTGTTGGGGGCTTATACCGGCTTTCTGCTGTCGGCGCTGAAATCGTAT -CCGTTCCTCAATAACCCGATCCTGCCGGTGCTGTTCCTCTTCTCCGGCATCTCGTCCGGTGCGGCGGTGG -CGCTGATCGCCATGGCGATACGCCAACGCAGTAACCCGCATTCCACGGAAGCGCAGTTTGTACACCGTAT -GGAAATCCCTGTGGTATGGGGTGAAATCTTCCTGCTGGTGGCGTTTTTTGTCGGTCTGGCGCTGGGCGAT -GACGGTAAAGTTCGTGCGCTGGTGGCGGCATTAGGTGGCGGTTTCTGGACGTGGTGGTTCTGGCTTGGTG -TCGCCGGGCTGGGGCTGATTGTGCCAATGCTGCTCAAACCGTGGGTCAATCGCAGTTCCGGCATTCCTGC -CGTGCTGGCGGCGTGTGGGGCCAGTCTGGTCGGCGTGTTGATGCTGCGCTTTTTCATTCTCTACGCCGGA -CAGTTGACGGTGGCGTAAGCCAGAAAAGAGGTGGTTTCTGGACGTATTCCTTCCTGAAGTCGGTTTTCTG -GCGTTGTTGTTAAGTCTCGGGGTCAACGTGTTGACCCCGTTGACGGCCTTCGCGGGAGTGCGGTTGCGCT -GGCCTGCCATGATGCGACTCACTTGCATCGGCATTCTGGCGCAGTTCGCGCTCCTGCTGCTCGCCTTTGG -CGTACTGACGTATTGTTTTCTCATCAGCGATTTCTCGGTCATTTATGTCGCGCAACATAGCTATAGCCTG -CTGTCGTGGGAACTCAAGCTGGCAGCGGTGTGGGGCGGCCATGAAGGTTCGCTGCTGCTTTGGGTGCTGC -TGCTTTCCGCCTGGAGCGCGCTGTTTGCCTGGCATTATCGGCAGCAAACCGATCCGCTATTTCCGCTGAC -GTTAGCCGTTTTATCTCTCATGCTCGCCGCACTGCTACTGTTTGTGGTGCTGTGGTCCGATCCCTTCGTG -CGGATATTTCCACCAGCAATCGAAGGCCGCGATCTCAATCCGATGCTGCAACATCCCGGTCTTATCTTTC -ATCCACCGCTGCTTTACCTTGGCTATGGCGGTTTGATGGTAGCGGCGAGCGTGGCGCTGGCGAGTCTACT -GCGCGGCGAGTTTGATGGTGCCTGCGCCCGAATTTGCTGGCGCTGGGCGTTACCTGGCTGGAGTGCATTA -ACGGCGGGGATCATCCTCGGTTCCTGGTGGGCCTACTGCGAACTCGGCTGGGGCGGCTGGTGGTTCTGGG -ATCCGGTGGAAAACGCCTCTTTATTACCCTGGCTTTCTGCCACTGCGCTGCTGCACAGTTTGTCCCTGAC -ACGCCAGCGGGGGATTTTTTGCCACTGGTCGCTGTTGCTGGCGATAGTTACTCTGATGCTGTCGCTGCTG -GGCACCTTAATTGTCCGTTCTGGCATTCTGGTTTCGGTTCATGCGTTCGCGCTGGATAACGTCCGCGCCG -TGCCGTTGTTCAGCCTGTTTGCACTGATTAGCCTTGCGTCTCTGGCTCTGTATGGCTGGCGAGCGCGGGA -CGGTGGCCCGGCGGTGCATTTTTCGGGGTTATCGCGGGAAATGTTAATCCTCGCTACGCTGTTGCTGTTT -TGCGCAGTGCTACTGATCGTGCTGGTGGGAACGCTTTATCCGATGATTTACGGCCTGCTGGGCTGGGGAC -GCCTCTCCGTTGGCGCGCCGTATTTTAACCGCGCGACGTTACCGTTTGGTCTGTTGATGCTGGTGGTGAT -TGTGCTGGCGACGTTTGTCTCTGGCAAACGCGTGCAGCTTCCGGCGCTGGTAGCTCATGCGGGCGTGCTG -TTATTTGCCGCTGGGGTCGTGGTCTCCAGCGTCAGCCGTCAGGAGATCAGCCTGAATTTACAGCCGGGTC -AGCAGGTGACGCTGGCAGGATACACCTTCCGTTTTGAGTGCCTCGATCTACAAGCCAAAGGCAATTACAC -CAGCGAAAAAGCGATAGTGGCACTGTTTGACCATCAGCAACGCATTGGTGAACTGACGCCGGAGCGGCGT -TTTTATGAAGCACGCCGTCAACAAATGATGGAACCGTCAATTCGCTGGAACGGCATCCATGACTGGTATG -CGGTCATGGGGGAGAAAACTGGGCCGGATCGTTACGCTTTTCGTTTGTATGTACAAAGCGGTGTGCGCTG -GATCTGGGGGGGAGGATTGTTGATGATTGCGGGCGCATTGTTAAGCGGATGGCGGGGGAAGAAGCGCGAT -GAATAAAGGGCTTCTCACGCTACTGCTGTTATTTACCTGTTTTGCGCACGCTCAGGTCGTAGACACCTGG -CAATTCGCCAATCCGCAACAACAGCAACAGGCGTTAAATATTGCCAGCCAGTTACGTTGTCCGCAGTGCC -AGAATCAAAACTTACTGGAATCCAACGCGCCGGTGGCTGTCAGTATGCGCCATCAGGTTTACAGCATGGT -GGCGGAGGGGAAGAACGAAGTCGAAATCATTGGCTGGATGACCGAACGCTACGGAGATTTTGTTCGCTAT -AACCCACCGTTAACGGGTCAGACGCTGGTGTTATGGGCGCTGCCAGTGGTGTTGTTACTGCTGATGGCAC -TGATCCTCTGGCGAGTGAGGGCGAAGCGATGAAACAGCCCAAAATACCGGTGAAAATGCTGACAACACTC -ACGATATTGATGGTATTTCTCTGTGTCGGCAGTTATCTGTTAAGCCCAAAATGGCAGGCGGTACGTGCGG -AGTATCAGCGTCAGCGCGATCCGCTACATCAGTTTGCCAGCCAGCAAACCCCGGAAGCGCAGCTTCAGGC -ATTGCAGGATAAAATCCGCGCTAATCCACAAAACAGCGAACAGTGGGCGTTACTGGGCGAGTACTATCTG -TGGCAAAACGATTACAGCAATTCGTTGCTGGCGTACCGTCAGGCGTTGCAACTACGTGGTGAGAACGCTG -AACTGTATGCGGCGCTGGCGACGGTGCTTTATTACCAGGCCAGCCAGCATATGACCGCCCAGACTCGCGC -AATGATCGACAAAGCCCTCGCGCTGGACAGTAATGAAATCACCGCCCTGATGCTGCTGGCTTCCGATGCG -TTTATGCAGGCGAACTACGCGCAAGCCATCGAACTATGGCAAAAAGTGATGGATCTCAACTCACCGCGAG -TTAACCGAACACAGCTGGTTGAGTCGATTAATATGGCGAAATTGTTGCAGCGGAGATTGGATTAATCATC -TGGTGATGAAGATTATGTCATTGAGCTGCATAAAAAATAATCGAATGAACATATGCCAAAAATAATCACT -AATCAGTATTATTGCAGATTAAACAAATAAAAATCTTTCCATAACAAATGGTTATTCATTAATCCTGCCA -TAAACTCGCGTTATTATGCATTAATGCAGCGAAAAGCTCTGTTGTTAAAGGGTTGCGCAACATACCGCGC -AAATGATACTGATCATAAGCGTTAAAAAAATCTACAAACCAACGCAACACAATTCATGCCCTGGCAGTAT -GTCACGTTCTCGCGTTTCTGAACGGGGAACGGCGCTCCATTGAGGAAGTCATTCATATGAAAAATATAAA -ATTCAGCCTGGCCTGGCAGATTCTGTTTGCTATGGTGCTGGGCATTCTCCTGGGAAGCTACCTGCACTAC -CATAGCGACAGCCGCGACTGGCTGGTCGTCAATTTGCTCTCTCCGGCGGGTGATATCTTCATCCATCTGA -TTAAAATGATTGTTGTGCCGATTGTGATCTCCACGCTGGTGGTGGGTATCGCGGGTGTTGGTGATGCCAA -ACAGCTCGGGCGTATTGGCGCGAAAACCATTATCTACTTCGAGGTGATCACCACCGTCGCCATCATTTTG -GGGATCACTCTGGCGAACGTCTTCCAGCCCGGTGCCGGGGTGGATATGTCGCAGTTGGCGACCGTCGATA -TCTCGAAATATCAGAGCACTACGGAAGCGGTACAAAGCAGTTCCCACGGCATTATGGGCACGATTTTGTC -GCTGGTGCCGACGAACATTGTGGCGTCGATGGCGAAAGGCGAAATGCTGCCGATCATCTTTTTCTCGGTG -CTGTTTGGTCTGGGGCTTTCTTCCCTGCCCGCGACGCATCGTGAACCGCTGGTGACCGTGTTCCGCTCCA -TCTCTGAAACCATGTTTAAAGTGACTCACATGGTGATGCGTTATGCACCGGTGGGTGTGTTTGCGCTGAT -TGCGGTGACGGTGGCTAACTTTGGTTTCTCGTCTCTGTGGCCACTGGCGAAACTGGTGCTGCTGGTGCAT -TTCGCCATTCTGTTCTTCGCGCTGGTAGTGCTGGGAATTGTGGCGCGCCTGTGCGGGTTAAGCGTCTGGA -TCCTGATTCGTATTCTGAAAGATGAGCTGATTCTGGCGTACTCCACTGCCAGCTCTGAAAGCGTGCTGCC -GCGAATTATTGAGAAGATGGAAGCCTACGGAGCACCGGTGTCGATCACCAGTTTCGTGGTGCCGACCGGT -TACTCTTTTAACCTTGATGGTTCGACGCTGTATCAAAGTATTGCCGCTATCTTCATCGCGCAGTTGTATG -GCATTGACCTGTCCATCTGGCAGGAAATCATTCTGGTGCTGACGCTGATGGTGACCTCGAAAGGGATTGC -TGGCGTGCCTGGCGTGTCGTTTGTGGTGTTGCTGGCAACGCTGGGTAGCGTAGGTATTCCGCTGGAAGGT -CTGGCGTTTATTGCTGGTGTTGACCGTATCCTCGACATGGCGCGTACTGCGCTGAACGTGGTGGGTAATG -CGCTGGCGGTGCTGGTGATTGCCAAGTGGGAACACAAATTTGACCGTAAGAAAGCGCTGGCTTATGAGCG -TGAAGTGCTGGGCAAATTTGATAAAACTGCGGATCAATAATTGAAGATTGCCGGGGATATCCACCCGGCA -ATGTGTGAATGCCTGATGCGACGCTTGCCGCGTCTTATCAGGCCTACGCCAGACAGCGCAATAGCCTGAT -TTAGCGTGATTTTGTAGGTCGGATAAGGCGTTTATGCCGCATCCGACATCAACGCCTGATGCGACGCTTA -ACGCGTCTTATCAGGCCTACGCCAGACAGCGCAATAGCCTGATTTAGCGTGATTTTGTAGGTCGGATAAG -GCGTTTACGCCGCATCCGACATCAACGCCTGATGCGACGCTTGCCGCGTCTTATCAGGCCTACGCCAGAC -AGCGCAATAGCCTGATTTAGCGTGATTTTGTAGGTCGGATAAGGCGTTTATGCCGCATCCGACATCAACG -CCTGATGCGACGCTTAACGCGTCTTATCAGGCCTACGCCAGACAGCGCAATAGCCTGATTTAGCGTGATT -TTGTAGGTCGGATAAGGCGTTTACGCCGCATCCGACATCAATGCCTGATGCGACGCTTGCCGCGTCTTAT -CAGGCCTATCTTAACCGTTGGTTAATTTTTCAAACTCTTCACACCCGGTATCAAACCCTTCCATACAGCT -CAGGTTCAACCAGTGCAGCGCCTTTTGCTTGTTCTTCTCGATAAAACCTTCTTCACCGTTTAAGAACATC -ATTCCCGCCCAGTACTCGGAATAACCGGTTCGGGAAATTGCAGAGCTGCGTTTGAAATACCAGGTTGCCT -TGTCATCGTCGGCCTTAATGCCCACGCCGTTGGCGTAAATCAAACCAAGCAGCATTTGGGCATCGACGGC -AGAGTCGTTCTCCAGATCTTCCGAGGCGTTTTCTAACAGCGAAATTGCCTTTGGATAATCCGGTTTACCC -GCTTGAGTATTTACCAGAATATGCGCCAGCGTTACTTCACCTTCTTTACTGCCCGCTTGCGCCGCTTTCT -CTGCAAGAACTTTTGCTTGTGGATAGTCCAGACTGACCGGATTGGTGATTTTGATCTGCGCCAGCAGCGC -GCAGGCATCAGCATCACCGCTGTCGGCGGCTTTCTGTGCCCAATATTCGGCTTTGCTCAAATCGCCGGAG -CTAAACCAGCTGTCGGCAAGAAAATATTGTGCGCGTCGGTCCCCGGCCTCTGCTGCCTTTAAATACTGGC -TGCCAGGCTCGGAGTCGTTGGCGTGGGCAAAGAATGTCAAAAACAACATCAATGCGATAATTTTTTTCAT -TTTGATAATACGATTGGGTAGGGAGTAACCAGTATAAAGAGTTCGAATGGATAAAAAAACAGCCTCCGAA -AGGAGGCTGTAGAAAGGACGGTATTACGCCAGTGCCGCTTCGCGCAGGCGAGTTTTCAACTTGTTGTACT -CGTCAATCACGTACTGCTCGGCGGCGCGCTGATCGGCGATCGGCTCGACGCGAACGGCGCAGTATTTGTA -CTCCGGCGTTTTCGTAATCGGGCTTAAGTTTTCGGTAACCAGCTCGTTACAGGCACCAATCCACCACTGG -TAGGTCATGTAAATCGCCCCTTTGTTCGGACGATCGCTGACCTGCGCACGGGTGATAATTTTGCCTTTAC -GCGAGTGCACCCAAACCAATGCCTCATCTTCAATACCCAGACGTTTGGCGTCTTCGGTATTGATTTGTGC -GTAGCCAGGTTCATCAGCCAGCGCCGCCAGTGCCGCACAGTTACCGGTCATCGAACGGCAAGAGTAGTGA -CCAACTTCACGCACCGTTGACAGTACCATCGGGTACTCGTCGGTGAGTTTGTCGATTGGCGCTACCCAGT -CGCAGGTGAAGAACTGCGCCAGACCGTTCGGGGTATCAAACTTCTCTTTAAACAGATAAGAAGTCCCCTG -ATCGGCATCTGAAGTATCGCGGCAAGGCCACTGAATGAAGCCCAGTTCGCCCATTTTCTCGTAAGTCGCA -CCGTAGAAATCCGGGCACAGATGACGCAACTCATCCCAGATCTCCTGGGTGTTGTTGTAGTGCATCGGAT -AACCCATACGGGTGGCGATTTCACTGATGATTTGCCAGTCCGTTTTCAGATCCCATTTCGGTTCAACCGC -CTTGAAGAAACGCTGGAAGCCACGGTCAGCCGCAGTAAACACGCCTTCATGCTCGCCCCACGACGTTGAC -GGTAAAATAACATCCGCCGCCGACGCGGTTTTGGTCATAAAGATGTCCTGAACGATAACCAGTTCCAGAT -CTTCAAAGGCTTTACGTACTGCCGACAGCTCCGCGTCAGTTTGTAGCGGATCTTCGCCCATAATGTACGC -GGCACGCACTTCGCCATGCGCTGCGCGGTGCGGCAGCTCGCTGATGCGATAGCCGGTATGCGCTGGCAGG -CTTTCCACGCCCCAGGCTTTGGCGAATTTCTCGCGGTTAGCCGGATCTTTCACGTACTGGTATCCCGGAT -ACGTATCCGGCAGCGCGCCCATATCGCAGGCACCCTGAACGTTGTTCTGACCACGAACCGGGTTAACACC -CGCATGCGGCTTACCGAGGTTACCGGTCAGCATCGCGAGGCTGGTCAGAGAACGCACGGTTTCCACGCCC -TGGTAGAACTGGGTTACACCCATGCCCCACAGGATGGCGGCGCTTTTCGCCTGGGCATACATCCGTGCCG -CCTGACGAATCTCACTGGCGCTGACGCCGGTGATATCTTCAACCGACTCCGGCGTGTAGCCTTCAACGAT -TTTACGATACTCTTCAAAGCCTTCTGTACGTGAAGCGACGAACGCTTTGTCGTACAGATTTTCTTCAATA -ATGACATGGCCCATCGCATTCAACAGCGCGATGTTCGAGCCGTTTTTCAGTGCAATGTGCATGTCAGCAA -TGCGCGCGGTTTCAATTTTGCGCGGATCGCAGACGATAATTTTCGCCCCGTTACGTTTAGCGTTAATTAC -GTGATTCGCCACGATTGGGTGGGAATCCGCCGGGTTGTACCCGAAAACGAACACTAAATCGGTATTATCA -ATTTCGTTAATAGCATTGCTCATTGCGCCATTACCGACCGATTGGTGCAGACCTGCAACCGATGGGCCGT -GTCAGACACGAGCGCAGCAGTCAACGTTATTGGTACCAATAACGGCGCGCGCAAATTTTTGCATTACATA -GTTGGTTTCGTTACCCGTACCACGCGAGGAGCCGGTCGTCTGGATGGCATCCGGACCGTACTTCTCTTTG -ATGGCGCTCAGGCGCTCGGCAACGTAATTCAGTGCCTCATCCCAGGAAACAGGTTCGAGTTTGCCGCCAC -GCTGGCGACGGATCATGGGGGTTTTCAGGCGCGGGGTCAGGATCTGGGTATCGTTAATGAAGTCCCAGCC -ATAATAACCCTTCAGACACAGGGTACCCTGGTTGGTTTTCCCCTGCGCTGCCTCCGCCCGGACGATTTTG -CCGTTATCGACGACCAGGTTGATTTTGCAACCTGATGCGCAATAGGGGCAAACCGTGACGACTTTTTTCA -TCGGTCTCGCTCCAGTTAATCAAATCACGCATACGCGCTCTCGACTACAGTATGCATCTTTTATGCCACA -TTTTATGTGGGGTCATTCCCTGATATTACGGGCACTATTTATTCAAAACTCTGACGAAAAACAGGCTGTC -GTCAGTTTTGACGTGACGAAACGAAATACCGCGTGACAGCCATCACGCGGCAGACATTTTATTTTTTCTC -GACGACGGGACCTGCCTGATACCCGCCGCCCAGCGATTTCATCAACTGAATGCTTTGGATCACCCGGCGG -CTGTCCAGCATCAGTAATGACATCTCTTCGGCAAGCACTGGCAACCGGGCTTCGGTGGCCTGTAAGCGGC -TGGTTAAGCCGCGCTGATAGGCGGCCTCGGCAGCGCGCTGGGTAAAGCGCGTGGCTTCCACGCGTTCAGC -CTGCATTTCTCGCTCGTCGTTGAGCGTTTGCAGACGCGTGCCGTTGACGGCAACGTCACGCACCGCGTTC -AGTACTGACTGGTTGTAACGTTCAATCATCATGTTGCTGGCGGCGCGCGTGCCTTCGAGATTGGCATTCA -ACCGTCCACCGTCAAACAGCGGCAATTTCAGACCCGGGATGAAGTTGAACTGGCGACTGGTTTTTTTGAA -TAAGGTATGCAGATGGATGGAGTCCAGACCGAAAAACGCTTTGATATCAAAGCTCGGATAGAACAACGCC -CGCGCGGAATCCACCTGATCTAATGACGCCTGAACATACCAGCGCATGGCTTGCAGATCCGGGCGTCTGG -CGAGCAACTCATAAGAGAGTGTCGCCGGAATGCCGGTCTGGACTTGCGGTAATGCCACCGGTCTGATCTC -CGGCATATCGCTGGCTCCCGCGCCAATCAATGCACGCAGAGATTCTCGCGTTTCGGTGATTTGCCCTTTG -ACGGCAACAATTTGTTTATCGACCGCCAGAATCTGTGCCCGCGCGCCGTGGAAAGGCACTTGCGCTTCCA -GACCGTGCGCCACTTTACTCTGGTGCGCTTTCACCGCGTAATCAATCACATCGTGAGTTTGTTCTAACAG -ATCGAGCATCTGATAGCTGGCCTGCATACTGTAATAAAGCTGCGCTACGCCCGTGGCCAGCGATAGCTCT -ACTGCTGCGGTTTCTGCCAGCGCGGCATTATGCGCGCCAATGGCGGCGGCAACCGCTGAGCGATGCACAC -CCCACAAATCAAGATCCAGTCCGGCAAACAAACCTACTGTGGCTTCCGTATAGTACGGCCCGTCCATACC -CAGTGCTGGCGCATCCATTGAATAAGGGCTTAAAAAGCCGTTCGCCGAGACACGTTGGCGGTTGAGCATC -CCTAACGCTGCGACCTGTAATTGTGAACCGGCATCTAACAAATCGGCCTGGGACTGCGCTTTTTCTTCCC -GCAGTTTCGCTTCGGCGAGGGTGTGTGAACCACTTAGCGTCCGTTGGATCAGCGCATCCAGCTGCGGGTC -ATTGAGTTGTTTCCACCACTGCGCCTGCGGCCAGCCGGAGCTGGCAAGATGAATATCGTCGGCCAGTTTG -ATTTGTTCCGGTTTGAGCTGTTGATGAGGTGCAGAATCCTTACGTACCAGGGCACAGCCGGAAATCAGCG -TCGTGCTGCCGAGAATGCTGCACAACAGCAGACGTGAAAGTTGACGATTGATCATTGCGTGGCTCCTTGT -GCCTGTTCCGTGGCGGGCGTTAATGCCGGGGCTGTCCAGTCTGGCAAGCGGGCGAAAAGCTGGCAGACGT -GTTGCTCCTGTTTTAATAAGGTGGGCAGGATGGCCTGAGAGGCGGGTGTCTCTTCAAGCGTTATTTGAGG -AGAACGGCTGAGTGCGGTTGCCAGACCGGCAGCGTATTTCTCCAGGGCGTCGGCAAACTGACCTGCTCTG -TCCGGCTGTAGTGCGTTATCCAGCGCCTGCGCCGAGTTCCAGGTGGCATCCCAGGCGTGAAGAAGATCGC -GGCCCTGACGAATAACCGTTTGCGAACGTTCAATCAGTAATGCGCGTTCTTCGCTGTCCAGTTGACGCTC -CAGCGCCACGCGTTGGCACATCTCTTCACAGGCATTAAACGCCGCATGCAGACCGATACGAATTTGCAGA -TAAGTGCGCAGAGCCGTGACTTCCTGCTGGCGTGGGATCCGCATTACTTTACTTAACATACCCAGCGTGC -CAGCCAGTTTTTGCGGCAGTGTGCGCGCTTCACTTTCAGGCCAGACAAAGGTGTAAATCACCGCGGACAC -CACGGTACCAATGATGATACCCAGGGCGCGATCGCGAATTTCCACCAGGTCGTACACTGGGCCAAAAACG -TTTTCGAGCGTGGCGAGCGCGAAGGTGACCACCATCTGTGTGCCGATATAAGAAGAGCGTTCAGAGCTGG -TGGCAATCCATGCGCCCAACAGGAAAATCGGTGCCAGCACAAACAGCAATTCGACAATATTGTCCAGCCA -GGGCATGACCAGTAGCGTGAATAACAGCGCCAGAATCGCGCCGCAAAAGGCCCCGCCAAAACGCAGCACC -ATCTTCTGGTACGACGAACCGACATTTGGGTTAGCGACGATCACGCATGTCAGCATACAGGTGTGAATGC -CTTCCCAGTCCACGCCGCTGTAAAAGGTGTAACAGATCAAACAGGCGAGCAGCGTTTTTACCGCGTAGCG -CATATAGTCTGGATTGGTAAAAGCATCGGCGGCCATTGATGGCGGTTTGGCTGCGGGCGTTGGCGGCGTA -TTCGGGTCCATCTGACCCAGTTGTAACAACGTCTGGCAGATATTCTCCAGGTTACATTCCCGTGCCGCCA -TCGCTTCACTTTCACTGATCCGCCAGTCGCTTTGCCAGCACTGACCTTCAGCAACGGCATGCTGCAGCTT -GTTGATTTCTGAAGCTAATTTTTGTCGGAATTCAATAATTGCCTGAGAATCAGCAAAAGAGGTGGGATCG -TAGCGATTCAGCGTCGAGTAAATGTAGGTTACCGTTGCCACGCAGCTTTGCCACCATGCGTTTTGAGTTC -GCCAGTTGGCATCGTCCGCGAGGCAAAAGACATTGAGTTTTTGTAGCGCCAGCGCCTCTCTTTCAATCCG -CGTTTCGGGTAGCGGTGCGAGGCTGTCTGTCAGGTGACTAATGGCATCATCAAGCCGATCATTAAGCGCC -TGATGCATTTGCGAAATGGCACGACTGGGAAACCACAGCACGCCGATTAACGTCATCAGCAAGGTTGGAT -AGAGGCCAACAACGATACACCACAGCGTTAAGCGCACGACCACTTCCGGATAGTCGAGCATGGCGGGGAA -GGTTTGCCCGTAAATAGCGACAATGGCGACGGCGAAAAAGACCAGCCCCAAGCGATGGGTGCGCATCAAA -AACATGCAGCCCATCAGGATCGGTCCGGCGATGATCAATCGGATCAACGGTTCGCCGTATGACCATTTGT -AGATCAAAAACAGGCTGCCGATCTCCAGCACCGTGGCAACCACAAACAAGATCGCGACAAATTTGGTGTA -AAACGCGTTCGACTGAATACCGTAAAACAGCACTGCCAGCGATAACGCCACAAAAGGGATCTCAAAGGTC -ATCGAGATCAGAATCACCAGCAGGCAGCCTACCCAGAGTTGCACGGTCTGCGGCACGCGACCTGGTCGCC -GCTCGCTTAACTCTTCATGAAAGAACGCCAGCAGCCTGACCACCGGTAATGGCAGGGAGTTGAGCGCGCT -CATTATTGCGGCTCAAGATTAGCGACTGCCGAAGCGCCGATGCGGAACATTTCCGGGTCAGGTTTATCGA -CCATGATTTTGACCGGAAAACGCTGGGCAACGCGGACCCAGTTAATAGAACGAGACACTTTCGGCAGGCC -GCCCAGCACCAGGCCGCCGTCATCCGGTAGCACGCCGTAGCCAATCGAATCCACTTTACCCTCGAAGGTT -TTGCCGCTGTCACTCATCAGGCGAATCGTTGCGGGTGTACCTGAGCGAATATTTTTCAGATCGGTTTCGC -GGAAGTTGGCGATCACATACCAGTGACGAGTGTCGATTAGGGTAAAAATAGGGCGCATGGCAGAAGCAAA -TTGCCCGACGGAGGTTTTGAGGGAAATGACCCGGCCATCAAACGGCGCGCGAACGGTCGCCATTTCCAGA -TGCAGTTTGGTCAGGGCAATATCCGCTTCGACCGCCGCACGCTGGGCAACTAATGCATCCACGCCGCTGA -CGGCGCTGGCGGCTGACTGCGCCTGTAACAATACGGCATTAAGATCCGCTTCTGCGGCGCGCTGCGCCGT -TCTTGCACGGTCAACATCTTCCGCTGAGACAAAACCTTCTTTCAGTAATGGCTCGGTGCGGCGTAATGTA -TCTGTGGCCTGTTTCGCGGCGGCACGGGCTTTTTCTACCGTGGCATTAACCGAGTCGGCACCAAACTGTT -GCGCGTCAACGCTACGCTGGGTGAGCATAATTTGCTTATCCAGCGCCGCGAGGGAGGCTTCAGCTTTCGC -CAGATTGGCTTCGTACGGGCGCGGGTCGATGCGGAACAGCAAATCGCCCTGTTTGACTGCCTGGTTGTCG -GTGACCGCCAGTTCTACAATGCGGCCGCTGACTTCCGGTACCACATCAATGGTATCTGCTGACGCGTAAG -CGTCATTAGTTGATGGCGCACTGTCTACGCGCCAGATAACGAAAACAAGGGCAACCAGCGCCAACGCAAC -CACTAACAGAGCAGGGAATTTACTGCGAGGAGCTTTTTTCGGCGTACTTTCCATGAGCGCGTCTCAAATA -GATTAGAAAAATGCCAGCCAGAACAGCATGGCGTAGAGAGCAAAAAGGGCGGTATAAATAATTCCGACAA -ATGCCAGATTGATATTTGCCCGCTGAATAACTCGCCTCGTGATGAGCGTCAAAATAAGGCTGGCAATGGC -GCAGAAAAACCAGCTGGGATAATAAGCGCCGATCACCGGGATTGCCGGAGATAATGAGCATCCCGAAACC -ATGAAGACGGGAATTATCCAGGCTGTTTTTTTGAGTTGCATCGCCATGCGAGAGAGAACTGTTGGCATAT -TAAATACATCCTGTCTGCTGCGAACAATATCTGTAGTGAATATCAATATCCATTGAAGGCGTCAGTATGG -CTATTTTCTTGATGAATAAAAATAGCTTTATTCAGCCACCGCATTCATAACTTATATATTTTATTTATTA -ATTGGCTGTATATATTTTTAAAATAAATACTTTTGGGGGCTTCAGCGCCCCCAAAAGCGAGTGACATTAA -TTTGGGGTTACGATATTCACCCACAAATCGAAATTATCCAGACAGGCGATAATTTCTTCCAGTTTCGCGC -CATTGCCAATAATTTTGGCTTTCTTCGCTTTTACCAGATCCGCCATTTTGGCTTGTCCGGTCAGCACGGC -GTGCAGATCTTCACGGCTGATGTAGAAAGAGGCGTCGGCTTGCGGTTGCAGCGTTTTCCGGTAGTTAAGC -ACGCTATCGTTCAGCGTCAGGTTGAGGTTATCGCCGTTGCTCATATTGAAGTTCAGGCTGATATTTTTAC -CCGCAGCTTTCGCGCTATCGAGGCGAACGGCCATAAAGTCGAACAGCATTTCGACCGACATCCCGCGAAT -GGTGTCCGGGGAACCGGTGGTGCCGTGGCTGAACTTATGCACCCCTTCGCGCAGCTCTTTCGCGCCGGTC -AGGTAGAAACCGCGCCATGTGGCGGACTCGGCCTGATAGCCCAGCTGTTCAAAGTTATTCGCTTGCAGAT -TCTTCGCGACCTGGTCACCCGGGTTGGCGGCAATCACCTGTTTCAGCAGTTCTGCCGACCAGCGGTAATC -ACCTTGCTTGTTCGCTTCTTGCGCCAGGTTGATGACACGGGCAGAACCGCCCAGCGCCTGCACGTAACGT -TTACCCATCTCCACCTGACCATACGGATGCAGGTTAGCCGGGTTACCGTCGTAATAGCCAAGATAGAAGT -TATACACCGCGCGGGCGTTGTGGCTGACAGAACCGTAATAGCCGCGGCTGGCCCAGTTATTGGCAAGTGC -AGGCGGCAGCTTAATCATGTCGCCGATTTCATTCATGGTGTAGCCCTGGTTCGCCAGGTGCAGGGTCTGG -TCGTGAATGTACTTGATGGTATCGCGGTATTTACCAATATAATCATTGATATGCTTATTGCCCCAGACCG -GCCAGGTGTGCGGCATAAACAGCACTTCCGCGTCGTTACCCCACATATCCAGCGTTTCGTTCAGATACTC -GGTCCACTTGCTGGTGTCGCGGGTTTTCGCGCCGCGCAGAGTGTAGAAGTTGTGCAGGGTATGCGTGGCG -TTCTCGGCGGTACACAGGGCTTTCAGGGCCGGAATATAGAAGTGCATTTCGGCTGGCGCTTCGCTACCTG -GGGTCATCAGGAAGTCAAACTCCAGGCCGTCGATAATCATCTTCTCGCCAGTTCTGACGATAGTTTTCGT -CGGTGCAATAATGCTCGGGTCGCCCGTTGCCAGCGTCACGCCAAGGCCATTACCCACATTGCCTTGCGCG -TTGTGCGGCAGTAACAGACCGTAAGAGTAGAGCGCACGGCGGCTCATGATGTTACCCGCCAGCACGTTTT -CGCTGATGGCTTCGTCCATAAAGCCTGCAGGGGCAATCACCTGAACTTTGCCGGATTTAACATCGGCTTC -AGAGATAATGCCTTTCACGCCACCATAGTGGTCGGTGTGGCTGTGAGTGTAGATAACGGCAACAATCGGT -TTTTGCGGACGATGCTGGAAGTAAAGGTCAAGTGCGGCTTTTGCGGCAGGCGGCGTCACCAGCGGGTCGA -TAACAATAATGCCTTTCTCGCCCTCAACGAACGTAATGTTAGAGATATCCTGGCCGCGCACCTGATACAT -TTTATCGGTGACTTTGAACAGGCCAGAAATACCGTTGATTTGCGACTGACGCCACAGGCTGGGGTTTACG -GTTTCCGGCGCTGCGGCATTAATATCAAATTTGTAATCGTCCGCGCGGTAGTAAACTTTACCGTTCGCAT -CACGCAGAATACCTTCATCCAGCAGCGGGGCGATAAATCCACGCTGGGCATCGTCAAAATCCTGACGATC -GCTAAACGGTAATGATTTGGCGTAATTCTGATTAACCTGTTGGGTATATTGAGTGGCGGCTTTCGCTTCC -TCTTTCGCGTTAGCGGTATTTACCATCATGCCGCTGGCGGCAGTTAACGCAATAACAATCCTGCTCAAAC -GGAATAACCGAGAGTTATTCATATAAATCTCCATTTATCATTTATGTCGTAAATATGTAATCCATGCAAA -ATACGTCATTTAAAGCTGGCGTTATCATAATTGGGAAATTGCGACTTTAATAAGTGGAAGTGTGAGCGGA -ACGCGCCATTTTATTAGGCATTTGTGCTGAAGAGGGAAAATTACAGTAAAACTATCATTGCAGAAAATAA -TATGAGTCGTTTTATGTGTTTATTATATATATTGTACCTGTCGTTGGCACAGCGGGACATTGCGCTACTG -TGCCAACGTTTTACTCATGGGGCTTTAGCACAGAACTGTGGCAAAAAACGTTGATGCGCCAATATTGCTG -CACCCTGAGCGCCATTAAAGTCAGAAGATGAGGCGGCAATAAAGCGCACGACCTGATGCGGCAGTGGACG -GCGCAGGTACTTTTGGGTCATGGCAACGAGAGTCTCGCGTGGGAAGGCGGGCATATCCATCACGCCACCG -CCCAGGATCACCGCATCGGGATCGAACAGATTAATGCTGGTGGCAATGGCCCGTGCCGCGTTTTCAAGCA -GACTCTGGACGAAAGGGGCGTTTTCCGCATGGACGAAAAGATCGCGCAATGGGTAATTTCGGGGCTGTTG -TTCGTACCAGCGTCTTAGCGCCATTCCAGAGCAATTGGTTTCCAGGCACCCAGGATTGCCACACGCGCAG -TGTTGGGTCATATCTCCCAGGGGGATATGACCCAGTTCGCCTGCCACACCGTGTGCACCCGTCCACGGCG -CACCGTTCATCCACACTGCGAACCCCATCCCCGTACCGAGATAGGCCGCCAGAACCAGTTGTTGCGTAAG -GCGGTTTTCTACTACGTCCCAGGAGAGTTGCAGGTTAACGTCGCGGGAAAACTCAACCGGACAATTCAGC -GTATTTTCGAGCTTATCGGCGAGATCATATAAATCCGCCGCTGTTAACGGCAGGTTAGGCGTAGAAATAA -TGGTGCGTTTATCTTTACTGACCAGCGCCGGAAATCCCATCACCAGACCATGACAGCGAGCGTTAAAGCG -CCTGAGTTGCTCGTCAATCATTTCGCCGATACCCGACACCAGGCCGGGAGCAATGACTTCTGCGGTCCGC -TTTTTTTCGCAGTGTAGCGTTTCACCTTCTGCTGTCCGCAGACAAAAGCGGATATGCGTTGCCCCCATAT -CCACGCCCGCTACGACGTTATGCTGTTTTTGCATGAGGCTGTACCTCGCTTTTTGCAGCCAGAATCTGCG -CGGTCATAATTCTCCATGCTTCGTCGATATTTTCCGCATGATTAAACAGGCCGGAAGTGCCGACGATAAA -GACATCCGCCCCTGCCGCCATCAGTTTTTCGTAAGTTGCCTGGTTGCAGGAACCGTCCACCTCAATTTCG -TACTCCAGACCTTCTCGTTCACGCCATGCCTTCAGTTCGGCAAGTTTATCCAGCATTTCAGGAATGAACG -GTTGTCCGGCAAAGCCGGGATCGACAGTCATGACCGTAATTTTATCGGCCTTATGGATATAGTATTTCAT -GGCCTCAACTGGCGTCTCCGGGTTAAGGATCAGCCCCACTTTCATGTCATGACGGCGGATTTCATCAATC -AGGCGGAACGCCTGGCCGTTGATGGTTTCCGGATGCAGAGTGATGAAATCTGCTCCCGCACGCGCCAGTT -GAGCAATGTAATCCTGCGGCCGCGTCACCATCAGATGACAGTCGAGCGGTTTAGTTGCCAGTTTTTTAAC -CTGACTTACGAAGAACGGTGAGAGTGTCAGATTGGGGACAAAGTGACCGTCCATGATATCGATGTGGAAG -TAATCGGCATGGCTGTCGATAAATTCGATCTGTTCTTTAAATTTCAGCAGATCCATACACATTAACGAGG -GGGAGATTTTCATGTTCAATTCCTTACTTACTGATAAGACGGTCAAGGGCGACAGCCGCGATAATTAATC -CGCCCATCACCACCAGTTGGTAATAGGTTTGTACCTGCAAAATATTCAGACCGTTGTTGATGGTGCCGAT -GATCAACCCGCCAATCACCACAGAGAAAATGCGCCCCTTGCCGCCGAAGAAACTGGTGCCGCCAATGATG -GCGCTGGCAATGGCATAGGTTTCAAAACCCATACCGGCAAGCGGTTCTGCGGCACCGAGTCGTGCAGTTG -AGACGACGCCTGCCAGACCTGCACAAACACCGGAGATGATAAACACCACCAGGATGTGGAATTTCACGTC -AATCCCGGAATAGAACGCCGAATTTTTGTTGCCGCCCAGTGCGTAGATGTTGCGCCCGAGCCGCATACGC -GTTGTCAGAAACCAAAGGATGAGCGCGACAATTAGTGAGAAGATAACGGGGACAGGTATCCCAATTACGC -TGGCGGCAAAGAAGTTCACGAAGTCAAATGAGAAGCCGTATACCGAGTTGGCATCGGAGATCACCAGCGT -GATCCCACGGAAAATCGCGTTGGTGCCAAGGGTGATGATGAACGGGTGTAGCCCCGTCCAGTTGACCAGG -CAGCCGTTGATCGCCCCCAGTGCGCCGCCAACCAGTACACCGCCAATCATCGCTGCGAGAAACGGGTCAA -CACCTGCCAACATCAGTTTGGCGGTCACCATACCGGAAAGCGCCAGAATCGCGCCAACCGAGAGGTCGAT -ACCAGCGACCAGGATAGCGAAAAACTCGCCCATGCCGATCAATACCGTCACGGAGCTTTGAACAAAAATC -TGGGTAATATTATTGGTGGTCAGAAAATATTCTGGTGACAGCGAACCAAAGATGGCGACGATGATCGCCA -GGATAAAAAAGGTGCCGTATTTATCCCAGAACAGCGCAAAGTTGAACGGTTTCTTCTCGCTCGCTTCGCT -TTTTACTCTTGTGGTAAAGCCCATGCCATAATCTCCTCTTCGCTCATGTCATCGCGATTCGTCAGGATTT -GCGTCAGTCGTCCTTCGCAGAACACGGCGATGCGGTCGCAGACGGTGATAATTTCAGGTAGTTCAGATGA -CACCATCAGGATGACTTTTCCGTCGTCCGCCAGTTGGCGCATCACTTTGTAAATTTCGGCTTTCGCGCCA -ACGTCGATGCCGCGGGTAGGTTCATCGAAAATAATCACTTCCGGGCAACAGCACAGCCATTTGGAGATCA -GGACTTTCTGCTGATTTCCCCCGGAGAGTTCGGTGATATTCTGGTTTACCGAATGACATTTCAGCGCCAG -CAGTTCGCGTTGATTTTCAGCGGTACGTTGCTCGTCAACTTCATGAAACAAGCCCATCGCGCCTTTATAG -CCGCCGTCTTTCAGACTGCGGCTGATCGCCATGTTCTGAGCGATGGAAAAGTTGGGGAAAAAACCGTTAT -CCCGGCGGCTTTCAGTGATGTAAGCCATCCCTTTTTTCACGGCATCCAGGGGTGAACGTGGAGAGATATC -TTTGCCATTAAGACGGATTTCTCCGCCAGCGCGTTTATCCACGCCAAACAGACAATTCATCAGTTCAGTA -CGTCCGGAACCGACCAGTCCGGCAAAGCCTAATATTTCTCCCCGGCAGACGCTAAATGAGATATCCCGGA -CCTTTTTTCTGTCACGACTGGTGACGTTCCGCACCTCAAAAACCGTTTCGTGCGCAAGGTTGCTGACATT -CTCCTTCATCGCGTTAAAACGGTTTTGCAGTTCGCGGCCTACCATCAGACGGACGATATCGTCATTTGAC -ACATCGCTTACTATGCCGCTGCAAACGCTGCTGCCGTCTTTCATCACCGTATAGCGGTCGCAAATACGGC -GAATTTCCGCCAACTTATGCGAGATATAGACGATGGCCGTACCCTCTTTACGCAACTGATTCATGATCAG -AAACAGATAGTCCACCTCTTTATTGGTGAGTGAGGAGGTGGGTTCATCCATGATGATGACTTTGGCATCG -AGCATCAGCGTTTTGGCAATTTCTAGCATCTGCTTGTGGCTGATAGATAAATTCGCCACTTTCTCATCTA -GATCAACTTTCAAGCCCACGCGTAATAACATCATGGCGGCGCGGACACGCATTTCTCGCCAGTCGATAAT -ATTGACGCCACAGATTTTTTTCGTCAGATGACGACCAATATATAAATTTTCCAGTACGGTTAATTCATCA -ATAACGCTGAGTTCCTGATAAATAATCCCGATACCGAGTTGTGCCGCTAATTTATGATCCAGCTTGTTAT -AGCTAATGTTATTAATGGTAATGGTGCCTTTGGTCGGCTCATGTATTCCGGATAAAACTTTCATTAGCGT -GGATTTACCCGCGCCATTTTCTCCTAGTAATGCATGTATTTCACCAGGATAAACCGTTAAATTAACCGAC -TTTAATGCGTGAACCGGACCAAAGGACTTGCCGATCCCCGCCATCGATATATATGGCGTGGCCATAAATA -ACCTCTCTGCACGAAATATCGTATTATTGCCTGATGGCTACATTTATCAGGTCTACGTTCAGGTTATTTT -GTTGGCCGGATAAGACACTTCATTAGCATCATCATCCGGCATCATTCAGTTTTATTGAGTGACCAGGATT -GAATCGACCAGTTTAAATTCCGGTGCTTTATCCAGCGGGATAACCTTGCCGGATTTCTCAGCGTCAACCA -TCAGCTTCAGACCCGTTGCGCCGATATCCGCCGGGTTCTGGGCAACCGTCGCGGTCATTTGTCCGGCTTC -CACCATTTTGCGGGCTTCCGGAATGCCATCTGTACCGACGACCAGCACTTTTCCCGTTTTTCCGGCGTTT -GCGACTGCCTGAGCAACACCCATTGCCATCGTGTCATTCGCGCAATAGATCGCTTTAATATTCGGATTAC -GTTGCAACACGTTAGTGGCGACATCCAGTGCTTTAATGCGGTCCCAGTCGGCAGGCTGGCTGGCGACAAG -CTTGATCTGGCTTGCTTTTTTGAAGGCTTCGGTGGCACCATTACGACGCGCTTCACCGGAGGCGTTACCG -GCTTTACCCTCAATGATTGCGACTTCACCACCTTCAGCGCCCAATTTGTCAATAATGAACGACGCGCCTT -TCGCCCCGACAGCAACGTTATCGGTGGTGACAAAAGCTTCCACATTGCCGCCAGCTTTTTTCAGATTATC -CATGTCGATTTTTTCATCGAGATTAACCAGATAAATGCCTTTTTTCCATGCGCGGGCGACAGGCATGACC -AGATTCACTGAGGATAATGGAGCGAAGGCGATACCTTTGTAATTTTTATTACTGAGATCTTCAAATAACT -GCAATTGAGATTGAAAATCGCCTTCTGAAGGAGAGGCAAAAATATCAACGCTGACGCCCAGTGTTTTTGC -TTCATCTTCAATGCCTTTTTTCATATCTACCCAAAATGGGTTGGAGAGGGTTTTCAATACGACAGCATAT -TCGGCGGCAGCAAAAGCGCTGGTTGACAACATTAAGCCCACGAGTGTGCCGCTGAAATATTTCAGATATT -TATTCATAATAATGTTCTCACGGTAAGGGGACAGGTAACTCCGCGATGGCGGAATTACCTTTTTCTTATT -TCAGCGCGCCTGGTGAGAAGAAATCAACAATTGCGCCGGTTTTTTGCATATTAATATTAGCTTGTTCAAT -GTTGAGCTGGGCGACAGAGACAAAAAAAGCGTCCAGCAAAGTTAGTTGTAATATTCTTGCCGAGGCATTA -CGACCTAATAACGGCGTTTCCGGGGCTGGTGAGCAAATAATATAATCGGCCAGTTTCGCTATCGGTGAAT -GGTAGCTATGGGTTATACAAATAATCTTTGCCCCGTTCTTTTTTGCCAGTTCTACGGCCGCTTTTACATC -ACTGGTTCGCCCGGAATGGGTCACTACCAGCACAACATCTCCTTCCTGTAACAACGAAGCGGACATCATC -ATGATGTGAGCATCAGGATAGGCCTGACAGCGTACGCCAATGCGCAAGAACTTGTGCTGTACATCAGCAC -AGATAGCATTTGATCCTCCGGCACCGTACAAATCCCGCTGTCTGGCCTGATAGAAAAAGCGGGCGGCACG -GTGGATCTCATCAACGTTGACGATCGACTGACCTTCCATAATGGTGCGTAAAGTGATGTTAAATACCTTA -TTCACCACATCCTGCGGCGCTTCATCAAAAGCCAACTCGGAAGGCAATACCTGTTCTGACTGAGAAAAAT -AATCTTCCAGCGCACTGCGTAAGTTACGAAAGCCGCTAAACCCCAGCAGCTTTGATACCTTAACTATCAT -CGCTTCAGATACCGCCAGAGCTTCTGCGACATCTTTAATTGCGGGTGCACAACTCAGGTTACCGGGTTTG -AGTAACCACTCCACGATGCGGCTTTCATTTTCTGTCATTCCTTCCTGCTTCATTCGCAGGTAAGGCGCTA -ACCCTATACCGTTCGGAAGCGCTGAATCAAACTCTGACTGGCTCATCACGTTCTCTTGTCCTTGAATTGA -AGACGCCACTATATCACCACAGCAAGAACAGAAAAGATGCTGGCGACTTCACAAAAAAATAAAATTTATA -AAGTTTATTTTATTGTGAACAATGGCGAGTGGCTTAAAATTTTATTTCATTTAATTAGTTTAAAAACATG -ATGTTATTTGTTTTTCTGGTTTTTTAGATGATAGATGTTGCTGGATGGTGAGTGTCTTTAACGCTATTGC -GCTGTCAGATGTAACTCTGTAAAACAGATCAGGAAGGCGTAATTCATCGATTTTGGGTGTTTTTAATTCA -TTAACATCACAAATGTTTTTTGATTGTGAAGTTTTGCACGGACGGGGAAGATGAATGAAAAAGATTGCAT -TTGGCTGTGATCATGTCGGTTTCATTTTAAAACATGAAATAGTGGCACATTTAGTTGAGCGTGGCGTTGA -AGTGATTGATAAAGGAACCTGGTCGTCAGAGCGTACTGATTATCCACATTACGCCAGTCAAGTCGCACTG -GCTGTTGCTGGCGGAGAGGTTGATGGCGGGATTTTGATTTGTGGTACTGGCGTCGGTATTTCGATAGCGG -CGAACAAGTTTGCCGGAATTCGCGCGGTCGTCTGTAGCGAACCTTATTCCGCGCAACTTTCGCGGCAGCA -TAACGACACCAACGTGCTGGCTTTTGGTTCACGAGTGGTTGGCCTCGAACTGGCAAAAATGATTGTGGAT -GCGTGGCTGGGCGCACAGTACGAAGGCGGTCGTCATCAACAACGCGTGGAGGCGATTACGGCAATAGAGC -AGCGGAGAAATTGAGATTCATCCACTACTTGCATGGATGAGTAATGATTAATGTGGATAGAGTTTCTTTT -TGAGGTTGGCTAATGAAACGCTTTCCGCTATTTCTTTTATTCACCCTGCTCACGCTGTCCACCGTTCCGG -CCCAGGCCGATATTATCGACGACACCATTGGCAATATTCAGCAGGCGATTAATGACGCTTATAACCCTGA -CCGTGGGCGAGACTATGAAGATTCGCGCGACGACGGCTGGCAGCGTGAAGTGAGCGACGATCGGCGCAGA -CAATATGACGACCGCCGCCGCCAGTTTGAAGATCGCCGCAGGCAGCTGGACGATCGCCAGCGCCAGCTTG -ATCAGGAGCGTCGGCAACTGGAGGATGAAGAGCGGAGAATGGAAGATGAGTATGGGCGATGAGGTTGGGT -ATGGAGCAGGCATCGCCCCTCACCCCAATGGGGAGAGGGAGAAAACGAGCGCAATATTCAATATCGAGCA -CAATCGGTCCCCTCGCCCCTCTGGGGAGAGGGTTAGGGTGAGGGGGCCAGCGCGCACATTCCCTCTCATC -ACGCCACCCCAATCTCCATCCCATCAAACCCCACCTCAAACCCTGACGGTAGTGCGTTTTCCATCAGCCA -CGCATCAAACTGGTGGCTGATATGGGTCAGAATCACCCGTGGCGAGCGGATAACCTGATTCAGCGCAAGC -ACGGTATTTAAATCACAGTGATTACGCGGTGCATCCGCGCGCGGCGGGTGACTGCAATCCATCACCATTA -CCTGCGGCTGATTATTGCGTAAAAATTTCAGCGTTTTTTCCGGCAAGCCTGCGGTGTCAGACAGCCACGC -CACCCGGCTGTGTGCCGTTTCCAGCAGATAACCGAAGGTCAGTTTTGAGTGGTTGAGCGGCAGGGGCGTG -ACCTGTAACCCCTGCAAATCAAACACCACAAACGGTTCCACCGTGTGGCTGAAATCAAGCAGGCCCGGAT -GTTTAAACAGATCGTCGCAGCCCTGTTCATCCGGCGGGCCGTAAACCGGGATCGGATCGCCAACGCCCCA -GCGCAGCGGAAACAGCCCCTGGACGTGATCCATATGATAATGCGTCAGCAAAAACTGCTGGAACGATCCG -GGCGACCAGCGATCGGCGAGATCGTGCAGCCCGGCGTCGATCAGGGTGATTGCGTCGTTAAACTTCACTA -CGCCGCTGCACGGTTGGCGGCGATACTGCGGCGAGCGCCGCGCTCTGGCGCAGGCCGCACACTCGCAGCC -CCATGCCGGAACGCCCTGTGCGCCGCCGGTGCCGGTGAGCGTGAGGGTCAGGCTCATGTTACAGCGCCTT -GGTGAAGCGGAAGTGGCTCTGCTCGTAGCCTTCGCGCAGATAGAAACGGTGCGCGTCGTGGCGCTTCACG -TTGGTCGAAAGTTCGGTCATTTCGGCCCCGGCCTGGCGGGCTTCTTCTTCTGCCCACGCCAGTAACTTAC -TGCCGACGTTCAGACCGCGCGCCTGCGGCATTACCACCAACTCCTGAATTTCGCCGATCCAGTTGACATG -ATGCAGATGAAACTGCAAATGCAGGCCGATCATGCCGACAACTTCGCCATCAAGCAGCGCCAGATGGTAG -CGCATGTTTGGGTCGCGCAGATTGGCGTTAAAACCCACGCGAAACGCGTGGTGGTCAAACTCCGCCTGTT -TTAGCTCACAAATCAGCGCGTAAACCGCGTCGGTGTCGTACTGCGTGGCCGGGCGAAGCTCACAAGCAGG -CATGGTGTTTCTCCTTCTGATGGATCAGCGTCAGCAGCGTGTCGACCGACTGGCGCAGGCTGCCGTCATT -GTTGAGCGTATGGCAATCCTGTGGAGTATAGCGGGCGGCGCGCGCCAGGCGGGCGTTAATTTCACTGGCG -TTTTCACGGCCACGGTTTTCCAGGCGCTGGCGGAGGATCTCCGGCGAAACCTGTAAACAGACGGGCAGCA -GCGCCGATTGATAGCGCGCCCGCGCCTGCGGCAGATGGGCGCGTGAGCCGTTGACCAGCACGTCGAATCC -GGCGTGCAGCCAGAGATCAATCTCGACGCCGACGCCATAATACAGACCGTTAGCGTGCCAGCTTAAGGCC -AACAGATTTTGCCCCGCGCGGGTAAAAAACTCCTGCTCGCTCAGGGCGATATGGTTTTCACTTCCGGCGC -TGGCATCGCGCGTGATGTAGCGATGCGCCACCAGTAACTGAGTTTGTTCCCGCAGGCGGAGTTCCGCCAG -CAGGCTGTCTTTCCCGGAGCCGGACGGCCCCATTAACCAAATCAGTTTTCCCATCATCAGAACACCCTTT -TACCCTGACGCCAGACGTGGTCGATATGAATATGATTGTCCTTGCGATGCGCCAGCACCAGGTCGGCGCG -TTTGCCCTCGCCAATCACCCCGCGATCCTGGAGATTAAGCGCCTGCGCTGGATTTTTAGTCACCAGCTTC -ACCGCCTGCGGCAGCGTAAAGCGGTTGCTCTGGTCATCGGCGACGCGAAATGCCGCATCGAGCAGGCTGG -CGGGGTAGTAGTCGGAAGAGAGGATATCCAGCAGGCCAAGCTGCGCCAGTTCACTGGCCGCCACGTTGCC -GGAGTGCGAGCCGCCGCGCACAATATTCGGCGCGCCCATCAGCACGTTCATGCCATGCTTGCGCGAGGCT -TCCGCCGCTTCGAACGTGGTGGGAAATTCGGCGATCACGCTGCCAAGCTGGTGAGATTCAGCAACGTGGG -CGTGGGTGGCGTCATCGTGGCTGGCAAGCGCAATTTTTCGCGCGCGGCACAGGGCGGCGATGGATTCGCG -ATTCGGCTGCGACCAGCGTGCGGCGAGCGCCAGTTGCTCTTCTTCGTACTGCTGCATCTGCGCATCAGTG -AGGGAGTATTTGCCCTGATAATATTCGCGATACTTCTCGCGGTTGGCGAACTGGCGCTGGCCCGGCGAGT -GGTCCATCAGCGACACCAGCGTCACCGGCTCGCGCTGCACCAGTTTTTCAAACAGCGGCAGCGTGGTGTG -ATGCGGCAGTTCGCAGCGCAGATGCAGACGGTGCTCGGCGCGGTTGACGCCGCGTTTCTGCGTCTCTTCG -ATGGCGTTGATCATCTTCTCCAGATTCTCCAGCCGATCGCCGCCGTCGCGCACGTCGCCAATTGCCACGG -CATCCAGTACGGTGGTGATGCCGCTCGCCACCATCAGCGCGTCGTGGCTGCTCATCGCCGAGTGGGCAGG -CCAGTCAACTTTCGGGCGCGGGGTGAAGAATTTATCCAGATTATCGGTATGCAGCTCAATCAGCCCCGGC -AGCAGCCAGCCGCCTTCGCCGTCCATCGCCTCCGGCAGGCGGCTCTGGCTTTCGGCAAAGGCGCGGATTT -CGCCGTTCTGCACCTCCAGCGAACCGCTTACCACCTCGTTTTCCAGCACCAGCTTAACGTTATTGATAAT -CATGAAGAGGCTCCCATTGGGTGCAGGCGGTCGGCGACGTCATTACGTACAGCTTCGTCATGGAAGATGC -CTACGATGGCTGCGCCACGGGTTTTGGCTTCGCGAATCAGTTCCACCACCGCGGCGCTGTTTTTGGCGTC -CAGCGAGGCGGTAGGTTCGTCAAGCAGCAGAATGGGGTAGTCGACGATAAAGCCGCGGGCGATGTTGACG -CGCTGCTGTTCGCCACCGGAAAATGTCGATGGTGCCAGGTGCCACAGGCGTTCCGGCACGTTCAGGCGGG -TGAGAAGACGCGCGGCTTTAGCGGCGCAGGCTTCACGCGGAACGCCGGTATCGAGCAGCGGCTGCATCAC -CACTTCCAGTGCTGAGATACGCGGGATGACGCGCAGAAACTGGCTCACCCAGCCGACGGTGGTTTTGCGG -ATTTCCACCACTTTGCGCGCTGGCGCGGTGACCAGGTCTACCCACTCGTCACCGTGTTTGATCTGGATTT -GACCTTCGTCGGGCAGATAGTTGGCGTACAGCGAGCGTAGCAGAGTTGATTTGCCGCTGCCGGAATGGCC -GTGGAGCACCACGCATTCGCCCGCGTTGACGGTGAGCGAGGCGCGATTGAGGACGGGCAGGCGCACGCCG -TTTTGCTGGTGCAGGATGAAGGTTTTACTGACGTTTTGTACGTTAATCATTTTTCGCCTCGTGGTTCGGG -TGTCGGATGCGACGCTGACGCGTCTTATCCGACCTACGGGGAGCGCATTTGTAGGCCGGATAAGGCGTTT -ACGCCGCATCCGGCACCGGCTCAATTCTGCAAAACCGATGACACCAGCAGCTGTGTATACGGATGATGCG -GGTCGTCGAGCACGCGGTCGGTTAACCCACTCTCCACCACTTGCCCCTGCTTCATCACCAGCAAACGGTC -CGCCAGCAGGCGGGCGACGCCTAAATCATGGGTGACAATCACCACCGCGAGGTTCAGCTCCACCACCAGG -CCGCGCAGCAGGTCGAGCAGGCGGGCCTGCACCGACACATCCAGCCCGCCGGTCGGTTCATCCATAAACA -CCAGCTTCGGATGCGTCACCAGGTTGCGGGCAATCTGCAAACGCTGCTGCATACCGCCGGAAAAGGTGGT -CGGCAGGTCGTCGATCCGGTTGGCGGGAATCTCCACCTCTTCCAGCCACTTCTGCGCGGTGGCACGAATA -TCGCCGTAATGACGTGCCCCGGTCGCCATCAGCCGCTCGCCGATATTGCCGCCTGCCGACACCTGGCGGC -GCAGGCCGTCGAGTGGATGCTGATGCACCACGCCCCATTCGGTACGCAGCAGGCGACGGCGGTCGGCCTC -GCTCATTGCATACAGCGAACGGTTCTCGTAGTGAATTTCCCCCTGCTGCGGCGTCAGGCGCGCGGAGATC -GACTTCAGCAGCGTGGTCTTCCCGGAGCCGGATTCCCCGACAATGCCCAGCACTTCCCCCGGCCATAAAT -CAAAAGAGACATCGCTAAAGCCTTTGCCCGGCGCGTAAAGGTGGGTCAGGTTATTGACCGAAAGTAACGG -TTGATTCATTGGTTTTTTGCCTCGCTCTGTTGGCGGCAATAATCGGTATCGGAGCAGACAAACATGCGGT -TTCCGGCGTCATCCAGCACCACTTCATCAAGATAGCTGTGGGTCGATCCGCAGATGGCGCATGGCTCATC -CCACTGCTGAACGGTGAACGGGTGATCGTCGAAATCGAGACTTTCCACGCGGGTAAACGGCGGCACCGCA -TAGATGCGCTTCTCGCGCCCCGCGCCGAACAGTTGCAGGGCGGGCATCATGTCCATTTTTGGGTTATCGA -ATTTCGGGATCGGCGACGGGTCCATCACGTAGCGCCCATTTACCTTCACCGGATAGGCGTAGGTGGTGGC -GATATGACCGAAGCGGGCGATATCTTCATACAGTTTCACCTGCATCACGCCGTACTCTTCCAGCGCGTGC -ATGGTGCGGGTTTCCGTTTCGCGCGGCTCGATAAAGCGCAGCGGCTCGGGGATTGGCACCTGGAAGATAA -TTATCTGATCTTCGGTCAGCGGCGTTTCGGGGATGCGGTGACGCGTCTGGATAACCGTCGCATCGTCCGT -ACGTTCCGTGGTGTTTACCCCGGTCACGCGCTTGAAGAAGTTGCGAATCGACACGGCGTTGGTGGTGTCA -TCCGCGCCCTGGTCAATCACCTTCAGCACGTCGCTTTCGCCAATCACGCTGGCGGTAAGCTGAATGCCGC -CGGTTCCCCAGCCGTACGGCATCGGCATCTCGCGCCCGCCAAACGGCACCTGATAACCGGGGATCGCCAC -CGCTTTTAAGATGGCGCGGCGGATCATGCGTTTGGTCTGCTCGTCGAGGTAGGCAAAGTTGTAGCCGCTC -AGATTAGCCATGGTTCTGCTCCTGTTGCAGACGTTTGAGTAGCTCCAGTTCGGCCTGGAAATCGACGTAG -TGGGGGAGTTTGAGGTGTGAGACAAAGCCTGCGGCTTCGACGTTGTCGGCATGTGCCAGCACGAACTCTT -CATCCTGCGCCGGGCCTGTCGCGTGCTCGCCGTACTCCGGGGCTTGCAGAGCGCGGTCGACCAGCGCCAT -CGCCATCGCTTTGCGCTCGCTCATGCCGAACACCAGCCCGTAGCCGCGCGTGAAGTGCGGCGGCTCACCC -GGCGGGTCGATAAAACCGTTAACCATTTCACACTCAGTCATCAGCAGTTCGCCGACGTTCACCGCAAATC -CCAGCTCTTCCGGCACAATCGACACGTCGATATAGCCGCTGCGGATCTCGCCTGCGAACGGGTGATTGCG -CCCGTAACCGCGTTGGGTGGAGTAGGCCAGCGCCAGCAAATAGCCTTCGTCGCCGCGCATCAACTGCTGC -AAACGGGAGGAGCGTGAGCAGGGGTAAACCGGCGGCGTGCGGGTGATGTCATCCGGCTGTGCGCCGCTAT -CCTCTTCAAACTTCGCCAGCCCCTGACGCGCCAGCAGGCTGAAAACGTGCGGCGACGGCTGCTGTTCGCT -GTCGGCGGTGGTCAGCGTCGGCGCTTCGCCGTTTGCCAGCAGGGTAAAATCGAGCAGGCGATGGGTGTAG -TCGTAGGTTGGGCCAAGCAGCTGGCCGCCGGGAATGTCTTTATAAACGGCGGAGATACGGCGTTCGAGAC -GCATCCCGGTGGTGTCGAGCGGCTCGCTTACCGCCAGCTTCGCCAACGTGGTGCGGTAGGCGCGCAGCAG -GAAAATCGCTTCAACGTTATCGCCGCTGGCCTGTTTCAGCGCCAGCGCCGCCAGTTCGCGGTCGGCAATG -CCGCCTTCGGTCATCACGCGATCTACCGCGAGGTTAAGCTGCTGTTCAATCTGGGCGACGCTCAGTTCGG -GCAAATCGGTATCGCCTCGGCGTCGGCTCTCTTGCAGGGCGTGGGCGGCGTCGATCGCCTTCTCGCCCCC -TTTCACGGCAACGTACATCAGCACACCTCCACATGAGTGGTTCGCGGAATAGCCAGCAGGCGCTCGCCAC -AGGTCAGGATCAGGTCGATGCCGAGCGGGAACGGATGCGGGCGCTCGGTGAGTTCGTGCAGAATGCACTC -CGGCAGCTGCGGAGCGATCATTCGTTCTTCGGCAATACCCGCACCAGTAAGGCGCAACATGCGTCCGCCG -CTCAGGCTGGCGACCTGTAAAATCAGCGTCGCACCCGCTTCCGGCGCAACGGCGGTGCCGGTGGAAAGGG -CGTTGAGCTGTTCGCTGGAAATCGCCTCATCCGTCACCGCGAAGGTCGCCTGTTCCGGCTGGCTGACCAG -CGGCGCGTTGGTATGAAAACGCAGGCTCTGGTTGACGATATCGTTATTTAATGGGGTAGAAAGCCACACC -GGCGTGTCGTTATCGGCCAGCGTCAGCAGCACGCTGGTGGTGGCGATATTCAGCGGTTGCCAGCCGCGTT -TGAGCTGATGCAGGGCGACAATCACGCCCGGCTCGCTCATGGCCTTTAACAGGCGACGAAAACTGTGCTG -GGCATCCTGCACGGGAAGCATAAAAGCGGTTTCCAGGGTCATGCGTTGTCTCCGCGAACCATCGTAAAGA -AGTCGACCCGGCTGGCGTTCACTTCGGCCTGGCGTGCGGCAATGCGTGCCATACGGTCAGCGTCCAGCGG -GGCAATAAGGGTTTCTGATAAGTTTTGAAAGTGGCGAGATTGCTGCATCAGCGCGTCAATCAGCGCGCAG -CGTTCGGCGTGCTGTTTATCACGCCCCTGCACCCAGCTGTAGCCGAGCGTGCCGTCAGTCAGGCGCACGG -CGGCGCGGGTCAGCGTGGCGTCGCCGGCAAAAAAACGTTCGCCGGTGCCGCCCATCCGCGCCTGAATCTG -TACCAGGCCAGTTTCAGCGGCGCGGATCACCTCATAGTCGGCGGTGATGTTTAGCGCGTTCAGGCGTGCT -GCCAGTTCAGCCGGTTGGCTGTGCGCCAGCACGGACATCCAGTGCTGGCGGGTCGCGGTATCTGCGTGCA -TTCAGTGCTCCATAGTGAATTCAATCATGTCGGCGCGCGTCAGGCTGACGGAGTACTCCGCCGGGCTGCT -TTCACCGTCACGGTGGTTAAGGGTGCGCACGCACAGCAGCGGCGACATATTCGGGATTTCAAGACGCTGG -CACTCTTTGGCCTGGGCGCGGCGGGCGCTGATCCGCGTCTGGCTGCGGCGCAGCGCAATTCCGGTTTGCT -CGCGCAGAAAATCGTGCAGCGAGCCGCTGTCGAAGCGTTGCAGCGTCGGCCAGAGGGTGAGGTCCGCGAA -GTAGTGGTCGATTAAACAGAGCGCGACGCCGTTGACACGACGCAGGGTGCGCAGGTGGATGACGTTCTCC -CCCTCGGTAATCCCCAGTGCGTCAGCGACGTGGCCGGACGCGGGGCGCAATACCGAAAGCAGTTTTTCGC -TGGTGGGATGGCTGCCCTGATCCAGCAGATTCTGGCTAAAACGCGCCTGGGCGTTGAGCGGGTAATCGAA -CGGGCGCATCAGCACCAGCACGCCGACGCCCTGACGGCGCTGTACCCAGCCTTTTTCCACCAGTTGGTCG -ATGGCGCGGCGCAGGGTGTGGCGATTCACCTCAAAGCGCGCTGCCAGTTGCTGCTCGGCGGGAAGATAGT -CGCCGCAGCGGTAGTGTTGACGAAGCTCCTGCTCAAGTTTTGCGGCTATCTCTTGATAGCGTGTTGGGTA -GCTGGTCGGATGTGTAGACAAGTGCATAGATATCAATGCCTCGCTTATCAGATAAAGTGCTTACGCAACC -GTTGAGAGAGGAAATCCAGCAGGCTGACCGTGACGATGATAAGCACCATCAGGGCGCAGGTTTGTTGGAA -CTGGAAACCGCGAATCGCTTCCCACAGGGTGACGCCGATCCCGCCTGCGCCGACCATGCCGACGACGGTC -GCCGAGCGGACGTTGGATTCGAAGCGATAGAGGGAGTAGGAGATCAGCAGTGGCATCACCTGTGGCAGCA -CGCCGTAGAGGATCTCTTCGAGCTTGTTGGCACCGGTGGCGCGAATGCCTTCCACCGGGCCGGGCTCAAT -CGCTTCCACCGCTTCGGAAAGCAGCTTGGAGAGCACGCCGGTGGTGTGGATAAACAGCGCCAGCACGCCA -GCACGCCAGCGAACGGGCCGAGGCCGACGGCGACCACGAACAGCATGGCGAAGACCATTTCGTTAATGGC -GCGGCAGGCGTCCATCAGGCGGCGAACGGGCTGGTAAACCCACCACGGCACCAGGTTTTCGGCGCTCATC -AGGCCAAAGGGGATGGAGAGAACCACCGCCAGCGCGGTGCCCCAGACGGCGATTTGCAGCGTGACGGCCA -TTTCGGTGAGGTAATCCTGCCACTGGCTGAAATCGGGCGGGAAGAAGTCGGCGGCGAACGTCGCCATGTT -GCCGCCGTCTTTGATCAGCGTAAGCGGGGCCATTTCCGCGCCCTGCCACGAGACGACCAACACGGCGAGT -ACAACGGCCCAGCTCAGAAGCGAGAACCAGCTGCGCTTGGGTGGGGCGATGGTGATGGTTTGCATGTTTG -GCTCCGGTCTGTAGGCCGGATAAGGTGCTTGCACCGCATCCGGCATCAACGCCTGCACATTGTCGGATGC -GACGCCGGGGCGTCTTATCCGACCTACGATTTACTGCACCGCTTTACTCACCGAACTCATCGCGCTTAGC -GCGTTGTTCAGGCGGTCCAGGTCATCCAGCTGCGCCTGAATCTCGGTGGTTTTTGCCAGCTTGTCCTGCT -CATTCAGTCCTTTATTGCTTTTCACGCCCTGCATCTCTTTAAACAGCGCGAGCTGGCGAATCGGCACCAG -TTGCAGGTCGCTGGAAGCGCGGAATGGCGCCCAGCCCAGGCGTTCCAGCACCGCTTTTTCTTCCGGCGTT -TTGCCGTAGTTCATAAAGAAGTCGTAGATCTTGTCTTTGGTGGTTTCGGAAAGATTCTTGCGCCAGACGA -TCGGATCGCCTGGGATCAGCGGCGACTTCCAGATCACCTTCAGTTCTTTCAGCTTCTCTGGCGCGGAGGT -TTTCAGCTTGTCGAGGTTTTCGGTGTTGTTGGTGGCAACATCCACCTGCTTGTTGGCGACGGCCAGCGCG -TTGGTTTCATGCCCGGCGTTGACGGTGCGCTTGAAGTCGCTGGCGGAGATATTGTTTTTGGCGAAGACGT -AGTAGCCGGGGACGAGGAAGCCAGAGGTGGAGTTAGGATCGCCATTGCCAAAGGTGAGATCTTTCCGCTT -CGCCAGCAGATCGTTCAGGTTGTTGATCGGACTGTCTTTGTTGACGATCAACACGCTCCAGTAACCCGGC -GATCCATCCGCCGCGACCGTCTGGGCGAAGACCTGGCCATTGGCGCGATCCACCGCTTCCATCGCCGACA -GATTGCCGTACCAGGCGATATCCACTTTATTGAAGCGCATCCCCTGGATAATGCCCGCGTAGTCCGGGGC -AAAGAAGGCGTTGACCTTCACGCCCAGCTTCTTCTCCATATCCTGCAAGAACGGCGTCCATTGCGGTTTC -AGGTTTTGCTGTGATTCCGTTGAAATAATGCCGAAATTCAACGCCTTTTCCTGCTCTTCGGCGTGCGCCG -GGCTTAACAGGGTGCTGAGGCTGAACATGCTGGTGAAGGCCAGCGAGGCAATTATCTTAGCGTTCATTCG -TTTTCCTCAATGATGGGGATGTCAGGCAGCTTTCGCGTTCTCTTCGACGCGGTTAATGCTGCGGTAGAGA -TGGTCAAAACGTTCGTTATCAAACTGTTGGCTGCTGCCGTCGTAGAAGACGTGCCCCTGGCGCAGGGCGA -CGATGCGTTCGCAGTAGCGCAGGGCGTAATCCACCTGATGCAGCGTGACGACCACGGTGATGCCGTCGTT -CTGGTTGATGTCGCGCAGGGTGTCCATCACGATGCGCGCTGATTCTGGGTCCAGCGAGGCGATGGGTTCA -TCGGCCAGAATCACTTTCGCCTGCTGCATCAGCGCACGGGCAATCGCCACACGTTGCTGCTGGCCGCCGG -AGAGGGTGGAAACGCGCTGATGGGCAAAATGCACCATGCCAACGCGGGTCAGCGCCTGTAACGCGCGCTG -TTTCTGCTCGCCGGTGAACCAGCTAAAACAGGTGCGCCAGAACGGCGTGCTGCCGAGCGCGCCAATCAGC -ACGTTCTCCAGTACGCTCAGGCGGTTCACCAGGTTGAATTGTTGGAATATGTAGCCGGTATGGGCGCGGC -TTTTGCGGATATCGCGGGCCAGGCGGCCTTCGCGCTGGACTGTGCGGCCCAGCAGCTCGATATGGCTACC -GACAGATTTATCGCCGGTAATCAAACCGCTTAAGTGACGTAAAAGGGTGGATTTTCCGGAACCCGACGGC -CCAAGCAGAGCCACCATTTCACCGTGATGAATGTTCAGATCAACCGCATGCAGCGCCTGATGCTGATTGA -AGGTTTTGGCGAGCTTCTCGACACGGATAATCGTTTGCATGATGCAGCCTCCCTAAAAAAGTGGCTCCAT -CGTGGCGGATTATTGTGACGATTTGGTTAATTAAAAGTGACTAACAGATGAAGAGTTAACGGGAATTCGA -TGACAGTGCGGGAGGGCGGGCCTCCCGGCGGGTTATTGCGTTGGTTGTTGTTTGACGACATTAATCATCC -ACGGTACGCCAAATTTATCGGTGACTTTGCCAAAGCCATGCGCCCAGAAAGTTTCCTGCCAGGCCATTTC -GATTTTTCCGTTAGCGGCAAGATTGTCAAACCAGCGTTTTCCTTCTTCGACCTGTTGCGAATCGAGCACC -AGCGTAAAGCCGGAGTAGCTGGCTTTTCCTGACGGCATGGCATCGCTCATCATGATGTCGCTTCCGGCAA -TGCGCACATTGGCGTGGGCGATGGCGGTATCGGGAAATTGCATTCCGGAAGGGCAGTTCTCGGCGCTGTC -CTGCGCTGATTTTGGCATTTCGCCGAAGCTGATTTTATAGAGCAGTTCCGCGCCCAACGTACGTTGATAA -TAGGCAATCGCGTCGGAACAGTTACCGGCAAAAGAGAGGTAGGGACTTAACGGCATGATGGTGACCTCAG -TTAAGAGAAGCCAGTTAAGTGTAGTTCGAAATTTATACAGATGAGAGGCGGCCTGATAAGACGCGCGAGC -GTCGCATCAGGCAGTCGGCACTGTTGCCGGATGCGGCGTAAACGCCTTATCCGGCCTACGGAGGGTGCGG -GAATTTGTAGGCCTGATAAGACGCGCAAGCGTCGCATCAGGCAGTCGGCACCATTGCCGGATGCGGCGTA -AACGCCTTATCCGGCCTACGGAGGGTGCGGGAATTTGTAGGCCTGATAAGACGCGCAAGCGTCGCATCAG -GCAGTCGGCACCGTTGCCGGATGCGGCGTAAACGCCTTATCCGGCCTACGGATGGTGCGGGAATTTGTAG -GCCTGATAAGACGCGCAAGCGTCGCATCAGGCAGTTGGCACTGTTGCCGGATGCGGCGTAAACGCCTTAT -CCGGCCTACGGAGGGTGCGGGAATTTGTAGGCCTGATAAGACGCGCAAGCGTCGCATCAGGCAGTCGGCA -CCGTTGCCGGATGCGGCGTAAACGCCTTATCCGGCCTACGGAGGGTGCGGGAATTTGTAGGCCTGATAAG -ACGCGCAAGCGTCGCATCAGGCATCTGGCACCGTTGCCGGATGCGGCGCGAGCGCCTTATCCGGCTTACC -GATCACAATACAATCAGTTCTTTTTCACAAACTCAGATTTCAGTTTCATCGGACCAAAACCGTCGATTTT -GCAATCGATGTTATGGTCGCCTTCAACCAGGCGGATGTTTTTCACTTTGGTGCCAATTTTCAGCATCGAA -GAGCTACCTTTCACCTTCAGATCTTTAATGATGGTAACGCTGTCGCCGTCAGCCAGCAGATTGCCGTTAG -CATCTTTAACGATCAGCTCGTCGCTTTCCTGTGCAGGTTCTGCGTCGTTCCATTCGTAGGCACATTCCGG -GCAGATGTACATGCCGTTATCTTCGTAGGTGTATTCGGAGTTGCATTTTGGGCAGTGTGGTAATGACATG -TGGATTTCCTCAAAAGTCAGCAGGGCAAAAGCGCCAAAAAACGGCAGATTGCCGAAAAAGGCCGCAATTA -TACACAAAATCCCTGAGTTTGTCGGGGGTACTGCTGATTTTAGACGACGATCGTTTTCATTTGAAAGGAA -ACGCAAAAAGAAAATAATCTTTTTGCCTCTATTTATTATTTAAGATAATGTTAATGCTCTACTTGTTCTT -TTTTTAATTCACATGATATTTTTATCTTTCTGACGTTTTAAACGTATCAGAAGACGTTATTTATTCTGAT -AAAAAACAACACACTAAATATAAAATTATTTCTTGCAGTAATTATAAAAGCCGAAAACAGAACTCAAAAA -CAATCTGGCTAAATAAAATAACAAAATTTGCTTTAAGGAAGAATTTTCTATGTACACACAGACCCTGTAT -GAGTTAAGTCAGGAGGCTGAACGCCTGTTACAGCTTTCTCGCCAACAGTTGCAGTTACTGGAAAAAATGC -CTCTCTCTGTACCCGGAGACGACGCGCCACAACTGGCTTTACCCTGGAGTCAGCCTAATATCGCCGAACG -TCACGCGATGCTGAATAATGAGTTGCGTAAAATTTCCCGACTGGAAATGGTGCTTGCAATTGTCGGTACC -ATGAAAGCAGGGAAATCAACCACCATTAATGCCATTGTTGGTACGGAGGTTCTGCCTAATCGTAATCGCC -CAATGACTGCGCTGCCGACGCTTATTCGCCATACGCCCGGGCAAAAGGAACCGGTACTGCATTTTTCACA -TGTCGCGCCAATCGATTGTTTAATTCAACAATTACAACAGCGCCTGCGTGATTGCGATATTAAGCATCTG -ACCGATGTGCTGGAAATAGATAAAGATATGCGTGCGCTTATGCAGCGGATCGAAAATGGCGTCGCTTTCG -AAAAATATTATCTGGGTGCCCAGCCTATTTTTCATTGTCTGAAAAGTTTGAATGATTTAGTGCGACTGGC -GAAGGCGCTGGACGTCGATTTTCCTTTTTCTGCTTACGCCGCCATTGAGCATATTCCCGTGATTGAAGTG -GAGTTTGTCCATCTAGCGGGGCTGGAGAGTTATCCCGGTCAGTTGACGTTACTGGATACCCCCGGGCCAA -ATGAAGCCGGGCAACCGCATCTGCAAAAAATGCTTAACCAGCAGCTGGCACGCGCCTCGGCGGTACTGGC -GGTGCTGGATTATACGCAACTGAAATCGATCTCCGATGAAGAGGTCCGTGAGGCGATTTTGGCGGTGGGG -CAATCGGTGCCGCTGTACGTGCTGGTCAATAAGTTCGATCAACAGGATCGTAACAGTGACGACGCCGACC -AGGTGCGGGCACTGATTTCCGGGACGCTGATGAAAGGCTGTATTACGCCACAGCAGATATTTCCGGTGTC -GTCGATGTGGGGCTACCTGGCGAATCGGGCGCGCTATGAGTTAGCCAACAACGGTAAGTTACCACCGCCA -GAGCAACAACGCTGGGTGGAAGATTTTGCCCATGCCGCGCTTGGCAGGCGCTGGCGTCATGCCGATCTGG -CGGACCTCGAACATATTCGTCATGCTGCCGATCAGTTGTGGGAAGATTCGCTGTTCGCCCAGCCAATTCA -GGCGTTGCTTCATGCCGCTTACGCTAACGCCTCGTTGTATGCTCTGCGATCTGCCGCGCATAAACTGTTG -AATTACGCGCAGCAGGCGCGGGAATACCTGGATTTTCGTGCGCACGGGTTAAACGTCGCTTGTGAACAAT -TGCGGCAAAATATCCACCAGATCGAAGAAAGTTTGCAGCTATTGCAACTCAATCAGGCGCAGGTGAGCGG -CGAGATTAAACATGAAATCGAGCTGGCCCTGACCTCCGCCAACCACTTTCTGCGTCAACAGCAAGATGCG -CTGAAGGTGCAGTTAGCCGCCTTGTTTCAGGATGATTCGGAGCCGTTAAGCGAGATTCGTACCCGCTGTG -AGACACTGTTACAGACGGCGCAGAACACCATCAGTCGCGACTTTACGCTGCGTTTTGCCGAGCTTGAATC -CACCCTTTGCCGGGTGTTAACCGATGTTATTCGCCCCATTGAGCAACAAGTCAAAATGGAATTGAGCGAG -TCAGGGTTTCGTCCTGGGTTTCATTTTCCTGTTTTTCACGGCGTAGTTCCCCACTTCAACACTCGCCAGC -TGTTCAGTGAAGTCATTTCGCGCCAGGAAGCAACGGACGAGCAGAGCACGCGTTTAGGCGTTGTGCGTGA -GACTTTTTCGCGCTGGTTGAATCAGCCCGACTGGGGACGGGGAAATGAGAAATCACCGACAGAAACGGTT -GATTACAGTGTGTTGCAACGAGCATTAAGCGCAGAAGTCGATCTCTATTGCCAACAAATGGCTAAAGTTC -TGGCAGAGCAGGTCGATGAATCTGTTACGGCAGGCATGAATACTTTTTTCGCTGAGTTCGCTTCATGTTT -GACGGAATTACAGACGCGTTTACGCGAAAGTCTGGCTCTGCGTCAACAAAATGAATCGGTGGTCAGGCTG -ATGCAGCAGCAATTGCAGCAGACTGTGATGACTCACGGCTGGATTTACACCGACGCCCAGCTGTTACGCG -ATGATATTCAAACACTTTTCACGGCAGAACGATATTGACCAAGACGTTACTTGACGGCCCCGGTCGCGTG -CTGGAGTCGGTTTATCCCCGCTTTTTAGTGGATCTGGCGCAGGGTGATGATGCCCGCCTTCCACAAGCCC -ATCAGCAGCAGTTTCGTGAACGACTGATGCAGGAACTTCTTTCGCGTGTGCAGCTTCAGACATGGACGAA -CGGCGGCATGTTAAATGCGCCGCTTAGCCTGCGTCTGACATTGGTGGAAAAACTGGCGTCGATGCTGGAT -CCCGGTCATCTGGCACTGACGCAGATCGCGCAGCATCTGGCGCTGCTGCAAAAAATGGATCACCGCCAGC -ACTCTGCTTTCCCGGAGCTCCCCCAGCAAATTGCCGCCTTGTATGAGTGGTTTTCAGCCCGTTGTCGCTG -GAAGGAAAAGGCGTTAACGCAACGAGGCCTACTGGTGCAGGCAGGTGATCAGAGCGAGCAAATTTTTACC -CGCTGGCGTGCTGGGGCGTATAACGCCTGGTCGTTGCCTGGGCGCTGTTTTATCGTTCTGGAGGAGTTGC -GCTGGGGGGCATTTGGCGATGCCTGCCGTCTGGGAAGCCCGCAAGCGGTGGCGTTGTTGCTGGGTGATTT -GCTCGAGAAAGCGACACAACATCTGGCAGAGAGTATCAATGCGGCACCGACCACGCGTCACTATTACCAT -CAGTGGTTTGCCTCTTCGACCGTTCCGACGGGCGGGGAGCATGCTGATTTTTTAAGTTGGCTGGGAAAGT -GGACCACGGCAGATAAACAACCCGTTTGCTGGTCAGTGACCCAACGCTGGCAAACTGTCGCGCTGGGGAT -GCCACGACTCTGTTCAGCGCAGCGTCTGGCGGGGGCAATGCTCGAGGAAATCTTCTCTGTAAATTTGGCG -TAAATAATCAGTTACATCAATGAGTCCTAAACGAAATCCATGTGTGAAGTTGATCACAAATTTAAACACT -GGTAGGGTAAAAAGGTCATTAACTGCCCAATTCAGGCGTCAACTGGTTTGATTGTACATTCCTTAACCGG -AGGGTGTAAGCAAACCCGCTACGCTTGTTACAGAGATTGCATCCTGCAATTCCCGCTCCCCTTTTGCGGC -CGTCGCGCTGATTTTTCTGGCGTTTGCGGAAATGGGCCAACTCTGCGAGGAAAGCTATGCTGAAAAGGAA -AAAAGTAAAACCGATTACCCTTCGTGATGTCACCATTATTGATGACGGTAAACTGCGTAAAGCCATTACC -GCAGCATCACTGGGTAATGCAATGGAATGGTTCGATTTTGGTGTTTATGGTTTTGTTGCTTACGCATTAG -GTAAAGTTTTTTTCCCGGGGGCTGACCCCAGCGTGCAGATGGTTGCTGCACTTGCCACTTTCTCCGTTCC -CTTTCTGATTCGACCGCTTGGCGGACTCTTCTTTGGTATGTTGGGCGATAAATATGGTCGCCAGAAGATC -CTCGCTATCACTATTGTGATTATGTCGATCAGTACGTTCTGTATTGGCTTAATACCGTCCTACGACACGA -TTGGTATTTGGGCACCGATTCTGCTGTTGATCTGTAAGATGGCACAAGGTTTCTCGGTCGGCGGTGAATA -TACCGGGGCGTCGATATTTGTTGCGGAATACTCCCCTGACCGTAAACGTGGCTTTATGGGCAGCTGGCTG -GACTTCGGTTCTATTGCCGGGTTTGTGCTGGGTGCGGGCGTGGTGGTGTTAATTTCGACCATTGTCGGCG -AAGCGAACTTCCTCGATTGGGGCTGGCGTATTCCGTTCTTTATCGCTCTGCCGTTAGGGATTATCGGGCT -TTACCTGCGCCATGCGCTGGAAGAGACTCCGGCGTTCCAGCAGCATGTCGATAAACTGGAACAGGGCGAC -CGTGAAGGTTTGCAGGATGGCCCGAAAGTCTCGTTTAAAGAGATTGCCACTAAATACTGGCGCAGCCTGT -TGACATGTATTGGTCTGGTAATTGCCACCAACGTGACTTACTACATGTTGCTGACCTATATGCCGAGTTA -TTTGTCGCATAACCTGCATTACTCCGAAGACCACGGGGTGCTGATTATTATCGCCATTATGATCGGTATG -CTGTTTGTCCAGCCGGTGATGGGCTTGCTGAGTGACCGTTTTGGCCGTCGTCCGTTTGTGCTACTTGGTA -GTGTTGCCCTGTTTGTGTTGGCGATCCCGGCGTTTATTCTGATTAACAGTAACGTCATCGGCCTGATTTT -TGCCGGGTTACTGATGCTGGCGGTGATCCTTAACTGCTTTACGGGCGTTATGGCTTCTACCTTGCCAGCG -ATGTTCCCGACGCATATCCGTTACAGCGCGCTGGCGGCGGCATTTAATATTTCGGTGCTGGTTGCCGGTC -TGACGCCAACGCTGGCGGCCTGGCTGGTCGAAAGCTCGCAGAATCTGATGATGCCTGCCTATTACCTGAT -GGTAGTGGCGGTGGTTGGTTTAATCACCGGCGTAACCATGAAAGAGACGGCAAATCGTCCGTTGAAAGGT -GCGACACCGGCGGCGTCAGATATACAGGAAGCGAAGGAAATTCTCGTCGAGCATTACGATAATATCGAGC -AGAAAATCGATGATATTGACCACGAGATTGCCGATTTGCAGGCGAAACGTACCCGCCTGGTGCAGCAACA -TCCGCGAATTGATGAATAAGCTGAAACGGATGGCCTGATGTGACGCTGTCTTATCAGGCCAATTGAACTC -TTAAGGTTCACTTAATCTCTGACGCGCATACTCTCCTCCAGGTTAACGGAGGAGAGTGCAATGAAAAACC -GTGTTTATGAAAGTTTAACTACCGTGTTCAGCGTGCTGGTGGTCAGCAGCTTTCTTTATATCTGGTTTGC -CACGTACTGATCTTTCTTCAGCCGTACCCAGGCCCGCGTGCCGGAAGTCTCTTGCCGGTTTTGCAGGAAA -AACTGCCCGTGATGCAACTGTGTAATGCGGCTGACAATACTTAACCCCAGACCAATCCCGCCATAACGGC -TGTCCATACGTACAAACGCTTTACTCAACTCCCCGCATTTACTCTCATCAATACCTGGTCCTTCATCTTC -AACTGCCATGACCGCTCCGTCATCTTCTTGCAGCTTAATCATAATGTTGCTGCCTTGCGGGCTGTAACGA -TGGGCGTTTTCTACCAGGTTTCGCAATAACATCCGCAGCAGGGTTGCATCACCCTGAACGGTGATGTCGG -CGGCGCTCTCTGGCAATAGCAGGGTTTGCTGTCGCTGGTCGAGCATGGTACTGAGTTCGTCATACGAGGG -GAGAATGACATCTTCCAGCAGTTTTACATGTTGATAATTACCGGAAGAAAATGACTGTCCGGCACGCGCC -AGTTGCAGCAGCTGGGAGACGCTCTCCATCATCTGATCAAGCCGTGCCACTAACGGTGCTACATCAATGT -GATGCGTTTTCGCCAGCAGTTCCAGATGCAAACGCACCCCCGCCAGTGGCGTTCGCAGTTCGTGCGCGAC -GTCAGCGGTAAACAACCTTTCGTTATCCAGCGTGCTGGTCAGGCGACTGACCAGATCGTTTAACGCCGAA -ACCACCGCTTCGATTTCGAGGGTGGCGCTGTGAATGGCAATGGGCGTTAAGTTGTCGGCGGTGCGCGCTT -CCAGCTCTTTTTGCAGCTCCGCCAGCGGGCGGGTGATGCGGCGTACCGCCTGATAGCAGATAAATAGCGT -CAGGCTGACCATAAAGACGCCGGGGACAATCAGGCTGGCGACCGCCTCGCGGATCTCACGCATGATGTGG -CGATCGTTGTTGCGATTGTCGCGTAGCGCCTGCTCAAACAGCTGAATCTGCTCGGTACTTTCATGCCATA -GCCAGAAGACGCTGATCAGCTCAAACACCAACAAAATGGCCCCGATGGTCAATATCAGCCGTTGGCGCAG -CGATATTGGTCGGCGCAGAAAATGCATCAGATTCAATTAGTTTTCCTCATTCGCGACCAGCATATAGCCA -AAGCCGCGCACGGTGCGGATACGGGCTTTGCCCACTTTGTCGCGCAGATTGTGGATATGCACTTCCAGGG -TGTTGGTCGAGGGTTCATTGTCCCAGTTATAGATGTCGTTGTAGAGAATTTCCCGATGCACCGGACTGCC -TGCTTTGAGCATTAACCGTGACAGCAGAGCATATTCTTTGGGCGTCAGAATCAACTCTTCACCGCCCATC -CATACCTGACGGCGACCCATGTTCAGCGTCAGATTGCCAACAATCAGCTCACTTTCGCCCTGATTATTAT -GGCGTCGTAGCAGGGCGCGGATACGGGCATGTAACTCTTCCAGCGCAAAAGGCTTCACCAGATAGTCGTC -GGCACCGACATCCAGCCCGGCGATTTTGTCGGTCAGCGTATCGCGAGCGGTGAGGATCAGTACCGGCAGG -GTATATTTTTTCTGCCGGATACGGGCGAGAAAATGCAGTCCATCTTCGTCGGGTAACCCTAAATCCAGTA -CCACCAGGCTGTAATGACCTGCCTCAAGGCTTTGTTCCGCCATCCGCGCGGTTGTCACGCTATCGCACGC -GTAGCCTTCGGTTTGCGCCGCCAGAATCAGTCCCTGCAATAACAGCGTATCGTCTTCAACAATCAGAATT -TTCATTCACTCACTCTCCTGCAAGTTTGCAGAATATCATCCGCAGCCTGGTAATACTTCGTCTCAACGCC -AGTTAATCCCAATAGCGTGGAGAATAAATTGTCTTGTGAATAGTGTTGCGTTTGCGCCTGTTTTTGCAGG -CAGTTCTGGTCAACCTGATACCGTTTTTGATAATCCTCCGACAGCCACAGCAGCATCGGCACCTGTTTTT -GGCTATCCGGGGCGATGGCATAAGGCAGACCGTGCAGATAGATGCCATTTTCACCTAACGATTCACCGTG -GTCAGAAAGATAAACCAGGCTGGTGGTAAATTTATCCTGATGTTCTTTCAGCAGATTAATCGCTTTATCA -ACAATATAGTCGACGTAAACCAGCGTGTTGTCGTAAGTGTTCACCAGTTGCTCTTTGGTACAGGTCTGGA -TCTCATTGGTGTCGCAGGTTGGGGTAAATTTCCTGAACTGAGGCGGATAGCGGTTGTAATAGGTCGGACC -GTGGCTGCCGATGGTGTGTAAGACAATCACGCCATCACCTTGCAGGTTATTGATGTACTCTTCAAGCCCG -TGGAACAGCACTTCGTCATAGCATTCGCCGTTGATGCACTGATCAGGTAGATTCAGCGCGGTGACGTTCT -GGTGAGGCACGCGGTCGCAGGCACCTTTACAGCCGCCATCGTTGTCATTCCACAGCACGTTGATGCCCGC -TCGCTGAATGATATCCAGCACGCCTTCCTGGTGCTGTGCCAGCTCTTCTTTGTAGTGCTCACGCGGCATA -TCCGAGAACATGCACGGTACTGAAACTGCCGTTGCCGTGCCGCAAGATGCGGTATTAGGGAAATAGACCA -CGTTATCTTTCGCCAGCCGCGGGTTAGTTTCACGCGGGTAGCCGTTGAGGGAGAAGTTCTCCGCCCGCGA -GGTTTCGCCGACAATCAGGATGGTCAAATTTTTACGTTTTTCGTTCTGCATTAACGGGTTGCGGTGCGCG -TCTTCACCAATTCGCACCAGCGGCAGATTTGCCAGTCGCTGATGGGAGTACCATGACCAGCTGGCAACAA -TGCTGTTAGAGGGGCTTAAGGATTTCACCAGCTCTTTGTTATTGCGGAACAACGAGGCGTAGTCTTTATA -AAACAGTGCGGCGACCAGCAAAATCAGTAGTACAGAAACCAGAATATTGGCTCCACGGAAAAGAACACTG -CGCAGACGCGAGGTGGCAGGTTTGATTTTTATCCAGCAGGCAATCAGCGCAGCAAGCACGCCGCTGAATC -CCAGCGTTAATAACATTTGCGGTGTCATCAGCGCATAACTTTCTGCCGGAGTGGTATCAATAATATTGGC -AATCATCGAGCGGTCGATGACGATGCCGTAAGTCATTATGAAATATTGTGCAGCCGCGCCAACCAGAATA -AACAGGCAGGCCAGTGGTCGATTAAGCCATAAGAAAGAGCTTAGTGTCAGGACAATATTAATCACGCTGA -AAGCGACGACCGGCATCGACAAGAAAACCAGTACGTTATGCAGCGAATCCAGCGGCAGCGCCTGCAACAC -CTGTTTAAAAAAGGCAATATTCAGGCAGATAGAGATATAAAAAGCGGCCAACAATAGCCAGGCGAGTAAA -TTCAAAGAGGGTCTTTTTAGTAGGCGCTTCAACATCACGGTGTTTCCATCGAACAAAGTGCGCATATGCT -CGCAAAGCAAAATTAAGCCAACCTTAAGTTCTTAAGGTTGGCTTTTATGTTTGCTGGATTAAGGGGAATT -AATCTTTGCTTATTGGTGCATCTAAGGGATACGGGTTTTTATGTAGCCGGTTGTAATTCAGCGCATACAT -GGCGGTGATGACCATCAGGGTGACAAATGACCACATAACCTCTTTCGCTCCGGACCCCACCACGGCCCAG -ATGCAGTAGAGGAAGGCAATGGTAGTAACTGCCAGATATGCCGGGCGTGCTTTACCAAAGTGACCGTGTC -CGAGCAGCAGTAACGCCGCACAGGTGTAAAGATATGGCACCAGTGTAAAGATGACCGAGACGGAAGAAAC -CAGACCGAACTCTTTGGTCGCGTTTGGTGAAATGCTGCTGAGCTGGAAGATGGTCATCAAAATACCGACG -ATAATCAGCCCCGCCACTGGCGTACCCGCTTTATTTACACGGGCAAAAATCGGTGGGAACAGTCCGTCAT -CGGCAGCGGCTTTCGCCGTTTGACCCGCCAGCAACGTCCAGCCGCCCAGTGAACCTAAGCAACCCGCAGC -TGCGCAGAAGGAAACAATGGCCCCGGCGGTGTCACCCAACGCCATCCGTGCGGCATCACCGAATGGCGAA -GCAGAAACGCGCAGTGCGGCATTAGGGATCATCCCCATAATCGCGGTGGTAGAAAGTACATAGCAAACGG -CGGCAATCAATACCCCACCAATGGTGGCGATAGGGACATTGCGTTTCGGGTTTTTCACCACACCTGCGGC -AACGGAGGCACTTTCCACACCGATGAACGACCACAGCGTAACGTTAAGGGTACTTTGAATTGCACCGAAG -GTGCCCAGGCCGCTGACGTTCCATGCCGCCATATAGGTTTCACCACGGAACCAGAACCAGCCAAATACGG -CAATCCCGACGATGGGGATCAGCGCCAGCACGGTGGCAACTGCCTGCACACGGGTGATCATTTTCGGACC -GACAATGTTCAGCAGGACGAAGATCCACAGCACCACGACGCAGGTGATGGTTAATACCAATGGATCTTTC -AGAATCGGGAAGAAGTAACTTAAATATCCTACGCCAATGACCACCATGGCGATATTGCCGATCCAGCAGG -CCAGCCAGTAGAGGACGTTGGTTTGATAACCGAGAAACGGGCCAAAGCAGCGGCGGGCGTAAGCGTAAGA -ACCACCAGGACTTGGGTCGAGGAACGACATTTTGGCGTATACCATCGAGAGCCCCAGTGCACCGATAATC -GTCACCAACCATCCATAAATGGCAATCCCGCCAGTAGAGGCCAGGTTTGCAGGTAACAGAAAAACACCTG -ACCCCATAATATTCCCCGACACCATCAGGGTGACGGGGATTAAGCCCACTTTGTGAGCATCAGCATCCGA -AGACATAATTAAACTCCTGCGAAGGCGAGCTTCGTGACAATAAATTACGTCATATCATACGCCTGCATTC -GATAGTTGAATTATTATCGACCGGGTTATCGCTGATGCCGTTATTAATATAGCTCTTCGTTAAGGTTAAA -AATCAGGCGACAGTGCGTTCTCTGTGCTGACTAACATAATGCAGCGGCGTCATACCGTAGAAGTCTTTAA -AGACAGAAATAAAGTACGACGTACTGTTGTAGCCGCAGGACTGTGATACCTGAGAGATATTTTTACCGTC -CATCATTAATTCATTTACGGCATAACGCATGCGGCAGGTGGTGATTATTTGGCTATAACTGGTGTTTTCG -CTTTTCAACTTTTTTTTTAACAGACTTGGGCTAAGACATAAACAACTGGCTACCATACTAAGATTCCAGT -CTTTGTGAATATCGCTTTCAATAATTTGATAAACGCTGTCACTTACACAATTACGTAACATATACATCAT -TAATGAAACGAATTTTTTACTGTCGAGAAAACGGGATAGCACCGTGAATAATAATGCGCGTGTTCGTTCC -TTTTCTGACTCAGTTTCTGCGGGCATCATGCTGTGTTGCGCGGCAACGCGAAAGACGTCTGGCGTCAGGC -ATGGCAGGGTGAGTATGGGCGTAGCGCTACGTTGCCATACTGGTATTTGCGAGAGATCTTTATTCAGAAA -CCGGAGGTAATCTTTGATGATGTCGTGACTAATATGAGCAACCAAAGTGTTGTTAAGAGAGGAGACGTCG -ATAATATTATTTTCACAATTTAATAACGCCATATGGTTAGCTTTAAGGCTAATAGGTTCTTTCCCATTCA -CCCTTATCCAGACATCTTTTTCAGTCAATAAAACAATACAAGGTTGGTCGCTGCAAATCCTCATACATGT -ACTCCTGAGTGCGAATAAAAGACCAGTTCTCGCTAAAGCAAAGCGATACCGGGAAATGGTTATATAATTG -TATGATGAATATAAACATGCATAAAAATAACGAGTTTTACTAATAGTACAAATTTTTATAGTAATTTCTC -ATGTACATATTTTTTTACAGGATAAATAACAGGCAAAAAAAAGCGCGGGGTGGGGCCGCGCAAAAAGTAT -GACATTTTTGTTTGCAGCAATTTTTATGAAAACGTTGCCATACTCAAAAGGCCTAAGGCCAGGCGGCGTA -ATGTTATTTAAACAATTACGCCTTCAGCGGAATAGTGGTTACGCTTTCACGCACATAACGTGGTAAATAC -CGTCAATAATTTCAGTCCCTTCAGTTTCGTGTTCAAATCCAGGGAAATGGTGGTCCCAGGATTGCAGCGA -GCGTAAATAACTTACTTGCGGACTGTTTTTATCGCCGAAGTTTTCACCAGACAGCAGCATCGGGATTCCT -GGCGGATACGGGATAACTGAGTTTGCCGCGATGCGTCCTGGCAGATTTTCAATGGATACCAGTTCGACAT -TGTTGTCGACAATCGCGTTGTACGCTTCACGCGGGGTGACTTCCGCCACCGGCAGGCCGGAATAGGCTTC -GTTCAACCGTGCGCCAGGGTTGTTTTCTTTCAGCCAGGCAAACATGGTGTCACCCAGATCGTGAATCCCC -ATGTTCGCGTAAGTGTCAGGATATTGTTCAACAAGTTCCGGCATCACCTGCGCCAGCGGTGTGTTGGCGT -CATAGTGGCGTTTGAAGGAGCAAAGGGTGTTAACCAGAGTTCCCCATTTCCCACGGGTTACGCCCATAGA -GAACAGGAACATAATTTGGAAGTCAGTGGTGCGGGTAGGTACAATGCCGTGGCGACCAAGCCAGGCAGTG -ACCAGCGCCGCCGGAACACCGGTTTCTTCCAGTTCACCATCTTCACCCATTCCCGGAGCAAGGATGCTGA -TTTTAATCGGGTCGAGCATACTCCAGTTATCCGGAATATCTTTGAAGCCGTGCCAGCTTTCGCCCGGATG -CATTACCCAGCAGTCCTGAACGGTGGTCAGCAGTTTGGTTGGTGCGTCAGCAAAGTCATAGGTTTTGCCG -GTTTGTGGGTCGGTGACGACTTCTTTGTTCCACGGTTTGAAGAACCAGCTACCGTCAGCGGTGAACTCTT -TATATAGCCGCGCCATCGCCTGACGGAAATCAACCGCTTCGTCAATCACTTCCTGTGTCAGTGACAGGCC -GCTGTTGCCGTCCATCATCGACACCGCCACGTCGTTGGATGCGCAGATGGCATACAGCGGGGAGGTGGTG -GCATGCATCATGTAGGCCTGGTTGAAGCGGGAGAAGTTAATCGCCCCACGACCTTCACGTACATGAATAT -AAGAAGCCTGTGACAGCGCATTCAGCAGTTTGTGGGTGGAGTGGGTGGCGAAAACGGTAGGACCGTTGTG -ATCGCCAGGTTCGCCGCGCATGGCATAGTGATCGGCATAGATCGGGTTGAAACGTGCATAGCCGTACCAG -GCTTCGTCAAAGTGCAGACGATCGGAGGTTTTTTCCAGCAGATCCTGCGCTTCTTTAGCGTTATAACACA -CGCCGTCATAGGTGCAGTTGGTCACCACGCAGTAAGACGGTTTTTGCCCGGCTTTGTCTTTGGTCAGCGG -GCTTTCACTGATTTTCTTCTGCAAGGTTTCAGGTTGCATTTCCTGCGGATAGATTGGCCCGATAATGCCG -TAGCGGTTGCGGCTTGGCACCATATAGACCGGTTTCGCGCCTGTCAGCATCAAACCTTGTTCGATGGATT -TATGGCAGTTACGGTCAACGACCACGACATCGTTATCGGTCATGCAAGCCTGCATGATGGTGCGGTTAGA -GCCGGAAGTACCGACGACTACCGACCAGGAGCGATCGGCACCAAATACGCGTGCGGCATATTTTTCGCTT -TCGCCAAATGCGCCAGTATGGTCAAGCAAAGAACCGAGGGAAGTTCGTTCGATGCCCATGTCGGTGCGGA -ACAGATTTTCACCATAGTAGTCATGGTAGAAACGTCCGGCGGGTGTTTTGGTAAAACCAACGCCGCCCTG -GTGGCCTGGCGCTGCCCAGGAATATTCATGGATGTCACTATATTTCATCAGCGCGCTGAACAGTGGCGGC -AACAGCTGCTGGCGGTAGCGGGTCATCGCGGCAACGGCGCGTCCGGCGATAAAGTCGGCGGTATCTTCCA -GAATCCAGGCGAATTCATCGACAAGCTCCAGCAGGTCGCGATCCATTGCGGCGAGGGCTTTTTCCCGATC -GCCCAACAGGAAGACCGGCACGTTTTGTTGGCGCTCATGAAGCTTACCGATCAATTGTCTGACGTTTTGA -TGTTCGTCCGGATGTTCCATTTGATAGCTGAACATCAGGCAGTCAATGGCTTCGTTTGAAGAGAGAATGG -CAAAACCATCATCAAAGGAGGTGGATTTAATCACGGTAACATTTTGCTGGCTTAAAGCATCTGCCAGACG -CTCAACGGCGTTACCGACCCAGGTGTCTTGATGGAGAAACTCGCTTTCAACAATTAATACTTTCATCATT -GCTTACCCGGTTATGAAGGAATCTTCGTTGCGGGCAAGTATCTTCCGGCCTTTTCGGGCTGTAAAGCGCG -TGAAAAACAAACATTTTTGAAATATTTAGTTTTATAAACAATACGTTATGTGATTATTTTAAATTATTTT -CACTGCTTATTATCGACGGCTAAACTATTTTTTTGGCTGATACTGATATCGTCTTTAGCCGGGAAACGTC -TGGCGGCGCTGTTGGCTAAGTTTGCGGTATTGTTGCGGCGACATGCCGACATATTTGCCGAACGTGCTGT -AAAAACGACTACTTGAACGAAAGCCTGCCGTCAGGGCAATATCGAGAATACTTTTATCGGTATCGCTCAG -TAACGCGCGAACGTGGTTGATGCGCATCGCGGTAATGTACTGTTTCATCGTCAATTGCATGACCCGCTGG -AATATCCCCATTGCATAGTTGGCGTTAAGTTTGACGTGCTCAGCCACATCGTTGATGGTCAGCGCCTGAT -CATAGTTTTCGGCAATAAAGCCCAGCATCTGGCTAACATAAAATTGCGCATGGCGCGAGACGCTGTTTTT -GTGTGTGCGCGAGGTTTTATTGACCAGAATCGGTTCCCAGCCAGAGAGGCTAAATCGCTTGAGCATCAGG -CCAATTTCATCAATGGCGAGCTGGCGAATTTGCTCGTTCGGACTGTTTAATTCCTGCTGCCAGCGGCGCA -CTTCAAACGGGCTAAGTTGCTGTGTGGCCAGTGATTTGATCACCATGCCGTGAGTGACGTGGTTAATCAG -GTCTTTATCCAGCGGCCAGGAGAGAAACAGATGCATCGGCAGATTAAAAATCGCCATGCTCTGACAGGTT -CCGGTATCTGTTAGTTGGTGCGGTGTACAGGCCCAGAACAGCGTGATATGACCCTGATTGATATTCACTT -TTTCATTGTTGATCAGGTATTCCACATCGCCATCGAAAGGCACATTCACTTCGACCTGACCATGCCAGTG -GCTGGTGGGCATGATATGCGGTGCGCGAAACTCAATCTCCATCCGCTGGTATTCCGAATACAGCGACAGC -GGGCTGCGGGTCTGTTTTTCGTCGCTGCTGCACATAAACGTATCTGTATTCATGGATGGCTCTCTTTCCT -GGAATATCAGAATTATGGCAGGAGTGAGGGAGGATGACTGCGAGTGGGAGCACGGTTTTCACCCTCTTCC -CAGAGGGGCGAGGGGACTCTCCGAGTATCATGAGGCCGAAAACTCTGCTTTTCAGGTAATTTATTCCCAT -AAACTCAGATTTACTGCTGCTTCACGCAGGATCTGAGTTTATGGGAATGCTCAACCTGGAAGCCGGAGGT -TTTCTGCAGATTCGCCTGCCATGATGAAGTTATTCAAGCAAGCCAGGAGATCTGCATGATGTCTGCACCC -AAAATTACATTTATCGGCGCTGGTTCGACGATTTTCGTTAAAAATATTCTTGGTGATGTGTTCCATCGCG -AGGCGCTGAAAACGGCGCATATTGCCCTGATGGACATTGACCCCACCCGCCTGGAAGAGTCGCATATTGT -GGTGCGTAAGCTGATGGATTCAGCAGGGGCCAGCGGCAAAATCACCTGCCACACCCAACAGAAAGAAGCC -TTAGAGGATGCCGATTTTGTCGTGGTGGCATTTCAGATTGGCGGTTATGAACCTTGCACGGTGACTGATT -TCGAGGTCTGTAAGCGGCATGGTCTGGAACAAACCATTGCCGATACGTTGGGGCCGGGCGGTATTATGCG -CGCGCTACGTACCATTCCGCATCTGTGGCAAATTTGCGAGGACATGACGGAAGTCTGCCCCGATGCCACC -ATGCTCAACTATGTTAACCCAATGGCGATGAATACCTGGGCGATGTATGCCCGCTATCCGCATATCAAAC -AGGTCGGGCTGTGCCATTCGGTGCAGGGAACGGCGGAAGAGTTGGCGCGTGACCTCAATATCGACCCAGC -TACGCTGCGTTACCGTTGCGCAGGTATCAACCATATGGCGTTTTACCTGGAGCTGGAGCGCAAAACCGCC -GACGGCAGTTATGTGAATCTCTACCCGGAACTGCTGGCGGCTTATGAAGCAGGGCAGGCACCGAAGCCGA -ATATTCATGGCAATACTCGCTGCCAGAATATTGTGCGCTACGAAATGTTCAAAAAGCTGGGCTATTTCGT -CACGGAATCGTCAGAACATTTTGCTGAGTACACACCGTGGTTTATTAAGCCAGGTCGTGAGGATTTGATT -GAGCGTTATAAAGTACCGCTGGATGAGTACCCGAAACGCTGCGTCGAGCAGCTGGCGAACTGGCATAAAG -AGCTGGAGGAGTATAAAAAAGCCTCCCGGATTGATATTAAACCGTCACGGGAATATGCCAGCACAATCAT -GAACGCTATCTGGACTGGCGAGCCGAGTGTGATTTACGGCAACGTCCGTAACGATGGTTTGATTGATAAC -CTGCCACAAGGATGTTGCGTGGAAGTAGCCTGTCTGGTTGATGCTAATGGCATTCAGCCGACCAAAGTCG -GTACGCTACCTTCGCATCTGGCCGCCCTGATGCAAACCAACATCAACGTACAGACGCTGCTGACCGAAGC -TATTCTTACGGAAAATCGCGACCGTGTTTACCACGCCGCGATGATGGACCCGCATACTGCCGCCGTGCTG -GGCATTGACGAAATATATGCTCTTGTTGACGACCTGATTGCCGCCCACGGCGACTGGCTGCCAGGCTGGT -TGCACCGTTAAAACGCGACTAAACGCTACTGCGCCGGGGGATTTATTCCGGCGCACACCTCTGACGATAC -CAATAACAGAAGGCGGGCGTTGGTAACAGCGACCCGATACCCTATGAGCATTTCAATGACTACAAAACTC -AGTTATGGATTTGGAGCGTTCGGGAAGGATTTTGCGATCGGCATTGTGTATATGTACCTCATGTATTACT -ACACCGATGTCGTCGGGCTGTCTGTGGGTTTGGTCGGTACTTTGTTTCTGGTGGCGAGGATCTGGGATGC -TATTAACGATCCGATTATGGGATGGATTGTAAATGCTACGCGATCGCGATGGGGTAAGTTCAAACCCTGG -ATCCTGATCGGTACGTTGGCAAACTCTGTAATCTTATTTCTCCTCTTTAGTGCGCATCTGTTTGAAGGTA -CTACTCAGATTGTCTTTGTTTGCGTGACCTACATCCTCTGGGGCATGACTTACACCATTATGGATATTCC -CTTCTGGTCGCTGGTTCCAACCATCACGCTCGATAAACGTGAGCGCGAACAACTGGTTCCTTATCCGCGT -TTTTTTGCCAGTCTGGCAGGCTTTGTTACGGCAGGTGTGACGCTACCATTTGTTAATTATGTCGGCGGTG -GCGATCGGGGATTTGGCTTTCAGATGTTCACTCTGGTACTGATCGCCTTTTTTATTGTTTCAACCATCAT -CACTCTGCGCAATGTGCATGAAGTCTTTTCGTCAGACAATCAACCGTCTGCTGAAGGAAGCCATCTGACA -CTTAAAGCCATCGTTGCGCTAATTTATAAAAACGATCAGCTTTCATGCCTCTTGGGTATGGCTCTTGCTT -ATAATGTAGCCAGCAACATTATTACCGGCTTTGCTATCTATTATTTCTCATATGTTATCGGTGATGCGGA -TTTGTTCCCCTATTATCTGTCGTATGCGGGAGCTGCTAACCTGGTGACGTTAGTATTCTTCCCACGCTTA -GTTAAATCATTATCCCGACGCATTTTATGGGCCGGAGCATCTATTCTTCCGGTGTTAAGCTGTGGTGTTC -TCCTGTTAATGGCATTAATGAGCTATCACAACGTCGTCCTCATTGTGATTGCGGGTATTTTGCTGAATGT -GGGAACGGCGCTTTTCTGGGTATTACAGGTCATCATGGTGGCAGATATCGTTGATTACGGTGAATATAAA -CTGCACGTACGCTGTGAAAGTATCGCTTACTCCGTGCAGACTATGGTGGTGAAGGGCGGTTCAGCCTTTG -CGGCTTTTTTCATTGCGGTTGTGTTAGGGATGATTGGCTATGTACCGAATGTTGAACAGTCTACGCAAGC -CCTATTAGGTATGCAGTTTATTATGATTGCTCTACCAACTCTGTTTTTCATGGTAACGCTGATTCTCTAC -TTCCGTTTCTATCGCCTCAATGGTGACACGCTGCGCAGGATCCAGATCCATCTGCTGGATAAATATCGCA -AAGTACCGCCCGAGCCTGTTCATGCTGATATTCCGGTCGGTGCAGTGAGTGATGTGAAAGCCTGACGTGG -ACAATAGCTAACGAAAATGGCCTGATGCGATATGTTTATCAGGCCACGTCTTAATGTAATGCTTTGGATT -TGCAAATTTTGTAGACCGGATAAGGAATTCACGCCGCATCCGGCATCAACAAAGCGCAAGTTGTTATCCG -GTTATCAAGCCAAAGCGCCGTAGCTGGCGGCAATGAAAGCGAGCGAGGAATATCACCGTCGTTAATGCGC -CAAGCAGCGCGCAGAACATATCGGATTGCGTGTCCCACTGGTCGCCCTGGGTGCCGAGAAAATCATCCGC -TCCCTGACCCATTGCCAGCGCTGCCCACCACTCGATTAATTCATACATCGCGCTTATCGCCAGCGCCACG -CAGCAGACCAGGAACGCCACCATTTTACGTCCGCGCACGTACATCCCGCGAACGAGAATTTCTCGTGCCA -CCAGTGCAGGCACCAGCCCCTGGAAAAAGTGCCCCAGCTTGTCATACGGATTACGACTCAACCCCAGCCA -TTCCTGCACCTCAAAACCAACGGGGACTTTCGCGTAGGTGTATTGTCCGCCGACCATCAGGATGATGGCG -TGAAGGAAAATGAGCGTATAGAGCAGCGGCGTTAACGGATAACGTCTGGCGGTGGCAAGCAGTAGCTGCA -CGACAATAATCACCGGTGTCACTTCCATCAGCCAGGTGAGTTTGTCATGGGCCGAAATGCCGGTATAAAT -CAGGATTAACGTTAGCGTCAGTGCGCTGGTGTTAAGAATTAACGGCTTGAGTGTGCGGGTCATGGTGAGT -TCGCAAATCAGGGAAAATACTGACTATTCACCAGCAAGCGTGAAATTACAATCGCAAAAGAGGTGGCCAG -GGGGATCACCTGGCAGCATGCTGCCAGGCGCTGGGCCGAAGAGGTTACTTAGTGCAGTTCGCGCACTGTT -TGTTGACGATTTGCTGGAAGAAGTCGTTACCTTTGTCATCGACCAGGATAAACGCCGGGAAATCTTCTAC -TTCGATTTTCCAGATAGCTTCCATACCCAGCTCCGGATAAGCGACGCACTCCAGATGCTTGATGCTCTGC -TGCGCCAGTACCGCCGCCGGACCGCCGATGCTACCGAGGTAGAAGCCGCCGTGTTTATGACACGCGTCGG -TAACCTGCTGACTGCGGTTACCTTTCGCCAGCATGATCATGCTGCCGCCGTGGGATTGCAGCAGATCCAC -GTAGGAGTCCATACGGCCTGCGGTGGTTGGGCCAAGTGAACCTGATGGATAACCGGCAGGGGTTTTCGCC -GGACCCGCGTAGTAGATCGGGTGATCTTTGATGTACTGCGGAAGTTCTTTACCGGCGTCAATCAGCTCTT -TCAGCTTGGCGTGTGCAATATCTCGGCCCACGATAATGGTGCCGGTGAGCGACAAACGAGTGGATACCGG -GTATTGCGAAAGCTGGGCGAGGATCTCTTTCATCGGGCGGTTAAGGTCAACTTTCACCGCTTCGCCTTCA -CCGGCCTGGCGCAGTTCTTGTGGAATGTACTGGCCTGGGTTGTGTTCCAGTTTTTCGATCCAGATACCTT -CGCGGTTGATTTTCGCTTTAATGTTACGGTCAGCGGAGCAGGAGACGCCCATGCCGACCGGGCAGGATGC -GCCGTGACGTGGCAGACGGATAACGCGAATGTCGTGCGCGAAGTATTTACCGCCAAACTGCGCGCCAAGA -CCGAGTTTCTGGGCCTCTTCCAGCAGTTCCTGTTCCAGCTGGACATCGCGGAACGCCTGACCATGTTCGT -TCCCTTCCGTCGGCAGTTCATCGTAATAGTGAGCGCTTGCTAACTTGACGGTTTTCAGGTTGGTTTCCGC -AGACGTACCGCCAATCACAAACGCGATATGGTACGGCGGGCAGGCTGCAGTACCGAGGGTACGCATTTTC -TCGACGAGGAAGTTTTTCAGTTTGCCGGGAGTCAGCAGGGCTTTGGTTTCCTGGTAGAGATACGTTTTGT -TGGCAGAGCCGCCGCCTTTCGCAACGCAAAGGAATTTGTACTCATCGCCATCTACCGCGTACAGGTCGAT -TTGCGCAGGCAGGTTAGTGCCGGTGTTGACCTCTTTGTACATGTCCAGCGCCGCATTCTGTGAATAGCGC -AGGTTATCTTCGATATAGGTGTTATAGACGCCTTTCGACAGCGTTTCTTCATCACCGCCGCCGGTCCACA -CGCGCTGGCCTTTTTTACCGACGATGATCGCGGTGCCGGTATCCTGGCAGGTCGGCAGCACGCCTTTGGC -GGCGATTTCGGAGTTTCTTAAGAATTGCAGCGCCACGTACTTGTCGTTTTCGCTGGCTTCTGGATCGTGA -AGAATAGCCGCAACCTGTTTCTGGTGTGCCGGGCGGAGCATAAAAGAAGCGTCGTGAAAGGCTTGCTGCG -CCAGCAGGGTCAGGGCTTCTGGTTCCACTTTCAGGATGGTTTCGCCGTCGAAGTCGGCAACGCTAACGTA -ATCGGAAGTGAGTAGATAGTATTCGGTATTGTCTTTCCCCATCGGGAAAGGTGCCTGGTAGATAAAGGGT -TTGTTTGACATAGCTTCCAGCCTGTAACTCTGTATTTGTTATTCGAAAATGGCGTGCCGCGTAGTCACGG -GCGGCACGCAAAGTGCATTTATAAGAACCCGTACATCGCGGCGAAGATCCAGCCGAAGACGCACGATACG -CTCACACCAATCAACCCCGGCAGAATAAAGCTGTGGTTGATGACGAAGCGACCGATGTGGGTGGTGCCGG -AACGGTCAAACTGAATCGCTGCCAGATCGCTCGGATAAGTCGGCAGGATGTAATAACCGTAGCAAGCCGG -TGCTGAAGCCACGATGTATGCCGGATCAACGCCGATCGCCAGCGCGACCGGAACAATCGCCGCCAGCGCC -GCAGCCTGAGAGTTTACAAACTTGGAAACCAGCAGCAGAACAATGGCATAGGCCCACGGATACTCTTTCA -CCATTTCACCCAGTACGCCCTGAATTTCAGACATATGCGCACCGAACATGGTTTCTGCCATCCATGCGAT -ACCGTACACCGCCACGATGGCGATCATACCGGAACGGAAGACTTCGTTTTTTGAGATAGACGCGGGATTG -GTTTTGGTCAGGATAATAATCAGCGCCCCGGTCAGCAGCATAAACATCTGAATAACCAGTACCATCGACA -GCGGTTTGCCGCCGAAGGATGGACGCAGGTCCGAATCAGCACCAAGAAGGGCGACTACAGCGATTGCCCC -GAGGAAAATCCACATTGCCAGCCAGTTGCTTTTCGGCAGTTTTTTATCCAGCAGCGTCGCGGTATCACCG -TAAACATACTCACGGTTTTCCGGTACGGAGATGAATTTCTGGAACTCTTCGTCTTTATCCAGATCTTTAC -CGCGGAACCAGCTGAAGATACCGATCGCCAGGATACCGATTAACGTCGATGGAATGGTGATTGCCAGCAG -ATCGAGGAACTCAAGATGGCGACCATCAAAGGTGACATTACCCAGCATCGCAACCAGAGACACGACCGCA -ACCGACACCGGACTGGCGATAATCCCCATCTGTGCACCGATAGAACTTGCCGCCATCGGACGTTCCGGAC -GGATGTTGTTCTTAATGGCGACGTCGTAGATGATCGGCAGAATGGTGTAAACCACATGACCCGTACCGCA -AAGAATGGTCAGTGTACAGGTCACAAACGGCGCGACAATTGAGACATATTTCGGGTTGCGGCGCAGCAGC -TTCTCGGCAATTTGCAGCATGACATCAAGACCGCCCGAAGCTTGCAAGGTCGCCGATGCCGCCACCACCG -CAATGATAACCAGCATGACATCAACTGGTGGTTTACCTGGCTGAAGGTGGAAGACGAAGACCAGAATGAC -CAGACCGATACCGCCTAATAAACCCAGCGCGATACCACCCTTTCTGGCACCATAAAACAGACATATCAGT -ATTATGATAAGTTGGATAGTAAATAACATGTGTGAACCCTCGCGATAATCCTATTTAAATTTTTGCTGAA -TAGATCACAGTCACGTTCTGTTTTGTATGAACTGTTTTCAGAGCCTGACTAAATATCCGTTTGGTCGTTA -CCGGCTTTAGCAAATACCTCACAGTGAATATTGGCTGATTAAAGCAGCGGCAAATTTATGCACTGTGATA -AGCGGCTTTTTCAGAGAGAAAGACTCTCTGGCGATGGGTTTATAGTTTGTACTGCGCAGATGTTAATGTT -TTGTTTGCTGTTATCTTATTGATATTTATCGGTCTATTTTTTGTTCTCAGGGCAGATGTCATTAGGTTTA -TAGATTAATCTGATCTACCCATTTGTGGGTAAAAATACACATAATGCGGGTGACATAATAGTTAATTAAC -TTTTGTTAGCGTTTTGAAATTAAAAACACCGTTCACCTGAAGAGATATTAATTTTTAGCGATGATGGAGG -GATAATTATATTTGATCTGGCACAAGTTTTACTGATGAAGGATGTAACTTGTGCCAGGGGTATTTTGCAT -TACGGTAATAATTATTACTTACAGATAACCAGCGATCCGTTATTGGCAATATTGTTTCAGTAGTGAGTAG -TGTTCTGCCTGAATACGGTAACGGTAAACTGGACGCCCCGTGACGCCATAATGGATACTGGTGAACAAGA -TGTGGCAGTTGACCAGCCAGATGAGGTATTTACGGCAGGAAACACGCGAAATGTTAACCTCGTTGGCTAG -CTCGTCGGTTGAAAATTCATAGTCCTGATGCGCGTCAATCCACTGGCACAGTGTGCGTAACGTCTGCGGC -GTTAAGCCTTTTGGCAAGCGACGAGGATCCTGTTCGTTGGAGCTGCTGCCGTGGATTAGCTGATCAAGCT -CGGCCTGGTCATAATACTGATGTTTTTCCAGCGCCATTTTCTTTTGCCGCCAGCCGGTGAGCGCCTCTTC -AAAGCGGGAAGCCTGGAAGGGTTTGATCAGGTAATCCACGACACCGTAATGCAGCGAATCTTTAATGGTT -GCCGCATCGGCTGCGGAGGAGATGACAATCACATCACTTTTGCAACGCGCGTTATGCAGGACAGGCAGTA -AATCGAGCCCGTTCTCTTTTTGCATATAGATATCGAGCAATATCAGGTCGATAGGCGTATCGCTATTGAA -GATAATCTCTTTGGCTTTCTCCAGCGTCGAGGCTGTTCCACAGCATTGAAAGCCTGGGATTTGTGCTACG -TATCGGCGATTCAGCTCTGCGACCATTGCGTCGTCATCGATAATTAATACATTGATCATCTGTTCGACCT -CTCCCCGTCCCAGGGTATCTGGACAAAAAATTGTGTGAAAATCCCGGGTTCCGATTCCACGGCGATGCTG -CCGCCGAGATTTTCTACCTGTTGTTTGACAAGTGCTAAACCGACGCCTCGCTCGCTTCCTTTTGTCGAGA -CACCTTTGTCAAAAATGTGATCGATTTTATCGGGTGCGATCCCCGGTCCATCATCATTAACTTCACAGTG -CAGCCAGCCGTGACGGTAGTGCAATGTTACGCTAATTTCGCCTCCGGGTTCCGGCCCTAATGCCTCCAGC -GCGTTTTCTATCAGATTTCCCAACGTGGTAATCAGCGTCGCGACCTGGTCCTCACTGCCGCTGTCTGGCA -GCTGGCTTTCACTGTTTAAAATCAGCGTATGGCCTAAATCGGTCGCGCGGTTAATCTTGCTGATTAAAAA -ACCAGCGATAACCGGAGATTTGATCTTACCCAGCAGAGAGCCAATCTCTTCCTGATAGTTATTGGCTGTT -TTGAGAATGTAATCTTCCAACTGCTTATAACTCTTCAGATGCAATAATCCGAGAATCACATGCAATTTAT -TCATAAATTCGTGGGATCGTTCACGAAGTGCGTCAGCATAGTTGACCAGACCGTCGAGTCGCTGCATCAG -TTTACGTACTTCAGTTTTGTCCCTGAAGGTTGAAATGGCACCGATGATAACGCCATTACTGCGCACCGGA -ACGGTGTTGATCAGTAATAGCCGGTCTTTAATCGTAATCTCTTCGTCGCGGCGCGGGGTACCGTCGCGTA -ACACTTCCGAGACATCTACCACCTGTGACCATGAGTGGCTTAGCGTCGACAGTTTCTCATCGTCCTGCGA -CTTACGGTAATTCAGCAATTCTTGTGCGGCATCGTTGATCAGCGTGACCTCGCCGCGATCGTCCACGGCA -ACGACGCCTTCTTTGATAGACTGCAACATGGCCTGGCGTTGCTCAAACAGCGTGGAGATTTCGTAGGGTT -CCAGGCCGAAAAGGATTTTTTTCAGTACCTTAACCAGAATGCAGGTGCCAATCAGTCCGACCAGCATGCC -AAATAATACCGACCAGATAATGCTCCAGCGACTGTCATTGATCTGTTGGGTCACACGGCTTAACTCAAGG -CCGATCGCCACCACGCCAATTTGTTTATGATTTTCATCGTAGATGGGGGTAAATACGCGTAAAGCCTGCG -CCAGAAAACCGCGATTGATAGCGACATTTTCTTCGCCATTCAGCGCTTTAAGGATGTCATCACCTTTAAA -TGGCTGACCAATACGCTGGGCTTCAGGATGCGAGTAGCGAAGACTTTGCATATCGGTAACGACAATAAAC -AGCAGATCGTTGCGTTTGCGTACGGCTTCCGCGATGGCCTGGATGCCACTCTCCTGCGGTTTTTTCTGCA -AGCCCTGACGGATTTCCGGCGAGTCGGCGAGGGTACGCGCCACTGCCAGTGCCTTGTTGGCTAGCCCATC -TCGCGTCATATCACTGATTTGCGAGAAGTAAATCAGATGCACCACCAATAGCACCGAGAACAGTACCGCA -CTGACCATTAAGATCACTGTGGTACTCAATTTCATCGGACGTTTGCGTAACATGCGGTAGGGCAATGAAT -GTCTCATCAGCTTCCTTGTGTGACAAATTTCTTAAGCATTATCTCTGATGAGGCGGGTAATTCAAAGGGA -GTAAGAATGATTGGCTATATAGGGGAAGAGACTCTGGCAACGGAAACTGCCAGTGCTGTATGAAGATTCC -GGGGCTATGCTTATAGCGATAATCATACTGATGAGAGAGGGAAGGTCATGGATCAGGCGCTACTGGACGG -GGGTTATCGCTGTTATACCGGCGAAAAGATCGATGTCTATTTCAACACTGCGATATGTCAGCATTCTGGC -AATTGCGTACGTGGCAACGGCAAGTTATTTAATCTCAAACGAAAGCCGTGGATCATGCCGGATGAAGTCG -ACGTCGCCACTGTGGTTAAAGTGATTGATACGTGCCCGAGCGGCGCGCTGAAATACCGTCATAAATAAGC -GAGGGTAAAATGGAAATACGCGAAGGCCACAATAAATTTTACATTAATGACAAACAAGGCAAGCAAATCG -CTGAAATTGTCTTTGTGCCGACCGGAGAGAATTTAGCGATTATCGAACATACCGATGTCGATGAAAGCCT -GAAAGGGCAAGGGATTGGTAAACAGCTGGTTGCGAAAGTCGTGGAAAAAATGCGTCGGGAAAAACGAAAA -ATTATCCCATTATGCCCATTTGCGAAACATGAATTTGATAAAACGCGGGAGTATGATGATATTCGCAGTT -GATGGGAGAGTACAGAGTCACGATATTTTTCATTCTCTCCGCGATGTGATGCAGGAGAGCATCTGAAGGG -TAGGGGGATGCACAAAGAATGGGCAGAGAGCGCGTTTTTTTGTCCCAAGTCATCCCCTTTACTGAGCAAA -AAAAAGAATATCTCCTATATGAGAATCATCAATCGGGGTTAATAAGTTTTGCGTCCCCAGAGCGTTTAAT -ATTGATAGGAGTCATATTATGGAAGGTAAAAACAAGTTCAATACTTATGTTGTTTCTTTTGATTATCCAT -CATCTTATTCCTCAGTGTTCTTAAGATTAAGATCATTGATGTATGATATGAATTTCTCCTCTATCGTGGC -TGATGAATATGGGATACCACGACAATTGAATGAAAACTCCTTCGCAATAACGACATCGTTAGCCGCAAGT -GAAATCGAAGATTTAATCAGGCTCAAATGCTTAGACTTACCGGATATTGATTTTGACCTCAACATTATGA -CAGTTGATGACTATTTCCGTCAGTTTTACAAGTAGCCAGGAAGGATAAGAAGAACATAAAAAATGGCACT -ATTCTCTAAAATATTAATTTTTTATGTGATTGGTGTGAACATATCCTTTGTCATTATCTGGTTTATCTCA -CATGAGAAAACACATATTCGTTTACTTAGTGCATTCCTGGTCGGAATAACCTGGCCAATGAGTCTGCCTG -TGGCATTACTTTTTTCTCTCTTTTAGGAGCTGTAGTTGAGTGGACCCGCTGGTTATCGTGAAACGAAGCG -TCTCTCCTCAAAACTGGATTTGCGGAACGATGAACGAAGCAGTCGCCTGACTGCTTCGTTCATTAAAGTG -AAATTTATTTCTGTGGGCGCATCGCCGGGAAGAGAATAACGTCGCGAATAGTATGGCTGTTAGTAAACAG -CATAATCATTCGGTCGATACCAATACCCAGACCAGCGGTTGGCGGCAGACCATATTCCAGCGCAGTCACG -TAATCTTCGTCATAGAACATGGCTTCGTCGTCACCTGCAGCTTTAGCATTAACCTGTTCCTGGAAACGTT -CAGCCTGATCTTCTGCGTCGTTTAATTCGCTAAAACCATTACCGATTTCACGACCACCGATGAAGAATTC -AAAACGGTCGGTGATTTCCGGGTTAACATCATTACGGCGTGCCAGCGGGGACACTTCTGCCGGATATTCC -GTAATAAAGGTTGGCTGAATCAGATGTGCTTCTGCCACTTCATCAAAGATCTCTGTGACAATACGTCCCA -ACCCCCAGCTTTTCTCTACCGTAATACCGATAGATTCAGCTAATGCTTTAGCAGCATCAAAATTATCCAG -GTCGGCCATATCGGTTTCTGGACGATATTTTTTGATTGCTTCGCGCATGGTGAGTTTTTCAAACGGTTTG -CCGAAATCAAACACATGCTCGCCATAAGTGACTTTAGTGGTACCCAGAACCTCTTGTGCCAGGGTGCGGA -ACAGTGACTCTGTCAGTTCAATCAAATCGTGGTAATCCGCATACGCCATGTAGAGTTCCATCATTGTGAA -CTCAGGATTATGGCGAACAGAAATACCTTCATTACGGAAGTTACGGTTGATTTCGAATACCCGTTCAAAA -CCGCCTACAACCAGACGTTTCAGATACAGCTCCGGCGCGATACGCAGATACATATCTAAATCCAGAGCAT -TATGATGGGTAATAAACGGGCGAGCAGATGCCCCACCTGGAATTACCTGCATCATCGGGGTTTCTACTTC -CATAAAGCCGCGCGCGACCATGAATTGACGGATAGCGGCCAGAATTTTTGAACGGACAACAAACGTTTGA -CGGGATTTATCGTTAGCGATGAGGTCCAGATAACGTTGACGATAACGGACTTCCTGATCCTGCAGACCAT -GGAATTTATCTGGTAAAGGACGTAGTGCTTTAGTCAGCAGGCGCAGCTCAGTACAGTGAATGGAAAGCTC -ACCCGTTTGCGTCTTAAACAGCGTACCGCGGGCACCGATAATGTCACCCAGATCCCATTTTTTAAACTGA -TCGTTATAAACACCTTCTGGCAGGCTATCTCTTGCAACGTACAGTTGAATACGGCCACCGACATCCTGCA -ACGTTACAAAGGAGGCTTTCCCCATGATACGACGGGTCATCATTCGGCCAGCAACCGAGACTTCAATGTT -TAAGGATTCCAGTTCCTGGTTATCCTTCGCATCAAACTCTTCGTGCAACTGGTCAGAGGTATGGTCGCGG -CGAAAATCATTGGGAAACGCCACACCTTGCTGACGTAGTGCCGCCAGTTTTTCGCGGCGATTTCTCAGTT -CATCGTTAAAATCAATAGCCTCATTGGCTCCCCGTGTTTCTTGTTCAGACATTTTGGTTCCTCTAAATCC -AGCTTTCAATTTAGCGTAGATAAAGAGACAGATCGGTACACTGTATTATCTGCCTCGACTATTAGTAACT -CAGTTTATCTTATCGAAACTAACGCTTACCTCAAGTTGATATCACTAATAAATAACCATCAAAATGGTTT -AAATGACTTATTAATCTCGATTTGTTAGTGTTATAAACTGAAAGTTAATTTATTCATAACCAATTGTTTT -TACGACAGTTAATCGTTGCTCTCCTGTATCATATTCGTCGGCGTGCTAAACAGAAAACGGGTAGCAAAGG -CCAATACGACGATGATCGCGACACAAGCCAACGTCCACTCTCCCATCTGAGAAAAGAATCGCTGGTAAGC -TGCAATTGCCATACCGCTAATTTGCGACTCTGTCGTCTGCTGTGCCACGACGCCTGCCAGCCAGTTGGCG -ACCGCGCCTGTTGCCAGCATATAAATCCCGGTTAATACGCCAGACATTTTCAGACGCGTGATTTGCGCAA -TCGCCACCGGGTCAATAAAGAGTTCGGCAAAGCCCATTAGCGCCAGCCCGGATATCATCACGCCCATTGA -CGCTTGACCGTCAGCCGCTGCATGTCGGGCATCAAATGCCAACAACATAAAGCCACAAGCCATCAGCAGT -AAGCCAAAGGCAAACTTCAGCCAGACGCGCAATGTTGAGTTGCCGCGGCTTTCTGGCGACGCCAGCCAGG -CCAGTACAACCCCAGCGAGCATCACCGCAATTGCATTCACCGACTGGAATAGTGCTGTAGGTACTTCAAT -ATTGAATGCCTGACGATTCACAAAGCGATCGATAAACAAGCTGATGGTACTGCCGCCCTGTTGTGCCAGT -ACCCAGAACAATGTCCCGACAAACATCAACAATACAATTTGCCAAAGAGCACGGCGATGTTCGGGGAATT -TGATCATCATGCGGGCAATGATTTGTGCGGCAATGAGGCAAACGATCGCCAGCAAATATCCGGACCAGTC -GTTCTCCAGCAGCAGAGTAAAAAATACTGGGGCTAAACAGAGCATCACCACTAACCAGCTCCATACTGGT -AAGGCAAATTTGACACTAGTGAGCGCTTTTTTATCCATACTACGTGTGGACTGGAAATGACGATGACCGC -TTAAGAAAATCAACAAACCGATAAACATGCCGCCACCCGCAAGGGCAAAGCCAACATGCCATCCATACCA -CTGAGCAGCCAGGCCGCAGGCGATTGGGGCTGCGATAGAACCGATATTGCCCGCAGCATACAGCAGCGAA -AAACCGCCATCACGTCGATGATCGTTCTCGTCGTAGAGCTCGCCAAGCAAACAGCTGATGTTTGATTTGA -ATAAACCGTAGCCACAAATAATGATTGCCAGCGCCAGATACAGGCTAAAGGTTGAATTTGTATCAATACC -CAGCACCACATGGCCAAGGGTCATTAACAGCGCGCCGGCAATCACTGCAGTGCGGTTGCCGAGCAGGCGG -TCGGCAAGCCAGCCGCCGAGAATAGGGGTAACGTAAACCAGAGAAGCATATGCGCTGAACAGGCTGATGG -CATGGTTATCATCAAAACCAAGCTGATGGGTGAGATAGAGAATGAGTAAGGCACGCATGCCGTAAAAACT -GAAGTACTCCCAGATTTGGATCGCCACGATATAGTATATCGCGCGCGGCTGTGAGGGTGTTTTCATGTGT -TCTCCTTATGAGCAAAAAAGGGAAGTGGCAAGCCACTTCCCTTGTACGAGCTAATTATTTTTTGCTTTCT -TCTTTCAATACCTTAACGGTATAGCGGCCATCAGCCTGACGGTATGCACCGTGAATATCGGTTTCAAAGC -CCGGATAGTGAGCGCCGATTTCACACAGCATCTGCAGGAACTCCAGAACCGGACGGCTTTCTTCGGTGAT -CATTTCACCCGGCATTACCAGAGGAACTCCCGGCGGGTACGGAAGGATCATATTGGCGTTAATACGACCT -ACCATTTCGTCGAGGTAAACTTCTTCGGTCATACCGTGCAGCTCTTTCTGGAATGCAGCATACGGAGTCA -TTACCATCGTCGGCAGCACTTCAAATGCGCGATACATCAGATCCGGCAGATTGTGGTGAACAATCAGTTT -GTGGATATTCTGAGCCAGTTCCTGAATACGCATGTTTTCATAGAATTCAGGATCTTCACGATACAGAGAC -GGCAGCATGTTTTTCACACGCAGGTTCAGGTCGAACGCACGTTTAAAGTCAGTCAGAGCACGCAGCAGGC -TCAGTGCTTTGGTCTTATCGATACCGATGCTGAACAGGAACAGCAGGTTATACGGACCGGTTTTCTCAAC -AACGATGCCATGTTCGTCGAGGTATTTCGCCACGATGCTGGCCGGAATACCAAAGTCGCTCATGGTGCCG -TCTTTTTCCATCCCCGGAGTCAGCAGGGTGACTTTGATCGGGTCAAGATACATGTGCTCGTTATCGATGT -TTTTGAAGCCGTGCCAGGTGCTGTCAGAACGCAGCGGCCAGCATTCAGTCGTATCGATATGATCCGGCTG -CCATACATCAAAGAACCAGCCATCAGATTCCGTTCTCAGACGTTTGATCTCTTTACGGAATTTGATCGCA -CGTTCAATAGAACCGTTGATCAGACGCTTACCTGCATTGCCTTTCATCATCGCCGCAGCGGTTTCAGTGG -ACGCCACGATACCGTAGTGCGGAGAAGTGGTGGTGTGCATCATGTAGGCTTCGTTAAAGGTTTCTTCGTT -TACGTCACCTTTAACGTGGATCATGGAAGCCTGAGAGAACGCCGCCAGCAGTTTGTGAGTGGACTGGGTT -TCGTAAATCACTTTCCCTTCTACACGGCCACCGCTCATACCGCATTTACCTTCGTAAATCGGTGAGAAGT -TGGTGTAAGGCACCCACGCGGAGTCAAAGTGGATGGATTTCACATCCAGTGTTTTCTTGATGAAGTCGGT -GTTGTACAGCAGACCATCATAGGTAGAGTTGGTAATTACAGCATGTACCGGCCAGGTTGCGTTTGGTGTT -TCTTTCACGCGCTTAGCAATGGTAGCGTGCTGGAATTCACTCTGTGGGATACCACCAAGAATACCGTAAG -CGTTACGGGTCGGGCGGAAATAGATTGGCGTAACATCGCTCATCATCATCAGGTGGGTCAGCGATTTGTG -GCAGTTACGGTCAATCAGAATGGTGCTGCCTGCTGGAGCAGAGTACATACCAACAATTTTGTTCGCAGTG -GAAGTACCGTTGGTCACCATGTAGCTGCGGTCTGCGTTAAAGACGCGAGCGATATACTGTTCTGCTTCTT -TGTGTGGACCACTGTGATCCAGCAGAGAACCCAGTTCAGATACTGAAATGGAAATATCAGATTTCATGGT -ATTCGGACCAAAGAAATCATAGAACAGGCTACCTACCGGGCTTTTCTGGAATGCAGTACCGCCCATGTGA -CCAGGAGTACAGAAAGTATATTTACCTTCACGAACATATTTAAACAGTGCTTTAGTCAGCGGAGGCAGAA -TAGTGTTGATATATTCGTCAGTGGTCTGCTTGATCTTATTAGCAATATCTTCAGCAGCACCCAGCGCATA -TTCAAAGAAGCTAATCTGTAAACGCAGGTCATTCAGGCTTACATCGAGAGTGGAATACGTATTAGCGAAC -GCGTACAACGGCAGGTTCTCGTTCATTTTGCTAATTTCTTCGCACAGCTCGAGATTATATTTATCCCAGT -CAAAAATAACGCCGCACAGACGCGCATTGTTTTCGATCAGTTTTAATAAGTCGTCACGGTCGTTCGGGTA -AACAATCTGGAAGTTCAGACGTTCAAGCGCGCGATGAAGTTCACGGATGGGTTCTTCTTTAAAATAAACC -CCCATGTGATTCAATATTGCAATAACGTTCATAGTCATATCTCCAGGTAAAAAAGGCCCCTCCCAACACA -TGGGACAAAATGAAAGGAGGAGCCTCGGAAAATACTTTTAATTAATGTGCGTTAGACGCGGTGTGGTTAT -CCATTGAGTGGCTCTGGCGCTCGTGCATTTTGCGAGCGTAGAACATCAGGATAATCAGGCTGACGATGAA -GGTACCTGCCAGCTCGAAGGAGCTTGCGCCCATCAGCGCGATGAAGCAGAACACGCAACCCAGTACAGAG -CAGATCAGGCTGACAAAGTTGCGGATGTTAACGCCTTCAAAACGAATCAGGTCAACGCAAGAGTAGAAAT -ACGGCAGCATAGTCAGCAGTACTGCGATACCGGTCAGTTCACCGAACAGGTCAGATGCTTTACCACCGGC -AGAGTTCATCAGAGTGATAAGGATCATCAGGGCAGTCATTTTCACTGCAGCCAGCAGCAGACCTTTTTTC -GGAATACCGTTGCTGTCGACTTCACCATAAACTTTCGGGAAGTTACCGTCGTTAGCGGCACGTACACCTG -CCTGGCCTACCAACATCATCCAGGAGCCCAGAGAAGTCAGGCACGCAAAGGCGGTGAATGCAGAAACCAG -CGGCGCAGCCCAGTTACCGAGGATAGTTGAAGCACTGATTGCAAACGGAGCACCGGAAGCCGCCATTACA -GAAGACGGATACATACCGGAAAGCACCTGAGTCGCAGCGATGTAAACAATACCTGCTAAACCAGTACCCA -GCATGGTTGCCAGCGGAACGGTACGTTTCGGGTTTTTAACCATACCAGTACTTACAGCTGCGGATTCAAC -ACCCACGAAGGCCCACAGGCAGAGCAGAATACTTTTAATGATCGCATGACCATCAGTGGTATCCGCAGTA -TTCCAGTTAGCTGCATAAGTTGCCGCATCAAACCAATGCCAGCCAACAATAGCAGTCATCACCACAGGAA -TAAGAACCAGCACCAGACCAATAGTGGTTAAACGGCTTACCCAAGTACCGCCGAGCATATTTACAAAGGT -AAATACCCAGACGATAGCAATACAGGCGATACCCGCCGGAACAGGATCATTTAATACTGGGAAGAAGGTG -GAAAGATAAGATACAGCGGTAATACCAATCGCCAGGTTACCAATCCAGTTAGCATGGTAATAAAGAACAC -CTGTCTGAAAACCAAATGCAGGGGAAATTTCTCCGGCATAAGCAATTGGGCCACCTTGTTGCGGGTTTTT -TGTTGCCAGTCGGGCATATACATACGCCAGCGACATTGCACCAATAATAGAGATAATCCAACCCCAGATA -GCAATACCACCGATACTTGCTAGGTTCGCAGGTAATAATGCAATACCGCTCCCCATCATATTACCGGCAA -CAACACCGGTACAGGCAAATAGCCCGATCTTCTTGGCAGAACTCATGCTCTTCTCCTAATTTCATTTTTG -AATTTGGAGTCCGGGTCATGATGTATAACTATTTCCTGACCAGACCAAACTGGCGATAAGATTACTCACG -AAAAAAGGATTAATCCTAAAGATTAGGTGAAATAACACAAAAGTTTCTGTAAGTGAGAACTTGAGGTTTT -TTATTAACACATCAGGATCGCAAGTTGATATCATGAAAAGATAAACATTTAATGTTTACAATGGATTGCG -TGACATTCTCTGGTTAAATTTATGTAATAAAAATTATGCGGCAAATAAATTGCCGCAACATATTATACCA -ACAGGAACATACAAAAACTCAACAACAAATATTTCCGAGCATAAATCAACCCGGAGTTACTTATTCTGAA -GCAAGAAATTTGTCGAGATAAGGTACAACATAAGGAACAGAAGTCTGGAATATACCATTTTCAATCCAGT -AAAGGGTGTTTGCCCCTGGGCGTAAATTAAAGGCGGTGAGATATGCATCAGCTGCTTCCCGGTTCATCCC -CTTCATTTCATAAACCTTGCCAAGCAACACATAATTTAGCCAGGACATTTCAAGATCAATGCCAGTATTT -ATCGCCTGGTAAGACTCATCTGTTTTACCTTTTACCAGAGCACTGACCGCTTTTATTTGATATATAATGG -ACAGGTTGTTCAATTCCGGCAGTGTAACAATGTTATCTATTTCTGTGTTCAGTGCTGCTAATTGTTTTTC -ATCTAAAGGATGTTGAGAATGGCGCACGATATCAACTAATGCTTTTTCTGCTCTCGCGTAGGTAAATTCT -GGGGATGATTGAACAATCTCACCTAATAATTCACTGGCACGGTTCAATGATTTATCATCGCCATGCAGTA -AATAATCATGTGCCTGATAAAAATTAGTTAATAACGCACCACGATGCGGCAAAATTTTCTGGAGCGTCTC -CTGCATTCGTTGTGGCCACGGTTGGTTTAACGCTTTTGATAAACTCTCCAGTAAATCATTTTGAATCGCC -AGCTGATTACCGTTAGTGATGACATAACGTTTATCCAGCATGGTTGAACCATCTGCATTGTCTACCAATT -TTATCGACATAAAGCATTGTTGAGCACGGTATTGGCGCTGATTAACAAACGCAATAGATAATGTTTTACC -GGAACTGCTCGGTTCATCAATGTTGTAGTTGATTTTGTCATGCACCATAAAGGTGGAGAAGGTGTTAAGT -GATGTCGCCACCAAATCACCCACGCCTATCGCGTAAGAGAGCTGATACGGGGAACTCCAGCTGTTACAAC -TTTTATTTACCATATTAATGTCAATATCGCGTGGATTGAGCAAAATACGCGATTTGCTCATAGGAAGACG -TGTATCAAGACTTGAAAACGCTACCAGTGCTACACAGATACCTAACGACAACAGGAAAAAAAACCATACC -CAAAAGGTAGTGAATCGTTTGCTTTTAACTGGGGATTGTTCAGGTGGCGTTGCGGTGTTTTGAATGTTAA -GACTGTGGGAGGGAGAATCTGTGGCAGGAACCGCCTCTGGTATAGGGGGAGGCGAAGATAGCATTATTTC -CTCTCCCTCTTCTTCGCTGTACCAGATAACCGGCACCATTAATTTATAGCCGCGCTTTGGTACAGTAGCG -ATATAGACAGGACTATCTTCATCATTATCTTTTAATGACTTACGTAGTTCTGAGATACTCTGCGTCACAA -CGTGATTGGTGACAATACTTCTCTTCCAGACATTATCGATAAGTTCATCCCTGCTAAGTACTTCGCCACT -GTGTTGAGCAAAGAAAACCAGAAGATCGATTAATCTCGGCTCAAGGGTAAGTTGACGCCCATTGCGGCTA -ATTTGGTTTATGGACGGAGTAACAAGCCATTCGCCAACGCGAACTACAGGTTGTTGCATAATAGAAACTC -ATTCGAAAAGGGAATGATGCAATGATAATTGCCACAACCTATTTTTACCATCTATAGATGGGTTTATTTA -CATATTATTGGTGAATGCAAGACGTTATTTTTACCAGCCATAAACTTCTTGATTACATAGTATTACGAAA -GGATTTTACTGAGAACCAGAAGTAATATTCCTTACCATCAAAATTCATCATCTTTGCCAAAGAAAAATGT -TCAGAAAATAATCCATGGAAAATTGTCCGGAGCACTTACTATTTTAATGGATTGTTAGTCTTTGCATGAG -CAAGCGAACTGATACATTTCTCTTTGTTCTCATTCAGAAAATCTCATCAGTCGCCGTTCAGACCGGTGTT -GTGCTTTATGGATGCGTTACGCTCCTGATGACGTCATTTGACGTTCAACAGCATCACGGGGCCGCACGAC -ATTTCACGTCAGTTAGTGCTATAGCTCAGGAACAAATTTTCCCGAATTGGGATATGCCCGCAAATTGCTG -GTGATGTGGGGAGAATCTGGTTGAGTTCGGTAGAATTGATTTGGAGGCAGAACGCTTAAATCGTGGCGTC -CTGAAACGAAAAACGGACCTCCGTGGAGGTCCGTTTATATGAATTTGGTGCCCGGACTCGGAATCGAACC -AAGGACACGGGGATTTTCAATCCCCTGCTCTACCGACTGAGCTATCCGGGCAACGGGGCGCATTAAACCG -TAATCTGCACATCTCGTCAACCTAATTTCAGTAAAAGCGATTCAACTGCTTAAGATTGCGGCAAATCGCT -TCTTTTCTGTGTTTCTGTCAGGTCAATGCACCACCCTGGCGGCAGCGGGCGAAGCGCAGGATATCTTCCG -CCAGCCGATGTGCAGTGTCGACATCCGCCTGGCTACGATTCACCAGCATTCGGCTTAAACAGCCTTCCAG -CACCAGTTCCATCTGCTTTGCTACCATCGCCGGATCGTCAACTTCCAGTGTGGTTAACAGTTCGTGGGTG -AAATCGTAGGCCGCGCTTTTTTGCTGATCGGCCAGTTGATGAATAGGGTGGCCAGGATCGGGATAAAACG -TACAGGCAGCGATAAATAGACAGCCCGGATAGCGGTTGTTTTTAACGCACTCCGATAACGCCTGATAACG -TGCCAGCAGCTTTTGTTCGGCGGTTTGCGTTTCGTCCAGCATCAGCTGACGACGCCAGACATCTATCTGT -TGGCTAAGATAACGCAGCGCATCGTAGAGGATTGCCTCTTTGTCTGGCCAGAAGCGGCGTAGCTCGTCCA -GTGGATAATCCACACGTTCAGCAACCATCTCCAGCGTGGTGTTGGCAATCCCTTGTAATTCTAATAATTT -CAGGGCTTCTCCCAGTACATCTTCACGTTGCACGCTATTTTCCTCCGTCTTTCCCACTGCAAGTGTCGTT -CACGGTTGGCGATCGCGCAAATGTGCGCTGAAGGTTTCAGCATCCATAAAGCCCGTGACGCGTGCTTGTG -GATGCTCCTGGCCTTGTCCGTCAAAAAAGAGAATTGTCGGTAGGCCAAGGACATTAAGATGCTTTAACAG -CGCCACATCTTGTGCGTCGTTGGCCGTGACGTTGGCCTGAAGTAAGACCGTGTCTGCTAACGCTTTTTGC -ACCTGCGGGTCGCTGAAGGTGTATTTCTCAAACTCTTTACAGGCGACGCACCAGTCGGCATAAAGATCTA -ACATCACCGGTTTGCCTTTGGCTTCAACGAGCGCCTGATTTAACTCATCTACCGTTTTGATTTGTGTAAA -GTTGAGATGCGTCTGAGTTTGCGCGGTATGCGTCGCACCAAATGCCCAATCCTGAAGTGGGCGCACGCTA -ACCAATGCCGCTGCCAGCAGAATAATTTGCACAATACGCATCCAGCCGCGTTTAGCCTGTAGGCTGGTGA -TAAAGGCCCAGCCAAAGAATGCGACACCCAGCGCCGACCACAAGCGTAATCCCCATACATCACCAATCAC -TCGCTCCAGCAGGAAGACCGGCAGTGCGAGGATCACAAAACCAAACGCGGTTTTGACTTGTTCCATCCAC -GGGCCGCTTTTCGGCAGCAAGCGGTTACCAAAGACGGTAATTAGCATCAGCGGCAGGCCCATGCCCAACG -CATAGAGATAAAGCGTGCCGCCGCCCAGCCACATGTTCCCGCTTTGGGCGATATACAGCAGAATCGCGCT -AAGCGGTGCGGTGGTGCATGGTGAACAGATCAGTCCGGCAATCGCCCCCATAACAAACACACCGCCAGGT -GAGCCGCCCTGTTGGCGATTGCTCATCAACGTGAGACGTGTTTGCAGCGAAGAGGGGAGTTGCAGGGTAA -ACAAGCCAAACATTGACATCGCCAGCAAGGTAAAGACGATGGCGAGGCCAATGAGCACGTATGGGTGCTG -TAGCGCCGCCTGGAACTGTAACCCTGCGGCGGCAACCACCAGACCCAGCGCCGTGTAGGTCAGCGCCATC -CCCTGCACATAAATAAAGGTCAGCAACAATGCTCTGGCAGTGGAGAGCCGCTGTTTACCACCCAGCACGA -TGCCAGAAATCAGTGGGTACATTGGCAGCACGCATGGCGTAAAGGCGATACCAATACCGATCAACAACGC -CCAGAGCGCGGAAAAGGGCAATTGCGCGGTGGGCTGCTCTTGCTGCGGAACAGACACAGGCTGTGGCGCT -GCGTTGTTGGCGACCACTTCGCTTAACGGAACGGTTTTGGTTTCTGGCGGATAACAGAAACCGGCATCAG -CACAGCCCTGGTAGGTGACAGTTAACGTCGCTCCCGCACTCGCCTGGTTGATGGTGACGGGAAGCGTCAG -CCGATCGCGGTAAATCTCGCTTTTGCCGTAAAACTCATCTTCATGCCAGACGCCTTGCGGCAGCTGCACG -TCGGCAATTTTCGCGTGTTCCGGCGTAATGCGGATCTGTTTACGGTAGAGGTAGTAACCGTCTTTGATCT -GCCAGGTCAGATTAAGGTCATGTTGGTTTTGCTGAAAATCAAAAGCAAAGGCTTGATCCGCGGGGACAAA -TTGTGAACGTCCCGGCGCGTCGAATAATCCGGCAAAAACGGAAGTGCTGCAAAGTAGCAGGATCAGCGTA -AAGATGCGTTGAGCCATGAGAGGTAATCTGTGTCTCCGTGTGTAACAGGTAAAACCAGAAGTTCCGGGGT -TTGATATGGATGATGAGACTTCAGGCATTCCAGCAGTGCCTGCTGGTGAGATACGGTAGTTTTTAAAATC -ATCTGCACTTCGTATTCTTGCTCCAGCTTACCTTCCCAGTAATAGAGAGAGGTAGCGCCGGGGATCAAGG -TCGCGCAGGCCGCCAGTTTTTCCGCCAGCACTTTGGCGGCTAAATCCTGGGCTGTCGCTTCATCTGGTGC -CGTACATAGCACCACGACAGACGCGGTATTCGAACTTTTTTCATCAAGCATAAACACCTCGCAAGAACAG -ATGGAACCGCAAGAGAGAGGTCACTATACAACGGACGGGGGAAGGATGTTAGTCGGCGGGAAAGAAAGCG -GGGCGTGAACGCCCCGCGATTGATCATTACAGCATGAAGCTACCCAGCACGAAGCCGAAGCAAACGGCCA -GGGCAACACCCAGAGTACCCGGGATGAAGAACGGATGGTTGAAGACGAATTTACCGATACGGGTAGTACC -CGTGTCATCCATCTGTACCGCAGCAACCAGCGTCGGGTAGGTCGGCAGAATGAACAGACCAGACACCGCA -GCGAAAGAAGCAACAGCGGTCAGCGGTGAAACGTTCAGTGCCAGAGCCATCGGCATCAGTGCTTTTGCGG -TTGCAGCCTGAGAGTACAGCAGAGCAGAAGCAAAGAAGAAGATGACGGCCAGCAGCCACGGATGACCCTG -AATCACTTCACCAGCGGTATCTTTGATCCAGTCGATGTTGTTGGAAACGAAAGTATCGCCCAGCCACGCA -ACACCCAGGATACAAATACAGGCGCTCATACCTGCTTTGAAGGTGCTGGAGTTGAGGATGTTGTCGGTAT -CGACTTTACAGATAACGGTGGTCAGAGTTGCAACGCTGAGCATGATGATCAGGATTGCGTTGGTGGTGTT -CATCAGCGGTTTTTCAACCAGACCCATGCTTGGGCTGTTGATGATTGCATAGATAACCACGCCAACTACG -CCCAGCAGGAACAGCCAGACGGACGTTTTTGCACCGGATTTGATTTCAATCTGCTTTTCACCGCGCAGTT -CAACCAGGCCCTCTTCCAGACGCTTGCGATAAATCGGATCGTCAGAGAGTTTGGAGTTGAACAGCATAGT -GACCAGGAAGGACATCACCAGAACCGCCAGCAGGGTGGACGGGATGACCACGGAGAGCAGATGGAGGTAG -CTGATGCCATGACCTTCCATCACGGAAGACATGTAAACCACTGCCGCTGAGATTGGCGATGCGGTGATCG -CAATCTGCGCGGATACCACTGCAGTAGACAGCGGACGGCAAGGTTTAACGCCTTGTTCCTTCGCAACTTC -AGCGATAACTGGCAGTGTCGCCAGAGAGATGTTGCCAGTACCAGCAAAGATAGTCAGGAAATAGGTCACG -ATCGGTGCGAGGATCGTGATGTATTTCGGGTTACGGCGCAGCAGCTTTTCTGTCTGATGAACCAGATAGT -CCAGACCGCCAGCAACCTGCATGGCAGAAATAGCGGCGATAACCGCCATGATAATGGAGATGACATCGAA -CGGGATGTTACCGGGTTTAACGCCAATAGCGGCAAGAACCAGCACCCCCAATCCGCCTGCAAAACCAATA -CCTATTCCCCCCAATCTGGCGCCCAAGAAGATCGCCAGCAAAACTATGATGAGTTCTACAACTAGCATAT -TAGCCTTCCTTGTTTTTTAACAAGTTGATATTAGATTGTTATTTTTAAGTTACTGCTCACAAGAAAAAAG -GCACGTCATCTGACGTGCCTTTTTTATTTGTACTACCCTGTACGATTACTGTTCGCTTTCATCAGTATAG -CGTTTTGCTTTGTAAGCCGGGTGCATCAGATTCTGTACGGAGAAAATATCGTCAAGTTCCGCTTCAGTCA -ACAGACCGCGTTCCAGAACGACTTCACGTACACTCTTACCGGTTTCGGCACAGATTTTACCCACGATGTC -ACCGTTGTGGTGACCGATGAACGGGTTCAGGTAAGTAACGATACCGATAGAGTTGTAAACGTAACCTTCG -CACACTTCTTTGTTAGCAGTGATGCCGTTAATGCATTTTTCCAGCAGGTTGTAGCAAGCGTTGGTCAGAA -TGTGAACGGATTCGAACATGGCCTGGCCAATGACCGGCTCCATAACGTTCAACTGCAGCTGACCTGCTTC -TGCTGCCATGGTAACAGTGGTGTCGTTACCGATGACTTTGAAGCATACCTGGTTAACCACTTCCGGAACA -ACCGGGTTTACTTTAGCTGGCATGATGGAAGAGCCCGCCTGCAGTTCCGGCAGGTTGATCTCGTTCAGGC -CGGCACGTGGGCCTGAAGAGAGCAAGCGCAGGTCGTTACAGATTTTGGACATCTTCACAGCCAGGCGTTT -CAGCGCGCCGTGAACCATAACATAAGCGCCGCAGTCAGAGGTCGCTTCGATCAGGTCTTCAGCCGGTACG -CATGGGAAGCCAGTAACTTCAGCCAGTTTTTTCACTGCCAGCGGAGAGTACTCTTTCGGCGTGTTCAGAC -CAGTACCGATTGCTGTTGCACCAAGGTTAACTTCCAGCAGCAGTTCAGCGGTACGTTGGATGTTTTTCAC -TTCTTCTTTCAGCAGGATGCTGAAAGCGCGGAATTCCTGACCGAGGGTCATCGGTACTGCGTCCTGCAGC -TGGGTACGACCCATTTTCAGGATGTCCTGGAATTCGACAGCTTTACGTTCAAAGCCTTCACGCAGTTGGT -TAATCGCATCTACCAGCTTAATCAGGGAAGAGTAAACTGCGATACGGAAACCGGTCGGGTAGGCGTCGTT -AGTGGACTGACATTTGTTAACATGGTCGTTCGGGTTCAGGTACTGATATTCACCTTTTTGGTGACCCATC -AGTTCCAGACCGATATTGGCCAGCACTTCGTTGGTGTTCATGTTTACGGAAGTACCTGCGCCGCCCTGGT -AGACGTCTACCGGGAACTGATCCATGCATTTTCCGTTGTTCAGGACTTCATCACATGCGGCAATGATGGC -ATTCGCTACACTTTTAGGAATGGTTTGCAGCTCTTTGTTTGCCATAGCTGCGGCTTTTTTAACCATTACC -ATACCGCGAACAAATTCAGGAATATCACTGATTTTGTTGTTGCTGATATAGAAGTTTTCAATCGCTCTCA -GAGTGTGAACACCATAGTAGGCATCAGCTGGAACTTCCCTGGTACCCAACAGATCTTCTTCGATACGAAT -GTTGTTTGACATGTGAACCTTCTTTTTCAAGCTGCCAATGATTTGCTTTAAACACACAGAATATATGTGG -TTTCGAATGTTTTTCGACCGACGATTATCCCCTGCATCGACCGAATACCCGAGATCATATGCTGCTTGAG -GATTTCTACCGTAATCTGGATCACTTTAAGTGTCGGTTTTTACCCCTTAATTATTAATTTGTGAAATAGA -TCACCGCTTTGGGATTACTACCAAAAATAGTTGCGCAAACATCTTGAAATTTTGCTAATGACCACAATAT -AAGCTAAACGCGATTCGCAACCCATTCAGGTAGCCGGGGTTAACCGGCTGCTATTACAGGAGAAACCTTT -GCGCTGGTTACCTTTTATTGCCATTTTCCTTTATGTCTATATTGAGATTTCAATCTTTATTCAGGTTGCC -CATGTATTGGGGGTATTGCTGACCCTCGTGCTGGTTATATTCACGTCAGTTATCGGTATGTCACTGGTAC -GTAACCAGGGCTTTAAGAATTTCGTGCTGATGCAGCAAAAAATGGCGGCGGGTGAAAACCCAGCGGCGGA -GATGATTAAAAGTGTTTCGCTGATCATTGCTGGTTTGCTGCTTTTATTACCGGGCTTTTTTACCGACTTC -CTCGGTCTTCTACTTTTATTGCCGCCGGTGCAAAAGCATCTGACAGTGAAGTTGATGCCGCATTTGCGCT -TTTCTCGCATGCCTGGCGGCGGTTTTAGCGCCGGGACCGGTGGCGGTAATACTTTTGATGGTGAGTACCA -GCGAAAGGATGATGAGCGCGACCGCCTTGATCATAAAGACGATCGCCAGGATTAATGTCGAAACGCCGGA -TTATGTGGTTATGCCATTTTCCGGCGTTTTTCGTTTTGGCAGCAACAGCCATAACCCCGCCAGCATGATC -AGCGCATAGAGACTTTTCCAGCCGACCATTGCCAGTAACAGAACGCATAACAGCCCGCCAACCACCGCCA -GTAGTCGATAACGTCCTTGCAATAATTTACAGCCTGCCAGCATGCATAACAGATAAATCATAATAAAGAT -GCCATTGGCATAAATAATAAGAGCGTCCAGATTGATCTCTAAAGCATGAATCACCAAAGTGCTCACCACA -CAGCAGCCGAGCACCGCATTGAGGGCATTATTCGGGATATGGCGAGAAGAGAGGCGTGCCAGGTAGTGGT -CAGGATTATGTTGCGCCTGCGACCAGACCAGGCGGGCGAAGCTCTGTATATAAATGTTGAGACTGGCAAA -GCAGGCCAGATAGCCAATCACGCAGGCAATCCATAACGCTCCTACACCGAACAACTGCACTACAATTTTT -GGAAGCGATGCTGCCGCCGCCATTTTTTCACCATAGGCGTCGAAGTGTAAGACGACTACCGTACAGCCCC -AGTAGACTAATCCTGCCAGCAGCAGACCAATCATCAAAGCACGAGGAAAATCACGCTCTGGATTTTTAAA -TTCCGAGGCGAGATGGGCAAATGCCTCCAGACCGACAAAACACCAGAACATCACTGATAACGCAGCAAAT -AACCCGGTAAGTTCGATATTACCAGGTGCCGGAAAGGGGATATTCGCAGGTTTGATATCGCCCGCCCACC -AGATAGCGACAATCAGCGCGACGATAAGTCCGGCAATAACGGTTTGTAGATTAGCACTGGAACTGGCACC -GCGAGTACCGATATACCACACCAGCGCCAGCGTACCGAGTTCTGCCAACAACAGTTGCCAGCTATGCCAG -CCAAACATCGCCTGGCCGAACCCGGCGGCAATTTGTAGTGCGGCAGGCAAACCCACGGGAATGACCGATA -AAAACAGCCAGCCGGTGACTCGCTCAAGCCGCGAACCAAACGCCATACCGACGAAGTGCGCGACGCCGCC -TGCGCTGGGATAGTGGCGACCCAGAATCGCAAACACAATCGCAATCGGGAACACTAAGATAATCAAAACG -GGCCACGCCCACAGGCTGTTATTGCCCGCTACCAGCGCAGCTAACGCAGGAACGGCAAACACGCCAGTGC -CTAATAATGACGTCGATAGCAGGCCAATGCCCTGGGCCAGCCCCAGTTCTTGTTTGAGTCCACTCATGGG -TTGATGTCCGATTGCGCCCAAATTTTGGGCAACTGCGTAGATTTTCGATGGTAGCACAATCAGATTCGCT -TATGACGGCGATGAAGAAATTGCGATGAAATGTGAGGTGAATCAGGGTTTTCACCCGATTTTGTGCTGAT -CAGAATTTTTTTTCTTTTTCCCCCTTGAAGGGGCGAAGCCTCATCCCCATTTCTCTGGTCACCAGCCGGG -AAACCACGTAAGCTCCGGCGTCACCCATAACAGATACGGACTTTCTCAAAGGAGAGTTATCAATGAATAT -TCGTCCATTGCATGATCGCGTGATCGTCAAGCGTAAAGAAGTTGAAACTAAATCTGCTGGCGGCATCGTT -CTGACCGGCTCTGCAGCGGCTAAATCCACCCGCGGCGAAGTGCTGGCTGTCGGCAATGGCCGTATCCTTG -AAAATGGCGAAGTGAAGCCGCTGGATGTGAAAGTTGGCGACATCGTTATTTTCAACGATGGCTACGGTGT -GAAATCTGAGAAGATCGACAATGAAGAAGTGTTGATCATGTCCGAAAGCGACATTCTGGCAATTGTTGAA -GCGTAATCCGCGCACGACACTGAACATACGAATTTAAGGAATAAAGATAATGGCAGCTAAAGACGTAAAA -TTCGGTAACGACGCTCGTGTGAAAATGCTGCGCGGCGTAAACGTACTGGCAGATGCAGTGAAAGTTACCC -TCGGTCCAAAAGGCCGTAACGTAGTTCTGGATAAATCTTTCGGTGCACCGACCATCACCAAAGATGGTGT -TTCCGTTGCTCGTGAAATCGAACTGGAAGACAAGTTCGAAAATATGGGTGCGCAGATGGTGAAAGAAGTT -GCCTCTAAAGCAAACGACGCTGCAGGCGACGGTACCACCACTGCAACCGTACTGGCTCAGGCTATCATCA -CTGAAGGTCTGAAAGCTGTTGCTGCGGGCATGAACCCGATGGACCTGAAACGTGGTATCGACAAAGCGGT -TACCGCTGCAGTTGAAGAACTGAAAGCGCTGTCCGTACCATGCTCTGACTCTAAAGCGATTGCTCAGGTT -GGTACCATCTCCGCTAACTCCGACGAAACCGTAGGTAAACTGATCGCTGAAGCGATGGACAAAGTCGGTA -AAGAAGGCGTTATCACCGTTGAAGACGGTACCGGTCTGCAGGACGAACTGGACGTGGTTGAAGGTATGCA -GTTCGACCGTGGCTACCTGTCTCCTTACTTCATCAACAAGCCGGAAACTGGCGCAGTAGAACTGGAAAGC -CCGTTCATCCTGCTGGCTGACAAGAAAATCTCCAACATCCGCGAAATGCTGCCGGTTCTGGAAGCTGTTG -CCAAAGCAGGCAAACCGCTGCTGATCATCGCTGAAGATGTAGAAGGCGAAGCGCTGGCAACTCTGGTTGT -TAACACCATGCGTGGCATCGTGAAAGTCGCTGCGGTTAAAGCACCGGGCTTCGGCGATCGTCGTAAAGCT -ATGCTGCAGGATATCGCAACCCTGACTGGCGGTACCGTGATCTCTGAAGAGATCGGTATGGAGCTGGAAA -AAGCAACCCTGGAAGACCTGGGTCAGGCTAAACGTGTTGTGATCAACAAAGACACCACCACTATCATCGA -TGGCGTGGGTGAAGAAGCTGCAATCCAGGGCCGTGTTGCTCAGATCCGTCAGCAGATTGAAGAAGCAACT -TCTGACTACGACCGTGAAAAACTGCAGGAACGCGTAGCGAAACTGGCAGGCGGCGTTGCAGTTATCAAAG -TGGGTGCTGCTACCGAAGTTGAAATGAAAGAGAAAAAAGCACGCGTTGAAGATGCCCTGCACGCGACCCG -TGCTGCGGTAGAAGAAGGCGTGGTTGCTGGTGGTGGTGTTGCGCTGATCCGCGTAGCGTCTAAACTGGCT -GACCTGCGTGGTCAGAACGAAGACCAGAACGTGGGTATCAAAGTTGCACTGCGTGCAATGGAAGCTCCGC -TGCGTCAGATCGTATTGAACTGCGGCGAAGAACCGTCTGTTGTTGCTAACACCGTTAAAGGCGGCGACGG -CAACTACGGTTACAACGCAGCAACCGAAGAATACGGCAACATGATCGACATGGGTATCCTGGATCCAACC -AAAGTAACTCGTTCTGCTCTGCAGTACGCAGCTTCTGTGGCTGGCCTGATGATCACCACCGAATGCATGG -TTACCGACCTGCCGAAAAACGATGCAGCTGACTTAGGCGCTGCTGGCGGTATGGGCGGCATGGGTGGCAT -GGGCGGCATGATGTAATTGCCCTGCACCTCGCAGAAATAAACAAACCCCCGGGCAGAAATGTCTGGGGGT -TTTTCTTTTGGTCATCTTTCTAGTATAAGATTCAGACACGGACGACGCGAGTGGCGTCCAGCTCATTGAT -TATGGGGAATAACATGCACGTAAAATACTTAGCAGGGATTGTCGGTGCCGCGCTACTGATGGCGGGTTGT -AGCTCCAGCAACGAATTGAGTGCTGCCGGTCAGAGTGTACGCATTGTGGACGAGCAGCCAGGCGCAGAGT -GCCAGCTGATTGGTACTGCGACAGGTAAGCAAAGCAACTGGCTTTCCGGGCAACACGGAGAAGAAGGCGG -TTCTATGCGCGGCGCAGCAAACGATCTGCGCAACCAGGCGGCTGCAATGGGCGGTAACGTGATTTATGGC -ATCAGTAGCCCGTCGCAGGGAATGTTGTCCAGTTTTGTCCCGACGGATAGCCAGATTATCGGTCAGGTTT -ATAAGTGCCCGAACTGATGTGATCCAGAGGCTGGGTGACAAACGTATAATTGCCTGATGCGCTTCGCTTA -TCAGGCCTACATAAGGCATTGCAACTGATTGAATGCTTGAGAATTTGTAGGCCGGATAAGGCGTTTACGC -CGCATCCGGCATGACCAACGATCACGTTATCAGTCATTTCAGGCTGGATGGCTCCAGCCTCGCATTAGCA -AAGATGAGATTATTTCGCCTGTGGTGCAGTTTTGCTGGTGGATTGAACACGTAAGTGATGCAGCGCGCGT -AAGCATTGATCCTGGGTTAGCGGTTGGGCGTTATTCGCCGCTACGGTGCGAACATAGACCTGACATGGCA -CACCCGCGAGTTTTTTCAGTCGTGGGCTGAAATCAAGCATTCGGCGAGTGATCGCTTCTATTTCTTTACC -CGGCGTTGCTTCACGCGTTTTCACCACTGCGCCGCTAAATTGTTCTTTGCCACTTTCATCTTTAAAGCGG -TAAAGCACCGCCAGATAATGGTCGAACAAGTTATGTTTCCATTCCGGTTGGGAATAGGTGTCATATTCCA -GATTGCCATTGTCCTGGCAGTCAACGTCGTATAACGGCAGGAAATCTAACAGTGAGGTAATACGTAATGC -CAGTTCACGCATTTCCGCATTATTAATTGCATGAATGATTGCTCGCGCCAGCATTTCAATCTGCAACTCA -TTGACGACTAACTCACATTTGCTACCGTCATGTAGCGTTAATACGAAGGTAAGATTTTCGCCTTGATTAT -CGGTAAGTTCCAGCGTGTTAACCCGACGATTAATATCGGCATTTTTAAGCTCATCAACCAGAATTTCTGG -GATGTTTTCTGCCATTTTCTTAATGACTTTATCGCGAGCTTGCTCATACTGAAGGTGTGCAGCAGCATCC -AGTTTATGCTTTTGATGCAGACGACTTTCCAGCGCAATCAGCAGGTCGCGCAGTTCCATGACAGACATAA -AGAACAACGATTCTTTATTGCGAGGTTCTTTAATTTTCAGCGCCAGTGCAATGAAATTATTACTCTTGCG -AATAACACCGGTATTAACACCCTTGATGCTTATGGCCATGTAGGTTCTCCCTAACCATTTCTCAATTAAA -TAATTAATTTTAATTTATAAGCCAGATAAATGGGCTTGGTAGTAATAGTTGTTAAAATAACATAAATAGC -CGTACTCACTCTATATAAACAGAAAAGAAAGGTTAATTATTGGTGTTAGCTATATAAAAAGTAACAACAG -CAATGCATATGAATAATTAAAGGTTATGCAACGGGCAAAGATTAAACTTCCCAGTTTAATGACAGGTTGC -TGTACTTGCGTTTGTTGCTCTTGCCGGATGCAGCGTAAACGCCTTATCCGGCCTACAGTTCATTGCAAAT -CCATTCAATTTCAATGCACGATGTAGGCCTGATAAGCGTAGCGAATCAGGCAATTTTAATGTTTAACTTC -CCTGTTTAATCAGTTACTGCTGGCGTAGCTGGAGATCCAGCGGCGTTTTGCTGGGTTCGCCGCCAATTTC -TCGCGCCAGTTTCGGCACCAGATATCCCGACACCAGTGTCAGCAACTCACGCATAATCTGCCGTGCTTCG -TCATCACTCACCATAAAATGCGCCGCGCCCTGTACTTTATCGAGCACATGCAGGTAATACGGCATTACGC -CGGCATCGAACAACGCATTACTCAGGTTTGCCAGCGTTTGTGCGTTATCGTTCACATCACGTAACAGAAC -GCTCTGGTTCAGCAAAGTAACGCCTACCCGGCGCAACTTAGCCATCGCCTGACGGAATGTTTCATCTACC -TCATTGGCATGGTTGATGTGATTCACCAGCAAGATTTGCAGCGTAGAACGGGCAAAGCATTCAACCAGCG -CCTCGGTGATACGTGCCGGGATCACAATCGGCAGACGGCTGTGAATCCGCAGACGTTTTATATGCGGGAT -GGCTTCCAGTTGTGTGAGCAACCAGTCCAGCTCGTGATCTTTCGCCATCAGCGGATCGCCGCCGGAGAAA -ATCATCTCGTCCAGTTCCGGATGCGCAGCAACATACTCAAGTGCAGTTTGCCAGTTACGCTTGTTGCCCT -GATTTTCGGCATAGGGGAAGTGACGACGGAAGCAATAGCGGCAATTTACCGCGCAGCCGCCTTTGACCAG -CAAAAGCGCCCGGTTGTGGTATTTATGCAACAAACCAGACACTACGCTGTGCTGTTCTTCCAGTGGGTCG -GTGGAGAATCCGGGCGCGATGACAAACTCATCTTGCGAGGTAAGTACCTGACGCAAAAGAGGATCGTCCG -GATTGCCTTTCTCCATGCGATCGATAAATGAGCGGGGCACACGCAGGGCAAAAAGCTTTTTGGCGCTGCG -TCCGGCTAACAGTTTTTCCTCCGCGTCTATATTCAAAAGACGCAGAAGTTCATCAGGATCGGTCACAACA -TCGGCAAGTTGCGTTAACCAATCTTCTCTGGATGGGGTATTTAGGGTTACAATATGCGCCATTTTGTGGC -TTAGCTACCAATTAACAAATTTCAGAGGGCCTTATGGCAACGTACTATAGCAACGATTTTCGTGCTGGTC -TTAAAATCATGTTAGACGGCGAACCTTACGCGGTTGAAGCGAGTGAATTCGTAAAACCGGGTAAAGGCCA -GGCATTTGCTCGCGTTAAACTGCGTCGTCTGCTGACCGGTACTCGCGTAGAAAAAACCTTCAAATCTACT -GATTCCGCTGAAGGCGCTGATGTTGTCGATATGAACCTGACTTACCTGTACAACGACGGTGAGTTCTGGC -ACTTCATGAACAACGAAACTTTCGAGCAGCTGTCTGCTGATGCAAAAGCAATTGGTGACAACGCTAAATG -GCTGCTGGATCAGGCAGAGTGTATCGTAACTCTGTGGAATGGTCAGCCGATCTCCGTTACTCCGCCGAAC -TTCGTTGAACTGGAAATCGTTGATACCGATCCGGGCCTGAAAGGTGATACCGCAGGTACTGGTGGCAAAC -CGGCTACCCTGTCTACTGGCGCTGTGGTTAAAGTTCCGCTGTTTGTACAAATCGGCGAAGTCATCAAAGT -GGATACCCGCTCTGGTGAATACGTCTCTCGCGTGAAGTAATGCGGTTGTGGTGCGGCCTGCAGGCTGCAC -CATCACTTATTCAGGTCAGAGATGATGAAACGCCTTATCGTTCTTGTTTTGCTTGCCAGCACGCTGCTCA -CGGGCTGTAACACCGCTCGCGGTTTCGGCGAAGACATCAAACATCTCGGCAACTCCATCTCTCGCGCTGC -CAGCTAATTTTTCTTCTCTTCCGAAAAATCATCAGATTCCCATCATTTTTGGCGATGTTGTCTATTATTA -ATTTGCTATAGGCAAACATAAATAACATTACCTAAAAGGAAGACGTTATGGTGAAGAAGACAATTGCAGC -GATCTTTTCTGTTCTGGTGCTTTCAACAGTATTAACTGCCTGCAACACCACGCGTGGCGTTGGTGAAGAC -ATTTCTGATGGCGGTAACGCGATTTCTGGCGCAGCAACGAAAGCGCAGCAATAAGCAATAACGGTACGAC -AGCTGTGTCGTGCCGTTTGTTTTTTCTGCGATAGTCACAAAGGTAATAGTTGAAATTCCCCTGCCACCTG -GCAAAATATCCGTTCAACCATCAGCTTTGCAGGACGACCTGCAAACGCCTCTTTTCACCGGGGACGGCCC -CAATTCTCCGGAGCCTGATATGTCCTGGATTATCTTAGTTATTGCTGGTCTGCTGGAAGTGGTATGGGCC -GTTGGCCTGAAATATACCCACGGCTTTAGTCGTTTGACGCCGAGTGTTATTACTGTGACGGCGATGATTG -TCAGTATGGCGCTACTTGCCTGGGCGATGAAATCGTTACCAGTAGGGACGGCTTATGCCGTGTGGACGGG -TATTGGCGCAGTCGGCGCGGCCATAACCGGCATTGTGCTGCTCGGTGAGTCCGCTAACCCGATGCGCCTG -GCGAGTCTGGCGTTAATCGTATTGGGGATTATTGGTCTGAAACTCAGCACTCACTAACTACCAGGCTGCT -GTACCCAAATAAATTTACTGACATCAAACCCTTCCCGGGTCGCGACTGCCAGCATCTCCTGTTTCACTTC -GTCAGAAATGGTTGGCGTGCGGGAGAGTATCCACAGGTAGTCGCGGTCCGGGCCGCAAACCAGCGCATGG -CGGTATTCCCGATCGAGTGCAATAACGTTATAACCGCCATAGAAAGGACCAAAGAATGACACTTTCAGCG -CAGCGCGAGTTGGTGCGCCGGTAAAGTACGCTTTCCCTTCACTCTGCTGCCACATTCCTCTGTCAGGGTT -ATAGCCTTTATTAATGACATTCAGGCCGCCGTCATCACGCAGGCTGTATGTTGCGGTGACTTTTTCCAGT -CCACGTTCAAAGCGGTGATCAAAACGGGCAATCTCATACCAGGTACCGAGATAACGTTTGGCGTCGAAAT -TATTTACTACGGTCACGCCACGCGGCGGCGTAGGAGAACTGCAGGCAACGACCAGAAATGCAGCTGTCGC -TGCGGCAACGAGAGGGAGCAGGCGCATAAATGTTTCCTTACTGGTTTTTTTCTAAGTGTAGATGACAGCA -AGGAAAAGCGGAGAAAAGGTCCGAAAATTCGGACCCGATGGAATTTTACTGTAGAGCGTTAAGAATCTGC -CAGGCGGCGTCGACTCTCGCTGGATTGGGATAGTTTTTGTTTGCCAGCATCACGATACCCAGCTCTTTTT -CTGGAATAAACGCGACATAGCTACCAAATCCGCCGGTCGCCCCTGTTTTATGTACCCATGATGCGCGTAC -TGCAGGAGTTGGGGGCGTAATCGCTTTTACGGGGCGTGCTGCCAGTGCAATTTTATTGTCACTGCCGTTA -ATGATGCTGTCAGGATTTACCGGCCAGTCCAGCATTTCCCAGCCCAGGCCCTGATACATATCGCCGGTTT -GCCAGTAGCGAGATTGTGCCAGTTGTATCCCTTGTTGAAGCGTTTTCTCATTGATATCAAGGGGTTTTAA -ATTGCTTTGCACCCAGCGGGCCATATCTTCAATGGTCGACTTCACACCATAAGCTTCAGCATCTAACGCC -CCAGGCGAAACATGCACTGCCTTACCTTCGCGATATCCCCAGGCGTAATTCTTTTCTTCTGCGGGCGGTA -CATTAATCCACGTATGGTTGAGTTTGAGTGGCTGGAAGACACGAGTTTGCATCGCCTGCTCAAAACTCAA -ACCAGACGGCTTCACAGCCAGTGCGCCGAACAAACCGATACTGGAGTTGGCATACAGACGTTGTGTTCCT -GGAGCCCATGCAGGCTGCCAGTTTTGATAGAAGCGCAGCAAGTCGCTTGAGGATTTCACCTCATCCGGCA -CCTGCAATGGCAGGCCGCCAGCAGTGTAGGTTGCGAGATGTAATAGTGTGATCCCATTCCACTGTTTAGC -GGTAAGTTCAGGCCAGTATTTTGTTGTGGGATCGCTTAACTTGATTTCCCCTCGAGCAATAGCGTCGCCA -CCAAGCACGCCAGTAAATGTTTTGCTGACCGAACCTAACTCAAACAACGTTTGCTGTGTGACGGGCTGCT -TTTTGGCGATGTCCGCATAGCCCCAGGTAAAGTAATAAGGTTTACCCTGATAAATTACCGCCACCGCCAT -ACCCGGGATCTTTTGTTGCTCTATAAGCGGGGTAATTGTGCGATGCACAATATCGTTGATTTGTTGAGGG -GCAGCAAATGTGGAGCAAGAGGCGGTAATTAATAAGGCGCAGAGCGTCGTTTTGAACATAGGGTCTGGTT -TCCATACAAAACGGCCCGCCATAGGCGGGCCGGATTTACATTGGCGATGCGTTAGATTGTAACGACACCA -ATCAGCGTGACAACTGTCAGGATAGCAGCCAGACCGTAGAAAACCCATTTGCCCGCAGGTACGTGGATTT -TCAGATCGTGCATCGCGTGGTGCATACGGTGTAAACCACACCACAGCGGCAGAACGATCATCAGGAACAG -GAATACGCGACCAATGAAGCTCTGCGCGAACGCCAGAACGCGCTCGTAGCTCAGCGCATCACCCGGAAAC -AACCCCAGTGGCAGCAGAATACCCACCAGCAGGATCATCACCGGCGCAATGATGGCGCTCCACATACCAC -CGGCCCCGAAGAGGCCCCAGAATACCGGTTCGTCAGAACGCTTTGGATTTGGATTAATCATCTCAGGCTC -CTTACCAGTACAGGGCAACAAACAGGATTACGATGGTGGCAACCACAGTTACCGCCCAGAGACTTTTGAT -AATTGGCTCTGGTCCCATTTTTTCGTCTTTTACAATGATATTGGCCGCTTTCGGTGCCAGTTCAAACCAG -GTTTTGGTGTGCAGCAGAGCTGCCGCCAGAGTGATCAGGTTAATGATCACGATAACCGGGTTTTGTAAAA -AGTCGACGAATCCCGCCCAGGCTTCCGGGCCATTTTTCAGGGCAAACAGCCCGAAAATCAGTTCAATGCT -GAACCACACAGCCGGAACCGCCGTGCCTTCGCGCAGCATGTAAAAGCGATAAAACGGCAATTTTTTCCAC -CAGGTGGACGTCATTGGCCGTACATACGGTTTACGTTTAGTCGTCATGTTGCACTCCTTAGCGTGGTTTC -AGGGTCGCGATAAGAAAGTCTTTCGAACTTTCTACTTTGCCCTGCTGAATGGCCGCAGCCGGATCGACGT -GTTTCGGGCAGACTTCGGAGCAGTAGCCCACGAAAGTACAGCTCCATACGCCGTTCTGGCTGTTCAACTG -CGCCATACGCTCCTTCTTACCGTGGTCGCGGCTATCTTCGTTATAACGATGCGCCAGCGTAATGGCAGCC -GGACCGATGAACTCTGGGTTCAGGCCAAACTGCGGGCACGCGGCGTAGCACAAACCACAGTTGATGCAAC -CGGAGAACTGGTGATACTTCGCCATCTGCGCCGGGGTCTGGATGTTAGTACCCTGATCCGCGGTGCGGGA -GTTGCCGATGATGTACGGTTTGATCGCTTCCAGACTTTCGATGAAGTGGGTCATATCGACCACCAGATCG -CGTTCAATCGGGAAGTTAGCTAACGCTTCAACCTTCATACCGTCGGTGTAATCACGCAGGAAGGTTTTAC -ATGCCAGTTTTGGCACGTTGTTAACCATCATGCCGCAGGAACCACAAATCGCCATACGGCAGGACCAGCG -GTAGCTCAGGTTCGGTGCCAGGTTGTCTTTGATGTAGCCCAGCGCATCCAGTAATGAGGTAGTTGCGTCA -TAAGGCACTTCATAGAATGCGCTATGCGGTGCGGTATCGACTTCCGGGTTATAGCGCACCACCTCAATTT -TCAGGTTTTTCATCTCAGCCATTCGCCTTCTCCTTCTTATTGGCTGCTTCCGCCTTATCGGCTGCATCCG -CTTCGCCACCGTAAACGCGTTTAGCTGGCGGCAGCGTAGTAATCTTCACGTCGCTGTACTCCAGGCGAGT -CGTGCCATCAGCATCGCGGAAGGCGAGGGTGTGTTTGAGGAAGTTGACGTCGTCACGCTCGGTGCAACCT -TCGTCCAGACGCTGGTGCGCGCCGCGGGACTCTTTACGTGCCATTGCGGAGTGCGCCATACATTCAGCAA -CGTTCAGACCGTGGCCCAGTTCAATGGTGTAGAGCAGGTCGGTGTTGAACACGCTGGAAGTGTCGGTGAT -GCGCACGCGCTTGAAGCGTTCCTGCAGCTCTGCCAGCTTGTCGATGGTTTTCTGCATCAGTTCCGGCGTA -CGGTAGATACCGCAGCCTTCTTCCATAGCCAGGCCCATTTCGTCGCGGATCTTCGCCCAGTTTTCGCCGC -CATCCTGGTTAACCAGATCTTTCAGACGTTGTTCAACGCCAGCTGCCTGCGCTTCAATTGCCGCTTCGTT -GCCATTACCGGCAGTTGCTGCACGCTCTGTCGCTTGTTCACCGGCCAGACGGCCGAAGACCACCAGTTCC -GCCAGGGAGTTAGAACCCAGACGGTTTGCACCGTGCAGACCAACAGAGGAACATTCACCCACGGCGAACA -GACCTTTAATGCGGGTTTCACAGTTCTGATCGGTTTCGATACCGCCCATGGTGTAGTGTGCGGTCGGACG -TACCGGAATCGGTTCTTTAACCGGATCGACGCCAACGTACGCTTTCGCCAGTTCGCAGATGAACGGCAGA -CGTTCATGCAGTTTTTTCTCGCCGAGGTGACGCAAGTCGAGATAAACCACATCGCCACGCGGCGTGGAGA -TGGTGTTGCCTTTACGCCATTCGTGCCAGAAGGCCTGAGAGACTTTGTCGCGTGGACCCAGTTCCATATA -TTTGTTTTTCGGCTCGCCCAGCGGAGTTTCCGGGCCCATGCCGTAATCTTGCAGATAACGGTAGCCATTT -TTGTTGACCAGAATACCGCCTTCACCGCGGCAACCTTCGGTCATCAGGATACCGGAACCTGGCAGACCGG -TTGGGTGATACTGAACGAATTCCATGTCACGCAGCGGAACGCCGTGGCTTAGCGCCATACCCATACCGTC -ACCGGTAACGATGCCGCCGTTGGTGTTGTAACGATAAACGCGACCCGCACCGCCAGTAGCCATAACGACC -GCGTTAGCACGGATCTGCACCAGCGTGCCTTCCATCATGTTCATTGCTACCAGGCCGCGAACATGACCAT -CATCAACCAGAATATCCAGCACGAAATGTTCGTCAAAACGCTGGATCTGCGGGAATTGCAGAGAGGTCTG -GAACAGCGTGTGCAGCATATGGAAGCCGGTCTTATCGGCGGCGAACCAGGTGCGCTCGATTTTCATGCCG -CCGAAGCGACGTACGTTGACGCTACCATCCGGGCGACGGCTCCATGGGCATCCCCACAGTTCCAGTTGGG -TCATTTCGGTTGGGCAGTGGTGGACGAAATAATCCACGACATCCTGCTCACACAACCAGTCGCCACCCGC -TACTGTATCGTGAAAGTGATATTCGAAGCTGTCATGATCCTGCGCGACAGCGGCGGAGCCCCCTTCTGCA -GCAACGGTATGGCTACGCATCGGGTATACTTTTGAGATTAGTGCGATTTTTGCATTCGGATTTGCCTGCG -CGGCAGCAATTGCAGCACGTAATCCCGCGCCACCGGCGCCTACAATGGCAAGATCGGCTTGAAAGGTTTG -CACGACATTCCTCCAGATTGTTTTTATCCCACAGCCACGTACTTCAGGGTAAGTACCTGAAAGTTACGGT -CTGCGAACGCTATTCCACTGCTCCTTTATAGGTACAACAGTATAGTCTGATGGATAAGTCTGAAATTTGA -CGAGATCGATTTTTTTAGTGCGCAAGAGGGCTAAATTATCACTGAAGATGATTAATTTAATTACTAAACC -ATCAGATCGTGCTTTTTTTAGTCACTGCCCACCGCTGTTTGATTCCTGCGTAAAATTTGTCTCGCCGTCG -CGTTGCGAGTAGACTTCGTGCCCTTGTCAAAAACTGGAGATTTAACTATGAGCGAAACGGCATCCTGGCA -GCCGAGCGCATCCATTCCTAACTTATTAAAACGCGCGGCGATTATGGCGGAGATCCGTCGTTTCTTTGCC -GATCGTGGAGTGCTGGAGGTGGAGACGCCTTGTATGAGCCAGGCGACGGTAACCGATATTCATTTGGTCC -CGTTTGAGACACGTTTCGTTGGCCCCGGGCATTCGCAGGGGATGAATCTCTGGTTAATGACCAGCCCGGA -ATACCATATGAAACGCCTGCTGGTTGCCGGTTGTGGGCCGGTATTCCAGCTGTGCCGCAGCTTCCGTAAT -GAAGAGATGGGGCGTTATCACAACCCTGAGTTCACTATGCTGGAGTGGTATCGACCGCACTATGATATGT -ACCGGTTGATGAACGAGGTGGACGATCTCTTACAACAGGTGCTGGACTGCCCGGCAGCAGAAAGCCTTTC -TTATCAACAAGCTTTCTTGCGTTATCTGGAAATTGACCCGCTCTCTGCCGACAAAACGCAACTGCGGGAA -GTCGCAGCGAAACTGGATTTGAGCAATGTTGCTGATACCGAAGAAGACCGCGACACGCTGCTACAATTGC -TGTTTACCTTTGGCGTAGAGCCAAATATTGGCAAAGAAAAACCGACCTTTGTGTACCACTTTCCAGCCAG -CCAGGCATCACTGGCGCAAATCAGTACCGAAGATCATCGGGTCGCTGAACGCTTTGAGGTTTATTATAAA -GGTATTGAGCTGGCGAATGGTTTCCATGAATTGACGGATGCCCGTGAGCAGCAACAACGCTTTGAACAAG -ATAACCGTAAGCGCGCGGCGCGCGGTTTGCCGCAGCACCCCATTGACCAGAATCTGATTGAAGCCTTGAA -AGTCGGTATGCCTGACTGTTCCGGCGTGGCATTAGGTGTTGATCGTCTGGTGATGTTGGCGCTGGGCGCG -GAGACACTGGCTGAAGTCATCGCCTTTAGCGTTGACCGGGCATAATTCTGAAAAATTACTGAATTAACAG -CGAAGAATGGCGTGATAAGCGCCATTCTGTAGCATATGTTTTCATTTTTCCGTTAAAGGCCACAATTTAA -GACTGGATATTTGATATCATCCAGGTATCAATTCTGTATTGGTTTTTACGCTGCCTGCTCAATGTTGCGC -AGTGCAGTTCAGTGGGCACGTGTTATACACGCGCTGAAATGAAGGATGGTTTCATGCCTCACACGATAAA -AAAGATGAGTCTGATAGGACTCATATTGATGATCTTTACTTCCGTATTTGGATTTGCCAATAGCCCATCG -GCTTATTACTTAATGGGTTATAGTGCGATTCCCTTTTATATATTTTCTGCATTGTTATTCTTTATTCCAT -TCGCCTTAATGATGGCTGAAATGGGAGCTGCTTATCGCAAAGAAGAAGGCGGTATCTATTCCTGGATGAA -TAATAGTGTCGGACCACGTTTTGCCTTCATTGGTACGTTTATGTGGTTTTCCTCTTATATCATCTGGATG -GTGAGTACCTCCGCGAAAGTTTGGGTACCGTTCTCAACATTCCTCTATGGTAGCGACATGACCCAGCACT -GGCGTATTGCCGGACTGGAGCCTACGCAGGTGGTTGGTCTGCTGGCTGTGGCATGGATGATTCTGGTCAC -CGTCGTTGCTTCTAAGGGGATTAATAAAATTGCCCGCATTACTGCGGTGGGCGGTATTGCAGTAATGTGT -CTGAATTTAGTATTGCTGTTAGTAAGCATTACTATTTTGTTATTAAATGGTGGGCATTTCGCGCAGGATA -TTAATTTCCTTGCATCACCGAACCCGGGTTATCAGTCCGGTCTGGCAATGCTATCGTTTGTGGTATTTGC -CATTTTTGCCTATGGCGGAATTGAAGCGGTTGGTGGTCTGGTCGATAAAACGGAAAATCCAGAAAAGAAC -TTTGCCAAAGGTATTGTTTTTGCCGCTATTGTTATTTCAATCGGTTATTCGCTGGCAATATTTTTATGGG -GCGTCAGCACAAACTGGCAGCAGGTATTAAGTAATGGTTCCGTTAACCTCGGCAATATTACCTATGTGCT -GATGAAGAGCCTTGGGATGACGCTGGGTAATGCACTGCATTTGTCACCTGAAGCGTCATTGTCGCTGGGC -GTATGGTTTGCGCGTATTACTGGACTTTCGATGTTCCTCGCCTATACCGGTGCGTTCTTTACGCTTTGCT -ATTCACCGTTGAAAGCCATCATCCAGGGGACGCCGAAAGCATTGTGGCCGGAACCGATGACGCGCCTGAA -TGCGATGGGGATGCCGTCTATCGCCATGTGGATGCAGTGCGGGTTGGTTACTGTCTTCATCCTGCTGGTT -TCGTTTGGTGGCGGTACCGCATCGGCGTTCTTTAACAAGCTGACGCTGATGGCGAACGTGTCTATGACGC -TTCCTTACCTGTTCCTCGCGCTGGCTTTCCCGTTCTTTAAAGCACGTCAGGATCTCGACAGACCGTTTGT -GATTTTCAAAACGCATTTGTCGGCAATGATTGCGACAGTGGTTGTCGTACTGGTGGTGACATTTGCGAAC -GTCTTCACCATCATTCAACCTGTGGTTGAAGCCGGAGACTGGGACAGCACATTGTGGATGATTGGCGGCC -CTGTCTTCTTCTCGCTGTTAGCGATGGCGATTTACCAGAACTATTGCAGCAGAGTGGCAAAAAATCCGCA -GTGGGCGGTGGAATAACCCGATGCCCTATCGTCTACCTGACGATAGGGCGTAAAGACAGGAAATGTTATG -GATGACACCAGCCGGGACCCGGCAATAACCGAAGATGAAATCAGGGCGCTGCAATTTTCTGCCGGGGATG -TAGCGGAAATAGAGCAGACGATTCTCTCTTTTGTCGATGCCTGCCACACCCGTAAAGTGGCGATGGTGGT -GGGTAGCACCATTAACACCCTCAAAGATCGCGATGGTAAACGGTGGGGAAACCTGCCGGATATTTATTGC -GCTTATCTTATCCGATGTCTGGTTTTTCGCGGGGAATTAGTGGGATACGGCGATTTGTTTCGTATGCGCT -ATAGCGAAATTAAGCGACCGGTTACCTTATGAGTGCGCGCATGTTTGTCTTATGCTGCATCTGGTTTATT -GTGGCGTTCCTCTGGATAACCATCACTTCCGCGCTGGACAAAGAGTGGATGATTGATGGACGCGGGATTA -ACAACGTCTGCGATGTGTTGATGTATCTCGAAGAAGACGATACCCGTGATGTTGGTGTGATAATGACGTT -ACCGCTCTTTTTCCCTTTTCTCTGGTTCGCTTTGTGGCGAAAAAAACGCGGCTGGTTTATGTACGCCACC -GCGCTGGCTATTTTCGGCTACTGGCTGTGGCAGTTTTTTCTGCGCTATCAGTTTTGTTTGTGAGCCGGAT -TGGTTCATCCGGCACACAAACTTACAAACTTCCCGCCTGACGACCTTTGCCCGCAGACGTCAGCGTTCTC -CCCGTTTGTTTACCGTTGAGGCTTTCCAGACGCATCTGGAAGGGCGGGAATGGCATATCGATACCGTGGG -CATGGAAGCCAGCCAGAATCAGCTGGTGGATCTCATGGCGTAGCGGCATACGGTGACCCATCTCAGCGGC -GTAAATACGCAGCTCGAAAATCTGAATCCCCTGTTGCAGATCCACCAGGAAGACTTCCGGTGCCGGGTTG -TCGATCACCAGCGAGCAGCGACGCGCTGCGGTGAGCAGGATTTCCGTCACTTCTTCGCTATTGGCATCGG -CAGGGGCCGGTATCGTCAACACCACGCGCGTGACCGAGTCAGAGAGCGACCAGTTGATAAACTGCTCGGT -AATAAACGCCTTGTTCGGCACGATTATCTCTTTACGGTCCCAGTCGCTGATGGTGGTGGCGCGGGTGTTA -ATTTTCGTCACGCTACCGGTGAGATCGCGAATTGTCACCGTATCGCCAATGCGAATCGGTTTTTCGAACA -GGATAATCAGACCAGAGATAAAGTTGGCGAAAATTTCCTGCAAACCAAAACCGAGACCAACACCGAGCGC -GGCAACCAGCCACTGCAATTTCGACCACTCAATACCAATCATTGAGAAGCCGACCAGCCCGCCAATCAGC -ATCAGCAGATATTTGGTGATGGTGGTGATGGCGTAACCCGTACCCGGCGTTAAATCCAGGTGCTGCAAAA -TCGCCAGTTCCAGCAGCGCGGGCAAGTTGCGCACCAGCTGCGTGGTGATGATAAACACCAGAATGGCAAT -CAGCACCGCACCGAGGGTAATTGGCTCCAGACTTTCTACGCCCTGTACCGTGGAGGTGACATCCCACAGC -GAAATATTTTCGAGGAAGCCGAAAGCGGAATGGATTTCTGACCACAGCACAATGACAGAAAGCAGGGCGA -TCAACATCAAAATTGAGCGCACCAGCCGCAAGGATTGCGCACTGATGGCATCGAGATCGACTTCGCTTTC -ATCGACTTCAATTGCTCCTTCCGGGCTACTGTGATGATGCGCTTCCTCTTCGCCACGCGCACGTTGCGCT -AACATCTCTGCCCGGCGATGCTTCGCCCGATCAAACGCCAGCCTGCGGCGCTGGATCAGCATCCAGCGGC -GGATAACGTGATAAACCACCAGTAGCAGGAACCAGATGGCAACCGAGGTTTCAAGCCTCGCTAACAGCGC -CTGTGCCGTTGCCAGATAACCCACCGCCGACGCCAGAATGGCAACCAACGGCGCGCCAATCATCATGTTC -CACAGCATATGGTTGGTAATGTTGTCGCCGCTGCCCTCTTTGTTGAGATACAGCGGAATCCCGGCCTTTT -TCAGGCTGAGGGTGACCACCGCCAGCGCACCGCAAATGAGGATAAAGCAAAGCCGTCCCAGCGAACCGGA -GAATTCACGGTCGTCGAGGTTATCGAACATCATCAGCGCCATAATCAGCGGCACAATAAGCCCGATGCTC -ATCAGGTAGTAGCGCATCCCACGGGAAACACGTTCGCGCGGCCAGCCAAAATGAGCGATAAACAAGCCGT -TCGGGCGGGCAAAGGTGGCGCAAATCATCACTACCCACAGCAGCGGCACGGTGGCCGTTACACCATCGCC -AATCGCGACCGCCAGCGGATAAGGCCACGCCTCGCGCAAGCCGTAACCCAGCGTCATCCACAGCACCGGT -AACGGTGACGCGACGAGAATCGACCAGAAAAGAGTGCGCAACGTCAGCCAGAAGTGATCCTGAGTCACTT -TGCCAACTTTCGCCGCCGAACGTTCAAGAAAACGGGTGAAATAGCGGCGCGAGTAAATACTGCAACCGAC -CAGAATCAACGCGCCAAACAGCGGCAAAATTGTCTCTTTGCTGGTCAGCATCATCACACTGGCTTTGCCC -AACTGACTGAAGGTGTCCAGCGAAATGAGACGACGCAGATCCTGGGCGATTTCCAGCGGCCAGGCGATGG -TCATCGGGCGCACGTCAGAGGTCCAGAACAGATAGCGGTGCGTTGCTTCGTTCACCTCTTTCAGCGCATC -CTCCAGTTGCCCGTTGGAGACTTTCAGCTTGGTCAGTTCCAATAGTAGCGTGTCGCCACCCTGCAACAAT -GAGTTCAGCAACTCACGCTGAGTGCGCAGTTGTGCTTCCAGAATACGGTTTTGCTCGGCAGTCAGCGGCT -GACCGTCGGCCTGATGAATTTGCCGTAGCAGCGGCTGTTTATTAAGCAGATCCTCATAACGTAACCGTTG -CACACGCAACTGCGCCATTTCGGTATCAAGCTGTTGTGGTTTCGGCATTTCCGGCAGCCGTGCCACCTGC -GCCCGCAGCGCTTCGCCGAGCAGATTGGACGATCCCAGCCATTGCGACTGTTCACGCAGCGTATTCAACG -CCTGCCGGACCTGTAACGTCTGGCTGGCAGCCTGACGCTGTTGCGAGGCAACGAGATCCATCCGCTGCGC -CTGTTGATTCAAAGCCGCCGATAGTTCGCGGTTAATTTTGAATTGCGCGACGATATCTTTCGGCAAATCG -GCGCTGTTTTCTGCCAGCAATTCGGTACTTTCCAGCGCCCGCTCCGCCTCAAGCTGACGTTGGCTGTTTA -ATTGATTACGCAAGGCCTGCAAATACGCATCCAGTTGCTGGCTCTCTTTTTCCGCCAGCTCTGAGCGTAA -GCGCGCTAATTCCTGGCGGTTATTGGCAGACAGCTGCGCCAGCTCCAGTTCATCAACGAGCGCCTTAAGA -CGTGCAGAGTCAGACTGCAACGCGAAATTTTGTGCCTGATTGAGCGGAGTATTGCCGGTAAGCGTTCCCA -GGCGGCGCTCGATCTCATTTAACTGACGGCGGGCGTCGGTTTGCTGTTGCGGCAGTTGATTCAGCGAATC -GGCAATCTCGCGGGCGCGCTCCTGCTCTTGCTGGGCCTGACGGCTTTTATCCAGCAACTGGCTGCTGACC -TGGAGAATTTCCTGATTCAGCGCGTCGGTAGACATTCCCGGCGACACGCTGCGCGGCTCGTCACGCATGT -TGTTTAATTGTGCGCGCAGAGTAGCGGAGAGTTTCGGATAATTATCGATAACTTGCTGATATTGTTTGAT -GCGCTCAAGGGAACCTTTTCGTTCCTCAAGCGCATTTAAGGCAGACTGGAGCGCCTCTACGACTTCCGGC -TGTGCGGGTTTCGCCGCTTTTGCCTGCTCCAGTTCCTGAGTGATTTGTTTGCTATCGGGGGCCGTCGCGG -CGTACGCCCCCCAACTGAGGCACCAGGCCATCAGAAAAGTGATAATCAGGCGCACGTCAGCGTTTCCTTT -GATGGATTAGACCTGGTCTTTTTTGTCGTCAACCAATGGGCTGGCGTCGTGTTCTGCTTCGATCTCTTCA -GCAGGAAGCGGGGCAGGTTCAGCGTCTGGCGTAACAAAGGTTTCGGTAGATACTGCCAGCGGCTGGCCAA -TTTTCGTGACAGACAGGCTTTCCAGTTGCTCAACCAGATTCACTTTACCCGGTGCAAACAGGTTGATAAC -GGTGGAACCGAGTTTAAAGCGACCCATTTCCTGGCCTTTCAGCAGTGCCACAGAACCGTCGTTTTCCCCG -GCAGGCCAGGTCCAGCGCTTGATGATACCTTCGCGCGGCGGCGTAATGGTGCCCGCCCAGACCGTCTCAA -TGCTGCCAACAATCGTCGCTCCGACCAGAATCTGCGCCATTGGGCCAAATTCGGTATCGAAAAGGCAAAT -CACGCGTTCGTTACGGGCAAACAGATTCGGCACGTTCTGAGCCGTGAGATGGTTAACGGAGAAGAGATCG -CCCGGCACGTAGATCATCTCACGCAGAATACCGTTGCACGGCATGTGTACGCGGTGGTAGTCACGCGGGG -AGAGGTAAGTGGTCACAAACGTACCGTTGCGGAACAGGTCCGCCATCAGATAGTTGCCTGCCAGCAGGGC -TTCGAGGCTGTAGTTGTGGCCTTTGGCTTGCAGGATTTTATCTTCTTCGATTTTACCCAACTGGCTGATA -ACGCCATCGGCAGGCATGACCAGTACATTCGGATCGGTATCGATTGGGCGTACTTCGTCACGCAGCGGAC -GGACAAAGAATTCGTTAAAGGTGCGGTAGCTGGCGGTGTCCGGCTTTTGCGCCTCTTTCATGTCGACCTT -GTAGTATTTAACGAACAGATCGATAACCAGTTTTGTCAGCCATCCTGCCCGCTTGCTTGCGCCCCAACCC -GCCAGGCGAGTAAGCCATAGTTTCGGCAGAATGTACTGTAGCGAAAGTTTAAATGAATTTAACAAGGTAG -CCTCCAGGCCATTGTTTTGTCGTTCCTGATCCGGCCTACATGCCGGATCCTGAAAAAAAGGGGACGATTC -TAACGACGGTTAGCTTAATTGTCAGTCATCCGTATCAGAAAAGTTTTTACGCGTTTTTACCTGCGCCATG -CTTTCCAGAATACGGTGATAGTTTTCGAAACGGGTTTCCGCGATTTTCCCTTCCTCAACCGCTTCCCGGA -TAGCGCAGCCCGGATCGGTATCGTGTTTGCAATCGCGATATTTACACAGACCTAAATAGTCATGGAATTC -GACAAAGCCCTGAGTGATTTGTTCCGGCTCCAGGTGCCAGAGGCCGAACTCACGCACTCCTGGGGAGTCA -ATCACATCACCGCCGTGCGGGAAGTGATACAGCCGAGCGGCGGTCGTGGTGTGCTGACCGAGCCCCGAGT -TGTCAGAGATATCGTTGGTCAGGATCTCTTTTTGCAGCCCCAGCAACGCATTCAGCAGGCTGGATTTGCC -GACGCCAGACTGCCCGGCAAAAATGCTGATGCGCCCGGTCAACGCCTCTTCCAGCGGTTTTAGCCCATCC -TGAGTATGGCTGGAAACCATCAATACGCGATAACCGATATTGCGGTAGATATCCATCTGCTCGTTGACGA -ACGCCATGCCTTCGTCGTCCAGCAGGTCTATCTTGTTGAGCACAATAATCGGCTCAATCTGCAAGGTTTC -GCAGGCCACCAGGTAACGGTCGATAATATTGAGCGACAGCTCCGGCAAAATGGCGGAGACAATGACAATC -TGGTCGATGTTGGCGGCAATAGGTTTTACGCCGTCGTAGAAATCCGGACGCGTCAACACCGAGGTACGCT -CATGCACCGCTTCCACGATCCCTTTGACATTTACGCCTTCCGCCGCCGGTTTACCCGGACGCCAGACTAC -GCGGTCGCCGGTTACCAGCGAACGGATGGTACGGCGAATATTGCAGCGGTGAACGTCGCCATCGGCGGAT -TCCACATCAGCGTGCATACCAAAGCGGCTGATGACGATACCTTCATCAGGCTCGCCAAACAGATTGTCGT -CGTAGTCGGGCTTCTCCTTAGACGTTTTAAGACGACGCTGGTGATTGGCGTTCACGCGGCGCTGCTGGCC -TTTGGAGAGTTTATTTTTACTCAATCGTACAGACTCCTGGTCGCCCCTGATGGGCAAAACATCTATGATA -CACGCAATTGTGGATCAATATAGTCACTGTGAATGGGTGGAAAATAGCATGAGTGCCAATGAAAACAACC -TGATTTGGATCGATCTTGAGATGACCGGTCTGGATCCCGAGCGCGATCGCATTATTGAGATTGCCACGCT -GGTGACCGATGCCAACCTGAATATTCTGGCAGAAGGGCCGACCATTGCAGTACACCAGTCTGATGAACAG -CTGGCGCTGATGGATGACTGGAACGTGCGCACCCATACCGCCAGCGGGCTGGTAGAGCGCGTGAAAGCGA -GCACGATGGGCGATCGGGAAGCTGAACTGGCAACGCTCGAATTTTTAAAACAGTGGGTGCCTGCGGGAAA -ATCGCCGATTTGCGGTAACAGCATCGGTCAGGACCGTCGTTTCCTGTTTAAATACATGCCGGAGCTGGAA -GCCTACTTCCACTACCGTTATCTCGATGTCAGCACCCTGAAAGAGCTGGCGCGCCGCTGGAAGCCGGAAA -TTCTGGATGGTTTTACCAAGCAGGGGACGCATCAGGCGATGGATGATATCCGTGAATCGGTGGCGGAGCT -GGCTTACTACCGCGAGCATTTTATCAAGCTGTAAAATTTTTCCTGGTCACGTAAGCGCCGGAATCCACTT -GCGGCGGCGTGATTTTGACGCTAAATTGAACGTCTTGCTGATAATTTCAGCACTTGAGATAAAAACGCAA -AAAAAACTTTTTTGGGGGGTTGCAGAGGGAAAGATTTCTCGTATAATGCGCCTCCCGTAACGACGCAGAA -ATGCGAAAATTACGAAAGCAAAATTAAGTAGTACGCGGGAATAGCTCAGTTGGTAGAGCACGACCTTGCC -AAGGTCGGGGTCGCGAGTTCGAGTCTCGTTTCCCGCTCCAAAATTTGAAAAGTGCTGCAAAGCACAGACC -ACCCAAGCGGGAATAGCTCAGTTGGTAGAGCACGACCTTGCCAAGGTCGGGGTCGCGAGTTCGAGTCTCG -TTTCCCGCTCCAAAATTTGAAAGTGCTGTAAGGCACAGACCACCCAAGCGGGAATAGCTCAGTTGGTAGA -GCACGACCTTGCCAAGGTCGGGGTCGCGAGTTCGAGTCTCGTTTCCCGCTCCAAATTCTTCTCTCAATAA -AATATCCACAGCGACGCGATGCGTTATTGCTGGTTTTTGTTGTCTCTGACAAACTCTTGTAAACAGAGTT -ATCCACAGCCTCAGGCTGTAATCTTAATTTCAAAGAAACTTCGCACGGTGAATAGTATTTTTTTAACCTA -TTGATAGATAAGTTAAAAATTAAGATTCCGTTTTGTCGAGTCGATCACTTGACGATTTTATTCGTCTTGA -ATTGCAATGCGTTTTTATTTTTATTCACAAGCTGTGGATGAATCAGGCGTCACGCGGTAACCCTTTTTCA -ATCACCCGAACCAGACGCTGTTTTTTCGGCAATTGCACTTCGACTATGCACGCATTTCGTCTCTCTATTT -GCTGCGCAATCGCCCACGCTATGTGCTCATCGAGAAGTGGGTGCTCACCTTTACGACTTTCCAGCGCTGT -CAAAATCGTTTCATCCCAAGGGGCATTGCCTAATGCTACGGCGATATTACGCAGCCAACGCAGGTGACCA -ATACGACGAATCGCCGATCCTTCCGTGACTTTTAAAAACTTCTCTTCGCTCCAGGCGAATAACTCAATGA -GTTCCGGTGCGTGTAGCGGCTTACGCGGGCTGAAATCCTCTTCTGTGGTGAGTTGTGAATAGCGATTCCA -CGGGCAGATAAGCTGGCAGTCATCGCAACCGTAAATACGGTTTCCCATTAACGGTCGCAACTCTTCCGGG -ATCGCCCCTTCAAGTTCGATGGTGAGATAAGAGATACAGCGGCGAGCATCGACGGTATATGGCTCGACGA -TGGCACCGGTCGGGCAAATCGTCATACAGGCCACGCATTTGCCGCATCCTTCCTCGACTGGTTGATCCAC -GGGCAGCGGAATATCGACCAGCAATTCGCCTAAAAAGAAGAACGAACCGGCCTCGCGATTGAGGATAAGT -GAGTGCTTACCTGTCCAGCCGAGCCCAGCTTTTTCAGCTAACGGGCGCTCGAGAATAGGCGCAGAATCGA -CAAACGGTCTAAAATTCAGCGAAACACAATGTTGCTGAATCATCTCGCCCAGCTTTTTGAGTCGGTTGCG -CAGAAGTTTGTGATAGTCACGGCCCAGCGCATAACGGCTAACATAGCCGAGTTTGGGGTTTTTCAGCGTG -CTGGCAAATGCGGCGTTAGCAGGAAGGTAATTCATCCGCACGCTGATCACGCGCAGCGTACCGGGCAATA -ACTCATGAGGGCGAGCGCGCAGCATACCGTGACGTGCCATCCAGTCCATTTCGCCGTGGTATTGTTTGTC -CAGCCATGCTTGCAGTTTGGGCTCGGACTCGCTGAGATCGGTATCGGTAATACCTACCTGCTGAAAGCCC -AGTTCCAGCCCCCACTGTTTAATTTTTTGCGCTAACTGATTGAGATCGAGGGGCTCTGACATGACGGACC -ATACAATGAAGAAAAACCCCGTAAGTATACCACACACCGTCTGGTACGCCGACGATATCCGCCGCGGAGA -ACGCGAGGCGGCAGATGTGCTGGGGCTCACACTCTATGAGCTGATGCTTCGCGCTGGCGAGGCCGCATTC -CAGGTGTGTCGTTCGGCGTATCCTGACGCCCGCCACTGGCTGGTGCTGTGCGGTCATGGTAATAACGGCG -GCGATGGCTACGTGGTCGCGCGACTGGCCAAAGCGGTCGGCATTGAGGTCACGTTGTTGGCCCAGGAGAG -CGACAAACCGTTGCCGGAAGAGGCCGCGCTGGCACGCGAAGCATGGTTAAACGCGGGTGGCGAGATCCAT -GCTTCGAATATTGTCTGGCCCGAATCGGTAGATCTGATTGTTGATGCGCTGCTCGGTACCGGTTTGCGGC -AAGCGCCCCGCGAATCCATTAGCCAGTTAATCGACCACGCTAATTCCCATCCTGCGCCGATTGTGGCGGT -TGATATCCCTTCCGGCCTGCTGGCTGAAACTGGCGCTACGCCAGGCGCGGTGATCAACGCCGATCACACC -ATCACTTTTATTGCGCTGAAACCAGGCTTGCTCACTGGAAAAGCGCGGGATGTTACCGGACAACTGCATT -TTGACTCACTGGGGCTGGATAGTTGGCTGGCAGGTCAGGAGACGAAAATTCAGCGGTTTTCAGCAGAACA -ACTTTCTCACTGGCTAAAACCGCGTCGCCCGACTTCGCATAAAGGCGATCACGGGCGGCTGGTAATTATC -GGTGGCGATCACGGCACGGCGGGGGCTATTCGTATGACGGGGGAAGCGGCGCTGCGTGCTGGTGCTGGTT -TAGTCCGAGTACTGACCCGCAGTGAAAACATTGCGCCGCTGCTGACTGCACGACCGGAATTGATGGTGCA -TGAACTGACGATGGACTCTCTTACCGAAAGCCTGGAATGGGCCGATGTGGTGGTGATTGGTCCCGGTCTG -GGCCAGCAAGAGTGGGGGAAAAAAGCACTGCAAAAAGTTGAGAATTTTCGCAAACCGATGTTGTGGGATG -CCGATGCATTGAACCTGCTGGCAATCAATCCCGATAAGCGTCACAATCGCGTGATCACGCCGCATCCTGG -CGAGGCCGCACGGTTGTTAGGCTGTTCCGTCGCTGAAATTGAAAGTGACCGCTTACATTGCGCCAAACGT -CTGGTACAACGTTATGGCGGCGTAGCGGTGCTGAAAGGTGCCGGAACCGTGGTCGCCGCCCATCCTGACG -CTTTAGGCATTATTGATGCCGGAAATGCAGGCATGGCGAGCGGCGGCATGGGCGATGTGCTCTCTGGTAT -TATTGGCGCATTGCTTGGGCAAAAACTGTCGCCGTATGATGCAGCCTGTGCAGGCTGTGTCGCGCACGGT -GCGGCAGCTGACGTACTGGCGGCGCGTTTTGGAACGCGCGGGATGCTGGCAACCGATCTCTTTTCCACGC -TACAGCGTATTGTTAACCCGGAAGTGACTGATAAAAACCATGATGAATCGAGTAATTCCGCTCCCTGATG -AGCAGGCAACATTAGACCTGGGCGAGCGGGTAGCGAAAGCCTGCGATGGCGCAACCGTAATCTATCTGTA -TGGCGATTTAGGCGCAGGTAAAACCACCTTTAGCCGGGGCTTTTTACAGGCTCTGGGTCATCAGGGTAAT -GTCAAAAGCCCCACTTATACGCTGGTCGAACCCTATACGCTCGACAACTTAATGGTCTATCACTTTGATT -TGTACCGCCTTGCCGATCCCGAGGAGCTGGAGTTTATGGGGATCCGCGATTATTTTGCCAACGATGCCAT -CTGCCTGGTGGAGTGGCCACAACAAGGTACAGGTGTTCTTCCTGACCCGGATGTCGAAATACACATTGAT -TATCAGGCACAAGGCCGTGAGGCGCGCGTGAGTGCGGTTTCCTCTGCGGGTGAATTGTTGCTGGCGCGTT -TAGCCGGTTAACCTTTGAAAGGTGGCGGGATGATGTATCGCATCAGAAATTGGTTGGTAGCGACGCTGCT -GCTGCTGTGCACGCCGGTGGGTGCCGCGACGCTCTCTGATATTCAGGTTTCTAACGGTAATCAACAGGCG -CGGATAACGTTGAGTTTTATTGGCGATCCTGATTATGCGTTTAGCCATCAAAGCAAACGCACCGTGGCGC -TCGATATCAAACAAACGGGCGTGATTCAGGGACTGCCGTTGTTGTTCAGCGGCAATAATCTGGTGAAGGC -GATTCGCTCTGGAACGCCTAAAGATGCACAAACGCTACGGCTGGTGGTCGATCTTACCGAAAACGGTAAA -ACCGAAGCGGTGAAGCGGCAGAATGGCAGCAATTACACTGTCGTCTTTACGATTAACGCCGATGTGCCGC -CACCGCCTCCTCCGCCGCCCGTGGTTGCGAAACGCGTTGAAACGCCTGCGGTTGTCGCACCGCGCGTCAG -CGAACCGGCGCGCAATCCGTTTAAAACGGAAAGTAACCGCACTACGGGTGTTATCAGCAGTAATACGGTA -ACGCGTCCGGCAGCGCGCGCGACGGCTAACACTGGCGATAAAATTATCATCGCTATTGATGCCGGACACG -GCGGTCAGGACCCTGGCGCTATCGGCCCCGGTGGTACGCGGGAGAAAAATGTCACCATCGCCATCGCGCG -TAAATTGCGTACTTTGCTCAATGACGATCCGATGTTTAAAGGCGTTTTAACCCGTGACGGGGATTACTTT -ATCTCGGTGATGGGGCGCAGTGATGTGGCACGTAAGCAAAACGCCAATTTCCTCGTGTCGATTCACGCTG -ATGCCGCACCGAACCGCAGTGCGACTGGCGCTTCCGTATGGGTGCTCTCTAACCGTCGCGCCAACAGTGA -AATGGCCAGCTGGCTGGAGCAGCACGAGAAACAGTCGGAGCTGCTGGGTGGGGCGGGTGATGTGCTGGCG -AACAGTCAGTCTGACCCCTATTTAAGCCAGGCGGTGCTGGATTTACAGTTCGGTCATTCCCAGCGGGTAG -GGTATGATGTAGCGACCAGTATGATCAGTCAGTTGCAACGCATTGGCGAAATACATAAACGTCGACCAGA -ACACGCCAGCCTTGGCGTTCTGCGCTCGCCGGATATCCCATCAGTACTGGTCGAAACCGGTTTTATCAGC -AACAACAGCGAAGAACGTTTGCTGGCGAGCGACGATTACCAACAACAGCTGGCAGAAGCCATTTACAAAG -GCCTGCGCAATTACTTCCTTGCGCATCCGATGCAATCTGCGCCGCAGGGTGCAACGGCACAAACTGCCAG -TACGGTGACGACGCCAGATCGCACGCTGCCAAACTAAGGACGATTGATGCCAATTCAGGTCTTACCGCCA -CAACTGGCGAACCAGATTGCCGCAGGTGAGGTGGTCGAGCGACCTGCGTCGGTAGTCAAAGAACTAGTGG -AAAACAGCCTCGATGCAGGTGCGACGCGTATCGATATTGATATCGAACGCGGTGGGGCGAAACTTATCCG -CATTCGTGATAACGGCTGCGGTATCAAAAAAGATGAGCTGGCGCTGGCGCTGGCTCGTCATGCCACCAGT -AAAATCGCCTCTCTGGACGATCTCGAAGCCATTATCAGCCTGGGCTTTCGCGGTGAGGCGCTGGCGAGTA -TCAGTTCGGTTTCCCGCCTGACGCTCACTTCACGCACCGCAGAACAGCAGGAAGCCTGGCAGGCCTATGC -CGAAGGGCGCGATATGAACGTGACGGTAAAACCGGCGGCGCATCCTGTGGGGACGACGCTGGAGGTGCTG -GATCTGTTCTACAACACCCCGGCGCGGCGCAAATTCCTGCGCACCGAGAAAACCGAATTTAACCACATTG -ATGAGATCATCCGCCGCATTGCGCTGGCGCGTTTCGACGTCACGATCAACCTGTCGCATAACGGTAAAAT -TGTGCGTCAGTACCGCGCAGTGCCGGAAGGCGGGCAAAAAGAACGGCGCTTAGGCGCGATTTGCGGCACC -GCTTTTCTTGAACAAGCGCTGGCGATTGAATGGCAACACGGCGATCTCACGCTACGCGGCTGGGTGGCCG -ATCCAAATCACACCACGCCCGCACTGGCAGAAATTCAGTATTGCTACGTGAACGGTCGCATGATGCGCGA -TCGCCTGATCAATCACGCGATCCGCCAGGCCTGCGAAGACAAACTGGGGGCCGATCAGCAACCGGCATTT -GTGTTGTATCTGGAGATCGACCCACATCAGGTGGACGTCAACGTGCACCCCGCCAAACACGAAGTGCGTT -TCCATCAGTCGCGTCTGGTGCATGATTTTATCTATCAGGGCGTGCTGAGCGTGCTACAACAGCAACTGGA -AACGCCGCTACCGCTGGACGATGAACCCCAACCTGCACCGCGTTCCATTCCGGAAAACCGCGTGGCGGCG -GGGCGCAATCACTTTGCAGAACCGGCAGCTCGTGAGCCGGTAGCTCCGCGCTACACTCCTGCGCCAGCAT -CAGGCAGTCGTCCGGCTGCCCCCTGGCCGAATGCGCAGCCAGGCTACCAGAAACAGCAAGGTGAAGTGTA -TCGCCAGCTTTTGCAAACGCCCGCGCCGATGCAAAAATTAAAAGCGCCGGAACCGCAGGAACCTGCACTT -GCGGCGAACAGTCAGAGTTTTGGTCGGGTACTGACTATCGTCCATTCCGACTGTGCGTTGCTGGAGCGCG -ACGGCAACATTTCACTTTTATCCTTGCCAGTGGCAGAACGTTGGCTGCGTCAGGCACAATTGACGCCGGG -TGAAGCGCCCGTTTGCGCCCAGCCGCTGCTGATTCCGTTGCGGCTAAAAGTTTCTGCCGAAGAAAAATCG -GCATTAGAAAAAGCGCAGTCTGCCCTGGCGGAATTGGGTATTGATTTCCAGTCAGATGCACAGCATGTGA -CCATCAGGGCAGTGCCTTTACCCTTACGCCAACAAAATTTACAAATCTTGATTCCTGAACTGATAGGCTA -CCTGGCGAAGCAGTCCGTATTCGAACCTGGCAATATTGCGCAGTGGATTGCACGAAATCTGATGAGCGAA -CATGCGCAGTGGTCAATGGCACAGGCCATAACCCTGCTGGCGGACGTGGAACGGTTATGTCCGCAACTTG -TGAAAACGCCGCCGGGTGGTCTGTTACAATCTGTTGATTTACATCCGGCGATAAAAGCCCTGAAAGATGA -GTGATATCAGTAAGGCGAGCCTGCCTAAGGCGATTTTTTTGATGGGGCCGACGGCCTCCGGTAAAACGGC -GTTAGCCATTGAGCTGCGTAAAATTTTACCAGTAGAGTTGATAAGCGTTGATTCTGCCCTTATTTACAAA -GGGATGGATATCGGGACGGCGAAGCCGAACGCTGAAGAGTTACTCGCCGCGCCGCACCGATTGCTGGATA -TTCGCGATCCGTCGCAGGCTTACTCGGCTGCTGATTTTCGCCGCGATGCGCTGGCGGAAATGGCCGATAT -CACCGCGGCGGGGCGGATCCCACTGTTAGTGGGCGGTACGATGTTGTATTTCAAGGCATTGCTGGAAGGG -TTGTCGCCGCTACCGTCGGCAGACCCGGAAGTACGGGCCAGAATTGAGCAACAGGCGGCAGAGCAAGGTT -GGGAGTCATTGCATCGTCAACTTCAGGAGGTAGATCCGGTTGCGGCAGCAAGGATTCATCCAAATGATCC -ACAAAGGCTTTCCCGGGCACTGGAAGTTTTTTTCATTTCGGGTAAAACTTTAACGGAACTGACGCAAACG -TCAGGAGACGCTCTACCGTATCAGGTGCATCAGTTCGCCATCGCCCCGGCGAGCCGTGAACTGCTCCATC -AACGCATTGAGCAGCGTTTTCATCAGATGTTGGCTTCAGGTTTTGAAGCAGAAGTCCGGGCGCTTTTTGC -CCGAGGAGATTTGCATACGGACTTGCCTTCCATTCGTTGCGTGGGTTATCGCCAGATGTGGTCTTACCTT -GAAGGCGAAATCTCATACGATGAAATGGTTTATCGAGGTGTTTGCGCCACGAGACAGTTGGCGAAGCGGC -AGATAACCTGGCTGCGTGGTTGGGAAGGGGTTCACTGGCTTGACAGTGAAAAACCAGAACAGGCGCGTGA -CGAAGTATTACAGGTTGTTGGTGCTATCGCAGGCTGAATGTGTACAATTGAGACGTATCGTGCGCAATTT -TTTCAGAATCGAAAGGTTCAAAGTACAAATAAGCATATAAGGAAAAGAGAGAATGGCTAAGGGGCAATCT -TTACAAGATCCGTTCCTGAACGCACTGCGTCGGGAACGTGTTCCAGTTTCTATTTATTTGGTGAATGGTA -TTAAGCTGCAAGGGCAAATCGAGTCTTTTGATCAGTTCGTGATCCTGTTGAAAAACACGGTCAGCCAGAT -GGTTTACAAGCACGCGATTTCTACTGTTGTCCCGTCTCGCCCGGTTTCTCATCACAGTAACAACGCCGGT -GGCGGTACCAGCAGTAACTACCATCATGGTAGCAGCGCGCAGAATACTTCCGCGCAACAGGACAGCGAAG -AAACCGAATAAGGTTTCGGGCTGTTTTTTTACACGGGGAGCCAGCGATCCTGCGTTCCCCGCTGATCTAT -TTAGAGGGTTATACGCTTGTTTGACCGTTATGATGCTGGTGAGCAGGCGGTACTGGTACACATCTATTTT -ACGCAAGACAAAGATATGGAAGACCTCCAGGAGTTTGAATCTCTGGTCTCTTCCGCCGGTGTCGAAGCAT -TGCAGGTGATTACCGGTAGCCGTAAAGCGCCGCACCCAAAGTATTTTGTAGGTGAAGGTAAAGCAGTTGA -AATTGCGGAAGCTGTCAAAGCGACGGGTGCTTCGGTCGTTCTTTTTGACCATGCCCTGAGCCCGGCGCAA -GAGCGTAACCTGGAGCGTTTGTGCGAGTGTCGTGTTATCGACCGCACCGGCCTTATTTTAGATATTTTCG -CCCAACGTGCGCGTACCCATGAGGGTAAGTTGCAGGTTGAGCTGGCGCAGCTGCGCCATCTGGCTACGCG -CCTGGTGCGTGGCTGGACCCACCTTGAAAGACAGAAAGGCGGGATAGGTTTGCGTGGTCCGGGTGAAACC -CAGCTCGAAACCGACCGTCGTTTGTTGCGTAATCGCATCGTGCAGATACAGTCGCGCCTGGAAAGAGTTG -AAAAGCAGCGTGAGCAGGGGCGGCAATCGCGTATCAAAGCCGACGTTCCTACTGTTTCGCTGGTGGGATA -TACCAACGCCGGTAAATCTACCCTTTTCAATCGCATCACCGAAGCGCGGGTCTACGCGGCAGACCAGTTG -TTTGCCACCCTCGACCCGACGTTGCGGCGTATTGACGTTGCAGATGTCGGTGAAACCGTACTTGCAGATA -CCGTAGGGTTTATTCGCCACCTGCCGCACGATCTGGTGGCGGCATTTAAAGCCACGTTACAAGAGACGCG -GCAAGCCACATTACTGCTGCACGTCATTGATGCGGCGGATGTGCGTGTACAAGAAAACATCGAAGCGGTG -AATACGGTTCTTGAAGAGATCGACGCTCACGAGATCCCAACCCTGCTGGTGATGAACAAGATCGATATGC -TGGAAGATTTCGAACCGCGTATTGATCGGGACGAAGAGAACAAACCGAACCGTGTCTGGCTTTCCGCACA -GACCGGAGCGGGGATACCACAGCTTTTTCAGGCTTTGACGGAGCGGCTTTCCGGCGAGGTGGCGCAGCAT -ACATTGCGTCTGCCACCGCAGGAAGGGCGTCTGAGAAGTCGTTTTTATCAGCTTCAGGCAATAGAAAAAG -AGTGGATGGAGGAGGACGGCAGCGTAAGTCTGCAAGTTCGTATGCCGATCGTTGACTGGCGTCGCCTCTG -TAAACAAGAACCGGCGTTGATCGATTACCTGATCTAACGGCGTAGCGTCTGAAGCGTGGAGTCATATCCT -CTGGCGTCGAAAGACAACAGGGATCACCGCATAACAAATATGGAGCACAAACATGGCGTGGAATCAGCCC -GGTAATAACGGACAAGACCGCGACCCGTGGGGAAGCAGCAAACCTGGCGGCAACTCTGAGGGAAATGGAA -ACAAAGGCGGTCGCGATCAAGGGCCACCTGATTTAGATGATATCTTCCGCAAACTGAGCAAAAAGCTCGG -TGGTCTGGGCGGCGGTAAAGGCACCGGATCTGGCGGTGGCAGTTCATCGCAAGGCCCGCGCCCGCAGCTT -GGCGGTCGTGTCGTTACCATCGCAGCGGCAGCGATTGTCATTATCTGGGCGGCCAGTGGTTTCTATACCA -TTAAAGAAGCCGAACGCGGCGTGGTAACACGCTTTGGTAAATTCAGCCATCTGGTTGAGCCGGGTCTGAA -CTGGAAACCGACGTTTATCGACGAAGTCAAACCGGTGAACGTGGAAGCCGTGCGTGAACTGGCCGCTTCT -GGTGTGATGCTGACGTCGGACGAGAACGTAGTGCGCGTTGAGATGAACGTGCAGTACCGCGTCACCAATC -CGGAAAAATATCTGTATAGCGTGACCAGCCCGGATGACAGCCTGCGTCAGGCTACCGACAGCGCCCTGCG -TGGAGTTATCGGTAAATACACCATGGACCGCATTCTGACGGAAGGTCGTACCGTGATTCGTAGCGATACT -CAGCGCGAACTGGAAGAGACGATTCGTCCGTATGACATGGGTATCACGCTGCTGGACGTCAACTTCCAGG -CTGCTCGTCCGCCGGAAGAAGTAAAAGCGGCGTTTGACGATGCGATTGCCGCGCGTGAAAACGAACAGCA -ATACATTCGTGAAGCAGAAGCGTATACCAACGAAGTTCAGCCGCGTGCGAACGGTCAGGCGCAACGTATC -CTCGAAGAGGCGCGTGCGTACAAGGCCCAGACCATCCTGGAAGCTCAGGGTGAAGTGGCGCGCTTTGCTA -AACTTCTGCCGGAATATAAAGCCGCGCCGGAAATTACTCGCGAGCGTCTGTATATCGAGACGATGGAAAA -AGTGTTGGGTAACACCCGCAAAGTGCTGGTTAACGATAAAGGTGGCAACCTGATGGTTCTGCCGTTAGAC -CAGATGCTGAAAGGTGGTAACGCCCCTGCGGCGAAGAGCGATAACGGTGCCAGCAATCTGCTGCGTCTGC -CGCCAGCCTCTTCCTCCACAACCAGTGGAGCAAGCAACACGTCGTCCACCAGTCAGGGCGATATTATGGA -CCAACGCCGCGCCAACGCGCAGCGTAACGACTACCAGCGTCAGGGGGAATAACGATGCGTAAGTCAGTTA -TCGCGATTATCATCATCGTGCTGGTAGTGCTTTACATGTCTGTCTTTGTCGTCAAAGAAGGTGAGCGCGG -TATTACGCTGCGTTTTGGTAAGGTACTGCGTGACGATGACAACAAACCTCTGGTTTATGAGCCGGGTCTG -CATTTCAAGATACCGTTCATTGAAACGGTGAAAATGCTCGACGCACGTATTCAGACCATGGACAACCAGG -CCGACCGCTTTGTGACCAAAGAGAAGAAAGACCTGATCGTCGACTCTTACATCAAATGGCGCATCAGCGA -TTTCAGCCGTTACTACCTGGCAACGGGTGGTGGCGACATTTCGCAAGCGGAAGTGCTGTTGAAACGTAAG -TTCTCTGACCGTCTGCGTTCTGAAATTGGTCGCCTGGACGTGAAAGATATCGTCACCGATTCCCGTGGTC -GTCTGACCCTCGAAGTACGTGACGCGCTGAACTCCGGTTCTGCGGGTACAGAAGATGAAGTTACTACCCC -GGCGGCAGATAACGCCATTGCCGAAGCGGCAGAGCGCGTAACGGCTGAGACGAAGGGCAAAGTTCCGGTC -ATCAACCCGAACAGTATGGCGGCGCTGGGTATTGAAGTTGTCGATGTGCGTATCAAGCAGATCAACCTGC -CGACCGAAGTGTCTGAAGCGATCTACAACCGTATGCGCGCCGAGCGTGAAGCGGTAGCGCGTCGTCACCG -TTCACAAGGTCAGGAAGAAGCGGAAAAACTGCGCGCGACTGCCGACTATGAAGTGACCAGAACGCTGGCA -GAAGCTGAGCGTCAGGGCCGCATCATGCGTGGTGAAGGCGATGCCGAAGCAGCCAAACTGTTTGCTGATG -CATTCAGTAAAGATCCGGACTTCTACGCATTCATCCGTAGCCTGCGTGCTTATGAGAACAGCTTCTCTGG -CAATCAGGACGTGATGGTCATGAGCCCGGATAGCGATTTCTTCCGCTACATGAAGACGCCGACTTCCGCA -ACGCGTTAATATAACGACTGCGGTACAGGTCAATAAAGCCACCGCATCCTCAGGGATGTCGGTGGTTTTC -TTTTTCTATAAGGATAATGAATGAATTCGACAATCTGGCTGGCGCTTGCCCTGGTTTTGGTACTGGAAGG -TTTAGGGCCGATGCTTTACCCGAAGGCATGGAAGAAGATGATCTCTGCGATGACCAATTTGCCCGATAAT -ATTTTACGTCGTTTTGGCGGTGGACTTGTGGTTGCGGGCGTTGTGGTCTACTACATGTTGAGGAAAACGA -TTGGCTGAACAAAAAACAGACTGATCGAGGTCATTTTTGAGTGCAAAAAGTGCTGTAACTCTGAAAAAGC -GATGGTAGAATCCATTTTTAAGCAAACGGTGATTTTGAAAAATGGGTAACAACGTCGTCGTACTGGGCAC -CCAATGGGGTGACGAAGGTAAAGGTAAGATCGTCGATCTTCTGACTGAACGGGCTAAATATGTTGTACGC -TACCAGGGCGGTCACAACGCAGGCCATACTCTCGTAATCAACGGTGAAAAAACCGTTCTCCATCTTATTC -CATCAGGTATTCTCCGCGAGAATGTAACCAGCATCATCGGTAACGGTGTTGTGCTGTCTCCGGCCGCGCT -GATGAAAGAGATGAAAGAACTGGAAGACCGTGGCATCCCCGTTCGTGAGCGTCTGCTGCTGTCTGAAGCA -TGTCCGCTGATCCTTGATTATCACGTTGCGCTGGATAACGCGCGTGAGAAAGCGCGTGGCGCGAAAGCGA -TCGGCACCACCGGTCGTGGTATCGGGCCTGCTTATGAAGATAAAGTAGCACGTCGCGGTCTGCGTGTTGG -CGACCTTTTCGACAAAGAAACCTTCGCTGAAAAACTGAAAGAAGTGATGGAATATCACAACTTCCAGTTG -GTTAACTACTACAAAGCTGAAGCGGTTGATTACCAGAAAGTTCTGGATGATACGATGGCTGTTGCCGACA -TCCTGACTTCTATGGTGGTTGACGTTTCTGACCTGCTCGACCAGGCGCGTCAGCGTGGCGATTTCGTCAT -GTTTGAAGGTGCGCAGGGTACGCTGCTGGATATCGACCACGGTACTTATCCGTACGTAACTTCTTCCAAC -ACCACTGCTGGTGGCGTGGCGACCGGTTCCGGCCTGGGCCCGCGTTATGTTGATTACGTTCTGGGTATCC -TCAAAGCTTACTCCACTCGTGTAGGTGCAGGTCCGTTCCCGACCGAACTGTTTGATGAAACTGGCGAGTT -CCTCTGCAAGCAGGGTAACGAATTCGGCGCAACTACGGGGCGTCGTCGTCGTACCGGCTGGCTGGACACC -GTTGCCGTTCGTCGTGCGGTACAGCTGAACTCCCTGTCTGGCTTCTGCCTGACTAAACTGGACGTTCTGG -ATGGCCTGAAAGAGGTTAAACTCTGCGTGGCTTACCGTATGCCGGATGGTCGCGAAGTGACTACCACTCC -GCTGGCAGCTGACGACTGGAAAGGTGTAGAGCCGATTTACGAAACCATGCCGGGCTGGTCTGAATCCACC -TTCGGCGTGAAAGATCGTAGCGGCCTGCCGCAGGCGGCGCTGAACTATATCAAGCGTATTGAAGAGCTGA -CTGGTGTGCCGATCGATATCATCTCTACCGGTCCGGATCGTACTGAAACCATGATTCTGCGCGACCCGTT -CGACGCGTAATTCTGGTACGCCTGGCAGATATTTTGCCTGCCGGGCGAACAGTGTGATACATTGCTGTGT -CGGGTAAGCCATTACGCTATCCGACACAGTGTTAAATCCTCGCTTTTTTCCTTCCCCGAACTGAAATAAA -TTAGCGACACAGCTTGTGGCTGGTTTATCATCAATATAAATGTATTTTTTCCCGATTTCCCTTTTGAGGT -TGATGTGCAGTTAACGAGTTTCACTGATTACGGATTACGTGCGCTGATCTACATGGCGTCATTGCCAGAA -GGGCGGATGACCAGTATTTCTGAAGTGACTGACGTCTACGGCGTCTCCCGTAATCATATGGTCAAAATAA -TCAATCAACTTAGTCGTGCCGGCTACGTGACTGCTGTTCGTGGAAAAAATGGCGGCATTCGCCTGGGTAA -ACCGGCGAGTGCGATACGTATTGGTGATGTGGTGCGCGAGCTGGAGCCCTTATCGCTGGTGAATTGCAGC -AGTGAGTTTTGCCACATTACACCTGCCTGTAGGTTGAAACAGGCACTTTCTAAGGCCGTGCAAAGTTTTC -TTACGGAACTGGATAACTACACGCTTGCCGATTTGGTTGAAGAGAATCAACCGCTTTATAAATTATTGCT -GGTGGAGTGACGAAAATCTTCATCAGAGATGACAACGGAGGAACCGAGATGTCACAAGATCCTTTCCAGG -AACGCGAAGCTGAAAAATACGCGAATCCCATCCCTAGTCGGGAATTTATCCTCGAACATTTAACCAAACG -TGAAAAACCGGCCAGCCGTGATGAGCTGGCGGTAGAACTGCACATTGAAGGCGAAGAGCAGCTTGAAGGC -CTGCGTCGCCGCCTGCGCGCGATGGAGCGCGATGGTCAACTGGTCTTCACTCGTCGTCAGTGCTATGCGC -TGCCGGAACGCCTCGACCTGGTGAAAGGTACCGTTATTGGCCACCGTGATGGCTACGGCTTTCTGCGGGT -TGAAGGGCGTAAAGATGATTTGTATCTCTCCAGCGAGCAGATGAAAACCTGCATTCATGGCGATCAGGTG -CTGGCTCAGCCGCTGGGTGCTGACCGTAAAGGTCGTCGTGAAGCGCGTATTGTCCGCGTACTGGTGCCAA -AAACCAGCCAGATTGTTGGTCGCTACTTTACCGAAGCGGGCGTCGGCTTTGTGGTTCCTGACGACAGCCG -TCTGAGCTTCGATATCTTAATCCCGCCCGATCAGATCATGGGCGCGCGGATGGGCTTTGTGGTCGTAGTC -GAACTGACTCAGCGTCCGACTCGCCGCACCAAAGCGGTGGGTAAAATCGTCGAAGTGCTGGGCGACAATA -TGGGCACCGGCATGGCGGTTGATATCGCTCTGCGTACCCATGAAATTCCGTACATCTGGCCGCAGGCTGT -TGAGCAACAGGTTGCCGGGCTGAAAGAAGAAGTGCCGGAAGAAGCAAAAGCGGGCCGTGTTGATCTGCGC -GATTTACCGCTGGTCACCATTGATGGCGAAGACGCCCGTGACTTTGACGATGCAGTTTACTGCGAGAAAA -AACGCGGCGGCGGCTGGCGTTTATGGGTCGCGATTGCCGACGTCAGCTACTATGTGCGTCCGTCAACGCC -GCTGGACAGAGAAGCGCGTAACCGTGGCACGTCGGTGTACTTCCCTTCGCAGGTTATCCCGATGCTGCCG -GAAGTGCTCTCTAACGGCCTGTGTTCGCTCAACCCGCAGGTAGACCGCCTGTGTATGGTGTGCGAGATGA -CGGTTTCGTCGAAAGGCCGCCTGACGGGCTACAAATTCTACGAAGCGGTGATGAGCTCTCACGCGCGTCT -GACCTACACCAAAGTCTGGCATATTCTGCAGGGCGATCAGGATCTGCGCGAGCAGTACGCCCCGCTGGTT -AAGCATCTCGAAGAGTTGCATAACCTCTATAAAGTGCTGGATAAAGCCCGTGAAGAACGCGGTGGGATCT -CATTTGAGAGCGAAGAAGCGAAGTTCATTTTCAACGCTGAACGCCGTATTGAACGTATCGAACAGACCCA -GCGTAACGACGCGCACAAATTAATTGAAGAGTGCATGATTCTGGCGAATATCTCGGCGGCGCGTTTCGTT -GAGAAAGCGAAAGAACCGGCACTGTTCCGTATTCACGACAAGCCGAGCACCGAAGCGATTACCTCTTTCC -GTTCAGTGCTGGCGGAGCTGGGGCTGGAACTGCCGGGCGGTAACAAGCCGGAACCGCGTGACTACGCGGA -GCTGCTGGAGTCGGTTGCCGATCGTCCTGATGCAGAAATGCTGCAAACCATGCTGCTGCGCTCGATGAAA -CAGGCGATTTACGATCCAGAAAACCGTGGTCACTTTGGCCTGGCATTGCAGTCCTATGCGCACTTTACTT -CGCCGATTCGTCGTTATCCAGACCTGACGCTGCACCGCGCCATTAAATATCTGCTGGCGAAAGAGCAGGG -GCATCAGGGCAACACCACTGAAACCGGCGGCTACCATTATTCGATGGAAGAGATGCTGCAACTGGGTCAG -CACTGTTCGATGGCGGAACGTCGTGCCGACGAAGCAACGCGCGATGTGGCTGACTGGCTGAAGTGTGACT -TCATGCTCGACCAGGTAGGTAACGTCTTTAAAGGCGTAATTTCCAGCGTCACTGGCTTTGGCTTCTTCGT -CCGTCTGGACGACTTGTTCATTGATGGTCTGGTCCATGTCTCTTCGCTGGACAATGACTACTATCGCTTT -GACCAGGTAGGGCAACGCCTGATGGGGGAATCCAGCGGCCAGACTTATCGCCTGGGCGATCGCGTGGAAG -TTCGCGTCGAAGCGGTTAATATGGACGAGCGCAAAATCGACTTTAGCCTGATCTCCAGCGAACGCGCACC -GCGCAACGTCGGTAAAACGGCGCGCGAGAAAGCGAAAAAAGGCGATGCAGGTAAAAAAGGCGGCAAGCGT -CGTCAGGTCGGTAAAAAGGTAAACTTTGAGCCAGACAGCGCCTTCCGCGGTGAGAAAAAAACGAAGCCGA -AAGCGGCGAAGAAAGACGCGAGAAAAGCGAAAAAGCCATCGGCGAAAACGCAGAAAATAGCTGCAGCGAC -CAAAGCGAAGCGTGCGGCGAAGAAAAAAGTGGCAGAGTGATCAATACCCTCTTTAAAAGAAGAGGGTTAG -ATTGCTGACAAAATGCGCTTTGTTCATGCCGGATGCGGCGTGAACGCCTTATCCGGCCTACATAATCACG -CAAATTCAATATATTGCAGAGATCATGTAGGCCGGATAAACGTAGTGCATCAGGCAAAACGTAAACAACG -AGTACATTAATGAGCGAAATGATTTACGGCATCCACGCAGTGCAGGCCCTGCTGGAGCGCGCCCCTGAAC -GTTTTCAGGAAGTCTTTATTTTAAAAGGCCGTGAAGATAAACGTCTGTTACCGCTGATTCACGCCCTTGA -GTCTCAGGGCGTGGTTATCCAGTTGGCAAACCGCCAATATCTCGACGAGAAAAGCGACGGTGCCGTGCAT -CAGGGCATTATCGCCCGCGTGAAGCCAGGACGTCAGTATCAGGAAAACGATCTGCCGGATCTGATCGCTT -CGCTCGATCAACCGTTCCTGCTGATCCTCGACGGCGTAACCGATCCGCACAACCTCGGCGCGTGCCTGCG -TAGTGCGGACGCCGCAGGCGTTCATGCGGTGATTGTGCCGAAAGATCGCTCCGCACAGCTCAACGCTACG -GCGAAAAAAGTAGCCTGCGGCGCGGCAGAAAGCGTTCCGCTGATTCGGGTGACTAACCTTGCGCGCACCA -TGCGTATGTTGCAGGAAGAGAATATCTGGATCGTCGGTACGGCAGGCGAGGCGGATCATACACTCTATCA -GAGCAAAATGACCGGACGCCTGGCGCTGGTGATGGGTGCGGAAGGTGAAGGTATGCGTCGCCTGACTCGT -GAACATTGCGATGAGTTGATCAGCATCCCGATGGCTGGAAGCGTTTCTTCCCTGAACGTTTCGGTTGCGA -CCGGAATTTGCTTATTTGAAGCGGTGCGCCAGCGCAGCTAATTTCTCAGAATTATGAAAAGCCATCCAGA -TTTGGATGGTTTTTTTTTGTCTATAGCTGGTAAGATAATTACGTATTGCAAATATTCATTTTATTAATAT -TTAAACTTAATCTATATGGAATAATATATGACATGGAATCCGTTGGCGCTAGCGACGGCGCTGCAAACTG -TACCTGAACAAAATATTGATGTAACAAATAGCGAGAACGCATTAATTATTAAAATGAATGATTATGGCGA -TTTGCAAATCAATATTCTTTTTACTTCCCGCCAAATGATTATCGAAACCTTTATTTGTCCGGTGAGTAGT -ATCAGCAATCCAGATGAATTTAATACCTTCTTATTAAGAAATCAGAAGATGATGCCGTTGTCATCGGTAG -GGATCTCCAGCGTACAACAGGAAGAGTATTACATTGTTTTCGGGGCGTTATCGCTTAAATCTTCTCTTGA -AGATATCCTGCTTGAGATAACCTCGCTGGTAGATAACGCATTGGATCTGGCTGAAATTACAGAAGAATAT -TCACACTAATTACAAGGACGGGTATTTATGGGAATTTTAAAAAGTTTATTTACGCTGGGGAAATCGTTTA -TCTCCCAGGCGGAAGAATCCATTGAAGAAACCCAGGGCGTGCGCATGCTGGAACAGCATATTCGTGACGC -TAAAGCTGAACTCGATAAAGCCGGAAAATCTCGCGTTGATCTGCTGGCGCGGGTGAAATTAAGTCACGAT -AAGCTGAAAGATTTACGTGAGCGCAAAGCCAGTCTGGAAGCCCGTGCGCTGGAAGCGTTAAGCAAGAACG -TTAATCCGTCGTTGATTAACGAAGTTGCTGAAGAAATCGCGCGCCTTGAGAATCTCATTACCGCTGAAGA -GCAAGTGTTGTCGAATCTGGAAGTCTCCCGTGATGGCGTGGAAAAAGCAGTTACAGCGACAGCGCAGCGT -ATCGCTCAGTTTGAGCAGCAAATGGAAGTCGTTAAAGCCACTGAAGCCATGCAGCGTGCACAACAGGCTG -TAACAACCTCTACCGTTGGCGCATCTTCCAGCGTTTCGACAGCGGCAGAATCCTTAAAACGCCTGCAAAC -GCGTCAGGCCGAACGTCAGGCTCGCCTGGATGCTGCCGCACAGTTGGAGAAAGTCGCAGACGGTCGCGAC -CTTGACGAAAAGCTGGCGGAAGCCGGAATTGGCGGTAGCAATAAAAGTAGCGCCCAGGATGTATTAGCAA -GACTGCAACGCCAACAGGGCGAGTAATTTTTTTGCCAGCCTCGCTAAAAGGCTGGCAACTATTTTAAGGA -TAAAATATGTCTGGTTTTTTCCAGCGTCTGTTTGGCAAGGATAATAAGCCAGCTATCGCTCGTGGTCCGC -TGGGACTTCATCTCAATAGTGGCTTTACGCTCGACACGTTAGCGTTTCGTTTGCTGGAAGATGAATTGCT -GATTGCGCTGCCGGGTGAGGAATTTACGGTAGCCGCCGTCAGCCACATCGATCTGGGCGGCGGTAGTCAG -ATTTTCCGCTACTACACTTCAGGCGATGAGTTTCTGCAAATCAATACCACCGGCGGCGAAGATATTGATG -ACATTGATGATATCAAGCTCTTTGTCTATGAAGAGAGCTACGGTATCAGTAAAGAGAGTCACTGGCGCGA -GGCGATCAACGCCAAAGCGATGGGAGCAATGACCTTAAACTGGCAGGAAAAACGCTGGCAGCGATTTTTT -AACAGCGAAGAACCGGGAAATATCGAACCCGTCTACATGCTGGAAAAAGTAGAAAATCAAAACCATGCCA -AATGGGAGGTCCATAATTTTACCATGGGCTACCAACGGCAAGTAACCGAAGATACTTACGAATATTTGCT -GCTAAATGGTGAGGAATCTTTTAACGATCTCGGCGAGCCAGAGTGGTTATTTTCGCGCGCGTTGGGTGTC -GATATCCCGCTGACATCACTTCATATTATTGGTTAATTACAAGGACGTTTACAATGCATATACTGGATTC -ACTTCTTGCCTTTAGCGCCTATTTTTTTATTGGCGTGGCTATGGTGATTATTTTTCTGTTTATCTATTCT -AAAATTACACCGCACAACGAATGGCAGTTAATCAAAAACAATAATACCGCGGCGTCACTGGCGTTCAGCG -GTACATTGTTGGGTTACGTTATCCCCTTATCCAGTGCGGCAATCAATGCGGTGAGTATTCCAGACTATTT -CGCCTGGGGCGGGATTGCACTGGTGATTCAGTTACTCGTTTTTGCTGGTGTCAGACTTTATATGCCCGCA -TTAAGCGAAAAAATTATTAATCACAATACCGCAGCAGGAATGTTTATGGGAACCGCCGCGCTGGCTGGCG -GTATTTTTAACGCAGCTTGTATGACATGGTAATGGACGATCATGGCCAGAAAACGCAAATCAAGAAATAA -CAGTAAAATTGGTCACGGAGCGATTAGTCGCATTGGTAGACCGAATAATCCTTTTGAACCGTGCCGCAAT -CGCTACGCACAAAAATACTTAACGTTGGCGCTAATGGGCGGTGCCGCTTTTTTCGTATTGAAAGGTTGTA -GCGATAGTAGCGATGTCGATAACGACGGCGACGGAACGTTTTACGCGACAGTGCAGGATTGTATTGATGA -CGGTAATAATGCCGACATTTGCGCGCGTGGCTGGAACAACGCCAAAACGGCATTTTATGCCGATGTTCCG -AAGAATATGACTCAGCAGAACTGTCAGTCTAAGTACGAAAATTGCTACTACGACAATGTTGAACAGAGTT -GGATCCCGGTCGTTTCTGGATTTTTGTTAAGCCGGGTTATTCGTAAAGATCGCGATGAGCCGTTTGTTTA -TAACAGCGGCGGTTCCTCTTTTGCTTCGCGCCCAGTCTGGCGCAGCACTTCTGGTGATTACTCCTGGCGC -TCCGGTTCTGGCAAAAAAGAGTCTTACTCTTCGGGCGGCTTTACCACCAAAAAAGCGTCTACCGTTTCTC -GCGGCGGCTATGGTCGTTCTTCCAGCGCCCGTGGGCATTGGGGAGGCTAATCATGCTGAGACACAACGTT -CCTGTGCGACGGGATCTGGACCAGATCGCCGCTGACAACGGTTTCGACTTTCATATCATCGACAATGAAA -TCTATTGGGATGAGAGTCGGGCTTACCGTTTTACTCTGCGCCAGATTGAAGAGCAGATCGAAAAACCGAC -TGCGGAACTGCATCAGATGTGCCTTGAGGTGGTGGATCGCGCGGTAAAAGATGAAGAGATCCTGACGCAA -CTGGCGATCCCGCCGTTGTACTGGGATGTGATCGCTGAAAGCTGGCGCGCCCGCGATCCTTCGCTGTATG -GACGGATGGATTTTGCCTGGTGTGGCAATGCGCCGGTGAAGCTGCTGGAGTACAACGCCGATACGCCAAC -TTCATTGTACGAGTCGGCTTATTTCCAGTGGCTGTGGCTGGAGGATGCCCGGCGCAGCGGCATTATTCCG -CGTGATGCCGATCAGTACAATGCTATTCAGGAACGCCTGATTTCACGCTTTAGCGAGCTTTACAGTCGGG -AACCGTTTTATTTTTGCTGCTGTCAGGACACCGATGAAGACAGGAGTACCGTGCTGTACTTGCAGGACTG -CGCCCAGCAGGCAGGGCAGGAGTCGCGGTTTATCTACATTGAAGATCTCGGTTTGGGCGTCGGCGGCGTA -CTGACCGATCTTGATGATAATGTCATCCAGCGTGCATTTAAGCTGTATCCGCTGGAGTGGATGATGCGTG -ACGATAACGGTCCGCTGCTGCGCAAGCGTCGCGAGCAATGGGTGGAGCCGTTATGGAAAAGTATCTTGAG -TAATAAAGGGCTAATGCCGCTGCTTTGGCGCTTCTTCCCTGGTCATCCTAATCTTCTTGCGTCCTGGTTC -GATGGCGAGAAACCGCAGATTGCCGCTGGCGAAAGCTATGTGCGTAAACCAATCTATTCGCGCGAAGGCG -GCAACGTCACCATTTTTGACGGCAAGAATAACGTTGTTGACCACGCTGATGGTGATTACGCCGATGAACC -GATGATCTACCAGGCGTTTCAACCTCTGCCGCGGTTTGGCGATAGCTACACACTCATCGGTAGCTGGATT -GTCGATGATGAAGCGTGCGGAATGGGGATCCGTGAAGATAACACACTGATCACCAAAGACACCTCACGTT -TCGTTCCGCATTACATTGCTGGATAAGAATGTTTTAGCAATCTCTTTCTGTCATGAATCCATGGCAGTGA -CCATACTAATGGTGACTGCCATTGATGGAGGGAGACACAGTGCACTGGCAAACTCACACCGTTTTTAATC -AACCTATACCATTAAATAACAGCAACTTATACCTGTCTGATGGCGCGCTCTGCGAAGCGGTAACGCGTGA -AGGTGCTGGCTGGGATAGCGATTTTCTAGCCAGTATTGGTCAGCAGTTAGGAACGGCTGAATCCCTTGAA -CTGGGGCGGCTGGCGAATGTGAATCCGCCTGAATTATTGCGCTACGATGCGCAAGGACGCCGTCTGGACG -ATGTGCGTTTTCACCCCGCCTGGCACCTGCTGATGCAGGCGCTATGTACCAATCGGGTGCACAATCTTGC -CTGGGAAGAAGACGCTCGCTCCGGCGCATTTGTGGCGCGCGCGGCGCGTTTTATGTTACATGCGCAGGTT -GAGGCAGGGTCGTTATGTCCGATAACCATGACCTTTGCCGCCACGCCATTGTTGTTACAGATGTTACCCG -CGCCGTTTCAGGACTGGACCACGCCGCTATTGAGCGATCGCTACGATTCTCACTTATTGCCAGGTGGGCA -AAAACGCGGTTTGTTGATTGGCATGGGAATGACGGAAAAGCAGGGCGGTTCCGATGTTATGAGCAACACC -ACCCGTGCAGAGCGTCTGGAAGATGGCTCTTATCGGCTGGTGGGGCATAAATGGTTTTTCTCGGTTCCGC -AAAGCGATGCGCATCTGGTGCTGGCGCAGACCGCGGGTGGTCTGTCCTGCTTTTTTGTGCCGCGCTTTTT -GCCTGACGGGCAACGCAACGCGATTCGCCTCGAGCGGCTGAAAGATAAGCTGGGTAATCGCTCTAACGCC -AGTTGCGAAGTGGAGTTTCAGGATGCCATTGGTTGGTTGTTGGGGCTGGAAGGGGAAGGAATTCGTCTGA -TCCTGAAAATGGGTGGGATGACGCGTTTTGATTGCGCCCTGGGTAGCCATGCCATGATGCGCCGTGCATT -TTCGCTGGCGATTTATCATGCACATCAACGCCATGTTTTTGGTAATCCATTGATCCAACAGCCCCTTATG -CGTCATGTCTTAAGTCGCATGGCACTTCAGCTTGAAGGGCAAACGGCGTTGCTGTTTCGTCTTGCGCGAG -CGTGGGACCGGCGTGCCGATGCCAAAGAAGCCCTGTGGGCGCGTTTATTTACGCCTGCGGCAAAATTTGT -GATCTGCAAAAGAGGTATGCCGTTTGTGGCCGAAGCGATGGAGGTGCTGGGCGGCATTGGTTATTGCGAG -GAGAGTGAGCTGCCGCGGCTTTACCGGGAGATGCCGGTAAACAGTATTTGGGAAGGTTCCGGCAATATTA -TGTGCCTGGATGTGTTGCGCGTTCTCAATAAGCAAGCGGGCGTATACGACTTATTGTCGGAAGCATTTGT -GGAAGTGAAAGGGCAGGATCGCTATTTTGATCGCGCGGTTCGTCGTTTACAGCAGCAGCTGCGTAAGCCA -GCTGAAGAACTGGGGCGAGAGATTACTCATCAGCTATTCCTGCTGGGCTGCGGTGCGCAAATGTTGAAAT -ATGCTTCTCCGCCAATGGCGCAGGCGTGGTGTCAGGTGATGTTAGATACGCGCGGCGGCGTACGGTTGTC -AGAGCAGATCCAGAATGATTTATTGCTGCGGGCGACGGGGGGAGTGTGTGTGTAAGCGTATACGACTGAT -GCGACGCTGGTTTCGATTAACTAAATGAAATATGTGAAAATTGTAGGCCGGACAAGGCGCTCGCGCCGCA -TCCGGCATTGTTCATTTGCTGTAGATGACACTCATGCATACAGTATCGCCTGTACGCGCCAGTTATCAGG -CTGCTGGTCTTCGTACATGGTAATAATGCGGTACCATGACGCACCTTGTTCATCGGCCTTTAACGCCACG -ATACGTTCCACGTCCTGCGGATCCCCTGAAATATTGCTAACTGAGATCTGACCTATTTCATTCAGGCCCG -TCACGCAGTCAGCACTGGCGAATTCTGCAGACTGTGCCGTGGCGCTCGCAGGATAAGTCACTAATTGCAG -CGAGGGTGAGGCAAGTAATTGTTTCATCGTCAGCTCCATTTTTCGTTTCCCCACATGTTGCAGGGCATTC -CATCGCGGTAATAAACGCCCAGGCTTCCAGCCGGTAATTTATTGTGCACAGGTAAACGCATAGGGACGCA -AAGCAATGTAAAGCTGACTATGTAAGTTGTCTGATTTATTTACGGTACAAAATGGCTTGTGAATACCACT -GTCCTGTCACGATGGTTTCGTCCACCATGACGACAACGTAATAATCAGCTTTTGCAGCGACAGCTTTCGC -TTTGATTTCTGCTAATGCGTCATCCGGAGAACCCCGAACCATCGTGCTTACGCTACCTATTCGCTGTAAC -CCTTGCGTCTGGTCGCGGCGAATCTCTTGCGGATGGTCCGTTACTGGCGGTGCTGGCTGTGGCGTACCTT -GCAGTGCGCTACAGGCACTTAACATCAACACCAATAATAAACTGGCAAACCGGTAAATAACGCTATTACG -TTTCCTGCTAACCATAGTGTAGTGCCTTATTAATTTAACTTTGGGGGAATGTTCCCGAATTGTTACCTGG -TACGCGATTTTCGAATGAAAACGTGACGAAAGCGTAACCCACATCTCAACATTATGAACTAATACCGCCA -GCAGAAACTTGTGCTAAGGATTTCTTCATGTCATACCAGACAAAAAGGAGAGACAGATGATTGAAATAGA -ATCACGCGAGCTGGCAGATATTCCCGTTCTTCATGCTTATCCTGTCGGGCAAAAAGATACCCCGTTACCG -TGCGTAATTTTTTATCACGGCTTTACTTCATCCAGTCTGGTGTATAGCTATTTTGCCGTTGCGCTGGCGC -AGGCTGGTTTGCGGGTGATCATGCCGGATGCGCCCGATCACGGTAGCCGTTTTAGTGGTGACGCAGCGCG -GCGGTTAAATCAATTCTGGCAAATCTTGCTACAAAGTATGCAGGAATTCACTACTTTACGTGCGGCAATA -GCCGAAGAAAACTGGCTGCTTGATGACCGTCTGGCAGTCGGTGGCGCGTCGATGGGCGCGATGACGGCAC -TGGGGATTACCGCTCGCCACCCCACGGTGAGATGTACCGCCAGCATGATGGGATCGGGCTATTTTACATC -ACTCGCCCGTTCACTGTTTCCACCGCTGATACCTGAAACGGCAGCACAGCAGAATGAATTCAATAACATT -GTCGCGCCACTGGCAGAGTGGGAAGCGACAAACCACCTGGAACAACTTAGTGACAGACCTCTACTGCTGT -GGCATGGCCTCGACGATGACGTTGTGCCTGCCGACGAATCACTACGTTTGCAGCAGGCCTTAAGCGAGAC -GGGACGGGATAAACTGCTAACCTGTTCATGGCAGCCAGGCGTGCGTCACCGCATTACGCCTGAGGCGTTA -GATGCTGCCGTGACATTTTTCCGCCAGCATCTTTAAACACGCAGAATGCTGACCCCTTGCGCTTCCAGTT -GTTGCAGGATTTCCGGGTTAGCATTTTTGCCGGTGATAAGCATATCGATTTGATCGGCACGGCTAAAAAG -CATTCCCGCGCGTTCGCCAATCTTACTGCTATCAACCAGTACCACCAGTTTCCCTACCACGCTCAGCATC -TTCTGCTCTGCCATTGCTGTCAGCATATCGGTTTTATACAACCCTTCTGCGGTCAGCCCTTTTCCGCTGG -TAAACATCCAGTGCCCGGCATAGAGACTGTTTTCGCTGCCCTGCGGGCTTAAAGTGATGGACTGACTTTT -GTTGTACTGTCCGCCCATAATGATCACGCTGTCATGTTCTTGATCGATCAGGTAATTTGCCAGCGGTAGA -TAATTAGTGATGATTTGCACTGGCTTGCCACACATTTCCCGCCCAAGCAGAAACGCGGTGGAGCCGCAGT -TGATGACTACGCTTTCGCCCGGATTAACCAGCTGCGAGGCCGCTTTAGCGATACGTACTTTTTCATCGTG -ATTCTGCGCCTGATGCAGATTCATCGGCGTCCAGCGCGGGCGCTGTTGGGTAATAGCTTCTGCGCCATTG -CGCACTTTTTTCAGTTTGCCGCTTTCGTCAAGTTTATTGATATCGCGTCGCGCAGTGGCAGGCGAAATTC -CCAGACGCTCAACGACTTTCTCAACGGTCACAAAGCCCAATTGTGCGAGCATTTCCAGGAGGATTTGATG -TCTTTGTGCTTCAGTCATGAGCTATTCCGATAAAATTTGATTTTTTTAGATGATATTTGAAATAGCCAGG -AAATACTACGCCGGATAGCGCGAACTTCTCCACGCTACCCGGTATAAACGACAGATTACAGGAATGACTT -GAACGGCAGATCCGGTTCAATAGTGAAGCAATCATCGAAACCGCGCGGATAGTGGTACTCGAAGTTGTCT -TTATCCAGCGGCCAGGTAAATTTGCCACCCACCTGCCAGATAAACGGCTTGAAGCCATACTTCAGGCGAT -CTTTTTTCATCTCCCACAGCACGCGGATCTCTTGCGGATCGGCCTGGAAGTTTGACCAGATATCGTGGTG -GAACGGGATCACTACTTTCGCATTCAGCGCTTCACCCATACGCAGCATATCGGCGCTGGTCATTTTGTCG -GTGATACCGCGCGGGTTTTCGCCGTACGATCCTAACGCCACGTCGATCTGATGTTCGTTACCGTGCTTCG -CATAATAGTTAGAGTAGTGGGAGTCGCCGCTGTGATACAGGGAGCCGCCAGGCGTTTTGAACAGGTAGTT -CACCGCGCGATCGTCCATGCCATCTGGCAGTACGCCAGCCGCTTTTTGATCGGCAGGCAGGGTGATCAGT -GCAGTACGGTCGAAAGCATCAAGCGCATGAATTTCAATGTCTTTCACTTTTACTACATCGCCCGGTTTGA -CCACGATGCAACGCTCTTTCGGTACGCCCCAGCCAATCCACAAATCCACACAGGTTTTCGGTCCGATAAA -CGGTACGTCATCTGCACAATTCTGCATCACGGCAGCAGCGACGTTAACGTCGATATGATCGTTGTGATCG -TGAGTCGCCAGTACCGCGTCGATCTGGCGAATCGCAAACGGATCAAGAACAAACGGGGTGGTACGCAGGT -TTGGCTGCAGTTTTTTCACGCCAGCCATGCGCTGCATCTGGTGACCCTGTTTCATTAACGGGTTACCGTG -ACTTTGTTTGCCAGTGCCGCACCAGAAATCAACGCAAACGTTGGTGCCACCTTCCGATTTCAACCAGATC -CCGGTGCAGCCAAGCCACCACATCGCAAATGTGCCAGGAGCGACCTGTTCTTGTTCAATTTCTTCATTCA -ACCAGCTACCCCACTCCGGGAAAGTGCTCAGGATCCAGGATTCACGGGTGATACTTTTCACTTTACTCAT -CGCCATTTACCTTCATGATAGTTCAATTCGAATCAATATGTGATTGGTTTTGATTAATCCTGACACTATT -TTTTCAGGAAGGCAATGACCATTTTTTGACTTTTTGCCAGGGAAGTTGTTGTTGATTTTGAGTATGGAAA -GATTTAATGGAATGTGTAATTCAATTAACTAAATGAATTTAAATGGATAATTGTTTCGTTGTGTGAATCC -CACTCTATCCATGTGGAATTATTTGCGGGTCGCGTCACATTTAATCATAAATAATCTTGTTGTGATTACT -TTTGAAAATTAGAGTGAGTGCACAACATTCCGGGTGTGTGGAATACCCGGTTACCTCTTCTTCAGGAGAT -CGTTATGGAGATCCTCTACAACATCTTTACCGTGTTTTTTAACCAGGTCATGACCAATGCCCCGTTGTTG -CTGGGTATTGTGACCTGTCTGGGCTACATCCTACTGCGCAAAAGTGTCAGCGTTATTATTAAAGGCACGA -TTAAAACCATAATTGGTTTCATGTTGTTGCAGGCAGGGTCCGGCATCCTCACCAGCACCTTCAAACCGGT -GGTGGCGAAAATGTCCGAAGTCTACGGCATTAACGGCGCAATTTCCGATACCTACGCTTCAATGATGGCA -ACCATCGACCGCATGGGCGATGCCTATAGCTGGGTGGGTTACGCCGTATTGTTAGCGCTGGCGCTGAACA -TCTGTTACGTGCTGTTGCGTCGCATTACCGGCATTCGCACAATCATGTTGACCGGCCACATCATGTTCCA -GCAGGCCGGGTTGATTGCCGTTACGCTGTTTATCTTCGGCTACTCCATGTGGACCACCATTATCTGTACC -GCGATTCTGGTTTCGCTCTACTGGGGCATCACTTCCAACATGATGTACAAGCCGACTCAGGAAGTGACGG -ATGGCTGTGGTTTCTCCATCGGTCACCAGCAGCAGTTTGCATCATGGATTGCCTATAAAGTCGCGCCGTT -CCTCGGCAAAAAAGAGGAGAGCGTTGAAGACCTCAAATTGCCGGGCTGGCTGAACATTTTCCACGACAAC -ATCGTCTCCACGGCGATTGTGATGACCATCTTCTTTGGTGCCATTCTGCTCTCCTTCGGTATCGACACCG -TGCAGGCGATGGCAGGCAAAGTGCACTGGACGGTGTACATCCTGCAAACTGGTTTCTCCTTTGCGGTGGC -GATCTTCATCATCACGCAGGGTGTGCGCATGTTTGTGGCGGAACTCTCTGAAGCATTTAACGGCATTTCC -CAGCGCCTGATCCCAGGTGCGGTTCTGGCGATTGACTGTGCAGCTATCTATAGCTTCGCGCCGAACGCCG -TGGTCTGGGGCTTTATGTGGGGCACCATCGGTCAGCTGATTGCGGTTGGCATCCTGGTCGCCTGCGGCTC -CTCGATCCTGATTATTCCTGGCTTTATCCCGATGTTCTTCTCTAACGCCACCATCGGCGTGTTCGCTAAC -CACTTCGGCGGCTGGCGTGCGGCGCTGAAGATTTGTCTGGTGATGGGGATGATCGAAATCTTTGGTTGCG -TCTGGGCGGTGAAACTCACCGGTATGAGTGCCTGGATGGGCATGGCGGACTGGTCGATTCTGGCACCGCC -GATGATGCAAGGCTTCTTCTCCATCGGTATCGCCTTTATGGCCGTCATCATTGTAATTGCACTGGCTTAT -ATGTTCTTCGCTGGCCGCGCGCTGCGCGCAGAAGAAGATGCAGAAAAACAACTGGCAGAACAGTCTGCTT -AATAAGGAGTTTTGATTATGACCGTACGTATTCTGGCTGTGTGTGGCAACGGACAAGGCAGTTCCATGAT -CATGAAGATGAAAGTGGACCAGTTTTTAACCCAATCAAACATTGACCATACGGTAAACAGCTGCGCGGTT -GGCGAGTACAAAAGCGAGTTGAGTGGCGCGGATATCATCATCGCTTCTACGCACATTGCGGGCGAAATCA -CCGTGACCGGCAACAAATACGTGGTTGGCGTGCGCAACATGCTCTCTCCTGCCGACTTTGGCCCGAAACT -GCTGGAAGTGATCAAAGAGCATTTCCCGCAGGATGTGAAGTAAGGACGCGCCATGAAATTACGTGATTCG -CTGGCGGAAAATAAATCCATCCGCCTGCAGGCTGAAGCAGAGACATGGCAGGAAGCGGTGAAAATCGGCG -TTGACCTGCTGGTGGCGGCAGATGTGGTAGAGCCGCGTTACTACCAGGCGATTCTGGATGGCGTTGAACA -GTTCGGTCCTTATTTCGTTATCGCTCCGGGCCTGGCAATGCCGCACGGGCGTCCGGAAGAGGGCGTTAAG -AAAACCGGTTTCTCTCTGGTAACGCTGAAAAAGCCGCTGGAGTTCAACCACGATGACAACGATCCGGTGG -ATATCCTCATCACCATGGCGGCGGTCGATGCCAATACTCACCAGGAAGTGGGCATCATGCAGATCGTCAA -CCTGTTTGAAGATGAAGAGAATTTTGACCGTTTACGCGCCTGCCGTACCGAGCAGGAAGTACTGGATCTC -ATTGACCGCACCAACGCGGCAGCTTAAGAAGGAATTGAACATGTCATTACCGATGTTGCAAGTCGCGCTG -GACAACCAGACTATGGATAGCGCCTACGAAACCACTCGCCTGATTGCCGAAGAAGTCGACATTATCGAAG -TGGGCACCATTCTGTGCGTGGGCGAAGGCGTGCGTGCGGTTCGTGACCTGAAAGCGCTCTACCCGCACAA -AATCGTACTGGCAGACGCCAAAATTGCCGATGCAGGCAAAATCCTTTCGCGTATGTGCTTCGAAGCCAAC -GCTGACTGGGTGACGGTAATTTGCTGTGCGGATATCAACACCGCCAAAGGCGCGCTGGACGTGGCAAAAG -AGTTTAACGGCGACGTGCAGATCGAACTGACCGGTTACTGGACCTGGGAACAGGCGCAACAGTGGCGCGA -TGCAGGCATTGGGCAGGTGGTTTATCACCGCAGCCGTGACGCGCAGGCCGCAGGCGTGGCGTGGGGCGAA -GCGGACATCACCGCGATCAAACGTCTTTCCGATATGGGCTTCAAAGTCACCGTCACCGGAGGCCTGGCGC -TGGAAGATCTGCCGCTGTTCAAGGGTATTCCGATTCACGTCTTTATCGCGGGCCGTAGTATCCGTGATGC -CGCTTCTCCGGTGGAAGCCGCACGTCAGTTCAAACGTTCCATCGCTGAACTGTGGGGCTAAGGAGCGGAT -ATGTTGTCCAAACAAATCCCGCTTGGCATCTATGAAAAAGCGCTCCCCGCCGGGGAGTGCTGGCTGGAAC -GCCTGCAACTGGCAAAAACGTTAGGCTTCGATTTTGTCGAAATGTCGGTAGATGAAACTGACGATCGCCT -GTCGCGCCTCAACTGGAGCCGCGAGCAGCGTCTGGCGCTGGTCAATGCGATTGTTGAAACCGGCGTGCGC -GTGCCGTCCATGTGCCTTTCTGCTCATCGTCGTTTCCCGCTGGGCAGTGAAGATGACGCGGTGCGGGCGC -AGGGGCTGGAGATTATGCGTAAAGCTATCCAGTTCGCCCAGGATGTCGGTATTCGCGTGATCCAGCTGGC -GGGCTATGACGTTTACTATCAGGAAGCCAATAACGAAACGCGTCGTCGTTTCCGTGACGGCCTGAAAGAG -AGCGTTGAGATGGCAAGCCGCGCGCAGGTGACGCTGGCGATGGAGATCATGGATTATCCGTTGATGAGCT -CCATCAGCAAGGCGCTGGGATACGCGCACTATCTCAACAATCCGTGGTTCCAGCTCTACCCGGATATCGG -CAACCTGTCGGCGTGGGACAACGATGTGCAGATGGAGTTGCAGGCCGGAATCGGGCATATCGTCGCGGTA -CATGTGAAAGACACCAAACCTGGCGTCTTCAAAAACGTGCCGTTTGGCGAAGGTGTAGTGGATTTCGAAC -GTTGTTTCGAAACGCTCAAACAGAGTGGCTATTGCGGGCCGTACCTGATTGAGATGTGGAGCGAAACGGC -GGAAGACCCGGCGGCAGAAGTGGCGAAAGCGCGTGATTGGGTGAAAGCGCGCATGGCGAAAGCGGGCATG -GTGGAGGCGGCATAATGCAAAAGCTAAAACAGCAGGTATTTGAAGCCAACATGGAGCTGCCGCGCTACGG -GCTGGTGACCTTTACCTGGGGCAACGTCAGCGCTATCGACCGCGAACGCGGGCTGGTGGTGATCAAGCCC -AGCGGCGTTGCCTACGAAACCATGAAAGCGGCCGATATGGTGGTGGTTGATATGAGCGGCAAGGTGGTGG -AAGGGGAGTATCGCCCATCTTCCGACACTGCGACGCATCTCGAACTCTACCGTCGTTACCCGTCGCTTGG -TGGCATTGTCCATACCCACTCCACTCATGCCACCGCATGGGCGCAGGCGGGGCTGGCGATCCCGGCGTTA -GGCACCACGCACGCCGACTACTTCTTTGGCGACATTCCGTGTACGCGCGGGTTAAGCGAAGAAGAGGTGC -AGGGCGAGTATGAACTGAACACCGGCAAAGTGATTATCGAAACGCTGGGCAACGCCGAGCCGCTGCATAC -GCCGGGAATTGTGGTGTATCAGCACGGGCCGTTCGCCTGGGGGAAAGATGCTCACGATGCGGTGCATAAC -GCGGTGGTGATGGAAGAAGTGGCGAAAATGGCGTGGATTGCCCGCGGCATTAACCCACAACTCAATCACA -TCGACAGCTTCCTGATGAATAAACACTTCATGCGTAAACACGGTCCTAACGCTTATTACGGGCAGAAGTA -GAACACGCGCTGCGGAAATTTCCTTCCTCGGGAGATAACTGGTCTAATTCCGCAGCCGTTTTTCAAAAAA -AAGCCCCCTGCGAAGGGGGCAAAGCAAACTATGGCAATGTTTCGTTGGTTATACCTGGTGCTAGCGATAA -ATATCCGCGCTGGCGTGCATATTGCCGTTACTCCCCGGTTCCCGCATCAGAATTACGTGGTAGTACGTTG -CGCCTTGCGCATCTGTTTCTTCATTTAATGCCTGACGTGCTTCGCTTTCAGTGGCGAAATTATGATTGAT -ATAAATCACGCCTAAGCTTTGCACATCGTCCATATTTCTGGCCTGGTGGTTATTAATTTCAATGGCTGCC -CATGTATTTGCACTTAGCAAAAGCACAGCCAGAAGGGCTAAAACACGACTGAACATAGATACCTCCTCGA -CGGCTGACTTTGTGTGCTCTCCTCTGTGATGATCTTCTGATTTAATTTTAATCAATGATAAAGAAGTTGA -TGGTGACCATTTCTGATGCAGTTGTTCAAAAAAACACCATGATGAAGTGTGATGAACTTCAAATCAGCGT -GTTAGAGGTTAATTGCGAAAGGGGAGATTTATTTCGGCTCTGCCCTTGAGTTTAGCGAGGCATACAAGTA -CTATAACGCGTCATTTTTCAGCCGACCTTTAACACGTTCCTTGCCTCCCCGGGATTCGGCTGACCCAGAC -AGGAGGCTGAATAATCCGTAAGGAGCAATTCGATGCGTCATTACGAAATCGTTTTTATGGTCCATCCTGA -CCAGAGCGAACAGGTTCCGGGCATGATCGAGCGCTACACTGCTGCCATCACTGGTGCAGAAGGCAAGATC -CACCGTCTGGAAGACTGGGGCCGCCGTCAGCTGGCTTACCCGATCAACAAACTGCACAAAGCACACTACG -TTCTGATGAATGTTGAAGCTCCGCAGGAAGTGATCGATGAGCTGGAAACTACCTTCCGCTTCAACGATGC -CGTTATCCGCAGCATGGTTATGCGTACCAAGCACGCTGTTACCGAAGCATCTCCGATGGTTAAAGCGAAA -GACGAGCGCCGTGAGCGTCGCGATGATTTCGCAAACGAAACCGCTGATGATGCTGAAGCTGGGGATTCTG -AAGAGTAATTTCTGATGACCAACCGTCTGGTGTTGTCCGGCACCGTGTGCAGGGCTCCCCTTCGAAAGGT -CAGTCCATCAGGAATTCCTCACTGCCAGTTCGTGCTTGAGCATCGTTCTGTGCAGGAGGAAGCCGGCTTT -CACCGGCAGGCGTGGTGTCAAATGCCCGTTATTGTTAGCGGAAACGAAAAACAGGCCATTACTCACAGTA -TAACGGTCGGCAGTCGCATAACCGTTCAGGGGTTCATTTCATGCCACAAGGCAAAGAACGGACTGAGCAA -AATGGTTTTGCATGCCGAGCAGATTGAATTGATAGATTCTGGAGACTAGCCATATGGCACGTTATTTCCG -TCGTCGCAAGTTCTGCCGTTTCACCGCGGAAGGCGTTCAAGAGATCGACTATAAAGATATCGCTACGCTG -AAAAACTACATCACCGAAAGCGGTAAGATTGTCCCAAGCCGTATCACCGGTACCCGTGCAAAATACCAGC -GTCAGCTGGCTCGCGCTATCAAACGCGCTCGCTACCTGTCCCTGCTGCCGTACACTGATCGCCATCAGTA -ATCGGTCACGGTCCATTAATACGACTTTGAGAGGATAAGGTAATGCAAGTTATTCTGCTTGATAAAGTAG -CAAACCTGGGTAGCCTGGGTGATCAGGTAAACGTTAAAGCGGGCTATGCTCGTAACTTCCTGGTACCGCA -GGGTAAAGCTGTTCCAGCTACCAAGAAAAACATTGAATTCTTCGAAGCTCGTCGCGCTGAACTGGAAGCT -AAACTGGCTGAAGTTCTGGCAGCTGCTAATGCTCGCGCTGAGAAAATCAATGCACTGGAAACTGTTACCA -TCGCGTCTAAAGCTGGCGACGAAGGTAAACTGTTCGGTTCCATCGGTACTCGCGACATCGCTGACGCTGT -AACTGCAGCTGGCGTTGAAGTGGCTAAGAGCGAAGTTCGTCTGCCGAACGGCGTTCTGCGTACCACTGGC -GAACACGAAGTGAGCTTCCAGGTTCACAGCGAAGTATTCGCGAAAGTGATCGTAAACGTAGTAGCTGAAT -AATTCGTTATTCAACGAGACGTAAAAACGCCGACCATTGGTCGGCGTTTTGCTTTCTATTTTTCGTCAGG -TATTAGTTTCGCAAGTAGATCCATTCACCATTCTCTTGTGTCCATAAGTCAGGATGGTTTGCTGGCGTTA -GATACATACGAGCGCAACTGATGTCTCGCTCCTGCGGCACTCGCTCGAAACCCAAACCCGAGTAGATTGC -GGCTGAACTTGATAAGGAACGCAGACCAATTTTCAAATCATGGGGTAAATCAGAATACGCGTTTAGCAAT -GCAGCAATGATGAATCCGAGGGCATTAGAAACGCCTGTAACAGTGCGAAGTTGGTCGATATAAAGATCGA -TTGTTGGTAGTTCAGATGACCAGCAATTAGGCATTTGGGCAGGAAGGGTTACAACGTATCCTATCGTTTG -GCCGGTATAGTCTGGAGTACCATAACCAGGTCCCAAAACCACTTCGTGTATTGTGTATTTACTGTTGGGT -TCGAAGGATTCGACATCTTGCAATAAATATTTCAGTTCTGCGGTTAACCTCGCACCCGCGTAAGCTTTAT -TGTATTTCTGGGCGTGAATATTATCTAATGTAGCTTCATGGTTCCATCCAAAAGAATTATCACCATTCAT -TGTGATTCCATCGTAAGCATTACACCTCGTCGCTAACTTATTGAATGCTTGCCAGTCTGAGAGATCTAGT -TTGTGGATCTCAACAGTACGTCTGCCATCGCAATTATGATCTCTTCCACGATTTGAAAGTAATGTAGCGC -GTGCGTATTGATGAAATTTTAATTTTACTGGTTTGTCGGTGGACGAAAAACGAGATAAATATGCAGGAAA -TGAATAAATAGTCGTTGGTAATGTCATTGTAATGTTACCTGTTTAATGTTTTTATAAATATCGCAGCTGA -ATGTTCACAGAAAAAAATCGATATTAATAAAAATAAGTTTGTTTTCTGAAGTGGTGAAAATAGCGGATGG -TGAAAGATATTAATATCAAAAATCGCTCATTATGGATATAACGATGCACCCGGGGAGAAAATGACTTCCA -CGCCTTACACCGTACATTCTTGTTGTGCGGTATGTAATTATTCTACGCTGTCGGTATCGGTGTATTCGTT -AATCAGCAGGTTAGCCAGCCACAAAAAGCCATTGAGAAAATTATTGATTTTACATGGGATTATTATATTG -CTAATCCTTGGTTTTTAAAAATTGTGCATAGTGAAAATCAAAGTAAAGGTGTGCATTATGCAAAATCACA -GCGTCTCTTAGAAATTAACCATGCGCACTTGCAGTTAATGGAATCCTTATTGGATGAAGGGAAGAAACAC -AATATTTTTAAGCCAGATATCGACCCATTGCAGGTGAATATTAATATTGCTGCGCTTGGCGGATATTATT -TGATCAACCAGCATACGCTTGGCCTGGTTTATCACATCAGTATGGTTTCACCCCAGGCACTGGAAGCCAG -ACGTAAGGTCATCAAAGAGACAATCCTTAGCTGGCTTTTGGTTGACCCTTCATCTACCGCGCACGAATAA -AACTGCCATCCGGCTGGCGGGTGAACAGGACCTGTTGATTATTCCCCGTATCAATGGTTAAGCCCGTCAC -CACGCCGCTGGCGTTCTGGCGGATTTTCACCATCTGCCCGTTTTGCAAATTACTCAGCGGCTTACCCGCG -CCTTCTACCTGCGCCATTGCATAGACATCGGTAGCGGGCAGTCCGTGGTCGCGGAACAGCTGCGCCATCG -TTTTACCGGGTTCGACACGGTAAGAGCGCCATTGATTATCAATTCCGCTATCTGGCTGGAATGGTTGCGT -TTGGGTAGTTTGCGGCTGCTCTTCTGGCTGGCCTTCCTGTATAGGTTCTGGAGCGACCGGAGCCACCTGA -TCAGGATCATTTTGTGGGGTAACTAATTGCGCCCGCAGCTGTTCTTCTGTCGGCGGTTGTGATTGCGACT -GAATATCTAACTGCGCTTCACGCGTCACCACCGGCGCGTTGGGCGTATCATCAGATGGAAGCAGAAATCC -GACCACCAATACAATGGCGGCAATAATGATCCCCCGACGATGCATCGGCGGCAGCGGGTCCATGAAGCGA -AAATTGTCCGGCGCGTGCCAGACTTTCTCCAGGGTTGGTTTTAGTTCAAAGCGCCCGGGCATGGTTTCCT -CCTGCTCCGCGTCTTGTTCCTCAATCATAGCCTATGAATAAGCTAACGCTATGATGTCCGTGGTAAACCC -GCCTTTATTATATTCATACGGGATATTGCTATTGTTTCTTTTTCCCTGGGATTTGTCATCATTCCCGCGA -CAAAGTTTTACCCAAAGAAGTGTGGCTGATATGCTGCCCGCTACTTTATACCCTAAGAAAGGAAATACGA -TGACCACCCCAACTTTTGACACCATCGAAGCGCAAGCAAGCTACGGCATTGGTTTGCAGGTAGGGCAACA -ACTGAGTGAATCTGGCCTGGAAGGGCTGCTGCCAGAAGCACTGGTTGCAGGTATTGCCGATGCGCTGGAA -GGCAAACATCCGGCTGTTCCGGTTGATGTGGTGCATCGCGCGCTGCGTGAAATCCACGAGCGCGCCGATG -CCGTTCGTCGTCAGCGTTTCCAGGCGATGGCTGCTGAAGGTGTGAAATACCTGGAAGAAAACGCCAAAAA -AGAAGGTGTGAATAGCACCGAATCTGGCCTGCAATTCCGCGTGATCAACCAGGGTGAAGGCGCAATTCCG -GCACGTACCGACCGCGTTCGTGTTCATTACACCGGTAAACTGATCGACGGCACCGTGTTTGACAGCTCCG -TTGCTCGTGGTGAACCCGCTGAATTCCCGGTTAATGGCGTGATCCCTGGCTGGATTGAAGCACTGACTCT -GATGCCGGTAGGTTCTAAATGGGAACTGACTATCCCGCAGGAACTGGCATATGGCGAGCGCGGCGCAGGC -GCATCCATCCCTCCGTTCAGCACCCTGGTGTTTGAAGTCGAACTGCTGGAAATCCTCTAAGCAGCGCATT -CTGTTCCCCTCGAACGAGAGGGGAGCAGGCATTCAGCAATAAACCCTTCAGTTTGCCAAACGGCGCTATT -TTGTGTTGCAAAGACCCCGTAAGCGTGTATTTTTGTGAGCTGTTTCGCGTTATCACCGTGATATGACACT -CACTTTAAACATAAAATTAACATTAGATCTAAATCTTAGTATTCATCCCGCGTATTGTTACCTAATATCG -ATGAGTCCCGATACAGATTCGTCGTATCATAGACTGACTAAAGGCCGTAGAGCCTGAACAACACAGACAG -GTACAGGAAGAAAAAAACATGGTAGATCAGGTAAAAGTCGTTGCCGATGATCAGGCTCCGGCTGAACAGT -CGCTACGGCGCAATCTCACAAACCGACATATTCAGCTTATTGCCATTGGCGGTGCCATTGGTACGGGGTT -GTTTATGGGGTCTGGCAAAACGATTAGCCTTGCCGGGCCGTCGATCATTTTCGTTTATATGATCATTGGT -TTTATGCTCTTTTTCGTGATGCGGGCAATGGGGGAATTGCTGCTTTCGAATCTGGAATACAAATCTTTTA -GTGACTTCGCTTCCGATTTACTCGGGCCGTGGGCAGGATATTTCACCGGCTGGACTTACTGGTTCTGCTG -GGTTGTAACCGGTATGGCAGACGTGGTGGCGATCACGGCTTATGCTCAGTTCTGGTTCCCCGATCTCTCC -GACTGGGTCGCCTCGCTGGCGGTGATAGTGCTGCTGCTGACGCTCAATCTCGCCACCGTGAAAATGTTCG -GTGAGATGGAGTTCTGGTTTGCGATGATCAAAATCGTCGCCATTGTGTCGCTGATTGTCGTCGGCCTGGT -CATGGTGGCGATGCACTTTCAGTCACCGACTGGTGTGGAAGCGTCATTCGCGCATTTGTGGAATGACGGC -GGCTGGTTCCCGAAAGGTTTAAGTGGCTTCTTTGCCGGATTCCAGATAGCGGTTTTCGCTTTCGTGGGGA -TTGAGCTGGTAGGTACAACAGCTGCGGAAACCAAAGATCCAGAGAAATCACTGCCACGCGCGATTAACTC -CATTCCGATCCGTATCATTATGTTCTACGTCTTCGCGCTGATTGTGATTATGTCCGTGACGCCGTGGAGT -TCGGTAGTCCCGGAGAAAAGCCCGTTTGTTGAACTGTTCGTGTTGGTAGGGCTGCCTGCTGCCGCAAGCG -TGATCAACTTTGTGGTGCTGACCTCTGCGGCGTCTTCCGCTAACAGCGGCGTCTTCTCTACCAGCCGTAT -GCTGTTTGGTCTGGCGCAGGAAGGTGTGGCACCGAAAGCGTTCGCTAAACTTTCTAAGCGCGCAGTACCC -GCGAAAGGGCTGACGTTCTCGTGTATCTGTCTGCTCGGCGGCGTGGTGATGTTGTATGTGAATCCTAGTG -TGATTGGCGCGTTCACGATGATTACAACCGTTTCCGCGATTCTGTTTATGTTCGTCTGGACGATTATCCT -TTGCTCGTACCTTGTGTATCGCAAACAGCGTCCTCATCTACATGAGAAGTCGATCTACAAGATGCCGCTC -GGCAAGCTGATGTGCTGGGTATGTATGGCGTTCTTTGTGTTCGTGGTCGTGTTGCTGACACTGGAAGATG -ACACTCGCCAGGCGCTGCTGGTTACCCCGCTGTGGTTTATCGCGCTGGGGTTGGGCTGGCTGTTTATTGG -TAAGAAGCGGGCTGCTGAACTGCGGAAATAACCGCATTATCATGCTGGATGGCGCAATGCCATCCAGCTT -TTAGATCACTCACCCGCCAGCGCGCGTGGGAACAGTACATTGTTTTCCAGACTGATGTGATCCATCAGGT -CATCAATCAGTTCATTAATGCCGTTATACATCGCTTTCCAGGTGGTGCAGGCTTCTGGCGGCGGTGTGAC -GTTATTGGTGGTGTGTTTAATCACTTCCAGCAGTTCGCCCGCTTCATCGTGCTCGCTTTCCATTACGCTG -ATTGGCCCCATTGCCTGGCTGCCCATGCCTTGTTTGATCATCGGGAAGAGGATCTGCTCTTCTTTCATCA -TGTGGCTGGAAAGCTCTTCATGCAGCATGGTCAGGTATTTTGTCAGCCCTTTTGGCACGCTCGGTTTGTC -GGCGTGAACGCGCTCGACTTTAGTCGCTTGCAGAATCAGCTCCGGCAGTTGCTCGCGGTGACGATCGTGG -TAGCGCACGATGATATGGTCGATGATTTCTGCCAGCGGGGCGCTACGCCAGTCTTTCTCAATCGGTTGTT -CAGCGAGCTTTGCCAGTTCAGCTTCAATGACCTCAACATCCAGTTCTTTACGTGCCGCCGCGCGCGCCAG -CGTCTGCTTACCGCCACAGCAGTAATCCATATCATATTTACGAAACAGAGCTGAAGCGCGAGGAATAGAG -AGCGCCAGTTCACCTAAAGGTTGGTCGCGATAAGCCATAGCTGATACCTCATTCTTAATAAGATAAGATG -TATTTTAAATGCATCTTTAAGGCAAAAGCTATAACCCTTACGTAGCAGAGGCTTATTTAACTCACTGCCA -GCGTGTCAACTTTCTGAGACAGATTCAGTTAAAGGTTTTTCTGGTTTTGCTCTGACCGCGATGACCACGC -CAATCACTAACAGCGCGATACCGCTCAGCGTCATTAGCGGCGGCATTTGCTGGCGGAGTAAAAAGGTGTA -CAGCAAACCTGCCAGCGTTTCGAAAACAATCAGCGGCCCGAGAATCACTGTCGGTAATAGCTGGCTGGCG -ACGTTCCAGCAGAGTGCGCCAACCCATGAGCAAAGCACGGCTATCGCAACCATCAGACTAATAAACACCA -GCGGACGGGGGCCAAAGGGTAGGGAGAAGTCCGGCGTTTGCGTATTCAGCCAGTAACAAGCGACGAGATA -GCCGATAAGTGAAACCGGCAGTGTGACCAGCGCCTGCGCTGTTGCCCACATCATCGGATGTTTGTCGGGA -TTTTCCCGCAGCCAGCGGGCGTTGCGCAGGGCATACCACGCCCAGCAGACCACGGAAACTAACGCCAGCA -CGATGCCAGAGGTATAACGTGCCCAGTCAAAATCGGGGAGTCCGTGGTTTAACTCAGCAATATTCACACA -CGCCAGGCCGATGCCAATACAAATCAGTGCTGGGGCGAGTTTTCCCCACGCGAGTTTGCCGTCGCGCTGG -CTATAAAGCAGATTGGCAAAGACAGGAATGACCACCGGCAGGGTGCCGATAATCATCGTGGAAACAGGCG -CGCCAGTACGTTGAATGGCACTGGCAAGGCAGAAGTAATAGATGAGGTTGCCCATCATAGTGAGCATCAA -GGCGGTAAGCCAGTCGCGACGCGCCAACTGACGCAGACGCACGCGTCCCAGCCAGGCAATGGGCAGCGCA -ATTAACCCTAACGCCAGATAACGCCCCATCGACTGCAACATCGCCGGGTATTCCGGCACGATCAACGGCC -CGACAAAAATAAGCCCCCACATCAACCCTGCTAACAGGGCGTACAGCACGCCGCTAATCATTACTGGCAT -CCATTGATCTGTCAGAAGAAAGTTCAGGAAGCAGACATGATTGCTCCCGGCATCCCGTCATTATCAGAGA -GGATGCGGGAGGATGCCACTTTAATTAACTAGTTATTAACATTAAAAAGATGGCTTACGCTTTCGGCTAA -CGTTGTCGTTGGGTGGCCAATCAATTTGCTAAGTGTTTTGCTGTCATCAAACAGACCGCCTTTCGATGCG -CCAACGTCAGAATCCGCCAGCATATCCGCCAGTCCGTCGGGCAGTCCGACGCTTTTCAGTGCCGCGGCGA -AATCGGCTTCGCTCAGATTTTGATAGGTAACCTGTTTGCCGCTCTGTTTGGTCAGCTCTGCCGCTAACTG -TGTCAACGTCCAGGCACTATCGCCCGCCAGTTCGTAAACCTTGCCTTCGTGACCGGCTTCGCTAATCACG -CGTGCCGCAGCTGCCGCATAATCTGCCCGCGTTGCTGAGGCGATTTTGCCATCGCCCGCCGCACCGATAA -ATACGCCGTGTTCCAGTGCTGCCGGGGCGCTGGCGAGGTAGTTTTCGCTGTACCAGCCGTTGCGCAGCAG -GGTGTAAACGATGCCAGAATCAGCCAGCATTTTCTCCGTCTCGATGTGCTCATCGGCGAGGCCGAGCGGG -GAGGTATCTGCATGTAGCAGGCTGGTATAAGCGATAAATTTCACGCCAGCCGCCTTTGCGGCATTAATAA -CATTACGATGCTGCGGGGCACGTTGACCCACTTCGCTGGAAGAGATCAGCAGTAGTTTTTCCACTCCCTG -AAGTGCAGATGTCAGTGCGGCTTCATCGCCGTAGTCAGCCTGACGCACGGTAATGCCTTGTGCTGCCAGG -GCTTGGGCTTTTGCCGGATTACGAACGATAGCCACTATTTGGCTGGCAGGAACCGTTTTCATCAAGGATT -CAATAACATAGTGACCAAGTTGGCCAGTGGCACCAGTAATAGCGATCATGGGAAGTCTCCATCGTTTTGT -CTTGTGTTTAAATACGCTAACACCTAAACTTACTTTTAGTAAGTACGTACAAAAAGGTAAGTATGAAATG -AGTCAGGTTAGCCTGTCGCAACAACTGAAAGAGGGTAATCTCTTTGCGGAACAGTGCCCGTCGCGCGAGG -TGTTGAAACACGTCACCAGCCGTTGGGGGGTGTTGATTCTGGTGGCGCTACGCGAAGGTACTCATCGCTT -TAGCGACCTGCGGCGCAAAATCGGTGGGGTGAGTGAAAAGATGCTTGCGCAGTCGTTACAGGCGTTAGAA -CAGGATGGTTTTCTTAACCGTATCGCGTATCCGGTGGTGCCGCCGCATGTGGAATATAGCCTCACGCCGC -TGGGCGAGCAGGTGAGCGAAAAGGTTGCTGCACTGGCGGACTGGATTGAGTTGAATTTGCCCGAGGTGTT -GGCGGTGCGGGATGAACGTGCGGCATAACTGCCGGATGCGCTGAGCTTATCTGGTCTACGGTGCATGGCT -TGTAGGGCGGATAAGATGCGCCAGCATCGCATCCGCCAATAAATGCCGGATGCGGTTGATGATTTATAGG -CCGAAAAAGAAGTGTTTTACTTACTCAAATCCACCTGATAAATCGCAAACCCGATATCATCGGTCGCGAC -TTTATTCATCGGATACTGCCCTTTCTCTTTAATAAACGCTGCGGCTTTATCTGACGGAGAGGTTTCGAAA -CGGATATCCAGTTTCTTATCGCCAGCTATCGGTGCTAAACGCCAGTTGTTATCTGCCGCCGGGTGAATTT -CCCCCGCACGTTTCGACTCATCAGCAATCCACGCTGCCAGCACCGAGCGGTTCTCATCCGGTGAAGCAAA -AGCGATATGGCTGTCGCCCGTACCGGCAAATTTGCCGCCGTAAGCGCGATAGTTATTGGTGGCAACCAGG -AACATGGCGTTCGGATCAATCGGCTTGCCATTAAAGGTCAGGTTCTTAATCCTTTCCGCATTGGCATTAA -TCATCTGGCACTCGCCGTCATAACGGGCGGGCTGGGTAACATCAATCTGATAATTCACACCATCAATAAC -ATCAAAGTTATAAGTGCGGAAACCATCCCAGTTGATGAGTGACTGTGGTTTCGTGCTGTTGGGATCAATC -TGGTTAAACTGTCCCGCGGAGCACTCCAGCCACTCTTTCACCTCTTTACCGCTGGCTTTCACCACAATCA -GCGTATTGGGATAGAGATAAAGATCGGCGGCATTACGGAAGGTCAACTGGCCTTTTTCCACCTCCACATA -GCTTGCCGGGTCATTTTTGCGACCACCGACTTTAAACGGTGCGGCAGCTGAAAGCACCGGCAGTTTTGCC -AGATCCGGATCGCCCTGAATGTAATGCTCGACATACGCTTTTTGCGCGTTGTTCACCACCTGCACGGTCG -GATCGTCCTGCACCAGCGCCAGATAGCTATACATATTGTCGGCAGATTTACCGATTGGCTTGCTGACGAA -CTGGCGTGTGGCATCGTGATCGGCTTTGAGTGTTTCTACCAGCTTGCTGTCTTCCGCCGCGAGGGATTTT -TTATTAGCGATGTCGTAAATCGGTCGTGCTTCCGCTTTCGCCTGCGTCACCTGCCATTTACCGCTGTCAT -TACTGAGTTGTAAGTCGACCACACCAAGATGATCGCCCCACATGCCTGGCATTACCGCCGGAACACCATT -CAGCGTGCCTTTGGCGATATCAGCCCCTTCGATATCAGCAAAATCTTTACCTGGGAAAACGGCGTGAGCA -TGGCCAAACATAATGGCGTTAACGCCCGGAATTTCACTGAGGTAATAAACTGAGTTTTCCGCCATCACTT -TATACGGATCGGCAGATAGCCCGGAATGTGCCAGAACGACAACAACATCGGCACCTTTCTCGCGCATTTC -AGGCACGTATTTGCGCACGGTTTCGGTAATATCATTCACCGTCACTTTCCCGGATAAATTAGCTTTATCC -CAGCCCATGATTTGTGGTGGCACGACGCCAATATAGCCAATCTTCAGCGTCTGTTTTTTTCCGTCTTTAT -CGACCACTTCGGTGTCTTTAATTAAATACGGTGTAAACATTGGCTGTTTGGTTCTGGCGTCAATGACGTT -GGCATTTACATAAGGGAATTTCGCTCCTGCCAGCGCATTTTTCAGGTAATCCAGACCGTAGTTAAACTCG -TGGTTGCCAAGCGTTCCGACGGTATAGTCCAGCGTATTTAATGCCTTATAGACCGGGTGAATATCACCTG -CTTTTAATCCTTTCGCCGACATGTAATCGGCCAGCGGACTCCCCTGAATCAAATCGCCGTTATCAACCAG -TACGCTGTTTTTCACTTCATTGCGGGCATCGTTAATCAGGCTTGCCGTACGTACCAGTCCGAATTTTTCC -GTGGCGGTGTCTTTGTAATAATCGAAATCCATCATGTTGCTATGCAGATCAGTGGTTTCCATGATACGCA -GATCGACCGTCGCTGCATTCACACTGGCGGCAATCAGCGTGGCCAGGAGCGTTGCGCTAAACTTAATCAT -CAGGGACATCCTTTTATCATCGGGAATACGAAAGAAAAGGGAGAATAAACGTCTTACTTATAGAACAGTG -AAGAATGCCACAATTTTACGCTTTGAAAATGATGACACTATCACAGTTGGCGCATTCATTAACGATAGGG -TATAAGTAAAACAATAAGTTAACACCGCTCACAGAGACGAGGTGGAGAAATGTTAGATCAAGTATGCCAG -CTTGCACGGAATGCAGGCGATGCCATTATGCAGGTCTACGACGGGACGAAACCGATGGACGTCGTCAGCA -AAGCGGACAATTCTCCGGTAACGGCAGCGGATATTGCCGCTCACACCGTTATCATGGACGGTTTACGTAC -GCTGACACCGGATGTTCCGGTCCTTTCTGAAGAAGATCCTTTCGGTTGGGAAGTCCGTCAGCACTGGCAG -CGTTACTGGCTGGTAGACCCGCTGGATGGTACTAAAGAGTTTATTAAACGTAATGGCGAATTCACCGTTA -ACATTGCGCTCATTGACCATGGCAAACCGATTTTAGGCGTGGTGTATGCGCCGGTAATGAACGTAATGTA -CAGCGCGGCAGAAGGCAAAGCGTGGAAAGAAGAGTGCGGTGTGCGCAAGCAGATTCAGGTCCGCGATGCG -CGCCCGCCGCTGGTGGTGATCAGCCGTTCCCATGCGGATGCGGAGCTGAAAGAGTATCTGCAACAGCTTG -GCGAACATCAGACCACGTCCATCGGCTCTTCGCTGAAATTCTGCCTGGTGGCGGAAGGACAGGCGCAGCT -GTACCCGCGCTTCGGACCAACGAATATTTGGGACACCGCCGCTGGACATGCTGTAGCTGCAGCTGCCGGA -GCGCACGTTCACGACTGGCAGGGTAAACCGCTGGATTACACTCCGCGTGAGTCGTTCCTGAATCCGGGGT -TCAGAGTGTCTATTTACTAAATTCAGATGGCAGAAACAGTGTATTTCCTGATTCTGCCATCCTGATTTCT -CCCAACCTAAAAAGTTATAAATAAAAAGAGATTGTATTTAAAGTGCAAAAATTCAATTGCTAATAAGTTA -CATTTTAATAATGAGCGTTTTTTGATAGTTTACTTCTATAGTGAGATATTTAATGGCGACATAAAGTAAC -CAAATAAAATAAGGTTGTCATATGTTACCCAGGATCAGACACAATAATTTTATTGGTGCGGTGGAGTTAT -TTGTAAAGTCTTCGTATACAAAAACACATTCAAACAATTTTTTTAACAACATCCATCATGCATTTAAGAA -AAAAGATTGGATTTCGAATTATGATAGCCTGTTAACTTTGAGGGAGTTCTTTCGTTGCGCAACTCAGATT -GATAAAAGTGGTTATCAGGTGCTTTCATCAAAAAATGAAACTGTTCACGCCATGGATAAGTTTCTTATCA -GTTTCAGCCTTAAAGATAACGGTGCCGAATATACAATGACATTGCGAGGTAGTGGATTTGAATACGAAGA -AATACCCATAACAATAAATGAATATAACTCATTCATGGATTTCAAAAACCGTGAATTTCCGTTAGAACAA -AACAGACGATTGTATGCCTGGGATATTCTACAGAAAAAACAGTCTGACATACCGAAAAGGATTAAAGGTT -ATATTCACCAGGCGATTGGTGACGTGTCTTTAGGTTATGCCTTATTGGAGGATATAGTAAGCAAATTAAA -ACGGGGTAAATTTGAACTCCAAATACCAGGAGGTGGAATTAAAGAATGCGATGGATGGTATATTTACGAA -AAAATAATTGATGATAATTTTGCCATAGTCATAGAATCTTTGGGCTTTGCGCTTAAAATCTATGGAGGGG -ATGAACGTTTTCGTAATGGTTCCTCTGTTGTTTTGGAGGATGAAGATTACTCTCTTATTTATAATTTTCT -GGTTAATGCAGGTTGCCAACAAGTCGAATTAGCCGAACAAGTGGATGCGATAGTAAGTGCGAATCTGGCC -GCAGATAGCGATATTACCAAAGAAAAGATTTGCGAGAAATATAAATCGACCATTGAGGCGTTTAAAAAAG -AGCAACTAGCGTTACCAGTATTAGTTCGGCGTAAGAACTCAGAGACTTAATTCCCCTATCCCATAGATAA -CGATAGGGGAAAATTATTTTTGCAGAATTTATGTTATTGCCATTATTTGAGCAACTTTTGCAGCAGGTCC -ATCACTTGCTGCACCTCTTCCGGTGTGAGCGCCCCGTCTTTGGCCCATTGCACGCGACCATCCTTATCCA -GCACCACTACAGCGGAACTTTCTTCATCCAGCTGCCAGGCACCGAGCGCGACGCCATTGCTATCGACAAT -AAACTGCGACCAGGGATAAAGCTTTTTATTACTCTCCAGACTGCTGCGCACAAACATCCCTGAACCCGGA -ATCGCGTCGTCGGTGTTAACAATGGTGGTGGTCTGGTAACGATCGTGCGGTAACTTCGCTGATTTAATCG -CTTCAATCAGCGTCGCGTTTTTCTCTTTTGCAGAGGTGCGACCAGCAATATGTTGCAGTACTCGCACTTT -TCCCACTAACTGCGCGCTGTTCCAGGTTTTGTAGCTAAACTGATCTTTATCAAGCACCAACTCGCCCCGA -TCGGTAATGCCAATCGGCGGCACTCGCTGACCGGTTTCGAACTGATGTGCGGAAGCCATCATCGGCAACA -GCAGGCAGGTGAGTGCCAGAATCTTGCGTAGGGTCATGGTGTTTCCTTCTTATGATATGCAGGTGATCCG -ACCACTTGGGTCTGAGTTTTAATCATATGTGCTATTTATCGAATTTCCCGCAAGTGTGATGCCAGTTTGC -GGTCAAGCGCACAAATCATATGAAAAATGAATGCTTATACTGAAGACCGCGCTTCGGTAAAAAGATAATT -CTGAATAATTGTAACCTTTAGGTAAAAAAAGTTATACGCGGTGGAAACATTGCCCGGATAGTCTATAGTC -ACTAAGCATTAAAATTTGCGCCTCATAATAGTTGGGCCGATTGTGGCACCGCACAGGCGTAATACTCAGC -AGGAGATAACAATGAAAATTTTCCAACGGTACAACCCACTTCAGGTGGCGAAGTACGTAAAGATCCTGTT -CCGTGGACGGTTATACATCAAGGACGTTGGCGCTTTTGAATTCGATAAGGGTAAGATTCTTATCCCAAAA -GTGAAGGATAAGCTGCATTTGTCAGTGATGTCCGAAGTTAACCGTCAGGTTATGCGTCTGCAAACAGAGA -TGGCTTAACCAAAGTGCTATGCAGTAAAAAGTGCTATGCAGTAATAAGACGGCTCCTGATTCAGGAGCCG -TTGATGTTTCTGGGGGTTACGCGACGCTTTCTTCTTTATCTTTAGCGTCAGGCAGTTTTGGCGAAAGGGC -GGTGGCCTTGCTGTCGATCCGGGTCACCAGCAGCTGGTCGATGCGGTAGTTATCGATATCCACCACTTCA -AATTTGTAGCCGGCGAATTTCACCGAATCGGTGCGTTTCGGGATCTTACGCAGCATAAACATCATAAAGC -CGCCGATGGTTTCGTAGTTGCCCGACTGCGGGAACTCGTCAATATCCAGCACGCGCATGACGTCGTCAAT -TGGGGTGCCGCCGTCAATCAGCCATGAGTTCTCATCACGGGCGACAATCTGCTCTTCCAGCCCCTGACCG -ACCAGATCGCCCATCAGCGTGGTCATCACGTCATTGAGGGTGATGATCCCCACCACCAGCGCGTACTCGT -TCATGATCACCGCGAAGTCTTCACCTGCGGTTTTAAAACTTTCCAACGCCTCTGAAAGGGTTAACGTATC -CGGCACAATCAGCGTGTTGCGAATTTGTACGCCGCTGTTCAGTGCCAGGCTTTGGTTAGCCAGCACGCGG -TTCAGCAGGTCTTTAGAATCGACATAACCGATGATGTGGTCAATATCTTCATTACAGACGAGGAACTTAG -AGTGCGGATGTTCCGCCACCTTATTCTTCAGGCTTTGCTCATCTTCGTGGAGATCAAACCAAATCACGTT -TTCACGCGGTGTCATTGAAGACGGAACGGTACGGGATTCCAGCTCAAAGACGTTTTCAATCAGCTCGTGT -TCCTGTTTACGTAACACGCCCGCCAGCGCACCGGCTTCCACTACCGCGTAGATGTCATCAGAAGTGATGT -CATCTTTACGTACCATTGGCAGTTTGAAAATACGGAAGATTATGTTCGCCAGGCCGTTGAAGAACCACAC -CAGCGGGGTGCAAACGTACAGGCAGAAGCGCATCGGGTTGATGATACGCAAAGCCACAGCTTCTGGCGCA -ATCATACCGATGCGTTTCGGGGTTAAATCCGCAAACAGGATAAACATGCCAGTCACTAACGAGAAAGAGA -GAATAAAGCTCAGTTGCTCAGAGAGCTCTGCCGACATATAGCGGGAGAACAGGCTGTGAAAAGCTGGAGA -AAATGCCGCATCACCGACGATACCGCCGAGAATCGCCACTGCGTTCAGACCGATTTGGACCACGGTAAAG -AACATGCCGGGATTTTCCTGCATATTCAGAACGCGTTGGGCATTTATATTGCCTTCATCAGCCAGCAGTT -TAAGTTTGATTTTGCGTGAGGCGGCAAGCGAGATCTCGGACATCGAGAAGAACGCACTTACAGCGATCAA -GCAGAGTATGACTAAAATACTGTTTAACATATCTTATCCGACCTTTCAGGCCAGATCCTCGGAAGGGGAA -GTTGATTAATTTGTGTGAAATACACATTGAAAGCCGATTCGAAGAAAGTGAACCGGCATTTTCAGTGGCT -AGTATAGCGTAAGGTACTGTAAAGCCGCCAGAGGGTTAAAATTCAGACAGCTGAAAAATGCAAAACTGCC -TGATACGCTATGCCGATCAGGCCTACGCAGTCCTTGCAATATATTGAATTTGGACGATTTTGTAGGCCTG -GTAAGTCGTTTACGCCGCATCAGGCATAGACAAAGAGCACTTTATCAACAAACTACATTTGTACCCGTAA -CGCTATGCTTCCGGCGGCAGACAGACGCCAATTCCGCCAATTCCACAGTAACCATACGGGTTTTTATGCA -GATATTGCTGGTGGTCATCTTCGGCATAATAAAACGGTGTGGCGTTAGCGATTTCCGTGGTGATGTGACG -ATCGTCATCGGCGGCAAGCATCGCCGCCTGAAAACGTTCCAGACTGGCGCGAGCTGCGGCATCCTGTTCT -GGGGTCAGCGGATAAATCGCTGAACGATACTGCGTGCCGTGGTCATTGCCCTGACGCATTCCCTGGGCGG -GATCGTGATTCTCCCAAAATACCTGTAGCAACTGCTCATAGCTGATGACGGAAGGATCGTAAACAATGCG -TACCGCTTCGGCATGACCCGTATCACCGGAGCACACTTCCCGATAAGTCGGATTTGGCGTATAGCCGCCG -GTATAGCCTGCGGCGGTGCTGTAAACGCCGGGTAACTGCCAGAACAGACGCTCCACACCCCAGAAACAAC -CCATCGCAAAAATGGCAATCTCCATTCCGTCAGGTACATTGGTCATTGAGTGACCGTTGACCGCATGCAG -CGTGGCTACGGGCATCGGGGTGTTACGTCCAGGCAGGGCATCGGCGGGGGAAACCAGATGCTTTTTATCA -AATAAACTCATGGTGTCGCTCTCCCGAAAATCGGTCATTGGGGTTAAGGTTGTAACAAGAGGCGTATTTG -CACACAATAACCACCGTGAATAGGTCTAAAGTAAAACATAAGAAATATTTGGGGTTTAGTCTGCTTTTTA -ATCCATATTACTGGATTTTTGTTAAGCCGTTTAACGGCGTTCCAGGGGCAGGAAAAAAGGATATTCAGGA -GAAAATGTGCGCTATATCCGACAGTTATGCTGTGTAAGCTTACTCTGCTTAAGCGGATCTGCCGTCGCCG -CGAACGTCCGTCTACAGGTCGAGGGGTTATCGGGACAGCTGGAAAAGAACGTTCGTGCGCAGCTTTCTAC -GATTGAAAGTGATGAAGTGACGCCAGACCGTCGCTTTCGCGCACGCGTCGATGATGCCATCCGCGAAGGT -CTGAAAGCGCTGGGTTATTACCAGCCGACCATTGAATTTGATCTCCGTCCACCGCCAAAGAAAGGGCGGC -AGGTATTGATCGCCAAAGTCACGCCAGGCGTGCCGGTGTTAATTGGCGGCACCGATGTGGTATTGCGCGG -CGGCGCGCGGACCGATAAAGACTATTTGAAATTGCTCGATACTCGCCCGGCTATTGGCACGGTACTGAAC -CAGGGCGATTATGAAAATTTCAAAAAGTCCTTAACCAGCATTGCGTTGCGTAAAGGTTATTTCGATAGCG -AATTTACCAAAGCGCAGCTGGGCATTGCGCTCGGCCTGCATAAAGCCTTCTGGGATATTGATTATAACAG -TGGCGAACGTTACCGCTTTGGGCATGTGACCTTTGAAGGATCACAAATCCGCGATGAATACCTGCAAAAT -CTGGTGCCGTTTAAAGAGGGCGATGAGTACGAATCGAAAGATCTGGCAGAACTGAACCGCCGACTTTCTG -CTACCGGCTGGTTTAACTCGGTGGTGGTGGCTCCACAATTTGATAAAGCGCGCGAAACGAAAGTATTACC -ATTGACGGGCGTGGTTTCGCCGCGAACAGAAAACACCATCGAAACCGGGGTCGGTTACTCTACGGACGTG -GGACCGCGCGTGAAAGCGACGTGGAAAAAGCCGTGGATGAACTCTTATGGTCACAGTCTGACCACCAGTA -CTAGTATTTCCGCGCCGGAACAGACCCTCGACTTCAGCTATAAAATGCCGCTGCTGAAGAATCCACTGGA -ACAATATTATTTGGTGCAGGGCGGTTTTAAGCGCACTGACCTGAACGATACCGAATCTGACTCCACTACG -CTGGTGGCTTCTCGCTACTGGGATCTCTCCAGCGGCTGGCAGCGTGCCATTAACCTGCGCTGGAGTCTCG -ACCACTTTACTCAGGGTGAAATTACCAATACCACGATGCTGTTTTATCCTGGGGTGATGATTAGCCGCAC -GCGTTCTCGTGGTGGCCTGATGCCAACCTGGGGCGACTCGCAACGCTACTCTATCGACTACTCCAACACG -GCCTGGGGTTCAGATGTCGATTTCTCCGTTTTCCAGGCGCAGAACGTCTGGATCCGCACACTGTACGATC -GCCATCGTTTTGTTACACGCGGCACGCTGGGCTGGATTGAAACCGGTGATTTCGACAAAGTACCGCCGGA -TCTGCGTTTCTTCGCCGGGGGCGACCGCAGTATTCGTGGCTACAAATACAAATCTATCGCTCCGAAATAC -GCCAACGGTGACCTGAAAGGGGCCTCGAAGTTGATAACCGGATCGCTGGAATACCAGTACAACGTGACCG -GAAAATGGTGGGGCGCGGTGTTTGTCGATAGTGGCGAAGCGGTAAGCGATATTCGCCGCAGCGACTTTAA -AACCGGTACCGGGGTCGGCGTGCGCTGGGAATCGCCGGTCGGGCCAATCAAACTCGATTTTGCCGTACCG -GTCGCGGATAAAGACGAACACGGGTTACAGTTTTACATCGGTCTGGGGCCAGAATTATGAGTTTATGGAA -AAAAATCAGCCTCGGCGTGGTTATCGTTATCTTACTGTTGCTGGGATCGGTGGCGTTTCTGGTGGGCACC -ACCAGCGGCCTGCATCTGGTATTTAAAGCGGCGGATCGCTGGGTGCCAGGACTGGATATTGGCAAGGTCA -CCGGCGGCTGGCGCGATCTCACCTTGTCTGACGTTCGTTATGAGCAGCCAGGCGTGGCGGTAAAAGCGGG -CAATCTGCATCTGGCTGTCGGGCTTGAGTGCCTGTGGAACAGCAGTGTTTGTATTAATGATCTGGCGCTG -AAAGACATTCAGGTCAACATCGACAGTAAAAAAATGCCTCCTTCTGAACAGGTTGAAGAAGAGGAAGATA -GCGGTCCGCTGGATCTCTCCACGCCGTATCCCATCACCCTGACACGGGTGGCACTGGACAACGTCAACAT -TAAGATTGATGACACCACGGTATCGGTGATGGACTTCACCTCCGGCCTGAACTGGCAGGAGAAAACCCTG -ACCCTGAAACCGACGTCGCTGAAAGGCCTGCTGATTGCTCTGCCGAAAGTGGCGGAAGTGGCGCAGGAAG -AAGTGGTCGAACCGAAAATTGAAAATCCGCAGCCGGATGAAAAGCCGCTCGGCGAAACGCTGAAAGATCT -CTTTTCTCGCCCGGTATTGCCGGAAATGACCGACGTGCATTTGCCGCTTAACCTGAACATTGAAGAGTTT -AAGGGCGAGCAGCTGCGCGTGACGGGCGACACGGACATCACCGTGAGCACCATGCTGCTGAAAGTGAGCA -GCATTGACGGCAATACTAAACTGGACGCCCTGGATATCGATTCCAGTCAAGGGATCGTCAACGCCAGCGG -CACGGCGCAGCTGTCAGACAACTGGCCGGTGGACATCACTCTCAACAGTACACTGAACGTGGAGCCGTTG -AAAGGTGAAAAAGTGAAGCTGAAAATGGGCGGCGCGCTGCGCGAACAGCTGGAGATTGGCGTTAATCTTT -CCGGTCCGGTGGATATGGATTTACGCGCCCAGACGCGACTGGCGGAAGCCGGATTGCCGCTCAACGTGGA -AGTGAACAGCAAACAGCTTTACTGGCCGTTCACTGGTGAGAAGCAGTATCAGGCGGATGATCTGAAACTG -AAACTTACCGGCAAAATGACCGATTACACGCTCTCTATGCGTACGGCAGTGAAGGGACAGGAGATCCCGC -CCGCGACTATTACCCTCGACGCCAAAGGTAATGAACAGCAGGTCAATCTCGACAAACTCACCGTCGCGGC -GCTGGAAGGGAAAACTGAACTCAAGGCGTTGCTCGACTGGCAACAGGCCATTAGTTGGCGCGGTGAGCTA -ACGCTTAACGGCATTAACACCGCCAAAGAGTTCCCGGACTGGCCGTCGAAACTCAATGGCTTGATTAAAA -CCCGCGGTAGCCTGTACGGCGGCACCTGGCAGATGGACGTGCCGGAGTTGAAGCTGACCGGTAACGTTAA -ACAGAACAAAGTGAACGTTGACGGCACGCTGAAAGGCAACAGTTATATGCAGTGGATGATCCCAGGGCTT -CATCTGGAACTCGGGCCAAACAGTGCCGAAGTGAAAGGCGAGCTGGGGGTAAAAGATCTCAATCTTGATG -CCACCATCAACGCGCCGGGGCTGGATAACGCGCTGCCGGGGCTTGGCGGTACAGCGAAAGGGCTGGTGAA -AGTACGCGGCACGGTGGAAGCGCCACAACTACTGGCAGATATCACCGCGCGCGGCCTGCGCTGGCAGGAA -CTTTCCGTGGCGCAGGTTCGCGTGGAAGGCGATATCAAATCCACCGATCAGATCGCCGGGAAACTCGACG -TACGCGTTGAGCAAATTTCGCAGCCGGATGTAAATATCAACCTCGTCACCCTGAATGCCAAAGGCAGCGA -AAAGCAGCACGAGCTACAGTTGCGGATTCAGGGGGAGCCTGTCTCCGGGCAGCTTAATCTGGCAGGAAGT -TTTGATCGCAAAGAAGAACGCTGGAAGGGAACTCTTAGCAATACCCGCTTCCAGACGCCGGTTGGCCCGT -GGTCGCTGACCCGCGATATTGCGCTGGATTACCGCAATAAGGAGCAAAAAATCAGCATCGGGCCACACTG -CTGGCTTAACCCGAATGCGGAACTGTGCGTGCCGCAAACTATCGATGCGGGGGCCGAAGGGCGTGCGGTG -GTGAATCTCAACCGCTTCGACCTCGCCATGCTGAAACCGTTTATGCCAGAAACCACTCAGGCCAGCGGTA -TCTTCACGGGTAAAGCGGACGTTGCCTGGGACACCACGAAAGAGGGGCTGCCGCAGGGCAGTATCACCCT -TTCGGGGCGTAACGTGCAGGTAACGCAAACCGTCAACGATGCGGCGCTGCCCGTGGCGTTTCAGACACTG -AATCTGACGGCGGAATTGCGTAACAACCGTGCCGAATTGGGCTGGACCATCCGCCTGACCAATAACGGCC -AGTTTGATGGACAGGTGCAGGTGACCGATCCGCAAGGCCGCCGTAATCTTGGTGGCAACGTCAATATCCG -TAACTTCAACCTTGCGATGATAAACCCCATCTTTACCCGTGGGGAAAAAGCAGCGGGGATGGTGAGTGCC -AACTTGCGTCTGGGTGGTGATGTGCAAAGCCCGCAGTTGTTTGGTCAGCTTCAGGTTACGGGTGTGGATA -TCGATGGCAACTTTATGCCGTTTGATATGCAACCGAGCCAGCTTGCGGTCAACTTTAACGGTATGCGCTC -GACGCTTGCCGGTACAGTACGGACCCAGCAGGGTGAAATCTACCTGAACGGTGATGCCGACTGGAGCCAA -ATTGAAAACTGGCGGGCGCGGGTAACGGCGAAAGGCAGTAAAGTGCGGATCACCGTGCCGCCGATGGTAC -GAATGGATGTATCGCCAGATGTTGTATTCGAGGCTACACCAAACCTGTTTACCCTCGATGGTCGCGTGGA -TGTCCCTTGGGCGCGCATCGTGGTGCACGATCTGCCGGAAAGCGCAGTAGGCGTCTCCAGCGATGTGGTG -ATGCTTAACGATAACCTGCAACCGGAAGAGCCGAAAACGGCGTCGATTCCGATTAACAGTAACCTGATTG -TCCACGTTGGCAACAATGTGCGCATTGACGCCTTTGGCCTGAAAGCGCGGCTGACGGGCGATCTCAATGT -CGTTCAGGACAAACAAGGGCTGGGTCTGAACGGGCAGATCAACATCCCTGAAGGGCGCTTCCATGCCTAT -GGTCAGGATCTGATTGTGCGTAAAGGTGAGTTACTGTTCTCTGGTCCGCCAGATCAACCGTATCTTAATA -TTGAAGCTATTCGTAACCCGGATGCTACAGAAGACGACGTAATCGCCGGAGTTCGCGTCACTGGTCTGGC -GGACGAACCGAAAGCGGAGATCTTCTCTGACCCGGCGATGTCGCAACAAGCTGCCTTGTCTTATTTGCTA -CGTGGACAAGGGCTGGAGAGCGATCAGAGCGACAGTGCGGCAATGACCTCGATGCTGATTGGTTTGGGGG -TTGCGCAAAGTGGCCAGATTGTGGGTAAAATCGGCGAGACGTTTGGCGTAAGCAATTTAGCGCTCGACAC -CCAGGGAGTAGGCGACTCCTCCCAGGTAGTGGTCAGCGGCTATGTATTGCCAGGTCTGCAAGTGAAATAC -GGCGTGGGTATATTTGACTCTATAGCAACACTCACGTTACGTTATCGCCTGATGCCTAAGCTATATCTGG -AAGCCGTGTCTGGTGTAGACCAGGCACTGGATTTGCTCTATCAGTTCGAGTTTTAGCAATGCGAATATTT -GTCTACGGCAGTTTACGCCACAAACAAGGCAACAGTCACTGGATGACCAATGCCCAGTTACTGGGCGATT -TCAGTATCGATAACTACCAGTTGTATAGCCTGGGCCACTATCCAGGCGCAGTTCCGGGGAACGGAACGGT -ACACGGTGAAGTTTATCGTATTGACAACGCCACGCTGGCCGAACTTGATGCCTTGCGCACCAGGGGCGGT -GAATACGCGCGCCAGTTGATTCAGACGCCGTACGGGAGTGCATGGATGTACGTTTATCAACGACCCGTCG -ATGGATTAAAGCTAATTGAAAGCGGCGACTGGTTAGACAGGGATAAGTAACCATATGCATACGCCACCTT -CGGGTGGCGTTGTTTTTTGCGAGACGACTCGCATTCTGTTTTGTAATTCCCTCACCTTTTGCTTTTCTCT -CCGAGCCGCTTTCCATATCTATTAACGCATAAAAAACTCTGCTGGCATTCACAAATGCGCAGGGGTAAAA -CGTTTCCTGTAGCACCGTGAGTTATACTTTGTATAACTTAAGGAGGTGCAGATGCGTATTACCATAAAAA -GATGGGGGAACAGTGCAGGTATGGTCATTCCCAATATCGTAATGAAAGAACTTAACTTACAGCCGGGGCA -GAGCGTGGAGGCGCAAGTGAGCAACAATCAACTGATTCTGACACCCATCTCCAGGCGCTACTCGCTTGAT -GAACTGCTGGCACAGTGTGACATGAACGCCGCGGAACTTAGCGAGCAGGATGTCTGGGGTAAATCCACCC -CTGCGGGTGACGAAATATGGTAAAGAAAAGTGAATTTGAACGGGGAGACATTGTGCTGGTTGGCTTTGAT -CCAGCAAGCGGCCATGAACAGCAAGGTGCTGGTCGACCTGCGCTTGTGCTCTCCGTTCAAGCCTTTAATC -AACTGGGAATGACGCTGGTGGCCCCCATTACGCAGGGCGGAAATTTTGCCCGTTATGCCGGATTTAGCGT -TCCTTTACATTGCGAAGAAGGCGATGTGCACGGCGTGGTGCTGGTGAATCAGGTGCGGATGATGGATCTA -CACGCCCGGCTGGCAAAGCGTATTGGTCTGGCTGCGGATGAGGTGGTGGAAGAGGCGTTATTACGCTTGC -AGGCGGTGGTGGAATAAGGTGTGTTTATTTATCGCGGGCATAAAAAAACCCTTACTAACCGAAGCCCGGC -GTTCAGGGTTATTACGCCAGAAGAACTTATTTATTCTTTGCGCGCTCGAAGGAGGCAACGATTTCAGCTT -TAGCGGCTTCTGCGTTTTCCCAACCTTCAACTTTCACCCACTTGCCTTTTTCGAGGTCTTTGTAGTGCTC -GAAGAAGTGAGCGATTTGCGCTTTCAGCAGTTCAGGCAGATCGTTAACGTCTTTAATGTGATCGTATTCT -TTGCTCAGCTTGCTGTGCGGAACCGCAACCAGTTTCGCATCTTCACCGGCTTCGTCGGTCATTTTCAGAA -CGCCAACCGGACGGCAACGGATCACAGAACCCGGCTGCAGCGGGTACGGAGTTGGGACCAGTACGTCAAC -CGGGTCACCGTCCAGAGACAGGGTGTGGTTGATGTAACCGTAGTTGCATGGATAGAACATCGCGGTGGAC -ATGAAGCGGTCAACGAACAGTGCGCCGCTCTCTTTGTCGATTTCGTATTTGATCGGATCTGCGTTAGCCG -GGATCTCAATAACAACGTAGATGTCTTCCGGCAGATCTTTACCCGCAGGGACGTTGAGTAAGCTCATGTC -TGTTTCCTTTAAAAATATGTGGCAAACAAGTGCCGAGTATTATAGCCAACTCGCGCCGAATGTCTTCGCT -TGTTTTCGTCTTCATTTTCCTTTTTCACCAGTTTTAAGACGGTATACAGAGCAGGAAAATCCATAACCGT -AGCCGCATTTTTCATAGTGAGATGAAAGCGATTACAAACTTGTGATTAACGTTTTATTTACTTTTTTGAA -GTGTGATGTAACGCAATCTGTTACATAACGAATTGTCTATAGTTTTTTCGCGAACATCTTTTAACCAATA -ATAACTACCCCGACGAGGACAACCCTATGTGGAAACGCTTACTTATAGTCTCTGCAGTCTCGGCAGCCAT -GTCGTCTATGGCGTTGGCCGCTCCATTAACCGTTGGATTTTCGCAGGTCGGATCGGAATCAGGCTGGCGT -GCCGCAGAAACCAATGTGGCGAAAAGTGAAGCCGAAAAGCGCGGAATCACGTTGAAAATTGCCGATGGTC -AGCAAAAGCAGGAAAACCAGATTAAAGCGGTACGTTCCTTCGTTGCACAAGGGGTGGATGCGATCTTTAT -CGCTCCGGTGGTCGCGACAGGTTGGGAACCGGTATTAAAAGAGGCGAAAGATGCCGAAATCCCGGTATTC -TTGCTCGATCGTTCCATTGATGTGAAAGACAAATCTCTCTATATGACCACCGTCACTGCCGACAACATCC -TCGAAGGCAAGTTGATTGGTGACTGGCTGGTAAAAGAAGTGAATGGCAAACCATGCAACGTGGTGGAGCT -GCAGGGCACCGTTGGGGCCAGCGTCGCCATTGACCGTAAGAAAGGCTTTGCCGAAGCCATTAAGAATGCG -CCAAATATCAAAATCATCCGCTCGCAGTCAGGTGACTTCACCCGCAGTAAAGGCAAAGAAGTCATGGAGA -GCTTTATCAAAGCGGAAAACAACGGCAAAAACATCTGCATGGTTTACGCCCATAACGACGACATGGTGAT -TGGTGCAATTCAGGCAATTAAAGAAGCGGGCCTGAAACCGGGCAAAGATATCCTCACGGGTTCCATTGAC -GGTGTACCGGACATCTACAAAGCGATGATGGATGGCGAAGCGAACGCCAGTGTTGAACTGACGCCGAATA -TGGCAGGTCCCGCCTTCGACGCGCTGGAGAAATACAAAAAAGACGGCACCATGCCTGAAAAGCTGACGTT -AACCAAATCCACCCTTTACCTGCCTGATACCGCAAAAGAAGAATTAGAGAAGAAGAAAAATATGGGGTAT -TGAGGGTTGCTATGCCTGATGCCGATTCGTAGGCCGGATAAGGCGCTCGCGCCGCATCCGGCGATGGTGC -ACTGAAGCCTGATGCGACGCTTACCGCGTCTTATCATGCCTACTGGGAGCACGCTTTACACCGGGGGAAA -CCATGACGACCGACCAACACCAGGAGATCCTCCGCACCGAAGGATTAAGTAAATTTTTCCCCGGCGTCAA -AGCGTTAGACAACGTTGATTTCAGCCTGCGCCGTGGCGAAATCATGGCGCTGCTCGGTGAAAACGGGGCG -GGAAAATCAACGCTAATCAAAGCATTAACTGGTGTATACCACGCCGATCGCGGCACCATCTGGCTGGAAG -GCCAGGCTATCTCACCGAAAAATACCGCCCACGCGCAACAACTCGGCATTGGCACCGTCTATCAGGAAGT -CAACCTGCTACCCAATATGTCGGTCGCTGATAATCTATTTATAGGCCGCGAACCCAAACGCTTCGGCCTT -CTACGCCGCAAAGAGATGGAAAAGCGCGCCACCGAACTGATGGCATCTTACGGTTTCTCCCTCGACGTGC -GCGAACCGCTCAACCGCTTTTCAGTCGCGATGCAGCAAATCGTCGCTATTTGTCGGGCTATCGATCTCTC -TGCCAAAGTGCTGATCCTCGATGAACCCACCGCCAGTCTCGACACCCAGGAAGTGGAGTTACTGTTTGAC -CTGATGCGTCAGTTGCGCGATCGCGGCGTCAGCCTGATTTTTGTCACTCACTTTCTCGATCAGGTCTATC -AGGTCAGCGATCGGATCACCGTCTTACGCAACGGCAGTTTCGTAGGCTGTCGGGAAACGTGCGAGCTACC -GCAGATCGAACTGGTAAAAATGATGCTGGGGCGCGAGCTGGATACCCACGCGCTACAGCGTGCCGGGCGA -ACATTGTTGAGCGACAAACCCGTTGCCGCGTTCAAAAATTACGGCAAAAAAGGAACGATCGCACCGTTTG -ATCTCGAAGTACGCCCCGGCGAGATCGTCGGTCTGGCTGGATTGCTGGGATCAGGACGTACCGAAACCGC -CGAAGTGATCTTCGGTATCAAACCTGCTGACAGCGGCACGGCGTTGATCAAAGGCAAACCGCAAAACCTG -CGATCGCCACATCAGGCTTCGGTACTGGGCATTGGCTTCTGCCCGGAAGACAGGAAAACCGATGGCATCA -TCGCTGCCGCCTCGGTGCGGGAAAATATCATCCTCGCTCTCCAGGCCCAGCGCGGCTGGCTACGTCCCAT -TTCCCGCAAAGAACAGCAAGAGATTGCCGAACGCTTTATCCGCCAGCTTGGCATTCGCACACCTTCAACT -GAACAACCGATTGAATTTCTCTCCGGCGGCAATCAGCAAAAAGTGTTGCTTTCACGTTGGCTACTGACCC -GACCGCAATTTCTGATCCTCGATGAGCCAACCCGCGGCATTGATGTTGGTGCCCACGCCGAGATCATCCG -CCTGATTGAAACGCTATGCGCCGATGGTCTGGCGCTGCTGGTGATCTCCTCCGAACTGGAAGAGCTGGTG -GGCTATGCCGATCGGGTGATTATCATGCGCGATCGCAAACAGGTGGCGGAGATCCCGCTGGCAGAGCTTT -CCGTTCCGGCGATCATGAACGCCATTGCGGCGTAAGGAGAACAGTGTGATGCCTCAATCTCTTCCGGACA -CCACTACGCCAAAAAGGCGCTTTCGCTGGCCGACGGGGATGCCGCAGCTGGTAGCACTATTGCTGGTGCT -GCTGGTCGATAGCCTGGTAGCCCCGCATTTCTGGCAGGTGTACTGCACCCATTTTGTTGGACGATGAAAT -GGAATAGCCCCTAATATGTCAAAGCCAAAATACCCTTTTGAAAAGCGCCTTGAAGTCGTGAATCACTACT -TCACAACTGATGATGGTTACAGGATCATCTCGGCACGTTTTGGTGTCCCCCGAACCCAGGTCAGGACATG -GGTTGCCCTCTATGAAAAACATGGAGAAAAAGGTTTAATTCCCAAACCTAAAGGCGTTAGTGCTGATCCA -GAGTTGCGTATTAAGGTCGTGAAAGCTGTGATCGAGCAGCACATGTCCCTTAATCAGGCTGCTGCTCACT -TTATGCTTGCTGGTAGTGGTTCTGTAGCCAGGTGGCTGAAGGTCTATGAAGAGCGCGGAGAAGCTGGTTT -ACGCGCGCTCAAGATTGGCACCAAAAGAAACATTGCAATATCAGTTGATCCAGAAAAAGCGGCATCAGCA -TTGGAGCTGTCAAAAGACCGACGCATTGAGGATCTTGAAAGGCAAGTTCGATTTCTTGAAACGCGGCTTA -TGTATCTAAAAAAGCTGAAAGCCTTAGCTCATCCCACGAAAAAGTGAAAGTACTCAACGAGCTAAGGCAG -TTTTATCCTCTTGATGAGCTTCTCAGGGCTGCGGAGATACCGCGCAGTACGTTTTATTATCATCTAAAGG -CTCTCAGCAAGCCTGACAAGTATGCGGACGTTAAAAAGCGTATTAGTGAGATTTATCACGAGAATAGAGG -CCGATACGGATACCGTAGGGTAACGCTGTCTCTTCATCGAGAAGGGAAACAGATTAACCATAAAGCTGTT -CAGCGCCTGATGGGAACCCTCTCACTTAAAGCAGCGATTAAGGTCAAGCGATACCGCTCTTACAGAGGAG -AGGTAGGGCAAACCGCCCCTAATGTTCTCCAAAGAGATTTCAAGGCTACGCGGCCAAACGAGAAGTGGGT -TACCGATGTTACTGAATTTGCAGTCAATGGGCGCAAGCTGTATTTGTCTCCAGTAATAGATCTCTTCAAC -AACGAAGTTATTTCTTACAGCCTTTCGGAAAGACCAGTGATGAACATGGTTGAGAATATGCTCGATCAGG -CATTCAAAAAGCTTAATCCTCACGAGCATCCTGTTCTGCACTCTGACCAGGGATGGCAGTATCGTATGAG -AAGATATCAAAATATCCTTAAAGAACATGGTATTAAACAAAGCATGTCCAGAAAAGGCAATTGTCTGGAT -AATGCTGTGGTGGAGTGTTTCTTTGGAACCTTAAAGTCGGAGTGTTTTTATCTTGATGAGTTCAGTAATA -TAAGCGAACTGAAGGATGCTGTTACGGAATATATTGAATACTACAACAGCAGAAGAATTAGCCTGAAATT -AAAAGGTCTGACTCCAATTGAATATCGGAATCAGACCTATATGCCTCGTGTTTAACTGTCCAACTTTTTG -GGGTCAGTACAAGGTGGTGCTTCAGGATGGGCGTTTGTTCGGTAGCCCCATAGACATTCTTAACCGTGCA -GCTCCCGTTGCGTTACTGGCGATTGGCATGACGCTGGTGATCGCCACCGGTGGGATTGATCTCTCCGTAG -GGGCGGTGATGGCTATCGCCGGAGCCACAACGGCTGCGATGACGGTCGCGGGATTCAGCCTGCCGATTGT -TTTGTTAAGCGCCCTGGGCACCGGCATCCTGGCGGGATTGTGGAACGGCATACTGGTAGCGATCCTCAAA -ATTCAGCCGTTTGTCGCCACTCTGATCCTGATGGTCGCCGGGCGCGGCGTGGCGCAACTGATCACCGCCG -GGCAGATCGTCACGTTTAACTCGCCGGATCTCTCATGGTTCGGCAGTGGATCGCTGTTGTTCCTGCCAAC -GCCGGTCATTATCGCGGTGCTGACGCTTATCCTGTTCTGGCTGTTGACCCGCAAAACGGCGCTGGGGATG -TTTATCGAAGCCGTTGGTATCAACATTCGGGCGGCAAAAAATGCCGGGGTAAACACGCGAATCATCGTCA -TGCTCACTTATGTGTTGAGCGGGCTGTGTGCGGCGATTGCGGGCATTATCGTGGCGGCGGATATTCGCGG -TGCCGATGCCAACAACGCTGGGTTATGGCTGGAGCTGGACGCCATTCTCGCGGTGGTGATTGGCGGCGGA -TCGCTGATGGGCGGGCGCTTTAACCTGCTACTTTCGGTGGTGGGGGCGCTGATTATTCAGGGGATGAACA -CCGGAATTTTGCTTTCGGGCTTTCCGCCAGAGATGAACCAGGTGGTGAAAGCGGTGGTGGTGCTTTGCGT -GCTGATTGTTCAGTCGCAACGCTTTATCAGTCTGATTAAAGGAGTACGTAGCCGTGATAAAACGTAATTT -GCCACTGATGATCACCATCGGCGTCTTTGTGTTGGGTTATCTTTACTGCCTGACCCAGTTTCCCGGTTTT -GCTTCCACAAGAGTGATCTGCAATATCCTGACCGATAATGCCTTTCTTGGGATCATTGCCGTTGGCATGA -CCTTTGTGATCCTCTCAGGTGGGATCGATCTCTCCGTCGGTTCGGTGATCGCCTTTACTGGCGTGTTTCT -GGCAAAAGTGATTGGCGATTTCGGCCTCTCGCCGCTGCTGGCGTTTCCGCTAGTGCTGGTGATGGGCTGT -GCCTTCGGCGCATTTATGGGGCTTCTGATCGACGCCCTGAAGATCCCGGCATTTATCATTACGCTTGCGG -GGATGTTCTTTTTGCGCGGCGTCAGCTATCTCGTTTCGGAAGAGTCGATTCCGATAAACCATCCCATTTA -TGACACGCTCTCAAGCCTTGCGTGGAAAATCCCTGGCGGCGGTCGCTTAAGTGCGATGGGACTGCTGATG -TTGGCGGTGGTGGTTATCGGCATATTCCTCGCGCATCGTACCCGTTTTGGTAATCAGGTATACGCCATTG -GCGGCAACGCAACGTCGGCGAATCTGATGGGGATTTCCACTCGCAGCACCACTATTCGCATTTATATGCT -CTCCACCGGACTGGCAACGCTGGCGGGGATTGTCTTCTCGATTTATACCCAGGCCGGATATGCGCTGGCG -GGCGTAGGTGTGGAACTGGATGCTATCGCCTCAGTGGTAATTGGCGGTACGCTTTTGAGCGGTGGCGTTG -GAACGGTATTAGGGACGCTTTTTGGCGTGGCGATTCAGGGACTGATTCAGACTTACATAAACTTTGATGG -CACGCTGAGTTCCTGGTGGACGAAAATCGCCATCGGTATTTTGTTGTTTATTTTTATAGCATTACAGCGT -GGATTAACGGTGCTGTGGGAGAATCGTCAGAGTTCGCCAGTGACAAGAGTCAACATTGCGCAGCAATAAA -AACGCCTCTCCGTGTGGAGAGGCGCAGGAGATTACGCGTCCGGGAACTCACGGATAAAGCGTTCGACATC -TTCAACCATATGGTCGTTGCCGACAAAGAATGAACGGCGCTGGTGCAGGGTTTCCGGGATGATATCCAGA -ATACGCTCTTTGCCATCGCTCGCTTTACCGCCCGCTTGTTCCGCCAGGAATGCCATCGGGTTGCACTCAT -ACAGCAAACGCAGTTTGCCGTCCGGGTGGCTGGCGGTGCTTGGGTAGAGATAAATACCGCCTTTCAGCAG -GTTACGGTGGAAATCCGCGACCAGTGAACCGATATAACGTGAGGTATAAGGGCGGTTGGTGGATTTATCT -TCTTCCTGGCAGAATTTAATGTACTTCTTCACCCCGTTCGGAAACTTAATGTAGTTTCCTTCGTTGATGG -AGTAGGTTTTGCCTTTCTCCGGGAAGCGCATCCGTTCCTGGCACAGGCAGAAAACGCCGAGCGAAGGATC -GTAAGTAAAGGCGTGAACACCGCATCCGGTGGTGTAAACCAGCATGGTAGAGGAGCCGTATACCACGTAA -CCTGCCGCAACCTGTTTGTTACCAGGCTGGAGGAAATCTTCTTCCGTTACCGGCGTGCCAACAGGCGTAA -CGCGGCGGTAGATGGAGAAAATGGTACCGACAGAGACGTTAACATCGATGTTGGACGAGCCATCCAGGGG -GTCCATCAGCACCACGTATTTTGCGTGTTCACAGCCTTCAAAGACGACAATCTCATCTTCTTCTTCAGAG -GCAATGCCCGCAACGATATCGCGTGCTTTCAGTGCGGCTTTCAGTTTTTCATTAGCGAACAAGTCGAGTT -TCTGCTGAACCTCGCCCTGCACGTTCTCAGCACCGCTGGCACCCAGGATATCAACCAGTCCTGCTTTGTT -GATATCGCGATGGATAATCTTGGCGCCCAGTTTTATTGCCGACAGCAAAGCAGTGAGCTCACCGGTAGCA -TGAGAAAACTCGTGCTGCTTTTCGACAATAAATTCACCTAACGTTTTCATAAAACTTTCCCTGCAATGTT -TATGGAGTAAAGCGACCGCAACAATCTTAACAAATAATCTCAATGTTGCGCTCAGGTGAATCGCGCCAGC -AAATTACGGATTATCCTGAAATGCGTTTCTCACTTGCCCGACATATGCGTAAAATGAGCGGCAGATTAAA -AAAGGATAGTGACGTATGCGCATTCATATTTTAGGAATTTGTGGCACATTTATGGGCGGTCTGGCGATGC -TGGCGCGCCAGTTAGGCCATGAAGTAACGGGTTCGGACGCCAATGTGTATCCGCCGATGAGCACCTTACT -TGAGAAGCAAGGCATTGAGCTGATTCAGGGGTACGATGCCAGCCAGCTCGAGCCGCAGCCGGATCTGGTG -ATTATTGGCAACGCCATGACCCGTGGAAATCCGTGTGTGGAAGCGGTACTGGAAAAAAATATCCCTTATA -TGTCAGGTCCACAGTGGCTGCACGATTTTGTGCTGCGCGACCGCTGGGTGCTGGCCGTTGCCGGTACACA -CGGCAAAACCACCACCGCGGGAATGGCGACCTGGATTCTGGAACAGTGTGGTTACAAACCGGGCTTTGTA -ATCGGCGGTGTGCCGGGGAACTTTGAGGTTTCGGCTCATCTGGGCGAAAGCGACTTCTTTGTTATCGAAG -CGGATGAGTATGACTGCGCCTTCTTCGACAAACGCTCTAAATTTGTTCATTACTGCCCGCGTACGCTGAT -CCTCAACAACCTTGAGTTCGATCACGCCGATATCTTTGACGACCTGAAAGCGATCCAGAAACAGTTCCAC -CATCTGGTGCGTATCGTTCCGGGGCAGGGCCGTATTATCTGGCCGGAAAATGACATCAACCTGAAACAGA -CCATGGCGATGGGCTGCTGGAGCGAGCAGGAGCTGGTGGGTGAGCAGGGTCACTGGCAGGCGAAAAAGCT -GACCACCGATGCTTCCGAATGGGAAGTTTTGCTGGATGGCGAAAAAGTGGGCGAAGTGAAATGGTCGCTG -GTAGGCGAACATAATATGCACAATGGCCTGATGGCGATTGCAGCGGCTCGCCATGTTGGTGTAGCGCCGG -CAGATGCCGCTAACGCGCTGGGTTCGTTTATTAATGCTCGTCGCCGTCTGGAGTTGCGTGGTGAAGCGAA -TGGCGTCACGGTATATGACGATTTTGCCCATCACCCGACGGCGATTCTGGCAACGCTGGCGGCGCTGCGT -GGCAAAGTTGGTGGTACGGCGCGCATTATTGCTGTGCTGGAGCCGCGCTCGAATACCATGAAAATGGGGA -TCTGCAAAGACGATCTGGCACCTTCATTAGGTCGTGCCGATGAAGTCTTCCTGCTGCAACCGGCGCATAT -TCCGTGGCAGGTGGCAGAAGTGGCAGAAGCCTGCGTTCAGCCTGCACACTGGAGTGGCGATGTGGATACG -CTGGCAGATATGGTGGTGAAAACCGCTCAGCCTGGCGACCATATTCTGGTGATGAGCAACGGCGGTTTTG -GTGGGATCCATCAGAAACTGCTGGATGGGCTGGCGAAGAAGGCGGAAGCCGCGCAGTAATTCGGCCTTAG -CCAGATATAGTATGCGTAGGCCGGATAAGGCGTTCACGCCGCATCCGGCATTTGAGCATAGTGCCTGATG -CGACGCTTGATGCGTCTTATCAGGCCTACAGGTGCACCGTATCCGGCAAACCATACTCACATCAACAACG -AAAATTACCCTTCGTTCTCCGCTAACTCGCGCAGATACTGGAAAATCTGGCGTGCGGATTTCGGCGGCTT -ATTCCCTTCTTTCTCTTTCTTCGCGTTGCGGATCAGAGTACGCAGTTGCTGACGATCGGCATCGGGCCAC -AGATTTAATACCTCAGCGATGGCGTCATCACCTTGATCGATCAGACGATCGCGCAGGTTTTCCAGTTTAT -GGAACAGCACCACCTGCTGGTTGTGACGGTTTTTCAGCTTATCCAGCGCCTGACGAATAGGCTCTACGTC -GCGCTGGCGCAGCATCTTACCGATGAGCTGCAACTGGCGGCGGCGACCTTCCATCTTAATACGCTGGGCG -AGCTCAATAGCCGCGCGCAGATCCGCATCTAACGGGATCTTATCCAGCGCGTTTTTCCCCAGATCAACAA -TTTCCGCGCCAAGGCGTTTTAGCTCCTCGGCATCACGTTTAATTTCACTTTTACTGACCCAGATAATTTC -ATCGTCTTCGTCTTCGATGTCATCACCGGGAACGTCGTCGAGCCAGTCTTCGGGCTGCTTAGTCATCTCA -GGCTCCTTAAAAAAAGAGGCTAATGTTACCAGTTAAGATGCGCACTGAAAAACGGTTCTCTGTTAGACTT -CAGAGAAACTCTCTACATTATGGCACTTGCAATGAAAGTAATCTCTCAAGTTGAAGCGCAGCGCAAGATT -CTGGAAGAAGCAGTTTCCACTGCGCTGGAGTTGGCCTCAGGCAAATCGGACGGTGCGGAAGTTGCCGTCA -GCAAGACCACCGGCATTAGCGTAAGCACGCGTTATGGTGAAGTGGAGAATGTTGAATTCAATAGCGATGG -CGCGCTGGGGATCACTGTTTATCACCAGAACCGCAAAGGTAGCGCATCATCCACCGATTTAAGCCCGCAG -GCCATTGCCCGTACTGTACAGGCGGCGCTGGATATTGCCCGTTATACCTCGCCAGATCCCTGTGCCGGCG -TGGCAGACAAAGAGCTGCTGGCCTTTGACGCACCAGATCTCGACTTGTTCCACCCTGCGGAAGTTTCCCC -GGATGAAGCCATTGAACTGGCGGCCCGCGCAGAACAGGCGGCATTGCAGGCGGACAAACGCATCACCAAT -ACCGAAGGTGGCAGCTTTAACAGCCACTACGGTGTCAAAGTTTTTGGCAACAGCCACGGCATGTTGCAGG -GTTACTGCTCAACGCGTCATTCGCTCTCCAGCTGTGTAATTGCCGAAGAAAATGGCGATATGGAGCGTGA -TTACGCCTACACCATTGGTCGTGCGATGAGCGATCTGCAAACGCCAGAGTGGGTTGGGGCCGACTGTGCT -CGCCGTACTTTATCGCGTCTGTCACCGCGTAAACTCTCCACCATGAAAGCGCCAGTCATTTTTGCCAATG -AAGTGGCAACCGGGCTTTTTGGGCATCTGGTGGGGGCGATAGCGGGTGGATCGGTTTATCGTAAATCTAC -CTTCCTGCTGGATTCGCTGGGTAAACAAATTCTGCCGGACTGGCTGACCATTGAAGAGCATCCGCATCTG -CTGAAAGGGCTGGCGTCGACGCCATTCGACAGCGAAGGTGTGCGCACCGAGCGTCGCGATATTATTAAAG -ATGGCATCCTGACTCAGTGGCTGCTGACCAGCTACTCGGCGCGGAAACTGGGGCTGAAAAGCACCGGACA -TGCGGGCGGTATTCACAACTGGCGGATTGCCGGACAAGGTCTAAGCTTCGAGCAGATGCTCAAAGAGATG -GGCACCGGGCTGGTGGTGACGGAATTGATGGGCCAGGGCGTGAGTGCCATTACCGGTGATTATTCCCGTG -GTGCAGCGGGCTTCTGGGTAGAGAATGGCGAAATTCAGTATCCGGTGAGCGAAATCACCATCGCAGGTAA -TTTAAAAGATATGTGGCGCAATATTGTCACCGTCGGTAACGATATTGAAACACGCAGTAATATACAGTGT -GGTTCTGTGCTGTTGCCGGAGATGAAAATCGCCGGACAGTAAAAAAACTGGCGCGACCTGCCGCGCTATA -AACTAAAAAATTACACAAAATCATTCGCACTGCATCGAGACGGAAAGTGAATGAGGGCCGGGGAGCGTAC -TCGCAGTACGTGACCCGGTCGAATGAGCGTAGTCGTCGATGAGGCAGTGTGAAGGATGAAGTGTAAATAA -AAAAGGAACTATTCTTGCAGTCTCCTCGTTGGTATTCAGTTCGGCGTCATTTGCTGCTGATCTCGAAGAC -AATATGGAAACCCTCAACGACAATTTAAAAGTGGTCGAAAAAGCCGATAACGCGGCGCAAGTCAAAGACG -CGTTAACGAAGATGCGCGCCGCAGCGCTGGATGCGCAAAAAGCAACGCCGCCGAAGCTCGAAGATAAATC -ACCGGACAGCCCGGAAATGAAAGATTTCCGCCACGGTTTCGACATTCTGGTCGGTCAGATTGACGACGCG -CTGAAGCTGGCAAATGAAGGTAAAGTAAAAGAAGCGCAGGCTGCTGCAGAGCAACTGAAAACGACCCGCA -ATTCATATCACAAGAAGTATCGTTAATTCCTCATTTCCCTGTTGCCTGCACTCAGGTAACAGGGAACTTA -TCATCGCAAATGATGCACCACCTGATTGCTGCTGCCGCGCCAGATCAGGGAAGGGTCTTTTAAATCCTGC -ACAAATTTGCCGTCGACCAGCACGTTAATCAAATCAACAACCTGCATTTGCGCAGCGTTGAGTTCGTCGA -GTTTATAGCCTGTCCACACCCAGATGTCTTTACCCGGACACTCGGCGCGGATGCGTTGTACCAGTTTCAG -AATATCCGGCACGTTTTGCGGATGCAGCGGATCGCCGCCGGAGAGGGAAATACCCTGGCGTTTGATACGA -GTGTCATTCAGATCGTTAATGATCTGGTCTTCCATTGCTTTGGTAAATGGCTGACCGGAATTTACCCGCC -ATGTGCTTTTGTTATAGCAACCGGGGCATTCATGAACACACCCGGAGACAAACAGGGTGCAACGAGTGCC -GGGGCCGTTGACGATGTCGACAGGATAGTACTGATGATAATTCATTATTTCGCCTGGCTTATCAGTCCGC -GTGTAGGCTGCATCCGGTAATCAATGCCTGATGCGACGCTGTCGCGTCTTATCAGACCTGGAGCAATTGC -CAAATGTAGGCCGGATAAGGCGTTTACGCCGCATCCGGCATTTGCTTAGCTCAGAGTGAAGATTAACCTA -TCTGCCCATTCCCCAAATGTTTAACGCGGCGCTTAACTTCTTCCTGCTTACCAGCGTTAAACGGACGTGC -ATCCGGGCTACCTAAATATCCGCACACGCGGCGAGTTACCGACACACGGGAGGCGTCATGGTTACCACAT -TTCGGGCAAGTGAAGCCTTTGCTGGTGCACTCGAACTCACCGGTAAAGCCACACTCGTAGCACTCATCAA -TCGGTGTATTGGTGCCGTAATACGGTACATGCTGATAGCTGTAATCCCAGACATCTTCCAGCGCCTTCAG -GTTGTGCTGAATGTTTGGATACTCGCCGTAGCAAATGAAACCACCGTTCGCCAGCGGCGGGTAAGGCGCT -TCAAAGTCGATCTTGTCGTACGGGTTCACCTTCTTCTCCACATCGAGGTGGAAACTGTTGGTGTAGTAAC -CTTTATCGGTCACGCCCGGCACCACGCCAAACTCAGCAGTATCGAGACGGCAGAAGCGATCGCACAGGTT -TTCACTCGGCGTGCTGTAGAGACTGAAACCATAACCCGTTTCTTCTTTCCACTGATCCACTGCCTGACGC -AGACGTTCAACAATGGCGATACCTTTCGCGCGAAGCTGCTCGTTGTCGTAAACATGCTCGCCGCCGAACA -GCGCGTTAATGGTTTCGTGGATGCCGATGTAACCCAGCGAAATAGACGCACGACCGTTTTTGAAGATTTC -AGAAACATCATCGTCAGCATTGAGACGCACGCCACAAGCACCTTCCATATAGAGGATCGGGGCCACGCGC -GCTTTCACGCCTTCGAGACGAGCGATACGGGTCATCAGCGCCTTACGTGCCAGCACCAGACGTTCATCCA -GCAGCTTCCAGAAGGTGGCTTCATCGCCTTTTGCTTCCAGAGCAATACGCGGCAGGTTCAGGCTGATCAC -GCCGAGGTTGTTACGACCATCGTGGATCTGCTCGCCGTTTTCATTTTCCCACACGCCGAGGAAGCTGCGG -CAGCCCATCGGAGTTTTAAACGAACCGGTGACTTTCACTACCTGATCGTAGTTCAGGATATCCGGATACA -TGCGCTTGCTTGCGCACTCCAGCGCCAGCTGTTTGATGTCGTAGTTCGGATCGCCTTTTTTATGGTTCAG -GCCATCGCGAATCGCAAACACCAGTTTCGGGAACACCGCAGTTTTACGGTTTTTACCGAGGCCTGCGATA -CGGTTACGCAGGATCGATTCCTGAATCAGGCGCGATTCCCAGCTGGTGCCCAGGCCAAAACCAAAGGTTA -CAAACGGCGTCTGACCGTTGGCGGTGTGCAGGGTGTTTACTTCGTACTCCAGTGACTGGAAGGCATCGTA -GCACTCTTTGATGGTTCGAGAGTTAGCGTAGCCTTCGGCGTCCGGGATGTTCCACTCTTCTGCGGTCTTG -CGATGTTTGTTGTAGCTGGCAGTGACAAACGGTGCCAGCACTTCATCGATACGGTTAATGGTGGTGCCGC -CATAAATATGGCTGGCAACCTGAGCAATAATCTGCGCAGTTACCGCGGTTGCCGTAGAGATCGACTTCGG -CGGTTCAATCTCGGCGTTCCCCATTTTAAAGCCCTGGGTCAGCATGCCTTTCAGGTCGATCAACATGCAG -TTGAACATCGGGAAGAACGGTGAGTAATCGAGATCGTGATAGTGAATATCGCCACGCTCATGTGCCTGCA -CCACGTCACGCGGCAGCAGGTGCTGACGTGCATAGTGTTTAGCCACGATCCCGGCCAGCAGGTCGCGCTG -GGTTGGAATCACCTTGCTGTCTTTGTTGGCGTTTTCGTTGAGTAACGAGGCGTTGGTCTGCTCGACCAGA -CCACGGATCTCCTGGTTCAGGCGACCGCGTTTTTCACGTTCAATGTCGCGATCGTGACGGTACTCGATGT -AAGCACGAGCCAGTTGTTTGTATGGACCTGACATCAGCTGATTTTCAACTGCGGTCTGGATCTCATTGAT -ATCCACCTGGTTGCGGCCCTGCATCTGCTCGCTGACAACCGCGGCAACAGTGGCGCAATAATCGGCATCA -TCGACTTCCGCTGCTTTAGCTGCACGCAGAATCGCTTCTTTGATGCGCTCTGATTTAAACGGCACTTTGC -AGCCGTCTCGTTTCATCACATGCGGTGTCATGATCGCTCCATATTTTTAAGAACAGGTTATCCACAGAAA -TTGGGAAAGGCGTTTTCCGGTTTTTTCGTTTCGTTTTCCGGTGCTTTCCGCAATCGCCATCCGCTTATCC -ACAACGCCGCACCTTTTTCGTGGGGAGCTGTAGTAGCAATTATAGTCGATTAATACAACATATTGGGTTG -GGACGCATTTTAAAGTCTATATATAGTGCTTTGCATCAAGGATGTTTGAGCTTTTTTTGATGTAGCTCAA -AGTAAAAAGCAGAGCGTACGGATGACGGGCGCTACAGCGATATGTAAATTTTTTAATGAATTTGCTGGTT -GAAAAATCAACAAAAACAACATACTGACAGACAAAACCCCGGAATGACCGGCATTACCGGGGCTTAGGGA -AGATTTACTTCTGTAACCACCAGACAGCCTCAAAAGGCCGTAAATTCATGGCACAGGGTTGTGGTGAGGC -TTCTTCGTAGTTATGCATCACAAGCTGCCAGTTGCCGCGCATTTGCCCTGCCTGCCAGGGTTGGATCTCA -CGGCTAAGGTTGGCAATGACCAGCAAGGTTTGCCCCTTCCATTCACGGCGATAGCACCACAATACAGGGC -TGTTTGGCAGCAGATCCTGGTAATTGCCCCATGTCAGGATGGCTTCCTGCTTACGCAGTGCGATTAACTT -TTGGTAGGTGTAAAACACCGAGGAATCATCGGCCAGCGCGGCTTCTACGTTGATTTGTTGATAGTTATCG -CCCAGGCCAATCCACGGTTCGCCAGCCGTAAACCCGGCATTATCGCCGTTGCTCCATTGCATGGGCGTGC -GACTGTTGTCACGGGATTTACTGGCGAGGATTGCCAATAACTCGTCGGCATCACGCCCATCGTTGCGCAG -CTCGGCAAACATATTGAGGCTCTCTACGTCGCGATAGTCAGTAATGCGCGTGAAATGCGGGTTGGTCATG -CCAATCTCTTCGCCCTGGTAGATATACGGCGTTCCCTGCATGCCATGCAGCACCATCGCCAGCATTTTTG -CCGCAGGCACGCGGTATTCACCTTCATCACCAAAGCGAGAAACAATGCGCGGCTGATCGTGGTTACACCA -GAACAAGGCATTCCATGCTACGTTGTGCATTCCTTGTTGCCAGTGGCGGAACAATGTTTTCAACGCCACA -AAGTCAGGTTTAGCCAGCGTCCATTTTTCACCACCGGGATAATCGACCTTCAGGTGATGAAAATTAAAGG -TCATCGACAATTCACTGCCTGTCAGAGCCGCGTATCGCTGGCAATGCTCAAGGCTGGTGGAGGACATTTC -ACCTACGGTCATTAACCCGCGTGGCGTAAACACATCGCGGTTCATCTCGTGCAAAAACTCGTGTGCTCGT -GGCCCGTCGGTGTAGAAGCGACGCCCGTCGCCGTCCAGGTCTTCAGGGAAACGCGGGTCTTTGGAGATCA -GATTCACCACATCCAGGCGCAACCCGTCGACCCCACGATCGGCCCAGAACTCACAGACTTTTTTCAGCTC -TGCGCGTACCGCTGGATTCTCCCAGTTGAGATCCGCCTGTTCTGGTGCAAAGAGATGCAAATAGTACTGT -TCGCTTTCCGCATGCCAGCGCCACGCACTACCGCCAAATTTTGAACGCCAGTTGTTCGGTGGCGTTTCTG -GTTCTCCATCGCGCCAGATATAAAACTGGCGGTAAGGGCTTTCTTTGTTCAGCGCCTCGCGAAACCAGGC -ATGTTGGGTAGAGGTATGGTTAAACACCATATCGAGAATGATACGAATCCCGCGCGATTTTGCCTGCGTC -ACCAGTTCGTCAAAATCGTCCAGCGTGCCGTAGGTGGGATCAATCGCCGTATAGTTCGCTACGTCGTAAC -CGTTATCGACCTGGGGAGAGACATAAAAGGGGGTTAGCCAGATGGCATCAACGCCCAGTTTATGCAGATA -GTCCAGGTGTTGGATAACGCCACGTAAATCGCCGGTACCGCTACCCGTGGTGTCCTGAAAACTCTTTGGA -TAAATCTGGTAGATAACGCCGTTTTGCCACCAGTGGGGAAGATGAGTCATTACGTTATTCCTGCGAATGC -GAGGGGGCGCAATTGCGCCCCGAAGAAAATTAAACAATGTCCAGCGTGCCCAGGCGGTATTTCCGCTGAT -AGATAAACGAGGTGAGTACAATCGGGATGATGATGGCGATAGCCATTGCCAGCGCAAACACCTGCCAGTA -GCTCGGTTGAATCGAGAGAATTCCCGGCAGGCCGCCTACGCCGATGCCATTCGCCATAACGCCGTTCAGG -CCGCATAGCAATCCTGCCAGACCAGAACCAATCATCGCGCACAGCATCGGGAAGCGATATTTCAGGTTGA -TGCCGTACATTGCAGGCTCAGTGACCCCAAGCCAGGCGGAGATAGCGGCAGGCACGGAGATCTCGCGTTC -ATTGTGCTTGCGGCTGGAAATGATAATGCCTATCACGGCGGAGCCCTGAGCGATATTCGACAGCGCAATC -AGCGGCCACACTGGCGTACCACCCATGCTTTGAATCATCTGCAAATCAATAGCAAGCGTGGTCTGGTGTA -CACCGGTGATCACCAGCGGGGCGTACAGGAAGCCAAACAATGCTGCGCCAATCGGAGCAAAGCTGCCGGT -CATCAGGTGACGTACCGCAAAGGCAACGCCATCGCCAATCATGCGACCAAACGGACCAATCAGCGCATGG -GCGAGGAACACCGCGAGGATCAGCGAACAGACGGGTACCACCACCAGATAGAGGTAATCCGGCACGATGC -GTTTAAGGCGAGTTTCAATAACGCCCAGCGCCAGTCCGGCTAACAGTGCCGGGATCACCTGCGCCTGATA -GCCTACTTTGGCGATGCTGAACATGCCAAAGTCCCACACTTCCGGCAGCTGCTGCCCGAGCAGATAAGCG -TTCATCAGCTGTGGAGAAACCAGTGTCACGCCAAGCACGATACCAAGGATCGGCGTGCCGCCCATTTTTT -TCACCGCTGACCAGCAAATACCGACCGGCAGGTAGAAGAAGATCGCTTCACCGATCAACCACAGAAAATC -GTAGATCGTTTGCAGGGAAGGGTACATTTGCGCCAGCGTCTGACCGTTGCTCATGGGCAAATCGCCGATC -ACATTGCGAAAACCGAGGATCAAACCGCCGCTAATCAACGCGGGCAGCAACGGGAAGAAGATCACCGCGA -AATGAGAGATCAACTGCTCATGCCATTTCATATTATGCCGGGCGGCTTTTTTTACCTGCTCTTTATCAAC -CTGCGCCTGTCCGGTTGACGCAATCAGTGCTTGATAGTAATCACCCACGTTGGTGCCAATCACCACCTGA -AATTGCCCGGCATTGGTGAAACAGCCTTTCACCATAGGGAGTTGCTCAATTTCTTTCGGTCTGGCATTGG -CCGGTTGGTTGAGGACAAAGCGTAGGCGAGTAATACAGTGGCTCACCGTCGCAATATTGCCGCGCCCGCC -GACCAGTTCAATCAACCGATCGATATCCGTTTGGTTTATTTTGCTCATCATAAAGCCCCATGGCAGATGA -CATTTTTGGTTGGCTGCAGAATATATTGCGCGGAAAAATTTAAAAACGGGAACGTTCCCGAAACGCAGCG -AAGATCACAATTTATCGTTCAGGAAACGATCAGGACAGGGTGGCGGGGATGATGATTTGTTGCGGTTCGC -TGCGCCCGGTTACCTGCGCGATCAACTGGCAAGCCGCCTGGCGTCCAGCTTCGGCGTAACCGGGATCTAC -GGTTACGATCTCCGGATGGAGGAATTTCATTAACGGCGTATTACCGACGCTCGCCAGTTGCAAGGTGTCG -ATGCGTTGCTCTTGCAGGTATTTACTTGCGCCAAGTGCCAGCGTGTCGGTTGCGCACAGTAAGGCGGTAG -TTTCAGGCGTAATCACTTTTGCAACGTTCTCATAGCCTTGCTTCATAGCAAGCCCTGGCAGGGCGGCAAC -GGGATGCAGTTTATGCGCTTTGCAGAACGCCAGGTAGGCTTCGTGACGTCGCTTACCGGTTGTCACGTCA -CTGTGCGGCACGCCGAGATAACTGATATTACGATGCCCCTGGTCATACAGCCGTTGCATCAGGATTTTGA -TTGCCCCTTCGTCGTCATAACAGACCGAAGCAAAGCCTTTTGCGTCACGCGCCAGCAGAACCAGCGATGA -CTGCCAGTGGGCTAACATTTCTTCTGTTATGCCAGTAAAACCGAACAGCACTACGCCGTCGATATTACGC -CGTTTCAGCACTCCCAAATGTTCGGCAACTAATTGCGGGGAAAACTGACTTTCCATCATGATTGGGTCGT -AACCTTGTTCATAGAACGCTGGCAGCATGGTTTGAACGGCGAGATTTTCTGACAACGAATCCAGACGGGT -AACAATGATGGCGACCACTTTATCGCTTTGCCCACGCATAGCGCGCGCAGAGCGGGAAGGGGAAAATCCA -TGCTGATTCATCACTGCTTCAACACGCTCGCGGGTGAGCTGGCTCACGCCGCTTTCGTTATTCAGCACCC -GGGAAACTGTAGATTTCCCCACGCCGCTTAAGCGCGCGATATCTTTGATGGTCAGCCGATTTTGCATCCT -GTTGTCCTGTAACGTGTTGTTTAATTATTTGAGCCTAACGTTACCCGTGCATTCAGCAATGGGTAAAGTC -TGGTTTATCGTTGGTTTAGTTGTCAGCAGGTATTATATCGCCATAGATGCTACGAATATTATTGGATTCT -CCTTATTATTTGCGGCGCTTTTTTCACTTACCGGAGGTTATATGGAACCTGATCCCACGCCTCTCCCTCG -ACGGAGATTAAAACTTTTCCGGTAAGCCCGTCTTTTCACGGCGTTACCGGATGCGTAAGGCCGTGACGTT -TTAACGTCCCTGCTCAGCTTTATTACCTTCAGGTAAGGCTTCGCCACGCCTGAAGACATTTCTGTACTGT -TTCAGACAGTGCGGAGGGACTCCTTATGTTTAAAGAAATTTTTACCCGGCTCATTCGCCATTTACCTTCC -CGTCTGGTTCATCGTGATCCATTGCCTGGCGCGCAGCAGACAGTGAATACGGTGGTCCCGCCGTCCTTAA -GTGCGCATTGCCTGAAAATGGCGGTGATGCCCGAAGAAGAATTGTGGAAAACGTTCGACACCCATCCGGA -AGGGTTAAATCAGGCGGAAGTGGAATCTGCCCGCGAACAACATGGTGAAAATAAATTACCCGCACAACAA -CCGTCGCCGTGGTGGGTACATTTATGGGTCTGCTATCGCAACCCCTTTAATATTTTACTCACCATTCTCG -GCGCTATTTCTTACGCCACGGAAGATTTATTTGCTGCGGGCGTTATCGCGCTAATGGTCGCTATTTCTAC -GTTGCTGAACTTTATTCAGGAAGCACGTTCCACTAAAGCGGCAGATGCCCTGAAAGCGATGGTCAGCAAT -ACTGCGACGGTGCTGCGCGTAATTAACGACAAAGGCGAAAATGGCTGGCTGGAGATCCCGATCGACCAGC -TGGTGCCCGGCGATATTATAAAACTGGCGGCGGGAGATATGATCCCGGCAGATTTACGTATCTTGCAGGC -GCGGGATCTGTTCGTCGCTCAGGCGTCGTTAACCGGTGAGTCTCTGCCCGTAGAAAAAGCCGCTACCACT -CGCCAGCCGGAGCACAGCAATCCGCTGGAGTGCGACACGCTGTGTTTTATGGGCACCACCGTGGTGAGCG -GCACGGCACAAGCAATGGTGATTGCTACAGGTGCCAATACCTGGTTTGGTCAACTGGCGGGGCGTGTTAG -TGAGCAGGAAAGCGAGCCGAATGCCTTTCAGCAAGGGATCAGCCGCGTCAGTATGCTGCTGATTCGCTTT -ATGCTGGTGATGGCACCGGTGGTGCTGTTAATCAATGGTTACACCAAAGGCGACTGGTGGGAAGCGGCGC -TGTTTGCGCTTTCGGTCGCGGTAGGCCTAACGCCGGAAATGTTGCCGATGATTGTTACCTCGACGCTGGC -GCGCGGCGCAGTAAAGCTGTCGAAACAGAAAGTGATCGTCAAACATCTGGATGCTATTCAGAACTTTGGC -GCAATGGATATTCTGTGCACTGATAAAACCGGCACCCTGACGCAGGATAAAATTGTGCTGGAGAATCATA -CCGATATCTCCGGTAAAACCAGCGAACGCGTGCTGCATAGCGCGTGGTTGAACAGTCATTATCAGACCGG -ACTTAAAAACCTGCTCGATACAGCGGTGCTCGAAGGTACGGATGAAGAGTCAGCGCGCTCGCTGGCCAGT -CGTTGGCAAAAAATTGATGAGATTCCGTTTGATTTCGAGCGTCGCCGGATGTCGGTGGTAGTGGCAGAAA -ATACCGAGCACCATCAGCTGGTTTGCAAAGGTGCATTGCAGGAAATCCTCAATGTGTGTTCGCAGGTGCG -TCACAATGGCGAGATTGTGCCGCTCGATGACATCATGCTGCGTAAGATTAAGCGGGTTACTGATACGCTG -AATCGTCAGGGGCTGCGCGTGGTTGCGGTGGCGACGAAATACCTGCCAGCGCGTGAAGGAGATTACCAGC -GGGCGGATGAATCCGACCTGATCCTCGAAGGATATATTGCTTTTCTTGATCCGCCAAAAGAGACAACCGC -TCCGGCACTGAAGGCATTAAAAGCGAGTGGAATTACCGTAAAAATCCTTACTGGCGACAGTGAGTTAGTT -GCAGCGAAAGTGTGCCATGAAGTGGGGCTGGACGCGGGAGAGGTGGTCATTGGTAGTGATATTGAAACGC -TATCTGACGACGAACTGGCAAATCTTGCACAGCGTACCACGCTGTTTGCCCGCCTGACGCCGATGCATAA -AGAACGCATTGTGACCTTACTGAAGCGCGAAGGGCATGTGGTTGGCTTTATGGGCGATGGTATTAATGAT -GCGCCCGCCTTACGCGCTGCGGATATCGGCATTTCTGTGGACGGCGCGGTAGATATTGCCCGTGAAGCGG -CTGATATCATCCTGCTGGAAAAAAGCCTGATGGTGCTGGAAGAGGGGGTTATTGAGGGACGTCGCACTTT -CGCCAACATGCTGAAATACATCAAAATGACGGCGAGCTCTAACTTCGGTAATGTGTTCAGCGTGCTGGTA -GCGAGTGCTTTCTTGCCCTTCCTGCCGATGTTGCCGTTACACTTGCTTATTCAGAACCTGCTGTACGATG -TGTCACAGGTGGCGATCCCGTTTGATAACGTCGACGACGAGCAAATTCAAAAGCCGCAGCGTTGGAATCC -GGCGGATCTGGGGCGCTTTATGATCTTCTTCGGACCGATCAGCTCGATCTTCGATATTTTGACGTTTTGC -CTGATGTGGTGGGTATTCCATGCCAACACGCCGGAAACGCAAACGCTGTTCCAGTCGGGATGGTTTGTGG -TGGGCTTACTGTCGCAAACGCTGATTGTGCATATGATCCGCACCCGCCGTGTGCCGTTTATTCAGAGCTG -TGCATCGTGGCCGTTAATGATCATGACCGTGATCGTGATGATTGTCGGGATCGCATTGCCGTTTTCACCG -CTGGCCAGTTATCTGCAATTACAGGCGCTGCCGTTAAGCTATTTCCCGTGGCTGGTTGCGATTCTGGCAG -GGTATATGACATTAACCCAGTTGGTGAAAGGGTTCTATAGCCGTCGTTACGGCTGGCAATAAAGAATAAA -CTGGGCACGATAGCCCCGATTCAGATTGTAGACAAAGTGAGTTTTGTTCATGCCGGATGCGGCGTAAATG -CCTTATCCGGCCAACAAATTCAATAAATTGCAGGAATCACGTAGGCCTGATAAGCGTAGCGCATCAGGCG -ATTTTGCGTTTGTCATCAGACTTAATCCGGGCATGATAGCCCGGATTTCCATCAAGATTAGCGACGAACA -GCGATCGCTTCGATCTCAATCTTCACGTCTTTCGGCAGACGGGCAACTTCAACGCAAGAACGTGCCGGGA -AGGTGGCGTTGTGTTCGGTGAAGAAGGCTTCGTAAGTGGCGTTTACGGTTGCGAAGTCGTTCAGATCTTT -TACAAACACGGTAGTTTTAACGATGTCGCCCACTTTCAGGCCAGCGGCTTCGACGATCGCTTTTACGTTA -TCCAGCGACTGACGTGCCTGTGCAGCGACGTCTGCCGGTACTTCGCCCGTTTTCGGATTTACCGGGATCT -GACCGGAGGTGATGATCATATTGCCCAGATCAACGCCCTGTACGTAAGGACCGATAGCTGCCGGTGCATT -TTCCGTCGCGATAGTTTTGCTCATGATTTCTCCTTTATTACAGCGGTAAAAAGTCTGGCTCATTATAGGG -AGCCAGACTTTTATTACCAACCGCAATTAATTGGCCAGCACCACATTATGGGAAAACTCTTTTTCACAGT -ATTTGCATTTGAGCGCGATATCATTGGCGCGTTTTCGCACGGCAAAGCTGGATGAAACCGGTTCGGCATG -GCTGATACAGTTGCTGTTCGGGCAGACCAGCACATTGTCGATGCGCTCCGGCAGACTTGGGCGCGATTTA -CCCACCACTTCATAGTTGTCGATACGGTTAACCGTGGCTTGCGGCGCATACAATGCCAGTTGATCTACTT -GATCTTCACTCAAAAAGGTATTTTCGATTTTGATCAGATCTTTGCGGCCCATCTCGCCAGAAGGCAGGTT -CAGACCAATGGTGATGCGCTGATCCGTTTCGGTCAGCTTGAACAGACTCAACAGCTTAAAACCGATCTGG -GCGGGGATATGGTCAATTACCGTGCCGCGTTTAATAGCTTCAACCTGCAATTTATTATCGTGTGTCATCT -CTATTTCCCCTTACAGTACCAGATCGCGATTCAGAACCAGTGCCAGTAACGCCTGGCGAGCGAAAATCCC -GTTGCCTGCCTGCTGGAAGTACCAGGCGTGTGGCGTTTTATCAACATCCGTCGCAATCTCATCAACACGC -GGCAGCGGATGCAGCACTTTCATATTGGCTTTGGCGTTGTGGAGATCGCTGGCGCGAAGAACAAACTGCG -CTTTCACGTTGGCGTACTCGGACGGGTCCAGACGCTCTTTTTGCACGCGGGTCATGTACAGGATGTCTAC -TTCCGCCATCACTTCTTCAATAGAGCTGTGCAGACTCCATGCGATCCCTTTTTCATCGAGCATATCCAGA -ATGTATTGCGGCATTGCCAGCGCGTCCGGCGCGATGAAGTAAAAACGGTTGCCGTCGAACTTCGCTAACG -CCTGAGTCAGGGAGTGAACGGTGCGGCCATATTTCAGGTCACCAACCATTGCGACGTGGAGATTGTCCAG -ACGCCCCTGGGTTTCCTGAATAGTGAATAAGTCCAGCAAGGTTTGCGTCGGATGTTGGTTGGAGCCATCA -CCGGCATTCAGTACCGGTACATTGCCGGAAAACTCGGTGGCCAGGCGCGCCGCACCTTCCTGCGGATGAC -GCATCACTATCGCATCGACGTAAGTGCTGATAACCGAAATGGTATCGGCCAGCGTTTCGCCCTTTTTACC -CAGTGATGTATTGGCGCTGTCGGAGAAGCCCACCACGCTGGCCCCCAGGCGGTGCATAGATGTTTCGAAA -GAGAGGCGGGTACGGGTAGAGGCTTCGAAGAAACAGCTGGCAATGACTTTGTGCTTCAACAGCTCTGGTT -GCGGGTTTGCTTTCAGTTTCGCCGCTGTCGCCAGCACCAGATTAAGGTCATCGCGACTAAGGTCGTTTAT -GGAAATGATATGTTTCTGATATAGCGGATTAGCCATCTTTTATCTCCTGACGCCTGGGCAAAAAAAAGCC -CCTCGATTGAGGGGCTGGGAATGGGTGATCAACGGGAAGAAAAACGGCAGGCCAGCGTCTTTTTTCAGAC -GCGGTAAGACAAAATGTCGAACACACTGAACCATACATCCTCCCGGCAAATTGTCCGGCATTATACTCAT -CGTCAGAAGCGGCGCAAGCATTTGATGCAATATTTTGTCAGCGCAAACGGTTTATTTGAATTAAAAGTCA -AGGTATATGCATTTTTATTTGATGTGATTCTGCAGGGGAACTGTCCTTCGGTATCAATAATTGCAGACAT -TCCCTGCTTTTTCCTTTTTCACTTTCACGCAATCAGATATGCATTTTATTCCATTCATCCGACTTATAGG -GCGGAGTGTGAAAGCGAACGGCTAACACTATTGCTTACTGCTCAGGGATGCGCGCTATCACTTTAATTTC -AAAATCAAAGCCTGCCAGCCATGTAACACCCACCGCCGTCCAGTTTGGATAAGGTGGGGCGCTAAATATT -TCATTTTTCACCGTCATGATGTCTTCAAATTGGTTTTCTGGATCGGTATGGAAGCTCGTAACATCAATGA -TATCGTCAAAAGTGCATCCCGCAGCTGCCAGGGTCGCATGCAAATTATCAAATGCCAGTCTGACTTGTTG -CTGAAAATCGGGTTCTGGTGTTCCGTCCTCTCGACTTCCTACTTGCCCGGAAACAAACAGCAAATCGCCG -GAACGAATAGCCGCAGAATAACGATGCTCAGCATATAGTGAATGTCGGCCAGCAGGGAAAACAGCGGTTC -TTTCTACCATTTGGTTATCCTCAAGATTTACGACATGAACAGAAGATTTCTCTTTACCGGGAGCCGCTTT -TAGCGGACGACGTGAGTAAACAAAACCCAGACATCATGGATAATGGCTGGGCTTAATTGAGCGTAGTCGG -TTATGCGCCAAACGCGCCATCAATGGTATGCATCGCGCCGGTAACAAAACTGGCTTCTGGCCCTGCTAAC -CATGCGACCATACCAGCGACCTCTTCCGGTTGCCCATGTCTTTTGATAGCCATCAAACTATGCAACATAT -CGCGCATTGGCCCGTTGGCGGGATTAGCGTCGGTATCAATTGGCCCTGGCTGGACGACGTTAATGGTGAT -CCCACGCGGTCCAAAATCACGGGCCAGCCCGCGCGCCATGCCTTGCAGGGCAGATTTGCTGGCGGCATAA -GCAGCCATGCCTGCAACAGGCATACGATCGCCATTCACGGAGCCGATGATTAAGATGCGCCCGCCTTCGG -GCATCTGCCGGGCGGCTTCAACAGAGGCATGATAAGGAGCATGAATATTGATTTTGAAAAGGCGATCAAT -ATCGTCGGCATTTAATTCCAGGGCCTCGCCAAAGACGCCAATACCTGCATTTACCACCAGGATATCCAAT -GCGCCGCTCTTACGAACGACATCAATGACAGCGTCTCTGTCAGCACTATCTGTGAATACTGCTGTCGCTC -CAGTCTCTTGTGCCAGGCGTTTAGCGGCATCTTTCGACCCCGCATAGGTGAATCGTACATTGGCCCCATC -GGTGACGAAACGACGTACGATAGCGGCACCGATACCACGACTGCCACCGAGGATGAGAACTGTCTTACCT -GTAAAAGCGCCCATAAGGACTCCTTGATTTATTATGTAACATGCATTACAAAACTGTTTTAACTTTCTGT -CAACAGGTTTTGTAATGGTCACTAAAAAACAATCTCGCGTTCCAGGTCGTCCCAGACGTTTCGCTCCTGA -GCAGGCAATCTCTGCGGCAAAAGTGCTTTTTCACCAAAAAGGTTTCGATGCTGTCAGTGTTGCTGAAGTT -ACTGATTATCTTGGTATTAACCCCCCGAGCCTCTACGCGGCTTTTGGCAGTAAAGCTGGGTTATTTAGCC -GTGTACTCAATGAATACGTCGGTACGGAAGCTATTCCGCTTGCCGATATTCTTCGTGATGATCGTCCGGT -AGGCGAGTGCCTGGTTGAGGTATTAAAAGAAGCGGCGCGCAGATATAGCCAAAACGGCGGCTGCGCTGGC -TGTATGGTTCTTGAAGGTATTCATAGTCATGATCCACAAGCGCGTGATATTGCCGTTCAATATTATCACG -CCGCAGAAACGACCATTTATGACTACATCGCCAGGCGGCATCCACAACGCGCACAATGTGTGACTGATTT -TATGAGTACCGTGATGTCTGGGCTTTCTGCGAAGGCACGAGAGGGGCACTCTATAGAACAACTCTGTGCA -ACAGCTGCAATGGCGGGGGAAGCGATAAAAACTATTCTTGAGGAGTGATGCGGGCCTTGACCCGAAAGGC -GGGAAAGCGCCTGCCGATAAGTTGTGATAAGACAATAATTCACGCGTTAAGGCTAGCGGAATTGATTATC -TTTTCGTATAACGATAGAAATGAAACGTTGTTTTAATTAAGGAGTGGAAAAGATGATCATCGGAAATATT -CATAATCTTCAGCCGTGGCTACCCCAGGAGTTACGCCAGGCGATTGAGCATATCAAAGCACACGTTACGG -CAGAAACGCCAAAGGGCAAGCACGATATCGAAGGCAATCGACTGTTTTATCTTATCTCGGAAGATATGAC -CGAGCCGTACGAAGCTCGCCGTGCGGAGTACCATGCCCGCTATCTTGACATTCAGATTGTGTTAAAAGGT -CAGGAAGGCATGACCTTCAGCACGCAACCTGCAGGCGCGCCGGATACCGACTGGTTAGCTGATAAAGACA -TCGCATTTTTGCCGGAAGGCGTTGATGAGAAAACAGTTATTCTAAATGAAGGTGATTTTGTTGTGTTTTA -TCCGGGGGAAGTGCATAAACCGCTGTGCGCAGTGGGCGCGCCAGCCCAGGTTCGCAAAGCAGTAGTGAAG -ATGCTGATGGCGTGATGACTTTTCGCCGTAAATAACTCAAGGTTTACGGCGAGTTTGTGAAAAGAGCGTT -TTTTGATATTTTTTTGTGAGTAAAATTTGTAATGCTTAGACGTTCTTATTCACTCAAGGAGTTCGTCATG -AGCAAAATATCAGATTTAAATTATTCTCAACACATTACATTAGCCGACAATTTTAAACAAAAAAGTGAAG -TTTTAAATACCTGGCGTGTTGGAATGAATGATTTTGCCCGTATTGCCGGGGGGCAGGATAACAGAAGGAA -TATTCTTTCTCCTGGAGCATTTTTAGAGTTTTTGGCAAAGATATTTACCCTGGGTTATGTGGATTTTAGC -AAACGCTCCAACGAAGCGGGTAGAAATATGATGGCTCATATTAAGTCCTCATCTTATTCTAAAGATACTA -ATGGCAATGAAAAAATGAAGTTTTACATGAATAATCCTGTAGGGGAACGAGCGGATTCACCCAAGGTGAT -TATAGAAATTTCACTTTCCACTATCACTACTATGGGGACTCGTCAAGGACATACAGCCATTATATTTCCA -CAACCTGATGGTTCGACTAACCGTTATGAAGGGAAGTCCTTTGAAAGAAAAGATGAGAGTTCATTACACC -TGATTACTAACAAGGTTCTGGCGTGTTACCAAAGTGAAGCTAACAAGAAAATAGCGCGTCTATTAAATAA -TAATCAGGAGTTAAATAATCTACAGAAATTAAATAATCTACAGAAGTTAAATAATCTACTGAAGTTAAAT -AATATACAGGGGTTAAATAATCCTCAGGAGTTAAATAATCCGCAGAATTTAAATGATTCTCAGGAGTTAA -ATAACTCGCAGGAATTAAATAGTCCACAGGAGTTAAATGATCCGCAGGAGTTAAATAATTCTCAGGACTT -AAATAACTCTAAGGTGAGTTGTACAGTTTCAGTTGATTCTACGATTACGGGTTTATTAAAAGAACCATTG -AATAATGCATTATTAGCAATAAGGAACGAACATCTGCTATTAATGCCTCATGTATGTGATGAATCGATTT -CATACTTACTGGGCGAAAAAGGTATACTTGAAGAAATAGATAAGCTCTACGCATTAAATGATCACGGAAT -TGATAATGACAAAGTAGGTAACAATGAAATTAATGACATCAAAGTTAACCTGTCTCATATTCTTATTGAT -TCCTTAGATGATGCAAAGGTTAACCTTACACCGGTCATCGATTCGATTCTGGAGACTTTTTCAAAATCCC -CATATATTAATGATGTAAGAATACTGGATTGGTGTTTTAATAAAAGCATGCAATATTTTGATGATACTAA -AAAGATAAAGCATGCATGCTCCGTAATAAATCATATTAATCTTCGCAGCGATCAGTCTAAAATAGCTGAG -ACATTATTTTTCAATCTCGATAAAGAACCCTATAAAAATAGCCCTGAATTACAGGGGTTGATTTGGAATA -AGTTGGTTGTATATGTCAATGAATTTAACTTAAGTAATCGAGAAAAAACAAATTTAATACAAAGGCTATT -TGATAATGTTGAGTCTATATTTAATGAAGTACCTGTCAGCATTTTAGTGAATGATATTTTTATGAATGAT -TTCTTTATGAAAAATCCTGAGATGATTAATTGGTACTTCCCTCAGTTACTTAAGAGTTATGAGGGTGAAA -AGATTTATTTTGATAATTTAAAATATGATTTAAATGATAATGATAAGGAATCTAATAAAGAAATTTTGAA -GAATCAACCAGATAATGTTATCAAAGAAAAACTGAATAATGAATACAAACTTAGATTTAGAATGATGCAA -ACTATCTTGCAATCGAGAGTTAATGTATTACCATATATTAATGAACAGCGTTTAAATAAACTAAATCCAC -CGGAAAATTTACGTATAGCAATAGAACACTTTGGGTGGAAGAATAGACCTATCACTGCATAAAATAATGT -GATGCCGGGATGGTTTGTATTTCCCGGCATCTTTATAGCGATAGCAATTATTTACTGAGCGTCGCGACCA -TCACCGCTTTGATAGTATGCATACGGTTTTCCGCCTGATCAAAAACAATGCTGGCGGCAGATTCGAAGAC -CTCATCAGTGACTTCCATACCGCCATGTAGGCCAAATTCTTCCGCCATTTTCTTGCCAAGCGTCGTTTGG -TCGTCATGAAACGCGGGCAGGCAGTGGAGGAATTTGACCTCCGGGTTACCGGTCAACTGCATCATCTTGC -TGTTCACCTGATATTCACGCAGCAATGCAATCCGTTCCGCCCATTTCTCTTTTGCTTCCCCCATCGACAC -CCACACATCGGTATAGATAAAGTCAGCACCTTCAACTCCCTTCGCGACATCTTCAGTCAGCGTAATATTC -CCACCATTTTGCTGTGCCAGGGCGCGGCATTCCGTAACCAGCGCAGCTTCCGGCCAGCACGCTTGTGGCG -CGACCAGACGCAAATCCAGACCGGTAAGCGCCGCAGCTTCGAGCATCGAATTGCCCATGTTGTTACGCGC -GTCACCTGCATAGACCAGCGTCATTTCGTTGAACGCTTTGCCGGGCAAATGCTCCTGCATGGTGAGAAGA -TCCGCCAGCAGCTGCGTGGGATGGAACTCATTGGTCAGGCCATTCCATACCGGCACGCTAGCGTATTCCG -CCAGTGTTTCGACAATCTCCTGACCATAGCCGCGATACTGAATACCGTCATACATGCGACCAAGCACGCG -GGCAGTGTCTTTAATCGACTCTTTATGACCAATCTGGCTGCCGCTTGGGCCGAGATAAGTAACGCGAGCA -CCCTGGTCATATGCGGCAACTTCGAAAGAGCATCGGGTACGAGTCGAGTCTTTTTCGAAGATGAGCGCGA -TGTTTTTACCAGTGAGTTTGGCTTCTTCTTTACCGCTTTTCTTATCGGCTTTCAGCTTCGCGGCTAACTG -CAGCAGGCTGTTGAGTTCAGCTGGCGTGAAATCGAGTAATTTCAGGAAATGCTTATGATAAAACCCGGAC -ATAGATCCCTCCTGTGGCTAACGCCTCAATGAATTAAAATTCAATTTATATGGATGATTATTCATTTGCA -AGTCTAAAGCATAAATCTTTGTCACAAAGGTGGAGGCAATGTCAGTGGTGTGTGACAATAAGAGTATCGG -CAGGACATTAAGAGGAATGAGCCATGGCAAACCCGGAACAACTGGAAGAACAGCGTGAAGAAACACGTTT -GATTATTGAAGAATTACTGGAAGATGGCAGCGATCCGGACGCGCTGTACACCATCGAACACCATCTTTCC -GCAGACGATCTGGAAACCCTGGAAAAAGCAGCAGTTGAAGCGTTTAAACTCGGTTACGAAGTGACCGATC -CAGAAGAGCTGGAAGTTGAAGATGGTGATATCGTGATTTGCTGCGACATCCTCAGCGAGTGCGCGTTGAA -TGCCGATCTGATCGATGCCCAGGTTGAACAACTGATGACGCTGGCAGAGAAATTTGACGTTGAGTACGAC -GGATGGGGCACTTACTTTGAAGATCCTAACGGCGAAGATGGCGACGATGAAGATTTTGTCGATGAAGACG -ATGACGGAGTTCGCCACTAATTAAGCGTAGCGCATCAGGCCCAGGTAGTTCCTGCAACCTGGTGAATTTG -TAGCCCGGATAAGGCATTCATGTCACATCCGGCATAAACAAAACGTACGTTGTTAATGTTCGAATGCCCG -CGAGTTGAACACGCGGGCATTTTTTTAGAGTTCGCGCAACATCCGCACTTCACAATCGACATGGCCCGTG -CAGCCAAGCGCATAGTCGATATGCTCAAAGCCCAAATGCTCATAAAGCGCAATGGCTTCCTTTAAAAAAG -CGGTCGTTTCCAGATAGCAGCGTTTGAAACCCATCTCTCGCGCCTGCTCCATCGCCATTAAGGCCAGTTT -TTTTGCCAGCCCTTTGCCGCGGATAGCCGGAAGAAAATACATCTTTTGCAGTTCGCAAATATCCGACTCA -CTCCCGGTTAATGGCGCTATCCCACCGCCGCCGACCACTTCACCCTCGTACTCAACGACCCAATATGCAT -GGCCAGGCTGACTATATACTTGATACAGCTCGTCAAGATTCGGATCGGCGACGGTGTAGCCTTTATCAGC -GGTAAGACCGTATTCGGCGGATACCTGACGAATGACGCGGGCGATAGCAGGATTATCCTGCAGCGTCAGG -CGACGCATTACAGGTGATTGCGGCGCAATGTTATTCATAGTTTAACCCAATAAAAATAAAGTAATTATAC -ATTTGTTTAATACCACTCTCTTCTTACGTACGCAAGCGACTTATAAAGTAATAAAGTTTTTGCCAGCCTA -TTACTGATAAGAGTATTGTAACGTGGCAGAACATTTTACTGTCTGTATATATAAGTTATATCAATGGATT -TTTTAATTCAGGGAATTTTTATGGCTCAAGTTATTAATGAAATGGATGTTCCGTCCCATTCGTTTGTTTT -TCATGGTACAGGTGAGAGATATTTTCTTATTTGTGTGGTGAATGTGTTGTTAACGATTATAACGCTAGGT -ATCTATTTACCATGGGCATTAATGAAATGTAAGCGTTATCTTTATGCTAATATGGAAGTTAACGGACAAC -GATTTTCTTATGGAATTACCGGTGGGAATGTTTTTGTTAGTTGTCTTTTTTTTGTTTTTTTCTATTTCGC -AATCTTAATGACAGTGTCAGCAGATATGCCGCTTGTTGGTTGTGTTTTGACTTTGTTACTGTTGGTTTTG -CTTATATTTATGGCAGCAAAAGGACTGCGTCATCAGGCCTTAATGACCAGTCTCAACGGCGTAAGATTTA -GTTTTAATTGCTCTATGAAAGGGTTCTGGTGGGTGACCTTTTTCTTGCCGATTTTAATGGCCATTGGGAT -GGGGACTGTTTTCTTTATCTCGACAAAGATGCTACCTGCCAATAGTTCAAGTAGTGTTATTATATCCATG -GTTCTGATGGCAATAGTTGGTATTGTTTCCATTGGTATTTTTAATGGTACTTTATATAGTCTGGTAATGA -GTTTTCTCTGGAGTAATACCAGTTTCGGTATACATCGTTTCAAGGTGAAATTAGATACTACGTATTGTAT -AAAATATGCCATTCTCGCATTTTTAGCTTTATTGCCTTTTCTCGCTGTTGCTGGTTATATTATCTTCGAT -CAAATATTAAATGCGTATGATAGTTCTGTATATGCAAATGATGACATTGAGAATTTACAGCAATTTATGG -AAATGCAACGTAAAATGATAATCGCGCAGTTAATCTATTATTTTGGGATTGCTGTTAGCACAAGTTATTT -AACGGTGTCTTTGCGAAACCATTTTATGAGCAACCTGTCACTGAATGATGGGCGTATTCGTTTTCGCTTA -ACTTTAACGTACCACGGTATGCTTTATCGCATGTGTGCGTTGGTGGTGATATCCGGGATTACGGGCGGTC -TGGCTTATCCACTGCTGAAAATATGGATGATTGACTGGCAGGCAAAAAATACGTATTTGCTGGGCGATTT -GGATGACCTTCCTTTAATCAATAAAGAAGAACAACCAGATAAAGGCTTCTTAGCCAGTATTTCACGGGGA -GTTATGCCTTCTTTACCATTTCTGTAAGAGATAAAAAAGGCCGGAGCATGCTCCGGCCTTCGTTTTCATC -ACTGTGTTTTGATTACAGCGCGGCGATAACAGCCTGCTGTTCAATCAGTTTCGCTTTCGCTTCCGCATAG -CCTTCCAGCTTCTCACGCTCTTTCGCGATGACCGCTTCCGGTGCGCGGGCGACAAAGCCTTCGTTCGCCA -GTTTGTTCTCGATACGGCTGATTTCACCTTCAATCTTCGCCACTTCTTTCGCCAGACGCGCCAGCTCATC -TTCTTTGTTGATGAGGCCAGCCATCGGGATCAGCAGCTCTGCACCGTCGATGATCTTCGTAACGGAAACC -GGACCTTTGTCATCGGCAGGCAGCACGGTGATACTTTCCAGACGCGCCAGGGTTTGCAGGAAGCCACGGT -TTTCATTTACGCGACGTTCTGCATCCGCGCTGCAACCACGCAGCAGCAGCTCCAGCGGTTTGCCCGGCGC -GATGTTCATTTCTGCACGGATGTTACGTACCGCAACGATCGCCTGTTTCAGCCATTCGGTGTCGGCCAGT -GCGGCTTCATCAACCTGAGATGCATCGTACTGCGGGAACGGCTGCAGCATGATGGTGTCGGCAGTGATAC -CGCAAAGTACTTTCACACGCTGCCAGATGGTTTCGGTGATGAACGGAATGATCGGATGCGCGAGGCGCAG -CAGACCTTCCAGTACAGTCACCAGCGTATGGCGAGTACCGCGCAGTTCTGCTTCGGTGCCACCGTTCATT -ACCGGCTTGGTCAGCTCGAGATACCAGTCACAGAACTGGTTCCAGGTGAACTCATACAGAATGCCTGCGG -CGATATCGAAGCGGAAGCTGTCCAGCGCTTCGCGGTACGCTTTGATGGTCTGGTTGAACTCCGCCAGAAT -CCAGCGGTCCGCCAGCGACAGCGTCATTTCGCCGCCGTTGAAGCCGCAATCCTGACCTTCTGTGTTCATC -AGCACAAAGCGGCTGGCGTTCCACAGCTTGTTACAGAAGTTACGGTAACCTTCCAGACGCTTCATATCCC -AGTTGATGTCACGACCGGTAGACGCCAGCGCCGCCAGGGTGAAGCGCAGCGCGTCAGTACCGTGCGGCTC -AATACCGTTCGGGAACTGCTTCTCGGTGCGCTTACGGATTTTGTCCGCCAGCTGCGGCTGCATCATATTG -CCGGTACGTTTTTCCAGCAGTTCTGGCAGCGAAATACCGTCAACCATATCCAGTGGGTCGATAACGTTAC -CCTTGGATTTGGACATCTTCTGGCCTTCGTCATCACGAATCAGGCCGGTCATGTAAACGGTGTGGAACGG -CACCTGCGGTTTGCCATTTTCATCTTTGATGAAGTGCATGGTCATCATGATCATGCGGGCAATCCAGAAG -AAAATGATGTCGAAACCAGATACCATCACGCTGGTTGGGTGGAACTGACGCAGGGCGTCGGTATTTTCCG -GCCAGCCAAGGGTAGAGAAGGTCCACAGCGCAGAAGAGAACCAGGTATCGAGAACGTCTTCGTCCTGACG -CAGGACAACATCAGCACCGAGGTTATTTTCTTTACGCACTTCGTCTTCGTTGCGGCCAACATAAACGTTA -CCCGCTTCGTCATACCATGCCGGGATACGGTGACCCCACCACAACTGACGAGAGATACACCAGTCCTGAA -TATCGCGCATCCAGGAGAAGTACATGTTTTCGTACTGCTTCGGTACGAACTGAATGTCGCCGTTCTCAAC -CGCTTCAACCGCCGGTTTCGCCAGGACATCGGCACGCACGTACCACTGGTCGGTCAGCATTGGTTCGATA -ACTACGCCGCCACGGTCGCCGTAAGGAACGGTCAGGTCGTGCGGTTTAATTTCTTCCAGCAGGCCAAGCG -CGTCAACTGCGGCAACGACTGCTTTACGTGCAGCAAAACGCTCCAGTTTCTGGAACTCTGCAGGGATTTC -GCTGGAATAAACGTCAGATTCGTTACCTTTGGTATCGAACACCTGGGCGCTTTCACGGATATCGCCGTCA -AAGGTCAGGATGTTGATCATCGGCAGGGCGTGACGTTTACCCACTTCATAGTCGTTAAAGTCGTGCGCCG -GAGTGATTTTCACGCAGCCGGTGCCTTTTTCCATGTCGGCGTGTTCGTCGCCAACGATCGGAATACGACG -GTTAACCAGCGGCAGAATGACATATTTGCCAATCAGATCTTTGTAACGCGGATCTTCCGGGTTAACGGCT -ACGCCAGTATCGCCCAGCAGGGTTTCTGGACGGGTAGTCGCGACCACCAGATAATCTTTACCGTCTGCGG -TTTTCGCACCGTCAGCCAGCGGATAGCGGATGTGCCACATCGAACCTTTCGATTCGCGGTTTTCGACTTC -CAGGTCAGAGATAGCGGTGCGCAGTTTCGGATCCCAGTTTACCAGGCGTTTGCCACGGTAAATCAGGTCT -TCTTTATACAGACGAACGAAAACTTCTTTCACCGCATTGGACAGGCCTTCGTCCATGGTGAAGCGTTCAC -GCTCCCAGTCGACGGAGTTGCCGAGACGGCGCATCTGACGGGTAATGGTGCCGCCAGATTCCGCTTTCCA -TTCCCAGATTTTGTCGATGAAAGCTTCGCGGCCGTAGTCGTGACGGGTTTTACCTTCTTCTGCGGCAATC -TTGCGCTCAACGACCATCTGGGTAGCGATCCCGGCGTGGTCAGTACCGACCTGCCACAGGGTGTTTTTGC -CCTGCATGCGCTGATAGCGGATCATGGTATCCATGATGGTTTGCTGGAAGGCGTGACCCATATGCAAACT -GCCGGTGACGTTCGGCGGCGGGATCATGATGCAGAAACTTTCCTGGCTTTCATCGCCATTAGGCTTAAAG -TAGCCCTGCTTTTCCCAGTGCTCGTAAAGCGGCTGTTCGATATCTTGTGGGTTATATGTCTTTTCCATTA -TTTCCAGGTTGCCGTATTCAGGTTGAAACCAGCCACGCGGTAGGCTTTATAGCGTTCGCGCGCCAGTTGT -TTCAGAGAATCTTCATAAGGAACGAAGTCTACCACTTCTGTGAAAGCGGTGGCAAAATCTGCAAAGCTTG -TTCGCAGACTAATCAATATATCGCGCCGGCTGCTGCTACGCTTTTGCGGCCAGGCGATCTCCACCGGTGC -ACCGCCGCGCGGTCCTTCTCCCGCTAAATTATGCGGAACAAAGCTTTCTGCCGGACGCGCCCACAGGGCT -TCATCCAGCCGGTAAGCCTGCTTTTCATCTTCACAGGCGATGAGCACGCGCTTACCGCTGCGCCAACGTT -CTGCGGCAATTTCACACACCAGTTGCTCAACGGCGCTTAAGCCATCGACGGTGGTGTCATTGTCCAGAAG -GTAGAACGTCGCGTTTTTCATAAATGGGGCTTCTTGTGGTGGATTTAAATACGCATCAGGTATACACCGC -AGCGCCTGATGCGACGCTGTTGTGTCTTATCAGGCCTACGAGTTCAGTGCTGTGTAGGTCGGATAAGGCG -TTCACGCCGCATCCGGCAATAACAGCCTTGCCTGACGCAATTACTCTTCGCCGTTAAACCCAGCGCGGTT -TAACAGGAACTGTGCCAGCAACGCTACCGGACGACCGGTGGCGCCTTTTGCTTTACCAGAACGCCAGGCG -GTACCGGCGATATCCAGGTGCGCCCAGTTGTACTTACGGGTAAAGCGTGACAGGAAGCAACCTGCGGTAA -TCGCCCCACCAGGACGACCGCCAATGTTCGCCATATCGGCAAAATTGGACTCCAGTTGTTCCTGATACTC -GTCACCCAGCGGTAAGCGCCATGCGCGGTCACCGGATTGTTCAGACGCGGCAATCAGTTCATGGGCCAGC -GGATTATGGTTCGCCATCAGACCAGTAATATGATGACCCAGCGCGATCACGCAGGCACCGGTCAGCGTCG -CCACGTCAATCACCGCTTCCGGCTCAAAACGCTCAACGTAAGTTAACACGTCGCACAGTACCAGGCGGCC -TTCAGCGTCGGTGTTCAGCACTTCAACGGTTTGACCGGACATGGTGGTTAACACATCGCCCGGACGATAG -GCTCGTCCGCCAGGCATGTTTTCGCAGCCTGCCAACACGCCGATAACGTTAATCGGCAGTTGTAGCTCCG -CGACCATCCGCATCACGCCGTAAACCGCTGCCGCACCGCACATATCGTACTTCATCTCATCCATGCCTTC -TGAAGGCTTGATCGAGATACCGCCGGAGTCGAAGGTTAAACCTTTACCCACCAGCACGATTGGGCGTGCA -TCTTCCGACGCGTTGCCTTTGTACTCAATCACCGACATCAGCGATTCGTTTTGCGAACCCTGACCGACCG -CCAGATAGGAATGCATCCCCAGCTCTTTCATCTGCTGTTCGCCGATAACGCGGGTGATGACATTCTTGCT -GTAGCTGTCAGCCAGCTGGCGCGCTTGTGAAGCGAGGTAAGCGGCGTTACAGATATTCGGCGGCATATTG -CCGAGATCTTTTGCTGCTTTAATCCCGGCGGCAATCGCCAGACCGTGCTGGATCGCGCGCTCACCGCTGG -TCAGTTCACGGCGGGTCGGCACGTTGAACACCATCTTACGCAGCGGACGACGCGGTTCGCTCTTGTTCGT -TTTCAGCTGATCGAAACTGTAGAGCGTCTCTTTTGCCGTCTCGACAGCCTGACGCACTTTCCAGTAGTTG -TTACGGCCTTTAACGTGCAGCTCAGTCAGAAAGCAGACCGCTTCCATTGAGCCAGTATCATTCAGCGTAT -TAATGGTTTTCTGAATAACCTGCTTGTACTGACGCTCATCCAGCTCACGTTCTTTGCCGCAACCAATAAG -GAGAATTCGCTCGGAAAGTACATTCGGAACATGGTGCAGCAACAATGTCTGCCCCGGTTTTCCTTCCAGT -TCGCCCCGACGTAGCAGGGCGCTGATGTACCCATCGCTGATTTTATCGAGCTGTTCTGCAATCGGAGAAA -GGCGACGTGGTTCGAAGACGCCCACGACGATGCAGGCACTCCGCTGTTTCTCCGGGCTACCGCTTTTTAC -ACTAAACTCCATGCACTACGCTCCTGAATCTTAAAGACAACGGCGGTGGCTACAGATAGAATTGCAAGCT -TTCGTAACTCATGTCCGCTGTTGCGATGACTTCGTGTTAATCTTAACGTTATTACGGCATTGGCACGTCA -GAACAAAATCTGAGAGGTGAATCCGTTGAGTATAATTATCTTAGCGACGATTTCGACGACTCAAGAGAAT -AAATGACGTTTAAGCCATGAAACAAGCTAAAATCCTGCAAAAGACGAGTTTTTACGGGCGTATTTAAAGT -GATAATCATAAGATATCTGGTGCGGGAGACGCTCAAAAGCCAGCTGGCGATACTCTTCATCTTGCTTTTG -ATCTTCTTCTGTCAAAAGTTAGTGAGGATCCTCGGCGCAGCGGTTGACGGCGATATTCCGGCGAATCTGG -TGCTCTCCCTTCTCGGGTTGGGCGTGCCGGAAATGGCGCAGCTTATCCTGCCATTAAGCCTGTTCCTCGG -GCTGCTGATGACGCTGGGCAAACTGTATACCGAAAGTGAAATTACGGTAATGCATGCCTGCGGCCTGAGC -AAAGCGGTTCTGGTGAAAGCGGCAATGATCCTTGCGGTATTCACGGCAATCGTAGCGGCGGTTAACGTGA -TGTGGGCGGGACCGTGGTCATCGCGTCATCAGGATGAAGTGTTAGCAGAAGCGAAAGCGAACCCTGGCAT -GGCGGCGCTGGCGCAAGGGCAATTCCAGCAAGCGACTAATGGCAGCTCGGTGCTGTTCATCGAAAGCGTT -GACGGCAGCGATTTCAAAGATGTGTTCCTCGCGCAAATTCGACCAAAAGGTAATGCACGTCCTTCTGTGG -TGGTGGCCGATTCCGGACATTTAACCCAGCTGCGCGACGGCTCCCAGGTCGTCACTCTCAACCAGGGAAC -GCGCTTCGAAGGCACTGCATTGTTACGTGATTTCCGCATTACGGACTTCCAGGATTATCAGGCGATCATT -GGTCACCAGGCGGTGGCGCTCGACCCGAACGATACCGACCAGATGGACATGCGCACATTGTGGAACACTG -ACACCGATCGTGCTCGCGCAGAACTGAACTGGCGTATCACGTTGGTATTCACCGTGTTTATGATGGCACT -TATGGTCGTACCGCTGAGCGTGGTTAACCCACGTCAGGGACGCGTACTGTCGATGCTGCCAGCCATGCTG -CTGTATCTACTTTTCTTCCTGATCCAGACCTCCCTGAAATCGAACGGCGGTAAAGGTAAGCTGGACCCGA -CGCTGTGGATGTGGACCGTTAACCTGATTTATCTGGCTTTAGCGATTGTTCTCAACCTTTGGGACACCGT -GCCGGTCCGCCGCCTGCGCGCCAGTTTTTCGCGTAAAGGAGCGGTGTGATGCAACCTTTTGGCGTACTTG -ACCGCTATATCGGTAAAACTATTTTCACCACCATCATGATGACACTGTTCATGCTGGTGTCGCTGTCGGG -CATTATCAAGTTTGTCGATCAGCTGAAAAAAGCCGGGCAGGGGAGTTACGACGCGTTAGGCGCAGGAATG -TATACCTTGCTGAGCGTGCCGAAAGATGTGCAGATCTTCTTCCCGATGGCGGCTCTGCTTGGGGCGTTGC -TTGGTCTTGGGATGCTGGCGCAGCGCAGCGAACTGGTGGTGATGCAGGCTTCTGGTTTTACCCGTATGCA -GGTGGCGCTGTCGGTGATGAAAACCGCCATTCCGCTGGTCTTGCTGACGATGGCGATTGGCGAATGGGTC -GCGCCGCAGGGCGAGCAGATGGCGCGTAACTACCGTGCGCAGGCGATGTACGGCGGCTCGTTGCTCTCTA -CCCAGCAAGGCTTATGGGCGAAAGATGGCAACAACTTCGTCTACATTGAGCGGGTTAAAGGTGACGAAGA -GTTAGGTGGCATCAGCATTTATGCCTTTAACGAGAATCGTCGTCTGCAATCCGTACGCTATGCCGCTACT -GCGAAGTTTGACCCGGAACATAAAGTCTGGCGTCTGTCGCAGGTTGATGAATCTGATCTGACCAATCCGA -AACAGATTACCGGTTCGCAGACGGTGAGCGGCACCTGGAAAACCAACCTCACGCCGGACAAACTGGGCGT -GGTGGCGCTGGACCCGGATGCACTCTCTATCAGCGGTTTGCACAACTATGTGAAGTATCTGAAGTCGAGC -GGTCAGGATGCCGGACGTTATCAGCTCAACATGTGGAGCAAAATCTTCCAGCCGCTATCTGTGGCGGTGA -TGATGCTGATGGCGCTGTCGTTCATCTTTGGCCCACTGCGTAGCGTACCGATGGGCGTGCGTGTGGTCAC -CGGTATCAGTTTCGGTTTTGTCTTCTACGTACTGGACCAGATCTTCGGCCCGCTGACGTTGGTTTATGGC -ATCCCGCCGATCATCGGCGCACTGTTGCCAAGCGCCAGCTTCTTCTTAATCAGCCTGTGGCTGTTAATGA -GAAAATCGTAACCGAATGAACGAATAAAGGGAGCGAAAGCTCCCTTTATTATTGTTAGCAAAGTGTGCTT -CGTTCATTCCTGAAAAATAATTAAAATTCAATATATTGCAGTGGGGTGGGCATGATAAGACGCGCCAGCG -TCGCATCAGGCAAAGACAAATCTCGCCTGACTTACCTTCTTCTCCCCCCCAGCAAACTCCCCAACATCCC -GCGTACAATCTGATTCGTCACTTGGCGAGCGGCGCTTTTGGCCATTGTTTGCACCACACCATCTTTCTTC -CCGCCGCGTGGTCCGGTAGTGCCGAACAAAATATCCTTCAATCCACCAAGAATGCCGTCATCCACCGCTA -CCTCTTTCCCTTTCGCGGGAGGATTATTTTGCTGCTCGGTACTGGCCTGAAAGCCTTTTTGCAACATCTC -ATAGGCGGATTCCCGGTCCACCTCATCCTCATATTTGCCATACACCGGAGAGTGATTAATCAAGCCATTA -CGCTCATCTTCCGTCACCGGCCCCATCCGCGAACAAGGCGCGATCACCATCGCACGCTCCACCACAGAAG -GGCTTCCTTTCGCATCCAGAAAAGAGATCAACGCCTCGCCGGTGCCCAGTTCCTGAATCGCCTTTTCGGT -ATCAAACGCCGGATTGGCCCGCATGGTTTGCGCCGCTGCCTTCACTGCTTTCTGATCTTTTGGCGTAAAA -GCCCGCAAAGCATGTTGAACGCGATTACCGAGCTGCCCGAGCACATTATCCGGAATATCAGACGGGTTTT -GCGAAACGAACCAGACGCCCACGCCTTTTGAGCGAATAAGCCTTATCACCTGCTCAATCTTATCCAGCAG -TACCTGCGGGGCATCGTTAAACAGCAGATGTGCCTCGTCGAAGAAAAACACCAGTTTTGGTTTCTCCAGA -TCGCCCGCTTCCGGCAATTGTTCATACAACTCTGAAAGCATCCACAGCAGGCTGGCGGCGTACAGTTTCG -GCATCTGATAAAGTTTCTCGGCGCTGAGGATATTGATAACGCCTTTACCGTTGGCATCGGTGCGCATCCA -GTCTTTGATATCCAGCATCGGCTCACCAAAGAAGTGTGCTGCGCCTTGCTGTTCCAGCGACAACAGCCCG -CGCTGGATGGCACCAACCGATGCGCTACTGATATTACCGTACTGATTCTGGAAGGATTTGGCGTTATCGC -CGATGTACTGGGTAATTGCCCGCAGATCTTTAAAGTCGAGCAGTAACAGCCCCTGATCGTCAGCAATGCG -GAAGATGATATTCAGCACGCCAGATTGCACATCGTTGAGATTCAACAGTCGTGCCAGCAACAGCGGCCCC -AGATCCGAAACCGTCGCCCGCACCGGATGGCCTTTCTCGCCAAAGATATCCCACACCACCACCGGATTGG -CATGCGGTTGCCAGTCATTGACGCCGATATTTTTAAGCCTTGCGAGCAGTTTTTCCGACACCGTTCCTGC -CTGCGCGACGCCGGTCAGATCGCCTTTCACATCAGCCATAAACACCGGCACGCCGATTTCCGACAATGAC -TCCGCCAGTTTTTGCAGCGTAACGGTTTTACCCGTCCCCGTTGCGCCGGTAATCAGCCCATGACGGTTAG -CCATTCCCGGCAGTAAAAACAGTTCTGTGTCCGGCGTGCGGGCAATTAACAGGGGTTCACTCATGAGATA -TCCTCCAGTTTCCTGCCTGGAGTATAGGCAACGTCCGGCAAAGAGAATACGTGTAATGAAGAGAAAATAA -CCTAAAGCGTGTTGCCGTGATAAATCTGATACCCGAGGTCAACAGTGTTGTGGTTGTGATCGTTATTTTT -AATTTTGCTCAGCAACATTTGGGCGGCCATCCGACCAATATCAAAACGGGGAGTAATTACGCTGGCGAGG -CTTGGGATCATTTGCCTGCCAATCTCCAGCCCATGAAAACCCGCAATGGAAATTTGTTCTGGCACGGCGA -GGTTTCGCTCGCGGCACAGCAGAAGCGCACCCATCGCAATATCGTCATTGGTGCAAAATACACCGTCTAA -ATCCGGGTTTGCGCTAAGGGCATCACGCATTAACTGCATTCCTAAATGAATGGATGAGATGGCGCGTGGA -TTCATGCGTAATGGGGAAAGATTATGCAGCATCATCGCATCGCAATACCCCTGATAACGCTGTTCATCGC -GGGTGTCATCTTTGGAACCGAGATACAGAATTTTGTGCCTGACTCGCTTCTCCAGCATGGTACACACCAT -GTCAAAAGCGGCCTGCCGATTATCAAAACCGACCTCCATATCCAGCCGTTCTCCCTGTACATCCATCAAT -TCCACGACCGGAATGGTGGCTGAACGCAGAAATTTCACCGTCCTGATGGTGTGATATTTTTCCGAAAGTA -TAATCCCGTCAATGTTATAAGAGAGCAGGTTAATCACCGACTCTTCTTCGGAATCGCGATCGTAATTGTA -ATTAGCAATAAGGGTCTGATAATTATGCTCAGAGGTGACGGATTCTATTCCCGCGAGAATGTCAGCGAAG -AGTTGATTTTGAAATGACGGAATCAAGATACCGAGGGTATAACTTTGTGCATTCAACAACATGCCGGGAG -CGCGATTAGGGATATAATTGATCTCTTCCATAATTTTGGCGATGCGCTCGCCTGTTTCCTTTGCCACCTT -TTTCGGCGAGCGGATATAACGACTCACGGTCATTTTTGTTACGCCAGCCAGCGTAGCGATATCCTGTAAA -GAAATTCTGTGATTGCGCATAACTTCTCCCAACGTCGGGGGAATCTTCAATCTTCCCCCGAAACTACATC -ACAATATTTTATTCTTTCAGTGCAATACGGCGTTAATGGCTAACACGCCCAGCAAACCCATAATAGAAAT -AAGGGTTTCCATCACCGTCCAGGTACGCAACGTTTCACCAACCGTCAGATTAAAATACCCTTTAAATAGC -CAGAAGCCAGGGTCGTTTACGTGTGACGCGATCACGCTGCCCGCACCGGTTGCCAGTACCATTAAAGCGG -GATCGGCATGGGTAACGTTGATAATCGGCAACACCACACCCGCGGTGGTAATGGCCGCGACGGTGGCAGA -GCCCAGAGCGATACGCAACAGCGCCGCAACAGTCCAGCACATCAATAACGGCGAAAGTGTAGTTCCGGTC -ATTAAGTGTGAAATATAGTGCCCGACACCGCTATCTACTAATACCTGCTTAAACGCGCCGCCGCCAGCGA -TAATAAACACAATCATCGCGATAGCGCCTATAGAATCCCCAATGATATCCATGATTTGCTCGATGGTGCG -TCCATTACGTCGGCCCAGTGTGAAAATCGCAATAACAATGGCAATAAACAGCGCAACGGCAGGGTTACCG -ACAAATTCAAAGAAGAGGCGCACGGTGTTAGTTTTCGGTAACGTAATTTCACAAACGGCGGCGATAGCCA -TCAGGATGACCGGGATCACGGCAGCGAAAATACTGTTCCAGAAGGAGGGCATCTCCTCTTCGCTAAACAG -ATGAGGATTAAATAAGCCTTCCGGTGGTGCTTTCTCAAAGCGAGTTAGCAGTTTAGAAAACAGCGGTCCT -GCGACAATAACTGTCGGAATGGTAATGATAAATCCATACAGTAAAGTCGTTCCGAGATTAGCCTCAAAGA -TAGTCGCGATGGCAGTAGGCCCTGGATGTGGCGGCAGAAAACAGTGGGTTACAGAGAGCGCTGCTACCAT -TGGTACGCCAACATACAACAGGGGTAATCCTGATGATGCTACGATGGTAAATACCAACGGCAACAGCAGG -ACAAAACCCACTTCAAAAAACATGGCGAGGCCCACAACCAGACCGGTGATCACTAGCGCCCATTGCACGC -GTTTTTTACCAAAAGTAGCAATCAGCGTAGTGGCGATACGTTGTGCCGCACCCGTATCAGAAATCAGCTT -GCCTAACATGGCCCCGAAACCGAGGATCATTGCCAGCCCGCCGAGCGTGCTGCCGATACCATTTTGTATA -GAGTGCAGGACGGCCTGTGCATCCATCCCTTCGGCAAATCCGACGACGGCAGCTACCAGAACGAGGGCAA -TAAAGCCGTTAACTTTAAAGCCGATCATCAGGATAAGAAGCAGCGCGACGCCTGCCGCAATAATGATTAA -TGGCATAGTCTTTATCTCTTATTAGTGCCAGAAAAGCAGCGCTTTCGCGCTGCACGTAGGGGGGCTGTTA -AACAGCCACTAACATGCCGCCATCAACAAACAACAGGTGGCCGTTTACGAAATCAGAGGCTTTTGAAGAA -AGGAACACCGCAGCACCAATCAGTTCCTGCGGATCTCCCCAGCGTGCGGCGGGGGTCCGTTTGCACAACC -AGGCGGTGAAGGCTTCGTCCTCAACCAGTGCTTTAGTCATTTCTGTTTTGAAATAGCCCGGCGCAATACC -GTTGACCTGAATATTGTGGCGCGCCAGCTCGACGCACATGCCGCGGGTGAGCATTTTTACCGCCCCTTTC -GATGCGGCATAAGGGGTGATGGTGTCACGTCCCAGTTCGCTTTGCATCGAGCAAATATTAATAACTTTAC -CTGCCTTGCGTTCAACCATGTGACGAGTTACCGCTTGCGATACCAGGAACACGGCGGTCTGGTTTACTGC -GATCACATCATTCCACTCTTGTTCAGGGAACTCAGTAAAAGGATGACGGCGCTGGATACCGGCGTTATTC -ACCAGCACATCAATGGGGCCGATGTCCTTTTCGATATGTTCAACGGCGGCATCAATTTCATGTTTATGAG -TAACATTAAAAGGTGCGGCAACGGCCTGAATACCCTCCTGGTGGAGTTTTTCTACAGCAAGTTCTGCGCG -TTCGGCAGTAATATCATTAATAATTATTTGTGCGCCATATTTACCCAGGCCGGTTGCCAGTAAAAAGCCA -ATGCCCTGTGCTGAACCGGTAATCAAGATATTTTTTCCTGCCAGTGAAAATAGATCGTTCATTGTATTAT -TCCTTTATTTATCTCTTAGAAAACAAGCTGGACTTTTGCTGCCTGGGTTTTATCACCGGCGAAACGTAGC -GCCTCTTCCAGGTCAGTGAAGGGATATTCAGCACTCAGTAAAGGCAGTGGATTGATAACGCCATTCGCCA -GCCATGACACTGCGGTATTAAATTCGCTGGTAAAACGGAAAGAGCCTCTGAGTGAAATCTCCTTACCAAT -CAACGTCATCATTGGGAATTCTGCCATCGCGCCTCCCATACCTACCTGCACCATTACGCCGCGTGCACGA -GTGACCTCCAGACAGGTATTCACTGATGAAGGATGACCGGACACTTCAAAGCTGACATCGAAATAGCCTT -TTTCCGCTTTCCAGTGATCCATGTCGTCGTTTTGTGGGTTTACGAGCACATCCGCCCCCATCTCTTTGCC -CAGCGAAAGGGAACGGGGACTCACATCAGCACAGACAATTTCCGCGGCCCCCAGTGTTTTCACTGCACTG -ACAATCAGGCAGCCAATGGGTCCAACACCGGAAATAAATACTCGCTTGCCCTGTAACTCGCCGGCCTGAT -GTGCGGCATGAATCGCGACGGCTAAAGGTTCGGCAAAAGCCATAACCTTTTCGTCAGCTTTGGCCGGATA -AGGGACACATTGCGACGTTTCGACCATTTTATAACGGGTAAAACCACCATCAACATGAGGGAAATACATG -GCACTGCCAAAAAAACGCATATCTGTACACTGATTCTCGTTATGTTCAATGCAGTATTTGCAGTGACCGC -ACGGTTTAGACGGATTAATGGCTACCGTTTGCCCTTCATGTAATTCTGATGAGTCGCTATGAATAACTTT -ACCGATAACTTCATGACCTAACACCATCGGTGCCTTTATCATGAAATTACCTACTTTTCCTTCCTGATAA -TAATGTAAATCGGAACCGCAAATTCCACCTCGGGTTATTTGTACTAATGTTCCATTATTATTCCAATCTA -TCGTCTGCTCGGTAACGGCAACAGTTTTCTTGCCCGCAACAACGCAGGACTGTGTTTTCACTTGCATAAA -TTCCTCACTGGTCAGGTAGACACCTCGGAAGCATTTAAGCGGTTTTAACTGTCATTATTTGTGATGAAGA -TCACGTCAGAAAATTGTTACATTACTATGTTACGCATAACGTGATGTGCCTTGTAATTCTTATCAGTAGA -AATAAAAAAACGTGAAATTATTATGCCGCCAGGCGTAGTATCGCAGCAGGTAAGATGATTCAGGAGATTT -TAAATGGCGGGTGAAAGCTTTATTTTGATGGGCGTTTCAGGGAGTGGTAAAACATTAATTGGTAGCAAGG -TTGCCGCGTTATTATCTGCTAAATTTATTGATGGTGACGATCTTCATCCAGCCAAAAATATAGATAAAAT -GTCGCAGGGTATTCCATTATCTGATGAAGATCGACTTCCCTGGCTGGAACGCTTAAATGATGCTTCATAC -AGTCTTTATAAAAAGAATGAAACAGGATTTATTGTCTGTTCATCATTAAAAAAACAGTATCGTGATATTT -TACGCAAGGGTAGCCCCCATGTTCATTTCCTCTGGTTAGATGGCGACTATGAAACTATTCTCGCGCGAAT -GCAGCGTCGGGCTGGGCATTTTATGCCGGTAGCGTTACTAAAAAGTCAGTTTGAGGCACTGGAGCGTCCA -CAAGCAGATGAACAGGATATTGTGCGCATTGATATCAACCATGATATTGCCAATGTCACCGAACAATGTC -GGCAGGCTGTGCTGGCGATACGACAAAACAGAATATGTGCGAAAGAGGGCAGCGCCTCAGATCAGCGCTG -CGAATGATTTTCAAAAATCGGCTTTCAACACCACGCGGTAACGCGCCTTACCGTCGCGCACATGCTGGAT -GGCGTCGTTAATTTTCGACATCGGGAACAGTTCGGTGGTCGGCGCAACCTTGCTGCGGGCGGCAAAACGC -ATCAGCTTACGCAGCTCATAAGGCGTGCCGGTAGCAGAACCAGAGACGCTGCGATCGCCCGCAATTAACG -TAAAGGCCGGAACAGACAGCGGCGTGAGAACCGCACCGACCGTATGGAAATTACCGCCATAGGTCAGCGC -CTCAAAATAGGGCTGCCAGTCGAGGCTGACGTTGACGGTGTTGATAATGAGATCAAACTGCCCCGCCAGT -GCTTTCAGTGCCTGCGGATCGCGGCTATTCACCACTTTATCGGCACCCATCGCCAGCACTTCCTGCTCTT -TCGCCGGATTAGAACTAAAGGCTGTCACCTCGCATCCCATTGCGTGCAGAAGTTTTATAGCGATATGCCC -CAGCCCGCCAATACCAATTACCCCAACGCGGCTGGTAGCAGTGATATGGTGCATCAACAGTGGTTTAAAG -ACCGTGATACCGCCGCACAACAGCGGCCCGGCGGACTCGATATCAATATTTTCTGGCAGTGGAATCACCC -ATTGCCAGTCCGCACGCAACTTCTCGGCAAAGCCACCGCGATTCATAATCGTCGGCACCGCACCTTGCTC -GCAGTTGATCTGATTACCGCTAATACAGGCGTCGCAGTGACCACAGCTACGCGCCGTCCAGCCAATCCCG -ACACGCTGACCGACCTGCAAACCTTTATCCTGCGCGGCGCTCCCGAGTGCCACCACGCGCCCAATCACCT -CATGCCCGGCAACCAGCGGATATTGTGAAAATCCCCATTCGTTATCGATCATCGACAGATCGGAATGGCA -GATCCCGCAGTAATCCACCTGCACTTCAACATCTTGTGGCCTCAGCTCACCGGGATCGTACTCATAAACT -TCCAGTTCGCCGCCCGCTTCTTTTGCGGCATAGCTTTTTATCATCGACATTTTTTGGTCCTTCTCTGGTG -TTGTTTGGGAAGTGTAGAGCATGGCAGGGCGGGGTGCCTGGAGTGTGACAAAGGTTACACATCGCTGTAT -GCAATGCTGAAAATTTCAGCACTTAGCGAGGTGCGAGCAAGCTGGCGCTTGCATGGTGGCGTGCGACAGG -TATAATCCACAACGTTTTCCGCATACCTCTTCAGTGCCGAAGTGGCGAAATCGGTAGACGCAGTTGATTC -AAAATCAACCGTAGAAATACGTGCCGGTTCGAGTCCGGCCTTCGGCACCAAAAGTATGTAAATAGACCTC -AACTGAGGTCTTTTTTTATGCCTGAAATCCAGTGTTTATCTATCTTTCCCGCTATATTAACTCTCTCAAG -GTCAACCGATATCAACGTACATCTACCAACATATGTTGGTACAGATGATGGTATTTCCGGTTCGATAATG -CTTGTACCAACAGGGAGGGAATACGATGGCATTAACAGATATCAAAGTCAGAGCAGCCAAGCCAACGGAT -AAGCAATATTAGCTGACTGATGGTGGCGGTATGCATCTGCTTGTCCATCCAAATGGTTCTAAGTACTGGC -GTTTGCAGTACCGTTATGAGGGAAAGCAAAAAATGCTGGCACTTGGGGTTTATCCTGAAATCACACTAGC -GGATGCCAGAGTACGTCGTGACGAGGCGCGTAAGCTGCTTGCGAATGGCGTCGATCCGGGAGACAAAAAG -AAAAATGATAAGGTTGAACAGAGTAAAGCACGAACCTTTAAAGAAGTCGCGATTGAGTGGCATGGCACCA -ATAAAAAGTGGTCTGAAGATCACGCCCATCGTGTGCTAAAAAGTCTTGAAGATAATCTTTTTGCAGCGCT -TGGTGAACGTAATATCGCTGAGTTAAAAACTCGAGATTTATTAGCACCTATTAAGGCCGTAGAAATGTCT -GGACGTCTTGAAGTGGCCGCTCGTCTTCAGCAGCGCACTACAGCCATCATGCGCTATGCAGTGCAAAGTG -GGTTAATTGATTATAACCCGGCACAAGAGATGGCTGGGGCGGTTGCTTCCTGTAATCGACAACATCGTCC -CGCGCTTGAATTAAAGCGCATCCCTGAGTTGCTTACAAAAATAGATAGCTATACTGGTAGGCCGCTAACC -CGATGGGCGATAGAACTCACTTTGCTGATCTTTATTCGGTCCAGTGAGCTGCGTTTTGCTCGTTGGTCAG -AGATCGATTTCGAAGCGTCTATATGGACTATCCCACCGGAGCGGGAGCCTATTCCTGGAGTGAAACATTC -CCATAGAGGCTCAAAAATGCGTACAACGCATCTAGTGCCTCTTTCAACGCAAGCTCTTGCAATTTTAAAG -CAGATAAAACAGTTTTATGGGGCCCATGACTTGATATTTATTGGTGATCACGATTCGCACAAACCCATGA -GTGAGAATACGGTAAATAGTGCGTTACGGGTCATGGGGTATGATACAAAAGTAGAGGTTTGTGGTCATGG -CTTTCGAACAATGGCCTGTAGTTCATTGGTCGAATCAGGTCTGTGGTCTCGTGATGCTGTTGAACGTCAG -ATGAGCCACATGGCGCGAAATTCAGTGAGGGCCGCGTATATCCATAAAGCAGAGCATCTGGAAGAACGGC -GATTGATGCTACAGTGGTGGGCCGATTTTCTGGATGTAAACAGAGAAAGGTTTATCAGTCCATTTGAATA -TGCAAAGATTAATAATCCATTAAAACAGTAATCATCCCGGGCAAATGCCCGGGAATTATTCTAGGATTAT -TTTCTTTGTTAAAAAAGACAAACGGTATTAACTGATGTATTTACTATTTACCGCTCCCTGCAGGGGGGAT -TATCAGAATCCGCGGTTATTCATTATTTATATACATTCAATAAAAAAGTAACCTCATAAAAAATCCTGTA -CTCACAGGGTGATGCGGGATAACTGACGTAAGGAGTGCTGCAGGGATTTGATGGTCCCTTGTAGACTGGC -CCCCTGAATCTCCAGACAACCAATATCACTTAAATAAGTGATAGTCTTAATACTAGTTTTTAGACTAGTC -ATTGGAGAACAGATGATTGATGTCTTAGGGCCGGAGAAACGCAGACGGCGTACCACACAGGAAAAGATCG -CAATTGTTCAGCAGAGCTTTGAACCGGGGATGACGGTCTCCCTCGTTGCCCGGCAACATGGTGTAGCAGC -CAGCCAGTTATTTCTCTGGCGTAAGCAATACCAGGAAGGAAGTCTTACTGCTGTCGCCGCCGGAGAACAG -GTTGTTCCTGCCTCTGAACTTGCTGCCGCCATGAAGCAGATTAAAGAACTCCAGCGCCTGCTCGGCAAGA -AAACGATGGAAAATGAACTCCTCAAAGAAGCCGTTGAATATGGACGGGCAAAAAAGTGGATAGCGCACGC -GCCCTTATTGCCCGGGGATGGGGAGTAAGCTTAGTCAGCCGTTGTCTCCGGGTGTCGCGTGCGCAGTTGC -ACGTCATTCTCAGACGAACCGATGACTGGATGGATGGCCGCCGCAGTCGTCACACTGATGATACGGATGT -GCTTCTCCGTATACACCATGTTATCGGAGAGCTGCCAACGTATGGTTATCGTCGGGTATGGGCGCTGCTT -CGCAGACAGGCAGAACTTGATGGTATGCCTGCGATCAATGCCAAACGTGTTTACCGGATCATGCGCCAGA -ATGCGCTGTTGCTTGAGCGAAAACCTGCTGTACCGCCATCGAAACGGGCACATACAGGCAGAGTGGCCGT -GAAAGAAAGCAATCAGCGATGGTGCTCTGACGGGTTCGAGTTCTGCTGTGATAACGGAGAGAGACTGCGT -GTCACGTTCGCGCTGGACTGCTGTGATCGTGAGGCACTGCACTGGGCGGTCACTACCGGCGGCTTCAACA -GTGAAACAGTACAGGACGTCATGCTGGGAGCGGTGGAACGCCGCTTCGGCAACGATCTTCCGTCGTCTCC -AGTGGAGTGGCTGACGGATAATGGTTCATGCTACCGGGCTAATGAAACACGCCAGTTCGCCCGGATGTTG -GGACTTGAACCGAAGAACACGGCGGTGCGGAGTCCGGAGAGTAACGGAATAGCAGAGAGCTTCGTGAAAA -CGATAAAGCGTGACTACATCAGTATCATGCCCAAACCAGACGGGTTAACGGCAGCAAAGAACCTTGCAGA -GGCGTTCGAGCATTATAACGAATGGCATCCGCATAGTGCGCTGGGTTATCGCTCGCCACGGGAATATCTG -CGGCAGCGGGCTTGTAATGGGTTAAGTGATAACAGATGTCTGGAAATATAGGGGCAAATCCACCTTGTGC -TGATATGAATACGGATATTTTATACAGAATACTTTTCAGTACAAGCGACTGTATTACAGTCTGCCATATA -TGATTACCTGTGATCAGGAAGAATAAGTGGCTGAGGTTTCAAACTGTCTGCCGGTATATTCCTCTCTCCC -TTAAAAACCATAACAGGTTAGTTATCTTCGTCTGTCAGCGGATTGAATGGCGGTATATTTTCAGTACAAA -TACCGGTCATCCACTGAAAAATACCTGCGAAATGACGGGCACTGATTTTTCTACTGACGGGCTGATGAGA -CGTTATGTCACTGGCGGTAATAATCAGTGGCACACTGTAGCCTCCCTGCACATGACCATAATGATGAACA -GGATTGGCACTGTCGCTGACCGACAGCCCAAGGCCAGAAAAGTAAAGCATGGCGAAATGACGTGAGTACC -GGCGAAGGATACCATCAAGCTGGCCAAGAAAGTTATCCAGTTTACTGATGCTGGCGAGGTAACAGGCAAT -TTTTCGGGGATACTGCTCCAGGTAATTATTCGGCTAGGAGTTAAGGCTGTCACACGGATTTGGATGAGAA -CCCATCATGTGCAGGAAAATTATCTTCGGAGAGGATGTATCCGCCAGCGCACGTTCTGTTTCCTGTAACA -ACAGTTTGTCATCTGTTTTACGGGAAGCGAAGCTGCCTTTCTTGAGGAAAGTGGCATGCTCCGCATCAGA -AGCAATAACAGAGATGCGTGTGTCATGCTCCCCCAGTTTTCCTTGATTGGATATCCACCATGTGCTGTAT -CCTGCTTTTGCTGCCAGCGCCACCACATTGTTGCCGGAATCAGGGTTCTGCTCATAGTCATAAATCAGTG -TCCGGCTCAGGGAAGACACTGTACTGGAGGCTGTCGAGGTATAATCGTCAATAAATAAACCGGGTGCCGT -ATTCAGCCACGGTGTGGTTGGTACGGGATAGTCATACACTGACATATAATCCCTGCGCACACTCTCACCA -GTGACAATAACAATCGTATCATATAACGGTGCTCCCGGCTGGATTTTCCAGTTGTCAGCCCCGTGCTACT -CAGTTGTTCATAACGCTGCATTTCACGTAATGTGTCAGTTGTCCCCACAACTGTTCCTTTAACCATCCGC -AATGGCCAACGGTTTACAGAGCATAATACGAATAGCCGTAGAGCCAGCCAGTTACGGTGGTCGCGATGGT -GTGTCCGCCAGAAAATCACCACGAATACCAGAATCGCGGCACTGACCAGAAAATGATAAACAGGAAACAC -GGGGCGGTTCACTTTGCTTTCTCCTGTAGTGTTTTCTGTAGGTTCTGAACCGGTTCTAGCGGGGTTGTGA -GGCTGATGGCAATCGCCGGGCTCTTCCTGCATGTTACACTGGTACTGCAAGAGGGGGCCTTCGCTCCTCT -GACATTACTCAGTATTTTCACTACTACACCCCATCTGCCATCCATAACAACCGATTCACCCCCTCGCGAG -GCGTTGTTGCCCGTCACCCGGACAGACACCGTTATGGACTTCTCTTGTTGCACGATCGATCAATTGTTAT -GCATGCTGACACCACAACCCCGGTGGGTATGACCGATGCCTTTCTCACTCTCTTCCCGGTCATCGTCGGC -CTTCCCCGTTATTGTGGCGTGTCAGCACCCTCGACGGCATTTCGATGGCTGCTCAGTGTTCACTCACGTT -ACGGCCCGCATAACCCGTTGACTTCCTGAAGAAGTCGTTTCAGGGAGAGATTCAGCCCTTTTGTTACCTC -CTGGACCGCTTCTTGTCCTTCCAGTCGGAGCGAGAGTTAGCCGGGGCGGACTTTCACCGACGGAAAGATC -GTGCATTTCAAGGCACACACAACAATATCTGCGAGCGTGCTATCCGTCCGGTCGTTATGGGACGAAAGGC -CTGGTTGTTCGCTGGTTCACTGGTGGCCGGGAACCGCGCGGCACAGATAATGAGCCTTCTGGGAACCGCA -GTCTGGAGCCACATGCTTGGCTGACGGACGTCCTGACGCGTCTGCCGGAGTGGCCGGAGGAGAGGTTGGC -TGAGTTACTGCCTCTTGAGGGCTTTACCTTCTTCGGGTAAGTGATACCTGCCGTCAGGTGTTTGTGCACC -GGGCCATAACCTGCAGTTGGGAATTGAACGCCTGACAACAGGAAATGAGCTAGAGCAGTAAACACGCGGG -CTGACAATGGGTCAGAATATGAGTTAGCCCGGCGTTATTCCTGGGGTCAGTACTTCAGATCTAGCCTCCG -GTACCAGACTAGCTAGCCCCTACGCAACCAAATAAATCAACCATCGTCAGAGTGCAATCGTTCATATACA -CTGTCGGTGATGCGCTAAAAAATGCGTTAATGTTGAGTTCCTCGAACCCTTACCAATTAAGGGACATAGC -CAGATACGCAACTGGCTGATGCAAGCAGTCTAATGTCTTTAGATCCGCTGGCCTGCGGGCATGACAATGT -CAAACAGTCAAAGATTGTGGCGTTGACGGTCAGTCTTGGGGACAAAAAAGCTCAGTATTCTCGTTGGCAA -CCAGATAATTTAACAGTTGATGCTGAAACGAAATAGGCATCTTGGTTCTGTAATGCCAGTCAGTTAAGCA -ACTGACTGGCTCTTTTTCGGGGCTGTGGGGTATTTCCAGGGCCTCTCCTTTACCACTCTCGGGAAGGCCC -TTTCCCTTCTTGTCGGTAATTTCACAAGTTGTCCCATACTTGCAAGATCGCGCATCAGCTCCGGTATACG -TCCCGGTGAAGCGCCCTGCAATGTCATCAGCATTCTCATCACCATTCCGCATGATTCTGAGAAACTCAGT -TGATTCGGCCAGTAACCTTTCAGATGTTCCGCCATTTTAATCATCTGATATCTCACCAGATTATAAGCCA -GTAAGACACCCCACAGCTCTTGCTCCACAAGCTCCGGCTTTTTACTTCTCAGCGTCAGCCTGCTCCGTTG -CATCGTCTGTTTTATCTCCCTGTATCCCAGTTCGATTTCCCAGCGATGACTGTACAGATCCCCCATTTCT -CCTCCGGGGAAGCGCATGGCGTCCGTCATCGACGTCAGCAGATGGCAGACTTTTCCTTTGCGCGTCACGG -TCAGCAGGCGGGCAGTCACTTCATTTCCCAGTCCCGGCCACTTTTTTCGTGCCTGCGGGCTGGTTTTCAG -CTTCACCAGATGATCGCCTTTACCCAGTTTTCTGATCTCTTCATATTGCGCTCCCTTTCTGAGAGGTATC -ATCCAGTGGCGGTGTTCTCCCGCCAGGCTCCAGGCATTTAACAGTCCCAGTGAGTAATAACCTTTATCCA -TTAACGTCAGAGTGTTATCGCCGGTTTGTTCTATAAGTTGCTCAGCAAGCTCATTTTCGCTGTTCTTCAT -CGTGCCGAAGGCTGCAGCCGTCAGCAGATGGCTGGTCAGTTCCATCTGGCAGACCATTTTGACCTGCGGG -TAGAGCGCCGGGTTCCCGGCATGTGTCTGGCGGGGGAAGGCTGCATCGTTCTCTGGTGTATCCGGTGTGC -GCCAGAACACACCATCGATGGCCAGCAGGGTCAGGCCGCACCAGTGCGGATGCGGCGTGGCGTTATGCCA -GAGCTGCGCTGTTTTCGTGAACACGCGGCGGACAGCCTCACTTCCCAGGCGCTGGCGGGCCTGAATAACG -GCACTGGGGGCAACGAAGGGGCGATTGCCCGGCAGCATGATGTCCAGGCGATTCACAATCTGGTGAAGAG -GTTCTTTACGCTCAAGCGCCATGCCAACAATACACCAGACCATCATTTCGAGGGGAAGACGGCGCTTGCG -TAGCGTTACAGTACCTGATTCGGCAAGGCAACGAGAGATGAGTTCGGGGTCGAGGTAATCCCCCAGAGAA -GTCAGTGGGTTACGCAGAGAATCGTAACGGGATACCAGATCAAGAGCCTGTCCAATGTGCATAAAAAAAT -CCGGAAACAAGTGAGCGTTTCCGGATTCTTACACAGCCACTGGATCGGTCAACTGATCCTTAACTGATCG -GCATTAATCTTGGTTCTGGTGTTTGTAACAAACTATCAGCTACAAAAATATGCTCAATTTGTGACATCAG -TAACAAAACGCGTTTTGTTATGTGGATTGCTTGTTTTTTGATCTGGTATAACAGGTATAAAGGTATACAG -AAAAGCAAAGAAATACTGCAAAGGAAAACAGCTATAACGTAAGCTAAAGTAATAACCTCTCAGTCTTTCC -TCATTTGACGAAGGGAGTTTTATTCAACCTGAACGGACTACGAAAATGAGCACAATGAATAAGTCAATTT -TTGAAGCAGGGTTGAACTGTGCCAGTGGTGGAATATCTGGCGAACATTGTTTTTTGTTGGTGACCCAAAA -CTGTAGGTGGGTATCAGTTTTATCTTTCATAGAGTGAAATATGTTAAGAAGAAATGGAGGAAAAGATTGT -ACTGATTAGGTATTGATAACAATCAATAGTACTGGCGTATTTGAAGACAATATAATTATTTCTGGATATT -GTTGAGGCTCCCTAATATTTACTTTAAGGGCTATATTAGAATAACACAGGAAACAAATATGGCAACAGCA -TGGTATAAACAAGTTAATCCACCACAACGGAAAGCTCTTTTTTCCGCATGGCTTGGATATGTATTTGATG -GCTTTGATTTTATGATGATATTTTACATTCTTCATATTATAAAAGCAGATCTTGGCATTACGGATATTCA -GGCTACTTTAATAGGGACAGTGGCCTTCATAGCCAGACCTATTGGAGGTGGTTTTTTTGGTGCCATGGCT -GATAAATATGGTCGTAAGCCAATGATGATGTGGGCAATTTTCATTTACTCAGTCGGAACAGGCCTTAGCG -GTATTGCTACAAACTTATATATGCTCGCAGTTTGCCGTTTTATTGTTGGCTTAGGGATGTCTGGTGAATA -TGCATGTGCTTCAACTTATGCGGTAGAAAGTTGGCCTAAAAATCTTCAATCTAAAGCTAGTGCTTTTTTG -GTAAGTGGTTTTTCTGTTGGAAATATTATTGCGGCACAAATAATCCCTCAGTTTGCTGAAGTATATGGAT -GGAGAAACTCTTTTTTTATAGGCCTGTTACCAGTTTTACTAGTTCTTTGGATCAGAAAAAGTGCTCCAGA -AAGTCAGGAGTGGATTGAAGATAAATATAAGGATAAATCAACATTTTTGTCTGTCTTCAGAAAACCACAT -CTTTCAATCTCTATGATCGTTTTCCTCGTCTGTTTTTGTCTATTTGGTGCAAACTGGCCGATAAACGGAC -TACTTCCTTCCTACCTGGCAGATAATGGAGTTAATACAGTGGTCATTTCAACTCTGATGACAATAGCAGG -TTTAGGAACACTGACAGGTACAATATTTTTTGGTTTTGTTGGTGATAAGATTGGTGTAAAAAAAGCCTTT -GTAGTCGGTCTAATAACTTCATTTATTTTCCTTTGTCCTCTTTTTTTTATTTCTGTGAAAAACTCTTCTC -TTATAGGATTATGTCTCTTTGGATTAATGTTTACAAATTTAGGTATTGCAGGGTTGGTTCCAAAATTTAT -ATATGATTACTTTCCAACAAAATTAAGAGGATTAGGGACCGGTCTTATTTATAACTTAGGGGCAACTGGA -GGAATGGCCGCACCTGTATTAGCTACATACATTTCAGGATATTATGGCTTAGGTGTTTCATTATTCATTG -TTACGGTTGCATTCTCTGCCTTATTAATTTTGTTAGTTGGTTTTGATATTCCAGGTAAAATTTATAAACT -ATCCGTGGCTAAATGATTGGAGGCTTTATGATTAATTATGGCGTTGTTGGTGTTGGATACTTTGGCGCTG -AATTAGCTCGTTTTATGAATATGCATGATAATGCAAAAATTACATGTGTATACGATCCTGAAAATGGAGA -AAATATTGCCCGTGAATTGCAGTGTATCAATATGTCAAGCTTGGATGCTTTAGTCTCAAGTAAATTAGTC -GATTGCGTGATCGTAGCCACCCCAAATTATCTGCATAAAGAACCAGTAATTAAAGCAGCAAAGAATAAGA -AGCATGTTTTTTGTGAAAAACCAATTGCATTAAGTTATGAAGATTGTGTGGATATGGTCAAAGCGTGTAA -AGAAGCTGGTGTGACCTTTATGGCCGGGCATATTATGAATTTTTTCAATGGGGTTCAATATGCACGGAAG -TTAATTAAAGAAGGTGTTATCGGCGAAATATTATCATGTCATACTAAGAGAAATGGCTGGGAAAACAAAC -AAGAGAGACTTTCCTGGAAAAAGATGAAAGAACAATCTGGTGGACATCTATATCATCATATACATGAGTT -AGATTGTGTTCAGCATTTACTTGGAGAAATACCAGAGACGGTTACTATGATTGGTGGAAATTTGGCCCAT -TCTGGTCCAGGATTTGGCAATGAAGATGATATGTTATTTATGACCTTGGAATTCCCGTCAGGAAAACTAG -CAACCTTAGAGTGGGGGAGTGCATTTAACTGGCCGGAACATTATGTCATCATCAATGGAACTAAAGGCTC -TATTAAAATTGATATGCAAGAAACAGCAGGGTCACTTAGGATTGGCGGTCAGACAAAGCATTTTTTGGTC -CATGAAACACAAGAAGAAGATGATGATCGTCGGAAAGGCAATATGACCTCAGAAATGGATGGCGCTATAG -CATATGGTCATCCAGGAAAAAAAACACCATTATGGCTTGCCAGTTTAATAAGAAAGGAGACGTTATTCCT -CCATAATATCCTCTGTGGTGCAAAACCTGAAGAAGATTATATTGACCTTCTCAATGGTGAGGCGGCCATG -TCGGCGATTGCTACTGCTGATGCTGCCACTCTTTCAAGATCGCAGGACAGGAAAGTGAAAATCAGTGAGA -TCATTAAACATACATCAGTAATGTAAAAACTATACGCCTCTTGATTTAATTCAGGAGGCCTTTTATGTAT -GATCAAGAATTTTATCTTCGATAATCTCATAATTTTAGCAGTGCCATTTATGATAAAAACATCCCTTAAA -ACCAATCTAATCTTTTTCTTCCTCTGTGTATTTGTTCCCCATATGGCGTCATAATTTACGCTACGTAATA -CGGGATAGTTACGATACGCAGCGATAGCGCTAAGTTTTAGTTAAAATCCCCCATCAGCGGGATATGGGGA -TCTCTGGGAGGTTCAGGTTTTAGCATCGCGACTTTAATACGACAGACGCTGGTGACGATGATGCCAAGTA -GTGACTCTTCCGAATAAGGTTCCCACTGACCAATTGGCGCGCGCTTCGCAATAAAATCTCCCTTCGCCCA -GTATTGGGAAAAGTAGATACATTCAAACTGTGTACGCTGTTTCGTCTCACAGTTCACGACATTGCTGGCC -GATGAGCTGACCATTGGGCCTATCCGGGCTGTCCCGATGGATATTACGCCGAAGTATGTGGGAATTGCCA -GCGGATTGATGAACGCCGGTTCCGCTGTCGCCGACATTATTTCACCTATCGCCTTTGGCATTATTATCGA -CAAAACAGGCAACTGGAGTTTACCATTCTACGGTTCCGTCGCATTGCTTGTTATTGGTATATTCCTGACG -TTCTTCATGCGTCCAGATAAGTCATTGTAAAAGTCGAATCAGGGCTGAAGTGGCACACTGAATTTGGCCA -CCTGAACAGAGGTGATATGCTCACCTCAGAACAACACAGGTGCTCCAATGAAAAAAAGAAATTTCAGCGC -AGAGTTTAAACGCGAATCCGCTCAACTGGTTGTTGACCAGAAATACACGGTGGCAGATGCCGCGAAAGCT -ATGGATGTTGGCCTTTCCACAATGACAAGATGGGTCAAACAACTGCGTGATGAGCGTCAGGGCAAAACAC -CAAAAGCCTCTCCGATAACACCAGAACAAATCGAAATACGTAAGCTGAGGAAAAAGCTACAACGGATTGA -AATGGAGAATGAAATATTAAAAAGGCTACTGTAGATTCAATCTGTCAATGCAACACCCCTTTCAATTATC -TCTTTCGGTGTTTTGAACTTCAGTGTCTTTCTCGGTCTGTTGTTTAGCTGAGCAGCAACCAGATCTAGTT -CATGTTGAGTATATTGGGCAAGACATGTCTTTTTAGGAAAGTACTGCCGAATTAGCCCATTTGTGTTCTC -ATTTGTTCCCCGCTGCCAAGGACTCTGAGGATCGCAGAAGTAAACTTTAACGCCGGTGCTGACAGTAAAT -TCTAGATGTCTGGCCAGTTCCATTCCTCTGTCCCATGTCAGTGATTTTCTGAGTTCTGACGGTAAACTCA -GGAATTTGTCGGTAAGAGCCTGATTTACTGAGACAGAATCTTTGCCCCTGAGTCTAAGGATGATCGTATA -ACGTGATTTTCGGTCTACAAGTGTGGCTATATGAGAGTTTTTTGTACCTGAGACTAAATCGCCCTCCCAA -TGCCCTAGAGAGCGTCTGTTATCGATATTTCGGGAACGTTCGTGAATTGGTGTTCCGTTCACTATGTTAA -TCGTACCTCTTTCGCCTTTGCGGGTATGACGCCTGCCATGGCGAAGGCTATGCGACCGTCGCAGATGCTG -TATATTCAGGTGGTGTAGCGCTTCACGGCTACGAAAGTACAGCGTTTTATAAATTGTCTCAGGTGATATT -CGCAGCGTTTTTTGACGTGGTTTTGTTCGCCTTAACCATCCTGATATTTGCTCTGGAGACCATTTCATCT -CCAGCTTTTCCAGAACAAGCTTTCGCAATGGTAAATTTTGATCCAGTAAGCACGGTTTTGGCCTTTTCGC -CATTCTGTTGGCTCGGTTATTAGCATCAACAGCTTTGTAATAGCGTCTGCCCCGATTACGCTGAACTTCA -CGTGAGATCGTCGAAGGACTGCGATTCAGCGCAGTAGCTATCGCACGAATGCTCATTTTGGCTGACAAAC -CAGCTCGTATCTCCTCGCGCTCAGACAGTGTCAGGTGAGCTACAGCCCGCTTACGCTCATGGGGTTTTAT -GCCGCCAGTATCCCTTAACATAGTGAAGATCGTTCCGGGTTTTGAACCCAGGATATTCGCTATTTCACTG -AAGCCTGTTCCGTTCTTCCATAGTTCAAAAACAGAGGCTTTTTCCTCTGCTGTAAATGTTCGTCTCATTC -AAAAAACCTCCGCAACCCCATGTTTTCACATAACTGTTGCGTTGACCAATTGAATCTACAGTTGCTTTTT -TTAATATATCTCGCTCAAGGCGAGCTTCATTTAACGCCTTACGCAGTTGCAGAATTTCAGATTCCAGTTC -AGCCACCGTGCGGGAACCAGGAGTACCGAGCCCTTTTCTGGCGGCGGTAACCCATTGTCCTAAAGTGCCT -TCAGGAAGAGATAATCGGGAAGCGCCTTCACTGATCGAAAGTTGATTTTCAAGAACCGTTCTGACAGCTT -CGGCTTTGAACTTTTTAGAGTAACGTTGGGTTTTTCTGCTCATTATTAGCTCCTTCTGATGCCATTCTAT -TTCAGGAAGGAGTGTCCGTTAAACTCAGGCTACCTCAGGAAAAACCGTCCTGAAAAACCAGACGGCAGAC -GGGCTGTATTACGCAGTCAGGTACTTGAGCTACATGGCATCAGCCACGGTTCGGCCGGAGCAAGAAGCAT -CGCCACAATGGCAACCCGGAGAGGCTACCAGATGGGACGCTGGCTTGCTGGCAGGCTCATGAAAGAGCTG -GGGCTGGTCAGCTGTCAGCAGCCGACTCACCGGTATAAACGTGGTGGTCATGAACATGTTGCTATCCCTA -ACTACCTTGAAAGGCAGTTCGCCGTGACCGAGCCAAATCAGGTGTGGTGCGGTGATGTGACCTATATCTG -GACGGGTAAGCGCTGGGCGTACCTCGCCGTTGTTCTCGACCTGTTCGCAAGAAAACCAGTGGGCTGGGCC -ATGTCGTTCTCGCCGGACAGCAGGCTTACCATGAAAGCACTGGAAATGGCATGGGAAACCCGTGGTAAGC -CCGTCGGGGTGATGTTCCAAGCGATCAAGGCAGTCATTATACGAGCAGGCAGTTCCGGCAGTTACTGTGG -CGATACCGGATCAGGCAGAGTATGAGTCGGCGTGGAAACTGCTGGGATAACAGCCCAATGGAGCGCTTCT -TCAGGAGTCTGAAGAACGAATGGGTGCCAGCGACGGGCTATGTAAGCTTCAGCGATGCAGCTCACGCAAT -AACGGACTATATCGTTGGATATTACAGCGCACTAAGACCGCACGAATATAATGGTGGGTTACCACCAAAC -GAATCAGAAAACCGATACTGGAAAAACTCTAACGCGGAGGCCAGTTTTAGTTGACCACAACAGACTACCT -GAAGGGAGCCGCGGTCGCCTGGCAGTTGCAGTAGCAGGAGATCATCCAGCCGCAGTACAGGTCACGATGA -CTCTGGTTAATGATACCGGCTTTGACCCCGTATTTTCCGGCTCTATCGCTGAATCATGGCGTCAGCAGCC -GTGCACACCATCCTATTGTTGTGACTGGGAGGCTGCCACCATGCTTCGCGCTTTCCCTCTGGCGAAAAAG -GGAGAAGGACGGGCCCGTCTGCCTTCACTTTATGCCAGCTTCGGTAAGCTGGGTGAGACACCGACTCATG -AAGATATCATTGATAACAATCGATCCATCAACTGGCCTGTATAACGTGGCTGCCGGTGATTAAGAAAGCT -GCACCTACCTAAGTAGTAGCAAACGCACACTTTTTAGAAAAATCGATGGTCAGAAACTGGATTAGCAATT -CCGTTCCATGGTTGCTTTTGATTTACGTTGGCGTCTGATCATTGATTTATCCTCAAAAGCCCAACCTCAT -TGGTAATGAACCAGCTCCGTGAATGTCCGCTCTGGCACAGAGCGAAATTTTTTGATCTCCCCCCTGAAAT -CTAAACTTAGTCATGTCACGTTTTTGGGTTTCTAAAATTTTAACTTCGCGTTTTTCGTTGCCGTAAGGGT -TATACAGAAATGTCCGTTAAGCAGAGTTCAAAATTGATTGCCGTGATCACGACTGGTTTGAAAGCCGCGC -CCAAGCCTGTACAGCTCTGGTTTGCGTTGATTATGAACCTGTCAGCCTAAAGCAAGCGGATGGACGATGA -GTATTGGTAATCTTTCAGAGTCCGGAAAAGTTCAGCCCCAGTCTGAACAGGCTTGCTGGCGCCAGTCCAG -TTTCATTCAGTCGTGGTTTGGTTCTTACGGCCTGTGCAATCTACCTCATTAGGCACATCGGCCTGCCAGA -TACCGGCTCGGGGTGTATTTCCGCTTCCACGCTGAATACTGTTCTCAGCAATCCTGGGGTCATCACCTCT -TCTGGTGTGCCTTGCGCCATAACATGTCCGTTTGCCATTACCACCAGTTGATCGCAGTACCGGCTAGCCT -GATTAAGGTCGTGCAGCACAGCGACCACCGTTTTCCCCTGAGTCCGGAGTTCGCCCATCAACCGCATCAG -GTCCACCTGGTGATTGATATCAAGATAGGTGGTTGGCTCATCAAGTAATACAACGGGCGTATTCTGGGCC -AGGACCATTGCCAGAAATGCGCGCTGGCGCTGACCGCCGGAAAGCTCGGTTAACCGACGAACGGCAAGAT -GATTGATCCGGGTCTGGTTCATGGCGACATTAACTCGTGCATTGTCTTCAGCGGAGAGACGCCCCCAGAG -TGACAGCCAGGGATTACGACCATACGAAACCAGCTCCTGGACTGTGATCCCCTCTGGCGTTAAATGGTGC -TGAGGCAGCAGCGAAAGCCTGCGGGCCAACTGGCGCGATGAGAGCATATTTATGGGATTATCGCCGAGAA -ATACGGTGCCAGACTGCGGCATTAAAAGCCGCGAAAAACAGTTTAACAGCGTCGATTTCCCGCAACCGTT -AGGACCGATCAGGGCGGTGATCTTCCCCGTTGGCAGTGAGAGTGAAACGTCGTTAAGTACCTTGTCTGTC -CCGTAACTGACCGTCAGATTTTCAGTTCGTAAAGTCATTTATCGCATTCTCACAAGCAACCAGACAAACC -ACGGCGCACCGATAATGGCGGTCAGCACGCCAACCGGGAGCTCCAGTGGGGGATGAATAATTCTCGCCAG -CAGATCGGCAACCACCAACAGCAACGCACCTGTCAGGGCCGAAACAGGCAGCAGTCTGCGGTGACGTCCA -CCGGTGATGCTACGCATCATATGCGGCACCACGAGACCAATAAAGCTAATCGGGCCGCAGGCGGCCACGC -CGGTAGATGTCATGGCGACAGCTAGTAACAAAGCCCAGAATCGGGTATGGGGCACCGACACACCGAGCGT -GGTGGCGCGCGCATCGCCGAGTGCAAGGAGGTCGAGATCGCGGCAAAAACTCAGGCTCAGCGGCAGAAAT -AAAATCATCAGCGGGATGGCAATCTTCACAAAGCTCCAGTCACGGCCCCATAAGCTGCCGGTCAGCCACA -GCAGGGCGTTGTTCACATCCTGCGGGCGCGAGAGCATCAGATAATCCGTCAGGCTGGCCCAGCATGCAGA -AAGCGCCACGCCGGTGAGCGCCAGCTTCATCGGCTGGTGGGTCTTTGCCAGCATCTTCAGCAATATCAAC -CCCGCCATGCCGCCCGCAAAGGCCAGCAGCGGCAGCACCATCACGGGCAGTGACGGCATAAGAAGTAGAG -CCCCCACAGAGGCCAGGCTGGCGGCATGGTTAACACCGAGAATATCCGGTGATGCCAGAGGGTTGCGCAC -AATCCCCTGTATCAGCACGCCCGCCACGGCGAGGGCTGCACCGACAAACAGTGCCAGCAGCAAGCGCGGC -AGTCGGTACTCCATCAATACATAATAATGCTCGTGTCCGGCCTGCCAGTCGGTCAGCAGCGCGCGCCACG -GCACGGGGATCACTCCCATATGGAGTGATAACAGCGCACAGCCCGCCAGGGCAAGGGTGATGAAAATAAC -CAGCGCAATTTTCATCCTCGCCTCCTCACAAGCCAGACAAAGCAAGGGCTGCCAATCAGCGCCAGCACTG -CGCCTGCGGGCAGATCTCCGGGGAAGGCCAGCGCGCGTGCGAGTACATCTGCCAGCAGCATCAGCGTGGC -CCCCAGCAGCATGCTCACTGGCAGTACGTTGCGCTGATCGAAGCCTGCCCAGAAGCGCGCCAGATGTGGC -ACCAGCAGACCGATAAACGCCACCGGACCTGCTACGCTGACGCACGCACCAACCAGAAGCAGCACTAACA -TATTGATGACCAAACGTAGCCTCGTCAGGTTCACTCCCAGCGTATGGGCGGTGCTGTCGCTGAGGTTGAG -CAGGTTCAGTTGATTCGCCAGCAGCAACACGACAGGGACTGCAGTGACCACCACCGGCAAGAGCTGCCAG -ACATCCTGCCAGCGGGCGTGGGACACTCCGCCTGCCAGCCAGTAAAAGATGCCGTAAGCATGATCTTCGG -CCAGCAGCAGGGTGATGCGGGTAAGGCCCATACAAAAGGCCGACAGCGCGATACCCGCGAGGATCAGTTT -GTTTCTGTCATGGGTATGACGAAATCCGCCTCCTGCGGTCATGACCAGCAGCCAGCTCACGCCGCCCCCG -CATGCCGCGATGAATGACAGAGAATAGCCTGCAATCGGCGTCGGACTCAGCGCGCTGGTAAGCGCCATAG -CCAGCGCCGCGCCGCTGTTAATGCCGAGCAGTGAAGGAGAGGCCATTGGGTTGTGGGTCAGGGTTTGCAG -CAGCGTGCCCGCGAGCGCCAGGCTTGCGCCGATCAGAACGGCGACCAGGCTTCGTGGCAAACGAAGGTTT -TGCACCAGCGCTTCTGGTAGCGTTGGCGTGTGTCCAGGCAGCAGGGCGCGGGTTGCATCTGCTCCGGAAA -CAGGAATGGCCGAGTAGCAAAACAGACTCAGCCAGAAAATAATAATAAGTGCTGCAACGGGAAGCCCCCA -CAGCAGCACCGGGTGTTTTATCGCGGTCATTTCACAACGGTAAGCGGCTGATGGTGGAAGATTTTTACCG -TGTCAGCGGCAATACGCTCTGCAGCAAAAATACCGCGCATCCGCGCCCAGGTGTTACTGTCGACCGAAGC -AACCTGCTGCTTCTGCGCGGCGGTTAACATCTGCCAGAGCGGATCTTGTTGCCAGCGTTTAACAATGCTC -TCTTCGCGATAGTGGGCAACCAGCAGCCAGGCAGGATTGACCGCCAGCAGTTGCTCCAGGCCGATGGACG -GCATGGACGCACCCGCCATCGCAGCGGGAACGTTCAGCCCCAGAGAGGCCAGCACGCTGCCGGTCCAGGT -CTCCTGAGTATGCAGGTTGAATTGCTGTTCGCGTGATGTGCCAAAGGCCACGCGTGTCCCTTTGGGAAGC -TGGCTGGCCCACTGCGCCATCCTCTCTTTATGTTGTTCCAGACGTGCCTGCATCTCTCGCTTTTTACCCA -CCATTTCGCCGATGATAGCCGCAGATTGCAAATTTTCAGCGTAGGTTTCGTTGCGGGACTTAAGCAGCAG -TACCGGCGCGATTTGCTGCAAGGCGATGTAAACCCCCGCATGGCGACTGCTGTCGGCAATGATCAGGTCT -GGTTTCAGAGCGGCAATGGCTTCCAGGCTCGGCTGCGCGCGCGTTCCGACGGACTGCCACGGTTTCAGGT -GCGCACGCACTTCGGGCAGGATGCGTTTTGCATCGTTATCGTCGGCAATACCGATCGGGATGACGTCCAC -GGCGGCCAGCGCATCGGCGAACGAGAGTTCCAGCACCACAATCCGTTGTGGCGTTTTTTCGAGTGTAAAC -GTGCCGTGTTCGTCCTGAACCGTGGCGGCAAAGGCGTGGCTGATCACCAGCAGCAGGCCTGCAAAAAGAA -AACGGATAAATGCCAACATAATCACATTCCAGCTAAAAGCCCGGCAAGCCGGGCGTTAACACATCAGAAC -TTCAACGACCCCTGCATATACAGCGTGCGCGGCTGGCCTGCATAGATGCCTTTGTTGTTGTCGTCATAAG -AGCGGATGAAGTAGTCCTGGTCGAAGATGTTTTTCACACCGAATGCCAGGTTCAGATCTGCCATCTGCGG -GCCAAAGTCATACGCCACGCGTGCGCCCCAGAGCATGAAGCCGGGAATGCGGCCGGTACTGCCGTCGGCG -CTCTCTTTCACCGTATTGGCGTTATCCGCAAACTGGCTGGACTGGAAATCGCTGTTCAGATTGAACGTCC -AGTTTCCTGGCTTGTAGTCCACGCCCAGCGTGCCTTTATGTTTCGGGGAGAATGGTACCAGATTGCCGTA -GGTGTCGCCTTTCTCGCGGATTTCCGCGTTCACATACGCATAGCTGGCGTAGATGGAAACGTTATCAAGC -GTTGGCGTTAGCGTACCCAGATCGTAACGTGCCTGCGTTTCCAGCCCGGTATGGCGCGTTTTGCCACGTG -CAGTGACGGTGTCGTTGGTCTGGTTGGAGTCGTACTGATTGTTAAAGTTAATCAGGAACAGCCCCATTTC -CGCCGTCAGCGCGCCGTCGTCGTAGCGGGTACCGAGTTCCCAGGTTCGCGCTTTTTCCGGTTCAACATTG -CCGCTTTGCACAGCCTTGCCAATCTGGCTGTACTGTACGGTGCCGAACGAGCCTTCAGTGTTTGCATAAA -GATTCCAGCTGTCAGTCAGGTGATAGAGCACGTTCAACGCCGGAAGCGGTGCGTTATAGCTCACTTCTTC -GTGCGTGCCTGTGATGGCGTTGTTCTGGTATGACTCGATATGTTCGAAACGCATACCCGGCGTGATGGTC -CAGTTGCCGATGTCGATTTTGTCATCCAGATACCAGGCGTGCGCCTCGGTGCCGGAACGCGTATCGCGGT -CGTAAGGGCTTGAGCCGGACGGCAACTGCCCGCTGCTGGTGGCGGTGTAGTAACGCATTTCATGCGTTGA -TTCATTCAAATAGCGATAGCCCACGCCCACTTCGTGCGCGGAAGGGCCGATCATAAAGATCTGGCTGTAG -CGTGGCTCAATACCGCGCACCCAGTAGTTACGCGGCGAGAGGGTGATGCGTTTGCCTTGCTCCAGGTAGC -CGCTGCGCAGGGTTTGGGTGTAGAACCCCTGAATGTTGAATTTATGCTGGCTGTCTGGCTGGAACTGGTA -GCCCAGGCTCGCCAGCTTGCGACGACCCCAGAAGCGGTCATACGGGCGGGTGGATTGCCAGCGATCGGCG -TCGTAATCCGCGCGAGACAGGCCACCGGGCATGTCGGCTTCACCGTCGTAATATTGCAGCAGGCTGTTGA -AGGTGTGCACCTCATCCGGCGCATATTTGCTTTTCAGCATCAGGTCGTCGATGCGGGTGGCGCTGTGCTC -GCGCCAGTCACTGCCGCGCGTGCCGGAGTAGAGCAGCGCGGTGCCAAAACCGTTGTCCGCTGTGCCGCCC -ACCATCAGGTTGTGCGTCTCTTTCGGGTTGTTTTGTGAAGAGGTTGGGCTGAGCTGACCTTCCACGCCCG -CCTCGATACCAAAGTCCTGCGGAATGGCACGGGTAACAAAGTTCACCACGCCGCCCACGCTCTGCGGTCC -GTAACGCACCGCACCACCACCGCGTACCACGTCAATGGCATCCATGTTGCCGAGCGAAACGGGAGCCAGT -GAAAGCTGCGGCTGACCGTAAGGGGCGAAGGGGACGGGGATGCCGTCCATCAGGACGGTCGAGCGGCTGG -CGAGGCGCGGGTTCAGGCCCCGGATGCCAAAGTTCATCGCCAGGTCGTGGCTGCCGGTGCCGTTGTTTTC -CGGCGCGCTGACGCCAGGGATGCGGTTAAGTACCTCACGCATGGTGGTTGCGCCGGTTTTGGCGAAATCC -TCACGGCGGATCACGTCACGCGCGCCAGCATGTTCAAATACGTCGTTTTCACGCGCATCACCCAGCCAGT -CGCCGACCACGGTCAGGGCATCTTCTTTTGGTGCGGGCGCGGGCTCCAGCGTCCAGCTGTTATTTCCCAG -CGGTTTTACCTGCAGTCCGCTGCCGTCCAGCAGTTGTTGCAGGCCGCTCTCGACGTCGTAATCGCCGTGC -AGGCCGTTGCTCTGCTTGCCGCGCGTCAGGCTGGCGTCAACCGAGAGGGTAAATCCGCTGTGTGCGGCAT -ACTGATTGAGCGCTTTATCGAGCGATCCCGGTGCGATATTAACCTGTGCAGCAAAAGCGGAAAACGAGAG -ACCGGCCAGCGGCAGCAGGCTCAGGCGAATGGTGTTAACCAAAGGTGTTGTTTTACGAAAAACGCGTAAC -GGCGTCATACCTTCCCCATCATCATTTTTGTTGTGTTCAGCTATGAGTCGAACGAGAAGGGTAAAAAGGA -CAATCGAAATAAGAATTATTTTCCTTACAGTGGTGAAATGTTTATCCAGTACCGCGTAATAGACTGAATT -TTAACGGGAAGCGTTTGCGCGATAACGTTCAGGATCGCATCGGTATTTTTCAGCGGGAACGTCCCGCTCA -GGCGCAGCCCGGCAACGGCGGGATCGCAGCGCAGCACGCCGTTGCGGTAACGGGTTAGCGTGGCTATCAC -CTCACCCAGCGGTTTATCGCTGAAGCTCAGGATGTCCTTCGTCCAGCTTGTACTCTCGTCATCCAGCGGT -TTCACTGCGCCAAACTCAGAGGCGCTGAACTGCAGGCTTTCACCAGCGTTCACGATGCGTTTTTGCGCGG -GGGCACTGGCGAGAAGCACTTCCACAGCGTGCTGCTGCACGTCAAGCTGCGTGAAATTATCCTGCTGGCG -GACGGTAAATTCTGTCCCTAAAGCAGTGAGCTGGCCCTGACGGGTCAGGACACGGAAGGGGCGTTGCAGG -GCATCTTTCGCGGTAGTAATGGCGATTTCACCGTACCAGAGCCGGACGGTGCGCTGATGCGCATCAAAAC -GCACATCCGCCGCGCTTTGGGTATTCAGCGTGAGCAGGGAGCCATCTTCCAGTTGCTGACGGCTGACTGT -GCCTTTGGCGGTGCGGTAATCTGCCCGCAGACCTTCGCCGGTTTCCGACTGCCAGAGCTGCCAGCCTCCG -CCAGCGCCGAGCAACAGCAGTAATCCTTTCATCACGTGACGGCGGGTGAGGCGGGTATCGTGCAACGCCC -GGCTGGCAACGTCGCCAGGCACACCGCCAAGCTGGTTGCGCAGGTTTTCAACCTGCTGCCAGGCCCACTG -GTTATCCTGATCCTGTTCATACCACTGTTGCCAGCGCGCTTCCTGTTGTGGGCTGACGCGCTCGCCGCTT -AGCACGGCATACCAGTGGGAAGCTGAACGCAGCGCCTGACGGCGGGAATCGGTTAACAAAGGATTCATAA -CCCATACTCCAGACGGAACAGCAGGCAGTGCTCGACGGCTTTCGCCACGTATTTTTTCACGGAGCTGATG -GAAACACCGAGTTTGTGCGCAATCTCGCTGTATGTCAGACCATCCAGTTGCGAAAGCAGAAACGCTTCAC -GTGTTTTGCCGTTTAGCCCGTCCAGCATGCTGTCGAGGAGTTGTAGGGTCTCGAGTTGGCTTTCGCGTTC -CTCAGGTGAAGGCGCTCCCCCCTCCGGCATAAGCGCCAGCATCTCCAGATACGCTTTTTCCAGCGCGTTT -CGGCGAAACAGGTCCACCATCACGCGTTTGGCGATAGTGCAGAGGAAGGAGCGAGGATCGCGGATCGTCG -AGAGCGTTTCGCTGACCATTACCCGCAAAAAAGTGTCCTGGGCAATGTCATCTGCATCAAAAGCAGACTG -GAGTTTGCGCGTCAGCCAGCTTTTCAACCAGCCGTGATGTGTGCCATAAAGCGACTCGAACGTTAAGGAA -GCTGTGGTAGTGGCGCGGTCAGACATGCGGAGTGCATCAAAAGTTAATTATCACGTAGTCATATTAATAT -GAGAATGGTTATCATTACAATTGGAAATAAAATTGTTTCCAATAGACATTTTTAACATGTTGTTTTTCTA -AGTGTTATAAGGTAGGTATAAAATGGGATGGAGCCTCTGCTTCTGGCATGTGTCGGTCAGAATGACTCAT -GATGTGGTCTGCTATTATTGACATCCTCACTGCCCTAAAGGATGGGGATTTCGGTAATGCTGCCAACTTA -CTGATTTAGTGTATGATGGTGATTTTAAGGTGCTTGCGTGGCTTCCATTTCCATCAGATGTCCTTCCTGC -TCCGCTACTGAAGGCGTGGTGCGTAACGGCAAAAGCACTGCCGGACATCAGCGCTATCTCTGCTCTCCTT -GCCGTAAAACATGGCAACTACAGTTCACTTACACCGCCTCTCAGCCCGGTAAGCACCAGAAAATCATTGA -TATGGCCATGAATGGCGTCGGATGTCGCGCCAGTGCACGCATTATGGGCGTTGGCCTCAACACGGTTTTA -CGTCACTTAAAAAACTCAGGCCGCAGTCGGTAACCTCGCGCATACAACCGGGCAGTGATGTGATTGTCTG -CGCTGAAATGGACGAACAGTGGGGCTACGTCGGTGCTAAATCACGTCAGCGCTGGCTGTTTTACGCGTAT -GACAGGATACGGAGGACGGTTGTGGCGCACGTCTTCGGTGAACGCACTCTGGCCACACTGGAGCGTCTTC -TGAGCCTGCTGTCGGCCTTTGAGGTCGTGGTATAGATGACGGATGGCTGGCCGCTGTATGAATCACGCCT -GAAGGGAAAGCTGCACGTTATCAGCAAGCGTTACACTCAGCGCATTGAGCGACATAATCTGAATCTGAGA -CAACATCTGGCAAGGCTGGGACGGAAGTTACTGTCGTTCTCAAAATCGGTGGAGTTGCATGACAAGGTCA -TCGGGCATTATCTGAACATAAAACACTATCAGTAAGTTGGAGTCATTACCGACCATGTTTATTTCATACA -TTGTGGGTATTGTTCTTATTATCGCCGCTAATCAATAAAATCCTGCCCCATATCTACATGGGGCAGTTGT -TCATTCTTTTAGTGTGGTAATTCACACGCCAGCAAAAACTCTGCCGTTCCTTCATCAACAATCAGGTCCG -TGACATATCCTCCCAGCAGGGCACCCAACGTTGCGTCATAGCCTCTTTCCCCACCAGCAAGGAAGATCTT -CCGTTCAATCTGCCTTAGCTGAGCCAGACTGATTCCCAGAATACGCTGGTCAACATCAGCCACGACGGGC -ATCCCTTCCTTGTCATAGAAGCGACCACAAATGACACCTACTGCGCCTAAATCCCGATACGTCTGCATTT -CCTTCTTATTCAGCACGCCCACCCGAATCAGGGGATTTTCATCAAGCGCGTTACCCACGACAAAAAAGGC -TTTCGTACAGCGAGTCAGAACGTCAAAATTCGATCGAATAATAGGCTCTGCCTGTAACTCCATGGCCAGT -CTGGCGCTTGATACCACGGCGGGCACGTGCAGCGAGGCGACACGGCCTGAAAGCTTGTAGGCGATTTGCG -ATGAGGATTCAATGATCGTCAGGTCTGGCTGAGATGGCATGGAACCGAGCATCTGTATAACGGTGACATT -TTTACATGACTTCGGCGTCATGGTTTTGCTCATCTGATGGATTGTTCTTCCCCAGGCAACCCCCAGCACA -TCACCATTCTCAATCACCTGATTCAGATACATGCCACCGGCACGTGAAAGGCGAGTCCGCATCAGCTTTG -TATCATCACGTTTTCCGGCATGTTCGCCATCCGGCACGATGATCACTCTCTGGAGATTGAATTTATCGCG -AATTTGCAAAGCAGCGTCGATAGAGCCAAAGACATTCACATCCAGGTTGATATGAACCAGTCCATTTTCC -CGGGCTGTTTGCAGGTATTTGACAACCGTGACGCGGGACACCCCCATGATAGCTGCAACTTCAGTCTGGC -TTTTGCCTTCCTGATAGTACAGCCATGTTGCATGAAGTACGGGATCATCATTGAACAGGCTGCTGTTTGT -TTGATCTCTATCCACTTTTGTATACCTGTATTAAACCGGGGAAATGCTCATCTTAACCCTGTTTACCCGG -AGAGTTGATGCAGATTGCCAGTGGCATGATTTTATACAGATATTTTATTCTTTTACATGAAATAAACCAG -CATACCATTTGAGCGATCGCCCGCTGTTCCCCCATACTGTAAAGCCGGAGACATGCTCCGGCTTTACAGT -ATTACTGAGAATACACCCATCAAGCATAATCGAAGGTTCAATATCGCCCCTTTTTGATCGCCAGCGATTC -GTCACCGTGCAGACGGTTGCCGTCACTCACTAAATTATGGGGGACAGTGAACAACAGGTTGGCTCACTGG -CAAGAACCCGATTATAAAACTAAGCTGGCGAGCAGAATAAAAATCAGCCCACTGATGGATAAGAGTGTGG -ACATCAGCGTCCAGGATAACAGCGTTTCTTTGGTGGTCAGGCCAAAAAAGTCTTTAATCATCCAGAAACT -GGCATCGTTAACGTGAGAACAAATACAGGATCCGGCACCGGTAGCCAGCGTAATCAAGGCCAGGTTGGTA -TTGGGATGTACTGCCAACAATGGGATGACCAGACCGGCGGTAGAGATCGCCGCGACGGTGGCTGAACCCA -GACAAATACGCAGGAATGCGGCCACGCCCCAGGCCATCAGGATCGGGTTAATATCCATACCCGAAACCAG -GGTGGAAATATACTGACCAACGCCAGAGTCGATGAGAACTTGCTTGAATGCACCACCACCACCGATAATC -AGCAGCAGACCGGCAATACCCGCGATAGCTTTTCCGCAAGAATCCATCAGGTCAGGGATTGTTTTCCCGC -GCCCCAGGCCCATGGTATAGATCGCGAATAGCAGTGAAATCAGCATGGCGATCGTTGAATTACCTAAGAA -CAGTATCACGTTGTAAAATAAGCCTGAATCCGCGGCACTTTTGGCATGAGTCATCTGGATGATGGTGACA -ACCGCCATCAGGATCACCGGCAGCATTGCCGTGAGAAAACTGATCCCAAAGCCTGGCATTTCGCTTTCGC -TGAATCGGCGGGTCGCGCCGAGAGAGGCTATATTCCCCTCTTTTTTAAAGGCGTCCGGAATAATGCGCTG -GCAGAATTTATTCAATACCGGGCCGCAAAGAATAAAGGTTGGAATGCCGACAATGATACCGTATATCAGT -ACCAATCCTACATCAGCGCCATATTCCCTGGCGATAACAGTCGGGCCGGGGTGCGGCGGCAAAAAACCGT -GTGCGACCAGCAAACCAGAAAGCATCGGCACACACATAAACATCGGTGATATTTTTGCTTCACGGGCAAT -AGCGAATAAAATAGGTACCAGAAGAATTAAACCGACTTCGAAAAAAAGTGCGATACCGACAATAAACGCC -GAACAGACCACTGCCCAGTCAAGTTTATTTTTCCCGAAATAATTCAGCATGGTCAGCGCTATTCGCTGCG -CACCACCCGCATCGGCCAGCAAGCGACCGAGCATAACACCGAAGCCAAATATCAAACCAATATGGCCCAG -CGTACCGCCAAGTCCGGATTCGACTGAGGTGACGACTTTACTCAAATCCATACCACTGGCGATGGCGACA -GCAATCGAGACAATAATTAACGAAACAAACGTATTAAGCTTAATTTTTATGGTTAAAAGCAGGAGTAAAG -CAATCCCTGCCACAACGATAATTAGTGGCATAACGTCCTCTCATAACAGGGTAGCGACCCATCATTATCC -GACTGAGCAAATAACGAATGATGCAGAGTCGGATAATTCAGGTGTCTGGATGTTTTTATTTATGCTTTCA -GTTTTTATTCATAAAATCGCGCAAAGCCGCGCCAATTTTGTTTACATCATAAATACAACCGGTCCATGTC -CCACCACTCACGGCCTGAAGCATTGCCCATAGCCGGGTATCATCTGGCAATTCAGGATCGGGAAGTAAAT -CCTGATGGCTGGGTCTGGCATTTAATATTGCAGTTGCCTCCTCCTGTGAAGGTAATTGTTCATCGCTACG -GGTTCCGAGGAAATTGACTTCGCCGTGAAGCTCGCGACAATCAATTTTAATTTCAATTAAATCCCCGGTG -CGTAATTTACCGATGGGGCCTCCGGCCAGCGCTTCTGGCCCCACATGGCCGATGCACGCGCCAGTAGAAA -CGCCCGAGAAACGTGCATCGGTGATTAACGAAACATGCTTACCGTATGACAGATGCTTCAGGGCACTGGT -AACCTGGTAGGTTTCTTCCATCCCTGTACCTGAAGGTCCAACGCCAATAATGACCAGAATATCGCCCGCC -TTGATCTTGTCATGTTTGATATCGTAAATCGCACTTTTCTCGGACAGATAAACCTTCGCCACACCTTTAT -GGTAATAGATACCTTGCTCATCAATCATCGAGGGGTCAATGGCGGTGGATTTGATCACCGAACCTTCTGG -CGCAATATTGCCCACCGGGAAGGTGATAGTTGAGGTTAATCCGCGCGCTTTTGCTTGCTGCGGAGACATG -ATCACTTCGTCAGCGTTGATTTGTTCCTGATCGAGCAGGAGTTGCTTGAACCGCTGACGCCGTTCGGAGT -GCTCCCACCAGTCGAGGTTTTCTTTCAGCGTGCTGCCGGTAACCGTCATAACGTCTTCATGCAACAATCC -GAGGCTGCGCAGATGCAACATGACTTCCGGCACACCACCTGCCATAAAGGCATTGACCGTTGGATGATAA -ACCGGGCCATTAGGCAGTACGCTCACCAGTCGGGGCACGCGCTTGTTGATGCGGATCCAGTCATCAACGG -TCGGGATATGGCAACCTGCCTGGTGAGCAATTGCCGGGATGTGTAACAGCAGGTTTGTTGAACCACCGAA -CGCGGCATGGACCGTCATCGCATTCTCTATCGCTTTATCGGTGAGAATTTCCCGGGTGGTGATGCCTTTT -TGACTCAGGTTCAGCGCAGCTCGCGCGGAAGCTCTGGCGATCTCCCGCCACACAGGCTCACCGGAAGGGG -CCAGGGCTGAATGTGGGATTGCCAGTCCCAATCCTTCGGCCACCACCTGAGATGTCCCGGCAGTGCCCAA -AAATTGACAGCCGCCGCCGGAAGAGGCACAGGCTTTACAGCCCGCACGGCGTGCGTCCTGTAGAGATAAT -TCGCCATTGGCGAAGCGTGCGCCAATGGTTTGCACCTTGCCGTTGTCTTCTCCATCCTTTGCGGGCAGCG -TCGCGCCGCCGGGGACCAGCACGGTTGCGATGTTGTGCTGCGCGGCGAGTGCCATCATGGTGGCCGGAAG -CCCCTTATCGCAACTCGCCACACCAATAACTGCTTTCGCGTCGGGCAGAGAGCGAATAAGGCGGCGCATT -ACCATCGATGCGTCATTTCGGTATGGTAGCGAATCAAACATCCCCGTTGTACCCTGAGTACGCCCGTCAC -AAGGATCGGAGACGTACACGGCATAGGGCAGGGCATGGTTGGCTTTAATAACCTCGGCCGCCGCTTTCAT -CTGGATGTCCAGTTCGTAATGCCCCTGGTGCAACGCCAGCGCCACGGGTTTACCGTCTGCGCCGCGTAAG -CCACCGAGTGTACTGAGCAGTAAAATACCGTCCCGATCCAGCTCGTCCGGAGACCAACCCATTCCGGCAT -TCATGGTCATACCGAACAGATCCCCGCTCGGGCGGTTGATAAGCATCTCTGCGGTTAATGGGAGTTCGCC -GTCCGGGCCATCGGCGTGCGTTCTGACGGTGTAAATATCGTGGCTCTCGTCAGCAAAAATATTGCGAACA -GACATGAGTTTCTCCTCAGACTGGTAAAATGCCCTGCGCGGTAAGCAGCACGTGGACTTTATCTTTTGCT -TCTTCAGATGCTTCAAGAATCGGTGGTAAGCAATATGTCTCTACAGGCAGCCCGACACACTGCATGCTGT -ATTTGATCAGTGAGACAAACGGTGTTTCGAGGGCGTAAATAGCGGGCAGTTGTAGTAGTTTTTTATTCAG -CGTCGCAGCGGTCGCCAGATCGCCTTCACGCCAGGCGCGGTAGATGCCGACGGAGAGTTCCGGAGCAAAG -TTAGCGCTGGCGGTTATCGCACCGTCGCCGCCCAGCAGCATCGTATTCAGCAAATGATCATCGTAACCGC -AGAATACCGAAAACGACGGGCGTACCGACTTAACTGTGTTGATCATCGTACGCAAGTGACCAACGCTGTC -GATGGTGTCTTTGATGCCAACGATATTCTCGTTTTGCAGAGCCAGACGCGTCACGGTTTCCGGGGTTAAG -TCCTGACCCGTCAGATCCGGAAAGTTGTACAGGATCACCGGTAGGGTGACGCTACGGGCGATCTGCTGGT -AATAGTCGTCAAGATTTCGTGGTGCGACTTTCCAGTAGTAGGGGTTGATGGCGACGATACCATCAGCGCC -GTAGGCTTGCGCATGCTGCGCCAGTTTGACCGCTTCGTCAGTGGAAGGGGAACCGACGCCAATCAATACC -GGCACTCGCCCGTCGACAATGGTTACAGCTTCTTCGGCGAGTGCCATGCGCTGGGCTGTATTCATTTGGC -TAAATTCACCACCGGTACCCAGATAAAACAGCCCGTCGACCCCTTTATTAATCAGGAAGTCGGCAACTTC -GCGCATTGCCTTTTTATCAAGGGTTCCGTCACGATGAAACGTGCTGGATACCGGTGGAATAATGCCGCTG -AATTTTTTCATTACCTCAGTTTCCTTTTCGTAAGTGCTCATTTTCGTTTCTGTATCCCAGCCCATATGAT -ATTTGCTCAGCGCATTTCCGGAGCAATTCCAGATAGCTGTCTATCTTATTTCCTGAATAAACTACCGGAT -CGCCAGAAAGTGAGATTGCATAGTTAACTCTGTTATACATATTGAATACCGGCATACTTAAACATACCGC -CCCATAGGTTGATTCTTCGTTGTCTATGGCCCATCCCCGAAGGCGTGTTTTTTGTAATTCTTCCAGAAAC -AATTTTTTATCGGTAAATGTATTGCGCGTATGTGGAGTTAACGTGAGTGCTTCTAAAAAATAATCCAGTT -CTTCTCGTGTCTTCCAGGCTAATAATGCCTTACCCAACGCGGTAATATGCAACTCAAGTTTTTTGCCAAT -CCAGCTTTTGCTCGTCGGTACAGAGTCCGGACTTTCGATCTTGTCGAGATAGATAGCCGAAATGCTCTCC -ATCGCCCCAAGATGACAAACCAGTCCACTTTTCAGCGACAACTCCTGCATTGGCCGCTTAGTCACCTCAA -ATATATTTTGACGGTGTAACGCCTGACAACCCAATTCGTAGTTTTTTATTCCCAGTGAATAGTAGCCGTT -TTTGTTTTTAATTAAGAAACCACAATCCACCATTACATTCAATAAATTAAGCAGGCTGCTTTTGGGGTAC -TGGAATTTATTTAATAACTCCATATAACTTGCCATACCAACCCATGCAATGTGGGTTAATATTTTTTCAG -CACGGACTAATGAATTACACCCTTTGCGAACCATAATGGCTCCTCCTTGCTCATGGAATAAATGGTATCG -GCATTACATAGTGGAAAATATGCTTTGTTCAGCATGCTGAACCGTAATGATGTGATTAAATGTGATCTTG -TACACACTTTGAATAATGAATCCAGAACAGCCACATTTAGTGAATGAGAATAAAAAGTAGATGGCGTGTT -GTTGCAACATCGTAGTGTGTGGATTGCGCCTAGAGCTTCTTTATTCGTTCGAGCGCATCGCCAATATTTT -CTATTGGGTGCCATTGATTATTTTTGCTTGAAATCCCTCTCGAATGAACTTACTTATCACTTTATTGAAT -GAGGTAAAAACAACTGACATCCGGCTCGCTGATAACGCTGTGCAATAGTCTCAGGTAACCCGCTGTCACT -GATGATCGTTTTAATACATGATAGTGTTGCTACAGCATGCGGCTCAACGGCATCAAATTTTGAGTGATCG -GCCATGAGAATAACTTCACGCGAGCGTTGAATAATCCGTGTTTTCACCCCGACCTCAAACATGGTGGCAT -TGGTGATCCCCGTCTCCAGCGACAGCGCATCGCAGGAGATAAACGCACGTTCTACGGAAAAGGCATTGAT -CATCTCCAGCGCCAGACTCTCTCCTACCGAAAAATAACCTGGGCGAATCAGTCCTCCGATAATGTAACTT -TCCACATGGGGAAAACAGCCCAGTTCATTGGCGATTTTAATGTCGTTGCAGATGACCTTTACCCGCGCAT -CGGCCAGGCATTTCGCCAGTTCGAGGCAGGTTGAGCCGGAGTCGAGAAAAAAGCAGTCGCCATCTTTGAT -CATTGTTCGGGCAAGGGCAGCTATTTCTCTTTTCGCCACAGATTGCAATGTACGTTTCACGTCGAAGACG -TACTCTTTGTCGTCTGTACTGTCGTCGAAGTCCAGGCAACCGTGACCGCGGATCATGCCTGGATACTGGT -TGACAATATACTGGAAATCACGACGGACAGTCGCTTCCGCATAGCCAAAAAGCTCCATGGCCTGCTGTGT -GGAGAGGTGACGATGTTGCCACAGGTAGTGCAGCATCTGTTTGATACGGTCAGGTCTCTGTTGGCTCATC -AGAAACAATCTCCTCTTACAGGGTGGCGAATTGAGCTAAGGTCGCGCGATAGTCAGATGAAGAGAACAGG -GCGCGCCCAATCACCATATGTTGCGCCCCAGCTGCTGCCAGTTGCTGTGCAGCTGCCAGCGTAATTCCAC -CGTCGGCCCAGCACTCGGTCTGAGGAAAAGCCGTGCGTACTTTTTGGATTTTCTCGCACATGGAGGGAAT -AAACCGCTGTCCCTGCCCATCGGGCTCACTGGTCATCACCATCACTCCGTCCAGCTCAGACGCCAGATAT -CGCCAGGCGTCGATCGGGGTTGCCGGATTAAATACCAGTCCGGCTCGTGCGCCGGTATGGCGGATCTCAG -TTAACGTTTCCGAAGGATAGTCCAGCGTTTCTGCATGAACGAAGATCCACGCGGGTCTGATTTCAGCCAG -CGCGTTAAACCAGCGCTGTGGCCGGGCAAGCATGAAATGAAAGGACAAGGGATGAGGCGTCTGTCTGGCG -ACGGCCTGCACCGTTTTCATCCCAAACGTAATGTTGTTAATGAAGCTGCTGTCCTCAATATCCAGATGCA -GGCTCCCAAAATCCAGATTGTCCAATGCCGTCAGCTCACGACCATAGTGCAGAGGATTTGCGCTGGCGAG -AGAAGGGTGCAGGATCATAAGCGCCTCCGTTAACCTGATACCAGCGCAAACAGTGCATCGTCTGTGCTGG -CATTTCCCACTGCCGTTAAGCGTTGTGGCGAATCAATAAACTGGCTGATGCGCTGAATGGTCAAAATATG -TGCGTTGGCATCCGTGGCGCTGACGCAGAGAAGCAGCCAGACGGGGTCGCACTCCTCGTTACCAAAGGCG -ACCGGGGTGCGTAGCGTGGTGATACTGACCTGATTATAGTTTGCGCCTTGCTCTGGTCGGGCGTGAGGCA -AGGCGATTCCTGGGGCTATCAGATAATAAGGCCCCCAGTTAAGGGTATTTTCGATGATCCCATTAACGTA -GCATGGCTGCGCGGCACCATAGGCTACCAGCGGGCGGGTGGCGATTTCCACGGCCTGACGCCAGTCGGTG -GCTTTACGTTGTGCCTGTACCCATTTAATATCGTTAATCATCCGTCGTTGACTCCATGCCGATTCGGGTT -AATCTGGTAGCGATCCCCGTCGATACTTTTGACGAAGGCGGCAGGGATCGCAGAAGGGTTATTGCTCTTT -GCCGGGGATAAGCGCTCTGCTTATCCCCATCTTATCGGCGTATATGATGCACTTTCTCCATAAACTGACT -GACTCGCGCCTGGTCAACGAAATTGGCAAAAACGCCGTCCTTTTTAAAGGTGGTTGCGGTCACACAGCCA -TCGGCGATACTGAGTTGTTCCTCCACGTTTTCCAGGCAGACGCCCGTGTTGGCCAACACGACGGTGTCAG -GCACCGTTTCTTTGACCCGTTTTAACAGCGCGCTGTCGGTACGCGTCCCGGCGGTCAGGCCAGAAACACA -GAGCGCATCAGGATGGTTGTTAAATACTGTCGATTTAGCAATAGAACAGATATCGCGATTGCCCAGATAC -ACGGCGGCCTCTGGGACGATATTGAACAAGGTTTTCACTTCGCCTGCACCAATCCGGTGTTGATGACGGA -TGGTCTCACCGACGTTAGTGTCCCAGACGCCAAAGTCGCTGGCATAGGCACCGGTAAATATCTCGCGGAT -AAACTTAGCGCCGGTAGCCATCGCCAGGTCGAATGAGGCGACCGGATCCCACAGAACATTCACGCCAAAC -GGGATGCGGATATCGCTCATTAATTGCCCGATGATTCGTGCCATTGCCGCAGTGGTTTCCGGACGCACCT -TCGTGAGATAGGGAAGACTAAACTCGTTGGAGAACATGACTGCATCCACCCCACCATTTTGGAGCGCCAT -CAGATCGTCCCAGGCTTTGTCGATAACCCAGTTCATCCCCAACTGCGCATCAAAACTCGGGTCGCCGGGC -AATGCACGTAGATGGCACATGGCGATGACCGCTTTTTCCGTCCCAATAACCTCTTTCAGCCAACTCATTG -AAAGTACTCCTTATTCCGATAATTCACGTTTACGTAAGAACAGCACGACGCTGGCGACAATACCGACCGC -CACGACAACGCCAATAATCCCAAGCGACATCAATTCAGAAATCGACCAACCGAACATATTGCCCACGGAC -AACGCTGAGATTTGCGCACTTTCACCGGCAAAACTGAAACCGCCTTTGAGCGCCATTTCAGTGAAGTAAG -GCGCGAACTGGGTGGCGATCAGCAGGACGGTAATCATCACGATGACCCCGCTTATCAACGTCCTGACCAG -GTCTCCGCGGTGGATAACCGTAGCCATACAGATAAAGAACGGTGCTACCGGCAGGTCTGCGAGGGGTAAC -ACTTTGTTGCCCGGTAAAATGCTGGCCAGAATTAACATAATGGGTATCAGTAGCAGACCGACAGCAATGG -TGGTTGGATGCCCCAGCGTCACAGCAGTATCCAGACCGATATACACTTCACGTCCTTTGAAATATTTCTG -GAAGAACTTTCTTGCACCGTCGGAGATGGGCAGCAGGCCCTCAACAATCAGGCGGATCATGCGCGGGAAC -AACACCATGATTGCCGCAACGGTAATCATCAGACTGGCGCAACCTTTAAAGCCTTCACCAGCCGCCAGGC -CAAAAATCAGACCGAGCACTACGCCGATAATCACCGGATCGCCGACCATGCCGTAGCGTTTCTGGATCTC -CTGAGCATCGATATTGCGTCCCTTCATGAAAGGGATTTTTTCATAGATAGCATCAAGTAGAACGAAAAGC -GGTACTGAACTGGAACCGTAGCCTTGCGGTATCGAAATACCTTCCAGCCCGACGATGTTCTGTACCCGTT -TTGCCGTCCAGTCGGCCATTTTTAACGATAGCGCCGCATGGCAGATTGCCCCCAGCACACCATAAATCAG -GCTACCGGTCATAAGCTGGACCACCGTACCCGTAATGGCGTAGTGCCAGTAATTGTAAATATCGACGTTC -ATCGTTTTGGTCAGACGGGTGACCAGCATGGCGACATTGAGAAGAAAAATAACTGGGATAATCATGGCGC -CAATGGCTGTCGCATAACCAACGCCGGAGGCAGGGCCTGCGCCAACGTCAAAGACATGCAGGGCTAGGCC -GAAACGCTCAATCATCACTTTGATAGGGGGACTGAGGCTGTCGATCGCCATGACGATCACCAGTCCCATA -CCGACAAAACCAATCCCAACCGTTACCCCTGCCTTAATCGCCTGCAGCCAGGGGATGCGGAAGATAAGGC -CAATCACGATCATGATGATAGGGACGAAAACGGTACCGCCGAGAGACAGGATGTAATCAAACATAATGCC -TCCTTTTATTGAGTTAACAGAGCCTTGATTTGTTGTTTTAACGCGTCGTCGTTGATCCCTGTGAGCAGGG -CGGCGCCATTAAGCGTAGGGATGCCGTAATCACTGTTGGTTCGCATGGAGGTTACAATAAGGTCCATACC -GTTACAGTTAAGAGGGATCTCATTCAGACAGCATTGGGCGGTAGTGGCTGAAATGCCCTGTTCAGTCAGG -AACTCTTGCAGCTTGTGTGCAATCATGGTTGAAGTCGACATGCCGGTACCGCATGCCACAAGGATCTTTT -TCATAATGGATGTGCCTCTTGTGTAGTGCCTGAATCAGGCTCAACGGGGAAATGTGCTGCTGACATACCT -GCCAGAGCGGTCAATAGGCGGATGCAATCAGTCAAATCACGCAGGCTGGCAACCTCCGCCGGAGAATGGG -TATAGCGACAAGGAATAGAGAGACTGGCGCAGGGAATACCATCCTGCTCAACCTGGATATAACCGGTTTC -TGTTATCACGCCGGGAGCCACTTCTCGCTGCACCGGAATGTTGTGTTCAAGAGCCGTCTGTTCCAACATC -CGTATCAGGCGAGGAGGCGTGATTAATCCGGCCAGCGTTCCCCGACCATGGTAGTTCAGGCAGGTGATCC -CAACGCCCTGATTAATCCTGACCTCGGAATAATCGTGTAAATCAGGGGTGTCACACGATGGAGTGATATC -AATACCAATCGCCAGGTCAGGTTTTACACGGCGTAATACGGGAACAATGCCGCGGATATTAAATTCTTCC -TGTACCGAAGCCACCAGATAAACGGCGATATCAAGCTCCATAGTACTGATAGCATCCGCTACACCGAGCA -GGGCAGTACAGCCTAGACGATCGTCTAGTGCTTTACTGCACACCAGATCGTTTGCCAGGAGTTGCGGCGG -GTTATACAGAGTGACAGGCGTACCGACCTGAATGCCCATCCGTATAGCGTCGTCTTTGTCTTTGGCACCA -ATATCAATCCACAGTTTGTCGACAGAAGGTGACTGCGTGCGCTCGTCGCCTTTGGCAAAGTGGTAGGACT -TAATGCCGATACACCCCATGACTGGCCCTTTGTCCCCGGTGAGGGTGACGATGGAACCAGCCATAGTGAC -CTGCGCAGGACCGCCTACGCGTTCAAAGCGTAAAAATCCAGACGGCTCTATTTTGCGCACCATAAAACCG -ACTTCATCCATATGCGCAAAAATCATCAGTCGCAGCGCATCGGGTTTATCACTACCGTAGCGCGCGACGA -CATTCCCAAGCCTGTCTCGCCAGACCTCTTTTGCCTGACGCCTGAATTCGCACAGCATGACGTCAGCGAC -AGCGTTTTCGTGTCCTGAAATCGCATTGTGCTGCAAAAGCGAGAACAGGGTTTCCTGCACAGAAAATGAC -ATAGCTATCTCCGTAGACCGTAAAACAATCACTCGTTGAGCGTTTTATAGGCGCAGACTGGTCGAATAAT -TGTGAGAACGTTCACGTGAAAACGCGCAAAGCTGAACAAATAAAAAATTATGTGAGCCGAGTGGAATAAA -AGCGCTCAACGTTTGTGAAAGTTACGGGCTGGAGAGACCAGTGATTATGGTTGAAATAATGAGGATGAAT -AAAACGCGGTAACTGTTATAGCACCACTTTGTTGCAGGACGCTCCCTCTTCATTACGTCCTGCACGTGGA -TACCCCAGCATCTCCATCAGCGGATCTTAGAATGTAATGGCGCGTGGCAGGTCGTTGGTTCCCAGCATAA -TGTAAGAAAACATCGGATCTCCTGAATAGATTCAGAGGGAGTATAGATAATCAGCTCAAATCACTCTCCG -CTTTATGAGCCCAGGCTGGCATTGCCGTCAGATAACGTTTTGCACGCTTATGTGCTTCCTCCGGGCCGAC -TTTTTGCCAGGAATCAAGGAAGCTGGCTAAACCTGATACCGCTTCTTCCCAGGGTTTGAGATTGCCGTTG -CTGTCGCTGCATTACGCACAATATTGATCACTGGCACTGTGTGCATCTGGTGCCGACATCGGCATTCCGC -AAGCCTGACAGAACTGTTCATGTTGTGACATATGATGCTCCTTATGGTGACATCTTGATTAATAAACATA -CTGAATATGTATTGTGCAGGTGATACATCAGATCAAAGCAAAGGTAAAGCCTCGATATTGCCAGCCAGAA -ATACCGGGAACCTGTTGTTACCGGGCGATGAGTGCGAACACGCCCCAGCCAAAGCATTCCCGCGCGTAGG -TCACGTAGCGTTTCGGCGCGATGTTTAGTTCGGCCCTGACTTCGGCGGCGAAGTCATCGTCAGGATTCGC -TTCCAGCCAGCGGCGCATGGTCAGCCATTTTGCGGCTTCATACCGGTCCCAGCCTTCCTGGTCTGCCAGT -ACCATTTCCACCACGTCATAGCCGAGATCGTCGAACGCTCCGACAAGTCCTGGCAGCGTCAGGAAATCGC -TTGTCGAGCTGACGCCGCAGGCCTGGGCTATTTCTTCTGTTGCTGGTAGCTGACGCCAGTAGGGTTCGCC -GATAAGCATGATCCCGCCCGGTTTCAGGCTTTGCGCTAGCAGCTCCTCCGCCCCGGCAAACCCACCGGCA -ATCCATGTCGCGCCGACGCAGGCCGCCACGTCACATTTTTCATTTGCGACGTAACCGGCCGCATCGTTAT -GAATAAAATGTACGCGTTCGCTGACGCCGAGTTCTTCCGCGCGACGCTTTGCCTGCGCGGTGAAGAGCGA -ACTCATGTCGATGCCAGTCCCCGTAATGCCATGATCCCTGGCCCAGGTGCAGAGCATCTCGCCCGAGCCG -CTGCCGAGGTCAAGAATGCGGGTGCCCGGCTTCATGCGCAGCACGCGACCCAGCGTGGCGTACTTCTCTT -CGGTGAACGGGTTATGGATGCGGTGTTCACTTTCGCTGATGGTAAAAATACGTGGGATATCCATTATTTA -ATTCCTGTTATTGGGTTAAGCCTTAAAAAGGACACAACAAGATTGTTATTCACGTCAGTGCTCCGGTTTC -ATCAGGGTCTGCGCACCGGATGTGGCCGGTCAGGGTCATGGGCTGAGCGGTGAGTGATTGCATCATCCAG -CAGGCTTTGTGCTCCTCCGGGATGGGATAAGGTGCCGGATAGCCTTTGTCTCCGGCACAGGGTTCGAACC -CATGTCGGGGGTAATAGGTGGCGTGGCCGAGAACAAAAACCGTCTGGCAGCCCATCAACCTCAGGTGCTC -GATGCCAGTGCGTATCAACCGTCCTCCCACGCCCATCCCTTGGTATTCCGGTATGACCGCCAGGGGAGCG -AGGATGTGCATCAACGGTGAATCCATTTCTCCTTTGAAGGTTGCCCGGGTAAATAAAATATGCCCGACGG -CTTTGCCTTCATACCGGGCTAGCAGCGATAACGCGGGGCGCGCGCTTTCATCCTCAAGTAAAGAGGCCAC -TAAATCGGCTTCTTTGCTGAAGCCAAATGCGCGGGTTTCGACTTCCCGGATATCACTGGCATCACTTTTA -TCTGTGATATGAAAAGTGAAGTGGTGTACTGTCATAGAAACTCTCCTTAGCGATTATCGAGCTGAGCGCG -AACTTTATTCAGCTCGGTGGTGTTGATTCGATAGGGCTGGCCATTGACGGACTTGATAAGTTTTTTGGTT -TTGAGTTTTTTGAAGACGGCGAGCGTGCAGTCGGTCAGCAACAGCCCTTCGCGGCTGTAGCATTCAACGG -AAGTGACGCGGCCTGAAGAATCGCGGACGTGCGCAATACGTCTACCTTTAGCGAGAACGTGTAAGGTATG -TTGTTCCTGACGGGATAAATTCATACTGAAGAACCTATTTAATCATCATGTGCAAAACGTGCAAACACAC -CGCGGTGTCCGCATTCGATTTCGGCGCATTGATAATCAGTCCGGCCTGAAAAGGTCGGGGAACTGATTAT -CGGATGATTACATTCTCCAGCATCAAAGCCTCGGGTTGAGTTGAAAGGTATTTACGGAGCGAATATTAAC -ACGTAGTTATAGGAGGGATATGTTTCAGTAGAAAAAGTGTGATGTACTTTGGAAATTGAATGCCAACCCA -TTTACTGGAAAAGGCAGATGACACTGACGAATGCATGTTGAAGTACGCCTGAAATGGCCTCATCGGCTTT -TCCCTTCGGGAGATTATTCTCCTTTTGTTAAATCCAGAACATAAATATGCTCACCCATCTTCGATGCTTG -AAAAATTGAAGCCAATCCTGATAAGTAATTTTTTTGAAAGGGTATTTTCCGGATTCACACCGGCTTTGAT -GAGTGAAAAACCGTTCTCTTTTATTCAGTCAATCGTGGCGGTAATTGCTTCAATTGCATATCCCTGGCGA -GCATAAGCGGGACTGATGGTATAGCCGAGCCAAAACACATCGCATTGCTGACGTAAATAGATATCACCAA -TCAAAACCTGCGTCATTTGTTGACAATGGCCAATTGAATATCGCGAGCAAGTGTAAGAACTCCCAGCAAG -ACCCTGTAAATAATTCTGTGTAACTGCCCACGATTAAAGGTGGCCGCTCAGGCGGTCACCGTATTCGATA -ATAAATGGGTCTGGAAAAAGTGCAGCATCTGGCAGCGTAATGCAGGTAGCCCAGTTCAACTCTCACTACC -AGTATGATCCCAAGTTCGAGCGCGGAATGTATCTGTATGAGCATCGTCGCTGTTTCAATAACATCATCGA -CTACTGTAACTCACTTTGCTATCACGGTAAGTTGCAGCCTAAAAGAGGGATGGAAAAAGGACGATTTTCC -CCGCAATGGGATATTTACATATTGATGGTAGAGGCATGAAGCCAAATGGAGGGAGCCGTCATAACCCTCT -TGAAGCTGAAACAATAGCAGCATGGCTGGTGGCACATAAGGATGATATAGAGCGCCATTACGGGGAACCA -CTGTACAAAGTTGTTGGTGTTGTGACGCCATTTTCGGCGCAGGTTAATGCTATCAAAATGTCATTGCGTA -AGCTGGAAATTAATGGCAAAGACGAGCAGGGTTTACTGACAGTGGGGACTGTGCACTCCTTGCAGGGGGC -GGAAAGGGCGATTGTTCTCTTTTCTCCTGTCTACTCAAAACATGAAGATGGCAGGTTTCTTGATAGCAAC -AGCACTATCCTCAATGTTGCTGTCTCACGCGCTAAAGATAGTTTTCTGGTATTTGGCGATATGGACCTTA -TCGAGATGCAGCCCGCATTTTCGCCGCGAGGGTTATTGGCAAAATATCTCTTTTCTTCAGATAATAATGC -GTTGCAATTTGAGTTTCAGAAACGACAGGATTTAATTTCCGCACATACACAAATTTCAACGCTGCATGGT -GTGGAGCAGCATGATGAATTTTTGAACAAGACTCTTGCCGGAGCTCAAAAGAAAATAACGATTATTTCCC -CTTGGTTATCCTGGCAAAAAGTGGAGCAAACGGGATTTCTGGCATCAATGGCTTTGGCCCGTTCCCGGGG -CATTGATATTACCGTGGTGACGGATAAAAACTGCAATATAGCGCATGTCGATGATGATAAGCGTCAGGAG -AAACAACATCTGCTGAATGATGCTGTTGAAAAGCTCAATAAGATGGGTATCGCTACGAAATTGGTTAATC -GTGTTCACAGCAAAATTGTGATTGAGGATGAAGAACTGCTGTGTGTCGGATCTTTTAACTGGTTCAGTGC -TACACGGGAAGATAAGTATCAACGATACGATACGTCTTTGGTGTACCGTGGTGAAGGCGTAAAAAATGAA -ATAAAGGCAATATATGGTAGTCTGGATCAACGTCAGCTTTAAATGTGATGAGCCGTTCATGATACAGGAG -TAGTAAAGGGCATATTTTACCAATGTTAAGGCGACTTTCCGTTTTATTGCGAGTCGCCTTTCCTGATTAT -AAATCTTATTGTTTACCTAATCATTTTCCTTTGCATAATGCGCCTGGGATTAATGGCGGGTGCTTTTAGG -AATGAAAGAAAATGCAAGCAATAATATAATAATGGCCTAATTTCTTTGAACATCATTAAGCATATCATCA -TCGTCTATTTGCCAGAATCCGTCGACTTATAATCGCCAGAACGGCATATCAGGACGGTGCTGCGAACGCT -GTGGCCCAAAACGTTCCAGTAAACTGTGTAGATGTTCGTAGATTTCCGAGCCATAATCGAAAAGGCGCGG -ATGTCTATTAAGGCATCCGGCTAATCTGTAAGCAATAACAACGGTTTATGCGGTGCGCGTTTTTCACCCT -TGTGCCAGATTATTATATTGGCAATTGCCTGCTGTTCGAGCCCGCAAGTGAAGAGATATTACCTTGATCT -CATTTGTTTTTTGTTGTCTACTCTGAGAACGAACAAGGACATCCCCCATGAATAAACTCCCCGCTCACCT -TTCGCGCCAAAACTGCAAAATTGCTTCTACAAATCTGTCAGAAATAATCCCCCGACGGGCTGCAGTGCTG -AAATGACTGCTTCGCAGTGCCGTCGTCCAGTTCTCCGGTGACCGGTACGCTGAACCGTAATATCCCGTGC -TTAAATCGTCCGGGTCTTCATCAGGCGCGTTCGTCAGTCCTCTTTCACCTTGTTGCTGGAAGTCGACGAA -AATAATATTGGCTAAAACATTATTTTGATAATTGCCATAAATAGCTTCATACGAATGCGGGAAATTTTCT -TTCCAGTACCAGGTGGTATCGCCGCAAAACCACGGCGCGTCAGTAATATTATTAAGCTGAGAATGGTATT -GTTTTAGATCCCTACGAAAGGCTTCAACCATATGATTAAAGTGTTGAGGGTGTGACGCGTAGTCACTGGT -CATTAAGTCAAATTCGCCTTGCATCCAGCATGCGCCGAGGAATTTGTTCTGCGGATTTTTTGCCAGTGCG -GCTCGCGTTCTGCTGACTAAATCCTGGTACAGCGGAGTATCCGTTCCCCAACGACAAGCATCATGGCTGG -CTCCGTGCCGTTCTGAATATGTCCCTTCGCTGCCCGCGGTAAAAGCCGATCCGCCACGGCAACACGGAAC -GATAAGAATCCCTGCATTATCAGGAATGAAGGGCAGTAATTTCCGTGCAATATGCAGTGCCTGGCCAACG -GTGCCGTACTGTGTTTGATGATTCGTTGCCAGAGGATGGTGATAACCCTGCATATCCTGAACATCGTGTG -GGCAGTGAGTCAGTGGAATAATGTCGTTAAAGTGACATGGCGGGCCTCCGGGATGCGTATGCGCAAATCT -CGCTAATTGTTTAATTCTGGGATGAGGCGCATCTTCCCTGTCCGGTAATGGCAGTCCTTCGCCATACGCC -ATGGCATTAGACTGACCAGCAACGGTAAGAACATAGTAATAATCGGGCGATATTATTGCGTTCATATAAA -TTTCGCGTAATTGAAATGACAAATTGATAGCAGGGCCCCTTTACCGGGGCCCTGAAGCGTTAGTTTTGTA -CTGTGACTTTATTATCCTTCACAGTGATCAAAACTGAATCCGTCACCGCTTTGCCGCCTGCAGTTTCACC -GCCAATAATCAATAGACTATTATTCCAGGGCAATGATACTCCGTAGGCCCGACCTTGCGATAATTCACCC -GATTTATCCCATTTCCCGTTATGCCAAAGATGAATATCAGTGCTATATGATTTTTTCAGGCCTTCATGCG -CATAGTTCTTACCGTTCTGGTAATTTTCTCGTGAACCTTTGAATCCGGCCCCTCCGGCAAATATAAGAGA -ATCATTGCTTATCCCCGCAAAACCGCCAGCTACGCCATCTGGTGATGAGACGGGAGCAAGCTTATTCCAT -TTTAAATTATTACCGGTGAAATCAAGTTCAAATACGGCATCCGTTCGCAATCCTGGTTTGGCTTCGCCAT -TAATAAGCCAGGTTTTATCACCTTTATTCACAACCGCCGCACCAGCCGTTCCGTACCAGGGCGATTCGCC -AGCGTAACTCCATTGCTGTGTTGAGGGATCAAAAGACAACAGAAACTTATTGAAGAAATAATCTTCTGCT -TTTTTGTCAAAATAGTGAGCATTGATTTTATCTATAGCGGTTGAATCTTTTCCAGCCTCGTTGAGATCTT -CAAAATAGCCATTGAAGATATTCTGGTTAACACCACCAGTAACATAAGCCTTGCCGTTGTGTACAAAAGT -CACATGGCCCGCCATGCCCATCGGCGCGTGCGACATCAATTTAACCCAACTATTGGTTTTGGGGTTGTAT -TTGTGTACGTCATTAAATACCTGAGTCAAGCCCTCGCTGTTTTTGCCAATGCCGCCAAACACATACAGAT -TGCCATCAATAAATGCAGAGGTTGCTTGATCTCTTGGTCCGCCAGGGAATGCAGCTAACGCTGTCCATTT -TTTATCTTTGGCCTGTGTATCCAGCTTGTACCATGCCGTACCTGCGCTACCTAAACCAATGTAGACAGTG -TCGTTATCAATTGCTCCGGTACCACTTTTAAATGGCACAGGAGTTTCCGGTAATACAGACGCGTTTGCGG -CAAATGAAGCCATCATGATAGCAAGCGCCGTTATTGTTTTATTCATTGTGACTGTCTCCTGTCTACTACA -GTTTAAATGACACACCAATGCGATAACTGTTTTCCGATAAATTATCTCTGCCGTTGTAAACACCCTGACG -GTCAAGGTAGTCATATTCTATGTATGGCGTAATATCGGGCGTCATATGGTATTGTAGAACAAATGCATTT -TCCGTCGCCCATTTCTTATGGTTTGCATAGCGATAATCGTTCTGTTTGCTGTATAGCGTCGTTTGCCATG -CGAAGGTGAAATCACTATTAATATGGTAAGTGACATATCCATCCCAACGATGAACGTTATCACGAGACAT -ATCACCGGATAAGTCTTGTTGTCGGTAAGCTTTCCAGTCGTAACGATAGCGAATGCCAAAATTAAGATCT -TTTGTCGCGTCCCAGGACAGTTTTACGTAGGGTCCGTAGCGTGTGCCGTTGCTGCTAAAATGCGTTAACA -TTCCCGGGCGCACCGTCCATTGATCATCAAGTTTAATCGCGTAATTAACTTCAACCTGAACATCATTGAG -TGCGGCATTTTCCTTTTTATTATCATGAATGGTATTCCAGGTATTACTTTCCATGCTTGCCCACCATCCA -TTTTGCCATCCCTCACTGACTTTGAGTCGAGTCTCATAGGCGTGGCTTCCACTACGATATCCACCACGTA -CGTCCAGTGTCGCAGCCTGAGAAATTAATGGGGACGAAAAGCACAGTAATAATACGCCAGAAAGTATTTT -AGCCTTTTTCATAAATTTCACTCATTTGTAGGATACAGAAAGCAATACAAAGCCCGCATAAACAATTAGC -ATTTATGTTGTGTAATATTTTTTTGCCAGGCTTATAGTGTCTTTGGCAACCGGTAGCTGTATTTTATATT -TTTTTGTATAAGGTCTCCTGTGAAAAATCTCTTTTCACATTATTTAAATAAACAGAGATCCAGATTAAAT -ACCTGAGTATAAAATCTCTTCTGATGTTTAATTGATTTGAATGTTCGTAAGCTATATCACTTACTCAATC -CATTTTACCCAGAGTCATAAAATAGAATGTCTGTTGATCTCATTTTCATATTCCTTTCAGACTGAAGTGC -GTTTTCATCACCCGATGAGAAAGAACTGAAGTGATGTTTGCCATAGATTGCGAGATGCCCTGTCTCATTG -ACTATCTTGGTGCACCTTTATACCTGTTATACCAGATCAAAAATCACGCAATCCATACAACAAAACCAGA -TTTGCAATTCGTGTCACAAAATATGTCGATCTTTTTCTAAGAGGAAGATGCCATGTGAAGCCAGACGAAC -ACTTGCGGTGGTCTTCAAAAACTAAAGATCTTAGTTTAACTATTTGTTTTATAAATAATTTATTAAGAGT -CTAAACAAGGGGAGCTTTGCAAGCTAACTCAGTGAGCTTGGTGAAAATCAGTGTTTACCCGCCATCAGGC -TGAGCATAATTCTCATCATGAAATATGTTTCCTGGTTTGTGGCTTGTAACTGGTCACTTCTGAAGTCGAT -CTGGAGAGGCTTGTTGATGTTGGTGTTTTCAGGATGATGTTTCACTTAGTTTGTTTGCCGTATCGCCCGG -CGAATGGCTGTGATTGAGGAAGGTTTAAGTCGTAGTGACCAAAGCTATATTTACCAACGAATGTAGATGA -AAAAATCATCTCCTGCGTTCCCCCATATCTCTAGGATAAAAAGGAATGTAACAATCTCATGGCGTAAGCT -GACGAATCAGCAGGAATAATCGCTAGGGACCTAAGAATTAGCATGATAATAGCCACTAAGAAATTACTGC -GCTCCATGAAATAGCCATTTTGTGGCAAATGGAGTTGACTAATAATGTCATATGTGAGACGGCTAGTTGA -ACGAATATTAAATTTTGCTGAATTTTTTATGTTGATTTTACTTGTTACAGAACATATCACATGATATATA -GATAAGATTAGTTGCATTAATGATGAGGGTTATTATTAGATTCGTATCCGATTGATAAATATATAAAGGT -ACATAGCACTGAGAGATCCCCTCATAATTTCCCCAAAGCGTAACCATGTGTGAATAAATTTTGAGCTAGT -AGGGTTGCAGCCACGAGTAAGTCTTCCCTTGTTATTGTGTAGCCAGAATGCCGCAAAACTTCCATGCCTA -AGCGAACTGTTGAGAGTACGTTTCGATTTCTGACTGTGTTAGCCTGGAAGTGCTTGTCCCAACCTTGTTT -CTGAGCATGAACGCCCGCAAGCCAACATGTTAGTTGAAGCATCAGGGCGATTAGCAGCATGATATCAAAA -CGCTCTGAGCTGCTCGTTCGGCTATGGCGTAGGCCTAGTCCGTAGGCAGGACTTTTCAAGTCTCGGAAGG -TTTCTTCAATCTGCATTCGCTTCGAATAGATATTAACAAGTTGTTTGGGTGTTCGAATTTCAACAGGTAA -GTTAGTTGCTAGAATCCATGGCTCCTTTGCCGACGCTGAGTAGATTTTAGGTGACGGGTGGTGACAATGA -GTCCGTGTCGAGCGCTGATTTTTTCGGCCTTTAGAGCGAGATTTATACAATAGAATTTGGCATGAGATTG -GATTGCTTTTAGTCAGCCTCTTATAGCCTAAAGTCTTTGAGTGACTAGATGACATATCATGTAAGTTGCT -GATAGGTTTCCAGTTTTCCGCTCCTAGGTCTGCATATTGTACTTTTCCTCTTACTCGACTTAACCAGTAC -CAACCCAGCTTCTCAACGGATTTATACCATGGCACTTTAAAGCCAGCATCACTGACAATGAGCGGTGTGG -TGTTACTCGGTAGAATGCTCGCAAGGTCGGCTAGAAATTGGTCATGAGCTTTCTTTGAACATTGCTCTGA -AAGCGGGAACGCTTTCTCATAAAGAGTAACAGAACGACCGTGTAGTGCGACTGAAGCTCGCAATACCATA -AGCCGTTTTTGCTCACGGATATCAGACCAGTCAACAAGTACAATGGGCATCGTATTGCCCGAACAGATAA -AGCTAGCATGCCAACGGTATACAGCGAGTCGCTCTTTGTGGAGGTGACGATTACCTAACAATCGGTCGAT -TCGTTTGATGTTATGTTTTGTTCTCGCTTTGGTTGGCAGGTTACGGCCAAGTTCGGTAAGAGTGAGAGTT -TTACAGTCAAGTAAGGCGTGGCAAGCCAACGTTAAGCTGTTGAGTCGTTTTAAGTGTAATTCGGGGCAGA -ATTGGTAAAGAGAGTCGTGTAAAATATCGAGTTCGCACATTTTGTTGTCTGATTATTGATTTTTGGCGAA -ACCATTTGATCATATGACAAGATGTGTATCTACCTTAACTTAATGATTTTGATAAAAATCATTAGGGGAT -TCATCAGTGCTTGTACTCGATTTTTACTTCATCGCCCAGCTGCGCGTTGGACCAGCGGCCCCACGACTCC -GGACGGGAAATCCCGCTAAACTGTTTCACCTCTTCTGGCGCACCGGCGACGTTAAAGATGAAACTGTCGG -CTTTGTAGCGAATATCGTTATCAACAATCTTCAGCGTATCGACATTGCCTTTGTAACGCGCCATGTCGAT -GACCGTATCTTTAAATGCCGTTTTGCCCTGCCATGTTGTTTTGTCAACATGCTGAACAATTTGCTGACCG -CCAAGCTGCCCTTGCGAGACACACCAGTCGGTGGAAAGTGCCAGTTCCGGAGCCCAGAGTTGTGCCATCT -TGTAGCAACGGTCAACCCAGACGAAATTGTCGCGTGGAGCGAAATCGGCCAGCTGGAAACGCAGCGGTGC -TGAGTATTCGCTTTCCGGCAGCGGTTCCACGCGTTTGTCTGAAACCCGCAACAGCAGCGGCAAACGGAAA -TGGCTACCCGAGAAGGCAATCATGTTTTTCTGCTGGTCGATGGTGAACTCTTTCATCTCTTTAGGGAATT -TCCACAGGCGGATGATATCTGGCTTCCACGCCAATGTTTTCTCTTTGATATTGAGGAAGATTTCCGACAT -CGACTGCCCGGATAAACTGCTACGACCAAGTCCGAGATAGTTATCGCCACCGAGAATGTCCAGCACCGTC -GCGCCGTTATCCATCGTGTTACGCTTCACTGCCAGCGTCTCTTGCTGCGGCTTGTCGCCACGAATGACAA -AAAACAGGTTATTGCGATCCTGCTTATTGAGGTATTTCCACGCCGTGTTGTTCATCGCTAAATGGTCAGA -AGAGACGACGATGACGGTATCTTTAAACCACGGTGACGCTTTGATTTTGTTGATAAACGTCGCGATGTTC -TCCTGGCTGCAACTTACCGCGCTGAATGACTGATTCGGTTTACCGTCAAAATCATATTTTTTGCGGTTAC -AGGTACGAGAGATAAAACCATCCGGGTGATGGGTATCGACTGTCAGGGTAAACAGTGAGAATCGCTGACC -TGAGCGGGAAAGCTCTTCAAACTTTTTCCACGCTTCATCGAGAACGGTATCGTCGTAGAATCCCCAGTCG -TTGCGATAGTGCGGGTCGGCTACCACGCTTTTCAGCTCTTCTGAGCCGTATAAGTGGTCGAAGCCATGCG -ACTTCAGGAACACATCTTTACCGGCAAAACGCAGATTCGCGCCCTGCACGAAATAGTTCTGATAACCCGA -GTTTTTCAGGATATCTCCCAGACAGATGTTCTGCGGGAAGAAGCTGGAGACAGAGGCGGAGGCGTTGCCT -TCAAAGGGGGCAAACAGCGGTATGCCGCACTGAGAAGCCACCATGCCCGCAATCGTGTAATCTGTTCCCG -GCAGCTGCTGCGTGTGGCTGAAATCCAGGCCTTCATTTTTCAACGCGCCCAGTTCAGGCGTGAGATCCGG -GAAAGCCTCGTTATCAAAATAGGTCCGCTCGAGACTTTCGCCGTAGATATAAACCAGGTTGAGTTTCGGG -TCAGGGATAGTTTTCGACGGCTCTTTATAATAAGCCGCAAAGTCCGGGTCGCCGTCGCGTGACTGGGATT -TCACCAGTTCCGTTATCTGACGAAATGCCGGGCTGGCGTCCACCGAACCCAGCGCCAGTAAGAGCGCCAG -CAGGCTGTAACCAAAATGGTGCGGATGATGGCGACGACGGCGCAGGATCCAGCCCAGCGCACCGAACACC -GCTGTCAGCCCCAGCACAATGCCGATACCCGGCAAAATGTATTTGCTGACGCCAGCACCGGTCAGGCTGT -TGGTTAAGGTATAGAGAACCGCGTCGTTAATACCATCGCCAGTAAAATAGTCGCTGGCAAACAGGGTGAT -ATTTAAAACGACAAATAGCCCCAGCACCGTTAACGTGGCTGCAAACCACCAGGTGTTACGTCCCGCTTTC -CATGCGTAAATCAGCACAGAGGCGAGAAAAAGGGCGAAAGAGAGTAGTTCTGACAACGGGCGATCCTCAC -TAAACCGGGCCGTTTAGCCAACGTTTAAGCTTTTTGAGAAGCACAATGTAATGGCGTCGCCATATTGCTG -CAATTCTAGTGTCAAAAAAATGCGATGTTGTTAGGAATTAGTTTATAAACAGACTTTTTTGATTACGGTC -ACTTCCCGTGTAACAGGGGTAAAACCGTCCAGGAGCAGGGAAAAGGGCAGGAGAGAGCCGCGTCAGCCGG -GTAACAGCTAAAACGCGGCGTTTCGCGGTTCAGGAAATGAAGTTCAGCCCCTGTTTTAACACCAGATCGC -AGGCTTTGGTTTTCACCTTTTCTGCCAGCGGAGTTGTTCCGATGTTATCCAGATTGAGTTGCTGACCATC -TTTGGTTTTCAGCAAACCCTGAATGCCGTCCAGATAGTTGGTGTCTTCTTTTTGCTCTTCACTGTTCAGG -CCCAGCTTTTCCAGCACCTGGTTCTTGATGTTTTCGGCATCGGTTACCGACGCCAGCTTTTGCTTCGCGC -AGTATTGCAGAATGCCTGCGGCATTGTTCATGTTATCTGCGCTTAAGGCCTGGTTTCCGCTGCTAAGCAA -GTTAGTTAATGACGCGAGCGACCAACCGCCTTCCTGTGTCGTGCTGTTTTGGTTGCCAAGTTCGCTGGCG -GCGCTGGAGAGCGCATCTTTCCAGGACGCAGCATGCACCCCGGTGGAAATTAATGCGCTGGCGGCAATGG -CACAGCACAGAAGATGTTTAACAGTTTTCATCATCATTACTCAAGGTGGAATTGTGTCGCAGTATACCGC -CAGAAACGGGGATTAATACTCTTTACCTGTTACCCGGCTACGGTAGCTATCCCAGTTGAAGATCACCCAC -AAACTGTTACCCAGGCGCATACGGTCCATCACGCGTTCGCCCAGCAACTTGGTCATCTCTTCCATATTAC -TGTTGGTCAGCATCCCGGTTGGGCGTTTGGAAGAAGAGCGGCGATCGACGATCTGGTTGATGATCACTTT -TTCGTATTTCGATTCGGTCTGCACGCCGATCTCATCGATCACCAGCAGATCAACGTTGCTCAGATCGTTA -AGCAGTTGTTCTTCGCTGGTACCGCTATTCCTGAAGGTATCTTTCATCGCCGACATAATATCGGCCACGG -TGATGATCAATACGGATTTACCGCGTAGCAGCAGCTCGTTGCAGATTGCCGCCGCCAGATGGTTTTTGCC -GGTTCCTGGCTTACCAGAAAAGATGAAGCTGGCGATGTTGCCGTCAAACTCTTCGACATACTGGCGCGCT -TTGCTTAACGCATTCATCTGCCCTTCACACTCAACGCGATAGTTCTCAAAGGAACAGTTCTGATGCAGTG -GACGAATACCGGAGCGGTTAAAGGTGCGCTGCATTTTCATCGCCCGATTTTCACGTTCGAGAGCGGCGGA -GCGGATCGCTCCTTGTTCTTTTTGCCAGGCCAGTAGTTCTTCACCCGTTTTGAATGCGGGTTTGATATGG -GCAGGCATCATTTTTTGCAGGCGTTGCATCAGGTCGCCAACGTTTTTCATCGTTACCCTCTGAATCCTGG -TGGAATTTGGCTGTCAGGTTCGCTGACCGTATTCACATCTCGTTTCGGCAGTCCGCCGTTGCTGGCACGA -CCGATTTGCAGGCTGCGCGCCAGTTTTTGTTGCCACTGCACATGGTGAAAGACTTTACCTTCCGCCTGCC -AGTAGGCAATGAATGAGGCCAGTTCTTCGGTGGTCACCGGCTCTCTTAGCGCCACGCCCCATAGCGCCGC -CAGGCGGATAAAATCGGCATCGGGTTGCCAGTCCGGATACATGGCGAATTTCCCCATGGGTACAGCAACG -GGAGCGGCTTGCGGTTCCTGATAGAGTTGATCGTCCAGAGCGACATCGCTTCCCGGACGCGCCAGCTTTT -CTTCCAGCGCCAGCAGTTCAGCCAGGCGTGCAGGCGTGACGGCATAAAACGCCGGGGCATTGTTAGCAAA -TACGGCAACCACACCGCCTTCAGCTTTTGCCAGAACGGTTTGGTGATCGTGTACCAGGGCGTCAATACCA -ACGACGTCCGGGGTCAAAACTCTGGAAGACATACTGTTTCTCAAATATGGAACGATGAACGAGAAGGGAG -ATAACTTTTATAGTAACACACGGAGGAGAGGAGGCTGTCTCTCATCCGTGTGCTTAAGCGAGGCAATTTT -ATACGCGAGGGCGCTTGCGGTACAACCATAATCCAGGAATGGAAAGACCGATGGATAACGCACCAACAAT -CGATGAAGCTGTAAGAAAGTTGGTTAACAGGGTAATCATCAACGGTTCGCTGTAACCTAACTGGCTGATT -TTTACCGCCGAAATCATTGCGGTATAAGCCGATATGCCCGGGAACATAGGGATAACGGCCGCCACGGTAA -ACACTTTCGGATGCGCCAGATACCAGCGCGACCATTGAATACCAATGGTACCGACCAGCATAGAAGCCAT -AAAGGTTGACCACTCAATATTCAACCCGCTGGTCATCAAGATCATTCGGGAACCATGACCTATCGAGCCA -AGCAGCGCACACCAGCGTAACGCCCGCACGGGAACGTTGAACACCATCGCAAAGCCGACCGCAGGAATGG -CGGCGAGGATCATATCCTGCGCCAACGCTAACAGAAATTCGATCACACCCATCCGCGTAGCCCCCAAATC -GTCAGTGCCATCACTACGCCGACGCAGGTAGCCAGTGTCAGCAGACTGGCGATCGCCCAGCGTGCCAGTC -CGGTATTGATGTGGCCTTTAAACATATCGGCGACGGCATTAATCAACGGAAAGCCCGGCACTAGCAGCAG -AACGCTGGCGGCCATCGCAATGGTGGGGGTATTGCTGAAAGTGGGGAGTTGCAAAAGCAATCCGGAAATG -GTGGTGGCGGCGAAAGCGGTAAGGCAAAAGTTGATCTGTGGATGAAGATGACGTTGTGCCAGCAGCTGGC -GGATATACATCGCGGTCGTACTGGCAAAGAAGGTGATGACGGCACCATCCCAGCCACCGTTATTGAGTTT -ACAGAAACAGGCGCAAGAAAGGCCAACCATTAAGGCTACCAGCCATCTTGGGTAACGTAATGGCTGAATT -TGGCTAAATCGTTTCTCTACGCCTTTGTAATCCAGCAGATGATGCTCCGCAAGAATCACAATGTGCTGGA -CTTCAGTCACCACATGCATATTAATGCCGCGATCGTGATTTTTACGTGTCGATGTCAGGCATTGCCCATC -TTTAATAGTTGTCAGCACTATGGCGTTCGAAGAGATAGAACTTTCGACGCTGTCCATTCCCAGTGCCCGA -CCCAGTCGTGAGGAAAGCTCATCAACCAACGCGCTTTCCGCACCATGTTGCAAAAGAAATAATCCACACT -GGATACAAAGCCGTGTTACGGCTCGCTGTTGCTCAGTTTGCATAACTCGCCCTTTGTCATAGACGTGCTG -CGTATTGTTCAGATAATGAGAATCCATTTGTATCATGAAGCACGGTTGTTTTGCGGTAGGTTAAGATCAA -AATTGCGCTGATTAATCCTGGTTATCGGGAGAAGCTCGGTGATAAAAAGCGAATTATCTCTCGCCGCAAA -CAAACTATCACATGAATATTATCATCATAATGAATTTATTGTTTGGCCTTTACGAATCAGGATAATAGAT -AACCGGGCACGTTTTTTAATGTTAACAAGCTAAAACCATCAGATTTCATTGAATAAATATTGGTTGTGTG -ATTTTGCATTCTGCGGGAAGGGATATCATTTAATTATAAATTAAATGAATGTGATTTCTGTTTTTCATTA -AGTATTCCTAACAACTTAATGTAGATATTTTAAATGTCTCCAGGCTATTTCACCAGGTTATCATTTGATG -CTAACCTTCTGACACATGCAGTGGAGTTGTTGTGCAGCAGGAGTATGCTGATATGAAAGTGAATGCTAAG -GATAATTTATTCGCTTAATCTATTAATTTGCTGGAAACATTTAAGGAATGAATATCCTGAATAAACCATC -ATAATTTTTAGACAGTGGATGTGGAGGAAATATGTTGCCAGGATGCTGCAAAAATGGAATTGTTATCAGT -AAAATACCTGTTATGCAAGCAGGGTTAAAAGAGGTCATGAGGACTCACTTCCCTGAATATGAAATAATAT -CCAGCGCCTCTGCGGAGGACCTTACCTTATTACAATTACGTCGTTCCGGATTAGTCATTGCTGATTTAGC -CGGTGAAAGTGAAGATCCACGTTCTGTTTGTGAACATTATTATTCTTTAATCTCACAATATCGGGAAATT -CACTGGGTTTTCATGGTGTCACGCTCCTGGTATTCCCAGGCAGTAGAACTGCTCATGTGCCCTACGGCGA -CGTTATTGTCTGATGTTGAACCCATTGAGAATCTGGTCAAGACCGTACGTTCCGGCAATACGCACGCAGA -GCGTATCAGCGCCATGCTGACCTCCCCGGCAATGACTGAAACTCATGATTTTAGCTATCGCTCCGTCATT -CTCACTCTTTCAGAGCGCAAGGTACTGCGGCTATTAGGTAAAGGATGGGGCATCAACCAGATAGCTTCAT -TGCTTAAGAAAAGTAATAAAACTATCAGCGCCCAAAAAAACAGTGCGATGCGTCGACTGGCAATTCACAG -CAACGCTGAAATGTATGCATGGATAAATAGCGCGCAGGGTGCAAGAGAACTTAACTTGCCTTCTGTTTAT -GGAGATGCCGCAGAATGGAACACAGCCGAATTAAGAAGAGAAATGTCGCACTCATAGAAAAATGCGTCAT -GAGTAGTATCGGTATTGAGAGTTTATTCAGAAAGTTTGCGGGTAACCCTTATAAGCTCCATACCTATACC -AGTCAGGAGTCATTTCAGGATGCCATGTCGCGGATCTCGTTTGCGGCGGTCATTTTTTCTTTTTCTGCCA -TGAGAAGTGAGCGCAGAGAGGGATTATCTTGCCTGACTGAACTGGCGATTAAGTTTCCGCGTACCCGGCG -TTTAGTTATTGCGGATGATGATATTGAAGCTCGGCTGATTGGTTCATTGTCGCCATCACCGCTGGACGGT -GTATTAAGTAAAGCGTCAACGCTGGAGATTTTTCATCAGGAACTCTTTTTGTCATTAAATGGTGTACGTC -AGGCGACCGACCGACTGAACAATCAGTGGTACATTAACCAAAGCCGGACGTTAAGCCCGACGGAGAGAGA -AATATTGCGCTTTATGTCGCGTGGCTACTCAATGACACAAATTGCCGAGCAGCTTAAACGCAATATCAAA -ACGATCCGTGCACATAAATTTAATGTGATGTCGAAACTGGGCGTCAGTTCTGACGCAGGGTTGTTGGAGG -CCGCAGATATTCTGTTATGTATGCGGCATTGCGAAACAAGTAATGTGTTGCATCCCTATTAATCCGCATG -ATGCCGGGTTTACTTCCCCGGCAGTGCTTTCATTTCAGCGTACAATCGCCACATTGCTGCACATCCGGTA -AGCGATAACGCTGGCAGCAAGTGCGGCGCACCAGCAGGCCGTCGCGCAGTACCACGGTACGCCAGAGTGG -ATTATCTTCACCGTTCGTGAGCGTTTTCTCAAAAAAGAGGGCATGGCGCAGCGATTCAACAGTAGCCTCG -CCGAGCAGTTGCTTCATCTCAGTGAGATACCAGTTGATCAAATAACCGGTATTACTCCAGATAAGTTTGC -CGTTGATCTCTCCGGTCGCTTCTAGTGCTTGCACAACCGGAACCAGCGCCTGGCTGATTAACGTTTCCAT -TCGATGCTGCGGCGAATGTGGTGTTGCGTTTTTATCTTCACACACATCGACCCAGAAACAGGCGACGCGT -CCGGTTTCGTGAAACTCAGCATGGAAATGTTCCGGCGACACATCTAATGCCTTTTCCTGCGTCAGTAGCG -CCAGCATTAATGGTGGCACCATCAGGCCGATATACCATTGTGCCCATAGTGAGATCAGCGGTTTGTTCTC -GCGGATCATCATCGGTTGGTTGCGATAGATATGATCGGAATAGACCGCCAGCAGAGAACTTAGCACATTC -GGTGATGACCATTGCGCCAGCGTCATGGCGTTAAGTGGGGCAGGTTCATCCAGGCGGATAAACTCCAGCA -AATGTTCACGATGTTTTGCGATCGTCGCCCGCACGGCTTGCGCAAGCGTGGGATCCTGCGGCTGGAGATG -CGTTCGCCAGATGACATCTTCATAGAGCGGTGCGGAACGATAGGCCATAATCGGGATAGTAATCTAAATG -ATAATGATTGCTAATCATAGCGATAGGTTTACCCGATAGCAAGGGATTTATCTGGCTTGCAAATGATAAA -AATTATCATATGATATTGGTTATCATTATCAATGAAAGAGATGAAATCATGTTGCAACGTACGCTGGGCA -GTGGCTGGGGAGTGTTGCTGCCGGGATTGCTGATTGCAGGGCTGATGTATGCGGATTTATCGTCAGATCA -GTGGCGGATTGTCATTCTGATGGGATTAGTATTGACGCCGATGATGCTGTATCACAAACAGTTGCGGCAT -TACATTTTGCTACCATCGTGCCTGGCACTTATTGCTGGCATCATGCTGATGATAATGAATTTGAATCAGG -GATGAAAAATCAAGGAAGAAACAAGAAAGGAAGTAAAGATAATTGGTGCGAGGGGGGGGACTTGAACCCC -CACGTCCGTAAGGACACTAACACCTGAAGCTAGCGCGTCTACCAATTCCGCCACCTTCGCACAGTCATCT -TACTTTTTTTGATATCGCCTCGTTTGGTGCGAGGGGGGGGACTTGAACCCCCACGTCCGTAAGAACACTA -ACACCTGAAGCTAGCGCGTCTACCAATTCCGCCACCTTCGCCCAGTGCGAGCAATATCAACGTGGTTTTT -GGTGCGAGGGGGGGGACTTGAACCCCCACGTCCGTAAGGACACTAACACCTGAAGCTAGCGCGTCTACCA -ATTCCGCCACCTTCGCATACCATCAATTCTTAAAAAGAATTGCTACCACGGAGGCGCATTCTAGTGGTTT -TCAGCTTTTCGTCAATAGTTAATTATCGACAGAGGTGTAATTGCTGGAAAAATGTCCATCAGGAAACTAG -CGTGCAGGTTTGGTATGCATGCGGGGGCAGATGCCAGATGCGACGCTGGCGCGTCTTATCTGGCCTACGA -AGGGCTAACGTGCAGGTTTTGTAGGTCGGATAAGGCGTTCACGCCGCATCCGACACGGTATTCGGCGAGA -TAATTAACCTTTCTTCGCCTGGCGGGTCATAATGGCGCGATACACCTTGAAGCGCCCTGTTTGCGCGATC -ACTTCGTGGAAGCCAAATGTCTCATCCAGCACGTCCGGATAAGGCAGGAAGGCGTTCGCTACAATTCGCA -GCTCGCCGCCGCTATTAAGATGACGCACCGCACCGCGAATCAGCGTTTGCGCCGCATCCAGGCTGGTTTG -CATCCCATCGTGGAACGGCGGGTTGGAGATGATCATATCAAAACGACCTTTCACCTCGGAAAAGACGTTG -CTGGCAAAGACTTCACCTTCAACACCGTTGGCCGCAAGTGTTGCGCGGCTGGCTTCTACCGCCGGGGCAG -AGACATCGCACAAGGTGAGACGAATTTTCGGCGAATGGCGCGCAAAGGCAACTGAAAGCACGCCCGCGCC -ACAGCCGACATCCAGCACTTTACCTTTCGTGTGCGGAGTTAACGTCGAGAGCAGCAACTGGCTACCGACA -TCCAGACCGTCGCGGCTAAACACGCCAGGCAGCGTTTTGACCGTCAGGCCATCGACGCTGTATTCGCCCC -AGAATTTCTCCGCATCAAATACCGGCTGTTTTTCCAGACGACCAAAATAGAGGCCACAGCGACGAGCGCT -GTCGACTTTATTCAACGGCGCATAATCTGCCAGCATCTGCTCGGCGCTGCGCACGCCGCTGCGGTTCTCG -CCAACGACAAAAATATCTGTCCCCACTGGCAGCAGAGAAAGTAAATTCATCAACTGGAACTGGGCTTCCG -GTTTGTTCTTCGGCCAGTAGTAAATCAGCGTATCGCAATCTGCGACGTCATCCGCCGTGGCGACCAGACT -GAAACGGGCGTTATCCCCCATCTGGCGGCTTAATACCTGCCAGTGGTGGAATTGCTGGGTATGAGCACGG -CTGGCCGCGGTATCTAAACGCGCGGGCAGGTCATCCTGTAAGTCTCCGGCAAACAGAATACGGCTTTGTT -CGAAATCATCACTGTGACGCAGCAAGACTTCACTTGCCGGGGTAAATGCAGACATGGAATGCTCCTCAAT -TGATACTGGCGGCGATTATAGCCATATGTTGGCGCGGTATCGACGAATTTGCTATATTTGCGCCCCTGAC -AACAGGAGCGATTCGCTATGACATCCCGACGAGACTGGCAGTTACAGCAACTGGGCATTACCCAGTGGTC -GCTGCGTCGCCCTGGCGCGTTGCAGGGGGAGATTGCCATTGCGATCCCGGCACACGTCCGTCTGGTGATG -GTGGCAAACGATCTTCCCGCCCTGACTGATCCTTTAGTGAGCGATGTTCTGCGCGCATTAACCGTCAGCC -CCGACCAGGTGCTGCAACTGACGCCAGAAAAAATCGCGATGCTGCCGCAAGGCAGTCACTGCAACAGTTG -GCGGTTGGGTACTGACGAACCGCTATCACTGGAAGGCGCTCAGGTGGCATCACCGGCGCTCACCGATTTA -CGGGCAAACCCAACGGCACGCGCCGCGTTATGGCAACAAATTTGCACATATGAACACGATTTCTTCCCTC -GAAACGACTGATTTACCGGCGGCTTACCACATTGAACAACGCGCCCACGCCTTTCCGTGGAGTGAAAAAA -CGTTTGCCAGCAACCAGGGCGAGCGTTATCTCAACTTTCAGTTAACGCAAAACGGCAAAATGGCGGCGTT -TGCGATTACGCAAGTGGTGCTGGATGAAGCTACATTGTTCAATATTGCGGTCGATCCTGACTATCAGCGT -CAGGGATTGGGAAGGGCGCTGCTGGAACATCTGATCGACGAACTGGAAAAACGCGGCGTGGCGACACTAT -GGCTGGAAGTCCGTGCTTCAAACGCTGCCGCCATTGCCCTGTACGAAAGTTTAGGCTTTAACGAGGCGAC -GATTCGCCGCAATTACTACCCCACCACGGACGGTCGCGAAGACGCCATCATCATGGCGTTGCCAATCAGT -ATGTAATACAAGGTGGAATAATGAAGTGGGACTGGATTTTCTTTGATGCCGATGAAACGCTGTTTACCTT -TGACTCATTCACCGGCCTGCAGCGGATGTTTCTTGATTACAGCGTCACCTTTACCGCTGAAGATTTTCAG -GACTATCAGGCCGTTAACAAGCCACTGTGGGTGGATTATCAAAACGGCGCGATCACTTCATTACAGCTTC -AGCACGGGCGGTTTGAGAGCTGGGCCGAACGGCTGAACGTCGAGCCAGGTAAACTCAACGAAGCCTTTAT -TAATGCGATGGCGGAAATCTGCACGCCGCTGCCGGGCGCGGTTTCTCTGCTTAACGCCATTCGTGGCAAC -GCCAAAATCGGCATCATCACCAACGGCTTTAGTGCCTTGCAACAGGTGCGTCTGGAACGCACGGGCCTGC -GTGATTACTTCGATTTGCTGGTGATTTCCGAAGAAGTTGGCGTTGCCAAACCGAATAAGAAAATTTTCGA -TTATGCGCTGGAACAGGCGGGCAATCCTGACCGTTCACGCGTGCTGATGGTTGGCGACACTGCCGAGTCC -GATATTCTCGGTGGCATCAACGCCGGGCTTGCGACCTGCTGGCTGAATGCACACCATCGCGAGCAACCAG -AAGGCATCGCGCCCACCTGGACCGTTTCTTCGTTGCACGAACTGGAGCAGCTCCTGTGTAAACACTGATT -GCCTCCCCCCCGTTGATGGGTAAAATAGCCGCAATTTTTCGTTTTCAACAAGCGCGGCGCGATGCCGCTT -ACTCAAGAAGAAAGAATTATGACGTTGTCTCCTTATTTGCAAGAGGTGGCGAAGCGCCGCACTTTTGCCA -TTATTTCTCACCCGGACGCCGGTAAGACTACCATCACCGAGAAGGTGCTGCTGTTCGGACAGGCCATTCA -GACCGCCGGTACAGTAAAAGGCCGTGGTTCCAACCAGCACGCTAAGTCGGACTGGATGGAGATGGAAAAG -CAGCGTGGGATCTCCATTACTACGTCTGTGATGCAGTTTCCGTATCACGATTGCCTGGTTAACCTGCTCG -ACACCCCGGGGCACGAAGACTTCTCGGAAGATACCTATCGTACCCTGACGGCGGTGGACTGCTGCCTGAT -GGTTATCGACGCCGCAAAAGGTGTTGAAGATCGTACCCGTAAGCTGATGGAAGTTACCCGTCTGCGCGAC -ACGCCGATCCTCACCTTTATGAACAAACTTGACCGTGATATCCGCGACCCGATGGAGCTGCTCGATGAAG -TTGAGAACGAGCTGAAAATCGGCTGTGCGCCGATCACCTGGCCGATTGGCTGCGGCAAGCTGTTTAAAGG -CGTTTACCACCTTTATAAAGACGAAACCTATCTCTATCAGAGCGGTAAAGGCCACACCATTCAGGAAGTC -CGCATTGTTAAAGGGCTGAATAACCCGGATCTCGATGCTGCGGTTGGTGAAGATCTGGCACAGCAGCTGC -GTGACGAACTGGAACTGGTGAAAGGCGCGTCTAACGAGTTCGACAAAGAGCTGTTCCTTGCGGGCGAAAT -CACTCCGGTATTCTTCGGTACTGCGCTGGGTAACTTCGGCGTCGATCATATGTTGGATGGCCTGGTGGAG -TGGGCACCTGCGCCGATGCCGCGTCAGACTGATACCCGTACCGTAGAAGCGAGCGAAGATAAATTTACCG -GCTTCGTATTTAAAATTCAGGCCAACATGGACCCGAAACACCGCGACCGCGTGGCGTTTATGCGTGTGGT -GTCCGGTAAATATGAAAAAGGCATGAAACTGCGCCAGGTGCGCACTGCGAAAGATGTGGTGATCTCCGAC -GCGCTGACCTTTATGGCGGGTGACCGTTCGCACGTTGAAGAAGCGTATCCGGGCGATATCCTCGGCCTGC -ACAACCACGGCACCATTCAGATCGGCGACACCTTTACCCAGGGTGAGATGATGAAGTTCACCGGTATTCC -GAACTTCGCACCAGAACTGTTCCGTCGTATCCGCCTGAAAGATCCGCTGAAGCAAAAACAGCTGCTCAAA -GGGCTGGTACAGCTTTCCGAAGAGGGCGCGGTGCAGGTGTTCCGTCCAATCTCCAACAACGATCTGATCG -TTGGTGCAGTTGGTGTGCTGCAGTTTGATGTGGTGGTAGCGCGCCTGAAGAGCGAATACAACGTTGAAGC -AGTGTATGAGTCAGTCAACGTTGCCACTGCCCGCTGGGTAGAATGTGCAGACGCGAAGAAATTCGAAGAG -TTCAAGCGTAAGAACGAAAGCCAACTGGCGCTTGATGGCGGCGATAACCTCGCTTACATCGCTACCAGCA -TGGTCAACCTGCGCCTGGCACAGGAACGTTATCCGGACGTTCAGTTCCACCAGACCCGCGAGCATTAATT -CTTGCCTCCAGGGCGCGGTAGCCGCTGCGCCCTGTCAATTTCCCTTCCTTATTAGCCGCTTACGGAATGT -TCTTAAAACATTCACTTTTGCTTATGTTTTCGCTGATATCCCGAGCGGTTTCAAAATTGTGATCTATATT -TAACAAAGTGATGACATTTCTGACGGCGTTAAATACCGTTCAATGCGTAGATATCAGTATCTAAAGCCGT -CGATTGTCATTCTACCGATATTAATAACTGATTCAGAGGCTGTAATGGTCGTTATTCATCACTCATCGCT -TTTGTGATGGCGACCATTGACTTCTGTAGAGGGTGAAGTCTCTCCCTATTCAGCAATGCAACCTCGTGTT -GCCAGGCTCAAATTACGAGCAAACATACAGGAATAAATCGATGACTATGACAAGACTGAAGATTTCGAAA -ACTCTGCTGGCTGTAATGTTGACCTCTGCCGTCGCGACCGGCTCTGCCTACGCGGAAAACAACGCGCAGA -CTACCAATGAAAGCGCAGGGCAAAAAGTCGATAGCTCTATGAATAAAGTCGGTAATTTCATGGATGACAG -CGCCATCACCGCGAAAGTGAAGGCGGCCCTGGTGGATCATGACAACATCAAGAGCACCGATATCTCTGTA -AAAACCGATCAAAAAGTCGTGACCCTGAGCGGTTTCGTTGAAAGCCAGGCCCAGGCCGAAGAGGCAGTGA -AAGTGGCGAAAGGCGTTGAAGGGGTGACCTCTGTCAGCGACAAACTGCACGTTCGCGACGCTAAAGAAGG -CTCGGTGAAGGGCTACGCGGGTGACACCGCCACCACCAGTGAAATCAAAGCCAAACTGCTGGCGGACGAT -ATCGTCCCTTCCCGTCATGTGAAAGTTGAAACCACCGACGGCGTGGTTCAGCTCTCCGGTACCGTCGATT -CTCAGGCACAAAGTGACCGTGCTGAAAGTATCGCCAAAGCGGTAGATGGTGTGAAAAGCGTTAAAAATGA -TCTGAAAACTAAGTAATTCGTCGTAATTCGTCCTCCCGAACTTTGTCGGGAGGCGCGATGTGCACCACAC -TAAAAATATCGCATTGAGTGATTTTCACGCTCATATCAAGCGGTGACATTAACTATGGTAAAGGAGACGC -TTATGTTTCGTTGGGGCATCATATTTCTGGTTATCGCGTTAATCGCCGCCGCACTTGGGTTTGGTGGTCT -GGCCGGTACCGCTGCAGGCGCAGCTAAAATTGTCTTTGTCGTCGGGATTATTCTGTTCCTGGTGAGTTTG -TTCATGGGCCGAAAACGACCCTAGATTTCAGACCATTAAGAAAATTTTATCCAAAGCCAGTCCAGCGGAC -TGGCTTTTGCGGTTTTAGCGAATAATAAATTGCGTTACTTTGTCATTCTTTCACAACAAAAACAGGAAGG -CAGAGGTGGGGCAGCGAATACCTGTAACGCTTGGTAATATTGCGCCGTTGTCGCTAAGGCCGTTCCAGCC -TGGACGAATAGCTCTGGTGTGCGAAGGCGGCGGACAGCGTGGAATTTTCACGGCTGGCGTGCTGGATGAG -TTTATGCGCGCGCAGTTTAATCCTTTCGATCTTTATCTCGGCACATCTGCCGGGGCGCAGAACCTCTCGG -CGTTTATCTGCAATCAGCCCGGTTACGCGCGCAAAGTCATCATGCGCTATACCACAAAACGCGAATTTTT -CGATCCATTGCGCTTTGTCCGTGGAGGAAATCTTATCGATCTCGACTGGCTGGTGGAGGCCACTGCAAGC -CAGATGCCGTTGCAAATGGATACCGCCGCGCGGTTGTTTGACAGCGGCAAATCGTTTTATATGTGCGCCT -GTCGTCAGGATGACTACGCGCCGAATTACTTTTTACCAACCAAACAAAACTGGCTGGATGTGATTCGCGC -CTCCAGTGCGATACCTGGCTTTTATCGTAGCGGAGTGTCGCTGGAAGGCATTAACTACCTGGATGGCGGG -ATCAGTGATGCGATTCCGGTTAAAGAGGCGGCAAGGCAGGGCGCTAAAACGTTGGTCGTCATTCGCACTG -TGCCGTCACAAATGTACTACACGCCGCAGTGGTTCAAACGCATGGAACGCTGGCTGGGTGACAGTAGCCT -GCAGCCGCTGGTCAATCTGGTGCAGCATCATGAAACCAGCTATCGTGACATTCAGCAATTTATTGAGAAA -CCACCGGGCAAGCTGCGGATATTCGAAATTTATCCGCCGAAGCCATTACATAGTATCGCGCTTGGCAGTC -GGATTCCGGCGCTGCGTGAAGACTATAAACTTGGGCGTTTATGCGGTCGTTATTTCCTCGCCACGGTTGG -CAAGCTATTAACTGAAAAAGCGCCGCTTACCCGCCATCTGGTGCCAGTGGTGACGCCGGAATCGATTGTC -ATTCCGCCTGCGCCAGTCGCCAACGATACGCTGGTTGCCGAAGTGAGCGACGCTCCGCAGGCGAACGACC -CGACATTTAACAATGAGGATCTGGCTTGATTTGCCGTTTTATCGACACCCACTGCCATTTTGATTTCCCG -CCGTTTAGTGGCGATGAAGAGGCCAGCCTGCAACGCGCGGCACAAGCGGGCGTAGGCAAGATCATTGTTC -CGGCAACAGAGGCGGAAAATTTTGCCCGTGTGTTGGCATTAGCGGAAAATTATCAACCGCTGTATGCCGC -ATTGGGCTTGCATCCTGGTATGTTGGAAAAACATAGCGATGTGTCTCTTGAGCAGCTACAGCAGGCGCTG -GAAAGGCGTCCGGCGAAGGTGGTGGCGGTGGGGGAGATCGGTCTGGATCTCTTTGGCGACGATCCGCAAT -TTGAGAGGCAGCAGTGGTTACTCGACGAACAACTGAAACTGGCGAAACGCTACGATCTGCCGGTGATCCT -GCATTCACGGCGCACGCACGACAAACTGGCGATGCATCTTAAACGCCACGATTTACCGCGCACTGGCGTG -GTTCACGGTTTTTCCGGCAGCCTGCAACAGGCCGAACGGTTTGTACAGCTGGGCTACAAAATTGGCGTAG -GCGGTACTATCACCTATCCACGCGCCAGTAAAACCCGCGATGTCATCGCAAAATTACCGCTGGCATCGTT -ATTGCTGGAAACCGACGCGCCGGATATGCCGCTCAACGGTTTTCAGGGGCAGCCTAACCGCCCGGAGCAG -GCTGCCCGTGTGTTCGCCGTGCTTTGCGAGTTGCGCCGGGAACCGGCGGATGAGATTGCGCAAGCGTTGC -TTAATAACACGTATACGTTGTTTAACGTGCCGTAGGCCGGATAAGGCGTTCACGCCGCATCCGGCAGTTG -GCGCACAATGCCTGATGCGACGCTTAACGCGTCTTATCATGCCTACAGGTTTGTGCCGAACCGTAGGCCG -GATAAGGCGTTCACGCCGCATCCGGCAGTTGGCGCACAATGCCTGATGCGACGCTTGTCGCGTCTTATCA -TGCCTACAAGTCTGTGCCGAACCGTAGGCCGGATAAGGCGTTCACGCCGCATCCGGCAGTCGGCGCATAA -TGCCTGATGCGACGCTTGTCGCGTCTTATCATGCCTACAGGTTTGTGCCGAACCGTAGGCCGGATAAGGC -GTTCGCGCCGCATCCGGCAGTTGGCGCACAATGCCTGATGCGACGCTTGACGCGTCTTATCAGGCCTACA -AGTCTGTGCCGAACCGTAGGCCGTATCCGGCATGTCACAAATAGAGCGCCGGAAATATCAACCGGCTCAC -CCCGCGCACCTTTAACGCATCAGCCAACGGCTCAACGTCTTCCGGCGTGGCGCTCGCCCAGCTTTGCGCC -TCGCCATACACGCCGTGGGCATGAAACGCGTTCAGGCGTACCGGAACATCGCCGAGTCCCTTGATAAACG -CCGCCAGTTCTTCGATGTGTTGCAAATAATCCACCTGGCCAGGGATCACCAGCAAACGCAGTTCCGCCAG -CTTGCCGCGCTCTGCCAGCAAATAGATGCTGCGCTTAATCTGCTGATTATCGCGTCCGGTGAGTTGTTGA -TGACATTCGCTCCCCCACGCTTTGAGATCGAGCATTGCGCCGTCGCACACCGGGAGCAATTTTTCCCAGC -CGGTTTCGCTCAACATGCCGTTACTGTCCACCAGACAGGTGAGATGGCGCAGTTGCGGATCGTTTTTGAT -AGCAGTAAACAGCGCCACCACAAACGGCAGCTGGGTCGTGGCTTCACCGCCACTCACCGTTATCCCTTCG -ATAAACAGCACTGCTTTGCGGACATGGCTAAGCACTTCGTCCACGCTCATGGATTGCGCCATGGGCGTGG -CATGTTGCGGACACCTCTTCAGGCAGGTATCACACTGCTCGCAAACCACAGCGTTCCACACCACTTTGCC -GTCAACAATCTGCAACGCCTGATGCGGACACTGTGGCACGCACTCCCCACAGTCATTGCAACGTCCCATC -GTCCACGGATTGTGACAGTTTTTGCAGCGCAGATTGCAGCCCTGCAAAAACAGAGCCAGACGACTGCCTG -GCCCGTCAACGCAGGAGAAGGGGATAATCTTACTGACTAAAGCGCATCTGCTGTTCATGGCTTATCACGC -GCGGCTGGCGTTCCAGAATACGAGTGTTGCGTGCGGCTTCTTCGCCCAGCCAGGTGGTGTTGGTGCGTGA -ACCTTCGGCGCGATATTTTTCTAAATCCGACAAACGCACCATATAACCGGTAACGCGAACCAGATCGTTA -CCGCTGACATTGGCGGTAAATTCACGCATTCCGGCTTTAAAGGCACCGAGGCAAAGCTGTACCAGTGCCT -GCGGGTTACGTTTGATGGTTTCGTCGAGCGTCAGAATGTCGCTGATGCCGGAATAATAATAAGCATGATG -CGGGGCGACAGTTTGCAGATGGGTGATCGGATCTGGCTCATCGCCATACGGCAAACGCGCGCCCGGCGTG -GTGCCGATATCGGAACTGATCCCCGACTGTGCGTGTAACATGGCGCGTTTTTGCCAGCCATATTTCACGG -GGGTATTGGCGACAAACTCCGCCAGTTGCGCGCTGATGCGATAACCTACTTCATTTGCGGCGGCTTCTTT -ACCGTAGCGCGCGGCAATCCCTTCTTTTTCACACAGCAAGTTAACCGCTTCCGCCAGCCCATACATGCCA -AACATTGGCACAAAACGTTCAGGGTTAATCAGCCCTTCTTTCACCAGGAAGCTATTCTCAAAGAAGTGTG -ATTGTTGATAGAGGAATTCACACCGCGCATCGATGATGGCGATCTGCTGCTGGCAGTAGTGCGGTAGAGT -GCGCGTAAAGAAGTCATCCAGCGATTCGCTGCGCTCGGCAATGGCTTTCAGGTTAAGGCGTACCAGCGTG -CTGCCACCACCCGCCAGCGGCAGTGAGTTGTAACAGCTCACAATCCCGTAGCCCCCTTTTGTGAAAATTT -TATCATGCACCGGACCGTTGGCGATGTGCGGTTTGCTACATTCACAGATGTTCTTCGCCACTTCCAGCAG -CAGGTCATCAGGGGTGATTTCAGGATCGTAGATAAAGGTCAGGTTCGGTGAAACCTGCTTCAACTCTGCA -TCTGCACGTAAGATCGCGCGGGTAATGGGCGAATCAGACGGGCCGATATTGGCGTGCATAAAGGCGTCTG -GCAGGGTTCTGTCGAGGTAACGCCAGAAACGTTTTATTCGAACATCGATCTCGTCTTGTGTTAGAATTCT -AACATACGGTTGCAACAACGCATCCAGTTGCCCCAGGTAGACCGGCATCGATGTGACCGACGGTACGTGG -TGGTAAAGAATGGTCAGCAGAGAGAGTGCGTCATCAAGATCTTTCGCGCCTTCCAGCTCCAGCCATTCGG -AACCGTTCGCCAGAAAACGGGCGTAATCGGGTAAGACATAGCGCGGTTTGTACGGCGCATGACCTTCAAA -CATATCGCAGATTACACCTTCATCCAGCGCGCGGCGGGCTTCGGCAGGAAGCTGTGGGTAAGGCAGATTG -TTTTCTGCTTCCAGTGCCAGAAAATGGCGCTTCTGCTCCGGGCTAAGCACTGGGCTGGTGACAATTTGCT -GGCAACGTTGTTGCAGTGCATTTTCATGAGAAGTGGGCATCTTCTTTTCCTTTTATGCCGAAGGTGATGC -GCCATTGTAAGAAGTTTCGTGATGTTCACTTTGATCCTGATGCGTTTGCCACCACTGACGCATTCATTTG -AAAGTGAATTATTTGAACCAGATCGCATTACAGTGATGCAAACTTGTAAGTAGATTTCCTTAATTGTGAT -GTGTATCGAAGTGTGTTGCGGAGTAGATGTTAGAATACTAACAAACTCGCAAGGTGAATTTTATTGGCGA -CAAGCCAGGAGAATGAAATGACTGATCTGAAAGCAAGCAGCCTGCGTGCACTGAAATTGATGGACCTGAC -CACCCTGAATGACGACGACACCGACGAGAAAGTGATCGCCCTGTGTCATCAGGCCAAAACTCCGGTCGGC -AATACCGCCGCTATCTGTATCTATCCTCGCTTTATCCCGATTGCTCGCAAAACTCTGAAAGAGCAGGGCA -CCCCGGAAATCCGTATCGCTACGGTAACCAACTTCCCACACGGTAACGACGACATCGACATCGCGCTGGC -AGAAACCCGTGCGGCAATCGCCTACGGTGCTGATGAAGTTGACGTTGTGTTCCCGTACCGCGCGCTGATG -GCGGGTAACGAGCAGGTTGGTTTTGACCTGGTGAAAGCCTGTAAAGAGGCTTGCGCGGCAGCGAATGTAC -TGCTGAAAGTGATCATCGAAACCGGCGAACTGAAAGACGAAGCGCTGATCCGTAAAGCGTCTGAAATCTC -CATCAAAGCGGGTGCGGACTTCATCAAAACCTCTACCGGTAAAGTGGCTGTGAACGCGACGCCGGAAAGC -GCGCGCATCATGATGGAAGTGATCCGTGATATGGGCGTAGAAAAAACCGTTGGTTTCAAACCGGCGGGCG -GCGTGCGTACTGCGGAAGATGCGCAGAAATATCTCGCCATTGCAGATGAACTGTTCGGTGCTGACTGGGC -AGATGCGCGTCACTACCGCTTTGGCGCTTCCAGCCTGCTGGCAAGCCTGCTGAAAGCGCTGGGTCACGGC -GACGGTAAGAGCGCCAGCAGCTACTAAGTAAGATGCTTTACGCCTGATGCGCTGCGCTTATCAGGCCTAC -GAGACGTATCTACCCGTAGGCCGGATAAGGCGTAGACGCATCCGGCAAAAGCCGCCTCATACTCTTTTCC -TCGGGAGGTTACCTTGTTTCTCGCACAAGAAATTATTCGTAAAAAACGTGATGGTCATGCGCTGAGCGAT -GAAGAAATTCGTTTCTTTATCAACGGTATTCGCGACAACACTATCTCCGAAGGGCAGATTGCCGCCCTCG -CGATGACCATTTTCTTCCACGATATGACAATGCCTGAGCGTGTCTCGCTGACCATGGCGATGCGAGATTC -AGGAACCGTTCTCGACTGGAAAAGCCTGCATCTGAATGGCCCGATTGTTGATAAACACTCCACCGGTGGC -GTCGGCGATGTGACTTCGCTGATGTTGGGGCCGATGGTCGCAGCCTGCGGCGGCTATATTCCGATGATCT -CTGGTCGCGGCCTCGGTCATACTGGCGGTACGCTCGACAAACTGGAATCCATCCCTGGCTTCGACATTTT -CCCGGATGACAACCGTTTCCGCGAAATTATTAAAGACGTCGGCGTGGCGATTATCGGTCAGACCAGTTCA -CTGGCTCCGGCTGATAAACGTTTCTACGCGACCCGTGATATTACCGCAACCGTGGACTCCATCCCGCTGA -TCACCGCCTCTATTCTGGCGAAGAAACTTGCGGAAGGTCTGGACGCGCTGGTGATGGACGTGAAAGTGGG -TAGCGGCGCGTTTATGCCGACCTACGAACTCTCTGAAGCCCTTGCCGAAGCGATTGTTGGCGTGGCTAAC -GGCGCTGGCGTGCGCACCACCGCGCTGCTCACCGACATGAATCAGGTACTGGCCTCCAGTGCAGGTAACG -CGGTTGAAGTTCGTGAAGCGGTGCAGTTCCTGACGGGTGAATATCGTAACCCGCGTCTGTTTGATGTCAC -GATGGCGCTGTGCGTGGAGATGCTGATCTCCGGCAAACTGGCGAAAGATGACGCCGAAGCGCGCGCGAAA -TTGCAGGCGGTGCTGGACAACGGTAAAGCGGCAGAAGTCTTTGGTCGTATGGTAGCGGCACAAAAAGGCC -CGACCGACTTCGTTGAGAACTACGCGAAGTATCTGCCGACAGCGATGCTGACGAAAGCAGTCTATGCTGA -TACCGAAGGTTTTGTCAGTGAAATGGATACCCGCGCGCTGGGGATGGCAGTGGTTGCAATGGGCGGCGGA -CGCCGTCAGGCATCTGACACCATCGATTACAGCGTCGGCTTTACTGATATGGCGCGTCTGGGCGACCAGG -TAGACGGTCAGCGTCCGCTGGCGGTTATCCACGCGAAAGACGAAAACAACTGGCAGGAAGCGGCGAAAGC -GGTGAAAGCGGCAATTAAACTTGCCGATAAAGCACCGGAAAGCACACCAACTGTCTATCGCCGTATCAGC -GAATAACGGTATACTGATCTGATCATTTAAATTTGAAGCACTGAGTACGGAGAACATATGAAACGTGCAT -TTATTATGGTGCTGGACTCATTCGGCATCGGCGCTACAGAAGATGCAGAACGCTTTGGTGACGTCGGGGC -TGACACCCTGGGTCATATCGCAGAAGCTTGTGCCAAAGGCGAAGCTGATAACGGTCGTAAAGGCCCGCTC -AATCTGCCAAATCTGACCCGTCTGGGGCTGGCGAAAGCACACGAAGGTTCTACCGGTTTCATTCCGGCGG -GAATGGACGGCAACGCTGAAGTTATCGGCGCGTACGCATGGGCGCACGAAATGTCATCCGGTAAAGATAC -CCCGTCTGGTCACTGGGAAATTGCCGGTGTCCCGGTTCTGTTTGAGTGGGGATATTTCTCCGATCACGAA -AACAGCTTCCCGCAAGAGCTGCTGGATAAACTGGTCGAACGCGCTAATCTGCCGGGTTACCTCGGTAACT -GCCACTCTTCCGGTACGGTCATTCTGGATCAACTGGGCGAAGAGCACATGAAAACCGGCAAGCCGATTTT -CTATACCTCCGCTGACTCCGTGTTCCAGATTGCCTGCCATGAAGAAACTTTCGGTCTGGATAAACTCTAC -GAACTGTGCGAAATCGCCCGTGAAGAGCTGACCAACGGCGGCTACAATATCGGTCGTGTTATCGCTCGTC -CGTTTATCGGCGACAAAGCCGGTAACTTCCAGCGTACCGGTAACCGTCACGACCTGGCTGTTGAGCCGCC -AGCACCGACCGTGCTGCAGAAACTGGTTGATGAAAAACACGGCCAGGTGGTTTCTGTCGGTAAAATTGCG -GACATCTACGCCAACTGCGGTATCACCAAAAAAGTGAAAGCGACTGGCCTGGACGCGCTGTTTGACGCCA -CCATCAAAGAGATGAAAGAAGCGGGTGATAACACCATCGTCTTCACCAACTTCGTTGACTTCGACTCTTC -CTGGGGCCACCGTCGCGACGTCGCCGGTTATGCCGCGGGTCTGGAACTGTTCGACCGCCGTCTGCCGGAG -CTGATGTCTCTGCTGCGCGATGACGACATCCTGATCCTCACCGCTGACCACGGTTGCGATCCGACCTGGA -CCGGTACTGACCACACGCGTGAACACATTCCGGTACTGGTATATGGCCCGAAAGTAAAACCGGGCTCACT -GGGTCATCGTGAAACCTTCGCGGATATCGGCCAGACTCTGGCAAAATATTTTGGTACTTCTGATATGGAA -TATGGCAAAGCCATGTTCTGATGGATTTGGGCGGAGCGTTGACTCCGCCTTTGTTATGTCACAAAAAGGA -TAAAACAATGGCTACCCCACACATTAATGCAGAAATGGGCGATTTCGCTGACGTAGTTTTGATGCCAGGC -GACCCGCTGCGTGCGAAGTATATTGCTGAAACTTTCCTTGAAGATGCCCGTGAAGTGAACAACGTTCGCG -GTATGCTGGGCTTCACCGGTACTTACAAAGGCCGCAAAATTTCCGTAATGGGTCACGGTATGGGTATCCC -GTCCTGCTCCATCTACACCAAAGAACTGATCACCGATTTCGGCGTGAAGAAAATTATCCGCGTGGGTTCC -TGTGGCGCAGTTCTGCCGCACGTAAAACTGCGCGACGTCGTTATCGGTATGGGTGCCTGCACCGATTCCA -AAGTTAACCGCATCCGTTTTAAAGACCATGACTTTGCCGCTATCGCTGACTTCGACATGGTGCGTAACGC -AGTAGATGCAGCTAAAGCACTGGGTATTGATGCTCGCGTGGGTAACCTGTTCTCCGCTGACCTGTTCTAC -TCTCCGGACGGCGAAATGTTCGACGTGATGGAAAAATACGGCATTCTCGGCGTGGAAATGGAAGCGGCTG -GTATCTACGGCGTCGCTGCAGAATTTGGCGCGAAAGCCCTGACCATCTGCACCGTATCTGACCACATCCG -CACTCACGAGCAGACCACTGCCGCTGAGCGTCAGACTACCTTCAACGACATGATCAAAATCGCACTGGAA -TCCGTTCTGCTGGGCGATAAAGAGTAATTGTGTTTCGCTGCAAGGCGATTGCCTTGTGAAGCCGGAGCGG -GAGACTGCTCCGGCTTTTTAGTATCTATTCATTTTTCTCTCCAGCTTGAATATTTTCGCTATACTTTTCA -GTGAAATGTGTTAATAAATCTATTCAAGTATCTATTCACGAATCTATTCATTAATGAGCGAGCTGACTGA -TCTTTTACTGCAAGGGCCGCGTTCTGCCCCGGAATTGCGCCAGCGTCTGGCAATCAGTCAGGCGACGTTC -TCACGCCTTGTTGCCAGAGAAGATCGGGTGATTCGCTTTGGTAAAGCACGGGCAACGCGATATGCACTGC -TGCGTCCTTATCGCGGAATTGAGCGTATTCCCGTCTGGCGGGTGGACGATACCGGAAAGGCGCATAAATT -CGCCGACATCCGGTTGTGCTGGCCGCAGGGAAGTTGTCTGGTAACAGGCGCAGATGGCGACGAACAGTGG -TTTGATGGTTTGCCCTGGTATTTGACCGATCTCCGACCGCAGGGCTTTTTAGGGCGCGCGTGGGGCAGGA -AGTTAGCCGCGCAACTGAATCTGACTGATGATATACGTCTCTGGCAGGAAGAAGATGTGCTCTACGCCCT -GACCGTATTTAACGGTGAATATACTGGCGGTTGGTTGGTCGGGGAGGGGAATTATCAGCGATGGATTACT -GCACAACACCCTGCGGAAATTCCTCTGGATCAAAAACTCACCCATTACGAACAGCTGGCAAGTGATGCAC -TGGCAGGAGAAATTGTGGGTTCTTCTGCGGGCGGCGAGCAGCCAAAATTTACCTACTATGCACAAACGCC -GTCAGGCAATAAACATGTGTTGGTGAAATTCACCGTACCACAGCAAACCGCGGTCAGCCAACGTTGGGGT -GACCTGCTAATTGCTGAATCTATTGCCGCGCAAATCCTGCGTGACGGTGGGATCCACGCCATCGAGTCAA -CGGTGCTTGTAACAAGTAACAGGCAGGTATTCCTCGAAGCGGAACGCTTTGACTGCAAAGGTAACGATGG -TCGCTTGCCTATTGTGTCGCTGGAGGCGGTGCAGAGTGAGTTTATCTCTTCTCCGGGATCGTGGCCGCAG -GCAATGCGCCGTTTGTGTGAGCAACAACTTGTCACTCACCAGAGCGTGGCGCAAACAGAAGTGATCTGGG -CATTTGGGCGACTTATCGCCAACAGCGATATGCACGCAGGTAATTTATCGTTTTATTTATCTGAACCGCC -ATTTGCGCTGACGCCCGTCTACGACATGCTGCCGATGGTCTATGCACCAAACAGCGCTGGAATGCTGCGT -GATGCTGCCATTGAGGTGAAGTTTGATCTTAACGTCAGTAAAAGCGCTTGGTTAACGGCGATCCCGCTGG -CGCAGCAGTTCTGGCAAACGGTCGCCAGAGATCCGCGTATCAGCGAGGCGTTTCGCCACATTGCGCAAGA -AATGCCGGAAAAAATCCGGCAAATCGAAGAGAAAGTTGCCCGCATGGGCGGGTAACTACCTTACAGCCCC -CGCCATCCATGCCGATAACTCCCGTAGCTCTTTTTCCTGTTCCGGGAAGTCAACCAACAGCGCTTCGCAC -TCCTGTTGCAGCATATCTGCGCGGTACAGGCAGCCTTGCAGTCGTCCGGCGAGGGCTTCCAGCGGCGCGG -GGTTGAGGCTGTCGGTAAACACCTGGGCGCGGGTGATATGGCCTTTTTCAACGTCGAAATGCAGTTCCAC -GCCGCCCCAGGTAAAGCGTTCATCCAGCAGATGCGAGAATGCCGGAGCCTGACCGAAGTTCCATTCCCAG -CTACTCTGGCGGGCAAAGGTTTCGGCGAAGTTTGGCAAGTCTGGCGTTTTGTTCGGGGAGATGATTTCCG -CTTCCACGCGCTCGCCATAATGGGCGAAAAAGGCCTCGGTTATGGCCTCGCAAACCTGCTCATGGGTGAT -CCCCGGCAACAGCTCGGTGAGGTTGGTCACGCGGGAACGTACCGACGTAATGCCTTTCGCCGCCAGTTTC -TTTTTATCCGGATTGAGATAGTTTGCCAGGCGGCTGAGGTCGGCATTGAGTAGCAAGGTGCCGTGGTGGA -AGCCGCGATCTTTGGTTTCGCGATAGGCCGAGCCTGAGACTTTGCGGTCGCCTTCGACGGTTTTCACCAC -CAGATCGTTACGTCCGGACGCTTCGGCGCTGACGCCGAGCGCGTTCAGCGCATTGAGCACAATCGACGTG -GAGATAGTTTTATCGTACTCCGGCTTGCCAGCCATAAAGGTAAAGCAGGTATTGCCGAGATCGTGGAACA -CCGCGCCGCCACCGCTACTGCGCCGCGCCAGGCGGACGTTATCTTCTTCCATCCGCCGGGTATTACACTC -TTTCCACGGGTTCTGCGCGCGACCAATTACTACCGTGTCGGCATTGCGCCAGAGAAACAGAACGCGCTGC -GTGGCGGGCATTTGGCGAAAAATACACTCTTCCACCGCCAGGTTAAACCACGGGTCGTAAGAGTCAGAGA -TGAGCAGGCGTAATGTGGACATAACGATTTCCTTTCTTGTAGTAATGGGTCACTCTTTTTTCTCGCTTTC -TTCCTCTTCCGGCACCGGTTTGCTGGCGGTTAACAGGAAGGGCGATTGCTGCCAGCGGGTGCGTTTACCC -TGTAGCAGCGTGCGGGTCAGCACTACACCGATTGCCAGTGAGAGCAGCAACATCAGGCGTAAAATGTTAG -TGGTGTTATCCACCTGTTGGGCTTCGGTGGCGAGCGTATGGGTGTCGAGTGTCAGGCGCAGATAGCCGAG -CGGTCCGTTTTTACCCGCAATTGGCTCGACAATCTGCTGGTTAAAATAGCCGCCTGCTTTTTTACCGTCG -AGCGCCAGCCGGTCGCGCACTTCGACGCTTTCGCCAGAACGTGCGATAAGATCGCCTTGTTCGTCATACA -CACCCGCGTCGAGGATACGGCTTTCATCCGTTAACTGATCGAGGATCGCCTGAATGCGTTTTTCATCCGG -TGAGTCGGTACGCATCAGCGGTGCAACGTTCAGCGTCACCTGACGCGCCAGGGTGCGGGCCAGTTCTTCC -AGCTGTGGATTACGCTGTCGCTGGTGGTTTTGACTAAACCATGACGCTCCCTGCATCAGCGCCACTAACA -AGGCAAGACAGAACAGGACAATCACTGCCCGATGCAGCCGGAATTTCAGTTTTGTGCGAGCCATCTTCCA -CCCTTTGAAAATTTGAGACTTAATGTTGCCAGAAGCAATGGATACAAGGTAGCCTCATGCGTTATTTTCC -CTGCTTCGAACGATTTTACAGGAGCCTTAATGCCTAACATTACCTGGTGCGACCTGCCTGAAGATGTCTC -TTTATGGCCGGGTCTGCCTCTTTCATTAAGTGGTGATGAAGTGATGCCACTGGATTACCACGCAGGTCGT -AGCGGCTGGCTGCTGTATGGTCGTGGGCTGGATAAACAACGTCTGACCCAATACCAGAGCAAACTGGGTG -CGGCGATGGTGATTGTTGCCGCCTGGTGCGTGGAAGATTATCAGGTGATTCGTCTGGCAGGTTCACTCAC -CGCACGGGCTACACGCCTGGCCCACGAAGCGCAGCTGGATGTCGCCCCGCTGGGGAAAATCCCGCACCTG -CGCACGCCGGGTTTGCTGGTGATGGATATGGACTCCACCGCCATCCAGATTGAATGTATTGATGAAATTG -CCAAACTGGCCGGAACGGGCGAGATGGTGGCGGAAGTAACCGAACGGGCGATGCGCGGCGAACTCGATTT -TACCGCCAGCCTGCGCAGCCGTGTGGCGACGCTGAAAGGCGCTGACGCCAATATTCTGCAACAGGTGCGT -GAAAATCTGCCGCTGATGCCAGGCTTAACGCAACTGGTGCTCAAGCTGGAAACGCTGGGCTGGAAAGTGG -CGATTGCCTCCGGCGGCTTTACTTTCTTTGCTGAATACCTGCGCGACAAGCTGCGCCTGACCGCCGTGGT -AGCCAATGAACTGGAGATCATGGACGGTAAATTTACCGGCAATGTGATCGGCGACATCGTAGACGCGCAG -TACAAAGCGAAAACTCTGACTCGCCTCGCGCAGGAGTATGAAATCCCGCTGGCGCAGACCGTGGCGATTG -GCGATGGAGCCAATGACCTGCCGATGATCAAAGCGGCAGGGCTGGGGATTGCCTACCATGCCAAGCCAAA -AGTGAATGAAAAGGCGGAAGTCACCATCCGTCACGCTGACCTGATGGGGGTATTCTGCATCCTCTCAGGC -AGCCTGAATCAGAAGTAATTGCTCGCCCGCCATCCTGCGGGCGGCACAGCATTAACGAGGTACACCGTGG -CAAAAGCTCCAAAACGCGCCTTTGTTTGTAATGAATGCGGGGCCGATTATCCGCGCTGGCAGGGGCAGTG -CAGTGCCTGTCATGCCTGGAACACCATCACCGAGGTGCGTCTTGCTGCGTCGCCAATGGTGGCGCGTAAC -GAGCGTCTCAGCGGCTATGCCGGTAGCGCCGGGGTGGCAAAAGTCCAGAAACTCTCCGATATCAGCCTTG -AAGAGCTGCCGCGTTTTTCCACCGGATTTAAAGAGTTCGACCGCGTACTAGGCGGCGGCGTGGTGCCAGG -AAGTGCCATTCTGATTGGCGGTAACCCTGGTGCGGGGAAATCCACGCTGCTACTGCAAACGCTGTGCAAA -CTGGCCCAGCAGATGAAAACGCTGTATGTCACCGGCGAAGAGTCGCTGCAACAGGTGGCAATGCGCGCTC -ATCGCCTTGGCCTGCCGACTGACAATCTCAATATGTTGTCGGAAACCAGCATCGAACAGATCTGCCTGAT -TGCCGAAGAAGAGCAACCGAAGCTGATGGTAATTGACTCGATCCAGGTGATGCATATGGCGGATGTACAG -TCATCGCCTGGTAGCGTGGCGCAGGTGCGTGAAACGGCGGCTTATTTGACACGCTTCGCCAAAACGCGCG -GTGTGGCGATTGTCATGGTGGGGCACGTAACCAAAGATGGTTCGCTGGCTGGCCCGAAAGTGCTGGAACA -CTGTATCGACTGTTCGGTGCTTTTGGATGGCGATGCCGACTCCCGTTTTCGCACCTTGCGCAGCCATAAA -AACCGCTTCGGCGCGGTGAATGAGCTGGGCGTCTTCGCGATGACCGAACAGGGGCTGCGTGAAGTCAGCA -ACCCTTCGGCAATTTTCTTAAGTCGCGGCGATGAAGTGACCTCCGGTAGCTCAGTGATGGTGGTATGGGA -AGGAACGCGTCCACTGCTGGTGGAGATTCAGGCGCTGGTCGATCACTCGATGATGGCGAACCCACGCCGC -GTGGCAGTGGGGCTGGAACAAAACCGTCTGGCAATCCTGCTGGCTGTGTTGCACCGTCACGGTGGTCTGC -AAATGGCCGATCAGGATGTGTTTGTGAACGTGGTCGGCGGCGTGAAGGTAACCGAAACCAGTGCCGACTT -AGCGTTACTGCTGGCGATGGTTTCCAGCCTGCGCGACAGACCGCTGCCGCAGGATCTGGTGGTGTTTGGT -GAAGTCGGGCTGGCAGGGGAGATCCGCCCGGTGCCCAGCGGTCAGGAACGAATCTCTGAAGCGGCGAAAC -ACGGTTTTCGCCGGGCGATTGTTCCGGCGGCTAACGTGCCGAAAAAAGCGCCGGAAGGGATGCAGATTTT -TGGCGTTAAAAAACTCTCCGACGCGCTTAGCGTGTTCGACGACTTATAATGAGATATACGGAGGGAGATA -TGTCGTCATTTGATTACCTGAAAACTGCCATCAAGCAACAGGGCTGCACGCTACAGCAGGTAGCTGATGC -CAGCGGTATGACCAAAGGGTATTTAAGCCAGTTACTGAATGCCAAAATCAAAAGCCCCAGCGCGCAAAAG -CTGGAGGCGTTGCACCGTTTTTTGGGGCTTGAGTTTCCCCGGCAGAAGAAAACGATCGGTGTCGTATTCG -GTAAGTTCTACCCACTGCATACCGGACATATCTACCTTATCCAGCGCGCCTGTAGCCAGGTTGACGAGCT -GCATATCATTATGGGTTTTGACGATACCCGTGACCGCGCGTTGTTCGAAGACAGTGCCATGTCGCAGCAG -CCGACCGTGCCGGATCGTCTGCGTTGGTTATTGCAAACTTTTAAATATCAGAAAAATATTCGCATTCATG -CTTTCAACGAAGAGGGCATGGAGCCGTATCCGCACGGCTGGGATGTGTGGAGCAACGGCATCAAAAAGTT -TATGGCTGAAAAAGGGATCCAGCCGGATCTGATCTACACCTCGGAAGAAGCCGATGCGCCACAGTATATG -GAACATCTGGGGATCGAGACGGTGCTGGTCGATCCGAAACGTACCTTTATGAGTATCAGCGGTGCGCAGA -TCCGCGAAAACCCGTTCCGCTACTGGGAATATATTCCTACCGAAGTGAAGCCGTTTTTTGTGCGTACCGT -GGCGATCCTTGGCGGCGAGTCGAGCGGTAAATCCACCCTGGTAAACAAACTTGCCAATATCTTCAACACC -ACCAGTGCGTGGGAATATGGCCGCGATTATGTCTTTTCACACCTCGGCGGTGATGAGATCGCATTGCAGT -ATTCTGACTACGATAAAATCGCGCTGGGCCACGCTCAATACATTGATTTTGCGGTGAAATATGCCAATAA -AGTGGCATTTATCGATACCGATTTTGTCACCACTCAGGCGTTCTGCAAAAAGTACGAAGGGCGGGAACAT -CCGTTCGTGCAGGCGCTGATTGATGAATACCGTTTCGATCTGGTGATCCTGCTGGAGAACAACACGCCGT -GGGTGGCGGATGGTTTACGCAGCCTCGGCAGTTCGGTGGATCGCAAAGAGTTCCAGAACTTGCTGGTGGA -GATGCTCGAAGAGAACAATATCGAATTTGTGCGGGTTGAAGAGGAAGATTACGACAGTCGTTTCCTGCGC -TGCGTGGAACTGGTGCGGGAGATGATGGGGGAGCAGAGATAACCGTGATGAAACTGCTCAAAGGCGAGGT -ATAAAATGAGTTTTTTTGATGAGTTGAAAACCTCTCTGGAAGAGGCTGTCGAGATTAAACAAGGTTTGAA -AAAACCTGCACGGGTGACCCGCCACGAAATTGAGGATGCTAAGGCTGTTGTAGACCGGAAACGGTGTTCA -CGCCGCATCCGGCATTCGGTGCTCAATGCCTGATGCGACGCTTACCGCGTCTTATCAGGCCTACAGTTTT -ACAACGTATTGAAATTGCTGGTTTTGTAGGCCGGATAAGGCGTTCGCGCCGCATCCGGCATTTTACGCAT -TACTTCGCAATACGCTTGTACTTGATACGCTTCGGCTCCAGCGCGTCTGCGCCCAGCGTGCGTTTCTTGT -ACTCTTCGTACTCGGTAAAGTTACCTTCGAAGAACTCAACTTTACCTTCATCCTGGTAATCCAGAATGTG -CGTGGCGATACGGTCGAGGAACCAACGGTCGTGCGAGATAACCATCGCACAGCCCGGGAACTCCAGCAGG -GCGTTTTCCAGCGCGCGCAGGGTTTCGATATCCAGGTCGTTGGTTGGTTCGTCGAGCAGCAGCATGTTGC -CGCCAACCTGCAGCAGCTTCGCCAGATGCAGACGACCGCGCTCACCACCGGAGAGTTCACCAACGCGTTT -ACCCTGATCAACCCCTTTAAAGTTAAAGCGGCCAACGTAGGCGCGGCTTGGCATCTCGGTGTTGCCGATC -TTCATGATATCCAGCCCGCCGGAAACTTCTTCCCAAACGGTTTTGCTGTTATCCATTGAGTCACGGAACT -GATCAACCGACGCCAGTTTCACCGTTTCACCCAAAGTGATGGTGCCGCTGTCCGGCTGTTCCTGACCAGA -GATCATACGGAACAGGGTCGATTTACCCGCACCGTTCGGACCGATGATCCCGACGATCGCTCCTTTCGGG -ATCGAGAAGCTCAGGTCATCAATCAGCAGACGATCGCCATAGGATTTACGCAGGTTGCTGACTTCCAGCA -CTTTATCGCCCAGACGCGGTCCAGGTGGAATAAACAGTTCGTTGGTTTCGTTACGTTTCTGATATTCGGT -GCTGTTCAGTTCTTCAAAGCGCGCCAGACGTGCTTTACCTTTCGACTGACGGCCTTTAGTACCTTGACGT -ACCCATTCCAGCTCTTTCTCAATCGACTTACGACGCGCCGCTTCTTGTGAAGCTTCCTGCGCCAGGCGCT -GATCTTTCTGCTCCAGCCAGGAGGAGTAGTTACCTTCCCACGGAATACCTTCACCGCGGTCAAGTTCGAG -GATCCAGCCTGCAACGTTATCGAGGAAGTAACGGTCGTGGGTAATCGCCACAACGGTGCCTTCGAAGTCG -TGCAGGAAGCGTTCCAGCCAGGCCACGGATTCGGCATCCAGGTGGTTGGTCGGTTCGTCGAGCAGCAGCA -TGTCTGGTTTTTCCAGCAGCAGGCGGCACAACGCTACGCGACGACGTTCACCACCGGAGAGGTTAGCGAT -TTTCGCGTCCCAGTCCGGCAGACGTAGCGCATCCGCCGCACGCTCCAGCTGTACGTTCAGATTATGACCG -TCGTGAGCCTGAATGATCTCTTCCAGACGGCCTTGTTCAGCGGCCAGCTTGTCAAAATCGGCATCCGGAT -CGGCGTACAGCGCATACACTTCATCCAGGCGTTTCAGGGCGTTAACCACTTCTGAAACCGCTTCTTCAAT -GGACTCACGCACGGTGTGTTCCGGGTTCAGCTGCGGTTCCTGCGGCAGATAACCAATCTTGATGTCTGGC -TGCGGACGCGCTTCACCTTCGATGTCTTTATCAATGCCCGCCATAATGCGCAGCAGGGTGGACTTACCCG -CGCCATTCAGACCCAGGACACCAATTTTTGCCCCAGGGAAGAAACTCAGAGAGATGTTTTTCAAAATATG -ACGTTTCGGCGGAACAACTTTGCCGACACGATGCATGGTATAAACGAATTGAGCCACGTTGGACTTCGCC -TCTATGTTTATCGTGATAATGAGTTTTCAAAGGCGAAGTGTAGCCTTTTTCCCCGCCTAATCCCAGCCGG -TCGATCACCCTCGCAGTAAAAGTAAAAAAGTGTCCGTAACGTGGCGTAAACGGCAATGACTGGTTAGCAT -AAATCTATTACGCGGCATGACGCTGCATTGATGTATTTACACTTAGAGGATGCGCTTGTGGAAAAAGCCA -AACAAGTTACCTGGCGGCTGTTGGCTGCCGGTGTCTGTCTGCTGACGGTCAGCAGCGTGGCGCGAGCCGA -CTCACTGGATGAGCAGCGTAGTCGTTACGCGCAAATCAAGCAGGCCTGGGATAATCGACAAATGGATGTG -GTCGAACAAATGATGCCTGGACTGAAGGATTATCCGCTTTATCCCTACCTGGAATACCGCCAGATCACCG -ATGATCTGATGAATCAACCGGCGGTGACGGTCACTAACTTTGTTCGCGCTAACCCCACGCTTCCTCCCGC -TCGCACGCTGCAATCTCGTTTCGTCAATGAACTGGCGCGGCGTGAAGACTGGCGTGGCTTGTTAGCCTTT -AGCCCGGAAAAGCCCGGAACTACCGAAGCGCAATGTAATTACTACTATGCGAAATGGAACACCGGGCAGA -GTGAAGAAGCCTGGCAAGGGGCGAAAGAGCTGTGGCTAACCGGCAAGAGCCAGCCTAACGCCTGTGACAA -GTTATTTAGCGTCTGGCGTGCGTCAGGTAAACAAGATCCGCTGGCGTATTTAGAGCGTATCCGTCTGGCG -ATGAAAGCGGGTAACACAGGCCTGGTAACAGTGCTGGCAGGGCAGATGCCTGCCGATTACCAGACTATCG -CCTCGGCAATCATTTCACTGGCGAACAACCCTAATACGGTACTGACCTTCGCGCGTACAACTGGCGCGAC -CGATTTTACCCGTCAAATGGCGGCGGTGGCGTTTGCCAGTGTGGCGCGGCAGGATGCTGAGAATGCACGG -CTGATGATCCCATCGCTTGCCCAGGCGCAGCAGCTTAATGAAGATCAGATTCAGGAGCTGCGCGATATCG -TCGCCTGGCGTTTGATGGGCAACGATGTCACCGACGAGCAGGCGAAATGGCGCGATGACGCCATTATGCG -CTCGCAATCTACTTCGCTTATTGAACGCCGTGTACGAATGGCGCTTGGCACCGGCGATCGTCGCGGCCTG -AATACCTGGCTGGCGCGTCTGCCTATGGAAGCGAAAGAGAAAGATGAATGGCGTTACTGGCAGGCGGATT -TATTGCTGGAACGCGGACGTGAAGCTGAAGCAAAAGAGATTTTGCATCAACTCATGCAACAGCGTGGTTT -CTACCCGATGGTTGCAGCACAACGCATCGGCGAAGAGTATGAGCTGAAGATTGATAAAGCGCCGCAGAAT -GTTGACAGCGCCCTGACTCAGGGGCCGGAGATGGCGCGCGTGCGCGAGTTGATGTACTGGAATCTCGATA -ATACCGCGCGTAGCGAGTGGGCCAATCTGGTGAAGAGCAAGTCAAAAACAGAGCAGGCTCAACTGGCGCG -GTATGCTTTCAACAACCAATGGTGGGATCTTAGCGTTCAGGCAACGATCGCCGGGAAGCTGTGGGATCAT -CTGGAAGAGCGATTCCCGCTGGCTTACAACGATCTTTTCAAACGCTACACCAGCGGTAAGGAGATCCCGC -AAAGCTATGCGATGGCGATTGCTCGTCAGGAGAGCGCCTGGAATCCGAAAGTGAAATCACCGGTAGGGGC -CAGCGGCTTGATGCAGATTATGCCTGGTACAGCGACCCATACGGTGAAGATGTTCTCTATTCCCGGTTAT -AGCAGTCCTGGGCAATTGCTGGATCCGGAAACGAATATCAACATTGGCACCAGTTACCTGCAATATGTTT -ATCAGCAGTTTGGCAATAATCGTATTTTCTCCTCAGCAGCTTATAACGCCGGACCAGGGCGGGTGCGAAC -CTGGCTTGGCAACAGCGCCGGGCGTATCGACGCAGTGGCATTTGTCGAGAGTATTCCATTCTCCGAGACG -CGCGGTTATGTGAAGAACGTGCTGGCTTATGACGCTTACTACCGCTATTTCATGGGGGATAAACCGACGT -TGATGAGCGCCACGGAATGGGGACGTCGTTACTGATCCGCACGTTTATGATATGCTATCGTACTCTTTAG -CGAGTACAACCGGGGGAGGCATTTTGCTTCCCCCGCTAACAATGGCGACATATTATGGCCCAACAATCAC -CCTATTCAGCAGCGATGGCAGAACAGCGTCACCAGGAGTGGTTACGTTTTGTCGACCTGCTTAAGAATGC -CTACCAAAACGATCTCCATTTACCGTTGTTAAACCTGATGCTGACGCCAGATGAGCGCGAAGCGTTGGGG -ACTCGCGTGCGTATTGTCGAAGAGCTGTTGCGCGGCGAAATGAGCCAGCGTGAGTTAAAAAATGAACTCG -GCGCAGGCATCGCGACGATTACGCGTGGATCTAACAGCCTGAAAGCCGCGCCCGTCGAGCTGCGCCAGTG -GCTGGAAGAGGTGTTGCTGAAAAGCGATTGATTTTGTAGGCCTGATAAGACGTGGCGCATCAGGCATCGT -GCACCGAATGCCGGATGCGGCGTGAACGCCTTATCCGTCCTACAAATACCCGTAATTTCAATATGTTTGG -TAGGCATGATAAGACGCGGCAGCGTCGCATCAGGCGCTTAATACACGGCATTATGAAACGGACTCAGCGC -CAGGATCACCGCCTGGTGATAGACGCTGGCGCGAGTGAGTTTCCCGGCGGTAAACACGCCGATCGCCCCT -TCCTTACGACCAATCTCATCAATACCGGTATAACGCGACATCACGGGACCAAGCGCCTCACCTTCACGCA -CTTTTTCCAGAATCACCGCAGGCAACGGCAAAGTAGCCGAACGCGCCTCGCCGCGCTGGCTGGCGTTTTC -AATCACCACCCAACTGAAAGTGCTGTCACCATCGATGCCAGCTTCAATCGCCACCCAAAAATCAGCCTCT -GGAAGTAAACGGCGGGCATTGGCTACCCGATTTCGTGCGCCAGCGCGCGTTTCCTCACTGCCAAAGGGCT -GTTCCGGTACACCGCTCTCGACGGCAACGGATGCAATATGGCAGGATCCTTCGCCGAAGATCTCGTGAAA -TGCCTGCAGAATGGCCTGAATTTTAGCGGGATTGGTGGTCGCACAGACAACTTGGTGCATAATCAGCATT -ACTCAGAAAATTAACGTTACAGCAGTATACGGAAAAAAAGCATGTTACAGGTATACCTAGTCCGCCACGG -TGAAACGCAGTGGAACGCCGAGCGACGTATTCAGGGCCAGTCTGACAGCCCGCTGACCGCCAAAGGTGAG -CAACAGGCGATGCAGGTGGCAACCCGTGCCAAAGAGCTTGGCATTACGCATATCATCAGTAGCGATTTAG -GACGCACCCGGCGTACGGCGGAAATCATCGCCCAGGCCTGCGGCTGTGACATCATCTTTGATTCTCGCCT -GCGTGAATTAAACATGGGTGTGCTGGAAAAAAGACATATCGATTCTCTGACCGAAGAAGAAGAGAACTGG -CGTCGGCAGCTGGTCAATGGCACCGTTGACGGGCGTATTCCTGAAGGCGAGTCAATGCAGGAGCTCAGCG -ATCGCGTCAATGCGGCACTGGAATCTTGCCGGGACTTACCGCAGGGAAGCCGACCGCTGCTGGTGAGTCA -TGGTATTGCACTGGGATGCCTGGTGAGTACGATTCTCGGATTACCAGCATGGGCAGAGCGCCGCTTACGT -CTGCGTAACTGTTCTATTTCGCGCGTGGATTATCAGGAAAGCCTGTGGCTGGCGTCTGGCTGGGTCGTTG -AAACCGCAGGGGACATCTCGCATCTGGACGCCCCTGCATTAGATGAGCTGCAGCGTTAACGACGGATCGG -AATCAGCAGTTCACAGCGTAGATTAATTGGGCGATCTCCCGCTTTGGCATCTTCTGCCGGGTAGTATCGC -TCAATATCCTGACCTTTACGGCGCGTCAGGTTGAGCATTGGCATGCACGTTCCGTATACCGTCAGGATAA -ACTCCTGCACGCCGGTTCCCAGACCTTCATAGGTAAACATCACATATTCGCCGCCCTGCAGCATCACCGG -ATGCCCCGTCAGTACATAGCCATCTGCCTGATCCTGGGCTAACGCGGTGGTATAGAATACCTCTTGCTCG -TCGTCTTTATCCTGACTCGGACGCGTTTCATTCAGGCCGTAGAGCACCGGCGGAATGGTCGGCGCGTTGC -CGAGAAAATCGTGCCAGAACTGATAACGCATTTCATGGCGGAAATCAGAGATTTGCTCCAGCGAACAGGA -GTAGCTCTGGGTAACACCAATCAGCGGCGTATCTTCCAGGGTGACAAATTTGTGCTCTGGCATAGTGAAT -TCACCCAGGCGTAGCGGCGGGCGAATACCAAAGGCGCTCCATTCAGGAGAACGGCGGTAAAGTGCAGGAG -TCTGGGCAAACTGCTTCTTGAATGCGCGGGTAAATGTCTGTTGAGAGTCGAAGCGGTATTGCAGCGCGAT -GTCCAGAATCGGACGCGCAGTCAGGCGTAGTGCGACCGCCGATTTCGACAAACGACGAGCACGAATATAC -GCGCCAATAGCATGGCCAGTGACATCTTTAAACATTCTCTGTAAGTGCCACTTGGAATAACCTGCTTTCG -CCGCTACATTGTCGAGCGACAGGGGCTGATCCAGATGACCTTCCAGCCAGATTAAAAGGTCGCGAATAAT -GCCGGCCTGATCCATAAAATATCCTCATCCTTTCAACAACGAGCACCTGACATCAGGTAATTGGATAATA -GCATTTTTTGCTGTTTTAGCATTCAGTGTTTTTTTCTTAGTAGAGTATGTTTTAGGGCTTGACGGAAATA -AAAGTATTGAGATTTTGTTCTTAATCAATATGTTATTTACCGTGACGAACTAATTGCTCGTGTAATAGAT -AAAAATGGTAACAATATGAAATACAAGCATTTGATCCTGTCTTTAAGCCTGATAATGCTGGGGCCATTGG -CTCATGCAGAAGAGATTGGTTCGGTCGACACCGTATTTAAAATGATCGGCCCGGATCACAAAATTGTTGT -GGAAGCCTTTGATGATCCCGATGTGAAAAATGTCACCTGTTATGTGAGCCGGGCGAAAACCGGTGGTATT -AAAGGGGGATTGGGTCTGGCGGAAGATACCTCCGATGCGGCCATTTCTTGTCAGCAAGTCGGGCCGATTG -AACTGTCGGATCGTATTAAAAACGGCAAAGCTCAGGGCGAGGTAGTATTCAAAAAACGCACGTCCCTGGT -CTTTAAGTCGTTACAGGTCGTGCGCTTTTATGATGCCAAACGCAACGCGCTCGCTTATCTGGCTTACTCC -GACAAAGTTGTAGAAGGTTCGCCGAAAAACGCGATTAGCGCGGTTCCTGTCATGCCGTGGCGGCAATAAC -AGAGGCGATTTATGCAACGGGAAACGGTCTGGTTAGTGGAAGATGAGCAAGGGATAGCCGACACGCTGGT -CTACATGTTGCAGCAGGAAGGTTTTGCCGTCGAGGTCTTTGAGCGAGGCTTGCCGGTGCTGGATAAAGCT -CGCAAGCAGGTACCCGACGTCATGATTCTCGATGTTGGTCTGCCGGATATTAGCGGCTTTGAATTGTGCC -GCCAGTTACTGGCGCTCCATCCGGCGTTACCTGTACTGTTCCTGACGGCCCGAAGTGAAGAGGTCGATCG -CCTGCTTGGGCTGGAAATTGGTGCTGACGACTACGTGGCTAAACCGTTTTCACCCCGCGAAGTGTGCGCC -AGGGTGCGCACCTTACTGCGTCGGGTGAAGAAGTTCTCGACGCCGTCTCCCGTCATCCGTATTGGACATT -TTGAATTGAATGAACCCGCGGCGCAGATCAGCTGGTTTGACACGCCATTAGCGCTGACTCGGTATGAGTT -TTTATTGTTGAAGACGTTACTCAAGTCACCGGGCCGCGTCTGGTCCCGCCAGCAACTGATGGATAGCGTA -TGGGAAGATGCGCAGGACACCTACGATCGCACCGTCGATACCCACATTAAAACGCTGCGTGCCAAGCTGC -GCGCCATCAACCCCGATCTTTCACCGATTAATACTCATCGCGGCATGGGATATAGCCTGAGGGGCCTGTA -ATGCGTATCGGCATGCGGTTGTTGCTGGGCTATTTTTTACTGGTGGCGGTGGCAGCCTGGTTCGTACTGG -CCATTTTTGTCAAAGAAGTTAAACCGGGCGTGCGAAGAGCAACGGAGGGGACGTTGATCGACACCGCAAC -GTTGCTGGCGGAGCTGGCGCGTCCCGATTTGCTCTCTGGGGACCCAACGCATGGGCAACTGGCGCAGGCG -TTTAATCAGCTACAACATCGCCCGTTTCGCGCCAATATCGGTGGCATTAACAAAGTGCGCAATGAATATC -ATGTCTATATGACCGATGCGCAGGGCAAAGTATTGTTCGATTCGGCAAATAAAGCCGTTGGACAGGATTA -TTCGCGCTGGAATGACGTCTGGCTAACGTTGCGTGGTCAGTATGGTGCGCGCAGCACGTTGCAAAATCCT -GCCGATCCCGAAAGTTCTGTGATGTATGTTGCCGCACCGATTATGGACGGCTCGCGGCTTATTGGCGTTT -TGAGCGTAGGCAAACCGAACGCGGCGATGGCTCCGGTCATTAAGCGTAGCGAGCGGCGAATTTTATGGGC -CAGCGCCATTTTGTTGGGGATTGCACTGGTGATTGGCGCAGGCATGGTTTGGTGGATCAACCGCTCTATT -GCCCGGCTCACTCGCTATGCTGATTCCGTCACTGACAATAAGCCCGTTCCTCTCCCCGATCTCGGTAGTA -GCGAGTTGCGTAAACTCGCGCAGGCGCTGGAAAGTATGCGCGTGAAGCTGGAAGGGAAAAACTATATTGA -GCAGTATGTTTACGCATTAACTCATGAGCTAAAAAGCCCACTGGCGGCGATTCGTGGAGCGGCGGAAATT -TTACGCGAAGGTCCGCCGCCGGAAGTGGTGGCTCGTTTTACTGACAACATTCTGACGCAAAATGCGCGTA -TGCAGGCATTGGTAGAAACGTTACTACGCCAGGCAAGACTGGAGAATCGTCAGGAAGTCGTTCTGACTGC -TGTTGATGTGGCGGCATTATTCCGCCGCGTCAGCGAAGCGCGCACCGTGCAGTTGGCAGAAAAAAAAATC -ACTCTGCATGTTACGCCCACCGAGGTTAACGTTGCTGCTGAACCGGCGTTACTGGAGCAGGCGCTGGGAA -ATTTACTGGATAACGCCATCGATTTTACCCCCGAGAGCGGTTGCATCACGCTAAGCGCCGAAGTGGATCA -GGAACACGTCACGCTTAAGGTGCTGGATACCGGTAGTGGTATTCCTGACTACGCGCTTTCACGTATTTTT -GAACGCTTTTACTCTTTGCCTCGTGCAAATGGGCAAAAAAGCAGCGGTCTGGGGTTGGCGTTCGTCAGTG -AGGTCGCCCGTTTGTTTAACGGCGAAGTCACGCTGCGCAACGTGCAGGAAGGTGGCGTGCTGGCCTCGCT -TCGACTTCACCGTCACTTCACATAGCTTCAAATTCTTCCCACATAGTCTTCGTATCCTGCTGCCATTGCA -AAGGAGAAGACTATGTTGAAATCCCCCCTGTTCTGGAAAATGACTAGCCTGTTTGGTGCAGTATTGCTGT -TGTTGATTCCGATAATGCTGATTCGGCAGGTGATTGTCGAACGTGCTGATTACCGTAGCGATGTGGAAGA -TGCGATTCGCCAAAGTACCAGCGGGCCGCAAAAACTCGTTGGGCCGCTCATCGCTATTCCTGTGACCGAG -CTTTATACGGTGCAGGAAGAGGATAAAACCGTGGAGCGGAAACGAAGTTTTATCCATTTTTGGTTACCTG -AGTCATTGATGGTTGATGGCAATCAGAACGTGGAAGAACGCAAGATAGGGATTTATACCGGTCAGGTCTG -GCACAGTGATTTAACGTTAAAAGCCGATTTCGATGTTTCGCGTCTTAGCGAACTCAACGCGCCAAATATC -ACCTTAGGCAAGCCATTTATTGTGATTAGCGTCGGGGATGCGCGTGGTATTGGTGTGGTGAAAGCGCCTG -AAGTTAACGGAACGGCGCTGACCATTGAACCCGGCACCGGGTTAGAGCAAGGCGGGCAGGGCGTGCATAT -CCCTTTACCTGAAGGGGACTGGCGGAAGCAGAACCTGAAGCTGAATATGGCCCTGAATTTAAGCGGTACC -GGCGATCTTTCTGTGGTGCCTGGCGGGCGTAATAGCGAAATGACCTTAACCAGCAACTGGCCGCATCCCA -GTTTTTTAGGTGATTTTCTACCAGCCAAACGGGAAGTTAGCGAGTCAGGTTTTCAGGCGCACTGGCAAAG -CAGCTGGTTTGCTAATAATCTCGGTGAGCGTTTTGCTTCAGGCAATGATACCGGCTGGGAAAACTTCCCG -GCGTTTAGCGTCGCAGTAACGACGCCAGCCGATCAATACCAATTAACTGACCGGGCGACTAAGTACGCCA -TTCTGCTGATTGCACTGACTTTTATGGCGTTCTTTGTTTTTGAAACGCTCACCGCGCAACGTTTACACCC -AATGCAATATTTGCTGGTGGGGCTTTCATTGGTGATGTTTTATTTGCTCTTGCTGGCGCTTTCTGAACAT -ACCGGTTTTACCGTGGCATGGATAATCGCCAGTCTGATTGGGGCGATAATGAACGGTATTTATTTGCAAG -CGGTATTGAAAGGTTGGTGCAACAGCATGTTGTTTACCCTCGCGCTGTTGTTGCTGGATGGTGTGATGTG -GGGACTGCTCAACTCTGCCGATAGCGCGCTGTTGTTGGGAACCAGTGTGCTGGTGGTGGCGCTGGCCGGC -ATGATGTTTGTGACCCGTAATATCGACTGGTATGCGTTTTCACTGCCGAAAATGAAAGCCAGTAAAGAAG -TTACAACGGACGATGAGTTACGTATCTGGAAATAAGGTTGAAAAATAAAAACGGCGCTAAAAAGCGCCGT -TTTTTTTGACGGTGGTAAAGCCGATTAATCTTCCAGATCACCGCAGAAGCGATAACCTTCACCGTGAATG -GTGGCGATGATTTCCGGCGTATCCGGCGTAGATTCGAAATGTTTACGAATACGGCGGATCGTCACGTCTA -CAGTACGGTCGTGCGGTTTCAGCTCACGGCCGGTCATTTTCTTCAGCAGTTCAGCACGGGACTGAATTTT -GCCTGGGTTTTCACAGAAGTGAAGCATGGCGCGGAACTCGCTGCGCGGCAGCTTGTACTGCTCGCCATCA -GGGCCGATCAACGAACGGCTGTTGATGTCCAGTTCCCAACCATTGAACTTGTAGCTTTCAACGCTACGAC -GTTCTTCGCTGACAGTACCCAGATTCATGGTACGGGACAGTAGGTTGCGTGCACGAATCGTCAGTTCACG -CGGGTTGAACGGTTTGGTGATGTAGTCATCTGCACCGATTTCGAGGCCGAGAATTTTATCGACTTCGTTG -TCACGGCCAGTCAGGAACATCAACGCAACATTCGCCTGCTCGCGCAGTTCACGCGCTAACAGAAGACCGT -TCTTACCCGGCAGATTGATATCCATGATCACCAGGTTGATGTCATATTCAGAGAGGATCTGATGCATTTC -CGCGCCATCTGTCGCTTCGAAAACATCATAGCCTTCCGCTTCGAAAATACTTTTCAACGTGTTGCGTGTT -ACCAACTCGTCTTCAACGATAAGAATGTGCGGGGTCTGCATGTTTGCTACCTAAATTGCCAACTAAATCG -AAACAGGAAGTACAAAAGTCCCTGACCTGCCTGATGCATGCTGCAAATTAACATGATCGGCGTAACATGA -CTAAAGTACGTAATTGCGTTCTTGATGCACTTTCCATCAACGTCAACAACATCATTAGCTTGGTCGTGGG -TACTTTCCCTCAGGACCCGACAGTGTCAAAAACGGCTGTCATCCTAACCATTTTAACAGCAACATAACAG -GCTAAGAGGGGCCGGACACCCAATAAAACTACGCTTCGTTGACATATATCAAGTTCAATTGTAGCACGTT -AACAGTTTGATGAAATCATCGTATCTAAATGCTAGCTTTCGTCACATTATTTTAATAATCCAACTAGTTG -CATCATACAACTAATAAACGTGGTGAATCCAATTGTCGAGATTTATTTTTTATAAAATTATCCTAAGTAA -ACAGAAGGATATGTAGCATTTTTTAACAACTCAACCGTTAGTACAGTCAGGAAATAGTTTAGCCTTTTTT -AAGCTAAGTAAAGGGCTTTTTCTGCGACTTACGTTAAGAATTTGTAAATTCGCACCGCGTAATAAGTTGA -CAGTGATCACCCGGTTCGCGGTTATTTGATCAAGAAGAGTGGCAATATGCGTATAACGATTATTCTGGTC -GCACCCGCCAGAGCAGAAAATATTGGGGCAGCGGCGCGGGCAATGAAAACGATGGGGTTTAGCGATCTGC -GGATTGTCGATAGTCAGGCACACCTGGAGCCAGCCACCCGCTGGGTCGCACATGGATCTGGTGATATTAT -TGATAATATTAAAGTTTTCCCGACATTGGCTGAATCGTTACACGATGTCGATTTCACTGTCGCCACCACT -GCGCGCAGTCGGGCGAAATATCATTACTACGCCACGCCAGTTGAACTGGTGCCGCTGTTAGAGGAAAAAT -CTTCATGGATGAGCCATGCCGCGCTGGTGTTTGGTCGCGAAGATTCCGGGTTGACTAACGAAGAGTTAGC -GTTGGCTGACGTTCTTACTGGTGTGCCGATGGTGGCGGATTATCCTTCGCTCAATCTGGGGCAGGCGGTG -ATGGTCTATTGCTATCAATTAGCAACATTAATACAACAACCGGCGAAAAGTGATGCAACGGCAGACCAAC -ATCAACTGCAAGCTTTACGCGAACGAGCCATGACATTGCTGACGACTCTGGCAGTGGCAGATGACATAAA -ACTGGTCGACTGGTTACAACAACGCCTGGGGCTTTTAGAGCAACGAGACACGGCAATGTTGCACCGTTTG -CTGCATGATATTGAAAAAAATATCACCAAATAAAAAACGCCTTAGTAAGTATTTTTC diff --git a/tests/data/generic/fasta/NC_010473.fa.fai b/tests/data/generic/fasta/NC_010473.fa.fai deleted file mode 100644 index 1c862f2f..00000000 --- a/tests/data/generic/fasta/NC_010473.fa.fai +++ /dev/null @@ -1 +0,0 @@ -gi|170079663|ref|NC_010473.1| 4686137 89 70 71 diff --git a/tests/data/generic/gtf/GCF_000019425.1_ASM1942v1_genomic.gtf b/tests/data/generic/gtf/GCF_000019425.1_ASM1942v1_genomic.gtf deleted file mode 100644 index 10230a50..00000000 --- a/tests/data/generic/gtf/GCF_000019425.1_ASM1942v1_genomic.gtf +++ /dev/null @@ -1,17910 +0,0 @@ -#gtf-version 2.2 -#!genome-build ASM1942v1 -#!genome-build-accession NCBI_Assembly:GCF_000019425.1 -#!annotation-date 10/25/2020 09:32:58 -#!annotation-source NCBI RefSeq -NC_010473.1 RefSeq gene 190 255 . + . gene_id "ECDH10B_RS00005"; transcript_id ""; gbkey "Gene"; gene "thrL"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00005"; old_locus_tag "ECDH10B_0001"; -NC_010473.1 Protein Homology CDS 190 252 . + 0 gene_id "ECDH10B_RS00005"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "thrL"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414542.1"; locus_tag "ECDH10B_RS00005"; product "thr operon leader peptide"; protein_id "WP_001386572.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 190 192 . + 0 gene_id "ECDH10B_RS00005"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "thrL"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414542.1"; locus_tag "ECDH10B_RS00005"; product "thr operon leader peptide"; protein_id "WP_001386572.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 253 255 . + 0 gene_id "ECDH10B_RS00005"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "thrL"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414542.1"; locus_tag "ECDH10B_RS00005"; product "thr operon leader peptide"; protein_id "WP_001386572.1"; transl_table "11"; -NC_010473.1 RefSeq gene 337 2799 . + . gene_id "ECDH10B_RS00010"; transcript_id ""; gbkey "Gene"; gene "thrA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00010"; old_locus_tag "ECDH10B_0002"; -NC_010473.1 Protein Homology CDS 337 2796 . + 0 gene_id "ECDH10B_RS00010"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "thrA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005124053.1"; locus_tag "ECDH10B_RS00010"; product "bifunctional aspartate kinase/homoserine dehydrogenase I"; protein_id "WP_001264707.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 337 339 . + 0 gene_id "ECDH10B_RS00010"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "thrA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005124053.1"; locus_tag "ECDH10B_RS00010"; product "bifunctional aspartate kinase/homoserine dehydrogenase I"; protein_id "WP_001264707.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2797 2799 . + 0 gene_id "ECDH10B_RS00010"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "thrA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005124053.1"; locus_tag "ECDH10B_RS00010"; product "bifunctional aspartate kinase/homoserine dehydrogenase I"; protein_id "WP_001264707.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2801 3733 . + . gene_id "ECDH10B_RS00015"; transcript_id ""; gbkey "Gene"; gene "thrB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00015"; old_locus_tag "ECDH10B_0003"; -NC_010473.1 Protein Homology CDS 2801 3730 . + 0 gene_id "ECDH10B_RS00015"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "thrB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414544.1"; locus_tag "ECDH10B_RS00015"; product "homoserine kinase"; protein_id "WP_000241662.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2801 2803 . + 0 gene_id "ECDH10B_RS00015"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "thrB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414544.1"; locus_tag "ECDH10B_RS00015"; product "homoserine kinase"; protein_id "WP_000241662.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3731 3733 . + 0 gene_id "ECDH10B_RS00015"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "thrB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414544.1"; locus_tag "ECDH10B_RS00015"; product "homoserine kinase"; protein_id "WP_000241662.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3734 5020 . + . gene_id "ECDH10B_RS00020"; transcript_id ""; gbkey "Gene"; gene "thrC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00020"; old_locus_tag "ECDH10B_0004"; -NC_010473.1 Protein Homology CDS 3734 5017 . + 0 gene_id "ECDH10B_RS00020"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "thrC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414545.1"; locus_tag "ECDH10B_RS00020"; product "threonine synthase"; protein_id "WP_000781074.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3734 3736 . + 0 gene_id "ECDH10B_RS00020"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "thrC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414545.1"; locus_tag "ECDH10B_RS00020"; product "threonine synthase"; protein_id "WP_000781074.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 5018 5020 . + 0 gene_id "ECDH10B_RS00020"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "thrC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414545.1"; locus_tag "ECDH10B_RS00020"; product "threonine synthase"; protein_id "WP_000781074.1"; transl_table "11"; -NC_010473.1 RefSeq gene 5234 5530 . + . gene_id "ECDH10B_RS00030"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00030"; old_locus_tag "ECDH10B_0005"; -NC_010473.1 Protein Homology CDS 5234 5527 . + 0 gene_id "ECDH10B_RS00030"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414546.1"; locus_tag "ECDH10B_RS00030"; product "DUF2502 domain-containing protein"; protein_id "WP_000738719.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 5234 5236 . + 0 gene_id "ECDH10B_RS00030"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414546.1"; locus_tag "ECDH10B_RS00030"; product "DUF2502 domain-containing protein"; protein_id "WP_000738719.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 5528 5530 . + 0 gene_id "ECDH10B_RS00030"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414546.1"; locus_tag "ECDH10B_RS00030"; product "DUF2502 domain-containing protein"; protein_id "WP_000738719.1"; transl_table "11"; -NC_010473.1 RefSeq gene 5683 6459 . - . gene_id "ECDH10B_RS00035"; transcript_id ""; gbkey "Gene"; gene "yaaA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00035"; old_locus_tag "ECDH10B_0006"; -NC_010473.1 Protein Homology CDS 5686 6459 . - 0 gene_id "ECDH10B_RS00035"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yaaA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414547.1"; locus_tag "ECDH10B_RS00035"; product "peroxide stress protein YaaA"; protein_id "WP_000906197.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 6457 6459 . - 0 gene_id "ECDH10B_RS00035"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yaaA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414547.1"; locus_tag "ECDH10B_RS00035"; product "peroxide stress protein YaaA"; protein_id "WP_000906197.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 5683 5685 . - 0 gene_id "ECDH10B_RS00035"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yaaA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414547.1"; locus_tag "ECDH10B_RS00035"; product "peroxide stress protein YaaA"; protein_id "WP_000906197.1"; transl_table "11"; -NC_010473.1 RefSeq gene 6529 7959 . - . gene_id "ECDH10B_RS00040"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00040"; old_locus_tag "ECDH10B_0007"; -NC_010473.1 Protein Homology CDS 6532 7959 . - 0 gene_id "ECDH10B_RS00040"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414548.1"; locus_tag "ECDH10B_RS00040"; product "sodium:alanine symporter family protein"; protein_id "WP_001112606.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 7957 7959 . - 0 gene_id "ECDH10B_RS00040"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414548.1"; locus_tag "ECDH10B_RS00040"; product "sodium:alanine symporter family protein"; protein_id "WP_001112606.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 6529 6531 . - 0 gene_id "ECDH10B_RS00040"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414548.1"; locus_tag "ECDH10B_RS00040"; product "sodium:alanine symporter family protein"; protein_id "WP_001112606.1"; transl_table "11"; -NC_010473.1 RefSeq gene 8238 9191 . + . gene_id "ECDH10B_RS00045"; transcript_id ""; gbkey "Gene"; gene "tal"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00045"; old_locus_tag "ECDH10B_0008"; -NC_010473.1 Protein Homology CDS 8238 9188 . + 0 gene_id "ECDH10B_RS00045"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tal"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308035.1"; locus_tag "ECDH10B_RS00045"; product "transaldolase"; protein_id "WP_000130185.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 8238 8240 . + 0 gene_id "ECDH10B_RS00045"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tal"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308035.1"; locus_tag "ECDH10B_RS00045"; product "transaldolase"; protein_id "WP_000130185.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 9189 9191 . + 0 gene_id "ECDH10B_RS00045"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tal"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308035.1"; locus_tag "ECDH10B_RS00045"; product "transaldolase"; protein_id "WP_000130185.1"; transl_table "11"; -NC_010473.1 RefSeq gene 9306 9893 . + . gene_id "ECDH10B_RS00050"; transcript_id ""; gbkey "Gene"; gene "mog"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00050"; old_locus_tag "ECDH10B_0009"; -NC_010473.1 Protein Homology CDS 9306 9890 . + 0 gene_id "ECDH10B_RS00050"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mog"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308036.1"; locus_tag "ECDH10B_RS00050"; product "molybdopterin adenylyltransferase"; protein_id "WP_001295414.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 9306 9308 . + 0 gene_id "ECDH10B_RS00050"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mog"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308036.1"; locus_tag "ECDH10B_RS00050"; product "molybdopterin adenylyltransferase"; protein_id "WP_001295414.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 9891 9893 . + 0 gene_id "ECDH10B_RS00050"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mog"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308036.1"; locus_tag "ECDH10B_RS00050"; product "molybdopterin adenylyltransferase"; protein_id "WP_001295414.1"; transl_table "11"; -NC_010473.1 RefSeq gene 9928 10494 . - . gene_id "ECDH10B_RS00055"; transcript_id ""; gbkey "Gene"; gene "satP"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00055"; old_locus_tag "ECDH10B_0010"; -NC_010473.1 Protein Homology CDS 9931 10494 . - 0 gene_id "ECDH10B_RS00055"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "satP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308037.1"; locus_tag "ECDH10B_RS00055"; product "acetate uptake transporter"; protein_id "WP_000528538.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 10492 10494 . - 0 gene_id "ECDH10B_RS00055"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "satP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308037.1"; locus_tag "ECDH10B_RS00055"; product "acetate uptake transporter"; protein_id "WP_000528538.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 9928 9930 . - 0 gene_id "ECDH10B_RS00055"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "satP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308037.1"; locus_tag "ECDH10B_RS00055"; product "acetate uptake transporter"; protein_id "WP_000528538.1"; transl_table "11"; -NC_010473.1 RefSeq gene 10643 11356 . - . gene_id "ECDH10B_RS00060"; transcript_id ""; gbkey "Gene"; gene "msyB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00060"; old_locus_tag "ECDH10B_0011"; -NC_010473.1 Protein Homology CDS 10646 11356 . - 0 gene_id "ECDH10B_RS00060"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "msyB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414552.1"; locus_tag "ECDH10B_RS00060"; product "acidic protein MsyB"; protein_id "WP_001102367.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 11354 11356 . - 0 gene_id "ECDH10B_RS00060"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "msyB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414552.1"; locus_tag "ECDH10B_RS00060"; product "acidic protein MsyB"; protein_id "WP_001102367.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 10643 10645 . - 0 gene_id "ECDH10B_RS00060"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "msyB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414552.1"; locus_tag "ECDH10B_RS00060"; product "acidic protein MsyB"; protein_id "WP_001102367.1"; transl_table "11"; -NC_010473.1 RefSeq gene 11382 11786 . - . gene_id "ECDH10B_RS00065"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00065"; old_locus_tag "ECDH10B_0013"; -NC_010473.1 Protein Homology CDS 11385 11786 . - 0 gene_id "ECDH10B_RS00065"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414554.1"; locus_tag "ECDH10B_RS00065"; product "DUF2541 family protein"; protein_id "WP_000843565.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 11784 11786 . - 0 gene_id "ECDH10B_RS00065"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414554.1"; locus_tag "ECDH10B_RS00065"; product "DUF2541 family protein"; protein_id "WP_000843565.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 11382 11384 . - 0 gene_id "ECDH10B_RS00065"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414554.1"; locus_tag "ECDH10B_RS00065"; product "DUF2541 family protein"; protein_id "WP_000843565.1"; transl_table "11"; -NC_010473.1 RefSeq gene 12163 14079 . + . gene_id "ECDH10B_RS00070"; transcript_id ""; gbkey "Gene"; gene "dnaK"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00070"; old_locus_tag "ECDH10B_0014"; -NC_010473.1 Protein Homology CDS 12163 14076 . + 0 gene_id "ECDH10B_RS00070"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dnaK"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001737966.1"; locus_tag "ECDH10B_RS00070"; product "molecular chaperone DnaK"; protein_id "WP_000516135.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 12163 12165 . + 0 gene_id "ECDH10B_RS00070"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dnaK"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001737966.1"; locus_tag "ECDH10B_RS00070"; product "molecular chaperone DnaK"; protein_id "WP_000516135.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 14077 14079 . + 0 gene_id "ECDH10B_RS00070"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dnaK"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001737966.1"; locus_tag "ECDH10B_RS00070"; product "molecular chaperone DnaK"; protein_id "WP_000516135.1"; transl_table "11"; -NC_010473.1 RefSeq gene 14168 15298 . + . gene_id "ECDH10B_RS00075"; transcript_id ""; gbkey "Gene"; gene "dnaJ"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00075"; old_locus_tag "ECDH10B_0015"; -NC_010473.1 Protein Homology CDS 14168 15295 . + 0 gene_id "ECDH10B_RS00075"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dnaJ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414556.1"; locus_tag "ECDH10B_RS00075"; product "molecular chaperone DnaJ"; protein_id "WP_001118476.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 14168 14170 . + 0 gene_id "ECDH10B_RS00075"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dnaJ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414556.1"; locus_tag "ECDH10B_RS00075"; product "molecular chaperone DnaJ"; protein_id "WP_001118476.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 15296 15298 . + 0 gene_id "ECDH10B_RS00075"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dnaJ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414556.1"; locus_tag "ECDH10B_RS00075"; product "molecular chaperone DnaJ"; protein_id "WP_001118476.1"; transl_table "11"; -NC_010473.1 RefSeq gene 15445 16557 . + . gene_id "ECDH10B_RS00080"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00080"; old_locus_tag "ECDH10B_0016"; -NC_010473.1 Protein Homology CDS 15445 16554 . + 0 gene_id "ECDH10B_RS00080"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414557.1"; locus_tag "ECDH10B_RS00080"; product "IS4-like element IS421 family transposase"; protein_id "WP_001300563.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 15445 15447 . + 0 gene_id "ECDH10B_RS00080"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414557.1"; locus_tag "ECDH10B_RS00080"; product "IS4-like element IS421 family transposase"; protein_id "WP_001300563.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 16555 16557 . + 0 gene_id "ECDH10B_RS00080"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414557.1"; locus_tag "ECDH10B_RS00080"; product "IS4-like element IS421 family transposase"; protein_id "WP_001300563.1"; transl_table "11"; -NC_010473.1 RefSeq gene 16751 16960 . - . gene_id "ECDH10B_RS00085"; transcript_id ""; gbkey "Gene"; gene "mokC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00085"; old_locus_tag "ECDH10B_0017,ECDH10B_0018"; -NC_010473.1 Protein Homology CDS 16754 16960 . - 0 gene_id "ECDH10B_RS00085"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mokC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414559.1"; locus_tag "ECDH10B_RS00085"; product "type I toxin-antitoxin system toxin MokC"; protein_id "WP_000935262.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 16958 16960 . - 0 gene_id "ECDH10B_RS00085"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mokC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414559.1"; locus_tag "ECDH10B_RS00085"; product "type I toxin-antitoxin system toxin MokC"; protein_id "WP_000935262.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 16751 16753 . - 0 gene_id "ECDH10B_RS00085"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mokC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414559.1"; locus_tag "ECDH10B_RS00085"; product "type I toxin-antitoxin system toxin MokC"; protein_id "WP_000935262.1"; transl_table "11"; -NC_010473.1 RefSeq gene 17489 18655 . + . gene_id "ECDH10B_RS00090"; transcript_id ""; gbkey "Gene"; gene "nhaA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00090"; old_locus_tag "ECDH10B_0020"; -NC_010473.1 Protein Homology CDS 17489 18652 . + 0 gene_id "ECDH10B_RS00090"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nhaA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414560.1"; locus_tag "ECDH10B_RS00090"; product "Na+/H+ antiporter NhaA"; protein_id "WP_000681354.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 17489 17491 . + 0 gene_id "ECDH10B_RS00090"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nhaA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414560.1"; locus_tag "ECDH10B_RS00090"; product "Na+/H+ antiporter NhaA"; protein_id "WP_000681354.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 18653 18655 . + 0 gene_id "ECDH10B_RS00090"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nhaA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414560.1"; locus_tag "ECDH10B_RS00090"; product "Na+/H+ antiporter NhaA"; protein_id "WP_000681354.1"; transl_table "11"; -NC_010473.1 RefSeq gene 18721 19620 . + . gene_id "ECDH10B_RS00095"; transcript_id ""; gbkey "Gene"; gene "nhaR"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00095"; old_locus_tag "ECDH10B_0021"; -NC_010473.1 Protein Homology CDS 18721 19617 . + 0 gene_id "ECDH10B_RS00095"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nhaR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_705976.2"; locus_tag "ECDH10B_RS00095"; product "transcriptional activator NhaR"; protein_id "WP_001338226.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 18721 18723 . + 0 gene_id "ECDH10B_RS00095"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nhaR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_705976.2"; locus_tag "ECDH10B_RS00095"; product "transcriptional activator NhaR"; protein_id "WP_001338226.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 19618 19620 . + 0 gene_id "ECDH10B_RS00095"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nhaR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_705976.2"; locus_tag "ECDH10B_RS00095"; product "transcriptional activator NhaR"; protein_id "WP_001338226.1"; transl_table "11"; -NC_010473.1 RefSeq gene 19658 19795 . - . gene_id "ECDH10B_RS26240"; transcript_id ""; gbkey "Gene"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS26240"; partial "true"; pseudo "true"; -NC_010473.1 Protein Homology CDS 19661 19795 . - 0 gene_id "ECDH10B_RS26240"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000871680.1"; locus_tag "ECDH10B_RS26240"; note "incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "fimbrial family protein"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 19793 19795 . - 0 gene_id "ECDH10B_RS26240"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000871680.1"; locus_tag "ECDH10B_RS26240"; note "incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "fimbrial family protein"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 19658 19660 . - 0 gene_id "ECDH10B_RS26240"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000871680.1"; locus_tag "ECDH10B_RS26240"; note "incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "fimbrial family protein"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 19811 20508 . - . gene_id "ECDH10B_RS00100"; transcript_id ""; gbkey "Gene"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS00100"; old_locus_tag "ECDH10B_0022"; pseudo "true"; -NC_010473.1 Protein Homology CDS 19814 20508 . - 0 gene_id "ECDH10B_RS00100"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_076612230.1"; locus_tag "ECDH10B_RS00100"; note "frameshifted"; product "IS1-like element IS1A family transposase"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 20506 20508 . - 0 gene_id "ECDH10B_RS00100"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_076612230.1"; locus_tag "ECDH10B_RS00100"; note "frameshifted"; product "IS1-like element IS1A family transposase"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 19811 19813 . - 0 gene_id "ECDH10B_RS00100"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_076612230.1"; locus_tag "ECDH10B_RS00100"; note "frameshifted"; product "IS1-like element IS1A family transposase"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 20815 21078 . - . gene_id "ECDH10B_RS00110"; transcript_id ""; gbkey "Gene"; gene "rpsT"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00110"; old_locus_tag "ECDH10B_0024"; -NC_010473.1 Protein Homology CDS 20818 21078 . - 0 gene_id "ECDH10B_RS00110"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rpsT"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_006117633.1"; locus_tag "ECDH10B_RS00110"; product "30S ribosomal protein S20"; protein_id "WP_001274021.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 21076 21078 . - 0 gene_id "ECDH10B_RS00110"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rpsT"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_006117633.1"; locus_tag "ECDH10B_RS00110"; product "30S ribosomal protein S20"; protein_id "WP_001274021.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 20815 20817 . - 0 gene_id "ECDH10B_RS00110"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rpsT"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_006117633.1"; locus_tag "ECDH10B_RS00110"; product "30S ribosomal protein S20"; protein_id "WP_001274021.1"; transl_table "11"; -NC_010473.1 RefSeq gene 21181 21399 . + . gene_id "ECDH10B_RS00115"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00115"; old_locus_tag "ECDH10B_0025"; -NC_010473.1 Protein Homology CDS 21181 21396 . + 0 gene_id "ECDH10B_RS00115"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414565.1"; locus_tag "ECDH10B_RS00115"; product "DUF2575 family protein"; protein_id "WP_001300728.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 21181 21183 . + 0 gene_id "ECDH10B_RS00115"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414565.1"; locus_tag "ECDH10B_RS00115"; product "DUF2575 family protein"; protein_id "WP_001300728.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 21397 21399 . + 0 gene_id "ECDH10B_RS00115"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414565.1"; locus_tag "ECDH10B_RS00115"; product "DUF2575 family protein"; protein_id "WP_001300728.1"; transl_table "11"; -NC_010473.1 RefSeq gene 21407 22348 . + . gene_id "ECDH10B_RS00120"; transcript_id ""; gbkey "Gene"; gene "ribF"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00120"; old_locus_tag "ECDH10B_0026"; -NC_010473.1 Protein Homology CDS 21407 22345 . + 0 gene_id "ECDH10B_RS00120"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ribF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308055.1"; locus_tag "ECDH10B_RS00120"; product "bifunctional riboflavin kinase/FAD synthetase"; protein_id "WP_000767329.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 21407 21409 . + 0 gene_id "ECDH10B_RS00120"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ribF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308055.1"; locus_tag "ECDH10B_RS00120"; product "bifunctional riboflavin kinase/FAD synthetase"; protein_id "WP_000767329.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 22346 22348 . + 0 gene_id "ECDH10B_RS00120"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ribF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308055.1"; locus_tag "ECDH10B_RS00120"; product "bifunctional riboflavin kinase/FAD synthetase"; protein_id "WP_000767329.1"; transl_table "11"; -NC_010473.1 RefSeq gene 22391 25207 . + . gene_id "ECDH10B_RS00125"; transcript_id ""; gbkey "Gene"; gene "ileS"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00125"; old_locus_tag "ECDH10B_0027"; -NC_010473.1 Protein Homology CDS 22391 25204 . + 0 gene_id "ECDH10B_RS00125"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ileS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005124083.1"; locus_tag "ECDH10B_RS00125"; product "isoleucine--tRNA ligase"; protein_id "WP_001286857.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 22391 22393 . + 0 gene_id "ECDH10B_RS00125"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ileS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005124083.1"; locus_tag "ECDH10B_RS00125"; product "isoleucine--tRNA ligase"; protein_id "WP_001286857.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 25205 25207 . + 0 gene_id "ECDH10B_RS00125"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ileS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005124083.1"; locus_tag "ECDH10B_RS00125"; product "isoleucine--tRNA ligase"; protein_id "WP_001286857.1"; transl_table "11"; -NC_010473.1 RefSeq gene 25207 25701 . + . gene_id "ECDH10B_RS00130"; transcript_id ""; gbkey "Gene"; gene "lspA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00130"; old_locus_tag "ECDH10B_0028"; -NC_010473.1 Protein Homology CDS 25207 25698 . + 0 gene_id "ECDH10B_RS00130"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lspA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414568.1"; locus_tag "ECDH10B_RS00130"; product "signal peptidase II"; protein_id "WP_000083372.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 25207 25209 . + 0 gene_id "ECDH10B_RS00130"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lspA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414568.1"; locus_tag "ECDH10B_RS00130"; product "signal peptidase II"; protein_id "WP_000083372.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 25699 25701 . + 0 gene_id "ECDH10B_RS00130"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lspA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414568.1"; locus_tag "ECDH10B_RS00130"; product "signal peptidase II"; protein_id "WP_000083372.1"; transl_table "11"; -NC_010473.1 RefSeq gene 25826 26275 . + . gene_id "ECDH10B_RS00135"; transcript_id ""; gbkey "Gene"; gene "fkpB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00135"; old_locus_tag "ECDH10B_0029"; -NC_010473.1 Protein Homology CDS 25826 26272 . + 0 gene_id "ECDH10B_RS00135"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fkpB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308058.1"; locus_tag "ECDH10B_RS00135"; product "FKBP-type peptidyl-prolyl cis-trans isomerase"; protein_id "WP_000004655.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 25826 25828 . + 0 gene_id "ECDH10B_RS00135"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fkpB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308058.1"; locus_tag "ECDH10B_RS00135"; product "FKBP-type peptidyl-prolyl cis-trans isomerase"; protein_id "WP_000004655.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 26273 26275 . + 0 gene_id "ECDH10B_RS00135"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fkpB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308058.1"; locus_tag "ECDH10B_RS00135"; product "FKBP-type peptidyl-prolyl cis-trans isomerase"; protein_id "WP_000004655.1"; transl_table "11"; -NC_010473.1 RefSeq gene 26277 27227 . + . gene_id "ECDH10B_RS00140"; transcript_id ""; gbkey "Gene"; gene "ispH"; gene_biotype "protein_coding"; gene_synonym "lytB"; locus_tag "ECDH10B_RS00140"; old_locus_tag "ECDH10B_0030"; -NC_010473.1 Protein Homology CDS 26277 27224 . + 0 gene_id "ECDH10B_RS00140"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ispH"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005124087.1"; locus_tag "ECDH10B_RS00140"; product "4-hydroxy-3-methylbut-2-enyl diphosphate reductase"; protein_id "WP_001166395.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 26277 26279 . + 0 gene_id "ECDH10B_RS00140"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ispH"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005124087.1"; locus_tag "ECDH10B_RS00140"; product "4-hydroxy-3-methylbut-2-enyl diphosphate reductase"; protein_id "WP_001166395.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 27225 27227 . + 0 gene_id "ECDH10B_RS00140"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ispH"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005124087.1"; locus_tag "ECDH10B_RS00140"; product "4-hydroxy-3-methylbut-2-enyl diphosphate reductase"; protein_id "WP_001166395.1"; transl_table "11"; -NC_010473.1 RefSeq gene 27293 28207 . + . gene_id "ECDH10B_RS00145"; transcript_id ""; gbkey "Gene"; gene "rihC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00145"; old_locus_tag "ECDH10B_0031"; -NC_010473.1 Protein Homology CDS 27293 28204 . + 0 gene_id "ECDH10B_RS00145"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rihC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414571.1"; locus_tag "ECDH10B_RS00145"; product "ribonucleoside hydrolase RihC"; protein_id "WP_001239142.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 27293 27295 . + 0 gene_id "ECDH10B_RS00145"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rihC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414571.1"; locus_tag "ECDH10B_RS00145"; product "ribonucleoside hydrolase RihC"; protein_id "WP_001239142.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 28205 28207 . + 0 gene_id "ECDH10B_RS00145"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rihC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414571.1"; locus_tag "ECDH10B_RS00145"; product "ribonucleoside hydrolase RihC"; protein_id "WP_001239142.1"; transl_table "11"; -NC_010473.1 RefSeq gene 28374 29195 . + . gene_id "ECDH10B_RS00150"; transcript_id ""; gbkey "Gene"; gene "dapB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00150"; old_locus_tag "ECDH10B_0032"; -NC_010473.1 Protein Homology CDS 28374 29192 . + 0 gene_id "ECDH10B_RS00150"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dapB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414572.1"; locus_tag "ECDH10B_RS00150"; product "4-hydroxy-tetrahydrodipicolinate reductase"; protein_id "WP_000543604.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 28374 28376 . + 0 gene_id "ECDH10B_RS00150"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dapB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414572.1"; locus_tag "ECDH10B_RS00150"; product "4-hydroxy-tetrahydrodipicolinate reductase"; protein_id "WP_000543604.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 29193 29195 . + 0 gene_id "ECDH10B_RS00150"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dapB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414572.1"; locus_tag "ECDH10B_RS00150"; product "4-hydroxy-tetrahydrodipicolinate reductase"; protein_id "WP_000543604.1"; transl_table "11"; -NC_010473.1 RefSeq gene 29651 30799 . + . gene_id "ECDH10B_RS00165"; transcript_id ""; gbkey "Gene"; gene "carA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00165"; old_locus_tag "ECDH10B_0033"; -NC_010473.1 Protein Homology CDS 29651 30796 . + 0 gene_id "ECDH10B_RS00165"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "carA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308062.1"; locus_tag "ECDH10B_RS00165"; product "glutamine-hydrolyzing carbamoyl-phosphate synthase small subunit"; protein_id "WP_000597260.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 29651 29653 . + 0 gene_id "ECDH10B_RS00165"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "carA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308062.1"; locus_tag "ECDH10B_RS00165"; product "glutamine-hydrolyzing carbamoyl-phosphate synthase small subunit"; protein_id "WP_000597260.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 30797 30799 . + 0 gene_id "ECDH10B_RS00165"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "carA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308062.1"; locus_tag "ECDH10B_RS00165"; product "glutamine-hydrolyzing carbamoyl-phosphate synthase small subunit"; protein_id "WP_000597260.1"; transl_table "11"; -NC_010473.1 RefSeq gene 30817 34038 . + . gene_id "ECDH10B_RS00170"; transcript_id ""; gbkey "Gene"; gene "carB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00170"; old_locus_tag "ECDH10B_0034"; -NC_010473.1 Protein Homology CDS 30817 34035 . + 0 gene_id "ECDH10B_RS00170"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "carB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414574.1"; locus_tag "ECDH10B_RS00170"; product "carbamoyl-phosphate synthase large subunit"; protein_id "WP_001126348.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 30817 30819 . + 0 gene_id "ECDH10B_RS00170"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "carB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414574.1"; locus_tag "ECDH10B_RS00170"; product "carbamoyl-phosphate synthase large subunit"; protein_id "WP_001126348.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 34036 34038 . + 0 gene_id "ECDH10B_RS00170"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "carB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414574.1"; locus_tag "ECDH10B_RS00170"; product "carbamoyl-phosphate synthase large subunit"; protein_id "WP_001126348.1"; transl_table "11"; -NC_010473.1 RefSeq gene 34300 34695 . + . gene_id "ECDH10B_RS00180"; transcript_id ""; gbkey "Gene"; gene "caiF"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00180"; old_locus_tag "ECDH10B_0035"; -NC_010473.1 Protein Homology CDS 34300 34692 . + 0 gene_id "ECDH10B_RS00180"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "caiF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414576.4"; locus_tag "ECDH10B_RS00180"; product "carnitine metabolism transcriptional regulator CaiF"; protein_id "WP_000333125.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 34300 34302 . + 0 gene_id "ECDH10B_RS00180"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "caiF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414576.4"; locus_tag "ECDH10B_RS00180"; product "carnitine metabolism transcriptional regulator CaiF"; protein_id "WP_000333125.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 34693 34695 . + 0 gene_id "ECDH10B_RS00180"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "caiF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414576.4"; locus_tag "ECDH10B_RS00180"; product "carnitine metabolism transcriptional regulator CaiF"; protein_id "WP_000333125.1"; transl_table "11"; -NC_010473.1 RefSeq gene 34781 35371 . - . gene_id "ECDH10B_RS00185"; transcript_id ""; gbkey "Gene"; gene "caiE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00185"; old_locus_tag "ECDH10B_0036"; -NC_010473.1 Protein Homology CDS 34784 35371 . - 0 gene_id "ECDH10B_RS00185"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "caiE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414577.2"; locus_tag "ECDH10B_RS00185"; product "carnitine operon protein CaiE"; protein_id "WP_000122871.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 35369 35371 . - 0 gene_id "ECDH10B_RS00185"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "caiE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414577.2"; locus_tag "ECDH10B_RS00185"; product "carnitine operon protein CaiE"; protein_id "WP_000122871.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 34781 34783 . - 0 gene_id "ECDH10B_RS00185"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "caiE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414577.2"; locus_tag "ECDH10B_RS00185"; product "carnitine operon protein CaiE"; protein_id "WP_000122871.1"; transl_table "11"; -NC_010473.1 RefSeq gene 35377 36162 . - . gene_id "ECDH10B_RS00190"; transcript_id ""; gbkey "Gene"; gene "caiD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00190"; old_locus_tag "ECDH10B_0037"; -NC_010473.1 Protein Homology CDS 35380 36162 . - 0 gene_id "ECDH10B_RS00190"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "caiD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414578.2"; locus_tag "ECDH10B_RS00190"; product "crotonobetainyl-CoA hydratase"; protein_id "WP_001295419.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 36160 36162 . - 0 gene_id "ECDH10B_RS00190"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "caiD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414578.2"; locus_tag "ECDH10B_RS00190"; product "crotonobetainyl-CoA hydratase"; protein_id "WP_001295419.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 35377 35379 . - 0 gene_id "ECDH10B_RS00190"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "caiD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414578.2"; locus_tag "ECDH10B_RS00190"; product "crotonobetainyl-CoA hydratase"; protein_id "WP_001295419.1"; transl_table "11"; -NC_010473.1 RefSeq gene 36271 37824 . - . gene_id "ECDH10B_RS00195"; transcript_id ""; gbkey "Gene"; gene "caiC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00195"; old_locus_tag "ECDH10B_0038"; -NC_010473.1 Protein Homology CDS 36274 37824 . - 0 gene_id "ECDH10B_RS00195"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "caiC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414579.4"; locus_tag "ECDH10B_RS00195"; product "crotonobetaine/carnitine-CoA ligase"; protein_id "WP_001350478.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 37822 37824 . - 0 gene_id "ECDH10B_RS00195"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "caiC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414579.4"; locus_tag "ECDH10B_RS00195"; product "crotonobetaine/carnitine-CoA ligase"; protein_id "WP_001350478.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 36271 36273 . - 0 gene_id "ECDH10B_RS00195"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "caiC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414579.4"; locus_tag "ECDH10B_RS00195"; product "crotonobetaine/carnitine-CoA ligase"; protein_id "WP_001350478.1"; transl_table "11"; -NC_010473.1 RefSeq gene 37898 39115 . - . gene_id "ECDH10B_RS00200"; transcript_id ""; gbkey "Gene"; gene "caiB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00200"; old_locus_tag "ECDH10B_0039"; -NC_010473.1 Protein Homology CDS 37901 39115 . - 0 gene_id "ECDH10B_RS00200"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "caiB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414580.1"; locus_tag "ECDH10B_RS00200"; product "L-carnitine CoA-transferase"; protein_id "WP_000349936.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 39113 39115 . - 0 gene_id "ECDH10B_RS00200"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "caiB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414580.1"; locus_tag "ECDH10B_RS00200"; product "L-carnitine CoA-transferase"; protein_id "WP_000349936.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 37898 37900 . - 0 gene_id "ECDH10B_RS00200"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "caiB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414580.1"; locus_tag "ECDH10B_RS00200"; product "L-carnitine CoA-transferase"; protein_id "WP_000349936.1"; transl_table "11"; -NC_010473.1 RefSeq gene 39244 40386 . - . gene_id "ECDH10B_RS00205"; transcript_id ""; gbkey "Gene"; gene "caiA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00205"; old_locus_tag "ECDH10B_0040"; -NC_010473.1 Protein Homology CDS 39247 40386 . - 0 gene_id "ECDH10B_RS00205"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "caiA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005124373.1"; locus_tag "ECDH10B_RS00205"; product "crotonobetainyl-CoA dehydrogenase"; protein_id "WP_000347117.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 40384 40386 . - 0 gene_id "ECDH10B_RS00205"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "caiA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005124373.1"; locus_tag "ECDH10B_RS00205"; product "crotonobetainyl-CoA dehydrogenase"; protein_id "WP_000347117.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 39244 39246 . - 0 gene_id "ECDH10B_RS00205"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "caiA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005124373.1"; locus_tag "ECDH10B_RS00205"; product "crotonobetainyl-CoA dehydrogenase"; protein_id "WP_000347117.1"; transl_table "11"; -NC_010473.1 RefSeq gene 40417 41931 . - . gene_id "ECDH10B_RS00210"; transcript_id ""; gbkey "Gene"; gene "caiT"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00210"; old_locus_tag "ECDH10B_0041"; -NC_010473.1 Protein Homology CDS 40420 41931 . - 0 gene_id "ECDH10B_RS00210"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "caiT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414582.1"; locus_tag "ECDH10B_RS00210"; product "L-carnitine/gamma-butyrobetaine antiport BCCT transporter"; protein_id "WP_000787103.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 41929 41931 . - 0 gene_id "ECDH10B_RS00210"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "caiT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414582.1"; locus_tag "ECDH10B_RS00210"; product "L-carnitine/gamma-butyrobetaine antiport BCCT transporter"; protein_id "WP_000787103.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 40417 40419 . - 0 gene_id "ECDH10B_RS00210"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "caiT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414582.1"; locus_tag "ECDH10B_RS00210"; product "L-carnitine/gamma-butyrobetaine antiport BCCT transporter"; protein_id "WP_000787103.1"; transl_table "11"; -NC_010473.1 RefSeq gene 42403 43173 . + . gene_id "ECDH10B_RS00215"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00215"; old_locus_tag "ECDH10B_0042"; -NC_010473.1 Protein Homology CDS 42403 43170 . + 0 gene_id "ECDH10B_RS00215"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414583.2"; locus_tag "ECDH10B_RS00215"; product "electron transfer flavoprotein FixA"; protein_id "WP_000692204.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 42403 42405 . + 0 gene_id "ECDH10B_RS00215"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414583.2"; locus_tag "ECDH10B_RS00215"; product "electron transfer flavoprotein FixA"; protein_id "WP_000692204.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 43171 43173 . + 0 gene_id "ECDH10B_RS00215"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414583.2"; locus_tag "ECDH10B_RS00215"; product "electron transfer flavoprotein FixA"; protein_id "WP_000692204.1"; transl_table "11"; -NC_010473.1 RefSeq gene 43188 44129 . + . gene_id "ECDH10B_RS00220"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00220"; old_locus_tag "ECDH10B_0043"; -NC_010473.1 Protein Homology CDS 43188 44126 . + 0 gene_id "ECDH10B_RS00220"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414584.1"; locus_tag "ECDH10B_RS00220"; product "electron transfer flavoprotein subunit alpha/FixB family protein"; protein_id "WP_001091499.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 43188 43190 . + 0 gene_id "ECDH10B_RS00220"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414584.1"; locus_tag "ECDH10B_RS00220"; product "electron transfer flavoprotein subunit alpha/FixB family protein"; protein_id "WP_001091499.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 44127 44129 . + 0 gene_id "ECDH10B_RS00220"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414584.1"; locus_tag "ECDH10B_RS00220"; product "electron transfer flavoprotein subunit alpha/FixB family protein"; protein_id "WP_001091499.1"; transl_table "11"; -NC_010473.1 RefSeq gene 44180 45466 . + . gene_id "ECDH10B_RS00225"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00225"; old_locus_tag "ECDH10B_0044"; -NC_010473.1 Protein Homology CDS 44180 45463 . + 0 gene_id "ECDH10B_RS00225"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414585.1"; locus_tag "ECDH10B_RS00225"; product "FAD-dependent oxidoreductase"; protein_id "WP_001287715.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 44180 44182 . + 0 gene_id "ECDH10B_RS00225"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414585.1"; locus_tag "ECDH10B_RS00225"; product "FAD-dependent oxidoreductase"; protein_id "WP_001287715.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 45464 45466 . + 0 gene_id "ECDH10B_RS00225"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414585.1"; locus_tag "ECDH10B_RS00225"; product "FAD-dependent oxidoreductase"; protein_id "WP_001287715.1"; transl_table "11"; -NC_010473.1 RefSeq gene 45463 45750 . + . gene_id "ECDH10B_RS00230"; transcript_id ""; gbkey "Gene"; gene "fixX"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00230"; old_locus_tag "ECDH10B_0045"; -NC_010473.1 Protein Homology CDS 45463 45747 . + 0 gene_id "ECDH10B_RS00230"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fixX"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308074.1"; locus_tag "ECDH10B_RS00230"; product "ferredoxin-like protein FixX"; protein_id "WP_000203741.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 45463 45465 . + 0 gene_id "ECDH10B_RS00230"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fixX"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308074.1"; locus_tag "ECDH10B_RS00230"; product "ferredoxin-like protein FixX"; protein_id "WP_000203741.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 45748 45750 . + 0 gene_id "ECDH10B_RS00230"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fixX"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308074.1"; locus_tag "ECDH10B_RS00230"; product "ferredoxin-like protein FixX"; protein_id "WP_000203741.1"; transl_table "11"; -NC_010473.1 RefSeq gene 45807 47138 . + . gene_id "ECDH10B_RS00235"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00235"; old_locus_tag "ECDH10B_0046"; -NC_010473.1 Protein Homology CDS 45807 47135 . + 0 gene_id "ECDH10B_RS00235"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414587.1"; locus_tag "ECDH10B_RS00235"; product "MFS transporter"; protein_id "WP_001183198.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 45807 45809 . + 0 gene_id "ECDH10B_RS00235"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414587.1"; locus_tag "ECDH10B_RS00235"; product "MFS transporter"; protein_id "WP_001183198.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 47136 47138 . + 0 gene_id "ECDH10B_RS00235"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414587.1"; locus_tag "ECDH10B_RS00235"; product "MFS transporter"; protein_id "WP_001183198.1"; transl_table "11"; -NC_010473.1 RefSeq gene 47246 47776 . + . gene_id "ECDH10B_RS00240"; transcript_id ""; gbkey "Gene"; gene "kefF"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00240"; old_locus_tag "ECDH10B_0047"; -NC_010473.1 Protein Homology CDS 47246 47773 . + 0 gene_id "ECDH10B_RS00240"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "kefF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414588.1"; locus_tag "ECDH10B_RS00240"; product "glutathione-regulated potassium-efflux system oxidoreductase KefF"; protein_id "WP_000600725.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 47246 47248 . + 0 gene_id "ECDH10B_RS00240"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "kefF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414588.1"; locus_tag "ECDH10B_RS00240"; product "glutathione-regulated potassium-efflux system oxidoreductase KefF"; protein_id "WP_000600725.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 47774 47776 . + 0 gene_id "ECDH10B_RS00240"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "kefF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414588.1"; locus_tag "ECDH10B_RS00240"; product "glutathione-regulated potassium-efflux system oxidoreductase KefF"; protein_id "WP_000600725.1"; transl_table "11"; -NC_010473.1 RefSeq gene 47769 49631 . + . gene_id "ECDH10B_RS00245"; transcript_id ""; gbkey "Gene"; gene "kefC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00245"; old_locus_tag "ECDH10B_0048"; -NC_010473.1 Protein Homology CDS 47769 49628 . + 0 gene_id "ECDH10B_RS00245"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "kefC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414589.1"; locus_tag "ECDH10B_RS00245"; product "glutathione-regulated potassium-efflux system protein KefC"; protein_id "WP_000377098.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 47769 47771 . + 0 gene_id "ECDH10B_RS00245"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "kefC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414589.1"; locus_tag "ECDH10B_RS00245"; product "glutathione-regulated potassium-efflux system protein KefC"; protein_id "WP_000377098.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 49629 49631 . + 0 gene_id "ECDH10B_RS00245"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "kefC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414589.1"; locus_tag "ECDH10B_RS00245"; product "glutathione-regulated potassium-efflux system protein KefC"; protein_id "WP_000377098.1"; transl_table "11"; -NC_010473.1 RefSeq gene 49823 50302 . + . gene_id "ECDH10B_RS00250"; transcript_id ""; gbkey "Gene"; gene "folA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00250"; old_locus_tag "ECDH10B_0049"; -NC_010473.1 Protein Homology CDS 49823 50299 . + 0 gene_id "ECDH10B_RS00250"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "folA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_020456510.1"; locus_tag "ECDH10B_RS00250"; product "type 3 dihydrofolate reductase"; protein_id "WP_000624375.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 49823 49825 . + 0 gene_id "ECDH10B_RS00250"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "folA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_020456510.1"; locus_tag "ECDH10B_RS00250"; product "type 3 dihydrofolate reductase"; protein_id "WP_000624375.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 50300 50302 . + 0 gene_id "ECDH10B_RS00250"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "folA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_020456510.1"; locus_tag "ECDH10B_RS00250"; product "type 3 dihydrofolate reductase"; protein_id "WP_000624375.1"; transl_table "11"; -NC_010473.1 RefSeq gene 50380 51222 . - . gene_id "ECDH10B_RS00255"; transcript_id ""; gbkey "Gene"; gene "apaH"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00255"; old_locus_tag "ECDH10B_0050"; -NC_010473.1 Protein Homology CDS 50383 51222 . - 0 gene_id "ECDH10B_RS00255"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "apaH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414591.1"; locus_tag "ECDH10B_RS00255"; product "bis(5'-nucleosyl)-tetraphosphatase (symmetrical) ApaH"; protein_id "WP_000257192.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 51220 51222 . - 0 gene_id "ECDH10B_RS00255"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "apaH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414591.1"; locus_tag "ECDH10B_RS00255"; product "bis(5'-nucleosyl)-tetraphosphatase (symmetrical) ApaH"; protein_id "WP_000257192.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 50380 50382 . - 0 gene_id "ECDH10B_RS00255"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "apaH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414591.1"; locus_tag "ECDH10B_RS00255"; product "bis(5'-nucleosyl)-tetraphosphatase (symmetrical) ApaH"; protein_id "WP_000257192.1"; transl_table "11"; -NC_010473.1 RefSeq gene 51229 51606 . - . gene_id "ECDH10B_RS00260"; transcript_id ""; gbkey "Gene"; gene "apaG"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00260"; old_locus_tag "ECDH10B_0051"; -NC_010473.1 Protein Homology CDS 51232 51606 . - 0 gene_id "ECDH10B_RS00260"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "apaG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308082.1"; locus_tag "ECDH10B_RS00260"; product "Co2+/Mg2+ efflux protein ApaG"; protein_id "WP_000610901.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 51604 51606 . - 0 gene_id "ECDH10B_RS00260"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "apaG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308082.1"; locus_tag "ECDH10B_RS00260"; product "Co2+/Mg2+ efflux protein ApaG"; protein_id "WP_000610901.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 51229 51231 . - 0 gene_id "ECDH10B_RS00260"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "apaG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308082.1"; locus_tag "ECDH10B_RS00260"; product "Co2+/Mg2+ efflux protein ApaG"; protein_id "WP_000610901.1"; transl_table "11"; -NC_010473.1 RefSeq gene 51609 52430 . - . gene_id "ECDH10B_RS00265"; transcript_id ""; gbkey "Gene"; gene "rsmA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00265"; old_locus_tag "ECDH10B_0052"; -NC_010473.1 Protein Homology CDS 51612 52430 . - 0 gene_id "ECDH10B_RS00265"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rsmA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414593.1"; locus_tag "ECDH10B_RS00265"; product "16S rRNA (adenine(1518)-N(6)/adenine(1519)-N(6))-dimethyltransferase RsmA"; protein_id "WP_001065381.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 52428 52430 . - 0 gene_id "ECDH10B_RS00265"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rsmA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414593.1"; locus_tag "ECDH10B_RS00265"; product "16S rRNA (adenine(1518)-N(6)/adenine(1519)-N(6))-dimethyltransferase RsmA"; protein_id "WP_001065381.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 51609 51611 . - 0 gene_id "ECDH10B_RS00265"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rsmA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414593.1"; locus_tag "ECDH10B_RS00265"; product "16S rRNA (adenine(1518)-N(6)/adenine(1519)-N(6))-dimethyltransferase RsmA"; protein_id "WP_001065381.1"; transl_table "11"; -NC_010473.1 RefSeq gene 52427 53416 . - . gene_id "ECDH10B_RS00270"; transcript_id ""; gbkey "Gene"; gene "pdxA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00270"; old_locus_tag "ECDH10B_0053"; -NC_010473.1 Protein Homology CDS 52430 53416 . - 0 gene_id "ECDH10B_RS00270"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pdxA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414594.1"; locus_tag "ECDH10B_RS00270"; product "4-hydroxythreonine-4-phosphate dehydrogenase PdxA"; protein_id "WP_000241277.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 53414 53416 . - 0 gene_id "ECDH10B_RS00270"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pdxA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414594.1"; locus_tag "ECDH10B_RS00270"; product "4-hydroxythreonine-4-phosphate dehydrogenase PdxA"; protein_id "WP_000241277.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 52427 52429 . - 0 gene_id "ECDH10B_RS00270"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pdxA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414594.1"; locus_tag "ECDH10B_RS00270"; product "4-hydroxythreonine-4-phosphate dehydrogenase PdxA"; protein_id "WP_000241277.1"; transl_table "11"; -NC_010473.1 RefSeq gene 53416 54702 . - . gene_id "ECDH10B_RS00275"; transcript_id ""; gbkey "Gene"; gene "surA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00275"; old_locus_tag "ECDH10B_0054"; -NC_010473.1 Protein Homology CDS 53419 54702 . - 0 gene_id "ECDH10B_RS00275"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "surA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308085.1"; locus_tag "ECDH10B_RS00275"; product "peptidylprolyl isomerase SurA"; protein_id "WP_000800457.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 54700 54702 . - 0 gene_id "ECDH10B_RS00275"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "surA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308085.1"; locus_tag "ECDH10B_RS00275"; product "peptidylprolyl isomerase SurA"; protein_id "WP_000800457.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 53416 53418 . - 0 gene_id "ECDH10B_RS00275"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "surA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308085.1"; locus_tag "ECDH10B_RS00275"; product "peptidylprolyl isomerase SurA"; protein_id "WP_000800457.1"; transl_table "11"; -NC_010473.1 RefSeq gene 54755 57109 . - . gene_id "ECDH10B_RS00280"; transcript_id ""; gbkey "Gene"; gene "lptD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00280"; old_locus_tag "ECDH10B_0055"; -NC_010473.1 Protein Homology CDS 54758 57109 . - 0 gene_id "ECDH10B_RS00280"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lptD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414596.1"; locus_tag "ECDH10B_RS00280"; product "LPS assembly protein LptD"; protein_id "WP_000746151.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 57107 57109 . - 0 gene_id "ECDH10B_RS00280"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lptD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414596.1"; locus_tag "ECDH10B_RS00280"; product "LPS assembly protein LptD"; protein_id "WP_000746151.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 54755 54757 . - 0 gene_id "ECDH10B_RS00280"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lptD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414596.1"; locus_tag "ECDH10B_RS00280"; product "LPS assembly protein LptD"; protein_id "WP_000746151.1"; transl_table "11"; -NC_010473.1 RefSeq gene 57364 58179 . + . gene_id "ECDH10B_RS00285"; transcript_id ""; gbkey "Gene"; gene "djlA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00285"; old_locus_tag "ECDH10B_0056"; -NC_010473.1 Protein Homology CDS 57364 58176 . + 0 gene_id "ECDH10B_RS00285"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "djlA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414597.1"; locus_tag "ECDH10B_RS00285"; product "co-chaperone DjlA"; protein_id "WP_001200579.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 57364 57366 . + 0 gene_id "ECDH10B_RS00285"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "djlA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414597.1"; locus_tag "ECDH10B_RS00285"; product "co-chaperone DjlA"; protein_id "WP_001200579.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 58177 58179 . + 0 gene_id "ECDH10B_RS00285"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "djlA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414597.1"; locus_tag "ECDH10B_RS00285"; product "co-chaperone DjlA"; protein_id "WP_001200579.1"; transl_table "11"; -NC_010473.1 RefSeq gene 58474 59124 . + . gene_id "ECDH10B_RS00290"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00290"; old_locus_tag "ECDH10B_0058"; -NC_010473.1 Protein Homology CDS 58474 59121 . + 0 gene_id "ECDH10B_RS00290"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_009518734.1"; locus_tag "ECDH10B_RS00290"; product "hypothetical protein"; protein_id "WP_001393555.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 58474 58476 . + 0 gene_id "ECDH10B_RS00290"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_009518734.1"; locus_tag "ECDH10B_RS00290"; product "hypothetical protein"; protein_id "WP_001393555.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 59122 59124 . + 0 gene_id "ECDH10B_RS00290"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_009518734.1"; locus_tag "ECDH10B_RS00290"; product "hypothetical protein"; protein_id "WP_001393555.1"; transl_table "11"; -NC_010473.1 RefSeq gene 59121 59279 . + . gene_id "ECDH10B_RS25825"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS25825"; -NC_010473.1 GeneMarkS-2+ CDS 59121 59276 . + 0 gene_id "ECDH10B_RS25825"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: ab initio prediction:GeneMarkS-2+"; locus_tag "ECDH10B_RS25825"; product "hypothetical protein"; protein_id "WP_001393554.1"; transl_table "11"; -NC_010473.1 GeneMarkS-2+ start_codon 59121 59123 . + 0 gene_id "ECDH10B_RS25825"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: ab initio prediction:GeneMarkS-2+"; locus_tag "ECDH10B_RS25825"; product "hypothetical protein"; protein_id "WP_001393554.1"; transl_table "11"; -NC_010473.1 GeneMarkS-2+ stop_codon 59277 59279 . + 0 gene_id "ECDH10B_RS25825"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: ab initio prediction:GeneMarkS-2+"; locus_tag "ECDH10B_RS25825"; product "hypothetical protein"; protein_id "WP_001393554.1"; transl_table "11"; -NC_010473.1 RefSeq gene 59296 59474 . - . gene_id "ECDH10B_RS25830"; transcript_id ""; gbkey "Gene"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS25830"; partial "true"; pseudo "true"; -NC_010473.1 Protein Homology CDS 59299 59474 . - 0 gene_id "ECDH10B_RS25830"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000244358.1"; locus_tag "ECDH10B_RS25830"; note "frameshifted; internal stop; incomplete; partial in the middle of a contig; missing C-terminus"; partial "true"; product "IS4 family transposase"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 59472 59474 . - 0 gene_id "ECDH10B_RS25830"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000244358.1"; locus_tag "ECDH10B_RS25830"; note "frameshifted; internal stop; incomplete; partial in the middle of a contig; missing C-terminus"; partial "true"; product "IS4 family transposase"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 59296 59298 . - 0 gene_id "ECDH10B_RS25830"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000244358.1"; locus_tag "ECDH10B_RS25830"; note "frameshifted; internal stop; incomplete; partial in the middle of a contig; missing C-terminus"; partial "true"; product "IS4 family transposase"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 59687 60346 . - . gene_id "ECDH10B_RS00295"; transcript_id ""; gbkey "Gene"; gene "rluA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00295"; old_locus_tag "ECDH10B_0060"; -NC_010473.1 Protein Homology CDS 59690 60346 . - 0 gene_id "ECDH10B_RS00295"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rluA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414600.1"; locus_tag "ECDH10B_RS00295"; product "bifunctional tRNA pseudouridine(32) synthase/23S rRNA pseudouridine(746) synthase RluA"; protein_id "WP_000525176.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 60344 60346 . - 0 gene_id "ECDH10B_RS00295"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rluA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414600.1"; locus_tag "ECDH10B_RS00295"; product "bifunctional tRNA pseudouridine(32) synthase/23S rRNA pseudouridine(746) synthase RluA"; protein_id "WP_000525176.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 59687 59689 . - 0 gene_id "ECDH10B_RS00295"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rluA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414600.1"; locus_tag "ECDH10B_RS00295"; product "bifunctional tRNA pseudouridine(32) synthase/23S rRNA pseudouridine(746) synthase RluA"; protein_id "WP_000525176.1"; transl_table "11"; -NC_010473.1 RefSeq gene 60358 62376 . - . gene_id "ECDH10B_RS00300"; transcript_id ""; gbkey "Gene"; gene "rapA"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS00300"; old_locus_tag "ECDH10B_0061"; partial "true"; pseudo "true"; -NC_010473.1 Protein Homology CDS 60361 62376 . - 0 gene_id "ECDH10B_RS00300"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rapA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001117023.1"; locus_tag "ECDH10B_RS00300"; note "incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "RNA polymerase-associated protein RapA"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 62374 62376 . - 0 gene_id "ECDH10B_RS00300"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rapA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001117023.1"; locus_tag "ECDH10B_RS00300"; note "incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "RNA polymerase-associated protein RapA"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 60358 60360 . - 0 gene_id "ECDH10B_RS00300"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rapA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001117023.1"; locus_tag "ECDH10B_RS00300"; note "incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "RNA polymerase-associated protein RapA"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 62381 63136 . + . gene_id "ECDH10B_RS00305"; transcript_id ""; gbkey "Gene"; gene "cra"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS00305"; old_locus_tag "ECDH10B_0062"; partial "true"; pseudo "true"; -NC_010473.1 Protein Homology CDS 62381 63133 . + 0 gene_id "ECDH10B_RS00305"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cra"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308111.1"; locus_tag "ECDH10B_RS00305"; note "incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "catabolite repressor/activator"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 62381 62383 . + 0 gene_id "ECDH10B_RS00305"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cra"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308111.1"; locus_tag "ECDH10B_RS00305"; note "incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "catabolite repressor/activator"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 63134 63136 . + 0 gene_id "ECDH10B_RS00305"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cra"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308111.1"; locus_tag "ECDH10B_RS00305"; note "incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "catabolite repressor/activator"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 63738 64196 . + . gene_id "ECDH10B_RS00310"; transcript_id ""; gbkey "Gene"; gene "mraZ"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00310"; old_locus_tag "ECDH10B_0063"; -NC_010473.1 Protein Homology CDS 63738 64193 . + 0 gene_id "ECDH10B_RS00310"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mraZ"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_020325403.1"; locus_tag "ECDH10B_RS00310"; product "division/cell wall cluster transcriptional repressor MraZ"; protein_id "WP_001295770.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 63738 63740 . + 0 gene_id "ECDH10B_RS00310"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mraZ"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_020325403.1"; locus_tag "ECDH10B_RS00310"; product "division/cell wall cluster transcriptional repressor MraZ"; protein_id "WP_001295770.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 64194 64196 . + 0 gene_id "ECDH10B_RS00310"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mraZ"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_020325403.1"; locus_tag "ECDH10B_RS00310"; product "division/cell wall cluster transcriptional repressor MraZ"; protein_id "WP_001295770.1"; transl_table "11"; -NC_010473.1 RefSeq gene 64198 65139 . + . gene_id "ECDH10B_RS00315"; transcript_id ""; gbkey "Gene"; gene "rsmH"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00315"; old_locus_tag "ECDH10B_0064"; -NC_010473.1 Protein Homology CDS 64198 65136 . + 0 gene_id "ECDH10B_RS00315"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rsmH"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005124563.1"; locus_tag "ECDH10B_RS00315"; product "16S rRNA (cytosine(1402)-N(4))-methyltransferase RsmH"; protein_id "WP_000970479.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 64198 64200 . + 0 gene_id "ECDH10B_RS00315"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rsmH"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005124563.1"; locus_tag "ECDH10B_RS00315"; product "16S rRNA (cytosine(1402)-N(4))-methyltransferase RsmH"; protein_id "WP_000970479.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 65137 65139 . + 0 gene_id "ECDH10B_RS00315"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rsmH"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005124563.1"; locus_tag "ECDH10B_RS00315"; product "16S rRNA (cytosine(1402)-N(4))-methyltransferase RsmH"; protein_id "WP_000970479.1"; transl_table "11"; -NC_010473.1 RefSeq gene 65136 65501 . + . gene_id "ECDH10B_RS00320"; transcript_id ""; gbkey "Gene"; gene "ftsL"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00320"; old_locus_tag "ECDH10B_0065"; -NC_010473.1 Protein Homology CDS 65136 65498 . + 0 gene_id "ECDH10B_RS00320"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ftsL"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000625658.1"; locus_tag "ECDH10B_RS00320"; product "cell division protein FtsL"; protein_id "WP_000625658.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 65136 65138 . + 0 gene_id "ECDH10B_RS00320"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ftsL"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000625658.1"; locus_tag "ECDH10B_RS00320"; product "cell division protein FtsL"; protein_id "WP_000625658.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 65499 65501 . + 0 gene_id "ECDH10B_RS00320"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ftsL"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000625658.1"; locus_tag "ECDH10B_RS00320"; product "cell division protein FtsL"; protein_id "WP_000625658.1"; transl_table "11"; -NC_010473.1 RefSeq gene 65517 67283 . + . gene_id "ECDH10B_RS00325"; transcript_id ""; gbkey "Gene"; gene "ftsI"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00325"; old_locus_tag "ECDH10B_0066"; -NC_010473.1 Protein Homology CDS 65517 67280 . + 0 gene_id "ECDH10B_RS00325"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ftsI"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000642204.1"; locus_tag "ECDH10B_RS00325"; product "peptidoglycan glycosyltransferase FtsI"; protein_id "WP_000642196.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 65517 65519 . + 0 gene_id "ECDH10B_RS00325"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ftsI"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000642204.1"; locus_tag "ECDH10B_RS00325"; product "peptidoglycan glycosyltransferase FtsI"; protein_id "WP_000642196.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 67281 67283 . + 0 gene_id "ECDH10B_RS00325"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ftsI"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000642204.1"; locus_tag "ECDH10B_RS00325"; product "peptidoglycan glycosyltransferase FtsI"; protein_id "WP_000642196.1"; transl_table "11"; -NC_010473.1 RefSeq gene 67270 68757 . + . gene_id "ECDH10B_RS00330"; transcript_id ""; gbkey "Gene"; gene "murE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00330"; old_locus_tag "ECDH10B_0067"; -NC_010473.1 Protein Homology CDS 67270 68754 . + 0 gene_id "ECDH10B_RS00330"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "murE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414627.1"; locus_tag "ECDH10B_RS00330"; product "UDP-N-acetylmuramoyl-L-alanyl-D-glutamate--2,6-diaminopimelate ligase"; protein_id "WP_000775093.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 67270 67272 . + 0 gene_id "ECDH10B_RS00330"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "murE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414627.1"; locus_tag "ECDH10B_RS00330"; product "UDP-N-acetylmuramoyl-L-alanyl-D-glutamate--2,6-diaminopimelate ligase"; protein_id "WP_000775093.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 68755 68757 . + 0 gene_id "ECDH10B_RS00330"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "murE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414627.1"; locus_tag "ECDH10B_RS00330"; product "UDP-N-acetylmuramoyl-L-alanyl-D-glutamate--2,6-diaminopimelate ligase"; protein_id "WP_000775093.1"; transl_table "11"; -NC_010473.1 RefSeq gene 68754 70112 . + . gene_id "ECDH10B_RS00335"; transcript_id ""; gbkey "Gene"; gene "murF"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00335"; old_locus_tag "ECDH10B_0068"; -NC_010473.1 Protein Homology CDS 68754 70109 . + 0 gene_id "ECDH10B_RS00335"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "murF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414628.1"; locus_tag "ECDH10B_RS00335"; product "UDP-N-acetylmuramoyl-tripeptide--D-alanyl-D-alanine ligase"; protein_id "WP_000626685.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 68754 68756 . + 0 gene_id "ECDH10B_RS00335"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "murF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414628.1"; locus_tag "ECDH10B_RS00335"; product "UDP-N-acetylmuramoyl-tripeptide--D-alanyl-D-alanine ligase"; protein_id "WP_000626685.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 70110 70112 . + 0 gene_id "ECDH10B_RS00335"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "murF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414628.1"; locus_tag "ECDH10B_RS00335"; product "UDP-N-acetylmuramoyl-tripeptide--D-alanyl-D-alanine ligase"; protein_id "WP_000626685.1"; transl_table "11"; -NC_010473.1 RefSeq gene 70106 71188 . + . gene_id "ECDH10B_RS00340"; transcript_id ""; gbkey "Gene"; gene "mraY"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00340"; old_locus_tag "ECDH10B_0069"; -NC_010473.1 Protein Homology CDS 70106 71185 . + 0 gene_id "ECDH10B_RS00340"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mraY"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005124610.1"; locus_tag "ECDH10B_RS00340"; product "phospho-N-acetylmuramoyl-pentapeptide-transferase"; protein_id "WP_000964131.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 70106 70108 . + 0 gene_id "ECDH10B_RS00340"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mraY"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005124610.1"; locus_tag "ECDH10B_RS00340"; product "phospho-N-acetylmuramoyl-pentapeptide-transferase"; protein_id "WP_000964131.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 71186 71188 . + 0 gene_id "ECDH10B_RS00340"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mraY"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005124610.1"; locus_tag "ECDH10B_RS00340"; product "phospho-N-acetylmuramoyl-pentapeptide-transferase"; protein_id "WP_000964131.1"; transl_table "11"; -NC_010473.1 RefSeq gene 71191 72507 . + . gene_id "ECDH10B_RS00345"; transcript_id ""; gbkey "Gene"; gene "murD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00345"; old_locus_tag "ECDH10B_0070"; -NC_010473.1 Protein Homology CDS 71191 72504 . + 0 gene_id "ECDH10B_RS00345"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "murD"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005124612.1"; locus_tag "ECDH10B_RS00345"; product "UDP-N-acetylmuramoyl-L-alanine--D-glutamate ligase"; protein_id "WP_000796481.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 71191 71193 . + 0 gene_id "ECDH10B_RS00345"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "murD"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005124612.1"; locus_tag "ECDH10B_RS00345"; product "UDP-N-acetylmuramoyl-L-alanine--D-glutamate ligase"; protein_id "WP_000796481.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 72505 72507 . + 0 gene_id "ECDH10B_RS00345"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "murD"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005124612.1"; locus_tag "ECDH10B_RS00345"; product "UDP-N-acetylmuramoyl-L-alanine--D-glutamate ligase"; protein_id "WP_000796481.1"; transl_table "11"; -NC_010473.1 RefSeq gene 72507 73751 . + . gene_id "ECDH10B_RS00350"; transcript_id ""; gbkey "Gene"; gene "ftsW"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00350"; old_locus_tag "ECDH10B_0071"; -NC_010473.1 Protein Homology CDS 72507 73748 . + 0 gene_id "ECDH10B_RS00350"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ftsW"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308120.1"; locus_tag "ECDH10B_RS00350"; product "cell division protein FtsW"; protein_id "WP_001295532.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 72507 72509 . + 0 gene_id "ECDH10B_RS00350"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ftsW"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308120.1"; locus_tag "ECDH10B_RS00350"; product "cell division protein FtsW"; protein_id "WP_001295532.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 73749 73751 . + 0 gene_id "ECDH10B_RS00350"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ftsW"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308120.1"; locus_tag "ECDH10B_RS00350"; product "cell division protein FtsW"; protein_id "WP_001295532.1"; transl_table "11"; -NC_010473.1 RefSeq gene 73748 74815 . + . gene_id "ECDH10B_RS00355"; transcript_id ""; gbkey "Gene"; gene "murG"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00355"; old_locus_tag "ECDH10B_0072"; -NC_010473.1 Protein Homology CDS 73748 74812 . + 0 gene_id "ECDH10B_RS00355"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "murG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414632.1"; locus_tag "ECDH10B_RS00355"; product "undecaprenyldiphospho-muramoylpentapeptide beta-N-acetylglucosaminyltransferase"; protein_id "WP_000016560.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 73748 73750 . + 0 gene_id "ECDH10B_RS00355"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "murG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414632.1"; locus_tag "ECDH10B_RS00355"; product "undecaprenyldiphospho-muramoylpentapeptide beta-N-acetylglucosaminyltransferase"; protein_id "WP_000016560.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 74813 74815 . + 0 gene_id "ECDH10B_RS00355"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "murG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414632.1"; locus_tag "ECDH10B_RS00355"; product "undecaprenyldiphospho-muramoylpentapeptide beta-N-acetylglucosaminyltransferase"; protein_id "WP_000016560.1"; transl_table "11"; -NC_010473.1 RefSeq gene 74869 76344 . + . gene_id "ECDH10B_RS00360"; transcript_id ""; gbkey "Gene"; gene "murC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00360"; old_locus_tag "ECDH10B_0073"; -NC_010473.1 Protein Homology CDS 74869 76341 . + 0 gene_id "ECDH10B_RS00360"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "murC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414633.1"; locus_tag "ECDH10B_RS00360"; product "UDP-N-acetylmuramate--L-alanine ligase"; protein_id "WP_001096049.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 74869 74871 . + 0 gene_id "ECDH10B_RS00360"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "murC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414633.1"; locus_tag "ECDH10B_RS00360"; product "UDP-N-acetylmuramate--L-alanine ligase"; protein_id "WP_001096049.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 76342 76344 . + 0 gene_id "ECDH10B_RS00360"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "murC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414633.1"; locus_tag "ECDH10B_RS00360"; product "UDP-N-acetylmuramate--L-alanine ligase"; protein_id "WP_001096049.1"; transl_table "11"; -NC_010473.1 RefSeq gene 76337 77257 . + . gene_id "ECDH10B_RS00365"; transcript_id ""; gbkey "Gene"; gene "ddlB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00365"; old_locus_tag "ECDH10B_0074"; -NC_010473.1 Protein Homology CDS 76337 77254 . + 0 gene_id "ECDH10B_RS00365"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ddlB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414634.1"; locus_tag "ECDH10B_RS00365"; product "D-alanine--D-alanine ligase"; protein_id "WP_000130056.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 76337 76339 . + 0 gene_id "ECDH10B_RS00365"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ddlB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414634.1"; locus_tag "ECDH10B_RS00365"; product "D-alanine--D-alanine ligase"; protein_id "WP_000130056.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 77255 77257 . + 0 gene_id "ECDH10B_RS00365"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ddlB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414634.1"; locus_tag "ECDH10B_RS00365"; product "D-alanine--D-alanine ligase"; protein_id "WP_000130056.1"; transl_table "11"; -NC_010473.1 RefSeq gene 77259 78089 . + . gene_id "ECDH10B_RS00370"; transcript_id ""; gbkey "Gene"; gene "ftsQ"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00370"; old_locus_tag "ECDH10B_0075"; -NC_010473.1 Protein Homology CDS 77259 78086 . + 0 gene_id "ECDH10B_RS00370"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ftsQ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414635.1"; locus_tag "ECDH10B_RS00370"; product "cell division protein FtsQ"; protein_id "WP_000075748.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 77259 77261 . + 0 gene_id "ECDH10B_RS00370"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ftsQ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414635.1"; locus_tag "ECDH10B_RS00370"; product "cell division protein FtsQ"; protein_id "WP_000075748.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 78087 78089 . + 0 gene_id "ECDH10B_RS00370"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ftsQ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414635.1"; locus_tag "ECDH10B_RS00370"; product "cell division protein FtsQ"; protein_id "WP_000075748.1"; transl_table "11"; -NC_010473.1 RefSeq gene 78086 79348 . + . gene_id "ECDH10B_RS00375"; transcript_id ""; gbkey "Gene"; gene "ftsA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00375"; old_locus_tag "ECDH10B_0076"; -NC_010473.1 Protein Homology CDS 78086 79345 . + 0 gene_id "ECDH10B_RS00375"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ftsA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308125.1"; locus_tag "ECDH10B_RS00375"; product "cell division protein FtsA"; protein_id "WP_000588474.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 78086 78088 . + 0 gene_id "ECDH10B_RS00375"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ftsA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308125.1"; locus_tag "ECDH10B_RS00375"; product "cell division protein FtsA"; protein_id "WP_000588474.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 79346 79348 . + 0 gene_id "ECDH10B_RS00375"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ftsA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308125.1"; locus_tag "ECDH10B_RS00375"; product "cell division protein FtsA"; protein_id "WP_000588474.1"; transl_table "11"; -NC_010473.1 RefSeq gene 79409 80560 . + . gene_id "ECDH10B_RS00380"; transcript_id ""; gbkey "Gene"; gene "ftsZ"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00380"; old_locus_tag "ECDH10B_0077"; -NC_010473.1 Protein Homology CDS 79409 80557 . + 0 gene_id "ECDH10B_RS00380"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ftsZ"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_015965916.1"; locus_tag "ECDH10B_RS00380"; product "cell division protein FtsZ"; protein_id "WP_000462776.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 79409 79411 . + 0 gene_id "ECDH10B_RS00380"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ftsZ"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_015965916.1"; locus_tag "ECDH10B_RS00380"; product "cell division protein FtsZ"; protein_id "WP_000462776.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 80558 80560 . + 0 gene_id "ECDH10B_RS00380"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ftsZ"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_015965916.1"; locus_tag "ECDH10B_RS00380"; product "cell division protein FtsZ"; protein_id "WP_000462776.1"; transl_table "11"; -NC_010473.1 RefSeq gene 80661 81578 . + . gene_id "ECDH10B_RS00385"; transcript_id ""; gbkey "Gene"; gene "lpxC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00385"; old_locus_tag "ECDH10B_0078"; -NC_010473.1 Protein Homology CDS 80661 81575 . + 0 gene_id "ECDH10B_RS00385"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lpxC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308127.1"; locus_tag "ECDH10B_RS00385"; product "UDP-3-O-acyl-N-acetylglucosamine deacetylase"; protein_id "WP_000595482.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 80661 80663 . + 0 gene_id "ECDH10B_RS00385"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lpxC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308127.1"; locus_tag "ECDH10B_RS00385"; product "UDP-3-O-acyl-N-acetylglucosamine deacetylase"; protein_id "WP_000595482.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 81576 81578 . + 0 gene_id "ECDH10B_RS00385"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lpxC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308127.1"; locus_tag "ECDH10B_RS00385"; product "UDP-3-O-acyl-N-acetylglucosamine deacetylase"; protein_id "WP_000595482.1"; transl_table "11"; -NC_010473.1 RefSeq gene 81809 82321 . + . gene_id "ECDH10B_RS00390"; transcript_id ""; gbkey "Gene"; gene "secM"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00390"; old_locus_tag "ECDH10B_0079"; -NC_010473.1 Protein Homology CDS 81809 82318 . + 0 gene_id "ECDH10B_RS00390"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "secM"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414639.2"; locus_tag "ECDH10B_RS00390"; product "secA regulator SecM"; protein_id "WP_000014321.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 81809 81811 . + 0 gene_id "ECDH10B_RS00390"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "secM"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414639.2"; locus_tag "ECDH10B_RS00390"; product "secA regulator SecM"; protein_id "WP_000014321.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 82319 82321 . + 0 gene_id "ECDH10B_RS00390"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "secM"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414639.2"; locus_tag "ECDH10B_RS00390"; product "secA regulator SecM"; protein_id "WP_000014321.1"; transl_table "11"; -NC_010473.1 RefSeq gene 82383 85088 . + . gene_id "ECDH10B_RS00395"; transcript_id ""; gbkey "Gene"; gene "secA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00395"; old_locus_tag "ECDH10B_0080"; -NC_010473.1 Protein Homology CDS 82383 85085 . + 0 gene_id "ECDH10B_RS00395"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "secA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414640.1"; locus_tag "ECDH10B_RS00395"; product "preprotein translocase subunit SecA"; protein_id "WP_000905789.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 82383 82385 . + 0 gene_id "ECDH10B_RS00395"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "secA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414640.1"; locus_tag "ECDH10B_RS00395"; product "preprotein translocase subunit SecA"; protein_id "WP_000905789.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 85086 85088 . + 0 gene_id "ECDH10B_RS00395"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "secA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414640.1"; locus_tag "ECDH10B_RS00395"; product "preprotein translocase subunit SecA"; protein_id "WP_000905789.1"; transl_table "11"; -NC_010473.1 RefSeq gene 85148 85537 . + . gene_id "ECDH10B_RS00400"; transcript_id ""; gbkey "Gene"; gene "mutT"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00400"; old_locus_tag "ECDH10B_0081"; -NC_010473.1 Protein Homology CDS 85148 85534 . + 0 gene_id "ECDH10B_RS00400"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mutT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414641.1"; locus_tag "ECDH10B_RS00400"; product "8-oxo-dGTP diphosphatase MutT"; protein_id "WP_000736007.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 85148 85150 . + 0 gene_id "ECDH10B_RS00400"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mutT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414641.1"; locus_tag "ECDH10B_RS00400"; product "8-oxo-dGTP diphosphatase MutT"; protein_id "WP_000736007.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 85535 85537 . + 0 gene_id "ECDH10B_RS00400"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mutT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414641.1"; locus_tag "ECDH10B_RS00400"; product "8-oxo-dGTP diphosphatase MutT"; protein_id "WP_000736007.1"; transl_table "11"; -NC_010473.1 RefSeq gene 85753 85950 . - . gene_id "ECDH10B_RS00410"; transcript_id ""; gbkey "Gene"; gene "yacG"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00410"; old_locus_tag "ECDH10B_0082"; -NC_010473.1 Protein Homology CDS 85756 85950 . - 0 gene_id "ECDH10B_RS00410"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yacG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308132.1"; locus_tag "ECDH10B_RS00410"; product "DNA gyrase inhibitor YacG"; protein_id "WP_000005042.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 85948 85950 . - 0 gene_id "ECDH10B_RS00410"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yacG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308132.1"; locus_tag "ECDH10B_RS00410"; product "DNA gyrase inhibitor YacG"; protein_id "WP_000005042.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 85753 85755 . - 0 gene_id "ECDH10B_RS00410"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yacG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308132.1"; locus_tag "ECDH10B_RS00410"; product "DNA gyrase inhibitor YacG"; protein_id "WP_000005042.1"; transl_table "11"; -NC_010473.1 RefSeq gene 85960 86703 . - . gene_id "ECDH10B_RS00415"; transcript_id ""; gbkey "Gene"; gene "zapD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00415"; old_locus_tag "ECDH10B_0083"; -NC_010473.1 Protein Homology CDS 85963 86703 . - 0 gene_id "ECDH10B_RS00415"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "zapD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414644.1"; locus_tag "ECDH10B_RS00415"; product "cell division protein ZapD"; protein_id "WP_001194734.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 86701 86703 . - 0 gene_id "ECDH10B_RS00415"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "zapD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414644.1"; locus_tag "ECDH10B_RS00415"; product "cell division protein ZapD"; protein_id "WP_001194734.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 85960 85962 . - 0 gene_id "ECDH10B_RS00415"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "zapD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414644.1"; locus_tag "ECDH10B_RS00415"; product "cell division protein ZapD"; protein_id "WP_001194734.1"; transl_table "11"; -NC_010473.1 RefSeq gene 86703 87323 . - . gene_id "ECDH10B_RS00420"; transcript_id ""; gbkey "Gene"; gene "coaE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00420"; old_locus_tag "ECDH10B_0084"; -NC_010473.1 Protein Homology CDS 86706 87323 . - 0 gene_id "ECDH10B_RS00420"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "coaE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308134.1"; locus_tag "ECDH10B_RS00420"; product "dephospho-CoA kinase"; protein_id "WP_001269520.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 87321 87323 . - 0 gene_id "ECDH10B_RS00420"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "coaE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308134.1"; locus_tag "ECDH10B_RS00420"; product "dephospho-CoA kinase"; protein_id "WP_001269520.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 86703 86705 . - 0 gene_id "ECDH10B_RS00420"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "coaE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308134.1"; locus_tag "ECDH10B_RS00420"; product "dephospho-CoA kinase"; protein_id "WP_001269520.1"; transl_table "11"; -NC_010473.1 RefSeq gene 87348 87392 . + . gene_id "ECDH10B_RS26245"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS26245"; -NC_010473.1 Protein Homology CDS 87348 87389 . + 0 gene_id "ECDH10B_RS26245"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_009518737.1"; locus_tag "ECDH10B_RS26245"; product "protein YacM"; protein_id "WP_120795372.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 87348 87350 . + 0 gene_id "ECDH10B_RS26245"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_009518737.1"; locus_tag "ECDH10B_RS26245"; product "protein YacM"; protein_id "WP_120795372.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 87390 87392 . + 0 gene_id "ECDH10B_RS26245"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_009518737.1"; locus_tag "ECDH10B_RS26245"; product "protein YacM"; protein_id "WP_120795372.1"; transl_table "11"; -NC_010473.1 RefSeq gene 87548 88591 . + . gene_id "ECDH10B_RS00425"; transcript_id ""; gbkey "Gene"; gene "guaC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00425"; old_locus_tag "ECDH10B_0085"; -NC_010473.1 Protein Homology CDS 87548 88588 . + 0 gene_id "ECDH10B_RS00425"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "guaC"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_008461816.1"; locus_tag "ECDH10B_RS00425"; product "GMP reductase"; protein_id "WP_001217338.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 87548 87550 . + 0 gene_id "ECDH10B_RS00425"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "guaC"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_008461816.1"; locus_tag "ECDH10B_RS00425"; product "GMP reductase"; protein_id "WP_001217338.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 88589 88591 . + 0 gene_id "ECDH10B_RS00425"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "guaC"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_008461816.1"; locus_tag "ECDH10B_RS00425"; product "GMP reductase"; protein_id "WP_001217338.1"; transl_table "11"; -NC_010473.1 RefSeq gene 88626 89828 . - . gene_id "ECDH10B_RS00430"; transcript_id ""; gbkey "Gene"; gene "hofC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00430"; old_locus_tag "ECDH10B_0086"; -NC_010473.1 Protein Homology CDS 88629 89828 . - 0 gene_id "ECDH10B_RS00430"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hofC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414648.1"; locus_tag "ECDH10B_RS00430"; product "protein transport protein HofC"; protein_id "WP_000157266.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 89826 89828 . - 0 gene_id "ECDH10B_RS00430"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hofC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414648.1"; locus_tag "ECDH10B_RS00430"; product "protein transport protein HofC"; protein_id "WP_000157266.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 88626 88628 . - 0 gene_id "ECDH10B_RS00430"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hofC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414648.1"; locus_tag "ECDH10B_RS00430"; product "protein transport protein HofC"; protein_id "WP_000157266.1"; transl_table "11"; -NC_010473.1 RefSeq gene 89818 91203 . - . gene_id "ECDH10B_RS00435"; transcript_id ""; gbkey "Gene"; gene "gspE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00435"; old_locus_tag "ECDH10B_0087"; -NC_010473.1 Protein Homology CDS 89821 91203 . - 0 gene_id "ECDH10B_RS00435"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gspE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414649.1"; locus_tag "ECDH10B_RS00435"; product "type II secretion system protein GspE"; protein_id "WP_001025145.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 91201 91203 . - 0 gene_id "ECDH10B_RS00435"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gspE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414649.1"; locus_tag "ECDH10B_RS00435"; product "type II secretion system protein GspE"; protein_id "WP_001025145.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 89818 89820 . - 0 gene_id "ECDH10B_RS00435"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gspE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414649.1"; locus_tag "ECDH10B_RS00435"; product "type II secretion system protein GspE"; protein_id "WP_001025145.1"; transl_table "11"; -NC_010473.1 RefSeq gene 91213 91653 . - . gene_id "ECDH10B_RS00440"; transcript_id ""; gbkey "Gene"; gene "ppdD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00440"; old_locus_tag "ECDH10B_0088"; -NC_010473.1 Protein Homology CDS 91216 91653 . - 0 gene_id "ECDH10B_RS00440"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ppdD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414650.1"; locus_tag "ECDH10B_RS00440"; product "prepilin peptidase-dependent pilin"; protein_id "WP_000360904.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 91651 91653 . - 0 gene_id "ECDH10B_RS00440"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ppdD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414650.1"; locus_tag "ECDH10B_RS00440"; product "prepilin peptidase-dependent pilin"; protein_id "WP_000360904.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 91213 91215 . - 0 gene_id "ECDH10B_RS00440"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ppdD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414650.1"; locus_tag "ECDH10B_RS00440"; product "prepilin peptidase-dependent pilin"; protein_id "WP_000360904.1"; transl_table "11"; -NC_010473.1 RefSeq gene 91856 92749 . - . gene_id "ECDH10B_RS00450"; transcript_id ""; gbkey "Gene"; gene "nadC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00450"; old_locus_tag "ECDH10B_0089"; -NC_010473.1 Protein Homology CDS 91859 92749 . - 0 gene_id "ECDH10B_RS00450"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nadC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414651.1"; locus_tag "ECDH10B_RS00450"; product "carboxylating nicotinate-nucleotide diphosphorylase"; protein_id "WP_001135174.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 92747 92749 . - 0 gene_id "ECDH10B_RS00450"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nadC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414651.1"; locus_tag "ECDH10B_RS00450"; product "carboxylating nicotinate-nucleotide diphosphorylase"; protein_id "WP_001135174.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 91856 91858 . - 0 gene_id "ECDH10B_RS00450"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nadC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414651.1"; locus_tag "ECDH10B_RS00450"; product "carboxylating nicotinate-nucleotide diphosphorylase"; protein_id "WP_001135174.1"; transl_table "11"; -NC_010473.1 RefSeq gene 92837 93388 . + . gene_id "ECDH10B_RS00455"; transcript_id ""; gbkey "Gene"; gene "ampD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00455"; old_locus_tag "ECDH10B_0090"; -NC_010473.1 Protein Homology CDS 92837 93385 . + 0 gene_id "ECDH10B_RS00455"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ampD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414652.1"; locus_tag "ECDH10B_RS00455"; product "1,6-anhydro-N-acetylmuramyl-L-alanine amidase AmpD"; protein_id "WP_000923721.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 92837 92839 . + 0 gene_id "ECDH10B_RS00455"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ampD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414652.1"; locus_tag "ECDH10B_RS00455"; product "1,6-anhydro-N-acetylmuramyl-L-alanine amidase AmpD"; protein_id "WP_000923721.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 93386 93388 . + 0 gene_id "ECDH10B_RS00455"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ampD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414652.1"; locus_tag "ECDH10B_RS00455"; product "1,6-anhydro-N-acetylmuramyl-L-alanine amidase AmpD"; protein_id "WP_000923721.1"; transl_table "11"; -NC_010473.1 RefSeq gene 93385 94239 . + . gene_id "ECDH10B_RS00460"; transcript_id ""; gbkey "Gene"; gene "ampE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00460"; old_locus_tag "ECDH10B_0091"; -NC_010473.1 Protein Homology CDS 93385 94236 . + 0 gene_id "ECDH10B_RS00460"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ampE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414653.1"; locus_tag "ECDH10B_RS00460"; product "beta-lactamase regulator AmpE"; protein_id "WP_000172005.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 93385 93387 . + 0 gene_id "ECDH10B_RS00460"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ampE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414653.1"; locus_tag "ECDH10B_RS00460"; product "beta-lactamase regulator AmpE"; protein_id "WP_000172005.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 94237 94239 . + 0 gene_id "ECDH10B_RS00460"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ampE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414653.1"; locus_tag "ECDH10B_RS00460"; product "beta-lactamase regulator AmpE"; protein_id "WP_000172005.1"; transl_table "11"; -NC_010473.1 RefSeq gene 94282 95655 . - . gene_id "ECDH10B_RS00465"; transcript_id ""; gbkey "Gene"; gene "aroP"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00465"; old_locus_tag "ECDH10B_0092"; -NC_010473.1 Protein Homology CDS 94285 95655 . - 0 gene_id "ECDH10B_RS00465"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "aroP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414654.1"; locus_tag "ECDH10B_RS00465"; product "aromatic amino acid transporter AroP"; protein_id "WP_000969915.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 95653 95655 . - 0 gene_id "ECDH10B_RS00465"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "aroP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414654.1"; locus_tag "ECDH10B_RS00465"; product "aromatic amino acid transporter AroP"; protein_id "WP_000969915.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 94282 94284 . - 0 gene_id "ECDH10B_RS00465"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "aroP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414654.1"; locus_tag "ECDH10B_RS00465"; product "aromatic amino acid transporter AroP"; protein_id "WP_000969915.1"; transl_table "11"; -NC_010473.1 RefSeq gene 96196 96960 . + . gene_id "ECDH10B_RS00470"; transcript_id ""; gbkey "Gene"; gene "pdhR"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00470"; old_locus_tag "ECDH10B_0093"; -NC_010473.1 Protein Homology CDS 96196 96957 . + 0 gene_id "ECDH10B_RS00470"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pdhR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308144.1"; locus_tag "ECDH10B_RS00470"; product "pyruvate dehydrogenase complex transcriptional repressor PdhR"; protein_id "WP_000331776.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 96196 96198 . + 0 gene_id "ECDH10B_RS00470"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pdhR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308144.1"; locus_tag "ECDH10B_RS00470"; product "pyruvate dehydrogenase complex transcriptional repressor PdhR"; protein_id "WP_000331776.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 96958 96960 . + 0 gene_id "ECDH10B_RS00470"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pdhR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308144.1"; locus_tag "ECDH10B_RS00470"; product "pyruvate dehydrogenase complex transcriptional repressor PdhR"; protein_id "WP_000331776.1"; transl_table "11"; -NC_010473.1 RefSeq gene 97121 99784 . + . gene_id "ECDH10B_RS00475"; transcript_id ""; gbkey "Gene"; gene "aceE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00475"; old_locus_tag "ECDH10B_0094"; -NC_010473.1 Protein Homology CDS 97121 99781 . + 0 gene_id "ECDH10B_RS00475"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "aceE"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_008814576.1"; locus_tag "ECDH10B_RS00475"; product "pyruvate dehydrogenase (acetyl-transferring), homodimeric type"; protein_id "WP_000003820.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 97121 97123 . + 0 gene_id "ECDH10B_RS00475"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "aceE"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_008814576.1"; locus_tag "ECDH10B_RS00475"; product "pyruvate dehydrogenase (acetyl-transferring), homodimeric type"; protein_id "WP_000003820.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 99782 99784 . + 0 gene_id "ECDH10B_RS00475"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "aceE"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_008814576.1"; locus_tag "ECDH10B_RS00475"; product "pyruvate dehydrogenase (acetyl-transferring), homodimeric type"; protein_id "WP_000003820.1"; transl_table "11"; -NC_010473.1 RefSeq gene 99799 101691 . + . gene_id "ECDH10B_RS00480"; transcript_id ""; gbkey "Gene"; gene "aceF"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00480"; old_locus_tag "ECDH10B_0095"; -NC_010473.1 Protein Homology CDS 99799 101688 . + 0 gene_id "ECDH10B_RS00480"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "aceF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414657.1"; locus_tag "ECDH10B_RS00480"; product "pyruvate dehydrogenase complex dihydrolipoyllysine-residue acetyltransferase"; protein_id "WP_000963518.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 99799 99801 . + 0 gene_id "ECDH10B_RS00480"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "aceF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414657.1"; locus_tag "ECDH10B_RS00480"; product "pyruvate dehydrogenase complex dihydrolipoyllysine-residue acetyltransferase"; protein_id "WP_000963518.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 101689 101691 . + 0 gene_id "ECDH10B_RS00480"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "aceF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414657.1"; locus_tag "ECDH10B_RS00480"; product "pyruvate dehydrogenase complex dihydrolipoyllysine-residue acetyltransferase"; protein_id "WP_000963518.1"; transl_table "11"; -NC_010473.1 RefSeq gene 102016 103440 . + . gene_id "ECDH10B_RS00485"; transcript_id ""; gbkey "Gene"; gene "lpdA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00485"; old_locus_tag "ECDH10B_0096"; -NC_010473.1 Protein Homology CDS 102016 103437 . + 0 gene_id "ECDH10B_RS00485"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lpdA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001738005.1"; locus_tag "ECDH10B_RS00485"; product "dihydrolipoyl dehydrogenase"; protein_id "WP_000102485.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 102016 102018 . + 0 gene_id "ECDH10B_RS00485"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lpdA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001738005.1"; locus_tag "ECDH10B_RS00485"; product "dihydrolipoyl dehydrogenase"; protein_id "WP_000102485.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 103438 103440 . + 0 gene_id "ECDH10B_RS00485"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lpdA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001738005.1"; locus_tag "ECDH10B_RS00485"; product "dihydrolipoyl dehydrogenase"; protein_id "WP_000102485.1"; transl_table "11"; -NC_010473.1 RefSeq gene 103511 105364 . - . gene_id "ECDH10B_RS00490"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00490"; old_locus_tag "ECDH10B_0097"; -NC_010473.1 Protein Homology CDS 103514 105364 . - 0 gene_id "ECDH10B_RS00490"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414659.1"; locus_tag "ECDH10B_RS00490"; product "DUF3300 domain-containing protein"; protein_id "WP_000784470.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 105362 105364 . - 0 gene_id "ECDH10B_RS00490"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414659.1"; locus_tag "ECDH10B_RS00490"; product "DUF3300 domain-containing protein"; protein_id "WP_000784470.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 103511 103513 . - 0 gene_id "ECDH10B_RS00490"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414659.1"; locus_tag "ECDH10B_RS00490"; product "DUF3300 domain-containing protein"; protein_id "WP_000784470.1"; transl_table "11"; -NC_010473.1 RefSeq gene 105719 108316 . + . gene_id "ECDH10B_RS00495"; transcript_id ""; gbkey "Gene"; gene "acnB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00495"; old_locus_tag "ECDH10B_0098"; -NC_010473.1 Protein Homology CDS 105719 108313 . + 0 gene_id "ECDH10B_RS00495"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "acnB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414660.1"; locus_tag "ECDH10B_RS00495"; product "bifunctional aconitate hydratase 2/2-methylisocitrate dehydratase"; protein_id "WP_001307570.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 105719 105721 . + 0 gene_id "ECDH10B_RS00495"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "acnB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414660.1"; locus_tag "ECDH10B_RS00495"; product "bifunctional aconitate hydratase 2/2-methylisocitrate dehydratase"; protein_id "WP_001307570.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 108314 108316 . + 0 gene_id "ECDH10B_RS00495"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "acnB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414660.1"; locus_tag "ECDH10B_RS00495"; product "bifunctional aconitate hydratase 2/2-methylisocitrate dehydratase"; protein_id "WP_001307570.1"; transl_table "11"; -NC_010473.1 RefSeq gene 108492 108854 . + . gene_id "ECDH10B_RS00500"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00500"; old_locus_tag "ECDH10B_0099"; -NC_010473.1 Protein Homology CDS 108492 108851 . + 0 gene_id "ECDH10B_RS00500"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414661.2"; locus_tag "ECDH10B_RS00500"; product "YacL family protein"; protein_id "WP_000384306.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 108492 108494 . + 0 gene_id "ECDH10B_RS00500"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414661.2"; locus_tag "ECDH10B_RS00500"; product "YacL family protein"; protein_id "WP_000384306.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 108852 108854 . + 0 gene_id "ECDH10B_RS00500"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414661.2"; locus_tag "ECDH10B_RS00500"; product "YacL family protein"; protein_id "WP_000384306.1"; transl_table "11"; -NC_010473.1 RefSeq gene 108892 109686 . - . gene_id "ECDH10B_RS00505"; transcript_id ""; gbkey "Gene"; gene "speD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00505"; old_locus_tag "ECDH10B_0100"; -NC_010473.1 Protein Homology CDS 108895 109686 . - 0 gene_id "ECDH10B_RS00505"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "speD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308151.1"; locus_tag "ECDH10B_RS00505"; product "adenosylmethionine decarboxylase"; protein_id "WP_000734287.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 109684 109686 . - 0 gene_id "ECDH10B_RS00505"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "speD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308151.1"; locus_tag "ECDH10B_RS00505"; product "adenosylmethionine decarboxylase"; protein_id "WP_000734287.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 108892 108894 . - 0 gene_id "ECDH10B_RS00505"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "speD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308151.1"; locus_tag "ECDH10B_RS00505"; product "adenosylmethionine decarboxylase"; protein_id "WP_000734287.1"; transl_table "11"; -NC_010473.1 RefSeq gene 109702 110568 . - . gene_id "ECDH10B_RS00510"; transcript_id ""; gbkey "Gene"; gene "speE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00510"; old_locus_tag "ECDH10B_0101"; -NC_010473.1 Protein Homology CDS 109705 110568 . - 0 gene_id "ECDH10B_RS00510"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "speE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414663.1"; locus_tag "ECDH10B_RS00510"; product "polyamine aminopropyltransferase"; protein_id "WP_000818411.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 110566 110568 . - 0 gene_id "ECDH10B_RS00510"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "speE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414663.1"; locus_tag "ECDH10B_RS00510"; product "polyamine aminopropyltransferase"; protein_id "WP_000818411.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 109702 109704 . - 0 gene_id "ECDH10B_RS00510"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "speE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414663.1"; locus_tag "ECDH10B_RS00510"; product "polyamine aminopropyltransferase"; protein_id "WP_000818411.1"; transl_table "11"; -NC_010473.1 RefSeq gene 110674 111021 . - . gene_id "ECDH10B_RS00515"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00515"; old_locus_tag "ECDH10B_0102"; -NC_010473.1 Protein Homology CDS 110677 111021 . - 0 gene_id "ECDH10B_RS00515"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414664.4"; locus_tag "ECDH10B_RS00515"; product "YacC family pilotin-like protein"; protein_id "WP_001295568.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 111019 111021 . - 0 gene_id "ECDH10B_RS00515"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414664.4"; locus_tag "ECDH10B_RS00515"; product "YacC family pilotin-like protein"; protein_id "WP_001295568.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 110674 110676 . - 0 gene_id "ECDH10B_RS00515"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414664.4"; locus_tag "ECDH10B_RS00515"; product "YacC family pilotin-like protein"; protein_id "WP_001295568.1"; transl_table "11"; -NC_010473.1 RefSeq gene 111187 112737 . + . gene_id "ECDH10B_RS00520"; transcript_id ""; gbkey "Gene"; gene "cueO"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00520"; old_locus_tag "ECDH10B_0103"; -NC_010473.1 Protein Homology CDS 111187 112734 . + 0 gene_id "ECDH10B_RS00520"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cueO"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414665.1"; locus_tag "ECDH10B_RS00520"; product "multicopper oxidase CueO"; protein_id "WP_001189647.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 111187 111189 . + 0 gene_id "ECDH10B_RS00520"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cueO"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414665.1"; locus_tag "ECDH10B_RS00520"; product "multicopper oxidase CueO"; protein_id "WP_001189647.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 112735 112737 . + 0 gene_id "ECDH10B_RS00520"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cueO"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414665.1"; locus_tag "ECDH10B_RS00520"; product "multicopper oxidase CueO"; protein_id "WP_001189647.1"; transl_table "11"; -NC_010473.1 RefSeq gene 112939 115329 . - . gene_id "ECDH10B_RS00525"; transcript_id ""; gbkey "Gene"; gene "gcd"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00525"; old_locus_tag "ECDH10B_0104"; -NC_010473.1 Protein Homology CDS 112942 115329 . - 0 gene_id "ECDH10B_RS00525"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gcd"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414666.1"; locus_tag "ECDH10B_RS00525"; product "quinoprotein glucose dehydrogenase"; protein_id "WP_001306211.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 115327 115329 . - 0 gene_id "ECDH10B_RS00525"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gcd"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414666.1"; locus_tag "ECDH10B_RS00525"; product "quinoprotein glucose dehydrogenase"; protein_id "WP_001306211.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 112939 112941 . - 0 gene_id "ECDH10B_RS00525"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gcd"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414666.1"; locus_tag "ECDH10B_RS00525"; product "quinoprotein glucose dehydrogenase"; protein_id "WP_001306211.1"; transl_table "11"; -NC_010473.1 RefSeq gene 115535 116071 . + . gene_id "ECDH10B_RS00530"; transcript_id ""; gbkey "Gene"; gene "hpt"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00530"; old_locus_tag "ECDH10B_0105"; -NC_010473.1 Protein Homology CDS 115535 116068 . + 0 gene_id "ECDH10B_RS00530"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hpt"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_004204384.1"; locus_tag "ECDH10B_RS00530"; product "hypoxanthine phosphoribosyltransferase"; protein_id "WP_000683335.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 115535 115537 . + 0 gene_id "ECDH10B_RS00530"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hpt"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_004204384.1"; locus_tag "ECDH10B_RS00530"; product "hypoxanthine phosphoribosyltransferase"; protein_id "WP_000683335.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 116069 116071 . + 0 gene_id "ECDH10B_RS00530"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hpt"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_004204384.1"; locus_tag "ECDH10B_RS00530"; product "hypoxanthine phosphoribosyltransferase"; protein_id "WP_000683335.1"; transl_table "11"; -NC_010473.1 RefSeq gene 116112 116774 . - . gene_id "ECDH10B_RS00535"; transcript_id ""; gbkey "Gene"; gene "can"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00535"; old_locus_tag "ECDH10B_0106"; -NC_010473.1 Protein Homology CDS 116115 116774 . - 0 gene_id "ECDH10B_RS00535"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "can"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414668.1"; locus_tag "ECDH10B_RS00535"; product "carbonate dehydratase"; protein_id "WP_000651599.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 116772 116774 . - 0 gene_id "ECDH10B_RS00535"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "can"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414668.1"; locus_tag "ECDH10B_RS00535"; product "carbonate dehydratase"; protein_id "WP_000651599.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 116112 116114 . - 0 gene_id "ECDH10B_RS00535"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "can"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414668.1"; locus_tag "ECDH10B_RS00535"; product "carbonate dehydratase"; protein_id "WP_000651599.1"; transl_table "11"; -NC_010473.1 RefSeq gene 116883 117809 . + . gene_id "ECDH10B_RS00540"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00540"; old_locus_tag "ECDH10B_0107"; -NC_010473.1 Protein Homology CDS 116883 117806 . + 0 gene_id "ECDH10B_RS00540"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414669.1"; locus_tag "ECDH10B_RS00540"; product "ABC transporter ATP-binding protein"; protein_id "WP_000150637.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 116883 116885 . + 0 gene_id "ECDH10B_RS00540"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414669.1"; locus_tag "ECDH10B_RS00540"; product "ABC transporter ATP-binding protein"; protein_id "WP_000150637.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 117807 117809 . + 0 gene_id "ECDH10B_RS00540"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414669.1"; locus_tag "ECDH10B_RS00540"; product "ABC transporter ATP-binding protein"; protein_id "WP_000150637.1"; transl_table "11"; -NC_010473.1 RefSeq gene 117806 118576 . + . gene_id "ECDH10B_RS00545"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00545"; old_locus_tag "ECDH10B_0108"; -NC_010473.1 Protein Homology CDS 117806 118573 . + 0 gene_id "ECDH10B_RS00545"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001747261.1"; locus_tag "ECDH10B_RS00545"; product "ABC transporter permease"; protein_id "WP_000972203.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 117806 117808 . + 0 gene_id "ECDH10B_RS00545"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001747261.1"; locus_tag "ECDH10B_RS00545"; product "ABC transporter permease"; protein_id "WP_000972203.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 118574 118576 . + 0 gene_id "ECDH10B_RS00545"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001747261.1"; locus_tag "ECDH10B_RS00545"; product "ABC transporter permease"; protein_id "WP_000972203.1"; transl_table "11"; -NC_010473.1 RefSeq gene 118681 119121 . + . gene_id "ECDH10B_RS00550"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00550"; old_locus_tag "ECDH10B_0109"; -NC_010473.1 Protein Homology CDS 118681 119118 . + 0 gene_id "ECDH10B_RS00550"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414671.1"; locus_tag "ECDH10B_RS00550"; product "PTS sugar transporter subunit IIA"; protein_id "WP_000901987.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 118681 118683 . + 0 gene_id "ECDH10B_RS00550"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414671.1"; locus_tag "ECDH10B_RS00550"; product "PTS sugar transporter subunit IIA"; protein_id "WP_000901987.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 119119 119121 . + 0 gene_id "ECDH10B_RS00550"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414671.1"; locus_tag "ECDH10B_RS00550"; product "PTS sugar transporter subunit IIA"; protein_id "WP_000901987.1"; transl_table "11"; -NC_010473.1 RefSeq gene 119185 120414 . + . gene_id "ECDH10B_RS00555"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00555"; old_locus_tag "ECDH10B_0110"; -NC_010473.1 Protein Homology CDS 119185 120411 . + 0 gene_id "ECDH10B_RS00555"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414672.1"; locus_tag "ECDH10B_RS00555"; product "polysaccharide deacetylase family protein"; protein_id "WP_000277917.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 119185 119187 . + 0 gene_id "ECDH10B_RS00555"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414672.1"; locus_tag "ECDH10B_RS00555"; product "polysaccharide deacetylase family protein"; protein_id "WP_000277917.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 120412 120414 . + 0 gene_id "ECDH10B_RS00555"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414672.1"; locus_tag "ECDH10B_RS00555"; product "polysaccharide deacetylase family protein"; protein_id "WP_000277917.1"; transl_table "11"; -NC_010473.1 RefSeq gene 120418 120798 . - . gene_id "ECDH10B_RS00560"; transcript_id ""; gbkey "Gene"; gene "panD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00560"; old_locus_tag "ECDH10B_0111"; -NC_010473.1 Protein Homology CDS 120421 120798 . - 0 gene_id "ECDH10B_RS00560"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "panD"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005124704.1"; locus_tag "ECDH10B_RS00560"; product "aspartate 1-decarboxylase"; protein_id "WP_000621515.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 120796 120798 . - 0 gene_id "ECDH10B_RS00560"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "panD"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005124704.1"; locus_tag "ECDH10B_RS00560"; product "aspartate 1-decarboxylase"; protein_id "WP_000621515.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 120418 120420 . - 0 gene_id "ECDH10B_RS00560"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "panD"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005124704.1"; locus_tag "ECDH10B_RS00560"; product "aspartate 1-decarboxylase"; protein_id "WP_000621515.1"; transl_table "11"; -NC_010473.1 RefSeq gene 121072 121974 . + . gene_id "ECDH10B_RS00565"; transcript_id ""; gbkey "Gene"; gene "rpnC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00565"; old_locus_tag "ECDH10B_0112"; -NC_010473.1 Protein Homology CDS 121072 121971 . + 0 gene_id "ECDH10B_RS00565"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rpnC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414674.1"; locus_tag "ECDH10B_RS00565"; product "recombination-promoting nuclease RpnC"; protein_id "WP_000339954.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 121072 121074 . + 0 gene_id "ECDH10B_RS00565"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rpnC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414674.1"; locus_tag "ECDH10B_RS00565"; product "recombination-promoting nuclease RpnC"; protein_id "WP_000339954.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 121972 121974 . + 0 gene_id "ECDH10B_RS00565"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rpnC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414674.1"; locus_tag "ECDH10B_RS00565"; product "recombination-promoting nuclease RpnC"; protein_id "WP_000339954.1"; transl_table "11"; -NC_010473.1 RefSeq gene 122048 122899 . - . gene_id "ECDH10B_RS00570"; transcript_id ""; gbkey "Gene"; gene "panC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00570"; old_locus_tag "ECDH10B_0113"; -NC_010473.1 Protein Homology CDS 122051 122899 . - 0 gene_id "ECDH10B_RS00570"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "panC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414675.1"; locus_tag "ECDH10B_RS00570"; product "pantoate--beta-alanine ligase"; protein_id "WP_000905383.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 122897 122899 . - 0 gene_id "ECDH10B_RS00570"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "panC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414675.1"; locus_tag "ECDH10B_RS00570"; product "pantoate--beta-alanine ligase"; protein_id "WP_000905383.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 122048 122050 . - 0 gene_id "ECDH10B_RS00570"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "panC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414675.1"; locus_tag "ECDH10B_RS00570"; product "pantoate--beta-alanine ligase"; protein_id "WP_000905383.1"; transl_table "11"; -NC_010473.1 RefSeq gene 122911 123705 . - . gene_id "ECDH10B_RS00575"; transcript_id ""; gbkey "Gene"; gene "panB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00575"; old_locus_tag "ECDH10B_0114"; -NC_010473.1 Protein Homology CDS 122914 123705 . - 0 gene_id "ECDH10B_RS00575"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "panB"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000805487.1"; locus_tag "ECDH10B_RS00575"; product "3-methyl-2-oxobutanoate hydroxymethyltransferase"; protein_id "WP_000805497.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 123703 123705 . - 0 gene_id "ECDH10B_RS00575"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "panB"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000805487.1"; locus_tag "ECDH10B_RS00575"; product "3-methyl-2-oxobutanoate hydroxymethyltransferase"; protein_id "WP_000805497.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 122911 122913 . - 0 gene_id "ECDH10B_RS00575"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "panB"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000805487.1"; locus_tag "ECDH10B_RS00575"; product "3-methyl-2-oxobutanoate hydroxymethyltransferase"; protein_id "WP_000805497.1"; transl_table "11"; -NC_010473.1 RefSeq gene 123819 125057 . - . gene_id "ECDH10B_RS00580"; transcript_id ""; gbkey "Gene"; gene "yadC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00580"; old_locus_tag "ECDH10B_0115"; -NC_010473.1 Protein Homology CDS 123822 125057 . - 0 gene_id "ECDH10B_RS00580"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yadC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414677.1"; locus_tag "ECDH10B_RS00580"; product "fimbrial tip-adhesin YadC"; protein_id "WP_000848455.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 125055 125057 . - 0 gene_id "ECDH10B_RS00580"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yadC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414677.1"; locus_tag "ECDH10B_RS00580"; product "fimbrial tip-adhesin YadC"; protein_id "WP_000848455.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 123819 123821 . - 0 gene_id "ECDH10B_RS00580"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yadC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414677.1"; locus_tag "ECDH10B_RS00580"; product "fimbrial tip-adhesin YadC"; protein_id "WP_000848455.1"; transl_table "11"; -NC_010473.1 RefSeq gene 125107 125703 . - . gene_id "ECDH10B_RS00585"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00585"; old_locus_tag "ECDH10B_0116"; -NC_010473.1 Protein Homology CDS 125110 125703 . - 0 gene_id "ECDH10B_RS00585"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414678.1"; locus_tag "ECDH10B_RS00585"; product "fimbrial protein"; protein_id "WP_000553749.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 125701 125703 . - 0 gene_id "ECDH10B_RS00585"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414678.1"; locus_tag "ECDH10B_RS00585"; product "fimbrial protein"; protein_id "WP_000553749.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 125107 125109 . - 0 gene_id "ECDH10B_RS00585"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414678.1"; locus_tag "ECDH10B_RS00585"; product "fimbrial protein"; protein_id "WP_000553749.1"; transl_table "11"; -NC_010473.1 RefSeq gene 125730 126335 . - . gene_id "ECDH10B_RS00590"; transcript_id ""; gbkey "Gene"; gene "yadL"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00590"; old_locus_tag "ECDH10B_0117"; -NC_010473.1 Protein Homology CDS 125733 126335 . - 0 gene_id "ECDH10B_RS00590"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yadL"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414679.1"; locus_tag "ECDH10B_RS00590"; product "fimbrial-like protein YadL"; protein_id "WP_001310526.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 126333 126335 . - 0 gene_id "ECDH10B_RS00590"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yadL"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414679.1"; locus_tag "ECDH10B_RS00590"; product "fimbrial-like protein YadL"; protein_id "WP_001310526.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 125730 125732 . - 0 gene_id "ECDH10B_RS00590"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yadL"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414679.1"; locus_tag "ECDH10B_RS00590"; product "fimbrial-like protein YadL"; protein_id "WP_001310526.1"; transl_table "11"; -NC_010473.1 RefSeq gene 126347 126916 . - . gene_id "ECDH10B_RS00595"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00595"; old_locus_tag "ECDH10B_0118"; -NC_010473.1 Protein Homology CDS 126350 126916 . - 0 gene_id "ECDH10B_RS00595"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414680.4"; locus_tag "ECDH10B_RS00595"; product "fimbrial protein"; protein_id "WP_000598300.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 126914 126916 . - 0 gene_id "ECDH10B_RS00595"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414680.4"; locus_tag "ECDH10B_RS00595"; product "fimbrial protein"; protein_id "WP_000598300.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 126347 126349 . - 0 gene_id "ECDH10B_RS00595"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414680.4"; locus_tag "ECDH10B_RS00595"; product "fimbrial protein"; protein_id "WP_000598300.1"; transl_table "11"; -NC_010473.1 RefSeq gene 126933 129530 . - . gene_id "ECDH10B_RS00600"; transcript_id ""; gbkey "Gene"; gene "htrE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00600"; old_locus_tag "ECDH10B_0119"; -NC_010473.1 Protein Homology CDS 126936 129530 . - 0 gene_id "ECDH10B_RS00600"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "htrE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414681.1"; locus_tag "ECDH10B_RS00600"; product "Yad fimbria usher protein HtrE"; protein_id "WP_000151605.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 129528 129530 . - 0 gene_id "ECDH10B_RS00600"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "htrE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414681.1"; locus_tag "ECDH10B_RS00600"; product "Yad fimbria usher protein HtrE"; protein_id "WP_000151605.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 126933 126935 . - 0 gene_id "ECDH10B_RS00600"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "htrE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414681.1"; locus_tag "ECDH10B_RS00600"; product "Yad fimbria usher protein HtrE"; protein_id "WP_000151605.1"; transl_table "11"; -NC_010473.1 RefSeq gene 129565 130305 . - . gene_id "ECDH10B_RS00605"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00605"; old_locus_tag "ECDH10B_0120"; -NC_010473.1 Protein Homology CDS 129568 130305 . - 0 gene_id "ECDH10B_RS00605"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414682.1"; locus_tag "ECDH10B_RS00605"; product "fimbrial chaperone"; protein_id "WP_000465928.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 130303 130305 . - 0 gene_id "ECDH10B_RS00605"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414682.1"; locus_tag "ECDH10B_RS00605"; product "fimbrial chaperone"; protein_id "WP_000465928.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 129565 129567 . - 0 gene_id "ECDH10B_RS00605"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414682.1"; locus_tag "ECDH10B_RS00605"; product "fimbrial chaperone"; protein_id "WP_000465928.1"; transl_table "11"; -NC_010473.1 RefSeq gene 130403 130987 . - . gene_id "ECDH10B_RS00610"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00610"; old_locus_tag "ECDH10B_0121"; -NC_010473.1 Protein Homology CDS 130406 130987 . - 0 gene_id "ECDH10B_RS00610"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414683.1"; locus_tag "ECDH10B_RS00610"; product "fimbrial protein"; protein_id "WP_000038438.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 130985 130987 . - 0 gene_id "ECDH10B_RS00610"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414683.1"; locus_tag "ECDH10B_RS00610"; product "fimbrial protein"; protein_id "WP_000038438.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 130403 130405 . - 0 gene_id "ECDH10B_RS00610"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414683.1"; locus_tag "ECDH10B_RS00610"; product "fimbrial protein"; protein_id "WP_000038438.1"; transl_table "11"; -NC_010473.1 RefSeq gene 131357 131836 . - . gene_id "ECDH10B_RS00615"; transcript_id ""; gbkey "Gene"; gene "folK"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00615"; old_locus_tag "ECDH10B_0122"; -NC_010473.1 Protein Homology CDS 131360 131836 . - 0 gene_id "ECDH10B_RS00615"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "folK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414684.1"; locus_tag "ECDH10B_RS00615"; product "2-amino-4-hydroxy-6-hydroxymethyldihydropteridine diphosphokinase"; protein_id "WP_000215139.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 131834 131836 . - 0 gene_id "ECDH10B_RS00615"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "folK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414684.1"; locus_tag "ECDH10B_RS00615"; product "2-amino-4-hydroxy-6-hydroxymethyldihydropteridine diphosphokinase"; protein_id "WP_000215139.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 131357 131359 . - 0 gene_id "ECDH10B_RS00615"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "folK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414684.1"; locus_tag "ECDH10B_RS00615"; product "2-amino-4-hydroxy-6-hydroxymethyldihydropteridine diphosphokinase"; protein_id "WP_000215139.1"; transl_table "11"; -NC_010473.1 RefSeq gene 131833 133251 . - . gene_id "ECDH10B_RS00620"; transcript_id ""; gbkey "Gene"; gene "pcnB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00620"; old_locus_tag "ECDH10B_0123"; -NC_010473.1 Protein Homology CDS 131836 133251 . - 0 gene_id "ECDH10B_RS00620"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pcnB"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000174652.1"; locus_tag "ECDH10B_RS00620"; product "polynucleotide adenylyltransferase PcnB"; protein_id "WP_000174643.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 133249 133251 . - 0 gene_id "ECDH10B_RS00620"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pcnB"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000174652.1"; locus_tag "ECDH10B_RS00620"; product "polynucleotide adenylyltransferase PcnB"; protein_id "WP_000174643.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 131833 131835 . - 0 gene_id "ECDH10B_RS00620"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pcnB"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000174652.1"; locus_tag "ECDH10B_RS00620"; product "polynucleotide adenylyltransferase PcnB"; protein_id "WP_000174643.1"; transl_table "11"; -NC_010473.1 RefSeq gene 133290 134216 . - . gene_id "ECDH10B_RS00625"; transcript_id ""; gbkey "Gene"; gene "gluQRS"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00625"; old_locus_tag "ECDH10B_0124"; -NC_010473.1 Protein Homology CDS 133293 134216 . - 0 gene_id "ECDH10B_RS00625"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gluQRS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001432381.1"; locus_tag "ECDH10B_RS00625"; product "tRNA glutamyl-Q(34) synthetase GluQRS"; protein_id "WP_000937424.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 134214 134216 . - 0 gene_id "ECDH10B_RS00625"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gluQRS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001432381.1"; locus_tag "ECDH10B_RS00625"; product "tRNA glutamyl-Q(34) synthetase GluQRS"; protein_id "WP_000937424.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 133290 133292 . - 0 gene_id "ECDH10B_RS00625"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gluQRS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001432381.1"; locus_tag "ECDH10B_RS00625"; product "tRNA glutamyl-Q(34) synthetase GluQRS"; protein_id "WP_000937424.1"; transl_table "11"; -NC_010473.1 RefSeq gene 134253 134708 . - . gene_id "ECDH10B_RS00630"; transcript_id ""; gbkey "Gene"; gene "dksA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00630"; old_locus_tag "ECDH10B_0125"; -NC_010473.1 Protein Homology CDS 134256 134708 . - 0 gene_id "ECDH10B_RS00630"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dksA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308176.1"; locus_tag "ECDH10B_RS00630"; product "RNA polymerase-binding protein DksA"; protein_id "WP_001155227.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 134706 134708 . - 0 gene_id "ECDH10B_RS00630"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dksA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308176.1"; locus_tag "ECDH10B_RS00630"; product "RNA polymerase-binding protein DksA"; protein_id "WP_001155227.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 134253 134255 . - 0 gene_id "ECDH10B_RS00630"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dksA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308176.1"; locus_tag "ECDH10B_RS00630"; product "RNA polymerase-binding protein DksA"; protein_id "WP_001155227.1"; transl_table "11"; -NC_010473.1 RefSeq gene 134886 135590 . - . gene_id "ECDH10B_RS00635"; transcript_id ""; gbkey "Gene"; gene "sfsA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00635"; old_locus_tag "ECDH10B_0126"; -NC_010473.1 Protein Homology CDS 134889 135590 . - 0 gene_id "ECDH10B_RS00635"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sfsA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308177.1"; locus_tag "ECDH10B_RS00635"; product "DNA/RNA nuclease SfsA"; protein_id "WP_000396036.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 135588 135590 . - 0 gene_id "ECDH10B_RS00635"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sfsA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308177.1"; locus_tag "ECDH10B_RS00635"; product "DNA/RNA nuclease SfsA"; protein_id "WP_000396036.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 134886 134888 . - 0 gene_id "ECDH10B_RS00635"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sfsA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308177.1"; locus_tag "ECDH10B_RS00635"; product "DNA/RNA nuclease SfsA"; protein_id "WP_000396036.1"; transl_table "11"; -NC_010473.1 RefSeq gene 135605 136135 . - . gene_id "ECDH10B_RS00640"; transcript_id ""; gbkey "Gene"; gene "thpR"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00640"; old_locus_tag "ECDH10B_0127"; -NC_010473.1 Protein Homology CDS 135608 136135 . - 0 gene_id "ECDH10B_RS00640"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "thpR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414689.4"; locus_tag "ECDH10B_RS00640"; product "RNA 2',3'-cyclic phosphodiesterase"; protein_id "WP_001294700.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 136133 136135 . - 0 gene_id "ECDH10B_RS00640"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "thpR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414689.4"; locus_tag "ECDH10B_RS00640"; product "RNA 2',3'-cyclic phosphodiesterase"; protein_id "WP_001294700.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 135605 135607 . - 0 gene_id "ECDH10B_RS00640"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "thpR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414689.4"; locus_tag "ECDH10B_RS00640"; product "RNA 2',3'-cyclic phosphodiesterase"; protein_id "WP_001294700.1"; transl_table "11"; -NC_010473.1 RefSeq gene 136209 138638 . + . gene_id "ECDH10B_RS00645"; transcript_id ""; gbkey "Gene"; gene "hrpB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00645"; old_locus_tag "ECDH10B_0128"; -NC_010473.1 Protein Homology CDS 136209 138635 . + 0 gene_id "ECDH10B_RS00645"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hrpB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414690.4"; locus_tag "ECDH10B_RS00645"; product "ATP-dependent helicase HrpB"; protein_id "WP_001350480.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 136209 136211 . + 0 gene_id "ECDH10B_RS00645"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hrpB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414690.4"; locus_tag "ECDH10B_RS00645"; product "ATP-dependent helicase HrpB"; protein_id "WP_001350480.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 138636 138638 . + 0 gene_id "ECDH10B_RS00645"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hrpB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414690.4"; locus_tag "ECDH10B_RS00645"; product "ATP-dependent helicase HrpB"; protein_id "WP_001350480.1"; transl_table "11"; -NC_010473.1 RefSeq gene 138834 141368 . + . gene_id "ECDH10B_RS00655"; transcript_id ""; gbkey "Gene"; gene "mrcB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00655"; old_locus_tag "ECDH10B_0129"; -NC_010473.1 Protein Homology CDS 138834 141365 . + 0 gene_id "ECDH10B_RS00655"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mrcB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414691.1"; locus_tag "ECDH10B_RS00655"; product "bifunctional glycosyl transferase/transpeptidase"; protein_id "WP_000918162.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 138834 138836 . + 0 gene_id "ECDH10B_RS00655"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mrcB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414691.1"; locus_tag "ECDH10B_RS00655"; product "bifunctional glycosyl transferase/transpeptidase"; protein_id "WP_000918162.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 141366 141368 . + 0 gene_id "ECDH10B_RS00655"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mrcB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414691.1"; locus_tag "ECDH10B_RS00655"; product "bifunctional glycosyl transferase/transpeptidase"; protein_id "WP_000918162.1"; transl_table "11"; -NC_010473.1 RefSeq gene 141588 143831 . + . gene_id "ECDH10B_RS00660"; transcript_id ""; gbkey "Gene"; gene "fhuA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00660"; old_locus_tag "ECDH10B_0130"; -NC_010473.1 Protein Homology CDS 141588 143828 . + 0 gene_id "ECDH10B_RS00660"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fhuA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414692.1"; locus_tag "ECDH10B_RS00660"; product "ferrichrome porin FhuA"; protein_id "WP_000124442.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 141588 141590 . + 0 gene_id "ECDH10B_RS00660"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fhuA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414692.1"; locus_tag "ECDH10B_RS00660"; product "ferrichrome porin FhuA"; protein_id "WP_000124442.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 143829 143831 . + 0 gene_id "ECDH10B_RS00660"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fhuA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414692.1"; locus_tag "ECDH10B_RS00660"; product "ferrichrome porin FhuA"; protein_id "WP_000124442.1"; transl_table "11"; -NC_010473.1 RefSeq gene 143882 144679 . + . gene_id "ECDH10B_RS00665"; transcript_id ""; gbkey "Gene"; gene "fhuC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00665"; old_locus_tag "ECDH10B_0131"; -NC_010473.1 Protein Homology CDS 143882 144676 . + 0 gene_id "ECDH10B_RS00665"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fhuC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414693.1"; locus_tag "ECDH10B_RS00665"; product "Fe3+-hydroxamate ABC transporter ATP-binding protein FhuC"; protein_id "WP_001158931.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 143882 143884 . + 0 gene_id "ECDH10B_RS00665"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fhuC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414693.1"; locus_tag "ECDH10B_RS00665"; product "Fe3+-hydroxamate ABC transporter ATP-binding protein FhuC"; protein_id "WP_001158931.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 144677 144679 . + 0 gene_id "ECDH10B_RS00665"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fhuC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414693.1"; locus_tag "ECDH10B_RS00665"; product "Fe3+-hydroxamate ABC transporter ATP-binding protein FhuC"; protein_id "WP_001158931.1"; transl_table "11"; -NC_010473.1 RefSeq gene 144679 145569 . + . gene_id "ECDH10B_RS00670"; transcript_id ""; gbkey "Gene"; gene "fhuD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00670"; old_locus_tag "ECDH10B_0132"; -NC_010473.1 Protein Homology CDS 144679 145566 . + 0 gene_id "ECDH10B_RS00670"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fhuD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414694.1"; locus_tag "ECDH10B_RS00670"; product "Fe(3+)-hydroxamate ABC transporter substrate-binding protein FhuD"; protein_id "WP_001310529.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 144679 144681 . + 0 gene_id "ECDH10B_RS00670"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fhuD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414694.1"; locus_tag "ECDH10B_RS00670"; product "Fe(3+)-hydroxamate ABC transporter substrate-binding protein FhuD"; protein_id "WP_001310529.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 145567 145569 . + 0 gene_id "ECDH10B_RS00670"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fhuD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414694.1"; locus_tag "ECDH10B_RS00670"; product "Fe(3+)-hydroxamate ABC transporter substrate-binding protein FhuD"; protein_id "WP_001310529.1"; transl_table "11"; -NC_010473.1 RefSeq gene 145566 147548 . + . gene_id "ECDH10B_RS00675"; transcript_id ""; gbkey "Gene"; gene "fhuB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00675"; old_locus_tag "ECDH10B_0133"; -NC_010473.1 Protein Homology CDS 145566 147545 . + 0 gene_id "ECDH10B_RS00675"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fhuB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414695.1"; locus_tag "ECDH10B_RS00675"; product "Fe(3+)-hydroxamate ABC transporter permease FhuB"; protein_id "WP_000044072.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 145566 145568 . + 0 gene_id "ECDH10B_RS00675"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fhuB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414695.1"; locus_tag "ECDH10B_RS00675"; product "Fe(3+)-hydroxamate ABC transporter permease FhuB"; protein_id "WP_000044072.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 147546 147548 . + 0 gene_id "ECDH10B_RS00675"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fhuB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414695.1"; locus_tag "ECDH10B_RS00675"; product "Fe(3+)-hydroxamate ABC transporter permease FhuB"; protein_id "WP_000044072.1"; transl_table "11"; -NC_010473.1 RefSeq gene 147706 148986 . - . gene_id "ECDH10B_RS00680"; transcript_id ""; gbkey "Gene"; gene "hemL"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00680"; old_locus_tag "ECDH10B_0134"; -NC_010473.1 Protein Homology CDS 147709 148986 . - 0 gene_id "ECDH10B_RS00680"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hemL"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_020233394.1"; locus_tag "ECDH10B_RS00680"; product "glutamate-1-semialdehyde 2,1-aminomutase"; protein_id "WP_000045315.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 148984 148986 . - 0 gene_id "ECDH10B_RS00680"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hemL"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_020233394.1"; locus_tag "ECDH10B_RS00680"; product "glutamate-1-semialdehyde 2,1-aminomutase"; protein_id "WP_000045315.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 147706 147708 . - 0 gene_id "ECDH10B_RS00680"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hemL"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_020233394.1"; locus_tag "ECDH10B_RS00680"; product "glutamate-1-semialdehyde 2,1-aminomutase"; protein_id "WP_000045315.1"; transl_table "11"; -NC_010473.1 RefSeq gene 149211 150632 . + . gene_id "ECDH10B_RS00685"; transcript_id ""; gbkey "Gene"; gene "clcA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00685"; old_locus_tag "ECDH10B_0135"; -NC_010473.1 Protein Homology CDS 149211 150629 . + 0 gene_id "ECDH10B_RS00685"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "clcA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414697.1"; locus_tag "ECDH10B_RS00685"; product "H(+)/Cl(-) exchange transporter ClcA"; protein_id "WP_000845394.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 149211 149213 . + 0 gene_id "ECDH10B_RS00685"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "clcA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414697.1"; locus_tag "ECDH10B_RS00685"; product "H(+)/Cl(-) exchange transporter ClcA"; protein_id "WP_000845394.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 150630 150632 . + 0 gene_id "ECDH10B_RS00685"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "clcA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414697.1"; locus_tag "ECDH10B_RS00685"; product "H(+)/Cl(-) exchange transporter ClcA"; protein_id "WP_000845394.1"; transl_table "11"; -NC_010473.1 RefSeq gene 150656 150721 . + . gene_id "ECDH10B_RS25835"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS25835"; -NC_010473.1 Protein Homology CDS 150656 150718 . + 0 gene_id "ECDH10B_RS25835"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_009518738.1"; locus_tag "ECDH10B_RS25835"; product "protein YadW"; protein_id "WP_120795373.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 150656 150658 . + 0 gene_id "ECDH10B_RS25835"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_009518738.1"; locus_tag "ECDH10B_RS25835"; product "protein YadW"; protein_id "WP_120795373.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 150719 150721 . + 0 gene_id "ECDH10B_RS25835"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_009518738.1"; locus_tag "ECDH10B_RS25835"; product "protein YadW"; protein_id "WP_120795373.1"; transl_table "11"; -NC_010473.1 RefSeq gene 150714 151058 . + . gene_id "ECDH10B_RS00690"; transcript_id ""; gbkey "Gene"; gene "erpA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00690"; old_locus_tag "ECDH10B_0136"; -NC_010473.1 Protein Homology CDS 150714 151055 . + 0 gene_id "ECDH10B_RS00690"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "erpA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001295564.1"; locus_tag "ECDH10B_RS00690"; product "iron-sulfur cluster insertion protein ErpA"; protein_id "WP_001295564.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 150714 150716 . + 0 gene_id "ECDH10B_RS00690"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "erpA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001295564.1"; locus_tag "ECDH10B_RS00690"; product "iron-sulfur cluster insertion protein ErpA"; protein_id "WP_001295564.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 151056 151058 . + 0 gene_id "ECDH10B_RS00690"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "erpA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001295564.1"; locus_tag "ECDH10B_RS00690"; product "iron-sulfur cluster insertion protein ErpA"; protein_id "WP_001295564.1"; transl_table "11"; -NC_010473.1 RefSeq gene 151105 151728 . - . gene_id "ECDH10B_RS00695"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00695"; old_locus_tag "ECDH10B_0137"; -NC_010473.1 Protein Homology CDS 151108 151728 . - 0 gene_id "ECDH10B_RS00695"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414699.1"; locus_tag "ECDH10B_RS00695"; product "TRIC cation channel family protein"; protein_id "WP_000964221.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 151726 151728 . - 0 gene_id "ECDH10B_RS00695"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414699.1"; locus_tag "ECDH10B_RS00695"; product "TRIC cation channel family protein"; protein_id "WP_000964221.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 151105 151107 . - 0 gene_id "ECDH10B_RS00695"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414699.1"; locus_tag "ECDH10B_RS00695"; product "TRIC cation channel family protein"; protein_id "WP_000964221.1"; transl_table "11"; -NC_010473.1 RefSeq gene 151766 152566 . - . gene_id "ECDH10B_RS00700"; transcript_id ""; gbkey "Gene"; gene "btuF"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00700"; old_locus_tag "ECDH10B_0138"; -NC_010473.1 Protein Homology CDS 151769 152566 . - 0 gene_id "ECDH10B_RS00700"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "btuF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414700.1"; locus_tag "ECDH10B_RS00700"; product "vitamin B12 ABC transporter substrate-binding protein BtuF"; protein_id "WP_001129927.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 152564 152566 . - 0 gene_id "ECDH10B_RS00700"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "btuF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414700.1"; locus_tag "ECDH10B_RS00700"; product "vitamin B12 ABC transporter substrate-binding protein BtuF"; protein_id "WP_001129927.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 151766 151768 . - 0 gene_id "ECDH10B_RS00700"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "btuF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414700.1"; locus_tag "ECDH10B_RS00700"; product "vitamin B12 ABC transporter substrate-binding protein BtuF"; protein_id "WP_001129927.1"; transl_table "11"; -NC_010473.1 RefSeq gene 152559 153257 . - . gene_id "ECDH10B_RS00705"; transcript_id ""; gbkey "Gene"; gene "mtnN"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00705"; old_locus_tag "ECDH10B_0139"; -NC_010473.1 Protein Homology CDS 152562 153257 . - 0 gene_id "ECDH10B_RS00705"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mtnN"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308190.1"; locus_tag "ECDH10B_RS00705"; product "5'-methylthioadenosine/S-adenosylhomocysteine nucleosidase"; protein_id "WP_000689844.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 153255 153257 . - 0 gene_id "ECDH10B_RS00705"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mtnN"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308190.1"; locus_tag "ECDH10B_RS00705"; product "5'-methylthioadenosine/S-adenosylhomocysteine nucleosidase"; protein_id "WP_000689844.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 152559 152561 . - 0 gene_id "ECDH10B_RS00705"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mtnN"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308190.1"; locus_tag "ECDH10B_RS00705"; product "5'-methylthioadenosine/S-adenosylhomocysteine nucleosidase"; protein_id "WP_000689844.1"; transl_table "11"; -NC_010473.1 RefSeq gene 153341 154858 . + . gene_id "ECDH10B_RS00710"; transcript_id ""; gbkey "Gene"; gene "dgt"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00710"; old_locus_tag "ECDH10B_0140"; -NC_010473.1 Protein Homology CDS 153341 154855 . + 0 gene_id "ECDH10B_RS00710"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dgt"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414702.1"; locus_tag "ECDH10B_RS00710"; product "dGTPase"; protein_id "WP_000057073.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 153341 153343 . + 0 gene_id "ECDH10B_RS00710"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dgt"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414702.1"; locus_tag "ECDH10B_RS00710"; product "dGTPase"; protein_id "WP_000057073.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 154856 154858 . + 0 gene_id "ECDH10B_RS00710"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dgt"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414702.1"; locus_tag "ECDH10B_RS00710"; product "dGTPase"; protein_id "WP_000057073.1"; transl_table "11"; -NC_010473.1 RefSeq gene 154988 156412 . + . gene_id "ECDH10B_RS00715"; transcript_id ""; gbkey "Gene"; gene "degP"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00715"; old_locus_tag "ECDH10B_0141"; -NC_010473.1 Protein Homology CDS 154988 156409 . + 0 gene_id "ECDH10B_RS00715"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "degP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308192.1"; locus_tag "ECDH10B_RS00715"; product "serine endoprotease DegP"; protein_id "WP_000753946.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 154988 154990 . + 0 gene_id "ECDH10B_RS00715"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "degP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308192.1"; locus_tag "ECDH10B_RS00715"; product "serine endoprotease DegP"; protein_id "WP_000753946.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 156410 156412 . + 0 gene_id "ECDH10B_RS00715"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "degP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308192.1"; locus_tag "ECDH10B_RS00715"; product "serine endoprotease DegP"; protein_id "WP_000753946.1"; transl_table "11"; -NC_010473.1 RefSeq gene 156567 157724 . + . gene_id "ECDH10B_RS00720"; transcript_id ""; gbkey "Gene"; gene "cdaR"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00720"; old_locus_tag "ECDH10B_0142"; -NC_010473.1 Protein Homology CDS 156567 157721 . + 0 gene_id "ECDH10B_RS00720"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cdaR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414704.4"; locus_tag "ECDH10B_RS00720"; product "DNA-binding transcriptional regulator CdaR"; protein_id "WP_000929443.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 156567 156569 . + 0 gene_id "ECDH10B_RS00720"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cdaR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414704.4"; locus_tag "ECDH10B_RS00720"; product "DNA-binding transcriptional regulator CdaR"; protein_id "WP_000929443.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 157722 157724 . + 0 gene_id "ECDH10B_RS00720"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cdaR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414704.4"; locus_tag "ECDH10B_RS00720"; product "DNA-binding transcriptional regulator CdaR"; protein_id "WP_000929443.1"; transl_table "11"; -NC_010473.1 RefSeq gene 157813 158199 . - . gene_id "ECDH10B_RS00725"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00725"; old_locus_tag "ECDH10B_0143"; -NC_010473.1 Protein Homology CDS 157816 158199 . - 0 gene_id "ECDH10B_RS00725"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000272186.1"; locus_tag "ECDH10B_RS00725"; product "DUF3461 family protein"; protein_id "WP_000272188.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 158197 158199 . - 0 gene_id "ECDH10B_RS00725"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000272186.1"; locus_tag "ECDH10B_RS00725"; product "DUF3461 family protein"; protein_id "WP_000272188.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 157813 157815 . - 0 gene_id "ECDH10B_RS00725"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000272186.1"; locus_tag "ECDH10B_RS00725"; product "DUF3461 family protein"; protein_id "WP_000272188.1"; transl_table "11"; -NC_010473.1 RefSeq gene 158361 159173 . - . gene_id "ECDH10B_RS00730"; transcript_id ""; gbkey "Gene"; gene "yaeI"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00730"; old_locus_tag "ECDH10B_0144"; -NC_010473.1 Protein Homology CDS 158364 159173 . - 0 gene_id "ECDH10B_RS00730"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yaeI"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414706.2"; locus_tag "ECDH10B_RS00730"; product "phosphodiesterase YaeI"; protein_id "WP_000625631.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 159171 159173 . - 0 gene_id "ECDH10B_RS00730"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yaeI"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414706.2"; locus_tag "ECDH10B_RS00730"; product "phosphodiesterase YaeI"; protein_id "WP_000625631.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 158361 158363 . - 0 gene_id "ECDH10B_RS00730"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yaeI"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414706.2"; locus_tag "ECDH10B_RS00730"; product "phosphodiesterase YaeI"; protein_id "WP_000625631.1"; transl_table "11"; -NC_010473.1 RefSeq gene 159227 160051 . - . gene_id "ECDH10B_RS00735"; transcript_id ""; gbkey "Gene"; gene "dapD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00735"; old_locus_tag "ECDH10B_0145"; -NC_010473.1 Protein Homology CDS 159230 160051 . - 0 gene_id "ECDH10B_RS00735"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dapD"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005132123.1"; locus_tag "ECDH10B_RS00735"; product "2,3,4,5-tetrahydropyridine-2,6-dicarboxylate N-succinyltransferase"; protein_id "WP_001186650.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 160049 160051 . - 0 gene_id "ECDH10B_RS00735"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dapD"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005132123.1"; locus_tag "ECDH10B_RS00735"; product "2,3,4,5-tetrahydropyridine-2,6-dicarboxylate N-succinyltransferase"; protein_id "WP_001186650.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 159227 159229 . - 0 gene_id "ECDH10B_RS00735"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dapD"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005132123.1"; locus_tag "ECDH10B_RS00735"; product "2,3,4,5-tetrahydropyridine-2,6-dicarboxylate N-succinyltransferase"; protein_id "WP_001186650.1"; transl_table "11"; -NC_010473.1 RefSeq gene 160082 162754 . - . gene_id "ECDH10B_RS00740"; transcript_id ""; gbkey "Gene"; gene "glnD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00740"; old_locus_tag "ECDH10B_0146"; -NC_010473.1 Protein Homology CDS 160085 162754 . - 0 gene_id "ECDH10B_RS00740"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "glnD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414709.1"; locus_tag "ECDH10B_RS00740"; product "bifunctional uridylyltransferase/uridylyl-removing protein GlnD"; protein_id "WP_001094586.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 162752 162754 . - 0 gene_id "ECDH10B_RS00740"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "glnD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414709.1"; locus_tag "ECDH10B_RS00740"; product "bifunctional uridylyltransferase/uridylyl-removing protein GlnD"; protein_id "WP_001094586.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 160082 160084 . - 0 gene_id "ECDH10B_RS00740"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "glnD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414709.1"; locus_tag "ECDH10B_RS00740"; product "bifunctional uridylyltransferase/uridylyl-removing protein GlnD"; protein_id "WP_001094586.1"; transl_table "11"; -NC_010473.1 RefSeq gene 162816 163610 . - . gene_id "ECDH10B_RS00745"; transcript_id ""; gbkey "Gene"; gene "map"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00745"; old_locus_tag "ECDH10B_0147"; -NC_010473.1 Protein Homology CDS 162819 163610 . - 0 gene_id "ECDH10B_RS00745"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "map"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308197.1"; locus_tag "ECDH10B_RS00745"; product "type I methionyl aminopeptidase"; protein_id "WP_001018194.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 163608 163610 . - 0 gene_id "ECDH10B_RS00745"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "map"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308197.1"; locus_tag "ECDH10B_RS00745"; product "type I methionyl aminopeptidase"; protein_id "WP_001018194.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 162816 162818 . - 0 gene_id "ECDH10B_RS00745"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "map"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308197.1"; locus_tag "ECDH10B_RS00745"; product "type I methionyl aminopeptidase"; protein_id "WP_001018194.1"; transl_table "11"; -NC_010473.1 RefSeq gene 163978 164703 . + . gene_id "ECDH10B_RS00750"; transcript_id ""; gbkey "Gene"; gene "rpsB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00750"; old_locus_tag "ECDH10B_0149"; -NC_010473.1 Protein Homology CDS 163978 164700 . + 0 gene_id "ECDH10B_RS00750"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rpsB"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005132117.1"; locus_tag "ECDH10B_RS00750"; product "30S ribosomal protein S2"; protein_id "WP_000246882.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 163978 163980 . + 0 gene_id "ECDH10B_RS00750"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rpsB"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005132117.1"; locus_tag "ECDH10B_RS00750"; product "30S ribosomal protein S2"; protein_id "WP_000246882.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 164701 164703 . + 0 gene_id "ECDH10B_RS00750"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rpsB"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005132117.1"; locus_tag "ECDH10B_RS00750"; product "30S ribosomal protein S2"; protein_id "WP_000246882.1"; transl_table "11"; -NC_010473.1 RefSeq gene 164961 165812 . + . gene_id "ECDH10B_RS00755"; transcript_id ""; gbkey "Gene"; gene "tsf"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00755"; old_locus_tag "ECDH10B_0150"; -NC_010473.1 Protein Homology CDS 164961 165809 . + 0 gene_id "ECDH10B_RS00755"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tsf"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005132116.1"; locus_tag "ECDH10B_RS00755"; product "elongation factor Ts"; protein_id "WP_000818114.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 164961 164963 . + 0 gene_id "ECDH10B_RS00755"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tsf"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005132116.1"; locus_tag "ECDH10B_RS00755"; product "elongation factor Ts"; protein_id "WP_000818114.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 165810 165812 . + 0 gene_id "ECDH10B_RS00755"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tsf"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005132116.1"; locus_tag "ECDH10B_RS00755"; product "elongation factor Ts"; protein_id "WP_000818114.1"; transl_table "11"; -NC_010473.1 RefSeq gene 165959 166684 . + . gene_id "ECDH10B_RS00760"; transcript_id ""; gbkey "Gene"; gene "pyrH"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00760"; old_locus_tag "ECDH10B_0151"; -NC_010473.1 Protein Homology CDS 165959 166681 . + 0 gene_id "ECDH10B_RS00760"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pyrH"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000224576.1"; locus_tag "ECDH10B_RS00760"; product "UMP kinase"; protein_id "WP_000224573.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 165959 165961 . + 0 gene_id "ECDH10B_RS00760"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pyrH"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000224576.1"; locus_tag "ECDH10B_RS00760"; product "UMP kinase"; protein_id "WP_000224573.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 166682 166684 . + 0 gene_id "ECDH10B_RS00760"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pyrH"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000224576.1"; locus_tag "ECDH10B_RS00760"; product "UMP kinase"; protein_id "WP_000224573.1"; transl_table "11"; -NC_010473.1 RefSeq gene 166976 167533 . + . gene_id "ECDH10B_RS00765"; transcript_id ""; gbkey "Gene"; gene "frr"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00765"; old_locus_tag "ECDH10B_0152"; -NC_010473.1 Protein Homology CDS 166976 167530 . + 0 gene_id "ECDH10B_RS00765"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "frr"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000622421.1"; locus_tag "ECDH10B_RS00765"; product "ribosome recycling factor"; protein_id "WP_000622418.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 166976 166978 . + 0 gene_id "ECDH10B_RS00765"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "frr"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000622421.1"; locus_tag "ECDH10B_RS00765"; product "ribosome recycling factor"; protein_id "WP_000622418.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 167531 167533 . + 0 gene_id "ECDH10B_RS00765"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "frr"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000622421.1"; locus_tag "ECDH10B_RS00765"; product "ribosome recycling factor"; protein_id "WP_000622418.1"; transl_table "11"; -NC_010473.1 RefSeq gene 167625 168821 . + . gene_id "ECDH10B_RS00770"; transcript_id ""; gbkey "Gene"; gene "ispC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00770"; old_locus_tag "ECDH10B_0153"; -NC_010473.1 Protein Homology CDS 167625 168818 . + 0 gene_id "ECDH10B_RS00770"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ispC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414715.1"; locus_tag "ECDH10B_RS00770"; product "1-deoxy-D-xylulose-5-phosphate reductoisomerase"; protein_id "WP_000811923.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 167625 167627 . + 0 gene_id "ECDH10B_RS00770"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ispC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414715.1"; locus_tag "ECDH10B_RS00770"; product "1-deoxy-D-xylulose-5-phosphate reductoisomerase"; protein_id "WP_000811923.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 168819 168821 . + 0 gene_id "ECDH10B_RS00770"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ispC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414715.1"; locus_tag "ECDH10B_RS00770"; product "1-deoxy-D-xylulose-5-phosphate reductoisomerase"; protein_id "WP_000811923.1"; transl_table "11"; -NC_010473.1 RefSeq gene 169010 169768 . + . gene_id "ECDH10B_RS00775"; transcript_id ""; gbkey "Gene"; gene "ispU"; gene_biotype "protein_coding"; gene_synonym "uppS"; locus_tag "ECDH10B_RS00775"; old_locus_tag "ECDH10B_0154"; -NC_010473.1 Protein Homology CDS 169010 169765 . + 0 gene_id "ECDH10B_RS00775"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ispU"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308203.2"; locus_tag "ECDH10B_RS00775"; product "(2E,6E)-farnesyl-diphosphate-specific ditrans,polycis-undecaprenyl-diphosphate synthase"; protein_id "WP_001295562.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 169010 169012 . + 0 gene_id "ECDH10B_RS00775"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ispU"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308203.2"; locus_tag "ECDH10B_RS00775"; product "(2E,6E)-farnesyl-diphosphate-specific ditrans,polycis-undecaprenyl-diphosphate synthase"; protein_id "WP_001295562.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 169766 169768 . + 0 gene_id "ECDH10B_RS00775"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ispU"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308203.2"; locus_tag "ECDH10B_RS00775"; product "(2E,6E)-farnesyl-diphosphate-specific ditrans,polycis-undecaprenyl-diphosphate synthase"; protein_id "WP_001295562.1"; transl_table "11"; -NC_010473.1 RefSeq gene 169781 170638 . + . gene_id "ECDH10B_RS00780"; transcript_id ""; gbkey "Gene"; gene "cdsA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00780"; old_locus_tag "ECDH10B_0155"; -NC_010473.1 Protein Homology CDS 169781 170635 . + 0 gene_id "ECDH10B_RS00780"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cdsA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414717.2"; locus_tag "ECDH10B_RS00780"; product "phosphatidate cytidylyltransferase"; protein_id "WP_000922446.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 169781 169783 . + 0 gene_id "ECDH10B_RS00780"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cdsA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414717.2"; locus_tag "ECDH10B_RS00780"; product "phosphatidate cytidylyltransferase"; protein_id "WP_000922446.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 170636 170638 . + 0 gene_id "ECDH10B_RS00780"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cdsA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414717.2"; locus_tag "ECDH10B_RS00780"; product "phosphatidate cytidylyltransferase"; protein_id "WP_000922446.1"; transl_table "11"; -NC_010473.1 RefSeq gene 170650 172002 . + . gene_id "ECDH10B_RS00785"; transcript_id ""; gbkey "Gene"; gene "rseP"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00785"; old_locus_tag "ECDH10B_0156"; -NC_010473.1 Protein Homology CDS 170650 171999 . + 0 gene_id "ECDH10B_RS00785"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rseP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308205.1"; locus_tag "ECDH10B_RS00785"; product "sigma E protease regulator RseP"; protein_id "WP_001295561.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 170650 170652 . + 0 gene_id "ECDH10B_RS00785"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rseP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308205.1"; locus_tag "ECDH10B_RS00785"; product "sigma E protease regulator RseP"; protein_id "WP_001295561.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 172000 172002 . + 0 gene_id "ECDH10B_RS00785"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rseP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308205.1"; locus_tag "ECDH10B_RS00785"; product "sigma E protease regulator RseP"; protein_id "WP_001295561.1"; transl_table "11"; -NC_010473.1 RefSeq gene 172032 174464 . + . gene_id "ECDH10B_RS00790"; transcript_id ""; gbkey "Gene"; gene "bamA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00790"; old_locus_tag "ECDH10B_0157"; -NC_010473.1 Protein Homology CDS 172032 174461 . + 0 gene_id "ECDH10B_RS00790"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "bamA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308206.1"; locus_tag "ECDH10B_RS00790"; product "outer membrane protein assembly factor BamA"; protein_id "WP_001240896.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 172032 172034 . + 0 gene_id "ECDH10B_RS00790"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "bamA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308206.1"; locus_tag "ECDH10B_RS00790"; product "outer membrane protein assembly factor BamA"; protein_id "WP_001240896.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 174462 174464 . + 0 gene_id "ECDH10B_RS00790"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "bamA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308206.1"; locus_tag "ECDH10B_RS00790"; product "outer membrane protein assembly factor BamA"; protein_id "WP_001240896.1"; transl_table "11"; -NC_010473.1 RefSeq gene 174586 175071 . + . gene_id "ECDH10B_RS00795"; transcript_id ""; gbkey "Gene"; gene "skp"; gene_biotype "protein_coding"; gene_synonym "hlpA"; gene_synonym "ompH"; locus_tag "ECDH10B_RS00795"; old_locus_tag "ECDH10B_0158"; -NC_010473.1 Protein Homology CDS 174586 175068 . + 0 gene_id "ECDH10B_RS00795"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "skp"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308207.1"; locus_tag "ECDH10B_RS00795"; product "molecular chaperone Skp"; protein_id "WP_000758956.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 174586 174588 . + 0 gene_id "ECDH10B_RS00795"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "skp"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308207.1"; locus_tag "ECDH10B_RS00795"; product "molecular chaperone Skp"; protein_id "WP_000758956.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 175069 175071 . + 0 gene_id "ECDH10B_RS00795"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "skp"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308207.1"; locus_tag "ECDH10B_RS00795"; product "molecular chaperone Skp"; protein_id "WP_000758956.1"; transl_table "11"; -NC_010473.1 RefSeq gene 175075 176100 . + . gene_id "ECDH10B_RS00800"; transcript_id ""; gbkey "Gene"; gene "lpxD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00800"; old_locus_tag "ECDH10B_0159"; -NC_010473.1 Protein Homology CDS 175075 176097 . + 0 gene_id "ECDH10B_RS00800"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lpxD"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005132101.1"; locus_tag "ECDH10B_RS00800"; product "UDP-3-O-(3-hydroxymyristoyl)glucosamine N-acyltransferase"; protein_id "WP_001139279.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 175075 175077 . + 0 gene_id "ECDH10B_RS00800"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lpxD"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005132101.1"; locus_tag "ECDH10B_RS00800"; product "UDP-3-O-(3-hydroxymyristoyl)glucosamine N-acyltransferase"; protein_id "WP_001139279.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 176098 176100 . + 0 gene_id "ECDH10B_RS00800"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lpxD"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005132101.1"; locus_tag "ECDH10B_RS00800"; product "UDP-3-O-(3-hydroxymyristoyl)glucosamine N-acyltransferase"; protein_id "WP_001139279.1"; transl_table "11"; -NC_010473.1 RefSeq gene 176205 176660 . + . gene_id "ECDH10B_RS00805"; transcript_id ""; gbkey "Gene"; gene "fabZ"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00805"; old_locus_tag "ECDH10B_0160"; -NC_010473.1 Protein Homology CDS 176205 176657 . + 0 gene_id "ECDH10B_RS00805"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fabZ"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000210741.1"; locus_tag "ECDH10B_RS00805"; product "3-hydroxyacyl-ACP dehydratase FabZ"; protein_id "WP_000210739.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 176205 176207 . + 0 gene_id "ECDH10B_RS00805"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fabZ"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000210741.1"; locus_tag "ECDH10B_RS00805"; product "3-hydroxyacyl-ACP dehydratase FabZ"; protein_id "WP_000210739.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 176658 176660 . + 0 gene_id "ECDH10B_RS00805"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fabZ"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000210741.1"; locus_tag "ECDH10B_RS00805"; product "3-hydroxyacyl-ACP dehydratase FabZ"; protein_id "WP_000210739.1"; transl_table "11"; -NC_010473.1 RefSeq gene 176664 177452 . + . gene_id "ECDH10B_RS00810"; transcript_id ""; gbkey "Gene"; gene "lpxA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00810"; old_locus_tag "ECDH10B_0161"; -NC_010473.1 Protein Homology CDS 176664 177449 . + 0 gene_id "ECDH10B_RS00810"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lpxA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005132096.1"; locus_tag "ECDH10B_RS00810"; product "acyl-ACP--UDP-N-acetylglucosamine O-acyltransferase"; protein_id "WP_000565966.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 176664 176666 . + 0 gene_id "ECDH10B_RS00810"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lpxA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005132096.1"; locus_tag "ECDH10B_RS00810"; product "acyl-ACP--UDP-N-acetylglucosamine O-acyltransferase"; protein_id "WP_000565966.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 177450 177452 . + 0 gene_id "ECDH10B_RS00810"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lpxA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005132096.1"; locus_tag "ECDH10B_RS00810"; product "acyl-ACP--UDP-N-acetylglucosamine O-acyltransferase"; protein_id "WP_000565966.1"; transl_table "11"; -NC_010473.1 RefSeq gene 177452 178600 . + . gene_id "ECDH10B_RS00815"; transcript_id ""; gbkey "Gene"; gene "lpxB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00815"; old_locus_tag "ECDH10B_0162"; -NC_010473.1 Protein Homology CDS 177452 178597 . + 0 gene_id "ECDH10B_RS00815"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lpxB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414724.1"; locus_tag "ECDH10B_RS00815"; product "lipid-A-disaccharide synthase"; protein_id "WP_000139654.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 177452 177454 . + 0 gene_id "ECDH10B_RS00815"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lpxB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414724.1"; locus_tag "ECDH10B_RS00815"; product "lipid-A-disaccharide synthase"; protein_id "WP_000139654.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 178598 178600 . + 0 gene_id "ECDH10B_RS00815"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lpxB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414724.1"; locus_tag "ECDH10B_RS00815"; product "lipid-A-disaccharide synthase"; protein_id "WP_000139654.1"; transl_table "11"; -NC_010473.1 RefSeq gene 178597 179193 . + . gene_id "ECDH10B_RS00820"; transcript_id ""; gbkey "Gene"; gene "rnhB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00820"; old_locus_tag "ECDH10B_0163"; -NC_010473.1 Protein Homology CDS 178597 179190 . + 0 gene_id "ECDH10B_RS00820"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rnhB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414725.1"; locus_tag "ECDH10B_RS00820"; product "ribonuclease HII"; protein_id "WP_000569430.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 178597 178599 . + 0 gene_id "ECDH10B_RS00820"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rnhB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414725.1"; locus_tag "ECDH10B_RS00820"; product "ribonuclease HII"; protein_id "WP_000569430.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 179191 179193 . + 0 gene_id "ECDH10B_RS00820"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rnhB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414725.1"; locus_tag "ECDH10B_RS00820"; product "ribonuclease HII"; protein_id "WP_000569430.1"; transl_table "11"; -NC_010473.1 RefSeq gene 179230 182712 . + . gene_id "ECDH10B_RS00825"; transcript_id ""; gbkey "Gene"; gene "dnaE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00825"; old_locus_tag "ECDH10B_0164"; -NC_010473.1 Protein Homology CDS 179230 182709 . + 0 gene_id "ECDH10B_RS00825"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dnaE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414726.1"; locus_tag "ECDH10B_RS00825"; product "DNA polymerase III subunit alpha"; protein_id "WP_001294757.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 179230 179232 . + 0 gene_id "ECDH10B_RS00825"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dnaE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414726.1"; locus_tag "ECDH10B_RS00825"; product "DNA polymerase III subunit alpha"; protein_id "WP_001294757.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 182710 182712 . + 0 gene_id "ECDH10B_RS00825"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dnaE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414726.1"; locus_tag "ECDH10B_RS00825"; product "DNA polymerase III subunit alpha"; protein_id "WP_001294757.1"; transl_table "11"; -NC_010473.1 RefSeq gene 182725 183684 . + . gene_id "ECDH10B_RS00830"; transcript_id ""; gbkey "Gene"; gene "accA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00830"; old_locus_tag "ECDH10B_0165"; -NC_010473.1 Protein Homology CDS 182725 183681 . + 0 gene_id "ECDH10B_RS00830"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "accA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005132091.1"; locus_tag "ECDH10B_RS00830"; product "acetyl-CoA carboxylase carboxyl transferase subunit alpha"; protein_id "WP_000055741.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 182725 182727 . + 0 gene_id "ECDH10B_RS00830"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "accA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005132091.1"; locus_tag "ECDH10B_RS00830"; product "acetyl-CoA carboxylase carboxyl transferase subunit alpha"; protein_id "WP_000055741.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 183682 183684 . + 0 gene_id "ECDH10B_RS00830"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "accA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005132091.1"; locus_tag "ECDH10B_RS00830"; product "acetyl-CoA carboxylase carboxyl transferase subunit alpha"; protein_id "WP_000055741.1"; transl_table "11"; -NC_010473.1 RefSeq gene 183783 185924 . + . gene_id "ECDH10B_RS00835"; transcript_id ""; gbkey "Gene"; gene "ldcC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00835"; old_locus_tag "ECDH10B_0166"; -NC_010473.1 Protein Homology CDS 183783 185921 . + 0 gene_id "ECDH10B_RS00835"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ldcC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414728.1"; locus_tag "ECDH10B_RS00835"; product "lysine decarboxylase LdcC"; protein_id "WP_001020973.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 183783 183785 . + 0 gene_id "ECDH10B_RS00835"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ldcC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414728.1"; locus_tag "ECDH10B_RS00835"; product "lysine decarboxylase LdcC"; protein_id "WP_001020973.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 185922 185924 . + 0 gene_id "ECDH10B_RS00835"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ldcC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414728.1"; locus_tag "ECDH10B_RS00835"; product "lysine decarboxylase LdcC"; protein_id "WP_001020973.1"; transl_table "11"; -NC_010473.1 RefSeq gene 185981 186370 . + . gene_id "ECDH10B_RS00840"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00840"; old_locus_tag "ECDH10B_0167"; -NC_010473.1 Protein Homology CDS 185981 186367 . + 0 gene_id "ECDH10B_RS00840"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414729.4"; locus_tag "ECDH10B_RS00840"; product "VOC family protein"; protein_id "WP_000901099.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 185981 185983 . + 0 gene_id "ECDH10B_RS00840"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414729.4"; locus_tag "ECDH10B_RS00840"; product "VOC family protein"; protein_id "WP_000901099.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 186368 186370 . + 0 gene_id "ECDH10B_RS00840"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414729.4"; locus_tag "ECDH10B_RS00840"; product "VOC family protein"; protein_id "WP_000901099.1"; transl_table "11"; -NC_010473.1 RefSeq gene 186435 187733 . + . gene_id "ECDH10B_RS00845"; transcript_id ""; gbkey "Gene"; gene "tilS"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00845"; old_locus_tag "ECDH10B_0168"; -NC_010473.1 Protein Homology CDS 186435 187730 . + 0 gene_id "ECDH10B_RS00845"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tilS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414730.1"; locus_tag "ECDH10B_RS00845"; product "tRNA lysidine(34) synthetase TilS"; protein_id "WP_000176549.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 186435 186437 . + 0 gene_id "ECDH10B_RS00845"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tilS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414730.1"; locus_tag "ECDH10B_RS00845"; product "tRNA lysidine(34) synthetase TilS"; protein_id "WP_000176549.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 187731 187733 . + 0 gene_id "ECDH10B_RS00845"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tilS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414730.1"; locus_tag "ECDH10B_RS00845"; product "tRNA lysidine(34) synthetase TilS"; protein_id "WP_000176549.1"; transl_table "11"; -NC_010473.1 RefSeq gene 187782 188042 . - . gene_id "ECDH10B_RS00850"; transcript_id ""; gbkey "Gene"; gene "rof"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00850"; old_locus_tag "ECDH10B_0169"; -NC_010473.1 Protein Homology CDS 187785 188042 . - 0 gene_id "ECDH10B_RS00850"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rof"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_706134.1"; locus_tag "ECDH10B_RS00850"; product "Rho-binding antiterminator"; protein_id "WP_000062312.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 188040 188042 . - 0 gene_id "ECDH10B_RS00850"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rof"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_706134.1"; locus_tag "ECDH10B_RS00850"; product "Rho-binding antiterminator"; protein_id "WP_000062312.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 187782 187784 . - 0 gene_id "ECDH10B_RS00850"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rof"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_706134.1"; locus_tag "ECDH10B_RS00850"; product "Rho-binding antiterminator"; protein_id "WP_000062312.1"; transl_table "11"; -NC_010473.1 RefSeq gene 188029 188229 . - . gene_id "ECDH10B_RS00855"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00855"; old_locus_tag "ECDH10B_0170"; -NC_010473.1 Protein Homology CDS 188032 188229 . - 0 gene_id "ECDH10B_RS00855"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_012133967.1"; locus_tag "ECDH10B_RS00855"; product "YaeP family protein"; protein_id "WP_000417058.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 188227 188229 . - 0 gene_id "ECDH10B_RS00855"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_012133967.1"; locus_tag "ECDH10B_RS00855"; product "YaeP family protein"; protein_id "WP_000417058.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 188029 188031 . - 0 gene_id "ECDH10B_RS00855"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_012133967.1"; locus_tag "ECDH10B_RS00855"; product "YaeP family protein"; protein_id "WP_000417058.1"; transl_table "11"; -NC_010473.1 RefSeq gene 188395 188940 . + . gene_id "ECDH10B_RS00860"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00860"; old_locus_tag "ECDH10B_0171"; -NC_010473.1 Protein Homology CDS 188395 188937 . + 0 gene_id "ECDH10B_RS00860"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414732.1"; locus_tag "ECDH10B_RS00860"; product "YaeQ family protein"; protein_id "WP_001185290.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 188395 188397 . + 0 gene_id "ECDH10B_RS00860"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414732.1"; locus_tag "ECDH10B_RS00860"; product "YaeQ family protein"; protein_id "WP_001185290.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 188938 188940 . + 0 gene_id "ECDH10B_RS00860"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414732.1"; locus_tag "ECDH10B_RS00860"; product "YaeQ family protein"; protein_id "WP_001185290.1"; transl_table "11"; -NC_010473.1 RefSeq gene 188937 189359 . + . gene_id "ECDH10B_RS00865"; transcript_id ""; gbkey "Gene"; gene "arfB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00865"; old_locus_tag "ECDH10B_0172"; -NC_010473.1 Protein Homology CDS 188937 189356 . + 0 gene_id "ECDH10B_RS00865"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "arfB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414733.1"; locus_tag "ECDH10B_RS00865"; product "aminoacyl-tRNA hydrolase"; protein_id "WP_000635537.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 188937 188939 . + 0 gene_id "ECDH10B_RS00865"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "arfB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414733.1"; locus_tag "ECDH10B_RS00865"; product "aminoacyl-tRNA hydrolase"; protein_id "WP_000635537.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 189357 189359 . + 0 gene_id "ECDH10B_RS00865"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "arfB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414733.1"; locus_tag "ECDH10B_RS00865"; product "aminoacyl-tRNA hydrolase"; protein_id "WP_000635537.1"; transl_table "11"; -NC_010473.1 RefSeq gene 189373 190083 . + . gene_id "ECDH10B_RS00870"; transcript_id ""; gbkey "Gene"; gene "nlpE"; gene_biotype "protein_coding"; gene_synonym "cutF"; locus_tag "ECDH10B_RS00870"; old_locus_tag "ECDH10B_0173"; -NC_010473.1 Protein Homology CDS 189373 190080 . + 0 gene_id "ECDH10B_RS00870"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nlpE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414734.1"; locus_tag "ECDH10B_RS00870"; note "NlpE, an outer membrane lipoprotein, interacts directly with CpxA, the sensor histidine kinase of the Cpx system for response to envelope stress."; product "envelope stress response activation lipoprotein NlpE"; protein_id "WP_000239163.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 189373 189375 . + 0 gene_id "ECDH10B_RS00870"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nlpE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414734.1"; locus_tag "ECDH10B_RS00870"; note "NlpE, an outer membrane lipoprotein, interacts directly with CpxA, the sensor histidine kinase of the Cpx system for response to envelope stress."; product "envelope stress response activation lipoprotein NlpE"; protein_id "WP_000239163.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 190081 190083 . + 0 gene_id "ECDH10B_RS00870"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nlpE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414734.1"; locus_tag "ECDH10B_RS00870"; note "NlpE, an outer membrane lipoprotein, interacts directly with CpxA, the sensor histidine kinase of the Cpx system for response to envelope stress."; product "envelope stress response activation lipoprotein NlpE"; protein_id "WP_000239163.1"; transl_table "11"; -NC_010473.1 RefSeq gene 190283 191107 . - . gene_id "ECDH10B_RS00875"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00875"; old_locus_tag "ECDH10B_0174"; -NC_010473.1 Protein Homology CDS 190286 191107 . - 0 gene_id "ECDH10B_RS00875"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414735.4"; locus_tag "ECDH10B_RS00875"; product "YaeF family permuted papain-like enzyme"; protein_id "WP_001336393.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 191105 191107 . - 0 gene_id "ECDH10B_RS00875"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414735.4"; locus_tag "ECDH10B_RS00875"; product "YaeF family permuted papain-like enzyme"; protein_id "WP_001336393.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 190283 190285 . - 0 gene_id "ECDH10B_RS00875"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414735.4"; locus_tag "ECDH10B_RS00875"; product "YaeF family permuted papain-like enzyme"; protein_id "WP_001336393.1"; transl_table "11"; -NC_010473.1 RefSeq gene 191161 192879 . - . gene_id "ECDH10B_RS00880"; transcript_id ""; gbkey "Gene"; gene "proS"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00880"; old_locus_tag "ECDH10B_0175"; -NC_010473.1 Protein Homology CDS 191164 192879 . - 0 gene_id "ECDH10B_RS00880"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "proS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_012133963.1"; locus_tag "ECDH10B_RS00880"; product "proline--tRNA ligase"; protein_id "WP_001260717.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 192877 192879 . - 0 gene_id "ECDH10B_RS00880"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "proS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_012133963.1"; locus_tag "ECDH10B_RS00880"; product "proline--tRNA ligase"; protein_id "WP_001260717.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 191161 191163 . - 0 gene_id "ECDH10B_RS00880"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "proS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_012133963.1"; locus_tag "ECDH10B_RS00880"; product "proline--tRNA ligase"; protein_id "WP_001260717.1"; transl_table "11"; -NC_010473.1 RefSeq gene 192991 193698 . - . gene_id "ECDH10B_RS00885"; transcript_id ""; gbkey "Gene"; gene "tsaA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00885"; old_locus_tag "ECDH10B_0176"; -NC_010473.1 Protein Homology CDS 192994 193698 . - 0 gene_id "ECDH10B_RS00885"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tsaA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414737.1"; locus_tag "ECDH10B_RS00885"; product "tRNA (N6-threonylcarbamoyladenosine(37)-N6)-methyltransferase TrmO"; protein_id "WP_000094011.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 193696 193698 . - 0 gene_id "ECDH10B_RS00885"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tsaA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414737.1"; locus_tag "ECDH10B_RS00885"; product "tRNA (N6-threonylcarbamoyladenosine(37)-N6)-methyltransferase TrmO"; protein_id "WP_000094011.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 192991 192993 . - 0 gene_id "ECDH10B_RS00885"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tsaA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414737.1"; locus_tag "ECDH10B_RS00885"; product "tRNA (N6-threonylcarbamoyladenosine(37)-N6)-methyltransferase TrmO"; protein_id "WP_000094011.1"; transl_table "11"; -NC_010473.1 RefSeq gene 193695 194099 . - . gene_id "ECDH10B_RS00890"; transcript_id ""; gbkey "Gene"; gene "rcsF"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00890"; old_locus_tag "ECDH10B_0177"; -NC_010473.1 Protein Homology CDS 193698 194099 . - 0 gene_id "ECDH10B_RS00890"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rcsF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414738.1"; locus_tag "ECDH10B_RS00890"; product "Rcs stress response system protein RcsF"; protein_id "WP_001202329.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 194097 194099 . - 0 gene_id "ECDH10B_RS00890"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rcsF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414738.1"; locus_tag "ECDH10B_RS00890"; product "Rcs stress response system protein RcsF"; protein_id "WP_001202329.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 193695 193697 . - 0 gene_id "ECDH10B_RS00890"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rcsF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414738.1"; locus_tag "ECDH10B_RS00890"; product "Rcs stress response system protein RcsF"; protein_id "WP_001202329.1"; transl_table "11"; -NC_010473.1 RefSeq gene 194217 195032 . - . gene_id "ECDH10B_RS00895"; transcript_id ""; gbkey "Gene"; gene "metQ"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00895"; old_locus_tag "ECDH10B_0178"; -NC_010473.1 Protein Homology CDS 194220 195032 . - 0 gene_id "ECDH10B_RS00895"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "metQ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414739.1"; locus_tag "ECDH10B_RS00895"; product "methionine ABC transporter substrate-binding lipoprotein MetQ"; protein_id "WP_000874226.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 195030 195032 . - 0 gene_id "ECDH10B_RS00895"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "metQ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414739.1"; locus_tag "ECDH10B_RS00895"; product "methionine ABC transporter substrate-binding lipoprotein MetQ"; protein_id "WP_000874226.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 194217 194219 . - 0 gene_id "ECDH10B_RS00895"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "metQ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414739.1"; locus_tag "ECDH10B_RS00895"; product "methionine ABC transporter substrate-binding lipoprotein MetQ"; protein_id "WP_000874226.1"; transl_table "11"; -NC_010473.1 RefSeq gene 195072 195725 . - . gene_id "ECDH10B_RS00900"; transcript_id ""; gbkey "Gene"; gene "metI"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00900"; old_locus_tag "ECDH10B_0179"; -NC_010473.1 Protein Homology CDS 195075 195725 . - 0 gene_id "ECDH10B_RS00900"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "metI"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005132073.1"; locus_tag "ECDH10B_RS00900"; product "methionine ABC transporter permease MetI"; protein_id "WP_001294600.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 195723 195725 . - 0 gene_id "ECDH10B_RS00900"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "metI"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005132073.1"; locus_tag "ECDH10B_RS00900"; product "methionine ABC transporter permease MetI"; protein_id "WP_001294600.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 195072 195074 . - 0 gene_id "ECDH10B_RS00900"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "metI"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005132073.1"; locus_tag "ECDH10B_RS00900"; product "methionine ABC transporter permease MetI"; protein_id "WP_001294600.1"; transl_table "11"; -NC_010473.1 RefSeq gene 195718 196749 . - . gene_id "ECDH10B_RS00905"; transcript_id ""; gbkey "Gene"; gene "metN"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00905"; old_locus_tag "ECDH10B_0180"; -NC_010473.1 Protein Homology CDS 195721 196749 . - 0 gene_id "ECDH10B_RS00905"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "metN"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_014168731.1"; locus_tag "ECDH10B_RS00905"; product "methionine ABC transporter ATP-binding protein MetN"; protein_id "WP_000594006.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 196747 196749 . - 0 gene_id "ECDH10B_RS00905"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "metN"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_014168731.1"; locus_tag "ECDH10B_RS00905"; product "methionine ABC transporter ATP-binding protein MetN"; protein_id "WP_000594006.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 195718 195720 . - 0 gene_id "ECDH10B_RS00905"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "metN"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_014168731.1"; locus_tag "ECDH10B_RS00905"; product "methionine ABC transporter ATP-binding protein MetN"; protein_id "WP_000594006.1"; transl_table "11"; -NC_010473.1 RefSeq gene 196937 197512 . + . gene_id "ECDH10B_RS00910"; transcript_id ""; gbkey "Gene"; gene "gmhB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00910"; old_locus_tag "ECDH10B_0181"; -NC_010473.1 Protein Homology CDS 196937 197509 . + 0 gene_id "ECDH10B_RS00910"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gmhB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308229.1"; locus_tag "ECDH10B_RS00910"; product "D-glycero-beta-D-manno-heptose 1,7-bisphosphate 7-phosphatase"; protein_id "WP_001140187.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 196937 196939 . + 0 gene_id "ECDH10B_RS00910"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gmhB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308229.1"; locus_tag "ECDH10B_RS00910"; product "D-glycero-beta-D-manno-heptose 1,7-bisphosphate 7-phosphatase"; protein_id "WP_001140187.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 197510 197512 . + 0 gene_id "ECDH10B_RS00910"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gmhB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308229.1"; locus_tag "ECDH10B_RS00910"; product "D-glycero-beta-D-manno-heptose 1,7-bisphosphate 7-phosphatase"; protein_id "WP_001140187.1"; transl_table "11"; -NC_010473.1 RefSeq gene 197875 199416 . + . gene_id "ECDH10B_RS00915"; transcript_id ""; gbkey "Gene"; gene_biotype "rRNA"; locus_tag "ECDH10B_RS00915"; old_locus_tag "ECDH10B_0182"; -NC_010473.1 cmsearch exon 197875 199416 . + . gene_id "ECDH10B_RS00915"; transcript_id "ECDH10B_RS00915"; db_xref "RFAM:RF00177"; gbkey "rRNA"; inference "COORDINATES: nucleotide motif:Rfam:12.0:RF00177"; inference "COORDINATES: profile:INFERNAL:1.1.1"; locus_tag "ECDH10B_RS00915"; product "16S ribosomal RNA"; exon_number "1"; -NC_010473.1 RefSeq gene 199485 199561 . + . gene_id "ECDH10B_RS00920"; transcript_id ""; gbkey "Gene"; gene_biotype "tRNA"; locus_tag "ECDH10B_RS00920"; old_locus_tag "ECDH10B_0183"; -NC_010473.1 tRNAscan-SE exon 199485 199561 . + . gene_id "ECDH10B_RS00920"; transcript_id "ECDH10B_RS00920"; anticodon "(pos:199519..199521)"; gbkey "tRNA"; inference "COORDINATES: profile:tRNAscan-SE:2.0.6"; locus_tag "ECDH10B_RS00920"; product "tRNA-Ile"; exon_number "1"; -NC_010473.1 RefSeq gene 199604 199679 . + . gene_id "ECDH10B_RS00925"; transcript_id ""; gbkey "Gene"; gene_biotype "tRNA"; locus_tag "ECDH10B_RS00925"; old_locus_tag "ECDH10B_0184"; -NC_010473.1 tRNAscan-SE exon 199604 199679 . + . gene_id "ECDH10B_RS00925"; transcript_id "ECDH10B_RS00925"; anticodon "(pos:199637..199639)"; gbkey "tRNA"; inference "COORDINATES: profile:tRNAscan-SE:2.0.6"; locus_tag "ECDH10B_RS00925"; product "tRNA-Ala"; exon_number "1"; -NC_010473.1 RefSeq gene 199863 202766 . + . gene_id "ECDH10B_RS00930"; transcript_id ""; gbkey "Gene"; gene_biotype "rRNA"; locus_tag "ECDH10B_RS00930"; old_locus_tag "ECDH10B_0185"; -NC_010473.1 cmsearch exon 199863 202766 . + . gene_id "ECDH10B_RS00930"; transcript_id "ECDH10B_RS00930"; db_xref "RFAM:RF02541"; gbkey "rRNA"; inference "COORDINATES: nucleotide motif:Rfam:12.0:RF02541"; inference "COORDINATES: profile:INFERNAL:1.1.1"; locus_tag "ECDH10B_RS00930"; product "23S ribosomal RNA"; exon_number "1"; -NC_010473.1 RefSeq gene 202862 202977 . + . gene_id "ECDH10B_RS00935"; transcript_id ""; gbkey "Gene"; gene "rrf"; gene_biotype "rRNA"; locus_tag "ECDH10B_RS00935"; old_locus_tag "ECDH10B_0186"; -NC_010473.1 cmsearch exon 202862 202977 . + . gene_id "ECDH10B_RS00935"; transcript_id "ECDH10B_RS00935"; db_xref "RFAM:RF00001"; gbkey "rRNA"; gene "rrf"; inference "COORDINATES: nucleotide motif:Rfam:12.0:RF00001"; inference "COORDINATES: profile:INFERNAL:1.1.1"; locus_tag "ECDH10B_RS00935"; product "5S ribosomal RNA"; exon_number "1"; -NC_010473.1 RefSeq gene 203032 203108 . + . gene_id "ECDH10B_RS00940"; transcript_id ""; gbkey "Gene"; gene_biotype "tRNA"; locus_tag "ECDH10B_RS00940"; old_locus_tag "ECDH10B_0187"; -NC_010473.1 tRNAscan-SE exon 203032 203108 . + . gene_id "ECDH10B_RS00940"; transcript_id "ECDH10B_RS00940"; anticodon "(pos:203066..203068)"; gbkey "tRNA"; inference "COORDINATES: profile:tRNAscan-SE:2.0.6"; locus_tag "ECDH10B_RS00940"; product "tRNA-Asp"; exon_number "1"; -NC_010473.1 RefSeq gene 203271 204074 . + . gene_id "ECDH10B_RS00945"; transcript_id ""; gbkey "Gene"; gene "dkgB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00945"; old_locus_tag "ECDH10B_0188"; -NC_010473.1 Protein Homology CDS 203271 204071 . + 0 gene_id "ECDH10B_RS00945"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dkgB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414743.1"; locus_tag "ECDH10B_RS00945"; product "2,5-didehydrogluconate reductase DkgB"; protein_id "WP_000997010.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 203271 203273 . + 0 gene_id "ECDH10B_RS00945"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dkgB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414743.1"; locus_tag "ECDH10B_RS00945"; product "2,5-didehydrogluconate reductase DkgB"; protein_id "WP_000997010.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 204072 204074 . + 0 gene_id "ECDH10B_RS00945"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dkgB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414743.1"; locus_tag "ECDH10B_RS00945"; product "2,5-didehydrogluconate reductase DkgB"; protein_id "WP_000997010.1"; transl_table "11"; -NC_010473.1 RefSeq gene 204071 204985 . - . gene_id "ECDH10B_RS00950"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00950"; old_locus_tag "ECDH10B_0189"; -NC_010473.1 Protein Homology CDS 204074 204985 . - 0 gene_id "ECDH10B_RS00950"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414744.1"; locus_tag "ECDH10B_RS00950"; product "LysR family transcriptional regulator"; protein_id "WP_000648572.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 204983 204985 . - 0 gene_id "ECDH10B_RS00950"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414744.1"; locus_tag "ECDH10B_RS00950"; product "LysR family transcriptional regulator"; protein_id "WP_000648572.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 204071 204073 . - 0 gene_id "ECDH10B_RS00950"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414744.1"; locus_tag "ECDH10B_RS00950"; product "LysR family transcriptional regulator"; protein_id "WP_000648572.1"; transl_table "11"; -NC_010473.1 RefSeq gene 205226 206026 . + . gene_id "ECDH10B_RS00955"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00955"; old_locus_tag "ECDH10B_0190"; -NC_010473.1 Protein Homology CDS 205226 206023 . + 0 gene_id "ECDH10B_RS00955"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414745.1"; locus_tag "ECDH10B_RS00955"; product "endonuclease/exonuclease/phosphatase family protein"; protein_id "WP_001230983.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 205226 205228 . + 0 gene_id "ECDH10B_RS00955"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414745.1"; locus_tag "ECDH10B_RS00955"; product "endonuclease/exonuclease/phosphatase family protein"; protein_id "WP_001230983.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 206024 206026 . + 0 gene_id "ECDH10B_RS00955"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414745.1"; locus_tag "ECDH10B_RS00955"; product "endonuclease/exonuclease/phosphatase family protein"; protein_id "WP_001230983.1"; transl_table "11"; -NC_010473.1 RefSeq gene 206057 206653 . + . gene_id "ECDH10B_RS00960"; transcript_id ""; gbkey "Gene"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS00960"; old_locus_tag "ECDH10B_0191"; partial "true"; pseudo "true"; -NC_010473.1 Protein Homology CDS 206057 206650 . + 0 gene_id "ECDH10B_RS00960"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308233.1"; locus_tag "ECDH10B_RS00960"; note "incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "methyltransferase domain-containing protein"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 206057 206059 . + 0 gene_id "ECDH10B_RS00960"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308233.1"; locus_tag "ECDH10B_RS00960"; note "incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "methyltransferase domain-containing protein"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 206651 206653 . + 0 gene_id "ECDH10B_RS00960"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308233.1"; locus_tag "ECDH10B_RS00960"; note "incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "methyltransferase domain-containing protein"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 206701 208059 . - . gene_id "ECDH10B_RS00965"; transcript_id ""; gbkey "Gene"; gene "mltD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00965"; old_locus_tag "ECDH10B_0192"; -NC_010473.1 Protein Homology CDS 206704 208059 . - 0 gene_id "ECDH10B_RS00965"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mltD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414747.1"; locus_tag "ECDH10B_RS00965"; product "murein transglycosylase D"; protein_id "WP_000644685.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 208057 208059 . - 0 gene_id "ECDH10B_RS00965"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mltD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414747.1"; locus_tag "ECDH10B_RS00965"; product "murein transglycosylase D"; protein_id "WP_000644685.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 206701 206703 . - 0 gene_id "ECDH10B_RS00965"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mltD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414747.1"; locus_tag "ECDH10B_RS00965"; product "murein transglycosylase D"; protein_id "WP_000644685.1"; transl_table "11"; -NC_010473.1 RefSeq gene 208131 208886 . - . gene_id "ECDH10B_RS00970"; transcript_id ""; gbkey "Gene"; gene "gloB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00970"; old_locus_tag "ECDH10B_0193"; -NC_010473.1 Protein Homology CDS 208134 208886 . - 0 gene_id "ECDH10B_RS00970"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gloB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308235.1"; locus_tag "ECDH10B_RS00970"; product "hydroxyacylglutathione hydrolase"; protein_id "WP_001052715.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 208884 208886 . - 0 gene_id "ECDH10B_RS00970"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gloB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308235.1"; locus_tag "ECDH10B_RS00970"; product "hydroxyacylglutathione hydrolase"; protein_id "WP_001052715.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 208131 208133 . - 0 gene_id "ECDH10B_RS00970"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gloB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308235.1"; locus_tag "ECDH10B_RS00970"; product "hydroxyacylglutathione hydrolase"; protein_id "WP_001052715.1"; transl_table "11"; -NC_010473.1 RefSeq gene 208920 209642 . + . gene_id "ECDH10B_RS00975"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00975"; old_locus_tag "ECDH10B_0194"; -NC_010473.1 Protein Homology CDS 208920 209639 . + 0 gene_id "ECDH10B_RS00975"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414749.2"; locus_tag "ECDH10B_RS00975"; product "class I SAM-dependent methyltransferase"; protein_id "WP_001326702.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 208920 208922 . + 0 gene_id "ECDH10B_RS00975"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414749.2"; locus_tag "ECDH10B_RS00975"; product "class I SAM-dependent methyltransferase"; protein_id "WP_001326702.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 209640 209642 . + 0 gene_id "ECDH10B_RS00975"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414749.2"; locus_tag "ECDH10B_RS00975"; product "class I SAM-dependent methyltransferase"; protein_id "WP_001326702.1"; transl_table "11"; -NC_010473.1 RefSeq gene 209639 210106 . - . gene_id "ECDH10B_RS00980"; transcript_id ""; gbkey "Gene"; gene "rnhA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00980"; old_locus_tag "ECDH10B_0195"; -NC_010473.1 Protein Homology CDS 209642 210106 . - 0 gene_id "ECDH10B_RS00980"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rnhA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308237.1"; locus_tag "ECDH10B_RS00980"; product "ribonuclease HI"; protein_id "WP_000917883.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 210104 210106 . - 0 gene_id "ECDH10B_RS00980"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rnhA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308237.1"; locus_tag "ECDH10B_RS00980"; product "ribonuclease HI"; protein_id "WP_000917883.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 209639 209641 . - 0 gene_id "ECDH10B_RS00980"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rnhA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308237.1"; locus_tag "ECDH10B_RS00980"; product "ribonuclease HI"; protein_id "WP_000917883.1"; transl_table "11"; -NC_010473.1 RefSeq gene 210171 210902 . + . gene_id "ECDH10B_RS00985"; transcript_id ""; gbkey "Gene"; gene "dnaQ"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00985"; old_locus_tag "ECDH10B_0196"; -NC_010473.1 Protein Homology CDS 210171 210899 . + 0 gene_id "ECDH10B_RS00985"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dnaQ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414751.1"; locus_tag "ECDH10B_RS00985"; product "DNA polymerase III subunit epsilon"; protein_id "WP_001340895.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 210171 210173 . + 0 gene_id "ECDH10B_RS00985"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dnaQ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414751.1"; locus_tag "ECDH10B_RS00985"; product "DNA polymerase III subunit epsilon"; protein_id "WP_001340895.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 210900 210902 . + 0 gene_id "ECDH10B_RS00985"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dnaQ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414751.1"; locus_tag "ECDH10B_RS00985"; product "DNA polymerase III subunit epsilon"; protein_id "WP_001340895.1"; transl_table "11"; -NC_010473.1 RefSeq gene 211035 211111 . + . gene_id "ECDH10B_RS00990"; transcript_id ""; gbkey "Gene"; gene_biotype "tRNA"; locus_tag "ECDH10B_RS00990"; old_locus_tag "ECDH10B_0197"; -NC_010473.1 tRNAscan-SE exon 211035 211111 . + . gene_id "ECDH10B_RS00990"; transcript_id "ECDH10B_RS00990"; anticodon "(pos:211069..211071)"; gbkey "tRNA"; inference "COORDINATES: profile:tRNAscan-SE:2.0.6"; locus_tag "ECDH10B_RS00990"; product "tRNA-Asp"; exon_number "1"; -NC_010473.1 RefSeq gene 211439 212224 . + . gene_id "ECDH10B_RS00995"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS00995"; old_locus_tag "ECDH10B_0198"; -NC_010473.1 Protein Homology CDS 211439 212221 . + 0 gene_id "ECDH10B_RS00995"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414752.1"; locus_tag "ECDH10B_RS00995"; product "lipoprotein"; protein_id "WP_001086141.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 211439 211441 . + 0 gene_id "ECDH10B_RS00995"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414752.1"; locus_tag "ECDH10B_RS00995"; product "lipoprotein"; protein_id "WP_001086141.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 212222 212224 . + 0 gene_id "ECDH10B_RS00995"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414752.1"; locus_tag "ECDH10B_RS00995"; product "lipoprotein"; protein_id "WP_001086141.1"; transl_table "11"; -NC_010473.1 RefSeq gene 212361 212840 . - . gene_id "ECDH10B_RS01000"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS01000"; -NC_010473.1 Protein Homology CDS 212364 212840 . - 0 gene_id "ECDH10B_RS01000"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_001165307.1"; locus_tag "ECDH10B_RS01000"; product "hypothetical protein"; protein_id "WP_001236645.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 212838 212840 . - 0 gene_id "ECDH10B_RS01000"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_001165307.1"; locus_tag "ECDH10B_RS01000"; product "hypothetical protein"; protein_id "WP_001236645.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 212361 212363 . - 0 gene_id "ECDH10B_RS01000"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_001165307.1"; locus_tag "ECDH10B_RS01000"; product "hypothetical protein"; protein_id "WP_001236645.1"; transl_table "11"; -NC_010473.1 RefSeq gene 212850 213206 . - . gene_id "ECDH10B_RS01005"; transcript_id ""; gbkey "Gene"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS01005"; old_locus_tag "ECDH10B_0199"; partial "true"; pseudo "true"; -NC_010473.1 Protein Homology CDS 212853 213206 . - 0 gene_id "ECDH10B_RS01005"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000908053.1"; locus_tag "ECDH10B_RS01005"; note "incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "hypothetical protein"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 213204 213206 . - 0 gene_id "ECDH10B_RS01005"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000908053.1"; locus_tag "ECDH10B_RS01005"; note "incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "hypothetical protein"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 212850 212852 . - 0 gene_id "ECDH10B_RS01005"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000908053.1"; locus_tag "ECDH10B_RS01005"; note "incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "hypothetical protein"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 213204 213482 . + . gene_id "ECDH10B_RS25840"; transcript_id ""; gbkey "Gene"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS25840"; old_locus_tag "ECDH10B_0200"; partial "true"; pseudo "true"; -NC_010473.1 Protein Homology CDS 213204 213479 . + 0 gene_id "ECDH10B_RS25840"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000420980.1"; locus_tag "ECDH10B_RS25840"; note "incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "ISAs1 family transposase"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 213204 213206 . + 0 gene_id "ECDH10B_RS25840"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000420980.1"; locus_tag "ECDH10B_RS25840"; note "incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "ISAs1 family transposase"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 213480 213482 . + 0 gene_id "ECDH10B_RS25840"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000420980.1"; locus_tag "ECDH10B_RS25840"; note "incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "ISAs1 family transposase"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 213523 214293 . - . gene_id "ECDH10B_RS01015"; transcript_id ""; gbkey "Gene"; gene "yafV"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS01015"; old_locus_tag "ECDH10B_0201"; -NC_010473.1 Protein Homology CDS 213526 214293 . - 0 gene_id "ECDH10B_RS01015"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yafV"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414754.1"; locus_tag "ECDH10B_RS01015"; product "2-oxoglutaramate amidase"; protein_id "WP_001118036.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 214291 214293 . - 0 gene_id "ECDH10B_RS01015"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yafV"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414754.1"; locus_tag "ECDH10B_RS01015"; product "2-oxoglutaramate amidase"; protein_id "WP_001118036.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 213523 213525 . - 0 gene_id "ECDH10B_RS01015"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yafV"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414754.1"; locus_tag "ECDH10B_RS01015"; product "2-oxoglutaramate amidase"; protein_id "WP_001118036.1"; transl_table "11"; -NC_010473.1 RefSeq gene 214447 214920 . + . gene_id "ECDH10B_RS01020"; transcript_id ""; gbkey "Gene"; gene "ivy"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS01020"; old_locus_tag "ECDH10B_0202"; -NC_010473.1 Protein Homology CDS 214447 214917 . + 0 gene_id "ECDH10B_RS01020"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ivy"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414755.1"; locus_tag "ECDH10B_RS01020"; product "C-lysozyme inhibitor"; protein_id "WP_000532698.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 214447 214449 . + 0 gene_id "ECDH10B_RS01020"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ivy"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414755.1"; locus_tag "ECDH10B_RS01020"; product "C-lysozyme inhibitor"; protein_id "WP_000532698.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 214918 214920 . + 0 gene_id "ECDH10B_RS01020"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ivy"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414755.1"; locus_tag "ECDH10B_RS01020"; product "C-lysozyme inhibitor"; protein_id "WP_000532698.1"; transl_table "11"; -NC_010473.1 RefSeq gene 214963 217407 . - . gene_id "ECDH10B_RS01025"; transcript_id ""; gbkey "Gene"; gene "fadE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS01025"; old_locus_tag "ECDH10B_0203"; -NC_010473.1 Protein Homology CDS 214966 217407 . - 0 gene_id "ECDH10B_RS01025"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fadE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414756.2"; locus_tag "ECDH10B_RS01025"; product "acyl-CoA dehydrogenase FadE"; protein_id "WP_000973083.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 217405 217407 . - 0 gene_id "ECDH10B_RS01025"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fadE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414756.2"; locus_tag "ECDH10B_RS01025"; product "acyl-CoA dehydrogenase FadE"; protein_id "WP_000973083.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 214963 214965 . - 0 gene_id "ECDH10B_RS01025"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fadE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414756.2"; locus_tag "ECDH10B_RS01025"; product "acyl-CoA dehydrogenase FadE"; protein_id "WP_000973083.1"; transl_table "11"; -NC_010473.1 RefSeq gene 217647 218225 . + . gene_id "ECDH10B_RS01030"; transcript_id ""; gbkey "Gene"; gene "lpcA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS01030"; old_locus_tag "ECDH10B_0204"; -NC_010473.1 Protein Homology CDS 217647 218222 . + 0 gene_id "ECDH10B_RS01030"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lpcA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308276.1"; locus_tag "ECDH10B_RS01030"; product "D-sedoheptulose 7-phosphate isomerase"; protein_id "WP_000284050.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 217647 217649 . + 0 gene_id "ECDH10B_RS01030"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lpcA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308276.1"; locus_tag "ECDH10B_RS01030"; product "D-sedoheptulose 7-phosphate isomerase"; protein_id "WP_000284050.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 218223 218225 . + 0 gene_id "ECDH10B_RS01030"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lpcA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308276.1"; locus_tag "ECDH10B_RS01030"; product "D-sedoheptulose 7-phosphate isomerase"; protein_id "WP_000284050.1"; transl_table "11"; -NC_010473.1 RefSeq gene 218431 219198 . + . gene_id "ECDH10B_RS01035"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS01035"; old_locus_tag "ECDH10B_0205"; -NC_010473.1 Protein Homology CDS 218431 219195 . + 0 gene_id "ECDH10B_RS01035"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414758.1"; locus_tag "ECDH10B_RS01035"; product "class II glutamine amidotransferase"; protein_id "WP_012305459.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 218431 218433 . + 0 gene_id "ECDH10B_RS01035"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414758.1"; locus_tag "ECDH10B_RS01035"; product "class II glutamine amidotransferase"; protein_id "WP_012305459.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 219196 219198 . + 0 gene_id "ECDH10B_RS01035"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414758.1"; locus_tag "ECDH10B_RS01035"; product "class II glutamine amidotransferase"; protein_id "WP_012305459.1"; transl_table "11"; -NC_010473.1 RefSeq gene 219169 219909 . - . gene_id "ECDH10B_RS01040"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS01040"; old_locus_tag "ECDH10B_0206"; -NC_010473.1 Protein Homology CDS 219172 219909 . - 0 gene_id "ECDH10B_RS01040"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308278.1"; locus_tag "ECDH10B_RS01040"; product "murein L,D-transpeptidase"; protein_id "WP_001225679.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 219907 219909 . - 0 gene_id "ECDH10B_RS01040"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308278.1"; locus_tag "ECDH10B_RS01040"; product "murein L,D-transpeptidase"; protein_id "WP_001225679.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 219169 219171 . - 0 gene_id "ECDH10B_RS01040"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308278.1"; locus_tag "ECDH10B_RS01040"; product "murein L,D-transpeptidase"; protein_id "WP_001225679.1"; transl_table "11"; -NC_010473.1 RefSeq gene 220065 220343 . - . gene_id "ECDH10B_RS01045"; transcript_id ""; gbkey "Gene"; gene "yafQ"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS01045"; old_locus_tag "ECDH10B_0207"; -NC_010473.1 Protein Homology CDS 220068 220343 . - 0 gene_id "ECDH10B_RS01045"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yafQ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414760.1"; locus_tag "ECDH10B_RS01045"; product "type II toxin-antitoxin system mRNA interferase toxin YafQ"; protein_id "WP_000615983.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 220341 220343 . - 0 gene_id "ECDH10B_RS01045"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yafQ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414760.1"; locus_tag "ECDH10B_RS01045"; product "type II toxin-antitoxin system mRNA interferase toxin YafQ"; protein_id "WP_000615983.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 220065 220067 . - 0 gene_id "ECDH10B_RS01045"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yafQ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414760.1"; locus_tag "ECDH10B_RS01045"; product "type II toxin-antitoxin system mRNA interferase toxin YafQ"; protein_id "WP_000615983.1"; transl_table "11"; -NC_010473.1 RefSeq gene 220346 220606 . - . gene_id "ECDH10B_RS01050"; transcript_id ""; gbkey "Gene"; gene "dinJ"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS01050"; old_locus_tag "ECDH10B_0208"; -NC_010473.1 Protein Homology CDS 220349 220606 . - 0 gene_id "ECDH10B_RS01050"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dinJ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414761.1"; locus_tag "ECDH10B_RS01050"; product "type II toxin-antitoxin system antitoxin DinJ"; protein_id "WP_000729703.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 220604 220606 . - 0 gene_id "ECDH10B_RS01050"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dinJ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414761.1"; locus_tag "ECDH10B_RS01050"; product "type II toxin-antitoxin system antitoxin DinJ"; protein_id "WP_000729703.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 220346 220348 . - 0 gene_id "ECDH10B_RS01050"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dinJ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414761.1"; locus_tag "ECDH10B_RS01050"; product "type II toxin-antitoxin system antitoxin DinJ"; protein_id "WP_000729703.1"; transl_table "11"; -NC_010473.1 RefSeq gene 220816 221565 . + . gene_id "ECDH10B_RS01055"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS01055"; old_locus_tag "ECDH10B_0209"; -NC_010473.1 Protein Homology CDS 220816 221562 . + 0 gene_id "ECDH10B_RS01055"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414762.1"; locus_tag "ECDH10B_RS01055"; product "C40 family peptidase"; protein_id "WP_000056849.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 220816 220818 . + 0 gene_id "ECDH10B_RS01055"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414762.1"; locus_tag "ECDH10B_RS01055"; product "C40 family peptidase"; protein_id "WP_000056849.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 221563 221565 . + 0 gene_id "ECDH10B_RS01055"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414762.1"; locus_tag "ECDH10B_RS01055"; product "C40 family peptidase"; protein_id "WP_000056849.1"; transl_table "11"; -NC_010473.1 RefSeq gene 221741 222238 . + . gene_id "ECDH10B_RS01060"; transcript_id ""; gbkey "Gene"; gene "rayT"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS01060"; old_locus_tag "ECDH10B_0210"; -NC_010473.1 Protein Homology CDS 221741 222235 . + 0 gene_id "ECDH10B_RS01060"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rayT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414763.1"; locus_tag "ECDH10B_RS01060"; product "REP-associated tyrosine transposase RayT"; protein_id "WP_000006255.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 221741 221743 . + 0 gene_id "ECDH10B_RS01060"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rayT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414763.1"; locus_tag "ECDH10B_RS01060"; product "REP-associated tyrosine transposase RayT"; protein_id "WP_000006255.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 222236 222238 . + 0 gene_id "ECDH10B_RS01060"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rayT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414763.1"; locus_tag "ECDH10B_RS01060"; product "REP-associated tyrosine transposase RayT"; protein_id "WP_000006255.1"; transl_table "11"; -NC_010473.1 RefSeq gene 222462 224201 . - . gene_id "ECDH10B_RS01065"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS01065"; old_locus_tag "ECDH10B_0211"; -NC_010473.1 Protein Homology CDS 222465 224201 . - 0 gene_id "ECDH10B_RS01065"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_706229.1"; locus_tag "ECDH10B_RS01065"; product "flagellar type III secretion system protein FlhA"; protein_id "WP_001334802.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 224199 224201 . - 0 gene_id "ECDH10B_RS01065"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_706229.1"; locus_tag "ECDH10B_RS01065"; product "flagellar type III secretion system protein FlhA"; protein_id "WP_001334802.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 222462 222464 . - 0 gene_id "ECDH10B_RS01065"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_706229.1"; locus_tag "ECDH10B_RS01065"; product "flagellar type III secretion system protein FlhA"; protein_id "WP_001334802.1"; transl_table "11"; -NC_010473.1 RefSeq gene 224146 224931 . + . gene_id "ECDH10B_RS01070"; transcript_id ""; gbkey "Gene"; gene "lafU"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS01070"; old_locus_tag "ECDH10B_0212"; -NC_010473.1 Protein Homology CDS 224146 224928 . + 0 gene_id "ECDH10B_RS01070"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lafU"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_706230.2"; locus_tag "ECDH10B_RS01070"; product "putative lateral flagellar export/assembly protein LafU"; protein_id "WP_000207552.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 224146 224148 . + 0 gene_id "ECDH10B_RS01070"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lafU"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_706230.2"; locus_tag "ECDH10B_RS01070"; product "putative lateral flagellar export/assembly protein LafU"; protein_id "WP_000207552.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 224929 224931 . + 0 gene_id "ECDH10B_RS01070"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lafU"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_706230.2"; locus_tag "ECDH10B_RS01070"; product "putative lateral flagellar export/assembly protein LafU"; protein_id "WP_000207552.1"; transl_table "11"; -NC_010473.1 RefSeq gene 225002 226057 . + . gene_id "ECDH10B_RS01075"; transcript_id ""; gbkey "Gene"; gene "dinB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS01075"; old_locus_tag "ECDH10B_0213"; -NC_010473.1 Protein Homology CDS 225002 226054 . + 0 gene_id "ECDH10B_RS01075"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dinB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414766.1"; locus_tag "ECDH10B_RS01075"; product "DNA polymerase IV"; protein_id "WP_001226164.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 225002 225004 . + 0 gene_id "ECDH10B_RS01075"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dinB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414766.1"; locus_tag "ECDH10B_RS01075"; product "DNA polymerase IV"; protein_id "WP_001226164.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 226055 226057 . + 0 gene_id "ECDH10B_RS01075"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dinB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414766.1"; locus_tag "ECDH10B_RS01075"; product "DNA polymerase IV"; protein_id "WP_001226164.1"; transl_table "11"; -NC_010473.1 RefSeq gene 226109 226402 . + . gene_id "ECDH10B_RS01080"; transcript_id ""; gbkey "Gene"; gene "yafN"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS01080"; old_locus_tag "ECDH10B_0214"; -NC_010473.1 Protein Homology CDS 226109 226399 . + 0 gene_id "ECDH10B_RS01080"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yafN"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414767.1"; locus_tag "ECDH10B_RS01080"; product "type I toxin-antitoxin system antitoxin YafN"; protein_id "WP_000554758.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 226109 226111 . + 0 gene_id "ECDH10B_RS01080"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yafN"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414767.1"; locus_tag "ECDH10B_RS01080"; product "type I toxin-antitoxin system antitoxin YafN"; protein_id "WP_000554758.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 226400 226402 . + 0 gene_id "ECDH10B_RS01080"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yafN"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414767.1"; locus_tag "ECDH10B_RS01080"; product "type I toxin-antitoxin system antitoxin YafN"; protein_id "WP_000554758.1"; transl_table "11"; -NC_010473.1 RefSeq gene 226405 226803 . + . gene_id "ECDH10B_RS01085"; transcript_id ""; gbkey "Gene"; gene "yafO"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS01085"; old_locus_tag "ECDH10B_0215"; -NC_010473.1 Protein Homology CDS 226405 226800 . + 0 gene_id "ECDH10B_RS01085"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yafO"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414768.1"; locus_tag "ECDH10B_RS01085"; product "type II toxin-antitoxin system mRNA interferase toxin YafO"; protein_id "WP_001263489.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 226405 226407 . + 0 gene_id "ECDH10B_RS01085"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yafO"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414768.1"; locus_tag "ECDH10B_RS01085"; product "type II toxin-antitoxin system mRNA interferase toxin YafO"; protein_id "WP_001263489.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 226801 226803 . + 0 gene_id "ECDH10B_RS01085"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yafO"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414768.1"; locus_tag "ECDH10B_RS01085"; product "type II toxin-antitoxin system mRNA interferase toxin YafO"; protein_id "WP_001263489.1"; transl_table "11"; -NC_010473.1 RefSeq gene 226813 227265 . + . gene_id "ECDH10B_RS01090"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS01090"; old_locus_tag "ECDH10B_0216"; -NC_010473.1 Protein Homology CDS 226813 227262 . + 0 gene_id "ECDH10B_RS01090"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414769.1"; locus_tag "ECDH10B_RS01090"; product "GNAT family N-acetyltransferase"; protein_id "WP_001059892.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 226813 226815 . + 0 gene_id "ECDH10B_RS01090"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414769.1"; locus_tag "ECDH10B_RS01090"; product "GNAT family N-acetyltransferase"; protein_id "WP_001059892.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 227263 227265 . + 0 gene_id "ECDH10B_RS01090"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414769.1"; locus_tag "ECDH10B_RS01090"; product "GNAT family N-acetyltransferase"; protein_id "WP_001059892.1"; transl_table "11"; -NC_010473.1 RefSeq gene 227583 227789 . + . gene_id "ECDH10B_RS01095"; transcript_id ""; gbkey "Gene"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS01095"; old_locus_tag "ECDH10B_0217"; partial "true"; pseudo "true"; -NC_010473.1 Protein Homology CDS 227583 227786 . + 0 gene_id "ECDH10B_RS01095"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_706235.2"; locus_tag "ECDH10B_RS01095"; note "incomplete; partial in the middle of a contig; missing C-terminus"; partial "true"; product "RtcB family protein"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 227583 227585 . + 0 gene_id "ECDH10B_RS01095"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_706235.2"; locus_tag "ECDH10B_RS01095"; note "incomplete; partial in the middle of a contig; missing C-terminus"; partial "true"; product "RtcB family protein"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 227787 227789 . + 0 gene_id "ECDH10B_RS01095"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_706235.2"; locus_tag "ECDH10B_RS01095"; note "incomplete; partial in the middle of a contig; missing C-terminus"; partial "true"; product "RtcB family protein"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 227785 228306 . + . gene_id "ECDH10B_RS01100"; transcript_id ""; gbkey "Gene"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS01100"; old_locus_tag "ECDH10B_0218"; partial "true"; pseudo "true"; -NC_010473.1 Protein Homology CDS 227785 228303 . + 0 gene_id "ECDH10B_RS01100"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000602105.1"; locus_tag "ECDH10B_RS01100"; note "incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "peptide chain release factor H"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 227785 227787 . + 0 gene_id "ECDH10B_RS01100"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000602105.1"; locus_tag "ECDH10B_RS01100"; note "incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "peptide chain release factor H"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 228304 228306 . + 0 gene_id "ECDH10B_RS01100"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000602105.1"; locus_tag "ECDH10B_RS01100"; note "incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "peptide chain release factor H"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 228363 229820 . - . gene_id "ECDH10B_RS01105"; transcript_id ""; gbkey "Gene"; gene "pepD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS01105"; old_locus_tag "ECDH10B_0219"; -NC_010473.1 Protein Homology CDS 228366 229820 . - 0 gene_id "ECDH10B_RS01105"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pepD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414772.1"; locus_tag "ECDH10B_RS01105"; product "cytosol nonspecific dipeptidase"; protein_id "WP_001292994.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 229818 229820 . - 0 gene_id "ECDH10B_RS01105"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pepD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414772.1"; locus_tag "ECDH10B_RS01105"; product "cytosol nonspecific dipeptidase"; protein_id "WP_001292994.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 228363 228365 . - 0 gene_id "ECDH10B_RS01105"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pepD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414772.1"; locus_tag "ECDH10B_RS01105"; product "cytosol nonspecific dipeptidase"; protein_id "WP_001292994.1"; transl_table "11"; -NC_010473.1 RefSeq gene 230081 230539 . + . gene_id "ECDH10B_RS01110"; transcript_id ""; gbkey "Gene"; gene "gpt"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS01110"; old_locus_tag "ECDH10B_0220"; -NC_010473.1 Protein Homology CDS 230081 230536 . + 0 gene_id "ECDH10B_RS01110"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gpt"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308292.1"; locus_tag "ECDH10B_RS01110"; product "xanthine phosphoribosyltransferase"; protein_id "WP_001291990.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 230081 230083 . + 0 gene_id "ECDH10B_RS01110"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gpt"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308292.1"; locus_tag "ECDH10B_RS01110"; product "xanthine phosphoribosyltransferase"; protein_id "WP_001291990.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 230537 230539 . + 0 gene_id "ECDH10B_RS01110"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gpt"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308292.1"; locus_tag "ECDH10B_RS01110"; product "xanthine phosphoribosyltransferase"; protein_id "WP_001291990.1"; transl_table "11"; -NC_010473.1 RefSeq gene 230631 231875 . + . gene_id "ECDH10B_RS01115"; transcript_id ""; gbkey "Gene"; gene "frsA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS01115"; old_locus_tag "ECDH10B_0221"; -NC_010473.1 Protein Homology CDS 230631 231872 . + 0 gene_id "ECDH10B_RS01115"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "frsA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414774.1"; locus_tag "ECDH10B_RS01115"; product "esterase FrsA"; protein_id "WP_000189532.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 230631 230633 . + 0 gene_id "ECDH10B_RS01115"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "frsA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414774.1"; locus_tag "ECDH10B_RS01115"; product "esterase FrsA"; protein_id "WP_000189532.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 231873 231875 . + 0 gene_id "ECDH10B_RS01115"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "frsA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414774.1"; locus_tag "ECDH10B_RS01115"; product "esterase FrsA"; protein_id "WP_000189532.1"; transl_table "11"; -NC_010473.1 RefSeq gene 231933 232334 . + . gene_id "ECDH10B_RS01120"; transcript_id ""; gbkey "Gene"; gene "crl"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS01120"; old_locus_tag "ECDH10B_0222"; -NC_010473.1 Protein Homology CDS 231933 232331 . + 0 gene_id "ECDH10B_RS01120"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "crl"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308294.1"; locus_tag "ECDH10B_RS01120"; product "sigma factor-binding protein Crl"; protein_id "WP_000174689.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 231933 231935 . + 0 gene_id "ECDH10B_RS01120"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "crl"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308294.1"; locus_tag "ECDH10B_RS01120"; product "sigma factor-binding protein Crl"; protein_id "WP_000174689.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 232332 232334 . + 0 gene_id "ECDH10B_RS01120"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "crl"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308294.1"; locus_tag "ECDH10B_RS01120"; product "sigma factor-binding protein Crl"; protein_id "WP_000174689.1"; transl_table "11"; -NC_010473.1 RefSeq gene 232373 233428 . - . gene_id "ECDH10B_RS01125"; transcript_id ""; gbkey "Gene"; gene "phoE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS01125"; old_locus_tag "ECDH10B_0223"; -NC_010473.1 Protein Homology CDS 232376 233428 . - 0 gene_id "ECDH10B_RS01125"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "phoE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414776.1"; locus_tag "ECDH10B_RS01125"; product "phosphoporin PhoE"; protein_id "WP_000749863.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 233426 233428 . - 0 gene_id "ECDH10B_RS01125"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "phoE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414776.1"; locus_tag "ECDH10B_RS01125"; product "phosphoporin PhoE"; protein_id "WP_000749863.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 232373 232375 . - 0 gene_id "ECDH10B_RS01125"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "phoE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414776.1"; locus_tag "ECDH10B_RS01125"; product "phosphoporin PhoE"; protein_id "WP_000749863.1"; transl_table "11"; -NC_010473.1 RefSeq gene 233716 234819 . + . gene_id "ECDH10B_RS01130"; transcript_id ""; gbkey "Gene"; gene "proB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS01130"; old_locus_tag "ECDH10B_0224"; -NC_010473.1 Protein Homology CDS 233716 234816 . + 0 gene_id "ECDH10B_RS01130"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "proB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308296.1"; locus_tag "ECDH10B_RS01130"; product "glutamate 5-kinase"; protein_id "WP_001285288.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 233716 233718 . + 0 gene_id "ECDH10B_RS01130"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "proB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308296.1"; locus_tag "ECDH10B_RS01130"; product "glutamate 5-kinase"; protein_id "WP_001285288.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 234817 234819 . + 0 gene_id "ECDH10B_RS01130"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "proB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308296.1"; locus_tag "ECDH10B_RS01130"; product "glutamate 5-kinase"; protein_id "WP_001285288.1"; transl_table "11"; -NC_010473.1 RefSeq gene 234831 236084 . + . gene_id "ECDH10B_RS01135"; transcript_id ""; gbkey "Gene"; gene "proA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS01135"; old_locus_tag "ECDH10B_0225"; -NC_010473.1 Protein Homology CDS 234831 236081 . + 0 gene_id "ECDH10B_RS01135"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "proA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414778.1"; locus_tag "ECDH10B_RS01135"; product "glutamate-5-semialdehyde dehydrogenase"; protein_id "WP_000893278.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 234831 234833 . + 0 gene_id "ECDH10B_RS01135"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "proA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414778.1"; locus_tag "ECDH10B_RS01135"; product "glutamate-5-semialdehyde dehydrogenase"; protein_id "WP_000893278.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 236082 236084 . + 0 gene_id "ECDH10B_RS01135"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "proA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414778.1"; locus_tag "ECDH10B_RS01135"; product "glutamate-5-semialdehyde dehydrogenase"; protein_id "WP_000893278.1"; transl_table "11"; -NC_010473.1 RefSeq gene 236199 236274 . + . gene_id "ECDH10B_RS01140"; transcript_id ""; gbkey "Gene"; gene_biotype "tRNA"; locus_tag "ECDH10B_RS01140"; old_locus_tag "ECDH10B_0226"; -NC_010473.1 tRNAscan-SE exon 236199 236274 . + . gene_id "ECDH10B_RS01140"; transcript_id "ECDH10B_RS01140"; anticodon "(pos:236232..236234)"; gbkey "tRNA"; inference "COORDINATES: profile:tRNAscan-SE:2.0.6"; locus_tag "ECDH10B_RS01140"; product "tRNA-Thr"; exon_number "1"; -NC_010473.1 RefSeq gene 236656 236997 . - . gene_id "ECDH10B_RS01145"; transcript_id ""; gbkey "Gene"; gene "ykfI"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS01145"; old_locus_tag "ECDH10B_0227"; -NC_010473.1 Protein Homology CDS 236659 236997 . - 0 gene_id "ECDH10B_RS01145"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ykfI"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414779.1"; locus_tag "ECDH10B_RS01145"; product "type IV toxin-antitoxin system toxin YkfI"; protein_id "WP_000854672.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 236995 236997 . - 0 gene_id "ECDH10B_RS01145"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ykfI"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414779.1"; locus_tag "ECDH10B_RS01145"; product "type IV toxin-antitoxin system toxin YkfI"; protein_id "WP_000854672.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 236656 236658 . - 0 gene_id "ECDH10B_RS01145"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ykfI"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414779.1"; locus_tag "ECDH10B_RS01145"; product "type IV toxin-antitoxin system toxin YkfI"; protein_id "WP_000854672.1"; transl_table "11"; -NC_010473.1 RefSeq gene 237018 237335 . - . gene_id "ECDH10B_RS01150"; transcript_id ""; gbkey "Gene"; gene "yafW"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS01150"; old_locus_tag "ECDH10B_0228"; -NC_010473.1 Protein Homology CDS 237021 237335 . - 0 gene_id "ECDH10B_RS01150"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yafW"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414780.1"; locus_tag "ECDH10B_RS01150"; product "type IV toxin-antitoxin system antitoxin YafW"; protein_id "WP_000070395.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 237333 237335 . - 0 gene_id "ECDH10B_RS01150"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yafW"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414780.1"; locus_tag "ECDH10B_RS01150"; product "type IV toxin-antitoxin system antitoxin YafW"; protein_id "WP_000070395.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 237018 237020 . - 0 gene_id "ECDH10B_RS01150"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yafW"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414780.1"; locus_tag "ECDH10B_RS01150"; product "type IV toxin-antitoxin system antitoxin YafW"; protein_id "WP_000070395.1"; transl_table "11"; -NC_010473.1 RefSeq gene 237354 237575 . - . gene_id "ECDH10B_RS23500"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS23500"; old_locus_tag "ECDH10B_0229"; -NC_010473.1 Protein Homology CDS 237357 237575 . - 0 gene_id "ECDH10B_RS23500"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_588435.1"; locus_tag "ECDH10B_RS23500"; product "DUF987 domain-containing protein"; protein_id "WP_000691994.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 237573 237575 . - 0 gene_id "ECDH10B_RS23500"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_588435.1"; locus_tag "ECDH10B_RS23500"; product "DUF987 domain-containing protein"; protein_id "WP_000691994.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 237354 237356 . - 0 gene_id "ECDH10B_RS23500"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_588435.1"; locus_tag "ECDH10B_RS23500"; product "DUF987 domain-containing protein"; protein_id "WP_000691994.1"; transl_table "11"; -NC_010473.1 RefSeq gene 237584 238060 . - . gene_id "ECDH10B_RS01155"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS01155"; old_locus_tag "ECDH10B_0230"; -NC_010473.1 Protein Homology CDS 237587 238060 . - 0 gene_id "ECDH10B_RS01155"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414781.1"; locus_tag "ECDH10B_RS01155"; product "RadC family protein"; protein_id "WP_000811693.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 238058 238060 . - 0 gene_id "ECDH10B_RS01155"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414781.1"; locus_tag "ECDH10B_RS01155"; product "RadC family protein"; protein_id "WP_000811693.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 237584 237586 . - 0 gene_id "ECDH10B_RS01155"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414781.1"; locus_tag "ECDH10B_RS01155"; product "RadC family protein"; protein_id "WP_000811693.1"; transl_table "11"; -NC_010473.1 RefSeq gene 238076 238534 . - . gene_id "ECDH10B_RS01160"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS01160"; old_locus_tag "ECDH10B_0231"; -NC_010473.1 Protein Homology CDS 238079 238534 . - 0 gene_id "ECDH10B_RS01160"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414782.1"; locus_tag "ECDH10B_RS01160"; product "antirestriction protein"; protein_id "WP_000211838.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 238532 238534 . - 0 gene_id "ECDH10B_RS01160"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414782.1"; locus_tag "ECDH10B_RS01160"; product "antirestriction protein"; protein_id "WP_000211838.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 238076 238078 . - 0 gene_id "ECDH10B_RS01160"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414782.1"; locus_tag "ECDH10B_RS01160"; product "antirestriction protein"; protein_id "WP_000211838.1"; transl_table "11"; -NC_010473.1 RefSeq gene 238632 238871 . - . gene_id "ECDH10B_RS01165"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS01165"; old_locus_tag "ECDH10B_0232"; -NC_010473.1 Protein Homology CDS 238635 238871 . - 0 gene_id "ECDH10B_RS01165"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414783.1"; locus_tag "ECDH10B_RS01165"; product "DUF905 domain-containing protein"; protein_id "WP_000194654.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 238869 238871 . - 0 gene_id "ECDH10B_RS01165"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414783.1"; locus_tag "ECDH10B_RS01165"; product "DUF905 domain-containing protein"; protein_id "WP_000194654.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 238632 238634 . - 0 gene_id "ECDH10B_RS01165"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414783.1"; locus_tag "ECDH10B_RS01165"; product "DUF905 domain-containing protein"; protein_id "WP_000194654.1"; transl_table "11"; -NC_010473.1 RefSeq gene 238948 239415 . - . gene_id "ECDH10B_RS01170"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS01170"; old_locus_tag "ECDH10B_0233"; -NC_010473.1 Protein Homology CDS 238951 239415 . - 0 gene_id "ECDH10B_RS01170"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414784.1"; locus_tag "ECDH10B_RS01170"; product "hypothetical protein"; protein_id "WP_001547765.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 239413 239415 . - 0 gene_id "ECDH10B_RS01170"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414784.1"; locus_tag "ECDH10B_RS01170"; product "hypothetical protein"; protein_id "WP_001547765.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 238948 238950 . - 0 gene_id "ECDH10B_RS01170"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414784.1"; locus_tag "ECDH10B_RS01170"; product "hypothetical protein"; protein_id "WP_001547765.1"; transl_table "11"; -NC_010473.1 RefSeq gene 239438 239881 . - . gene_id "ECDH10B_RS25845"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS25845"; old_locus_tag "ECDH10B_0234"; -NC_010473.1 Protein Homology CDS 239441 239881 . - 0 gene_id "ECDH10B_RS25845"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414785.4"; locus_tag "ECDH10B_RS25845"; product "hypothetical protein"; protein_id "WP_000824223.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 239879 239881 . - 0 gene_id "ECDH10B_RS25845"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414785.4"; locus_tag "ECDH10B_RS25845"; product "hypothetical protein"; protein_id "WP_000824223.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 239438 239440 . - 0 gene_id "ECDH10B_RS25845"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414785.4"; locus_tag "ECDH10B_RS25845"; product "hypothetical protein"; protein_id "WP_000824223.1"; transl_table "11"; -NC_010473.1 RefSeq gene 239881 240108 . - . gene_id "ECDH10B_RS25850"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS25850"; old_locus_tag "ECDH10B_0235"; -NC_010473.1 Protein Homology CDS 239884 240108 . - 0 gene_id "ECDH10B_RS25850"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001115854.1"; locus_tag "ECDH10B_RS25850"; product "hypothetical protein"; protein_id "WP_001548158.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 240106 240108 . - 0 gene_id "ECDH10B_RS25850"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001115854.1"; locus_tag "ECDH10B_RS25850"; product "hypothetical protein"; protein_id "WP_001548158.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 239881 239883 . - 0 gene_id "ECDH10B_RS25850"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001115854.1"; locus_tag "ECDH10B_RS25850"; product "hypothetical protein"; protein_id "WP_001548158.1"; transl_table "11"; -NC_010473.1 RefSeq gene 240104 240295 . - . gene_id "ECDH10B_RS25855"; transcript_id ""; gbkey "Gene"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS25855"; old_locus_tag "ECDH10B_0236"; partial "true"; pseudo "true"; -NC_010473.1 Protein Homology CDS 240107 240295 . - 0 gene_id "ECDH10B_RS25855"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417123.1"; locus_tag "ECDH10B_RS25855"; note "incomplete; partial in the middle of a contig; missing C-terminus"; partial "true"; product "DeoR family transcriptional regulator"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 240293 240295 . - 0 gene_id "ECDH10B_RS25855"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417123.1"; locus_tag "ECDH10B_RS25855"; note "incomplete; partial in the middle of a contig; missing C-terminus"; partial "true"; product "DeoR family transcriptional regulator"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 240104 240106 . - 0 gene_id "ECDH10B_RS25855"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417123.1"; locus_tag "ECDH10B_RS25855"; note "incomplete; partial in the middle of a contig; missing C-terminus"; partial "true"; product "DeoR family transcriptional regulator"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 240512 241333 . - . gene_id "ECDH10B_RS01185"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS01185"; old_locus_tag "ECDH10B_0237"; -NC_010473.1 Protein Homology CDS 240515 241333 . - 0 gene_id "ECDH10B_RS01185"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414786.4"; locus_tag "ECDH10B_RS01185"; product "DUF945 domain-containing protein"; protein_id "WP_000197389.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 241331 241333 . - 0 gene_id "ECDH10B_RS01185"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414786.4"; locus_tag "ECDH10B_RS01185"; product "DUF945 domain-containing protein"; protein_id "WP_000197389.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 240512 240514 . - 0 gene_id "ECDH10B_RS01185"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414786.4"; locus_tag "ECDH10B_RS01185"; product "DUF945 domain-containing protein"; protein_id "WP_000197389.1"; transl_table "11"; -NC_010473.1 RefSeq gene 241425 242288 . - . gene_id "ECDH10B_RS01190"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS01190"; old_locus_tag "ECDH10B_0238"; -NC_010473.1 Protein Homology CDS 241428 242288 . - 0 gene_id "ECDH10B_RS01190"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414787.4"; locus_tag "ECDH10B_RS01190"; product "GTPase family protein"; protein_id "WP_001065553.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 242286 242288 . - 0 gene_id "ECDH10B_RS01190"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414787.4"; locus_tag "ECDH10B_RS01190"; product "GTPase family protein"; protein_id "WP_001065553.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 241425 241427 . - 0 gene_id "ECDH10B_RS01190"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414787.4"; locus_tag "ECDH10B_RS01190"; product "GTPase family protein"; protein_id "WP_001065553.1"; transl_table "11"; -NC_010473.1 RefSeq gene 242617 243510 . - . gene_id "ECDH10B_RS01195"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS01195"; old_locus_tag "ECDH10B_0239"; -NC_010473.1 Protein Homology CDS 242620 243510 . - 0 gene_id "ECDH10B_RS01195"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414788.1"; locus_tag "ECDH10B_RS01195"; product "LysR family transcriptional regulator"; protein_id "WP_000770246.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 243508 243510 . - 0 gene_id "ECDH10B_RS01195"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414788.1"; locus_tag "ECDH10B_RS01195"; product "LysR family transcriptional regulator"; protein_id "WP_000770246.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 242617 242619 . - 0 gene_id "ECDH10B_RS01195"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414788.1"; locus_tag "ECDH10B_RS01195"; product "LysR family transcriptional regulator"; protein_id "WP_000770246.1"; transl_table "11"; -NC_010473.1 RefSeq gene 243606 243863 . + . gene_id "ECDH10B_RS01200"; transcript_id ""; gbkey "Gene"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS01200"; old_locus_tag "ECDH10B_0240"; partial "true"; pseudo "true"; -NC_010473.1 Protein Homology CDS 243606 243860 . + 0 gene_id "ECDH10B_RS01200"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_076611483.1"; locus_tag "ECDH10B_RS01200"; note "incomplete; partial in the middle of a contig; missing C-terminus"; partial "true"; product "transposase"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 243606 243608 . + 0 gene_id "ECDH10B_RS01200"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_076611483.1"; locus_tag "ECDH10B_RS01200"; note "incomplete; partial in the middle of a contig; missing C-terminus"; partial "true"; product "transposase"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 243861 243863 . + 0 gene_id "ECDH10B_RS01200"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_076611483.1"; locus_tag "ECDH10B_RS01200"; note "incomplete; partial in the middle of a contig; missing C-terminus"; partial "true"; product "transposase"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 243931 245082 . + . gene_id "ECDH10B_RS01205"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS01205"; old_locus_tag "ECDH10B_0241"; -NC_010473.1 Protein Homology CDS 243931 245079 . + 0 gene_id "ECDH10B_RS01205"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_004389801.1"; locus_tag "ECDH10B_RS01205"; product "IS30-like element IS30 family transposase"; protein_id "WP_001254938.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 243931 243933 . + 0 gene_id "ECDH10B_RS01205"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_004389801.1"; locus_tag "ECDH10B_RS01205"; product "IS30-like element IS30 family transposase"; protein_id "WP_001254938.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 245080 245082 . + 0 gene_id "ECDH10B_RS01205"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_004389801.1"; locus_tag "ECDH10B_RS01205"; product "IS30-like element IS30 family transposase"; protein_id "WP_001254938.1"; transl_table "11"; -NC_010473.1 RefSeq gene 245092 245517 . + . gene_id "ECDH10B_RS01210"; transcript_id ""; gbkey "Gene"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS01210"; old_locus_tag "ECDH10B_0243"; partial "true"; pseudo "true"; -NC_010473.1 Protein Homology CDS 245092 245514 . + 0 gene_id "ECDH10B_RS01210"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_076611483.1"; locus_tag "ECDH10B_RS01210"; note "incomplete; partial in the middle of a contig; missing N-terminus and C-terminus"; partial "true"; product "IS3 family transposase"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 245092 245094 . + 0 gene_id "ECDH10B_RS01210"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_076611483.1"; locus_tag "ECDH10B_RS01210"; note "incomplete; partial in the middle of a contig; missing N-terminus and C-terminus"; partial "true"; product "IS3 family transposase"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 245515 245517 . + 0 gene_id "ECDH10B_RS01210"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_076611483.1"; locus_tag "ECDH10B_RS01210"; note "incomplete; partial in the middle of a contig; missing N-terminus and C-terminus"; partial "true"; product "IS3 family transposase"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 246190 247281 . + . gene_id "ECDH10B_RS01225"; transcript_id ""; gbkey "Gene"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS01225"; old_locus_tag "ECDH10B_0244"; partial "true"; pseudo "true"; -NC_010473.1 Protein Homology CDS 246190 247278 . + 0 gene_id "ECDH10B_RS01225"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_708749.1"; locus_tag "ECDH10B_RS01225"; note "incomplete; partial in the middle of a contig; missing C-terminus"; partial "true"; product "group II intron reverse transcriptase/maturase"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 246190 246192 . + 0 gene_id "ECDH10B_RS01225"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_708749.1"; locus_tag "ECDH10B_RS01225"; note "incomplete; partial in the middle of a contig; missing C-terminus"; partial "true"; product "group II intron reverse transcriptase/maturase"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 247279 247281 . + 0 gene_id "ECDH10B_RS01225"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_708749.1"; locus_tag "ECDH10B_RS01225"; note "incomplete; partial in the middle of a contig; missing C-terminus"; partial "true"; product "group II intron reverse transcriptase/maturase"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 247429 248445 . - . gene_id "ECDH10B_RS01230"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS01230"; old_locus_tag "ECDH10B_0245"; -NC_010473.1 Protein Homology CDS 247432 248445 . - 0 gene_id "ECDH10B_RS01230"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414793.1"; locus_tag "ECDH10B_RS01230"; product "IS5-like element IS5 family transposase"; protein_id "WP_010723085.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 248443 248445 . - 0 gene_id "ECDH10B_RS01230"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414793.1"; locus_tag "ECDH10B_RS01230"; product "IS5-like element IS5 family transposase"; protein_id "WP_010723085.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 247429 247431 . - 0 gene_id "ECDH10B_RS01230"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414793.1"; locus_tag "ECDH10B_RS01230"; product "IS5-like element IS5 family transposase"; protein_id "WP_010723085.1"; transl_table "11"; -NC_010473.1 RefSeq gene 248653 250056 . + . gene_id "ECDH10B_RS01235"; transcript_id ""; gbkey "Gene"; gene "mmuP"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS01235"; old_locus_tag "ECDH10B_0246"; -NC_010473.1 Protein Homology CDS 248653 250053 . + 0 gene_id "ECDH10B_RS01235"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mmuP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414794.4"; locus_tag "ECDH10B_RS01235"; product "S-methylmethionine permease"; protein_id "WP_001393629.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 248653 248655 . + 0 gene_id "ECDH10B_RS01235"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mmuP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414794.4"; locus_tag "ECDH10B_RS01235"; product "S-methylmethionine permease"; protein_id "WP_001393629.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 250054 250056 . + 0 gene_id "ECDH10B_RS01235"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mmuP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414794.4"; locus_tag "ECDH10B_RS01235"; product "S-methylmethionine permease"; protein_id "WP_001393629.1"; transl_table "11"; -NC_010473.1 RefSeq gene 250043 250975 . + . gene_id "ECDH10B_RS01240"; transcript_id ""; gbkey "Gene"; gene "mmuM"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS01240"; old_locus_tag "ECDH10B_0247"; -NC_010473.1 Protein Homology CDS 250043 250972 . + 0 gene_id "ECDH10B_RS01240"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mmuM"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414795.1"; locus_tag "ECDH10B_RS01240"; product "homocysteine S-methyltransferase"; protein_id "WP_000081352.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 250043 250045 . + 0 gene_id "ECDH10B_RS01240"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mmuM"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414795.1"; locus_tag "ECDH10B_RS01240"; product "homocysteine S-methyltransferase"; protein_id "WP_000081352.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 250973 250975 . + 0 gene_id "ECDH10B_RS01240"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mmuM"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414795.1"; locus_tag "ECDH10B_RS01240"; product "homocysteine S-methyltransferase"; protein_id "WP_000081352.1"; transl_table "11"; -NC_010473.1 RefSeq gene 251084 252130 . - . gene_id "ECDH10B_RS01245"; transcript_id ""; gbkey "Gene"; gene "fbpC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS01245"; old_locus_tag "ECDH10B_0248"; -NC_010473.1 Protein Homology CDS 251087 252130 . - 0 gene_id "ECDH10B_RS01245"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fbpC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414796.2"; locus_tag "ECDH10B_RS01245"; product "ferric ABC transporter ATP-binding protein"; protein_id "WP_000192349.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 252128 252130 . - 0 gene_id "ECDH10B_RS01245"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fbpC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414796.2"; locus_tag "ECDH10B_RS01245"; product "ferric ABC transporter ATP-binding protein"; protein_id "WP_000192349.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 251084 251086 . - 0 gene_id "ECDH10B_RS01245"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fbpC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414796.2"; locus_tag "ECDH10B_RS01245"; product "ferric ABC transporter ATP-binding protein"; protein_id "WP_000192349.1"; transl_table "11"; -NC_010473.1 RefSeq gene 252142 252489 . - . gene_id "ECDH10B_RS01250"; transcript_id ""; gbkey "Gene"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS01250"; old_locus_tag "ECDH10B_0249"; partial "true"; pseudo "true"; -NC_010473.1 Protein Homology CDS 252145 252489 . - 0 gene_id "ECDH10B_RS01250"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308441.1"; locus_tag "ECDH10B_RS01250"; note "incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "ABC transporter permease subunit"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 252487 252489 . - 0 gene_id "ECDH10B_RS01250"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308441.1"; locus_tag "ECDH10B_RS01250"; note "incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "ABC transporter permease subunit"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 252142 252144 . - 0 gene_id "ECDH10B_RS01250"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308441.1"; locus_tag "ECDH10B_RS01250"; note "incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "ABC transporter permease subunit"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 252506 253203 . - . gene_id "ECDH10B_RS01255"; transcript_id ""; gbkey "Gene"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS01255"; old_locus_tag "ECDH10B_0250"; pseudo "true"; -NC_010473.1 Protein Homology CDS 252509 253203 . - 0 gene_id "ECDH10B_RS01255"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_076612230.1"; locus_tag "ECDH10B_RS01255"; note "frameshifted"; product "IS1 family transposase"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 253201 253203 . - 0 gene_id "ECDH10B_RS01255"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_076612230.1"; locus_tag "ECDH10B_RS01255"; note "frameshifted"; product "IS1 family transposase"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 252506 252508 . - 0 gene_id "ECDH10B_RS01255"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_076612230.1"; locus_tag "ECDH10B_RS01255"; note "frameshifted"; product "IS1 family transposase"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 253259 253432 . + . gene_id "ECDH10B_RS23525"; transcript_id ""; gbkey "Gene"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS23525"; partial "true"; pseudo "true"; -NC_010473.1 Protein Homology CDS 253259 253429 . + 0 gene_id "ECDH10B_RS23525"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414790.1"; locus_tag "ECDH10B_RS23525"; note "incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "IS30 family transposase"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 253259 253261 . + 0 gene_id "ECDH10B_RS23525"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414790.1"; locus_tag "ECDH10B_RS23525"; note "incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "IS30 family transposase"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 253430 253432 . + 0 gene_id "ECDH10B_RS23525"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414790.1"; locus_tag "ECDH10B_RS23525"; note "incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "IS30 family transposase"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 253442 253690 . - . gene_id "ECDH10B_RS01265"; transcript_id ""; gbkey "Gene"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS01265"; old_locus_tag "ECDH10B_0252"; partial "true"; pseudo "true"; -NC_010473.1 Protein Homology CDS 253445 253690 . - 0 gene_id "ECDH10B_RS01265"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_076611920.1"; locus_tag "ECDH10B_RS01265"; note "incomplete; partial in the middle of a contig; missing C-terminus"; partial "true"; product "transposase"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 253688 253690 . - 0 gene_id "ECDH10B_RS01265"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_076611920.1"; locus_tag "ECDH10B_RS01265"; note "incomplete; partial in the middle of a contig; missing C-terminus"; partial "true"; product "transposase"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 253442 253444 . - 0 gene_id "ECDH10B_RS01265"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_076611920.1"; locus_tag "ECDH10B_RS01265"; note "incomplete; partial in the middle of a contig; missing C-terminus"; partial "true"; product "transposase"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 253713 254063 . - . gene_id "ECDH10B_RS01270"; transcript_id ""; gbkey "Gene"; gene "yagB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS01270"; old_locus_tag "ECDH10B_0253"; -NC_010473.1 Protein Homology CDS 253716 254063 . - 0 gene_id "ECDH10B_RS01270"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yagB"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_009518742.1"; locus_tag "ECDH10B_RS01270"; product "type IV toxin-antitoxin system antitoxin YagB"; protein_id "WP_001030800.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 254061 254063 . - 0 gene_id "ECDH10B_RS01270"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yagB"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_009518742.1"; locus_tag "ECDH10B_RS01270"; product "type IV toxin-antitoxin system antitoxin YagB"; protein_id "WP_001030800.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 253713 253715 . - 0 gene_id "ECDH10B_RS01270"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yagB"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_009518742.1"; locus_tag "ECDH10B_RS01270"; product "type IV toxin-antitoxin system antitoxin YagB"; protein_id "WP_001030800.1"; transl_table "11"; -NC_010473.1 RefSeq gene 254157 255311 . - . gene_id "ECDH10B_RS01275"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS01275"; old_locus_tag "ECDH10B_0254"; -NC_010473.1 Protein Homology CDS 254160 255311 . - 0 gene_id "ECDH10B_RS01275"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_010723086.1"; locus_tag "ECDH10B_RS01275"; product "IS481-like element ISEc19 family transposase"; protein_id "WP_010723086.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 255309 255311 . - 0 gene_id "ECDH10B_RS01275"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_010723086.1"; locus_tag "ECDH10B_RS01275"; product "IS481-like element ISEc19 family transposase"; protein_id "WP_010723086.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 254157 254159 . - 0 gene_id "ECDH10B_RS01275"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_010723086.1"; locus_tag "ECDH10B_RS01275"; product "IS481-like element ISEc19 family transposase"; protein_id "WP_010723086.1"; transl_table "11"; -NC_010473.1 RefSeq gene 255606 256514 . + . gene_id "ECDH10B_RS01280"; transcript_id ""; gbkey "Gene"; gene "yagE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS01280"; old_locus_tag "ECDH10B_0255"; -NC_010473.1 Protein Homology CDS 255606 256511 . + 0 gene_id "ECDH10B_RS01280"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yagE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414802.2"; locus_tag "ECDH10B_RS01280"; product "2-keto-3-deoxygluconate aldolase"; protein_id "WP_001136613.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 255606 255608 . + 0 gene_id "ECDH10B_RS01280"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yagE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414802.2"; locus_tag "ECDH10B_RS01280"; product "2-keto-3-deoxygluconate aldolase"; protein_id "WP_001136613.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 256512 256514 . + 0 gene_id "ECDH10B_RS01280"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yagE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414802.2"; locus_tag "ECDH10B_RS01280"; product "2-keto-3-deoxygluconate aldolase"; protein_id "WP_001136613.1"; transl_table "11"; -NC_010473.1 RefSeq gene 256529 258496 . + . gene_id "ECDH10B_RS01285"; transcript_id ""; gbkey "Gene"; gene "yagF"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS01285"; old_locus_tag "ECDH10B_0256"; -NC_010473.1 Protein Homology CDS 256529 258493 . + 0 gene_id "ECDH10B_RS01285"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yagF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414803.1"; locus_tag "ECDH10B_RS01285"; product "xylonate dehydratase YagF"; protein_id "WP_000151261.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 256529 256531 . + 0 gene_id "ECDH10B_RS01285"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yagF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414803.1"; locus_tag "ECDH10B_RS01285"; product "xylonate dehydratase YagF"; protein_id "WP_000151261.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 258494 258496 . + 0 gene_id "ECDH10B_RS01285"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yagF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414803.1"; locus_tag "ECDH10B_RS01285"; product "xylonate dehydratase YagF"; protein_id "WP_000151261.1"; transl_table "11"; -NC_010473.1 RefSeq gene 258723 260105 . + . gene_id "ECDH10B_RS01290"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS01290"; old_locus_tag "ECDH10B_0257"; -NC_010473.1 Protein Homology CDS 258723 260102 . + 0 gene_id "ECDH10B_RS01290"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414804.1"; locus_tag "ECDH10B_RS01290"; product "MFS transporter"; protein_id "WP_000192863.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 258723 258725 . + 0 gene_id "ECDH10B_RS01290"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414804.1"; locus_tag "ECDH10B_RS01290"; product "MFS transporter"; protein_id "WP_000192863.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 260103 260105 . + 0 gene_id "ECDH10B_RS01290"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414804.1"; locus_tag "ECDH10B_RS01290"; product "MFS transporter"; protein_id "WP_000192863.1"; transl_table "11"; -NC_010473.1 RefSeq gene 260117 261727 . + . gene_id "ECDH10B_RS01295"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS01295"; old_locus_tag "ECDH10B_0258"; -NC_010473.1 Protein Homology CDS 260117 261724 . + 0 gene_id "ECDH10B_RS01295"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414805.1"; locus_tag "ECDH10B_RS01295"; product "glycoside hydrolase family 43 protein"; protein_id "WP_000406871.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 260117 260119 . + 0 gene_id "ECDH10B_RS01295"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414805.1"; locus_tag "ECDH10B_RS01295"; product "glycoside hydrolase family 43 protein"; protein_id "WP_000406871.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 261725 261727 . + 0 gene_id "ECDH10B_RS01295"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414805.1"; locus_tag "ECDH10B_RS01295"; product "glycoside hydrolase family 43 protein"; protein_id "WP_000406871.1"; transl_table "11"; -NC_010473.1 RefSeq gene 261732 262025 . - . gene_id "ECDH10B_RS01300"; transcript_id ""; gbkey "Gene"; gene "xynR"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS01300"; partial "true"; pseudo "true"; -NC_010473.1 Protein Homology CDS 261735 262025 . - 0 gene_id "ECDH10B_RS01300"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "xynR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414806.1"; locus_tag "ECDH10B_RS01300"; note "incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "DNA-binding transcriptional repressor XynR"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 262023 262025 . - 0 gene_id "ECDH10B_RS01300"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "xynR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414806.1"; locus_tag "ECDH10B_RS01300"; note "incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "DNA-binding transcriptional repressor XynR"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 261732 261734 . - 0 gene_id "ECDH10B_RS01300"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "xynR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414806.1"; locus_tag "ECDH10B_RS01300"; note "incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "DNA-binding transcriptional repressor XynR"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 262073 263442 . + . gene_id "ECDH10B_RS25305"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS25305"; -NC_010473.1 Protein Homology CDS 262073 262553 . + 0 gene_id "ECDH10B_RS25305"; transcript_id "unknown_transcript_1"; exception "ribosomal slippage"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_076611947.1"; locus_tag "ECDH10B_RS25305"; note "programmed frameshift"; product "IS3-like element IS150 family transposase"; protein_id "WP_085947770.1"; transl_table "11"; -NC_010473.1 Protein Homology CDS 262553 263439 . + 0 gene_id "ECDH10B_RS25305"; transcript_id "unknown_transcript_1"; exception "ribosomal slippage"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_076611947.1"; locus_tag "ECDH10B_RS25305"; note "programmed frameshift"; product "IS3-like element IS150 family transposase"; protein_id "WP_085947770.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 262073 262075 . + 0 gene_id "ECDH10B_RS25305"; transcript_id "unknown_transcript_1"; exception "ribosomal slippage"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_076611947.1"; locus_tag "ECDH10B_RS25305"; note "programmed frameshift"; product "IS3-like element IS150 family transposase"; protein_id "WP_085947770.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 263440 263442 . + 0 gene_id "ECDH10B_RS25305"; transcript_id "unknown_transcript_1"; exception "ribosomal slippage"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_076611947.1"; locus_tag "ECDH10B_RS25305"; note "programmed frameshift"; product "IS3-like element IS150 family transposase"; protein_id "WP_085947770.1"; transl_table "11"; -NC_010473.1 RefSeq gene 263469 263936 . - . gene_id "ECDH10B_RS01315"; transcript_id ""; gbkey "Gene"; gene "xynR"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS01315"; partial "true"; pseudo "true"; -NC_010473.1 Protein Homology CDS 263472 263936 . - 0 gene_id "ECDH10B_RS01315"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "xynR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414806.1"; locus_tag "ECDH10B_RS01315"; note "incomplete; partial in the middle of a contig; missing C-terminus"; partial "true"; product "DNA-binding transcriptional repressor XynR"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 263934 263936 . - 0 gene_id "ECDH10B_RS01315"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "xynR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414806.1"; locus_tag "ECDH10B_RS01315"; note "incomplete; partial in the middle of a contig; missing C-terminus"; partial "true"; product "DNA-binding transcriptional repressor XynR"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 263469 263471 . - 0 gene_id "ECDH10B_RS01315"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "xynR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414806.1"; locus_tag "ECDH10B_RS01315"; note "incomplete; partial in the middle of a contig; missing C-terminus"; partial "true"; product "DNA-binding transcriptional repressor XynR"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 264075 265079 . - . gene_id "ECDH10B_RS01320"; transcript_id ""; gbkey "Gene"; gene "argF"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS01320"; old_locus_tag "ECDH10B_0261"; -NC_010473.1 Protein Homology CDS 264078 265079 . - 0 gene_id "ECDH10B_RS01320"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "argF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414807.1"; locus_tag "ECDH10B_RS01320"; product "ornithine carbamoyltransferase"; protein_id "WP_001281825.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 265077 265079 . - 0 gene_id "ECDH10B_RS01320"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "argF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414807.1"; locus_tag "ECDH10B_RS01320"; product "ornithine carbamoyltransferase"; protein_id "WP_001281825.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 264075 264077 . - 0 gene_id "ECDH10B_RS01320"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "argF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414807.1"; locus_tag "ECDH10B_RS01320"; product "ornithine carbamoyltransferase"; protein_id "WP_001281825.1"; transl_table "11"; -NC_010473.1 RefSeq gene 265203 265406 . + . gene_id "ECDH10B_RS23530"; transcript_id ""; gbkey "Gene"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS23530"; partial "true"; pseudo "true"; -NC_010473.1 Protein Homology CDS 265203 265403 . + 0 gene_id "ECDH10B_RS23530"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417114.1"; locus_tag "ECDH10B_RS23530"; note "incomplete; partial in the middle of a contig; missing N-terminus and C-terminus"; partial "true"; product "DUF3987 domain-containing protein"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 265203 265205 . + 0 gene_id "ECDH10B_RS23530"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417114.1"; locus_tag "ECDH10B_RS23530"; note "incomplete; partial in the middle of a contig; missing N-terminus and C-terminus"; partial "true"; product "DUF3987 domain-containing protein"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 265404 265406 . + 0 gene_id "ECDH10B_RS23530"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417114.1"; locus_tag "ECDH10B_RS23530"; note "incomplete; partial in the middle of a contig; missing N-terminus and C-terminus"; partial "true"; product "DUF3987 domain-containing protein"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 265423 266120 . - . gene_id "ECDH10B_RS01325"; transcript_id ""; gbkey "Gene"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS01325"; old_locus_tag "ECDH10B_0262"; pseudo "true"; -NC_010473.1 Protein Homology CDS 265426 266120 . - 0 gene_id "ECDH10B_RS01325"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_076612230.1"; locus_tag "ECDH10B_RS01325"; note "frameshifted"; product "IS1 family transposase"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 266118 266120 . - 0 gene_id "ECDH10B_RS01325"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_076612230.1"; locus_tag "ECDH10B_RS01325"; note "frameshifted"; product "IS1 family transposase"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 265423 265425 . - 0 gene_id "ECDH10B_RS01325"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_076612230.1"; locus_tag "ECDH10B_RS01325"; note "frameshifted"; product "IS1 family transposase"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 266274 267005 . + . gene_id "ECDH10B_RS01330"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS01330"; old_locus_tag "ECDH10B_0264"; -NC_010473.1 Protein Homology CDS 266274 267002 . + 0 gene_id "ECDH10B_RS01330"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_009518744.1"; locus_tag "ECDH10B_RS01330"; product "hypothetical protein"; protein_id "WP_000388269.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 266274 266276 . + 0 gene_id "ECDH10B_RS01330"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_009518744.1"; locus_tag "ECDH10B_RS01330"; product "hypothetical protein"; protein_id "WP_000388269.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 267003 267005 . + 0 gene_id "ECDH10B_RS01330"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_009518744.1"; locus_tag "ECDH10B_RS01330"; product "hypothetical protein"; protein_id "WP_000388269.1"; transl_table "11"; -NC_010473.1 RefSeq gene 267096 267722 . - . gene_id "ECDH10B_RS01335"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS01335"; old_locus_tag "ECDH10B_0265"; -NC_010473.1 Protein Homology CDS 267099 267722 . - 0 gene_id "ECDH10B_RS01335"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414811.1"; locus_tag "ECDH10B_RS01335"; product "inovirus Gp2 family protein"; protein_id "WP_000860996.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 267720 267722 . - 0 gene_id "ECDH10B_RS01335"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414811.1"; locus_tag "ECDH10B_RS01335"; product "inovirus Gp2 family protein"; protein_id "WP_000860996.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 267096 267098 . - 0 gene_id "ECDH10B_RS01335"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414811.1"; locus_tag "ECDH10B_RS01335"; product "inovirus Gp2 family protein"; protein_id "WP_000860996.1"; transl_table "11"; -NC_010473.1 RefSeq gene 267994 268692 . - . gene_id "ECDH10B_RS01340"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS01340"; old_locus_tag "ECDH10B_0266"; -NC_010473.1 Protein Homology CDS 267997 268692 . - 0 gene_id "ECDH10B_RS01340"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414812.1"; locus_tag "ECDH10B_RS01340"; product "recombinase family protein"; protein_id "WP_001214248.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 268690 268692 . - 0 gene_id "ECDH10B_RS01340"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414812.1"; locus_tag "ECDH10B_RS01340"; product "recombinase family protein"; protein_id "WP_001214248.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 267994 267996 . - 0 gene_id "ECDH10B_RS01340"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414812.1"; locus_tag "ECDH10B_RS01340"; product "recombinase family protein"; protein_id "WP_001214248.1"; transl_table "11"; -NC_010473.1 RefSeq gene 268719 269573 . - . gene_id "ECDH10B_RS01345"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS01345"; old_locus_tag "ECDH10B_0267"; -NC_010473.1 Protein Homology CDS 268722 269573 . - 0 gene_id "ECDH10B_RS01345"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414813.1"; locus_tag "ECDH10B_RS01345"; product "hypothetical protein"; protein_id "WP_000072039.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 269571 269573 . - 0 gene_id "ECDH10B_RS01345"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414813.1"; locus_tag "ECDH10B_RS01345"; product "hypothetical protein"; protein_id "WP_000072039.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 268719 268721 . - 0 gene_id "ECDH10B_RS01345"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414813.1"; locus_tag "ECDH10B_RS01345"; product "hypothetical protein"; protein_id "WP_000072039.1"; transl_table "11"; -NC_010473.1 RefSeq gene 269692 269916 . - . gene_id "ECDH10B_RS01350"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS01350"; -NC_010473.1 Protein Homology CDS 269695 269916 . - 0 gene_id "ECDH10B_RS01350"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_009518745.1"; locus_tag "ECDH10B_RS01350"; product "helix-turn-helix domain-containing protein"; protein_id "WP_001272156.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 269914 269916 . - 0 gene_id "ECDH10B_RS01350"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_009518745.1"; locus_tag "ECDH10B_RS01350"; product "helix-turn-helix domain-containing protein"; protein_id "WP_001272156.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 269692 269694 . - 0 gene_id "ECDH10B_RS01350"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_009518745.1"; locus_tag "ECDH10B_RS01350"; product "helix-turn-helix domain-containing protein"; protein_id "WP_001272156.1"; transl_table "11"; -NC_010473.1 RefSeq gene 269913 270353 . - . gene_id "ECDH10B_RS01355"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS01355"; old_locus_tag "ECDH10B_0268"; -NC_010473.1 Protein Homology CDS 269916 270353 . - 0 gene_id "ECDH10B_RS01355"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414814.1"; locus_tag "ECDH10B_RS01355"; product "hypothetical protein"; protein_id "WP_000224818.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 270351 270353 . - 0 gene_id "ECDH10B_RS01355"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414814.1"; locus_tag "ECDH10B_RS01355"; product "hypothetical protein"; protein_id "WP_000224818.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 269913 269915 . - 0 gene_id "ECDH10B_RS01355"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414814.1"; locus_tag "ECDH10B_RS01355"; product "hypothetical protein"; protein_id "WP_000224818.1"; transl_table "11"; -NC_010473.1 RefSeq gene 270470 271870 . - . gene_id "ECDH10B_RS01360"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS01360"; old_locus_tag "ECDH10B_0269"; -NC_010473.1 Protein Homology CDS 270473 271870 . - 0 gene_id "ECDH10B_RS01360"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414815.1"; locus_tag "ECDH10B_RS01360"; product "integrase family protein"; protein_id "WP_001407714.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 271868 271870 . - 0 gene_id "ECDH10B_RS01360"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414815.1"; locus_tag "ECDH10B_RS01360"; product "integrase family protein"; protein_id "WP_001407714.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 270470 270472 . - 0 gene_id "ECDH10B_RS01360"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414815.1"; locus_tag "ECDH10B_RS01360"; product "integrase family protein"; protein_id "WP_001407714.1"; transl_table "11"; -NC_010473.1 RefSeq gene 272155 272565 . - . gene_id "ECDH10B_RS01370"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS01370"; old_locus_tag "ECDH10B_0270"; -NC_010473.1 Protein Homology CDS 272158 272565 . - 0 gene_id "ECDH10B_RS01370"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_009518746.1"; locus_tag "ECDH10B_RS01370"; product "hypothetical protein"; protein_id "WP_001111342.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 272563 272565 . - 0 gene_id "ECDH10B_RS01370"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_009518746.1"; locus_tag "ECDH10B_RS01370"; product "hypothetical protein"; protein_id "WP_001111342.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 272155 272157 . - 0 gene_id "ECDH10B_RS01370"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_009518746.1"; locus_tag "ECDH10B_RS01370"; product "hypothetical protein"; protein_id "WP_001111342.1"; transl_table "11"; -NC_010473.1 RefSeq gene 272544 273500 . - . gene_id "ECDH10B_RS01375"; transcript_id ""; gbkey "Gene"; gene "paoD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS01375"; old_locus_tag "ECDH10B_0271"; -NC_010473.1 Protein Homology CDS 272547 273500 . - 0 gene_id "ECDH10B_RS01375"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "paoD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414817.1"; locus_tag "ECDH10B_RS01375"; product "molybdenum cofactor insertion chaperone PaoD"; protein_id "WP_000121359.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 273498 273500 . - 0 gene_id "ECDH10B_RS01375"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "paoD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414817.1"; locus_tag "ECDH10B_RS01375"; product "molybdenum cofactor insertion chaperone PaoD"; protein_id "WP_000121359.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 272544 272546 . - 0 gene_id "ECDH10B_RS01375"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "paoD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414817.1"; locus_tag "ECDH10B_RS01375"; product "molybdenum cofactor insertion chaperone PaoD"; protein_id "WP_000121359.1"; transl_table "11"; -NC_010473.1 RefSeq gene 273510 275708 . - . gene_id "ECDH10B_RS01380"; transcript_id ""; gbkey "Gene"; gene "paoC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS01380"; old_locus_tag "ECDH10B_0272"; -NC_010473.1 Protein Homology CDS 273513 275708 . - 0 gene_id "ECDH10B_RS01380"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "paoC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414818.1"; locus_tag "ECDH10B_RS01380"; product "aldehyde oxidoreductase molybdenum-binding subunit PaoC"; protein_id "WP_000667026.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 275706 275708 . - 0 gene_id "ECDH10B_RS01380"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "paoC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414818.1"; locus_tag "ECDH10B_RS01380"; product "aldehyde oxidoreductase molybdenum-binding subunit PaoC"; protein_id "WP_000667026.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 273510 273512 . - 0 gene_id "ECDH10B_RS01380"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "paoC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414818.1"; locus_tag "ECDH10B_RS01380"; product "aldehyde oxidoreductase molybdenum-binding subunit PaoC"; protein_id "WP_000667026.1"; transl_table "11"; -NC_010473.1 RefSeq gene 275705 276661 . - . gene_id "ECDH10B_RS01385"; transcript_id ""; gbkey "Gene"; gene "paoB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS01385"; old_locus_tag "ECDH10B_0273"; -NC_010473.1 Protein Homology CDS 275708 276661 . - 0 gene_id "ECDH10B_RS01385"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "paoB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414819.1"; locus_tag "ECDH10B_RS01385"; product "aldehyde oxidoreductase FAD-binding subunit PaoB"; protein_id "WP_000643333.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 276659 276661 . - 0 gene_id "ECDH10B_RS01385"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "paoB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414819.1"; locus_tag "ECDH10B_RS01385"; product "aldehyde oxidoreductase FAD-binding subunit PaoB"; protein_id "WP_000643333.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 275705 275707 . - 0 gene_id "ECDH10B_RS01385"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "paoB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414819.1"; locus_tag "ECDH10B_RS01385"; product "aldehyde oxidoreductase FAD-binding subunit PaoB"; protein_id "WP_000643333.1"; transl_table "11"; -NC_010473.1 RefSeq gene 276658 277347 . - . gene_id "ECDH10B_RS01390"; transcript_id ""; gbkey "Gene"; gene "paoA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS01390"; old_locus_tag "ECDH10B_0274"; -NC_010473.1 Protein Homology CDS 276661 277347 . - 0 gene_id "ECDH10B_RS01390"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "paoA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414820.1"; locus_tag "ECDH10B_RS01390"; product "aldehyde dehydrogenase iron-sulfur subunit"; protein_id "WP_000070700.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 277345 277347 . - 0 gene_id "ECDH10B_RS01390"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "paoA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414820.1"; locus_tag "ECDH10B_RS01390"; product "aldehyde dehydrogenase iron-sulfur subunit"; protein_id "WP_000070700.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 276658 276660 . - 0 gene_id "ECDH10B_RS01390"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "paoA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414820.1"; locus_tag "ECDH10B_RS01390"; product "aldehyde dehydrogenase iron-sulfur subunit"; protein_id "WP_000070700.1"; transl_table "11"; -NC_010473.1 RefSeq gene 277765 278379 . + . gene_id "ECDH10B_RS01395"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS01395"; old_locus_tag "ECDH10B_0275"; -NC_010473.1 Protein Homology CDS 277765 278376 . + 0 gene_id "ECDH10B_RS01395"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308344.1"; locus_tag "ECDH10B_RS01395"; product "YagU family protein"; protein_id "WP_001019920.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 277765 277767 . + 0 gene_id "ECDH10B_RS01395"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308344.1"; locus_tag "ECDH10B_RS01395"; product "YagU family protein"; protein_id "WP_001019920.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 278377 278379 . + 0 gene_id "ECDH10B_RS01395"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308344.1"; locus_tag "ECDH10B_RS01395"; product "YagU family protein"; protein_id "WP_001019920.1"; transl_table "11"; -NC_010473.1 RefSeq gene 278627 278956 . - . gene_id "ECDH10B_RS01400"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS01400"; old_locus_tag "ECDH10B_0276"; -NC_010473.1 Protein Homology CDS 278630 278956 . - 0 gene_id "ECDH10B_RS01400"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414822.1"; locus_tag "ECDH10B_RS01400"; product "YkgJ family cysteine cluster protein"; protein_id "WP_001303809.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 278954 278956 . - 0 gene_id "ECDH10B_RS01400"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414822.1"; locus_tag "ECDH10B_RS01400"; product "YkgJ family cysteine cluster protein"; protein_id "WP_001303809.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 278627 278629 . - 0 gene_id "ECDH10B_RS01400"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414822.1"; locus_tag "ECDH10B_RS01400"; product "YkgJ family cysteine cluster protein"; protein_id "WP_001303809.1"; transl_table "11"; -NC_010473.1 RefSeq gene 279269 279979 . - . gene_id "ECDH10B_RS01405"; transcript_id ""; gbkey "Gene"; gene "ecpE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS01405"; old_locus_tag "ECDH10B_0277"; -NC_010473.1 Protein Homology CDS 279272 279979 . - 0 gene_id "ECDH10B_RS01405"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ecpE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414823.2"; locus_tag "ECDH10B_RS01405"; product "fimbrial chaperone EcpE"; protein_id "WP_001350485.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 279977 279979 . - 0 gene_id "ECDH10B_RS01405"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ecpE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414823.2"; locus_tag "ECDH10B_RS01405"; product "fimbrial chaperone EcpE"; protein_id "WP_001350485.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 279269 279271 . - 0 gene_id "ECDH10B_RS01405"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ecpE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414823.2"; locus_tag "ECDH10B_RS01405"; product "fimbrial chaperone EcpE"; protein_id "WP_001350485.1"; transl_table "11"; -NC_010473.1 RefSeq gene 279948 281591 . - . gene_id "ECDH10B_RS01410"; transcript_id ""; gbkey "Gene"; gene "ecpD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS01410"; old_locus_tag "ECDH10B_0278"; -NC_010473.1 Protein Homology CDS 279951 281591 . - 0 gene_id "ECDH10B_RS01410"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ecpD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414824.1"; locus_tag "ECDH10B_RS01410"; product "fimbrial adhesin EcpD"; protein_id "WP_001310578.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 281589 281591 . - 0 gene_id "ECDH10B_RS01410"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ecpD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414824.1"; locus_tag "ECDH10B_RS01410"; product "fimbrial adhesin EcpD"; protein_id "WP_001310578.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 279948 279950 . - 0 gene_id "ECDH10B_RS01410"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ecpD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414824.1"; locus_tag "ECDH10B_RS01410"; product "fimbrial adhesin EcpD"; protein_id "WP_001310578.1"; transl_table "11"; -NC_010473.1 RefSeq gene 281581 284106 . - . gene_id "ECDH10B_RS01415"; transcript_id ""; gbkey "Gene"; gene "ecpC"; gene_biotype "protein_coding"; gene_synonym "yagX"; locus_tag "ECDH10B_RS01415"; old_locus_tag "ECDH10B_0279"; -NC_010473.1 Protein Homology CDS 281584 284106 . - 0 gene_id "ECDH10B_RS01415"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ecpC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414825.1"; locus_tag "ECDH10B_RS01415"; product "fimbrial usher EcpC"; protein_id "WP_001131096.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 284104 284106 . - 0 gene_id "ECDH10B_RS01415"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ecpC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414825.1"; locus_tag "ECDH10B_RS01415"; product "fimbrial usher EcpC"; protein_id "WP_001131096.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 281581 281583 . - 0 gene_id "ECDH10B_RS01415"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ecpC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414825.1"; locus_tag "ECDH10B_RS01415"; product "fimbrial usher EcpC"; protein_id "WP_001131096.1"; transl_table "11"; -NC_010473.1 RefSeq gene 284132 284800 . - . gene_id "ECDH10B_RS01420"; transcript_id ""; gbkey "Gene"; gene "ecpB"; gene_biotype "protein_coding"; gene_synonym "yagY"; locus_tag "ECDH10B_RS01420"; old_locus_tag "ECDH10B_0280"; -NC_010473.1 Protein Homology CDS 284135 284800 . - 0 gene_id "ECDH10B_RS01420"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ecpB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414826.1"; locus_tag "ECDH10B_RS01420"; product "fimbrial chaperone EcpB"; protein_id "WP_000716398.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 284798 284800 . - 0 gene_id "ECDH10B_RS01420"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ecpB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414826.1"; locus_tag "ECDH10B_RS01420"; product "fimbrial chaperone EcpB"; protein_id "WP_000716398.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 284132 284134 . - 0 gene_id "ECDH10B_RS01420"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ecpB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414826.1"; locus_tag "ECDH10B_RS01420"; product "fimbrial chaperone EcpB"; protein_id "WP_000716398.1"; transl_table "11"; -NC_010473.1 RefSeq gene 284858 285445 . - . gene_id "ECDH10B_RS01425"; transcript_id ""; gbkey "Gene"; gene "ecpA"; gene_biotype "protein_coding"; gene_synonym "matB"; locus_tag "ECDH10B_RS01425"; old_locus_tag "ECDH10B_0281"; -NC_010473.1 Protein Homology CDS 284861 285445 . - 0 gene_id "ECDH10B_RS01425"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ecpA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308350.1"; locus_tag "ECDH10B_RS01425"; product "common pilus major fimbrillin subunit EcpA"; protein_id "WP_000730972.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 285443 285445 . - 0 gene_id "ECDH10B_RS01425"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ecpA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308350.1"; locus_tag "ECDH10B_RS01425"; product "common pilus major fimbrillin subunit EcpA"; protein_id "WP_000730972.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 284858 284860 . - 0 gene_id "ECDH10B_RS01425"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ecpA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308350.1"; locus_tag "ECDH10B_RS01425"; product "common pilus major fimbrillin subunit EcpA"; protein_id "WP_000730972.1"; transl_table "11"; -NC_010473.1 RefSeq gene 285520 286062 . - . gene_id "ECDH10B_RS01430"; transcript_id ""; gbkey "Gene"; gene "ecpR"; gene_biotype "protein_coding"; gene_synonym "matA"; locus_tag "ECDH10B_RS01430"; old_locus_tag "ECDH10B_0282"; -NC_010473.1 Protein Homology CDS 285523 286062 . - 0 gene_id "ECDH10B_RS01430"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ecpR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308351.2"; locus_tag "ECDH10B_RS01430"; product "ECP biosynthesis operon DNA-binding transcriptional regulator EcpR"; protein_id "WP_001301257.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 286060 286062 . - 0 gene_id "ECDH10B_RS01430"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ecpR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308351.2"; locus_tag "ECDH10B_RS01430"; product "ECP biosynthesis operon DNA-binding transcriptional regulator EcpR"; protein_id "WP_001301257.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 285520 285522 . - 0 gene_id "ECDH10B_RS01430"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ecpR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308351.2"; locus_tag "ECDH10B_RS01430"; product "ECP biosynthesis operon DNA-binding transcriptional regulator EcpR"; protein_id "WP_001301257.1"; transl_table "11"; -NC_010473.1 RefSeq gene 286886 287113 . + . gene_id "ECDH10B_RS01435"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS01435"; old_locus_tag "ECDH10B_0283"; -NC_010473.1 Protein Homology CDS 286886 287110 . + 0 gene_id "ECDH10B_RS01435"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414829.1"; locus_tag "ECDH10B_RS01435"; product "hypothetical protein"; protein_id "WP_001147279.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 286886 286888 . + 0 gene_id "ECDH10B_RS01435"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414829.1"; locus_tag "ECDH10B_RS01435"; product "hypothetical protein"; protein_id "WP_001147279.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 287111 287113 . + 0 gene_id "ECDH10B_RS01435"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414829.1"; locus_tag "ECDH10B_RS01435"; product "hypothetical protein"; protein_id "WP_001147279.1"; transl_table "11"; -NC_010473.1 RefSeq gene 287148 287288 . - . gene_id "ECDH10B_RS01440"; transcript_id ""; gbkey "Gene"; gene "rpmJ"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS01440"; old_locus_tag "ECDH10B_0284"; -NC_010473.1 Protein Homology CDS 287151 287288 . - 0 gene_id "ECDH10B_RS01440"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rpmJ"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_588437.1"; locus_tag "ECDH10B_RS01440"; product "50S ribosomal protein L36"; protein_id "WP_000866436.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 287286 287288 . - 0 gene_id "ECDH10B_RS01440"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rpmJ"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_588437.1"; locus_tag "ECDH10B_RS01440"; product "50S ribosomal protein L36"; protein_id "WP_000866436.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 287148 287150 . - 0 gene_id "ECDH10B_RS01440"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rpmJ"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_588437.1"; locus_tag "ECDH10B_RS01440"; product "50S ribosomal protein L36"; protein_id "WP_000866436.1"; transl_table "11"; -NC_010473.1 RefSeq gene 287288 287551 . - . gene_id "ECDH10B_RS01445"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS01445"; old_locus_tag "ECDH10B_0285"; -NC_010473.1 Protein Homology CDS 287291 287551 . - 0 gene_id "ECDH10B_RS01445"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414830.1"; locus_tag "ECDH10B_RS01445"; product "type B 50S ribosomal protein L31"; protein_id "WP_000803998.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 287549 287551 . - 0 gene_id "ECDH10B_RS01445"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414830.1"; locus_tag "ECDH10B_RS01445"; product "type B 50S ribosomal protein L31"; protein_id "WP_000803998.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 287288 287290 . - 0 gene_id "ECDH10B_RS01445"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414830.1"; locus_tag "ECDH10B_RS01445"; product "type B 50S ribosomal protein L31"; protein_id "WP_000803998.1"; transl_table "11"; -NC_010473.1 RefSeq gene 287915 288016 . - . gene_id "ECDH10B_RS01450"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS01450"; -NC_010473.1 Protein Homology CDS 287918 288016 . - 0 gene_id "ECDH10B_RS01450"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_002791238.1"; locus_tag "ECDH10B_RS01450"; product "hypothetical protein"; protein_id "WP_000662258.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 288014 288016 . - 0 gene_id "ECDH10B_RS01450"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_002791238.1"; locus_tag "ECDH10B_RS01450"; product "hypothetical protein"; protein_id "WP_000662258.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 287915 287917 . - 0 gene_id "ECDH10B_RS01450"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_002791238.1"; locus_tag "ECDH10B_RS01450"; product "hypothetical protein"; protein_id "WP_000662258.1"; transl_table "11"; -NC_010473.1 RefSeq gene 289131 290006 . + . gene_id "ECDH10B_RS01455"; transcript_id ""; gbkey "Gene"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS01455"; old_locus_tag "ECDH10B_0286"; partial "true"; pseudo "true"; -NC_010473.1 Protein Homology CDS 289131 290003 . + 0 gene_id "ECDH10B_RS01455"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308363.1"; locus_tag "ECDH10B_RS01455"; note "incomplete; partial in the middle of a contig; missing C-terminus"; partial "true"; product "inverse autotransporter beta domain-containing protein"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 289131 289133 . + 0 gene_id "ECDH10B_RS01455"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308363.1"; locus_tag "ECDH10B_RS01455"; note "incomplete; partial in the middle of a contig; missing C-terminus"; partial "true"; product "inverse autotransporter beta domain-containing protein"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 290004 290006 . + 0 gene_id "ECDH10B_RS01455"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308363.1"; locus_tag "ECDH10B_RS01455"; note "incomplete; partial in the middle of a contig; missing C-terminus"; partial "true"; product "inverse autotransporter beta domain-containing protein"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 290065 291227 . + . gene_id "ECDH10B_RS01465"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS01465"; old_locus_tag "ECDH10B_0288"; -NC_010473.1 Protein Homology CDS 290065 290326 . + 0 gene_id "ECDH10B_RS01465"; transcript_id "unknown_transcript_1"; exception "ribosomal slippage"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_012477168.1"; locus_tag "ECDH10B_RS01465"; note "programmed frameshift"; product "IS3-like element IS3 family transposase"; protein_id "WP_085947771.1"; transl_table "11"; -NC_010473.1 Protein Homology CDS 290326 291224 . + 0 gene_id "ECDH10B_RS01465"; transcript_id "unknown_transcript_1"; exception "ribosomal slippage"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_012477168.1"; locus_tag "ECDH10B_RS01465"; note "programmed frameshift"; product "IS3-like element IS3 family transposase"; protein_id "WP_085947771.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 290065 290067 . + 0 gene_id "ECDH10B_RS01465"; transcript_id "unknown_transcript_1"; exception "ribosomal slippage"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_012477168.1"; locus_tag "ECDH10B_RS01465"; note "programmed frameshift"; product "IS3-like element IS3 family transposase"; protein_id "WP_085947771.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 291225 291227 . + 0 gene_id "ECDH10B_RS01465"; transcript_id "unknown_transcript_1"; exception "ribosomal slippage"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_012477168.1"; locus_tag "ECDH10B_RS01465"; note "programmed frameshift"; product "IS3-like element IS3 family transposase"; protein_id "WP_085947771.1"; transl_table "11"; -NC_010473.1 RefSeq gene 291257 291910 . - . gene_id "ECDH10B_RS01470"; transcript_id ""; gbkey "Gene"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS01470"; old_locus_tag "ECDH10B_0289"; partial "true"; pseudo "true"; -NC_010473.1 Protein Homology CDS 291260 291910 . - 0 gene_id "ECDH10B_RS01470"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308364.2"; locus_tag "ECDH10B_RS01470"; note "incomplete; partial in the middle of a contig; missing C-terminus"; partial "true"; product "helix-turn-helix domain-containing protein"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 291908 291910 . - 0 gene_id "ECDH10B_RS01470"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308364.2"; locus_tag "ECDH10B_RS01470"; note "incomplete; partial in the middle of a contig; missing C-terminus"; partial "true"; product "helix-turn-helix domain-containing protein"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 291257 291259 . - 0 gene_id "ECDH10B_RS01470"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308364.2"; locus_tag "ECDH10B_RS01470"; note "incomplete; partial in the middle of a contig; missing C-terminus"; partial "true"; product "helix-turn-helix domain-containing protein"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 292213 292341 . + . gene_id "ECDH10B_RS25860"; transcript_id ""; gbkey "Gene"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS25860"; partial "true"; pseudo "true"; -NC_010473.1 Protein Homology CDS 292213 292338 . + 0 gene_id "ECDH10B_RS25860"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308365.3"; locus_tag "ECDH10B_RS25860"; note "incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "aldo/keto reductase"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 292213 292215 . + 0 gene_id "ECDH10B_RS25860"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308365.3"; locus_tag "ECDH10B_RS25860"; note "incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "aldo/keto reductase"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 292339 292341 . + 0 gene_id "ECDH10B_RS25860"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308365.3"; locus_tag "ECDH10B_RS25860"; note "incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "aldo/keto reductase"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 292500 293093 . - . gene_id "ECDH10B_RS01475"; transcript_id ""; gbkey "Gene"; gene "rclC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS01475"; old_locus_tag "ECDH10B_0290"; -NC_010473.1 Protein Homology CDS 292503 293093 . - 0 gene_id "ECDH10B_RS01475"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rclC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414835.2"; locus_tag "ECDH10B_RS01475"; product "reactive chlorine species resistance protein RclC"; protein_id "WP_001299021.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 293091 293093 . - 0 gene_id "ECDH10B_RS01475"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rclC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414835.2"; locus_tag "ECDH10B_RS01475"; product "reactive chlorine species resistance protein RclC"; protein_id "WP_001299021.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 292500 292502 . - 0 gene_id "ECDH10B_RS01475"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rclC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414835.2"; locus_tag "ECDH10B_RS01475"; product "reactive chlorine species resistance protein RclC"; protein_id "WP_001299021.1"; transl_table "11"; -NC_010473.1 RefSeq gene 293105 293341 . - . gene_id "ECDH10B_RS01480"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS01480"; old_locus_tag "ECDH10B_0291"; -NC_010473.1 Protein Homology CDS 293108 293341 . - 0 gene_id "ECDH10B_RS01480"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414837.2"; locus_tag "ECDH10B_RS01480"; product "DUF1471 domain-containing protein"; protein_id "WP_000474084.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 293339 293341 . - 0 gene_id "ECDH10B_RS01480"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414837.2"; locus_tag "ECDH10B_RS01480"; product "DUF1471 domain-containing protein"; protein_id "WP_000474084.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 293105 293107 . - 0 gene_id "ECDH10B_RS01480"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414837.2"; locus_tag "ECDH10B_RS01480"; product "DUF1471 domain-containing protein"; protein_id "WP_000474084.1"; transl_table "11"; -NC_010473.1 RefSeq gene 293450 294775 . - . gene_id "ECDH10B_RS01485"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS01485"; old_locus_tag "ECDH10B_0292"; -NC_010473.1 Protein Homology CDS 293453 294775 . - 0 gene_id "ECDH10B_RS01485"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414838.2"; locus_tag "ECDH10B_RS01485"; product "pyridine nucleotide-disulfide oxidoreductase"; protein_id "WP_001046307.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 294773 294775 . - 0 gene_id "ECDH10B_RS01485"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414838.2"; locus_tag "ECDH10B_RS01485"; product "pyridine nucleotide-disulfide oxidoreductase"; protein_id "WP_001046307.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 293450 293452 . - 0 gene_id "ECDH10B_RS01485"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414838.2"; locus_tag "ECDH10B_RS01485"; product "pyridine nucleotide-disulfide oxidoreductase"; protein_id "WP_001046307.1"; transl_table "11"; -NC_010473.1 RefSeq gene 295001 295855 . + . gene_id "ECDH10B_RS01490"; transcript_id ""; gbkey "Gene"; gene "rclR"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS01490"; old_locus_tag "ECDH10B_0293"; -NC_010473.1 Protein Homology CDS 295001 295852 . + 0 gene_id "ECDH10B_RS01490"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rclR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414839.1"; locus_tag "ECDH10B_RS01490"; product "DNA-binding transcriptional regulator RclR"; protein_id "WP_000339594.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 295001 295003 . + 0 gene_id "ECDH10B_RS01490"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rclR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414839.1"; locus_tag "ECDH10B_RS01490"; product "DNA-binding transcriptional regulator RclR"; protein_id "WP_000339594.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 295853 295855 . + 0 gene_id "ECDH10B_RS01490"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rclR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414839.1"; locus_tag "ECDH10B_RS01490"; product "DNA-binding transcriptional regulator RclR"; protein_id "WP_000339594.1"; transl_table "11"; -NC_010473.1 RefSeq gene 296382 297101 . + . gene_id "ECDH10B_RS01495"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS01495"; old_locus_tag "ECDH10B_0294"; -NC_010473.1 Protein Homology CDS 296382 297098 . + 0 gene_id "ECDH10B_RS01495"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414840.1"; locus_tag "ECDH10B_RS01495"; product "(Fe-S)-binding protein"; protein_id "WP_001102108.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 296382 296384 . + 0 gene_id "ECDH10B_RS01495"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414840.1"; locus_tag "ECDH10B_RS01495"; product "(Fe-S)-binding protein"; protein_id "WP_001102108.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 297099 297101 . + 0 gene_id "ECDH10B_RS01495"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414840.1"; locus_tag "ECDH10B_RS01495"; product "(Fe-S)-binding protein"; protein_id "WP_001102108.1"; transl_table "11"; -NC_010473.1 RefSeq gene 297112 298539 . + . gene_id "ECDH10B_RS01500"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS01500"; old_locus_tag "ECDH10B_0295"; -NC_010473.1 Protein Homology CDS 297112 298536 . + 0 gene_id "ECDH10B_RS01500"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414841.1"; locus_tag "ECDH10B_RS01500"; product "iron-sulfur cluster-binding protein"; protein_id "WP_000023927.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 297112 297114 . + 0 gene_id "ECDH10B_RS01500"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414841.1"; locus_tag "ECDH10B_RS01500"; product "iron-sulfur cluster-binding protein"; protein_id "WP_000023927.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 298537 298539 . + 0 gene_id "ECDH10B_RS01500"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414841.1"; locus_tag "ECDH10B_RS01500"; product "iron-sulfur cluster-binding protein"; protein_id "WP_000023927.1"; transl_table "11"; -NC_010473.1 RefSeq gene 298532 299227 . + . gene_id "ECDH10B_RS01505"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS01505"; old_locus_tag "ECDH10B_0296"; -NC_010473.1 Protein Homology CDS 298532 299224 . + 0 gene_id "ECDH10B_RS01505"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414842.4"; locus_tag "ECDH10B_RS01505"; product "lactate utilization protein C"; protein_id "WP_000370307.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 298532 298534 . + 0 gene_id "ECDH10B_RS01505"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414842.4"; locus_tag "ECDH10B_RS01505"; product "lactate utilization protein C"; protein_id "WP_000370307.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 299225 299227 . + 0 gene_id "ECDH10B_RS01505"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414842.4"; locus_tag "ECDH10B_RS01505"; product "lactate utilization protein C"; protein_id "WP_000370307.1"; transl_table "11"; -NC_010473.1 RefSeq gene 299470 300138 . - . gene_id "ECDH10B_RS01515"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS01515"; old_locus_tag "ECDH10B_0297"; -NC_010473.1 Protein Homology CDS 299473 300138 . - 0 gene_id "ECDH10B_RS01515"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414844.1"; locus_tag "ECDH10B_RS01515"; product "hypothetical protein"; protein_id "WP_001209100.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 300136 300138 . - 0 gene_id "ECDH10B_RS01515"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414844.1"; locus_tag "ECDH10B_RS01515"; product "hypothetical protein"; protein_id "WP_001209100.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 299470 299472 . - 0 gene_id "ECDH10B_RS01515"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414844.1"; locus_tag "ECDH10B_RS01515"; product "hypothetical protein"; protein_id "WP_001209100.1"; transl_table "11"; -NC_010473.1 RefSeq gene 300351 302021 . - . gene_id "ECDH10B_RS01520"; transcript_id ""; gbkey "Gene"; gene "betA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS01520"; old_locus_tag "ECDH10B_0298"; -NC_010473.1 Protein Homology CDS 300354 302021 . - 0 gene_id "ECDH10B_RS01520"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "betA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414845.1"; locus_tag "ECDH10B_RS01520"; product "choline dehydrogenase"; protein_id "WP_001159094.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 302019 302021 . - 0 gene_id "ECDH10B_RS01520"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "betA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414845.1"; locus_tag "ECDH10B_RS01520"; product "choline dehydrogenase"; protein_id "WP_001159094.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 300351 300353 . - 0 gene_id "ECDH10B_RS01520"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "betA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414845.1"; locus_tag "ECDH10B_RS01520"; product "choline dehydrogenase"; protein_id "WP_001159094.1"; transl_table "11"; -NC_010473.1 RefSeq gene 302035 303507 . - . gene_id "ECDH10B_RS01525"; transcript_id ""; gbkey "Gene"; gene "betB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS01525"; old_locus_tag "ECDH10B_0299"; -NC_010473.1 Protein Homology CDS 302038 303507 . - 0 gene_id "ECDH10B_RS01525"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "betB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414846.1"; locus_tag "ECDH10B_RS01525"; product "betaine-aldehyde dehydrogenase"; protein_id "WP_000089110.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 303505 303507 . - 0 gene_id "ECDH10B_RS01525"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "betB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414846.1"; locus_tag "ECDH10B_RS01525"; product "betaine-aldehyde dehydrogenase"; protein_id "WP_000089110.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 302035 302037 . - 0 gene_id "ECDH10B_RS01525"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "betB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414846.1"; locus_tag "ECDH10B_RS01525"; product "betaine-aldehyde dehydrogenase"; protein_id "WP_000089110.1"; transl_table "11"; -NC_010473.1 RefSeq gene 303521 304108 . - . gene_id "ECDH10B_RS01530"; transcript_id ""; gbkey "Gene"; gene "betI"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS01530"; old_locus_tag "ECDH10B_0300"; -NC_010473.1 Protein Homology CDS 303524 304108 . - 0 gene_id "ECDH10B_RS01530"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "betI"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414847.3"; locus_tag "ECDH10B_RS01530"; product "transcriptional regulator BetI"; protein_id "WP_001335745.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 304106 304108 . - 0 gene_id "ECDH10B_RS01530"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "betI"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414847.3"; locus_tag "ECDH10B_RS01530"; product "transcriptional regulator BetI"; protein_id "WP_001335745.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 303521 303523 . - 0 gene_id "ECDH10B_RS01530"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "betI"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414847.3"; locus_tag "ECDH10B_RS01530"; product "transcriptional regulator BetI"; protein_id "WP_001335745.1"; transl_table "11"; -NC_010473.1 RefSeq gene 304237 306270 . + . gene_id "ECDH10B_RS01535"; transcript_id ""; gbkey "Gene"; gene "betT"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS01535"; old_locus_tag "ECDH10B_0301"; -NC_010473.1 Protein Homology CDS 304237 306267 . + 0 gene_id "ECDH10B_RS01535"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "betT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308387.1"; locus_tag "ECDH10B_RS01535"; product "choline BCCT transporter BetT"; protein_id "WP_000131044.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 304237 304239 . + 0 gene_id "ECDH10B_RS01535"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "betT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308387.1"; locus_tag "ECDH10B_RS01535"; product "choline BCCT transporter BetT"; protein_id "WP_000131044.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 306268 306270 . + 0 gene_id "ECDH10B_RS01535"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "betT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308387.1"; locus_tag "ECDH10B_RS01535"; product "choline BCCT transporter BetT"; protein_id "WP_000131044.1"; transl_table "11"; -NC_010473.1 RefSeq gene 306576 306650 . + . gene_id "ECDH10B_RS25865"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS25865"; -NC_010473.1 Protein Homology CDS 306576 306647 . + 0 gene_id "ECDH10B_RS25865"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_009518747.1"; locus_tag "ECDH10B_RS25865"; product "protein YahV"; protein_id "WP_120795374.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 306576 306578 . + 0 gene_id "ECDH10B_RS25865"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_009518747.1"; locus_tag "ECDH10B_RS25865"; product "protein YahV"; protein_id "WP_120795374.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 306648 306650 . + 0 gene_id "ECDH10B_RS25865"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_009518747.1"; locus_tag "ECDH10B_RS25865"; product "protein YahV"; protein_id "WP_120795374.1"; transl_table "11"; -NC_010473.1 RefSeq gene 307145 308233 . + . gene_id "ECDH10B_RS01545"; transcript_id ""; gbkey "Gene"; gene "pdeL"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS01545"; old_locus_tag "ECDH10B_0302"; -NC_010473.1 Protein Homology CDS 307145 308230 . + 0 gene_id "ECDH10B_RS01545"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pdeL"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414849.1"; locus_tag "ECDH10B_RS01545"; product "DNA-binding transcriptional activator/c-di-GMP phosphodiesterase PdeL"; protein_id "WP_001301264.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 307145 307147 . + 0 gene_id "ECDH10B_RS01545"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pdeL"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414849.1"; locus_tag "ECDH10B_RS01545"; product "DNA-binding transcriptional activator/c-di-GMP phosphodiesterase PdeL"; protein_id "WP_001301264.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 308231 308233 . + 0 gene_id "ECDH10B_RS01545"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pdeL"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414849.1"; locus_tag "ECDH10B_RS01545"; product "DNA-binding transcriptional activator/c-di-GMP phosphodiesterase PdeL"; protein_id "WP_001301264.1"; transl_table "11"; -NC_010473.1 RefSeq gene 308275 309207 . - . gene_id "ECDH10B_RS01550"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS01550"; old_locus_tag "ECDH10B_0303"; -NC_010473.1 Protein Homology CDS 308278 309207 . - 0 gene_id "ECDH10B_RS01550"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414850.1"; locus_tag "ECDH10B_RS01550"; product "LysR family transcriptional regulator"; protein_id "WP_001084394.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 309205 309207 . - 0 gene_id "ECDH10B_RS01550"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414850.1"; locus_tag "ECDH10B_RS01550"; product "LysR family transcriptional regulator"; protein_id "WP_001084394.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 308275 308277 . - 0 gene_id "ECDH10B_RS01550"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414850.1"; locus_tag "ECDH10B_RS01550"; product "LysR family transcriptional regulator"; protein_id "WP_001084394.1"; transl_table "11"; -NC_010473.1 RefSeq gene 309299 309796 . - . gene_id "ECDH10B_RS01555"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS01555"; old_locus_tag "ECDH10B_0304"; -NC_010473.1 Protein Homology CDS 309302 309796 . - 0 gene_id "ECDH10B_RS01555"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414851.1"; locus_tag "ECDH10B_RS01555"; product "DUF1097 domain-containing protein"; protein_id "WP_001013892.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 309794 309796 . - 0 gene_id "ECDH10B_RS01555"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414851.1"; locus_tag "ECDH10B_RS01555"; product "DUF1097 domain-containing protein"; protein_id "WP_001013892.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 309299 309301 . - 0 gene_id "ECDH10B_RS01555"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414851.1"; locus_tag "ECDH10B_RS01555"; product "DUF1097 domain-containing protein"; protein_id "WP_001013892.1"; transl_table "11"; -NC_010473.1 RefSeq gene 310054 310659 . + . gene_id "ECDH10B_RS01560"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS01560"; old_locus_tag "ECDH10B_0305"; -NC_010473.1 Protein Homology CDS 310054 310656 . + 0 gene_id "ECDH10B_RS01560"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414852.1"; locus_tag "ECDH10B_RS01560"; product "ankyrin repeat domain-containing protein"; protein_id "WP_000023635.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 310054 310056 . + 0 gene_id "ECDH10B_RS01560"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414852.1"; locus_tag "ECDH10B_RS01560"; product "ankyrin repeat domain-containing protein"; protein_id "WP_000023635.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 310657 310659 . + 0 gene_id "ECDH10B_RS01560"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414852.1"; locus_tag "ECDH10B_RS01560"; product "ankyrin repeat domain-containing protein"; protein_id "WP_000023635.1"; transl_table "11"; -NC_010473.1 RefSeq gene 310699 311562 . + . gene_id "ECDH10B_RS01565"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS01565"; old_locus_tag "ECDH10B_0306"; -NC_010473.1 Protein Homology CDS 310699 311559 . + 0 gene_id "ECDH10B_RS01565"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414853.1"; locus_tag "ECDH10B_RS01565"; product "DUF2877 domain-containing protein"; protein_id "WP_001310582.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 310699 310701 . + 0 gene_id "ECDH10B_RS01565"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414853.1"; locus_tag "ECDH10B_RS01565"; product "DUF2877 domain-containing protein"; protein_id "WP_001310582.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 311560 311562 . + 0 gene_id "ECDH10B_RS01565"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414853.1"; locus_tag "ECDH10B_RS01565"; product "DUF2877 domain-containing protein"; protein_id "WP_001310582.1"; transl_table "11"; -NC_010473.1 RefSeq gene 311552 313099 . + . gene_id "ECDH10B_RS01570"; transcript_id ""; gbkey "Gene"; gene "fdrA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS01570"; old_locus_tag "ECDH10B_0307"; -NC_010473.1 Protein Homology CDS 311552 313096 . + 0 gene_id "ECDH10B_RS01570"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fdrA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414854.1"; locus_tag "ECDH10B_RS01570"; product "acyl-CoA synthetase FdrA"; protein_id "WP_000111836.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 311552 311554 . + 0 gene_id "ECDH10B_RS01570"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fdrA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414854.1"; locus_tag "ECDH10B_RS01570"; product "acyl-CoA synthetase FdrA"; protein_id "WP_000111836.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 313097 313099 . + 0 gene_id "ECDH10B_RS01570"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fdrA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414854.1"; locus_tag "ECDH10B_RS01570"; product "acyl-CoA synthetase FdrA"; protein_id "WP_000111836.1"; transl_table "11"; -NC_010473.1 RefSeq gene 313099 313980 . + . gene_id "ECDH10B_RS26250"; transcript_id ""; gbkey "Gene"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS26250"; partial "true"; pseudo "true"; -NC_010473.1 Protein Homology CDS 313099 313977 . + 0 gene_id "ECDH10B_RS26250"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414855.1"; locus_tag "ECDH10B_RS26250"; note "incomplete; partial in the middle of a contig; missing C-terminus"; partial "true"; product "DUF1116 domain-containing protein"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 313099 313101 . + 0 gene_id "ECDH10B_RS26250"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414855.1"; locus_tag "ECDH10B_RS26250"; note "incomplete; partial in the middle of a contig; missing C-terminus"; partial "true"; product "DUF1116 domain-containing protein"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 313978 313980 . + 0 gene_id "ECDH10B_RS26250"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414855.1"; locus_tag "ECDH10B_RS26250"; note "incomplete; partial in the middle of a contig; missing C-terminus"; partial "true"; product "DUF1116 domain-containing protein"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 314014 315225 . + . gene_id "ECDH10B_RS26255"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS26255"; old_locus_tag "ECDH10B_0308"; -NC_010473.1 Protein Homology CDS 314014 315222 . + 0 gene_id "ECDH10B_RS26255"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414887.2"; locus_tag "ECDH10B_RS26255"; product "3-(3-hydroxy-phenyl)propionate transporter"; protein_id "WP_000107627.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 314014 314016 . + 0 gene_id "ECDH10B_RS26255"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414887.2"; locus_tag "ECDH10B_RS26255"; product "3-(3-hydroxy-phenyl)propionate transporter"; protein_id "WP_000107627.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 315223 315225 . + 0 gene_id "ECDH10B_RS26255"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414887.2"; locus_tag "ECDH10B_RS26255"; product "3-(3-hydroxy-phenyl)propionate transporter"; protein_id "WP_000107627.1"; transl_table "11"; -NC_010473.1 RefSeq gene 315327 315866 . + . gene_id "ECDH10B_RS01585"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS01585"; old_locus_tag "ECDH10B_0309"; -NC_010473.1 Protein Homology CDS 315327 315863 . + 0 gene_id "ECDH10B_RS01585"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414888.4"; locus_tag "ECDH10B_RS01585"; product "DUF2058 domain-containing protein"; protein_id "WP_001096705.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 315327 315329 . + 0 gene_id "ECDH10B_RS01585"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414888.4"; locus_tag "ECDH10B_RS01585"; product "DUF2058 domain-containing protein"; protein_id "WP_001096705.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 315864 315866 . + 0 gene_id "ECDH10B_RS01585"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414888.4"; locus_tag "ECDH10B_RS01585"; product "DUF2058 domain-containing protein"; protein_id "WP_001096705.1"; transl_table "11"; -NC_010473.1 RefSeq gene 316090 316923 . - . gene_id "ECDH10B_RS01590"; transcript_id ""; gbkey "Gene"; gene "fghA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS01590"; old_locus_tag "ECDH10B_0310"; -NC_010473.1 Protein Homology CDS 316093 316923 . - 0 gene_id "ECDH10B_RS01590"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fghA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414889.1"; locus_tag "ECDH10B_RS01590"; product "S-formylglutathione hydrolase"; protein_id "WP_000419081.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 316921 316923 . - 0 gene_id "ECDH10B_RS01590"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fghA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414889.1"; locus_tag "ECDH10B_RS01590"; product "S-formylglutathione hydrolase"; protein_id "WP_000419081.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 316090 316092 . - 0 gene_id "ECDH10B_RS01590"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fghA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414889.1"; locus_tag "ECDH10B_RS01590"; product "S-formylglutathione hydrolase"; protein_id "WP_000419081.1"; transl_table "11"; -NC_010473.1 RefSeq gene 317017 318126 . - . gene_id "ECDH10B_RS01595"; transcript_id ""; gbkey "Gene"; gene "frmA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS01595"; old_locus_tag "ECDH10B_0311"; -NC_010473.1 Protein Homology CDS 317020 318126 . - 0 gene_id "ECDH10B_RS01595"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "frmA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414890.1"; locus_tag "ECDH10B_RS01595"; product "S-(hydroxymethyl)glutathione dehydrogenase"; protein_id "WP_000842106.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 318124 318126 . - 0 gene_id "ECDH10B_RS01595"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "frmA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414890.1"; locus_tag "ECDH10B_RS01595"; product "S-(hydroxymethyl)glutathione dehydrogenase"; protein_id "WP_000842106.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 317017 317019 . - 0 gene_id "ECDH10B_RS01595"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "frmA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414890.1"; locus_tag "ECDH10B_RS01595"; product "S-(hydroxymethyl)glutathione dehydrogenase"; protein_id "WP_000842106.1"; transl_table "11"; -NC_010473.1 RefSeq gene 318161 318436 . - . gene_id "ECDH10B_RS01600"; transcript_id ""; gbkey "Gene"; gene "frmR"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS01600"; old_locus_tag "ECDH10B_0312"; -NC_010473.1 Protein Homology CDS 318164 318436 . - 0 gene_id "ECDH10B_RS01600"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "frmR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414891.4"; locus_tag "ECDH10B_RS01600"; product "formaldehyde-responsive transcriptional repressor FrmR"; protein_id "WP_001141271.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 318434 318436 . - 0 gene_id "ECDH10B_RS01600"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "frmR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414891.4"; locus_tag "ECDH10B_RS01600"; product "formaldehyde-responsive transcriptional repressor FrmR"; protein_id "WP_001141271.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 318161 318163 . - 0 gene_id "ECDH10B_RS01600"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "frmR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414891.4"; locus_tag "ECDH10B_RS01600"; product "formaldehyde-responsive transcriptional repressor FrmR"; protein_id "WP_001141271.1"; transl_table "11"; -NC_010473.1 RefSeq gene 318624 319397 . - . gene_id "ECDH10B_RS01605"; transcript_id ""; gbkey "Gene"; gene "yaiO"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS01605"; old_locus_tag "ECDH10B_0313"; -NC_010473.1 Protein Homology CDS 318627 319397 . - 0 gene_id "ECDH10B_RS01605"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yaiO"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414892.1"; locus_tag "ECDH10B_RS01605"; product "YaiO family outer membrane beta-barrel protein"; protein_id "WP_000596084.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 319395 319397 . - 0 gene_id "ECDH10B_RS01605"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yaiO"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414892.1"; locus_tag "ECDH10B_RS01605"; product "YaiO family outer membrane beta-barrel protein"; protein_id "WP_000596084.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 318624 318626 . - 0 gene_id "ECDH10B_RS01605"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yaiO"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414892.1"; locus_tag "ECDH10B_RS01605"; product "YaiO family outer membrane beta-barrel protein"; protein_id "WP_000596084.1"; transl_table "11"; -NC_010473.1 RefSeq gene 319399 319842 . - . gene_id "ECDH10B_RS01610"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS01610"; -NC_010473.1 Protein Homology CDS 319402 319842 . - 0 gene_id "ECDH10B_RS01610"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005140989.1"; locus_tag "ECDH10B_RS01610"; product "transferase"; protein_id "WP_000012218.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 319840 319842 . - 0 gene_id "ECDH10B_RS01610"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005140989.1"; locus_tag "ECDH10B_RS01610"; product "transferase"; protein_id "WP_000012218.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 319399 319401 . - 0 gene_id "ECDH10B_RS01610"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005140989.1"; locus_tag "ECDH10B_RS01610"; product "transferase"; protein_id "WP_000012218.1"; transl_table "11"; -NC_010473.1 RefSeq gene 319906 321134 . + . gene_id "ECDH10B_RS01625"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS01625"; old_locus_tag "ECDH10B_0317"; -NC_010473.1 Protein Homology CDS 319906 320221 . + 0 gene_id "ECDH10B_RS01625"; transcript_id "unknown_transcript_1"; exception "ribosomal slippage"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_086558215.1"; locus_tag "ECDH10B_RS01625"; note "programmed frameshift"; product "IS3-like element IS2 family transposase"; protein_id "WP_088895425.1"; transl_table "11"; -NC_010473.1 Protein Homology CDS 320221 321131 . + 0 gene_id "ECDH10B_RS01625"; transcript_id "unknown_transcript_1"; exception "ribosomal slippage"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_086558215.1"; locus_tag "ECDH10B_RS01625"; note "programmed frameshift"; product "IS3-like element IS2 family transposase"; protein_id "WP_088895425.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 319906 319908 . + 0 gene_id "ECDH10B_RS01625"; transcript_id "unknown_transcript_1"; exception "ribosomal slippage"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_086558215.1"; locus_tag "ECDH10B_RS01625"; note "programmed frameshift"; product "IS3-like element IS2 family transposase"; protein_id "WP_088895425.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 321132 321134 . + 0 gene_id "ECDH10B_RS01625"; transcript_id "unknown_transcript_1"; exception "ribosomal slippage"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_086558215.1"; locus_tag "ECDH10B_RS01625"; note "programmed frameshift"; product "IS3-like element IS2 family transposase"; protein_id "WP_088895425.1"; transl_table "11"; -NC_010473.1 RefSeq gene 321143 321328 . - . gene_id "ECDH10B_RS23575"; transcript_id ""; gbkey "Gene"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS23575"; partial "true"; pseudo "true"; -NC_010473.1 Protein Homology CDS 321146 321328 . - 0 gene_id "ECDH10B_RS23575"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_002430465.1"; locus_tag "ECDH10B_RS23575"; note "incomplete; partial in the middle of a contig; missing C-terminus"; partial "true"; product "acetyltransferase"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 321326 321328 . - 0 gene_id "ECDH10B_RS23575"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_002430465.1"; locus_tag "ECDH10B_RS23575"; note "incomplete; partial in the middle of a contig; missing C-terminus"; partial "true"; product "acetyltransferase"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 321143 321145 . - 0 gene_id "ECDH10B_RS23575"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_002430465.1"; locus_tag "ECDH10B_RS23575"; note "incomplete; partial in the middle of a contig; missing C-terminus"; partial "true"; product "acetyltransferase"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 321294 322490 . - . gene_id "ECDH10B_RS01630"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS01630"; old_locus_tag "ECDH10B_0319"; -NC_010473.1 Protein Homology CDS 321297 322490 . - 0 gene_id "ECDH10B_RS01630"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414897.1"; locus_tag "ECDH10B_RS01630"; product "glycosyltransferase family 2 protein"; protein_id "WP_000860444.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 322488 322490 . - 0 gene_id "ECDH10B_RS01630"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414897.1"; locus_tag "ECDH10B_RS01630"; product "glycosyltransferase family 2 protein"; protein_id "WP_000860444.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 321294 321296 . - 0 gene_id "ECDH10B_RS01630"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414897.1"; locus_tag "ECDH10B_RS01630"; product "glycosyltransferase family 2 protein"; protein_id "WP_000860444.1"; transl_table "11"; -NC_010473.1 RefSeq gene 322500 323171 . - . gene_id "ECDH10B_RS01635"; transcript_id ""; gbkey "Gene"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS01635"; old_locus_tag "ECDH10B_0320"; pseudo "true"; -NC_010473.1 Protein Homology CDS 322503 323171 . - 0 gene_id "ECDH10B_RS01635"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_016241930.1"; locus_tag "ECDH10B_RS01635"; note "internal stop"; product "PIG-L family deacetylase"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 323169 323171 . - 0 gene_id "ECDH10B_RS01635"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_016241930.1"; locus_tag "ECDH10B_RS01635"; note "internal stop"; product "PIG-L family deacetylase"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 322500 322502 . - 0 gene_id "ECDH10B_RS01635"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_016241930.1"; locus_tag "ECDH10B_RS01635"; note "internal stop"; product "PIG-L family deacetylase"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 323787 324749 . + . gene_id "ECDH10B_RS01640"; transcript_id ""; gbkey "Gene"; gene "tauA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS01640"; old_locus_tag "ECDH10B_0321"; -NC_010473.1 Protein Homology CDS 323787 324746 . + 0 gene_id "ECDH10B_RS01640"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tauA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414899.2"; locus_tag "ECDH10B_RS01640"; product "taurine ABC transporter substrate-binding protein"; protein_id "WP_001018417.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 323787 323789 . + 0 gene_id "ECDH10B_RS01640"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tauA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414899.2"; locus_tag "ECDH10B_RS01640"; product "taurine ABC transporter substrate-binding protein"; protein_id "WP_001018417.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 324747 324749 . + 0 gene_id "ECDH10B_RS01640"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tauA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414899.2"; locus_tag "ECDH10B_RS01640"; product "taurine ABC transporter substrate-binding protein"; protein_id "WP_001018417.1"; transl_table "11"; -NC_010473.1 RefSeq gene 324762 325529 . + . gene_id "ECDH10B_RS01645"; transcript_id ""; gbkey "Gene"; gene "tauB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS01645"; old_locus_tag "ECDH10B_0322"; -NC_010473.1 Protein Homology CDS 324762 325526 . + 0 gene_id "ECDH10B_RS01645"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tauB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414900.1"; locus_tag "ECDH10B_RS01645"; product "taurine ABC transporter ATP-binding subunit"; protein_id "WP_000939375.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 324762 324764 . + 0 gene_id "ECDH10B_RS01645"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tauB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414900.1"; locus_tag "ECDH10B_RS01645"; product "taurine ABC transporter ATP-binding subunit"; protein_id "WP_000939375.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 325527 325529 . + 0 gene_id "ECDH10B_RS01645"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tauB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414900.1"; locus_tag "ECDH10B_RS01645"; product "taurine ABC transporter ATP-binding subunit"; protein_id "WP_000939375.1"; transl_table "11"; -NC_010473.1 RefSeq gene 325526 326353 . + . gene_id "ECDH10B_RS01650"; transcript_id ""; gbkey "Gene"; gene "tauC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS01650"; old_locus_tag "ECDH10B_0323"; -NC_010473.1 Protein Homology CDS 325526 326350 . + 0 gene_id "ECDH10B_RS01650"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tauC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414901.1"; locus_tag "ECDH10B_RS01650"; product "taurine ABC transporter permease TauC"; protein_id "WP_000114620.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 325526 325528 . + 0 gene_id "ECDH10B_RS01650"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tauC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414901.1"; locus_tag "ECDH10B_RS01650"; product "taurine ABC transporter permease TauC"; protein_id "WP_000114620.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 326351 326353 . + 0 gene_id "ECDH10B_RS01650"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tauC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414901.1"; locus_tag "ECDH10B_RS01650"; product "taurine ABC transporter permease TauC"; protein_id "WP_000114620.1"; transl_table "11"; -NC_010473.1 RefSeq gene 326350 327201 . + . gene_id "ECDH10B_RS01655"; transcript_id ""; gbkey "Gene"; gene "tauD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS01655"; old_locus_tag "ECDH10B_0324"; -NC_010473.1 Protein Homology CDS 326350 327198 . + 0 gene_id "ECDH10B_RS01655"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tauD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414902.1"; locus_tag "ECDH10B_RS01655"; product "taurine dioxygenase"; protein_id "WP_000004027.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 326350 326352 . + 0 gene_id "ECDH10B_RS01655"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tauD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414902.1"; locus_tag "ECDH10B_RS01655"; product "taurine dioxygenase"; protein_id "WP_000004027.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 327199 327201 . + 0 gene_id "ECDH10B_RS01655"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tauD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414902.1"; locus_tag "ECDH10B_RS01655"; product "taurine dioxygenase"; protein_id "WP_000004027.1"; transl_table "11"; -NC_010473.1 RefSeq gene 327308 328282 . - . gene_id "ECDH10B_RS01660"; transcript_id ""; gbkey "Gene"; gene "hemB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS01660"; old_locus_tag "ECDH10B_0325"; -NC_010473.1 Protein Homology CDS 327311 328282 . - 0 gene_id "ECDH10B_RS01660"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hemB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308450.2"; locus_tag "ECDH10B_RS01660"; product "porphobilinogen synthase"; protein_id "WP_001295337.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 328280 328282 . - 0 gene_id "ECDH10B_RS01660"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hemB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308450.2"; locus_tag "ECDH10B_RS01660"; product "porphobilinogen synthase"; protein_id "WP_001295337.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 327308 327310 . - 0 gene_id "ECDH10B_RS01660"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hemB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308450.2"; locus_tag "ECDH10B_RS01660"; product "porphobilinogen synthase"; protein_id "WP_001295337.1"; transl_table "11"; -NC_010473.1 RefSeq gene 328806 330266 . + . gene_id "ECDH10B_RS01670"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS01670"; -NC_010473.1 Protein Homology CDS 328806 330263 . + 0 gene_id "ECDH10B_RS01670"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000556439.1"; locus_tag "ECDH10B_RS01670"; product "hypothetical protein"; protein_id "WP_000556438.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 328806 328808 . + 0 gene_id "ECDH10B_RS01670"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000556439.1"; locus_tag "ECDH10B_RS01670"; product "hypothetical protein"; protein_id "WP_000556438.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 330264 330266 . + 0 gene_id "ECDH10B_RS01670"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000556439.1"; locus_tag "ECDH10B_RS01670"; product "hypothetical protein"; protein_id "WP_000556438.1"; transl_table "11"; -NC_010473.1 RefSeq gene 330294 331456 . - . gene_id "ECDH10B_RS01675"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS01675"; old_locus_tag "ECDH10B_0329"; -NC_010473.1 Protein Homology CDS 331195 331456 . - 0 gene_id "ECDH10B_RS01675"; transcript_id "unknown_transcript_1"; exception "ribosomal slippage"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_012477168.1"; locus_tag "ECDH10B_RS01675"; note "programmed frameshift"; product "IS3-like element IS3 family transposase"; protein_id "WP_085947771.1"; transl_table "11"; -NC_010473.1 Protein Homology CDS 330297 331195 . - 0 gene_id "ECDH10B_RS01675"; transcript_id "unknown_transcript_1"; exception "ribosomal slippage"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_012477168.1"; locus_tag "ECDH10B_RS01675"; note "programmed frameshift"; product "IS3-like element IS3 family transposase"; protein_id "WP_085947771.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 331454 331456 . - 0 gene_id "ECDH10B_RS01675"; transcript_id "unknown_transcript_1"; exception "ribosomal slippage"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_012477168.1"; locus_tag "ECDH10B_RS01675"; note "programmed frameshift"; product "IS3-like element IS3 family transposase"; protein_id "WP_085947771.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 330294 330296 . - 0 gene_id "ECDH10B_RS01675"; transcript_id "unknown_transcript_1"; exception "ribosomal slippage"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_012477168.1"; locus_tag "ECDH10B_RS01675"; note "programmed frameshift"; product "IS3-like element IS3 family transposase"; protein_id "WP_085947771.1"; transl_table "11"; -NC_010473.1 RefSeq gene 331531 332973 . + . gene_id "ECDH10B_RS01685"; transcript_id ""; gbkey "Gene"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS01685"; partial "true"; pseudo "true"; -NC_010473.1 Protein Homology CDS 331531 332970 . + 0 gene_id "ECDH10B_RS01685"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308451.1"; locus_tag "ECDH10B_RS01685"; note "incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "autotransporter outer membrane beta-barrel domain-containing protein"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 331531 331533 . + 0 gene_id "ECDH10B_RS01685"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308451.1"; locus_tag "ECDH10B_RS01685"; note "incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "autotransporter outer membrane beta-barrel domain-containing protein"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 332971 332973 . + 0 gene_id "ECDH10B_RS01685"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308451.1"; locus_tag "ECDH10B_RS01685"; note "incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "autotransporter outer membrane beta-barrel domain-containing protein"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 333061 333684 . + . gene_id "ECDH10B_RS01695"; transcript_id ""; gbkey "Gene"; gene "iprA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS01695"; old_locus_tag "ECDH10B_0332"; -NC_010473.1 Protein Homology CDS 333061 333681 . + 0 gene_id "ECDH10B_RS01695"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "iprA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414909.2"; locus_tag "ECDH10B_RS01695"; product "hydrogen peroxide resistance inhibitor IprA"; protein_id "WP_001295335.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 333061 333063 . + 0 gene_id "ECDH10B_RS01695"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "iprA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414909.2"; locus_tag "ECDH10B_RS01695"; product "hydrogen peroxide resistance inhibitor IprA"; protein_id "WP_001295335.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 333682 333684 . + 0 gene_id "ECDH10B_RS01695"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "iprA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414909.2"; locus_tag "ECDH10B_RS01695"; product "hydrogen peroxide resistance inhibitor IprA"; protein_id "WP_001295335.1"; transl_table "11"; -NC_010473.1 RefSeq gene 333685 334842 . - . gene_id "ECDH10B_RS01700"; transcript_id ""; gbkey "Gene"; gene "ampH"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS01700"; old_locus_tag "ECDH10B_0333"; -NC_010473.1 Protein Homology CDS 333688 334842 . - 0 gene_id "ECDH10B_RS01700"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ampH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308453.1"; locus_tag "ECDH10B_RS01700"; product "D-alanyl-D-alanine-carboxypeptidase/endopeptidase AmpH"; protein_id "WP_000830741.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 334840 334842 . - 0 gene_id "ECDH10B_RS01700"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ampH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308453.1"; locus_tag "ECDH10B_RS01700"; product "D-alanyl-D-alanine-carboxypeptidase/endopeptidase AmpH"; protein_id "WP_000830741.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 333685 333687 . - 0 gene_id "ECDH10B_RS01700"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ampH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308453.1"; locus_tag "ECDH10B_RS01700"; product "D-alanyl-D-alanine-carboxypeptidase/endopeptidase AmpH"; protein_id "WP_000830741.1"; transl_table "11"; -NC_010473.1 RefSeq gene 335194 336414 . + . gene_id "ECDH10B_RS01710"; transcript_id ""; gbkey "Gene"; gene "sbmA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS01710"; old_locus_tag "ECDH10B_0334"; -NC_010473.1 Protein Homology CDS 335194 336411 . + 0 gene_id "ECDH10B_RS01710"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sbmA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308454.1"; locus_tag "ECDH10B_RS01710"; product "peptide antibiotic transporter SbmA"; protein_id "WP_001301663.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 335194 335196 . + 0 gene_id "ECDH10B_RS01710"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sbmA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308454.1"; locus_tag "ECDH10B_RS01710"; product "peptide antibiotic transporter SbmA"; protein_id "WP_001301663.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 336412 336414 . + 0 gene_id "ECDH10B_RS01710"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sbmA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308454.1"; locus_tag "ECDH10B_RS01710"; product "peptide antibiotic transporter SbmA"; protein_id "WP_001301663.1"; transl_table "11"; -NC_010473.1 RefSeq gene 336427 337521 . + . gene_id "ECDH10B_RS01715"; transcript_id ""; gbkey "Gene"; gene "yaiW"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS01715"; old_locus_tag "ECDH10B_0335"; -NC_010473.1 Protein Homology CDS 336427 337518 . + 0 gene_id "ECDH10B_RS01715"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yaiW"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414912.1"; locus_tag "ECDH10B_RS01715"; product "surface-exposed outer membrane lipoprotein YaiW"; protein_id "WP_000092067.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 336427 336429 . + 0 gene_id "ECDH10B_RS01715"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yaiW"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414912.1"; locus_tag "ECDH10B_RS01715"; product "surface-exposed outer membrane lipoprotein YaiW"; protein_id "WP_000092067.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 337519 337521 . + 0 gene_id "ECDH10B_RS01715"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yaiW"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414912.1"; locus_tag "ECDH10B_RS01715"; product "surface-exposed outer membrane lipoprotein YaiW"; protein_id "WP_000092067.1"; transl_table "11"; -NC_010473.1 RefSeq gene 337580 337888 . - . gene_id "ECDH10B_RS01720"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS01720"; old_locus_tag "ECDH10B_0336"; -NC_010473.1 Protein Homology CDS 337583 337888 . - 0 gene_id "ECDH10B_RS01720"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308456.1"; locus_tag "ECDH10B_RS01720"; product "DUF2755 family protein"; protein_id "WP_000763151.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 337886 337888 . - 0 gene_id "ECDH10B_RS01720"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308456.1"; locus_tag "ECDH10B_RS01720"; product "DUF2755 family protein"; protein_id "WP_000763151.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 337580 337582 . - 0 gene_id "ECDH10B_RS01720"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308456.1"; locus_tag "ECDH10B_RS01720"; product "DUF2755 family protein"; protein_id "WP_000763151.1"; transl_table "11"; -NC_010473.1 RefSeq gene 338148 338360 . + . gene_id "ECDH10B_RS25875"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS25875"; old_locus_tag "ECDH10B_0337"; -NC_010473.1 Protein Homology CDS 338148 338357 . + 0 gene_id "ECDH10B_RS25875"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414914.2"; locus_tag "ECDH10B_RS25875"; product "DUF2754 domain-containing protein"; protein_id "WP_001295334.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 338148 338150 . + 0 gene_id "ECDH10B_RS25875"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414914.2"; locus_tag "ECDH10B_RS25875"; product "DUF2754 domain-containing protein"; protein_id "WP_001295334.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 338358 338360 . + 0 gene_id "ECDH10B_RS25875"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414914.2"; locus_tag "ECDH10B_RS25875"; product "DUF2754 domain-containing protein"; protein_id "WP_001295334.1"; transl_table "11"; -NC_010473.1 RefSeq gene 338384 339478 . - . gene_id "ECDH10B_RS01730"; transcript_id ""; gbkey "Gene"; gene "ddlA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS01730"; old_locus_tag "ECDH10B_0338"; -NC_010473.1 Protein Homology CDS 338387 339478 . - 0 gene_id "ECDH10B_RS01730"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ddlA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308458.1"; locus_tag "ECDH10B_RS01730"; product "D-alanine--D-alanine ligase"; protein_id "WP_000413677.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 339476 339478 . - 0 gene_id "ECDH10B_RS01730"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ddlA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308458.1"; locus_tag "ECDH10B_RS01730"; product "D-alanine--D-alanine ligase"; protein_id "WP_000413677.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 338384 338386 . - 0 gene_id "ECDH10B_RS01730"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ddlA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308458.1"; locus_tag "ECDH10B_RS01730"; product "D-alanine--D-alanine ligase"; protein_id "WP_000413677.1"; transl_table "11"; -NC_010473.1 RefSeq gene 339556 339759 . + . gene_id "ECDH10B_RS26195"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS26195"; -NC_010473.1 Protein Homology CDS 339556 339756 . + 0 gene_id "ECDH10B_RS26195"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_008439229.1"; locus_tag "ECDH10B_RS26195"; product "hypothetical protein"; protein_id "WP_001300163.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 339556 339558 . + 0 gene_id "ECDH10B_RS26195"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_008439229.1"; locus_tag "ECDH10B_RS26195"; product "hypothetical protein"; protein_id "WP_001300163.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 339757 339759 . + 0 gene_id "ECDH10B_RS26195"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_008439229.1"; locus_tag "ECDH10B_RS26195"; product "hypothetical protein"; protein_id "WP_001300163.1"; transl_table "11"; -NC_010473.1 RefSeq gene 339941 340201 . + . gene_id "ECDH10B_RS01740"; transcript_id ""; gbkey "Gene"; gene "iraP"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS01740"; old_locus_tag "ECDH10B_0339"; -NC_010473.1 Protein Homology CDS 339941 340198 . + 0 gene_id "ECDH10B_RS01740"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "iraP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308459.1"; locus_tag "ECDH10B_RS01740"; product "anti-adapter protein IraP"; protein_id "WP_000792970.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 339941 339943 . + 0 gene_id "ECDH10B_RS01740"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "iraP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308459.1"; locus_tag "ECDH10B_RS01740"; product "anti-adapter protein IraP"; protein_id "WP_000792970.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 340199 340201 . + 0 gene_id "ECDH10B_RS01740"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "iraP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308459.1"; locus_tag "ECDH10B_RS01740"; product "anti-adapter protein IraP"; protein_id "WP_000792970.1"; transl_table "11"; -NC_010473.1 RefSeq gene 340302 341717 . + . gene_id "ECDH10B_RS01745"; transcript_id ""; gbkey "Gene"; gene "phoA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS01745"; old_locus_tag "ECDH10B_0340"; -NC_010473.1 Protein Homology CDS 340302 341714 . + 0 gene_id "ECDH10B_RS01745"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "phoA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414917.2"; locus_tag "ECDH10B_RS01745"; product "alkaline phosphatase"; protein_id "WP_000814403.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 340302 340304 . + 0 gene_id "ECDH10B_RS01745"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "phoA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414917.2"; locus_tag "ECDH10B_RS01745"; product "alkaline phosphatase"; protein_id "WP_000814403.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 341715 341717 . + 0 gene_id "ECDH10B_RS01745"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "phoA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414917.2"; locus_tag "ECDH10B_RS01745"; product "alkaline phosphatase"; protein_id "WP_000814403.1"; transl_table "11"; -NC_010473.1 RefSeq gene 341836 342156 . + . gene_id "ECDH10B_RS01750"; transcript_id ""; gbkey "Gene"; gene "psiF"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS01750"; old_locus_tag "ECDH10B_0341"; -NC_010473.1 Protein Homology CDS 341836 342153 . + 0 gene_id "ECDH10B_RS01750"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "psiF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414918.4"; locus_tag "ECDH10B_RS01750"; product "phosphate starvation-inducible protein PsiF"; protein_id "WP_001295332.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 341836 341838 . + 0 gene_id "ECDH10B_RS01750"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "psiF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414918.4"; locus_tag "ECDH10B_RS01750"; product "phosphate starvation-inducible protein PsiF"; protein_id "WP_001295332.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 342154 342156 . + 0 gene_id "ECDH10B_RS01750"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "psiF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414918.4"; locus_tag "ECDH10B_RS01750"; product "phosphate starvation-inducible protein PsiF"; protein_id "WP_001295332.1"; transl_table "11"; -NC_010473.1 RefSeq gene 342258 343373 . + . gene_id "ECDH10B_RS01755"; transcript_id ""; gbkey "Gene"; gene "adrA"; gene_biotype "protein_coding"; gene_synonym "dgcC"; locus_tag "ECDH10B_RS01755"; old_locus_tag "ECDH10B_0342"; -NC_010473.1 Protein Homology CDS 342258 343370 . + 0 gene_id "ECDH10B_RS01755"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "adrA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414919.1"; locus_tag "ECDH10B_RS01755"; product "diguanylate cyclase AdrA"; protein_id "WP_000484048.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 342258 342260 . + 0 gene_id "ECDH10B_RS01755"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "adrA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414919.1"; locus_tag "ECDH10B_RS01755"; product "diguanylate cyclase AdrA"; protein_id "WP_000484048.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 343371 343373 . + 0 gene_id "ECDH10B_RS01755"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "adrA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414919.1"; locus_tag "ECDH10B_RS01755"; product "diguanylate cyclase AdrA"; protein_id "WP_000484048.1"; transl_table "11"; -NC_010473.1 RefSeq gene 343390 344199 . - . gene_id "ECDH10B_RS01760"; transcript_id ""; gbkey "Gene"; gene "proC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS01760"; old_locus_tag "ECDH10B_0343"; -NC_010473.1 Protein Homology CDS 343393 344199 . - 0 gene_id "ECDH10B_RS01760"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "proC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414920.1"; locus_tag "ECDH10B_RS01760"; product "pyrroline-5-carboxylate reductase"; protein_id "WP_001295331.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 344197 344199 . - 0 gene_id "ECDH10B_RS01760"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "proC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414920.1"; locus_tag "ECDH10B_RS01760"; product "pyrroline-5-carboxylate reductase"; protein_id "WP_001295331.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 343390 343392 . - 0 gene_id "ECDH10B_RS01760"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "proC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414920.1"; locus_tag "ECDH10B_RS01760"; product "pyrroline-5-carboxylate reductase"; protein_id "WP_001295331.1"; transl_table "11"; -NC_010473.1 RefSeq gene 344319 344777 . + . gene_id "ECDH10B_RS01765"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS01765"; old_locus_tag "ECDH10B_0344"; -NC_010473.1 Protein Homology CDS 344319 344774 . + 0 gene_id "ECDH10B_RS01765"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414921.2"; locus_tag "ECDH10B_RS01765"; product "YaiI/YqxD family protein"; protein_id "WP_000158159.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 344319 344321 . + 0 gene_id "ECDH10B_RS01765"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414921.2"; locus_tag "ECDH10B_RS01765"; product "YaiI/YqxD family protein"; protein_id "WP_000158159.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 344775 344777 . + 0 gene_id "ECDH10B_RS01765"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414921.2"; locus_tag "ECDH10B_RS01765"; product "YaiI/YqxD family protein"; protein_id "WP_000158159.1"; transl_table "11"; -NC_010473.1 RefSeq gene 344960 345484 . + . gene_id "ECDH10B_RS01770"; transcript_id ""; gbkey "Gene"; gene "aroL"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS01770"; old_locus_tag "ECDH10B_0345"; -NC_010473.1 Protein Homology CDS 344960 345481 . + 0 gene_id "ECDH10B_RS01770"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "aroL"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308465.1"; locus_tag "ECDH10B_RS01770"; product "shikimate kinase AroL"; protein_id "WP_000193393.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 344960 344962 . + 0 gene_id "ECDH10B_RS01770"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "aroL"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308465.1"; locus_tag "ECDH10B_RS01770"; product "shikimate kinase AroL"; protein_id "WP_000193393.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 345482 345484 . + 0 gene_id "ECDH10B_RS01770"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "aroL"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308465.1"; locus_tag "ECDH10B_RS01770"; product "shikimate kinase AroL"; protein_id "WP_000193393.1"; transl_table "11"; -NC_010473.1 RefSeq gene 345534 345725 . + . gene_id "ECDH10B_RS01775"; transcript_id ""; gbkey "Gene"; gene "yaiA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS01775"; old_locus_tag "ECDH10B_0346"; -NC_010473.1 Protein Homology CDS 345534 345722 . + 0 gene_id "ECDH10B_RS01775"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yaiA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308466.1"; locus_tag "ECDH10B_RS01775"; product "protein YaiA"; protein_id "WP_001142439.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 345534 345536 . + 0 gene_id "ECDH10B_RS01775"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yaiA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308466.1"; locus_tag "ECDH10B_RS01775"; product "protein YaiA"; protein_id "WP_001142439.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 345723 345725 . + 0 gene_id "ECDH10B_RS01775"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yaiA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308466.1"; locus_tag "ECDH10B_RS01775"; product "protein YaiA"; protein_id "WP_001142439.1"; transl_table "11"; -NC_010473.1 RefSeq gene 345983 346660 . + . gene_id "ECDH10B_RS01785"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS01785"; old_locus_tag "ECDH10B_0347"; -NC_010473.1 Protein Homology CDS 345983 346657 . + 0 gene_id "ECDH10B_RS01785"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414924.1"; locus_tag "ECDH10B_RS01785"; product "AroM family protein"; protein_id "WP_001276420.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 345983 345985 . + 0 gene_id "ECDH10B_RS01785"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414924.1"; locus_tag "ECDH10B_RS01785"; product "AroM family protein"; protein_id "WP_001276420.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 346658 346660 . + 0 gene_id "ECDH10B_RS01785"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414924.1"; locus_tag "ECDH10B_RS01785"; product "AroM family protein"; protein_id "WP_001276420.1"; transl_table "11"; -NC_010473.1 RefSeq gene 346732 347016 . + . gene_id "ECDH10B_RS01790"; transcript_id ""; gbkey "Gene"; gene "ppnP"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS01790"; old_locus_tag "ECDH10B_0348"; -NC_010473.1 Protein Homology CDS 346732 347013 . + 0 gene_id "ECDH10B_RS01790"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ppnP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308468.1"; locus_tag "ECDH10B_RS01790"; product "pyrimidine/purine nucleoside phosphorylase"; protein_id "WP_000941942.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 346732 346734 . + 0 gene_id "ECDH10B_RS01790"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ppnP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308468.1"; locus_tag "ECDH10B_RS01790"; product "pyrimidine/purine nucleoside phosphorylase"; protein_id "WP_000941942.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 347014 347016 . + 0 gene_id "ECDH10B_RS01790"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ppnP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308468.1"; locus_tag "ECDH10B_RS01790"; product "pyrimidine/purine nucleoside phosphorylase"; protein_id "WP_000941942.1"; transl_table "11"; -NC_010473.1 RefSeq gene 347164 347505 . + . gene_id "ECDH10B_RS01795"; transcript_id ""; gbkey "Gene"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS01795"; old_locus_tag "ECDH10B_0349"; partial "true"; pseudo "true"; -NC_010473.1 Protein Homology CDS 347164 347502 . + 0 gene_id "ECDH10B_RS01795"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308469.2"; locus_tag "ECDH10B_RS01795"; note "incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "DUF2773 domain-containing protein"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 347164 347166 . + 0 gene_id "ECDH10B_RS01795"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308469.2"; locus_tag "ECDH10B_RS01795"; note "incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "DUF2773 domain-containing protein"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 347503 347505 . + 0 gene_id "ECDH10B_RS01795"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308469.2"; locus_tag "ECDH10B_RS01795"; note "incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "DUF2773 domain-containing protein"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 347502 347585 . + . gene_id "ECDH10B_RS25880"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS25880"; -NC_010473.1 Protein Homology CDS 347502 347582 . + 0 gene_id "ECDH10B_RS25880"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_009518750.1"; locus_tag "ECDH10B_RS25880"; product "protein YkiD"; protein_id "WP_120795376.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 347502 347504 . + 0 gene_id "ECDH10B_RS25880"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_009518750.1"; locus_tag "ECDH10B_RS25880"; product "protein YkiD"; protein_id "WP_120795376.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 347583 347585 . + 0 gene_id "ECDH10B_RS25880"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_009518750.1"; locus_tag "ECDH10B_RS25880"; product "protein YkiD"; protein_id "WP_120795376.1"; transl_table "11"; -NC_010473.1 RefSeq gene 347663 348574 . - . gene_id "ECDH10B_RS01800"; transcript_id ""; gbkey "Gene"; gene "rdgC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS01800"; old_locus_tag "ECDH10B_0350"; -NC_010473.1 Protein Homology CDS 347666 348574 . - 0 gene_id "ECDH10B_RS01800"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rdgC"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005120935.1"; locus_tag "ECDH10B_RS01800"; product "recombination-associated protein RdgC"; protein_id "WP_001298537.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 348572 348574 . - 0 gene_id "ECDH10B_RS01800"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rdgC"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005120935.1"; locus_tag "ECDH10B_RS01800"; product "recombination-associated protein RdgC"; protein_id "WP_001298537.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 347663 347665 . - 0 gene_id "ECDH10B_RS01800"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rdgC"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005120935.1"; locus_tag "ECDH10B_RS01800"; product "recombination-associated protein RdgC"; protein_id "WP_001298537.1"; transl_table "11"; -NC_010473.1 RefSeq gene 348699 349607 . + . gene_id "ECDH10B_RS01805"; transcript_id ""; gbkey "Gene"; gene "mak"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS01805"; old_locus_tag "ECDH10B_0351"; -NC_010473.1 Protein Homology CDS 348699 349604 . + 0 gene_id "ECDH10B_RS01805"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mak"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414928.2"; locus_tag "ECDH10B_RS01805"; product "fructokinase"; protein_id "WP_001219309.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 348699 348701 . + 0 gene_id "ECDH10B_RS01805"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mak"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414928.2"; locus_tag "ECDH10B_RS01805"; product "fructokinase"; protein_id "WP_001219309.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 349605 349607 . + 0 gene_id "ECDH10B_RS01805"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mak"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414928.2"; locus_tag "ECDH10B_RS01805"; product "fructokinase"; protein_id "WP_001219309.1"; transl_table "11"; -NC_010473.1 RefSeq gene 349852 351036 . - . gene_id "ECDH10B_RS01810"; transcript_id ""; gbkey "Gene"; gene "araJ"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS01810"; old_locus_tag "ECDH10B_0352"; -NC_010473.1 Protein Homology CDS 349855 351036 . - 0 gene_id "ECDH10B_RS01810"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "araJ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414930.3"; locus_tag "ECDH10B_RS01810"; product "MFS transporter AraJ"; protein_id "WP_001326926.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 351034 351036 . - 0 gene_id "ECDH10B_RS01810"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "araJ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414930.3"; locus_tag "ECDH10B_RS01810"; product "MFS transporter AraJ"; protein_id "WP_001326926.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 349852 349854 . - 0 gene_id "ECDH10B_RS01810"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "araJ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414930.3"; locus_tag "ECDH10B_RS01810"; product "MFS transporter AraJ"; protein_id "WP_001326926.1"; transl_table "11"; -NC_010473.1 RefSeq gene 351162 354308 . - . gene_id "ECDH10B_RS01815"; transcript_id ""; gbkey "Gene"; gene "sbcC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS01815"; old_locus_tag "ECDH10B_0353"; -NC_010473.1 Protein Homology CDS 351165 354308 . - 0 gene_id "ECDH10B_RS01815"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sbcC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414931.1"; locus_tag "ECDH10B_RS01815"; product "exonuclease subunit SbcC"; protein_id "WP_000698951.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 354306 354308 . - 0 gene_id "ECDH10B_RS01815"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sbcC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414931.1"; locus_tag "ECDH10B_RS01815"; product "exonuclease subunit SbcC"; protein_id "WP_000698951.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 351162 351164 . - 0 gene_id "ECDH10B_RS01815"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sbcC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414931.1"; locus_tag "ECDH10B_RS01815"; product "exonuclease subunit SbcC"; protein_id "WP_000698951.1"; transl_table "11"; -NC_010473.1 RefSeq gene 354305 355507 . - . gene_id "ECDH10B_RS01820"; transcript_id ""; gbkey "Gene"; gene "sbcD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS01820"; old_locus_tag "ECDH10B_0354"; -NC_010473.1 Protein Homology CDS 354308 355507 . - 0 gene_id "ECDH10B_RS01820"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sbcD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308475.1"; locus_tag "ECDH10B_RS01820"; product "exonuclease subunit SbcD"; protein_id "WP_001221319.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 355505 355507 . - 0 gene_id "ECDH10B_RS01820"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sbcD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308475.1"; locus_tag "ECDH10B_RS01820"; product "exonuclease subunit SbcD"; protein_id "WP_001221319.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 354305 354307 . - 0 gene_id "ECDH10B_RS01820"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sbcD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308475.1"; locus_tag "ECDH10B_RS01820"; product "exonuclease subunit SbcD"; protein_id "WP_001221319.1"; transl_table "11"; -NC_010473.1 RefSeq gene 355697 356386 . + . gene_id "ECDH10B_RS01825"; transcript_id ""; gbkey "Gene"; gene "phoB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS01825"; old_locus_tag "ECDH10B_0355"; -NC_010473.1 Protein Homology CDS 355697 356383 . + 0 gene_id "ECDH10B_RS01825"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "phoB"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000113934.1"; locus_tag "ECDH10B_RS01825"; product "phosphate response regulator transcription factor PhoB"; protein_id "WP_000113933.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 355697 355699 . + 0 gene_id "ECDH10B_RS01825"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "phoB"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000113934.1"; locus_tag "ECDH10B_RS01825"; product "phosphate response regulator transcription factor PhoB"; protein_id "WP_000113933.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 356384 356386 . + 0 gene_id "ECDH10B_RS01825"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "phoB"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000113934.1"; locus_tag "ECDH10B_RS01825"; product "phosphate response regulator transcription factor PhoB"; protein_id "WP_000113933.1"; transl_table "11"; -NC_010473.1 RefSeq gene 356444 357739 . + . gene_id "ECDH10B_RS01830"; transcript_id ""; gbkey "Gene"; gene "phoR"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS01830"; old_locus_tag "ECDH10B_0356"; -NC_010473.1 Protein Homology CDS 356444 357736 . + 0 gene_id "ECDH10B_RS01830"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "phoR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414934.1"; locus_tag "ECDH10B_RS01830"; product "phosphate regulon sensor histidine kinase PhoR"; protein_id "WP_000893623.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 356444 356446 . + 0 gene_id "ECDH10B_RS01830"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "phoR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414934.1"; locus_tag "ECDH10B_RS01830"; product "phosphate regulon sensor histidine kinase PhoR"; protein_id "WP_000893623.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 357737 357739 . + 0 gene_id "ECDH10B_RS01830"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "phoR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414934.1"; locus_tag "ECDH10B_RS01830"; product "phosphate regulon sensor histidine kinase PhoR"; protein_id "WP_000893623.1"; transl_table "11"; -NC_010473.1 RefSeq gene 358146 359465 . + . gene_id "ECDH10B_RS01835"; transcript_id ""; gbkey "Gene"; gene "brnQ"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS01835"; old_locus_tag "ECDH10B_0357"; -NC_010473.1 Protein Homology CDS 358146 359462 . + 0 gene_id "ECDH10B_RS01835"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "brnQ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308478.1"; locus_tag "ECDH10B_RS01835"; product "branched-chain amino acid transporter carrier protein BrnQ"; protein_id "WP_000149639.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 358146 358148 . + 0 gene_id "ECDH10B_RS01835"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "brnQ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308478.1"; locus_tag "ECDH10B_RS01835"; product "branched-chain amino acid transporter carrier protein BrnQ"; protein_id "WP_000149639.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 359463 359465 . + 0 gene_id "ECDH10B_RS01835"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "brnQ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308478.1"; locus_tag "ECDH10B_RS01835"; product "branched-chain amino acid transporter carrier protein BrnQ"; protein_id "WP_000149639.1"; transl_table "11"; -NC_010473.1 RefSeq gene 359541 360914 . + . gene_id "ECDH10B_RS01840"; transcript_id ""; gbkey "Gene"; gene "proY"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS01840"; old_locus_tag "ECDH10B_0358"; -NC_010473.1 Protein Homology CDS 359541 360911 . + 0 gene_id "ECDH10B_RS01840"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "proY"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308479.1"; locus_tag "ECDH10B_RS01840"; product "proline-specific permease ProY"; protein_id "WP_001295329.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 359541 359543 . + 0 gene_id "ECDH10B_RS01840"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "proY"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308479.1"; locus_tag "ECDH10B_RS01840"; product "proline-specific permease ProY"; protein_id "WP_001295329.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 360912 360914 . + 0 gene_id "ECDH10B_RS01840"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "proY"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308479.1"; locus_tag "ECDH10B_RS01840"; product "proline-specific permease ProY"; protein_id "WP_001295329.1"; transl_table "11"; -NC_010473.1 RefSeq gene 361070 362887 . + . gene_id "ECDH10B_RS01845"; transcript_id ""; gbkey "Gene"; gene "malZ"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS01845"; old_locus_tag "ECDH10B_0359"; -NC_010473.1 Protein Homology CDS 361070 362884 . + 0 gene_id "ECDH10B_RS01845"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "malZ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_706291.1"; locus_tag "ECDH10B_RS01845"; product "maltodextrin glucosidase"; protein_id "WP_001310597.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 361070 361072 . + 0 gene_id "ECDH10B_RS01845"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "malZ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_706291.1"; locus_tag "ECDH10B_RS01845"; product "maltodextrin glucosidase"; protein_id "WP_001310597.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 362885 362887 . + 0 gene_id "ECDH10B_RS01845"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "malZ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_706291.1"; locus_tag "ECDH10B_RS01845"; product "maltodextrin glucosidase"; protein_id "WP_001310597.1"; transl_table "11"; -NC_010473.1 RefSeq gene 362892 363473 . - . gene_id "ECDH10B_RS01850"; transcript_id ""; gbkey "Gene"; gene "acpH"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS01850"; old_locus_tag "ECDH10B_0360"; -NC_010473.1 Protein Homology CDS 362895 363473 . - 0 gene_id "ECDH10B_RS01850"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "acpH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414938.1"; locus_tag "ECDH10B_RS01850"; product "ACP phosphodiesterase"; protein_id "WP_001009885.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 363471 363473 . - 0 gene_id "ECDH10B_RS01850"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "acpH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414938.1"; locus_tag "ECDH10B_RS01850"; product "ACP phosphodiesterase"; protein_id "WP_001009885.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 362892 362894 . - 0 gene_id "ECDH10B_RS01850"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "acpH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414938.1"; locus_tag "ECDH10B_RS01850"; product "ACP phosphodiesterase"; protein_id "WP_001009885.1"; transl_table "11"; -NC_010473.1 RefSeq gene 363566 364636 . + . gene_id "ECDH10B_RS01855"; transcript_id ""; gbkey "Gene"; gene "queA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS01855"; old_locus_tag "ECDH10B_0361"; -NC_010473.1 Protein Homology CDS 363566 364633 . + 0 gene_id "ECDH10B_RS01855"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "queA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308483.1"; locus_tag "ECDH10B_RS01855"; product "tRNA preQ1(34) S-adenosylmethionine ribosyltransferase-isomerase QueA"; protein_id "WP_001266503.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 363566 363568 . + 0 gene_id "ECDH10B_RS01855"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "queA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308483.1"; locus_tag "ECDH10B_RS01855"; product "tRNA preQ1(34) S-adenosylmethionine ribosyltransferase-isomerase QueA"; protein_id "WP_001266503.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 364634 364636 . + 0 gene_id "ECDH10B_RS01855"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "queA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308483.1"; locus_tag "ECDH10B_RS01855"; product "tRNA preQ1(34) S-adenosylmethionine ribosyltransferase-isomerase QueA"; protein_id "WP_001266503.1"; transl_table "11"; -NC_010473.1 RefSeq gene 364692 365819 . + . gene_id "ECDH10B_RS01860"; transcript_id ""; gbkey "Gene"; gene "tgt"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS01860"; old_locus_tag "ECDH10B_0362"; -NC_010473.1 Protein Homology CDS 364692 365816 . + 0 gene_id "ECDH10B_RS01860"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tgt"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_012904808.1"; locus_tag "ECDH10B_RS01860"; product "tRNA guanosine(34) transglycosylase Tgt"; protein_id "WP_000667319.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 364692 364694 . + 0 gene_id "ECDH10B_RS01860"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tgt"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_012904808.1"; locus_tag "ECDH10B_RS01860"; product "tRNA guanosine(34) transglycosylase Tgt"; protein_id "WP_000667319.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 365817 365819 . + 0 gene_id "ECDH10B_RS01860"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tgt"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_012904808.1"; locus_tag "ECDH10B_RS01860"; product "tRNA guanosine(34) transglycosylase Tgt"; protein_id "WP_000667319.1"; transl_table "11"; -NC_010473.1 RefSeq gene 365842 366174 . + . gene_id "ECDH10B_RS01865"; transcript_id ""; gbkey "Gene"; gene "yajC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS01865"; old_locus_tag "ECDH10B_0363"; -NC_010473.1 Protein Homology CDS 365842 366171 . + 0 gene_id "ECDH10B_RS01865"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yajC"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000007628.1"; locus_tag "ECDH10B_RS01865"; product "preprotein translocase subunit YajC"; protein_id "WP_000007629.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 365842 365844 . + 0 gene_id "ECDH10B_RS01865"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yajC"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000007628.1"; locus_tag "ECDH10B_RS01865"; product "preprotein translocase subunit YajC"; protein_id "WP_000007629.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 366172 366174 . + 0 gene_id "ECDH10B_RS01865"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yajC"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000007628.1"; locus_tag "ECDH10B_RS01865"; product "preprotein translocase subunit YajC"; protein_id "WP_000007629.1"; transl_table "11"; -NC_010473.1 RefSeq gene 366202 368049 . + . gene_id "ECDH10B_RS01870"; transcript_id ""; gbkey "Gene"; gene "secD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS01870"; old_locus_tag "ECDH10B_0364"; -NC_010473.1 Protein Homology CDS 366202 368046 . + 0 gene_id "ECDH10B_RS01870"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "secD"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005125127.1"; locus_tag "ECDH10B_RS01870"; product "protein translocase subunit SecD"; protein_id "WP_000934822.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 366202 366204 . + 0 gene_id "ECDH10B_RS01870"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "secD"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005125127.1"; locus_tag "ECDH10B_RS01870"; product "protein translocase subunit SecD"; protein_id "WP_000934822.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 368047 368049 . + 0 gene_id "ECDH10B_RS01870"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "secD"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005125127.1"; locus_tag "ECDH10B_RS01870"; product "protein translocase subunit SecD"; protein_id "WP_000934822.1"; transl_table "11"; -NC_010473.1 RefSeq gene 368060 369031 . + . gene_id "ECDH10B_RS01875"; transcript_id ""; gbkey "Gene"; gene "secF"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS01875"; old_locus_tag "ECDH10B_0365"; -NC_010473.1 Protein Homology CDS 368060 369028 . + 0 gene_id "ECDH10B_RS01875"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "secF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308487.1"; locus_tag "ECDH10B_RS01875"; product "protein translocase subunit SecF"; protein_id "WP_000046637.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 368060 368062 . + 0 gene_id "ECDH10B_RS01875"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "secF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308487.1"; locus_tag "ECDH10B_RS01875"; product "protein translocase subunit SecF"; protein_id "WP_000046637.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 369029 369031 . + 0 gene_id "ECDH10B_RS01875"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "secF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308487.1"; locus_tag "ECDH10B_RS01875"; product "protein translocase subunit SecF"; protein_id "WP_000046637.1"; transl_table "11"; -NC_010473.1 RefSeq gene 369160 369507 . + . gene_id "ECDH10B_RS01880"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS01880"; old_locus_tag "ECDH10B_0366"; -NC_010473.1 Protein Homology CDS 369160 369504 . + 0 gene_id "ECDH10B_RS01880"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308490.1"; locus_tag "ECDH10B_RS01880"; product "HNH nuclease family protein"; protein_id "WP_000974813.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 369160 369162 . + 0 gene_id "ECDH10B_RS01880"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308490.1"; locus_tag "ECDH10B_RS01880"; product "HNH nuclease family protein"; protein_id "WP_000974813.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 369505 369507 . + 0 gene_id "ECDH10B_RS01880"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308490.1"; locus_tag "ECDH10B_RS01880"; product "HNH nuclease family protein"; protein_id "WP_000974813.1"; transl_table "11"; -NC_010473.1 RefSeq gene 369684 370568 . - . gene_id "ECDH10B_RS01890"; transcript_id ""; gbkey "Gene"; gene "tsx"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS01890"; old_locus_tag "ECDH10B_0367"; -NC_010473.1 Protein Homology CDS 369687 370568 . - 0 gene_id "ECDH10B_RS01890"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tsx"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308491.1"; locus_tag "ECDH10B_RS01890"; product "nucleoside-specific channel-forming protein Tsx"; protein_id "WP_001295328.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 370566 370568 . - 0 gene_id "ECDH10B_RS01890"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tsx"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308491.1"; locus_tag "ECDH10B_RS01890"; product "nucleoside-specific channel-forming protein Tsx"; protein_id "WP_001295328.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 369684 369686 . - 0 gene_id "ECDH10B_RS01890"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tsx"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308491.1"; locus_tag "ECDH10B_RS01890"; product "nucleoside-specific channel-forming protein Tsx"; protein_id "WP_001295328.1"; transl_table "11"; -NC_010473.1 RefSeq gene 370867 371406 . - . gene_id "ECDH10B_RS01895"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS01895"; old_locus_tag "ECDH10B_0368"; -NC_010473.1 Protein Homology CDS 370870 371406 . - 0 gene_id "ECDH10B_RS01895"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414946.4"; locus_tag "ECDH10B_RS01895"; product "DUF3251 domain-containing protein"; protein_id "WP_001326929.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 371404 371406 . - 0 gene_id "ECDH10B_RS01895"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414946.4"; locus_tag "ECDH10B_RS01895"; product "DUF3251 domain-containing protein"; protein_id "WP_001326929.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 370867 370869 . - 0 gene_id "ECDH10B_RS01895"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414946.4"; locus_tag "ECDH10B_RS01895"; product "DUF3251 domain-containing protein"; protein_id "WP_001326929.1"; transl_table "11"; -NC_010473.1 RefSeq gene 371557 372006 . + . gene_id "ECDH10B_RS01900"; transcript_id ""; gbkey "Gene"; gene "nrdR"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS01900"; old_locus_tag "ECDH10B_0369"; -NC_010473.1 Protein Homology CDS 371557 372003 . + 0 gene_id "ECDH10B_RS01900"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nrdR"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_017458860.1"; locus_tag "ECDH10B_RS01900"; product "transcriptional regulator NrdR"; protein_id "WP_000543535.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 371557 371559 . + 0 gene_id "ECDH10B_RS01900"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nrdR"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_017458860.1"; locus_tag "ECDH10B_RS01900"; product "transcriptional regulator NrdR"; protein_id "WP_000543535.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 372004 372006 . + 0 gene_id "ECDH10B_RS01900"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nrdR"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_017458860.1"; locus_tag "ECDH10B_RS01900"; product "transcriptional regulator NrdR"; protein_id "WP_000543535.1"; transl_table "11"; -NC_010473.1 RefSeq gene 372010 373113 . + . gene_id "ECDH10B_RS01905"; transcript_id ""; gbkey "Gene"; gene "ribD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS01905"; old_locus_tag "ECDH10B_0370"; -NC_010473.1 Protein Homology CDS 372010 373110 . + 0 gene_id "ECDH10B_RS01905"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ribD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414948.1"; locus_tag "ECDH10B_RS01905"; product "bifunctional diaminohydroxyphosphoribosylaminopyrimidine deaminase/5-amino-6-(5-phosphoribosylamino)uracil reductase RibD"; protein_id "WP_001150457.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 372010 372012 . + 0 gene_id "ECDH10B_RS01905"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ribD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414948.1"; locus_tag "ECDH10B_RS01905"; product "bifunctional diaminohydroxyphosphoribosylaminopyrimidine deaminase/5-amino-6-(5-phosphoribosylamino)uracil reductase RibD"; protein_id "WP_001150457.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 373111 373113 . + 0 gene_id "ECDH10B_RS01905"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ribD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414948.1"; locus_tag "ECDH10B_RS01905"; product "bifunctional diaminohydroxyphosphoribosylaminopyrimidine deaminase/5-amino-6-(5-phosphoribosylamino)uracil reductase RibD"; protein_id "WP_001150457.1"; transl_table "11"; -NC_010473.1 RefSeq gene 373202 373672 . + . gene_id "ECDH10B_RS01910"; transcript_id ""; gbkey "Gene"; gene "ribE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS01910"; old_locus_tag "ECDH10B_0371"; -NC_010473.1 Protein Homology CDS 373202 373669 . + 0 gene_id "ECDH10B_RS01910"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ribE"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_006818760.1"; locus_tag "ECDH10B_RS01910"; product "6,7-dimethyl-8-ribityllumazine synthase"; protein_id "WP_001021161.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 373202 373204 . + 0 gene_id "ECDH10B_RS01910"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ribE"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_006818760.1"; locus_tag "ECDH10B_RS01910"; product "6,7-dimethyl-8-ribityllumazine synthase"; protein_id "WP_001021161.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 373670 373672 . + 0 gene_id "ECDH10B_RS01910"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ribE"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_006818760.1"; locus_tag "ECDH10B_RS01910"; product "6,7-dimethyl-8-ribityllumazine synthase"; protein_id "WP_001021161.1"; transl_table "11"; -NC_010473.1 RefSeq gene 373692 374111 . + . gene_id "ECDH10B_RS01915"; transcript_id ""; gbkey "Gene"; gene "nusB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS01915"; old_locus_tag "ECDH10B_0372"; -NC_010473.1 Protein Homology CDS 373692 374108 . + 0 gene_id "ECDH10B_RS01915"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nusB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308496.1"; locus_tag "ECDH10B_RS01915"; product "transcription antitermination factor NusB"; protein_id "WP_000801125.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 373692 373694 . + 0 gene_id "ECDH10B_RS01915"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nusB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308496.1"; locus_tag "ECDH10B_RS01915"; product "transcription antitermination factor NusB"; protein_id "WP_000801125.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 374109 374111 . + 0 gene_id "ECDH10B_RS01915"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nusB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308496.1"; locus_tag "ECDH10B_RS01915"; product "transcription antitermination factor NusB"; protein_id "WP_000801125.1"; transl_table "11"; -NC_010473.1 RefSeq gene 374189 375166 . + . gene_id "ECDH10B_RS01920"; transcript_id ""; gbkey "Gene"; gene "thiL"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS01920"; old_locus_tag "ECDH10B_0373"; -NC_010473.1 Protein Homology CDS 374189 375163 . + 0 gene_id "ECDH10B_RS01920"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "thiL"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414951.1"; locus_tag "ECDH10B_RS01920"; product "thiamine-phosphate kinase"; protein_id "WP_000742109.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 374189 374191 . + 0 gene_id "ECDH10B_RS01920"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "thiL"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414951.1"; locus_tag "ECDH10B_RS01920"; product "thiamine-phosphate kinase"; protein_id "WP_000742109.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 375164 375166 . + 0 gene_id "ECDH10B_RS01920"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "thiL"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414951.1"; locus_tag "ECDH10B_RS01920"; product "thiamine-phosphate kinase"; protein_id "WP_000742109.1"; transl_table "11"; -NC_010473.1 RefSeq gene 375144 375662 . + . gene_id "ECDH10B_RS01925"; transcript_id ""; gbkey "Gene"; gene "pgpA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS01925"; old_locus_tag "ECDH10B_0374"; -NC_010473.1 Protein Homology CDS 375144 375659 . + 0 gene_id "ECDH10B_RS01925"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pgpA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414952.1"; locus_tag "ECDH10B_RS01925"; product "phosphatidylglycerophosphatase A"; protein_id "WP_000154044.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 375144 375146 . + 0 gene_id "ECDH10B_RS01925"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pgpA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414952.1"; locus_tag "ECDH10B_RS01925"; product "phosphatidylglycerophosphatase A"; protein_id "WP_000154044.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 375660 375662 . + 0 gene_id "ECDH10B_RS01925"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pgpA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414952.1"; locus_tag "ECDH10B_RS01925"; product "phosphatidylglycerophosphatase A"; protein_id "WP_000154044.1"; transl_table "11"; -NC_010473.1 RefSeq gene 375716 376690 . - . gene_id "ECDH10B_RS01930"; transcript_id ""; gbkey "Gene"; gene "yajO"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS01930"; old_locus_tag "ECDH10B_0375"; -NC_010473.1 Protein Homology CDS 375719 376690 . - 0 gene_id "ECDH10B_RS01930"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yajO"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414953.2"; locus_tag "ECDH10B_RS01930"; product "1-deoxyxylulose-5-phosphate synthase YajO"; protein_id "WP_001199800.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 376688 376690 . - 0 gene_id "ECDH10B_RS01930"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yajO"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414953.2"; locus_tag "ECDH10B_RS01930"; product "1-deoxyxylulose-5-phosphate synthase YajO"; protein_id "WP_001199800.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 375716 375718 . - 0 gene_id "ECDH10B_RS01930"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yajO"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414953.2"; locus_tag "ECDH10B_RS01930"; product "1-deoxyxylulose-5-phosphate synthase YajO"; protein_id "WP_001199800.1"; transl_table "11"; -NC_010473.1 RefSeq gene 376870 378732 . - . gene_id "ECDH10B_RS01935"; transcript_id ""; gbkey "Gene"; gene "dxs"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS01935"; old_locus_tag "ECDH10B_0376"; -NC_010473.1 Protein Homology CDS 376873 378732 . - 0 gene_id "ECDH10B_RS01935"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dxs"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414954.1"; locus_tag "ECDH10B_RS01935"; product "1-deoxy-D-xylulose-5-phosphate synthase"; protein_id "WP_000006797.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 378730 378732 . - 0 gene_id "ECDH10B_RS01935"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dxs"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414954.1"; locus_tag "ECDH10B_RS01935"; product "1-deoxy-D-xylulose-5-phosphate synthase"; protein_id "WP_000006797.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 376870 376872 . - 0 gene_id "ECDH10B_RS01935"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dxs"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414954.1"; locus_tag "ECDH10B_RS01935"; product "1-deoxy-D-xylulose-5-phosphate synthase"; protein_id "WP_000006797.1"; transl_table "11"; -NC_010473.1 RefSeq gene 378757 379656 . - . gene_id "ECDH10B_RS01940"; transcript_id ""; gbkey "Gene"; gene "ispA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS01940"; old_locus_tag "ECDH10B_0377"; -NC_010473.1 Protein Homology CDS 378760 379656 . - 0 gene_id "ECDH10B_RS01940"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ispA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414955.1"; locus_tag "ECDH10B_RS01940"; product "(2E,6E)-farnesyl diphosphate synthase"; protein_id "WP_000347217.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 379654 379656 . - 0 gene_id "ECDH10B_RS01940"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ispA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414955.1"; locus_tag "ECDH10B_RS01940"; product "(2E,6E)-farnesyl diphosphate synthase"; protein_id "WP_000347217.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 378757 378759 . - 0 gene_id "ECDH10B_RS01940"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ispA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414955.1"; locus_tag "ECDH10B_RS01940"; product "(2E,6E)-farnesyl diphosphate synthase"; protein_id "WP_000347217.1"; transl_table "11"; -NC_010473.1 RefSeq gene 379656 379898 . - . gene_id "ECDH10B_RS01945"; transcript_id ""; gbkey "Gene"; gene "xseB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS01945"; old_locus_tag "ECDH10B_0378"; -NC_010473.1 Protein Homology CDS 379659 379898 . - 0 gene_id "ECDH10B_RS01945"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "xseB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308503.1"; locus_tag "ECDH10B_RS01945"; product "exodeoxyribonuclease VII small subunit"; protein_id "WP_001124935.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 379896 379898 . - 0 gene_id "ECDH10B_RS01945"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "xseB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308503.1"; locus_tag "ECDH10B_RS01945"; product "exodeoxyribonuclease VII small subunit"; protein_id "WP_001124935.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 379656 379658 . - 0 gene_id "ECDH10B_RS01945"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "xseB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308503.1"; locus_tag "ECDH10B_RS01945"; product "exodeoxyribonuclease VII small subunit"; protein_id "WP_001124935.1"; transl_table "11"; -NC_010473.1 RefSeq gene 380104 381552 . + . gene_id "ECDH10B_RS01950"; transcript_id ""; gbkey "Gene"; gene "thiI"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS01950"; old_locus_tag "ECDH10B_0379"; -NC_010473.1 Protein Homology CDS 380104 381549 . + 0 gene_id "ECDH10B_RS01950"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "thiI"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_014168857.1"; locus_tag "ECDH10B_RS01950"; product "tRNA 4-thiouridine(8) synthase ThiI"; protein_id "WP_000668662.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 380104 380106 . + 0 gene_id "ECDH10B_RS01950"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "thiI"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_014168857.1"; locus_tag "ECDH10B_RS01950"; product "tRNA 4-thiouridine(8) synthase ThiI"; protein_id "WP_000668662.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 381550 381552 . + 0 gene_id "ECDH10B_RS01950"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "thiI"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_014168857.1"; locus_tag "ECDH10B_RS01950"; product "tRNA 4-thiouridine(8) synthase ThiI"; protein_id "WP_000668662.1"; transl_table "11"; -NC_010473.1 RefSeq gene 381606 382196 . - . gene_id "ECDH10B_RS01955"; transcript_id ""; gbkey "Gene"; gene "yajL"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS01955"; old_locus_tag "ECDH10B_0380"; -NC_010473.1 Protein Homology CDS 381609 382196 . - 0 gene_id "ECDH10B_RS01955"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yajL"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414958.4"; locus_tag "ECDH10B_RS01955"; product "protein deglycase YajL"; protein_id "WP_001276305.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 382194 382196 . - 0 gene_id "ECDH10B_RS01955"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yajL"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414958.4"; locus_tag "ECDH10B_RS01955"; product "protein deglycase YajL"; protein_id "WP_001276305.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 381606 381608 . - 0 gene_id "ECDH10B_RS01955"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yajL"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414958.4"; locus_tag "ECDH10B_RS01955"; product "protein deglycase YajL"; protein_id "WP_001276305.1"; transl_table "11"; -NC_010473.1 RefSeq gene 382159 383070 . - . gene_id "ECDH10B_RS01960"; transcript_id ""; gbkey "Gene"; gene "panE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS01960"; old_locus_tag "ECDH10B_0381"; -NC_010473.1 Protein Homology CDS 382162 383070 . - 0 gene_id "ECDH10B_RS01960"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "panE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414959.1"; locus_tag "ECDH10B_RS01960"; product "2-dehydropantoate 2-reductase"; protein_id "WP_000705865.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 383068 383070 . - 0 gene_id "ECDH10B_RS01960"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "panE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414959.1"; locus_tag "ECDH10B_RS01960"; product "2-dehydropantoate 2-reductase"; protein_id "WP_000705865.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 382159 382161 . - 0 gene_id "ECDH10B_RS01960"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "panE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414959.1"; locus_tag "ECDH10B_RS01960"; product "2-dehydropantoate 2-reductase"; protein_id "WP_000705865.1"; transl_table "11"; -NC_010473.1 RefSeq gene 383238 383729 . + . gene_id "ECDH10B_RS01965"; transcript_id ""; gbkey "Gene"; gene "yajQ"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS01965"; old_locus_tag "ECDH10B_0382"; -NC_010473.1 Protein Homology CDS 383238 383726 . + 0 gene_id "ECDH10B_RS01965"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yajQ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414960.2"; locus_tag "ECDH10B_RS01965"; product "nucleotide binding protein YajQ"; protein_id "WP_001138904.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 383238 383240 . + 0 gene_id "ECDH10B_RS01965"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yajQ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414960.2"; locus_tag "ECDH10B_RS01965"; product "nucleotide binding protein YajQ"; protein_id "WP_001138904.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 383727 383729 . + 0 gene_id "ECDH10B_RS01965"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yajQ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414960.2"; locus_tag "ECDH10B_RS01965"; product "nucleotide binding protein YajQ"; protein_id "WP_001138904.1"; transl_table "11"; -NC_010473.1 RefSeq gene 383857 385221 . - . gene_id "ECDH10B_RS01970"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS01970"; old_locus_tag "ECDH10B_0383"; -NC_010473.1 Protein Homology CDS 383860 385221 . - 0 gene_id "ECDH10B_RS01970"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414961.4"; locus_tag "ECDH10B_RS01970"; product "MFS transporter"; protein_id "WP_001000963.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 385219 385221 . - 0 gene_id "ECDH10B_RS01970"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414961.4"; locus_tag "ECDH10B_RS01970"; product "MFS transporter"; protein_id "WP_001000963.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 383857 383859 . - 0 gene_id "ECDH10B_RS01970"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414961.4"; locus_tag "ECDH10B_RS01970"; product "MFS transporter"; protein_id "WP_001000963.1"; transl_table "11"; -NC_010473.1 RefSeq gene 385370 386260 . - . gene_id "ECDH10B_RS01975"; transcript_id ""; gbkey "Gene"; gene "cyoE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS01975"; old_locus_tag "ECDH10B_0384"; -NC_010473.1 Protein Homology CDS 385373 386260 . - 0 gene_id "ECDH10B_RS01975"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cyoE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308509.1"; locus_tag "ECDH10B_RS01975"; product "protoheme IX farnesyltransferase"; protein_id "WP_000971336.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 386258 386260 . - 0 gene_id "ECDH10B_RS01975"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cyoE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308509.1"; locus_tag "ECDH10B_RS01975"; product "protoheme IX farnesyltransferase"; protein_id "WP_000971336.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 385370 385372 . - 0 gene_id "ECDH10B_RS01975"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cyoE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308509.1"; locus_tag "ECDH10B_RS01975"; product "protoheme IX farnesyltransferase"; protein_id "WP_000971336.1"; transl_table "11"; -NC_010473.1 RefSeq gene 386272 386601 . - . gene_id "ECDH10B_RS01980"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS01980"; old_locus_tag "ECDH10B_0385"; -NC_010473.1 Protein Homology CDS 386275 386601 . - 0 gene_id "ECDH10B_RS01980"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308510.1"; locus_tag "ECDH10B_RS01980"; product "cytochrome o ubiquinol oxidase subunit IV"; protein_id "WP_000019869.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 386599 386601 . - 0 gene_id "ECDH10B_RS01980"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308510.1"; locus_tag "ECDH10B_RS01980"; product "cytochrome o ubiquinol oxidase subunit IV"; protein_id "WP_000019869.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 386272 386274 . - 0 gene_id "ECDH10B_RS01980"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308510.1"; locus_tag "ECDH10B_RS01980"; product "cytochrome o ubiquinol oxidase subunit IV"; protein_id "WP_000019869.1"; transl_table "11"; -NC_010473.1 RefSeq gene 386601 387215 . - . gene_id "ECDH10B_RS01985"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS01985"; old_locus_tag "ECDH10B_0386"; -NC_010473.1 Protein Homology CDS 386604 387215 . - 0 gene_id "ECDH10B_RS01985"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414964.1"; locus_tag "ECDH10B_RS01985"; product "cytochrome o ubiquinol oxidase subunit III"; protein_id "WP_000179819.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 387213 387215 . - 0 gene_id "ECDH10B_RS01985"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414964.1"; locus_tag "ECDH10B_RS01985"; product "cytochrome o ubiquinol oxidase subunit III"; protein_id "WP_000179819.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 386601 386603 . - 0 gene_id "ECDH10B_RS01985"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414964.1"; locus_tag "ECDH10B_RS01985"; product "cytochrome o ubiquinol oxidase subunit III"; protein_id "WP_000179819.1"; transl_table "11"; -NC_010473.1 RefSeq gene 387205 389196 . - . gene_id "ECDH10B_RS01990"; transcript_id ""; gbkey "Gene"; gene "cyoB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS01990"; old_locus_tag "ECDH10B_0387"; -NC_010473.1 Protein Homology CDS 387208 389196 . - 0 gene_id "ECDH10B_RS01990"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cyoB"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_002444673.1"; locus_tag "ECDH10B_RS01990"; product "cytochrome o ubiquinol oxidase subunit I"; protein_id "WP_000467180.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 389194 389196 . - 0 gene_id "ECDH10B_RS01990"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cyoB"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_002444673.1"; locus_tag "ECDH10B_RS01990"; product "cytochrome o ubiquinol oxidase subunit I"; protein_id "WP_000467180.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 387205 387207 . - 0 gene_id "ECDH10B_RS01990"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cyoB"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_002444673.1"; locus_tag "ECDH10B_RS01990"; product "cytochrome o ubiquinol oxidase subunit I"; protein_id "WP_000467180.1"; transl_table "11"; -NC_010473.1 RefSeq gene 389218 390165 . - . gene_id "ECDH10B_RS01995"; transcript_id ""; gbkey "Gene"; gene "cyoA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS01995"; old_locus_tag "ECDH10B_0388"; -NC_010473.1 Protein Homology CDS 389221 390165 . - 0 gene_id "ECDH10B_RS01995"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cyoA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414966.1"; locus_tag "ECDH10B_RS01995"; product "cytochrome o ubiquinol oxidase subunit II"; protein_id "WP_001239436.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 390163 390165 . - 0 gene_id "ECDH10B_RS01995"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cyoA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414966.1"; locus_tag "ECDH10B_RS01995"; product "cytochrome o ubiquinol oxidase subunit II"; protein_id "WP_001239436.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 389218 389220 . - 0 gene_id "ECDH10B_RS01995"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cyoA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414966.1"; locus_tag "ECDH10B_RS01995"; product "cytochrome o ubiquinol oxidase subunit II"; protein_id "WP_001239436.1"; transl_table "11"; -NC_010473.1 RefSeq gene 390625 392100 . - . gene_id "ECDH10B_RS02000"; transcript_id ""; gbkey "Gene"; gene "ampG"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02000"; old_locus_tag "ECDH10B_0389"; -NC_010473.1 Protein Homology CDS 390628 392100 . - 0 gene_id "ECDH10B_RS02000"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ampG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308514.1"; locus_tag "ECDH10B_RS02000"; product "muropeptide MFS transporter AmpG"; protein_id "WP_000098429.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 392098 392100 . - 0 gene_id "ECDH10B_RS02000"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ampG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308514.1"; locus_tag "ECDH10B_RS02000"; product "muropeptide MFS transporter AmpG"; protein_id "WP_000098429.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 390625 390627 . - 0 gene_id "ECDH10B_RS02000"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ampG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308514.1"; locus_tag "ECDH10B_RS02000"; product "muropeptide MFS transporter AmpG"; protein_id "WP_000098429.1"; transl_table "11"; -NC_010473.1 RefSeq gene 392144 392722 . - . gene_id "ECDH10B_RS02005"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02005"; old_locus_tag "ECDH10B_0390"; -NC_010473.1 Protein Homology CDS 392147 392722 . - 0 gene_id "ECDH10B_RS02005"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414968.4"; locus_tag "ECDH10B_RS02005"; product "lipoprotein"; protein_id "WP_001295326.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 392720 392722 . - 0 gene_id "ECDH10B_RS02005"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414968.4"; locus_tag "ECDH10B_RS02005"; product "lipoprotein"; protein_id "WP_001295326.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 392144 392146 . - 0 gene_id "ECDH10B_RS02005"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414968.4"; locus_tag "ECDH10B_RS02005"; product "lipoprotein"; protein_id "WP_001295326.1"; transl_table "11"; -NC_010473.1 RefSeq gene 393027 393344 . + . gene_id "ECDH10B_RS02010"; transcript_id ""; gbkey "Gene"; gene "bolA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02010"; old_locus_tag "ECDH10B_0391"; -NC_010473.1 Protein Homology CDS 393027 393341 . + 0 gene_id "ECDH10B_RS02010"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "bolA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414969.4"; locus_tag "ECDH10B_RS02010"; product "transcriptional regulator BolA"; protein_id "WP_000973448.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 393027 393029 . + 0 gene_id "ECDH10B_RS02010"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "bolA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414969.4"; locus_tag "ECDH10B_RS02010"; product "transcriptional regulator BolA"; protein_id "WP_000973448.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 393342 393344 . + 0 gene_id "ECDH10B_RS02010"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "bolA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414969.4"; locus_tag "ECDH10B_RS02010"; product "transcriptional regulator BolA"; protein_id "WP_000973448.1"; transl_table "11"; -NC_010473.1 RefSeq gene 393688 394986 . + . gene_id "ECDH10B_RS02020"; transcript_id ""; gbkey "Gene"; gene "tig"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02020"; old_locus_tag "ECDH10B_0392"; -NC_010473.1 Protein Homology CDS 393688 394983 . + 0 gene_id "ECDH10B_RS02020"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tig"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001716227.1"; locus_tag "ECDH10B_RS02020"; product "trigger factor"; protein_id "WP_001198386.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 393688 393690 . + 0 gene_id "ECDH10B_RS02020"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tig"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001716227.1"; locus_tag "ECDH10B_RS02020"; product "trigger factor"; protein_id "WP_001198386.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 394984 394986 . + 0 gene_id "ECDH10B_RS02020"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tig"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001716227.1"; locus_tag "ECDH10B_RS02020"; product "trigger factor"; protein_id "WP_001198386.1"; transl_table "11"; -NC_010473.1 RefSeq gene 395232 395855 . + . gene_id "ECDH10B_RS02025"; transcript_id ""; gbkey "Gene"; gene "clpP"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02025"; old_locus_tag "ECDH10B_0393"; -NC_010473.1 Protein Homology CDS 395232 395852 . + 0 gene_id "ECDH10B_RS02025"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "clpP"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_006809880.1"; locus_tag "ECDH10B_RS02025"; product "ATP-dependent Clp endopeptidase proteolytic subunit ClpP"; protein_id "WP_000122253.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 395232 395234 . + 0 gene_id "ECDH10B_RS02025"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "clpP"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_006809880.1"; locus_tag "ECDH10B_RS02025"; product "ATP-dependent Clp endopeptidase proteolytic subunit ClpP"; protein_id "WP_000122253.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 395853 395855 . + 0 gene_id "ECDH10B_RS02025"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "clpP"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_006809880.1"; locus_tag "ECDH10B_RS02025"; product "ATP-dependent Clp endopeptidase proteolytic subunit ClpP"; protein_id "WP_000122253.1"; transl_table "11"; -NC_010473.1 RefSeq gene 395981 397255 . + . gene_id "ECDH10B_RS02030"; transcript_id ""; gbkey "Gene"; gene "clpX"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02030"; old_locus_tag "ECDH10B_0394"; -NC_010473.1 Protein Homology CDS 395981 397252 . + 0 gene_id "ECDH10B_RS02030"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "clpX"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001396736.1"; locus_tag "ECDH10B_RS02030"; product "ATP-dependent protease ATP-binding subunit ClpX"; protein_id "WP_000130305.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 395981 395983 . + 0 gene_id "ECDH10B_RS02030"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "clpX"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001396736.1"; locus_tag "ECDH10B_RS02030"; product "ATP-dependent protease ATP-binding subunit ClpX"; protein_id "WP_000130305.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 397253 397255 . + 0 gene_id "ECDH10B_RS02030"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "clpX"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001396736.1"; locus_tag "ECDH10B_RS02030"; product "ATP-dependent protease ATP-binding subunit ClpX"; protein_id "WP_000130305.1"; transl_table "11"; -NC_010473.1 RefSeq gene 397443 399797 . + . gene_id "ECDH10B_RS02035"; transcript_id ""; gbkey "Gene"; gene "lon"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02035"; old_locus_tag "ECDH10B_0395"; -NC_010473.1 Protein Homology CDS 397443 399794 . + 0 gene_id "ECDH10B_RS02035"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lon"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001469947.1"; locus_tag "ECDH10B_RS02035"; product "endopeptidase La"; protein_id "WP_001295325.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 397443 397445 . + 0 gene_id "ECDH10B_RS02035"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lon"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001469947.1"; locus_tag "ECDH10B_RS02035"; product "endopeptidase La"; protein_id "WP_001295325.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 399795 399797 . + 0 gene_id "ECDH10B_RS02035"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lon"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001469947.1"; locus_tag "ECDH10B_RS02035"; product "endopeptidase La"; protein_id "WP_001295325.1"; transl_table "11"; -NC_010473.1 RefSeq gene 400006 400278 . + . gene_id "ECDH10B_RS02040"; transcript_id ""; gbkey "Gene"; gene "hupB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02040"; old_locus_tag "ECDH10B_0396"; -NC_010473.1 Protein Homology CDS 400006 400275 . + 0 gene_id "ECDH10B_RS02040"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hupB"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_016535194.1"; locus_tag "ECDH10B_RS02040"; product "DNA-binding protein HU-beta"; protein_id "WP_001043542.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 400006 400008 . + 0 gene_id "ECDH10B_RS02040"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hupB"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_016535194.1"; locus_tag "ECDH10B_RS02040"; product "DNA-binding protein HU-beta"; protein_id "WP_001043542.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 400276 400278 . + 0 gene_id "ECDH10B_RS02040"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hupB"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_016535194.1"; locus_tag "ECDH10B_RS02040"; product "DNA-binding protein HU-beta"; protein_id "WP_001043542.1"; transl_table "11"; -NC_010473.1 RefSeq gene 400470 402341 . + . gene_id "ECDH10B_RS02045"; transcript_id ""; gbkey "Gene"; gene "ppiD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02045"; old_locus_tag "ECDH10B_0397"; -NC_010473.1 Protein Homology CDS 400470 402338 . + 0 gene_id "ECDH10B_RS02045"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ppiD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414975.1"; locus_tag "ECDH10B_RS02045"; product "peptidylprolyl isomerase"; protein_id "WP_000969372.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 400470 400472 . + 0 gene_id "ECDH10B_RS02045"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ppiD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414975.1"; locus_tag "ECDH10B_RS02045"; product "peptidylprolyl isomerase"; protein_id "WP_000969372.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 402339 402341 . + 0 gene_id "ECDH10B_RS02045"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ppiD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414975.1"; locus_tag "ECDH10B_RS02045"; product "peptidylprolyl isomerase"; protein_id "WP_000969372.1"; transl_table "11"; -NC_010473.1 RefSeq gene 402492 402863 . + . gene_id "ECDH10B_RS02050"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02050"; old_locus_tag "ECDH10B_0398"; -NC_010473.1 Protein Homology CDS 402492 402860 . + 0 gene_id "ECDH10B_RS02050"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414976.1"; locus_tag "ECDH10B_RS02050"; product "helix-hairpin-helix domain-containing protein"; protein_id "WP_000680312.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 402492 402494 . + 0 gene_id "ECDH10B_RS02050"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414976.1"; locus_tag "ECDH10B_RS02050"; product "helix-hairpin-helix domain-containing protein"; protein_id "WP_000680312.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 402861 402863 . + 0 gene_id "ECDH10B_RS02050"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414976.1"; locus_tag "ECDH10B_RS02050"; product "helix-hairpin-helix domain-containing protein"; protein_id "WP_000680312.1"; transl_table "11"; -NC_010473.1 RefSeq gene 402957 403355 . + . gene_id "ECDH10B_RS02055"; transcript_id ""; gbkey "Gene"; gene "fadM"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02055"; old_locus_tag "ECDH10B_0399"; -NC_010473.1 Protein Homology CDS 402957 403352 . + 0 gene_id "ECDH10B_RS02055"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fadM"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414977.1"; locus_tag "ECDH10B_RS02055"; product "long-chain acyl-CoA thioesterase FadM"; protein_id "WP_001194534.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 402957 402959 . + 0 gene_id "ECDH10B_RS02055"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fadM"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414977.1"; locus_tag "ECDH10B_RS02055"; product "long-chain acyl-CoA thioesterase FadM"; protein_id "WP_001194534.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 403353 403355 . + 0 gene_id "ECDH10B_RS02055"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fadM"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414977.1"; locus_tag "ECDH10B_RS02055"; product "long-chain acyl-CoA thioesterase FadM"; protein_id "WP_001194534.1"; transl_table "11"; -NC_010473.1 RefSeq gene 403407 404102 . - . gene_id "ECDH10B_RS02060"; transcript_id ""; gbkey "Gene"; gene "queC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02060"; old_locus_tag "ECDH10B_0400"; -NC_010473.1 Protein Homology CDS 403410 404102 . - 0 gene_id "ECDH10B_RS02060"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "queC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414978.1"; locus_tag "ECDH10B_RS02060"; product "7-cyano-7-deazaguanine synthase QueC"; protein_id "WP_000817220.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 404100 404102 . - 0 gene_id "ECDH10B_RS02060"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "queC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414978.1"; locus_tag "ECDH10B_RS02060"; product "7-cyano-7-deazaguanine synthase QueC"; protein_id "WP_000817220.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 403407 403409 . - 0 gene_id "ECDH10B_RS02060"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "queC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414978.1"; locus_tag "ECDH10B_RS02060"; product "7-cyano-7-deazaguanine synthase QueC"; protein_id "WP_000817220.1"; transl_table "11"; -NC_010473.1 RefSeq gene 404167 405867 . - . gene_id "ECDH10B_RS02065"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02065"; old_locus_tag "ECDH10B_0401"; -NC_010473.1 Protein Homology CDS 404170 405867 . - 0 gene_id "ECDH10B_RS02065"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414979.1"; locus_tag "ECDH10B_RS02065"; product "SgrR family transcriptional regulator"; protein_id "WP_001238234.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 405865 405867 . - 0 gene_id "ECDH10B_RS02065"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414979.1"; locus_tag "ECDH10B_RS02065"; product "SgrR family transcriptional regulator"; protein_id "WP_001238234.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 404167 404169 . - 0 gene_id "ECDH10B_RS02065"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414979.1"; locus_tag "ECDH10B_RS02065"; product "SgrR family transcriptional regulator"; protein_id "WP_001238234.1"; transl_table "11"; -NC_010473.1 RefSeq gene 405967 406785 . + . gene_id "ECDH10B_RS02070"; transcript_id ""; gbkey "Gene"; gene "cof"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02070"; old_locus_tag "ECDH10B_0402"; -NC_010473.1 Protein Homology CDS 405967 406782 . + 0 gene_id "ECDH10B_RS02070"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cof"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414980.2"; locus_tag "ECDH10B_RS02070"; product "HMP-PP phosphatase"; protein_id "WP_001336137.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 405967 405969 . + 0 gene_id "ECDH10B_RS02070"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cof"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414980.2"; locus_tag "ECDH10B_RS02070"; product "HMP-PP phosphatase"; protein_id "WP_001336137.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 406783 406785 . + 0 gene_id "ECDH10B_RS02070"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cof"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414980.2"; locus_tag "ECDH10B_RS02070"; product "HMP-PP phosphatase"; protein_id "WP_001336137.1"; transl_table "11"; -NC_010473.1 RefSeq gene 406938 407396 . + . gene_id "ECDH10B_RS02075"; transcript_id ""; gbkey "Gene"; gene "decR"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02075"; old_locus_tag "ECDH10B_0403"; -NC_010473.1 Protein Homology CDS 406938 407393 . + 0 gene_id "ECDH10B_RS02075"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "decR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308528.2"; locus_tag "ECDH10B_RS02075"; product "DNA-binding transcriptional regulator DecR"; protein_id "WP_000884589.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 406938 406940 . + 0 gene_id "ECDH10B_RS02075"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "decR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308528.2"; locus_tag "ECDH10B_RS02075"; product "DNA-binding transcriptional regulator DecR"; protein_id "WP_000884589.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 407394 407396 . + 0 gene_id "ECDH10B_RS02075"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "decR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308528.2"; locus_tag "ECDH10B_RS02075"; product "DNA-binding transcriptional regulator DecR"; protein_id "WP_000884589.1"; transl_table "11"; -NC_010473.1 RefSeq gene 407426 409198 . + . gene_id "ECDH10B_RS02080"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02080"; old_locus_tag "ECDH10B_0404"; -NC_010473.1 Protein Homology CDS 407426 409195 . + 0 gene_id "ECDH10B_RS02080"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414982.1"; locus_tag "ECDH10B_RS02080"; product "SmdA family multidrug ABC transporter permease/ATP-binding protein"; protein_id "WP_001235649.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 407426 407428 . + 0 gene_id "ECDH10B_RS02080"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414982.1"; locus_tag "ECDH10B_RS02080"; product "SmdA family multidrug ABC transporter permease/ATP-binding protein"; protein_id "WP_001235649.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 409196 409198 . + 0 gene_id "ECDH10B_RS02080"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414982.1"; locus_tag "ECDH10B_RS02080"; product "SmdA family multidrug ABC transporter permease/ATP-binding protein"; protein_id "WP_001235649.1"; transl_table "11"; -NC_010473.1 RefSeq gene 409191 410972 . + . gene_id "ECDH10B_RS02085"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02085"; old_locus_tag "ECDH10B_0405"; -NC_010473.1 Protein Homology CDS 409191 410969 . + 0 gene_id "ECDH10B_RS02085"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308530.1"; locus_tag "ECDH10B_RS02085"; product "SmdB family multidrug efflux ABC transporter permease/ATP-binding protein"; protein_id "WP_001256201.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 409191 409193 . + 0 gene_id "ECDH10B_RS02085"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308530.1"; locus_tag "ECDH10B_RS02085"; product "SmdB family multidrug efflux ABC transporter permease/ATP-binding protein"; protein_id "WP_001256201.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 410970 410972 . + 0 gene_id "ECDH10B_RS02085"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308530.1"; locus_tag "ECDH10B_RS02085"; product "SmdB family multidrug efflux ABC transporter permease/ATP-binding protein"; protein_id "WP_001256201.1"; transl_table "11"; -NC_010473.1 RefSeq gene 411153 411491 . + . gene_id "ECDH10B_RS02090"; transcript_id ""; gbkey "Gene"; gene "glnK"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02090"; old_locus_tag "ECDH10B_0406"; -NC_010473.1 Protein Homology CDS 411153 411488 . + 0 gene_id "ECDH10B_RS02090"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "glnK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308531.1"; locus_tag "ECDH10B_RS02090"; product "P-II family nitrogen regulator"; protein_id "WP_000780338.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 411153 411155 . + 0 gene_id "ECDH10B_RS02090"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "glnK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308531.1"; locus_tag "ECDH10B_RS02090"; product "P-II family nitrogen regulator"; protein_id "WP_000780338.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 411489 411491 . + 0 gene_id "ECDH10B_RS02090"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "glnK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308531.1"; locus_tag "ECDH10B_RS02090"; product "P-II family nitrogen regulator"; protein_id "WP_000780338.1"; transl_table "11"; -NC_010473.1 RefSeq gene 411521 412807 . + . gene_id "ECDH10B_RS02095"; transcript_id ""; gbkey "Gene"; gene "amtB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02095"; old_locus_tag "ECDH10B_0407"; -NC_010473.1 Protein Homology CDS 411521 412804 . + 0 gene_id "ECDH10B_RS02095"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "amtB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308532.1"; locus_tag "ECDH10B_RS02095"; product "ammonium transporter AmtB"; protein_id "WP_000685029.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 411521 411523 . + 0 gene_id "ECDH10B_RS02095"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "amtB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308532.1"; locus_tag "ECDH10B_RS02095"; product "ammonium transporter AmtB"; protein_id "WP_000685029.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 412805 412807 . + 0 gene_id "ECDH10B_RS02095"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "amtB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308532.1"; locus_tag "ECDH10B_RS02095"; product "ammonium transporter AmtB"; protein_id "WP_000685029.1"; transl_table "11"; -NC_010473.1 RefSeq gene 412856 413716 . - . gene_id "ECDH10B_RS02100"; transcript_id ""; gbkey "Gene"; gene "tesB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02100"; old_locus_tag "ECDH10B_0408"; -NC_010473.1 Protein Homology CDS 412859 413716 . - 0 gene_id "ECDH10B_RS02100"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tesB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308533.1"; locus_tag "ECDH10B_RS02100"; product "acyl-CoA thioesterase II"; protein_id "WP_000075876.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 413714 413716 . - 0 gene_id "ECDH10B_RS02100"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tesB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308533.1"; locus_tag "ECDH10B_RS02100"; product "acyl-CoA thioesterase II"; protein_id "WP_000075876.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 412856 412858 . - 0 gene_id "ECDH10B_RS02100"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tesB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308533.1"; locus_tag "ECDH10B_RS02100"; product "acyl-CoA thioesterase II"; protein_id "WP_000075876.1"; transl_table "11"; -NC_010473.1 RefSeq gene 413934 414506 . + . gene_id "ECDH10B_RS02105"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02105"; old_locus_tag "ECDH10B_0409"; -NC_010473.1 Protein Homology CDS 413934 414503 . + 0 gene_id "ECDH10B_RS02105"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414987.3"; locus_tag "ECDH10B_RS02105"; product "YbaY family lipoprotein"; protein_id "WP_000779842.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 413934 413936 . + 0 gene_id "ECDH10B_RS02105"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414987.3"; locus_tag "ECDH10B_RS02105"; product "YbaY family lipoprotein"; protein_id "WP_000779842.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 414504 414506 . + 0 gene_id "ECDH10B_RS02105"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414987.3"; locus_tag "ECDH10B_RS02105"; product "YbaY family lipoprotein"; protein_id "WP_000779842.1"; transl_table "11"; -NC_010473.1 RefSeq gene 414537 414848 . - . gene_id "ECDH10B_RS02110"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02110"; old_locus_tag "ECDH10B_0410"; -NC_010473.1 Protein Homology CDS 414540 414848 . - 0 gene_id "ECDH10B_RS02110"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_706349.2"; locus_tag "ECDH10B_RS02110"; product "MGMT family protein"; protein_id "WP_000409911.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 414846 414848 . - 0 gene_id "ECDH10B_RS02110"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_706349.2"; locus_tag "ECDH10B_RS02110"; product "MGMT family protein"; protein_id "WP_000409911.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 414537 414539 . - 0 gene_id "ECDH10B_RS02110"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_706349.2"; locus_tag "ECDH10B_RS02110"; product "MGMT family protein"; protein_id "WP_000409911.1"; transl_table "11"; -NC_010473.1 RefSeq gene 415011 415107 . + . gene_id "ECDH10B_RS23295"; transcript_id ""; gbkey "Gene"; gene "ffs"; gene_biotype "SRP_RNA"; locus_tag "ECDH10B_RS23295"; old_locus_tag "ECDH10B_0411"; -NC_010473.1 cmsearch exon 415011 415107 . + . gene_id "ECDH10B_RS23295"; transcript_id "ECDH10B_RS23295"; db_xref "RFAM:RF00169"; gbkey "ncRNA"; gene "ffs"; inference "COORDINATES: nucleotide motif:Rfam:12.0:RF00169"; inference "COORDINATES: profile:INFERNAL:1.1.1"; locus_tag "ECDH10B_RS23295"; product "signal recognition particle sRNA small type"; exon_number "1"; -NC_010473.1 RefSeq gene 415227 415580 . + . gene_id "ECDH10B_RS02115"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02115"; old_locus_tag "ECDH10B_0412"; -NC_010473.1 Protein Homology CDS 415227 415577 . + 0 gene_id "ECDH10B_RS02115"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308536.1"; locus_tag "ECDH10B_RS02115"; product "DUF1428 domain-containing protein"; protein_id "WP_000878140.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 415227 415229 . + 0 gene_id "ECDH10B_RS02115"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308536.1"; locus_tag "ECDH10B_RS02115"; product "DUF1428 domain-containing protein"; protein_id "WP_000878140.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 415578 415580 . + 0 gene_id "ECDH10B_RS02115"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308536.1"; locus_tag "ECDH10B_RS02115"; product "DUF1428 domain-containing protein"; protein_id "WP_000878140.1"; transl_table "11"; -NC_010473.1 RefSeq gene 415622 417172 . - . gene_id "ECDH10B_RS02120"; transcript_id ""; gbkey "Gene"; gene "pdeB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02120"; old_locus_tag "ECDH10B_0413"; -NC_010473.1 Protein Homology CDS 415625 417172 . - 0 gene_id "ECDH10B_RS02120"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pdeB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414990.2"; locus_tag "ECDH10B_RS02120"; product "cyclic-guanylate-specific phosphodiesterase PdeB"; protein_id "WP_001310610.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 417170 417172 . - 0 gene_id "ECDH10B_RS02120"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pdeB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414990.2"; locus_tag "ECDH10B_RS02120"; product "cyclic-guanylate-specific phosphodiesterase PdeB"; protein_id "WP_001310610.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 415622 415624 . - 0 gene_id "ECDH10B_RS02120"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pdeB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414990.2"; locus_tag "ECDH10B_RS02120"; product "cyclic-guanylate-specific phosphodiesterase PdeB"; protein_id "WP_001310610.1"; transl_table "11"; -NC_010473.1 RefSeq gene 417336 417806 . - . gene_id "ECDH10B_RS02125"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02125"; old_locus_tag "ECDH10B_0414"; -NC_010473.1 Protein Homology CDS 417339 417806 . - 0 gene_id "ECDH10B_RS02125"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308538.2"; locus_tag "ECDH10B_RS02125"; product "YlaC family protein"; protein_id "WP_000136192.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 417804 417806 . - 0 gene_id "ECDH10B_RS02125"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308538.2"; locus_tag "ECDH10B_RS02125"; product "YlaC family protein"; protein_id "WP_000136192.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 417336 417338 . - 0 gene_id "ECDH10B_RS02125"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308538.2"; locus_tag "ECDH10B_RS02125"; product "YlaC family protein"; protein_id "WP_000136192.1"; transl_table "11"; -NC_010473.1 RefSeq gene 417922 418473 . - . gene_id "ECDH10B_RS02130"; transcript_id ""; gbkey "Gene"; gene "maa"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02130"; old_locus_tag "ECDH10B_0415"; -NC_010473.1 Protein Homology CDS 417925 418473 . - 0 gene_id "ECDH10B_RS02130"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "maa"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414992.1"; locus_tag "ECDH10B_RS02130"; product "maltose O-acetyltransferase"; protein_id "WP_000102564.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 418471 418473 . - 0 gene_id "ECDH10B_RS02130"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "maa"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414992.1"; locus_tag "ECDH10B_RS02130"; product "maltose O-acetyltransferase"; protein_id "WP_000102564.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 417922 417924 . - 0 gene_id "ECDH10B_RS02130"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "maa"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414992.1"; locus_tag "ECDH10B_RS02130"; product "maltose O-acetyltransferase"; protein_id "WP_000102564.1"; transl_table "11"; -NC_010473.1 RefSeq gene 418645 418863 . - . gene_id "ECDH10B_RS02135"; transcript_id ""; gbkey "Gene"; gene "hha"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02135"; old_locus_tag "ECDH10B_0416"; -NC_010473.1 Protein Homology CDS 418648 418863 . - 0 gene_id "ECDH10B_RS02135"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hha"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308540.1"; locus_tag "ECDH10B_RS02135"; product "hemolysin expression modulator Hha"; protein_id "WP_001290581.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 418861 418863 . - 0 gene_id "ECDH10B_RS02135"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hha"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308540.1"; locus_tag "ECDH10B_RS02135"; product "hemolysin expression modulator Hha"; protein_id "WP_001290581.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 418645 418647 . - 0 gene_id "ECDH10B_RS02135"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hha"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308540.1"; locus_tag "ECDH10B_RS02135"; product "hemolysin expression modulator Hha"; protein_id "WP_001290581.1"; transl_table "11"; -NC_010473.1 RefSeq gene 418889 419263 . - . gene_id "ECDH10B_RS02140"; transcript_id ""; gbkey "Gene"; gene "tomB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02140"; old_locus_tag "ECDH10B_0417"; -NC_010473.1 Protein Homology CDS 418892 419263 . - 0 gene_id "ECDH10B_RS02140"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tomB"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001741190.1"; locus_tag "ECDH10B_RS02140"; product "Hha toxicity modulator TomB"; protein_id "WP_000344800.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 419261 419263 . - 0 gene_id "ECDH10B_RS02140"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tomB"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001741190.1"; locus_tag "ECDH10B_RS02140"; product "Hha toxicity modulator TomB"; protein_id "WP_000344800.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 418889 418891 . - 0 gene_id "ECDH10B_RS02140"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tomB"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001741190.1"; locus_tag "ECDH10B_RS02140"; product "Hha toxicity modulator TomB"; protein_id "WP_000344800.1"; transl_table "11"; -NC_010473.1 RefSeq gene 419809 422958 . - . gene_id "ECDH10B_RS02145"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02145"; old_locus_tag "ECDH10B_0418"; -NC_010473.1 Protein Homology CDS 419812 422958 . - 0 gene_id "ECDH10B_RS02145"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414995.1"; locus_tag "ECDH10B_RS02145"; product "multidrug efflux RND transporter permease subunit"; protein_id "WP_001132469.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 422956 422958 . - 0 gene_id "ECDH10B_RS02145"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414995.1"; locus_tag "ECDH10B_RS02145"; product "multidrug efflux RND transporter permease subunit"; protein_id "WP_001132469.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 419809 419811 . - 0 gene_id "ECDH10B_RS02145"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414995.1"; locus_tag "ECDH10B_RS02145"; product "multidrug efflux RND transporter permease subunit"; protein_id "WP_001132469.1"; transl_table "11"; -NC_010473.1 RefSeq gene 422981 424174 . - . gene_id "ECDH10B_RS02150"; transcript_id ""; gbkey "Gene"; gene "acrA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02150"; old_locus_tag "ECDH10B_0419"; -NC_010473.1 Protein Homology CDS 422984 424174 . - 0 gene_id "ECDH10B_RS02150"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "acrA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308543.1"; locus_tag "ECDH10B_RS02150"; product "multidrug efflux RND transporter periplasmic adaptor subunit AcrA"; protein_id "WP_001295324.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 424172 424174 . - 0 gene_id "ECDH10B_RS02150"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "acrA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308543.1"; locus_tag "ECDH10B_RS02150"; product "multidrug efflux RND transporter periplasmic adaptor subunit AcrA"; protein_id "WP_001295324.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 422981 422983 . - 0 gene_id "ECDH10B_RS02150"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "acrA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308543.1"; locus_tag "ECDH10B_RS02150"; product "multidrug efflux RND transporter periplasmic adaptor subunit AcrA"; protein_id "WP_001295324.1"; transl_table "11"; -NC_010473.1 RefSeq gene 424316 424963 . + . gene_id "ECDH10B_RS02155"; transcript_id ""; gbkey "Gene"; gene "acrR"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02155"; old_locus_tag "ECDH10B_0420"; -NC_010473.1 Protein Homology CDS 424316 424960 . + 0 gene_id "ECDH10B_RS02155"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "acrR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414997.1"; locus_tag "ECDH10B_RS02155"; product "multidrug efflux transporter transcriptional repressor AcrR"; protein_id "WP_000101737.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 424316 424318 . + 0 gene_id "ECDH10B_RS02155"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "acrR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414997.1"; locus_tag "ECDH10B_RS02155"; product "multidrug efflux transporter transcriptional repressor AcrR"; protein_id "WP_000101737.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 424961 424963 . + 0 gene_id "ECDH10B_RS02155"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "acrR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414997.1"; locus_tag "ECDH10B_RS02155"; product "multidrug efflux transporter transcriptional repressor AcrR"; protein_id "WP_000101737.1"; transl_table "11"; -NC_010473.1 RefSeq gene 425091 428453 . + . gene_id "ECDH10B_RS02160"; transcript_id ""; gbkey "Gene"; gene "mscK"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02160"; old_locus_tag "ECDH10B_0421"; -NC_010473.1 Protein Homology CDS 425091 428450 . + 0 gene_id "ECDH10B_RS02160"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mscK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414998.1"; locus_tag "ECDH10B_RS02160"; product "mechanosensitive channel MscK"; protein_id "WP_000177732.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 425091 425093 . + 0 gene_id "ECDH10B_RS02160"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mscK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414998.1"; locus_tag "ECDH10B_RS02160"; product "mechanosensitive channel MscK"; protein_id "WP_000177732.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 428451 428453 . + 0 gene_id "ECDH10B_RS02160"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mscK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414998.1"; locus_tag "ECDH10B_RS02160"; product "mechanosensitive channel MscK"; protein_id "WP_000177732.1"; transl_table "11"; -NC_010473.1 RefSeq gene 428665 428826 . - . gene_id "ECDH10B_RS02170"; transcript_id ""; gbkey "Gene"; gene "rsmS"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02170"; old_locus_tag "ECDH10B_0422"; -NC_010473.1 Protein Homology CDS 428668 428826 . - 0 gene_id "ECDH10B_RS02170"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rsmS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414999.1"; locus_tag "ECDH10B_RS02170"; product "pleiotropic regulatory protein RsmS"; protein_id "WP_000051153.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 428824 428826 . - 0 gene_id "ECDH10B_RS02170"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rsmS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414999.1"; locus_tag "ECDH10B_RS02170"; product "pleiotropic regulatory protein RsmS"; protein_id "WP_000051153.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 428665 428667 . - 0 gene_id "ECDH10B_RS02170"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rsmS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414999.1"; locus_tag "ECDH10B_RS02170"; product "pleiotropic regulatory protein RsmS"; protein_id "WP_000051153.1"; transl_table "11"; -NC_010473.1 RefSeq gene 428840 429367 . - . gene_id "ECDH10B_RS02175"; transcript_id ""; gbkey "Gene"; gene "priC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02175"; old_locus_tag "ECDH10B_0423"; -NC_010473.1 Protein Homology CDS 428843 429367 . - 0 gene_id "ECDH10B_RS02175"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "priC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415000.1"; locus_tag "ECDH10B_RS02175"; product "primosomal replication protein N''"; protein_id "WP_000844874.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 429365 429367 . - 0 gene_id "ECDH10B_RS02175"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "priC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415000.1"; locus_tag "ECDH10B_RS02175"; product "primosomal replication protein N''"; protein_id "WP_000844874.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 428840 428842 . - 0 gene_id "ECDH10B_RS02175"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "priC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415000.1"; locus_tag "ECDH10B_RS02175"; product "primosomal replication protein N''"; protein_id "WP_000844874.1"; transl_table "11"; -NC_010473.1 RefSeq gene 429437 429814 . + . gene_id "ECDH10B_RS02180"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02180"; old_locus_tag "ECDH10B_0424"; -NC_010473.1 Protein Homology CDS 429437 429811 . + 0 gene_id "ECDH10B_RS02180"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308548.1"; locus_tag "ECDH10B_RS02180"; product "DUF454 family protein"; protein_id "WP_001188905.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 429437 429439 . + 0 gene_id "ECDH10B_RS02180"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308548.1"; locus_tag "ECDH10B_RS02180"; product "DUF454 family protein"; protein_id "WP_001188905.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 429812 429814 . + 0 gene_id "ECDH10B_RS02180"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308548.1"; locus_tag "ECDH10B_RS02180"; product "DUF454 family protein"; protein_id "WP_001188905.1"; transl_table "11"; -NC_010473.1 RefSeq gene 429967 430518 . + . gene_id "ECDH10B_RS02185"; transcript_id ""; gbkey "Gene"; gene "apt"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02185"; old_locus_tag "ECDH10B_0425"; -NC_010473.1 Protein Homology CDS 429967 430515 . + 0 gene_id "ECDH10B_RS02185"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "apt"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005125198.1"; locus_tag "ECDH10B_RS02185"; product "adenine phosphoribosyltransferase"; protein_id "WP_000127356.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 429967 429969 . + 0 gene_id "ECDH10B_RS02185"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "apt"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005125198.1"; locus_tag "ECDH10B_RS02185"; product "adenine phosphoribosyltransferase"; protein_id "WP_000127356.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 430516 430518 . + 0 gene_id "ECDH10B_RS02185"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "apt"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005125198.1"; locus_tag "ECDH10B_RS02185"; product "adenine phosphoribosyltransferase"; protein_id "WP_000127356.1"; transl_table "11"; -NC_010473.1 RefSeq gene 430647 432578 . + . gene_id "ECDH10B_RS02190"; transcript_id ""; gbkey "Gene"; gene "dnaX"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02190"; old_locus_tag "ECDH10B_0426"; -NC_010473.1 Protein Homology CDS 430647 432575 . + 0 gene_id "ECDH10B_RS02190"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dnaX"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415003.1"; locus_tag "ECDH10B_RS02190"; product "DNA polymerase III subunit gamma/tau"; protein_id "WP_000122013.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 430647 430649 . + 0 gene_id "ECDH10B_RS02190"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dnaX"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415003.1"; locus_tag "ECDH10B_RS02190"; product "DNA polymerase III subunit gamma/tau"; protein_id "WP_000122013.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 432576 432578 . + 0 gene_id "ECDH10B_RS02190"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dnaX"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415003.1"; locus_tag "ECDH10B_RS02190"; product "DNA polymerase III subunit gamma/tau"; protein_id "WP_000122013.1"; transl_table "11"; -NC_010473.1 RefSeq gene 432631 432960 . + . gene_id "ECDH10B_RS02195"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02195"; old_locus_tag "ECDH10B_0427"; -NC_010473.1 Protein Homology CDS 432631 432957 . + 0 gene_id "ECDH10B_RS02195"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001364632.1"; locus_tag "ECDH10B_RS02195"; product "YbaB/EbfC family nucleoid-associated protein"; protein_id "WP_000467098.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 432631 432633 . + 0 gene_id "ECDH10B_RS02195"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001364632.1"; locus_tag "ECDH10B_RS02195"; product "YbaB/EbfC family nucleoid-associated protein"; protein_id "WP_000467098.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 432958 432960 . + 0 gene_id "ECDH10B_RS02195"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001364632.1"; locus_tag "ECDH10B_RS02195"; product "YbaB/EbfC family nucleoid-associated protein"; protein_id "WP_000467098.1"; transl_table "11"; -NC_010473.1 RefSeq gene 432960 433565 . + . gene_id "ECDH10B_RS02200"; transcript_id ""; gbkey "Gene"; gene "recR"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02200"; old_locus_tag "ECDH10B_0428"; -NC_010473.1 Protein Homology CDS 432960 433562 . + 0 gene_id "ECDH10B_RS02200"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "recR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308552.1"; locus_tag "ECDH10B_RS02200"; product "recombination protein RecR"; protein_id "WP_001195025.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 432960 432962 . + 0 gene_id "ECDH10B_RS02200"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "recR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308552.1"; locus_tag "ECDH10B_RS02200"; product "recombination protein RecR"; protein_id "WP_001195025.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 433563 433565 . + 0 gene_id "ECDH10B_RS02200"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "recR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308552.1"; locus_tag "ECDH10B_RS02200"; product "recombination protein RecR"; protein_id "WP_001195025.1"; transl_table "11"; -NC_010473.1 RefSeq gene 433675 435549 . + . gene_id "ECDH10B_RS02205"; transcript_id ""; gbkey "Gene"; gene "htpG"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02205"; old_locus_tag "ECDH10B_0429"; -NC_010473.1 Protein Homology CDS 433675 435546 . + 0 gene_id "ECDH10B_RS02205"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "htpG"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_003903109.1"; locus_tag "ECDH10B_RS02205"; product "molecular chaperone HtpG"; protein_id "WP_000678201.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 433675 433677 . + 0 gene_id "ECDH10B_RS02205"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "htpG"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_003903109.1"; locus_tag "ECDH10B_RS02205"; product "molecular chaperone HtpG"; protein_id "WP_000678201.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 435547 435549 . + 0 gene_id "ECDH10B_RS02205"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "htpG"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_003903109.1"; locus_tag "ECDH10B_RS02205"; product "molecular chaperone HtpG"; protein_id "WP_000678201.1"; transl_table "11"; -NC_010473.1 RefSeq gene 435730 436374 . + . gene_id "ECDH10B_RS02210"; transcript_id ""; gbkey "Gene"; gene "adk"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02210"; old_locus_tag "ECDH10B_0430"; -NC_010473.1 Protein Homology CDS 435730 436371 . + 0 gene_id "ECDH10B_RS02210"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "adk"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_007706188.1"; locus_tag "ECDH10B_RS02210"; product "adenylate kinase"; protein_id "WP_001220233.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 435730 435732 . + 0 gene_id "ECDH10B_RS02210"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "adk"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_007706188.1"; locus_tag "ECDH10B_RS02210"; product "adenylate kinase"; protein_id "WP_001220233.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 436372 436374 . + 0 gene_id "ECDH10B_RS02210"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "adk"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_007706188.1"; locus_tag "ECDH10B_RS02210"; product "adenylate kinase"; protein_id "WP_001220233.1"; transl_table "11"; -NC_010473.1 RefSeq gene 436610 437572 . + . gene_id "ECDH10B_RS02215"; transcript_id ""; gbkey "Gene"; gene "hemH"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02215"; old_locus_tag "ECDH10B_0431"; -NC_010473.1 Protein Homology CDS 436610 437569 . + 0 gene_id "ECDH10B_RS02215"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hemH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415008.1"; locus_tag "ECDH10B_RS02215"; product "ferrochelatase"; protein_id "WP_001250103.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 436610 436612 . + 0 gene_id "ECDH10B_RS02215"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hemH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415008.1"; locus_tag "ECDH10B_RS02215"; product "ferrochelatase"; protein_id "WP_001250103.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 437570 437572 . + 0 gene_id "ECDH10B_RS02215"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hemH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415008.1"; locus_tag "ECDH10B_RS02215"; product "ferrochelatase"; protein_id "WP_001250103.1"; transl_table "11"; -NC_010473.1 RefSeq gene 437569 438528 . - . gene_id "ECDH10B_RS02220"; transcript_id ""; gbkey "Gene"; gene "aes"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02220"; old_locus_tag "ECDH10B_0432"; -NC_010473.1 Protein Homology CDS 437572 438528 . - 0 gene_id "ECDH10B_RS02220"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "aes"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415009.1"; locus_tag "ECDH10B_RS02220"; product "acetyl esterase"; protein_id "WP_000801813.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 438526 438528 . - 0 gene_id "ECDH10B_RS02220"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "aes"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415009.1"; locus_tag "ECDH10B_RS02220"; product "acetyl esterase"; protein_id "WP_000801813.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 437569 437571 . - 0 gene_id "ECDH10B_RS02220"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "aes"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415009.1"; locus_tag "ECDH10B_RS02220"; product "acetyl esterase"; protein_id "WP_000801813.1"; transl_table "11"; -NC_010473.1 RefSeq gene 438680 439984 . + . gene_id "ECDH10B_RS02225"; transcript_id ""; gbkey "Gene"; gene "gsk"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02225"; old_locus_tag "ECDH10B_0433"; -NC_010473.1 Protein Homology CDS 438680 439981 . + 0 gene_id "ECDH10B_RS02225"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gsk"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308557.1"; locus_tag "ECDH10B_RS02225"; product "inosine/guanosine kinase"; protein_id "WP_000671574.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 438680 438682 . + 0 gene_id "ECDH10B_RS02225"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gsk"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308557.1"; locus_tag "ECDH10B_RS02225"; product "inosine/guanosine kinase"; protein_id "WP_000671574.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 439982 439984 . + 0 gene_id "ECDH10B_RS02225"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gsk"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308557.1"; locus_tag "ECDH10B_RS02225"; product "inosine/guanosine kinase"; protein_id "WP_000671574.1"; transl_table "11"; -NC_010473.1 RefSeq gene 440117 441793 . - . gene_id "ECDH10B_RS02230"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02230"; old_locus_tag "ECDH10B_0434"; -NC_010473.1 Protein Homology CDS 440120 441793 . - 0 gene_id "ECDH10B_RS02230"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415011.1"; locus_tag "ECDH10B_RS02230"; product "Kef family K(+) transporter"; protein_id "WP_000546237.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 441791 441793 . - 0 gene_id "ECDH10B_RS02230"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415011.1"; locus_tag "ECDH10B_RS02230"; product "Kef family K(+) transporter"; protein_id "WP_000546237.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 440117 440119 . - 0 gene_id "ECDH10B_RS02230"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415011.1"; locus_tag "ECDH10B_RS02230"; product "Kef family K(+) transporter"; protein_id "WP_000546237.1"; transl_table "11"; -NC_010473.1 RefSeq gene 442031 443251 . - . gene_id "ECDH10B_RS02235"; transcript_id ""; gbkey "Gene"; gene "fsr"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02235"; old_locus_tag "ECDH10B_0435"; -NC_010473.1 Protein Homology CDS 442034 443251 . - 0 gene_id "ECDH10B_RS02235"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fsr"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415012.1"; locus_tag "ECDH10B_RS02235"; product "fosmidomycin MFS transporter"; protein_id "WP_001251608.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 443249 443251 . - 0 gene_id "ECDH10B_RS02235"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fsr"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415012.1"; locus_tag "ECDH10B_RS02235"; product "fosmidomycin MFS transporter"; protein_id "WP_001251608.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 442031 442033 . - 0 gene_id "ECDH10B_RS02235"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fsr"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415012.1"; locus_tag "ECDH10B_RS02235"; product "fosmidomycin MFS transporter"; protein_id "WP_001251608.1"; transl_table "11"; -NC_010473.1 RefSeq gene 443469 445121 . + . gene_id "ECDH10B_RS02240"; transcript_id ""; gbkey "Gene"; gene "ushA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02240"; old_locus_tag "ECDH10B_0436"; -NC_010473.1 Protein Homology CDS 443469 445118 . + 0 gene_id "ECDH10B_RS02240"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ushA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415013.1"; locus_tag "ECDH10B_RS02240"; product "bifunctional UDP-sugar hydrolase/5'-nucleotidase"; protein_id "WP_000771748.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 443469 443471 . + 0 gene_id "ECDH10B_RS02240"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ushA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415013.1"; locus_tag "ECDH10B_RS02240"; product "bifunctional UDP-sugar hydrolase/5'-nucleotidase"; protein_id "WP_000771748.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 445119 445121 . + 0 gene_id "ECDH10B_RS02240"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ushA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415013.1"; locus_tag "ECDH10B_RS02240"; product "bifunctional UDP-sugar hydrolase/5'-nucleotidase"; protein_id "WP_000771748.1"; transl_table "11"; -NC_010473.1 RefSeq gene 445158 445637 . - . gene_id "ECDH10B_RS02245"; transcript_id ""; gbkey "Gene"; gene "ybaK"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02245"; old_locus_tag "ECDH10B_0437"; -NC_010473.1 Protein Homology CDS 445161 445637 . - 0 gene_id "ECDH10B_RS02245"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ybaK"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_006818871.1"; locus_tag "ECDH10B_RS02245"; product "Cys-tRNA(Pro)/Cys-tRNA(Cys) deacylase YbaK"; protein_id "WP_000186631.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 445635 445637 . - 0 gene_id "ECDH10B_RS02245"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ybaK"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_006818871.1"; locus_tag "ECDH10B_RS02245"; product "Cys-tRNA(Pro)/Cys-tRNA(Cys) deacylase YbaK"; protein_id "WP_000186631.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 445158 445160 . - 0 gene_id "ECDH10B_RS02245"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ybaK"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_006818871.1"; locus_tag "ECDH10B_RS02245"; product "Cys-tRNA(Pro)/Cys-tRNA(Cys) deacylase YbaK"; protein_id "WP_000186631.1"; transl_table "11"; -NC_010473.1 RefSeq gene 445841 446635 . - . gene_id "ECDH10B_RS02250"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02250"; old_locus_tag "ECDH10B_0439"; -NC_010473.1 Protein Homology CDS 445844 446635 . - 0 gene_id "ECDH10B_RS02250"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415015.1"; locus_tag "ECDH10B_RS02250"; product "TraB/GumN family protein"; protein_id "WP_000365173.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 446633 446635 . - 0 gene_id "ECDH10B_RS02250"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415015.1"; locus_tag "ECDH10B_RS02250"; product "TraB/GumN family protein"; protein_id "WP_000365173.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 445841 445843 . - 0 gene_id "ECDH10B_RS02250"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415015.1"; locus_tag "ECDH10B_RS02250"; product "TraB/GumN family protein"; protein_id "WP_000365173.1"; transl_table "11"; -NC_010473.1 RefSeq gene 446773 447114 . + . gene_id "ECDH10B_RS02255"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02255"; old_locus_tag "ECDH10B_0440"; -NC_010473.1 Protein Homology CDS 446773 447111 . + 0 gene_id "ECDH10B_RS02255"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415016.4"; locus_tag "ECDH10B_RS02255"; product "HigA family addiction module antidote protein"; protein_id "WP_000806442.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 446773 446775 . + 0 gene_id "ECDH10B_RS02255"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415016.4"; locus_tag "ECDH10B_RS02255"; product "HigA family addiction module antidote protein"; protein_id "WP_000806442.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 447112 447114 . + 0 gene_id "ECDH10B_RS02255"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415016.4"; locus_tag "ECDH10B_RS02255"; product "HigA family addiction module antidote protein"; protein_id "WP_000806442.1"; transl_table "11"; -NC_010473.1 RefSeq gene 447430 449934 . - . gene_id "ECDH10B_RS02260"; transcript_id ""; gbkey "Gene"; gene "copA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02260"; old_locus_tag "ECDH10B_0441"; -NC_010473.1 Protein Homology CDS 447433 449934 . - 0 gene_id "ECDH10B_RS02260"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "copA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415017.1"; locus_tag "ECDH10B_RS02260"; product "copper-exporting P-type ATPase CopA"; protein_id "WP_000083955.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 449932 449934 . - 0 gene_id "ECDH10B_RS02260"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "copA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415017.1"; locus_tag "ECDH10B_RS02260"; product "copper-exporting P-type ATPase CopA"; protein_id "WP_000083955.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 447430 447432 . - 0 gene_id "ECDH10B_RS02260"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "copA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415017.1"; locus_tag "ECDH10B_RS02260"; product "copper-exporting P-type ATPase CopA"; protein_id "WP_000083955.1"; transl_table "11"; -NC_010473.1 RefSeq gene 450196 451128 . + . gene_id "ECDH10B_RS02265"; transcript_id ""; gbkey "Gene"; gene "glsA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02265"; old_locus_tag "ECDH10B_0442"; -NC_010473.1 Protein Homology CDS 450196 451125 . + 0 gene_id "ECDH10B_RS02265"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "glsA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415018.1"; locus_tag "ECDH10B_RS02265"; product "glutaminase A"; protein_id "WP_000883034.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 450196 450198 . + 0 gene_id "ECDH10B_RS02265"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "glsA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415018.1"; locus_tag "ECDH10B_RS02265"; product "glutaminase A"; protein_id "WP_000883034.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 451126 451128 . + 0 gene_id "ECDH10B_RS02265"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "glsA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415018.1"; locus_tag "ECDH10B_RS02265"; product "glutaminase A"; protein_id "WP_000883034.1"; transl_table "11"; -NC_010473.1 RefSeq gene 451131 452423 . + . gene_id "ECDH10B_RS02270"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02270"; old_locus_tag "ECDH10B_0443"; -NC_010473.1 Protein Homology CDS 451131 452420 . + 0 gene_id "ECDH10B_RS02270"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415019.1"; locus_tag "ECDH10B_RS02270"; product "amino acid permease"; protein_id "WP_000982172.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 451131 451133 . + 0 gene_id "ECDH10B_RS02270"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415019.1"; locus_tag "ECDH10B_RS02270"; product "amino acid permease"; protein_id "WP_000982172.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 452421 452423 . + 0 gene_id "ECDH10B_RS02270"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415019.1"; locus_tag "ECDH10B_RS02270"; product "amino acid permease"; protein_id "WP_000982172.1"; transl_table "11"; -NC_010473.1 RefSeq gene 452548 452955 . + . gene_id "ECDH10B_RS02275"; transcript_id ""; gbkey "Gene"; gene "cueR"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02275"; old_locus_tag "ECDH10B_0444"; -NC_010473.1 Protein Homology CDS 452548 452952 . + 0 gene_id "ECDH10B_RS02275"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cueR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415020.1"; locus_tag "ECDH10B_RS02275"; product "Cu(I)-responsive transcriptional regulator"; protein_id "WP_001026747.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 452548 452550 . + 0 gene_id "ECDH10B_RS02275"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cueR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415020.1"; locus_tag "ECDH10B_RS02275"; product "Cu(I)-responsive transcriptional regulator"; protein_id "WP_001026747.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 452953 452955 . + 0 gene_id "ECDH10B_RS02275"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cueR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415020.1"; locus_tag "ECDH10B_RS02275"; product "Cu(I)-responsive transcriptional regulator"; protein_id "WP_001026747.1"; transl_table "11"; -NC_010473.1 RefSeq gene 452956 453414 . - . gene_id "ECDH10B_RS02280"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02280"; old_locus_tag "ECDH10B_0445"; -NC_010473.1 Protein Homology CDS 452959 453414 . - 0 gene_id "ECDH10B_RS02280"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415021.2"; locus_tag "ECDH10B_RS02280"; product "NfeD family protein"; protein_id "WP_000970323.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 453412 453414 . - 0 gene_id "ECDH10B_RS02280"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415021.2"; locus_tag "ECDH10B_RS02280"; product "NfeD family protein"; protein_id "WP_000970323.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 452956 452958 . - 0 gene_id "ECDH10B_RS02280"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415021.2"; locus_tag "ECDH10B_RS02280"; product "NfeD family protein"; protein_id "WP_000970323.1"; transl_table "11"; -NC_010473.1 RefSeq gene 453411 454328 . - . gene_id "ECDH10B_RS02285"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02285"; old_locus_tag "ECDH10B_0446"; -NC_010473.1 Protein Homology CDS 453414 454328 . - 0 gene_id "ECDH10B_RS02285"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308579.1"; locus_tag "ECDH10B_RS02285"; product "SPFH/Band 7/PHB domain protein"; protein_id "WP_000904502.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 454326 454328 . - 0 gene_id "ECDH10B_RS02285"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308579.1"; locus_tag "ECDH10B_RS02285"; product "SPFH/Band 7/PHB domain protein"; protein_id "WP_000904502.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 453411 453413 . - 0 gene_id "ECDH10B_RS02285"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308579.1"; locus_tag "ECDH10B_RS02285"; product "SPFH/Band 7/PHB domain protein"; protein_id "WP_000904502.1"; transl_table "11"; -NC_010473.1 RefSeq gene 454474 455151 . + . gene_id "ECDH10B_RS02290"; transcript_id ""; gbkey "Gene"; gene "fetA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02290"; old_locus_tag "ECDH10B_0447"; -NC_010473.1 Protein Homology CDS 454474 455148 . + 0 gene_id "ECDH10B_RS02290"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fetA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415023.1"; locus_tag "ECDH10B_RS02290"; product "iron ABC transporter ATP-binding protein FetA"; protein_id "WP_001157540.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 454474 454476 . + 0 gene_id "ECDH10B_RS02290"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fetA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415023.1"; locus_tag "ECDH10B_RS02290"; product "iron ABC transporter ATP-binding protein FetA"; protein_id "WP_001157540.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 455149 455151 . + 0 gene_id "ECDH10B_RS02290"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fetA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415023.1"; locus_tag "ECDH10B_RS02290"; product "iron ABC transporter ATP-binding protein FetA"; protein_id "WP_001157540.1"; transl_table "11"; -NC_010473.1 RefSeq gene 455138 455917 . + . gene_id "ECDH10B_RS02295"; transcript_id ""; gbkey "Gene"; gene "fetB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02295"; old_locus_tag "ECDH10B_0448"; -NC_010473.1 Protein Homology CDS 455138 455914 . + 0 gene_id "ECDH10B_RS02295"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fetB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308581.2"; locus_tag "ECDH10B_RS02295"; product "iron export ABC transporter permease subunit FetB"; protein_id "WP_001295323.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 455138 455140 . + 0 gene_id "ECDH10B_RS02295"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fetB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308581.2"; locus_tag "ECDH10B_RS02295"; product "iron export ABC transporter permease subunit FetB"; protein_id "WP_001295323.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 455915 455917 . + 0 gene_id "ECDH10B_RS02295"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fetB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308581.2"; locus_tag "ECDH10B_RS02295"; product "iron export ABC transporter permease subunit FetB"; protein_id "WP_001295323.1"; transl_table "11"; -NC_010473.1 RefSeq gene 455980 456834 . - . gene_id "ECDH10B_RS02300"; transcript_id ""; gbkey "Gene"; gene "cnoX"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02300"; old_locus_tag "ECDH10B_0449"; -NC_010473.1 Protein Homology CDS 455983 456834 . - 0 gene_id "ECDH10B_RS02300"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cnoX"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415025.4"; locus_tag "ECDH10B_RS02300"; product "chaperedoxin"; protein_id "WP_001300573.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 456832 456834 . - 0 gene_id "ECDH10B_RS02300"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cnoX"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415025.4"; locus_tag "ECDH10B_RS02300"; product "chaperedoxin"; protein_id "WP_001300573.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 455980 455982 . - 0 gene_id "ECDH10B_RS02300"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cnoX"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415025.4"; locus_tag "ECDH10B_RS02300"; product "chaperedoxin"; protein_id "WP_001300573.1"; transl_table "11"; -NC_010473.1 RefSeq gene 456895 457704 . - . gene_id "ECDH10B_RS02305"; transcript_id ""; gbkey "Gene"; gene "ybbO"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02305"; old_locus_tag "ECDH10B_0450"; -NC_010473.1 Protein Homology CDS 456898 457704 . - 0 gene_id "ECDH10B_RS02305"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ybbO"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415026.1"; locus_tag "ECDH10B_RS02305"; product "NADP(+)-dependent aldehyde reductase"; protein_id "WP_000148959.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 457702 457704 . - 0 gene_id "ECDH10B_RS02305"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ybbO"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415026.1"; locus_tag "ECDH10B_RS02305"; product "NADP(+)-dependent aldehyde reductase"; protein_id "WP_000148959.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 456895 456897 . - 0 gene_id "ECDH10B_RS02305"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ybbO"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415026.1"; locus_tag "ECDH10B_RS02305"; product "NADP(+)-dependent aldehyde reductase"; protein_id "WP_000148959.1"; transl_table "11"; -NC_010473.1 RefSeq gene 457694 458317 . - . gene_id "ECDH10B_RS02310"; transcript_id ""; gbkey "Gene"; gene "tesA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02310"; old_locus_tag "ECDH10B_0451"; -NC_010473.1 Protein Homology CDS 457697 458317 . - 0 gene_id "ECDH10B_RS02310"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tesA"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_005225520.1"; locus_tag "ECDH10B_RS02310"; product "multifunctional acyl-CoA thioesterase I/protease I/lysophospholipase L1"; protein_id "WP_001295836.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 458315 458317 . - 0 gene_id "ECDH10B_RS02310"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tesA"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_005225520.1"; locus_tag "ECDH10B_RS02310"; product "multifunctional acyl-CoA thioesterase I/protease I/lysophospholipase L1"; protein_id "WP_001295836.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 457694 457696 . - 0 gene_id "ECDH10B_RS02310"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tesA"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_005225520.1"; locus_tag "ECDH10B_RS02310"; product "multifunctional acyl-CoA thioesterase I/protease I/lysophospholipase L1"; protein_id "WP_001295836.1"; transl_table "11"; -NC_010473.1 RefSeq gene 458288 458974 . + . gene_id "ECDH10B_RS02315"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02315"; old_locus_tag "ECDH10B_0452"; -NC_010473.1 Protein Homology CDS 458288 458971 . + 0 gene_id "ECDH10B_RS02315"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415028.1"; locus_tag "ECDH10B_RS02315"; product "ABC transporter ATP-binding protein"; protein_id "WP_001110573.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 458288 458290 . + 0 gene_id "ECDH10B_RS02315"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415028.1"; locus_tag "ECDH10B_RS02315"; product "ABC transporter ATP-binding protein"; protein_id "WP_001110573.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 458972 458974 . + 0 gene_id "ECDH10B_RS02315"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415028.1"; locus_tag "ECDH10B_RS02315"; product "ABC transporter ATP-binding protein"; protein_id "WP_001110573.1"; transl_table "11"; -NC_010473.1 RefSeq gene 458971 461385 . + . gene_id "ECDH10B_RS02320"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02320"; old_locus_tag "ECDH10B_0453"; -NC_010473.1 Protein Homology CDS 458971 461382 . + 0 gene_id "ECDH10B_RS02320"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415029.1"; locus_tag "ECDH10B_RS02320"; product "ABC transporter permease"; protein_id "WP_000561872.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 458971 458973 . + 0 gene_id "ECDH10B_RS02320"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415029.1"; locus_tag "ECDH10B_RS02320"; product "ABC transporter permease"; protein_id "WP_000561872.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 461383 461385 . + 0 gene_id "ECDH10B_RS02320"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415029.1"; locus_tag "ECDH10B_RS02320"; product "ABC transporter permease"; protein_id "WP_000561872.1"; transl_table "11"; -NC_010473.1 RefSeq gene 461816 466096 . + . gene_id "ECDH10B_RS02325"; transcript_id ""; gbkey "Gene"; gene "rhsD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02325"; old_locus_tag "ECDH10B_0454"; -NC_010473.1 Protein Homology CDS 461816 466093 . + 0 gene_id "ECDH10B_RS02325"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rhsD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415030.1"; locus_tag "ECDH10B_RS02325"; product "rhs element protein RhsD"; protein_id "WP_000014739.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 461816 461818 . + 0 gene_id "ECDH10B_RS02325"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rhsD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415030.1"; locus_tag "ECDH10B_RS02325"; product "rhs element protein RhsD"; protein_id "WP_000014739.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 466094 466096 . + 0 gene_id "ECDH10B_RS02325"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rhsD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415030.1"; locus_tag "ECDH10B_RS02325"; product "rhs element protein RhsD"; protein_id "WP_000014739.1"; transl_table "11"; -NC_010473.1 RefSeq gene 466136 466504 . + . gene_id "ECDH10B_RS02330"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02330"; old_locus_tag "ECDH10B_0455"; -NC_010473.1 Protein Homology CDS 466136 466501 . + 0 gene_id "ECDH10B_RS02330"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415031.1"; locus_tag "ECDH10B_RS02330"; product "YbbC/YhhH family protein"; protein_id "WP_000877768.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 466136 466138 . + 0 gene_id "ECDH10B_RS02330"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415031.1"; locus_tag "ECDH10B_RS02330"; product "YbbC/YhhH family protein"; protein_id "WP_000877768.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 466502 466504 . + 0 gene_id "ECDH10B_RS02330"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415031.1"; locus_tag "ECDH10B_RS02330"; product "YbbC/YhhH family protein"; protein_id "WP_000877768.1"; transl_table "11"; -NC_010473.1 RefSeq gene 466504 467214 . + . gene_id "ECDH10B_RS02335"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02335"; old_locus_tag "ECDH10B_0456"; -NC_010473.1 Protein Homology CDS 466504 467211 . + 0 gene_id "ECDH10B_RS02335"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308587.2"; locus_tag "ECDH10B_RS02335"; product "RHS repeat protein"; protein_id "WP_001300714.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 466504 466506 . + 0 gene_id "ECDH10B_RS02335"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308587.2"; locus_tag "ECDH10B_RS02335"; product "RHS repeat protein"; protein_id "WP_001300714.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 467212 467214 . + 0 gene_id "ECDH10B_RS02335"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308587.2"; locus_tag "ECDH10B_RS02335"; product "RHS repeat protein"; protein_id "WP_001300714.1"; transl_table "11"; -NC_010473.1 RefSeq gene 467195 467455 . + . gene_id "ECDH10B_RS25355"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS25355"; -NC_010473.1 Protein Homology CDS 467195 467452 . + 0 gene_id "ECDH10B_RS25355"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308588.1"; locus_tag "ECDH10B_RS25355"; product "hypothetical protein"; protein_id "WP_001320180.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 467195 467197 . + 0 gene_id "ECDH10B_RS25355"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308588.1"; locus_tag "ECDH10B_RS25355"; product "hypothetical protein"; protein_id "WP_001320180.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 467453 467455 . + 0 gene_id "ECDH10B_RS25355"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308588.1"; locus_tag "ECDH10B_RS25355"; product "hypothetical protein"; protein_id "WP_001320180.1"; transl_table "11"; -NC_010473.1 RefSeq gene 467512 467685 . + . gene_id "ECDH10B_RS26260"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS26260"; -NC_010473.1 Protein Homology CDS 467512 467682 . + 0 gene_id "ECDH10B_RS26260"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001297301.1"; locus_tag "ECDH10B_RS26260"; product "hypothetical protein"; protein_id "WP_001297301.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 467512 467514 . + 0 gene_id "ECDH10B_RS26260"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001297301.1"; locus_tag "ECDH10B_RS26260"; product "hypothetical protein"; protein_id "WP_001297301.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 467683 467685 . + 0 gene_id "ECDH10B_RS26260"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001297301.1"; locus_tag "ECDH10B_RS26260"; product "hypothetical protein"; protein_id "WP_001297301.1"; transl_table "11"; -NC_010473.1 RefSeq gene 468206 468571 . - . gene_id "ECDH10B_RS02345"; transcript_id ""; gbkey "Gene"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS02345"; old_locus_tag "ECDH10B_0458"; partial "true"; pseudo "true"; -NC_010473.1 Protein Homology CDS 468209 468571 . - 0 gene_id "ECDH10B_RS02345"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_014543172.1"; locus_tag "ECDH10B_RS02345"; note "incomplete; partial in the middle of a contig; missing C-terminus"; partial "true"; product "helix-turn-helix domain-containing protein"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 468569 468571 . - 0 gene_id "ECDH10B_RS02345"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_014543172.1"; locus_tag "ECDH10B_RS02345"; note "incomplete; partial in the middle of a contig; missing C-terminus"; partial "true"; product "helix-turn-helix domain-containing protein"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 468206 468208 . - 0 gene_id "ECDH10B_RS02345"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_014543172.1"; locus_tag "ECDH10B_RS02345"; note "incomplete; partial in the middle of a contig; missing C-terminus"; partial "true"; product "helix-turn-helix domain-containing protein"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 468687 469781 . - . gene_id "ECDH10B_RS02350"; transcript_id ""; gbkey "Gene"; gene "mnmH"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02350"; old_locus_tag "ECDH10B_0459"; -NC_010473.1 Protein Homology CDS 468690 469781 . - 0 gene_id "ECDH10B_RS02350"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mnmH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415036.1"; locus_tag "ECDH10B_RS02350"; product "tRNA 2-selenouridine(34) synthase MnmH"; protein_id "WP_001157938.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 469779 469781 . - 0 gene_id "ECDH10B_RS02350"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mnmH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415036.1"; locus_tag "ECDH10B_RS02350"; product "tRNA 2-selenouridine(34) synthase MnmH"; protein_id "WP_001157938.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 468687 468689 . - 0 gene_id "ECDH10B_RS02350"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mnmH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415036.1"; locus_tag "ECDH10B_RS02350"; product "tRNA 2-selenouridine(34) synthase MnmH"; protein_id "WP_001157938.1"; transl_table "11"; -NC_010473.1 RefSeq gene 469850 470776 . - . gene_id "ECDH10B_RS02355"; transcript_id ""; gbkey "Gene"; gene "allS"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02355"; old_locus_tag "ECDH10B_0460"; -NC_010473.1 Protein Homology CDS 469853 470776 . - 0 gene_id "ECDH10B_RS02355"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "allS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308592.1"; locus_tag "ECDH10B_RS02355"; product "HTH-type transcriptional activator AllS"; protein_id "WP_000460145.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 470774 470776 . - 0 gene_id "ECDH10B_RS02355"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "allS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308592.1"; locus_tag "ECDH10B_RS02355"; product "HTH-type transcriptional activator AllS"; protein_id "WP_000460145.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 469850 469852 . - 0 gene_id "ECDH10B_RS02355"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "allS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308592.1"; locus_tag "ECDH10B_RS02355"; product "HTH-type transcriptional activator AllS"; protein_id "WP_000460145.1"; transl_table "11"; -NC_010473.1 RefSeq gene 471006 471488 . + . gene_id "ECDH10B_RS02360"; transcript_id ""; gbkey "Gene"; gene "allA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02360"; old_locus_tag "ECDH10B_0461"; -NC_010473.1 Protein Homology CDS 471006 471485 . + 0 gene_id "ECDH10B_RS02360"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "allA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415038.1"; locus_tag "ECDH10B_RS02360"; product "ureidoglycolate lyase"; protein_id "WP_000776377.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 471006 471008 . + 0 gene_id "ECDH10B_RS02360"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "allA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415038.1"; locus_tag "ECDH10B_RS02360"; product "ureidoglycolate lyase"; protein_id "WP_000776377.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 471486 471488 . + 0 gene_id "ECDH10B_RS02360"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "allA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415038.1"; locus_tag "ECDH10B_RS02360"; product "ureidoglycolate lyase"; protein_id "WP_000776377.1"; transl_table "11"; -NC_010473.1 RefSeq gene 471566 472381 . + . gene_id "ECDH10B_RS02365"; transcript_id ""; gbkey "Gene"; gene "allR"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02365"; old_locus_tag "ECDH10B_0462"; -NC_010473.1 Protein Homology CDS 471566 472378 . + 0 gene_id "ECDH10B_RS02365"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "allR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308594.1"; locus_tag "ECDH10B_RS02365"; product "HTH-type transcriptional repressor AllR"; protein_id "WP_000141275.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 471566 471568 . + 0 gene_id "ECDH10B_RS02365"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "allR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308594.1"; locus_tag "ECDH10B_RS02365"; product "HTH-type transcriptional repressor AllR"; protein_id "WP_000141275.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 472379 472381 . + 0 gene_id "ECDH10B_RS02365"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "allR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308594.1"; locus_tag "ECDH10B_RS02365"; product "HTH-type transcriptional repressor AllR"; protein_id "WP_000141275.1"; transl_table "11"; -NC_010473.1 RefSeq gene 472471 474252 . + . gene_id "ECDH10B_RS02370"; transcript_id ""; gbkey "Gene"; gene "gcl"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02370"; old_locus_tag "ECDH10B_0463"; -NC_010473.1 Protein Homology CDS 472471 474249 . + 0 gene_id "ECDH10B_RS02370"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gcl"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308595.1"; locus_tag "ECDH10B_RS02370"; product "glyoxylate carboligase"; protein_id "WP_001096881.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 472471 472473 . + 0 gene_id "ECDH10B_RS02370"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gcl"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308595.1"; locus_tag "ECDH10B_RS02370"; product "glyoxylate carboligase"; protein_id "WP_001096881.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 474250 474252 . + 0 gene_id "ECDH10B_RS02370"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gcl"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308595.1"; locus_tag "ECDH10B_RS02370"; product "glyoxylate carboligase"; protein_id "WP_001096881.1"; transl_table "11"; -NC_010473.1 RefSeq gene 474265 475041 . + . gene_id "ECDH10B_RS02375"; transcript_id ""; gbkey "Gene"; gene "hyi"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02375"; old_locus_tag "ECDH10B_0464"; -NC_010473.1 Protein Homology CDS 474265 475038 . + 0 gene_id "ECDH10B_RS02375"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hyi"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415041.1"; locus_tag "ECDH10B_RS02375"; product "hydroxypyruvate isomerase"; protein_id "WP_000943544.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 474265 474267 . + 0 gene_id "ECDH10B_RS02375"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hyi"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415041.1"; locus_tag "ECDH10B_RS02375"; product "hydroxypyruvate isomerase"; protein_id "WP_000943544.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 475039 475041 . + 0 gene_id "ECDH10B_RS02375"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hyi"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415041.1"; locus_tag "ECDH10B_RS02375"; product "hydroxypyruvate isomerase"; protein_id "WP_000943544.1"; transl_table "11"; -NC_010473.1 RefSeq gene 475141 476019 . + . gene_id "ECDH10B_RS02380"; transcript_id ""; gbkey "Gene"; gene "glxR"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02380"; old_locus_tag "ECDH10B_0465"; -NC_010473.1 Protein Homology CDS 475141 476016 . + 0 gene_id "ECDH10B_RS02380"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "glxR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415042.1"; locus_tag "ECDH10B_RS02380"; product "2-hydroxy-3-oxopropionate reductase"; protein_id "WP_000765839.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 475141 475143 . + 0 gene_id "ECDH10B_RS02380"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "glxR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415042.1"; locus_tag "ECDH10B_RS02380"; product "2-hydroxy-3-oxopropionate reductase"; protein_id "WP_000765839.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 476017 476019 . + 0 gene_id "ECDH10B_RS02380"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "glxR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415042.1"; locus_tag "ECDH10B_RS02380"; product "2-hydroxy-3-oxopropionate reductase"; protein_id "WP_000765839.1"; transl_table "11"; -NC_010473.1 RefSeq gene 476188 477642 . + . gene_id "ECDH10B_RS02385"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02385"; old_locus_tag "ECDH10B_0467"; -NC_010473.1 Protein Homology CDS 476188 477639 . + 0 gene_id "ECDH10B_RS02385"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415044.4"; locus_tag "ECDH10B_RS02385"; product "putative allantoin permease"; protein_id "WP_000401100.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 476188 476190 . + 0 gene_id "ECDH10B_RS02385"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415044.4"; locus_tag "ECDH10B_RS02385"; product "putative allantoin permease"; protein_id "WP_000401100.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 477640 477642 . + 0 gene_id "ECDH10B_RS02385"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415044.4"; locus_tag "ECDH10B_RS02385"; product "putative allantoin permease"; protein_id "WP_000401100.1"; transl_table "11"; -NC_010473.1 RefSeq gene 477702 479063 . + . gene_id "ECDH10B_RS02390"; transcript_id ""; gbkey "Gene"; gene "allB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02390"; old_locus_tag "ECDH10B_0468"; -NC_010473.1 Protein Homology CDS 477702 479060 . + 0 gene_id "ECDH10B_RS02390"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "allB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415045.1"; locus_tag "ECDH10B_RS02390"; product "allantoinase AllB"; protein_id "WP_000006900.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 477702 477704 . + 0 gene_id "ECDH10B_RS02390"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "allB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415045.1"; locus_tag "ECDH10B_RS02390"; product "allantoinase AllB"; protein_id "WP_000006900.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 479061 479063 . + 0 gene_id "ECDH10B_RS02390"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "allB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415045.1"; locus_tag "ECDH10B_RS02390"; product "allantoinase AllB"; protein_id "WP_000006900.1"; transl_table "11"; -NC_010473.1 RefSeq gene 479120 480421 . + . gene_id "ECDH10B_RS02395"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02395"; old_locus_tag "ECDH10B_0469"; -NC_010473.1 Protein Homology CDS 479120 480418 . + 0 gene_id "ECDH10B_RS02395"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308602.2"; locus_tag "ECDH10B_RS02395"; product "uracil/xanthine transporter"; protein_id "WP_001302767.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 479120 479122 . + 0 gene_id "ECDH10B_RS02395"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308602.2"; locus_tag "ECDH10B_RS02395"; product "uracil/xanthine transporter"; protein_id "WP_001302767.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 480419 480421 . + 0 gene_id "ECDH10B_RS02395"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308602.2"; locus_tag "ECDH10B_RS02395"; product "uracil/xanthine transporter"; protein_id "WP_001302767.1"; transl_table "11"; -NC_010473.1 RefSeq gene 480443 481588 . + . gene_id "ECDH10B_RS02400"; transcript_id ""; gbkey "Gene"; gene "glxK"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02400"; old_locus_tag "ECDH10B_0470"; -NC_010473.1 Protein Homology CDS 480443 481585 . + 0 gene_id "ECDH10B_RS02400"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "glxK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415047.1"; locus_tag "ECDH10B_RS02400"; product "glycerate 3-kinase"; protein_id "WP_001333621.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 480443 480445 . + 0 gene_id "ECDH10B_RS02400"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "glxK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415047.1"; locus_tag "ECDH10B_RS02400"; product "glycerate 3-kinase"; protein_id "WP_001333621.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 481586 481588 . + 0 gene_id "ECDH10B_RS02400"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "glxK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415047.1"; locus_tag "ECDH10B_RS02400"; product "glycerate 3-kinase"; protein_id "WP_001333621.1"; transl_table "11"; -NC_010473.1 RefSeq gene 481816 482601 . - . gene_id "ECDH10B_RS02405"; transcript_id ""; gbkey "Gene"; gene "allE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02405"; old_locus_tag "ECDH10B_0471"; -NC_010473.1 Protein Homology CDS 481819 482601 . - 0 gene_id "ECDH10B_RS02405"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "allE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415048.1"; locus_tag "ECDH10B_RS02405"; product "(S)-ureidoglycine aminohydrolase"; protein_id "WP_000540997.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 482599 482601 . - 0 gene_id "ECDH10B_RS02405"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "allE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415048.1"; locus_tag "ECDH10B_RS02405"; product "(S)-ureidoglycine aminohydrolase"; protein_id "WP_000540997.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 481816 481818 . - 0 gene_id "ECDH10B_RS02405"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "allE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415048.1"; locus_tag "ECDH10B_RS02405"; product "(S)-ureidoglycine aminohydrolase"; protein_id "WP_000540997.1"; transl_table "11"; -NC_010473.1 RefSeq gene 482612 483847 . - . gene_id "ECDH10B_RS02410"; transcript_id ""; gbkey "Gene"; gene "allC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02410"; old_locus_tag "ECDH10B_0472"; -NC_010473.1 Protein Homology CDS 482615 483847 . - 0 gene_id "ECDH10B_RS02410"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "allC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415049.1"; locus_tag "ECDH10B_RS02410"; product "allantoate deiminase"; protein_id "WP_001310618.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 483845 483847 . - 0 gene_id "ECDH10B_RS02410"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "allC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415049.1"; locus_tag "ECDH10B_RS02410"; product "allantoate deiminase"; protein_id "WP_001310618.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 482612 482614 . - 0 gene_id "ECDH10B_RS02410"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "allC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415049.1"; locus_tag "ECDH10B_RS02410"; product "allantoate deiminase"; protein_id "WP_001310618.1"; transl_table "11"; -NC_010473.1 RefSeq gene 483869 484918 . - . gene_id "ECDH10B_RS02415"; transcript_id ""; gbkey "Gene"; gene "allD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02415"; old_locus_tag "ECDH10B_0473"; -NC_010473.1 Protein Homology CDS 483872 484918 . - 0 gene_id "ECDH10B_RS02415"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "allD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415050.1"; locus_tag "ECDH10B_RS02415"; product "ureidoglycolate dehydrogenase"; protein_id "WP_000703900.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 484916 484918 . - 0 gene_id "ECDH10B_RS02415"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "allD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415050.1"; locus_tag "ECDH10B_RS02415"; product "ureidoglycolate dehydrogenase"; protein_id "WP_000703900.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 483869 483871 . - 0 gene_id "ECDH10B_RS02415"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "allD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415050.1"; locus_tag "ECDH10B_RS02415"; product "ureidoglycolate dehydrogenase"; protein_id "WP_000703900.1"; transl_table "11"; -NC_010473.1 RefSeq gene 485235 486902 . + . gene_id "ECDH10B_RS02420"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02420"; old_locus_tag "ECDH10B_0474"; -NC_010473.1 Protein Homology CDS 485235 486899 . + 0 gene_id "ECDH10B_RS02420"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415051.1"; locus_tag "ECDH10B_RS02420"; product "acyl-CoA synthetase FdrA"; protein_id "WP_000580829.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 485235 485237 . + 0 gene_id "ECDH10B_RS02420"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415051.1"; locus_tag "ECDH10B_RS02420"; product "acyl-CoA synthetase FdrA"; protein_id "WP_000580829.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 486900 486902 . + 0 gene_id "ECDH10B_RS02420"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415051.1"; locus_tag "ECDH10B_RS02420"; product "acyl-CoA synthetase FdrA"; protein_id "WP_000580829.1"; transl_table "11"; -NC_010473.1 RefSeq gene 486912 488171 . + . gene_id "ECDH10B_RS02425"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02425"; old_locus_tag "ECDH10B_0475"; -NC_010473.1 Protein Homology CDS 486912 488168 . + 0 gene_id "ECDH10B_RS02425"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_009029994.1"; locus_tag "ECDH10B_RS02425"; product "DUF1116 domain-containing protein"; protein_id "WP_000495367.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 486912 486914 . + 0 gene_id "ECDH10B_RS02425"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_009029994.1"; locus_tag "ECDH10B_RS02425"; product "DUF1116 domain-containing protein"; protein_id "WP_000495367.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 488169 488171 . + 0 gene_id "ECDH10B_RS02425"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_009029994.1"; locus_tag "ECDH10B_RS02425"; product "DUF1116 domain-containing protein"; protein_id "WP_000495367.1"; transl_table "11"; -NC_010473.1 RefSeq gene 488182 488997 . + . gene_id "ECDH10B_RS02430"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02430"; old_locus_tag "ECDH10B_0476"; -NC_010473.1 Protein Homology CDS 488182 488994 . + 0 gene_id "ECDH10B_RS02430"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308609.1"; locus_tag "ECDH10B_RS02430"; product "DUF2877 domain-containing protein"; protein_id "WP_000152519.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 488182 488184 . + 0 gene_id "ECDH10B_RS02430"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308609.1"; locus_tag "ECDH10B_RS02430"; product "DUF2877 domain-containing protein"; protein_id "WP_000152519.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 488995 488997 . + 0 gene_id "ECDH10B_RS02430"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308609.1"; locus_tag "ECDH10B_RS02430"; product "DUF2877 domain-containing protein"; protein_id "WP_000152519.1"; transl_table "11"; -NC_010473.1 RefSeq gene 488994 489887 . + . gene_id "ECDH10B_RS02435"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02435"; old_locus_tag "ECDH10B_0477"; -NC_010473.1 Protein Homology CDS 488994 489884 . + 0 gene_id "ECDH10B_RS02435"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415054.1"; locus_tag "ECDH10B_RS02435"; product "carbamate kinase"; protein_id "WP_000855379.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 488994 488996 . + 0 gene_id "ECDH10B_RS02435"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415054.1"; locus_tag "ECDH10B_RS02435"; product "carbamate kinase"; protein_id "WP_000855379.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 489885 489887 . + 0 gene_id "ECDH10B_RS02435"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415054.1"; locus_tag "ECDH10B_RS02435"; product "carbamate kinase"; protein_id "WP_000855379.1"; transl_table "11"; -NC_010473.1 RefSeq gene 490082 491149 . - . gene_id "ECDH10B_RS02440"; transcript_id ""; gbkey "Gene"; gene "purK"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02440"; old_locus_tag "ECDH10B_0478"; -NC_010473.1 Protein Homology CDS 490085 491149 . - 0 gene_id "ECDH10B_RS02440"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "purK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415055.1"; locus_tag "ECDH10B_RS02440"; product "5-(carboxyamino)imidazole ribonucleotide synthase"; protein_id "WP_000815571.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 491147 491149 . - 0 gene_id "ECDH10B_RS02440"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "purK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415055.1"; locus_tag "ECDH10B_RS02440"; product "5-(carboxyamino)imidazole ribonucleotide synthase"; protein_id "WP_000815571.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 490082 490084 . - 0 gene_id "ECDH10B_RS02440"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "purK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415055.1"; locus_tag "ECDH10B_RS02440"; product "5-(carboxyamino)imidazole ribonucleotide synthase"; protein_id "WP_000815571.1"; transl_table "11"; -NC_010473.1 RefSeq gene 491146 491655 . - . gene_id "ECDH10B_RS02445"; transcript_id ""; gbkey "Gene"; gene "purE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02445"; old_locus_tag "ECDH10B_0479"; -NC_010473.1 Protein Homology CDS 491149 491655 . - 0 gene_id "ECDH10B_RS02445"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "purE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308612.1"; locus_tag "ECDH10B_RS02445"; product "5-(carboxyamino)imidazole ribonucleotide mutase"; protein_id "WP_001295318.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 491653 491655 . - 0 gene_id "ECDH10B_RS02445"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "purE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308612.1"; locus_tag "ECDH10B_RS02445"; product "5-(carboxyamino)imidazole ribonucleotide mutase"; protein_id "WP_001295318.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 491146 491148 . - 0 gene_id "ECDH10B_RS02445"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "purE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308612.1"; locus_tag "ECDH10B_RS02445"; product "5-(carboxyamino)imidazole ribonucleotide mutase"; protein_id "WP_001295318.1"; transl_table "11"; -NC_010473.1 RefSeq gene 491773 492495 . - . gene_id "ECDH10B_RS02450"; transcript_id ""; gbkey "Gene"; gene "lpxH"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02450"; old_locus_tag "ECDH10B_0480"; -NC_010473.1 Protein Homology CDS 491776 492495 . - 0 gene_id "ECDH10B_RS02450"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lpxH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415057.1"; locus_tag "ECDH10B_RS02450"; product "UDP-2,3-diacylglucosamine diphosphatase"; protein_id "WP_000212247.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 492493 492495 . - 0 gene_id "ECDH10B_RS02450"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lpxH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415057.1"; locus_tag "ECDH10B_RS02450"; product "UDP-2,3-diacylglucosamine diphosphatase"; protein_id "WP_000212247.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 491773 491775 . - 0 gene_id "ECDH10B_RS02450"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lpxH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415057.1"; locus_tag "ECDH10B_RS02450"; product "UDP-2,3-diacylglucosamine diphosphatase"; protein_id "WP_000212247.1"; transl_table "11"; -NC_010473.1 RefSeq gene 492498 492992 . - . gene_id "ECDH10B_RS02455"; transcript_id ""; gbkey "Gene"; gene "ppiB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02455"; old_locus_tag "ECDH10B_0481"; -NC_010473.1 Protein Homology CDS 492501 492992 . - 0 gene_id "ECDH10B_RS02455"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ppiB"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_017465360.1"; locus_tag "ECDH10B_RS02455"; product "peptidylprolyl isomerase B"; protein_id "WP_000255997.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 492990 492992 . - 0 gene_id "ECDH10B_RS02455"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ppiB"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_017465360.1"; locus_tag "ECDH10B_RS02455"; product "peptidylprolyl isomerase B"; protein_id "WP_000255997.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 492498 492500 . - 0 gene_id "ECDH10B_RS02455"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ppiB"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_017465360.1"; locus_tag "ECDH10B_RS02455"; product "peptidylprolyl isomerase B"; protein_id "WP_000255997.1"; transl_table "11"; -NC_010473.1 RefSeq gene 493166 494551 . + . gene_id "ECDH10B_RS02460"; transcript_id ""; gbkey "Gene"; gene "cysS"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02460"; old_locus_tag "ECDH10B_0482"; -NC_010473.1 Protein Homology CDS 493166 494548 . + 0 gene_id "ECDH10B_RS02460"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cysS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005125243.1"; locus_tag "ECDH10B_RS02460"; product "cysteine--tRNA ligase"; protein_id "WP_000912385.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 493166 493168 . + 0 gene_id "ECDH10B_RS02460"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cysS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005125243.1"; locus_tag "ECDH10B_RS02460"; product "cysteine--tRNA ligase"; protein_id "WP_000912385.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 494549 494551 . + 0 gene_id "ECDH10B_RS02460"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cysS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005125243.1"; locus_tag "ECDH10B_RS02460"; product "cysteine--tRNA ligase"; protein_id "WP_000912385.1"; transl_table "11"; -NC_010473.1 RefSeq gene 494587 495108 . - . gene_id "ECDH10B_RS02465"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02465"; old_locus_tag "ECDH10B_0483"; -NC_010473.1 Protein Homology CDS 494590 495108 . - 0 gene_id "ECDH10B_RS02465"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415060.1"; locus_tag "ECDH10B_RS02465"; product "metal-dependent hydrolase"; protein_id "WP_001143542.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 495106 495108 . - 0 gene_id "ECDH10B_RS02465"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415060.1"; locus_tag "ECDH10B_RS02465"; product "metal-dependent hydrolase"; protein_id "WP_001143542.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 494587 494589 . - 0 gene_id "ECDH10B_RS02465"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415060.1"; locus_tag "ECDH10B_RS02465"; product "metal-dependent hydrolase"; protein_id "WP_001143542.1"; transl_table "11"; -NC_010473.1 RefSeq gene 495216 495428 . - . gene_id "ECDH10B_RS02470"; transcript_id ""; gbkey "Gene"; gene "ybcJ"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02470"; old_locus_tag "ECDH10B_0484"; -NC_010473.1 Protein Homology CDS 495219 495428 . - 0 gene_id "ECDH10B_RS02470"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ybcJ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308617.2"; locus_tag "ECDH10B_RS02470"; product "ribosome-associated protein YbcJ"; protein_id "WP_000190288.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 495426 495428 . - 0 gene_id "ECDH10B_RS02470"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ybcJ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308617.2"; locus_tag "ECDH10B_RS02470"; product "ribosome-associated protein YbcJ"; protein_id "WP_000190288.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 495216 495218 . - 0 gene_id "ECDH10B_RS02470"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ybcJ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308617.2"; locus_tag "ECDH10B_RS02470"; product "ribosome-associated protein YbcJ"; protein_id "WP_000190288.1"; transl_table "11"; -NC_010473.1 RefSeq gene 495430 496296 . - . gene_id "ECDH10B_RS02475"; transcript_id ""; gbkey "Gene"; gene "folD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02475"; old_locus_tag "ECDH10B_0485"; -NC_010473.1 Protein Homology CDS 495433 496296 . - 0 gene_id "ECDH10B_RS02475"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "folD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415062.1"; locus_tag "ECDH10B_RS02475"; product "bifunctional methylenetetrahydrofolate dehydrogenase/methenyltetrahydrofolate cyclohydrolase FolD"; protein_id "WP_000729160.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 496294 496296 . - 0 gene_id "ECDH10B_RS02475"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "folD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415062.1"; locus_tag "ECDH10B_RS02475"; product "bifunctional methylenetetrahydrofolate dehydrogenase/methenyltetrahydrofolate cyclohydrolase FolD"; protein_id "WP_000729160.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 495430 495432 . - 0 gene_id "ECDH10B_RS02475"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "folD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415062.1"; locus_tag "ECDH10B_RS02475"; product "bifunctional methylenetetrahydrofolate dehydrogenase/methenyltetrahydrofolate cyclohydrolase FolD"; protein_id "WP_000729160.1"; transl_table "11"; -NC_010473.1 RefSeq gene 496767 497309 . + . gene_id "ECDH10B_RS02480"; transcript_id ""; gbkey "Gene"; gene "fimA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02480"; old_locus_tag "ECDH10B_0486"; -NC_010473.1 Protein Homology CDS 496767 497306 . + 0 gene_id "ECDH10B_RS02480"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fimA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308619.2"; locus_tag "ECDH10B_RS02480"; product "type 1 fimbrial major subunit FimA"; protein_id "WP_000776555.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 496767 496769 . + 0 gene_id "ECDH10B_RS02480"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fimA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308619.2"; locus_tag "ECDH10B_RS02480"; product "type 1 fimbrial major subunit FimA"; protein_id "WP_000776555.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 497307 497309 . + 0 gene_id "ECDH10B_RS02480"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fimA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308619.2"; locus_tag "ECDH10B_RS02480"; product "type 1 fimbrial major subunit FimA"; protein_id "WP_000776555.1"; transl_table "11"; -NC_010473.1 RefSeq gene 497529 498221 . + . gene_id "ECDH10B_RS02485"; transcript_id ""; gbkey "Gene"; gene "fimC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02485"; old_locus_tag "ECDH10B_0487"; -NC_010473.1 Protein Homology CDS 497529 498218 . + 0 gene_id "ECDH10B_RS02485"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fimC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415064.1"; locus_tag "ECDH10B_RS02485"; product "type 1 fimbria chaperone FimC"; protein_id "WP_000988364.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 497529 497531 . + 0 gene_id "ECDH10B_RS02485"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fimC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415064.1"; locus_tag "ECDH10B_RS02485"; product "type 1 fimbria chaperone FimC"; protein_id "WP_000988364.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 498219 498221 . + 0 gene_id "ECDH10B_RS02485"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fimC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415064.1"; locus_tag "ECDH10B_RS02485"; product "type 1 fimbria chaperone FimC"; protein_id "WP_000988364.1"; transl_table "11"; -NC_010473.1 RefSeq gene 498252 500855 . + . gene_id "ECDH10B_RS02490"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02490"; old_locus_tag "ECDH10B_0488"; -NC_010473.1 Protein Homology CDS 498252 500852 . + 0 gene_id "ECDH10B_RS02490"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415065.1"; locus_tag "ECDH10B_RS02490"; product "fimbrial biogenesis usher protein"; protein_id "WP_001333622.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 498252 498254 . + 0 gene_id "ECDH10B_RS02490"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415065.1"; locus_tag "ECDH10B_RS02490"; product "fimbrial biogenesis usher protein"; protein_id "WP_001333622.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 500853 500855 . + 0 gene_id "ECDH10B_RS02490"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415065.1"; locus_tag "ECDH10B_RS02490"; product "fimbrial biogenesis usher protein"; protein_id "WP_001333622.1"; transl_table "11"; -NC_010473.1 RefSeq gene 500834 501874 . + . gene_id "ECDH10B_RS02495"; transcript_id ""; gbkey "Gene"; gene "fimH"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02495"; old_locus_tag "ECDH10B_0489"; -NC_010473.1 Protein Homology CDS 500834 501871 . + 0 gene_id "ECDH10B_RS02495"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fimH"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001350487.1"; locus_tag "ECDH10B_RS02495"; product "type 1 fimbrin D-mannose specific adhesin FimH"; protein_id "WP_001350487.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 500834 500836 . + 0 gene_id "ECDH10B_RS02495"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fimH"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001350487.1"; locus_tag "ECDH10B_RS02495"; product "type 1 fimbrin D-mannose specific adhesin FimH"; protein_id "WP_001350487.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 501872 501874 . + 0 gene_id "ECDH10B_RS02495"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fimH"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001350487.1"; locus_tag "ECDH10B_RS02495"; product "type 1 fimbrin D-mannose specific adhesin FimH"; protein_id "WP_001350487.1"; transl_table "11"; -NC_010473.1 RefSeq gene 501885 502400 . + . gene_id "ECDH10B_RS02500"; transcript_id ""; gbkey "Gene"; gene "sfmF"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02500"; old_locus_tag "ECDH10B_0490"; -NC_010473.1 Protein Homology CDS 501885 502397 . + 0 gene_id "ECDH10B_RS02500"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sfmF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415067.1"; locus_tag "ECDH10B_RS02500"; product "fimbria assembly protein"; protein_id "WP_001255230.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 501885 501887 . + 0 gene_id "ECDH10B_RS02500"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sfmF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415067.1"; locus_tag "ECDH10B_RS02500"; product "fimbria assembly protein"; protein_id "WP_001255230.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 502398 502400 . + 0 gene_id "ECDH10B_RS02500"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sfmF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415067.1"; locus_tag "ECDH10B_RS02500"; product "fimbria assembly protein"; protein_id "WP_001255230.1"; transl_table "11"; -NC_010473.1 RefSeq gene 502403 503035 . - . gene_id "ECDH10B_RS02505"; transcript_id ""; gbkey "Gene"; gene "fimZ"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02505"; old_locus_tag "ECDH10B_0491"; -NC_010473.1 Protein Homology CDS 502406 503035 . - 0 gene_id "ECDH10B_RS02505"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fimZ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308624.1"; locus_tag "ECDH10B_RS02505"; product "fimbria biosynthesis transcriptional regulator FimZ"; protein_id "WP_000805428.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 503033 503035 . - 0 gene_id "ECDH10B_RS02505"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fimZ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308624.1"; locus_tag "ECDH10B_RS02505"; product "fimbria biosynthesis transcriptional regulator FimZ"; protein_id "WP_000805428.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 502403 502405 . - 0 gene_id "ECDH10B_RS02505"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fimZ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308624.1"; locus_tag "ECDH10B_RS02505"; product "fimbria biosynthesis transcriptional regulator FimZ"; protein_id "WP_000805428.1"; transl_table "11"; -NC_010473.1 RefSeq gene 503278 503354 . + . gene_id "ECDH10B_RS02510"; transcript_id ""; gbkey "Gene"; gene_biotype "tRNA"; locus_tag "ECDH10B_RS02510"; old_locus_tag "ECDH10B_0492"; -NC_010473.1 tRNAscan-SE exon 503278 503354 . + . gene_id "ECDH10B_RS02510"; transcript_id "ECDH10B_RS02510"; anticodon "(pos:503312..503314)"; gbkey "tRNA"; inference "COORDINATES: profile:tRNAscan-SE:2.0.6"; locus_tag "ECDH10B_RS02510"; product "tRNA-Arg"; exon_number "1"; -NC_010473.1 RefSeq gene 503370 504533 . - . gene_id "ECDH10B_RS02515"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02515"; old_locus_tag "ECDH10B_0493"; -NC_010473.1 Protein Homology CDS 503373 504533 . - 0 gene_id "ECDH10B_RS02515"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415069.1"; locus_tag "ECDH10B_RS02515"; product "site-specific integrase"; protein_id "WP_001350488.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 504531 504533 . - 0 gene_id "ECDH10B_RS02515"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415069.1"; locus_tag "ECDH10B_RS02515"; product "site-specific integrase"; protein_id "WP_001350488.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 503370 503372 . - 0 gene_id "ECDH10B_RS02515"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415069.1"; locus_tag "ECDH10B_RS02515"; product "site-specific integrase"; protein_id "WP_001350488.1"; transl_table "11"; -NC_010473.1 RefSeq gene 504653 504916 . - . gene_id "ECDH10B_RS02520"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02520"; old_locus_tag "ECDH10B_0494"; -NC_010473.1 Protein Homology CDS 504656 504916 . - 0 gene_id "ECDH10B_RS02520"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001444959.1"; locus_tag "ECDH10B_RS02520"; product "exonuclease"; protein_id "WP_000672150.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 504914 504916 . - 0 gene_id "ECDH10B_RS02520"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001444959.1"; locus_tag "ECDH10B_RS02520"; product "exonuclease"; protein_id "WP_000672150.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 504653 504655 . - 0 gene_id "ECDH10B_RS02520"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001444959.1"; locus_tag "ECDH10B_RS02520"; product "exonuclease"; protein_id "WP_000672150.1"; transl_table "11"; -NC_010473.1 RefSeq gene 504931 505242 . + . gene_id "ECDH10B_RS02525"; transcript_id ""; gbkey "Gene"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS02525"; old_locus_tag "ECDH10B_0495"; partial "true"; pseudo "true"; -NC_010473.1 Protein Homology CDS 504931 505239 . + 0 gene_id "ECDH10B_RS02525"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309639.1"; locus_tag "ECDH10B_RS02525"; note "incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "Replication protein P"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 504931 504933 . + 0 gene_id "ECDH10B_RS02525"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309639.1"; locus_tag "ECDH10B_RS02525"; note "incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "Replication protein P"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 505240 505242 . + 0 gene_id "ECDH10B_RS02525"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309639.1"; locus_tag "ECDH10B_RS02525"; note "incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "Replication protein P"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 505239 505334 . + . gene_id "ECDH10B_RS02530"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02530"; -NC_010473.1 Protein Homology CDS 505239 505331 . + 0 gene_id "ECDH10B_RS02530"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000145909.1"; locus_tag "ECDH10B_RS02530"; product "hypothetical protein"; protein_id "WP_000145909.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 505239 505241 . + 0 gene_id "ECDH10B_RS02530"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000145909.1"; locus_tag "ECDH10B_RS02530"; product "hypothetical protein"; protein_id "WP_000145909.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 505332 505334 . + 0 gene_id "ECDH10B_RS02530"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000145909.1"; locus_tag "ECDH10B_RS02530"; product "hypothetical protein"; protein_id "WP_000145909.1"; transl_table "11"; -NC_010473.1 RefSeq gene 505397 506559 . + . gene_id "ECDH10B_RS02540"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02540"; old_locus_tag "ECDH10B_0497"; -NC_010473.1 Protein Homology CDS 505397 505658 . + 0 gene_id "ECDH10B_RS02540"; transcript_id "unknown_transcript_1"; exception "ribosomal slippage"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_012477168.1"; locus_tag "ECDH10B_RS02540"; note "programmed frameshift"; product "IS3-like element IS3 family transposase"; protein_id "WP_085947771.1"; transl_table "11"; -NC_010473.1 Protein Homology CDS 505658 506556 . + 0 gene_id "ECDH10B_RS02540"; transcript_id "unknown_transcript_1"; exception "ribosomal slippage"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_012477168.1"; locus_tag "ECDH10B_RS02540"; note "programmed frameshift"; product "IS3-like element IS3 family transposase"; protein_id "WP_085947771.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 505397 505399 . + 0 gene_id "ECDH10B_RS02540"; transcript_id "unknown_transcript_1"; exception "ribosomal slippage"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_012477168.1"; locus_tag "ECDH10B_RS02540"; note "programmed frameshift"; product "IS3-like element IS3 family transposase"; protein_id "WP_085947771.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 506557 506559 . + 0 gene_id "ECDH10B_RS02540"; transcript_id "unknown_transcript_1"; exception "ribosomal slippage"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_012477168.1"; locus_tag "ECDH10B_RS02540"; note "programmed frameshift"; product "IS3-like element IS3 family transposase"; protein_id "WP_085947771.1"; transl_table "11"; -NC_010473.1 RefSeq gene 506590 506802 . + . gene_id "ECDH10B_RS02545"; transcript_id ""; gbkey "Gene"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS02545"; old_locus_tag "ECDH10B_0498"; partial "true"; pseudo "true"; -NC_010473.1 Protein Homology CDS 506590 506799 . + 0 gene_id "ECDH10B_RS02545"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309640.1"; locus_tag "ECDH10B_RS02545"; note "incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "protein ren"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 506590 506592 . + 0 gene_id "ECDH10B_RS02545"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309640.1"; locus_tag "ECDH10B_RS02545"; note "incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "protein ren"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 506800 506802 . + 0 gene_id "ECDH10B_RS02545"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309640.1"; locus_tag "ECDH10B_RS02545"; note "incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "protein ren"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 506870 507202 . + . gene_id "ECDH10B_RS02550"; transcript_id ""; gbkey "Gene"; gene "emrE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02550"; old_locus_tag "ECDH10B_0499"; -NC_010473.1 Protein Homology CDS 506870 507199 . + 0 gene_id "ECDH10B_RS02550"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "emrE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415075.1"; locus_tag "ECDH10B_RS02550"; product "SMR family multidrug efflux protein EmrE"; protein_id "WP_001070439.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 506870 506872 . + 0 gene_id "ECDH10B_RS02550"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "emrE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415075.1"; locus_tag "ECDH10B_RS02550"; product "SMR family multidrug efflux protein EmrE"; protein_id "WP_001070439.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 507200 507202 . + 0 gene_id "ECDH10B_RS02550"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "emrE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415075.1"; locus_tag "ECDH10B_RS02550"; product "SMR family multidrug efflux protein EmrE"; protein_id "WP_001070439.1"; transl_table "11"; -NC_010473.1 RefSeq gene 507250 507399 . + . gene_id "ECDH10B_RS25885"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS25885"; -NC_010473.1 Protein Homology CDS 507250 507396 . + 0 gene_id "ECDH10B_RS25885"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_009518754.1"; locus_tag "ECDH10B_RS25885"; product "hypothetical protein"; protein_id "WP_001372443.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 507250 507252 . + 0 gene_id "ECDH10B_RS25885"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_009518754.1"; locus_tag "ECDH10B_RS25885"; product "hypothetical protein"; protein_id "WP_001372443.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 507397 507399 . + 0 gene_id "ECDH10B_RS25885"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_009518754.1"; locus_tag "ECDH10B_RS25885"; product "hypothetical protein"; protein_id "WP_001372443.1"; transl_table "11"; -NC_010473.1 RefSeq gene 507457 508983 . + . gene_id "ECDH10B_RS02560"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02560"; old_locus_tag "ECDH10B_0500"; -NC_010473.1 Protein Homology CDS 507457 508980 . + 0 gene_id "ECDH10B_RS02560"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415076.1"; locus_tag "ECDH10B_RS02560"; product "recombinase family protein"; protein_id "WP_000709082.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 507457 507459 . + 0 gene_id "ECDH10B_RS02560"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415076.1"; locus_tag "ECDH10B_RS02560"; product "recombinase family protein"; protein_id "WP_000709082.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 508981 508983 . + 0 gene_id "ECDH10B_RS02560"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415076.1"; locus_tag "ECDH10B_RS02560"; product "recombinase family protein"; protein_id "WP_000709082.1"; transl_table "11"; -NC_010473.1 RefSeq gene 509448 509999 . + . gene_id "ECDH10B_RS02565"; transcript_id ""; gbkey "Gene"; gene "ybcL"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02565"; old_locus_tag "ECDH10B_0501"; -NC_010473.1 Protein Homology CDS 509448 509996 . + 0 gene_id "ECDH10B_RS02565"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ybcL"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415077.1"; locus_tag "ECDH10B_RS02565"; product "Raf kinase inhibitor-like protein YbcL"; protein_id "WP_001306955.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 509448 509450 . + 0 gene_id "ECDH10B_RS02565"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ybcL"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415077.1"; locus_tag "ECDH10B_RS02565"; product "Raf kinase inhibitor-like protein YbcL"; protein_id "WP_001306955.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 509997 509999 . + 0 gene_id "ECDH10B_RS02565"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ybcL"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415077.1"; locus_tag "ECDH10B_RS02565"; product "Raf kinase inhibitor-like protein YbcL"; protein_id "WP_001306955.1"; transl_table "11"; -NC_010473.1 RefSeq gene 510009 510806 . + . gene_id "ECDH10B_RS02570"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02570"; old_locus_tag "ECDH10B_0502"; -NC_010473.1 Protein Homology CDS 510009 510803 . + 0 gene_id "ECDH10B_RS02570"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415078.1"; locus_tag "ECDH10B_RS02570"; product "helix-turn-helix transcriptional regulator"; protein_id "WP_000881075.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 510009 510011 . + 0 gene_id "ECDH10B_RS02570"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415078.1"; locus_tag "ECDH10B_RS02570"; product "helix-turn-helix transcriptional regulator"; protein_id "WP_000881075.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 510804 510806 . + 0 gene_id "ECDH10B_RS02570"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415078.1"; locus_tag "ECDH10B_RS02570"; product "helix-turn-helix transcriptional regulator"; protein_id "WP_000881075.1"; transl_table "11"; -NC_010473.1 RefSeq gene 510923 511024 . + . gene_id "ECDH10B_RS25365"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS25365"; -NC_010473.1 Protein Homology CDS 510923 511021 . + 0 gene_id "ECDH10B_RS25365"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_001165308.1"; locus_tag "ECDH10B_RS25365"; product "hypothetical protein"; protein_id "WP_001303586.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 510923 510925 . + 0 gene_id "ECDH10B_RS25365"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_001165308.1"; locus_tag "ECDH10B_RS25365"; product "hypothetical protein"; protein_id "WP_001303586.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 511022 511024 . + 0 gene_id "ECDH10B_RS25365"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_001165308.1"; locus_tag "ECDH10B_RS25365"; product "hypothetical protein"; protein_id "WP_001303586.1"; transl_table "11"; -NC_010473.1 RefSeq gene 511021 511476 . + . gene_id "ECDH10B_RS02575"; transcript_id ""; gbkey "Gene"; gene "ybcN"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02575"; old_locus_tag "ECDH10B_0503"; -NC_010473.1 Protein Homology CDS 511021 511473 . + 0 gene_id "ECDH10B_RS02575"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ybcN"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415079.1"; locus_tag "ECDH10B_RS02575"; product "DNA base-flipping protein YbcN"; protein_id "WP_001054340.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 511021 511023 . + 0 gene_id "ECDH10B_RS02575"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ybcN"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415079.1"; locus_tag "ECDH10B_RS02575"; product "DNA base-flipping protein YbcN"; protein_id "WP_001054340.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 511474 511476 . + 0 gene_id "ECDH10B_RS02575"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ybcN"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415079.1"; locus_tag "ECDH10B_RS02575"; product "DNA base-flipping protein YbcN"; protein_id "WP_001054340.1"; transl_table "11"; -NC_010473.1 RefSeq gene 511476 511646 . + . gene_id "ECDH10B_RS02580"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02580"; old_locus_tag "ECDH10B_0504"; -NC_010473.1 Protein Homology CDS 511476 511643 . + 0 gene_id "ECDH10B_RS02580"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415080.1"; locus_tag "ECDH10B_RS02580"; product "protein NinE from lambdoid prophage DLP12"; protein_id "WP_000224915.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 511476 511478 . + 0 gene_id "ECDH10B_RS02580"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415080.1"; locus_tag "ECDH10B_RS02580"; product "protein NinE from lambdoid prophage DLP12"; protein_id "WP_000224915.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 511644 511646 . + 0 gene_id "ECDH10B_RS02580"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415080.1"; locus_tag "ECDH10B_RS02580"; product "protein NinE from lambdoid prophage DLP12"; protein_id "WP_000224915.1"; transl_table "11"; -NC_010473.1 RefSeq gene 511639 511929 . + . gene_id "ECDH10B_RS02585"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02585"; old_locus_tag "ECDH10B_0505"; -NC_010473.1 Protein Homology CDS 511639 511926 . + 0 gene_id "ECDH10B_RS02585"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415081.1"; locus_tag "ECDH10B_RS02585"; product "DUF1364 domain-containing protein"; protein_id "WP_000774486.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 511639 511641 . + 0 gene_id "ECDH10B_RS02585"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415081.1"; locus_tag "ECDH10B_RS02585"; product "DUF1364 domain-containing protein"; protein_id "WP_000774486.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 511927 511929 . + 0 gene_id "ECDH10B_RS02585"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415081.1"; locus_tag "ECDH10B_RS02585"; product "DUF1364 domain-containing protein"; protein_id "WP_000774486.1"; transl_table "11"; -NC_010473.1 RefSeq gene 511926 512288 . + . gene_id "ECDH10B_RS02590"; transcript_id ""; gbkey "Gene"; gene "rusA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02590"; old_locus_tag "ECDH10B_0506"; -NC_010473.1 Protein Homology CDS 511926 512285 . + 0 gene_id "ECDH10B_RS02590"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rusA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415082.1"; locus_tag "ECDH10B_RS02590"; product "crossover junction endodeoxyribonuclease RusA"; protein_id "WP_001099712.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 511926 511928 . + 0 gene_id "ECDH10B_RS02590"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rusA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415082.1"; locus_tag "ECDH10B_RS02590"; product "crossover junction endodeoxyribonuclease RusA"; protein_id "WP_001099712.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 512286 512288 . + 0 gene_id "ECDH10B_RS02590"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rusA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415082.1"; locus_tag "ECDH10B_RS02590"; product "crossover junction endodeoxyribonuclease RusA"; protein_id "WP_001099712.1"; transl_table "11"; -NC_010473.1 RefSeq gene 512285 512425 . + . gene_id "ECDH10B_RS02595"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02595"; old_locus_tag "ECDH10B_0507"; -NC_010473.1 Protein Homology CDS 512285 512422 . + 0 gene_id "ECDH10B_RS02595"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_588439.1"; locus_tag "ECDH10B_RS02595"; product "YlcG family protein"; protein_id "WP_000971055.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 512285 512287 . + 0 gene_id "ECDH10B_RS02595"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_588439.1"; locus_tag "ECDH10B_RS02595"; product "YlcG family protein"; protein_id "WP_000971055.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 512423 512425 . + 0 gene_id "ECDH10B_RS02595"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_588439.1"; locus_tag "ECDH10B_RS02595"; product "YlcG family protein"; protein_id "WP_000971055.1"; transl_table "11"; -NC_010473.1 RefSeq gene 512511 512894 . + . gene_id "ECDH10B_RS02600"; transcript_id ""; gbkey "Gene"; gene "quuD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02600"; old_locus_tag "ECDH10B_0508"; -NC_010473.1 Protein Homology CDS 512511 512891 . + 0 gene_id "ECDH10B_RS02600"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "quuD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415083.1"; locus_tag "ECDH10B_RS02600"; product "antitermination protein QuuD"; protein_id "WP_001204791.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 512511 512513 . + 0 gene_id "ECDH10B_RS02600"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "quuD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415083.1"; locus_tag "ECDH10B_RS02600"; product "antitermination protein QuuD"; protein_id "WP_001204791.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 512892 512894 . + 0 gene_id "ECDH10B_RS02600"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "quuD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415083.1"; locus_tag "ECDH10B_RS02600"; product "antitermination protein QuuD"; protein_id "WP_001204791.1"; transl_table "11"; -NC_010473.1 RefSeq gene 513292 514308 . - . gene_id "ECDH10B_RS02610"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02610"; old_locus_tag "ECDH10B_0510"; -NC_010473.1 Protein Homology CDS 513295 514308 . - 0 gene_id "ECDH10B_RS02610"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414793.1"; locus_tag "ECDH10B_RS02610"; product "IS5-like element IS5 family transposase"; protein_id "WP_010723085.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 514306 514308 . - 0 gene_id "ECDH10B_RS02610"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414793.1"; locus_tag "ECDH10B_RS02610"; product "IS5-like element IS5 family transposase"; protein_id "WP_010723085.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 513292 513294 . - 0 gene_id "ECDH10B_RS02610"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414793.1"; locus_tag "ECDH10B_RS02610"; product "IS5-like element IS5 family transposase"; protein_id "WP_010723085.1"; transl_table "11"; -NC_010473.1 RefSeq gene 514313 515380 . - . gene_id "ECDH10B_RS02615"; transcript_id ""; gbkey "Gene"; gene "ompC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02615"; old_locus_tag "ECDH10B_0509"; -NC_010473.1 Protein Homology CDS 514316 515380 . - 0 gene_id "ECDH10B_RS02615"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ompC"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000724560.1"; locus_tag "ECDH10B_RS02615"; product "porin OmpC"; protein_id "WP_000737282.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 515378 515380 . - 0 gene_id "ECDH10B_RS02615"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ompC"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000724560.1"; locus_tag "ECDH10B_RS02615"; product "porin OmpC"; protein_id "WP_000737282.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 514313 514315 . - 0 gene_id "ECDH10B_RS02615"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ompC"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000724560.1"; locus_tag "ECDH10B_RS02615"; product "porin OmpC"; protein_id "WP_000737282.1"; transl_table "11"; -NC_010473.1 RefSeq gene 515953 516168 . + . gene_id "ECDH10B_RS02620"; transcript_id ""; gbkey "Gene"; gene "essD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02620"; old_locus_tag "ECDH10B_0511"; -NC_010473.1 Protein Homology CDS 515953 516165 . + 0 gene_id "ECDH10B_RS02620"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "essD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415086.1"; locus_tag "ECDH10B_RS02620"; product "phage lysis protein EssD"; protein_id "WP_000839596.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 515953 515955 . + 0 gene_id "ECDH10B_RS02620"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "essD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415086.1"; locus_tag "ECDH10B_RS02620"; product "phage lysis protein EssD"; protein_id "WP_000839596.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 516166 516168 . + 0 gene_id "ECDH10B_RS02620"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "essD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415086.1"; locus_tag "ECDH10B_RS02620"; product "phage lysis protein EssD"; protein_id "WP_000839596.1"; transl_table "11"; -NC_010473.1 RefSeq gene 516168 516665 . + . gene_id "ECDH10B_RS02625"; transcript_id ""; gbkey "Gene"; gene "rrrD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02625"; old_locus_tag "ECDH10B_0512"; -NC_010473.1 Protein Homology CDS 516168 516662 . + 0 gene_id "ECDH10B_RS02625"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rrrD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415087.1"; locus_tag "ECDH10B_RS02625"; product "lysozyme RrrD"; protein_id "WP_001135281.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 516168 516170 . + 0 gene_id "ECDH10B_RS02625"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rrrD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415087.1"; locus_tag "ECDH10B_RS02625"; product "lysozyme RrrD"; protein_id "WP_001135281.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 516663 516665 . + 0 gene_id "ECDH10B_RS02625"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rrrD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415087.1"; locus_tag "ECDH10B_RS02625"; product "lysozyme RrrD"; protein_id "WP_001135281.1"; transl_table "11"; -NC_010473.1 RefSeq gene 516882 517064 . + . gene_id "ECDH10B_RS25890"; transcript_id ""; gbkey "Gene"; gene "rzoD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS25890"; old_locus_tag "ECDH10B_0514"; -NC_010473.1 Protein Homology CDS 516882 517061 . + 0 gene_id "ECDH10B_RS25890"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rzoD"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_588440.1"; locus_tag "ECDH10B_RS25890"; product "prophage lysis lipoprotein RzoD"; protein_id "WP_001228697.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 516882 516884 . + 0 gene_id "ECDH10B_RS25890"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rzoD"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_588440.1"; locus_tag "ECDH10B_RS25890"; product "prophage lysis lipoprotein RzoD"; protein_id "WP_001228697.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 517062 517064 . + 0 gene_id "ECDH10B_RS25890"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rzoD"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_588440.1"; locus_tag "ECDH10B_RS25890"; product "prophage lysis lipoprotein RzoD"; protein_id "WP_001228697.1"; transl_table "11"; -NC_010473.1 RefSeq gene 517155 517448 . - . gene_id "ECDH10B_RS02635"; transcript_id ""; gbkey "Gene"; gene "bor"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02635"; old_locus_tag "ECDH10B_0515"; -NC_010473.1 Protein Homology CDS 517158 517448 . - 0 gene_id "ECDH10B_RS02635"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "bor"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415089.1"; locus_tag "ECDH10B_RS02635"; product "serum resistance lipoprotein Bor"; protein_id "WP_000738500.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 517446 517448 . - 0 gene_id "ECDH10B_RS02635"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "bor"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415089.1"; locus_tag "ECDH10B_RS02635"; product "serum resistance lipoprotein Bor"; protein_id "WP_000738500.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 517155 517157 . - 0 gene_id "ECDH10B_RS02635"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "bor"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415089.1"; locus_tag "ECDH10B_RS02635"; product "serum resistance lipoprotein Bor"; protein_id "WP_000738500.1"; transl_table "11"; -NC_010473.1 RefSeq gene 517739 518149 . - . gene_id "ECDH10B_RS02645"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02645"; old_locus_tag "ECDH10B_0516"; -NC_010473.1 Protein Homology CDS 517742 518149 . - 0 gene_id "ECDH10B_RS02645"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415090.2"; locus_tag "ECDH10B_RS02645"; product "DUF1398 domain-containing protein"; protein_id "WP_000079503.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 518147 518149 . - 0 gene_id "ECDH10B_RS02645"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415090.2"; locus_tag "ECDH10B_RS02645"; product "DUF1398 domain-containing protein"; protein_id "WP_000079503.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 517739 517741 . - 0 gene_id "ECDH10B_RS02645"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415090.2"; locus_tag "ECDH10B_RS02645"; product "DUF1398 domain-containing protein"; protein_id "WP_000079503.1"; transl_table "11"; -NC_010473.1 RefSeq gene 518435 518641 . + . gene_id "ECDH10B_RS02650"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02650"; old_locus_tag "ECDH10B_0517"; -NC_010473.1 Protein Homology CDS 518435 518638 . + 0 gene_id "ECDH10B_RS02650"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309654.1"; locus_tag "ECDH10B_RS02650"; product "hypothetical protein"; protein_id "WP_001031427.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 518435 518437 . + 0 gene_id "ECDH10B_RS02650"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309654.1"; locus_tag "ECDH10B_RS02650"; product "hypothetical protein"; protein_id "WP_001031427.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 518639 518641 . + 0 gene_id "ECDH10B_RS02650"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309654.1"; locus_tag "ECDH10B_RS02650"; product "hypothetical protein"; protein_id "WP_001031427.1"; transl_table "11"; -NC_010473.1 RefSeq gene 518806 519000 . - . gene_id "ECDH10B_RS02655"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02655"; -NC_010473.1 Protein Homology CDS 518809 519000 . - 0 gene_id "ECDH10B_RS02655"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_001165309.1"; locus_tag "ECDH10B_RS02655"; product "YlcI/YnfO family protein"; protein_id "WP_001421937.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 518998 519000 . - 0 gene_id "ECDH10B_RS02655"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_001165309.1"; locus_tag "ECDH10B_RS02655"; product "YlcI/YnfO family protein"; protein_id "WP_001421937.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 518806 518808 . - 0 gene_id "ECDH10B_RS02655"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_001165309.1"; locus_tag "ECDH10B_RS02655"; product "YlcI/YnfO family protein"; protein_id "WP_001421937.1"; transl_table "11"; -NC_010473.1 RefSeq gene 519389 519934 . + . gene_id "ECDH10B_RS02665"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02665"; old_locus_tag "ECDH10B_0518"; -NC_010473.1 Protein Homology CDS 519389 519931 . + 0 gene_id "ECDH10B_RS02665"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415092.1"; locus_tag "ECDH10B_RS02665"; product "DNA-packaging protein"; protein_id "WP_000453566.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 519389 519391 . + 0 gene_id "ECDH10B_RS02665"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415092.1"; locus_tag "ECDH10B_RS02665"; product "DNA-packaging protein"; protein_id "WP_000453566.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 519932 519934 . + 0 gene_id "ECDH10B_RS02665"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415092.1"; locus_tag "ECDH10B_RS02665"; product "DNA-packaging protein"; protein_id "WP_000453566.1"; transl_table "11"; -NC_010473.1 RefSeq gene 519909 520217 . + . gene_id "ECDH10B_RS26265"; transcript_id ""; gbkey "Gene"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS26265"; partial "true"; pseudo "true"; -NC_010473.1 Protein Homology CDS 519909 520214 . + 0 gene_id "ECDH10B_RS26265"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309657.1"; locus_tag "ECDH10B_RS26265"; note "incomplete; partial in the middle of a contig; missing C-terminus"; partial "true"; product "phage terminase large subunit family protein"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 519909 519911 . + 0 gene_id "ECDH10B_RS26265"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309657.1"; locus_tag "ECDH10B_RS26265"; note "incomplete; partial in the middle of a contig; missing C-terminus"; partial "true"; product "phage terminase large subunit family protein"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 520215 520217 . + 0 gene_id "ECDH10B_RS26265"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309657.1"; locus_tag "ECDH10B_RS26265"; note "incomplete; partial in the middle of a contig; missing C-terminus"; partial "true"; product "phage terminase large subunit family protein"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 520215 520652 . + . gene_id "ECDH10B_RS26270"; transcript_id ""; gbkey "Gene"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS26270"; old_locus_tag "ECDH10B_0519"; partial "true"; pseudo "true"; -NC_010473.1 Protein Homology CDS 520215 520649 . + 0 gene_id "ECDH10B_RS26270"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000885581.1"; locus_tag "ECDH10B_RS26270"; note "incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "tail fiber assembly protein"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 520215 520217 . + 0 gene_id "ECDH10B_RS26270"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000885581.1"; locus_tag "ECDH10B_RS26270"; note "incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "tail fiber assembly protein"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 520650 520652 . + 0 gene_id "ECDH10B_RS26270"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000885581.1"; locus_tag "ECDH10B_RS26270"; note "incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "tail fiber assembly protein"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 520707 521333 . - . gene_id "ECDH10B_RS02675"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02675"; old_locus_tag "ECDH10B_0520"; -NC_010473.1 Protein Homology CDS 520710 521333 . - 0 gene_id "ECDH10B_RS02675"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000856367.1"; locus_tag "ECDH10B_RS02675"; product "class I SAM-dependent methyltransferase"; protein_id "WP_026089880.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 521331 521333 . - 0 gene_id "ECDH10B_RS02675"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000856367.1"; locus_tag "ECDH10B_RS02675"; product "class I SAM-dependent methyltransferase"; protein_id "WP_026089880.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 520707 520709 . - 0 gene_id "ECDH10B_RS02675"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000856367.1"; locus_tag "ECDH10B_RS02675"; product "class I SAM-dependent methyltransferase"; protein_id "WP_026089880.1"; transl_table "11"; -NC_010473.1 RefSeq gene 521430 521690 . + . gene_id "ECDH10B_RS02680"; transcript_id ""; gbkey "Gene"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS02680"; old_locus_tag "ECDH10B_0521"; pseudo "true"; -NC_010473.1 Protein Homology CDS 521430 521687 . + 0 gene_id "ECDH10B_RS02680"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000937469.1"; locus_tag "ECDH10B_RS02680"; note "internal stop"; product "tail fiber assembly protein"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 521430 521432 . + 0 gene_id "ECDH10B_RS02680"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000937469.1"; locus_tag "ECDH10B_RS02680"; note "internal stop"; product "tail fiber assembly protein"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 521688 521690 . + 0 gene_id "ECDH10B_RS02680"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000937469.1"; locus_tag "ECDH10B_RS02680"; note "internal stop"; product "tail fiber assembly protein"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 522236 522985 . + . gene_id "ECDH10B_RS02685"; transcript_id ""; gbkey "Gene"; gene "appY"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02685"; old_locus_tag "ECDH10B_0522"; -NC_010473.1 Protein Homology CDS 522236 522982 . + 0 gene_id "ECDH10B_RS02685"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "appY"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415096.1"; locus_tag "ECDH10B_RS02685"; product "DNA-binding transcriptional activator AppY"; protein_id "WP_000386784.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 522236 522238 . + 0 gene_id "ECDH10B_RS02685"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "appY"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415096.1"; locus_tag "ECDH10B_RS02685"; product "DNA-binding transcriptional activator AppY"; protein_id "WP_000386784.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 522983 522985 . + 0 gene_id "ECDH10B_RS02685"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "appY"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415096.1"; locus_tag "ECDH10B_RS02685"; product "DNA-binding transcriptional activator AppY"; protein_id "WP_000386784.1"; transl_table "11"; -NC_010473.1 RefSeq gene 523235 524188 . - . gene_id "ECDH10B_RS02690"; transcript_id ""; gbkey "Gene"; gene "ompT"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02690"; old_locus_tag "ECDH10B_0523"; -NC_010473.1 Protein Homology CDS 523238 524188 . - 0 gene_id "ECDH10B_RS02690"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ompT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415097.1"; locus_tag "ECDH10B_RS02690"; product "omptin family outer membrane protease OmpT"; protein_id "WP_001201845.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 524186 524188 . - 0 gene_id "ECDH10B_RS02690"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ompT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415097.1"; locus_tag "ECDH10B_RS02690"; product "omptin family outer membrane protease OmpT"; protein_id "WP_001201845.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 523235 523237 . - 0 gene_id "ECDH10B_RS02690"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ompT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415097.1"; locus_tag "ECDH10B_RS02690"; product "omptin family outer membrane protease OmpT"; protein_id "WP_001201845.1"; transl_table "11"; -NC_010473.1 RefSeq gene 524702 525463 . - . gene_id "ECDH10B_RS02700"; transcript_id ""; gbkey "Gene"; gene "envY"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02700"; old_locus_tag "ECDH10B_0524"; -NC_010473.1 Protein Homology CDS 524705 525463 . - 0 gene_id "ECDH10B_RS02700"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "envY"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415098.1"; locus_tag "ECDH10B_RS02700"; product "DNA-binding transcriptional regulator EnvY"; protein_id "WP_001177471.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 525461 525463 . - 0 gene_id "ECDH10B_RS02700"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "envY"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415098.1"; locus_tag "ECDH10B_RS02700"; product "DNA-binding transcriptional regulator EnvY"; protein_id "WP_001177471.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 524702 524704 . - 0 gene_id "ECDH10B_RS02700"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "envY"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415098.1"; locus_tag "ECDH10B_RS02700"; product "DNA-binding transcriptional regulator EnvY"; protein_id "WP_001177471.1"; transl_table "11"; -NC_010473.1 RefSeq gene 525646 526536 . - . gene_id "ECDH10B_RS02705"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02705"; old_locus_tag "ECDH10B_0525"; -NC_010473.1 Protein Homology CDS 525649 526536 . - 0 gene_id "ECDH10B_RS02705"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415099.1"; locus_tag "ECDH10B_RS02705"; product "DUF4434 family protein"; protein_id "WP_001224604.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 526534 526536 . - 0 gene_id "ECDH10B_RS02705"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415099.1"; locus_tag "ECDH10B_RS02705"; product "DUF4434 family protein"; protein_id "WP_001224604.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 525646 525648 . - 0 gene_id "ECDH10B_RS02705"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415099.1"; locus_tag "ECDH10B_RS02705"; product "DUF4434 family protein"; protein_id "WP_001224604.1"; transl_table "11"; -NC_010473.1 RefSeq gene 526537 529509 . - . gene_id "ECDH10B_RS02710"; transcript_id ""; gbkey "Gene"; gene "nfrA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02710"; old_locus_tag "ECDH10B_0526"; -NC_010473.1 Protein Homology CDS 526540 529509 . - 0 gene_id "ECDH10B_RS02710"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nfrA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415100.1"; locus_tag "ECDH10B_RS02710"; product "bacteriophage adsorption protein NfrA"; protein_id "WP_000662357.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 529507 529509 . - 0 gene_id "ECDH10B_RS02710"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nfrA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415100.1"; locus_tag "ECDH10B_RS02710"; product "bacteriophage adsorption protein NfrA"; protein_id "WP_000662357.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 526537 526539 . - 0 gene_id "ECDH10B_RS02710"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nfrA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415100.1"; locus_tag "ECDH10B_RS02710"; product "bacteriophage adsorption protein NfrA"; protein_id "WP_000662357.1"; transl_table "11"; -NC_010473.1 RefSeq gene 529496 531733 . - . gene_id "ECDH10B_RS02715"; transcript_id ""; gbkey "Gene"; gene "nrfB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02715"; old_locus_tag "ECDH10B_0527"; -NC_010473.1 Protein Homology CDS 529499 531733 . - 0 gene_id "ECDH10B_RS02715"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nrfB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308628.1"; locus_tag "ECDH10B_RS02715"; product "phage adsorption protein NrfB"; protein_id "WP_000383932.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 531731 531733 . - 0 gene_id "ECDH10B_RS02715"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nrfB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308628.1"; locus_tag "ECDH10B_RS02715"; product "phage adsorption protein NrfB"; protein_id "WP_000383932.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 529496 529498 . - 0 gene_id "ECDH10B_RS02715"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nrfB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308628.1"; locus_tag "ECDH10B_RS02715"; product "phage adsorption protein NrfB"; protein_id "WP_000383932.1"; transl_table "11"; -NC_010473.1 RefSeq gene 531883 533325 . - . gene_id "ECDH10B_RS02720"; transcript_id ""; gbkey "Gene"; gene "cusS"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02720"; old_locus_tag "ECDH10B_0528"; -NC_010473.1 Protein Homology CDS 531886 533325 . - 0 gene_id "ECDH10B_RS02720"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cusS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415102.1"; locus_tag "ECDH10B_RS02720"; product "Cu(+)/Ag(+) sensor histidine kinase CusS"; protein_id "WP_000253839.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 533323 533325 . - 0 gene_id "ECDH10B_RS02720"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cusS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415102.1"; locus_tag "ECDH10B_RS02720"; product "Cu(+)/Ag(+) sensor histidine kinase CusS"; protein_id "WP_000253839.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 531883 531885 . - 0 gene_id "ECDH10B_RS02720"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cusS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415102.1"; locus_tag "ECDH10B_RS02720"; product "Cu(+)/Ag(+) sensor histidine kinase CusS"; protein_id "WP_000253839.1"; transl_table "11"; -NC_010473.1 RefSeq gene 533315 533998 . - . gene_id "ECDH10B_RS02725"; transcript_id ""; gbkey "Gene"; gene "cusR"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02725"; old_locus_tag "ECDH10B_0529"; -NC_010473.1 Protein Homology CDS 533318 533998 . - 0 gene_id "ECDH10B_RS02725"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cusR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308636.1"; locus_tag "ECDH10B_RS02725"; product "copper response regulator transcription factor CusR"; protein_id "WP_000770953.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 533996 533998 . - 0 gene_id "ECDH10B_RS02725"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cusR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308636.1"; locus_tag "ECDH10B_RS02725"; product "copper response regulator transcription factor CusR"; protein_id "WP_000770953.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 533315 533317 . - 0 gene_id "ECDH10B_RS02725"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cusR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308636.1"; locus_tag "ECDH10B_RS02725"; product "copper response regulator transcription factor CusR"; protein_id "WP_000770953.1"; transl_table "11"; -NC_010473.1 RefSeq gene 534155 535528 . + . gene_id "ECDH10B_RS02730"; transcript_id ""; gbkey "Gene"; gene "cusC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02730"; old_locus_tag "ECDH10B_0530"; -NC_010473.1 Protein Homology CDS 534155 535525 . + 0 gene_id "ECDH10B_RS02730"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cusC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415104.1"; locus_tag "ECDH10B_RS02730"; product "Cu(+)/Ag(+) efflux RND transporter outer membrane channel CusC"; protein_id "WP_000074234.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 534155 534157 . + 0 gene_id "ECDH10B_RS02730"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cusC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415104.1"; locus_tag "ECDH10B_RS02730"; product "Cu(+)/Ag(+) efflux RND transporter outer membrane channel CusC"; protein_id "WP_000074234.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 535526 535528 . + 0 gene_id "ECDH10B_RS02730"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cusC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415104.1"; locus_tag "ECDH10B_RS02730"; product "Cu(+)/Ag(+) efflux RND transporter outer membrane channel CusC"; protein_id "WP_000074234.1"; transl_table "11"; -NC_010473.1 RefSeq gene 535686 536018 . + . gene_id "ECDH10B_RS02735"; transcript_id ""; gbkey "Gene"; gene "cusF"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02735"; old_locus_tag "ECDH10B_0531"; -NC_010473.1 Protein Homology CDS 535686 536015 . + 0 gene_id "ECDH10B_RS02735"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cusF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415105.1"; locus_tag "ECDH10B_RS02735"; product "Cu(+)/Ag(+) efflux RND transporter periplasmic metallochaperone CusF"; protein_id "WP_000709870.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 535686 535688 . + 0 gene_id "ECDH10B_RS02735"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cusF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415105.1"; locus_tag "ECDH10B_RS02735"; product "Cu(+)/Ag(+) efflux RND transporter periplasmic metallochaperone CusF"; protein_id "WP_000709870.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 536016 536018 . + 0 gene_id "ECDH10B_RS02735"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cusF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415105.1"; locus_tag "ECDH10B_RS02735"; product "Cu(+)/Ag(+) efflux RND transporter periplasmic metallochaperone CusF"; protein_id "WP_000709870.1"; transl_table "11"; -NC_010473.1 RefSeq gene 536034 537257 . + . gene_id "ECDH10B_RS02740"; transcript_id ""; gbkey "Gene"; gene "cusB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02740"; old_locus_tag "ECDH10B_0532"; -NC_010473.1 Protein Homology CDS 536034 537254 . + 0 gene_id "ECDH10B_RS02740"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cusB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415106.1"; locus_tag "ECDH10B_RS02740"; product "Cu(+)/Ag(+) efflux RND transporter periplasmic adaptor subunit CusB"; protein_id "WP_000717157.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 536034 536036 . + 0 gene_id "ECDH10B_RS02740"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cusB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415106.1"; locus_tag "ECDH10B_RS02740"; product "Cu(+)/Ag(+) efflux RND transporter periplasmic adaptor subunit CusB"; protein_id "WP_000717157.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 537255 537257 . + 0 gene_id "ECDH10B_RS02740"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cusB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415106.1"; locus_tag "ECDH10B_RS02740"; product "Cu(+)/Ag(+) efflux RND transporter periplasmic adaptor subunit CusB"; protein_id "WP_000717157.1"; transl_table "11"; -NC_010473.1 RefSeq gene 537269 540412 . + . gene_id "ECDH10B_RS02745"; transcript_id ""; gbkey "Gene"; gene "cusA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02745"; old_locus_tag "ECDH10B_0533"; -NC_010473.1 Protein Homology CDS 537269 540409 . + 0 gene_id "ECDH10B_RS02745"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cusA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415107.1"; locus_tag "ECDH10B_RS02745"; product "Cu(+)/Ag(+) efflux RND transporter permease subunit CusA"; protein_id "WP_000573945.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 537269 537271 . + 0 gene_id "ECDH10B_RS02745"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cusA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415107.1"; locus_tag "ECDH10B_RS02745"; product "Cu(+)/Ag(+) efflux RND transporter permease subunit CusA"; protein_id "WP_000573945.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 540410 540412 . + 0 gene_id "ECDH10B_RS02745"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cusA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415107.1"; locus_tag "ECDH10B_RS02745"; product "Cu(+)/Ag(+) efflux RND transporter permease subunit CusA"; protein_id "WP_000573945.1"; transl_table "11"; -NC_010473.1 RefSeq gene 540514 541890 . + . gene_id "ECDH10B_RS02750"; transcript_id ""; gbkey "Gene"; gene "pheP"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02750"; old_locus_tag "ECDH10B_0534"; -NC_010473.1 Protein Homology CDS 540514 541887 . + 0 gene_id "ECDH10B_RS02750"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pheP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415108.1"; locus_tag "ECDH10B_RS02750"; product "phenylalanine transporter"; protein_id "WP_000786319.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 540514 540516 . + 0 gene_id "ECDH10B_RS02750"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pheP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415108.1"; locus_tag "ECDH10B_RS02750"; product "phenylalanine transporter"; protein_id "WP_000786319.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 541888 541890 . + 0 gene_id "ECDH10B_RS02750"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pheP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415108.1"; locus_tag "ECDH10B_RS02750"; product "phenylalanine transporter"; protein_id "WP_000786319.1"; transl_table "11"; -NC_010473.1 RefSeq gene 541971 543218 . - . gene_id "ECDH10B_RS02755"; transcript_id ""; gbkey "Gene"; gene "ybdG"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02755"; old_locus_tag "ECDH10B_0535"; -NC_010473.1 Protein Homology CDS 541974 543218 . - 0 gene_id "ECDH10B_RS02755"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ybdG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415109.1"; locus_tag "ECDH10B_RS02755"; product "mechanosensitive ion channel YbdG"; protein_id "WP_001153148.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 543216 543218 . - 0 gene_id "ECDH10B_RS02755"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ybdG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415109.1"; locus_tag "ECDH10B_RS02755"; product "mechanosensitive ion channel YbdG"; protein_id "WP_001153148.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 541971 541973 . - 0 gene_id "ECDH10B_RS02755"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ybdG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415109.1"; locus_tag "ECDH10B_RS02755"; product "mechanosensitive ion channel YbdG"; protein_id "WP_001153148.1"; transl_table "11"; -NC_010473.1 RefSeq gene 543326 543979 . - . gene_id "ECDH10B_RS02760"; transcript_id ""; gbkey "Gene"; gene "nfsB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02760"; old_locus_tag "ECDH10B_0536"; -NC_010473.1 Protein Homology CDS 543329 543979 . - 0 gene_id "ECDH10B_RS02760"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nfsB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415110.1"; locus_tag "ECDH10B_RS02760"; product "oxygen-insensitive NAD(P)H nitroreductase"; protein_id "WP_000351487.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 543977 543979 . - 0 gene_id "ECDH10B_RS02760"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nfsB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415110.1"; locus_tag "ECDH10B_RS02760"; product "oxygen-insensitive NAD(P)H nitroreductase"; protein_id "WP_000351487.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 543326 543328 . - 0 gene_id "ECDH10B_RS02760"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nfsB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415110.1"; locus_tag "ECDH10B_RS02760"; product "oxygen-insensitive NAD(P)H nitroreductase"; protein_id "WP_000351487.1"; transl_table "11"; -NC_010473.1 RefSeq gene 544073 544441 . - . gene_id "ECDH10B_RS02765"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02765"; old_locus_tag "ECDH10B_0537"; -NC_010473.1 Protein Homology CDS 544076 544441 . - 0 gene_id "ECDH10B_RS02765"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308644.1"; locus_tag "ECDH10B_RS02765"; product "MmcQ/YjbR family DNA-binding protein"; protein_id "WP_000360951.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 544439 544441 . - 0 gene_id "ECDH10B_RS02765"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308644.1"; locus_tag "ECDH10B_RS02765"; product "MmcQ/YjbR family DNA-binding protein"; protein_id "WP_000360951.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 544073 544075 . - 0 gene_id "ECDH10B_RS02765"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308644.1"; locus_tag "ECDH10B_RS02765"; product "MmcQ/YjbR family DNA-binding protein"; protein_id "WP_000360951.1"; transl_table "11"; -NC_010473.1 RefSeq gene 544506 544754 . - . gene_id "ECDH10B_RS02770"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02770"; old_locus_tag "ECDH10B_0538"; -NC_010473.1 Protein Homology CDS 544509 544754 . - 0 gene_id "ECDH10B_RS02770"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415112.1"; locus_tag "ECDH10B_RS02770"; product "DUF1158 domain-containing protein"; protein_id "WP_000682509.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 544752 544754 . - 0 gene_id "ECDH10B_RS02770"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415112.1"; locus_tag "ECDH10B_RS02770"; product "DUF1158 domain-containing protein"; protein_id "WP_000682509.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 544506 544508 . - 0 gene_id "ECDH10B_RS02770"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415112.1"; locus_tag "ECDH10B_RS02770"; product "DUF1158 domain-containing protein"; protein_id "WP_000682509.1"; transl_table "11"; -NC_010473.1 RefSeq gene 544820 545938 . - . gene_id "ECDH10B_RS02775"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02775"; old_locus_tag "ECDH10B_0539"; -NC_010473.1 Protein Homology CDS 544823 545938 . - 0 gene_id "ECDH10B_RS02775"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415113.1"; locus_tag "ECDH10B_RS02775"; product "glutamate--cysteine ligase"; protein_id "WP_001130654.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 545936 545938 . - 0 gene_id "ECDH10B_RS02775"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415113.1"; locus_tag "ECDH10B_RS02775"; product "glutamate--cysteine ligase"; protein_id "WP_001130654.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 544820 544822 . - 0 gene_id "ECDH10B_RS02775"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415113.1"; locus_tag "ECDH10B_RS02775"; product "glutamate--cysteine ligase"; protein_id "WP_001130654.1"; transl_table "11"; -NC_010473.1 RefSeq gene 546391 546543 . + . gene_id "ECDH10B_RS02785"; transcript_id ""; gbkey "Gene"; gene "hokE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02785"; old_locus_tag "ECDH10B_0540"; -NC_010473.1 Protein Homology CDS 546391 546540 . + 0 gene_id "ECDH10B_RS02785"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hokE"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_025295.1"; locus_tag "ECDH10B_RS02785"; product "type I toxin-antitoxin system toxin HokE"; protein_id "WP_000956455.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 546391 546393 . + 0 gene_id "ECDH10B_RS02785"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hokE"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_025295.1"; locus_tag "ECDH10B_RS02785"; product "type I toxin-antitoxin system toxin HokE"; protein_id "WP_000956455.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 546541 546543 . + 0 gene_id "ECDH10B_RS02785"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hokE"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_025295.1"; locus_tag "ECDH10B_RS02785"; product "type I toxin-antitoxin system toxin HokE"; protein_id "WP_000956455.1"; transl_table "11"; -NC_010473.1 RefSeq gene 546620 547732 . + . gene_id "ECDH10B_RS02790"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02790"; old_locus_tag "ECDH10B_0541"; -NC_010473.1 Protein Homology CDS 546620 547729 . + 0 gene_id "ECDH10B_RS02790"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414557.1"; locus_tag "ECDH10B_RS02790"; product "IS4-like element IS421 family transposase"; protein_id "WP_001300563.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 546620 546622 . + 0 gene_id "ECDH10B_RS02790"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414557.1"; locus_tag "ECDH10B_RS02790"; product "IS4-like element IS421 family transposase"; protein_id "WP_001300563.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 547730 547732 . + 0 gene_id "ECDH10B_RS02790"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414557.1"; locus_tag "ECDH10B_RS02790"; product "IS4-like element IS421 family transposase"; protein_id "WP_001300563.1"; transl_table "11"; -NC_010473.1 RefSeq gene 548014 548634 . - . gene_id "ECDH10B_RS02795"; transcript_id ""; gbkey "Gene"; gene "entD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02795"; old_locus_tag "ECDH10B_0542"; -NC_010473.1 Protein Homology CDS 548017 548634 . - 0 gene_id "ECDH10B_RS02795"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "entD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415115.2"; locus_tag "ECDH10B_RS02795"; product "enterobactin synthase subunit EntD"; protein_id "WP_001749708.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 548632 548634 . - 0 gene_id "ECDH10B_RS02795"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "entD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415115.2"; locus_tag "ECDH10B_RS02795"; product "enterobactin synthase subunit EntD"; protein_id "WP_001749708.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 548014 548016 . - 0 gene_id "ECDH10B_RS02795"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "entD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415115.2"; locus_tag "ECDH10B_RS02795"; product "enterobactin synthase subunit EntD"; protein_id "WP_001749708.1"; transl_table "11"; -NC_010473.1 RefSeq gene 548809 551049 . - . gene_id "ECDH10B_RS02800"; transcript_id ""; gbkey "Gene"; gene "fepA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02800"; old_locus_tag "ECDH10B_0543"; -NC_010473.1 Protein Homology CDS 548812 551049 . - 0 gene_id "ECDH10B_RS02800"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fepA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415116.1"; locus_tag "ECDH10B_RS02800"; product "siderophore enterobactin receptor FepA"; protein_id "WP_001034943.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 551047 551049 . - 0 gene_id "ECDH10B_RS02800"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fepA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415116.1"; locus_tag "ECDH10B_RS02800"; product "siderophore enterobactin receptor FepA"; protein_id "WP_001034943.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 548809 548811 . - 0 gene_id "ECDH10B_RS02800"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fepA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415116.1"; locus_tag "ECDH10B_RS02800"; product "siderophore enterobactin receptor FepA"; protein_id "WP_001034943.1"; transl_table "11"; -NC_010473.1 RefSeq gene 551292 552494 . + . gene_id "ECDH10B_RS02805"; transcript_id ""; gbkey "Gene"; gene "fes"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02805"; old_locus_tag "ECDH10B_0544"; -NC_010473.1 Protein Homology CDS 551292 552491 . + 0 gene_id "ECDH10B_RS02805"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fes"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415117.2"; locus_tag "ECDH10B_RS02805"; product "enterochelin esterase"; protein_id "WP_000125843.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 551292 551294 . + 0 gene_id "ECDH10B_RS02805"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fes"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415117.2"; locus_tag "ECDH10B_RS02805"; product "enterochelin esterase"; protein_id "WP_000125843.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 552492 552494 . + 0 gene_id "ECDH10B_RS02805"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fes"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415117.2"; locus_tag "ECDH10B_RS02805"; product "enterochelin esterase"; protein_id "WP_000125843.1"; transl_table "11"; -NC_010473.1 RefSeq gene 552497 552715 . + . gene_id "ECDH10B_RS02810"; transcript_id ""; gbkey "Gene"; gene "ybdZ"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02810"; old_locus_tag "ECDH10B_0545"; -NC_010473.1 Protein Homology CDS 552497 552712 . + 0 gene_id "ECDH10B_RS02810"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ybdZ"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_588441.1"; locus_tag "ECDH10B_RS02810"; product "enterobactin biosynthesis protein YbdZ"; protein_id "WP_000885798.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 552497 552499 . + 0 gene_id "ECDH10B_RS02810"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ybdZ"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_588441.1"; locus_tag "ECDH10B_RS02810"; product "enterobactin biosynthesis protein YbdZ"; protein_id "WP_000885798.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 552713 552715 . + 0 gene_id "ECDH10B_RS02810"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ybdZ"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_588441.1"; locus_tag "ECDH10B_RS02810"; product "enterobactin biosynthesis protein YbdZ"; protein_id "WP_000885798.1"; transl_table "11"; -NC_010473.1 RefSeq gene 552712 556593 . + . gene_id "ECDH10B_RS02815"; transcript_id ""; gbkey "Gene"; gene "entF"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02815"; old_locus_tag "ECDH10B_0546"; -NC_010473.1 Protein Homology CDS 552712 556590 . + 0 gene_id "ECDH10B_RS02815"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "entF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415118.1"; locus_tag "ECDH10B_RS02815"; product "enterobactin non-ribosomal peptide synthetase EntF"; protein_id "WP_000077805.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 552712 552714 . + 0 gene_id "ECDH10B_RS02815"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "entF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415118.1"; locus_tag "ECDH10B_RS02815"; product "enterobactin non-ribosomal peptide synthetase EntF"; protein_id "WP_000077805.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 556591 556593 . + 0 gene_id "ECDH10B_RS02815"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "entF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415118.1"; locus_tag "ECDH10B_RS02815"; product "enterobactin non-ribosomal peptide synthetase EntF"; protein_id "WP_000077805.1"; transl_table "11"; -NC_010473.1 RefSeq gene 556809 557942 . + . gene_id "ECDH10B_RS02820"; transcript_id ""; gbkey "Gene"; gene "fepE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02820"; old_locus_tag "ECDH10B_0547"; -NC_010473.1 Protein Homology CDS 556809 557939 . + 0 gene_id "ECDH10B_RS02820"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fepE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415119.1"; locus_tag "ECDH10B_RS02820"; product "LPS O-antigen length regulator"; protein_id "WP_000096692.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 556809 556811 . + 0 gene_id "ECDH10B_RS02820"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fepE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415119.1"; locus_tag "ECDH10B_RS02820"; product "LPS O-antigen length regulator"; protein_id "WP_000096692.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 557940 557942 . + 0 gene_id "ECDH10B_RS02820"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fepE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415119.1"; locus_tag "ECDH10B_RS02820"; product "LPS O-antigen length regulator"; protein_id "WP_000096692.1"; transl_table "11"; -NC_010473.1 RefSeq gene 557939 558754 . - . gene_id "ECDH10B_RS02825"; transcript_id ""; gbkey "Gene"; gene "fepC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02825"; old_locus_tag "ECDH10B_0548"; -NC_010473.1 Protein Homology CDS 557942 558754 . - 0 gene_id "ECDH10B_RS02825"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fepC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415120.1"; locus_tag "ECDH10B_RS02825"; product "iron-enterobactin ABC transporter ATP-binding protein"; protein_id "WP_000140647.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 558752 558754 . - 0 gene_id "ECDH10B_RS02825"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fepC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415120.1"; locus_tag "ECDH10B_RS02825"; product "iron-enterobactin ABC transporter ATP-binding protein"; protein_id "WP_000140647.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 557939 557941 . - 0 gene_id "ECDH10B_RS02825"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fepC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415120.1"; locus_tag "ECDH10B_RS02825"; product "iron-enterobactin ABC transporter ATP-binding protein"; protein_id "WP_000140647.1"; transl_table "11"; -NC_010473.1 RefSeq gene 558751 559743 . - . gene_id "ECDH10B_RS02830"; transcript_id ""; gbkey "Gene"; gene "fepG"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02830"; old_locus_tag "ECDH10B_0549"; -NC_010473.1 Protein Homology CDS 558754 559743 . - 0 gene_id "ECDH10B_RS02830"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fepG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415121.1"; locus_tag "ECDH10B_RS02830"; product "iron-enterobactin ABC transporter permease"; protein_id "WP_000640988.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 559741 559743 . - 0 gene_id "ECDH10B_RS02830"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fepG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415121.1"; locus_tag "ECDH10B_RS02830"; product "iron-enterobactin ABC transporter permease"; protein_id "WP_000640988.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 558751 558753 . - 0 gene_id "ECDH10B_RS02830"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fepG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415121.1"; locus_tag "ECDH10B_RS02830"; product "iron-enterobactin ABC transporter permease"; protein_id "WP_000640988.1"; transl_table "11"; -NC_010473.1 RefSeq gene 559740 560744 . - . gene_id "ECDH10B_RS02835"; transcript_id ""; gbkey "Gene"; gene "fepD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02835"; old_locus_tag "ECDH10B_0550"; -NC_010473.1 Protein Homology CDS 559743 560744 . - 0 gene_id "ECDH10B_RS02835"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fepD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415122.1"; locus_tag "ECDH10B_RS02835"; product "Fe(3+)-siderophore ABC transporter permease"; protein_id "WP_000016947.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 560742 560744 . - 0 gene_id "ECDH10B_RS02835"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fepD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415122.1"; locus_tag "ECDH10B_RS02835"; product "Fe(3+)-siderophore ABC transporter permease"; protein_id "WP_000016947.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 559740 559742 . - 0 gene_id "ECDH10B_RS02835"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fepD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415122.1"; locus_tag "ECDH10B_RS02835"; product "Fe(3+)-siderophore ABC transporter permease"; protein_id "WP_000016947.1"; transl_table "11"; -NC_010473.1 RefSeq gene 560855 562105 . + . gene_id "ECDH10B_RS02840"; transcript_id ""; gbkey "Gene"; gene "entS"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02840"; old_locus_tag "ECDH10B_0551"; -NC_010473.1 Protein Homology CDS 560855 562102 . + 0 gene_id "ECDH10B_RS02840"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "entS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415123.1"; locus_tag "ECDH10B_RS02840"; product "enterobactin transporter EntS"; protein_id "WP_001041786.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 560855 560857 . + 0 gene_id "ECDH10B_RS02840"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "entS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415123.1"; locus_tag "ECDH10B_RS02840"; product "enterobactin transporter EntS"; protein_id "WP_001041786.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 562103 562105 . + 0 gene_id "ECDH10B_RS02840"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "entS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415123.1"; locus_tag "ECDH10B_RS02840"; product "enterobactin transporter EntS"; protein_id "WP_001041786.1"; transl_table "11"; -NC_010473.1 RefSeq gene 562109 563065 . - . gene_id "ECDH10B_RS02845"; transcript_id ""; gbkey "Gene"; gene "fepB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02845"; old_locus_tag "ECDH10B_0552"; -NC_010473.1 Protein Homology CDS 562112 563065 . - 0 gene_id "ECDH10B_RS02845"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fepB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415124.1"; locus_tag "ECDH10B_RS02845"; product "Fe2+-enterobactin ABC transporter substrate-binding protein"; protein_id "WP_001234311.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 563063 563065 . - 0 gene_id "ECDH10B_RS02845"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fepB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415124.1"; locus_tag "ECDH10B_RS02845"; product "Fe2+-enterobactin ABC transporter substrate-binding protein"; protein_id "WP_001234311.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 562109 562111 . - 0 gene_id "ECDH10B_RS02845"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fepB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415124.1"; locus_tag "ECDH10B_RS02845"; product "Fe2+-enterobactin ABC transporter substrate-binding protein"; protein_id "WP_001234311.1"; transl_table "11"; -NC_010473.1 RefSeq gene 563440 564615 . + . gene_id "ECDH10B_RS02850"; transcript_id ""; gbkey "Gene"; gene "entC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02850"; old_locus_tag "ECDH10B_0553"; -NC_010473.1 Protein Homology CDS 563440 564612 . + 0 gene_id "ECDH10B_RS02850"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "entC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308659.1"; locus_tag "ECDH10B_RS02850"; product "isochorismate synthase EntC"; protein_id "WP_000381303.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 563440 563442 . + 0 gene_id "ECDH10B_RS02850"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "entC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308659.1"; locus_tag "ECDH10B_RS02850"; product "isochorismate synthase EntC"; protein_id "WP_000381303.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 564613 564615 . + 0 gene_id "ECDH10B_RS02850"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "entC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308659.1"; locus_tag "ECDH10B_RS02850"; product "isochorismate synthase EntC"; protein_id "WP_000381303.1"; transl_table "11"; -NC_010473.1 RefSeq gene 564625 566235 . + . gene_id "ECDH10B_RS02855"; transcript_id ""; gbkey "Gene"; gene "entE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02855"; old_locus_tag "ECDH10B_0554"; -NC_010473.1 Protein Homology CDS 564625 566232 . + 0 gene_id "ECDH10B_RS02855"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "entE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415126.1"; locus_tag "ECDH10B_RS02855"; product "(2,3-dihydroxybenzoyl)adenylate synthase EntE"; protein_id "WP_000026812.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 564625 564627 . + 0 gene_id "ECDH10B_RS02855"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "entE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415126.1"; locus_tag "ECDH10B_RS02855"; product "(2,3-dihydroxybenzoyl)adenylate synthase EntE"; protein_id "WP_000026812.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 566233 566235 . + 0 gene_id "ECDH10B_RS02855"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "entE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415126.1"; locus_tag "ECDH10B_RS02855"; product "(2,3-dihydroxybenzoyl)adenylate synthase EntE"; protein_id "WP_000026812.1"; transl_table "11"; -NC_010473.1 RefSeq gene 566249 567106 . + . gene_id "ECDH10B_RS02860"; transcript_id ""; gbkey "Gene"; gene "entB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02860"; old_locus_tag "ECDH10B_0555"; -NC_010473.1 Protein Homology CDS 566249 567103 . + 0 gene_id "ECDH10B_RS02860"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "entB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308661.1"; locus_tag "ECDH10B_RS02860"; product "enterobactin biosynthesis bifunctional isochorismatase/aryl carrier protein EntB"; protein_id "WP_001007138.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 566249 566251 . + 0 gene_id "ECDH10B_RS02860"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "entB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308661.1"; locus_tag "ECDH10B_RS02860"; product "enterobactin biosynthesis bifunctional isochorismatase/aryl carrier protein EntB"; protein_id "WP_001007138.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 567104 567106 . + 0 gene_id "ECDH10B_RS02860"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "entB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308661.1"; locus_tag "ECDH10B_RS02860"; product "enterobactin biosynthesis bifunctional isochorismatase/aryl carrier protein EntB"; protein_id "WP_001007138.1"; transl_table "11"; -NC_010473.1 RefSeq gene 567106 567852 . + . gene_id "ECDH10B_RS02865"; transcript_id ""; gbkey "Gene"; gene "entA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02865"; old_locus_tag "ECDH10B_0556"; -NC_010473.1 Protein Homology CDS 567106 567849 . + 0 gene_id "ECDH10B_RS02865"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "entA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415128.1"; locus_tag "ECDH10B_RS02865"; product "2,3-dihydro-2,3-dihydroxybenzoate dehydrogenase EntA"; protein_id "WP_000347651.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 567106 567108 . + 0 gene_id "ECDH10B_RS02865"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "entA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415128.1"; locus_tag "ECDH10B_RS02865"; product "2,3-dihydro-2,3-dihydroxybenzoate dehydrogenase EntA"; protein_id "WP_000347651.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 567850 567852 . + 0 gene_id "ECDH10B_RS02865"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "entA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415128.1"; locus_tag "ECDH10B_RS02865"; product "2,3-dihydro-2,3-dihydroxybenzoate dehydrogenase EntA"; protein_id "WP_000347651.1"; transl_table "11"; -NC_010473.1 RefSeq gene 567855 568268 . + . gene_id "ECDH10B_RS02870"; transcript_id ""; gbkey "Gene"; gene "entH"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02870"; old_locus_tag "ECDH10B_0557"; -NC_010473.1 Protein Homology CDS 567855 568265 . + 0 gene_id "ECDH10B_RS02870"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "entH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415129.1"; locus_tag "ECDH10B_RS02870"; product "proofreading thioesterase EntH"; protein_id "WP_000637953.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 567855 567857 . + 0 gene_id "ECDH10B_RS02870"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "entH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415129.1"; locus_tag "ECDH10B_RS02870"; product "proofreading thioesterase EntH"; protein_id "WP_000637953.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 568266 568268 . + 0 gene_id "ECDH10B_RS02870"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "entH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415129.1"; locus_tag "ECDH10B_RS02870"; product "proofreading thioesterase EntH"; protein_id "WP_000637953.1"; transl_table "11"; -NC_010473.1 RefSeq gene 568449 570554 . + . gene_id "ECDH10B_RS02875"; transcript_id ""; gbkey "Gene"; gene "cstA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02875"; old_locus_tag "ECDH10B_0558"; -NC_010473.1 Protein Homology CDS 568449 570551 . + 0 gene_id "ECDH10B_RS02875"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cstA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415130.1"; locus_tag "ECDH10B_RS02875"; product "carbon starvation protein CstA"; protein_id "WP_001043156.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 568449 568451 . + 0 gene_id "ECDH10B_RS02875"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cstA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415130.1"; locus_tag "ECDH10B_RS02875"; product "carbon starvation protein CstA"; protein_id "WP_001043156.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 570552 570554 . + 0 gene_id "ECDH10B_RS02875"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cstA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415130.1"; locus_tag "ECDH10B_RS02875"; product "carbon starvation protein CstA"; protein_id "WP_001043156.1"; transl_table "11"; -NC_010473.1 RefSeq gene 570737 570934 . + . gene_id "ECDH10B_RS02880"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02880"; old_locus_tag "ECDH10B_0559"; -NC_010473.1 Protein Homology CDS 570737 570931 . + 0 gene_id "ECDH10B_RS02880"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_012904950.1"; locus_tag "ECDH10B_RS02880"; product "YbdD/YjiX family protein"; protein_id "WP_000460431.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 570737 570739 . + 0 gene_id "ECDH10B_RS02880"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_012904950.1"; locus_tag "ECDH10B_RS02880"; product "YbdD/YjiX family protein"; protein_id "WP_000460431.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 570932 570934 . + 0 gene_id "ECDH10B_RS02880"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_012904950.1"; locus_tag "ECDH10B_RS02880"; product "YbdD/YjiX family protein"; protein_id "WP_000460431.1"; transl_table "11"; -NC_010473.1 RefSeq gene 570944 572032 . - . gene_id "ECDH10B_RS02885"; transcript_id ""; gbkey "Gene"; gene "hcxA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02885"; old_locus_tag "ECDH10B_0560"; -NC_010473.1 Protein Homology CDS 570947 572032 . - 0 gene_id "ECDH10B_RS02885"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hcxA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415132.1"; locus_tag "ECDH10B_RS02885"; product "hydroxycarboxylate dehydrogenase HcxA"; protein_id "WP_001120441.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 572030 572032 . - 0 gene_id "ECDH10B_RS02885"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hcxA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415132.1"; locus_tag "ECDH10B_RS02885"; product "hydroxycarboxylate dehydrogenase HcxA"; protein_id "WP_001120441.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 570944 570946 . - 0 gene_id "ECDH10B_RS02885"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hcxA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415132.1"; locus_tag "ECDH10B_RS02885"; product "hydroxycarboxylate dehydrogenase HcxA"; protein_id "WP_001120441.1"; transl_table "11"; -NC_010473.1 RefSeq gene 572141 573301 . + . gene_id "ECDH10B_RS02890"; transcript_id ""; gbkey "Gene"; gene "ybdL"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02890"; old_locus_tag "ECDH10B_0561"; -NC_010473.1 Protein Homology CDS 572141 573298 . + 0 gene_id "ECDH10B_RS02890"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ybdL"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415133.1"; locus_tag "ECDH10B_RS02890"; product "methionine-oxo-acid transaminase"; protein_id "WP_000183907.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 572141 572143 . + 0 gene_id "ECDH10B_RS02890"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ybdL"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415133.1"; locus_tag "ECDH10B_RS02890"; product "methionine-oxo-acid transaminase"; protein_id "WP_000183907.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 573299 573301 . + 0 gene_id "ECDH10B_RS02890"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ybdL"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415133.1"; locus_tag "ECDH10B_RS02890"; product "methionine-oxo-acid transaminase"; protein_id "WP_000183907.1"; transl_table "11"; -NC_010473.1 RefSeq gene 573302 573931 . - . gene_id "ECDH10B_RS02895"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02895"; old_locus_tag "ECDH10B_0562"; -NC_010473.1 Protein Homology CDS 573305 573931 . - 0 gene_id "ECDH10B_RS02895"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415134.1"; locus_tag "ECDH10B_RS02895"; product "ParB-like nuclease domain-containing protein"; protein_id "WP_000502945.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 573929 573931 . - 0 gene_id "ECDH10B_RS02895"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415134.1"; locus_tag "ECDH10B_RS02895"; product "ParB-like nuclease domain-containing protein"; protein_id "WP_000502945.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 573302 573304 . - 0 gene_id "ECDH10B_RS02895"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415134.1"; locus_tag "ECDH10B_RS02895"; product "ParB-like nuclease domain-containing protein"; protein_id "WP_000502945.1"; transl_table "11"; -NC_010473.1 RefSeq gene 573904 575124 . - . gene_id "ECDH10B_RS02900"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02900"; old_locus_tag "ECDH10B_0563"; -NC_010473.1 Protein Homology CDS 573907 575124 . - 0 gene_id "ECDH10B_RS02900"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415135.1"; locus_tag "ECDH10B_RS02900"; product "phosphoadenosine phosphosulfate reductase"; protein_id "WP_000029814.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 575122 575124 . - 0 gene_id "ECDH10B_RS02900"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415135.1"; locus_tag "ECDH10B_RS02900"; product "phosphoadenosine phosphosulfate reductase"; protein_id "WP_000029814.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 573904 573906 . - 0 gene_id "ECDH10B_RS02900"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415135.1"; locus_tag "ECDH10B_RS02900"; product "phosphoadenosine phosphosulfate reductase"; protein_id "WP_000029814.1"; transl_table "11"; -NC_010473.1 RefSeq gene 575271 576173 . - . gene_id "ECDH10B_RS02905"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02905"; old_locus_tag "ECDH10B_0564"; -NC_010473.1 Protein Homology CDS 575274 576173 . - 0 gene_id "ECDH10B_RS02905"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415136.1"; locus_tag "ECDH10B_RS02905"; product "LysR family transcriptional regulator"; protein_id "WP_000002474.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 576171 576173 . - 0 gene_id "ECDH10B_RS02905"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415136.1"; locus_tag "ECDH10B_RS02905"; product "LysR family transcriptional regulator"; protein_id "WP_000002474.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 575271 575273 . - 0 gene_id "ECDH10B_RS02905"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415136.1"; locus_tag "ECDH10B_RS02905"; product "LysR family transcriptional regulator"; protein_id "WP_000002474.1"; transl_table "11"; -NC_010473.1 RefSeq gene 576382 577128 . - . gene_id "ECDH10B_RS02910"; transcript_id ""; gbkey "Gene"; gene "dsbG"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02910"; old_locus_tag "ECDH10B_0565"; -NC_010473.1 Protein Homology CDS 576385 577128 . - 0 gene_id "ECDH10B_RS02910"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dsbG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415137.2"; locus_tag "ECDH10B_RS02910"; product "thiol:disulfide interchange protein DsbG"; protein_id "WP_000913829.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 577126 577128 . - 0 gene_id "ECDH10B_RS02910"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dsbG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415137.2"; locus_tag "ECDH10B_RS02910"; product "thiol:disulfide interchange protein DsbG"; protein_id "WP_000913829.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 576382 576384 . - 0 gene_id "ECDH10B_RS02910"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dsbG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415137.2"; locus_tag "ECDH10B_RS02910"; product "thiol:disulfide interchange protein DsbG"; protein_id "WP_000913829.1"; transl_table "11"; -NC_010473.1 RefSeq gene 577500 578063 . + . gene_id "ECDH10B_RS02915"; transcript_id ""; gbkey "Gene"; gene "ahpC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02915"; old_locus_tag "ECDH10B_0566"; -NC_010473.1 Protein Homology CDS 577500 578060 . + 0 gene_id "ECDH10B_RS02915"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ahpC"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_003858764.1"; locus_tag "ECDH10B_RS02915"; product "alkyl hydroperoxide reductase subunit C"; protein_id "WP_000052796.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 577500 577502 . + 0 gene_id "ECDH10B_RS02915"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ahpC"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_003858764.1"; locus_tag "ECDH10B_RS02915"; product "alkyl hydroperoxide reductase subunit C"; protein_id "WP_000052796.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 578061 578063 . + 0 gene_id "ECDH10B_RS02915"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ahpC"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_003858764.1"; locus_tag "ECDH10B_RS02915"; product "alkyl hydroperoxide reductase subunit C"; protein_id "WP_000052796.1"; transl_table "11"; -NC_010473.1 RefSeq gene 578308 579873 . + . gene_id "ECDH10B_RS02920"; transcript_id ""; gbkey "Gene"; gene "ahpF"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02920"; old_locus_tag "ECDH10B_0567"; -NC_010473.1 Protein Homology CDS 578308 579870 . + 0 gene_id "ECDH10B_RS02920"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ahpF"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_017455864.1"; locus_tag "ECDH10B_RS02920"; product "alkyl hydroperoxide reductase subunit F"; protein_id "WP_000887629.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 578308 578310 . + 0 gene_id "ECDH10B_RS02920"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ahpF"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_017455864.1"; locus_tag "ECDH10B_RS02920"; product "alkyl hydroperoxide reductase subunit F"; protein_id "WP_000887629.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 579871 579873 . + 0 gene_id "ECDH10B_RS02920"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ahpF"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_017455864.1"; locus_tag "ECDH10B_RS02920"; product "alkyl hydroperoxide reductase subunit F"; protein_id "WP_000887629.1"; transl_table "11"; -NC_010473.1 RefSeq gene 579994 580422 . - . gene_id "ECDH10B_RS02925"; transcript_id ""; gbkey "Gene"; gene "uspG"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02925"; old_locus_tag "ECDH10B_0568"; -NC_010473.1 Protein Homology CDS 579997 580422 . - 0 gene_id "ECDH10B_RS02925"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "uspG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415140.1"; locus_tag "ECDH10B_RS02925"; product "universal stress protein UspG"; protein_id "WP_000278509.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 580420 580422 . - 0 gene_id "ECDH10B_RS02925"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "uspG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415140.1"; locus_tag "ECDH10B_RS02925"; product "universal stress protein UspG"; protein_id "WP_000278509.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 579994 579996 . - 0 gene_id "ECDH10B_RS02925"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "uspG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415140.1"; locus_tag "ECDH10B_RS02925"; product "universal stress protein UspG"; protein_id "WP_000278509.1"; transl_table "11"; -NC_010473.1 RefSeq gene 580643 581881 . + . gene_id "ECDH10B_RS02930"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02930"; old_locus_tag "ECDH10B_0569"; -NC_010473.1 Protein Homology CDS 580643 581878 . + 0 gene_id "ECDH10B_RS02930"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415141.1"; locus_tag "ECDH10B_RS02930"; product "glutathione-dependent formaldehyde dehydrogenase"; protein_id "WP_000646173.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 580643 580645 . + 0 gene_id "ECDH10B_RS02930"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415141.1"; locus_tag "ECDH10B_RS02930"; product "glutathione-dependent formaldehyde dehydrogenase"; protein_id "WP_000646173.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 581879 581881 . + 0 gene_id "ECDH10B_RS02930"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415141.1"; locus_tag "ECDH10B_RS02930"; product "glutathione-dependent formaldehyde dehydrogenase"; protein_id "WP_000646173.1"; transl_table "11"; -NC_010473.1 RefSeq gene 582112 582522 . - . gene_id "ECDH10B_RS02940"; transcript_id ""; gbkey "Gene"; gene "rnk"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02940"; old_locus_tag "ECDH10B_0570"; -NC_010473.1 Protein Homology CDS 582115 582522 . - 0 gene_id "ECDH10B_RS02940"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rnk"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308676.1"; locus_tag "ECDH10B_RS02940"; product "nucleoside diphosphate kinase regulator"; protein_id "WP_000089731.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 582520 582522 . - 0 gene_id "ECDH10B_RS02940"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rnk"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308676.1"; locus_tag "ECDH10B_RS02940"; product "nucleoside diphosphate kinase regulator"; protein_id "WP_000089731.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 582112 582114 . - 0 gene_id "ECDH10B_RS02940"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rnk"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308676.1"; locus_tag "ECDH10B_RS02940"; product "nucleoside diphosphate kinase regulator"; protein_id "WP_000089731.1"; transl_table "11"; -NC_010473.1 RefSeq gene 582752 583558 . - . gene_id "ECDH10B_RS02945"; transcript_id ""; gbkey "Gene"; gene "rna"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02945"; old_locus_tag "ECDH10B_0571"; -NC_010473.1 Protein Homology CDS 582755 583558 . - 0 gene_id "ECDH10B_RS02945"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rna"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415144.1"; locus_tag "ECDH10B_RS02945"; product "ribonuclease I"; protein_id "WP_000643397.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 583556 583558 . - 0 gene_id "ECDH10B_RS02945"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rna"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415144.1"; locus_tag "ECDH10B_RS02945"; product "ribonuclease I"; protein_id "WP_000643397.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 582752 582754 . - 0 gene_id "ECDH10B_RS02945"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rna"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415144.1"; locus_tag "ECDH10B_RS02945"; product "ribonuclease I"; protein_id "WP_000643397.1"; transl_table "11"; -NC_010473.1 RefSeq gene 583672 585135 . - . gene_id "ECDH10B_RS02950"; transcript_id ""; gbkey "Gene"; gene "citT"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02950"; old_locus_tag "ECDH10B_0572"; -NC_010473.1 Protein Homology CDS 583675 585135 . - 0 gene_id "ECDH10B_RS02950"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "citT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308678.1"; locus_tag "ECDH10B_RS02950"; product "citrate/succinate antiporter CitT"; protein_id "WP_000050323.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 585133 585135 . - 0 gene_id "ECDH10B_RS02950"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "citT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308678.1"; locus_tag "ECDH10B_RS02950"; product "citrate/succinate antiporter CitT"; protein_id "WP_000050323.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 583672 583674 . - 0 gene_id "ECDH10B_RS02950"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "citT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308678.1"; locus_tag "ECDH10B_RS02950"; product "citrate/succinate antiporter CitT"; protein_id "WP_000050323.1"; transl_table "11"; -NC_010473.1 RefSeq gene 585186 586064 . - . gene_id "ECDH10B_RS02955"; transcript_id ""; gbkey "Gene"; gene "citG"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02955"; old_locus_tag "ECDH10B_0573"; -NC_010473.1 Protein Homology CDS 585189 586064 . - 0 gene_id "ECDH10B_RS02955"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "citG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415146.1"; locus_tag "ECDH10B_RS02955"; product "triphosphoribosyl-dephospho-CoA synthase CitG"; protein_id "WP_000062457.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 586062 586064 . - 0 gene_id "ECDH10B_RS02955"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "citG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415146.1"; locus_tag "ECDH10B_RS02955"; product "triphosphoribosyl-dephospho-CoA synthase CitG"; protein_id "WP_000062457.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 585186 585188 . - 0 gene_id "ECDH10B_RS02955"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "citG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415146.1"; locus_tag "ECDH10B_RS02955"; product "triphosphoribosyl-dephospho-CoA synthase CitG"; protein_id "WP_000062457.1"; transl_table "11"; -NC_010473.1 RefSeq gene 586039 586590 . - . gene_id "ECDH10B_RS02960"; transcript_id ""; gbkey "Gene"; gene "citX"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02960"; old_locus_tag "ECDH10B_0574"; -NC_010473.1 Protein Homology CDS 586042 586590 . - 0 gene_id "ECDH10B_RS02960"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "citX"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308680.1"; locus_tag "ECDH10B_RS02960"; product "citrate lyase holo-[acyl-carrier protein] synthase"; protein_id "WP_000550422.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 586588 586590 . - 0 gene_id "ECDH10B_RS02960"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "citX"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308680.1"; locus_tag "ECDH10B_RS02960"; product "citrate lyase holo-[acyl-carrier protein] synthase"; protein_id "WP_000550422.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 586039 586041 . - 0 gene_id "ECDH10B_RS02960"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "citX"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308680.1"; locus_tag "ECDH10B_RS02960"; product "citrate lyase holo-[acyl-carrier protein] synthase"; protein_id "WP_000550422.1"; transl_table "11"; -NC_010473.1 RefSeq gene 586594 588126 . - . gene_id "ECDH10B_RS02965"; transcript_id ""; gbkey "Gene"; gene "citF"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02965"; old_locus_tag "ECDH10B_0575"; -NC_010473.1 Protein Homology CDS 586597 588126 . - 0 gene_id "ECDH10B_RS02965"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "citF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415148.1"; locus_tag "ECDH10B_RS02965"; product "citrate lyase subunit alpha"; protein_id "WP_000192242.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 588124 588126 . - 0 gene_id "ECDH10B_RS02965"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "citF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415148.1"; locus_tag "ECDH10B_RS02965"; product "citrate lyase subunit alpha"; protein_id "WP_000192242.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 586594 586596 . - 0 gene_id "ECDH10B_RS02965"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "citF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415148.1"; locus_tag "ECDH10B_RS02965"; product "citrate lyase subunit alpha"; protein_id "WP_000192242.1"; transl_table "11"; -NC_010473.1 RefSeq gene 588137 589045 . - . gene_id "ECDH10B_RS02970"; transcript_id ""; gbkey "Gene"; gene "citE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02970"; old_locus_tag "ECDH10B_0576"; -NC_010473.1 Protein Homology CDS 588140 589045 . - 0 gene_id "ECDH10B_RS02970"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "citE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415149.4"; locus_tag "ECDH10B_RS02970"; product "citrate (pro-3S)-lyase subunit beta"; protein_id "WP_000622357.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 589043 589045 . - 0 gene_id "ECDH10B_RS02970"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "citE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415149.4"; locus_tag "ECDH10B_RS02970"; product "citrate (pro-3S)-lyase subunit beta"; protein_id "WP_000622357.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 588137 588139 . - 0 gene_id "ECDH10B_RS02970"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "citE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415149.4"; locus_tag "ECDH10B_RS02970"; product "citrate (pro-3S)-lyase subunit beta"; protein_id "WP_000622357.1"; transl_table "11"; -NC_010473.1 RefSeq gene 589042 589338 . - . gene_id "ECDH10B_RS02975"; transcript_id ""; gbkey "Gene"; gene "citD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02975"; old_locus_tag "ECDH10B_0577"; -NC_010473.1 Protein Homology CDS 589045 589338 . - 0 gene_id "ECDH10B_RS02975"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "citD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308683.1"; locus_tag "ECDH10B_RS02975"; product "citrate lyase acyl carrier protein"; protein_id "WP_000700703.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 589336 589338 . - 0 gene_id "ECDH10B_RS02975"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "citD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308683.1"; locus_tag "ECDH10B_RS02975"; product "citrate lyase acyl carrier protein"; protein_id "WP_000700703.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 589042 589044 . - 0 gene_id "ECDH10B_RS02975"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "citD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308683.1"; locus_tag "ECDH10B_RS02975"; product "citrate lyase acyl carrier protein"; protein_id "WP_000700703.1"; transl_table "11"; -NC_010473.1 RefSeq gene 589353 590411 . - . gene_id "ECDH10B_RS02980"; transcript_id ""; gbkey "Gene"; gene "citC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02980"; old_locus_tag "ECDH10B_0578"; -NC_010473.1 Protein Homology CDS 589356 590411 . - 0 gene_id "ECDH10B_RS02980"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "citC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415151.4"; locus_tag "ECDH10B_RS02980"; product "[citrate (pro-3S)-lyase] ligase"; protein_id "WP_000467705.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 590409 590411 . - 0 gene_id "ECDH10B_RS02980"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "citC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415151.4"; locus_tag "ECDH10B_RS02980"; product "[citrate (pro-3S)-lyase] ligase"; protein_id "WP_000467705.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 589353 589355 . - 0 gene_id "ECDH10B_RS02980"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "citC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415151.4"; locus_tag "ECDH10B_RS02980"; product "[citrate (pro-3S)-lyase] ligase"; protein_id "WP_000467705.1"; transl_table "11"; -NC_010473.1 RefSeq gene 590790 592448 . + . gene_id "ECDH10B_RS02985"; transcript_id ""; gbkey "Gene"; gene "dpiB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02985"; old_locus_tag "ECDH10B_0579"; -NC_010473.1 Protein Homology CDS 590790 592445 . + 0 gene_id "ECDH10B_RS02985"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dpiB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415152.1"; locus_tag "ECDH10B_RS02985"; product "sensor histidine kinase DpiB"; protein_id "WP_000939767.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 590790 590792 . + 0 gene_id "ECDH10B_RS02985"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dpiB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415152.1"; locus_tag "ECDH10B_RS02985"; product "sensor histidine kinase DpiB"; protein_id "WP_000939767.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 592446 592448 . + 0 gene_id "ECDH10B_RS02985"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dpiB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415152.1"; locus_tag "ECDH10B_RS02985"; product "sensor histidine kinase DpiB"; protein_id "WP_000939767.1"; transl_table "11"; -NC_010473.1 RefSeq gene 592417 593097 . + . gene_id "ECDH10B_RS02990"; transcript_id ""; gbkey "Gene"; gene "dpiA"; gene_biotype "protein_coding"; gene_synonym "citB"; locus_tag "ECDH10B_RS02990"; old_locus_tag "ECDH10B_0580"; -NC_010473.1 Protein Homology CDS 592417 593094 . + 0 gene_id "ECDH10B_RS02990"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dpiA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308686.1"; locus_tag "ECDH10B_RS02990"; product "two-component response regulator DpiA"; protein_id "WP_000126500.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 592417 592419 . + 0 gene_id "ECDH10B_RS02990"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dpiA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308686.1"; locus_tag "ECDH10B_RS02990"; product "two-component response regulator DpiA"; protein_id "WP_000126500.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 593095 593097 . + 0 gene_id "ECDH10B_RS02990"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dpiA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308686.1"; locus_tag "ECDH10B_RS02990"; product "two-component response regulator DpiA"; protein_id "WP_000126500.1"; transl_table "11"; -NC_010473.1 RefSeq gene 593138 594523 . - . gene_id "ECDH10B_RS02995"; transcript_id ""; gbkey "Gene"; gene "dcuC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS02995"; old_locus_tag "ECDH10B_0581"; -NC_010473.1 Protein Homology CDS 593141 594523 . - 0 gene_id "ECDH10B_RS02995"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dcuC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308687.1"; locus_tag "ECDH10B_RS02995"; product "anaerobic C4-dicarboxylate transporter DcuC"; protein_id "WP_000955063.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 594521 594523 . - 0 gene_id "ECDH10B_RS02995"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dcuC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308687.1"; locus_tag "ECDH10B_RS02995"; product "anaerobic C4-dicarboxylate transporter DcuC"; protein_id "WP_000955063.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 593138 593140 . - 0 gene_id "ECDH10B_RS02995"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dcuC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308687.1"; locus_tag "ECDH10B_RS02995"; product "anaerobic C4-dicarboxylate transporter DcuC"; protein_id "WP_000955063.1"; transl_table "11"; -NC_010473.1 RefSeq gene 595112 595672 . + . gene_id "ECDH10B_RS03000"; transcript_id ""; gbkey "Gene"; gene "pagP"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03000"; old_locus_tag "ECDH10B_0582"; -NC_010473.1 Protein Homology CDS 595112 595669 . + 0 gene_id "ECDH10B_RS03000"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pagP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415155.1"; locus_tag "ECDH10B_RS03000"; product "lipid IV(A) palmitoyltransferase PagP"; protein_id "WP_001103094.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 595112 595114 . + 0 gene_id "ECDH10B_RS03000"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pagP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415155.1"; locus_tag "ECDH10B_RS03000"; product "lipid IV(A) palmitoyltransferase PagP"; protein_id "WP_001103094.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 595670 595672 . + 0 gene_id "ECDH10B_RS03000"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pagP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415155.1"; locus_tag "ECDH10B_RS03000"; product "lipid IV(A) palmitoyltransferase PagP"; protein_id "WP_001103094.1"; transl_table "11"; -NC_010473.1 RefSeq gene 595847 596056 . + . gene_id "ECDH10B_RS03005"; transcript_id ""; gbkey "Gene"; gene "cspE"; gene_biotype "protein_coding"; gene_synonym "gicA"; gene_synonym "msmC"; locus_tag "ECDH10B_RS03005"; old_locus_tag "ECDH10B_0583"; -NC_010473.1 Protein Homology CDS 595847 596053 . + 0 gene_id "ECDH10B_RS03005"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cspE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308689.1"; locus_tag "ECDH10B_RS03005"; product "transcription antiterminator/RNA stability regulator CspE"; protein_id "WP_000034825.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 595847 595849 . + 0 gene_id "ECDH10B_RS03005"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cspE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308689.1"; locus_tag "ECDH10B_RS03005"; product "transcription antiterminator/RNA stability regulator CspE"; protein_id "WP_000034825.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 596054 596056 . + 0 gene_id "ECDH10B_RS03005"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cspE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308689.1"; locus_tag "ECDH10B_RS03005"; product "transcription antiterminator/RNA stability regulator CspE"; protein_id "WP_000034825.1"; transl_table "11"; -NC_010473.1 RefSeq gene 596110 596493 . - . gene_id "ECDH10B_RS03010"; transcript_id ""; gbkey "Gene"; gene "crcB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03010"; old_locus_tag "ECDH10B_0584"; -NC_010473.1 Protein Homology CDS 596113 596493 . - 0 gene_id "ECDH10B_RS03010"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "crcB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415157.1"; locus_tag "ECDH10B_RS03010"; product "fluoride efflux transporter CrcB"; protein_id "WP_000939747.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 596491 596493 . - 0 gene_id "ECDH10B_RS03010"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "crcB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415157.1"; locus_tag "ECDH10B_RS03010"; product "fluoride efflux transporter CrcB"; protein_id "WP_000939747.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 596110 596112 . - 0 gene_id "ECDH10B_RS03010"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "crcB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415157.1"; locus_tag "ECDH10B_RS03010"; product "fluoride efflux transporter CrcB"; protein_id "WP_000939747.1"; transl_table "11"; -NC_010473.1 RefSeq gene 596586 597373 . + . gene_id "ECDH10B_RS03015"; transcript_id ""; gbkey "Gene"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS03015"; old_locus_tag "ECDH10B_0586"; pseudo "true"; -NC_010473.1 Protein Homology CDS 596586 597370 . + 0 gene_id "ECDH10B_RS03015"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308691.1"; locus_tag "ECDH10B_RS03015"; note "frameshifted"; product "deaminated glutathione amidase"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 596586 596588 . + 0 gene_id "ECDH10B_RS03015"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308691.1"; locus_tag "ECDH10B_RS03015"; note "frameshifted"; product "deaminated glutathione amidase"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 597371 597373 . + 0 gene_id "ECDH10B_RS03015"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308691.1"; locus_tag "ECDH10B_RS03015"; note "frameshifted"; product "deaminated glutathione amidase"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 597502 597705 . + . gene_id "ECDH10B_RS03020"; transcript_id ""; gbkey "Gene"; gene "tatE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03020"; old_locus_tag "ECDH10B_0588"; -NC_010473.1 Protein Homology CDS 597502 597702 . + 0 gene_id "ECDH10B_RS03020"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tatE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308692.1"; locus_tag "ECDH10B_RS03020"; product "twin-arginine translocase subunit TatE"; protein_id "WP_000503931.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 597502 597504 . + 0 gene_id "ECDH10B_RS03020"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tatE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308692.1"; locus_tag "ECDH10B_RS03020"; product "twin-arginine translocase subunit TatE"; protein_id "WP_000503931.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 597703 597705 . + 0 gene_id "ECDH10B_RS03020"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tatE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308692.1"; locus_tag "ECDH10B_RS03020"; product "twin-arginine translocase subunit TatE"; protein_id "WP_000503931.1"; transl_table "11"; -NC_010473.1 RefSeq gene 597806 598771 . - . gene_id "ECDH10B_RS03025"; transcript_id ""; gbkey "Gene"; gene "lipA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03025"; old_locus_tag "ECDH10B_0589"; -NC_010473.1 Protein Homology CDS 597809 598771 . - 0 gene_id "ECDH10B_RS03025"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lipA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_012904980.1"; locus_tag "ECDH10B_RS03025"; product "lipoyl synthase"; protein_id "WP_000042632.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 598769 598771 . - 0 gene_id "ECDH10B_RS03025"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lipA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_012904980.1"; locus_tag "ECDH10B_RS03025"; product "lipoyl synthase"; protein_id "WP_000042632.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 597806 597808 . - 0 gene_id "ECDH10B_RS03025"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lipA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_012904980.1"; locus_tag "ECDH10B_RS03025"; product "lipoyl synthase"; protein_id "WP_000042632.1"; transl_table "11"; -NC_010473.1 RefSeq gene 598980 599933 . - . gene_id "ECDH10B_RS03030"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03030"; old_locus_tag "ECDH10B_0590"; -NC_010473.1 Protein Homology CDS 598983 599933 . - 0 gene_id "ECDH10B_RS03030"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415162.4"; locus_tag "ECDH10B_RS03030"; product "DNA-binding transcriptional regulator"; protein_id "WP_000378026.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 599931 599933 . - 0 gene_id "ECDH10B_RS03030"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415162.4"; locus_tag "ECDH10B_RS03030"; product "DNA-binding transcriptional regulator"; protein_id "WP_000378026.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 598980 598982 . - 0 gene_id "ECDH10B_RS03030"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415162.4"; locus_tag "ECDH10B_RS03030"; product "DNA-binding transcriptional regulator"; protein_id "WP_000378026.1"; transl_table "11"; -NC_010473.1 RefSeq gene 600192 600833 . - . gene_id "ECDH10B_RS03040"; transcript_id ""; gbkey "Gene"; gene "lipB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03040"; old_locus_tag "ECDH10B_0591"; -NC_010473.1 Protein Homology CDS 600195 600833 . - 0 gene_id "ECDH10B_RS03040"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lipB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415163.2"; locus_tag "ECDH10B_RS03040"; product "lipoyl(octanoyl) transferase LipB"; protein_id "WP_000284027.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 600831 600833 . - 0 gene_id "ECDH10B_RS03040"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lipB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415163.2"; locus_tag "ECDH10B_RS03040"; product "lipoyl(octanoyl) transferase LipB"; protein_id "WP_000284027.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 600192 600194 . - 0 gene_id "ECDH10B_RS03040"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lipB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415163.2"; locus_tag "ECDH10B_RS03040"; product "lipoyl(octanoyl) transferase LipB"; protein_id "WP_000284027.1"; transl_table "11"; -NC_010473.1 RefSeq gene 600934 601197 . - . gene_id "ECDH10B_RS03045"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03045"; old_locus_tag "ECDH10B_0592"; -NC_010473.1 Protein Homology CDS 600937 601197 . - 0 gene_id "ECDH10B_RS03045"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308696.1"; locus_tag "ECDH10B_RS03045"; product "YbeD family protein"; protein_id "WP_000850550.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 601195 601197 . - 0 gene_id "ECDH10B_RS03045"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308696.1"; locus_tag "ECDH10B_RS03045"; product "YbeD family protein"; protein_id "WP_000850550.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 600934 600936 . - 0 gene_id "ECDH10B_RS03045"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308696.1"; locus_tag "ECDH10B_RS03045"; product "YbeD family protein"; protein_id "WP_000850550.1"; transl_table "11"; -NC_010473.1 RefSeq gene 601307 602518 . - . gene_id "ECDH10B_RS03050"; transcript_id ""; gbkey "Gene"; gene "dacA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03050"; old_locus_tag "ECDH10B_0593"; -NC_010473.1 Protein Homology CDS 601310 602518 . - 0 gene_id "ECDH10B_RS03050"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dacA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415165.1"; locus_tag "ECDH10B_RS03050"; product "D-alanyl-D-alanine carboxypeptidase DacA"; protein_id "WP_001092082.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 602516 602518 . - 0 gene_id "ECDH10B_RS03050"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dacA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415165.1"; locus_tag "ECDH10B_RS03050"; product "D-alanyl-D-alanine carboxypeptidase DacA"; protein_id "WP_001092082.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 601307 601309 . - 0 gene_id "ECDH10B_RS03050"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dacA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415165.1"; locus_tag "ECDH10B_RS03050"; product "D-alanyl-D-alanine carboxypeptidase DacA"; protein_id "WP_001092082.1"; transl_table "11"; -NC_010473.1 RefSeq gene 602657 603745 . - . gene_id "ECDH10B_RS03055"; transcript_id ""; gbkey "Gene"; gene "rlpA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03055"; old_locus_tag "ECDH10B_0594"; -NC_010473.1 Protein Homology CDS 602660 603745 . - 0 gene_id "ECDH10B_RS03055"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rlpA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415166.1"; locus_tag "ECDH10B_RS03055"; product "endolytic peptidoglycan transglycosylase RlpA"; protein_id "WP_001231430.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 603743 603745 . - 0 gene_id "ECDH10B_RS03055"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rlpA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415166.1"; locus_tag "ECDH10B_RS03055"; product "endolytic peptidoglycan transglycosylase RlpA"; protein_id "WP_001231430.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 602657 602659 . - 0 gene_id "ECDH10B_RS03055"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rlpA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415166.1"; locus_tag "ECDH10B_RS03055"; product "endolytic peptidoglycan transglycosylase RlpA"; protein_id "WP_001231430.1"; transl_table "11"; -NC_010473.1 RefSeq gene 603756 604868 . - . gene_id "ECDH10B_RS03060"; transcript_id ""; gbkey "Gene"; gene "mrdB"; gene_biotype "protein_coding"; gene_synonym "rodA"; locus_tag "ECDH10B_RS03060"; old_locus_tag "ECDH10B_0595"; -NC_010473.1 Protein Homology CDS 603759 604868 . - 0 gene_id "ECDH10B_RS03060"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mrdB"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_004885876.1"; locus_tag "ECDH10B_RS03060"; note "rod shape-determining protein RodA"; product "peptidoglycan glycosyltransferase MrdB"; protein_id "WP_000131719.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 604866 604868 . - 0 gene_id "ECDH10B_RS03060"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mrdB"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_004885876.1"; locus_tag "ECDH10B_RS03060"; note "rod shape-determining protein RodA"; product "peptidoglycan glycosyltransferase MrdB"; protein_id "WP_000131719.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 603756 603758 . - 0 gene_id "ECDH10B_RS03060"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mrdB"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_004885876.1"; locus_tag "ECDH10B_RS03060"; note "rod shape-determining protein RodA"; product "peptidoglycan glycosyltransferase MrdB"; protein_id "WP_000131719.1"; transl_table "11"; -NC_010473.1 RefSeq gene 604871 606772 . - . gene_id "ECDH10B_RS03065"; transcript_id ""; gbkey "Gene"; gene "mrdA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03065"; old_locus_tag "ECDH10B_0596"; -NC_010473.1 Protein Homology CDS 604874 606772 . - 0 gene_id "ECDH10B_RS03065"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mrdA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308700.1"; locus_tag "ECDH10B_RS03065"; product "peptidoglycan DD-transpeptidase MrdA"; protein_id "WP_000776191.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 606770 606772 . - 0 gene_id "ECDH10B_RS03065"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mrdA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308700.1"; locus_tag "ECDH10B_RS03065"; product "peptidoglycan DD-transpeptidase MrdA"; protein_id "WP_000776191.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 604871 604873 . - 0 gene_id "ECDH10B_RS03065"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mrdA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308700.1"; locus_tag "ECDH10B_RS03065"; product "peptidoglycan DD-transpeptidase MrdA"; protein_id "WP_000776191.1"; transl_table "11"; -NC_010473.1 RefSeq gene 606803 607270 . - . gene_id "ECDH10B_RS03070"; transcript_id ""; gbkey "Gene"; gene "rlmH"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03070"; old_locus_tag "ECDH10B_0597"; -NC_010473.1 Protein Homology CDS 606806 607270 . - 0 gene_id "ECDH10B_RS03070"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rlmH"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_016245807.1"; locus_tag "ECDH10B_RS03070"; product "23S rRNA (pseudouridine(1915)-N(3))-methyltransferase RlmH"; protein_id "WP_000776104.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 607268 607270 . - 0 gene_id "ECDH10B_RS03070"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rlmH"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_016245807.1"; locus_tag "ECDH10B_RS03070"; product "23S rRNA (pseudouridine(1915)-N(3))-methyltransferase RlmH"; protein_id "WP_000776104.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 606803 606805 . - 0 gene_id "ECDH10B_RS03070"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rlmH"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_016245807.1"; locus_tag "ECDH10B_RS03070"; product "23S rRNA (pseudouridine(1915)-N(3))-methyltransferase RlmH"; protein_id "WP_000776104.1"; transl_table "11"; -NC_010473.1 RefSeq gene 607274 607591 . - . gene_id "ECDH10B_RS03075"; transcript_id ""; gbkey "Gene"; gene "rsfS"; gene_biotype "protein_coding"; gene_synonym "rsfA"; locus_tag "ECDH10B_RS03075"; old_locus_tag "ECDH10B_0598"; -NC_010473.1 Protein Homology CDS 607277 607591 . - 0 gene_id "ECDH10B_RS03075"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rsfS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308702.2"; locus_tag "ECDH10B_RS03075"; product "ribosome silencing factor"; protein_id "WP_001161664.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 607589 607591 . - 0 gene_id "ECDH10B_RS03075"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rsfS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308702.2"; locus_tag "ECDH10B_RS03075"; product "ribosome silencing factor"; protein_id "WP_001161664.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 607274 607276 . - 0 gene_id "ECDH10B_RS03075"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rsfS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308702.2"; locus_tag "ECDH10B_RS03075"; product "ribosome silencing factor"; protein_id "WP_001161664.1"; transl_table "11"; -NC_010473.1 RefSeq gene 607851 608462 . - . gene_id "ECDH10B_RS03080"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03080"; old_locus_tag "ECDH10B_0599"; -NC_010473.1 Protein Homology CDS 607854 608462 . - 0 gene_id "ECDH10B_RS03080"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415171.1"; locus_tag "ECDH10B_RS03080"; product "adenosylcobalamin/alpha-ribazole phosphatase"; protein_id "WP_001241872.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 608460 608462 . - 0 gene_id "ECDH10B_RS03080"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415171.1"; locus_tag "ECDH10B_RS03080"; product "adenosylcobalamin/alpha-ribazole phosphatase"; protein_id "WP_001241872.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 607851 607853 . - 0 gene_id "ECDH10B_RS03080"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415171.1"; locus_tag "ECDH10B_RS03080"; product "adenosylcobalamin/alpha-ribazole phosphatase"; protein_id "WP_001241872.1"; transl_table "11"; -NC_010473.1 RefSeq gene 608486 609127 . - . gene_id "ECDH10B_RS03085"; transcript_id ""; gbkey "Gene"; gene "nadD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03085"; old_locus_tag "ECDH10B_0600"; -NC_010473.1 Protein Homology CDS 608489 609127 . - 0 gene_id "ECDH10B_RS03085"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nadD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415172.1"; locus_tag "ECDH10B_RS03085"; product "nicotinate-nucleotide adenylyltransferase"; protein_id "WP_000838889.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 609125 609127 . - 0 gene_id "ECDH10B_RS03085"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nadD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415172.1"; locus_tag "ECDH10B_RS03085"; product "nicotinate-nucleotide adenylyltransferase"; protein_id "WP_000838889.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 608486 608488 . - 0 gene_id "ECDH10B_RS03085"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nadD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415172.1"; locus_tag "ECDH10B_RS03085"; product "nicotinate-nucleotide adenylyltransferase"; protein_id "WP_000838889.1"; transl_table "11"; -NC_010473.1 RefSeq gene 609129 610160 . - . gene_id "ECDH10B_RS03090"; transcript_id ""; gbkey "Gene"; gene "holA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03090"; old_locus_tag "ECDH10B_0601"; -NC_010473.1 Protein Homology CDS 609132 610160 . - 0 gene_id "ECDH10B_RS03090"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "holA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415173.1"; locus_tag "ECDH10B_RS03090"; product "DNA polymerase III subunit delta"; protein_id "WP_000620535.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 610158 610160 . - 0 gene_id "ECDH10B_RS03090"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "holA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415173.1"; locus_tag "ECDH10B_RS03090"; product "DNA polymerase III subunit delta"; protein_id "WP_000620535.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 609129 609131 . - 0 gene_id "ECDH10B_RS03090"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "holA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415173.1"; locus_tag "ECDH10B_RS03090"; product "DNA polymerase III subunit delta"; protein_id "WP_000620535.1"; transl_table "11"; -NC_010473.1 RefSeq gene 610160 610741 . - . gene_id "ECDH10B_RS03095"; transcript_id ""; gbkey "Gene"; gene "lptE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03095"; old_locus_tag "ECDH10B_0602"; -NC_010473.1 Protein Homology CDS 610163 610741 . - 0 gene_id "ECDH10B_RS03095"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lptE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415174.1"; locus_tag "ECDH10B_RS03095"; product "LPS assembly lipoprotein LptE"; protein_id "WP_001269673.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 610739 610741 . - 0 gene_id "ECDH10B_RS03095"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lptE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415174.1"; locus_tag "ECDH10B_RS03095"; product "LPS assembly lipoprotein LptE"; protein_id "WP_001269673.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 610160 610162 . - 0 gene_id "ECDH10B_RS03095"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lptE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415174.1"; locus_tag "ECDH10B_RS03095"; product "LPS assembly lipoprotein LptE"; protein_id "WP_001269673.1"; transl_table "11"; -NC_010473.1 RefSeq gene 610756 613338 . - . gene_id "ECDH10B_RS03100"; transcript_id ""; gbkey "Gene"; gene "leuS"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03100"; old_locus_tag "ECDH10B_0603"; -NC_010473.1 Protein Homology CDS 610759 613338 . - 0 gene_id "ECDH10B_RS03100"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "leuS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_008456064.1"; locus_tag "ECDH10B_RS03100"; product "leucine--tRNA ligase"; protein_id "WP_001340834.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 613336 613338 . - 0 gene_id "ECDH10B_RS03100"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "leuS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_008456064.1"; locus_tag "ECDH10B_RS03100"; product "leucine--tRNA ligase"; protein_id "WP_001340834.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 610756 610758 . - 0 gene_id "ECDH10B_RS03100"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "leuS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_008456064.1"; locus_tag "ECDH10B_RS03100"; product "leucine--tRNA ligase"; protein_id "WP_001340834.1"; transl_table "11"; -NC_010473.1 RefSeq gene 613573 614055 . + . gene_id "ECDH10B_RS03105"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03105"; old_locus_tag "ECDH10B_0604"; -NC_010473.1 Protein Homology CDS 613573 614052 . + 0 gene_id "ECDH10B_RS03105"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308708.1"; locus_tag "ECDH10B_RS03105"; product "zinc ribbon-containing protein"; protein_id "WP_001044880.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 613573 613575 . + 0 gene_id "ECDH10B_RS03105"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308708.1"; locus_tag "ECDH10B_RS03105"; product "zinc ribbon-containing protein"; protein_id "WP_001044880.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 614053 614055 . + 0 gene_id "ECDH10B_RS03105"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308708.1"; locus_tag "ECDH10B_RS03105"; product "zinc ribbon-containing protein"; protein_id "WP_001044880.1"; transl_table "11"; -NC_010473.1 RefSeq gene 614125 615102 . - . gene_id "ECDH10B_RS03110"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03110"; old_locus_tag "ECDH10B_0605"; -NC_010473.1 Protein Homology CDS 614128 615102 . - 0 gene_id "ECDH10B_RS03110"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415177.4"; locus_tag "ECDH10B_RS03110"; product "SEL1-like repeat protein"; protein_id "WP_000578178.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 615100 615102 . - 0 gene_id "ECDH10B_RS03110"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415177.4"; locus_tag "ECDH10B_RS03110"; product "SEL1-like repeat protein"; protein_id "WP_000578178.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 614125 614127 . - 0 gene_id "ECDH10B_RS03110"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415177.4"; locus_tag "ECDH10B_RS03110"; product "SEL1-like repeat protein"; protein_id "WP_000578178.1"; transl_table "11"; -NC_010473.1 RefSeq gene 615266 615973 . + . gene_id "ECDH10B_RS03115"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03115"; old_locus_tag "ECDH10B_0606"; -NC_010473.1 Protein Homology CDS 615266 615970 . + 0 gene_id "ECDH10B_RS03115"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415178.1"; locus_tag "ECDH10B_RS03115"; product "DUF1266 domain-containing protein"; protein_id "WP_000367023.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 615266 615268 . + 0 gene_id "ECDH10B_RS03115"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415178.1"; locus_tag "ECDH10B_RS03115"; product "DUF1266 domain-containing protein"; protein_id "WP_000367023.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 615971 615973 . + 0 gene_id "ECDH10B_RS03115"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415178.1"; locus_tag "ECDH10B_RS03115"; product "DUF1266 domain-containing protein"; protein_id "WP_000367023.1"; transl_table "11"; -NC_010473.1 RefSeq gene 615970 617397 . + . gene_id "ECDH10B_RS03120"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03120"; old_locus_tag "ECDH10B_0607"; -NC_010473.1 Protein Homology CDS 615970 617394 . + 0 gene_id "ECDH10B_RS03120"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415179.1"; locus_tag "ECDH10B_RS03120"; product "J domain-containing protein"; protein_id "WP_000786572.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 615970 615972 . + 0 gene_id "ECDH10B_RS03120"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415179.1"; locus_tag "ECDH10B_RS03120"; product "J domain-containing protein"; protein_id "WP_000786572.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 617395 617397 . + 0 gene_id "ECDH10B_RS03120"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415179.1"; locus_tag "ECDH10B_RS03120"; product "J domain-containing protein"; protein_id "WP_000786572.1"; transl_table "11"; -NC_010473.1 RefSeq gene 617407 617961 . - . gene_id "ECDH10B_RS03125"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03125"; old_locus_tag "ECDH10B_0608"; -NC_010473.1 Protein Homology CDS 617410 617961 . - 0 gene_id "ECDH10B_RS03125"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415180.1"; locus_tag "ECDH10B_RS03125"; product "sel1 repeat family protein"; protein_id "WP_001035674.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 617959 617961 . - 0 gene_id "ECDH10B_RS03125"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415180.1"; locus_tag "ECDH10B_RS03125"; product "sel1 repeat family protein"; protein_id "WP_001035674.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 617407 617409 . - 0 gene_id "ECDH10B_RS03125"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415180.1"; locus_tag "ECDH10B_RS03125"; product "sel1 repeat family protein"; protein_id "WP_001035674.1"; transl_table "11"; -NC_010473.1 RefSeq gene 618063 618770 . + . gene_id "ECDH10B_RS03130"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03130"; old_locus_tag "ECDH10B_0609"; -NC_010473.1 Protein Homology CDS 618063 618767 . + 0 gene_id "ECDH10B_RS03130"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415181.1"; locus_tag "ECDH10B_RS03130"; product "DUF1266 domain-containing protein"; protein_id "WP_001030934.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 618063 618065 . + 0 gene_id "ECDH10B_RS03130"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415181.1"; locus_tag "ECDH10B_RS03130"; product "DUF1266 domain-containing protein"; protein_id "WP_001030934.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 618768 618770 . + 0 gene_id "ECDH10B_RS03130"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415181.1"; locus_tag "ECDH10B_RS03130"; product "DUF1266 domain-containing protein"; protein_id "WP_001030934.1"; transl_table "11"; -NC_010473.1 RefSeq gene 618767 620218 . + . gene_id "ECDH10B_RS03135"; transcript_id ""; gbkey "Gene"; gene "djlC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03135"; old_locus_tag "ECDH10B_0610"; -NC_010473.1 Protein Homology CDS 618767 620215 . + 0 gene_id "ECDH10B_RS03135"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "djlC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415182.1"; locus_tag "ECDH10B_RS03135"; product "co-chaperone DjlC"; protein_id "WP_001300403.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 618767 618769 . + 0 gene_id "ECDH10B_RS03135"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "djlC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415182.1"; locus_tag "ECDH10B_RS03135"; product "co-chaperone DjlC"; protein_id "WP_001300403.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 620216 620218 . + 0 gene_id "ECDH10B_RS03135"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "djlC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415182.1"; locus_tag "ECDH10B_RS03135"; product "co-chaperone DjlC"; protein_id "WP_001300403.1"; transl_table "11"; -NC_010473.1 RefSeq gene 620278 621948 . - . gene_id "ECDH10B_RS03140"; transcript_id ""; gbkey "Gene"; gene "hscC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03140"; old_locus_tag "ECDH10B_0611"; -NC_010473.1 Protein Homology CDS 620281 621948 . - 0 gene_id "ECDH10B_RS03140"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hscC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415183.1"; locus_tag "ECDH10B_RS03140"; product "molecular chaperone HscC"; protein_id "WP_000367875.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 621946 621948 . - 0 gene_id "ECDH10B_RS03140"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hscC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415183.1"; locus_tag "ECDH10B_RS03140"; product "molecular chaperone HscC"; protein_id "WP_000367875.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 620278 620280 . - 0 gene_id "ECDH10B_RS03140"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hscC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415183.1"; locus_tag "ECDH10B_RS03140"; product "molecular chaperone HscC"; protein_id "WP_000367875.1"; transl_table "11"; -NC_010473.1 RefSeq gene 622032 622967 . - . gene_id "ECDH10B_RS03145"; transcript_id ""; gbkey "Gene"; gene "rihA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03145"; old_locus_tag "ECDH10B_0612"; -NC_010473.1 Protein Homology CDS 622035 622967 . - 0 gene_id "ECDH10B_RS03145"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rihA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415184.1"; locus_tag "ECDH10B_RS03145"; product "pyrimidine-specific ribonucleoside hydrolase RihA"; protein_id "WP_001207520.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 622965 622967 . - 0 gene_id "ECDH10B_RS03145"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rihA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415184.1"; locus_tag "ECDH10B_RS03145"; product "pyrimidine-specific ribonucleoside hydrolase RihA"; protein_id "WP_001207520.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 622032 622034 . - 0 gene_id "ECDH10B_RS03145"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rihA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415184.1"; locus_tag "ECDH10B_RS03145"; product "pyrimidine-specific ribonucleoside hydrolase RihA"; protein_id "WP_001207520.1"; transl_table "11"; -NC_010473.1 RefSeq gene 623085 623810 . - . gene_id "ECDH10B_RS03150"; transcript_id ""; gbkey "Gene"; gene "gltL"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03150"; old_locus_tag "ECDH10B_0613"; -NC_010473.1 Protein Homology CDS 623088 623810 . - 0 gene_id "ECDH10B_RS03150"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gltL"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_020245804.1"; locus_tag "ECDH10B_RS03150"; product "glutamate/aspartate ABC transporter ATP binding protein GltL"; protein_id "WP_000631384.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 623808 623810 . - 0 gene_id "ECDH10B_RS03150"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gltL"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_020245804.1"; locus_tag "ECDH10B_RS03150"; product "glutamate/aspartate ABC transporter ATP binding protein GltL"; protein_id "WP_000631384.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 623085 623087 . - 0 gene_id "ECDH10B_RS03150"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gltL"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_020245804.1"; locus_tag "ECDH10B_RS03150"; product "glutamate/aspartate ABC transporter ATP binding protein GltL"; protein_id "WP_000631384.1"; transl_table "11"; -NC_010473.1 RefSeq gene 623810 624484 . - . gene_id "ECDH10B_RS03155"; transcript_id ""; gbkey "Gene"; gene "gltK"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03155"; old_locus_tag "ECDH10B_0614"; -NC_010473.1 Protein Homology CDS 623813 624484 . - 0 gene_id "ECDH10B_RS03155"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gltK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308719.1"; locus_tag "ECDH10B_RS03155"; product "glutamate/aspartate ABC transporter permease GltK"; protein_id "WP_000272824.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 624482 624484 . - 0 gene_id "ECDH10B_RS03155"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gltK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308719.1"; locus_tag "ECDH10B_RS03155"; product "glutamate/aspartate ABC transporter permease GltK"; protein_id "WP_000272824.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 623810 623812 . - 0 gene_id "ECDH10B_RS03155"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gltK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308719.1"; locus_tag "ECDH10B_RS03155"; product "glutamate/aspartate ABC transporter permease GltK"; protein_id "WP_000272824.1"; transl_table "11"; -NC_010473.1 RefSeq gene 624484 625224 . - . gene_id "ECDH10B_RS03160"; transcript_id ""; gbkey "Gene"; gene "gltJ"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03160"; old_locus_tag "ECDH10B_0615"; -NC_010473.1 Protein Homology CDS 624487 625224 . - 0 gene_id "ECDH10B_RS03160"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gltJ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415187.1"; locus_tag "ECDH10B_RS03160"; product "glutamate/aspartate ABC transporter permease GltJ"; protein_id "WP_000020941.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 625222 625224 . - 0 gene_id "ECDH10B_RS03160"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gltJ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415187.1"; locus_tag "ECDH10B_RS03160"; product "glutamate/aspartate ABC transporter permease GltJ"; protein_id "WP_000020941.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 624484 624486 . - 0 gene_id "ECDH10B_RS03160"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gltJ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415187.1"; locus_tag "ECDH10B_RS03160"; product "glutamate/aspartate ABC transporter permease GltJ"; protein_id "WP_000020941.1"; transl_table "11"; -NC_010473.1 RefSeq gene 625394 626302 . - . gene_id "ECDH10B_RS03165"; transcript_id ""; gbkey "Gene"; gene "gltI"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03165"; old_locus_tag "ECDH10B_0616"; -NC_010473.1 Protein Homology CDS 625397 626302 . - 0 gene_id "ECDH10B_RS03165"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gltI"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415188.1"; locus_tag "ECDH10B_RS03165"; product "glutamate/aspartate ABC transporter substrate-binding protein GltI"; protein_id "WP_001177086.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 626300 626302 . - 0 gene_id "ECDH10B_RS03165"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gltI"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415188.1"; locus_tag "ECDH10B_RS03165"; product "glutamate/aspartate ABC transporter substrate-binding protein GltI"; protein_id "WP_001177086.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 625394 625396 . - 0 gene_id "ECDH10B_RS03165"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gltI"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415188.1"; locus_tag "ECDH10B_RS03165"; product "glutamate/aspartate ABC transporter substrate-binding protein GltI"; protein_id "WP_001177086.1"; transl_table "11"; -NC_010473.1 RefSeq gene 626552 627568 . - . gene_id "ECDH10B_RS03170"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03170"; old_locus_tag "ECDH10B_0617"; -NC_010473.1 Protein Homology CDS 626555 627568 . - 0 gene_id "ECDH10B_RS03170"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414793.1"; locus_tag "ECDH10B_RS03170"; product "IS5-like element IS5 family transposase"; protein_id "WP_010723085.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 627566 627568 . - 0 gene_id "ECDH10B_RS03170"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414793.1"; locus_tag "ECDH10B_RS03170"; product "IS5-like element IS5 family transposase"; protein_id "WP_010723085.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 626552 626554 . - 0 gene_id "ECDH10B_RS03170"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414793.1"; locus_tag "ECDH10B_RS03170"; product "IS5-like element IS5 family transposase"; protein_id "WP_010723085.1"; transl_table "11"; -NC_010473.1 RefSeq gene 627573 628640 . - . gene_id "ECDH10B_RS03175"; transcript_id ""; gbkey "Gene"; gene "ompC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03175"; old_locus_tag "ECDH10B_0618"; -NC_010473.1 Protein Homology CDS 627576 628640 . - 0 gene_id "ECDH10B_RS03175"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ompC"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000724560.1"; locus_tag "ECDH10B_RS03175"; product "porin OmpC"; protein_id "WP_000737282.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 628638 628640 . - 0 gene_id "ECDH10B_RS03175"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ompC"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000724560.1"; locus_tag "ECDH10B_RS03175"; product "porin OmpC"; protein_id "WP_000737282.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 627573 627575 . - 0 gene_id "ECDH10B_RS03175"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ompC"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000724560.1"; locus_tag "ECDH10B_RS03175"; product "porin OmpC"; protein_id "WP_000737282.1"; transl_table "11"; -NC_010473.1 RefSeq gene 629213 629428 . + . gene_id "ECDH10B_RS03180"; transcript_id ""; gbkey "Gene"; gene "essD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03180"; old_locus_tag "ECDH10B_0619"; -NC_010473.1 Protein Homology CDS 629213 629425 . + 0 gene_id "ECDH10B_RS03180"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "essD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415086.1"; locus_tag "ECDH10B_RS03180"; product "phage lysis protein EssD"; protein_id "WP_000839596.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 629213 629215 . + 0 gene_id "ECDH10B_RS03180"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "essD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415086.1"; locus_tag "ECDH10B_RS03180"; product "phage lysis protein EssD"; protein_id "WP_000839596.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 629426 629428 . + 0 gene_id "ECDH10B_RS03180"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "essD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415086.1"; locus_tag "ECDH10B_RS03180"; product "phage lysis protein EssD"; protein_id "WP_000839596.1"; transl_table "11"; -NC_010473.1 RefSeq gene 629428 629925 . + . gene_id "ECDH10B_RS03185"; transcript_id ""; gbkey "Gene"; gene "rrrD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03185"; old_locus_tag "ECDH10B_0620"; -NC_010473.1 Protein Homology CDS 629428 629922 . + 0 gene_id "ECDH10B_RS03185"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rrrD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415087.1"; locus_tag "ECDH10B_RS03185"; product "lysozyme RrrD"; protein_id "WP_001135281.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 629428 629430 . + 0 gene_id "ECDH10B_RS03185"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rrrD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415087.1"; locus_tag "ECDH10B_RS03185"; product "lysozyme RrrD"; protein_id "WP_001135281.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 629923 629925 . + 0 gene_id "ECDH10B_RS03185"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rrrD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415087.1"; locus_tag "ECDH10B_RS03185"; product "lysozyme RrrD"; protein_id "WP_001135281.1"; transl_table "11"; -NC_010473.1 RefSeq gene 630142 630324 . + . gene_id "ECDH10B_RS25895"; transcript_id ""; gbkey "Gene"; gene "rzoD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS25895"; old_locus_tag "ECDH10B_0622"; -NC_010473.1 Protein Homology CDS 630142 630321 . + 0 gene_id "ECDH10B_RS25895"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rzoD"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_588440.1"; locus_tag "ECDH10B_RS25895"; product "prophage lysis lipoprotein RzoD"; protein_id "WP_001228697.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 630142 630144 . + 0 gene_id "ECDH10B_RS25895"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rzoD"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_588440.1"; locus_tag "ECDH10B_RS25895"; product "prophage lysis lipoprotein RzoD"; protein_id "WP_001228697.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 630322 630324 . + 0 gene_id "ECDH10B_RS25895"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rzoD"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_588440.1"; locus_tag "ECDH10B_RS25895"; product "prophage lysis lipoprotein RzoD"; protein_id "WP_001228697.1"; transl_table "11"; -NC_010473.1 RefSeq gene 630415 630708 . - . gene_id "ECDH10B_RS03195"; transcript_id ""; gbkey "Gene"; gene "bor"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03195"; old_locus_tag "ECDH10B_0623"; -NC_010473.1 Protein Homology CDS 630418 630708 . - 0 gene_id "ECDH10B_RS03195"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "bor"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415089.1"; locus_tag "ECDH10B_RS03195"; product "serum resistance lipoprotein Bor"; protein_id "WP_000738500.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 630706 630708 . - 0 gene_id "ECDH10B_RS03195"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "bor"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415089.1"; locus_tag "ECDH10B_RS03195"; product "serum resistance lipoprotein Bor"; protein_id "WP_000738500.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 630415 630417 . - 0 gene_id "ECDH10B_RS03195"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "bor"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415089.1"; locus_tag "ECDH10B_RS03195"; product "serum resistance lipoprotein Bor"; protein_id "WP_000738500.1"; transl_table "11"; -NC_010473.1 RefSeq gene 630999 631409 . - . gene_id "ECDH10B_RS03200"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03200"; old_locus_tag "ECDH10B_0624"; -NC_010473.1 Protein Homology CDS 631002 631409 . - 0 gene_id "ECDH10B_RS03200"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415090.2"; locus_tag "ECDH10B_RS03200"; product "DUF1398 domain-containing protein"; protein_id "WP_000079503.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 631407 631409 . - 0 gene_id "ECDH10B_RS03200"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415090.2"; locus_tag "ECDH10B_RS03200"; product "DUF1398 domain-containing protein"; protein_id "WP_000079503.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 630999 631001 . - 0 gene_id "ECDH10B_RS03200"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415090.2"; locus_tag "ECDH10B_RS03200"; product "DUF1398 domain-containing protein"; protein_id "WP_000079503.1"; transl_table "11"; -NC_010473.1 RefSeq gene 631695 631901 . + . gene_id "ECDH10B_RS03205"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03205"; old_locus_tag "ECDH10B_0625"; -NC_010473.1 Protein Homology CDS 631695 631898 . + 0 gene_id "ECDH10B_RS03205"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309654.1"; locus_tag "ECDH10B_RS03205"; product "hypothetical protein"; protein_id "WP_001031427.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 631695 631697 . + 0 gene_id "ECDH10B_RS03205"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309654.1"; locus_tag "ECDH10B_RS03205"; product "hypothetical protein"; protein_id "WP_001031427.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 631899 631901 . + 0 gene_id "ECDH10B_RS03205"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309654.1"; locus_tag "ECDH10B_RS03205"; product "hypothetical protein"; protein_id "WP_001031427.1"; transl_table "11"; -NC_010473.1 RefSeq gene 632066 632260 . - . gene_id "ECDH10B_RS23730"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS23730"; -NC_010473.1 Protein Homology CDS 632069 632260 . - 0 gene_id "ECDH10B_RS23730"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_001165309.1"; locus_tag "ECDH10B_RS23730"; product "YlcI/YnfO family protein"; protein_id "WP_001421937.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 632258 632260 . - 0 gene_id "ECDH10B_RS23730"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_001165309.1"; locus_tag "ECDH10B_RS23730"; product "YlcI/YnfO family protein"; protein_id "WP_001421937.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 632066 632068 . - 0 gene_id "ECDH10B_RS23730"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_001165309.1"; locus_tag "ECDH10B_RS23730"; product "YlcI/YnfO family protein"; protein_id "WP_001421937.1"; transl_table "11"; -NC_010473.1 RefSeq gene 632649 633194 . + . gene_id "ECDH10B_RS03210"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03210"; old_locus_tag "ECDH10B_0626"; -NC_010473.1 Protein Homology CDS 632649 633191 . + 0 gene_id "ECDH10B_RS03210"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415092.1"; locus_tag "ECDH10B_RS03210"; product "DNA-packaging protein"; protein_id "WP_000453566.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 632649 632651 . + 0 gene_id "ECDH10B_RS03210"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415092.1"; locus_tag "ECDH10B_RS03210"; product "DNA-packaging protein"; protein_id "WP_000453566.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 633192 633194 . + 0 gene_id "ECDH10B_RS03210"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415092.1"; locus_tag "ECDH10B_RS03210"; product "DNA-packaging protein"; protein_id "WP_000453566.1"; transl_table "11"; -NC_010473.1 RefSeq gene 633169 633477 . + . gene_id "ECDH10B_RS26275"; transcript_id ""; gbkey "Gene"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS26275"; partial "true"; pseudo "true"; -NC_010473.1 Protein Homology CDS 633169 633474 . + 0 gene_id "ECDH10B_RS26275"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309657.1"; locus_tag "ECDH10B_RS26275"; note "incomplete; partial in the middle of a contig; missing C-terminus"; partial "true"; product "phage terminase large subunit family protein"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 633169 633171 . + 0 gene_id "ECDH10B_RS26275"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309657.1"; locus_tag "ECDH10B_RS26275"; note "incomplete; partial in the middle of a contig; missing C-terminus"; partial "true"; product "phage terminase large subunit family protein"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 633475 633477 . + 0 gene_id "ECDH10B_RS26275"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309657.1"; locus_tag "ECDH10B_RS26275"; note "incomplete; partial in the middle of a contig; missing C-terminus"; partial "true"; product "phage terminase large subunit family protein"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 633475 633912 . + . gene_id "ECDH10B_RS26280"; transcript_id ""; gbkey "Gene"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS26280"; old_locus_tag "ECDH10B_0627"; partial "true"; pseudo "true"; -NC_010473.1 Protein Homology CDS 633475 633909 . + 0 gene_id "ECDH10B_RS26280"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000885581.1"; locus_tag "ECDH10B_RS26280"; note "incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "tail fiber assembly protein"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 633475 633477 . + 0 gene_id "ECDH10B_RS26280"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000885581.1"; locus_tag "ECDH10B_RS26280"; note "incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "tail fiber assembly protein"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 633910 633912 . + 0 gene_id "ECDH10B_RS26280"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000885581.1"; locus_tag "ECDH10B_RS26280"; note "incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "tail fiber assembly protein"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 633967 634593 . - . gene_id "ECDH10B_RS03220"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03220"; old_locus_tag "ECDH10B_0628"; -NC_010473.1 Protein Homology CDS 633970 634593 . - 0 gene_id "ECDH10B_RS03220"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000856367.1"; locus_tag "ECDH10B_RS03220"; product "class I SAM-dependent methyltransferase"; protein_id "WP_026089880.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 634591 634593 . - 0 gene_id "ECDH10B_RS03220"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000856367.1"; locus_tag "ECDH10B_RS03220"; product "class I SAM-dependent methyltransferase"; protein_id "WP_026089880.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 633967 633969 . - 0 gene_id "ECDH10B_RS03220"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000856367.1"; locus_tag "ECDH10B_RS03220"; product "class I SAM-dependent methyltransferase"; protein_id "WP_026089880.1"; transl_table "11"; -NC_010473.1 RefSeq gene 634690 634950 . + . gene_id "ECDH10B_RS03225"; transcript_id ""; gbkey "Gene"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS03225"; old_locus_tag "ECDH10B_0629"; pseudo "true"; -NC_010473.1 Protein Homology CDS 634690 634947 . + 0 gene_id "ECDH10B_RS03225"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000937469.1"; locus_tag "ECDH10B_RS03225"; note "internal stop"; product "tail fiber assembly protein"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 634690 634692 . + 0 gene_id "ECDH10B_RS03225"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000937469.1"; locus_tag "ECDH10B_RS03225"; note "internal stop"; product "tail fiber assembly protein"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 634948 634950 . + 0 gene_id "ECDH10B_RS03225"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000937469.1"; locus_tag "ECDH10B_RS03225"; note "internal stop"; product "tail fiber assembly protein"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 635496 636245 . + . gene_id "ECDH10B_RS03230"; transcript_id ""; gbkey "Gene"; gene "appY"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03230"; old_locus_tag "ECDH10B_0630"; -NC_010473.1 Protein Homology CDS 635496 636242 . + 0 gene_id "ECDH10B_RS03230"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "appY"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415096.1"; locus_tag "ECDH10B_RS03230"; product "DNA-binding transcriptional activator AppY"; protein_id "WP_000386784.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 635496 635498 . + 0 gene_id "ECDH10B_RS03230"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "appY"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415096.1"; locus_tag "ECDH10B_RS03230"; product "DNA-binding transcriptional activator AppY"; protein_id "WP_000386784.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 636243 636245 . + 0 gene_id "ECDH10B_RS03230"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "appY"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415096.1"; locus_tag "ECDH10B_RS03230"; product "DNA-binding transcriptional activator AppY"; protein_id "WP_000386784.1"; transl_table "11"; -NC_010473.1 RefSeq gene 636495 637448 . - . gene_id "ECDH10B_RS03235"; transcript_id ""; gbkey "Gene"; gene "ompT"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03235"; old_locus_tag "ECDH10B_0631"; -NC_010473.1 Protein Homology CDS 636498 637448 . - 0 gene_id "ECDH10B_RS03235"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ompT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415097.1"; locus_tag "ECDH10B_RS03235"; product "omptin family outer membrane protease OmpT"; protein_id "WP_001201845.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 637446 637448 . - 0 gene_id "ECDH10B_RS03235"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ompT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415097.1"; locus_tag "ECDH10B_RS03235"; product "omptin family outer membrane protease OmpT"; protein_id "WP_001201845.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 636495 636497 . - 0 gene_id "ECDH10B_RS03235"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ompT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415097.1"; locus_tag "ECDH10B_RS03235"; product "omptin family outer membrane protease OmpT"; protein_id "WP_001201845.1"; transl_table "11"; -NC_010473.1 RefSeq gene 637962 638723 . - . gene_id "ECDH10B_RS03240"; transcript_id ""; gbkey "Gene"; gene "envY"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03240"; old_locus_tag "ECDH10B_0632"; -NC_010473.1 Protein Homology CDS 637965 638723 . - 0 gene_id "ECDH10B_RS03240"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "envY"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415098.1"; locus_tag "ECDH10B_RS03240"; product "DNA-binding transcriptional regulator EnvY"; protein_id "WP_001177471.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 638721 638723 . - 0 gene_id "ECDH10B_RS03240"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "envY"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415098.1"; locus_tag "ECDH10B_RS03240"; product "DNA-binding transcriptional regulator EnvY"; protein_id "WP_001177471.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 637962 637964 . - 0 gene_id "ECDH10B_RS03240"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "envY"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415098.1"; locus_tag "ECDH10B_RS03240"; product "DNA-binding transcriptional regulator EnvY"; protein_id "WP_001177471.1"; transl_table "11"; -NC_010473.1 RefSeq gene 638906 639796 . - . gene_id "ECDH10B_RS03245"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03245"; old_locus_tag "ECDH10B_0633"; -NC_010473.1 Protein Homology CDS 638909 639796 . - 0 gene_id "ECDH10B_RS03245"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415099.1"; locus_tag "ECDH10B_RS03245"; product "DUF4434 family protein"; protein_id "WP_001224604.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 639794 639796 . - 0 gene_id "ECDH10B_RS03245"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415099.1"; locus_tag "ECDH10B_RS03245"; product "DUF4434 family protein"; protein_id "WP_001224604.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 638906 638908 . - 0 gene_id "ECDH10B_RS03245"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415099.1"; locus_tag "ECDH10B_RS03245"; product "DUF4434 family protein"; protein_id "WP_001224604.1"; transl_table "11"; -NC_010473.1 RefSeq gene 639797 642769 . - . gene_id "ECDH10B_RS03250"; transcript_id ""; gbkey "Gene"; gene "nfrA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03250"; old_locus_tag "ECDH10B_0634"; -NC_010473.1 Protein Homology CDS 639800 642769 . - 0 gene_id "ECDH10B_RS03250"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nfrA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415100.1"; locus_tag "ECDH10B_RS03250"; product "bacteriophage adsorption protein NfrA"; protein_id "WP_000662357.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 642767 642769 . - 0 gene_id "ECDH10B_RS03250"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nfrA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415100.1"; locus_tag "ECDH10B_RS03250"; product "bacteriophage adsorption protein NfrA"; protein_id "WP_000662357.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 639797 639799 . - 0 gene_id "ECDH10B_RS03250"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nfrA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415100.1"; locus_tag "ECDH10B_RS03250"; product "bacteriophage adsorption protein NfrA"; protein_id "WP_000662357.1"; transl_table "11"; -NC_010473.1 RefSeq gene 642756 644993 . - . gene_id "ECDH10B_RS03255"; transcript_id ""; gbkey "Gene"; gene "nrfB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03255"; old_locus_tag "ECDH10B_0635"; -NC_010473.1 Protein Homology CDS 642759 644993 . - 0 gene_id "ECDH10B_RS03255"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nrfB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308628.1"; locus_tag "ECDH10B_RS03255"; product "phage adsorption protein NrfB"; protein_id "WP_000383932.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 644991 644993 . - 0 gene_id "ECDH10B_RS03255"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nrfB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308628.1"; locus_tag "ECDH10B_RS03255"; product "phage adsorption protein NrfB"; protein_id "WP_000383932.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 642756 642758 . - 0 gene_id "ECDH10B_RS03255"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nrfB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308628.1"; locus_tag "ECDH10B_RS03255"; product "phage adsorption protein NrfB"; protein_id "WP_000383932.1"; transl_table "11"; -NC_010473.1 RefSeq gene 645143 646585 . - . gene_id "ECDH10B_RS03260"; transcript_id ""; gbkey "Gene"; gene "cusS"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03260"; old_locus_tag "ECDH10B_0636"; -NC_010473.1 Protein Homology CDS 645146 646585 . - 0 gene_id "ECDH10B_RS03260"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cusS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415102.1"; locus_tag "ECDH10B_RS03260"; product "Cu(+)/Ag(+) sensor histidine kinase CusS"; protein_id "WP_000253839.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 646583 646585 . - 0 gene_id "ECDH10B_RS03260"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cusS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415102.1"; locus_tag "ECDH10B_RS03260"; product "Cu(+)/Ag(+) sensor histidine kinase CusS"; protein_id "WP_000253839.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 645143 645145 . - 0 gene_id "ECDH10B_RS03260"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cusS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415102.1"; locus_tag "ECDH10B_RS03260"; product "Cu(+)/Ag(+) sensor histidine kinase CusS"; protein_id "WP_000253839.1"; transl_table "11"; -NC_010473.1 RefSeq gene 646575 647258 . - . gene_id "ECDH10B_RS03265"; transcript_id ""; gbkey "Gene"; gene "cusR"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03265"; old_locus_tag "ECDH10B_0637"; -NC_010473.1 Protein Homology CDS 646578 647258 . - 0 gene_id "ECDH10B_RS03265"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cusR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308636.1"; locus_tag "ECDH10B_RS03265"; product "copper response regulator transcription factor CusR"; protein_id "WP_000770953.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 647256 647258 . - 0 gene_id "ECDH10B_RS03265"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cusR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308636.1"; locus_tag "ECDH10B_RS03265"; product "copper response regulator transcription factor CusR"; protein_id "WP_000770953.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 646575 646577 . - 0 gene_id "ECDH10B_RS03265"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cusR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308636.1"; locus_tag "ECDH10B_RS03265"; product "copper response regulator transcription factor CusR"; protein_id "WP_000770953.1"; transl_table "11"; -NC_010473.1 RefSeq gene 647415 648788 . + . gene_id "ECDH10B_RS03270"; transcript_id ""; gbkey "Gene"; gene "cusC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03270"; old_locus_tag "ECDH10B_0638"; -NC_010473.1 Protein Homology CDS 647415 648785 . + 0 gene_id "ECDH10B_RS03270"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cusC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415104.1"; locus_tag "ECDH10B_RS03270"; product "Cu(+)/Ag(+) efflux RND transporter outer membrane channel CusC"; protein_id "WP_000074234.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 647415 647417 . + 0 gene_id "ECDH10B_RS03270"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cusC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415104.1"; locus_tag "ECDH10B_RS03270"; product "Cu(+)/Ag(+) efflux RND transporter outer membrane channel CusC"; protein_id "WP_000074234.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 648786 648788 . + 0 gene_id "ECDH10B_RS03270"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cusC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415104.1"; locus_tag "ECDH10B_RS03270"; product "Cu(+)/Ag(+) efflux RND transporter outer membrane channel CusC"; protein_id "WP_000074234.1"; transl_table "11"; -NC_010473.1 RefSeq gene 648946 649278 . + . gene_id "ECDH10B_RS03275"; transcript_id ""; gbkey "Gene"; gene "cusF"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03275"; old_locus_tag "ECDH10B_0639"; -NC_010473.1 Protein Homology CDS 648946 649275 . + 0 gene_id "ECDH10B_RS03275"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cusF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415105.1"; locus_tag "ECDH10B_RS03275"; product "Cu(+)/Ag(+) efflux RND transporter periplasmic metallochaperone CusF"; protein_id "WP_000709870.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 648946 648948 . + 0 gene_id "ECDH10B_RS03275"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cusF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415105.1"; locus_tag "ECDH10B_RS03275"; product "Cu(+)/Ag(+) efflux RND transporter periplasmic metallochaperone CusF"; protein_id "WP_000709870.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 649276 649278 . + 0 gene_id "ECDH10B_RS03275"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cusF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415105.1"; locus_tag "ECDH10B_RS03275"; product "Cu(+)/Ag(+) efflux RND transporter periplasmic metallochaperone CusF"; protein_id "WP_000709870.1"; transl_table "11"; -NC_010473.1 RefSeq gene 649294 650517 . + . gene_id "ECDH10B_RS03280"; transcript_id ""; gbkey "Gene"; gene "cusB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03280"; old_locus_tag "ECDH10B_0640"; -NC_010473.1 Protein Homology CDS 649294 650514 . + 0 gene_id "ECDH10B_RS03280"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cusB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415106.1"; locus_tag "ECDH10B_RS03280"; product "Cu(+)/Ag(+) efflux RND transporter periplasmic adaptor subunit CusB"; protein_id "WP_000717157.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 649294 649296 . + 0 gene_id "ECDH10B_RS03280"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cusB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415106.1"; locus_tag "ECDH10B_RS03280"; product "Cu(+)/Ag(+) efflux RND transporter periplasmic adaptor subunit CusB"; protein_id "WP_000717157.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 650515 650517 . + 0 gene_id "ECDH10B_RS03280"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cusB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415106.1"; locus_tag "ECDH10B_RS03280"; product "Cu(+)/Ag(+) efflux RND transporter periplasmic adaptor subunit CusB"; protein_id "WP_000717157.1"; transl_table "11"; -NC_010473.1 RefSeq gene 650529 653672 . + . gene_id "ECDH10B_RS03285"; transcript_id ""; gbkey "Gene"; gene "cusA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03285"; old_locus_tag "ECDH10B_0641"; -NC_010473.1 Protein Homology CDS 650529 653669 . + 0 gene_id "ECDH10B_RS03285"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cusA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415107.1"; locus_tag "ECDH10B_RS03285"; product "Cu(+)/Ag(+) efflux RND transporter permease subunit CusA"; protein_id "WP_000573945.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 650529 650531 . + 0 gene_id "ECDH10B_RS03285"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cusA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415107.1"; locus_tag "ECDH10B_RS03285"; product "Cu(+)/Ag(+) efflux RND transporter permease subunit CusA"; protein_id "WP_000573945.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 653670 653672 . + 0 gene_id "ECDH10B_RS03285"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cusA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415107.1"; locus_tag "ECDH10B_RS03285"; product "Cu(+)/Ag(+) efflux RND transporter permease subunit CusA"; protein_id "WP_000573945.1"; transl_table "11"; -NC_010473.1 RefSeq gene 653774 655150 . + . gene_id "ECDH10B_RS03290"; transcript_id ""; gbkey "Gene"; gene "pheP"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03290"; old_locus_tag "ECDH10B_0642"; -NC_010473.1 Protein Homology CDS 653774 655147 . + 0 gene_id "ECDH10B_RS03290"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pheP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415108.1"; locus_tag "ECDH10B_RS03290"; product "phenylalanine transporter"; protein_id "WP_000786319.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 653774 653776 . + 0 gene_id "ECDH10B_RS03290"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pheP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415108.1"; locus_tag "ECDH10B_RS03290"; product "phenylalanine transporter"; protein_id "WP_000786319.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 655148 655150 . + 0 gene_id "ECDH10B_RS03290"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pheP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415108.1"; locus_tag "ECDH10B_RS03290"; product "phenylalanine transporter"; protein_id "WP_000786319.1"; transl_table "11"; -NC_010473.1 RefSeq gene 655231 656478 . - . gene_id "ECDH10B_RS03295"; transcript_id ""; gbkey "Gene"; gene "ybdG"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03295"; old_locus_tag "ECDH10B_0643"; -NC_010473.1 Protein Homology CDS 655234 656478 . - 0 gene_id "ECDH10B_RS03295"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ybdG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415109.1"; locus_tag "ECDH10B_RS03295"; product "mechanosensitive ion channel YbdG"; protein_id "WP_001153148.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 656476 656478 . - 0 gene_id "ECDH10B_RS03295"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ybdG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415109.1"; locus_tag "ECDH10B_RS03295"; product "mechanosensitive ion channel YbdG"; protein_id "WP_001153148.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 655231 655233 . - 0 gene_id "ECDH10B_RS03295"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ybdG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415109.1"; locus_tag "ECDH10B_RS03295"; product "mechanosensitive ion channel YbdG"; protein_id "WP_001153148.1"; transl_table "11"; -NC_010473.1 RefSeq gene 656586 657239 . - . gene_id "ECDH10B_RS03300"; transcript_id ""; gbkey "Gene"; gene "nfsB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03300"; old_locus_tag "ECDH10B_0644"; -NC_010473.1 Protein Homology CDS 656589 657239 . - 0 gene_id "ECDH10B_RS03300"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nfsB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415110.1"; locus_tag "ECDH10B_RS03300"; product "oxygen-insensitive NAD(P)H nitroreductase"; protein_id "WP_000351487.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 657237 657239 . - 0 gene_id "ECDH10B_RS03300"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nfsB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415110.1"; locus_tag "ECDH10B_RS03300"; product "oxygen-insensitive NAD(P)H nitroreductase"; protein_id "WP_000351487.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 656586 656588 . - 0 gene_id "ECDH10B_RS03300"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nfsB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415110.1"; locus_tag "ECDH10B_RS03300"; product "oxygen-insensitive NAD(P)H nitroreductase"; protein_id "WP_000351487.1"; transl_table "11"; -NC_010473.1 RefSeq gene 657333 657701 . - . gene_id "ECDH10B_RS03305"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03305"; old_locus_tag "ECDH10B_0645"; -NC_010473.1 Protein Homology CDS 657336 657701 . - 0 gene_id "ECDH10B_RS03305"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308644.1"; locus_tag "ECDH10B_RS03305"; product "MmcQ/YjbR family DNA-binding protein"; protein_id "WP_000360951.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 657699 657701 . - 0 gene_id "ECDH10B_RS03305"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308644.1"; locus_tag "ECDH10B_RS03305"; product "MmcQ/YjbR family DNA-binding protein"; protein_id "WP_000360951.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 657333 657335 . - 0 gene_id "ECDH10B_RS03305"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308644.1"; locus_tag "ECDH10B_RS03305"; product "MmcQ/YjbR family DNA-binding protein"; protein_id "WP_000360951.1"; transl_table "11"; -NC_010473.1 RefSeq gene 657766 658014 . - . gene_id "ECDH10B_RS03310"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03310"; old_locus_tag "ECDH10B_0646"; -NC_010473.1 Protein Homology CDS 657769 658014 . - 0 gene_id "ECDH10B_RS03310"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415112.1"; locus_tag "ECDH10B_RS03310"; product "DUF1158 domain-containing protein"; protein_id "WP_000682509.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 658012 658014 . - 0 gene_id "ECDH10B_RS03310"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415112.1"; locus_tag "ECDH10B_RS03310"; product "DUF1158 domain-containing protein"; protein_id "WP_000682509.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 657766 657768 . - 0 gene_id "ECDH10B_RS03310"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415112.1"; locus_tag "ECDH10B_RS03310"; product "DUF1158 domain-containing protein"; protein_id "WP_000682509.1"; transl_table "11"; -NC_010473.1 RefSeq gene 658080 659198 . - . gene_id "ECDH10B_RS03315"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03315"; old_locus_tag "ECDH10B_0647"; -NC_010473.1 Protein Homology CDS 658083 659198 . - 0 gene_id "ECDH10B_RS03315"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415113.1"; locus_tag "ECDH10B_RS03315"; product "glutamate--cysteine ligase"; protein_id "WP_001130654.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 659196 659198 . - 0 gene_id "ECDH10B_RS03315"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415113.1"; locus_tag "ECDH10B_RS03315"; product "glutamate--cysteine ligase"; protein_id "WP_001130654.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 658080 658082 . - 0 gene_id "ECDH10B_RS03315"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415113.1"; locus_tag "ECDH10B_RS03315"; product "glutamate--cysteine ligase"; protein_id "WP_001130654.1"; transl_table "11"; -NC_010473.1 RefSeq gene 659651 659803 . + . gene_id "ECDH10B_RS03320"; transcript_id ""; gbkey "Gene"; gene "hokE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03320"; old_locus_tag "ECDH10B_0648"; -NC_010473.1 Protein Homology CDS 659651 659800 . + 0 gene_id "ECDH10B_RS03320"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hokE"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_025295.1"; locus_tag "ECDH10B_RS03320"; product "type I toxin-antitoxin system toxin HokE"; protein_id "WP_000956455.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 659651 659653 . + 0 gene_id "ECDH10B_RS03320"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hokE"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_025295.1"; locus_tag "ECDH10B_RS03320"; product "type I toxin-antitoxin system toxin HokE"; protein_id "WP_000956455.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 659801 659803 . + 0 gene_id "ECDH10B_RS03320"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hokE"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_025295.1"; locus_tag "ECDH10B_RS03320"; product "type I toxin-antitoxin system toxin HokE"; protein_id "WP_000956455.1"; transl_table "11"; -NC_010473.1 RefSeq gene 659880 660992 . + . gene_id "ECDH10B_RS03325"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03325"; old_locus_tag "ECDH10B_0649"; -NC_010473.1 Protein Homology CDS 659880 660989 . + 0 gene_id "ECDH10B_RS03325"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414557.1"; locus_tag "ECDH10B_RS03325"; product "IS4-like element IS421 family transposase"; protein_id "WP_001300563.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 659880 659882 . + 0 gene_id "ECDH10B_RS03325"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414557.1"; locus_tag "ECDH10B_RS03325"; product "IS4-like element IS421 family transposase"; protein_id "WP_001300563.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 660990 660992 . + 0 gene_id "ECDH10B_RS03325"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414557.1"; locus_tag "ECDH10B_RS03325"; product "IS4-like element IS421 family transposase"; protein_id "WP_001300563.1"; transl_table "11"; -NC_010473.1 RefSeq gene 661274 661894 . - . gene_id "ECDH10B_RS03330"; transcript_id ""; gbkey "Gene"; gene "entD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03330"; old_locus_tag "ECDH10B_0650"; -NC_010473.1 Protein Homology CDS 661277 661894 . - 0 gene_id "ECDH10B_RS03330"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "entD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415115.2"; locus_tag "ECDH10B_RS03330"; product "enterobactin synthase subunit EntD"; protein_id "WP_001749708.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 661892 661894 . - 0 gene_id "ECDH10B_RS03330"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "entD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415115.2"; locus_tag "ECDH10B_RS03330"; product "enterobactin synthase subunit EntD"; protein_id "WP_001749708.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 661274 661276 . - 0 gene_id "ECDH10B_RS03330"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "entD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415115.2"; locus_tag "ECDH10B_RS03330"; product "enterobactin synthase subunit EntD"; protein_id "WP_001749708.1"; transl_table "11"; -NC_010473.1 RefSeq gene 662069 664309 . - . gene_id "ECDH10B_RS03335"; transcript_id ""; gbkey "Gene"; gene "fepA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03335"; old_locus_tag "ECDH10B_0651"; -NC_010473.1 Protein Homology CDS 662072 664309 . - 0 gene_id "ECDH10B_RS03335"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fepA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415116.1"; locus_tag "ECDH10B_RS03335"; product "siderophore enterobactin receptor FepA"; protein_id "WP_001034943.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 664307 664309 . - 0 gene_id "ECDH10B_RS03335"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fepA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415116.1"; locus_tag "ECDH10B_RS03335"; product "siderophore enterobactin receptor FepA"; protein_id "WP_001034943.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 662069 662071 . - 0 gene_id "ECDH10B_RS03335"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fepA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415116.1"; locus_tag "ECDH10B_RS03335"; product "siderophore enterobactin receptor FepA"; protein_id "WP_001034943.1"; transl_table "11"; -NC_010473.1 RefSeq gene 664552 665754 . + . gene_id "ECDH10B_RS03340"; transcript_id ""; gbkey "Gene"; gene "fes"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03340"; old_locus_tag "ECDH10B_0652"; -NC_010473.1 Protein Homology CDS 664552 665751 . + 0 gene_id "ECDH10B_RS03340"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fes"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415117.2"; locus_tag "ECDH10B_RS03340"; product "enterochelin esterase"; protein_id "WP_000125843.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 664552 664554 . + 0 gene_id "ECDH10B_RS03340"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fes"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415117.2"; locus_tag "ECDH10B_RS03340"; product "enterochelin esterase"; protein_id "WP_000125843.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 665752 665754 . + 0 gene_id "ECDH10B_RS03340"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fes"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415117.2"; locus_tag "ECDH10B_RS03340"; product "enterochelin esterase"; protein_id "WP_000125843.1"; transl_table "11"; -NC_010473.1 RefSeq gene 665757 665975 . + . gene_id "ECDH10B_RS03345"; transcript_id ""; gbkey "Gene"; gene "ybdZ"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03345"; old_locus_tag "ECDH10B_0653"; -NC_010473.1 Protein Homology CDS 665757 665972 . + 0 gene_id "ECDH10B_RS03345"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ybdZ"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_588441.1"; locus_tag "ECDH10B_RS03345"; product "enterobactin biosynthesis protein YbdZ"; protein_id "WP_000885798.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 665757 665759 . + 0 gene_id "ECDH10B_RS03345"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ybdZ"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_588441.1"; locus_tag "ECDH10B_RS03345"; product "enterobactin biosynthesis protein YbdZ"; protein_id "WP_000885798.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 665973 665975 . + 0 gene_id "ECDH10B_RS03345"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ybdZ"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_588441.1"; locus_tag "ECDH10B_RS03345"; product "enterobactin biosynthesis protein YbdZ"; protein_id "WP_000885798.1"; transl_table "11"; -NC_010473.1 RefSeq gene 665972 669853 . + . gene_id "ECDH10B_RS03350"; transcript_id ""; gbkey "Gene"; gene "entF"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03350"; old_locus_tag "ECDH10B_0654"; -NC_010473.1 Protein Homology CDS 665972 669850 . + 0 gene_id "ECDH10B_RS03350"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "entF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415118.1"; locus_tag "ECDH10B_RS03350"; product "enterobactin non-ribosomal peptide synthetase EntF"; protein_id "WP_000077805.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 665972 665974 . + 0 gene_id "ECDH10B_RS03350"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "entF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415118.1"; locus_tag "ECDH10B_RS03350"; product "enterobactin non-ribosomal peptide synthetase EntF"; protein_id "WP_000077805.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 669851 669853 . + 0 gene_id "ECDH10B_RS03350"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "entF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415118.1"; locus_tag "ECDH10B_RS03350"; product "enterobactin non-ribosomal peptide synthetase EntF"; protein_id "WP_000077805.1"; transl_table "11"; -NC_010473.1 RefSeq gene 670069 671202 . + . gene_id "ECDH10B_RS03355"; transcript_id ""; gbkey "Gene"; gene "fepE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03355"; old_locus_tag "ECDH10B_0655"; -NC_010473.1 Protein Homology CDS 670069 671199 . + 0 gene_id "ECDH10B_RS03355"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fepE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415119.1"; locus_tag "ECDH10B_RS03355"; product "LPS O-antigen length regulator"; protein_id "WP_000096692.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 670069 670071 . + 0 gene_id "ECDH10B_RS03355"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fepE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415119.1"; locus_tag "ECDH10B_RS03355"; product "LPS O-antigen length regulator"; protein_id "WP_000096692.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 671200 671202 . + 0 gene_id "ECDH10B_RS03355"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fepE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415119.1"; locus_tag "ECDH10B_RS03355"; product "LPS O-antigen length regulator"; protein_id "WP_000096692.1"; transl_table "11"; -NC_010473.1 RefSeq gene 671199 672014 . - . gene_id "ECDH10B_RS03360"; transcript_id ""; gbkey "Gene"; gene "fepC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03360"; old_locus_tag "ECDH10B_0656"; -NC_010473.1 Protein Homology CDS 671202 672014 . - 0 gene_id "ECDH10B_RS03360"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fepC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415120.1"; locus_tag "ECDH10B_RS03360"; product "iron-enterobactin ABC transporter ATP-binding protein"; protein_id "WP_000140647.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 672012 672014 . - 0 gene_id "ECDH10B_RS03360"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fepC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415120.1"; locus_tag "ECDH10B_RS03360"; product "iron-enterobactin ABC transporter ATP-binding protein"; protein_id "WP_000140647.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 671199 671201 . - 0 gene_id "ECDH10B_RS03360"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fepC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415120.1"; locus_tag "ECDH10B_RS03360"; product "iron-enterobactin ABC transporter ATP-binding protein"; protein_id "WP_000140647.1"; transl_table "11"; -NC_010473.1 RefSeq gene 672011 673003 . - . gene_id "ECDH10B_RS03365"; transcript_id ""; gbkey "Gene"; gene "fepG"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03365"; old_locus_tag "ECDH10B_0657"; -NC_010473.1 Protein Homology CDS 672014 673003 . - 0 gene_id "ECDH10B_RS03365"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fepG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415121.1"; locus_tag "ECDH10B_RS03365"; product "iron-enterobactin ABC transporter permease"; protein_id "WP_000640988.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 673001 673003 . - 0 gene_id "ECDH10B_RS03365"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fepG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415121.1"; locus_tag "ECDH10B_RS03365"; product "iron-enterobactin ABC transporter permease"; protein_id "WP_000640988.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 672011 672013 . - 0 gene_id "ECDH10B_RS03365"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fepG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415121.1"; locus_tag "ECDH10B_RS03365"; product "iron-enterobactin ABC transporter permease"; protein_id "WP_000640988.1"; transl_table "11"; -NC_010473.1 RefSeq gene 673000 674004 . - . gene_id "ECDH10B_RS03370"; transcript_id ""; gbkey "Gene"; gene "fepD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03370"; old_locus_tag "ECDH10B_0658"; -NC_010473.1 Protein Homology CDS 673003 674004 . - 0 gene_id "ECDH10B_RS03370"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fepD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415122.1"; locus_tag "ECDH10B_RS03370"; product "Fe(3+)-siderophore ABC transporter permease"; protein_id "WP_000016947.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 674002 674004 . - 0 gene_id "ECDH10B_RS03370"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fepD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415122.1"; locus_tag "ECDH10B_RS03370"; product "Fe(3+)-siderophore ABC transporter permease"; protein_id "WP_000016947.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 673000 673002 . - 0 gene_id "ECDH10B_RS03370"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fepD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415122.1"; locus_tag "ECDH10B_RS03370"; product "Fe(3+)-siderophore ABC transporter permease"; protein_id "WP_000016947.1"; transl_table "11"; -NC_010473.1 RefSeq gene 674115 675365 . + . gene_id "ECDH10B_RS03375"; transcript_id ""; gbkey "Gene"; gene "entS"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03375"; old_locus_tag "ECDH10B_0659"; -NC_010473.1 Protein Homology CDS 674115 675362 . + 0 gene_id "ECDH10B_RS03375"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "entS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415123.1"; locus_tag "ECDH10B_RS03375"; product "enterobactin transporter EntS"; protein_id "WP_001041786.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 674115 674117 . + 0 gene_id "ECDH10B_RS03375"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "entS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415123.1"; locus_tag "ECDH10B_RS03375"; product "enterobactin transporter EntS"; protein_id "WP_001041786.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 675363 675365 . + 0 gene_id "ECDH10B_RS03375"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "entS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415123.1"; locus_tag "ECDH10B_RS03375"; product "enterobactin transporter EntS"; protein_id "WP_001041786.1"; transl_table "11"; -NC_010473.1 RefSeq gene 675369 676325 . - . gene_id "ECDH10B_RS03380"; transcript_id ""; gbkey "Gene"; gene "fepB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03380"; old_locus_tag "ECDH10B_0660"; -NC_010473.1 Protein Homology CDS 675372 676325 . - 0 gene_id "ECDH10B_RS03380"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fepB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415124.1"; locus_tag "ECDH10B_RS03380"; product "Fe2+-enterobactin ABC transporter substrate-binding protein"; protein_id "WP_001234311.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 676323 676325 . - 0 gene_id "ECDH10B_RS03380"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fepB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415124.1"; locus_tag "ECDH10B_RS03380"; product "Fe2+-enterobactin ABC transporter substrate-binding protein"; protein_id "WP_001234311.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 675369 675371 . - 0 gene_id "ECDH10B_RS03380"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fepB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415124.1"; locus_tag "ECDH10B_RS03380"; product "Fe2+-enterobactin ABC transporter substrate-binding protein"; protein_id "WP_001234311.1"; transl_table "11"; -NC_010473.1 RefSeq gene 676700 677875 . + . gene_id "ECDH10B_RS03385"; transcript_id ""; gbkey "Gene"; gene "entC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03385"; old_locus_tag "ECDH10B_0661"; -NC_010473.1 Protein Homology CDS 676700 677872 . + 0 gene_id "ECDH10B_RS03385"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "entC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308659.1"; locus_tag "ECDH10B_RS03385"; product "isochorismate synthase EntC"; protein_id "WP_000381303.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 676700 676702 . + 0 gene_id "ECDH10B_RS03385"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "entC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308659.1"; locus_tag "ECDH10B_RS03385"; product "isochorismate synthase EntC"; protein_id "WP_000381303.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 677873 677875 . + 0 gene_id "ECDH10B_RS03385"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "entC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308659.1"; locus_tag "ECDH10B_RS03385"; product "isochorismate synthase EntC"; protein_id "WP_000381303.1"; transl_table "11"; -NC_010473.1 RefSeq gene 677885 679495 . + . gene_id "ECDH10B_RS03390"; transcript_id ""; gbkey "Gene"; gene "entE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03390"; old_locus_tag "ECDH10B_0662"; -NC_010473.1 Protein Homology CDS 677885 679492 . + 0 gene_id "ECDH10B_RS03390"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "entE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415126.1"; locus_tag "ECDH10B_RS03390"; product "(2,3-dihydroxybenzoyl)adenylate synthase EntE"; protein_id "WP_000026812.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 677885 677887 . + 0 gene_id "ECDH10B_RS03390"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "entE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415126.1"; locus_tag "ECDH10B_RS03390"; product "(2,3-dihydroxybenzoyl)adenylate synthase EntE"; protein_id "WP_000026812.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 679493 679495 . + 0 gene_id "ECDH10B_RS03390"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "entE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415126.1"; locus_tag "ECDH10B_RS03390"; product "(2,3-dihydroxybenzoyl)adenylate synthase EntE"; protein_id "WP_000026812.1"; transl_table "11"; -NC_010473.1 RefSeq gene 679509 680366 . + . gene_id "ECDH10B_RS03395"; transcript_id ""; gbkey "Gene"; gene "entB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03395"; old_locus_tag "ECDH10B_0663"; -NC_010473.1 Protein Homology CDS 679509 680363 . + 0 gene_id "ECDH10B_RS03395"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "entB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308661.1"; locus_tag "ECDH10B_RS03395"; product "enterobactin biosynthesis bifunctional isochorismatase/aryl carrier protein EntB"; protein_id "WP_001007138.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 679509 679511 . + 0 gene_id "ECDH10B_RS03395"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "entB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308661.1"; locus_tag "ECDH10B_RS03395"; product "enterobactin biosynthesis bifunctional isochorismatase/aryl carrier protein EntB"; protein_id "WP_001007138.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 680364 680366 . + 0 gene_id "ECDH10B_RS03395"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "entB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308661.1"; locus_tag "ECDH10B_RS03395"; product "enterobactin biosynthesis bifunctional isochorismatase/aryl carrier protein EntB"; protein_id "WP_001007138.1"; transl_table "11"; -NC_010473.1 RefSeq gene 680366 681112 . + . gene_id "ECDH10B_RS03400"; transcript_id ""; gbkey "Gene"; gene "entA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03400"; old_locus_tag "ECDH10B_0664"; -NC_010473.1 Protein Homology CDS 680366 681109 . + 0 gene_id "ECDH10B_RS03400"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "entA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415128.1"; locus_tag "ECDH10B_RS03400"; product "2,3-dihydro-2,3-dihydroxybenzoate dehydrogenase EntA"; protein_id "WP_000347651.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 680366 680368 . + 0 gene_id "ECDH10B_RS03400"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "entA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415128.1"; locus_tag "ECDH10B_RS03400"; product "2,3-dihydro-2,3-dihydroxybenzoate dehydrogenase EntA"; protein_id "WP_000347651.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 681110 681112 . + 0 gene_id "ECDH10B_RS03400"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "entA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415128.1"; locus_tag "ECDH10B_RS03400"; product "2,3-dihydro-2,3-dihydroxybenzoate dehydrogenase EntA"; protein_id "WP_000347651.1"; transl_table "11"; -NC_010473.1 RefSeq gene 681115 681528 . + . gene_id "ECDH10B_RS03405"; transcript_id ""; gbkey "Gene"; gene "entH"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03405"; old_locus_tag "ECDH10B_0665"; -NC_010473.1 Protein Homology CDS 681115 681525 . + 0 gene_id "ECDH10B_RS03405"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "entH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415129.1"; locus_tag "ECDH10B_RS03405"; product "proofreading thioesterase EntH"; protein_id "WP_000637953.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 681115 681117 . + 0 gene_id "ECDH10B_RS03405"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "entH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415129.1"; locus_tag "ECDH10B_RS03405"; product "proofreading thioesterase EntH"; protein_id "WP_000637953.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 681526 681528 . + 0 gene_id "ECDH10B_RS03405"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "entH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415129.1"; locus_tag "ECDH10B_RS03405"; product "proofreading thioesterase EntH"; protein_id "WP_000637953.1"; transl_table "11"; -NC_010473.1 RefSeq gene 681709 683814 . + . gene_id "ECDH10B_RS03410"; transcript_id ""; gbkey "Gene"; gene "cstA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03410"; old_locus_tag "ECDH10B_0666"; -NC_010473.1 Protein Homology CDS 681709 683811 . + 0 gene_id "ECDH10B_RS03410"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cstA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415130.1"; locus_tag "ECDH10B_RS03410"; product "carbon starvation protein CstA"; protein_id "WP_001043156.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 681709 681711 . + 0 gene_id "ECDH10B_RS03410"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cstA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415130.1"; locus_tag "ECDH10B_RS03410"; product "carbon starvation protein CstA"; protein_id "WP_001043156.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 683812 683814 . + 0 gene_id "ECDH10B_RS03410"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cstA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415130.1"; locus_tag "ECDH10B_RS03410"; product "carbon starvation protein CstA"; protein_id "WP_001043156.1"; transl_table "11"; -NC_010473.1 RefSeq gene 683997 684194 . + . gene_id "ECDH10B_RS03415"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03415"; old_locus_tag "ECDH10B_0667"; -NC_010473.1 Protein Homology CDS 683997 684191 . + 0 gene_id "ECDH10B_RS03415"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_012904950.1"; locus_tag "ECDH10B_RS03415"; product "YbdD/YjiX family protein"; protein_id "WP_000460431.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 683997 683999 . + 0 gene_id "ECDH10B_RS03415"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_012904950.1"; locus_tag "ECDH10B_RS03415"; product "YbdD/YjiX family protein"; protein_id "WP_000460431.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 684192 684194 . + 0 gene_id "ECDH10B_RS03415"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_012904950.1"; locus_tag "ECDH10B_RS03415"; product "YbdD/YjiX family protein"; protein_id "WP_000460431.1"; transl_table "11"; -NC_010473.1 RefSeq gene 684204 685292 . - . gene_id "ECDH10B_RS03420"; transcript_id ""; gbkey "Gene"; gene "hcxA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03420"; old_locus_tag "ECDH10B_0668"; -NC_010473.1 Protein Homology CDS 684207 685292 . - 0 gene_id "ECDH10B_RS03420"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hcxA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415132.1"; locus_tag "ECDH10B_RS03420"; product "hydroxycarboxylate dehydrogenase HcxA"; protein_id "WP_001120441.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 685290 685292 . - 0 gene_id "ECDH10B_RS03420"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hcxA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415132.1"; locus_tag "ECDH10B_RS03420"; product "hydroxycarboxylate dehydrogenase HcxA"; protein_id "WP_001120441.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 684204 684206 . - 0 gene_id "ECDH10B_RS03420"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hcxA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415132.1"; locus_tag "ECDH10B_RS03420"; product "hydroxycarboxylate dehydrogenase HcxA"; protein_id "WP_001120441.1"; transl_table "11"; -NC_010473.1 RefSeq gene 685401 686561 . + . gene_id "ECDH10B_RS03425"; transcript_id ""; gbkey "Gene"; gene "ybdL"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03425"; old_locus_tag "ECDH10B_0669"; -NC_010473.1 Protein Homology CDS 685401 686558 . + 0 gene_id "ECDH10B_RS03425"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ybdL"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415133.1"; locus_tag "ECDH10B_RS03425"; product "methionine-oxo-acid transaminase"; protein_id "WP_000183907.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 685401 685403 . + 0 gene_id "ECDH10B_RS03425"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ybdL"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415133.1"; locus_tag "ECDH10B_RS03425"; product "methionine-oxo-acid transaminase"; protein_id "WP_000183907.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 686559 686561 . + 0 gene_id "ECDH10B_RS03425"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ybdL"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415133.1"; locus_tag "ECDH10B_RS03425"; product "methionine-oxo-acid transaminase"; protein_id "WP_000183907.1"; transl_table "11"; -NC_010473.1 RefSeq gene 686562 687191 . - . gene_id "ECDH10B_RS03430"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03430"; old_locus_tag "ECDH10B_0670"; -NC_010473.1 Protein Homology CDS 686565 687191 . - 0 gene_id "ECDH10B_RS03430"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415134.1"; locus_tag "ECDH10B_RS03430"; product "ParB-like nuclease domain-containing protein"; protein_id "WP_000502945.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 687189 687191 . - 0 gene_id "ECDH10B_RS03430"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415134.1"; locus_tag "ECDH10B_RS03430"; product "ParB-like nuclease domain-containing protein"; protein_id "WP_000502945.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 686562 686564 . - 0 gene_id "ECDH10B_RS03430"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415134.1"; locus_tag "ECDH10B_RS03430"; product "ParB-like nuclease domain-containing protein"; protein_id "WP_000502945.1"; transl_table "11"; -NC_010473.1 RefSeq gene 687164 688384 . - . gene_id "ECDH10B_RS03435"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03435"; old_locus_tag "ECDH10B_0671"; -NC_010473.1 Protein Homology CDS 687167 688384 . - 0 gene_id "ECDH10B_RS03435"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415135.1"; locus_tag "ECDH10B_RS03435"; product "phosphoadenosine phosphosulfate reductase"; protein_id "WP_000029814.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 688382 688384 . - 0 gene_id "ECDH10B_RS03435"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415135.1"; locus_tag "ECDH10B_RS03435"; product "phosphoadenosine phosphosulfate reductase"; protein_id "WP_000029814.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 687164 687166 . - 0 gene_id "ECDH10B_RS03435"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415135.1"; locus_tag "ECDH10B_RS03435"; product "phosphoadenosine phosphosulfate reductase"; protein_id "WP_000029814.1"; transl_table "11"; -NC_010473.1 RefSeq gene 688531 689433 . - . gene_id "ECDH10B_RS03440"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03440"; old_locus_tag "ECDH10B_0672"; -NC_010473.1 Protein Homology CDS 688534 689433 . - 0 gene_id "ECDH10B_RS03440"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415136.1"; locus_tag "ECDH10B_RS03440"; product "LysR family transcriptional regulator"; protein_id "WP_000002474.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 689431 689433 . - 0 gene_id "ECDH10B_RS03440"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415136.1"; locus_tag "ECDH10B_RS03440"; product "LysR family transcriptional regulator"; protein_id "WP_000002474.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 688531 688533 . - 0 gene_id "ECDH10B_RS03440"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415136.1"; locus_tag "ECDH10B_RS03440"; product "LysR family transcriptional regulator"; protein_id "WP_000002474.1"; transl_table "11"; -NC_010473.1 RefSeq gene 689642 690388 . - . gene_id "ECDH10B_RS03445"; transcript_id ""; gbkey "Gene"; gene "dsbG"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03445"; old_locus_tag "ECDH10B_0673"; -NC_010473.1 Protein Homology CDS 689645 690388 . - 0 gene_id "ECDH10B_RS03445"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dsbG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415137.2"; locus_tag "ECDH10B_RS03445"; product "thiol:disulfide interchange protein DsbG"; protein_id "WP_000913829.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 690386 690388 . - 0 gene_id "ECDH10B_RS03445"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dsbG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415137.2"; locus_tag "ECDH10B_RS03445"; product "thiol:disulfide interchange protein DsbG"; protein_id "WP_000913829.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 689642 689644 . - 0 gene_id "ECDH10B_RS03445"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dsbG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415137.2"; locus_tag "ECDH10B_RS03445"; product "thiol:disulfide interchange protein DsbG"; protein_id "WP_000913829.1"; transl_table "11"; -NC_010473.1 RefSeq gene 690760 691323 . + . gene_id "ECDH10B_RS03450"; transcript_id ""; gbkey "Gene"; gene "ahpC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03450"; old_locus_tag "ECDH10B_0674"; -NC_010473.1 Protein Homology CDS 690760 691320 . + 0 gene_id "ECDH10B_RS03450"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ahpC"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_003858764.1"; locus_tag "ECDH10B_RS03450"; product "alkyl hydroperoxide reductase subunit C"; protein_id "WP_000052796.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 690760 690762 . + 0 gene_id "ECDH10B_RS03450"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ahpC"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_003858764.1"; locus_tag "ECDH10B_RS03450"; product "alkyl hydroperoxide reductase subunit C"; protein_id "WP_000052796.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 691321 691323 . + 0 gene_id "ECDH10B_RS03450"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ahpC"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_003858764.1"; locus_tag "ECDH10B_RS03450"; product "alkyl hydroperoxide reductase subunit C"; protein_id "WP_000052796.1"; transl_table "11"; -NC_010473.1 RefSeq gene 691568 693133 . + . gene_id "ECDH10B_RS03455"; transcript_id ""; gbkey "Gene"; gene "ahpF"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03455"; old_locus_tag "ECDH10B_0675"; -NC_010473.1 Protein Homology CDS 691568 693130 . + 0 gene_id "ECDH10B_RS03455"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ahpF"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_017455864.1"; locus_tag "ECDH10B_RS03455"; product "alkyl hydroperoxide reductase subunit F"; protein_id "WP_000887629.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 691568 691570 . + 0 gene_id "ECDH10B_RS03455"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ahpF"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_017455864.1"; locus_tag "ECDH10B_RS03455"; product "alkyl hydroperoxide reductase subunit F"; protein_id "WP_000887629.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 693131 693133 . + 0 gene_id "ECDH10B_RS03455"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ahpF"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_017455864.1"; locus_tag "ECDH10B_RS03455"; product "alkyl hydroperoxide reductase subunit F"; protein_id "WP_000887629.1"; transl_table "11"; -NC_010473.1 RefSeq gene 693254 693682 . - . gene_id "ECDH10B_RS03460"; transcript_id ""; gbkey "Gene"; gene "uspG"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03460"; old_locus_tag "ECDH10B_0676"; -NC_010473.1 Protein Homology CDS 693257 693682 . - 0 gene_id "ECDH10B_RS03460"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "uspG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415140.1"; locus_tag "ECDH10B_RS03460"; product "universal stress protein UspG"; protein_id "WP_000278509.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 693680 693682 . - 0 gene_id "ECDH10B_RS03460"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "uspG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415140.1"; locus_tag "ECDH10B_RS03460"; product "universal stress protein UspG"; protein_id "WP_000278509.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 693254 693256 . - 0 gene_id "ECDH10B_RS03460"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "uspG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415140.1"; locus_tag "ECDH10B_RS03460"; product "universal stress protein UspG"; protein_id "WP_000278509.1"; transl_table "11"; -NC_010473.1 RefSeq gene 693903 695141 . + . gene_id "ECDH10B_RS03465"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03465"; old_locus_tag "ECDH10B_0677"; -NC_010473.1 Protein Homology CDS 693903 695138 . + 0 gene_id "ECDH10B_RS03465"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415141.1"; locus_tag "ECDH10B_RS03465"; product "glutathione-dependent formaldehyde dehydrogenase"; protein_id "WP_000646173.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 693903 693905 . + 0 gene_id "ECDH10B_RS03465"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415141.1"; locus_tag "ECDH10B_RS03465"; product "glutathione-dependent formaldehyde dehydrogenase"; protein_id "WP_000646173.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 695139 695141 . + 0 gene_id "ECDH10B_RS03465"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415141.1"; locus_tag "ECDH10B_RS03465"; product "glutathione-dependent formaldehyde dehydrogenase"; protein_id "WP_000646173.1"; transl_table "11"; -NC_010473.1 RefSeq gene 695372 695782 . - . gene_id "ECDH10B_RS03475"; transcript_id ""; gbkey "Gene"; gene "rnk"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03475"; old_locus_tag "ECDH10B_0678"; -NC_010473.1 Protein Homology CDS 695375 695782 . - 0 gene_id "ECDH10B_RS03475"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rnk"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308676.1"; locus_tag "ECDH10B_RS03475"; product "nucleoside diphosphate kinase regulator"; protein_id "WP_000089731.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 695780 695782 . - 0 gene_id "ECDH10B_RS03475"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rnk"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308676.1"; locus_tag "ECDH10B_RS03475"; product "nucleoside diphosphate kinase regulator"; protein_id "WP_000089731.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 695372 695374 . - 0 gene_id "ECDH10B_RS03475"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rnk"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308676.1"; locus_tag "ECDH10B_RS03475"; product "nucleoside diphosphate kinase regulator"; protein_id "WP_000089731.1"; transl_table "11"; -NC_010473.1 RefSeq gene 696012 696818 . - . gene_id "ECDH10B_RS03480"; transcript_id ""; gbkey "Gene"; gene "rna"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03480"; old_locus_tag "ECDH10B_0679"; -NC_010473.1 Protein Homology CDS 696015 696818 . - 0 gene_id "ECDH10B_RS03480"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rna"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415144.1"; locus_tag "ECDH10B_RS03480"; product "ribonuclease I"; protein_id "WP_000643397.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 696816 696818 . - 0 gene_id "ECDH10B_RS03480"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rna"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415144.1"; locus_tag "ECDH10B_RS03480"; product "ribonuclease I"; protein_id "WP_000643397.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 696012 696014 . - 0 gene_id "ECDH10B_RS03480"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rna"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415144.1"; locus_tag "ECDH10B_RS03480"; product "ribonuclease I"; protein_id "WP_000643397.1"; transl_table "11"; -NC_010473.1 RefSeq gene 696932 698395 . - . gene_id "ECDH10B_RS03485"; transcript_id ""; gbkey "Gene"; gene "citT"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03485"; old_locus_tag "ECDH10B_0680"; -NC_010473.1 Protein Homology CDS 696935 698395 . - 0 gene_id "ECDH10B_RS03485"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "citT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308678.1"; locus_tag "ECDH10B_RS03485"; product "citrate/succinate antiporter CitT"; protein_id "WP_000050323.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 698393 698395 . - 0 gene_id "ECDH10B_RS03485"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "citT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308678.1"; locus_tag "ECDH10B_RS03485"; product "citrate/succinate antiporter CitT"; protein_id "WP_000050323.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 696932 696934 . - 0 gene_id "ECDH10B_RS03485"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "citT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308678.1"; locus_tag "ECDH10B_RS03485"; product "citrate/succinate antiporter CitT"; protein_id "WP_000050323.1"; transl_table "11"; -NC_010473.1 RefSeq gene 698446 699324 . - . gene_id "ECDH10B_RS03490"; transcript_id ""; gbkey "Gene"; gene "citG"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03490"; old_locus_tag "ECDH10B_0681"; -NC_010473.1 Protein Homology CDS 698449 699324 . - 0 gene_id "ECDH10B_RS03490"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "citG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415146.1"; locus_tag "ECDH10B_RS03490"; product "triphosphoribosyl-dephospho-CoA synthase CitG"; protein_id "WP_000062457.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 699322 699324 . - 0 gene_id "ECDH10B_RS03490"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "citG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415146.1"; locus_tag "ECDH10B_RS03490"; product "triphosphoribosyl-dephospho-CoA synthase CitG"; protein_id "WP_000062457.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 698446 698448 . - 0 gene_id "ECDH10B_RS03490"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "citG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415146.1"; locus_tag "ECDH10B_RS03490"; product "triphosphoribosyl-dephospho-CoA synthase CitG"; protein_id "WP_000062457.1"; transl_table "11"; -NC_010473.1 RefSeq gene 699299 699850 . - . gene_id "ECDH10B_RS03495"; transcript_id ""; gbkey "Gene"; gene "citX"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03495"; old_locus_tag "ECDH10B_0682"; -NC_010473.1 Protein Homology CDS 699302 699850 . - 0 gene_id "ECDH10B_RS03495"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "citX"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308680.1"; locus_tag "ECDH10B_RS03495"; product "citrate lyase holo-[acyl-carrier protein] synthase"; protein_id "WP_000550422.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 699848 699850 . - 0 gene_id "ECDH10B_RS03495"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "citX"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308680.1"; locus_tag "ECDH10B_RS03495"; product "citrate lyase holo-[acyl-carrier protein] synthase"; protein_id "WP_000550422.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 699299 699301 . - 0 gene_id "ECDH10B_RS03495"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "citX"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308680.1"; locus_tag "ECDH10B_RS03495"; product "citrate lyase holo-[acyl-carrier protein] synthase"; protein_id "WP_000550422.1"; transl_table "11"; -NC_010473.1 RefSeq gene 699854 701386 . - . gene_id "ECDH10B_RS03500"; transcript_id ""; gbkey "Gene"; gene "citF"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03500"; old_locus_tag "ECDH10B_0683"; -NC_010473.1 Protein Homology CDS 699857 701386 . - 0 gene_id "ECDH10B_RS03500"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "citF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415148.1"; locus_tag "ECDH10B_RS03500"; product "citrate lyase subunit alpha"; protein_id "WP_000192242.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 701384 701386 . - 0 gene_id "ECDH10B_RS03500"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "citF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415148.1"; locus_tag "ECDH10B_RS03500"; product "citrate lyase subunit alpha"; protein_id "WP_000192242.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 699854 699856 . - 0 gene_id "ECDH10B_RS03500"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "citF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415148.1"; locus_tag "ECDH10B_RS03500"; product "citrate lyase subunit alpha"; protein_id "WP_000192242.1"; transl_table "11"; -NC_010473.1 RefSeq gene 701397 702305 . - . gene_id "ECDH10B_RS03505"; transcript_id ""; gbkey "Gene"; gene "citE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03505"; old_locus_tag "ECDH10B_0684"; -NC_010473.1 Protein Homology CDS 701400 702305 . - 0 gene_id "ECDH10B_RS03505"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "citE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415149.4"; locus_tag "ECDH10B_RS03505"; product "citrate (pro-3S)-lyase subunit beta"; protein_id "WP_000622357.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 702303 702305 . - 0 gene_id "ECDH10B_RS03505"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "citE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415149.4"; locus_tag "ECDH10B_RS03505"; product "citrate (pro-3S)-lyase subunit beta"; protein_id "WP_000622357.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 701397 701399 . - 0 gene_id "ECDH10B_RS03505"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "citE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415149.4"; locus_tag "ECDH10B_RS03505"; product "citrate (pro-3S)-lyase subunit beta"; protein_id "WP_000622357.1"; transl_table "11"; -NC_010473.1 RefSeq gene 702302 702598 . - . gene_id "ECDH10B_RS03510"; transcript_id ""; gbkey "Gene"; gene "citD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03510"; old_locus_tag "ECDH10B_0685"; -NC_010473.1 Protein Homology CDS 702305 702598 . - 0 gene_id "ECDH10B_RS03510"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "citD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308683.1"; locus_tag "ECDH10B_RS03510"; product "citrate lyase acyl carrier protein"; protein_id "WP_000700703.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 702596 702598 . - 0 gene_id "ECDH10B_RS03510"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "citD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308683.1"; locus_tag "ECDH10B_RS03510"; product "citrate lyase acyl carrier protein"; protein_id "WP_000700703.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 702302 702304 . - 0 gene_id "ECDH10B_RS03510"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "citD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308683.1"; locus_tag "ECDH10B_RS03510"; product "citrate lyase acyl carrier protein"; protein_id "WP_000700703.1"; transl_table "11"; -NC_010473.1 RefSeq gene 702613 703671 . - . gene_id "ECDH10B_RS03515"; transcript_id ""; gbkey "Gene"; gene "citC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03515"; old_locus_tag "ECDH10B_0686"; -NC_010473.1 Protein Homology CDS 702616 703671 . - 0 gene_id "ECDH10B_RS03515"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "citC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415151.4"; locus_tag "ECDH10B_RS03515"; product "[citrate (pro-3S)-lyase] ligase"; protein_id "WP_000467705.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 703669 703671 . - 0 gene_id "ECDH10B_RS03515"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "citC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415151.4"; locus_tag "ECDH10B_RS03515"; product "[citrate (pro-3S)-lyase] ligase"; protein_id "WP_000467705.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 702613 702615 . - 0 gene_id "ECDH10B_RS03515"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "citC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415151.4"; locus_tag "ECDH10B_RS03515"; product "[citrate (pro-3S)-lyase] ligase"; protein_id "WP_000467705.1"; transl_table "11"; -NC_010473.1 RefSeq gene 704050 705708 . + . gene_id "ECDH10B_RS03520"; transcript_id ""; gbkey "Gene"; gene "dpiB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03520"; old_locus_tag "ECDH10B_0687"; -NC_010473.1 Protein Homology CDS 704050 705705 . + 0 gene_id "ECDH10B_RS03520"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dpiB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415152.1"; locus_tag "ECDH10B_RS03520"; product "sensor histidine kinase DpiB"; protein_id "WP_000939767.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 704050 704052 . + 0 gene_id "ECDH10B_RS03520"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dpiB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415152.1"; locus_tag "ECDH10B_RS03520"; product "sensor histidine kinase DpiB"; protein_id "WP_000939767.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 705706 705708 . + 0 gene_id "ECDH10B_RS03520"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dpiB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415152.1"; locus_tag "ECDH10B_RS03520"; product "sensor histidine kinase DpiB"; protein_id "WP_000939767.1"; transl_table "11"; -NC_010473.1 RefSeq gene 705677 706357 . + . gene_id "ECDH10B_RS03525"; transcript_id ""; gbkey "Gene"; gene "dpiA"; gene_biotype "protein_coding"; gene_synonym "citB"; locus_tag "ECDH10B_RS03525"; old_locus_tag "ECDH10B_0688"; -NC_010473.1 Protein Homology CDS 705677 706354 . + 0 gene_id "ECDH10B_RS03525"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dpiA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308686.1"; locus_tag "ECDH10B_RS03525"; product "two-component response regulator DpiA"; protein_id "WP_000126500.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 705677 705679 . + 0 gene_id "ECDH10B_RS03525"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dpiA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308686.1"; locus_tag "ECDH10B_RS03525"; product "two-component response regulator DpiA"; protein_id "WP_000126500.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 706355 706357 . + 0 gene_id "ECDH10B_RS03525"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dpiA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308686.1"; locus_tag "ECDH10B_RS03525"; product "two-component response regulator DpiA"; protein_id "WP_000126500.1"; transl_table "11"; -NC_010473.1 RefSeq gene 706398 707783 . - . gene_id "ECDH10B_RS03530"; transcript_id ""; gbkey "Gene"; gene "dcuC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03530"; old_locus_tag "ECDH10B_0689"; -NC_010473.1 Protein Homology CDS 706401 707783 . - 0 gene_id "ECDH10B_RS03530"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dcuC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308687.1"; locus_tag "ECDH10B_RS03530"; product "anaerobic C4-dicarboxylate transporter DcuC"; protein_id "WP_000955063.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 707781 707783 . - 0 gene_id "ECDH10B_RS03530"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dcuC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308687.1"; locus_tag "ECDH10B_RS03530"; product "anaerobic C4-dicarboxylate transporter DcuC"; protein_id "WP_000955063.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 706398 706400 . - 0 gene_id "ECDH10B_RS03530"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dcuC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308687.1"; locus_tag "ECDH10B_RS03530"; product "anaerobic C4-dicarboxylate transporter DcuC"; protein_id "WP_000955063.1"; transl_table "11"; -NC_010473.1 RefSeq gene 708372 708932 . + . gene_id "ECDH10B_RS03535"; transcript_id ""; gbkey "Gene"; gene "pagP"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03535"; old_locus_tag "ECDH10B_0690"; -NC_010473.1 Protein Homology CDS 708372 708929 . + 0 gene_id "ECDH10B_RS03535"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pagP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415155.1"; locus_tag "ECDH10B_RS03535"; product "lipid IV(A) palmitoyltransferase PagP"; protein_id "WP_001103094.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 708372 708374 . + 0 gene_id "ECDH10B_RS03535"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pagP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415155.1"; locus_tag "ECDH10B_RS03535"; product "lipid IV(A) palmitoyltransferase PagP"; protein_id "WP_001103094.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 708930 708932 . + 0 gene_id "ECDH10B_RS03535"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pagP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415155.1"; locus_tag "ECDH10B_RS03535"; product "lipid IV(A) palmitoyltransferase PagP"; protein_id "WP_001103094.1"; transl_table "11"; -NC_010473.1 RefSeq gene 709107 709316 . + . gene_id "ECDH10B_RS03540"; transcript_id ""; gbkey "Gene"; gene "cspE"; gene_biotype "protein_coding"; gene_synonym "gicA"; gene_synonym "msmC"; locus_tag "ECDH10B_RS03540"; old_locus_tag "ECDH10B_0691"; -NC_010473.1 Protein Homology CDS 709107 709313 . + 0 gene_id "ECDH10B_RS03540"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cspE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308689.1"; locus_tag "ECDH10B_RS03540"; product "transcription antiterminator/RNA stability regulator CspE"; protein_id "WP_000034825.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 709107 709109 . + 0 gene_id "ECDH10B_RS03540"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cspE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308689.1"; locus_tag "ECDH10B_RS03540"; product "transcription antiterminator/RNA stability regulator CspE"; protein_id "WP_000034825.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 709314 709316 . + 0 gene_id "ECDH10B_RS03540"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cspE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308689.1"; locus_tag "ECDH10B_RS03540"; product "transcription antiterminator/RNA stability regulator CspE"; protein_id "WP_000034825.1"; transl_table "11"; -NC_010473.1 RefSeq gene 709370 709753 . - . gene_id "ECDH10B_RS03545"; transcript_id ""; gbkey "Gene"; gene "crcB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03545"; old_locus_tag "ECDH10B_0692"; -NC_010473.1 Protein Homology CDS 709373 709753 . - 0 gene_id "ECDH10B_RS03545"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "crcB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415157.1"; locus_tag "ECDH10B_RS03545"; product "fluoride efflux transporter CrcB"; protein_id "WP_000939747.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 709751 709753 . - 0 gene_id "ECDH10B_RS03545"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "crcB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415157.1"; locus_tag "ECDH10B_RS03545"; product "fluoride efflux transporter CrcB"; protein_id "WP_000939747.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 709370 709372 . - 0 gene_id "ECDH10B_RS03545"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "crcB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415157.1"; locus_tag "ECDH10B_RS03545"; product "fluoride efflux transporter CrcB"; protein_id "WP_000939747.1"; transl_table "11"; -NC_010473.1 RefSeq gene 709846 710633 . + . gene_id "ECDH10B_RS03555"; transcript_id ""; gbkey "Gene"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS03555"; old_locus_tag "ECDH10B_0694"; pseudo "true"; -NC_010473.1 Protein Homology CDS 709846 710630 . + 0 gene_id "ECDH10B_RS03555"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308691.1"; locus_tag "ECDH10B_RS03555"; note "frameshifted"; product "deaminated glutathione amidase"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 709846 709848 . + 0 gene_id "ECDH10B_RS03555"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308691.1"; locus_tag "ECDH10B_RS03555"; note "frameshifted"; product "deaminated glutathione amidase"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 710631 710633 . + 0 gene_id "ECDH10B_RS03555"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308691.1"; locus_tag "ECDH10B_RS03555"; note "frameshifted"; product "deaminated glutathione amidase"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 710762 710965 . + . gene_id "ECDH10B_RS03560"; transcript_id ""; gbkey "Gene"; gene "tatE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03560"; old_locus_tag "ECDH10B_0696"; -NC_010473.1 Protein Homology CDS 710762 710962 . + 0 gene_id "ECDH10B_RS03560"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tatE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308692.1"; locus_tag "ECDH10B_RS03560"; product "twin-arginine translocase subunit TatE"; protein_id "WP_000503931.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 710762 710764 . + 0 gene_id "ECDH10B_RS03560"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tatE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308692.1"; locus_tag "ECDH10B_RS03560"; product "twin-arginine translocase subunit TatE"; protein_id "WP_000503931.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 710963 710965 . + 0 gene_id "ECDH10B_RS03560"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tatE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308692.1"; locus_tag "ECDH10B_RS03560"; product "twin-arginine translocase subunit TatE"; protein_id "WP_000503931.1"; transl_table "11"; -NC_010473.1 RefSeq gene 711066 712031 . - . gene_id "ECDH10B_RS03565"; transcript_id ""; gbkey "Gene"; gene "lipA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03565"; old_locus_tag "ECDH10B_0697"; -NC_010473.1 Protein Homology CDS 711069 712031 . - 0 gene_id "ECDH10B_RS03565"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lipA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_012904980.1"; locus_tag "ECDH10B_RS03565"; product "lipoyl synthase"; protein_id "WP_000042632.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 712029 712031 . - 0 gene_id "ECDH10B_RS03565"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lipA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_012904980.1"; locus_tag "ECDH10B_RS03565"; product "lipoyl synthase"; protein_id "WP_000042632.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 711066 711068 . - 0 gene_id "ECDH10B_RS03565"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lipA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_012904980.1"; locus_tag "ECDH10B_RS03565"; product "lipoyl synthase"; protein_id "WP_000042632.1"; transl_table "11"; -NC_010473.1 RefSeq gene 712240 713193 . - . gene_id "ECDH10B_RS03570"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03570"; old_locus_tag "ECDH10B_0698"; -NC_010473.1 Protein Homology CDS 712243 713193 . - 0 gene_id "ECDH10B_RS03570"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415162.4"; locus_tag "ECDH10B_RS03570"; product "DNA-binding transcriptional regulator"; protein_id "WP_000378026.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 713191 713193 . - 0 gene_id "ECDH10B_RS03570"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415162.4"; locus_tag "ECDH10B_RS03570"; product "DNA-binding transcriptional regulator"; protein_id "WP_000378026.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 712240 712242 . - 0 gene_id "ECDH10B_RS03570"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415162.4"; locus_tag "ECDH10B_RS03570"; product "DNA-binding transcriptional regulator"; protein_id "WP_000378026.1"; transl_table "11"; -NC_010473.1 RefSeq gene 713452 714093 . - . gene_id "ECDH10B_RS03575"; transcript_id ""; gbkey "Gene"; gene "lipB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03575"; old_locus_tag "ECDH10B_0699"; -NC_010473.1 Protein Homology CDS 713455 714093 . - 0 gene_id "ECDH10B_RS03575"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lipB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415163.2"; locus_tag "ECDH10B_RS03575"; product "lipoyl(octanoyl) transferase LipB"; protein_id "WP_000284027.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 714091 714093 . - 0 gene_id "ECDH10B_RS03575"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lipB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415163.2"; locus_tag "ECDH10B_RS03575"; product "lipoyl(octanoyl) transferase LipB"; protein_id "WP_000284027.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 713452 713454 . - 0 gene_id "ECDH10B_RS03575"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lipB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415163.2"; locus_tag "ECDH10B_RS03575"; product "lipoyl(octanoyl) transferase LipB"; protein_id "WP_000284027.1"; transl_table "11"; -NC_010473.1 RefSeq gene 714194 714457 . - . gene_id "ECDH10B_RS03580"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03580"; old_locus_tag "ECDH10B_0700"; -NC_010473.1 Protein Homology CDS 714197 714457 . - 0 gene_id "ECDH10B_RS03580"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308696.1"; locus_tag "ECDH10B_RS03580"; product "YbeD family protein"; protein_id "WP_000850550.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 714455 714457 . - 0 gene_id "ECDH10B_RS03580"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308696.1"; locus_tag "ECDH10B_RS03580"; product "YbeD family protein"; protein_id "WP_000850550.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 714194 714196 . - 0 gene_id "ECDH10B_RS03580"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308696.1"; locus_tag "ECDH10B_RS03580"; product "YbeD family protein"; protein_id "WP_000850550.1"; transl_table "11"; -NC_010473.1 RefSeq gene 714567 715778 . - . gene_id "ECDH10B_RS03585"; transcript_id ""; gbkey "Gene"; gene "dacA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03585"; old_locus_tag "ECDH10B_0701"; -NC_010473.1 Protein Homology CDS 714570 715778 . - 0 gene_id "ECDH10B_RS03585"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dacA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415165.1"; locus_tag "ECDH10B_RS03585"; product "D-alanyl-D-alanine carboxypeptidase DacA"; protein_id "WP_001092082.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 715776 715778 . - 0 gene_id "ECDH10B_RS03585"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dacA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415165.1"; locus_tag "ECDH10B_RS03585"; product "D-alanyl-D-alanine carboxypeptidase DacA"; protein_id "WP_001092082.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 714567 714569 . - 0 gene_id "ECDH10B_RS03585"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dacA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415165.1"; locus_tag "ECDH10B_RS03585"; product "D-alanyl-D-alanine carboxypeptidase DacA"; protein_id "WP_001092082.1"; transl_table "11"; -NC_010473.1 RefSeq gene 715917 717005 . - . gene_id "ECDH10B_RS03590"; transcript_id ""; gbkey "Gene"; gene "rlpA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03590"; old_locus_tag "ECDH10B_0702"; -NC_010473.1 Protein Homology CDS 715920 717005 . - 0 gene_id "ECDH10B_RS03590"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rlpA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415166.1"; locus_tag "ECDH10B_RS03590"; product "endolytic peptidoglycan transglycosylase RlpA"; protein_id "WP_001231430.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 717003 717005 . - 0 gene_id "ECDH10B_RS03590"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rlpA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415166.1"; locus_tag "ECDH10B_RS03590"; product "endolytic peptidoglycan transglycosylase RlpA"; protein_id "WP_001231430.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 715917 715919 . - 0 gene_id "ECDH10B_RS03590"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rlpA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415166.1"; locus_tag "ECDH10B_RS03590"; product "endolytic peptidoglycan transglycosylase RlpA"; protein_id "WP_001231430.1"; transl_table "11"; -NC_010473.1 RefSeq gene 717016 718128 . - . gene_id "ECDH10B_RS03595"; transcript_id ""; gbkey "Gene"; gene "mrdB"; gene_biotype "protein_coding"; gene_synonym "rodA"; locus_tag "ECDH10B_RS03595"; old_locus_tag "ECDH10B_0703"; -NC_010473.1 Protein Homology CDS 717019 718128 . - 0 gene_id "ECDH10B_RS03595"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mrdB"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_004885876.1"; locus_tag "ECDH10B_RS03595"; note "rod shape-determining protein RodA"; product "peptidoglycan glycosyltransferase MrdB"; protein_id "WP_000131719.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 718126 718128 . - 0 gene_id "ECDH10B_RS03595"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mrdB"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_004885876.1"; locus_tag "ECDH10B_RS03595"; note "rod shape-determining protein RodA"; product "peptidoglycan glycosyltransferase MrdB"; protein_id "WP_000131719.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 717016 717018 . - 0 gene_id "ECDH10B_RS03595"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mrdB"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_004885876.1"; locus_tag "ECDH10B_RS03595"; note "rod shape-determining protein RodA"; product "peptidoglycan glycosyltransferase MrdB"; protein_id "WP_000131719.1"; transl_table "11"; -NC_010473.1 RefSeq gene 718131 720032 . - . gene_id "ECDH10B_RS03600"; transcript_id ""; gbkey "Gene"; gene "mrdA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03600"; old_locus_tag "ECDH10B_0704"; -NC_010473.1 Protein Homology CDS 718134 720032 . - 0 gene_id "ECDH10B_RS03600"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mrdA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308700.1"; locus_tag "ECDH10B_RS03600"; product "peptidoglycan DD-transpeptidase MrdA"; protein_id "WP_000776191.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 720030 720032 . - 0 gene_id "ECDH10B_RS03600"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mrdA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308700.1"; locus_tag "ECDH10B_RS03600"; product "peptidoglycan DD-transpeptidase MrdA"; protein_id "WP_000776191.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 718131 718133 . - 0 gene_id "ECDH10B_RS03600"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mrdA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308700.1"; locus_tag "ECDH10B_RS03600"; product "peptidoglycan DD-transpeptidase MrdA"; protein_id "WP_000776191.1"; transl_table "11"; -NC_010473.1 RefSeq gene 720063 720530 . - . gene_id "ECDH10B_RS03605"; transcript_id ""; gbkey "Gene"; gene "rlmH"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03605"; old_locus_tag "ECDH10B_0705"; -NC_010473.1 Protein Homology CDS 720066 720530 . - 0 gene_id "ECDH10B_RS03605"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rlmH"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_016245807.1"; locus_tag "ECDH10B_RS03605"; product "23S rRNA (pseudouridine(1915)-N(3))-methyltransferase RlmH"; protein_id "WP_000776104.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 720528 720530 . - 0 gene_id "ECDH10B_RS03605"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rlmH"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_016245807.1"; locus_tag "ECDH10B_RS03605"; product "23S rRNA (pseudouridine(1915)-N(3))-methyltransferase RlmH"; protein_id "WP_000776104.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 720063 720065 . - 0 gene_id "ECDH10B_RS03605"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rlmH"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_016245807.1"; locus_tag "ECDH10B_RS03605"; product "23S rRNA (pseudouridine(1915)-N(3))-methyltransferase RlmH"; protein_id "WP_000776104.1"; transl_table "11"; -NC_010473.1 RefSeq gene 720534 720851 . - . gene_id "ECDH10B_RS03610"; transcript_id ""; gbkey "Gene"; gene "rsfS"; gene_biotype "protein_coding"; gene_synonym "rsfA"; locus_tag "ECDH10B_RS03610"; old_locus_tag "ECDH10B_0706"; -NC_010473.1 Protein Homology CDS 720537 720851 . - 0 gene_id "ECDH10B_RS03610"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rsfS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308702.2"; locus_tag "ECDH10B_RS03610"; product "ribosome silencing factor"; protein_id "WP_001161664.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 720849 720851 . - 0 gene_id "ECDH10B_RS03610"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rsfS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308702.2"; locus_tag "ECDH10B_RS03610"; product "ribosome silencing factor"; protein_id "WP_001161664.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 720534 720536 . - 0 gene_id "ECDH10B_RS03610"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rsfS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308702.2"; locus_tag "ECDH10B_RS03610"; product "ribosome silencing factor"; protein_id "WP_001161664.1"; transl_table "11"; -NC_010473.1 RefSeq gene 721111 721722 . - . gene_id "ECDH10B_RS03615"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03615"; old_locus_tag "ECDH10B_0707"; -NC_010473.1 Protein Homology CDS 721114 721722 . - 0 gene_id "ECDH10B_RS03615"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415171.1"; locus_tag "ECDH10B_RS03615"; product "adenosylcobalamin/alpha-ribazole phosphatase"; protein_id "WP_001241872.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 721720 721722 . - 0 gene_id "ECDH10B_RS03615"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415171.1"; locus_tag "ECDH10B_RS03615"; product "adenosylcobalamin/alpha-ribazole phosphatase"; protein_id "WP_001241872.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 721111 721113 . - 0 gene_id "ECDH10B_RS03615"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415171.1"; locus_tag "ECDH10B_RS03615"; product "adenosylcobalamin/alpha-ribazole phosphatase"; protein_id "WP_001241872.1"; transl_table "11"; -NC_010473.1 RefSeq gene 721746 722387 . - . gene_id "ECDH10B_RS03620"; transcript_id ""; gbkey "Gene"; gene "nadD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03620"; old_locus_tag "ECDH10B_0708"; -NC_010473.1 Protein Homology CDS 721749 722387 . - 0 gene_id "ECDH10B_RS03620"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nadD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415172.1"; locus_tag "ECDH10B_RS03620"; product "nicotinate-nucleotide adenylyltransferase"; protein_id "WP_000838889.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 722385 722387 . - 0 gene_id "ECDH10B_RS03620"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nadD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415172.1"; locus_tag "ECDH10B_RS03620"; product "nicotinate-nucleotide adenylyltransferase"; protein_id "WP_000838889.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 721746 721748 . - 0 gene_id "ECDH10B_RS03620"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nadD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415172.1"; locus_tag "ECDH10B_RS03620"; product "nicotinate-nucleotide adenylyltransferase"; protein_id "WP_000838889.1"; transl_table "11"; -NC_010473.1 RefSeq gene 722389 723420 . - . gene_id "ECDH10B_RS03625"; transcript_id ""; gbkey "Gene"; gene "holA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03625"; old_locus_tag "ECDH10B_0709"; -NC_010473.1 Protein Homology CDS 722392 723420 . - 0 gene_id "ECDH10B_RS03625"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "holA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415173.1"; locus_tag "ECDH10B_RS03625"; product "DNA polymerase III subunit delta"; protein_id "WP_000620535.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 723418 723420 . - 0 gene_id "ECDH10B_RS03625"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "holA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415173.1"; locus_tag "ECDH10B_RS03625"; product "DNA polymerase III subunit delta"; protein_id "WP_000620535.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 722389 722391 . - 0 gene_id "ECDH10B_RS03625"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "holA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415173.1"; locus_tag "ECDH10B_RS03625"; product "DNA polymerase III subunit delta"; protein_id "WP_000620535.1"; transl_table "11"; -NC_010473.1 RefSeq gene 723420 724001 . - . gene_id "ECDH10B_RS03630"; transcript_id ""; gbkey "Gene"; gene "lptE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03630"; old_locus_tag "ECDH10B_0710"; -NC_010473.1 Protein Homology CDS 723423 724001 . - 0 gene_id "ECDH10B_RS03630"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lptE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415174.1"; locus_tag "ECDH10B_RS03630"; product "LPS assembly lipoprotein LptE"; protein_id "WP_001269673.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 723999 724001 . - 0 gene_id "ECDH10B_RS03630"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lptE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415174.1"; locus_tag "ECDH10B_RS03630"; product "LPS assembly lipoprotein LptE"; protein_id "WP_001269673.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 723420 723422 . - 0 gene_id "ECDH10B_RS03630"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lptE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415174.1"; locus_tag "ECDH10B_RS03630"; product "LPS assembly lipoprotein LptE"; protein_id "WP_001269673.1"; transl_table "11"; -NC_010473.1 RefSeq gene 724016 726598 . - . gene_id "ECDH10B_RS03635"; transcript_id ""; gbkey "Gene"; gene "leuS"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03635"; old_locus_tag "ECDH10B_0711"; -NC_010473.1 Protein Homology CDS 724019 726598 . - 0 gene_id "ECDH10B_RS03635"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "leuS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_008456064.1"; locus_tag "ECDH10B_RS03635"; product "leucine--tRNA ligase"; protein_id "WP_001340834.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 726596 726598 . - 0 gene_id "ECDH10B_RS03635"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "leuS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_008456064.1"; locus_tag "ECDH10B_RS03635"; product "leucine--tRNA ligase"; protein_id "WP_001340834.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 724016 724018 . - 0 gene_id "ECDH10B_RS03635"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "leuS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_008456064.1"; locus_tag "ECDH10B_RS03635"; product "leucine--tRNA ligase"; protein_id "WP_001340834.1"; transl_table "11"; -NC_010473.1 RefSeq gene 726833 727315 . + . gene_id "ECDH10B_RS03640"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03640"; old_locus_tag "ECDH10B_0712"; -NC_010473.1 Protein Homology CDS 726833 727312 . + 0 gene_id "ECDH10B_RS03640"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308708.1"; locus_tag "ECDH10B_RS03640"; product "zinc ribbon-containing protein"; protein_id "WP_001044880.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 726833 726835 . + 0 gene_id "ECDH10B_RS03640"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308708.1"; locus_tag "ECDH10B_RS03640"; product "zinc ribbon-containing protein"; protein_id "WP_001044880.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 727313 727315 . + 0 gene_id "ECDH10B_RS03640"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308708.1"; locus_tag "ECDH10B_RS03640"; product "zinc ribbon-containing protein"; protein_id "WP_001044880.1"; transl_table "11"; -NC_010473.1 RefSeq gene 727385 728362 . - . gene_id "ECDH10B_RS03645"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03645"; old_locus_tag "ECDH10B_0713"; -NC_010473.1 Protein Homology CDS 727388 728362 . - 0 gene_id "ECDH10B_RS03645"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415177.4"; locus_tag "ECDH10B_RS03645"; product "SEL1-like repeat protein"; protein_id "WP_000578178.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 728360 728362 . - 0 gene_id "ECDH10B_RS03645"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415177.4"; locus_tag "ECDH10B_RS03645"; product "SEL1-like repeat protein"; protein_id "WP_000578178.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 727385 727387 . - 0 gene_id "ECDH10B_RS03645"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415177.4"; locus_tag "ECDH10B_RS03645"; product "SEL1-like repeat protein"; protein_id "WP_000578178.1"; transl_table "11"; -NC_010473.1 RefSeq gene 728526 729233 . + . gene_id "ECDH10B_RS03650"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03650"; old_locus_tag "ECDH10B_0714"; -NC_010473.1 Protein Homology CDS 728526 729230 . + 0 gene_id "ECDH10B_RS03650"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415178.1"; locus_tag "ECDH10B_RS03650"; product "DUF1266 domain-containing protein"; protein_id "WP_000367023.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 728526 728528 . + 0 gene_id "ECDH10B_RS03650"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415178.1"; locus_tag "ECDH10B_RS03650"; product "DUF1266 domain-containing protein"; protein_id "WP_000367023.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 729231 729233 . + 0 gene_id "ECDH10B_RS03650"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415178.1"; locus_tag "ECDH10B_RS03650"; product "DUF1266 domain-containing protein"; protein_id "WP_000367023.1"; transl_table "11"; -NC_010473.1 RefSeq gene 729230 730657 . + . gene_id "ECDH10B_RS03655"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03655"; old_locus_tag "ECDH10B_0715"; -NC_010473.1 Protein Homology CDS 729230 730654 . + 0 gene_id "ECDH10B_RS03655"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415179.1"; locus_tag "ECDH10B_RS03655"; product "J domain-containing protein"; protein_id "WP_000786572.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 729230 729232 . + 0 gene_id "ECDH10B_RS03655"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415179.1"; locus_tag "ECDH10B_RS03655"; product "J domain-containing protein"; protein_id "WP_000786572.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 730655 730657 . + 0 gene_id "ECDH10B_RS03655"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415179.1"; locus_tag "ECDH10B_RS03655"; product "J domain-containing protein"; protein_id "WP_000786572.1"; transl_table "11"; -NC_010473.1 RefSeq gene 730667 731221 . - . gene_id "ECDH10B_RS03660"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03660"; old_locus_tag "ECDH10B_0716"; -NC_010473.1 Protein Homology CDS 730670 731221 . - 0 gene_id "ECDH10B_RS03660"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415180.1"; locus_tag "ECDH10B_RS03660"; product "sel1 repeat family protein"; protein_id "WP_001035674.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 731219 731221 . - 0 gene_id "ECDH10B_RS03660"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415180.1"; locus_tag "ECDH10B_RS03660"; product "sel1 repeat family protein"; protein_id "WP_001035674.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 730667 730669 . - 0 gene_id "ECDH10B_RS03660"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415180.1"; locus_tag "ECDH10B_RS03660"; product "sel1 repeat family protein"; protein_id "WP_001035674.1"; transl_table "11"; -NC_010473.1 RefSeq gene 731323 732030 . + . gene_id "ECDH10B_RS03665"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03665"; old_locus_tag "ECDH10B_0717"; -NC_010473.1 Protein Homology CDS 731323 732027 . + 0 gene_id "ECDH10B_RS03665"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415181.1"; locus_tag "ECDH10B_RS03665"; product "DUF1266 domain-containing protein"; protein_id "WP_001030934.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 731323 731325 . + 0 gene_id "ECDH10B_RS03665"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415181.1"; locus_tag "ECDH10B_RS03665"; product "DUF1266 domain-containing protein"; protein_id "WP_001030934.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 732028 732030 . + 0 gene_id "ECDH10B_RS03665"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415181.1"; locus_tag "ECDH10B_RS03665"; product "DUF1266 domain-containing protein"; protein_id "WP_001030934.1"; transl_table "11"; -NC_010473.1 RefSeq gene 732027 733478 . + . gene_id "ECDH10B_RS03670"; transcript_id ""; gbkey "Gene"; gene "djlC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03670"; old_locus_tag "ECDH10B_0718"; -NC_010473.1 Protein Homology CDS 732027 733475 . + 0 gene_id "ECDH10B_RS03670"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "djlC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415182.1"; locus_tag "ECDH10B_RS03670"; product "co-chaperone DjlC"; protein_id "WP_001300403.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 732027 732029 . + 0 gene_id "ECDH10B_RS03670"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "djlC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415182.1"; locus_tag "ECDH10B_RS03670"; product "co-chaperone DjlC"; protein_id "WP_001300403.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 733476 733478 . + 0 gene_id "ECDH10B_RS03670"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "djlC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415182.1"; locus_tag "ECDH10B_RS03670"; product "co-chaperone DjlC"; protein_id "WP_001300403.1"; transl_table "11"; -NC_010473.1 RefSeq gene 733538 735208 . - . gene_id "ECDH10B_RS03675"; transcript_id ""; gbkey "Gene"; gene "hscC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03675"; old_locus_tag "ECDH10B_0719"; -NC_010473.1 Protein Homology CDS 733541 735208 . - 0 gene_id "ECDH10B_RS03675"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hscC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415183.1"; locus_tag "ECDH10B_RS03675"; product "molecular chaperone HscC"; protein_id "WP_000367875.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 735206 735208 . - 0 gene_id "ECDH10B_RS03675"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hscC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415183.1"; locus_tag "ECDH10B_RS03675"; product "molecular chaperone HscC"; protein_id "WP_000367875.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 733538 733540 . - 0 gene_id "ECDH10B_RS03675"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hscC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415183.1"; locus_tag "ECDH10B_RS03675"; product "molecular chaperone HscC"; protein_id "WP_000367875.1"; transl_table "11"; -NC_010473.1 RefSeq gene 735292 736227 . - . gene_id "ECDH10B_RS03680"; transcript_id ""; gbkey "Gene"; gene "rihA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03680"; old_locus_tag "ECDH10B_0720"; -NC_010473.1 Protein Homology CDS 735295 736227 . - 0 gene_id "ECDH10B_RS03680"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rihA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415184.1"; locus_tag "ECDH10B_RS03680"; product "pyrimidine-specific ribonucleoside hydrolase RihA"; protein_id "WP_001207520.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 736225 736227 . - 0 gene_id "ECDH10B_RS03680"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rihA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415184.1"; locus_tag "ECDH10B_RS03680"; product "pyrimidine-specific ribonucleoside hydrolase RihA"; protein_id "WP_001207520.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 735292 735294 . - 0 gene_id "ECDH10B_RS03680"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rihA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415184.1"; locus_tag "ECDH10B_RS03680"; product "pyrimidine-specific ribonucleoside hydrolase RihA"; protein_id "WP_001207520.1"; transl_table "11"; -NC_010473.1 RefSeq gene 736345 737070 . - . gene_id "ECDH10B_RS03685"; transcript_id ""; gbkey "Gene"; gene "gltL"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03685"; old_locus_tag "ECDH10B_0721"; -NC_010473.1 Protein Homology CDS 736348 737070 . - 0 gene_id "ECDH10B_RS03685"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gltL"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_020245804.1"; locus_tag "ECDH10B_RS03685"; product "glutamate/aspartate ABC transporter ATP binding protein GltL"; protein_id "WP_000631384.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 737068 737070 . - 0 gene_id "ECDH10B_RS03685"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gltL"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_020245804.1"; locus_tag "ECDH10B_RS03685"; product "glutamate/aspartate ABC transporter ATP binding protein GltL"; protein_id "WP_000631384.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 736345 736347 . - 0 gene_id "ECDH10B_RS03685"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gltL"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_020245804.1"; locus_tag "ECDH10B_RS03685"; product "glutamate/aspartate ABC transporter ATP binding protein GltL"; protein_id "WP_000631384.1"; transl_table "11"; -NC_010473.1 RefSeq gene 737070 737744 . - . gene_id "ECDH10B_RS03690"; transcript_id ""; gbkey "Gene"; gene "gltK"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03690"; old_locus_tag "ECDH10B_0722"; -NC_010473.1 Protein Homology CDS 737073 737744 . - 0 gene_id "ECDH10B_RS03690"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gltK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308719.1"; locus_tag "ECDH10B_RS03690"; product "glutamate/aspartate ABC transporter permease GltK"; protein_id "WP_000272824.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 737742 737744 . - 0 gene_id "ECDH10B_RS03690"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gltK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308719.1"; locus_tag "ECDH10B_RS03690"; product "glutamate/aspartate ABC transporter permease GltK"; protein_id "WP_000272824.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 737070 737072 . - 0 gene_id "ECDH10B_RS03690"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gltK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308719.1"; locus_tag "ECDH10B_RS03690"; product "glutamate/aspartate ABC transporter permease GltK"; protein_id "WP_000272824.1"; transl_table "11"; -NC_010473.1 RefSeq gene 737744 738484 . - . gene_id "ECDH10B_RS03695"; transcript_id ""; gbkey "Gene"; gene "gltJ"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03695"; old_locus_tag "ECDH10B_0723"; -NC_010473.1 Protein Homology CDS 737747 738484 . - 0 gene_id "ECDH10B_RS03695"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gltJ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415187.1"; locus_tag "ECDH10B_RS03695"; product "glutamate/aspartate ABC transporter permease GltJ"; protein_id "WP_000020941.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 738482 738484 . - 0 gene_id "ECDH10B_RS03695"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gltJ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415187.1"; locus_tag "ECDH10B_RS03695"; product "glutamate/aspartate ABC transporter permease GltJ"; protein_id "WP_000020941.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 737744 737746 . - 0 gene_id "ECDH10B_RS03695"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gltJ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415187.1"; locus_tag "ECDH10B_RS03695"; product "glutamate/aspartate ABC transporter permease GltJ"; protein_id "WP_000020941.1"; transl_table "11"; -NC_010473.1 RefSeq gene 738654 739562 . - . gene_id "ECDH10B_RS03700"; transcript_id ""; gbkey "Gene"; gene "gltI"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03700"; old_locus_tag "ECDH10B_0724"; -NC_010473.1 Protein Homology CDS 738657 739562 . - 0 gene_id "ECDH10B_RS03700"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gltI"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415188.1"; locus_tag "ECDH10B_RS03700"; product "glutamate/aspartate ABC transporter substrate-binding protein GltI"; protein_id "WP_001177086.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 739560 739562 . - 0 gene_id "ECDH10B_RS03700"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gltI"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415188.1"; locus_tag "ECDH10B_RS03700"; product "glutamate/aspartate ABC transporter substrate-binding protein GltI"; protein_id "WP_001177086.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 738654 738656 . - 0 gene_id "ECDH10B_RS03700"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gltI"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415188.1"; locus_tag "ECDH10B_RS03700"; product "glutamate/aspartate ABC transporter substrate-binding protein GltI"; protein_id "WP_001177086.1"; transl_table "11"; -NC_010473.1 RefSeq gene 739812 740828 . - . gene_id "ECDH10B_RS03705"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03705"; old_locus_tag "ECDH10B_0725"; -NC_010473.1 Protein Homology CDS 739815 740828 . - 0 gene_id "ECDH10B_RS03705"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414793.1"; locus_tag "ECDH10B_RS03705"; product "IS5-like element IS5 family transposase"; protein_id "WP_010723085.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 740826 740828 . - 0 gene_id "ECDH10B_RS03705"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414793.1"; locus_tag "ECDH10B_RS03705"; product "IS5-like element IS5 family transposase"; protein_id "WP_010723085.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 739812 739814 . - 0 gene_id "ECDH10B_RS03705"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414793.1"; locus_tag "ECDH10B_RS03705"; product "IS5-like element IS5 family transposase"; protein_id "WP_010723085.1"; transl_table "11"; -NC_010473.1 RefSeq gene 741158 742696 . - . gene_id "ECDH10B_RS03710"; transcript_id ""; gbkey "Gene"; gene "lnt"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03710"; old_locus_tag "ECDH10B_0726"; -NC_010473.1 Protein Homology CDS 741161 742696 . - 0 gene_id "ECDH10B_RS03710"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lnt"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415190.1"; locus_tag "ECDH10B_RS03710"; product "apolipoprotein N-acyltransferase"; protein_id "WP_000853021.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 742694 742696 . - 0 gene_id "ECDH10B_RS03710"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lnt"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415190.1"; locus_tag "ECDH10B_RS03710"; product "apolipoprotein N-acyltransferase"; protein_id "WP_000853021.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 741158 741160 . - 0 gene_id "ECDH10B_RS03710"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lnt"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415190.1"; locus_tag "ECDH10B_RS03710"; product "apolipoprotein N-acyltransferase"; protein_id "WP_000853021.1"; transl_table "11"; -NC_010473.1 RefSeq gene 742721 743599 . - . gene_id "ECDH10B_RS03715"; transcript_id ""; gbkey "Gene"; gene "corC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03715"; old_locus_tag "ECDH10B_0727"; -NC_010473.1 Protein Homology CDS 742724 743599 . - 0 gene_id "ECDH10B_RS03715"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "corC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308723.1"; locus_tag "ECDH10B_RS03715"; note "CorC(YbeX) belongs to the Cyclin M Mg2+ Exporter (CNNM) family, and was characterized as belonging to a set of three proteins, at least one of which must be present for CorA to function."; product "CNNM family magnesium/cobalt transport protein CorC"; protein_id "WP_001278605.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 743597 743599 . - 0 gene_id "ECDH10B_RS03715"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "corC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308723.1"; locus_tag "ECDH10B_RS03715"; note "CorC(YbeX) belongs to the Cyclin M Mg2+ Exporter (CNNM) family, and was characterized as belonging to a set of three proteins, at least one of which must be present for CorA to function."; product "CNNM family magnesium/cobalt transport protein CorC"; protein_id "WP_001278605.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 742721 742723 . - 0 gene_id "ECDH10B_RS03715"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "corC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308723.1"; locus_tag "ECDH10B_RS03715"; note "CorC(YbeX) belongs to the Cyclin M Mg2+ Exporter (CNNM) family, and was characterized as belonging to a set of three proteins, at least one of which must be present for CorA to function."; product "CNNM family magnesium/cobalt transport protein CorC"; protein_id "WP_001278605.1"; transl_table "11"; -NC_010473.1 RefSeq gene 743689 744156 . - . gene_id "ECDH10B_RS03720"; transcript_id ""; gbkey "Gene"; gene "ybeY"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03720"; old_locus_tag "ECDH10B_0728"; -NC_010473.1 Protein Homology CDS 743692 744156 . - 0 gene_id "ECDH10B_RS03720"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ybeY"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_014169133.1"; locus_tag "ECDH10B_RS03720"; product "rRNA maturation RNase YbeY"; protein_id "WP_000084469.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 744154 744156 . - 0 gene_id "ECDH10B_RS03720"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ybeY"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_014169133.1"; locus_tag "ECDH10B_RS03720"; product "rRNA maturation RNase YbeY"; protein_id "WP_000084469.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 743689 743691 . - 0 gene_id "ECDH10B_RS03720"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ybeY"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_014169133.1"; locus_tag "ECDH10B_RS03720"; product "rRNA maturation RNase YbeY"; protein_id "WP_000084469.1"; transl_table "11"; -NC_010473.1 RefSeq gene 744153 745193 . - . gene_id "ECDH10B_RS03725"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03725"; old_locus_tag "ECDH10B_0729"; -NC_010473.1 Protein Homology CDS 744156 745193 . - 0 gene_id "ECDH10B_RS03725"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415193.2"; locus_tag "ECDH10B_RS03725"; product "PhoH family protein"; protein_id "WP_001018040.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 745191 745193 . - 0 gene_id "ECDH10B_RS03725"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415193.2"; locus_tag "ECDH10B_RS03725"; product "PhoH family protein"; protein_id "WP_001018040.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 744153 744155 . - 0 gene_id "ECDH10B_RS03725"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415193.2"; locus_tag "ECDH10B_RS03725"; product "PhoH family protein"; protein_id "WP_001018040.1"; transl_table "11"; -NC_010473.1 RefSeq gene 745346 746770 . - . gene_id "ECDH10B_RS03730"; transcript_id ""; gbkey "Gene"; gene "miaB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03730"; old_locus_tag "ECDH10B_0730"; -NC_010473.1 Protein Homology CDS 745349 746770 . - 0 gene_id "ECDH10B_RS03730"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "miaB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308726.1"; locus_tag "ECDH10B_RS03730"; product "tRNA (N6-isopentenyl adenosine(37)-C2)-methylthiotransferase MiaB"; protein_id "WP_000162740.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 746768 746770 . - 0 gene_id "ECDH10B_RS03730"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "miaB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308726.1"; locus_tag "ECDH10B_RS03730"; product "tRNA (N6-isopentenyl adenosine(37)-C2)-methylthiotransferase MiaB"; protein_id "WP_000162740.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 745346 745348 . - 0 gene_id "ECDH10B_RS03730"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "miaB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308726.1"; locus_tag "ECDH10B_RS03730"; product "tRNA (N6-isopentenyl adenosine(37)-C2)-methylthiotransferase MiaB"; protein_id "WP_000162740.1"; transl_table "11"; -NC_010473.1 RefSeq gene 746916 748091 . + . gene_id "ECDH10B_RS03735"; transcript_id ""; gbkey "Gene"; gene "ubiF"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03735"; old_locus_tag "ECDH10B_0731"; -NC_010473.1 Protein Homology CDS 746916 748088 . + 0 gene_id "ECDH10B_RS03735"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ubiF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415195.1"; locus_tag "ECDH10B_RS03735"; product "2-octaprenyl-3-methyl-6-methoxy-1,4-benzoquinol hydroxylase"; protein_id "WP_000184541.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 746916 746918 . + 0 gene_id "ECDH10B_RS03735"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ubiF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415195.1"; locus_tag "ECDH10B_RS03735"; product "2-octaprenyl-3-methyl-6-methoxy-1,4-benzoquinol hydroxylase"; protein_id "WP_000184541.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 748089 748091 . + 0 gene_id "ECDH10B_RS03735"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ubiF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415195.1"; locus_tag "ECDH10B_RS03735"; product "2-octaprenyl-3-methyl-6-methoxy-1,4-benzoquinol hydroxylase"; protein_id "WP_000184541.1"; transl_table "11"; -NC_010473.1 RefSeq gene 748245 748319 . - . gene_id "ECDH10B_RS03740"; transcript_id ""; gbkey "Gene"; gene_biotype "tRNA"; locus_tag "ECDH10B_RS03740"; old_locus_tag "ECDH10B_0732"; -NC_010473.1 tRNAscan-SE exon 748245 748319 . - . gene_id "ECDH10B_RS03740"; transcript_id "ECDH10B_RS03740"; anticodon "(pos:complement(748285..748287))"; gbkey "tRNA"; inference "COORDINATES: profile:tRNAscan-SE:2.0.6"; locus_tag "ECDH10B_RS03740"; product "tRNA-Gln"; exon_number "1"; -NC_010473.1 RefSeq gene 748357 748431 . - . gene_id "ECDH10B_RS03745"; transcript_id ""; gbkey "Gene"; gene_biotype "tRNA"; locus_tag "ECDH10B_RS03745"; old_locus_tag "ECDH10B_0733"; -NC_010473.1 tRNAscan-SE exon 748357 748431 . - . gene_id "ECDH10B_RS03745"; transcript_id "ECDH10B_RS03745"; anticodon "(pos:complement(748397..748399))"; gbkey "tRNA"; inference "COORDINATES: profile:tRNAscan-SE:2.0.6"; locus_tag "ECDH10B_RS03745"; product "tRNA-Gln"; exon_number "1"; -NC_010473.1 RefSeq gene 748479 748555 . - . gene_id "ECDH10B_RS03750"; transcript_id ""; gbkey "Gene"; gene_biotype "tRNA"; locus_tag "ECDH10B_RS03750"; old_locus_tag "ECDH10B_0734"; -NC_010473.1 tRNAscan-SE exon 748479 748555 . - . gene_id "ECDH10B_RS03750"; transcript_id "ECDH10B_RS03750"; anticodon "(pos:complement(748519..748521))"; gbkey "tRNA"; inference "COORDINATES: profile:tRNAscan-SE:2.0.6"; locus_tag "ECDH10B_RS03750"; product "tRNA-Met"; exon_number "1"; -NC_010473.1 RefSeq gene 748571 748645 . - . gene_id "ECDH10B_RS03755"; transcript_id ""; gbkey "Gene"; gene_biotype "tRNA"; locus_tag "ECDH10B_RS03755"; old_locus_tag "ECDH10B_0735"; -NC_010473.1 tRNAscan-SE exon 748571 748645 . - . gene_id "ECDH10B_RS03755"; transcript_id "ECDH10B_RS03755"; anticodon "(pos:complement(748611..748613))"; gbkey "tRNA"; inference "COORDINATES: profile:tRNAscan-SE:2.0.6"; locus_tag "ECDH10B_RS03755"; product "tRNA-Gln"; exon_number "1"; -NC_010473.1 RefSeq gene 748680 748754 . - . gene_id "ECDH10B_RS03760"; transcript_id ""; gbkey "Gene"; gene_biotype "tRNA"; locus_tag "ECDH10B_RS03760"; old_locus_tag "ECDH10B_0736"; -NC_010473.1 tRNAscan-SE exon 748680 748754 . - . gene_id "ECDH10B_RS03760"; transcript_id "ECDH10B_RS03760"; anticodon "(pos:complement(748720..748722))"; gbkey "tRNA"; inference "COORDINATES: profile:tRNAscan-SE:2.0.6"; locus_tag "ECDH10B_RS03760"; product "tRNA-Gln"; exon_number "1"; -NC_010473.1 RefSeq gene 748778 748862 . - . gene_id "ECDH10B_RS03765"; transcript_id ""; gbkey "Gene"; gene_biotype "tRNA"; locus_tag "ECDH10B_RS03765"; old_locus_tag "ECDH10B_0737"; -NC_010473.1 tRNAscan-SE exon 748778 748862 . - . gene_id "ECDH10B_RS03765"; transcript_id "ECDH10B_RS03765"; anticodon "(pos:complement(748826..748828))"; gbkey "tRNA"; inference "COORDINATES: profile:tRNAscan-SE:2.0.6"; locus_tag "ECDH10B_RS03765"; product "tRNA-Leu"; exon_number "1"; -NC_010473.1 RefSeq gene 748872 748948 . - . gene_id "ECDH10B_RS03770"; transcript_id ""; gbkey "Gene"; gene_biotype "tRNA"; locus_tag "ECDH10B_RS03770"; old_locus_tag "ECDH10B_0738"; -NC_010473.1 tRNAscan-SE exon 748872 748948 . - . gene_id "ECDH10B_RS03770"; transcript_id "ECDH10B_RS03770"; anticodon "(pos:complement(748912..748914))"; gbkey "tRNA"; inference "COORDINATES: profile:tRNAscan-SE:2.0.6"; locus_tag "ECDH10B_RS03770"; product "tRNA-Met"; exon_number "1"; -NC_010473.1 RefSeq gene 749328 750992 . - . gene_id "ECDH10B_RS03775"; transcript_id ""; gbkey "Gene"; gene "asnB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03775"; old_locus_tag "ECDH10B_0739"; -NC_010473.1 Protein Homology CDS 749331 750992 . - 0 gene_id "ECDH10B_RS03775"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "asnB"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001724523.1"; locus_tag "ECDH10B_RS03775"; product "asparagine synthase B"; protein_id "WP_000337077.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 750990 750992 . - 0 gene_id "ECDH10B_RS03775"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "asnB"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001724523.1"; locus_tag "ECDH10B_RS03775"; product "asparagine synthase B"; protein_id "WP_000337077.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 749328 749330 . - 0 gene_id "ECDH10B_RS03775"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "asnB"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001724523.1"; locus_tag "ECDH10B_RS03775"; product "asparagine synthase B"; protein_id "WP_000337077.1"; transl_table "11"; -NC_010473.1 RefSeq gene 751389 752141 . - . gene_id "ECDH10B_RS03780"; transcript_id ""; gbkey "Gene"; gene "nagD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03780"; old_locus_tag "ECDH10B_0740"; -NC_010473.1 Protein Homology CDS 751392 752141 . - 0 gene_id "ECDH10B_RS03780"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nagD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308732.1"; locus_tag "ECDH10B_RS03780"; product "ribonucleotide monophosphatase NagD"; protein_id "WP_000153136.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 752139 752141 . - 0 gene_id "ECDH10B_RS03780"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nagD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308732.1"; locus_tag "ECDH10B_RS03780"; product "ribonucleotide monophosphatase NagD"; protein_id "WP_000153136.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 751389 751391 . - 0 gene_id "ECDH10B_RS03780"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nagD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308732.1"; locus_tag "ECDH10B_RS03780"; product "ribonucleotide monophosphatase NagD"; protein_id "WP_000153136.1"; transl_table "11"; -NC_010473.1 RefSeq gene 752189 753409 . - . gene_id "ECDH10B_RS03785"; transcript_id ""; gbkey "Gene"; gene "nagC"; gene_biotype "protein_coding"; gene_synonym "nagR"; locus_tag "ECDH10B_RS03785"; old_locus_tag "ECDH10B_0741"; -NC_010473.1 Protein Homology CDS 752192 753409 . - 0 gene_id "ECDH10B_RS03785"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nagC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308733.1"; locus_tag "ECDH10B_RS03785"; product "DNA-binding transcriptional regulator NagC"; protein_id "WP_000187594.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 753407 753409 . - 0 gene_id "ECDH10B_RS03785"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nagC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308733.1"; locus_tag "ECDH10B_RS03785"; product "DNA-binding transcriptional regulator NagC"; protein_id "WP_000187594.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 752189 752191 . - 0 gene_id "ECDH10B_RS03785"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nagC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308733.1"; locus_tag "ECDH10B_RS03785"; product "DNA-binding transcriptional regulator NagC"; protein_id "WP_000187594.1"; transl_table "11"; -NC_010473.1 RefSeq gene 753418 754566 . - . gene_id "ECDH10B_RS03790"; transcript_id ""; gbkey "Gene"; gene "nagA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03790"; old_locus_tag "ECDH10B_0742"; -NC_010473.1 Protein Homology CDS 753421 754566 . - 0 gene_id "ECDH10B_RS03790"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nagA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308734.1"; locus_tag "ECDH10B_RS03790"; product "N-acetylglucosamine-6-phosphate deacetylase"; protein_id "WP_000271153.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 754564 754566 . - 0 gene_id "ECDH10B_RS03790"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nagA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308734.1"; locus_tag "ECDH10B_RS03790"; product "N-acetylglucosamine-6-phosphate deacetylase"; protein_id "WP_000271153.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 753418 753420 . - 0 gene_id "ECDH10B_RS03790"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nagA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308734.1"; locus_tag "ECDH10B_RS03790"; product "N-acetylglucosamine-6-phosphate deacetylase"; protein_id "WP_000271153.1"; transl_table "11"; -NC_010473.1 RefSeq gene 754626 755426 . - . gene_id "ECDH10B_RS03795"; transcript_id ""; gbkey "Gene"; gene "nagB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03795"; old_locus_tag "ECDH10B_0743"; -NC_010473.1 Protein Homology CDS 754629 755426 . - 0 gene_id "ECDH10B_RS03795"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nagB"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_008805656.1"; locus_tag "ECDH10B_RS03795"; product "glucosamine-6-phosphate deaminase"; protein_id "WP_001237072.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 755424 755426 . - 0 gene_id "ECDH10B_RS03795"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nagB"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_008805656.1"; locus_tag "ECDH10B_RS03795"; product "glucosamine-6-phosphate deaminase"; protein_id "WP_001237072.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 754626 754628 . - 0 gene_id "ECDH10B_RS03795"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nagB"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_008805656.1"; locus_tag "ECDH10B_RS03795"; product "glucosamine-6-phosphate deaminase"; protein_id "WP_001237072.1"; transl_table "11"; -NC_010473.1 RefSeq gene 755759 757705 . + . gene_id "ECDH10B_RS03800"; transcript_id ""; gbkey "Gene"; gene "nagE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03800"; old_locus_tag "ECDH10B_0744"; -NC_010473.1 Protein Homology CDS 755759 757702 . + 0 gene_id "ECDH10B_RS03800"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nagE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415205.1"; locus_tag "ECDH10B_RS03800"; product "PTS N-acetyl glucosamine transporter subunit IIABC"; protein_id "WP_001023093.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 755759 755761 . + 0 gene_id "ECDH10B_RS03800"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nagE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415205.1"; locus_tag "ECDH10B_RS03800"; product "PTS N-acetyl glucosamine transporter subunit IIABC"; protein_id "WP_001023093.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 757703 757705 . + 0 gene_id "ECDH10B_RS03800"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nagE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415205.1"; locus_tag "ECDH10B_RS03800"; product "PTS N-acetyl glucosamine transporter subunit IIABC"; protein_id "WP_001023093.1"; transl_table "11"; -NC_010473.1 RefSeq gene 757908 759572 . + . gene_id "ECDH10B_RS03805"; transcript_id ""; gbkey "Gene"; gene "glnS"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03805"; old_locus_tag "ECDH10B_0745"; -NC_010473.1 Protein Homology CDS 757908 759569 . + 0 gene_id "ECDH10B_RS03805"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "glnS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415206.1"; locus_tag "ECDH10B_RS03805"; product "glutamine--tRNA ligase"; protein_id "WP_001287154.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 757908 757910 . + 0 gene_id "ECDH10B_RS03805"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "glnS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415206.1"; locus_tag "ECDH10B_RS03805"; product "glutamine--tRNA ligase"; protein_id "WP_001287154.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 759570 759572 . + 0 gene_id "ECDH10B_RS03805"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "glnS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415206.1"; locus_tag "ECDH10B_RS03805"; product "glutamine--tRNA ligase"; protein_id "WP_001287154.1"; transl_table "11"; -NC_010473.1 RefSeq gene 760149 761555 . + . gene_id "ECDH10B_RS03810"; transcript_id ""; gbkey "Gene"; gene "chiP"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03810"; old_locus_tag "ECDH10B_0746"; -NC_010473.1 Protein Homology CDS 760149 761552 . + 0 gene_id "ECDH10B_RS03810"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "chiP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415207.1"; locus_tag "ECDH10B_RS03810"; product "chitoporin"; protein_id "WP_001258819.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 760149 760151 . + 0 gene_id "ECDH10B_RS03810"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "chiP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415207.1"; locus_tag "ECDH10B_RS03810"; product "chitoporin"; protein_id "WP_001258819.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 761553 761555 . + 0 gene_id "ECDH10B_RS03810"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "chiP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415207.1"; locus_tag "ECDH10B_RS03810"; product "chitoporin"; protein_id "WP_001258819.1"; transl_table "11"; -NC_010473.1 RefSeq gene 761605 761931 . + . gene_id "ECDH10B_RS03815"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03815"; old_locus_tag "ECDH10B_0747"; -NC_010473.1 Protein Homology CDS 761605 761928 . + 0 gene_id "ECDH10B_RS03815"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415208.1"; locus_tag "ECDH10B_RS03815"; product "chitosugar-induced verified lipoprotein"; protein_id "WP_000733579.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 761605 761607 . + 0 gene_id "ECDH10B_RS03815"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415208.1"; locus_tag "ECDH10B_RS03815"; product "chitosugar-induced verified lipoprotein"; protein_id "WP_000733579.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 761929 761931 . + 0 gene_id "ECDH10B_RS03815"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415208.1"; locus_tag "ECDH10B_RS03815"; product "chitosugar-induced verified lipoprotein"; protein_id "WP_000733579.1"; transl_table "11"; -NC_010473.1 RefSeq gene 762015 762461 . - . gene_id "ECDH10B_RS03820"; transcript_id ""; gbkey "Gene"; gene "fur"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03820"; old_locus_tag "ECDH10B_0748"; -NC_010473.1 Protein Homology CDS 762018 762461 . - 0 gene_id "ECDH10B_RS03820"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fur"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308741.1"; locus_tag "ECDH10B_RS03820"; product "ferric iron uptake transcriptional regulator"; protein_id "WP_000131702.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 762459 762461 . - 0 gene_id "ECDH10B_RS03820"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fur"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308741.1"; locus_tag "ECDH10B_RS03820"; product "ferric iron uptake transcriptional regulator"; protein_id "WP_000131702.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 762015 762017 . - 0 gene_id "ECDH10B_RS03820"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fur"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308741.1"; locus_tag "ECDH10B_RS03820"; product "ferric iron uptake transcriptional regulator"; protein_id "WP_000131702.1"; transl_table "11"; -NC_010473.1 RefSeq gene 762454 762540 . - . gene_id "ECDH10B_RS03825"; transcript_id ""; gbkey "Gene"; gene "uof"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03825"; -NC_010473.1 Protein Homology CDS 762457 762540 . - 0 gene_id "ECDH10B_RS03825"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "uof"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_001491546.1"; locus_tag "ECDH10B_RS03825"; product "fur leader peptide"; protein_id "WP_001406816.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 762538 762540 . - 0 gene_id "ECDH10B_RS03825"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "uof"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_001491546.1"; locus_tag "ECDH10B_RS03825"; product "fur leader peptide"; protein_id "WP_001406816.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 762454 762456 . - 0 gene_id "ECDH10B_RS03825"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "uof"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_001491546.1"; locus_tag "ECDH10B_RS03825"; product "fur leader peptide"; protein_id "WP_001406816.1"; transl_table "11"; -NC_010473.1 RefSeq gene 762750 763280 . - . gene_id "ECDH10B_RS03835"; transcript_id ""; gbkey "Gene"; gene "fldA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03835"; old_locus_tag "ECDH10B_0749"; -NC_010473.1 Protein Homology CDS 762753 763280 . - 0 gene_id "ECDH10B_RS03835"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fldA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308742.1"; locus_tag "ECDH10B_RS03835"; product "flavodoxin FldA"; protein_id "WP_001018618.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 763278 763280 . - 0 gene_id "ECDH10B_RS03835"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fldA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308742.1"; locus_tag "ECDH10B_RS03835"; product "flavodoxin FldA"; protein_id "WP_001018618.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 762750 762752 . - 0 gene_id "ECDH10B_RS03835"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fldA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308742.1"; locus_tag "ECDH10B_RS03835"; product "flavodoxin FldA"; protein_id "WP_001018618.1"; transl_table "11"; -NC_010473.1 RefSeq gene 763420 763713 . - . gene_id "ECDH10B_RS03840"; transcript_id ""; gbkey "Gene"; gene "ybfE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03840"; old_locus_tag "ECDH10B_0750"; -NC_010473.1 Protein Homology CDS 763423 763713 . - 0 gene_id "ECDH10B_RS03840"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ybfE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415211.2"; locus_tag "ECDH10B_RS03840"; product "LexA regulated protein"; protein_id "WP_001300829.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 763711 763713 . - 0 gene_id "ECDH10B_RS03840"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ybfE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415211.2"; locus_tag "ECDH10B_RS03840"; product "LexA regulated protein"; protein_id "WP_001300829.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 763420 763422 . - 0 gene_id "ECDH10B_RS03840"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ybfE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415211.2"; locus_tag "ECDH10B_RS03840"; product "LexA regulated protein"; protein_id "WP_001300829.1"; transl_table "11"; -NC_010473.1 RefSeq gene 763853 764617 . - . gene_id "ECDH10B_RS03845"; transcript_id ""; gbkey "Gene"; gene "ybfF"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03845"; old_locus_tag "ECDH10B_0751"; -NC_010473.1 Protein Homology CDS 763856 764617 . - 0 gene_id "ECDH10B_RS03845"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ybfF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415212.1"; locus_tag "ECDH10B_RS03845"; product "esterase"; protein_id "WP_000773288.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 764615 764617 . - 0 gene_id "ECDH10B_RS03845"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ybfF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415212.1"; locus_tag "ECDH10B_RS03845"; product "esterase"; protein_id "WP_000773288.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 763853 763855 . - 0 gene_id "ECDH10B_RS03845"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ybfF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415212.1"; locus_tag "ECDH10B_RS03845"; product "esterase"; protein_id "WP_000773288.1"; transl_table "11"; -NC_010473.1 RefSeq gene 764802 765347 . + . gene_id "ECDH10B_RS03850"; transcript_id ""; gbkey "Gene"; gene "seqA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03850"; old_locus_tag "ECDH10B_0752"; -NC_010473.1 Protein Homology CDS 764802 765344 . + 0 gene_id "ECDH10B_RS03850"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "seqA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415213.1"; locus_tag "ECDH10B_RS03850"; product "replication initiation negative regulator SeqA"; protein_id "WP_000848387.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 764802 764804 . + 0 gene_id "ECDH10B_RS03850"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "seqA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415213.1"; locus_tag "ECDH10B_RS03850"; product "replication initiation negative regulator SeqA"; protein_id "WP_000848387.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 765345 765347 . + 0 gene_id "ECDH10B_RS03850"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "seqA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415213.1"; locus_tag "ECDH10B_RS03850"; product "replication initiation negative regulator SeqA"; protein_id "WP_000848387.1"; transl_table "11"; -NC_010473.1 RefSeq gene 765373 767013 . + . gene_id "ECDH10B_RS03855"; transcript_id ""; gbkey "Gene"; gene "pgm"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03855"; old_locus_tag "ECDH10B_0753"; -NC_010473.1 Protein Homology CDS 765373 767010 . + 0 gene_id "ECDH10B_RS03855"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pgm"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415214.1"; locus_tag "ECDH10B_RS03855"; product "alpha-D-glucose phosphate-specific phosphoglucomutase"; protein_id "WP_001297249.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 765373 765375 . + 0 gene_id "ECDH10B_RS03855"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pgm"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415214.1"; locus_tag "ECDH10B_RS03855"; product "alpha-D-glucose phosphate-specific phosphoglucomutase"; protein_id "WP_001297249.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 767011 767013 . + 0 gene_id "ECDH10B_RS03855"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pgm"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415214.1"; locus_tag "ECDH10B_RS03855"; product "alpha-D-glucose phosphate-specific phosphoglucomutase"; protein_id "WP_001297249.1"; transl_table "11"; -NC_010473.1 RefSeq gene 767227 767721 . + . gene_id "ECDH10B_RS03860"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03860"; old_locus_tag "ECDH10B_0754"; -NC_010473.1 Protein Homology CDS 767227 767718 . + 0 gene_id "ECDH10B_RS03860"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415215.1"; locus_tag "ECDH10B_RS03860"; product "lipoprotein"; protein_id "WP_000856353.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 767227 767229 . + 0 gene_id "ECDH10B_RS03860"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415215.1"; locus_tag "ECDH10B_RS03860"; product "lipoprotein"; protein_id "WP_000856353.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 767719 767721 . + 0 gene_id "ECDH10B_RS03860"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415215.1"; locus_tag "ECDH10B_RS03860"; product "lipoprotein"; protein_id "WP_000856353.1"; transl_table "11"; -NC_010473.1 RefSeq gene 767762 768412 . - . gene_id "ECDH10B_RS03865"; transcript_id ""; gbkey "Gene"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS03865"; old_locus_tag "ECDH10B_0756"; pseudo "true"; -NC_010473.1 Protein Homology CDS 767765 768412 . - 0 gene_id "ECDH10B_RS03865"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001208812.1"; locus_tag "ECDH10B_RS03865"; note "internal stop"; product "DUF2625 domain-containing protein"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 768410 768412 . - 0 gene_id "ECDH10B_RS03865"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001208812.1"; locus_tag "ECDH10B_RS03865"; note "internal stop"; product "DUF2625 domain-containing protein"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 767762 767764 . - 0 gene_id "ECDH10B_RS03865"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001208812.1"; locus_tag "ECDH10B_RS03865"; note "internal stop"; product "DUF2625 domain-containing protein"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 768536 768685 . - . gene_id "ECDH10B_RS03870"; transcript_id ""; gbkey "Gene"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS03870"; partial "true"; pseudo "true"; -NC_010473.1 Protein Homology CDS 768539 768685 . - 0 gene_id "ECDH10B_RS03870"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415222.1"; locus_tag "ECDH10B_RS03870"; note "internal stop; incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "winged helix-turn-helix domain-containing protein"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 768683 768685 . - 0 gene_id "ECDH10B_RS03870"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415222.1"; locus_tag "ECDH10B_RS03870"; note "internal stop; incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "winged helix-turn-helix domain-containing protein"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 768536 768538 . - 0 gene_id "ECDH10B_RS03870"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415222.1"; locus_tag "ECDH10B_RS03870"; note "internal stop; incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "winged helix-turn-helix domain-containing protein"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 768761 770080 . - . gene_id "ECDH10B_RS03875"; transcript_id ""; gbkey "Gene"; gene "potE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03875"; old_locus_tag "ECDH10B_0758"; -NC_010473.1 Protein Homology CDS 768764 770080 . - 0 gene_id "ECDH10B_RS03875"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "potE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415219.1"; locus_tag "ECDH10B_RS03875"; product "putrescine-ornithine antiporter"; protein_id "WP_000075845.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 770078 770080 . - 0 gene_id "ECDH10B_RS03875"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "potE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415219.1"; locus_tag "ECDH10B_RS03875"; product "putrescine-ornithine antiporter"; protein_id "WP_000075845.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 768761 768763 . - 0 gene_id "ECDH10B_RS03875"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "potE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415219.1"; locus_tag "ECDH10B_RS03875"; product "putrescine-ornithine antiporter"; protein_id "WP_000075845.1"; transl_table "11"; -NC_010473.1 RefSeq gene 770077 772275 . - . gene_id "ECDH10B_RS03880"; transcript_id ""; gbkey "Gene"; gene "speF"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03880"; old_locus_tag "ECDH10B_0759"; -NC_010473.1 Protein Homology CDS 770080 772275 . - 0 gene_id "ECDH10B_RS03880"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "speF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415220.1"; locus_tag "ECDH10B_RS03880"; product "ornithine decarboxylase SpeF"; protein_id "WP_000040195.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 772273 772275 . - 0 gene_id "ECDH10B_RS03880"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "speF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415220.1"; locus_tag "ECDH10B_RS03880"; product "ornithine decarboxylase SpeF"; protein_id "WP_000040195.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 770077 770079 . - 0 gene_id "ECDH10B_RS03880"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "speF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415220.1"; locus_tag "ECDH10B_RS03880"; product "ornithine decarboxylase SpeF"; protein_id "WP_000040195.1"; transl_table "11"; -NC_010473.1 RefSeq gene 772398 772655 . + . gene_id "ECDH10B_RS25395"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS25395"; -NC_010473.1 Protein Homology CDS 772398 772652 . + 0 gene_id "ECDH10B_RS25395"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_001165310.1"; locus_tag "ECDH10B_RS25395"; product "hypothetical protein"; protein_id "WP_001171592.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 772398 772400 . + 0 gene_id "ECDH10B_RS25395"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_001165310.1"; locus_tag "ECDH10B_RS25395"; product "hypothetical protein"; protein_id "WP_001171592.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 772653 772655 . + 0 gene_id "ECDH10B_RS25395"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_001165310.1"; locus_tag "ECDH10B_RS25395"; product "hypothetical protein"; protein_id "WP_001171592.1"; transl_table "11"; -NC_010473.1 RefSeq gene 772871 773548 . - . gene_id "ECDH10B_RS03890"; transcript_id ""; gbkey "Gene"; gene "kdpE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03890"; old_locus_tag "ECDH10B_0760"; -NC_010473.1 Protein Homology CDS 772874 773548 . - 0 gene_id "ECDH10B_RS03890"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "kdpE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415222.1"; locus_tag "ECDH10B_RS03890"; product "two-component system response regulator KdpE"; protein_id "WP_000186076.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 773546 773548 . - 0 gene_id "ECDH10B_RS03890"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "kdpE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415222.1"; locus_tag "ECDH10B_RS03890"; product "two-component system response regulator KdpE"; protein_id "WP_000186076.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 772871 772873 . - 0 gene_id "ECDH10B_RS03890"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "kdpE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415222.1"; locus_tag "ECDH10B_RS03890"; product "two-component system response regulator KdpE"; protein_id "WP_000186076.1"; transl_table "11"; -NC_010473.1 RefSeq gene 773545 776229 . - . gene_id "ECDH10B_RS03895"; transcript_id ""; gbkey "Gene"; gene "kdpD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03895"; old_locus_tag "ECDH10B_0761"; -NC_010473.1 Protein Homology CDS 773548 776229 . - 0 gene_id "ECDH10B_RS03895"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "kdpD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415223.1"; locus_tag "ECDH10B_RS03895"; product "two-component system sensor histidine kinase KdpD"; protein_id "WP_001310640.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 776227 776229 . - 0 gene_id "ECDH10B_RS03895"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "kdpD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415223.1"; locus_tag "ECDH10B_RS03895"; product "two-component system sensor histidine kinase KdpD"; protein_id "WP_001310640.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 773545 773547 . - 0 gene_id "ECDH10B_RS03895"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "kdpD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415223.1"; locus_tag "ECDH10B_RS03895"; product "two-component system sensor histidine kinase KdpD"; protein_id "WP_001310640.1"; transl_table "11"; -NC_010473.1 RefSeq gene 776222 776794 . - . gene_id "ECDH10B_RS03900"; transcript_id ""; gbkey "Gene"; gene "kdpC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03900"; old_locus_tag "ECDH10B_0762"; -NC_010473.1 Protein Homology CDS 776225 776794 . - 0 gene_id "ECDH10B_RS03900"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "kdpC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415224.1"; locus_tag "ECDH10B_RS03900"; product "K(+)-transporting ATPase subunit C"; protein_id "WP_001300431.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 776792 776794 . - 0 gene_id "ECDH10B_RS03900"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "kdpC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415224.1"; locus_tag "ECDH10B_RS03900"; product "K(+)-transporting ATPase subunit C"; protein_id "WP_001300431.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 776222 776224 . - 0 gene_id "ECDH10B_RS03900"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "kdpC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415224.1"; locus_tag "ECDH10B_RS03900"; product "K(+)-transporting ATPase subunit C"; protein_id "WP_001300431.1"; transl_table "11"; -NC_010473.1 RefSeq gene 776803 778851 . - . gene_id "ECDH10B_RS03905"; transcript_id ""; gbkey "Gene"; gene "kdpB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03905"; old_locus_tag "ECDH10B_0763"; -NC_010473.1 Protein Homology CDS 776806 778851 . - 0 gene_id "ECDH10B_RS03905"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "kdpB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415225.1"; locus_tag "ECDH10B_RS03905"; product "potassium-transporting ATPase subunit KdpB"; protein_id "WP_000087939.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 778849 778851 . - 0 gene_id "ECDH10B_RS03905"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "kdpB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415225.1"; locus_tag "ECDH10B_RS03905"; product "potassium-transporting ATPase subunit KdpB"; protein_id "WP_000087939.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 776803 776805 . - 0 gene_id "ECDH10B_RS03905"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "kdpB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415225.1"; locus_tag "ECDH10B_RS03905"; product "potassium-transporting ATPase subunit KdpB"; protein_id "WP_000087939.1"; transl_table "11"; -NC_010473.1 RefSeq gene 778874 780547 . - . gene_id "ECDH10B_RS03910"; transcript_id ""; gbkey "Gene"; gene "kdpA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03910"; old_locus_tag "ECDH10B_0764"; -NC_010473.1 Protein Homology CDS 778877 780547 . - 0 gene_id "ECDH10B_RS03910"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "kdpA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415226.1"; locus_tag "ECDH10B_RS03910"; product "potassium-transporting ATPase subunit KdpA"; protein_id "WP_000741129.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 780545 780547 . - 0 gene_id "ECDH10B_RS03910"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "kdpA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415226.1"; locus_tag "ECDH10B_RS03910"; product "potassium-transporting ATPase subunit KdpA"; protein_id "WP_000741129.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 778874 778876 . - 0 gene_id "ECDH10B_RS03910"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "kdpA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415226.1"; locus_tag "ECDH10B_RS03910"; product "potassium-transporting ATPase subunit KdpA"; protein_id "WP_000741129.1"; transl_table "11"; -NC_010473.1 RefSeq gene 780547 780636 . - . gene_id "ECDH10B_RS03915"; transcript_id ""; gbkey "Gene"; gene "kdpF"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03915"; old_locus_tag "ECDH10B_0765"; -NC_010473.1 Protein Homology CDS 780550 780636 . - 0 gene_id "ECDH10B_RS03915"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "kdpF"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_588443.1"; locus_tag "ECDH10B_RS03915"; product "K(+)-transporting ATPase subunit F"; protein_id "WP_001272653.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 780634 780636 . - 0 gene_id "ECDH10B_RS03915"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "kdpF"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_588443.1"; locus_tag "ECDH10B_RS03915"; product "K(+)-transporting ATPase subunit F"; protein_id "WP_001272653.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 780547 780549 . - 0 gene_id "ECDH10B_RS03915"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "kdpF"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_588443.1"; locus_tag "ECDH10B_RS03915"; product "K(+)-transporting ATPase subunit F"; protein_id "WP_001272653.1"; transl_table "11"; -NC_010473.1 RefSeq gene 780949 781155 . + . gene_id "ECDH10B_RS03920"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03920"; old_locus_tag "ECDH10B_0766"; -NC_010473.1 Protein Homology CDS 780949 781152 . + 0 gene_id "ECDH10B_RS03920"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308755.1"; locus_tag "ECDH10B_RS03920"; product "YbfA family protein"; protein_id "WP_000424924.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 780949 780951 . + 0 gene_id "ECDH10B_RS03920"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308755.1"; locus_tag "ECDH10B_RS03920"; product "YbfA family protein"; protein_id "WP_000424924.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 781153 781155 . + 0 gene_id "ECDH10B_RS03920"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308755.1"; locus_tag "ECDH10B_RS03920"; product "YbfA family protein"; protein_id "WP_000424924.1"; transl_table "11"; -NC_010473.1 RefSeq gene 781398 785591 . + . gene_id "ECDH10B_RS03925"; transcript_id ""; gbkey "Gene"; gene "rhsC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03925"; old_locus_tag "ECDH10B_0767"; -NC_010473.1 Protein Homology CDS 781398 785588 . + 0 gene_id "ECDH10B_RS03925"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rhsC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415229.1"; locus_tag "ECDH10B_RS03925"; product "rhs element protein RhsC"; protein_id "WP_000015200.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 781398 781400 . + 0 gene_id "ECDH10B_RS03925"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rhsC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415229.1"; locus_tag "ECDH10B_RS03925"; product "rhs element protein RhsC"; protein_id "WP_000015200.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 785589 785591 . + 0 gene_id "ECDH10B_RS03925"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rhsC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415229.1"; locus_tag "ECDH10B_RS03925"; product "rhs element protein RhsC"; protein_id "WP_000015200.1"; transl_table "11"; -NC_010473.1 RefSeq gene 785591 785917 . + . gene_id "ECDH10B_RS03930"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03930"; old_locus_tag "ECDH10B_0768"; -NC_010473.1 Protein Homology CDS 785591 785914 . + 0 gene_id "ECDH10B_RS03930"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415230.1"; locus_tag "ECDH10B_RS03930"; product "hypothetical protein"; protein_id "WP_000873944.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 785591 785593 . + 0 gene_id "ECDH10B_RS03930"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415230.1"; locus_tag "ECDH10B_RS03930"; product "hypothetical protein"; protein_id "WP_000873944.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 785915 785917 . + 0 gene_id "ECDH10B_RS03930"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415230.1"; locus_tag "ECDH10B_RS03930"; product "hypothetical protein"; protein_id "WP_000873944.1"; transl_table "11"; -NC_010473.1 RefSeq gene 785963 787468 . + . gene_id "ECDH10B_RS03935"; transcript_id ""; gbkey "Gene"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS03935"; old_locus_tag "ECDH10B_0769"; partial "true"; pseudo "true"; -NC_010473.1 Protein Homology CDS 785963 787465 . + 0 gene_id "ECDH10B_RS03935"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308756.1"; locus_tag "ECDH10B_RS03935"; note "incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "RHS repeat protein"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 785963 785965 . + 0 gene_id "ECDH10B_RS03935"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308756.1"; locus_tag "ECDH10B_RS03935"; note "incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "RHS repeat protein"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 787466 787468 . + 0 gene_id "ECDH10B_RS03935"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308756.1"; locus_tag "ECDH10B_RS03935"; note "incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "RHS repeat protein"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 787465 788034 . + . gene_id "ECDH10B_RS03940"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03940"; old_locus_tag "ECDH10B_0770"; -NC_010473.1 Protein Homology CDS 787465 788031 . + 0 gene_id "ECDH10B_RS03940"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415232.1"; locus_tag "ECDH10B_RS03940"; product "hypothetical protein"; protein_id "WP_000832338.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 787465 787467 . + 0 gene_id "ECDH10B_RS03940"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415232.1"; locus_tag "ECDH10B_RS03940"; product "hypothetical protein"; protein_id "WP_000832338.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 788032 788034 . + 0 gene_id "ECDH10B_RS03940"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415232.1"; locus_tag "ECDH10B_RS03940"; product "hypothetical protein"; protein_id "WP_000832338.1"; transl_table "11"; -NC_010473.1 RefSeq gene 788260 788493 . + . gene_id "ECDH10B_RS03945"; transcript_id ""; gbkey "Gene"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS03945"; old_locus_tag "ECDH10B_0771"; partial "true"; pseudo "true"; -NC_010473.1 Protein Homology CDS 788260 788490 . + 0 gene_id "ECDH10B_RS03945"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000420980.1"; locus_tag "ECDH10B_RS03945"; note "incomplete; partial in the middle of a contig; missing C-terminus"; partial "true"; product "ISAs1 family transposase"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 788260 788262 . + 0 gene_id "ECDH10B_RS03945"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000420980.1"; locus_tag "ECDH10B_RS03945"; note "incomplete; partial in the middle of a contig; missing C-terminus"; partial "true"; product "ISAs1 family transposase"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 788491 788493 . + 0 gene_id "ECDH10B_RS03945"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000420980.1"; locus_tag "ECDH10B_RS03945"; note "incomplete; partial in the middle of a contig; missing C-terminus"; partial "true"; product "ISAs1 family transposase"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 788640 789776 . + . gene_id "ECDH10B_RS03950"; transcript_id ""; gbkey "Gene"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS03950"; old_locus_tag "ECDH10B_0772"; pseudo "true"; -NC_010473.1 Protein Homology CDS 788640 789773 . + 0 gene_id "ECDH10B_RS03950"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000420980.1"; locus_tag "ECDH10B_RS03950"; note "internal stop"; product "ISAs1 family transposase"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 788640 788642 . + 0 gene_id "ECDH10B_RS03950"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000420980.1"; locus_tag "ECDH10B_RS03950"; note "internal stop"; product "ISAs1 family transposase"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 789774 789776 . + 0 gene_id "ECDH10B_RS03950"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000420980.1"; locus_tag "ECDH10B_RS03950"; note "internal stop"; product "ISAs1 family transposase"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 789907 790665 . + . gene_id "ECDH10B_RS03955"; transcript_id ""; gbkey "Gene"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS03955"; old_locus_tag "ECDH10B_0773"; partial "true"; pseudo "true"; -NC_010473.1 Protein Homology CDS 789907 790662 . + 0 gene_id "ECDH10B_RS03955"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000420980.1"; locus_tag "ECDH10B_RS03955"; note "incomplete; partial in the middle of a contig; missing C-terminus"; partial "true"; product "ISAs1 family transposase"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 789907 789909 . + 0 gene_id "ECDH10B_RS03955"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000420980.1"; locus_tag "ECDH10B_RS03955"; note "incomplete; partial in the middle of a contig; missing C-terminus"; partial "true"; product "ISAs1 family transposase"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 790663 790665 . + 0 gene_id "ECDH10B_RS03955"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000420980.1"; locus_tag "ECDH10B_RS03955"; note "incomplete; partial in the middle of a contig; missing C-terminus"; partial "true"; product "ISAs1 family transposase"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 790816 791325 . + . gene_id "ECDH10B_RS03960"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03960"; old_locus_tag "ECDH10B_0774"; -NC_010473.1 Protein Homology CDS 790816 791322 . + 0 gene_id "ECDH10B_RS03960"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415235.1"; locus_tag "ECDH10B_RS03960"; product "YbgA family protein"; protein_id "WP_001053305.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 790816 790818 . + 0 gene_id "ECDH10B_RS03960"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415235.1"; locus_tag "ECDH10B_RS03960"; product "YbgA family protein"; protein_id "WP_001053305.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 791323 791325 . + 0 gene_id "ECDH10B_RS03960"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415235.1"; locus_tag "ECDH10B_RS03960"; product "YbgA family protein"; protein_id "WP_001053305.1"; transl_table "11"; -NC_010473.1 RefSeq gene 791322 792740 . + . gene_id "ECDH10B_RS03965"; transcript_id ""; gbkey "Gene"; gene "phrB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03965"; old_locus_tag "ECDH10B_0775"; -NC_010473.1 Protein Homology CDS 791322 792737 . + 0 gene_id "ECDH10B_RS03965"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "phrB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415236.1"; locus_tag "ECDH10B_RS03965"; product "deoxyribodipyrimidine photo-lyase"; protein_id "WP_000207142.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 791322 791324 . + 0 gene_id "ECDH10B_RS03965"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "phrB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415236.1"; locus_tag "ECDH10B_RS03965"; product "deoxyribodipyrimidine photo-lyase"; protein_id "WP_000207142.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 792738 792740 . + 0 gene_id "ECDH10B_RS03965"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "phrB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415236.1"; locus_tag "ECDH10B_RS03965"; product "deoxyribodipyrimidine photo-lyase"; protein_id "WP_000207142.1"; transl_table "11"; -NC_010473.1 RefSeq gene 792890 794371 . - . gene_id "ECDH10B_RS03970"; transcript_id ""; gbkey "Gene"; gene "dtpD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03970"; old_locus_tag "ECDH10B_0776"; -NC_010473.1 Protein Homology CDS 792893 794371 . - 0 gene_id "ECDH10B_RS03970"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dtpD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415237.1"; locus_tag "ECDH10B_RS03970"; product "dipeptide permease DtpD"; protein_id "WP_001032689.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 794369 794371 . - 0 gene_id "ECDH10B_RS03970"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dtpD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415237.1"; locus_tag "ECDH10B_RS03970"; product "dipeptide permease DtpD"; protein_id "WP_001032689.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 792890 792892 . - 0 gene_id "ECDH10B_RS03970"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dtpD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415237.1"; locus_tag "ECDH10B_RS03970"; product "dipeptide permease DtpD"; protein_id "WP_001032689.1"; transl_table "11"; -NC_010473.1 RefSeq gene 794642 795385 . + . gene_id "ECDH10B_RS03975"; transcript_id ""; gbkey "Gene"; gene "ybgI"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03975"; old_locus_tag "ECDH10B_0777"; -NC_010473.1 Protein Homology CDS 794642 795382 . + 0 gene_id "ECDH10B_RS03975"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ybgI"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000798886.1"; locus_tag "ECDH10B_RS03975"; product "radiation resistance protein YbgI"; protein_id "WP_000798871.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 794642 794644 . + 0 gene_id "ECDH10B_RS03975"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ybgI"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000798886.1"; locus_tag "ECDH10B_RS03975"; product "radiation resistance protein YbgI"; protein_id "WP_000798871.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 795383 795385 . + 0 gene_id "ECDH10B_RS03975"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ybgI"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000798886.1"; locus_tag "ECDH10B_RS03975"; product "radiation resistance protein YbgI"; protein_id "WP_000798871.1"; transl_table "11"; -NC_010473.1 RefSeq gene 795408 796064 . + . gene_id "ECDH10B_RS03980"; transcript_id ""; gbkey "Gene"; gene "pxpB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03980"; old_locus_tag "ECDH10B_0778"; -NC_010473.1 Protein Homology CDS 795408 796061 . + 0 gene_id "ECDH10B_RS03980"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pxpB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308763.1"; locus_tag "ECDH10B_RS03980"; product "5-oxoprolinase subunit PxpB"; protein_id "WP_001188343.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 795408 795410 . + 0 gene_id "ECDH10B_RS03980"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pxpB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308763.1"; locus_tag "ECDH10B_RS03980"; product "5-oxoprolinase subunit PxpB"; protein_id "WP_001188343.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 796062 796064 . + 0 gene_id "ECDH10B_RS03980"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pxpB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308763.1"; locus_tag "ECDH10B_RS03980"; product "5-oxoprolinase subunit PxpB"; protein_id "WP_001188343.1"; transl_table "11"; -NC_010473.1 RefSeq gene 796058 796990 . + . gene_id "ECDH10B_RS03985"; transcript_id ""; gbkey "Gene"; gene "pxpC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03985"; old_locus_tag "ECDH10B_0779"; -NC_010473.1 Protein Homology CDS 796058 796987 . + 0 gene_id "ECDH10B_RS03985"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pxpC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415240.1"; locus_tag "ECDH10B_RS03985"; product "5-oxoprolinase subunit PxpC"; protein_id "WP_000912724.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 796058 796060 . + 0 gene_id "ECDH10B_RS03985"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pxpC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415240.1"; locus_tag "ECDH10B_RS03985"; product "5-oxoprolinase subunit PxpC"; protein_id "WP_000912724.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 796988 796990 . + 0 gene_id "ECDH10B_RS03985"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pxpC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415240.1"; locus_tag "ECDH10B_RS03985"; product "5-oxoprolinase subunit PxpC"; protein_id "WP_000912724.1"; transl_table "11"; -NC_010473.1 RefSeq gene 796980 797714 . + . gene_id "ECDH10B_RS03990"; transcript_id ""; gbkey "Gene"; gene "pxpA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03990"; old_locus_tag "ECDH10B_0780"; -NC_010473.1 Protein Homology CDS 796980 797711 . + 0 gene_id "ECDH10B_RS03990"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pxpA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415241.1"; locus_tag "ECDH10B_RS03990"; product "5-oxoprolinase subunit PxpA"; protein_id "WP_000687112.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 796980 796982 . + 0 gene_id "ECDH10B_RS03990"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pxpA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415241.1"; locus_tag "ECDH10B_RS03990"; product "5-oxoprolinase subunit PxpA"; protein_id "WP_000687112.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 797712 797714 . + 0 gene_id "ECDH10B_RS03990"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pxpA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415241.1"; locus_tag "ECDH10B_RS03990"; product "5-oxoprolinase subunit PxpA"; protein_id "WP_000687112.1"; transl_table "11"; -NC_010473.1 RefSeq gene 797750 798541 . + . gene_id "ECDH10B_RS03995"; transcript_id ""; gbkey "Gene"; gene "nei"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS03995"; old_locus_tag "ECDH10B_0781"; -NC_010473.1 Protein Homology CDS 797750 798538 . + 0 gene_id "ECDH10B_RS03995"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nei"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415242.1"; locus_tag "ECDH10B_RS03995"; product "endonuclease VIII"; protein_id "WP_001113989.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 797750 797752 . + 0 gene_id "ECDH10B_RS03995"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nei"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415242.1"; locus_tag "ECDH10B_RS03995"; product "endonuclease VIII"; protein_id "WP_001113989.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 798539 798541 . + 0 gene_id "ECDH10B_RS03995"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nei"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415242.1"; locus_tag "ECDH10B_RS03995"; product "endonuclease VIII"; protein_id "WP_001113989.1"; transl_table "11"; -NC_010473.1 RefSeq gene 798538 799584 . - . gene_id "ECDH10B_RS04000"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04000"; old_locus_tag "ECDH10B_0782"; -NC_010473.1 Protein Homology CDS 798541 799584 . - 0 gene_id "ECDH10B_RS04000"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415243.4"; locus_tag "ECDH10B_RS04000"; product "AbrB family transcriptional regulator"; protein_id "WP_001336221.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 799582 799584 . - 0 gene_id "ECDH10B_RS04000"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415243.4"; locus_tag "ECDH10B_RS04000"; product "AbrB family transcriptional regulator"; protein_id "WP_001336221.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 798538 798540 . - 0 gene_id "ECDH10B_RS04000"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415243.4"; locus_tag "ECDH10B_RS04000"; product "AbrB family transcriptional regulator"; protein_id "WP_001336221.1"; transl_table "11"; -NC_010473.1 RefSeq gene 799736 800797 . - . gene_id "ECDH10B_RS04005"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04005"; old_locus_tag "ECDH10B_0783"; -NC_010473.1 Protein Homology CDS 799739 800797 . - 0 gene_id "ECDH10B_RS04005"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415244.4"; locus_tag "ECDH10B_RS04005"; product "fimbrial protein"; protein_id "WP_001272410.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 800795 800797 . - 0 gene_id "ECDH10B_RS04005"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415244.4"; locus_tag "ECDH10B_RS04005"; product "fimbrial protein"; protein_id "WP_001272410.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 799736 799738 . - 0 gene_id "ECDH10B_RS04005"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415244.4"; locus_tag "ECDH10B_RS04005"; product "fimbrial protein"; protein_id "WP_001272410.1"; transl_table "11"; -NC_010473.1 RefSeq gene 800794 801522 . - . gene_id "ECDH10B_RS04010"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04010"; old_locus_tag "ECDH10B_0784"; -NC_010473.1 Protein Homology CDS 800797 801522 . - 0 gene_id "ECDH10B_RS04010"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415245.1"; locus_tag "ECDH10B_RS04010"; product "molecular chaperone"; protein_id "WP_000142799.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 801520 801522 . - 0 gene_id "ECDH10B_RS04010"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415245.1"; locus_tag "ECDH10B_RS04010"; product "molecular chaperone"; protein_id "WP_000142799.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 800794 800796 . - 0 gene_id "ECDH10B_RS04010"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415245.1"; locus_tag "ECDH10B_RS04010"; product "molecular chaperone"; protein_id "WP_000142799.1"; transl_table "11"; -NC_010473.1 RefSeq gene 801537 803993 . - . gene_id "ECDH10B_RS04015"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04015"; old_locus_tag "ECDH10B_0785"; -NC_010473.1 Protein Homology CDS 801540 803993 . - 0 gene_id "ECDH10B_RS04015"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_706516.2"; locus_tag "ECDH10B_RS04015"; product "fimbrial biogenesis outer membrane usher protein"; protein_id "WP_001310647.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 803991 803993 . - 0 gene_id "ECDH10B_RS04015"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_706516.2"; locus_tag "ECDH10B_RS04015"; product "fimbrial biogenesis outer membrane usher protein"; protein_id "WP_001310647.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 801537 801539 . - 0 gene_id "ECDH10B_RS04015"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_706516.2"; locus_tag "ECDH10B_RS04015"; product "fimbrial biogenesis outer membrane usher protein"; protein_id "WP_001310647.1"; transl_table "11"; -NC_010473.1 RefSeq gene 804044 804610 . - . gene_id "ECDH10B_RS04020"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04020"; old_locus_tag "ECDH10B_0786"; -NC_010473.1 Protein Homology CDS 804047 804610 . - 0 gene_id "ECDH10B_RS04020"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415247.1"; locus_tag "ECDH10B_RS04020"; product "type 1 fimbrial protein"; protein_id "WP_000472412.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 804608 804610 . - 0 gene_id "ECDH10B_RS04020"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415247.1"; locus_tag "ECDH10B_RS04020"; product "type 1 fimbrial protein"; protein_id "WP_000472412.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 804044 804046 . - 0 gene_id "ECDH10B_RS04020"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415247.1"; locus_tag "ECDH10B_RS04020"; product "type 1 fimbrial protein"; protein_id "WP_000472412.1"; transl_table "11"; -NC_010473.1 RefSeq gene 805000 806283 . - . gene_id "ECDH10B_RS04025"; transcript_id ""; gbkey "Gene"; gene "gltA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04025"; old_locus_tag "ECDH10B_0787"; -NC_010473.1 Protein Homology CDS 805003 806283 . - 0 gene_id "ECDH10B_RS04025"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gltA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415248.1"; locus_tag "ECDH10B_RS04025"; product "citrate (Si)-synthase"; protein_id "WP_000785834.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 806281 806283 . - 0 gene_id "ECDH10B_RS04025"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gltA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415248.1"; locus_tag "ECDH10B_RS04025"; product "citrate (Si)-synthase"; protein_id "WP_000785834.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 805000 805002 . - 0 gene_id "ECDH10B_RS04025"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gltA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415248.1"; locus_tag "ECDH10B_RS04025"; product "citrate (Si)-synthase"; protein_id "WP_000785834.1"; transl_table "11"; -NC_010473.1 RefSeq gene 806489 806596 . - . gene_id "ECDH10B_RS25900"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS25900"; -NC_010473.1 Protein Homology CDS 806492 806596 . - 0 gene_id "ECDH10B_RS25900"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_009518759.1"; locus_tag "ECDH10B_RS25900"; product "hypothetical protein"; protein_id "WP_001305582.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 806594 806596 . - 0 gene_id "ECDH10B_RS25900"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_009518759.1"; locus_tag "ECDH10B_RS25900"; product "hypothetical protein"; protein_id "WP_001305582.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 806489 806491 . - 0 gene_id "ECDH10B_RS25900"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_009518759.1"; locus_tag "ECDH10B_RS25900"; product "hypothetical protein"; protein_id "WP_001305582.1"; transl_table "11"; -NC_010473.1 RefSeq gene 806977 807381 . + . gene_id "ECDH10B_RS04035"; transcript_id ""; gbkey "Gene"; gene "sdhC"; gene_biotype "protein_coding"; gene_synonym "cybA"; gene_synonym "dhsC"; locus_tag "ECDH10B_RS04035"; old_locus_tag "ECDH10B_0788"; -NC_010473.1 Protein Homology CDS 806977 807378 . + 0 gene_id "ECDH10B_RS04035"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sdhC"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000263334.1"; locus_tag "ECDH10B_RS04035"; product "succinate dehydrogenase cytochrome b556 subunit"; protein_id "WP_000263347.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 806977 806979 . + 0 gene_id "ECDH10B_RS04035"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sdhC"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000263334.1"; locus_tag "ECDH10B_RS04035"; product "succinate dehydrogenase cytochrome b556 subunit"; protein_id "WP_000263347.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 807379 807381 . + 0 gene_id "ECDH10B_RS04035"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sdhC"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000263334.1"; locus_tag "ECDH10B_RS04035"; product "succinate dehydrogenase cytochrome b556 subunit"; protein_id "WP_000263347.1"; transl_table "11"; -NC_010473.1 RefSeq gene 807375 807722 . + . gene_id "ECDH10B_RS04040"; transcript_id ""; gbkey "Gene"; gene "sdhD"; gene_biotype "protein_coding"; gene_synonym "cybS"; gene_synonym "dhsD"; locus_tag "ECDH10B_RS04040"; old_locus_tag "ECDH10B_0789"; -NC_010473.1 Protein Homology CDS 807375 807719 . + 0 gene_id "ECDH10B_RS04040"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sdhD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415250.1"; locus_tag "ECDH10B_RS04040"; product "succinate dehydrogenase membrane anchor subunit"; protein_id "WP_000254365.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 807375 807377 . + 0 gene_id "ECDH10B_RS04040"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sdhD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415250.1"; locus_tag "ECDH10B_RS04040"; product "succinate dehydrogenase membrane anchor subunit"; protein_id "WP_000254365.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 807720 807722 . + 0 gene_id "ECDH10B_RS04040"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sdhD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415250.1"; locus_tag "ECDH10B_RS04040"; product "succinate dehydrogenase membrane anchor subunit"; protein_id "WP_000254365.1"; transl_table "11"; -NC_010473.1 RefSeq gene 807722 809488 . + . gene_id "ECDH10B_RS04045"; transcript_id ""; gbkey "Gene"; gene "sdhA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04045"; old_locus_tag "ECDH10B_0790"; -NC_010473.1 Protein Homology CDS 807722 809485 . + 0 gene_id "ECDH10B_RS04045"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sdhA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005122549.1"; locus_tag "ECDH10B_RS04045"; product "succinate dehydrogenase flavoprotein subunit"; protein_id "WP_000775540.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 807722 807724 . + 0 gene_id "ECDH10B_RS04045"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sdhA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005122549.1"; locus_tag "ECDH10B_RS04045"; product "succinate dehydrogenase flavoprotein subunit"; protein_id "WP_000775540.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 809486 809488 . + 0 gene_id "ECDH10B_RS04045"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sdhA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005122549.1"; locus_tag "ECDH10B_RS04045"; product "succinate dehydrogenase flavoprotein subunit"; protein_id "WP_000775540.1"; transl_table "11"; -NC_010473.1 RefSeq gene 809504 810220 . + . gene_id "ECDH10B_RS04050"; transcript_id ""; gbkey "Gene"; gene "sdhB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04050"; old_locus_tag "ECDH10B_0791"; -NC_010473.1 Protein Homology CDS 809504 810217 . + 0 gene_id "ECDH10B_RS04050"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sdhB"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_012133276.1"; locus_tag "ECDH10B_RS04050"; product "succinate dehydrogenase iron-sulfur subunit SdhB"; protein_id "WP_001235254.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 809504 809506 . + 0 gene_id "ECDH10B_RS04050"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sdhB"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_012133276.1"; locus_tag "ECDH10B_RS04050"; product "succinate dehydrogenase iron-sulfur subunit SdhB"; protein_id "WP_001235254.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 810218 810220 . + 0 gene_id "ECDH10B_RS04050"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sdhB"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_012133276.1"; locus_tag "ECDH10B_RS04050"; product "succinate dehydrogenase iron-sulfur subunit SdhB"; protein_id "WP_001235254.1"; transl_table "11"; -NC_010473.1 RefSeq gene 810521 813322 . + . gene_id "ECDH10B_RS04060"; transcript_id ""; gbkey "Gene"; gene "sucA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04060"; old_locus_tag "ECDH10B_0792"; -NC_010473.1 Protein Homology CDS 810521 813319 . + 0 gene_id "ECDH10B_RS04060"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sucA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308778.1"; locus_tag "ECDH10B_RS04060"; product "2-oxoglutarate dehydrogenase E1 component"; protein_id "WP_001181473.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 810521 810523 . + 0 gene_id "ECDH10B_RS04060"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sucA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308778.1"; locus_tag "ECDH10B_RS04060"; product "2-oxoglutarate dehydrogenase E1 component"; protein_id "WP_001181473.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 813320 813322 . + 0 gene_id "ECDH10B_RS04060"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sucA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308778.1"; locus_tag "ECDH10B_RS04060"; product "2-oxoglutarate dehydrogenase E1 component"; protein_id "WP_001181473.1"; transl_table "11"; -NC_010473.1 RefSeq gene 813337 814554 . + . gene_id "ECDH10B_RS04065"; transcript_id ""; gbkey "Gene"; gene "odhB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04065"; old_locus_tag "ECDH10B_0793"; -NC_010473.1 Protein Homology CDS 813337 814551 . + 0 gene_id "ECDH10B_RS04065"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "odhB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308779.1"; locus_tag "ECDH10B_RS04065"; product "2-oxoglutarate dehydrogenase complex dihydrolipoyllysine-residue succinyltransferase"; protein_id "WP_000099823.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 813337 813339 . + 0 gene_id "ECDH10B_RS04065"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "odhB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308779.1"; locus_tag "ECDH10B_RS04065"; product "2-oxoglutarate dehydrogenase complex dihydrolipoyllysine-residue succinyltransferase"; protein_id "WP_000099823.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 814552 814554 . + 0 gene_id "ECDH10B_RS04065"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "odhB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308779.1"; locus_tag "ECDH10B_RS04065"; product "2-oxoglutarate dehydrogenase complex dihydrolipoyllysine-residue succinyltransferase"; protein_id "WP_000099823.1"; transl_table "11"; -NC_010473.1 RefSeq gene 814829 815995 . + . gene_id "ECDH10B_RS04070"; transcript_id ""; gbkey "Gene"; gene "sucC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04070"; old_locus_tag "ECDH10B_0794"; -NC_010473.1 Protein Homology CDS 814829 815992 . + 0 gene_id "ECDH10B_RS04070"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sucC"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_012133271.1"; locus_tag "ECDH10B_RS04070"; product "ADP-forming succinate--CoA ligase subunit beta"; protein_id "WP_001048602.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 814829 814831 . + 0 gene_id "ECDH10B_RS04070"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sucC"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_012133271.1"; locus_tag "ECDH10B_RS04070"; product "ADP-forming succinate--CoA ligase subunit beta"; protein_id "WP_001048602.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 815993 815995 . + 0 gene_id "ECDH10B_RS04070"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sucC"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_012133271.1"; locus_tag "ECDH10B_RS04070"; product "ADP-forming succinate--CoA ligase subunit beta"; protein_id "WP_001048602.1"; transl_table "11"; -NC_010473.1 RefSeq gene 815995 816864 . + . gene_id "ECDH10B_RS04075"; transcript_id ""; gbkey "Gene"; gene "sucD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04075"; old_locus_tag "ECDH10B_0795"; -NC_010473.1 Protein Homology CDS 815995 816861 . + 0 gene_id "ECDH10B_RS04075"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sucD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308781.1"; locus_tag "ECDH10B_RS04075"; product "succinate--CoA ligase subunit alpha"; protein_id "WP_000025458.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 815995 815997 . + 0 gene_id "ECDH10B_RS04075"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sucD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308781.1"; locus_tag "ECDH10B_RS04075"; product "succinate--CoA ligase subunit alpha"; protein_id "WP_000025458.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 816862 816864 . + 0 gene_id "ECDH10B_RS04075"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sucD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308781.1"; locus_tag "ECDH10B_RS04075"; product "succinate--CoA ligase subunit alpha"; protein_id "WP_000025458.1"; transl_table "11"; -NC_010473.1 RefSeq gene 816968 817690 . - . gene_id "ECDH10B_RS04080"; transcript_id ""; gbkey "Gene"; gene "mngR"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04080"; old_locus_tag "ECDH10B_0796"; -NC_010473.1 Protein Homology CDS 816971 817690 . - 0 gene_id "ECDH10B_RS04080"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mngR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415258.1"; locus_tag "ECDH10B_RS04080"; product "mannosyl-D-glycerate transport/metabolism system transcriptional repressor MngR"; protein_id "WP_000509902.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 817688 817690 . - 0 gene_id "ECDH10B_RS04080"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mngR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415258.1"; locus_tag "ECDH10B_RS04080"; product "mannosyl-D-glycerate transport/metabolism system transcriptional repressor MngR"; protein_id "WP_000509902.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 816968 816970 . - 0 gene_id "ECDH10B_RS04080"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mngR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415258.1"; locus_tag "ECDH10B_RS04080"; product "mannosyl-D-glycerate transport/metabolism system transcriptional repressor MngR"; protein_id "WP_000509902.1"; transl_table "11"; -NC_010473.1 RefSeq gene 817859 819775 . + . gene_id "ECDH10B_RS04085"; transcript_id ""; gbkey "Gene"; gene "mngA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04085"; old_locus_tag "ECDH10B_0797"; -NC_010473.1 Protein Homology CDS 817859 819772 . + 0 gene_id "ECDH10B_RS04085"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mngA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001393949.1"; locus_tag "ECDH10B_RS04085"; product "PTS 2-O-a-mannosyl-D-glycerate transporter subunit IIABC"; protein_id "WP_001054864.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 817859 817861 . + 0 gene_id "ECDH10B_RS04085"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mngA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001393949.1"; locus_tag "ECDH10B_RS04085"; product "PTS 2-O-a-mannosyl-D-glycerate transporter subunit IIABC"; protein_id "WP_001054864.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 819773 819775 . + 0 gene_id "ECDH10B_RS04085"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mngA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001393949.1"; locus_tag "ECDH10B_RS04085"; product "PTS 2-O-a-mannosyl-D-glycerate transporter subunit IIABC"; protein_id "WP_001054864.1"; transl_table "11"; -NC_010473.1 RefSeq gene 819793 822426 . + . gene_id "ECDH10B_RS04090"; transcript_id ""; gbkey "Gene"; gene "mngB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04090"; old_locus_tag "ECDH10B_0798"; -NC_010473.1 Protein Homology CDS 819793 822423 . + 0 gene_id "ECDH10B_RS04090"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mngB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415260.1"; locus_tag "ECDH10B_RS04090"; product "mannosylglycerate hydrolase"; protein_id "WP_000648976.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 819793 819795 . + 0 gene_id "ECDH10B_RS04090"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mngB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415260.1"; locus_tag "ECDH10B_RS04090"; product "mannosylglycerate hydrolase"; protein_id "WP_000648976.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 822424 822426 . + 0 gene_id "ECDH10B_RS04090"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mngB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415260.1"; locus_tag "ECDH10B_RS04090"; product "mannosylglycerate hydrolase"; protein_id "WP_000648976.1"; transl_table "11"; -NC_010473.1 RefSeq gene 823273 824841 . + . gene_id "ECDH10B_RS04100"; transcript_id ""; gbkey "Gene"; gene "cydA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04100"; old_locus_tag "ECDH10B_0799"; -NC_010473.1 Protein Homology CDS 823273 824838 . + 0 gene_id "ECDH10B_RS04100"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cydA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415261.2"; locus_tag "ECDH10B_RS04100"; product "cytochrome ubiquinol oxidase subunit I"; protein_id "WP_000884361.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 823273 823275 . + 0 gene_id "ECDH10B_RS04100"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cydA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415261.2"; locus_tag "ECDH10B_RS04100"; product "cytochrome ubiquinol oxidase subunit I"; protein_id "WP_000884361.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 824839 824841 . + 0 gene_id "ECDH10B_RS04100"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cydA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415261.2"; locus_tag "ECDH10B_RS04100"; product "cytochrome ubiquinol oxidase subunit I"; protein_id "WP_000884361.1"; transl_table "11"; -NC_010473.1 RefSeq gene 824857 825996 . + . gene_id "ECDH10B_RS04105"; transcript_id ""; gbkey "Gene"; gene "cydB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04105"; old_locus_tag "ECDH10B_0800"; -NC_010473.1 Protein Homology CDS 824857 825993 . + 0 gene_id "ECDH10B_RS04105"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cydB"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000568269.1"; locus_tag "ECDH10B_RS04105"; product "cytochrome d ubiquinol oxidase subunit II"; protein_id "WP_000568275.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 824857 824859 . + 0 gene_id "ECDH10B_RS04105"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cydB"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000568269.1"; locus_tag "ECDH10B_RS04105"; product "cytochrome d ubiquinol oxidase subunit II"; protein_id "WP_000568275.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 825994 825996 . + 0 gene_id "ECDH10B_RS04105"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cydB"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000568269.1"; locus_tag "ECDH10B_RS04105"; product "cytochrome d ubiquinol oxidase subunit II"; protein_id "WP_000568275.1"; transl_table "11"; -NC_010473.1 RefSeq gene 826011 826124 . + . gene_id "ECDH10B_RS04110"; transcript_id ""; gbkey "Gene"; gene "cydX"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04110"; old_locus_tag "ECDH10B_0801"; -NC_010473.1 Protein Homology CDS 826011 826121 . + 0 gene_id "ECDH10B_RS04110"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cydX"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_588444.1"; locus_tag "ECDH10B_RS04110"; product "cytochrome bd-I oxidase subunit CydX"; protein_id "WP_000270282.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 826011 826013 . + 0 gene_id "ECDH10B_RS04110"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cydX"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_588444.1"; locus_tag "ECDH10B_RS04110"; product "cytochrome bd-I oxidase subunit CydX"; protein_id "WP_000270282.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 826122 826124 . + 0 gene_id "ECDH10B_RS04110"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cydX"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_588444.1"; locus_tag "ECDH10B_RS04110"; product "cytochrome bd-I oxidase subunit CydX"; protein_id "WP_000270282.1"; transl_table "11"; -NC_010473.1 RefSeq gene 826124 826417 . + . gene_id "ECDH10B_RS04115"; transcript_id ""; gbkey "Gene"; gene "ybgE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04115"; old_locus_tag "ECDH10B_0802"; -NC_010473.1 Protein Homology CDS 826124 826414 . + 0 gene_id "ECDH10B_RS04115"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ybgE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308797.1"; locus_tag "ECDH10B_RS04115"; product "cyd operon protein YbgE"; protein_id "WP_000034602.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 826124 826126 . + 0 gene_id "ECDH10B_RS04115"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ybgE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308797.1"; locus_tag "ECDH10B_RS04115"; product "cyd operon protein YbgE"; protein_id "WP_000034602.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 826415 826417 . + 0 gene_id "ECDH10B_RS04115"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ybgE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308797.1"; locus_tag "ECDH10B_RS04115"; product "cyd operon protein YbgE"; protein_id "WP_000034602.1"; transl_table "11"; -NC_010473.1 RefSeq gene 826567 826971 . + . gene_id "ECDH10B_RS04120"; transcript_id ""; gbkey "Gene"; gene "ybgC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04120"; old_locus_tag "ECDH10B_0803"; -NC_010473.1 Protein Homology CDS 826567 826968 . + 0 gene_id "ECDH10B_RS04120"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ybgC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308798.1"; locus_tag "ECDH10B_RS04120"; product "tol-pal system-associated acyl-CoA thioesterase"; protein_id "WP_001098384.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 826567 826569 . + 0 gene_id "ECDH10B_RS04120"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ybgC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308798.1"; locus_tag "ECDH10B_RS04120"; product "tol-pal system-associated acyl-CoA thioesterase"; protein_id "WP_001098384.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 826969 826971 . + 0 gene_id "ECDH10B_RS04120"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ybgC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308798.1"; locus_tag "ECDH10B_RS04120"; product "tol-pal system-associated acyl-CoA thioesterase"; protein_id "WP_001098384.1"; transl_table "11"; -NC_010473.1 RefSeq gene 826968 827660 . + . gene_id "ECDH10B_RS04125"; transcript_id ""; gbkey "Gene"; gene "tolQ"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04125"; old_locus_tag "ECDH10B_0804"; -NC_010473.1 Protein Homology CDS 826968 827657 . + 0 gene_id "ECDH10B_RS04125"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tolQ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308799.1"; locus_tag "ECDH10B_RS04125"; product "Tol-Pal system protein TolQ"; protein_id "WP_000131314.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 826968 826970 . + 0 gene_id "ECDH10B_RS04125"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tolQ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308799.1"; locus_tag "ECDH10B_RS04125"; product "Tol-Pal system protein TolQ"; protein_id "WP_000131314.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 827658 827660 . + 0 gene_id "ECDH10B_RS04125"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tolQ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308799.1"; locus_tag "ECDH10B_RS04125"; product "Tol-Pal system protein TolQ"; protein_id "WP_000131314.1"; transl_table "11"; -NC_010473.1 RefSeq gene 827664 828092 . + . gene_id "ECDH10B_RS04130"; transcript_id ""; gbkey "Gene"; gene "tolR"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04130"; old_locus_tag "ECDH10B_0805"; -NC_010473.1 Protein Homology CDS 827664 828089 . + 0 gene_id "ECDH10B_RS04130"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tolR"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_015965300.1"; locus_tag "ECDH10B_RS04130"; product "colicin uptake protein TolR"; protein_id "WP_000090097.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 827664 827666 . + 0 gene_id "ECDH10B_RS04130"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tolR"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_015965300.1"; locus_tag "ECDH10B_RS04130"; product "colicin uptake protein TolR"; protein_id "WP_000090097.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 828090 828092 . + 0 gene_id "ECDH10B_RS04130"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tolR"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_015965300.1"; locus_tag "ECDH10B_RS04130"; product "colicin uptake protein TolR"; protein_id "WP_000090097.1"; transl_table "11"; -NC_010473.1 RefSeq gene 828157 829422 . + . gene_id "ECDH10B_RS04135"; transcript_id ""; gbkey "Gene"; gene "tolA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04135"; old_locus_tag "ECDH10B_0806"; -NC_010473.1 Protein Homology CDS 828157 829419 . + 0 gene_id "ECDH10B_RS04135"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tolA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415267.1"; locus_tag "ECDH10B_RS04135"; product "cell envelope integrity protein TolA"; protein_id "WP_000030637.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 828157 828159 . + 0 gene_id "ECDH10B_RS04135"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tolA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415267.1"; locus_tag "ECDH10B_RS04135"; product "cell envelope integrity protein TolA"; protein_id "WP_000030637.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 829420 829422 . + 0 gene_id "ECDH10B_RS04135"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tolA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415267.1"; locus_tag "ECDH10B_RS04135"; product "cell envelope integrity protein TolA"; protein_id "WP_000030637.1"; transl_table "11"; -NC_010473.1 RefSeq gene 829555 830847 . + . gene_id "ECDH10B_RS04140"; transcript_id ""; gbkey "Gene"; gene "tolB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04140"; old_locus_tag "ECDH10B_0807"; -NC_010473.1 Protein Homology CDS 829555 830844 . + 0 gene_id "ECDH10B_RS04140"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tolB"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001646851.1"; locus_tag "ECDH10B_RS04140"; product "Tol-Pal system protein TolB"; protein_id "WP_001295307.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 829555 829557 . + 0 gene_id "ECDH10B_RS04140"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tolB"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001646851.1"; locus_tag "ECDH10B_RS04140"; product "Tol-Pal system protein TolB"; protein_id "WP_001295307.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 830845 830847 . + 0 gene_id "ECDH10B_RS04140"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tolB"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001646851.1"; locus_tag "ECDH10B_RS04140"; product "Tol-Pal system protein TolB"; protein_id "WP_001295307.1"; transl_table "11"; -NC_010473.1 RefSeq gene 830882 831403 . + . gene_id "ECDH10B_RS04145"; transcript_id ""; gbkey "Gene"; gene "pal"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04145"; old_locus_tag "ECDH10B_0808"; -NC_010473.1 Protein Homology CDS 830882 831400 . + 0 gene_id "ECDH10B_RS04145"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pal"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308803.1"; locus_tag "ECDH10B_RS04145"; product "peptidoglycan-associated lipoprotein Pal"; protein_id "WP_001295306.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 830882 830884 . + 0 gene_id "ECDH10B_RS04145"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pal"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308803.1"; locus_tag "ECDH10B_RS04145"; product "peptidoglycan-associated lipoprotein Pal"; protein_id "WP_001295306.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 831401 831403 . + 0 gene_id "ECDH10B_RS04145"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pal"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308803.1"; locus_tag "ECDH10B_RS04145"; product "peptidoglycan-associated lipoprotein Pal"; protein_id "WP_001295306.1"; transl_table "11"; -NC_010473.1 RefSeq gene 831413 832204 . + . gene_id "ECDH10B_RS04150"; transcript_id ""; gbkey "Gene"; gene "cpoB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04150"; old_locus_tag "ECDH10B_0809"; -NC_010473.1 Protein Homology CDS 831413 832201 . + 0 gene_id "ECDH10B_RS04150"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cpoB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415270.1"; locus_tag "ECDH10B_RS04150"; product "cell division protein CpoB"; protein_id "WP_000097571.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 831413 831415 . + 0 gene_id "ECDH10B_RS04150"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cpoB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415270.1"; locus_tag "ECDH10B_RS04150"; product "cell division protein CpoB"; protein_id "WP_000097571.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 832202 832204 . + 0 gene_id "ECDH10B_RS04150"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cpoB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415270.1"; locus_tag "ECDH10B_RS04150"; product "cell division protein CpoB"; protein_id "WP_000097571.1"; transl_table "11"; -NC_010473.1 RefSeq gene 832369 832444 . + . gene_id "ECDH10B_RS04155"; transcript_id ""; gbkey "Gene"; gene_biotype "tRNA"; locus_tag "ECDH10B_RS04155"; old_locus_tag "ECDH10B_0810"; -NC_010473.1 tRNAscan-SE exon 832369 832444 . + . gene_id "ECDH10B_RS04155"; transcript_id "ECDH10B_RS04155"; anticodon "(pos:832402..832404)"; gbkey "tRNA"; inference "COORDINATES: profile:tRNAscan-SE:2.0.6"; locus_tag "ECDH10B_RS04155"; product "tRNA-Lys"; exon_number "1"; -NC_010473.1 RefSeq gene 832580 832655 . + . gene_id "ECDH10B_RS04160"; transcript_id ""; gbkey "Gene"; gene_biotype "tRNA"; locus_tag "ECDH10B_RS04160"; old_locus_tag "ECDH10B_0811"; -NC_010473.1 tRNAscan-SE exon 832580 832655 . + . gene_id "ECDH10B_RS04160"; transcript_id "ECDH10B_RS04160"; anticodon "(pos:832613..832615)"; gbkey "tRNA"; inference "COORDINATES: profile:tRNAscan-SE:2.0.6"; locus_tag "ECDH10B_RS04160"; product "tRNA-Val"; exon_number "1"; -NC_010473.1 RefSeq gene 832658 832733 . + . gene_id "ECDH10B_RS04165"; transcript_id ""; gbkey "Gene"; gene_biotype "tRNA"; locus_tag "ECDH10B_RS04165"; old_locus_tag "ECDH10B_0812"; -NC_010473.1 tRNAscan-SE exon 832658 832733 . + . gene_id "ECDH10B_RS04165"; transcript_id "ECDH10B_RS04165"; anticodon "(pos:832691..832693)"; gbkey "tRNA"; inference "COORDINATES: profile:tRNAscan-SE:2.0.6"; locus_tag "ECDH10B_RS04165"; product "tRNA-Lys"; exon_number "1"; -NC_010473.1 RefSeq gene 832883 832958 . + . gene_id "ECDH10B_RS04170"; transcript_id ""; gbkey "Gene"; gene_biotype "tRNA"; locus_tag "ECDH10B_RS04170"; old_locus_tag "ECDH10B_0813"; -NC_010473.1 tRNAscan-SE exon 832883 832958 . + . gene_id "ECDH10B_RS04170"; transcript_id "ECDH10B_RS04170"; anticodon "(pos:832916..832918)"; gbkey "tRNA"; inference "COORDINATES: profile:tRNAscan-SE:2.0.6"; locus_tag "ECDH10B_RS04170"; product "tRNA-Val"; exon_number "1"; -NC_010473.1 RefSeq gene 832962 833037 . + . gene_id "ECDH10B_RS04175"; transcript_id ""; gbkey "Gene"; gene_biotype "tRNA"; locus_tag "ECDH10B_RS04175"; old_locus_tag "ECDH10B_0814"; -NC_010473.1 tRNAscan-SE exon 832962 833037 . + . gene_id "ECDH10B_RS04175"; transcript_id "ECDH10B_RS04175"; anticodon "(pos:832995..832997)"; gbkey "tRNA"; inference "COORDINATES: profile:tRNAscan-SE:2.0.6"; locus_tag "ECDH10B_RS04175"; product "tRNA-Lys"; exon_number "1"; -NC_010473.1 RefSeq gene 833184 833259 . + . gene_id "ECDH10B_RS04180"; transcript_id ""; gbkey "Gene"; gene_biotype "tRNA"; locus_tag "ECDH10B_RS04180"; old_locus_tag "ECDH10B_0815"; -NC_010473.1 tRNAscan-SE exon 833184 833259 . + . gene_id "ECDH10B_RS04180"; transcript_id "ECDH10B_RS04180"; anticodon "(pos:833217..833219)"; gbkey "tRNA"; inference "COORDINATES: profile:tRNAscan-SE:2.0.6"; locus_tag "ECDH10B_RS04180"; product "tRNA-Lys"; exon_number "1"; -NC_010473.1 RefSeq gene 833392 833467 . + . gene_id "ECDH10B_RS04185"; transcript_id ""; gbkey "Gene"; gene_biotype "tRNA"; locus_tag "ECDH10B_RS04185"; old_locus_tag "ECDH10B_0816"; -NC_010473.1 tRNAscan-SE exon 833392 833467 . + . gene_id "ECDH10B_RS04185"; transcript_id "ECDH10B_RS04185"; anticodon "(pos:833425..833427)"; gbkey "tRNA"; inference "COORDINATES: profile:tRNAscan-SE:2.0.6"; locus_tag "ECDH10B_RS04185"; product "tRNA-Lys"; exon_number "1"; -NC_010473.1 RefSeq gene 833498 833623 . + . gene_id "ECDH10B_RS23320"; transcript_id ""; gbkey "Gene"; gene_biotype "ncRNA"; locus_tag "ECDH10B_RS23320"; -NC_010473.1 cmsearch exon 833498 833623 . + . gene_id "ECDH10B_RS23320"; transcript_id "ECDH10B_RS23320"; db_xref "RFAM:RF00391"; gbkey "ncRNA"; inference "COORDINATES: nucleotide motif:Rfam:12.0:RF00391"; inference "COORDINATES: profile:INFERNAL:1.1.1"; locus_tag "ECDH10B_RS23320"; note "rtT sRNA, processed from tyrT transcript"; product "RtT sRNA"; exon_number "1"; -NC_010473.1 RefSeq gene 833900 834943 . + . gene_id "ECDH10B_RS04190"; transcript_id ""; gbkey "Gene"; gene "nadA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04190"; old_locus_tag "ECDH10B_0817"; -NC_010473.1 Protein Homology CDS 833900 834940 . + 0 gene_id "ECDH10B_RS04190"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nadA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415271.1"; locus_tag "ECDH10B_RS04190"; product "quinolinate synthase NadA"; protein_id "WP_000115290.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 833900 833902 . + 0 gene_id "ECDH10B_RS04190"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nadA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415271.1"; locus_tag "ECDH10B_RS04190"; product "quinolinate synthase NadA"; protein_id "WP_000115290.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 834941 834943 . + 0 gene_id "ECDH10B_RS04190"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nadA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415271.1"; locus_tag "ECDH10B_RS04190"; product "quinolinate synthase NadA"; protein_id "WP_000115290.1"; transl_table "11"; -NC_010473.1 RefSeq gene 834981 835700 . + . gene_id "ECDH10B_RS04195"; transcript_id ""; gbkey "Gene"; gene "pnuC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04195"; old_locus_tag "ECDH10B_0818"; -NC_010473.1 Protein Homology CDS 834981 835697 . + 0 gene_id "ECDH10B_RS04195"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pnuC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415272.1"; locus_tag "ECDH10B_RS04195"; product "nicotinamide riboside transporter PnuC"; protein_id "WP_000345410.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 834981 834983 . + 0 gene_id "ECDH10B_RS04195"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pnuC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415272.1"; locus_tag "ECDH10B_RS04195"; product "nicotinamide riboside transporter PnuC"; protein_id "WP_000345410.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 835698 835700 . + 0 gene_id "ECDH10B_RS04195"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pnuC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415272.1"; locus_tag "ECDH10B_RS04195"; product "nicotinamide riboside transporter PnuC"; protein_id "WP_000345410.1"; transl_table "11"; -NC_010473.1 RefSeq gene 835697 836638 . - . gene_id "ECDH10B_RS04200"; transcript_id ""; gbkey "Gene"; gene "zitB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04200"; old_locus_tag "ECDH10B_0819"; -NC_010473.1 Protein Homology CDS 835700 836638 . - 0 gene_id "ECDH10B_RS04200"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "zitB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415273.1"; locus_tag "ECDH10B_RS04200"; product "CDF family zinc transporter ZitB"; protein_id "WP_000951292.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 836636 836638 . - 0 gene_id "ECDH10B_RS04200"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "zitB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415273.1"; locus_tag "ECDH10B_RS04200"; product "CDF family zinc transporter ZitB"; protein_id "WP_000951292.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 835697 835699 . - 0 gene_id "ECDH10B_RS04200"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "zitB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415273.1"; locus_tag "ECDH10B_RS04200"; product "CDF family zinc transporter ZitB"; protein_id "WP_000951292.1"; transl_table "11"; -NC_010473.1 RefSeq gene 836752 837132 . - . gene_id "ECDH10B_RS04205"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04205"; old_locus_tag "ECDH10B_0820"; -NC_010473.1 Protein Homology CDS 836755 837132 . - 0 gene_id "ECDH10B_RS04205"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415274.1"; locus_tag "ECDH10B_RS04205"; product "YbgS-like family protein"; protein_id "WP_000784351.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 837130 837132 . - 0 gene_id "ECDH10B_RS04205"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415274.1"; locus_tag "ECDH10B_RS04205"; product "YbgS-like family protein"; protein_id "WP_000784351.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 836752 836754 . - 0 gene_id "ECDH10B_RS04205"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415274.1"; locus_tag "ECDH10B_RS04205"; product "YbgS-like family protein"; protein_id "WP_000784351.1"; transl_table "11"; -NC_010473.1 RefSeq gene 837448 838500 . + . gene_id "ECDH10B_RS04215"; transcript_id ""; gbkey "Gene"; gene "aroG"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04215"; old_locus_tag "ECDH10B_0821"; -NC_010473.1 Protein Homology CDS 837448 838497 . + 0 gene_id "ECDH10B_RS04215"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "aroG"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001109196.1"; locus_tag "ECDH10B_RS04215"; product "3-deoxy-7-phosphoheptulonate synthase AroG"; protein_id "WP_001109196.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 837448 837450 . + 0 gene_id "ECDH10B_RS04215"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "aroG"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001109196.1"; locus_tag "ECDH10B_RS04215"; product "3-deoxy-7-phosphoheptulonate synthase AroG"; protein_id "WP_001109196.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 838498 838500 . + 0 gene_id "ECDH10B_RS04215"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "aroG"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001109196.1"; locus_tag "ECDH10B_RS04215"; product "3-deoxy-7-phosphoheptulonate synthase AroG"; protein_id "WP_001109196.1"; transl_table "11"; -NC_010473.1 RefSeq gene 838658 839410 . - . gene_id "ECDH10B_RS04220"; transcript_id ""; gbkey "Gene"; gene "gpmA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04220"; old_locus_tag "ECDH10B_0822"; -NC_010473.1 Protein Homology CDS 838661 839410 . - 0 gene_id "ECDH10B_RS04220"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gpmA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000301556.1"; locus_tag "ECDH10B_RS04220"; product "2,3-diphosphoglycerate-dependent phosphoglycerate mutase"; protein_id "WP_001295305.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 839408 839410 . - 0 gene_id "ECDH10B_RS04220"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gpmA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000301556.1"; locus_tag "ECDH10B_RS04220"; product "2,3-diphosphoglycerate-dependent phosphoglycerate mutase"; protein_id "WP_001295305.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 838658 838660 . - 0 gene_id "ECDH10B_RS04220"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gpmA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000301556.1"; locus_tag "ECDH10B_RS04220"; product "2,3-diphosphoglycerate-dependent phosphoglycerate mutase"; protein_id "WP_001295305.1"; transl_table "11"; -NC_010473.1 RefSeq gene 839612 840652 . - . gene_id "ECDH10B_RS04225"; transcript_id ""; gbkey "Gene"; gene "galM"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04225"; old_locus_tag "ECDH10B_0823"; -NC_010473.1 Protein Homology CDS 839615 840652 . - 0 gene_id "ECDH10B_RS04225"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "galM"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415277.1"; locus_tag "ECDH10B_RS04225"; product "galactose-1-epimerase"; protein_id "WP_000931389.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 840650 840652 . - 0 gene_id "ECDH10B_RS04225"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "galM"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415277.1"; locus_tag "ECDH10B_RS04225"; product "galactose-1-epimerase"; protein_id "WP_000931389.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 839612 839614 . - 0 gene_id "ECDH10B_RS04225"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "galM"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415277.1"; locus_tag "ECDH10B_RS04225"; product "galactose-1-epimerase"; protein_id "WP_000931389.1"; transl_table "11"; -NC_010473.1 RefSeq gene 840646 841632 . - . gene_id "ECDH10B_RS04230"; transcript_id ""; gbkey "Gene"; gene "galK"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS04230"; old_locus_tag "ECDH10B_0825"; partial "true"; pseudo "true"; -NC_010473.1 Protein Homology CDS 840649 841632 . - 0 gene_id "ECDH10B_RS04230"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "galK"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001713229.1"; locus_tag "ECDH10B_RS04230"; note "incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "galactokinase"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 841630 841632 . - 0 gene_id "ECDH10B_RS04230"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "galK"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001713229.1"; locus_tag "ECDH10B_RS04230"; note "incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "galactokinase"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 840646 840648 . - 0 gene_id "ECDH10B_RS04230"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "galK"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001713229.1"; locus_tag "ECDH10B_RS04230"; note "incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "galactokinase"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 841643 842871 . - . gene_id "ECDH10B_RS04235"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04235"; -NC_010473.1 Protein Homology CDS 842556 842871 . - 0 gene_id "ECDH10B_RS04235"; transcript_id "unknown_transcript_1"; exception "ribosomal slippage"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_086558215.1"; locus_tag "ECDH10B_RS04235"; note "programmed frameshift"; product "IS3-like element IS2 family transposase"; protein_id "WP_088895425.1"; transl_table "11"; -NC_010473.1 Protein Homology CDS 841646 842556 . - 0 gene_id "ECDH10B_RS04235"; transcript_id "unknown_transcript_1"; exception "ribosomal slippage"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_086558215.1"; locus_tag "ECDH10B_RS04235"; note "programmed frameshift"; product "IS3-like element IS2 family transposase"; protein_id "WP_088895425.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 842869 842871 . - 0 gene_id "ECDH10B_RS04235"; transcript_id "unknown_transcript_1"; exception "ribosomal slippage"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_086558215.1"; locus_tag "ECDH10B_RS04235"; note "programmed frameshift"; product "IS3-like element IS2 family transposase"; protein_id "WP_088895425.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 841643 841645 . - 0 gene_id "ECDH10B_RS04235"; transcript_id "unknown_transcript_1"; exception "ribosomal slippage"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_086558215.1"; locus_tag "ECDH10B_RS04235"; note "programmed frameshift"; product "IS3-like element IS2 family transposase"; protein_id "WP_088895425.1"; transl_table "11"; -NC_010473.1 RefSeq gene 842963 843130 . - . gene_id "ECDH10B_RS23840"; transcript_id ""; gbkey "Gene"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS23840"; partial "true"; pseudo "true"; -NC_010473.1 Protein Homology CDS 842966 843130 . - 0 gene_id "ECDH10B_RS23840"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001713229.1"; locus_tag "ECDH10B_RS23840"; note "catalyzes the formation of alpha-D-galactose 1-phosphate from D-galactose in galactose metabolism; incomplete; partial in the middle of a contig; missing C-terminus"; partial "true"; product "galactokinase"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 843128 843130 . - 0 gene_id "ECDH10B_RS23840"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001713229.1"; locus_tag "ECDH10B_RS23840"; note "catalyzes the formation of alpha-D-galactose 1-phosphate from D-galactose in galactose metabolism; incomplete; partial in the middle of a contig; missing C-terminus"; partial "true"; product "galactokinase"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 842963 842965 . - 0 gene_id "ECDH10B_RS23840"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001713229.1"; locus_tag "ECDH10B_RS23840"; note "catalyzes the formation of alpha-D-galactose 1-phosphate from D-galactose in galactose metabolism; incomplete; partial in the middle of a contig; missing C-terminus"; partial "true"; product "galactokinase"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 843134 844180 . - . gene_id "ECDH10B_RS04245"; transcript_id ""; gbkey "Gene"; gene "galT"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04245"; old_locus_tag "ECDH10B_0826"; -NC_010473.1 Protein Homology CDS 843137 844180 . - 0 gene_id "ECDH10B_RS04245"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "galT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415279.1"; locus_tag "ECDH10B_RS04245"; product "galactose-1-phosphate uridylyltransferase"; protein_id "WP_000191497.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 844178 844180 . - 0 gene_id "ECDH10B_RS04245"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "galT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415279.1"; locus_tag "ECDH10B_RS04245"; product "galactose-1-phosphate uridylyltransferase"; protein_id "WP_000191497.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 843134 843136 . - 0 gene_id "ECDH10B_RS04245"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "galT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415279.1"; locus_tag "ECDH10B_RS04245"; product "galactose-1-phosphate uridylyltransferase"; protein_id "WP_000191497.1"; transl_table "11"; -NC_010473.1 RefSeq gene 844190 845206 . - . gene_id "ECDH10B_RS04250"; transcript_id ""; gbkey "Gene"; gene "galE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04250"; old_locus_tag "ECDH10B_0827"; -NC_010473.1 Protein Homology CDS 844193 845206 . - 0 gene_id "ECDH10B_RS04250"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "galE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415280.3"; locus_tag "ECDH10B_RS04250"; product "UDP-glucose 4-epimerase GalE"; protein_id "WP_001265433.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 845204 845206 . - 0 gene_id "ECDH10B_RS04250"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "galE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415280.3"; locus_tag "ECDH10B_RS04250"; product "UDP-glucose 4-epimerase GalE"; protein_id "WP_001265433.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 844190 844192 . - 0 gene_id "ECDH10B_RS04250"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "galE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415280.3"; locus_tag "ECDH10B_RS04250"; product "UDP-glucose 4-epimerase GalE"; protein_id "WP_001265433.1"; transl_table "11"; -NC_010473.1 RefSeq gene 845467 846939 . - . gene_id "ECDH10B_RS04255"; transcript_id ""; gbkey "Gene"; gene "modF"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04255"; old_locus_tag "ECDH10B_0828"; -NC_010473.1 Protein Homology CDS 845470 846939 . - 0 gene_id "ECDH10B_RS04255"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "modF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415281.1"; locus_tag "ECDH10B_RS04255"; product "molybdate ABC transporter ATP-binding protein ModF"; protein_id "WP_000096869.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 846937 846939 . - 0 gene_id "ECDH10B_RS04255"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "modF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415281.1"; locus_tag "ECDH10B_RS04255"; product "molybdate ABC transporter ATP-binding protein ModF"; protein_id "WP_000096869.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 845467 845469 . - 0 gene_id "ECDH10B_RS04255"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "modF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415281.1"; locus_tag "ECDH10B_RS04255"; product "molybdate ABC transporter ATP-binding protein ModF"; protein_id "WP_000096869.1"; transl_table "11"; -NC_010473.1 RefSeq gene 847007 847795 . - . gene_id "ECDH10B_RS04260"; transcript_id ""; gbkey "Gene"; gene "modE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04260"; old_locus_tag "ECDH10B_0829"; -NC_010473.1 Protein Homology CDS 847010 847795 . - 0 gene_id "ECDH10B_RS04260"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "modE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308816.1"; locus_tag "ECDH10B_RS04260"; product "molybdenum-dependent transcriptional regulator"; protein_id "WP_001147439.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 847793 847795 . - 0 gene_id "ECDH10B_RS04260"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "modE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308816.1"; locus_tag "ECDH10B_RS04260"; product "molybdenum-dependent transcriptional regulator"; protein_id "WP_001147439.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 847007 847009 . - 0 gene_id "ECDH10B_RS04260"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "modE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308816.1"; locus_tag "ECDH10B_RS04260"; product "molybdenum-dependent transcriptional regulator"; protein_id "WP_001147439.1"; transl_table "11"; -NC_010473.1 RefSeq gene 847924 848073 . + . gene_id "ECDH10B_RS04265"; transcript_id ""; gbkey "Gene"; gene "acrZ"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04265"; old_locus_tag "ECDH10B_0830"; -NC_010473.1 Protein Homology CDS 847924 848070 . + 0 gene_id "ECDH10B_RS04265"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "acrZ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308817.1"; locus_tag "ECDH10B_RS04265"; product "multidrug efflux pump accessory protein AcrZ"; protein_id "WP_000891515.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 847924 847926 . + 0 gene_id "ECDH10B_RS04265"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "acrZ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308817.1"; locus_tag "ECDH10B_RS04265"; product "multidrug efflux pump accessory protein AcrZ"; protein_id "WP_000891515.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 848071 848073 . + 0 gene_id "ECDH10B_RS04265"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "acrZ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308817.1"; locus_tag "ECDH10B_RS04265"; product "multidrug efflux pump accessory protein AcrZ"; protein_id "WP_000891515.1"; transl_table "11"; -NC_010473.1 RefSeq gene 848240 849013 . + . gene_id "ECDH10B_RS04270"; transcript_id ""; gbkey "Gene"; gene "modA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04270"; old_locus_tag "ECDH10B_0831"; -NC_010473.1 Protein Homology CDS 848240 849010 . + 0 gene_id "ECDH10B_RS04270"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "modA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415284.1"; locus_tag "ECDH10B_RS04270"; product "molybdate ABC transporter substrate-binding protein"; protein_id "WP_000101984.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 848240 848242 . + 0 gene_id "ECDH10B_RS04270"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "modA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415284.1"; locus_tag "ECDH10B_RS04270"; product "molybdate ABC transporter substrate-binding protein"; protein_id "WP_000101984.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 849011 849013 . + 0 gene_id "ECDH10B_RS04270"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "modA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415284.1"; locus_tag "ECDH10B_RS04270"; product "molybdate ABC transporter substrate-binding protein"; protein_id "WP_000101984.1"; transl_table "11"; -NC_010473.1 RefSeq gene 849013 849702 . + . gene_id "ECDH10B_RS04275"; transcript_id ""; gbkey "Gene"; gene "modB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04275"; old_locus_tag "ECDH10B_0832"; -NC_010473.1 Protein Homology CDS 849013 849699 . + 0 gene_id "ECDH10B_RS04275"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "modB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308819.1"; locus_tag "ECDH10B_RS04275"; product "molybdate ABC transporter permease subunit"; protein_id "WP_000604034.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 849013 849015 . + 0 gene_id "ECDH10B_RS04275"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "modB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308819.1"; locus_tag "ECDH10B_RS04275"; product "molybdate ABC transporter permease subunit"; protein_id "WP_000604034.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 849700 849702 . + 0 gene_id "ECDH10B_RS04275"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "modB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308819.1"; locus_tag "ECDH10B_RS04275"; product "molybdate ABC transporter permease subunit"; protein_id "WP_000604034.1"; transl_table "11"; -NC_010473.1 RefSeq gene 849705 850763 . + . gene_id "ECDH10B_RS04280"; transcript_id ""; gbkey "Gene"; gene "modC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04280"; old_locus_tag "ECDH10B_0833"; -NC_010473.1 Protein Homology CDS 849705 850760 . + 0 gene_id "ECDH10B_RS04280"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "modC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415286.1"; locus_tag "ECDH10B_RS04280"; product "molybdenum ABC transporter ATP-binding protein ModC"; protein_id "WP_000891692.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 849705 849707 . + 0 gene_id "ECDH10B_RS04280"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "modC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415286.1"; locus_tag "ECDH10B_RS04280"; product "molybdenum ABC transporter ATP-binding protein ModC"; protein_id "WP_000891692.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 850761 850763 . + 0 gene_id "ECDH10B_RS04280"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "modC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415286.1"; locus_tag "ECDH10B_RS04280"; product "molybdenum ABC transporter ATP-binding protein ModC"; protein_id "WP_000891692.1"; transl_table "11"; -NC_010473.1 RefSeq gene 850764 851582 . - . gene_id "ECDH10B_RS04285"; transcript_id ""; gbkey "Gene"; gene "ybhA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04285"; old_locus_tag "ECDH10B_0834"; -NC_010473.1 Protein Homology CDS 850767 851582 . - 0 gene_id "ECDH10B_RS04285"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ybhA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415287.1"; locus_tag "ECDH10B_RS04285"; product "bifunctional pyridoxal phosphate/fructose-1,6-bisphosphate phosphatase"; protein_id "WP_001300666.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 851580 851582 . - 0 gene_id "ECDH10B_RS04285"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ybhA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415287.1"; locus_tag "ECDH10B_RS04285"; product "bifunctional pyridoxal phosphate/fructose-1,6-bisphosphate phosphatase"; protein_id "WP_001300666.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 850764 850766 . - 0 gene_id "ECDH10B_RS04285"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ybhA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415287.1"; locus_tag "ECDH10B_RS04285"; product "bifunctional pyridoxal phosphate/fructose-1,6-bisphosphate phosphatase"; protein_id "WP_001300666.1"; transl_table "11"; -NC_010473.1 RefSeq gene 851737 852732 . + . gene_id "ECDH10B_RS04290"; transcript_id ""; gbkey "Gene"; gene "pgl"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04290"; old_locus_tag "ECDH10B_0835"; -NC_010473.1 Protein Homology CDS 851737 852729 . + 0 gene_id "ECDH10B_RS04290"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pgl"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415288.1"; locus_tag "ECDH10B_RS04290"; product "6-phosphogluconolactonase"; protein_id "WP_000815435.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 851737 851739 . + 0 gene_id "ECDH10B_RS04290"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pgl"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415288.1"; locus_tag "ECDH10B_RS04290"; product "6-phosphogluconolactonase"; protein_id "WP_000815435.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 852730 852732 . + 0 gene_id "ECDH10B_RS04290"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pgl"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415288.1"; locus_tag "ECDH10B_RS04290"; product "6-phosphogluconolactonase"; protein_id "WP_000815435.1"; transl_table "11"; -NC_010473.1 RefSeq gene 852773 853726 . - . gene_id "ECDH10B_RS04295"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04295"; old_locus_tag "ECDH10B_0836"; -NC_010473.1 Protein Homology CDS 852776 853726 . - 0 gene_id "ECDH10B_RS04295"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415289.4"; locus_tag "ECDH10B_RS04295"; product "LysR family transcriptional regulator"; protein_id "WP_001350493.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 853724 853726 . - 0 gene_id "ECDH10B_RS04295"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415289.4"; locus_tag "ECDH10B_RS04295"; product "LysR family transcriptional regulator"; protein_id "WP_001350493.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 852773 852775 . - 0 gene_id "ECDH10B_RS04295"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415289.4"; locus_tag "ECDH10B_RS04295"; product "LysR family transcriptional regulator"; protein_id "WP_001350493.1"; transl_table "11"; -NC_010473.1 RefSeq gene 853910 854962 . + . gene_id "ECDH10B_RS04300"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04300"; old_locus_tag "ECDH10B_0837"; -NC_010473.1 Protein Homology CDS 853910 854959 . + 0 gene_id "ECDH10B_RS04300"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415290.1"; locus_tag "ECDH10B_RS04300"; product "4-oxalomesaconate tautomerase"; protein_id "WP_000723652.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 853910 853912 . + 0 gene_id "ECDH10B_RS04300"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415290.1"; locus_tag "ECDH10B_RS04300"; product "4-oxalomesaconate tautomerase"; protein_id "WP_000723652.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 854960 854962 . + 0 gene_id "ECDH10B_RS04300"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415290.1"; locus_tag "ECDH10B_RS04300"; product "4-oxalomesaconate tautomerase"; protein_id "WP_000723652.1"; transl_table "11"; -NC_010473.1 RefSeq gene 855038 856471 . + . gene_id "ECDH10B_RS04305"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04305"; old_locus_tag "ECDH10B_0838"; -NC_010473.1 Protein Homology CDS 855038 856468 . + 0 gene_id "ECDH10B_RS04305"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415291.1"; locus_tag "ECDH10B_RS04305"; product "anion permease"; protein_id "WP_001036475.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 855038 855040 . + 0 gene_id "ECDH10B_RS04305"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415291.1"; locus_tag "ECDH10B_RS04305"; product "anion permease"; protein_id "WP_001036475.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 856469 856471 . + 0 gene_id "ECDH10B_RS04305"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415291.1"; locus_tag "ECDH10B_RS04305"; product "anion permease"; protein_id "WP_001036475.1"; transl_table "11"; -NC_010473.1 RefSeq gene 856654 858915 . + . gene_id "ECDH10B_RS04310"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04310"; old_locus_tag "ECDH10B_0839"; -NC_010473.1 Protein Homology CDS 856654 858912 . + 0 gene_id "ECDH10B_RS04310"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415292.2"; locus_tag "ECDH10B_RS04310"; product "hydratase"; protein_id "WP_000593938.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 856654 856656 . + 0 gene_id "ECDH10B_RS04310"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415292.2"; locus_tag "ECDH10B_RS04310"; product "hydratase"; protein_id "WP_000593938.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 858913 858915 . + 0 gene_id "ECDH10B_RS04310"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415292.2"; locus_tag "ECDH10B_RS04310"; product "hydratase"; protein_id "WP_000593938.1"; transl_table "11"; -NC_010473.1 RefSeq gene 859149 860432 . - . gene_id "ECDH10B_RS04315"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04315"; old_locus_tag "ECDH10B_0840"; -NC_010473.1 Protein Homology CDS 859152 860432 . - 0 gene_id "ECDH10B_RS04315"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415293.1"; locus_tag "ECDH10B_RS04315"; product "putative acyl-CoA thioester hydrolase"; protein_id "WP_001091569.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 860430 860432 . - 0 gene_id "ECDH10B_RS04315"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415293.1"; locus_tag "ECDH10B_RS04315"; product "putative acyl-CoA thioester hydrolase"; protein_id "WP_001091569.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 859149 859151 . - 0 gene_id "ECDH10B_RS04315"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415293.1"; locus_tag "ECDH10B_RS04315"; product "putative acyl-CoA thioester hydrolase"; protein_id "WP_001091569.1"; transl_table "11"; -NC_010473.1 RefSeq gene 860584 861060 . - . gene_id "ECDH10B_RS04320"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04320"; old_locus_tag "ECDH10B_0841"; -NC_010473.1 Protein Homology CDS 860587 861060 . - 0 gene_id "ECDH10B_RS04320"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415294.1"; locus_tag "ECDH10B_RS04320"; product "kinase inhibitor"; protein_id "WP_000767389.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 861058 861060 . - 0 gene_id "ECDH10B_RS04320"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415294.1"; locus_tag "ECDH10B_RS04320"; product "kinase inhibitor"; protein_id "WP_000767389.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 860584 860586 . - 0 gene_id "ECDH10B_RS04320"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415294.1"; locus_tag "ECDH10B_RS04320"; product "kinase inhibitor"; protein_id "WP_000767389.1"; transl_table "11"; -NC_010473.1 RefSeq gene 861119 862408 . - . gene_id "ECDH10B_RS04325"; transcript_id ""; gbkey "Gene"; gene "bioA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04325"; old_locus_tag "ECDH10B_0842"; -NC_010473.1 Protein Homology CDS 861122 862408 . - 0 gene_id "ECDH10B_RS04325"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "bioA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415295.1"; locus_tag "ECDH10B_RS04325"; product "adenosylmethionine--8-amino-7-oxononanoate transaminase"; protein_id "WP_012305461.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 862406 862408 . - 0 gene_id "ECDH10B_RS04325"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "bioA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415295.1"; locus_tag "ECDH10B_RS04325"; product "adenosylmethionine--8-amino-7-oxononanoate transaminase"; protein_id "WP_012305461.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 861119 861121 . - 0 gene_id "ECDH10B_RS04325"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "bioA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415295.1"; locus_tag "ECDH10B_RS04325"; product "adenosylmethionine--8-amino-7-oxononanoate transaminase"; protein_id "WP_012305461.1"; transl_table "11"; -NC_010473.1 RefSeq gene 862495 863535 . + . gene_id "ECDH10B_RS04330"; transcript_id ""; gbkey "Gene"; gene "bioB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04330"; old_locus_tag "ECDH10B_0843"; -NC_010473.1 Protein Homology CDS 862495 863532 . + 0 gene_id "ECDH10B_RS04330"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "bioB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415296.1"; locus_tag "ECDH10B_RS04330"; product "biotin synthase BioB"; protein_id "WP_000951213.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 862495 862497 . + 0 gene_id "ECDH10B_RS04330"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "bioB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415296.1"; locus_tag "ECDH10B_RS04330"; product "biotin synthase BioB"; protein_id "WP_000951213.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 863533 863535 . + 0 gene_id "ECDH10B_RS04330"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "bioB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415296.1"; locus_tag "ECDH10B_RS04330"; product "biotin synthase BioB"; protein_id "WP_000951213.1"; transl_table "11"; -NC_010473.1 RefSeq gene 863532 864686 . + . gene_id "ECDH10B_RS04335"; transcript_id ""; gbkey "Gene"; gene "bioF"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04335"; old_locus_tag "ECDH10B_0844"; -NC_010473.1 Protein Homology CDS 863532 864683 . + 0 gene_id "ECDH10B_RS04335"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "bioF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415297.1"; locus_tag "ECDH10B_RS04335"; product "8-amino-7-oxononanoate synthase"; protein_id "WP_000118826.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 863532 863534 . + 0 gene_id "ECDH10B_RS04335"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "bioF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415297.1"; locus_tag "ECDH10B_RS04335"; product "8-amino-7-oxononanoate synthase"; protein_id "WP_000118826.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 864684 864686 . + 0 gene_id "ECDH10B_RS04335"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "bioF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415297.1"; locus_tag "ECDH10B_RS04335"; product "8-amino-7-oxononanoate synthase"; protein_id "WP_000118826.1"; transl_table "11"; -NC_010473.1 RefSeq gene 864673 865428 . + . gene_id "ECDH10B_RS04340"; transcript_id ""; gbkey "Gene"; gene "bioC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04340"; old_locus_tag "ECDH10B_0845"; -NC_010473.1 Protein Homology CDS 864673 865425 . + 0 gene_id "ECDH10B_RS04340"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "bioC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415298.1"; locus_tag "ECDH10B_RS04340"; product "malonyl-ACP O-methyltransferase BioC"; protein_id "WP_000246761.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 864673 864675 . + 0 gene_id "ECDH10B_RS04340"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "bioC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415298.1"; locus_tag "ECDH10B_RS04340"; product "malonyl-ACP O-methyltransferase BioC"; protein_id "WP_000246761.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 865426 865428 . + 0 gene_id "ECDH10B_RS04340"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "bioC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415298.1"; locus_tag "ECDH10B_RS04340"; product "malonyl-ACP O-methyltransferase BioC"; protein_id "WP_000246761.1"; transl_table "11"; -NC_010473.1 RefSeq gene 865421 866098 . + . gene_id "ECDH10B_RS04345"; transcript_id ""; gbkey "Gene"; gene "bioD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04345"; old_locus_tag "ECDH10B_0846"; -NC_010473.1 Protein Homology CDS 865421 866095 . + 0 gene_id "ECDH10B_RS04345"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "bioD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415299.1"; locus_tag "ECDH10B_RS04345"; product "ATP-dependent dethiobiotin synthetase BioD"; protein_id "WP_000044843.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 865421 865423 . + 0 gene_id "ECDH10B_RS04345"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "bioD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415299.1"; locus_tag "ECDH10B_RS04345"; product "ATP-dependent dethiobiotin synthetase BioD"; protein_id "WP_000044843.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 866096 866098 . + 0 gene_id "ECDH10B_RS04345"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "bioD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415299.1"; locus_tag "ECDH10B_RS04345"; product "ATP-dependent dethiobiotin synthetase BioD"; protein_id "WP_000044843.1"; transl_table "11"; -NC_010473.1 RefSeq gene 866677 868698 . + . gene_id "ECDH10B_RS04350"; transcript_id ""; gbkey "Gene"; gene "uvrB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04350"; old_locus_tag "ECDH10B_0847"; -NC_010473.1 Protein Homology CDS 866677 868695 . + 0 gene_id "ECDH10B_RS04350"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "uvrB"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005123745.1"; locus_tag "ECDH10B_RS04350"; product "excinuclease ABC subunit B"; protein_id "WP_000042533.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 866677 866679 . + 0 gene_id "ECDH10B_RS04350"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "uvrB"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005123745.1"; locus_tag "ECDH10B_RS04350"; product "excinuclease ABC subunit B"; protein_id "WP_000042533.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 868696 868698 . + 0 gene_id "ECDH10B_RS04350"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "uvrB"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005123745.1"; locus_tag "ECDH10B_RS04350"; product "excinuclease ABC subunit B"; protein_id "WP_000042533.1"; transl_table "11"; -NC_010473.1 RefSeq gene 868890 869798 . - . gene_id "ECDH10B_RS04355"; transcript_id ""; gbkey "Gene"; gene "yvcK"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04355"; old_locus_tag "ECDH10B_0848"; -NC_010473.1 Protein Homology CDS 868893 869798 . - 0 gene_id "ECDH10B_RS04355"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yvcK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415301.1"; locus_tag "ECDH10B_RS04355"; product "uridine diphosphate-N-acetylglucosamine-binding protein YvcK"; protein_id "WP_001295302.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 869796 869798 . - 0 gene_id "ECDH10B_RS04355"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yvcK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415301.1"; locus_tag "ECDH10B_RS04355"; product "uridine diphosphate-N-acetylglucosamine-binding protein YvcK"; protein_id "WP_001295302.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 868890 868892 . - 0 gene_id "ECDH10B_RS04355"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yvcK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415301.1"; locus_tag "ECDH10B_RS04355"; product "uridine diphosphate-N-acetylglucosamine-binding protein YvcK"; protein_id "WP_001295302.1"; transl_table "11"; -NC_010473.1 RefSeq gene 870195 871184 . + . gene_id "ECDH10B_RS04365"; transcript_id ""; gbkey "Gene"; gene "moaA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04365"; old_locus_tag "ECDH10B_0849"; -NC_010473.1 Protein Homology CDS 870195 871181 . + 0 gene_id "ECDH10B_RS04365"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "moaA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415302.1"; locus_tag "ECDH10B_RS04365"; product "GTP 3',8-cyclase MoaA"; protein_id "WP_001350494.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 870195 870197 . + 0 gene_id "ECDH10B_RS04365"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "moaA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415302.1"; locus_tag "ECDH10B_RS04365"; product "GTP 3',8-cyclase MoaA"; protein_id "WP_001350494.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 871182 871184 . + 0 gene_id "ECDH10B_RS04365"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "moaA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415302.1"; locus_tag "ECDH10B_RS04365"; product "GTP 3',8-cyclase MoaA"; protein_id "WP_001350494.1"; transl_table "11"; -NC_010473.1 RefSeq gene 871206 871718 . + . gene_id "ECDH10B_RS04370"; transcript_id ""; gbkey "Gene"; gene "moaB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04370"; old_locus_tag "ECDH10B_0850"; -NC_010473.1 Protein Homology CDS 871206 871715 . + 0 gene_id "ECDH10B_RS04370"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "moaB"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005123739.1"; locus_tag "ECDH10B_RS04370"; product "molybdenum cofactor biosynthesis protein B"; protein_id "WP_000084639.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 871206 871208 . + 0 gene_id "ECDH10B_RS04370"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "moaB"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005123739.1"; locus_tag "ECDH10B_RS04370"; product "molybdenum cofactor biosynthesis protein B"; protein_id "WP_000084639.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 871716 871718 . + 0 gene_id "ECDH10B_RS04370"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "moaB"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005123739.1"; locus_tag "ECDH10B_RS04370"; product "molybdenum cofactor biosynthesis protein B"; protein_id "WP_000084639.1"; transl_table "11"; -NC_010473.1 RefSeq gene 871721 872206 . + . gene_id "ECDH10B_RS04375"; transcript_id ""; gbkey "Gene"; gene "moaC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04375"; old_locus_tag "ECDH10B_0851"; -NC_010473.1 Protein Homology CDS 871721 872203 . + 0 gene_id "ECDH10B_RS04375"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "moaC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308888.1"; locus_tag "ECDH10B_RS04375"; product "cyclic pyranopterin monophosphate synthase MoaC"; protein_id "WP_000080885.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 871721 871723 . + 0 gene_id "ECDH10B_RS04375"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "moaC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308888.1"; locus_tag "ECDH10B_RS04375"; product "cyclic pyranopterin monophosphate synthase MoaC"; protein_id "WP_000080885.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 872204 872206 . + 0 gene_id "ECDH10B_RS04375"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "moaC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308888.1"; locus_tag "ECDH10B_RS04375"; product "cyclic pyranopterin monophosphate synthase MoaC"; protein_id "WP_000080885.1"; transl_table "11"; -NC_010473.1 RefSeq gene 872199 872444 . + . gene_id "ECDH10B_RS04380"; transcript_id ""; gbkey "Gene"; gene "moaD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04380"; old_locus_tag "ECDH10B_0852"; -NC_010473.1 Protein Homology CDS 872199 872441 . + 0 gene_id "ECDH10B_RS04380"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "moaD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415305.1"; locus_tag "ECDH10B_RS04380"; product "molybdopterin synthase sulfur carrier subunit"; protein_id "WP_000598619.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 872199 872201 . + 0 gene_id "ECDH10B_RS04380"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "moaD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415305.1"; locus_tag "ECDH10B_RS04380"; product "molybdopterin synthase sulfur carrier subunit"; protein_id "WP_000598619.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 872442 872444 . + 0 gene_id "ECDH10B_RS04380"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "moaD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415305.1"; locus_tag "ECDH10B_RS04380"; product "molybdopterin synthase sulfur carrier subunit"; protein_id "WP_000598619.1"; transl_table "11"; -NC_010473.1 RefSeq gene 872446 872898 . + . gene_id "ECDH10B_RS04385"; transcript_id ""; gbkey "Gene"; gene "moaE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04385"; old_locus_tag "ECDH10B_0853"; -NC_010473.1 Protein Homology CDS 872446 872895 . + 0 gene_id "ECDH10B_RS04385"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "moaE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415306.1"; locus_tag "ECDH10B_RS04385"; product "molybdopterin synthase catalytic subunit MoaE"; protein_id "WP_000852296.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 872446 872448 . + 0 gene_id "ECDH10B_RS04385"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "moaE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415306.1"; locus_tag "ECDH10B_RS04385"; product "molybdopterin synthase catalytic subunit MoaE"; protein_id "WP_000852296.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 872896 872898 . + 0 gene_id "ECDH10B_RS04385"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "moaE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415306.1"; locus_tag "ECDH10B_RS04385"; product "molybdopterin synthase catalytic subunit MoaE"; protein_id "WP_000852296.1"; transl_table "11"; -NC_010473.1 RefSeq gene 873035 873739 . + . gene_id "ECDH10B_RS04390"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04390"; old_locus_tag "ECDH10B_0854"; -NC_010473.1 Protein Homology CDS 873035 873736 . + 0 gene_id "ECDH10B_RS04390"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415307.1"; locus_tag "ECDH10B_RS04390"; product "Bax inhibitor-1/YccA family protein"; protein_id "WP_000373624.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 873035 873037 . + 0 gene_id "ECDH10B_RS04390"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415307.1"; locus_tag "ECDH10B_RS04390"; product "Bax inhibitor-1/YccA family protein"; protein_id "WP_000373624.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 873737 873739 . + 0 gene_id "ECDH10B_RS04390"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415307.1"; locus_tag "ECDH10B_RS04390"; product "Bax inhibitor-1/YccA family protein"; protein_id "WP_000373624.1"; transl_table "11"; -NC_010473.1 RefSeq gene 873944 874657 . + . gene_id "ECDH10B_RS04395"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04395"; old_locus_tag "ECDH10B_0855"; -NC_010473.1 Protein Homology CDS 873944 874654 . + 0 gene_id "ECDH10B_RS04395"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415308.1"; locus_tag "ECDH10B_RS04395"; product "Bax inhibitor-1/YccA family protein"; protein_id "WP_000446911.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 873944 873946 . + 0 gene_id "ECDH10B_RS04395"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415308.1"; locus_tag "ECDH10B_RS04395"; product "Bax inhibitor-1/YccA family protein"; protein_id "WP_000446911.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 874655 874657 . + 0 gene_id "ECDH10B_RS04395"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415308.1"; locus_tag "ECDH10B_RS04395"; product "Bax inhibitor-1/YccA family protein"; protein_id "WP_000446911.1"; transl_table "11"; -NC_010473.1 RefSeq gene 874693 875649 . - . gene_id "ECDH10B_RS04400"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04400"; old_locus_tag "ECDH10B_0856"; -NC_010473.1 Protein Homology CDS 874696 875649 . - 0 gene_id "ECDH10B_RS04400"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415309.1"; locus_tag "ECDH10B_RS04400"; product "UPF0104 family protein"; protein_id "WP_000045450.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 875647 875649 . - 0 gene_id "ECDH10B_RS04400"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415309.1"; locus_tag "ECDH10B_RS04400"; product "UPF0104 family protein"; protein_id "WP_000045450.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 874693 874695 . - 0 gene_id "ECDH10B_RS04400"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415309.1"; locus_tag "ECDH10B_RS04400"; product "UPF0104 family protein"; protein_id "WP_000045450.1"; transl_table "11"; -NC_010473.1 RefSeq gene 875649 876890 . - . gene_id "ECDH10B_RS04405"; transcript_id ""; gbkey "Gene"; gene "clsB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04405"; old_locus_tag "ECDH10B_0857"; -NC_010473.1 Protein Homology CDS 875652 876890 . - 0 gene_id "ECDH10B_RS04405"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "clsB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308894.1"; locus_tag "ECDH10B_RS04405"; product "cardiolipin synthase ClsB"; protein_id "WP_000650337.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 876888 876890 . - 0 gene_id "ECDH10B_RS04405"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "clsB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308894.1"; locus_tag "ECDH10B_RS04405"; product "cardiolipin synthase ClsB"; protein_id "WP_000650337.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 875649 875651 . - 0 gene_id "ECDH10B_RS04405"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "clsB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308894.1"; locus_tag "ECDH10B_RS04405"; product "cardiolipin synthase ClsB"; protein_id "WP_000650337.1"; transl_table "11"; -NC_010473.1 RefSeq gene 876887 877648 . - . gene_id "ECDH10B_RS04410"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04410"; old_locus_tag "ECDH10B_0858"; -NC_010473.1 Protein Homology CDS 876890 877648 . - 0 gene_id "ECDH10B_RS04410"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308895.1"; locus_tag "ECDH10B_RS04410"; product "endonuclease/exonuclease/phosphatase family protein"; protein_id "WP_001113348.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 877646 877648 . - 0 gene_id "ECDH10B_RS04410"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308895.1"; locus_tag "ECDH10B_RS04410"; product "endonuclease/exonuclease/phosphatase family protein"; protein_id "WP_001113348.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 876887 876889 . - 0 gene_id "ECDH10B_RS04410"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308895.1"; locus_tag "ECDH10B_RS04410"; product "endonuclease/exonuclease/phosphatase family protein"; protein_id "WP_001113348.1"; transl_table "11"; -NC_010473.1 RefSeq gene 877781 878191 . + . gene_id "ECDH10B_RS04415"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04415"; old_locus_tag "ECDH10B_0859"; -NC_010473.1 Protein Homology CDS 877781 878188 . + 0 gene_id "ECDH10B_RS04415"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308896.1"; locus_tag "ECDH10B_RS04415"; product "YbhQ family protein"; protein_id "WP_000871982.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 877781 877783 . + 0 gene_id "ECDH10B_RS04415"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308896.1"; locus_tag "ECDH10B_RS04415"; product "YbhQ family protein"; protein_id "WP_000871982.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 878189 878191 . + 0 gene_id "ECDH10B_RS04415"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308896.1"; locus_tag "ECDH10B_RS04415"; product "YbhQ family protein"; protein_id "WP_000871982.1"; transl_table "11"; -NC_010473.1 RefSeq gene 878153 879259 . - . gene_id "ECDH10B_RS04420"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04420"; old_locus_tag "ECDH10B_0860"; -NC_010473.1 Protein Homology CDS 878156 879259 . - 0 gene_id "ECDH10B_RS04420"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308897.1"; locus_tag "ECDH10B_RS04420"; product "ABC transporter permease"; protein_id "WP_000469031.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 879257 879259 . - 0 gene_id "ECDH10B_RS04420"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308897.1"; locus_tag "ECDH10B_RS04420"; product "ABC transporter permease"; protein_id "WP_000469031.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 878153 878155 . - 0 gene_id "ECDH10B_RS04420"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308897.1"; locus_tag "ECDH10B_RS04420"; product "ABC transporter permease"; protein_id "WP_000469031.1"; transl_table "11"; -NC_010473.1 RefSeq gene 879270 880403 . - . gene_id "ECDH10B_RS04425"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04425"; old_locus_tag "ECDH10B_0861"; -NC_010473.1 Protein Homology CDS 879273 880403 . - 0 gene_id "ECDH10B_RS04425"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308898.1"; locus_tag "ECDH10B_RS04425"; product "ABC transporter permease"; protein_id "WP_000070131.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 880401 880403 . - 0 gene_id "ECDH10B_RS04425"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308898.1"; locus_tag "ECDH10B_RS04425"; product "ABC transporter permease"; protein_id "WP_000070131.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 879270 879272 . - 0 gene_id "ECDH10B_RS04425"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308898.1"; locus_tag "ECDH10B_RS04425"; product "ABC transporter permease"; protein_id "WP_000070131.1"; transl_table "11"; -NC_010473.1 RefSeq gene 880396 882132 . - . gene_id "ECDH10B_RS04430"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04430"; old_locus_tag "ECDH10B_0862"; -NC_010473.1 Protein Homology CDS 880399 882132 . - 0 gene_id "ECDH10B_RS04430"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415315.4"; locus_tag "ECDH10B_RS04430"; product "ABC transporter ATP-binding protein"; protein_id "WP_000996107.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 882130 882132 . - 0 gene_id "ECDH10B_RS04430"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415315.4"; locus_tag "ECDH10B_RS04430"; product "ABC transporter ATP-binding protein"; protein_id "WP_000996107.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 880396 880398 . - 0 gene_id "ECDH10B_RS04430"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415315.4"; locus_tag "ECDH10B_RS04430"; product "ABC transporter ATP-binding protein"; protein_id "WP_000996107.1"; transl_table "11"; -NC_010473.1 RefSeq gene 882125 883120 . - . gene_id "ECDH10B_RS04435"; transcript_id ""; gbkey "Gene"; gene "hlyD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04435"; old_locus_tag "ECDH10B_0863"; -NC_010473.1 Protein Homology CDS 882128 883120 . - 0 gene_id "ECDH10B_RS04435"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hlyD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308900.2"; locus_tag "ECDH10B_RS04435"; product "secretion protein HlyD"; protein_id "WP_001393495.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 883118 883120 . - 0 gene_id "ECDH10B_RS04435"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hlyD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308900.2"; locus_tag "ECDH10B_RS04435"; product "secretion protein HlyD"; protein_id "WP_001393495.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 882125 882127 . - 0 gene_id "ECDH10B_RS04435"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hlyD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308900.2"; locus_tag "ECDH10B_RS04435"; product "secretion protein HlyD"; protein_id "WP_001393495.1"; transl_table "11"; -NC_010473.1 RefSeq gene 883123 883794 . - . gene_id "ECDH10B_RS04440"; transcript_id ""; gbkey "Gene"; gene "cecR"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04440"; old_locus_tag "ECDH10B_0864"; -NC_010473.1 Protein Homology CDS 883126 883794 . - 0 gene_id "ECDH10B_RS04440"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cecR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415317.4"; locus_tag "ECDH10B_RS04440"; product "DNA-binding transcriptional regulator CecR"; protein_id "WP_001296991.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 883792 883794 . - 0 gene_id "ECDH10B_RS04440"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cecR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415317.4"; locus_tag "ECDH10B_RS04440"; product "DNA-binding transcriptional regulator CecR"; protein_id "WP_001296991.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 883123 883125 . - 0 gene_id "ECDH10B_RS04440"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cecR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415317.4"; locus_tag "ECDH10B_RS04440"; product "DNA-binding transcriptional regulator CecR"; protein_id "WP_001296991.1"; transl_table "11"; -NC_010473.1 RefSeq gene 884023 885387 . + . gene_id "ECDH10B_RS04445"; transcript_id ""; gbkey "Gene"; gene "rhlE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04445"; old_locus_tag "ECDH10B_0865"; -NC_010473.1 Protein Homology CDS 884023 885384 . + 0 gene_id "ECDH10B_RS04445"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rhlE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415318.1"; locus_tag "ECDH10B_RS04445"; product "ATP-dependent RNA helicase RhlE"; protein_id "WP_000007101.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 884023 884025 . + 0 gene_id "ECDH10B_RS04445"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rhlE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415318.1"; locus_tag "ECDH10B_RS04445"; product "ATP-dependent RNA helicase RhlE"; protein_id "WP_000007101.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 885385 885387 . + 0 gene_id "ECDH10B_RS04445"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rhlE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415318.1"; locus_tag "ECDH10B_RS04445"; product "ATP-dependent RNA helicase RhlE"; protein_id "WP_000007101.1"; transl_table "11"; -NC_010473.1 RefSeq gene 885619 886101 . - . gene_id "ECDH10B_RS04450"; transcript_id ""; gbkey "Gene"; gene "ybiA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04450"; old_locus_tag "ECDH10B_0866"; -NC_010473.1 Protein Homology CDS 885622 886101 . - 0 gene_id "ECDH10B_RS04450"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ybiA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415319.1"; locus_tag "ECDH10B_RS04450"; product "N-glycosidase YbiA"; protein_id "WP_001145126.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 886099 886101 . - 0 gene_id "ECDH10B_RS04450"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ybiA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415319.1"; locus_tag "ECDH10B_RS04450"; product "N-glycosidase YbiA"; protein_id "WP_001145126.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 885619 885621 . - 0 gene_id "ECDH10B_RS04450"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ybiA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415319.1"; locus_tag "ECDH10B_RS04450"; product "N-glycosidase YbiA"; protein_id "WP_001145126.1"; transl_table "11"; -NC_010473.1 RefSeq gene 886221 888371 . + . gene_id "ECDH10B_RS04455"; transcript_id ""; gbkey "Gene"; gene "dinG"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04455"; old_locus_tag "ECDH10B_0867"; -NC_010473.1 Protein Homology CDS 886221 888368 . + 0 gene_id "ECDH10B_RS04455"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dinG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415320.1"; locus_tag "ECDH10B_RS04455"; product "ATP-dependent DNA helicase DinG"; protein_id "WP_001340191.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 886221 886223 . + 0 gene_id "ECDH10B_RS04455"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dinG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415320.1"; locus_tag "ECDH10B_RS04455"; product "ATP-dependent DNA helicase DinG"; protein_id "WP_001340191.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 888369 888371 . + 0 gene_id "ECDH10B_RS04455"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dinG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415320.1"; locus_tag "ECDH10B_RS04455"; product "ATP-dependent DNA helicase DinG"; protein_id "WP_001340191.1"; transl_table "11"; -NC_010473.1 RefSeq gene 888399 889361 . + . gene_id "ECDH10B_RS04460"; transcript_id ""; gbkey "Gene"; gene "ybiB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04460"; old_locus_tag "ECDH10B_0868"; -NC_010473.1 Protein Homology CDS 888399 889358 . + 0 gene_id "ECDH10B_RS04460"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ybiB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415321.1"; locus_tag "ECDH10B_RS04460"; product "DNA-binding protein YbiB"; protein_id "WP_000386551.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 888399 888401 . + 0 gene_id "ECDH10B_RS04460"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ybiB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415321.1"; locus_tag "ECDH10B_RS04460"; product "DNA-binding protein YbiB"; protein_id "WP_000386551.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 889359 889361 . + 0 gene_id "ECDH10B_RS04460"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ybiB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415321.1"; locus_tag "ECDH10B_RS04460"; product "DNA-binding protein YbiB"; protein_id "WP_000386551.1"; transl_table "11"; -NC_010473.1 RefSeq gene 889502 890587 . + . gene_id "ECDH10B_RS04465"; transcript_id ""; gbkey "Gene"; gene "hcxB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04465"; old_locus_tag "ECDH10B_0869"; -NC_010473.1 Protein Homology CDS 889502 890584 . + 0 gene_id "ECDH10B_RS04465"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hcxB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415322.1"; locus_tag "ECDH10B_RS04465"; product "hydroxycarboxylate dehydrogenase HcXB"; protein_id "WP_000443530.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 889502 889504 . + 0 gene_id "ECDH10B_RS04465"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hcxB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415322.1"; locus_tag "ECDH10B_RS04465"; product "hydroxycarboxylate dehydrogenase HcXB"; protein_id "WP_000443530.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 890585 890587 . + 0 gene_id "ECDH10B_RS04465"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hcxB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415322.1"; locus_tag "ECDH10B_RS04465"; product "hydroxycarboxylate dehydrogenase HcXB"; protein_id "WP_000443530.1"; transl_table "11"; -NC_010473.1 RefSeq gene 890816 891076 . - . gene_id "ECDH10B_RS04470"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04470"; old_locus_tag "ECDH10B_0870"; -NC_010473.1 Protein Homology CDS 890819 891076 . - 0 gene_id "ECDH10B_RS04470"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415323.1"; locus_tag "ECDH10B_RS04470"; product "DUF1471 domain-containing protein"; protein_id "WP_000849301.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 891074 891076 . - 0 gene_id "ECDH10B_RS04470"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415323.1"; locus_tag "ECDH10B_RS04470"; product "DUF1471 domain-containing protein"; protein_id "WP_000849301.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 890816 890818 . - 0 gene_id "ECDH10B_RS04470"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415323.1"; locus_tag "ECDH10B_RS04470"; product "DUF1471 domain-containing protein"; protein_id "WP_000849301.1"; transl_table "11"; -NC_010473.1 RefSeq gene 891341 891607 . - . gene_id "ECDH10B_RS04475"; transcript_id ""; gbkey "Gene"; gene "ybiI"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04475"; old_locus_tag "ECDH10B_0871"; -NC_010473.1 Protein Homology CDS 891344 891607 . - 0 gene_id "ECDH10B_RS04475"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ybiI"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415324.1"; locus_tag "ECDH10B_RS04475"; product "C4-type zinc finger protein YbiI"; protein_id "WP_000146343.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 891605 891607 . - 0 gene_id "ECDH10B_RS04475"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ybiI"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415324.1"; locus_tag "ECDH10B_RS04475"; product "C4-type zinc finger protein YbiI"; protein_id "WP_000146343.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 891341 891343 . - 0 gene_id "ECDH10B_RS04475"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ybiI"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415324.1"; locus_tag "ECDH10B_RS04475"; product "C4-type zinc finger protein YbiI"; protein_id "WP_000146343.1"; transl_table "11"; -NC_010473.1 RefSeq gene 891681 892358 . - . gene_id "ECDH10B_RS04480"; transcript_id ""; gbkey "Gene"; gene "ybiX"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04480"; old_locus_tag "ECDH10B_0872"; -NC_010473.1 Protein Homology CDS 891684 892358 . - 0 gene_id "ECDH10B_RS04480"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ybiX"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415325.4"; locus_tag "ECDH10B_RS04480"; product "PKHD-type hydroxylase YbiX"; protein_id "WP_000990177.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 892356 892358 . - 0 gene_id "ECDH10B_RS04480"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ybiX"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415325.4"; locus_tag "ECDH10B_RS04480"; product "PKHD-type hydroxylase YbiX"; protein_id "WP_000990177.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 891681 891683 . - 0 gene_id "ECDH10B_RS04480"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ybiX"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415325.4"; locus_tag "ECDH10B_RS04480"; product "PKHD-type hydroxylase YbiX"; protein_id "WP_000990177.1"; transl_table "11"; -NC_010473.1 RefSeq gene 892400 894682 . - . gene_id "ECDH10B_RS04485"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04485"; old_locus_tag "ECDH10B_0873"; -NC_010473.1 Protein Homology CDS 892403 894682 . - 0 gene_id "ECDH10B_RS04485"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415326.1"; locus_tag "ECDH10B_RS04485"; product "catecholate siderophore receptor Fiu"; protein_id "WP_000430057.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 894680 894682 . - 0 gene_id "ECDH10B_RS04485"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415326.1"; locus_tag "ECDH10B_RS04485"; product "catecholate siderophore receptor Fiu"; protein_id "WP_000430057.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 892400 892402 . - 0 gene_id "ECDH10B_RS04485"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415326.1"; locus_tag "ECDH10B_RS04485"; product "catecholate siderophore receptor Fiu"; protein_id "WP_000430057.1"; transl_table "11"; -NC_010473.1 RefSeq gene 894947 895207 . - . gene_id "ECDH10B_RS25905"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS25905"; old_locus_tag "ECDH10B_0874"; -NC_010473.1 Protein Homology CDS 894950 895207 . - 0 gene_id "ECDH10B_RS25905"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415327.2"; locus_tag "ECDH10B_RS25905"; product "DUF1471 domain-containing protein"; protein_id "WP_000710619.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 895205 895207 . - 0 gene_id "ECDH10B_RS25905"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415327.2"; locus_tag "ECDH10B_RS25905"; product "DUF1471 domain-containing protein"; protein_id "WP_000710619.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 894947 894949 . - 0 gene_id "ECDH10B_RS25905"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415327.2"; locus_tag "ECDH10B_RS25905"; product "DUF1471 domain-containing protein"; protein_id "WP_000710619.1"; transl_table "11"; -NC_010473.1 RefSeq gene 895483 896409 . + . gene_id "ECDH10B_RS04495"; transcript_id ""; gbkey "Gene"; gene "rlmF"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04495"; old_locus_tag "ECDH10B_0875"; -NC_010473.1 Protein Homology CDS 895483 896406 . + 0 gene_id "ECDH10B_RS04495"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rlmF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415328.4"; locus_tag "ECDH10B_RS04495"; product "23S rRNA (adenine(1618)-N(6))-methyltransferase RlmF"; protein_id "WP_001295299.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 895483 895485 . + 0 gene_id "ECDH10B_RS04495"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rlmF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415328.4"; locus_tag "ECDH10B_RS04495"; product "23S rRNA (adenine(1618)-N(6))-methyltransferase RlmF"; protein_id "WP_001295299.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 896407 896409 . + 0 gene_id "ECDH10B_RS04495"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rlmF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415328.4"; locus_tag "ECDH10B_RS04495"; product "23S rRNA (adenine(1618)-N(6))-methyltransferase RlmF"; protein_id "WP_001295299.1"; transl_table "11"; -NC_010473.1 RefSeq gene 896406 898631 . - . gene_id "ECDH10B_RS04500"; transcript_id ""; gbkey "Gene"; gene "ybiO"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04500"; old_locus_tag "ECDH10B_0876"; -NC_010473.1 Protein Homology CDS 896409 898631 . - 0 gene_id "ECDH10B_RS04500"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ybiO"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415329.4"; locus_tag "ECDH10B_RS04500"; product "mechanosensitive channel protein"; protein_id "WP_001267253.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 898629 898631 . - 0 gene_id "ECDH10B_RS04500"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ybiO"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415329.4"; locus_tag "ECDH10B_RS04500"; product "mechanosensitive channel protein"; protein_id "WP_001267253.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 896406 896408 . - 0 gene_id "ECDH10B_RS04500"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ybiO"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415329.4"; locus_tag "ECDH10B_RS04500"; product "mechanosensitive channel protein"; protein_id "WP_001267253.1"; transl_table "11"; -NC_010473.1 RefSeq gene 898892 899614 . - . gene_id "ECDH10B_RS04505"; transcript_id ""; gbkey "Gene"; gene "glnQ"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04505"; old_locus_tag "ECDH10B_0877"; -NC_010473.1 Protein Homology CDS 898895 899614 . - 0 gene_id "ECDH10B_RS04505"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "glnQ"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000569103.1"; locus_tag "ECDH10B_RS04505"; product "glutamine ABC transporter ATP-binding protein GlnQ"; protein_id "WP_000569083.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 899612 899614 . - 0 gene_id "ECDH10B_RS04505"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "glnQ"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000569103.1"; locus_tag "ECDH10B_RS04505"; product "glutamine ABC transporter ATP-binding protein GlnQ"; protein_id "WP_000569083.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 898892 898894 . - 0 gene_id "ECDH10B_RS04505"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "glnQ"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000569103.1"; locus_tag "ECDH10B_RS04505"; product "glutamine ABC transporter ATP-binding protein GlnQ"; protein_id "WP_000569083.1"; transl_table "11"; -NC_010473.1 RefSeq gene 899611 900270 . - . gene_id "ECDH10B_RS04510"; transcript_id ""; gbkey "Gene"; gene "glnP"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04510"; old_locus_tag "ECDH10B_0878"; -NC_010473.1 Protein Homology CDS 899614 900270 . - 0 gene_id "ECDH10B_RS04510"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "glnP"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_015367581.1"; locus_tag "ECDH10B_RS04510"; product "glutamine ABC transporter permease GlnP"; protein_id "WP_001159065.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 900268 900270 . - 0 gene_id "ECDH10B_RS04510"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "glnP"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_015367581.1"; locus_tag "ECDH10B_RS04510"; product "glutamine ABC transporter permease GlnP"; protein_id "WP_001159065.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 899611 899613 . - 0 gene_id "ECDH10B_RS04510"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "glnP"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_015367581.1"; locus_tag "ECDH10B_RS04510"; product "glutamine ABC transporter permease GlnP"; protein_id "WP_001159065.1"; transl_table "11"; -NC_010473.1 RefSeq gene 900409 901155 . - . gene_id "ECDH10B_RS04515"; transcript_id ""; gbkey "Gene"; gene "glnH"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04515"; old_locus_tag "ECDH10B_0879"; -NC_010473.1 Protein Homology CDS 900412 901155 . - 0 gene_id "ECDH10B_RS04515"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "glnH"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005123681.1"; locus_tag "ECDH10B_RS04515"; product "glutamine ABC transporter substrate-binding protein GlnH"; protein_id "WP_000843866.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 901153 901155 . - 0 gene_id "ECDH10B_RS04515"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "glnH"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005123681.1"; locus_tag "ECDH10B_RS04515"; product "glutamine ABC transporter substrate-binding protein GlnH"; protein_id "WP_000843866.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 900409 900411 . - 0 gene_id "ECDH10B_RS04515"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "glnH"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005123681.1"; locus_tag "ECDH10B_RS04515"; product "glutamine ABC transporter substrate-binding protein GlnH"; protein_id "WP_000843866.1"; transl_table "11"; -NC_010473.1 RefSeq gene 901559 902062 . - . gene_id "ECDH10B_RS04525"; transcript_id ""; gbkey "Gene"; gene "dps"; gene_biotype "protein_coding"; gene_synonym "pexB"; locus_tag "ECDH10B_RS04525"; old_locus_tag "ECDH10B_0880"; -NC_010473.1 Protein Homology CDS 901562 902062 . - 0 gene_id "ECDH10B_RS04525"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dps"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001730644.1"; locus_tag "ECDH10B_RS04525"; product "DNA starvation/stationary phase protection protein Dps"; protein_id "WP_000100800.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 902060 902062 . - 0 gene_id "ECDH10B_RS04525"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dps"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001730644.1"; locus_tag "ECDH10B_RS04525"; product "DNA starvation/stationary phase protection protein Dps"; protein_id "WP_000100800.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 901559 901561 . - 0 gene_id "ECDH10B_RS04525"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dps"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001730644.1"; locus_tag "ECDH10B_RS04525"; product "DNA starvation/stationary phase protection protein Dps"; protein_id "WP_000100800.1"; transl_table "11"; -NC_010473.1 RefSeq gene 902361 903248 . - . gene_id "ECDH10B_RS04530"; transcript_id ""; gbkey "Gene"; gene "rhtA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04530"; old_locus_tag "ECDH10B_0881"; -NC_010473.1 Protein Homology CDS 902364 903248 . - 0 gene_id "ECDH10B_RS04530"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rhtA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308918.1"; locus_tag "ECDH10B_RS04530"; product "threonine/homoserine exporter RhtA"; protein_id "WP_001295297.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 903246 903248 . - 0 gene_id "ECDH10B_RS04530"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rhtA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308918.1"; locus_tag "ECDH10B_RS04530"; product "threonine/homoserine exporter RhtA"; protein_id "WP_001295297.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 902361 902363 . - 0 gene_id "ECDH10B_RS04530"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rhtA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308918.1"; locus_tag "ECDH10B_RS04530"; product "threonine/homoserine exporter RhtA"; protein_id "WP_001295297.1"; transl_table "11"; -NC_010473.1 RefSeq gene 903483 903548 . + . gene_id "ECDH10B_RS25910"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS25910"; -NC_010473.1 Protein Homology CDS 903483 903545 . + 0 gene_id "ECDH10B_RS25910"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_009518760.1"; locus_tag "ECDH10B_RS25910"; product "protein YliM"; protein_id "WP_120795379.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 903483 903485 . + 0 gene_id "ECDH10B_RS25910"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_009518760.1"; locus_tag "ECDH10B_RS25910"; product "protein YliM"; protein_id "WP_120795379.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 903546 903548 . + 0 gene_id "ECDH10B_RS25910"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_009518760.1"; locus_tag "ECDH10B_RS25910"; product "protein YliM"; protein_id "WP_120795379.1"; transl_table "11"; -NC_010473.1 RefSeq gene 903601 904116 . + . gene_id "ECDH10B_RS04535"; transcript_id ""; gbkey "Gene"; gene "ompX"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04535"; old_locus_tag "ECDH10B_0882"; -NC_010473.1 Protein Homology CDS 903601 904113 . + 0 gene_id "ECDH10B_RS04535"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ompX"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308919.1"; locus_tag "ECDH10B_RS04535"; product "outer membrane protein OmpX"; protein_id "WP_001295296.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 903601 903603 . + 0 gene_id "ECDH10B_RS04535"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ompX"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308919.1"; locus_tag "ECDH10B_RS04535"; product "outer membrane protein OmpX"; protein_id "WP_001295296.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 904114 904116 . + 0 gene_id "ECDH10B_RS04535"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ompX"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308919.1"; locus_tag "ECDH10B_RS04535"; product "outer membrane protein OmpX"; protein_id "WP_001295296.1"; transl_table "11"; -NC_010473.1 RefSeq gene 904165 905748 . - . gene_id "ECDH10B_RS04540"; transcript_id ""; gbkey "Gene"; gene "opgE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04540"; old_locus_tag "ECDH10B_0883"; -NC_010473.1 Protein Homology CDS 904168 905748 . - 0 gene_id "ECDH10B_RS04540"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "opgE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415336.1"; locus_tag "ECDH10B_RS04540"; product "phosphoethanolamine transferase"; protein_id "WP_001054678.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 905746 905748 . - 0 gene_id "ECDH10B_RS04540"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "opgE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415336.1"; locus_tag "ECDH10B_RS04540"; product "phosphoethanolamine transferase"; protein_id "WP_001054678.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 904165 904167 . - 0 gene_id "ECDH10B_RS04540"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "opgE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415336.1"; locus_tag "ECDH10B_RS04540"; product "phosphoethanolamine transferase"; protein_id "WP_001054678.1"; transl_table "11"; -NC_010473.1 RefSeq gene 906020 906148 . - . gene_id "ECDH10B_RS04545"; transcript_id ""; gbkey "Gene"; gene "mntS"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04545"; -NC_010473.1 Protein Homology CDS 906023 906148 . - 0 gene_id "ECDH10B_RS04545"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mntS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_008439233.1"; locus_tag "ECDH10B_RS04545"; product "manganase accumulation protein MntS"; protein_id "WP_001001761.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 906146 906148 . - 0 gene_id "ECDH10B_RS04545"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mntS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_008439233.1"; locus_tag "ECDH10B_RS04545"; product "manganase accumulation protein MntS"; protein_id "WP_001001761.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 906020 906022 . - 0 gene_id "ECDH10B_RS04545"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mntS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_008439233.1"; locus_tag "ECDH10B_RS04545"; product "manganase accumulation protein MntS"; protein_id "WP_001001761.1"; transl_table "11"; -NC_010473.1 RefSeq gene 906334 906801 . + . gene_id "ECDH10B_RS04550"; transcript_id ""; gbkey "Gene"; gene "mntR"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04550"; old_locus_tag "ECDH10B_0886"; -NC_010473.1 Protein Homology CDS 906334 906798 . + 0 gene_id "ECDH10B_RS04550"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mntR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415338.1"; locus_tag "ECDH10B_RS04550"; product "manganese-binding transcriptional regulator MntR"; protein_id "WP_000091016.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 906334 906336 . + 0 gene_id "ECDH10B_RS04550"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mntR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415338.1"; locus_tag "ECDH10B_RS04550"; product "manganese-binding transcriptional regulator MntR"; protein_id "WP_000091016.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 906799 906801 . + 0 gene_id "ECDH10B_RS04550"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mntR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415338.1"; locus_tag "ECDH10B_RS04550"; product "manganese-binding transcriptional regulator MntR"; protein_id "WP_000091016.1"; transl_table "11"; -NC_010473.1 RefSeq gene 906798 907916 . + . gene_id "ECDH10B_RS04555"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04555"; old_locus_tag "ECDH10B_0887"; -NC_010473.1 Protein Homology CDS 906798 907913 . + 0 gene_id "ECDH10B_RS04555"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415339.1"; locus_tag "ECDH10B_RS04555"; product "anion transporter"; protein_id "WP_000056457.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 906798 906800 . + 0 gene_id "ECDH10B_RS04555"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415339.1"; locus_tag "ECDH10B_RS04555"; product "anion transporter"; protein_id "WP_000056457.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 907914 907916 . + 0 gene_id "ECDH10B_RS04555"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415339.1"; locus_tag "ECDH10B_RS04555"; product "anion transporter"; protein_id "WP_000056457.1"; transl_table "11"; -NC_010473.1 RefSeq gene 907975 908895 . - . gene_id "ECDH10B_RS04560"; transcript_id ""; gbkey "Gene"; gene "ldtB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04560"; old_locus_tag "ECDH10B_0888"; -NC_010473.1 Protein Homology CDS 907978 908895 . - 0 gene_id "ECDH10B_RS04560"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ldtB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308923.1"; locus_tag "ECDH10B_RS04560"; product "L,D-transpeptidase"; protein_id "WP_001056384.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 908893 908895 . - 0 gene_id "ECDH10B_RS04560"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ldtB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308923.1"; locus_tag "ECDH10B_RS04560"; product "L,D-transpeptidase"; protein_id "WP_001056384.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 907975 907977 . - 0 gene_id "ECDH10B_RS04560"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ldtB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308923.1"; locus_tag "ECDH10B_RS04560"; product "L,D-transpeptidase"; protein_id "WP_001056384.1"; transl_table "11"; -NC_010473.1 RefSeq gene 909114 910706 . + . gene_id "ECDH10B_RS04565"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04565"; old_locus_tag "ECDH10B_0889"; -NC_010473.1 Protein Homology CDS 909114 910703 . + 0 gene_id "ECDH10B_RS04565"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308924.1"; locus_tag "ECDH10B_RS04565"; product "ABC-F family ATPase"; protein_id "WP_000961458.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 909114 909116 . + 0 gene_id "ECDH10B_RS04565"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308924.1"; locus_tag "ECDH10B_RS04565"; product "ABC-F family ATPase"; protein_id "WP_000961458.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 910704 910706 . + 0 gene_id "ECDH10B_RS04565"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308924.1"; locus_tag "ECDH10B_RS04565"; product "ABC-F family ATPase"; protein_id "WP_000961458.1"; transl_table "11"; -NC_010473.1 RefSeq gene 910947 912212 . - . gene_id "ECDH10B_RS04570"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04570"; old_locus_tag "ECDH10B_0890"; -NC_010473.1 Protein Homology CDS 910950 912212 . - 0 gene_id "ECDH10B_RS04570"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415342.1"; locus_tag "ECDH10B_RS04570"; product "DUF1479 domain-containing protein"; protein_id "WP_000168797.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 912210 912212 . - 0 gene_id "ECDH10B_RS04570"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415342.1"; locus_tag "ECDH10B_RS04570"; product "DUF1479 domain-containing protein"; protein_id "WP_000168797.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 910947 910949 . - 0 gene_id "ECDH10B_RS04570"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415342.1"; locus_tag "ECDH10B_RS04570"; product "DUF1479 domain-containing protein"; protein_id "WP_000168797.1"; transl_table "11"; -NC_010473.1 RefSeq gene 912364 913179 . - . gene_id "ECDH10B_RS04575"; transcript_id ""; gbkey "Gene"; gene "ybiV"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04575"; old_locus_tag "ECDH10B_0891"; -NC_010473.1 Protein Homology CDS 912367 913179 . - 0 gene_id "ECDH10B_RS04575"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ybiV"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415343.1"; locus_tag "ECDH10B_RS04575"; product "sugar-phosphatase YbiV"; protein_id "WP_000114272.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 913177 913179 . - 0 gene_id "ECDH10B_RS04575"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ybiV"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415343.1"; locus_tag "ECDH10B_RS04575"; product "sugar-phosphatase YbiV"; protein_id "WP_000114272.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 912364 912366 . - 0 gene_id "ECDH10B_RS04575"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ybiV"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415343.1"; locus_tag "ECDH10B_RS04575"; product "sugar-phosphatase YbiV"; protein_id "WP_000114272.1"; transl_table "11"; -NC_010473.1 RefSeq gene 913325 915757 . - . gene_id "ECDH10B_RS04580"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04580"; old_locus_tag "ECDH10B_0892"; -NC_010473.1 Protein Homology CDS 913328 915757 . - 0 gene_id "ECDH10B_RS04580"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415344.1"; locus_tag "ECDH10B_RS04580"; product "glycyl radical protein"; protein_id "WP_000209309.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 915755 915757 . - 0 gene_id "ECDH10B_RS04580"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415344.1"; locus_tag "ECDH10B_RS04580"; product "glycyl radical protein"; protein_id "WP_000209309.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 913325 913327 . - 0 gene_id "ECDH10B_RS04580"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415344.1"; locus_tag "ECDH10B_RS04580"; product "glycyl radical protein"; protein_id "WP_000209309.1"; transl_table "11"; -NC_010473.1 RefSeq gene 915763 916662 . - . gene_id "ECDH10B_RS04585"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04585"; old_locus_tag "ECDH10B_0893"; -NC_010473.1 Protein Homology CDS 915766 916662 . - 0 gene_id "ECDH10B_RS04585"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415345.2"; locus_tag "ECDH10B_RS04585"; product "glycyl-radical enzyme activating protein"; protein_id "WP_001295295.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 916660 916662 . - 0 gene_id "ECDH10B_RS04585"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415345.2"; locus_tag "ECDH10B_RS04585"; product "glycyl-radical enzyme activating protein"; protein_id "WP_001295295.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 915763 915765 . - 0 gene_id "ECDH10B_RS04585"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415345.2"; locus_tag "ECDH10B_RS04585"; product "glycyl-radical enzyme activating protein"; protein_id "WP_001295295.1"; transl_table "11"; -NC_010473.1 RefSeq gene 916793 917455 . + . gene_id "ECDH10B_RS04590"; transcript_id ""; gbkey "Gene"; gene "fsa"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04590"; old_locus_tag "ECDH10B_0894"; -NC_010473.1 Protein Homology CDS 916793 917452 . + 0 gene_id "ECDH10B_RS04590"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fsa"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415346.4"; locus_tag "ECDH10B_RS04590"; product "fructose-6-phosphate aldolase"; protein_id "WP_001336208.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 916793 916795 . + 0 gene_id "ECDH10B_RS04590"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fsa"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415346.4"; locus_tag "ECDH10B_RS04590"; product "fructose-6-phosphate aldolase"; protein_id "WP_001336208.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 917453 917455 . + 0 gene_id "ECDH10B_RS04590"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fsa"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415346.4"; locus_tag "ECDH10B_RS04590"; product "fructose-6-phosphate aldolase"; protein_id "WP_001336208.1"; transl_table "11"; -NC_010473.1 RefSeq gene 917531 918280 . - . gene_id "ECDH10B_RS04595"; transcript_id ""; gbkey "Gene"; gene "moeB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04595"; old_locus_tag "ECDH10B_0895"; -NC_010473.1 Protein Homology CDS 917534 918280 . - 0 gene_id "ECDH10B_RS04595"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "moeB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415347.1"; locus_tag "ECDH10B_RS04595"; product "molybdopterin-synthase adenylyltransferase MoeB"; protein_id "WP_000829217.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 918278 918280 . - 0 gene_id "ECDH10B_RS04595"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "moeB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415347.1"; locus_tag "ECDH10B_RS04595"; product "molybdopterin-synthase adenylyltransferase MoeB"; protein_id "WP_000829217.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 917531 917533 . - 0 gene_id "ECDH10B_RS04595"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "moeB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415347.1"; locus_tag "ECDH10B_RS04595"; product "molybdopterin-synthase adenylyltransferase MoeB"; protein_id "WP_000829217.1"; transl_table "11"; -NC_010473.1 RefSeq gene 918280 919515 . - . gene_id "ECDH10B_RS04600"; transcript_id ""; gbkey "Gene"; gene "moeA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04600"; old_locus_tag "ECDH10B_0896"; -NC_010473.1 Protein Homology CDS 918283 919515 . - 0 gene_id "ECDH10B_RS04600"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "moeA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415348.1"; locus_tag "ECDH10B_RS04600"; product "molybdopterin molybdotransferase MoeA"; protein_id "WP_000397340.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 919513 919515 . - 0 gene_id "ECDH10B_RS04600"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "moeA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415348.1"; locus_tag "ECDH10B_RS04600"; product "molybdopterin molybdotransferase MoeA"; protein_id "WP_000397340.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 918280 918282 . - 0 gene_id "ECDH10B_RS04600"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "moeA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415348.1"; locus_tag "ECDH10B_RS04600"; product "molybdopterin molybdotransferase MoeA"; protein_id "WP_000397340.1"; transl_table "11"; -NC_010473.1 RefSeq gene 919719 920684 . + . gene_id "ECDH10B_RS04605"; transcript_id ""; gbkey "Gene"; gene "iaaA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04605"; old_locus_tag "ECDH10B_0897"; -NC_010473.1 Protein Homology CDS 919719 920681 . + 0 gene_id "ECDH10B_RS04605"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "iaaA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415349.1"; locus_tag "ECDH10B_RS04605"; product "beta-aspartyl-peptidase"; protein_id "WP_000513781.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 919719 919721 . + 0 gene_id "ECDH10B_RS04605"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "iaaA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415349.1"; locus_tag "ECDH10B_RS04605"; product "beta-aspartyl-peptidase"; protein_id "WP_000513781.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 920682 920684 . + 0 gene_id "ECDH10B_RS04605"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "iaaA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415349.1"; locus_tag "ECDH10B_RS04605"; product "beta-aspartyl-peptidase"; protein_id "WP_000513781.1"; transl_table "11"; -NC_010473.1 RefSeq gene 920671 922542 . + . gene_id "ECDH10B_RS04610"; transcript_id ""; gbkey "Gene"; gene "gsiA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04610"; old_locus_tag "ECDH10B_0898"; -NC_010473.1 Protein Homology CDS 920671 922539 . + 0 gene_id "ECDH10B_RS04610"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gsiA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415350.2"; locus_tag "ECDH10B_RS04610"; product "glutathione ABC transporter ATP-binding protein GsiA"; protein_id "WP_001301279.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 920671 920673 . + 0 gene_id "ECDH10B_RS04610"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gsiA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415350.2"; locus_tag "ECDH10B_RS04610"; product "glutathione ABC transporter ATP-binding protein GsiA"; protein_id "WP_001301279.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 922540 922542 . + 0 gene_id "ECDH10B_RS04610"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gsiA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415350.2"; locus_tag "ECDH10B_RS04610"; product "glutathione ABC transporter ATP-binding protein GsiA"; protein_id "WP_001301279.1"; transl_table "11"; -NC_010473.1 RefSeq gene 922562 924100 . + . gene_id "ECDH10B_RS04615"; transcript_id ""; gbkey "Gene"; gene "gsiB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04615"; old_locus_tag "ECDH10B_0899"; -NC_010473.1 Protein Homology CDS 922562 924097 . + 0 gene_id "ECDH10B_RS04615"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gsiB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415351.1"; locus_tag "ECDH10B_RS04615"; product "glutathione ABC transporter substrate-binding protein GsiB"; protein_id "WP_000090140.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 922562 922564 . + 0 gene_id "ECDH10B_RS04615"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gsiB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415351.1"; locus_tag "ECDH10B_RS04615"; product "glutathione ABC transporter substrate-binding protein GsiB"; protein_id "WP_000090140.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 924098 924100 . + 0 gene_id "ECDH10B_RS04615"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gsiB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415351.1"; locus_tag "ECDH10B_RS04615"; product "glutathione ABC transporter substrate-binding protein GsiB"; protein_id "WP_000090140.1"; transl_table "11"; -NC_010473.1 RefSeq gene 924118 925038 . + . gene_id "ECDH10B_RS04620"; transcript_id ""; gbkey "Gene"; gene "gsiC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04620"; old_locus_tag "ECDH10B_0900"; -NC_010473.1 Protein Homology CDS 924118 925035 . + 0 gene_id "ECDH10B_RS04620"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gsiC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415352.1"; locus_tag "ECDH10B_RS04620"; product "glutathione ABC transporter permease GsiC"; protein_id "WP_000936043.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 924118 924120 . + 0 gene_id "ECDH10B_RS04620"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gsiC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415352.1"; locus_tag "ECDH10B_RS04620"; product "glutathione ABC transporter permease GsiC"; protein_id "WP_000936043.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 925036 925038 . + 0 gene_id "ECDH10B_RS04620"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gsiC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415352.1"; locus_tag "ECDH10B_RS04620"; product "glutathione ABC transporter permease GsiC"; protein_id "WP_000936043.1"; transl_table "11"; -NC_010473.1 RefSeq gene 925041 925952 . + . gene_id "ECDH10B_RS04625"; transcript_id ""; gbkey "Gene"; gene "gsiD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04625"; old_locus_tag "ECDH10B_0901"; -NC_010473.1 Protein Homology CDS 925041 925949 . + 0 gene_id "ECDH10B_RS04625"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gsiD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415353.1"; locus_tag "ECDH10B_RS04625"; product "glutathione ABC transporter permease GsiD"; protein_id "WP_001236051.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 925041 925043 . + 0 gene_id "ECDH10B_RS04625"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gsiD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415353.1"; locus_tag "ECDH10B_RS04625"; product "glutathione ABC transporter permease GsiD"; protein_id "WP_001236051.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 925950 925952 . + 0 gene_id "ECDH10B_RS04625"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gsiD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415353.1"; locus_tag "ECDH10B_RS04625"; product "glutathione ABC transporter permease GsiD"; protein_id "WP_001236051.1"; transl_table "11"; -NC_010473.1 RefSeq gene 926130 928478 . + . gene_id "ECDH10B_RS04630"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04630"; old_locus_tag "ECDH10B_0902"; -NC_010473.1 Protein Homology CDS 926130 928475 . + 0 gene_id "ECDH10B_RS04630"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415354.1"; locus_tag "ECDH10B_RS04630"; product "CHASE9 sensor domain-containing protein"; protein_id "WP_001360263.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 926130 926132 . + 0 gene_id "ECDH10B_RS04630"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415354.1"; locus_tag "ECDH10B_RS04630"; product "CHASE9 sensor domain-containing protein"; protein_id "WP_001360263.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 928476 928478 . + 0 gene_id "ECDH10B_RS04630"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415354.1"; locus_tag "ECDH10B_RS04630"; product "CHASE9 sensor domain-containing protein"; protein_id "WP_001360263.1"; transl_table "11"; -NC_010473.1 RefSeq gene 928486 929814 . + . gene_id "ECDH10B_RS04635"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04635"; old_locus_tag "ECDH10B_0903"; -NC_010473.1 Protein Homology CDS 928486 929811 . + 0 gene_id "ECDH10B_RS04635"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415355.1"; locus_tag "ECDH10B_RS04635"; product "GGDEF domain-containing protein"; protein_id "WP_000086904.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 928486 928488 . + 0 gene_id "ECDH10B_RS04635"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415355.1"; locus_tag "ECDH10B_RS04635"; product "GGDEF domain-containing protein"; protein_id "WP_000086904.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 929812 929814 . + 0 gene_id "ECDH10B_RS04635"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415355.1"; locus_tag "ECDH10B_RS04635"; product "GGDEF domain-containing protein"; protein_id "WP_000086904.1"; transl_table "11"; -NC_010473.1 RefSeq gene 929861 931186 . - . gene_id "ECDH10B_RS04640"; transcript_id ""; gbkey "Gene"; gene "rimO"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04640"; old_locus_tag "ECDH10B_0904"; -NC_010473.1 Protein Homology CDS 929864 931186 . - 0 gene_id "ECDH10B_RS04640"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rimO"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308942.1"; locus_tag "ECDH10B_RS04640"; product "30S ribosomal protein S12 methylthiotransferase RimO"; protein_id "WP_000049367.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 931184 931186 . - 0 gene_id "ECDH10B_RS04640"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rimO"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308942.1"; locus_tag "ECDH10B_RS04640"; product "30S ribosomal protein S12 methylthiotransferase RimO"; protein_id "WP_000049367.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 929861 929863 . - 0 gene_id "ECDH10B_RS04640"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rimO"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308942.1"; locus_tag "ECDH10B_RS04640"; product "30S ribosomal protein S12 methylthiotransferase RimO"; protein_id "WP_000049367.1"; transl_table "11"; -NC_010473.1 RefSeq gene 931399 931782 . + . gene_id "ECDH10B_RS04645"; transcript_id ""; gbkey "Gene"; gene "bssR"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04645"; old_locus_tag "ECDH10B_0905"; -NC_010473.1 Protein Homology CDS 931399 931779 . + 0 gene_id "ECDH10B_RS04645"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "bssR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308943.1"; locus_tag "ECDH10B_RS04645"; product "biofilm formation regulator BssR"; protein_id "WP_000497137.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 931399 931401 . + 0 gene_id "ECDH10B_RS04645"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "bssR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308943.1"; locus_tag "ECDH10B_RS04645"; product "biofilm formation regulator BssR"; protein_id "WP_000497137.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 931780 931782 . + 0 gene_id "ECDH10B_RS04645"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "bssR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308943.1"; locus_tag "ECDH10B_RS04645"; product "biofilm formation regulator BssR"; protein_id "WP_000497137.1"; transl_table "11"; -NC_010473.1 RefSeq gene 931893 933008 . + . gene_id "ECDH10B_RS04650"; transcript_id ""; gbkey "Gene"; gene "yliI"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04650"; old_locus_tag "ECDH10B_0906"; -NC_010473.1 Protein Homology CDS 931893 933005 . + 0 gene_id "ECDH10B_RS04650"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yliI"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415358.1"; locus_tag "ECDH10B_RS04650"; product "aldose sugar dehydrogenase YliI"; protein_id "WP_000555031.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 931893 931895 . + 0 gene_id "ECDH10B_RS04650"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yliI"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415358.1"; locus_tag "ECDH10B_RS04650"; product "aldose sugar dehydrogenase YliI"; protein_id "WP_000555031.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 933006 933008 . + 0 gene_id "ECDH10B_RS04650"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yliI"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415358.1"; locus_tag "ECDH10B_RS04650"; product "aldose sugar dehydrogenase YliI"; protein_id "WP_000555031.1"; transl_table "11"; -NC_010473.1 RefSeq gene 933005 933631 . - . gene_id "ECDH10B_RS04655"; transcript_id ""; gbkey "Gene"; gene "gstB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04655"; old_locus_tag "ECDH10B_0907"; -NC_010473.1 Protein Homology CDS 933008 933631 . - 0 gene_id "ECDH10B_RS04655"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gstB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308945.2"; locus_tag "ECDH10B_RS04655"; product "glutathione S-transferase GstB"; protein_id "WP_001295292.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 933629 933631 . - 0 gene_id "ECDH10B_RS04655"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gstB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308945.2"; locus_tag "ECDH10B_RS04655"; product "glutathione S-transferase GstB"; protein_id "WP_001295292.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 933005 933007 . - 0 gene_id "ECDH10B_RS04655"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gstB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308945.2"; locus_tag "ECDH10B_RS04655"; product "glutathione S-transferase GstB"; protein_id "WP_001295292.1"; transl_table "11"; -NC_010473.1 RefSeq gene 933878 935080 . + . gene_id "ECDH10B_RS04660"; transcript_id ""; gbkey "Gene"; gene "dacC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04660"; old_locus_tag "ECDH10B_0908"; -NC_010473.1 Protein Homology CDS 933878 935077 . + 0 gene_id "ECDH10B_RS04660"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dacC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415360.1"; locus_tag "ECDH10B_RS04660"; product "serine-type D-Ala-D-Ala carboxypeptidase"; protein_id "WP_001300708.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 933878 933880 . + 0 gene_id "ECDH10B_RS04660"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dacC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415360.1"; locus_tag "ECDH10B_RS04660"; product "serine-type D-Ala-D-Ala carboxypeptidase"; protein_id "WP_001300708.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 935078 935080 . + 0 gene_id "ECDH10B_RS04660"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dacC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415360.1"; locus_tag "ECDH10B_RS04660"; product "serine-type D-Ala-D-Ala carboxypeptidase"; protein_id "WP_001300708.1"; transl_table "11"; -NC_010473.1 RefSeq gene 935127 935885 . - . gene_id "ECDH10B_RS04665"; transcript_id ""; gbkey "Gene"; gene "deoR"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04665"; old_locus_tag "ECDH10B_0909"; -NC_010473.1 Protein Homology CDS 935130 935885 . - 0 gene_id "ECDH10B_RS04665"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "deoR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308947.1"; locus_tag "ECDH10B_RS04665"; product "DNA-binding transcriptional repressor DeoR"; protein_id "WP_000450121.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 935883 935885 . - 0 gene_id "ECDH10B_RS04665"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "deoR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308947.1"; locus_tag "ECDH10B_RS04665"; product "DNA-binding transcriptional repressor DeoR"; protein_id "WP_000450121.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 935127 935129 . - 0 gene_id "ECDH10B_RS04665"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "deoR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308947.1"; locus_tag "ECDH10B_RS04665"; product "DNA-binding transcriptional repressor DeoR"; protein_id "WP_000450121.1"; transl_table "11"; -NC_010473.1 RefSeq gene 935943 936539 . - . gene_id "ECDH10B_RS04670"; transcript_id ""; gbkey "Gene"; gene "ybjG"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04670"; old_locus_tag "ECDH10B_0910"; -NC_010473.1 Protein Homology CDS 935946 936539 . - 0 gene_id "ECDH10B_RS04670"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ybjG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415362.1"; locus_tag "ECDH10B_RS04670"; product "undecaprenyl-diphosphate phosphatase"; protein_id "WP_001295291.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 936537 936539 . - 0 gene_id "ECDH10B_RS04670"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ybjG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415362.1"; locus_tag "ECDH10B_RS04670"; product "undecaprenyl-diphosphate phosphatase"; protein_id "WP_001295291.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 935943 935945 . - 0 gene_id "ECDH10B_RS04670"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ybjG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415362.1"; locus_tag "ECDH10B_RS04670"; product "undecaprenyl-diphosphate phosphatase"; protein_id "WP_001295291.1"; transl_table "11"; -NC_010473.1 RefSeq gene 936824 938056 . + . gene_id "ECDH10B_RS04675"; transcript_id ""; gbkey "Gene"; gene "mdfA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04675"; old_locus_tag "ECDH10B_0911"; -NC_010473.1 Protein Homology CDS 936824 938053 . + 0 gene_id "ECDH10B_RS04675"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mdfA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308949.1"; locus_tag "ECDH10B_RS04675"; product "multidrug efflux MFS transporter MdfA"; protein_id "WP_001180089.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 936824 936826 . + 0 gene_id "ECDH10B_RS04675"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mdfA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308949.1"; locus_tag "ECDH10B_RS04675"; product "multidrug efflux MFS transporter MdfA"; protein_id "WP_001180089.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 938054 938056 . + 0 gene_id "ECDH10B_RS04675"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mdfA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308949.1"; locus_tag "ECDH10B_RS04675"; product "multidrug efflux MFS transporter MdfA"; protein_id "WP_001180089.1"; transl_table "11"; -NC_010473.1 RefSeq gene 938097 938381 . - . gene_id "ECDH10B_RS04680"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04680"; old_locus_tag "ECDH10B_0912"; -NC_010473.1 Protein Homology CDS 938100 938381 . - 0 gene_id "ECDH10B_RS04680"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415364.1"; locus_tag "ECDH10B_RS04680"; product "hypothetical protein"; protein_id "WP_000605480.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 938379 938381 . - 0 gene_id "ECDH10B_RS04680"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415364.1"; locus_tag "ECDH10B_RS04680"; product "hypothetical protein"; protein_id "WP_000605480.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 938097 938099 . - 0 gene_id "ECDH10B_RS04680"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415364.1"; locus_tag "ECDH10B_RS04680"; product "hypothetical protein"; protein_id "WP_000605480.1"; transl_table "11"; -NC_010473.1 RefSeq gene 938467 939282 . - . gene_id "ECDH10B_RS04685"; transcript_id ""; gbkey "Gene"; gene "ybjI"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04685"; old_locus_tag "ECDH10B_0913"; -NC_010473.1 Protein Homology CDS 938470 939282 . - 0 gene_id "ECDH10B_RS04685"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ybjI"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415365.4"; locus_tag "ECDH10B_RS04685"; product "5-amino-6-(5-phospho-D-ribitylamino)uracil phosphatase"; protein_id "WP_000023565.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 939280 939282 . - 0 gene_id "ECDH10B_RS04685"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ybjI"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415365.4"; locus_tag "ECDH10B_RS04685"; product "5-amino-6-(5-phospho-D-ribitylamino)uracil phosphatase"; protein_id "WP_000023565.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 938467 938469 . - 0 gene_id "ECDH10B_RS04685"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ybjI"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415365.4"; locus_tag "ECDH10B_RS04685"; product "5-amino-6-(5-phospho-D-ribitylamino)uracil phosphatase"; protein_id "WP_000023565.1"; transl_table "11"; -NC_010473.1 RefSeq gene 939282 940490 . - . gene_id "ECDH10B_RS04690"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04690"; old_locus_tag "ECDH10B_0914"; -NC_010473.1 Protein Homology CDS 939285 940490 . - 0 gene_id "ECDH10B_RS04690"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415366.1"; locus_tag "ECDH10B_RS04690"; product "MFS transporter"; protein_id "WP_000217859.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 940488 940490 . - 0 gene_id "ECDH10B_RS04690"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415366.1"; locus_tag "ECDH10B_RS04690"; product "MFS transporter"; protein_id "WP_000217859.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 939282 939284 . - 0 gene_id "ECDH10B_RS04690"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415366.1"; locus_tag "ECDH10B_RS04690"; product "MFS transporter"; protein_id "WP_000217859.1"; transl_table "11"; -NC_010473.1 RefSeq gene 940574 941110 . + . gene_id "ECDH10B_RS04695"; transcript_id ""; gbkey "Gene"; gene "rcdA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04695"; old_locus_tag "ECDH10B_0915"; -NC_010473.1 Protein Homology CDS 940574 941107 . + 0 gene_id "ECDH10B_RS04695"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rcdA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415367.1"; locus_tag "ECDH10B_RS04695"; product "DNA-binding transcriptional regulator RcdA"; protein_id "WP_001295289.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 940574 940576 . + 0 gene_id "ECDH10B_RS04695"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rcdA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415367.1"; locus_tag "ECDH10B_RS04695"; product "DNA-binding transcriptional regulator RcdA"; protein_id "WP_001295289.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 941108 941110 . + 0 gene_id "ECDH10B_RS04695"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rcdA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415367.1"; locus_tag "ECDH10B_RS04695"; product "DNA-binding transcriptional regulator RcdA"; protein_id "WP_001295289.1"; transl_table "11"; -NC_010473.1 RefSeq gene 941285 942970 . - . gene_id "ECDH10B_RS04700"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04700"; old_locus_tag "ECDH10B_0917"; -NC_010473.1 Protein Homology CDS 941288 942970 . - 0 gene_id "ECDH10B_RS04700"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001024888.1"; locus_tag "ECDH10B_RS04700"; product "aspartate:alanine antiporter"; protein_id "WP_001024876.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 942968 942970 . - 0 gene_id "ECDH10B_RS04700"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001024888.1"; locus_tag "ECDH10B_RS04700"; product "aspartate:alanine antiporter"; protein_id "WP_001024876.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 941285 941287 . - 0 gene_id "ECDH10B_RS04700"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001024888.1"; locus_tag "ECDH10B_RS04700"; product "aspartate:alanine antiporter"; protein_id "WP_001024876.1"; transl_table "11"; -NC_010473.1 RefSeq gene 943240 943617 . + . gene_id "ECDH10B_RS04705"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04705"; old_locus_tag "ECDH10B_0918"; -NC_010473.1 Protein Homology CDS 943240 943614 . + 0 gene_id "ECDH10B_RS04705"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308955.1"; locus_tag "ECDH10B_RS04705"; product "inner membrane protein YbjM"; protein_id "WP_000681108.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 943240 943242 . + 0 gene_id "ECDH10B_RS04705"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308955.1"; locus_tag "ECDH10B_RS04705"; product "inner membrane protein YbjM"; protein_id "WP_000681108.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 943615 943617 . + 0 gene_id "ECDH10B_RS04705"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308955.1"; locus_tag "ECDH10B_RS04705"; product "inner membrane protein YbjM"; protein_id "WP_000681108.1"; transl_table "11"; -NC_010473.1 RefSeq gene 943647 943904 . - . gene_id "ECDH10B_RS04710"; transcript_id ""; gbkey "Gene"; gene "grxA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04710"; old_locus_tag "ECDH10B_0919"; -NC_010473.1 Protein Homology CDS 943650 943904 . - 0 gene_id "ECDH10B_RS04710"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "grxA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415370.1"; locus_tag "ECDH10B_RS04710"; product "glutaredoxin 1"; protein_id "WP_001195240.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 943902 943904 . - 0 gene_id "ECDH10B_RS04710"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "grxA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415370.1"; locus_tag "ECDH10B_RS04710"; product "glutaredoxin 1"; protein_id "WP_001195240.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 943647 943649 . - 0 gene_id "ECDH10B_RS04710"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "grxA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415370.1"; locus_tag "ECDH10B_RS04710"; product "glutaredoxin 1"; protein_id "WP_001195240.1"; transl_table "11"; -NC_010473.1 RefSeq gene 944064 944351 . + . gene_id "ECDH10B_RS04715"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04715"; old_locus_tag "ECDH10B_0920"; -NC_010473.1 Protein Homology CDS 944064 944348 . + 0 gene_id "ECDH10B_RS04715"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415371.1"; locus_tag "ECDH10B_RS04715"; product "DUF1418 family protein"; protein_id "WP_001201560.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 944064 944066 . + 0 gene_id "ECDH10B_RS04715"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415371.1"; locus_tag "ECDH10B_RS04715"; product "DUF1418 family protein"; protein_id "WP_001201560.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 944349 944351 . + 0 gene_id "ECDH10B_RS04715"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415371.1"; locus_tag "ECDH10B_RS04715"; product "DUF1418 family protein"; protein_id "WP_001201560.1"; transl_table "11"; -NC_010473.1 RefSeq gene 944335 945057 . + . gene_id "ECDH10B_RS04720"; transcript_id ""; gbkey "Gene"; gene "nfsA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04720"; old_locus_tag "ECDH10B_0921"; -NC_010473.1 Protein Homology CDS 944335 945054 . + 0 gene_id "ECDH10B_RS04720"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nfsA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415372.1"; locus_tag "ECDH10B_RS04720"; product "nitroreductase NfsA"; protein_id "WP_000189159.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 944335 944337 . + 0 gene_id "ECDH10B_RS04720"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nfsA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415372.1"; locus_tag "ECDH10B_RS04720"; product "nitroreductase NfsA"; protein_id "WP_000189159.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 945055 945057 . + 0 gene_id "ECDH10B_RS04720"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nfsA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415372.1"; locus_tag "ECDH10B_RS04720"; product "nitroreductase NfsA"; protein_id "WP_000189159.1"; transl_table "11"; -NC_010473.1 RefSeq gene 945118 946020 . + . gene_id "ECDH10B_RS04725"; transcript_id ""; gbkey "Gene"; gene "rimK"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04725"; old_locus_tag "ECDH10B_0922"; -NC_010473.1 Protein Homology CDS 945118 946017 . + 0 gene_id "ECDH10B_RS04725"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rimK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308959.1"; locus_tag "ECDH10B_RS04725"; product "30S ribosomal protein S6--L-glutamate ligase"; protein_id "WP_000684321.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 945118 945120 . + 0 gene_id "ECDH10B_RS04725"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rimK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308959.1"; locus_tag "ECDH10B_RS04725"; product "30S ribosomal protein S6--L-glutamate ligase"; protein_id "WP_000684321.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 946018 946020 . + 0 gene_id "ECDH10B_RS04725"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rimK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308959.1"; locus_tag "ECDH10B_RS04725"; product "30S ribosomal protein S6--L-glutamate ligase"; protein_id "WP_000684321.1"; transl_table "11"; -NC_010473.1 RefSeq gene 946108 946584 . + . gene_id "ECDH10B_RS04730"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04730"; old_locus_tag "ECDH10B_0923"; -NC_010473.1 Protein Homology CDS 946108 946581 . + 0 gene_id "ECDH10B_RS04730"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308960.1"; locus_tag "ECDH10B_RS04730"; product "YbjN domain-containing protein"; protein_id "WP_000203025.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 946108 946110 . + 0 gene_id "ECDH10B_RS04730"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308960.1"; locus_tag "ECDH10B_RS04730"; product "YbjN domain-containing protein"; protein_id "WP_000203025.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 946582 946584 . + 0 gene_id "ECDH10B_RS04730"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308960.1"; locus_tag "ECDH10B_RS04730"; product "YbjN domain-containing protein"; protein_id "WP_000203025.1"; transl_table "11"; -NC_010473.1 RefSeq gene 946935 948047 . + . gene_id "ECDH10B_RS04740"; transcript_id ""; gbkey "Gene"; gene "potF"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04740"; old_locus_tag "ECDH10B_0924"; -NC_010473.1 Protein Homology CDS 946935 948044 . + 0 gene_id "ECDH10B_RS04740"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "potF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415375.1"; locus_tag "ECDH10B_RS04740"; product "spermidine/putrescine ABC transporter substrate-binding protein PotF"; protein_id "WP_000126072.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 946935 946937 . + 0 gene_id "ECDH10B_RS04740"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "potF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415375.1"; locus_tag "ECDH10B_RS04740"; product "spermidine/putrescine ABC transporter substrate-binding protein PotF"; protein_id "WP_000126072.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 948045 948047 . + 0 gene_id "ECDH10B_RS04740"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "potF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415375.1"; locus_tag "ECDH10B_RS04740"; product "spermidine/putrescine ABC transporter substrate-binding protein PotF"; protein_id "WP_000126072.1"; transl_table "11"; -NC_010473.1 RefSeq gene 948142 949275 . + . gene_id "ECDH10B_RS04745"; transcript_id ""; gbkey "Gene"; gene "potG"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04745"; old_locus_tag "ECDH10B_0925"; -NC_010473.1 Protein Homology CDS 948142 949272 . + 0 gene_id "ECDH10B_RS04745"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "potG"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000996010.1"; locus_tag "ECDH10B_RS04745"; product "putrescine ABC transporter ATP-binding subunit PotG"; protein_id "WP_000996005.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 948142 948144 . + 0 gene_id "ECDH10B_RS04745"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "potG"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000996010.1"; locus_tag "ECDH10B_RS04745"; product "putrescine ABC transporter ATP-binding subunit PotG"; protein_id "WP_000996005.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 949273 949275 . + 0 gene_id "ECDH10B_RS04745"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "potG"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000996010.1"; locus_tag "ECDH10B_RS04745"; product "putrescine ABC transporter ATP-binding subunit PotG"; protein_id "WP_000996005.1"; transl_table "11"; -NC_010473.1 RefSeq gene 949285 950238 . + . gene_id "ECDH10B_RS04750"; transcript_id ""; gbkey "Gene"; gene "potH"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04750"; old_locus_tag "ECDH10B_0926"; -NC_010473.1 Protein Homology CDS 949285 950235 . + 0 gene_id "ECDH10B_RS04750"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "potH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415377.1"; locus_tag "ECDH10B_RS04750"; product "putrescine ABC transporter permease PotH"; protein_id "WP_000105430.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 949285 949287 . + 0 gene_id "ECDH10B_RS04750"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "potH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415377.1"; locus_tag "ECDH10B_RS04750"; product "putrescine ABC transporter permease PotH"; protein_id "WP_000105430.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 950236 950238 . + 0 gene_id "ECDH10B_RS04750"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "potH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415377.1"; locus_tag "ECDH10B_RS04750"; product "putrescine ABC transporter permease PotH"; protein_id "WP_000105430.1"; transl_table "11"; -NC_010473.1 RefSeq gene 950235 951080 . + . gene_id "ECDH10B_RS04755"; transcript_id ""; gbkey "Gene"; gene "potI"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04755"; old_locus_tag "ECDH10B_0927"; -NC_010473.1 Protein Homology CDS 950235 951077 . + 0 gene_id "ECDH10B_RS04755"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "potI"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415378.1"; locus_tag "ECDH10B_RS04755"; product "putrescine ABC transporter permease PotI"; protein_id "WP_001061658.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 950235 950237 . + 0 gene_id "ECDH10B_RS04755"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "potI"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415378.1"; locus_tag "ECDH10B_RS04755"; product "putrescine ABC transporter permease PotI"; protein_id "WP_001061658.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 951078 951080 . + 0 gene_id "ECDH10B_RS04755"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "potI"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415378.1"; locus_tag "ECDH10B_RS04755"; product "putrescine ABC transporter permease PotI"; protein_id "WP_001061658.1"; transl_table "11"; -NC_010473.1 RefSeq gene 951140 951628 . + . gene_id "ECDH10B_RS04760"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04760"; old_locus_tag "ECDH10B_0928"; -NC_010473.1 Protein Homology CDS 951140 951625 . + 0 gene_id "ECDH10B_RS04760"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308965.1"; locus_tag "ECDH10B_RS04760"; product "YbjO family protein"; protein_id "WP_000389260.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 951140 951142 . + 0 gene_id "ECDH10B_RS04760"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308965.1"; locus_tag "ECDH10B_RS04760"; product "YbjO family protein"; protein_id "WP_000389260.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 951626 951628 . + 0 gene_id "ECDH10B_RS04760"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308965.1"; locus_tag "ECDH10B_RS04760"; product "YbjO family protein"; protein_id "WP_000389260.1"; transl_table "11"; -NC_010473.1 RefSeq gene 951669 952796 . + . gene_id "ECDH10B_RS04765"; transcript_id ""; gbkey "Gene"; gene "rlmC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04765"; old_locus_tag "ECDH10B_0929"; -NC_010473.1 Protein Homology CDS 951669 952793 . + 0 gene_id "ECDH10B_RS04765"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rlmC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415380.1"; locus_tag "ECDH10B_RS04765"; product "23S rRNA (uracil(747)-C(5))-methyltransferase RlmC"; protein_id "WP_001149682.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 951669 951671 . + 0 gene_id "ECDH10B_RS04765"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rlmC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415380.1"; locus_tag "ECDH10B_RS04765"; product "23S rRNA (uracil(747)-C(5))-methyltransferase RlmC"; protein_id "WP_001149682.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 952794 952796 . + 0 gene_id "ECDH10B_RS04765"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rlmC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415380.1"; locus_tag "ECDH10B_RS04765"; product "23S rRNA (uracil(747)-C(5))-methyltransferase RlmC"; protein_id "WP_001149682.1"; transl_table "11"; -NC_010473.1 RefSeq gene 952995 953726 . - . gene_id "ECDH10B_RS04770"; transcript_id ""; gbkey "Gene"; gene "artJ"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04770"; old_locus_tag "ECDH10B_0930"; -NC_010473.1 Protein Homology CDS 952998 953726 . - 0 gene_id "ECDH10B_RS04770"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "artJ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415381.1"; locus_tag "ECDH10B_RS04770"; product "ABC transporter substrate-binding protein ArtJ"; protein_id "WP_001295339.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 953724 953726 . - 0 gene_id "ECDH10B_RS04770"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "artJ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415381.1"; locus_tag "ECDH10B_RS04770"; product "ABC transporter substrate-binding protein ArtJ"; protein_id "WP_001295339.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 952995 952997 . - 0 gene_id "ECDH10B_RS04770"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "artJ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415381.1"; locus_tag "ECDH10B_RS04770"; product "ABC transporter substrate-binding protein ArtJ"; protein_id "WP_001295339.1"; transl_table "11"; -NC_010473.1 RefSeq gene 954017 954685 . - . gene_id "ECDH10B_RS04775"; transcript_id ""; gbkey "Gene"; gene "artM"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04775"; old_locus_tag "ECDH10B_0931"; -NC_010473.1 Protein Homology CDS 954020 954685 . - 0 gene_id "ECDH10B_RS04775"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "artM"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308971.1"; locus_tag "ECDH10B_RS04775"; product "arginine ABC transporter permease ArtM"; protein_id "WP_000464491.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 954683 954685 . - 0 gene_id "ECDH10B_RS04775"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "artM"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308971.1"; locus_tag "ECDH10B_RS04775"; product "arginine ABC transporter permease ArtM"; protein_id "WP_000464491.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 954017 954019 . - 0 gene_id "ECDH10B_RS04775"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "artM"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308971.1"; locus_tag "ECDH10B_RS04775"; product "arginine ABC transporter permease ArtM"; protein_id "WP_000464491.1"; transl_table "11"; -NC_010473.1 RefSeq gene 954685 955401 . - . gene_id "ECDH10B_RS04780"; transcript_id ""; gbkey "Gene"; gene "artQ"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04780"; old_locus_tag "ECDH10B_0932"; -NC_010473.1 Protein Homology CDS 954688 955401 . - 0 gene_id "ECDH10B_RS04780"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "artQ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415383.1"; locus_tag "ECDH10B_RS04780"; product "arginine ABC transporter permease ArtQ"; protein_id "WP_001001691.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 955399 955401 . - 0 gene_id "ECDH10B_RS04780"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "artQ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415383.1"; locus_tag "ECDH10B_RS04780"; product "arginine ABC transporter permease ArtQ"; protein_id "WP_001001691.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 954685 954687 . - 0 gene_id "ECDH10B_RS04780"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "artQ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415383.1"; locus_tag "ECDH10B_RS04780"; product "arginine ABC transporter permease ArtQ"; protein_id "WP_001001691.1"; transl_table "11"; -NC_010473.1 RefSeq gene 955408 956139 . - . gene_id "ECDH10B_RS04785"; transcript_id ""; gbkey "Gene"; gene "artJ"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04785"; old_locus_tag "ECDH10B_0933"; -NC_010473.1 Protein Homology CDS 955411 956139 . - 0 gene_id "ECDH10B_RS04785"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "artJ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415384.1"; locus_tag "ECDH10B_RS04785"; product "arginine ABC transporter substrate-binding protein"; protein_id "WP_000756569.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 956137 956139 . - 0 gene_id "ECDH10B_RS04785"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "artJ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415384.1"; locus_tag "ECDH10B_RS04785"; product "arginine ABC transporter substrate-binding protein"; protein_id "WP_000756569.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 955408 955410 . - 0 gene_id "ECDH10B_RS04785"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "artJ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415384.1"; locus_tag "ECDH10B_RS04785"; product "arginine ABC transporter substrate-binding protein"; protein_id "WP_000756569.1"; transl_table "11"; -NC_010473.1 RefSeq gene 956157 956885 . - . gene_id "ECDH10B_RS04790"; transcript_id ""; gbkey "Gene"; gene "artP"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04790"; old_locus_tag "ECDH10B_0934"; -NC_010473.1 Protein Homology CDS 956160 956885 . - 0 gene_id "ECDH10B_RS04790"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "artP"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001742668.1"; locus_tag "ECDH10B_RS04790"; product "arginine ABC transporter ATP-binding protein ArtP"; protein_id "WP_000027205.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 956883 956885 . - 0 gene_id "ECDH10B_RS04790"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "artP"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001742668.1"; locus_tag "ECDH10B_RS04790"; product "arginine ABC transporter ATP-binding protein ArtP"; protein_id "WP_000027205.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 956157 956159 . - 0 gene_id "ECDH10B_RS04790"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "artP"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001742668.1"; locus_tag "ECDH10B_RS04790"; product "arginine ABC transporter ATP-binding protein ArtP"; protein_id "WP_000027205.1"; transl_table "11"; -NC_010473.1 RefSeq gene 957103 957618 . - . gene_id "ECDH10B_RS04795"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04795"; old_locus_tag "ECDH10B_0935"; -NC_010473.1 Protein Homology CDS 957106 957618 . - 0 gene_id "ECDH10B_RS04795"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415386.1"; locus_tag "ECDH10B_RS04795"; product "lipoprotein"; protein_id "WP_001270734.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 957616 957618 . - 0 gene_id "ECDH10B_RS04795"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415386.1"; locus_tag "ECDH10B_RS04795"; product "lipoprotein"; protein_id "WP_001270734.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 957103 957105 . - 0 gene_id "ECDH10B_RS04795"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415386.1"; locus_tag "ECDH10B_RS04795"; product "lipoprotein"; protein_id "WP_001270734.1"; transl_table "11"; -NC_010473.1 RefSeq gene 957744 958067 . + . gene_id "ECDH10B_RS04800"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04800"; old_locus_tag "ECDH10B_0936"; -NC_010473.1 Protein Homology CDS 957744 958064 . + 0 gene_id "ECDH10B_RS04800"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308979.1"; locus_tag "ECDH10B_RS04800"; product "heavy metal-binding domain-containing protein"; protein_id "WP_001160737.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 957744 957746 . + 0 gene_id "ECDH10B_RS04800"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308979.1"; locus_tag "ECDH10B_RS04800"; product "heavy metal-binding domain-containing protein"; protein_id "WP_001160737.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 958065 958067 . + 0 gene_id "ECDH10B_RS04800"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308979.1"; locus_tag "ECDH10B_RS04800"; product "heavy metal-binding domain-containing protein"; protein_id "WP_001160737.1"; transl_table "11"; -NC_010473.1 RefSeq gene 958064 958894 . + . gene_id "ECDH10B_RS04805"; transcript_id ""; gbkey "Gene"; gene "amiD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04805"; old_locus_tag "ECDH10B_0937"; -NC_010473.1 Protein Homology CDS 958064 958891 . + 0 gene_id "ECDH10B_RS04805"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "amiD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415388.1"; locus_tag "ECDH10B_RS04805"; product "N-acetylmuramoyl-L-alanine amidase AmiD"; protein_id "WP_001252135.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 958064 958066 . + 0 gene_id "ECDH10B_RS04805"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "amiD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415388.1"; locus_tag "ECDH10B_RS04805"; product "N-acetylmuramoyl-L-alanine amidase AmiD"; protein_id "WP_001252135.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 958892 958894 . + 0 gene_id "ECDH10B_RS04805"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "amiD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415388.1"; locus_tag "ECDH10B_RS04805"; product "N-acetylmuramoyl-L-alanine amidase AmiD"; protein_id "WP_001252135.1"; transl_table "11"; -NC_010473.1 RefSeq gene 958891 959904 . - . gene_id "ECDH10B_RS04810"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04810"; old_locus_tag "ECDH10B_0938"; -NC_010473.1 Protein Homology CDS 958894 959904 . - 0 gene_id "ECDH10B_RS04810"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415389.2"; locus_tag "ECDH10B_RS04810"; product "NAD(P)-dependent oxidoreductase"; protein_id "WP_001338420.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 959902 959904 . - 0 gene_id "ECDH10B_RS04810"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415389.2"; locus_tag "ECDH10B_RS04810"; product "NAD(P)-dependent oxidoreductase"; protein_id "WP_001338420.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 958891 958893 . - 0 gene_id "ECDH10B_RS04810"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415389.2"; locus_tag "ECDH10B_RS04810"; product "NAD(P)-dependent oxidoreductase"; protein_id "WP_001338420.1"; transl_table "11"; -NC_010473.1 RefSeq gene 960003 961433 . - . gene_id "ECDH10B_RS04815"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04815"; old_locus_tag "ECDH10B_0939"; -NC_010473.1 Protein Homology CDS 960006 961433 . - 0 gene_id "ECDH10B_RS04815"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415390.4"; locus_tag "ECDH10B_RS04815"; product "SDR family oxidoreductase"; protein_id "WP_001136554.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 961431 961433 . - 0 gene_id "ECDH10B_RS04815"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415390.4"; locus_tag "ECDH10B_RS04815"; product "SDR family oxidoreductase"; protein_id "WP_001136554.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 960003 960005 . - 0 gene_id "ECDH10B_RS04815"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415390.4"; locus_tag "ECDH10B_RS04815"; product "SDR family oxidoreductase"; protein_id "WP_001136554.1"; transl_table "11"; -NC_010473.1 RefSeq gene 961444 962445 . - . gene_id "ECDH10B_RS04820"; transcript_id ""; gbkey "Gene"; gene "ltaE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04820"; old_locus_tag "ECDH10B_0940"; -NC_010473.1 Protein Homology CDS 961447 962445 . - 0 gene_id "ECDH10B_RS04820"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ltaE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415391.1"; locus_tag "ECDH10B_RS04820"; product "low-specificity L-threonine aldolase"; protein_id "WP_000566376.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 962443 962445 . - 0 gene_id "ECDH10B_RS04820"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ltaE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415391.1"; locus_tag "ECDH10B_RS04820"; product "low-specificity L-threonine aldolase"; protein_id "WP_000566376.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 961444 961446 . - 0 gene_id "ECDH10B_RS04820"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ltaE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415391.1"; locus_tag "ECDH10B_RS04820"; product "low-specificity L-threonine aldolase"; protein_id "WP_000566376.1"; transl_table "11"; -NC_010473.1 RefSeq gene 962482 964200 . - . gene_id "ECDH10B_RS04825"; transcript_id ""; gbkey "Gene"; gene "poxB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04825"; old_locus_tag "ECDH10B_0941"; -NC_010473.1 Protein Homology CDS 962485 964200 . - 0 gene_id "ECDH10B_RS04825"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "poxB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415392.1"; locus_tag "ECDH10B_RS04825"; product "ubiquinone-dependent pyruvate dehydrogenase"; protein_id "WP_000815337.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 964198 964200 . - 0 gene_id "ECDH10B_RS04825"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "poxB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415392.1"; locus_tag "ECDH10B_RS04825"; product "ubiquinone-dependent pyruvate dehydrogenase"; protein_id "WP_000815337.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 962482 962484 . - 0 gene_id "ECDH10B_RS04825"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "poxB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415392.1"; locus_tag "ECDH10B_RS04825"; product "ubiquinone-dependent pyruvate dehydrogenase"; protein_id "WP_000815337.1"; transl_table "11"; -NC_010473.1 RefSeq gene 964333 965301 . - . gene_id "ECDH10B_RS04830"; transcript_id ""; gbkey "Gene"; gene "hcr"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04830"; old_locus_tag "ECDH10B_0942"; -NC_010473.1 Protein Homology CDS 964336 965301 . - 0 gene_id "ECDH10B_RS04830"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hcr"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415393.1"; locus_tag "ECDH10B_RS04830"; product "NADH oxidoreductase"; protein_id "WP_000178677.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 965299 965301 . - 0 gene_id "ECDH10B_RS04830"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hcr"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415393.1"; locus_tag "ECDH10B_RS04830"; product "NADH oxidoreductase"; protein_id "WP_000178677.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 964333 964335 . - 0 gene_id "ECDH10B_RS04830"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hcr"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415393.1"; locus_tag "ECDH10B_RS04830"; product "NADH oxidoreductase"; protein_id "WP_000178677.1"; transl_table "11"; -NC_010473.1 RefSeq gene 965313 966965 . - . gene_id "ECDH10B_RS04835"; transcript_id ""; gbkey "Gene"; gene "hcp"; gene_biotype "protein_coding"; gene_synonym "priS"; locus_tag "ECDH10B_RS04835"; old_locus_tag "ECDH10B_0943"; -NC_010473.1 Protein Homology CDS 965316 966965 . - 0 gene_id "ECDH10B_RS04835"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hcp"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415394.4"; locus_tag "ECDH10B_RS04835"; product "hydroxylamine reductase"; protein_id "WP_000458809.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 966963 966965 . - 0 gene_id "ECDH10B_RS04835"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hcp"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415394.4"; locus_tag "ECDH10B_RS04835"; product "hydroxylamine reductase"; protein_id "WP_000458809.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 965313 965315 . - 0 gene_id "ECDH10B_RS04835"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hcp"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415394.4"; locus_tag "ECDH10B_RS04835"; product "hydroxylamine reductase"; protein_id "WP_000458809.1"; transl_table "11"; -NC_010473.1 RefSeq gene 967109 968008 . - . gene_id "ECDH10B_RS04840"; transcript_id ""; gbkey "Gene"; gene "lysO"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04840"; old_locus_tag "ECDH10B_0944"; -NC_010473.1 Protein Homology CDS 967112 968008 . - 0 gene_id "ECDH10B_RS04840"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lysO"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415395.2"; locus_tag "ECDH10B_RS04840"; product "L-lysine exporter LysO"; protein_id "WP_000491142.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 968006 968008 . - 0 gene_id "ECDH10B_RS04840"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lysO"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415395.2"; locus_tag "ECDH10B_RS04840"; product "L-lysine exporter LysO"; protein_id "WP_000491142.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 967109 967111 . - 0 gene_id "ECDH10B_RS04840"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lysO"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415395.2"; locus_tag "ECDH10B_RS04840"; product "L-lysine exporter LysO"; protein_id "WP_000491142.1"; transl_table "11"; -NC_010473.1 RefSeq gene 968503 969198 . - . gene_id "ECDH10B_RS04845"; transcript_id ""; gbkey "Gene"; gene "aqpZ"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04845"; old_locus_tag "ECDH10B_0945"; -NC_010473.1 Protein Homology CDS 968506 969198 . - 0 gene_id "ECDH10B_RS04845"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "aqpZ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415396.1"; locus_tag "ECDH10B_RS04845"; product "aquaporin Z"; protein_id "WP_001298299.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 969196 969198 . - 0 gene_id "ECDH10B_RS04845"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "aqpZ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415396.1"; locus_tag "ECDH10B_RS04845"; product "aquaporin Z"; protein_id "WP_001298299.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 968503 968505 . - 0 gene_id "ECDH10B_RS04845"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "aqpZ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415396.1"; locus_tag "ECDH10B_RS04845"; product "aquaporin Z"; protein_id "WP_001298299.1"; transl_table "11"; -NC_010473.1 RefSeq gene 969624 971282 . + . gene_id "ECDH10B_RS04855"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04855"; old_locus_tag "ECDH10B_0946"; -NC_010473.1 Protein Homology CDS 969624 971279 . + 0 gene_id "ECDH10B_RS04855"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415397.1"; locus_tag "ECDH10B_RS04855"; product "ATP-dependent endonuclease"; protein_id "WP_000599801.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 969624 969626 . + 0 gene_id "ECDH10B_RS04855"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415397.1"; locus_tag "ECDH10B_RS04855"; product "ATP-dependent endonuclease"; protein_id "WP_000599801.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 971280 971282 . + 0 gene_id "ECDH10B_RS04855"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415397.1"; locus_tag "ECDH10B_RS04855"; product "ATP-dependent endonuclease"; protein_id "WP_000599801.1"; transl_table "11"; -NC_010473.1 RefSeq gene 971279 972235 . - . gene_id "ECDH10B_RS04860"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04860"; old_locus_tag "ECDH10B_0947"; -NC_010473.1 Protein Homology CDS 971282 972235 . - 0 gene_id "ECDH10B_RS04860"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001322270.1"; locus_tag "ECDH10B_RS04860"; product "DUF535 domain-containing protein"; protein_id "WP_001380339.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 972233 972235 . - 0 gene_id "ECDH10B_RS04860"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001322270.1"; locus_tag "ECDH10B_RS04860"; product "DUF535 domain-containing protein"; protein_id "WP_001380339.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 971279 971281 . - 0 gene_id "ECDH10B_RS04860"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001322270.1"; locus_tag "ECDH10B_RS04860"; product "DUF535 domain-containing protein"; protein_id "WP_001380339.1"; transl_table "11"; -NC_010473.1 RefSeq gene 972386 973501 . + . gene_id "ECDH10B_RS04865"; transcript_id ""; gbkey "Gene"; gene "macA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04865"; old_locus_tag "ECDH10B_0948"; -NC_010473.1 Protein Homology CDS 972386 973498 . + 0 gene_id "ECDH10B_RS04865"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "macA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415399.4"; locus_tag "ECDH10B_RS04865"; product "macrolide transporter subunit MacA"; protein_id "WP_000746442.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 972386 972388 . + 0 gene_id "ECDH10B_RS04865"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "macA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415399.4"; locus_tag "ECDH10B_RS04865"; product "macrolide transporter subunit MacA"; protein_id "WP_000746442.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 973499 973501 . + 0 gene_id "ECDH10B_RS04865"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "macA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415399.4"; locus_tag "ECDH10B_RS04865"; product "macrolide transporter subunit MacA"; protein_id "WP_000746442.1"; transl_table "11"; -NC_010473.1 RefSeq gene 973498 975444 . + . gene_id "ECDH10B_RS04870"; transcript_id ""; gbkey "Gene"; gene "macB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04870"; old_locus_tag "ECDH10B_0949"; -NC_010473.1 Protein Homology CDS 973498 975441 . + 0 gene_id "ECDH10B_RS04870"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "macB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415400.1"; locus_tag "ECDH10B_RS04870"; product "macrolide ABC transporter ATP-binding protein/permease MacB"; protein_id "WP_000188144.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 973498 973500 . + 0 gene_id "ECDH10B_RS04870"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "macB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415400.1"; locus_tag "ECDH10B_RS04870"; product "macrolide ABC transporter ATP-binding protein/permease MacB"; protein_id "WP_000188144.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 975442 975444 . + 0 gene_id "ECDH10B_RS04870"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "macB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415400.1"; locus_tag "ECDH10B_RS04870"; product "macrolide ABC transporter ATP-binding protein/permease MacB"; protein_id "WP_000188144.1"; transl_table "11"; -NC_010473.1 RefSeq gene 975517 975741 . - . gene_id "ECDH10B_RS04875"; transcript_id ""; gbkey "Gene"; gene "cspD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04875"; old_locus_tag "ECDH10B_0950"; -NC_010473.1 Protein Homology CDS 975520 975741 . - 0 gene_id "ECDH10B_RS04875"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cspD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308993.1"; locus_tag "ECDH10B_RS04875"; product "cold shock-like protein CspD"; protein_id "WP_000410785.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 975739 975741 . - 0 gene_id "ECDH10B_RS04875"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cspD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308993.1"; locus_tag "ECDH10B_RS04875"; product "cold shock-like protein CspD"; protein_id "WP_000410785.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 975517 975519 . - 0 gene_id "ECDH10B_RS04875"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cspD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308993.1"; locus_tag "ECDH10B_RS04875"; product "cold shock-like protein CspD"; protein_id "WP_000410785.1"; transl_table "11"; -NC_010473.1 RefSeq gene 976064 976384 . + . gene_id "ECDH10B_RS04880"; transcript_id ""; gbkey "Gene"; gene "clpS"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04880"; old_locus_tag "ECDH10B_0951"; -NC_010473.1 Protein Homology CDS 976064 976381 . + 0 gene_id "ECDH10B_RS04880"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "clpS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005128368.1"; locus_tag "ECDH10B_RS04880"; product "ATP-dependent Clp protease adapter ClpS"; protein_id "WP_000520781.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 976064 976066 . + 0 gene_id "ECDH10B_RS04880"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "clpS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005128368.1"; locus_tag "ECDH10B_RS04880"; product "ATP-dependent Clp protease adapter ClpS"; protein_id "WP_000520781.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 976382 976384 . + 0 gene_id "ECDH10B_RS04880"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "clpS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005128368.1"; locus_tag "ECDH10B_RS04880"; product "ATP-dependent Clp protease adapter ClpS"; protein_id "WP_000520781.1"; transl_table "11"; -NC_010473.1 RefSeq gene 976415 978691 . + . gene_id "ECDH10B_RS04885"; transcript_id ""; gbkey "Gene"; gene "clpA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04885"; old_locus_tag "ECDH10B_0952"; -NC_010473.1 Protein Homology CDS 976415 978688 . + 0 gene_id "ECDH10B_RS04885"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "clpA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308995.1"; locus_tag "ECDH10B_RS04885"; product "ATP-dependent Clp protease ATP-binding subunit ClpA"; protein_id "WP_000934041.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 976415 976417 . + 0 gene_id "ECDH10B_RS04885"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "clpA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308995.1"; locus_tag "ECDH10B_RS04885"; product "ATP-dependent Clp protease ATP-binding subunit ClpA"; protein_id "WP_000934041.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 978689 978691 . + 0 gene_id "ECDH10B_RS04885"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "clpA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308995.1"; locus_tag "ECDH10B_RS04885"; product "ATP-dependent Clp protease ATP-binding subunit ClpA"; protein_id "WP_000934041.1"; transl_table "11"; -NC_010473.1 RefSeq gene 979035 979122 . - . gene_id "ECDH10B_RS04890"; transcript_id ""; gbkey "Gene"; gene_biotype "tRNA"; locus_tag "ECDH10B_RS04890"; old_locus_tag "ECDH10B_0953"; -NC_010473.1 tRNAscan-SE exon 979035 979122 . - . gene_id "ECDH10B_RS04890"; transcript_id "ECDH10B_RS04890"; anticodon "(pos:complement(979086..979088))"; gbkey "tRNA"; inference "COORDINATES: profile:tRNAscan-SE:2.0.6"; locus_tag "ECDH10B_RS04890"; product "tRNA-Ser"; exon_number "1"; -NC_010473.1 RefSeq gene 979376 979594 . - . gene_id "ECDH10B_RS04895"; transcript_id ""; gbkey "Gene"; gene "infA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04895"; old_locus_tag "ECDH10B_0954"; -NC_010473.1 Protein Homology CDS 979379 979594 . - 0 gene_id "ECDH10B_RS04895"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "infA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001040186.1"; locus_tag "ECDH10B_RS04895"; product "translation initiation factor IF-1"; protein_id "WP_001040187.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 979592 979594 . - 0 gene_id "ECDH10B_RS04895"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "infA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001040186.1"; locus_tag "ECDH10B_RS04895"; product "translation initiation factor IF-1"; protein_id "WP_001040187.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 979376 979378 . - 0 gene_id "ECDH10B_RS04895"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "infA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001040186.1"; locus_tag "ECDH10B_RS04895"; product "translation initiation factor IF-1"; protein_id "WP_001040187.1"; transl_table "11"; -NC_010473.1 RefSeq gene 979879 980583 . - . gene_id "ECDH10B_RS04900"; transcript_id ""; gbkey "Gene"; gene "aat"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04900"; old_locus_tag "ECDH10B_0955"; -NC_010473.1 Protein Homology CDS 979882 980583 . - 0 gene_id "ECDH10B_RS04900"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "aat"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415405.1"; locus_tag "ECDH10B_RS04900"; product "leucyl/phenylalanyl-tRNA--protein transferase"; protein_id "WP_001241678.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 980581 980583 . - 0 gene_id "ECDH10B_RS04900"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "aat"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415405.1"; locus_tag "ECDH10B_RS04900"; product "leucyl/phenylalanyl-tRNA--protein transferase"; protein_id "WP_001241678.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 979879 979881 . - 0 gene_id "ECDH10B_RS04900"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "aat"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415405.1"; locus_tag "ECDH10B_RS04900"; product "leucyl/phenylalanyl-tRNA--protein transferase"; protein_id "WP_001241678.1"; transl_table "11"; -NC_010473.1 RefSeq gene 980625 982346 . - . gene_id "ECDH10B_RS04905"; transcript_id ""; gbkey "Gene"; gene "cydC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04905"; old_locus_tag "ECDH10B_0956"; -NC_010473.1 Protein Homology CDS 980628 982346 . - 0 gene_id "ECDH10B_RS04905"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cydC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415406.1"; locus_tag "ECDH10B_RS04905"; product "cysteine/glutathione ABC transporter ATP-binding protein/permease CydC"; protein_id "WP_001202177.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 982344 982346 . - 0 gene_id "ECDH10B_RS04905"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cydC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415406.1"; locus_tag "ECDH10B_RS04905"; product "cysteine/glutathione ABC transporter ATP-binding protein/permease CydC"; protein_id "WP_001202177.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 980625 980627 . - 0 gene_id "ECDH10B_RS04905"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cydC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415406.1"; locus_tag "ECDH10B_RS04905"; product "cysteine/glutathione ABC transporter ATP-binding protein/permease CydC"; protein_id "WP_001202177.1"; transl_table "11"; -NC_010473.1 RefSeq gene 982347 984113 . - . gene_id "ECDH10B_RS04910"; transcript_id ""; gbkey "Gene"; gene "cydD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04910"; old_locus_tag "ECDH10B_0957"; -NC_010473.1 Protein Homology CDS 982350 984113 . - 0 gene_id "ECDH10B_RS04910"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cydD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415407.1"; locus_tag "ECDH10B_RS04910"; product "cysteine/glutathione ABC transporter permease/ATP-binding protein CydD"; protein_id "WP_001043598.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 984111 984113 . - 0 gene_id "ECDH10B_RS04910"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cydD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415407.1"; locus_tag "ECDH10B_RS04910"; product "cysteine/glutathione ABC transporter permease/ATP-binding protein CydD"; protein_id "WP_001043598.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 982347 982349 . - 0 gene_id "ECDH10B_RS04910"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cydD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415407.1"; locus_tag "ECDH10B_RS04910"; product "cysteine/glutathione ABC transporter permease/ATP-binding protein CydD"; protein_id "WP_001043598.1"; transl_table "11"; -NC_010473.1 RefSeq gene 984236 985201 . - . gene_id "ECDH10B_RS04915"; transcript_id ""; gbkey "Gene"; gene "trxB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04915"; old_locus_tag "ECDH10B_0958"; -NC_010473.1 Protein Homology CDS 984239 985201 . - 0 gene_id "ECDH10B_RS04915"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "trxB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309000.1"; locus_tag "ECDH10B_RS04915"; product "thioredoxin-disulfide reductase"; protein_id "WP_000537418.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 985199 985201 . - 0 gene_id "ECDH10B_RS04915"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "trxB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309000.1"; locus_tag "ECDH10B_RS04915"; product "thioredoxin-disulfide reductase"; protein_id "WP_000537418.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 984236 984238 . - 0 gene_id "ECDH10B_RS04915"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "trxB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309000.1"; locus_tag "ECDH10B_RS04915"; product "thioredoxin-disulfide reductase"; protein_id "WP_000537418.1"; transl_table "11"; -NC_010473.1 RefSeq gene 985746 986240 . + . gene_id "ECDH10B_RS04920"; transcript_id ""; gbkey "Gene"; gene "lrp"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04920"; old_locus_tag "ECDH10B_0959"; -NC_010473.1 Protein Homology CDS 985746 986237 . + 0 gene_id "ECDH10B_RS04920"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lrp"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001591745.1"; locus_tag "ECDH10B_RS04920"; product "leucine-responsive transcriptional regulator Lrp"; protein_id "WP_000228473.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 985746 985748 . + 0 gene_id "ECDH10B_RS04920"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lrp"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001591745.1"; locus_tag "ECDH10B_RS04920"; product "leucine-responsive transcriptional regulator Lrp"; protein_id "WP_000228473.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 986238 986240 . + 0 gene_id "ECDH10B_RS04920"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lrp"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001591745.1"; locus_tag "ECDH10B_RS04920"; product "leucine-responsive transcriptional regulator Lrp"; protein_id "WP_000228473.1"; transl_table "11"; -NC_010473.1 RefSeq gene 986375 990364 . + . gene_id "ECDH10B_RS04925"; transcript_id ""; gbkey "Gene"; gene "ftsK"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04925"; old_locus_tag "ECDH10B_0960"; -NC_010473.1 Protein Homology CDS 986375 990361 . + 0 gene_id "ECDH10B_RS04925"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ftsK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415410.1"; locus_tag "ECDH10B_RS04925"; product "DNA translocase FtsK"; protein_id "WP_000076967.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 986375 986377 . + 0 gene_id "ECDH10B_RS04925"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ftsK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415410.1"; locus_tag "ECDH10B_RS04925"; product "DNA translocase FtsK"; protein_id "WP_000076967.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 990362 990364 . + 0 gene_id "ECDH10B_RS04925"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ftsK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415410.1"; locus_tag "ECDH10B_RS04925"; product "DNA translocase FtsK"; protein_id "WP_000076967.1"; transl_table "11"; -NC_010473.1 RefSeq gene 990523 991134 . + . gene_id "ECDH10B_RS04930"; transcript_id ""; gbkey "Gene"; gene "lolA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04930"; old_locus_tag "ECDH10B_0961"; -NC_010473.1 Protein Homology CDS 990523 991131 . + 0 gene_id "ECDH10B_RS04930"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lolA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_010354356.1"; locus_tag "ECDH10B_RS04930"; product "outer membrane lipoprotein chaperone LolA"; protein_id "WP_001295343.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 990523 990525 . + 0 gene_id "ECDH10B_RS04930"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lolA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_010354356.1"; locus_tag "ECDH10B_RS04930"; product "outer membrane lipoprotein chaperone LolA"; protein_id "WP_001295343.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 991132 991134 . + 0 gene_id "ECDH10B_RS04930"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lolA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_010354356.1"; locus_tag "ECDH10B_RS04930"; product "outer membrane lipoprotein chaperone LolA"; protein_id "WP_001295343.1"; transl_table "11"; -NC_010473.1 RefSeq gene 991145 992488 . + . gene_id "ECDH10B_RS04935"; transcript_id ""; gbkey "Gene"; gene "rarA"; gene_biotype "protein_coding"; gene_synonym "mgsA"; locus_tag "ECDH10B_RS04935"; old_locus_tag "ECDH10B_0962"; -NC_010473.1 Protein Homology CDS 991145 992485 . + 0 gene_id "ECDH10B_RS04935"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rarA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309004.1"; locus_tag "ECDH10B_RS04935"; product "replication-associated recombination protein RarA"; protein_id "WP_000067755.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 991145 991147 . + 0 gene_id "ECDH10B_RS04935"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rarA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309004.1"; locus_tag "ECDH10B_RS04935"; product "replication-associated recombination protein RarA"; protein_id "WP_000067755.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 992486 992488 . + 0 gene_id "ECDH10B_RS04935"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rarA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309004.1"; locus_tag "ECDH10B_RS04935"; product "replication-associated recombination protein RarA"; protein_id "WP_000067755.1"; transl_table "11"; -NC_010473.1 RefSeq gene 992579 993871 . + . gene_id "ECDH10B_RS04940"; transcript_id ""; gbkey "Gene"; gene "serS"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04940"; old_locus_tag "ECDH10B_0963"; -NC_010473.1 Protein Homology CDS 992579 993868 . + 0 gene_id "ECDH10B_RS04940"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "serS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000887397.1"; locus_tag "ECDH10B_RS04940"; product "serine--tRNA ligase"; protein_id "WP_000886683.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 992579 992581 . + 0 gene_id "ECDH10B_RS04940"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "serS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000887397.1"; locus_tag "ECDH10B_RS04940"; product "serine--tRNA ligase"; protein_id "WP_000886683.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 993869 993871 . + 0 gene_id "ECDH10B_RS04940"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "serS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000887397.1"; locus_tag "ECDH10B_RS04940"; product "serine--tRNA ligase"; protein_id "WP_000886683.1"; transl_table "11"; -NC_010473.1 RefSeq gene 994110 996554 . + . gene_id "ECDH10B_RS04945"; transcript_id ""; gbkey "Gene"; gene "dmsA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04945"; old_locus_tag "ECDH10B_0964"; -NC_010473.1 Protein Homology CDS 994110 996551 . + 0 gene_id "ECDH10B_RS04945"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dmsA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415414.4"; locus_tag "ECDH10B_RS04945"; product "dimethylsulfoxide reductase subunit A"; protein_id "WP_000850303.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 994110 994112 . + 0 gene_id "ECDH10B_RS04945"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dmsA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415414.4"; locus_tag "ECDH10B_RS04945"; product "dimethylsulfoxide reductase subunit A"; protein_id "WP_000850303.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 996552 996554 . + 0 gene_id "ECDH10B_RS04945"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dmsA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415414.4"; locus_tag "ECDH10B_RS04945"; product "dimethylsulfoxide reductase subunit A"; protein_id "WP_000850303.1"; transl_table "11"; -NC_010473.1 RefSeq gene 996565 997182 . + . gene_id "ECDH10B_RS04950"; transcript_id ""; gbkey "Gene"; gene "dmsB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04950"; old_locus_tag "ECDH10B_0965"; -NC_010473.1 Protein Homology CDS 996565 997179 . + 0 gene_id "ECDH10B_RS04950"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dmsB"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000213046.1"; locus_tag "ECDH10B_RS04950"; product "dimethylsulfoxide reductase subunit B"; protein_id "WP_000213098.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 996565 996567 . + 0 gene_id "ECDH10B_RS04950"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dmsB"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000213046.1"; locus_tag "ECDH10B_RS04950"; product "dimethylsulfoxide reductase subunit B"; protein_id "WP_000213098.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 997180 997182 . + 0 gene_id "ECDH10B_RS04950"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dmsB"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000213046.1"; locus_tag "ECDH10B_RS04950"; product "dimethylsulfoxide reductase subunit B"; protein_id "WP_000213098.1"; transl_table "11"; -NC_010473.1 RefSeq gene 997184 998047 . + . gene_id "ECDH10B_RS04955"; transcript_id ""; gbkey "Gene"; gene "dmsC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04955"; old_locus_tag "ECDH10B_0966"; -NC_010473.1 Protein Homology CDS 997184 998044 . + 0 gene_id "ECDH10B_RS04955"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dmsC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415416.1"; locus_tag "ECDH10B_RS04955"; product "dimethyl sulfoxide reductase anchor subunit DmsC"; protein_id "WP_000534637.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 997184 997186 . + 0 gene_id "ECDH10B_RS04955"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dmsC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415416.1"; locus_tag "ECDH10B_RS04955"; product "dimethyl sulfoxide reductase anchor subunit DmsC"; protein_id "WP_000534637.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 998045 998047 . + 0 gene_id "ECDH10B_RS04955"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dmsC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415416.1"; locus_tag "ECDH10B_RS04955"; product "dimethyl sulfoxide reductase anchor subunit DmsC"; protein_id "WP_000534637.1"; transl_table "11"; -NC_010473.1 RefSeq gene 998082 998708 . - . gene_id "ECDH10B_RS04960"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04960"; old_locus_tag "ECDH10B_0967"; -NC_010473.1 Protein Homology CDS 998085 998708 . - 0 gene_id "ECDH10B_RS04960"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415417.1"; locus_tag "ECDH10B_RS04960"; product "hydrolase"; protein_id "WP_000165879.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 998706 998708 . - 0 gene_id "ECDH10B_RS04960"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415417.1"; locus_tag "ECDH10B_RS04960"; product "hydrolase"; protein_id "WP_000165879.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 998082 998084 . - 0 gene_id "ECDH10B_RS04960"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415417.1"; locus_tag "ECDH10B_RS04960"; product "hydrolase"; protein_id "WP_000165879.1"; transl_table "11"; -NC_010473.1 RefSeq gene 999022 1000170 . + . gene_id "ECDH10B_RS04965"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04965"; old_locus_tag "ECDH10B_0968"; -NC_010473.1 Protein Homology CDS 999022 1000167 . + 0 gene_id "ECDH10B_RS04965"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415418.1"; locus_tag "ECDH10B_RS04965"; product "MFS transporter"; protein_id "WP_000109259.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 999022 999024 . + 0 gene_id "ECDH10B_RS04965"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415418.1"; locus_tag "ECDH10B_RS04965"; product "MFS transporter"; protein_id "WP_000109259.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1000168 1000170 . + 0 gene_id "ECDH10B_RS04965"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415418.1"; locus_tag "ECDH10B_RS04965"; product "MFS transporter"; protein_id "WP_000109259.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1000380 1001810 . + . gene_id "ECDH10B_RS04970"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04970"; old_locus_tag "ECDH10B_0969"; -NC_010473.1 Protein Homology CDS 1000380 1001807 . + 0 gene_id "ECDH10B_RS04970"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415419.2"; locus_tag "ECDH10B_RS04970"; product "amino acid permease"; protein_id "WP_000918506.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1000380 1000382 . + 0 gene_id "ECDH10B_RS04970"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415419.2"; locus_tag "ECDH10B_RS04970"; product "amino acid permease"; protein_id "WP_000918506.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1001808 1001810 . + 0 gene_id "ECDH10B_RS04970"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415419.2"; locus_tag "ECDH10B_RS04970"; product "amino acid permease"; protein_id "WP_000918506.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1001811 1002719 . - . gene_id "ECDH10B_RS04975"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04975"; old_locus_tag "ECDH10B_0970"; -NC_010473.1 Protein Homology CDS 1001814 1002719 . - 0 gene_id "ECDH10B_RS04975"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415420.1"; locus_tag "ECDH10B_RS04975"; product "LysR family transcriptional regulator"; protein_id "WP_001242684.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1002717 1002719 . - 0 gene_id "ECDH10B_RS04975"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415420.1"; locus_tag "ECDH10B_RS04975"; product "LysR family transcriptional regulator"; protein_id "WP_001242684.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1001811 1001813 . - 0 gene_id "ECDH10B_RS04975"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415420.1"; locus_tag "ECDH10B_RS04975"; product "LysR family transcriptional regulator"; protein_id "WP_001242684.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1002819 1003409 . + . gene_id "ECDH10B_RS04980"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04980"; old_locus_tag "ECDH10B_0971"; -NC_010473.1 Protein Homology CDS 1002819 1003406 . + 0 gene_id "ECDH10B_RS04980"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415421.1"; locus_tag "ECDH10B_RS04980"; product "NAD(P)H oxidoreductase"; protein_id "WP_001190363.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1002819 1002821 . + 0 gene_id "ECDH10B_RS04980"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415421.1"; locus_tag "ECDH10B_RS04980"; product "NAD(P)H oxidoreductase"; protein_id "WP_001190363.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1003407 1003409 . + 0 gene_id "ECDH10B_RS04980"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415421.1"; locus_tag "ECDH10B_RS04980"; product "NAD(P)H oxidoreductase"; protein_id "WP_001190363.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1003491 1004231 . - . gene_id "ECDH10B_RS04985"; transcript_id ""; gbkey "Gene"; gene "pflA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04985"; old_locus_tag "ECDH10B_0972"; -NC_010473.1 Protein Homology CDS 1003494 1004231 . - 0 gene_id "ECDH10B_RS04985"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pflA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309012.1"; locus_tag "ECDH10B_RS04985"; product "pyruvate formate lyase 1-activating protein"; protein_id "WP_000111043.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1004229 1004231 . - 0 gene_id "ECDH10B_RS04985"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pflA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309012.1"; locus_tag "ECDH10B_RS04985"; product "pyruvate formate lyase 1-activating protein"; protein_id "WP_000111043.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1003491 1003493 . - 0 gene_id "ECDH10B_RS04985"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pflA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309012.1"; locus_tag "ECDH10B_RS04985"; product "pyruvate formate lyase 1-activating protein"; protein_id "WP_000111043.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1004423 1006705 . - . gene_id "ECDH10B_RS04990"; transcript_id ""; gbkey "Gene"; gene "pflB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS04990"; old_locus_tag "ECDH10B_0973"; -NC_010473.1 Protein Homology CDS 1004426 1006705 . - 0 gene_id "ECDH10B_RS04990"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pflB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_459948.1"; locus_tag "ECDH10B_RS04990"; product "formate C-acetyltransferase"; protein_id "WP_001292822.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1006703 1006705 . - 0 gene_id "ECDH10B_RS04990"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pflB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_459948.1"; locus_tag "ECDH10B_RS04990"; product "formate C-acetyltransferase"; protein_id "WP_001292822.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1004423 1004425 . - 0 gene_id "ECDH10B_RS04990"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pflB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_459948.1"; locus_tag "ECDH10B_RS04990"; product "formate C-acetyltransferase"; protein_id "WP_001292822.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1006760 1007617 . - . gene_id "ECDH10B_RS25915"; transcript_id ""; gbkey "Gene"; gene "focA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS25915"; old_locus_tag "ECDH10B_0974"; -NC_010473.1 Protein Homology CDS 1006763 1007617 . - 0 gene_id "ECDH10B_RS25915"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "focA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309014.1"; locus_tag "ECDH10B_RS25915"; product "formate transporter FocA"; protein_id "WP_000642546.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1007615 1007617 . - 0 gene_id "ECDH10B_RS25915"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "focA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309014.1"; locus_tag "ECDH10B_RS25915"; product "formate transporter FocA"; protein_id "WP_000642546.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1006760 1006762 . - 0 gene_id "ECDH10B_RS25915"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "focA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309014.1"; locus_tag "ECDH10B_RS25915"; product "formate transporter FocA"; protein_id "WP_000642546.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1008023 1009783 . - . gene_id "ECDH10B_RS05000"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05000"; old_locus_tag "ECDH10B_0975"; -NC_010473.1 Protein Homology CDS 1008026 1009783 . - 0 gene_id "ECDH10B_RS05000"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415425.4"; locus_tag "ECDH10B_RS05000"; product "YcaO-like family protein"; protein_id "WP_001295344.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1009781 1009783 . - 0 gene_id "ECDH10B_RS05000"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415425.4"; locus_tag "ECDH10B_RS05000"; product "YcaO-like family protein"; protein_id "WP_001295344.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1008023 1008025 . - 0 gene_id "ECDH10B_RS05000"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415425.4"; locus_tag "ECDH10B_RS05000"; product "YcaO-like family protein"; protein_id "WP_001295344.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1009913 1010605 . + . gene_id "ECDH10B_RS05005"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05005"; old_locus_tag "ECDH10B_0976"; -NC_010473.1 Protein Homology CDS 1009913 1010602 . + 0 gene_id "ECDH10B_RS05005"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415426.1"; locus_tag "ECDH10B_RS05005"; product "DUF421 domain-containing protein"; protein_id "WP_000642849.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1009913 1009915 . + 0 gene_id "ECDH10B_RS05005"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415426.1"; locus_tag "ECDH10B_RS05005"; product "DUF421 domain-containing protein"; protein_id "WP_000642849.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1010603 1010605 . + 0 gene_id "ECDH10B_RS05005"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415426.1"; locus_tag "ECDH10B_RS05005"; product "DUF421 domain-containing protein"; protein_id "WP_000642849.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1010804 1011892 . + . gene_id "ECDH10B_RS05010"; transcript_id ""; gbkey "Gene"; gene "serC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05010"; old_locus_tag "ECDH10B_0977"; -NC_010473.1 Protein Homology CDS 1010804 1011889 . + 0 gene_id "ECDH10B_RS05010"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "serC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415427.1"; locus_tag "ECDH10B_RS05010"; product "3-phosphoserine/phosphohydroxythreonine transaminase"; protein_id "WP_000057138.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1010804 1010806 . + 0 gene_id "ECDH10B_RS05010"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "serC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415427.1"; locus_tag "ECDH10B_RS05010"; product "3-phosphoserine/phosphohydroxythreonine transaminase"; protein_id "WP_000057138.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1011890 1011892 . + 0 gene_id "ECDH10B_RS05010"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "serC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415427.1"; locus_tag "ECDH10B_RS05010"; product "3-phosphoserine/phosphohydroxythreonine transaminase"; protein_id "WP_000057138.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1011963 1013246 . + . gene_id "ECDH10B_RS05015"; transcript_id ""; gbkey "Gene"; gene "aroA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05015"; old_locus_tag "ECDH10B_0978"; -NC_010473.1 Protein Homology CDS 1011963 1013243 . + 0 gene_id "ECDH10B_RS05015"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "aroA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309018.1"; locus_tag "ECDH10B_RS05015"; product "3-phosphoshikimate 1-carboxyvinyltransferase"; protein_id "WP_000445231.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1011963 1011965 . + 0 gene_id "ECDH10B_RS05015"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "aroA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309018.1"; locus_tag "ECDH10B_RS05015"; product "3-phosphoshikimate 1-carboxyvinyltransferase"; protein_id "WP_000445231.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1013244 1013246 . + 0 gene_id "ECDH10B_RS05015"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "aroA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309018.1"; locus_tag "ECDH10B_RS05015"; product "3-phosphoshikimate 1-carboxyvinyltransferase"; protein_id "WP_000445231.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1013415 1014179 . + . gene_id "ECDH10B_RS05020"; transcript_id ""; gbkey "Gene"; gene "ycaL"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05020"; old_locus_tag "ECDH10B_0979"; -NC_010473.1 Protein Homology CDS 1013415 1014176 . + 0 gene_id "ECDH10B_RS05020"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ycaL"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415429.2"; locus_tag "ECDH10B_RS05020"; product "metallopeptidase YcaL"; protein_id "WP_001350496.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1013415 1013417 . + 0 gene_id "ECDH10B_RS05020"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ycaL"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415429.2"; locus_tag "ECDH10B_RS05020"; product "metallopeptidase YcaL"; protein_id "WP_001350496.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1014177 1014179 . + 0 gene_id "ECDH10B_RS05020"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ycaL"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415429.2"; locus_tag "ECDH10B_RS05020"; product "metallopeptidase YcaL"; protein_id "WP_001350496.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1014352 1015035 . + . gene_id "ECDH10B_RS05025"; transcript_id ""; gbkey "Gene"; gene "cmk"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05025"; old_locus_tag "ECDH10B_0980"; -NC_010473.1 Protein Homology CDS 1014352 1015032 . + 0 gene_id "ECDH10B_RS05025"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cmk"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000125007.1"; locus_tag "ECDH10B_RS05025"; product "(d)CMP kinase"; protein_id "WP_000125016.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1014352 1014354 . + 0 gene_id "ECDH10B_RS05025"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cmk"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000125007.1"; locus_tag "ECDH10B_RS05025"; product "(d)CMP kinase"; protein_id "WP_000125016.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1015033 1015035 . + 0 gene_id "ECDH10B_RS05025"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cmk"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000125007.1"; locus_tag "ECDH10B_RS05025"; product "(d)CMP kinase"; protein_id "WP_000125016.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1015146 1016819 . + . gene_id "ECDH10B_RS05030"; transcript_id ""; gbkey "Gene"; gene "rpsA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05030"; old_locus_tag "ECDH10B_0981"; -NC_010473.1 Protein Homology CDS 1015146 1016816 . + 0 gene_id "ECDH10B_RS05030"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rpsA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005123560.1"; locus_tag "ECDH10B_RS05030"; product "30S ribosomal protein S1"; protein_id "WP_000140327.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1015146 1015148 . + 0 gene_id "ECDH10B_RS05030"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rpsA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005123560.1"; locus_tag "ECDH10B_RS05030"; product "30S ribosomal protein S1"; protein_id "WP_000140327.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1016817 1016819 . + 0 gene_id "ECDH10B_RS05030"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rpsA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005123560.1"; locus_tag "ECDH10B_RS05030"; product "30S ribosomal protein S1"; protein_id "WP_000140327.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1016979 1017263 . + . gene_id "ECDH10B_RS05035"; transcript_id ""; gbkey "Gene"; gene "ihfB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05035"; old_locus_tag "ECDH10B_0982"; -NC_010473.1 Protein Homology CDS 1016979 1017260 . + 0 gene_id "ECDH10B_RS05035"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ihfB"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_006819309.1"; locus_tag "ECDH10B_RS05035"; product "integration host factor subunit beta"; protein_id "WP_000167336.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1016979 1016981 . + 0 gene_id "ECDH10B_RS05035"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ihfB"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_006819309.1"; locus_tag "ECDH10B_RS05035"; product "integration host factor subunit beta"; protein_id "WP_000167336.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1017261 1017263 . + 0 gene_id "ECDH10B_RS05035"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ihfB"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_006819309.1"; locus_tag "ECDH10B_RS05035"; product "integration host factor subunit beta"; protein_id "WP_000167336.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1017471 1019735 . + . gene_id "ECDH10B_RS05040"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05040"; old_locus_tag "ECDH10B_0983"; -NC_010473.1 Protein Homology CDS 1017471 1019732 . + 0 gene_id "ECDH10B_RS05040"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415433.4"; locus_tag "ECDH10B_RS05040"; product "ComEC family protein"; protein_id "WP_000705764.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1017471 1017473 . + 0 gene_id "ECDH10B_RS05040"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415433.4"; locus_tag "ECDH10B_RS05040"; product "ComEC family protein"; protein_id "WP_000705764.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1019733 1019735 . + 0 gene_id "ECDH10B_RS05040"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415433.4"; locus_tag "ECDH10B_RS05040"; product "ComEC family protein"; protein_id "WP_000705764.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1019772 1021520 . + . gene_id "ECDH10B_RS05045"; transcript_id ""; gbkey "Gene"; gene "msbA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05045"; old_locus_tag "ECDH10B_0984"; -NC_010473.1 Protein Homology CDS 1019772 1021517 . + 0 gene_id "ECDH10B_RS05045"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "msbA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309024.1"; locus_tag "ECDH10B_RS05045"; product "lipid A ABC transporter ATP-binding protein/permease MsbA"; protein_id "WP_000551270.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1019772 1019774 . + 0 gene_id "ECDH10B_RS05045"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "msbA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309024.1"; locus_tag "ECDH10B_RS05045"; product "lipid A ABC transporter ATP-binding protein/permease MsbA"; protein_id "WP_000551270.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1021518 1021520 . + 0 gene_id "ECDH10B_RS05045"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "msbA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309024.1"; locus_tag "ECDH10B_RS05045"; product "lipid A ABC transporter ATP-binding protein/permease MsbA"; protein_id "WP_000551270.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1021517 1022503 . + . gene_id "ECDH10B_RS05050"; transcript_id ""; gbkey "Gene"; gene "lpxK"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05050"; old_locus_tag "ECDH10B_0985"; -NC_010473.1 Protein Homology CDS 1021517 1022500 . + 0 gene_id "ECDH10B_RS05050"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lpxK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415435.1"; locus_tag "ECDH10B_RS05050"; product "tetraacyldisaccharide 4'-kinase"; protein_id "WP_000570544.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1021517 1021519 . + 0 gene_id "ECDH10B_RS05050"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lpxK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415435.1"; locus_tag "ECDH10B_RS05050"; product "tetraacyldisaccharide 4'-kinase"; protein_id "WP_000570544.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1022501 1022503 . + 0 gene_id "ECDH10B_RS05050"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lpxK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415435.1"; locus_tag "ECDH10B_RS05050"; product "tetraacyldisaccharide 4'-kinase"; protein_id "WP_000570544.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1022540 1023772 . + . gene_id "ECDH10B_RS05055"; transcript_id ""; gbkey "Gene"; gene "ycaQ"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05055"; old_locus_tag "ECDH10B_0986"; -NC_010473.1 Protein Homology CDS 1022540 1023769 . + 0 gene_id "ECDH10B_RS05055"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ycaQ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415436.1"; locus_tag "ECDH10B_RS05055"; product "winged helix DNA-binding protein YcaQ"; protein_id "WP_000056538.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1022540 1022542 . + 0 gene_id "ECDH10B_RS05055"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ycaQ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415436.1"; locus_tag "ECDH10B_RS05055"; product "winged helix DNA-binding protein YcaQ"; protein_id "WP_000056538.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1023770 1023772 . + 0 gene_id "ECDH10B_RS05055"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ycaQ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415436.1"; locus_tag "ECDH10B_RS05055"; product "winged helix DNA-binding protein YcaQ"; protein_id "WP_000056538.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1023824 1024006 . + . gene_id "ECDH10B_RS05060"; transcript_id ""; gbkey "Gene"; gene "ycaR"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05060"; old_locus_tag "ECDH10B_0987"; -NC_010473.1 Protein Homology CDS 1023824 1024003 . + 0 gene_id "ECDH10B_RS05060"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ycaR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309027.1"; locus_tag "ECDH10B_RS05060"; product "protein YcaR"; protein_id "WP_000350058.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1023824 1023826 . + 0 gene_id "ECDH10B_RS05060"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ycaR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309027.1"; locus_tag "ECDH10B_RS05060"; product "protein YcaR"; protein_id "WP_000350058.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1024004 1024006 . + 0 gene_id "ECDH10B_RS05060"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ycaR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309027.1"; locus_tag "ECDH10B_RS05060"; product "protein YcaR"; protein_id "WP_000350058.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1024003 1024749 . + . gene_id "ECDH10B_RS05065"; transcript_id ""; gbkey "Gene"; gene "kdsB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05065"; old_locus_tag "ECDH10B_0988"; -NC_010473.1 Protein Homology CDS 1024003 1024746 . + 0 gene_id "ECDH10B_RS05065"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "kdsB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415438.1"; locus_tag "ECDH10B_RS05065"; product "3-deoxy-manno-octulosonate cytidylyltransferase"; protein_id "WP_000011603.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1024003 1024005 . + 0 gene_id "ECDH10B_RS05065"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "kdsB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415438.1"; locus_tag "ECDH10B_RS05065"; product "3-deoxy-manno-octulosonate cytidylyltransferase"; protein_id "WP_000011603.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1024747 1024749 . + 0 gene_id "ECDH10B_RS05065"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "kdsB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415438.1"; locus_tag "ECDH10B_RS05065"; product "3-deoxy-manno-octulosonate cytidylyltransferase"; protein_id "WP_000011603.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1024903 1025796 . + . gene_id "ECDH10B_RS05070"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05070"; old_locus_tag "ECDH10B_0989"; -NC_010473.1 Protein Homology CDS 1024903 1025793 . + 0 gene_id "ECDH10B_RS05070"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309029.1"; locus_tag "ECDH10B_RS05070"; product "YcbJ family phosphotransferase"; protein_id "WP_000436922.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1024903 1024905 . + 0 gene_id "ECDH10B_RS05070"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309029.1"; locus_tag "ECDH10B_RS05070"; product "YcbJ family phosphotransferase"; protein_id "WP_000436922.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1025794 1025796 . + 0 gene_id "ECDH10B_RS05070"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309029.1"; locus_tag "ECDH10B_RS05070"; product "YcbJ family phosphotransferase"; protein_id "WP_000436922.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1025773 1026552 . - . gene_id "ECDH10B_RS05075"; transcript_id ""; gbkey "Gene"; gene "elyC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05075"; old_locus_tag "ECDH10B_0990"; -NC_010473.1 Protein Homology CDS 1025776 1026552 . - 0 gene_id "ECDH10B_RS05075"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "elyC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309030.1"; locus_tag "ECDH10B_RS05075"; product "envelope biogenesis factor ElyC"; protein_id "WP_000899600.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1026550 1026552 . - 0 gene_id "ECDH10B_RS05075"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "elyC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309030.1"; locus_tag "ECDH10B_RS05075"; product "envelope biogenesis factor ElyC"; protein_id "WP_000899600.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1025773 1025775 . - 0 gene_id "ECDH10B_RS05075"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "elyC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309030.1"; locus_tag "ECDH10B_RS05075"; product "envelope biogenesis factor ElyC"; protein_id "WP_000899600.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1026688 1027473 . + . gene_id "ECDH10B_RS05080"; transcript_id ""; gbkey "Gene"; gene "cmoM"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05080"; old_locus_tag "ECDH10B_0991"; -NC_010473.1 Protein Homology CDS 1026688 1027470 . + 0 gene_id "ECDH10B_RS05080"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cmoM"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415441.1"; locus_tag "ECDH10B_RS05080"; product "tRNA uridine 5-oxyacetic acid(34) methyltransferase CmoM"; protein_id "WP_001298300.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1026688 1026690 . + 0 gene_id "ECDH10B_RS05080"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cmoM"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415441.1"; locus_tag "ECDH10B_RS05080"; product "tRNA uridine 5-oxyacetic acid(34) methyltransferase CmoM"; protein_id "WP_001298300.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1027471 1027473 . + 0 gene_id "ECDH10B_RS05080"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cmoM"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415441.1"; locus_tag "ECDH10B_RS05080"; product "tRNA uridine 5-oxyacetic acid(34) methyltransferase CmoM"; protein_id "WP_001298300.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1027470 1028792 . + . gene_id "ECDH10B_RS05085"; transcript_id ""; gbkey "Gene"; gene "mukF"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05085"; old_locus_tag "ECDH10B_0992"; -NC_010473.1 Protein Homology CDS 1027470 1028789 . + 0 gene_id "ECDH10B_RS05085"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mukF"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005123549.1"; locus_tag "ECDH10B_RS05085"; product "chromosome partition protein MukF"; protein_id "WP_001288850.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1027470 1027472 . + 0 gene_id "ECDH10B_RS05085"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mukF"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005123549.1"; locus_tag "ECDH10B_RS05085"; product "chromosome partition protein MukF"; protein_id "WP_001288850.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1028790 1028792 . + 0 gene_id "ECDH10B_RS05085"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mukF"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005123549.1"; locus_tag "ECDH10B_RS05085"; product "chromosome partition protein MukF"; protein_id "WP_001288850.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1028773 1029477 . + . gene_id "ECDH10B_RS05090"; transcript_id ""; gbkey "Gene"; gene "mukE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05090"; old_locus_tag "ECDH10B_0993"; -NC_010473.1 Protein Homology CDS 1028773 1029474 . + 0 gene_id "ECDH10B_RS05090"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mukE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415443.2"; locus_tag "ECDH10B_RS05090"; product "chromosome partition protein MukE"; protein_id "WP_001295347.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1028773 1028775 . + 0 gene_id "ECDH10B_RS05090"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mukE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415443.2"; locus_tag "ECDH10B_RS05090"; product "chromosome partition protein MukE"; protein_id "WP_001295347.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1029475 1029477 . + 0 gene_id "ECDH10B_RS05090"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mukE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415443.2"; locus_tag "ECDH10B_RS05090"; product "chromosome partition protein MukE"; protein_id "WP_001295347.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1029477 1033937 . + . gene_id "ECDH10B_RS05095"; transcript_id ""; gbkey "Gene"; gene "mukB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05095"; old_locus_tag "ECDH10B_0994"; -NC_010473.1 Protein Homology CDS 1029477 1033934 . + 0 gene_id "ECDH10B_RS05095"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mukB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415444.1"; locus_tag "ECDH10B_RS05095"; product "chromosome partition protein MukB"; protein_id "WP_000572698.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1029477 1029479 . + 0 gene_id "ECDH10B_RS05095"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mukB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415444.1"; locus_tag "ECDH10B_RS05095"; product "chromosome partition protein MukB"; protein_id "WP_000572698.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1033935 1033937 . + 0 gene_id "ECDH10B_RS05095"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mukB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415444.1"; locus_tag "ECDH10B_RS05095"; product "chromosome partition protein MukB"; protein_id "WP_000572698.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1034198 1036045 . + . gene_id "ECDH10B_RS05100"; transcript_id ""; gbkey "Gene"; gene "ldtD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05100"; old_locus_tag "ECDH10B_0995"; -NC_010473.1 Protein Homology CDS 1034198 1036042 . + 0 gene_id "ECDH10B_RS05100"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ldtD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415445.1"; locus_tag "ECDH10B_RS05100"; product "L,D-transpeptidase"; protein_id "WP_000925969.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1034198 1034200 . + 0 gene_id "ECDH10B_RS05100"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ldtD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415445.1"; locus_tag "ECDH10B_RS05100"; product "L,D-transpeptidase"; protein_id "WP_000925969.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1036043 1036045 . + 0 gene_id "ECDH10B_RS05100"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ldtD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415445.1"; locus_tag "ECDH10B_RS05100"; product "L,D-transpeptidase"; protein_id "WP_000925969.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1036226 1036774 . + . gene_id "ECDH10B_RS05105"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05105"; old_locus_tag "ECDH10B_0996"; -NC_010473.1 Protein Homology CDS 1036226 1036771 . + 0 gene_id "ECDH10B_RS05105"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309036.1"; locus_tag "ECDH10B_RS05105"; product "YcbK family protein"; protein_id "WP_001295932.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1036226 1036228 . + 0 gene_id "ECDH10B_RS05105"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309036.1"; locus_tag "ECDH10B_RS05105"; product "YcbK family protein"; protein_id "WP_001295932.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1036772 1036774 . + 0 gene_id "ECDH10B_RS05105"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309036.1"; locus_tag "ECDH10B_RS05105"; product "YcbK family protein"; protein_id "WP_001295932.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1036801 1037448 . + . gene_id "ECDH10B_RS05110"; transcript_id ""; gbkey "Gene"; gene "gloC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05110"; old_locus_tag "ECDH10B_0997"; -NC_010473.1 Protein Homology CDS 1036801 1037445 . + 0 gene_id "ECDH10B_RS05110"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gloC"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_003035823.1"; locus_tag "ECDH10B_RS05110"; product "hydroxyacylglutathione hydrolase GloC"; protein_id "WP_001109486.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1036801 1036803 . + 0 gene_id "ECDH10B_RS05110"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gloC"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_003035823.1"; locus_tag "ECDH10B_RS05110"; product "hydroxyacylglutathione hydrolase GloC"; protein_id "WP_001109486.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1037446 1037448 . + 0 gene_id "ECDH10B_RS05110"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gloC"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_003035823.1"; locus_tag "ECDH10B_RS05110"; product "hydroxyacylglutathione hydrolase GloC"; protein_id "WP_001109486.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1037670 1038860 . - . gene_id "ECDH10B_RS05115"; transcript_id ""; gbkey "Gene"; gene "aspC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05115"; old_locus_tag "ECDH10B_0998"; -NC_010473.1 Protein Homology CDS 1037673 1038860 . - 0 gene_id "ECDH10B_RS05115"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "aspC"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_009653304.1"; locus_tag "ECDH10B_RS05115"; product "aspartate transaminase"; protein_id "WP_000462687.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1038858 1038860 . - 0 gene_id "ECDH10B_RS05115"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "aspC"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_009653304.1"; locus_tag "ECDH10B_RS05115"; product "aspartate transaminase"; protein_id "WP_000462687.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1037670 1037672 . - 0 gene_id "ECDH10B_RS05115"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "aspC"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_009653304.1"; locus_tag "ECDH10B_RS05115"; product "aspartate transaminase"; protein_id "WP_000462687.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1039045 1040133 . - . gene_id "ECDH10B_RS05125"; transcript_id ""; gbkey "Gene"; gene "ompF"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05125"; old_locus_tag "ECDH10B_0999"; -NC_010473.1 Protein Homology CDS 1039048 1040133 . - 0 gene_id "ECDH10B_RS05125"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ompF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415449.1"; locus_tag "ECDH10B_RS05125"; product "porin OmpF"; protein_id "WP_000977920.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1040131 1040133 . - 0 gene_id "ECDH10B_RS05125"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ompF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415449.1"; locus_tag "ECDH10B_RS05125"; product "porin OmpF"; protein_id "WP_000977920.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1039045 1039047 . - 0 gene_id "ECDH10B_RS05125"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ompF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415449.1"; locus_tag "ECDH10B_RS05125"; product "porin OmpF"; protein_id "WP_000977920.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1040736 1042136 . - . gene_id "ECDH10B_RS05130"; transcript_id ""; gbkey "Gene"; gene "asnS"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05130"; old_locus_tag "ECDH10B_1000"; -NC_010473.1 Protein Homology CDS 1040739 1042136 . - 0 gene_id "ECDH10B_RS05130"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "asnS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005123540.1"; locus_tag "ECDH10B_RS05130"; product "asparagine--tRNA ligase"; protein_id "WP_000117881.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1042134 1042136 . - 0 gene_id "ECDH10B_RS05130"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "asnS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005123540.1"; locus_tag "ECDH10B_RS05130"; product "asparagine--tRNA ligase"; protein_id "WP_000117881.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1040736 1040738 . - 0 gene_id "ECDH10B_RS05130"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "asnS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005123540.1"; locus_tag "ECDH10B_RS05130"; product "asparagine--tRNA ligase"; protein_id "WP_000117881.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1042305 1043507 . - . gene_id "ECDH10B_RS05135"; transcript_id ""; gbkey "Gene"; gene "pncB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05135"; old_locus_tag "ECDH10B_1001"; -NC_010473.1 Protein Homology CDS 1042308 1043507 . - 0 gene_id "ECDH10B_RS05135"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pncB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415451.1"; locus_tag "ECDH10B_RS05135"; product "nicotinate phosphoribosyltransferase"; protein_id "WP_001307697.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1043505 1043507 . - 0 gene_id "ECDH10B_RS05135"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pncB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415451.1"; locus_tag "ECDH10B_RS05135"; product "nicotinate phosphoribosyltransferase"; protein_id "WP_001307697.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1042305 1042307 . - 0 gene_id "ECDH10B_RS05135"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pncB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415451.1"; locus_tag "ECDH10B_RS05135"; product "nicotinate phosphoribosyltransferase"; protein_id "WP_001307697.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1043773 1046385 . + . gene_id "ECDH10B_RS05140"; transcript_id ""; gbkey "Gene"; gene "pepN"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05140"; old_locus_tag "ECDH10B_1002"; -NC_010473.1 Protein Homology CDS 1043773 1046382 . + 0 gene_id "ECDH10B_RS05140"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pepN"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000193787.1"; locus_tag "ECDH10B_RS05140"; product "aminopeptidase N"; protein_id "WP_000193841.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1043773 1043775 . + 0 gene_id "ECDH10B_RS05140"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pepN"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000193787.1"; locus_tag "ECDH10B_RS05140"; product "aminopeptidase N"; protein_id "WP_000193841.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1046383 1046385 . + 0 gene_id "ECDH10B_RS05140"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pepN"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000193787.1"; locus_tag "ECDH10B_RS05140"; product "aminopeptidase N"; protein_id "WP_000193841.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1046428 1047195 . - . gene_id "ECDH10B_RS05145"; transcript_id ""; gbkey "Gene"; gene "ssuB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05145"; old_locus_tag "ECDH10B_1003"; -NC_010473.1 Protein Homology CDS 1046431 1047195 . - 0 gene_id "ECDH10B_RS05145"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ssuB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309043.1"; locus_tag "ECDH10B_RS05145"; product "aliphatic sulfonates ABC transporter ATP-binding protein"; protein_id "WP_001090506.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1047193 1047195 . - 0 gene_id "ECDH10B_RS05145"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ssuB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309043.1"; locus_tag "ECDH10B_RS05145"; product "aliphatic sulfonates ABC transporter ATP-binding protein"; protein_id "WP_001090506.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1046428 1046430 . - 0 gene_id "ECDH10B_RS05145"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ssuB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309043.1"; locus_tag "ECDH10B_RS05145"; product "aliphatic sulfonates ABC transporter ATP-binding protein"; protein_id "WP_001090506.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1047192 1047983 . - . gene_id "ECDH10B_RS05150"; transcript_id ""; gbkey "Gene"; gene "ssuC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05150"; old_locus_tag "ECDH10B_1004"; -NC_010473.1 Protein Homology CDS 1047195 1047983 . - 0 gene_id "ECDH10B_RS05150"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ssuC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415454.4"; locus_tag "ECDH10B_RS05150"; product "aliphatic sulfonate ABC transporter permease SsuC"; protein_id "WP_000235203.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1047981 1047983 . - 0 gene_id "ECDH10B_RS05150"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ssuC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415454.4"; locus_tag "ECDH10B_RS05150"; product "aliphatic sulfonate ABC transporter permease SsuC"; protein_id "WP_000235203.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1047192 1047194 . - 0 gene_id "ECDH10B_RS05150"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ssuC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415454.4"; locus_tag "ECDH10B_RS05150"; product "aliphatic sulfonate ABC transporter permease SsuC"; protein_id "WP_000235203.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1047994 1049139 . - . gene_id "ECDH10B_RS05155"; transcript_id ""; gbkey "Gene"; gene "ssuD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05155"; old_locus_tag "ECDH10B_1005"; -NC_010473.1 Protein Homology CDS 1047997 1049139 . - 0 gene_id "ECDH10B_RS05155"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ssuD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415455.1"; locus_tag "ECDH10B_RS05155"; product "FMNH2-dependent alkanesulfonate monooxygenase"; protein_id "WP_000056006.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1049137 1049139 . - 0 gene_id "ECDH10B_RS05155"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ssuD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415455.1"; locus_tag "ECDH10B_RS05155"; product "FMNH2-dependent alkanesulfonate monooxygenase"; protein_id "WP_000056006.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1047994 1047996 . - 0 gene_id "ECDH10B_RS05155"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ssuD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415455.1"; locus_tag "ECDH10B_RS05155"; product "FMNH2-dependent alkanesulfonate monooxygenase"; protein_id "WP_000056006.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1049136 1050095 . - . gene_id "ECDH10B_RS05160"; transcript_id ""; gbkey "Gene"; gene "ssuA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05160"; old_locus_tag "ECDH10B_1006"; -NC_010473.1 Protein Homology CDS 1049139 1050095 . - 0 gene_id "ECDH10B_RS05160"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ssuA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415456.4"; locus_tag "ECDH10B_RS05160"; product "aliphatic sulfonate ABC transporter substrate-binding protein SsuA"; protein_id "WP_001244308.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1050093 1050095 . - 0 gene_id "ECDH10B_RS05160"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ssuA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415456.4"; locus_tag "ECDH10B_RS05160"; product "aliphatic sulfonate ABC transporter substrate-binding protein SsuA"; protein_id "WP_001244308.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1049136 1049138 . - 0 gene_id "ECDH10B_RS05160"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ssuA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415456.4"; locus_tag "ECDH10B_RS05160"; product "aliphatic sulfonate ABC transporter substrate-binding protein SsuA"; protein_id "WP_001244308.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1050088 1050663 . - . gene_id "ECDH10B_RS05165"; transcript_id ""; gbkey "Gene"; gene "ssuE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05165"; old_locus_tag "ECDH10B_1007"; -NC_010473.1 Protein Homology CDS 1050091 1050663 . - 0 gene_id "ECDH10B_RS05165"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ssuE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415457.1"; locus_tag "ECDH10B_RS05165"; product "NADPH-dependent FMN reductase"; protein_id "WP_001263933.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1050661 1050663 . - 0 gene_id "ECDH10B_RS05165"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ssuE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415457.1"; locus_tag "ECDH10B_RS05165"; product "NADPH-dependent FMN reductase"; protein_id "WP_001263933.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1050088 1050090 . - 0 gene_id "ECDH10B_RS05165"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ssuE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415457.1"; locus_tag "ECDH10B_RS05165"; product "NADPH-dependent FMN reductase"; protein_id "WP_001263933.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1051019 1051558 . + . gene_id "ECDH10B_RS05170"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05170"; old_locus_tag "ECDH10B_1008"; -NC_010473.1 Protein Homology CDS 1051019 1051555 . + 0 gene_id "ECDH10B_RS05170"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415458.2"; locus_tag "ECDH10B_RS05170"; product "fimbrial protein"; protein_id "WP_000750293.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1051019 1051021 . + 0 gene_id "ECDH10B_RS05170"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415458.2"; locus_tag "ECDH10B_RS05170"; product "fimbrial protein"; protein_id "WP_000750293.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1051556 1051558 . + 0 gene_id "ECDH10B_RS05170"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415458.2"; locus_tag "ECDH10B_RS05170"; product "fimbrial protein"; protein_id "WP_000750293.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1051641 1052342 . + . gene_id "ECDH10B_RS05175"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05175"; old_locus_tag "ECDH10B_1009"; -NC_010473.1 Protein Homology CDS 1051641 1052339 . + 0 gene_id "ECDH10B_RS05175"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415459.1"; locus_tag "ECDH10B_RS05175"; product "molecular chaperone"; protein_id "WP_001295349.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1051641 1051643 . + 0 gene_id "ECDH10B_RS05175"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415459.1"; locus_tag "ECDH10B_RS05175"; product "molecular chaperone"; protein_id "WP_001295349.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1052340 1052342 . + 0 gene_id "ECDH10B_RS05175"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415459.1"; locus_tag "ECDH10B_RS05175"; product "molecular chaperone"; protein_id "WP_001295349.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1052367 1054967 . + . gene_id "ECDH10B_RS05180"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05180"; old_locus_tag "ECDH10B_1010"; -NC_010473.1 Protein Homology CDS 1052367 1054964 . + 0 gene_id "ECDH10B_RS05180"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415460.1"; locus_tag "ECDH10B_RS05180"; product "fimbrial biogenesis usher protein"; protein_id "WP_000286312.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1052367 1052369 . + 0 gene_id "ECDH10B_RS05180"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415460.1"; locus_tag "ECDH10B_RS05180"; product "fimbrial biogenesis usher protein"; protein_id "WP_000286312.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1054965 1054967 . + 0 gene_id "ECDH10B_RS05180"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415460.1"; locus_tag "ECDH10B_RS05180"; product "fimbrial biogenesis usher protein"; protein_id "WP_000286312.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1054958 1056028 . + . gene_id "ECDH10B_RS05185"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05185"; old_locus_tag "ECDH10B_1011"; -NC_010473.1 Protein Homology CDS 1054958 1056025 . + 0 gene_id "ECDH10B_RS05185"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415461.1"; locus_tag "ECDH10B_RS05185"; product "fimbrial protein"; protein_id "WP_001165668.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1054958 1054960 . + 0 gene_id "ECDH10B_RS05185"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415461.1"; locus_tag "ECDH10B_RS05185"; product "fimbrial protein"; protein_id "WP_001165668.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1056026 1056028 . + 0 gene_id "ECDH10B_RS05185"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415461.1"; locus_tag "ECDH10B_RS05185"; product "fimbrial protein"; protein_id "WP_001165668.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1056040 1056582 . + . gene_id "ECDH10B_RS05190"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05190"; old_locus_tag "ECDH10B_1012"; -NC_010473.1 Protein Homology CDS 1056040 1056579 . + 0 gene_id "ECDH10B_RS05190"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415462.1"; locus_tag "ECDH10B_RS05190"; product "fimbrial protein"; protein_id "WP_000730617.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1056040 1056042 . + 0 gene_id "ECDH10B_RS05190"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415462.1"; locus_tag "ECDH10B_RS05190"; product "fimbrial protein"; protein_id "WP_000730617.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1056580 1056582 . + 0 gene_id "ECDH10B_RS05190"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415462.1"; locus_tag "ECDH10B_RS05190"; product "fimbrial protein"; protein_id "WP_000730617.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1056590 1057105 . + . gene_id "ECDH10B_RS05195"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05195"; old_locus_tag "ECDH10B_1013"; -NC_010473.1 Protein Homology CDS 1056590 1057102 . + 0 gene_id "ECDH10B_RS05195"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415463.2"; locus_tag "ECDH10B_RS05195"; product "type 1 fimbrial protein"; protein_id "WP_000919497.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1056590 1056592 . + 0 gene_id "ECDH10B_RS05195"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415463.2"; locus_tag "ECDH10B_RS05195"; product "type 1 fimbrial protein"; protein_id "WP_000919497.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1057103 1057105 . + 0 gene_id "ECDH10B_RS05195"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415463.2"; locus_tag "ECDH10B_RS05195"; product "type 1 fimbrial protein"; protein_id "WP_000919497.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1057071 1057808 . + . gene_id "ECDH10B_RS05200"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05200"; old_locus_tag "ECDH10B_1014"; -NC_010473.1 Protein Homology CDS 1057071 1057805 . + 0 gene_id "ECDH10B_RS05200"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_706867.1"; locus_tag "ECDH10B_RS05200"; product "fimbrial chaperone"; protein_id "WP_001111465.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1057071 1057073 . + 0 gene_id "ECDH10B_RS05200"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_706867.1"; locus_tag "ECDH10B_RS05200"; product "fimbrial chaperone"; protein_id "WP_001111465.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1057806 1057808 . + 0 gene_id "ECDH10B_RS05200"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_706867.1"; locus_tag "ECDH10B_RS05200"; product "fimbrial chaperone"; protein_id "WP_001111465.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1057919 1058929 . + . gene_id "ECDH10B_RS05205"; transcript_id ""; gbkey "Gene"; gene "pyrD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05205"; old_locus_tag "ECDH10B_1015"; -NC_010473.1 Protein Homology CDS 1057919 1058926 . + 0 gene_id "ECDH10B_RS05205"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pyrD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309056.1"; locus_tag "ECDH10B_RS05205"; product "quinone-dependent dihydroorotate dehydrogenase"; protein_id "WP_001295352.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1057919 1057921 . + 0 gene_id "ECDH10B_RS05205"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pyrD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309056.1"; locus_tag "ECDH10B_RS05205"; product "quinone-dependent dihydroorotate dehydrogenase"; protein_id "WP_001295352.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1058927 1058929 . + 0 gene_id "ECDH10B_RS05205"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pyrD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309056.1"; locus_tag "ECDH10B_RS05205"; product "quinone-dependent dihydroorotate dehydrogenase"; protein_id "WP_001295352.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1059103 1059645 . + . gene_id "ECDH10B_RS05210"; transcript_id ""; gbkey "Gene"; gene "zapC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05210"; old_locus_tag "ECDH10B_1016"; -NC_010473.1 Protein Homology CDS 1059103 1059642 . + 0 gene_id "ECDH10B_RS05210"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "zapC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415466.4"; locus_tag "ECDH10B_RS05210"; product "cell division protein ZapC"; protein_id "WP_001295353.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1059103 1059105 . + 0 gene_id "ECDH10B_RS05210"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "zapC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415466.4"; locus_tag "ECDH10B_RS05210"; product "cell division protein ZapC"; protein_id "WP_001295353.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1059643 1059645 . + 0 gene_id "ECDH10B_RS05210"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "zapC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415466.4"; locus_tag "ECDH10B_RS05210"; product "cell division protein ZapC"; protein_id "WP_001295353.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1059642 1060751 . - . gene_id "ECDH10B_RS05215"; transcript_id ""; gbkey "Gene"; gene "ycbX"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05215"; old_locus_tag "ECDH10B_1017"; -NC_010473.1 Protein Homology CDS 1059645 1060751 . - 0 gene_id "ECDH10B_RS05215"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ycbX"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415467.1"; locus_tag "ECDH10B_RS05215"; product "6-N-hydroxylaminopurine resistance protein YcbX"; protein_id "WP_000212426.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1060749 1060751 . - 0 gene_id "ECDH10B_RS05215"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ycbX"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415467.1"; locus_tag "ECDH10B_RS05215"; product "6-N-hydroxylaminopurine resistance protein YcbX"; protein_id "WP_000212426.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1059642 1059644 . - 0 gene_id "ECDH10B_RS05215"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ycbX"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415467.1"; locus_tag "ECDH10B_RS05215"; product "6-N-hydroxylaminopurine resistance protein YcbX"; protein_id "WP_000212426.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1060995 1063103 . + . gene_id "ECDH10B_RS05220"; transcript_id ""; gbkey "Gene"; gene "rlmKL"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05220"; old_locus_tag "ECDH10B_1018"; -NC_010473.1 Protein Homology CDS 1060995 1063100 . + 0 gene_id "ECDH10B_RS05220"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rlmKL"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415468.1"; locus_tag "ECDH10B_RS05220"; product "bifunctional 23S rRNA (guanine(2069)-N(7))-methyltransferase RlmK/23S rRNA (guanine(2445)-N(2))-methyltransferase RlmL"; protein_id "WP_001086539.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1060995 1060997 . + 0 gene_id "ECDH10B_RS05220"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rlmKL"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415468.1"; locus_tag "ECDH10B_RS05220"; product "bifunctional 23S rRNA (guanine(2069)-N(7))-methyltransferase RlmK/23S rRNA (guanine(2445)-N(2))-methyltransferase RlmL"; protein_id "WP_001086539.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1063101 1063103 . + 0 gene_id "ECDH10B_RS05220"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rlmKL"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415468.1"; locus_tag "ECDH10B_RS05220"; product "bifunctional 23S rRNA (guanine(2069)-N(7))-methyltransferase RlmK/23S rRNA (guanine(2445)-N(2))-methyltransferase RlmL"; protein_id "WP_001086539.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1063115 1065022 . + . gene_id "ECDH10B_RS05225"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05225"; old_locus_tag "ECDH10B_1019"; -NC_010473.1 Protein Homology CDS 1063115 1065019 . + 0 gene_id "ECDH10B_RS05225"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415469.1"; locus_tag "ECDH10B_RS05225"; product "ABC transporter ATP-binding protein"; protein_id "WP_000053099.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1063115 1063117 . + 0 gene_id "ECDH10B_RS05225"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415469.1"; locus_tag "ECDH10B_RS05225"; product "ABC transporter ATP-binding protein"; protein_id "WP_000053099.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1065020 1065022 . + 0 gene_id "ECDH10B_RS05225"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415469.1"; locus_tag "ECDH10B_RS05225"; product "ABC transporter ATP-binding protein"; protein_id "WP_000053099.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1065152 1066405 . + . gene_id "ECDH10B_RS05230"; transcript_id ""; gbkey "Gene"; gene "pqiA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05230"; old_locus_tag "ECDH10B_1020"; -NC_010473.1 Protein Homology CDS 1065152 1066402 . + 0 gene_id "ECDH10B_RS05230"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pqiA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415470.1"; locus_tag "ECDH10B_RS05230"; product "membrane integrity-associated transporter subunit PqiA"; protein_id "WP_000333176.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1065152 1065154 . + 0 gene_id "ECDH10B_RS05230"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pqiA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415470.1"; locus_tag "ECDH10B_RS05230"; product "membrane integrity-associated transporter subunit PqiA"; protein_id "WP_000333176.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1066403 1066405 . + 0 gene_id "ECDH10B_RS05230"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pqiA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415470.1"; locus_tag "ECDH10B_RS05230"; product "membrane integrity-associated transporter subunit PqiA"; protein_id "WP_000333176.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1066410 1068050 . + . gene_id "ECDH10B_RS05235"; transcript_id ""; gbkey "Gene"; gene "pqiB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05235"; old_locus_tag "ECDH10B_1021"; -NC_010473.1 Protein Homology CDS 1066410 1068047 . + 0 gene_id "ECDH10B_RS05235"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pqiB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415471.1"; locus_tag "ECDH10B_RS05235"; product "intermembrane transport protein PqiB"; protein_id "WP_000445533.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1066410 1066412 . + 0 gene_id "ECDH10B_RS05235"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pqiB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415471.1"; locus_tag "ECDH10B_RS05235"; product "intermembrane transport protein PqiB"; protein_id "WP_000445533.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1068048 1068050 . + 0 gene_id "ECDH10B_RS05235"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pqiB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415471.1"; locus_tag "ECDH10B_RS05235"; product "intermembrane transport protein PqiB"; protein_id "WP_000445533.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1068047 1068610 . + . gene_id "ECDH10B_RS05240"; transcript_id ""; gbkey "Gene"; gene "pqiC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05240"; old_locus_tag "ECDH10B_1022"; -NC_010473.1 Protein Homology CDS 1068047 1068607 . + 0 gene_id "ECDH10B_RS05240"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pqiC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_706875.1"; locus_tag "ECDH10B_RS05240"; product "membrane integrity-associated transporter subunit PqiC"; protein_id "WP_000759120.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1068047 1068049 . + 0 gene_id "ECDH10B_RS05240"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pqiC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_706875.1"; locus_tag "ECDH10B_RS05240"; product "membrane integrity-associated transporter subunit PqiC"; protein_id "WP_000759120.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1068608 1068610 . + 0 gene_id "ECDH10B_RS05240"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pqiC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_706875.1"; locus_tag "ECDH10B_RS05240"; product "membrane integrity-associated transporter subunit PqiC"; protein_id "WP_000759120.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1068866 1069033 . + . gene_id "ECDH10B_RS05245"; transcript_id ""; gbkey "Gene"; gene "rmf"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05245"; old_locus_tag "ECDH10B_1023"; -NC_010473.1 Protein Homology CDS 1068866 1069030 . + 0 gene_id "ECDH10B_RS05245"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rmf"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309064.1"; locus_tag "ECDH10B_RS05245"; product "ribosome modulation factor"; protein_id "WP_000828648.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1068866 1068868 . + 0 gene_id "ECDH10B_RS05245"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rmf"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309064.1"; locus_tag "ECDH10B_RS05245"; product "ribosome modulation factor"; protein_id "WP_000828648.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1069031 1069033 . + 0 gene_id "ECDH10B_RS05245"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rmf"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309064.1"; locus_tag "ECDH10B_RS05245"; product "ribosome modulation factor"; protein_id "WP_000828648.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1069103 1069621 . - . gene_id "ECDH10B_RS05250"; transcript_id ""; gbkey "Gene"; gene "fabA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05250"; old_locus_tag "ECDH10B_1024"; -NC_010473.1 Protein Homology CDS 1069106 1069621 . - 0 gene_id "ECDH10B_RS05250"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fabA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_014915875.1"; locus_tag "ECDH10B_RS05250"; product "bifunctional 3-hydroxydecanoyl-ACP dehydratase/trans-2-decenoyl-ACP isomerase"; protein_id "WP_000227927.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1069619 1069621 . - 0 gene_id "ECDH10B_RS05250"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fabA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_014915875.1"; locus_tag "ECDH10B_RS05250"; product "bifunctional 3-hydroxydecanoyl-ACP dehydratase/trans-2-decenoyl-ACP isomerase"; protein_id "WP_000227927.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1069103 1069105 . - 0 gene_id "ECDH10B_RS05250"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fabA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_014915875.1"; locus_tag "ECDH10B_RS05250"; product "bifunctional 3-hydroxydecanoyl-ACP dehydratase/trans-2-decenoyl-ACP isomerase"; protein_id "WP_000227927.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1069690 1071450 . - . gene_id "ECDH10B_RS05255"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05255"; old_locus_tag "ECDH10B_1025"; -NC_010473.1 Protein Homology CDS 1069693 1071450 . - 0 gene_id "ECDH10B_RS05255"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415475.1"; locus_tag "ECDH10B_RS05255"; product "Lon protease family protein"; protein_id "WP_000156518.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1071448 1071450 . - 0 gene_id "ECDH10B_RS05255"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415475.1"; locus_tag "ECDH10B_RS05255"; product "Lon protease family protein"; protein_id "WP_000156518.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1069690 1069692 . - 0 gene_id "ECDH10B_RS05255"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415475.1"; locus_tag "ECDH10B_RS05255"; product "Lon protease family protein"; protein_id "WP_000156518.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1071636 1072088 . + . gene_id "ECDH10B_RS05260"; transcript_id ""; gbkey "Gene"; gene "matP"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05260"; old_locus_tag "ECDH10B_1026"; -NC_010473.1 Protein Homology CDS 1071636 1072085 . + 0 gene_id "ECDH10B_RS05260"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "matP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309067.1"; locus_tag "ECDH10B_RS05260"; product "macrodomain Ter protein MatP"; protein_id "WP_000877161.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1071636 1071638 . + 0 gene_id "ECDH10B_RS05260"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "matP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309067.1"; locus_tag "ECDH10B_RS05260"; product "macrodomain Ter protein MatP"; protein_id "WP_000877161.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1072086 1072088 . + 0 gene_id "ECDH10B_RS05260"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "matP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309067.1"; locus_tag "ECDH10B_RS05260"; product "macrodomain Ter protein MatP"; protein_id "WP_000877161.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1072164 1073204 . - . gene_id "ECDH10B_RS05265"; transcript_id ""; gbkey "Gene"; gene "ompA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05265"; old_locus_tag "ECDH10B_1027"; -NC_010473.1 Protein Homology CDS 1072167 1073204 . - 0 gene_id "ECDH10B_RS05265"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ompA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309068.1"; locus_tag "ECDH10B_RS05265"; product "porin OmpA"; protein_id "WP_000750416.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1073202 1073204 . - 0 gene_id "ECDH10B_RS05265"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ompA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309068.1"; locus_tag "ECDH10B_RS05265"; product "porin OmpA"; protein_id "WP_000750416.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1072164 1072166 . - 0 gene_id "ECDH10B_RS05265"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ompA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309068.1"; locus_tag "ECDH10B_RS05265"; product "porin OmpA"; protein_id "WP_000750416.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1073561 1074070 . - . gene_id "ECDH10B_RS05275"; transcript_id ""; gbkey "Gene"; gene "sulA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05275"; old_locus_tag "ECDH10B_1028"; -NC_010473.1 Protein Homology CDS 1073564 1074070 . - 0 gene_id "ECDH10B_RS05275"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sulA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309069.1"; locus_tag "ECDH10B_RS05275"; product "cell division inhibitor SulA"; protein_id "WP_000288710.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1074068 1074070 . - 0 gene_id "ECDH10B_RS05275"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sulA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309069.1"; locus_tag "ECDH10B_RS05275"; product "cell division inhibitor SulA"; protein_id "WP_000288710.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1073561 1073563 . - 0 gene_id "ECDH10B_RS05275"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sulA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309069.1"; locus_tag "ECDH10B_RS05275"; product "cell division inhibitor SulA"; protein_id "WP_000288710.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1074289 1074918 . + . gene_id "ECDH10B_RS05280"; transcript_id ""; gbkey "Gene"; gene "sxy"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05280"; old_locus_tag "ECDH10B_1029"; -NC_010473.1 Protein Homology CDS 1074289 1074915 . + 0 gene_id "ECDH10B_RS05280"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sxy"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415479.1"; locus_tag "ECDH10B_RS05280"; product "CRP-S regulon transcriptional coactivator Sxy"; protein_id "WP_000839153.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1074289 1074291 . + 0 gene_id "ECDH10B_RS05280"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sxy"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415479.1"; locus_tag "ECDH10B_RS05280"; product "CRP-S regulon transcriptional coactivator Sxy"; protein_id "WP_000839153.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1074916 1074918 . + 0 gene_id "ECDH10B_RS05280"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sxy"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415479.1"; locus_tag "ECDH10B_RS05280"; product "CRP-S regulon transcriptional coactivator Sxy"; protein_id "WP_000839153.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1074881 1077043 . - . gene_id "ECDH10B_RS05285"; transcript_id ""; gbkey "Gene"; gene "yccS"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05285"; old_locus_tag "ECDH10B_1030"; -NC_010473.1 Protein Homology CDS 1074884 1077043 . - 0 gene_id "ECDH10B_RS05285"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yccS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309071.3"; locus_tag "ECDH10B_RS05285"; product "TIGR01666 family membrane protein"; protein_id "WP_000875061.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1077041 1077043 . - 0 gene_id "ECDH10B_RS05285"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yccS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309071.3"; locus_tag "ECDH10B_RS05285"; product "TIGR01666 family membrane protein"; protein_id "WP_000875061.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1074881 1074883 . - 0 gene_id "ECDH10B_RS05285"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yccS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309071.3"; locus_tag "ECDH10B_RS05285"; product "TIGR01666 family membrane protein"; protein_id "WP_000875061.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1077053 1077499 . - . gene_id "ECDH10B_RS05290"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05290"; old_locus_tag "ECDH10B_1031"; -NC_010473.1 Protein Homology CDS 1077056 1077499 . - 0 gene_id "ECDH10B_RS05290"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415481.1"; locus_tag "ECDH10B_RS05290"; product "YccF domain-containing protein"; protein_id "WP_001261235.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1077497 1077499 . - 0 gene_id "ECDH10B_RS05290"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415481.1"; locus_tag "ECDH10B_RS05290"; product "YccF domain-containing protein"; protein_id "WP_001261235.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1077053 1077055 . - 0 gene_id "ECDH10B_RS05290"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415481.1"; locus_tag "ECDH10B_RS05290"; product "YccF domain-containing protein"; protein_id "WP_001261235.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1077622 1079676 . + . gene_id "ECDH10B_RS05295"; transcript_id ""; gbkey "Gene"; gene "helD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05295"; old_locus_tag "ECDH10B_1032"; -NC_010473.1 Protein Homology CDS 1077622 1079673 . + 0 gene_id "ECDH10B_RS05295"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "helD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415482.1"; locus_tag "ECDH10B_RS05295"; product "DNA helicase IV"; protein_id "WP_001295354.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1077622 1077624 . + 0 gene_id "ECDH10B_RS05295"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "helD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415482.1"; locus_tag "ECDH10B_RS05295"; product "DNA helicase IV"; protein_id "WP_001295354.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1079674 1079676 . + 0 gene_id "ECDH10B_RS05295"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "helD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415482.1"; locus_tag "ECDH10B_RS05295"; product "DNA helicase IV"; protein_id "WP_001295354.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1079708 1080166 . - . gene_id "ECDH10B_RS05300"; transcript_id ""; gbkey "Gene"; gene "mgsA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05300"; old_locus_tag "ECDH10B_1033"; -NC_010473.1 Protein Homology CDS 1079711 1080166 . - 0 gene_id "ECDH10B_RS05300"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mgsA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415483.2"; locus_tag "ECDH10B_RS05300"; product "methylglyoxal synthase"; protein_id "WP_000424181.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1080164 1080166 . - 0 gene_id "ECDH10B_RS05300"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mgsA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415483.2"; locus_tag "ECDH10B_RS05300"; product "methylglyoxal synthase"; protein_id "WP_000424181.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1079708 1079710 . - 0 gene_id "ECDH10B_RS05300"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mgsA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415483.2"; locus_tag "ECDH10B_RS05300"; product "methylglyoxal synthase"; protein_id "WP_000424181.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1080262 1080924 . - . gene_id "ECDH10B_RS05305"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05305"; old_locus_tag "ECDH10B_1034"; -NC_010473.1 Protein Homology CDS 1080265 1080924 . - 0 gene_id "ECDH10B_RS05305"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309075.1"; locus_tag "ECDH10B_RS05305"; product "DUF2057 family protein"; protein_id "WP_000847791.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1080922 1080924 . - 0 gene_id "ECDH10B_RS05305"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309075.1"; locus_tag "ECDH10B_RS05305"; product "DUF2057 family protein"; protein_id "WP_000847791.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1080262 1080264 . - 0 gene_id "ECDH10B_RS05305"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309075.1"; locus_tag "ECDH10B_RS05305"; product "DUF2057 family protein"; protein_id "WP_000847791.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1081097 1081510 . + . gene_id "ECDH10B_RS05315"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05315"; old_locus_tag "ECDH10B_1035"; -NC_010473.1 Protein Homology CDS 1081097 1081507 . + 0 gene_id "ECDH10B_RS05315"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415485.4"; locus_tag "ECDH10B_RS05315"; product "CoA-binding protein"; protein_id "WP_001301418.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1081097 1081099 . + 0 gene_id "ECDH10B_RS05315"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415485.4"; locus_tag "ECDH10B_RS05315"; product "CoA-binding protein"; protein_id "WP_001301418.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1081508 1081510 . + 0 gene_id "ECDH10B_RS05315"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415485.4"; locus_tag "ECDH10B_RS05315"; product "CoA-binding protein"; protein_id "WP_001301418.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1081555 1081872 . - . gene_id "ECDH10B_RS05320"; transcript_id ""; gbkey "Gene"; gene "hspQ"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05320"; old_locus_tag "ECDH10B_1036"; -NC_010473.1 Protein Homology CDS 1081558 1081872 . - 0 gene_id "ECDH10B_RS05320"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hspQ"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005123508.1"; locus_tag "ECDH10B_RS05320"; product "heat shock protein HspQ"; protein_id "WP_001295356.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1081870 1081872 . - 0 gene_id "ECDH10B_RS05320"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hspQ"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005123508.1"; locus_tag "ECDH10B_RS05320"; product "heat shock protein HspQ"; protein_id "WP_001295356.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1081555 1081557 . - 0 gene_id "ECDH10B_RS05320"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hspQ"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005123508.1"; locus_tag "ECDH10B_RS05320"; product "heat shock protein HspQ"; protein_id "WP_001295356.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1081930 1083120 . - . gene_id "ECDH10B_RS05325"; transcript_id ""; gbkey "Gene"; gene "rlmI"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05325"; old_locus_tag "ECDH10B_1037"; -NC_010473.1 Protein Homology CDS 1081933 1083120 . - 0 gene_id "ECDH10B_RS05325"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rlmI"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415487.4"; locus_tag "ECDH10B_RS05325"; product "23S rRNA (cytosine(1962)-C(5))-methyltransferase RlmI"; protein_id "WP_000116297.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1083118 1083120 . - 0 gene_id "ECDH10B_RS05325"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rlmI"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415487.4"; locus_tag "ECDH10B_RS05325"; product "23S rRNA (cytosine(1962)-C(5))-methyltransferase RlmI"; protein_id "WP_000116297.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1081930 1081932 . - 0 gene_id "ECDH10B_RS05325"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rlmI"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415487.4"; locus_tag "ECDH10B_RS05325"; product "23S rRNA (cytosine(1962)-C(5))-methyltransferase RlmI"; protein_id "WP_000116297.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1083215 1083493 . + . gene_id "ECDH10B_RS05330"; transcript_id ""; gbkey "Gene"; gene "yccX"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05330"; old_locus_tag "ECDH10B_1038"; -NC_010473.1 Protein Homology CDS 1083215 1083490 . + 0 gene_id "ECDH10B_RS05330"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yccX"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309079.1"; locus_tag "ECDH10B_RS05330"; product "acylphosphatase"; protein_id "WP_000048252.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1083215 1083217 . + 0 gene_id "ECDH10B_RS05330"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yccX"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309079.1"; locus_tag "ECDH10B_RS05330"; product "acylphosphatase"; protein_id "WP_000048252.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1083491 1083493 . + 0 gene_id "ECDH10B_RS05330"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yccX"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309079.1"; locus_tag "ECDH10B_RS05330"; product "acylphosphatase"; protein_id "WP_000048252.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1083490 1083819 . - . gene_id "ECDH10B_RS05335"; transcript_id ""; gbkey "Gene"; gene "tusE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05335"; old_locus_tag "ECDH10B_1039"; -NC_010473.1 Protein Homology CDS 1083493 1083819 . - 0 gene_id "ECDH10B_RS05335"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tusE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309080.2"; locus_tag "ECDH10B_RS05335"; product "sulfurtransferase TusE"; protein_id "WP_000904442.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1083817 1083819 . - 0 gene_id "ECDH10B_RS05335"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tusE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309080.2"; locus_tag "ECDH10B_RS05335"; product "sulfurtransferase TusE"; protein_id "WP_000904442.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1083490 1083492 . - 0 gene_id "ECDH10B_RS05335"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tusE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309080.2"; locus_tag "ECDH10B_RS05335"; product "sulfurtransferase TusE"; protein_id "WP_000904442.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1083910 1084569 . - . gene_id "ECDH10B_RS05340"; transcript_id ""; gbkey "Gene"; gene "yccA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05340"; old_locus_tag "ECDH10B_1040"; -NC_010473.1 Protein Homology CDS 1083913 1084569 . - 0 gene_id "ECDH10B_RS05340"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yccA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000375124.1"; locus_tag "ECDH10B_RS05340"; product "FtsH protease modulator YccA"; protein_id "WP_000375136.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1084567 1084569 . - 0 gene_id "ECDH10B_RS05340"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yccA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000375124.1"; locus_tag "ECDH10B_RS05340"; product "FtsH protease modulator YccA"; protein_id "WP_000375136.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1083910 1083912 . - 0 gene_id "ECDH10B_RS05340"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yccA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000375124.1"; locus_tag "ECDH10B_RS05340"; product "FtsH protease modulator YccA"; protein_id "WP_000375136.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1084776 1084863 . - . gene_id "ECDH10B_RS05345"; transcript_id ""; gbkey "Gene"; gene_biotype "tRNA"; locus_tag "ECDH10B_RS05345"; old_locus_tag "ECDH10B_1041"; -NC_010473.1 tRNAscan-SE exon 1084776 1084863 . - . gene_id "ECDH10B_RS05345"; transcript_id "ECDH10B_RS05345"; anticodon "(pos:complement(1084827..1084829))"; gbkey "tRNA"; inference "COORDINATES: profile:tRNAscan-SE:2.0.6"; locus_tag "ECDH10B_RS05345"; product "tRNA-Ser"; exon_number "1"; -NC_010473.1 RefSeq gene 1085290 1086408 . + . gene_id "ECDH10B_RS05350"; transcript_id ""; gbkey "Gene"; gene "hyaA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05350"; old_locus_tag "ECDH10B_1042"; -NC_010473.1 Protein Homology CDS 1085290 1086405 . + 0 gene_id "ECDH10B_RS05350"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hyaA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415491.1"; locus_tag "ECDH10B_RS05350"; product "hydrogenase 1 small subunit"; protein_id "WP_001058323.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1085290 1085292 . + 0 gene_id "ECDH10B_RS05350"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hyaA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415491.1"; locus_tag "ECDH10B_RS05350"; product "hydrogenase 1 small subunit"; protein_id "WP_001058323.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1086406 1086408 . + 0 gene_id "ECDH10B_RS05350"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hyaA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415491.1"; locus_tag "ECDH10B_RS05350"; product "hydrogenase 1 small subunit"; protein_id "WP_001058323.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1086405 1088198 . + . gene_id "ECDH10B_RS05355"; transcript_id ""; gbkey "Gene"; gene "hyaB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05355"; old_locus_tag "ECDH10B_1043"; -NC_010473.1 Protein Homology CDS 1086405 1088195 . + 0 gene_id "ECDH10B_RS05355"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hyaB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415492.1"; locus_tag "ECDH10B_RS05355"; product "Ni/Fe-hydrogenase large subunit"; protein_id "WP_000107384.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1086405 1086407 . + 0 gene_id "ECDH10B_RS05355"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hyaB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415492.1"; locus_tag "ECDH10B_RS05355"; product "Ni/Fe-hydrogenase large subunit"; protein_id "WP_000107384.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1088196 1088198 . + 0 gene_id "ECDH10B_RS05355"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hyaB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415492.1"; locus_tag "ECDH10B_RS05355"; product "Ni/Fe-hydrogenase large subunit"; protein_id "WP_000107384.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1088217 1088924 . + . gene_id "ECDH10B_RS05360"; transcript_id ""; gbkey "Gene"; gene "hyaC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05360"; old_locus_tag "ECDH10B_1044"; -NC_010473.1 Protein Homology CDS 1088217 1088921 . + 0 gene_id "ECDH10B_RS05360"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hyaC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309157.1"; locus_tag "ECDH10B_RS05360"; product "Ni/Fe-hydrogenase b-type cytochrome subunit"; protein_id "WP_001186424.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1088217 1088219 . + 0 gene_id "ECDH10B_RS05360"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hyaC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309157.1"; locus_tag "ECDH10B_RS05360"; product "Ni/Fe-hydrogenase b-type cytochrome subunit"; protein_id "WP_001186424.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1088922 1088924 . + 0 gene_id "ECDH10B_RS05360"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hyaC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309157.1"; locus_tag "ECDH10B_RS05360"; product "Ni/Fe-hydrogenase b-type cytochrome subunit"; protein_id "WP_001186424.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1088921 1089508 . + . gene_id "ECDH10B_RS05365"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05365"; old_locus_tag "ECDH10B_1045"; -NC_010473.1 Protein Homology CDS 1088921 1089505 . + 0 gene_id "ECDH10B_RS05365"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415494.1"; locus_tag "ECDH10B_RS05365"; product "hydrogenase 1 maturation protease"; protein_id "WP_000003671.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1088921 1088923 . + 0 gene_id "ECDH10B_RS05365"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415494.1"; locus_tag "ECDH10B_RS05365"; product "hydrogenase 1 maturation protease"; protein_id "WP_000003671.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1089506 1089508 . + 0 gene_id "ECDH10B_RS05365"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415494.1"; locus_tag "ECDH10B_RS05365"; product "hydrogenase 1 maturation protease"; protein_id "WP_000003671.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1089505 1089903 . + . gene_id "ECDH10B_RS05370"; transcript_id ""; gbkey "Gene"; gene "hyaE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05370"; old_locus_tag "ECDH10B_1046"; -NC_010473.1 Protein Homology CDS 1089505 1089900 . + 0 gene_id "ECDH10B_RS05370"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hyaE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415495.1"; locus_tag "ECDH10B_RS05370"; product "hydrogenase-1 operon protein HyaE"; protein_id "WP_000063978.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1089505 1089507 . + 0 gene_id "ECDH10B_RS05370"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hyaE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415495.1"; locus_tag "ECDH10B_RS05370"; product "hydrogenase-1 operon protein HyaE"; protein_id "WP_000063978.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1089901 1089903 . + 0 gene_id "ECDH10B_RS05370"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hyaE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415495.1"; locus_tag "ECDH10B_RS05370"; product "hydrogenase-1 operon protein HyaE"; protein_id "WP_000063978.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1089900 1090757 . + . gene_id "ECDH10B_RS05375"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05375"; old_locus_tag "ECDH10B_1047"; -NC_010473.1 Protein Homology CDS 1089900 1090754 . + 0 gene_id "ECDH10B_RS05375"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415496.1"; locus_tag "ECDH10B_RS05375"; product "hydrogenase expression/formation protein"; protein_id "WP_000004899.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1089900 1089902 . + 0 gene_id "ECDH10B_RS05375"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415496.1"; locus_tag "ECDH10B_RS05375"; product "hydrogenase expression/formation protein"; protein_id "WP_000004899.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1090755 1090757 . + 0 gene_id "ECDH10B_RS05375"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415496.1"; locus_tag "ECDH10B_RS05375"; product "hydrogenase expression/formation protein"; protein_id "WP_000004899.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1090891 1092435 . + . gene_id "ECDH10B_RS05380"; transcript_id ""; gbkey "Gene"; gene "appC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05380"; old_locus_tag "ECDH10B_1048"; -NC_010473.1 Protein Homology CDS 1090891 1092432 . + 0 gene_id "ECDH10B_RS05380"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "appC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415497.1"; locus_tag "ECDH10B_RS05380"; product "cytochrome bd-II oxidase subunit 1"; protein_id "WP_000263582.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1090891 1090893 . + 0 gene_id "ECDH10B_RS05380"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "appC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415497.1"; locus_tag "ECDH10B_RS05380"; product "cytochrome bd-II oxidase subunit 1"; protein_id "WP_000263582.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1092433 1092435 . + 0 gene_id "ECDH10B_RS05380"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "appC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415497.1"; locus_tag "ECDH10B_RS05380"; product "cytochrome bd-II oxidase subunit 1"; protein_id "WP_000263582.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1092447 1093583 . + . gene_id "ECDH10B_RS05385"; transcript_id ""; gbkey "Gene"; gene "appB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05385"; old_locus_tag "ECDH10B_1049"; -NC_010473.1 Protein Homology CDS 1092447 1093580 . + 0 gene_id "ECDH10B_RS05385"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "appB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415498.1"; locus_tag "ECDH10B_RS05385"; product "cytochrome d ubiquinol oxidase subunit II"; protein_id "WP_000460803.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1092447 1092449 . + 0 gene_id "ECDH10B_RS05385"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "appB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415498.1"; locus_tag "ECDH10B_RS05385"; product "cytochrome d ubiquinol oxidase subunit II"; protein_id "WP_000460803.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1093581 1093583 . + 0 gene_id "ECDH10B_RS05385"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "appB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415498.1"; locus_tag "ECDH10B_RS05385"; product "cytochrome d ubiquinol oxidase subunit II"; protein_id "WP_000460803.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1093596 1093688 . + . gene_id "ECDH10B_RS05390"; transcript_id ""; gbkey "Gene"; gene "cbdX"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05390"; -NC_010473.1 Protein Homology CDS 1093596 1093685 . + 0 gene_id "ECDH10B_RS05390"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cbdX"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_001165313.1"; locus_tag "ECDH10B_RS05390"; product "cytochrome bd-II oxidase subunit CbdX"; protein_id "WP_000270305.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1093596 1093598 . + 0 gene_id "ECDH10B_RS05390"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cbdX"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_001165313.1"; locus_tag "ECDH10B_RS05390"; product "cytochrome bd-II oxidase subunit CbdX"; protein_id "WP_000270305.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1093686 1093688 . + 0 gene_id "ECDH10B_RS05390"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cbdX"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_001165313.1"; locus_tag "ECDH10B_RS05390"; product "cytochrome bd-II oxidase subunit CbdX"; protein_id "WP_000270305.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1093768 1095066 . + . gene_id "ECDH10B_RS05395"; transcript_id ""; gbkey "Gene"; gene "appA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05395"; old_locus_tag "ECDH10B_1050"; -NC_010473.1 Protein Homology CDS 1093768 1095063 . + 0 gene_id "ECDH10B_RS05395"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "appA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415500.1"; locus_tag "ECDH10B_RS05395"; product "bifunctional acid phosphatase/4-phytase"; protein_id "WP_001300464.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1093768 1093770 . + 0 gene_id "ECDH10B_RS05395"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "appA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415500.1"; locus_tag "ECDH10B_RS05395"; product "bifunctional acid phosphatase/4-phytase"; protein_id "WP_001300464.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1095064 1095066 . + 0 gene_id "ECDH10B_RS05395"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "appA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415500.1"; locus_tag "ECDH10B_RS05395"; product "bifunctional acid phosphatase/4-phytase"; protein_id "WP_001300464.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1095181 1097361 . - . gene_id "ECDH10B_RS05400"; transcript_id ""; gbkey "Gene"; gene "etk"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05400"; old_locus_tag "ECDH10B_1051"; -NC_010473.1 Protein Homology CDS 1095184 1097361 . - 0 gene_id "ECDH10B_RS05400"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "etk"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415501.1"; locus_tag "ECDH10B_RS05400"; product "tyrosine-protein kinase"; protein_id "WP_000208650.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1097359 1097361 . - 0 gene_id "ECDH10B_RS05400"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "etk"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415501.1"; locus_tag "ECDH10B_RS05400"; product "tyrosine-protein kinase"; protein_id "WP_000208650.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1095181 1095183 . - 0 gene_id "ECDH10B_RS05400"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "etk"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415501.1"; locus_tag "ECDH10B_RS05400"; product "tyrosine-protein kinase"; protein_id "WP_000208650.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1097381 1097827 . - . gene_id "ECDH10B_RS05405"; transcript_id ""; gbkey "Gene"; gene "etp"; gene_biotype "protein_coding"; gene_synonym "yccY"; locus_tag "ECDH10B_RS05405"; old_locus_tag "ECDH10B_1052"; -NC_010473.1 Protein Homology CDS 1097384 1097827 . - 0 gene_id "ECDH10B_RS05405"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "etp"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309165.2"; locus_tag "ECDH10B_RS05405"; product "protein-tyrosine-phosphatase Etp"; protein_id "WP_000057871.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1097825 1097827 . - 0 gene_id "ECDH10B_RS05405"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "etp"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309165.2"; locus_tag "ECDH10B_RS05405"; product "protein-tyrosine-phosphatase Etp"; protein_id "WP_000057871.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1097381 1097383 . - 0 gene_id "ECDH10B_RS05405"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "etp"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309165.2"; locus_tag "ECDH10B_RS05405"; product "protein-tyrosine-phosphatase Etp"; protein_id "WP_000057871.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1097815 1098954 . - . gene_id "ECDH10B_RS05410"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05410"; old_locus_tag "ECDH10B_1053"; -NC_010473.1 Protein Homology CDS 1097818 1098954 . - 0 gene_id "ECDH10B_RS05410"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309166.1"; locus_tag "ECDH10B_RS05410"; product "polysaccharide export protein"; protein_id "WP_001295357.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1098952 1098954 . - 0 gene_id "ECDH10B_RS05410"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309166.1"; locus_tag "ECDH10B_RS05410"; product "polysaccharide export protein"; protein_id "WP_001295357.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1097815 1097817 . - 0 gene_id "ECDH10B_RS05410"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309166.1"; locus_tag "ECDH10B_RS05410"; product "polysaccharide export protein"; protein_id "WP_001295357.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1099000 1101096 . - . gene_id "ECDH10B_RS05415"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05415"; old_locus_tag "ECDH10B_1054"; -NC_010473.1 Protein Homology CDS 1099003 1101096 . - 0 gene_id "ECDH10B_RS05415"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415504.1"; locus_tag "ECDH10B_RS05415"; product "YjbH domain-containing protein"; protein_id "WP_000742328.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1101094 1101096 . - 0 gene_id "ECDH10B_RS05415"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415504.1"; locus_tag "ECDH10B_RS05415"; product "YjbH domain-containing protein"; protein_id "WP_000742328.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1099000 1099002 . - 0 gene_id "ECDH10B_RS05415"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415504.1"; locus_tag "ECDH10B_RS05415"; product "YjbH domain-containing protein"; protein_id "WP_000742328.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1101096 1101842 . - . gene_id "ECDH10B_RS05420"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05420"; old_locus_tag "ECDH10B_1055"; -NC_010473.1 Protein Homology CDS 1101099 1101842 . - 0 gene_id "ECDH10B_RS05420"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415505.1"; locus_tag "ECDH10B_RS05420"; product "capsule biosynthesis GfcC family protein"; protein_id "WP_001038079.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1101840 1101842 . - 0 gene_id "ECDH10B_RS05420"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415505.1"; locus_tag "ECDH10B_RS05420"; product "capsule biosynthesis GfcC family protein"; protein_id "WP_001038079.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1101096 1101098 . - 0 gene_id "ECDH10B_RS05420"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415505.1"; locus_tag "ECDH10B_RS05420"; product "capsule biosynthesis GfcC family protein"; protein_id "WP_001038079.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1101839 1102483 . - . gene_id "ECDH10B_RS05425"; transcript_id ""; gbkey "Gene"; gene "gfcB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05425"; old_locus_tag "ECDH10B_1056"; -NC_010473.1 Protein Homology CDS 1101842 1102483 . - 0 gene_id "ECDH10B_RS05425"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gfcB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415506.1"; locus_tag "ECDH10B_RS05425"; product "lipoprotein GfcB"; protein_id "WP_001247610.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1102481 1102483 . - 0 gene_id "ECDH10B_RS05425"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gfcB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415506.1"; locus_tag "ECDH10B_RS05425"; product "lipoprotein GfcB"; protein_id "WP_001247610.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1101839 1101841 . - 0 gene_id "ECDH10B_RS05425"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gfcB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415506.1"; locus_tag "ECDH10B_RS05425"; product "lipoprotein GfcB"; protein_id "WP_001247610.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1102590 1102895 . - . gene_id "ECDH10B_RS05430"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05430"; old_locus_tag "ECDH10B_1057"; -NC_010473.1 Protein Homology CDS 1102593 1102895 . - 0 gene_id "ECDH10B_RS05430"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415507.2"; locus_tag "ECDH10B_RS05430"; product "threonine-rich inner membrane protein GfcA"; protein_id "WP_001295358.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1102893 1102895 . - 0 gene_id "ECDH10B_RS05430"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415507.2"; locus_tag "ECDH10B_RS05430"; product "threonine-rich inner membrane protein GfcA"; protein_id "WP_001295358.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1102590 1102592 . - 0 gene_id "ECDH10B_RS05430"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415507.2"; locus_tag "ECDH10B_RS05430"; product "threonine-rich inner membrane protein GfcA"; protein_id "WP_001295358.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1102984 1103681 . + . gene_id "ECDH10B_RS05440"; transcript_id ""; gbkey "Gene"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS05440"; old_locus_tag "ECDH10B_1059"; pseudo "true"; -NC_010473.1 Protein Homology CDS 1102984 1103678 . + 0 gene_id "ECDH10B_RS05440"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_076612230.1"; locus_tag "ECDH10B_RS05440"; note "frameshifted"; product "IS1 family transposase"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1102984 1102986 . + 0 gene_id "ECDH10B_RS05440"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_076612230.1"; locus_tag "ECDH10B_RS05440"; note "frameshifted"; product "IS1 family transposase"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1103679 1103681 . + 0 gene_id "ECDH10B_RS05440"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_076612230.1"; locus_tag "ECDH10B_RS05440"; note "frameshifted"; product "IS1 family transposase"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 1104114 1104326 . - . gene_id "ECDH10B_RS05445"; transcript_id ""; gbkey "Gene"; gene "cspH"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05445"; old_locus_tag "ECDH10B_1060"; -NC_010473.1 Protein Homology CDS 1104117 1104326 . - 0 gene_id "ECDH10B_RS05445"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cspH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415509.1"; locus_tag "ECDH10B_RS05445"; product "cold shock-like protein CspH"; protein_id "WP_000087763.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1104324 1104326 . - 0 gene_id "ECDH10B_RS05445"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cspH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415509.1"; locus_tag "ECDH10B_RS05445"; product "cold shock-like protein CspH"; protein_id "WP_000087763.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1104114 1104116 . - 0 gene_id "ECDH10B_RS05445"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cspH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415509.1"; locus_tag "ECDH10B_RS05445"; product "cold shock-like protein CspH"; protein_id "WP_000087763.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1104612 1104824 . + . gene_id "ECDH10B_RS05450"; transcript_id ""; gbkey "Gene"; gene "cspG"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05450"; old_locus_tag "ECDH10B_1061"; -NC_010473.1 Protein Homology CDS 1104612 1104821 . + 0 gene_id "ECDH10B_RS05450"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cspG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309172.1"; locus_tag "ECDH10B_RS05450"; product "cold shock protein CspG"; protein_id "WP_000066490.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1104612 1104614 . + 0 gene_id "ECDH10B_RS05450"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cspG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309172.1"; locus_tag "ECDH10B_RS05450"; product "cold shock protein CspG"; protein_id "WP_000066490.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1104822 1104824 . + 0 gene_id "ECDH10B_RS05450"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cspG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309172.1"; locus_tag "ECDH10B_RS05450"; product "cold shock protein CspG"; protein_id "WP_000066490.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1104835 1105023 . + . gene_id "ECDH10B_RS23910"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS23910"; -NC_010473.1 Protein Homology CDS 1104835 1105020 . + 0 gene_id "ECDH10B_RS23910"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_009518761.1"; locus_tag "ECDH10B_RS23910"; product "cold-shock protein"; protein_id "WP_071524879.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1104835 1104837 . + 0 gene_id "ECDH10B_RS23910"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_009518761.1"; locus_tag "ECDH10B_RS23910"; product "cold-shock protein"; protein_id "WP_071524879.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1105021 1105023 . + 0 gene_id "ECDH10B_RS23910"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_009518761.1"; locus_tag "ECDH10B_RS23910"; product "cold-shock protein"; protein_id "WP_071524879.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1104998 1105228 . + . gene_id "ECDH10B_RS05455"; transcript_id ""; gbkey "Gene"; gene "ymcE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05455"; old_locus_tag "ECDH10B_1062"; -NC_010473.1 Protein Homology CDS 1104998 1105225 . + 0 gene_id "ECDH10B_RS05455"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ymcE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415511.1"; locus_tag "ECDH10B_RS05455"; product "protein YmcE"; protein_id "WP_001309400.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1104998 1105000 . + 0 gene_id "ECDH10B_RS05455"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ymcE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415511.1"; locus_tag "ECDH10B_RS05455"; product "protein YmcE"; protein_id "WP_001309400.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1105226 1105228 . + 0 gene_id "ECDH10B_RS05455"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ymcE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415511.1"; locus_tag "ECDH10B_RS05455"; product "protein YmcE"; protein_id "WP_001309400.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1105218 1105391 . + . gene_id "ECDH10B_RS05460"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05460"; old_locus_tag "ECDH10B_1063"; -NC_010473.1 Protein Homology CDS 1105218 1105388 . + 0 gene_id "ECDH10B_RS05460"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_588446.1"; locus_tag "ECDH10B_RS05460"; product "addiction module toxin, GnsA/GnsB family"; protein_id "WP_001019197.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1105218 1105220 . + 0 gene_id "ECDH10B_RS05460"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_588446.1"; locus_tag "ECDH10B_RS05460"; product "addiction module toxin, GnsA/GnsB family"; protein_id "WP_001019197.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1105389 1105391 . + 0 gene_id "ECDH10B_RS05460"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_588446.1"; locus_tag "ECDH10B_RS05460"; product "addiction module toxin, GnsA/GnsB family"; protein_id "WP_001019197.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1105440 1106513 . - . gene_id "ECDH10B_RS05465"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05465"; old_locus_tag "ECDH10B_1064"; -NC_010473.1 Protein Homology CDS 1105443 1106513 . - 0 gene_id "ECDH10B_RS05465"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415512.1"; locus_tag "ECDH10B_RS05465"; product "4Fe-4S binding protein"; protein_id "WP_000829662.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1106511 1106513 . - 0 gene_id "ECDH10B_RS05465"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415512.1"; locus_tag "ECDH10B_RS05465"; product "4Fe-4S binding protein"; protein_id "WP_000829662.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1105440 1105442 . - 0 gene_id "ECDH10B_RS05465"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415512.1"; locus_tag "ECDH10B_RS05465"; product "4Fe-4S binding protein"; protein_id "WP_000829662.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1106585 1109329 . - . gene_id "ECDH10B_RS05470"; transcript_id ""; gbkey "Gene"; gene "torS"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05470"; old_locus_tag "ECDH10B_1065"; -NC_010473.1 Protein Homology CDS 1106588 1109329 . - 0 gene_id "ECDH10B_RS05470"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "torS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415513.2"; locus_tag "ECDH10B_RS05470"; product "TMAO reductase system sensor histidine kinase/response regulator TorS"; protein_id "WP_001300633.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1109327 1109329 . - 0 gene_id "ECDH10B_RS05470"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "torS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415513.2"; locus_tag "ECDH10B_RS05470"; product "TMAO reductase system sensor histidine kinase/response regulator TorS"; protein_id "WP_001300633.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1106585 1106587 . - 0 gene_id "ECDH10B_RS05470"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "torS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415513.2"; locus_tag "ECDH10B_RS05470"; product "TMAO reductase system sensor histidine kinase/response regulator TorS"; protein_id "WP_001300633.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1109412 1110440 . + . gene_id "ECDH10B_RS05475"; transcript_id ""; gbkey "Gene"; gene "torT"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05475"; old_locus_tag "ECDH10B_1066"; -NC_010473.1 Protein Homology CDS 1109412 1110437 . + 0 gene_id "ECDH10B_RS05475"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "torT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415514.1"; locus_tag "ECDH10B_RS05475"; product "TMAO reductase system periplasmic protein TorT"; protein_id "WP_001264933.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1109412 1109414 . + 0 gene_id "ECDH10B_RS05475"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "torT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415514.1"; locus_tag "ECDH10B_RS05475"; product "TMAO reductase system periplasmic protein TorT"; protein_id "WP_001264933.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1110438 1110440 . + 0 gene_id "ECDH10B_RS05475"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "torT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415514.1"; locus_tag "ECDH10B_RS05475"; product "TMAO reductase system periplasmic protein TorT"; protein_id "WP_001264933.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1110413 1111105 . - . gene_id "ECDH10B_RS05480"; transcript_id ""; gbkey "Gene"; gene "torR"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05480"; old_locus_tag "ECDH10B_1067"; -NC_010473.1 Protein Homology CDS 1110416 1111105 . - 0 gene_id "ECDH10B_RS05480"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "torR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415515.1"; locus_tag "ECDH10B_RS05480"; product "two-component system response regulator TorR"; protein_id "WP_001120125.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1111103 1111105 . - 0 gene_id "ECDH10B_RS05480"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "torR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415515.1"; locus_tag "ECDH10B_RS05480"; product "two-component system response regulator TorR"; protein_id "WP_001120125.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1110413 1110415 . - 0 gene_id "ECDH10B_RS05480"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "torR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415515.1"; locus_tag "ECDH10B_RS05480"; product "two-component system response regulator TorR"; protein_id "WP_001120125.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1111235 1112407 . + . gene_id "ECDH10B_RS05485"; transcript_id ""; gbkey "Gene"; gene "torC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05485"; old_locus_tag "ECDH10B_1068"; -NC_010473.1 Protein Homology CDS 1111235 1112404 . + 0 gene_id "ECDH10B_RS05485"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "torC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415516.1"; locus_tag "ECDH10B_RS05485"; product "pentaheme c-type cytochrome TorC"; protein_id "WP_001230242.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1111235 1111237 . + 0 gene_id "ECDH10B_RS05485"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "torC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415516.1"; locus_tag "ECDH10B_RS05485"; product "pentaheme c-type cytochrome TorC"; protein_id "WP_001230242.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1112405 1112407 . + 0 gene_id "ECDH10B_RS05485"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "torC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415516.1"; locus_tag "ECDH10B_RS05485"; product "pentaheme c-type cytochrome TorC"; protein_id "WP_001230242.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1112407 1114953 . + . gene_id "ECDH10B_RS05490"; transcript_id ""; gbkey "Gene"; gene "torA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05490"; old_locus_tag "ECDH10B_1069"; -NC_010473.1 Protein Homology CDS 1112407 1114950 . + 0 gene_id "ECDH10B_RS05490"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "torA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415517.1"; locus_tag "ECDH10B_RS05490"; product "trimethylamine-N-oxide reductase TorA"; protein_id "WP_001062091.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1112407 1112409 . + 0 gene_id "ECDH10B_RS05490"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "torA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415517.1"; locus_tag "ECDH10B_RS05490"; product "trimethylamine-N-oxide reductase TorA"; protein_id "WP_001062091.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1114951 1114953 . + 0 gene_id "ECDH10B_RS05490"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "torA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415517.1"; locus_tag "ECDH10B_RS05490"; product "trimethylamine-N-oxide reductase TorA"; protein_id "WP_001062091.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1114950 1115549 . + . gene_id "ECDH10B_RS05495"; transcript_id ""; gbkey "Gene"; gene "torD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05495"; old_locus_tag "ECDH10B_1070"; -NC_010473.1 Protein Homology CDS 1114950 1115546 . + 0 gene_id "ECDH10B_RS05495"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "torD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415518.1"; locus_tag "ECDH10B_RS05495"; product "molecular chaperone TorD"; protein_id "WP_000209861.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1114950 1114952 . + 0 gene_id "ECDH10B_RS05495"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "torD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415518.1"; locus_tag "ECDH10B_RS05495"; product "molecular chaperone TorD"; protein_id "WP_000209861.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1115547 1115549 . + 0 gene_id "ECDH10B_RS05495"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "torD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415518.1"; locus_tag "ECDH10B_RS05495"; product "molecular chaperone TorD"; protein_id "WP_000209861.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1115701 1116006 . - . gene_id "ECDH10B_RS05500"; transcript_id ""; gbkey "Gene"; gene "cbpM"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05500"; old_locus_tag "ECDH10B_1071"; -NC_010473.1 Protein Homology CDS 1115704 1116006 . - 0 gene_id "ECDH10B_RS05500"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cbpM"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309181.1"; locus_tag "ECDH10B_RS05500"; product "chaperone modulator CbpM"; protein_id "WP_000024560.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1116004 1116006 . - 0 gene_id "ECDH10B_RS05500"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cbpM"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309181.1"; locus_tag "ECDH10B_RS05500"; product "chaperone modulator CbpM"; protein_id "WP_000024560.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1115701 1115703 . - 0 gene_id "ECDH10B_RS05500"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cbpM"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309181.1"; locus_tag "ECDH10B_RS05500"; product "chaperone modulator CbpM"; protein_id "WP_000024560.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1116006 1116926 . - . gene_id "ECDH10B_RS05505"; transcript_id ""; gbkey "Gene"; gene "cbpA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05505"; old_locus_tag "ECDH10B_1072"; -NC_010473.1 Protein Homology CDS 1116009 1116926 . - 0 gene_id "ECDH10B_RS05505"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cbpA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415520.1"; locus_tag "ECDH10B_RS05505"; product "curved DNA-binding protein"; protein_id "WP_000420621.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1116924 1116926 . - 0 gene_id "ECDH10B_RS05505"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cbpA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415520.1"; locus_tag "ECDH10B_RS05505"; product "curved DNA-binding protein"; protein_id "WP_000420621.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1116006 1116008 . - 0 gene_id "ECDH10B_RS05505"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cbpA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415520.1"; locus_tag "ECDH10B_RS05505"; product "curved DNA-binding protein"; protein_id "WP_000420621.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1117187 1118443 . + . gene_id "ECDH10B_RS05510"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05510"; old_locus_tag "ECDH10B_1073"; -NC_010473.1 Protein Homology CDS 1117187 1118440 . + 0 gene_id "ECDH10B_RS05510"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415521.1"; locus_tag "ECDH10B_RS05510"; product "YccE family protein"; protein_id "WP_000535346.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1117187 1117189 . + 0 gene_id "ECDH10B_RS05510"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415521.1"; locus_tag "ECDH10B_RS05510"; product "YccE family protein"; protein_id "WP_000535346.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1118441 1118443 . + 0 gene_id "ECDH10B_RS05510"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415521.1"; locus_tag "ECDH10B_RS05510"; product "YccE family protein"; protein_id "WP_000535346.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1118736 1119977 . + . gene_id "ECDH10B_RS05515"; transcript_id ""; gbkey "Gene"; gene "agp"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05515"; old_locus_tag "ECDH10B_1074"; -NC_010473.1 Protein Homology CDS 1118736 1119974 . + 0 gene_id "ECDH10B_RS05515"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "agp"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415522.1"; locus_tag "ECDH10B_RS05515"; product "bifunctional glucose-1-phosphatase/inositol phosphatase"; protein_id "WP_001044279.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1118736 1118738 . + 0 gene_id "ECDH10B_RS05515"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "agp"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415522.1"; locus_tag "ECDH10B_RS05515"; product "bifunctional glucose-1-phosphatase/inositol phosphatase"; protein_id "WP_001044279.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1119975 1119977 . + 0 gene_id "ECDH10B_RS05515"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "agp"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415522.1"; locus_tag "ECDH10B_RS05515"; product "bifunctional glucose-1-phosphatase/inositol phosphatase"; protein_id "WP_001044279.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1120015 1120242 . - . gene_id "ECDH10B_RS05520"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05520"; old_locus_tag "ECDH10B_1075"; -NC_010473.1 Protein Homology CDS 1120018 1120242 . - 0 gene_id "ECDH10B_RS05520"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_002898701.1"; locus_tag "ECDH10B_RS05520"; product "YccJ family protein"; protein_id "WP_001143120.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1120240 1120242 . - 0 gene_id "ECDH10B_RS05520"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_002898701.1"; locus_tag "ECDH10B_RS05520"; product "YccJ family protein"; protein_id "WP_001143120.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1120015 1120017 . - 0 gene_id "ECDH10B_RS05520"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_002898701.1"; locus_tag "ECDH10B_RS05520"; product "YccJ family protein"; protein_id "WP_001143120.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1120263 1120859 . - . gene_id "ECDH10B_RS05525"; transcript_id ""; gbkey "Gene"; gene "wrbA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05525"; old_locus_tag "ECDH10B_1076"; -NC_010473.1 Protein Homology CDS 1120266 1120859 . - 0 gene_id "ECDH10B_RS05525"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "wrbA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415524.1"; locus_tag "ECDH10B_RS05525"; product "NAD(P)H:quinone oxidoreductase"; protein_id "WP_001151437.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1120857 1120859 . - 0 gene_id "ECDH10B_RS05525"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "wrbA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415524.1"; locus_tag "ECDH10B_RS05525"; product "NAD(P)H:quinone oxidoreductase"; protein_id "WP_001151437.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1120263 1120265 . - 0 gene_id "ECDH10B_RS05525"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "wrbA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415524.1"; locus_tag "ECDH10B_RS05525"; product "NAD(P)H:quinone oxidoreductase"; protein_id "WP_001151437.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1121232 1121405 . + . gene_id "ECDH10B_RS05535"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05535"; old_locus_tag "ECDH10B_1077"; -NC_010473.1 Protein Homology CDS 1121232 1121402 . + 0 gene_id "ECDH10B_RS05535"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415525.2"; locus_tag "ECDH10B_RS05535"; product "general stress protein"; protein_id "WP_001273658.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1121232 1121234 . + 0 gene_id "ECDH10B_RS05535"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415525.2"; locus_tag "ECDH10B_RS05535"; product "general stress protein"; protein_id "WP_001273658.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1121403 1121405 . + 0 gene_id "ECDH10B_RS05535"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415525.2"; locus_tag "ECDH10B_RS05535"; product "general stress protein"; protein_id "WP_001273658.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1121662 1122990 . - . gene_id "ECDH10B_RS05540"; transcript_id ""; gbkey "Gene"; gene "rutG"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05540"; old_locus_tag "ECDH10B_1078"; -NC_010473.1 Protein Homology CDS 1121665 1122990 . - 0 gene_id "ECDH10B_RS05540"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rutG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415526.4"; locus_tag "ECDH10B_RS05540"; product "pyrimidine utilization transport protein G"; protein_id "WP_001326838.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1122988 1122990 . - 0 gene_id "ECDH10B_RS05540"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rutG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415526.4"; locus_tag "ECDH10B_RS05540"; product "pyrimidine utilization transport protein G"; protein_id "WP_001326838.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1121662 1121664 . - 0 gene_id "ECDH10B_RS05540"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rutG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415526.4"; locus_tag "ECDH10B_RS05540"; product "pyrimidine utilization transport protein G"; protein_id "WP_001326838.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1123011 1123505 . - . gene_id "ECDH10B_RS05545"; transcript_id ""; gbkey "Gene"; gene "rutF"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05545"; old_locus_tag "ECDH10B_1079"; -NC_010473.1 Protein Homology CDS 1123014 1123505 . - 0 gene_id "ECDH10B_RS05545"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rutF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415527.4"; locus_tag "ECDH10B_RS05545"; product "pyrimidine utilization flavin reductase protein F"; protein_id "WP_001028083.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1123503 1123505 . - 0 gene_id "ECDH10B_RS05545"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rutF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415527.4"; locus_tag "ECDH10B_RS05545"; product "pyrimidine utilization flavin reductase protein F"; protein_id "WP_001028083.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1123011 1123013 . - 0 gene_id "ECDH10B_RS05545"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rutF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415527.4"; locus_tag "ECDH10B_RS05545"; product "pyrimidine utilization flavin reductase protein F"; protein_id "WP_001028083.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1123516 1124106 . - . gene_id "ECDH10B_RS05550"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05550"; old_locus_tag "ECDH10B_1080"; -NC_010473.1 Protein Homology CDS 1123519 1124106 . - 0 gene_id "ECDH10B_RS05550"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415528.1"; locus_tag "ECDH10B_RS05550"; product "malonic semialdehyde reductase"; protein_id "WP_001001176.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1124104 1124106 . - 0 gene_id "ECDH10B_RS05550"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415528.1"; locus_tag "ECDH10B_RS05550"; product "malonic semialdehyde reductase"; protein_id "WP_001001176.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1123516 1123518 . - 0 gene_id "ECDH10B_RS05550"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415528.1"; locus_tag "ECDH10B_RS05550"; product "malonic semialdehyde reductase"; protein_id "WP_001001176.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1124116 1124916 . - . gene_id "ECDH10B_RS05555"; transcript_id ""; gbkey "Gene"; gene "rutD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05555"; old_locus_tag "ECDH10B_1081"; -NC_010473.1 Protein Homology CDS 1124119 1124916 . - 0 gene_id "ECDH10B_RS05555"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rutD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415529.1"; locus_tag "ECDH10B_RS05555"; product "pyrimidine utilization protein D"; protein_id "WP_000777653.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1124914 1124916 . - 0 gene_id "ECDH10B_RS05555"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rutD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415529.1"; locus_tag "ECDH10B_RS05555"; product "pyrimidine utilization protein D"; protein_id "WP_000777653.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1124116 1124118 . - 0 gene_id "ECDH10B_RS05555"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rutD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415529.1"; locus_tag "ECDH10B_RS05555"; product "pyrimidine utilization protein D"; protein_id "WP_000777653.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1124924 1125310 . - . gene_id "ECDH10B_RS05560"; transcript_id ""; gbkey "Gene"; gene "rutC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05560"; old_locus_tag "ECDH10B_1082"; -NC_010473.1 Protein Homology CDS 1124927 1125310 . - 0 gene_id "ECDH10B_RS05560"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rutC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415530.1"; locus_tag "ECDH10B_RS05560"; product "pyrimidine utilization protein C"; protein_id "WP_001126780.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1125308 1125310 . - 0 gene_id "ECDH10B_RS05560"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rutC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415530.1"; locus_tag "ECDH10B_RS05560"; product "pyrimidine utilization protein C"; protein_id "WP_001126780.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1124924 1124926 . - 0 gene_id "ECDH10B_RS05560"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rutC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415530.1"; locus_tag "ECDH10B_RS05560"; product "pyrimidine utilization protein C"; protein_id "WP_001126780.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1125322 1126014 . - . gene_id "ECDH10B_RS05565"; transcript_id ""; gbkey "Gene"; gene "rutB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05565"; old_locus_tag "ECDH10B_1083"; -NC_010473.1 Protein Homology CDS 1125325 1126014 . - 0 gene_id "ECDH10B_RS05565"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rutB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415531.2"; locus_tag "ECDH10B_RS05565"; product "peroxyureidoacrylate/ureidoacrylate amidohydrolase RutB"; protein_id "WP_001393558.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1126012 1126014 . - 0 gene_id "ECDH10B_RS05565"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rutB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415531.2"; locus_tag "ECDH10B_RS05565"; product "peroxyureidoacrylate/ureidoacrylate amidohydrolase RutB"; protein_id "WP_001393558.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1125322 1125324 . - 0 gene_id "ECDH10B_RS05565"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rutB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415531.2"; locus_tag "ECDH10B_RS05565"; product "peroxyureidoacrylate/ureidoacrylate amidohydrolase RutB"; protein_id "WP_001393558.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1126014 1127105 . - . gene_id "ECDH10B_RS05570"; transcript_id ""; gbkey "Gene"; gene "rutA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05570"; old_locus_tag "ECDH10B_1084"; -NC_010473.1 Protein Homology CDS 1126017 1127105 . - 0 gene_id "ECDH10B_RS05570"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rutA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309285.4"; locus_tag "ECDH10B_RS05570"; product "pyrimidine utilization protein A"; protein_id "WP_001340618.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1127103 1127105 . - 0 gene_id "ECDH10B_RS05570"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rutA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309285.4"; locus_tag "ECDH10B_RS05570"; product "pyrimidine utilization protein A"; protein_id "WP_001340618.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1126014 1126016 . - 0 gene_id "ECDH10B_RS05570"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rutA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309285.4"; locus_tag "ECDH10B_RS05570"; product "pyrimidine utilization protein A"; protein_id "WP_001340618.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1127393 1128031 . + . gene_id "ECDH10B_RS05575"; transcript_id ""; gbkey "Gene"; gene "rutR"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05575"; old_locus_tag "ECDH10B_1085"; -NC_010473.1 Protein Homology CDS 1127393 1128028 . + 0 gene_id "ECDH10B_RS05575"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rutR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415533.1"; locus_tag "ECDH10B_RS05575"; product "HTH-type transcriptional regulator RutR"; protein_id "WP_000191701.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1127393 1127395 . + 0 gene_id "ECDH10B_RS05575"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rutR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415533.1"; locus_tag "ECDH10B_RS05575"; product "HTH-type transcriptional regulator RutR"; protein_id "WP_000191701.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1128029 1128031 . + 0 gene_id "ECDH10B_RS05575"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rutR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415533.1"; locus_tag "ECDH10B_RS05575"; product "HTH-type transcriptional regulator RutR"; protein_id "WP_000191701.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1128071 1132033 . - . gene_id "ECDH10B_RS05580"; transcript_id ""; gbkey "Gene"; gene "putA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05580"; old_locus_tag "ECDH10B_1086"; -NC_010473.1 Protein Homology CDS 1128074 1132033 . - 0 gene_id "ECDH10B_RS05580"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "putA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415534.1"; locus_tag "ECDH10B_RS05580"; product "trifunctional transcriptional regulator/proline dehydrogenase/L-glutamate gamma-semialdehyde dehydrogenase"; protein_id "WP_001326840.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1132031 1132033 . - 0 gene_id "ECDH10B_RS05580"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "putA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415534.1"; locus_tag "ECDH10B_RS05580"; product "trifunctional transcriptional regulator/proline dehydrogenase/L-glutamate gamma-semialdehyde dehydrogenase"; protein_id "WP_001326840.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1128071 1128073 . - 0 gene_id "ECDH10B_RS05580"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "putA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415534.1"; locus_tag "ECDH10B_RS05580"; product "trifunctional transcriptional regulator/proline dehydrogenase/L-glutamate gamma-semialdehyde dehydrogenase"; protein_id "WP_001326840.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1132088 1132297 . + . gene_id "ECDH10B_RS05585"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05585"; -NC_010473.1 GeneMarkS-2+ CDS 1132088 1132294 . + 0 gene_id "ECDH10B_RS05585"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: ab initio prediction:GeneMarkS-2+"; locus_tag "ECDH10B_RS05585"; product "hypothetical protein"; protein_id "WP_000979516.1"; transl_table "11"; -NC_010473.1 GeneMarkS-2+ start_codon 1132088 1132090 . + 0 gene_id "ECDH10B_RS05585"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: ab initio prediction:GeneMarkS-2+"; locus_tag "ECDH10B_RS05585"; product "hypothetical protein"; protein_id "WP_000979516.1"; transl_table "11"; -NC_010473.1 GeneMarkS-2+ stop_codon 1132295 1132297 . + 0 gene_id "ECDH10B_RS05585"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: ab initio prediction:GeneMarkS-2+"; locus_tag "ECDH10B_RS05585"; product "hypothetical protein"; protein_id "WP_000979516.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1132456 1133964 . + . gene_id "ECDH10B_RS05590"; transcript_id ""; gbkey "Gene"; gene "putP"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05590"; old_locus_tag "ECDH10B_1087"; -NC_010473.1 Protein Homology CDS 1132456 1133961 . + 0 gene_id "ECDH10B_RS05590"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "putP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415535.1"; locus_tag "ECDH10B_RS05590"; product "sodium/proline symporter PutP"; protein_id "WP_001018479.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1132456 1132458 . + 0 gene_id "ECDH10B_RS05590"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "putP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415535.1"; locus_tag "ECDH10B_RS05590"; product "sodium/proline symporter PutP"; protein_id "WP_001018479.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1133962 1133964 . + 0 gene_id "ECDH10B_RS05590"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "putP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415535.1"; locus_tag "ECDH10B_RS05590"; product "sodium/proline symporter PutP"; protein_id "WP_001018479.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1134507 1135336 . + . gene_id "ECDH10B_RS05600"; transcript_id ""; gbkey "Gene"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS05600"; old_locus_tag "ECDH10B_1089"; pseudo "true"; -NC_010473.1 Protein Homology CDS 1134507 1135333 . + 0 gene_id "ECDH10B_RS05600"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309290.1"; locus_tag "ECDH10B_RS05600"; note "frameshifted"; product "FTR1 family protein"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1134507 1134509 . + 0 gene_id "ECDH10B_RS05600"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309290.1"; locus_tag "ECDH10B_RS05600"; note "frameshifted"; product "FTR1 family protein"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1135334 1135336 . + 0 gene_id "ECDH10B_RS05600"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309290.1"; locus_tag "ECDH10B_RS05600"; note "frameshifted"; product "FTR1 family protein"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 1135394 1136521 . + . gene_id "ECDH10B_RS05605"; transcript_id ""; gbkey "Gene"; gene "efeO"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05605"; old_locus_tag "ECDH10B_1091"; -NC_010473.1 Protein Homology CDS 1135394 1136518 . + 0 gene_id "ECDH10B_RS05605"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "efeO"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415537.1"; locus_tag "ECDH10B_RS05605"; product "iron uptake system protein EfeO"; protein_id "WP_000154398.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1135394 1135396 . + 0 gene_id "ECDH10B_RS05605"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "efeO"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415537.1"; locus_tag "ECDH10B_RS05605"; product "iron uptake system protein EfeO"; protein_id "WP_000154398.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1136519 1136521 . + 0 gene_id "ECDH10B_RS05605"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "efeO"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415537.1"; locus_tag "ECDH10B_RS05605"; product "iron uptake system protein EfeO"; protein_id "WP_000154398.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1136527 1137798 . + . gene_id "ECDH10B_RS05610"; transcript_id ""; gbkey "Gene"; gene "efeB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05610"; old_locus_tag "ECDH10B_1092"; -NC_010473.1 Protein Homology CDS 1136527 1137795 . + 0 gene_id "ECDH10B_RS05610"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "efeB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415538.1"; locus_tag "ECDH10B_RS05610"; product "deferrochelatase/peroxidase EfeB"; protein_id "WP_001199471.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1136527 1136529 . + 0 gene_id "ECDH10B_RS05610"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "efeB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415538.1"; locus_tag "ECDH10B_RS05610"; product "deferrochelatase/peroxidase EfeB"; protein_id "WP_001199471.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1137796 1137798 . + 0 gene_id "ECDH10B_RS05610"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "efeB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415538.1"; locus_tag "ECDH10B_RS05610"; product "deferrochelatase/peroxidase EfeB"; protein_id "WP_001199471.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1138419 1139207 . + . gene_id "ECDH10B_RS05620"; transcript_id ""; gbkey "Gene"; gene "phoH"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05620"; old_locus_tag "ECDH10B_1093"; -NC_010473.1 Protein Homology CDS 1138419 1139204 . + 0 gene_id "ECDH10B_RS05620"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "phoH"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001741490.1"; locus_tag "ECDH10B_RS05620"; product "phosphate starvation-inducible protein PhoH"; protein_id "WP_000533522.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1138419 1138421 . + 0 gene_id "ECDH10B_RS05620"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "phoH"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001741490.1"; locus_tag "ECDH10B_RS05620"; product "phosphate starvation-inducible protein PhoH"; protein_id "WP_000533522.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1139205 1139207 . + 0 gene_id "ECDH10B_RS05620"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "phoH"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001741490.1"; locus_tag "ECDH10B_RS05620"; product "phosphate starvation-inducible protein PhoH"; protein_id "WP_000533522.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1139257 1139670 . - . gene_id "ECDH10B_RS05625"; transcript_id ""; gbkey "Gene"; gene "pgaD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05625"; old_locus_tag "ECDH10B_1094"; -NC_010473.1 Protein Homology CDS 1139260 1139670 . - 0 gene_id "ECDH10B_RS05625"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pgaD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309294.1"; locus_tag "ECDH10B_RS05625"; product "poly-beta-1,6-N-acetyl-D-glucosamine biosynthesis protein PgaD"; protein_id "WP_001061095.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1139668 1139670 . - 0 gene_id "ECDH10B_RS05625"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pgaD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309294.1"; locus_tag "ECDH10B_RS05625"; product "poly-beta-1,6-N-acetyl-D-glucosamine biosynthesis protein PgaD"; protein_id "WP_001061095.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1139257 1139259 . - 0 gene_id "ECDH10B_RS05625"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pgaD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309294.1"; locus_tag "ECDH10B_RS05625"; product "poly-beta-1,6-N-acetyl-D-glucosamine biosynthesis protein PgaD"; protein_id "WP_001061095.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1139672 1140997 . - . gene_id "ECDH10B_RS05630"; transcript_id ""; gbkey "Gene"; gene "pgaC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05630"; old_locus_tag "ECDH10B_1095"; -NC_010473.1 Protein Homology CDS 1139675 1140997 . - 0 gene_id "ECDH10B_RS05630"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pgaC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415541.1"; locus_tag "ECDH10B_RS05630"; product "poly-beta-1,6 N-acetyl-D-glucosamine synthase"; protein_id "WP_000610451.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1140995 1140997 . - 0 gene_id "ECDH10B_RS05630"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pgaC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415541.1"; locus_tag "ECDH10B_RS05630"; product "poly-beta-1,6 N-acetyl-D-glucosamine synthase"; protein_id "WP_000610451.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1139672 1139674 . - 0 gene_id "ECDH10B_RS05630"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pgaC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415541.1"; locus_tag "ECDH10B_RS05630"; product "poly-beta-1,6 N-acetyl-D-glucosamine synthase"; protein_id "WP_000610451.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1140990 1143008 . - . gene_id "ECDH10B_RS05635"; transcript_id ""; gbkey "Gene"; gene "pgaB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05635"; old_locus_tag "ECDH10B_1096"; -NC_010473.1 Protein Homology CDS 1140993 1143008 . - 0 gene_id "ECDH10B_RS05635"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pgaB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415542.1"; locus_tag "ECDH10B_RS05635"; product "poly-beta-1,6-N-acetyl-D-glucosamine N-deacetylase PgaB"; protein_id "WP_000945561.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1143006 1143008 . - 0 gene_id "ECDH10B_RS05635"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pgaB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415542.1"; locus_tag "ECDH10B_RS05635"; product "poly-beta-1,6-N-acetyl-D-glucosamine N-deacetylase PgaB"; protein_id "WP_000945561.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1140990 1140992 . - 0 gene_id "ECDH10B_RS05635"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pgaB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415542.1"; locus_tag "ECDH10B_RS05635"; product "poly-beta-1,6-N-acetyl-D-glucosamine N-deacetylase PgaB"; protein_id "WP_000945561.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1143017 1145440 . - . gene_id "ECDH10B_RS05640"; transcript_id ""; gbkey "Gene"; gene "pgaA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05640"; old_locus_tag "ECDH10B_1097"; -NC_010473.1 Protein Homology CDS 1143020 1145440 . - 0 gene_id "ECDH10B_RS05640"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pgaA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309297.1"; locus_tag "ECDH10B_RS05640"; product "poly-beta-1,6 N-acetyl-D-glucosamine export porin PgaA"; protein_id "WP_000287458.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1145438 1145440 . - 0 gene_id "ECDH10B_RS05640"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pgaA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309297.1"; locus_tag "ECDH10B_RS05640"; product "poly-beta-1,6 N-acetyl-D-glucosamine export porin PgaA"; protein_id "WP_000287458.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1143017 1143019 . - 0 gene_id "ECDH10B_RS05640"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pgaA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309297.1"; locus_tag "ECDH10B_RS05640"; product "poly-beta-1,6 N-acetyl-D-glucosamine export porin PgaA"; protein_id "WP_000287458.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1146027 1146686 . + . gene_id "ECDH10B_RS05645"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05645"; -NC_010473.1 Protein Homology CDS 1146027 1146683 . + 0 gene_id "ECDH10B_RS05645"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415544.1"; locus_tag "ECDH10B_RS05645"; product "MASE4 domain-containing protein"; protein_id "WP_024255347.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1146027 1146029 . + 0 gene_id "ECDH10B_RS05645"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415544.1"; locus_tag "ECDH10B_RS05645"; product "MASE4 domain-containing protein"; protein_id "WP_024255347.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1146684 1146686 . + 0 gene_id "ECDH10B_RS05645"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415544.1"; locus_tag "ECDH10B_RS05645"; product "MASE4 domain-containing protein"; protein_id "WP_024255347.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1146728 1147956 . + . gene_id "ECDH10B_RS05655"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05655"; -NC_010473.1 Protein Homology CDS 1146728 1147043 . + 0 gene_id "ECDH10B_RS05655"; transcript_id "unknown_transcript_1"; exception "ribosomal slippage"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_086558215.1"; locus_tag "ECDH10B_RS05655"; note "programmed frameshift"; product "IS3-like element IS2 family transposase"; protein_id "WP_088895425.1"; transl_table "11"; -NC_010473.1 Protein Homology CDS 1147043 1147953 . + 0 gene_id "ECDH10B_RS05655"; transcript_id "unknown_transcript_1"; exception "ribosomal slippage"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_086558215.1"; locus_tag "ECDH10B_RS05655"; note "programmed frameshift"; product "IS3-like element IS2 family transposase"; protein_id "WP_088895425.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1146728 1146730 . + 0 gene_id "ECDH10B_RS05655"; transcript_id "unknown_transcript_1"; exception "ribosomal slippage"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_086558215.1"; locus_tag "ECDH10B_RS05655"; note "programmed frameshift"; product "IS3-like element IS2 family transposase"; protein_id "WP_088895425.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1147954 1147956 . + 0 gene_id "ECDH10B_RS05655"; transcript_id "unknown_transcript_1"; exception "ribosomal slippage"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_086558215.1"; locus_tag "ECDH10B_RS05655"; note "programmed frameshift"; product "IS3-like element IS2 family transposase"; protein_id "WP_088895425.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1147969 1148721 . + . gene_id "ECDH10B_RS05660"; transcript_id ""; gbkey "Gene"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS05660"; partial "true"; pseudo "true"; -NC_010473.1 Protein Homology CDS 1147969 1148718 . + 0 gene_id "ECDH10B_RS05660"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415544.1"; locus_tag "ECDH10B_RS05660"; note "incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "GGDEF domain-containing protein"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1147969 1147971 . + 0 gene_id "ECDH10B_RS05660"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415544.1"; locus_tag "ECDH10B_RS05660"; note "incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "GGDEF domain-containing protein"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1148719 1148721 . + 0 gene_id "ECDH10B_RS05660"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415544.1"; locus_tag "ECDH10B_RS05660"; note "incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "GGDEF domain-containing protein"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 1148762 1149924 . - . gene_id "ECDH10B_RS05665"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05665"; old_locus_tag "ECDH10B_1100"; -NC_010473.1 Protein Homology CDS 1149663 1149924 . - 0 gene_id "ECDH10B_RS05665"; transcript_id "unknown_transcript_1"; exception "ribosomal slippage"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_012477168.1"; locus_tag "ECDH10B_RS05665"; note "programmed frameshift"; product "IS3-like element IS3 family transposase"; protein_id "WP_085947771.1"; transl_table "11"; -NC_010473.1 Protein Homology CDS 1148765 1149663 . - 0 gene_id "ECDH10B_RS05665"; transcript_id "unknown_transcript_1"; exception "ribosomal slippage"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_012477168.1"; locus_tag "ECDH10B_RS05665"; note "programmed frameshift"; product "IS3-like element IS3 family transposase"; protein_id "WP_085947771.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1149922 1149924 . - 0 gene_id "ECDH10B_RS05665"; transcript_id "unknown_transcript_1"; exception "ribosomal slippage"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_012477168.1"; locus_tag "ECDH10B_RS05665"; note "programmed frameshift"; product "IS3-like element IS3 family transposase"; protein_id "WP_085947771.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1148762 1148764 . - 0 gene_id "ECDH10B_RS05665"; transcript_id "unknown_transcript_1"; exception "ribosomal slippage"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_012477168.1"; locus_tag "ECDH10B_RS05665"; note "programmed frameshift"; product "IS3-like element IS3 family transposase"; protein_id "WP_085947771.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1149992 1150333 . + . gene_id "ECDH10B_RS05675"; transcript_id ""; gbkey "Gene"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS05675"; old_locus_tag "ECDH10B_1102"; partial "true"; pseudo "true"; -NC_010473.1 Protein Homology CDS 1149992 1150330 . + 0 gene_id "ECDH10B_RS05675"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309324.2"; locus_tag "ECDH10B_RS05675"; note "incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "ACP S-malonyltransferase"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1149992 1149994 . + 0 gene_id "ECDH10B_RS05675"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309324.2"; locus_tag "ECDH10B_RS05675"; note "incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "ACP S-malonyltransferase"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1150331 1150333 . + 0 gene_id "ECDH10B_RS05675"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309324.2"; locus_tag "ECDH10B_RS05675"; note "incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "ACP S-malonyltransferase"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 1150330 1151316 . + . gene_id "ECDH10B_RS05680"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05680"; old_locus_tag "ECDH10B_1103"; -NC_010473.1 Protein Homology CDS 1150330 1151313 . + 0 gene_id "ECDH10B_RS05680"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415548.1"; locus_tag "ECDH10B_RS05680"; product "hypothetical protein"; protein_id "WP_000611859.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1150330 1150332 . + 0 gene_id "ECDH10B_RS05680"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415548.1"; locus_tag "ECDH10B_RS05680"; product "hypothetical protein"; protein_id "WP_000611859.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1151314 1151316 . + 0 gene_id "ECDH10B_RS05680"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415548.1"; locus_tag "ECDH10B_RS05680"; product "hypothetical protein"; protein_id "WP_000611859.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1151690 1151826 . - . gene_id "ECDH10B_RS23325"; transcript_id ""; gbkey "Gene"; gene_biotype "ncRNA"; locus_tag "ECDH10B_RS23325"; -NC_010473.1 cmsearch exon 1151690 1151826 . - . gene_id "ECDH10B_RS23325"; transcript_id "ECDH10B_RS23325"; db_xref "RFAM:RF00391"; gbkey "ncRNA"; inference "COORDINATES: nucleotide motif:Rfam:12.0:RF00391"; inference "COORDINATES: profile:INFERNAL:1.1.1"; locus_tag "ECDH10B_RS23325"; note "rtT sRNA, processed from tyrT transcript"; product "RtT sRNA"; exon_number "1"; -NC_010473.1 RefSeq gene 1151871 1152007 . - . gene_id "ECDH10B_RS23330"; transcript_id ""; gbkey "Gene"; gene_biotype "ncRNA"; locus_tag "ECDH10B_RS23330"; -NC_010473.1 cmsearch exon 1151871 1152007 . - . gene_id "ECDH10B_RS23330"; transcript_id "ECDH10B_RS23330"; db_xref "RFAM:RF00391"; gbkey "ncRNA"; inference "COORDINATES: nucleotide motif:Rfam:12.0:RF00391"; inference "COORDINATES: profile:INFERNAL:1.1.1"; locus_tag "ECDH10B_RS23330"; note "rtT sRNA, processed from tyrT transcript"; product "RtT sRNA"; exon_number "1"; -NC_010473.1 RefSeq gene 1152052 1152188 . - . gene_id "ECDH10B_RS23335"; transcript_id ""; gbkey "Gene"; gene_biotype "ncRNA"; locus_tag "ECDH10B_RS23335"; -NC_010473.1 cmsearch exon 1152052 1152188 . - . gene_id "ECDH10B_RS23335"; transcript_id "ECDH10B_RS23335"; db_xref "RFAM:RF00391"; gbkey "ncRNA"; inference "COORDINATES: nucleotide motif:Rfam:12.0:RF00391"; inference "COORDINATES: profile:INFERNAL:1.1.1"; locus_tag "ECDH10B_RS23335"; note "rtT sRNA, processed from tyrT transcript"; product "RtT sRNA"; exon_number "1"; -NC_010473.1 RefSeq gene 1152233 1152320 . - . gene_id "ECDH10B_RS05690"; transcript_id ""; gbkey "Gene"; gene_biotype "tRNA"; locus_tag "ECDH10B_RS05690"; old_locus_tag "ECDH10B_1104"; -NC_010473.1 tRNAscan-SE exon 1152233 1152320 . - . gene_id "ECDH10B_RS05690"; transcript_id "ECDH10B_RS05690"; anticodon "(pos:complement(1152284..1152286))"; gbkey "tRNA"; inference "COORDINATES: profile:tRNAscan-SE:2.0.6"; locus_tag "ECDH10B_RS05690"; product "tRNA-Ser"; exon_number "1"; -NC_010473.1 RefSeq gene 1152554 1153492 . + . gene_id "ECDH10B_RS05695"; transcript_id ""; gbkey "Gene"; gene "ghrA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05695"; old_locus_tag "ECDH10B_1105"; -NC_010473.1 Protein Homology CDS 1152554 1153489 . + 0 gene_id "ECDH10B_RS05695"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ghrA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415551.2"; locus_tag "ECDH10B_RS05695"; product "glyoxylate/hydroxypyruvate reductase GhrA"; protein_id "WP_000351317.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1152554 1152556 . + 0 gene_id "ECDH10B_RS05695"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ghrA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415551.2"; locus_tag "ECDH10B_RS05695"; product "glyoxylate/hydroxypyruvate reductase GhrA"; protein_id "WP_000351317.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1153490 1153492 . + 0 gene_id "ECDH10B_RS05695"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ghrA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415551.2"; locus_tag "ECDH10B_RS05695"; product "glyoxylate/hydroxypyruvate reductase GhrA"; protein_id "WP_000351317.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1153547 1154284 . + . gene_id "ECDH10B_RS05700"; transcript_id ""; gbkey "Gene"; gene "ycdX"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05700"; old_locus_tag "ECDH10B_1106"; -NC_010473.1 Protein Homology CDS 1153547 1154281 . + 0 gene_id "ECDH10B_RS05700"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ycdX"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415552.1"; locus_tag "ECDH10B_RS05700"; product "zinc-binding phosphatase"; protein_id "WP_000283667.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1153547 1153549 . + 0 gene_id "ECDH10B_RS05700"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ycdX"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415552.1"; locus_tag "ECDH10B_RS05700"; product "zinc-binding phosphatase"; protein_id "WP_000283667.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1154282 1154284 . + 0 gene_id "ECDH10B_RS05700"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ycdX"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415552.1"; locus_tag "ECDH10B_RS05700"; product "zinc-binding phosphatase"; protein_id "WP_000283667.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1154308 1154862 . + . gene_id "ECDH10B_RS05705"; transcript_id ""; gbkey "Gene"; gene "ycdY"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05705"; old_locus_tag "ECDH10B_1107"; -NC_010473.1 Protein Homology CDS 1154308 1154859 . + 0 gene_id "ECDH10B_RS05705"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ycdY"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415553.1"; locus_tag "ECDH10B_RS05705"; product "molecular chaperone YcdY"; protein_id "WP_001001924.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1154308 1154310 . + 0 gene_id "ECDH10B_RS05705"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ycdY"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415553.1"; locus_tag "ECDH10B_RS05705"; product "molecular chaperone YcdY"; protein_id "WP_001001924.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1154860 1154862 . + 0 gene_id "ECDH10B_RS05705"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ycdY"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415553.1"; locus_tag "ECDH10B_RS05705"; product "molecular chaperone YcdY"; protein_id "WP_001001924.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1154964 1155455 . + . gene_id "ECDH10B_RS05710"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05710"; old_locus_tag "ECDH10B_1108"; -NC_010473.1 Protein Homology CDS 1154964 1155452 . + 0 gene_id "ECDH10B_RS05710"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415554.4"; locus_tag "ECDH10B_RS05710"; product "DUF1097 domain-containing protein"; protein_id "WP_001300785.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1154964 1154966 . + 0 gene_id "ECDH10B_RS05710"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415554.4"; locus_tag "ECDH10B_RS05710"; product "DUF1097 domain-containing protein"; protein_id "WP_001300785.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1155453 1155455 . + 0 gene_id "ECDH10B_RS05710"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415554.4"; locus_tag "ECDH10B_RS05710"; product "DUF1097 domain-containing protein"; protein_id "WP_001300785.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1155519 1156352 . - . gene_id "ECDH10B_RS05715"; transcript_id ""; gbkey "Gene"; gene "csgG"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05715"; old_locus_tag "ECDH10B_1109"; -NC_010473.1 Protein Homology CDS 1155522 1156352 . - 0 gene_id "ECDH10B_RS05715"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "csgG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309441.1"; locus_tag "ECDH10B_RS05715"; product "curli production assembly/transport protein CsgG"; protein_id "WP_001189321.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1156350 1156352 . - 0 gene_id "ECDH10B_RS05715"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "csgG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309441.1"; locus_tag "ECDH10B_RS05715"; product "curli production assembly/transport protein CsgG"; protein_id "WP_001189321.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1155519 1155521 . - 0 gene_id "ECDH10B_RS05715"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "csgG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309441.1"; locus_tag "ECDH10B_RS05715"; product "curli production assembly/transport protein CsgG"; protein_id "WP_001189321.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1156379 1156795 . - . gene_id "ECDH10B_RS05720"; transcript_id ""; gbkey "Gene"; gene "csgF"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05720"; old_locus_tag "ECDH10B_1110"; -NC_010473.1 Protein Homology CDS 1156382 1156795 . - 0 gene_id "ECDH10B_RS05720"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "csgF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309442.1"; locus_tag "ECDH10B_RS05720"; product "curli production assembly/transport protein CsgF"; protein_id "WP_001264088.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1156793 1156795 . - 0 gene_id "ECDH10B_RS05720"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "csgF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309442.1"; locus_tag "ECDH10B_RS05720"; product "curli production assembly/transport protein CsgF"; protein_id "WP_001264088.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1156379 1156381 . - 0 gene_id "ECDH10B_RS05720"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "csgF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309442.1"; locus_tag "ECDH10B_RS05720"; product "curli production assembly/transport protein CsgF"; protein_id "WP_001264088.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1156820 1157209 . - . gene_id "ECDH10B_RS05725"; transcript_id ""; gbkey "Gene"; gene "csgE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05725"; old_locus_tag "ECDH10B_1111"; -NC_010473.1 Protein Homology CDS 1156823 1157209 . - 0 gene_id "ECDH10B_RS05725"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "csgE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309443.1"; locus_tag "ECDH10B_RS05725"; product "curli production assembly/transport protein CsgE"; protein_id "WP_000833288.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1157207 1157209 . - 0 gene_id "ECDH10B_RS05725"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "csgE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309443.1"; locus_tag "ECDH10B_RS05725"; product "curli production assembly/transport protein CsgE"; protein_id "WP_000833288.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1156820 1156822 . - 0 gene_id "ECDH10B_RS05725"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "csgE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309443.1"; locus_tag "ECDH10B_RS05725"; product "curli production assembly/transport protein CsgE"; protein_id "WP_000833288.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1157214 1157864 . - . gene_id "ECDH10B_RS05730"; transcript_id ""; gbkey "Gene"; gene "csgD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05730"; old_locus_tag "ECDH10B_1112"; -NC_010473.1 Protein Homology CDS 1157217 1157864 . - 0 gene_id "ECDH10B_RS05730"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "csgD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415558.1"; locus_tag "ECDH10B_RS05730"; product "transcriptional regulator CsgD"; protein_id "WP_000481509.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1157862 1157864 . - 0 gene_id "ECDH10B_RS05730"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "csgD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415558.1"; locus_tag "ECDH10B_RS05730"; product "transcriptional regulator CsgD"; protein_id "WP_000481509.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1157214 1157216 . - 0 gene_id "ECDH10B_RS05730"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "csgD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415558.1"; locus_tag "ECDH10B_RS05730"; product "transcriptional regulator CsgD"; protein_id "WP_000481509.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1158619 1159074 . + . gene_id "ECDH10B_RS05740"; transcript_id ""; gbkey "Gene"; gene "csgB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05740"; old_locus_tag "ECDH10B_1113"; -NC_010473.1 Protein Homology CDS 1158619 1159071 . + 0 gene_id "ECDH10B_RS05740"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "csgB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309446.1"; locus_tag "ECDH10B_RS05740"; product "curlin minor subunit CsgB"; protein_id "WP_000791650.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1158619 1158621 . + 0 gene_id "ECDH10B_RS05740"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "csgB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309446.1"; locus_tag "ECDH10B_RS05740"; product "curlin minor subunit CsgB"; protein_id "WP_000791650.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1159072 1159074 . + 0 gene_id "ECDH10B_RS05740"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "csgB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309446.1"; locus_tag "ECDH10B_RS05740"; product "curlin minor subunit CsgB"; protein_id "WP_000791650.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1159115 1159570 . + . gene_id "ECDH10B_RS05745"; transcript_id ""; gbkey "Gene"; gene "csgA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05745"; old_locus_tag "ECDH10B_1114"; -NC_010473.1 Protein Homology CDS 1159115 1159567 . + 0 gene_id "ECDH10B_RS05745"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "csgA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415560.1"; locus_tag "ECDH10B_RS05745"; product "curlin major subunit CsgA"; protein_id "WP_000771437.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1159115 1159117 . + 0 gene_id "ECDH10B_RS05745"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "csgA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415560.1"; locus_tag "ECDH10B_RS05745"; product "curlin major subunit CsgA"; protein_id "WP_000771437.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1159568 1159570 . + 0 gene_id "ECDH10B_RS05745"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "csgA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415560.1"; locus_tag "ECDH10B_RS05745"; product "curlin major subunit CsgA"; protein_id "WP_000771437.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1159629 1159961 . + . gene_id "ECDH10B_RS05750"; transcript_id ""; gbkey "Gene"; gene "csgC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05750"; old_locus_tag "ECDH10B_1115"; -NC_010473.1 Protein Homology CDS 1159629 1159958 . + 0 gene_id "ECDH10B_RS05750"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "csgC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415561.1"; locus_tag "ECDH10B_RS05750"; product "curli assembly protein CsgC"; protein_id "WP_001094300.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1159629 1159631 . + 0 gene_id "ECDH10B_RS05750"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "csgC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415561.1"; locus_tag "ECDH10B_RS05750"; product "curli assembly protein CsgC"; protein_id "WP_001094300.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1159959 1159961 . + 0 gene_id "ECDH10B_RS05750"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "csgC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415561.1"; locus_tag "ECDH10B_RS05750"; product "curli assembly protein CsgC"; protein_id "WP_001094300.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1160082 1160393 . + . gene_id "ECDH10B_RS05755"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05755"; old_locus_tag "ECDH10B_1116"; -NC_010473.1 Protein Homology CDS 1160082 1160390 . + 0 gene_id "ECDH10B_RS05755"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415562.1"; locus_tag "ECDH10B_RS05755"; product "hypothetical protein"; protein_id "WP_000489587.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1160082 1160084 . + 0 gene_id "ECDH10B_RS05755"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415562.1"; locus_tag "ECDH10B_RS05755"; product "hypothetical protein"; protein_id "WP_000489587.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1160391 1160393 . + 0 gene_id "ECDH10B_RS05755"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415562.1"; locus_tag "ECDH10B_RS05755"; product "hypothetical protein"; protein_id "WP_000489587.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1160488 1161021 . + . gene_id "ECDH10B_RS05760"; transcript_id ""; gbkey "Gene"; gene "ymdB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05760"; old_locus_tag "ECDH10B_1117"; -NC_010473.1 Protein Homology CDS 1160488 1161018 . + 0 gene_id "ECDH10B_RS05760"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ymdB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309450.1"; locus_tag "ECDH10B_RS05760"; product "O-acetyl-ADP-ribose deacetylase"; protein_id "WP_000857405.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1160488 1160490 . + 0 gene_id "ECDH10B_RS05760"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ymdB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309450.1"; locus_tag "ECDH10B_RS05760"; product "O-acetyl-ADP-ribose deacetylase"; protein_id "WP_000857405.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1161019 1161021 . + 0 gene_id "ECDH10B_RS05760"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ymdB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309450.1"; locus_tag "ECDH10B_RS05760"; product "O-acetyl-ADP-ribose deacetylase"; protein_id "WP_000857405.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1160963 1162444 . + . gene_id "ECDH10B_RS05765"; transcript_id ""; gbkey "Gene"; gene "clsC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05765"; old_locus_tag "ECDH10B_1118"; -NC_010473.1 Protein Homology CDS 1160963 1162441 . + 0 gene_id "ECDH10B_RS05765"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "clsC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_706957.2"; locus_tag "ECDH10B_RS05765"; product "cardiolipin synthase ClsC"; protein_id "WP_001307714.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1160963 1160965 . + 0 gene_id "ECDH10B_RS05765"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "clsC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_706957.2"; locus_tag "ECDH10B_RS05765"; product "cardiolipin synthase ClsC"; protein_id "WP_001307714.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1162442 1162444 . + 0 gene_id "ECDH10B_RS05765"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "clsC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_706957.2"; locus_tag "ECDH10B_RS05765"; product "cardiolipin synthase ClsC"; protein_id "WP_001307714.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1162452 1163609 . - . gene_id "ECDH10B_RS05770"; transcript_id ""; gbkey "Gene"; gene "mdoC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05770"; old_locus_tag "ECDH10B_1119"; -NC_010473.1 Protein Homology CDS 1162455 1163609 . - 0 gene_id "ECDH10B_RS05770"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mdoC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415565.1"; locus_tag "ECDH10B_RS05770"; product "glucans biosynthesis protein MdoC"; protein_id "WP_001070375.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1163607 1163609 . - 0 gene_id "ECDH10B_RS05770"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mdoC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415565.1"; locus_tag "ECDH10B_RS05770"; product "glucans biosynthesis protein MdoC"; protein_id "WP_001070375.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1162452 1162454 . - 0 gene_id "ECDH10B_RS05770"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mdoC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415565.1"; locus_tag "ECDH10B_RS05770"; product "glucans biosynthesis protein MdoC"; protein_id "WP_001070375.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1164003 1165538 . + . gene_id "ECDH10B_RS05785"; transcript_id ""; gbkey "Gene"; gene "mdoG"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05785"; old_locus_tag "ECDH10B_1120"; -NC_010473.1 Protein Homology CDS 1164003 1165535 . + 0 gene_id "ECDH10B_RS05785"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mdoG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415566.1"; locus_tag "ECDH10B_RS05785"; product "glucans biosynthesis protein MdoG"; protein_id "WP_001343212.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1164003 1164005 . + 0 gene_id "ECDH10B_RS05785"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mdoG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415566.1"; locus_tag "ECDH10B_RS05785"; product "glucans biosynthesis protein MdoG"; protein_id "WP_001343212.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1165536 1165538 . + 0 gene_id "ECDH10B_RS05785"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mdoG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415566.1"; locus_tag "ECDH10B_RS05785"; product "glucans biosynthesis protein MdoG"; protein_id "WP_001343212.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1165531 1168074 . + . gene_id "ECDH10B_RS05790"; transcript_id ""; gbkey "Gene"; gene "mdoH"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05790"; old_locus_tag "ECDH10B_1121"; -NC_010473.1 Protein Homology CDS 1165531 1168071 . + 0 gene_id "ECDH10B_RS05790"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mdoH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415567.1"; locus_tag "ECDH10B_RS05790"; product "glucans biosynthesis glucosyltransferase MdoH"; protein_id "WP_012305462.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1165531 1165533 . + 0 gene_id "ECDH10B_RS05790"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mdoH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415567.1"; locus_tag "ECDH10B_RS05790"; product "glucans biosynthesis glucosyltransferase MdoH"; protein_id "WP_012305462.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1168072 1168074 . + 0 gene_id "ECDH10B_RS05790"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mdoH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415567.1"; locus_tag "ECDH10B_RS05790"; product "glucans biosynthesis glucosyltransferase MdoH"; protein_id "WP_012305462.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1168247 1168474 . + . gene_id "ECDH10B_RS05795"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05795"; old_locus_tag "ECDH10B_1122"; -NC_010473.1 Protein Homology CDS 1168247 1168471 . + 0 gene_id "ECDH10B_RS05795"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309455.1"; locus_tag "ECDH10B_RS05795"; product "YceK/YidQ family lipoprotein"; protein_id "WP_001237205.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1168247 1168249 . + 0 gene_id "ECDH10B_RS05795"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309455.1"; locus_tag "ECDH10B_RS05795"; product "YceK/YidQ family lipoprotein"; protein_id "WP_001237205.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1168472 1168474 . + 0 gene_id "ECDH10B_RS05795"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309455.1"; locus_tag "ECDH10B_RS05795"; product "YceK/YidQ family lipoprotein"; protein_id "WP_001237205.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1168475 1168849 . - . gene_id "ECDH10B_RS05800"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05800"; old_locus_tag "ECDH10B_1123"; -NC_010473.1 Protein Homology CDS 1168478 1168849 . - 0 gene_id "ECDH10B_RS05800"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309456.2"; locus_tag "ECDH10B_RS05800"; product "acidic protein MsyB"; protein_id "WP_000180056.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1168847 1168849 . - 0 gene_id "ECDH10B_RS05800"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309456.2"; locus_tag "ECDH10B_RS05800"; product "acidic protein MsyB"; protein_id "WP_000180056.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1168475 1168477 . - 0 gene_id "ECDH10B_RS05800"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309456.2"; locus_tag "ECDH10B_RS05800"; product "acidic protein MsyB"; protein_id "WP_000180056.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1168932 1170158 . - . gene_id "ECDH10B_RS05810"; transcript_id ""; gbkey "Gene"; gene "mdtG"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05810"; old_locus_tag "ECDH10B_1124"; -NC_010473.1 Protein Homology CDS 1168935 1170158 . - 0 gene_id "ECDH10B_RS05810"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mdtG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415571.1"; locus_tag "ECDH10B_RS05810"; product "multidrug efflux MFS transporter MdtG"; protein_id "WP_000074172.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1170156 1170158 . - 0 gene_id "ECDH10B_RS05810"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mdtG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415571.1"; locus_tag "ECDH10B_RS05810"; product "multidrug efflux MFS transporter MdtG"; protein_id "WP_000074172.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1168932 1168934 . - 0 gene_id "ECDH10B_RS05810"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mdtG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415571.1"; locus_tag "ECDH10B_RS05810"; product "multidrug efflux MFS transporter MdtG"; protein_id "WP_000074172.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1170330 1171250 . - . gene_id "ECDH10B_RS05815"; transcript_id ""; gbkey "Gene"; gene "lpxL"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05815"; old_locus_tag "ECDH10B_1125"; -NC_010473.1 Protein Homology CDS 1170333 1171250 . - 0 gene_id "ECDH10B_RS05815"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lpxL"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309459.1"; locus_tag "ECDH10B_RS05815"; product "kdo(2)-lipid IV(A) lauroyltransferase"; protein_id "WP_000183364.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1171248 1171250 . - 0 gene_id "ECDH10B_RS05815"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lpxL"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309459.1"; locus_tag "ECDH10B_RS05815"; product "kdo(2)-lipid IV(A) lauroyltransferase"; protein_id "WP_000183364.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1170330 1170332 . - 0 gene_id "ECDH10B_RS05815"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lpxL"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309459.1"; locus_tag "ECDH10B_RS05815"; product "kdo(2)-lipid IV(A) lauroyltransferase"; protein_id "WP_000183364.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1171475 1172527 . + . gene_id "ECDH10B_RS05820"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05820"; old_locus_tag "ECDH10B_1126"; -NC_010473.1 Protein Homology CDS 1171475 1172524 . + 0 gene_id "ECDH10B_RS05820"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415573.1"; locus_tag "ECDH10B_RS05820"; product "rhodanese-related sulfurtransferase"; protein_id "WP_001144615.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1171475 1171477 . + 0 gene_id "ECDH10B_RS05820"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415573.1"; locus_tag "ECDH10B_RS05820"; product "rhodanese-related sulfurtransferase"; protein_id "WP_001144615.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1172525 1172527 . + 0 gene_id "ECDH10B_RS05820"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415573.1"; locus_tag "ECDH10B_RS05820"; product "rhodanese-related sulfurtransferase"; protein_id "WP_001144615.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1172569 1173144 . - . gene_id "ECDH10B_RS05825"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05825"; old_locus_tag "ECDH10B_1127"; -NC_010473.1 Protein Homology CDS 1172572 1173144 . - 0 gene_id "ECDH10B_RS05825"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309461.1"; locus_tag "ECDH10B_RS05825"; product "YceI family protein"; protein_id "WP_000749261.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1173142 1173144 . - 0 gene_id "ECDH10B_RS05825"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309461.1"; locus_tag "ECDH10B_RS05825"; product "YceI family protein"; protein_id "WP_000749261.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1172569 1172571 . - 0 gene_id "ECDH10B_RS05825"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309461.1"; locus_tag "ECDH10B_RS05825"; product "YceI family protein"; protein_id "WP_000749261.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1173148 1173714 . - . gene_id "ECDH10B_RS05830"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05830"; old_locus_tag "ECDH10B_1128"; -NC_010473.1 Protein Homology CDS 1173151 1173714 . - 0 gene_id "ECDH10B_RS05830"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415575.1"; locus_tag "ECDH10B_RS05830"; product "cytochrome b"; protein_id "WP_000011114.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1173712 1173714 . - 0 gene_id "ECDH10B_RS05830"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415575.1"; locus_tag "ECDH10B_RS05830"; product "cytochrome b"; protein_id "WP_000011114.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1173148 1173150 . - 0 gene_id "ECDH10B_RS05830"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415575.1"; locus_tag "ECDH10B_RS05830"; product "cytochrome b"; protein_id "WP_000011114.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1173975 1174088 . - . gene_id "ECDH10B_RS05835"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05835"; old_locus_tag "ECDH10B_1129"; -NC_010473.1 Protein Homology CDS 1173978 1174088 . - 0 gene_id "ECDH10B_RS05835"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_706980.2"; locus_tag "ECDH10B_RS05835"; product "DUF2770 family protein"; protein_id "WP_001253418.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1174086 1174088 . - 0 gene_id "ECDH10B_RS05835"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_706980.2"; locus_tag "ECDH10B_RS05835"; product "DUF2770 family protein"; protein_id "WP_001253418.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1173975 1173977 . - 0 gene_id "ECDH10B_RS05835"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_706980.2"; locus_tag "ECDH10B_RS05835"; product "DUF2770 family protein"; protein_id "WP_001253418.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1174136 1175254 . - . gene_id "ECDH10B_RS05840"; transcript_id ""; gbkey "Gene"; gene "solA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05840"; old_locus_tag "ECDH10B_1130"; -NC_010473.1 Protein Homology CDS 1174139 1175254 . - 0 gene_id "ECDH10B_RS05840"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "solA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415577.1"; locus_tag "ECDH10B_RS05840"; product "N-methyl-L-tryptophan oxidase"; protein_id "WP_000872833.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1175252 1175254 . - 0 gene_id "ECDH10B_RS05840"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "solA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415577.1"; locus_tag "ECDH10B_RS05840"; product "N-methyl-L-tryptophan oxidase"; protein_id "WP_000872833.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1174136 1174138 . - 0 gene_id "ECDH10B_RS05840"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "solA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415577.1"; locus_tag "ECDH10B_RS05840"; product "N-methyl-L-tryptophan oxidase"; protein_id "WP_000872833.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1175369 1175623 . - . gene_id "ECDH10B_RS05845"; transcript_id ""; gbkey "Gene"; gene "bssS"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05845"; old_locus_tag "ECDH10B_1131"; -NC_010473.1 Protein Homology CDS 1175372 1175623 . - 0 gene_id "ECDH10B_RS05845"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "bssS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415578.3"; locus_tag "ECDH10B_RS05845"; product "biofilm formation regulator BssS"; protein_id "WP_000414438.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1175621 1175623 . - 0 gene_id "ECDH10B_RS05845"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "bssS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415578.3"; locus_tag "ECDH10B_RS05845"; product "biofilm formation regulator BssS"; protein_id "WP_000414438.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1175369 1175371 . - 0 gene_id "ECDH10B_RS05845"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "bssS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415578.3"; locus_tag "ECDH10B_RS05845"; product "biofilm formation regulator BssS"; protein_id "WP_000414438.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1175910 1176155 . - . gene_id "ECDH10B_RS05850"; transcript_id ""; gbkey "Gene"; gene "dinI"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05850"; old_locus_tag "ECDH10B_1132"; -NC_010473.1 Protein Homology CDS 1175913 1176155 . - 0 gene_id "ECDH10B_RS05850"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dinI"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309466.1"; locus_tag "ECDH10B_RS05850"; product "DNA damage-inducible protein I"; protein_id "WP_001217754.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1176153 1176155 . - 0 gene_id "ECDH10B_RS05850"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dinI"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309466.1"; locus_tag "ECDH10B_RS05850"; product "DNA damage-inducible protein I"; protein_id "WP_001217754.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1175910 1175912 . - 0 gene_id "ECDH10B_RS05850"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dinI"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309466.1"; locus_tag "ECDH10B_RS05850"; product "DNA damage-inducible protein I"; protein_id "WP_001217754.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1176229 1177275 . - . gene_id "ECDH10B_RS05855"; transcript_id ""; gbkey "Gene"; gene "pyrC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05855"; old_locus_tag "ECDH10B_1133"; -NC_010473.1 Protein Homology CDS 1176232 1177275 . - 0 gene_id "ECDH10B_RS05855"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pyrC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415580.1"; locus_tag "ECDH10B_RS05855"; product "dihydroorotase"; protein_id "WP_000126534.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1177273 1177275 . - 0 gene_id "ECDH10B_RS05855"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pyrC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415580.1"; locus_tag "ECDH10B_RS05855"; product "dihydroorotase"; protein_id "WP_000126534.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1176229 1176231 . - 0 gene_id "ECDH10B_RS05855"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pyrC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415580.1"; locus_tag "ECDH10B_RS05855"; product "dihydroorotase"; protein_id "WP_000126534.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1177381 1177941 . - . gene_id "ECDH10B_RS05860"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05860"; old_locus_tag "ECDH10B_1134"; -NC_010473.1 Protein Homology CDS 1177384 1177941 . - 0 gene_id "ECDH10B_RS05860"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415581.1"; locus_tag "ECDH10B_RS05860"; product "lipoprotein"; protein_id "WP_001295443.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1177939 1177941 . - 0 gene_id "ECDH10B_RS05860"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415581.1"; locus_tag "ECDH10B_RS05860"; product "lipoprotein"; protein_id "WP_001295443.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1177381 1177383 . - 0 gene_id "ECDH10B_RS05860"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415581.1"; locus_tag "ECDH10B_RS05860"; product "lipoprotein"; protein_id "WP_001295443.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1178075 1178722 . - . gene_id "ECDH10B_RS05865"; transcript_id ""; gbkey "Gene"; gene "grxB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05865"; old_locus_tag "ECDH10B_1135"; -NC_010473.1 Protein Homology CDS 1178078 1178722 . - 0 gene_id "ECDH10B_RS05865"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "grxB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309469.1"; locus_tag "ECDH10B_RS05865"; product "glutaredoxin 2"; protein_id "WP_000780916.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1178720 1178722 . - 0 gene_id "ECDH10B_RS05865"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "grxB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309469.1"; locus_tag "ECDH10B_RS05865"; product "glutaredoxin 2"; protein_id "WP_000780916.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1178075 1178077 . - 0 gene_id "ECDH10B_RS05865"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "grxB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309469.1"; locus_tag "ECDH10B_RS05865"; product "glutaredoxin 2"; protein_id "WP_000780916.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1178786 1179994 . - . gene_id "ECDH10B_RS05870"; transcript_id ""; gbkey "Gene"; gene "mdtH"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05870"; old_locus_tag "ECDH10B_1136"; -NC_010473.1 Protein Homology CDS 1178789 1179994 . - 0 gene_id "ECDH10B_RS05870"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mdtH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415583.4"; locus_tag "ECDH10B_RS05870"; product "multidrug efflux MFS transporter MdtH"; protein_id "WP_000092206.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1179992 1179994 . - 0 gene_id "ECDH10B_RS05870"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mdtH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415583.4"; locus_tag "ECDH10B_RS05870"; product "multidrug efflux MFS transporter MdtH"; protein_id "WP_000092206.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1178786 1178788 . - 0 gene_id "ECDH10B_RS05870"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mdtH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415583.4"; locus_tag "ECDH10B_RS05870"; product "multidrug efflux MFS transporter MdtH"; protein_id "WP_000092206.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1180230 1180814 . + . gene_id "ECDH10B_RS05875"; transcript_id ""; gbkey "Gene"; gene "rimJ"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05875"; old_locus_tag "ECDH10B_1137"; -NC_010473.1 Protein Homology CDS 1180230 1180811 . + 0 gene_id "ECDH10B_RS05875"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rimJ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309471.1"; locus_tag "ECDH10B_RS05875"; product "ribosomal protein S5-alanine N-acetyltransferase"; protein_id "WP_000468186.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1180230 1180232 . + 0 gene_id "ECDH10B_RS05875"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rimJ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309471.1"; locus_tag "ECDH10B_RS05875"; product "ribosomal protein S5-alanine N-acetyltransferase"; protein_id "WP_000468186.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1180812 1180814 . + 0 gene_id "ECDH10B_RS05875"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rimJ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309471.1"; locus_tag "ECDH10B_RS05875"; product "ribosomal protein S5-alanine N-acetyltransferase"; protein_id "WP_000468186.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1180825 1181472 . + . gene_id "ECDH10B_RS05880"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05880"; old_locus_tag "ECDH10B_1138"; -NC_010473.1 Protein Homology CDS 1180825 1181469 . + 0 gene_id "ECDH10B_RS05880"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415585.1"; locus_tag "ECDH10B_RS05880"; product "YceH family protein"; protein_id "WP_000877107.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1180825 1180827 . + 0 gene_id "ECDH10B_RS05880"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415585.1"; locus_tag "ECDH10B_RS05880"; product "YceH family protein"; protein_id "WP_000877107.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1181470 1181472 . + 0 gene_id "ECDH10B_RS05880"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415585.1"; locus_tag "ECDH10B_RS05880"; product "YceH family protein"; protein_id "WP_000877107.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1181474 1182397 . + . gene_id "ECDH10B_RS05885"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05885"; old_locus_tag "ECDH10B_1139"; -NC_010473.1 Protein Homology CDS 1181474 1182394 . + 0 gene_id "ECDH10B_RS05885"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415586.1"; locus_tag "ECDH10B_RS05885"; product "Gfo/Idh/MocA family oxidoreductase"; protein_id "WP_000736158.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1181474 1181476 . + 0 gene_id "ECDH10B_RS05885"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415586.1"; locus_tag "ECDH10B_RS05885"; product "Gfo/Idh/MocA family oxidoreductase"; protein_id "WP_000736158.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1182395 1182397 . + 0 gene_id "ECDH10B_RS05885"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415586.1"; locus_tag "ECDH10B_RS05885"; product "Gfo/Idh/MocA family oxidoreductase"; protein_id "WP_000736158.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1182507 1184042 . + . gene_id "ECDH10B_RS05890"; transcript_id ""; gbkey "Gene"; gene "murJ"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05890"; old_locus_tag "ECDH10B_1140"; -NC_010473.1 Protein Homology CDS 1182507 1184039 . + 0 gene_id "ECDH10B_RS05890"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "murJ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309474.1"; locus_tag "ECDH10B_RS05890"; product "murein biosynthesis integral membrane protein MurJ"; protein_id "WP_001050683.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1182507 1182509 . + 0 gene_id "ECDH10B_RS05890"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "murJ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309474.1"; locus_tag "ECDH10B_RS05890"; product "murein biosynthesis integral membrane protein MurJ"; protein_id "WP_001050683.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1184040 1184042 . + 0 gene_id "ECDH10B_RS05890"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "murJ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309474.1"; locus_tag "ECDH10B_RS05890"; product "murein biosynthesis integral membrane protein MurJ"; protein_id "WP_001050683.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1184082 1184498 . - . gene_id "ECDH10B_RS05895"; transcript_id ""; gbkey "Gene"; gene "flgN"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05895"; old_locus_tag "ECDH10B_1141"; -NC_010473.1 Protein Homology CDS 1184085 1184498 . - 0 gene_id "ECDH10B_RS05895"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "flgN"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415588.1"; locus_tag "ECDH10B_RS05895"; product "flagella biosynthesis chaperone FlgN"; protein_id "WP_000197363.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1184496 1184498 . - 0 gene_id "ECDH10B_RS05895"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "flgN"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415588.1"; locus_tag "ECDH10B_RS05895"; product "flagella biosynthesis chaperone FlgN"; protein_id "WP_000197363.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1184082 1184084 . - 0 gene_id "ECDH10B_RS05895"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "flgN"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415588.1"; locus_tag "ECDH10B_RS05895"; product "flagella biosynthesis chaperone FlgN"; protein_id "WP_000197363.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1184503 1184796 . - . gene_id "ECDH10B_RS05900"; transcript_id ""; gbkey "Gene"; gene "flgM"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05900"; old_locus_tag "ECDH10B_1142"; -NC_010473.1 Protein Homology CDS 1184506 1184796 . - 0 gene_id "ECDH10B_RS05900"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "flgM"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415589.1"; locus_tag "ECDH10B_RS05900"; product "anti-sigma-28 factor FlgM"; protein_id "WP_000020880.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1184794 1184796 . - 0 gene_id "ECDH10B_RS05900"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "flgM"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415589.1"; locus_tag "ECDH10B_RS05900"; product "anti-sigma-28 factor FlgM"; protein_id "WP_000020880.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1184503 1184505 . - 0 gene_id "ECDH10B_RS05900"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "flgM"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415589.1"; locus_tag "ECDH10B_RS05900"; product "anti-sigma-28 factor FlgM"; protein_id "WP_000020880.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1184872 1185531 . - . gene_id "ECDH10B_RS05905"; transcript_id ""; gbkey "Gene"; gene "flgA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05905"; old_locus_tag "ECDH10B_1143"; -NC_010473.1 Protein Homology CDS 1184875 1185531 . - 0 gene_id "ECDH10B_RS05905"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "flgA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415590.1"; locus_tag "ECDH10B_RS05905"; product "flagellar basal body P-ring formation protein FlgA"; protein_id "WP_000905458.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1185529 1185531 . - 0 gene_id "ECDH10B_RS05905"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "flgA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415590.1"; locus_tag "ECDH10B_RS05905"; product "flagellar basal body P-ring formation protein FlgA"; protein_id "WP_000905458.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1184872 1184874 . - 0 gene_id "ECDH10B_RS05905"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "flgA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415590.1"; locus_tag "ECDH10B_RS05905"; product "flagellar basal body P-ring formation protein FlgA"; protein_id "WP_000905458.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1185686 1186102 . + . gene_id "ECDH10B_RS05910"; transcript_id ""; gbkey "Gene"; gene "flgB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05910"; old_locus_tag "ECDH10B_1144"; -NC_010473.1 Protein Homology CDS 1185686 1186099 . + 0 gene_id "ECDH10B_RS05910"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "flgB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415591.1"; locus_tag "ECDH10B_RS05910"; product "flagellar basal body rod protein FlgB"; protein_id "WP_000884702.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1185686 1185688 . + 0 gene_id "ECDH10B_RS05910"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "flgB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415591.1"; locus_tag "ECDH10B_RS05910"; product "flagellar basal body rod protein FlgB"; protein_id "WP_000884702.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1186100 1186102 . + 0 gene_id "ECDH10B_RS05910"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "flgB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415591.1"; locus_tag "ECDH10B_RS05910"; product "flagellar basal body rod protein FlgB"; protein_id "WP_000884702.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1186106 1186510 . + . gene_id "ECDH10B_RS05915"; transcript_id ""; gbkey "Gene"; gene "flgC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05915"; old_locus_tag "ECDH10B_1145"; -NC_010473.1 Protein Homology CDS 1186106 1186507 . + 0 gene_id "ECDH10B_RS05915"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "flgC"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001740734.1"; locus_tag "ECDH10B_RS05915"; product "flagellar basal body rod protein FlgC"; protein_id "WP_001196460.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1186106 1186108 . + 0 gene_id "ECDH10B_RS05915"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "flgC"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001740734.1"; locus_tag "ECDH10B_RS05915"; product "flagellar basal body rod protein FlgC"; protein_id "WP_001196460.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1186508 1186510 . + 0 gene_id "ECDH10B_RS05915"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "flgC"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001740734.1"; locus_tag "ECDH10B_RS05915"; product "flagellar basal body rod protein FlgC"; protein_id "WP_001196460.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1186522 1187217 . + . gene_id "ECDH10B_RS05920"; transcript_id ""; gbkey "Gene"; gene "flgD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05920"; old_locus_tag "ECDH10B_1146"; -NC_010473.1 Protein Homology CDS 1186522 1187214 . + 0 gene_id "ECDH10B_RS05920"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "flgD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415593.1"; locus_tag "ECDH10B_RS05920"; product "flagellar hook assembly protein FlgD"; protein_id "WP_000020486.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1186522 1186524 . + 0 gene_id "ECDH10B_RS05920"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "flgD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415593.1"; locus_tag "ECDH10B_RS05920"; product "flagellar hook assembly protein FlgD"; protein_id "WP_000020486.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1187215 1187217 . + 0 gene_id "ECDH10B_RS05920"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "flgD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415593.1"; locus_tag "ECDH10B_RS05920"; product "flagellar hook assembly protein FlgD"; protein_id "WP_000020486.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1187242 1188450 . + . gene_id "ECDH10B_RS05925"; transcript_id ""; gbkey "Gene"; gene "flgE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05925"; old_locus_tag "ECDH10B_1147"; -NC_010473.1 Protein Homology CDS 1187242 1188447 . + 0 gene_id "ECDH10B_RS05925"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "flgE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415594.1"; locus_tag "ECDH10B_RS05925"; product "flagellar hook protein FlgE"; protein_id "WP_000885873.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1187242 1187244 . + 0 gene_id "ECDH10B_RS05925"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "flgE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415594.1"; locus_tag "ECDH10B_RS05925"; product "flagellar hook protein FlgE"; protein_id "WP_000885873.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1188448 1188450 . + 0 gene_id "ECDH10B_RS05925"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "flgE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415594.1"; locus_tag "ECDH10B_RS05925"; product "flagellar hook protein FlgE"; protein_id "WP_000885873.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1188470 1189225 . + . gene_id "ECDH10B_RS05930"; transcript_id ""; gbkey "Gene"; gene "flgF"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05930"; old_locus_tag "ECDH10B_1148"; -NC_010473.1 Protein Homology CDS 1188470 1189222 . + 0 gene_id "ECDH10B_RS05930"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "flgF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415595.1"; locus_tag "ECDH10B_RS05930"; product "flagellar basal-body rod protein FlgF"; protein_id "WP_000349316.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1188470 1188472 . + 0 gene_id "ECDH10B_RS05930"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "flgF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415595.1"; locus_tag "ECDH10B_RS05930"; product "flagellar basal-body rod protein FlgF"; protein_id "WP_000349316.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1189223 1189225 . + 0 gene_id "ECDH10B_RS05930"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "flgF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415595.1"; locus_tag "ECDH10B_RS05930"; product "flagellar basal-body rod protein FlgF"; protein_id "WP_000349316.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1189397 1190179 . + . gene_id "ECDH10B_RS05935"; transcript_id ""; gbkey "Gene"; gene "flgG"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05935"; old_locus_tag "ECDH10B_1149"; -NC_010473.1 Protein Homology CDS 1189397 1190176 . + 0 gene_id "ECDH10B_RS05935"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "flgG"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_006819466.1"; locus_tag "ECDH10B_RS05935"; product "flagellar basal-body rod protein FlgG"; protein_id "WP_000625837.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1189397 1189399 . + 0 gene_id "ECDH10B_RS05935"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "flgG"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_006819466.1"; locus_tag "ECDH10B_RS05935"; product "flagellar basal-body rod protein FlgG"; protein_id "WP_000625837.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1190177 1190179 . + 0 gene_id "ECDH10B_RS05935"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "flgG"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_006819466.1"; locus_tag "ECDH10B_RS05935"; product "flagellar basal-body rod protein FlgG"; protein_id "WP_000625837.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1190232 1190930 . + . gene_id "ECDH10B_RS05940"; transcript_id ""; gbkey "Gene"; gene "flgH"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05940"; old_locus_tag "ECDH10B_1150"; -NC_010473.1 Protein Homology CDS 1190232 1190927 . + 0 gene_id "ECDH10B_RS05940"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "flgH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309484.1"; locus_tag "ECDH10B_RS05940"; product "flagellar basal body L-ring protein FlgH"; protein_id "WP_001295442.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1190232 1190234 . + 0 gene_id "ECDH10B_RS05940"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "flgH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309484.1"; locus_tag "ECDH10B_RS05940"; product "flagellar basal body L-ring protein FlgH"; protein_id "WP_001295442.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1190928 1190930 . + 0 gene_id "ECDH10B_RS05940"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "flgH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309484.1"; locus_tag "ECDH10B_RS05940"; product "flagellar basal body L-ring protein FlgH"; protein_id "WP_001295442.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1190942 1192039 . + . gene_id "ECDH10B_RS05945"; transcript_id ""; gbkey "Gene"; gene "flgI"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05945"; old_locus_tag "ECDH10B_1151"; -NC_010473.1 Protein Homology CDS 1190942 1192036 . + 0 gene_id "ECDH10B_RS05945"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "flgI"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415598.3"; locus_tag "ECDH10B_RS05945"; product "flagellar basal body P-ring protein FlgI"; protein_id "WP_000589326.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1190942 1190944 . + 0 gene_id "ECDH10B_RS05945"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "flgI"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415598.3"; locus_tag "ECDH10B_RS05945"; product "flagellar basal body P-ring protein FlgI"; protein_id "WP_000589326.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1192037 1192039 . + 0 gene_id "ECDH10B_RS05945"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "flgI"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415598.3"; locus_tag "ECDH10B_RS05945"; product "flagellar basal body P-ring protein FlgI"; protein_id "WP_000589326.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1192039 1192980 . + . gene_id "ECDH10B_RS05950"; transcript_id ""; gbkey "Gene"; gene "flgJ"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05950"; old_locus_tag "ECDH10B_1152"; -NC_010473.1 Protein Homology CDS 1192039 1192977 . + 0 gene_id "ECDH10B_RS05950"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "flgJ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415599.1"; locus_tag "ECDH10B_RS05950"; product "flagellar assembly peptidoglycan hydrolase FlgJ"; protein_id "WP_001295441.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1192039 1192041 . + 0 gene_id "ECDH10B_RS05950"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "flgJ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415599.1"; locus_tag "ECDH10B_RS05950"; product "flagellar assembly peptidoglycan hydrolase FlgJ"; protein_id "WP_001295441.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1192978 1192980 . + 0 gene_id "ECDH10B_RS05950"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "flgJ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415599.1"; locus_tag "ECDH10B_RS05950"; product "flagellar assembly peptidoglycan hydrolase FlgJ"; protein_id "WP_001295441.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1193046 1194689 . + . gene_id "ECDH10B_RS05955"; transcript_id ""; gbkey "Gene"; gene "flgK"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05955"; old_locus_tag "ECDH10B_1153"; -NC_010473.1 Protein Homology CDS 1193046 1194686 . + 0 gene_id "ECDH10B_RS05955"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "flgK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415600.1"; locus_tag "ECDH10B_RS05955"; product "flagellar hook-associated protein FlgK"; protein_id "WP_000096479.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1193046 1193048 . + 0 gene_id "ECDH10B_RS05955"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "flgK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415600.1"; locus_tag "ECDH10B_RS05955"; product "flagellar hook-associated protein FlgK"; protein_id "WP_000096479.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1194687 1194689 . + 0 gene_id "ECDH10B_RS05955"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "flgK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415600.1"; locus_tag "ECDH10B_RS05955"; product "flagellar hook-associated protein FlgK"; protein_id "WP_000096479.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1194701 1195654 . + . gene_id "ECDH10B_RS05960"; transcript_id ""; gbkey "Gene"; gene "flgL"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05960"; old_locus_tag "ECDH10B_1154"; -NC_010473.1 Protein Homology CDS 1194701 1195651 . + 0 gene_id "ECDH10B_RS05960"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "flgL"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415601.1"; locus_tag "ECDH10B_RS05960"; product "flagellar hook-associated protein FlgL"; protein_id "WP_001212782.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1194701 1194703 . + 0 gene_id "ECDH10B_RS05960"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "flgL"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415601.1"; locus_tag "ECDH10B_RS05960"; product "flagellar hook-associated protein FlgL"; protein_id "WP_001212782.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1195652 1195654 . + 0 gene_id "ECDH10B_RS05960"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "flgL"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415601.1"; locus_tag "ECDH10B_RS05960"; product "flagellar hook-associated protein FlgL"; protein_id "WP_001212782.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1195850 1199035 . - . gene_id "ECDH10B_RS05965"; transcript_id ""; gbkey "Gene"; gene "rne"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05965"; old_locus_tag "ECDH10B_1155"; -NC_010473.1 Protein Homology CDS 1195853 1199035 . - 0 gene_id "ECDH10B_RS05965"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rne"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415602.1"; locus_tag "ECDH10B_RS05965"; product "ribonuclease E"; protein_id "WP_000827360.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1199033 1199035 . - 0 gene_id "ECDH10B_RS05965"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rne"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415602.1"; locus_tag "ECDH10B_RS05965"; product "ribonuclease E"; protein_id "WP_000827360.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1195850 1195852 . - 0 gene_id "ECDH10B_RS05965"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rne"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415602.1"; locus_tag "ECDH10B_RS05965"; product "ribonuclease E"; protein_id "WP_000827360.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1199608 1200567 . + . gene_id "ECDH10B_RS05975"; transcript_id ""; gbkey "Gene"; gene "rluC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05975"; old_locus_tag "ECDH10B_1157"; -NC_010473.1 Protein Homology CDS 1199608 1200564 . + 0 gene_id "ECDH10B_RS05975"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rluC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415604.1"; locus_tag "ECDH10B_RS05975"; product "23S rRNA pseudouridine(955/2504/2580) synthase RluC"; protein_id "WP_000846343.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1199608 1199610 . + 0 gene_id "ECDH10B_RS05975"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rluC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415604.1"; locus_tag "ECDH10B_RS05975"; product "23S rRNA pseudouridine(955/2504/2580) synthase RluC"; protein_id "WP_000846343.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1200565 1200567 . + 0 gene_id "ECDH10B_RS05975"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rluC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415604.1"; locus_tag "ECDH10B_RS05975"; product "23S rRNA pseudouridine(955/2504/2580) synthase RluC"; protein_id "WP_000846343.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1200679 1201263 . - . gene_id "ECDH10B_RS05980"; transcript_id ""; gbkey "Gene"; gene "yceF"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05980"; old_locus_tag "ECDH10B_1158"; -NC_010473.1 Protein Homology CDS 1200682 1201263 . - 0 gene_id "ECDH10B_RS05980"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yceF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415605.2"; locus_tag "ECDH10B_RS05980"; product "7-methyl-GTP pyrophosphatase"; protein_id "WP_001125202.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1201261 1201263 . - 0 gene_id "ECDH10B_RS05980"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yceF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415605.2"; locus_tag "ECDH10B_RS05980"; product "7-methyl-GTP pyrophosphatase"; protein_id "WP_001125202.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1200679 1200681 . - 0 gene_id "ECDH10B_RS05980"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yceF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415605.2"; locus_tag "ECDH10B_RS05980"; product "7-methyl-GTP pyrophosphatase"; protein_id "WP_001125202.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1201462 1201983 . + . gene_id "ECDH10B_RS05985"; transcript_id ""; gbkey "Gene"; gene "yceD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05985"; old_locus_tag "ECDH10B_1160"; -NC_010473.1 Protein Homology CDS 1201462 1201980 . + 0 gene_id "ECDH10B_RS05985"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yceD"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001174481.1"; locus_tag "ECDH10B_RS05985"; product "23S rRNA accumulation protein YceD"; protein_id "WP_001174481.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1201462 1201464 . + 0 gene_id "ECDH10B_RS05985"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yceD"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001174481.1"; locus_tag "ECDH10B_RS05985"; product "23S rRNA accumulation protein YceD"; protein_id "WP_001174481.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1201981 1201983 . + 0 gene_id "ECDH10B_RS05985"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yceD"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001174481.1"; locus_tag "ECDH10B_RS05985"; product "23S rRNA accumulation protein YceD"; protein_id "WP_001174481.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1202035 1202208 . + . gene_id "ECDH10B_RS05990"; transcript_id ""; gbkey "Gene"; gene "rpmF"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05990"; old_locus_tag "ECDH10B_1161"; -NC_010473.1 Protein Homology CDS 1202035 1202205 . + 0 gene_id "ECDH10B_RS05990"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rpmF"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005125993.1"; locus_tag "ECDH10B_RS05990"; product "50S ribosomal protein L32"; protein_id "WP_000290727.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1202035 1202037 . + 0 gene_id "ECDH10B_RS05990"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rpmF"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005125993.1"; locus_tag "ECDH10B_RS05990"; product "50S ribosomal protein L32"; protein_id "WP_000290727.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1202206 1202208 . + 0 gene_id "ECDH10B_RS05990"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rpmF"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005125993.1"; locus_tag "ECDH10B_RS05990"; product "50S ribosomal protein L32"; protein_id "WP_000290727.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1202289 1203359 . + . gene_id "ECDH10B_RS05995"; transcript_id ""; gbkey "Gene"; gene "plsX"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS05995"; old_locus_tag "ECDH10B_1162"; -NC_010473.1 Protein Homology CDS 1202289 1203356 . + 0 gene_id "ECDH10B_RS05995"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "plsX"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415608.2"; locus_tag "ECDH10B_RS05995"; product "phosphate acyltransferase PlsX"; protein_id "WP_000197597.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1202289 1202291 . + 0 gene_id "ECDH10B_RS05995"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "plsX"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415608.2"; locus_tag "ECDH10B_RS05995"; product "phosphate acyltransferase PlsX"; protein_id "WP_000197597.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1203357 1203359 . + 0 gene_id "ECDH10B_RS05995"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "plsX"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415608.2"; locus_tag "ECDH10B_RS05995"; product "phosphate acyltransferase PlsX"; protein_id "WP_000197597.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1203427 1204380 . + . gene_id "ECDH10B_RS06000"; transcript_id ""; gbkey "Gene"; gene "fabH"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06000"; old_locus_tag "ECDH10B_1163"; -NC_010473.1 Protein Homology CDS 1203427 1204377 . + 0 gene_id "ECDH10B_RS06000"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fabH"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005129019.1"; locus_tag "ECDH10B_RS06000"; product "beta-ketoacyl-ACP synthase III"; protein_id "WP_000288132.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1203427 1203429 . + 0 gene_id "ECDH10B_RS06000"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fabH"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005129019.1"; locus_tag "ECDH10B_RS06000"; product "beta-ketoacyl-ACP synthase III"; protein_id "WP_000288132.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1204378 1204380 . + 0 gene_id "ECDH10B_RS06000"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fabH"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005129019.1"; locus_tag "ECDH10B_RS06000"; product "beta-ketoacyl-ACP synthase III"; protein_id "WP_000288132.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1204396 1205325 . + . gene_id "ECDH10B_RS06005"; transcript_id ""; gbkey "Gene"; gene "fabD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06005"; old_locus_tag "ECDH10B_1164"; -NC_010473.1 Protein Homology CDS 1204396 1205322 . + 0 gene_id "ECDH10B_RS06005"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fabD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415610.1"; locus_tag "ECDH10B_RS06005"; product "ACP S-malonyltransferase"; protein_id "WP_000191372.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1204396 1204398 . + 0 gene_id "ECDH10B_RS06005"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fabD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415610.1"; locus_tag "ECDH10B_RS06005"; product "ACP S-malonyltransferase"; protein_id "WP_000191372.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1205323 1205325 . + 0 gene_id "ECDH10B_RS06005"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fabD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415610.1"; locus_tag "ECDH10B_RS06005"; product "ACP S-malonyltransferase"; protein_id "WP_000191372.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1205338 1206072 . + . gene_id "ECDH10B_RS06010"; transcript_id ""; gbkey "Gene"; gene "fabG"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06010"; old_locus_tag "ECDH10B_1165"; -NC_010473.1 Protein Homology CDS 1205338 1206069 . + 0 gene_id "ECDH10B_RS06010"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fabG"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005129017.1"; locus_tag "ECDH10B_RS06010"; product "3-oxoacyl-ACP reductase FabG"; protein_id "WP_001008535.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1205338 1205340 . + 0 gene_id "ECDH10B_RS06010"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fabG"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005129017.1"; locus_tag "ECDH10B_RS06010"; product "3-oxoacyl-ACP reductase FabG"; protein_id "WP_001008535.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1206070 1206072 . + 0 gene_id "ECDH10B_RS06010"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fabG"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005129017.1"; locus_tag "ECDH10B_RS06010"; product "3-oxoacyl-ACP reductase FabG"; protein_id "WP_001008535.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1206283 1206519 . + . gene_id "ECDH10B_RS06015"; transcript_id ""; gbkey "Gene"; gene "acpP"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06015"; old_locus_tag "ECDH10B_1166"; -NC_010473.1 Protein Homology CDS 1206283 1206516 . + 0 gene_id "ECDH10B_RS06015"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "acpP"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_016535861.1"; locus_tag "ECDH10B_RS06015"; product "acyl carrier protein"; protein_id "WP_000103754.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1206283 1206285 . + 0 gene_id "ECDH10B_RS06015"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "acpP"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_016535861.1"; locus_tag "ECDH10B_RS06015"; product "acyl carrier protein"; protein_id "WP_000103754.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1206517 1206519 . + 0 gene_id "ECDH10B_RS06015"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "acpP"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_016535861.1"; locus_tag "ECDH10B_RS06015"; product "acyl carrier protein"; protein_id "WP_000103754.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1206607 1207848 . + . gene_id "ECDH10B_RS06020"; transcript_id ""; gbkey "Gene"; gene "fabF"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06020"; old_locus_tag "ECDH10B_1167"; -NC_010473.1 Protein Homology CDS 1206607 1207845 . + 0 gene_id "ECDH10B_RS06020"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fabF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309500.1"; locus_tag "ECDH10B_RS06020"; product "beta-ketoacyl-ACP synthase II"; protein_id "WP_000044679.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1206607 1206609 . + 0 gene_id "ECDH10B_RS06020"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fabF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309500.1"; locus_tag "ECDH10B_RS06020"; product "beta-ketoacyl-ACP synthase II"; protein_id "WP_000044679.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1207846 1207848 . + 0 gene_id "ECDH10B_RS06020"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fabF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309500.1"; locus_tag "ECDH10B_RS06020"; product "beta-ketoacyl-ACP synthase II"; protein_id "WP_000044679.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1207968 1208777 . + . gene_id "ECDH10B_RS06025"; transcript_id ""; gbkey "Gene"; gene "pabC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06025"; old_locus_tag "ECDH10B_1168"; -NC_010473.1 Protein Homology CDS 1207968 1208774 . + 0 gene_id "ECDH10B_RS06025"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pabC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415614.1"; locus_tag "ECDH10B_RS06025"; product "aminodeoxychorismate lyase"; protein_id "WP_000478681.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1207968 1207970 . + 0 gene_id "ECDH10B_RS06025"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pabC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415614.1"; locus_tag "ECDH10B_RS06025"; product "aminodeoxychorismate lyase"; protein_id "WP_000478681.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1208775 1208777 . + 0 gene_id "ECDH10B_RS06025"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pabC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415614.1"; locus_tag "ECDH10B_RS06025"; product "aminodeoxychorismate lyase"; protein_id "WP_000478681.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1208780 1209802 . + . gene_id "ECDH10B_RS06030"; transcript_id ""; gbkey "Gene"; gene "yceG"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06030"; old_locus_tag "ECDH10B_1169"; -NC_010473.1 Protein Homology CDS 1208780 1209799 . + 0 gene_id "ECDH10B_RS06030"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yceG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415615.1"; locus_tag "ECDH10B_RS06030"; product "cell division protein YceG"; protein_id "WP_000756827.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1208780 1208782 . + 0 gene_id "ECDH10B_RS06030"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yceG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415615.1"; locus_tag "ECDH10B_RS06030"; product "cell division protein YceG"; protein_id "WP_000756827.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1209800 1209802 . + 0 gene_id "ECDH10B_RS06030"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yceG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415615.1"; locus_tag "ECDH10B_RS06030"; product "cell division protein YceG"; protein_id "WP_000756827.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1209792 1210433 . + . gene_id "ECDH10B_RS06035"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06035"; old_locus_tag "ECDH10B_1170"; -NC_010473.1 Protein Homology CDS 1209792 1210430 . + 0 gene_id "ECDH10B_RS06035"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415616.1"; locus_tag "ECDH10B_RS06035"; product "dTMP kinase"; protein_id "WP_001257000.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1209792 1209794 . + 0 gene_id "ECDH10B_RS06035"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415616.1"; locus_tag "ECDH10B_RS06035"; product "dTMP kinase"; protein_id "WP_001257000.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1210431 1210433 . + 0 gene_id "ECDH10B_RS06035"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415616.1"; locus_tag "ECDH10B_RS06035"; product "dTMP kinase"; protein_id "WP_001257000.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1210430 1211434 . + . gene_id "ECDH10B_RS06040"; transcript_id ""; gbkey "Gene"; gene "holB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06040"; old_locus_tag "ECDH10B_1171"; -NC_010473.1 Protein Homology CDS 1210430 1211431 . + 0 gene_id "ECDH10B_RS06040"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "holB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415617.1"; locus_tag "ECDH10B_RS06040"; product "DNA polymerase III subunit delta'"; protein_id "WP_001267956.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1210430 1210432 . + 0 gene_id "ECDH10B_RS06040"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "holB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415617.1"; locus_tag "ECDH10B_RS06040"; product "DNA polymerase III subunit delta'"; protein_id "WP_001267956.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1211432 1211434 . + 0 gene_id "ECDH10B_RS06040"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "holB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415617.1"; locus_tag "ECDH10B_RS06040"; product "DNA polymerase III subunit delta'"; protein_id "WP_001267956.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1211445 1212242 . + . gene_id "ECDH10B_RS06045"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06045"; old_locus_tag "ECDH10B_1172"; -NC_010473.1 Protein Homology CDS 1211445 1212239 . + 0 gene_id "ECDH10B_RS06045"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309505.1"; locus_tag "ECDH10B_RS06045"; product "metal-dependent hydrolase"; protein_id "WP_000480245.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1211445 1211447 . + 0 gene_id "ECDH10B_RS06045"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309505.1"; locus_tag "ECDH10B_RS06045"; product "metal-dependent hydrolase"; protein_id "WP_000480245.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1212240 1212242 . + 0 gene_id "ECDH10B_RS06045"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309505.1"; locus_tag "ECDH10B_RS06045"; product "metal-dependent hydrolase"; protein_id "WP_000480245.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1212537 1213970 . + . gene_id "ECDH10B_RS06050"; transcript_id ""; gbkey "Gene"; gene "ptsG"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06050"; old_locus_tag "ECDH10B_1173"; -NC_010473.1 Protein Homology CDS 1212537 1213967 . + 0 gene_id "ECDH10B_RS06050"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ptsG"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000475716.1"; locus_tag "ECDH10B_RS06050"; product "PTS glucose transporter subunit IIBC"; protein_id "WP_000475719.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1212537 1212539 . + 0 gene_id "ECDH10B_RS06050"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ptsG"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000475716.1"; locus_tag "ECDH10B_RS06050"; product "PTS glucose transporter subunit IIBC"; protein_id "WP_000475719.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1213968 1213970 . + 0 gene_id "ECDH10B_RS06050"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ptsG"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000475716.1"; locus_tag "ECDH10B_RS06050"; product "PTS glucose transporter subunit IIBC"; protein_id "WP_000475719.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1214030 1216219 . - . gene_id "ECDH10B_RS06055"; transcript_id ""; gbkey "Gene"; gene "fhuE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06055"; old_locus_tag "ECDH10B_1174"; -NC_010473.1 Protein Homology CDS 1214033 1216219 . - 0 gene_id "ECDH10B_RS06055"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fhuE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415620.1"; locus_tag "ECDH10B_RS06055"; product "ferric-rhodotorulic acid/ferric-coprogen receptor FhuE"; protein_id "WP_000953441.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1216217 1216219 . - 0 gene_id "ECDH10B_RS06055"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fhuE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415620.1"; locus_tag "ECDH10B_RS06055"; product "ferric-rhodotorulic acid/ferric-coprogen receptor FhuE"; protein_id "WP_000953441.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1214030 1214032 . - 0 gene_id "ECDH10B_RS06055"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fhuE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415620.1"; locus_tag "ECDH10B_RS06055"; product "ferric-rhodotorulic acid/ferric-coprogen receptor FhuE"; protein_id "WP_000953441.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1216553 1216912 . + . gene_id "ECDH10B_RS06060"; transcript_id ""; gbkey "Gene"; gene "hinT"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06060"; old_locus_tag "ECDH10B_1175"; -NC_010473.1 Protein Homology CDS 1216553 1216909 . + 0 gene_id "ECDH10B_RS06060"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hinT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415621.3"; locus_tag "ECDH10B_RS06060"; product "purine nucleoside phosphoramidase"; protein_id "WP_000807125.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1216553 1216555 . + 0 gene_id "ECDH10B_RS06060"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hinT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415621.3"; locus_tag "ECDH10B_RS06060"; product "purine nucleoside phosphoramidase"; protein_id "WP_000807125.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1216910 1216912 . + 0 gene_id "ECDH10B_RS06060"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hinT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415621.3"; locus_tag "ECDH10B_RS06060"; product "purine nucleoside phosphoramidase"; protein_id "WP_000807125.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1216915 1217292 . + . gene_id "ECDH10B_RS06065"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06065"; old_locus_tag "ECDH10B_1176"; -NC_010473.1 Protein Homology CDS 1216915 1217289 . + 0 gene_id "ECDH10B_RS06065"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415622.1"; locus_tag "ECDH10B_RS06065"; product "YcfL family protein"; protein_id "WP_001225295.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1216915 1216917 . + 0 gene_id "ECDH10B_RS06065"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415622.1"; locus_tag "ECDH10B_RS06065"; product "YcfL family protein"; protein_id "WP_001225295.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1217290 1217292 . + 0 gene_id "ECDH10B_RS06065"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415622.1"; locus_tag "ECDH10B_RS06065"; product "YcfL family protein"; protein_id "WP_001225295.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1217306 1217947 . + . gene_id "ECDH10B_RS06070"; transcript_id ""; gbkey "Gene"; gene "lpoB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06070"; old_locus_tag "ECDH10B_1177"; -NC_010473.1 Protein Homology CDS 1217306 1217944 . + 0 gene_id "ECDH10B_RS06070"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lpoB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309510.1"; locus_tag "ECDH10B_RS06070"; product "penicillin-binding protein activator LpoB"; protein_id "WP_000164439.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1217306 1217308 . + 0 gene_id "ECDH10B_RS06070"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lpoB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309510.1"; locus_tag "ECDH10B_RS06070"; product "penicillin-binding protein activator LpoB"; protein_id "WP_000164439.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1217945 1217947 . + 0 gene_id "ECDH10B_RS06070"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lpoB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309510.1"; locus_tag "ECDH10B_RS06070"; product "penicillin-binding protein activator LpoB"; protein_id "WP_000164439.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1217928 1218752 . + . gene_id "ECDH10B_RS06075"; transcript_id ""; gbkey "Gene"; gene "thiK"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06075"; old_locus_tag "ECDH10B_1178"; -NC_010473.1 Protein Homology CDS 1217928 1218749 . + 0 gene_id "ECDH10B_RS06075"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "thiK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415624.1"; locus_tag "ECDH10B_RS06075"; product "thiamine kinase"; protein_id "WP_001116592.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1217928 1217930 . + 0 gene_id "ECDH10B_RS06075"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "thiK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415624.1"; locus_tag "ECDH10B_RS06075"; product "thiamine kinase"; protein_id "WP_001116592.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1218750 1218752 . + 0 gene_id "ECDH10B_RS06075"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "thiK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415624.1"; locus_tag "ECDH10B_RS06075"; product "thiamine kinase"; protein_id "WP_001116592.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1218763 1219788 . + . gene_id "ECDH10B_RS06080"; transcript_id ""; gbkey "Gene"; gene "nagZ"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06080"; old_locus_tag "ECDH10B_1179"; -NC_010473.1 Protein Homology CDS 1218763 1219785 . + 0 gene_id "ECDH10B_RS06080"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nagZ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415625.1"; locus_tag "ECDH10B_RS06080"; product "beta-N-acetylhexosaminidase"; protein_id "WP_000529320.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1218763 1218765 . + 0 gene_id "ECDH10B_RS06080"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nagZ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415625.1"; locus_tag "ECDH10B_RS06080"; product "beta-N-acetylhexosaminidase"; protein_id "WP_000529320.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1219786 1219788 . + 0 gene_id "ECDH10B_RS06080"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nagZ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415625.1"; locus_tag "ECDH10B_RS06080"; product "beta-N-acetylhexosaminidase"; protein_id "WP_000529320.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1219811 1220353 . + . gene_id "ECDH10B_RS06085"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06085"; old_locus_tag "ECDH10B_1180"; -NC_010473.1 Protein Homology CDS 1219811 1220350 . + 0 gene_id "ECDH10B_RS06085"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005126033.1"; locus_tag "ECDH10B_RS06085"; product "alpha/beta hydrolase"; protein_id "WP_000587933.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1219811 1219813 . + 0 gene_id "ECDH10B_RS06085"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005126033.1"; locus_tag "ECDH10B_RS06085"; product "alpha/beta hydrolase"; protein_id "WP_000587933.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1220351 1220353 . + 0 gene_id "ECDH10B_RS06085"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005126033.1"; locus_tag "ECDH10B_RS06085"; product "alpha/beta hydrolase"; protein_id "WP_000587933.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1220753 1222057 . + . gene_id "ECDH10B_RS06090"; transcript_id ""; gbkey "Gene"; gene "ndh"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06090"; old_locus_tag "ECDH10B_1181"; -NC_010473.1 Protein Homology CDS 1220753 1222054 . + 0 gene_id "ECDH10B_RS06090"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ndh"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_017384716.1"; locus_tag "ECDH10B_RS06090"; product "NADH-quinone dehydrogenase"; protein_id "WP_000211045.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1220753 1220755 . + 0 gene_id "ECDH10B_RS06090"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ndh"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_017384716.1"; locus_tag "ECDH10B_RS06090"; product "NADH-quinone dehydrogenase"; protein_id "WP_000211045.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1222055 1222057 . + 0 gene_id "ECDH10B_RS06090"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ndh"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_017384716.1"; locus_tag "ECDH10B_RS06090"; product "NADH-quinone dehydrogenase"; protein_id "WP_000211045.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1222267 1222806 . + . gene_id "ECDH10B_RS06095"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06095"; old_locus_tag "ECDH10B_1182"; -NC_010473.1 Protein Homology CDS 1222267 1222803 . + 0 gene_id "ECDH10B_RS06095"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415628.1"; locus_tag "ECDH10B_RS06095"; product "glycine zipper 2TM domain-containing protein"; protein_id "WP_001043459.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1222267 1222269 . + 0 gene_id "ECDH10B_RS06095"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415628.1"; locus_tag "ECDH10B_RS06095"; product "glycine zipper 2TM domain-containing protein"; protein_id "WP_001043459.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1222804 1222806 . + 0 gene_id "ECDH10B_RS06095"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415628.1"; locus_tag "ECDH10B_RS06095"; product "glycine zipper 2TM domain-containing protein"; protein_id "WP_001043459.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1222868 1223500 . - . gene_id "ECDH10B_RS06100"; transcript_id ""; gbkey "Gene"; gene "comR"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06100"; old_locus_tag "ECDH10B_1183"; -NC_010473.1 Protein Homology CDS 1222871 1223500 . - 0 gene_id "ECDH10B_RS06100"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "comR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415629.4"; locus_tag "ECDH10B_RS06100"; product "TetR family copper-responsive transcriptional repressor ComR"; protein_id "WP_001336528.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1223498 1223500 . - 0 gene_id "ECDH10B_RS06100"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "comR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415629.4"; locus_tag "ECDH10B_RS06100"; product "TetR family copper-responsive transcriptional repressor ComR"; protein_id "WP_001336528.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1222868 1222870 . - 0 gene_id "ECDH10B_RS06100"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "comR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415629.4"; locus_tag "ECDH10B_RS06100"; product "TetR family copper-responsive transcriptional repressor ComR"; protein_id "WP_001336528.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1223741 1223998 . + . gene_id "ECDH10B_RS06105"; transcript_id ""; gbkey "Gene"; gene "bhsA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06105"; old_locus_tag "ECDH10B_1184"; -NC_010473.1 Protein Homology CDS 1223741 1223995 . + 0 gene_id "ECDH10B_RS06105"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "bhsA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309517.1"; locus_tag "ECDH10B_RS06105"; product "multiple stress resistance protein BhsA"; protein_id "WP_000800153.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1223741 1223743 . + 0 gene_id "ECDH10B_RS06105"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "bhsA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309517.1"; locus_tag "ECDH10B_RS06105"; product "multiple stress resistance protein BhsA"; protein_id "WP_000800153.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1223996 1223998 . + 0 gene_id "ECDH10B_RS06105"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "bhsA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309517.1"; locus_tag "ECDH10B_RS06105"; product "multiple stress resistance protein BhsA"; protein_id "WP_000800153.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1224080 1225042 . - . gene_id "ECDH10B_RS06110"; transcript_id ""; gbkey "Gene"; gene "ldtC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06110"; old_locus_tag "ECDH10B_1185"; -NC_010473.1 Protein Homology CDS 1224083 1225042 . - 0 gene_id "ECDH10B_RS06110"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ldtC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415631.1"; locus_tag "ECDH10B_RS06110"; product "L,D-transpeptidase LdtC"; protein_id "WP_001300895.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1225040 1225042 . - 0 gene_id "ECDH10B_RS06110"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ldtC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415631.1"; locus_tag "ECDH10B_RS06110"; product "L,D-transpeptidase LdtC"; protein_id "WP_001300895.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1224080 1224082 . - 0 gene_id "ECDH10B_RS06110"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ldtC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415631.1"; locus_tag "ECDH10B_RS06110"; product "L,D-transpeptidase LdtC"; protein_id "WP_001300895.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1225186 1228632 . - . gene_id "ECDH10B_RS06115"; transcript_id ""; gbkey "Gene"; gene "mfd"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06115"; old_locus_tag "ECDH10B_1186"; -NC_010473.1 Protein Homology CDS 1225189 1228632 . - 0 gene_id "ECDH10B_RS06115"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mfd"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415632.1"; locus_tag "ECDH10B_RS06115"; product "transcription-repair coupling factor"; protein_id "WP_001115094.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1228630 1228632 . - 0 gene_id "ECDH10B_RS06115"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mfd"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415632.1"; locus_tag "ECDH10B_RS06115"; product "transcription-repair coupling factor"; protein_id "WP_001115094.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1225186 1225188 . - 0 gene_id "ECDH10B_RS06115"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mfd"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415632.1"; locus_tag "ECDH10B_RS06115"; product "transcription-repair coupling factor"; protein_id "WP_001115094.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1228760 1229833 . - . gene_id "ECDH10B_RS06120"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06120"; old_locus_tag "ECDH10B_1187"; -NC_010473.1 Protein Homology CDS 1228763 1229833 . - 0 gene_id "ECDH10B_RS06120"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415633.1"; locus_tag "ECDH10B_RS06120"; product "acyltransferase family protein"; protein_id "WP_000810253.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1229831 1229833 . - 0 gene_id "ECDH10B_RS06120"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415633.1"; locus_tag "ECDH10B_RS06120"; product "acyltransferase family protein"; protein_id "WP_000810253.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1228760 1228762 . - 0 gene_id "ECDH10B_RS06120"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415633.1"; locus_tag "ECDH10B_RS06120"; product "acyltransferase family protein"; protein_id "WP_000810253.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1230095 1231294 . + . gene_id "ECDH10B_RS06125"; transcript_id ""; gbkey "Gene"; gene "lolC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06125"; old_locus_tag "ECDH10B_1188"; -NC_010473.1 Protein Homology CDS 1230095 1231291 . + 0 gene_id "ECDH10B_RS06125"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lolC"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_004976588.1"; locus_tag "ECDH10B_RS06125"; product "lipoprotein-releasing ABC transporter permease subunit LolC"; protein_id "WP_000284714.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1230095 1230097 . + 0 gene_id "ECDH10B_RS06125"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lolC"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_004976588.1"; locus_tag "ECDH10B_RS06125"; product "lipoprotein-releasing ABC transporter permease subunit LolC"; protein_id "WP_000284714.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1231292 1231294 . + 0 gene_id "ECDH10B_RS06125"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lolC"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_004976588.1"; locus_tag "ECDH10B_RS06125"; product "lipoprotein-releasing ABC transporter permease subunit LolC"; protein_id "WP_000284714.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1231287 1231988 . + . gene_id "ECDH10B_RS06130"; transcript_id ""; gbkey "Gene"; gene "lolD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06130"; old_locus_tag "ECDH10B_1189"; -NC_010473.1 Protein Homology CDS 1231287 1231985 . + 0 gene_id "ECDH10B_RS06130"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lolD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415635.4"; locus_tag "ECDH10B_RS06130"; product "lipoprotein-releasing ABC transporter ATP-binding protein LolD"; protein_id "WP_001033694.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1231287 1231289 . + 0 gene_id "ECDH10B_RS06130"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lolD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415635.4"; locus_tag "ECDH10B_RS06130"; product "lipoprotein-releasing ABC transporter ATP-binding protein LolD"; protein_id "WP_001033694.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1231986 1231988 . + 0 gene_id "ECDH10B_RS06130"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lolD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415635.4"; locus_tag "ECDH10B_RS06130"; product "lipoprotein-releasing ABC transporter ATP-binding protein LolD"; protein_id "WP_001033694.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1231988 1233232 . + . gene_id "ECDH10B_RS06135"; transcript_id ""; gbkey "Gene"; gene "lolE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06135"; old_locus_tag "ECDH10B_1190"; -NC_010473.1 Protein Homology CDS 1231988 1233229 . + 0 gene_id "ECDH10B_RS06135"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lolE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415636.1"; locus_tag "ECDH10B_RS06135"; product "lipoprotein-releasing ABC transporter permease subunit LolE"; protein_id "WP_001251348.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1231988 1231990 . + 0 gene_id "ECDH10B_RS06135"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lolE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415636.1"; locus_tag "ECDH10B_RS06135"; product "lipoprotein-releasing ABC transporter permease subunit LolE"; protein_id "WP_001251348.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1233230 1233232 . + 0 gene_id "ECDH10B_RS06135"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lolE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415636.1"; locus_tag "ECDH10B_RS06135"; product "lipoprotein-releasing ABC transporter permease subunit LolE"; protein_id "WP_001251348.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1233261 1234172 . + . gene_id "ECDH10B_RS06140"; transcript_id ""; gbkey "Gene"; gene "nagK"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06140"; old_locus_tag "ECDH10B_1191"; -NC_010473.1 Protein Homology CDS 1233261 1234169 . + 0 gene_id "ECDH10B_RS06140"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nagK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415637.1"; locus_tag "ECDH10B_RS06140"; product "N-acetylglucosamine kinase"; protein_id "WP_000291270.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1233261 1233263 . + 0 gene_id "ECDH10B_RS06140"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nagK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415637.1"; locus_tag "ECDH10B_RS06140"; product "N-acetylglucosamine kinase"; protein_id "WP_000291270.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1234170 1234172 . + 0 gene_id "ECDH10B_RS06140"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nagK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415637.1"; locus_tag "ECDH10B_RS06140"; product "N-acetylglucosamine kinase"; protein_id "WP_000291270.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1234188 1235027 . + . gene_id "ECDH10B_RS06145"; transcript_id ""; gbkey "Gene"; gene "cobB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06145"; old_locus_tag "ECDH10B_1192"; -NC_010473.1 Protein Homology CDS 1234188 1235024 . + 0 gene_id "ECDH10B_RS06145"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cobB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415638.3"; locus_tag "ECDH10B_RS06145"; product "NAD-dependent protein deacylase"; protein_id "WP_000952737.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1234188 1234190 . + 0 gene_id "ECDH10B_RS06145"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cobB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415638.3"; locus_tag "ECDH10B_RS06145"; product "NAD-dependent protein deacylase"; protein_id "WP_000952737.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1235025 1235027 . + 0 gene_id "ECDH10B_RS06145"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cobB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415638.3"; locus_tag "ECDH10B_RS06145"; product "NAD-dependent protein deacylase"; protein_id "WP_000952737.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1235147 1235935 . - . gene_id "ECDH10B_RS06150"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06150"; old_locus_tag "ECDH10B_1193"; -NC_010473.1 Protein Homology CDS 1235150 1235935 . - 0 gene_id "ECDH10B_RS06150"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415639.1"; locus_tag "ECDH10B_RS06150"; product "TPM domain-containing protein"; protein_id "WP_000713462.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1235933 1235935 . - 0 gene_id "ECDH10B_RS06150"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415639.1"; locus_tag "ECDH10B_RS06150"; product "TPM domain-containing protein"; protein_id "WP_000713462.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1235147 1235149 . - 0 gene_id "ECDH10B_RS06150"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415639.1"; locus_tag "ECDH10B_RS06150"; product "TPM domain-containing protein"; protein_id "WP_000713462.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1235932 1236393 . - . gene_id "ECDH10B_RS06155"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06155"; old_locus_tag "ECDH10B_1194"; -NC_010473.1 Protein Homology CDS 1235935 1236393 . - 0 gene_id "ECDH10B_RS06155"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415640.2"; locus_tag "ECDH10B_RS06155"; product "DUF3592 domain-containing protein"; protein_id "WP_000076376.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1236391 1236393 . - 0 gene_id "ECDH10B_RS06155"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415640.2"; locus_tag "ECDH10B_RS06155"; product "DUF3592 domain-containing protein"; protein_id "WP_000076376.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1235932 1235934 . - 0 gene_id "ECDH10B_RS06155"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415640.2"; locus_tag "ECDH10B_RS06155"; product "DUF3592 domain-containing protein"; protein_id "WP_000076376.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1236451 1237497 . - . gene_id "ECDH10B_RS06160"; transcript_id ""; gbkey "Gene"; gene "potD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06160"; old_locus_tag "ECDH10B_1195"; -NC_010473.1 Protein Homology CDS 1236454 1237497 . - 0 gene_id "ECDH10B_RS06160"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "potD"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005121082.1"; locus_tag "ECDH10B_RS06160"; product "spermidine/putrescine ABC transporter substrate-binding protein PotD"; protein_id "WP_000759317.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1237495 1237497 . - 0 gene_id "ECDH10B_RS06160"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "potD"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005121082.1"; locus_tag "ECDH10B_RS06160"; product "spermidine/putrescine ABC transporter substrate-binding protein PotD"; protein_id "WP_000759317.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1236451 1236453 . - 0 gene_id "ECDH10B_RS06160"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "potD"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005121082.1"; locus_tag "ECDH10B_RS06160"; product "spermidine/putrescine ABC transporter substrate-binding protein PotD"; protein_id "WP_000759317.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1237494 1238288 . - . gene_id "ECDH10B_RS06165"; transcript_id ""; gbkey "Gene"; gene "potC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06165"; old_locus_tag "ECDH10B_1196"; -NC_010473.1 Protein Homology CDS 1237497 1238288 . - 0 gene_id "ECDH10B_RS06165"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "potC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309527.1"; locus_tag "ECDH10B_RS06165"; product "spermidine/putrescine ABC transporter permease PotC"; protein_id "WP_000580316.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1238286 1238288 . - 0 gene_id "ECDH10B_RS06165"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "potC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309527.1"; locus_tag "ECDH10B_RS06165"; product "spermidine/putrescine ABC transporter permease PotC"; protein_id "WP_000580316.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1237494 1237496 . - 0 gene_id "ECDH10B_RS06165"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "potC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309527.1"; locus_tag "ECDH10B_RS06165"; product "spermidine/putrescine ABC transporter permease PotC"; protein_id "WP_000580316.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1238285 1239142 . - . gene_id "ECDH10B_RS06170"; transcript_id ""; gbkey "Gene"; gene "potB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06170"; old_locus_tag "ECDH10B_1197"; -NC_010473.1 Protein Homology CDS 1238288 1239142 . - 0 gene_id "ECDH10B_RS06170"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "potB"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000799378.1"; locus_tag "ECDH10B_RS06170"; product "spermidine/putrescine ABC transporter permease PotB"; protein_id "WP_000799401.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1239140 1239142 . - 0 gene_id "ECDH10B_RS06170"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "potB"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000799378.1"; locus_tag "ECDH10B_RS06170"; product "spermidine/putrescine ABC transporter permease PotB"; protein_id "WP_000799401.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1238285 1238287 . - 0 gene_id "ECDH10B_RS06170"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "potB"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000799378.1"; locus_tag "ECDH10B_RS06170"; product "spermidine/putrescine ABC transporter permease PotB"; protein_id "WP_000799401.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1239126 1240262 . - . gene_id "ECDH10B_RS06175"; transcript_id ""; gbkey "Gene"; gene "potA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06175"; old_locus_tag "ECDH10B_1198"; -NC_010473.1 Protein Homology CDS 1239129 1240262 . - 0 gene_id "ECDH10B_RS06175"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "potA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309598.1"; locus_tag "ECDH10B_RS06175"; product "spermidine/putrescine ABC transporter ATP-binding protein PotA"; protein_id "WP_000531594.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1240260 1240262 . - 0 gene_id "ECDH10B_RS06175"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "potA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309598.1"; locus_tag "ECDH10B_RS06175"; product "spermidine/putrescine ABC transporter ATP-binding protein PotA"; protein_id "WP_000531594.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1239126 1239128 . - 0 gene_id "ECDH10B_RS06175"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "potA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309598.1"; locus_tag "ECDH10B_RS06175"; product "spermidine/putrescine ABC transporter ATP-binding protein PotA"; protein_id "WP_000531594.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1240512 1241738 . + . gene_id "ECDH10B_RS06185"; transcript_id ""; gbkey "Gene"; gene "pepT"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06185"; old_locus_tag "ECDH10B_1199"; -NC_010473.1 Protein Homology CDS 1240512 1241735 . + 0 gene_id "ECDH10B_RS06185"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pepT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415645.1"; locus_tag "ECDH10B_RS06185"; product "peptidase T"; protein_id "WP_000359434.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1240512 1240514 . + 0 gene_id "ECDH10B_RS06185"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pepT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415645.1"; locus_tag "ECDH10B_RS06185"; product "peptidase T"; protein_id "WP_000359434.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1241736 1241738 . + 0 gene_id "ECDH10B_RS06185"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pepT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415645.1"; locus_tag "ECDH10B_RS06185"; product "peptidase T"; protein_id "WP_000359434.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1241787 1242908 . - . gene_id "ECDH10B_RS06190"; transcript_id ""; gbkey "Gene"; gene "roxA"; gene_biotype "protein_coding"; gene_synonym "ycfD"; locus_tag "ECDH10B_RS06190"; old_locus_tag "ECDH10B_1200"; -NC_010473.1 Protein Homology CDS 1241790 1242908 . - 0 gene_id "ECDH10B_RS06190"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "roxA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415646.4"; locus_tag "ECDH10B_RS06190"; product "[50S ribosomal protein L16]-arginine 3-hydroxylase"; protein_id "WP_000456506.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1242906 1242908 . - 0 gene_id "ECDH10B_RS06190"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "roxA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415646.4"; locus_tag "ECDH10B_RS06190"; product "[50S ribosomal protein L16]-arginine 3-hydroxylase"; protein_id "WP_000456506.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1241787 1241789 . - 0 gene_id "ECDH10B_RS06190"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "roxA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415646.4"; locus_tag "ECDH10B_RS06190"; product "[50S ribosomal protein L16]-arginine 3-hydroxylase"; protein_id "WP_000456506.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1242984 1244444 . - . gene_id "ECDH10B_RS06195"; transcript_id ""; gbkey "Gene"; gene "phoQ"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06195"; old_locus_tag "ECDH10B_1201"; -NC_010473.1 Protein Homology CDS 1242987 1244444 . - 0 gene_id "ECDH10B_RS06195"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "phoQ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415647.1"; locus_tag "ECDH10B_RS06195"; product "two-component system sensor histidine kinase PhoQ"; protein_id "WP_000735412.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1244442 1244444 . - 0 gene_id "ECDH10B_RS06195"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "phoQ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415647.1"; locus_tag "ECDH10B_RS06195"; product "two-component system sensor histidine kinase PhoQ"; protein_id "WP_000735412.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1242984 1242986 . - 0 gene_id "ECDH10B_RS06195"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "phoQ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415647.1"; locus_tag "ECDH10B_RS06195"; product "two-component system sensor histidine kinase PhoQ"; protein_id "WP_000735412.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1244444 1245115 . - . gene_id "ECDH10B_RS06200"; transcript_id ""; gbkey "Gene"; gene "phoP"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06200"; old_locus_tag "ECDH10B_1202"; -NC_010473.1 Protein Homology CDS 1244447 1245115 . - 0 gene_id "ECDH10B_RS06200"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "phoP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415648.1"; locus_tag "ECDH10B_RS06200"; product "two-component system response regulator PhoP"; protein_id "WP_001265471.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1245113 1245115 . - 0 gene_id "ECDH10B_RS06200"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "phoP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415648.1"; locus_tag "ECDH10B_RS06200"; product "two-component system response regulator PhoP"; protein_id "WP_001265471.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1244444 1244446 . - 0 gene_id "ECDH10B_RS06200"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "phoP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415648.1"; locus_tag "ECDH10B_RS06200"; product "two-component system response regulator PhoP"; protein_id "WP_001265471.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1245284 1246654 . - . gene_id "ECDH10B_RS06205"; transcript_id ""; gbkey "Gene"; gene "purB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06205"; old_locus_tag "ECDH10B_1203"; -NC_010473.1 Protein Homology CDS 1245287 1246654 . - 0 gene_id "ECDH10B_RS06205"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "purB"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_002950897.1"; locus_tag "ECDH10B_RS06205"; product "adenylosuccinate lyase"; protein_id "WP_000423742.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1246652 1246654 . - 0 gene_id "ECDH10B_RS06205"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "purB"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_002950897.1"; locus_tag "ECDH10B_RS06205"; product "adenylosuccinate lyase"; protein_id "WP_000423742.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1245284 1245286 . - 0 gene_id "ECDH10B_RS06205"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "purB"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_002950897.1"; locus_tag "ECDH10B_RS06205"; product "adenylosuccinate lyase"; protein_id "WP_000423742.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1246658 1247299 . - . gene_id "ECDH10B_RS06210"; transcript_id ""; gbkey "Gene"; gene "hflD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06210"; old_locus_tag "ECDH10B_1204"; -NC_010473.1 Protein Homology CDS 1246661 1247299 . - 0 gene_id "ECDH10B_RS06210"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hflD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415650.1"; locus_tag "ECDH10B_RS06210"; product "high frequency lysogenization protein HflD"; protein_id "WP_001297479.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1247297 1247299 . - 0 gene_id "ECDH10B_RS06210"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hflD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415650.1"; locus_tag "ECDH10B_RS06210"; product "high frequency lysogenization protein HflD"; protein_id "WP_001297479.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1246658 1246660 . - 0 gene_id "ECDH10B_RS06210"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hflD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415650.1"; locus_tag "ECDH10B_RS06210"; product "high frequency lysogenization protein HflD"; protein_id "WP_001297479.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1247335 1248441 . - . gene_id "ECDH10B_RS06215"; transcript_id ""; gbkey "Gene"; gene "mnmA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06215"; old_locus_tag "ECDH10B_1205"; -NC_010473.1 Protein Homology CDS 1247338 1248441 . - 0 gene_id "ECDH10B_RS06215"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mnmA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415651.4"; locus_tag "ECDH10B_RS06215"; product "tRNA 2-thiouridine(34) synthase MnmA"; protein_id "WP_001297484.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1248439 1248441 . - 0 gene_id "ECDH10B_RS06215"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mnmA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415651.4"; locus_tag "ECDH10B_RS06215"; product "tRNA 2-thiouridine(34) synthase MnmA"; protein_id "WP_001297484.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1247335 1247337 . - 0 gene_id "ECDH10B_RS06215"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mnmA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415651.4"; locus_tag "ECDH10B_RS06215"; product "tRNA 2-thiouridine(34) synthase MnmA"; protein_id "WP_001297484.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1248495 1248956 . - . gene_id "ECDH10B_RS06220"; transcript_id ""; gbkey "Gene"; gene "nudJ"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06220"; old_locus_tag "ECDH10B_1206"; -NC_010473.1 Protein Homology CDS 1248498 1248956 . - 0 gene_id "ECDH10B_RS06220"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nudJ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309633.1"; locus_tag "ECDH10B_RS06220"; product "phosphatase NudJ"; protein_id "WP_000476093.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1248954 1248956 . - 0 gene_id "ECDH10B_RS06220"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nudJ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309633.1"; locus_tag "ECDH10B_RS06220"; product "phosphatase NudJ"; protein_id "WP_000476093.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1248495 1248497 . - 0 gene_id "ECDH10B_RS06220"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nudJ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309633.1"; locus_tag "ECDH10B_RS06220"; product "phosphatase NudJ"; protein_id "WP_000476093.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1248966 1249619 . - . gene_id "ECDH10B_RS06225"; transcript_id ""; gbkey "Gene"; gene "rluE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06225"; old_locus_tag "ECDH10B_1207"; -NC_010473.1 Protein Homology CDS 1248969 1249619 . - 0 gene_id "ECDH10B_RS06225"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rluE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415653.4"; locus_tag "ECDH10B_RS06225"; product "23S rRNA pseudouridine(2457) synthase RluE"; protein_id "WP_001248691.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1249617 1249619 . - 0 gene_id "ECDH10B_RS06225"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rluE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415653.4"; locus_tag "ECDH10B_RS06225"; product "23S rRNA pseudouridine(2457) synthase RluE"; protein_id "WP_001248691.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1248966 1248968 . - 0 gene_id "ECDH10B_RS06225"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rluE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415653.4"; locus_tag "ECDH10B_RS06225"; product "23S rRNA pseudouridine(2457) synthase RluE"; protein_id "WP_001248691.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1249791 1251041 . + . gene_id "ECDH10B_RS06230"; transcript_id ""; gbkey "Gene"; gene "icd"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06230"; old_locus_tag "ECDH10B_1208"; -NC_010473.1 Protein Homology CDS 1249791 1251038 . + 0 gene_id "ECDH10B_RS06230"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "icd"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000444467.1"; locus_tag "ECDH10B_RS06230"; product "NADP-dependent isocitrate dehydrogenase"; protein_id "WP_000444488.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1249791 1249793 . + 0 gene_id "ECDH10B_RS06230"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "icd"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000444467.1"; locus_tag "ECDH10B_RS06230"; product "NADP-dependent isocitrate dehydrogenase"; protein_id "WP_000444488.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1251039 1251041 . + 0 gene_id "ECDH10B_RS06230"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "icd"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000444467.1"; locus_tag "ECDH10B_RS06230"; product "NADP-dependent isocitrate dehydrogenase"; protein_id "WP_000444488.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1251144 1251467 . - . gene_id "ECDH10B_RS06235"; transcript_id ""; gbkey "Gene"; gene "iraM"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06235"; old_locus_tag "ECDH10B_1209"; -NC_010473.1 Protein Homology CDS 1251147 1251467 . - 0 gene_id "ECDH10B_RS06235"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "iraM"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415678.1"; locus_tag "ECDH10B_RS06235"; product "anti-adapter protein IraM"; protein_id "WP_001295666.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1251465 1251467 . - 0 gene_id "ECDH10B_RS06235"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "iraM"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415678.1"; locus_tag "ECDH10B_RS06235"; product "anti-adapter protein IraM"; protein_id "WP_001295666.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1251144 1251146 . - 0 gene_id "ECDH10B_RS06235"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "iraM"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415678.1"; locus_tag "ECDH10B_RS06235"; product "anti-adapter protein IraM"; protein_id "WP_001295666.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1251724 1251768 . - . gene_id "ECDH10B_RS26285"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS26285"; -NC_010473.1 Protein Homology CDS 1251727 1251768 . - 0 gene_id "ECDH10B_RS26285"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_009518766.1"; locus_tag "ECDH10B_RS26285"; product "protein YmgK"; protein_id "WP_120795380.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1251766 1251768 . - 0 gene_id "ECDH10B_RS26285"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_009518766.1"; locus_tag "ECDH10B_RS26285"; product "protein YmgK"; protein_id "WP_120795380.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1251724 1251726 . - 0 gene_id "ECDH10B_RS26285"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_009518766.1"; locus_tag "ECDH10B_RS26285"; product "protein YmgK"; protein_id "WP_120795380.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1252004 1252114 . - . gene_id "ECDH10B_RS25920"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS25920"; -NC_010473.1 Protein Homology CDS 1252007 1252114 . - 0 gene_id "ECDH10B_RS25920"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_009518767.1"; locus_tag "ECDH10B_RS25920"; product "hypothetical protein"; protein_id "WP_032082692.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1252112 1252114 . - 0 gene_id "ECDH10B_RS25920"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_009518767.1"; locus_tag "ECDH10B_RS25920"; product "hypothetical protein"; protein_id "WP_032082692.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1252004 1252006 . - 0 gene_id "ECDH10B_RS25920"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_009518767.1"; locus_tag "ECDH10B_RS25920"; product "hypothetical protein"; protein_id "WP_032082692.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1252167 1252571 . - . gene_id "ECDH10B_RS06245"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06245"; old_locus_tag "ECDH10B_1210"; -NC_010473.1 Protein Homology CDS 1252170 1252571 . - 0 gene_id "ECDH10B_RS06245"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415679.1"; locus_tag "ECDH10B_RS06245"; product "DUF1398 domain-containing protein"; protein_id "WP_000373101.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1252569 1252571 . - 0 gene_id "ECDH10B_RS06245"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415679.1"; locus_tag "ECDH10B_RS06245"; product "DUF1398 domain-containing protein"; protein_id "WP_000373101.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1252167 1252169 . - 0 gene_id "ECDH10B_RS06245"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415679.1"; locus_tag "ECDH10B_RS06245"; product "DUF1398 domain-containing protein"; protein_id "WP_000373101.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1252792 1253523 . - . gene_id "ECDH10B_RS06250"; transcript_id ""; gbkey "Gene"; gene "bluR"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06250"; old_locus_tag "ECDH10B_1211"; -NC_010473.1 Protein Homology CDS 1252795 1253523 . - 0 gene_id "ECDH10B_RS06250"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "bluR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415680.1"; locus_tag "ECDH10B_RS06250"; product "DNA-binding transcriptional repressor BluR"; protein_id "WP_000332303.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1253521 1253523 . - 0 gene_id "ECDH10B_RS06250"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "bluR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415680.1"; locus_tag "ECDH10B_RS06250"; product "DNA-binding transcriptional repressor BluR"; protein_id "WP_000332303.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1252792 1252794 . - 0 gene_id "ECDH10B_RS06250"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "bluR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415680.1"; locus_tag "ECDH10B_RS06250"; product "DNA-binding transcriptional repressor BluR"; protein_id "WP_000332303.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1253728 1254939 . - . gene_id "ECDH10B_RS06255"; transcript_id ""; gbkey "Gene"; gene "bluF"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06255"; old_locus_tag "ECDH10B_1212"; -NC_010473.1 Protein Homology CDS 1253731 1254939 . - 0 gene_id "ECDH10B_RS06255"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "bluF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415681.1"; locus_tag "ECDH10B_RS06255"; product "blue light-responsive regulator BluF"; protein_id "WP_001299269.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1254937 1254939 . - 0 gene_id "ECDH10B_RS06255"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "bluF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415681.1"; locus_tag "ECDH10B_RS06255"; product "blue light-responsive regulator BluF"; protein_id "WP_001299269.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1253728 1253730 . - 0 gene_id "ECDH10B_RS06255"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "bluF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415681.1"; locus_tag "ECDH10B_RS06255"; product "blue light-responsive regulator BluF"; protein_id "WP_001299269.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1255253 1255489 . + . gene_id "ECDH10B_RS06260"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06260"; old_locus_tag "ECDH10B_1213"; -NC_010473.1 Protein Homology CDS 1255253 1255486 . + 0 gene_id "ECDH10B_RS06260"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415682.1"; locus_tag "ECDH10B_RS06260"; product "two-component-system connector protein YcgZ"; protein_id "WP_000554140.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1255253 1255255 . + 0 gene_id "ECDH10B_RS06260"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415682.1"; locus_tag "ECDH10B_RS06260"; product "two-component-system connector protein YcgZ"; protein_id "WP_000554140.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1255487 1255489 . + 0 gene_id "ECDH10B_RS06260"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415682.1"; locus_tag "ECDH10B_RS06260"; product "two-component-system connector protein YcgZ"; protein_id "WP_000554140.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1255532 1255804 . + . gene_id "ECDH10B_RS06265"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06265"; old_locus_tag "ECDH10B_1214"; -NC_010473.1 Protein Homology CDS 1255532 1255801 . + 0 gene_id "ECDH10B_RS06265"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415683.1"; locus_tag "ECDH10B_RS06265"; product "two-component-system connector protein YmgA"; protein_id "WP_000858002.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1255532 1255534 . + 0 gene_id "ECDH10B_RS06265"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415683.1"; locus_tag "ECDH10B_RS06265"; product "two-component-system connector protein YmgA"; protein_id "WP_000858002.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1255802 1255804 . + 0 gene_id "ECDH10B_RS06265"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415683.1"; locus_tag "ECDH10B_RS06265"; product "two-component-system connector protein YmgA"; protein_id "WP_000858002.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1255833 1256099 . + . gene_id "ECDH10B_RS06270"; transcript_id ""; gbkey "Gene"; gene "ariR"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06270"; old_locus_tag "ECDH10B_1215"; -NC_010473.1 Protein Homology CDS 1255833 1256096 . + 0 gene_id "ECDH10B_RS06270"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ariR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415684.1"; locus_tag "ECDH10B_RS06270"; product "biofilm/acid-resistance regulator AriR"; protein_id "WP_000888772.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1255833 1255835 . + 0 gene_id "ECDH10B_RS06270"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ariR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415684.1"; locus_tag "ECDH10B_RS06270"; product "biofilm/acid-resistance regulator AriR"; protein_id "WP_000888772.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1256097 1256099 . + 0 gene_id "ECDH10B_RS06270"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ariR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415684.1"; locus_tag "ECDH10B_RS06270"; product "biofilm/acid-resistance regulator AriR"; protein_id "WP_000888772.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1256212 1256460 . + . gene_id "ECDH10B_RS06275"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06275"; old_locus_tag "ECDH10B_1216"; -NC_010473.1 Protein Homology CDS 1256212 1256457 . + 0 gene_id "ECDH10B_RS06275"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415685.1"; locus_tag "ECDH10B_RS06275"; product "hypothetical protein"; protein_id "WP_001065752.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1256212 1256214 . + 0 gene_id "ECDH10B_RS06275"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415685.1"; locus_tag "ECDH10B_RS06275"; product "hypothetical protein"; protein_id "WP_001065752.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1256458 1256460 . + 0 gene_id "ECDH10B_RS06275"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415685.1"; locus_tag "ECDH10B_RS06275"; product "hypothetical protein"; protein_id "WP_001065752.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1256792 1258315 . + . gene_id "ECDH10B_RS06280"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06280"; old_locus_tag "ECDH10B_1217"; -NC_010473.1 Protein Homology CDS 1256792 1258312 . + 0 gene_id "ECDH10B_RS06280"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415686.2"; locus_tag "ECDH10B_RS06280"; product "cyclic diguanylate phosphodiesterase"; protein_id "WP_001246499.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1256792 1256794 . + 0 gene_id "ECDH10B_RS06280"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415686.2"; locus_tag "ECDH10B_RS06280"; product "cyclic diguanylate phosphodiesterase"; protein_id "WP_001246499.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1258313 1258315 . + 0 gene_id "ECDH10B_RS06280"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415686.2"; locus_tag "ECDH10B_RS06280"; product "cyclic diguanylate phosphodiesterase"; protein_id "WP_001246499.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1258447 1258665 . + . gene_id "ECDH10B_RS06285"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06285"; old_locus_tag "ECDH10B_1218"; -NC_010473.1 Protein Homology CDS 1258447 1258662 . + 0 gene_id "ECDH10B_RS06285"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_588447.1"; locus_tag "ECDH10B_RS06285"; product "hypothetical protein"; protein_id "WP_001065861.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1258447 1258449 . + 0 gene_id "ECDH10B_RS06285"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_588447.1"; locus_tag "ECDH10B_RS06285"; product "hypothetical protein"; protein_id "WP_001065861.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1258663 1258665 . + 0 gene_id "ECDH10B_RS06285"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_588447.1"; locus_tag "ECDH10B_RS06285"; product "hypothetical protein"; protein_id "WP_001065861.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1259065 1261712 . + . gene_id "ECDH10B_RS26290"; transcript_id ""; gbkey "Gene"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS26290"; old_locus_tag "ECDH10B_1220"; pseudo "true"; -NC_010473.1 Protein Homology CDS 1259065 1261709 . + 0 gene_id "ECDH10B_RS26290"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000768542.1"; locus_tag "ECDH10B_RS26290"; note "frameshifted; internal stop"; product "autotransporter outer membrane beta-barrel domain-containing protein"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1259065 1259067 . + 0 gene_id "ECDH10B_RS26290"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000768542.1"; locus_tag "ECDH10B_RS26290"; note "frameshifted; internal stop"; product "autotransporter outer membrane beta-barrel domain-containing protein"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1261710 1261712 . + 0 gene_id "ECDH10B_RS26290"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000768542.1"; locus_tag "ECDH10B_RS26290"; note "frameshifted; internal stop"; product "autotransporter outer membrane beta-barrel domain-containing protein"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 1261769 1262104 . - . gene_id "ECDH10B_RS06300"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06300"; old_locus_tag "ECDH10B_1222"; -NC_010473.1 Protein Homology CDS 1261772 1262104 . - 0 gene_id "ECDH10B_RS06300"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_707068.1"; locus_tag "ECDH10B_RS06300"; product "YmgD family protein"; protein_id "WP_000979977.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1262102 1262104 . - 0 gene_id "ECDH10B_RS06300"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_707068.1"; locus_tag "ECDH10B_RS06300"; product "YmgD family protein"; protein_id "WP_000979977.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1261769 1261771 . - 0 gene_id "ECDH10B_RS06300"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_707068.1"; locus_tag "ECDH10B_RS06300"; product "YmgD family protein"; protein_id "WP_000979977.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1262108 1262392 . - . gene_id "ECDH10B_RS06305"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06305"; old_locus_tag "ECDH10B_1223"; -NC_010473.1 Protein Homology CDS 1262111 1262392 . - 0 gene_id "ECDH10B_RS06305"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_707069.2"; locus_tag "ECDH10B_RS06305"; product "glycine zipper family protein"; protein_id "WP_001304448.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1262390 1262392 . - 0 gene_id "ECDH10B_RS06305"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_707069.2"; locus_tag "ECDH10B_RS06305"; product "glycine zipper family protein"; protein_id "WP_001304448.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1262108 1262110 . - 0 gene_id "ECDH10B_RS06305"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_707069.2"; locus_tag "ECDH10B_RS06305"; product "glycine zipper family protein"; protein_id "WP_001304448.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1262454 1262627 . - . gene_id "ECDH10B_RS06310"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06310"; old_locus_tag "ECDH10B_1224"; -NC_010473.1 Protein Homology CDS 1262457 1262627 . - 0 gene_id "ECDH10B_RS06310"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_001165314.1"; locus_tag "ECDH10B_RS06310"; product "hypothetical protein"; protein_id "WP_000122462.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1262625 1262627 . - 0 gene_id "ECDH10B_RS06310"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_001165314.1"; locus_tag "ECDH10B_RS06310"; product "hypothetical protein"; protein_id "WP_000122462.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1262454 1262456 . - 0 gene_id "ECDH10B_RS06310"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_001165314.1"; locus_tag "ECDH10B_RS06310"; product "hypothetical protein"; protein_id "WP_000122462.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1262728 1262913 . + . gene_id "ECDH10B_RS23960"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS23960"; old_locus_tag "ECDH10B_1225"; -NC_010473.1 Protein Homology CDS 1262728 1262910 . + 0 gene_id "ECDH10B_RS23960"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_001165315.1"; locus_tag "ECDH10B_RS23960"; product "hypothetical protein"; protein_id "WP_001325005.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1262728 1262730 . + 0 gene_id "ECDH10B_RS23960"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_001165315.1"; locus_tag "ECDH10B_RS23960"; product "hypothetical protein"; protein_id "WP_001325005.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1262911 1262913 . + 0 gene_id "ECDH10B_RS23960"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_001165315.1"; locus_tag "ECDH10B_RS23960"; product "hypothetical protein"; protein_id "WP_001325005.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1262874 1262993 . + . gene_id "ECDH10B_RS25925"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS25925"; -NC_010473.1 Protein Homology CDS 1262874 1262990 . + 0 gene_id "ECDH10B_RS25925"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001131457.1"; locus_tag "ECDH10B_RS25925"; product "hypothetical protein"; protein_id "WP_001131446.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1262874 1262876 . + 0 gene_id "ECDH10B_RS25925"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001131457.1"; locus_tag "ECDH10B_RS25925"; product "hypothetical protein"; protein_id "WP_001131446.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1262991 1262993 . + 0 gene_id "ECDH10B_RS25925"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001131457.1"; locus_tag "ECDH10B_RS25925"; product "hypothetical protein"; protein_id "WP_001131446.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1263028 1263371 . + . gene_id "ECDH10B_RS06315"; transcript_id ""; gbkey "Gene"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS06315"; old_locus_tag "ECDH10B_1226"; partial "true"; pseudo "true"; -NC_010473.1 Protein Homology CDS 1263028 1263368 . + 0 gene_id "ECDH10B_RS06315"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417134.2"; locus_tag "ECDH10B_RS06315"; note "frameshifted; incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "autotransporter outer membrane beta-barrel domain-containing protein"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1263028 1263030 . + 0 gene_id "ECDH10B_RS06315"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417134.2"; locus_tag "ECDH10B_RS06315"; note "frameshifted; incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "autotransporter outer membrane beta-barrel domain-containing protein"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1263369 1263371 . + 0 gene_id "ECDH10B_RS06315"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417134.2"; locus_tag "ECDH10B_RS06315"; note "frameshifted; incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "autotransporter outer membrane beta-barrel domain-containing protein"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 1263743 1264009 . - . gene_id "ECDH10B_RS06320"; transcript_id ""; gbkey "Gene"; gene "minE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06320"; old_locus_tag "ECDH10B_1227"; -NC_010473.1 Protein Homology CDS 1263746 1264009 . - 0 gene_id "ECDH10B_RS06320"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "minE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309695.1"; locus_tag "ECDH10B_RS06320"; product "cell division topological specificity factor MinE"; protein_id "WP_001185665.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1264007 1264009 . - 0 gene_id "ECDH10B_RS06320"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "minE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309695.1"; locus_tag "ECDH10B_RS06320"; product "cell division topological specificity factor MinE"; protein_id "WP_001185665.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1263743 1263745 . - 0 gene_id "ECDH10B_RS06320"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "minE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309695.1"; locus_tag "ECDH10B_RS06320"; product "cell division topological specificity factor MinE"; protein_id "WP_001185665.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1264013 1264825 . - . gene_id "ECDH10B_RS06325"; transcript_id ""; gbkey "Gene"; gene "minD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06325"; old_locus_tag "ECDH10B_1228"; -NC_010473.1 Protein Homology CDS 1264016 1264825 . - 0 gene_id "ECDH10B_RS06325"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "minD"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_020801817.1"; locus_tag "ECDH10B_RS06325"; product "septum site-determining protein MinD"; protein_id "WP_000101055.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1264823 1264825 . - 0 gene_id "ECDH10B_RS06325"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "minD"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_020801817.1"; locus_tag "ECDH10B_RS06325"; product "septum site-determining protein MinD"; protein_id "WP_000101055.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1264013 1264015 . - 0 gene_id "ECDH10B_RS06325"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "minD"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_020801817.1"; locus_tag "ECDH10B_RS06325"; product "septum site-determining protein MinD"; protein_id "WP_000101055.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1264849 1265544 . - . gene_id "ECDH10B_RS06330"; transcript_id ""; gbkey "Gene"; gene "minC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06330"; old_locus_tag "ECDH10B_1229"; -NC_010473.1 Protein Homology CDS 1264852 1265544 . - 0 gene_id "ECDH10B_RS06330"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "minC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415694.1"; locus_tag "ECDH10B_RS06330"; product "septum site-determining protein MinC"; protein_id "WP_001301105.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1265542 1265544 . - 0 gene_id "ECDH10B_RS06330"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "minC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415694.1"; locus_tag "ECDH10B_RS06330"; product "septum site-determining protein MinC"; protein_id "WP_001301105.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1264849 1264851 . - 0 gene_id "ECDH10B_RS06330"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "minC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415694.1"; locus_tag "ECDH10B_RS06330"; product "septum site-determining protein MinC"; protein_id "WP_001301105.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1266064 1266432 . + . gene_id "ECDH10B_RS06335"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06335"; old_locus_tag "ECDH10B_1230"; -NC_010473.1 Protein Homology CDS 1266064 1266429 . + 0 gene_id "ECDH10B_RS06335"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415695.1"; locus_tag "ECDH10B_RS06335"; product "YcgJ family protein"; protein_id "WP_001056840.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1266064 1266066 . + 0 gene_id "ECDH10B_RS06335"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415695.1"; locus_tag "ECDH10B_RS06335"; product "YcgJ family protein"; protein_id "WP_001056840.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1266430 1266432 . + 0 gene_id "ECDH10B_RS06335"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415695.1"; locus_tag "ECDH10B_RS06335"; product "YcgJ family protein"; protein_id "WP_001056840.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1266535 1266936 . - . gene_id "ECDH10B_RS06340"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06340"; old_locus_tag "ECDH10B_1231"; -NC_010473.1 Protein Homology CDS 1266538 1266936 . - 0 gene_id "ECDH10B_RS06340"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415696.1"; locus_tag "ECDH10B_RS06340"; product "inhibitor of g-type lysozyme"; protein_id "WP_000695215.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1266934 1266936 . - 0 gene_id "ECDH10B_RS06340"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415696.1"; locus_tag "ECDH10B_RS06340"; product "inhibitor of g-type lysozyme"; protein_id "WP_000695215.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1266535 1266537 . - 0 gene_id "ECDH10B_RS06340"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415696.1"; locus_tag "ECDH10B_RS06340"; product "inhibitor of g-type lysozyme"; protein_id "WP_000695215.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1267178 1267471 . + . gene_id "ECDH10B_RS06350"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06350"; old_locus_tag "ECDH10B_1232"; -NC_010473.1 Protein Homology CDS 1267178 1267468 . + 0 gene_id "ECDH10B_RS06350"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309701.2"; locus_tag "ECDH10B_RS06350"; product "YcgL domain-containing protein"; protein_id "WP_001295992.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1267178 1267180 . + 0 gene_id "ECDH10B_RS06350"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309701.2"; locus_tag "ECDH10B_RS06350"; product "YcgL domain-containing protein"; protein_id "WP_001295992.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1267469 1267471 . + 0 gene_id "ECDH10B_RS06350"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309701.2"; locus_tag "ECDH10B_RS06350"; product "YcgL domain-containing protein"; protein_id "WP_001295992.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1267543 1268202 . + . gene_id "ECDH10B_RS06355"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06355"; old_locus_tag "ECDH10B_1233"; -NC_010473.1 Protein Homology CDS 1267543 1268199 . + 0 gene_id "ECDH10B_RS06355"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415698.1"; locus_tag "ECDH10B_RS06355"; product "fumarylacetoacetate hydrolase family protein"; protein_id "WP_000284280.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1267543 1267545 . + 0 gene_id "ECDH10B_RS06355"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415698.1"; locus_tag "ECDH10B_RS06355"; product "fumarylacetoacetate hydrolase family protein"; protein_id "WP_000284280.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1268200 1268202 . + 0 gene_id "ECDH10B_RS06355"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415698.1"; locus_tag "ECDH10B_RS06355"; product "fumarylacetoacetate hydrolase family protein"; protein_id "WP_000284280.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1268279 1268740 . + . gene_id "ECDH10B_RS06360"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06360"; old_locus_tag "ECDH10B_1234"; -NC_010473.1 Protein Homology CDS 1268279 1268737 . + 0 gene_id "ECDH10B_RS06360"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415699.5"; locus_tag "ECDH10B_RS06360"; product "YcgN family cysteine cluster protein"; protein_id "WP_000807626.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1268279 1268281 . + 0 gene_id "ECDH10B_RS06360"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415699.5"; locus_tag "ECDH10B_RS06360"; product "YcgN family cysteine cluster protein"; protein_id "WP_000807626.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1268738 1268740 . + 0 gene_id "ECDH10B_RS06360"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415699.5"; locus_tag "ECDH10B_RS06360"; product "YcgN family cysteine cluster protein"; protein_id "WP_000807626.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1268947 1269858 . - . gene_id "ECDH10B_RS06365"; transcript_id ""; gbkey "Gene"; gene "hlyE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06365"; old_locus_tag "ECDH10B_1235"; -NC_010473.1 Protein Homology CDS 1268950 1269858 . - 0 gene_id "ECDH10B_RS06365"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hlyE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415700.4"; locus_tag "ECDH10B_RS06365"; product "hemolysin HlyE"; protein_id "WP_001336523.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1269856 1269858 . - 0 gene_id "ECDH10B_RS06365"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hlyE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415700.4"; locus_tag "ECDH10B_RS06365"; product "hemolysin HlyE"; protein_id "WP_001336523.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1268947 1268949 . - 0 gene_id "ECDH10B_RS06365"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hlyE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415700.4"; locus_tag "ECDH10B_RS06365"; product "hemolysin HlyE"; protein_id "WP_001336523.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1270231 1270650 . + . gene_id "ECDH10B_RS06370"; transcript_id ""; gbkey "Gene"; gene "umuD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06370"; old_locus_tag "ECDH10B_1236"; -NC_010473.1 Protein Homology CDS 1270231 1270647 . + 0 gene_id "ECDH10B_RS06370"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "umuD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309705.1"; locus_tag "ECDH10B_RS06370"; product "translesion error-prone DNA polymerase V autoproteolytic subunit"; protein_id "WP_000897378.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1270231 1270233 . + 0 gene_id "ECDH10B_RS06370"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "umuD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309705.1"; locus_tag "ECDH10B_RS06370"; product "translesion error-prone DNA polymerase V autoproteolytic subunit"; protein_id "WP_000897378.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1270648 1270650 . + 0 gene_id "ECDH10B_RS06370"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "umuD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309705.1"; locus_tag "ECDH10B_RS06370"; product "translesion error-prone DNA polymerase V autoproteolytic subunit"; protein_id "WP_000897378.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1270650 1271918 . + . gene_id "ECDH10B_RS06375"; transcript_id ""; gbkey "Gene"; gene "umuC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06375"; old_locus_tag "ECDH10B_1237"; -NC_010473.1 Protein Homology CDS 1270650 1271915 . + 0 gene_id "ECDH10B_RS06375"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "umuC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415702.1"; locus_tag "ECDH10B_RS06375"; product "DNA polymerase V catalytic protein"; protein_id "WP_000457616.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1270650 1270652 . + 0 gene_id "ECDH10B_RS06375"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "umuC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415702.1"; locus_tag "ECDH10B_RS06375"; product "DNA polymerase V catalytic protein"; protein_id "WP_000457616.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1271916 1271918 . + 0 gene_id "ECDH10B_RS06375"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "umuC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415702.1"; locus_tag "ECDH10B_RS06375"; product "DNA polymerase V catalytic protein"; protein_id "WP_000457616.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1271964 1272494 . - . gene_id "ECDH10B_RS06380"; transcript_id ""; gbkey "Gene"; gene "dsbB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06380"; old_locus_tag "ECDH10B_1238"; -NC_010473.1 Protein Homology CDS 1271967 1272494 . - 0 gene_id "ECDH10B_RS06380"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dsbB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309707.1"; locus_tag "ECDH10B_RS06380"; product "disulfide bond formation protein DsbB"; protein_id "WP_000943459.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1272492 1272494 . - 0 gene_id "ECDH10B_RS06380"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dsbB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309707.1"; locus_tag "ECDH10B_RS06380"; product "disulfide bond formation protein DsbB"; protein_id "WP_000943459.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1271964 1271966 . - 0 gene_id "ECDH10B_RS06380"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dsbB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309707.1"; locus_tag "ECDH10B_RS06380"; product "disulfide bond formation protein DsbB"; protein_id "WP_000943459.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1272640 1274181 . - . gene_id "ECDH10B_RS06385"; transcript_id ""; gbkey "Gene"; gene "nhaB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06385"; old_locus_tag "ECDH10B_1239"; -NC_010473.1 Protein Homology CDS 1272643 1274181 . - 0 gene_id "ECDH10B_RS06385"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nhaB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309708.1"; locus_tag "ECDH10B_RS06385"; product "Na(+)/H(+) antiporter NhaB"; protein_id "WP_000406391.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1274179 1274181 . - 0 gene_id "ECDH10B_RS06385"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nhaB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309708.1"; locus_tag "ECDH10B_RS06385"; product "Na(+)/H(+) antiporter NhaB"; protein_id "WP_000406391.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1272640 1272642 . - 0 gene_id "ECDH10B_RS06385"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nhaB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309708.1"; locus_tag "ECDH10B_RS06385"; product "Na(+)/H(+) antiporter NhaB"; protein_id "WP_000406391.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1274402 1275121 . + . gene_id "ECDH10B_RS06390"; transcript_id ""; gbkey "Gene"; gene "fadR"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06390"; old_locus_tag "ECDH10B_1240"; -NC_010473.1 Protein Homology CDS 1274402 1275118 . + 0 gene_id "ECDH10B_RS06390"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fadR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309709.1"; locus_tag "ECDH10B_RS06390"; product "fatty acid metabolism transcriptional regulator FadR"; protein_id "WP_000234823.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1274402 1274404 . + 0 gene_id "ECDH10B_RS06390"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fadR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309709.1"; locus_tag "ECDH10B_RS06390"; product "fatty acid metabolism transcriptional regulator FadR"; protein_id "WP_000234823.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1275119 1275121 . + 0 gene_id "ECDH10B_RS06390"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fadR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309709.1"; locus_tag "ECDH10B_RS06390"; product "fatty acid metabolism transcriptional regulator FadR"; protein_id "WP_000234823.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1275173 1276705 . - . gene_id "ECDH10B_RS06395"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06395"; old_locus_tag "ECDH10B_1241"; -NC_010473.1 Protein Homology CDS 1275176 1276705 . - 0 gene_id "ECDH10B_RS06395"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415706.1"; locus_tag "ECDH10B_RS06395"; product "SpoVR family protein"; protein_id "WP_000190854.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1276703 1276705 . - 0 gene_id "ECDH10B_RS06395"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415706.1"; locus_tag "ECDH10B_RS06395"; product "SpoVR family protein"; protein_id "WP_000190854.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1275173 1275175 . - 0 gene_id "ECDH10B_RS06395"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415706.1"; locus_tag "ECDH10B_RS06395"; product "SpoVR family protein"; protein_id "WP_000190854.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1277035 1278333 . + . gene_id "ECDH10B_RS06400"; transcript_id ""; gbkey "Gene"; gene "dadA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06400"; old_locus_tag "ECDH10B_1242"; -NC_010473.1 Protein Homology CDS 1277035 1278330 . + 0 gene_id "ECDH10B_RS06400"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dadA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309711.1"; locus_tag "ECDH10B_RS06400"; product "D-amino acid dehydrogenase"; protein_id "WP_001266908.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1277035 1277037 . + 0 gene_id "ECDH10B_RS06400"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dadA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309711.1"; locus_tag "ECDH10B_RS06400"; product "D-amino acid dehydrogenase"; protein_id "WP_001266908.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1278331 1278333 . + 0 gene_id "ECDH10B_RS06400"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dadA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309711.1"; locus_tag "ECDH10B_RS06400"; product "D-amino acid dehydrogenase"; protein_id "WP_001266908.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1278343 1279413 . + . gene_id "ECDH10B_RS06405"; transcript_id ""; gbkey "Gene"; gene "dadX"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06405"; old_locus_tag "ECDH10B_1243"; -NC_010473.1 Protein Homology CDS 1278343 1279410 . + 0 gene_id "ECDH10B_RS06405"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dadX"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415708.1"; locus_tag "ECDH10B_RS06405"; product "catabolic alanine racemase DadX"; protein_id "WP_000197881.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1278343 1278345 . + 0 gene_id "ECDH10B_RS06405"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dadX"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415708.1"; locus_tag "ECDH10B_RS06405"; product "catabolic alanine racemase DadX"; protein_id "WP_000197881.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1279411 1279413 . + 0 gene_id "ECDH10B_RS06405"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dadX"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415708.1"; locus_tag "ECDH10B_RS06405"; product "catabolic alanine racemase DadX"; protein_id "WP_000197881.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1279799 1281535 . - . gene_id "ECDH10B_RS06410"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06410"; old_locus_tag "ECDH10B_1244"; -NC_010473.1 Protein Homology CDS 1279802 1281535 . - 0 gene_id "ECDH10B_RS06410"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415709.2"; locus_tag "ECDH10B_RS06410"; product "potassium/proton antiporter"; protein_id "WP_000340194.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1281533 1281535 . - 0 gene_id "ECDH10B_RS06410"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415709.2"; locus_tag "ECDH10B_RS06410"; product "potassium/proton antiporter"; protein_id "WP_000340194.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1279799 1279801 . - 0 gene_id "ECDH10B_RS06410"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415709.2"; locus_tag "ECDH10B_RS06410"; product "potassium/proton antiporter"; protein_id "WP_000340194.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1281630 1282544 . - . gene_id "ECDH10B_RS06415"; transcript_id ""; gbkey "Gene"; gene "ldcA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06415"; old_locus_tag "ECDH10B_1245"; -NC_010473.1 Protein Homology CDS 1281633 1282544 . - 0 gene_id "ECDH10B_RS06415"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ldcA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415710.1"; locus_tag "ECDH10B_RS06415"; product "muramoyltetrapeptide carboxypeptidase"; protein_id "WP_000051560.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1282542 1282544 . - 0 gene_id "ECDH10B_RS06415"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ldcA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415710.1"; locus_tag "ECDH10B_RS06415"; product "muramoyltetrapeptide carboxypeptidase"; protein_id "WP_000051560.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1281630 1281632 . - 0 gene_id "ECDH10B_RS06415"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ldcA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415710.1"; locus_tag "ECDH10B_RS06415"; product "muramoyltetrapeptide carboxypeptidase"; protein_id "WP_000051560.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1282644 1283255 . + . gene_id "ECDH10B_RS06420"; transcript_id ""; gbkey "Gene"; gene "emtA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06420"; old_locus_tag "ECDH10B_1246"; -NC_010473.1 Protein Homology CDS 1282644 1283252 . + 0 gene_id "ECDH10B_RS06420"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "emtA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415711.2"; locus_tag "ECDH10B_RS06420"; product "membrane-bound lytic murein transglycosylase EmtA"; protein_id "WP_001301104.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1282644 1282646 . + 0 gene_id "ECDH10B_RS06420"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "emtA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415711.2"; locus_tag "ECDH10B_RS06420"; product "membrane-bound lytic murein transglycosylase EmtA"; protein_id "WP_001301104.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1283253 1283255 . + 0 gene_id "ECDH10B_RS06420"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "emtA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415711.2"; locus_tag "ECDH10B_RS06420"; product "membrane-bound lytic murein transglycosylase EmtA"; protein_id "WP_001301104.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1283257 1283991 . - . gene_id "ECDH10B_RS06425"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06425"; old_locus_tag "ECDH10B_1247"; -NC_010473.1 Protein Homology CDS 1283260 1283991 . - 0 gene_id "ECDH10B_RS06425"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415712.1"; locus_tag "ECDH10B_RS06425"; product "flagellar brake protein"; protein_id "WP_000020169.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1283989 1283991 . - 0 gene_id "ECDH10B_RS06425"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415712.1"; locus_tag "ECDH10B_RS06425"; product "flagellar brake protein"; protein_id "WP_000020169.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1283257 1283259 . - 0 gene_id "ECDH10B_RS06425"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415712.1"; locus_tag "ECDH10B_RS06425"; product "flagellar brake protein"; protein_id "WP_000020169.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1284192 1284446 . + . gene_id "ECDH10B_RS06430"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06430"; old_locus_tag "ECDH10B_1248"; -NC_010473.1 Protein Homology CDS 1284192 1284443 . + 0 gene_id "ECDH10B_RS06430"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415713.1"; locus_tag "ECDH10B_RS06430"; product "GlsB/YeaQ/YmgE family stress response membrane protein"; protein_id "WP_001310727.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1284192 1284194 . + 0 gene_id "ECDH10B_RS06430"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415713.1"; locus_tag "ECDH10B_RS06430"; product "GlsB/YeaQ/YmgE family stress response membrane protein"; protein_id "WP_001310727.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1284444 1284446 . + 0 gene_id "ECDH10B_RS06430"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415713.1"; locus_tag "ECDH10B_RS06430"; product "GlsB/YeaQ/YmgE family stress response membrane protein"; protein_id "WP_001310727.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1284624 1285064 . + . gene_id "ECDH10B_RS06435"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06435"; old_locus_tag "ECDH10B_1249"; -NC_010473.1 Protein Homology CDS 1284624 1285061 . + 0 gene_id "ECDH10B_RS06435"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415714.1"; locus_tag "ECDH10B_RS06435"; product "hypothetical protein"; protein_id "WP_000615067.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1284624 1284626 . + 0 gene_id "ECDH10B_RS06435"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415714.1"; locus_tag "ECDH10B_RS06435"; product "hypothetical protein"; protein_id "WP_000615067.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1285062 1285064 . + 0 gene_id "ECDH10B_RS06435"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415714.1"; locus_tag "ECDH10B_RS06435"; product "hypothetical protein"; protein_id "WP_000615067.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1285143 1286840 . - . gene_id "ECDH10B_RS06440"; transcript_id ""; gbkey "Gene"; gene "treA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06440"; old_locus_tag "ECDH10B_1250"; -NC_010473.1 Protein Homology CDS 1285146 1286840 . - 0 gene_id "ECDH10B_RS06440"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "treA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415715.1"; locus_tag "ECDH10B_RS06440"; product "alpha,alpha-trehalase"; protein_id "WP_000841714.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1286838 1286840 . - 0 gene_id "ECDH10B_RS06440"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "treA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415715.1"; locus_tag "ECDH10B_RS06440"; product "alpha,alpha-trehalase"; protein_id "WP_000841714.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1285143 1285145 . - 0 gene_id "ECDH10B_RS06440"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "treA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415715.1"; locus_tag "ECDH10B_RS06440"; product "alpha,alpha-trehalase"; protein_id "WP_000841714.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1287160 1288578 . - . gene_id "ECDH10B_RS06445"; transcript_id ""; gbkey "Gene"; gene "dhaM"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06445"; old_locus_tag "ECDH10B_1251"; -NC_010473.1 Protein Homology CDS 1287163 1288578 . - 0 gene_id "ECDH10B_RS06445"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dhaM"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415716.4"; locus_tag "ECDH10B_RS06445"; product "dihydroxyacetone kinase subunit DhaM"; protein_id "WP_001301101.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1288576 1288578 . - 0 gene_id "ECDH10B_RS06445"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dhaM"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415716.4"; locus_tag "ECDH10B_RS06445"; product "dihydroxyacetone kinase subunit DhaM"; protein_id "WP_001301101.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1287160 1287162 . - 0 gene_id "ECDH10B_RS06445"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dhaM"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415716.4"; locus_tag "ECDH10B_RS06445"; product "dihydroxyacetone kinase subunit DhaM"; protein_id "WP_001301101.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1288589 1289221 . - . gene_id "ECDH10B_RS06450"; transcript_id ""; gbkey "Gene"; gene "dhaL"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06450"; old_locus_tag "ECDH10B_1252"; -NC_010473.1 Protein Homology CDS 1288592 1289221 . - 0 gene_id "ECDH10B_RS06450"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dhaL"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415717.1"; locus_tag "ECDH10B_RS06450"; product "dihydroxyacetone kinase ADP-binding subunit DhaL"; protein_id "WP_000059411.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1289219 1289221 . - 0 gene_id "ECDH10B_RS06450"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dhaL"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415717.1"; locus_tag "ECDH10B_RS06450"; product "dihydroxyacetone kinase ADP-binding subunit DhaL"; protein_id "WP_000059411.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1288589 1288591 . - 0 gene_id "ECDH10B_RS06450"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dhaL"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415717.1"; locus_tag "ECDH10B_RS06450"; product "dihydroxyacetone kinase ADP-binding subunit DhaL"; protein_id "WP_000059411.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1289232 1290302 . - . gene_id "ECDH10B_RS06455"; transcript_id ""; gbkey "Gene"; gene "dhaK"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06455"; old_locus_tag "ECDH10B_1253"; -NC_010473.1 Protein Homology CDS 1289235 1290302 . - 0 gene_id "ECDH10B_RS06455"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dhaK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415718.6"; locus_tag "ECDH10B_RS06455"; product "dihydroxyacetone kinase subunit DhaK"; protein_id "WP_000733715.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1290300 1290302 . - 0 gene_id "ECDH10B_RS06455"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dhaK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415718.6"; locus_tag "ECDH10B_RS06455"; product "dihydroxyacetone kinase subunit DhaK"; protein_id "WP_000733715.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1289232 1289234 . - 0 gene_id "ECDH10B_RS06455"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dhaK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415718.6"; locus_tag "ECDH10B_RS06455"; product "dihydroxyacetone kinase subunit DhaK"; protein_id "WP_000733715.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1290530 1292449 . + . gene_id "ECDH10B_RS06460"; transcript_id ""; gbkey "Gene"; gene "dhaR"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06460"; old_locus_tag "ECDH10B_1254"; -NC_010473.1 Protein Homology CDS 1290530 1292446 . + 0 gene_id "ECDH10B_RS06460"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dhaR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415719.2"; locus_tag "ECDH10B_RS06460"; product "PTS-dependent dihydroxyacetone kinase operon transcriptional regulator DhaR"; protein_id "WP_001350505.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1290530 1290532 . + 0 gene_id "ECDH10B_RS06460"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dhaR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415719.2"; locus_tag "ECDH10B_RS06460"; product "PTS-dependent dihydroxyacetone kinase operon transcriptional regulator DhaR"; protein_id "WP_001350505.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1292447 1292449 . + 0 gene_id "ECDH10B_RS06460"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dhaR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415719.2"; locus_tag "ECDH10B_RS06460"; product "PTS-dependent dihydroxyacetone kinase operon transcriptional regulator DhaR"; protein_id "WP_001350505.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1292549 1295416 . - . gene_id "ECDH10B_RS06465"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06465"; old_locus_tag "ECDH10B_1255"; -NC_010473.1 Protein Homology CDS 1292552 1295416 . - 0 gene_id "ECDH10B_RS06465"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415720.1"; locus_tag "ECDH10B_RS06465"; product "autotransporter outer membrane beta-barrel domain-containing protein"; protein_id "WP_001334788.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1295414 1295416 . - 0 gene_id "ECDH10B_RS06465"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415720.1"; locus_tag "ECDH10B_RS06465"; product "autotransporter outer membrane beta-barrel domain-containing protein"; protein_id "WP_001334788.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1292549 1292551 . - 0 gene_id "ECDH10B_RS06465"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415720.1"; locus_tag "ECDH10B_RS06465"; product "autotransporter outer membrane beta-barrel domain-containing protein"; protein_id "WP_001334788.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1296185 1297276 . - . gene_id "ECDH10B_RS06475"; transcript_id ""; gbkey "Gene"; gene "ychF"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06475"; old_locus_tag "ECDH10B_1256"; -NC_010473.1 Protein Homology CDS 1296188 1297276 . - 0 gene_id "ECDH10B_RS06475"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ychF"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001538644.1"; locus_tag "ECDH10B_RS06475"; product "redox-regulated ATPase YchF"; protein_id "WP_000505866.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1297274 1297276 . - 0 gene_id "ECDH10B_RS06475"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ychF"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001538644.1"; locus_tag "ECDH10B_RS06475"; product "redox-regulated ATPase YchF"; protein_id "WP_000505866.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1296185 1296187 . - 0 gene_id "ECDH10B_RS06475"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ychF"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001538644.1"; locus_tag "ECDH10B_RS06475"; product "redox-regulated ATPase YchF"; protein_id "WP_000505866.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1297393 1297977 . - . gene_id "ECDH10B_RS06480"; transcript_id ""; gbkey "Gene"; gene "pth"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06480"; old_locus_tag "ECDH10B_1257"; -NC_010473.1 Protein Homology CDS 1297396 1297977 . - 0 gene_id "ECDH10B_RS06480"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pth"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_002910438.1"; locus_tag "ECDH10B_RS06480"; product "aminoacyl-tRNA hydrolase"; protein_id "WP_000152933.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1297975 1297977 . - 0 gene_id "ECDH10B_RS06480"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pth"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_002910438.1"; locus_tag "ECDH10B_RS06480"; product "aminoacyl-tRNA hydrolase"; protein_id "WP_000152933.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1297393 1297395 . - 0 gene_id "ECDH10B_RS06480"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pth"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_002910438.1"; locus_tag "ECDH10B_RS06480"; product "aminoacyl-tRNA hydrolase"; protein_id "WP_000152933.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1298255 1298533 . + . gene_id "ECDH10B_RS06485"; transcript_id ""; gbkey "Gene"; gene "ychH"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06485"; old_locus_tag "ECDH10B_1258"; -NC_010473.1 Protein Homology CDS 1298255 1298530 . + 0 gene_id "ECDH10B_RS06485"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ychH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309737.1"; locus_tag "ECDH10B_RS06485"; product "stress-induced protein YchH"; protein_id "WP_000823885.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1298255 1298257 . + 0 gene_id "ECDH10B_RS06485"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ychH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309737.1"; locus_tag "ECDH10B_RS06485"; product "stress-induced protein YchH"; protein_id "WP_000823885.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1298531 1298533 . + 0 gene_id "ECDH10B_RS06485"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ychH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309737.1"; locus_tag "ECDH10B_RS06485"; product "stress-induced protein YchH"; protein_id "WP_000823885.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1298588 1300267 . - . gene_id "ECDH10B_RS06490"; transcript_id ""; gbkey "Gene"; gene "dauA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06490"; old_locus_tag "ECDH10B_1259"; -NC_010473.1 Protein Homology CDS 1298591 1300267 . - 0 gene_id "ECDH10B_RS06490"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dauA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415724.2"; locus_tag "ECDH10B_RS06490"; product "C4-dicarboxylic acid transporter DauA"; protein_id "WP_001033352.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1300265 1300267 . - 0 gene_id "ECDH10B_RS06490"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dauA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415724.2"; locus_tag "ECDH10B_RS06490"; product "C4-dicarboxylic acid transporter DauA"; protein_id "WP_001033352.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1298588 1298590 . - 0 gene_id "ECDH10B_RS06490"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dauA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415724.2"; locus_tag "ECDH10B_RS06490"; product "C4-dicarboxylic acid transporter DauA"; protein_id "WP_001033352.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1300392 1301339 . - . gene_id "ECDH10B_RS06495"; transcript_id ""; gbkey "Gene"; gene "prs"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06495"; old_locus_tag "ECDH10B_1260"; -NC_010473.1 Protein Homology CDS 1300395 1301339 . - 0 gene_id "ECDH10B_RS06495"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "prs"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_002910407.1"; locus_tag "ECDH10B_RS06495"; product "ribose-phosphate diphosphokinase"; protein_id "WP_001298109.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1301337 1301339 . - 0 gene_id "ECDH10B_RS06495"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "prs"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_002910407.1"; locus_tag "ECDH10B_RS06495"; product "ribose-phosphate diphosphokinase"; protein_id "WP_001298109.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1300392 1300394 . - 0 gene_id "ECDH10B_RS06495"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "prs"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_002910407.1"; locus_tag "ECDH10B_RS06495"; product "ribose-phosphate diphosphokinase"; protein_id "WP_001298109.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1301490 1302341 . - . gene_id "ECDH10B_RS06500"; transcript_id ""; gbkey "Gene"; gene "ispE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06500"; old_locus_tag "ECDH10B_1261"; -NC_010473.1 Protein Homology CDS 1301493 1302341 . - 0 gene_id "ECDH10B_RS06500"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ispE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309740.1"; locus_tag "ECDH10B_RS06500"; product "4-(cytidine 5'-diphospho)-2-C-methyl-D-erythritol kinase"; protein_id "WP_001260332.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1302339 1302341 . - 0 gene_id "ECDH10B_RS06500"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ispE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309740.1"; locus_tag "ECDH10B_RS06500"; product "4-(cytidine 5'-diphospho)-2-C-methyl-D-erythritol kinase"; protein_id "WP_001260332.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1301490 1301492 . - 0 gene_id "ECDH10B_RS06500"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ispE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309740.1"; locus_tag "ECDH10B_RS06500"; product "4-(cytidine 5'-diphospho)-2-C-methyl-D-erythritol kinase"; protein_id "WP_001260332.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1302341 1302964 . - . gene_id "ECDH10B_RS06505"; transcript_id ""; gbkey "Gene"; gene "lolB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06505"; old_locus_tag "ECDH10B_1262"; -NC_010473.1 Protein Homology CDS 1302344 1302964 . - 0 gene_id "ECDH10B_RS06505"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lolB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309741.1"; locus_tag "ECDH10B_RS06505"; product "lipoprotein localization protein LolB"; protein_id "WP_001130692.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1302962 1302964 . - 0 gene_id "ECDH10B_RS06505"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lolB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309741.1"; locus_tag "ECDH10B_RS06505"; product "lipoprotein localization protein LolB"; protein_id "WP_001130692.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1302341 1302343 . - 0 gene_id "ECDH10B_RS06505"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lolB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309741.1"; locus_tag "ECDH10B_RS06505"; product "lipoprotein localization protein LolB"; protein_id "WP_001130692.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1303178 1304434 . + . gene_id "ECDH10B_RS06510"; transcript_id ""; gbkey "Gene"; gene "hemA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06510"; old_locus_tag "ECDH10B_1263"; -NC_010473.1 Protein Homology CDS 1303178 1304431 . + 0 gene_id "ECDH10B_RS06510"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hemA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_041689438.1"; locus_tag "ECDH10B_RS06510"; product "glutamyl-tRNA reductase"; protein_id "WP_001299679.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1303178 1303180 . + 0 gene_id "ECDH10B_RS06510"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hemA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_041689438.1"; locus_tag "ECDH10B_RS06510"; product "glutamyl-tRNA reductase"; protein_id "WP_001299679.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1304432 1304434 . + 0 gene_id "ECDH10B_RS06510"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hemA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_041689438.1"; locus_tag "ECDH10B_RS06510"; product "glutamyl-tRNA reductase"; protein_id "WP_001299679.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1304476 1305558 . + . gene_id "ECDH10B_RS06515"; transcript_id ""; gbkey "Gene"; gene "prfA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06515"; old_locus_tag "ECDH10B_1264"; -NC_010473.1 Protein Homology CDS 1304476 1305555 . + 0 gene_id "ECDH10B_RS06515"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "prfA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_012132158.1"; locus_tag "ECDH10B_RS06515"; product "peptide chain release factor 1"; protein_id "WP_000804726.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1304476 1304478 . + 0 gene_id "ECDH10B_RS06515"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "prfA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_012132158.1"; locus_tag "ECDH10B_RS06515"; product "peptide chain release factor 1"; protein_id "WP_000804726.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1305556 1305558 . + 0 gene_id "ECDH10B_RS06515"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "prfA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_012132158.1"; locus_tag "ECDH10B_RS06515"; product "peptide chain release factor 1"; protein_id "WP_000804726.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1305558 1306391 . + . gene_id "ECDH10B_RS06520"; transcript_id ""; gbkey "Gene"; gene "prmC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06520"; old_locus_tag "ECDH10B_1265"; -NC_010473.1 Protein Homology CDS 1305558 1306388 . + 0 gene_id "ECDH10B_RS06520"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "prmC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415730.1"; locus_tag "ECDH10B_RS06520"; product "peptide chain release factor N(5)-glutamine methyltransferase"; protein_id "WP_000456467.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1305558 1305560 . + 0 gene_id "ECDH10B_RS06520"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "prmC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415730.1"; locus_tag "ECDH10B_RS06520"; product "peptide chain release factor N(5)-glutamine methyltransferase"; protein_id "WP_000456467.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1306389 1306391 . + 0 gene_id "ECDH10B_RS06520"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "prmC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415730.1"; locus_tag "ECDH10B_RS06520"; product "peptide chain release factor N(5)-glutamine methyltransferase"; protein_id "WP_000456467.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1306388 1306780 . + . gene_id "ECDH10B_RS06525"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06525"; old_locus_tag "ECDH10B_1266"; -NC_010473.1 Protein Homology CDS 1306388 1306777 . + 0 gene_id "ECDH10B_RS06525"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415731.1"; locus_tag "ECDH10B_RS06525"; product "SirB family protein"; protein_id "WP_000200374.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1306388 1306390 . + 0 gene_id "ECDH10B_RS06525"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415731.1"; locus_tag "ECDH10B_RS06525"; product "SirB family protein"; protein_id "WP_000200374.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1306778 1306780 . + 0 gene_id "ECDH10B_RS06525"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415731.1"; locus_tag "ECDH10B_RS06525"; product "SirB family protein"; protein_id "WP_000200374.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1306784 1307593 . + . gene_id "ECDH10B_RS06530"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06530"; old_locus_tag "ECDH10B_1267"; -NC_010473.1 Protein Homology CDS 1306784 1307590 . + 0 gene_id "ECDH10B_RS06530"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309746.1"; locus_tag "ECDH10B_RS06530"; product "tetratricopeptide repeat-containing protein"; protein_id "WP_001257044.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1306784 1306786 . + 0 gene_id "ECDH10B_RS06530"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309746.1"; locus_tag "ECDH10B_RS06530"; product "tetratricopeptide repeat-containing protein"; protein_id "WP_001257044.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1307591 1307593 . + 0 gene_id "ECDH10B_RS06530"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309746.1"; locus_tag "ECDH10B_RS06530"; product "tetratricopeptide repeat-containing protein"; protein_id "WP_001257044.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1307629 1308483 . + . gene_id "ECDH10B_RS06535"; transcript_id ""; gbkey "Gene"; gene "kdsA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06535"; old_locus_tag "ECDH10B_1268"; -NC_010473.1 Protein Homology CDS 1307629 1308480 . + 0 gene_id "ECDH10B_RS06535"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "kdsA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005126202.1"; locus_tag "ECDH10B_RS06535"; product "3-deoxy-8-phosphooctulonate synthase"; protein_id "WP_000811065.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1307629 1307631 . + 0 gene_id "ECDH10B_RS06535"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "kdsA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005126202.1"; locus_tag "ECDH10B_RS06535"; product "3-deoxy-8-phosphooctulonate synthase"; protein_id "WP_000811065.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1308481 1308483 . + 0 gene_id "ECDH10B_RS06535"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "kdsA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005126202.1"; locus_tag "ECDH10B_RS06535"; product "3-deoxy-8-phosphooctulonate synthase"; protein_id "WP_000811065.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1308632 1308739 . - . gene_id "ECDH10B_RS06540"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06540"; old_locus_tag "ECDH10B_1269"; -NC_010473.1 Protein Homology CDS 1308635 1308739 . - 0 gene_id "ECDH10B_RS06540"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_025297.1"; locus_tag "ECDH10B_RS06540"; product "small toxic polypeptide LdrA/LdrC"; protein_id "WP_000170955.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1308737 1308739 . - 0 gene_id "ECDH10B_RS06540"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_025297.1"; locus_tag "ECDH10B_RS06540"; product "small toxic polypeptide LdrA/LdrC"; protein_id "WP_000170955.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1308632 1308634 . - 0 gene_id "ECDH10B_RS06540"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_025297.1"; locus_tag "ECDH10B_RS06540"; product "small toxic polypeptide LdrA/LdrC"; protein_id "WP_000170955.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1309167 1309274 . - . gene_id "ECDH10B_RS06545"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06545"; old_locus_tag "ECDH10B_1271"; -NC_010473.1 Protein Homology CDS 1309170 1309274 . - 0 gene_id "ECDH10B_RS06545"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_025298.1"; locus_tag "ECDH10B_RS06545"; product "small toxic polypeptide LdrB"; protein_id "WP_000170963.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1309272 1309274 . - 0 gene_id "ECDH10B_RS06545"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_025298.1"; locus_tag "ECDH10B_RS06545"; product "small toxic polypeptide LdrB"; protein_id "WP_000170963.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1309167 1309169 . - 0 gene_id "ECDH10B_RS06545"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_025298.1"; locus_tag "ECDH10B_RS06545"; product "small toxic polypeptide LdrB"; protein_id "WP_000170963.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1309702 1309809 . - . gene_id "ECDH10B_RS06550"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06550"; old_locus_tag "ECDH10B_1273"; -NC_010473.1 Protein Homology CDS 1309705 1309809 . - 0 gene_id "ECDH10B_RS06550"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_025297.1"; locus_tag "ECDH10B_RS06550"; product "small toxic polypeptide LdrA/LdrC"; protein_id "WP_000170955.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1309807 1309809 . - 0 gene_id "ECDH10B_RS06550"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_025297.1"; locus_tag "ECDH10B_RS06550"; product "small toxic polypeptide LdrA/LdrC"; protein_id "WP_000170955.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1309702 1309704 . - 0 gene_id "ECDH10B_RS06550"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_025297.1"; locus_tag "ECDH10B_RS06550"; product "small toxic polypeptide LdrA/LdrC"; protein_id "WP_000170955.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1310213 1311313 . - . gene_id "ECDH10B_RS06555"; transcript_id ""; gbkey "Gene"; gene "chaA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06555"; old_locus_tag "ECDH10B_1275"; -NC_010473.1 Protein Homology CDS 1310216 1311313 . - 0 gene_id "ECDH10B_RS06555"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "chaA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415734.1"; locus_tag "ECDH10B_RS06555"; product "sodium-potassium/proton antiporter ChaA"; protein_id "WP_000063607.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1311311 1311313 . - 0 gene_id "ECDH10B_RS06555"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "chaA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415734.1"; locus_tag "ECDH10B_RS06555"; product "sodium-potassium/proton antiporter ChaA"; protein_id "WP_000063607.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1310213 1310215 . - 0 gene_id "ECDH10B_RS06555"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "chaA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415734.1"; locus_tag "ECDH10B_RS06555"; product "sodium-potassium/proton antiporter ChaA"; protein_id "WP_000063607.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1311583 1311813 . + . gene_id "ECDH10B_RS06560"; transcript_id ""; gbkey "Gene"; gene "chaB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06560"; old_locus_tag "ECDH10B_1276"; -NC_010473.1 Protein Homology CDS 1311583 1311810 . + 0 gene_id "ECDH10B_RS06560"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "chaB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309749.1"; locus_tag "ECDH10B_RS06560"; product "putative cation transport regulator ChaB"; protein_id "WP_001146444.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1311583 1311585 . + 0 gene_id "ECDH10B_RS06560"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "chaB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309749.1"; locus_tag "ECDH10B_RS06560"; product "putative cation transport regulator ChaB"; protein_id "WP_001146444.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1311811 1311813 . + 0 gene_id "ECDH10B_RS06560"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "chaB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309749.1"; locus_tag "ECDH10B_RS06560"; product "putative cation transport regulator ChaB"; protein_id "WP_001146444.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1311971 1312666 . + . gene_id "ECDH10B_RS06565"; transcript_id ""; gbkey "Gene"; gene "chaC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06565"; old_locus_tag "ECDH10B_1277"; -NC_010473.1 Protein Homology CDS 1311971 1312663 . + 0 gene_id "ECDH10B_RS06565"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "chaC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415736.2"; locus_tag "ECDH10B_RS06565"; product "glutathione-specific gamma-glutamylcyclotransferase"; protein_id "WP_001336325.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1311971 1311973 . + 0 gene_id "ECDH10B_RS06565"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "chaC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415736.2"; locus_tag "ECDH10B_RS06565"; product "glutathione-specific gamma-glutamylcyclotransferase"; protein_id "WP_001336325.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1312664 1312666 . + 0 gene_id "ECDH10B_RS06565"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "chaC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415736.2"; locus_tag "ECDH10B_RS06565"; product "glutathione-specific gamma-glutamylcyclotransferase"; protein_id "WP_001336325.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1312710 1313063 . - . gene_id "ECDH10B_RS06570"; transcript_id ""; gbkey "Gene"; gene "ychN"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06570"; old_locus_tag "ECDH10B_1278"; -NC_010473.1 Protein Homology CDS 1312713 1313063 . - 0 gene_id "ECDH10B_RS06570"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ychN"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309751.1"; locus_tag "ECDH10B_RS06570"; product "DsrE/F sulfur relay family protein YchN"; protein_id "WP_001169669.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1313061 1313063 . - 0 gene_id "ECDH10B_RS06570"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ychN"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309751.1"; locus_tag "ECDH10B_RS06570"; product "DsrE/F sulfur relay family protein YchN"; protein_id "WP_001169669.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1312710 1312712 . - 0 gene_id "ECDH10B_RS06570"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ychN"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309751.1"; locus_tag "ECDH10B_RS06570"; product "DsrE/F sulfur relay family protein YchN"; protein_id "WP_001169669.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1313248 1314642 . + . gene_id "ECDH10B_RS06575"; transcript_id ""; gbkey "Gene"; gene "ychO"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06575"; old_locus_tag "ECDH10B_1279"; -NC_010473.1 Protein Homology CDS 1313248 1314639 . + 0 gene_id "ECDH10B_RS06575"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ychO"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415738.2"; locus_tag "ECDH10B_RS06575"; product "inverse autotransporter invasin YchO"; protein_id "WP_000086217.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1313248 1313250 . + 0 gene_id "ECDH10B_RS06575"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ychO"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415738.2"; locus_tag "ECDH10B_RS06575"; product "inverse autotransporter invasin YchO"; protein_id "WP_000086217.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1314640 1314642 . + 0 gene_id "ECDH10B_RS06575"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ychO"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415738.2"; locus_tag "ECDH10B_RS06575"; product "inverse autotransporter invasin YchO"; protein_id "WP_000086217.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1314643 1315293 . - . gene_id "ECDH10B_RS06580"; transcript_id ""; gbkey "Gene"; gene "narL"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06580"; old_locus_tag "ECDH10B_1280"; -NC_010473.1 Protein Homology CDS 1314646 1315293 . - 0 gene_id "ECDH10B_RS06580"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "narL"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309753.1"; locus_tag "ECDH10B_RS06580"; product "two-component system response regulator NarL"; protein_id "WP_000070491.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1315291 1315293 . - 0 gene_id "ECDH10B_RS06580"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "narL"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309753.1"; locus_tag "ECDH10B_RS06580"; product "two-component system response regulator NarL"; protein_id "WP_000070491.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1314643 1314645 . - 0 gene_id "ECDH10B_RS06580"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "narL"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309753.1"; locus_tag "ECDH10B_RS06580"; product "two-component system response regulator NarL"; protein_id "WP_000070491.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1315286 1317082 . - . gene_id "ECDH10B_RS06585"; transcript_id ""; gbkey "Gene"; gene "narX"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06585"; old_locus_tag "ECDH10B_1281"; -NC_010473.1 Protein Homology CDS 1315289 1317082 . - 0 gene_id "ECDH10B_RS06585"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "narX"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309754.1"; locus_tag "ECDH10B_RS06585"; product "nitrate/nitrite two-component system sensor histidine kinase NarX"; protein_id "WP_000918073.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1317080 1317082 . - 0 gene_id "ECDH10B_RS06585"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "narX"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309754.1"; locus_tag "ECDH10B_RS06585"; product "nitrate/nitrite two-component system sensor histidine kinase NarX"; protein_id "WP_000918073.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1315286 1315288 . - 0 gene_id "ECDH10B_RS06585"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "narX"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309754.1"; locus_tag "ECDH10B_RS06585"; product "nitrate/nitrite two-component system sensor histidine kinase NarX"; protein_id "WP_000918073.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1317421 1318812 . + . gene_id "ECDH10B_RS06595"; transcript_id ""; gbkey "Gene"; gene "narK"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06595"; old_locus_tag "ECDH10B_1282"; -NC_010473.1 Protein Homology CDS 1317421 1318809 . + 0 gene_id "ECDH10B_RS06595"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "narK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415741.1"; locus_tag "ECDH10B_RS06595"; product "nitrate transporter NarK"; protein_id "WP_000019827.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1317421 1317423 . + 0 gene_id "ECDH10B_RS06595"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "narK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415741.1"; locus_tag "ECDH10B_RS06595"; product "nitrate transporter NarK"; protein_id "WP_000019827.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1318810 1318812 . + 0 gene_id "ECDH10B_RS06595"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "narK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415741.1"; locus_tag "ECDH10B_RS06595"; product "nitrate transporter NarK"; protein_id "WP_000019827.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1319328 1323071 . + . gene_id "ECDH10B_RS06600"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06600"; old_locus_tag "ECDH10B_1283"; -NC_010473.1 Protein Homology CDS 1319328 1323068 . + 0 gene_id "ECDH10B_RS06600"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415742.1"; locus_tag "ECDH10B_RS06600"; product "nitrate reductase subunit alpha"; protein_id "WP_000032939.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1319328 1319330 . + 0 gene_id "ECDH10B_RS06600"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415742.1"; locus_tag "ECDH10B_RS06600"; product "nitrate reductase subunit alpha"; protein_id "WP_000032939.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1323069 1323071 . + 0 gene_id "ECDH10B_RS06600"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415742.1"; locus_tag "ECDH10B_RS06600"; product "nitrate reductase subunit alpha"; protein_id "WP_000032939.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1323068 1324606 . + . gene_id "ECDH10B_RS06605"; transcript_id ""; gbkey "Gene"; gene "narH"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06605"; old_locus_tag "ECDH10B_1284"; -NC_010473.1 Protein Homology CDS 1323068 1324603 . + 0 gene_id "ECDH10B_RS06605"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "narH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415743.1"; locus_tag "ECDH10B_RS06605"; product "nitrate reductase subunit beta"; protein_id "WP_000702650.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1323068 1323070 . + 0 gene_id "ECDH10B_RS06605"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "narH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415743.1"; locus_tag "ECDH10B_RS06605"; product "nitrate reductase subunit beta"; protein_id "WP_000702650.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1324604 1324606 . + 0 gene_id "ECDH10B_RS06605"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "narH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415743.1"; locus_tag "ECDH10B_RS06605"; product "nitrate reductase subunit beta"; protein_id "WP_000702650.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1324603 1325313 . + . gene_id "ECDH10B_RS06610"; transcript_id ""; gbkey "Gene"; gene "narJ"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06610"; old_locus_tag "ECDH10B_1285"; -NC_010473.1 Protein Homology CDS 1324603 1325310 . + 0 gene_id "ECDH10B_RS06610"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "narJ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309758.1"; locus_tag "ECDH10B_RS06610"; product "nitrate reductase molybdenum cofactor assembly chaperone"; protein_id "WP_000571681.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1324603 1324605 . + 0 gene_id "ECDH10B_RS06610"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "narJ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309758.1"; locus_tag "ECDH10B_RS06610"; product "nitrate reductase molybdenum cofactor assembly chaperone"; protein_id "WP_000571681.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1325311 1325313 . + 0 gene_id "ECDH10B_RS06610"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "narJ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309758.1"; locus_tag "ECDH10B_RS06610"; product "nitrate reductase molybdenum cofactor assembly chaperone"; protein_id "WP_000571681.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1325313 1325990 . + . gene_id "ECDH10B_RS06615"; transcript_id ""; gbkey "Gene"; gene "narI"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06615"; old_locus_tag "ECDH10B_1286"; -NC_010473.1 Protein Homology CDS 1325313 1325987 . + 0 gene_id "ECDH10B_RS06615"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "narI"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415745.1"; locus_tag "ECDH10B_RS06615"; product "respiratory nitrate reductase subunit gamma"; protein_id "WP_001160108.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1325313 1325315 . + 0 gene_id "ECDH10B_RS06615"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "narI"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415745.1"; locus_tag "ECDH10B_RS06615"; product "respiratory nitrate reductase subunit gamma"; protein_id "WP_001160108.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1325988 1325990 . + 0 gene_id "ECDH10B_RS06615"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "narI"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415745.1"; locus_tag "ECDH10B_RS06615"; product "respiratory nitrate reductase subunit gamma"; protein_id "WP_001160108.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1326174 1326305 . - . gene_id "ECDH10B_RS23350"; transcript_id ""; gbkey "Gene"; gene_biotype "ncRNA"; locus_tag "ECDH10B_RS23350"; -NC_010473.1 cmsearch exon 1326174 1326305 . - . gene_id "ECDH10B_RS23350"; transcript_id "ECDH10B_RS23350"; db_xref "RFAM:RF00391"; gbkey "ncRNA"; inference "COORDINATES: nucleotide motif:Rfam:12.0:RF00391"; inference "COORDINATES: profile:INFERNAL:1.1.1"; locus_tag "ECDH10B_RS23350"; note "rtT sRNA, processed from tyrT transcript"; product "RtT sRNA"; exon_number "1"; -NC_010473.1 RefSeq gene 1326352 1326483 . - . gene_id "ECDH10B_RS23355"; transcript_id ""; gbkey "Gene"; gene_biotype "ncRNA"; locus_tag "ECDH10B_RS23355"; -NC_010473.1 cmsearch exon 1326352 1326483 . - . gene_id "ECDH10B_RS23355"; transcript_id "ECDH10B_RS23355"; db_xref "RFAM:RF00391"; gbkey "ncRNA"; inference "COORDINATES: nucleotide motif:Rfam:12.0:RF00391"; inference "COORDINATES: profile:INFERNAL:1.1.1"; locus_tag "ECDH10B_RS23355"; note "rtT sRNA, processed from tyrT transcript"; product "RtT sRNA"; exon_number "1"; -NC_010473.1 RefSeq gene 1326530 1326661 . - . gene_id "ECDH10B_RS23360"; transcript_id ""; gbkey "Gene"; gene_biotype "ncRNA"; locus_tag "ECDH10B_RS23360"; old_locus_tag "ECDH10B_1288"; -NC_010473.1 cmsearch exon 1326530 1326661 . - . gene_id "ECDH10B_RS23360"; transcript_id "ECDH10B_RS23360"; db_xref "RFAM:RF00391"; gbkey "ncRNA"; inference "COORDINATES: nucleotide motif:Rfam:12.0:RF00391"; inference "COORDINATES: profile:INFERNAL:1.1.1"; locus_tag "ECDH10B_RS23360"; note "rtT sRNA, processed from tyrT transcript"; product "RtT sRNA"; exon_number "1"; -NC_010473.1 RefSeq gene 1326708 1326792 . - . gene_id "ECDH10B_RS06625"; transcript_id ""; gbkey "Gene"; gene_biotype "tRNA"; locus_tag "ECDH10B_RS06625"; old_locus_tag "ECDH10B_1290"; -NC_010473.1 tRNAscan-SE exon 1326708 1326792 . - . gene_id "ECDH10B_RS06625"; transcript_id "ECDH10B_RS06625"; anticodon "(pos:complement(1326756..1326758))"; gbkey "tRNA"; inference "COORDINATES: profile:tRNAscan-SE:2.0.6"; locus_tag "ECDH10B_RS06625"; product "tRNA-Tyr"; exon_number "1"; -NC_010473.1 RefSeq gene 1326827 1326958 . - . gene_id "ECDH10B_RS23365"; transcript_id ""; gbkey "Gene"; gene_biotype "ncRNA"; locus_tag "ECDH10B_RS23365"; -NC_010473.1 cmsearch exon 1326827 1326958 . - . gene_id "ECDH10B_RS23365"; transcript_id "ECDH10B_RS23365"; db_xref "RFAM:RF00391"; gbkey "ncRNA"; inference "COORDINATES: nucleotide motif:Rfam:12.0:RF00391"; inference "COORDINATES: profile:INFERNAL:1.1.1"; locus_tag "ECDH10B_RS23365"; note "rtT sRNA, processed from tyrT transcript"; product "RtT sRNA"; exon_number "1"; -NC_010473.1 RefSeq gene 1327002 1327086 . - . gene_id "ECDH10B_RS06630"; transcript_id ""; gbkey "Gene"; gene_biotype "tRNA"; locus_tag "ECDH10B_RS06630"; old_locus_tag "ECDH10B_1291"; -NC_010473.1 tRNAscan-SE exon 1327002 1327086 . - . gene_id "ECDH10B_RS06630"; transcript_id "ECDH10B_RS06630"; anticodon "(pos:complement(1327050..1327052))"; gbkey "tRNA"; inference "COORDINATES: profile:tRNAscan-SE:2.0.6"; locus_tag "ECDH10B_RS06630"; product "tRNA-Tyr"; exon_number "1"; -NC_010473.1 RefSeq gene 1327246 1328088 . - . gene_id "ECDH10B_RS06635"; transcript_id ""; gbkey "Gene"; gene "purU"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06635"; old_locus_tag "ECDH10B_1292"; -NC_010473.1 Protein Homology CDS 1327249 1328088 . - 0 gene_id "ECDH10B_RS06635"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "purU"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415748.1"; locus_tag "ECDH10B_RS06635"; product "formyltetrahydrofolate deformylase"; protein_id "WP_000555857.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1328086 1328088 . - 0 gene_id "ECDH10B_RS06635"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "purU"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415748.1"; locus_tag "ECDH10B_RS06635"; product "formyltetrahydrofolate deformylase"; protein_id "WP_000555857.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1327246 1327248 . - 0 gene_id "ECDH10B_RS06635"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "purU"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415748.1"; locus_tag "ECDH10B_RS06635"; product "formyltetrahydrofolate deformylase"; protein_id "WP_000555857.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1328138 1328596 . - . gene_id "ECDH10B_RS06640"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06640"; old_locus_tag "ECDH10B_1293"; -NC_010473.1 Protein Homology CDS 1328141 1328596 . - 0 gene_id "ECDH10B_RS06640"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415749.1"; locus_tag "ECDH10B_RS06640"; product "YchJ family protein"; protein_id "WP_001307143.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1328594 1328596 . - 0 gene_id "ECDH10B_RS06640"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415749.1"; locus_tag "ECDH10B_RS06640"; product "YchJ family protein"; protein_id "WP_001307143.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1328138 1328140 . - 0 gene_id "ECDH10B_RS06640"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415749.1"; locus_tag "ECDH10B_RS06640"; product "YchJ family protein"; protein_id "WP_001307143.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1328709 1329614 . + . gene_id "ECDH10B_RS06645"; transcript_id ""; gbkey "Gene"; gene "rssA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06645"; old_locus_tag "ECDH10B_1294"; -NC_010473.1 Protein Homology CDS 1328709 1329611 . + 0 gene_id "ECDH10B_RS06645"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rssA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_707140.2"; locus_tag "ECDH10B_RS06645"; product "patatin-like phospholipase RssA"; protein_id "WP_001295622.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1328709 1328711 . + 0 gene_id "ECDH10B_RS06645"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rssA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_707140.2"; locus_tag "ECDH10B_RS06645"; product "patatin-like phospholipase RssA"; protein_id "WP_001295622.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1329612 1329614 . + 0 gene_id "ECDH10B_RS06645"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rssA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_707140.2"; locus_tag "ECDH10B_RS06645"; product "patatin-like phospholipase RssA"; protein_id "WP_001295622.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1329706 1330719 . + . gene_id "ECDH10B_RS06650"; transcript_id ""; gbkey "Gene"; gene "rssB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06650"; old_locus_tag "ECDH10B_1295"; -NC_010473.1 Protein Homology CDS 1329706 1330716 . + 0 gene_id "ECDH10B_RS06650"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rssB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309764.1"; locus_tag "ECDH10B_RS06650"; product "two-component system response regulator RssB"; protein_id "WP_000193447.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1329706 1329708 . + 0 gene_id "ECDH10B_RS06650"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rssB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309764.1"; locus_tag "ECDH10B_RS06650"; product "two-component system response regulator RssB"; protein_id "WP_000193447.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1330717 1330719 . + 0 gene_id "ECDH10B_RS06650"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rssB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309764.1"; locus_tag "ECDH10B_RS06650"; product "two-component system response regulator RssB"; protein_id "WP_000193447.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1330921 1331829 . + . gene_id "ECDH10B_RS06655"; transcript_id ""; gbkey "Gene"; gene "galU"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06655"; old_locus_tag "ECDH10B_1296"; -NC_010473.1 Protein Homology CDS 1330921 1331826 . + 0 gene_id "ECDH10B_RS06655"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "galU"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309765.1"; locus_tag "ECDH10B_RS06655"; product "UTP--glucose-1-phosphate uridylyltransferase GalU"; protein_id "WP_000718995.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1330921 1330923 . + 0 gene_id "ECDH10B_RS06655"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "galU"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309765.1"; locus_tag "ECDH10B_RS06655"; product "UTP--glucose-1-phosphate uridylyltransferase GalU"; protein_id "WP_000718995.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1331827 1331829 . + 0 gene_id "ECDH10B_RS06655"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "galU"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309765.1"; locus_tag "ECDH10B_RS06655"; product "UTP--glucose-1-phosphate uridylyltransferase GalU"; protein_id "WP_000718995.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1331973 1332386 . - . gene_id "ECDH10B_RS06660"; transcript_id ""; gbkey "Gene"; gene "hns"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06660"; old_locus_tag "ECDH10B_1297"; -NC_010473.1 Protein Homology CDS 1331976 1332386 . - 0 gene_id "ECDH10B_RS06660"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hns"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309766.1"; locus_tag "ECDH10B_RS06660"; product "DNA-binding transcriptional regulator H-NS"; protein_id "WP_001287378.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1332384 1332386 . - 0 gene_id "ECDH10B_RS06660"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hns"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309766.1"; locus_tag "ECDH10B_RS06660"; product "DNA-binding transcriptional regulator H-NS"; protein_id "WP_001287378.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1331973 1331975 . - 0 gene_id "ECDH10B_RS06660"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hns"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309766.1"; locus_tag "ECDH10B_RS06660"; product "DNA-binding transcriptional regulator H-NS"; protein_id "WP_001287378.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1332991 1333608 . + . gene_id "ECDH10B_RS06665"; transcript_id ""; gbkey "Gene"; gene "tdk"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06665"; old_locus_tag "ECDH10B_1298"; -NC_010473.1 Protein Homology CDS 1332991 1333605 . + 0 gene_id "ECDH10B_RS06665"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tdk"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415754.1"; locus_tag "ECDH10B_RS06665"; product "thymidine kinase"; protein_id "WP_000068077.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1332991 1332993 . + 0 gene_id "ECDH10B_RS06665"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tdk"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415754.1"; locus_tag "ECDH10B_RS06665"; product "thymidine kinase"; protein_id "WP_000068077.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1333606 1333608 . + 0 gene_id "ECDH10B_RS06665"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tdk"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415754.1"; locus_tag "ECDH10B_RS06665"; product "thymidine kinase"; protein_id "WP_000068077.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1333890 1334786 . - . gene_id "ECDH10B_RS06670"; transcript_id ""; gbkey "Gene"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS06670"; old_locus_tag "ECDH10B_1300"; pseudo "true"; -NC_010473.1 Protein Homology CDS 1333893 1334786 . - 0 gene_id "ECDH10B_RS06670"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_012904641.1"; locus_tag "ECDH10B_RS06670"; note "frameshifted"; product "IS4 family transposase"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1334784 1334786 . - 0 gene_id "ECDH10B_RS06670"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_012904641.1"; locus_tag "ECDH10B_RS06670"; note "frameshifted"; product "IS4 family transposase"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1333890 1333892 . - 0 gene_id "ECDH10B_RS06670"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_012904641.1"; locus_tag "ECDH10B_RS06670"; note "frameshifted"; product "IS4 family transposase"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 1334910 1337585 . - . gene_id "ECDH10B_RS06680"; transcript_id ""; gbkey "Gene"; gene "adhE"; gene_biotype "protein_coding"; gene_synonym "adhC"; locus_tag "ECDH10B_RS06680"; old_locus_tag "ECDH10B_1302"; -NC_010473.1 Protein Homology CDS 1334913 1337585 . - 0 gene_id "ECDH10B_RS06680"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "adhE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309768.1"; locus_tag "ECDH10B_RS06680"; product "bifunctional acetaldehyde-CoA/alcohol dehydrogenase"; protein_id "WP_000301651.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1337583 1337585 . - 0 gene_id "ECDH10B_RS06680"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "adhE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309768.1"; locus_tag "ECDH10B_RS06680"; product "bifunctional acetaldehyde-CoA/alcohol dehydrogenase"; protein_id "WP_000301651.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1334910 1334912 . - 0 gene_id "ECDH10B_RS06680"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "adhE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309768.1"; locus_tag "ECDH10B_RS06680"; product "bifunctional acetaldehyde-CoA/alcohol dehydrogenase"; protein_id "WP_000301651.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1338062 1338709 . + . gene_id "ECDH10B_RS06685"; transcript_id ""; gbkey "Gene"; gene "ychE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06685"; old_locus_tag "ECDH10B_1303"; -NC_010473.1 Protein Homology CDS 1338062 1338706 . + 0 gene_id "ECDH10B_RS06685"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ychE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415758.1"; locus_tag "ECDH10B_RS06685"; product "NAAT family transporter YchE"; protein_id "WP_000616554.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1338062 1338064 . + 0 gene_id "ECDH10B_RS06685"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ychE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415758.1"; locus_tag "ECDH10B_RS06685"; product "NAAT family transporter YchE"; protein_id "WP_000616554.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1338707 1338709 . + 0 gene_id "ECDH10B_RS06685"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ychE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415758.1"; locus_tag "ECDH10B_RS06685"; product "NAAT family transporter YchE"; protein_id "WP_000616554.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1338867 1339163 . - . gene_id "ECDH10B_RS24010"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS24010"; -NC_010473.1 GeneMarkS-2+ CDS 1338870 1339163 . - 0 gene_id "ECDH10B_RS24010"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: ab initio prediction:GeneMarkS-2+"; locus_tag "ECDH10B_RS24010"; product "hypothetical protein"; protein_id "WP_001211520.1"; transl_table "11"; -NC_010473.1 GeneMarkS-2+ start_codon 1339161 1339163 . - 0 gene_id "ECDH10B_RS24010"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: ab initio prediction:GeneMarkS-2+"; locus_tag "ECDH10B_RS24010"; product "hypothetical protein"; protein_id "WP_001211520.1"; transl_table "11"; -NC_010473.1 GeneMarkS-2+ stop_codon 1338867 1338869 . - 0 gene_id "ECDH10B_RS24010"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: ab initio prediction:GeneMarkS-2+"; locus_tag "ECDH10B_RS24010"; product "hypothetical protein"; protein_id "WP_001211520.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1339379 1340076 . + . gene_id "ECDH10B_RS06690"; transcript_id ""; gbkey "Gene"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS06690"; pseudo "true"; -NC_010473.1 Protein Homology CDS 1339379 1340073 . + 0 gene_id "ECDH10B_RS06690"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_076612230.1"; locus_tag "ECDH10B_RS06690"; note "frameshifted"; product "IS1-like element IS1A family transposase"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1339379 1339381 . + 0 gene_id "ECDH10B_RS06690"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_076612230.1"; locus_tag "ECDH10B_RS06690"; note "frameshifted"; product "IS1-like element IS1A family transposase"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1340074 1340076 . + 0 gene_id "ECDH10B_RS06690"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_076612230.1"; locus_tag "ECDH10B_RS06690"; note "frameshifted"; product "IS1-like element IS1A family transposase"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 1340224 1341855 . + . gene_id "ECDH10B_RS06695"; transcript_id ""; gbkey "Gene"; gene "oppA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06695"; old_locus_tag "ECDH10B_1305"; -NC_010473.1 Protein Homology CDS 1340224 1341852 . + 0 gene_id "ECDH10B_RS06695"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "oppA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415759.1"; locus_tag "ECDH10B_RS06695"; product "oligopeptide ABC transporter substrate-binding protein OppA"; protein_id "WP_001407612.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1340224 1340226 . + 0 gene_id "ECDH10B_RS06695"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "oppA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415759.1"; locus_tag "ECDH10B_RS06695"; product "oligopeptide ABC transporter substrate-binding protein OppA"; protein_id "WP_001407612.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1341853 1341855 . + 0 gene_id "ECDH10B_RS06695"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "oppA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415759.1"; locus_tag "ECDH10B_RS06695"; product "oligopeptide ABC transporter substrate-binding protein OppA"; protein_id "WP_001407612.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1341941 1342861 . + . gene_id "ECDH10B_RS06700"; transcript_id ""; gbkey "Gene"; gene "oppB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06700"; old_locus_tag "ECDH10B_1306"; -NC_010473.1 Protein Homology CDS 1341941 1342858 . + 0 gene_id "ECDH10B_RS06700"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "oppB"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005126405.1"; locus_tag "ECDH10B_RS06700"; product "oligopeptide ABC transporter permease OppB"; protein_id "WP_000911112.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1341941 1341943 . + 0 gene_id "ECDH10B_RS06700"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "oppB"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005126405.1"; locus_tag "ECDH10B_RS06700"; product "oligopeptide ABC transporter permease OppB"; protein_id "WP_000911112.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1342859 1342861 . + 0 gene_id "ECDH10B_RS06700"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "oppB"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005126405.1"; locus_tag "ECDH10B_RS06700"; product "oligopeptide ABC transporter permease OppB"; protein_id "WP_000911112.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1342876 1343784 . + . gene_id "ECDH10B_RS06705"; transcript_id ""; gbkey "Gene"; gene "oppC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06705"; old_locus_tag "ECDH10B_1307"; -NC_010473.1 Protein Homology CDS 1342876 1343781 . + 0 gene_id "ECDH10B_RS06705"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "oppC"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000979653.1"; locus_tag "ECDH10B_RS06705"; product "oligopeptide ABC transporter permease OppC"; protein_id "WP_000979661.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1342876 1342878 . + 0 gene_id "ECDH10B_RS06705"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "oppC"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000979653.1"; locus_tag "ECDH10B_RS06705"; product "oligopeptide ABC transporter permease OppC"; protein_id "WP_000979661.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1343782 1343784 . + 0 gene_id "ECDH10B_RS06705"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "oppC"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000979653.1"; locus_tag "ECDH10B_RS06705"; product "oligopeptide ABC transporter permease OppC"; protein_id "WP_000979661.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1343796 1344809 . + . gene_id "ECDH10B_RS06710"; transcript_id ""; gbkey "Gene"; gene "oppD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06710"; old_locus_tag "ECDH10B_1308"; -NC_010473.1 Protein Homology CDS 1343796 1344806 . + 0 gene_id "ECDH10B_RS06710"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "oppD"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_025300.1"; locus_tag "ECDH10B_RS06710"; product "murein tripeptide/oligopeptide ABC transporter ATP binding protein OppD"; protein_id "WP_000110948.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1343796 1343798 . + 0 gene_id "ECDH10B_RS06710"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "oppD"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_025300.1"; locus_tag "ECDH10B_RS06710"; product "murein tripeptide/oligopeptide ABC transporter ATP binding protein OppD"; protein_id "WP_000110948.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1344807 1344809 . + 0 gene_id "ECDH10B_RS06710"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "oppD"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_025300.1"; locus_tag "ECDH10B_RS06710"; product "murein tripeptide/oligopeptide ABC transporter ATP binding protein OppD"; protein_id "WP_000110948.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1344806 1345810 . + . gene_id "ECDH10B_RS06715"; transcript_id ""; gbkey "Gene"; gene "oppF"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06715"; old_locus_tag "ECDH10B_1309"; -NC_010473.1 Protein Homology CDS 1344806 1345807 . + 0 gene_id "ECDH10B_RS06715"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "oppF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309774.1"; locus_tag "ECDH10B_RS06715"; product "murein tripeptide/oligopeptide ABC transporter ATP binding protein OppF"; protein_id "WP_000994905.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1344806 1344808 . + 0 gene_id "ECDH10B_RS06715"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "oppF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309774.1"; locus_tag "ECDH10B_RS06715"; product "murein tripeptide/oligopeptide ABC transporter ATP binding protein OppF"; protein_id "WP_000994905.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1345808 1345810 . + 0 gene_id "ECDH10B_RS06715"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "oppF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309774.1"; locus_tag "ECDH10B_RS06715"; product "murein tripeptide/oligopeptide ABC transporter ATP binding protein OppF"; protein_id "WP_000994905.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1345863 1346192 . - . gene_id "ECDH10B_RS06720"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06720"; old_locus_tag "ECDH10B_1310"; -NC_010473.1 Protein Homology CDS 1345866 1346192 . - 0 gene_id "ECDH10B_RS06720"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309775.2"; locus_tag "ECDH10B_RS06720"; product "YciU family protein"; protein_id "WP_000366959.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1346190 1346192 . - 0 gene_id "ECDH10B_RS06720"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309775.2"; locus_tag "ECDH10B_RS06720"; product "YciU family protein"; protein_id "WP_000366959.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1345863 1345865 . - 0 gene_id "ECDH10B_RS06720"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309775.2"; locus_tag "ECDH10B_RS06720"; product "YciU family protein"; protein_id "WP_000366959.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1346227 1347687 . - . gene_id "ECDH10B_RS06725"; transcript_id ""; gbkey "Gene"; gene "cls"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06725"; old_locus_tag "ECDH10B_1311"; -NC_010473.1 Protein Homology CDS 1346230 1347687 . - 0 gene_id "ECDH10B_RS06725"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cls"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005126413.1"; locus_tag "ECDH10B_RS06725"; product "cardiolipin synthase"; protein_id "WP_000214516.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1347685 1347687 . - 0 gene_id "ECDH10B_RS06725"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cls"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005126413.1"; locus_tag "ECDH10B_RS06725"; product "cardiolipin synthase"; protein_id "WP_000214516.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1346227 1346229 . - 0 gene_id "ECDH10B_RS06725"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cls"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005126413.1"; locus_tag "ECDH10B_RS06725"; product "cardiolipin synthase"; protein_id "WP_000214516.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1347830 1348003 . + . gene_id "ECDH10B_RS25930"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS25930"; -NC_010473.1 Protein Homology CDS 1347830 1348000 . + 0 gene_id "ECDH10B_RS25930"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_001165316.1"; locus_tag "ECDH10B_RS25930"; product "YciY family protein"; protein_id "WP_001309467.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1347830 1347832 . + 0 gene_id "ECDH10B_RS25930"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_001165316.1"; locus_tag "ECDH10B_RS25930"; product "YciY family protein"; protein_id "WP_001309467.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1348001 1348003 . + 0 gene_id "ECDH10B_RS25930"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_001165316.1"; locus_tag "ECDH10B_RS25930"; product "YciY family protein"; protein_id "WP_001309467.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1348058 1349311 . - . gene_id "ECDH10B_RS06735"; transcript_id ""; gbkey "Gene"; gene "kch"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06735"; old_locus_tag "ECDH10B_1312"; -NC_010473.1 Protein Homology CDS 1348061 1349311 . - 0 gene_id "ECDH10B_RS06735"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "kch"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415766.1"; locus_tag "ECDH10B_RS06735"; product "voltage-gated potassium channel protein"; protein_id "WP_001295624.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1349309 1349311 . - 0 gene_id "ECDH10B_RS06735"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "kch"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415766.1"; locus_tag "ECDH10B_RS06735"; product "voltage-gated potassium channel protein"; protein_id "WP_001295624.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1348058 1348060 . - 0 gene_id "ECDH10B_RS06735"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "kch"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415766.1"; locus_tag "ECDH10B_RS06735"; product "voltage-gated potassium channel protein"; protein_id "WP_001295624.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1349816 1351009 . + . gene_id "ECDH10B_RS06740"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06740"; old_locus_tag "ECDH10B_1313"; -NC_010473.1 Protein Homology CDS 1349816 1351006 . + 0 gene_id "ECDH10B_RS06740"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_008322520.1"; locus_tag "ECDH10B_RS06740"; product "site-specific integrase"; protein_id "WP_000627155.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1349816 1349818 . + 0 gene_id "ECDH10B_RS06740"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_008322520.1"; locus_tag "ECDH10B_RS06740"; product "site-specific integrase"; protein_id "WP_000627155.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1351007 1351009 . + 0 gene_id "ECDH10B_RS06740"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_008322520.1"; locus_tag "ECDH10B_RS06740"; product "site-specific integrase"; protein_id "WP_000627155.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1351245 1351484 . - . gene_id "ECDH10B_RS06750"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06750"; old_locus_tag "ECDH10B_1315"; -NC_010473.1 Protein Homology CDS 1351248 1351484 . - 0 gene_id "ECDH10B_RS06750"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001237029.1"; locus_tag "ECDH10B_RS06750"; product "DUF4060 family protein"; protein_id "WP_024168593.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1351482 1351484 . - 0 gene_id "ECDH10B_RS06750"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001237029.1"; locus_tag "ECDH10B_RS06750"; product "DUF4060 family protein"; protein_id "WP_024168593.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1351245 1351247 . - 0 gene_id "ECDH10B_RS06750"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001237029.1"; locus_tag "ECDH10B_RS06750"; product "DUF4060 family protein"; protein_id "WP_024168593.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1351487 1352372 . - . gene_id "ECDH10B_RS06755"; transcript_id ""; gbkey "Gene"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS06755"; old_locus_tag "ECDH10B_1316"; pseudo "true"; -NC_010473.1 Protein Homology CDS 1351490 1352372 . - 0 gene_id "ECDH10B_RS06755"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_010989138.1"; locus_tag "ECDH10B_RS06755"; note "frameshifted"; product "Dam family site-specific DNA-(adenine-N6)-methyltransferase"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1352370 1352372 . - 0 gene_id "ECDH10B_RS06755"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_010989138.1"; locus_tag "ECDH10B_RS06755"; note "frameshifted"; product "Dam family site-specific DNA-(adenine-N6)-methyltransferase"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1351487 1351489 . - 0 gene_id "ECDH10B_RS06755"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_010989138.1"; locus_tag "ECDH10B_RS06755"; note "frameshifted"; product "Dam family site-specific DNA-(adenine-N6)-methyltransferase"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 1352369 1352521 . - . gene_id "ECDH10B_RS06760"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06760"; -NC_010473.1 Protein Homology CDS 1352372 1352521 . - 0 gene_id "ECDH10B_RS06760"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000148437.1"; locus_tag "ECDH10B_RS06760"; product "DUF1317 family protein"; protein_id "WP_000148438.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1352519 1352521 . - 0 gene_id "ECDH10B_RS06760"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000148437.1"; locus_tag "ECDH10B_RS06760"; product "DUF1317 family protein"; protein_id "WP_000148438.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1352369 1352371 . - 0 gene_id "ECDH10B_RS06760"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000148437.1"; locus_tag "ECDH10B_RS06760"; product "DUF1317 family protein"; protein_id "WP_000148438.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1352518 1352946 . - . gene_id "ECDH10B_RS06765"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06765"; old_locus_tag "ECDH10B_1317"; -NC_010473.1 Protein Homology CDS 1352521 1352946 . - 0 gene_id "ECDH10B_RS06765"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_020804412.1"; locus_tag "ECDH10B_RS06765"; product "hypothetical protein"; protein_id "WP_000831730.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1352944 1352946 . - 0 gene_id "ECDH10B_RS06765"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_020804412.1"; locus_tag "ECDH10B_RS06765"; product "hypothetical protein"; protein_id "WP_000831730.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1352518 1352520 . - 0 gene_id "ECDH10B_RS06765"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_020804412.1"; locus_tag "ECDH10B_RS06765"; product "hypothetical protein"; protein_id "WP_000831730.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1352943 1353623 . - . gene_id "ECDH10B_RS06770"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06770"; old_locus_tag "ECDH10B_1318"; -NC_010473.1 Protein Homology CDS 1352946 1353623 . - 0 gene_id "ECDH10B_RS06770"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308836.1"; locus_tag "ECDH10B_RS06770"; product "YqaJ viral recombinase family protein"; protein_id "WP_000187057.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1353621 1353623 . - 0 gene_id "ECDH10B_RS06770"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308836.1"; locus_tag "ECDH10B_RS06770"; product "YqaJ viral recombinase family protein"; protein_id "WP_000187057.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1352943 1352945 . - 0 gene_id "ECDH10B_RS06770"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308836.1"; locus_tag "ECDH10B_RS06770"; product "YqaJ viral recombinase family protein"; protein_id "WP_000187057.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1353620 1354537 . - . gene_id "ECDH10B_RS06775"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06775"; old_locus_tag "ECDH10B_1319"; -NC_010473.1 Protein Homology CDS 1353623 1354537 . - 0 gene_id "ECDH10B_RS06775"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_012016406.1"; locus_tag "ECDH10B_RS06775"; product "recombinase RecT"; protein_id "WP_000059964.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1354535 1354537 . - 0 gene_id "ECDH10B_RS06775"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_012016406.1"; locus_tag "ECDH10B_RS06775"; product "recombinase RecT"; protein_id "WP_000059964.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1353620 1353622 . - 0 gene_id "ECDH10B_RS06775"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_012016406.1"; locus_tag "ECDH10B_RS06775"; product "recombinase RecT"; protein_id "WP_000059964.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1354547 1354828 . - . gene_id "ECDH10B_RS06780"; transcript_id ""; gbkey "Gene"; gene "gamL"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06780"; old_locus_tag "ECDH10B_1320"; -NC_010473.1 Protein Homology CDS 1354550 1354828 . - 0 gene_id "ECDH10B_RS06780"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gamL"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_017693158.1"; locus_tag "ECDH10B_RS06780"; product "host nuclease inhibitor GamL"; protein_id "WP_000995354.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1354826 1354828 . - 0 gene_id "ECDH10B_RS06780"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gamL"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_017693158.1"; locus_tag "ECDH10B_RS06780"; product "host nuclease inhibitor GamL"; protein_id "WP_000995354.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1354547 1354549 . - 0 gene_id "ECDH10B_RS06780"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gamL"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_017693158.1"; locus_tag "ECDH10B_RS06780"; product "host nuclease inhibitor GamL"; protein_id "WP_000995354.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1354836 1355804 . - . gene_id "ECDH10B_RS06785"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06785"; old_locus_tag "ECDH10B_1321"; -NC_010473.1 Protein Homology CDS 1354839 1355804 . - 0 gene_id "ECDH10B_RS06785"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_006820556.1"; locus_tag "ECDH10B_RS06785"; product "hypothetical protein"; protein_id "WP_000005775.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1355802 1355804 . - 0 gene_id "ECDH10B_RS06785"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_006820556.1"; locus_tag "ECDH10B_RS06785"; product "hypothetical protein"; protein_id "WP_000005775.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1354836 1354838 . - 0 gene_id "ECDH10B_RS06785"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_006820556.1"; locus_tag "ECDH10B_RS06785"; product "hypothetical protein"; protein_id "WP_000005775.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1355909 1356745 . - . gene_id "ECDH10B_RS06790"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06790"; old_locus_tag "ECDH10B_1322"; -NC_010473.1 Protein Homology CDS 1355912 1356745 . - 0 gene_id "ECDH10B_RS06790"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_003833697.1"; locus_tag "ECDH10B_RS06790"; product "zf-TFIIB domain-containing protein"; protein_id "WP_000448252.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1356743 1356745 . - 0 gene_id "ECDH10B_RS06790"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_003833697.1"; locus_tag "ECDH10B_RS06790"; product "zf-TFIIB domain-containing protein"; protein_id "WP_000448252.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1355909 1355911 . - 0 gene_id "ECDH10B_RS06790"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_003833697.1"; locus_tag "ECDH10B_RS06790"; product "zf-TFIIB domain-containing protein"; protein_id "WP_000448252.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1356756 1356965 . - . gene_id "ECDH10B_RS06795"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06795"; old_locus_tag "ECDH10B_1323"; -NC_010473.1 Protein Homology CDS 1356759 1356965 . - 0 gene_id "ECDH10B_RS06795"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_006809788.1"; locus_tag "ECDH10B_RS06795"; product "cell division protein FtsZ"; protein_id "WP_000607102.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1356963 1356965 . - 0 gene_id "ECDH10B_RS06795"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_006809788.1"; locus_tag "ECDH10B_RS06795"; product "cell division protein FtsZ"; protein_id "WP_000607102.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1356756 1356758 . - 0 gene_id "ECDH10B_RS06795"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_006809788.1"; locus_tag "ECDH10B_RS06795"; product "cell division protein FtsZ"; protein_id "WP_000607102.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1356962 1357120 . - . gene_id "ECDH10B_RS26295"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS26295"; old_locus_tag "ECDH10B_1324"; -NC_010473.1 Protein Homology CDS 1356965 1357120 . - 0 gene_id "ECDH10B_RS26295"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000218994.1"; locus_tag "ECDH10B_RS26295"; product "hypothetical protein"; protein_id "WP_000218995.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1357118 1357120 . - 0 gene_id "ECDH10B_RS26295"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000218994.1"; locus_tag "ECDH10B_RS26295"; product "hypothetical protein"; protein_id "WP_000218995.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1356962 1356964 . - 0 gene_id "ECDH10B_RS26295"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000218994.1"; locus_tag "ECDH10B_RS26295"; product "hypothetical protein"; protein_id "WP_000218995.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1357122 1357331 . - . gene_id "ECDH10B_RS06800"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06800"; old_locus_tag "ECDH10B_1325"; -NC_010473.1 Protein Homology CDS 1357125 1357331 . - 0 gene_id "ECDH10B_RS06800"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001281305.1"; locus_tag "ECDH10B_RS06800"; product "hypothetical protein"; protein_id "WP_001281305.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1357329 1357331 . - 0 gene_id "ECDH10B_RS06800"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001281305.1"; locus_tag "ECDH10B_RS06800"; product "hypothetical protein"; protein_id "WP_001281305.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1357122 1357124 . - 0 gene_id "ECDH10B_RS06800"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001281305.1"; locus_tag "ECDH10B_RS06800"; product "hypothetical protein"; protein_id "WP_001281305.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1357487 1357783 . - . gene_id "ECDH10B_RS06805"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06805"; old_locus_tag "ECDH10B_1326"; -NC_010473.1 Protein Homology CDS 1357490 1357783 . - 0 gene_id "ECDH10B_RS06805"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000564503.1"; locus_tag "ECDH10B_RS06805"; product "hypothetical protein"; protein_id "WP_000564503.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1357781 1357783 . - 0 gene_id "ECDH10B_RS06805"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000564503.1"; locus_tag "ECDH10B_RS06805"; product "hypothetical protein"; protein_id "WP_000564503.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1357487 1357489 . - 0 gene_id "ECDH10B_RS06805"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000564503.1"; locus_tag "ECDH10B_RS06805"; product "hypothetical protein"; protein_id "WP_000564503.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1358341 1358550 . + . gene_id "ECDH10B_RS06810"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06810"; -NC_010473.1 Protein Homology CDS 1358341 1358547 . + 0 gene_id "ECDH10B_RS06810"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_006809191.1"; locus_tag "ECDH10B_RS06810"; product "hypothetical protein"; protein_id "WP_000362427.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1358341 1358343 . + 0 gene_id "ECDH10B_RS06810"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_006809191.1"; locus_tag "ECDH10B_RS06810"; product "hypothetical protein"; protein_id "WP_000362427.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1358548 1358550 . + 0 gene_id "ECDH10B_RS06810"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_006809191.1"; locus_tag "ECDH10B_RS06810"; product "hypothetical protein"; protein_id "WP_000362427.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1358581 1359447 . - . gene_id "ECDH10B_RS06815"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06815"; old_locus_tag "ECDH10B_1327"; -NC_010473.1 Protein Homology CDS 1358584 1359447 . - 0 gene_id "ECDH10B_RS06815"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_004196554.1"; locus_tag "ECDH10B_RS06815"; product "hypothetical protein"; protein_id "WP_000432054.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1359445 1359447 . - 0 gene_id "ECDH10B_RS06815"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_004196554.1"; locus_tag "ECDH10B_RS06815"; product "hypothetical protein"; protein_id "WP_000432054.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1358581 1358583 . - 0 gene_id "ECDH10B_RS06815"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_004196554.1"; locus_tag "ECDH10B_RS06815"; product "hypothetical protein"; protein_id "WP_000432054.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1359584 1360348 . - . gene_id "ECDH10B_RS06820"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06820"; old_locus_tag "ECDH10B_1328"; -NC_010473.1 Protein Homology CDS 1359587 1360348 . - 0 gene_id "ECDH10B_RS06820"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_016063433.1"; locus_tag "ECDH10B_RS06820"; product "helix-turn-helix transcriptional regulator"; protein_id "WP_000244936.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1360346 1360348 . - 0 gene_id "ECDH10B_RS06820"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_016063433.1"; locus_tag "ECDH10B_RS06820"; product "helix-turn-helix transcriptional regulator"; protein_id "WP_000244936.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1359584 1359586 . - 0 gene_id "ECDH10B_RS06820"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_016063433.1"; locus_tag "ECDH10B_RS06820"; product "helix-turn-helix transcriptional regulator"; protein_id "WP_000244936.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1360412 1360633 . + . gene_id "ECDH10B_RS06825"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06825"; old_locus_tag "ECDH10B_1329"; -NC_010473.1 Protein Homology CDS 1360412 1360630 . + 0 gene_id "ECDH10B_RS06825"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_016063434.1"; locus_tag "ECDH10B_RS06825"; product "helix-turn-helix domain-containing protein"; protein_id "WP_000608751.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1360412 1360414 . + 0 gene_id "ECDH10B_RS06825"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_016063434.1"; locus_tag "ECDH10B_RS06825"; product "helix-turn-helix domain-containing protein"; protein_id "WP_000608751.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1360631 1360633 . + 0 gene_id "ECDH10B_RS06825"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_016063434.1"; locus_tag "ECDH10B_RS06825"; product "helix-turn-helix domain-containing protein"; protein_id "WP_000608751.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1360664 1361206 . + . gene_id "ECDH10B_RS06830"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06830"; old_locus_tag "ECDH10B_1330"; -NC_010473.1 Protein Homology CDS 1360664 1361203 . + 0 gene_id "ECDH10B_RS06830"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001752697.1"; locus_tag "ECDH10B_RS06830"; product "toxin YdaT domain-containing protein"; protein_id "WP_000555791.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1360664 1360666 . + 0 gene_id "ECDH10B_RS06830"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001752697.1"; locus_tag "ECDH10B_RS06830"; product "toxin YdaT domain-containing protein"; protein_id "WP_000555791.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1361204 1361206 . + 0 gene_id "ECDH10B_RS06830"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001752697.1"; locus_tag "ECDH10B_RS06830"; product "toxin YdaT domain-containing protein"; protein_id "WP_000555791.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1361292 1362200 . + . gene_id "ECDH10B_RS06835"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06835"; old_locus_tag "ECDH10B_1331"; -NC_010473.1 Protein Homology CDS 1361292 1362197 . + 0 gene_id "ECDH10B_RS06835"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_016063435.1"; locus_tag "ECDH10B_RS06835"; product "replication protein"; protein_id "WP_000072106.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1361292 1361294 . + 0 gene_id "ECDH10B_RS06835"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_016063435.1"; locus_tag "ECDH10B_RS06835"; product "replication protein"; protein_id "WP_000072106.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1362198 1362200 . + 0 gene_id "ECDH10B_RS06835"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_016063435.1"; locus_tag "ECDH10B_RS06835"; product "replication protein"; protein_id "WP_000072106.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1362197 1362886 . + . gene_id "ECDH10B_RS06840"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06840"; old_locus_tag "ECDH10B_1332"; -NC_010473.1 Protein Homology CDS 1362197 1362883 . + 0 gene_id "ECDH10B_RS06840"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_016066203.1"; locus_tag "ECDH10B_RS06840"; product "hypothetical protein"; protein_id "WP_000838083.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1362197 1362199 . + 0 gene_id "ECDH10B_RS06840"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_016066203.1"; locus_tag "ECDH10B_RS06840"; product "hypothetical protein"; protein_id "WP_000838083.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1362884 1362886 . + 0 gene_id "ECDH10B_RS06840"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_016066203.1"; locus_tag "ECDH10B_RS06840"; product "hypothetical protein"; protein_id "WP_000838083.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1362950 1363534 . + . gene_id "ECDH10B_RS06845"; transcript_id ""; gbkey "Gene"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS06845"; old_locus_tag "ECDH10B_1333"; partial "true"; pseudo "true"; -NC_010473.1 Protein Homology CDS 1362950 1363531 . + 0 gene_id "ECDH10B_RS06845"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_016239853.1"; locus_tag "ECDH10B_RS06845"; note "incomplete; partial in the middle of a contig; missing C-terminus"; partial "true"; product "hypothetical protein"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1362950 1362952 . + 0 gene_id "ECDH10B_RS06845"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_016239853.1"; locus_tag "ECDH10B_RS06845"; note "incomplete; partial in the middle of a contig; missing C-terminus"; partial "true"; product "hypothetical protein"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1363532 1363534 . + 0 gene_id "ECDH10B_RS06845"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_016239853.1"; locus_tag "ECDH10B_RS06845"; note "incomplete; partial in the middle of a contig; missing C-terminus"; partial "true"; product "hypothetical protein"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 1363890 1364345 . + . gene_id "ECDH10B_RS06850"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06850"; old_locus_tag "ECDH10B_1334"; -NC_010473.1 Protein Homology CDS 1363890 1364342 . + 0 gene_id "ECDH10B_RS06850"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001054340.1"; locus_tag "ECDH10B_RS06850"; product "YbcN family protein"; protein_id "WP_000586532.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1363890 1363892 . + 0 gene_id "ECDH10B_RS06850"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001054340.1"; locus_tag "ECDH10B_RS06850"; product "YbcN family protein"; protein_id "WP_000586532.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1364343 1364345 . + 0 gene_id "ECDH10B_RS06850"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001054340.1"; locus_tag "ECDH10B_RS06850"; product "YbcN family protein"; protein_id "WP_000586532.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1364345 1364515 . + . gene_id "ECDH10B_RS06855"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06855"; -NC_010473.1 Protein Homology CDS 1364345 1364512 . + 0 gene_id "ECDH10B_RS06855"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_006809770.1"; locus_tag "ECDH10B_RS06855"; product "NinE family protein"; protein_id "WP_000106777.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1364345 1364347 . + 0 gene_id "ECDH10B_RS06855"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_006809770.1"; locus_tag "ECDH10B_RS06855"; product "NinE family protein"; protein_id "WP_000106777.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1364513 1364515 . + 0 gene_id "ECDH10B_RS06855"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_006809770.1"; locus_tag "ECDH10B_RS06855"; product "NinE family protein"; protein_id "WP_000106777.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1364512 1365180 . + . gene_id "ECDH10B_RS06860"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06860"; old_locus_tag "ECDH10B_1335"; -NC_010473.1 Protein Homology CDS 1364512 1365177 . + 0 gene_id "ECDH10B_RS06860"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_004218532.1"; locus_tag "ECDH10B_RS06860"; product "serine/threonine protein phosphatase"; protein_id "WP_000063208.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1364512 1364514 . + 0 gene_id "ECDH10B_RS06860"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_004218532.1"; locus_tag "ECDH10B_RS06860"; product "serine/threonine protein phosphatase"; protein_id "WP_000063208.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1365178 1365180 . + 0 gene_id "ECDH10B_RS06860"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_004218532.1"; locus_tag "ECDH10B_RS06860"; product "serine/threonine protein phosphatase"; protein_id "WP_000063208.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1365173 1365814 . + . gene_id "ECDH10B_RS06865"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06865"; old_locus_tag "ECDH10B_1336"; -NC_010473.1 Protein Homology CDS 1365173 1365811 . + 0 gene_id "ECDH10B_RS06865"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_004178833.1"; locus_tag "ECDH10B_RS06865"; product "recombination protein NinG"; protein_id "WP_001231139.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1365173 1365175 . + 0 gene_id "ECDH10B_RS06865"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_004178833.1"; locus_tag "ECDH10B_RS06865"; product "recombination protein NinG"; protein_id "WP_001231139.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1365812 1365814 . + 0 gene_id "ECDH10B_RS06865"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_004178833.1"; locus_tag "ECDH10B_RS06865"; product "recombination protein NinG"; protein_id "WP_001231139.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1365811 1366017 . + . gene_id "ECDH10B_RS06870"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06870"; -NC_010473.1 Protein Homology CDS 1365811 1366014 . + 0 gene_id "ECDH10B_RS06870"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: protein motif:HMM:NF025712.1"; locus_tag "ECDH10B_RS06870"; product "Lar family restriction alleviation protein"; protein_id "WP_048813386.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1365811 1365813 . + 0 gene_id "ECDH10B_RS06870"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: protein motif:HMM:NF025712.1"; locus_tag "ECDH10B_RS06870"; product "Lar family restriction alleviation protein"; protein_id "WP_048813386.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1366015 1366017 . + 0 gene_id "ECDH10B_RS06870"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: protein motif:HMM:NF025712.1"; locus_tag "ECDH10B_RS06870"; product "Lar family restriction alleviation protein"; protein_id "WP_048813386.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1366014 1366130 . + . gene_id "ECDH10B_RS25935"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS25935"; -NC_010473.1 Protein Homology CDS 1366014 1366127 . + 0 gene_id "ECDH10B_RS25935"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_005225557.1"; locus_tag "ECDH10B_RS25935"; product "hypothetical protein"; protein_id "WP_085903671.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1366014 1366016 . + 0 gene_id "ECDH10B_RS25935"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_005225557.1"; locus_tag "ECDH10B_RS25935"; product "hypothetical protein"; protein_id "WP_085903671.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1366128 1366130 . + 0 gene_id "ECDH10B_RS25935"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_005225557.1"; locus_tag "ECDH10B_RS25935"; product "hypothetical protein"; protein_id "WP_085903671.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1366130 1366939 . + . gene_id "ECDH10B_RS06875"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06875"; old_locus_tag "ECDH10B_1337"; -NC_010473.1 Protein Homology CDS 1366130 1366936 . + 0 gene_id "ECDH10B_RS06875"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001047620.1"; locus_tag "ECDH10B_RS06875"; product "antitermination protein"; protein_id "WP_001047620.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1366130 1366132 . + 0 gene_id "ECDH10B_RS06875"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001047620.1"; locus_tag "ECDH10B_RS06875"; product "antitermination protein"; protein_id "WP_001047620.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1366937 1366939 . + 0 gene_id "ECDH10B_RS06875"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001047620.1"; locus_tag "ECDH10B_RS06875"; product "antitermination protein"; protein_id "WP_001047620.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1367418 1367642 . + . gene_id "ECDH10B_RS06880"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06880"; old_locus_tag "ECDH10B_1338"; -NC_010473.1 Protein Homology CDS 1367418 1367639 . + 0 gene_id "ECDH10B_RS06880"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_020882504.1"; locus_tag "ECDH10B_RS06880"; product "class II holin family protein"; protein_id "WP_000286101.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1367418 1367420 . + 0 gene_id "ECDH10B_RS06880"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_020882504.1"; locus_tag "ECDH10B_RS06880"; product "class II holin family protein"; protein_id "WP_000286101.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1367640 1367642 . + 0 gene_id "ECDH10B_RS06880"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_020882504.1"; locus_tag "ECDH10B_RS06880"; product "class II holin family protein"; protein_id "WP_000286101.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1367620 1368114 . + . gene_id "ECDH10B_RS06885"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06885"; old_locus_tag "ECDH10B_1339"; -NC_010473.1 Protein Homology CDS 1367620 1368111 . + 0 gene_id "ECDH10B_RS06885"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001135281.1"; locus_tag "ECDH10B_RS06885"; product "lysozyme"; protein_id "WP_001070143.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1367620 1367622 . + 0 gene_id "ECDH10B_RS06885"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001135281.1"; locus_tag "ECDH10B_RS06885"; product "lysozyme"; protein_id "WP_001070143.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1368112 1368114 . + 0 gene_id "ECDH10B_RS06885"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001135281.1"; locus_tag "ECDH10B_RS06885"; product "lysozyme"; protein_id "WP_001070143.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1368111 1368569 . + . gene_id "ECDH10B_RS06890"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06890"; old_locus_tag "ECDH10B_1340"; -NC_010473.1 Protein Homology CDS 1368111 1368566 . + 0 gene_id "ECDH10B_RS06890"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005760024.1"; locus_tag "ECDH10B_RS06890"; product "lysis protein"; protein_id "WP_012305470.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1368111 1368113 . + 0 gene_id "ECDH10B_RS06890"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005760024.1"; locus_tag "ECDH10B_RS06890"; product "lysis protein"; protein_id "WP_012305470.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1368567 1368569 . + 0 gene_id "ECDH10B_RS06890"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005760024.1"; locus_tag "ECDH10B_RS06890"; product "lysis protein"; protein_id "WP_012305470.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1368768 1369286 . + . gene_id "ECDH10B_RS06895"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06895"; old_locus_tag "ECDH10B_1342"; -NC_010473.1 Protein Homology CDS 1368768 1369283 . + 0 gene_id "ECDH10B_RS06895"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001064344.1"; locus_tag "ECDH10B_RS06895"; product "Rha family transcriptional regulator"; protein_id "WP_001064347.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1368768 1368770 . + 0 gene_id "ECDH10B_RS06895"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001064344.1"; locus_tag "ECDH10B_RS06895"; product "Rha family transcriptional regulator"; protein_id "WP_001064347.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1369284 1369286 . + 0 gene_id "ECDH10B_RS06895"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001064344.1"; locus_tag "ECDH10B_RS06895"; product "Rha family transcriptional regulator"; protein_id "WP_001064347.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1369358 1369954 . - . gene_id "ECDH10B_RS06900"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06900"; old_locus_tag "ECDH10B_1343"; -NC_010473.1 Protein Homology CDS 1369361 1369954 . - 0 gene_id "ECDH10B_RS06900"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001446081.1"; locus_tag "ECDH10B_RS06900"; product "hypothetical protein"; protein_id "WP_001446081.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1369952 1369954 . - 0 gene_id "ECDH10B_RS06900"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001446081.1"; locus_tag "ECDH10B_RS06900"; product "hypothetical protein"; protein_id "WP_001446081.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1369358 1369360 . - 0 gene_id "ECDH10B_RS06900"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001446081.1"; locus_tag "ECDH10B_RS06900"; product "hypothetical protein"; protein_id "WP_001446081.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1370345 1371073 . + . gene_id "ECDH10B_RS06910"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06910"; old_locus_tag "ECDH10B_1345"; -NC_010473.1 Protein Homology CDS 1370345 1371070 . + 0 gene_id "ECDH10B_RS06910"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000066211.1"; locus_tag "ECDH10B_RS06910"; product "hypothetical protein"; protein_id "WP_000509882.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1370345 1370347 . + 0 gene_id "ECDH10B_RS06910"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000066211.1"; locus_tag "ECDH10B_RS06910"; product "hypothetical protein"; protein_id "WP_000509882.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1371071 1371073 . + 0 gene_id "ECDH10B_RS06910"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000066211.1"; locus_tag "ECDH10B_RS06910"; product "hypothetical protein"; protein_id "WP_000509882.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1371321 1371866 . + . gene_id "ECDH10B_RS06915"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06915"; old_locus_tag "ECDH10B_1346"; -NC_010473.1 Protein Homology CDS 1371321 1371863 . + 0 gene_id "ECDH10B_RS06915"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309656.1"; locus_tag "ECDH10B_RS06915"; product "terminase small subunit"; protein_id "WP_000453624.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1371321 1371323 . + 0 gene_id "ECDH10B_RS06915"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309656.1"; locus_tag "ECDH10B_RS06915"; product "terminase small subunit"; protein_id "WP_000453624.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1371864 1371866 . + 0 gene_id "ECDH10B_RS06915"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309656.1"; locus_tag "ECDH10B_RS06915"; product "terminase small subunit"; protein_id "WP_000453624.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1371841 1373763 . + . gene_id "ECDH10B_RS06920"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06920"; old_locus_tag "ECDH10B_1347"; -NC_010473.1 Protein Homology CDS 1371841 1373760 . + 0 gene_id "ECDH10B_RS06920"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309657.1"; locus_tag "ECDH10B_RS06920"; product "phage terminase large subunit family protein"; protein_id "WP_001027236.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1371841 1371843 . + 0 gene_id "ECDH10B_RS06920"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309657.1"; locus_tag "ECDH10B_RS06920"; product "phage terminase large subunit family protein"; protein_id "WP_001027236.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1373761 1373763 . + 0 gene_id "ECDH10B_RS06920"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309657.1"; locus_tag "ECDH10B_RS06920"; product "phage terminase large subunit family protein"; protein_id "WP_001027236.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1373763 1373969 . + . gene_id "ECDH10B_RS06925"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06925"; old_locus_tag "ECDH10B_1348"; -NC_010473.1 Protein Homology CDS 1373763 1373966 . + 0 gene_id "ECDH10B_RS06925"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309658.1"; locus_tag "ECDH10B_RS06925"; product "gpW family protein"; protein_id "WP_000235412.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1373763 1373765 . + 0 gene_id "ECDH10B_RS06925"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309658.1"; locus_tag "ECDH10B_RS06925"; product "gpW family protein"; protein_id "WP_000235412.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1373967 1373969 . + 0 gene_id "ECDH10B_RS06925"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309658.1"; locus_tag "ECDH10B_RS06925"; product "gpW family protein"; protein_id "WP_000235412.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1373966 1375558 . + . gene_id "ECDH10B_RS06930"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06930"; old_locus_tag "ECDH10B_1349"; -NC_010473.1 Protein Homology CDS 1373966 1375555 . + 0 gene_id "ECDH10B_RS06930"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001322715.1"; locus_tag "ECDH10B_RS06930"; product "phage portal protein"; protein_id "WP_000701345.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1373966 1373968 . + 0 gene_id "ECDH10B_RS06930"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001322715.1"; locus_tag "ECDH10B_RS06930"; product "phage portal protein"; protein_id "WP_000701345.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1375556 1375558 . + 0 gene_id "ECDH10B_RS06930"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001322715.1"; locus_tag "ECDH10B_RS06930"; product "phage portal protein"; protein_id "WP_000701345.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1375539 1376882 . + . gene_id "ECDH10B_RS06935"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06935"; old_locus_tag "ECDH10B_1350"; -NC_010473.1 Protein Homology CDS 1375539 1376879 . + 0 gene_id "ECDH10B_RS06935"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309660.1"; locus_tag "ECDH10B_RS06935"; product "S49 family peptidase"; protein_id "WP_000929806.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1375539 1375541 . + 0 gene_id "ECDH10B_RS06935"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309660.1"; locus_tag "ECDH10B_RS06935"; product "S49 family peptidase"; protein_id "WP_000929806.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1376880 1376882 . + 0 gene_id "ECDH10B_RS06935"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309660.1"; locus_tag "ECDH10B_RS06935"; product "S49 family peptidase"; protein_id "WP_000929806.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1376892 1377224 . + . gene_id "ECDH10B_RS06940"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06940"; old_locus_tag "ECDH10B_1351"; -NC_010473.1 Protein Homology CDS 1376892 1377221 . + 0 gene_id "ECDH10B_RS06940"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000072260.1"; locus_tag "ECDH10B_RS06940"; product "head decoration protein"; protein_id "WP_001018610.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1376892 1376894 . + 0 gene_id "ECDH10B_RS06940"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000072260.1"; locus_tag "ECDH10B_RS06940"; product "head decoration protein"; protein_id "WP_001018610.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1377222 1377224 . + 0 gene_id "ECDH10B_RS06940"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000072260.1"; locus_tag "ECDH10B_RS06940"; product "head decoration protein"; protein_id "WP_001018610.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1377292 1378719 . + . gene_id "ECDH10B_RS06945"; transcript_id ""; gbkey "Gene"; gene "cynS"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06945"; old_locus_tag "ECDH10B_1352"; -NC_010473.1 Protein Homology CDS 1377292 1378716 . + 0 gene_id "ECDH10B_RS06945"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cynS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414874.1"; locus_tag "ECDH10B_RS06945"; product "cyanase"; protein_id "WP_000118199.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1377292 1377294 . + 0 gene_id "ECDH10B_RS06945"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cynS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414874.1"; locus_tag "ECDH10B_RS06945"; product "cyanase"; protein_id "WP_000118199.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1378717 1378719 . + 0 gene_id "ECDH10B_RS06945"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cynS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414874.1"; locus_tag "ECDH10B_RS06945"; product "cyanase"; protein_id "WP_000118199.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1378725 1379906 . + . gene_id "ECDH10B_RS06955"; transcript_id ""; gbkey "Gene"; gene "cynX"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06955"; old_locus_tag "ECDH10B_1354"; -NC_010473.1 Protein Homology CDS 1378725 1379903 . + 0 gene_id "ECDH10B_RS06955"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cynX"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308421.2"; locus_tag "ECDH10B_RS06955"; product "cyanate transporter CynX"; protein_id "WP_001301263.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1378725 1378727 . + 0 gene_id "ECDH10B_RS06955"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cynX"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308421.2"; locus_tag "ECDH10B_RS06955"; product "cyanate transporter CynX"; protein_id "WP_001301263.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1379904 1379906 . + 0 gene_id "ECDH10B_RS06955"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cynX"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308421.2"; locus_tag "ECDH10B_RS06955"; product "cyanate transporter CynX"; protein_id "WP_001301263.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1380009 1380620 . - . gene_id "ECDH10B_RS06960"; transcript_id ""; gbkey "Gene"; gene "lacA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06960"; old_locus_tag "ECDH10B_1355"; -NC_010473.1 Protein Homology CDS 1380012 1380620 . - 0 gene_id "ECDH10B_RS06960"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lacA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414876.1"; locus_tag "ECDH10B_RS06960"; product "galactoside O-acetyltransferase"; protein_id "WP_001335915.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1380618 1380620 . - 0 gene_id "ECDH10B_RS06960"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lacA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414876.1"; locus_tag "ECDH10B_RS06960"; product "galactoside O-acetyltransferase"; protein_id "WP_001335915.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1380009 1380011 . - 0 gene_id "ECDH10B_RS06960"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lacA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414876.1"; locus_tag "ECDH10B_RS06960"; product "galactoside O-acetyltransferase"; protein_id "WP_001335915.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1380686 1381939 . - . gene_id "ECDH10B_RS06965"; transcript_id ""; gbkey "Gene"; gene "lacY"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06965"; old_locus_tag "ECDH10B_1356"; -NC_010473.1 Protein Homology CDS 1380689 1381939 . - 0 gene_id "ECDH10B_RS06965"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lacY"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414877.1"; locus_tag "ECDH10B_RS06965"; product "lactose permease"; protein_id "WP_000291549.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1381937 1381939 . - 0 gene_id "ECDH10B_RS06965"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lacY"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414877.1"; locus_tag "ECDH10B_RS06965"; product "lactose permease"; protein_id "WP_000291549.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1380686 1380688 . - 0 gene_id "ECDH10B_RS06965"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lacY"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414877.1"; locus_tag "ECDH10B_RS06965"; product "lactose permease"; protein_id "WP_000291549.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1381991 1384972 . - . gene_id "ECDH10B_RS06970"; transcript_id ""; gbkey "Gene"; gene "lacZ"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06970"; -NC_010473.1 Protein Homology CDS 1381994 1384972 . - 0 gene_id "ECDH10B_RS06970"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lacZ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414878.1"; locus_tag "ECDH10B_RS06970"; product "beta-galactosidase"; protein_id "WP_000177853.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1384970 1384972 . - 0 gene_id "ECDH10B_RS06970"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lacZ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414878.1"; locus_tag "ECDH10B_RS06970"; product "beta-galactosidase"; protein_id "WP_000177853.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1381991 1381993 . - 0 gene_id "ECDH10B_RS06970"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lacZ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414878.1"; locus_tag "ECDH10B_RS06970"; product "beta-galactosidase"; protein_id "WP_000177853.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1385095 1386177 . - . gene_id "ECDH10B_RS06975"; transcript_id ""; gbkey "Gene"; gene "lacI"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06975"; old_locus_tag "ECDH10B_1357"; -NC_010473.1 Protein Homology CDS 1385098 1386177 . - 0 gene_id "ECDH10B_RS06975"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lacI"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414879.3"; locus_tag "ECDH10B_RS06975"; product "DNA-binding transcriptional repressor LacI"; protein_id "WP_000805902.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1386175 1386177 . - 0 gene_id "ECDH10B_RS06975"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lacI"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414879.3"; locus_tag "ECDH10B_RS06975"; product "DNA-binding transcriptional repressor LacI"; protein_id "WP_000805902.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1385095 1385097 . - 0 gene_id "ECDH10B_RS06975"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lacI"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414879.3"; locus_tag "ECDH10B_RS06975"; product "DNA-binding transcriptional repressor LacI"; protein_id "WP_000805902.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1386254 1387201 . - . gene_id "ECDH10B_RS06980"; transcript_id ""; gbkey "Gene"; gene "mhpR"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06980"; old_locus_tag "ECDH10B_1358"; -NC_010473.1 Protein Homology CDS 1386257 1387201 . - 0 gene_id "ECDH10B_RS06980"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mhpR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414880.2"; locus_tag "ECDH10B_RS06980"; product "DNA-binding transcriptional activator MhpR"; protein_id "WP_001310587.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1387199 1387201 . - 0 gene_id "ECDH10B_RS06980"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mhpR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414880.2"; locus_tag "ECDH10B_RS06980"; product "DNA-binding transcriptional activator MhpR"; protein_id "WP_001310587.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1386254 1386256 . - 0 gene_id "ECDH10B_RS06980"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mhpR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414880.2"; locus_tag "ECDH10B_RS06980"; product "DNA-binding transcriptional activator MhpR"; protein_id "WP_001310587.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1387278 1388942 . + . gene_id "ECDH10B_RS06985"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06985"; old_locus_tag "ECDH10B_1359"; -NC_010473.1 Protein Homology CDS 1387278 1388939 . + 0 gene_id "ECDH10B_RS06985"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414881.1"; locus_tag "ECDH10B_RS06985"; product "bifunctional 3-(3-hydroxy-phenyl)propionate/3-hydroxycinnamic acid hydroxylase"; protein_id "WP_001007407.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1387278 1387280 . + 0 gene_id "ECDH10B_RS06985"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414881.1"; locus_tag "ECDH10B_RS06985"; product "bifunctional 3-(3-hydroxy-phenyl)propionate/3-hydroxycinnamic acid hydroxylase"; protein_id "WP_001007407.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1388940 1388942 . + 0 gene_id "ECDH10B_RS06985"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414881.1"; locus_tag "ECDH10B_RS06985"; product "bifunctional 3-(3-hydroxy-phenyl)propionate/3-hydroxycinnamic acid hydroxylase"; protein_id "WP_001007407.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1388944 1389888 . + . gene_id "ECDH10B_RS06990"; transcript_id ""; gbkey "Gene"; gene "mhpB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06990"; old_locus_tag "ECDH10B_1360"; -NC_010473.1 Protein Homology CDS 1388944 1389885 . + 0 gene_id "ECDH10B_RS06990"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mhpB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308430.1"; locus_tag "ECDH10B_RS06990"; product "3-carboxyethylcatechol 2,3-dioxygenase"; protein_id "WP_000543457.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1388944 1388946 . + 0 gene_id "ECDH10B_RS06990"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mhpB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308430.1"; locus_tag "ECDH10B_RS06990"; product "3-carboxyethylcatechol 2,3-dioxygenase"; protein_id "WP_000543457.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1389886 1389888 . + 0 gene_id "ECDH10B_RS06990"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mhpB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_308430.1"; locus_tag "ECDH10B_RS06990"; product "3-carboxyethylcatechol 2,3-dioxygenase"; protein_id "WP_000543457.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1389906 1390772 . + . gene_id "ECDH10B_RS06995"; transcript_id ""; gbkey "Gene"; gene "mhpC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS06995"; old_locus_tag "ECDH10B_1361"; -NC_010473.1 Protein Homology CDS 1389906 1390769 . + 0 gene_id "ECDH10B_RS06995"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mhpC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414883.5"; locus_tag "ECDH10B_RS06995"; product "2-hydroxy-6-oxonona-2,4-dienedioate hydrolase"; protein_id "WP_000121907.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1389906 1389908 . + 0 gene_id "ECDH10B_RS06995"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mhpC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414883.5"; locus_tag "ECDH10B_RS06995"; product "2-hydroxy-6-oxonona-2,4-dienedioate hydrolase"; protein_id "WP_000121907.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1390770 1390772 . + 0 gene_id "ECDH10B_RS06995"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mhpC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414883.5"; locus_tag "ECDH10B_RS06995"; product "2-hydroxy-6-oxonona-2,4-dienedioate hydrolase"; protein_id "WP_000121907.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1390782 1391006 . + . gene_id "ECDH10B_RS07000"; transcript_id ""; gbkey "Gene"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS07000"; partial "true"; pseudo "true"; -NC_010473.1 Protein Homology CDS 1390782 1391003 . + 0 gene_id "ECDH10B_RS07000"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414884.2"; locus_tag "ECDH10B_RS07000"; note "incomplete; partial in the middle of a contig; missing C-terminus"; partial "true"; product "2-keto-4-pentenoate hydratase"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1390782 1390784 . + 0 gene_id "ECDH10B_RS07000"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414884.2"; locus_tag "ECDH10B_RS07000"; note "incomplete; partial in the middle of a contig; missing C-terminus"; partial "true"; product "2-keto-4-pentenoate hydratase"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1391004 1391006 . + 0 gene_id "ECDH10B_RS07000"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414884.2"; locus_tag "ECDH10B_RS07000"; note "incomplete; partial in the middle of a contig; missing C-terminus"; partial "true"; product "2-keto-4-pentenoate hydratase"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 1391119 1393215 . - . gene_id "ECDH10B_RS07005"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07005"; old_locus_tag "ECDH10B_1362"; -NC_010473.1 Protein Homology CDS 1391122 1393215 . - 0 gene_id "ECDH10B_RS07005"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000422420.1"; locus_tag "ECDH10B_RS07005"; product "hypothetical protein"; protein_id "WP_000422420.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1393213 1393215 . - 0 gene_id "ECDH10B_RS07005"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000422420.1"; locus_tag "ECDH10B_RS07005"; product "hypothetical protein"; protein_id "WP_000422420.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1391119 1391121 . - 0 gene_id "ECDH10B_RS07005"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000422420.1"; locus_tag "ECDH10B_RS07005"; product "hypothetical protein"; protein_id "WP_000422420.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1393231 1393782 . - . gene_id "ECDH10B_RS07010"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07010"; old_locus_tag "ECDH10B_1363"; -NC_010473.1 Protein Homology CDS 1393234 1393782 . - 0 gene_id "ECDH10B_RS07010"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001556711.1"; locus_tag "ECDH10B_RS07010"; product "recombinase family protein"; protein_id "WP_001235704.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1393780 1393782 . - 0 gene_id "ECDH10B_RS07010"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001556711.1"; locus_tag "ECDH10B_RS07010"; product "recombinase family protein"; protein_id "WP_001235704.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1393231 1393233 . - 0 gene_id "ECDH10B_RS07010"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001556711.1"; locus_tag "ECDH10B_RS07010"; product "recombinase family protein"; protein_id "WP_001235704.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1393946 1396954 . + . gene_id "ECDH10B_RS07015"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07015"; old_locus_tag "ECDH10B_1364"; -NC_010473.1 Protein Homology CDS 1393946 1396951 . + 0 gene_id "ECDH10B_RS07015"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_076611787.1"; locus_tag "ECDH10B_RS07015"; product "Tn3 family transposase"; protein_id "WP_001143750.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1393946 1393948 . + 0 gene_id "ECDH10B_RS07015"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_076611787.1"; locus_tag "ECDH10B_RS07015"; product "Tn3 family transposase"; protein_id "WP_001143750.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1396952 1396954 . + 0 gene_id "ECDH10B_RS07015"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_076611787.1"; locus_tag "ECDH10B_RS07015"; product "Tn3 family transposase"; protein_id "WP_001143750.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1396985 1397689 . - . gene_id "ECDH10B_RS07020"; transcript_id ""; gbkey "Gene"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS07020"; old_locus_tag "ECDH10B_1365"; partial "true"; pseudo "true"; -NC_010473.1 Protein Homology CDS 1396988 1397689 . - 0 gene_id "ECDH10B_RS07020"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309777.1"; locus_tag "ECDH10B_RS07020"; note "incomplete; partial in the middle of a contig; missing C-terminus"; partial "true"; product "voltage-gated potassium channel"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1397687 1397689 . - 0 gene_id "ECDH10B_RS07020"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309777.1"; locus_tag "ECDH10B_RS07020"; note "incomplete; partial in the middle of a contig; missing C-terminus"; partial "true"; product "voltage-gated potassium channel"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1396985 1396987 . - 0 gene_id "ECDH10B_RS07020"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309777.1"; locus_tag "ECDH10B_RS07020"; note "incomplete; partial in the middle of a contig; missing C-terminus"; partial "true"; product "voltage-gated potassium channel"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 1397989 1398285 . - . gene_id "ECDH10B_RS07025"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07025"; old_locus_tag "ECDH10B_1366"; -NC_010473.1 Protein Homology CDS 1397992 1398285 . - 0 gene_id "ECDH10B_RS07025"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415767.2"; locus_tag "ECDH10B_RS07025"; product "YciI family protein"; protein_id "WP_000967595.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1398283 1398285 . - 0 gene_id "ECDH10B_RS07025"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415767.2"; locus_tag "ECDH10B_RS07025"; product "YciI family protein"; protein_id "WP_000967595.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1397989 1397991 . - 0 gene_id "ECDH10B_RS07025"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415767.2"; locus_tag "ECDH10B_RS07025"; product "YciI family protein"; protein_id "WP_000967595.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1398509 1399228 . + . gene_id "ECDH10B_RS07030"; transcript_id ""; gbkey "Gene"; gene "tonB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07030"; old_locus_tag "ECDH10B_1367"; -NC_010473.1 Protein Homology CDS 1398509 1399225 . + 0 gene_id "ECDH10B_RS07030"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tonB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415768.1"; locus_tag "ECDH10B_RS07030"; product "TonB system transport protein TonB"; protein_id "WP_001360141.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1398509 1398511 . + 0 gene_id "ECDH10B_RS07030"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tonB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415768.1"; locus_tag "ECDH10B_RS07030"; product "TonB system transport protein TonB"; protein_id "WP_001360141.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1399226 1399228 . + 0 gene_id "ECDH10B_RS07030"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tonB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415768.1"; locus_tag "ECDH10B_RS07030"; product "TonB system transport protein TonB"; protein_id "WP_001360141.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1399268 1399666 . - . gene_id "ECDH10B_RS07035"; transcript_id ""; gbkey "Gene"; gene "yciA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07035"; old_locus_tag "ECDH10B_1368"; -NC_010473.1 Protein Homology CDS 1399271 1399666 . - 0 gene_id "ECDH10B_RS07035"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yciA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415769.1"; locus_tag "ECDH10B_RS07035"; product "acyl-CoA thioester hydrolase YciA"; protein_id "WP_000108160.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1399664 1399666 . - 0 gene_id "ECDH10B_RS07035"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yciA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415769.1"; locus_tag "ECDH10B_RS07035"; product "acyl-CoA thioester hydrolase YciA"; protein_id "WP_000108160.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1399268 1399270 . - 0 gene_id "ECDH10B_RS07035"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yciA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415769.1"; locus_tag "ECDH10B_RS07035"; product "acyl-CoA thioester hydrolase YciA"; protein_id "WP_000108160.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1399771 1400310 . - . gene_id "ECDH10B_RS07040"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07040"; old_locus_tag "ECDH10B_1369"; -NC_010473.1 Protein Homology CDS 1399774 1400310 . - 0 gene_id "ECDH10B_RS07040"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309781.1"; locus_tag "ECDH10B_RS07040"; product "septation protein A"; protein_id "WP_000808667.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1400308 1400310 . - 0 gene_id "ECDH10B_RS07040"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309781.1"; locus_tag "ECDH10B_RS07040"; product "septation protein A"; protein_id "WP_000808667.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1399771 1399773 . - 0 gene_id "ECDH10B_RS07040"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309781.1"; locus_tag "ECDH10B_RS07040"; product "septation protein A"; protein_id "WP_000808667.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1400340 1401083 . - . gene_id "ECDH10B_RS07045"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07045"; old_locus_tag "ECDH10B_1370"; -NC_010473.1 Protein Homology CDS 1400343 1401083 . - 0 gene_id "ECDH10B_RS07045"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415771.1"; locus_tag "ECDH10B_RS07045"; product "UPF0259 family protein"; protein_id "WP_000028545.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1401081 1401083 . - 0 gene_id "ECDH10B_RS07045"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415771.1"; locus_tag "ECDH10B_RS07045"; product "UPF0259 family protein"; protein_id "WP_000028545.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1400340 1400342 . - 0 gene_id "ECDH10B_RS07045"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415771.1"; locus_tag "ECDH10B_RS07045"; product "UPF0259 family protein"; protein_id "WP_000028545.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1401111 1401200 . - . gene_id "ECDH10B_RS25940"; transcript_id ""; gbkey "Gene"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS25940"; partial "true"; pseudo "true"; -NC_010473.1 Protein Homology CDS 1401114 1401200 . - 0 gene_id "ECDH10B_RS25940"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_460692.1"; locus_tag "ECDH10B_RS25940"; note "incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "YkgJ family cysteine cluster protein"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1401198 1401200 . - 0 gene_id "ECDH10B_RS25940"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_460692.1"; locus_tag "ECDH10B_RS25940"; note "incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "YkgJ family cysteine cluster protein"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1401111 1401113 . - 0 gene_id "ECDH10B_RS25940"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_460692.1"; locus_tag "ECDH10B_RS25940"; note "incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "YkgJ family cysteine cluster protein"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 1401440 1402078 . + . gene_id "ECDH10B_RS07050"; transcript_id ""; gbkey "Gene"; gene "ompW"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07050"; old_locus_tag "ECDH10B_1371"; -NC_010473.1 Protein Homology CDS 1401440 1402075 . + 0 gene_id "ECDH10B_RS07050"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ompW"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415772.1"; locus_tag "ECDH10B_RS07050"; product "outer membrane protein OmpW"; protein_id "WP_000737226.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1401440 1401442 . + 0 gene_id "ECDH10B_RS07050"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ompW"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415772.1"; locus_tag "ECDH10B_RS07050"; product "outer membrane protein OmpW"; protein_id "WP_000737226.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1402076 1402078 . + 0 gene_id "ECDH10B_RS07050"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ompW"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415772.1"; locus_tag "ECDH10B_RS07050"; product "outer membrane protein OmpW"; protein_id "WP_000737226.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1402138 1402644 . - . gene_id "ECDH10B_RS07055"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07055"; old_locus_tag "ECDH10B_1372"; -NC_010473.1 Protein Homology CDS 1402141 1402644 . - 0 gene_id "ECDH10B_RS07055"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415773.1"; locus_tag "ECDH10B_RS07055"; product "ferritin-like domain-containing protein"; protein_id "WP_001079505.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1402642 1402644 . - 0 gene_id "ECDH10B_RS07055"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415773.1"; locus_tag "ECDH10B_RS07055"; product "ferritin-like domain-containing protein"; protein_id "WP_001079505.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1402138 1402140 . - 0 gene_id "ECDH10B_RS07055"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415773.1"; locus_tag "ECDH10B_RS07055"; product "ferritin-like domain-containing protein"; protein_id "WP_001079505.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1402690 1403190 . - . gene_id "ECDH10B_RS07060"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07060"; old_locus_tag "ECDH10B_1373"; -NC_010473.1 Protein Homology CDS 1402693 1403190 . - 0 gene_id "ECDH10B_RS07060"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415774.1"; locus_tag "ECDH10B_RS07060"; product "ferritin-like domain-containing protein"; protein_id "WP_001056490.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1403188 1403190 . - 0 gene_id "ECDH10B_RS07060"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415774.1"; locus_tag "ECDH10B_RS07060"; product "ferritin-like domain-containing protein"; protein_id "WP_001056490.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1402690 1402692 . - 0 gene_id "ECDH10B_RS07060"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415774.1"; locus_tag "ECDH10B_RS07060"; product "ferritin-like domain-containing protein"; protein_id "WP_001056490.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1403276 1403455 . - . gene_id "ECDH10B_RS07065"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07065"; old_locus_tag "ECDH10B_1374"; -NC_010473.1 Protein Homology CDS 1403279 1403455 . - 0 gene_id "ECDH10B_RS07065"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309858.2"; locus_tag "ECDH10B_RS07065"; product "general stress protein"; protein_id "WP_000807651.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1403453 1403455 . - 0 gene_id "ECDH10B_RS07065"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309858.2"; locus_tag "ECDH10B_RS07065"; product "general stress protein"; protein_id "WP_000807651.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1403276 1403278 . - 0 gene_id "ECDH10B_RS07065"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309858.2"; locus_tag "ECDH10B_RS07065"; product "general stress protein"; protein_id "WP_000807651.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1403836 1404642 . - . gene_id "ECDH10B_RS07070"; transcript_id ""; gbkey "Gene"; gene "trpA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07070"; old_locus_tag "ECDH10B_1375"; -NC_010473.1 Protein Homology CDS 1403839 1404642 . - 0 gene_id "ECDH10B_RS07070"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "trpA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415776.1"; locus_tag "ECDH10B_RS07070"; product "tryptophan synthase subunit alpha"; protein_id "WP_000443067.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1404640 1404642 . - 0 gene_id "ECDH10B_RS07070"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "trpA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415776.1"; locus_tag "ECDH10B_RS07070"; product "tryptophan synthase subunit alpha"; protein_id "WP_000443067.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1403836 1403838 . - 0 gene_id "ECDH10B_RS07070"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "trpA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415776.1"; locus_tag "ECDH10B_RS07070"; product "tryptophan synthase subunit alpha"; protein_id "WP_000443067.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1404642 1405835 . - . gene_id "ECDH10B_RS07075"; transcript_id ""; gbkey "Gene"; gene "trpB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07075"; old_locus_tag "ECDH10B_1376"; -NC_010473.1 Protein Homology CDS 1404645 1405835 . - 0 gene_id "ECDH10B_RS07075"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "trpB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415777.1"; locus_tag "ECDH10B_RS07075"; product "tryptophan synthase subunit beta"; protein_id "WP_000209520.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1405833 1405835 . - 0 gene_id "ECDH10B_RS07075"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "trpB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415777.1"; locus_tag "ECDH10B_RS07075"; product "tryptophan synthase subunit beta"; protein_id "WP_000209520.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1404642 1404644 . - 0 gene_id "ECDH10B_RS07075"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "trpB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415777.1"; locus_tag "ECDH10B_RS07075"; product "tryptophan synthase subunit beta"; protein_id "WP_000209520.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1405847 1407208 . - . gene_id "ECDH10B_RS07080"; transcript_id ""; gbkey "Gene"; gene "trpCF"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07080"; old_locus_tag "ECDH10B_1377"; -NC_010473.1 Protein Homology CDS 1405850 1407208 . - 0 gene_id "ECDH10B_RS07080"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "trpCF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415778.3"; locus_tag "ECDH10B_RS07080"; product "bifunctional indole-3-glycerol-phosphate synthase TrpC/phosphoribosylanthranilate isomerase TrpF"; protein_id "WP_000983871.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1407206 1407208 . - 0 gene_id "ECDH10B_RS07080"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "trpCF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415778.3"; locus_tag "ECDH10B_RS07080"; product "bifunctional indole-3-glycerol-phosphate synthase TrpC/phosphoribosylanthranilate isomerase TrpF"; protein_id "WP_000983871.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1405847 1405849 . - 0 gene_id "ECDH10B_RS07080"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "trpCF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415778.3"; locus_tag "ECDH10B_RS07080"; product "bifunctional indole-3-glycerol-phosphate synthase TrpC/phosphoribosylanthranilate isomerase TrpF"; protein_id "WP_000983871.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1407209 1408804 . - . gene_id "ECDH10B_RS07085"; transcript_id ""; gbkey "Gene"; gene "trpD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07085"; old_locus_tag "ECDH10B_1378"; -NC_010473.1 Protein Homology CDS 1407212 1408804 . - 0 gene_id "ECDH10B_RS07085"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "trpD"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_008784940.1"; locus_tag "ECDH10B_RS07085"; product "bifunctional anthranilate synthase glutamate amidotransferase component TrpG/anthranilate phosphoribosyltransferase TrpD"; protein_id "WP_000763511.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1408802 1408804 . - 0 gene_id "ECDH10B_RS07085"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "trpD"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_008784940.1"; locus_tag "ECDH10B_RS07085"; product "bifunctional anthranilate synthase glutamate amidotransferase component TrpG/anthranilate phosphoribosyltransferase TrpD"; protein_id "WP_000763511.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1407209 1407211 . - 0 gene_id "ECDH10B_RS07085"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "trpD"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_008784940.1"; locus_tag "ECDH10B_RS07085"; product "bifunctional anthranilate synthase glutamate amidotransferase component TrpG/anthranilate phosphoribosyltransferase TrpD"; protein_id "WP_000763511.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1408804 1410366 . - . gene_id "ECDH10B_RS07090"; transcript_id ""; gbkey "Gene"; gene "trpE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07090"; old_locus_tag "ECDH10B_1379"; -NC_010473.1 Protein Homology CDS 1408807 1410366 . - 0 gene_id "ECDH10B_RS07090"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "trpE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415780.1"; locus_tag "ECDH10B_RS07090"; product "anthranilate synthase component I"; protein_id "WP_001194582.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1410364 1410366 . - 0 gene_id "ECDH10B_RS07090"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "trpE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415780.1"; locus_tag "ECDH10B_RS07090"; product "anthranilate synthase component I"; protein_id "WP_001194582.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1408804 1408806 . - 0 gene_id "ECDH10B_RS07090"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "trpE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415780.1"; locus_tag "ECDH10B_RS07090"; product "anthranilate synthase component I"; protein_id "WP_001194582.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1410458 1410502 . - . gene_id "ECDH10B_RS24020"; transcript_id ""; gbkey "Gene"; gene "trpL"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS24020"; old_locus_tag "ECDH10B_1380"; -NC_010473.1 Protein Homology CDS 1410461 1410502 . - 0 gene_id "ECDH10B_RS24020"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "trpL"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309864.1"; locus_tag "ECDH10B_RS24020"; product "trp operon leader peptide"; protein_id "WP_001700591.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1410500 1410502 . - 0 gene_id "ECDH10B_RS24020"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "trpL"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309864.1"; locus_tag "ECDH10B_RS24020"; product "trp operon leader peptide"; protein_id "WP_001700591.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1410458 1410460 . - 0 gene_id "ECDH10B_RS24020"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "trpL"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309864.1"; locus_tag "ECDH10B_RS24020"; product "trp operon leader peptide"; protein_id "WP_001700591.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1410640 1411521 . + . gene_id "ECDH10B_RS07095"; transcript_id ""; gbkey "Gene"; gene "yciV"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07095"; old_locus_tag "ECDH10B_1381"; -NC_010473.1 Protein Homology CDS 1410640 1411518 . + 0 gene_id "ECDH10B_RS07095"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yciV"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415782.1"; locus_tag "ECDH10B_RS07095"; product "5'-3' exoribonuclease"; protein_id "WP_001285661.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1410640 1410642 . + 0 gene_id "ECDH10B_RS07095"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yciV"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415782.1"; locus_tag "ECDH10B_RS07095"; product "5'-3' exoribonuclease"; protein_id "WP_001285661.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1411519 1411521 . + 0 gene_id "ECDH10B_RS07095"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yciV"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415782.1"; locus_tag "ECDH10B_RS07095"; product "5'-3' exoribonuclease"; protein_id "WP_001285661.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1411518 1412138 . + . gene_id "ECDH10B_RS07100"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07100"; old_locus_tag "ECDH10B_1382"; -NC_010473.1 Protein Homology CDS 1411518 1412135 . + 0 gene_id "ECDH10B_RS07100"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005126434.1"; locus_tag "ECDH10B_RS07100"; product "threonylcarbamoyl-AMP synthase"; protein_id "WP_001295575.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1411518 1411520 . + 0 gene_id "ECDH10B_RS07100"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005126434.1"; locus_tag "ECDH10B_RS07100"; product "threonylcarbamoyl-AMP synthase"; protein_id "WP_001295575.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1412136 1412138 . + 0 gene_id "ECDH10B_RS07100"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005126434.1"; locus_tag "ECDH10B_RS07100"; product "threonylcarbamoyl-AMP synthase"; protein_id "WP_001295575.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1412166 1414061 . + . gene_id "ECDH10B_RS07105"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07105"; old_locus_tag "ECDH10B_1383"; -NC_010473.1 Protein Homology CDS 1412166 1414058 . + 0 gene_id "ECDH10B_RS07105"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415784.1"; locus_tag "ECDH10B_RS07105"; product "DUF2207 domain-containing protein"; protein_id "WP_001326916.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1412166 1412168 . + 0 gene_id "ECDH10B_RS07105"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415784.1"; locus_tag "ECDH10B_RS07105"; product "DUF2207 domain-containing protein"; protein_id "WP_001326916.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1414059 1414061 . + 0 gene_id "ECDH10B_RS07105"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415784.1"; locus_tag "ECDH10B_RS07105"; product "DUF2207 domain-containing protein"; protein_id "WP_001326916.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1414272 1415147 . + . gene_id "ECDH10B_RS07110"; transcript_id ""; gbkey "Gene"; gene "rluB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07110"; old_locus_tag "ECDH10B_1384"; -NC_010473.1 Protein Homology CDS 1414272 1415144 . + 0 gene_id "ECDH10B_RS07110"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rluB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415785.1"; locus_tag "ECDH10B_RS07110"; product "23S rRNA pseudouridine(2605) synthase RluB"; protein_id "WP_001291217.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1414272 1414274 . + 0 gene_id "ECDH10B_RS07110"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rluB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415785.1"; locus_tag "ECDH10B_RS07110"; product "23S rRNA pseudouridine(2605) synthase RluB"; protein_id "WP_001291217.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1415145 1415147 . + 0 gene_id "ECDH10B_RS07110"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rluB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415785.1"; locus_tag "ECDH10B_RS07110"; product "23S rRNA pseudouridine(2605) synthase RluB"; protein_id "WP_001291217.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1415187 1415777 . - . gene_id "ECDH10B_RS07115"; transcript_id ""; gbkey "Gene"; gene "cobO"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07115"; old_locus_tag "ECDH10B_1385"; -NC_010473.1 Protein Homology CDS 1415190 1415777 . - 0 gene_id "ECDH10B_RS07115"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cobO"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415786.1"; locus_tag "ECDH10B_RS07115"; product "cob(I)yrinic acid a,c-diamide adenosyltransferase"; protein_id "WP_001278906.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1415775 1415777 . - 0 gene_id "ECDH10B_RS07115"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cobO"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415786.1"; locus_tag "ECDH10B_RS07115"; product "cob(I)yrinic acid a,c-diamide adenosyltransferase"; protein_id "WP_001278906.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1415187 1415189 . - 0 gene_id "ECDH10B_RS07115"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cobO"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415786.1"; locus_tag "ECDH10B_RS07115"; product "cob(I)yrinic acid a,c-diamide adenosyltransferase"; protein_id "WP_001278906.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1415774 1416532 . - . gene_id "ECDH10B_RS07120"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07120"; old_locus_tag "ECDH10B_1386"; -NC_010473.1 Protein Homology CDS 1415777 1416532 . - 0 gene_id "ECDH10B_RS07120"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415787.1"; locus_tag "ECDH10B_RS07120"; product "YciK family oxidoreductase"; protein_id "WP_000559286.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1416530 1416532 . - 0 gene_id "ECDH10B_RS07120"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415787.1"; locus_tag "ECDH10B_RS07120"; product "YciK family oxidoreductase"; protein_id "WP_000559286.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1415774 1415776 . - 0 gene_id "ECDH10B_RS07120"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415787.1"; locus_tag "ECDH10B_RS07120"; product "YciK family oxidoreductase"; protein_id "WP_000559286.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1416752 1417801 . + . gene_id "ECDH10B_RS07130"; transcript_id ""; gbkey "Gene"; gene "sohB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07130"; old_locus_tag "ECDH10B_1387"; -NC_010473.1 Protein Homology CDS 1416752 1417798 . + 0 gene_id "ECDH10B_RS07130"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sohB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415788.1"; locus_tag "ECDH10B_RS07130"; product "protease SohB"; protein_id "WP_000422045.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1416752 1416754 . + 0 gene_id "ECDH10B_RS07130"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sohB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415788.1"; locus_tag "ECDH10B_RS07130"; product "protease SohB"; protein_id "WP_000422045.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1417799 1417801 . + 0 gene_id "ECDH10B_RS07130"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sohB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415788.1"; locus_tag "ECDH10B_RS07130"; product "protease SohB"; protein_id "WP_000422045.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1417837 1418088 . - . gene_id "ECDH10B_RS07135"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07135"; old_locus_tag "ECDH10B_1388"; -NC_010473.1 Protein Homology CDS 1417840 1418088 . - 0 gene_id "ECDH10B_RS07135"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309872.1"; locus_tag "ECDH10B_RS07135"; product "YciN family protein"; protein_id "WP_001031530.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1418086 1418088 . - 0 gene_id "ECDH10B_RS07135"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309872.1"; locus_tag "ECDH10B_RS07135"; product "YciN family protein"; protein_id "WP_001031530.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1417837 1417839 . - 0 gene_id "ECDH10B_RS07135"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309872.1"; locus_tag "ECDH10B_RS07135"; product "YciN family protein"; protein_id "WP_001031530.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1418468 1421065 . + . gene_id "ECDH10B_RS07145"; transcript_id ""; gbkey "Gene"; gene "topA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07145"; old_locus_tag "ECDH10B_1389"; -NC_010473.1 Protein Homology CDS 1418468 1421062 . + 0 gene_id "ECDH10B_RS07145"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "topA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000513601.1"; locus_tag "ECDH10B_RS07145"; product "type I DNA topoisomerase"; protein_id "WP_001297122.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1418468 1418470 . + 0 gene_id "ECDH10B_RS07145"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "topA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000513601.1"; locus_tag "ECDH10B_RS07145"; product "type I DNA topoisomerase"; protein_id "WP_001297122.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1421063 1421065 . + 0 gene_id "ECDH10B_RS07145"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "topA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000513601.1"; locus_tag "ECDH10B_RS07145"; product "type I DNA topoisomerase"; protein_id "WP_001297122.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1421275 1422249 . + . gene_id "ECDH10B_RS07150"; transcript_id ""; gbkey "Gene"; gene "cysB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07150"; old_locus_tag "ECDH10B_1390"; -NC_010473.1 Protein Homology CDS 1421275 1422246 . + 0 gene_id "ECDH10B_RS07150"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cysB"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_012017585.1"; locus_tag "ECDH10B_RS07150"; product "HTH-type transcriptional regulator CysB"; protein_id "WP_000776253.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1421275 1421277 . + 0 gene_id "ECDH10B_RS07150"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cysB"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_012017585.1"; locus_tag "ECDH10B_RS07150"; product "HTH-type transcriptional regulator CysB"; protein_id "WP_000776253.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1422247 1422249 . + 0 gene_id "ECDH10B_RS07150"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cysB"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_012017585.1"; locus_tag "ECDH10B_RS07150"; product "HTH-type transcriptional regulator CysB"; protein_id "WP_000776253.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1422544 1422708 . + . gene_id "ECDH10B_RS07155"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07155"; old_locus_tag "ECDH10B_1391"; -NC_010473.1 Protein Homology CDS 1422544 1422705 . + 0 gene_id "ECDH10B_RS07155"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_707183.1"; locus_tag "ECDH10B_RS07155"; product "YmiA family putative membrane protein"; protein_id "WP_000908596.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1422544 1422546 . + 0 gene_id "ECDH10B_RS07155"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_707183.1"; locus_tag "ECDH10B_RS07155"; product "YmiA family putative membrane protein"; protein_id "WP_000908596.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1422706 1422708 . + 0 gene_id "ECDH10B_RS07155"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_707183.1"; locus_tag "ECDH10B_RS07155"; product "YmiA family putative membrane protein"; protein_id "WP_000908596.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1422711 1422878 . + . gene_id "ECDH10B_RS07160"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07160"; old_locus_tag "ECDH10B_1392"; -NC_010473.1 Protein Homology CDS 1422711 1422875 . + 0 gene_id "ECDH10B_RS07160"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_588450.2"; locus_tag "ECDH10B_RS07160"; product "hypothetical protein"; protein_id "WP_001297116.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1422711 1422713 . + 0 gene_id "ECDH10B_RS07160"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_588450.2"; locus_tag "ECDH10B_RS07160"; product "hypothetical protein"; protein_id "WP_001297116.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1422876 1422878 . + 0 gene_id "ECDH10B_RS07160"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_588450.2"; locus_tag "ECDH10B_RS07160"; product "hypothetical protein"; protein_id "WP_001297116.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1422992 1423087 . + . gene_id "ECDH10B_RS25945"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS25945"; -NC_010473.1 Protein Homology CDS 1422992 1423084 . + 0 gene_id "ECDH10B_RS25945"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_009518771.1"; locus_tag "ECDH10B_RS25945"; product "hypothetical protein"; protein_id "WP_001310756.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1422992 1422994 . + 0 gene_id "ECDH10B_RS25945"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_009518771.1"; locus_tag "ECDH10B_RS25945"; product "hypothetical protein"; protein_id "WP_001310756.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1423085 1423087 . + 0 gene_id "ECDH10B_RS25945"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_009518771.1"; locus_tag "ECDH10B_RS25945"; product "hypothetical protein"; protein_id "WP_001310756.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1423251 1425926 . + . gene_id "ECDH10B_RS07170"; transcript_id ""; gbkey "Gene"; gene "acnA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07170"; old_locus_tag "ECDH10B_1393"; -NC_010473.1 Protein Homology CDS 1423251 1425923 . + 0 gene_id "ECDH10B_RS07170"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "acnA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415792.1"; locus_tag "ECDH10B_RS07170"; product "aconitate hydratase AcnA"; protein_id "WP_000099534.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1423251 1423253 . + 0 gene_id "ECDH10B_RS07170"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "acnA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415792.1"; locus_tag "ECDH10B_RS07170"; product "aconitate hydratase AcnA"; protein_id "WP_000099534.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1425924 1425926 . + 0 gene_id "ECDH10B_RS07170"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "acnA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415792.1"; locus_tag "ECDH10B_RS07170"; product "aconitate hydratase AcnA"; protein_id "WP_000099534.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1425990 1426580 . - . gene_id "ECDH10B_RS07175"; transcript_id ""; gbkey "Gene"; gene "ribA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07175"; old_locus_tag "ECDH10B_1394"; -NC_010473.1 Protein Homology CDS 1425993 1426580 . - 0 gene_id "ECDH10B_RS07175"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ribA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309877.1"; locus_tag "ECDH10B_RS07175"; product "GTP cyclohydrolase II"; protein_id "WP_001176295.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1426578 1426580 . - 0 gene_id "ECDH10B_RS07175"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ribA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309877.1"; locus_tag "ECDH10B_RS07175"; product "GTP cyclohydrolase II"; protein_id "WP_001176295.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1425990 1425992 . - 0 gene_id "ECDH10B_RS07175"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ribA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309877.1"; locus_tag "ECDH10B_RS07175"; product "GTP cyclohydrolase II"; protein_id "WP_001176295.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1426750 1427514 . + . gene_id "ECDH10B_RS07180"; transcript_id ""; gbkey "Gene"; gene "pgpB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07180"; old_locus_tag "ECDH10B_1395"; -NC_010473.1 Protein Homology CDS 1426750 1427511 . + 0 gene_id "ECDH10B_RS07180"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pgpB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309878.1"; locus_tag "ECDH10B_RS07180"; product "phosphatidylglycerophosphatase B"; protein_id "WP_001256538.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1426750 1426752 . + 0 gene_id "ECDH10B_RS07180"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pgpB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309878.1"; locus_tag "ECDH10B_RS07180"; product "phosphatidylglycerophosphatase B"; protein_id "WP_001256538.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1427512 1427514 . + 0 gene_id "ECDH10B_RS07180"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pgpB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309878.1"; locus_tag "ECDH10B_RS07180"; product "phosphatidylglycerophosphatase B"; protein_id "WP_001256538.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1427663 1427971 . + . gene_id "ECDH10B_RS07185"; transcript_id ""; gbkey "Gene"; gene "lapA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07185"; old_locus_tag "ECDH10B_1396"; -NC_010473.1 Protein Homology CDS 1427663 1427968 . + 0 gene_id "ECDH10B_RS07185"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lapA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415795.1"; locus_tag "ECDH10B_RS07185"; product "lipopolysaccharide assembly protein LapA"; protein_id "WP_000876286.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1427663 1427665 . + 0 gene_id "ECDH10B_RS07185"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lapA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415795.1"; locus_tag "ECDH10B_RS07185"; product "lipopolysaccharide assembly protein LapA"; protein_id "WP_000876286.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1427969 1427971 . + 0 gene_id "ECDH10B_RS07185"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lapA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415795.1"; locus_tag "ECDH10B_RS07185"; product "lipopolysaccharide assembly protein LapA"; protein_id "WP_000876286.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1427978 1429147 . + . gene_id "ECDH10B_RS07190"; transcript_id ""; gbkey "Gene"; gene "lapB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07190"; old_locus_tag "ECDH10B_1397"; -NC_010473.1 Protein Homology CDS 1427978 1429144 . + 0 gene_id "ECDH10B_RS07190"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lapB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309880.1"; locus_tag "ECDH10B_RS07190"; product "lipopolysaccharide assembly protein LapB"; protein_id "WP_000891353.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1427978 1427980 . + 0 gene_id "ECDH10B_RS07190"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lapB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309880.1"; locus_tag "ECDH10B_RS07190"; product "lipopolysaccharide assembly protein LapB"; protein_id "WP_000891353.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1429145 1429147 . + 0 gene_id "ECDH10B_RS07190"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lapB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309880.1"; locus_tag "ECDH10B_RS07190"; product "lipopolysaccharide assembly protein LapB"; protein_id "WP_000891353.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1429341 1430078 . + . gene_id "ECDH10B_RS07195"; transcript_id ""; gbkey "Gene"; gene "pyrF"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07195"; old_locus_tag "ECDH10B_1398"; -NC_010473.1 Protein Homology CDS 1429341 1430075 . + 0 gene_id "ECDH10B_RS07195"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pyrF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415797.1"; locus_tag "ECDH10B_RS07195"; product "orotidine-5'-phosphate decarboxylase"; protein_id "WP_000176270.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1429341 1429343 . + 0 gene_id "ECDH10B_RS07195"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pyrF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415797.1"; locus_tag "ECDH10B_RS07195"; product "orotidine-5'-phosphate decarboxylase"; protein_id "WP_000176270.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1430076 1430078 . + 0 gene_id "ECDH10B_RS07195"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pyrF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415797.1"; locus_tag "ECDH10B_RS07195"; product "orotidine-5'-phosphate decarboxylase"; protein_id "WP_000176270.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1430078 1430404 . + . gene_id "ECDH10B_RS07200"; transcript_id ""; gbkey "Gene"; gene "yciH"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07200"; old_locus_tag "ECDH10B_1399"; -NC_010473.1 Protein Homology CDS 1430078 1430401 . + 0 gene_id "ECDH10B_RS07200"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yciH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415798.2"; locus_tag "ECDH10B_RS07200"; product "stress response translation initiation inhibitor YciH"; protein_id "WP_001295580.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1430078 1430080 . + 0 gene_id "ECDH10B_RS07200"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yciH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415798.2"; locus_tag "ECDH10B_RS07200"; product "stress response translation initiation inhibitor YciH"; protein_id "WP_001295580.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1430402 1430404 . + 0 gene_id "ECDH10B_RS07200"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yciH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415798.2"; locus_tag "ECDH10B_RS07200"; product "stress response translation initiation inhibitor YciH"; protein_id "WP_001295580.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1430530 1430748 . - . gene_id "ECDH10B_RS07205"; transcript_id ""; gbkey "Gene"; gene "osmB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07205"; old_locus_tag "ECDH10B_1400"; -NC_010473.1 Protein Homology CDS 1430533 1430748 . - 0 gene_id "ECDH10B_RS07205"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "osmB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309883.1"; locus_tag "ECDH10B_RS07205"; product "osmotically-inducible lipoprotein OsmB"; protein_id "WP_000498253.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1430746 1430748 . - 0 gene_id "ECDH10B_RS07205"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "osmB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309883.1"; locus_tag "ECDH10B_RS07205"; product "osmotically-inducible lipoprotein OsmB"; protein_id "WP_000498253.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1430530 1430532 . - 0 gene_id "ECDH10B_RS07205"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "osmB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309883.1"; locus_tag "ECDH10B_RS07205"; product "osmotically-inducible lipoprotein OsmB"; protein_id "WP_000498253.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1431017 1431766 . - . gene_id "ECDH10B_RS07210"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07210"; old_locus_tag "ECDH10B_1401"; -NC_010473.1 Protein Homology CDS 1431020 1431766 . - 0 gene_id "ECDH10B_RS07210"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415800.1"; locus_tag "ECDH10B_RS07210"; product "DeoR/GlpR transcriptional regulator"; protein_id "WP_001088620.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1431764 1431766 . - 0 gene_id "ECDH10B_RS07210"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415800.1"; locus_tag "ECDH10B_RS07210"; product "DeoR/GlpR transcriptional regulator"; protein_id "WP_001088620.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1431017 1431019 . - 0 gene_id "ECDH10B_RS07210"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415800.1"; locus_tag "ECDH10B_RS07210"; product "DeoR/GlpR transcriptional regulator"; protein_id "WP_001088620.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1431856 1432029 . - . gene_id "ECDH10B_RS07215"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07215"; -NC_010473.1 Protein Homology CDS 1431859 1432029 . - 0 gene_id "ECDH10B_RS07215"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_001165317.1"; locus_tag "ECDH10B_RS07215"; product "hypothetical protein"; protein_id "WP_001288368.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1432027 1432029 . - 0 gene_id "ECDH10B_RS07215"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_001165317.1"; locus_tag "ECDH10B_RS07215"; product "hypothetical protein"; protein_id "WP_001288368.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1431856 1431858 . - 0 gene_id "ECDH10B_RS07215"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_001165317.1"; locus_tag "ECDH10B_RS07215"; product "hypothetical protein"; protein_id "WP_001288368.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1432177 1434162 . - . gene_id "ECDH10B_RS07220"; transcript_id ""; gbkey "Gene"; gene "pdeR"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07220"; old_locus_tag "ECDH10B_1402"; -NC_010473.1 Protein Homology CDS 1432180 1434162 . - 0 gene_id "ECDH10B_RS07220"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pdeR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415801.1"; locus_tag "ECDH10B_RS07220"; product "cyclic di-GMP phosphodiesterase"; protein_id "WP_000859945.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1434160 1434162 . - 0 gene_id "ECDH10B_RS07220"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pdeR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415801.1"; locus_tag "ECDH10B_RS07220"; product "cyclic di-GMP phosphodiesterase"; protein_id "WP_000859945.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1432177 1432179 . - 0 gene_id "ECDH10B_RS07220"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pdeR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415801.1"; locus_tag "ECDH10B_RS07220"; product "cyclic di-GMP phosphodiesterase"; protein_id "WP_000859945.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1434216 1434320 . + . gene_id "ECDH10B_RS25455"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS25455"; -NC_010473.1 Protein Homology CDS 1434216 1434317 . + 0 gene_id "ECDH10B_RS25455"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_002791239.1"; locus_tag "ECDH10B_RS25455"; product "hypothetical protein"; protein_id "WP_000221855.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1434216 1434218 . + 0 gene_id "ECDH10B_RS25455"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_002791239.1"; locus_tag "ECDH10B_RS25455"; product "hypothetical protein"; protein_id "WP_000221855.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1434318 1434320 . + 0 gene_id "ECDH10B_RS25455"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_002791239.1"; locus_tag "ECDH10B_RS25455"; product "hypothetical protein"; protein_id "WP_000221855.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1434398 1436332 . - . gene_id "ECDH10B_RS07230"; transcript_id ""; gbkey "Gene"; gene "rnb"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07230"; old_locus_tag "ECDH10B_1403"; -NC_010473.1 Protein Homology CDS 1434401 1436332 . - 0 gene_id "ECDH10B_RS07230"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rnb"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415802.1"; locus_tag "ECDH10B_RS07230"; product "exoribonuclease II"; protein_id "WP_000484984.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1436330 1436332 . - 0 gene_id "ECDH10B_RS07230"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rnb"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415802.1"; locus_tag "ECDH10B_RS07230"; product "exoribonuclease II"; protein_id "WP_000484984.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1434398 1434400 . - 0 gene_id "ECDH10B_RS07230"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rnb"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415802.1"; locus_tag "ECDH10B_RS07230"; product "exoribonuclease II"; protein_id "WP_000484984.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1436400 1437527 . - . gene_id "ECDH10B_RS07235"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07235"; old_locus_tag "ECDH10B_1404"; -NC_010473.1 Protein Homology CDS 1436403 1437527 . - 0 gene_id "ECDH10B_RS07235"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415803.2"; locus_tag "ECDH10B_RS07235"; product "CMD domain-containing protein"; protein_id "WP_001335988.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1437525 1437527 . - 0 gene_id "ECDH10B_RS07235"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415803.2"; locus_tag "ECDH10B_RS07235"; product "CMD domain-containing protein"; protein_id "WP_001335988.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1436400 1436402 . - 0 gene_id "ECDH10B_RS07235"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415803.2"; locus_tag "ECDH10B_RS07235"; product "CMD domain-containing protein"; protein_id "WP_001335988.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1437671 1438459 . - . gene_id "ECDH10B_RS07240"; transcript_id ""; gbkey "Gene"; gene "fabI"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07240"; old_locus_tag "ECDH10B_1405"; -NC_010473.1 Protein Homology CDS 1437674 1438459 . - 0 gene_id "ECDH10B_RS07240"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fabI"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005126472.1"; locus_tag "ECDH10B_RS07240"; product "enoyl-ACP reductase FabI"; protein_id "WP_000506490.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1438457 1438459 . - 0 gene_id "ECDH10B_RS07240"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fabI"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005126472.1"; locus_tag "ECDH10B_RS07240"; product "enoyl-ACP reductase FabI"; protein_id "WP_000506490.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1437671 1437673 . - 0 gene_id "ECDH10B_RS07240"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fabI"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005126472.1"; locus_tag "ECDH10B_RS07240"; product "enoyl-ACP reductase FabI"; protein_id "WP_000506490.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1438827 1439180 . - . gene_id "ECDH10B_RS07245"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07245"; old_locus_tag "ECDH10B_1406"; -NC_010473.1 Protein Homology CDS 1438830 1439180 . - 0 gene_id "ECDH10B_RS07245"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415805.1"; locus_tag "ECDH10B_RS07245"; product "DUF559 domain-containing protein"; protein_id "WP_000565727.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1439178 1439180 . - 0 gene_id "ECDH10B_RS07245"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415805.1"; locus_tag "ECDH10B_RS07245"; product "DUF559 domain-containing protein"; protein_id "WP_000565727.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1438827 1438829 . - 0 gene_id "ECDH10B_RS07245"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415805.1"; locus_tag "ECDH10B_RS07245"; product "DUF559 domain-containing protein"; protein_id "WP_000565727.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1439248 1440054 . - . gene_id "ECDH10B_RS07250"; transcript_id ""; gbkey "Gene"; gene "sapF"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07250"; old_locus_tag "ECDH10B_1407"; -NC_010473.1 Protein Homology CDS 1439251 1440054 . - 0 gene_id "ECDH10B_RS07250"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sapF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415806.1"; locus_tag "ECDH10B_RS07250"; product "peptide ABC transporter ATP-binding protein SapF"; protein_id "WP_000573407.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1440052 1440054 . - 0 gene_id "ECDH10B_RS07250"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sapF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415806.1"; locus_tag "ECDH10B_RS07250"; product "peptide ABC transporter ATP-binding protein SapF"; protein_id "WP_000573407.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1439248 1439250 . - 0 gene_id "ECDH10B_RS07250"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sapF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415806.1"; locus_tag "ECDH10B_RS07250"; product "peptide ABC transporter ATP-binding protein SapF"; protein_id "WP_000573407.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1440056 1441048 . - . gene_id "ECDH10B_RS07255"; transcript_id ""; gbkey "Gene"; gene "sapD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07255"; old_locus_tag "ECDH10B_1408"; -NC_010473.1 Protein Homology CDS 1440059 1441048 . - 0 gene_id "ECDH10B_RS07255"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sapD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309895.1"; locus_tag "ECDH10B_RS07255"; product "peptide ABC transporter ATP-binding protein SapD"; protein_id "WP_001128858.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1441046 1441048 . - 0 gene_id "ECDH10B_RS07255"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sapD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309895.1"; locus_tag "ECDH10B_RS07255"; product "peptide ABC transporter ATP-binding protein SapD"; protein_id "WP_001128858.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1440056 1440058 . - 0 gene_id "ECDH10B_RS07255"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sapD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309895.1"; locus_tag "ECDH10B_RS07255"; product "peptide ABC transporter ATP-binding protein SapD"; protein_id "WP_001128858.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1441048 1441938 . - . gene_id "ECDH10B_RS07260"; transcript_id ""; gbkey "Gene"; gene "sapC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07260"; old_locus_tag "ECDH10B_1409"; -NC_010473.1 Protein Homology CDS 1441051 1441938 . - 0 gene_id "ECDH10B_RS07260"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sapC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415808.1"; locus_tag "ECDH10B_RS07260"; product "peptide ABC transporter permease SapC"; protein_id "WP_001146163.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1441936 1441938 . - 0 gene_id "ECDH10B_RS07260"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sapC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415808.1"; locus_tag "ECDH10B_RS07260"; product "peptide ABC transporter permease SapC"; protein_id "WP_001146163.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1441048 1441050 . - 0 gene_id "ECDH10B_RS07260"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sapC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415808.1"; locus_tag "ECDH10B_RS07260"; product "peptide ABC transporter permease SapC"; protein_id "WP_001146163.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1441925 1442890 . - . gene_id "ECDH10B_RS07265"; transcript_id ""; gbkey "Gene"; gene "sapB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07265"; old_locus_tag "ECDH10B_1410"; -NC_010473.1 Protein Homology CDS 1441928 1442890 . - 0 gene_id "ECDH10B_RS07265"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sapB"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005126482.1"; locus_tag "ECDH10B_RS07265"; product "peptide ABC transporter permease SapB"; protein_id "WP_000583277.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1442888 1442890 . - 0 gene_id "ECDH10B_RS07265"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sapB"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005126482.1"; locus_tag "ECDH10B_RS07265"; product "peptide ABC transporter permease SapB"; protein_id "WP_000583277.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1441925 1441927 . - 0 gene_id "ECDH10B_RS07265"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sapB"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005126482.1"; locus_tag "ECDH10B_RS07265"; product "peptide ABC transporter permease SapB"; protein_id "WP_000583277.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1442887 1444530 . - . gene_id "ECDH10B_RS07270"; transcript_id ""; gbkey "Gene"; gene "sapA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07270"; old_locus_tag "ECDH10B_1411"; -NC_010473.1 Protein Homology CDS 1442890 1444530 . - 0 gene_id "ECDH10B_RS07270"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sapA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415810.1"; locus_tag "ECDH10B_RS07270"; product "peptide ABC transporter substrate-binding protein SapA"; protein_id "WP_001250216.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1444528 1444530 . - 0 gene_id "ECDH10B_RS07270"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sapA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415810.1"; locus_tag "ECDH10B_RS07270"; product "peptide ABC transporter substrate-binding protein SapA"; protein_id "WP_001250216.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1442887 1442889 . - 0 gene_id "ECDH10B_RS07270"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sapA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415810.1"; locus_tag "ECDH10B_RS07270"; product "peptide ABC transporter substrate-binding protein SapA"; protein_id "WP_001250216.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1444843 1445088 . - . gene_id "ECDH10B_RS07280"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07280"; old_locus_tag "ECDH10B_1412"; -NC_010473.1 Protein Homology CDS 1444846 1445088 . - 0 gene_id "ECDH10B_RS07280"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415811.1"; locus_tag "ECDH10B_RS07280"; product "YmjA family protein"; protein_id "WP_001015110.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1445086 1445088 . - 0 gene_id "ECDH10B_RS07280"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415811.1"; locus_tag "ECDH10B_RS07280"; product "YmjA family protein"; protein_id "WP_001015110.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1444843 1444845 . - 0 gene_id "ECDH10B_RS07280"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415811.1"; locus_tag "ECDH10B_RS07280"; product "YmjA family protein"; protein_id "WP_001015110.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1445222 1446607 . - . gene_id "ECDH10B_RS07285"; transcript_id ""; gbkey "Gene"; gene "puuP"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07285"; old_locus_tag "ECDH10B_1413"; -NC_010473.1 Protein Homology CDS 1445225 1446607 . - 0 gene_id "ECDH10B_RS07285"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "puuP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415812.4"; locus_tag "ECDH10B_RS07285"; product "putrescine/proton symporter PuuP"; protein_id "WP_001395398.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1446605 1446607 . - 0 gene_id "ECDH10B_RS07285"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "puuP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415812.4"; locus_tag "ECDH10B_RS07285"; product "putrescine/proton symporter PuuP"; protein_id "WP_001395398.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1445222 1445224 . - 0 gene_id "ECDH10B_RS07285"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "puuP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415812.4"; locus_tag "ECDH10B_RS07285"; product "putrescine/proton symporter PuuP"; protein_id "WP_001395398.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1446597 1446761 . - . gene_id "ECDH10B_RS25950"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS25950"; -NC_010473.1 Protein Homology CDS 1446600 1446761 . - 0 gene_id "ECDH10B_RS25950"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_009518772.1"; locus_tag "ECDH10B_RS25950"; product "protein YmjE"; protein_id "WP_120795382.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1446759 1446761 . - 0 gene_id "ECDH10B_RS25950"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_009518772.1"; locus_tag "ECDH10B_RS25950"; product "protein YmjE"; protein_id "WP_120795382.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1446597 1446599 . - 0 gene_id "ECDH10B_RS25950"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_009518772.1"; locus_tag "ECDH10B_RS25950"; product "protein YmjE"; protein_id "WP_120795382.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1446910 1448328 . - . gene_id "ECDH10B_RS07290"; transcript_id ""; gbkey "Gene"; gene "puuA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07290"; old_locus_tag "ECDH10B_1414"; -NC_010473.1 Protein Homology CDS 1446913 1448328 . - 0 gene_id "ECDH10B_RS07290"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "puuA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415813.4"; locus_tag "ECDH10B_RS07290"; product "glutamate-putrescine ligase"; protein_id "WP_001296746.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1448326 1448328 . - 0 gene_id "ECDH10B_RS07290"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "puuA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415813.4"; locus_tag "ECDH10B_RS07290"; product "glutamate-putrescine ligase"; protein_id "WP_001296746.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1446910 1446912 . - 0 gene_id "ECDH10B_RS07290"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "puuA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415813.4"; locus_tag "ECDH10B_RS07290"; product "glutamate-putrescine ligase"; protein_id "WP_001296746.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1448540 1449304 . + . gene_id "ECDH10B_RS07295"; transcript_id ""; gbkey "Gene"; gene "puuD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07295"; old_locus_tag "ECDH10B_1415"; -NC_010473.1 Protein Homology CDS 1448540 1449301 . + 0 gene_id "ECDH10B_RS07295"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "puuD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415814.4"; locus_tag "ECDH10B_RS07295"; product "gamma-glutamyl-gamma-aminobutyrate hydrolase"; protein_id "WP_001300506.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1448540 1448542 . + 0 gene_id "ECDH10B_RS07295"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "puuD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415814.4"; locus_tag "ECDH10B_RS07295"; product "gamma-glutamyl-gamma-aminobutyrate hydrolase"; protein_id "WP_001300506.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1449302 1449304 . + 0 gene_id "ECDH10B_RS07295"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "puuD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415814.4"; locus_tag "ECDH10B_RS07295"; product "gamma-glutamyl-gamma-aminobutyrate hydrolase"; protein_id "WP_001300506.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1449331 1449888 . + . gene_id "ECDH10B_RS07300"; transcript_id ""; gbkey "Gene"; gene "puuR"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07300"; old_locus_tag "ECDH10B_1416"; -NC_010473.1 Protein Homology CDS 1449331 1449885 . + 0 gene_id "ECDH10B_RS07300"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "puuR"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001464354.1"; locus_tag "ECDH10B_RS07300"; product "HTH-type transcriptional regulator PuuR"; protein_id "WP_001278727.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1449331 1449333 . + 0 gene_id "ECDH10B_RS07300"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "puuR"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001464354.1"; locus_tag "ECDH10B_RS07300"; product "HTH-type transcriptional regulator PuuR"; protein_id "WP_001278727.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1449886 1449888 . + 0 gene_id "ECDH10B_RS07300"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "puuR"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001464354.1"; locus_tag "ECDH10B_RS07300"; product "HTH-type transcriptional regulator PuuR"; protein_id "WP_001278727.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1450163 1451650 . + . gene_id "ECDH10B_RS07305"; transcript_id ""; gbkey "Gene"; gene "puuC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07305"; old_locus_tag "ECDH10B_1417"; -NC_010473.1 Protein Homology CDS 1450163 1451647 . + 0 gene_id "ECDH10B_RS07305"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "puuC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415816.1"; locus_tag "ECDH10B_RS07305"; product "aldehyde dehydrogenase PuuC"; protein_id "WP_001009090.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1450163 1450165 . + 0 gene_id "ECDH10B_RS07305"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "puuC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415816.1"; locus_tag "ECDH10B_RS07305"; product "aldehyde dehydrogenase PuuC"; protein_id "WP_001009090.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1451648 1451650 . + 0 gene_id "ECDH10B_RS07305"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "puuC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415816.1"; locus_tag "ECDH10B_RS07305"; product "aldehyde dehydrogenase PuuC"; protein_id "WP_001009090.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1451652 1452932 . + . gene_id "ECDH10B_RS07310"; transcript_id ""; gbkey "Gene"; gene "puuB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07310"; old_locus_tag "ECDH10B_1418"; -NC_010473.1 Protein Homology CDS 1451652 1452929 . + 0 gene_id "ECDH10B_RS07310"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "puuB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415817.1"; locus_tag "ECDH10B_RS07310"; product "gamma-glutamylputrescine oxidase"; protein_id "WP_000134870.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1451652 1451654 . + 0 gene_id "ECDH10B_RS07310"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "puuB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415817.1"; locus_tag "ECDH10B_RS07310"; product "gamma-glutamylputrescine oxidase"; protein_id "WP_000134870.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1452930 1452932 . + 0 gene_id "ECDH10B_RS07310"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "puuB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415817.1"; locus_tag "ECDH10B_RS07310"; product "gamma-glutamylputrescine oxidase"; protein_id "WP_000134870.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1452970 1454235 . + . gene_id "ECDH10B_RS07315"; transcript_id ""; gbkey "Gene"; gene "puuE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07315"; old_locus_tag "ECDH10B_1419"; -NC_010473.1 Protein Homology CDS 1452970 1454232 . + 0 gene_id "ECDH10B_RS07315"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "puuE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415818.1"; locus_tag "ECDH10B_RS07315"; product "4-aminobutyrate transaminase"; protein_id "WP_000069229.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1452970 1452972 . + 0 gene_id "ECDH10B_RS07315"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "puuE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415818.1"; locus_tag "ECDH10B_RS07315"; product "4-aminobutyrate transaminase"; protein_id "WP_000069229.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1454233 1454235 . + 0 gene_id "ECDH10B_RS07315"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "puuE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415818.1"; locus_tag "ECDH10B_RS07315"; product "4-aminobutyrate transaminase"; protein_id "WP_000069229.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1454355 1455332 . - . gene_id "ECDH10B_RS07320"; transcript_id ""; gbkey "Gene"; gene "pspF"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07320"; old_locus_tag "ECDH10B_1420"; -NC_010473.1 Protein Homology CDS 1454358 1455332 . - 0 gene_id "ECDH10B_RS07320"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pspF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415819.4"; locus_tag "ECDH10B_RS07320"; product "phage shock protein operon transcriptional activator"; protein_id "WP_001301108.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1455330 1455332 . - 0 gene_id "ECDH10B_RS07320"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pspF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415819.4"; locus_tag "ECDH10B_RS07320"; product "phage shock protein operon transcriptional activator"; protein_id "WP_001301108.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1454355 1454357 . - 0 gene_id "ECDH10B_RS07320"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pspF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415819.4"; locus_tag "ECDH10B_RS07320"; product "phage shock protein operon transcriptional activator"; protein_id "WP_001301108.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1455499 1456167 . + . gene_id "ECDH10B_RS07325"; transcript_id ""; gbkey "Gene"; gene "pspA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07325"; old_locus_tag "ECDH10B_1421"; -NC_010473.1 Protein Homology CDS 1455499 1456164 . + 0 gene_id "ECDH10B_RS07325"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pspA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309908.1"; locus_tag "ECDH10B_RS07325"; product "phage shock protein PspA"; protein_id "WP_000511025.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1455499 1455501 . + 0 gene_id "ECDH10B_RS07325"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pspA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309908.1"; locus_tag "ECDH10B_RS07325"; product "phage shock protein PspA"; protein_id "WP_000511025.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1456165 1456167 . + 0 gene_id "ECDH10B_RS07325"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pspA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309908.1"; locus_tag "ECDH10B_RS07325"; product "phage shock protein PspA"; protein_id "WP_000511025.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1456221 1456445 . + . gene_id "ECDH10B_RS07330"; transcript_id ""; gbkey "Gene"; gene "pspB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07330"; old_locus_tag "ECDH10B_1422"; -NC_010473.1 Protein Homology CDS 1456221 1456442 . + 0 gene_id "ECDH10B_RS07330"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pspB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309909.1"; locus_tag "ECDH10B_RS07330"; product "envelope stress response membrane protein PspB"; protein_id "WP_001274963.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1456221 1456223 . + 0 gene_id "ECDH10B_RS07330"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pspB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309909.1"; locus_tag "ECDH10B_RS07330"; product "envelope stress response membrane protein PspB"; protein_id "WP_001274963.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1456443 1456445 . + 0 gene_id "ECDH10B_RS07330"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pspB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309909.1"; locus_tag "ECDH10B_RS07330"; product "envelope stress response membrane protein PspB"; protein_id "WP_001274963.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1456445 1456804 . + . gene_id "ECDH10B_RS07335"; transcript_id ""; gbkey "Gene"; gene "pspC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07335"; old_locus_tag "ECDH10B_1423"; -NC_010473.1 Protein Homology CDS 1456445 1456801 . + 0 gene_id "ECDH10B_RS07335"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pspC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309910.1"; locus_tag "ECDH10B_RS07335"; product "envelope stress response membrane protein PspC"; protein_id "WP_000907387.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1456445 1456447 . + 0 gene_id "ECDH10B_RS07335"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pspC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309910.1"; locus_tag "ECDH10B_RS07335"; product "envelope stress response membrane protein PspC"; protein_id "WP_000907387.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1456802 1456804 . + 0 gene_id "ECDH10B_RS07335"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pspC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309910.1"; locus_tag "ECDH10B_RS07335"; product "envelope stress response membrane protein PspC"; protein_id "WP_000907387.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1456813 1457034 . + . gene_id "ECDH10B_RS07340"; transcript_id ""; gbkey "Gene"; gene "pspD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07340"; old_locus_tag "ECDH10B_1424"; -NC_010473.1 Protein Homology CDS 1456813 1457031 . + 0 gene_id "ECDH10B_RS07340"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pspD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309911.1"; locus_tag "ECDH10B_RS07340"; product "phage shock protein PspD"; protein_id "WP_001295585.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1456813 1456815 . + 0 gene_id "ECDH10B_RS07340"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pspD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309911.1"; locus_tag "ECDH10B_RS07340"; product "phage shock protein PspD"; protein_id "WP_001295585.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1457032 1457034 . + 0 gene_id "ECDH10B_RS07340"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pspD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309911.1"; locus_tag "ECDH10B_RS07340"; product "phage shock protein PspD"; protein_id "WP_001295585.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1457109 1457423 . + . gene_id "ECDH10B_RS07345"; transcript_id ""; gbkey "Gene"; gene "pspE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07345"; old_locus_tag "ECDH10B_1425"; -NC_010473.1 Protein Homology CDS 1457109 1457420 . + 0 gene_id "ECDH10B_RS07345"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pspE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415824.1"; locus_tag "ECDH10B_RS07345"; product "thiosulfate sulfurtransferase PspE"; protein_id "WP_000473109.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1457109 1457111 . + 0 gene_id "ECDH10B_RS07345"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pspE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415824.1"; locus_tag "ECDH10B_RS07345"; product "thiosulfate sulfurtransferase PspE"; protein_id "WP_000473109.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1457421 1457423 . + 0 gene_id "ECDH10B_RS07345"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pspE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415824.1"; locus_tag "ECDH10B_RS07345"; product "thiosulfate sulfurtransferase PspE"; protein_id "WP_000473109.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1457636 1459315 . + . gene_id "ECDH10B_RS07350"; transcript_id ""; gbkey "Gene"; gene "ycjM"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07350"; old_locus_tag "ECDH10B_1426"; -NC_010473.1 Protein Homology CDS 1457636 1459312 . + 0 gene_id "ECDH10B_RS07350"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ycjM"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415825.4"; locus_tag "ECDH10B_RS07350"; product "glucosylglycerate phosphorylase"; protein_id "WP_000810499.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1457636 1457638 . + 0 gene_id "ECDH10B_RS07350"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ycjM"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415825.4"; locus_tag "ECDH10B_RS07350"; product "glucosylglycerate phosphorylase"; protein_id "WP_000810499.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1459313 1459315 . + 0 gene_id "ECDH10B_RS07350"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ycjM"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415825.4"; locus_tag "ECDH10B_RS07350"; product "glucosylglycerate phosphorylase"; protein_id "WP_000810499.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1459329 1460621 . + . gene_id "ECDH10B_RS07355"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07355"; old_locus_tag "ECDH10B_1427"; -NC_010473.1 Protein Homology CDS 1459329 1460618 . + 0 gene_id "ECDH10B_RS07355"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415826.1"; locus_tag "ECDH10B_RS07355"; product "carbohydrate ABC transporter substrate-binding protein"; protein_id "WP_000597466.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1459329 1459331 . + 0 gene_id "ECDH10B_RS07355"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415826.1"; locus_tag "ECDH10B_RS07355"; product "carbohydrate ABC transporter substrate-binding protein"; protein_id "WP_000597466.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1460619 1460621 . + 0 gene_id "ECDH10B_RS07355"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415826.1"; locus_tag "ECDH10B_RS07355"; product "carbohydrate ABC transporter substrate-binding protein"; protein_id "WP_000597466.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1460642 1461523 . + . gene_id "ECDH10B_RS07360"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07360"; old_locus_tag "ECDH10B_1428"; -NC_010473.1 Protein Homology CDS 1460642 1461520 . + 0 gene_id "ECDH10B_RS07360"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415827.1"; locus_tag "ECDH10B_RS07360"; product "sugar ABC transporter permease"; protein_id "WP_001080790.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1460642 1460644 . + 0 gene_id "ECDH10B_RS07360"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415827.1"; locus_tag "ECDH10B_RS07360"; product "sugar ABC transporter permease"; protein_id "WP_001080790.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1461521 1461523 . + 0 gene_id "ECDH10B_RS07360"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415827.1"; locus_tag "ECDH10B_RS07360"; product "sugar ABC transporter permease"; protein_id "WP_001080790.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1461510 1462352 . + . gene_id "ECDH10B_RS07365"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07365"; old_locus_tag "ECDH10B_1429"; -NC_010473.1 Protein Homology CDS 1461510 1462349 . + 0 gene_id "ECDH10B_RS07365"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415828.1"; locus_tag "ECDH10B_RS07365"; product "carbohydrate ABC transporter permease"; protein_id "WP_000224659.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1461510 1461512 . + 0 gene_id "ECDH10B_RS07365"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415828.1"; locus_tag "ECDH10B_RS07365"; product "carbohydrate ABC transporter permease"; protein_id "WP_000224659.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1462350 1462352 . + 0 gene_id "ECDH10B_RS07365"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415828.1"; locus_tag "ECDH10B_RS07365"; product "carbohydrate ABC transporter permease"; protein_id "WP_000224659.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1462383 1463435 . + . gene_id "ECDH10B_RS07370"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07370"; old_locus_tag "ECDH10B_1430"; -NC_010473.1 Protein Homology CDS 1462383 1463432 . + 0 gene_id "ECDH10B_RS07370"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415829.1"; locus_tag "ECDH10B_RS07370"; product "zinc-binding alcohol dehydrogenase"; protein_id "WP_000737347.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1462383 1462385 . + 0 gene_id "ECDH10B_RS07370"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415829.1"; locus_tag "ECDH10B_RS07370"; product "zinc-binding alcohol dehydrogenase"; protein_id "WP_000737347.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1463433 1463435 . + 0 gene_id "ECDH10B_RS07370"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415829.1"; locus_tag "ECDH10B_RS07370"; product "zinc-binding alcohol dehydrogenase"; protein_id "WP_000737347.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1463454 1464242 . + . gene_id "ECDH10B_RS07375"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07375"; old_locus_tag "ECDH10B_1431"; -NC_010473.1 Protein Homology CDS 1463454 1464239 . + 0 gene_id "ECDH10B_RS07375"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415830.2"; locus_tag "ECDH10B_RS07375"; product "sugar phosphate isomerase/epimerase"; protein_id "WP_000690229.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1463454 1463456 . + 0 gene_id "ECDH10B_RS07375"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415830.2"; locus_tag "ECDH10B_RS07375"; product "sugar phosphate isomerase/epimerase"; protein_id "WP_000690229.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1464240 1464242 . + 0 gene_id "ECDH10B_RS07375"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415830.2"; locus_tag "ECDH10B_RS07375"; product "sugar phosphate isomerase/epimerase"; protein_id "WP_000690229.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1464252 1465307 . + . gene_id "ECDH10B_RS07380"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07380"; old_locus_tag "ECDH10B_1432"; -NC_010473.1 Protein Homology CDS 1464252 1465304 . + 0 gene_id "ECDH10B_RS07380"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415831.1"; locus_tag "ECDH10B_RS07380"; product "Gfo/Idh/MocA family oxidoreductase"; protein_id "WP_001395397.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1464252 1464254 . + 0 gene_id "ECDH10B_RS07380"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415831.1"; locus_tag "ECDH10B_RS07380"; product "Gfo/Idh/MocA family oxidoreductase"; protein_id "WP_001395397.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1465305 1465307 . + 0 gene_id "ECDH10B_RS07380"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415831.1"; locus_tag "ECDH10B_RS07380"; product "Gfo/Idh/MocA family oxidoreductase"; protein_id "WP_001395397.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1465304 1467571 . + . gene_id "ECDH10B_RS07385"; transcript_id ""; gbkey "Gene"; gene "ycjT"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07385"; old_locus_tag "ECDH10B_1433"; -NC_010473.1 Protein Homology CDS 1465304 1467568 . + 0 gene_id "ECDH10B_RS07385"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ycjT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415832.1"; locus_tag "ECDH10B_RS07385"; product "kojibiose phosphorylase"; protein_id "WP_000198036.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1465304 1465306 . + 0 gene_id "ECDH10B_RS07385"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ycjT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415832.1"; locus_tag "ECDH10B_RS07385"; product "kojibiose phosphorylase"; protein_id "WP_000198036.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1467569 1467571 . + 0 gene_id "ECDH10B_RS07385"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ycjT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415832.1"; locus_tag "ECDH10B_RS07385"; product "kojibiose phosphorylase"; protein_id "WP_000198036.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1467568 1468227 . + . gene_id "ECDH10B_RS07390"; transcript_id ""; gbkey "Gene"; gene "pgmB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07390"; old_locus_tag "ECDH10B_1434"; -NC_010473.1 Protein Homology CDS 1467568 1468224 . + 0 gene_id "ECDH10B_RS07390"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pgmB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415833.1"; locus_tag "ECDH10B_RS07390"; product "beta-phosphoglucomutase"; protein_id "WP_000775794.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1467568 1467570 . + 0 gene_id "ECDH10B_RS07390"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pgmB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415833.1"; locus_tag "ECDH10B_RS07390"; product "beta-phosphoglucomutase"; protein_id "WP_000775794.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1468225 1468227 . + 0 gene_id "ECDH10B_RS07390"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pgmB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415833.1"; locus_tag "ECDH10B_RS07390"; product "beta-phosphoglucomutase"; protein_id "WP_000775794.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1468241 1469322 . + . gene_id "ECDH10B_RS07395"; transcript_id ""; gbkey "Gene"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS07395"; old_locus_tag "ECDH10B_1436"; pseudo "true"; -NC_010473.1 Protein Homology CDS 1468241 1469319 . + 0 gene_id "ECDH10B_RS07395"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309924.1"; locus_tag "ECDH10B_RS07395"; note "frameshifted"; product "ABC transporter ATP-binding protein"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1468241 1468243 . + 0 gene_id "ECDH10B_RS07395"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309924.1"; locus_tag "ECDH10B_RS07395"; note "frameshifted"; product "ABC transporter ATP-binding protein"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1469320 1469322 . + 0 gene_id "ECDH10B_RS07395"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309924.1"; locus_tag "ECDH10B_RS07395"; note "frameshifted"; product "ABC transporter ATP-binding protein"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 1469367 1470272 . + . gene_id "ECDH10B_RS07400"; transcript_id ""; gbkey "Gene"; gene "ompG"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07400"; old_locus_tag "ECDH10B_1438"; -NC_010473.1 Protein Homology CDS 1469367 1470269 . + 0 gene_id "ECDH10B_RS07400"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ompG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415835.1"; locus_tag "ECDH10B_RS07400"; product "monomeric porin OmpG"; protein_id "WP_000735257.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1469367 1469369 . + 0 gene_id "ECDH10B_RS07400"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ompG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415835.1"; locus_tag "ECDH10B_RS07400"; product "monomeric porin OmpG"; protein_id "WP_000735257.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1470270 1470272 . + 0 gene_id "ECDH10B_RS07400"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ompG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415835.1"; locus_tag "ECDH10B_RS07400"; product "monomeric porin OmpG"; protein_id "WP_000735257.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1470383 1471381 . - . gene_id "ECDH10B_RS07405"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07405"; old_locus_tag "ECDH10B_1439"; -NC_010473.1 Protein Homology CDS 1470386 1471381 . - 0 gene_id "ECDH10B_RS07405"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415836.1"; locus_tag "ECDH10B_RS07405"; product "LacI family DNA-binding transcriptional regulator"; protein_id "WP_000075375.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1471379 1471381 . - 0 gene_id "ECDH10B_RS07405"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415836.1"; locus_tag "ECDH10B_RS07405"; product "LacI family DNA-binding transcriptional regulator"; protein_id "WP_000075375.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1470383 1470385 . - 0 gene_id "ECDH10B_RS07405"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415836.1"; locus_tag "ECDH10B_RS07405"; product "LacI family DNA-binding transcriptional regulator"; protein_id "WP_000075375.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1471537 1472934 . + . gene_id "ECDH10B_RS07410"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07410"; old_locus_tag "ECDH10B_1440"; -NC_010473.1 Protein Homology CDS 1471537 1472931 . + 0 gene_id "ECDH10B_RS07410"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005126510.1"; locus_tag "ECDH10B_RS07410"; product "YcjX family protein"; protein_id "WP_000825775.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1471537 1471539 . + 0 gene_id "ECDH10B_RS07410"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005126510.1"; locus_tag "ECDH10B_RS07410"; product "YcjX family protein"; protein_id "WP_000825775.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1472932 1472934 . + 0 gene_id "ECDH10B_RS07410"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005126510.1"; locus_tag "ECDH10B_RS07410"; product "YcjX family protein"; protein_id "WP_000825775.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1472931 1473992 . + . gene_id "ECDH10B_RS07415"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07415"; old_locus_tag "ECDH10B_1441"; -NC_010473.1 Protein Homology CDS 1472931 1473989 . + 0 gene_id "ECDH10B_RS07415"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415838.1"; locus_tag "ECDH10B_RS07415"; product "TIGR01620 family protein"; protein_id "WP_000138728.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1472931 1472933 . + 0 gene_id "ECDH10B_RS07415"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415838.1"; locus_tag "ECDH10B_RS07415"; product "TIGR01620 family protein"; protein_id "WP_000138728.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1473990 1473992 . + 0 gene_id "ECDH10B_RS07415"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415838.1"; locus_tag "ECDH10B_RS07415"; product "TIGR01620 family protein"; protein_id "WP_000138728.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1474140 1475681 . + . gene_id "ECDH10B_RS07420"; transcript_id ""; gbkey "Gene"; gene "tyrR"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07420"; old_locus_tag "ECDH10B_1442"; -NC_010473.1 Protein Homology CDS 1474140 1475678 . + 0 gene_id "ECDH10B_RS07420"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tyrR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415839.1"; locus_tag "ECDH10B_RS07420"; product "transcriptional regulator TyrR"; protein_id "WP_001300658.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1474140 1474142 . + 0 gene_id "ECDH10B_RS07420"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tyrR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415839.1"; locus_tag "ECDH10B_RS07420"; product "transcriptional regulator TyrR"; protein_id "WP_001300658.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1475679 1475681 . + 0 gene_id "ECDH10B_RS07420"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tyrR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415839.1"; locus_tag "ECDH10B_RS07420"; product "transcriptional regulator TyrR"; protein_id "WP_001300658.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1475725 1476231 . - . gene_id "ECDH10B_RS07425"; transcript_id ""; gbkey "Gene"; gene "tpx"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07425"; old_locus_tag "ECDH10B_1443"; -NC_010473.1 Protein Homology CDS 1475728 1476231 . - 0 gene_id "ECDH10B_RS07425"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tpx"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309930.1"; locus_tag "ECDH10B_RS07425"; product "thiol peroxidase"; protein_id "WP_000084387.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1476229 1476231 . - 0 gene_id "ECDH10B_RS07425"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tpx"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309930.1"; locus_tag "ECDH10B_RS07425"; product "thiol peroxidase"; protein_id "WP_000084387.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1475725 1475727 . - 0 gene_id "ECDH10B_RS07425"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tpx"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309930.1"; locus_tag "ECDH10B_RS07425"; product "thiol peroxidase"; protein_id "WP_000084387.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1476350 1477315 . + . gene_id "ECDH10B_RS07430"; transcript_id ""; gbkey "Gene"; gene "ycjG"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07430"; old_locus_tag "ECDH10B_1444"; -NC_010473.1 Protein Homology CDS 1476350 1477312 . + 0 gene_id "ECDH10B_RS07430"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ycjG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415841.4"; locus_tag "ECDH10B_RS07430"; product "L-Ala-D/L-Glu epimerase"; protein_id "WP_001261211.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1476350 1476352 . + 0 gene_id "ECDH10B_RS07430"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ycjG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415841.4"; locus_tag "ECDH10B_RS07430"; product "L-Ala-D/L-Glu epimerase"; protein_id "WP_001261211.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1477313 1477315 . + 0 gene_id "ECDH10B_RS07430"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ycjG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415841.4"; locus_tag "ECDH10B_RS07430"; product "L-Ala-D/L-Glu epimerase"; protein_id "WP_001261211.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1477290 1478018 . - . gene_id "ECDH10B_RS07435"; transcript_id ""; gbkey "Gene"; gene "mpaA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07435"; old_locus_tag "ECDH10B_1445"; -NC_010473.1 Protein Homology CDS 1477293 1478018 . - 0 gene_id "ECDH10B_RS07435"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mpaA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415842.2"; locus_tag "ECDH10B_RS07435"; product "murein tripeptide amidase MpaA"; protein_id "WP_000219122.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1478016 1478018 . - 0 gene_id "ECDH10B_RS07435"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mpaA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415842.2"; locus_tag "ECDH10B_RS07435"; product "murein tripeptide amidase MpaA"; protein_id "WP_000219122.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1477290 1477292 . - 0 gene_id "ECDH10B_RS07435"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mpaA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415842.2"; locus_tag "ECDH10B_RS07435"; product "murein tripeptide amidase MpaA"; protein_id "WP_000219122.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1478145 1478282 . - . gene_id "ECDH10B_RS07440"; transcript_id ""; gbkey "Gene"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS07440"; old_locus_tag "ECDH10B_1446"; partial "true"; pseudo "true"; -NC_010473.1 Protein Homology CDS 1478148 1478282 . - 0 gene_id "ECDH10B_RS07440"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_707232.2"; locus_tag "ECDH10B_RS07440"; note "incomplete; partial in the middle of a contig; missing C-terminus"; partial "true"; product "NAD-dependent dehydratase"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1478280 1478282 . - 0 gene_id "ECDH10B_RS07440"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_707232.2"; locus_tag "ECDH10B_RS07440"; note "incomplete; partial in the middle of a contig; missing C-terminus"; partial "true"; product "NAD-dependent dehydratase"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1478145 1478147 . - 0 gene_id "ECDH10B_RS07440"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_707232.2"; locus_tag "ECDH10B_RS07440"; note "incomplete; partial in the middle of a contig; missing C-terminus"; partial "true"; product "NAD-dependent dehydratase"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 1478288 1478353 . - . gene_id "ECDH10B_RS25955"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS25955"; -NC_010473.1 Protein Homology CDS 1478291 1478353 . - 0 gene_id "ECDH10B_RS25955"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_009518774.1"; locus_tag "ECDH10B_RS25955"; product "uncharacterized protein YmjD"; protein_id "WP_120795383.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1478351 1478353 . - 0 gene_id "ECDH10B_RS25955"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_009518774.1"; locus_tag "ECDH10B_RS25955"; product "uncharacterized protein YmjD"; protein_id "WP_120795383.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1478288 1478290 . - 0 gene_id "ECDH10B_RS25955"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_009518774.1"; locus_tag "ECDH10B_RS25955"; product "uncharacterized protein YmjD"; protein_id "WP_120795383.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1478353 1479273 . - . gene_id "ECDH10B_RS07445"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07445"; old_locus_tag "ECDH10B_1447"; -NC_010473.1 Protein Homology CDS 1478356 1479273 . - 0 gene_id "ECDH10B_RS07445"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415843.2"; locus_tag "ECDH10B_RS07445"; product "alpha/beta hydrolase"; protein_id "WP_001300523.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1479271 1479273 . - 0 gene_id "ECDH10B_RS07445"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415843.2"; locus_tag "ECDH10B_RS07445"; product "alpha/beta hydrolase"; protein_id "WP_001300523.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1478353 1478355 . - 0 gene_id "ECDH10B_RS07445"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415843.2"; locus_tag "ECDH10B_RS07445"; product "alpha/beta hydrolase"; protein_id "WP_001300523.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1479411 1480310 . + . gene_id "ECDH10B_RS07450"; transcript_id ""; gbkey "Gene"; gene "pgrR"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07450"; old_locus_tag "ECDH10B_1448"; -NC_010473.1 Protein Homology CDS 1479411 1480307 . + 0 gene_id "ECDH10B_RS07450"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pgrR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415844.1"; locus_tag "ECDH10B_RS07450"; product "DNA-binding transcriptional regulator PgrR"; protein_id "WP_000817708.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1479411 1479413 . + 0 gene_id "ECDH10B_RS07450"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pgrR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415844.1"; locus_tag "ECDH10B_RS07450"; product "DNA-binding transcriptional regulator PgrR"; protein_id "WP_000817708.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1480308 1480310 . + 0 gene_id "ECDH10B_RS07450"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pgrR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415844.1"; locus_tag "ECDH10B_RS07450"; product "DNA-binding transcriptional regulator PgrR"; protein_id "WP_000817708.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1480647 1482260 . + . gene_id "ECDH10B_RS07460"; transcript_id ""; gbkey "Gene"; gene "mppA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07460"; old_locus_tag "ECDH10B_1449"; -NC_010473.1 Protein Homology CDS 1480647 1482257 . + 0 gene_id "ECDH10B_RS07460"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mppA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415845.2"; locus_tag "ECDH10B_RS07460"; product "murein tripeptide ABC transporter substrate-binding protein MppA"; protein_id "WP_000683020.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1480647 1480649 . + 0 gene_id "ECDH10B_RS07460"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mppA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415845.2"; locus_tag "ECDH10B_RS07460"; product "murein tripeptide ABC transporter substrate-binding protein MppA"; protein_id "WP_000683020.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1482258 1482260 . + 0 gene_id "ECDH10B_RS07460"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mppA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415845.2"; locus_tag "ECDH10B_RS07460"; product "murein tripeptide ABC transporter substrate-binding protein MppA"; protein_id "WP_000683020.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1482311 1483342 . - . gene_id "ECDH10B_RS07465"; transcript_id ""; gbkey "Gene"; gene "ynaI"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07465"; old_locus_tag "ECDH10B_1450"; -NC_010473.1 Protein Homology CDS 1482314 1483342 . - 0 gene_id "ECDH10B_RS07465"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ynaI"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309939.1"; locus_tag "ECDH10B_RS07465"; product "low conductance mechanosensitive channel YnaI"; protein_id "WP_000559900.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1483340 1483342 . - 0 gene_id "ECDH10B_RS07465"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ynaI"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309939.1"; locus_tag "ECDH10B_RS07465"; product "low conductance mechanosensitive channel YnaI"; protein_id "WP_000559900.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1482311 1482313 . - 0 gene_id "ECDH10B_RS07465"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ynaI"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309939.1"; locus_tag "ECDH10B_RS07465"; product "low conductance mechanosensitive channel YnaI"; protein_id "WP_000559900.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1483496 1484512 . + . gene_id "ECDH10B_RS07470"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07470"; old_locus_tag "ECDH10B_1451"; -NC_010473.1 Protein Homology CDS 1483496 1484509 . + 0 gene_id "ECDH10B_RS07470"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414793.1"; locus_tag "ECDH10B_RS07470"; product "IS5-like element IS5 family transposase"; protein_id "WP_010723085.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1483496 1483498 . + 0 gene_id "ECDH10B_RS07470"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414793.1"; locus_tag "ECDH10B_RS07470"; product "IS5-like element IS5 family transposase"; protein_id "WP_010723085.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1484510 1484512 . + 0 gene_id "ECDH10B_RS07470"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414793.1"; locus_tag "ECDH10B_RS07470"; product "IS5-like element IS5 family transposase"; protein_id "WP_010723085.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1484785 1485042 . + . gene_id "ECDH10B_RS07475"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07475"; old_locus_tag "ECDH10B_1452"; -NC_010473.1 Protein Homology CDS 1484785 1485039 . + 0 gene_id "ECDH10B_RS07475"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309940.1"; locus_tag "ECDH10B_RS07475"; product "DUF2534 family protein"; protein_id "WP_000605090.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1484785 1484787 . + 0 gene_id "ECDH10B_RS07475"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309940.1"; locus_tag "ECDH10B_RS07475"; product "DUF2534 family protein"; protein_id "WP_000605090.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1485040 1485042 . + 0 gene_id "ECDH10B_RS07475"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309940.1"; locus_tag "ECDH10B_RS07475"; product "DUF2534 family protein"; protein_id "WP_000605090.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1485092 1486042 . - . gene_id "ECDH10B_RS07480"; transcript_id ""; gbkey "Gene"; gene "uspE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07480"; old_locus_tag "ECDH10B_1453"; -NC_010473.1 Protein Homology CDS 1485095 1486042 . - 0 gene_id "ECDH10B_RS07480"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "uspE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309941.1"; locus_tag "ECDH10B_RS07480"; product "universal stress protein UspE"; protein_id "WP_001262123.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1486040 1486042 . - 0 gene_id "ECDH10B_RS07480"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "uspE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309941.1"; locus_tag "ECDH10B_RS07480"; product "universal stress protein UspE"; protein_id "WP_001262123.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1485092 1485094 . - 0 gene_id "ECDH10B_RS07480"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "uspE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309941.1"; locus_tag "ECDH10B_RS07480"; product "universal stress protein UspE"; protein_id "WP_001262123.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1486194 1486946 . - . gene_id "ECDH10B_RS07485"; transcript_id ""; gbkey "Gene"; gene "fnr"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07485"; old_locus_tag "ECDH10B_1454"; -NC_010473.1 Protein Homology CDS 1486197 1486946 . - 0 gene_id "ECDH10B_RS07485"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fnr"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_007849744.1"; locus_tag "ECDH10B_RS07485"; product "fumarate/nitrate reduction transcriptional regulator Fnr"; protein_id "WP_000611911.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1486944 1486946 . - 0 gene_id "ECDH10B_RS07485"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fnr"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_007849744.1"; locus_tag "ECDH10B_RS07485"; product "fumarate/nitrate reduction transcriptional regulator Fnr"; protein_id "WP_000611911.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1486194 1486196 . - 0 gene_id "ECDH10B_RS07485"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fnr"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_007849744.1"; locus_tag "ECDH10B_RS07485"; product "fumarate/nitrate reduction transcriptional regulator Fnr"; protein_id "WP_000611911.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1487141 1487656 . - . gene_id "ECDH10B_RS07490"; transcript_id ""; gbkey "Gene"; gene "ogt"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07490"; old_locus_tag "ECDH10B_1455"; -NC_010473.1 Protein Homology CDS 1487144 1487656 . - 0 gene_id "ECDH10B_RS07490"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ogt"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415851.1"; locus_tag "ECDH10B_RS07490"; product "methylated-DNA--[protein]-cysteine S-methyltransferase"; protein_id "WP_000945011.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1487654 1487656 . - 0 gene_id "ECDH10B_RS07490"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ogt"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415851.1"; locus_tag "ECDH10B_RS07490"; product "methylated-DNA--[protein]-cysteine S-methyltransferase"; protein_id "WP_000945011.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1487141 1487143 . - 0 gene_id "ECDH10B_RS07490"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ogt"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415851.1"; locus_tag "ECDH10B_RS07490"; product "methylated-DNA--[protein]-cysteine S-methyltransferase"; protein_id "WP_000945011.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1487667 1489193 . - . gene_id "ECDH10B_RS07495"; transcript_id ""; gbkey "Gene"; gene "abgT"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07495"; old_locus_tag "ECDH10B_1456"; -NC_010473.1 Protein Homology CDS 1487670 1489193 . - 0 gene_id "ECDH10B_RS07495"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "abgT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415852.2"; locus_tag "ECDH10B_RS07495"; product "p-aminobenzoyl-glutamate transporter"; protein_id "WP_000062973.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1489191 1489193 . - 0 gene_id "ECDH10B_RS07495"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "abgT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415852.2"; locus_tag "ECDH10B_RS07495"; product "p-aminobenzoyl-glutamate transporter"; protein_id "WP_000062973.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1487667 1487669 . - 0 gene_id "ECDH10B_RS07495"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "abgT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415852.2"; locus_tag "ECDH10B_RS07495"; product "p-aminobenzoyl-glutamate transporter"; protein_id "WP_000062973.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1489230 1490675 . - . gene_id "ECDH10B_RS07505"; transcript_id ""; gbkey "Gene"; gene "abgB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07505"; old_locus_tag "ECDH10B_1457"; -NC_010473.1 Protein Homology CDS 1489233 1490675 . - 0 gene_id "ECDH10B_RS07505"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "abgB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415853.1"; locus_tag "ECDH10B_RS07505"; product "p-aminobenzoyl-glutamate hydrolase subunit AbgB"; protein_id "WP_001156451.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1490673 1490675 . - 0 gene_id "ECDH10B_RS07505"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "abgB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415853.1"; locus_tag "ECDH10B_RS07505"; product "p-aminobenzoyl-glutamate hydrolase subunit AbgB"; protein_id "WP_001156451.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1489230 1489232 . - 0 gene_id "ECDH10B_RS07505"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "abgB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415853.1"; locus_tag "ECDH10B_RS07505"; product "p-aminobenzoyl-glutamate hydrolase subunit AbgB"; protein_id "WP_001156451.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1490675 1491985 . - . gene_id "ECDH10B_RS07510"; transcript_id ""; gbkey "Gene"; gene "abgA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07510"; old_locus_tag "ECDH10B_1458"; -NC_010473.1 Protein Homology CDS 1490678 1491985 . - 0 gene_id "ECDH10B_RS07510"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "abgA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415854.4"; locus_tag "ECDH10B_RS07510"; product "p-aminobenzoyl-glutamate hydrolase subunit AbgA"; protein_id "WP_000444929.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1491983 1491985 . - 0 gene_id "ECDH10B_RS07510"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "abgA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415854.4"; locus_tag "ECDH10B_RS07510"; product "p-aminobenzoyl-glutamate hydrolase subunit AbgA"; protein_id "WP_000444929.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1490675 1490677 . - 0 gene_id "ECDH10B_RS07510"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "abgA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415854.4"; locus_tag "ECDH10B_RS07510"; product "p-aminobenzoyl-glutamate hydrolase subunit AbgA"; protein_id "WP_000444929.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1492161 1493069 . + . gene_id "ECDH10B_RS07515"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07515"; old_locus_tag "ECDH10B_1459"; -NC_010473.1 Protein Homology CDS 1492161 1493066 . + 0 gene_id "ECDH10B_RS07515"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415855.1"; locus_tag "ECDH10B_RS07515"; product "LysR family transcriptional regulator"; protein_id "WP_000885458.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1492161 1492163 . + 0 gene_id "ECDH10B_RS07515"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415855.1"; locus_tag "ECDH10B_RS07515"; product "LysR family transcriptional regulator"; protein_id "WP_000885458.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1493067 1493069 . + 0 gene_id "ECDH10B_RS07515"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415855.1"; locus_tag "ECDH10B_RS07515"; product "LysR family transcriptional regulator"; protein_id "WP_000885458.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1493399 1493962 . + . gene_id "ECDH10B_RS07525"; transcript_id ""; gbkey "Gene"; gene "smrA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07525"; old_locus_tag "ECDH10B_1461"; -NC_010473.1 Protein Homology CDS 1493399 1493959 . + 0 gene_id "ECDH10B_RS07525"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "smrA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415856.1"; locus_tag "ECDH10B_RS07525"; product "DNA endonuclease SmrA"; protein_id "WP_001046829.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1493399 1493401 . + 0 gene_id "ECDH10B_RS07525"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "smrA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415856.1"; locus_tag "ECDH10B_RS07525"; product "DNA endonuclease SmrA"; protein_id "WP_001046829.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1493960 1493962 . + 0 gene_id "ECDH10B_RS07525"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "smrA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415856.1"; locus_tag "ECDH10B_RS07525"; product "DNA endonuclease SmrA"; protein_id "WP_001046829.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1493983 1495215 . - . gene_id "ECDH10B_RS07530"; transcript_id ""; gbkey "Gene"; gene "dgcM"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07530"; old_locus_tag "ECDH10B_1462"; -NC_010473.1 Protein Homology CDS 1493986 1495215 . - 0 gene_id "ECDH10B_RS07530"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dgcM"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415857.2"; locus_tag "ECDH10B_RS07530"; product "diguanylate cyclase DgcM"; protein_id "WP_000628058.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1495213 1495215 . - 0 gene_id "ECDH10B_RS07530"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dgcM"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415857.2"; locus_tag "ECDH10B_RS07530"; product "diguanylate cyclase DgcM"; protein_id "WP_000628058.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1493983 1493985 . - 0 gene_id "ECDH10B_RS07530"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dgcM"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415857.2"; locus_tag "ECDH10B_RS07530"; product "diguanylate cyclase DgcM"; protein_id "WP_000628058.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1495470 1496453 . + . gene_id "ECDH10B_RS07535"; transcript_id ""; gbkey "Gene"; gene "zntB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07535"; old_locus_tag "ECDH10B_1463"; -NC_010473.1 Protein Homology CDS 1495470 1496450 . + 0 gene_id "ECDH10B_RS07535"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "zntB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309953.1"; locus_tag "ECDH10B_RS07535"; product "zinc transporter ZntB"; protein_id "WP_000387388.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1495470 1495472 . + 0 gene_id "ECDH10B_RS07535"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "zntB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309953.1"; locus_tag "ECDH10B_RS07535"; product "zinc transporter ZntB"; protein_id "WP_000387388.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1496451 1496453 . + 0 gene_id "ECDH10B_RS07535"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "zntB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309953.1"; locus_tag "ECDH10B_RS07535"; product "zinc transporter ZntB"; protein_id "WP_000387388.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1496931 1498304 . + . gene_id "ECDH10B_RS07545"; transcript_id ""; gbkey "Gene"; gene "dbpA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07545"; old_locus_tag "ECDH10B_1464"; -NC_010473.1 Protein Homology CDS 1496931 1498301 . + 0 gene_id "ECDH10B_RS07545"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dbpA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415859.1"; locus_tag "ECDH10B_RS07545"; product "ATP-dependent RNA helicase DbpA"; protein_id "WP_000123737.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1496931 1496933 . + 0 gene_id "ECDH10B_RS07545"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dbpA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415859.1"; locus_tag "ECDH10B_RS07545"; product "ATP-dependent RNA helicase DbpA"; protein_id "WP_000123737.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1498302 1498304 . + 0 gene_id "ECDH10B_RS07545"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dbpA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415859.1"; locus_tag "ECDH10B_RS07545"; product "ATP-dependent RNA helicase DbpA"; protein_id "WP_000123737.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1498433 1499368 . - . gene_id "ECDH10B_RS07550"; transcript_id ""; gbkey "Gene"; gene "ttcA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07550"; old_locus_tag "ECDH10B_1465"; -NC_010473.1 Protein Homology CDS 1498436 1499368 . - 0 gene_id "ECDH10B_RS07550"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ttcA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415860.1"; locus_tag "ECDH10B_RS07550"; product "tRNA 2-thiocytidine(32) synthetase TtcA"; protein_id "WP_001157406.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1499366 1499368 . - 0 gene_id "ECDH10B_RS07550"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ttcA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415860.1"; locus_tag "ECDH10B_RS07550"; product "tRNA 2-thiocytidine(32) synthetase TtcA"; protein_id "WP_001157406.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1498433 1498435 . - 0 gene_id "ECDH10B_RS07550"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ttcA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415860.1"; locus_tag "ECDH10B_RS07550"; product "tRNA 2-thiocytidine(32) synthetase TtcA"; protein_id "WP_001157406.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1499420 1500655 . - . gene_id "ECDH10B_RS24040"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS24040"; old_locus_tag "ECDH10B_1466"; -NC_010473.1 Protein Homology CDS 1499423 1500655 . - 0 gene_id "ECDH10B_RS24040"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415861.1"; locus_tag "ECDH10B_RS24040"; product "DUF3596 domain-containing protein"; protein_id "WP_000040852.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1500653 1500655 . - 0 gene_id "ECDH10B_RS24040"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415861.1"; locus_tag "ECDH10B_RS24040"; product "DUF3596 domain-containing protein"; protein_id "WP_000040852.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1499420 1499422 . - 0 gene_id "ECDH10B_RS24040"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415861.1"; locus_tag "ECDH10B_RS24040"; product "DUF3596 domain-containing protein"; protein_id "WP_000040852.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1500657 1500872 . - . gene_id "ECDH10B_RS07560"; transcript_id ""; gbkey "Gene"; gene "xisR"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07560"; old_locus_tag "ECDH10B_1467"; -NC_010473.1 Protein Homology CDS 1500660 1500872 . - 0 gene_id "ECDH10B_RS07560"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "xisR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309957.2"; locus_tag "ECDH10B_RS07560"; product "excisionase XisR"; protein_id "WP_000079604.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1500870 1500872 . - 0 gene_id "ECDH10B_RS07560"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "xisR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309957.2"; locus_tag "ECDH10B_RS07560"; product "excisionase XisR"; protein_id "WP_000079604.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1500657 1500659 . - 0 gene_id "ECDH10B_RS07560"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "xisR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309957.2"; locus_tag "ECDH10B_RS07560"; product "excisionase XisR"; protein_id "WP_000079604.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1500951 1501160 . - . gene_id "ECDH10B_RS07565"; transcript_id ""; gbkey "Gene"; gene "rcbA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07565"; old_locus_tag "ECDH10B_1468"; -NC_010473.1 Protein Homology CDS 1500954 1501160 . - 0 gene_id "ECDH10B_RS07565"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rcbA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415863.1"; locus_tag "ECDH10B_RS07565"; product "double-strand break reduction protein RcbA"; protein_id "WP_000276809.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1501158 1501160 . - 0 gene_id "ECDH10B_RS07565"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rcbA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415863.1"; locus_tag "ECDH10B_RS07565"; product "double-strand break reduction protein RcbA"; protein_id "WP_000276809.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1500951 1500953 . - 0 gene_id "ECDH10B_RS07565"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rcbA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415863.1"; locus_tag "ECDH10B_RS07565"; product "double-strand break reduction protein RcbA"; protein_id "WP_000276809.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1501153 1501347 . - . gene_id "ECDH10B_RS07570"; transcript_id ""; gbkey "Gene"; gene "ralR"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07570"; old_locus_tag "ECDH10B_1469"; -NC_010473.1 Protein Homology CDS 1501156 1501347 . - 0 gene_id "ECDH10B_RS07570"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ralR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415864.1"; locus_tag "ECDH10B_RS07570"; product "type I toxin-antitoxin system endodeoxyribonuclease toxin RalR"; protein_id "WP_001317028.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1501345 1501347 . - 0 gene_id "ECDH10B_RS07570"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ralR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415864.1"; locus_tag "ECDH10B_RS07570"; product "type I toxin-antitoxin system endodeoxyribonuclease toxin RalR"; protein_id "WP_001317028.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1501153 1501155 . - 0 gene_id "ECDH10B_RS07570"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ralR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415864.1"; locus_tag "ECDH10B_RS07570"; product "type I toxin-antitoxin system endodeoxyribonuclease toxin RalR"; protein_id "WP_001317028.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1501404 1502213 . - . gene_id "ECDH10B_RS07575"; transcript_id ""; gbkey "Gene"; gene "recT"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07575"; old_locus_tag "ECDH10B_1470"; -NC_010473.1 Protein Homology CDS 1501407 1502213 . - 0 gene_id "ECDH10B_RS07575"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "recT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415865.1"; locus_tag "ECDH10B_RS07575"; product "recombination protein RecT"; protein_id "WP_000166319.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1502211 1502213 . - 0 gene_id "ECDH10B_RS07575"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "recT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415865.1"; locus_tag "ECDH10B_RS07575"; product "recombination protein RecT"; protein_id "WP_000166319.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1501404 1501406 . - 0 gene_id "ECDH10B_RS07575"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "recT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415865.1"; locus_tag "ECDH10B_RS07575"; product "recombination protein RecT"; protein_id "WP_000166319.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1502206 1504806 . - . gene_id "ECDH10B_RS07580"; transcript_id ""; gbkey "Gene"; gene "recE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07580"; old_locus_tag "ECDH10B_1471"; -NC_010473.1 Protein Homology CDS 1502209 1504806 . - 0 gene_id "ECDH10B_RS07580"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "recE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415866.1"; locus_tag "ECDH10B_RS07580"; product "exodeoxyribonuclease VIII"; protein_id "WP_000105143.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1504804 1504806 . - 0 gene_id "ECDH10B_RS07580"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "recE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415866.1"; locus_tag "ECDH10B_RS07580"; product "exodeoxyribonuclease VIII"; protein_id "WP_000105143.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1502206 1502208 . - 0 gene_id "ECDH10B_RS07580"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "recE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415866.1"; locus_tag "ECDH10B_RS07580"; product "exodeoxyribonuclease VIII"; protein_id "WP_000105143.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1504908 1505183 . - . gene_id "ECDH10B_RS07585"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07585"; old_locus_tag "ECDH10B_1472"; -NC_010473.1 Protein Homology CDS 1504911 1505183 . - 0 gene_id "ECDH10B_RS07585"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415867.1"; locus_tag "ECDH10B_RS07585"; product "protein RacC"; protein_id "WP_000632297.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1505181 1505183 . - 0 gene_id "ECDH10B_RS07585"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415867.1"; locus_tag "ECDH10B_RS07585"; product "protein RacC"; protein_id "WP_000632297.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1504908 1504910 . - 0 gene_id "ECDH10B_RS07585"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415867.1"; locus_tag "ECDH10B_RS07585"; product "protein RacC"; protein_id "WP_000632297.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1505258 1505428 . - . gene_id "ECDH10B_RS07590"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07590"; old_locus_tag "ECDH10B_1473"; -NC_010473.1 Protein Homology CDS 1505261 1505428 . - 0 gene_id "ECDH10B_RS07590"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_588451.1"; locus_tag "ECDH10B_RS07590"; product "conserved protein, Rac prophage"; protein_id "WP_001352098.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1505426 1505428 . - 0 gene_id "ECDH10B_RS07590"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_588451.1"; locus_tag "ECDH10B_RS07590"; product "conserved protein, Rac prophage"; protein_id "WP_001352098.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1505258 1505260 . - 0 gene_id "ECDH10B_RS07590"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_588451.1"; locus_tag "ECDH10B_RS07590"; product "conserved protein, Rac prophage"; protein_id "WP_001352098.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1505428 1505649 . - . gene_id "ECDH10B_RS07595"; transcript_id ""; gbkey "Gene"; gene "kilR"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07595"; old_locus_tag "ECDH10B_1474"; -NC_010473.1 Protein Homology CDS 1505431 1505649 . - 0 gene_id "ECDH10B_RS07595"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "kilR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415869.2"; locus_tag "ECDH10B_RS07595"; product "killing protein KilR"; protein_id "WP_000560225.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1505647 1505649 . - 0 gene_id "ECDH10B_RS07595"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "kilR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415869.2"; locus_tag "ECDH10B_RS07595"; product "killing protein KilR"; protein_id "WP_000560225.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1505428 1505430 . - 0 gene_id "ECDH10B_RS07595"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "kilR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415869.2"; locus_tag "ECDH10B_RS07595"; product "killing protein KilR"; protein_id "WP_000560225.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1506091 1506579 . + . gene_id "ECDH10B_RS07600"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07600"; old_locus_tag "ECDH10B_1475"; -NC_010473.1 Protein Homology CDS 1506091 1506576 . + 0 gene_id "ECDH10B_RS07600"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415870.4"; locus_tag "ECDH10B_RS07600"; product "superinfection exclusion protein B"; protein_id "WP_001312793.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1506091 1506093 . + 0 gene_id "ECDH10B_RS07600"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415870.4"; locus_tag "ECDH10B_RS07600"; product "superinfection exclusion protein B"; protein_id "WP_001312793.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1506577 1506579 . + 0 gene_id "ECDH10B_RS07600"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415870.4"; locus_tag "ECDH10B_RS07600"; product "superinfection exclusion protein B"; protein_id "WP_001312793.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1506576 1506731 . - . gene_id "ECDH10B_RS23285"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS23285"; old_locus_tag "ECDH10B_1476"; -NC_010473.1 Protein Homology CDS 1506579 1506731 . - 0 gene_id "ECDH10B_RS23285"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309965.1"; locus_tag "ECDH10B_RS23285"; product "YdaF family protein"; protein_id "WP_001169151.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1506729 1506731 . - 0 gene_id "ECDH10B_RS23285"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309965.1"; locus_tag "ECDH10B_RS23285"; product "YdaF family protein"; protein_id "WP_001169151.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1506576 1506578 . - 0 gene_id "ECDH10B_RS23285"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309965.1"; locus_tag "ECDH10B_RS23285"; product "YdaF family protein"; protein_id "WP_001169151.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1507185 1507661 . - . gene_id "ECDH10B_RS07605"; transcript_id ""; gbkey "Gene"; gene "racR"; gene_biotype "protein_coding"; gene_synonym "rarC"; locus_tag "ECDH10B_RS07605"; old_locus_tag "ECDH10B_1478"; -NC_010473.1 Protein Homology CDS 1507188 1507661 . - 0 gene_id "ECDH10B_RS07605"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "racR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415874.1"; locus_tag "ECDH10B_RS07605"; product "DNA-binding transcriptional repressor RacR"; protein_id "WP_000948459.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1507659 1507661 . - 0 gene_id "ECDH10B_RS07605"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "racR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415874.1"; locus_tag "ECDH10B_RS07605"; product "DNA-binding transcriptional repressor RacR"; protein_id "WP_000948459.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1507185 1507187 . - 0 gene_id "ECDH10B_RS07605"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "racR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415874.1"; locus_tag "ECDH10B_RS07605"; product "DNA-binding transcriptional repressor RacR"; protein_id "WP_000948459.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1507785 1508081 . + . gene_id "ECDH10B_RS07610"; transcript_id ""; gbkey "Gene"; gene "ydaS"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07610"; old_locus_tag "ECDH10B_1479"; -NC_010473.1 Protein Homology CDS 1507785 1508078 . + 0 gene_id "ECDH10B_RS07610"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ydaS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415875.1"; locus_tag "ECDH10B_RS07610"; product "toxin YdaS"; protein_id "WP_000712069.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1507785 1507787 . + 0 gene_id "ECDH10B_RS07610"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ydaS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415875.1"; locus_tag "ECDH10B_RS07610"; product "toxin YdaS"; protein_id "WP_000712069.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1508079 1508081 . + 0 gene_id "ECDH10B_RS07610"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ydaS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415875.1"; locus_tag "ECDH10B_RS07610"; product "toxin YdaS"; protein_id "WP_000712069.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1508104 1508526 . + . gene_id "ECDH10B_RS07615"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07615"; old_locus_tag "ECDH10B_1480"; -NC_010473.1 Protein Homology CDS 1508104 1508523 . + 0 gene_id "ECDH10B_RS07615"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415876.1"; locus_tag "ECDH10B_RS07615"; product "phage protein"; protein_id "WP_000693797.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1508104 1508106 . + 0 gene_id "ECDH10B_RS07615"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415876.1"; locus_tag "ECDH10B_RS07615"; product "phage protein"; protein_id "WP_000693797.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1508524 1508526 . + 0 gene_id "ECDH10B_RS07615"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415876.1"; locus_tag "ECDH10B_RS07615"; product "phage protein"; protein_id "WP_000693797.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1508539 1509396 . + . gene_id "ECDH10B_RS07620"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07620"; old_locus_tag "ECDH10B_1481"; -NC_010473.1 Protein Homology CDS 1508539 1509393 . + 0 gene_id "ECDH10B_RS07620"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415877.1"; locus_tag "ECDH10B_RS07620"; product "DUF1376 domain-containing protein"; protein_id "WP_000899748.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1508539 1508541 . + 0 gene_id "ECDH10B_RS07620"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415877.1"; locus_tag "ECDH10B_RS07620"; product "DUF1376 domain-containing protein"; protein_id "WP_000899748.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1509394 1509396 . + 0 gene_id "ECDH10B_RS07620"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415877.1"; locus_tag "ECDH10B_RS07620"; product "DUF1376 domain-containing protein"; protein_id "WP_000899748.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1509403 1510149 . + . gene_id "ECDH10B_RS07625"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07625"; old_locus_tag "ECDH10B_1482"; -NC_010473.1 Protein Homology CDS 1509403 1510146 . + 0 gene_id "ECDH10B_RS07625"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415878.1"; locus_tag "ECDH10B_RS07625"; product "ATP-binding protein"; protein_id "WP_000788970.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1509403 1509405 . + 0 gene_id "ECDH10B_RS07625"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415878.1"; locus_tag "ECDH10B_RS07625"; product "ATP-binding protein"; protein_id "WP_000788970.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1510147 1510149 . + 0 gene_id "ECDH10B_RS07625"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415878.1"; locus_tag "ECDH10B_RS07625"; product "ATP-binding protein"; protein_id "WP_000788970.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1510172 1510732 . + . gene_id "ECDH10B_RS07630"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07630"; old_locus_tag "ECDH10B_1483"; -NC_010473.1 Protein Homology CDS 1510172 1510729 . + 0 gene_id "ECDH10B_RS07630"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_009518776.1"; locus_tag "ECDH10B_RS07630"; product "DUF1627 domain-containing protein"; protein_id "WP_000450663.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1510172 1510174 . + 0 gene_id "ECDH10B_RS07630"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_009518776.1"; locus_tag "ECDH10B_RS07630"; product "DUF1627 domain-containing protein"; protein_id "WP_000450663.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1510730 1510732 . + 0 gene_id "ECDH10B_RS07630"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_009518776.1"; locus_tag "ECDH10B_RS07630"; product "DUF1627 domain-containing protein"; protein_id "WP_000450663.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1510820 1511005 . + . gene_id "ECDH10B_RS25465"; transcript_id ""; gbkey "Gene"; gene "rzoD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS25465"; old_locus_tag "ECDH10B_1485"; -NC_010473.1 Protein Homology CDS 1510820 1511002 . + 0 gene_id "ECDH10B_RS25465"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rzoD"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_588452.1"; locus_tag "ECDH10B_RS25465"; product "prophage lysis lipoprotein RzoD"; protein_id "WP_001228696.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1510820 1510822 . + 0 gene_id "ECDH10B_RS25465"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rzoD"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_588452.1"; locus_tag "ECDH10B_RS25465"; product "prophage lysis lipoprotein RzoD"; protein_id "WP_001228696.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1511003 1511005 . + 0 gene_id "ECDH10B_RS25465"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rzoD"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_588452.1"; locus_tag "ECDH10B_RS25465"; product "prophage lysis lipoprotein RzoD"; protein_id "WP_001228696.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1511202 1512659 . + . gene_id "ECDH10B_RS07640"; transcript_id ""; gbkey "Gene"; gene "trkG"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07640"; old_locus_tag "ECDH10B_1486"; -NC_010473.1 Protein Homology CDS 1511202 1512656 . + 0 gene_id "ECDH10B_RS07640"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "trkG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415881.1"; locus_tag "ECDH10B_RS07640"; product "Trk system potassium transporter TrkG"; protein_id "WP_001097895.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1511202 1511204 . + 0 gene_id "ECDH10B_RS07640"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "trkG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415881.1"; locus_tag "ECDH10B_RS07640"; product "Trk system potassium transporter TrkG"; protein_id "WP_001097895.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1512657 1512659 . + 0 gene_id "ECDH10B_RS07640"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "trkG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415881.1"; locus_tag "ECDH10B_RS07640"; product "Trk system potassium transporter TrkG"; protein_id "WP_001097895.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1512797 1513060 . + . gene_id "ECDH10B_RS07645"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07645"; old_locus_tag "ECDH10B_1487"; -NC_010473.1 Protein Homology CDS 1512797 1513057 . + 0 gene_id "ECDH10B_RS07645"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415883.1"; locus_tag "ECDH10B_RS07645"; product "ParB N-terminal domain-containing protein"; protein_id "WP_001350510.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1512797 1512799 . + 0 gene_id "ECDH10B_RS07645"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415883.1"; locus_tag "ECDH10B_RS07645"; product "ParB N-terminal domain-containing protein"; protein_id "WP_001350510.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1513058 1513060 . + 0 gene_id "ECDH10B_RS07645"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415883.1"; locus_tag "ECDH10B_RS07645"; product "ParB N-terminal domain-containing protein"; protein_id "WP_001350510.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1513041 1513400 . + . gene_id "ECDH10B_RS07650"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07650"; old_locus_tag "ECDH10B_1488"; -NC_010473.1 Protein Homology CDS 1513041 1513397 . + 0 gene_id "ECDH10B_RS07650"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_009518777.1"; locus_tag "ECDH10B_RS07650"; product "hypothetical protein"; protein_id "WP_000091628.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1513041 1513043 . + 0 gene_id "ECDH10B_RS07650"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_009518777.1"; locus_tag "ECDH10B_RS07650"; product "hypothetical protein"; protein_id "WP_000091628.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1513398 1513400 . + 0 gene_id "ECDH10B_RS07650"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_009518777.1"; locus_tag "ECDH10B_RS07650"; product "hypothetical protein"; protein_id "WP_000091628.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1513874 1514806 . + . gene_id "ECDH10B_RS07660"; transcript_id ""; gbkey "Gene"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS07660"; old_locus_tag "ECDH10B_1489"; partial "true"; pseudo "true"; -NC_010473.1 Protein Homology CDS 1513874 1514803 . + 0 gene_id "ECDH10B_RS07660"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_016231723.1"; locus_tag "ECDH10B_RS07660"; note "incomplete; partial in the middle of a contig; missing C-terminus"; partial "true"; product "phage tail length tape measure family protein"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1513874 1513876 . + 0 gene_id "ECDH10B_RS07660"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_016231723.1"; locus_tag "ECDH10B_RS07660"; note "incomplete; partial in the middle of a contig; missing C-terminus"; partial "true"; product "phage tail length tape measure family protein"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1514804 1514806 . + 0 gene_id "ECDH10B_RS07660"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_016231723.1"; locus_tag "ECDH10B_RS07660"; note "incomplete; partial in the middle of a contig; missing C-terminus"; partial "true"; product "phage tail length tape measure family protein"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 1514809 1515024 . + . gene_id "ECDH10B_RS07665"; transcript_id ""; gbkey "Gene"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS07665"; partial "true"; pseudo "true"; -NC_010473.1 Protein Homology CDS 1514809 1515021 . + 0 gene_id "ECDH10B_RS07665"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309149.1"; locus_tag "ECDH10B_RS07665"; note "incomplete; partial in the middle of a contig; missing N-terminus and C-terminus"; partial "true"; product "Ail/Lom family outer membrane beta-barrel protein"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1514809 1514811 . + 0 gene_id "ECDH10B_RS07665"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309149.1"; locus_tag "ECDH10B_RS07665"; note "incomplete; partial in the middle of a contig; missing N-terminus and C-terminus"; partial "true"; product "Ail/Lom family outer membrane beta-barrel protein"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1515022 1515024 . + 0 gene_id "ECDH10B_RS07665"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309149.1"; locus_tag "ECDH10B_RS07665"; note "incomplete; partial in the middle of a contig; missing N-terminus and C-terminus"; partial "true"; product "Ail/Lom family outer membrane beta-barrel protein"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 1515166 1516146 . - . gene_id "ECDH10B_RS07670"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07670"; old_locus_tag "ECDH10B_1492"; -NC_010473.1 Protein Homology CDS 1515169 1516146 . - 0 gene_id "ECDH10B_RS07670"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000019445.1"; locus_tag "ECDH10B_RS07670"; product "IS5-like element ISKpn26 family transposase"; protein_id "WP_000019451.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1516144 1516146 . - 0 gene_id "ECDH10B_RS07670"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000019445.1"; locus_tag "ECDH10B_RS07670"; product "IS5-like element ISKpn26 family transposase"; protein_id "WP_000019451.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1515166 1515168 . - 0 gene_id "ECDH10B_RS07670"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000019445.1"; locus_tag "ECDH10B_RS07670"; product "IS5-like element ISKpn26 family transposase"; protein_id "WP_000019451.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1516216 1516404 . + . gene_id "ECDH10B_RS25470"; transcript_id ""; gbkey "Gene"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS25470"; partial "true"; pseudo "true"; -NC_010473.1 Protein Homology CDS 1516216 1516401 . + 0 gene_id "ECDH10B_RS25470"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309676.1"; locus_tag "ECDH10B_RS25470"; note "incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "Ail/Lom family outer membrane beta-barrel protein"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1516216 1516218 . + 0 gene_id "ECDH10B_RS25470"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309676.1"; locus_tag "ECDH10B_RS25470"; note "incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "Ail/Lom family outer membrane beta-barrel protein"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1516402 1516404 . + 0 gene_id "ECDH10B_RS25470"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309676.1"; locus_tag "ECDH10B_RS25470"; note "incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "Ail/Lom family outer membrane beta-barrel protein"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 1516469 1519831 . + . gene_id "ECDH10B_RS24065"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS24065"; old_locus_tag "ECDH10B_1494"; -NC_010473.1 Protein Homology CDS 1516469 1519828 . + 0 gene_id "ECDH10B_RS24065"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415890.2"; locus_tag "ECDH10B_RS24065"; product "prophage tail fiber N-terminal domain-containing protein"; protein_id "WP_000279097.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1516469 1516471 . + 0 gene_id "ECDH10B_RS24065"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415890.2"; locus_tag "ECDH10B_RS24065"; product "prophage tail fiber N-terminal domain-containing protein"; protein_id "WP_000279097.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1519829 1519831 . + 0 gene_id "ECDH10B_RS24065"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415890.2"; locus_tag "ECDH10B_RS24065"; product "prophage tail fiber N-terminal domain-containing protein"; protein_id "WP_000279097.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1519831 1520406 . + . gene_id "ECDH10B_RS07695"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07695"; old_locus_tag "ECDH10B_1495"; -NC_010473.1 Protein Homology CDS 1519831 1520403 . + 0 gene_id "ECDH10B_RS07695"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415891.1"; locus_tag "ECDH10B_RS07695"; product "tail fiber assembly protein"; protein_id "WP_001698950.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1519831 1519833 . + 0 gene_id "ECDH10B_RS07695"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415891.1"; locus_tag "ECDH10B_RS07695"; product "tail fiber assembly protein"; protein_id "WP_001698950.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1520404 1520406 . + 0 gene_id "ECDH10B_RS07695"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415891.1"; locus_tag "ECDH10B_RS07695"; product "tail fiber assembly protein"; protein_id "WP_001698950.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1520504 1521094 . - . gene_id "ECDH10B_RS07700"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07700"; old_locus_tag "ECDH10B_1496"; -NC_010473.1 Protein Homology CDS 1520507 1521094 . - 0 gene_id "ECDH10B_RS07700"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415892.1"; locus_tag "ECDH10B_RS07700"; product "recombinase family protein"; protein_id "WP_000086527.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1521092 1521094 . - 0 gene_id "ECDH10B_RS07700"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415892.1"; locus_tag "ECDH10B_RS07700"; product "recombinase family protein"; protein_id "WP_000086527.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1520504 1520506 . - 0 gene_id "ECDH10B_RS07700"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415892.1"; locus_tag "ECDH10B_RS07700"; product "recombinase family protein"; protein_id "WP_000086527.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1521411 1521644 . - . gene_id "ECDH10B_RS07705"; transcript_id ""; gbkey "Gene"; gene "ydfK"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07705"; old_locus_tag "ECDH10B_1497"; -NC_010473.1 Protein Homology CDS 1521414 1521644 . - 0 gene_id "ECDH10B_RS07705"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ydfK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415893.2"; locus_tag "ECDH10B_RS07705"; product "cold shock protein YdfK"; protein_id "WP_000836770.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1521642 1521644 . - 0 gene_id "ECDH10B_RS07705"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ydfK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415893.2"; locus_tag "ECDH10B_RS07705"; product "cold shock protein YdfK"; protein_id "WP_000836770.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1521411 1521413 . - 0 gene_id "ECDH10B_RS07705"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ydfK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415893.2"; locus_tag "ECDH10B_RS07705"; product "cold shock protein YdfK"; protein_id "WP_000836770.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1521799 1522815 . + . gene_id "ECDH10B_RS07710"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07710"; -NC_010473.1 Protein Homology CDS 1521799 1522812 . + 0 gene_id "ECDH10B_RS07710"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414793.1"; locus_tag "ECDH10B_RS07710"; product "IS5-like element IS5 family transposase"; protein_id "WP_010723085.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1521799 1521801 . + 0 gene_id "ECDH10B_RS07710"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414793.1"; locus_tag "ECDH10B_RS07710"; product "IS5-like element IS5 family transposase"; protein_id "WP_010723085.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1522813 1522815 . + 0 gene_id "ECDH10B_RS07710"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414793.1"; locus_tag "ECDH10B_RS07710"; product "IS5-like element IS5 family transposase"; protein_id "WP_010723085.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1523804 1524238 . - . gene_id "ECDH10B_RS07715"; transcript_id ""; gbkey "Gene"; gene "uspF"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07715"; old_locus_tag "ECDH10B_1499"; -NC_010473.1 Protein Homology CDS 1523807 1524238 . - 0 gene_id "ECDH10B_RS07715"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "uspF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415894.4"; locus_tag "ECDH10B_RS07715"; product "universal stress protein UspF"; protein_id "WP_001300461.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1524236 1524238 . - 0 gene_id "ECDH10B_RS07715"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "uspF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415894.4"; locus_tag "ECDH10B_RS07715"; product "universal stress protein UspF"; protein_id "WP_001300461.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1523804 1523806 . - 0 gene_id "ECDH10B_RS07715"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "uspF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415894.4"; locus_tag "ECDH10B_RS07715"; product "universal stress protein UspF"; protein_id "WP_001300461.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1524379 1525512 . - . gene_id "ECDH10B_RS07720"; transcript_id ""; gbkey "Gene"; gene "ompN"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07720"; old_locus_tag "ECDH10B_1500"; -NC_010473.1 Protein Homology CDS 1524382 1525512 . - 0 gene_id "ECDH10B_RS07720"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ompN"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415895.1"; locus_tag "ECDH10B_RS07720"; product "porin OmpN"; protein_id "WP_000837921.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1525510 1525512 . - 0 gene_id "ECDH10B_RS07720"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ompN"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415895.1"; locus_tag "ECDH10B_RS07720"; product "porin OmpN"; protein_id "WP_000837921.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1524379 1524381 . - 0 gene_id "ECDH10B_RS07720"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ompN"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415895.1"; locus_tag "ECDH10B_RS07720"; product "porin OmpN"; protein_id "WP_000837921.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1525879 1529403 . - . gene_id "ECDH10B_RS07725"; transcript_id ""; gbkey "Gene"; gene "nifJ"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07725"; old_locus_tag "ECDH10B_1502"; -NC_010473.1 Protein Homology CDS 1525882 1529403 . - 0 gene_id "ECDH10B_RS07725"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nifJ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415896.1"; locus_tag "ECDH10B_RS07725"; product "pyruvate:ferredoxin (flavodoxin) oxidoreductase"; protein_id "WP_000628244.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1529401 1529403 . - 0 gene_id "ECDH10B_RS07725"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nifJ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415896.1"; locus_tag "ECDH10B_RS07725"; product "pyruvate:ferredoxin (flavodoxin) oxidoreductase"; protein_id "WP_000628244.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1525879 1525881 . - 0 gene_id "ECDH10B_RS07725"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nifJ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415896.1"; locus_tag "ECDH10B_RS07725"; product "pyruvate:ferredoxin (flavodoxin) oxidoreductase"; protein_id "WP_000628244.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1529677 1529943 . + . gene_id "ECDH10B_RS07730"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07730"; old_locus_tag "ECDH10B_1503"; -NC_010473.1 Protein Homology CDS 1529677 1529940 . + 0 gene_id "ECDH10B_RS07730"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_015964583.1"; locus_tag "ECDH10B_RS07730"; product "DUF333 domain-containing protein"; protein_id "WP_001295715.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1529677 1529679 . + 0 gene_id "ECDH10B_RS07730"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_015964583.1"; locus_tag "ECDH10B_RS07730"; product "DUF333 domain-containing protein"; protein_id "WP_001295715.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1529941 1529943 . + 0 gene_id "ECDH10B_RS07730"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_015964583.1"; locus_tag "ECDH10B_RS07730"; product "DUF333 domain-containing protein"; protein_id "WP_001295715.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1529940 1530362 . - . gene_id "ECDH10B_RS07735"; transcript_id ""; gbkey "Gene"; gene "hslJ"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07735"; old_locus_tag "ECDH10B_1504"; -NC_010473.1 Protein Homology CDS 1529943 1530362 . - 0 gene_id "ECDH10B_RS07735"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hslJ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415897.1"; locus_tag "ECDH10B_RS07735"; product "heat shock protein HslJ"; protein_id "WP_001298828.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1530360 1530362 . - 0 gene_id "ECDH10B_RS07735"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hslJ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415897.1"; locus_tag "ECDH10B_RS07735"; product "heat shock protein HslJ"; protein_id "WP_001298828.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1529940 1529942 . - 0 gene_id "ECDH10B_RS07735"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hslJ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415897.1"; locus_tag "ECDH10B_RS07735"; product "heat shock protein HslJ"; protein_id "WP_001298828.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1530473 1531462 . - . gene_id "ECDH10B_RS07740"; transcript_id ""; gbkey "Gene"; gene "ldhA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07740"; old_locus_tag "ECDH10B_1505"; -NC_010473.1 Protein Homology CDS 1530476 1531462 . - 0 gene_id "ECDH10B_RS07740"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ldhA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415898.1"; locus_tag "ECDH10B_RS07740"; product "D-lactate dehydrogenase"; protein_id "WP_000762236.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1531460 1531462 . - 0 gene_id "ECDH10B_RS07740"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ldhA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415898.1"; locus_tag "ECDH10B_RS07740"; product "D-lactate dehydrogenase"; protein_id "WP_000762236.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1530473 1530475 . - 0 gene_id "ECDH10B_RS07740"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ldhA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415898.1"; locus_tag "ECDH10B_RS07740"; product "D-lactate dehydrogenase"; protein_id "WP_000762236.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1531670 1534309 . + . gene_id "ECDH10B_RS07745"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07745"; old_locus_tag "ECDH10B_1506"; -NC_010473.1 Protein Homology CDS 1531670 1534306 . + 0 gene_id "ECDH10B_RS07745"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415899.1"; locus_tag "ECDH10B_RS07745"; product "YdbH family protein"; protein_id "WP_000900941.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1531670 1531672 . + 0 gene_id "ECDH10B_RS07745"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415899.1"; locus_tag "ECDH10B_RS07745"; product "YdbH family protein"; protein_id "WP_000900941.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1534307 1534309 . + 0 gene_id "ECDH10B_RS07745"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415899.1"; locus_tag "ECDH10B_RS07745"; product "YdbH family protein"; protein_id "WP_000900941.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1534306 1534491 . + . gene_id "ECDH10B_RS07750"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07750"; old_locus_tag "ECDH10B_1507"; -NC_010473.1 Protein Homology CDS 1534306 1534488 . + 0 gene_id "ECDH10B_RS07750"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415900.1"; locus_tag "ECDH10B_RS07750"; product "YnbE family lipoprotein"; protein_id "WP_000698145.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1534306 1534308 . + 0 gene_id "ECDH10B_RS07750"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415900.1"; locus_tag "ECDH10B_RS07750"; product "YnbE family lipoprotein"; protein_id "WP_000698145.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1534489 1534491 . + 0 gene_id "ECDH10B_RS07750"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415900.1"; locus_tag "ECDH10B_RS07750"; product "YnbE family lipoprotein"; protein_id "WP_000698145.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1534499 1534825 . + . gene_id "ECDH10B_RS07755"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07755"; old_locus_tag "ECDH10B_1508"; -NC_010473.1 Protein Homology CDS 1534499 1534822 . + 0 gene_id "ECDH10B_RS07755"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415901.2"; locus_tag "ECDH10B_RS07755"; product "YdbL family protein"; protein_id "WP_001300734.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1534499 1534501 . + 0 gene_id "ECDH10B_RS07755"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415901.2"; locus_tag "ECDH10B_RS07755"; product "YdbL family protein"; protein_id "WP_001300734.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1534823 1534825 . + 0 gene_id "ECDH10B_RS07755"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415901.2"; locus_tag "ECDH10B_RS07755"; product "YdbL family protein"; protein_id "WP_001300734.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1534997 1535902 . - . gene_id "ECDH10B_RS07760"; transcript_id ""; gbkey "Gene"; gene "feaR"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07760"; old_locus_tag "ECDH10B_1509"; -NC_010473.1 Protein Homology CDS 1535000 1535902 . - 0 gene_id "ECDH10B_RS07760"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "feaR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415902.1"; locus_tag "ECDH10B_RS07760"; product "transcriptional regulator FeaR"; protein_id "WP_001067514.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1535900 1535902 . - 0 gene_id "ECDH10B_RS07760"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "feaR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415902.1"; locus_tag "ECDH10B_RS07760"; product "transcriptional regulator FeaR"; protein_id "WP_001067514.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1534997 1534999 . - 0 gene_id "ECDH10B_RS07760"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "feaR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415902.1"; locus_tag "ECDH10B_RS07760"; product "transcriptional regulator FeaR"; protein_id "WP_001067514.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1536138 1537637 . + . gene_id "ECDH10B_RS07765"; transcript_id ""; gbkey "Gene"; gene "feaB"; gene_biotype "protein_coding"; gene_synonym "maoB"; gene_synonym "padA"; locus_tag "ECDH10B_RS07765"; old_locus_tag "ECDH10B_1510"; -NC_010473.1 Protein Homology CDS 1536138 1537634 . + 0 gene_id "ECDH10B_RS07765"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "feaB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415903.4"; locus_tag "ECDH10B_RS07765"; product "phenylacetaldehyde dehydrogenase"; protein_id "WP_000138615.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1536138 1536140 . + 0 gene_id "ECDH10B_RS07765"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "feaB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415903.4"; locus_tag "ECDH10B_RS07765"; product "phenylacetaldehyde dehydrogenase"; protein_id "WP_000138615.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1537635 1537637 . + 0 gene_id "ECDH10B_RS07765"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "feaB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415903.4"; locus_tag "ECDH10B_RS07765"; product "phenylacetaldehyde dehydrogenase"; protein_id "WP_000138615.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1537695 1539968 . - . gene_id "ECDH10B_RS07770"; transcript_id ""; gbkey "Gene"; gene "tynA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07770"; old_locus_tag "ECDH10B_1511"; -NC_010473.1 Protein Homology CDS 1537698 1539968 . - 0 gene_id "ECDH10B_RS07770"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tynA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415904.3"; locus_tag "ECDH10B_RS07770"; product "primary-amine oxidase"; protein_id "WP_000535469.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1539966 1539968 . - 0 gene_id "ECDH10B_RS07770"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tynA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415904.3"; locus_tag "ECDH10B_RS07770"; product "primary-amine oxidase"; protein_id "WP_000535469.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1537695 1537697 . - 0 gene_id "ECDH10B_RS07770"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tynA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415904.3"; locus_tag "ECDH10B_RS07770"; product "primary-amine oxidase"; protein_id "WP_000535469.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1540216 1542261 . - . gene_id "ECDH10B_RS07775"; transcript_id ""; gbkey "Gene"; gene "paaZ"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07775"; old_locus_tag "ECDH10B_1512"; -NC_010473.1 Protein Homology CDS 1540219 1542261 . - 0 gene_id "ECDH10B_RS07775"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "paaZ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415905.1"; locus_tag "ECDH10B_RS07775"; product "phenylacetic acid degradation bifunctional protein PaaZ"; protein_id "WP_001186469.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1542259 1542261 . - 0 gene_id "ECDH10B_RS07775"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "paaZ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415905.1"; locus_tag "ECDH10B_RS07775"; product "phenylacetic acid degradation bifunctional protein PaaZ"; protein_id "WP_001186469.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1540216 1540218 . - 0 gene_id "ECDH10B_RS07775"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "paaZ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415905.1"; locus_tag "ECDH10B_RS07775"; product "phenylacetic acid degradation bifunctional protein PaaZ"; protein_id "WP_001186469.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1542546 1543475 . + . gene_id "ECDH10B_RS07780"; transcript_id ""; gbkey "Gene"; gene "paaA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07780"; old_locus_tag "ECDH10B_1513"; -NC_010473.1 Protein Homology CDS 1542546 1543472 . + 0 gene_id "ECDH10B_RS07780"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "paaA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415906.1"; locus_tag "ECDH10B_RS07780"; product "1,2-phenylacetyl-CoA epoxidase subunit A"; protein_id "WP_000191077.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1542546 1542548 . + 0 gene_id "ECDH10B_RS07780"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "paaA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415906.1"; locus_tag "ECDH10B_RS07780"; product "1,2-phenylacetyl-CoA epoxidase subunit A"; protein_id "WP_000191077.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1543473 1543475 . + 0 gene_id "ECDH10B_RS07780"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "paaA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415906.1"; locus_tag "ECDH10B_RS07780"; product "1,2-phenylacetyl-CoA epoxidase subunit A"; protein_id "WP_000191077.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1543487 1543774 . + . gene_id "ECDH10B_RS07785"; transcript_id ""; gbkey "Gene"; gene "paaB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07785"; old_locus_tag "ECDH10B_1514"; -NC_010473.1 Protein Homology CDS 1543487 1543771 . + 0 gene_id "ECDH10B_RS07785"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "paaB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415907.1"; locus_tag "ECDH10B_RS07785"; product "1,2-phenylacetyl-CoA epoxidase subunit B"; protein_id "WP_000073393.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1543487 1543489 . + 0 gene_id "ECDH10B_RS07785"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "paaB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415907.1"; locus_tag "ECDH10B_RS07785"; product "1,2-phenylacetyl-CoA epoxidase subunit B"; protein_id "WP_000073393.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1543772 1543774 . + 0 gene_id "ECDH10B_RS07785"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "paaB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415907.1"; locus_tag "ECDH10B_RS07785"; product "1,2-phenylacetyl-CoA epoxidase subunit B"; protein_id "WP_000073393.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1543783 1544529 . + . gene_id "ECDH10B_RS07790"; transcript_id ""; gbkey "Gene"; gene "paaC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07790"; old_locus_tag "ECDH10B_1515"; -NC_010473.1 Protein Homology CDS 1543783 1544526 . + 0 gene_id "ECDH10B_RS07790"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "paaC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415908.1"; locus_tag "ECDH10B_RS07790"; product "phenylacetate-CoA oxygenase subunit PaaC"; protein_id "WP_001072837.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1543783 1543785 . + 0 gene_id "ECDH10B_RS07790"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "paaC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415908.1"; locus_tag "ECDH10B_RS07790"; product "phenylacetate-CoA oxygenase subunit PaaC"; protein_id "WP_001072837.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1544527 1544529 . + 0 gene_id "ECDH10B_RS07790"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "paaC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415908.1"; locus_tag "ECDH10B_RS07790"; product "phenylacetate-CoA oxygenase subunit PaaC"; protein_id "WP_001072837.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1544544 1545041 . + . gene_id "ECDH10B_RS07795"; transcript_id ""; gbkey "Gene"; gene "paaD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07795"; old_locus_tag "ECDH10B_1516"; -NC_010473.1 Protein Homology CDS 1544544 1545038 . + 0 gene_id "ECDH10B_RS07795"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "paaD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415909.4"; locus_tag "ECDH10B_RS07795"; product "phenylacetate degradation protein PaaD"; protein_id "WP_001189201.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1544544 1544546 . + 0 gene_id "ECDH10B_RS07795"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "paaD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415909.4"; locus_tag "ECDH10B_RS07795"; product "phenylacetate degradation protein PaaD"; protein_id "WP_001189201.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1545039 1545041 . + 0 gene_id "ECDH10B_RS07795"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "paaD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415909.4"; locus_tag "ECDH10B_RS07795"; product "phenylacetate degradation protein PaaD"; protein_id "WP_001189201.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1545049 1546119 . + . gene_id "ECDH10B_RS07800"; transcript_id ""; gbkey "Gene"; gene "paaK"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07800"; old_locus_tag "ECDH10B_1517"; -NC_010473.1 Protein Homology CDS 1545049 1546116 . + 0 gene_id "ECDH10B_RS07800"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "paaK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415910.1"; locus_tag "ECDH10B_RS07800"; product "phenylacetate-CoA oxygenase/reductase subunit PaaK"; protein_id "WP_000206388.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1545049 1545051 . + 0 gene_id "ECDH10B_RS07800"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "paaK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415910.1"; locus_tag "ECDH10B_RS07800"; product "phenylacetate-CoA oxygenase/reductase subunit PaaK"; protein_id "WP_000206388.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1546117 1546119 . + 0 gene_id "ECDH10B_RS07800"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "paaK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415910.1"; locus_tag "ECDH10B_RS07800"; product "phenylacetate-CoA oxygenase/reductase subunit PaaK"; protein_id "WP_000206388.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1546116 1546883 . + . gene_id "ECDH10B_RS07805"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07805"; old_locus_tag "ECDH10B_1518"; -NC_010473.1 Protein Homology CDS 1546116 1546880 . + 0 gene_id "ECDH10B_RS07805"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415911.1"; locus_tag "ECDH10B_RS07805"; product "2,3-dehydroadipyl-CoA hydratase"; protein_id "WP_001292353.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1546116 1546118 . + 0 gene_id "ECDH10B_RS07805"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415911.1"; locus_tag "ECDH10B_RS07805"; product "2,3-dehydroadipyl-CoA hydratase"; protein_id "WP_001292353.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1546881 1546883 . + 0 gene_id "ECDH10B_RS07805"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415911.1"; locus_tag "ECDH10B_RS07805"; product "2,3-dehydroadipyl-CoA hydratase"; protein_id "WP_001292353.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1546883 1547671 . + . gene_id "ECDH10B_RS07810"; transcript_id ""; gbkey "Gene"; gene "paaB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07810"; old_locus_tag "ECDH10B_1519"; -NC_010473.1 Protein Homology CDS 1546883 1547668 . + 0 gene_id "ECDH10B_RS07810"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "paaB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415912.1"; locus_tag "ECDH10B_RS07810"; product "2-(1,2-epoxy-1,2-dihydrophenyl)acetyl-CoA isomerase"; protein_id "WP_000969784.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1546883 1546885 . + 0 gene_id "ECDH10B_RS07810"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "paaB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415912.1"; locus_tag "ECDH10B_RS07810"; product "2-(1,2-epoxy-1,2-dihydrophenyl)acetyl-CoA isomerase"; protein_id "WP_000969784.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1547669 1547671 . + 0 gene_id "ECDH10B_RS07810"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "paaB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415912.1"; locus_tag "ECDH10B_RS07810"; product "2-(1,2-epoxy-1,2-dihydrophenyl)acetyl-CoA isomerase"; protein_id "WP_000969784.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1547673 1549100 . + . gene_id "ECDH10B_RS07815"; transcript_id ""; gbkey "Gene"; gene "paaC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07815"; old_locus_tag "ECDH10B_1520"; -NC_010473.1 Protein Homology CDS 1547673 1549097 . + 0 gene_id "ECDH10B_RS07815"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "paaC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415913.1"; locus_tag "ECDH10B_RS07815"; product "3-hydroxyacyl-CoA dehydrogenase PaaC"; protein_id "WP_000973360.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1547673 1547675 . + 0 gene_id "ECDH10B_RS07815"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "paaC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415913.1"; locus_tag "ECDH10B_RS07815"; product "3-hydroxyacyl-CoA dehydrogenase PaaC"; protein_id "WP_000973360.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1549098 1549100 . + 0 gene_id "ECDH10B_RS07815"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "paaC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415913.1"; locus_tag "ECDH10B_RS07815"; product "3-hydroxyacyl-CoA dehydrogenase PaaC"; protein_id "WP_000973360.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1549090 1549512 . + . gene_id "ECDH10B_RS07820"; transcript_id ""; gbkey "Gene"; gene "paaI"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07820"; old_locus_tag "ECDH10B_1521"; -NC_010473.1 Protein Homology CDS 1549090 1549509 . + 0 gene_id "ECDH10B_RS07820"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "paaI"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415914.1"; locus_tag "ECDH10B_RS07820"; product "hydroxyphenylacetyl-CoA thioesterase PaaI"; protein_id "WP_000018413.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1549090 1549092 . + 0 gene_id "ECDH10B_RS07820"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "paaI"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415914.1"; locus_tag "ECDH10B_RS07820"; product "hydroxyphenylacetyl-CoA thioesterase PaaI"; protein_id "WP_000018413.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1549510 1549512 . + 0 gene_id "ECDH10B_RS07820"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "paaI"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415914.1"; locus_tag "ECDH10B_RS07820"; product "hydroxyphenylacetyl-CoA thioesterase PaaI"; protein_id "WP_000018413.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1549512 1550717 . + . gene_id "ECDH10B_RS07825"; transcript_id ""; gbkey "Gene"; gene "paaJ"; gene_biotype "protein_coding"; gene_synonym "paaE"; gene_synonym "ydbW"; locus_tag "ECDH10B_RS07825"; old_locus_tag "ECDH10B_1522"; -NC_010473.1 Protein Homology CDS 1549512 1550714 . + 0 gene_id "ECDH10B_RS07825"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "paaJ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415915.1"; locus_tag "ECDH10B_RS07825"; product "bifunctional 3-oxoadipyl-CoA/3-oxo-5,6-dehydrosuberyl-CoA thiolase"; protein_id "WP_001206197.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1549512 1549514 . + 0 gene_id "ECDH10B_RS07825"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "paaJ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415915.1"; locus_tag "ECDH10B_RS07825"; product "bifunctional 3-oxoadipyl-CoA/3-oxo-5,6-dehydrosuberyl-CoA thiolase"; protein_id "WP_001206197.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1550715 1550717 . + 0 gene_id "ECDH10B_RS07825"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "paaJ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415915.1"; locus_tag "ECDH10B_RS07825"; product "bifunctional 3-oxoadipyl-CoA/3-oxo-5,6-dehydrosuberyl-CoA thiolase"; protein_id "WP_001206197.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1550744 1552057 . + . gene_id "ECDH10B_RS07830"; transcript_id ""; gbkey "Gene"; gene "paaF"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07830"; old_locus_tag "ECDH10B_1523"; -NC_010473.1 Protein Homology CDS 1550744 1552054 . + 0 gene_id "ECDH10B_RS07830"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "paaF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415916.1"; locus_tag "ECDH10B_RS07830"; product "phenylacetate--CoA ligase"; protein_id "WP_000632280.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1550744 1550746 . + 0 gene_id "ECDH10B_RS07830"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "paaF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415916.1"; locus_tag "ECDH10B_RS07830"; product "phenylacetate--CoA ligase"; protein_id "WP_000632280.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1552055 1552057 . + 0 gene_id "ECDH10B_RS07830"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "paaF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415916.1"; locus_tag "ECDH10B_RS07830"; product "phenylacetate--CoA ligase"; protein_id "WP_000632280.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1552158 1553108 . + . gene_id "ECDH10B_RS07835"; transcript_id ""; gbkey "Gene"; gene "paaX"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07835"; old_locus_tag "ECDH10B_1524"; -NC_010473.1 Protein Homology CDS 1552158 1553105 . + 0 gene_id "ECDH10B_RS07835"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "paaX"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415917.1"; locus_tag "ECDH10B_RS07835"; product "phenylacetic acid degradation operon negative regulatory protein PaaX"; protein_id "WP_000039887.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1552158 1552160 . + 0 gene_id "ECDH10B_RS07835"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "paaX"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415917.1"; locus_tag "ECDH10B_RS07835"; product "phenylacetic acid degradation operon negative regulatory protein PaaX"; protein_id "WP_000039887.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1553106 1553108 . + 0 gene_id "ECDH10B_RS07835"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "paaX"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415917.1"; locus_tag "ECDH10B_RS07835"; product "phenylacetic acid degradation operon negative regulatory protein PaaX"; protein_id "WP_000039887.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1553090 1553680 . + . gene_id "ECDH10B_RS07840"; transcript_id ""; gbkey "Gene"; gene "paaY"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07840"; old_locus_tag "ECDH10B_1525"; -NC_010473.1 Protein Homology CDS 1553090 1553677 . + 0 gene_id "ECDH10B_RS07840"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "paaY"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415918.1"; locus_tag "ECDH10B_RS07840"; product "phenylacetic acid degradation protein PaaY"; protein_id "WP_001123464.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1553090 1553092 . + 0 gene_id "ECDH10B_RS07840"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "paaY"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415918.1"; locus_tag "ECDH10B_RS07840"; product "phenylacetic acid degradation protein PaaY"; protein_id "WP_001123464.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1553678 1553680 . + 0 gene_id "ECDH10B_RS07840"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "paaY"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415918.1"; locus_tag "ECDH10B_RS07840"; product "phenylacetic acid degradation protein PaaY"; protein_id "WP_001123464.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1553784 1553849 . - . gene_id "ECDH10B_RS25960"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS25960"; -NC_010473.1 Protein Homology CDS 1553787 1553849 . - 0 gene_id "ECDH10B_RS25960"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_002791240.1"; locus_tag "ECDH10B_RS25960"; product "hypothetical protein"; protein_id "WP_010723099.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1553847 1553849 . - 0 gene_id "ECDH10B_RS25960"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_002791240.1"; locus_tag "ECDH10B_RS25960"; product "hypothetical protein"; protein_id "WP_010723099.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1553784 1553786 . - 0 gene_id "ECDH10B_RS25960"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_002791240.1"; locus_tag "ECDH10B_RS25960"; product "hypothetical protein"; protein_id "WP_010723099.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1554011 1556536 . + . gene_id "ECDH10B_RS07845"; transcript_id ""; gbkey "Gene"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS07845"; partial "true"; pseudo "true"; -NC_010473.1 Protein Homology CDS 1554011 1556533 . + 0 gene_id "ECDH10B_RS07845"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001335741.1"; locus_tag "ECDH10B_RS07845"; note "incomplete; partial in the middle of a contig; missing C-terminus"; partial "true"; product "autotransporter domain-containing protein"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1554011 1554013 . + 0 gene_id "ECDH10B_RS07845"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001335741.1"; locus_tag "ECDH10B_RS07845"; note "incomplete; partial in the middle of a contig; missing C-terminus"; partial "true"; product "autotransporter domain-containing protein"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1556534 1556536 . + 0 gene_id "ECDH10B_RS07845"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001335741.1"; locus_tag "ECDH10B_RS07845"; note "incomplete; partial in the middle of a contig; missing C-terminus"; partial "true"; product "autotransporter domain-containing protein"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 1556540 1557768 . - . gene_id "ECDH10B_RS07850"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07850"; old_locus_tag "ECDH10B_1528"; -NC_010473.1 Protein Homology CDS 1557453 1557768 . - 0 gene_id "ECDH10B_RS07850"; transcript_id "unknown_transcript_1"; exception "ribosomal slippage"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_086558215.1"; locus_tag "ECDH10B_RS07850"; note "programmed frameshift"; product "IS3-like element IS2 family transposase"; protein_id "WP_088895425.1"; transl_table "11"; -NC_010473.1 Protein Homology CDS 1556543 1557453 . - 0 gene_id "ECDH10B_RS07850"; transcript_id "unknown_transcript_1"; exception "ribosomal slippage"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_086558215.1"; locus_tag "ECDH10B_RS07850"; note "programmed frameshift"; product "IS3-like element IS2 family transposase"; protein_id "WP_088895425.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1557766 1557768 . - 0 gene_id "ECDH10B_RS07850"; transcript_id "unknown_transcript_1"; exception "ribosomal slippage"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_086558215.1"; locus_tag "ECDH10B_RS07850"; note "programmed frameshift"; product "IS3-like element IS2 family transposase"; protein_id "WP_088895425.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1556540 1556542 . - 0 gene_id "ECDH10B_RS07850"; transcript_id "unknown_transcript_1"; exception "ribosomal slippage"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_086558215.1"; locus_tag "ECDH10B_RS07850"; note "programmed frameshift"; product "IS3-like element IS2 family transposase"; protein_id "WP_088895425.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1557977 1559128 . + . gene_id "ECDH10B_RS07860"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07860"; old_locus_tag "ECDH10B_1530"; -NC_010473.1 Protein Homology CDS 1557977 1559125 . + 0 gene_id "ECDH10B_RS07860"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_004389801.1"; locus_tag "ECDH10B_RS07860"; product "IS30-like element IS30 family transposase"; protein_id "WP_001254938.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1557977 1557979 . + 0 gene_id "ECDH10B_RS07860"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_004389801.1"; locus_tag "ECDH10B_RS07860"; product "IS30-like element IS30 family transposase"; protein_id "WP_001254938.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1559126 1559128 . + 0 gene_id "ECDH10B_RS07860"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_004389801.1"; locus_tag "ECDH10B_RS07860"; product "IS30-like element IS30 family transposase"; protein_id "WP_001254938.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1560221 1562632 . + . gene_id "ECDH10B_RS07865"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07865"; -NC_010473.1 Protein Homology CDS 1560221 1562629 . + 0 gene_id "ECDH10B_RS07865"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310034.2"; locus_tag "ECDH10B_RS07865"; product "autotransporter domain-containing protein"; protein_id "WP_032313496.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1560221 1560223 . + 0 gene_id "ECDH10B_RS07865"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310034.2"; locus_tag "ECDH10B_RS07865"; product "autotransporter domain-containing protein"; protein_id "WP_032313496.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1562630 1562632 . + 0 gene_id "ECDH10B_RS07865"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310034.2"; locus_tag "ECDH10B_RS07865"; product "autotransporter domain-containing protein"; protein_id "WP_032313496.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1562840 1563700 . + . gene_id "ECDH10B_RS07870"; transcript_id ""; gbkey "Gene"; gene "pdxI"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07870"; old_locus_tag "ECDH10B_1532"; -NC_010473.1 Protein Homology CDS 1562840 1563697 . + 0 gene_id "ECDH10B_RS07870"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pdxI"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415924.1"; locus_tag "ECDH10B_RS07870"; product "pyridoxine 4-dehydrogenase"; protein_id "WP_000097801.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1562840 1562842 . + 0 gene_id "ECDH10B_RS07870"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pdxI"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415924.1"; locus_tag "ECDH10B_RS07870"; product "pyridoxine 4-dehydrogenase"; protein_id "WP_000097801.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1563698 1563700 . + 0 gene_id "ECDH10B_RS07870"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pdxI"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415924.1"; locus_tag "ECDH10B_RS07870"; product "pyridoxine 4-dehydrogenase"; protein_id "WP_000097801.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1563763 1566069 . + . gene_id "ECDH10B_RS07875"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07875"; old_locus_tag "ECDH10B_1533"; -NC_010473.1 Protein Homology CDS 1563763 1566066 . + 0 gene_id "ECDH10B_RS07875"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415925.2"; locus_tag "ECDH10B_RS07875"; product "DUF2773 domain-containing bactofilin"; protein_id "WP_000910026.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1563763 1563765 . + 0 gene_id "ECDH10B_RS07875"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415925.2"; locus_tag "ECDH10B_RS07875"; product "DUF2773 domain-containing bactofilin"; protein_id "WP_000910026.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1566067 1566069 . + 0 gene_id "ECDH10B_RS07875"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415925.2"; locus_tag "ECDH10B_RS07875"; product "DUF2773 domain-containing bactofilin"; protein_id "WP_000910026.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1566240 1566845 . + . gene_id "ECDH10B_RS07880"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07880"; old_locus_tag "ECDH10B_1534"; -NC_010473.1 Protein Homology CDS 1566240 1566842 . + 0 gene_id "ECDH10B_RS07880"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415926.4"; locus_tag "ECDH10B_RS07880"; product "CDP-alcohol phosphatidyltransferase family protein"; protein_id "WP_000177515.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1566240 1566242 . + 0 gene_id "ECDH10B_RS07880"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415926.4"; locus_tag "ECDH10B_RS07880"; product "CDP-alcohol phosphatidyltransferase family protein"; protein_id "WP_000177515.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1566843 1566845 . + 0 gene_id "ECDH10B_RS07880"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415926.4"; locus_tag "ECDH10B_RS07880"; product "CDP-alcohol phosphatidyltransferase family protein"; protein_id "WP_000177515.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1566845 1567741 . + . gene_id "ECDH10B_RS07885"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07885"; old_locus_tag "ECDH10B_1535"; -NC_010473.1 Protein Homology CDS 1566845 1567738 . + 0 gene_id "ECDH10B_RS07885"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415927.1"; locus_tag "ECDH10B_RS07885"; product "phosphatidate cytidylyltransferase"; protein_id "WP_000890941.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1566845 1566847 . + 0 gene_id "ECDH10B_RS07885"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415927.1"; locus_tag "ECDH10B_RS07885"; product "phosphatidate cytidylyltransferase"; protein_id "WP_000890941.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1567739 1567741 . + 0 gene_id "ECDH10B_RS07885"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415927.1"; locus_tag "ECDH10B_RS07885"; product "phosphatidate cytidylyltransferase"; protein_id "WP_000890941.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1567757 1569514 . + . gene_id "ECDH10B_RS07890"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07890"; old_locus_tag "ECDH10B_1536"; -NC_010473.1 Protein Homology CDS 1567757 1569511 . + 0 gene_id "ECDH10B_RS07890"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415928.1"; locus_tag "ECDH10B_RS07890"; product "bifunctional alpha/beta hydrolase/class I SAM-dependent methyltransferase"; protein_id "WP_000431845.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1567757 1567759 . + 0 gene_id "ECDH10B_RS07890"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415928.1"; locus_tag "ECDH10B_RS07890"; product "bifunctional alpha/beta hydrolase/class I SAM-dependent methyltransferase"; protein_id "WP_000431845.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1569512 1569514 . + 0 gene_id "ECDH10B_RS07890"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415928.1"; locus_tag "ECDH10B_RS07890"; product "bifunctional alpha/beta hydrolase/class I SAM-dependent methyltransferase"; protein_id "WP_000431845.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1569504 1570820 . + . gene_id "ECDH10B_RS07895"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07895"; old_locus_tag "ECDH10B_1537"; -NC_010473.1 Protein Homology CDS 1569504 1570817 . + 0 gene_id "ECDH10B_RS07895"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310040.2"; locus_tag "ECDH10B_RS07895"; product "phosphatase PAP2/dual specificity phosphatase family protein"; protein_id "WP_000627368.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1569504 1569506 . + 0 gene_id "ECDH10B_RS07895"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310040.2"; locus_tag "ECDH10B_RS07895"; product "phosphatase PAP2/dual specificity phosphatase family protein"; protein_id "WP_000627368.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1570818 1570820 . + 0 gene_id "ECDH10B_RS07895"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310040.2"; locus_tag "ECDH10B_RS07895"; product "phosphatase PAP2/dual specificity phosphatase family protein"; protein_id "WP_000627368.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1570874 1571479 . - . gene_id "ECDH10B_RS07900"; transcript_id ""; gbkey "Gene"; gene "azoR"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07900"; old_locus_tag "ECDH10B_1538"; -NC_010473.1 Protein Homology CDS 1570877 1571479 . - 0 gene_id "ECDH10B_RS07900"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "azoR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415930.1"; locus_tag "ECDH10B_RS07900"; product "FMN-dependent NADH-azoreductase"; protein_id "WP_000048950.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1571477 1571479 . - 0 gene_id "ECDH10B_RS07900"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "azoR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415930.1"; locus_tag "ECDH10B_RS07900"; product "FMN-dependent NADH-azoreductase"; protein_id "WP_000048950.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1570874 1570876 . - 0 gene_id "ECDH10B_RS07900"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "azoR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415930.1"; locus_tag "ECDH10B_RS07900"; product "FMN-dependent NADH-azoreductase"; protein_id "WP_000048950.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1571680 1575582 . + . gene_id "ECDH10B_RS07905"; transcript_id ""; gbkey "Gene"; gene "hrpA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07905"; old_locus_tag "ECDH10B_1539"; -NC_010473.1 Protein Homology CDS 1571680 1575579 . + 0 gene_id "ECDH10B_RS07905"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hrpA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415931.4"; locus_tag "ECDH10B_RS07905"; product "ATP-dependent RNA helicase HrpA"; protein_id "WP_000139543.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1571680 1571682 . + 0 gene_id "ECDH10B_RS07905"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hrpA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415931.4"; locus_tag "ECDH10B_RS07905"; product "ATP-dependent RNA helicase HrpA"; protein_id "WP_000139543.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1575580 1575582 . + 0 gene_id "ECDH10B_RS07905"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hrpA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415931.4"; locus_tag "ECDH10B_RS07905"; product "ATP-dependent RNA helicase HrpA"; protein_id "WP_000139543.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1575854 1576654 . + . gene_id "ECDH10B_RS07910"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07910"; old_locus_tag "ECDH10B_1540"; -NC_010473.1 Protein Homology CDS 1575854 1576651 . + 0 gene_id "ECDH10B_RS07910"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415932.1"; locus_tag "ECDH10B_RS07910"; product "YdcF family protein"; protein_id "WP_001027942.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1575854 1575856 . + 0 gene_id "ECDH10B_RS07910"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415932.1"; locus_tag "ECDH10B_RS07910"; product "YdcF family protein"; protein_id "WP_001027942.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1576652 1576654 . + 0 gene_id "ECDH10B_RS07910"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415932.1"; locus_tag "ECDH10B_RS07910"; product "YdcF family protein"; protein_id "WP_001027942.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1576851 1578290 . + . gene_id "ECDH10B_RS07915"; transcript_id ""; gbkey "Gene"; gene "aldA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07915"; old_locus_tag "ECDH10B_1541"; -NC_010473.1 Protein Homology CDS 1576851 1578287 . + 0 gene_id "ECDH10B_RS07915"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "aldA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415933.1"; locus_tag "ECDH10B_RS07915"; product "aldehyde dehydrogenase"; protein_id "WP_000115943.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1576851 1576853 . + 0 gene_id "ECDH10B_RS07915"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "aldA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415933.1"; locus_tag "ECDH10B_RS07915"; product "aldehyde dehydrogenase"; protein_id "WP_000115943.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1578288 1578290 . + 0 gene_id "ECDH10B_RS07915"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "aldA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415933.1"; locus_tag "ECDH10B_RS07915"; product "aldehyde dehydrogenase"; protein_id "WP_000115943.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1578332 1579332 . - . gene_id "ECDH10B_RS25965"; transcript_id ""; gbkey "Gene"; gene "gap"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS25965"; old_locus_tag "ECDH10B_1543"; pseudo "true"; -NC_010473.1 Protein Homology CDS 1578335 1579332 . - 0 gene_id "ECDH10B_RS25965"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gap"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310049.1"; locus_tag "ECDH10B_RS25965"; note "frameshifted; internal stop"; product "type I glyceraldehyde-3-phosphate dehydrogenase"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1579330 1579332 . - 0 gene_id "ECDH10B_RS25965"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gap"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310049.1"; locus_tag "ECDH10B_RS25965"; note "frameshifted; internal stop"; product "type I glyceraldehyde-3-phosphate dehydrogenase"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1578332 1578334 . - 0 gene_id "ECDH10B_RS25965"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gap"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310049.1"; locus_tag "ECDH10B_RS25965"; note "frameshifted; internal stop"; product "type I glyceraldehyde-3-phosphate dehydrogenase"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 1579521 1580051 . + . gene_id "ECDH10B_RS07935"; transcript_id ""; gbkey "Gene"; gene "cybB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07935"; old_locus_tag "ECDH10B_1544"; -NC_010473.1 Protein Homology CDS 1579521 1580048 . + 0 gene_id "ECDH10B_RS07935"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cybB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415935.2"; locus_tag "ECDH10B_RS07935"; product "cytochrome b561"; protein_id "WP_000428998.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1579521 1579523 . + 0 gene_id "ECDH10B_RS07935"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cybB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415935.2"; locus_tag "ECDH10B_RS07935"; product "cytochrome b561"; protein_id "WP_000428998.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1580049 1580051 . + 0 gene_id "ECDH10B_RS07935"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cybB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415935.2"; locus_tag "ECDH10B_RS07935"; product "cytochrome b561"; protein_id "WP_000428998.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1580296 1580469 . + . gene_id "ECDH10B_RS07940"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07940"; old_locus_tag "ECDH10B_1545"; -NC_010473.1 Protein Homology CDS 1580296 1580466 . + 0 gene_id "ECDH10B_RS07940"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415936.1"; locus_tag "ECDH10B_RS07940"; product "periplasmic protein"; protein_id "WP_000731833.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1580296 1580298 . + 0 gene_id "ECDH10B_RS07940"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415936.1"; locus_tag "ECDH10B_RS07940"; product "periplasmic protein"; protein_id "WP_000731833.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1580467 1580469 . + 0 gene_id "ECDH10B_RS07940"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415936.1"; locus_tag "ECDH10B_RS07940"; product "periplasmic protein"; protein_id "WP_000731833.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1580541 1580690 . - . gene_id "ECDH10B_RS07945"; transcript_id ""; gbkey "Gene"; gene "hokB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07945"; old_locus_tag "ECDH10B_1546"; -NC_010473.1 Protein Homology CDS 1580544 1580690 . - 0 gene_id "ECDH10B_RS07945"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hokB"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_025301.1"; locus_tag "ECDH10B_RS07945"; product "type I toxin-antitoxin system toxin HokB"; protein_id "WP_001320773.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1580688 1580690 . - 0 gene_id "ECDH10B_RS07945"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hokB"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_025301.1"; locus_tag "ECDH10B_RS07945"; product "type I toxin-antitoxin system toxin HokB"; protein_id "WP_001320773.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1580541 1580543 . - 0 gene_id "ECDH10B_RS07945"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hokB"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_025301.1"; locus_tag "ECDH10B_RS07945"; product "type I toxin-antitoxin system toxin HokB"; protein_id "WP_001320773.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1581089 1582729 . + . gene_id "ECDH10B_RS07950"; transcript_id ""; gbkey "Gene"; gene "trg"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07950"; old_locus_tag "ECDH10B_1549"; -NC_010473.1 Protein Homology CDS 1581089 1582726 . + 0 gene_id "ECDH10B_RS07950"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "trg"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415938.1"; locus_tag "ECDH10B_RS07950"; product "methyl-accepting chemotaxis protein Trg"; protein_id "WP_001098559.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1581089 1581091 . + 0 gene_id "ECDH10B_RS07950"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "trg"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415938.1"; locus_tag "ECDH10B_RS07950"; product "methyl-accepting chemotaxis protein Trg"; protein_id "WP_001098559.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1582727 1582729 . + 0 gene_id "ECDH10B_RS07950"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "trg"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415938.1"; locus_tag "ECDH10B_RS07950"; product "methyl-accepting chemotaxis protein Trg"; protein_id "WP_001098559.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1582767 1583690 . - . gene_id "ECDH10B_RS07955"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07955"; old_locus_tag "ECDH10B_1550"; -NC_010473.1 Protein Homology CDS 1582770 1583690 . - 0 gene_id "ECDH10B_RS07955"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415939.2"; locus_tag "ECDH10B_RS07955"; product "LysR family transcriptional regulator"; protein_id "WP_000414567.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1583688 1583690 . - 0 gene_id "ECDH10B_RS07955"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415939.2"; locus_tag "ECDH10B_RS07955"; product "LysR family transcriptional regulator"; protein_id "WP_000414567.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1582767 1582769 . - 0 gene_id "ECDH10B_RS07955"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415939.2"; locus_tag "ECDH10B_RS07955"; product "LysR family transcriptional regulator"; protein_id "WP_000414567.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1583907 1585250 . + . gene_id "ECDH10B_RS07960"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07960"; old_locus_tag "ECDH10B_1551"; -NC_010473.1 Protein Homology CDS 1583907 1585247 . + 0 gene_id "ECDH10B_RS07960"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415940.1"; locus_tag "ECDH10B_RS07960"; product "VOC family protein"; protein_id "WP_000013789.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1583907 1583909 . + 0 gene_id "ECDH10B_RS07960"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415940.1"; locus_tag "ECDH10B_RS07960"; product "VOC family protein"; protein_id "WP_000013789.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1585248 1585250 . + 0 gene_id "ECDH10B_RS07960"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415940.1"; locus_tag "ECDH10B_RS07960"; product "VOC family protein"; protein_id "WP_000013789.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1585475 1587130 . + . gene_id "ECDH10B_RS07965"; transcript_id ""; gbkey "Gene"; gene "opgD"; gene_biotype "protein_coding"; gene_synonym "mdoD"; locus_tag "ECDH10B_RS07965"; old_locus_tag "ECDH10B_1552"; -NC_010473.1 Protein Homology CDS 1585475 1587127 . + 0 gene_id "ECDH10B_RS07965"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "opgD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415941.5"; locus_tag "ECDH10B_RS07965"; product "glucan biosynthesis protein OpgD"; protein_id "WP_000375961.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1585475 1585477 . + 0 gene_id "ECDH10B_RS07965"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "opgD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415941.5"; locus_tag "ECDH10B_RS07965"; product "glucan biosynthesis protein OpgD"; protein_id "WP_000375961.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1587128 1587130 . + 0 gene_id "ECDH10B_RS07965"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "opgD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415941.5"; locus_tag "ECDH10B_RS07965"; product "glucan biosynthesis protein OpgD"; protein_id "WP_000375961.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1587270 1587494 . + . gene_id "ECDH10B_RS07975"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07975"; old_locus_tag "ECDH10B_1553"; -NC_010473.1 Protein Homology CDS 1587270 1587491 . + 0 gene_id "ECDH10B_RS07975"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415943.4"; locus_tag "ECDH10B_RS07975"; product "YdcH family protein"; protein_id "WP_001296778.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1587270 1587272 . + 0 gene_id "ECDH10B_RS07975"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415943.4"; locus_tag "ECDH10B_RS07975"; product "YdcH family protein"; protein_id "WP_001296778.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1587492 1587494 . + 0 gene_id "ECDH10B_RS07975"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415943.4"; locus_tag "ECDH10B_RS07975"; product "YdcH family protein"; protein_id "WP_001296778.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1587557 1588096 . + . gene_id "ECDH10B_RS07980"; transcript_id ""; gbkey "Gene"; gene "rimL"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07980"; old_locus_tag "ECDH10B_1554"; -NC_010473.1 Protein Homology CDS 1587557 1588093 . + 0 gene_id "ECDH10B_RS07980"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rimL"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415944.1"; locus_tag "ECDH10B_RS07980"; product "50S ribosomal protein L7/L12-serine acetyltransferase"; protein_id "WP_000140873.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1587557 1587559 . + 0 gene_id "ECDH10B_RS07980"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rimL"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415944.1"; locus_tag "ECDH10B_RS07980"; product "50S ribosomal protein L7/L12-serine acetyltransferase"; protein_id "WP_000140873.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1588094 1588096 . + 0 gene_id "ECDH10B_RS07980"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rimL"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415944.1"; locus_tag "ECDH10B_RS07980"; product "50S ribosomal protein L7/L12-serine acetyltransferase"; protein_id "WP_000140873.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1588088 1589068 . - . gene_id "ECDH10B_RS07985"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07985"; old_locus_tag "ECDH10B_1555"; -NC_010473.1 Protein Homology CDS 1588091 1589068 . - 0 gene_id "ECDH10B_RS07985"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415945.1"; locus_tag "ECDH10B_RS07985"; product "hypothetical protein"; protein_id "WP_001234042.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1589066 1589068 . - 0 gene_id "ECDH10B_RS07985"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415945.1"; locus_tag "ECDH10B_RS07985"; product "hypothetical protein"; protein_id "WP_001234042.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1588088 1588090 . - 0 gene_id "ECDH10B_RS07985"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415945.1"; locus_tag "ECDH10B_RS07985"; product "hypothetical protein"; protein_id "WP_001234042.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1589192 1590184 . + . gene_id "ECDH10B_RS07990"; transcript_id ""; gbkey "Gene"; gene "tehA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07990"; old_locus_tag "ECDH10B_1556"; -NC_010473.1 Protein Homology CDS 1589192 1590181 . + 0 gene_id "ECDH10B_RS07990"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tehA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415946.1"; locus_tag "ECDH10B_RS07990"; product "dicarboxylate transporter/tellurite-resistance protein TehA"; protein_id "WP_001301046.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1589192 1589194 . + 0 gene_id "ECDH10B_RS07990"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tehA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415946.1"; locus_tag "ECDH10B_RS07990"; product "dicarboxylate transporter/tellurite-resistance protein TehA"; protein_id "WP_001301046.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1590182 1590184 . + 0 gene_id "ECDH10B_RS07990"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tehA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415946.1"; locus_tag "ECDH10B_RS07990"; product "dicarboxylate transporter/tellurite-resistance protein TehA"; protein_id "WP_001301046.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1590181 1590774 . + . gene_id "ECDH10B_RS07995"; transcript_id ""; gbkey "Gene"; gene "tehB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS07995"; old_locus_tag "ECDH10B_1557"; -NC_010473.1 Protein Homology CDS 1590181 1590771 . + 0 gene_id "ECDH10B_RS07995"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tehB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415947.1"; locus_tag "ECDH10B_RS07995"; product "tellurite resistance methyltransferase TehB"; protein_id "WP_000586732.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1590181 1590183 . + 0 gene_id "ECDH10B_RS07995"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tehB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415947.1"; locus_tag "ECDH10B_RS07995"; product "tellurite resistance methyltransferase TehB"; protein_id "WP_000586732.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1590772 1590774 . + 0 gene_id "ECDH10B_RS07995"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tehB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415947.1"; locus_tag "ECDH10B_RS07995"; product "tellurite resistance methyltransferase TehB"; protein_id "WP_000586732.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1591076 1591744 . + . gene_id "ECDH10B_RS08000"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08000"; old_locus_tag "ECDH10B_1558"; -NC_010473.1 Protein Homology CDS 1591076 1591741 . + 0 gene_id "ECDH10B_RS08000"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310063.1"; locus_tag "ECDH10B_RS08000"; product "DUF3313 domain-containing protein"; protein_id "WP_001261013.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1591076 1591078 . + 0 gene_id "ECDH10B_RS08000"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310063.1"; locus_tag "ECDH10B_RS08000"; product "DUF3313 domain-containing protein"; protein_id "WP_001261013.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1591742 1591744 . + 0 gene_id "ECDH10B_RS08000"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310063.1"; locus_tag "ECDH10B_RS08000"; product "DUF3313 domain-containing protein"; protein_id "WP_001261013.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1591762 1592268 . - . gene_id "ECDH10B_RS24095"; transcript_id ""; gbkey "Gene"; gene "tnpA"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS24095"; old_locus_tag "ECDH10B_1560"; pseudo "true"; -NC_010473.1 Protein Homology CDS 1591765 1592268 . - 0 gene_id "ECDH10B_RS24095"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tnpA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000604919.1"; locus_tag "ECDH10B_RS24095"; note "internal stop"; product "IS200/IS605 family transposase"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1592266 1592268 . - 0 gene_id "ECDH10B_RS24095"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tnpA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000604919.1"; locus_tag "ECDH10B_RS24095"; note "internal stop"; product "IS200/IS605 family transposase"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1591762 1591764 . - 0 gene_id "ECDH10B_RS24095"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tnpA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000604919.1"; locus_tag "ECDH10B_RS24095"; note "internal stop"; product "IS200/IS605 family transposase"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 1592276 1593484 . + . gene_id "ECDH10B_RS08015"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08015"; old_locus_tag "ECDH10B_1562"; -NC_010473.1 Protein Homology CDS 1592276 1593481 . + 0 gene_id "ECDH10B_RS08015"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001458895.1"; locus_tag "ECDH10B_RS08015"; product "transposase"; protein_id "WP_000826416.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1592276 1592278 . + 0 gene_id "ECDH10B_RS08015"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001458895.1"; locus_tag "ECDH10B_RS08015"; product "transposase"; protein_id "WP_000826416.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1593482 1593484 . + 0 gene_id "ECDH10B_RS08015"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001458895.1"; locus_tag "ECDH10B_RS08015"; product "transposase"; protein_id "WP_000826416.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1593524 1594738 . - . gene_id "ECDH10B_RS08020"; transcript_id ""; gbkey "Gene"; gene "ydcO"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08020"; old_locus_tag "ECDH10B_1563"; -NC_010473.1 Protein Homology CDS 1593527 1594738 . - 0 gene_id "ECDH10B_RS08020"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ydcO"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001748359.1"; locus_tag "ECDH10B_RS08020"; product "BenE family transporter YdcO"; protein_id "WP_001326689.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1594736 1594738 . - 0 gene_id "ECDH10B_RS08020"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ydcO"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001748359.1"; locus_tag "ECDH10B_RS08020"; product "BenE family transporter YdcO"; protein_id "WP_001326689.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1593524 1593526 . - 0 gene_id "ECDH10B_RS08020"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ydcO"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001748359.1"; locus_tag "ECDH10B_RS08020"; product "BenE family transporter YdcO"; protein_id "WP_001326689.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1594791 1595327 . + . gene_id "ECDH10B_RS08025"; transcript_id ""; gbkey "Gene"; gene "sutR"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08025"; old_locus_tag "ECDH10B_1564"; -NC_010473.1 Protein Homology CDS 1594791 1595324 . + 0 gene_id "ECDH10B_RS08025"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sutR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415951.1"; locus_tag "ECDH10B_RS08025"; product "DNA-binding transcriptional regulator SutR"; protein_id "WP_000429155.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1594791 1594793 . + 0 gene_id "ECDH10B_RS08025"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sutR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415951.1"; locus_tag "ECDH10B_RS08025"; product "DNA-binding transcriptional regulator SutR"; protein_id "WP_000429155.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1595325 1595327 . + 0 gene_id "ECDH10B_RS08025"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sutR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415951.1"; locus_tag "ECDH10B_RS08025"; product "DNA-binding transcriptional regulator SutR"; protein_id "WP_000429155.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1595400 1597361 . + . gene_id "ECDH10B_RS08030"; transcript_id ""; gbkey "Gene"; gene "rlhA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08030"; old_locus_tag "ECDH10B_1565"; -NC_010473.1 Protein Homology CDS 1595400 1597358 . + 0 gene_id "ECDH10B_RS08030"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rlhA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415952.2"; locus_tag "ECDH10B_RS08030"; product "23S rRNA 5-hydroxycytidine C2501 synthase"; protein_id "WP_001303492.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1595400 1595402 . + 0 gene_id "ECDH10B_RS08030"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rlhA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415952.2"; locus_tag "ECDH10B_RS08030"; product "23S rRNA 5-hydroxycytidine C2501 synthase"; protein_id "WP_001303492.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1597359 1597361 . + 0 gene_id "ECDH10B_RS08030"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rlhA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415952.2"; locus_tag "ECDH10B_RS08030"; product "23S rRNA 5-hydroxycytidine C2501 synthase"; protein_id "WP_001303492.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1597453 1597683 . - . gene_id "ECDH10B_RS08035"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08035"; old_locus_tag "ECDH10B_1566"; -NC_010473.1 Protein Homology CDS 1597456 1597683 . - 0 gene_id "ECDH10B_RS08035"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415953.1"; locus_tag "ECDH10B_RS08035"; product "YncJ family protein"; protein_id "WP_000494244.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1597681 1597683 . - 0 gene_id "ECDH10B_RS08035"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415953.1"; locus_tag "ECDH10B_RS08035"; product "YncJ family protein"; protein_id "WP_000494244.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1597453 1597455 . - 0 gene_id "ECDH10B_RS08035"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415953.1"; locus_tag "ECDH10B_RS08035"; product "YncJ family protein"; protein_id "WP_000494244.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1597905 1598081 . + . gene_id "ECDH10B_RS08040"; transcript_id ""; gbkey "Gene"; gene "hicA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08040"; old_locus_tag "ECDH10B_1567"; -NC_010473.1 Protein Homology CDS 1597905 1598078 . + 0 gene_id "ECDH10B_RS08040"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hicA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415954.2"; locus_tag "ECDH10B_RS08040"; product "type II toxin-antitoxin system mRNA interferase toxin HicA"; protein_id "WP_000813794.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1597905 1597907 . + 0 gene_id "ECDH10B_RS08040"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hicA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415954.2"; locus_tag "ECDH10B_RS08040"; product "type II toxin-antitoxin system mRNA interferase toxin HicA"; protein_id "WP_000813794.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1598079 1598081 . + 0 gene_id "ECDH10B_RS08040"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hicA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415954.2"; locus_tag "ECDH10B_RS08040"; product "type II toxin-antitoxin system mRNA interferase toxin HicA"; protein_id "WP_000813794.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1598127 1598543 . + . gene_id "ECDH10B_RS08045"; transcript_id ""; gbkey "Gene"; gene "hicB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08045"; old_locus_tag "ECDH10B_1568"; -NC_010473.1 Protein Homology CDS 1598127 1598540 . + 0 gene_id "ECDH10B_RS08045"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hicB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415955.2"; locus_tag "ECDH10B_RS08045"; product "type II toxin-antitoxin system antitoxin HicB"; protein_id "WP_001270286.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1598127 1598129 . + 0 gene_id "ECDH10B_RS08045"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hicB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415955.2"; locus_tag "ECDH10B_RS08045"; product "type II toxin-antitoxin system antitoxin HicB"; protein_id "WP_001270286.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1598541 1598543 . + 0 gene_id "ECDH10B_RS08045"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hicB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415955.2"; locus_tag "ECDH10B_RS08045"; product "type II toxin-antitoxin system antitoxin HicB"; protein_id "WP_001270286.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1598622 1600028 . + . gene_id "ECDH10B_RS08050"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08050"; old_locus_tag "ECDH10B_1569"; -NC_010473.1 Protein Homology CDS 1598622 1600025 . + 0 gene_id "ECDH10B_RS08050"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415956.1"; locus_tag "ECDH10B_RS08050"; product "PLP-dependent aminotransferase family protein"; protein_id "WP_000760626.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1598622 1598624 . + 0 gene_id "ECDH10B_RS08050"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415956.1"; locus_tag "ECDH10B_RS08050"; product "PLP-dependent aminotransferase family protein"; protein_id "WP_000760626.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1600026 1600028 . + 0 gene_id "ECDH10B_RS08050"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415956.1"; locus_tag "ECDH10B_RS08050"; product "PLP-dependent aminotransferase family protein"; protein_id "WP_000760626.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1600273 1601418 . + . gene_id "ECDH10B_RS08055"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08055"; old_locus_tag "ECDH10B_1570"; -NC_010473.1 Protein Homology CDS 1600273 1601415 . + 0 gene_id "ECDH10B_RS08055"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415957.1"; locus_tag "ECDH10B_RS08055"; product "ABC transporter substrate-binding protein"; protein_id "WP_000047424.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1600273 1600275 . + 0 gene_id "ECDH10B_RS08055"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415957.1"; locus_tag "ECDH10B_RS08055"; product "ABC transporter substrate-binding protein"; protein_id "WP_000047424.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1601416 1601418 . + 0 gene_id "ECDH10B_RS08055"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415957.1"; locus_tag "ECDH10B_RS08055"; product "ABC transporter substrate-binding protein"; protein_id "WP_000047424.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1601436 1602449 . + . gene_id "ECDH10B_RS08060"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08060"; old_locus_tag "ECDH10B_1571"; -NC_010473.1 Protein Homology CDS 1601436 1602446 . + 0 gene_id "ECDH10B_RS08060"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415958.1"; locus_tag "ECDH10B_RS08060"; product "ABC transporter ATP-binding protein"; protein_id "WP_000220396.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1601436 1601438 . + 0 gene_id "ECDH10B_RS08060"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415958.1"; locus_tag "ECDH10B_RS08060"; product "ABC transporter ATP-binding protein"; protein_id "WP_000220396.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1602447 1602449 . + 0 gene_id "ECDH10B_RS08060"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415958.1"; locus_tag "ECDH10B_RS08060"; product "ABC transporter ATP-binding protein"; protein_id "WP_000220396.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1602450 1603391 . + . gene_id "ECDH10B_RS08065"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08065"; old_locus_tag "ECDH10B_1572"; -NC_010473.1 Protein Homology CDS 1602450 1603388 . + 0 gene_id "ECDH10B_RS08065"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415959.1"; locus_tag "ECDH10B_RS08065"; product "ABC transporter permease"; protein_id "WP_001251304.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1602450 1602452 . + 0 gene_id "ECDH10B_RS08065"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415959.1"; locus_tag "ECDH10B_RS08065"; product "ABC transporter permease"; protein_id "WP_001251304.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1603389 1603391 . + 0 gene_id "ECDH10B_RS08065"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415959.1"; locus_tag "ECDH10B_RS08065"; product "ABC transporter permease"; protein_id "WP_001251304.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1603381 1604175 . + . gene_id "ECDH10B_RS08070"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08070"; old_locus_tag "ECDH10B_1573"; -NC_010473.1 Protein Homology CDS 1603381 1604172 . + 0 gene_id "ECDH10B_RS08070"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415960.1"; locus_tag "ECDH10B_RS08070"; product "ABC transporter permease"; protein_id "WP_000555458.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1603381 1603383 . + 0 gene_id "ECDH10B_RS08070"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415960.1"; locus_tag "ECDH10B_RS08070"; product "ABC transporter permease"; protein_id "WP_000555458.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1604173 1604175 . + 0 gene_id "ECDH10B_RS08070"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415960.1"; locus_tag "ECDH10B_RS08070"; product "ABC transporter permease"; protein_id "WP_000555458.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1604197 1605621 . + . gene_id "ECDH10B_RS08075"; transcript_id ""; gbkey "Gene"; gene "patD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08075"; old_locus_tag "ECDH10B_1574"; -NC_010473.1 Protein Homology CDS 1604197 1605618 . + 0 gene_id "ECDH10B_RS08075"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "patD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415961.1"; locus_tag "ECDH10B_RS08075"; product "aminobutyraldehyde dehydrogenase"; protein_id "WP_001163872.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1604197 1604199 . + 0 gene_id "ECDH10B_RS08075"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "patD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415961.1"; locus_tag "ECDH10B_RS08075"; product "aminobutyraldehyde dehydrogenase"; protein_id "WP_001163872.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1605619 1605621 . + 0 gene_id "ECDH10B_RS08075"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "patD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415961.1"; locus_tag "ECDH10B_RS08075"; product "aminobutyraldehyde dehydrogenase"; protein_id "WP_001163872.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1605718 1605813 . - . gene_id "ECDH10B_RS24100"; transcript_id ""; gbkey "Gene"; gene "yncL"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS24100"; -NC_010473.1 Protein Homology CDS 1605721 1605813 . - 0 gene_id "ECDH10B_RS24100"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yncL"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_001165318.1"; locus_tag "ECDH10B_RS24100"; product "stress response membrane protein YncL"; protein_id "WP_001310798.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1605811 1605813 . - 0 gene_id "ECDH10B_RS24100"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yncL"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_001165318.1"; locus_tag "ECDH10B_RS24100"; product "stress response membrane protein YncL"; protein_id "WP_001310798.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1605718 1605720 . - 0 gene_id "ECDH10B_RS24100"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yncL"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_001165318.1"; locus_tag "ECDH10B_RS24100"; product "stress response membrane protein YncL"; protein_id "WP_001310798.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1606008 1606181 . + . gene_id "ECDH10B_RS08085"; transcript_id ""; gbkey "Gene"; gene "ortT"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08085"; old_locus_tag "ECDH10B_1575"; -NC_010473.1 Protein Homology CDS 1606008 1606178 . + 0 gene_id "ECDH10B_RS08085"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ortT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415962.2"; locus_tag "ECDH10B_RS08085"; product "orphan toxin OrtT"; protein_id "WP_000061178.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1606008 1606010 . + 0 gene_id "ECDH10B_RS08085"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ortT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415962.2"; locus_tag "ECDH10B_RS08085"; product "orphan toxin OrtT"; protein_id "WP_000061178.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1606179 1606181 . + 0 gene_id "ECDH10B_RS08085"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ortT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415962.2"; locus_tag "ECDH10B_RS08085"; product "orphan toxin OrtT"; protein_id "WP_000061178.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1606267 1606500 . + . gene_id "ECDH10B_RS08090"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08090"; old_locus_tag "ECDH10B_1576"; -NC_010473.1 Protein Homology CDS 1606267 1606497 . + 0 gene_id "ECDH10B_RS08090"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310077.1"; locus_tag "ECDH10B_RS08090"; product "YdcY family protein"; protein_id "WP_000018633.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1606267 1606269 . + 0 gene_id "ECDH10B_RS08090"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310077.1"; locus_tag "ECDH10B_RS08090"; product "YdcY family protein"; protein_id "WP_000018633.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1606498 1606500 . + 0 gene_id "ECDH10B_RS08090"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310077.1"; locus_tag "ECDH10B_RS08090"; product "YdcY family protein"; protein_id "WP_000018633.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1606501 1606950 . - . gene_id "ECDH10B_RS08095"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08095"; old_locus_tag "ECDH10B_1577"; -NC_010473.1 Protein Homology CDS 1606504 1606950 . - 0 gene_id "ECDH10B_RS08095"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415964.1"; locus_tag "ECDH10B_RS08095"; product "DMT family transporter"; protein_id "WP_001076535.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1606948 1606950 . - 0 gene_id "ECDH10B_RS08095"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415964.1"; locus_tag "ECDH10B_RS08095"; product "DMT family transporter"; protein_id "WP_001076535.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1606501 1606503 . - 0 gene_id "ECDH10B_RS08095"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415964.1"; locus_tag "ECDH10B_RS08095"; product "DMT family transporter"; protein_id "WP_001076535.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1606947 1607465 . - . gene_id "ECDH10B_RS08100"; transcript_id ""; gbkey "Gene"; gene "mddA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08100"; old_locus_tag "ECDH10B_1578"; -NC_010473.1 Protein Homology CDS 1606950 1607465 . - 0 gene_id "ECDH10B_RS08100"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mddA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415965.1"; locus_tag "ECDH10B_RS08100"; product "L-methionine sulfoximine/L-methionine sulfone acetyltransferase"; protein_id "WP_001310799.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1607463 1607465 . - 0 gene_id "ECDH10B_RS08100"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mddA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415965.1"; locus_tag "ECDH10B_RS08100"; product "L-methionine sulfoximine/L-methionine sulfone acetyltransferase"; protein_id "WP_001310799.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1606947 1606949 . - 0 gene_id "ECDH10B_RS08100"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mddA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415965.1"; locus_tag "ECDH10B_RS08100"; product "L-methionine sulfoximine/L-methionine sulfone acetyltransferase"; protein_id "WP_001310799.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1607646 1608683 . + . gene_id "ECDH10B_RS08105"; transcript_id ""; gbkey "Gene"; gene "curA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08105"; old_locus_tag "ECDH10B_1579"; -NC_010473.1 Protein Homology CDS 1607646 1608680 . + 0 gene_id "ECDH10B_RS08105"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "curA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415966.6"; locus_tag "ECDH10B_RS08105"; product "NADPH-dependent curcumin/dihydrocurcumin reductase"; protein_id "WP_000531462.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1607646 1607648 . + 0 gene_id "ECDH10B_RS08105"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "curA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415966.6"; locus_tag "ECDH10B_RS08105"; product "NADPH-dependent curcumin/dihydrocurcumin reductase"; protein_id "WP_000531462.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1608681 1608683 . + 0 gene_id "ECDH10B_RS08105"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "curA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415966.6"; locus_tag "ECDH10B_RS08105"; product "NADPH-dependent curcumin/dihydrocurcumin reductase"; protein_id "WP_000531462.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1608881 1609546 . + . gene_id "ECDH10B_RS08110"; transcript_id ""; gbkey "Gene"; gene "mcbR"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08110"; old_locus_tag "ECDH10B_1580"; -NC_010473.1 Protein Homology CDS 1608881 1609543 . + 0 gene_id "ECDH10B_RS08110"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mcbR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415967.2"; locus_tag "ECDH10B_RS08110"; product "colanic acid/biofilm transcriptional regulator McbR"; protein_id "WP_001300742.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1608881 1608883 . + 0 gene_id "ECDH10B_RS08110"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mcbR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415967.2"; locus_tag "ECDH10B_RS08110"; product "colanic acid/biofilm transcriptional regulator McbR"; protein_id "WP_001300742.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1609544 1609546 . + 0 gene_id "ECDH10B_RS08110"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mcbR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415967.2"; locus_tag "ECDH10B_RS08110"; product "colanic acid/biofilm transcriptional regulator McbR"; protein_id "WP_001300742.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1609582 1611684 . - . gene_id "ECDH10B_RS08115"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08115"; old_locus_tag "ECDH10B_1581"; -NC_010473.1 Protein Homology CDS 1609585 1611684 . - 0 gene_id "ECDH10B_RS08115"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415968.1"; locus_tag "ECDH10B_RS08115"; product "TonB-dependent receptor"; protein_id "WP_000689363.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1611682 1611684 . - 0 gene_id "ECDH10B_RS08115"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415968.1"; locus_tag "ECDH10B_RS08115"; product "TonB-dependent receptor"; protein_id "WP_000689363.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1609582 1609584 . - 0 gene_id "ECDH10B_RS08115"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415968.1"; locus_tag "ECDH10B_RS08115"; product "TonB-dependent receptor"; protein_id "WP_000689363.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1611926 1612987 . + . gene_id "ECDH10B_RS08120"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08120"; old_locus_tag "ECDH10B_1582"; -NC_010473.1 Protein Homology CDS 1611926 1612984 . + 0 gene_id "ECDH10B_RS08120"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415969.1"; locus_tag "ECDH10B_RS08120"; product "YncE family protein"; protein_id "WP_000550695.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1611926 1611928 . + 0 gene_id "ECDH10B_RS08120"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415969.1"; locus_tag "ECDH10B_RS08120"; product "YncE family protein"; protein_id "WP_000550695.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1612985 1612987 . + 0 gene_id "ECDH10B_RS08120"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415969.1"; locus_tag "ECDH10B_RS08120"; product "YncE family protein"; protein_id "WP_000550695.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1613100 1614599 . - . gene_id "ECDH10B_RS08125"; transcript_id ""; gbkey "Gene"; gene "ansP"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08125"; old_locus_tag "ECDH10B_1583"; -NC_010473.1 Protein Homology CDS 1613103 1614599 . - 0 gene_id "ECDH10B_RS08125"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ansP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310084.2"; locus_tag "ECDH10B_RS08125"; product "L-asparagine permease"; protein_id "WP_001300590.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1614597 1614599 . - 0 gene_id "ECDH10B_RS08125"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ansP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310084.2"; locus_tag "ECDH10B_RS08125"; product "L-asparagine permease"; protein_id "WP_001300590.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1613100 1613102 . - 0 gene_id "ECDH10B_RS08125"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ansP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310084.2"; locus_tag "ECDH10B_RS08125"; product "L-asparagine permease"; protein_id "WP_001300590.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1614866 1615483 . + . gene_id "ECDH10B_RS08130"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08130"; old_locus_tag "ECDH10B_1584"; -NC_010473.1 Protein Homology CDS 1614866 1615480 . + 0 gene_id "ECDH10B_RS08130"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415971.1"; locus_tag "ECDH10B_RS08130"; product "glutathione S-transferase family protein"; protein_id "WP_000598857.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1614866 1614868 . + 0 gene_id "ECDH10B_RS08130"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415971.1"; locus_tag "ECDH10B_RS08130"; product "glutathione S-transferase family protein"; protein_id "WP_000598857.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1615481 1615483 . + 0 gene_id "ECDH10B_RS08130"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415971.1"; locus_tag "ECDH10B_RS08130"; product "glutathione S-transferase family protein"; protein_id "WP_000598857.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1615559 1615771 . + . gene_id "ECDH10B_RS08135"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08135"; old_locus_tag "ECDH10B_1585"; -NC_010473.1 Protein Homology CDS 1615559 1615768 . + 0 gene_id "ECDH10B_RS08135"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415972.1"; locus_tag "ECDH10B_RS08135"; product "YncH family protein"; protein_id "WP_000226995.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1615559 1615561 . + 0 gene_id "ECDH10B_RS08135"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415972.1"; locus_tag "ECDH10B_RS08135"; product "YncH family protein"; protein_id "WP_000226995.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1615769 1615771 . + 0 gene_id "ECDH10B_RS08135"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415972.1"; locus_tag "ECDH10B_RS08135"; product "YncH family protein"; protein_id "WP_000226995.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1616521 1618557 . + . gene_id "ECDH10B_RS08140"; transcript_id ""; gbkey "Gene"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS08140"; old_locus_tag "ECDH10B_1586"; partial "true"; pseudo "true"; -NC_010473.1 Protein Homology CDS 1616521 1618554 . + 0 gene_id "ECDH10B_RS08140"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001530200.1"; locus_tag "ECDH10B_RS08140"; note "incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "RHS repeat protein"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1616521 1616523 . + 0 gene_id "ECDH10B_RS08140"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001530200.1"; locus_tag "ECDH10B_RS08140"; note "incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "RHS repeat protein"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1618555 1618557 . + 0 gene_id "ECDH10B_RS08140"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001530200.1"; locus_tag "ECDH10B_RS08140"; note "incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "RHS repeat protein"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 1618541 1619023 . + . gene_id "ECDH10B_RS08145"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08145"; old_locus_tag "ECDH10B_1587"; -NC_010473.1 Protein Homology CDS 1618541 1619020 . + 0 gene_id "ECDH10B_RS08145"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415974.1"; locus_tag "ECDH10B_RS08145"; product "hypothetical protein"; protein_id "WP_000939263.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1618541 1618543 . + 0 gene_id "ECDH10B_RS08145"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415974.1"; locus_tag "ECDH10B_RS08145"; product "hypothetical protein"; protein_id "WP_000939263.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1619021 1619023 . + 0 gene_id "ECDH10B_RS08145"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415974.1"; locus_tag "ECDH10B_RS08145"; product "hypothetical protein"; protein_id "WP_000939263.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1618938 1619123 . - . gene_id "ECDH10B_RS25975"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS25975"; -NC_010473.1 Protein Homology CDS 1618941 1619123 . - 0 gene_id "ECDH10B_RS25975"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_009518780.1"; locus_tag "ECDH10B_RS25975"; product "protein YncO"; protein_id "WP_120795385.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1619121 1619123 . - 0 gene_id "ECDH10B_RS25975"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_009518780.1"; locus_tag "ECDH10B_RS25975"; product "protein YncO"; protein_id "WP_120795385.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1618938 1618940 . - 0 gene_id "ECDH10B_RS25975"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_009518780.1"; locus_tag "ECDH10B_RS25975"; product "protein YncO"; protein_id "WP_120795385.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1619205 1620349 . + . gene_id "ECDH10B_RS08150"; transcript_id ""; gbkey "Gene"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS08150"; old_locus_tag "ECDH10B_1589"; pseudo "true"; -NC_010473.1 Protein Homology CDS 1619205 1620346 . + 0 gene_id "ECDH10B_RS08150"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000027427.1"; locus_tag "ECDH10B_RS08150"; note "frameshifted; internal stop"; product "ISAs1 family transposase"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1619205 1619207 . + 0 gene_id "ECDH10B_RS08150"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000027427.1"; locus_tag "ECDH10B_RS08150"; note "frameshifted; internal stop"; product "ISAs1 family transposase"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1620347 1620349 . + 0 gene_id "ECDH10B_RS08150"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000027427.1"; locus_tag "ECDH10B_RS08150"; note "frameshifted; internal stop"; product "ISAs1 family transposase"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 1620435 1621571 . + . gene_id "ECDH10B_RS08155"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08155"; old_locus_tag "ECDH10B_1591"; -NC_010473.1 Protein Homology CDS 1620435 1621568 . + 0 gene_id "ECDH10B_RS08155"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000421020.1"; locus_tag "ECDH10B_RS08155"; product "ISAs1-like element ISEc5 family transposase"; protein_id "WP_000421020.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1620435 1620437 . + 0 gene_id "ECDH10B_RS08155"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000421020.1"; locus_tag "ECDH10B_RS08155"; product "ISAs1-like element ISEc5 family transposase"; protein_id "WP_000421020.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1621569 1621571 . + 0 gene_id "ECDH10B_RS08155"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000421020.1"; locus_tag "ECDH10B_RS08155"; product "ISAs1-like element ISEc5 family transposase"; protein_id "WP_000421020.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1621671 1621904 . + . gene_id "ECDH10B_RS08160"; transcript_id ""; gbkey "Gene"; gene "pptA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08160"; old_locus_tag "ECDH10B_1592"; -NC_010473.1 Protein Homology CDS 1621671 1621901 . + 0 gene_id "ECDH10B_RS08160"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pptA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415978.1"; locus_tag "ECDH10B_RS08160"; product "tautomerase PptA"; protein_id "WP_001120143.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1621671 1621673 . + 0 gene_id "ECDH10B_RS08160"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pptA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415978.1"; locus_tag "ECDH10B_RS08160"; product "tautomerase PptA"; protein_id "WP_001120143.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1621902 1621904 . + 0 gene_id "ECDH10B_RS08160"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pptA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415978.1"; locus_tag "ECDH10B_RS08160"; product "tautomerase PptA"; protein_id "WP_001120143.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1621901 1622470 . - . gene_id "ECDH10B_RS08165"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08165"; old_locus_tag "ECDH10B_1593"; -NC_010473.1 Protein Homology CDS 1621904 1622470 . - 0 gene_id "ECDH10B_RS08165"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415979.2"; locus_tag "ECDH10B_RS08165"; product "flavin reductase family protein"; protein_id "WP_000085899.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1622468 1622470 . - 0 gene_id "ECDH10B_RS08165"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415979.2"; locus_tag "ECDH10B_RS08165"; product "flavin reductase family protein"; protein_id "WP_000085899.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1621901 1621903 . - 0 gene_id "ECDH10B_RS08165"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415979.2"; locus_tag "ECDH10B_RS08165"; product "flavin reductase family protein"; protein_id "WP_000085899.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1622643 1623488 . + . gene_id "ECDH10B_RS08170"; transcript_id ""; gbkey "Gene"; gene "nhoA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08170"; old_locus_tag "ECDH10B_1594"; -NC_010473.1 Protein Homology CDS 1622643 1623485 . + 0 gene_id "ECDH10B_RS08170"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nhoA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415980.1"; locus_tag "ECDH10B_RS08170"; product "N-hydroxyarylamine O-acetyltransferase"; protein_id "WP_000187925.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1622643 1622645 . + 0 gene_id "ECDH10B_RS08170"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nhoA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415980.1"; locus_tag "ECDH10B_RS08170"; product "N-hydroxyarylamine O-acetyltransferase"; protein_id "WP_000187925.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1623486 1623488 . + 0 gene_id "ECDH10B_RS08170"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nhoA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415980.1"; locus_tag "ECDH10B_RS08170"; product "N-hydroxyarylamine O-acetyltransferase"; protein_id "WP_000187925.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1623584 1624477 . - . gene_id "ECDH10B_RS08175"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08175"; old_locus_tag "ECDH10B_1595"; -NC_010473.1 Protein Homology CDS 1623587 1624477 . - 0 gene_id "ECDH10B_RS08175"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415981.1"; locus_tag "ECDH10B_RS08175"; product "PhzF family isomerase"; protein_id "WP_000804385.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1624475 1624477 . - 0 gene_id "ECDH10B_RS08175"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415981.1"; locus_tag "ECDH10B_RS08175"; product "PhzF family isomerase"; protein_id "WP_000804385.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1623584 1623586 . - 0 gene_id "ECDH10B_RS08175"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415981.1"; locus_tag "ECDH10B_RS08175"; product "PhzF family isomerase"; protein_id "WP_000804385.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1624556 1625236 . - . gene_id "ECDH10B_RS08180"; transcript_id ""; gbkey "Gene"; gene "narI"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08180"; old_locus_tag "ECDH10B_1596"; -NC_010473.1 Protein Homology CDS 1624559 1625236 . - 0 gene_id "ECDH10B_RS08180"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "narI"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310095.1"; locus_tag "ECDH10B_RS08180"; product "respiratory nitrate reductase subunit gamma"; protein_id "WP_000617115.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1625234 1625236 . - 0 gene_id "ECDH10B_RS08180"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "narI"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310095.1"; locus_tag "ECDH10B_RS08180"; product "respiratory nitrate reductase subunit gamma"; protein_id "WP_000617115.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1624556 1624558 . - 0 gene_id "ECDH10B_RS08180"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "narI"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310095.1"; locus_tag "ECDH10B_RS08180"; product "respiratory nitrate reductase subunit gamma"; protein_id "WP_000617115.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1625233 1625928 . - . gene_id "ECDH10B_RS08185"; transcript_id ""; gbkey "Gene"; gene "narW"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08185"; old_locus_tag "ECDH10B_1597"; -NC_010473.1 Protein Homology CDS 1625236 1625928 . - 0 gene_id "ECDH10B_RS08185"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "narW"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415983.1"; locus_tag "ECDH10B_RS08185"; product "nitrate reductase molybdenum cofactor assembly chaperone"; protein_id "WP_001166353.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1625926 1625928 . - 0 gene_id "ECDH10B_RS08185"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "narW"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415983.1"; locus_tag "ECDH10B_RS08185"; product "nitrate reductase molybdenum cofactor assembly chaperone"; protein_id "WP_001166353.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1625233 1625235 . - 0 gene_id "ECDH10B_RS08185"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "narW"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415983.1"; locus_tag "ECDH10B_RS08185"; product "nitrate reductase molybdenum cofactor assembly chaperone"; protein_id "WP_001166353.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1625928 1627472 . - . gene_id "ECDH10B_RS08190"; transcript_id ""; gbkey "Gene"; gene "narH"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08190"; old_locus_tag "ECDH10B_1598"; -NC_010473.1 Protein Homology CDS 1625931 1627472 . - 0 gene_id "ECDH10B_RS08190"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "narH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415984.1"; locus_tag "ECDH10B_RS08190"; product "nitrate reductase subunit beta"; protein_id "WP_000702535.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1627470 1627472 . - 0 gene_id "ECDH10B_RS08190"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "narH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415984.1"; locus_tag "ECDH10B_RS08190"; product "nitrate reductase subunit beta"; protein_id "WP_000702535.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1625928 1625930 . - 0 gene_id "ECDH10B_RS08190"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "narH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415984.1"; locus_tag "ECDH10B_RS08190"; product "nitrate reductase subunit beta"; protein_id "WP_000702535.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1627469 1631209 . - . gene_id "ECDH10B_RS08195"; transcript_id ""; gbkey "Gene"; gene "narZ"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08195"; old_locus_tag "ECDH10B_1599"; -NC_010473.1 Protein Homology CDS 1627472 1631209 . - 0 gene_id "ECDH10B_RS08195"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "narZ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415985.1"; locus_tag "ECDH10B_RS08195"; product "nitrate reductase Z subunit alpha"; protein_id "WP_000040458.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1631207 1631209 . - 0 gene_id "ECDH10B_RS08195"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "narZ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415985.1"; locus_tag "ECDH10B_RS08195"; product "nitrate reductase Z subunit alpha"; protein_id "WP_000040458.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1627469 1627471 . - 0 gene_id "ECDH10B_RS08195"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "narZ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415985.1"; locus_tag "ECDH10B_RS08195"; product "nitrate reductase Z subunit alpha"; protein_id "WP_000040458.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1631291 1632679 . - . gene_id "ECDH10B_RS08200"; transcript_id ""; gbkey "Gene"; gene "narU"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08200"; old_locus_tag "ECDH10B_1600"; -NC_010473.1 Protein Homology CDS 1631294 1632679 . - 0 gene_id "ECDH10B_RS08200"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "narU"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415986.1"; locus_tag "ECDH10B_RS08200"; product "nitrate/nitrite transporter NarU"; protein_id "WP_001207901.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1632677 1632679 . - 0 gene_id "ECDH10B_RS08200"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "narU"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415986.1"; locus_tag "ECDH10B_RS08200"; product "nitrate/nitrite transporter NarU"; protein_id "WP_001207901.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1631291 1631293 . - 0 gene_id "ECDH10B_RS08200"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "narU"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415986.1"; locus_tag "ECDH10B_RS08200"; product "nitrate/nitrite transporter NarU"; protein_id "WP_001207901.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1633003 1634333 . - . gene_id "ECDH10B_RS08205"; transcript_id ""; gbkey "Gene"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS08205"; old_locus_tag "ECDH10B_1602"; pseudo "true"; -NC_010473.1 Protein Homology CDS 1633006 1634333 . - 0 gene_id "ECDH10B_RS08205"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000627100.1"; locus_tag "ECDH10B_RS08205"; note "frameshifted"; product "leucine-rich repeat domain-containing protein"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1634331 1634333 . - 0 gene_id "ECDH10B_RS08205"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000627100.1"; locus_tag "ECDH10B_RS08205"; note "frameshifted"; product "leucine-rich repeat domain-containing protein"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1633003 1633005 . - 0 gene_id "ECDH10B_RS08205"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000627100.1"; locus_tag "ECDH10B_RS08205"; note "frameshifted"; product "leucine-rich repeat domain-containing protein"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 1634357 1634647 . - . gene_id "ECDH10B_RS08210"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08210"; old_locus_tag "ECDH10B_1603"; -NC_010473.1 Protein Homology CDS 1634360 1634647 . - 0 gene_id "ECDH10B_RS08210"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_009518782.1"; locus_tag "ECDH10B_RS08210"; product "lipoprotein"; protein_id "WP_000768384.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1634645 1634647 . - 0 gene_id "ECDH10B_RS08210"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_009518782.1"; locus_tag "ECDH10B_RS08210"; product "lipoprotein"; protein_id "WP_000768384.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1634357 1634359 . - 0 gene_id "ECDH10B_RS08210"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_009518782.1"; locus_tag "ECDH10B_RS08210"; product "lipoprotein"; protein_id "WP_000768384.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1634907 1635788 . - . gene_id "ECDH10B_RS08215"; transcript_id ""; gbkey "Gene"; gene "yddG"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08215"; old_locus_tag "ECDH10B_1604"; -NC_010473.1 Protein Homology CDS 1634910 1635788 . - 0 gene_id "ECDH10B_RS08215"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yddG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415990.5"; locus_tag "ECDH10B_RS08215"; product "aromatic amino acid efflux DMT transporter YddG"; protein_id "WP_000198205.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1635786 1635788 . - 0 gene_id "ECDH10B_RS08215"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yddG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415990.5"; locus_tag "ECDH10B_RS08215"; product "aromatic amino acid efflux DMT transporter YddG"; protein_id "WP_000198205.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1634907 1634909 . - 0 gene_id "ECDH10B_RS08215"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yddG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415990.5"; locus_tag "ECDH10B_RS08215"; product "aromatic amino acid efflux DMT transporter YddG"; protein_id "WP_000198205.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1636020 1639067 . + . gene_id "ECDH10B_RS08225"; transcript_id ""; gbkey "Gene"; gene "fdnG"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08225"; old_locus_tag "ECDH10B_1605"; -NC_010473.1 Protein Homology CDS 1636020 1639064 . + 0 gene_id "ECDH10B_RS08225"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fdnG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415991.1"; locus_tag "ECDH10B_RS08225"; product "formate dehydrogenase-N subunit alpha"; protein_id "WP_010723100.1"; transl_except "(pos:1636605..1636607,aa:Sec)"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1636020 1636022 . + 0 gene_id "ECDH10B_RS08225"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fdnG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415991.1"; locus_tag "ECDH10B_RS08225"; product "formate dehydrogenase-N subunit alpha"; protein_id "WP_010723100.1"; transl_except "(pos:1636605..1636607,aa:Sec)"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1639065 1639067 . + 0 gene_id "ECDH10B_RS08225"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fdnG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415991.1"; locus_tag "ECDH10B_RS08225"; product "formate dehydrogenase-N subunit alpha"; protein_id "WP_010723100.1"; transl_except "(pos:1636605..1636607,aa:Sec)"; transl_table "11"; -NC_010473.1 RefSeq gene 1639080 1639964 . + . gene_id "ECDH10B_RS08230"; transcript_id ""; gbkey "Gene"; gene "fdnH"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08230"; old_locus_tag "ECDH10B_1606"; -NC_010473.1 Protein Homology CDS 1639080 1639961 . + 0 gene_id "ECDH10B_RS08230"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fdnH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415992.1"; locus_tag "ECDH10B_RS08230"; product "formate dehydrogenase N subunit beta"; protein_id "WP_001240582.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1639080 1639082 . + 0 gene_id "ECDH10B_RS08230"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fdnH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415992.1"; locus_tag "ECDH10B_RS08230"; product "formate dehydrogenase N subunit beta"; protein_id "WP_001240582.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1639962 1639964 . + 0 gene_id "ECDH10B_RS08230"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fdnH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415992.1"; locus_tag "ECDH10B_RS08230"; product "formate dehydrogenase N subunit beta"; protein_id "WP_001240582.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1639957 1640610 . + . gene_id "ECDH10B_RS08235"; transcript_id ""; gbkey "Gene"; gene "fdnI"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08235"; old_locus_tag "ECDH10B_1607"; -NC_010473.1 Protein Homology CDS 1639957 1640607 . + 0 gene_id "ECDH10B_RS08235"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fdnI"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310107.1"; locus_tag "ECDH10B_RS08235"; product "formate dehydrogenase-N subunit gamma"; protein_id "WP_000045648.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1639957 1639959 . + 0 gene_id "ECDH10B_RS08235"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fdnI"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310107.1"; locus_tag "ECDH10B_RS08235"; product "formate dehydrogenase-N subunit gamma"; protein_id "WP_000045648.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1640608 1640610 . + 0 gene_id "ECDH10B_RS08235"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fdnI"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310107.1"; locus_tag "ECDH10B_RS08235"; product "formate dehydrogenase-N subunit gamma"; protein_id "WP_000045648.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1641017 1641301 . - . gene_id "ECDH10B_RS08240"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08240"; old_locus_tag "ECDH10B_1608"; -NC_010473.1 Protein Homology CDS 1641020 1641301 . - 0 gene_id "ECDH10B_RS08240"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415994.4"; locus_tag "ECDH10B_RS08240"; product "HigA family addiction module antidote protein"; protein_id "WP_000781370.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1641299 1641301 . - 0 gene_id "ECDH10B_RS08240"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415994.4"; locus_tag "ECDH10B_RS08240"; product "HigA family addiction module antidote protein"; protein_id "WP_000781370.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1641017 1641019 . - 0 gene_id "ECDH10B_RS08240"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415994.4"; locus_tag "ECDH10B_RS08240"; product "HigA family addiction module antidote protein"; protein_id "WP_000781370.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1641447 1642457 . - . gene_id "ECDH10B_RS08245"; transcript_id ""; gbkey "Gene"; gene "adhP"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08245"; old_locus_tag "ECDH10B_1609"; -NC_010473.1 Protein Homology CDS 1641450 1642457 . - 0 gene_id "ECDH10B_RS08245"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "adhP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415995.4"; locus_tag "ECDH10B_RS08245"; product "alcohol dehydrogenase AdhP"; protein_id "WP_000642433.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1642455 1642457 . - 0 gene_id "ECDH10B_RS08245"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "adhP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415995.4"; locus_tag "ECDH10B_RS08245"; product "alcohol dehydrogenase AdhP"; protein_id "WP_000642433.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1641447 1641449 . - 0 gene_id "ECDH10B_RS08245"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "adhP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415995.4"; locus_tag "ECDH10B_RS08245"; product "alcohol dehydrogenase AdhP"; protein_id "WP_000642433.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1642591 1644288 . - . gene_id "ECDH10B_RS08250"; transcript_id ""; gbkey "Gene"; gene "maeA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08250"; old_locus_tag "ECDH10B_1610"; -NC_010473.1 Protein Homology CDS 1642594 1644288 . - 0 gene_id "ECDH10B_RS08250"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "maeA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415996.2"; locus_tag "ECDH10B_RS08250"; product "malate dehydrogenase"; protein_id "WP_000433476.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1644286 1644288 . - 0 gene_id "ECDH10B_RS08250"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "maeA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415996.2"; locus_tag "ECDH10B_RS08250"; product "malate dehydrogenase"; protein_id "WP_000433476.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1642591 1642593 . - 0 gene_id "ECDH10B_RS08250"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "maeA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415996.2"; locus_tag "ECDH10B_RS08250"; product "malate dehydrogenase"; protein_id "WP_000433476.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1644445 1644582 . - . gene_id "ECDH10B_RS08255"; transcript_id ""; gbkey "Gene"; gene "sra"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08255"; old_locus_tag "ECDH10B_1611"; -NC_010473.1 Protein Homology CDS 1644448 1644582 . - 0 gene_id "ECDH10B_RS08255"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sra"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310111.1"; locus_tag "ECDH10B_RS08255"; product "stationary-phase-induced ribosome-associated protein"; protein_id "WP_000841554.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1644580 1644582 . - 0 gene_id "ECDH10B_RS08255"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sra"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310111.1"; locus_tag "ECDH10B_RS08255"; product "stationary-phase-induced ribosome-associated protein"; protein_id "WP_000841554.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1644445 1644447 . - 0 gene_id "ECDH10B_RS08255"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sra"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310111.1"; locus_tag "ECDH10B_RS08255"; product "stationary-phase-induced ribosome-associated protein"; protein_id "WP_000841554.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1644684 1644899 . - . gene_id "ECDH10B_RS08260"; transcript_id ""; gbkey "Gene"; gene "bdm"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08260"; old_locus_tag "ECDH10B_1612"; -NC_010473.1 Protein Homology CDS 1644687 1644899 . - 0 gene_id "ECDH10B_RS08260"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "bdm"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415998.4"; locus_tag "ECDH10B_RS08260"; product "biofilm-dependent modulation protein"; protein_id "WP_000495771.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1644897 1644899 . - 0 gene_id "ECDH10B_RS08260"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "bdm"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415998.4"; locus_tag "ECDH10B_RS08260"; product "biofilm-dependent modulation protein"; protein_id "WP_000495771.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1644684 1644686 . - 0 gene_id "ECDH10B_RS08260"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "bdm"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415998.4"; locus_tag "ECDH10B_RS08260"; product "biofilm-dependent modulation protein"; protein_id "WP_000495771.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1645244 1645675 . + . gene_id "ECDH10B_RS08265"; transcript_id ""; gbkey "Gene"; gene "osmC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08265"; old_locus_tag "ECDH10B_1613"; -NC_010473.1 Protein Homology CDS 1645244 1645672 . + 0 gene_id "ECDH10B_RS08265"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "osmC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415999.1"; locus_tag "ECDH10B_RS08265"; product "peroxiredoxin OsmC"; protein_id "WP_000152305.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1645244 1645246 . + 0 gene_id "ECDH10B_RS08265"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "osmC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415999.1"; locus_tag "ECDH10B_RS08265"; product "peroxiredoxin OsmC"; protein_id "WP_000152305.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1645673 1645675 . + 0 gene_id "ECDH10B_RS08265"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "osmC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_415999.1"; locus_tag "ECDH10B_RS08265"; product "peroxiredoxin OsmC"; protein_id "WP_000152305.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1645731 1646657 . - . gene_id "ECDH10B_RS08270"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08270"; old_locus_tag "ECDH10B_1614"; -NC_010473.1 Protein Homology CDS 1645734 1646657 . - 0 gene_id "ECDH10B_RS08270"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416000.1"; locus_tag "ECDH10B_RS08270"; product "ABC transporter ATP-binding protein"; protein_id "WP_001285536.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1646655 1646657 . - 0 gene_id "ECDH10B_RS08270"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416000.1"; locus_tag "ECDH10B_RS08270"; product "ABC transporter ATP-binding protein"; protein_id "WP_001285536.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1645731 1645733 . - 0 gene_id "ECDH10B_RS08270"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416000.1"; locus_tag "ECDH10B_RS08270"; product "ABC transporter ATP-binding protein"; protein_id "WP_001285536.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1646650 1647636 . - . gene_id "ECDH10B_RS08275"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08275"; old_locus_tag "ECDH10B_1615"; -NC_010473.1 Protein Homology CDS 1646653 1647636 . - 0 gene_id "ECDH10B_RS08275"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416001.1"; locus_tag "ECDH10B_RS08275"; product "ABC transporter ATP-binding protein"; protein_id "WP_000193547.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1647634 1647636 . - 0 gene_id "ECDH10B_RS08275"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416001.1"; locus_tag "ECDH10B_RS08275"; product "ABC transporter ATP-binding protein"; protein_id "WP_000193547.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1646650 1646652 . - 0 gene_id "ECDH10B_RS08275"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416001.1"; locus_tag "ECDH10B_RS08275"; product "ABC transporter ATP-binding protein"; protein_id "WP_000193547.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1647633 1648529 . - . gene_id "ECDH10B_RS08280"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08280"; old_locus_tag "ECDH10B_1616"; -NC_010473.1 Protein Homology CDS 1647636 1648529 . - 0 gene_id "ECDH10B_RS08280"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416002.1"; locus_tag "ECDH10B_RS08280"; product "D,D-dipeptide ABC transporter permease"; protein_id "WP_000979626.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1648527 1648529 . - 0 gene_id "ECDH10B_RS08280"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416002.1"; locus_tag "ECDH10B_RS08280"; product "D,D-dipeptide ABC transporter permease"; protein_id "WP_000979626.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1647633 1647635 . - 0 gene_id "ECDH10B_RS08280"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416002.1"; locus_tag "ECDH10B_RS08280"; product "D,D-dipeptide ABC transporter permease"; protein_id "WP_000979626.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1648526 1649548 . - . gene_id "ECDH10B_RS08285"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08285"; old_locus_tag "ECDH10B_1617"; -NC_010473.1 Protein Homology CDS 1648529 1649548 . - 0 gene_id "ECDH10B_RS08285"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416003.1"; locus_tag "ECDH10B_RS08285"; product "ABC transporter permease"; protein_id "WP_000145123.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1649546 1649548 . - 0 gene_id "ECDH10B_RS08285"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416003.1"; locus_tag "ECDH10B_RS08285"; product "ABC transporter permease"; protein_id "WP_000145123.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1648526 1648528 . - 0 gene_id "ECDH10B_RS08285"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416003.1"; locus_tag "ECDH10B_RS08285"; product "ABC transporter permease"; protein_id "WP_000145123.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1649550 1651100 . - . gene_id "ECDH10B_RS08290"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08290"; old_locus_tag "ECDH10B_1618"; -NC_010473.1 Protein Homology CDS 1649553 1651100 . - 0 gene_id "ECDH10B_RS08290"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416004.1"; locus_tag "ECDH10B_RS08290"; product "ABC transporter substrate-binding protein"; protein_id "WP_000830550.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1651098 1651100 . - 0 gene_id "ECDH10B_RS08290"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416004.1"; locus_tag "ECDH10B_RS08290"; product "ABC transporter substrate-binding protein"; protein_id "WP_000830550.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1649550 1649552 . - 0 gene_id "ECDH10B_RS08290"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416004.1"; locus_tag "ECDH10B_RS08290"; product "ABC transporter substrate-binding protein"; protein_id "WP_000830550.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1651114 1651695 . - . gene_id "ECDH10B_RS08295"; transcript_id ""; gbkey "Gene"; gene "ddpX"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08295"; old_locus_tag "ECDH10B_1619"; -NC_010473.1 Protein Homology CDS 1651117 1651695 . - 0 gene_id "ECDH10B_RS08295"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ddpX"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416005.1"; locus_tag "ECDH10B_RS08295"; product "D-alanyl-D-alanine dipeptidase"; protein_id "WP_001285833.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1651693 1651695 . - 0 gene_id "ECDH10B_RS08295"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ddpX"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416005.1"; locus_tag "ECDH10B_RS08295"; product "D-alanyl-D-alanine dipeptidase"; protein_id "WP_001285833.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1651114 1651116 . - 0 gene_id "ECDH10B_RS08295"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ddpX"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416005.1"; locus_tag "ECDH10B_RS08295"; product "D-alanyl-D-alanine dipeptidase"; protein_id "WP_001285833.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1651953 1654352 . - . gene_id "ECDH10B_RS08300"; transcript_id ""; gbkey "Gene"; gene "dosP"; gene_biotype "protein_coding"; gene_synonym "pdeO"; locus_tag "ECDH10B_RS08300"; old_locus_tag "ECDH10B_1620"; -NC_010473.1 Protein Homology CDS 1651956 1654352 . - 0 gene_id "ECDH10B_RS08300"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dosP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416006.4"; locus_tag "ECDH10B_RS08300"; product "oxygen-sensing cyclic-di-GMP phosphodiesterase"; protein_id "WP_001360132.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1654350 1654352 . - 0 gene_id "ECDH10B_RS08300"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dosP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416006.4"; locus_tag "ECDH10B_RS08300"; product "oxygen-sensing cyclic-di-GMP phosphodiesterase"; protein_id "WP_001360132.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1651953 1651955 . - 0 gene_id "ECDH10B_RS08300"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dosP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416006.4"; locus_tag "ECDH10B_RS08300"; product "oxygen-sensing cyclic-di-GMP phosphodiesterase"; protein_id "WP_001360132.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1654377 1655759 . - . gene_id "ECDH10B_RS08305"; transcript_id ""; gbkey "Gene"; gene "dosC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08305"; old_locus_tag "ECDH10B_1621"; -NC_010473.1 Protein Homology CDS 1654380 1655759 . - 0 gene_id "ECDH10B_RS08305"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dosC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310122.1"; locus_tag "ECDH10B_RS08305"; product "diguanylate cyclase DosC"; protein_id "WP_000426292.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1655757 1655759 . - 0 gene_id "ECDH10B_RS08305"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dosC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310122.1"; locus_tag "ECDH10B_RS08305"; product "diguanylate cyclase DosC"; protein_id "WP_000426292.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1654377 1654379 . - 0 gene_id "ECDH10B_RS08305"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dosC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310122.1"; locus_tag "ECDH10B_RS08305"; product "diguanylate cyclase DosC"; protein_id "WP_000426292.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1655797 1655838 . - . gene_id "ECDH10B_RS26300"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS26300"; -NC_010473.1 Protein Homology CDS 1655800 1655838 . - 0 gene_id "ECDH10B_RS26300"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_009518783.1"; locus_tag "ECDH10B_RS26300"; product "protein YddY"; protein_id "WP_120795386.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1655836 1655838 . - 0 gene_id "ECDH10B_RS26300"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_009518783.1"; locus_tag "ECDH10B_RS26300"; product "protein YddY"; protein_id "WP_120795386.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1655797 1655799 . - 0 gene_id "ECDH10B_RS26300"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_009518783.1"; locus_tag "ECDH10B_RS26300"; product "protein YddY"; protein_id "WP_120795386.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1656123 1657442 . - . gene_id "ECDH10B_RS08310"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08310"; old_locus_tag "ECDH10B_1622"; -NC_010473.1 Protein Homology CDS 1656126 1657442 . - 0 gene_id "ECDH10B_RS08310"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310123.1"; locus_tag "ECDH10B_RS08310"; product "glycoside hydrolase family 10 protein"; protein_id "WP_000350395.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1657440 1657442 . - 0 gene_id "ECDH10B_RS08310"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310123.1"; locus_tag "ECDH10B_RS08310"; product "glycoside hydrolase family 10 protein"; protein_id "WP_000350395.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1656123 1656125 . - 0 gene_id "ECDH10B_RS08310"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310123.1"; locus_tag "ECDH10B_RS08310"; product "glycoside hydrolase family 10 protein"; protein_id "WP_000350395.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1657573 1659108 . - . gene_id "ECDH10B_RS08315"; transcript_id ""; gbkey "Gene"; gene "gadC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08315"; old_locus_tag "ECDH10B_1623"; -NC_010473.1 Protein Homology CDS 1657576 1659108 . - 0 gene_id "ECDH10B_RS08315"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gadC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416009.1"; locus_tag "ECDH10B_RS08315"; product "acid resistance gamma-aminobutyrate antiporter GadC"; protein_id "WP_000246019.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1659106 1659108 . - 0 gene_id "ECDH10B_RS08315"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gadC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416009.1"; locus_tag "ECDH10B_RS08315"; product "acid resistance gamma-aminobutyrate antiporter GadC"; protein_id "WP_000246019.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1657573 1657575 . - 0 gene_id "ECDH10B_RS08315"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gadC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416009.1"; locus_tag "ECDH10B_RS08315"; product "acid resistance gamma-aminobutyrate antiporter GadC"; protein_id "WP_000246019.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1659264 1660664 . - . gene_id "ECDH10B_RS08320"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08320"; old_locus_tag "ECDH10B_1624"; -NC_010473.1 Protein Homology CDS 1659267 1660664 . - 0 gene_id "ECDH10B_RS08320"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310125.1"; locus_tag "ECDH10B_RS08320"; product "glutamate decarboxylase"; protein_id "WP_000358930.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1660662 1660664 . - 0 gene_id "ECDH10B_RS08320"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310125.1"; locus_tag "ECDH10B_RS08320"; product "glutamate decarboxylase"; protein_id "WP_000358930.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1659264 1659266 . - 0 gene_id "ECDH10B_RS08320"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310125.1"; locus_tag "ECDH10B_RS08320"; product "glutamate decarboxylase"; protein_id "WP_000358930.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1661026 1663809 . - . gene_id "ECDH10B_RS08330"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08330"; old_locus_tag "ECDH10B_1625"; -NC_010473.1 Protein Homology CDS 1661029 1663809 . - 0 gene_id "ECDH10B_RS08330"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310126.2"; locus_tag "ECDH10B_RS08330"; product "insulinase family protein"; protein_id "WP_001244968.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1663807 1663809 . - 0 gene_id "ECDH10B_RS08330"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310126.2"; locus_tag "ECDH10B_RS08330"; product "insulinase family protein"; protein_id "WP_001244968.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1661026 1661028 . - 0 gene_id "ECDH10B_RS08330"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310126.2"; locus_tag "ECDH10B_RS08330"; product "insulinase family protein"; protein_id "WP_001244968.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1663866 1666238 . - . gene_id "ECDH10B_RS08335"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08335"; old_locus_tag "ECDH10B_1626"; -NC_010473.1 Protein Homology CDS 1663869 1666238 . - 0 gene_id "ECDH10B_RS08335"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416012.1"; locus_tag "ECDH10B_RS08335"; product "TonB-dependent receptor plug domain-containing protein"; protein_id "WP_000832437.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1666236 1666238 . - 0 gene_id "ECDH10B_RS08335"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416012.1"; locus_tag "ECDH10B_RS08335"; product "TonB-dependent receptor plug domain-containing protein"; protein_id "WP_000832437.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1663866 1663868 . - 0 gene_id "ECDH10B_RS08335"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416012.1"; locus_tag "ECDH10B_RS08335"; product "TonB-dependent receptor plug domain-containing protein"; protein_id "WP_000832437.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1666276 1667961 . - . gene_id "ECDH10B_RS08340"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08340"; old_locus_tag "ECDH10B_1627"; -NC_010473.1 Protein Homology CDS 1666279 1667961 . - 0 gene_id "ECDH10B_RS08340"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416013.1"; locus_tag "ECDH10B_RS08340"; product "ABC transporter ATP-binding protein/permease"; protein_id "WP_000628576.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1667959 1667961 . - 0 gene_id "ECDH10B_RS08340"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416013.1"; locus_tag "ECDH10B_RS08340"; product "ABC transporter ATP-binding protein/permease"; protein_id "WP_000628576.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1666276 1666278 . - 0 gene_id "ECDH10B_RS08340"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416013.1"; locus_tag "ECDH10B_RS08340"; product "ABC transporter ATP-binding protein/permease"; protein_id "WP_000628576.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1668164 1668286 . + . gene_id "ECDH10B_RS25980"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS25980"; -NC_010473.1 Protein Homology CDS 1668164 1668283 . + 0 gene_id "ECDH10B_RS25980"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_009518784.1"; locus_tag "ECDH10B_RS25980"; product "protein YneP"; protein_id "WP_120795387.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1668164 1668166 . + 0 gene_id "ECDH10B_RS25980"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_009518784.1"; locus_tag "ECDH10B_RS25980"; product "protein YneP"; protein_id "WP_120795387.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1668284 1668286 . + 0 gene_id "ECDH10B_RS25980"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_009518784.1"; locus_tag "ECDH10B_RS25980"; product "protein YneP"; protein_id "WP_120795387.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1668252 1669409 . - . gene_id "ECDH10B_RS08345"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08345"; old_locus_tag "ECDH10B_1628"; -NC_010473.1 Protein Homology CDS 1668255 1669409 . - 0 gene_id "ECDH10B_RS08345"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416014.4"; locus_tag "ECDH10B_RS08345"; product "anaerobic sulfatase maturase"; protein_id "WP_001301030.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1669407 1669409 . - 0 gene_id "ECDH10B_RS08345"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416014.4"; locus_tag "ECDH10B_RS08345"; product "anaerobic sulfatase maturase"; protein_id "WP_001301030.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1668252 1668254 . - 0 gene_id "ECDH10B_RS08345"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416014.4"; locus_tag "ECDH10B_RS08345"; product "anaerobic sulfatase maturase"; protein_id "WP_001301030.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1669461 1671143 . - . gene_id "ECDH10B_RS08350"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08350"; old_locus_tag "ECDH10B_1629"; -NC_010473.1 Protein Homology CDS 1669464 1671143 . - 0 gene_id "ECDH10B_RS08350"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416015.2"; locus_tag "ECDH10B_RS08350"; product "sulfatase-like hydrolase/transferase"; protein_id "WP_001295684.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1671141 1671143 . - 0 gene_id "ECDH10B_RS08350"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416015.2"; locus_tag "ECDH10B_RS08350"; product "sulfatase-like hydrolase/transferase"; protein_id "WP_001295684.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1669461 1669463 . - 0 gene_id "ECDH10B_RS08350"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416015.2"; locus_tag "ECDH10B_RS08350"; product "sulfatase-like hydrolase/transferase"; protein_id "WP_001295684.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1671545 1672306 . - . gene_id "ECDH10B_RS08355"; transcript_id ""; gbkey "Gene"; gene "ydeO"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08355"; old_locus_tag "ECDH10B_1630"; -NC_010473.1 Protein Homology CDS 1671548 1672306 . - 0 gene_id "ECDH10B_RS08355"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ydeO"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416016.1"; locus_tag "ECDH10B_RS08355"; product "acid stress response transcriptional regulator YdeO"; protein_id "WP_000060495.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1672304 1672306 . - 0 gene_id "ECDH10B_RS08355"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ydeO"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416016.1"; locus_tag "ECDH10B_RS08355"; product "acid stress response transcriptional regulator YdeO"; protein_id "WP_000060495.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1671545 1671547 . - 0 gene_id "ECDH10B_RS08355"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ydeO"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416016.1"; locus_tag "ECDH10B_RS08355"; product "acid stress response transcriptional regulator YdeO"; protein_id "WP_000060495.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1672381 1672578 . - . gene_id "ECDH10B_RS08360"; transcript_id ""; gbkey "Gene"; gene "safA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08360"; -NC_010473.1 Protein Homology CDS 1672384 1672578 . - 0 gene_id "ECDH10B_RS08360"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "safA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416017.1"; locus_tag "ECDH10B_RS08360"; product "two-component system connector SafA"; protein_id "WP_000543384.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1672576 1672578 . - 0 gene_id "ECDH10B_RS08360"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "safA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416017.1"; locus_tag "ECDH10B_RS08360"; product "two-component system connector SafA"; protein_id "WP_000543384.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1672381 1672383 . - 0 gene_id "ECDH10B_RS08360"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "safA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416017.1"; locus_tag "ECDH10B_RS08360"; product "two-component system connector SafA"; protein_id "WP_000543384.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1672826 1675105 . - . gene_id "ECDH10B_RS08365"; transcript_id ""; gbkey "Gene"; gene "ydeP"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08365"; old_locus_tag "ECDH10B_1631"; -NC_010473.1 Protein Homology CDS 1672829 1675105 . - 0 gene_id "ECDH10B_RS08365"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ydeP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416018.1"; locus_tag "ECDH10B_RS08365"; product "acid resistance putative oxidoreductase YdeP"; protein_id "WP_000726691.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1675103 1675105 . - 0 gene_id "ECDH10B_RS08365"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ydeP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416018.1"; locus_tag "ECDH10B_RS08365"; product "acid resistance putative oxidoreductase YdeP"; protein_id "WP_000726691.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1672826 1672828 . - 0 gene_id "ECDH10B_RS08365"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ydeP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416018.1"; locus_tag "ECDH10B_RS08365"; product "acid resistance putative oxidoreductase YdeP"; protein_id "WP_000726691.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1675439 1676353 . - . gene_id "ECDH10B_RS08370"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08370"; old_locus_tag "ECDH10B_1632"; -NC_010473.1 Protein Homology CDS 1675442 1676353 . - 0 gene_id "ECDH10B_RS08370"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416019.1"; locus_tag "ECDH10B_RS08370"; product "fimbrial protein"; protein_id "WP_000520676.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1676351 1676353 . - 0 gene_id "ECDH10B_RS08370"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416019.1"; locus_tag "ECDH10B_RS08370"; product "fimbrial protein"; protein_id "WP_000520676.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1675439 1675441 . - 0 gene_id "ECDH10B_RS08370"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416019.1"; locus_tag "ECDH10B_RS08370"; product "fimbrial protein"; protein_id "WP_000520676.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1676412 1676915 . - . gene_id "ECDH10B_RS08375"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08375"; old_locus_tag "ECDH10B_1633"; -NC_010473.1 Protein Homology CDS 1676415 1676915 . - 0 gene_id "ECDH10B_RS08375"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416020.1"; locus_tag "ECDH10B_RS08375"; product "type 1 fimbrial protein"; protein_id "WP_000825452.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1676913 1676915 . - 0 gene_id "ECDH10B_RS08375"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416020.1"; locus_tag "ECDH10B_RS08375"; product "type 1 fimbrial protein"; protein_id "WP_000825452.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1676412 1676414 . - 0 gene_id "ECDH10B_RS08375"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416020.1"; locus_tag "ECDH10B_RS08375"; product "type 1 fimbrial protein"; protein_id "WP_000825452.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1676928 1677374 . - . gene_id "ECDH10B_RS25985"; transcript_id ""; gbkey "Gene"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS25985"; partial "true"; pseudo "true"; -NC_010473.1 Protein Homology CDS 1676931 1677374 . - 0 gene_id "ECDH10B_RS25985"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416021.1"; locus_tag "ECDH10B_RS25985"; note "incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "type 1 fimbrial protein"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1677372 1677374 . - 0 gene_id "ECDH10B_RS25985"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416021.1"; locus_tag "ECDH10B_RS25985"; note "incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "type 1 fimbrial protein"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1676928 1676930 . - 0 gene_id "ECDH10B_RS25985"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416021.1"; locus_tag "ECDH10B_RS25985"; note "incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "type 1 fimbrial protein"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 1677375 1677728 . - . gene_id "ECDH10B_RS25990"; transcript_id ""; gbkey "Gene"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS25990"; partial "true"; pseudo "true"; -NC_010473.1 Protein Homology CDS 1677378 1677728 . - 0 gene_id "ECDH10B_RS25990"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310137.2"; locus_tag "ECDH10B_RS25990"; note "incomplete; partial in the middle of a contig; missing N-terminus and C-terminus"; partial "true"; product "fimbria/pilus outer membrane usher protein"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1677726 1677728 . - 0 gene_id "ECDH10B_RS25990"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310137.2"; locus_tag "ECDH10B_RS25990"; note "incomplete; partial in the middle of a contig; missing N-terminus and C-terminus"; partial "true"; product "fimbria/pilus outer membrane usher protein"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1677375 1677377 . - 0 gene_id "ECDH10B_RS25990"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310137.2"; locus_tag "ECDH10B_RS25990"; note "incomplete; partial in the middle of a contig; missing N-terminus and C-terminus"; partial "true"; product "fimbria/pilus outer membrane usher protein"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 1677983 1678191 . - . gene_id "ECDH10B_RS08385"; transcript_id ""; gbkey "Gene"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS08385"; old_locus_tag "ECDH10B_1636"; partial "true"; pseudo "true"; -NC_010473.1 Protein Homology CDS 1677986 1678191 . - 0 gene_id "ECDH10B_RS08385"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_005226947.1"; locus_tag "ECDH10B_RS08385"; note "frameshifted; incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "helix-turn-helix transcriptional regulator"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1678189 1678191 . - 0 gene_id "ECDH10B_RS08385"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_005226947.1"; locus_tag "ECDH10B_RS08385"; note "frameshifted; incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "helix-turn-helix transcriptional regulator"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1677983 1677985 . - 0 gene_id "ECDH10B_RS08385"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_005226947.1"; locus_tag "ECDH10B_RS08385"; note "frameshifted; incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "helix-turn-helix transcriptional regulator"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 1678503 1679825 . - . gene_id "ECDH10B_RS08390"; transcript_id ""; gbkey "Gene"; gene "hipA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08390"; old_locus_tag "ECDH10B_1638"; -NC_010473.1 Protein Homology CDS 1678506 1679825 . - 0 gene_id "ECDH10B_RS08390"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hipA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416024.1"; locus_tag "ECDH10B_RS08390"; product "type II toxin-antitoxin system serine/threonine protein kinase toxin HipA"; protein_id "WP_001125439.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1679823 1679825 . - 0 gene_id "ECDH10B_RS08390"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hipA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416024.1"; locus_tag "ECDH10B_RS08390"; product "type II toxin-antitoxin system serine/threonine protein kinase toxin HipA"; protein_id "WP_001125439.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1678503 1678505 . - 0 gene_id "ECDH10B_RS08390"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hipA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416024.1"; locus_tag "ECDH10B_RS08390"; product "type II toxin-antitoxin system serine/threonine protein kinase toxin HipA"; protein_id "WP_001125439.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1679825 1680091 . - . gene_id "ECDH10B_RS08395"; transcript_id ""; gbkey "Gene"; gene "hipB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08395"; old_locus_tag "ECDH10B_1639"; -NC_010473.1 Protein Homology CDS 1679828 1680091 . - 0 gene_id "ECDH10B_RS08395"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hipB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416025.1"; locus_tag "ECDH10B_RS08395"; product "type II toxin-antitoxin system antitoxin HipB"; protein_id "WP_001301023.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1680089 1680091 . - 0 gene_id "ECDH10B_RS08395"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hipB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416025.1"; locus_tag "ECDH10B_RS08395"; product "type II toxin-antitoxin system antitoxin HipB"; protein_id "WP_001301023.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1679825 1679827 . - 0 gene_id "ECDH10B_RS08395"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hipB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416025.1"; locus_tag "ECDH10B_RS08395"; product "type II toxin-antitoxin system antitoxin HipB"; protein_id "WP_001301023.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1680314 1681714 . - . gene_id "ECDH10B_RS08400"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08400"; old_locus_tag "ECDH10B_1640"; -NC_010473.1 Protein Homology CDS 1680317 1681714 . - 0 gene_id "ECDH10B_RS08400"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: protein motif:HMM:TIGR01414.1"; locus_tag "ECDH10B_RS08400"; product "autotransporter outer membrane beta-barrel domain-containing protein"; protein_id "WP_001083595.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1681712 1681714 . - 0 gene_id "ECDH10B_RS08400"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: protein motif:HMM:TIGR01414.1"; locus_tag "ECDH10B_RS08400"; product "autotransporter outer membrane beta-barrel domain-containing protein"; protein_id "WP_001083595.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1680314 1680316 . - 0 gene_id "ECDH10B_RS08400"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: protein motif:HMM:TIGR01414.1"; locus_tag "ECDH10B_RS08400"; product "autotransporter outer membrane beta-barrel domain-containing protein"; protein_id "WP_001083595.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1681711 1685735 . - . gene_id "ECDH10B_RS08405"; transcript_id ""; gbkey "Gene"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS08405"; old_locus_tag "ECDH10B_1641"; pseudo "true"; -NC_010473.1 Protein Homology CDS 1681714 1685735 . - 0 gene_id "ECDH10B_RS08405"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310144.1"; locus_tag "ECDH10B_RS08405"; note "frameshifted"; product "autotransporter barrel domain-containing lipoprotein"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1685733 1685735 . - 0 gene_id "ECDH10B_RS08405"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310144.1"; locus_tag "ECDH10B_RS08405"; note "frameshifted"; product "autotransporter barrel domain-containing lipoprotein"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1681711 1681713 . - 0 gene_id "ECDH10B_RS08405"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310144.1"; locus_tag "ECDH10B_RS08405"; note "frameshifted"; product "autotransporter barrel domain-containing lipoprotein"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 1686266 1687858 . - . gene_id "ECDH10B_RS08410"; transcript_id ""; gbkey "Gene"; gene "lsrK"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08410"; old_locus_tag "ECDH10B_1642"; -NC_010473.1 Protein Homology CDS 1686269 1687858 . - 0 gene_id "ECDH10B_RS08410"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lsrK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416028.3"; locus_tag "ECDH10B_RS08410"; product "autoinducer-2 kinase"; protein_id "WP_000113108.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1687856 1687858 . - 0 gene_id "ECDH10B_RS08410"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lsrK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416028.3"; locus_tag "ECDH10B_RS08410"; product "autoinducer-2 kinase"; protein_id "WP_000113108.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1686266 1686268 . - 0 gene_id "ECDH10B_RS08410"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lsrK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416028.3"; locus_tag "ECDH10B_RS08410"; product "autoinducer-2 kinase"; protein_id "WP_000113108.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1687937 1688890 . - . gene_id "ECDH10B_RS08415"; transcript_id ""; gbkey "Gene"; gene "lsrR"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08415"; old_locus_tag "ECDH10B_1643"; -NC_010473.1 Protein Homology CDS 1687940 1688890 . - 0 gene_id "ECDH10B_RS08415"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lsrR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416029.1"; locus_tag "ECDH10B_RS08415"; product "transcriptional regulator LsrR"; protein_id "WP_000154342.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1688888 1688890 . - 0 gene_id "ECDH10B_RS08415"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lsrR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416029.1"; locus_tag "ECDH10B_RS08415"; product "transcriptional regulator LsrR"; protein_id "WP_000154342.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1687937 1687939 . - 0 gene_id "ECDH10B_RS08415"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lsrR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416029.1"; locus_tag "ECDH10B_RS08415"; product "transcriptional regulator LsrR"; protein_id "WP_000154342.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1689139 1690674 . + . gene_id "ECDH10B_RS08420"; transcript_id ""; gbkey "Gene"; gene "lsrA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08420"; old_locus_tag "ECDH10B_1644"; -NC_010473.1 Protein Homology CDS 1689139 1690671 . + 0 gene_id "ECDH10B_RS08420"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lsrA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416030.1"; locus_tag "ECDH10B_RS08420"; product "autoinducer 2 ABC transporter ATP-binding protein LsrA"; protein_id "WP_001194860.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1689139 1689141 . + 0 gene_id "ECDH10B_RS08420"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lsrA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416030.1"; locus_tag "ECDH10B_RS08420"; product "autoinducer 2 ABC transporter ATP-binding protein LsrA"; protein_id "WP_001194860.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1690672 1690674 . + 0 gene_id "ECDH10B_RS08420"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lsrA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416030.1"; locus_tag "ECDH10B_RS08420"; product "autoinducer 2 ABC transporter ATP-binding protein LsrA"; protein_id "WP_001194860.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1690668 1691696 . + . gene_id "ECDH10B_RS08425"; transcript_id ""; gbkey "Gene"; gene "lsrC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08425"; old_locus_tag "ECDH10B_1645"; -NC_010473.1 Protein Homology CDS 1690668 1691693 . + 0 gene_id "ECDH10B_RS08425"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lsrC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416031.1"; locus_tag "ECDH10B_RS08425"; product "autoinducer 2 ABC transporter permease LsrC"; protein_id "WP_000911184.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1690668 1690670 . + 0 gene_id "ECDH10B_RS08425"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lsrC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416031.1"; locus_tag "ECDH10B_RS08425"; product "autoinducer 2 ABC transporter permease LsrC"; protein_id "WP_000911184.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1691694 1691696 . + 0 gene_id "ECDH10B_RS08425"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lsrC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416031.1"; locus_tag "ECDH10B_RS08425"; product "autoinducer 2 ABC transporter permease LsrC"; protein_id "WP_000911184.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1691696 1692688 . + . gene_id "ECDH10B_RS08430"; transcript_id ""; gbkey "Gene"; gene "lsrD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08430"; old_locus_tag "ECDH10B_1646"; -NC_010473.1 Protein Homology CDS 1691696 1692685 . + 0 gene_id "ECDH10B_RS08430"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lsrD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416032.1"; locus_tag "ECDH10B_RS08430"; product "autoinducer 2 ABC transporter permease LsrD"; protein_id "WP_001222721.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1691696 1691698 . + 0 gene_id "ECDH10B_RS08430"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lsrD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416032.1"; locus_tag "ECDH10B_RS08430"; product "autoinducer 2 ABC transporter permease LsrD"; protein_id "WP_001222721.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1692686 1692688 . + 0 gene_id "ECDH10B_RS08430"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lsrD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416032.1"; locus_tag "ECDH10B_RS08430"; product "autoinducer 2 ABC transporter permease LsrD"; protein_id "WP_001222721.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1692700 1693722 . + . gene_id "ECDH10B_RS08435"; transcript_id ""; gbkey "Gene"; gene "lsrB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08435"; old_locus_tag "ECDH10B_1647"; -NC_010473.1 Protein Homology CDS 1692700 1693719 . + 0 gene_id "ECDH10B_RS08435"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lsrB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416033.1"; locus_tag "ECDH10B_RS08435"; product "autoinducer 2 ABC transporter substrate-binding protein LsrB"; protein_id "WP_000172465.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1692700 1692702 . + 0 gene_id "ECDH10B_RS08435"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lsrB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416033.1"; locus_tag "ECDH10B_RS08435"; product "autoinducer 2 ABC transporter substrate-binding protein LsrB"; protein_id "WP_000172465.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1693720 1693722 . + 0 gene_id "ECDH10B_RS08435"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lsrB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416033.1"; locus_tag "ECDH10B_RS08435"; product "autoinducer 2 ABC transporter substrate-binding protein LsrB"; protein_id "WP_000172465.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1693749 1694624 . + . gene_id "ECDH10B_RS08440"; transcript_id ""; gbkey "Gene"; gene "lsrF"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08440"; old_locus_tag "ECDH10B_1648"; -NC_010473.1 Protein Homology CDS 1693749 1694621 . + 0 gene_id "ECDH10B_RS08440"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lsrF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416034.1"; locus_tag "ECDH10B_RS08440"; product "3-hydroxy-5-phosphonooxypentane-2,4-dione thiolase"; protein_id "WP_000774165.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1693749 1693751 . + 0 gene_id "ECDH10B_RS08440"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lsrF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416034.1"; locus_tag "ECDH10B_RS08440"; product "3-hydroxy-5-phosphonooxypentane-2,4-dione thiolase"; protein_id "WP_000774165.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1694622 1694624 . + 0 gene_id "ECDH10B_RS08440"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lsrF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416034.1"; locus_tag "ECDH10B_RS08440"; product "3-hydroxy-5-phosphonooxypentane-2,4-dione thiolase"; protein_id "WP_000774165.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1694648 1694938 . + . gene_id "ECDH10B_RS08445"; transcript_id ""; gbkey "Gene"; gene "lsrG"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08445"; old_locus_tag "ECDH10B_1649"; -NC_010473.1 Protein Homology CDS 1694648 1694935 . + 0 gene_id "ECDH10B_RS08445"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lsrG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310152.1"; locus_tag "ECDH10B_RS08445"; product "(4S)-4-hydroxy-5-phosphonooxypentane-2,3-dione isomerase"; protein_id "WP_000558527.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1694648 1694650 . + 0 gene_id "ECDH10B_RS08445"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lsrG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310152.1"; locus_tag "ECDH10B_RS08445"; product "(4S)-4-hydroxy-5-phosphonooxypentane-2,3-dione isomerase"; protein_id "WP_000558527.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1694936 1694938 . + 0 gene_id "ECDH10B_RS08445"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lsrG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310152.1"; locus_tag "ECDH10B_RS08445"; product "(4S)-4-hydroxy-5-phosphonooxypentane-2,3-dione isomerase"; protein_id "WP_000558527.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1694995 1695753 . + . gene_id "ECDH10B_RS08450"; transcript_id ""; gbkey "Gene"; gene "tam"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08450"; old_locus_tag "ECDH10B_1650"; -NC_010473.1 Protein Homology CDS 1694995 1695750 . + 0 gene_id "ECDH10B_RS08450"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tam"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416036.1"; locus_tag "ECDH10B_RS08450"; product "trans-aconitate 2-methyltransferase"; protein_id "WP_001286597.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1694995 1694997 . + 0 gene_id "ECDH10B_RS08450"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tam"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416036.1"; locus_tag "ECDH10B_RS08450"; product "trans-aconitate 2-methyltransferase"; protein_id "WP_001286597.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1695751 1695753 . + 0 gene_id "ECDH10B_RS08450"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tam"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416036.1"; locus_tag "ECDH10B_RS08450"; product "trans-aconitate 2-methyltransferase"; protein_id "WP_001286597.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1695757 1696671 . - . gene_id "ECDH10B_RS08455"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08455"; old_locus_tag "ECDH10B_1651"; -NC_010473.1 Protein Homology CDS 1695760 1696671 . - 0 gene_id "ECDH10B_RS08455"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416037.2"; locus_tag "ECDH10B_RS08455"; product "bestrophin family inner membrane protein"; protein_id "WP_001313828.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1696669 1696671 . - 0 gene_id "ECDH10B_RS08455"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416037.2"; locus_tag "ECDH10B_RS08455"; product "bestrophin family inner membrane protein"; protein_id "WP_001313828.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1695757 1695759 . - 0 gene_id "ECDH10B_RS08455"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416037.2"; locus_tag "ECDH10B_RS08455"; product "bestrophin family inner membrane protein"; protein_id "WP_001313828.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1696878 1698329 . - . gene_id "ECDH10B_RS08465"; transcript_id ""; gbkey "Gene"; gene "uxaB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08465"; -NC_010473.1 Protein Homology CDS 1696881 1698329 . - 0 gene_id "ECDH10B_RS08465"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "uxaB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310155.1"; locus_tag "ECDH10B_RS08465"; product "tagaturonate reductase"; protein_id "WP_000854652.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1698327 1698329 . - 0 gene_id "ECDH10B_RS08465"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "uxaB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310155.1"; locus_tag "ECDH10B_RS08465"; product "tagaturonate reductase"; protein_id "WP_000854652.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1696878 1696880 . - 0 gene_id "ECDH10B_RS08465"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "uxaB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310155.1"; locus_tag "ECDH10B_RS08465"; product "tagaturonate reductase"; protein_id "WP_000854652.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1698556 1699542 . - . gene_id "ECDH10B_RS08470"; transcript_id ""; gbkey "Gene"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS08470"; old_locus_tag "ECDH10B_1653"; partial "true"; pseudo "true"; -NC_010473.1 Protein Homology CDS 1698559 1699542 . - 0 gene_id "ECDH10B_RS08470"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310156.2"; locus_tag "ECDH10B_RS08470"; note "incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "GGDEF domain-containing protein"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1699540 1699542 . - 0 gene_id "ECDH10B_RS08470"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310156.2"; locus_tag "ECDH10B_RS08470"; note "incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "GGDEF domain-containing protein"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1698556 1698558 . - 0 gene_id "ECDH10B_RS08470"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310156.2"; locus_tag "ECDH10B_RS08470"; note "incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "GGDEF domain-containing protein"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 1699615 1699974 . - . gene_id "ECDH10B_RS08475"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08475"; old_locus_tag "ECDH10B_1654"; -NC_010473.1 Protein Homology CDS 1699618 1699974 . - 0 gene_id "ECDH10B_RS08475"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416040.1"; locus_tag "ECDH10B_RS08475"; product "DUF4186 domain-containing protein"; protein_id "WP_001191027.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1699972 1699974 . - 0 gene_id "ECDH10B_RS08475"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416040.1"; locus_tag "ECDH10B_RS08475"; product "DUF4186 domain-containing protein"; protein_id "WP_001191027.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1699615 1699617 . - 0 gene_id "ECDH10B_RS08475"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416040.1"; locus_tag "ECDH10B_RS08475"; product "DUF4186 domain-containing protein"; protein_id "WP_001191027.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1699974 1700900 . - . gene_id "ECDH10B_RS08480"; transcript_id ""; gbkey "Gene"; gene "glsB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08480"; old_locus_tag "ECDH10B_1655"; -NC_010473.1 Protein Homology CDS 1699977 1700900 . - 0 gene_id "ECDH10B_RS08480"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "glsB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310158.1"; locus_tag "ECDH10B_RS08480"; product "glutaminase B"; protein_id "WP_000257409.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1700898 1700900 . - 0 gene_id "ECDH10B_RS08480"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "glsB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310158.1"; locus_tag "ECDH10B_RS08480"; product "glutaminase B"; protein_id "WP_000257409.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1699974 1699976 . - 0 gene_id "ECDH10B_RS08480"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "glsB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310158.1"; locus_tag "ECDH10B_RS08480"; product "glutaminase B"; protein_id "WP_000257409.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1700964 1702352 . - . gene_id "ECDH10B_RS08485"; transcript_id ""; gbkey "Gene"; gene "sad"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08485"; old_locus_tag "ECDH10B_1656"; -NC_010473.1 Protein Homology CDS 1700967 1702352 . - 0 gene_id "ECDH10B_RS08485"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sad"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416042.2"; locus_tag "ECDH10B_RS08485"; product "succinate-semialdehyde dehydrogenase"; protein_id "WP_000156615.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1702350 1702352 . - 0 gene_id "ECDH10B_RS08485"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sad"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416042.2"; locus_tag "ECDH10B_RS08485"; product "succinate-semialdehyde dehydrogenase"; protein_id "WP_000156615.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1700964 1700966 . - 0 gene_id "ECDH10B_RS08485"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sad"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416042.2"; locus_tag "ECDH10B_RS08485"; product "succinate-semialdehyde dehydrogenase"; protein_id "WP_000156615.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1702453 1703334 . + . gene_id "ECDH10B_RS08490"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08490"; old_locus_tag "ECDH10B_1657"; -NC_010473.1 Protein Homology CDS 1702453 1703331 . + 0 gene_id "ECDH10B_RS08490"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416043.1"; locus_tag "ECDH10B_RS08490"; product "LysR family transcriptional regulator"; protein_id "WP_000366501.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1702453 1702455 . + 0 gene_id "ECDH10B_RS08490"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416043.1"; locus_tag "ECDH10B_RS08490"; product "LysR family transcriptional regulator"; protein_id "WP_000366501.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1703332 1703334 . + 0 gene_id "ECDH10B_RS08490"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416043.1"; locus_tag "ECDH10B_RS08490"; product "LysR family transcriptional regulator"; protein_id "WP_000366501.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1703412 1704527 . + . gene_id "ECDH10B_RS08495"; transcript_id ""; gbkey "Gene"; gene "yneK"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08495"; old_locus_tag "ECDH10B_1658"; -NC_010473.1 Protein Homology CDS 1703412 1704524 . + 0 gene_id "ECDH10B_RS08495"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yneK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416044.1"; locus_tag "ECDH10B_RS08495"; product "putative protein YneK"; protein_id "WP_000258599.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1703412 1703414 . + 0 gene_id "ECDH10B_RS08495"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yneK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416044.1"; locus_tag "ECDH10B_RS08495"; product "putative protein YneK"; protein_id "WP_000258599.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1704525 1704527 . + 0 gene_id "ECDH10B_RS08495"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yneK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416044.1"; locus_tag "ECDH10B_RS08495"; product "putative protein YneK"; protein_id "WP_000258599.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1704677 1705867 . + . gene_id "ECDH10B_RS08500"; transcript_id ""; gbkey "Gene"; gene "ydeA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08500"; old_locus_tag "ECDH10B_1659"; -NC_010473.1 Protein Homology CDS 1704677 1705864 . + 0 gene_id "ECDH10B_RS08500"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ydeA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416045.1"; locus_tag "ECDH10B_RS08500"; product "L-arabinose MFS transporter"; protein_id "WP_000210799.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1704677 1704679 . + 0 gene_id "ECDH10B_RS08500"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ydeA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416045.1"; locus_tag "ECDH10B_RS08500"; product "L-arabinose MFS transporter"; protein_id "WP_000210799.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1705865 1705867 . + 0 gene_id "ECDH10B_RS08500"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ydeA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416045.1"; locus_tag "ECDH10B_RS08500"; product "L-arabinose MFS transporter"; protein_id "WP_000210799.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1705892 1706557 . - . gene_id "ECDH10B_RS08505"; transcript_id ""; gbkey "Gene"; gene "marC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08505"; old_locus_tag "ECDH10B_1660"; -NC_010473.1 Protein Homology CDS 1705895 1706557 . - 0 gene_id "ECDH10B_RS08505"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "marC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416046.1"; locus_tag "ECDH10B_RS08505"; product "NAAT family transporter MarC"; protein_id "WP_000885033.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1706555 1706557 . - 0 gene_id "ECDH10B_RS08505"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "marC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416046.1"; locus_tag "ECDH10B_RS08505"; product "NAAT family transporter MarC"; protein_id "WP_000885033.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1705892 1705894 . - 0 gene_id "ECDH10B_RS08505"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "marC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416046.1"; locus_tag "ECDH10B_RS08505"; product "NAAT family transporter MarC"; protein_id "WP_000885033.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1706769 1707203 . + . gene_id "ECDH10B_RS08510"; transcript_id ""; gbkey "Gene"; gene "marR"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08510"; old_locus_tag "ECDH10B_1661"; -NC_010473.1 Protein Homology CDS 1706769 1707200 . + 0 gene_id "ECDH10B_RS08510"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "marR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416047.4"; locus_tag "ECDH10B_RS08510"; product "multiple antibiotic resistance transcriptional regulator MarR"; protein_id "WP_000843414.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1706769 1706771 . + 0 gene_id "ECDH10B_RS08510"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "marR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416047.4"; locus_tag "ECDH10B_RS08510"; product "multiple antibiotic resistance transcriptional regulator MarR"; protein_id "WP_000843414.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1707201 1707203 . + 0 gene_id "ECDH10B_RS08510"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "marR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416047.4"; locus_tag "ECDH10B_RS08510"; product "multiple antibiotic resistance transcriptional regulator MarR"; protein_id "WP_000843414.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1707223 1707606 . + . gene_id "ECDH10B_RS08515"; transcript_id ""; gbkey "Gene"; gene "marA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08515"; old_locus_tag "ECDH10B_1662"; -NC_010473.1 Protein Homology CDS 1707223 1707603 . + 0 gene_id "ECDH10B_RS08515"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "marA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_707445.2"; locus_tag "ECDH10B_RS08515"; product "MDR efflux pump AcrAB transcriptional activator MarA"; protein_id "WP_000091199.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1707223 1707225 . + 0 gene_id "ECDH10B_RS08515"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "marA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_707445.2"; locus_tag "ECDH10B_RS08515"; product "MDR efflux pump AcrAB transcriptional activator MarA"; protein_id "WP_000091199.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1707604 1707606 . + 0 gene_id "ECDH10B_RS08515"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "marA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_707445.2"; locus_tag "ECDH10B_RS08515"; product "MDR efflux pump AcrAB transcriptional activator MarA"; protein_id "WP_000091199.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1707638 1707856 . + . gene_id "ECDH10B_RS08520"; transcript_id ""; gbkey "Gene"; gene "marB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08520"; old_locus_tag "ECDH10B_1663"; -NC_010473.1 Protein Homology CDS 1707638 1707853 . + 0 gene_id "ECDH10B_RS08520"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "marB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416049.1"; locus_tag "ECDH10B_RS08520"; product "multiple antibiotic resistance protein MarB"; protein_id "WP_000803657.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1707638 1707640 . + 0 gene_id "ECDH10B_RS08520"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "marB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416049.1"; locus_tag "ECDH10B_RS08520"; product "multiple antibiotic resistance protein MarB"; protein_id "WP_000803657.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1707854 1707856 . + 0 gene_id "ECDH10B_RS08520"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "marB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416049.1"; locus_tag "ECDH10B_RS08520"; product "multiple antibiotic resistance protein MarB"; protein_id "WP_000803657.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1707887 1708786 . - . gene_id "ECDH10B_RS08525"; transcript_id ""; gbkey "Gene"; gene "eamA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08525"; old_locus_tag "ECDH10B_1664"; -NC_010473.1 Protein Homology CDS 1707890 1708786 . - 0 gene_id "ECDH10B_RS08525"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "eamA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416050.4"; locus_tag "ECDH10B_RS08525"; product "O-acetylserine/cysteine exporter"; protein_id "WP_000087187.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1708784 1708786 . - 0 gene_id "ECDH10B_RS08525"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "eamA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416050.4"; locus_tag "ECDH10B_RS08525"; product "O-acetylserine/cysteine exporter"; protein_id "WP_000087187.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1707887 1707889 . - 0 gene_id "ECDH10B_RS08525"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "eamA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416050.4"; locus_tag "ECDH10B_RS08525"; product "O-acetylserine/cysteine exporter"; protein_id "WP_000087187.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1708981 1710168 . + . gene_id "ECDH10B_RS08530"; transcript_id ""; gbkey "Gene"; gene "ydeE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08530"; old_locus_tag "ECDH10B_1665"; -NC_010473.1 Protein Homology CDS 1708981 1710165 . + 0 gene_id "ECDH10B_RS08530"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ydeE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416051.1"; locus_tag "ECDH10B_RS08530"; product "efflux MFS transporter YdeE"; protein_id "WP_001054204.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1708981 1708983 . + 0 gene_id "ECDH10B_RS08530"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ydeE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416051.1"; locus_tag "ECDH10B_RS08530"; product "efflux MFS transporter YdeE"; protein_id "WP_001054204.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1710166 1710168 . + 0 gene_id "ECDH10B_RS08530"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ydeE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416051.1"; locus_tag "ECDH10B_RS08530"; product "efflux MFS transporter YdeE"; protein_id "WP_001054204.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1710295 1710390 . + . gene_id "ECDH10B_RS08535"; transcript_id ""; gbkey "Gene"; gene "mgtS"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08535"; -NC_010473.1 Protein Homology CDS 1710295 1710387 . + 0 gene_id "ECDH10B_RS08535"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mgtS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_001165319.1"; locus_tag "ECDH10B_RS08535"; product "protein MgtS"; protein_id "WP_000901367.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1710295 1710297 . + 0 gene_id "ECDH10B_RS08535"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mgtS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_001165319.1"; locus_tag "ECDH10B_RS08535"; product "protein MgtS"; protein_id "WP_000901367.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1710388 1710390 . + 0 gene_id "ECDH10B_RS08535"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mgtS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_001165319.1"; locus_tag "ECDH10B_RS08535"; product "protein MgtS"; protein_id "WP_000901367.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1710609 1711499 . - . gene_id "ECDH10B_RS08540"; transcript_id ""; gbkey "Gene"; gene "dgcZ"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08540"; old_locus_tag "ECDH10B_1666"; -NC_010473.1 Protein Homology CDS 1710612 1711499 . - 0 gene_id "ECDH10B_RS08540"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dgcZ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416052.1"; locus_tag "ECDH10B_RS08540"; product "diguanylate cyclase DgcZ"; protein_id "WP_000592814.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1711497 1711499 . - 0 gene_id "ECDH10B_RS08540"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dgcZ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416052.1"; locus_tag "ECDH10B_RS08540"; product "diguanylate cyclase DgcZ"; protein_id "WP_000592814.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1710609 1710611 . - 0 gene_id "ECDH10B_RS08540"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dgcZ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416052.1"; locus_tag "ECDH10B_RS08540"; product "diguanylate cyclase DgcZ"; protein_id "WP_000592814.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1711754 1712146 . - . gene_id "ECDH10B_RS08545"; transcript_id ""; gbkey "Gene"; gene "ydeI"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08545"; old_locus_tag "ECDH10B_1667"; -NC_010473.1 Protein Homology CDS 1711757 1712146 . - 0 gene_id "ECDH10B_RS08545"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ydeI"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416054.1"; locus_tag "ECDH10B_RS08545"; product "YdeI family stress tolerance OB fold protein"; protein_id "WP_000671737.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1712144 1712146 . - 0 gene_id "ECDH10B_RS08545"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ydeI"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416054.1"; locus_tag "ECDH10B_RS08545"; product "YdeI family stress tolerance OB fold protein"; protein_id "WP_000671737.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1711754 1711756 . - 0 gene_id "ECDH10B_RS08545"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ydeI"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416054.1"; locus_tag "ECDH10B_RS08545"; product "YdeI family stress tolerance OB fold protein"; protein_id "WP_000671737.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1712422 1712940 . + . gene_id "ECDH10B_RS08550"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08550"; old_locus_tag "ECDH10B_1668"; -NC_010473.1 Protein Homology CDS 1712422 1712937 . + 0 gene_id "ECDH10B_RS08550"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416055.1"; locus_tag "ECDH10B_RS08550"; product "2-oxo-tetronate isomerase"; protein_id "WP_001024746.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1712422 1712424 . + 0 gene_id "ECDH10B_RS08550"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416055.1"; locus_tag "ECDH10B_RS08550"; product "2-oxo-tetronate isomerase"; protein_id "WP_001024746.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1712938 1712940 . + 0 gene_id "ECDH10B_RS08550"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416055.1"; locus_tag "ECDH10B_RS08550"; product "2-oxo-tetronate isomerase"; protein_id "WP_001024746.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1712984 1715029 . - . gene_id "ECDH10B_RS08555"; transcript_id ""; gbkey "Gene"; gene "dcp"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08555"; old_locus_tag "ECDH10B_1669"; -NC_010473.1 Protein Homology CDS 1712987 1715029 . - 0 gene_id "ECDH10B_RS08555"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dcp"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416056.1"; locus_tag "ECDH10B_RS08555"; product "peptidyl-dipeptidase Dcp"; protein_id "WP_000210373.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1715027 1715029 . - 0 gene_id "ECDH10B_RS08555"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dcp"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416056.1"; locus_tag "ECDH10B_RS08555"; product "peptidyl-dipeptidase Dcp"; protein_id "WP_000210373.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1712984 1712986 . - 0 gene_id "ECDH10B_RS08555"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dcp"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416056.1"; locus_tag "ECDH10B_RS08555"; product "peptidyl-dipeptidase Dcp"; protein_id "WP_000210373.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1715166 1715912 . + . gene_id "ECDH10B_RS08560"; transcript_id ""; gbkey "Gene"; gene "ydfG"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08560"; old_locus_tag "ECDH10B_1670"; -NC_010473.1 Protein Homology CDS 1715166 1715909 . + 0 gene_id "ECDH10B_RS08560"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ydfG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416057.1"; locus_tag "ECDH10B_RS08560"; product "bifunctional NADP-dependent 3-hydroxy acid dehydrogenase/3-hydroxypropionate dehydrogenase YdfG"; protein_id "WP_000636571.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1715166 1715168 . + 0 gene_id "ECDH10B_RS08560"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ydfG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416057.1"; locus_tag "ECDH10B_RS08560"; product "bifunctional NADP-dependent 3-hydroxy acid dehydrogenase/3-hydroxypropionate dehydrogenase YdfG"; protein_id "WP_000636571.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1715910 1715912 . + 0 gene_id "ECDH10B_RS08560"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ydfG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416057.1"; locus_tag "ECDH10B_RS08560"; product "bifunctional NADP-dependent 3-hydroxy acid dehydrogenase/3-hydroxypropionate dehydrogenase YdfG"; protein_id "WP_000636571.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1716001 1716687 . + . gene_id "ECDH10B_RS08565"; transcript_id ""; gbkey "Gene"; gene "ydfH"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08565"; old_locus_tag "ECDH10B_1671"; -NC_010473.1 Protein Homology CDS 1716001 1716684 . + 0 gene_id "ECDH10B_RS08565"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ydfH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310176.1"; locus_tag "ECDH10B_RS08565"; product "DNA-binding transcriptional regulator YdfH"; protein_id "WP_000215549.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1716001 1716003 . + 0 gene_id "ECDH10B_RS08565"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ydfH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310176.1"; locus_tag "ECDH10B_RS08565"; product "DNA-binding transcriptional regulator YdfH"; protein_id "WP_000215549.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1716685 1716687 . + 0 gene_id "ECDH10B_RS08565"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ydfH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310176.1"; locus_tag "ECDH10B_RS08565"; product "DNA-binding transcriptional regulator YdfH"; protein_id "WP_000215549.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1716864 1717067 . + . gene_id "ECDH10B_RS08570"; transcript_id ""; gbkey "Gene"; gene "ydfZ"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08570"; old_locus_tag "ECDH10B_1672"; -NC_010473.1 Protein Homology CDS 1716864 1717064 . + 0 gene_id "ECDH10B_RS08570"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ydfZ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310177.1"; locus_tag "ECDH10B_RS08570"; product "putative selenium delivery protein YdfZ"; protein_id "WP_000214712.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1716864 1716866 . + 0 gene_id "ECDH10B_RS08570"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ydfZ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310177.1"; locus_tag "ECDH10B_RS08570"; product "putative selenium delivery protein YdfZ"; protein_id "WP_000214712.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1717065 1717067 . + 0 gene_id "ECDH10B_RS08570"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ydfZ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310177.1"; locus_tag "ECDH10B_RS08570"; product "putative selenium delivery protein YdfZ"; protein_id "WP_000214712.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1717102 1718562 . - . gene_id "ECDH10B_RS08575"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08575"; old_locus_tag "ECDH10B_1673"; -NC_010473.1 Protein Homology CDS 1717105 1718562 . - 0 gene_id "ECDH10B_RS08575"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416060.1"; locus_tag "ECDH10B_RS08575"; product "mannitol dehydrogenase family protein"; protein_id "WP_000527743.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1718560 1718562 . - 0 gene_id "ECDH10B_RS08575"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416060.1"; locus_tag "ECDH10B_RS08575"; product "mannitol dehydrogenase family protein"; protein_id "WP_000527743.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1717102 1717104 . - 0 gene_id "ECDH10B_RS08575"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416060.1"; locus_tag "ECDH10B_RS08575"; product "mannitol dehydrogenase family protein"; protein_id "WP_000527743.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1718651 1720018 . - . gene_id "ECDH10B_RS08580"; transcript_id ""; gbkey "Gene"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS08580"; old_locus_tag "ECDH10B_1674"; pseudo "true"; -NC_010473.1 Protein Homology CDS 1718654 1720018 . - 0 gene_id "ECDH10B_RS08580"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000582800.1"; locus_tag "ECDH10B_RS08580"; note "internal stop"; product "MHS family MFS transporter"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1720016 1720018 . - 0 gene_id "ECDH10B_RS08580"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000582800.1"; locus_tag "ECDH10B_RS08580"; note "internal stop"; product "MHS family MFS transporter"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1718651 1718653 . - 0 gene_id "ECDH10B_RS08580"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000582800.1"; locus_tag "ECDH10B_RS08580"; note "internal stop"; product "MHS family MFS transporter"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 1720539 1720652 . + . gene_id "ECDH10B_RS25995"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS25995"; -NC_010473.1 Protein Homology CDS 1720539 1720649 . + 0 gene_id "ECDH10B_RS25995"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_009518779.1"; locus_tag "ECDH10B_RS25995"; product "hypothetical protein"; protein_id "WP_120795384.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1720539 1720541 . + 0 gene_id "ECDH10B_RS25995"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_009518779.1"; locus_tag "ECDH10B_RS25995"; product "hypothetical protein"; protein_id "WP_120795384.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1720650 1720652 . + 0 gene_id "ECDH10B_RS25995"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_009518779.1"; locus_tag "ECDH10B_RS25995"; product "hypothetical protein"; protein_id "WP_120795384.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1720721 1720954 . + . gene_id "ECDH10B_RS08585"; transcript_id ""; gbkey "Gene"; gene "ydfK"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08585"; old_locus_tag "ECDH10B_1675"; -NC_010473.1 Protein Homology CDS 1720721 1720951 . + 0 gene_id "ECDH10B_RS08585"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ydfK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416062.2"; locus_tag "ECDH10B_RS08585"; product "cold shock protein YdfK"; protein_id "WP_000836768.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1720721 1720723 . + 0 gene_id "ECDH10B_RS08585"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ydfK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416062.2"; locus_tag "ECDH10B_RS08585"; product "cold shock protein YdfK"; protein_id "WP_000836768.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1720952 1720954 . + 0 gene_id "ECDH10B_RS08585"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ydfK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416062.2"; locus_tag "ECDH10B_RS08585"; product "cold shock protein YdfK"; protein_id "WP_000836768.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1721271 1721861 . + . gene_id "ECDH10B_RS08590"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08590"; old_locus_tag "ECDH10B_1676"; -NC_010473.1 Protein Homology CDS 1721271 1721858 . + 0 gene_id "ECDH10B_RS08590"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416063.1"; locus_tag "ECDH10B_RS08590"; product "recombinase family protein"; protein_id "WP_000078177.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1721271 1721273 . + 0 gene_id "ECDH10B_RS08590"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416063.1"; locus_tag "ECDH10B_RS08590"; product "recombinase family protein"; protein_id "WP_000078177.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1721859 1721861 . + 0 gene_id "ECDH10B_RS08590"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416063.1"; locus_tag "ECDH10B_RS08590"; product "recombinase family protein"; protein_id "WP_000078177.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1721959 1722534 . - . gene_id "ECDH10B_RS08595"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08595"; old_locus_tag "ECDH10B_1677"; -NC_010473.1 Protein Homology CDS 1721962 1722534 . - 0 gene_id "ECDH10B_RS08595"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416064.1"; locus_tag "ECDH10B_RS08595"; product "tail fiber assembly protein"; protein_id "WP_000885611.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1722532 1722534 . - 0 gene_id "ECDH10B_RS08595"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416064.1"; locus_tag "ECDH10B_RS08595"; product "tail fiber assembly protein"; protein_id "WP_000885611.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1721959 1721961 . - 0 gene_id "ECDH10B_RS08595"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416064.1"; locus_tag "ECDH10B_RS08595"; product "tail fiber assembly protein"; protein_id "WP_000885611.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1722534 1723496 . - . gene_id "ECDH10B_RS08600"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08600"; old_locus_tag "ECDH10B_1678"; -NC_010473.1 Protein Homology CDS 1722537 1723496 . - 0 gene_id "ECDH10B_RS08600"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416065.1"; locus_tag "ECDH10B_RS08600"; product "tail fiber protein"; protein_id "WP_001027733.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1723494 1723496 . - 0 gene_id "ECDH10B_RS08600"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416065.1"; locus_tag "ECDH10B_RS08600"; product "tail fiber protein"; protein_id "WP_001027733.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1722534 1722536 . - 0 gene_id "ECDH10B_RS08600"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416065.1"; locus_tag "ECDH10B_RS08600"; product "tail fiber protein"; protein_id "WP_001027733.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1723447 1724016 . - . gene_id "ECDH10B_RS08605"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08605"; old_locus_tag "ECDH10B_1679"; -NC_010473.1 Protein Homology CDS 1723450 1724016 . - 0 gene_id "ECDH10B_RS08605"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_009518788.1"; locus_tag "ECDH10B_RS08605"; product "DNA-packaging protein"; protein_id "WP_000453612.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1724014 1724016 . - 0 gene_id "ECDH10B_RS08605"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_009518788.1"; locus_tag "ECDH10B_RS08605"; product "DNA-packaging protein"; protein_id "WP_000453612.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1723447 1723449 . - 0 gene_id "ECDH10B_RS08605"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_009518788.1"; locus_tag "ECDH10B_RS08605"; product "DNA-packaging protein"; protein_id "WP_000453612.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1724405 1724638 . + . gene_id "ECDH10B_RS08610"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08610"; old_locus_tag "ECDH10B_1680"; -NC_010473.1 Protein Homology CDS 1724405 1724635 . + 0 gene_id "ECDH10B_RS08610"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_588454.1"; locus_tag "ECDH10B_RS08610"; product "YlcI/YnfO family protein"; protein_id "WP_001368374.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1724405 1724407 . + 0 gene_id "ECDH10B_RS08610"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_588454.1"; locus_tag "ECDH10B_RS08610"; product "YlcI/YnfO family protein"; protein_id "WP_001368374.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1724636 1724638 . + 0 gene_id "ECDH10B_RS08610"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_588454.1"; locus_tag "ECDH10B_RS08610"; product "YlcI/YnfO family protein"; protein_id "WP_001368374.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1724696 1725106 . + . gene_id "ECDH10B_RS08615"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08615"; old_locus_tag "ECDH10B_1681"; -NC_010473.1 Protein Homology CDS 1724696 1725103 . + 0 gene_id "ECDH10B_RS08615"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416067.2"; locus_tag "ECDH10B_RS08615"; product "DUF1398 domain-containing protein"; protein_id "WP_000373090.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1724696 1724698 . + 0 gene_id "ECDH10B_RS08615"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416067.2"; locus_tag "ECDH10B_RS08615"; product "DUF1398 domain-containing protein"; protein_id "WP_000373090.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1725104 1725106 . + 0 gene_id "ECDH10B_RS08615"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416067.2"; locus_tag "ECDH10B_RS08615"; product "DUF1398 domain-containing protein"; protein_id "WP_000373090.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1725258 1725431 . - . gene_id "ECDH10B_RS08620"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08620"; old_locus_tag "ECDH10B_1682"; -NC_010473.1 Protein Homology CDS 1725261 1725431 . - 0 gene_id "ECDH10B_RS08620"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416068.2"; locus_tag "ECDH10B_RS08620"; product "addiction module toxin, GnsA/GnsB family"; protein_id "WP_001019606.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1725429 1725431 . - 0 gene_id "ECDH10B_RS08620"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416068.2"; locus_tag "ECDH10B_RS08620"; product "addiction module toxin, GnsA/GnsB family"; protein_id "WP_001019606.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1725258 1725260 . - 0 gene_id "ECDH10B_RS08620"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416068.2"; locus_tag "ECDH10B_RS08620"; product "addiction module toxin, GnsA/GnsB family"; protein_id "WP_001019606.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1725603 1725758 . - . gene_id "ECDH10B_RS08625"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08625"; old_locus_tag "ECDH10B_1683"; -NC_010473.1 Protein Homology CDS 1725606 1725758 . - 0 gene_id "ECDH10B_RS08625"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416069.2"; locus_tag "ECDH10B_RS08625"; product "hypothetical protein"; protein_id "WP_001309517.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1725756 1725758 . - 0 gene_id "ECDH10B_RS08625"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416069.2"; locus_tag "ECDH10B_RS08625"; product "hypothetical protein"; protein_id "WP_001309517.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1725603 1725605 . - 0 gene_id "ECDH10B_RS08625"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416069.2"; locus_tag "ECDH10B_RS08625"; product "hypothetical protein"; protein_id "WP_001309517.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1725837 1725902 . - . gene_id "ECDH10B_RS26000"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS26000"; -NC_010473.1 Protein Homology CDS 1725840 1725902 . - 0 gene_id "ECDH10B_RS26000"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_009518789.1"; locus_tag "ECDH10B_RS26000"; product "hypothetical protein"; protein_id "WP_120795388.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1725900 1725902 . - 0 gene_id "ECDH10B_RS26000"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_009518789.1"; locus_tag "ECDH10B_RS26000"; product "hypothetical protein"; protein_id "WP_120795388.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1725837 1725839 . - 0 gene_id "ECDH10B_RS26000"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_009518789.1"; locus_tag "ECDH10B_RS26000"; product "hypothetical protein"; protein_id "WP_120795388.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1725905 1726093 . - . gene_id "ECDH10B_RS24160"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS24160"; -NC_010473.1 Protein Homology CDS 1725908 1726093 . - 0 gene_id "ECDH10B_RS24160"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_009518790.1"; locus_tag "ECDH10B_RS24160"; product "cold-shock protein"; protein_id "WP_071524604.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1726091 1726093 . - 0 gene_id "ECDH10B_RS24160"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_009518790.1"; locus_tag "ECDH10B_RS24160"; product "cold-shock protein"; protein_id "WP_071524604.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1725905 1725907 . - 0 gene_id "ECDH10B_RS24160"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_009518790.1"; locus_tag "ECDH10B_RS24160"; product "cold-shock protein"; protein_id "WP_071524604.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1726104 1726316 . - . gene_id "ECDH10B_RS08630"; transcript_id ""; gbkey "Gene"; gene "cspI"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08630"; old_locus_tag "ECDH10B_1684"; -NC_010473.1 Protein Homology CDS 1726107 1726316 . - 0 gene_id "ECDH10B_RS08630"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cspI"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416070.1"; locus_tag "ECDH10B_RS08630"; product "cold shock protein CspI"; protein_id "WP_000066495.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1726314 1726316 . - 0 gene_id "ECDH10B_RS08630"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cspI"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416070.1"; locus_tag "ECDH10B_RS08630"; product "cold shock protein CspI"; protein_id "WP_000066495.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1726104 1726106 . - 0 gene_id "ECDH10B_RS08630"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cspI"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416070.1"; locus_tag "ECDH10B_RS08630"; product "cold shock protein CspI"; protein_id "WP_000066495.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1726679 1727176 . - . gene_id "ECDH10B_RS08635"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08635"; old_locus_tag "ECDH10B_1685"; -NC_010473.1 Protein Homology CDS 1726682 1727176 . - 0 gene_id "ECDH10B_RS08635"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416071.1"; locus_tag "ECDH10B_RS08635"; product "DUF2514 domain-containing protein"; protein_id "WP_001071769.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1727174 1727176 . - 0 gene_id "ECDH10B_RS08635"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416071.1"; locus_tag "ECDH10B_RS08635"; product "DUF2514 domain-containing protein"; protein_id "WP_001071769.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1726679 1726681 . - 0 gene_id "ECDH10B_RS08635"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416071.1"; locus_tag "ECDH10B_RS08635"; product "DUF2514 domain-containing protein"; protein_id "WP_001071769.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1727173 1727706 . - . gene_id "ECDH10B_RS08640"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08640"; old_locus_tag "ECDH10B_1686"; -NC_010473.1 Protein Homology CDS 1727176 1727706 . - 0 gene_id "ECDH10B_RS08640"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416072.1"; locus_tag "ECDH10B_RS08640"; product "lysozyme"; protein_id "WP_001092971.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1727704 1727706 . - 0 gene_id "ECDH10B_RS08640"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416072.1"; locus_tag "ECDH10B_RS08640"; product "lysozyme"; protein_id "WP_001092971.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1727173 1727175 . - 0 gene_id "ECDH10B_RS08640"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416072.1"; locus_tag "ECDH10B_RS08640"; product "lysozyme"; protein_id "WP_001092971.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1727703 1728014 . - . gene_id "ECDH10B_RS08645"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08645"; old_locus_tag "ECDH10B_1687"; -NC_010473.1 Protein Homology CDS 1727706 1728014 . - 0 gene_id "ECDH10B_RS08645"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416073.1"; locus_tag "ECDH10B_RS08645"; product "YdfR family protein"; protein_id "WP_000189916.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1728012 1728014 . - 0 gene_id "ECDH10B_RS08645"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416073.1"; locus_tag "ECDH10B_RS08645"; product "YdfR family protein"; protein_id "WP_000189916.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1727703 1727705 . - 0 gene_id "ECDH10B_RS08645"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416073.1"; locus_tag "ECDH10B_RS08645"; product "YdfR family protein"; protein_id "WP_000189916.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1728019 1728234 . - . gene_id "ECDH10B_RS08650"; transcript_id ""; gbkey "Gene"; gene "essD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08650"; old_locus_tag "ECDH10B_1688"; -NC_010473.1 Protein Homology CDS 1728022 1728234 . - 0 gene_id "ECDH10B_RS08650"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "essD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416074.4"; locus_tag "ECDH10B_RS08650"; product "phage lysis protein EssD"; protein_id "WP_000839590.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1728232 1728234 . - 0 gene_id "ECDH10B_RS08650"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "essD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416074.4"; locus_tag "ECDH10B_RS08650"; product "phage lysis protein EssD"; protein_id "WP_000839590.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1728019 1728021 . - 0 gene_id "ECDH10B_RS08650"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "essD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416074.4"; locus_tag "ECDH10B_RS08650"; product "phage lysis protein EssD"; protein_id "WP_000839590.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1728988 1729203 . - . gene_id "ECDH10B_RS08655"; transcript_id ""; gbkey "Gene"; gene "cspB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08655"; old_locus_tag "ECDH10B_1689"; -NC_010473.1 Protein Homology CDS 1728991 1729203 . - 0 gene_id "ECDH10B_RS08655"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cspB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416075.1"; locus_tag "ECDH10B_RS08655"; product "cold shock-like protein CspB"; protein_id "WP_000066484.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1729201 1729203 . - 0 gene_id "ECDH10B_RS08655"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cspB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416075.1"; locus_tag "ECDH10B_RS08655"; product "cold shock-like protein CspB"; protein_id "WP_000066484.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1728988 1728990 . - 0 gene_id "ECDH10B_RS08655"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cspB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416075.1"; locus_tag "ECDH10B_RS08655"; product "cold shock-like protein CspB"; protein_id "WP_000066484.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1729504 1729716 . + . gene_id "ECDH10B_RS08660"; transcript_id ""; gbkey "Gene"; gene "cspF"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08660"; old_locus_tag "ECDH10B_1690"; -NC_010473.1 Protein Homology CDS 1729504 1729713 . + 0 gene_id "ECDH10B_RS08660"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cspF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416076.1"; locus_tag "ECDH10B_RS08660"; product "cold shock-like protein CspF"; protein_id "WP_000087756.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1729504 1729506 . + 0 gene_id "ECDH10B_RS08660"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cspF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416076.1"; locus_tag "ECDH10B_RS08660"; product "cold shock-like protein CspF"; protein_id "WP_000087756.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1729714 1729716 . + 0 gene_id "ECDH10B_RS08660"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cspF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416076.1"; locus_tag "ECDH10B_RS08660"; product "cold shock-like protein CspF"; protein_id "WP_000087756.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1729771 1729860 . + . gene_id "ECDH10B_RS26005"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS26005"; -NC_010473.1 Protein Homology CDS 1729771 1729857 . + 0 gene_id "ECDH10B_RS26005"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_009518791.1"; locus_tag "ECDH10B_RS26005"; product "hypothetical protein"; protein_id "WP_120795389.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1729771 1729773 . + 0 gene_id "ECDH10B_RS26005"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_009518791.1"; locus_tag "ECDH10B_RS26005"; product "hypothetical protein"; protein_id "WP_120795389.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1729858 1729860 . + 0 gene_id "ECDH10B_RS26005"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_009518791.1"; locus_tag "ECDH10B_RS26005"; product "hypothetical protein"; protein_id "WP_120795389.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1730138 1730890 . - . gene_id "ECDH10B_RS08665"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08665"; old_locus_tag "ECDH10B_1691"; -NC_010473.1 Protein Homology CDS 1730141 1730890 . - 0 gene_id "ECDH10B_RS08665"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416077.4"; locus_tag "ECDH10B_RS08665"; product "antitermination protein"; protein_id "WP_001047135.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1730888 1730890 . - 0 gene_id "ECDH10B_RS08665"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416077.4"; locus_tag "ECDH10B_RS08665"; product "antitermination protein"; protein_id "WP_001047135.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1730138 1730140 . - 0 gene_id "ECDH10B_RS08665"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416077.4"; locus_tag "ECDH10B_RS08665"; product "antitermination protein"; protein_id "WP_001047135.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1730904 1731953 . - . gene_id "ECDH10B_RS08670"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08670"; -NC_010473.1 Protein Homology CDS 1730907 1731953 . - 0 gene_id "ECDH10B_RS08670"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416078.4"; locus_tag "ECDH10B_RS08670"; product "DUF968 domain-containing protein"; protein_id "WP_001265198.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1731951 1731953 . - 0 gene_id "ECDH10B_RS08670"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416078.4"; locus_tag "ECDH10B_RS08670"; product "DUF968 domain-containing protein"; protein_id "WP_001265198.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1730904 1730906 . - 0 gene_id "ECDH10B_RS08670"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416078.4"; locus_tag "ECDH10B_RS08670"; product "DUF968 domain-containing protein"; protein_id "WP_001265198.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1731955 1732233 . - . gene_id "ECDH10B_RS08675"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08675"; -NC_010473.1 Protein Homology CDS 1731958 1732233 . - 0 gene_id "ECDH10B_RS08675"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309802.1"; locus_tag "ECDH10B_RS08675"; product "hypothetical protein"; protein_id "WP_012304870.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1732231 1732233 . - 0 gene_id "ECDH10B_RS08675"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309802.1"; locus_tag "ECDH10B_RS08675"; product "hypothetical protein"; protein_id "WP_012304870.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1731955 1731957 . - 0 gene_id "ECDH10B_RS08675"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309802.1"; locus_tag "ECDH10B_RS08675"; product "hypothetical protein"; protein_id "WP_012304870.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1732300 1732551 . - . gene_id "ECDH10B_RS08680"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08680"; old_locus_tag "ECDH10B_1693"; -NC_010473.1 Protein Homology CDS 1732303 1732551 . - 0 gene_id "ECDH10B_RS08680"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416079.1"; locus_tag "ECDH10B_RS08680"; product "hypothetical protein"; protein_id "WP_000980994.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1732549 1732551 . - 0 gene_id "ECDH10B_RS08680"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416079.1"; locus_tag "ECDH10B_RS08680"; product "hypothetical protein"; protein_id "WP_000980994.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1732300 1732302 . - 0 gene_id "ECDH10B_RS08680"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416079.1"; locus_tag "ECDH10B_RS08680"; product "hypothetical protein"; protein_id "WP_000980994.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1732768 1732923 . - . gene_id "ECDH10B_RS08685"; transcript_id ""; gbkey "Gene"; gene "hokD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08685"; old_locus_tag "ECDH10B_1694"; -NC_010473.1 Protein Homology CDS 1732771 1732923 . - 0 gene_id "ECDH10B_RS08685"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hokD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416080.1"; locus_tag "ECDH10B_RS08685"; product "type I toxin-antitoxin system toxin HokD"; protein_id "WP_000813254.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1732921 1732923 . - 0 gene_id "ECDH10B_RS08685"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hokD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416080.1"; locus_tag "ECDH10B_RS08685"; product "type I toxin-antitoxin system toxin HokD"; protein_id "WP_000813254.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1732768 1732770 . - 0 gene_id "ECDH10B_RS08685"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hokD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416080.1"; locus_tag "ECDH10B_RS08685"; product "type I toxin-antitoxin system toxin HokD"; protein_id "WP_000813254.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1732995 1733282 . - . gene_id "ECDH10B_RS08690"; transcript_id ""; gbkey "Gene"; gene "relE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08690"; old_locus_tag "ECDH10B_1695"; -NC_010473.1 Protein Homology CDS 1732998 1733282 . - 0 gene_id "ECDH10B_RS08690"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "relE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416081.1"; locus_tag "ECDH10B_RS08690"; product "type II toxin-antitoxin system mRNA interferase RelE"; protein_id "WP_000323025.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1733280 1733282 . - 0 gene_id "ECDH10B_RS08690"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "relE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416081.1"; locus_tag "ECDH10B_RS08690"; product "type II toxin-antitoxin system mRNA interferase RelE"; protein_id "WP_000323025.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1732995 1732997 . - 0 gene_id "ECDH10B_RS08690"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "relE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416081.1"; locus_tag "ECDH10B_RS08690"; product "type II toxin-antitoxin system mRNA interferase RelE"; protein_id "WP_000323025.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1733282 1733521 . - . gene_id "ECDH10B_RS08695"; transcript_id ""; gbkey "Gene"; gene "relB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08695"; old_locus_tag "ECDH10B_1696"; -NC_010473.1 Protein Homology CDS 1733285 1733521 . - 0 gene_id "ECDH10B_RS08695"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "relB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416082.1"; locus_tag "ECDH10B_RS08695"; product "type II toxin-antitoxin system antitoxin RelB"; protein_id "WP_000534858.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1733519 1733521 . - 0 gene_id "ECDH10B_RS08695"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "relB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416082.1"; locus_tag "ECDH10B_RS08695"; product "type II toxin-antitoxin system antitoxin RelB"; protein_id "WP_000534858.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1733282 1733284 . - 0 gene_id "ECDH10B_RS08695"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "relB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416082.1"; locus_tag "ECDH10B_RS08695"; product "type II toxin-antitoxin system antitoxin RelB"; protein_id "WP_000534858.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1733546 1733851 . + . gene_id "ECDH10B_RS24165"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS24165"; old_locus_tag "ECDH10B_1697"; -NC_010473.1 Protein Homology CDS 1733546 1733848 . + 0 gene_id "ECDH10B_RS24165"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416083.1"; locus_tag "ECDH10B_RS24165"; product "hypothetical protein"; protein_id "WP_001326990.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1733546 1733548 . + 0 gene_id "ECDH10B_RS24165"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416083.1"; locus_tag "ECDH10B_RS24165"; product "hypothetical protein"; protein_id "WP_001326990.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1733849 1733851 . + 0 gene_id "ECDH10B_RS24165"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416083.1"; locus_tag "ECDH10B_RS24165"; product "hypothetical protein"; protein_id "WP_001326990.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1734054 1734386 . + . gene_id "ECDH10B_RS08700"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08700"; old_locus_tag "ECDH10B_1698"; -NC_010473.1 Protein Homology CDS 1734054 1734383 . + 0 gene_id "ECDH10B_RS08700"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416084.1"; locus_tag "ECDH10B_RS08700"; product "protein FlxA"; protein_id "WP_001301033.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1734054 1734056 . + 0 gene_id "ECDH10B_RS08700"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416084.1"; locus_tag "ECDH10B_RS08700"; product "protein FlxA"; protein_id "WP_001301033.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1734384 1734386 . + 0 gene_id "ECDH10B_RS08700"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416084.1"; locus_tag "ECDH10B_RS08700"; product "protein FlxA"; protein_id "WP_001301033.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1734823 1734972 . - . gene_id "ECDH10B_RS23370"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS23370"; old_locus_tag "ECDH10B_1699"; -NC_010473.1 Protein Homology CDS 1734826 1734972 . - 0 gene_id "ECDH10B_RS23370"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_009518792.1"; locus_tag "ECDH10B_RS23370"; product "hypothetical protein"; protein_id "WP_011443592.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1734970 1734972 . - 0 gene_id "ECDH10B_RS23370"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_009518792.1"; locus_tag "ECDH10B_RS23370"; product "hypothetical protein"; protein_id "WP_011443592.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1734823 1734825 . - 0 gene_id "ECDH10B_RS23370"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_009518792.1"; locus_tag "ECDH10B_RS23370"; product "hypothetical protein"; protein_id "WP_011443592.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1735007 1735285 . - . gene_id "ECDH10B_RS08705"; transcript_id ""; gbkey "Gene"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS08705"; old_locus_tag "ECDH10B_1700"; partial "true"; pseudo "true"; -NC_010473.1 Protein Homology CDS 1735010 1735285 . - 0 gene_id "ECDH10B_RS08705"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309794.1"; locus_tag "ECDH10B_RS08705"; note "incomplete; partial in the middle of a contig; missing C-terminus"; partial "true"; product "hypothetical protein"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1735283 1735285 . - 0 gene_id "ECDH10B_RS08705"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309794.1"; locus_tag "ECDH10B_RS08705"; note "incomplete; partial in the middle of a contig; missing C-terminus"; partial "true"; product "hypothetical protein"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1735007 1735009 . - 0 gene_id "ECDH10B_RS08705"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309794.1"; locus_tag "ECDH10B_RS08705"; note "incomplete; partial in the middle of a contig; missing C-terminus"; partial "true"; product "hypothetical protein"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 1735269 1735499 . - . gene_id "ECDH10B_RS08710"; transcript_id ""; gbkey "Gene"; gene "dicC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08710"; old_locus_tag "ECDH10B_1701"; -NC_010473.1 Protein Homology CDS 1735272 1735499 . - 0 gene_id "ECDH10B_RS08710"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dicC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416087.1"; locus_tag "ECDH10B_RS08710"; product "dicB transcriptional regulator DicC"; protein_id "WP_000920568.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1735497 1735499 . - 0 gene_id "ECDH10B_RS08710"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dicC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416087.1"; locus_tag "ECDH10B_RS08710"; product "dicB transcriptional regulator DicC"; protein_id "WP_000920568.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1735269 1735271 . - 0 gene_id "ECDH10B_RS08710"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dicC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416087.1"; locus_tag "ECDH10B_RS08710"; product "dicB transcriptional regulator DicC"; protein_id "WP_000920568.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1735583 1735990 . + . gene_id "ECDH10B_RS08715"; transcript_id ""; gbkey "Gene"; gene "dicA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08715"; old_locus_tag "ECDH10B_1702"; -NC_010473.1 Protein Homology CDS 1735583 1735987 . + 0 gene_id "ECDH10B_RS08715"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dicA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416088.1"; locus_tag "ECDH10B_RS08715"; product "DNA-binding transcriptional dual regulator DicA"; protein_id "WP_000448564.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1735583 1735585 . + 0 gene_id "ECDH10B_RS08715"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dicA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416088.1"; locus_tag "ECDH10B_RS08715"; product "DNA-binding transcriptional dual regulator DicA"; protein_id "WP_000448564.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1735988 1735990 . + 0 gene_id "ECDH10B_RS08715"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dicA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416088.1"; locus_tag "ECDH10B_RS08715"; product "DNA-binding transcriptional dual regulator DicA"; protein_id "WP_000448564.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1736157 1736312 . + . gene_id "ECDH10B_RS08720"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08720"; old_locus_tag "ECDH10B_1703"; -NC_010473.1 Protein Homology CDS 1736157 1736309 . + 0 gene_id "ECDH10B_RS08720"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309092.1"; locus_tag "ECDH10B_RS08720"; product "DUF1391 family protein"; protein_id "WP_000379575.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1736157 1736159 . + 0 gene_id "ECDH10B_RS08720"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309092.1"; locus_tag "ECDH10B_RS08720"; product "DUF1391 family protein"; protein_id "WP_000379575.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1736310 1736312 . + 0 gene_id "ECDH10B_RS08720"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_309092.1"; locus_tag "ECDH10B_RS08720"; product "DUF1391 family protein"; protein_id "WP_000379575.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1736472 1736690 . + . gene_id "ECDH10B_RS08725"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08725"; old_locus_tag "ECDH10B_1705"; -NC_010473.1 Protein Homology CDS 1736472 1736687 . + 0 gene_id "ECDH10B_RS08725"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416091.1"; locus_tag "ECDH10B_RS08725"; product "hypothetical protein"; protein_id "WP_001171942.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1736472 1736474 . + 0 gene_id "ECDH10B_RS08725"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416091.1"; locus_tag "ECDH10B_RS08725"; product "hypothetical protein"; protein_id "WP_001171942.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1736688 1736690 . + 0 gene_id "ECDH10B_RS08725"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416091.1"; locus_tag "ECDH10B_RS08725"; product "hypothetical protein"; protein_id "WP_001171942.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1737258 1737446 . + . gene_id "ECDH10B_RS08735"; transcript_id ""; gbkey "Gene"; gene "dicB"; gene_biotype "protein_coding"; gene_synonym "ftsT"; locus_tag "ECDH10B_RS08735"; old_locus_tag "ECDH10B_1707"; -NC_010473.1 Protein Homology CDS 1737258 1737443 . + 0 gene_id "ECDH10B_RS08735"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dicB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416092.1"; locus_tag "ECDH10B_RS08735"; product "cell division inhibition protein DicB"; protein_id "WP_000854559.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1737258 1737260 . + 0 gene_id "ECDH10B_RS08735"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dicB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416092.1"; locus_tag "ECDH10B_RS08735"; product "cell division inhibition protein DicB"; protein_id "WP_000854559.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1737444 1737446 . + 0 gene_id "ECDH10B_RS08735"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dicB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416092.1"; locus_tag "ECDH10B_RS08735"; product "cell division inhibition protein DicB"; protein_id "WP_000854559.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1737443 1737634 . + . gene_id "ECDH10B_RS08740"; transcript_id ""; gbkey "Gene"; gene "ydfD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08740"; old_locus_tag "ECDH10B_1708"; -NC_010473.1 Protein Homology CDS 1737443 1737631 . + 0 gene_id "ECDH10B_RS08740"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ydfD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416093.1"; locus_tag "ECDH10B_RS08740"; product "lysis protein YdfD"; protein_id "WP_001083297.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1737443 1737445 . + 0 gene_id "ECDH10B_RS08740"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ydfD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416093.1"; locus_tag "ECDH10B_RS08740"; product "lysis protein YdfD"; protein_id "WP_001083297.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1737632 1737634 . + 0 gene_id "ECDH10B_RS08740"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ydfD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416093.1"; locus_tag "ECDH10B_RS08740"; product "lysis protein YdfD"; protein_id "WP_001083297.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1737727 1738494 . + . gene_id "ECDH10B_RS24180"; transcript_id ""; gbkey "Gene"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS24180"; old_locus_tag "ECDH10B_1709"; partial "true"; pseudo "true"; -NC_010473.1 Protein Homology CDS 1737727 1738491 . + 0 gene_id "ECDH10B_RS24180"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310313.1"; locus_tag "ECDH10B_RS24180"; note "incomplete; partial in the middle of a contig; missing C-terminus"; partial "true"; product "exonuclease"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1737727 1737729 . + 0 gene_id "ECDH10B_RS24180"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310313.1"; locus_tag "ECDH10B_RS24180"; note "incomplete; partial in the middle of a contig; missing C-terminus"; partial "true"; product "exonuclease"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1738492 1738494 . + 0 gene_id "ECDH10B_RS24180"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310313.1"; locus_tag "ECDH10B_RS24180"; note "incomplete; partial in the middle of a contig; missing C-terminus"; partial "true"; product "exonuclease"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 1738491 1739186 . + . gene_id "ECDH10B_RS08750"; transcript_id ""; gbkey "Gene"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS08750"; old_locus_tag "ECDH10B_1710"; partial "true"; pseudo "true"; -NC_010473.1 Protein Homology CDS 1738491 1739183 . + 0 gene_id "ECDH10B_RS08750"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_076611434.1"; locus_tag "ECDH10B_RS08750"; note "incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "IS3-like element IS2 family transposase"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1738491 1738493 . + 0 gene_id "ECDH10B_RS08750"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_076611434.1"; locus_tag "ECDH10B_RS08750"; note "incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "IS3-like element IS2 family transposase"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1739184 1739186 . + 0 gene_id "ECDH10B_RS08750"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_076611434.1"; locus_tag "ECDH10B_RS08750"; note "incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "IS3-like element IS2 family transposase"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 1739200 1739505 . + . gene_id "ECDH10B_RS26015"; transcript_id ""; gbkey "Gene"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS26015"; partial "true"; pseudo "true"; -NC_010473.1 Protein Homology CDS 1739200 1739502 . + 0 gene_id "ECDH10B_RS26015"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001686441.1"; locus_tag "ECDH10B_RS26015"; note "incomplete; partial in the middle of a contig; missing N-terminus and C-terminus"; partial "true"; product "DUF3596 domain-containing protein"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1739200 1739202 . + 0 gene_id "ECDH10B_RS26015"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001686441.1"; locus_tag "ECDH10B_RS26015"; note "incomplete; partial in the middle of a contig; missing N-terminus and C-terminus"; partial "true"; product "DUF3596 domain-containing protein"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1739503 1739505 . + 0 gene_id "ECDH10B_RS26015"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001686441.1"; locus_tag "ECDH10B_RS26015"; note "incomplete; partial in the middle of a contig; missing N-terminus and C-terminus"; partial "true"; product "DUF3596 domain-containing protein"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 1739516 1740744 . - . gene_id "ECDH10B_RS24190"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS24190"; -NC_010473.1 Protein Homology CDS 1740429 1740744 . - 0 gene_id "ECDH10B_RS24190"; transcript_id "unknown_transcript_1"; exception "ribosomal slippage"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_086558215.1"; locus_tag "ECDH10B_RS24190"; note "programmed frameshift"; product "IS3-like element IS2 family transposase"; protein_id "WP_088895425.1"; transl_table "11"; -NC_010473.1 Protein Homology CDS 1739519 1740429 . - 0 gene_id "ECDH10B_RS24190"; transcript_id "unknown_transcript_1"; exception "ribosomal slippage"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_086558215.1"; locus_tag "ECDH10B_RS24190"; note "programmed frameshift"; product "IS3-like element IS2 family transposase"; protein_id "WP_088895425.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1740742 1740744 . - 0 gene_id "ECDH10B_RS24190"; transcript_id "unknown_transcript_1"; exception "ribosomal slippage"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_086558215.1"; locus_tag "ECDH10B_RS24190"; note "programmed frameshift"; product "IS3-like element IS2 family transposase"; protein_id "WP_088895425.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1739516 1739518 . - 0 gene_id "ECDH10B_RS24190"; transcript_id "unknown_transcript_1"; exception "ribosomal slippage"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_086558215.1"; locus_tag "ECDH10B_RS24190"; note "programmed frameshift"; product "IS3-like element IS2 family transposase"; protein_id "WP_088895425.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1740836 1741693 . + . gene_id "ECDH10B_RS08770"; transcript_id ""; gbkey "Gene"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS08770"; partial "true"; pseudo "true"; -NC_010473.1 Protein Homology CDS 1740836 1741690 . + 0 gene_id "ECDH10B_RS08770"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001686441.1"; locus_tag "ECDH10B_RS08770"; note "incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "site-specific integrase"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1740836 1740838 . + 0 gene_id "ECDH10B_RS08770"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001686441.1"; locus_tag "ECDH10B_RS08770"; note "incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "site-specific integrase"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1741691 1741693 . + 0 gene_id "ECDH10B_RS08770"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001686441.1"; locus_tag "ECDH10B_RS08770"; note "incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "site-specific integrase"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 1741713 1741823 . - . gene_id "ECDH10B_RS25520"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS25520"; -NC_010473.1 Protein Homology CDS 1741716 1741823 . - 0 gene_id "ECDH10B_RS25520"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_009518794.1"; locus_tag "ECDH10B_RS25520"; product "hypothetical protein"; protein_id "WP_001360138.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1741821 1741823 . - 0 gene_id "ECDH10B_RS25520"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_009518794.1"; locus_tag "ECDH10B_RS25520"; product "hypothetical protein"; protein_id "WP_001360138.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1741713 1741715 . - 0 gene_id "ECDH10B_RS25520"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_009518794.1"; locus_tag "ECDH10B_RS25520"; product "hypothetical protein"; protein_id "WP_001360138.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1741881 1742900 . - . gene_id "ECDH10B_RS08775"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08775"; old_locus_tag "ECDH10B_1713"; -NC_010473.1 Protein Homology CDS 1741884 1742900 . - 0 gene_id "ECDH10B_RS08775"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416097.1"; locus_tag "ECDH10B_RS08775"; product "Zn-dependent oxidoreductase"; protein_id "WP_000836066.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1742898 1742900 . - 0 gene_id "ECDH10B_RS08775"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416097.1"; locus_tag "ECDH10B_RS08775"; product "Zn-dependent oxidoreductase"; protein_id "WP_000836066.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1741881 1741883 . - 0 gene_id "ECDH10B_RS08775"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416097.1"; locus_tag "ECDH10B_RS08775"; product "Zn-dependent oxidoreductase"; protein_id "WP_000836066.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1742912 1744126 . - . gene_id "ECDH10B_RS08780"; transcript_id ""; gbkey "Gene"; gene "rspA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08780"; old_locus_tag "ECDH10B_1714"; -NC_010473.1 Protein Homology CDS 1742915 1744126 . - 0 gene_id "ECDH10B_RS08780"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rspA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001625315.1"; locus_tag "ECDH10B_RS08780"; product "starvation-sensing protein RspA"; protein_id "WP_001295394.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1744124 1744126 . - 0 gene_id "ECDH10B_RS08780"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rspA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001625315.1"; locus_tag "ECDH10B_RS08780"; product "starvation-sensing protein RspA"; protein_id "WP_001295394.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1742912 1742914 . - 0 gene_id "ECDH10B_RS08780"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rspA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001625315.1"; locus_tag "ECDH10B_RS08780"; product "starvation-sensing protein RspA"; protein_id "WP_001295394.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1744332 1744658 . - . gene_id "ECDH10B_RS08785"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08785"; old_locus_tag "ECDH10B_1715"; -NC_010473.1 Protein Homology CDS 1744335 1744658 . - 0 gene_id "ECDH10B_RS08785"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416099.1"; locus_tag "ECDH10B_RS08785"; product "YnfA family protein"; protein_id "WP_000598292.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1744656 1744658 . - 0 gene_id "ECDH10B_RS08785"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416099.1"; locus_tag "ECDH10B_RS08785"; product "YnfA family protein"; protein_id "WP_000598292.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1744332 1744334 . - 0 gene_id "ECDH10B_RS08785"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416099.1"; locus_tag "ECDH10B_RS08785"; product "YnfA family protein"; protein_id "WP_000598292.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1744793 1745134 . + . gene_id "ECDH10B_RS08790"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08790"; old_locus_tag "ECDH10B_1716"; -NC_010473.1 Protein Homology CDS 1744793 1745131 . + 0 gene_id "ECDH10B_RS08790"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416100.1"; locus_tag "ECDH10B_RS08790"; product "DUF1283 family protein"; protein_id "WP_000705211.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1744793 1744795 . + 0 gene_id "ECDH10B_RS08790"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416100.1"; locus_tag "ECDH10B_RS08790"; product "DUF1283 family protein"; protein_id "WP_000705211.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1745132 1745134 . + 0 gene_id "ECDH10B_RS08790"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416100.1"; locus_tag "ECDH10B_RS08790"; product "DUF1283 family protein"; protein_id "WP_000705211.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1745169 1745729 . + . gene_id "ECDH10B_RS08795"; transcript_id ""; gbkey "Gene"; gene "speG"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08795"; old_locus_tag "ECDH10B_1717"; -NC_010473.1 Protein Homology CDS 1745169 1745726 . + 0 gene_id "ECDH10B_RS08795"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "speG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310317.1"; locus_tag "ECDH10B_RS08795"; product "spermidine N1-acetyltransferase"; protein_id "WP_001138581.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1745169 1745171 . + 0 gene_id "ECDH10B_RS08795"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "speG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310317.1"; locus_tag "ECDH10B_RS08795"; product "spermidine N1-acetyltransferase"; protein_id "WP_001138581.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1745727 1745729 . + 0 gene_id "ECDH10B_RS08795"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "speG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310317.1"; locus_tag "ECDH10B_RS08795"; product "spermidine N1-acetyltransferase"; protein_id "WP_001138581.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1745732 1746442 . - . gene_id "ECDH10B_RS08800"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08800"; old_locus_tag "ECDH10B_1718"; -NC_010473.1 Protein Homology CDS 1745735 1746442 . - 0 gene_id "ECDH10B_RS08800"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416102.2"; locus_tag "ECDH10B_RS08800"; product "YnfC family lipoprotein"; protein_id "WP_001321287.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1746440 1746442 . - 0 gene_id "ECDH10B_RS08800"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416102.2"; locus_tag "ECDH10B_RS08800"; product "YnfC family lipoprotein"; protein_id "WP_001321287.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1745732 1745734 . - 0 gene_id "ECDH10B_RS08800"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416102.2"; locus_tag "ECDH10B_RS08800"; product "YnfC family lipoprotein"; protein_id "WP_001321287.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1746550 1746855 . + . gene_id "ECDH10B_RS08805"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08805"; old_locus_tag "ECDH10B_1719"; -NC_010473.1 Protein Homology CDS 1746550 1746852 . + 0 gene_id "ECDH10B_RS08805"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416103.2"; locus_tag "ECDH10B_RS08805"; product "DUF1161 domain-containing protein"; protein_id "WP_001300836.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1746550 1746552 . + 0 gene_id "ECDH10B_RS08805"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416103.2"; locus_tag "ECDH10B_RS08805"; product "DUF1161 domain-containing protein"; protein_id "WP_001300836.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1746853 1746855 . + 0 gene_id "ECDH10B_RS08805"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416103.2"; locus_tag "ECDH10B_RS08805"; product "DUF1161 domain-containing protein"; protein_id "WP_001300836.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1747054 1749480 . + . gene_id "ECDH10B_RS08810"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08810"; old_locus_tag "ECDH10B_1720"; -NC_010473.1 Protein Homology CDS 1747054 1749477 . + 0 gene_id "ECDH10B_RS08810"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416104.1"; locus_tag "ECDH10B_RS08810"; product "dimethyl sulfoxide reductase subunit A"; protein_id "WP_000041675.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1747054 1747056 . + 0 gene_id "ECDH10B_RS08810"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416104.1"; locus_tag "ECDH10B_RS08810"; product "dimethyl sulfoxide reductase subunit A"; protein_id "WP_000041675.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1749478 1749480 . + 0 gene_id "ECDH10B_RS08810"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416104.1"; locus_tag "ECDH10B_RS08810"; product "dimethyl sulfoxide reductase subunit A"; protein_id "WP_000041675.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1749541 1751964 . + . gene_id "ECDH10B_RS08815"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08815"; old_locus_tag "ECDH10B_1721"; -NC_010473.1 Protein Homology CDS 1749541 1751961 . + 0 gene_id "ECDH10B_RS08815"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416105.4"; locus_tag "ECDH10B_RS08815"; product "dimethyl sulfoxide reductase subunit A"; protein_id "WP_001340362.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1749541 1749543 . + 0 gene_id "ECDH10B_RS08815"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416105.4"; locus_tag "ECDH10B_RS08815"; product "dimethyl sulfoxide reductase subunit A"; protein_id "WP_001340362.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1751962 1751964 . + 0 gene_id "ECDH10B_RS08815"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416105.4"; locus_tag "ECDH10B_RS08815"; product "dimethyl sulfoxide reductase subunit A"; protein_id "WP_001340362.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1751975 1752592 . + . gene_id "ECDH10B_RS08820"; transcript_id ""; gbkey "Gene"; gene "dmsB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08820"; old_locus_tag "ECDH10B_1722"; -NC_010473.1 Protein Homology CDS 1751975 1752589 . + 0 gene_id "ECDH10B_RS08820"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dmsB"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000213046.1"; locus_tag "ECDH10B_RS08820"; product "dimethylsulfoxide reductase subunit B"; protein_id "WP_000213028.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1751975 1751977 . + 0 gene_id "ECDH10B_RS08820"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dmsB"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000213046.1"; locus_tag "ECDH10B_RS08820"; product "dimethylsulfoxide reductase subunit B"; protein_id "WP_000213028.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1752590 1752592 . + 0 gene_id "ECDH10B_RS08820"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dmsB"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000213046.1"; locus_tag "ECDH10B_RS08820"; product "dimethylsulfoxide reductase subunit B"; protein_id "WP_000213028.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1752594 1753448 . + . gene_id "ECDH10B_RS08825"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08825"; old_locus_tag "ECDH10B_1723"; -NC_010473.1 Protein Homology CDS 1752594 1753445 . + 0 gene_id "ECDH10B_RS08825"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416107.1"; locus_tag "ECDH10B_RS08825"; product "dimethyl sulfoxide reductase anchor subunit"; protein_id "WP_000526503.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1752594 1752596 . + 0 gene_id "ECDH10B_RS08825"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416107.1"; locus_tag "ECDH10B_RS08825"; product "dimethyl sulfoxide reductase anchor subunit"; protein_id "WP_000526503.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1753446 1753448 . + 0 gene_id "ECDH10B_RS08825"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416107.1"; locus_tag "ECDH10B_RS08825"; product "dimethyl sulfoxide reductase anchor subunit"; protein_id "WP_000526503.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1753491 1754105 . + . gene_id "ECDH10B_RS08830"; transcript_id ""; gbkey "Gene"; gene "dmsD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08830"; old_locus_tag "ECDH10B_1724"; -NC_010473.1 Protein Homology CDS 1753491 1754102 . + 0 gene_id "ECDH10B_RS08830"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dmsD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_707489.2"; locus_tag "ECDH10B_RS08830"; product "Tat proofreading chaperone DmsD"; protein_id "WP_000148710.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1753491 1753493 . + 0 gene_id "ECDH10B_RS08830"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dmsD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_707489.2"; locus_tag "ECDH10B_RS08830"; product "Tat proofreading chaperone DmsD"; protein_id "WP_000148710.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1754103 1754105 . + 0 gene_id "ECDH10B_RS08830"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dmsD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_707489.2"; locus_tag "ECDH10B_RS08830"; product "Tat proofreading chaperone DmsD"; protein_id "WP_000148710.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1754264 1755556 . + . gene_id "ECDH10B_RS08835"; transcript_id ""; gbkey "Gene"; gene "clcB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08835"; old_locus_tag "ECDH10B_1725"; -NC_010473.1 Protein Homology CDS 1754264 1755553 . + 0 gene_id "ECDH10B_RS08835"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "clcB"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001296088.1"; locus_tag "ECDH10B_RS08835"; product "voltage-gated ClC-type chloride channel ClcB"; protein_id "WP_071592181.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1754264 1754266 . + 0 gene_id "ECDH10B_RS08835"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "clcB"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001296088.1"; locus_tag "ECDH10B_RS08835"; product "voltage-gated ClC-type chloride channel ClcB"; protein_id "WP_071592181.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1755554 1755556 . + 0 gene_id "ECDH10B_RS08835"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "clcB"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001296088.1"; locus_tag "ECDH10B_RS08835"; product "voltage-gated ClC-type chloride channel ClcB"; protein_id "WP_071592181.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1755509 1756204 . - . gene_id "ECDH10B_RS08840"; transcript_id ""; gbkey "Gene"; gene "bioD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08840"; old_locus_tag "ECDH10B_1726"; -NC_010473.1 Protein Homology CDS 1755512 1756204 . - 0 gene_id "ECDH10B_RS08840"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "bioD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310326.2"; locus_tag "ECDH10B_RS08840"; product "ATP-dependent dethiobiotin synthetase BioD"; protein_id "WP_000919231.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1756202 1756204 . - 0 gene_id "ECDH10B_RS08840"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "bioD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310326.2"; locus_tag "ECDH10B_RS08840"; product "ATP-dependent dethiobiotin synthetase BioD"; protein_id "WP_000919231.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1755509 1755511 . - 0 gene_id "ECDH10B_RS08840"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "bioD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310326.2"; locus_tag "ECDH10B_RS08840"; product "ATP-dependent dethiobiotin synthetase BioD"; protein_id "WP_000919231.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1756329 1757549 . - . gene_id "ECDH10B_RS08845"; transcript_id ""; gbkey "Gene"; gene "mlc"; gene_biotype "protein_coding"; gene_synonym "dgsA"; locus_tag "ECDH10B_RS08845"; old_locus_tag "ECDH10B_1727"; -NC_010473.1 Protein Homology CDS 1756332 1757549 . - 0 gene_id "ECDH10B_RS08845"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mlc"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416111.1"; locus_tag "ECDH10B_RS08845"; product "DNA-binding transcriptional repressor Mlc"; protein_id "WP_000225262.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1757547 1757549 . - 0 gene_id "ECDH10B_RS08845"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mlc"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416111.1"; locus_tag "ECDH10B_RS08845"; product "DNA-binding transcriptional repressor Mlc"; protein_id "WP_000225262.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1756329 1756331 . - 0 gene_id "ECDH10B_RS08845"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mlc"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416111.1"; locus_tag "ECDH10B_RS08845"; product "DNA-binding transcriptional repressor Mlc"; protein_id "WP_000225262.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1757684 1758577 . - . gene_id "ECDH10B_RS08850"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08850"; old_locus_tag "ECDH10B_1728"; -NC_010473.1 Protein Homology CDS 1757687 1758577 . - 0 gene_id "ECDH10B_RS08850"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416112.1"; locus_tag "ECDH10B_RS08850"; product "LysR family transcriptional regulator"; protein_id "WP_001019525.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1758575 1758577 . - 0 gene_id "ECDH10B_RS08850"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416112.1"; locus_tag "ECDH10B_RS08850"; product "LysR family transcriptional regulator"; protein_id "WP_001019525.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1757684 1757686 . - 0 gene_id "ECDH10B_RS08850"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416112.1"; locus_tag "ECDH10B_RS08850"; product "LysR family transcriptional regulator"; protein_id "WP_001019525.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1758684 1759937 . + . gene_id "ECDH10B_RS08855"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08855"; old_locus_tag "ECDH10B_1729"; -NC_010473.1 Protein Homology CDS 1758684 1759934 . + 0 gene_id "ECDH10B_RS08855"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416113.1"; locus_tag "ECDH10B_RS08855"; product "MFS transporter"; protein_id "WP_000091840.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1758684 1758686 . + 0 gene_id "ECDH10B_RS08855"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416113.1"; locus_tag "ECDH10B_RS08855"; product "MFS transporter"; protein_id "WP_000091840.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1759935 1759937 . + 0 gene_id "ECDH10B_RS08855"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416113.1"; locus_tag "ECDH10B_RS08855"; product "MFS transporter"; protein_id "WP_000091840.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1760334 1760669 . + . gene_id "ECDH10B_RS08860"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08860"; old_locus_tag "ECDH10B_1730"; -NC_010473.1 Protein Homology CDS 1760334 1760666 . + 0 gene_id "ECDH10B_RS08860"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416114.2"; locus_tag "ECDH10B_RS08860"; product "acid shock protein"; protein_id "WP_000743957.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1760334 1760336 . + 0 gene_id "ECDH10B_RS08860"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416114.2"; locus_tag "ECDH10B_RS08860"; product "acid shock protein"; protein_id "WP_000743957.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1760667 1760669 . + 0 gene_id "ECDH10B_RS08860"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416114.2"; locus_tag "ECDH10B_RS08860"; product "acid shock protein"; protein_id "WP_000743957.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1760762 1760845 . + . gene_id "ECDH10B_RS08865"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08865"; -NC_010473.1 Protein Homology CDS 1760762 1760842 . + 0 gene_id "ECDH10B_RS08865"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_001165320.1"; locus_tag "ECDH10B_RS08865"; product "stationary phase-induced protein"; protein_id "WP_000233093.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1760762 1760764 . + 0 gene_id "ECDH10B_RS08865"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_001165320.1"; locus_tag "ECDH10B_RS08865"; product "stationary phase-induced protein"; protein_id "WP_000233093.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1760843 1760845 . + 0 gene_id "ECDH10B_RS08865"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_001165320.1"; locus_tag "ECDH10B_RS08865"; product "stationary phase-induced protein"; protein_id "WP_000233093.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1760945 1761766 . + . gene_id "ECDH10B_RS08870"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08870"; old_locus_tag "ECDH10B_1731"; -NC_010473.1 Protein Homology CDS 1760945 1761763 . + 0 gene_id "ECDH10B_RS08870"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416115.1"; locus_tag "ECDH10B_RS08870"; product "serine protease"; protein_id "WP_001260865.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1760945 1760947 . + 0 gene_id "ECDH10B_RS08870"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416115.1"; locus_tag "ECDH10B_RS08870"; product "serine protease"; protein_id "WP_001260865.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1761764 1761766 . + 0 gene_id "ECDH10B_RS08870"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416115.1"; locus_tag "ECDH10B_RS08870"; product "serine protease"; protein_id "WP_001260865.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1761805 1762134 . - . gene_id "ECDH10B_RS08875"; transcript_id ""; gbkey "Gene"; gene "mdtI"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08875"; old_locus_tag "ECDH10B_1732"; -NC_010473.1 Protein Homology CDS 1761808 1762134 . - 0 gene_id "ECDH10B_RS08875"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mdtI"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310332.1"; locus_tag "ECDH10B_RS08875"; product "multidrug/spermidine efflux SMR transporter subunit MdtI"; protein_id "WP_000046661.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1762132 1762134 . - 0 gene_id "ECDH10B_RS08875"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mdtI"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310332.1"; locus_tag "ECDH10B_RS08875"; product "multidrug/spermidine efflux SMR transporter subunit MdtI"; protein_id "WP_000046661.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1761805 1761807 . - 0 gene_id "ECDH10B_RS08875"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mdtI"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310332.1"; locus_tag "ECDH10B_RS08875"; product "multidrug/spermidine efflux SMR transporter subunit MdtI"; protein_id "WP_000046661.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1762121 1762486 . - . gene_id "ECDH10B_RS08880"; transcript_id ""; gbkey "Gene"; gene "mdtJ"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08880"; old_locus_tag "ECDH10B_1733"; -NC_010473.1 Protein Homology CDS 1762124 1762486 . - 0 gene_id "ECDH10B_RS08880"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mdtJ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310333.1"; locus_tag "ECDH10B_RS08880"; product "multidrug/spermidine efflux SMR transporter subunit MdtJ"; protein_id "WP_000276149.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1762484 1762486 . - 0 gene_id "ECDH10B_RS08880"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mdtJ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310333.1"; locus_tag "ECDH10B_RS08880"; product "multidrug/spermidine efflux SMR transporter subunit MdtJ"; protein_id "WP_000276149.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1762121 1762123 . - 0 gene_id "ECDH10B_RS08880"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mdtJ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310333.1"; locus_tag "ECDH10B_RS08880"; product "multidrug/spermidine efflux SMR transporter subunit MdtJ"; protein_id "WP_000276149.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1762898 1763932 . + . gene_id "ECDH10B_RS08885"; transcript_id ""; gbkey "Gene"; gene "tqsA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08885"; old_locus_tag "ECDH10B_1734"; -NC_010473.1 Protein Homology CDS 1762898 1763929 . + 0 gene_id "ECDH10B_RS08885"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tqsA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416118.1"; locus_tag "ECDH10B_RS08885"; product "AI-2 transporter TqsA"; protein_id "WP_001118241.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1762898 1762900 . + 0 gene_id "ECDH10B_RS08885"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tqsA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416118.1"; locus_tag "ECDH10B_RS08885"; product "AI-2 transporter TqsA"; protein_id "WP_001118241.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1763930 1763932 . + 0 gene_id "ECDH10B_RS08885"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tqsA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416118.1"; locus_tag "ECDH10B_RS08885"; product "AI-2 transporter TqsA"; protein_id "WP_001118241.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1763957 1765345 . - . gene_id "ECDH10B_RS08890"; transcript_id ""; gbkey "Gene"; gene "pntB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08890"; old_locus_tag "ECDH10B_1735"; -NC_010473.1 Protein Homology CDS 1763960 1765345 . - 0 gene_id "ECDH10B_RS08890"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pntB"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000014033.1"; locus_tag "ECDH10B_RS08890"; product "Re/Si-specific NAD(P)(+) transhydrogenase subunit beta"; protein_id "WP_000014036.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1765343 1765345 . - 0 gene_id "ECDH10B_RS08890"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pntB"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000014033.1"; locus_tag "ECDH10B_RS08890"; product "Re/Si-specific NAD(P)(+) transhydrogenase subunit beta"; protein_id "WP_000014036.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1763957 1763959 . - 0 gene_id "ECDH10B_RS08890"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pntB"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000014033.1"; locus_tag "ECDH10B_RS08890"; product "Re/Si-specific NAD(P)(+) transhydrogenase subunit beta"; protein_id "WP_000014036.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1765356 1766888 . - . gene_id "ECDH10B_RS08895"; transcript_id ""; gbkey "Gene"; gene "pntA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08895"; old_locus_tag "ECDH10B_1736"; -NC_010473.1 Protein Homology CDS 1765359 1766888 . - 0 gene_id "ECDH10B_RS08895"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pntA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416120.1"; locus_tag "ECDH10B_RS08895"; product "Re/Si-specific NAD(P)(+) transhydrogenase subunit alpha"; protein_id "WP_001300486.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1766886 1766888 . - 0 gene_id "ECDH10B_RS08895"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pntA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416120.1"; locus_tag "ECDH10B_RS08895"; product "Re/Si-specific NAD(P)(+) transhydrogenase subunit alpha"; protein_id "WP_001300486.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1765356 1765358 . - 0 gene_id "ECDH10B_RS08895"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pntA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416120.1"; locus_tag "ECDH10B_RS08895"; product "Re/Si-specific NAD(P)(+) transhydrogenase subunit alpha"; protein_id "WP_001300486.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1767412 1768356 . + . gene_id "ECDH10B_RS08900"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08900"; old_locus_tag "ECDH10B_1737"; -NC_010473.1 Protein Homology CDS 1767412 1768353 . + 0 gene_id "ECDH10B_RS08900"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416121.1"; locus_tag "ECDH10B_RS08900"; product "DUF1471 domain-containing protein"; protein_id "WP_000769303.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1767412 1767414 . + 0 gene_id "ECDH10B_RS08900"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416121.1"; locus_tag "ECDH10B_RS08900"; product "DUF1471 domain-containing protein"; protein_id "WP_000769303.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1768354 1768356 . + 0 gene_id "ECDH10B_RS08900"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416121.1"; locus_tag "ECDH10B_RS08900"; product "DUF1471 domain-containing protein"; protein_id "WP_000769303.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1768542 1769924 . + . gene_id "ECDH10B_RS08905"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08905"; old_locus_tag "ECDH10B_1738"; -NC_010473.1 Protein Homology CDS 1768542 1769921 . + 0 gene_id "ECDH10B_RS08905"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416122.1"; locus_tag "ECDH10B_RS08905"; product "amino acid permease"; protein_id "WP_000412379.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1768542 1768544 . + 0 gene_id "ECDH10B_RS08905"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416122.1"; locus_tag "ECDH10B_RS08905"; product "amino acid permease"; protein_id "WP_000412379.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1769922 1769924 . + 0 gene_id "ECDH10B_RS08905"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416122.1"; locus_tag "ECDH10B_RS08905"; product "amino acid permease"; protein_id "WP_000412379.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1769961 1770683 . + . gene_id "ECDH10B_RS08910"; transcript_id ""; gbkey "Gene"; gene "folM"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08910"; old_locus_tag "ECDH10B_1739"; -NC_010473.1 Protein Homology CDS 1769961 1770680 . + 0 gene_id "ECDH10B_RS08910"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "folM"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310339.1"; locus_tag "ECDH10B_RS08910"; product "dihydromonapterin reductase"; protein_id "WP_000520804.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1769961 1769963 . + 0 gene_id "ECDH10B_RS08910"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "folM"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310339.1"; locus_tag "ECDH10B_RS08910"; product "dihydromonapterin reductase"; protein_id "WP_000520804.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1770681 1770683 . + 0 gene_id "ECDH10B_RS08910"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "folM"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310339.1"; locus_tag "ECDH10B_RS08910"; product "dihydromonapterin reductase"; protein_id "WP_000520804.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1770680 1771015 . - . gene_id "ECDH10B_RS08915"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08915"; old_locus_tag "ECDH10B_1740"; -NC_010473.1 Protein Homology CDS 1770683 1771015 . - 0 gene_id "ECDH10B_RS08915"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310340.1"; locus_tag "ECDH10B_RS08915"; product "GlpM family protein"; protein_id "WP_000524868.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1771013 1771015 . - 0 gene_id "ECDH10B_RS08915"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310340.1"; locus_tag "ECDH10B_RS08915"; product "GlpM family protein"; protein_id "WP_000524868.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1770680 1770682 . - 0 gene_id "ECDH10B_RS08915"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310340.1"; locus_tag "ECDH10B_RS08915"; product "GlpM family protein"; protein_id "WP_000524868.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1771144 1771863 . + . gene_id "ECDH10B_RS08920"; transcript_id ""; gbkey "Gene"; gene "rstA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08920"; old_locus_tag "ECDH10B_1741"; -NC_010473.1 Protein Homology CDS 1771144 1771860 . + 0 gene_id "ECDH10B_RS08920"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rstA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416125.2"; locus_tag "ECDH10B_RS08920"; product "two-component system response regulator RstA"; protein_id "WP_001092508.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1771144 1771146 . + 0 gene_id "ECDH10B_RS08920"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rstA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416125.2"; locus_tag "ECDH10B_RS08920"; product "two-component system response regulator RstA"; protein_id "WP_001092508.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1771861 1771863 . + 0 gene_id "ECDH10B_RS08920"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rstA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416125.2"; locus_tag "ECDH10B_RS08920"; product "two-component system response regulator RstA"; protein_id "WP_001092508.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1771867 1773168 . + . gene_id "ECDH10B_RS08925"; transcript_id ""; gbkey "Gene"; gene "rstB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08925"; old_locus_tag "ECDH10B_1742"; -NC_010473.1 Protein Homology CDS 1771867 1773165 . + 0 gene_id "ECDH10B_RS08925"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rstB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416126.1"; locus_tag "ECDH10B_RS08925"; product "two-component system sensor histidine kinase RstB"; protein_id "WP_000732512.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1771867 1771869 . + 0 gene_id "ECDH10B_RS08925"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rstB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416126.1"; locus_tag "ECDH10B_RS08925"; product "two-component system sensor histidine kinase RstB"; protein_id "WP_000732512.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1773166 1773168 . + 0 gene_id "ECDH10B_RS08925"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rstB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416126.1"; locus_tag "ECDH10B_RS08925"; product "two-component system sensor histidine kinase RstB"; protein_id "WP_000732512.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1773244 1774173 . + . gene_id "ECDH10B_RS08930"; transcript_id ""; gbkey "Gene"; gene "tus"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08930"; old_locus_tag "ECDH10B_1743"; -NC_010473.1 Protein Homology CDS 1773244 1774170 . + 0 gene_id "ECDH10B_RS08930"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tus"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416127.1"; locus_tag "ECDH10B_RS08930"; product "DNA replication terminus site-binding protein"; protein_id "WP_000135181.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1773244 1773246 . + 0 gene_id "ECDH10B_RS08930"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tus"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416127.1"; locus_tag "ECDH10B_RS08930"; product "DNA replication terminus site-binding protein"; protein_id "WP_000135181.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1774171 1774173 . + 0 gene_id "ECDH10B_RS08930"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tus"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416127.1"; locus_tag "ECDH10B_RS08930"; product "DNA replication terminus site-binding protein"; protein_id "WP_000135181.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1774170 1775573 . - . gene_id "ECDH10B_RS08935"; transcript_id ""; gbkey "Gene"; gene "fumC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08935"; old_locus_tag "ECDH10B_1744"; -NC_010473.1 Protein Homology CDS 1774173 1775573 . - 0 gene_id "ECDH10B_RS08935"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fumC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416128.1"; locus_tag "ECDH10B_RS08935"; product "class II fumarate hydratase"; protein_id "WP_001099085.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1775571 1775573 . - 0 gene_id "ECDH10B_RS08935"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fumC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416128.1"; locus_tag "ECDH10B_RS08935"; product "class II fumarate hydratase"; protein_id "WP_001099085.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1774170 1774172 . - 0 gene_id "ECDH10B_RS08935"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fumC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416128.1"; locus_tag "ECDH10B_RS08935"; product "class II fumarate hydratase"; protein_id "WP_001099085.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1775716 1777362 . - . gene_id "ECDH10B_RS08940"; transcript_id ""; gbkey "Gene"; gene "fumB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08940"; old_locus_tag "ECDH10B_1745"; -NC_010473.1 Protein Homology CDS 1775719 1777362 . - 0 gene_id "ECDH10B_RS08940"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fumB"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000066594.1"; locus_tag "ECDH10B_RS08940"; product "class I fumarate hydratase"; protein_id "WP_000066639.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1777360 1777362 . - 0 gene_id "ECDH10B_RS08940"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fumB"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000066594.1"; locus_tag "ECDH10B_RS08940"; product "class I fumarate hydratase"; protein_id "WP_000066639.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1775716 1775718 . - 0 gene_id "ECDH10B_RS08940"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fumB"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000066594.1"; locus_tag "ECDH10B_RS08940"; product "class I fumarate hydratase"; protein_id "WP_000066639.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1777561 1778736 . + . gene_id "ECDH10B_RS08945"; transcript_id ""; gbkey "Gene"; gene "manA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08945"; old_locus_tag "ECDH10B_1746"; -NC_010473.1 Protein Homology CDS 1777561 1778733 . + 0 gene_id "ECDH10B_RS08945"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "manA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416130.3"; locus_tag "ECDH10B_RS08945"; product "mannose-6-phosphate isomerase"; protein_id "WP_001170664.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1777561 1777563 . + 0 gene_id "ECDH10B_RS08945"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "manA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416130.3"; locus_tag "ECDH10B_RS08945"; product "mannose-6-phosphate isomerase"; protein_id "WP_001170664.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1778734 1778736 . + 0 gene_id "ECDH10B_RS08945"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "manA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416130.3"; locus_tag "ECDH10B_RS08945"; product "mannose-6-phosphate isomerase"; protein_id "WP_001170664.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1778837 1780345 . + . gene_id "ECDH10B_RS08950"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08950"; old_locus_tag "ECDH10B_1747"; -NC_010473.1 Protein Homology CDS 1778837 1780342 . + 0 gene_id "ECDH10B_RS08950"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416131.1"; locus_tag "ECDH10B_RS08950"; product "YdgA family protein"; protein_id "WP_001043339.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1778837 1778839 . + 0 gene_id "ECDH10B_RS08950"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416131.1"; locus_tag "ECDH10B_RS08950"; product "YdgA family protein"; protein_id "WP_001043339.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1780343 1780345 . + 0 gene_id "ECDH10B_RS08950"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416131.1"; locus_tag "ECDH10B_RS08950"; product "YdgA family protein"; protein_id "WP_001043339.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1780571 1781836 . - . gene_id "ECDH10B_RS08955"; transcript_id ""; gbkey "Gene"; gene "uidC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08955"; old_locus_tag "ECDH10B_1748"; -NC_010473.1 Protein Homology CDS 1780574 1781836 . - 0 gene_id "ECDH10B_RS08955"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "uidC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416132.2"; locus_tag "ECDH10B_RS08955"; product "glucuronide uptake porin UidC"; protein_id "WP_001227023.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1781834 1781836 . - 0 gene_id "ECDH10B_RS08955"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "uidC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416132.2"; locus_tag "ECDH10B_RS08955"; product "glucuronide uptake porin UidC"; protein_id "WP_001227023.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1780571 1780573 . - 0 gene_id "ECDH10B_RS08955"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "uidC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416132.2"; locus_tag "ECDH10B_RS08955"; product "glucuronide uptake porin UidC"; protein_id "WP_001227023.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1781875 1783248 . - . gene_id "ECDH10B_RS08960"; transcript_id ""; gbkey "Gene"; gene "uidB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08960"; old_locus_tag "ECDH10B_1749"; -NC_010473.1 Protein Homology CDS 1781878 1783248 . - 0 gene_id "ECDH10B_RS08960"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "uidB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416133.1"; locus_tag "ECDH10B_RS08960"; product "glucuronide transporter"; protein_id "WP_001075849.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1783246 1783248 . - 0 gene_id "ECDH10B_RS08960"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "uidB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416133.1"; locus_tag "ECDH10B_RS08960"; product "glucuronide transporter"; protein_id "WP_001075849.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1781875 1781877 . - 0 gene_id "ECDH10B_RS08960"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "uidB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416133.1"; locus_tag "ECDH10B_RS08960"; product "glucuronide transporter"; protein_id "WP_001075849.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1783245 1785056 . - . gene_id "ECDH10B_RS08965"; transcript_id ""; gbkey "Gene"; gene "uidA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08965"; old_locus_tag "ECDH10B_1750"; -NC_010473.1 Protein Homology CDS 1783248 1785056 . - 0 gene_id "ECDH10B_RS08965"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "uidA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416134.1"; locus_tag "ECDH10B_RS08965"; product "beta-glucuronidase"; protein_id "WP_000945878.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1785054 1785056 . - 0 gene_id "ECDH10B_RS08965"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "uidA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416134.1"; locus_tag "ECDH10B_RS08965"; product "beta-glucuronidase"; protein_id "WP_000945878.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1783245 1783247 . - 0 gene_id "ECDH10B_RS08965"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "uidA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416134.1"; locus_tag "ECDH10B_RS08965"; product "beta-glucuronidase"; protein_id "WP_000945878.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1785447 1786037 . - . gene_id "ECDH10B_RS08970"; transcript_id ""; gbkey "Gene"; gene "uidR"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08970"; old_locus_tag "ECDH10B_1751"; -NC_010473.1 Protein Homology CDS 1785450 1786037 . - 0 gene_id "ECDH10B_RS08970"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "uidR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310353.1"; locus_tag "ECDH10B_RS08970"; product "DNA-binding transcriptional regulator UidR"; protein_id "WP_000969092.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1786035 1786037 . - 0 gene_id "ECDH10B_RS08970"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "uidR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310353.1"; locus_tag "ECDH10B_RS08970"; product "DNA-binding transcriptional regulator UidR"; protein_id "WP_000969092.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1785447 1785449 . - 0 gene_id "ECDH10B_RS08970"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "uidR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310353.1"; locus_tag "ECDH10B_RS08970"; product "DNA-binding transcriptional regulator UidR"; protein_id "WP_000969092.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1786258 1787025 . - . gene_id "ECDH10B_RS08975"; transcript_id ""; gbkey "Gene"; gene "hdhA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08975"; old_locus_tag "ECDH10B_1752"; -NC_010473.1 Protein Homology CDS 1786261 1787025 . - 0 gene_id "ECDH10B_RS08975"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hdhA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310354.1"; locus_tag "ECDH10B_RS08975"; product "7-alpha-hydroxysteroid dehydrogenase"; protein_id "WP_000483353.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1787023 1787025 . - 0 gene_id "ECDH10B_RS08975"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hdhA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310354.1"; locus_tag "ECDH10B_RS08975"; product "7-alpha-hydroxysteroid dehydrogenase"; protein_id "WP_000483353.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1786258 1786260 . - 0 gene_id "ECDH10B_RS08975"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hdhA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310354.1"; locus_tag "ECDH10B_RS08975"; product "7-alpha-hydroxysteroid dehydrogenase"; protein_id "WP_000483353.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1787137 1788165 . - . gene_id "ECDH10B_RS08980"; transcript_id ""; gbkey "Gene"; gene "malI"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08980"; old_locus_tag "ECDH10B_1753"; -NC_010473.1 Protein Homology CDS 1787140 1788165 . - 0 gene_id "ECDH10B_RS08980"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "malI"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416137.1"; locus_tag "ECDH10B_RS08980"; product "mal regulon transcriptional regulator MalI"; protein_id "WP_000179510.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1788163 1788165 . - 0 gene_id "ECDH10B_RS08980"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "malI"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416137.1"; locus_tag "ECDH10B_RS08980"; product "mal regulon transcriptional regulator MalI"; protein_id "WP_000179510.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1787137 1787139 . - 0 gene_id "ECDH10B_RS08980"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "malI"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416137.1"; locus_tag "ECDH10B_RS08980"; product "mal regulon transcriptional regulator MalI"; protein_id "WP_000179510.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1788340 1789932 . + . gene_id "ECDH10B_RS08985"; transcript_id ""; gbkey "Gene"; gene "malX"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08985"; old_locus_tag "ECDH10B_1754"; -NC_010473.1 Protein Homology CDS 1788340 1789929 . + 0 gene_id "ECDH10B_RS08985"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "malX"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416138.1"; locus_tag "ECDH10B_RS08985"; product "PTS maltose transporter subunit IICB"; protein_id "WP_000125583.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1788340 1788342 . + 0 gene_id "ECDH10B_RS08985"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "malX"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416138.1"; locus_tag "ECDH10B_RS08985"; product "PTS maltose transporter subunit IICB"; protein_id "WP_000125583.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1789930 1789932 . + 0 gene_id "ECDH10B_RS08985"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "malX"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416138.1"; locus_tag "ECDH10B_RS08985"; product "PTS maltose transporter subunit IICB"; protein_id "WP_000125583.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1789942 1791114 . + . gene_id "ECDH10B_RS08990"; transcript_id ""; gbkey "Gene"; gene "malY"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08990"; old_locus_tag "ECDH10B_1755"; -NC_010473.1 Protein Homology CDS 1789942 1791111 . + 0 gene_id "ECDH10B_RS08990"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "malY"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416139.1"; locus_tag "ECDH10B_RS08990"; product "bifunctional maltose regulon transcriptional repressor/cystathionine beta-lyase MalY"; protein_id "WP_000459379.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1789942 1789944 . + 0 gene_id "ECDH10B_RS08990"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "malY"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416139.1"; locus_tag "ECDH10B_RS08990"; product "bifunctional maltose regulon transcriptional repressor/cystathionine beta-lyase MalY"; protein_id "WP_000459379.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1791112 1791114 . + 0 gene_id "ECDH10B_RS08990"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "malY"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416139.1"; locus_tag "ECDH10B_RS08990"; product "bifunctional maltose regulon transcriptional repressor/cystathionine beta-lyase MalY"; protein_id "WP_000459379.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1791218 1792219 . + . gene_id "ECDH10B_RS08995"; transcript_id ""; gbkey "Gene"; gene "add"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS08995"; old_locus_tag "ECDH10B_1756"; -NC_010473.1 Protein Homology CDS 1791218 1792216 . + 0 gene_id "ECDH10B_RS08995"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "add"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416140.1"; locus_tag "ECDH10B_RS08995"; product "adenosine deaminase"; protein_id "WP_000567490.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1791218 1791220 . + 0 gene_id "ECDH10B_RS08995"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "add"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416140.1"; locus_tag "ECDH10B_RS08995"; product "adenosine deaminase"; protein_id "WP_000567490.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1792217 1792219 . + 0 gene_id "ECDH10B_RS08995"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "add"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416140.1"; locus_tag "ECDH10B_RS08995"; product "adenosine deaminase"; protein_id "WP_000567490.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1792253 1793293 . - . gene_id "ECDH10B_RS09000"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09000"; old_locus_tag "ECDH10B_1757"; -NC_010473.1 Protein Homology CDS 1792256 1793293 . - 0 gene_id "ECDH10B_RS09000"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416141.4"; locus_tag "ECDH10B_RS09000"; product "oxidoreductase"; protein_id "WP_001282550.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1793291 1793293 . - 0 gene_id "ECDH10B_RS09000"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416141.4"; locus_tag "ECDH10B_RS09000"; product "oxidoreductase"; protein_id "WP_001282550.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1792253 1792255 . - 0 gene_id "ECDH10B_RS09000"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416141.4"; locus_tag "ECDH10B_RS09000"; product "oxidoreductase"; protein_id "WP_001282550.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1793544 1793759 . + . gene_id "ECDH10B_RS09005"; transcript_id ""; gbkey "Gene"; gene "ydgT"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09005"; old_locus_tag "ECDH10B_1759"; -NC_010473.1 Protein Homology CDS 1793544 1793756 . + 0 gene_id "ECDH10B_RS09005"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ydgT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310361.1"; locus_tag "ECDH10B_RS09005"; product "transcription modulator YdgT"; protein_id "WP_000217950.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1793544 1793546 . + 0 gene_id "ECDH10B_RS09005"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ydgT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310361.1"; locus_tag "ECDH10B_RS09005"; product "transcription modulator YdgT"; protein_id "WP_000217950.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1793757 1793759 . + 0 gene_id "ECDH10B_RS09005"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ydgT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310361.1"; locus_tag "ECDH10B_RS09005"; product "transcription modulator YdgT"; protein_id "WP_000217950.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1793845 1794285 . + . gene_id "ECDH10B_RS09010"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09010"; old_locus_tag "ECDH10B_1760"; -NC_010473.1 Protein Homology CDS 1793845 1794282 . + 0 gene_id "ECDH10B_RS09010"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416143.2"; locus_tag "ECDH10B_RS09010"; product "DUF2569 domain-containing protein"; protein_id "WP_001310854.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1793845 1793847 . + 0 gene_id "ECDH10B_RS09010"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416143.2"; locus_tag "ECDH10B_RS09010"; product "DUF2569 domain-containing protein"; protein_id "WP_001310854.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1794283 1794285 . + 0 gene_id "ECDH10B_RS09010"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416143.2"; locus_tag "ECDH10B_RS09010"; product "DUF2569 domain-containing protein"; protein_id "WP_001310854.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1794362 1794943 . + . gene_id "ECDH10B_RS09015"; transcript_id ""; gbkey "Gene"; gene "rsxA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09015"; old_locus_tag "ECDH10B_1761"; -NC_010473.1 Protein Homology CDS 1794362 1794940 . + 0 gene_id "ECDH10B_RS09015"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rsxA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_017456621.1"; locus_tag "ECDH10B_RS09015"; product "electron transport complex subunit RsxA"; protein_id "WP_000133193.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1794362 1794364 . + 0 gene_id "ECDH10B_RS09015"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rsxA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_017456621.1"; locus_tag "ECDH10B_RS09015"; product "electron transport complex subunit RsxA"; protein_id "WP_000133193.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1794941 1794943 . + 0 gene_id "ECDH10B_RS09015"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rsxA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_017456621.1"; locus_tag "ECDH10B_RS09015"; product "electron transport complex subunit RsxA"; protein_id "WP_000133193.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1794943 1795521 . + . gene_id "ECDH10B_RS09020"; transcript_id ""; gbkey "Gene"; gene "rsxB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09020"; old_locus_tag "ECDH10B_1762"; -NC_010473.1 Protein Homology CDS 1794943 1795518 . + 0 gene_id "ECDH10B_RS09020"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rsxB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416145.1"; locus_tag "ECDH10B_RS09020"; product "electron transport complex subunit RsxB"; protein_id "WP_000991805.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1794943 1794945 . + 0 gene_id "ECDH10B_RS09020"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rsxB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416145.1"; locus_tag "ECDH10B_RS09020"; product "electron transport complex subunit RsxB"; protein_id "WP_000991805.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1795519 1795521 . + 0 gene_id "ECDH10B_RS09020"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rsxB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416145.1"; locus_tag "ECDH10B_RS09020"; product "electron transport complex subunit RsxB"; protein_id "WP_000991805.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1795514 1797736 . + . gene_id "ECDH10B_RS09025"; transcript_id ""; gbkey "Gene"; gene "rsxC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09025"; old_locus_tag "ECDH10B_1763"; -NC_010473.1 Protein Homology CDS 1795514 1797733 . + 0 gene_id "ECDH10B_RS09025"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rsxC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416146.1"; locus_tag "ECDH10B_RS09025"; product "electron transport complex subunit RsxC"; protein_id "WP_000915778.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1795514 1795516 . + 0 gene_id "ECDH10B_RS09025"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rsxC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416146.1"; locus_tag "ECDH10B_RS09025"; product "electron transport complex subunit RsxC"; protein_id "WP_000915778.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1797734 1797736 . + 0 gene_id "ECDH10B_RS09025"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rsxC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416146.1"; locus_tag "ECDH10B_RS09025"; product "electron transport complex subunit RsxC"; protein_id "WP_000915778.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1797737 1798795 . + . gene_id "ECDH10B_RS09030"; transcript_id ""; gbkey "Gene"; gene "rsxD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09030"; old_locus_tag "ECDH10B_1764"; -NC_010473.1 Protein Homology CDS 1797737 1798792 . + 0 gene_id "ECDH10B_RS09030"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rsxD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416147.1"; locus_tag "ECDH10B_RS09030"; product "electron transport complex subunit RsxD"; protein_id "WP_000231927.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1797737 1797739 . + 0 gene_id "ECDH10B_RS09030"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rsxD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416147.1"; locus_tag "ECDH10B_RS09030"; product "electron transport complex subunit RsxD"; protein_id "WP_000231927.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1798793 1798795 . + 0 gene_id "ECDH10B_RS09030"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rsxD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416147.1"; locus_tag "ECDH10B_RS09030"; product "electron transport complex subunit RsxD"; protein_id "WP_000231927.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1798799 1799419 . + . gene_id "ECDH10B_RS09035"; transcript_id ""; gbkey "Gene"; gene "rsxG"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09035"; old_locus_tag "ECDH10B_1765"; -NC_010473.1 Protein Homology CDS 1798799 1799416 . + 0 gene_id "ECDH10B_RS09035"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rsxG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416148.1"; locus_tag "ECDH10B_RS09035"; product "electron transport complex subunit RsxG"; protein_id "WP_000920784.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1798799 1798801 . + 0 gene_id "ECDH10B_RS09035"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rsxG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416148.1"; locus_tag "ECDH10B_RS09035"; product "electron transport complex subunit RsxG"; protein_id "WP_000920784.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1799417 1799419 . + 0 gene_id "ECDH10B_RS09035"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rsxG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416148.1"; locus_tag "ECDH10B_RS09035"; product "electron transport complex subunit RsxG"; protein_id "WP_000920784.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1799423 1800118 . + . gene_id "ECDH10B_RS09040"; transcript_id ""; gbkey "Gene"; gene "rsxE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09040"; old_locus_tag "ECDH10B_1766"; -NC_010473.1 Protein Homology CDS 1799423 1800115 . + 0 gene_id "ECDH10B_RS09040"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rsxE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416149.1"; locus_tag "ECDH10B_RS09040"; product "electron transport complex subunit RsxE"; protein_id "WP_001289652.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1799423 1799425 . + 0 gene_id "ECDH10B_RS09040"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rsxE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416149.1"; locus_tag "ECDH10B_RS09040"; product "electron transport complex subunit RsxE"; protein_id "WP_001289652.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1800116 1800118 . + 0 gene_id "ECDH10B_RS09040"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rsxE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416149.1"; locus_tag "ECDH10B_RS09040"; product "electron transport complex subunit RsxE"; protein_id "WP_001289652.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1800118 1800753 . + . gene_id "ECDH10B_RS09045"; transcript_id ""; gbkey "Gene"; gene "nth"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09045"; old_locus_tag "ECDH10B_1767"; -NC_010473.1 Protein Homology CDS 1800118 1800750 . + 0 gene_id "ECDH10B_RS09045"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nth"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416150.1"; locus_tag "ECDH10B_RS09045"; product "endonuclease III"; protein_id "WP_001030339.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1800118 1800120 . + 0 gene_id "ECDH10B_RS09045"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nth"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416150.1"; locus_tag "ECDH10B_RS09045"; product "endonuclease III"; protein_id "WP_001030339.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1800751 1800753 . + 0 gene_id "ECDH10B_RS09045"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nth"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416150.1"; locus_tag "ECDH10B_RS09045"; product "endonuclease III"; protein_id "WP_001030339.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1801364 1802866 . + . gene_id "ECDH10B_RS09055"; transcript_id ""; gbkey "Gene"; gene "dtpA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09055"; old_locus_tag "ECDH10B_1768"; -NC_010473.1 Protein Homology CDS 1801364 1802863 . + 0 gene_id "ECDH10B_RS09055"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dtpA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416151.1"; locus_tag "ECDH10B_RS09055"; product "dipeptide/tripeptide permease DtpA"; protein_id "WP_000100932.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1801364 1801366 . + 0 gene_id "ECDH10B_RS09055"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dtpA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416151.1"; locus_tag "ECDH10B_RS09055"; product "dipeptide/tripeptide permease DtpA"; protein_id "WP_000100932.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1802864 1802866 . + 0 gene_id "ECDH10B_RS09055"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dtpA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416151.1"; locus_tag "ECDH10B_RS09055"; product "dipeptide/tripeptide permease DtpA"; protein_id "WP_000100932.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1802972 1803577 . + . gene_id "ECDH10B_RS09060"; transcript_id ""; gbkey "Gene"; gene "gstA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09060"; old_locus_tag "ECDH10B_1769"; -NC_010473.1 Protein Homology CDS 1802972 1803574 . + 0 gene_id "ECDH10B_RS09060"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gstA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310371.1"; locus_tag "ECDH10B_RS09060"; product "glutathione transferase GstA"; protein_id "WP_000765749.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1802972 1802974 . + 0 gene_id "ECDH10B_RS09060"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gstA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310371.1"; locus_tag "ECDH10B_RS09060"; product "glutathione transferase GstA"; protein_id "WP_000765749.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1803575 1803577 . + 0 gene_id "ECDH10B_RS09060"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gstA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310371.1"; locus_tag "ECDH10B_RS09060"; product "glutathione transferase GstA"; protein_id "WP_000765749.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1803621 1804484 . - . gene_id "ECDH10B_RS09065"; transcript_id ""; gbkey "Gene"; gene "pdxY"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09065"; old_locus_tag "ECDH10B_1770"; -NC_010473.1 Protein Homology CDS 1803624 1804484 . - 0 gene_id "ECDH10B_RS09065"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pdxY"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416153.1"; locus_tag "ECDH10B_RS09065"; product "pyridoxal kinase"; protein_id "WP_001307229.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1804482 1804484 . - 0 gene_id "ECDH10B_RS09065"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pdxY"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416153.1"; locus_tag "ECDH10B_RS09065"; product "pyridoxal kinase"; protein_id "WP_001307229.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1803621 1803623 . - 0 gene_id "ECDH10B_RS09065"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pdxY"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416153.1"; locus_tag "ECDH10B_RS09065"; product "pyridoxal kinase"; protein_id "WP_001307229.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1804543 1805817 . - . gene_id "ECDH10B_RS09070"; transcript_id ""; gbkey "Gene"; gene "tyrS"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09070"; old_locus_tag "ECDH10B_1771"; -NC_010473.1 Protein Homology CDS 1804546 1805817 . - 0 gene_id "ECDH10B_RS09070"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tyrS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310373.1"; locus_tag "ECDH10B_RS09070"; product "tyrosine--tRNA ligase"; protein_id "WP_001295400.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1805815 1805817 . - 0 gene_id "ECDH10B_RS09070"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tyrS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310373.1"; locus_tag "ECDH10B_RS09070"; product "tyrosine--tRNA ligase"; protein_id "WP_001295400.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1804543 1804545 . - 0 gene_id "ECDH10B_RS09070"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tyrS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310373.1"; locus_tag "ECDH10B_RS09070"; product "tyrosine--tRNA ligase"; protein_id "WP_001295400.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1805946 1806602 . - . gene_id "ECDH10B_RS09075"; transcript_id ""; gbkey "Gene"; gene "pdxH"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09075"; old_locus_tag "ECDH10B_1772"; -NC_010473.1 Protein Homology CDS 1805949 1806602 . - 0 gene_id "ECDH10B_RS09075"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pdxH"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005127173.1"; locus_tag "ECDH10B_RS09075"; product "pyridoxamine 5'-phosphate oxidase"; protein_id "WP_001282319.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1806600 1806602 . - 0 gene_id "ECDH10B_RS09075"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pdxH"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005127173.1"; locus_tag "ECDH10B_RS09075"; product "pyridoxamine 5'-phosphate oxidase"; protein_id "WP_001282319.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1805946 1805948 . - 0 gene_id "ECDH10B_RS09075"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pdxH"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005127173.1"; locus_tag "ECDH10B_RS09075"; product "pyridoxamine 5'-phosphate oxidase"; protein_id "WP_001282319.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1806661 1806990 . - . gene_id "ECDH10B_RS09080"; transcript_id ""; gbkey "Gene"; gene "mliC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09080"; old_locus_tag "ECDH10B_1773"; -NC_010473.1 Protein Homology CDS 1806664 1806990 . - 0 gene_id "ECDH10B_RS09080"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mliC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416156.4"; locus_tag "ECDH10B_RS09080"; product "C-type lysozyme inhibitor"; protein_id "WP_000178044.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1806988 1806990 . - 0 gene_id "ECDH10B_RS09080"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mliC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416156.4"; locus_tag "ECDH10B_RS09080"; product "C-type lysozyme inhibitor"; protein_id "WP_000178044.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1806661 1806663 . - 0 gene_id "ECDH10B_RS09080"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mliC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416156.4"; locus_tag "ECDH10B_RS09080"; product "C-type lysozyme inhibitor"; protein_id "WP_000178044.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1807088 1808197 . - . gene_id "ECDH10B_RS09085"; transcript_id ""; gbkey "Gene"; gene "anmK"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09085"; old_locus_tag "ECDH10B_1774"; -NC_010473.1 Protein Homology CDS 1807091 1808197 . - 0 gene_id "ECDH10B_RS09085"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "anmK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416157.1"; locus_tag "ECDH10B_RS09085"; product "anhydro-N-acetylmuramic acid kinase"; protein_id "WP_000835039.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1808195 1808197 . - 0 gene_id "ECDH10B_RS09085"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "anmK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416157.1"; locus_tag "ECDH10B_RS09085"; product "anhydro-N-acetylmuramic acid kinase"; protein_id "WP_000835039.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1807088 1807090 . - 0 gene_id "ECDH10B_RS09085"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "anmK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416157.1"; locus_tag "ECDH10B_RS09085"; product "anhydro-N-acetylmuramic acid kinase"; protein_id "WP_000835039.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1808471 1808938 . + . gene_id "ECDH10B_RS09090"; transcript_id ""; gbkey "Gene"; gene "slyB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09090"; old_locus_tag "ECDH10B_1775"; -NC_010473.1 Protein Homology CDS 1808471 1808935 . + 0 gene_id "ECDH10B_RS09090"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "slyB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310377.1"; locus_tag "ECDH10B_RS09090"; product "outer membrane lipoprotein SlyB"; protein_id "WP_000597196.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1808471 1808473 . + 0 gene_id "ECDH10B_RS09090"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "slyB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310377.1"; locus_tag "ECDH10B_RS09090"; product "outer membrane lipoprotein SlyB"; protein_id "WP_000597196.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1808936 1808938 . + 0 gene_id "ECDH10B_RS09090"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "slyB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310377.1"; locus_tag "ECDH10B_RS09090"; product "outer membrane lipoprotein SlyB"; protein_id "WP_000597196.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1808985 1809419 . - . gene_id "ECDH10B_RS09095"; transcript_id ""; gbkey "Gene"; gene "slyA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09095"; old_locus_tag "ECDH10B_1776"; -NC_010473.1 Protein Homology CDS 1808988 1809419 . - 0 gene_id "ECDH10B_RS09095"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "slyA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416159.2"; locus_tag "ECDH10B_RS09095"; product "transcriptional regulator SlyA"; protein_id "WP_001296943.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1809417 1809419 . - 0 gene_id "ECDH10B_RS09095"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "slyA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416159.2"; locus_tag "ECDH10B_RS09095"; product "transcriptional regulator SlyA"; protein_id "WP_001296943.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1808985 1808987 . - 0 gene_id "ECDH10B_RS09095"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "slyA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416159.2"; locus_tag "ECDH10B_RS09095"; product "transcriptional regulator SlyA"; protein_id "WP_001296943.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1809620 1809856 . + . gene_id "ECDH10B_RS09100"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09100"; -NC_010473.1 Protein Homology CDS 1809620 1809853 . + 0 gene_id "ECDH10B_RS09100"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310379.1"; locus_tag "ECDH10B_RS09100"; product "DUF1656 domain-containing protein"; protein_id "WP_000670989.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1809620 1809622 . + 0 gene_id "ECDH10B_RS09100"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310379.1"; locus_tag "ECDH10B_RS09100"; product "DUF1656 domain-containing protein"; protein_id "WP_000670989.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1809854 1809856 . + 0 gene_id "ECDH10B_RS09100"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310379.1"; locus_tag "ECDH10B_RS09100"; product "DUF1656 domain-containing protein"; protein_id "WP_000670989.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1809859 1810716 . + . gene_id "ECDH10B_RS09105"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09105"; old_locus_tag "ECDH10B_1778"; -NC_010473.1 Protein Homology CDS 1809859 1810713 . + 0 gene_id "ECDH10B_RS09105"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416161.4"; locus_tag "ECDH10B_RS09105"; product "HlyD family secretion protein"; protein_id "WP_001300356.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1809859 1809861 . + 0 gene_id "ECDH10B_RS09105"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416161.4"; locus_tag "ECDH10B_RS09105"; product "HlyD family secretion protein"; protein_id "WP_001300356.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1810714 1810716 . + 0 gene_id "ECDH10B_RS09105"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416161.4"; locus_tag "ECDH10B_RS09105"; product "HlyD family secretion protein"; protein_id "WP_001300356.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1810716 1812728 . + . gene_id "ECDH10B_RS09110"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09110"; old_locus_tag "ECDH10B_1779"; -NC_010473.1 Protein Homology CDS 1810716 1812725 . + 0 gene_id "ECDH10B_RS09110"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416162.1"; locus_tag "ECDH10B_RS09110"; product "FUSC family protein"; protein_id "WP_000994333.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1810716 1810718 . + 0 gene_id "ECDH10B_RS09110"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416162.1"; locus_tag "ECDH10B_RS09110"; product "FUSC family protein"; protein_id "WP_000994333.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1812726 1812728 . + 0 gene_id "ECDH10B_RS09110"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416162.1"; locus_tag "ECDH10B_RS09110"; product "FUSC family protein"; protein_id "WP_000994333.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1812729 1813250 . - . gene_id "ECDH10B_RS09115"; transcript_id ""; gbkey "Gene"; gene "sodC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09115"; old_locus_tag "ECDH10B_1780"; -NC_010473.1 Protein Homology CDS 1812732 1813250 . - 0 gene_id "ECDH10B_RS09115"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sodC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310382.1"; locus_tag "ECDH10B_RS09115"; product "superoxide dismutase [Cu-Zn] SodC2"; protein_id "WP_001296937.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1813248 1813250 . - 0 gene_id "ECDH10B_RS09115"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sodC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310382.1"; locus_tag "ECDH10B_RS09115"; product "superoxide dismutase [Cu-Zn] SodC2"; protein_id "WP_001296937.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1812729 1812731 . - 0 gene_id "ECDH10B_RS09115"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sodC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310382.1"; locus_tag "ECDH10B_RS09115"; product "superoxide dismutase [Cu-Zn] SodC2"; protein_id "WP_001296937.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1813331 1814227 . - . gene_id "ECDH10B_RS09120"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09120"; old_locus_tag "ECDH10B_1781"; -NC_010473.1 Protein Homology CDS 1813334 1814227 . - 0 gene_id "ECDH10B_RS09120"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_025305.1"; locus_tag "ECDH10B_RS09120"; product "aldo/keto reductase family oxidoreductase"; protein_id "WP_000250656.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1814225 1814227 . - 0 gene_id "ECDH10B_RS09120"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_025305.1"; locus_tag "ECDH10B_RS09120"; product "aldo/keto reductase family oxidoreductase"; protein_id "WP_000250656.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1813331 1813333 . - 0 gene_id "ECDH10B_RS09120"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_025305.1"; locus_tag "ECDH10B_RS09120"; product "aldo/keto reductase family oxidoreductase"; protein_id "WP_000250656.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1814276 1814515 . - . gene_id "ECDH10B_RS09125"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09125"; old_locus_tag "ECDH10B_1782"; -NC_010473.1 Protein Homology CDS 1814279 1814515 . - 0 gene_id "ECDH10B_RS09125"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416165.2"; locus_tag "ECDH10B_RS09125"; product "DUF1289 domain-containing protein"; protein_id "WP_000840481.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1814513 1814515 . - 0 gene_id "ECDH10B_RS09125"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416165.2"; locus_tag "ECDH10B_RS09125"; product "DUF1289 domain-containing protein"; protein_id "WP_000840481.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1814276 1814278 . - 0 gene_id "ECDH10B_RS09125"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416165.2"; locus_tag "ECDH10B_RS09125"; product "DUF1289 domain-containing protein"; protein_id "WP_000840481.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1814618 1815217 . + . gene_id "ECDH10B_RS09130"; transcript_id ""; gbkey "Gene"; gene "nemR"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09130"; old_locus_tag "ECDH10B_1783"; -NC_010473.1 Protein Homology CDS 1814618 1815214 . + 0 gene_id "ECDH10B_RS09130"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nemR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416166.3"; locus_tag "ECDH10B_RS09130"; product "DNA-binding transcriptional regulator NemR"; protein_id "WP_001032936.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1814618 1814620 . + 0 gene_id "ECDH10B_RS09130"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nemR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416166.3"; locus_tag "ECDH10B_RS09130"; product "DNA-binding transcriptional regulator NemR"; protein_id "WP_001032936.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1815215 1815217 . + 0 gene_id "ECDH10B_RS09130"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nemR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416166.3"; locus_tag "ECDH10B_RS09130"; product "DNA-binding transcriptional regulator NemR"; protein_id "WP_001032936.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1815254 1816351 . + . gene_id "ECDH10B_RS09135"; transcript_id ""; gbkey "Gene"; gene "nemA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09135"; old_locus_tag "ECDH10B_1784"; -NC_010473.1 Protein Homology CDS 1815254 1816348 . + 0 gene_id "ECDH10B_RS09135"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nemA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416167.1"; locus_tag "ECDH10B_RS09135"; product "N-ethylmaleimide reductase"; protein_id "WP_000093589.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1815254 1815256 . + 0 gene_id "ECDH10B_RS09135"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nemA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416167.1"; locus_tag "ECDH10B_RS09135"; product "N-ethylmaleimide reductase"; protein_id "WP_000093589.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1816349 1816351 . + 0 gene_id "ECDH10B_RS09135"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nemA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416167.1"; locus_tag "ECDH10B_RS09135"; product "N-ethylmaleimide reductase"; protein_id "WP_000093589.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1816432 1816839 . + . gene_id "ECDH10B_RS09140"; transcript_id ""; gbkey "Gene"; gene "gloA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09140"; old_locus_tag "ECDH10B_1785"; -NC_010473.1 Protein Homology CDS 1816432 1816836 . + 0 gene_id "ECDH10B_RS09140"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gloA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_008500591.1"; locus_tag "ECDH10B_RS09140"; product "lactoylglutathione lyase"; protein_id "WP_001237796.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1816432 1816434 . + 0 gene_id "ECDH10B_RS09140"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gloA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_008500591.1"; locus_tag "ECDH10B_RS09140"; product "lactoylglutathione lyase"; protein_id "WP_001237796.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1816837 1816839 . + 0 gene_id "ECDH10B_RS09140"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gloA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_008500591.1"; locus_tag "ECDH10B_RS09140"; product "lactoylglutathione lyase"; protein_id "WP_001237796.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1816942 1817589 . + . gene_id "ECDH10B_RS09145"; transcript_id ""; gbkey "Gene"; gene "rnt"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09145"; old_locus_tag "ECDH10B_1786"; -NC_010473.1 Protein Homology CDS 1816942 1817586 . + 0 gene_id "ECDH10B_RS09145"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rnt"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416169.1"; locus_tag "ECDH10B_RS09145"; product "ribonuclease T"; protein_id "WP_001282283.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1816942 1816944 . + 0 gene_id "ECDH10B_RS09145"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rnt"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416169.1"; locus_tag "ECDH10B_RS09145"; product "ribonuclease T"; protein_id "WP_001282283.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1817587 1817589 . + 0 gene_id "ECDH10B_RS09145"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rnt"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416169.1"; locus_tag "ECDH10B_RS09145"; product "ribonuclease T"; protein_id "WP_001282283.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1817682 1822298 . + . gene_id "ECDH10B_RS09150"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09150"; old_locus_tag "ECDH10B_1787"; -NC_010473.1 Protein Homology CDS 1817682 1822295 . + 0 gene_id "ECDH10B_RS09150"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416170.1"; locus_tag "ECDH10B_RS09150"; product "ATP-dependent helicase"; protein_id "WP_001310858.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1817682 1817684 . + 0 gene_id "ECDH10B_RS09150"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416170.1"; locus_tag "ECDH10B_RS09150"; product "ATP-dependent helicase"; protein_id "WP_001310858.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1822296 1822298 . + 0 gene_id "ECDH10B_RS09150"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416170.1"; locus_tag "ECDH10B_RS09150"; product "ATP-dependent helicase"; protein_id "WP_001310858.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1822349 1822696 . - . gene_id "ECDH10B_RS09155"; transcript_id ""; gbkey "Gene"; gene "grxD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09155"; old_locus_tag "ECDH10B_1788"; -NC_010473.1 Protein Homology CDS 1822352 1822696 . - 0 gene_id "ECDH10B_RS09155"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "grxD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310390.1"; locus_tag "ECDH10B_RS09155"; product "monothiol glutaredoxin 4"; protein_id "WP_000108172.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1822694 1822696 . - 0 gene_id "ECDH10B_RS09155"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "grxD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310390.1"; locus_tag "ECDH10B_RS09155"; product "monothiol glutaredoxin 4"; protein_id "WP_000108172.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1822349 1822351 . - 0 gene_id "ECDH10B_RS09155"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "grxD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310390.1"; locus_tag "ECDH10B_RS09155"; product "monothiol glutaredoxin 4"; protein_id "WP_000108172.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1823030 1823845 . + . gene_id "ECDH10B_RS09160"; transcript_id ""; gbkey "Gene"; gene "mepH"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09160"; old_locus_tag "ECDH10B_1789"; -NC_010473.1 Protein Homology CDS 1823030 1823842 . + 0 gene_id "ECDH10B_RS09160"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mepH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416172.1"; locus_tag "ECDH10B_RS09160"; product "peptidoglycan DD-endopeptidase MepH"; protein_id "WP_000101193.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1823030 1823032 . + 0 gene_id "ECDH10B_RS09160"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mepH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416172.1"; locus_tag "ECDH10B_RS09160"; product "peptidoglycan DD-endopeptidase MepH"; protein_id "WP_000101193.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1823843 1823845 . + 0 gene_id "ECDH10B_RS09160"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mepH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416172.1"; locus_tag "ECDH10B_RS09160"; product "peptidoglycan DD-endopeptidase MepH"; protein_id "WP_000101193.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1823973 1824554 . + . gene_id "ECDH10B_RS09165"; transcript_id ""; gbkey "Gene"; gene "sodB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09165"; old_locus_tag "ECDH10B_1790"; -NC_010473.1 Protein Homology CDS 1823973 1824551 . + 0 gene_id "ECDH10B_RS09165"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sodB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310392.1"; locus_tag "ECDH10B_RS09165"; product "superoxide dismutase [Fe]"; protein_id "WP_000007283.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1823973 1823975 . + 0 gene_id "ECDH10B_RS09165"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sodB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310392.1"; locus_tag "ECDH10B_RS09165"; product "superoxide dismutase [Fe]"; protein_id "WP_000007283.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1824552 1824554 . + 0 gene_id "ECDH10B_RS09165"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sodB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310392.1"; locus_tag "ECDH10B_RS09165"; product "superoxide dismutase [Fe]"; protein_id "WP_000007283.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1824716 1825885 . - . gene_id "ECDH10B_RS09170"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09170"; old_locus_tag "ECDH10B_1791"; -NC_010473.1 Protein Homology CDS 1824719 1825885 . - 0 gene_id "ECDH10B_RS09170"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416174.1"; locus_tag "ECDH10B_RS09170"; product "MFS transporter"; protein_id "WP_000701040.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1825883 1825885 . - 0 gene_id "ECDH10B_RS09170"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416174.1"; locus_tag "ECDH10B_RS09170"; product "MFS transporter"; protein_id "WP_000701040.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1824716 1824718 . - 0 gene_id "ECDH10B_RS09170"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416174.1"; locus_tag "ECDH10B_RS09170"; product "MFS transporter"; protein_id "WP_000701040.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1826051 1826140 . - . gene_id "ECDH10B_RS09175"; transcript_id ""; gbkey "Gene"; gene "ynhF"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09175"; -NC_010473.1 Protein Homology CDS 1826054 1826140 . - 0 gene_id "ECDH10B_RS09175"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ynhF"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_001165321.1"; locus_tag "ECDH10B_RS09175"; product "stress response protein YnhF"; protein_id "WP_000102278.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1826138 1826140 . - 0 gene_id "ECDH10B_RS09175"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ynhF"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_001165321.1"; locus_tag "ECDH10B_RS09175"; product "stress response protein YnhF"; protein_id "WP_000102278.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1826051 1826053 . - 0 gene_id "ECDH10B_RS09175"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ynhF"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_001165321.1"; locus_tag "ECDH10B_RS09175"; product "stress response protein YnhF"; protein_id "WP_000102278.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1826439 1827464 . + . gene_id "ECDH10B_RS09180"; transcript_id ""; gbkey "Gene"; gene "purR"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09180"; -NC_010473.1 Protein Homology CDS 1826439 1827461 . + 0 gene_id "ECDH10B_RS09180"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "purR"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005127190.1"; locus_tag "ECDH10B_RS09180"; product "HTH-type transcriptional repressor PurR"; protein_id "WP_000190982.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1826439 1826441 . + 0 gene_id "ECDH10B_RS09180"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "purR"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005127190.1"; locus_tag "ECDH10B_RS09180"; product "HTH-type transcriptional repressor PurR"; protein_id "WP_000190982.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1827462 1827464 . + 0 gene_id "ECDH10B_RS09180"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "purR"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005127190.1"; locus_tag "ECDH10B_RS09180"; product "HTH-type transcriptional repressor PurR"; protein_id "WP_000190982.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1827461 1828393 . - . gene_id "ECDH10B_RS09185"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09185"; old_locus_tag "ECDH10B_1793"; -NC_010473.1 Protein Homology CDS 1827464 1828393 . - 0 gene_id "ECDH10B_RS09185"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310395.1"; locus_tag "ECDH10B_RS09185"; product "LysR family transcriptional regulator"; protein_id "WP_000269501.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1828391 1828393 . - 0 gene_id "ECDH10B_RS09185"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310395.1"; locus_tag "ECDH10B_RS09185"; product "LysR family transcriptional regulator"; protein_id "WP_000269501.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1827461 1827463 . - 0 gene_id "ECDH10B_RS09185"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310395.1"; locus_tag "ECDH10B_RS09185"; product "LysR family transcriptional regulator"; protein_id "WP_000269501.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1828506 1829717 . + . gene_id "ECDH10B_RS09190"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09190"; old_locus_tag "ECDH10B_1794"; -NC_010473.1 Protein Homology CDS 1828506 1829714 . + 0 gene_id "ECDH10B_RS09190"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_025306.1"; locus_tag "ECDH10B_RS09190"; product "Bcr/CflA family multidrug efflux MFS transporter"; protein_id "WP_001182347.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1828506 1828508 . + 0 gene_id "ECDH10B_RS09190"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_025306.1"; locus_tag "ECDH10B_RS09190"; product "Bcr/CflA family multidrug efflux MFS transporter"; protein_id "WP_001182347.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1829715 1829717 . + 0 gene_id "ECDH10B_RS09190"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_025306.1"; locus_tag "ECDH10B_RS09190"; product "Bcr/CflA family multidrug efflux MFS transporter"; protein_id "WP_001182347.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1830008 1831156 . + . gene_id "ECDH10B_RS09195"; transcript_id ""; gbkey "Gene"; gene "cfa"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09195"; old_locus_tag "ECDH10B_1795"; -NC_010473.1 Protein Homology CDS 1830008 1831153 . + 0 gene_id "ECDH10B_RS09195"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cfa"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416178.1"; locus_tag "ECDH10B_RS09195"; product "cyclopropane fatty acyl phospholipid synthase"; protein_id "WP_000098896.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1830008 1830010 . + 0 gene_id "ECDH10B_RS09195"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cfa"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416178.1"; locus_tag "ECDH10B_RS09195"; product "cyclopropane fatty acyl phospholipid synthase"; protein_id "WP_000098896.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1831154 1831156 . + 0 gene_id "ECDH10B_RS09195"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cfa"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416178.1"; locus_tag "ECDH10B_RS09195"; product "cyclopropane fatty acyl phospholipid synthase"; protein_id "WP_000098896.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1831196 1831837 . - . gene_id "ECDH10B_RS09200"; transcript_id ""; gbkey "Gene"; gene "ribE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09200"; old_locus_tag "ECDH10B_1796"; -NC_010473.1 Protein Homology CDS 1831199 1831837 . - 0 gene_id "ECDH10B_RS09200"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ribE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416179.1"; locus_tag "ECDH10B_RS09200"; product "riboflavin synthase"; protein_id "WP_000493947.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1831835 1831837 . - 0 gene_id "ECDH10B_RS09200"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ribE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416179.1"; locus_tag "ECDH10B_RS09200"; product "riboflavin synthase"; protein_id "WP_000493947.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1831196 1831198 . - 0 gene_id "ECDH10B_RS09200"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ribE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416179.1"; locus_tag "ECDH10B_RS09200"; product "riboflavin synthase"; protein_id "WP_000493947.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1832052 1833425 . + . gene_id "ECDH10B_RS09205"; transcript_id ""; gbkey "Gene"; gene "mdtK"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09205"; old_locus_tag "ECDH10B_1797"; -NC_010473.1 Protein Homology CDS 1832052 1833422 . + 0 gene_id "ECDH10B_RS09205"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mdtK"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_025307.1"; locus_tag "ECDH10B_RS09205"; product "multidrug efflux MATE transporter MdtK"; protein_id "WP_001174940.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1832052 1832054 . + 0 gene_id "ECDH10B_RS09205"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mdtK"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_025307.1"; locus_tag "ECDH10B_RS09205"; product "multidrug efflux MATE transporter MdtK"; protein_id "WP_001174940.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1833423 1833425 . + 0 gene_id "ECDH10B_RS09205"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mdtK"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_025307.1"; locus_tag "ECDH10B_RS09205"; product "multidrug efflux MATE transporter MdtK"; protein_id "WP_001174940.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1833466 1834722 . - . gene_id "ECDH10B_RS09210"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09210"; old_locus_tag "ECDH10B_1798"; -NC_010473.1 Protein Homology CDS 1833469 1834722 . - 0 gene_id "ECDH10B_RS09210"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416181.1"; locus_tag "ECDH10B_RS09210"; product "AIDA repeat-containing protein"; protein_id "WP_000534271.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1834720 1834722 . - 0 gene_id "ECDH10B_RS09210"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416181.1"; locus_tag "ECDH10B_RS09210"; product "AIDA repeat-containing protein"; protein_id "WP_000534271.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1833466 1833468 . - 0 gene_id "ECDH10B_RS09210"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416181.1"; locus_tag "ECDH10B_RS09210"; product "AIDA repeat-containing protein"; protein_id "WP_000534271.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1835030 1835106 . + . gene_id "ECDH10B_RS09215"; transcript_id ""; gbkey "Gene"; gene_biotype "tRNA"; locus_tag "ECDH10B_RS09215"; old_locus_tag "ECDH10B_1799"; -NC_010473.1 tRNAscan-SE exon 1835030 1835106 . + . gene_id "ECDH10B_RS09215"; transcript_id "ECDH10B_RS09215"; anticodon "(pos:1835064..1835066)"; gbkey "tRNA"; inference "COORDINATES: profile:tRNAscan-SE:2.0.6"; locus_tag "ECDH10B_RS09215"; product "tRNA-Val"; exon_number "1"; -NC_010473.1 RefSeq gene 1835111 1835187 . + . gene_id "ECDH10B_RS09220"; transcript_id ""; gbkey "Gene"; gene_biotype "tRNA"; locus_tag "ECDH10B_RS09220"; old_locus_tag "ECDH10B_1800"; -NC_010473.1 tRNAscan-SE exon 1835111 1835187 . + . gene_id "ECDH10B_RS09220"; transcript_id "ECDH10B_RS09220"; anticodon "(pos:1835145..1835147)"; gbkey "tRNA"; inference "COORDINATES: profile:tRNAscan-SE:2.0.6"; locus_tag "ECDH10B_RS09220"; product "tRNA-Val"; exon_number "1"; -NC_010473.1 RefSeq gene 1835295 1835600 . + . gene_id "ECDH10B_RS09225"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09225"; old_locus_tag "ECDH10B_1801"; -NC_010473.1 Protein Homology CDS 1835295 1835597 . + 0 gene_id "ECDH10B_RS09225"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416182.1"; locus_tag "ECDH10B_RS09225"; product "monooxygenase"; protein_id "WP_000212657.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1835295 1835297 . + 0 gene_id "ECDH10B_RS09225"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416182.1"; locus_tag "ECDH10B_RS09225"; product "monooxygenase"; protein_id "WP_000212657.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1835598 1835600 . + 0 gene_id "ECDH10B_RS09225"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416182.1"; locus_tag "ECDH10B_RS09225"; product "monooxygenase"; protein_id "WP_000212657.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1835726 1837330 . + . gene_id "ECDH10B_RS09230"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09230"; old_locus_tag "ECDH10B_1802"; -NC_010473.1 Protein Homology CDS 1835726 1837327 . + 0 gene_id "ECDH10B_RS09230"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416183.1"; locus_tag "ECDH10B_RS09230"; product "FAD-NAD(P)-binding protein"; protein_id "WP_000716950.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1835726 1835728 . + 0 gene_id "ECDH10B_RS09230"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416183.1"; locus_tag "ECDH10B_RS09230"; product "FAD-NAD(P)-binding protein"; protein_id "WP_000716950.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1837328 1837330 . + 0 gene_id "ECDH10B_RS09230"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416183.1"; locus_tag "ECDH10B_RS09230"; product "FAD-NAD(P)-binding protein"; protein_id "WP_000716950.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1837342 1838154 . - . gene_id "ECDH10B_RS09235"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09235"; old_locus_tag "ECDH10B_1803"; -NC_010473.1 Protein Homology CDS 1837345 1838154 . - 0 gene_id "ECDH10B_RS09235"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416184.1"; locus_tag "ECDH10B_RS09235"; product "hypothetical protein"; protein_id "WP_000587525.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1838152 1838154 . - 0 gene_id "ECDH10B_RS09235"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416184.1"; locus_tag "ECDH10B_RS09235"; product "hypothetical protein"; protein_id "WP_000587525.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1837342 1837344 . - 0 gene_id "ECDH10B_RS09235"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416184.1"; locus_tag "ECDH10B_RS09235"; product "hypothetical protein"; protein_id "WP_000587525.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1838158 1838943 . - . gene_id "ECDH10B_RS09240"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09240"; old_locus_tag "ECDH10B_1804"; -NC_010473.1 Protein Homology CDS 1838161 1838943 . - 0 gene_id "ECDH10B_RS09240"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416185.1"; locus_tag "ECDH10B_RS09240"; product "thiosulfate reductase cytochrome B subunit"; protein_id "WP_001069979.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1838941 1838943 . - 0 gene_id "ECDH10B_RS09240"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416185.1"; locus_tag "ECDH10B_RS09240"; product "thiosulfate reductase cytochrome B subunit"; protein_id "WP_001069979.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1838158 1838160 . - 0 gene_id "ECDH10B_RS09240"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416185.1"; locus_tag "ECDH10B_RS09240"; product "thiosulfate reductase cytochrome B subunit"; protein_id "WP_001069979.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1838940 1839608 . - . gene_id "ECDH10B_RS09245"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09245"; old_locus_tag "ECDH10B_1805"; -NC_010473.1 Protein Homology CDS 1838943 1839608 . - 0 gene_id "ECDH10B_RS09245"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416186.4"; locus_tag "ECDH10B_RS09245"; product "4Fe-4S dicluster domain-containing protein"; protein_id "WP_001310861.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1839606 1839608 . - 0 gene_id "ECDH10B_RS09245"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416186.4"; locus_tag "ECDH10B_RS09245"; product "4Fe-4S dicluster domain-containing protein"; protein_id "WP_001310861.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1838940 1838942 . - 0 gene_id "ECDH10B_RS09245"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416186.4"; locus_tag "ECDH10B_RS09245"; product "4Fe-4S dicluster domain-containing protein"; protein_id "WP_001310861.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1839672 1840310 . - . gene_id "ECDH10B_RS09250"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09250"; old_locus_tag "ECDH10B_1806"; -NC_010473.1 Protein Homology CDS 1839675 1840310 . - 0 gene_id "ECDH10B_RS09250"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_707570.2"; locus_tag "ECDH10B_RS09250"; product "YdhW family putative oxidoreductase system protein"; protein_id "WP_001301419.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1840308 1840310 . - 0 gene_id "ECDH10B_RS09250"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_707570.2"; locus_tag "ECDH10B_RS09250"; product "YdhW family putative oxidoreductase system protein"; protein_id "WP_001301419.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1839672 1839674 . - 0 gene_id "ECDH10B_RS09250"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_707570.2"; locus_tag "ECDH10B_RS09250"; product "YdhW family putative oxidoreductase system protein"; protein_id "WP_001301419.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1840323 1842425 . - . gene_id "ECDH10B_RS09255"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09255"; old_locus_tag "ECDH10B_1807"; -NC_010473.1 Protein Homology CDS 1840326 1842425 . - 0 gene_id "ECDH10B_RS09255"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416188.1"; locus_tag "ECDH10B_RS09255"; product "aldehyde ferredoxin oxidoreductase"; protein_id "WP_001273527.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1842423 1842425 . - 0 gene_id "ECDH10B_RS09255"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416188.1"; locus_tag "ECDH10B_RS09255"; product "aldehyde ferredoxin oxidoreductase"; protein_id "WP_001273527.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1840323 1840325 . - 0 gene_id "ECDH10B_RS09255"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416188.1"; locus_tag "ECDH10B_RS09255"; product "aldehyde ferredoxin oxidoreductase"; protein_id "WP_001273527.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1842446 1843072 . - . gene_id "ECDH10B_RS09260"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09260"; old_locus_tag "ECDH10B_1808"; -NC_010473.1 Protein Homology CDS 1842449 1843072 . - 0 gene_id "ECDH10B_RS09260"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310408.1"; locus_tag "ECDH10B_RS09260"; product "ferredoxin-like protein"; protein_id "WP_001070230.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1843070 1843072 . - 0 gene_id "ECDH10B_RS09260"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310408.1"; locus_tag "ECDH10B_RS09260"; product "ferredoxin-like protein"; protein_id "WP_001070230.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1842446 1842448 . - 0 gene_id "ECDH10B_RS09260"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310408.1"; locus_tag "ECDH10B_RS09260"; product "ferredoxin-like protein"; protein_id "WP_001070230.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1843527 1843736 . - . gene_id "ECDH10B_RS09265"; transcript_id ""; gbkey "Gene"; gene "fumD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09265"; old_locus_tag "ECDH10B_1809"; -NC_010473.1 Protein Homology CDS 1843530 1843736 . - 0 gene_id "ECDH10B_RS09265"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fumD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310409.1"; locus_tag "ECDH10B_RS09265"; product "fumarate hydratase FumD"; protein_id "WP_000528342.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1843734 1843736 . - 0 gene_id "ECDH10B_RS09265"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fumD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310409.1"; locus_tag "ECDH10B_RS09265"; product "fumarate hydratase FumD"; protein_id "WP_000528342.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1843527 1843529 . - 0 gene_id "ECDH10B_RS09265"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fumD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310409.1"; locus_tag "ECDH10B_RS09265"; product "fumarate hydratase FumD"; protein_id "WP_000528342.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1844293 1845705 . + . gene_id "ECDH10B_RS09270"; transcript_id ""; gbkey "Gene"; gene "pykF"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09270"; old_locus_tag "ECDH10B_1810"; -NC_010473.1 Protein Homology CDS 1844293 1845702 . + 0 gene_id "ECDH10B_RS09270"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pykF"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_010346010.1"; locus_tag "ECDH10B_RS09270"; product "pyruvate kinase PykF"; protein_id "WP_001295403.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1844293 1844295 . + 0 gene_id "ECDH10B_RS09270"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pykF"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_010346010.1"; locus_tag "ECDH10B_RS09270"; product "pyruvate kinase PykF"; protein_id "WP_001295403.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1845703 1845705 . + 0 gene_id "ECDH10B_RS09270"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pykF"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_010346010.1"; locus_tag "ECDH10B_RS09270"; product "pyruvate kinase PykF"; protein_id "WP_001295403.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1846016 1846252 . + . gene_id "ECDH10B_RS09275"; transcript_id ""; gbkey "Gene"; gene "lpp"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09275"; old_locus_tag "ECDH10B_1811"; -NC_010473.1 Protein Homology CDS 1846016 1846249 . + 0 gene_id "ECDH10B_RS09275"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lpp"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310411.1"; locus_tag "ECDH10B_RS09275"; product "murein lipoprotein Lpp"; protein_id "WP_000648420.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1846016 1846018 . + 0 gene_id "ECDH10B_RS09275"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lpp"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310411.1"; locus_tag "ECDH10B_RS09275"; product "murein lipoprotein Lpp"; protein_id "WP_000648420.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1846250 1846252 . + 0 gene_id "ECDH10B_RS09275"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lpp"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310411.1"; locus_tag "ECDH10B_RS09275"; product "murein lipoprotein Lpp"; protein_id "WP_000648420.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1846316 1847320 . - . gene_id "ECDH10B_RS09280"; transcript_id ""; gbkey "Gene"; gene "ldtE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09280"; old_locus_tag "ECDH10B_1812"; -NC_010473.1 Protein Homology CDS 1846319 1847320 . - 0 gene_id "ECDH10B_RS09280"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ldtE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416193.1"; locus_tag "ECDH10B_RS09280"; product "L,D-transpeptidase LdtE"; protein_id "WP_000817105.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1847318 1847320 . - 0 gene_id "ECDH10B_RS09280"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ldtE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416193.1"; locus_tag "ECDH10B_RS09280"; product "L,D-transpeptidase LdtE"; protein_id "WP_000817105.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1846316 1846318 . - 0 gene_id "ECDH10B_RS09280"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ldtE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416193.1"; locus_tag "ECDH10B_RS09280"; product "L,D-transpeptidase LdtE"; protein_id "WP_000817105.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1847469 1847885 . - . gene_id "ECDH10B_RS09285"; transcript_id ""; gbkey "Gene"; gene "sufE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09285"; old_locus_tag "ECDH10B_1813"; -NC_010473.1 Protein Homology CDS 1847472 1847885 . - 0 gene_id "ECDH10B_RS09285"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sufE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416194.1"; locus_tag "ECDH10B_RS09285"; product "cysteine desulfuration protein SufE"; protein_id "WP_001196530.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1847883 1847885 . - 0 gene_id "ECDH10B_RS09285"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sufE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416194.1"; locus_tag "ECDH10B_RS09285"; product "cysteine desulfuration protein SufE"; protein_id "WP_001196530.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1847469 1847471 . - 0 gene_id "ECDH10B_RS09285"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sufE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416194.1"; locus_tag "ECDH10B_RS09285"; product "cysteine desulfuration protein SufE"; protein_id "WP_001196530.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1847898 1849118 . - . gene_id "ECDH10B_RS09290"; transcript_id ""; gbkey "Gene"; gene "sufS"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09290"; old_locus_tag "ECDH10B_1814"; -NC_010473.1 Protein Homology CDS 1847901 1849118 . - 0 gene_id "ECDH10B_RS09290"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sufS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416195.1"; locus_tag "ECDH10B_RS09290"; product "cysteine desulfurase SufS"; protein_id "WP_000577988.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1849116 1849118 . - 0 gene_id "ECDH10B_RS09290"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sufS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416195.1"; locus_tag "ECDH10B_RS09290"; product "cysteine desulfurase SufS"; protein_id "WP_000577988.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1847898 1847900 . - 0 gene_id "ECDH10B_RS09290"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sufS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416195.1"; locus_tag "ECDH10B_RS09290"; product "cysteine desulfurase SufS"; protein_id "WP_000577988.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1849115 1850386 . - . gene_id "ECDH10B_RS09295"; transcript_id ""; gbkey "Gene"; gene "sufD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09295"; old_locus_tag "ECDH10B_1815"; -NC_010473.1 Protein Homology CDS 1849118 1850386 . - 0 gene_id "ECDH10B_RS09295"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sufD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416196.1"; locus_tag "ECDH10B_RS09295"; product "Fe-S cluster assembly protein SufD"; protein_id "WP_000907979.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1850384 1850386 . - 0 gene_id "ECDH10B_RS09295"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sufD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416196.1"; locus_tag "ECDH10B_RS09295"; product "Fe-S cluster assembly protein SufD"; protein_id "WP_000907979.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1849115 1849117 . - 0 gene_id "ECDH10B_RS09295"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sufD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416196.1"; locus_tag "ECDH10B_RS09295"; product "Fe-S cluster assembly protein SufD"; protein_id "WP_000907979.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1850361 1851107 . - . gene_id "ECDH10B_RS09300"; transcript_id ""; gbkey "Gene"; gene "sufC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09300"; old_locus_tag "ECDH10B_1816"; -NC_010473.1 Protein Homology CDS 1850364 1851107 . - 0 gene_id "ECDH10B_RS09300"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sufC"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_008500629.1"; locus_tag "ECDH10B_RS09300"; product "Fe-S cluster assembly ATPase SufC"; protein_id "WP_000948863.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1851105 1851107 . - 0 gene_id "ECDH10B_RS09300"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sufC"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_008500629.1"; locus_tag "ECDH10B_RS09300"; product "Fe-S cluster assembly ATPase SufC"; protein_id "WP_000948863.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1850361 1850363 . - 0 gene_id "ECDH10B_RS09300"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sufC"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_008500629.1"; locus_tag "ECDH10B_RS09300"; product "Fe-S cluster assembly ATPase SufC"; protein_id "WP_000948863.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1851117 1852604 . - . gene_id "ECDH10B_RS09305"; transcript_id ""; gbkey "Gene"; gene "sufB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09305"; old_locus_tag "ECDH10B_1817"; -NC_010473.1 Protein Homology CDS 1851120 1852604 . - 0 gene_id "ECDH10B_RS09305"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sufB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416198.2"; locus_tag "ECDH10B_RS09305"; product "Fe-S cluster assembly protein SufB"; protein_id "WP_000089364.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1852602 1852604 . - 0 gene_id "ECDH10B_RS09305"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sufB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416198.2"; locus_tag "ECDH10B_RS09305"; product "Fe-S cluster assembly protein SufB"; protein_id "WP_000089364.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1851117 1851119 . - 0 gene_id "ECDH10B_RS09305"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sufB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416198.2"; locus_tag "ECDH10B_RS09305"; product "Fe-S cluster assembly protein SufB"; protein_id "WP_000089364.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1852613 1852981 . - . gene_id "ECDH10B_RS09310"; transcript_id ""; gbkey "Gene"; gene "sufA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09310"; old_locus_tag "ECDH10B_1818"; -NC_010473.1 Protein Homology CDS 1852616 1852981 . - 0 gene_id "ECDH10B_RS09310"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sufA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416199.1"; locus_tag "ECDH10B_RS09310"; product "Fe-S cluster assembly scaffold SufA"; protein_id "WP_000367160.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1852979 1852981 . - 0 gene_id "ECDH10B_RS09310"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sufA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416199.1"; locus_tag "ECDH10B_RS09310"; product "Fe-S cluster assembly scaffold SufA"; protein_id "WP_000367160.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1852613 1852615 . - 0 gene_id "ECDH10B_RS09310"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sufA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416199.1"; locus_tag "ECDH10B_RS09310"; product "Fe-S cluster assembly scaffold SufA"; protein_id "WP_000367160.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1853529 1853717 . - . gene_id "ECDH10B_RS09315"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09315"; old_locus_tag "ECDH10B_1820"; -NC_010473.1 Protein Homology CDS 1853532 1853717 . - 0 gene_id "ECDH10B_RS09315"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416200.2"; locus_tag "ECDH10B_RS09315"; product "YdiH family protein"; protein_id "WP_001296104.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1853715 1853717 . - 0 gene_id "ECDH10B_RS09315"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416200.2"; locus_tag "ECDH10B_RS09315"; product "YdiH family protein"; protein_id "WP_001296104.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1853529 1853531 . - 0 gene_id "ECDH10B_RS09315"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416200.2"; locus_tag "ECDH10B_RS09315"; product "YdiH family protein"; protein_id "WP_001296104.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1853817 1854227 . - . gene_id "ECDH10B_RS09320"; transcript_id ""; gbkey "Gene"; gene "menI"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09320"; old_locus_tag "ECDH10B_1821"; -NC_010473.1 Protein Homology CDS 1853820 1854227 . - 0 gene_id "ECDH10B_RS09320"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "menI"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416201.1"; locus_tag "ECDH10B_RS09320"; product "1,4-dihydroxy-2-naphthoyl-CoA hydrolase"; protein_id "WP_000637982.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1854225 1854227 . - 0 gene_id "ECDH10B_RS09320"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "menI"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416201.1"; locus_tag "ECDH10B_RS09320"; product "1,4-dihydroxy-2-naphthoyl-CoA hydrolase"; protein_id "WP_000637982.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1853817 1853819 . - 0 gene_id "ECDH10B_RS09320"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "menI"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416201.1"; locus_tag "ECDH10B_RS09320"; product "1,4-dihydroxy-2-naphthoyl-CoA hydrolase"; protein_id "WP_000637982.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1854224 1857280 . - . gene_id "ECDH10B_RS09325"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09325"; old_locus_tag "ECDH10B_1822"; -NC_010473.1 Protein Homology CDS 1854227 1857280 . - 0 gene_id "ECDH10B_RS09325"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416202.1"; locus_tag "ECDH10B_RS09325"; product "FAD-binding oxidoreductase"; protein_id "WP_000613008.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1857278 1857280 . - 0 gene_id "ECDH10B_RS09325"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416202.1"; locus_tag "ECDH10B_RS09325"; product "FAD-binding oxidoreductase"; protein_id "WP_000613008.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1854224 1854226 . - 0 gene_id "ECDH10B_RS09325"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416202.1"; locus_tag "ECDH10B_RS09325"; product "FAD-binding oxidoreductase"; protein_id "WP_000613008.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1857669 1858781 . + . gene_id "ECDH10B_RS09330"; transcript_id ""; gbkey "Gene"; gene "ydiK"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09330"; old_locus_tag "ECDH10B_1823"; -NC_010473.1 Protein Homology CDS 1857669 1858778 . + 0 gene_id "ECDH10B_RS09330"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ydiK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416203.1"; locus_tag "ECDH10B_RS09330"; product "AI-2E family transporter YdiK"; protein_id "WP_000248636.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1857669 1857671 . + 0 gene_id "ECDH10B_RS09330"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ydiK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416203.1"; locus_tag "ECDH10B_RS09330"; product "AI-2E family transporter YdiK"; protein_id "WP_000248636.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1858779 1858781 . + 0 gene_id "ECDH10B_RS09330"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ydiK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416203.1"; locus_tag "ECDH10B_RS09330"; product "AI-2E family transporter YdiK"; protein_id "WP_000248636.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1858967 1859074 . + . gene_id "ECDH10B_RS23375"; transcript_id ""; gbkey "Gene"; gene "rprA"; gene_biotype "antisense_RNA"; locus_tag "ECDH10B_RS23375"; old_locus_tag "ECDH10B_1824"; -NC_010473.1 cmsearch exon 1858967 1859074 . + . gene_id "ECDH10B_RS23375"; transcript_id "ECDH10B_RS23375"; db_xref "RFAM:RF00034"; gbkey "ncRNA"; gene "rprA"; inference "COORDINATES: nucleotide motif:Rfam:12.0:RF00034"; inference "COORDINATES: profile:INFERNAL:1.1.1"; locus_tag "ECDH10B_RS23375"; product "antisense sRNA RprA"; exon_number "1"; -NC_010473.1 RefSeq gene 1859210 1859566 . + . gene_id "ECDH10B_RS09335"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09335"; old_locus_tag "ECDH10B_1825"; -NC_010473.1 Protein Homology CDS 1859210 1859563 . + 0 gene_id "ECDH10B_RS09335"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416204.2"; locus_tag "ECDH10B_RS09335"; product "YdiL family protein"; protein_id "WP_001310864.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1859210 1859212 . + 0 gene_id "ECDH10B_RS09335"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416204.2"; locus_tag "ECDH10B_RS09335"; product "YdiL family protein"; protein_id "WP_001310864.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1859564 1859566 . + 0 gene_id "ECDH10B_RS09335"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416204.2"; locus_tag "ECDH10B_RS09335"; product "YdiL family protein"; protein_id "WP_001310864.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1859666 1860880 . + . gene_id "ECDH10B_RS09340"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09340"; old_locus_tag "ECDH10B_1826"; -NC_010473.1 Protein Homology CDS 1859666 1860877 . + 0 gene_id "ECDH10B_RS09340"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416205.1"; locus_tag "ECDH10B_RS09340"; product "MFS transporter"; protein_id "WP_000795537.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1859666 1859668 . + 0 gene_id "ECDH10B_RS09340"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416205.1"; locus_tag "ECDH10B_RS09340"; product "MFS transporter"; protein_id "WP_000795537.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1860878 1860880 . + 0 gene_id "ECDH10B_RS09340"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416205.1"; locus_tag "ECDH10B_RS09340"; product "MFS transporter"; protein_id "WP_000795537.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1861107 1862372 . + . gene_id "ECDH10B_RS09345"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09345"; old_locus_tag "ECDH10B_1827"; -NC_010473.1 Protein Homology CDS 1861107 1862369 . + 0 gene_id "ECDH10B_RS09345"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416206.6"; locus_tag "ECDH10B_RS09345"; product "MFS transporter"; protein_id "WP_000081197.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1861107 1861109 . + 0 gene_id "ECDH10B_RS09345"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416206.6"; locus_tag "ECDH10B_RS09345"; product "MFS transporter"; protein_id "WP_000081197.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1862370 1862372 . + 0 gene_id "ECDH10B_RS09345"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416206.6"; locus_tag "ECDH10B_RS09345"; product "MFS transporter"; protein_id "WP_000081197.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1862384 1863250 . + . gene_id "ECDH10B_RS09350"; transcript_id ""; gbkey "Gene"; gene "ydiB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09350"; old_locus_tag "ECDH10B_1828"; -NC_010473.1 Protein Homology CDS 1862384 1863247 . + 0 gene_id "ECDH10B_RS09350"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ydiB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416207.1"; locus_tag "ECDH10B_RS09350"; product "quinate/shikimate dehydrogenase"; protein_id "WP_000383469.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1862384 1862386 . + 0 gene_id "ECDH10B_RS09350"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ydiB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416207.1"; locus_tag "ECDH10B_RS09350"; product "quinate/shikimate dehydrogenase"; protein_id "WP_000383469.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1863248 1863250 . + 0 gene_id "ECDH10B_RS09350"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ydiB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416207.1"; locus_tag "ECDH10B_RS09350"; product "quinate/shikimate dehydrogenase"; protein_id "WP_000383469.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1863281 1864039 . + . gene_id "ECDH10B_RS09355"; transcript_id ""; gbkey "Gene"; gene "aroD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09355"; old_locus_tag "ECDH10B_1829"; -NC_010473.1 Protein Homology CDS 1863281 1864036 . + 0 gene_id "ECDH10B_RS09355"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "aroD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416208.1"; locus_tag "ECDH10B_RS09355"; product "type I 3-dehydroquinate dehydratase"; protein_id "WP_000860201.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1863281 1863283 . + 0 gene_id "ECDH10B_RS09355"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "aroD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416208.1"; locus_tag "ECDH10B_RS09355"; product "type I 3-dehydroquinate dehydratase"; protein_id "WP_000860201.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1864037 1864039 . + 0 gene_id "ECDH10B_RS09355"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "aroD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416208.1"; locus_tag "ECDH10B_RS09355"; product "type I 3-dehydroquinate dehydratase"; protein_id "WP_000860201.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1864182 1865777 . + . gene_id "ECDH10B_RS09360"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09360"; -NC_010473.1 Protein Homology CDS 1864182 1865774 . + 0 gene_id "ECDH10B_RS09360"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416209.1"; locus_tag "ECDH10B_RS09360"; product "acyl CoA:acetate/3-ketoacid CoA transferase"; protein_id "WP_000805697.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1864182 1864184 . + 0 gene_id "ECDH10B_RS09360"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416209.1"; locus_tag "ECDH10B_RS09360"; product "acyl CoA:acetate/3-ketoacid CoA transferase"; protein_id "WP_000805697.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1865775 1865777 . + 0 gene_id "ECDH10B_RS09360"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416209.1"; locus_tag "ECDH10B_RS09360"; product "acyl CoA:acetate/3-ketoacid CoA transferase"; protein_id "WP_000805697.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1865791 1866942 . + . gene_id "ECDH10B_RS09365"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09365"; old_locus_tag "ECDH10B_1831"; -NC_010473.1 Protein Homology CDS 1865791 1866939 . + 0 gene_id "ECDH10B_RS09365"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310429.2"; locus_tag "ECDH10B_RS09365"; product "acyl-CoA dehydrogenase"; protein_id "WP_000347850.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1865791 1865793 . + 0 gene_id "ECDH10B_RS09365"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310429.2"; locus_tag "ECDH10B_RS09365"; product "acyl-CoA dehydrogenase"; protein_id "WP_000347850.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1866940 1866942 . + 0 gene_id "ECDH10B_RS09365"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310429.2"; locus_tag "ECDH10B_RS09365"; product "acyl-CoA dehydrogenase"; protein_id "WP_000347850.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1866985 1867896 . - . gene_id "ECDH10B_RS09370"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09370"; old_locus_tag "ECDH10B_1832"; -NC_010473.1 Protein Homology CDS 1866988 1867896 . - 0 gene_id "ECDH10B_RS09370"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416211.1"; locus_tag "ECDH10B_RS09370"; product "AraC family transcriptional regulator"; protein_id "WP_000284799.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1867894 1867896 . - 0 gene_id "ECDH10B_RS09370"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416211.1"; locus_tag "ECDH10B_RS09370"; product "AraC family transcriptional regulator"; protein_id "WP_000284799.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1866985 1866987 . - 0 gene_id "ECDH10B_RS09370"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416211.1"; locus_tag "ECDH10B_RS09370"; product "AraC family transcriptional regulator"; protein_id "WP_000284799.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1868212 1868976 . + . gene_id "ECDH10B_RS09380"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09380"; old_locus_tag "ECDH10B_1833"; -NC_010473.1 Protein Homology CDS 1868212 1868973 . + 0 gene_id "ECDH10B_RS09380"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416212.1"; locus_tag "ECDH10B_RS09380"; product "electron transfer flavoprotein"; protein_id "WP_000692135.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1868212 1868214 . + 0 gene_id "ECDH10B_RS09380"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416212.1"; locus_tag "ECDH10B_RS09380"; product "electron transfer flavoprotein"; protein_id "WP_000692135.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1868974 1868976 . + 0 gene_id "ECDH10B_RS09380"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416212.1"; locus_tag "ECDH10B_RS09380"; product "electron transfer flavoprotein"; protein_id "WP_000692135.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1868996 1869934 . + . gene_id "ECDH10B_RS09385"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09385"; old_locus_tag "ECDH10B_1834"; -NC_010473.1 Protein Homology CDS 1868996 1869931 . + 0 gene_id "ECDH10B_RS09385"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416213.1"; locus_tag "ECDH10B_RS09385"; product "electron transfer flavoprotein subunit alpha"; protein_id "WP_000080722.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1868996 1868998 . + 0 gene_id "ECDH10B_RS09385"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416213.1"; locus_tag "ECDH10B_RS09385"; product "electron transfer flavoprotein subunit alpha"; protein_id "WP_000080722.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1869932 1869934 . + 0 gene_id "ECDH10B_RS09385"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416213.1"; locus_tag "ECDH10B_RS09385"; product "electron transfer flavoprotein subunit alpha"; protein_id "WP_000080722.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1869990 1871279 . + . gene_id "ECDH10B_RS09390"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09390"; old_locus_tag "ECDH10B_1835"; -NC_010473.1 Protein Homology CDS 1869990 1871276 . + 0 gene_id "ECDH10B_RS09390"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416214.1"; locus_tag "ECDH10B_RS09390"; product "FAD-dependent oxidoreductase"; protein_id "WP_001278525.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1869990 1869992 . + 0 gene_id "ECDH10B_RS09390"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416214.1"; locus_tag "ECDH10B_RS09390"; product "FAD-dependent oxidoreductase"; protein_id "WP_001278525.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1871277 1871279 . + 0 gene_id "ECDH10B_RS09390"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416214.1"; locus_tag "ECDH10B_RS09390"; product "FAD-dependent oxidoreductase"; protein_id "WP_001278525.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1871276 1871569 . + . gene_id "ECDH10B_RS09395"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09395"; old_locus_tag "ECDH10B_1836"; -NC_010473.1 Protein Homology CDS 1871276 1871566 . + 0 gene_id "ECDH10B_RS09395"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416215.1"; locus_tag "ECDH10B_RS09395"; product "ferredoxin family protein"; protein_id "WP_000081081.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1871276 1871278 . + 0 gene_id "ECDH10B_RS09395"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416215.1"; locus_tag "ECDH10B_RS09395"; product "ferredoxin family protein"; protein_id "WP_000081081.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1871567 1871569 . + 0 gene_id "ECDH10B_RS09395"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416215.1"; locus_tag "ECDH10B_RS09395"; product "ferredoxin family protein"; protein_id "WP_000081081.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1871626 1873272 . + . gene_id "ECDH10B_RS09400"; transcript_id ""; gbkey "Gene"; gene "fadK"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09400"; old_locus_tag "ECDH10B_1837"; -NC_010473.1 Protein Homology CDS 1871626 1873269 . + 0 gene_id "ECDH10B_RS09400"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fadK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310435.2"; locus_tag "ECDH10B_RS09400"; product "medium-chain fatty-acid--CoA ligase"; protein_id "WP_001336282.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1871626 1871628 . + 0 gene_id "ECDH10B_RS09400"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fadK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310435.2"; locus_tag "ECDH10B_RS09400"; product "medium-chain fatty-acid--CoA ligase"; protein_id "WP_001336282.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1873270 1873272 . + 0 gene_id "ECDH10B_RS09400"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fadK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310435.2"; locus_tag "ECDH10B_RS09400"; product "medium-chain fatty-acid--CoA ligase"; protein_id "WP_001336282.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1873329 1875707 . - . gene_id "ECDH10B_RS09405"; transcript_id ""; gbkey "Gene"; gene "ppsA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09405"; old_locus_tag "ECDH10B_1838"; -NC_010473.1 Protein Homology CDS 1873332 1875707 . - 0 gene_id "ECDH10B_RS09405"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ppsA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416217.1"; locus_tag "ECDH10B_RS09405"; product "phosphoenolpyruvate synthase"; protein_id "WP_000069375.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1875705 1875707 . - 0 gene_id "ECDH10B_RS09405"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ppsA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416217.1"; locus_tag "ECDH10B_RS09405"; product "phosphoenolpyruvate synthase"; protein_id "WP_000069375.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1873329 1873331 . - 0 gene_id "ECDH10B_RS09405"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ppsA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416217.1"; locus_tag "ECDH10B_RS09405"; product "phosphoenolpyruvate synthase"; protein_id "WP_000069375.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1876040 1876873 . + . gene_id "ECDH10B_RS09415"; transcript_id ""; gbkey "Gene"; gene "ppsR"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09415"; old_locus_tag "ECDH10B_1839"; -NC_010473.1 Protein Homology CDS 1876040 1876870 . + 0 gene_id "ECDH10B_RS09415"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ppsR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310437.1"; locus_tag "ECDH10B_RS09415"; product "posphoenolpyruvate synthetase regulatory kinase/phosphorylase PpsR"; protein_id "WP_000368046.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1876040 1876042 . + 0 gene_id "ECDH10B_RS09415"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ppsR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310437.1"; locus_tag "ECDH10B_RS09415"; product "posphoenolpyruvate synthetase regulatory kinase/phosphorylase PpsR"; protein_id "WP_000368046.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1876871 1876873 . + 0 gene_id "ECDH10B_RS09415"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ppsR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310437.1"; locus_tag "ECDH10B_RS09415"; product "posphoenolpyruvate synthetase regulatory kinase/phosphorylase PpsR"; protein_id "WP_000368046.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1877030 1878076 . + . gene_id "ECDH10B_RS09420"; transcript_id ""; gbkey "Gene"; gene "aroH"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09420"; old_locus_tag "ECDH10B_1840"; -NC_010473.1 Protein Homology CDS 1877030 1878073 . + 0 gene_id "ECDH10B_RS09420"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "aroH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416219.1"; locus_tag "ECDH10B_RS09420"; product "3-deoxy-7-phosphoheptulonate synthase AroH"; protein_id "WP_001082229.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1877030 1877032 . + 0 gene_id "ECDH10B_RS09420"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "aroH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416219.1"; locus_tag "ECDH10B_RS09420"; product "3-deoxy-7-phosphoheptulonate synthase AroH"; protein_id "WP_001082229.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1878074 1878076 . + 0 gene_id "ECDH10B_RS09420"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "aroH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416219.1"; locus_tag "ECDH10B_RS09420"; product "3-deoxy-7-phosphoheptulonate synthase AroH"; protein_id "WP_001082229.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1878208 1878399 . + . gene_id "ECDH10B_RS09425"; transcript_id ""; gbkey "Gene"; gene "hemP"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09425"; old_locus_tag "ECDH10B_1841"; -NC_010473.1 Protein Homology CDS 1878208 1878396 . + 0 gene_id "ECDH10B_RS09425"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hemP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310439.1"; locus_tag "ECDH10B_RS09425"; product "hemin uptake protein HemP"; protein_id "WP_001270809.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1878208 1878210 . + 0 gene_id "ECDH10B_RS09425"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hemP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310439.1"; locus_tag "ECDH10B_RS09425"; product "hemin uptake protein HemP"; protein_id "WP_001270809.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1878397 1878399 . + 0 gene_id "ECDH10B_RS09425"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hemP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310439.1"; locus_tag "ECDH10B_RS09425"; product "hemin uptake protein HemP"; protein_id "WP_001270809.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1878403 1879839 . - . gene_id "ECDH10B_RS09430"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09430"; old_locus_tag "ECDH10B_1842"; -NC_010473.1 Protein Homology CDS 1878406 1879839 . - 0 gene_id "ECDH10B_RS09430"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416221.1"; locus_tag "ECDH10B_RS09430"; product "YdiU family protein"; protein_id "WP_000175703.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1879837 1879839 . - 0 gene_id "ECDH10B_RS09430"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416221.1"; locus_tag "ECDH10B_RS09430"; product "YdiU family protein"; protein_id "WP_000175703.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1878403 1878405 . - 0 gene_id "ECDH10B_RS09430"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416221.1"; locus_tag "ECDH10B_RS09430"; product "YdiU family protein"; protein_id "WP_000175703.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1879902 1880615 . - . gene_id "ECDH10B_RS09435"; transcript_id ""; gbkey "Gene"; gene "ydiV"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09435"; old_locus_tag "ECDH10B_1843"; -NC_010473.1 Protein Homology CDS 1879905 1880615 . - 0 gene_id "ECDH10B_RS09435"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ydiV"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416222.1"; locus_tag "ECDH10B_RS09435"; product "anti-FlhDC factor"; protein_id "WP_001300634.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1880613 1880615 . - 0 gene_id "ECDH10B_RS09435"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ydiV"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416222.1"; locus_tag "ECDH10B_RS09435"; product "anti-FlhDC factor"; protein_id "WP_001300634.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1879902 1879904 . - 0 gene_id "ECDH10B_RS09435"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ydiV"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416222.1"; locus_tag "ECDH10B_RS09435"; product "anti-FlhDC factor"; protein_id "WP_001300634.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1880862 1881326 . - . gene_id "ECDH10B_RS09440"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09440"; old_locus_tag "ECDH10B_1844"; -NC_010473.1 Protein Homology CDS 1880865 1881326 . - 0 gene_id "ECDH10B_RS09440"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416223.1"; locus_tag "ECDH10B_RS09440"; product "endopeptidase"; protein_id "WP_001209795.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1881324 1881326 . - 0 gene_id "ECDH10B_RS09440"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416223.1"; locus_tag "ECDH10B_RS09440"; product "endopeptidase"; protein_id "WP_001209795.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1880862 1880864 . - 0 gene_id "ECDH10B_RS09440"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416223.1"; locus_tag "ECDH10B_RS09440"; product "endopeptidase"; protein_id "WP_001209795.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1881404 1882153 . - . gene_id "ECDH10B_RS09445"; transcript_id ""; gbkey "Gene"; gene "btuD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09445"; old_locus_tag "ECDH10B_1845"; -NC_010473.1 Protein Homology CDS 1881407 1882153 . - 0 gene_id "ECDH10B_RS09445"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "btuD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416224.1"; locus_tag "ECDH10B_RS09445"; product "vitamin B12 ABC transporter ATP-binding protein BtuD"; protein_id "WP_000029474.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1882151 1882153 . - 0 gene_id "ECDH10B_RS09445"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "btuD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416224.1"; locus_tag "ECDH10B_RS09445"; product "vitamin B12 ABC transporter ATP-binding protein BtuD"; protein_id "WP_000029474.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1881404 1881406 . - 0 gene_id "ECDH10B_RS09445"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "btuD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416224.1"; locus_tag "ECDH10B_RS09445"; product "vitamin B12 ABC transporter ATP-binding protein BtuD"; protein_id "WP_000029474.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1882153 1882704 . - . gene_id "ECDH10B_RS09450"; transcript_id ""; gbkey "Gene"; gene "btuE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09450"; old_locus_tag "ECDH10B_1846"; -NC_010473.1 Protein Homology CDS 1882156 1882704 . - 0 gene_id "ECDH10B_RS09450"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "btuE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416225.1"; locus_tag "ECDH10B_RS09450"; product "bifunctional thioredoxin/glutathione peroxidase"; protein_id "WP_001154168.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1882702 1882704 . - 0 gene_id "ECDH10B_RS09450"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "btuE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416225.1"; locus_tag "ECDH10B_RS09450"; product "bifunctional thioredoxin/glutathione peroxidase"; protein_id "WP_001154168.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1882153 1882155 . - 0 gene_id "ECDH10B_RS09450"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "btuE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416225.1"; locus_tag "ECDH10B_RS09450"; product "bifunctional thioredoxin/glutathione peroxidase"; protein_id "WP_001154168.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1882767 1883747 . - . gene_id "ECDH10B_RS09455"; transcript_id ""; gbkey "Gene"; gene "btuC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09455"; old_locus_tag "ECDH10B_1847"; -NC_010473.1 Protein Homology CDS 1882770 1883747 . - 0 gene_id "ECDH10B_RS09455"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "btuC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416226.1"; locus_tag "ECDH10B_RS09455"; product "vitamin B12 ABC transporter permease BtuC"; protein_id "WP_000956528.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1883745 1883747 . - 0 gene_id "ECDH10B_RS09455"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "btuC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416226.1"; locus_tag "ECDH10B_RS09455"; product "vitamin B12 ABC transporter permease BtuC"; protein_id "WP_000956528.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1882767 1882769 . - 0 gene_id "ECDH10B_RS09455"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "btuC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416226.1"; locus_tag "ECDH10B_RS09455"; product "vitamin B12 ABC transporter permease BtuC"; protein_id "WP_000956528.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1883848 1884147 . - . gene_id "ECDH10B_RS09460"; transcript_id ""; gbkey "Gene"; gene "ihfA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09460"; old_locus_tag "ECDH10B_1848"; -NC_010473.1 Protein Homology CDS 1883851 1884147 . - 0 gene_id "ECDH10B_RS09460"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ihfA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310446.1"; locus_tag "ECDH10B_RS09460"; product "integration host factor subunit alpha"; protein_id "WP_001229265.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1884145 1884147 . - 0 gene_id "ECDH10B_RS09460"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ihfA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310446.1"; locus_tag "ECDH10B_RS09460"; product "integration host factor subunit alpha"; protein_id "WP_001229265.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1883848 1883850 . - 0 gene_id "ECDH10B_RS09460"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ihfA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310446.1"; locus_tag "ECDH10B_RS09460"; product "integration host factor subunit alpha"; protein_id "WP_001229265.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1884152 1886539 . - . gene_id "ECDH10B_RS09465"; transcript_id ""; gbkey "Gene"; gene "pheT"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09465"; old_locus_tag "ECDH10B_1849"; -NC_010473.1 Protein Homology CDS 1884155 1886539 . - 0 gene_id "ECDH10B_RS09465"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pheT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416228.1"; locus_tag "ECDH10B_RS09465"; product "phenylalanine--tRNA ligase subunit beta"; protein_id "WP_000672380.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1886537 1886539 . - 0 gene_id "ECDH10B_RS09465"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pheT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416228.1"; locus_tag "ECDH10B_RS09465"; product "phenylalanine--tRNA ligase subunit beta"; protein_id "WP_000672380.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1884152 1884154 . - 0 gene_id "ECDH10B_RS09465"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pheT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416228.1"; locus_tag "ECDH10B_RS09465"; product "phenylalanine--tRNA ligase subunit beta"; protein_id "WP_000672380.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1886554 1887537 . - . gene_id "ECDH10B_RS09470"; transcript_id ""; gbkey "Gene"; gene "pheS"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09470"; old_locus_tag "ECDH10B_1850"; -NC_010473.1 Protein Homology CDS 1886557 1887537 . - 0 gene_id "ECDH10B_RS09470"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pheS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_004851795.1"; locus_tag "ECDH10B_RS09470"; product "phenylalanine--tRNA ligase subunit alpha"; protein_id "WP_000018596.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1887535 1887537 . - 0 gene_id "ECDH10B_RS09470"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pheS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_004851795.1"; locus_tag "ECDH10B_RS09470"; product "phenylalanine--tRNA ligase subunit alpha"; protein_id "WP_000018596.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1886554 1886556 . - 0 gene_id "ECDH10B_RS09470"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pheS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_004851795.1"; locus_tag "ECDH10B_RS09470"; product "phenylalanine--tRNA ligase subunit alpha"; protein_id "WP_000018596.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1887821 1887865 . - . gene_id "ECDH10B_RS26025"; transcript_id ""; gbkey "Gene"; gene "pheM"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS26025"; old_locus_tag "ECDH10B_1851"; -NC_010473.1 Protein Homology CDS 1887824 1887865 . - 0 gene_id "ECDH10B_RS26025"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pheM"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310449.1"; locus_tag "ECDH10B_RS26025"; product "pheST operon leader peptide PheM"; protein_id "WP_001386830.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1887863 1887865 . - 0 gene_id "ECDH10B_RS26025"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pheM"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310449.1"; locus_tag "ECDH10B_RS26025"; product "pheST operon leader peptide PheM"; protein_id "WP_001386830.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1887821 1887823 . - 0 gene_id "ECDH10B_RS26025"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pheM"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310449.1"; locus_tag "ECDH10B_RS26025"; product "pheST operon leader peptide PheM"; protein_id "WP_001386830.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1887988 1888344 . - . gene_id "ECDH10B_RS09480"; transcript_id ""; gbkey "Gene"; gene "rplT"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09480"; old_locus_tag "ECDH10B_1852"; -NC_010473.1 Protein Homology CDS 1887991 1888344 . - 0 gene_id "ECDH10B_RS09480"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rplT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310450.1"; locus_tag "ECDH10B_RS09480"; product "50S ribosomal protein L20"; protein_id "WP_000124850.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1888342 1888344 . - 0 gene_id "ECDH10B_RS09480"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rplT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310450.1"; locus_tag "ECDH10B_RS09480"; product "50S ribosomal protein L20"; protein_id "WP_000124850.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1887988 1887990 . - 0 gene_id "ECDH10B_RS09480"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rplT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310450.1"; locus_tag "ECDH10B_RS09480"; product "50S ribosomal protein L20"; protein_id "WP_000124850.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1888397 1888594 . - . gene_id "ECDH10B_RS09485"; transcript_id ""; gbkey "Gene"; gene "rpmI"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09485"; old_locus_tag "ECDH10B_1853"; -NC_010473.1 Protein Homology CDS 1888400 1888594 . - 0 gene_id "ECDH10B_RS09485"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rpmI"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_006708231.1"; locus_tag "ECDH10B_RS09485"; product "50S ribosomal protein L35"; protein_id "WP_001124225.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1888592 1888594 . - 0 gene_id "ECDH10B_RS09485"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rpmI"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_006708231.1"; locus_tag "ECDH10B_RS09485"; product "50S ribosomal protein L35"; protein_id "WP_001124225.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1888397 1888399 . - 0 gene_id "ECDH10B_RS09485"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rpmI"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_006708231.1"; locus_tag "ECDH10B_RS09485"; product "50S ribosomal protein L35"; protein_id "WP_001124225.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1888691 1889233 . - . gene_id "ECDH10B_RS09490"; transcript_id ""; gbkey "Gene"; gene "infC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09490"; -NC_010473.1 Protein Homology CDS 1888694 1889233 . - 0 gene_id "ECDH10B_RS09490"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "infC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310452.1"; locus_tag "ECDH10B_RS09490"; product "translation initiation factor IF-3"; protein_id "WP_001700733.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1889231 1889233 . - 0 gene_id "ECDH10B_RS09490"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "infC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310452.1"; locus_tag "ECDH10B_RS09490"; product "translation initiation factor IF-3"; protein_id "WP_001700733.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1888691 1888693 . - 0 gene_id "ECDH10B_RS09490"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "infC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310452.1"; locus_tag "ECDH10B_RS09490"; product "translation initiation factor IF-3"; protein_id "WP_001700733.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1889237 1891165 . - . gene_id "ECDH10B_RS09495"; transcript_id ""; gbkey "Gene"; gene "thrS"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09495"; old_locus_tag "ECDH10B_1855"; -NC_010473.1 Protein Homology CDS 1889240 1891165 . - 0 gene_id "ECDH10B_RS09495"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "thrS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_006894721.1"; locus_tag "ECDH10B_RS09495"; product "threonine--tRNA ligase"; protein_id "WP_001144202.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1891163 1891165 . - 0 gene_id "ECDH10B_RS09495"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "thrS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_006894721.1"; locus_tag "ECDH10B_RS09495"; product "threonine--tRNA ligase"; protein_id "WP_001144202.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1889237 1889239 . - 0 gene_id "ECDH10B_RS09495"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "thrS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_006894721.1"; locus_tag "ECDH10B_RS09495"; product "threonine--tRNA ligase"; protein_id "WP_001144202.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1891689 1893588 . + . gene_id "ECDH10B_RS09500"; transcript_id ""; gbkey "Gene"; gene "espL1"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS09500"; pseudo "true"; -NC_010473.1 Protein Homology CDS 1891689 1893585 . + 0 gene_id "ECDH10B_RS09500"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "espL1"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310454.1"; locus_tag "ECDH10B_RS09500"; note "frameshifted"; product "type III secretion system effector EspL1"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1891689 1891691 . + 0 gene_id "ECDH10B_RS09500"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "espL1"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310454.1"; locus_tag "ECDH10B_RS09500"; note "frameshifted"; product "type III secretion system effector EspL1"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1893586 1893588 . + 0 gene_id "ECDH10B_RS09500"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "espL1"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310454.1"; locus_tag "ECDH10B_RS09500"; note "frameshifted"; product "type III secretion system effector EspL1"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 1893760 1893867 . + . gene_id "ECDH10B_RS09505"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09505"; old_locus_tag "ECDH10B_1859"; -NC_010473.1 Protein Homology CDS 1893760 1893864 . + 0 gene_id "ECDH10B_RS09505"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_588455.2"; locus_tag "ECDH10B_RS09505"; product "hypothetical protein"; protein_id "WP_001142445.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1893760 1893762 . + 0 gene_id "ECDH10B_RS09505"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_588455.2"; locus_tag "ECDH10B_RS09505"; product "hypothetical protein"; protein_id "WP_001142445.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1893865 1893867 . + 0 gene_id "ECDH10B_RS09505"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_588455.2"; locus_tag "ECDH10B_RS09505"; product "hypothetical protein"; protein_id "WP_001142445.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1893920 1894678 . - . gene_id "ECDH10B_RS09510"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09510"; old_locus_tag "ECDH10B_1860"; -NC_010473.1 Protein Homology CDS 1893923 1894678 . - 0 gene_id "ECDH10B_RS09510"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416236.1"; locus_tag "ECDH10B_RS09510"; product "YdiY family protein"; protein_id "WP_000771391.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1894676 1894678 . - 0 gene_id "ECDH10B_RS09510"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416236.1"; locus_tag "ECDH10B_RS09510"; product "YdiY family protein"; protein_id "WP_000771391.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1893920 1893922 . - 0 gene_id "ECDH10B_RS09510"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416236.1"; locus_tag "ECDH10B_RS09510"; product "YdiY family protein"; protein_id "WP_000771391.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1894965 1895894 . + . gene_id "ECDH10B_RS09515"; transcript_id ""; gbkey "Gene"; gene "pfkB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09515"; old_locus_tag "ECDH10B_1861"; -NC_010473.1 Protein Homology CDS 1894965 1895891 . + 0 gene_id "ECDH10B_RS09515"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pfkB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416237.3"; locus_tag "ECDH10B_RS09515"; product "6-phosphofructokinase II"; protein_id "WP_000251727.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1894965 1894967 . + 0 gene_id "ECDH10B_RS09515"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pfkB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416237.3"; locus_tag "ECDH10B_RS09515"; product "6-phosphofructokinase II"; protein_id "WP_000251727.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1895892 1895894 . + 0 gene_id "ECDH10B_RS09515"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pfkB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416237.3"; locus_tag "ECDH10B_RS09515"; product "6-phosphofructokinase II"; protein_id "WP_000251727.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1895995 1896285 . + . gene_id "ECDH10B_RS09520"; transcript_id ""; gbkey "Gene"; gene "ghoS"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09520"; old_locus_tag "ECDH10B_1862"; -NC_010473.1 Protein Homology CDS 1895995 1896282 . + 0 gene_id "ECDH10B_RS09520"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ghoS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310457.1"; locus_tag "ECDH10B_RS09520"; product "type V toxin-antitoxin system endoribonuclease antitoxin GhoS"; protein_id "WP_000146159.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1895995 1895997 . + 0 gene_id "ECDH10B_RS09520"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ghoS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310457.1"; locus_tag "ECDH10B_RS09520"; product "type V toxin-antitoxin system endoribonuclease antitoxin GhoS"; protein_id "WP_000146159.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1896283 1896285 . + 0 gene_id "ECDH10B_RS09520"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ghoS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310457.1"; locus_tag "ECDH10B_RS09520"; product "type V toxin-antitoxin system endoribonuclease antitoxin GhoS"; protein_id "WP_000146159.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1896391 1897251 . + . gene_id "ECDH10B_RS09525"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09525"; old_locus_tag "ECDH10B_1863"; -NC_010473.1 Protein Homology CDS 1896391 1897248 . + 0 gene_id "ECDH10B_RS09525"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416239.1"; locus_tag "ECDH10B_RS09525"; product "fructosamine kinase family protein"; protein_id "WP_000267650.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1896391 1896393 . + 0 gene_id "ECDH10B_RS09525"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416239.1"; locus_tag "ECDH10B_RS09525"; product "fructosamine kinase family protein"; protein_id "WP_000267650.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1897249 1897251 . + 0 gene_id "ECDH10B_RS09525"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416239.1"; locus_tag "ECDH10B_RS09525"; product "fructosamine kinase family protein"; protein_id "WP_000267650.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1897292 1897828 . - . gene_id "ECDH10B_RS09530"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09530"; old_locus_tag "ECDH10B_1864"; -NC_010473.1 Protein Homology CDS 1897295 1897828 . - 0 gene_id "ECDH10B_RS09530"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416240.1"; locus_tag "ECDH10B_RS09530"; product "YniB family protein"; protein_id "WP_000222163.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1897826 1897828 . - 0 gene_id "ECDH10B_RS09530"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416240.1"; locus_tag "ECDH10B_RS09530"; product "YniB family protein"; protein_id "WP_000222163.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1897292 1897294 . - 0 gene_id "ECDH10B_RS09530"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416240.1"; locus_tag "ECDH10B_RS09530"; product "YniB family protein"; protein_id "WP_000222163.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1897975 1898643 . + . gene_id "ECDH10B_RS09535"; transcript_id ""; gbkey "Gene"; gene "hxpB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09535"; old_locus_tag "ECDH10B_1865"; -NC_010473.1 Protein Homology CDS 1897975 1898640 . + 0 gene_id "ECDH10B_RS09535"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hxpB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416241.1"; locus_tag "ECDH10B_RS09535"; product "hexitol phosphatase HxpB"; protein_id "WP_000106833.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1897975 1897977 . + 0 gene_id "ECDH10B_RS09535"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hxpB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416241.1"; locus_tag "ECDH10B_RS09535"; product "hexitol phosphatase HxpB"; protein_id "WP_000106833.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1898641 1898643 . + 0 gene_id "ECDH10B_RS09535"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hxpB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416241.1"; locus_tag "ECDH10B_RS09535"; product "hexitol phosphatase HxpB"; protein_id "WP_000106833.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1898806 1899396 . + . gene_id "ECDH10B_RS09540"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09540"; old_locus_tag "ECDH10B_1866"; -NC_010473.1 Protein Homology CDS 1898806 1899393 . + 0 gene_id "ECDH10B_RS09540"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_707386.2"; locus_tag "ECDH10B_RS09540"; product "metal-dependent hydrolase"; protein_id "WP_001297653.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1898806 1898808 . + 0 gene_id "ECDH10B_RS09540"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_707386.2"; locus_tag "ECDH10B_RS09540"; product "metal-dependent hydrolase"; protein_id "WP_001297653.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1899394 1899396 . + 0 gene_id "ECDH10B_RS09540"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_707386.2"; locus_tag "ECDH10B_RS09540"; product "metal-dependent hydrolase"; protein_id "WP_001297653.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1899529 1900920 . + . gene_id "ECDH10B_RS09545"; transcript_id ""; gbkey "Gene"; gene "tcyP"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09545"; old_locus_tag "ECDH10B_1867"; -NC_010473.1 Protein Homology CDS 1899529 1900917 . + 0 gene_id "ECDH10B_RS09545"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tcyP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416243.1"; locus_tag "ECDH10B_RS09545"; product "cystine/sulfocysteine:cation symporter"; protein_id "WP_001010696.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1899529 1899531 . + 0 gene_id "ECDH10B_RS09545"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tcyP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416243.1"; locus_tag "ECDH10B_RS09545"; product "cystine/sulfocysteine:cation symporter"; protein_id "WP_001010696.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1900918 1900920 . + 0 gene_id "ECDH10B_RS09545"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tcyP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416243.1"; locus_tag "ECDH10B_RS09545"; product "cystine/sulfocysteine:cation symporter"; protein_id "WP_001010696.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1900924 1901727 . - . gene_id "ECDH10B_RS09550"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09550"; old_locus_tag "ECDH10B_1868"; -NC_010473.1 Protein Homology CDS 1900927 1901727 . - 0 gene_id "ECDH10B_RS09550"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416244.2"; locus_tag "ECDH10B_RS09550"; product "hypothetical protein"; protein_id "WP_001310874.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1901725 1901727 . - 0 gene_id "ECDH10B_RS09550"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416244.2"; locus_tag "ECDH10B_RS09550"; product "hypothetical protein"; protein_id "WP_001310874.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1900924 1900926 . - 0 gene_id "ECDH10B_RS09550"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416244.2"; locus_tag "ECDH10B_RS09550"; product "hypothetical protein"; protein_id "WP_001310874.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1902016 1902279 . - . gene_id "ECDH10B_RS09555"; transcript_id ""; gbkey "Gene"; gene "cedA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09555"; old_locus_tag "ECDH10B_1869"; -NC_010473.1 Protein Homology CDS 1902019 1902279 . - 0 gene_id "ECDH10B_RS09555"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cedA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310464.1"; locus_tag "ECDH10B_RS09555"; product "cell division activator CedA"; protein_id "WP_001241561.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1902277 1902279 . - 0 gene_id "ECDH10B_RS09555"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cedA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310464.1"; locus_tag "ECDH10B_RS09555"; product "cell division activator CedA"; protein_id "WP_001241561.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1902016 1902018 . - 0 gene_id "ECDH10B_RS09555"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cedA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310464.1"; locus_tag "ECDH10B_RS09555"; product "cell division activator CedA"; protein_id "WP_001241561.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1902462 1904723 . + . gene_id "ECDH10B_RS09560"; transcript_id ""; gbkey "Gene"; gene "katE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09560"; old_locus_tag "ECDH10B_1870"; -NC_010473.1 Protein Homology CDS 1902462 1904720 . + 0 gene_id "ECDH10B_RS09560"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "katE"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_025308.1"; locus_tag "ECDH10B_RS09560"; product "catalase HPII"; protein_id "WP_000077872.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1902462 1902464 . + 0 gene_id "ECDH10B_RS09560"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "katE"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_025308.1"; locus_tag "ECDH10B_RS09560"; product "catalase HPII"; protein_id "WP_000077872.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1904721 1904723 . + 0 gene_id "ECDH10B_RS09560"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "katE"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_025308.1"; locus_tag "ECDH10B_RS09560"; product "catalase HPII"; protein_id "WP_000077872.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1904981 1905730 . - . gene_id "ECDH10B_RS09565"; transcript_id ""; gbkey "Gene"; gene "chbG"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09565"; old_locus_tag "ECDH10B_1871"; -NC_010473.1 Protein Homology CDS 1904984 1905730 . - 0 gene_id "ECDH10B_RS09565"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "chbG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416247.1"; locus_tag "ECDH10B_RS09565"; product "chitin disaccharide deacetylase"; protein_id "WP_000440471.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1905728 1905730 . - 0 gene_id "ECDH10B_RS09565"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "chbG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416247.1"; locus_tag "ECDH10B_RS09565"; product "chitin disaccharide deacetylase"; protein_id "WP_000440471.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1904981 1904983 . - 0 gene_id "ECDH10B_RS09565"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "chbG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416247.1"; locus_tag "ECDH10B_RS09565"; product "chitin disaccharide deacetylase"; protein_id "WP_000440471.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1905743 1907095 . - . gene_id "ECDH10B_RS09570"; transcript_id ""; gbkey "Gene"; gene "celF"; gene_biotype "protein_coding"; gene_synonym "chbF"; locus_tag "ECDH10B_RS09570"; old_locus_tag "ECDH10B_1872"; -NC_010473.1 Protein Homology CDS 1905746 1907095 . - 0 gene_id "ECDH10B_RS09570"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "celF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416248.1"; locus_tag "ECDH10B_RS09570"; product "6-phospho-beta-glucosidase"; protein_id "WP_000078765.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1907093 1907095 . - 0 gene_id "ECDH10B_RS09570"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "celF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416248.1"; locus_tag "ECDH10B_RS09570"; product "6-phospho-beta-glucosidase"; protein_id "WP_000078765.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1905743 1905745 . - 0 gene_id "ECDH10B_RS09570"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "celF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416248.1"; locus_tag "ECDH10B_RS09570"; product "6-phospho-beta-glucosidase"; protein_id "WP_000078765.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1907200 1908042 . - . gene_id "ECDH10B_RS09575"; transcript_id ""; gbkey "Gene"; gene "chbR"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09575"; old_locus_tag "ECDH10B_1873"; -NC_010473.1 Protein Homology CDS 1907203 1908042 . - 0 gene_id "ECDH10B_RS09575"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "chbR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416249.1"; locus_tag "ECDH10B_RS09575"; product "transcriptional regulator ChbR"; protein_id "WP_000983647.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1908040 1908042 . - 0 gene_id "ECDH10B_RS09575"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "chbR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416249.1"; locus_tag "ECDH10B_RS09575"; product "transcriptional regulator ChbR"; protein_id "WP_000983647.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1907200 1907202 . - 0 gene_id "ECDH10B_RS09575"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "chbR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416249.1"; locus_tag "ECDH10B_RS09575"; product "transcriptional regulator ChbR"; protein_id "WP_000983647.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1908050 1908400 . - . gene_id "ECDH10B_RS09580"; transcript_id ""; gbkey "Gene"; gene "chbA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09580"; old_locus_tag "ECDH10B_1874"; -NC_010473.1 Protein Homology CDS 1908053 1908400 . - 0 gene_id "ECDH10B_RS09580"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "chbA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310469.1"; locus_tag "ECDH10B_RS09580"; product "PTS N,N'-diacetylchitobiose transporter subunit IIA"; protein_id "WP_000968919.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1908398 1908400 . - 0 gene_id "ECDH10B_RS09580"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "chbA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310469.1"; locus_tag "ECDH10B_RS09580"; product "PTS N,N'-diacetylchitobiose transporter subunit IIA"; protein_id "WP_000968919.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1908050 1908052 . - 0 gene_id "ECDH10B_RS09580"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "chbA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310469.1"; locus_tag "ECDH10B_RS09580"; product "PTS N,N'-diacetylchitobiose transporter subunit IIA"; protein_id "WP_000968919.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1908451 1909809 . - . gene_id "ECDH10B_RS09585"; transcript_id ""; gbkey "Gene"; gene "chbC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09585"; old_locus_tag "ECDH10B_1875"; -NC_010473.1 Protein Homology CDS 1908454 1909809 . - 0 gene_id "ECDH10B_RS09585"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "chbC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416251.1"; locus_tag "ECDH10B_RS09585"; product "PTS N,N'-diacetylchitobiose transporter subunit IIC"; protein_id "WP_000073041.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1909807 1909809 . - 0 gene_id "ECDH10B_RS09585"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "chbC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416251.1"; locus_tag "ECDH10B_RS09585"; product "PTS N,N'-diacetylchitobiose transporter subunit IIC"; protein_id "WP_000073041.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1908451 1908453 . - 0 gene_id "ECDH10B_RS09585"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "chbC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416251.1"; locus_tag "ECDH10B_RS09585"; product "PTS N,N'-diacetylchitobiose transporter subunit IIC"; protein_id "WP_000073041.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1909894 1910214 . - . gene_id "ECDH10B_RS09590"; transcript_id ""; gbkey "Gene"; gene "chbB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09590"; old_locus_tag "ECDH10B_1876"; -NC_010473.1 Protein Homology CDS 1909897 1910214 . - 0 gene_id "ECDH10B_RS09590"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "chbB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310471.1"; locus_tag "ECDH10B_RS09590"; product "PTS N,N'-diacetylchitobiose transporter subunit IIB"; protein_id "WP_000412169.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1910212 1910214 . - 0 gene_id "ECDH10B_RS09590"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "chbB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310471.1"; locus_tag "ECDH10B_RS09590"; product "PTS N,N'-diacetylchitobiose transporter subunit IIB"; protein_id "WP_000412169.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1909894 1909896 . - 0 gene_id "ECDH10B_RS09590"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "chbB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310471.1"; locus_tag "ECDH10B_RS09590"; product "PTS N,N'-diacetylchitobiose transporter subunit IIB"; protein_id "WP_000412169.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1910513 1910851 . - . gene_id "ECDH10B_RS09595"; transcript_id ""; gbkey "Gene"; gene "osmE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09595"; old_locus_tag "ECDH10B_1877"; -NC_010473.1 Protein Homology CDS 1910516 1910851 . - 0 gene_id "ECDH10B_RS09595"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "osmE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310472.1"; locus_tag "ECDH10B_RS09595"; product "osmotically-inducible lipoprotein OsmE"; protein_id "WP_001039044.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1910849 1910851 . - 0 gene_id "ECDH10B_RS09595"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "osmE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310472.1"; locus_tag "ECDH10B_RS09595"; product "osmotically-inducible lipoprotein OsmE"; protein_id "WP_001039044.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1910513 1910515 . - 0 gene_id "ECDH10B_RS09595"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "osmE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310472.1"; locus_tag "ECDH10B_RS09595"; product "osmotically-inducible lipoprotein OsmE"; protein_id "WP_001039044.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1911053 1911880 . + . gene_id "ECDH10B_RS09600"; transcript_id ""; gbkey "Gene"; gene "nadE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09600"; old_locus_tag "ECDH10B_1878"; -NC_010473.1 Protein Homology CDS 1911053 1911877 . + 0 gene_id "ECDH10B_RS09600"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nadE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416254.1"; locus_tag "ECDH10B_RS09600"; product "ammonia-dependent NAD(+) synthetase"; protein_id "WP_000175026.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1911053 1911055 . + 0 gene_id "ECDH10B_RS09600"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nadE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416254.1"; locus_tag "ECDH10B_RS09600"; product "ammonia-dependent NAD(+) synthetase"; protein_id "WP_000175026.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1911878 1911880 . + 0 gene_id "ECDH10B_RS09600"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nadE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416254.1"; locus_tag "ECDH10B_RS09600"; product "ammonia-dependent NAD(+) synthetase"; protein_id "WP_000175026.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1912110 1912997 . + . gene_id "ECDH10B_RS09610"; transcript_id ""; gbkey "Gene"; gene "cho"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09610"; old_locus_tag "ECDH10B_1879"; -NC_010473.1 Protein Homology CDS 1912110 1912994 . + 0 gene_id "ECDH10B_RS09610"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cho"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416255.1"; locus_tag "ECDH10B_RS09610"; product "excinuclease Cho"; protein_id "WP_000252397.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1912110 1912112 . + 0 gene_id "ECDH10B_RS09610"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cho"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416255.1"; locus_tag "ECDH10B_RS09610"; product "excinuclease Cho"; protein_id "WP_000252397.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1912995 1912997 . + 0 gene_id "ECDH10B_RS09610"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cho"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416255.1"; locus_tag "ECDH10B_RS09610"; product "excinuclease Cho"; protein_id "WP_000252397.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1912957 1913532 . - . gene_id "ECDH10B_RS09615"; transcript_id ""; gbkey "Gene"; gene "ves"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09615"; old_locus_tag "ECDH10B_1880"; -NC_010473.1 Protein Homology CDS 1912960 1913532 . - 0 gene_id "ECDH10B_RS09615"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ves"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416256.2"; locus_tag "ECDH10B_RS09615"; product "environmental stress-induced protein Ves"; protein_id "WP_001300480.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1913530 1913532 . - 0 gene_id "ECDH10B_RS09615"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ves"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416256.2"; locus_tag "ECDH10B_RS09615"; product "environmental stress-induced protein Ves"; protein_id "WP_001300480.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1912957 1912959 . - 0 gene_id "ECDH10B_RS09615"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ves"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416256.2"; locus_tag "ECDH10B_RS09615"; product "environmental stress-induced protein Ves"; protein_id "WP_001300480.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1913735 1914220 . - . gene_id "ECDH10B_RS09620"; transcript_id ""; gbkey "Gene"; gene "spy"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09620"; old_locus_tag "ECDH10B_1881"; -NC_010473.1 Protein Homology CDS 1913738 1914220 . - 0 gene_id "ECDH10B_RS09620"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "spy"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416257.1"; locus_tag "ECDH10B_RS09620"; product "ATP-independent periplasmic protein-refolding chaperone"; protein_id "WP_001228984.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1914218 1914220 . - 0 gene_id "ECDH10B_RS09620"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "spy"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416257.1"; locus_tag "ECDH10B_RS09620"; product "ATP-independent periplasmic protein-refolding chaperone"; protein_id "WP_001228984.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1913735 1913737 . - 0 gene_id "ECDH10B_RS09620"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "spy"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416257.1"; locus_tag "ECDH10B_RS09620"; product "ATP-independent periplasmic protein-refolding chaperone"; protein_id "WP_001228984.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1914550 1915518 . - . gene_id "ECDH10B_RS09625"; transcript_id ""; gbkey "Gene"; gene "astE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09625"; old_locus_tag "ECDH10B_1882"; -NC_010473.1 Protein Homology CDS 1914553 1915518 . - 0 gene_id "ECDH10B_RS09625"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "astE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416258.1"; locus_tag "ECDH10B_RS09625"; product "succinylglutamate desuccinylase"; protein_id "WP_000368506.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1915516 1915518 . - 0 gene_id "ECDH10B_RS09625"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "astE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416258.1"; locus_tag "ECDH10B_RS09625"; product "succinylglutamate desuccinylase"; protein_id "WP_000368506.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1914550 1914552 . - 0 gene_id "ECDH10B_RS09625"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "astE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416258.1"; locus_tag "ECDH10B_RS09625"; product "succinylglutamate desuccinylase"; protein_id "WP_000368506.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1915511 1916854 . - . gene_id "ECDH10B_RS09630"; transcript_id ""; gbkey "Gene"; gene "astB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09630"; old_locus_tag "ECDH10B_1883"; -NC_010473.1 Protein Homology CDS 1915514 1916854 . - 0 gene_id "ECDH10B_RS09630"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "astB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416259.1"; locus_tag "ECDH10B_RS09630"; product "N-succinylarginine dihydrolase"; protein_id "WP_000994973.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1916852 1916854 . - 0 gene_id "ECDH10B_RS09630"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "astB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416259.1"; locus_tag "ECDH10B_RS09630"; product "N-succinylarginine dihydrolase"; protein_id "WP_000994973.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1915511 1915513 . - 0 gene_id "ECDH10B_RS09630"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "astB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416259.1"; locus_tag "ECDH10B_RS09630"; product "N-succinylarginine dihydrolase"; protein_id "WP_000994973.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1916851 1918329 . - . gene_id "ECDH10B_RS09635"; transcript_id ""; gbkey "Gene"; gene "astD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09635"; old_locus_tag "ECDH10B_1884"; -NC_010473.1 Protein Homology CDS 1916854 1918329 . - 0 gene_id "ECDH10B_RS09635"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "astD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416260.1"; locus_tag "ECDH10B_RS09635"; product "succinylglutamate-semialdehyde dehydrogenase"; protein_id "WP_000177206.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1918327 1918329 . - 0 gene_id "ECDH10B_RS09635"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "astD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416260.1"; locus_tag "ECDH10B_RS09635"; product "succinylglutamate-semialdehyde dehydrogenase"; protein_id "WP_000177206.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1916851 1916853 . - 0 gene_id "ECDH10B_RS09635"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "astD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416260.1"; locus_tag "ECDH10B_RS09635"; product "succinylglutamate-semialdehyde dehydrogenase"; protein_id "WP_000177206.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1918326 1919360 . - . gene_id "ECDH10B_RS09640"; transcript_id ""; gbkey "Gene"; gene "astA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09640"; old_locus_tag "ECDH10B_1885"; -NC_010473.1 Protein Homology CDS 1918329 1919360 . - 0 gene_id "ECDH10B_RS09640"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "astA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310480.1"; locus_tag "ECDH10B_RS09640"; product "arginine N-succinyltransferase"; protein_id "WP_000989419.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1919358 1919360 . - 0 gene_id "ECDH10B_RS09640"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "astA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310480.1"; locus_tag "ECDH10B_RS09640"; product "arginine N-succinyltransferase"; protein_id "WP_000989419.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1918326 1918328 . - 0 gene_id "ECDH10B_RS09640"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "astA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310480.1"; locus_tag "ECDH10B_RS09640"; product "arginine N-succinyltransferase"; protein_id "WP_000989419.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1919357 1920577 . - . gene_id "ECDH10B_RS09645"; transcript_id ""; gbkey "Gene"; gene "astC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09645"; old_locus_tag "ECDH10B_1886"; -NC_010473.1 Protein Homology CDS 1919360 1920577 . - 0 gene_id "ECDH10B_RS09645"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "astC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416262.1"; locus_tag "ECDH10B_RS09645"; product "succinylornithine/acetylornithine transaminase"; protein_id "WP_000081983.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1920575 1920577 . - 0 gene_id "ECDH10B_RS09645"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "astC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416262.1"; locus_tag "ECDH10B_RS09645"; product "succinylornithine/acetylornithine transaminase"; protein_id "WP_000081983.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1919357 1919359 . - 0 gene_id "ECDH10B_RS09645"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "astC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416262.1"; locus_tag "ECDH10B_RS09645"; product "succinylornithine/acetylornithine transaminase"; protein_id "WP_000081983.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1921023 1921829 . + . gene_id "ECDH10B_RS09650"; transcript_id ""; gbkey "Gene"; gene "xthA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09650"; old_locus_tag "ECDH10B_1887"; -NC_010473.1 Protein Homology CDS 1921023 1921826 . + 0 gene_id "ECDH10B_RS09650"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "xthA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416263.1"; locus_tag "ECDH10B_RS09650"; product "exodeoxyribonuclease III"; protein_id "WP_000673918.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1921023 1921025 . + 0 gene_id "ECDH10B_RS09650"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "xthA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416263.1"; locus_tag "ECDH10B_RS09650"; product "exodeoxyribonuclease III"; protein_id "WP_000673918.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1921827 1921829 . + 0 gene_id "ECDH10B_RS09650"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "xthA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416263.1"; locus_tag "ECDH10B_RS09650"; product "exodeoxyribonuclease III"; protein_id "WP_000673918.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1921996 1922706 . + . gene_id "ECDH10B_RS09655"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09655"; old_locus_tag "ECDH10B_1888"; -NC_010473.1 Protein Homology CDS 1921996 1922703 . + 0 gene_id "ECDH10B_RS09655"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416264.4"; locus_tag "ECDH10B_RS09655"; product "TVP38/TMEM64 family protein"; protein_id "WP_001300395.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1921996 1921998 . + 0 gene_id "ECDH10B_RS09655"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416264.4"; locus_tag "ECDH10B_RS09655"; product "TVP38/TMEM64 family protein"; protein_id "WP_001300395.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1922704 1922706 . + 0 gene_id "ECDH10B_RS09655"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416264.4"; locus_tag "ECDH10B_RS09655"; product "TVP38/TMEM64 family protein"; protein_id "WP_001300395.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1922711 1923388 . + . gene_id "ECDH10B_RS09660"; transcript_id ""; gbkey "Gene"; gene "ydjY"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09660"; old_locus_tag "ECDH10B_1889"; -NC_010473.1 Protein Homology CDS 1922711 1923385 . + 0 gene_id "ECDH10B_RS09660"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ydjY"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416265.4"; locus_tag "ECDH10B_RS09660"; product "protein YdjY"; protein_id "WP_000939212.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1922711 1922713 . + 0 gene_id "ECDH10B_RS09660"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ydjY"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416265.4"; locus_tag "ECDH10B_RS09660"; product "protein YdjY"; protein_id "WP_000939212.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1923386 1923388 . + 0 gene_id "ECDH10B_RS09660"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ydjY"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416265.4"; locus_tag "ECDH10B_RS09660"; product "protein YdjY"; protein_id "WP_000939212.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1923403 1924110 . + . gene_id "ECDH10B_RS09665"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09665"; old_locus_tag "ECDH10B_1890"; -NC_010473.1 Protein Homology CDS 1923403 1924107 . + 0 gene_id "ECDH10B_RS09665"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416266.1"; locus_tag "ECDH10B_RS09665"; product "TVP38/TMEM64 family protein"; protein_id "WP_000980098.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1923403 1923405 . + 0 gene_id "ECDH10B_RS09665"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416266.1"; locus_tag "ECDH10B_RS09665"; product "TVP38/TMEM64 family protein"; protein_id "WP_000980098.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1924108 1924110 . + 0 gene_id "ECDH10B_RS09665"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416266.1"; locus_tag "ECDH10B_RS09665"; product "TVP38/TMEM64 family protein"; protein_id "WP_000980098.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1924110 1924658 . + . gene_id "ECDH10B_RS09670"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09670"; old_locus_tag "ECDH10B_1891"; -NC_010473.1 Protein Homology CDS 1924110 1924655 . + 0 gene_id "ECDH10B_RS09670"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416267.1"; locus_tag "ECDH10B_RS09670"; product "carboxymuconolactone decarboxylase family protein"; protein_id "WP_000524097.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1924110 1924112 . + 0 gene_id "ECDH10B_RS09670"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416267.1"; locus_tag "ECDH10B_RS09670"; product "carboxymuconolactone decarboxylase family protein"; protein_id "WP_000524097.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1924656 1924658 . + 0 gene_id "ECDH10B_RS09670"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416267.1"; locus_tag "ECDH10B_RS09670"; product "carboxymuconolactone decarboxylase family protein"; protein_id "WP_000524097.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1924668 1925834 . + . gene_id "ECDH10B_RS09675"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09675"; old_locus_tag "ECDH10B_1892"; -NC_010473.1 Protein Homology CDS 1924668 1925831 . + 0 gene_id "ECDH10B_RS09675"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416268.2"; locus_tag "ECDH10B_RS09675"; product "ABC transporter substrate-binding protein"; protein_id "WP_001215339.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1924668 1924670 . + 0 gene_id "ECDH10B_RS09675"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416268.2"; locus_tag "ECDH10B_RS09675"; product "ABC transporter substrate-binding protein"; protein_id "WP_001215339.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1925832 1925834 . + 0 gene_id "ECDH10B_RS09675"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416268.2"; locus_tag "ECDH10B_RS09675"; product "ABC transporter substrate-binding protein"; protein_id "WP_001215339.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1925807 1927342 . + . gene_id "ECDH10B_RS09680"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09680"; old_locus_tag "ECDH10B_1893"; -NC_010473.1 Protein Homology CDS 1925807 1927339 . + 0 gene_id "ECDH10B_RS09680"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416269.4"; locus_tag "ECDH10B_RS09680"; product "ABC transporter permease subunit"; protein_id "WP_000224958.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1925807 1925809 . + 0 gene_id "ECDH10B_RS09680"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416269.4"; locus_tag "ECDH10B_RS09680"; product "ABC transporter permease subunit"; protein_id "WP_000224958.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1927340 1927342 . + 0 gene_id "ECDH10B_RS09680"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416269.4"; locus_tag "ECDH10B_RS09680"; product "ABC transporter permease subunit"; protein_id "WP_000224958.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1927342 1927995 . + . gene_id "ECDH10B_RS09685"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09685"; old_locus_tag "ECDH10B_1894"; -NC_010473.1 Protein Homology CDS 1927342 1927992 . + 0 gene_id "ECDH10B_RS09685"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416270.1"; locus_tag "ECDH10B_RS09685"; product "ATP-binding cassette domain-containing protein"; protein_id "WP_001300558.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1927342 1927344 . + 0 gene_id "ECDH10B_RS09685"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416270.1"; locus_tag "ECDH10B_RS09685"; product "ATP-binding cassette domain-containing protein"; protein_id "WP_001300558.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1927993 1927995 . + 0 gene_id "ECDH10B_RS09685"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416270.1"; locus_tag "ECDH10B_RS09685"; product "ATP-binding cassette domain-containing protein"; protein_id "WP_001300558.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1928062 1929369 . + . gene_id "ECDH10B_RS09690"; transcript_id ""; gbkey "Gene"; gene "ynjE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09690"; old_locus_tag "ECDH10B_1895"; -NC_010473.1 Protein Homology CDS 1928062 1929366 . + 0 gene_id "ECDH10B_RS09690"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ynjE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416271.4"; locus_tag "ECDH10B_RS09690"; product "thiosulfate sulfurtransferase YnjE"; protein_id "WP_001350515.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1928062 1928064 . + 0 gene_id "ECDH10B_RS09690"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ynjE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416271.4"; locus_tag "ECDH10B_RS09690"; product "thiosulfate sulfurtransferase YnjE"; protein_id "WP_001350515.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1929367 1929369 . + 0 gene_id "ECDH10B_RS09690"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ynjE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416271.4"; locus_tag "ECDH10B_RS09690"; product "thiosulfate sulfurtransferase YnjE"; protein_id "WP_001350515.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1929378 1929998 . - . gene_id "ECDH10B_RS09695"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09695"; old_locus_tag "ECDH10B_1896"; -NC_010473.1 Protein Homology CDS 1929381 1929998 . - 0 gene_id "ECDH10B_RS09695"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416272.2"; locus_tag "ECDH10B_RS09695"; product "CDP-alcohol phosphatidyltransferase family protein"; protein_id "WP_001295484.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1929996 1929998 . - 0 gene_id "ECDH10B_RS09695"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416272.2"; locus_tag "ECDH10B_RS09695"; product "CDP-alcohol phosphatidyltransferase family protein"; protein_id "WP_001295484.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1929378 1929380 . - 0 gene_id "ECDH10B_RS09695"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416272.2"; locus_tag "ECDH10B_RS09695"; product "CDP-alcohol phosphatidyltransferase family protein"; protein_id "WP_001295484.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1930085 1930492 . + . gene_id "ECDH10B_RS09700"; transcript_id ""; gbkey "Gene"; gene "nudG"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09700"; old_locus_tag "ECDH10B_1897"; -NC_010473.1 Protein Homology CDS 1930085 1930489 . + 0 gene_id "ECDH10B_RS09700"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nudG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416273.1"; locus_tag "ECDH10B_RS09700"; product "CTP pyrophosphohydrolase"; protein_id "WP_000781888.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1930085 1930087 . + 0 gene_id "ECDH10B_RS09700"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nudG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416273.1"; locus_tag "ECDH10B_RS09700"; product "CTP pyrophosphohydrolase"; protein_id "WP_000781888.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1930490 1930492 . + 0 gene_id "ECDH10B_RS09700"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nudG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416273.1"; locus_tag "ECDH10B_RS09700"; product "CTP pyrophosphohydrolase"; protein_id "WP_000781888.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1930458 1930730 . - . gene_id "ECDH10B_RS09705"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09705"; old_locus_tag "ECDH10B_1898"; -NC_010473.1 Protein Homology CDS 1930461 1930730 . - 0 gene_id "ECDH10B_RS09705"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416274.1"; locus_tag "ECDH10B_RS09705"; product "YnjH family protein"; protein_id "WP_000085240.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1930728 1930730 . - 0 gene_id "ECDH10B_RS09705"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416274.1"; locus_tag "ECDH10B_RS09705"; product "YnjH family protein"; protein_id "WP_000085240.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1930458 1930460 . - 0 gene_id "ECDH10B_RS09705"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416274.1"; locus_tag "ECDH10B_RS09705"; product "YnjH family protein"; protein_id "WP_000085240.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1930966 1932309 . + . gene_id "ECDH10B_RS09710"; transcript_id ""; gbkey "Gene"; gene "gdhA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09710"; old_locus_tag "ECDH10B_1899"; -NC_010473.1 Protein Homology CDS 1930966 1932306 . + 0 gene_id "ECDH10B_RS09710"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gdhA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416275.1"; locus_tag "ECDH10B_RS09710"; product "NADP-specific glutamate dehydrogenase"; protein_id "WP_000373021.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1930966 1930968 . + 0 gene_id "ECDH10B_RS09710"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gdhA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416275.1"; locus_tag "ECDH10B_RS09710"; product "NADP-specific glutamate dehydrogenase"; protein_id "WP_000373021.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1932307 1932309 . + 0 gene_id "ECDH10B_RS09710"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gdhA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416275.1"; locus_tag "ECDH10B_RS09710"; product "NADP-specific glutamate dehydrogenase"; protein_id "WP_000373021.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1932426 1933466 . - . gene_id "ECDH10B_RS09715"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09715"; old_locus_tag "ECDH10B_1900"; -NC_010473.1 Protein Homology CDS 1932429 1933466 . - 0 gene_id "ECDH10B_RS09715"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416276.4"; locus_tag "ECDH10B_RS09715"; product "DUF1266 domain-containing protein"; protein_id "WP_000756910.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1933464 1933466 . - 0 gene_id "ECDH10B_RS09715"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416276.4"; locus_tag "ECDH10B_RS09715"; product "DUF1266 domain-containing protein"; protein_id "WP_000756910.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1932426 1932428 . - 0 gene_id "ECDH10B_RS09715"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416276.4"; locus_tag "ECDH10B_RS09715"; product "DUF1266 domain-containing protein"; protein_id "WP_000756910.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1933594 1935555 . - . gene_id "ECDH10B_RS09720"; transcript_id ""; gbkey "Gene"; gene "topB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09720"; old_locus_tag "ECDH10B_1901"; -NC_010473.1 Protein Homology CDS 1933597 1935555 . - 0 gene_id "ECDH10B_RS09720"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "topB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416277.1"; locus_tag "ECDH10B_RS09720"; product "DNA topoisomerase III"; protein_id "WP_001235800.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1935553 1935555 . - 0 gene_id "ECDH10B_RS09720"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "topB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416277.1"; locus_tag "ECDH10B_RS09720"; product "DNA topoisomerase III"; protein_id "WP_001235800.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1933594 1933596 . - 0 gene_id "ECDH10B_RS09720"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "topB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416277.1"; locus_tag "ECDH10B_RS09720"; product "DNA topoisomerase III"; protein_id "WP_001235800.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1935560 1936603 . - . gene_id "ECDH10B_RS09725"; transcript_id ""; gbkey "Gene"; gene "selD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09725"; old_locus_tag "ECDH10B_1902"; -NC_010473.1 Protein Homology CDS 1935563 1936603 . - 0 gene_id "ECDH10B_RS09725"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "selD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416278.1"; locus_tag "ECDH10B_RS09725"; product "selenide,water dikinase SelD"; protein_id "WP_001295485.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1936601 1936603 . - 0 gene_id "ECDH10B_RS09725"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "selD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416278.1"; locus_tag "ECDH10B_RS09725"; product "selenide,water dikinase SelD"; protein_id "WP_001295485.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1935560 1935562 . - 0 gene_id "ECDH10B_RS09725"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "selD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416278.1"; locus_tag "ECDH10B_RS09725"; product "selenide,water dikinase SelD"; protein_id "WP_001295485.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1936720 1937271 . - . gene_id "ECDH10B_RS09735"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09735"; old_locus_tag "ECDH10B_1903"; -NC_010473.1 Protein Homology CDS 1936723 1937271 . - 0 gene_id "ECDH10B_RS09735"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310498.1"; locus_tag "ECDH10B_RS09735"; product "NAD(P)H nitroreductase"; protein_id "WP_000339283.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1937269 1937271 . - 0 gene_id "ECDH10B_RS09735"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310498.1"; locus_tag "ECDH10B_RS09735"; product "NAD(P)H nitroreductase"; protein_id "WP_000339283.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1936720 1936722 . - 0 gene_id "ECDH10B_RS09735"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310498.1"; locus_tag "ECDH10B_RS09735"; product "NAD(P)H nitroreductase"; protein_id "WP_000339283.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1937432 1939288 . + . gene_id "ECDH10B_RS09745"; transcript_id ""; gbkey "Gene"; gene "sppA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09745"; old_locus_tag "ECDH10B_1904"; -NC_010473.1 Protein Homology CDS 1937432 1939285 . + 0 gene_id "ECDH10B_RS09745"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sppA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416280.1"; locus_tag "ECDH10B_RS09745"; product "signal peptide peptidase SppA"; protein_id "WP_001259810.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1937432 1937434 . + 0 gene_id "ECDH10B_RS09745"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sppA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416280.1"; locus_tag "ECDH10B_RS09745"; product "signal peptide peptidase SppA"; protein_id "WP_001259810.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1939286 1939288 . + 0 gene_id "ECDH10B_RS09745"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sppA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416280.1"; locus_tag "ECDH10B_RS09745"; product "signal peptide peptidase SppA"; protein_id "WP_001259810.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1939455 1940471 . + . gene_id "ECDH10B_RS09750"; transcript_id ""; gbkey "Gene"; gene "ansA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09750"; old_locus_tag "ECDH10B_1905"; -NC_010473.1 Protein Homology CDS 1939455 1940468 . + 0 gene_id "ECDH10B_RS09750"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ansA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310501.1"; locus_tag "ECDH10B_RS09750"; product "asparaginase"; protein_id "WP_001170162.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1939455 1939457 . + 0 gene_id "ECDH10B_RS09750"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ansA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310501.1"; locus_tag "ECDH10B_RS09750"; product "asparaginase"; protein_id "WP_001170162.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1940469 1940471 . + 0 gene_id "ECDH10B_RS09750"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ansA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310501.1"; locus_tag "ECDH10B_RS09750"; product "asparaginase"; protein_id "WP_001170162.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1940482 1941123 . + . gene_id "ECDH10B_RS09755"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09755"; old_locus_tag "ECDH10B_1906"; -NC_010473.1 Protein Homology CDS 1940482 1941120 . + 0 gene_id "ECDH10B_RS09755"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416282.4"; locus_tag "ECDH10B_RS09755"; product "bifunctional pyrazinamidase/nicotinamidase"; protein_id "WP_001135066.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1940482 1940484 . + 0 gene_id "ECDH10B_RS09755"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416282.4"; locus_tag "ECDH10B_RS09755"; product "bifunctional pyrazinamidase/nicotinamidase"; protein_id "WP_001135066.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1941121 1941123 . + 0 gene_id "ECDH10B_RS09755"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416282.4"; locus_tag "ECDH10B_RS09755"; product "bifunctional pyrazinamidase/nicotinamidase"; protein_id "WP_001135066.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1941216 1942574 . - . gene_id "ECDH10B_RS09760"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09760"; old_locus_tag "ECDH10B_1907"; -NC_010473.1 Protein Homology CDS 1941219 1942574 . - 0 gene_id "ECDH10B_RS09760"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416283.1"; locus_tag "ECDH10B_RS09760"; product "MFS transporter"; protein_id "WP_000438807.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1942572 1942574 . - 0 gene_id "ECDH10B_RS09760"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416283.1"; locus_tag "ECDH10B_RS09760"; product "MFS transporter"; protein_id "WP_000438807.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1941216 1941218 . - 0 gene_id "ECDH10B_RS09760"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416283.1"; locus_tag "ECDH10B_RS09760"; product "MFS transporter"; protein_id "WP_000438807.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1942691 1943449 . - . gene_id "ECDH10B_RS09765"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09765"; old_locus_tag "ECDH10B_1908"; -NC_010473.1 Protein Homology CDS 1942694 1943449 . - 0 gene_id "ECDH10B_RS09765"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416284.1"; locus_tag "ECDH10B_RS09765"; product "DeoR/GlpR transcriptional regulator"; protein_id "WP_000719096.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1943447 1943449 . - 0 gene_id "ECDH10B_RS09765"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416284.1"; locus_tag "ECDH10B_RS09765"; product "DeoR/GlpR transcriptional regulator"; protein_id "WP_000719096.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1942691 1942693 . - 0 gene_id "ECDH10B_RS09765"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416284.1"; locus_tag "ECDH10B_RS09765"; product "DeoR/GlpR transcriptional regulator"; protein_id "WP_000719096.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1943586 1944566 . - . gene_id "ECDH10B_RS09770"; transcript_id ""; gbkey "Gene"; gene "ydjG"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09770"; old_locus_tag "ECDH10B_1909"; -NC_010473.1 Protein Homology CDS 1943589 1944566 . - 0 gene_id "ECDH10B_RS09770"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ydjG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416285.1"; locus_tag "ECDH10B_RS09770"; product "NADH-dependent methylglyoxal reductase"; protein_id "WP_000723710.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1944564 1944566 . - 0 gene_id "ECDH10B_RS09770"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ydjG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416285.1"; locus_tag "ECDH10B_RS09770"; product "NADH-dependent methylglyoxal reductase"; protein_id "WP_000723710.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1943586 1943588 . - 0 gene_id "ECDH10B_RS09770"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ydjG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416285.1"; locus_tag "ECDH10B_RS09770"; product "NADH-dependent methylglyoxal reductase"; protein_id "WP_000723710.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1944576 1945523 . - . gene_id "ECDH10B_RS09775"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09775"; old_locus_tag "ECDH10B_1910"; -NC_010473.1 Protein Homology CDS 1944579 1945523 . - 0 gene_id "ECDH10B_RS09775"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416286.4"; locus_tag "ECDH10B_RS09775"; product "carbohydrate kinase family protein"; protein_id "WP_000369231.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1945521 1945523 . - 0 gene_id "ECDH10B_RS09775"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416286.4"; locus_tag "ECDH10B_RS09775"; product "carbohydrate kinase family protein"; protein_id "WP_000369231.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1944576 1944578 . - 0 gene_id "ECDH10B_RS09775"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416286.4"; locus_tag "ECDH10B_RS09775"; product "carbohydrate kinase family protein"; protein_id "WP_000369231.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1945528 1946364 . - . gene_id "ECDH10B_RS09780"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09780"; -NC_010473.1 Protein Homology CDS 1945531 1946364 . - 0 gene_id "ECDH10B_RS09780"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416287.1"; locus_tag "ECDH10B_RS09780"; product "ketose-bisphosphate aldolase"; protein_id "WP_000878892.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1946362 1946364 . - 0 gene_id "ECDH10B_RS09780"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416287.1"; locus_tag "ECDH10B_RS09780"; product "ketose-bisphosphate aldolase"; protein_id "WP_000878892.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1945528 1945530 . - 0 gene_id "ECDH10B_RS09780"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416287.1"; locus_tag "ECDH10B_RS09780"; product "ketose-bisphosphate aldolase"; protein_id "WP_000878892.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1946385 1947428 . - . gene_id "ECDH10B_RS09785"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09785"; old_locus_tag "ECDH10B_1912"; -NC_010473.1 Protein Homology CDS 1946388 1947428 . - 0 gene_id "ECDH10B_RS09785"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416288.1"; locus_tag "ECDH10B_RS09785"; product "NAD(P)-dependent alcohol dehydrogenase"; protein_id "WP_000798110.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1947426 1947428 . - 0 gene_id "ECDH10B_RS09785"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416288.1"; locus_tag "ECDH10B_RS09785"; product "NAD(P)-dependent alcohol dehydrogenase"; protein_id "WP_000798110.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1946385 1946387 . - 0 gene_id "ECDH10B_RS09785"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416288.1"; locus_tag "ECDH10B_RS09785"; product "NAD(P)-dependent alcohol dehydrogenase"; protein_id "WP_000798110.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1947445 1948824 . - . gene_id "ECDH10B_RS09790"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09790"; old_locus_tag "ECDH10B_1913"; -NC_010473.1 Protein Homology CDS 1947448 1948824 . - 0 gene_id "ECDH10B_RS09790"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416289.1"; locus_tag "ECDH10B_RS09790"; product "MFS transporter"; protein_id "WP_000435292.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1948822 1948824 . - 0 gene_id "ECDH10B_RS09790"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416289.1"; locus_tag "ECDH10B_RS09790"; product "MFS transporter"; protein_id "WP_000435292.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1947445 1947447 . - 0 gene_id "ECDH10B_RS09790"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416289.1"; locus_tag "ECDH10B_RS09790"; product "MFS transporter"; protein_id "WP_000435292.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1948851 1949927 . - . gene_id "ECDH10B_RS09795"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09795"; old_locus_tag "ECDH10B_1914"; -NC_010473.1 Protein Homology CDS 1948854 1949927 . - 0 gene_id "ECDH10B_RS09795"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416290.1"; locus_tag "ECDH10B_RS09795"; product "zinc-binding dehydrogenase"; protein_id "WP_000645221.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1949925 1949927 . - 0 gene_id "ECDH10B_RS09795"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416290.1"; locus_tag "ECDH10B_RS09795"; product "zinc-binding dehydrogenase"; protein_id "WP_000645221.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1948851 1948853 . - 0 gene_id "ECDH10B_RS09795"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416290.1"; locus_tag "ECDH10B_RS09795"; product "zinc-binding dehydrogenase"; protein_id "WP_000645221.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1950297 1950569 . - . gene_id "ECDH10B_RS09800"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09800"; old_locus_tag "ECDH10B_1915"; -NC_010473.1 Protein Homology CDS 1950300 1950569 . - 0 gene_id "ECDH10B_RS09800"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416291.4"; locus_tag "ECDH10B_RS09800"; product "YeaC family protein"; protein_id "WP_001300415.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1950567 1950569 . - 0 gene_id "ECDH10B_RS09800"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416291.4"; locus_tag "ECDH10B_RS09800"; product "YeaC family protein"; protein_id "WP_001300415.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1950297 1950299 . - 0 gene_id "ECDH10B_RS09800"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416291.4"; locus_tag "ECDH10B_RS09800"; product "YeaC family protein"; protein_id "WP_001300415.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1950611 1951024 . - . gene_id "ECDH10B_RS09805"; transcript_id ""; gbkey "Gene"; gene "msrB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09805"; old_locus_tag "ECDH10B_1916"; -NC_010473.1 Protein Homology CDS 1950614 1951024 . - 0 gene_id "ECDH10B_RS09805"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "msrB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310514.1"; locus_tag "ECDH10B_RS09805"; product "peptide-methionine (R)-S-oxide reductase MsrB"; protein_id "WP_001284618.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1951022 1951024 . - 0 gene_id "ECDH10B_RS09805"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "msrB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310514.1"; locus_tag "ECDH10B_RS09805"; product "peptide-methionine (R)-S-oxide reductase MsrB"; protein_id "WP_001284618.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1950611 1950613 . - 0 gene_id "ECDH10B_RS09805"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "msrB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310514.1"; locus_tag "ECDH10B_RS09805"; product "peptide-methionine (R)-S-oxide reductase MsrB"; protein_id "WP_001284618.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1951366 1952361 . + . gene_id "ECDH10B_RS09810"; transcript_id ""; gbkey "Gene"; gene "gapA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09810"; old_locus_tag "ECDH10B_1917"; -NC_010473.1 Protein Homology CDS 1951366 1952358 . + 0 gene_id "ECDH10B_RS09810"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gapA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_006322611.1"; locus_tag "ECDH10B_RS09810"; product "glyceraldehyde-3-phosphate dehydrogenase"; protein_id "WP_000153502.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1951366 1951368 . + 0 gene_id "ECDH10B_RS09810"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gapA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_006322611.1"; locus_tag "ECDH10B_RS09810"; product "glyceraldehyde-3-phosphate dehydrogenase"; protein_id "WP_000153502.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1952359 1952361 . + 0 gene_id "ECDH10B_RS09810"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gapA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_006322611.1"; locus_tag "ECDH10B_RS09810"; product "glyceraldehyde-3-phosphate dehydrogenase"; protein_id "WP_000153502.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1952445 1953329 . + . gene_id "ECDH10B_RS09815"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09815"; old_locus_tag "ECDH10B_1918"; -NC_010473.1 Protein Homology CDS 1952445 1953326 . + 0 gene_id "ECDH10B_RS09815"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416294.4"; locus_tag "ECDH10B_RS09815"; product "D-hexose-6-phosphate mutarotase"; protein_id "WP_001335909.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1952445 1952447 . + 0 gene_id "ECDH10B_RS09815"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416294.4"; locus_tag "ECDH10B_RS09815"; product "D-hexose-6-phosphate mutarotase"; protein_id "WP_001335909.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1953327 1953329 . + 0 gene_id "ECDH10B_RS09815"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416294.4"; locus_tag "ECDH10B_RS09815"; product "D-hexose-6-phosphate mutarotase"; protein_id "WP_001335909.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1953377 1954231 . - . gene_id "ECDH10B_RS09820"; transcript_id ""; gbkey "Gene"; gene "yeaE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09820"; old_locus_tag "ECDH10B_1919"; -NC_010473.1 Protein Homology CDS 1953380 1954231 . - 0 gene_id "ECDH10B_RS09820"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yeaE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416295.1"; locus_tag "ECDH10B_RS09820"; product "methylglyoxal reductase YeaE"; protein_id "WP_001186371.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1954229 1954231 . - 0 gene_id "ECDH10B_RS09820"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yeaE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416295.1"; locus_tag "ECDH10B_RS09820"; product "methylglyoxal reductase YeaE"; protein_id "WP_001186371.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1953377 1953379 . - 0 gene_id "ECDH10B_RS09820"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yeaE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416295.1"; locus_tag "ECDH10B_RS09820"; product "methylglyoxal reductase YeaE"; protein_id "WP_001186371.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1954321 1955067 . - . gene_id "ECDH10B_RS09825"; transcript_id ""; gbkey "Gene"; gene "mipA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09825"; old_locus_tag "ECDH10B_1920"; -NC_010473.1 Protein Homology CDS 1954324 1955067 . - 0 gene_id "ECDH10B_RS09825"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mipA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416296.1"; locus_tag "ECDH10B_RS09825"; product "scaffolding protein MipA"; protein_id "WP_000163771.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1955065 1955067 . - 0 gene_id "ECDH10B_RS09825"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mipA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416296.1"; locus_tag "ECDH10B_RS09825"; product "scaffolding protein MipA"; protein_id "WP_000163771.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1954321 1954323 . - 0 gene_id "ECDH10B_RS09825"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mipA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416296.1"; locus_tag "ECDH10B_RS09825"; product "scaffolding protein MipA"; protein_id "WP_000163771.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1955503 1957437 . + . gene_id "ECDH10B_RS09830"; transcript_id ""; gbkey "Gene"; gene "yeaG"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09830"; old_locus_tag "ECDH10B_1921"; -NC_010473.1 Protein Homology CDS 1955503 1957434 . + 0 gene_id "ECDH10B_RS09830"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yeaG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310519.1"; locus_tag "ECDH10B_RS09830"; product "protein kinase YeaG"; protein_id "WP_001019882.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1955503 1955505 . + 0 gene_id "ECDH10B_RS09830"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yeaG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310519.1"; locus_tag "ECDH10B_RS09830"; product "protein kinase YeaG"; protein_id "WP_001019882.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1957435 1957437 . + 0 gene_id "ECDH10B_RS09830"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yeaG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310519.1"; locus_tag "ECDH10B_RS09830"; product "protein kinase YeaG"; protein_id "WP_001019882.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1957550 1958833 . + . gene_id "ECDH10B_RS09835"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09835"; old_locus_tag "ECDH10B_1922"; -NC_010473.1 Protein Homology CDS 1957550 1958830 . + 0 gene_id "ECDH10B_RS09835"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416298.1"; locus_tag "ECDH10B_RS09835"; product "YeaH/YhbH family protein"; protein_id "WP_000219687.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1957550 1957552 . + 0 gene_id "ECDH10B_RS09835"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416298.1"; locus_tag "ECDH10B_RS09835"; product "YeaH/YhbH family protein"; protein_id "WP_000219687.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1958831 1958833 . + 0 gene_id "ECDH10B_RS09835"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416298.1"; locus_tag "ECDH10B_RS09835"; product "YeaH/YhbH family protein"; protein_id "WP_000219687.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1958980 1960455 . + . gene_id "ECDH10B_RS09840"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09840"; old_locus_tag "ECDH10B_1923"; -NC_010473.1 Protein Homology CDS 1958980 1960452 . + 0 gene_id "ECDH10B_RS09840"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416299.1"; locus_tag "ECDH10B_RS09840"; product "GGDEF domain-containing protein"; protein_id "WP_000616433.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1958980 1958982 . + 0 gene_id "ECDH10B_RS09840"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416299.1"; locus_tag "ECDH10B_RS09840"; product "GGDEF domain-containing protein"; protein_id "WP_000616433.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1960453 1960455 . + 0 gene_id "ECDH10B_RS09840"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416299.1"; locus_tag "ECDH10B_RS09840"; product "GGDEF domain-containing protein"; protein_id "WP_000616433.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1960636 1962126 . + . gene_id "ECDH10B_RS09845"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09845"; old_locus_tag "ECDH10B_1924"; -NC_010473.1 Protein Homology CDS 1960636 1962123 . + 0 gene_id "ECDH10B_RS09845"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416300.2"; locus_tag "ECDH10B_RS09845"; product "GGDEF domain-containing protein"; protein_id "WP_000766132.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1960636 1960638 . + 0 gene_id "ECDH10B_RS09845"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416300.2"; locus_tag "ECDH10B_RS09845"; product "GGDEF domain-containing protein"; protein_id "WP_000766132.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1962124 1962126 . + 0 gene_id "ECDH10B_RS09845"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416300.2"; locus_tag "ECDH10B_RS09845"; product "GGDEF domain-containing protein"; protein_id "WP_000766132.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1962169 1962672 . + . gene_id "ECDH10B_RS09850"; transcript_id ""; gbkey "Gene"; gene "yeaK"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09850"; old_locus_tag "ECDH10B_1925"; -NC_010473.1 Protein Homology CDS 1962169 1962669 . + 0 gene_id "ECDH10B_RS09850"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yeaK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310523.1"; locus_tag "ECDH10B_RS09850"; product "mischarged aminoacyl-tRNA deacylase"; protein_id "WP_000138043.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1962169 1962171 . + 0 gene_id "ECDH10B_RS09850"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yeaK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310523.1"; locus_tag "ECDH10B_RS09850"; product "mischarged aminoacyl-tRNA deacylase"; protein_id "WP_000138043.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1962670 1962672 . + 0 gene_id "ECDH10B_RS09850"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yeaK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310523.1"; locus_tag "ECDH10B_RS09850"; product "mischarged aminoacyl-tRNA deacylase"; protein_id "WP_000138043.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1962673 1962777 . - . gene_id "ECDH10B_RS09855"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09855"; old_locus_tag "ECDH10B_1926"; -NC_010473.1 Protein Homology CDS 1962676 1962777 . - 0 gene_id "ECDH10B_RS09855"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416302.2"; locus_tag "ECDH10B_RS09855"; product "hypothetical protein"; protein_id "WP_000999630.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1962775 1962777 . - 0 gene_id "ECDH10B_RS09855"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416302.2"; locus_tag "ECDH10B_RS09855"; product "hypothetical protein"; protein_id "WP_000999630.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1962673 1962675 . - 0 gene_id "ECDH10B_RS09855"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416302.2"; locus_tag "ECDH10B_RS09855"; product "hypothetical protein"; protein_id "WP_000999630.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1962947 1963393 . + . gene_id "ECDH10B_RS09860"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09860"; old_locus_tag "ECDH10B_1927"; -NC_010473.1 Protein Homology CDS 1962947 1963390 . + 0 gene_id "ECDH10B_RS09860"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416303.1"; locus_tag "ECDH10B_RS09860"; product "DUF441 domain-containing protein"; protein_id "WP_000460707.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1962947 1962949 . + 0 gene_id "ECDH10B_RS09860"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416303.1"; locus_tag "ECDH10B_RS09860"; product "DUF441 domain-containing protein"; protein_id "WP_000460707.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1963391 1963393 . + 0 gene_id "ECDH10B_RS09860"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416303.1"; locus_tag "ECDH10B_RS09860"; product "DUF441 domain-containing protein"; protein_id "WP_000460707.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1963350 1964171 . - . gene_id "ECDH10B_RS09865"; transcript_id ""; gbkey "Gene"; gene "nimR"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09865"; old_locus_tag "ECDH10B_1928"; -NC_010473.1 Protein Homology CDS 1963353 1964171 . - 0 gene_id "ECDH10B_RS09865"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nimR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416304.1"; locus_tag "ECDH10B_RS09865"; product "DNA-binding transcriptional regulator NimR"; protein_id "WP_000972248.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1964169 1964171 . - 0 gene_id "ECDH10B_RS09865"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nimR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416304.1"; locus_tag "ECDH10B_RS09865"; product "DNA-binding transcriptional regulator NimR"; protein_id "WP_000972248.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1963350 1963352 . - 0 gene_id "ECDH10B_RS09865"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nimR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416304.1"; locus_tag "ECDH10B_RS09865"; product "DNA-binding transcriptional regulator NimR"; protein_id "WP_000972248.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1964268 1965449 . + . gene_id "ECDH10B_RS09870"; transcript_id ""; gbkey "Gene"; gene "nimT"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09870"; old_locus_tag "ECDH10B_1929"; -NC_010473.1 Protein Homology CDS 1964268 1965446 . + 0 gene_id "ECDH10B_RS09870"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nimT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416305.1"; locus_tag "ECDH10B_RS09870"; product "2-nitroimidazole transporter"; protein_id "WP_000128491.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1964268 1964270 . + 0 gene_id "ECDH10B_RS09870"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nimT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416305.1"; locus_tag "ECDH10B_RS09870"; product "2-nitroimidazole transporter"; protein_id "WP_000128491.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1965447 1965449 . + 0 gene_id "ECDH10B_RS09870"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nimT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416305.1"; locus_tag "ECDH10B_RS09870"; product "2-nitroimidazole transporter"; protein_id "WP_000128491.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1965504 1965851 . + . gene_id "ECDH10B_RS09875"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09875"; old_locus_tag "ECDH10B_1930"; -NC_010473.1 Protein Homology CDS 1965504 1965848 . + 0 gene_id "ECDH10B_RS09875"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416306.2"; locus_tag "ECDH10B_RS09875"; product "DUF488 domain-containing protein"; protein_id "WP_001326526.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1965504 1965506 . + 0 gene_id "ECDH10B_RS09875"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416306.2"; locus_tag "ECDH10B_RS09875"; product "DUF488 domain-containing protein"; protein_id "WP_001326526.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1965849 1965851 . + 0 gene_id "ECDH10B_RS09875"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416306.2"; locus_tag "ECDH10B_RS09875"; product "DUF488 domain-containing protein"; protein_id "WP_001326526.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1965873 1966127 . - . gene_id "ECDH10B_RS09880"; transcript_id ""; gbkey "Gene"; gene "yoaF"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09880"; old_locus_tag "ECDH10B_1931"; -NC_010473.1 Protein Homology CDS 1965876 1966127 . - 0 gene_id "ECDH10B_RS09880"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yoaF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416307.1"; locus_tag "ECDH10B_RS09880"; product "DUF333 domain-containing lipoprotein YoaF"; protein_id "WP_000691930.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1966125 1966127 . - 0 gene_id "ECDH10B_RS09880"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yoaF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416307.1"; locus_tag "ECDH10B_RS09880"; product "DUF333 domain-containing lipoprotein YoaF"; protein_id "WP_000691930.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1965873 1965875 . - 0 gene_id "ECDH10B_RS09880"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yoaF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416307.1"; locus_tag "ECDH10B_RS09880"; product "DUF333 domain-containing lipoprotein YoaF"; protein_id "WP_000691930.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1966310 1967335 . + . gene_id "ECDH10B_RS09885"; transcript_id ""; gbkey "Gene"; gene "dgcP"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09885"; old_locus_tag "ECDH10B_1932"; -NC_010473.1 Protein Homology CDS 1966310 1967332 . + 0 gene_id "ECDH10B_RS09885"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dgcP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416308.4"; locus_tag "ECDH10B_RS09885"; product "diguanylate cyclase DgcP"; protein_id "WP_001310896.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1966310 1966312 . + 0 gene_id "ECDH10B_RS09885"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dgcP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416308.4"; locus_tag "ECDH10B_RS09885"; product "diguanylate cyclase DgcP"; protein_id "WP_001310896.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1967333 1967335 . + 0 gene_id "ECDH10B_RS09885"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dgcP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416308.4"; locus_tag "ECDH10B_RS09885"; product "diguanylate cyclase DgcP"; protein_id "WP_001310896.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1967368 1967466 . + . gene_id "ECDH10B_RS09890"; transcript_id ""; gbkey "Gene"; gene "yoaK"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09890"; -NC_010473.1 Protein Homology CDS 1967368 1967463 . + 0 gene_id "ECDH10B_RS09890"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yoaK"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_002791242.1"; locus_tag "ECDH10B_RS09890"; product "YoaK family small membrane protein"; protein_id "WP_001219350.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1967368 1967370 . + 0 gene_id "ECDH10B_RS09890"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yoaK"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_002791242.1"; locus_tag "ECDH10B_RS09890"; product "YoaK family small membrane protein"; protein_id "WP_001219350.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1967464 1967466 . + 0 gene_id "ECDH10B_RS09890"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yoaK"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_002791242.1"; locus_tag "ECDH10B_RS09890"; product "YoaK family small membrane protein"; protein_id "WP_001219350.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1967469 1967543 . + . gene_id "ECDH10B_RS25525"; transcript_id ""; gbkey "Gene"; gene "yoaJ"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS25525"; -NC_010473.1 Protein Homology CDS 1967469 1967540 . + 0 gene_id "ECDH10B_RS25525"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yoaJ"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_002791243.1"; locus_tag "ECDH10B_RS25525"; product "protein YoaJ"; protein_id "WP_001386836.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1967469 1967471 . + 0 gene_id "ECDH10B_RS25525"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yoaJ"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_002791243.1"; locus_tag "ECDH10B_RS25525"; product "protein YoaJ"; protein_id "WP_001386836.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1967541 1967543 . + 0 gene_id "ECDH10B_RS25525"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yoaJ"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_002791243.1"; locus_tag "ECDH10B_RS25525"; product "protein YoaJ"; protein_id "WP_001386836.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1967602 1967850 . - . gene_id "ECDH10B_RS09895"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09895"; old_locus_tag "ECDH10B_1933"; -NC_010473.1 Protein Homology CDS 1967605 1967850 . - 0 gene_id "ECDH10B_RS09895"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310531.1"; locus_tag "ECDH10B_RS09895"; product "GlsB/YeaQ/YmgE family stress response membrane protein"; protein_id "WP_000512153.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1967848 1967850 . - 0 gene_id "ECDH10B_RS09895"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310531.1"; locus_tag "ECDH10B_RS09895"; product "GlsB/YeaQ/YmgE family stress response membrane protein"; protein_id "WP_000512153.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1967602 1967604 . - 0 gene_id "ECDH10B_RS09895"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310531.1"; locus_tag "ECDH10B_RS09895"; product "GlsB/YeaQ/YmgE family stress response membrane protein"; protein_id "WP_000512153.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1967998 1968180 . - . gene_id "ECDH10B_RS09900"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09900"; old_locus_tag "ECDH10B_1934"; -NC_010473.1 Protein Homology CDS 1968001 1968180 . - 0 gene_id "ECDH10B_RS09900"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310532.1"; locus_tag "ECDH10B_RS09900"; product "DUF1869 domain-containing protein"; protein_id "WP_000513737.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1968178 1968180 . - 0 gene_id "ECDH10B_RS09900"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310532.1"; locus_tag "ECDH10B_RS09900"; product "DUF1869 domain-containing protein"; protein_id "WP_000513737.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1967998 1968000 . - 0 gene_id "ECDH10B_RS09900"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310532.1"; locus_tag "ECDH10B_RS09900"; product "DUF1869 domain-containing protein"; protein_id "WP_000513737.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1968184 1968543 . - . gene_id "ECDH10B_RS09905"; transcript_id ""; gbkey "Gene"; gene "yeaR"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09905"; old_locus_tag "ECDH10B_1935"; -NC_010473.1 Protein Homology CDS 1968187 1968543 . - 0 gene_id "ECDH10B_RS09905"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yeaR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310533.1"; locus_tag "ECDH10B_RS09905"; product "DUF1971 domain-containing protein"; protein_id "WP_000939317.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1968541 1968543 . - 0 gene_id "ECDH10B_RS09905"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yeaR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310533.1"; locus_tag "ECDH10B_RS09905"; product "DUF1971 domain-containing protein"; protein_id "WP_000939317.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1968184 1968186 . - 0 gene_id "ECDH10B_RS09905"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yeaR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310533.1"; locus_tag "ECDH10B_RS09905"; product "DUF1971 domain-containing protein"; protein_id "WP_000939317.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1968716 1969354 . - . gene_id "ECDH10B_RS09910"; transcript_id ""; gbkey "Gene"; gene "leuE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09910"; old_locus_tag "ECDH10B_1936"; -NC_010473.1 Protein Homology CDS 1968719 1969354 . - 0 gene_id "ECDH10B_RS09910"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "leuE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416312.1"; locus_tag "ECDH10B_RS09910"; product "leucine efflux protein LeuE"; protein_id "WP_000457206.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1969352 1969354 . - 0 gene_id "ECDH10B_RS09910"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "leuE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416312.1"; locus_tag "ECDH10B_RS09910"; product "leucine efflux protein LeuE"; protein_id "WP_000457206.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1968716 1968718 . - 0 gene_id "ECDH10B_RS09910"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "leuE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416312.1"; locus_tag "ECDH10B_RS09910"; product "leucine efflux protein LeuE"; protein_id "WP_000457206.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1969481 1970404 . - . gene_id "ECDH10B_RS09915"; transcript_id ""; gbkey "Gene"; gene "dmlR"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09915"; old_locus_tag "ECDH10B_1937"; -NC_010473.1 Protein Homology CDS 1969484 1970404 . - 0 gene_id "ECDH10B_RS09915"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dmlR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416313.4"; locus_tag "ECDH10B_RS09915"; product "DNA-binding transcriptional regulator DmlR"; protein_id "WP_001061575.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1970402 1970404 . - 0 gene_id "ECDH10B_RS09915"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dmlR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416313.4"; locus_tag "ECDH10B_RS09915"; product "DNA-binding transcriptional regulator DmlR"; protein_id "WP_001061575.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1969481 1969483 . - 0 gene_id "ECDH10B_RS09915"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dmlR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416313.4"; locus_tag "ECDH10B_RS09915"; product "DNA-binding transcriptional regulator DmlR"; protein_id "WP_001061575.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1970507 1971592 . + . gene_id "ECDH10B_RS09920"; transcript_id ""; gbkey "Gene"; gene "dmlA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09920"; old_locus_tag "ECDH10B_1938"; -NC_010473.1 Protein Homology CDS 1970507 1971589 . + 0 gene_id "ECDH10B_RS09920"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dmlA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416314.1"; locus_tag "ECDH10B_RS09920"; product "multifunctional D-malate/3-isopropylmalate/tartarate dehydrogenase"; protein_id "WP_000978494.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1970507 1970509 . + 0 gene_id "ECDH10B_RS09920"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dmlA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416314.1"; locus_tag "ECDH10B_RS09920"; product "multifunctional D-malate/3-isopropylmalate/tartarate dehydrogenase"; protein_id "WP_000978494.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1971590 1971592 . + 0 gene_id "ECDH10B_RS09920"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dmlA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416314.1"; locus_tag "ECDH10B_RS09920"; product "multifunctional D-malate/3-isopropylmalate/tartarate dehydrogenase"; protein_id "WP_000978494.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1971747 1973228 . + . gene_id "ECDH10B_RS09925"; transcript_id ""; gbkey "Gene"; gene "yeaV"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS09925"; old_locus_tag "ECDH10B_1939"; partial "true"; pseudo "true"; -NC_010473.1 Protein Homology CDS 1971747 1973225 . + 0 gene_id "ECDH10B_RS09925"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yeaV"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310537.2"; locus_tag "ECDH10B_RS09925"; note "incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "BCCT family transporter YeaV"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1971747 1971749 . + 0 gene_id "ECDH10B_RS09925"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yeaV"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310537.2"; locus_tag "ECDH10B_RS09925"; note "incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "BCCT family transporter YeaV"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1973226 1973228 . + 0 gene_id "ECDH10B_RS09925"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yeaV"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310537.2"; locus_tag "ECDH10B_RS09925"; note "incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "BCCT family transporter YeaV"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 1973260 1974384 . + . gene_id "ECDH10B_RS09930"; transcript_id ""; gbkey "Gene"; gene "yeaW"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09930"; old_locus_tag "ECDH10B_1940"; -NC_010473.1 Protein Homology CDS 1973260 1974381 . + 0 gene_id "ECDH10B_RS09930"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yeaW"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310538.1"; locus_tag "ECDH10B_RS09930"; product "carnitine monooxygenase subunit YeaW"; protein_id "WP_000067822.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1973260 1973262 . + 0 gene_id "ECDH10B_RS09930"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yeaW"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310538.1"; locus_tag "ECDH10B_RS09930"; product "carnitine monooxygenase subunit YeaW"; protein_id "WP_000067822.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1974382 1974384 . + 0 gene_id "ECDH10B_RS09930"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yeaW"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310538.1"; locus_tag "ECDH10B_RS09930"; product "carnitine monooxygenase subunit YeaW"; protein_id "WP_000067822.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1974440 1975405 . + . gene_id "ECDH10B_RS09935"; transcript_id ""; gbkey "Gene"; gene "yeaX"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09935"; old_locus_tag "ECDH10B_1941"; -NC_010473.1 Protein Homology CDS 1974440 1975402 . + 0 gene_id "ECDH10B_RS09935"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yeaX"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416317.1"; locus_tag "ECDH10B_RS09935"; product "carnitine monooxygenase subunit YeaX"; protein_id "WP_001287026.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1974440 1974442 . + 0 gene_id "ECDH10B_RS09935"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yeaX"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416317.1"; locus_tag "ECDH10B_RS09935"; product "carnitine monooxygenase subunit YeaX"; protein_id "WP_001287026.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1975403 1975405 . + 0 gene_id "ECDH10B_RS09935"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yeaX"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416317.1"; locus_tag "ECDH10B_RS09935"; product "carnitine monooxygenase subunit YeaX"; protein_id "WP_001287026.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1975459 1976574 . - . gene_id "ECDH10B_RS09940"; transcript_id ""; gbkey "Gene"; gene "rnd"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09940"; old_locus_tag "ECDH10B_1942"; -NC_010473.1 Protein Homology CDS 1975462 1976574 . - 0 gene_id "ECDH10B_RS09940"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rnd"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_707318.2"; locus_tag "ECDH10B_RS09940"; product "ribonuclease D"; protein_id "WP_001307844.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1976572 1976574 . - 0 gene_id "ECDH10B_RS09940"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rnd"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_707318.2"; locus_tag "ECDH10B_RS09940"; product "ribonuclease D"; protein_id "WP_001307844.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1975459 1975461 . - 0 gene_id "ECDH10B_RS09940"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rnd"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_707318.2"; locus_tag "ECDH10B_RS09940"; product "ribonuclease D"; protein_id "WP_001307844.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1976656 1978341 . - . gene_id "ECDH10B_RS09945"; transcript_id ""; gbkey "Gene"; gene "fadD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09945"; old_locus_tag "ECDH10B_1943"; -NC_010473.1 Protein Homology CDS 1976659 1978341 . - 0 gene_id "ECDH10B_RS09945"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fadD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416319.1"; locus_tag "ECDH10B_RS09945"; product "long-chain-fatty-acid--CoA ligase FadD"; protein_id "WP_000758422.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1978339 1978341 . - 0 gene_id "ECDH10B_RS09945"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fadD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416319.1"; locus_tag "ECDH10B_RS09945"; product "long-chain-fatty-acid--CoA ligase FadD"; protein_id "WP_000758422.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1976656 1976658 . - 0 gene_id "ECDH10B_RS09945"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fadD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416319.1"; locus_tag "ECDH10B_RS09945"; product "long-chain-fatty-acid--CoA ligase FadD"; protein_id "WP_000758422.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1978546 1979127 . - . gene_id "ECDH10B_RS09950"; transcript_id ""; gbkey "Gene"; gene "yeaY"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09950"; old_locus_tag "ECDH10B_1944"; -NC_010473.1 Protein Homology CDS 1978549 1979127 . - 0 gene_id "ECDH10B_RS09950"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yeaY"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416320.1"; locus_tag "ECDH10B_RS09950"; product "Slp family lipoprotein YeaY"; protein_id "WP_000290576.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1979125 1979127 . - 0 gene_id "ECDH10B_RS09950"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yeaY"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416320.1"; locus_tag "ECDH10B_RS09950"; product "Slp family lipoprotein YeaY"; protein_id "WP_000290576.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1978546 1978548 . - 0 gene_id "ECDH10B_RS09950"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yeaY"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416320.1"; locus_tag "ECDH10B_RS09950"; product "Slp family lipoprotein YeaY"; protein_id "WP_000290576.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1979167 1979862 . - . gene_id "ECDH10B_RS09955"; transcript_id ""; gbkey "Gene"; gene "tsaB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09955"; old_locus_tag "ECDH10B_1945"; -NC_010473.1 Protein Homology CDS 1979170 1979862 . - 0 gene_id "ECDH10B_RS09955"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tsaB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416321.1"; locus_tag "ECDH10B_RS09955"; product "tRNA (adenosine(37)-N6)-threonylcarbamoyltransferase complex dimerization subunit type 1 TsaB"; protein_id "WP_001220966.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1979860 1979862 . - 0 gene_id "ECDH10B_RS09955"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tsaB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416321.1"; locus_tag "ECDH10B_RS09955"; product "tRNA (adenosine(37)-N6)-threonylcarbamoyltransferase complex dimerization subunit type 1 TsaB"; protein_id "WP_001220966.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1979167 1979169 . - 0 gene_id "ECDH10B_RS09955"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tsaB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416321.1"; locus_tag "ECDH10B_RS09955"; product "tRNA (adenosine(37)-N6)-threonylcarbamoyltransferase complex dimerization subunit type 1 TsaB"; protein_id "WP_001220966.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1979920 1981830 . - . gene_id "ECDH10B_RS09960"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09960"; old_locus_tag "ECDH10B_1946"; -NC_010473.1 Protein Homology CDS 1979923 1981830 . - 0 gene_id "ECDH10B_RS09960"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416322.1"; locus_tag "ECDH10B_RS09960"; product "ATP-dependent DNA helicase"; protein_id "WP_000128841.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1981828 1981830 . - 0 gene_id "ECDH10B_RS09960"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416322.1"; locus_tag "ECDH10B_RS09960"; product "ATP-dependent DNA helicase"; protein_id "WP_000128841.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1979920 1979922 . - 0 gene_id "ECDH10B_RS09960"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416322.1"; locus_tag "ECDH10B_RS09960"; product "ATP-dependent DNA helicase"; protein_id "WP_000128841.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1981962 1982306 . + . gene_id "ECDH10B_RS09965"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09965"; old_locus_tag "ECDH10B_1947"; -NC_010473.1 Protein Homology CDS 1981962 1982303 . + 0 gene_id "ECDH10B_RS09965"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416323.4"; locus_tag "ECDH10B_RS09965"; product "RidA family protein"; protein_id "WP_001295493.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1981962 1981964 . + 0 gene_id "ECDH10B_RS09965"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416323.4"; locus_tag "ECDH10B_RS09965"; product "RidA family protein"; protein_id "WP_001295493.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1982304 1982306 . + 0 gene_id "ECDH10B_RS09965"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416323.4"; locus_tag "ECDH10B_RS09965"; product "RidA family protein"; protein_id "WP_001295493.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1982668 1983027 . + . gene_id "ECDH10B_RS09970"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09970"; old_locus_tag "ECDH10B_1948"; -NC_010473.1 Protein Homology CDS 1982668 1983024 . + 0 gene_id "ECDH10B_RS09970"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001331208.1"; locus_tag "ECDH10B_RS09970"; product "DUF1889 family protein"; protein_id "WP_001307845.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1982668 1982670 . + 0 gene_id "ECDH10B_RS09970"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001331208.1"; locus_tag "ECDH10B_RS09970"; product "DUF1889 family protein"; protein_id "WP_001307845.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1983025 1983027 . + 0 gene_id "ECDH10B_RS09970"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001331208.1"; locus_tag "ECDH10B_RS09970"; product "DUF1889 family protein"; protein_id "WP_001307845.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1983147 1983326 . - . gene_id "ECDH10B_RS09975"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09975"; old_locus_tag "ECDH10B_1949"; -NC_010473.1 Protein Homology CDS 1983150 1983326 . - 0 gene_id "ECDH10B_RS09975"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310547.1"; locus_tag "ECDH10B_RS09975"; product "YoaH family protein"; protein_id "WP_000457334.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1983324 1983326 . - 0 gene_id "ECDH10B_RS09975"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310547.1"; locus_tag "ECDH10B_RS09975"; product "YoaH family protein"; protein_id "WP_000457334.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1983147 1983149 . - 0 gene_id "ECDH10B_RS09975"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310547.1"; locus_tag "ECDH10B_RS09975"; product "YoaH family protein"; protein_id "WP_000457334.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1983400 1984761 . + . gene_id "ECDH10B_RS09980"; transcript_id ""; gbkey "Gene"; gene "pabB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09980"; -NC_010473.1 Protein Homology CDS 1983400 1984758 . + 0 gene_id "ECDH10B_RS09980"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pabB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416326.1"; locus_tag "ECDH10B_RS09980"; product "aminodeoxychorismate synthase component 1"; protein_id "WP_000855022.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1983400 1983402 . + 0 gene_id "ECDH10B_RS09980"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pabB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416326.1"; locus_tag "ECDH10B_RS09980"; product "aminodeoxychorismate synthase component 1"; protein_id "WP_000855022.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1984759 1984761 . + 0 gene_id "ECDH10B_RS09980"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pabB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416326.1"; locus_tag "ECDH10B_RS09980"; product "aminodeoxychorismate synthase component 1"; protein_id "WP_000855022.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1984765 1985343 . + . gene_id "ECDH10B_RS09985"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09985"; old_locus_tag "ECDH10B_1951"; -NC_010473.1 Protein Homology CDS 1984765 1985340 . + 0 gene_id "ECDH10B_RS09985"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416327.1"; locus_tag "ECDH10B_RS09985"; product "CoA pyrophosphatase"; protein_id "WP_000456715.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1984765 1984767 . + 0 gene_id "ECDH10B_RS09985"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416327.1"; locus_tag "ECDH10B_RS09985"; product "CoA pyrophosphatase"; protein_id "WP_000456715.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1985341 1985343 . + 0 gene_id "ECDH10B_RS09985"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416327.1"; locus_tag "ECDH10B_RS09985"; product "CoA pyrophosphatase"; protein_id "WP_000456715.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1985527 1986891 . + . gene_id "ECDH10B_RS09990"; transcript_id ""; gbkey "Gene"; gene "sdaA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09990"; old_locus_tag "ECDH10B_1952"; -NC_010473.1 Protein Homology CDS 1985527 1986888 . + 0 gene_id "ECDH10B_RS09990"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sdaA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416328.1"; locus_tag "ECDH10B_RS09990"; product "L-serine ammonia-lyase"; protein_id "WP_000624298.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1985527 1985529 . + 0 gene_id "ECDH10B_RS09990"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sdaA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416328.1"; locus_tag "ECDH10B_RS09990"; product "L-serine ammonia-lyase"; protein_id "WP_000624298.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1986889 1986891 . + 0 gene_id "ECDH10B_RS09990"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sdaA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416328.1"; locus_tag "ECDH10B_RS09990"; product "L-serine ammonia-lyase"; protein_id "WP_000624298.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1987022 1988620 . + . gene_id "ECDH10B_RS09995"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS09995"; old_locus_tag "ECDH10B_1953"; -NC_010473.1 Protein Homology CDS 1987022 1988617 . + 0 gene_id "ECDH10B_RS09995"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416329.4"; locus_tag "ECDH10B_RS09995"; product "cyclic diguanylate phosphodiesterase"; protein_id "WP_001295494.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1987022 1987024 . + 0 gene_id "ECDH10B_RS09995"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416329.4"; locus_tag "ECDH10B_RS09995"; product "cyclic diguanylate phosphodiesterase"; protein_id "WP_001295494.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1988618 1988620 . + 0 gene_id "ECDH10B_RS09995"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416329.4"; locus_tag "ECDH10B_RS09995"; product "cyclic diguanylate phosphodiesterase"; protein_id "WP_001295494.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1988624 1990180 . - . gene_id "ECDH10B_RS10000"; transcript_id ""; gbkey "Gene"; gene "yoaE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10000"; old_locus_tag "ECDH10B_1954"; -NC_010473.1 Protein Homology CDS 1988627 1990180 . - 0 gene_id "ECDH10B_RS10000"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yoaE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310552.1"; locus_tag "ECDH10B_RS10000"; product "CNNM family cation transport protein YoaE"; protein_id "WP_000394983.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1990178 1990180 . - 0 gene_id "ECDH10B_RS10000"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yoaE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310552.1"; locus_tag "ECDH10B_RS10000"; product "CNNM family cation transport protein YoaE"; protein_id "WP_000394983.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1988624 1988626 . - 0 gene_id "ECDH10B_RS10000"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yoaE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310552.1"; locus_tag "ECDH10B_RS10000"; product "CNNM family cation transport protein YoaE"; protein_id "WP_000394983.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1990643 1991614 . + . gene_id "ECDH10B_RS10010"; transcript_id ""; gbkey "Gene"; gene "manX"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10010"; old_locus_tag "ECDH10B_1955"; -NC_010473.1 Protein Homology CDS 1990643 1991611 . + 0 gene_id "ECDH10B_RS10010"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "manX"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310554.1"; locus_tag "ECDH10B_RS10010"; product "PTS mannose transporter subunit IIAB"; protein_id "WP_000150543.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1990643 1990645 . + 0 gene_id "ECDH10B_RS10010"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "manX"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310554.1"; locus_tag "ECDH10B_RS10010"; product "PTS mannose transporter subunit IIAB"; protein_id "WP_000150543.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1991612 1991614 . + 0 gene_id "ECDH10B_RS10010"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "manX"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310554.1"; locus_tag "ECDH10B_RS10010"; product "PTS mannose transporter subunit IIAB"; protein_id "WP_000150543.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1991677 1992477 . + . gene_id "ECDH10B_RS10015"; transcript_id ""; gbkey "Gene"; gene "manY"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10015"; old_locus_tag "ECDH10B_1956"; -NC_010473.1 Protein Homology CDS 1991677 1992474 . + 0 gene_id "ECDH10B_RS10015"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "manY"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_002910918.1"; locus_tag "ECDH10B_RS10015"; product "PTS mannose transporter subunit IIC"; protein_id "WP_000406926.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1991677 1991679 . + 0 gene_id "ECDH10B_RS10015"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "manY"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_002910918.1"; locus_tag "ECDH10B_RS10015"; product "PTS mannose transporter subunit IIC"; protein_id "WP_000406926.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1992475 1992477 . + 0 gene_id "ECDH10B_RS10015"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "manY"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_002910918.1"; locus_tag "ECDH10B_RS10015"; product "PTS mannose transporter subunit IIC"; protein_id "WP_000406926.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1992490 1993341 . + . gene_id "ECDH10B_RS10020"; transcript_id ""; gbkey "Gene"; gene "manZ"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10020"; old_locus_tag "ECDH10B_1957"; -NC_010473.1 Protein Homology CDS 1992490 1993338 . + 0 gene_id "ECDH10B_RS10020"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "manZ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416333.4"; locus_tag "ECDH10B_RS10020"; product "PTS mannose transporter subunit IID"; protein_id "WP_000228655.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1992490 1992492 . + 0 gene_id "ECDH10B_RS10020"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "manZ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416333.4"; locus_tag "ECDH10B_RS10020"; product "PTS mannose transporter subunit IID"; protein_id "WP_000228655.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1993339 1993341 . + 0 gene_id "ECDH10B_RS10020"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "manZ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416333.4"; locus_tag "ECDH10B_RS10020"; product "PTS mannose transporter subunit IID"; protein_id "WP_000228655.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1993396 1993854 . + . gene_id "ECDH10B_RS10025"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10025"; old_locus_tag "ECDH10B_1958"; -NC_010473.1 Protein Homology CDS 1993396 1993851 . + 0 gene_id "ECDH10B_RS10025"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416334.1"; locus_tag "ECDH10B_RS10025"; product "DUF986 domain-containing protein"; protein_id "WP_000156255.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1993396 1993398 . + 0 gene_id "ECDH10B_RS10025"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416334.1"; locus_tag "ECDH10B_RS10025"; product "DUF986 domain-containing protein"; protein_id "WP_000156255.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1993852 1993854 . + 0 gene_id "ECDH10B_RS10025"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416334.1"; locus_tag "ECDH10B_RS10025"; product "DUF986 domain-containing protein"; protein_id "WP_000156255.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1994283 1994849 . + . gene_id "ECDH10B_RS10035"; transcript_id ""; gbkey "Gene"; gene "mntP"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10035"; old_locus_tag "ECDH10B_1959"; -NC_010473.1 Protein Homology CDS 1994283 1994846 . + 0 gene_id "ECDH10B_RS10035"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mntP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416335.4"; locus_tag "ECDH10B_RS10035"; product "manganese efflux pump MntP"; protein_id "WP_001296134.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1994283 1994285 . + 0 gene_id "ECDH10B_RS10035"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mntP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416335.4"; locus_tag "ECDH10B_RS10035"; product "manganese efflux pump MntP"; protein_id "WP_001296134.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1994847 1994849 . + 0 gene_id "ECDH10B_RS10035"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mntP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416335.4"; locus_tag "ECDH10B_RS10035"; product "manganese efflux pump MntP"; protein_id "WP_001296134.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1994846 1995655 . - . gene_id "ECDH10B_RS10040"; transcript_id ""; gbkey "Gene"; gene "rlmA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10040"; old_locus_tag "ECDH10B_1960"; -NC_010473.1 Protein Homology CDS 1994849 1995655 . - 0 gene_id "ECDH10B_RS10040"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rlmA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416336.1"; locus_tag "ECDH10B_RS10040"; product "23S rRNA (guanine(745)-N(1))-methyltransferase"; protein_id "WP_000010115.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1995653 1995655 . - 0 gene_id "ECDH10B_RS10040"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rlmA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416336.1"; locus_tag "ECDH10B_RS10040"; product "23S rRNA (guanine(745)-N(1))-methyltransferase"; protein_id "WP_000010115.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1994846 1994848 . - 0 gene_id "ECDH10B_RS10040"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rlmA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416336.1"; locus_tag "ECDH10B_RS10040"; product "23S rRNA (guanine(745)-N(1))-methyltransferase"; protein_id "WP_000010115.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1995821 1996030 . - . gene_id "ECDH10B_RS10045"; transcript_id ""; gbkey "Gene"; gene "cspE"; gene_biotype "protein_coding"; gene_synonym "gicA"; gene_synonym "msmC"; locus_tag "ECDH10B_RS10045"; old_locus_tag "ECDH10B_1961"; -NC_010473.1 Protein Homology CDS 1995824 1996030 . - 0 gene_id "ECDH10B_RS10045"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cspE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310560.1"; locus_tag "ECDH10B_RS10045"; product "transcription antiterminator/RNA stability regulator CspE"; protein_id "WP_001062678.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1996028 1996030 . - 0 gene_id "ECDH10B_RS10045"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cspE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310560.1"; locus_tag "ECDH10B_RS10045"; product "transcription antiterminator/RNA stability regulator CspE"; protein_id "WP_001062678.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1995821 1995823 . - 0 gene_id "ECDH10B_RS10045"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cspE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310560.1"; locus_tag "ECDH10B_RS10045"; product "transcription antiterminator/RNA stability regulator CspE"; protein_id "WP_001062678.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1996043 1996186 . - . gene_id "ECDH10B_RS10050"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10050"; old_locus_tag "ECDH10B_1962"; -NC_010473.1 Protein Homology CDS 1996046 1996186 . - 0 gene_id "ECDH10B_RS10050"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416338.1"; locus_tag "ECDH10B_RS10050"; product "YobF family protein"; protein_id "WP_001295496.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1996184 1996186 . - 0 gene_id "ECDH10B_RS10050"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416338.1"; locus_tag "ECDH10B_RS10050"; product "YobF family protein"; protein_id "WP_001295496.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1996043 1996045 . - 0 gene_id "ECDH10B_RS10050"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416338.1"; locus_tag "ECDH10B_RS10050"; product "YobF family protein"; protein_id "WP_001295496.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1996856 1997143 . - . gene_id "ECDH10B_RS10060"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10060"; old_locus_tag "ECDH10B_1963"; -NC_010473.1 Protein Homology CDS 1996859 1997143 . - 0 gene_id "ECDH10B_RS10060"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416339.1"; locus_tag "ECDH10B_RS10060"; product "YebO family protein"; protein_id "WP_001006866.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1997141 1997143 . - 0 gene_id "ECDH10B_RS10060"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416339.1"; locus_tag "ECDH10B_RS10060"; product "YebO family protein"; protein_id "WP_001006866.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1996856 1996858 . - 0 gene_id "ECDH10B_RS10060"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416339.1"; locus_tag "ECDH10B_RS10060"; product "YebO family protein"; protein_id "WP_001006866.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1997218 1997361 . - . gene_id "ECDH10B_RS10065"; transcript_id ""; gbkey "Gene"; gene "mgrB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10065"; old_locus_tag "ECDH10B_1964"; -NC_010473.1 Protein Homology CDS 1997221 1997361 . - 0 gene_id "ECDH10B_RS10065"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mgrB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416340.1"; locus_tag "ECDH10B_RS10065"; product "PhoP/PhoQ regulator MgrB"; protein_id "WP_000714550.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1997359 1997361 . - 0 gene_id "ECDH10B_RS10065"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mgrB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416340.1"; locus_tag "ECDH10B_RS10065"; product "PhoP/PhoQ regulator MgrB"; protein_id "WP_000714550.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1997218 1997220 . - 0 gene_id "ECDH10B_RS10065"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mgrB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416340.1"; locus_tag "ECDH10B_RS10065"; product "PhoP/PhoQ regulator MgrB"; protein_id "WP_000714550.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1997520 1997759 . + . gene_id "ECDH10B_RS10070"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10070"; old_locus_tag "ECDH10B_1965"; -NC_010473.1 Protein Homology CDS 1997520 1997756 . + 0 gene_id "ECDH10B_RS10070"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_588456.1"; locus_tag "ECDH10B_RS10070"; product "hypothetical protein"; protein_id "WP_001211011.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1997520 1997522 . + 0 gene_id "ECDH10B_RS10070"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_588456.1"; locus_tag "ECDH10B_RS10070"; product "hypothetical protein"; protein_id "WP_001211011.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1997757 1997759 . + 0 gene_id "ECDH10B_RS10070"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_588456.1"; locus_tag "ECDH10B_RS10070"; product "hypothetical protein"; protein_id "WP_001211011.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1997903 1998694 . - . gene_id "ECDH10B_RS10075"; transcript_id ""; gbkey "Gene"; gene "kdgR"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10075"; old_locus_tag "ECDH10B_1966"; -NC_010473.1 Protein Homology CDS 1997906 1998694 . - 0 gene_id "ECDH10B_RS10075"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "kdgR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416341.1"; locus_tag "ECDH10B_RS10075"; product "DNA-binding transcriptional regulator KdgR"; protein_id "WP_001262203.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1998692 1998694 . - 0 gene_id "ECDH10B_RS10075"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "kdgR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416341.1"; locus_tag "ECDH10B_RS10075"; product "DNA-binding transcriptional regulator KdgR"; protein_id "WP_001262203.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 1997903 1997905 . - 0 gene_id "ECDH10B_RS10075"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "kdgR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416341.1"; locus_tag "ECDH10B_RS10075"; product "DNA-binding transcriptional regulator KdgR"; protein_id "WP_001262203.1"; transl_table "11"; -NC_010473.1 RefSeq gene 1998871 2000244 . + . gene_id "ECDH10B_RS10080"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10080"; old_locus_tag "ECDH10B_1967"; -NC_010473.1 Protein Homology CDS 1998871 2000241 . + 0 gene_id "ECDH10B_RS10080"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416342.4"; locus_tag "ECDH10B_RS10080"; product "MFS transporter"; protein_id "WP_001127216.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 1998871 1998873 . + 0 gene_id "ECDH10B_RS10080"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416342.4"; locus_tag "ECDH10B_RS10080"; product "MFS transporter"; protein_id "WP_001127216.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2000242 2000244 . + 0 gene_id "ECDH10B_RS10080"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416342.4"; locus_tag "ECDH10B_RS10080"; product "MFS transporter"; protein_id "WP_001127216.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2000290 2001171 . - . gene_id "ECDH10B_RS10085"; transcript_id ""; gbkey "Gene"; gene "htpX"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10085"; old_locus_tag "ECDH10B_1968"; -NC_010473.1 Protein Homology CDS 2000293 2001171 . - 0 gene_id "ECDH10B_RS10085"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "htpX"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_014229823.1"; locus_tag "ECDH10B_RS10085"; product "protease HtpX"; protein_id "WP_000984520.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2001169 2001171 . - 0 gene_id "ECDH10B_RS10085"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "htpX"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_014229823.1"; locus_tag "ECDH10B_RS10085"; product "protease HtpX"; protein_id "WP_000984520.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2000290 2000292 . - 0 gene_id "ECDH10B_RS10085"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "htpX"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_014229823.1"; locus_tag "ECDH10B_RS10085"; product "protease HtpX"; protein_id "WP_000984520.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2001363 2003411 . - . gene_id "ECDH10B_RS10090"; transcript_id ""; gbkey "Gene"; gene "prc"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10090"; old_locus_tag "ECDH10B_1969"; -NC_010473.1 Protein Homology CDS 2001366 2003411 . - 0 gene_id "ECDH10B_RS10090"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "prc"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416344.1"; locus_tag "ECDH10B_RS10090"; product "carboxy terminal-processing peptidase"; protein_id "WP_001055791.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2003409 2003411 . - 0 gene_id "ECDH10B_RS10090"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "prc"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416344.1"; locus_tag "ECDH10B_RS10090"; product "carboxy terminal-processing peptidase"; protein_id "WP_001055791.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2001363 2001365 . - 0 gene_id "ECDH10B_RS10090"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "prc"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416344.1"; locus_tag "ECDH10B_RS10090"; product "carboxy terminal-processing peptidase"; protein_id "WP_001055791.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2003431 2004129 . - . gene_id "ECDH10B_RS10095"; transcript_id ""; gbkey "Gene"; gene "proQ"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10095"; old_locus_tag "ECDH10B_1970"; -NC_010473.1 Protein Homology CDS 2003434 2004129 . - 0 gene_id "ECDH10B_RS10095"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "proQ"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026161.1"; locus_tag "ECDH10B_RS10095"; product "RNA chaperone ProQ"; protein_id "WP_000431381.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2004127 2004129 . - 0 gene_id "ECDH10B_RS10095"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "proQ"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026161.1"; locus_tag "ECDH10B_RS10095"; product "RNA chaperone ProQ"; protein_id "WP_000431381.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2003431 2003433 . - 0 gene_id "ECDH10B_RS10095"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "proQ"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026161.1"; locus_tag "ECDH10B_RS10095"; product "RNA chaperone ProQ"; protein_id "WP_000431381.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2004226 2004723 . - . gene_id "ECDH10B_RS10100"; transcript_id ""; gbkey "Gene"; gene "msrC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10100"; old_locus_tag "ECDH10B_1971"; -NC_010473.1 Protein Homology CDS 2004229 2004723 . - 0 gene_id "ECDH10B_RS10100"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "msrC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416346.4"; locus_tag "ECDH10B_RS10100"; product "L-methionine (R)-S-oxide reductase"; protein_id "WP_001043877.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2004721 2004723 . - 0 gene_id "ECDH10B_RS10100"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "msrC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416346.4"; locus_tag "ECDH10B_RS10100"; product "L-methionine (R)-S-oxide reductase"; protein_id "WP_001043877.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2004226 2004228 . - 0 gene_id "ECDH10B_RS10100"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "msrC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416346.4"; locus_tag "ECDH10B_RS10100"; product "L-methionine (R)-S-oxide reductase"; protein_id "WP_001043877.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2004853 2006136 . + . gene_id "ECDH10B_RS10105"; transcript_id ""; gbkey "Gene"; gene "yebS"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10105"; old_locus_tag "ECDH10B_1972"; -NC_010473.1 Protein Homology CDS 2004853 2006133 . + 0 gene_id "ECDH10B_RS10105"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yebS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310570.1"; locus_tag "ECDH10B_RS10105"; product "membrane integrity lipid transport subunit YebS"; protein_id "WP_001207282.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2004853 2004855 . + 0 gene_id "ECDH10B_RS10105"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yebS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310570.1"; locus_tag "ECDH10B_RS10105"; product "membrane integrity lipid transport subunit YebS"; protein_id "WP_001207282.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2006134 2006136 . + 0 gene_id "ECDH10B_RS10105"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yebS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310570.1"; locus_tag "ECDH10B_RS10105"; product "membrane integrity lipid transport subunit YebS"; protein_id "WP_001207282.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2006105 2008738 . + . gene_id "ECDH10B_RS10110"; transcript_id ""; gbkey "Gene"; gene "yebT"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10110"; old_locus_tag "ECDH10B_1973"; -NC_010473.1 Protein Homology CDS 2006105 2008735 . + 0 gene_id "ECDH10B_RS10110"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yebT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416348.2"; locus_tag "ECDH10B_RS10110"; product "lipid-binding membrane homeostasis protein YebT"; protein_id "WP_001326728.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2006105 2006107 . + 0 gene_id "ECDH10B_RS10110"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yebT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416348.2"; locus_tag "ECDH10B_RS10110"; product "lipid-binding membrane homeostasis protein YebT"; protein_id "WP_001326728.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2008736 2008738 . + 0 gene_id "ECDH10B_RS10110"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yebT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416348.2"; locus_tag "ECDH10B_RS10110"; product "lipid-binding membrane homeostasis protein YebT"; protein_id "WP_001326728.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2008818 2010257 . + . gene_id "ECDH10B_RS10115"; transcript_id ""; gbkey "Gene"; gene "rsmF"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10115"; old_locus_tag "ECDH10B_1974"; -NC_010473.1 Protein Homology CDS 2008818 2010254 . + 0 gene_id "ECDH10B_RS10115"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rsmF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416349.2"; locus_tag "ECDH10B_RS10115"; product "16S rRNA (cytosine(1407)-C(5))-methyltransferase RsmF"; protein_id "WP_001352260.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2008818 2008820 . + 0 gene_id "ECDH10B_RS10115"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rsmF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416349.2"; locus_tag "ECDH10B_RS10115"; product "16S rRNA (cytosine(1407)-C(5))-methyltransferase RsmF"; protein_id "WP_001352260.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2010255 2010257 . + 0 gene_id "ECDH10B_RS10115"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rsmF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416349.2"; locus_tag "ECDH10B_RS10115"; product "16S rRNA (cytosine(1407)-C(5))-methyltransferase RsmF"; protein_id "WP_001352260.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2010375 2010611 . + . gene_id "ECDH10B_RS10120"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10120"; old_locus_tag "ECDH10B_1975"; -NC_010473.1 Protein Homology CDS 2010375 2010608 . + 0 gene_id "ECDH10B_RS10120"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_707284.2"; locus_tag "ECDH10B_RS10120"; product "DUF1480 family protein"; protein_id "WP_001295499.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2010375 2010377 . + 0 gene_id "ECDH10B_RS10120"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_707284.2"; locus_tag "ECDH10B_RS10120"; product "DUF1480 family protein"; protein_id "WP_001295499.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2010609 2010611 . + 0 gene_id "ECDH10B_RS10120"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_707284.2"; locus_tag "ECDH10B_RS10120"; product "DUF1480 family protein"; protein_id "WP_001295499.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2010716 2010907 . + . gene_id "ECDH10B_RS10125"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10125"; old_locus_tag "ECDH10B_1976"; -NC_010473.1 Protein Homology CDS 2010716 2010904 . + 0 gene_id "ECDH10B_RS10125"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416351.2"; locus_tag "ECDH10B_RS10125"; product "YebW family protein"; protein_id "WP_000457842.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2010716 2010718 . + 0 gene_id "ECDH10B_RS10125"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416351.2"; locus_tag "ECDH10B_RS10125"; product "YebW family protein"; protein_id "WP_000457842.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2010905 2010907 . + 0 gene_id "ECDH10B_RS10125"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416351.2"; locus_tag "ECDH10B_RS10125"; product "YebW family protein"; protein_id "WP_000457842.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2010908 2011564 . - . gene_id "ECDH10B_RS10130"; transcript_id ""; gbkey "Gene"; gene "pphA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10130"; old_locus_tag "ECDH10B_1977"; -NC_010473.1 Protein Homology CDS 2010911 2011564 . - 0 gene_id "ECDH10B_RS10130"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pphA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416352.4"; locus_tag "ECDH10B_RS10130"; product "protein-serine/threonine phosphatase"; protein_id "WP_000812724.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2011562 2011564 . - 0 gene_id "ECDH10B_RS10130"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pphA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416352.4"; locus_tag "ECDH10B_RS10130"; product "protein-serine/threonine phosphatase"; protein_id "WP_000812724.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2010908 2010910 . - 0 gene_id "ECDH10B_RS10130"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pphA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416352.4"; locus_tag "ECDH10B_RS10130"; product "protein-serine/threonine phosphatase"; protein_id "WP_000812724.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2011960 2012301 . - . gene_id "ECDH10B_RS10140"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10140"; old_locus_tag "ECDH10B_1980"; -NC_010473.1 Protein Homology CDS 2011963 2012301 . - 0 gene_id "ECDH10B_RS10140"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416353.1"; locus_tag "ECDH10B_RS10140"; product "YebY family protein"; protein_id "WP_000976476.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2012299 2012301 . - 0 gene_id "ECDH10B_RS10140"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416353.1"; locus_tag "ECDH10B_RS10140"; product "YebY family protein"; protein_id "WP_000976476.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2011960 2011962 . - 0 gene_id "ECDH10B_RS10140"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416353.1"; locus_tag "ECDH10B_RS10140"; product "YebY family protein"; protein_id "WP_000976476.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2012314 2013186 . - . gene_id "ECDH10B_RS10145"; transcript_id ""; gbkey "Gene"; gene "copD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10145"; old_locus_tag "ECDH10B_1981"; -NC_010473.1 Protein Homology CDS 2012317 2013186 . - 0 gene_id "ECDH10B_RS10145"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "copD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416354.1"; locus_tag "ECDH10B_RS10145"; product "copper homeostasis membrane protein CopD"; protein_id "WP_000879289.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2013184 2013186 . - 0 gene_id "ECDH10B_RS10145"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "copD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416354.1"; locus_tag "ECDH10B_RS10145"; product "copper homeostasis membrane protein CopD"; protein_id "WP_000879289.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2012314 2012316 . - 0 gene_id "ECDH10B_RS10145"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "copD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416354.1"; locus_tag "ECDH10B_RS10145"; product "copper homeostasis membrane protein CopD"; protein_id "WP_000879289.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2013190 2013564 . - . gene_id "ECDH10B_RS10150"; transcript_id ""; gbkey "Gene"; gene "yobA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10150"; old_locus_tag "ECDH10B_1982"; -NC_010473.1 Protein Homology CDS 2013193 2013564 . - 0 gene_id "ECDH10B_RS10150"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yobA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416355.1"; locus_tag "ECDH10B_RS10150"; product "CopC domain-containing protein YobA"; protein_id "WP_000168747.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2013562 2013564 . - 0 gene_id "ECDH10B_RS10150"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yobA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416355.1"; locus_tag "ECDH10B_RS10150"; product "CopC domain-containing protein YobA"; protein_id "WP_000168747.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2013190 2013192 . - 0 gene_id "ECDH10B_RS10150"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yobA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416355.1"; locus_tag "ECDH10B_RS10150"; product "CopC domain-containing protein YobA"; protein_id "WP_000168747.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2013703 2013933 . + . gene_id "ECDH10B_RS10155"; transcript_id ""; gbkey "Gene"; gene "holE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10155"; old_locus_tag "ECDH10B_1983"; -NC_010473.1 Protein Homology CDS 2013703 2013930 . + 0 gene_id "ECDH10B_RS10155"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "holE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310579.1"; locus_tag "ECDH10B_RS10155"; product "DNA polymerase III subunit theta"; protein_id "WP_000916763.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2013703 2013705 . + 0 gene_id "ECDH10B_RS10155"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "holE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310579.1"; locus_tag "ECDH10B_RS10155"; product "DNA polymerase III subunit theta"; protein_id "WP_000916763.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2013931 2013933 . + 0 gene_id "ECDH10B_RS10155"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "holE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310579.1"; locus_tag "ECDH10B_RS10155"; product "DNA polymerase III subunit theta"; protein_id "WP_000916763.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2014035 2014691 . + . gene_id "ECDH10B_RS10160"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10160"; old_locus_tag "ECDH10B_1984"; -NC_010473.1 Protein Homology CDS 2014035 2014688 . + 0 gene_id "ECDH10B_RS10160"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416357.1"; locus_tag "ECDH10B_RS10160"; product "carbon-nitrogen hydrolase family protein"; protein_id "WP_000011658.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2014035 2014037 . + 0 gene_id "ECDH10B_RS10160"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416357.1"; locus_tag "ECDH10B_RS10160"; product "carbon-nitrogen hydrolase family protein"; protein_id "WP_000011658.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2014689 2014691 . + 0 gene_id "ECDH10B_RS10160"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416357.1"; locus_tag "ECDH10B_RS10160"; product "carbon-nitrogen hydrolase family protein"; protein_id "WP_000011658.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2014715 2015377 . + . gene_id "ECDH10B_RS10165"; transcript_id ""; gbkey "Gene"; gene "exoX"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10165"; old_locus_tag "ECDH10B_1985"; -NC_010473.1 Protein Homology CDS 2014715 2015374 . + 0 gene_id "ECDH10B_RS10165"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "exoX"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416358.1"; locus_tag "ECDH10B_RS10165"; product "exodeoxyribonuclease X"; protein_id "WP_000944256.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2014715 2014717 . + 0 gene_id "ECDH10B_RS10165"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "exoX"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416358.1"; locus_tag "ECDH10B_RS10165"; product "exodeoxyribonuclease X"; protein_id "WP_000944256.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2015375 2015377 . + 0 gene_id "ECDH10B_RS10165"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "exoX"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416358.1"; locus_tag "ECDH10B_RS10165"; product "exodeoxyribonuclease X"; protein_id "WP_000944256.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2015374 2017434 . - . gene_id "ECDH10B_RS10170"; transcript_id ""; gbkey "Gene"; gene "ptrB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10170"; old_locus_tag "ECDH10B_1986"; -NC_010473.1 Protein Homology CDS 2015377 2017434 . - 0 gene_id "ECDH10B_RS10170"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ptrB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416359.1"; locus_tag "ECDH10B_RS10170"; product "oligopeptidase B"; protein_id "WP_000936927.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2017432 2017434 . - 0 gene_id "ECDH10B_RS10170"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ptrB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416359.1"; locus_tag "ECDH10B_RS10170"; product "oligopeptidase B"; protein_id "WP_000936927.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2015374 2015376 . - 0 gene_id "ECDH10B_RS10170"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ptrB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416359.1"; locus_tag "ECDH10B_RS10170"; product "oligopeptidase B"; protein_id "WP_000936927.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2017643 2018302 . - . gene_id "ECDH10B_RS10175"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10175"; old_locus_tag "ECDH10B_1987"; -NC_010473.1 Protein Homology CDS 2017646 2018302 . - 0 gene_id "ECDH10B_RS10175"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416360.1"; locus_tag "ECDH10B_RS10175"; product "tellurite resistance TerB family protein"; protein_id "WP_000024757.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2018300 2018302 . - 0 gene_id "ECDH10B_RS10175"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416360.1"; locus_tag "ECDH10B_RS10175"; product "tellurite resistance TerB family protein"; protein_id "WP_000024757.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2017643 2017645 . - 0 gene_id "ECDH10B_RS10175"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416360.1"; locus_tag "ECDH10B_RS10175"; product "tellurite resistance TerB family protein"; protein_id "WP_000024757.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2018629 2018985 . - . gene_id "ECDH10B_RS10185"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10185"; old_locus_tag "ECDH10B_1988"; -NC_010473.1 Protein Homology CDS 2018632 2018985 . - 0 gene_id "ECDH10B_RS10185"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416361.2"; locus_tag "ECDH10B_RS10185"; product "protein YebF"; protein_id "WP_001350516.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2018983 2018985 . - 0 gene_id "ECDH10B_RS10185"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416361.2"; locus_tag "ECDH10B_RS10185"; product "protein YebF"; protein_id "WP_001350516.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2018629 2018631 . - 0 gene_id "ECDH10B_RS10185"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416361.2"; locus_tag "ECDH10B_RS10185"; product "protein YebF"; protein_id "WP_001350516.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2019052 2019342 . - . gene_id "ECDH10B_RS10190"; transcript_id ""; gbkey "Gene"; gene "yebG"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10190"; old_locus_tag "ECDH10B_1989"; -NC_010473.1 Protein Homology CDS 2019055 2019342 . - 0 gene_id "ECDH10B_RS10190"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yebG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310585.1"; locus_tag "ECDH10B_RS10190"; product "DNA damage-inducible protein YebG"; protein_id "WP_000257738.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2019340 2019342 . - 0 gene_id "ECDH10B_RS10190"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yebG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310585.1"; locus_tag "ECDH10B_RS10190"; product "DNA damage-inducible protein YebG"; protein_id "WP_000257738.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2019052 2019054 . - 0 gene_id "ECDH10B_RS10190"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yebG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310585.1"; locus_tag "ECDH10B_RS10190"; product "DNA damage-inducible protein YebG"; protein_id "WP_000257738.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2019476 2020654 . + . gene_id "ECDH10B_RS10195"; transcript_id ""; gbkey "Gene"; gene "purT"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10195"; old_locus_tag "ECDH10B_1990"; -NC_010473.1 Protein Homology CDS 2019476 2020651 . + 0 gene_id "ECDH10B_RS10195"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "purT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416363.1"; locus_tag "ECDH10B_RS10195"; product "formate-dependent phosphoribosylglycinamide formyltransferase"; protein_id "WP_000173484.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2019476 2019478 . + 0 gene_id "ECDH10B_RS10195"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "purT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416363.1"; locus_tag "ECDH10B_RS10195"; product "formate-dependent phosphoribosylglycinamide formyltransferase"; protein_id "WP_000173484.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2020652 2020654 . + 0 gene_id "ECDH10B_RS10195"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "purT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416363.1"; locus_tag "ECDH10B_RS10195"; product "formate-dependent phosphoribosylglycinamide formyltransferase"; protein_id "WP_000173484.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2020710 2021351 . - . gene_id "ECDH10B_RS10200"; transcript_id ""; gbkey "Gene"; gene "kdgA"; gene_biotype "protein_coding"; gene_synonym "eda"; locus_tag "ECDH10B_RS10200"; old_locus_tag "ECDH10B_1991"; -NC_010473.1 Protein Homology CDS 2020713 2021351 . - 0 gene_id "ECDH10B_RS10200"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "kdgA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310587.1"; locus_tag "ECDH10B_RS10200"; product "bifunctional 4-hydroxy-2-oxoglutarate aldolase/2-dehydro-3-deoxy-phosphogluconate aldolase"; protein_id "WP_000800512.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2021349 2021351 . - 0 gene_id "ECDH10B_RS10200"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "kdgA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310587.1"; locus_tag "ECDH10B_RS10200"; product "bifunctional 4-hydroxy-2-oxoglutarate aldolase/2-dehydro-3-deoxy-phosphogluconate aldolase"; protein_id "WP_000800512.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2020710 2020712 . - 0 gene_id "ECDH10B_RS10200"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "kdgA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310587.1"; locus_tag "ECDH10B_RS10200"; product "bifunctional 4-hydroxy-2-oxoglutarate aldolase/2-dehydro-3-deoxy-phosphogluconate aldolase"; protein_id "WP_000800512.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2021388 2023199 . - . gene_id "ECDH10B_RS10205"; transcript_id ""; gbkey "Gene"; gene "edd"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10205"; old_locus_tag "ECDH10B_1992"; -NC_010473.1 Protein Homology CDS 2021391 2023199 . - 0 gene_id "ECDH10B_RS10205"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "edd"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310588.1"; locus_tag "ECDH10B_RS10205"; product "phosphogluconate dehydratase"; protein_id "WP_001069467.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2023197 2023199 . - 0 gene_id "ECDH10B_RS10205"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "edd"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310588.1"; locus_tag "ECDH10B_RS10205"; product "phosphogluconate dehydratase"; protein_id "WP_001069467.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2021388 2021390 . - 0 gene_id "ECDH10B_RS10205"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "edd"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310588.1"; locus_tag "ECDH10B_RS10205"; product "phosphogluconate dehydratase"; protein_id "WP_001069467.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2023434 2024909 . - . gene_id "ECDH10B_RS10210"; transcript_id ""; gbkey "Gene"; gene "zwf"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10210"; old_locus_tag "ECDH10B_1993"; -NC_010473.1 Protein Homology CDS 2023437 2024909 . - 0 gene_id "ECDH10B_RS10210"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "zwf"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005120712.1"; locus_tag "ECDH10B_RS10210"; product "glucose-6-phosphate dehydrogenase"; protein_id "WP_000301727.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2024907 2024909 . - 0 gene_id "ECDH10B_RS10210"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "zwf"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005120712.1"; locus_tag "ECDH10B_RS10210"; product "glucose-6-phosphate dehydrogenase"; protein_id "WP_000301727.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2023434 2023436 . - 0 gene_id "ECDH10B_RS10210"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "zwf"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005120712.1"; locus_tag "ECDH10B_RS10210"; product "glucose-6-phosphate dehydrogenase"; protein_id "WP_000301727.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2025247 2026116 . + . gene_id "ECDH10B_RS10220"; transcript_id ""; gbkey "Gene"; gene "hexR"; gene_biotype "protein_coding"; gene_synonym "yebK"; locus_tag "ECDH10B_RS10220"; old_locus_tag "ECDH10B_1994"; -NC_010473.1 Protein Homology CDS 2025247 2026113 . + 0 gene_id "ECDH10B_RS10220"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hexR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416367.1"; locus_tag "ECDH10B_RS10220"; product "DNA-binding transcriptional regulator HexR"; protein_id "WP_001056706.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2025247 2025249 . + 0 gene_id "ECDH10B_RS10220"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hexR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416367.1"; locus_tag "ECDH10B_RS10220"; product "DNA-binding transcriptional regulator HexR"; protein_id "WP_001056706.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2026114 2026116 . + 0 gene_id "ECDH10B_RS10220"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hexR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416367.1"; locus_tag "ECDH10B_RS10220"; product "DNA-binding transcriptional regulator HexR"; protein_id "WP_001056706.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2026244 2027686 . + . gene_id "ECDH10B_RS10225"; transcript_id ""; gbkey "Gene"; gene "pyk"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10225"; old_locus_tag "ECDH10B_1995"; -NC_010473.1 Protein Homology CDS 2026244 2027683 . + 0 gene_id "ECDH10B_RS10225"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pyk"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005120709.1"; locus_tag "ECDH10B_RS10225"; product "pyruvate kinase"; protein_id "WP_000091148.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2026244 2026246 . + 0 gene_id "ECDH10B_RS10225"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pyk"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005120709.1"; locus_tag "ECDH10B_RS10225"; product "pyruvate kinase"; protein_id "WP_000091148.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2027684 2027686 . + 0 gene_id "ECDH10B_RS10225"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pyk"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005120709.1"; locus_tag "ECDH10B_RS10225"; product "pyruvate kinase"; protein_id "WP_000091148.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2027817 2028788 . - . gene_id "ECDH10B_RS10230"; transcript_id ""; gbkey "Gene"; gene "lpxM"; gene_biotype "protein_coding"; gene_synonym "msbB"; locus_tag "ECDH10B_RS10230"; old_locus_tag "ECDH10B_1996"; -NC_010473.1 Protein Homology CDS 2027820 2028788 . - 0 gene_id "ECDH10B_RS10230"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lpxM"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416369.1"; locus_tag "ECDH10B_RS10230"; note "LpxM is lauroyl-Kdo(2)-lipid IV(A) myristoyltransferase, an enzyme characterized in Escherichia coli and involved in biosynthesis of the form of lipid A found in that species and some closely related species."; product "lauroyl-Kdo(2)-lipid IV(A) myristoyltransferase"; protein_id "WP_000448381.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2028786 2028788 . - 0 gene_id "ECDH10B_RS10230"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lpxM"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416369.1"; locus_tag "ECDH10B_RS10230"; note "LpxM is lauroyl-Kdo(2)-lipid IV(A) myristoyltransferase, an enzyme characterized in Escherichia coli and involved in biosynthesis of the form of lipid A found in that species and some closely related species."; product "lauroyl-Kdo(2)-lipid IV(A) myristoyltransferase"; protein_id "WP_000448381.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2027817 2027819 . - 0 gene_id "ECDH10B_RS10230"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lpxM"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416369.1"; locus_tag "ECDH10B_RS10230"; note "LpxM is lauroyl-Kdo(2)-lipid IV(A) myristoyltransferase, an enzyme characterized in Escherichia coli and involved in biosynthesis of the form of lipid A found in that species and some closely related species."; product "lauroyl-Kdo(2)-lipid IV(A) myristoyltransferase"; protein_id "WP_000448381.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2028908 2030230 . - . gene_id "ECDH10B_RS10235"; transcript_id ""; gbkey "Gene"; gene "mepM"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10235"; old_locus_tag "ECDH10B_1997"; -NC_010473.1 Protein Homology CDS 2028911 2030230 . - 0 gene_id "ECDH10B_RS10235"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mepM"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_707716.1"; locus_tag "ECDH10B_RS10235"; product "murein DD-endopeptidase MepM"; protein_id "WP_001184045.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2030228 2030230 . - 0 gene_id "ECDH10B_RS10235"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mepM"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_707716.1"; locus_tag "ECDH10B_RS10235"; product "murein DD-endopeptidase MepM"; protein_id "WP_001184045.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2028908 2028910 . - 0 gene_id "ECDH10B_RS10235"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mepM"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_707716.1"; locus_tag "ECDH10B_RS10235"; product "murein DD-endopeptidase MepM"; protein_id "WP_001184045.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2030246 2031178 . - . gene_id "ECDH10B_RS10240"; transcript_id ""; gbkey "Gene"; gene "znuA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10240"; old_locus_tag "ECDH10B_1998"; -NC_010473.1 Protein Homology CDS 2030249 2031178 . - 0 gene_id "ECDH10B_RS10240"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "znuA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416371.4"; locus_tag "ECDH10B_RS10240"; product "zinc ABC transporter substrate-binding protein ZnuA"; protein_id "WP_001300644.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2031176 2031178 . - 0 gene_id "ECDH10B_RS10240"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "znuA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416371.4"; locus_tag "ECDH10B_RS10240"; product "zinc ABC transporter substrate-binding protein ZnuA"; protein_id "WP_001300644.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2030246 2030248 . - 0 gene_id "ECDH10B_RS10240"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "znuA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416371.4"; locus_tag "ECDH10B_RS10240"; product "zinc ABC transporter substrate-binding protein ZnuA"; protein_id "WP_001300644.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2031257 2032012 . + . gene_id "ECDH10B_RS10245"; transcript_id ""; gbkey "Gene"; gene "znuC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10245"; old_locus_tag "ECDH10B_1999"; -NC_010473.1 Protein Homology CDS 2031257 2032009 . + 0 gene_id "ECDH10B_RS10245"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "znuC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310595.1"; locus_tag "ECDH10B_RS10245"; product "zinc ABC transporter ATP-binding protein ZnuC"; protein_id "WP_000202996.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2031257 2031259 . + 0 gene_id "ECDH10B_RS10245"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "znuC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310595.1"; locus_tag "ECDH10B_RS10245"; product "zinc ABC transporter ATP-binding protein ZnuC"; protein_id "WP_000202996.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2032010 2032012 . + 0 gene_id "ECDH10B_RS10245"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "znuC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310595.1"; locus_tag "ECDH10B_RS10245"; product "zinc ABC transporter ATP-binding protein ZnuC"; protein_id "WP_000202996.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2032009 2032794 . + . gene_id "ECDH10B_RS10250"; transcript_id ""; gbkey "Gene"; gene "znuB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10250"; old_locus_tag "ECDH10B_2000"; -NC_010473.1 Protein Homology CDS 2032009 2032791 . + 0 gene_id "ECDH10B_RS10250"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "znuB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416373.1"; locus_tag "ECDH10B_RS10250"; product "zinc ABC transporter permease subunit ZnuB"; protein_id "WP_000571480.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2032009 2032011 . + 0 gene_id "ECDH10B_RS10250"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "znuB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416373.1"; locus_tag "ECDH10B_RS10250"; product "zinc ABC transporter permease subunit ZnuB"; protein_id "WP_000571480.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2032792 2032794 . + 0 gene_id "ECDH10B_RS10250"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "znuB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416373.1"; locus_tag "ECDH10B_RS10250"; product "zinc ABC transporter permease subunit ZnuB"; protein_id "WP_000571480.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2032941 2033951 . - . gene_id "ECDH10B_RS10255"; transcript_id ""; gbkey "Gene"; gene "ruvB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10255"; old_locus_tag "ECDH10B_2001"; -NC_010473.1 Protein Homology CDS 2032944 2033951 . - 0 gene_id "ECDH10B_RS10255"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ruvB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310597.1"; locus_tag "ECDH10B_RS10255"; product "Holliday junction branch migration DNA helicase RuvB"; protein_id "WP_000568519.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2033949 2033951 . - 0 gene_id "ECDH10B_RS10255"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ruvB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310597.1"; locus_tag "ECDH10B_RS10255"; product "Holliday junction branch migration DNA helicase RuvB"; protein_id "WP_000568519.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2032941 2032943 . - 0 gene_id "ECDH10B_RS10255"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ruvB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310597.1"; locus_tag "ECDH10B_RS10255"; product "Holliday junction branch migration DNA helicase RuvB"; protein_id "WP_000568519.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2033960 2034571 . - . gene_id "ECDH10B_RS10260"; transcript_id ""; gbkey "Gene"; gene "ruvA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10260"; old_locus_tag "ECDH10B_2002"; -NC_010473.1 Protein Homology CDS 2033963 2034571 . - 0 gene_id "ECDH10B_RS10260"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ruvA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_012131997.1"; locus_tag "ECDH10B_RS10260"; product "Holliday junction branch migration protein RuvA"; protein_id "WP_000580323.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2034569 2034571 . - 0 gene_id "ECDH10B_RS10260"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ruvA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_012131997.1"; locus_tag "ECDH10B_RS10260"; product "Holliday junction branch migration protein RuvA"; protein_id "WP_000580323.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2033960 2033962 . - 0 gene_id "ECDH10B_RS10260"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ruvA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_012131997.1"; locus_tag "ECDH10B_RS10260"; product "Holliday junction branch migration protein RuvA"; protein_id "WP_000580323.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2034710 2034775 . - . gene_id "ECDH10B_RS25535"; transcript_id ""; gbkey "Gene"; gene "yobI"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS25535"; -NC_010473.1 Protein Homology CDS 2034713 2034775 . - 0 gene_id "ECDH10B_RS25535"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yobI"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_002791244.1"; locus_tag "ECDH10B_RS25535"; product "stress response small protein YobI"; protein_id "WP_010723105.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2034773 2034775 . - 0 gene_id "ECDH10B_RS25535"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yobI"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_002791244.1"; locus_tag "ECDH10B_RS25535"; product "stress response small protein YobI"; protein_id "WP_010723105.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2034710 2034712 . - 0 gene_id "ECDH10B_RS25535"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yobI"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_002791244.1"; locus_tag "ECDH10B_RS25535"; product "stress response small protein YobI"; protein_id "WP_010723105.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2034846 2035448 . + . gene_id "ECDH10B_RS10265"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10265"; old_locus_tag "ECDH10B_2003"; -NC_010473.1 Protein Homology CDS 2034846 2035445 . + 0 gene_id "ECDH10B_RS10265"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416376.2"; locus_tag "ECDH10B_RS10265"; product "YebB family permuted papain-like enzyme"; protein_id "WP_001024932.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2034846 2034848 . + 0 gene_id "ECDH10B_RS10265"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416376.2"; locus_tag "ECDH10B_RS10265"; product "YebB family permuted papain-like enzyme"; protein_id "WP_001024932.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2035446 2035448 . + 0 gene_id "ECDH10B_RS10265"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416376.2"; locus_tag "ECDH10B_RS10265"; product "YebB family permuted papain-like enzyme"; protein_id "WP_001024932.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2035450 2035971 . - . gene_id "ECDH10B_RS10270"; transcript_id ""; gbkey "Gene"; gene "ruvC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10270"; old_locus_tag "ECDH10B_2004"; -NC_010473.1 Protein Homology CDS 2035453 2035971 . - 0 gene_id "ECDH10B_RS10270"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ruvC"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005068993.1"; locus_tag "ECDH10B_RS10270"; product "crossover junction endodeoxyribonuclease RuvC"; protein_id "WP_001295503.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2035969 2035971 . - 0 gene_id "ECDH10B_RS10270"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ruvC"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005068993.1"; locus_tag "ECDH10B_RS10270"; product "crossover junction endodeoxyribonuclease RuvC"; protein_id "WP_001295503.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2035450 2035452 . - 0 gene_id "ECDH10B_RS10270"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ruvC"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005068993.1"; locus_tag "ECDH10B_RS10270"; product "crossover junction endodeoxyribonuclease RuvC"; protein_id "WP_001295503.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2036006 2036746 . - . gene_id "ECDH10B_RS10275"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10275"; old_locus_tag "ECDH10B_2005"; -NC_010473.1 Protein Homology CDS 2036009 2036746 . - 0 gene_id "ECDH10B_RS10275"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000907250.1"; locus_tag "ECDH10B_RS10275"; product "YebC/PmpR family DNA-binding transcriptional regulator"; protein_id "WP_000907248.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2036744 2036746 . - 0 gene_id "ECDH10B_RS10275"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000907250.1"; locus_tag "ECDH10B_RS10275"; product "YebC/PmpR family DNA-binding transcriptional regulator"; protein_id "WP_000907248.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2036006 2036008 . - 0 gene_id "ECDH10B_RS10275"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000907250.1"; locus_tag "ECDH10B_RS10275"; product "YebC/PmpR family DNA-binding transcriptional regulator"; protein_id "WP_000907248.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2036775 2037227 . - . gene_id "ECDH10B_RS10280"; transcript_id ""; gbkey "Gene"; gene "nudB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10280"; old_locus_tag "ECDH10B_2006"; -NC_010473.1 Protein Homology CDS 2036778 2037227 . - 0 gene_id "ECDH10B_RS10280"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nudB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416379.1"; locus_tag "ECDH10B_RS10280"; product "dihydroneopterin triphosphate diphosphatase"; protein_id "WP_001300367.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2037225 2037227 . - 0 gene_id "ECDH10B_RS10280"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nudB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416379.1"; locus_tag "ECDH10B_RS10280"; product "dihydroneopterin triphosphate diphosphatase"; protein_id "WP_001300367.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2036775 2036777 . - 0 gene_id "ECDH10B_RS10280"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nudB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416379.1"; locus_tag "ECDH10B_RS10280"; product "dihydroneopterin triphosphate diphosphatase"; protein_id "WP_001300367.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2037345 2039117 . - . gene_id "ECDH10B_RS10285"; transcript_id ""; gbkey "Gene"; gene "aspS"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10285"; old_locus_tag "ECDH10B_2007"; -NC_010473.1 Protein Homology CDS 2037348 2039117 . - 0 gene_id "ECDH10B_RS10285"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "aspS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416380.1"; locus_tag "ECDH10B_RS10285"; product "aspartate--tRNA ligase"; protein_id "WP_001258678.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2039115 2039117 . - 0 gene_id "ECDH10B_RS10285"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "aspS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416380.1"; locus_tag "ECDH10B_RS10285"; product "aspartate--tRNA ligase"; protein_id "WP_001258678.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2037345 2037347 . - 0 gene_id "ECDH10B_RS10285"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "aspS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416380.1"; locus_tag "ECDH10B_RS10285"; product "aspartate--tRNA ligase"; protein_id "WP_001258678.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2039427 2039993 . + . gene_id "ECDH10B_RS10290"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10290"; old_locus_tag "ECDH10B_2008"; -NC_010473.1 Protein Homology CDS 2039427 2039990 . + 0 gene_id "ECDH10B_RS10290"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416381.2"; locus_tag "ECDH10B_RS10290"; product "hydrolase"; protein_id "WP_000891621.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2039427 2039429 . + 0 gene_id "ECDH10B_RS10290"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416381.2"; locus_tag "ECDH10B_RS10290"; product "hydrolase"; protein_id "WP_000891621.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2039991 2039993 . + 0 gene_id "ECDH10B_RS10290"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416381.2"; locus_tag "ECDH10B_RS10290"; product "hydrolase"; protein_id "WP_000891621.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2039990 2040808 . + . gene_id "ECDH10B_RS10295"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10295"; old_locus_tag "ECDH10B_2009"; -NC_010473.1 Protein Homology CDS 2039990 2040805 . + 0 gene_id "ECDH10B_RS10295"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416382.1"; locus_tag "ECDH10B_RS10295"; product "DUF72 domain-containing protein"; protein_id "WP_000639274.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2039990 2039992 . + 0 gene_id "ECDH10B_RS10295"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416382.1"; locus_tag "ECDH10B_RS10295"; product "DUF72 domain-containing protein"; protein_id "WP_000639274.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2040806 2040808 . + 0 gene_id "ECDH10B_RS10295"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416382.1"; locus_tag "ECDH10B_RS10295"; product "DUF72 domain-containing protein"; protein_id "WP_000639274.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2040861 2041256 . + . gene_id "ECDH10B_RS10300"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10300"; old_locus_tag "ECDH10B_2010"; -NC_010473.1 Protein Homology CDS 2040861 2041253 . + 0 gene_id "ECDH10B_RS10300"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310606.2"; locus_tag "ECDH10B_RS10300"; product "MAPEG family protein"; protein_id "WP_000252980.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2040861 2040863 . + 0 gene_id "ECDH10B_RS10300"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310606.2"; locus_tag "ECDH10B_RS10300"; product "MAPEG family protein"; protein_id "WP_000252980.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2041254 2041256 . + 0 gene_id "ECDH10B_RS10300"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310606.2"; locus_tag "ECDH10B_RS10300"; product "MAPEG family protein"; protein_id "WP_000252980.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2041297 2042040 . + . gene_id "ECDH10B_RS10305"; transcript_id ""; gbkey "Gene"; gene "cmoA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10305"; old_locus_tag "ECDH10B_2011"; -NC_010473.1 Protein Homology CDS 2041297 2042037 . + 0 gene_id "ECDH10B_RS10305"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cmoA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416384.1"; locus_tag "ECDH10B_RS10305"; product "carboxy-S-adenosyl-L-methionine synthase CmoA"; protein_id "WP_000019590.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2041297 2041299 . + 0 gene_id "ECDH10B_RS10305"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cmoA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416384.1"; locus_tag "ECDH10B_RS10305"; product "carboxy-S-adenosyl-L-methionine synthase CmoA"; protein_id "WP_000019590.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2042038 2042040 . + 0 gene_id "ECDH10B_RS10305"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cmoA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416384.1"; locus_tag "ECDH10B_RS10305"; product "carboxy-S-adenosyl-L-methionine synthase CmoA"; protein_id "WP_000019590.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2042037 2043008 . + . gene_id "ECDH10B_RS10310"; transcript_id ""; gbkey "Gene"; gene "cmoB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10310"; old_locus_tag "ECDH10B_2012"; -NC_010473.1 Protein Homology CDS 2042037 2043005 . + 0 gene_id "ECDH10B_RS10310"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cmoB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416385.1"; locus_tag "ECDH10B_RS10310"; product "tRNA 5-methoxyuridine(34)/uridine 5-oxyacetic acid(34) synthase CmoB"; protein_id "WP_000564725.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2042037 2042039 . + 0 gene_id "ECDH10B_RS10310"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cmoB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416385.1"; locus_tag "ECDH10B_RS10310"; product "tRNA 5-methoxyuridine(34)/uridine 5-oxyacetic acid(34) synthase CmoB"; protein_id "WP_000564725.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2043006 2043008 . + 0 gene_id "ECDH10B_RS10310"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cmoB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416385.1"; locus_tag "ECDH10B_RS10310"; product "tRNA 5-methoxyuridine(34)/uridine 5-oxyacetic acid(34) synthase CmoB"; protein_id "WP_000564725.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2043173 2045602 . - . gene_id "ECDH10B_RS10315"; transcript_id ""; gbkey "Gene"; gene "torZ"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10315"; old_locus_tag "ECDH10B_2013"; -NC_010473.1 Protein Homology CDS 2043176 2045602 . - 0 gene_id "ECDH10B_RS10315"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "torZ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416386.4"; locus_tag "ECDH10B_RS10315"; product "trimethylamine N-oxide reductase TorZ"; protein_id "WP_000176781.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2045600 2045602 . - 0 gene_id "ECDH10B_RS10315"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "torZ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416386.4"; locus_tag "ECDH10B_RS10315"; product "trimethylamine N-oxide reductase TorZ"; protein_id "WP_000176781.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2043173 2043175 . - 0 gene_id "ECDH10B_RS10315"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "torZ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416386.4"; locus_tag "ECDH10B_RS10315"; product "trimethylamine N-oxide reductase TorZ"; protein_id "WP_000176781.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2045627 2046727 . - . gene_id "ECDH10B_RS10320"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10320"; old_locus_tag "ECDH10B_2014"; -NC_010473.1 Protein Homology CDS 2045630 2046727 . - 0 gene_id "ECDH10B_RS10320"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416387.1"; locus_tag "ECDH10B_RS10320"; product "cytochrome c-type protein TorY"; protein_id "WP_001214331.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2046725 2046727 . - 0 gene_id "ECDH10B_RS10320"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416387.1"; locus_tag "ECDH10B_RS10320"; product "cytochrome c-type protein TorY"; protein_id "WP_001214331.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2045627 2045629 . - 0 gene_id "ECDH10B_RS10320"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416387.1"; locus_tag "ECDH10B_RS10320"; product "cytochrome c-type protein TorY"; protein_id "WP_001214331.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2047115 2047861 . - . gene_id "ECDH10B_RS10325"; transcript_id ""; gbkey "Gene"; gene "cutC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10325"; old_locus_tag "ECDH10B_2015"; -NC_010473.1 Protein Homology CDS 2047118 2047861 . - 0 gene_id "ECDH10B_RS10325"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cutC"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_025309.2"; locus_tag "ECDH10B_RS10325"; product "copper homeostasis protein CutC"; protein_id "WP_001185741.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2047859 2047861 . - 0 gene_id "ECDH10B_RS10325"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cutC"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_025309.2"; locus_tag "ECDH10B_RS10325"; product "copper homeostasis protein CutC"; protein_id "WP_001185741.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2047115 2047117 . - 0 gene_id "ECDH10B_RS10325"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cutC"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_025309.2"; locus_tag "ECDH10B_RS10325"; product "copper homeostasis protein CutC"; protein_id "WP_001185741.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2047875 2048441 . - . gene_id "ECDH10B_RS10330"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10330"; old_locus_tag "ECDH10B_2016"; -NC_010473.1 Protein Homology CDS 2047878 2048441 . - 0 gene_id "ECDH10B_RS10330"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416389.4"; locus_tag "ECDH10B_RS10330"; product "VOC family protein"; protein_id "WP_001326725.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2048439 2048441 . - 0 gene_id "ECDH10B_RS10330"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416389.4"; locus_tag "ECDH10B_RS10330"; product "VOC family protein"; protein_id "WP_001326725.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2047875 2047877 . - 0 gene_id "ECDH10B_RS10330"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416389.4"; locus_tag "ECDH10B_RS10330"; product "VOC family protein"; protein_id "WP_001326725.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2048657 2050390 . + . gene_id "ECDH10B_RS10335"; transcript_id ""; gbkey "Gene"; gene "argS"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10335"; old_locus_tag "ECDH10B_2017"; -NC_010473.1 Protein Homology CDS 2048657 2050387 . + 0 gene_id "ECDH10B_RS10335"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "argS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001025321.1"; locus_tag "ECDH10B_RS10335"; product "arginine--tRNA ligase"; protein_id "WP_001025322.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2048657 2048659 . + 0 gene_id "ECDH10B_RS10335"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "argS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001025321.1"; locus_tag "ECDH10B_RS10335"; product "arginine--tRNA ligase"; protein_id "WP_001025322.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2050388 2050390 . + 0 gene_id "ECDH10B_RS10335"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "argS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001025321.1"; locus_tag "ECDH10B_RS10335"; product "arginine--tRNA ligase"; protein_id "WP_001025322.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2050567 2051055 . + . gene_id "ECDH10B_RS10340"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10340"; old_locus_tag "ECDH10B_2018"; -NC_010473.1 Protein Homology CDS 2050567 2051052 . + 0 gene_id "ECDH10B_RS10340"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416391.4"; locus_tag "ECDH10B_RS10340"; product "lysozyme inhibitor LprI family protein"; protein_id "WP_001299676.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2050567 2050569 . + 0 gene_id "ECDH10B_RS10340"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416391.4"; locus_tag "ECDH10B_RS10340"; product "lysozyme inhibitor LprI family protein"; protein_id "WP_001299676.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2051053 2051055 . + 0 gene_id "ECDH10B_RS10340"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416391.4"; locus_tag "ECDH10B_RS10340"; product "lysozyme inhibitor LprI family protein"; protein_id "WP_001299676.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2051175 2051567 . - . gene_id "ECDH10B_RS10345"; transcript_id ""; gbkey "Gene"; gene "flhe"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10345"; old_locus_tag "ECDH10B_2019"; -NC_010473.1 Protein Homology CDS 2051178 2051567 . - 0 gene_id "ECDH10B_RS10345"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "flhe"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416392.1"; locus_tag "ECDH10B_RS10345"; product "flagellar protein FlhE"; protein_id "WP_001259583.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2051565 2051567 . - 0 gene_id "ECDH10B_RS10345"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "flhe"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416392.1"; locus_tag "ECDH10B_RS10345"; product "flagellar protein FlhE"; protein_id "WP_001259583.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2051175 2051177 . - 0 gene_id "ECDH10B_RS10345"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "flhe"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416392.1"; locus_tag "ECDH10B_RS10345"; product "flagellar protein FlhE"; protein_id "WP_001259583.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2051567 2053645 . - . gene_id "ECDH10B_RS10350"; transcript_id ""; gbkey "Gene"; gene "flhA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10350"; old_locus_tag "ECDH10B_2020"; -NC_010473.1 Protein Homology CDS 2051570 2053645 . - 0 gene_id "ECDH10B_RS10350"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "flhA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416393.1"; locus_tag "ECDH10B_RS10350"; product "flagellar biosynthesis protein FlhA"; protein_id "WP_000066951.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2053643 2053645 . - 0 gene_id "ECDH10B_RS10350"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "flhA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416393.1"; locus_tag "ECDH10B_RS10350"; product "flagellar biosynthesis protein FlhA"; protein_id "WP_000066951.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2051567 2051569 . - 0 gene_id "ECDH10B_RS10350"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "flhA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416393.1"; locus_tag "ECDH10B_RS10350"; product "flagellar biosynthesis protein FlhA"; protein_id "WP_000066951.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2053638 2054786 . - . gene_id "ECDH10B_RS10355"; transcript_id ""; gbkey "Gene"; gene "flhB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10355"; old_locus_tag "ECDH10B_2021"; -NC_010473.1 Protein Homology CDS 2053641 2054786 . - 0 gene_id "ECDH10B_RS10355"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "flhB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416394.1"; locus_tag "ECDH10B_RS10355"; product "flagellar type III secretion system protein FlhB"; protein_id "WP_001278954.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2054784 2054786 . - 0 gene_id "ECDH10B_RS10355"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "flhB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416394.1"; locus_tag "ECDH10B_RS10355"; product "flagellar type III secretion system protein FlhB"; protein_id "WP_001278954.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2053638 2053640 . - 0 gene_id "ECDH10B_RS10355"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "flhB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416394.1"; locus_tag "ECDH10B_RS10355"; product "flagellar type III secretion system protein FlhB"; protein_id "WP_001278954.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2054988 2055632 . - . gene_id "ECDH10B_RS10360"; transcript_id ""; gbkey "Gene"; gene "cheZ"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10360"; old_locus_tag "ECDH10B_2022"; -NC_010473.1 Protein Homology CDS 2054991 2055632 . - 0 gene_id "ECDH10B_RS10360"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cheZ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416395.1"; locus_tag "ECDH10B_RS10360"; product "protein phosphatase CheZ"; protein_id "WP_000983609.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2055630 2055632 . - 0 gene_id "ECDH10B_RS10360"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cheZ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416395.1"; locus_tag "ECDH10B_RS10360"; product "protein phosphatase CheZ"; protein_id "WP_000983609.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2054988 2054990 . - 0 gene_id "ECDH10B_RS10360"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cheZ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416395.1"; locus_tag "ECDH10B_RS10360"; product "protein phosphatase CheZ"; protein_id "WP_000983609.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2055643 2056032 . - . gene_id "ECDH10B_RS10365"; transcript_id ""; gbkey "Gene"; gene "cheY"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10365"; old_locus_tag "ECDH10B_2023"; -NC_010473.1 Protein Homology CDS 2055646 2056032 . - 0 gene_id "ECDH10B_RS10365"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cheY"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_002210873.1"; locus_tag "ECDH10B_RS10365"; product "chemotaxis response regulator CheY"; protein_id "WP_000763867.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2056030 2056032 . - 0 gene_id "ECDH10B_RS10365"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cheY"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_002210873.1"; locus_tag "ECDH10B_RS10365"; product "chemotaxis response regulator CheY"; protein_id "WP_000763867.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2055643 2055645 . - 0 gene_id "ECDH10B_RS10365"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cheY"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_002210873.1"; locus_tag "ECDH10B_RS10365"; product "chemotaxis response regulator CheY"; protein_id "WP_000763867.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2056047 2057096 . - . gene_id "ECDH10B_RS10370"; transcript_id ""; gbkey "Gene"; gene "cheB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10370"; old_locus_tag "ECDH10B_2024"; -NC_010473.1 Protein Homology CDS 2056050 2057096 . - 0 gene_id "ECDH10B_RS10370"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cheB"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000036372.1"; locus_tag "ECDH10B_RS10370"; product "protein-glutamate methylesterase/protein glutamine deamidase"; protein_id "WP_000036361.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2057094 2057096 . - 0 gene_id "ECDH10B_RS10370"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cheB"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000036372.1"; locus_tag "ECDH10B_RS10370"; product "protein-glutamate methylesterase/protein glutamine deamidase"; protein_id "WP_000036361.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2056047 2056049 . - 0 gene_id "ECDH10B_RS10370"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cheB"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000036372.1"; locus_tag "ECDH10B_RS10370"; product "protein-glutamate methylesterase/protein glutamine deamidase"; protein_id "WP_000036361.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2057099 2057959 . - . gene_id "ECDH10B_RS10375"; transcript_id ""; gbkey "Gene"; gene "cheR"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10375"; old_locus_tag "ECDH10B_2025"; -NC_010473.1 Protein Homology CDS 2057102 2057959 . - 0 gene_id "ECDH10B_RS10375"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cheR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416398.1"; locus_tag "ECDH10B_RS10375"; product "protein-glutamate O-methyltransferase CheR"; protein_id "WP_000204337.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2057957 2057959 . - 0 gene_id "ECDH10B_RS10375"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cheR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416398.1"; locus_tag "ECDH10B_RS10375"; product "protein-glutamate O-methyltransferase CheR"; protein_id "WP_000204337.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2057099 2057101 . - 0 gene_id "ECDH10B_RS10375"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cheR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416398.1"; locus_tag "ECDH10B_RS10375"; product "protein-glutamate O-methyltransferase CheR"; protein_id "WP_000204337.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2057978 2059579 . - . gene_id "ECDH10B_RS10380"; transcript_id ""; gbkey "Gene"; gene "tap"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10380"; old_locus_tag "ECDH10B_2026"; -NC_010473.1 Protein Homology CDS 2057981 2059579 . - 0 gene_id "ECDH10B_RS10380"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tap"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416399.1"; locus_tag "ECDH10B_RS10380"; product "methyl-accepting chemotaxis protein IV"; protein_id "WP_000483239.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2059577 2059579 . - 0 gene_id "ECDH10B_RS10380"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tap"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416399.1"; locus_tag "ECDH10B_RS10380"; product "methyl-accepting chemotaxis protein IV"; protein_id "WP_000483239.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2057978 2057980 . - 0 gene_id "ECDH10B_RS10380"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tap"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416399.1"; locus_tag "ECDH10B_RS10380"; product "methyl-accepting chemotaxis protein IV"; protein_id "WP_000483239.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2059625 2061286 . - . gene_id "ECDH10B_RS10385"; transcript_id ""; gbkey "Gene"; gene "tar"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10385"; old_locus_tag "ECDH10B_2027"; -NC_010473.1 Protein Homology CDS 2059628 2061286 . - 0 gene_id "ECDH10B_RS10385"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tar"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005127686.1"; locus_tag "ECDH10B_RS10385"; product "methyl-accepting chemotaxis protein II"; protein_id "WP_001297437.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2061284 2061286 . - 0 gene_id "ECDH10B_RS10385"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tar"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005127686.1"; locus_tag "ECDH10B_RS10385"; product "methyl-accepting chemotaxis protein II"; protein_id "WP_001297437.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2059625 2059627 . - 0 gene_id "ECDH10B_RS10385"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tar"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005127686.1"; locus_tag "ECDH10B_RS10385"; product "methyl-accepting chemotaxis protein II"; protein_id "WP_001297437.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2061431 2061934 . - . gene_id "ECDH10B_RS10390"; transcript_id ""; gbkey "Gene"; gene "cheW"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10390"; old_locus_tag "ECDH10B_2028"; -NC_010473.1 Protein Homology CDS 2061434 2061934 . - 0 gene_id "ECDH10B_RS10390"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cheW"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310624.1"; locus_tag "ECDH10B_RS10390"; product "chemotaxis protein CheW"; protein_id "WP_000147302.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2061932 2061934 . - 0 gene_id "ECDH10B_RS10390"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cheW"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310624.1"; locus_tag "ECDH10B_RS10390"; product "chemotaxis protein CheW"; protein_id "WP_000147302.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2061431 2061433 . - 0 gene_id "ECDH10B_RS10390"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cheW"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310624.1"; locus_tag "ECDH10B_RS10390"; product "chemotaxis protein CheW"; protein_id "WP_000147302.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2061955 2063919 . - . gene_id "ECDH10B_RS10395"; transcript_id ""; gbkey "Gene"; gene "cheA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10395"; -NC_010473.1 Protein Homology CDS 2061958 2063919 . - 0 gene_id "ECDH10B_RS10395"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cheA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416402.1"; locus_tag "ECDH10B_RS10395"; product "chemotaxis protein CheA"; protein_id "WP_077873856.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2063917 2063919 . - 0 gene_id "ECDH10B_RS10395"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cheA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416402.1"; locus_tag "ECDH10B_RS10395"; product "chemotaxis protein CheA"; protein_id "WP_077873856.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2061955 2061957 . - 0 gene_id "ECDH10B_RS10395"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cheA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416402.1"; locus_tag "ECDH10B_RS10395"; product "chemotaxis protein CheA"; protein_id "WP_077873856.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2063924 2064850 . - . gene_id "ECDH10B_RS10400"; transcript_id ""; gbkey "Gene"; gene "motB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10400"; old_locus_tag "ECDH10B_2030"; -NC_010473.1 Protein Homology CDS 2063927 2064850 . - 0 gene_id "ECDH10B_RS10400"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "motB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310626.1"; locus_tag "ECDH10B_RS10400"; product "flagellar motor protein MotB"; protein_id "WP_000795630.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2064848 2064850 . - 0 gene_id "ECDH10B_RS10400"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "motB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310626.1"; locus_tag "ECDH10B_RS10400"; product "flagellar motor protein MotB"; protein_id "WP_000795630.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2063924 2063926 . - 0 gene_id "ECDH10B_RS10400"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "motB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310626.1"; locus_tag "ECDH10B_RS10400"; product "flagellar motor protein MotB"; protein_id "WP_000795630.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2064847 2065734 . - . gene_id "ECDH10B_RS10405"; transcript_id ""; gbkey "Gene"; gene "motA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10405"; old_locus_tag "ECDH10B_2031"; -NC_010473.1 Protein Homology CDS 2064850 2065734 . - 0 gene_id "ECDH10B_RS10405"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "motA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416404.1"; locus_tag "ECDH10B_RS10405"; product "flagellar motor stator protein MotA"; protein_id "WP_000906340.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2065732 2065734 . - 0 gene_id "ECDH10B_RS10405"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "motA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416404.1"; locus_tag "ECDH10B_RS10405"; product "flagellar motor stator protein MotA"; protein_id "WP_000906340.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2064847 2064849 . - 0 gene_id "ECDH10B_RS10405"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "motA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416404.1"; locus_tag "ECDH10B_RS10405"; product "flagellar motor stator protein MotA"; protein_id "WP_000906340.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2065861 2066453 . - . gene_id "ECDH10B_RS10410"; transcript_id ""; gbkey "Gene"; gene "flhC"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS10410"; pseudo "true"; -NC_010473.1 Protein Homology CDS 2065864 2066453 . - 0 gene_id "ECDH10B_RS10410"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "flhC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310628.1"; locus_tag "ECDH10B_RS10410"; note "frameshifted"; product "flagellar transcriptional regulator FlhC"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2066451 2066453 . - 0 gene_id "ECDH10B_RS10410"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "flhC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310628.1"; locus_tag "ECDH10B_RS10410"; note "frameshifted"; product "flagellar transcriptional regulator FlhC"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2065861 2065863 . - 0 gene_id "ECDH10B_RS10410"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "flhC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310628.1"; locus_tag "ECDH10B_RS10410"; note "frameshifted"; product "flagellar transcriptional regulator FlhC"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 2066456 2066806 . - . gene_id "ECDH10B_RS10415"; transcript_id ""; gbkey "Gene"; gene "flhD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10415"; old_locus_tag "ECDH10B_2033"; -NC_010473.1 Protein Homology CDS 2066459 2066806 . - 0 gene_id "ECDH10B_RS10415"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "flhD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416406.4"; locus_tag "ECDH10B_RS10415"; product "flagellar transcriptional regulator FlhD"; protein_id "WP_001295647.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2066804 2066806 . - 0 gene_id "ECDH10B_RS10415"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "flhD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416406.4"; locus_tag "ECDH10B_RS10415"; product "flagellar transcriptional regulator FlhD"; protein_id "WP_001295647.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2066456 2066458 . - 0 gene_id "ECDH10B_RS10415"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "flhD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416406.4"; locus_tag "ECDH10B_RS10415"; product "flagellar transcriptional regulator FlhD"; protein_id "WP_001295647.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2067250 2068266 . - . gene_id "ECDH10B_RS10420"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10420"; -NC_010473.1 Protein Homology CDS 2067253 2068266 . - 0 gene_id "ECDH10B_RS10420"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414793.1"; locus_tag "ECDH10B_RS10420"; product "IS5-like element IS5 family transposase"; protein_id "WP_010723085.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2068264 2068266 . - 0 gene_id "ECDH10B_RS10420"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414793.1"; locus_tag "ECDH10B_RS10420"; product "IS5-like element IS5 family transposase"; protein_id "WP_010723085.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2067250 2067252 . - 0 gene_id "ECDH10B_RS10420"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414793.1"; locus_tag "ECDH10B_RS10420"; product "IS5-like element IS5 family transposase"; protein_id "WP_010723085.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2068785 2069213 . + . gene_id "ECDH10B_RS10425"; transcript_id ""; gbkey "Gene"; gene "uspC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10425"; old_locus_tag "ECDH10B_2036"; -NC_010473.1 Protein Homology CDS 2068785 2069210 . + 0 gene_id "ECDH10B_RS10425"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "uspC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416409.1"; locus_tag "ECDH10B_RS10425"; product "universal stress protein UspC"; protein_id "WP_000122416.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2068785 2068787 . + 0 gene_id "ECDH10B_RS10425"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "uspC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416409.1"; locus_tag "ECDH10B_RS10425"; product "universal stress protein UspC"; protein_id "WP_000122416.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2069211 2069213 . + 0 gene_id "ECDH10B_RS10425"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "uspC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416409.1"; locus_tag "ECDH10B_RS10425"; product "universal stress protein UspC"; protein_id "WP_000122416.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2069220 2070644 . - . gene_id "ECDH10B_RS10430"; transcript_id ""; gbkey "Gene"; gene "otsA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10430"; old_locus_tag "ECDH10B_2037"; -NC_010473.1 Protein Homology CDS 2069223 2070644 . - 0 gene_id "ECDH10B_RS10430"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "otsA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416410.1"; locus_tag "ECDH10B_RS10430"; product "alpha,alpha-trehalose-phosphate synthase"; protein_id "WP_001295646.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2070642 2070644 . - 0 gene_id "ECDH10B_RS10430"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "otsA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416410.1"; locus_tag "ECDH10B_RS10430"; product "alpha,alpha-trehalose-phosphate synthase"; protein_id "WP_001295646.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2069220 2069222 . - 0 gene_id "ECDH10B_RS10430"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "otsA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416410.1"; locus_tag "ECDH10B_RS10430"; product "alpha,alpha-trehalose-phosphate synthase"; protein_id "WP_001295646.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2070619 2071419 . - . gene_id "ECDH10B_RS10435"; transcript_id ""; gbkey "Gene"; gene "otsB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10435"; old_locus_tag "ECDH10B_2038"; -NC_010473.1 Protein Homology CDS 2070622 2071419 . - 0 gene_id "ECDH10B_RS10435"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "otsB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416411.1"; locus_tag "ECDH10B_RS10435"; product "trehalose-phosphatase"; protein_id "WP_001295645.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2071417 2071419 . - 0 gene_id "ECDH10B_RS10435"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "otsB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416411.1"; locus_tag "ECDH10B_RS10435"; product "trehalose-phosphatase"; protein_id "WP_001295645.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2070619 2070621 . - 0 gene_id "ECDH10B_RS10435"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "otsB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416411.1"; locus_tag "ECDH10B_RS10435"; product "trehalose-phosphatase"; protein_id "WP_001295645.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2071586 2072572 . - . gene_id "ECDH10B_RS10440"; transcript_id ""; gbkey "Gene"; gene "araH"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10440"; old_locus_tag "ECDH10B_2039"; -NC_010473.1 Protein Homology CDS 2071589 2072572 . - 0 gene_id "ECDH10B_RS10440"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "araH"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026162.2"; locus_tag "ECDH10B_RS10440"; product "arabinose ABC transporter permease AraH"; protein_id "WP_000100205.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2072570 2072572 . - 0 gene_id "ECDH10B_RS10440"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "araH"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026162.2"; locus_tag "ECDH10B_RS10440"; product "arabinose ABC transporter permease AraH"; protein_id "WP_000100205.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2071586 2071588 . - 0 gene_id "ECDH10B_RS10440"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "araH"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026162.2"; locus_tag "ECDH10B_RS10440"; product "arabinose ABC transporter permease AraH"; protein_id "WP_000100205.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2072587 2074101 . - . gene_id "ECDH10B_RS10445"; transcript_id ""; gbkey "Gene"; gene "araG"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10445"; old_locus_tag "ECDH10B_2040"; -NC_010473.1 Protein Homology CDS 2072590 2074101 . - 0 gene_id "ECDH10B_RS10445"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "araG"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005127704.1"; locus_tag "ECDH10B_RS10445"; product "arabinose ABC transporter ATP binding protein AraG"; protein_id "WP_001187819.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2074099 2074101 . - 0 gene_id "ECDH10B_RS10445"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "araG"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005127704.1"; locus_tag "ECDH10B_RS10445"; product "arabinose ABC transporter ATP binding protein AraG"; protein_id "WP_001187819.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2072587 2072589 . - 0 gene_id "ECDH10B_RS10445"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "araG"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005127704.1"; locus_tag "ECDH10B_RS10445"; product "arabinose ABC transporter ATP binding protein AraG"; protein_id "WP_001187819.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2074171 2075160 . - . gene_id "ECDH10B_RS10450"; transcript_id ""; gbkey "Gene"; gene "araF"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10450"; old_locus_tag "ECDH10B_2041"; -NC_010473.1 Protein Homology CDS 2074174 2075160 . - 0 gene_id "ECDH10B_RS10450"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "araF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416414.1"; locus_tag "ECDH10B_RS10450"; product "arabinose ABC transporter substrate-binding protein AraF"; protein_id "WP_000548675.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2075158 2075160 . - 0 gene_id "ECDH10B_RS10450"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "araF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416414.1"; locus_tag "ECDH10B_RS10450"; product "arabinose ABC transporter substrate-binding protein AraF"; protein_id "WP_000548675.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2074171 2074173 . - 0 gene_id "ECDH10B_RS10450"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "araF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416414.1"; locus_tag "ECDH10B_RS10450"; product "arabinose ABC transporter substrate-binding protein AraF"; protein_id "WP_000548675.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2075957 2076460 . + . gene_id "ECDH10B_RS10455"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10455"; old_locus_tag "ECDH10B_2042"; -NC_010473.1 Protein Homology CDS 2075957 2076457 . + 0 gene_id "ECDH10B_RS10455"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310637.1"; locus_tag "ECDH10B_RS10455"; product "non-heme ferritin-like protein"; protein_id "WP_000179469.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2075957 2075959 . + 0 gene_id "ECDH10B_RS10455"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310637.1"; locus_tag "ECDH10B_RS10455"; product "non-heme ferritin-like protein"; protein_id "WP_000179469.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2076458 2076460 . + 0 gene_id "ECDH10B_RS10455"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310637.1"; locus_tag "ECDH10B_RS10455"; product "non-heme ferritin-like protein"; protein_id "WP_000179469.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2076539 2076790 . - . gene_id "ECDH10B_RS10460"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10460"; old_locus_tag "ECDH10B_2043"; -NC_010473.1 Protein Homology CDS 2076542 2076790 . - 0 gene_id "ECDH10B_RS10460"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416416.2"; locus_tag "ECDH10B_RS10460"; product "DUF2766 domain-containing protein"; protein_id "WP_000082127.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2076788 2076790 . - 0 gene_id "ECDH10B_RS10460"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416416.2"; locus_tag "ECDH10B_RS10460"; product "DUF2766 domain-containing protein"; protein_id "WP_000082127.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2076539 2076541 . - 0 gene_id "ECDH10B_RS10460"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416416.2"; locus_tag "ECDH10B_RS10460"; product "DUF2766 domain-containing protein"; protein_id "WP_000082127.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2076905 2076991 . - . gene_id "ECDH10B_RS25545"; transcript_id ""; gbkey "Gene"; gene "azuC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS25545"; -NC_010473.1 Protein Homology CDS 2076908 2076991 . - 0 gene_id "ECDH10B_RS25545"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "azuC"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_002791245.1"; locus_tag "ECDH10B_RS25545"; product "stress response protein AzuC"; protein_id "WP_010723106.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2076989 2076991 . - 0 gene_id "ECDH10B_RS25545"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "azuC"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_002791245.1"; locus_tag "ECDH10B_RS25545"; product "stress response protein AzuC"; protein_id "WP_010723106.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2076905 2076907 . - 0 gene_id "ECDH10B_RS25545"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "azuC"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_002791245.1"; locus_tag "ECDH10B_RS25545"; product "stress response protein AzuC"; protein_id "WP_010723106.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2077254 2077577 . + . gene_id "ECDH10B_RS10470"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10470"; old_locus_tag "ECDH10B_2045"; -NC_010473.1 Protein Homology CDS 2077254 2077574 . + 0 gene_id "ECDH10B_RS10470"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416417.1"; locus_tag "ECDH10B_RS10470"; product "YecR-like lipofamily protein"; protein_id "WP_001237869.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2077254 2077256 . + 0 gene_id "ECDH10B_RS10470"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416417.1"; locus_tag "ECDH10B_RS10470"; product "YecR-like lipofamily protein"; protein_id "WP_001237869.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2077575 2077577 . + 0 gene_id "ECDH10B_RS10470"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416417.1"; locus_tag "ECDH10B_RS10470"; product "YecR-like lipofamily protein"; protein_id "WP_001237869.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2077748 2078245 . + . gene_id "ECDH10B_RS10475"; transcript_id ""; gbkey "Gene"; gene "ftnA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10475"; old_locus_tag "ECDH10B_2046"; -NC_010473.1 Protein Homology CDS 2077748 2078242 . + 0 gene_id "ECDH10B_RS10475"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ftnA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310640.1"; locus_tag "ECDH10B_RS10475"; product "non-heme ferritin"; protein_id "WP_000917208.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2077748 2077750 . + 0 gene_id "ECDH10B_RS10475"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ftnA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310640.1"; locus_tag "ECDH10B_RS10475"; product "non-heme ferritin"; protein_id "WP_000917208.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2078243 2078245 . + 0 gene_id "ECDH10B_RS10475"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ftnA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310640.1"; locus_tag "ECDH10B_RS10475"; product "non-heme ferritin"; protein_id "WP_000917208.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2078283 2078522 . - . gene_id "ECDH10B_RS10480"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10480"; old_locus_tag "ECDH10B_2047"; -NC_010473.1 Protein Homology CDS 2078286 2078522 . - 0 gene_id "ECDH10B_RS10480"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416419.1"; locus_tag "ECDH10B_RS10480"; product "YecH family protein"; protein_id "WP_000377225.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2078520 2078522 . - 0 gene_id "ECDH10B_RS10480"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416419.1"; locus_tag "ECDH10B_RS10480"; product "YecH family protein"; protein_id "WP_000377225.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2078283 2078285 . - 0 gene_id "ECDH10B_RS10480"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416419.1"; locus_tag "ECDH10B_RS10480"; product "YecH family protein"; protein_id "WP_000377225.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2078713 2079924 . + . gene_id "ECDH10B_RS10485"; transcript_id ""; gbkey "Gene"; gene "tyrP"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10485"; old_locus_tag "ECDH10B_2048"; -NC_010473.1 Protein Homology CDS 2078713 2079921 . + 0 gene_id "ECDH10B_RS10485"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tyrP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416420.1"; locus_tag "ECDH10B_RS10485"; product "tyrosine transporter TyrP"; protein_id "WP_000797560.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2078713 2078715 . + 0 gene_id "ECDH10B_RS10485"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tyrP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416420.1"; locus_tag "ECDH10B_RS10485"; product "tyrosine transporter TyrP"; protein_id "WP_000797560.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2079922 2079924 . + 0 gene_id "ECDH10B_RS10485"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tyrP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416420.1"; locus_tag "ECDH10B_RS10485"; product "tyrosine transporter TyrP"; protein_id "WP_000797560.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2079986 2080651 . - . gene_id "ECDH10B_RS10490"; transcript_id ""; gbkey "Gene"; gene "yecA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10490"; old_locus_tag "ECDH10B_2049"; -NC_010473.1 Protein Homology CDS 2079989 2080651 . - 0 gene_id "ECDH10B_RS10490"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yecA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416421.1"; locus_tag "ECDH10B_RS10490"; product "UPF0149 family protein YecA"; protein_id "WP_000847902.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2080649 2080651 . - 0 gene_id "ECDH10B_RS10490"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yecA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416421.1"; locus_tag "ECDH10B_RS10490"; product "UPF0149 family protein YecA"; protein_id "WP_000847902.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2079986 2079988 . - 0 gene_id "ECDH10B_RS10490"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yecA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416421.1"; locus_tag "ECDH10B_RS10490"; product "UPF0149 family protein YecA"; protein_id "WP_000847902.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2080847 2080933 . - . gene_id "ECDH10B_RS10495"; transcript_id ""; gbkey "Gene"; gene_biotype "tRNA"; locus_tag "ECDH10B_RS10495"; old_locus_tag "ECDH10B_2050"; -NC_010473.1 tRNAscan-SE exon 2080847 2080933 . - . gene_id "ECDH10B_RS10495"; transcript_id "ECDH10B_RS10495"; anticodon "(pos:complement(2080897..2080899))"; gbkey "tRNA"; inference "COORDINATES: profile:tRNAscan-SE:2.0.6"; locus_tag "ECDH10B_RS10495"; product "tRNA-Leu"; exon_number "1"; -NC_010473.1 RefSeq gene 2080946 2081019 . - . gene_id "ECDH10B_RS10500"; transcript_id ""; gbkey "Gene"; gene_biotype "tRNA"; locus_tag "ECDH10B_RS10500"; old_locus_tag "ECDH10B_2051"; -NC_010473.1 tRNAscan-SE exon 2080946 2081019 . - . gene_id "ECDH10B_RS10500"; transcript_id "ECDH10B_RS10500"; anticodon "(pos:complement(2080985..2080987))"; gbkey "tRNA"; inference "COORDINATES: profile:tRNAscan-SE:2.0.6"; locus_tag "ECDH10B_RS10500"; product "tRNA-Cys"; exon_number "1"; -NC_010473.1 RefSeq gene 2081074 2081149 . - . gene_id "ECDH10B_RS10505"; transcript_id ""; gbkey "Gene"; gene_biotype "tRNA"; locus_tag "ECDH10B_RS10505"; old_locus_tag "ECDH10B_2052"; -NC_010473.1 tRNAscan-SE exon 2081074 2081149 . - . gene_id "ECDH10B_RS10505"; transcript_id "ECDH10B_RS10505"; anticodon "(pos:complement(2081114..2081116))"; gbkey "tRNA"; inference "COORDINATES: profile:tRNAscan-SE:2.0.6"; locus_tag "ECDH10B_RS10505"; product "tRNA-Gly"; exon_number "1"; -NC_010473.1 RefSeq gene 2081301 2081849 . - . gene_id "ECDH10B_RS10510"; transcript_id ""; gbkey "Gene"; gene "pgsA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10510"; old_locus_tag "ECDH10B_2053"; -NC_010473.1 Protein Homology CDS 2081304 2081849 . - 0 gene_id "ECDH10B_RS10510"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pgsA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310677.1"; locus_tag "ECDH10B_RS10510"; product "CDP-diacylglycerol--glycerol-3-phosphate 3-phosphatidyltransferase"; protein_id "WP_001160187.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2081847 2081849 . - 0 gene_id "ECDH10B_RS10510"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pgsA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310677.1"; locus_tag "ECDH10B_RS10510"; product "CDP-diacylglycerol--glycerol-3-phosphate 3-phosphatidyltransferase"; protein_id "WP_001160187.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2081301 2081303 . - 0 gene_id "ECDH10B_RS10510"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pgsA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310677.1"; locus_tag "ECDH10B_RS10510"; product "CDP-diacylglycerol--glycerol-3-phosphate 3-phosphatidyltransferase"; protein_id "WP_001160187.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2081906 2083738 . - . gene_id "ECDH10B_RS10515"; transcript_id ""; gbkey "Gene"; gene "uvrC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10515"; old_locus_tag "ECDH10B_2054"; -NC_010473.1 Protein Homology CDS 2081909 2083738 . - 0 gene_id "ECDH10B_RS10515"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "uvrC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310678.2"; locus_tag "ECDH10B_RS10515"; product "excinuclease ABC subunit UvrC"; protein_id "WP_001283421.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2083736 2083738 . - 0 gene_id "ECDH10B_RS10515"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "uvrC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310678.2"; locus_tag "ECDH10B_RS10515"; product "excinuclease ABC subunit UvrC"; protein_id "WP_001283421.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2081906 2081908 . - 0 gene_id "ECDH10B_RS10515"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "uvrC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310678.2"; locus_tag "ECDH10B_RS10515"; product "excinuclease ABC subunit UvrC"; protein_id "WP_001283421.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2083735 2084391 . - . gene_id "ECDH10B_RS10520"; transcript_id ""; gbkey "Gene"; gene "uvrY"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10520"; old_locus_tag "ECDH10B_2055"; -NC_010473.1 Protein Homology CDS 2083738 2084391 . - 0 gene_id "ECDH10B_RS10520"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "uvrY"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416424.1"; locus_tag "ECDH10B_RS10520"; product "UvrY/SirA/GacA family response regulator transcription factor"; protein_id "WP_000611335.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2084389 2084391 . - 0 gene_id "ECDH10B_RS10520"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "uvrY"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416424.1"; locus_tag "ECDH10B_RS10520"; product "UvrY/SirA/GacA family response regulator transcription factor"; protein_id "WP_000611335.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2083735 2083737 . - 0 gene_id "ECDH10B_RS10520"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "uvrY"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416424.1"; locus_tag "ECDH10B_RS10520"; product "UvrY/SirA/GacA family response regulator transcription factor"; protein_id "WP_000611335.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2084687 2084863 . + . gene_id "ECDH10B_RS26030"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS26030"; -NC_010473.1 Protein Homology CDS 2084687 2084860 . + 0 gene_id "ECDH10B_RS26030"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_009518796.1"; locus_tag "ECDH10B_RS26030"; product "hypothetical protein"; protein_id "WP_000590347.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2084687 2084689 . + 0 gene_id "ECDH10B_RS26030"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_009518796.1"; locus_tag "ECDH10B_RS26030"; product "hypothetical protein"; protein_id "WP_000590347.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2084861 2084863 . + 0 gene_id "ECDH10B_RS26030"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_009518796.1"; locus_tag "ECDH10B_RS26030"; product "hypothetical protein"; protein_id "WP_000590347.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2084850 2085074 . + . gene_id "ECDH10B_RS10530"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10530"; old_locus_tag "ECDH10B_2056"; -NC_010473.1 Protein Homology CDS 2084850 2085071 . + 0 gene_id "ECDH10B_RS10530"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416425.1"; locus_tag "ECDH10B_RS10530"; product "DUF2594 family protein"; protein_id "WP_000106474.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2084850 2084852 . + 0 gene_id "ECDH10B_RS10530"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416425.1"; locus_tag "ECDH10B_RS10530"; product "DUF2594 family protein"; protein_id "WP_000106474.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2085072 2085074 . + 0 gene_id "ECDH10B_RS10530"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416425.1"; locus_tag "ECDH10B_RS10530"; product "DUF2594 family protein"; protein_id "WP_000106474.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2085142 2085864 . - . gene_id "ECDH10B_RS10535"; transcript_id ""; gbkey "Gene"; gene "sdiA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10535"; old_locus_tag "ECDH10B_2057"; -NC_010473.1 Protein Homology CDS 2085145 2085864 . - 0 gene_id "ECDH10B_RS10535"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sdiA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416426.1"; locus_tag "ECDH10B_RS10535"; product "transcriptional regulator SdiA"; protein_id "WP_001152715.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2085862 2085864 . - 0 gene_id "ECDH10B_RS10535"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sdiA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416426.1"; locus_tag "ECDH10B_RS10535"; product "transcriptional regulator SdiA"; protein_id "WP_001152715.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2085142 2085144 . - 0 gene_id "ECDH10B_RS10535"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sdiA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416426.1"; locus_tag "ECDH10B_RS10535"; product "transcriptional regulator SdiA"; protein_id "WP_001152715.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2086094 2086846 . - . gene_id "ECDH10B_RS10540"; transcript_id ""; gbkey "Gene"; gene "yecC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10540"; old_locus_tag "ECDH10B_2058"; -NC_010473.1 Protein Homology CDS 2086097 2086846 . - 0 gene_id "ECDH10B_RS10540"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yecC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416427.1"; locus_tag "ECDH10B_RS10540"; product "L-cystine ABC transporter ATP-binding protein YecC"; protein_id "WP_001272991.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2086844 2086846 . - 0 gene_id "ECDH10B_RS10540"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yecC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416427.1"; locus_tag "ECDH10B_RS10540"; product "L-cystine ABC transporter ATP-binding protein YecC"; protein_id "WP_001272991.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2086094 2086096 . - 0 gene_id "ECDH10B_RS10540"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yecC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416427.1"; locus_tag "ECDH10B_RS10540"; product "L-cystine ABC transporter ATP-binding protein YecC"; protein_id "WP_001272991.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2086843 2087511 . - . gene_id "ECDH10B_RS10545"; transcript_id ""; gbkey "Gene"; gene "tcyL"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10545"; old_locus_tag "ECDH10B_2059"; -NC_010473.1 Protein Homology CDS 2086846 2087511 . - 0 gene_id "ECDH10B_RS10545"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tcyL"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416428.1"; locus_tag "ECDH10B_RS10545"; product "cystine ABC transporter permease"; protein_id "WP_001158220.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2087509 2087511 . - 0 gene_id "ECDH10B_RS10545"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tcyL"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416428.1"; locus_tag "ECDH10B_RS10545"; product "cystine ABC transporter permease"; protein_id "WP_001158220.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2086843 2086845 . - 0 gene_id "ECDH10B_RS10545"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tcyL"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416428.1"; locus_tag "ECDH10B_RS10545"; product "cystine ABC transporter permease"; protein_id "WP_001158220.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2087526 2088512 . - . gene_id "ECDH10B_RS10550"; transcript_id ""; gbkey "Gene"; gene "dcyD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10550"; old_locus_tag "ECDH10B_2060"; -NC_010473.1 Protein Homology CDS 2087529 2088512 . - 0 gene_id "ECDH10B_RS10550"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dcyD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416429.4"; locus_tag "ECDH10B_RS10550"; product "D-cysteine desulfhydrase"; protein_id "WP_001128215.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2088510 2088512 . - 0 gene_id "ECDH10B_RS10550"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dcyD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416429.4"; locus_tag "ECDH10B_RS10550"; product "D-cysteine desulfhydrase"; protein_id "WP_001128215.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2087526 2087528 . - 0 gene_id "ECDH10B_RS10550"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dcyD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416429.4"; locus_tag "ECDH10B_RS10550"; product "D-cysteine desulfhydrase"; protein_id "WP_001128215.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2088617 2089417 . - . gene_id "ECDH10B_RS10555"; transcript_id ""; gbkey "Gene"; gene "tcyJ"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10555"; old_locus_tag "ECDH10B_2061"; -NC_010473.1 Protein Homology CDS 2088620 2089417 . - 0 gene_id "ECDH10B_RS10555"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tcyJ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416430.1"; locus_tag "ECDH10B_RS10555"; product "cystine ABC transporter substrate-binding protein"; protein_id "WP_001296168.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2089415 2089417 . - 0 gene_id "ECDH10B_RS10555"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tcyJ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416430.1"; locus_tag "ECDH10B_RS10555"; product "cystine ABC transporter substrate-binding protein"; protein_id "WP_001296168.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2088617 2088619 . - 0 gene_id "ECDH10B_RS10555"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tcyJ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416430.1"; locus_tag "ECDH10B_RS10555"; product "cystine ABC transporter substrate-binding protein"; protein_id "WP_001296168.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2089505 2090056 . - . gene_id "ECDH10B_RS10560"; transcript_id ""; gbkey "Gene"; gene "fliZ"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10560"; old_locus_tag "ECDH10B_2062"; -NC_010473.1 Protein Homology CDS 2089508 2090056 . - 0 gene_id "ECDH10B_RS10560"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fliZ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416431.2"; locus_tag "ECDH10B_RS10560"; product "flagella biosynthesis regulatory protein FliZ"; protein_id "WP_001350518.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2090054 2090056 . - 0 gene_id "ECDH10B_RS10560"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fliZ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416431.2"; locus_tag "ECDH10B_RS10560"; product "flagella biosynthesis regulatory protein FliZ"; protein_id "WP_001350518.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2089505 2089507 . - 0 gene_id "ECDH10B_RS10560"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fliZ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416431.2"; locus_tag "ECDH10B_RS10560"; product "flagella biosynthesis regulatory protein FliZ"; protein_id "WP_001350518.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2090102 2090821 . - . gene_id "ECDH10B_RS10565"; transcript_id ""; gbkey "Gene"; gene "fliA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10565"; old_locus_tag "ECDH10B_2063"; -NC_010473.1 Protein Homology CDS 2090105 2090821 . - 0 gene_id "ECDH10B_RS10565"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fliA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310688.1"; locus_tag "ECDH10B_RS10565"; product "RNA polymerase sigma factor FliA"; protein_id "WP_001087467.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2090819 2090821 . - 0 gene_id "ECDH10B_RS10565"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fliA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310688.1"; locus_tag "ECDH10B_RS10565"; product "RNA polymerase sigma factor FliA"; protein_id "WP_001087467.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2090102 2090104 . - 0 gene_id "ECDH10B_RS10565"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fliA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310688.1"; locus_tag "ECDH10B_RS10565"; product "RNA polymerase sigma factor FliA"; protein_id "WP_001087467.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2091142 2092638 . - . gene_id "ECDH10B_RS10570"; transcript_id ""; gbkey "Gene"; gene "fliC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10570"; -NC_010473.1 Protein Homology CDS 2091145 2092638 . - 0 gene_id "ECDH10B_RS10570"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fliC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416433.1"; locus_tag "ECDH10B_RS10570"; product "H48 family flagellin FliC"; protein_id "WP_000079750.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2092636 2092638 . - 0 gene_id "ECDH10B_RS10570"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fliC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416433.1"; locus_tag "ECDH10B_RS10570"; product "H48 family flagellin FliC"; protein_id "WP_000079750.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2091142 2091144 . - 0 gene_id "ECDH10B_RS10570"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fliC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416433.1"; locus_tag "ECDH10B_RS10570"; product "H48 family flagellin FliC"; protein_id "WP_000079750.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2092904 2094310 . + . gene_id "ECDH10B_RS10575"; transcript_id ""; gbkey "Gene"; gene "fliD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10575"; old_locus_tag "ECDH10B_2065"; -NC_010473.1 Protein Homology CDS 2092904 2094307 . + 0 gene_id "ECDH10B_RS10575"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fliD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416434.1"; locus_tag "ECDH10B_RS10575"; product "flagellar filament capping protein FliD"; protein_id "WP_000146784.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2092904 2092906 . + 0 gene_id "ECDH10B_RS10575"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fliD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416434.1"; locus_tag "ECDH10B_RS10575"; product "flagellar filament capping protein FliD"; protein_id "WP_000146784.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2094308 2094310 . + 0 gene_id "ECDH10B_RS10575"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fliD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416434.1"; locus_tag "ECDH10B_RS10575"; product "flagellar filament capping protein FliD"; protein_id "WP_000146784.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2094335 2094745 . + . gene_id "ECDH10B_RS10580"; transcript_id ""; gbkey "Gene"; gene "fliS"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10580"; old_locus_tag "ECDH10B_2066"; -NC_010473.1 Protein Homology CDS 2094335 2094742 . + 0 gene_id "ECDH10B_RS10580"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fliS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416435.1"; locus_tag "ECDH10B_RS10580"; product "flagellar export chaperone FliS"; protein_id "WP_000270671.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2094335 2094337 . + 0 gene_id "ECDH10B_RS10580"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fliS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416435.1"; locus_tag "ECDH10B_RS10580"; product "flagellar export chaperone FliS"; protein_id "WP_000270671.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2094743 2094745 . + 0 gene_id "ECDH10B_RS10580"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fliS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416435.1"; locus_tag "ECDH10B_RS10580"; product "flagellar export chaperone FliS"; protein_id "WP_000270671.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2094745 2095110 . + . gene_id "ECDH10B_RS10585"; transcript_id ""; gbkey "Gene"; gene "fliT"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10585"; old_locus_tag "ECDH10B_2067"; -NC_010473.1 Protein Homology CDS 2094745 2095107 . + 0 gene_id "ECDH10B_RS10585"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fliT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310692.1"; locus_tag "ECDH10B_RS10585"; product "flagella biosynthesis regulatory protein FliT"; protein_id "WP_001015033.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2094745 2094747 . + 0 gene_id "ECDH10B_RS10585"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fliT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310692.1"; locus_tag "ECDH10B_RS10585"; product "flagella biosynthesis regulatory protein FliT"; protein_id "WP_001015033.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2095108 2095110 . + 0 gene_id "ECDH10B_RS10585"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fliT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310692.1"; locus_tag "ECDH10B_RS10585"; product "flagella biosynthesis regulatory protein FliT"; protein_id "WP_001015033.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2095188 2096675 . + . gene_id "ECDH10B_RS10590"; transcript_id ""; gbkey "Gene"; gene "amyA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10590"; old_locus_tag "ECDH10B_2068"; -NC_010473.1 Protein Homology CDS 2095188 2096672 . + 0 gene_id "ECDH10B_RS10590"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "amyA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416437.1"; locus_tag "ECDH10B_RS10590"; product "alpha-amylase"; protein_id "WP_001245695.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2095188 2095190 . + 0 gene_id "ECDH10B_RS10590"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "amyA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416437.1"; locus_tag "ECDH10B_RS10590"; product "alpha-amylase"; protein_id "WP_001245695.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2096673 2096675 . + 0 gene_id "ECDH10B_RS10590"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "amyA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416437.1"; locus_tag "ECDH10B_RS10590"; product "alpha-amylase"; protein_id "WP_001245695.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2096709 2097122 . - . gene_id "ECDH10B_RS10595"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10595"; old_locus_tag "ECDH10B_2069"; -NC_010473.1 Protein Homology CDS 2096712 2097122 . - 0 gene_id "ECDH10B_RS10595"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416438.1"; locus_tag "ECDH10B_RS10595"; product "lipoprotein"; protein_id "WP_001350519.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2097120 2097122 . - 0 gene_id "ECDH10B_RS10595"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416438.1"; locus_tag "ECDH10B_RS10595"; product "lipoprotein"; protein_id "WP_001350519.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2096709 2096711 . - 0 gene_id "ECDH10B_RS10595"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416438.1"; locus_tag "ECDH10B_RS10595"; product "lipoprotein"; protein_id "WP_001350519.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2097309 2098514 . + . gene_id "ECDH10B_RS10600"; transcript_id ""; gbkey "Gene"; gene "yedE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10600"; old_locus_tag "ECDH10B_2070"; -NC_010473.1 Protein Homology CDS 2097309 2098511 . + 0 gene_id "ECDH10B_RS10600"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yedE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416439.1"; locus_tag "ECDH10B_RS10600"; product "selenium metabolism membrane protein YedE/FdhT"; protein_id "WP_000118897.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2097309 2097311 . + 0 gene_id "ECDH10B_RS10600"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yedE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416439.1"; locus_tag "ECDH10B_RS10600"; product "selenium metabolism membrane protein YedE/FdhT"; protein_id "WP_000118897.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2098512 2098514 . + 0 gene_id "ECDH10B_RS10600"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yedE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416439.1"; locus_tag "ECDH10B_RS10600"; product "selenium metabolism membrane protein YedE/FdhT"; protein_id "WP_000118897.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2098511 2098744 . + . gene_id "ECDH10B_RS10605"; transcript_id ""; gbkey "Gene"; gene "yedF"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10605"; old_locus_tag "ECDH10B_2071"; -NC_010473.1 Protein Homology CDS 2098511 2098741 . + 0 gene_id "ECDH10B_RS10605"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yedF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310696.1"; locus_tag "ECDH10B_RS10605"; product "sulfurtransferase-like selenium metabolism protein YedF"; protein_id "WP_000790504.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2098511 2098513 . + 0 gene_id "ECDH10B_RS10605"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yedF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310696.1"; locus_tag "ECDH10B_RS10605"; product "sulfurtransferase-like selenium metabolism protein YedF"; protein_id "WP_000790504.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2098742 2098744 . + 0 gene_id "ECDH10B_RS10605"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yedF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310696.1"; locus_tag "ECDH10B_RS10605"; product "sulfurtransferase-like selenium metabolism protein YedF"; protein_id "WP_000790504.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2098853 2099521 . + . gene_id "ECDH10B_RS10610"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10610"; old_locus_tag "ECDH10B_2072"; -NC_010473.1 Protein Homology CDS 2098853 2099518 . + 0 gene_id "ECDH10B_RS10610"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_025310.1"; locus_tag "ECDH10B_RS10610"; product "SOS response-associated peptidase"; protein_id "WP_000334583.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2098853 2098855 . + 0 gene_id "ECDH10B_RS10610"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_025310.1"; locus_tag "ECDH10B_RS10610"; product "SOS response-associated peptidase"; protein_id "WP_000334583.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2099519 2099521 . + 0 gene_id "ECDH10B_RS10610"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_025310.1"; locus_tag "ECDH10B_RS10610"; product "SOS response-associated peptidase"; protein_id "WP_000334583.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2099632 2100111 . + . gene_id "ECDH10B_RS10615"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10615"; old_locus_tag "ECDH10B_2073"; -NC_010473.1 Protein Homology CDS 2099632 2100108 . + 0 gene_id "ECDH10B_RS10615"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416442.1"; locus_tag "ECDH10B_RS10615"; product "GNAT family N-acetyltransferase"; protein_id "WP_000494172.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2099632 2099634 . + 0 gene_id "ECDH10B_RS10615"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416442.1"; locus_tag "ECDH10B_RS10615"; product "GNAT family N-acetyltransferase"; protein_id "WP_000494172.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2100109 2100111 . + 0 gene_id "ECDH10B_RS10615"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416442.1"; locus_tag "ECDH10B_RS10615"; product "GNAT family N-acetyltransferase"; protein_id "WP_000494172.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2100380 2100571 . - . gene_id "ECDH10B_RS25550"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS25550"; -NC_010473.1 GeneMarkS-2+ CDS 2100383 2100571 . - 0 gene_id "ECDH10B_RS25550"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: ab initio prediction:GeneMarkS-2+"; locus_tag "ECDH10B_RS25550"; product "hypothetical protein"; protein_id "WP_001362554.1"; transl_table "11"; -NC_010473.1 GeneMarkS-2+ start_codon 2100569 2100571 . - 0 gene_id "ECDH10B_RS25550"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: ab initio prediction:GeneMarkS-2+"; locus_tag "ECDH10B_RS25550"; product "hypothetical protein"; protein_id "WP_001362554.1"; transl_table "11"; -NC_010473.1 GeneMarkS-2+ stop_codon 2100380 2100382 . - 0 gene_id "ECDH10B_RS25550"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: ab initio prediction:GeneMarkS-2+"; locus_tag "ECDH10B_RS25550"; product "hypothetical protein"; protein_id "WP_001362554.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2100581 2101383 . - . gene_id "ECDH10B_RS10625"; transcript_id ""; gbkey "Gene"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS10625"; pseudo "true"; -NC_010473.1 Protein Homology CDS 2100584 2101383 . - 0 gene_id "ECDH10B_RS10625"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001544633.1"; locus_tag "ECDH10B_RS10625"; note "frameshifted"; product "leucine-rich repeat domain-containing protein"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2101381 2101383 . - 0 gene_id "ECDH10B_RS10625"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001544633.1"; locus_tag "ECDH10B_RS10625"; note "frameshifted"; product "leucine-rich repeat domain-containing protein"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2100581 2100583 . - 0 gene_id "ECDH10B_RS10625"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001544633.1"; locus_tag "ECDH10B_RS10625"; note "frameshifted"; product "leucine-rich repeat domain-containing protein"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 2101732 2102046 . - . gene_id "ECDH10B_RS10635"; transcript_id ""; gbkey "Gene"; gene "fliE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10635"; old_locus_tag "ECDH10B_2079"; -NC_010473.1 Protein Homology CDS 2101735 2102046 . - 0 gene_id "ECDH10B_RS10635"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fliE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310703.1"; locus_tag "ECDH10B_RS10635"; product "flagellar hook-basal body complex protein FliE"; protein_id "WP_001274299.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2102044 2102046 . - 0 gene_id "ECDH10B_RS10635"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fliE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310703.1"; locus_tag "ECDH10B_RS10635"; product "flagellar hook-basal body complex protein FliE"; protein_id "WP_001274299.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2101732 2101734 . - 0 gene_id "ECDH10B_RS10635"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fliE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310703.1"; locus_tag "ECDH10B_RS10635"; product "flagellar hook-basal body complex protein FliE"; protein_id "WP_001274299.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2102261 2103919 . + . gene_id "ECDH10B_RS10640"; transcript_id ""; gbkey "Gene"; gene "fliF"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10640"; old_locus_tag "ECDH10B_2080"; -NC_010473.1 Protein Homology CDS 2102261 2103916 . + 0 gene_id "ECDH10B_RS10640"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fliF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416448.1"; locus_tag "ECDH10B_RS10640"; product "flagellar M-ring protein FliF"; protein_id "WP_000994427.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2102261 2102263 . + 0 gene_id "ECDH10B_RS10640"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fliF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416448.1"; locus_tag "ECDH10B_RS10640"; product "flagellar M-ring protein FliF"; protein_id "WP_000994427.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2103917 2103919 . + 0 gene_id "ECDH10B_RS10640"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fliF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416448.1"; locus_tag "ECDH10B_RS10640"; product "flagellar M-ring protein FliF"; protein_id "WP_000994427.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2103912 2104907 . + . gene_id "ECDH10B_RS10645"; transcript_id ""; gbkey "Gene"; gene "fliG"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10645"; old_locus_tag "ECDH10B_2081"; -NC_010473.1 Protein Homology CDS 2103912 2104904 . + 0 gene_id "ECDH10B_RS10645"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fliG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310705.1"; locus_tag "ECDH10B_RS10645"; product "flagellar motor switch protein FliG"; protein_id "WP_000067950.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2103912 2103914 . + 0 gene_id "ECDH10B_RS10645"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fliG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310705.1"; locus_tag "ECDH10B_RS10645"; product "flagellar motor switch protein FliG"; protein_id "WP_000067950.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2104905 2104907 . + 0 gene_id "ECDH10B_RS10645"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fliG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310705.1"; locus_tag "ECDH10B_RS10645"; product "flagellar motor switch protein FliG"; protein_id "WP_000067950.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2104900 2105586 . + . gene_id "ECDH10B_RS10650"; transcript_id ""; gbkey "Gene"; gene "fliH"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10650"; old_locus_tag "ECDH10B_2082"; -NC_010473.1 Protein Homology CDS 2104900 2105583 . + 0 gene_id "ECDH10B_RS10650"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fliH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416450.2"; locus_tag "ECDH10B_RS10650"; product "flagellar assembly protein FliH"; protein_id "WP_001282683.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2104900 2104902 . + 0 gene_id "ECDH10B_RS10650"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fliH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416450.2"; locus_tag "ECDH10B_RS10650"; product "flagellar assembly protein FliH"; protein_id "WP_001282683.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2105584 2105586 . + 0 gene_id "ECDH10B_RS10650"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fliH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416450.2"; locus_tag "ECDH10B_RS10650"; product "flagellar assembly protein FliH"; protein_id "WP_001282683.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2105586 2106959 . + . gene_id "ECDH10B_RS10655"; transcript_id ""; gbkey "Gene"; gene "fliI"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10655"; old_locus_tag "ECDH10B_2083"; -NC_010473.1 Protein Homology CDS 2105586 2106956 . + 0 gene_id "ECDH10B_RS10655"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fliI"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416451.1"; locus_tag "ECDH10B_RS10655"; product "flagellum-specific ATP synthase FliI"; protein_id "WP_000213294.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2105586 2105588 . + 0 gene_id "ECDH10B_RS10655"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fliI"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416451.1"; locus_tag "ECDH10B_RS10655"; product "flagellum-specific ATP synthase FliI"; protein_id "WP_000213294.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2106957 2106959 . + 0 gene_id "ECDH10B_RS10655"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fliI"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416451.1"; locus_tag "ECDH10B_RS10655"; product "flagellum-specific ATP synthase FliI"; protein_id "WP_000213294.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2106978 2107421 . + . gene_id "ECDH10B_RS10660"; transcript_id ""; gbkey "Gene"; gene "fliJ"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10660"; old_locus_tag "ECDH10B_2084"; -NC_010473.1 Protein Homology CDS 2106978 2107418 . + 0 gene_id "ECDH10B_RS10660"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fliJ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416452.1"; locus_tag "ECDH10B_RS10660"; product "flagella biosynthesis chaperone FliJ"; protein_id "WP_000807579.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2106978 2106980 . + 0 gene_id "ECDH10B_RS10660"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fliJ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416452.1"; locus_tag "ECDH10B_RS10660"; product "flagella biosynthesis chaperone FliJ"; protein_id "WP_000807579.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2107419 2107421 . + 0 gene_id "ECDH10B_RS10660"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fliJ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416452.1"; locus_tag "ECDH10B_RS10660"; product "flagella biosynthesis chaperone FliJ"; protein_id "WP_000807579.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2107418 2108545 . + . gene_id "ECDH10B_RS10665"; transcript_id ""; gbkey "Gene"; gene "fliK"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10665"; old_locus_tag "ECDH10B_2085"; -NC_010473.1 Protein Homology CDS 2107418 2108542 . + 0 gene_id "ECDH10B_RS10665"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fliK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416453.1"; locus_tag "ECDH10B_RS10665"; product "flagellar hook length control protein FliK"; protein_id "WP_000620071.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2107418 2107420 . + 0 gene_id "ECDH10B_RS10665"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fliK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416453.1"; locus_tag "ECDH10B_RS10665"; product "flagellar hook length control protein FliK"; protein_id "WP_000620071.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2108543 2108545 . + 0 gene_id "ECDH10B_RS10665"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fliK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416453.1"; locus_tag "ECDH10B_RS10665"; product "flagellar hook length control protein FliK"; protein_id "WP_000620071.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2108650 2109114 . + . gene_id "ECDH10B_RS10670"; transcript_id ""; gbkey "Gene"; gene "fliL"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10670"; old_locus_tag "ECDH10B_2086"; -NC_010473.1 Protein Homology CDS 2108650 2109111 . + 0 gene_id "ECDH10B_RS10670"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fliL"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310710.1"; locus_tag "ECDH10B_RS10670"; product "flagellar basal body-associated protein FliL"; protein_id "WP_000133106.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2108650 2108652 . + 0 gene_id "ECDH10B_RS10670"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fliL"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310710.1"; locus_tag "ECDH10B_RS10670"; product "flagellar basal body-associated protein FliL"; protein_id "WP_000133106.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2109112 2109114 . + 0 gene_id "ECDH10B_RS10670"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fliL"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310710.1"; locus_tag "ECDH10B_RS10670"; product "flagellar basal body-associated protein FliL"; protein_id "WP_000133106.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2109119 2110123 . + . gene_id "ECDH10B_RS10675"; transcript_id ""; gbkey "Gene"; gene "fliM"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10675"; old_locus_tag "ECDH10B_2087"; -NC_010473.1 Protein Homology CDS 2109119 2110120 . + 0 gene_id "ECDH10B_RS10675"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fliM"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005127760.1"; locus_tag "ECDH10B_RS10675"; product "flagellar motor switch protein FliM"; protein_id "WP_001350520.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2109119 2109121 . + 0 gene_id "ECDH10B_RS10675"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fliM"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005127760.1"; locus_tag "ECDH10B_RS10675"; product "flagellar motor switch protein FliM"; protein_id "WP_001350520.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2110121 2110123 . + 0 gene_id "ECDH10B_RS10675"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fliM"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005127760.1"; locus_tag "ECDH10B_RS10675"; product "flagellar motor switch protein FliM"; protein_id "WP_001350520.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2110120 2110533 . + . gene_id "ECDH10B_RS10680"; transcript_id ""; gbkey "Gene"; gene "fliN"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10680"; old_locus_tag "ECDH10B_2088"; -NC_010473.1 Protein Homology CDS 2110120 2110530 . + 0 gene_id "ECDH10B_RS10680"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fliN"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416456.1"; locus_tag "ECDH10B_RS10680"; product "flagellar motor switch protein FliN"; protein_id "WP_001282101.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2110120 2110122 . + 0 gene_id "ECDH10B_RS10680"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fliN"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416456.1"; locus_tag "ECDH10B_RS10680"; product "flagellar motor switch protein FliN"; protein_id "WP_001282101.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2110531 2110533 . + 0 gene_id "ECDH10B_RS10680"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fliN"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416456.1"; locus_tag "ECDH10B_RS10680"; product "flagellar motor switch protein FliN"; protein_id "WP_001282101.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2110536 2110901 . + . gene_id "ECDH10B_RS10685"; transcript_id ""; gbkey "Gene"; gene "fliO"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10685"; old_locus_tag "ECDH10B_2089"; -NC_010473.1 Protein Homology CDS 2110536 2110898 . + 0 gene_id "ECDH10B_RS10685"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fliO"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310713.2"; locus_tag "ECDH10B_RS10685"; product "flagellar type III secretion system protein FliO"; protein_id "WP_001302429.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2110536 2110538 . + 0 gene_id "ECDH10B_RS10685"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fliO"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310713.2"; locus_tag "ECDH10B_RS10685"; product "flagellar type III secretion system protein FliO"; protein_id "WP_001302429.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2110899 2110901 . + 0 gene_id "ECDH10B_RS10685"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fliO"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310713.2"; locus_tag "ECDH10B_RS10685"; product "flagellar type III secretion system protein FliO"; protein_id "WP_001302429.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2110901 2111638 . + . gene_id "ECDH10B_RS10690"; transcript_id ""; gbkey "Gene"; gene "fliP"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10690"; old_locus_tag "ECDH10B_2090"; -NC_010473.1 Protein Homology CDS 2110901 2111635 . + 0 gene_id "ECDH10B_RS10690"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fliP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310714.1"; locus_tag "ECDH10B_RS10690"; note "The bacterial flagellar biogenesis protein FliP forms a type III secretion system (T3SS)-type pore required for flagellar assembly."; product "flagellar type III secretion system pore protein FliP"; protein_id "WP_001253441.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2110901 2110903 . + 0 gene_id "ECDH10B_RS10690"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fliP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310714.1"; locus_tag "ECDH10B_RS10690"; note "The bacterial flagellar biogenesis protein FliP forms a type III secretion system (T3SS)-type pore required for flagellar assembly."; product "flagellar type III secretion system pore protein FliP"; protein_id "WP_001253441.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2111636 2111638 . + 0 gene_id "ECDH10B_RS10690"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fliP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310714.1"; locus_tag "ECDH10B_RS10690"; note "The bacterial flagellar biogenesis protein FliP forms a type III secretion system (T3SS)-type pore required for flagellar assembly."; product "flagellar type III secretion system pore protein FliP"; protein_id "WP_001253441.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2111648 2111917 . + . gene_id "ECDH10B_RS10695"; transcript_id ""; gbkey "Gene"; gene "fliQ"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10695"; old_locus_tag "ECDH10B_2091"; -NC_010473.1 Protein Homology CDS 2111648 2111914 . + 0 gene_id "ECDH10B_RS10695"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fliQ"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_013365797.1"; locus_tag "ECDH10B_RS10695"; product "flagellar biosynthesis protein FliQ"; protein_id "WP_000187358.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2111648 2111650 . + 0 gene_id "ECDH10B_RS10695"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fliQ"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_013365797.1"; locus_tag "ECDH10B_RS10695"; product "flagellar biosynthesis protein FliQ"; protein_id "WP_000187358.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2111915 2111917 . + 0 gene_id "ECDH10B_RS10695"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fliQ"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_013365797.1"; locus_tag "ECDH10B_RS10695"; product "flagellar biosynthesis protein FliQ"; protein_id "WP_000187358.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2111925 2112710 . + . gene_id "ECDH10B_RS10700"; transcript_id ""; gbkey "Gene"; gene "fliR"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10700"; old_locus_tag "ECDH10B_2092"; -NC_010473.1 Protein Homology CDS 2111925 2112707 . + 0 gene_id "ECDH10B_RS10700"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fliR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416460.1"; locus_tag "ECDH10B_RS10700"; product "flagellar type III secretion system protein FliR"; protein_id "WP_000942319.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2111925 2111927 . + 0 gene_id "ECDH10B_RS10700"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fliR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416460.1"; locus_tag "ECDH10B_RS10700"; product "flagellar type III secretion system protein FliR"; protein_id "WP_000942319.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2112708 2112710 . + 0 gene_id "ECDH10B_RS10700"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fliR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416460.1"; locus_tag "ECDH10B_RS10700"; product "flagellar type III secretion system protein FliR"; protein_id "WP_000942319.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2113000 2113623 . + . gene_id "ECDH10B_RS10705"; transcript_id ""; gbkey "Gene"; gene "rcsA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10705"; old_locus_tag "ECDH10B_2093"; -NC_010473.1 Protein Homology CDS 2113000 2113620 . + 0 gene_id "ECDH10B_RS10705"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rcsA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310717.1"; locus_tag "ECDH10B_RS10705"; product "transcriptional regulator RcsA"; protein_id "WP_000104001.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2113000 2113002 . + 0 gene_id "ECDH10B_RS10705"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rcsA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310717.1"; locus_tag "ECDH10B_RS10705"; product "transcriptional regulator RcsA"; protein_id "WP_000104001.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2113621 2113623 . + 0 gene_id "ECDH10B_RS10705"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rcsA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310717.1"; locus_tag "ECDH10B_RS10705"; product "transcriptional regulator RcsA"; protein_id "WP_000104001.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2113667 2113855 . - . gene_id "ECDH10B_RS10710"; transcript_id ""; gbkey "Gene"; gene "dsrB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10710"; old_locus_tag "ECDH10B_2094"; -NC_010473.1 Protein Homology CDS 2113670 2113855 . - 0 gene_id "ECDH10B_RS10710"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dsrB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310718.1"; locus_tag "ECDH10B_RS10710"; product "protein DsrB"; protein_id "WP_000867217.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2113853 2113855 . - 0 gene_id "ECDH10B_RS10710"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dsrB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310718.1"; locus_tag "ECDH10B_RS10710"; product "protein DsrB"; protein_id "WP_000867217.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2113667 2113669 . - 0 gene_id "ECDH10B_RS10710"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dsrB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310718.1"; locus_tag "ECDH10B_RS10710"; product "protein DsrB"; protein_id "WP_000867217.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2114018 2114245 . + . gene_id "ECDH10B_RS10715"; transcript_id ""; gbkey "Gene"; gene "yodD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10715"; old_locus_tag "ECDH10B_2095"; -NC_010473.1 Protein Homology CDS 2114018 2114242 . + 0 gene_id "ECDH10B_RS10715"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yodD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416463.4"; locus_tag "ECDH10B_RS10715"; product "peroxide/acid resistance protein YodD"; protein_id "WP_000844800.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2114018 2114020 . + 0 gene_id "ECDH10B_RS10715"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yodD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416463.4"; locus_tag "ECDH10B_RS10715"; product "peroxide/acid resistance protein YodD"; protein_id "WP_000844800.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2114243 2114245 . + 0 gene_id "ECDH10B_RS10715"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yodD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416463.4"; locus_tag "ECDH10B_RS10715"; product "peroxide/acid resistance protein YodD"; protein_id "WP_000844800.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2114543 2115358 . + . gene_id "ECDH10B_RS10720"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10720"; old_locus_tag "ECDH10B_2097"; -NC_010473.1 Protein Homology CDS 2114543 2115355 . + 0 gene_id "ECDH10B_RS10720"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416464.1"; locus_tag "ECDH10B_RS10720"; product "mannosyl-3-phosphoglycerate phosphatase-related protein"; protein_id "WP_000491520.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2114543 2114545 . + 0 gene_id "ECDH10B_RS10720"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416464.1"; locus_tag "ECDH10B_RS10720"; product "mannosyl-3-phosphoglycerate phosphatase-related protein"; protein_id "WP_000491520.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2115356 2115358 . + 0 gene_id "ECDH10B_RS10720"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416464.1"; locus_tag "ECDH10B_RS10720"; product "mannosyl-3-phosphoglycerate phosphatase-related protein"; protein_id "WP_000491520.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2115355 2117049 . - . gene_id "ECDH10B_RS10725"; transcript_id ""; gbkey "Gene"; gene "yedQ"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10725"; old_locus_tag "ECDH10B_2098"; -NC_010473.1 Protein Homology CDS 2115358 2117049 . - 0 gene_id "ECDH10B_RS10725"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yedQ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416465.2"; locus_tag "ECDH10B_RS10725"; product "cellulose biosynthesis regulator YedQ"; protein_id "WP_001350521.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2117047 2117049 . - 0 gene_id "ECDH10B_RS10725"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yedQ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416465.2"; locus_tag "ECDH10B_RS10725"; product "cellulose biosynthesis regulator YedQ"; protein_id "WP_001350521.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2115355 2115357 . - 0 gene_id "ECDH10B_RS10725"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yedQ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416465.2"; locus_tag "ECDH10B_RS10725"; product "cellulose biosynthesis regulator YedQ"; protein_id "WP_001350521.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2117220 2117402 . - . gene_id "ECDH10B_RS10730"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10730"; old_locus_tag "ECDH10B_2099"; -NC_010473.1 Protein Homology CDS 2117223 2117402 . - 0 gene_id "ECDH10B_RS10730"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310722.1"; locus_tag "ECDH10B_RS10730"; product "DUF2158 domain-containing protein"; protein_id "WP_000009307.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2117400 2117402 . - 0 gene_id "ECDH10B_RS10730"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310722.1"; locus_tag "ECDH10B_RS10730"; product "DUF2158 domain-containing protein"; protein_id "WP_000009307.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2117220 2117222 . - 0 gene_id "ECDH10B_RS10730"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310722.1"; locus_tag "ECDH10B_RS10730"; product "DUF2158 domain-containing protein"; protein_id "WP_000009307.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2117481 2118398 . - . gene_id "ECDH10B_RS10735"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10735"; old_locus_tag "ECDH10B_2100"; -NC_010473.1 Protein Homology CDS 2117484 2118398 . - 0 gene_id "ECDH10B_RS10735"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416467.1"; locus_tag "ECDH10B_RS10735"; product "DUF808 domain-containing protein"; protein_id "WP_000922686.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2118396 2118398 . - 0 gene_id "ECDH10B_RS10735"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416467.1"; locus_tag "ECDH10B_RS10735"; product "DUF808 domain-containing protein"; protein_id "WP_000922686.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2117481 2117483 . - 0 gene_id "ECDH10B_RS10735"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416467.1"; locus_tag "ECDH10B_RS10735"; product "DUF808 domain-containing protein"; protein_id "WP_000922686.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2118571 2119491 . + . gene_id "ECDH10B_RS10740"; transcript_id ""; gbkey "Gene"; gene "yedA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10740"; old_locus_tag "ECDH10B_2101"; -NC_010473.1 Protein Homology CDS 2118571 2119488 . + 0 gene_id "ECDH10B_RS10740"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yedA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310724.1"; locus_tag "ECDH10B_RS10740"; product "drug/metabolite exporter YedA"; protein_id "WP_001212226.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2118571 2118573 . + 0 gene_id "ECDH10B_RS10740"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yedA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310724.1"; locus_tag "ECDH10B_RS10740"; product "drug/metabolite exporter YedA"; protein_id "WP_001212226.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2119489 2119491 . + 0 gene_id "ECDH10B_RS10740"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yedA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310724.1"; locus_tag "ECDH10B_RS10740"; product "drug/metabolite exporter YedA"; protein_id "WP_001212226.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2119480 2119950 . - . gene_id "ECDH10B_RS10745"; transcript_id ""; gbkey "Gene"; gene "vsr"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10745"; old_locus_tag "ECDH10B_2102"; -NC_010473.1 Protein Homology CDS 2119483 2119950 . - 0 gene_id "ECDH10B_RS10745"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "vsr"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416469.1"; locus_tag "ECDH10B_RS10745"; product "VSPR family DNA mismatch endonuclease"; protein_id "WP_000786005.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2119948 2119950 . - 0 gene_id "ECDH10B_RS10745"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "vsr"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416469.1"; locus_tag "ECDH10B_RS10745"; product "VSPR family DNA mismatch endonuclease"; protein_id "WP_000786005.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2119480 2119482 . - 0 gene_id "ECDH10B_RS10745"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "vsr"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416469.1"; locus_tag "ECDH10B_RS10745"; product "VSPR family DNA mismatch endonuclease"; protein_id "WP_000786005.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2119931 2121349 . - . gene_id "ECDH10B_RS10750"; transcript_id ""; gbkey "Gene"; gene "dcm"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10750"; old_locus_tag "ECDH10B_2103"; -NC_010473.1 Protein Homology CDS 2119934 2121349 . - 0 gene_id "ECDH10B_RS10750"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dcm"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310726.1"; locus_tag "ECDH10B_RS10750"; product "DNA-cytosine methyltransferase"; protein_id "WP_001157239.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2121347 2121349 . - 0 gene_id "ECDH10B_RS10750"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dcm"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310726.1"; locus_tag "ECDH10B_RS10750"; product "DNA-cytosine methyltransferase"; protein_id "WP_001157239.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2119931 2119933 . - 0 gene_id "ECDH10B_RS10750"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dcm"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310726.1"; locus_tag "ECDH10B_RS10750"; product "DNA-cytosine methyltransferase"; protein_id "WP_001157239.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2121416 2122111 . - . gene_id "ECDH10B_RS10755"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10755"; old_locus_tag "ECDH10B_2104"; -NC_010473.1 Protein Homology CDS 2121419 2122111 . - 0 gene_id "ECDH10B_RS10755"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416471.1"; locus_tag "ECDH10B_RS10755"; product "phosphohydrolase"; protein_id "WP_000365562.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2122109 2122111 . - 0 gene_id "ECDH10B_RS10755"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416471.1"; locus_tag "ECDH10B_RS10755"; product "phosphohydrolase"; protein_id "WP_000365562.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2121416 2121418 . - 0 gene_id "ECDH10B_RS10755"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416471.1"; locus_tag "ECDH10B_RS10755"; product "phosphohydrolase"; protein_id "WP_000365562.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2122151 2122516 . - . gene_id "ECDH10B_RS10760"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10760"; old_locus_tag "ECDH10B_2105"; -NC_010473.1 Protein Homology CDS 2122154 2122516 . - 0 gene_id "ECDH10B_RS10760"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416472.2"; locus_tag "ECDH10B_RS10760"; product "hypothetical protein"; protein_id "WP_001313057.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2122514 2122516 . - 0 gene_id "ECDH10B_RS10760"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416472.2"; locus_tag "ECDH10B_RS10760"; product "hypothetical protein"; protein_id "WP_001313057.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2122151 2122153 . - 0 gene_id "ECDH10B_RS10760"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416472.2"; locus_tag "ECDH10B_RS10760"; product "hypothetical protein"; protein_id "WP_001313057.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2123083 2124275 . + . gene_id "ECDH10B_RS26035"; transcript_id ""; gbkey "Gene"; gene "ompC"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS26035"; pseudo "true"; -NC_010473.1 Protein Homology CDS 2123083 2124272 . + 0 gene_id "ECDH10B_RS26035"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ompC"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001080666.1"; locus_tag "ECDH10B_RS26035"; note "frameshifted; internal stop"; product "porin OmpC"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2123083 2123085 . + 0 gene_id "ECDH10B_RS26035"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ompC"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001080666.1"; locus_tag "ECDH10B_RS26035"; note "frameshifted; internal stop"; product "porin OmpC"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2124273 2124275 . + 0 gene_id "ECDH10B_RS26035"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ompC"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001080666.1"; locus_tag "ECDH10B_RS26035"; note "frameshifted; internal stop"; product "porin OmpC"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 2124867 2125718 . + . gene_id "ECDH10B_RS10780"; transcript_id ""; gbkey "Gene"; gene "hchA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10780"; old_locus_tag "ECDH10B_2110"; -NC_010473.1 Protein Homology CDS 2124867 2125715 . + 0 gene_id "ECDH10B_RS10780"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hchA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416476.1"; locus_tag "ECDH10B_RS10780"; product "protein deglycase HchA"; protein_id "WP_000218212.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2124867 2124869 . + 0 gene_id "ECDH10B_RS10780"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hchA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416476.1"; locus_tag "ECDH10B_RS10780"; product "protein deglycase HchA"; protein_id "WP_000218212.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2125716 2125718 . + 0 gene_id "ECDH10B_RS10780"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hchA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416476.1"; locus_tag "ECDH10B_RS10780"; product "protein deglycase HchA"; protein_id "WP_000218212.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2125826 2127184 . - . gene_id "ECDH10B_RS10785"; transcript_id ""; gbkey "Gene"; gene "hprS"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10785"; old_locus_tag "ECDH10B_2111"; -NC_010473.1 Protein Homology CDS 2125829 2127184 . - 0 gene_id "ECDH10B_RS10785"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hprS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416477.1"; locus_tag "ECDH10B_RS10785"; product "two-component system sensor histidine kinase HprS"; protein_id "WP_000826792.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2127182 2127184 . - 0 gene_id "ECDH10B_RS10785"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hprS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416477.1"; locus_tag "ECDH10B_RS10785"; product "two-component system sensor histidine kinase HprS"; protein_id "WP_000826792.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2125826 2125828 . - 0 gene_id "ECDH10B_RS10785"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hprS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416477.1"; locus_tag "ECDH10B_RS10785"; product "two-component system sensor histidine kinase HprS"; protein_id "WP_000826792.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2127184 2127855 . - . gene_id "ECDH10B_RS10790"; transcript_id ""; gbkey "Gene"; gene "hprR"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10790"; old_locus_tag "ECDH10B_2112"; -NC_010473.1 Protein Homology CDS 2127187 2127855 . - 0 gene_id "ECDH10B_RS10790"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hprR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416478.2"; locus_tag "ECDH10B_RS10790"; product "response regulator transcription factor HprR"; protein_id "WP_001395354.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2127853 2127855 . - 0 gene_id "ECDH10B_RS10790"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hprR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416478.2"; locus_tag "ECDH10B_RS10790"; product "response regulator transcription factor HprR"; protein_id "WP_001395354.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2127184 2127186 . - 0 gene_id "ECDH10B_RS10790"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hprR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416478.2"; locus_tag "ECDH10B_RS10790"; product "response regulator transcription factor HprR"; protein_id "WP_001395354.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2127988 2128401 . + . gene_id "ECDH10B_RS10795"; transcript_id ""; gbkey "Gene"; gene "hiuH"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10795"; old_locus_tag "ECDH10B_2113"; -NC_010473.1 Protein Homology CDS 2127988 2128398 . + 0 gene_id "ECDH10B_RS10795"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hiuH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416479.1"; locus_tag "ECDH10B_RS10795"; product "hydroxyisourate hydrolase"; protein_id "WP_000920120.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2127988 2127990 . + 0 gene_id "ECDH10B_RS10795"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hiuH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416479.1"; locus_tag "ECDH10B_RS10795"; product "hydroxyisourate hydrolase"; protein_id "WP_000920120.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2128399 2128401 . + 0 gene_id "ECDH10B_RS10795"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hiuH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416479.1"; locus_tag "ECDH10B_RS10795"; product "hydroxyisourate hydrolase"; protein_id "WP_000920120.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2128510 2129514 . + . gene_id "ECDH10B_RS10800"; transcript_id ""; gbkey "Gene"; gene "msrP"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10800"; -NC_010473.1 Protein Homology CDS 2128510 2129511 . + 0 gene_id "ECDH10B_RS10800"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "msrP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416480.1"; locus_tag "ECDH10B_RS10800"; product "protein-methionine-sulfoxide reductase catalytic subunit MsrP"; protein_id "WP_000740107.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2128510 2128512 . + 0 gene_id "ECDH10B_RS10800"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "msrP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416480.1"; locus_tag "ECDH10B_RS10800"; product "protein-methionine-sulfoxide reductase catalytic subunit MsrP"; protein_id "WP_000740107.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2129512 2129514 . + 0 gene_id "ECDH10B_RS10800"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "msrP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416480.1"; locus_tag "ECDH10B_RS10800"; product "protein-methionine-sulfoxide reductase catalytic subunit MsrP"; protein_id "WP_000740107.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2129515 2130150 . + . gene_id "ECDH10B_RS10805"; transcript_id ""; gbkey "Gene"; gene "msrQ"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10805"; old_locus_tag "ECDH10B_2115"; -NC_010473.1 Protein Homology CDS 2129515 2130147 . + 0 gene_id "ECDH10B_RS10805"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "msrQ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416481.1"; locus_tag "ECDH10B_RS10805"; product "protein-methionine-sulfoxide reductase heme-binding subunit MsrQ"; protein_id "WP_001240091.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2129515 2129517 . + 0 gene_id "ECDH10B_RS10805"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "msrQ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416481.1"; locus_tag "ECDH10B_RS10805"; product "protein-methionine-sulfoxide reductase heme-binding subunit MsrQ"; protein_id "WP_001240091.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2130148 2130150 . + 0 gene_id "ECDH10B_RS10805"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "msrQ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416481.1"; locus_tag "ECDH10B_RS10805"; product "protein-methionine-sulfoxide reductase heme-binding subunit MsrQ"; protein_id "WP_001240091.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2130407 2131057 . + . gene_id "ECDH10B_RS10810"; transcript_id ""; gbkey "Gene"; gene "zinT"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10810"; old_locus_tag "ECDH10B_2116"; -NC_010473.1 Protein Homology CDS 2130407 2131054 . + 0 gene_id "ECDH10B_RS10810"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "zinT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416482.1"; locus_tag "ECDH10B_RS10810"; product "metal-binding protein ZinT"; protein_id "WP_001007805.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2130407 2130409 . + 0 gene_id "ECDH10B_RS10810"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "zinT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416482.1"; locus_tag "ECDH10B_RS10810"; product "metal-binding protein ZinT"; protein_id "WP_001007805.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2131055 2131057 . + 0 gene_id "ECDH10B_RS10810"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "zinT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416482.1"; locus_tag "ECDH10B_RS10810"; product "metal-binding protein ZinT"; protein_id "WP_001007805.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2131400 2131930 . + . gene_id "ECDH10B_RS10815"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10815"; old_locus_tag "ECDH10B_2117"; -NC_010473.1 Protein Homology CDS 2131400 2131927 . + 0 gene_id "ECDH10B_RS10815"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416483.4"; locus_tag "ECDH10B_RS10815"; product "cytochrome b"; protein_id "WP_001079074.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2131400 2131402 . + 0 gene_id "ECDH10B_RS10815"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416483.4"; locus_tag "ECDH10B_RS10815"; product "cytochrome b"; protein_id "WP_001079074.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2131928 2131930 . + 0 gene_id "ECDH10B_RS10815"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416483.4"; locus_tag "ECDH10B_RS10815"; product "cytochrome b"; protein_id "WP_001079074.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2132500 2132589 . - . gene_id "ECDH10B_RS10825"; transcript_id ""; gbkey "Gene"; gene_biotype "tRNA"; locus_tag "ECDH10B_RS10825"; old_locus_tag "ECDH10B_2118"; -NC_010473.1 tRNAscan-SE exon 2132500 2132589 . - . gene_id "ECDH10B_RS10825"; transcript_id "ECDH10B_RS10825"; anticodon "(pos:complement(2132553..2132555))"; gbkey "tRNA"; inference "COORDINATES: profile:tRNAscan-SE:2.0.6"; locus_tag "ECDH10B_RS10825"; product "tRNA-Ser"; exon_number "1"; -NC_010473.1 RefSeq gene 2132683 2133480 . + . gene_id "ECDH10B_RS10830"; transcript_id ""; gbkey "Gene"; gene "mtfA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10830"; old_locus_tag "ECDH10B_2119"; -NC_010473.1 Protein Homology CDS 2132683 2133477 . + 0 gene_id "ECDH10B_RS10830"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mtfA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310801.2"; locus_tag "ECDH10B_RS10830"; product "DgsA anti-repressor MtfA"; protein_id "WP_001302302.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2132683 2132685 . + 0 gene_id "ECDH10B_RS10830"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mtfA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310801.2"; locus_tag "ECDH10B_RS10830"; product "DgsA anti-repressor MtfA"; protein_id "WP_001302302.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2133478 2133480 . + 0 gene_id "ECDH10B_RS10830"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mtfA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310801.2"; locus_tag "ECDH10B_RS10830"; product "DgsA anti-repressor MtfA"; protein_id "WP_001302302.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2133581 2133656 . + . gene_id "ECDH10B_RS10835"; transcript_id ""; gbkey "Gene"; gene_biotype "tRNA"; locus_tag "ECDH10B_RS10835"; old_locus_tag "ECDH10B_2120"; -NC_010473.1 tRNAscan-SE exon 2133581 2133656 . + . gene_id "ECDH10B_RS10835"; transcript_id "ECDH10B_RS10835"; anticodon "(pos:2133614..2133616)"; gbkey "tRNA"; inference "COORDINATES: profile:tRNAscan-SE:2.0.6"; locus_tag "ECDH10B_RS10835"; product "tRNA-Asn"; exon_number "1"; -NC_010473.1 RefSeq gene 2133970 2141046 . + . gene_id "ECDH10B_RS10840"; transcript_id ""; gbkey "Gene"; gene "yeeJ"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10840"; old_locus_tag "ECDH10B_2121"; -NC_010473.1 Protein Homology CDS 2133970 2141043 . + 0 gene_id "ECDH10B_RS10840"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yeeJ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416485.4"; locus_tag "ECDH10B_RS10840"; product "inverse autotransporter adhesin YeeJ"; protein_id "WP_010723107.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2133970 2133972 . + 0 gene_id "ECDH10B_RS10840"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yeeJ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416485.4"; locus_tag "ECDH10B_RS10840"; product "inverse autotransporter adhesin YeeJ"; protein_id "WP_010723107.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2141044 2141046 . + 0 gene_id "ECDH10B_RS10840"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yeeJ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416485.4"; locus_tag "ECDH10B_RS10840"; product "inverse autotransporter adhesin YeeJ"; protein_id "WP_010723107.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2141308 2142360 . - . gene_id "ECDH10B_RS10845"; transcript_id ""; gbkey "Gene"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS10845"; pseudo "true"; -NC_010473.1 Protein Homology CDS 2141311 2142360 . - 0 gene_id "ECDH10B_RS10845"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310804.1"; locus_tag "ECDH10B_RS10845"; note "internal stop"; product "glycosyltransferase family 9 protein"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2142358 2142360 . - 0 gene_id "ECDH10B_RS10845"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310804.1"; locus_tag "ECDH10B_RS10845"; note "internal stop"; product "glycosyltransferase family 9 protein"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2141308 2141310 . - 0 gene_id "ECDH10B_RS10845"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310804.1"; locus_tag "ECDH10B_RS10845"; note "internal stop"; product "glycosyltransferase family 9 protein"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 2142675 2143991 . + . gene_id "ECDH10B_RS10850"; transcript_id ""; gbkey "Gene"; gene "shiA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10850"; old_locus_tag "ECDH10B_2125"; -NC_010473.1 Protein Homology CDS 2142675 2143988 . + 0 gene_id "ECDH10B_RS10850"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "shiA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416488.1"; locus_tag "ECDH10B_RS10850"; product "shikimate transporter"; protein_id "WP_000378575.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2142675 2142677 . + 0 gene_id "ECDH10B_RS10850"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "shiA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416488.1"; locus_tag "ECDH10B_RS10850"; product "shikimate transporter"; protein_id "WP_000378575.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2143989 2143991 . + 0 gene_id "ECDH10B_RS10850"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "shiA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416488.1"; locus_tag "ECDH10B_RS10850"; product "shikimate transporter"; protein_id "WP_000378575.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2144093 2145547 . + . gene_id "ECDH10B_RS10855"; transcript_id ""; gbkey "Gene"; gene "amn"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10855"; old_locus_tag "ECDH10B_2126"; -NC_010473.1 Protein Homology CDS 2144093 2145544 . + 0 gene_id "ECDH10B_RS10855"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "amn"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310806.1"; locus_tag "ECDH10B_RS10855"; product "AMP nucleosidase"; protein_id "WP_001060244.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2144093 2144095 . + 0 gene_id "ECDH10B_RS10855"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "amn"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310806.1"; locus_tag "ECDH10B_RS10855"; product "AMP nucleosidase"; protein_id "WP_001060244.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2145545 2145547 . + 0 gene_id "ECDH10B_RS10855"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "amn"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310806.1"; locus_tag "ECDH10B_RS10855"; product "AMP nucleosidase"; protein_id "WP_001060244.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2145890 2146606 . + . gene_id "ECDH10B_RS10860"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10860"; old_locus_tag "ECDH10B_2127"; -NC_010473.1 Protein Homology CDS 2145890 2146603 . + 0 gene_id "ECDH10B_RS10860"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416490.1"; locus_tag "ECDH10B_RS10860"; product "YebC/PmpR family DNA-binding transcriptional regulator"; protein_id "WP_000532923.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2145890 2145892 . + 0 gene_id "ECDH10B_RS10860"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416490.1"; locus_tag "ECDH10B_RS10860"; product "YebC/PmpR family DNA-binding transcriptional regulator"; protein_id "WP_000532923.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2146604 2146606 . + 0 gene_id "ECDH10B_RS10860"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416490.1"; locus_tag "ECDH10B_RS10860"; product "YebC/PmpR family DNA-binding transcriptional regulator"; protein_id "WP_000532923.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2147059 2147134 . - . gene_id "ECDH10B_RS10865"; transcript_id ""; gbkey "Gene"; gene_biotype "tRNA"; locus_tag "ECDH10B_RS10865"; old_locus_tag "ECDH10B_2128"; -NC_010473.1 tRNAscan-SE exon 2147059 2147134 . - . gene_id "ECDH10B_RS10865"; transcript_id "ECDH10B_RS10865"; anticodon "(pos:complement(2147099..2147101))"; gbkey "tRNA"; inference "COORDINATES: profile:tRNAscan-SE:2.0.6"; locus_tag "ECDH10B_RS10865"; product "tRNA-Asn"; exon_number "1"; -NC_010473.1 RefSeq gene 2147235 2148878 . - . gene_id "ECDH10B_RS10870"; transcript_id ""; gbkey "Gene"; gene "yeeO"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10870"; old_locus_tag "ECDH10B_2129"; -NC_010473.1 Protein Homology CDS 2147238 2148878 . - 0 gene_id "ECDH10B_RS10870"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yeeO"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416491.3"; locus_tag "ECDH10B_RS10870"; product "toxic metabolite efflux MATE transporter YeeO"; protein_id "WP_000943916.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2148876 2148878 . - 0 gene_id "ECDH10B_RS10870"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yeeO"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416491.3"; locus_tag "ECDH10B_RS10870"; product "toxic metabolite efflux MATE transporter YeeO"; protein_id "WP_000943916.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2147235 2147237 . - 0 gene_id "ECDH10B_RS10870"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yeeO"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416491.3"; locus_tag "ECDH10B_RS10870"; product "toxic metabolite efflux MATE transporter YeeO"; protein_id "WP_000943916.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2148883 2148958 . + . gene_id "ECDH10B_RS10875"; transcript_id ""; gbkey "Gene"; gene_biotype "tRNA"; locus_tag "ECDH10B_RS10875"; old_locus_tag "ECDH10B_2130"; -NC_010473.1 tRNAscan-SE exon 2148883 2148958 . + . gene_id "ECDH10B_RS10875"; transcript_id "ECDH10B_RS10875"; anticodon "(pos:2148916..2148918)"; gbkey "tRNA"; inference "COORDINATES: profile:tRNAscan-SE:2.0.6"; locus_tag "ECDH10B_RS10875"; product "tRNA-Asn"; exon_number "1"; -NC_010473.1 RefSeq gene 2148996 2149946 . - . gene_id "ECDH10B_RS10880"; transcript_id ""; gbkey "Gene"; gene "cbl"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10880"; old_locus_tag "ECDH10B_2131"; -NC_010473.1 Protein Homology CDS 2148999 2149946 . - 0 gene_id "ECDH10B_RS10880"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cbl"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416492.1"; locus_tag "ECDH10B_RS10880"; product "HTH-type transcriptional regulator Cbl"; protein_id "WP_001011008.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2149944 2149946 . - 0 gene_id "ECDH10B_RS10880"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cbl"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416492.1"; locus_tag "ECDH10B_RS10880"; product "HTH-type transcriptional regulator Cbl"; protein_id "WP_001011008.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2148996 2148998 . - 0 gene_id "ECDH10B_RS10880"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cbl"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416492.1"; locus_tag "ECDH10B_RS10880"; product "HTH-type transcriptional regulator Cbl"; protein_id "WP_001011008.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2150048 2150965 . - . gene_id "ECDH10B_RS10885"; transcript_id ""; gbkey "Gene"; gene "nac"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10885"; old_locus_tag "ECDH10B_2132"; -NC_010473.1 Protein Homology CDS 2150051 2150965 . - 0 gene_id "ECDH10B_RS10885"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nac"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416493.1"; locus_tag "ECDH10B_RS10885"; product "nitrogen assimilation transcriptional regulator NAC"; protein_id "WP_001011462.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2150963 2150965 . - 0 gene_id "ECDH10B_RS10885"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nac"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416493.1"; locus_tag "ECDH10B_RS10885"; product "nitrogen assimilation transcriptional regulator NAC"; protein_id "WP_001011462.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2150048 2150050 . - 0 gene_id "ECDH10B_RS10885"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nac"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416493.1"; locus_tag "ECDH10B_RS10885"; product "nitrogen assimilation transcriptional regulator NAC"; protein_id "WP_001011462.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2151292 2151367 . + . gene_id "ECDH10B_RS10890"; transcript_id ""; gbkey "Gene"; gene_biotype "tRNA"; locus_tag "ECDH10B_RS10890"; old_locus_tag "ECDH10B_2133"; -NC_010473.1 tRNAscan-SE exon 2151292 2151367 . + . gene_id "ECDH10B_RS10890"; transcript_id "ECDH10B_RS10890"; anticodon "(pos:2151325..2151327)"; gbkey "tRNA"; inference "COORDINATES: profile:tRNAscan-SE:2.0.6"; locus_tag "ECDH10B_RS10890"; product "tRNA-Asn"; exon_number "1"; -NC_010473.1 RefSeq gene 2151423 2152358 . - . gene_id "ECDH10B_RS10895"; transcript_id ""; gbkey "Gene"; gene "ldtA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10895"; old_locus_tag "ECDH10B_2134"; -NC_010473.1 Protein Homology CDS 2151426 2152358 . - 0 gene_id "ECDH10B_RS10895"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ldtA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310812.2"; locus_tag "ECDH10B_RS10895"; product "L,D-transpeptidase"; protein_id "WP_000986321.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2152356 2152358 . - 0 gene_id "ECDH10B_RS10895"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ldtA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310812.2"; locus_tag "ECDH10B_RS10895"; product "L,D-transpeptidase"; protein_id "WP_000986321.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2151423 2151425 . - 0 gene_id "ECDH10B_RS10895"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ldtA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310812.2"; locus_tag "ECDH10B_RS10895"; product "L,D-transpeptidase"; protein_id "WP_000986321.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2152420 2153499 . - . gene_id "ECDH10B_RS10900"; transcript_id ""; gbkey "Gene"; gene "cobT"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10900"; old_locus_tag "ECDH10B_2135"; -NC_010473.1 Protein Homology CDS 2152423 2153499 . - 0 gene_id "ECDH10B_RS10900"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cobT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416495.1"; locus_tag "ECDH10B_RS10900"; product "nicotinate-nucleotide--dimethylbenzimidazole phosphoribosyltransferase"; protein_id "WP_001166160.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2153497 2153499 . - 0 gene_id "ECDH10B_RS10900"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cobT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416495.1"; locus_tag "ECDH10B_RS10900"; product "nicotinate-nucleotide--dimethylbenzimidazole phosphoribosyltransferase"; protein_id "WP_001166160.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2152420 2152422 . - 0 gene_id "ECDH10B_RS10900"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cobT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416495.1"; locus_tag "ECDH10B_RS10900"; product "nicotinate-nucleotide--dimethylbenzimidazole phosphoribosyltransferase"; protein_id "WP_001166160.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2153511 2154254 . - . gene_id "ECDH10B_RS10905"; transcript_id ""; gbkey "Gene"; gene "cobS"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10905"; old_locus_tag "ECDH10B_2136"; -NC_010473.1 Protein Homology CDS 2153514 2154254 . - 0 gene_id "ECDH10B_RS10905"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cobS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416496.1"; locus_tag "ECDH10B_RS10905"; product "adenosylcobinamide-GDP ribazoletransferase"; protein_id "WP_001326708.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2154252 2154254 . - 0 gene_id "ECDH10B_RS10905"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cobS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416496.1"; locus_tag "ECDH10B_RS10905"; product "adenosylcobinamide-GDP ribazoletransferase"; protein_id "WP_001326708.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2153511 2153513 . - 0 gene_id "ECDH10B_RS10905"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cobS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416496.1"; locus_tag "ECDH10B_RS10905"; product "adenosylcobinamide-GDP ribazoletransferase"; protein_id "WP_001326708.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2154251 2154796 . - . gene_id "ECDH10B_RS10910"; transcript_id ""; gbkey "Gene"; gene "cobU"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10910"; old_locus_tag "ECDH10B_2137"; -NC_010473.1 Protein Homology CDS 2154254 2154796 . - 0 gene_id "ECDH10B_RS10910"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cobU"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416497.1"; locus_tag "ECDH10B_RS10910"; product "bifunctional adenosylcobinamide kinase/adenosylcobinamide-phosphate guanylyltransferase"; protein_id "WP_000973176.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2154794 2154796 . - 0 gene_id "ECDH10B_RS10910"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cobU"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416497.1"; locus_tag "ECDH10B_RS10910"; product "bifunctional adenosylcobinamide kinase/adenosylcobinamide-phosphate guanylyltransferase"; protein_id "WP_000973176.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2154251 2154253 . - 0 gene_id "ECDH10B_RS10910"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cobU"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416497.1"; locus_tag "ECDH10B_RS10910"; product "bifunctional adenosylcobinamide kinase/adenosylcobinamide-phosphate guanylyltransferase"; protein_id "WP_000973176.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2155337 2156353 . - . gene_id "ECDH10B_RS10920"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10920"; old_locus_tag "ECDH10B_2138"; -NC_010473.1 Protein Homology CDS 2155340 2156353 . - 0 gene_id "ECDH10B_RS10920"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416498.1"; locus_tag "ECDH10B_RS10920"; product "IS5-like element IS5 family transposase"; protein_id "WP_001310555.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2156351 2156353 . - 0 gene_id "ECDH10B_RS10920"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416498.1"; locus_tag "ECDH10B_RS10920"; product "IS5-like element IS5 family transposase"; protein_id "WP_001310555.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2155337 2155339 . - 0 gene_id "ECDH10B_RS10920"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416498.1"; locus_tag "ECDH10B_RS10920"; product "IS5-like element IS5 family transposase"; protein_id "WP_001310555.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2157667 2157972 . + . gene_id "ECDH10B_RS24350"; transcript_id ""; gbkey "Gene"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS24350"; partial "true"; pseudo "true"; -NC_010473.1 Protein Homology CDS 2157667 2157969 . + 0 gene_id "ECDH10B_RS24350"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310819.1"; locus_tag "ECDH10B_RS24350"; note "incomplete; partial in the middle of a contig; missing C-terminus"; partial "true"; product "TonB-dependent receptor plug domain-containing protein"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2157667 2157669 . + 0 gene_id "ECDH10B_RS24350"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310819.1"; locus_tag "ECDH10B_RS24350"; note "incomplete; partial in the middle of a contig; missing C-terminus"; partial "true"; product "TonB-dependent receptor plug domain-containing protein"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2157970 2157972 . + 0 gene_id "ECDH10B_RS24350"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310819.1"; locus_tag "ECDH10B_RS24350"; note "incomplete; partial in the middle of a contig; missing C-terminus"; partial "true"; product "TonB-dependent receptor plug domain-containing protein"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 2157984 2159212 . - . gene_id "ECDH10B_RS10930"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10930"; old_locus_tag "ECDH10B_2141"; -NC_010473.1 Protein Homology CDS 2158897 2159212 . - 0 gene_id "ECDH10B_RS10930"; transcript_id "unknown_transcript_1"; exception "ribosomal slippage"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_086558215.1"; locus_tag "ECDH10B_RS10930"; note "programmed frameshift"; product "IS3-like element IS2 family transposase"; protein_id "WP_088895425.1"; transl_table "11"; -NC_010473.1 Protein Homology CDS 2157987 2158897 . - 0 gene_id "ECDH10B_RS10930"; transcript_id "unknown_transcript_1"; exception "ribosomal slippage"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_086558215.1"; locus_tag "ECDH10B_RS10930"; note "programmed frameshift"; product "IS3-like element IS2 family transposase"; protein_id "WP_088895425.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2159210 2159212 . - 0 gene_id "ECDH10B_RS10930"; transcript_id "unknown_transcript_1"; exception "ribosomal slippage"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_086558215.1"; locus_tag "ECDH10B_RS10930"; note "programmed frameshift"; product "IS3-like element IS2 family transposase"; protein_id "WP_088895425.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2157984 2157986 . - 0 gene_id "ECDH10B_RS10930"; transcript_id "unknown_transcript_1"; exception "ribosomal slippage"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_086558215.1"; locus_tag "ECDH10B_RS10930"; note "programmed frameshift"; product "IS3-like element IS2 family transposase"; protein_id "WP_088895425.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2159306 2159503 . + . gene_id "ECDH10B_RS10940"; transcript_id ""; gbkey "Gene"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS10940"; partial "true"; pseudo "true"; -NC_010473.1 Protein Homology CDS 2159306 2159500 . + 0 gene_id "ECDH10B_RS10940"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310819.1"; locus_tag "ECDH10B_RS10940"; note "incomplete; partial in the middle of a contig; missing N-terminus and C-terminus"; partial "true"; product "TonB-dependent receptor plug domain-containing protein"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2159306 2159308 . + 0 gene_id "ECDH10B_RS10940"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310819.1"; locus_tag "ECDH10B_RS10940"; note "incomplete; partial in the middle of a contig; missing N-terminus and C-terminus"; partial "true"; product "TonB-dependent receptor plug domain-containing protein"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2159501 2159503 . + 0 gene_id "ECDH10B_RS10940"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310819.1"; locus_tag "ECDH10B_RS10940"; note "incomplete; partial in the middle of a contig; missing N-terminus and C-terminus"; partial "true"; product "TonB-dependent receptor plug domain-containing protein"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 2159533 2160243 . + . gene_id "ECDH10B_RS10945"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10945"; -NC_010473.1 Protein Homology CDS 2159533 2160240 . + 0 gene_id "ECDH10B_RS10945"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_014639038.1"; locus_tag "ECDH10B_RS10945"; product "GTPase family protein"; protein_id "WP_014639038.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2159533 2159535 . + 0 gene_id "ECDH10B_RS10945"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_014639038.1"; locus_tag "ECDH10B_RS10945"; product "GTPase family protein"; protein_id "WP_014639038.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2160241 2160243 . + 0 gene_id "ECDH10B_RS10945"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_014639038.1"; locus_tag "ECDH10B_RS10945"; product "GTPase family protein"; protein_id "WP_014639038.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2160571 2163690 . + . gene_id "ECDH10B_RS10950"; transcript_id ""; gbkey "Gene"; gene "ag43"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10950"; old_locus_tag "ECDH10B_2146"; -NC_010473.1 Protein Homology CDS 2160571 2163687 . + 0 gene_id "ECDH10B_RS10950"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ag43"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026164.1"; locus_tag "ECDH10B_RS10950"; product "autotransporter adhesin Ag43"; protein_id "WP_000820410.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2160571 2160573 . + 0 gene_id "ECDH10B_RS10950"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ag43"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026164.1"; locus_tag "ECDH10B_RS10950"; product "autotransporter adhesin Ag43"; protein_id "WP_000820410.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2163688 2163690 . + 0 gene_id "ECDH10B_RS10950"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ag43"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026164.1"; locus_tag "ECDH10B_RS10950"; product "autotransporter adhesin Ag43"; protein_id "WP_000820410.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2163811 2165343 . + . gene_id "ECDH10B_RS10955"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10955"; old_locus_tag "ECDH10B_2147"; -NC_010473.1 Protein Homology CDS 2163811 2165340 . + 0 gene_id "ECDH10B_RS10955"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416505.2"; locus_tag "ECDH10B_RS10955"; product "hypothetical protein"; protein_id "WP_001350525.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2163811 2163813 . + 0 gene_id "ECDH10B_RS10955"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416505.2"; locus_tag "ECDH10B_RS10955"; product "hypothetical protein"; protein_id "WP_001350525.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2165341 2165343 . + 0 gene_id "ECDH10B_RS10955"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416505.2"; locus_tag "ECDH10B_RS10955"; product "hypothetical protein"; protein_id "WP_001350525.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2165340 2165786 . + . gene_id "ECDH10B_RS25580"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS25580"; old_locus_tag "ECDH10B_2148"; -NC_010473.1 Protein Homology CDS 2165340 2165783 . + 0 gene_id "ECDH10B_RS25580"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416506.1"; locus_tag "ECDH10B_RS25580"; product "RadC family protein"; protein_id "WP_000187523.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2165340 2165342 . + 0 gene_id "ECDH10B_RS25580"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416506.1"; locus_tag "ECDH10B_RS25580"; product "RadC family protein"; protein_id "WP_000187523.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2165784 2165786 . + 0 gene_id "ECDH10B_RS25580"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416506.1"; locus_tag "ECDH10B_RS25580"; product "RadC family protein"; protein_id "WP_000187523.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2165849 2166070 . + . gene_id "ECDH10B_RS10965"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10965"; old_locus_tag "ECDH10B_2149"; -NC_010473.1 Protein Homology CDS 2165849 2166067 . + 0 gene_id "ECDH10B_RS10965"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310831.1"; locus_tag "ECDH10B_RS10965"; product "DUF987 domain-containing protein"; protein_id "WP_000692323.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2165849 2165851 . + 0 gene_id "ECDH10B_RS10965"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310831.1"; locus_tag "ECDH10B_RS10965"; product "DUF987 domain-containing protein"; protein_id "WP_000692323.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2166068 2166070 . + 0 gene_id "ECDH10B_RS10965"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310831.1"; locus_tag "ECDH10B_RS10965"; product "DUF987 domain-containing protein"; protein_id "WP_000692323.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2166144 2166512 . + . gene_id "ECDH10B_RS10970"; transcript_id ""; gbkey "Gene"; gene "cbtA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10970"; old_locus_tag "ECDH10B_2150"; -NC_010473.1 Protein Homology CDS 2166144 2166509 . + 0 gene_id "ECDH10B_RS10970"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cbtA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416508.1"; locus_tag "ECDH10B_RS10970"; product "type IV toxin-antitoxin system toxin CbtA"; protein_id "WP_001285584.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2166144 2166146 . + 0 gene_id "ECDH10B_RS10970"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cbtA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416508.1"; locus_tag "ECDH10B_RS10970"; product "type IV toxin-antitoxin system toxin CbtA"; protein_id "WP_001285584.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2166510 2166512 . + 0 gene_id "ECDH10B_RS10970"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cbtA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416508.1"; locus_tag "ECDH10B_RS10970"; product "type IV toxin-antitoxin system toxin CbtA"; protein_id "WP_001285584.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2166601 2166975 . + . gene_id "ECDH10B_RS10975"; transcript_id ""; gbkey "Gene"; gene "cbtA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10975"; old_locus_tag "ECDH10B_2151"; -NC_010473.1 Protein Homology CDS 2166601 2166972 . + 0 gene_id "ECDH10B_RS10975"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cbtA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416509.1"; locus_tag "ECDH10B_RS10975"; product "type IV toxin-antitoxin system toxin CbtA"; protein_id "WP_000854814.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2166601 2166603 . + 0 gene_id "ECDH10B_RS10975"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cbtA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416509.1"; locus_tag "ECDH10B_RS10975"; product "type IV toxin-antitoxin system toxin CbtA"; protein_id "WP_000854814.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2166973 2166975 . + 0 gene_id "ECDH10B_RS10975"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cbtA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416509.1"; locus_tag "ECDH10B_RS10975"; product "type IV toxin-antitoxin system toxin CbtA"; protein_id "WP_000854814.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2166972 2167166 . + . gene_id "ECDH10B_RS10980"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10980"; old_locus_tag "ECDH10B_2152"; -NC_010473.1 Protein Homology CDS 2166972 2167163 . + 0 gene_id "ECDH10B_RS10980"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310834.2"; locus_tag "ECDH10B_RS10980"; product "hypothetical protein"; protein_id "WP_000988600.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2166972 2166974 . + 0 gene_id "ECDH10B_RS10980"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310834.2"; locus_tag "ECDH10B_RS10980"; product "hypothetical protein"; protein_id "WP_000988600.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2167164 2167166 . + 0 gene_id "ECDH10B_RS10980"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310834.2"; locus_tag "ECDH10B_RS10980"; product "hypothetical protein"; protein_id "WP_000988600.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2167179 2167292 . + . gene_id "ECDH10B_RS26210"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS26210"; -NC_010473.1 Protein Homology CDS 2167179 2167289 . + 0 gene_id "ECDH10B_RS26210"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001161660.1"; locus_tag "ECDH10B_RS26210"; product "DUF957 domain-containing protein"; protein_id "WP_001161660.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2167179 2167181 . + 0 gene_id "ECDH10B_RS26210"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001161660.1"; locus_tag "ECDH10B_RS26210"; product "DUF957 domain-containing protein"; protein_id "WP_001161660.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2167290 2167292 . + 0 gene_id "ECDH10B_RS26210"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001161660.1"; locus_tag "ECDH10B_RS26210"; product "DUF957 domain-containing protein"; protein_id "WP_001161660.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2167581 2167709 . - . gene_id "ECDH10B_RS24360"; transcript_id ""; gbkey "Gene"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS24360"; partial "true"; pseudo "true"; -NC_010473.1 Protein Homology CDS 2167584 2167709 . - 0 gene_id "ECDH10B_RS24360"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000080164.1"; locus_tag "ECDH10B_RS24360"; note "incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "transposase domain-containing protein"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2167707 2167709 . - 0 gene_id "ECDH10B_RS24360"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000080164.1"; locus_tag "ECDH10B_RS24360"; note "incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "transposase domain-containing protein"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2167581 2167583 . - 0 gene_id "ECDH10B_RS24360"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000080164.1"; locus_tag "ECDH10B_RS24360"; note "incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "transposase domain-containing protein"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 2167781 2167963 . + . gene_id "ECDH10B_RS10990"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10990"; -NC_010473.1 Protein Homology CDS 2167781 2167960 . + 0 gene_id "ECDH10B_RS10990"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001296208.1"; locus_tag "ECDH10B_RS10990"; product "hypothetical protein"; protein_id "WP_001016348.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2167781 2167783 . + 0 gene_id "ECDH10B_RS10990"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001296208.1"; locus_tag "ECDH10B_RS10990"; product "hypothetical protein"; protein_id "WP_001016348.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2167961 2167963 . + 0 gene_id "ECDH10B_RS10990"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001296208.1"; locus_tag "ECDH10B_RS10990"; product "hypothetical protein"; protein_id "WP_001016348.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2168064 2168393 . - . gene_id "ECDH10B_RS10995"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS10995"; old_locus_tag "ECDH10B_2154"; -NC_010473.1 Protein Homology CDS 2168067 2168393 . - 0 gene_id "ECDH10B_RS10995"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310836.2"; locus_tag "ECDH10B_RS10995"; product "DUF496 family protein"; protein_id "WP_000450409.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2168391 2168393 . - 0 gene_id "ECDH10B_RS10995"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310836.2"; locus_tag "ECDH10B_RS10995"; product "DUF496 family protein"; protein_id "WP_000450409.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2168064 2168066 . - 0 gene_id "ECDH10B_RS10995"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310836.2"; locus_tag "ECDH10B_RS10995"; product "DUF496 family protein"; protein_id "WP_000450409.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2168565 2169623 . - . gene_id "ECDH10B_RS11000"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11000"; old_locus_tag "ECDH10B_2155"; -NC_010473.1 Protein Homology CDS 2168568 2169623 . - 0 gene_id "ECDH10B_RS11000"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416512.1"; locus_tag "ECDH10B_RS11000"; product "FUSC family protein"; protein_id "WP_001200891.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2169621 2169623 . - 0 gene_id "ECDH10B_RS11000"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416512.1"; locus_tag "ECDH10B_RS11000"; product "FUSC family protein"; protein_id "WP_001200891.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2168565 2168567 . - 0 gene_id "ECDH10B_RS11000"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416512.1"; locus_tag "ECDH10B_RS11000"; product "FUSC family protein"; protein_id "WP_001200891.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2169821 2170294 . - . gene_id "ECDH10B_RS11005"; transcript_id ""; gbkey "Gene"; gene "sbmC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11005"; old_locus_tag "ECDH10B_2156"; -NC_010473.1 Protein Homology CDS 2169824 2170294 . - 0 gene_id "ECDH10B_RS11005"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sbmC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416513.1"; locus_tag "ECDH10B_RS11005"; product "DNA gyrase inhibitor SbmC"; protein_id "WP_001105415.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2170292 2170294 . - 0 gene_id "ECDH10B_RS11005"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sbmC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416513.1"; locus_tag "ECDH10B_RS11005"; product "DNA gyrase inhibitor SbmC"; protein_id "WP_001105415.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2169821 2169823 . - 0 gene_id "ECDH10B_RS11005"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sbmC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416513.1"; locus_tag "ECDH10B_RS11005"; product "DNA gyrase inhibitor SbmC"; protein_id "WP_001105415.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2170413 2171579 . - . gene_id "ECDH10B_RS11010"; transcript_id ""; gbkey "Gene"; gene "dacD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11010"; old_locus_tag "ECDH10B_2157"; -NC_010473.1 Protein Homology CDS 2170416 2171579 . - 0 gene_id "ECDH10B_RS11010"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dacD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416514.4"; locus_tag "ECDH10B_RS11010"; product "serine-type D-Ala-D-Ala carboxypeptidase DacD"; protein_id "WP_000830156.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2171577 2171579 . - 0 gene_id "ECDH10B_RS11010"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dacD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416514.4"; locus_tag "ECDH10B_RS11010"; product "serine-type D-Ala-D-Ala carboxypeptidase DacD"; protein_id "WP_000830156.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2170413 2170415 . - 0 gene_id "ECDH10B_RS11010"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dacD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416514.4"; locus_tag "ECDH10B_RS11010"; product "serine-type D-Ala-D-Ala carboxypeptidase DacD"; protein_id "WP_000830156.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2171788 2173215 . + . gene_id "ECDH10B_RS11015"; transcript_id ""; gbkey "Gene"; gene "sbcB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11015"; old_locus_tag "ECDH10B_2158"; -NC_010473.1 Protein Homology CDS 2171788 2173212 . + 0 gene_id "ECDH10B_RS11015"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sbcB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416515.1"; locus_tag "ECDH10B_RS11015"; product "exodeoxyribonuclease I"; protein_id "WP_000980589.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2171788 2171790 . + 0 gene_id "ECDH10B_RS11015"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sbcB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416515.1"; locus_tag "ECDH10B_RS11015"; product "exodeoxyribonuclease I"; protein_id "WP_000980589.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2173213 2173215 . + 0 gene_id "ECDH10B_RS11015"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sbcB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416515.1"; locus_tag "ECDH10B_RS11015"; product "exodeoxyribonuclease I"; protein_id "WP_000980589.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2173258 2173485 . - . gene_id "ECDH10B_RS11020"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11020"; old_locus_tag "ECDH10B_2159"; -NC_010473.1 Protein Homology CDS 2173261 2173485 . - 0 gene_id "ECDH10B_RS11020"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416516.1"; locus_tag "ECDH10B_RS11020"; product "sulfurtransferase TusA"; protein_id "WP_000234896.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2173483 2173485 . - 0 gene_id "ECDH10B_RS11020"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416516.1"; locus_tag "ECDH10B_RS11020"; product "sulfurtransferase TusA"; protein_id "WP_000234896.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2173258 2173260 . - 0 gene_id "ECDH10B_RS11020"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416516.1"; locus_tag "ECDH10B_RS11020"; product "sulfurtransferase TusA"; protein_id "WP_000234896.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2173499 2174557 . - . gene_id "ECDH10B_RS11025"; transcript_id ""; gbkey "Gene"; gene "yeeE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11025"; old_locus_tag "ECDH10B_2160"; -NC_010473.1 Protein Homology CDS 2173502 2174557 . - 0 gene_id "ECDH10B_RS11025"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yeeE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416517.1"; locus_tag "ECDH10B_RS11025"; product "transport protein YeeE"; protein_id "WP_000492339.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2174555 2174557 . - 0 gene_id "ECDH10B_RS11025"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yeeE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416517.1"; locus_tag "ECDH10B_RS11025"; product "transport protein YeeE"; protein_id "WP_000492339.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2173499 2173501 . - 0 gene_id "ECDH10B_RS11025"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yeeE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416517.1"; locus_tag "ECDH10B_RS11025"; product "transport protein YeeE"; protein_id "WP_000492339.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2174736 2176094 . - . gene_id "ECDH10B_RS11030"; transcript_id ""; gbkey "Gene"; gene "plaP"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11030"; old_locus_tag "ECDH10B_2161"; -NC_010473.1 Protein Homology CDS 2174739 2176094 . - 0 gene_id "ECDH10B_RS11030"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "plaP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416518.2"; locus_tag "ECDH10B_RS11030"; product "putrescine/proton symporter PlaP"; protein_id "WP_000019197.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2176092 2176094 . - 0 gene_id "ECDH10B_RS11030"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "plaP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416518.2"; locus_tag "ECDH10B_RS11030"; product "putrescine/proton symporter PlaP"; protein_id "WP_000019197.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2174736 2174738 . - 0 gene_id "ECDH10B_RS11030"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "plaP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416518.2"; locus_tag "ECDH10B_RS11030"; product "putrescine/proton symporter PlaP"; protein_id "WP_000019197.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2176084 2176146 . - . gene_id "ECDH10B_RS26040"; transcript_id ""; gbkey "Gene"; gene "yoeI"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS26040"; -NC_010473.1 Protein Homology CDS 2176087 2176146 . - 0 gene_id "ECDH10B_RS26040"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yoeI"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_002791246.1"; locus_tag "ECDH10B_RS26040"; product "membrane protein YoeI"; protein_id "WP_010723108.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2176144 2176146 . - 0 gene_id "ECDH10B_RS26040"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yoeI"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_002791246.1"; locus_tag "ECDH10B_RS26040"; product "membrane protein YoeI"; protein_id "WP_010723108.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2176084 2176086 . - 0 gene_id "ECDH10B_RS26040"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yoeI"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_002791246.1"; locus_tag "ECDH10B_RS26040"; product "membrane protein YoeI"; protein_id "WP_010723108.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2176361 2177290 . - . gene_id "ECDH10B_RS11035"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11035"; old_locus_tag "ECDH10B_2162"; -NC_010473.1 Protein Homology CDS 2176364 2177290 . - 0 gene_id "ECDH10B_RS11035"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416519.4"; locus_tag "ECDH10B_RS11035"; product "LysR family transcriptional regulator"; protein_id "WP_000803351.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2177288 2177290 . - 0 gene_id "ECDH10B_RS11035"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416519.4"; locus_tag "ECDH10B_RS11035"; product "LysR family transcriptional regulator"; protein_id "WP_000803351.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2176361 2176363 . - 0 gene_id "ECDH10B_RS11035"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416519.4"; locus_tag "ECDH10B_RS11035"; product "LysR family transcriptional regulator"; protein_id "WP_000803351.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2177336 2178160 . - . gene_id "ECDH10B_RS11040"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11040"; old_locus_tag "ECDH10B_2163"; -NC_010473.1 Protein Homology CDS 2177339 2178160 . - 0 gene_id "ECDH10B_RS11040"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310845.1"; locus_tag "ECDH10B_RS11040"; product "SDR family oxidoreductase"; protein_id "WP_000754737.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2178158 2178160 . - 0 gene_id "ECDH10B_RS11040"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310845.1"; locus_tag "ECDH10B_RS11040"; product "SDR family oxidoreductase"; protein_id "WP_000754737.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2177336 2177338 . - 0 gene_id "ECDH10B_RS11040"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310845.1"; locus_tag "ECDH10B_RS11040"; product "SDR family oxidoreductase"; protein_id "WP_000754737.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2178243 2178497 . - . gene_id "ECDH10B_RS11045"; transcript_id ""; gbkey "Gene"; gene "yoeB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11045"; old_locus_tag "ECDH10B_2164"; -NC_010473.1 Protein Homology CDS 2178246 2178497 . - 0 gene_id "ECDH10B_RS11045"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yoeB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_707909.1"; locus_tag "ECDH10B_RS11045"; product "type II toxin-antitoxin system mRNA interferase toxin YoeB"; protein_id "WP_000767829.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2178495 2178497 . - 0 gene_id "ECDH10B_RS11045"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yoeB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_707909.1"; locus_tag "ECDH10B_RS11045"; product "type II toxin-antitoxin system mRNA interferase toxin YoeB"; protein_id "WP_000767829.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2178243 2178245 . - 0 gene_id "ECDH10B_RS11045"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yoeB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_707909.1"; locus_tag "ECDH10B_RS11045"; product "type II toxin-antitoxin system mRNA interferase toxin YoeB"; protein_id "WP_000767829.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2178494 2178745 . - . gene_id "ECDH10B_RS11050"; transcript_id ""; gbkey "Gene"; gene "yefM"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11050"; old_locus_tag "ECDH10B_2165"; -NC_010473.1 Protein Homology CDS 2178497 2178745 . - 0 gene_id "ECDH10B_RS11050"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yefM"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_707912.1"; locus_tag "ECDH10B_RS11050"; product "YoeB-YefM toxin-antitoxin system antitoxin YefM"; protein_id "WP_001259255.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2178743 2178745 . - 0 gene_id "ECDH10B_RS11050"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yefM"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_707912.1"; locus_tag "ECDH10B_RS11050"; product "YoeB-YefM toxin-antitoxin system antitoxin YefM"; protein_id "WP_001259255.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2178494 2178496 . - 0 gene_id "ECDH10B_RS11050"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yefM"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_707912.1"; locus_tag "ECDH10B_RS11050"; product "YoeB-YefM toxin-antitoxin system antitoxin YefM"; protein_id "WP_001259255.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2179028 2179078 . + . gene_id "ECDH10B_RS24365"; transcript_id ""; gbkey "Gene"; gene "hisL"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS24365"; old_locus_tag "ECDH10B_2166"; -NC_010473.1 Protein Homology CDS 2179028 2179075 . + 0 gene_id "ECDH10B_RS24365"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hisL"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416522.1"; locus_tag "ECDH10B_RS24365"; product "his operon leader peptide"; protein_id "WP_001364200.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2179028 2179030 . + 0 gene_id "ECDH10B_RS24365"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hisL"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416522.1"; locus_tag "ECDH10B_RS24365"; product "his operon leader peptide"; protein_id "WP_001364200.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2179076 2179078 . + 0 gene_id "ECDH10B_RS24365"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hisL"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416522.1"; locus_tag "ECDH10B_RS24365"; product "his operon leader peptide"; protein_id "WP_001364200.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2179224 2180123 . + . gene_id "ECDH10B_RS11055"; transcript_id ""; gbkey "Gene"; gene "hisG"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11055"; old_locus_tag "ECDH10B_2167"; -NC_010473.1 Protein Homology CDS 2179224 2180120 . + 0 gene_id "ECDH10B_RS11055"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hisG"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005128078.1"; locus_tag "ECDH10B_RS11055"; product "ATP phosphoribosyltransferase"; protein_id "WP_000131782.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2179224 2179226 . + 0 gene_id "ECDH10B_RS11055"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hisG"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005128078.1"; locus_tag "ECDH10B_RS11055"; product "ATP phosphoribosyltransferase"; protein_id "WP_000131782.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2180121 2180123 . + 0 gene_id "ECDH10B_RS11055"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hisG"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005128078.1"; locus_tag "ECDH10B_RS11055"; product "ATP phosphoribosyltransferase"; protein_id "WP_000131782.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2180129 2181433 . + . gene_id "ECDH10B_RS11060"; transcript_id ""; gbkey "Gene"; gene "hisD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11060"; old_locus_tag "ECDH10B_2168"; -NC_010473.1 Protein Homology CDS 2180129 2181430 . + 0 gene_id "ECDH10B_RS11060"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hisD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416524.1"; locus_tag "ECDH10B_RS11060"; product "histidinol dehydrogenase"; protein_id "WP_000009594.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2180129 2180131 . + 0 gene_id "ECDH10B_RS11060"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hisD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416524.1"; locus_tag "ECDH10B_RS11060"; product "histidinol dehydrogenase"; protein_id "WP_000009594.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2181431 2181433 . + 0 gene_id "ECDH10B_RS11060"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hisD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416524.1"; locus_tag "ECDH10B_RS11060"; product "histidinol dehydrogenase"; protein_id "WP_000009594.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2181430 2182500 . + . gene_id "ECDH10B_RS11065"; transcript_id ""; gbkey "Gene"; gene "hisC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11065"; old_locus_tag "ECDH10B_2169"; -NC_010473.1 Protein Homology CDS 2181430 2182497 . + 0 gene_id "ECDH10B_RS11065"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hisC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416525.1"; locus_tag "ECDH10B_RS11065"; product "histidinol-phosphate transaminase"; protein_id "WP_000108941.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2181430 2181432 . + 0 gene_id "ECDH10B_RS11065"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hisC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416525.1"; locus_tag "ECDH10B_RS11065"; product "histidinol-phosphate transaminase"; protein_id "WP_000108941.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2182498 2182500 . + 0 gene_id "ECDH10B_RS11065"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hisC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416525.1"; locus_tag "ECDH10B_RS11065"; product "histidinol-phosphate transaminase"; protein_id "WP_000108941.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2182500 2183567 . + . gene_id "ECDH10B_RS11070"; transcript_id ""; gbkey "Gene"; gene "hisB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11070"; old_locus_tag "ECDH10B_2170"; -NC_010473.1 Protein Homology CDS 2182500 2183564 . + 0 gene_id "ECDH10B_RS11070"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hisB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416526.4"; locus_tag "ECDH10B_RS11070"; product "bifunctional histidinol-phosphatase/imidazoleglycerol-phosphate dehydratase HisB"; protein_id "WP_000080105.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2182500 2182502 . + 0 gene_id "ECDH10B_RS11070"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hisB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416526.4"; locus_tag "ECDH10B_RS11070"; product "bifunctional histidinol-phosphatase/imidazoleglycerol-phosphate dehydratase HisB"; protein_id "WP_000080105.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2183565 2183567 . + 0 gene_id "ECDH10B_RS11070"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hisB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416526.4"; locus_tag "ECDH10B_RS11070"; product "bifunctional histidinol-phosphatase/imidazoleglycerol-phosphate dehydratase HisB"; protein_id "WP_000080105.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2183567 2184157 . + . gene_id "ECDH10B_RS11075"; transcript_id ""; gbkey "Gene"; gene "hisH"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11075"; old_locus_tag "ECDH10B_2171"; -NC_010473.1 Protein Homology CDS 2183567 2184154 . + 0 gene_id "ECDH10B_RS11075"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hisH"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005128083.1"; locus_tag "ECDH10B_RS11075"; product "imidazole glycerol phosphate synthase subunit HisH"; protein_id "WP_001103560.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2183567 2183569 . + 0 gene_id "ECDH10B_RS11075"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hisH"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005128083.1"; locus_tag "ECDH10B_RS11075"; product "imidazole glycerol phosphate synthase subunit HisH"; protein_id "WP_001103560.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2184155 2184157 . + 0 gene_id "ECDH10B_RS11075"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hisH"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005128083.1"; locus_tag "ECDH10B_RS11075"; product "imidazole glycerol phosphate synthase subunit HisH"; protein_id "WP_001103560.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2184157 2184894 . + . gene_id "ECDH10B_RS11080"; transcript_id ""; gbkey "Gene"; gene "hisA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11080"; old_locus_tag "ECDH10B_2172"; -NC_010473.1 Protein Homology CDS 2184157 2184891 . + 0 gene_id "ECDH10B_RS11080"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hisA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416528.2"; locus_tag "ECDH10B_RS11080"; product "1-(5-phosphoribosyl)-5-[(5-phosphoribosylamino)methylideneamino]imidazole-4-carboxamide isomerase"; protein_id "WP_000586462.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2184157 2184159 . + 0 gene_id "ECDH10B_RS11080"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hisA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416528.2"; locus_tag "ECDH10B_RS11080"; product "1-(5-phosphoribosyl)-5-[(5-phosphoribosylamino)methylideneamino]imidazole-4-carboxamide isomerase"; protein_id "WP_000586462.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2184892 2184894 . + 0 gene_id "ECDH10B_RS11080"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hisA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416528.2"; locus_tag "ECDH10B_RS11080"; product "1-(5-phosphoribosyl)-5-[(5-phosphoribosylamino)methylideneamino]imidazole-4-carboxamide isomerase"; protein_id "WP_000586462.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2184876 2185652 . + . gene_id "ECDH10B_RS11085"; transcript_id ""; gbkey "Gene"; gene "hisF"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11085"; old_locus_tag "ECDH10B_2173"; -NC_010473.1 Protein Homology CDS 2184876 2185649 . + 0 gene_id "ECDH10B_RS11085"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hisF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310853.1"; locus_tag "ECDH10B_RS11085"; product "imidazole glycerol phosphate synthase subunit HisF"; protein_id "WP_000880182.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2184876 2184878 . + 0 gene_id "ECDH10B_RS11085"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hisF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310853.1"; locus_tag "ECDH10B_RS11085"; product "imidazole glycerol phosphate synthase subunit HisF"; protein_id "WP_000880182.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2185650 2185652 . + 0 gene_id "ECDH10B_RS11085"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hisF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310853.1"; locus_tag "ECDH10B_RS11085"; product "imidazole glycerol phosphate synthase subunit HisF"; protein_id "WP_000880182.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2185646 2186257 . + . gene_id "ECDH10B_RS11090"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11090"; old_locus_tag "ECDH10B_2174"; -NC_010473.1 Protein Homology CDS 2185646 2186254 . + 0 gene_id "ECDH10B_RS11090"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416530.1"; locus_tag "ECDH10B_RS11090"; product "bifunctional phosphoribosyl-AMP cyclohydrolase/phosphoribosyl-ATP diphosphatase HisIE"; protein_id "WP_000954911.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2185646 2185648 . + 0 gene_id "ECDH10B_RS11090"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416530.1"; locus_tag "ECDH10B_RS11090"; product "bifunctional phosphoribosyl-AMP cyclohydrolase/phosphoribosyl-ATP diphosphatase HisIE"; protein_id "WP_000954911.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2186255 2186257 . + 0 gene_id "ECDH10B_RS11090"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416530.1"; locus_tag "ECDH10B_RS11090"; product "bifunctional phosphoribosyl-AMP cyclohydrolase/phosphoribosyl-ATP diphosphatase HisIE"; protein_id "WP_000954911.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2186353 2187333 . - . gene_id "ECDH10B_RS11095"; transcript_id ""; gbkey "Gene"; gene "wzzB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11095"; old_locus_tag "ECDH10B_2175"; -NC_010473.1 Protein Homology CDS 2186356 2187333 . - 0 gene_id "ECDH10B_RS11095"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "wzzB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416531.4"; locus_tag "ECDH10B_RS11095"; product "LPS O-antigen chain length determinant protein WzzB"; protein_id "WP_001393575.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2187331 2187333 . - 0 gene_id "ECDH10B_RS11095"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "wzzB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416531.4"; locus_tag "ECDH10B_RS11095"; product "LPS O-antigen chain length determinant protein WzzB"; protein_id "WP_001393575.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2186353 2186355 . - 0 gene_id "ECDH10B_RS11095"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "wzzB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416531.4"; locus_tag "ECDH10B_RS11095"; product "LPS O-antigen chain length determinant protein WzzB"; protein_id "WP_001393575.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2187479 2188645 . - . gene_id "ECDH10B_RS11100"; transcript_id ""; gbkey "Gene"; gene "ugd"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11100"; old_locus_tag "ECDH10B_2176"; -NC_010473.1 Protein Homology CDS 2187482 2188645 . - 0 gene_id "ECDH10B_RS11100"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ugd"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416532.1"; locus_tag "ECDH10B_RS11100"; product "UDP-glucose 6-dehydrogenase"; protein_id "WP_000704857.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2188643 2188645 . - 0 gene_id "ECDH10B_RS11100"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ugd"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416532.1"; locus_tag "ECDH10B_RS11100"; product "UDP-glucose 6-dehydrogenase"; protein_id "WP_000704857.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2187479 2187481 . - 0 gene_id "ECDH10B_RS11100"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ugd"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416532.1"; locus_tag "ECDH10B_RS11100"; product "UDP-glucose 6-dehydrogenase"; protein_id "WP_000704857.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2188894 2190300 . - . gene_id "ECDH10B_RS11105"; transcript_id ""; gbkey "Gene"; gene "gndA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11105"; old_locus_tag "ECDH10B_2177"; -NC_010473.1 Protein Homology CDS 2188897 2190300 . - 0 gene_id "ECDH10B_RS11105"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gndA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416533.1"; locus_tag "ECDH10B_RS11105"; product "NADP-dependent phosphogluconate dehydrogenase"; protein_id "WP_000043484.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2190298 2190300 . - 0 gene_id "ECDH10B_RS11105"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gndA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416533.1"; locus_tag "ECDH10B_RS11105"; product "NADP-dependent phosphogluconate dehydrogenase"; protein_id "WP_000043484.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2188894 2188896 . - 0 gene_id "ECDH10B_RS11105"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gndA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416533.1"; locus_tag "ECDH10B_RS11105"; product "NADP-dependent phosphogluconate dehydrogenase"; protein_id "WP_000043484.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2190428 2190781 . - . gene_id "ECDH10B_RS24375"; transcript_id ""; gbkey "Gene"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS24375"; partial "true"; pseudo "true"; -NC_010473.1 Protein Homology CDS 2190431 2190781 . - 0 gene_id "ECDH10B_RS24375"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000262539.1"; locus_tag "ECDH10B_RS24375"; note "incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "glycosyltransferase family 2 protein"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2190779 2190781 . - 0 gene_id "ECDH10B_RS24375"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000262539.1"; locus_tag "ECDH10B_RS24375"; note "incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "glycosyltransferase family 2 protein"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2190428 2190430 . - 0 gene_id "ECDH10B_RS24375"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000262539.1"; locus_tag "ECDH10B_RS24375"; note "incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "glycosyltransferase family 2 protein"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 2190927 2191943 . - . gene_id "ECDH10B_RS11110"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11110"; old_locus_tag "ECDH10B_2180"; -NC_010473.1 Protein Homology CDS 2190930 2191943 . - 0 gene_id "ECDH10B_RS11110"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414793.1"; locus_tag "ECDH10B_RS11110"; product "IS5-like element IS5 family transposase"; protein_id "WP_010723085.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2191941 2191943 . - 0 gene_id "ECDH10B_RS11110"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414793.1"; locus_tag "ECDH10B_RS11110"; product "IS5-like element IS5 family transposase"; protein_id "WP_010723085.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2190927 2190929 . - 0 gene_id "ECDH10B_RS11110"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414793.1"; locus_tag "ECDH10B_RS11110"; product "IS5-like element IS5 family transposase"; protein_id "WP_010723085.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2191978 2192421 . - . gene_id "ECDH10B_RS11115"; transcript_id ""; gbkey "Gene"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS11115"; partial "true"; pseudo "true"; -NC_010473.1 Protein Homology CDS 2191981 2192421 . - 0 gene_id "ECDH10B_RS11115"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000262539.1"; locus_tag "ECDH10B_RS11115"; note "incomplete; partial in the middle of a contig; missing C-terminus"; partial "true"; product "glycosyltransferase"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2192419 2192421 . - 0 gene_id "ECDH10B_RS11115"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000262539.1"; locus_tag "ECDH10B_RS11115"; note "incomplete; partial in the middle of a contig; missing C-terminus"; partial "true"; product "glycosyltransferase"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2191978 2191980 . - 0 gene_id "ECDH10B_RS11115"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000262539.1"; locus_tag "ECDH10B_RS11115"; note "incomplete; partial in the middle of a contig; missing C-terminus"; partial "true"; product "glycosyltransferase"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 2192423 2193541 . - . gene_id "ECDH10B_RS11120"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11120"; old_locus_tag "ECDH10B_2182"; -NC_010473.1 Protein Homology CDS 2192426 2193541 . - 0 gene_id "ECDH10B_RS11120"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416536.1"; locus_tag "ECDH10B_RS11120"; product "glycosyltransferase family 4 protein"; protein_id "WP_000520320.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2193539 2193541 . - 0 gene_id "ECDH10B_RS11120"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416536.1"; locus_tag "ECDH10B_RS11120"; product "glycosyltransferase family 4 protein"; protein_id "WP_000520320.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2192423 2192425 . - 0 gene_id "ECDH10B_RS11120"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416536.1"; locus_tag "ECDH10B_RS11120"; product "glycosyltransferase family 4 protein"; protein_id "WP_000520320.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2193526 2194116 . - . gene_id "ECDH10B_RS11125"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11125"; old_locus_tag "ECDH10B_2183"; -NC_010473.1 Protein Homology CDS 2193529 2194116 . - 0 gene_id "ECDH10B_RS11125"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416537.1"; locus_tag "ECDH10B_RS11125"; note "WbbJ; catalyzes the transfer of the O-acetyl moiety to the O antigen; part of the lipopolysaccharide biosynthetic pathway"; product "LPS biosynthesis protein"; protein_id "WP_000601187.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2194114 2194116 . - 0 gene_id "ECDH10B_RS11125"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416537.1"; locus_tag "ECDH10B_RS11125"; note "WbbJ; catalyzes the transfer of the O-acetyl moiety to the O antigen; part of the lipopolysaccharide biosynthetic pathway"; product "LPS biosynthesis protein"; protein_id "WP_000601187.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2193526 2193528 . - 0 gene_id "ECDH10B_RS11125"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416537.1"; locus_tag "ECDH10B_RS11125"; note "WbbJ; catalyzes the transfer of the O-acetyl moiety to the O antigen; part of the lipopolysaccharide biosynthetic pathway"; product "LPS biosynthesis protein"; protein_id "WP_000601187.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2194097 2195089 . - . gene_id "ECDH10B_RS11130"; transcript_id ""; gbkey "Gene"; gene "wbbI"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11130"; old_locus_tag "ECDH10B_2184"; -NC_010473.1 Protein Homology CDS 2194100 2195089 . - 0 gene_id "ECDH10B_RS11130"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "wbbI"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416538.1"; locus_tag "ECDH10B_RS11130"; product "beta-1,6-galactofuranosyltransferase"; protein_id "WP_001407542.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2195087 2195089 . - 0 gene_id "ECDH10B_RS11130"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "wbbI"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416538.1"; locus_tag "ECDH10B_RS11130"; product "beta-1,6-galactofuranosyltransferase"; protein_id "WP_001407542.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2194097 2194099 . - 0 gene_id "ECDH10B_RS11130"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "wbbI"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416538.1"; locus_tag "ECDH10B_RS11130"; product "beta-1,6-galactofuranosyltransferase"; protein_id "WP_001407542.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2195092 2196258 . - . gene_id "ECDH10B_RS11135"; transcript_id ""; gbkey "Gene"; gene "wzy"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11135"; old_locus_tag "ECDH10B_2185"; -NC_010473.1 Protein Homology CDS 2195095 2196258 . - 0 gene_id "ECDH10B_RS11135"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "wzy"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416539.1"; locus_tag "ECDH10B_RS11135"; product "O16 family O-antigen polymerase"; protein_id "WP_000639866.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2196256 2196258 . - 0 gene_id "ECDH10B_RS11135"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "wzy"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416539.1"; locus_tag "ECDH10B_RS11135"; product "O16 family O-antigen polymerase"; protein_id "WP_000639866.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2195092 2195094 . - 0 gene_id "ECDH10B_RS11135"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "wzy"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416539.1"; locus_tag "ECDH10B_RS11135"; product "O16 family O-antigen polymerase"; protein_id "WP_000639866.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2196258 2197361 . - . gene_id "ECDH10B_RS11140"; transcript_id ""; gbkey "Gene"; gene "glf"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11140"; old_locus_tag "ECDH10B_2186"; -NC_010473.1 Protein Homology CDS 2196261 2197361 . - 0 gene_id "ECDH10B_RS11140"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "glf"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416540.1"; locus_tag "ECDH10B_RS11140"; product "UDP-galactopyranose mutase"; protein_id "WP_000272486.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2197359 2197361 . - 0 gene_id "ECDH10B_RS11140"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "glf"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416540.1"; locus_tag "ECDH10B_RS11140"; product "UDP-galactopyranose mutase"; protein_id "WP_000272486.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2196258 2196260 . - 0 gene_id "ECDH10B_RS11140"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "glf"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416540.1"; locus_tag "ECDH10B_RS11140"; product "UDP-galactopyranose mutase"; protein_id "WP_000272486.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2197369 2198616 . - . gene_id "ECDH10B_RS11145"; transcript_id ""; gbkey "Gene"; gene "wzx"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11145"; old_locus_tag "ECDH10B_2187"; -NC_010473.1 Protein Homology CDS 2197372 2198616 . - 0 gene_id "ECDH10B_RS11145"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "wzx"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416541.1"; locus_tag "ECDH10B_RS11145"; product "O16 family O-antigen flippase"; protein_id "WP_001393538.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2198614 2198616 . - 0 gene_id "ECDH10B_RS11145"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "wzx"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416541.1"; locus_tag "ECDH10B_RS11145"; product "O16 family O-antigen flippase"; protein_id "WP_001393538.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2197369 2197371 . - 0 gene_id "ECDH10B_RS11145"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "wzx"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416541.1"; locus_tag "ECDH10B_RS11145"; product "O16 family O-antigen flippase"; protein_id "WP_001393538.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2198613 2199170 . - . gene_id "ECDH10B_RS11150"; transcript_id ""; gbkey "Gene"; gene "rfbC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11150"; old_locus_tag "ECDH10B_2188"; -NC_010473.1 Protein Homology CDS 2198616 2199170 . - 0 gene_id "ECDH10B_RS11150"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rfbC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416542.1"; locus_tag "ECDH10B_RS11150"; product "dTDP-4-dehydrorhamnose 3,5-epimerase"; protein_id "WP_001100981.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2199168 2199170 . - 0 gene_id "ECDH10B_RS11150"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rfbC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416542.1"; locus_tag "ECDH10B_RS11150"; product "dTDP-4-dehydrorhamnose 3,5-epimerase"; protein_id "WP_001100981.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2198613 2198615 . - 0 gene_id "ECDH10B_RS11150"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rfbC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416542.1"; locus_tag "ECDH10B_RS11150"; product "dTDP-4-dehydrorhamnose 3,5-epimerase"; protein_id "WP_001100981.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2199170 2200051 . - . gene_id "ECDH10B_RS11155"; transcript_id ""; gbkey "Gene"; gene "rfbA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11155"; old_locus_tag "ECDH10B_2189"; -NC_010473.1 Protein Homology CDS 2199173 2200051 . - 0 gene_id "ECDH10B_RS11155"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rfbA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416543.1"; locus_tag "ECDH10B_RS11155"; product "glucose-1-phosphate thymidylyltransferase RfbA"; protein_id "WP_000783975.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2200049 2200051 . - 0 gene_id "ECDH10B_RS11155"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rfbA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416543.1"; locus_tag "ECDH10B_RS11155"; product "glucose-1-phosphate thymidylyltransferase RfbA"; protein_id "WP_000783975.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2199170 2199172 . - 0 gene_id "ECDH10B_RS11155"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rfbA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416543.1"; locus_tag "ECDH10B_RS11155"; product "glucose-1-phosphate thymidylyltransferase RfbA"; protein_id "WP_000783975.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2200109 2201008 . - . gene_id "ECDH10B_RS11160"; transcript_id ""; gbkey "Gene"; gene "rfbD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11160"; old_locus_tag "ECDH10B_2190"; -NC_010473.1 Protein Homology CDS 2200112 2201008 . - 0 gene_id "ECDH10B_RS11160"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rfbD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416544.1"; locus_tag "ECDH10B_RS11160"; product "dTDP-4-dehydrorhamnose reductase"; protein_id "WP_001023610.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2201006 2201008 . - 0 gene_id "ECDH10B_RS11160"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rfbD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416544.1"; locus_tag "ECDH10B_RS11160"; product "dTDP-4-dehydrorhamnose reductase"; protein_id "WP_001023610.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2200109 2200111 . - 0 gene_id "ECDH10B_RS11160"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rfbD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416544.1"; locus_tag "ECDH10B_RS11160"; product "dTDP-4-dehydrorhamnose reductase"; protein_id "WP_001023610.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2201008 2202093 . - . gene_id "ECDH10B_RS11165"; transcript_id ""; gbkey "Gene"; gene "rfbB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11165"; old_locus_tag "ECDH10B_2191"; -NC_010473.1 Protein Homology CDS 2201011 2202093 . - 0 gene_id "ECDH10B_RS11165"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rfbB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416545.1"; locus_tag "ECDH10B_RS11165"; product "dTDP-glucose 4,6-dehydratase"; protein_id "WP_000699460.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2202091 2202093 . - 0 gene_id "ECDH10B_RS11165"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rfbB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416545.1"; locus_tag "ECDH10B_RS11165"; product "dTDP-glucose 4,6-dehydratase"; protein_id "WP_000699460.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2201008 2201010 . - 0 gene_id "ECDH10B_RS11165"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rfbB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416545.1"; locus_tag "ECDH10B_RS11165"; product "dTDP-glucose 4,6-dehydratase"; protein_id "WP_000699460.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2202466 2203359 . - . gene_id "ECDH10B_RS11170"; transcript_id ""; gbkey "Gene"; gene "galF"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11170"; old_locus_tag "ECDH10B_2192"; -NC_010473.1 Protein Homology CDS 2202469 2203359 . - 0 gene_id "ECDH10B_RS11170"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "galF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310873.1"; locus_tag "ECDH10B_RS11170"; product "UTP--glucose-1-phosphate uridylyltransferase GalF"; protein_id "WP_000183060.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2203357 2203359 . - 0 gene_id "ECDH10B_RS11170"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "galF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310873.1"; locus_tag "ECDH10B_RS11170"; product "UTP--glucose-1-phosphate uridylyltransferase GalF"; protein_id "WP_000183060.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2202466 2202468 . - 0 gene_id "ECDH10B_RS11170"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "galF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310873.1"; locus_tag "ECDH10B_RS11170"; product "UTP--glucose-1-phosphate uridylyltransferase GalF"; protein_id "WP_000183060.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2203534 2204928 . - . gene_id "ECDH10B_RS11175"; transcript_id ""; gbkey "Gene"; gene "wcaM"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11175"; old_locus_tag "ECDH10B_2193"; -NC_010473.1 Protein Homology CDS 2203537 2204928 . - 0 gene_id "ECDH10B_RS11175"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "wcaM"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416547.1"; locus_tag "ECDH10B_RS11175"; product "colanic acid biosynthesis protein WcaM"; protein_id "WP_001116026.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2204926 2204928 . - 0 gene_id "ECDH10B_RS11175"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "wcaM"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416547.1"; locus_tag "ECDH10B_RS11175"; product "colanic acid biosynthesis protein WcaM"; protein_id "WP_001116026.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2203534 2203536 . - 0 gene_id "ECDH10B_RS11175"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "wcaM"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416547.1"; locus_tag "ECDH10B_RS11175"; product "colanic acid biosynthesis protein WcaM"; protein_id "WP_001116026.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2204939 2206159 . - . gene_id "ECDH10B_RS11180"; transcript_id ""; gbkey "Gene"; gene "wcaL"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11180"; old_locus_tag "ECDH10B_2194"; -NC_010473.1 Protein Homology CDS 2204942 2206159 . - 0 gene_id "ECDH10B_RS11180"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "wcaL"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416548.1"; locus_tag "ECDH10B_RS11180"; product "colanic acid biosynthesis glycosyltransferase WcaL"; protein_id "WP_000862592.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2206157 2206159 . - 0 gene_id "ECDH10B_RS11180"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "wcaL"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416548.1"; locus_tag "ECDH10B_RS11180"; product "colanic acid biosynthesis glycosyltransferase WcaL"; protein_id "WP_000862592.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2204939 2204941 . - 0 gene_id "ECDH10B_RS11180"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "wcaL"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416548.1"; locus_tag "ECDH10B_RS11180"; product "colanic acid biosynthesis glycosyltransferase WcaL"; protein_id "WP_000862592.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2206156 2207436 . - . gene_id "ECDH10B_RS11185"; transcript_id ""; gbkey "Gene"; gene "wcaK"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11185"; old_locus_tag "ECDH10B_2195"; -NC_010473.1 Protein Homology CDS 2206159 2207436 . - 0 gene_id "ECDH10B_RS11185"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "wcaK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416549.1"; locus_tag "ECDH10B_RS11185"; product "colanic acid biosynthesis pyruvyl transferase WcaK"; protein_id "WP_000770780.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2207434 2207436 . - 0 gene_id "ECDH10B_RS11185"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "wcaK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416549.1"; locus_tag "ECDH10B_RS11185"; product "colanic acid biosynthesis pyruvyl transferase WcaK"; protein_id "WP_000770780.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2206156 2206158 . - 0 gene_id "ECDH10B_RS11185"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "wcaK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416549.1"; locus_tag "ECDH10B_RS11185"; product "colanic acid biosynthesis pyruvyl transferase WcaK"; protein_id "WP_000770780.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2207712 2209190 . - . gene_id "ECDH10B_RS11190"; transcript_id ""; gbkey "Gene"; gene "wzxC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11190"; old_locus_tag "ECDH10B_2196"; -NC_010473.1 Protein Homology CDS 2207715 2209190 . - 0 gene_id "ECDH10B_RS11190"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "wzxC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416550.1"; locus_tag "ECDH10B_RS11190"; product "colanic acid undecaprenyl disphosphate flippase WzxC"; protein_id "WP_000058424.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2209188 2209190 . - 0 gene_id "ECDH10B_RS11190"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "wzxC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416550.1"; locus_tag "ECDH10B_RS11190"; product "colanic acid undecaprenyl disphosphate flippase WzxC"; protein_id "WP_000058424.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2207712 2207714 . - 0 gene_id "ECDH10B_RS11190"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "wzxC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416550.1"; locus_tag "ECDH10B_RS11190"; product "colanic acid undecaprenyl disphosphate flippase WzxC"; protein_id "WP_000058424.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2209192 2210586 . - . gene_id "ECDH10B_RS11195"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11195"; old_locus_tag "ECDH10B_2197"; -NC_010473.1 Protein Homology CDS 2209195 2210586 . - 0 gene_id "ECDH10B_RS11195"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416551.1"; locus_tag "ECDH10B_RS11195"; product "UDP-glucose--undecaprenyl-phosphate glucose-1-phosphate transferase"; protein_id "WP_000183107.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2210584 2210586 . - 0 gene_id "ECDH10B_RS11195"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416551.1"; locus_tag "ECDH10B_RS11195"; product "UDP-glucose--undecaprenyl-phosphate glucose-1-phosphate transferase"; protein_id "WP_000183107.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2209192 2209194 . - 0 gene_id "ECDH10B_RS11195"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416551.1"; locus_tag "ECDH10B_RS11195"; product "UDP-glucose--undecaprenyl-phosphate glucose-1-phosphate transferase"; protein_id "WP_000183107.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2210641 2212011 . - . gene_id "ECDH10B_RS11200"; transcript_id ""; gbkey "Gene"; gene "cpsG"; gene_biotype "protein_coding"; gene_synonym "manB"; locus_tag "ECDH10B_RS11200"; old_locus_tag "ECDH10B_2198"; -NC_010473.1 Protein Homology CDS 2210644 2212011 . - 0 gene_id "ECDH10B_RS11200"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cpsG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416552.1"; locus_tag "ECDH10B_RS11200"; product "colanic acid biosynthesis phosphomannomutase CpsG"; protein_id "WP_001350528.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2212009 2212011 . - 0 gene_id "ECDH10B_RS11200"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cpsG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416552.1"; locus_tag "ECDH10B_RS11200"; product "colanic acid biosynthesis phosphomannomutase CpsG"; protein_id "WP_001350528.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2210641 2210643 . - 0 gene_id "ECDH10B_RS11200"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cpsG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416552.1"; locus_tag "ECDH10B_RS11200"; product "colanic acid biosynthesis phosphomannomutase CpsG"; protein_id "WP_001350528.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2212116 2213552 . - . gene_id "ECDH10B_RS11205"; transcript_id ""; gbkey "Gene"; gene "cpsB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11205"; old_locus_tag "ECDH10B_2199"; -NC_010473.1 Protein Homology CDS 2212119 2213552 . - 0 gene_id "ECDH10B_RS11205"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cpsB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416553.1"; locus_tag "ECDH10B_RS11205"; product "mannose-1-phosphate guanyltransferase"; protein_id "WP_000079274.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2213550 2213552 . - 0 gene_id "ECDH10B_RS11205"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cpsB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416553.1"; locus_tag "ECDH10B_RS11205"; product "mannose-1-phosphate guanyltransferase"; protein_id "WP_000079274.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2212116 2212118 . - 0 gene_id "ECDH10B_RS11205"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cpsB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416553.1"; locus_tag "ECDH10B_RS11205"; product "mannose-1-phosphate guanyltransferase"; protein_id "WP_000079274.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2213555 2214778 . - . gene_id "ECDH10B_RS11210"; transcript_id ""; gbkey "Gene"; gene "wcaI"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11210"; old_locus_tag "ECDH10B_2200"; -NC_010473.1 Protein Homology CDS 2213558 2214778 . - 0 gene_id "ECDH10B_RS11210"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "wcaI"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416554.1"; locus_tag "ECDH10B_RS11210"; product "colanic acid biosynthesis fucosyltransferase WcaI"; protein_id "WP_000699693.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2214776 2214778 . - 0 gene_id "ECDH10B_RS11210"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "wcaI"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416554.1"; locus_tag "ECDH10B_RS11210"; product "colanic acid biosynthesis fucosyltransferase WcaI"; protein_id "WP_000699693.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2213555 2213557 . - 0 gene_id "ECDH10B_RS11210"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "wcaI"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416554.1"; locus_tag "ECDH10B_RS11210"; product "colanic acid biosynthesis fucosyltransferase WcaI"; protein_id "WP_000699693.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2214775 2215254 . - . gene_id "ECDH10B_RS11215"; transcript_id ""; gbkey "Gene"; gene "gmm"; gene_biotype "protein_coding"; gene_synonym "nudD"; gene_synonym "wcaH"; gene_synonym "yefC"; locus_tag "ECDH10B_RS11215"; old_locus_tag "ECDH10B_2201"; -NC_010473.1 Protein Homology CDS 2214778 2215254 . - 0 gene_id "ECDH10B_RS11215"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gmm"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416555.2"; locus_tag "ECDH10B_RS11215"; product "GDP-mannose mannosyl hydrolase"; protein_id "WP_001393539.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2215252 2215254 . - 0 gene_id "ECDH10B_RS11215"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gmm"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416555.2"; locus_tag "ECDH10B_RS11215"; product "GDP-mannose mannosyl hydrolase"; protein_id "WP_001393539.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2214775 2214777 . - 0 gene_id "ECDH10B_RS11215"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gmm"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416555.2"; locus_tag "ECDH10B_RS11215"; product "GDP-mannose mannosyl hydrolase"; protein_id "WP_001393539.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2215257 2216222 . - . gene_id "ECDH10B_RS11220"; transcript_id ""; gbkey "Gene"; gene "fcl"; gene_biotype "protein_coding"; gene_synonym "wcaG"; gene_synonym "yefB"; locus_tag "ECDH10B_RS11220"; old_locus_tag "ECDH10B_2202"; -NC_010473.1 Protein Homology CDS 2215260 2216222 . - 0 gene_id "ECDH10B_RS11220"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fcl"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416556.1"; locus_tag "ECDH10B_RS11220"; product "GDP-L-fucose synthase"; protein_id "WP_000043654.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2216220 2216222 . - 0 gene_id "ECDH10B_RS11220"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fcl"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416556.1"; locus_tag "ECDH10B_RS11220"; product "GDP-L-fucose synthase"; protein_id "WP_000043654.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2215257 2215259 . - 0 gene_id "ECDH10B_RS11220"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fcl"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416556.1"; locus_tag "ECDH10B_RS11220"; product "GDP-L-fucose synthase"; protein_id "WP_000043654.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2216225 2217346 . - . gene_id "ECDH10B_RS11225"; transcript_id ""; gbkey "Gene"; gene "gmd"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11225"; old_locus_tag "ECDH10B_2203"; -NC_010473.1 Protein Homology CDS 2216228 2217346 . - 0 gene_id "ECDH10B_RS11225"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gmd"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005128297.1"; locus_tag "ECDH10B_RS11225"; product "GDP-mannose 4,6-dehydratase"; protein_id "WP_000048190.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2217344 2217346 . - 0 gene_id "ECDH10B_RS11225"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gmd"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005128297.1"; locus_tag "ECDH10B_RS11225"; product "GDP-mannose 4,6-dehydratase"; protein_id "WP_000048190.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2216225 2216227 . - 0 gene_id "ECDH10B_RS11225"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gmd"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005128297.1"; locus_tag "ECDH10B_RS11225"; product "GDP-mannose 4,6-dehydratase"; protein_id "WP_000048190.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2217372 2217920 . - . gene_id "ECDH10B_RS11230"; transcript_id ""; gbkey "Gene"; gene "wcaF"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11230"; old_locus_tag "ECDH10B_2204"; -NC_010473.1 Protein Homology CDS 2217375 2217920 . - 0 gene_id "ECDH10B_RS11230"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "wcaF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416558.1"; locus_tag "ECDH10B_RS11230"; product "colanic acid biosynthesis acetyltransferase WcaF"; protein_id "WP_001153547.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2217918 2217920 . - 0 gene_id "ECDH10B_RS11230"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "wcaF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416558.1"; locus_tag "ECDH10B_RS11230"; product "colanic acid biosynthesis acetyltransferase WcaF"; protein_id "WP_001153547.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2217372 2217374 . - 0 gene_id "ECDH10B_RS11230"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "wcaF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416558.1"; locus_tag "ECDH10B_RS11230"; product "colanic acid biosynthesis acetyltransferase WcaF"; protein_id "WP_001153547.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2217936 2218682 . - . gene_id "ECDH10B_RS11235"; transcript_id ""; gbkey "Gene"; gene "wcaE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11235"; old_locus_tag "ECDH10B_2205"; -NC_010473.1 Protein Homology CDS 2217939 2218682 . - 0 gene_id "ECDH10B_RS11235"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "wcaE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416559.1"; locus_tag "ECDH10B_RS11235"; product "colanic acid biosynthesis glycosyltransferase WcaE"; protein_id "WP_000927089.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2218680 2218682 . - 0 gene_id "ECDH10B_RS11235"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "wcaE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416559.1"; locus_tag "ECDH10B_RS11235"; product "colanic acid biosynthesis glycosyltransferase WcaE"; protein_id "WP_000927089.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2217936 2217938 . - 0 gene_id "ECDH10B_RS11235"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "wcaE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416559.1"; locus_tag "ECDH10B_RS11235"; product "colanic acid biosynthesis glycosyltransferase WcaE"; protein_id "WP_000927089.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2218693 2219910 . - . gene_id "ECDH10B_RS11240"; transcript_id ""; gbkey "Gene"; gene "wcaD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11240"; old_locus_tag "ECDH10B_2206"; -NC_010473.1 Protein Homology CDS 2218696 2219910 . - 0 gene_id "ECDH10B_RS11240"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "wcaD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416560.1"; locus_tag "ECDH10B_RS11240"; product "putative colanic acid polymerase WcaD"; protein_id "WP_000107816.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2219908 2219910 . - 0 gene_id "ECDH10B_RS11240"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "wcaD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416560.1"; locus_tag "ECDH10B_RS11240"; product "putative colanic acid polymerase WcaD"; protein_id "WP_000107816.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2218693 2218695 . - 0 gene_id "ECDH10B_RS11240"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "wcaD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416560.1"; locus_tag "ECDH10B_RS11240"; product "putative colanic acid polymerase WcaD"; protein_id "WP_000107816.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2219885 2221102 . - . gene_id "ECDH10B_RS11245"; transcript_id ""; gbkey "Gene"; gene "wcaC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11245"; old_locus_tag "ECDH10B_2207"; -NC_010473.1 Protein Homology CDS 2219888 2221102 . - 0 gene_id "ECDH10B_RS11245"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "wcaC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416561.1"; locus_tag "ECDH10B_RS11245"; product "colanic acid biosynthesis glycosyltransferase WcaC"; protein_id "WP_001023871.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2221100 2221102 . - 0 gene_id "ECDH10B_RS11245"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "wcaC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416561.1"; locus_tag "ECDH10B_RS11245"; product "colanic acid biosynthesis glycosyltransferase WcaC"; protein_id "WP_001023871.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2219885 2219887 . - 0 gene_id "ECDH10B_RS11245"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "wcaC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416561.1"; locus_tag "ECDH10B_RS11245"; product "colanic acid biosynthesis glycosyltransferase WcaC"; protein_id "WP_001023871.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2221099 2221587 . - . gene_id "ECDH10B_RS11250"; transcript_id ""; gbkey "Gene"; gene "wcaB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11250"; old_locus_tag "ECDH10B_2208"; -NC_010473.1 Protein Homology CDS 2221102 2221587 . - 0 gene_id "ECDH10B_RS11250"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "wcaB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310890.1"; locus_tag "ECDH10B_RS11250"; product "colanic acid biosynthesis acetyltransferase WcaB"; protein_id "WP_000888740.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2221585 2221587 . - 0 gene_id "ECDH10B_RS11250"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "wcaB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310890.1"; locus_tag "ECDH10B_RS11250"; product "colanic acid biosynthesis acetyltransferase WcaB"; protein_id "WP_000888740.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2221099 2221101 . - 0 gene_id "ECDH10B_RS11250"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "wcaB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310890.1"; locus_tag "ECDH10B_RS11250"; product "colanic acid biosynthesis acetyltransferase WcaB"; protein_id "WP_000888740.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2221590 2222429 . - . gene_id "ECDH10B_RS11255"; transcript_id ""; gbkey "Gene"; gene "wcaA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11255"; old_locus_tag "ECDH10B_2209"; -NC_010473.1 Protein Homology CDS 2221593 2222429 . - 0 gene_id "ECDH10B_RS11255"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "wcaA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416563.1"; locus_tag "ECDH10B_RS11255"; product "colanic acid biosynthesis glycosyltransferase WcaA"; protein_id "WP_000794699.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2222427 2222429 . - 0 gene_id "ECDH10B_RS11255"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "wcaA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416563.1"; locus_tag "ECDH10B_RS11255"; product "colanic acid biosynthesis glycosyltransferase WcaA"; protein_id "WP_000794699.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2221590 2221592 . - 0 gene_id "ECDH10B_RS11255"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "wcaA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416563.1"; locus_tag "ECDH10B_RS11255"; product "colanic acid biosynthesis glycosyltransferase WcaA"; protein_id "WP_000794699.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2222522 2224684 . - . gene_id "ECDH10B_RS11260"; transcript_id ""; gbkey "Gene"; gene "wzc"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11260"; old_locus_tag "ECDH10B_2210"; -NC_010473.1 Protein Homology CDS 2222525 2224684 . - 0 gene_id "ECDH10B_RS11260"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "wzc"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416564.4"; locus_tag "ECDH10B_RS11260"; product "tyrosine-protein kinase Wzc"; protein_id "WP_000137196.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2224682 2224684 . - 0 gene_id "ECDH10B_RS11260"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "wzc"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416564.4"; locus_tag "ECDH10B_RS11260"; product "tyrosine-protein kinase Wzc"; protein_id "WP_000137196.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2222522 2222524 . - 0 gene_id "ECDH10B_RS11260"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "wzc"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416564.4"; locus_tag "ECDH10B_RS11260"; product "tyrosine-protein kinase Wzc"; protein_id "WP_000137196.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2224687 2225130 . - . gene_id "ECDH10B_RS11265"; transcript_id ""; gbkey "Gene"; gene "wzb"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11265"; old_locus_tag "ECDH10B_2211"; -NC_010473.1 Protein Homology CDS 2224690 2225130 . - 0 gene_id "ECDH10B_RS11265"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "wzb"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310893.1"; locus_tag "ECDH10B_RS11265"; product "low molecular weight protein-tyrosine-phosphatase Wzb"; protein_id "WP_000482901.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2225128 2225130 . - 0 gene_id "ECDH10B_RS11265"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "wzb"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310893.1"; locus_tag "ECDH10B_RS11265"; product "low molecular weight protein-tyrosine-phosphatase Wzb"; protein_id "WP_000482901.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2224687 2224689 . - 0 gene_id "ECDH10B_RS11265"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "wzb"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310893.1"; locus_tag "ECDH10B_RS11265"; product "low molecular weight protein-tyrosine-phosphatase Wzb"; protein_id "WP_000482901.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2225136 2226275 . - . gene_id "ECDH10B_RS11270"; transcript_id ""; gbkey "Gene"; gene "wza"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11270"; old_locus_tag "ECDH10B_2212"; -NC_010473.1 Protein Homology CDS 2225139 2226275 . - 0 gene_id "ECDH10B_RS11270"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "wza"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310894.1"; locus_tag "ECDH10B_RS11270"; product "polysaccharide export protein Wza"; protein_id "WP_000978094.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2226273 2226275 . - 0 gene_id "ECDH10B_RS11270"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "wza"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310894.1"; locus_tag "ECDH10B_RS11270"; product "polysaccharide export protein Wza"; protein_id "WP_000978094.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2225136 2225138 . - 0 gene_id "ECDH10B_RS11270"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "wza"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310894.1"; locus_tag "ECDH10B_RS11270"; product "polysaccharide export protein Wza"; protein_id "WP_000978094.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2226934 2228517 . + . gene_id "ECDH10B_RS11275"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11275"; old_locus_tag "ECDH10B_2213"; -NC_010473.1 Protein Homology CDS 2226934 2228514 . + 0 gene_id "ECDH10B_RS11275"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416567.4"; locus_tag "ECDH10B_RS11275"; product "TerC family protein"; protein_id "WP_000454701.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2226934 2226936 . + 0 gene_id "ECDH10B_RS11275"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416567.4"; locus_tag "ECDH10B_RS11275"; product "TerC family protein"; protein_id "WP_000454701.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2228515 2228517 . + 0 gene_id "ECDH10B_RS11275"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416567.4"; locus_tag "ECDH10B_RS11275"; product "TerC family protein"; protein_id "WP_000454701.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2228791 2230644 . - . gene_id "ECDH10B_RS11280"; transcript_id ""; gbkey "Gene"; gene "asmA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11280"; old_locus_tag "ECDH10B_2214"; -NC_010473.1 Protein Homology CDS 2228794 2230644 . - 0 gene_id "ECDH10B_RS11280"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "asmA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416568.1"; locus_tag "ECDH10B_RS11280"; product "outer membrane assembly protein AsmA"; protein_id "WP_001252331.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2230642 2230644 . - 0 gene_id "ECDH10B_RS11280"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "asmA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416568.1"; locus_tag "ECDH10B_RS11280"; product "outer membrane assembly protein AsmA"; protein_id "WP_001252331.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2228791 2228793 . - 0 gene_id "ECDH10B_RS11280"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "asmA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416568.1"; locus_tag "ECDH10B_RS11280"; product "outer membrane assembly protein AsmA"; protein_id "WP_001252331.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2230666 2231247 . - . gene_id "ECDH10B_RS11285"; transcript_id ""; gbkey "Gene"; gene "dcd"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11285"; old_locus_tag "ECDH10B_2215"; -NC_010473.1 Protein Homology CDS 2230669 2231247 . - 0 gene_id "ECDH10B_RS11285"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dcd"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_004942378.1"; locus_tag "ECDH10B_RS11285"; product "dCTP deaminase"; protein_id "WP_001234768.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2231245 2231247 . - 0 gene_id "ECDH10B_RS11285"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dcd"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_004942378.1"; locus_tag "ECDH10B_RS11285"; product "dCTP deaminase"; protein_id "WP_001234768.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2230666 2230668 . - 0 gene_id "ECDH10B_RS11285"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dcd"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_004942378.1"; locus_tag "ECDH10B_RS11285"; product "dCTP deaminase"; protein_id "WP_001234768.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2231339 2231980 . - . gene_id "ECDH10B_RS11290"; transcript_id ""; gbkey "Gene"; gene "udk"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11290"; old_locus_tag "ECDH10B_2216"; -NC_010473.1 Protein Homology CDS 2231342 2231980 . - 0 gene_id "ECDH10B_RS11290"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "udk"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_707960.1"; locus_tag "ECDH10B_RS11290"; product "uridine kinase"; protein_id "WP_001295424.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2231978 2231980 . - 0 gene_id "ECDH10B_RS11290"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "udk"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_707960.1"; locus_tag "ECDH10B_RS11290"; product "uridine kinase"; protein_id "WP_001295424.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2231339 2231341 . - 0 gene_id "ECDH10B_RS11290"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "udk"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_707960.1"; locus_tag "ECDH10B_RS11290"; product "uridine kinase"; protein_id "WP_001295424.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2232298 2235615 . + . gene_id "ECDH10B_RS11295"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11295"; old_locus_tag "ECDH10B_2217"; -NC_010473.1 Protein Homology CDS 2232298 2235612 . + 0 gene_id "ECDH10B_RS11295"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416571.1"; locus_tag "ECDH10B_RS11295"; product "diguanylate cyclase"; protein_id "WP_000043761.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2232298 2232300 . + 0 gene_id "ECDH10B_RS11295"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416571.1"; locus_tag "ECDH10B_RS11295"; product "diguanylate cyclase"; protein_id "WP_000043761.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2235613 2235615 . + 0 gene_id "ECDH10B_RS11295"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416571.1"; locus_tag "ECDH10B_RS11295"; product "diguanylate cyclase"; protein_id "WP_000043761.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2235724 2236572 . - . gene_id "ECDH10B_RS11300"; transcript_id ""; gbkey "Gene"; gene "alkA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11300"; old_locus_tag "ECDH10B_2218"; -NC_010473.1 Protein Homology CDS 2235727 2236572 . - 0 gene_id "ECDH10B_RS11300"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "alkA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416572.1"; locus_tag "ECDH10B_RS11300"; product "DNA-3-methyladenine glycosylase 2"; protein_id "WP_000288420.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2236570 2236572 . - 0 gene_id "ECDH10B_RS11300"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "alkA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416572.1"; locus_tag "ECDH10B_RS11300"; product "DNA-3-methyladenine glycosylase 2"; protein_id "WP_000288420.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2235724 2235726 . - 0 gene_id "ECDH10B_RS11300"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "alkA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416572.1"; locus_tag "ECDH10B_RS11300"; product "DNA-3-methyladenine glycosylase 2"; protein_id "WP_000288420.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2236706 2238058 . + . gene_id "ECDH10B_RS11310"; transcript_id ""; gbkey "Gene"; gene "yegD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11310"; old_locus_tag "ECDH10B_2219"; -NC_010473.1 Protein Homology CDS 2236706 2238055 . + 0 gene_id "ECDH10B_RS11310"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yegD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416573.4"; locus_tag "ECDH10B_RS11310"; product "molecular chaperone"; protein_id "WP_000469708.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2236706 2236708 . + 0 gene_id "ECDH10B_RS11310"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yegD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416573.4"; locus_tag "ECDH10B_RS11310"; product "molecular chaperone"; protein_id "WP_000469708.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2238056 2238058 . + 0 gene_id "ECDH10B_RS11310"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yegD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416573.4"; locus_tag "ECDH10B_RS11310"; product "molecular chaperone"; protein_id "WP_000469708.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2238071 2240017 . - . gene_id "ECDH10B_RS11315"; transcript_id ""; gbkey "Gene"; gene "yegI"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11315"; old_locus_tag "ECDH10B_2220"; -NC_010473.1 Protein Homology CDS 2238074 2240017 . - 0 gene_id "ECDH10B_RS11315"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yegI"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416574.1"; locus_tag "ECDH10B_RS11315"; product "protein kinase YegI"; protein_id "WP_000856081.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2240015 2240017 . - 0 gene_id "ECDH10B_RS11315"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yegI"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416574.1"; locus_tag "ECDH10B_RS11315"; product "protein kinase YegI"; protein_id "WP_000856081.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2238071 2238073 . - 0 gene_id "ECDH10B_RS11315"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yegI"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416574.1"; locus_tag "ECDH10B_RS11315"; product "protein kinase YegI"; protein_id "WP_000856081.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2240217 2240678 . + . gene_id "ECDH10B_RS11320"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11320"; old_locus_tag "ECDH10B_2221"; -NC_010473.1 Protein Homology CDS 2240217 2240675 . + 0 gene_id "ECDH10B_RS11320"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416575.1"; locus_tag "ECDH10B_RS11320"; product "YegJ family protein"; protein_id "WP_000722348.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2240217 2240219 . + 0 gene_id "ECDH10B_RS11320"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416575.1"; locus_tag "ECDH10B_RS11320"; product "YegJ family protein"; protein_id "WP_000722348.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2240676 2240678 . + 0 gene_id "ECDH10B_RS11320"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416575.1"; locus_tag "ECDH10B_RS11320"; product "YegJ family protein"; protein_id "WP_000722348.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2240743 2241504 . - . gene_id "ECDH10B_RS11325"; transcript_id ""; gbkey "Gene"; gene "pphC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11325"; old_locus_tag "ECDH10B_2222"; -NC_010473.1 Protein Homology CDS 2240746 2241504 . - 0 gene_id "ECDH10B_RS11325"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pphC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416576.1"; locus_tag "ECDH10B_RS11325"; product "protein-serine/threonine phosphatase PphC"; protein_id "WP_000119090.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2241502 2241504 . - 0 gene_id "ECDH10B_RS11325"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pphC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416576.1"; locus_tag "ECDH10B_RS11325"; product "protein-serine/threonine phosphatase PphC"; protein_id "WP_000119090.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2240743 2240745 . - 0 gene_id "ECDH10B_RS11325"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pphC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416576.1"; locus_tag "ECDH10B_RS11325"; product "protein-serine/threonine phosphatase PphC"; protein_id "WP_000119090.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2241501 2242160 . - . gene_id "ECDH10B_RS11330"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11330"; old_locus_tag "ECDH10B_2223"; -NC_010473.1 Protein Homology CDS 2241504 2242160 . - 0 gene_id "ECDH10B_RS11330"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416577.1"; locus_tag "ECDH10B_RS11330"; product "VWA domain-containing protein"; protein_id "WP_000003154.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2242158 2242160 . - 0 gene_id "ECDH10B_RS11330"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416577.1"; locus_tag "ECDH10B_RS11330"; product "VWA domain-containing protein"; protein_id "WP_000003154.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2241501 2241503 . - 0 gene_id "ECDH10B_RS11330"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416577.1"; locus_tag "ECDH10B_RS11330"; product "VWA domain-containing protein"; protein_id "WP_000003154.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2242381 2242440 . - . gene_id "ECDH10B_RS25585"; transcript_id ""; gbkey "Gene"; gene "ibsA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS25585"; -NC_010473.1 Protein Homology CDS 2242384 2242440 . - 0 gene_id "ECDH10B_RS25585"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ibsA"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_002791247.1"; locus_tag "ECDH10B_RS25585"; product "type I toxin-antitoxin system toxin IbsA"; protein_id "WP_010723109.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2242438 2242440 . - 0 gene_id "ECDH10B_RS25585"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ibsA"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_002791247.1"; locus_tag "ECDH10B_RS25585"; product "type I toxin-antitoxin system toxin IbsA"; protein_id "WP_010723109.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2242381 2242383 . - 0 gene_id "ECDH10B_RS25585"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ibsA"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_002791247.1"; locus_tag "ECDH10B_RS25585"; product "type I toxin-antitoxin system toxin IbsA"; protein_id "WP_010723109.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2242713 2242769 . - . gene_id "ECDH10B_RS26045"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS26045"; -NC_010473.1 Protein Homology CDS 2242716 2242769 . - 0 gene_id "ECDH10B_RS26045"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_002791248.1"; locus_tag "ECDH10B_RS26045"; product "type I toxin-antitoxin system Ibs family toxin"; protein_id "WP_001386899.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2242767 2242769 . - 0 gene_id "ECDH10B_RS26045"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_002791248.1"; locus_tag "ECDH10B_RS26045"; product "type I toxin-antitoxin system Ibs family toxin"; protein_id "WP_001386899.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2242713 2242715 . - 0 gene_id "ECDH10B_RS26045"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_002791248.1"; locus_tag "ECDH10B_RS26045"; product "type I toxin-antitoxin system Ibs family toxin"; protein_id "WP_001386899.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2243048 2244295 . + . gene_id "ECDH10B_RS11335"; transcript_id ""; gbkey "Gene"; gene "mdtA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11335"; old_locus_tag "ECDH10B_2226"; -NC_010473.1 Protein Homology CDS 2243048 2244292 . + 0 gene_id "ECDH10B_RS11335"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mdtA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416578.2"; locus_tag "ECDH10B_RS11335"; product "multidrug efflux RND transporter subunit MdtA"; protein_id "WP_000678989.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2243048 2243050 . + 0 gene_id "ECDH10B_RS11335"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mdtA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416578.2"; locus_tag "ECDH10B_RS11335"; product "multidrug efflux RND transporter subunit MdtA"; protein_id "WP_000678989.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2244293 2244295 . + 0 gene_id "ECDH10B_RS11335"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mdtA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416578.2"; locus_tag "ECDH10B_RS11335"; product "multidrug efflux RND transporter subunit MdtA"; protein_id "WP_000678989.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2244295 2247417 . + . gene_id "ECDH10B_RS11340"; transcript_id ""; gbkey "Gene"; gene "mdtB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11340"; old_locus_tag "ECDH10B_2227"; -NC_010473.1 Protein Homology CDS 2244295 2247414 . + 0 gene_id "ECDH10B_RS11340"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mdtB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416579.1"; locus_tag "ECDH10B_RS11340"; product "multidrug efflux RND transporter permease subunit MdtB"; protein_id "WP_001197875.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2244295 2244297 . + 0 gene_id "ECDH10B_RS11340"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mdtB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416579.1"; locus_tag "ECDH10B_RS11340"; product "multidrug efflux RND transporter permease subunit MdtB"; protein_id "WP_001197875.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2247415 2247417 . + 0 gene_id "ECDH10B_RS11340"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mdtB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416579.1"; locus_tag "ECDH10B_RS11340"; product "multidrug efflux RND transporter permease subunit MdtB"; protein_id "WP_001197875.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2247418 2250495 . + . gene_id "ECDH10B_RS11345"; transcript_id ""; gbkey "Gene"; gene "mdtC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11345"; old_locus_tag "ECDH10B_2228"; -NC_010473.1 Protein Homology CDS 2247418 2250492 . + 0 gene_id "ECDH10B_RS11345"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mdtC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416580.1"; locus_tag "ECDH10B_RS11345"; product "multidrug efflux RND transporter permease subunit MdtC"; protein_id "WP_000667481.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2247418 2247420 . + 0 gene_id "ECDH10B_RS11345"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mdtC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416580.1"; locus_tag "ECDH10B_RS11345"; product "multidrug efflux RND transporter permease subunit MdtC"; protein_id "WP_000667481.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2250493 2250495 . + 0 gene_id "ECDH10B_RS11345"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mdtC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416580.1"; locus_tag "ECDH10B_RS11345"; product "multidrug efflux RND transporter permease subunit MdtC"; protein_id "WP_000667481.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2250496 2251911 . + . gene_id "ECDH10B_RS11350"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11350"; old_locus_tag "ECDH10B_2229"; -NC_010473.1 Protein Homology CDS 2250496 2251908 . + 0 gene_id "ECDH10B_RS11350"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416581.1"; locus_tag "ECDH10B_RS11350"; product "MFS transporter"; protein_id "WP_000130850.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2250496 2250498 . + 0 gene_id "ECDH10B_RS11350"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416581.1"; locus_tag "ECDH10B_RS11350"; product "MFS transporter"; protein_id "WP_000130850.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2251909 2251911 . + 0 gene_id "ECDH10B_RS11350"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416581.1"; locus_tag "ECDH10B_RS11350"; product "MFS transporter"; protein_id "WP_000130850.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2251908 2253311 . + . gene_id "ECDH10B_RS11355"; transcript_id ""; gbkey "Gene"; gene "baeS"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11355"; old_locus_tag "ECDH10B_2230"; -NC_010473.1 Protein Homology CDS 2251908 2253308 . + 0 gene_id "ECDH10B_RS11355"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "baeS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416582.1"; locus_tag "ECDH10B_RS11355"; product "two-component system sensor histidine kinase BaeS"; protein_id "WP_000675150.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2251908 2251910 . + 0 gene_id "ECDH10B_RS11355"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "baeS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416582.1"; locus_tag "ECDH10B_RS11355"; product "two-component system sensor histidine kinase BaeS"; protein_id "WP_000675150.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2253309 2253311 . + 0 gene_id "ECDH10B_RS11355"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "baeS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416582.1"; locus_tag "ECDH10B_RS11355"; product "two-component system sensor histidine kinase BaeS"; protein_id "WP_000675150.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2253308 2254030 . + . gene_id "ECDH10B_RS11360"; transcript_id ""; gbkey "Gene"; gene "baeR"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11360"; old_locus_tag "ECDH10B_2231"; -NC_010473.1 Protein Homology CDS 2253308 2254027 . + 0 gene_id "ECDH10B_RS11360"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "baeR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416583.1"; locus_tag "ECDH10B_RS11360"; product "two-component system response regulator BaeR"; protein_id "WP_000137877.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2253308 2253310 . + 0 gene_id "ECDH10B_RS11360"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "baeR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416583.1"; locus_tag "ECDH10B_RS11360"; product "two-component system response regulator BaeR"; protein_id "WP_000137877.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2254028 2254030 . + 0 gene_id "ECDH10B_RS11360"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "baeR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416583.1"; locus_tag "ECDH10B_RS11360"; product "two-component system response regulator BaeR"; protein_id "WP_000137877.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2254221 2254553 . + . gene_id "ECDH10B_RS11365"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11365"; old_locus_tag "ECDH10B_2232"; -NC_010473.1 Protein Homology CDS 2254221 2254550 . + 0 gene_id "ECDH10B_RS11365"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416584.4"; locus_tag "ECDH10B_RS11365"; product "YegP family protein"; protein_id "WP_001350529.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2254221 2254223 . + 0 gene_id "ECDH10B_RS11365"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416584.4"; locus_tag "ECDH10B_RS11365"; product "YegP family protein"; protein_id "WP_001350529.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2254551 2254553 . + 0 gene_id "ECDH10B_RS11365"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416584.4"; locus_tag "ECDH10B_RS11365"; product "YegP family protein"; protein_id "WP_001350529.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2254700 2256061 . + . gene_id "ECDH10B_RS11370"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11370"; old_locus_tag "ECDH10B_2233"; -NC_010473.1 Protein Homology CDS 2254700 2256058 . + 0 gene_id "ECDH10B_RS11370"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416585.1"; locus_tag "ECDH10B_RS11370"; product "tRNA 5-hydroxyuridine modification protein YegQ"; protein_id "WP_000476011.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2254700 2254702 . + 0 gene_id "ECDH10B_RS11370"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416585.1"; locus_tag "ECDH10B_RS11370"; product "tRNA 5-hydroxyuridine modification protein YegQ"; protein_id "WP_000476011.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2256059 2256061 . + 0 gene_id "ECDH10B_RS11370"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416585.1"; locus_tag "ECDH10B_RS11370"; product "tRNA 5-hydroxyuridine modification protein YegQ"; protein_id "WP_000476011.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2256334 2256552 . - . gene_id "ECDH10B_RS24405"; transcript_id ""; gbkey "Gene"; gene "ogrK"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS24405"; old_locus_tag "ECDH10B_2235"; -NC_010473.1 Protein Homology CDS 2256337 2256552 . - 0 gene_id "ECDH10B_RS24405"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ogrK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416586.1"; locus_tag "ECDH10B_RS24405"; product "prophage transcriptional regulator OgrK"; protein_id "WP_000468310.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2256550 2256552 . - 0 gene_id "ECDH10B_RS24405"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ogrK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416586.1"; locus_tag "ECDH10B_RS24405"; product "prophage transcriptional regulator OgrK"; protein_id "WP_000468310.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2256334 2256336 . - 0 gene_id "ECDH10B_RS24405"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ogrK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416586.1"; locus_tag "ECDH10B_RS24405"; product "prophage transcriptional regulator OgrK"; protein_id "WP_000468310.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2256634 2256846 . - . gene_id "ECDH10B_RS24410"; transcript_id ""; gbkey "Gene"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS24410"; partial "true"; pseudo "true"; -NC_010473.1 Protein Homology CDS 2256637 2256846 . - 0 gene_id "ECDH10B_RS24410"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_016157990.1"; locus_tag "ECDH10B_RS24410"; note "incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "phage late control D family protein"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2256844 2256846 . - 0 gene_id "ECDH10B_RS24410"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_016157990.1"; locus_tag "ECDH10B_RS24410"; note "incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "phage late control D family protein"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2256634 2256636 . - 0 gene_id "ECDH10B_RS24410"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_016157990.1"; locus_tag "ECDH10B_RS24410"; note "incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "phage late control D family protein"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 2257021 2257338 . - . gene_id "ECDH10B_RS11385"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11385"; old_locus_tag "ECDH10B_2237"; -NC_010473.1 Protein Homology CDS 2257024 2257338 . - 0 gene_id "ECDH10B_RS11385"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416589.2"; locus_tag "ECDH10B_RS11385"; product "hypothetical protein"; protein_id "WP_001318299.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2257336 2257338 . - 0 gene_id "ECDH10B_RS11385"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416589.2"; locus_tag "ECDH10B_RS11385"; product "hypothetical protein"; protein_id "WP_001318299.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2257021 2257023 . - 0 gene_id "ECDH10B_RS11385"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416589.2"; locus_tag "ECDH10B_RS11385"; product "hypothetical protein"; protein_id "WP_001318299.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2257744 2258643 . + . gene_id "ECDH10B_RS11390"; transcript_id ""; gbkey "Gene"; gene "yegS"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11390"; old_locus_tag "ECDH10B_2238"; -NC_010473.1 Protein Homology CDS 2257744 2258640 . + 0 gene_id "ECDH10B_RS11390"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yegS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416590.1"; locus_tag "ECDH10B_RS11390"; product "lipid kinase YegS"; protein_id "WP_000807348.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2257744 2257746 . + 0 gene_id "ECDH10B_RS11390"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yegS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416590.1"; locus_tag "ECDH10B_RS11390"; product "lipid kinase YegS"; protein_id "WP_000807348.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2258641 2258643 . + 0 gene_id "ECDH10B_RS11390"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yegS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416590.1"; locus_tag "ECDH10B_RS11390"; product "lipid kinase YegS"; protein_id "WP_000807348.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2258725 2259201 . - . gene_id "ECDH10B_RS11395"; transcript_id ""; gbkey "Gene"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS11395"; partial "true"; pseudo "true"; -NC_010473.1 Protein Homology CDS 2258728 2259201 . - 0 gene_id "ECDH10B_RS11395"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310920.1"; locus_tag "ECDH10B_RS11395"; note "incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "DeoR/GlpR transcriptional regulator"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2259199 2259201 . - 0 gene_id "ECDH10B_RS11395"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310920.1"; locus_tag "ECDH10B_RS11395"; note "incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "DeoR/GlpR transcriptional regulator"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2258725 2258727 . - 0 gene_id "ECDH10B_RS11395"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310920.1"; locus_tag "ECDH10B_RS11395"; note "incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "DeoR/GlpR transcriptional regulator"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 2259268 2260430 . + . gene_id "ECDH10B_RS11405"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11405"; old_locus_tag "ECDH10B_2243"; -NC_010473.1 Protein Homology CDS 2259268 2259529 . + 0 gene_id "ECDH10B_RS11405"; transcript_id "unknown_transcript_1"; exception "ribosomal slippage"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_012477168.1"; locus_tag "ECDH10B_RS11405"; note "programmed frameshift"; product "IS3-like element IS3 family transposase"; protein_id "WP_085947771.1"; transl_table "11"; -NC_010473.1 Protein Homology CDS 2259529 2260427 . + 0 gene_id "ECDH10B_RS11405"; transcript_id "unknown_transcript_1"; exception "ribosomal slippage"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_012477168.1"; locus_tag "ECDH10B_RS11405"; note "programmed frameshift"; product "IS3-like element IS3 family transposase"; protein_id "WP_085947771.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2259268 2259270 . + 0 gene_id "ECDH10B_RS11405"; transcript_id "unknown_transcript_1"; exception "ribosomal slippage"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_012477168.1"; locus_tag "ECDH10B_RS11405"; note "programmed frameshift"; product "IS3-like element IS3 family transposase"; protein_id "WP_085947771.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2260428 2260430 . + 0 gene_id "ECDH10B_RS11405"; transcript_id "unknown_transcript_1"; exception "ribosomal slippage"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_012477168.1"; locus_tag "ECDH10B_RS11405"; note "programmed frameshift"; product "IS3-like element IS3 family transposase"; protein_id "WP_085947771.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2260460 2260765 . - . gene_id "ECDH10B_RS11410"; transcript_id ""; gbkey "Gene"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS11410"; partial "true"; pseudo "true"; -NC_010473.1 Protein Homology CDS 2260463 2260765 . - 0 gene_id "ECDH10B_RS11410"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310920.1"; locus_tag "ECDH10B_RS11410"; note "incomplete; partial in the middle of a contig; missing C-terminus"; partial "true"; product "DeoR/GlpR transcriptional regulator"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2260763 2260765 . - 0 gene_id "ECDH10B_RS11410"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310920.1"; locus_tag "ECDH10B_RS11410"; note "incomplete; partial in the middle of a contig; missing C-terminus"; partial "true"; product "DeoR/GlpR transcriptional regulator"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2260460 2260462 . - 0 gene_id "ECDH10B_RS11410"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310920.1"; locus_tag "ECDH10B_RS11410"; note "incomplete; partial in the middle of a contig; missing C-terminus"; partial "true"; product "DeoR/GlpR transcriptional regulator"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 2260865 2261905 . - . gene_id "ECDH10B_RS11415"; transcript_id ""; gbkey "Gene"; gene "gatD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11415"; old_locus_tag "ECDH10B_2244"; -NC_010473.1 Protein Homology CDS 2260868 2261905 . - 0 gene_id "ECDH10B_RS11415"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gatD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310921.1"; locus_tag "ECDH10B_RS11415"; product "galactitol-1-phosphate 5-dehydrogenase"; protein_id "WP_000844219.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2261903 2261905 . - 0 gene_id "ECDH10B_RS11415"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gatD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310921.1"; locus_tag "ECDH10B_RS11415"; product "galactitol-1-phosphate 5-dehydrogenase"; protein_id "WP_000844219.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2260865 2260867 . - 0 gene_id "ECDH10B_RS11415"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gatD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310921.1"; locus_tag "ECDH10B_RS11415"; product "galactitol-1-phosphate 5-dehydrogenase"; protein_id "WP_000844219.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2261953 2263308 . - . gene_id "ECDH10B_RS11420"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11420"; old_locus_tag "ECDH10B_2245"; -NC_010473.1 Protein Homology CDS 2261956 2263308 . - 0 gene_id "ECDH10B_RS11420"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310922.1"; locus_tag "ECDH10B_RS11420"; product "galactitol permease IIC component"; protein_id "WP_000490679.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2263306 2263308 . - 0 gene_id "ECDH10B_RS11420"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310922.1"; locus_tag "ECDH10B_RS11420"; product "galactitol permease IIC component"; protein_id "WP_000490679.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2261953 2261955 . - 0 gene_id "ECDH10B_RS11420"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310922.1"; locus_tag "ECDH10B_RS11420"; product "galactitol permease IIC component"; protein_id "WP_000490679.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2263312 2263596 . - . gene_id "ECDH10B_RS11425"; transcript_id ""; gbkey "Gene"; gene "gatB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11425"; old_locus_tag "ECDH10B_2246"; -NC_010473.1 Protein Homology CDS 2263315 2263596 . - 0 gene_id "ECDH10B_RS11425"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gatB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416596.1"; locus_tag "ECDH10B_RS11425"; product "PTS galactitol transporter subunit IIB"; protein_id "WP_000823270.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2263594 2263596 . - 0 gene_id "ECDH10B_RS11425"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gatB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416596.1"; locus_tag "ECDH10B_RS11425"; product "PTS galactitol transporter subunit IIB"; protein_id "WP_000823270.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2263312 2263314 . - 0 gene_id "ECDH10B_RS11425"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gatB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416596.1"; locus_tag "ECDH10B_RS11425"; product "PTS galactitol transporter subunit IIB"; protein_id "WP_000823270.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2263627 2264079 . - . gene_id "ECDH10B_RS11430"; transcript_id ""; gbkey "Gene"; gene "gatA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11430"; old_locus_tag "ECDH10B_2247"; -NC_010473.1 Protein Homology CDS 2263630 2264079 . - 0 gene_id "ECDH10B_RS11430"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gatA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310924.1"; locus_tag "ECDH10B_RS11430"; product "PTS galactitol transporter subunit IIA"; protein_id "WP_000182899.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2264077 2264079 . - 0 gene_id "ECDH10B_RS11430"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gatA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310924.1"; locus_tag "ECDH10B_RS11430"; product "PTS galactitol transporter subunit IIA"; protein_id "WP_000182899.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2263627 2263629 . - 0 gene_id "ECDH10B_RS11430"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gatA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310924.1"; locus_tag "ECDH10B_RS11430"; product "PTS galactitol transporter subunit IIA"; protein_id "WP_000182899.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2264089 2265351 . - . gene_id "ECDH10B_RS11435"; transcript_id ""; gbkey "Gene"; gene "gatZ"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS11435"; pseudo "true"; -NC_010473.1 Protein Homology CDS 2264092 2265351 . - 0 gene_id "ECDH10B_RS11435"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gatZ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416598.1"; locus_tag "ECDH10B_RS11435"; note "internal stop"; product "tagatose-bisphosphate aldolase subunit GatZ"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2265349 2265351 . - 0 gene_id "ECDH10B_RS11435"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gatZ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416598.1"; locus_tag "ECDH10B_RS11435"; note "internal stop"; product "tagatose-bisphosphate aldolase subunit GatZ"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2264089 2264091 . - 0 gene_id "ECDH10B_RS11435"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gatZ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416598.1"; locus_tag "ECDH10B_RS11435"; note "internal stop"; product "tagatose-bisphosphate aldolase subunit GatZ"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 2265380 2266234 . - . gene_id "ECDH10B_RS11440"; transcript_id ""; gbkey "Gene"; gene "gatY"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11440"; old_locus_tag "ECDH10B_2249"; -NC_010473.1 Protein Homology CDS 2265383 2266234 . - 0 gene_id "ECDH10B_RS11440"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gatY"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416599.2"; locus_tag "ECDH10B_RS11440"; product "tagatose-bisphosphate aldolase subunit GatY"; protein_id "WP_001307281.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2266232 2266234 . - 0 gene_id "ECDH10B_RS11440"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gatY"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416599.2"; locus_tag "ECDH10B_RS11440"; product "tagatose-bisphosphate aldolase subunit GatY"; protein_id "WP_001307281.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2265380 2265382 . - 0 gene_id "ECDH10B_RS11440"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gatY"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416599.2"; locus_tag "ECDH10B_RS11440"; product "tagatose-bisphosphate aldolase subunit GatY"; protein_id "WP_001307281.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2266542 2267594 . - . gene_id "ECDH10B_RS11445"; transcript_id ""; gbkey "Gene"; gene "fbaB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11445"; old_locus_tag "ECDH10B_2250"; -NC_010473.1 Protein Homology CDS 2266545 2267594 . - 0 gene_id "ECDH10B_RS11445"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fbaB"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_006820796.1"; locus_tag "ECDH10B_RS11445"; product "class I fructose-bisphosphate aldolase"; protein_id "WP_000129551.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2267592 2267594 . - 0 gene_id "ECDH10B_RS11445"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fbaB"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_006820796.1"; locus_tag "ECDH10B_RS11445"; product "class I fructose-bisphosphate aldolase"; protein_id "WP_000129551.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2266542 2266544 . - 0 gene_id "ECDH10B_RS11445"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fbaB"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_006820796.1"; locus_tag "ECDH10B_RS11445"; product "class I fructose-bisphosphate aldolase"; protein_id "WP_000129551.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2267851 2269128 . + . gene_id "ECDH10B_RS11450"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11450"; old_locus_tag "ECDH10B_2251"; -NC_010473.1 Protein Homology CDS 2267851 2269125 . + 0 gene_id "ECDH10B_RS11450"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416601.1"; locus_tag "ECDH10B_RS11450"; product "nucleoside permease"; protein_id "WP_000858484.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2267851 2267853 . + 0 gene_id "ECDH10B_RS11450"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416601.1"; locus_tag "ECDH10B_RS11450"; product "nucleoside permease"; protein_id "WP_000858484.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2269126 2269128 . + 0 gene_id "ECDH10B_RS11450"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416601.1"; locus_tag "ECDH10B_RS11450"; product "nucleoside permease"; protein_id "WP_000858484.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2269125 2270129 . + . gene_id "ECDH10B_RS11455"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11455"; old_locus_tag "ECDH10B_2252"; -NC_010473.1 Protein Homology CDS 2269125 2270126 . + 0 gene_id "ECDH10B_RS11455"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416602.1"; locus_tag "ECDH10B_RS11455"; product "ADP-ribosylglycohydrolase family protein"; protein_id "WP_000846217.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2269125 2269127 . + 0 gene_id "ECDH10B_RS11455"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416602.1"; locus_tag "ECDH10B_RS11455"; product "ADP-ribosylglycohydrolase family protein"; protein_id "WP_000846217.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2270127 2270129 . + 0 gene_id "ECDH10B_RS11455"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416602.1"; locus_tag "ECDH10B_RS11455"; product "ADP-ribosylglycohydrolase family protein"; protein_id "WP_000846217.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2270126 2271091 . + . gene_id "ECDH10B_RS11460"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11460"; old_locus_tag "ECDH10B_2253"; -NC_010473.1 Protein Homology CDS 2270126 2271088 . + 0 gene_id "ECDH10B_RS11460"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416603.1"; locus_tag "ECDH10B_RS11460"; product "kinase"; protein_id "WP_000012001.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2270126 2270128 . + 0 gene_id "ECDH10B_RS11460"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416603.1"; locus_tag "ECDH10B_RS11460"; product "kinase"; protein_id "WP_000012001.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2271089 2271091 . + 0 gene_id "ECDH10B_RS11460"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416603.1"; locus_tag "ECDH10B_RS11460"; product "kinase"; protein_id "WP_000012001.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2271065 2271811 . - . gene_id "ECDH10B_RS11465"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11465"; old_locus_tag "ECDH10B_2254"; -NC_010473.1 Protein Homology CDS 2271068 2271811 . - 0 gene_id "ECDH10B_RS11465"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310931.1"; locus_tag "ECDH10B_RS11465"; product "GntR family transcriptional regulator"; protein_id "WP_000434038.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2271809 2271811 . - 0 gene_id "ECDH10B_RS11465"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310931.1"; locus_tag "ECDH10B_RS11465"; product "GntR family transcriptional regulator"; protein_id "WP_000434038.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2271065 2271067 . - 0 gene_id "ECDH10B_RS11465"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310931.1"; locus_tag "ECDH10B_RS11465"; product "GntR family transcriptional regulator"; protein_id "WP_000434038.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2271863 2272681 . - . gene_id "ECDH10B_RS11470"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11470"; old_locus_tag "ECDH10B_2255"; -NC_010473.1 Protein Homology CDS 2271866 2272681 . - 0 gene_id "ECDH10B_RS11470"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416605.2"; locus_tag "ECDH10B_RS11470"; product "glycoside hydrolase family 25 protein"; protein_id "WP_001351783.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2272679 2272681 . - 0 gene_id "ECDH10B_RS11470"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416605.2"; locus_tag "ECDH10B_RS11470"; product "glycoside hydrolase family 25 protein"; protein_id "WP_001351783.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2271863 2271865 . - 0 gene_id "ECDH10B_RS11470"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416605.2"; locus_tag "ECDH10B_RS11470"; product "glycoside hydrolase family 25 protein"; protein_id "WP_001351783.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2272746 2273546 . - . gene_id "ECDH10B_RS11475"; transcript_id ""; gbkey "Gene"; gene "thiD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11475"; old_locus_tag "ECDH10B_2256"; -NC_010473.1 Protein Homology CDS 2272749 2273546 . - 0 gene_id "ECDH10B_RS11475"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "thiD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416606.1"; locus_tag "ECDH10B_RS11475"; product "bifunctional hydroxymethylpyrimidine kinase/phosphomethylpyrimidine kinase"; protein_id "WP_000822274.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2273544 2273546 . - 0 gene_id "ECDH10B_RS11475"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "thiD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416606.1"; locus_tag "ECDH10B_RS11475"; product "bifunctional hydroxymethylpyrimidine kinase/phosphomethylpyrimidine kinase"; protein_id "WP_000822274.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2272746 2272748 . - 0 gene_id "ECDH10B_RS11475"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "thiD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416606.1"; locus_tag "ECDH10B_RS11475"; product "bifunctional hydroxymethylpyrimidine kinase/phosphomethylpyrimidine kinase"; protein_id "WP_000822274.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2273543 2274331 . - . gene_id "ECDH10B_RS11480"; transcript_id ""; gbkey "Gene"; gene "thiM"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11480"; old_locus_tag "ECDH10B_2257"; -NC_010473.1 Protein Homology CDS 2273546 2274331 . - 0 gene_id "ECDH10B_RS11480"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "thiM"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416607.1"; locus_tag "ECDH10B_RS11480"; product "hydroxyethylthiazole kinase"; protein_id "WP_001195564.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2274329 2274331 . - 0 gene_id "ECDH10B_RS11480"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "thiM"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416607.1"; locus_tag "ECDH10B_RS11480"; product "hydroxyethylthiazole kinase"; protein_id "WP_001195564.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2273543 2273545 . - 0 gene_id "ECDH10B_RS11480"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "thiM"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416607.1"; locus_tag "ECDH10B_RS11480"; product "hydroxyethylthiazole kinase"; protein_id "WP_001195564.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2274554 2274826 . - . gene_id "ECDH10B_RS11485"; transcript_id ""; gbkey "Gene"; gene "rcnR"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11485"; old_locus_tag "ECDH10B_2258"; -NC_010473.1 Protein Homology CDS 2274557 2274826 . - 0 gene_id "ECDH10B_RS11485"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rcnR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310938.1"; locus_tag "ECDH10B_RS11485"; product "Ni(II)/Co(II)-binding transcriptional repressor RcnR"; protein_id "WP_000019944.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2274824 2274826 . - 0 gene_id "ECDH10B_RS11485"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rcnR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310938.1"; locus_tag "ECDH10B_RS11485"; product "Ni(II)/Co(II)-binding transcriptional repressor RcnR"; protein_id "WP_000019944.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2274554 2274556 . - 0 gene_id "ECDH10B_RS11485"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rcnR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310938.1"; locus_tag "ECDH10B_RS11485"; product "Ni(II)/Co(II)-binding transcriptional repressor RcnR"; protein_id "WP_000019944.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2274947 2275771 . + . gene_id "ECDH10B_RS11490"; transcript_id ""; gbkey "Gene"; gene "rcnA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11490"; old_locus_tag "ECDH10B_2259"; -NC_010473.1 Protein Homology CDS 2274947 2275768 . + 0 gene_id "ECDH10B_RS11490"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rcnA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416609.1"; locus_tag "ECDH10B_RS11490"; product "nickel/cobalt efflux protein RcnA"; protein_id "WP_000134636.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2274947 2274949 . + 0 gene_id "ECDH10B_RS11490"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rcnA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416609.1"; locus_tag "ECDH10B_RS11490"; product "nickel/cobalt efflux protein RcnA"; protein_id "WP_000134636.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2275769 2275771 . + 0 gene_id "ECDH10B_RS11490"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rcnA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416609.1"; locus_tag "ECDH10B_RS11490"; product "nickel/cobalt efflux protein RcnA"; protein_id "WP_000134636.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2275990 2276328 . + . gene_id "ECDH10B_RS11495"; transcript_id ""; gbkey "Gene"; gene "rcnB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11495"; old_locus_tag "ECDH10B_2260"; -NC_010473.1 Protein Homology CDS 2275990 2276325 . + 0 gene_id "ECDH10B_RS11495"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rcnB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416610.4"; locus_tag "ECDH10B_RS11495"; product "Ni(II)/Co(II) efflux transporter accessory subunit RcnB"; protein_id "WP_000153067.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2275990 2275992 . + 0 gene_id "ECDH10B_RS11495"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rcnB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416610.4"; locus_tag "ECDH10B_RS11495"; product "Ni(II)/Co(II) efflux transporter accessory subunit RcnB"; protein_id "WP_000153067.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2276326 2276328 . + 0 gene_id "ECDH10B_RS11495"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rcnB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416610.4"; locus_tag "ECDH10B_RS11495"; product "Ni(II)/Co(II) efflux transporter accessory subunit RcnB"; protein_id "WP_000153067.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2276410 2277444 . - . gene_id "ECDH10B_RS11500"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11500"; -NC_010473.1 Protein Homology CDS 2276413 2277444 . - 0 gene_id "ECDH10B_RS11500"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416611.1"; locus_tag "ECDH10B_RS11500"; product "putative fimbrial-like adhesin protein"; protein_id "WP_000405697.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2277442 2277444 . - 0 gene_id "ECDH10B_RS11500"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416611.1"; locus_tag "ECDH10B_RS11500"; product "putative fimbrial-like adhesin protein"; protein_id "WP_000405697.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2276410 2276412 . - 0 gene_id "ECDH10B_RS11500"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416611.1"; locus_tag "ECDH10B_RS11500"; product "putative fimbrial-like adhesin protein"; protein_id "WP_000405697.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2277460 2279940 . - . gene_id "ECDH10B_RS11505"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11505"; old_locus_tag "ECDH10B_2262"; -NC_010473.1 Protein Homology CDS 2277463 2279940 . - 0 gene_id "ECDH10B_RS11505"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416612.1"; locus_tag "ECDH10B_RS11505"; product "fimbrial biogenesis outer membrane usher protein"; protein_id "WP_000945454.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2279938 2279940 . - 0 gene_id "ECDH10B_RS11505"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416612.1"; locus_tag "ECDH10B_RS11505"; product "fimbrial biogenesis outer membrane usher protein"; protein_id "WP_000945454.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2277460 2277462 . - 0 gene_id "ECDH10B_RS11505"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416612.1"; locus_tag "ECDH10B_RS11505"; product "fimbrial biogenesis outer membrane usher protein"; protein_id "WP_000945454.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2279956 2280630 . - . gene_id "ECDH10B_RS11510"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11510"; old_locus_tag "ECDH10B_2263"; -NC_010473.1 Protein Homology CDS 2279959 2280630 . - 0 gene_id "ECDH10B_RS11510"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310943.1"; locus_tag "ECDH10B_RS11510"; product "fimbria/pilus periplasmic chaperone"; protein_id "WP_000677393.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2280628 2280630 . - 0 gene_id "ECDH10B_RS11510"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310943.1"; locus_tag "ECDH10B_RS11510"; product "fimbria/pilus periplasmic chaperone"; protein_id "WP_000677393.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2279956 2279958 . - 0 gene_id "ECDH10B_RS11510"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310943.1"; locus_tag "ECDH10B_RS11510"; product "fimbria/pilus periplasmic chaperone"; protein_id "WP_000677393.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2280710 2281252 . - . gene_id "ECDH10B_RS11515"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11515"; old_locus_tag "ECDH10B_2264"; -NC_010473.1 Protein Homology CDS 2280713 2281252 . - 0 gene_id "ECDH10B_RS11515"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416614.1"; locus_tag "ECDH10B_RS11515"; product "fimbrial protein"; protein_id "WP_000830456.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2281250 2281252 . - 0 gene_id "ECDH10B_RS11515"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416614.1"; locus_tag "ECDH10B_RS11515"; product "fimbrial protein"; protein_id "WP_000830456.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2280710 2280712 . - 0 gene_id "ECDH10B_RS11515"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416614.1"; locus_tag "ECDH10B_RS11515"; product "fimbrial protein"; protein_id "WP_000830456.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2281545 2281826 . - . gene_id "ECDH10B_RS11525"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11525"; old_locus_tag "ECDH10B_2265"; -NC_010473.1 Protein Homology CDS 2281548 2281826 . - 0 gene_id "ECDH10B_RS11525"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416615.1"; locus_tag "ECDH10B_RS11525"; product "YehE family protein"; protein_id "WP_001324851.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2281824 2281826 . - 0 gene_id "ECDH10B_RS11525"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416615.1"; locus_tag "ECDH10B_RS11525"; product "YehE family protein"; protein_id "WP_001324851.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2281545 2281547 . - 0 gene_id "ECDH10B_RS11525"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416615.1"; locus_tag "ECDH10B_RS11525"; product "YehE family protein"; protein_id "WP_001324851.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2282089 2283198 . - . gene_id "ECDH10B_RS11530"; transcript_id ""; gbkey "Gene"; gene "apbC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11530"; old_locus_tag "ECDH10B_2266"; -NC_010473.1 Protein Homology CDS 2282092 2283198 . - 0 gene_id "ECDH10B_RS11530"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "apbC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310946.2"; locus_tag "ECDH10B_RS11530"; product "iron-sulfur cluster carrier protein ApbC"; protein_id "WP_001005448.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2283196 2283198 . - 0 gene_id "ECDH10B_RS11530"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "apbC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310946.2"; locus_tag "ECDH10B_RS11530"; product "iron-sulfur cluster carrier protein ApbC"; protein_id "WP_001005448.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2282089 2282091 . - 0 gene_id "ECDH10B_RS11530"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "apbC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310946.2"; locus_tag "ECDH10B_RS11530"; product "iron-sulfur cluster carrier protein ApbC"; protein_id "WP_001005448.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2283330 2285363 . + . gene_id "ECDH10B_RS11535"; transcript_id ""; gbkey "Gene"; gene "metG"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11535"; old_locus_tag "ECDH10B_2267"; -NC_010473.1 Protein Homology CDS 2283330 2285360 . + 0 gene_id "ECDH10B_RS11535"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "metG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416617.1"; locus_tag "ECDH10B_RS11535"; product "methionine--tRNA ligase"; protein_id "WP_001350533.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2283330 2283332 . + 0 gene_id "ECDH10B_RS11535"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "metG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416617.1"; locus_tag "ECDH10B_RS11535"; product "methionine--tRNA ligase"; protein_id "WP_001350533.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2285361 2285363 . + 0 gene_id "ECDH10B_RS11535"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "metG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416617.1"; locus_tag "ECDH10B_RS11535"; product "methionine--tRNA ligase"; protein_id "WP_001350533.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2285504 2289299 . + . gene_id "ECDH10B_RS26050"; transcript_id ""; gbkey "Gene"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS26050"; pseudo "true"; -NC_010473.1 Protein Homology CDS 2285504 2289296 . + 0 gene_id "ECDH10B_RS26050"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001215568.1"; locus_tag "ECDH10B_RS26050"; note "frameshifted; internal stop"; product "WGR and DUF4132 domain-containing protein"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2285504 2285506 . + 0 gene_id "ECDH10B_RS26050"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001215568.1"; locus_tag "ECDH10B_RS26050"; note "frameshifted; internal stop"; product "WGR and DUF4132 domain-containing protein"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2289297 2289299 . + 0 gene_id "ECDH10B_RS26050"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001215568.1"; locus_tag "ECDH10B_RS26050"; note "frameshifted; internal stop"; product "WGR and DUF4132 domain-containing protein"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 2289309 2292941 . + . gene_id "ECDH10B_RS11550"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11550"; old_locus_tag "ECDH10B_2272"; -NC_010473.1 Protein Homology CDS 2289309 2292938 . + 0 gene_id "ECDH10B_RS11550"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416621.1"; locus_tag "ECDH10B_RS11550"; product "DUF4132 domain-containing protein"; protein_id "WP_000356817.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2289309 2289311 . + 0 gene_id "ECDH10B_RS11550"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416621.1"; locus_tag "ECDH10B_RS11550"; product "DUF4132 domain-containing protein"; protein_id "WP_000356817.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2292939 2292941 . + 0 gene_id "ECDH10B_RS11550"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416621.1"; locus_tag "ECDH10B_RS11550"; product "DUF4132 domain-containing protein"; protein_id "WP_000356817.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2293002 2293319 . + . gene_id "ECDH10B_RS11555"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11555"; old_locus_tag "ECDH10B_2273"; -NC_010473.1 Protein Homology CDS 2293002 2293316 . + 0 gene_id "ECDH10B_RS11555"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_588459.1"; locus_tag "ECDH10B_RS11555"; product "hypothetical protein"; protein_id "WP_000636925.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2293002 2293004 . + 0 gene_id "ECDH10B_RS11555"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_588459.1"; locus_tag "ECDH10B_RS11555"; product "hypothetical protein"; protein_id "WP_000636925.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2293317 2293319 . + 0 gene_id "ECDH10B_RS11555"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_588459.1"; locus_tag "ECDH10B_RS11555"; product "hypothetical protein"; protein_id "WP_000636925.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2293626 2294714 . + . gene_id "ECDH10B_RS11560"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11560"; old_locus_tag "ECDH10B_2274"; -NC_010473.1 Protein Homology CDS 2293626 2294711 . + 0 gene_id "ECDH10B_RS11560"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416623.2"; locus_tag "ECDH10B_RS11560"; product "MoxR family ATPase"; protein_id "WP_001350535.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2293626 2293628 . + 0 gene_id "ECDH10B_RS11560"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416623.2"; locus_tag "ECDH10B_RS11560"; product "MoxR family ATPase"; protein_id "WP_001350535.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2294712 2294714 . + 0 gene_id "ECDH10B_RS11560"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416623.2"; locus_tag "ECDH10B_RS11560"; product "MoxR family ATPase"; protein_id "WP_001350535.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2294725 2297004 . + . gene_id "ECDH10B_RS11565"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11565"; old_locus_tag "ECDH10B_2275"; -NC_010473.1 Protein Homology CDS 2294725 2297001 . + 0 gene_id "ECDH10B_RS11565"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416624.1"; locus_tag "ECDH10B_RS11565"; product "hypothetical protein"; protein_id "WP_001294387.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2294725 2294727 . + 0 gene_id "ECDH10B_RS11565"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416624.1"; locus_tag "ECDH10B_RS11565"; product "hypothetical protein"; protein_id "WP_001294387.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2297002 2297004 . + 0 gene_id "ECDH10B_RS11565"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416624.1"; locus_tag "ECDH10B_RS11565"; product "hypothetical protein"; protein_id "WP_001294387.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2296997 2298133 . + . gene_id "ECDH10B_RS11570"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11570"; old_locus_tag "ECDH10B_2276"; -NC_010473.1 Protein Homology CDS 2296997 2298130 . + 0 gene_id "ECDH10B_RS11570"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416625.1"; locus_tag "ECDH10B_RS11570"; product "VWA domain-containing protein"; protein_id "WP_001333512.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2296997 2296999 . + 0 gene_id "ECDH10B_RS11570"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416625.1"; locus_tag "ECDH10B_RS11570"; product "VWA domain-containing protein"; protein_id "WP_001333512.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2298131 2298133 . + 0 gene_id "ECDH10B_RS11570"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416625.1"; locus_tag "ECDH10B_RS11570"; product "VWA domain-containing protein"; protein_id "WP_001333512.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2298130 2300130 . + . gene_id "ECDH10B_RS11575"; transcript_id ""; gbkey "Gene"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS11575"; old_locus_tag "ECDH10B_2277"; pseudo "true"; -NC_010473.1 Protein Homology CDS 2298130 2300127 . + 0 gene_id "ECDH10B_RS11575"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_708010.2"; locus_tag "ECDH10B_RS11575"; note "internal stop"; product "SWIM zinc finger family protein"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2298130 2298132 . + 0 gene_id "ECDH10B_RS11575"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_708010.2"; locus_tag "ECDH10B_RS11575"; note "internal stop"; product "SWIM zinc finger family protein"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2300128 2300130 . + 0 gene_id "ECDH10B_RS11575"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_708010.2"; locus_tag "ECDH10B_RS11575"; note "internal stop"; product "SWIM zinc finger family protein"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 2300255 2300716 . + . gene_id "ECDH10B_RS11580"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11580"; old_locus_tag "ECDH10B_2278"; -NC_010473.1 Protein Homology CDS 2300255 2300713 . + 0 gene_id "ECDH10B_RS11580"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416627.2"; locus_tag "ECDH10B_RS11580"; product "YehR family lipoprotein"; protein_id "WP_001295429.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2300255 2300257 . + 0 gene_id "ECDH10B_RS11580"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416627.2"; locus_tag "ECDH10B_RS11580"; product "YehR family lipoprotein"; protein_id "WP_001295429.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2300714 2300716 . + 0 gene_id "ECDH10B_RS11580"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416627.2"; locus_tag "ECDH10B_RS11580"; product "YehR family lipoprotein"; protein_id "WP_001295429.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2300756 2301226 . - . gene_id "ECDH10B_RS11585"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11585"; old_locus_tag "ECDH10B_2279"; -NC_010473.1 Protein Homology CDS 2300759 2301226 . - 0 gene_id "ECDH10B_RS11585"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416628.1"; locus_tag "ECDH10B_RS11585"; product "DUF1456 family protein"; protein_id "WP_000950409.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2301224 2301226 . - 0 gene_id "ECDH10B_RS11585"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416628.1"; locus_tag "ECDH10B_RS11585"; product "DUF1456 family protein"; protein_id "WP_000950409.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2300756 2300758 . - 0 gene_id "ECDH10B_RS11585"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416628.1"; locus_tag "ECDH10B_RS11585"; product "DUF1456 family protein"; protein_id "WP_000950409.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2301273 2301992 . - . gene_id "ECDH10B_RS11590"; transcript_id ""; gbkey "Gene"; gene "yehT"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11590"; old_locus_tag "ECDH10B_2280"; -NC_010473.1 Protein Homology CDS 2301276 2301992 . - 0 gene_id "ECDH10B_RS11590"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yehT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310963.2"; locus_tag "ECDH10B_RS11590"; product "two-component system response regulator BtsR"; protein_id "WP_000598641.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2301990 2301992 . - 0 gene_id "ECDH10B_RS11590"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yehT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310963.2"; locus_tag "ECDH10B_RS11590"; product "two-component system response regulator BtsR"; protein_id "WP_000598641.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2301273 2301275 . - 0 gene_id "ECDH10B_RS11590"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yehT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_310963.2"; locus_tag "ECDH10B_RS11590"; product "two-component system response regulator BtsR"; protein_id "WP_000598641.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2301989 2303674 . - . gene_id "ECDH10B_RS11595"; transcript_id ""; gbkey "Gene"; gene "btsS"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11595"; old_locus_tag "ECDH10B_2281"; -NC_010473.1 Protein Homology CDS 2301992 2303674 . - 0 gene_id "ECDH10B_RS11595"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "btsS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416630.1"; locus_tag "ECDH10B_RS11595"; product "two-component regulatory system sensor histidine kinase BtsS"; protein_id "WP_001295431.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2303672 2303674 . - 0 gene_id "ECDH10B_RS11595"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "btsS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416630.1"; locus_tag "ECDH10B_RS11595"; product "two-component regulatory system sensor histidine kinase BtsS"; protein_id "WP_001295431.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2301989 2301991 . - 0 gene_id "ECDH10B_RS11595"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "btsS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416630.1"; locus_tag "ECDH10B_RS11595"; product "two-component regulatory system sensor histidine kinase BtsS"; protein_id "WP_001295431.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2303896 2304627 . + . gene_id "ECDH10B_RS11600"; transcript_id ""; gbkey "Gene"; gene "mlrA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11600"; old_locus_tag "ECDH10B_2282"; -NC_010473.1 Protein Homology CDS 2303896 2304624 . + 0 gene_id "ECDH10B_RS11600"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mlrA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416631.1"; locus_tag "ECDH10B_RS11600"; product "HTH-type transcriptional regulator MlrA"; protein_id "WP_001240401.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2303896 2303898 . + 0 gene_id "ECDH10B_RS11600"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mlrA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416631.1"; locus_tag "ECDH10B_RS11600"; product "HTH-type transcriptional regulator MlrA"; protein_id "WP_001240401.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2304625 2304627 . + 0 gene_id "ECDH10B_RS11600"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mlrA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416631.1"; locus_tag "ECDH10B_RS11600"; product "HTH-type transcriptional regulator MlrA"; protein_id "WP_001240401.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2304687 2304794 . + . gene_id "ECDH10B_RS11605"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11605"; old_locus_tag "ECDH10B_2283"; -NC_010473.1 Protein Homology CDS 2304687 2304791 . + 0 gene_id "ECDH10B_RS11605"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_588460.1"; locus_tag "ECDH10B_RS11605"; product "protein YohO"; protein_id "WP_001216963.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2304687 2304689 . + 0 gene_id "ECDH10B_RS11605"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_588460.1"; locus_tag "ECDH10B_RS11605"; product "protein YohO"; protein_id "WP_001216963.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2304792 2304794 . + 0 gene_id "ECDH10B_RS11605"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_588460.1"; locus_tag "ECDH10B_RS11605"; product "protein YohO"; protein_id "WP_001216963.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2304775 2305506 . - . gene_id "ECDH10B_RS11610"; transcript_id ""; gbkey "Gene"; gene "yehW"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11610"; old_locus_tag "ECDH10B_2284"; -NC_010473.1 Protein Homology CDS 2304778 2305506 . - 0 gene_id "ECDH10B_RS11610"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yehW"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416632.1"; locus_tag "ECDH10B_RS11610"; product "glycine betaine ABC transporter permease YehW"; protein_id "WP_000783123.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2305504 2305506 . - 0 gene_id "ECDH10B_RS11610"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yehW"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416632.1"; locus_tag "ECDH10B_RS11610"; product "glycine betaine ABC transporter permease YehW"; protein_id "WP_000783123.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2304775 2304777 . - 0 gene_id "ECDH10B_RS11610"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yehW"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416632.1"; locus_tag "ECDH10B_RS11610"; product "glycine betaine ABC transporter permease YehW"; protein_id "WP_000783123.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2305511 2306437 . - . gene_id "ECDH10B_RS11615"; transcript_id ""; gbkey "Gene"; gene "yehX"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11615"; old_locus_tag "ECDH10B_2285"; -NC_010473.1 Protein Homology CDS 2305514 2306437 . - 0 gene_id "ECDH10B_RS11615"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yehX"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416633.1"; locus_tag "ECDH10B_RS11615"; product "glycine betaine ABC transporter ATP binding protein YehX"; protein_id "WP_000569315.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2306435 2306437 . - 0 gene_id "ECDH10B_RS11615"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yehX"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416633.1"; locus_tag "ECDH10B_RS11615"; product "glycine betaine ABC transporter ATP binding protein YehX"; protein_id "WP_000569315.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2305511 2305513 . - 0 gene_id "ECDH10B_RS11615"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yehX"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416633.1"; locus_tag "ECDH10B_RS11615"; product "glycine betaine ABC transporter ATP binding protein YehX"; protein_id "WP_000569315.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2306430 2307587 . - . gene_id "ECDH10B_RS11620"; transcript_id ""; gbkey "Gene"; gene "yehY"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11620"; old_locus_tag "ECDH10B_2286"; -NC_010473.1 Protein Homology CDS 2306433 2307587 . - 0 gene_id "ECDH10B_RS11620"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yehY"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416634.1"; locus_tag "ECDH10B_RS11620"; product "glycine betaine ABC transporter permease YehY"; protein_id "WP_000220837.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2307585 2307587 . - 0 gene_id "ECDH10B_RS11620"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yehY"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416634.1"; locus_tag "ECDH10B_RS11620"; product "glycine betaine ABC transporter permease YehY"; protein_id "WP_000220837.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2306430 2306432 . - 0 gene_id "ECDH10B_RS11620"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yehY"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416634.1"; locus_tag "ECDH10B_RS11620"; product "glycine betaine ABC transporter permease YehY"; protein_id "WP_000220837.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2307594 2308511 . - . gene_id "ECDH10B_RS11625"; transcript_id ""; gbkey "Gene"; gene "osmF"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11625"; old_locus_tag "ECDH10B_2287"; -NC_010473.1 Protein Homology CDS 2307597 2308511 . - 0 gene_id "ECDH10B_RS11625"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "osmF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416635.1"; locus_tag "ECDH10B_RS11625"; product "glycine betaine ABC transporter substrate-binding protein OsmF"; protein_id "WP_001130308.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2308509 2308511 . - 0 gene_id "ECDH10B_RS11625"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "osmF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416635.1"; locus_tag "ECDH10B_RS11625"; product "glycine betaine ABC transporter substrate-binding protein OsmF"; protein_id "WP_001130308.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2307594 2307596 . - 0 gene_id "ECDH10B_RS11625"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "osmF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416635.1"; locus_tag "ECDH10B_RS11625"; product "glycine betaine ABC transporter substrate-binding protein OsmF"; protein_id "WP_001130308.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2308722 2311019 . - . gene_id "ECDH10B_RS11630"; transcript_id ""; gbkey "Gene"; gene "bglX"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11630"; old_locus_tag "ECDH10B_2288"; -NC_010473.1 Protein Homology CDS 2308725 2311019 . - 0 gene_id "ECDH10B_RS11630"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "bglX"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416636.1"; locus_tag "ECDH10B_RS11630"; product "beta-glucosidase BglX"; protein_id "WP_000871504.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2311017 2311019 . - 0 gene_id "ECDH10B_RS11630"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "bglX"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416636.1"; locus_tag "ECDH10B_RS11630"; product "beta-glucosidase BglX"; protein_id "WP_000871504.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2308722 2308724 . - 0 gene_id "ECDH10B_RS11630"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "bglX"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416636.1"; locus_tag "ECDH10B_RS11630"; product "beta-glucosidase BglX"; protein_id "WP_000871504.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2311215 2312930 . + . gene_id "ECDH10B_RS11635"; transcript_id ""; gbkey "Gene"; gene "dld"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11635"; old_locus_tag "ECDH10B_2289"; -NC_010473.1 Protein Homology CDS 2311215 2312927 . + 0 gene_id "ECDH10B_RS11635"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dld"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416637.1"; locus_tag "ECDH10B_RS11635"; product "D-lactate dehydrogenase"; protein_id "WP_000097403.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2311215 2311217 . + 0 gene_id "ECDH10B_RS11635"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dld"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416637.1"; locus_tag "ECDH10B_RS11635"; product "D-lactate dehydrogenase"; protein_id "WP_000097403.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2312928 2312930 . + 0 gene_id "ECDH10B_RS11635"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dld"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416637.1"; locus_tag "ECDH10B_RS11635"; product "D-lactate dehydrogenase"; protein_id "WP_000097403.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2312968 2313900 . - . gene_id "ECDH10B_RS11640"; transcript_id ""; gbkey "Gene"; gene "pbpG"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11640"; old_locus_tag "ECDH10B_2290"; -NC_010473.1 Protein Homology CDS 2312971 2313900 . - 0 gene_id "ECDH10B_RS11640"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pbpG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416638.4"; locus_tag "ECDH10B_RS11640"; product "D-alanyl-D-alanine endopeptidase"; protein_id "WP_001319943.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2313898 2313900 . - 0 gene_id "ECDH10B_RS11640"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pbpG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416638.4"; locus_tag "ECDH10B_RS11640"; product "D-alanyl-D-alanine endopeptidase"; protein_id "WP_001319943.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2312968 2312970 . - 0 gene_id "ECDH10B_RS11640"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pbpG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416638.4"; locus_tag "ECDH10B_RS11640"; product "D-alanyl-D-alanine endopeptidase"; protein_id "WP_001319943.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2314074 2314661 . - . gene_id "ECDH10B_RS11645"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11645"; old_locus_tag "ECDH10B_2291"; -NC_010473.1 Protein Homology CDS 2314077 2314661 . - 0 gene_id "ECDH10B_RS11645"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_014170891.1"; locus_tag "ECDH10B_RS11645"; product "YIP1 family protein"; protein_id "WP_001295454.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2314659 2314661 . - 0 gene_id "ECDH10B_RS11645"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_014170891.1"; locus_tag "ECDH10B_RS11645"; product "YIP1 family protein"; protein_id "WP_001295454.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2314074 2314076 . - 0 gene_id "ECDH10B_RS11645"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_014170891.1"; locus_tag "ECDH10B_RS11645"; product "YIP1 family protein"; protein_id "WP_001295454.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2314831 2315409 . + . gene_id "ECDH10B_RS11650"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11650"; old_locus_tag "ECDH10B_2292"; -NC_010473.1 Protein Homology CDS 2314831 2315406 . + 0 gene_id "ECDH10B_RS11650"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416640.2"; locus_tag "ECDH10B_RS11650"; product "DedA family protein"; protein_id "WP_001296821.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2314831 2314833 . + 0 gene_id "ECDH10B_RS11650"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416640.2"; locus_tag "ECDH10B_RS11650"; product "DedA family protein"; protein_id "WP_001296821.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2315407 2315409 . + 0 gene_id "ECDH10B_RS11650"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416640.2"; locus_tag "ECDH10B_RS11650"; product "DedA family protein"; protein_id "WP_001296821.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2315539 2316300 . - . gene_id "ECDH10B_RS11655"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11655"; old_locus_tag "ECDH10B_2293"; -NC_010473.1 Protein Homology CDS 2315542 2316300 . - 0 gene_id "ECDH10B_RS11655"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416641.1"; locus_tag "ECDH10B_RS11655"; product "SDR family oxidoreductase"; protein_id "WP_000079538.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2316298 2316300 . - 0 gene_id "ECDH10B_RS11655"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416641.1"; locus_tag "ECDH10B_RS11655"; product "SDR family oxidoreductase"; protein_id "WP_000079538.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2315539 2315541 . - 0 gene_id "ECDH10B_RS11655"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416641.1"; locus_tag "ECDH10B_RS11655"; product "SDR family oxidoreductase"; protein_id "WP_000079538.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2316353 2317788 . - . gene_id "ECDH10B_RS11660"; transcript_id ""; gbkey "Gene"; gene "mdtQ"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS11660"; old_locus_tag "ECDH10B_2294"; pseudo "true"; -NC_010473.1 Protein Homology CDS 2316356 2317788 . - 0 gene_id "ECDH10B_RS11660"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mdtQ"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001583680.1"; locus_tag "ECDH10B_RS11660"; note "frameshifted"; product "multidrug resistance outer membrane protein MdtQ"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2317786 2317788 . - 0 gene_id "ECDH10B_RS11660"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mdtQ"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001583680.1"; locus_tag "ECDH10B_RS11660"; note "frameshifted"; product "multidrug resistance outer membrane protein MdtQ"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2316353 2316355 . - 0 gene_id "ECDH10B_RS11660"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mdtQ"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001583680.1"; locus_tag "ECDH10B_RS11660"; note "frameshifted"; product "multidrug resistance outer membrane protein MdtQ"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 2318012 2318095 . + . gene_id "ECDH10B_RS11665"; transcript_id ""; gbkey "Gene"; gene "yohP"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11665"; -NC_010473.1 Protein Homology CDS 2318012 2318092 . + 0 gene_id "ECDH10B_RS11665"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yohP"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_020233574.1"; locus_tag "ECDH10B_RS11665"; product "protein YohP"; protein_id "WP_000691708.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2318012 2318014 . + 0 gene_id "ECDH10B_RS11665"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yohP"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_020233574.1"; locus_tag "ECDH10B_RS11665"; product "protein YohP"; protein_id "WP_000691708.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2318093 2318095 . + 0 gene_id "ECDH10B_RS11665"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yohP"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_020233574.1"; locus_tag "ECDH10B_RS11665"; product "protein YohP"; protein_id "WP_000691708.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2318468 2319415 . - . gene_id "ECDH10B_RS11670"; transcript_id ""; gbkey "Gene"; gene "dusC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11670"; old_locus_tag "ECDH10B_2297"; -NC_010473.1 Protein Homology CDS 2318471 2319415 . - 0 gene_id "ECDH10B_RS11670"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dusC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416645.1"; locus_tag "ECDH10B_RS11670"; product "tRNA dihydrouridine(16) synthase DusC"; protein_id "WP_001264861.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2319413 2319415 . - 0 gene_id "ECDH10B_RS11670"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dusC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416645.1"; locus_tag "ECDH10B_RS11670"; product "tRNA dihydrouridine(16) synthase DusC"; protein_id "WP_001264861.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2318468 2318470 . - 0 gene_id "ECDH10B_RS11670"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dusC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416645.1"; locus_tag "ECDH10B_RS11670"; product "tRNA dihydrouridine(16) synthase DusC"; protein_id "WP_001264861.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2319654 2320052 . + . gene_id "ECDH10B_RS11675"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11675"; old_locus_tag "ECDH10B_2298"; -NC_010473.1 Protein Homology CDS 2319654 2320049 . + 0 gene_id "ECDH10B_RS11675"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416646.1"; locus_tag "ECDH10B_RS11675"; product "CidA/LrgA family protein"; protein_id "WP_001295452.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2319654 2319656 . + 0 gene_id "ECDH10B_RS11675"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416646.1"; locus_tag "ECDH10B_RS11675"; product "CidA/LrgA family protein"; protein_id "WP_001295452.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2320050 2320052 . + 0 gene_id "ECDH10B_RS11675"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416646.1"; locus_tag "ECDH10B_RS11675"; product "CidA/LrgA family protein"; protein_id "WP_001295452.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2320049 2320744 . + . gene_id "ECDH10B_RS11680"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11680"; old_locus_tag "ECDH10B_2299"; -NC_010473.1 Protein Homology CDS 2320049 2320741 . + 0 gene_id "ECDH10B_RS11680"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416647.1"; locus_tag "ECDH10B_RS11680"; product "CidB/LrgB family autolysis modulator"; protein_id "WP_000968208.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2320049 2320051 . + 0 gene_id "ECDH10B_RS11680"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416647.1"; locus_tag "ECDH10B_RS11680"; product "CidB/LrgB family autolysis modulator"; protein_id "WP_000968208.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2320742 2320744 . + 0 gene_id "ECDH10B_RS11680"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416647.1"; locus_tag "ECDH10B_RS11680"; product "CidB/LrgB family autolysis modulator"; protein_id "WP_000968208.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2320874 2321758 . + . gene_id "ECDH10B_RS11685"; transcript_id ""; gbkey "Gene"; gene "cdd"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11685"; old_locus_tag "ECDH10B_2300"; -NC_010473.1 Protein Homology CDS 2320874 2321755 . + 0 gene_id "ECDH10B_RS11685"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cdd"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416648.1"; locus_tag "ECDH10B_RS11685"; product "cytidine deaminase"; protein_id "WP_000553555.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2320874 2320876 . + 0 gene_id "ECDH10B_RS11685"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cdd"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416648.1"; locus_tag "ECDH10B_RS11685"; product "cytidine deaminase"; protein_id "WP_000553555.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2321756 2321758 . + 0 gene_id "ECDH10B_RS11685"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cdd"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416648.1"; locus_tag "ECDH10B_RS11685"; product "cytidine deaminase"; protein_id "WP_000553555.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2321908 2322627 . + . gene_id "ECDH10B_RS11690"; transcript_id ""; gbkey "Gene"; gene "sanA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11690"; old_locus_tag "ECDH10B_2301"; -NC_010473.1 Protein Homology CDS 2321908 2322624 . + 0 gene_id "ECDH10B_RS11690"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sanA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311063.1"; locus_tag "ECDH10B_RS11690"; product "outer membrane permeability protein SanA"; protein_id "WP_000920064.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2321908 2321910 . + 0 gene_id "ECDH10B_RS11690"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sanA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311063.1"; locus_tag "ECDH10B_RS11690"; product "outer membrane permeability protein SanA"; protein_id "WP_000920064.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2322625 2322627 . + 0 gene_id "ECDH10B_RS11690"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sanA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311063.1"; locus_tag "ECDH10B_RS11690"; product "outer membrane permeability protein SanA"; protein_id "WP_000920064.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2322630 2322869 . + . gene_id "ECDH10B_RS11695"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11695"; old_locus_tag "ECDH10B_2302"; -NC_010473.1 Protein Homology CDS 2322630 2322866 . + 0 gene_id "ECDH10B_RS11695"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311064.1"; locus_tag "ECDH10B_RS11695"; product "DUF2542 family protein"; protein_id "WP_000383096.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2322630 2322632 . + 0 gene_id "ECDH10B_RS11695"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311064.1"; locus_tag "ECDH10B_RS11695"; product "DUF2542 family protein"; protein_id "WP_000383096.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2322867 2322869 . + 0 gene_id "ECDH10B_RS11695"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311064.1"; locus_tag "ECDH10B_RS11695"; product "DUF2542 family protein"; protein_id "WP_000383096.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2323063 2324301 . + . gene_id "ECDH10B_RS11700"; transcript_id ""; gbkey "Gene"; gene "preT"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11700"; old_locus_tag "ECDH10B_2303"; -NC_010473.1 Protein Homology CDS 2323063 2324298 . + 0 gene_id "ECDH10B_RS11700"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "preT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416651.1"; locus_tag "ECDH10B_RS11700"; product "NAD-dependent dihydropyrimidine dehydrogenase subunit PreT"; protein_id "WP_001136389.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2323063 2323065 . + 0 gene_id "ECDH10B_RS11700"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "preT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416651.1"; locus_tag "ECDH10B_RS11700"; product "NAD-dependent dihydropyrimidine dehydrogenase subunit PreT"; protein_id "WP_001136389.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2324299 2324301 . + 0 gene_id "ECDH10B_RS11700"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "preT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416651.1"; locus_tag "ECDH10B_RS11700"; product "NAD-dependent dihydropyrimidine dehydrogenase subunit PreT"; protein_id "WP_001136389.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2324295 2325530 . + . gene_id "ECDH10B_RS11705"; transcript_id ""; gbkey "Gene"; gene "preA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11705"; old_locus_tag "ECDH10B_2304"; -NC_010473.1 Protein Homology CDS 2324295 2325527 . + 0 gene_id "ECDH10B_RS11705"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "preA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416652.4"; locus_tag "ECDH10B_RS11705"; product "NAD-dependent dihydropyrimidine dehydrogenase subunit PreA"; protein_id "WP_000956071.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2324295 2324297 . + 0 gene_id "ECDH10B_RS11705"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "preA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416652.4"; locus_tag "ECDH10B_RS11705"; product "NAD-dependent dihydropyrimidine dehydrogenase subunit PreA"; protein_id "WP_000956071.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2325528 2325530 . + 0 gene_id "ECDH10B_RS11705"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "preA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416652.4"; locus_tag "ECDH10B_RS11705"; product "NAD-dependent dihydropyrimidine dehydrogenase subunit PreA"; protein_id "WP_000956071.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2325773 2326783 . - . gene_id "ECDH10B_RS11710"; transcript_id ""; gbkey "Gene"; gene "mglC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11710"; old_locus_tag "ECDH10B_2305"; -NC_010473.1 Protein Homology CDS 2325776 2326783 . - 0 gene_id "ECDH10B_RS11710"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mglC"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005129205.1"; locus_tag "ECDH10B_RS11710"; product "galactose/methyl galactoside ABC transporter permease MglC"; protein_id "WP_001275118.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2326781 2326783 . - 0 gene_id "ECDH10B_RS11710"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mglC"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005129205.1"; locus_tag "ECDH10B_RS11710"; product "galactose/methyl galactoside ABC transporter permease MglC"; protein_id "WP_001275118.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2325773 2325775 . - 0 gene_id "ECDH10B_RS11710"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mglC"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005129205.1"; locus_tag "ECDH10B_RS11710"; product "galactose/methyl galactoside ABC transporter permease MglC"; protein_id "WP_001275118.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2326799 2328300 . - . gene_id "ECDH10B_RS11715"; transcript_id ""; gbkey "Gene"; gene "mglA"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS11715"; pseudo "true"; -NC_010473.1 Protein Homology CDS 2326802 2328300 . - 0 gene_id "ECDH10B_RS11715"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mglA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_020883197.1"; locus_tag "ECDH10B_RS11715"; note "frameshifted"; product "galactose/methyl galactoside ABC transporter ATP-binding protein MglA"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2328298 2328300 . - 0 gene_id "ECDH10B_RS11715"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mglA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_020883197.1"; locus_tag "ECDH10B_RS11715"; note "frameshifted"; product "galactose/methyl galactoside ABC transporter ATP-binding protein MglA"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2326799 2326801 . - 0 gene_id "ECDH10B_RS11715"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mglA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_020883197.1"; locus_tag "ECDH10B_RS11715"; note "frameshifted"; product "galactose/methyl galactoside ABC transporter ATP-binding protein MglA"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 2328361 2329359 . - . gene_id "ECDH10B_RS11720"; transcript_id ""; gbkey "Gene"; gene "mglB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11720"; old_locus_tag "ECDH10B_2307"; -NC_010473.1 Protein Homology CDS 2328364 2329359 . - 0 gene_id "ECDH10B_RS11720"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mglB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416655.1"; locus_tag "ECDH10B_RS11720"; product "galactose/glucose ABC transporter substrate-binding protein MglB"; protein_id "WP_001036964.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2329357 2329359 . - 0 gene_id "ECDH10B_RS11720"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mglB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416655.1"; locus_tag "ECDH10B_RS11720"; product "galactose/glucose ABC transporter substrate-binding protein MglB"; protein_id "WP_001036964.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2328361 2328363 . - 0 gene_id "ECDH10B_RS11720"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mglB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416655.1"; locus_tag "ECDH10B_RS11720"; product "galactose/glucose ABC transporter substrate-binding protein MglB"; protein_id "WP_001036964.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2329639 2330679 . - . gene_id "ECDH10B_RS11725"; transcript_id ""; gbkey "Gene"; gene "galS"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11725"; old_locus_tag "ECDH10B_2308"; -NC_010473.1 Protein Homology CDS 2329642 2330679 . - 0 gene_id "ECDH10B_RS11725"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "galS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416656.1"; locus_tag "ECDH10B_RS11725"; product "HTH-type transcriptional regulator GalS"; protein_id "WP_000628648.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2330677 2330679 . - 0 gene_id "ECDH10B_RS11725"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "galS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416656.1"; locus_tag "ECDH10B_RS11725"; product "HTH-type transcriptional regulator GalS"; protein_id "WP_000628648.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2329639 2329641 . - 0 gene_id "ECDH10B_RS11725"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "galS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416656.1"; locus_tag "ECDH10B_RS11725"; product "HTH-type transcriptional regulator GalS"; protein_id "WP_000628648.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2330821 2331978 . - . gene_id "ECDH10B_RS11735"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11735"; old_locus_tag "ECDH10B_2309"; -NC_010473.1 Protein Homology CDS 2330824 2331978 . - 0 gene_id "ECDH10B_RS11735"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416657.1"; locus_tag "ECDH10B_RS11735"; product "DUF418 family protein"; protein_id "WP_000440926.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2331976 2331978 . - 0 gene_id "ECDH10B_RS11735"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416657.1"; locus_tag "ECDH10B_RS11735"; product "DUF418 family protein"; protein_id "WP_000440926.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2330821 2330823 . - 0 gene_id "ECDH10B_RS11735"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416657.1"; locus_tag "ECDH10B_RS11735"; product "DUF418 family protein"; protein_id "WP_000440926.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2331995 2332663 . - . gene_id "ECDH10B_RS11740"; transcript_id ""; gbkey "Gene"; gene "folE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11740"; old_locus_tag "ECDH10B_2310"; -NC_010473.1 Protein Homology CDS 2331998 2332663 . - 0 gene_id "ECDH10B_RS11740"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "folE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311072.1"; locus_tag "ECDH10B_RS11740"; product "GTP cyclohydrolase I FolE"; protein_id "WP_001139613.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2332661 2332663 . - 0 gene_id "ECDH10B_RS11740"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "folE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311072.1"; locus_tag "ECDH10B_RS11740"; product "GTP cyclohydrolase I FolE"; protein_id "WP_001139613.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2331995 2331997 . - 0 gene_id "ECDH10B_RS11740"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "folE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311072.1"; locus_tag "ECDH10B_RS11740"; product "GTP cyclohydrolase I FolE"; protein_id "WP_001139613.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2332921 2333757 . + . gene_id "ECDH10B_RS11750"; transcript_id ""; gbkey "Gene"; gene "yeiG"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11750"; old_locus_tag "ECDH10B_2311"; -NC_010473.1 Protein Homology CDS 2332921 2333754 . + 0 gene_id "ECDH10B_RS11750"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yeiG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416659.1"; locus_tag "ECDH10B_RS11750"; product "S-formylglutathione hydrolase"; protein_id "WP_000425438.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2332921 2332923 . + 0 gene_id "ECDH10B_RS11750"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yeiG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416659.1"; locus_tag "ECDH10B_RS11750"; product "S-formylglutathione hydrolase"; protein_id "WP_000425438.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2333755 2333757 . + 0 gene_id "ECDH10B_RS11750"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yeiG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416659.1"; locus_tag "ECDH10B_RS11750"; product "S-formylglutathione hydrolase"; protein_id "WP_000425438.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2333789 2335780 . - . gene_id "ECDH10B_RS11755"; transcript_id ""; gbkey "Gene"; gene "cirA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11755"; old_locus_tag "ECDH10B_2312"; -NC_010473.1 Protein Homology CDS 2333792 2335780 . - 0 gene_id "ECDH10B_RS11755"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cirA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416660.1"; locus_tag "ECDH10B_RS11755"; product "catecholate siderophore receptor CirA"; protein_id "WP_000489247.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2335778 2335780 . - 0 gene_id "ECDH10B_RS11755"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cirA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416660.1"; locus_tag "ECDH10B_RS11755"; product "catecholate siderophore receptor CirA"; protein_id "WP_000489247.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2333789 2333791 . - 0 gene_id "ECDH10B_RS11755"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cirA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416660.1"; locus_tag "ECDH10B_RS11755"; product "catecholate siderophore receptor CirA"; protein_id "WP_000489247.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2336074 2337543 . - . gene_id "ECDH10B_RS11760"; transcript_id ""; gbkey "Gene"; gene "lysP"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11760"; old_locus_tag "ECDH10B_2313"; -NC_010473.1 Protein Homology CDS 2336077 2337543 . - 0 gene_id "ECDH10B_RS11760"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lysP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416661.1"; locus_tag "ECDH10B_RS11760"; product "lysine-specific permease"; protein_id "WP_000253273.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2337541 2337543 . - 0 gene_id "ECDH10B_RS11760"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lysP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416661.1"; locus_tag "ECDH10B_RS11760"; product "lysine-specific permease"; protein_id "WP_000253273.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2336074 2336076 . - 0 gene_id "ECDH10B_RS11760"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lysP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416661.1"; locus_tag "ECDH10B_RS11760"; product "lysine-specific permease"; protein_id "WP_000253273.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2337748 2338629 . - . gene_id "ECDH10B_RS11765"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11765"; old_locus_tag "ECDH10B_2314"; -NC_010473.1 Protein Homology CDS 2337751 2338629 . - 0 gene_id "ECDH10B_RS11765"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311076.1"; locus_tag "ECDH10B_RS11765"; product "LysR family transcriptional regulator"; protein_id "WP_000548294.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2338627 2338629 . - 0 gene_id "ECDH10B_RS11765"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311076.1"; locus_tag "ECDH10B_RS11765"; product "LysR family transcriptional regulator"; protein_id "WP_000548294.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2337748 2337750 . - 0 gene_id "ECDH10B_RS11765"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311076.1"; locus_tag "ECDH10B_RS11765"; product "LysR family transcriptional regulator"; protein_id "WP_000548294.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2338728 2339777 . + . gene_id "ECDH10B_RS11770"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11770"; old_locus_tag "ECDH10B_2315"; -NC_010473.1 Protein Homology CDS 2338728 2339774 . + 0 gene_id "ECDH10B_RS11770"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311077.1"; locus_tag "ECDH10B_RS11770"; product "YeiH family protein"; protein_id "WP_000182053.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2338728 2338730 . + 0 gene_id "ECDH10B_RS11770"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311077.1"; locus_tag "ECDH10B_RS11770"; product "YeiH family protein"; protein_id "WP_000182053.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2339775 2339777 . + 0 gene_id "ECDH10B_RS11770"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311077.1"; locus_tag "ECDH10B_RS11770"; product "YeiH family protein"; protein_id "WP_000182053.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2339851 2340708 . + . gene_id "ECDH10B_RS11775"; transcript_id ""; gbkey "Gene"; gene "nfo"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11775"; old_locus_tag "ECDH10B_2316"; -NC_010473.1 Protein Homology CDS 2339851 2340705 . + 0 gene_id "ECDH10B_RS11775"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nfo"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311078.1"; locus_tag "ECDH10B_RS11775"; product "deoxyribonuclease IV"; protein_id "WP_000873894.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2339851 2339853 . + 0 gene_id "ECDH10B_RS11775"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nfo"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311078.1"; locus_tag "ECDH10B_RS11775"; product "deoxyribonuclease IV"; protein_id "WP_000873894.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2340706 2340708 . + 0 gene_id "ECDH10B_RS11775"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nfo"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311078.1"; locus_tag "ECDH10B_RS11775"; product "deoxyribonuclease IV"; protein_id "WP_000873894.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2340711 2341799 . + . gene_id "ECDH10B_RS11780"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11780"; old_locus_tag "ECDH10B_2317"; -NC_010473.1 Protein Homology CDS 2340711 2341796 . + 0 gene_id "ECDH10B_RS11780"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416665.1"; locus_tag "ECDH10B_RS11780"; product "sugar kinase"; protein_id "WP_001065016.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2340711 2340713 . + 0 gene_id "ECDH10B_RS11780"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416665.1"; locus_tag "ECDH10B_RS11780"; product "sugar kinase"; protein_id "WP_001065016.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2341797 2341799 . + 0 gene_id "ECDH10B_RS11780"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416665.1"; locus_tag "ECDH10B_RS11780"; product "sugar kinase"; protein_id "WP_001065016.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2341906 2343156 . - . gene_id "ECDH10B_RS11785"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11785"; old_locus_tag "ECDH10B_2318"; -NC_010473.1 Protein Homology CDS 2341909 2343156 . - 0 gene_id "ECDH10B_RS11785"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416666.1"; locus_tag "ECDH10B_RS11785"; product "NupC/NupG family nucleoside CNT transporter"; protein_id "WP_000382966.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2343154 2343156 . - 0 gene_id "ECDH10B_RS11785"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416666.1"; locus_tag "ECDH10B_RS11785"; product "NupC/NupG family nucleoside CNT transporter"; protein_id "WP_000382966.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2341906 2341908 . - 0 gene_id "ECDH10B_RS11785"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416666.1"; locus_tag "ECDH10B_RS11785"; product "NupC/NupG family nucleoside CNT transporter"; protein_id "WP_000382966.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2343256 2344197 . - . gene_id "ECDH10B_RS11790"; transcript_id ""; gbkey "Gene"; gene "rihB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11790"; old_locus_tag "ECDH10B_2319"; -NC_010473.1 Protein Homology CDS 2343259 2344197 . - 0 gene_id "ECDH10B_RS11790"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rihB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416667.1"; locus_tag "ECDH10B_RS11790"; product "ribosylpyrimidine nucleosidase"; protein_id "WP_000415429.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2344195 2344197 . - 0 gene_id "ECDH10B_RS11790"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rihB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416667.1"; locus_tag "ECDH10B_RS11790"; product "ribosylpyrimidine nucleosidase"; protein_id "WP_000415429.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2343256 2343258 . - 0 gene_id "ECDH10B_RS11790"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rihB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416667.1"; locus_tag "ECDH10B_RS11790"; product "ribosylpyrimidine nucleosidase"; protein_id "WP_000415429.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2344327 2345025 . + . gene_id "ECDH10B_RS11795"; transcript_id ""; gbkey "Gene"; gene "yeiL"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11795"; old_locus_tag "ECDH10B_2320"; -NC_010473.1 Protein Homology CDS 2344327 2345022 . + 0 gene_id "ECDH10B_RS11795"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yeiL"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311082.4"; locus_tag "ECDH10B_RS11795"; product "transcriptional regulator YeiL"; protein_id "WP_000658575.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2344327 2344329 . + 0 gene_id "ECDH10B_RS11795"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yeiL"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311082.4"; locus_tag "ECDH10B_RS11795"; product "transcriptional regulator YeiL"; protein_id "WP_000658575.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2345023 2345025 . + 0 gene_id "ECDH10B_RS11795"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yeiL"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311082.4"; locus_tag "ECDH10B_RS11795"; product "transcriptional regulator YeiL"; protein_id "WP_000658575.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2345096 2346346 . - . gene_id "ECDH10B_RS11800"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11800"; old_locus_tag "ECDH10B_2321"; -NC_010473.1 Protein Homology CDS 2345099 2346346 . - 0 gene_id "ECDH10B_RS11800"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416669.1"; locus_tag "ECDH10B_RS11800"; product "NupC/NupG family nucleoside CNT transporter"; protein_id "WP_000353878.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2346344 2346346 . - 0 gene_id "ECDH10B_RS11800"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416669.1"; locus_tag "ECDH10B_RS11800"; product "NupC/NupG family nucleoside CNT transporter"; protein_id "WP_000353878.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2345096 2345098 . - 0 gene_id "ECDH10B_RS11800"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416669.1"; locus_tag "ECDH10B_RS11800"; product "NupC/NupG family nucleoside CNT transporter"; protein_id "WP_000353878.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2346440 2347378 . - . gene_id "ECDH10B_RS11805"; transcript_id ""; gbkey "Gene"; gene "psuG"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11805"; old_locus_tag "ECDH10B_2322"; -NC_010473.1 Protein Homology CDS 2346443 2347378 . - 0 gene_id "ECDH10B_RS11805"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "psuG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416670.1"; locus_tag "ECDH10B_RS11805"; product "pseudouridine-5'-phosphate glycosidase"; protein_id "WP_001292460.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2347376 2347378 . - 0 gene_id "ECDH10B_RS11805"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "psuG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416670.1"; locus_tag "ECDH10B_RS11805"; product "pseudouridine-5'-phosphate glycosidase"; protein_id "WP_001292460.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2346440 2346442 . - 0 gene_id "ECDH10B_RS11805"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "psuG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416670.1"; locus_tag "ECDH10B_RS11805"; product "pseudouridine-5'-phosphate glycosidase"; protein_id "WP_001292460.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2347366 2348307 . - . gene_id "ECDH10B_RS11810"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11810"; old_locus_tag "ECDH10B_2323"; -NC_010473.1 Protein Homology CDS 2347369 2348307 . - 0 gene_id "ECDH10B_RS11810"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416671.1"; locus_tag "ECDH10B_RS11810"; product "pseudouridine kinase"; protein_id "WP_001208118.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2348305 2348307 . - 0 gene_id "ECDH10B_RS11810"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416671.1"; locus_tag "ECDH10B_RS11810"; product "pseudouridine kinase"; protein_id "WP_001208118.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2347366 2347368 . - 0 gene_id "ECDH10B_RS11810"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416671.1"; locus_tag "ECDH10B_RS11810"; product "pseudouridine kinase"; protein_id "WP_001208118.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2348730 2350421 . - . gene_id "ECDH10B_RS11815"; transcript_id ""; gbkey "Gene"; gene "fruA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11815"; old_locus_tag "ECDH10B_2324"; -NC_010473.1 Protein Homology CDS 2348733 2350421 . - 0 gene_id "ECDH10B_RS11815"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fruA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416672.1"; locus_tag "ECDH10B_RS11815"; product "PTS fructose transporter subunit IIBC"; protein_id "WP_000854447.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2350419 2350421 . - 0 gene_id "ECDH10B_RS11815"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fruA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416672.1"; locus_tag "ECDH10B_RS11815"; product "PTS fructose transporter subunit IIBC"; protein_id "WP_000854447.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2348730 2348732 . - 0 gene_id "ECDH10B_RS11815"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fruA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416672.1"; locus_tag "ECDH10B_RS11815"; product "PTS fructose transporter subunit IIBC"; protein_id "WP_000854447.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2350438 2351376 . - . gene_id "ECDH10B_RS11820"; transcript_id ""; gbkey "Gene"; gene "fruK"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11820"; old_locus_tag "ECDH10B_2325"; -NC_010473.1 Protein Homology CDS 2350441 2351376 . - 0 gene_id "ECDH10B_RS11820"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fruK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311087.1"; locus_tag "ECDH10B_RS11820"; product "1-phosphofructokinase"; protein_id "WP_000091263.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2351374 2351376 . - 0 gene_id "ECDH10B_RS11820"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fruK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311087.1"; locus_tag "ECDH10B_RS11820"; product "1-phosphofructokinase"; protein_id "WP_000091263.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2350438 2350440 . - 0 gene_id "ECDH10B_RS11820"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fruK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311087.1"; locus_tag "ECDH10B_RS11820"; product "1-phosphofructokinase"; protein_id "WP_000091263.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2351376 2352505 . - . gene_id "ECDH10B_RS11825"; transcript_id ""; gbkey "Gene"; gene "fruB"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS11825"; pseudo "true"; -NC_010473.1 Protein Homology CDS 2351379 2352505 . - 0 gene_id "ECDH10B_RS11825"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fruB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311088.1"; locus_tag "ECDH10B_RS11825"; note "frameshifted"; product "fused PTS fructose transporter subunit IIA/HPr protein"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2352503 2352505 . - 0 gene_id "ECDH10B_RS11825"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fruB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311088.1"; locus_tag "ECDH10B_RS11825"; note "frameshifted"; product "fused PTS fructose transporter subunit IIA/HPr protein"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2351376 2351378 . - 0 gene_id "ECDH10B_RS11825"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fruB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311088.1"; locus_tag "ECDH10B_RS11825"; note "frameshifted"; product "fused PTS fructose transporter subunit IIA/HPr protein"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 2352873 2354054 . + . gene_id "ECDH10B_RS11830"; transcript_id ""; gbkey "Gene"; gene "setB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11830"; old_locus_tag "ECDH10B_2327"; -NC_010473.1 Protein Homology CDS 2352873 2354051 . + 0 gene_id "ECDH10B_RS11830"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "setB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416675.1"; locus_tag "ECDH10B_RS11830"; product "sugar efflux transporter SetB"; protein_id "WP_000551980.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2352873 2352875 . + 0 gene_id "ECDH10B_RS11830"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "setB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416675.1"; locus_tag "ECDH10B_RS11830"; product "sugar efflux transporter SetB"; protein_id "WP_000551980.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2354052 2354054 . + 0 gene_id "ECDH10B_RS11830"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "setB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416675.1"; locus_tag "ECDH10B_RS11830"; product "sugar efflux transporter SetB"; protein_id "WP_000551980.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2354051 2354305 . - . gene_id "ECDH10B_RS11835"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11835"; old_locus_tag "ECDH10B_2328"; -NC_010473.1 Protein Homology CDS 2354054 2354305 . - 0 gene_id "ECDH10B_RS11835"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_588461.1"; locus_tag "ECDH10B_RS11835"; product "YkgJ family cysteine cluster protein"; protein_id "WP_000389030.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2354303 2354305 . - 0 gene_id "ECDH10B_RS11835"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_588461.1"; locus_tag "ECDH10B_RS11835"; product "YkgJ family cysteine cluster protein"; protein_id "WP_000389030.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2354051 2354053 . - 0 gene_id "ECDH10B_RS11835"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_588461.1"; locus_tag "ECDH10B_RS11835"; product "YkgJ family cysteine cluster protein"; protein_id "WP_000389030.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2354460 2355032 . + . gene_id "ECDH10B_RS11840"; transcript_id ""; gbkey "Gene"; gene "yeiP"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11840"; old_locus_tag "ECDH10B_2329"; -NC_010473.1 Protein Homology CDS 2354460 2355029 . + 0 gene_id "ECDH10B_RS11840"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yeiP"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_007750416.1"; locus_tag "ECDH10B_RS11840"; product "elongation factor P-like protein YeiP"; protein_id "WP_001136827.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2354460 2354462 . + 0 gene_id "ECDH10B_RS11840"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yeiP"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_007750416.1"; locus_tag "ECDH10B_RS11840"; product "elongation factor P-like protein YeiP"; protein_id "WP_001136827.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2355030 2355032 . + 0 gene_id "ECDH10B_RS11840"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yeiP"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_007750416.1"; locus_tag "ECDH10B_RS11840"; product "elongation factor P-like protein YeiP"; protein_id "WP_001136827.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2355255 2356721 . + . gene_id "ECDH10B_RS11845"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11845"; old_locus_tag "ECDH10B_2330"; -NC_010473.1 Protein Homology CDS 2355255 2356718 . + 0 gene_id "ECDH10B_RS11845"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416677.1"; locus_tag "ECDH10B_RS11845"; product "mannitol dehydrogenase family protein"; protein_id "WP_001091940.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2355255 2355257 . + 0 gene_id "ECDH10B_RS11845"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416677.1"; locus_tag "ECDH10B_RS11845"; product "mannitol dehydrogenase family protein"; protein_id "WP_001091940.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2356719 2356721 . + 0 gene_id "ECDH10B_RS11845"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416677.1"; locus_tag "ECDH10B_RS11845"; product "mannitol dehydrogenase family protein"; protein_id "WP_001091940.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2356839 2357825 . + . gene_id "ECDH10B_RS11850"; transcript_id ""; gbkey "Gene"; gene "yeiR"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11850"; old_locus_tag "ECDH10B_2331"; -NC_010473.1 Protein Homology CDS 2356839 2357822 . + 0 gene_id "ECDH10B_RS11850"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yeiR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416678.1"; locus_tag "ECDH10B_RS11850"; product "zinc-binding GTPase YeiR"; protein_id "WP_000198828.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2356839 2356841 . + 0 gene_id "ECDH10B_RS11850"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yeiR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416678.1"; locus_tag "ECDH10B_RS11850"; product "zinc-binding GTPase YeiR"; protein_id "WP_000198828.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2357823 2357825 . + 0 gene_id "ECDH10B_RS11850"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yeiR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416678.1"; locus_tag "ECDH10B_RS11850"; product "zinc-binding GTPase YeiR"; protein_id "WP_000198828.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2357864 2358577 . + . gene_id "ECDH10B_RS11855"; transcript_id ""; gbkey "Gene"; gene "lpxT"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11855"; old_locus_tag "ECDH10B_2332"; -NC_010473.1 Protein Homology CDS 2357864 2358574 . + 0 gene_id "ECDH10B_RS11855"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lpxT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311093.2"; locus_tag "ECDH10B_RS11855"; product "Kdo(2)-lipid A phosphotransferase"; protein_id "WP_000594599.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2357864 2357866 . + 0 gene_id "ECDH10B_RS11855"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lpxT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311093.2"; locus_tag "ECDH10B_RS11855"; product "Kdo(2)-lipid A phosphotransferase"; protein_id "WP_000594599.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2358575 2358577 . + 0 gene_id "ECDH10B_RS11855"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lpxT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311093.2"; locus_tag "ECDH10B_RS11855"; product "Kdo(2)-lipid A phosphotransferase"; protein_id "WP_000594599.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2358989 2359555 . + . gene_id "ECDH10B_RS11860"; transcript_id ""; gbkey "Gene"; gene "mepS"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11860"; old_locus_tag "ECDH10B_2333"; -NC_010473.1 Protein Homology CDS 2358989 2359552 . + 0 gene_id "ECDH10B_RS11860"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mepS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311094.1"; locus_tag "ECDH10B_RS11860"; product "bifunctional murein DD-endopeptidase/murein LD-carboxypeptidase"; protein_id "WP_000241011.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2358989 2358991 . + 0 gene_id "ECDH10B_RS11860"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mepS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311094.1"; locus_tag "ECDH10B_RS11860"; product "bifunctional murein DD-endopeptidase/murein LD-carboxypeptidase"; protein_id "WP_000241011.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2359553 2359555 . + 0 gene_id "ECDH10B_RS11860"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mepS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311094.1"; locus_tag "ECDH10B_RS11860"; product "bifunctional murein DD-endopeptidase/murein LD-carboxypeptidase"; protein_id "WP_000241011.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2359736 2361292 . + . gene_id "ECDH10B_RS11865"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11865"; old_locus_tag "ECDH10B_2334"; -NC_010473.1 Protein Homology CDS 2359736 2361289 . + 0 gene_id "ECDH10B_RS11865"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416681.1"; locus_tag "ECDH10B_RS11865"; product "cyclic di-GMP phosphodiesterase"; protein_id "WP_000470560.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2359736 2359738 . + 0 gene_id "ECDH10B_RS11865"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416681.1"; locus_tag "ECDH10B_RS11865"; product "cyclic di-GMP phosphodiesterase"; protein_id "WP_000470560.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2361290 2361292 . + 0 gene_id "ECDH10B_RS11865"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416681.1"; locus_tag "ECDH10B_RS11865"; product "cyclic di-GMP phosphodiesterase"; protein_id "WP_000470560.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2361374 2363188 . + . gene_id "ECDH10B_RS11870"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11870"; old_locus_tag "ECDH10B_2335"; -NC_010473.1 Protein Homology CDS 2361374 2363185 . + 0 gene_id "ECDH10B_RS11870"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416682.4"; locus_tag "ECDH10B_RS11870"; product "ABC transporter substrate-binding protein"; protein_id "WP_000637046.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2361374 2361376 . + 0 gene_id "ECDH10B_RS11870"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416682.4"; locus_tag "ECDH10B_RS11870"; product "ABC transporter substrate-binding protein"; protein_id "WP_000637046.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2363186 2363188 . + 0 gene_id "ECDH10B_RS11870"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416682.4"; locus_tag "ECDH10B_RS11870"; product "ABC transporter substrate-binding protein"; protein_id "WP_000637046.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2363189 2364283 . + . gene_id "ECDH10B_RS11875"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11875"; old_locus_tag "ECDH10B_2336"; -NC_010473.1 Protein Homology CDS 2363189 2364280 . + 0 gene_id "ECDH10B_RS11875"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311097.1"; locus_tag "ECDH10B_RS11875"; product "microcin C ABC transporter permease YejB"; protein_id "WP_000501604.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2363189 2363191 . + 0 gene_id "ECDH10B_RS11875"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311097.1"; locus_tag "ECDH10B_RS11875"; product "microcin C ABC transporter permease YejB"; protein_id "WP_000501604.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2364281 2364283 . + 0 gene_id "ECDH10B_RS11875"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311097.1"; locus_tag "ECDH10B_RS11875"; product "microcin C ABC transporter permease YejB"; protein_id "WP_000501604.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2364283 2365308 . + . gene_id "ECDH10B_RS11880"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11880"; old_locus_tag "ECDH10B_2337"; -NC_010473.1 Protein Homology CDS 2364283 2365305 . + 0 gene_id "ECDH10B_RS11880"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416684.1"; locus_tag "ECDH10B_RS11880"; product "ABC transporter permease"; protein_id "WP_000088923.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2364283 2364285 . + 0 gene_id "ECDH10B_RS11880"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416684.1"; locus_tag "ECDH10B_RS11880"; product "ABC transporter permease"; protein_id "WP_000088923.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2365306 2365308 . + 0 gene_id "ECDH10B_RS11880"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416684.1"; locus_tag "ECDH10B_RS11880"; product "ABC transporter permease"; protein_id "WP_000088923.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2365310 2366899 . + . gene_id "ECDH10B_RS11885"; transcript_id ""; gbkey "Gene"; gene "yejF"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11885"; old_locus_tag "ECDH10B_2338"; -NC_010473.1 Protein Homology CDS 2365310 2366896 . + 0 gene_id "ECDH10B_RS11885"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yejF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416685.1"; locus_tag "ECDH10B_RS11885"; product "microcin C ABC transporter ATP-binding protein YejF"; protein_id "WP_000194927.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2365310 2365312 . + 0 gene_id "ECDH10B_RS11885"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yejF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416685.1"; locus_tag "ECDH10B_RS11885"; product "microcin C ABC transporter ATP-binding protein YejF"; protein_id "WP_000194927.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2366897 2366899 . + 0 gene_id "ECDH10B_RS11885"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yejF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416685.1"; locus_tag "ECDH10B_RS11885"; product "microcin C ABC transporter ATP-binding protein YejF"; protein_id "WP_000194927.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2366903 2367247 . - . gene_id "ECDH10B_RS11890"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11890"; old_locus_tag "ECDH10B_2339"; -NC_010473.1 Protein Homology CDS 2366906 2367247 . - 0 gene_id "ECDH10B_RS11890"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416686.1"; locus_tag "ECDH10B_RS11890"; product "hypothetical protein"; protein_id "WP_000202798.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2367245 2367247 . - 0 gene_id "ECDH10B_RS11890"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416686.1"; locus_tag "ECDH10B_RS11890"; product "hypothetical protein"; protein_id "WP_000202798.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2366903 2366905 . - 0 gene_id "ECDH10B_RS11890"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416686.1"; locus_tag "ECDH10B_RS11890"; product "hypothetical protein"; protein_id "WP_000202798.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2367580 2368770 . - . gene_id "ECDH10B_RS11895"; transcript_id ""; gbkey "Gene"; gene "bcr"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11895"; old_locus_tag "ECDH10B_2340"; -NC_010473.1 Protein Homology CDS 2367583 2368770 . - 0 gene_id "ECDH10B_RS11895"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "bcr"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416687.1"; locus_tag "ECDH10B_RS11895"; product "multidrug efflux MFS transporter Bcr"; protein_id "WP_000213361.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2368768 2368770 . - 0 gene_id "ECDH10B_RS11895"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "bcr"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416687.1"; locus_tag "ECDH10B_RS11895"; product "multidrug efflux MFS transporter Bcr"; protein_id "WP_000213361.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2367580 2367582 . - 0 gene_id "ECDH10B_RS11895"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "bcr"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416687.1"; locus_tag "ECDH10B_RS11895"; product "multidrug efflux MFS transporter Bcr"; protein_id "WP_000213361.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2368798 2369493 . - . gene_id "ECDH10B_RS11900"; transcript_id ""; gbkey "Gene"; gene "rsuA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11900"; old_locus_tag "ECDH10B_2341"; -NC_010473.1 Protein Homology CDS 2368801 2369493 . - 0 gene_id "ECDH10B_RS11900"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rsuA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311102.1"; locus_tag "ECDH10B_RS11900"; product "16S rRNA pseudouridine(516) synthase RsuA"; protein_id "WP_001234850.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2369491 2369493 . - 0 gene_id "ECDH10B_RS11900"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rsuA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311102.1"; locus_tag "ECDH10B_RS11900"; product "16S rRNA pseudouridine(516) synthase RsuA"; protein_id "WP_001234850.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2368798 2368800 . - 0 gene_id "ECDH10B_RS11900"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rsuA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311102.1"; locus_tag "ECDH10B_RS11900"; product "16S rRNA pseudouridine(516) synthase RsuA"; protein_id "WP_001234850.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2369642 2371402 . + . gene_id "ECDH10B_RS11905"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11905"; old_locus_tag "ECDH10B_2342"; -NC_010473.1 Protein Homology CDS 2369642 2371399 . + 0 gene_id "ECDH10B_RS11905"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416689.1"; locus_tag "ECDH10B_RS11905"; product "DEAD/DEAH box helicase"; protein_id "WP_000578061.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2369642 2369644 . + 0 gene_id "ECDH10B_RS11905"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416689.1"; locus_tag "ECDH10B_RS11905"; product "DEAD/DEAH box helicase"; protein_id "WP_000578061.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2371400 2371402 . + 0 gene_id "ECDH10B_RS11905"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416689.1"; locus_tag "ECDH10B_RS11905"; product "DEAD/DEAH box helicase"; protein_id "WP_000578061.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2371527 2371811 . + . gene_id "ECDH10B_RS11910"; transcript_id ""; gbkey "Gene"; gene "rplY"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11910"; old_locus_tag "ECDH10B_2343"; -NC_010473.1 Protein Homology CDS 2371527 2371808 . + 0 gene_id "ECDH10B_RS11910"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rplY"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000494192.1"; locus_tag "ECDH10B_RS11910"; product "50S ribosomal protein L25"; protein_id "WP_000494183.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2371527 2371529 . + 0 gene_id "ECDH10B_RS11910"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rplY"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000494192.1"; locus_tag "ECDH10B_RS11910"; product "50S ribosomal protein L25"; protein_id "WP_000494183.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2371809 2371811 . + 0 gene_id "ECDH10B_RS11910"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rplY"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000494192.1"; locus_tag "ECDH10B_RS11910"; product "50S ribosomal protein L25"; protein_id "WP_000494183.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2371950 2372957 . - . gene_id "ECDH10B_RS11915"; transcript_id ""; gbkey "Gene"; gene "yejK"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11915"; old_locus_tag "ECDH10B_2344"; -NC_010473.1 Protein Homology CDS 2371953 2372957 . - 0 gene_id "ECDH10B_RS11915"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yejK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416691.1"; locus_tag "ECDH10B_RS11915"; product "nucleoid-associated protein YejK"; protein_id "WP_000050793.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2372955 2372957 . - 0 gene_id "ECDH10B_RS11915"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yejK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416691.1"; locus_tag "ECDH10B_RS11915"; product "nucleoid-associated protein YejK"; protein_id "WP_000050793.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2371950 2371952 . - 0 gene_id "ECDH10B_RS11915"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yejK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416691.1"; locus_tag "ECDH10B_RS11915"; product "nucleoid-associated protein YejK"; protein_id "WP_000050793.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2373139 2373366 . + . gene_id "ECDH10B_RS11920"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11920"; old_locus_tag "ECDH10B_2345"; -NC_010473.1 Protein Homology CDS 2373139 2373363 . + 0 gene_id "ECDH10B_RS11920"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311106.1"; locus_tag "ECDH10B_RS11920"; product "YejL family protein"; protein_id "WP_001135667.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2373139 2373141 . + 0 gene_id "ECDH10B_RS11920"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311106.1"; locus_tag "ECDH10B_RS11920"; product "YejL family protein"; protein_id "WP_001135667.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2373364 2373366 . + 0 gene_id "ECDH10B_RS11920"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311106.1"; locus_tag "ECDH10B_RS11920"; product "YejL family protein"; protein_id "WP_001135667.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2373386 2375146 . + . gene_id "ECDH10B_RS11925"; transcript_id ""; gbkey "Gene"; gene "pbgA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11925"; old_locus_tag "ECDH10B_2346"; -NC_010473.1 Protein Homology CDS 2373386 2375143 . + 0 gene_id "ECDH10B_RS11925"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pbgA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311107.1"; locus_tag "ECDH10B_RS11925"; product "cardiolipin transport protein PbgA"; protein_id "WP_000256203.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2373386 2373388 . + 0 gene_id "ECDH10B_RS11925"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pbgA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311107.1"; locus_tag "ECDH10B_RS11925"; product "cardiolipin transport protein PbgA"; protein_id "WP_000256203.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2375144 2375146 . + 0 gene_id "ECDH10B_RS11925"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pbgA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311107.1"; locus_tag "ECDH10B_RS11925"; product "cardiolipin transport protein PbgA"; protein_id "WP_000256203.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2375221 2375297 . + . gene_id "ECDH10B_RS11930"; transcript_id ""; gbkey "Gene"; gene_biotype "tRNA"; locus_tag "ECDH10B_RS11930"; old_locus_tag "ECDH10B_2347"; -NC_010473.1 tRNAscan-SE exon 2375221 2375297 . + . gene_id "ECDH10B_RS11930"; transcript_id "ECDH10B_RS11930"; anticodon "(pos:2375255..2375257)"; gbkey "tRNA"; inference "COORDINATES: profile:tRNAscan-SE:2.0.6"; locus_tag "ECDH10B_RS11930"; product "tRNA-Pro"; exon_number "1"; -NC_010473.1 RefSeq gene 2375400 2377931 . - . gene_id "ECDH10B_RS11935"; transcript_id ""; gbkey "Gene"; gene "yejO"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS11935"; old_locus_tag "ECDH10B_2348"; partial "true"; pseudo "true"; -NC_010473.1 Protein Homology CDS 2375403 2377931 . - 0 gene_id "ECDH10B_RS11935"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yejO"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311108.2"; locus_tag "ECDH10B_RS11935"; note "incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "autotransporter YejO"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2377929 2377931 . - 0 gene_id "ECDH10B_RS11935"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yejO"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311108.2"; locus_tag "ECDH10B_RS11935"; note "incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "autotransporter YejO"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2375400 2375402 . - 0 gene_id "ECDH10B_RS11935"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yejO"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311108.2"; locus_tag "ECDH10B_RS11935"; note "incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "autotransporter YejO"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 2378075 2379091 . - . gene_id "ECDH10B_RS11940"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11940"; old_locus_tag "ECDH10B_2349"; -NC_010473.1 Protein Homology CDS 2378078 2379091 . - 0 gene_id "ECDH10B_RS11940"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414793.1"; locus_tag "ECDH10B_RS11940"; product "IS5-like element IS5 family transposase"; protein_id "WP_010723085.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2379089 2379091 . - 0 gene_id "ECDH10B_RS11940"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414793.1"; locus_tag "ECDH10B_RS11940"; product "IS5-like element IS5 family transposase"; protein_id "WP_010723085.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2378075 2378077 . - 0 gene_id "ECDH10B_RS11940"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414793.1"; locus_tag "ECDH10B_RS11940"; product "IS5-like element IS5 family transposase"; protein_id "WP_010723085.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2379510 2380157 . + . gene_id "ECDH10B_RS11950"; transcript_id ""; gbkey "Gene"; gene "narP"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11950"; old_locus_tag "ECDH10B_2350"; -NC_010473.1 Protein Homology CDS 2379510 2380154 . + 0 gene_id "ECDH10B_RS11950"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "narP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416697.1"; locus_tag "ECDH10B_RS11950"; product "nitrate/nitrite response regulator protein NarP"; protein_id "WP_001113639.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2379510 2379512 . + 0 gene_id "ECDH10B_RS11950"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "narP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416697.1"; locus_tag "ECDH10B_RS11950"; product "nitrate/nitrite response regulator protein NarP"; protein_id "WP_001113639.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2380155 2380157 . + 0 gene_id "ECDH10B_RS11950"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "narP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416697.1"; locus_tag "ECDH10B_RS11950"; product "nitrate/nitrite response regulator protein NarP"; protein_id "WP_001113639.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2380368 2381420 . - . gene_id "ECDH10B_RS11955"; transcript_id ""; gbkey "Gene"; gene "ccmH"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11955"; old_locus_tag "ECDH10B_2351"; -NC_010473.1 Protein Homology CDS 2380371 2381420 . - 0 gene_id "ECDH10B_RS11955"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ccmH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416698.1"; locus_tag "ECDH10B_RS11955"; product "cytochrome c-type biogenesis thiol:disulfide oxidoreductase CcmH"; protein_id "WP_001211575.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2381418 2381420 . - 0 gene_id "ECDH10B_RS11955"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ccmH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416698.1"; locus_tag "ECDH10B_RS11955"; product "cytochrome c-type biogenesis thiol:disulfide oxidoreductase CcmH"; protein_id "WP_001211575.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2380368 2380370 . - 0 gene_id "ECDH10B_RS11955"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ccmH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416698.1"; locus_tag "ECDH10B_RS11955"; product "cytochrome c-type biogenesis thiol:disulfide oxidoreductase CcmH"; protein_id "WP_001211575.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2381417 2381974 . - . gene_id "ECDH10B_RS11960"; transcript_id ""; gbkey "Gene"; gene "dsbE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11960"; old_locus_tag "ECDH10B_2352"; -NC_010473.1 Protein Homology CDS 2381420 2381974 . - 0 gene_id "ECDH10B_RS11960"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dsbE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311111.1"; locus_tag "ECDH10B_RS11960"; product "thiol:disulfide interchange protein DsbE"; protein_id "WP_000824439.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2381972 2381974 . - 0 gene_id "ECDH10B_RS11960"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dsbE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311111.1"; locus_tag "ECDH10B_RS11960"; product "thiol:disulfide interchange protein DsbE"; protein_id "WP_000824439.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2381417 2381419 . - 0 gene_id "ECDH10B_RS11960"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dsbE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311111.1"; locus_tag "ECDH10B_RS11960"; product "thiol:disulfide interchange protein DsbE"; protein_id "WP_000824439.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2381971 2383914 . - . gene_id "ECDH10B_RS11965"; transcript_id ""; gbkey "Gene"; gene "ccmF"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11965"; old_locus_tag "ECDH10B_2353"; -NC_010473.1 Protein Homology CDS 2381974 2383914 . - 0 gene_id "ECDH10B_RS11965"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ccmF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416700.1"; locus_tag "ECDH10B_RS11965"; product "cytochrome c-type biogenesis heme lyase CcmF"; protein_id "WP_000982447.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2383912 2383914 . - 0 gene_id "ECDH10B_RS11965"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ccmF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416700.1"; locus_tag "ECDH10B_RS11965"; product "cytochrome c-type biogenesis heme lyase CcmF"; protein_id "WP_000982447.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2381971 2381973 . - 0 gene_id "ECDH10B_RS11965"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ccmF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416700.1"; locus_tag "ECDH10B_RS11965"; product "cytochrome c-type biogenesis heme lyase CcmF"; protein_id "WP_000982447.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2383911 2384390 . - . gene_id "ECDH10B_RS11970"; transcript_id ""; gbkey "Gene"; gene "ccmE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11970"; old_locus_tag "ECDH10B_2354"; -NC_010473.1 Protein Homology CDS 2383914 2384390 . - 0 gene_id "ECDH10B_RS11970"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ccmE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311113.1"; locus_tag "ECDH10B_RS11970"; product "cytochrome c maturation protein CcmE"; protein_id "WP_001026418.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2384388 2384390 . - 0 gene_id "ECDH10B_RS11970"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ccmE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311113.1"; locus_tag "ECDH10B_RS11970"; product "cytochrome c maturation protein CcmE"; protein_id "WP_001026418.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2383911 2383913 . - 0 gene_id "ECDH10B_RS11970"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ccmE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311113.1"; locus_tag "ECDH10B_RS11970"; product "cytochrome c maturation protein CcmE"; protein_id "WP_001026418.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2384387 2384596 . - . gene_id "ECDH10B_RS11975"; transcript_id ""; gbkey "Gene"; gene "ccmD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11975"; old_locus_tag "ECDH10B_2355"; -NC_010473.1 Protein Homology CDS 2384390 2384596 . - 0 gene_id "ECDH10B_RS11975"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ccmD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311114.1"; locus_tag "ECDH10B_RS11975"; product "heme exporter protein CcmD"; protein_id "WP_000186540.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2384594 2384596 . - 0 gene_id "ECDH10B_RS11975"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ccmD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311114.1"; locus_tag "ECDH10B_RS11975"; product "heme exporter protein CcmD"; protein_id "WP_000186540.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2384387 2384389 . - 0 gene_id "ECDH10B_RS11975"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ccmD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311114.1"; locus_tag "ECDH10B_RS11975"; product "heme exporter protein CcmD"; protein_id "WP_000186540.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2384593 2385330 . - . gene_id "ECDH10B_RS11980"; transcript_id ""; gbkey "Gene"; gene "ccmC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11980"; old_locus_tag "ECDH10B_2356"; -NC_010473.1 Protein Homology CDS 2384596 2385330 . - 0 gene_id "ECDH10B_RS11980"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ccmC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311115.1"; locus_tag "ECDH10B_RS11980"; product "heme exporter protein CcmC"; protein_id "WP_001295447.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2385328 2385330 . - 0 gene_id "ECDH10B_RS11980"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ccmC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311115.1"; locus_tag "ECDH10B_RS11980"; product "heme exporter protein CcmC"; protein_id "WP_001295447.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2384593 2384595 . - 0 gene_id "ECDH10B_RS11980"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ccmC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311115.1"; locus_tag "ECDH10B_RS11980"; product "heme exporter protein CcmC"; protein_id "WP_001295447.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2385372 2386034 . - . gene_id "ECDH10B_RS11985"; transcript_id ""; gbkey "Gene"; gene "ccmB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11985"; old_locus_tag "ECDH10B_2357"; -NC_010473.1 Protein Homology CDS 2385375 2386034 . - 0 gene_id "ECDH10B_RS11985"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ccmB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311116.1"; locus_tag "ECDH10B_RS11985"; product "heme exporter protein CcmB"; protein_id "WP_000971730.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2386032 2386034 . - 0 gene_id "ECDH10B_RS11985"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ccmB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311116.1"; locus_tag "ECDH10B_RS11985"; product "heme exporter protein CcmB"; protein_id "WP_000971730.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2385372 2385374 . - 0 gene_id "ECDH10B_RS11985"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ccmB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311116.1"; locus_tag "ECDH10B_RS11985"; product "heme exporter protein CcmB"; protein_id "WP_000971730.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2386031 2386648 . - . gene_id "ECDH10B_RS11990"; transcript_id ""; gbkey "Gene"; gene "ccmA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11990"; old_locus_tag "ECDH10B_2358"; -NC_010473.1 Protein Homology CDS 2386034 2386648 . - 0 gene_id "ECDH10B_RS11990"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ccmA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001300065.1"; locus_tag "ECDH10B_RS11990"; product "cytochrome c biogenesis heme-transporting ATPase CcmA"; protein_id "WP_000888560.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2386646 2386648 . - 0 gene_id "ECDH10B_RS11990"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ccmA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001300065.1"; locus_tag "ECDH10B_RS11990"; product "cytochrome c biogenesis heme-transporting ATPase CcmA"; protein_id "WP_000888560.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2386031 2386033 . - 0 gene_id "ECDH10B_RS11990"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ccmA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001300065.1"; locus_tag "ECDH10B_RS11990"; product "cytochrome c biogenesis heme-transporting ATPase CcmA"; protein_id "WP_000888560.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2386667 2387269 . - . gene_id "ECDH10B_RS11995"; transcript_id ""; gbkey "Gene"; gene "napC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS11995"; old_locus_tag "ECDH10B_2359"; -NC_010473.1 Protein Homology CDS 2386670 2387269 . - 0 gene_id "ECDH10B_RS11995"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "napC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311118.1"; locus_tag "ECDH10B_RS11995"; product "cytochrome c-type protein NapC"; protein_id "WP_000528376.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2387267 2387269 . - 0 gene_id "ECDH10B_RS11995"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "napC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311118.1"; locus_tag "ECDH10B_RS11995"; product "cytochrome c-type protein NapC"; protein_id "WP_000528376.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2386667 2386669 . - 0 gene_id "ECDH10B_RS11995"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "napC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311118.1"; locus_tag "ECDH10B_RS11995"; product "cytochrome c-type protein NapC"; protein_id "WP_000528376.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2387279 2387728 . - . gene_id "ECDH10B_RS12000"; transcript_id ""; gbkey "Gene"; gene "napB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12000"; old_locus_tag "ECDH10B_2360"; -NC_010473.1 Protein Homology CDS 2387282 2387728 . - 0 gene_id "ECDH10B_RS12000"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "napB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311119.2"; locus_tag "ECDH10B_RS12000"; product "nitrate reductase cytochrome c-type subunit"; protein_id "WP_000835174.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2387726 2387728 . - 0 gene_id "ECDH10B_RS12000"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "napB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311119.2"; locus_tag "ECDH10B_RS12000"; product "nitrate reductase cytochrome c-type subunit"; protein_id "WP_000835174.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2387279 2387281 . - 0 gene_id "ECDH10B_RS12000"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "napB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311119.2"; locus_tag "ECDH10B_RS12000"; product "nitrate reductase cytochrome c-type subunit"; protein_id "WP_000835174.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2387725 2388588 . - . gene_id "ECDH10B_RS12005"; transcript_id ""; gbkey "Gene"; gene "napH"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12005"; old_locus_tag "ECDH10B_2361"; -NC_010473.1 Protein Homology CDS 2387728 2388588 . - 0 gene_id "ECDH10B_RS12005"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "napH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416708.1"; locus_tag "ECDH10B_RS12005"; product "quinol dehydrogenase ferredoxin subunit NapH"; protein_id "WP_000013515.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2388586 2388588 . - 0 gene_id "ECDH10B_RS12005"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "napH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416708.1"; locus_tag "ECDH10B_RS12005"; product "quinol dehydrogenase ferredoxin subunit NapH"; protein_id "WP_000013515.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2387725 2387727 . - 0 gene_id "ECDH10B_RS12005"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "napH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416708.1"; locus_tag "ECDH10B_RS12005"; product "quinol dehydrogenase ferredoxin subunit NapH"; protein_id "WP_000013515.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2388575 2389270 . - . gene_id "ECDH10B_RS12010"; transcript_id ""; gbkey "Gene"; gene "napG"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12010"; old_locus_tag "ECDH10B_2362"; -NC_010473.1 Protein Homology CDS 2388578 2389270 . - 0 gene_id "ECDH10B_RS12010"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "napG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416709.1"; locus_tag "ECDH10B_RS12010"; product "ferredoxin-type protein NapG"; protein_id "WP_000091291.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2389268 2389270 . - 0 gene_id "ECDH10B_RS12010"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "napG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416709.1"; locus_tag "ECDH10B_RS12010"; product "ferredoxin-type protein NapG"; protein_id "WP_000091291.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2388575 2388577 . - 0 gene_id "ECDH10B_RS12010"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "napG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416709.1"; locus_tag "ECDH10B_RS12010"; product "ferredoxin-type protein NapG"; protein_id "WP_000091291.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2389277 2391763 . - . gene_id "ECDH10B_RS12015"; transcript_id ""; gbkey "Gene"; gene "napA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12015"; old_locus_tag "ECDH10B_2363"; -NC_010473.1 Protein Homology CDS 2389280 2391763 . - 0 gene_id "ECDH10B_RS12015"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "napA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416710.1"; locus_tag "ECDH10B_RS12015"; product "periplasmic nitrate reductase subunit alpha"; protein_id "WP_000778061.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2391761 2391763 . - 0 gene_id "ECDH10B_RS12015"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "napA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416710.1"; locus_tag "ECDH10B_RS12015"; product "periplasmic nitrate reductase subunit alpha"; protein_id "WP_000778061.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2389277 2389279 . - 0 gene_id "ECDH10B_RS12015"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "napA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416710.1"; locus_tag "ECDH10B_RS12015"; product "periplasmic nitrate reductase subunit alpha"; protein_id "WP_000778061.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2391760 2392023 . - . gene_id "ECDH10B_RS12020"; transcript_id ""; gbkey "Gene"; gene "napD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12020"; old_locus_tag "ECDH10B_2364"; -NC_010473.1 Protein Homology CDS 2391763 2392023 . - 0 gene_id "ECDH10B_RS12020"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "napD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311123.1"; locus_tag "ECDH10B_RS12020"; product "chaperone NapD"; protein_id "WP_000557378.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2392021 2392023 . - 0 gene_id "ECDH10B_RS12020"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "napD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311123.1"; locus_tag "ECDH10B_RS12020"; product "chaperone NapD"; protein_id "WP_000557378.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2391760 2391762 . - 0 gene_id "ECDH10B_RS12020"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "napD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311123.1"; locus_tag "ECDH10B_RS12020"; product "chaperone NapD"; protein_id "WP_000557378.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2392013 2392507 . - . gene_id "ECDH10B_RS12025"; transcript_id ""; gbkey "Gene"; gene "napF"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12025"; old_locus_tag "ECDH10B_2365"; -NC_010473.1 Protein Homology CDS 2392016 2392507 . - 0 gene_id "ECDH10B_RS12025"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "napF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311124.1"; locus_tag "ECDH10B_RS12025"; product "ferredoxin-type protein NapF"; protein_id "WP_000686723.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2392505 2392507 . - 0 gene_id "ECDH10B_RS12025"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "napF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311124.1"; locus_tag "ECDH10B_RS12025"; product "ferredoxin-type protein NapF"; protein_id "WP_000686723.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2392013 2392015 . - 0 gene_id "ECDH10B_RS12025"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "napF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311124.1"; locus_tag "ECDH10B_RS12025"; product "ferredoxin-type protein NapF"; protein_id "WP_000686723.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2392616 2392780 . + . gene_id "ECDH10B_RS12030"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12030"; -NC_010473.1 GeneMarkS-2+ CDS 2392616 2392777 . + 0 gene_id "ECDH10B_RS12030"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: ab initio prediction:GeneMarkS-2+"; locus_tag "ECDH10B_RS12030"; product "hypothetical protein"; protein_id "WP_001310984.1"; transl_table "11"; -NC_010473.1 GeneMarkS-2+ start_codon 2392616 2392618 . + 0 gene_id "ECDH10B_RS12030"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: ab initio prediction:GeneMarkS-2+"; locus_tag "ECDH10B_RS12030"; product "hypothetical protein"; protein_id "WP_001310984.1"; transl_table "11"; -NC_010473.1 GeneMarkS-2+ stop_codon 2392778 2392780 . + 0 gene_id "ECDH10B_RS12030"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: ab initio prediction:GeneMarkS-2+"; locus_tag "ECDH10B_RS12030"; product "hypothetical protein"; protein_id "WP_001310984.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2392915 2393403 . + . gene_id "ECDH10B_RS12035"; transcript_id ""; gbkey "Gene"; gene "eco"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12035"; old_locus_tag "ECDH10B_2366"; -NC_010473.1 Protein Homology CDS 2392915 2393400 . + 0 gene_id "ECDH10B_RS12035"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "eco"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416713.1"; locus_tag "ECDH10B_RS12035"; product "serine protease inhibitor ecotin"; protein_id "WP_000849209.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2392915 2392917 . + 0 gene_id "ECDH10B_RS12035"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "eco"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416713.1"; locus_tag "ECDH10B_RS12035"; product "serine protease inhibitor ecotin"; protein_id "WP_000849209.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2393401 2393403 . + 0 gene_id "ECDH10B_RS12035"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "eco"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416713.1"; locus_tag "ECDH10B_RS12035"; product "serine protease inhibitor ecotin"; protein_id "WP_000849209.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2394118 2395764 . - . gene_id "ECDH10B_RS12040"; transcript_id ""; gbkey "Gene"; gene "mqo"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12040"; old_locus_tag "ECDH10B_2367"; -NC_010473.1 Protein Homology CDS 2394121 2395764 . - 0 gene_id "ECDH10B_RS12040"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mqo"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416714.1"; locus_tag "ECDH10B_RS12040"; product "malate dehydrogenase (quinone)"; protein_id "WP_000758077.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2395762 2395764 . - 0 gene_id "ECDH10B_RS12040"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mqo"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416714.1"; locus_tag "ECDH10B_RS12040"; product "malate dehydrogenase (quinone)"; protein_id "WP_000758077.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2394118 2394120 . - 0 gene_id "ECDH10B_RS12040"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mqo"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416714.1"; locus_tag "ECDH10B_RS12040"; product "malate dehydrogenase (quinone)"; protein_id "WP_000758077.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2395982 2397625 . - . gene_id "ECDH10B_RS12045"; transcript_id ""; gbkey "Gene"; gene "yojI"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12045"; old_locus_tag "ECDH10B_2368"; -NC_010473.1 Protein Homology CDS 2395985 2397625 . - 0 gene_id "ECDH10B_RS12045"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yojI"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416715.1"; locus_tag "ECDH10B_RS12045"; product "microcin J25 efflux ABC transporter YojI"; protein_id "WP_000422182.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2397623 2397625 . - 0 gene_id "ECDH10B_RS12045"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yojI"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416715.1"; locus_tag "ECDH10B_RS12045"; product "microcin J25 efflux ABC transporter YojI"; protein_id "WP_000422182.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2395982 2395984 . - 0 gene_id "ECDH10B_RS12045"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yojI"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416715.1"; locus_tag "ECDH10B_RS12045"; product "microcin J25 efflux ABC transporter YojI"; protein_id "WP_000422182.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2397701 2398351 . - . gene_id "ECDH10B_RS12050"; transcript_id ""; gbkey "Gene"; gene "alkB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12050"; old_locus_tag "ECDH10B_2369"; -NC_010473.1 Protein Homology CDS 2397704 2398351 . - 0 gene_id "ECDH10B_RS12050"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "alkB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416716.1"; locus_tag "ECDH10B_RS12050"; product "DNA oxidative demethylase AlkB"; protein_id "WP_000884971.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2398349 2398351 . - 0 gene_id "ECDH10B_RS12050"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "alkB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416716.1"; locus_tag "ECDH10B_RS12050"; product "DNA oxidative demethylase AlkB"; protein_id "WP_000884971.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2397701 2397703 . - 0 gene_id "ECDH10B_RS12050"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "alkB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416716.1"; locus_tag "ECDH10B_RS12050"; product "DNA oxidative demethylase AlkB"; protein_id "WP_000884971.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2398351 2399415 . - . gene_id "ECDH10B_RS12055"; transcript_id ""; gbkey "Gene"; gene "ada"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12055"; old_locus_tag "ECDH10B_2370"; -NC_010473.1 Protein Homology CDS 2398354 2399415 . - 0 gene_id "ECDH10B_RS12055"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ada"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416717.1"; locus_tag "ECDH10B_RS12055"; product "bifunctional DNA-binding transcriptional regulator/O6-methylguanine-DNA methyltransferase Ada"; protein_id "WP_000710375.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2399413 2399415 . - 0 gene_id "ECDH10B_RS12055"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ada"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416717.1"; locus_tag "ECDH10B_RS12055"; product "bifunctional DNA-binding transcriptional regulator/O6-methylguanine-DNA methyltransferase Ada"; protein_id "WP_000710375.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2398351 2398353 . - 0 gene_id "ECDH10B_RS12055"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ada"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416717.1"; locus_tag "ECDH10B_RS12055"; product "bifunctional DNA-binding transcriptional regulator/O6-methylguanine-DNA methyltransferase Ada"; protein_id "WP_000710375.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2399489 2400544 . - . gene_id "ECDH10B_RS12060"; transcript_id ""; gbkey "Gene"; gene "apbE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12060"; old_locus_tag "ECDH10B_2371"; -NC_010473.1 Protein Homology CDS 2399492 2400544 . - 0 gene_id "ECDH10B_RS12060"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "apbE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311130.1"; locus_tag "ECDH10B_RS12060"; product "FAD:protein FMN transferase ApbE"; protein_id "WP_000406064.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2400542 2400544 . - 0 gene_id "ECDH10B_RS12060"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "apbE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311130.1"; locus_tag "ECDH10B_RS12060"; product "FAD:protein FMN transferase ApbE"; protein_id "WP_000406064.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2399489 2399491 . - 0 gene_id "ECDH10B_RS12060"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "apbE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311130.1"; locus_tag "ECDH10B_RS12060"; product "FAD:protein FMN transferase ApbE"; protein_id "WP_000406064.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2400656 2401759 . - . gene_id "ECDH10B_RS12065"; transcript_id ""; gbkey "Gene"; gene "ompC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12065"; old_locus_tag "ECDH10B_2372"; -NC_010473.1 Protein Homology CDS 2400659 2401759 . - 0 gene_id "ECDH10B_RS12065"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ompC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416719.1"; locus_tag "ECDH10B_RS12065"; product "porin OmpC"; protein_id "WP_000865568.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2401757 2401759 . - 0 gene_id "ECDH10B_RS12065"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ompC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416719.1"; locus_tag "ECDH10B_RS12065"; product "porin OmpC"; protein_id "WP_000865568.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2400656 2400658 . - 0 gene_id "ECDH10B_RS12065"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ompC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416719.1"; locus_tag "ECDH10B_RS12065"; product "porin OmpC"; protein_id "WP_000865568.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2402498 2405170 . + . gene_id "ECDH10B_RS12080"; transcript_id ""; gbkey "Gene"; gene "rcsD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12080"; old_locus_tag "ECDH10B_2374"; -NC_010473.1 Protein Homology CDS 2402498 2405167 . + 0 gene_id "ECDH10B_RS12080"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rcsD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416720.1"; locus_tag "ECDH10B_RS12080"; product "phosphotransferase RcsD"; protein_id "WP_001249081.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2402498 2402500 . + 0 gene_id "ECDH10B_RS12080"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rcsD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416720.1"; locus_tag "ECDH10B_RS12080"; product "phosphotransferase RcsD"; protein_id "WP_001249081.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2405168 2405170 . + 0 gene_id "ECDH10B_RS12080"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rcsD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416720.1"; locus_tag "ECDH10B_RS12080"; product "phosphotransferase RcsD"; protein_id "WP_001249081.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2405187 2405837 . + . gene_id "ECDH10B_RS12085"; transcript_id ""; gbkey "Gene"; gene "rcsB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12085"; old_locus_tag "ECDH10B_2375"; -NC_010473.1 Protein Homology CDS 2405187 2405834 . + 0 gene_id "ECDH10B_RS12085"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rcsB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311133.1"; locus_tag "ECDH10B_RS12085"; product "transcriptional regulator RcsB"; protein_id "WP_001061917.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2405187 2405189 . + 0 gene_id "ECDH10B_RS12085"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rcsB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311133.1"; locus_tag "ECDH10B_RS12085"; product "transcriptional regulator RcsB"; protein_id "WP_001061917.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2405835 2405837 . + 0 gene_id "ECDH10B_RS12085"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rcsB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311133.1"; locus_tag "ECDH10B_RS12085"; product "transcriptional regulator RcsB"; protein_id "WP_001061917.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2406037 2408886 . - . gene_id "ECDH10B_RS12090"; transcript_id ""; gbkey "Gene"; gene "rcsC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12090"; old_locus_tag "ECDH10B_2376"; -NC_010473.1 Protein Homology CDS 2406040 2408886 . - 0 gene_id "ECDH10B_RS12090"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rcsC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416722.2"; locus_tag "ECDH10B_RS12090"; product "two-component system sensor histidine kinase RcsC"; protein_id "WP_000876011.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2408884 2408886 . - 0 gene_id "ECDH10B_RS12090"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rcsC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416722.2"; locus_tag "ECDH10B_RS12090"; product "two-component system sensor histidine kinase RcsC"; protein_id "WP_000876011.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2406037 2406039 . - 0 gene_id "ECDH10B_RS12090"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rcsC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416722.2"; locus_tag "ECDH10B_RS12090"; product "two-component system sensor histidine kinase RcsC"; protein_id "WP_000876011.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2409053 2410879 . + . gene_id "ECDH10B_RS12095"; transcript_id ""; gbkey "Gene"; gene "atoS"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12095"; old_locus_tag "ECDH10B_2377"; -NC_010473.1 Protein Homology CDS 2409053 2410876 . + 0 gene_id "ECDH10B_RS12095"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "atoS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416723.1"; locus_tag "ECDH10B_RS12095"; product "two-component system sensor histidine kinase AtoS"; protein_id "WP_000559125.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2409053 2409055 . + 0 gene_id "ECDH10B_RS12095"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "atoS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416723.1"; locus_tag "ECDH10B_RS12095"; product "two-component system sensor histidine kinase AtoS"; protein_id "WP_000559125.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2410877 2410879 . + 0 gene_id "ECDH10B_RS12095"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "atoS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416723.1"; locus_tag "ECDH10B_RS12095"; product "two-component system sensor histidine kinase AtoS"; protein_id "WP_000559125.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2410876 2412261 . + . gene_id "ECDH10B_RS12100"; transcript_id ""; gbkey "Gene"; gene "atoC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12100"; old_locus_tag "ECDH10B_2378"; -NC_010473.1 Protein Homology CDS 2410876 2412258 . + 0 gene_id "ECDH10B_RS12100"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "atoC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416724.1"; locus_tag "ECDH10B_RS12100"; product "acetoacetate metabolism transcriptional regulator AtoC"; protein_id "WP_000125282.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2410876 2410878 . + 0 gene_id "ECDH10B_RS12100"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "atoC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416724.1"; locus_tag "ECDH10B_RS12100"; product "acetoacetate metabolism transcriptional regulator AtoC"; protein_id "WP_000125282.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2412259 2412261 . + 0 gene_id "ECDH10B_RS12100"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "atoC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416724.1"; locus_tag "ECDH10B_RS12100"; product "acetoacetate metabolism transcriptional regulator AtoC"; protein_id "WP_000125282.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2412457 2413119 . + . gene_id "ECDH10B_RS12105"; transcript_id ""; gbkey "Gene"; gene "atoD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12105"; old_locus_tag "ECDH10B_2379"; -NC_010473.1 Protein Homology CDS 2412457 2413116 . + 0 gene_id "ECDH10B_RS12105"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "atoD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416725.1"; locus_tag "ECDH10B_RS12105"; product "acetate CoA-transferase subunit alpha"; protein_id "WP_000850540.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2412457 2412459 . + 0 gene_id "ECDH10B_RS12105"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "atoD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416725.1"; locus_tag "ECDH10B_RS12105"; product "acetate CoA-transferase subunit alpha"; protein_id "WP_000850540.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2413117 2413119 . + 0 gene_id "ECDH10B_RS12105"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "atoD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416725.1"; locus_tag "ECDH10B_RS12105"; product "acetate CoA-transferase subunit alpha"; protein_id "WP_000850540.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2413119 2413769 . + . gene_id "ECDH10B_RS12110"; transcript_id ""; gbkey "Gene"; gene "atoA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12110"; old_locus_tag "ECDH10B_2380"; -NC_010473.1 Protein Homology CDS 2413119 2413766 . + 0 gene_id "ECDH10B_RS12110"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "atoA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416726.1"; locus_tag "ECDH10B_RS12110"; product "acetate CoA-transferase subunit beta"; protein_id "WP_000339065.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2413119 2413121 . + 0 gene_id "ECDH10B_RS12110"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "atoA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416726.1"; locus_tag "ECDH10B_RS12110"; product "acetate CoA-transferase subunit beta"; protein_id "WP_000339065.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2413767 2413769 . + 0 gene_id "ECDH10B_RS12110"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "atoA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416726.1"; locus_tag "ECDH10B_RS12110"; product "acetate CoA-transferase subunit beta"; protein_id "WP_000339065.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2413766 2415088 . + . gene_id "ECDH10B_RS12115"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12115"; old_locus_tag "ECDH10B_2381"; -NC_010473.1 Protein Homology CDS 2413766 2415085 . + 0 gene_id "ECDH10B_RS12115"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416727.1"; locus_tag "ECDH10B_RS12115"; product "TIGR00366 family protein"; protein_id "WP_000580275.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2413766 2413768 . + 0 gene_id "ECDH10B_RS12115"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416727.1"; locus_tag "ECDH10B_RS12115"; product "TIGR00366 family protein"; protein_id "WP_000580275.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2415086 2415088 . + 0 gene_id "ECDH10B_RS12115"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416727.1"; locus_tag "ECDH10B_RS12115"; product "TIGR00366 family protein"; protein_id "WP_000580275.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2415119 2416303 . + . gene_id "ECDH10B_RS12120"; transcript_id ""; gbkey "Gene"; gene "atoB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12120"; old_locus_tag "ECDH10B_2382"; -NC_010473.1 Protein Homology CDS 2415119 2416300 . + 0 gene_id "ECDH10B_RS12120"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "atoB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416728.1"; locus_tag "ECDH10B_RS12120"; product "acetyl-CoA acetyltransferase"; protein_id "WP_000786547.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2415119 2415121 . + 0 gene_id "ECDH10B_RS12120"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "atoB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416728.1"; locus_tag "ECDH10B_RS12120"; product "acetyl-CoA acetyltransferase"; protein_id "WP_000786547.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2416301 2416303 . + 0 gene_id "ECDH10B_RS12120"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "atoB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416728.1"; locus_tag "ECDH10B_RS12120"; product "acetyl-CoA acetyltransferase"; protein_id "WP_000786547.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2416377 2417153 . - . gene_id "ECDH10B_RS12125"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12125"; old_locus_tag "ECDH10B_2383"; -NC_010473.1 Protein Homology CDS 2416380 2417153 . - 0 gene_id "ECDH10B_RS12125"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416729.1"; locus_tag "ECDH10B_RS12125"; product "YfaP family protein"; protein_id "WP_001225852.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2417151 2417153 . - 0 gene_id "ECDH10B_RS12125"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416729.1"; locus_tag "ECDH10B_RS12125"; product "YfaP family protein"; protein_id "WP_001225852.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2416377 2416379 . - 0 gene_id "ECDH10B_RS12125"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416729.1"; locus_tag "ECDH10B_RS12125"; product "YfaP family protein"; protein_id "WP_001225852.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2417158 2418807 . - . gene_id "ECDH10B_RS12130"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12130"; old_locus_tag "ECDH10B_2384"; -NC_010473.1 Protein Homology CDS 2417161 2418807 . - 0 gene_id "ECDH10B_RS12130"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416730.1"; locus_tag "ECDH10B_RS12130"; product "DUF2300 domain-containing protein"; protein_id "WP_001104549.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2418805 2418807 . - 0 gene_id "ECDH10B_RS12130"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416730.1"; locus_tag "ECDH10B_RS12130"; product "DUF2300 domain-containing protein"; protein_id "WP_001104549.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2417158 2417160 . - 0 gene_id "ECDH10B_RS12130"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416730.1"; locus_tag "ECDH10B_RS12130"; product "DUF2300 domain-containing protein"; protein_id "WP_001104549.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2418808 2423322 . - . gene_id "ECDH10B_RS12140"; transcript_id ""; gbkey "Gene"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS12140"; pseudo "true"; -NC_010473.1 Protein Homology CDS 2418811 2423322 . - 0 gene_id "ECDH10B_RS12140"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000536590.1"; locus_tag "ECDH10B_RS12140"; note "internal stop"; product "alpha-2-macroglobulin family protein"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2423320 2423322 . - 0 gene_id "ECDH10B_RS12140"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000536590.1"; locus_tag "ECDH10B_RS12140"; note "internal stop"; product "alpha-2-macroglobulin family protein"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2418808 2418810 . - 0 gene_id "ECDH10B_RS12140"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000536590.1"; locus_tag "ECDH10B_RS12140"; note "internal stop"; product "alpha-2-macroglobulin family protein"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 2423346 2423969 . - . gene_id "ECDH10B_RS12145"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12145"; old_locus_tag "ECDH10B_2388"; -NC_010473.1 Protein Homology CDS 2423349 2423969 . - 0 gene_id "ECDH10B_RS12145"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311139.2"; locus_tag "ECDH10B_RS12145"; product "DUF1175 domain-containing protein"; protein_id "WP_001295211.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2423967 2423969 . - 0 gene_id "ECDH10B_RS12145"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311139.2"; locus_tag "ECDH10B_RS12145"; product "DUF1175 domain-containing protein"; protein_id "WP_001295211.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2423346 2423348 . - 0 gene_id "ECDH10B_RS12145"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311139.2"; locus_tag "ECDH10B_RS12145"; product "DUF1175 domain-containing protein"; protein_id "WP_001295211.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2423966 2425654 . - . gene_id "ECDH10B_RS12150"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12150"; old_locus_tag "ECDH10B_2389"; -NC_010473.1 Protein Homology CDS 2423969 2425654 . - 0 gene_id "ECDH10B_RS12150"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416733.4"; locus_tag "ECDH10B_RS12150"; product "DUF2138 domain-containing protein"; protein_id "WP_000012305.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2425652 2425654 . - 0 gene_id "ECDH10B_RS12150"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416733.4"; locus_tag "ECDH10B_RS12150"; product "DUF2138 domain-containing protein"; protein_id "WP_000012305.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2423966 2423968 . - 0 gene_id "ECDH10B_RS12150"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416733.4"; locus_tag "ECDH10B_RS12150"; product "DUF2138 domain-containing protein"; protein_id "WP_000012305.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2425803 2428430 . - . gene_id "ECDH10B_RS12155"; transcript_id ""; gbkey "Gene"; gene "gyrA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12155"; old_locus_tag "ECDH10B_2390"; -NC_010473.1 Protein Homology CDS 2425806 2428430 . - 0 gene_id "ECDH10B_RS12155"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gyrA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416734.1"; locus_tag "ECDH10B_RS12155"; product "DNA topoisomerase (ATP-hydrolyzing) subunit A"; protein_id "WP_001281242.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2428428 2428430 . - 0 gene_id "ECDH10B_RS12155"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gyrA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416734.1"; locus_tag "ECDH10B_RS12155"; product "DNA topoisomerase (ATP-hydrolyzing) subunit A"; protein_id "WP_001281242.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2425803 2425805 . - 0 gene_id "ECDH10B_RS12155"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gyrA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416734.1"; locus_tag "ECDH10B_RS12155"; product "DNA topoisomerase (ATP-hydrolyzing) subunit A"; protein_id "WP_001281242.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2428577 2429299 . + . gene_id "ECDH10B_RS12160"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12160"; old_locus_tag "ECDH10B_2391"; -NC_010473.1 Protein Homology CDS 2428577 2429296 . + 0 gene_id "ECDH10B_RS12160"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416735.1"; locus_tag "ECDH10B_RS12160"; product "bifunctional 3-demethylubiquinone 3-O-methyltransferase/2-octaprenyl-6-hydroxy phenol methylase"; protein_id "WP_000990765.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2428577 2428579 . + 0 gene_id "ECDH10B_RS12160"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416735.1"; locus_tag "ECDH10B_RS12160"; product "bifunctional 3-demethylubiquinone 3-O-methyltransferase/2-octaprenyl-6-hydroxy phenol methylase"; protein_id "WP_000990765.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2429297 2429299 . + 0 gene_id "ECDH10B_RS12160"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416735.1"; locus_tag "ECDH10B_RS12160"; product "bifunctional 3-demethylubiquinone 3-O-methyltransferase/2-octaprenyl-6-hydroxy phenol methylase"; protein_id "WP_000990765.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2429427 2433179 . - . gene_id "ECDH10B_RS12165"; transcript_id ""; gbkey "Gene"; gene "yfaL"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12165"; old_locus_tag "ECDH10B_2392"; -NC_010473.1 Protein Homology CDS 2429430 2433179 . - 0 gene_id "ECDH10B_RS12165"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yfaL"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416736.1"; locus_tag "ECDH10B_RS12165"; product "AIDA-I family autotransporter adhesin YfaL/EhaC"; protein_id "WP_001220077.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2433177 2433179 . - 0 gene_id "ECDH10B_RS12165"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yfaL"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416736.1"; locus_tag "ECDH10B_RS12165"; product "AIDA-I family autotransporter adhesin YfaL/EhaC"; protein_id "WP_001220077.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2429427 2429429 . - 0 gene_id "ECDH10B_RS12165"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yfaL"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416736.1"; locus_tag "ECDH10B_RS12165"; product "AIDA-I family autotransporter adhesin YfaL/EhaC"; protein_id "WP_001220077.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2433875 2436160 . + . gene_id "ECDH10B_RS12175"; transcript_id ""; gbkey "Gene"; gene "nrdA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12175"; old_locus_tag "ECDH10B_2393"; -NC_010473.1 Protein Homology CDS 2433875 2436157 . + 0 gene_id "ECDH10B_RS12175"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nrdA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005129392.1"; locus_tag "ECDH10B_RS12175"; product "ribonucleoside-diphosphate reductase subunit alpha"; protein_id "WP_001075164.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2433875 2433877 . + 0 gene_id "ECDH10B_RS12175"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nrdA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005129392.1"; locus_tag "ECDH10B_RS12175"; product "ribonucleoside-diphosphate reductase subunit alpha"; protein_id "WP_001075164.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2436158 2436160 . + 0 gene_id "ECDH10B_RS12175"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nrdA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005129392.1"; locus_tag "ECDH10B_RS12175"; product "ribonucleoside-diphosphate reductase subunit alpha"; protein_id "WP_001075164.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2436394 2437524 . + . gene_id "ECDH10B_RS12180"; transcript_id ""; gbkey "Gene"; gene "nrdB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12180"; old_locus_tag "ECDH10B_2394"; -NC_010473.1 Protein Homology CDS 2436394 2437521 . + 0 gene_id "ECDH10B_RS12180"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nrdB"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_006683700.1"; locus_tag "ECDH10B_RS12180"; product "ribonucleotide-diphosphate reductase subunit beta"; protein_id "WP_000332037.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2436394 2436396 . + 0 gene_id "ECDH10B_RS12180"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nrdB"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_006683700.1"; locus_tag "ECDH10B_RS12180"; product "ribonucleotide-diphosphate reductase subunit beta"; protein_id "WP_000332037.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2437522 2437524 . + 0 gene_id "ECDH10B_RS12180"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nrdB"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_006683700.1"; locus_tag "ECDH10B_RS12180"; product "ribonucleotide-diphosphate reductase subunit beta"; protein_id "WP_000332037.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2437524 2437778 . + . gene_id "ECDH10B_RS12185"; transcript_id ""; gbkey "Gene"; gene "yfaE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12185"; old_locus_tag "ECDH10B_2395"; -NC_010473.1 Protein Homology CDS 2437524 2437775 . + 0 gene_id "ECDH10B_RS12185"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yfaE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416739.1"; locus_tag "ECDH10B_RS12185"; product "ferredoxin-like diferric-tyrosyl radical cofactor maintenance protein YfaE"; protein_id "WP_000135040.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2437524 2437526 . + 0 gene_id "ECDH10B_RS12185"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yfaE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416739.1"; locus_tag "ECDH10B_RS12185"; product "ferredoxin-like diferric-tyrosyl radical cofactor maintenance protein YfaE"; protein_id "WP_000135040.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2437776 2437778 . + 0 gene_id "ECDH10B_RS12185"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yfaE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416739.1"; locus_tag "ECDH10B_RS12185"; product "ferredoxin-like diferric-tyrosyl radical cofactor maintenance protein YfaE"; protein_id "WP_000135040.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2437832 2438482 . - . gene_id "ECDH10B_RS12190"; transcript_id ""; gbkey "Gene"; gene "inaA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12190"; old_locus_tag "ECDH10B_2396"; -NC_010473.1 Protein Homology CDS 2437835 2438482 . - 0 gene_id "ECDH10B_RS12190"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "inaA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416740.1"; locus_tag "ECDH10B_RS12190"; product "lipopolysaccharide kinase InaA"; protein_id "WP_000301050.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2438480 2438482 . - 0 gene_id "ECDH10B_RS12190"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "inaA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416740.1"; locus_tag "ECDH10B_RS12190"; product "lipopolysaccharide kinase InaA"; protein_id "WP_000301050.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2437832 2437834 . - 0 gene_id "ECDH10B_RS12190"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "inaA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416740.1"; locus_tag "ECDH10B_RS12190"; product "lipopolysaccharide kinase InaA"; protein_id "WP_000301050.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2438661 2438903 . + . gene_id "ECDH10B_RS12195"; transcript_id ""; gbkey "Gene"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS12195"; old_locus_tag "ECDH10B_2397"; partial "true"; pseudo "true"; -NC_010473.1 Protein Homology CDS 2438661 2438900 . + 0 gene_id "ECDH10B_RS12195"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311149.1"; locus_tag "ECDH10B_RS12195"; note "incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "LysR family transcriptional regulator"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2438661 2438663 . + 0 gene_id "ECDH10B_RS12195"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311149.1"; locus_tag "ECDH10B_RS12195"; note "incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "LysR family transcriptional regulator"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2438901 2438903 . + 0 gene_id "ECDH10B_RS12195"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311149.1"; locus_tag "ECDH10B_RS12195"; note "incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "LysR family transcriptional regulator"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 2438945 2440021 . - . gene_id "ECDH10B_RS12200"; transcript_id ""; gbkey "Gene"; gene "glpQ"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12200"; old_locus_tag "ECDH10B_2398"; -NC_010473.1 Protein Homology CDS 2438948 2440021 . - 0 gene_id "ECDH10B_RS12200"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "glpQ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416742.1"; locus_tag "ECDH10B_RS12200"; product "glycerophosphodiester phosphodiesterase"; protein_id "WP_000779105.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2440019 2440021 . - 0 gene_id "ECDH10B_RS12200"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "glpQ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416742.1"; locus_tag "ECDH10B_RS12200"; product "glycerophosphodiester phosphodiesterase"; protein_id "WP_000779105.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2438945 2438947 . - 0 gene_id "ECDH10B_RS12200"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "glpQ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416742.1"; locus_tag "ECDH10B_RS12200"; product "glycerophosphodiester phosphodiesterase"; protein_id "WP_000779105.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2440026 2441384 . - . gene_id "ECDH10B_RS12205"; transcript_id ""; gbkey "Gene"; gene "glpT"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12205"; old_locus_tag "ECDH10B_2399"; -NC_010473.1 Protein Homology CDS 2440029 2441384 . - 0 gene_id "ECDH10B_RS12205"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "glpT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416743.1"; locus_tag "ECDH10B_RS12205"; product "glycerol-3-phosphate transporter"; protein_id "WP_000948731.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2441382 2441384 . - 0 gene_id "ECDH10B_RS12205"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "glpT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416743.1"; locus_tag "ECDH10B_RS12205"; product "glycerol-3-phosphate transporter"; protein_id "WP_000948731.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2440026 2440028 . - 0 gene_id "ECDH10B_RS12205"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "glpT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416743.1"; locus_tag "ECDH10B_RS12205"; product "glycerol-3-phosphate transporter"; protein_id "WP_000948731.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2441657 2443285 . + . gene_id "ECDH10B_RS12210"; transcript_id ""; gbkey "Gene"; gene "glpA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12210"; old_locus_tag "ECDH10B_2400"; -NC_010473.1 Protein Homology CDS 2441657 2443282 . + 0 gene_id "ECDH10B_RS12210"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "glpA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311153.1"; locus_tag "ECDH10B_RS12210"; product "anaerobic glycerol-3-phosphate dehydrogenase subunit A"; protein_id "WP_000857257.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2441657 2441659 . + 0 gene_id "ECDH10B_RS12210"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "glpA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311153.1"; locus_tag "ECDH10B_RS12210"; product "anaerobic glycerol-3-phosphate dehydrogenase subunit A"; protein_id "WP_000857257.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2443283 2443285 . + 0 gene_id "ECDH10B_RS12210"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "glpA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311153.1"; locus_tag "ECDH10B_RS12210"; product "anaerobic glycerol-3-phosphate dehydrogenase subunit A"; protein_id "WP_000857257.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2443275 2444534 . + . gene_id "ECDH10B_RS12215"; transcript_id ""; gbkey "Gene"; gene "glpB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12215"; old_locus_tag "ECDH10B_2401"; -NC_010473.1 Protein Homology CDS 2443275 2444531 . + 0 gene_id "ECDH10B_RS12215"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "glpB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416745.1"; locus_tag "ECDH10B_RS12215"; product "glycerol-3-phosphate dehydrogenase subunit GlpB"; protein_id "WP_001209927.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2443275 2443277 . + 0 gene_id "ECDH10B_RS12215"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "glpB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416745.1"; locus_tag "ECDH10B_RS12215"; product "glycerol-3-phosphate dehydrogenase subunit GlpB"; protein_id "WP_001209927.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2444532 2444534 . + 0 gene_id "ECDH10B_RS12215"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "glpB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416745.1"; locus_tag "ECDH10B_RS12215"; product "glycerol-3-phosphate dehydrogenase subunit GlpB"; protein_id "WP_001209927.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2444531 2445721 . + . gene_id "ECDH10B_RS12220"; transcript_id ""; gbkey "Gene"; gene "glpC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12220"; old_locus_tag "ECDH10B_2402"; -NC_010473.1 Protein Homology CDS 2444531 2445718 . + 0 gene_id "ECDH10B_RS12220"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "glpC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311155.1"; locus_tag "ECDH10B_RS12220"; product "anaerobic glycerol-3-phosphate dehydrogenase subunit C"; protein_id "WP_001000379.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2444531 2444533 . + 0 gene_id "ECDH10B_RS12220"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "glpC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311155.1"; locus_tag "ECDH10B_RS12220"; product "anaerobic glycerol-3-phosphate dehydrogenase subunit C"; protein_id "WP_001000379.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2445719 2445721 . + 0 gene_id "ECDH10B_RS12220"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "glpC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311155.1"; locus_tag "ECDH10B_RS12220"; product "anaerobic glycerol-3-phosphate dehydrogenase subunit C"; protein_id "WP_001000379.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2445914 2446813 . + . gene_id "ECDH10B_RS12225"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12225"; old_locus_tag "ECDH10B_2403"; -NC_010473.1 Protein Homology CDS 2445914 2446810 . + 0 gene_id "ECDH10B_RS12225"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416747.1"; locus_tag "ECDH10B_RS12225"; product "ISNCY family transposase"; protein_id "WP_000140592.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2445914 2445916 . + 0 gene_id "ECDH10B_RS12225"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416747.1"; locus_tag "ECDH10B_RS12225"; product "ISNCY family transposase"; protein_id "WP_000140592.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2446811 2446813 . + 0 gene_id "ECDH10B_RS12225"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416747.1"; locus_tag "ECDH10B_RS12225"; product "ISNCY family transposase"; protein_id "WP_000140592.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2446826 2447011 . + . gene_id "ECDH10B_RS12230"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12230"; old_locus_tag "ECDH10B_2404"; -NC_010473.1 Protein Homology CDS 2446826 2447008 . + 0 gene_id "ECDH10B_RS12230"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000150333.1"; locus_tag "ECDH10B_RS12230"; product "hypothetical protein"; protein_id "WP_000150333.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2446826 2446828 . + 0 gene_id "ECDH10B_RS12230"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000150333.1"; locus_tag "ECDH10B_RS12230"; product "hypothetical protein"; protein_id "WP_000150333.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2447009 2447011 . + 0 gene_id "ECDH10B_RS12230"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000150333.1"; locus_tag "ECDH10B_RS12230"; product "hypothetical protein"; protein_id "WP_000150333.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2447052 2447855 . - . gene_id "ECDH10B_RS12235"; transcript_id ""; gbkey "Gene"; gene "yfaU"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12235"; old_locus_tag "ECDH10B_2405"; -NC_010473.1 Protein Homology CDS 2447055 2447855 . - 0 gene_id "ECDH10B_RS12235"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yfaU"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416748.1"; locus_tag "ECDH10B_RS12235"; product "2-keto-3-deoxy-L-rhamnonate aldolase"; protein_id "WP_000992954.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2447853 2447855 . - 0 gene_id "ECDH10B_RS12235"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yfaU"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416748.1"; locus_tag "ECDH10B_RS12235"; product "2-keto-3-deoxy-L-rhamnonate aldolase"; protein_id "WP_000992954.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2447052 2447054 . - 0 gene_id "ECDH10B_RS12235"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yfaU"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416748.1"; locus_tag "ECDH10B_RS12235"; product "2-keto-3-deoxy-L-rhamnonate aldolase"; protein_id "WP_000992954.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2447873 2449162 . - . gene_id "ECDH10B_RS12240"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12240"; old_locus_tag "ECDH10B_2406"; -NC_010473.1 Protein Homology CDS 2447876 2449162 . - 0 gene_id "ECDH10B_RS12240"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416749.4"; locus_tag "ECDH10B_RS12240"; product "MFS transporter"; protein_id "WP_000100890.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2449160 2449162 . - 0 gene_id "ECDH10B_RS12240"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416749.4"; locus_tag "ECDH10B_RS12240"; product "MFS transporter"; protein_id "WP_000100890.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2447873 2447875 . - 0 gene_id "ECDH10B_RS12240"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416749.4"; locus_tag "ECDH10B_RS12240"; product "MFS transporter"; protein_id "WP_000100890.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2449219 2450424 . - . gene_id "ECDH10B_RS12245"; transcript_id ""; gbkey "Gene"; gene "rhmD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12245"; old_locus_tag "ECDH10B_2407"; -NC_010473.1 Protein Homology CDS 2449222 2450424 . - 0 gene_id "ECDH10B_RS12245"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rhmD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416750.2"; locus_tag "ECDH10B_RS12245"; product "L-rhamnonate dehydratase"; protein_id "WP_001319848.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2450422 2450424 . - 0 gene_id "ECDH10B_RS12245"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rhmD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416750.2"; locus_tag "ECDH10B_RS12245"; product "L-rhamnonate dehydratase"; protein_id "WP_001319848.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2449219 2449221 . - 0 gene_id "ECDH10B_RS12245"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rhmD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416750.2"; locus_tag "ECDH10B_RS12245"; product "L-rhamnonate dehydratase"; protein_id "WP_001319848.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2450439 2451221 . - . gene_id "ECDH10B_RS12250"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12250"; old_locus_tag "ECDH10B_2408"; -NC_010473.1 Protein Homology CDS 2450442 2451221 . - 0 gene_id "ECDH10B_RS12250"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416751.1"; locus_tag "ECDH10B_RS12250"; product "IclR family transcriptional regulator"; protein_id "WP_000894185.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2451219 2451221 . - 0 gene_id "ECDH10B_RS12250"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416751.1"; locus_tag "ECDH10B_RS12250"; product "IclR family transcriptional regulator"; protein_id "WP_000894185.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2450439 2450441 . - 0 gene_id "ECDH10B_RS12250"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416751.1"; locus_tag "ECDH10B_RS12250"; product "IclR family transcriptional regulator"; protein_id "WP_000894185.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2451441 2452643 . - . gene_id "ECDH10B_RS12255"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12255"; old_locus_tag "ECDH10B_2409"; -NC_010473.1 Protein Homology CDS 2451444 2452643 . - 0 gene_id "ECDH10B_RS12255"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416752.1"; locus_tag "ECDH10B_RS12255"; product "nicotinamide mononucleotide deamidase-related protein YfaY"; protein_id "WP_000921621.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2452641 2452643 . - 0 gene_id "ECDH10B_RS12255"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416752.1"; locus_tag "ECDH10B_RS12255"; product "nicotinamide mononucleotide deamidase-related protein YfaY"; protein_id "WP_000921621.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2451441 2451443 . - 0 gene_id "ECDH10B_RS12255"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416752.1"; locus_tag "ECDH10B_RS12255"; product "nicotinamide mononucleotide deamidase-related protein YfaY"; protein_id "WP_000921621.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2452743 2453285 . - . gene_id "ECDH10B_RS12260"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12260"; old_locus_tag "ECDH10B_2410"; -NC_010473.1 Protein Homology CDS 2452746 2453285 . - 0 gene_id "ECDH10B_RS12260"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416753.4"; locus_tag "ECDH10B_RS12260"; product "YfaZ family protein"; protein_id "WP_001300392.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2453283 2453285 . - 0 gene_id "ECDH10B_RS12260"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416753.4"; locus_tag "ECDH10B_RS12260"; product "YfaZ family protein"; protein_id "WP_001300392.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2452743 2452745 . - 0 gene_id "ECDH10B_RS12260"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416753.4"; locus_tag "ECDH10B_RS12260"; product "YfaZ family protein"; protein_id "WP_001300392.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2453564 2453989 . + . gene_id "ECDH10B_RS12265"; transcript_id ""; gbkey "Gene"; gene "nudI"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12265"; old_locus_tag "ECDH10B_2411"; -NC_010473.1 Protein Homology CDS 2453564 2453986 . + 0 gene_id "ECDH10B_RS12265"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nudI"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416754.1"; locus_tag "ECDH10B_RS12265"; product "nucleoside triphosphatase NudI"; protein_id "WP_001300564.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2453564 2453566 . + 0 gene_id "ECDH10B_RS12265"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nudI"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416754.1"; locus_tag "ECDH10B_RS12265"; product "nucleoside triphosphatase NudI"; protein_id "WP_001300564.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2453987 2453989 . + 0 gene_id "ECDH10B_RS12265"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nudI"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416754.1"; locus_tag "ECDH10B_RS12265"; product "nucleoside triphosphatase NudI"; protein_id "WP_001300564.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2454028 2454630 . - . gene_id "ECDH10B_RS12270"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12270"; old_locus_tag "ECDH10B_2412"; -NC_010473.1 Protein Homology CDS 2454031 2454630 . - 0 gene_id "ECDH10B_RS12270"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416755.1"; locus_tag "ECDH10B_RS12270"; product "histidine phosphatase family protein"; protein_id "WP_000879112.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2454628 2454630 . - 0 gene_id "ECDH10B_RS12270"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416755.1"; locus_tag "ECDH10B_RS12270"; product "histidine phosphatase family protein"; protein_id "WP_000879112.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2454028 2454030 . - 0 gene_id "ECDH10B_RS12270"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416755.1"; locus_tag "ECDH10B_RS12270"; product "histidine phosphatase family protein"; protein_id "WP_000879112.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2454938 2456077 . + . gene_id "ECDH10B_RS12275"; transcript_id ""; gbkey "Gene"; gene "arnB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12275"; old_locus_tag "ECDH10B_2413"; -NC_010473.1 Protein Homology CDS 2454938 2456074 . + 0 gene_id "ECDH10B_RS12275"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "arnB"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_024188371.1"; locus_tag "ECDH10B_RS12275"; product "UDP-4-amino-4-deoxy-L-arabinose aminotransferase"; protein_id "WP_001295286.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2454938 2454940 . + 0 gene_id "ECDH10B_RS12275"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "arnB"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_024188371.1"; locus_tag "ECDH10B_RS12275"; product "UDP-4-amino-4-deoxy-L-arabinose aminotransferase"; protein_id "WP_001295286.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2456075 2456077 . + 0 gene_id "ECDH10B_RS12275"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "arnB"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_024188371.1"; locus_tag "ECDH10B_RS12275"; product "UDP-4-amino-4-deoxy-L-arabinose aminotransferase"; protein_id "WP_001295286.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2456081 2457049 . + . gene_id "ECDH10B_RS12280"; transcript_id ""; gbkey "Gene"; gene "arnC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12280"; old_locus_tag "ECDH10B_2414"; -NC_010473.1 Protein Homology CDS 2456081 2457046 . + 0 gene_id "ECDH10B_RS12280"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "arnC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416757.1"; locus_tag "ECDH10B_RS12280"; product "undecaprenyl-phosphate 4-deoxy-4-formamido-L-arabinose transferase"; protein_id "WP_000461657.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2456081 2456083 . + 0 gene_id "ECDH10B_RS12280"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "arnC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416757.1"; locus_tag "ECDH10B_RS12280"; product "undecaprenyl-phosphate 4-deoxy-4-formamido-L-arabinose transferase"; protein_id "WP_000461657.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2457047 2457049 . + 0 gene_id "ECDH10B_RS12280"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "arnC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416757.1"; locus_tag "ECDH10B_RS12280"; product "undecaprenyl-phosphate 4-deoxy-4-formamido-L-arabinose transferase"; protein_id "WP_000461657.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2457049 2459031 . + . gene_id "ECDH10B_RS12285"; transcript_id ""; gbkey "Gene"; gene "arnA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12285"; old_locus_tag "ECDH10B_2415"; -NC_010473.1 Protein Homology CDS 2457049 2459028 . + 0 gene_id "ECDH10B_RS12285"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "arnA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416758.1"; locus_tag "ECDH10B_RS12285"; product "bifunctional UDP-4-amino-4-deoxy-L-arabinose formyltransferase/UDP-glucuronic acid oxidase ArnA"; protein_id "WP_000860273.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2457049 2457051 . + 0 gene_id "ECDH10B_RS12285"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "arnA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416758.1"; locus_tag "ECDH10B_RS12285"; product "bifunctional UDP-4-amino-4-deoxy-L-arabinose formyltransferase/UDP-glucuronic acid oxidase ArnA"; protein_id "WP_000860273.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2459029 2459031 . + 0 gene_id "ECDH10B_RS12285"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "arnA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416758.1"; locus_tag "ECDH10B_RS12285"; product "bifunctional UDP-4-amino-4-deoxy-L-arabinose formyltransferase/UDP-glucuronic acid oxidase ArnA"; protein_id "WP_000860273.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2459028 2459918 . + . gene_id "ECDH10B_RS12290"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12290"; old_locus_tag "ECDH10B_2416"; -NC_010473.1 Protein Homology CDS 2459028 2459915 . + 0 gene_id "ECDH10B_RS12290"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416759.1"; locus_tag "ECDH10B_RS12290"; product "4-deoxy-4-formamido-L-arabinose-phosphoundecaprenol deformylase"; protein_id "WP_000169728.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2459028 2459030 . + 0 gene_id "ECDH10B_RS12290"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416759.1"; locus_tag "ECDH10B_RS12290"; product "4-deoxy-4-formamido-L-arabinose-phosphoundecaprenol deformylase"; protein_id "WP_000169728.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2459916 2459918 . + 0 gene_id "ECDH10B_RS12290"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416759.1"; locus_tag "ECDH10B_RS12290"; product "4-deoxy-4-formamido-L-arabinose-phosphoundecaprenol deformylase"; protein_id "WP_000169728.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2459918 2461570 . + . gene_id "ECDH10B_RS12295"; transcript_id ""; gbkey "Gene"; gene "arnT"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12295"; old_locus_tag "ECDH10B_2417"; -NC_010473.1 Protein Homology CDS 2459918 2461567 . + 0 gene_id "ECDH10B_RS12295"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "arnT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416760.1"; locus_tag "ECDH10B_RS12295"; product "lipid IV(A) 4-amino-4-deoxy-L-arabinosyltransferase"; protein_id "WP_000844057.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2459918 2459920 . + 0 gene_id "ECDH10B_RS12295"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "arnT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416760.1"; locus_tag "ECDH10B_RS12295"; product "lipid IV(A) 4-amino-4-deoxy-L-arabinosyltransferase"; protein_id "WP_000844057.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2461568 2461570 . + 0 gene_id "ECDH10B_RS12295"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "arnT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416760.1"; locus_tag "ECDH10B_RS12295"; product "lipid IV(A) 4-amino-4-deoxy-L-arabinosyltransferase"; protein_id "WP_000844057.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2461567 2461902 . + . gene_id "ECDH10B_RS12300"; transcript_id ""; gbkey "Gene"; gene "arnE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12300"; old_locus_tag "ECDH10B_2418"; -NC_010473.1 Protein Homology CDS 2461567 2461899 . + 0 gene_id "ECDH10B_RS12300"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "arnE"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_588462.1"; locus_tag "ECDH10B_RS12300"; product "4-amino-4-deoxy-L-arabinose-phosphoundecaprenol flippase subunit ArnE"; protein_id "WP_000638031.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2461567 2461569 . + 0 gene_id "ECDH10B_RS12300"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "arnE"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_588462.1"; locus_tag "ECDH10B_RS12300"; product "4-amino-4-deoxy-L-arabinose-phosphoundecaprenol flippase subunit ArnE"; protein_id "WP_000638031.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2461900 2461902 . + 0 gene_id "ECDH10B_RS12300"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "arnE"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_588462.1"; locus_tag "ECDH10B_RS12300"; product "4-amino-4-deoxy-L-arabinose-phosphoundecaprenol flippase subunit ArnE"; protein_id "WP_000638031.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2461902 2462288 . + . gene_id "ECDH10B_RS12305"; transcript_id ""; gbkey "Gene"; gene "arnF"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12305"; old_locus_tag "ECDH10B_2419"; -NC_010473.1 Protein Homology CDS 2461902 2462285 . + 0 gene_id "ECDH10B_RS12305"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "arnF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416761.4"; locus_tag "ECDH10B_RS12305"; product "4-amino-4-deoxy-L-arabinose-phosphoundecaprenol flippase subunit ArnF"; protein_id "WP_000523880.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2461902 2461904 . + 0 gene_id "ECDH10B_RS12305"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "arnF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416761.4"; locus_tag "ECDH10B_RS12305"; product "4-amino-4-deoxy-L-arabinose-phosphoundecaprenol flippase subunit ArnF"; protein_id "WP_000523880.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2462286 2462288 . + 0 gene_id "ECDH10B_RS12305"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "arnF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416761.4"; locus_tag "ECDH10B_RS12305"; product "4-amino-4-deoxy-L-arabinose-phosphoundecaprenol flippase subunit ArnF"; protein_id "WP_000523880.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2462282 2462548 . - . gene_id "ECDH10B_RS12310"; transcript_id ""; gbkey "Gene"; gene "pmrD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12310"; old_locus_tag "ECDH10B_2420"; -NC_010473.1 Protein Homology CDS 2462285 2462548 . - 0 gene_id "ECDH10B_RS12310"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pmrD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416762.2"; locus_tag "ECDH10B_RS12310"; product "signal transduction protein PmrD"; protein_id "WP_001295285.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2462546 2462548 . - 0 gene_id "ECDH10B_RS12310"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pmrD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416762.2"; locus_tag "ECDH10B_RS12310"; product "signal transduction protein PmrD"; protein_id "WP_001295285.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2462282 2462284 . - 0 gene_id "ECDH10B_RS12310"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pmrD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416762.2"; locus_tag "ECDH10B_RS12310"; product "signal transduction protein PmrD"; protein_id "WP_001295285.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2462658 2464013 . - . gene_id "ECDH10B_RS12315"; transcript_id ""; gbkey "Gene"; gene "menE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12315"; old_locus_tag "ECDH10B_2421"; -NC_010473.1 Protein Homology CDS 2462661 2464013 . - 0 gene_id "ECDH10B_RS12315"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "menE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416763.1"; locus_tag "ECDH10B_RS12315"; product "o-succinylbenzoate--CoA ligase"; protein_id "WP_000577625.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2464011 2464013 . - 0 gene_id "ECDH10B_RS12315"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "menE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416763.1"; locus_tag "ECDH10B_RS12315"; product "o-succinylbenzoate--CoA ligase"; protein_id "WP_000577625.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2462658 2462660 . - 0 gene_id "ECDH10B_RS12315"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "menE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416763.1"; locus_tag "ECDH10B_RS12315"; product "o-succinylbenzoate--CoA ligase"; protein_id "WP_000577625.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2464010 2464972 . - . gene_id "ECDH10B_RS12320"; transcript_id ""; gbkey "Gene"; gene "menC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12320"; old_locus_tag "ECDH10B_2422"; -NC_010473.1 Protein Homology CDS 2464013 2464972 . - 0 gene_id "ECDH10B_RS12320"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "menC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416764.1"; locus_tag "ECDH10B_RS12320"; product "o-succinylbenzoate synthase"; protein_id "WP_001255628.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2464970 2464972 . - 0 gene_id "ECDH10B_RS12320"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "menC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416764.1"; locus_tag "ECDH10B_RS12320"; product "o-succinylbenzoate synthase"; protein_id "WP_001255628.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2464010 2464012 . - 0 gene_id "ECDH10B_RS12320"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "menC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416764.1"; locus_tag "ECDH10B_RS12320"; product "o-succinylbenzoate synthase"; protein_id "WP_001255628.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2464972 2465829 . - . gene_id "ECDH10B_RS12325"; transcript_id ""; gbkey "Gene"; gene "menB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12325"; old_locus_tag "ECDH10B_2423"; -NC_010473.1 Protein Homology CDS 2464975 2465829 . - 0 gene_id "ECDH10B_RS12325"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "menB"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001641973.1"; locus_tag "ECDH10B_RS12325"; product "1,4-dihydroxy-2-naphthoyl-CoA synthase"; protein_id "WP_000639996.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2465827 2465829 . - 0 gene_id "ECDH10B_RS12325"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "menB"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001641973.1"; locus_tag "ECDH10B_RS12325"; product "1,4-dihydroxy-2-naphthoyl-CoA synthase"; protein_id "WP_000639996.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2464972 2464974 . - 0 gene_id "ECDH10B_RS12325"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "menB"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001641973.1"; locus_tag "ECDH10B_RS12325"; product "1,4-dihydroxy-2-naphthoyl-CoA synthase"; protein_id "WP_000639996.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2465844 2466602 . - . gene_id "ECDH10B_RS12330"; transcript_id ""; gbkey "Gene"; gene "menH"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12330"; old_locus_tag "ECDH10B_2424"; -NC_010473.1 Protein Homology CDS 2465847 2466602 . - 0 gene_id "ECDH10B_RS12330"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "menH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416766.1"; locus_tag "ECDH10B_RS12330"; product "2-succinyl-6-hydroxy-2,4-cyclohexadiene-1-carboxylate synthase"; protein_id "WP_000600499.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2466600 2466602 . - 0 gene_id "ECDH10B_RS12330"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "menH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416766.1"; locus_tag "ECDH10B_RS12330"; product "2-succinyl-6-hydroxy-2,4-cyclohexadiene-1-carboxylate synthase"; protein_id "WP_000600499.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2465844 2465846 . - 0 gene_id "ECDH10B_RS12330"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "menH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416766.1"; locus_tag "ECDH10B_RS12330"; product "2-succinyl-6-hydroxy-2,4-cyclohexadiene-1-carboxylate synthase"; protein_id "WP_000600499.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2466599 2468269 . - . gene_id "ECDH10B_RS12335"; transcript_id ""; gbkey "Gene"; gene "menD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12335"; old_locus_tag "ECDH10B_2425"; -NC_010473.1 Protein Homology CDS 2466602 2468269 . - 0 gene_id "ECDH10B_RS12335"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "menD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416767.1"; locus_tag "ECDH10B_RS12335"; product "2-succinyl-5-enolpyruvyl-6-hydroxy-3-cyclohexene-1-carboxylic-acid synthase"; protein_id "WP_001295284.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2468267 2468269 . - 0 gene_id "ECDH10B_RS12335"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "menD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416767.1"; locus_tag "ECDH10B_RS12335"; product "2-succinyl-5-enolpyruvyl-6-hydroxy-3-cyclohexene-1-carboxylic-acid synthase"; protein_id "WP_001295284.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2466599 2466601 . - 0 gene_id "ECDH10B_RS12335"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "menD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416767.1"; locus_tag "ECDH10B_RS12335"; product "2-succinyl-5-enolpyruvyl-6-hydroxy-3-cyclohexene-1-carboxylic-acid synthase"; protein_id "WP_001295284.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2468358 2469653 . - . gene_id "ECDH10B_RS12340"; transcript_id ""; gbkey "Gene"; gene "menF"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12340"; old_locus_tag "ECDH10B_2426"; -NC_010473.1 Protein Homology CDS 2468361 2469653 . - 0 gene_id "ECDH10B_RS12340"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "menF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416768.4"; locus_tag "ECDH10B_RS12340"; product "isochorismate synthase MenF"; protein_id "WP_001191419.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2469651 2469653 . - 0 gene_id "ECDH10B_RS12340"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "menF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416768.4"; locus_tag "ECDH10B_RS12340"; product "isochorismate synthase MenF"; protein_id "WP_001191419.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2468358 2468360 . - 0 gene_id "ECDH10B_RS12340"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "menF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416768.4"; locus_tag "ECDH10B_RS12340"; product "isochorismate synthase MenF"; protein_id "WP_001191419.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2469732 2470037 . - . gene_id "ECDH10B_RS12345"; transcript_id ""; gbkey "Gene"; gene "elaB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12345"; old_locus_tag "ECDH10B_2427"; -NC_010473.1 Protein Homology CDS 2469735 2470037 . - 0 gene_id "ECDH10B_RS12345"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "elaB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311181.1"; locus_tag "ECDH10B_RS12345"; product "stress response protein ElaB"; protein_id "WP_000070621.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2470035 2470037 . - 0 gene_id "ECDH10B_RS12345"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "elaB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311181.1"; locus_tag "ECDH10B_RS12345"; product "stress response protein ElaB"; protein_id "WP_000070621.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2469732 2469734 . - 0 gene_id "ECDH10B_RS12345"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "elaB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311181.1"; locus_tag "ECDH10B_RS12345"; product "stress response protein ElaB"; protein_id "WP_000070621.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2470092 2470553 . - . gene_id "ECDH10B_RS12350"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12350"; old_locus_tag "ECDH10B_2428"; -NC_010473.1 Protein Homology CDS 2470095 2470553 . - 0 gene_id "ECDH10B_RS12350"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416770.1"; locus_tag "ECDH10B_RS12350"; product "GNAT family N-acetyltransferase"; protein_id "WP_000574091.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2470551 2470553 . - 0 gene_id "ECDH10B_RS12350"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416770.1"; locus_tag "ECDH10B_RS12350"; product "GNAT family N-acetyltransferase"; protein_id "WP_000574091.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2470092 2470094 . - 0 gene_id "ECDH10B_RS12350"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416770.1"; locus_tag "ECDH10B_RS12350"; product "GNAT family N-acetyltransferase"; protein_id "WP_000574091.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2470618 2471547 . + . gene_id "ECDH10B_RS12355"; transcript_id ""; gbkey "Gene"; gene "rbn"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12355"; -NC_010473.1 Protein Homology CDS 2470618 2471544 . + 0 gene_id "ECDH10B_RS12355"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rbn"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416771.4"; locus_tag "ECDH10B_RS12355"; product "ribonuclease BN"; protein_id "WP_024255350.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2470618 2470620 . + 0 gene_id "ECDH10B_RS12355"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rbn"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416771.4"; locus_tag "ECDH10B_RS12355"; product "ribonuclease BN"; protein_id "WP_024255350.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2471545 2471547 . + 0 gene_id "ECDH10B_RS12355"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rbn"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416771.4"; locus_tag "ECDH10B_RS12355"; product "ribonuclease BN"; protein_id "WP_024255350.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2471581 2472278 . + . gene_id "ECDH10B_RS12360"; transcript_id ""; gbkey "Gene"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS12360"; pseudo "true"; -NC_010473.1 Protein Homology CDS 2471581 2472275 . + 0 gene_id "ECDH10B_RS12360"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_076612230.1"; locus_tag "ECDH10B_RS12360"; note "frameshifted"; product "IS1-like element IS1A family transposase"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2471581 2471583 . + 0 gene_id "ECDH10B_RS12360"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_076612230.1"; locus_tag "ECDH10B_RS12360"; note "frameshifted"; product "IS1-like element IS1A family transposase"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2472276 2472278 . + 0 gene_id "ECDH10B_RS12360"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_076612230.1"; locus_tag "ECDH10B_RS12360"; note "frameshifted"; product "IS1-like element IS1A family transposase"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 2472500 2473711 . + . gene_id "ECDH10B_RS12365"; transcript_id ""; gbkey "Gene"; gene "elaD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12365"; old_locus_tag "ECDH10B_2431"; -NC_010473.1 Protein Homology CDS 2472500 2473708 . + 0 gene_id "ECDH10B_RS12365"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "elaD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416772.1"; locus_tag "ECDH10B_RS12365"; product "deubiquitinase"; protein_id "WP_001393504.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2472500 2472502 . + 0 gene_id "ECDH10B_RS12365"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "elaD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416772.1"; locus_tag "ECDH10B_RS12365"; product "deubiquitinase"; protein_id "WP_001393504.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2473709 2473711 . + 0 gene_id "ECDH10B_RS12365"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "elaD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416772.1"; locus_tag "ECDH10B_RS12365"; product "deubiquitinase"; protein_id "WP_001393504.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2473782 2475509 . - . gene_id "ECDH10B_RS12370"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12370"; -NC_010473.1 Protein Homology CDS 2473785 2475509 . - 0 gene_id "ECDH10B_RS12370"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416773.1"; locus_tag "ECDH10B_RS12370"; product "VWA domain-containing protein"; protein_id "WP_001244806.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2475507 2475509 . - 0 gene_id "ECDH10B_RS12370"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416773.1"; locus_tag "ECDH10B_RS12370"; product "VWA domain-containing protein"; protein_id "WP_001244806.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2473782 2473784 . - 0 gene_id "ECDH10B_RS12370"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416773.1"; locus_tag "ECDH10B_RS12370"; product "VWA domain-containing protein"; protein_id "WP_001244806.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2475647 2476618 . + . gene_id "ECDH10B_RS12375"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12375"; old_locus_tag "ECDH10B_2433"; -NC_010473.1 Protein Homology CDS 2475647 2476615 . + 0 gene_id "ECDH10B_RS12375"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416774.2"; locus_tag "ECDH10B_RS12375"; product "M28 family peptidase"; protein_id "WP_000719999.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2475647 2475649 . + 0 gene_id "ECDH10B_RS12375"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416774.2"; locus_tag "ECDH10B_RS12375"; product "M28 family peptidase"; protein_id "WP_000719999.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2476616 2476618 . + 0 gene_id "ECDH10B_RS12375"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416774.2"; locus_tag "ECDH10B_RS12375"; product "M28 family peptidase"; protein_id "WP_000719999.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2476721 2477224 . + . gene_id "ECDH10B_RS12380"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12380"; old_locus_tag "ECDH10B_2434"; -NC_010473.1 Protein Homology CDS 2476721 2477221 . + 0 gene_id "ECDH10B_RS12380"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416775.1"; locus_tag "ECDH10B_RS12380"; product "YfbM family protein"; protein_id "WP_000525360.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2476721 2476723 . + 0 gene_id "ECDH10B_RS12380"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416775.1"; locus_tag "ECDH10B_RS12380"; product "YfbM family protein"; protein_id "WP_000525360.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2477222 2477224 . + 0 gene_id "ECDH10B_RS12380"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416775.1"; locus_tag "ECDH10B_RS12380"; product "YfbM family protein"; protein_id "WP_000525360.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2477497 2478213 . - . gene_id "ECDH10B_RS12385"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12385"; old_locus_tag "ECDH10B_2435"; -NC_010473.1 Protein Homology CDS 2477500 2478213 . - 0 gene_id "ECDH10B_RS12385"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416776.1"; locus_tag "ECDH10B_RS12385"; product "hypothetical protein"; protein_id "WP_000455114.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2478211 2478213 . - 0 gene_id "ECDH10B_RS12385"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416776.1"; locus_tag "ECDH10B_RS12385"; product "hypothetical protein"; protein_id "WP_000455114.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2477497 2477499 . - 0 gene_id "ECDH10B_RS12385"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416776.1"; locus_tag "ECDH10B_RS12385"; product "hypothetical protein"; protein_id "WP_000455114.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2478422 2478844 . + . gene_id "ECDH10B_RS12390"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12390"; old_locus_tag "ECDH10B_2436"; -NC_010473.1 Protein Homology CDS 2478422 2478841 . + 0 gene_id "ECDH10B_RS12390"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416777.2"; locus_tag "ECDH10B_RS12390"; product "hypothetical protein"; protein_id "WP_000188051.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2478422 2478424 . + 0 gene_id "ECDH10B_RS12390"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416777.2"; locus_tag "ECDH10B_RS12390"; product "hypothetical protein"; protein_id "WP_000188051.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2478842 2478844 . + 0 gene_id "ECDH10B_RS12390"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416777.2"; locus_tag "ECDH10B_RS12390"; product "hypothetical protein"; protein_id "WP_000188051.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2478903 2479751 . + . gene_id "ECDH10B_RS12395"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12395"; old_locus_tag "ECDH10B_2437"; -NC_010473.1 Protein Homology CDS 2478903 2479748 . + 0 gene_id "ECDH10B_RS12395"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416778.2"; locus_tag "ECDH10B_RS12395"; product "tetratricopeptide repeat protein"; protein_id "WP_000767280.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2478903 2478905 . + 0 gene_id "ECDH10B_RS12395"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416778.2"; locus_tag "ECDH10B_RS12395"; product "tetratricopeptide repeat protein"; protein_id "WP_000767280.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2479749 2479751 . + 0 gene_id "ECDH10B_RS12395"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416778.2"; locus_tag "ECDH10B_RS12395"; product "tetratricopeptide repeat protein"; protein_id "WP_000767280.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2479835 2481292 . - . gene_id "ECDH10B_RS12400"; transcript_id ""; gbkey "Gene"; gene "nuoN"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12400"; old_locus_tag "ECDH10B_2438"; -NC_010473.1 Protein Homology CDS 2479838 2481292 . - 0 gene_id "ECDH10B_RS12400"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nuoN"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416779.2"; locus_tag "ECDH10B_RS12400"; product "NADH-quinone oxidoreductase subunit NuoN"; protein_id "WP_000156701.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2481290 2481292 . - 0 gene_id "ECDH10B_RS12400"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nuoN"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416779.2"; locus_tag "ECDH10B_RS12400"; product "NADH-quinone oxidoreductase subunit NuoN"; protein_id "WP_000156701.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2479835 2479837 . - 0 gene_id "ECDH10B_RS12400"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nuoN"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416779.2"; locus_tag "ECDH10B_RS12400"; product "NADH-quinone oxidoreductase subunit NuoN"; protein_id "WP_000156701.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2481299 2482828 . - . gene_id "ECDH10B_RS12405"; transcript_id ""; gbkey "Gene"; gene "nuoM"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12405"; old_locus_tag "ECDH10B_2439"; -NC_010473.1 Protein Homology CDS 2481302 2482828 . - 0 gene_id "ECDH10B_RS12405"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nuoM"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005129465.1"; locus_tag "ECDH10B_RS12405"; product "NADH-quinone oxidoreductase subunit M"; protein_id "WP_000926441.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2482826 2482828 . - 0 gene_id "ECDH10B_RS12405"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nuoM"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005129465.1"; locus_tag "ECDH10B_RS12405"; product "NADH-quinone oxidoreductase subunit M"; protein_id "WP_000926441.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2481299 2481301 . - 0 gene_id "ECDH10B_RS12405"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nuoM"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005129465.1"; locus_tag "ECDH10B_RS12405"; product "NADH-quinone oxidoreductase subunit M"; protein_id "WP_000926441.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2482992 2484833 . - . gene_id "ECDH10B_RS12410"; transcript_id ""; gbkey "Gene"; gene "nuoL"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12410"; old_locus_tag "ECDH10B_2440"; -NC_010473.1 Protein Homology CDS 2482995 2484833 . - 0 gene_id "ECDH10B_RS12410"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nuoL"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005129466.1"; locus_tag "ECDH10B_RS12410"; product "NADH-quinone oxidoreductase subunit L"; protein_id "WP_001056643.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2484831 2484833 . - 0 gene_id "ECDH10B_RS12410"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nuoL"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005129466.1"; locus_tag "ECDH10B_RS12410"; product "NADH-quinone oxidoreductase subunit L"; protein_id "WP_001056643.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2482992 2482994 . - 0 gene_id "ECDH10B_RS12410"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nuoL"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005129466.1"; locus_tag "ECDH10B_RS12410"; product "NADH-quinone oxidoreductase subunit L"; protein_id "WP_001056643.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2484830 2485132 . - . gene_id "ECDH10B_RS12415"; transcript_id ""; gbkey "Gene"; gene "nuoK"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12415"; old_locus_tag "ECDH10B_2441"; -NC_010473.1 Protein Homology CDS 2484833 2485132 . - 0 gene_id "ECDH10B_RS12415"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nuoK"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_006683663.1"; locus_tag "ECDH10B_RS12415"; product "NADH-quinone oxidoreductase subunit NuoK"; protein_id "WP_000612644.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2485130 2485132 . - 0 gene_id "ECDH10B_RS12415"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nuoK"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_006683663.1"; locus_tag "ECDH10B_RS12415"; product "NADH-quinone oxidoreductase subunit NuoK"; protein_id "WP_000612644.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2484830 2484832 . - 0 gene_id "ECDH10B_RS12415"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nuoK"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_006683663.1"; locus_tag "ECDH10B_RS12415"; product "NADH-quinone oxidoreductase subunit NuoK"; protein_id "WP_000612644.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2485129 2485683 . - . gene_id "ECDH10B_RS12420"; transcript_id ""; gbkey "Gene"; gene "nuoJ"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12420"; old_locus_tag "ECDH10B_2442"; -NC_010473.1 Protein Homology CDS 2485132 2485683 . - 0 gene_id "ECDH10B_RS12420"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nuoJ"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001774950.1"; locus_tag "ECDH10B_RS12420"; product "NADH-quinone oxidoreductase subunit J"; protein_id "WP_000393511.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2485681 2485683 . - 0 gene_id "ECDH10B_RS12420"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nuoJ"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001774950.1"; locus_tag "ECDH10B_RS12420"; product "NADH-quinone oxidoreductase subunit J"; protein_id "WP_000393511.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2485129 2485131 . - 0 gene_id "ECDH10B_RS12420"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nuoJ"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001774950.1"; locus_tag "ECDH10B_RS12420"; product "NADH-quinone oxidoreductase subunit J"; protein_id "WP_000393511.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2485695 2486237 . - . gene_id "ECDH10B_RS12425"; transcript_id ""; gbkey "Gene"; gene "nuoI"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12425"; old_locus_tag "ECDH10B_2443"; -NC_010473.1 Protein Homology CDS 2485698 2486237 . - 0 gene_id "ECDH10B_RS12425"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nuoI"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_015959823.1"; locus_tag "ECDH10B_RS12425"; product "NADH-quinone oxidoreductase subunit NuoI"; protein_id "WP_000172749.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2486235 2486237 . - 0 gene_id "ECDH10B_RS12425"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nuoI"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_015959823.1"; locus_tag "ECDH10B_RS12425"; product "NADH-quinone oxidoreductase subunit NuoI"; protein_id "WP_000172749.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2485695 2485697 . - 0 gene_id "ECDH10B_RS12425"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nuoI"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_015959823.1"; locus_tag "ECDH10B_RS12425"; product "NADH-quinone oxidoreductase subunit NuoI"; protein_id "WP_000172749.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2486252 2487229 . - . gene_id "ECDH10B_RS12430"; transcript_id ""; gbkey "Gene"; gene "nuoH"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12430"; old_locus_tag "ECDH10B_2444"; -NC_010473.1 Protein Homology CDS 2486255 2487229 . - 0 gene_id "ECDH10B_RS12430"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nuoH"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_015875065.1"; locus_tag "ECDH10B_RS12430"; product "NADH-quinone oxidoreductase subunit NuoH"; protein_id "WP_000118507.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2487227 2487229 . - 0 gene_id "ECDH10B_RS12430"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nuoH"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_015875065.1"; locus_tag "ECDH10B_RS12430"; product "NADH-quinone oxidoreductase subunit NuoH"; protein_id "WP_000118507.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2486252 2486254 . - 0 gene_id "ECDH10B_RS12430"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nuoH"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_015875065.1"; locus_tag "ECDH10B_RS12430"; product "NADH-quinone oxidoreductase subunit NuoH"; protein_id "WP_000118507.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2487226 2489952 . - . gene_id "ECDH10B_RS12435"; transcript_id ""; gbkey "Gene"; gene "nuoG"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12435"; old_locus_tag "ECDH10B_2445"; -NC_010473.1 Protein Homology CDS 2487229 2489952 . - 0 gene_id "ECDH10B_RS12435"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nuoG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416786.4"; locus_tag "ECDH10B_RS12435"; product "NADH-quinone oxidoreductase subunit NuoG"; protein_id "WP_000190939.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2489950 2489952 . - 0 gene_id "ECDH10B_RS12435"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nuoG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416786.4"; locus_tag "ECDH10B_RS12435"; product "NADH-quinone oxidoreductase subunit NuoG"; protein_id "WP_000190939.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2487226 2487228 . - 0 gene_id "ECDH10B_RS12435"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nuoG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416786.4"; locus_tag "ECDH10B_RS12435"; product "NADH-quinone oxidoreductase subunit NuoG"; protein_id "WP_000190939.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2490005 2491342 . - . gene_id "ECDH10B_RS12440"; transcript_id ""; gbkey "Gene"; gene "nuoF"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12440"; old_locus_tag "ECDH10B_2446"; -NC_010473.1 Protein Homology CDS 2490008 2491342 . - 0 gene_id "ECDH10B_RS12440"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nuoF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416787.1"; locus_tag "ECDH10B_RS12440"; product "NADH-quinone oxidoreductase subunit NuoF"; protein_id "WP_000789500.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2491340 2491342 . - 0 gene_id "ECDH10B_RS12440"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nuoF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416787.1"; locus_tag "ECDH10B_RS12440"; product "NADH-quinone oxidoreductase subunit NuoF"; protein_id "WP_000789500.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2490005 2490007 . - 0 gene_id "ECDH10B_RS12440"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nuoF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416787.1"; locus_tag "ECDH10B_RS12440"; product "NADH-quinone oxidoreductase subunit NuoF"; protein_id "WP_000789500.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2491339 2491839 . - . gene_id "ECDH10B_RS12445"; transcript_id ""; gbkey "Gene"; gene "nuoE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12445"; old_locus_tag "ECDH10B_2447"; -NC_010473.1 Protein Homology CDS 2491342 2491839 . - 0 gene_id "ECDH10B_RS12445"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nuoE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416788.1"; locus_tag "ECDH10B_RS12445"; product "NADH-quinone oxidoreductase subunit NuoE"; protein_id "WP_000545042.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2491837 2491839 . - 0 gene_id "ECDH10B_RS12445"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nuoE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416788.1"; locus_tag "ECDH10B_RS12445"; product "NADH-quinone oxidoreductase subunit NuoE"; protein_id "WP_000545042.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2491339 2491341 . - 0 gene_id "ECDH10B_RS12445"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nuoE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416788.1"; locus_tag "ECDH10B_RS12445"; product "NADH-quinone oxidoreductase subunit NuoE"; protein_id "WP_000545042.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2491842 2493644 . - . gene_id "ECDH10B_RS12450"; transcript_id ""; gbkey "Gene"; gene "nuoC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12450"; old_locus_tag "ECDH10B_2448"; -NC_010473.1 Protein Homology CDS 2491845 2493644 . - 0 gene_id "ECDH10B_RS12450"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nuoC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_708168.1"; locus_tag "ECDH10B_RS12450"; product "NADH-quinone oxidoreductase subunit C/D"; protein_id "WP_000247879.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2493642 2493644 . - 0 gene_id "ECDH10B_RS12450"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nuoC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_708168.1"; locus_tag "ECDH10B_RS12450"; product "NADH-quinone oxidoreductase subunit C/D"; protein_id "WP_000247879.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2491842 2491844 . - 0 gene_id "ECDH10B_RS12450"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nuoC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_708168.1"; locus_tag "ECDH10B_RS12450"; product "NADH-quinone oxidoreductase subunit C/D"; protein_id "WP_000247879.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2493738 2494400 . - . gene_id "ECDH10B_RS12455"; transcript_id ""; gbkey "Gene"; gene "nuoB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12455"; old_locus_tag "ECDH10B_2449"; -NC_010473.1 Protein Homology CDS 2493741 2494400 . - 0 gene_id "ECDH10B_RS12455"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nuoB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311198.1"; locus_tag "ECDH10B_RS12455"; product "NADH-quinone oxidoreductase subunit NuoB"; protein_id "WP_000386733.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2494398 2494400 . - 0 gene_id "ECDH10B_RS12455"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nuoB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311198.1"; locus_tag "ECDH10B_RS12455"; product "NADH-quinone oxidoreductase subunit NuoB"; protein_id "WP_000386733.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2493738 2493740 . - 0 gene_id "ECDH10B_RS12455"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nuoB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311198.1"; locus_tag "ECDH10B_RS12455"; product "NADH-quinone oxidoreductase subunit NuoB"; protein_id "WP_000386733.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2494416 2494859 . - . gene_id "ECDH10B_RS12460"; transcript_id ""; gbkey "Gene"; gene "nuoA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12460"; old_locus_tag "ECDH10B_2450"; -NC_010473.1 Protein Homology CDS 2494419 2494859 . - 0 gene_id "ECDH10B_RS12460"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nuoA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_708170.1"; locus_tag "ECDH10B_RS12460"; product "NADH-quinone oxidoreductase subunit NuoA"; protein_id "WP_000062997.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2494857 2494859 . - 0 gene_id "ECDH10B_RS12460"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nuoA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_708170.1"; locus_tag "ECDH10B_RS12460"; product "NADH-quinone oxidoreductase subunit NuoA"; protein_id "WP_000062997.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2494416 2494418 . - 0 gene_id "ECDH10B_RS12460"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nuoA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_708170.1"; locus_tag "ECDH10B_RS12460"; product "NADH-quinone oxidoreductase subunit NuoA"; protein_id "WP_000062997.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2495490 2496428 . - . gene_id "ECDH10B_RS12465"; transcript_id ""; gbkey "Gene"; gene "lrhA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12465"; old_locus_tag "ECDH10B_2451"; -NC_010473.1 Protein Homology CDS 2495493 2496428 . - 0 gene_id "ECDH10B_RS12465"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lrhA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416792.1"; locus_tag "ECDH10B_RS12465"; product "transcriptional regulator LrhA"; protein_id "WP_000622280.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2496426 2496428 . - 0 gene_id "ECDH10B_RS12465"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lrhA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416792.1"; locus_tag "ECDH10B_RS12465"; product "transcriptional regulator LrhA"; protein_id "WP_000622280.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2495490 2495492 . - 0 gene_id "ECDH10B_RS12465"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lrhA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416792.1"; locus_tag "ECDH10B_RS12465"; product "transcriptional regulator LrhA"; protein_id "WP_000622280.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2497348 2498565 . + . gene_id "ECDH10B_RS12470"; transcript_id ""; gbkey "Gene"; gene "alaA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12470"; old_locus_tag "ECDH10B_2452"; -NC_010473.1 Protein Homology CDS 2497348 2498562 . + 0 gene_id "ECDH10B_RS12470"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "alaA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416793.1"; locus_tag "ECDH10B_RS12470"; product "alanine transaminase AlaA"; protein_id "WP_000074527.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2497348 2497350 . + 0 gene_id "ECDH10B_RS12470"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "alaA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416793.1"; locus_tag "ECDH10B_RS12470"; product "alanine transaminase AlaA"; protein_id "WP_000074527.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2498563 2498565 . + 0 gene_id "ECDH10B_RS12470"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "alaA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416793.1"; locus_tag "ECDH10B_RS12470"; product "alanine transaminase AlaA"; protein_id "WP_000074527.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2498649 2499248 . + . gene_id "ECDH10B_RS12475"; transcript_id ""; gbkey "Gene"; gene "yfbR"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12475"; old_locus_tag "ECDH10B_2453"; -NC_010473.1 Protein Homology CDS 2498649 2499245 . + 0 gene_id "ECDH10B_RS12475"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yfbR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416794.1"; locus_tag "ECDH10B_RS12475"; product "5'-deoxynucleotidase"; protein_id "WP_000813859.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2498649 2498651 . + 0 gene_id "ECDH10B_RS12475"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yfbR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416794.1"; locus_tag "ECDH10B_RS12475"; product "5'-deoxynucleotidase"; protein_id "WP_000813859.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2499246 2499248 . + 0 gene_id "ECDH10B_RS12475"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yfbR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416794.1"; locus_tag "ECDH10B_RS12475"; product "5'-deoxynucleotidase"; protein_id "WP_000813859.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2499307 2501139 . - . gene_id "ECDH10B_RS12480"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12480"; -NC_010473.1 Protein Homology CDS 2499310 2501139 . - 0 gene_id "ECDH10B_RS12480"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311203.1"; locus_tag "ECDH10B_RS12480"; product "SLC13 family permease"; protein_id "WP_001012899.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2501137 2501139 . - 0 gene_id "ECDH10B_RS12480"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311203.1"; locus_tag "ECDH10B_RS12480"; product "SLC13 family permease"; protein_id "WP_001012899.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2499307 2499309 . - 0 gene_id "ECDH10B_RS12480"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311203.1"; locus_tag "ECDH10B_RS12480"; product "SLC13 family permease"; protein_id "WP_001012899.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2501226 2501876 . - . gene_id "ECDH10B_RS12485"; transcript_id ""; gbkey "Gene"; gene "hxpA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12485"; old_locus_tag "ECDH10B_2455"; -NC_010473.1 Protein Homology CDS 2501229 2501876 . - 0 gene_id "ECDH10B_RS12485"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hxpA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416796.2"; locus_tag "ECDH10B_RS12485"; product "hexitol phosphatase HpxA"; protein_id "WP_001203392.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2501874 2501876 . - 0 gene_id "ECDH10B_RS12485"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hxpA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416796.2"; locus_tag "ECDH10B_RS12485"; product "hexitol phosphatase HpxA"; protein_id "WP_001203392.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2501226 2501228 . - 0 gene_id "ECDH10B_RS12485"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hxpA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416796.2"; locus_tag "ECDH10B_RS12485"; product "hexitol phosphatase HpxA"; protein_id "WP_001203392.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2501887 2502381 . - . gene_id "ECDH10B_RS12490"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12490"; old_locus_tag "ECDH10B_2456"; -NC_010473.1 Protein Homology CDS 2501890 2502381 . - 0 gene_id "ECDH10B_RS12490"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_007371080.1"; locus_tag "ECDH10B_RS12490"; product "YfbU family protein"; protein_id "WP_000426124.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2502379 2502381 . - 0 gene_id "ECDH10B_RS12490"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_007371080.1"; locus_tag "ECDH10B_RS12490"; product "YfbU family protein"; protein_id "WP_000426124.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2501887 2501889 . - 0 gene_id "ECDH10B_RS12490"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_007371080.1"; locus_tag "ECDH10B_RS12490"; product "YfbU family protein"; protein_id "WP_000426124.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2502464 2502919 . - . gene_id "ECDH10B_RS12495"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12495"; old_locus_tag "ECDH10B_2457"; -NC_010473.1 Protein Homology CDS 2502467 2502919 . - 0 gene_id "ECDH10B_RS12495"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005129545.1"; locus_tag "ECDH10B_RS12495"; product "DUF412 domain-containing protein"; protein_id "WP_000106627.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2502917 2502919 . - 0 gene_id "ECDH10B_RS12495"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005129545.1"; locus_tag "ECDH10B_RS12495"; product "DUF412 domain-containing protein"; protein_id "WP_000106627.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2502464 2502466 . - 0 gene_id "ECDH10B_RS12495"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005129545.1"; locus_tag "ECDH10B_RS12495"; product "DUF412 domain-containing protein"; protein_id "WP_000106627.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2503257 2504459 . + . gene_id "ECDH10B_RS12505"; transcript_id ""; gbkey "Gene"; gene "ackA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12505"; old_locus_tag "ECDH10B_2458"; -NC_010473.1 Protein Homology CDS 2503257 2504456 . + 0 gene_id "ECDH10B_RS12505"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ackA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005129491.1"; locus_tag "ECDH10B_RS12505"; product "acetate kinase"; protein_id "WP_000095707.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2503257 2503259 . + 0 gene_id "ECDH10B_RS12505"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ackA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005129491.1"; locus_tag "ECDH10B_RS12505"; product "acetate kinase"; protein_id "WP_000095707.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2504457 2504459 . + 0 gene_id "ECDH10B_RS12505"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ackA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005129491.1"; locus_tag "ECDH10B_RS12505"; product "acetate kinase"; protein_id "WP_000095707.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2504534 2506678 . + . gene_id "ECDH10B_RS12510"; transcript_id ""; gbkey "Gene"; gene "pta"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12510"; old_locus_tag "ECDH10B_2459"; -NC_010473.1 Protein Homology CDS 2504534 2506675 . + 0 gene_id "ECDH10B_RS12510"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pta"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416800.1"; locus_tag "ECDH10B_RS12510"; product "phosphate acetyltransferase"; protein_id "WP_000086722.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2504534 2504536 . + 0 gene_id "ECDH10B_RS12510"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pta"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416800.1"; locus_tag "ECDH10B_RS12510"; product "phosphate acetyltransferase"; protein_id "WP_000086722.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2506676 2506678 . + 0 gene_id "ECDH10B_RS12510"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pta"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416800.1"; locus_tag "ECDH10B_RS12510"; product "phosphate acetyltransferase"; protein_id "WP_000086722.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2506868 2508388 . + . gene_id "ECDH10B_RS12515"; transcript_id ""; gbkey "Gene"; gene "yfcC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12515"; old_locus_tag "ECDH10B_2460"; -NC_010473.1 Protein Homology CDS 2506868 2508385 . + 0 gene_id "ECDH10B_RS12515"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yfcC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416801.2"; locus_tag "ECDH10B_RS12515"; product "putative basic amino acid antiporter YfcC"; protein_id "WP_001274493.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2506868 2506870 . + 0 gene_id "ECDH10B_RS12515"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yfcC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416801.2"; locus_tag "ECDH10B_RS12515"; product "putative basic amino acid antiporter YfcC"; protein_id "WP_001274493.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2508386 2508388 . + 0 gene_id "ECDH10B_RS12515"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yfcC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416801.2"; locus_tag "ECDH10B_RS12515"; product "putative basic amino acid antiporter YfcC"; protein_id "WP_001274493.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2508421 2508963 . - . gene_id "ECDH10B_RS12520"; transcript_id ""; gbkey "Gene"; gene "yfcD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12520"; old_locus_tag "ECDH10B_2461"; -NC_010473.1 Protein Homology CDS 2508424 2508963 . - 0 gene_id "ECDH10B_RS12520"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yfcD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311210.1"; locus_tag "ECDH10B_RS12520"; product "NUDIX hydrolase YfcD"; protein_id "WP_000437935.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2508961 2508963 . - 0 gene_id "ECDH10B_RS12520"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yfcD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311210.1"; locus_tag "ECDH10B_RS12520"; product "NUDIX hydrolase YfcD"; protein_id "WP_000437935.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2508421 2508423 . - 0 gene_id "ECDH10B_RS12520"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yfcD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311210.1"; locus_tag "ECDH10B_RS12520"; product "NUDIX hydrolase YfcD"; protein_id "WP_000437935.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2509021 2509572 . - . gene_id "ECDH10B_RS12525"; transcript_id ""; gbkey "Gene"; gene "yfcE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12525"; old_locus_tag "ECDH10B_2462"; -NC_010473.1 Protein Homology CDS 2509024 2509572 . - 0 gene_id "ECDH10B_RS12525"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yfcE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311211.4"; locus_tag "ECDH10B_RS12525"; product "phosphodiesterase"; protein_id "WP_000772452.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2509570 2509572 . - 0 gene_id "ECDH10B_RS12525"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yfcE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311211.4"; locus_tag "ECDH10B_RS12525"; product "phosphodiesterase"; protein_id "WP_000772452.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2509021 2509023 . - 0 gene_id "ECDH10B_RS12525"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yfcE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311211.4"; locus_tag "ECDH10B_RS12525"; product "phosphodiesterase"; protein_id "WP_000772452.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2509628 2510272 . - . gene_id "ECDH10B_RS12530"; transcript_id ""; gbkey "Gene"; gene "yfcF"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12530"; old_locus_tag "ECDH10B_2463"; -NC_010473.1 Protein Homology CDS 2509631 2510272 . - 0 gene_id "ECDH10B_RS12530"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yfcF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416804.1"; locus_tag "ECDH10B_RS12530"; product "glutathione transferase"; protein_id "WP_000042442.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2510270 2510272 . - 0 gene_id "ECDH10B_RS12530"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yfcF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416804.1"; locus_tag "ECDH10B_RS12530"; product "glutathione transferase"; protein_id "WP_000042442.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2509628 2509630 . - 0 gene_id "ECDH10B_RS12530"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yfcF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416804.1"; locus_tag "ECDH10B_RS12530"; product "glutathione transferase"; protein_id "WP_000042442.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2510408 2511055 . + . gene_id "ECDH10B_RS12535"; transcript_id ""; gbkey "Gene"; gene "yfcG"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12535"; old_locus_tag "ECDH10B_2464"; -NC_010473.1 Protein Homology CDS 2510408 2511052 . + 0 gene_id "ECDH10B_RS12535"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yfcG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416805.1"; locus_tag "ECDH10B_RS12535"; product "GSH-dependent disulfide bond oxidoreductase"; protein_id "WP_000566471.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2510408 2510410 . + 0 gene_id "ECDH10B_RS12535"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yfcG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416805.1"; locus_tag "ECDH10B_RS12535"; product "GSH-dependent disulfide bond oxidoreductase"; protein_id "WP_000566471.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2511053 2511055 . + 0 gene_id "ECDH10B_RS12535"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yfcG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416805.1"; locus_tag "ECDH10B_RS12535"; product "GSH-dependent disulfide bond oxidoreductase"; protein_id "WP_000566471.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2511112 2511474 . + . gene_id "ECDH10B_RS12540"; transcript_id ""; gbkey "Gene"; gene "folX"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12540"; old_locus_tag "ECDH10B_2465"; -NC_010473.1 Protein Homology CDS 2511112 2511471 . + 0 gene_id "ECDH10B_RS12540"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "folX"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311214.1"; locus_tag "ECDH10B_RS12540"; product "dihydroneopterin triphosphate 2'-epimerase"; protein_id "WP_000068457.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2511112 2511114 . + 0 gene_id "ECDH10B_RS12540"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "folX"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311214.1"; locus_tag "ECDH10B_RS12540"; product "dihydroneopterin triphosphate 2'-epimerase"; protein_id "WP_000068457.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2511472 2511474 . + 0 gene_id "ECDH10B_RS12540"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "folX"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311214.1"; locus_tag "ECDH10B_RS12540"; product "dihydroneopterin triphosphate 2'-epimerase"; protein_id "WP_000068457.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2511495 2512388 . + . gene_id "ECDH10B_RS12545"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12545"; old_locus_tag "ECDH10B_2466"; -NC_010473.1 Protein Homology CDS 2511495 2512385 . + 0 gene_id "ECDH10B_RS12545"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416807.1"; locus_tag "ECDH10B_RS12545"; product "TIGR01777 family protein"; protein_id "WP_001028341.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2511495 2511497 . + 0 gene_id "ECDH10B_RS12545"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416807.1"; locus_tag "ECDH10B_RS12545"; product "TIGR01777 family protein"; protein_id "WP_001028341.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2512386 2512388 . + 0 gene_id "ECDH10B_RS12545"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416807.1"; locus_tag "ECDH10B_RS12545"; product "TIGR01777 family protein"; protein_id "WP_001028341.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2512436 2513326 . - . gene_id "ECDH10B_RS12550"; transcript_id ""; gbkey "Gene"; gene "rpnB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12550"; old_locus_tag "ECDH10B_2467"; -NC_010473.1 Protein Homology CDS 2512439 2513326 . - 0 gene_id "ECDH10B_RS12550"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rpnB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416808.1"; locus_tag "ECDH10B_RS12550"; product "recombination-promoting nuclease RpnB"; protein_id "WP_000156149.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2513324 2513326 . - 0 gene_id "ECDH10B_RS12550"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rpnB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416808.1"; locus_tag "ECDH10B_RS12550"; product "recombination-promoting nuclease RpnB"; protein_id "WP_000156149.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2512436 2512438 . - 0 gene_id "ECDH10B_RS12550"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rpnB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416808.1"; locus_tag "ECDH10B_RS12550"; product "recombination-promoting nuclease RpnB"; protein_id "WP_000156149.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2513523 2514296 . - . gene_id "ECDH10B_RS12555"; transcript_id ""; gbkey "Gene"; gene "hisP"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12555"; old_locus_tag "ECDH10B_2468"; -NC_010473.1 Protein Homology CDS 2513526 2514296 . - 0 gene_id "ECDH10B_RS12555"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hisP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416809.1"; locus_tag "ECDH10B_RS12555"; product "histidine ABC transporter ATP-binding protein HisP"; protein_id "WP_001293613.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2514294 2514296 . - 0 gene_id "ECDH10B_RS12555"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hisP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416809.1"; locus_tag "ECDH10B_RS12555"; product "histidine ABC transporter ATP-binding protein HisP"; protein_id "WP_001293613.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2513523 2513525 . - 0 gene_id "ECDH10B_RS12555"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hisP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416809.1"; locus_tag "ECDH10B_RS12555"; product "histidine ABC transporter ATP-binding protein HisP"; protein_id "WP_001293613.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2514304 2515020 . - . gene_id "ECDH10B_RS12560"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12560"; old_locus_tag "ECDH10B_2469"; -NC_010473.1 Protein Homology CDS 2514307 2515020 . - 0 gene_id "ECDH10B_RS12560"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311218.1"; locus_tag "ECDH10B_RS12560"; product "ABC transporter permease"; protein_id "WP_000569958.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2515018 2515020 . - 0 gene_id "ECDH10B_RS12560"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311218.1"; locus_tag "ECDH10B_RS12560"; product "ABC transporter permease"; protein_id "WP_000569958.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2514304 2514306 . - 0 gene_id "ECDH10B_RS12560"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311218.1"; locus_tag "ECDH10B_RS12560"; product "ABC transporter permease"; protein_id "WP_000569958.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2515017 2515703 . - . gene_id "ECDH10B_RS12565"; transcript_id ""; gbkey "Gene"; gene "hisQ"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12565"; old_locus_tag "ECDH10B_2470"; -NC_010473.1 Protein Homology CDS 2515020 2515703 . - 0 gene_id "ECDH10B_RS12565"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hisQ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416811.1"; locus_tag "ECDH10B_RS12565"; product "histidine ABC transporter permease HisQ"; protein_id "WP_000965522.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2515701 2515703 . - 0 gene_id "ECDH10B_RS12565"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hisQ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416811.1"; locus_tag "ECDH10B_RS12565"; product "histidine ABC transporter permease HisQ"; protein_id "WP_000965522.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2515017 2515019 . - 0 gene_id "ECDH10B_RS12565"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hisQ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416811.1"; locus_tag "ECDH10B_RS12565"; product "histidine ABC transporter permease HisQ"; protein_id "WP_000965522.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2515793 2516575 . - . gene_id "ECDH10B_RS12570"; transcript_id ""; gbkey "Gene"; gene "hisJ"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12570"; old_locus_tag "ECDH10B_2471"; -NC_010473.1 Protein Homology CDS 2515796 2516575 . - 0 gene_id "ECDH10B_RS12570"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hisJ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311220.1"; locus_tag "ECDH10B_RS12570"; product "histidine ABC transporter substrate-binding protein HisJ"; protein_id "WP_000737621.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2516573 2516575 . - 0 gene_id "ECDH10B_RS12570"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hisJ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311220.1"; locus_tag "ECDH10B_RS12570"; product "histidine ABC transporter substrate-binding protein HisJ"; protein_id "WP_000737621.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2515793 2515795 . - 0 gene_id "ECDH10B_RS12570"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hisJ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311220.1"; locus_tag "ECDH10B_RS12570"; product "histidine ABC transporter substrate-binding protein HisJ"; protein_id "WP_000737621.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2516796 2517578 . - . gene_id "ECDH10B_RS12575"; transcript_id ""; gbkey "Gene"; gene "argT"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12575"; old_locus_tag "ECDH10B_2472"; -NC_010473.1 Protein Homology CDS 2516799 2517578 . - 0 gene_id "ECDH10B_RS12575"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "argT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416813.1"; locus_tag "ECDH10B_RS12575"; product "lysine/arginine/ornithine ABC transporter substrate-binding protein ArgT"; protein_id "WP_000748271.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2517576 2517578 . - 0 gene_id "ECDH10B_RS12575"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "argT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416813.1"; locus_tag "ECDH10B_RS12575"; product "lysine/arginine/ornithine ABC transporter substrate-binding protein ArgT"; protein_id "WP_000748271.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2516796 2516798 . - 0 gene_id "ECDH10B_RS12575"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "argT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416813.1"; locus_tag "ECDH10B_RS12575"; product "lysine/arginine/ornithine ABC transporter substrate-binding protein ArgT"; protein_id "WP_000748271.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2517844 2518413 . - . gene_id "ECDH10B_RS12580"; transcript_id ""; gbkey "Gene"; gene "ubiX"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12580"; old_locus_tag "ECDH10B_2473"; -NC_010473.1 Protein Homology CDS 2517847 2518413 . - 0 gene_id "ECDH10B_RS12580"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ubiX"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005120208.1"; locus_tag "ECDH10B_RS12580"; product "flavin prenyltransferase UbiX"; protein_id "WP_000825700.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2518411 2518413 . - 0 gene_id "ECDH10B_RS12580"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ubiX"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005120208.1"; locus_tag "ECDH10B_RS12580"; product "flavin prenyltransferase UbiX"; protein_id "WP_000825700.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2517844 2517846 . - 0 gene_id "ECDH10B_RS12580"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ubiX"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005120208.1"; locus_tag "ECDH10B_RS12580"; product "flavin prenyltransferase UbiX"; protein_id "WP_000825700.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2518508 2520025 . - . gene_id "ECDH10B_RS12585"; transcript_id ""; gbkey "Gene"; gene "purF"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12585"; old_locus_tag "ECDH10B_2474"; -NC_010473.1 Protein Homology CDS 2518511 2520025 . - 0 gene_id "ECDH10B_RS12585"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "purF"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_006820991.1"; locus_tag "ECDH10B_RS12585"; product "amidophosphoribosyltransferase"; protein_id "WP_000334220.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2520023 2520025 . - 0 gene_id "ECDH10B_RS12585"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "purF"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_006820991.1"; locus_tag "ECDH10B_RS12585"; product "amidophosphoribosyltransferase"; protein_id "WP_000334220.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2518508 2518510 . - 0 gene_id "ECDH10B_RS12585"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "purF"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_006820991.1"; locus_tag "ECDH10B_RS12585"; product "amidophosphoribosyltransferase"; protein_id "WP_000334220.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2520062 2520550 . - . gene_id "ECDH10B_RS12590"; transcript_id ""; gbkey "Gene"; gene "cvpA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12590"; old_locus_tag "ECDH10B_2475"; -NC_010473.1 Protein Homology CDS 2520065 2520550 . - 0 gene_id "ECDH10B_RS12590"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cvpA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416816.1"; locus_tag "ECDH10B_RS12590"; product "colicin V production protein"; protein_id "WP_000262111.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2520548 2520550 . - 0 gene_id "ECDH10B_RS12590"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cvpA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416816.1"; locus_tag "ECDH10B_RS12590"; product "colicin V production protein"; protein_id "WP_000262111.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2520062 2520064 . - 0 gene_id "ECDH10B_RS12590"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cvpA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416816.1"; locus_tag "ECDH10B_RS12590"; product "colicin V production protein"; protein_id "WP_000262111.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2520809 2521471 . - . gene_id "ECDH10B_RS12595"; transcript_id ""; gbkey "Gene"; gene "dedD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12595"; old_locus_tag "ECDH10B_2476"; -NC_010473.1 Protein Homology CDS 2520812 2521471 . - 0 gene_id "ECDH10B_RS12595"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dedD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416817.2"; locus_tag "ECDH10B_RS12595"; product "cell division protein DedD"; protein_id "WP_000146992.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2521469 2521471 . - 0 gene_id "ECDH10B_RS12595"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dedD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416817.2"; locus_tag "ECDH10B_RS12595"; product "cell division protein DedD"; protein_id "WP_000146992.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2520809 2520811 . - 0 gene_id "ECDH10B_RS12595"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dedD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416817.2"; locus_tag "ECDH10B_RS12595"; product "cell division protein DedD"; protein_id "WP_000146992.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2521461 2522729 . - . gene_id "ECDH10B_RS12600"; transcript_id ""; gbkey "Gene"; gene "folC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12600"; old_locus_tag "ECDH10B_2477"; -NC_010473.1 Protein Homology CDS 2521464 2522729 . - 0 gene_id "ECDH10B_RS12600"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "folC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416818.1"; locus_tag "ECDH10B_RS12600"; product "bifunctional tetrahydrofolate synthase/dihydrofolate synthase"; protein_id "WP_000584546.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2522727 2522729 . - 0 gene_id "ECDH10B_RS12600"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "folC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416818.1"; locus_tag "ECDH10B_RS12600"; product "bifunctional tetrahydrofolate synthase/dihydrofolate synthase"; protein_id "WP_000584546.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2521461 2521463 . - 0 gene_id "ECDH10B_RS12600"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "folC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416818.1"; locus_tag "ECDH10B_RS12600"; product "bifunctional tetrahydrofolate synthase/dihydrofolate synthase"; protein_id "WP_000584546.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2522799 2523713 . - . gene_id "ECDH10B_RS12605"; transcript_id ""; gbkey "Gene"; gene "accD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12605"; old_locus_tag "ECDH10B_2478"; -NC_010473.1 Protein Homology CDS 2522802 2523713 . - 0 gene_id "ECDH10B_RS12605"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "accD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311227.1"; locus_tag "ECDH10B_RS12605"; product "acetyl-CoA carboxylase, carboxyltransferase subunit beta"; protein_id "WP_000118404.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2523711 2523713 . - 0 gene_id "ECDH10B_RS12605"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "accD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311227.1"; locus_tag "ECDH10B_RS12605"; product "acetyl-CoA carboxylase, carboxyltransferase subunit beta"; protein_id "WP_000118404.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2522799 2522801 . - 0 gene_id "ECDH10B_RS12605"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "accD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311227.1"; locus_tag "ECDH10B_RS12605"; product "acetyl-CoA carboxylase, carboxyltransferase subunit beta"; protein_id "WP_000118404.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2523869 2524528 . - . gene_id "ECDH10B_RS12610"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12610"; old_locus_tag "ECDH10B_2479"; -NC_010473.1 Protein Homology CDS 2523872 2524528 . - 0 gene_id "ECDH10B_RS12610"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311228.1"; locus_tag "ECDH10B_RS12610"; product "DedA family protein"; protein_id "WP_000364335.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2524526 2524528 . - 0 gene_id "ECDH10B_RS12610"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311228.1"; locus_tag "ECDH10B_RS12610"; product "DedA family protein"; protein_id "WP_000364335.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2523869 2523871 . - 0 gene_id "ECDH10B_RS12610"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311228.1"; locus_tag "ECDH10B_RS12610"; product "DedA family protein"; protein_id "WP_000364335.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2524611 2525423 . - . gene_id "ECDH10B_RS12615"; transcript_id ""; gbkey "Gene"; gene "truA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12615"; old_locus_tag "ECDH10B_2480"; -NC_010473.1 Protein Homology CDS 2524614 2525423 . - 0 gene_id "ECDH10B_RS12615"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "truA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416821.1"; locus_tag "ECDH10B_RS12615"; product "tRNA pseudouridine(38-40) synthase TruA"; protein_id "WP_001283586.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2525421 2525423 . - 0 gene_id "ECDH10B_RS12615"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "truA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416821.1"; locus_tag "ECDH10B_RS12615"; product "tRNA pseudouridine(38-40) synthase TruA"; protein_id "WP_001283586.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2524611 2524613 . - 0 gene_id "ECDH10B_RS12615"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "truA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416821.1"; locus_tag "ECDH10B_RS12615"; product "tRNA pseudouridine(38-40) synthase TruA"; protein_id "WP_001283586.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2525423 2526436 . - . gene_id "ECDH10B_RS12620"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12620"; old_locus_tag "ECDH10B_2481"; -NC_010473.1 Protein Homology CDS 2525426 2526436 . - 0 gene_id "ECDH10B_RS12620"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416822.1"; locus_tag "ECDH10B_RS12620"; product "aspartate-semialdehyde dehydrogenase"; protein_id "WP_001289167.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2526434 2526436 . - 0 gene_id "ECDH10B_RS12620"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416822.1"; locus_tag "ECDH10B_RS12620"; product "aspartate-semialdehyde dehydrogenase"; protein_id "WP_001289167.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2525423 2525425 . - 0 gene_id "ECDH10B_RS12620"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416822.1"; locus_tag "ECDH10B_RS12620"; product "aspartate-semialdehyde dehydrogenase"; protein_id "WP_001289167.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2526502 2527638 . - . gene_id "ECDH10B_RS12625"; transcript_id ""; gbkey "Gene"; gene "pdxB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12625"; old_locus_tag "ECDH10B_2482"; -NC_010473.1 Protein Homology CDS 2526505 2527638 . - 0 gene_id "ECDH10B_RS12625"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pdxB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416823.1"; locus_tag "ECDH10B_RS12625"; product "4-phosphoerythronate dehydrogenase PdxB"; protein_id "WP_000699148.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2527636 2527638 . - 0 gene_id "ECDH10B_RS12625"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pdxB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416823.1"; locus_tag "ECDH10B_RS12625"; product "4-phosphoerythronate dehydrogenase PdxB"; protein_id "WP_000699148.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2526502 2526504 . - 0 gene_id "ECDH10B_RS12625"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pdxB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416823.1"; locus_tag "ECDH10B_RS12625"; product "4-phosphoerythronate dehydrogenase PdxB"; protein_id "WP_000699148.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2527737 2528732 . + . gene_id "ECDH10B_RS12630"; transcript_id ""; gbkey "Gene"; gene "flk"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12630"; old_locus_tag "ECDH10B_2483"; -NC_010473.1 Protein Homology CDS 2527737 2528729 . + 0 gene_id "ECDH10B_RS12630"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "flk"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416824.1"; locus_tag "ECDH10B_RS12630"; product "flagella biosynthesis regulator Flk"; protein_id "WP_000615834.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2527737 2527739 . + 0 gene_id "ECDH10B_RS12630"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "flk"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416824.1"; locus_tag "ECDH10B_RS12630"; product "flagella biosynthesis regulator Flk"; protein_id "WP_000615834.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2528730 2528732 . + 0 gene_id "ECDH10B_RS12630"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "flk"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416824.1"; locus_tag "ECDH10B_RS12630"; product "flagella biosynthesis regulator Flk"; protein_id "WP_000615834.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2528729 2529907 . - . gene_id "ECDH10B_RS12635"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12635"; old_locus_tag "ECDH10B_2484"; -NC_010473.1 Protein Homology CDS 2528732 2529907 . - 0 gene_id "ECDH10B_RS12635"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416825.1"; locus_tag "ECDH10B_RS12635"; product "MFS transporter"; protein_id "WP_000127781.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2529905 2529907 . - 0 gene_id "ECDH10B_RS12635"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416825.1"; locus_tag "ECDH10B_RS12635"; product "MFS transporter"; protein_id "WP_000127781.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2528729 2528731 . - 0 gene_id "ECDH10B_RS12635"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416825.1"; locus_tag "ECDH10B_RS12635"; product "MFS transporter"; protein_id "WP_000127781.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2530172 2531392 . - . gene_id "ECDH10B_RS12640"; transcript_id ""; gbkey "Gene"; gene "fabB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12640"; old_locus_tag "ECDH10B_2485"; -NC_010473.1 Protein Homology CDS 2530175 2531392 . - 0 gene_id "ECDH10B_RS12640"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fabB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416826.1"; locus_tag "ECDH10B_RS12640"; product "beta-ketoacyl-ACP synthase I"; protein_id "WP_000817178.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2531390 2531392 . - 0 gene_id "ECDH10B_RS12640"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fabB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416826.1"; locus_tag "ECDH10B_RS12640"; product "beta-ketoacyl-ACP synthase I"; protein_id "WP_000817178.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2530172 2530174 . - 0 gene_id "ECDH10B_RS12640"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fabB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416826.1"; locus_tag "ECDH10B_RS12640"; product "beta-ketoacyl-ACP synthase I"; protein_id "WP_000817178.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2531551 2533557 . + . gene_id "ECDH10B_RS12645"; transcript_id ""; gbkey "Gene"; gene "mnmC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12645"; old_locus_tag "ECDH10B_2486"; -NC_010473.1 Protein Homology CDS 2531551 2533554 . + 0 gene_id "ECDH10B_RS12645"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mnmC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416827.4"; locus_tag "ECDH10B_RS12645"; product "bifunctional tRNA (5-methylaminomethyl-2-thiouridine)(34)-methyltransferase MnmD/FAD-dependent 5-carboxymethylaminomethyl-2-thiouridine(34) oxidoreductase MnmC"; protein_id "WP_000683799.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2531551 2531553 . + 0 gene_id "ECDH10B_RS12645"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mnmC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416827.4"; locus_tag "ECDH10B_RS12645"; product "bifunctional tRNA (5-methylaminomethyl-2-thiouridine)(34)-methyltransferase MnmD/FAD-dependent 5-carboxymethylaminomethyl-2-thiouridine(34) oxidoreductase MnmC"; protein_id "WP_000683799.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2533555 2533557 . + 0 gene_id "ECDH10B_RS12645"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mnmC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416827.4"; locus_tag "ECDH10B_RS12645"; product "bifunctional tRNA (5-methylaminomethyl-2-thiouridine)(34)-methyltransferase MnmD/FAD-dependent 5-carboxymethylaminomethyl-2-thiouridine(34) oxidoreductase MnmC"; protein_id "WP_000683799.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2533678 2533956 . - . gene_id "ECDH10B_RS12650"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12650"; old_locus_tag "ECDH10B_2487"; -NC_010473.1 Protein Homology CDS 2533681 2533956 . - 0 gene_id "ECDH10B_RS12650"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311236.1"; locus_tag "ECDH10B_RS12650"; product "YfcL family protein"; protein_id "WP_000559764.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2533954 2533956 . - 0 gene_id "ECDH10B_RS12650"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311236.1"; locus_tag "ECDH10B_RS12650"; product "YfcL family protein"; protein_id "WP_000559764.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2533678 2533680 . - 0 gene_id "ECDH10B_RS12650"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311236.1"; locus_tag "ECDH10B_RS12650"; product "YfcL family protein"; protein_id "WP_000559764.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2533990 2534538 . - . gene_id "ECDH10B_RS12655"; transcript_id ""; gbkey "Gene"; gene "epmC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12655"; old_locus_tag "ECDH10B_2488"; -NC_010473.1 Protein Homology CDS 2533993 2534538 . - 0 gene_id "ECDH10B_RS12655"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "epmC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416829.1"; locus_tag "ECDH10B_RS12655"; product "elongation factor P hydroxylase"; protein_id "WP_001089222.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2534536 2534538 . - 0 gene_id "ECDH10B_RS12655"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "epmC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416829.1"; locus_tag "ECDH10B_RS12655"; product "elongation factor P hydroxylase"; protein_id "WP_001089222.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2533990 2533992 . - 0 gene_id "ECDH10B_RS12655"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "epmC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416829.1"; locus_tag "ECDH10B_RS12655"; product "elongation factor P hydroxylase"; protein_id "WP_001089222.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2534538 2535347 . - . gene_id "ECDH10B_RS12660"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12660"; old_locus_tag "ECDH10B_2489"; -NC_010473.1 Protein Homology CDS 2534541 2535347 . - 0 gene_id "ECDH10B_RS12660"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311238.1"; locus_tag "ECDH10B_RS12660"; product "TSUP family transporter"; protein_id "WP_000447361.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2535345 2535347 . - 0 gene_id "ECDH10B_RS12660"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311238.1"; locus_tag "ECDH10B_RS12660"; product "TSUP family transporter"; protein_id "WP_000447361.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2534538 2534540 . - 0 gene_id "ECDH10B_RS12660"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311238.1"; locus_tag "ECDH10B_RS12660"; product "TSUP family transporter"; protein_id "WP_000447361.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2535347 2536171 . - . gene_id "ECDH10B_RS12665"; transcript_id ""; gbkey "Gene"; gene "mepA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12665"; old_locus_tag "ECDH10B_2490"; -NC_010473.1 Protein Homology CDS 2535350 2536171 . - 0 gene_id "ECDH10B_RS12665"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mepA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416831.1"; locus_tag "ECDH10B_RS12665"; product "penicillin-insensitive murein endopeptidase"; protein_id "WP_001043825.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2536169 2536171 . - 0 gene_id "ECDH10B_RS12665"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mepA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416831.1"; locus_tag "ECDH10B_RS12665"; product "penicillin-insensitive murein endopeptidase"; protein_id "WP_001043825.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2535347 2535349 . - 0 gene_id "ECDH10B_RS12665"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mepA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416831.1"; locus_tag "ECDH10B_RS12665"; product "penicillin-insensitive murein endopeptidase"; protein_id "WP_001043825.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2536175 2537260 . - . gene_id "ECDH10B_RS12670"; transcript_id ""; gbkey "Gene"; gene "aroC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12670"; old_locus_tag "ECDH10B_2491"; -NC_010473.1 Protein Homology CDS 2536178 2537260 . - 0 gene_id "ECDH10B_RS12670"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "aroC"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005129642.1"; locus_tag "ECDH10B_RS12670"; product "chorismate synthase"; protein_id "WP_001333535.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2537258 2537260 . - 0 gene_id "ECDH10B_RS12670"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "aroC"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005129642.1"; locus_tag "ECDH10B_RS12670"; product "chorismate synthase"; protein_id "WP_001333535.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2536175 2536177 . - 0 gene_id "ECDH10B_RS12670"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "aroC"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005129642.1"; locus_tag "ECDH10B_RS12670"; product "chorismate synthase"; protein_id "WP_001333535.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2537295 2538227 . - . gene_id "ECDH10B_RS12675"; transcript_id ""; gbkey "Gene"; gene "prmB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12675"; old_locus_tag "ECDH10B_2492"; -NC_010473.1 Protein Homology CDS 2537298 2538227 . - 0 gene_id "ECDH10B_RS12675"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "prmB"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005129736.1"; locus_tag "ECDH10B_RS12675"; product "50S ribosomal protein L3 N(5)-glutamine methyltransferase"; protein_id "WP_001300582.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2538225 2538227 . - 0 gene_id "ECDH10B_RS12675"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "prmB"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005129736.1"; locus_tag "ECDH10B_RS12675"; product "50S ribosomal protein L3 N(5)-glutamine methyltransferase"; protein_id "WP_001300582.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2537295 2537297 . - 0 gene_id "ECDH10B_RS12675"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "prmB"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005129736.1"; locus_tag "ECDH10B_RS12675"; product "50S ribosomal protein L3 N(5)-glutamine methyltransferase"; protein_id "WP_001300582.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2538393 2538944 . + . gene_id "ECDH10B_RS12680"; transcript_id ""; gbkey "Gene"; gene "smrB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12680"; old_locus_tag "ECDH10B_2493"; -NC_010473.1 Protein Homology CDS 2538393 2538941 . + 0 gene_id "ECDH10B_RS12680"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "smrB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416834.1"; locus_tag "ECDH10B_RS12680"; product "endonuclease SmrB"; protein_id "WP_000730806.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2538393 2538395 . + 0 gene_id "ECDH10B_RS12680"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "smrB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416834.1"; locus_tag "ECDH10B_RS12680"; product "endonuclease SmrB"; protein_id "WP_000730806.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2538942 2538944 . + 0 gene_id "ECDH10B_RS12680"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "smrB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416834.1"; locus_tag "ECDH10B_RS12680"; product "endonuclease SmrB"; protein_id "WP_000730806.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2539015 2539836 . - . gene_id "ECDH10B_RS12685"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12685"; old_locus_tag "ECDH10B_2494"; -NC_010473.1 Protein Homology CDS 2539018 2539836 . - 0 gene_id "ECDH10B_RS12685"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416835.2"; locus_tag "ECDH10B_RS12685"; product "YfcO family protein"; protein_id "WP_000698745.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2539834 2539836 . - 0 gene_id "ECDH10B_RS12685"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416835.2"; locus_tag "ECDH10B_RS12685"; product "YfcO family protein"; protein_id "WP_000698745.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2539015 2539017 . - 0 gene_id "ECDH10B_RS12685"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416835.2"; locus_tag "ECDH10B_RS12685"; product "YfcO family protein"; protein_id "WP_000698745.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2539838 2540377 . - . gene_id "ECDH10B_RS12690"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12690"; old_locus_tag "ECDH10B_2495"; -NC_010473.1 Protein Homology CDS 2539841 2540377 . - 0 gene_id "ECDH10B_RS12690"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416836.1"; locus_tag "ECDH10B_RS12690"; product "fimbrial protein"; protein_id "WP_001043398.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2540375 2540377 . - 0 gene_id "ECDH10B_RS12690"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416836.1"; locus_tag "ECDH10B_RS12690"; product "fimbrial protein"; protein_id "WP_001043398.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2539838 2539840 . - 0 gene_id "ECDH10B_RS12690"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416836.1"; locus_tag "ECDH10B_RS12690"; product "fimbrial protein"; protein_id "WP_001043398.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2540374 2540862 . - . gene_id "ECDH10B_RS12695"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12695"; old_locus_tag "ECDH10B_2496"; -NC_010473.1 Protein Homology CDS 2540377 2540862 . - 0 gene_id "ECDH10B_RS12695"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416837.1"; locus_tag "ECDH10B_RS12695"; product "fimbrial protein"; protein_id "WP_001232541.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2540860 2540862 . - 0 gene_id "ECDH10B_RS12695"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416837.1"; locus_tag "ECDH10B_RS12695"; product "fimbrial protein"; protein_id "WP_001232541.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2540374 2540376 . - 0 gene_id "ECDH10B_RS12695"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416837.1"; locus_tag "ECDH10B_RS12695"; product "fimbrial protein"; protein_id "WP_001232541.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2540859 2541371 . - . gene_id "ECDH10B_RS12700"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12700"; old_locus_tag "ECDH10B_2497"; -NC_010473.1 Protein Homology CDS 2540862 2541371 . - 0 gene_id "ECDH10B_RS12700"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416838.1"; locus_tag "ECDH10B_RS12700"; product "fimbrial protein"; protein_id "WP_001311011.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2541369 2541371 . - 0 gene_id "ECDH10B_RS12700"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416838.1"; locus_tag "ECDH10B_RS12700"; product "fimbrial protein"; protein_id "WP_001311011.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2540859 2540861 . - 0 gene_id "ECDH10B_RS12700"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416838.1"; locus_tag "ECDH10B_RS12700"; product "fimbrial protein"; protein_id "WP_001311011.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2541371 2542123 . - . gene_id "ECDH10B_RS12705"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12705"; old_locus_tag "ECDH10B_2498"; -NC_010473.1 Protein Homology CDS 2541374 2542123 . - 0 gene_id "ECDH10B_RS12705"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416839.1"; locus_tag "ECDH10B_RS12705"; product "fimbria/pilus periplasmic chaperone"; protein_id "WP_001281606.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2542121 2542123 . - 0 gene_id "ECDH10B_RS12705"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416839.1"; locus_tag "ECDH10B_RS12705"; product "fimbria/pilus periplasmic chaperone"; protein_id "WP_001281606.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2541371 2541373 . - 0 gene_id "ECDH10B_RS12705"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416839.1"; locus_tag "ECDH10B_RS12705"; product "fimbria/pilus periplasmic chaperone"; protein_id "WP_001281606.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2542143 2544788 . - . gene_id "ECDH10B_RS12710"; transcript_id ""; gbkey "Gene"; gene "yfcU"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS12710"; old_locus_tag "ECDH10B_2500"; pseudo "true"; -NC_010473.1 Protein Homology CDS 2542146 2544788 . - 0 gene_id "ECDH10B_RS12710"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yfcU"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001112832.1"; locus_tag "ECDH10B_RS12710"; note "internal stop"; product "fimbrial usher protein YfcU"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2544786 2544788 . - 0 gene_id "ECDH10B_RS12710"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yfcU"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001112832.1"; locus_tag "ECDH10B_RS12710"; note "internal stop"; product "fimbrial usher protein YfcU"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2542143 2542145 . - 0 gene_id "ECDH10B_RS12710"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yfcU"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001112832.1"; locus_tag "ECDH10B_RS12710"; note "internal stop"; product "fimbrial usher protein YfcU"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 2544870 2545433 . - . gene_id "ECDH10B_RS12715"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12715"; old_locus_tag "ECDH10B_2502"; -NC_010473.1 Protein Homology CDS 2544873 2545433 . - 0 gene_id "ECDH10B_RS12715"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416841.1"; locus_tag "ECDH10B_RS12715"; product "type 1 fimbrial protein"; protein_id "WP_000033316.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2545431 2545433 . - 0 gene_id "ECDH10B_RS12715"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416841.1"; locus_tag "ECDH10B_RS12715"; product "type 1 fimbrial protein"; protein_id "WP_000033316.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2544870 2544872 . - 0 gene_id "ECDH10B_RS12715"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416841.1"; locus_tag "ECDH10B_RS12715"; product "type 1 fimbrial protein"; protein_id "WP_000033316.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2546114 2546599 . - . gene_id "ECDH10B_RS12720"; transcript_id ""; gbkey "Gene"; gene "sixA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12720"; old_locus_tag "ECDH10B_2503"; -NC_010473.1 Protein Homology CDS 2546117 2546599 . - 0 gene_id "ECDH10B_RS12720"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sixA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416842.1"; locus_tag "ECDH10B_RS12720"; product "phosphohistidine phosphatase SixA"; protein_id "WP_001195819.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2546597 2546599 . - 0 gene_id "ECDH10B_RS12720"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sixA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416842.1"; locus_tag "ECDH10B_RS12720"; product "phosphohistidine phosphatase SixA"; protein_id "WP_001195819.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2546114 2546116 . - 0 gene_id "ECDH10B_RS12720"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sixA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416842.1"; locus_tag "ECDH10B_RS12720"; product "phosphohistidine phosphatase SixA"; protein_id "WP_001195819.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2546802 2548946 . - . gene_id "ECDH10B_RS12725"; transcript_id ""; gbkey "Gene"; gene "fadJ"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12725"; old_locus_tag "ECDH10B_2504"; -NC_010473.1 Protein Homology CDS 2546805 2548946 . - 0 gene_id "ECDH10B_RS12725"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fadJ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416843.1"; locus_tag "ECDH10B_RS12725"; product "fatty acid oxidation complex subunit alpha FadJ"; protein_id "WP_000426176.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2548944 2548946 . - 0 gene_id "ECDH10B_RS12725"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fadJ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416843.1"; locus_tag "ECDH10B_RS12725"; product "fatty acid oxidation complex subunit alpha FadJ"; protein_id "WP_000426176.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2546802 2546804 . - 0 gene_id "ECDH10B_RS12725"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fadJ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416843.1"; locus_tag "ECDH10B_RS12725"; product "fatty acid oxidation complex subunit alpha FadJ"; protein_id "WP_000426176.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2548946 2550256 . - . gene_id "ECDH10B_RS12730"; transcript_id ""; gbkey "Gene"; gene "fadI"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12730"; old_locus_tag "ECDH10B_2505"; -NC_010473.1 Protein Homology CDS 2548949 2550256 . - 0 gene_id "ECDH10B_RS12730"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fadI"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416844.1"; locus_tag "ECDH10B_RS12730"; product "acetyl-CoA C-acyltransferase FadI"; protein_id "WP_000531952.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2550254 2550256 . - 0 gene_id "ECDH10B_RS12730"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fadI"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416844.1"; locus_tag "ECDH10B_RS12730"; product "acetyl-CoA C-acyltransferase FadI"; protein_id "WP_000531952.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2548946 2548948 . - 0 gene_id "ECDH10B_RS12730"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fadI"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416844.1"; locus_tag "ECDH10B_RS12730"; product "acetyl-CoA C-acyltransferase FadI"; protein_id "WP_000531952.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2550437 2550721 . - . gene_id "ECDH10B_RS12735"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12735"; old_locus_tag "ECDH10B_2506"; -NC_010473.1 Protein Homology CDS 2550440 2550721 . - 0 gene_id "ECDH10B_RS12735"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005129756.1"; locus_tag "ECDH10B_RS12735"; product "YfcZ/YiiS family protein"; protein_id "WP_001296261.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2550719 2550721 . - 0 gene_id "ECDH10B_RS12735"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005129756.1"; locus_tag "ECDH10B_RS12735"; product "YfcZ/YiiS family protein"; protein_id "WP_001296261.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2550437 2550439 . - 0 gene_id "ECDH10B_RS12735"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005129756.1"; locus_tag "ECDH10B_RS12735"; product "YfcZ/YiiS family protein"; protein_id "WP_001296261.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2551093 2552433 . + . gene_id "ECDH10B_RS12740"; transcript_id ""; gbkey "Gene"; gene "fadL"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12740"; old_locus_tag "ECDH10B_2507"; -NC_010473.1 Protein Homology CDS 2551093 2552430 . + 0 gene_id "ECDH10B_RS12740"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fadL"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416846.2"; locus_tag "ECDH10B_RS12740"; product "long-chain fatty acid transporter FadL"; protein_id "WP_001295701.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2551093 2551095 . + 0 gene_id "ECDH10B_RS12740"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fadL"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416846.2"; locus_tag "ECDH10B_RS12740"; product "long-chain fatty acid transporter FadL"; protein_id "WP_001295701.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2552431 2552433 . + 0 gene_id "ECDH10B_RS12740"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fadL"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416846.2"; locus_tag "ECDH10B_RS12740"; product "long-chain fatty acid transporter FadL"; protein_id "WP_001295701.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2552799 2553857 . + . gene_id "ECDH10B_RS12745"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12745"; old_locus_tag "ECDH10B_2508"; -NC_010473.1 Protein Homology CDS 2552799 2553854 . + 0 gene_id "ECDH10B_RS12745"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416847.1"; locus_tag "ECDH10B_RS12745"; product "hypothetical protein"; protein_id "WP_000937788.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2552799 2552801 . + 0 gene_id "ECDH10B_RS12745"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416847.1"; locus_tag "ECDH10B_RS12745"; product "hypothetical protein"; protein_id "WP_000937788.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2553855 2553857 . + 0 gene_id "ECDH10B_RS12745"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416847.1"; locus_tag "ECDH10B_RS12745"; product "hypothetical protein"; protein_id "WP_000937788.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2554039 2554794 . - . gene_id "ECDH10B_RS12750"; transcript_id ""; gbkey "Gene"; gene "mlaA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12750"; old_locus_tag "ECDH10B_2509"; -NC_010473.1 Protein Homology CDS 2554042 2554794 . - 0 gene_id "ECDH10B_RS12750"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mlaA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416848.1"; locus_tag "ECDH10B_RS12750"; product "phospholipid-binding lipoprotein MlaA"; protein_id "WP_000776765.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2554792 2554794 . - 0 gene_id "ECDH10B_RS12750"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mlaA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416848.1"; locus_tag "ECDH10B_RS12750"; product "phospholipid-binding lipoprotein MlaA"; protein_id "WP_000776765.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2554039 2554041 . - 0 gene_id "ECDH10B_RS12750"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mlaA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416848.1"; locus_tag "ECDH10B_RS12750"; product "phospholipid-binding lipoprotein MlaA"; protein_id "WP_000776765.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2555088 2556020 . + . gene_id "ECDH10B_RS12755"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12755"; old_locus_tag "ECDH10B_2510"; -NC_010473.1 Protein Homology CDS 2555088 2556017 . + 0 gene_id "ECDH10B_RS12755"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416849.1"; locus_tag "ECDH10B_RS12755"; product "formate/nitrite transporter family protein"; protein_id "WP_000368140.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2555088 2555090 . + 0 gene_id "ECDH10B_RS12755"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416849.1"; locus_tag "ECDH10B_RS12755"; product "formate/nitrite transporter family protein"; protein_id "WP_000368140.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2556018 2556020 . + 0 gene_id "ECDH10B_RS12755"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416849.1"; locus_tag "ECDH10B_RS12755"; product "formate/nitrite transporter family protein"; protein_id "WP_000368140.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2556096 2556170 . + . gene_id "ECDH10B_RS12760"; transcript_id ""; gbkey "Gene"; gene_biotype "tRNA"; locus_tag "ECDH10B_RS12760"; old_locus_tag "ECDH10B_2511"; -NC_010473.1 tRNAscan-SE exon 2556096 2556170 . + . gene_id "ECDH10B_RS12760"; transcript_id "ECDH10B_RS12760"; anticodon "(pos:2556129..2556131)"; gbkey "tRNA"; inference "COORDINATES: profile:tRNAscan-SE:2.0.6"; locus_tag "ECDH10B_RS12760"; product "tRNA-Arg"; exon_number "1"; -NC_010473.1 RefSeq gene 2556332 2557489 . + . gene_id "ECDH10B_RS12765"; transcript_id ""; gbkey "Gene"; gene "intS"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12765"; old_locus_tag "ECDH10B_2512"; -NC_010473.1 Protein Homology CDS 2556332 2557486 . + 0 gene_id "ECDH10B_RS12765"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "intS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416850.1"; locus_tag "ECDH10B_RS12765"; product "prophage integrase IntS"; protein_id "WP_000958671.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2556332 2556334 . + 0 gene_id "ECDH10B_RS12765"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "intS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416850.1"; locus_tag "ECDH10B_RS12765"; product "prophage integrase IntS"; protein_id "WP_000958671.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2557487 2557489 . + 0 gene_id "ECDH10B_RS12765"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "intS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416850.1"; locus_tag "ECDH10B_RS12765"; product "prophage integrase IntS"; protein_id "WP_000958671.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2557642 2558004 . + . gene_id "ECDH10B_RS12770"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12770"; old_locus_tag "ECDH10B_2513"; -NC_010473.1 Protein Homology CDS 2557642 2558001 . + 0 gene_id "ECDH10B_RS12770"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416851.1"; locus_tag "ECDH10B_RS12770"; product "bactoprenol glucosyl transferase"; protein_id "WP_000915541.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2557642 2557644 . + 0 gene_id "ECDH10B_RS12770"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416851.1"; locus_tag "ECDH10B_RS12770"; product "bactoprenol glucosyl transferase"; protein_id "WP_000915541.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2558002 2558004 . + 0 gene_id "ECDH10B_RS12770"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416851.1"; locus_tag "ECDH10B_RS12770"; product "bactoprenol glucosyl transferase"; protein_id "WP_000915541.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2558001 2558921 . + . gene_id "ECDH10B_RS12775"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12775"; old_locus_tag "ECDH10B_2514"; -NC_010473.1 Protein Homology CDS 2558001 2558918 . + 0 gene_id "ECDH10B_RS12775"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416852.1"; locus_tag "ECDH10B_RS12775"; product "glycosyltransferase family 2 protein"; protein_id "WP_000703651.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2558001 2558003 . + 0 gene_id "ECDH10B_RS12775"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416852.1"; locus_tag "ECDH10B_RS12775"; product "glycosyltransferase family 2 protein"; protein_id "WP_000703651.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2558919 2558921 . + 0 gene_id "ECDH10B_RS12775"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416852.1"; locus_tag "ECDH10B_RS12775"; product "glycosyltransferase family 2 protein"; protein_id "WP_000703651.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2558918 2560249 . + . gene_id "ECDH10B_RS12780"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12780"; old_locus_tag "ECDH10B_2515"; -NC_010473.1 Protein Homology CDS 2558918 2560246 . + 0 gene_id "ECDH10B_RS12780"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416853.1"; locus_tag "ECDH10B_RS12780"; product "hypothetical protein"; protein_id "WP_001030215.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2558918 2558920 . + 0 gene_id "ECDH10B_RS12780"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416853.1"; locus_tag "ECDH10B_RS12780"; product "hypothetical protein"; protein_id "WP_001030215.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2560247 2560249 . + 0 gene_id "ECDH10B_RS12780"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416853.1"; locus_tag "ECDH10B_RS12780"; product "hypothetical protein"; protein_id "WP_001030215.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2560284 2560565 . - . gene_id "ECDH10B_RS26055"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS26055"; -NC_010473.1 GeneMarkS-2+ CDS 2560287 2560565 . - 0 gene_id "ECDH10B_RS26055"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: ab initio prediction:GeneMarkS-2+"; locus_tag "ECDH10B_RS26055"; product "hypothetical protein"; protein_id "WP_047792215.1"; transl_table "11"; -NC_010473.1 GeneMarkS-2+ start_codon 2560563 2560565 . - 0 gene_id "ECDH10B_RS26055"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: ab initio prediction:GeneMarkS-2+"; locus_tag "ECDH10B_RS26055"; product "hypothetical protein"; protein_id "WP_047792215.1"; transl_table "11"; -NC_010473.1 GeneMarkS-2+ stop_codon 2560284 2560286 . - 0 gene_id "ECDH10B_RS26055"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: ab initio prediction:GeneMarkS-2+"; locus_tag "ECDH10B_RS26055"; product "hypothetical protein"; protein_id "WP_047792215.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2560602 2560892 . + . gene_id "ECDH10B_RS12785"; transcript_id ""; gbkey "Gene"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS12785"; old_locus_tag "ECDH10B_2516"; partial "true"; pseudo "true"; -NC_010473.1 Protein Homology CDS 2560602 2560889 . + 0 gene_id "ECDH10B_RS12785"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001057699.1"; locus_tag "ECDH10B_RS12785"; note "incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "tail fiber assembly protein"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2560602 2560604 . + 0 gene_id "ECDH10B_RS12785"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001057699.1"; locus_tag "ECDH10B_RS12785"; note "incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "tail fiber assembly protein"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2560890 2560892 . + 0 gene_id "ECDH10B_RS12785"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001057699.1"; locus_tag "ECDH10B_RS12785"; note "incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "tail fiber assembly protein"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 2560864 2561304 . - . gene_id "ECDH10B_RS12790"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12790"; old_locus_tag "ECDH10B_2517"; -NC_010473.1 Protein Homology CDS 2560867 2561304 . - 0 gene_id "ECDH10B_RS12790"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416855.1"; locus_tag "ECDH10B_RS12790"; product "tail fiber assembly protein"; protein_id "WP_001106835.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2561302 2561304 . - 0 gene_id "ECDH10B_RS12790"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416855.1"; locus_tag "ECDH10B_RS12790"; product "tail fiber assembly protein"; protein_id "WP_001106835.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2560864 2560866 . - 0 gene_id "ECDH10B_RS12790"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416855.1"; locus_tag "ECDH10B_RS12790"; product "tail fiber assembly protein"; protein_id "WP_001106835.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2561331 2561849 . - . gene_id "ECDH10B_RS12795"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12795"; old_locus_tag "ECDH10B_2518"; -NC_010473.1 Protein Homology CDS 2561334 2561849 . - 0 gene_id "ECDH10B_RS12795"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_011443597.1"; locus_tag "ECDH10B_RS12795"; product "hypothetical protein"; protein_id "WP_011443597.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2561847 2561849 . - 0 gene_id "ECDH10B_RS12795"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_011443597.1"; locus_tag "ECDH10B_RS12795"; product "hypothetical protein"; protein_id "WP_011443597.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2561331 2561333 . - 0 gene_id "ECDH10B_RS12795"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_011443597.1"; locus_tag "ECDH10B_RS12795"; product "hypothetical protein"; protein_id "WP_011443597.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2561899 2562174 . - . gene_id "ECDH10B_RS12800"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12800"; old_locus_tag "ECDH10B_2519"; -NC_010473.1 Protein Homology CDS 2561902 2562174 . - 0 gene_id "ECDH10B_RS12800"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_009518803.1"; locus_tag "ECDH10B_RS12800"; product "phage N-6-adenine-methyltransferase"; protein_id "WP_000066913.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2562172 2562174 . - 0 gene_id "ECDH10B_RS12800"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_009518803.1"; locus_tag "ECDH10B_RS12800"; product "phage N-6-adenine-methyltransferase"; protein_id "WP_000066913.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2561899 2561901 . - 0 gene_id "ECDH10B_RS12800"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_009518803.1"; locus_tag "ECDH10B_RS12800"; product "phage N-6-adenine-methyltransferase"; protein_id "WP_000066913.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2562174 2562668 . - . gene_id "ECDH10B_RS12805"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12805"; old_locus_tag "ECDH10B_2520"; -NC_010473.1 Protein Homology CDS 2562177 2562668 . - 0 gene_id "ECDH10B_RS12805"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416858.1"; locus_tag "ECDH10B_RS12805"; product "PerC family transcriptional regulator"; protein_id "WP_001393497.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2562666 2562668 . - 0 gene_id "ECDH10B_RS12805"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416858.1"; locus_tag "ECDH10B_RS12805"; product "PerC family transcriptional regulator"; protein_id "WP_001393497.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2562174 2562176 . - 0 gene_id "ECDH10B_RS12805"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416858.1"; locus_tag "ECDH10B_RS12805"; product "PerC family transcriptional regulator"; protein_id "WP_001393497.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2562665 2563372 . - . gene_id "ECDH10B_RS26305"; transcript_id ""; gbkey "Gene"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS26305"; partial "true"; pseudo "true"; -NC_010473.1 Protein Homology CDS 2562668 2563372 . - 0 gene_id "ECDH10B_RS26305"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000104949.1"; locus_tag "ECDH10B_RS26305"; note "incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "helix-turn-helix domain-containing protein"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2563370 2563372 . - 0 gene_id "ECDH10B_RS26305"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000104949.1"; locus_tag "ECDH10B_RS26305"; note "incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "helix-turn-helix domain-containing protein"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2562665 2562667 . - 0 gene_id "ECDH10B_RS26305"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000104949.1"; locus_tag "ECDH10B_RS26305"; note "incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "helix-turn-helix domain-containing protein"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 2563391 2563753 . + . gene_id "ECDH10B_RS12815"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12815"; old_locus_tag "ECDH10B_2522"; -NC_010473.1 Protein Homology CDS 2563391 2563750 . + 0 gene_id "ECDH10B_RS12815"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416860.4"; locus_tag "ECDH10B_RS12815"; product "hypothetical protein"; protein_id "WP_000135673.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2563391 2563393 . + 0 gene_id "ECDH10B_RS12815"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416860.4"; locus_tag "ECDH10B_RS12815"; product "hypothetical protein"; protein_id "WP_000135673.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2563751 2563753 . + 0 gene_id "ECDH10B_RS12815"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416860.4"; locus_tag "ECDH10B_RS12815"; product "hypothetical protein"; protein_id "WP_000135673.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2563819 2564643 . + . gene_id "ECDH10B_RS12820"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12820"; old_locus_tag "ECDH10B_2523"; -NC_010473.1 Protein Homology CDS 2563819 2564640 . + 0 gene_id "ECDH10B_RS12820"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416861.1"; locus_tag "ECDH10B_RS12820"; product "YfdQ family protein"; protein_id "WP_000081278.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2563819 2563821 . + 0 gene_id "ECDH10B_RS12820"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416861.1"; locus_tag "ECDH10B_RS12820"; product "YfdQ family protein"; protein_id "WP_000081278.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2564641 2564643 . + 0 gene_id "ECDH10B_RS12820"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416861.1"; locus_tag "ECDH10B_RS12820"; product "YfdQ family protein"; protein_id "WP_000081278.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2564771 2565307 . + . gene_id "ECDH10B_RS12825"; transcript_id ""; gbkey "Gene"; gene "yfdR"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12825"; old_locus_tag "ECDH10B_2524"; -NC_010473.1 Protein Homology CDS 2564771 2565304 . + 0 gene_id "ECDH10B_RS12825"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yfdR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416862.2"; locus_tag "ECDH10B_RS12825"; product "5'-deoxynucleotidase"; protein_id "WP_000008183.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2564771 2564773 . + 0 gene_id "ECDH10B_RS12825"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yfdR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416862.2"; locus_tag "ECDH10B_RS12825"; product "5'-deoxynucleotidase"; protein_id "WP_000008183.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2565305 2565307 . + 0 gene_id "ECDH10B_RS12825"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yfdR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416862.2"; locus_tag "ECDH10B_RS12825"; product "5'-deoxynucleotidase"; protein_id "WP_000008183.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2565298 2565660 . + . gene_id "ECDH10B_RS12830"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12830"; old_locus_tag "ECDH10B_2525"; -NC_010473.1 Protein Homology CDS 2565298 2565657 . + 0 gene_id "ECDH10B_RS12830"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416863.1"; locus_tag "ECDH10B_RS12830"; product "phage protein"; protein_id "WP_001242717.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2565298 2565300 . + 0 gene_id "ECDH10B_RS12830"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416863.1"; locus_tag "ECDH10B_RS12830"; product "phage protein"; protein_id "WP_001242717.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2565658 2565660 . + 0 gene_id "ECDH10B_RS12830"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416863.1"; locus_tag "ECDH10B_RS12830"; product "phage protein"; protein_id "WP_001242717.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2565660 2565965 . + . gene_id "ECDH10B_RS12835"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12835"; old_locus_tag "ECDH10B_2526"; -NC_010473.1 Protein Homology CDS 2565660 2565962 . + 0 gene_id "ECDH10B_RS12835"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416864.1"; locus_tag "ECDH10B_RS12835"; product "hypothetical protein"; protein_id "WP_000206809.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2565660 2565662 . + 0 gene_id "ECDH10B_RS12835"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416864.1"; locus_tag "ECDH10B_RS12835"; product "hypothetical protein"; protein_id "WP_000206809.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2565963 2565965 . + 0 gene_id "ECDH10B_RS12835"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416864.1"; locus_tag "ECDH10B_RS12835"; product "hypothetical protein"; protein_id "WP_000206809.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2566097 2566297 . + . gene_id "ECDH10B_RS12840"; transcript_id ""; gbkey "Gene"; gene "torI"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12840"; old_locus_tag "ECDH10B_2528"; -NC_010473.1 Protein Homology CDS 2566097 2566294 . + 0 gene_id "ECDH10B_RS12840"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "torI"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_588463.1"; locus_tag "ECDH10B_RS12840"; product "response regulator inhibitor TorI"; protein_id "WP_001163428.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2566097 2566099 . + 0 gene_id "ECDH10B_RS12840"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "torI"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_588463.1"; locus_tag "ECDH10B_RS12840"; product "response regulator inhibitor TorI"; protein_id "WP_001163428.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2566295 2566297 . + 0 gene_id "ECDH10B_RS12840"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "torI"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_588463.1"; locus_tag "ECDH10B_RS12840"; product "response regulator inhibitor TorI"; protein_id "WP_001163428.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2566481 2567416 . - . gene_id "ECDH10B_RS12845"; transcript_id ""; gbkey "Gene"; gene "dsdC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12845"; old_locus_tag "ECDH10B_2529"; -NC_010473.1 Protein Homology CDS 2566484 2567416 . - 0 gene_id "ECDH10B_RS12845"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dsdC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416865.1"; locus_tag "ECDH10B_RS12845"; product "DNA-binding transcriptional regulator DsdC"; protein_id "WP_001326971.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2567414 2567416 . - 0 gene_id "ECDH10B_RS12845"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dsdC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416865.1"; locus_tag "ECDH10B_RS12845"; product "DNA-binding transcriptional regulator DsdC"; protein_id "WP_001326971.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2566481 2566483 . - 0 gene_id "ECDH10B_RS12845"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dsdC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416865.1"; locus_tag "ECDH10B_RS12845"; product "DNA-binding transcriptional regulator DsdC"; protein_id "WP_001326971.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2567634 2568971 . + . gene_id "ECDH10B_RS12850"; transcript_id ""; gbkey "Gene"; gene "dsdX"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12850"; old_locus_tag "ECDH10B_2530"; -NC_010473.1 Protein Homology CDS 2567634 2568968 . + 0 gene_id "ECDH10B_RS12850"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dsdX"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416866.1"; locus_tag "ECDH10B_RS12850"; product "D-serine transporter DsdX"; protein_id "WP_000556048.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2567634 2567636 . + 0 gene_id "ECDH10B_RS12850"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dsdX"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416866.1"; locus_tag "ECDH10B_RS12850"; product "D-serine transporter DsdX"; protein_id "WP_000556048.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2568969 2568971 . + 0 gene_id "ECDH10B_RS12850"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dsdX"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416866.1"; locus_tag "ECDH10B_RS12850"; product "D-serine transporter DsdX"; protein_id "WP_000556048.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2568989 2570317 . + . gene_id "ECDH10B_RS12855"; transcript_id ""; gbkey "Gene"; gene "dsdA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12855"; old_locus_tag "ECDH10B_2531"; -NC_010473.1 Protein Homology CDS 2568989 2570314 . + 0 gene_id "ECDH10B_RS12855"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dsdA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416867.1"; locus_tag "ECDH10B_RS12855"; product "D-serine ammonia-lyase"; protein_id "WP_000426427.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2568989 2568991 . + 0 gene_id "ECDH10B_RS12855"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dsdA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416867.1"; locus_tag "ECDH10B_RS12855"; product "D-serine ammonia-lyase"; protein_id "WP_000426427.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2570315 2570317 . + 0 gene_id "ECDH10B_RS12855"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dsdA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416867.1"; locus_tag "ECDH10B_RS12855"; product "D-serine ammonia-lyase"; protein_id "WP_000426427.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2570425 2571963 . - . gene_id "ECDH10B_RS12860"; transcript_id ""; gbkey "Gene"; gene "emrY"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12860"; old_locus_tag "ECDH10B_2532"; -NC_010473.1 Protein Homology CDS 2570428 2571963 . - 0 gene_id "ECDH10B_RS12860"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "emrY"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416868.1"; locus_tag "ECDH10B_RS12860"; product "multidrug efflux MFS transporter permease subunit EmrY"; protein_id "WP_001018714.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2571961 2571963 . - 0 gene_id "ECDH10B_RS12860"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "emrY"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416868.1"; locus_tag "ECDH10B_RS12860"; product "multidrug efflux MFS transporter permease subunit EmrY"; protein_id "WP_001018714.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2570425 2570427 . - 0 gene_id "ECDH10B_RS12860"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "emrY"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416868.1"; locus_tag "ECDH10B_RS12860"; product "multidrug efflux MFS transporter permease subunit EmrY"; protein_id "WP_001018714.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2571963 2573126 . - . gene_id "ECDH10B_RS12865"; transcript_id ""; gbkey "Gene"; gene "emrK"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12865"; old_locus_tag "ECDH10B_2533"; -NC_010473.1 Protein Homology CDS 2571966 2573126 . - 0 gene_id "ECDH10B_RS12865"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "emrK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416869.1"; locus_tag "ECDH10B_RS12865"; product "multidrug efflux MFS transporter periplasmic adaptor subunit EmrK"; protein_id "WP_000435167.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2573124 2573126 . - 0 gene_id "ECDH10B_RS12865"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "emrK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416869.1"; locus_tag "ECDH10B_RS12865"; product "multidrug efflux MFS transporter periplasmic adaptor subunit EmrK"; protein_id "WP_000435167.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2571963 2571965 . - 0 gene_id "ECDH10B_RS12865"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "emrK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416869.1"; locus_tag "ECDH10B_RS12865"; product "multidrug efflux MFS transporter periplasmic adaptor subunit EmrK"; protein_id "WP_000435167.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2573542 2574156 . + . gene_id "ECDH10B_RS12870"; transcript_id ""; gbkey "Gene"; gene "evgA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12870"; old_locus_tag "ECDH10B_2534"; -NC_010473.1 Protein Homology CDS 2573542 2574153 . + 0 gene_id "ECDH10B_RS12870"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "evgA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311275.1"; locus_tag "ECDH10B_RS12870"; product "acid-sensing system DNA-binding response regulator EvgA"; protein_id "WP_000991370.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2573542 2573544 . + 0 gene_id "ECDH10B_RS12870"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "evgA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311275.1"; locus_tag "ECDH10B_RS12870"; product "acid-sensing system DNA-binding response regulator EvgA"; protein_id "WP_000991370.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2574154 2574156 . + 0 gene_id "ECDH10B_RS12870"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "evgA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311275.1"; locus_tag "ECDH10B_RS12870"; product "acid-sensing system DNA-binding response regulator EvgA"; protein_id "WP_000991370.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2574161 2577754 . + . gene_id "ECDH10B_RS12875"; transcript_id ""; gbkey "Gene"; gene "evgS"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12875"; -NC_010473.1 Protein Homology CDS 2574161 2577751 . + 0 gene_id "ECDH10B_RS12875"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "evgS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416871.1"; locus_tag "ECDH10B_RS12875"; product "acid-sensing system histidine kinase EvgS"; protein_id "WP_012738268.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2574161 2574163 . + 0 gene_id "ECDH10B_RS12875"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "evgS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416871.1"; locus_tag "ECDH10B_RS12875"; product "acid-sensing system histidine kinase EvgS"; protein_id "WP_012738268.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2577752 2577754 . + 0 gene_id "ECDH10B_RS12875"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "evgS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416871.1"; locus_tag "ECDH10B_RS12875"; product "acid-sensing system histidine kinase EvgS"; protein_id "WP_012738268.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2577810 2578955 . - . gene_id "ECDH10B_RS12880"; transcript_id ""; gbkey "Gene"; gene "yfdE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12880"; old_locus_tag "ECDH10B_2536"; -NC_010473.1 Protein Homology CDS 2577813 2578955 . - 0 gene_id "ECDH10B_RS12880"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yfdE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416872.4"; locus_tag "ECDH10B_RS12880"; product "CoA:oxalate CoA-transferase"; protein_id "WP_001296867.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2578953 2578955 . - 0 gene_id "ECDH10B_RS12880"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yfdE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416872.4"; locus_tag "ECDH10B_RS12880"; product "CoA:oxalate CoA-transferase"; protein_id "WP_001296867.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2577810 2577812 . - 0 gene_id "ECDH10B_RS12880"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yfdE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416872.4"; locus_tag "ECDH10B_RS12880"; product "CoA:oxalate CoA-transferase"; protein_id "WP_001296867.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2579029 2579973 . - . gene_id "ECDH10B_RS12885"; transcript_id ""; gbkey "Gene"; gene "yfdV"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12885"; old_locus_tag "ECDH10B_2537"; -NC_010473.1 Protein Homology CDS 2579032 2579973 . - 0 gene_id "ECDH10B_RS12885"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yfdV"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311279.1"; locus_tag "ECDH10B_RS12885"; product "transporter YfdV"; protein_id "WP_000955028.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2579971 2579973 . - 0 gene_id "ECDH10B_RS12885"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yfdV"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311279.1"; locus_tag "ECDH10B_RS12885"; product "transporter YfdV"; protein_id "WP_000955028.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2579029 2579031 . - 0 gene_id "ECDH10B_RS12885"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yfdV"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311279.1"; locus_tag "ECDH10B_RS12885"; product "transporter YfdV"; protein_id "WP_000955028.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2580043 2581737 . - . gene_id "ECDH10B_RS12890"; transcript_id ""; gbkey "Gene"; gene "oxc"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12890"; old_locus_tag "ECDH10B_2538"; -NC_010473.1 Protein Homology CDS 2580046 2581737 . - 0 gene_id "ECDH10B_RS12890"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "oxc"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311280.1"; locus_tag "ECDH10B_RS12890"; product "oxalyl-CoA decarboxylase"; protein_id "WP_001283490.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2581735 2581737 . - 0 gene_id "ECDH10B_RS12890"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "oxc"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311280.1"; locus_tag "ECDH10B_RS12890"; product "oxalyl-CoA decarboxylase"; protein_id "WP_001283490.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2580043 2580045 . - 0 gene_id "ECDH10B_RS12890"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "oxc"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311280.1"; locus_tag "ECDH10B_RS12890"; product "oxalyl-CoA decarboxylase"; protein_id "WP_001283490.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2581791 2583041 . - . gene_id "ECDH10B_RS12895"; transcript_id ""; gbkey "Gene"; gene "frc"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12895"; old_locus_tag "ECDH10B_2539"; -NC_010473.1 Protein Homology CDS 2581794 2583041 . - 0 gene_id "ECDH10B_RS12895"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "frc"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416875.1"; locus_tag "ECDH10B_RS12895"; product "formyl-CoA transferase"; protein_id "WP_000106759.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2583039 2583041 . - 0 gene_id "ECDH10B_RS12895"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "frc"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416875.1"; locus_tag "ECDH10B_RS12895"; product "formyl-CoA transferase"; protein_id "WP_000106759.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2581791 2581793 . - 0 gene_id "ECDH10B_RS12895"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "frc"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416875.1"; locus_tag "ECDH10B_RS12895"; product "formyl-CoA transferase"; protein_id "WP_000106759.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2583554 2584189 . - . gene_id "ECDH10B_RS12900"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12900"; old_locus_tag "ECDH10B_2540"; -NC_010473.1 Protein Homology CDS 2583557 2584189 . - 0 gene_id "ECDH10B_RS12900"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416876.1"; locus_tag "ECDH10B_RS12900"; product "YfdX family protein"; protein_id "WP_000825600.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2584187 2584189 . - 0 gene_id "ECDH10B_RS12900"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416876.1"; locus_tag "ECDH10B_RS12900"; product "YfdX family protein"; protein_id "WP_000825600.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2583554 2583556 . - 0 gene_id "ECDH10B_RS12900"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416876.1"; locus_tag "ECDH10B_RS12900"; product "YfdX family protein"; protein_id "WP_000825600.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2584485 2584760 . + . gene_id "ECDH10B_RS12905"; transcript_id ""; gbkey "Gene"; gene "ypdI"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12905"; old_locus_tag "ECDH10B_2541"; -NC_010473.1 Protein Homology CDS 2584485 2584757 . + 0 gene_id "ECDH10B_RS12905"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ypdI"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416877.1"; locus_tag "ECDH10B_RS12905"; product "colanic acid biosynthesis lipoprotein YpdI"; protein_id "WP_000867631.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2584485 2584487 . + 0 gene_id "ECDH10B_RS12905"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ypdI"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416877.1"; locus_tag "ECDH10B_RS12905"; product "colanic acid biosynthesis lipoprotein YpdI"; protein_id "WP_000867631.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2584758 2584760 . + 0 gene_id "ECDH10B_RS12905"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ypdI"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416877.1"; locus_tag "ECDH10B_RS12905"; product "colanic acid biosynthesis lipoprotein YpdI"; protein_id "WP_000867631.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2584837 2585079 . - . gene_id "ECDH10B_RS12915"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12915"; old_locus_tag "ECDH10B_2542"; -NC_010473.1 Protein Homology CDS 2584840 2585079 . - 0 gene_id "ECDH10B_RS12915"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416878.1"; locus_tag "ECDH10B_RS12915"; product "YfdY family protein"; protein_id "WP_000609275.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2585077 2585079 . - 0 gene_id "ECDH10B_RS12915"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416878.1"; locus_tag "ECDH10B_RS12915"; product "YfdY family protein"; protein_id "WP_000609275.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2584837 2584839 . - 0 gene_id "ECDH10B_RS12915"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416878.1"; locus_tag "ECDH10B_RS12915"; product "YfdY family protein"; protein_id "WP_000609275.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2585432 2586352 . + . gene_id "ECDH10B_RS12920"; transcript_id ""; gbkey "Gene"; gene "lpxP"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12920"; old_locus_tag "ECDH10B_2543"; -NC_010473.1 Protein Homology CDS 2585432 2586349 . + 0 gene_id "ECDH10B_RS12920"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lpxP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311285.2"; locus_tag "ECDH10B_RS12920"; product "kdo(2)-lipid IV(A) palmitoleoyltransferase"; protein_id "WP_000484404.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2585432 2585434 . + 0 gene_id "ECDH10B_RS12920"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lpxP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311285.2"; locus_tag "ECDH10B_RS12920"; product "kdo(2)-lipid IV(A) palmitoleoyltransferase"; protein_id "WP_000484404.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2586350 2586352 . + 0 gene_id "ECDH10B_RS12920"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lpxP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311285.2"; locus_tag "ECDH10B_RS12920"; product "kdo(2)-lipid IV(A) palmitoleoyltransferase"; protein_id "WP_000484404.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2586708 2586779 . + . gene_id "ECDH10B_RS25625"; transcript_id ""; gbkey "Gene"; gene "ypdK"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS25625"; -NC_010473.1 Protein Homology CDS 2586708 2586776 . + 0 gene_id "ECDH10B_RS25625"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ypdK"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_077777854.1"; locus_tag "ECDH10B_RS25625"; product "membrane protein YpdK"; protein_id "WP_010723117.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2586708 2586710 . + 0 gene_id "ECDH10B_RS25625"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ypdK"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_077777854.1"; locus_tag "ECDH10B_RS25625"; product "membrane protein YpdK"; protein_id "WP_010723117.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2586777 2586779 . + 0 gene_id "ECDH10B_RS25625"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ypdK"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_077777854.1"; locus_tag "ECDH10B_RS25625"; product "membrane protein YpdK"; protein_id "WP_010723117.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2586844 2588082 . - . gene_id "ECDH10B_RS12925"; transcript_id ""; gbkey "Gene"; gene "alaC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12925"; old_locus_tag "ECDH10B_2544"; -NC_010473.1 Protein Homology CDS 2586847 2588082 . - 0 gene_id "ECDH10B_RS12925"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "alaC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416880.1"; locus_tag "ECDH10B_RS12925"; product "alanine transaminase"; protein_id "WP_000785931.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2588080 2588082 . - 0 gene_id "ECDH10B_RS12925"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "alaC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416880.1"; locus_tag "ECDH10B_RS12925"; product "alanine transaminase"; protein_id "WP_000785931.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2586844 2586846 . - 0 gene_id "ECDH10B_RS12925"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "alaC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416880.1"; locus_tag "ECDH10B_RS12925"; product "alanine transaminase"; protein_id "WP_000785931.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2588458 2590155 . + . gene_id "ECDH10B_RS12930"; transcript_id ""; gbkey "Gene"; gene "ypdA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12930"; old_locus_tag "ECDH10B_2545"; -NC_010473.1 Protein Homology CDS 2588458 2590152 . + 0 gene_id "ECDH10B_RS12930"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ypdA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311287.1"; locus_tag "ECDH10B_RS12930"; product "two-component system sensor histidine kinase YpdA"; protein_id "WP_000544359.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2588458 2588460 . + 0 gene_id "ECDH10B_RS12930"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ypdA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311287.1"; locus_tag "ECDH10B_RS12930"; product "two-component system sensor histidine kinase YpdA"; protein_id "WP_000544359.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2590153 2590155 . + 0 gene_id "ECDH10B_RS12930"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ypdA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311287.1"; locus_tag "ECDH10B_RS12930"; product "two-component system sensor histidine kinase YpdA"; protein_id "WP_000544359.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2590170 2590904 . + . gene_id "ECDH10B_RS12935"; transcript_id ""; gbkey "Gene"; gene "ypdB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12935"; old_locus_tag "ECDH10B_2546"; -NC_010473.1 Protein Homology CDS 2590170 2590901 . + 0 gene_id "ECDH10B_RS12935"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ypdB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311288.1"; locus_tag "ECDH10B_RS12935"; product "two-component system response regulator YpdB"; protein_id "WP_001295458.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2590170 2590172 . + 0 gene_id "ECDH10B_RS12935"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ypdB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311288.1"; locus_tag "ECDH10B_RS12935"; product "two-component system response regulator YpdB"; protein_id "WP_001295458.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2590902 2590904 . + 0 gene_id "ECDH10B_RS12935"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ypdB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311288.1"; locus_tag "ECDH10B_RS12935"; product "two-component system response regulator YpdB"; protein_id "WP_001295458.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2590917 2591774 . + . gene_id "ECDH10B_RS12940"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12940"; old_locus_tag "ECDH10B_2547"; -NC_010473.1 Protein Homology CDS 2590917 2591771 . + 0 gene_id "ECDH10B_RS12940"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416883.1"; locus_tag "ECDH10B_RS12940"; product "AraC family transcriptional regulator"; protein_id "WP_000646835.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2590917 2590919 . + 0 gene_id "ECDH10B_RS12940"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416883.1"; locus_tag "ECDH10B_RS12940"; product "AraC family transcriptional regulator"; protein_id "WP_000646835.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2591772 2591774 . + 0 gene_id "ECDH10B_RS12940"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416883.1"; locus_tag "ECDH10B_RS12940"; product "AraC family transcriptional regulator"; protein_id "WP_000646835.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2591777 2594272 . - . gene_id "ECDH10B_RS12945"; transcript_id ""; gbkey "Gene"; gene "ptsP"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12945"; old_locus_tag "ECDH10B_2548"; -NC_010473.1 Protein Homology CDS 2591780 2594272 . - 0 gene_id "ECDH10B_RS12945"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ptsP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416884.1"; locus_tag "ECDH10B_RS12945"; product "phosphoenolpyruvate--protein phosphotransferase"; protein_id "WP_000955906.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2594270 2594272 . - 0 gene_id "ECDH10B_RS12945"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ptsP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416884.1"; locus_tag "ECDH10B_RS12945"; product "phosphoenolpyruvate--protein phosphotransferase"; protein_id "WP_000955906.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2591777 2591779 . - 0 gene_id "ECDH10B_RS12945"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ptsP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416884.1"; locus_tag "ECDH10B_RS12945"; product "phosphoenolpyruvate--protein phosphotransferase"; protein_id "WP_000955906.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2594297 2595334 . - . gene_id "ECDH10B_RS12950"; transcript_id ""; gbkey "Gene"; gene "ypdE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12950"; old_locus_tag "ECDH10B_2549"; -NC_010473.1 Protein Homology CDS 2594300 2595334 . - 0 gene_id "ECDH10B_RS12950"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ypdE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416885.1"; locus_tag "ECDH10B_RS12950"; product "aminopeptidase"; protein_id "WP_000366028.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2595332 2595334 . - 0 gene_id "ECDH10B_RS12950"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ypdE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416885.1"; locus_tag "ECDH10B_RS12950"; product "aminopeptidase"; protein_id "WP_000366028.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2594297 2594299 . - 0 gene_id "ECDH10B_RS12950"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ypdE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416885.1"; locus_tag "ECDH10B_RS12950"; product "aminopeptidase"; protein_id "WP_000366028.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2595334 2596419 . - . gene_id "ECDH10B_RS12955"; transcript_id ""; gbkey "Gene"; gene "ypdF"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12955"; old_locus_tag "ECDH10B_2550"; -NC_010473.1 Protein Homology CDS 2595337 2596419 . - 0 gene_id "ECDH10B_RS12955"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ypdF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416886.1"; locus_tag "ECDH10B_RS12955"; product "aminopeptidase"; protein_id "WP_000173288.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2596417 2596419 . - 0 gene_id "ECDH10B_RS12955"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ypdF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416886.1"; locus_tag "ECDH10B_RS12955"; product "aminopeptidase"; protein_id "WP_000173288.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2595334 2595336 . - 0 gene_id "ECDH10B_RS12955"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ypdF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416886.1"; locus_tag "ECDH10B_RS12955"; product "aminopeptidase"; protein_id "WP_000173288.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2596434 2597681 . - . gene_id "ECDH10B_RS12960"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12960"; old_locus_tag "ECDH10B_2551"; -NC_010473.1 Protein Homology CDS 2596437 2597681 . - 0 gene_id "ECDH10B_RS12960"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416887.1"; locus_tag "ECDH10B_RS12960"; product "PTS fructose transporter subunit IIC"; protein_id "WP_000985359.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2597679 2597681 . - 0 gene_id "ECDH10B_RS12960"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416887.1"; locus_tag "ECDH10B_RS12960"; product "PTS fructose transporter subunit IIC"; protein_id "WP_000985359.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2596434 2596436 . - 0 gene_id "ECDH10B_RS12960"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416887.1"; locus_tag "ECDH10B_RS12960"; product "PTS fructose transporter subunit IIC"; protein_id "WP_000985359.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2597703 2598029 . - . gene_id "ECDH10B_RS12965"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12965"; old_locus_tag "ECDH10B_2552"; -NC_010473.1 Protein Homology CDS 2597706 2598029 . - 0 gene_id "ECDH10B_RS12965"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311294.1"; locus_tag "ECDH10B_RS12965"; product "fructose-like phosphotransferase enzyme IIB component 1"; protein_id "WP_000038456.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2598027 2598029 . - 0 gene_id "ECDH10B_RS12965"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311294.1"; locus_tag "ECDH10B_RS12965"; product "fructose-like phosphotransferase enzyme IIB component 1"; protein_id "WP_000038456.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2597703 2597705 . - 0 gene_id "ECDH10B_RS12965"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311294.1"; locus_tag "ECDH10B_RS12965"; product "fructose-like phosphotransferase enzyme IIB component 1"; protein_id "WP_000038456.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2598248 2599213 . - . gene_id "ECDH10B_RS12970"; transcript_id ""; gbkey "Gene"; gene "glk"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12970"; old_locus_tag "ECDH10B_2553"; -NC_010473.1 Protein Homology CDS 2598251 2599213 . - 0 gene_id "ECDH10B_RS12970"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "glk"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311295.1"; locus_tag "ECDH10B_RS12970"; product "glucokinase"; protein_id "WP_000170346.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2599211 2599213 . - 0 gene_id "ECDH10B_RS12970"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "glk"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311295.1"; locus_tag "ECDH10B_RS12970"; product "glucokinase"; protein_id "WP_000170346.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2598248 2598250 . - 0 gene_id "ECDH10B_RS12970"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "glk"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311295.1"; locus_tag "ECDH10B_RS12970"; product "glucokinase"; protein_id "WP_000170346.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2599417 2600673 . + . gene_id "ECDH10B_RS12975"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12975"; old_locus_tag "ECDH10B_2554"; -NC_010473.1 Protein Homology CDS 2599417 2600670 . + 0 gene_id "ECDH10B_RS12975"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311296.1"; locus_tag "ECDH10B_RS12975"; product "ion channel protein"; protein_id "WP_000903148.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2599417 2599419 . + 0 gene_id "ECDH10B_RS12975"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311296.1"; locus_tag "ECDH10B_RS12975"; product "ion channel protein"; protein_id "WP_000903148.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2600671 2600673 . + 0 gene_id "ECDH10B_RS12975"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311296.1"; locus_tag "ECDH10B_RS12975"; product "ion channel protein"; protein_id "WP_000903148.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2600788 2601114 . + . gene_id "ECDH10B_RS12980"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12980"; old_locus_tag "ECDH10B_2555"; -NC_010473.1 Protein Homology CDS 2600788 2601111 . + 0 gene_id "ECDH10B_RS12980"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311297.1"; locus_tag "ECDH10B_RS12980"; product "DUF2502 domain-containing protein"; protein_id "WP_000490072.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2600788 2600790 . + 0 gene_id "ECDH10B_RS12980"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311297.1"; locus_tag "ECDH10B_RS12980"; product "DUF2502 domain-containing protein"; protein_id "WP_000490072.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2601112 2601114 . + 0 gene_id "ECDH10B_RS12980"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311297.1"; locus_tag "ECDH10B_RS12980"; product "DUF2502 domain-containing protein"; protein_id "WP_000490072.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2601255 2602493 . - . gene_id "ECDH10B_RS12990"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12990"; old_locus_tag "ECDH10B_2556"; -NC_010473.1 Protein Homology CDS 2601258 2602493 . - 0 gene_id "ECDH10B_RS12990"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311298.1"; locus_tag "ECDH10B_RS12990"; product "Nramp family divalent metal transporter"; protein_id "WP_000186369.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2602491 2602493 . - 0 gene_id "ECDH10B_RS12990"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311298.1"; locus_tag "ECDH10B_RS12990"; product "Nramp family divalent metal transporter"; protein_id "WP_000186369.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2601255 2601257 . - 0 gene_id "ECDH10B_RS12990"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311298.1"; locus_tag "ECDH10B_RS12990"; product "Nramp family divalent metal transporter"; protein_id "WP_000186369.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2602829 2604031 . + . gene_id "ECDH10B_RS12995"; transcript_id ""; gbkey "Gene"; gene "nupC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS12995"; old_locus_tag "ECDH10B_2557"; -NC_010473.1 Protein Homology CDS 2602829 2604028 . + 0 gene_id "ECDH10B_RS12995"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nupC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416894.1"; locus_tag "ECDH10B_RS12995"; product "nucleoside permease NupC"; protein_id "WP_000376337.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2602829 2602831 . + 0 gene_id "ECDH10B_RS12995"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nupC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416894.1"; locus_tag "ECDH10B_RS12995"; product "nucleoside permease NupC"; protein_id "WP_000376337.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2604029 2604031 . + 0 gene_id "ECDH10B_RS12995"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nupC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416894.1"; locus_tag "ECDH10B_RS12995"; product "nucleoside permease NupC"; protein_id "WP_000376337.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2604118 2605230 . + . gene_id "ECDH10B_RS13000"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13000"; old_locus_tag "ECDH10B_2558"; -NC_010473.1 Protein Homology CDS 2604118 2605227 . + 0 gene_id "ECDH10B_RS13000"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414557.1"; locus_tag "ECDH10B_RS13000"; product "IS4-like element IS421 family transposase"; protein_id "WP_001300563.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2604118 2604120 . + 0 gene_id "ECDH10B_RS13000"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414557.1"; locus_tag "ECDH10B_RS13000"; product "IS4-like element IS421 family transposase"; protein_id "WP_001300563.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2605228 2605230 . + 0 gene_id "ECDH10B_RS13000"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414557.1"; locus_tag "ECDH10B_RS13000"; product "IS4-like element IS421 family transposase"; protein_id "WP_001300563.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2605430 2607619 . - . gene_id "ECDH10B_RS13005"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13005"; old_locus_tag "ECDH10B_2559"; -NC_010473.1 Protein Homology CDS 2605433 2607619 . - 0 gene_id "ECDH10B_RS13005"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416896.4"; locus_tag "ECDH10B_RS13005"; product "sensor domain-containing phosphodiesterase"; protein_id "WP_000497400.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2607617 2607619 . - 0 gene_id "ECDH10B_RS13005"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416896.4"; locus_tag "ECDH10B_RS13005"; product "sensor domain-containing phosphodiesterase"; protein_id "WP_000497400.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2605430 2605432 . - 0 gene_id "ECDH10B_RS13005"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416896.4"; locus_tag "ECDH10B_RS13005"; product "sensor domain-containing phosphodiesterase"; protein_id "WP_000497400.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2607828 2607903 . - . gene_id "ECDH10B_RS13010"; transcript_id ""; gbkey "Gene"; gene_biotype "tRNA"; locus_tag "ECDH10B_RS13010"; old_locus_tag "ECDH10B_2560"; -NC_010473.1 tRNAscan-SE exon 2607828 2607903 . - . gene_id "ECDH10B_RS13010"; transcript_id "ECDH10B_RS13010"; anticodon "(pos:complement(2607868..2607870))"; gbkey "tRNA"; inference "COORDINATES: profile:tRNAscan-SE:2.0.6"; locus_tag "ECDH10B_RS13010"; product "tRNA-Ala"; exon_number "1"; -NC_010473.1 RefSeq gene 2607943 2608018 . - . gene_id "ECDH10B_RS13015"; transcript_id ""; gbkey "Gene"; gene_biotype "tRNA"; locus_tag "ECDH10B_RS13015"; old_locus_tag "ECDH10B_2561"; -NC_010473.1 tRNAscan-SE exon 2607943 2608018 . - . gene_id "ECDH10B_RS13015"; transcript_id "ECDH10B_RS13015"; anticodon "(pos:complement(2607983..2607985))"; gbkey "tRNA"; inference "COORDINATES: profile:tRNAscan-SE:2.0.6"; locus_tag "ECDH10B_RS13015"; product "tRNA-Ala"; exon_number "1"; -NC_010473.1 RefSeq gene 2608254 2608598 . + . gene_id "ECDH10B_RS13020"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13020"; old_locus_tag "ECDH10B_2562"; -NC_010473.1 Protein Homology CDS 2608254 2608595 . + 0 gene_id "ECDH10B_RS13020"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_708260.2"; locus_tag "ECDH10B_RS13020"; product "putative DNA-binding transcriptional regulator"; protein_id "WP_001296278.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2608254 2608256 . + 0 gene_id "ECDH10B_RS13020"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_708260.2"; locus_tag "ECDH10B_RS13020"; product "putative DNA-binding transcriptional regulator"; protein_id "WP_001296278.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2608596 2608598 . + 0 gene_id "ECDH10B_RS13020"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_708260.2"; locus_tag "ECDH10B_RS13020"; product "putative DNA-binding transcriptional regulator"; protein_id "WP_001296278.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2608621 2608992 . + . gene_id "ECDH10B_RS13025"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13025"; old_locus_tag "ECDH10B_2563"; -NC_010473.1 Protein Homology CDS 2608621 2608989 . + 0 gene_id "ECDH10B_RS13025"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_708261.1"; locus_tag "ECDH10B_RS13025"; product "putative DNA-binding transcriptional regulator"; protein_id "WP_001341599.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2608621 2608623 . + 0 gene_id "ECDH10B_RS13025"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_708261.1"; locus_tag "ECDH10B_RS13025"; product "putative DNA-binding transcriptional regulator"; protein_id "WP_001341599.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2608990 2608992 . + 0 gene_id "ECDH10B_RS13025"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_708261.1"; locus_tag "ECDH10B_RS13025"; product "putative DNA-binding transcriptional regulator"; protein_id "WP_001341599.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2609044 2610459 . - . gene_id "ECDH10B_RS13030"; transcript_id ""; gbkey "Gene"; gene "gltX"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13030"; old_locus_tag "ECDH10B_2564"; -NC_010473.1 Protein Homology CDS 2609047 2610459 . - 0 gene_id "ECDH10B_RS13030"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gltX"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416899.1"; locus_tag "ECDH10B_RS13030"; product "glutamate--tRNA ligase"; protein_id "WP_000695655.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2610457 2610459 . - 0 gene_id "ECDH10B_RS13030"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gltX"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416899.1"; locus_tag "ECDH10B_RS13030"; product "glutamate--tRNA ligase"; protein_id "WP_000695655.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2609044 2609046 . - 0 gene_id "ECDH10B_RS13030"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gltX"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416899.1"; locus_tag "ECDH10B_RS13030"; product "glutamate--tRNA ligase"; protein_id "WP_000695655.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2610718 2610793 . + . gene_id "ECDH10B_RS13035"; transcript_id ""; gbkey "Gene"; gene_biotype "tRNA"; locus_tag "ECDH10B_RS13035"; old_locus_tag "ECDH10B_2565"; -NC_010473.1 tRNAscan-SE exon 2610718 2610793 . + . gene_id "ECDH10B_RS13035"; transcript_id "ECDH10B_RS13035"; anticodon "(pos:2610751..2610753)"; gbkey "tRNA"; inference "COORDINATES: profile:tRNAscan-SE:2.0.6"; locus_tag "ECDH10B_RS13035"; product "tRNA-Val"; exon_number "1"; -NC_010473.1 RefSeq gene 2610838 2610913 . + . gene_id "ECDH10B_RS13040"; transcript_id ""; gbkey "Gene"; gene_biotype "tRNA"; locus_tag "ECDH10B_RS13040"; old_locus_tag "ECDH10B_2566"; -NC_010473.1 tRNAscan-SE exon 2610838 2610913 . + . gene_id "ECDH10B_RS13040"; transcript_id "ECDH10B_RS13040"; anticodon "(pos:2610871..2610873)"; gbkey "tRNA"; inference "COORDINATES: profile:tRNAscan-SE:2.0.6"; locus_tag "ECDH10B_RS13040"; product "tRNA-Val"; exon_number "1"; -NC_010473.1 RefSeq gene 2610960 2611035 . + . gene_id "ECDH10B_RS13045"; transcript_id ""; gbkey "Gene"; gene_biotype "tRNA"; locus_tag "ECDH10B_RS13045"; old_locus_tag "ECDH10B_2567"; -NC_010473.1 tRNAscan-SE exon 2610960 2611035 . + . gene_id "ECDH10B_RS13045"; transcript_id "ECDH10B_RS13045"; anticodon "(pos:2610993..2610995)"; gbkey "tRNA"; inference "COORDINATES: profile:tRNAscan-SE:2.0.6"; locus_tag "ECDH10B_RS13045"; product "tRNA-Val"; exon_number "1"; -NC_010473.1 RefSeq gene 2611040 2611115 . + . gene_id "ECDH10B_RS13050"; transcript_id ""; gbkey "Gene"; gene_biotype "tRNA"; locus_tag "ECDH10B_RS13050"; old_locus_tag "ECDH10B_2568"; -NC_010473.1 tRNAscan-SE exon 2611040 2611115 . + . gene_id "ECDH10B_RS13050"; transcript_id "ECDH10B_RS13050"; anticodon "(pos:2611073..2611075)"; gbkey "tRNA"; inference "COORDINATES: profile:tRNAscan-SE:2.0.6"; locus_tag "ECDH10B_RS13050"; product "tRNA-Lys"; exon_number "1"; -NC_010473.1 RefSeq gene 2611146 2611271 . + . gene_id "ECDH10B_RS23385"; transcript_id ""; gbkey "Gene"; gene_biotype "ncRNA"; locus_tag "ECDH10B_RS23385"; -NC_010473.1 cmsearch exon 2611146 2611271 . + . gene_id "ECDH10B_RS23385"; transcript_id "ECDH10B_RS23385"; db_xref "RFAM:RF00391"; gbkey "ncRNA"; inference "COORDINATES: nucleotide motif:Rfam:12.0:RF00391"; inference "COORDINATES: profile:INFERNAL:1.1.1"; locus_tag "ECDH10B_RS23385"; note "rtT sRNA, processed from tyrT transcript"; product "RtT sRNA"; exon_number "1"; -NC_010473.1 RefSeq gene 2611380 2612264 . - . gene_id "ECDH10B_RS13055"; transcript_id ""; gbkey "Gene"; gene "xapR"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13055"; old_locus_tag "ECDH10B_2569"; -NC_010473.1 Protein Homology CDS 2611383 2612264 . - 0 gene_id "ECDH10B_RS13055"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "xapR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416900.1"; locus_tag "ECDH10B_RS13055"; product "DNA-binding transcriptional regulator XapR"; protein_id "WP_000442949.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2612262 2612264 . - 0 gene_id "ECDH10B_RS13055"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "xapR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416900.1"; locus_tag "ECDH10B_RS13055"; product "DNA-binding transcriptional regulator XapR"; protein_id "WP_000442949.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2611380 2611382 . - 0 gene_id "ECDH10B_RS13055"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "xapR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416900.1"; locus_tag "ECDH10B_RS13055"; product "DNA-binding transcriptional regulator XapR"; protein_id "WP_000442949.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2612305 2612463 . - . gene_id "ECDH10B_RS13060"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13060"; -NC_010473.1 Protein Homology CDS 2612308 2612463 . - 0 gene_id "ECDH10B_RS13060"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001392449.1"; locus_tag "ECDH10B_RS13060"; product "DUF1427 family protein"; protein_id "WP_000651752.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2612461 2612463 . - 0 gene_id "ECDH10B_RS13060"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001392449.1"; locus_tag "ECDH10B_RS13060"; product "DUF1427 family protein"; protein_id "WP_000651752.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2612305 2612307 . - 0 gene_id "ECDH10B_RS13060"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001392449.1"; locus_tag "ECDH10B_RS13060"; product "DUF1427 family protein"; protein_id "WP_000651752.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2612516 2613772 . - . gene_id "ECDH10B_RS13065"; transcript_id ""; gbkey "Gene"; gene "xapB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13065"; old_locus_tag "ECDH10B_2570"; -NC_010473.1 Protein Homology CDS 2612519 2613772 . - 0 gene_id "ECDH10B_RS13065"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "xapB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416901.1"; locus_tag "ECDH10B_RS13065"; product "xanthosine/proton symporter XapB"; protein_id "WP_000020402.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2613770 2613772 . - 0 gene_id "ECDH10B_RS13065"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "xapB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416901.1"; locus_tag "ECDH10B_RS13065"; product "xanthosine/proton symporter XapB"; protein_id "WP_000020402.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2612516 2612518 . - 0 gene_id "ECDH10B_RS13065"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "xapB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416901.1"; locus_tag "ECDH10B_RS13065"; product "xanthosine/proton symporter XapB"; protein_id "WP_000020402.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2613832 2614665 . - . gene_id "ECDH10B_RS13070"; transcript_id ""; gbkey "Gene"; gene "xapA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13070"; old_locus_tag "ECDH10B_2571"; -NC_010473.1 Protein Homology CDS 2613835 2614665 . - 0 gene_id "ECDH10B_RS13070"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "xapA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416902.1"; locus_tag "ECDH10B_RS13070"; product "xanthosine phosphorylase"; protein_id "WP_000084573.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2614663 2614665 . - 0 gene_id "ECDH10B_RS13070"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "xapA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416902.1"; locus_tag "ECDH10B_RS13070"; product "xanthosine phosphorylase"; protein_id "WP_000084573.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2613832 2613834 . - 0 gene_id "ECDH10B_RS13070"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "xapA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416902.1"; locus_tag "ECDH10B_RS13070"; product "xanthosine phosphorylase"; protein_id "WP_000084573.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2614914 2615678 . + . gene_id "ECDH10B_RS13075"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13075"; old_locus_tag "ECDH10B_2572"; -NC_010473.1 Protein Homology CDS 2614914 2615675 . + 0 gene_id "ECDH10B_RS13075"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416903.1"; locus_tag "ECDH10B_RS13075"; product "outer membrane protein"; protein_id "WP_000716421.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2614914 2614916 . + 0 gene_id "ECDH10B_RS13075"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416903.1"; locus_tag "ECDH10B_RS13075"; product "outer membrane protein"; protein_id "WP_000716421.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2615676 2615678 . + 0 gene_id "ECDH10B_RS13075"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416903.1"; locus_tag "ECDH10B_RS13075"; product "outer membrane protein"; protein_id "WP_000716421.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2615717 2616643 . - . gene_id "ECDH10B_RS13080"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13080"; old_locus_tag "ECDH10B_2573"; -NC_010473.1 Protein Homology CDS 2615720 2616643 . - 0 gene_id "ECDH10B_RS13080"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416904.1"; locus_tag "ECDH10B_RS13080"; product "LysR family transcriptional regulator"; protein_id "WP_001109794.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2616641 2616643 . - 0 gene_id "ECDH10B_RS13080"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416904.1"; locus_tag "ECDH10B_RS13080"; product "LysR family transcriptional regulator"; protein_id "WP_001109794.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2615717 2615719 . - 0 gene_id "ECDH10B_RS13080"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416904.1"; locus_tag "ECDH10B_RS13080"; product "LysR family transcriptional regulator"; protein_id "WP_001109794.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2616733 2617731 . + . gene_id "ECDH10B_RS13085"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13085"; old_locus_tag "ECDH10B_2574"; -NC_010473.1 Protein Homology CDS 2616733 2617728 . + 0 gene_id "ECDH10B_RS13085"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416905.1"; locus_tag "ECDH10B_RS13085"; product "bile acid:sodium symporter"; protein_id "WP_000765610.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2616733 2616735 . + 0 gene_id "ECDH10B_RS13085"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416905.1"; locus_tag "ECDH10B_RS13085"; product "bile acid:sodium symporter"; protein_id "WP_000765610.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2617729 2617731 . + 0 gene_id "ECDH10B_RS13085"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416905.1"; locus_tag "ECDH10B_RS13085"; product "bile acid:sodium symporter"; protein_id "WP_000765610.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2617728 2617946 . - . gene_id "ECDH10B_RS13090"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13090"; old_locus_tag "ECDH10B_2575"; -NC_010473.1 Protein Homology CDS 2617731 2617946 . - 0 gene_id "ECDH10B_RS13090"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_588464.1"; locus_tag "ECDH10B_RS13090"; product "DUF3820 family protein"; protein_id "WP_000410201.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2617944 2617946 . - 0 gene_id "ECDH10B_RS13090"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_588464.1"; locus_tag "ECDH10B_RS13090"; product "DUF3820 family protein"; protein_id "WP_000410201.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2617728 2617730 . - 0 gene_id "ECDH10B_RS13090"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_588464.1"; locus_tag "ECDH10B_RS13090"; product "DUF3820 family protein"; protein_id "WP_000410201.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2617948 2619963 . - . gene_id "ECDH10B_RS13095"; transcript_id ""; gbkey "Gene"; gene "ligA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13095"; old_locus_tag "ECDH10B_2576"; -NC_010473.1 Protein Homology CDS 2617951 2619963 . - 0 gene_id "ECDH10B_RS13095"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ligA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416906.1"; locus_tag "ECDH10B_RS13095"; product "NAD-dependent DNA ligase LigA"; protein_id "WP_000443661.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2619961 2619963 . - 0 gene_id "ECDH10B_RS13095"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ligA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416906.1"; locus_tag "ECDH10B_RS13095"; product "NAD-dependent DNA ligase LigA"; protein_id "WP_000443661.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2617948 2617950 . - 0 gene_id "ECDH10B_RS13095"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ligA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416906.1"; locus_tag "ECDH10B_RS13095"; product "NAD-dependent DNA ligase LigA"; protein_id "WP_000443661.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2620034 2621020 . - . gene_id "ECDH10B_RS13100"; transcript_id ""; gbkey "Gene"; gene "zipA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13100"; old_locus_tag "ECDH10B_2577"; -NC_010473.1 Protein Homology CDS 2620037 2621020 . - 0 gene_id "ECDH10B_RS13100"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "zipA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416907.1"; locus_tag "ECDH10B_RS13100"; product "cell division protein ZipA"; protein_id "WP_001300494.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2621018 2621020 . - 0 gene_id "ECDH10B_RS13100"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "zipA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416907.1"; locus_tag "ECDH10B_RS13100"; product "cell division protein ZipA"; protein_id "WP_001300494.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2620034 2620036 . - 0 gene_id "ECDH10B_RS13100"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "zipA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416907.1"; locus_tag "ECDH10B_RS13100"; product "cell division protein ZipA"; protein_id "WP_001300494.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2621250 2622011 . + . gene_id "ECDH10B_RS13105"; transcript_id ""; gbkey "Gene"; gene "cysZ"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13105"; old_locus_tag "ECDH10B_2578"; -NC_010473.1 Protein Homology CDS 2621250 2622008 . + 0 gene_id "ECDH10B_RS13105"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cysZ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311312.1"; locus_tag "ECDH10B_RS13105"; product "sulfate transporter CysZ"; protein_id "WP_000254839.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2621250 2621252 . + 0 gene_id "ECDH10B_RS13105"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cysZ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311312.1"; locus_tag "ECDH10B_RS13105"; product "sulfate transporter CysZ"; protein_id "WP_000254839.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2622009 2622011 . + 0 gene_id "ECDH10B_RS13105"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cysZ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311312.1"; locus_tag "ECDH10B_RS13105"; product "sulfate transporter CysZ"; protein_id "WP_000254839.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2622196 2623167 . + . gene_id "ECDH10B_RS13110"; transcript_id ""; gbkey "Gene"; gene "cysK"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13110"; old_locus_tag "ECDH10B_2579"; -NC_010473.1 Protein Homology CDS 2622196 2623164 . + 0 gene_id "ECDH10B_RS13110"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cysK"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000034402.1"; locus_tag "ECDH10B_RS13110"; product "cysteine synthase A"; protein_id "WP_000034402.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2622196 2622198 . + 0 gene_id "ECDH10B_RS13110"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cysK"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000034402.1"; locus_tag "ECDH10B_RS13110"; product "cysteine synthase A"; protein_id "WP_000034402.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2623165 2623167 . + 0 gene_id "ECDH10B_RS13110"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cysK"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000034402.1"; locus_tag "ECDH10B_RS13110"; product "cysteine synthase A"; protein_id "WP_000034402.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2623551 2623808 . + . gene_id "ECDH10B_RS13115"; transcript_id ""; gbkey "Gene"; gene "ptsH"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13115"; old_locus_tag "ECDH10B_2580"; -NC_010473.1 Protein Homology CDS 2623551 2623805 . + 0 gene_id "ECDH10B_RS13115"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ptsH"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_003038086.1"; locus_tag "ECDH10B_RS13115"; product "phosphocarrier protein Hpr"; protein_id "WP_000487600.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2623551 2623553 . + 0 gene_id "ECDH10B_RS13115"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ptsH"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_003038086.1"; locus_tag "ECDH10B_RS13115"; product "phosphocarrier protein Hpr"; protein_id "WP_000487600.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2623806 2623808 . + 0 gene_id "ECDH10B_RS13115"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ptsH"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_003038086.1"; locus_tag "ECDH10B_RS13115"; product "phosphocarrier protein Hpr"; protein_id "WP_000487600.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2623853 2625580 . + . gene_id "ECDH10B_RS13120"; transcript_id ""; gbkey "Gene"; gene "ptsI"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13120"; old_locus_tag "ECDH10B_2581"; -NC_010473.1 Protein Homology CDS 2623853 2625577 . + 0 gene_id "ECDH10B_RS13120"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ptsI"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416911.1"; locus_tag "ECDH10B_RS13120"; product "phosphoenolpyruvate-protein phosphotransferase PtsI"; protein_id "WP_000623140.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2623853 2623855 . + 0 gene_id "ECDH10B_RS13120"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ptsI"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416911.1"; locus_tag "ECDH10B_RS13120"; product "phosphoenolpyruvate-protein phosphotransferase PtsI"; protein_id "WP_000623140.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2625578 2625580 . + 0 gene_id "ECDH10B_RS13120"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ptsI"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416911.1"; locus_tag "ECDH10B_RS13120"; product "phosphoenolpyruvate-protein phosphotransferase PtsI"; protein_id "WP_000623140.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2625621 2626130 . + . gene_id "ECDH10B_RS13125"; transcript_id ""; gbkey "Gene"; gene "crr"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13125"; old_locus_tag "ECDH10B_2582"; -NC_010473.1 Protein Homology CDS 2625621 2626127 . + 0 gene_id "ECDH10B_RS13125"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "crr"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_015833547.1"; locus_tag "ECDH10B_RS13125"; product "PTS glucose transporter subunit IIA"; protein_id "WP_000522247.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2625621 2625623 . + 0 gene_id "ECDH10B_RS13125"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "crr"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_015833547.1"; locus_tag "ECDH10B_RS13125"; product "PTS glucose transporter subunit IIA"; protein_id "WP_000522247.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2626128 2626130 . + 0 gene_id "ECDH10B_RS13125"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "crr"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_015833547.1"; locus_tag "ECDH10B_RS13125"; product "PTS glucose transporter subunit IIA"; protein_id "WP_000522247.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2626173 2627024 . - . gene_id "ECDH10B_RS13130"; transcript_id ""; gbkey "Gene"; gene "pdxK"; gene_biotype "protein_coding"; gene_synonym "thiJ"; locus_tag "ECDH10B_RS13130"; old_locus_tag "ECDH10B_2583"; -NC_010473.1 Protein Homology CDS 2626176 2627024 . - 0 gene_id "ECDH10B_RS13130"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pdxK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416913.1"; locus_tag "ECDH10B_RS13130"; product "pyridoxine/pyridoxal/pyridoxamine kinase"; protein_id "WP_000096674.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2627022 2627024 . - 0 gene_id "ECDH10B_RS13130"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pdxK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416913.1"; locus_tag "ECDH10B_RS13130"; product "pyridoxine/pyridoxal/pyridoxamine kinase"; protein_id "WP_000096674.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2626173 2626175 . - 0 gene_id "ECDH10B_RS13130"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pdxK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416913.1"; locus_tag "ECDH10B_RS13130"; product "pyridoxine/pyridoxal/pyridoxamine kinase"; protein_id "WP_000096674.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2627129 2627503 . + . gene_id "ECDH10B_RS13135"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13135"; old_locus_tag "ECDH10B_2584"; -NC_010473.1 Protein Homology CDS 2627129 2627500 . + 0 gene_id "ECDH10B_RS13135"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416914.1"; locus_tag "ECDH10B_RS13135"; product "YfeK family protein"; protein_id "WP_000719962.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2627129 2627131 . + 0 gene_id "ECDH10B_RS13135"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416914.1"; locus_tag "ECDH10B_RS13135"; product "YfeK family protein"; protein_id "WP_000719962.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2627501 2627503 . + 0 gene_id "ECDH10B_RS13135"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416914.1"; locus_tag "ECDH10B_RS13135"; product "YfeK family protein"; protein_id "WP_000719962.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2627536 2628270 . + . gene_id "ECDH10B_RS13140"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13140"; old_locus_tag "ECDH10B_2585"; -NC_010473.1 Protein Homology CDS 2627536 2628267 . + 0 gene_id "ECDH10B_RS13140"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416915.1"; locus_tag "ECDH10B_RS13140"; product "WGR domain-containing protein"; protein_id "WP_000745534.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2627536 2627538 . + 0 gene_id "ECDH10B_RS13140"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416915.1"; locus_tag "ECDH10B_RS13140"; product "WGR domain-containing protein"; protein_id "WP_000745534.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2628268 2628270 . + 0 gene_id "ECDH10B_RS13140"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416915.1"; locus_tag "ECDH10B_RS13140"; product "WGR domain-containing protein"; protein_id "WP_000745534.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2628459 2629370 . - . gene_id "ECDH10B_RS13145"; transcript_id ""; gbkey "Gene"; gene "cysM"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13145"; old_locus_tag "ECDH10B_2586"; -NC_010473.1 Protein Homology CDS 2628462 2629370 . - 0 gene_id "ECDH10B_RS13145"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cysM"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416916.1"; locus_tag "ECDH10B_RS13145"; product "cysteine synthase B"; protein_id "WP_001336044.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2629368 2629370 . - 0 gene_id "ECDH10B_RS13145"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cysM"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416916.1"; locus_tag "ECDH10B_RS13145"; product "cysteine synthase B"; protein_id "WP_001336044.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2628459 2628461 . - 0 gene_id "ECDH10B_RS13145"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cysM"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416916.1"; locus_tag "ECDH10B_RS13145"; product "cysteine synthase B"; protein_id "WP_001336044.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2629504 2630601 . - . gene_id "ECDH10B_RS13150"; transcript_id ""; gbkey "Gene"; gene "cysA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13150"; old_locus_tag "ECDH10B_2587"; -NC_010473.1 Protein Homology CDS 2629507 2630601 . - 0 gene_id "ECDH10B_RS13150"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cysA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416917.1"; locus_tag "ECDH10B_RS13150"; product "sulfate/thiosulfate ABC transporter ATP-binding protein CysA"; protein_id "WP_000021036.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2630599 2630601 . - 0 gene_id "ECDH10B_RS13150"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cysA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416917.1"; locus_tag "ECDH10B_RS13150"; product "sulfate/thiosulfate ABC transporter ATP-binding protein CysA"; protein_id "WP_000021036.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2629504 2629506 . - 0 gene_id "ECDH10B_RS13150"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cysA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416917.1"; locus_tag "ECDH10B_RS13150"; product "sulfate/thiosulfate ABC transporter ATP-binding protein CysA"; protein_id "WP_000021036.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2630591 2631466 . - . gene_id "ECDH10B_RS13155"; transcript_id ""; gbkey "Gene"; gene "cysW"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13155"; old_locus_tag "ECDH10B_2588"; -NC_010473.1 Protein Homology CDS 2630594 2631466 . - 0 gene_id "ECDH10B_RS13155"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cysW"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026168.2"; locus_tag "ECDH10B_RS13155"; product "sulfate/thiosulfate ABC transporter permease CysW"; protein_id "WP_000852686.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2631464 2631466 . - 0 gene_id "ECDH10B_RS13155"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cysW"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026168.2"; locus_tag "ECDH10B_RS13155"; product "sulfate/thiosulfate ABC transporter permease CysW"; protein_id "WP_000852686.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2630591 2630593 . - 0 gene_id "ECDH10B_RS13155"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cysW"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026168.2"; locus_tag "ECDH10B_RS13155"; product "sulfate/thiosulfate ABC transporter permease CysW"; protein_id "WP_000852686.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2631466 2632299 . - . gene_id "ECDH10B_RS13160"; transcript_id ""; gbkey "Gene"; gene "cysT"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13160"; old_locus_tag "ECDH10B_2589"; -NC_010473.1 Protein Homology CDS 2631469 2632299 . - 0 gene_id "ECDH10B_RS13160"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cysT"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000458418.1"; locus_tag "ECDH10B_RS13160"; product "sulfate/thiosulfate ABC transporter permease CysT"; protein_id "WP_000458406.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2632297 2632299 . - 0 gene_id "ECDH10B_RS13160"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cysT"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000458418.1"; locus_tag "ECDH10B_RS13160"; product "sulfate/thiosulfate ABC transporter permease CysT"; protein_id "WP_000458406.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2631466 2631468 . - 0 gene_id "ECDH10B_RS13160"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cysT"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000458418.1"; locus_tag "ECDH10B_RS13160"; product "sulfate/thiosulfate ABC transporter permease CysT"; protein_id "WP_000458406.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2632299 2633315 . - . gene_id "ECDH10B_RS13165"; transcript_id ""; gbkey "Gene"; gene "cysP"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13165"; old_locus_tag "ECDH10B_2590"; -NC_010473.1 Protein Homology CDS 2632302 2633315 . - 0 gene_id "ECDH10B_RS13165"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cysP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416920.1"; locus_tag "ECDH10B_RS13165"; product "thiosulfate/sulfate ABC transporter substrate-binding protein CysP"; protein_id "WP_000290230.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2633313 2633315 . - 0 gene_id "ECDH10B_RS13165"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cysP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416920.1"; locus_tag "ECDH10B_RS13165"; product "thiosulfate/sulfate ABC transporter substrate-binding protein CysP"; protein_id "WP_000290230.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2632299 2632301 . - 0 gene_id "ECDH10B_RS13165"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cysP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416920.1"; locus_tag "ECDH10B_RS13165"; product "thiosulfate/sulfate ABC transporter substrate-binding protein CysP"; protein_id "WP_000290230.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2633619 2634410 . - . gene_id "ECDH10B_RS13170"; transcript_id ""; gbkey "Gene"; gene "ucpA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13170"; old_locus_tag "ECDH10B_2591"; -NC_010473.1 Protein Homology CDS 2633622 2634410 . - 0 gene_id "ECDH10B_RS13170"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ucpA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416921.4"; locus_tag "ECDH10B_RS13170"; product "SDR family oxidoreductase UcpA"; protein_id "WP_000517431.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2634408 2634410 . - 0 gene_id "ECDH10B_RS13170"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ucpA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416921.4"; locus_tag "ECDH10B_RS13170"; product "SDR family oxidoreductase UcpA"; protein_id "WP_000517431.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2633619 2633621 . - 0 gene_id "ECDH10B_RS13170"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ucpA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416921.4"; locus_tag "ECDH10B_RS13170"; product "SDR family oxidoreductase UcpA"; protein_id "WP_000517431.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2634539 2635396 . - . gene_id "ECDH10B_RS13175"; transcript_id ""; gbkey "Gene"; gene "murR"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13175"; old_locus_tag "ECDH10B_2592"; -NC_010473.1 Protein Homology CDS 2634542 2635396 . - 0 gene_id "ECDH10B_RS13175"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "murR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416922.1"; locus_tag "ECDH10B_RS13175"; product "HTH-type transcriptional regulator MurR"; protein_id "WP_000966470.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2635394 2635396 . - 0 gene_id "ECDH10B_RS13175"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "murR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416922.1"; locus_tag "ECDH10B_RS13175"; product "HTH-type transcriptional regulator MurR"; protein_id "WP_000966470.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2634539 2634541 . - 0 gene_id "ECDH10B_RS13175"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "murR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416922.1"; locus_tag "ECDH10B_RS13175"; product "HTH-type transcriptional regulator MurR"; protein_id "WP_000966470.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2635560 2636456 . + . gene_id "ECDH10B_RS13180"; transcript_id ""; gbkey "Gene"; gene "murQ"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13180"; old_locus_tag "ECDH10B_2593"; -NC_010473.1 Protein Homology CDS 2635560 2636453 . + 0 gene_id "ECDH10B_RS13180"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "murQ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416923.1"; locus_tag "ECDH10B_RS13180"; product "N-acetylmuramic acid 6-phosphate etherase"; protein_id "WP_001159160.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2635560 2635562 . + 0 gene_id "ECDH10B_RS13180"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "murQ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416923.1"; locus_tag "ECDH10B_RS13180"; product "N-acetylmuramic acid 6-phosphate etherase"; protein_id "WP_001159160.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2636454 2636456 . + 0 gene_id "ECDH10B_RS13180"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "murQ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416923.1"; locus_tag "ECDH10B_RS13180"; product "N-acetylmuramic acid 6-phosphate etherase"; protein_id "WP_001159160.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2636460 2637884 . + . gene_id "ECDH10B_RS13185"; transcript_id ""; gbkey "Gene"; gene "murP"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13185"; old_locus_tag "ECDH10B_2594"; -NC_010473.1 Protein Homology CDS 2636460 2637881 . + 0 gene_id "ECDH10B_RS13185"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "murP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416924.1"; locus_tag "ECDH10B_RS13185"; product "PTS N-acetylmuramic acid transporter subunit IIBC"; protein_id "WP_001040483.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2636460 2636462 . + 0 gene_id "ECDH10B_RS13185"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "murP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416924.1"; locus_tag "ECDH10B_RS13185"; product "PTS N-acetylmuramic acid transporter subunit IIBC"; protein_id "WP_001040483.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2637882 2637884 . + 0 gene_id "ECDH10B_RS13185"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "murP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416924.1"; locus_tag "ECDH10B_RS13185"; product "PTS N-acetylmuramic acid transporter subunit IIBC"; protein_id "WP_001040483.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2637889 2639193 . + . gene_id "ECDH10B_RS13190"; transcript_id ""; gbkey "Gene"; gene "pbp4b"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13190"; old_locus_tag "ECDH10B_2595"; -NC_010473.1 Protein Homology CDS 2637889 2639190 . + 0 gene_id "ECDH10B_RS13190"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pbp4b"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416925.2"; locus_tag "ECDH10B_RS13190"; product "penicillin binding protein PBP4B"; protein_id "WP_001327042.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2637889 2637891 . + 0 gene_id "ECDH10B_RS13190"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pbp4b"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416925.2"; locus_tag "ECDH10B_RS13190"; product "penicillin binding protein PBP4B"; protein_id "WP_001327042.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2639191 2639193 . + 0 gene_id "ECDH10B_RS13190"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pbp4b"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416925.2"; locus_tag "ECDH10B_RS13190"; product "penicillin binding protein PBP4B"; protein_id "WP_001327042.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2639433 2640332 . - . gene_id "ECDH10B_RS13195"; transcript_id ""; gbkey "Gene"; gene "yfeX"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13195"; old_locus_tag "ECDH10B_2596"; -NC_010473.1 Protein Homology CDS 2639436 2640332 . - 0 gene_id "ECDH10B_RS13195"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yfeX"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416926.4"; locus_tag "ECDH10B_RS13195"; product "porphyrinogen peroxidase"; protein_id "WP_001350538.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2640330 2640332 . - 0 gene_id "ECDH10B_RS13195"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yfeX"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416926.4"; locus_tag "ECDH10B_RS13195"; product "porphyrinogen peroxidase"; protein_id "WP_001350538.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2639433 2639435 . - 0 gene_id "ECDH10B_RS13195"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yfeX"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416926.4"; locus_tag "ECDH10B_RS13195"; product "porphyrinogen peroxidase"; protein_id "WP_001350538.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2640428 2641003 . - . gene_id "ECDH10B_RS13200"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13200"; old_locus_tag "ECDH10B_2597"; -NC_010473.1 Protein Homology CDS 2640431 2641003 . - 0 gene_id "ECDH10B_RS13200"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416927.1"; locus_tag "ECDH10B_RS13200"; product "RpoE-regulated lipoprotein"; protein_id "WP_000838944.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2641001 2641003 . - 0 gene_id "ECDH10B_RS13200"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416927.1"; locus_tag "ECDH10B_RS13200"; product "RpoE-regulated lipoprotein"; protein_id "WP_000838944.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2640428 2640430 . - 0 gene_id "ECDH10B_RS13200"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416927.1"; locus_tag "ECDH10B_RS13200"; product "RpoE-regulated lipoprotein"; protein_id "WP_000838944.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2641064 2641513 . - . gene_id "ECDH10B_RS13205"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13205"; old_locus_tag "ECDH10B_2598"; -NC_010473.1 Protein Homology CDS 2641067 2641513 . - 0 gene_id "ECDH10B_RS13205"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416928.4"; locus_tag "ECDH10B_RS13205"; product "DUF2919 domain-containing protein"; protein_id "WP_001350539.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2641511 2641513 . - 0 gene_id "ECDH10B_RS13205"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416928.4"; locus_tag "ECDH10B_RS13205"; product "DUF2919 domain-containing protein"; protein_id "WP_001350539.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2641064 2641066 . - 0 gene_id "ECDH10B_RS13205"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416928.4"; locus_tag "ECDH10B_RS13205"; product "DUF2919 domain-containing protein"; protein_id "WP_001350539.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2641500 2641925 . - . gene_id "ECDH10B_RS13210"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13210"; old_locus_tag "ECDH10B_2599"; -NC_010473.1 Protein Homology CDS 2641503 2641925 . - 0 gene_id "ECDH10B_RS13210"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416929.4"; locus_tag "ECDH10B_RS13210"; product "GNAT family acetyltransferase"; protein_id "WP_000405996.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2641923 2641925 . - 0 gene_id "ECDH10B_RS13210"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416929.4"; locus_tag "ECDH10B_RS13210"; product "GNAT family acetyltransferase"; protein_id "WP_000405996.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2641500 2641502 . - 0 gene_id "ECDH10B_RS13210"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416929.4"; locus_tag "ECDH10B_RS13210"; product "GNAT family acetyltransferase"; protein_id "WP_000405996.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2642139 2643008 . + . gene_id "ECDH10B_RS13215"; transcript_id ""; gbkey "Gene"; gene "amiA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13215"; old_locus_tag "ECDH10B_2600"; -NC_010473.1 Protein Homology CDS 2642139 2643005 . + 0 gene_id "ECDH10B_RS13215"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "amiA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416930.1"; locus_tag "ECDH10B_RS13215"; product "N-acetylmuramoyl-L-alanine amidase AmiA"; protein_id "WP_000102886.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2642139 2642141 . + 0 gene_id "ECDH10B_RS13215"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "amiA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416930.1"; locus_tag "ECDH10B_RS13215"; product "N-acetylmuramoyl-L-alanine amidase AmiA"; protein_id "WP_000102886.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2643006 2643008 . + 0 gene_id "ECDH10B_RS13215"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "amiA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416930.1"; locus_tag "ECDH10B_RS13215"; product "N-acetylmuramoyl-L-alanine amidase AmiA"; protein_id "WP_000102886.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2643012 2643911 . + . gene_id "ECDH10B_RS13220"; transcript_id ""; gbkey "Gene"; gene "hemF"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13220"; old_locus_tag "ECDH10B_2601"; -NC_010473.1 Protein Homology CDS 2643012 2643908 . + 0 gene_id "ECDH10B_RS13220"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hemF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416931.1"; locus_tag "ECDH10B_RS13220"; product "oxygen-dependent coproporphyrinogen oxidase"; protein_id "WP_000801365.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2643012 2643014 . + 0 gene_id "ECDH10B_RS13220"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hemF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416931.1"; locus_tag "ECDH10B_RS13220"; product "oxygen-dependent coproporphyrinogen oxidase"; protein_id "WP_000801365.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2643909 2643911 . + 0 gene_id "ECDH10B_RS13220"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hemF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416931.1"; locus_tag "ECDH10B_RS13220"; product "oxygen-dependent coproporphyrinogen oxidase"; protein_id "WP_000801365.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2643917 2644969 . - . gene_id "ECDH10B_RS13225"; transcript_id ""; gbkey "Gene"; gene "eutR"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13225"; old_locus_tag "ECDH10B_2602"; -NC_010473.1 Protein Homology CDS 2643920 2644969 . - 0 gene_id "ECDH10B_RS13225"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "eutR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416932.1"; locus_tag "ECDH10B_RS13225"; product "HTH-type transcriptional regulator EutR"; protein_id "WP_000753690.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2644967 2644969 . - 0 gene_id "ECDH10B_RS13225"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "eutR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416932.1"; locus_tag "ECDH10B_RS13225"; product "HTH-type transcriptional regulator EutR"; protein_id "WP_000753690.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2643917 2643919 . - 0 gene_id "ECDH10B_RS13225"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "eutR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416932.1"; locus_tag "ECDH10B_RS13225"; product "HTH-type transcriptional regulator EutR"; protein_id "WP_000753690.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2645015 2645515 . - . gene_id "ECDH10B_RS13230"; transcript_id ""; gbkey "Gene"; gene "eutK"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13230"; old_locus_tag "ECDH10B_2603"; -NC_010473.1 Protein Homology CDS 2645018 2645515 . - 0 gene_id "ECDH10B_RS13230"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "eutK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416933.4"; locus_tag "ECDH10B_RS13230"; product "ethanolamine utilization microcompartment protein EutK"; protein_id "WP_000606257.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2645513 2645515 . - 0 gene_id "ECDH10B_RS13230"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "eutK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416933.4"; locus_tag "ECDH10B_RS13230"; product "ethanolamine utilization microcompartment protein EutK"; protein_id "WP_000606257.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2645015 2645017 . - 0 gene_id "ECDH10B_RS13230"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "eutK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416933.4"; locus_tag "ECDH10B_RS13230"; product "ethanolamine utilization microcompartment protein EutK"; protein_id "WP_000606257.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2645528 2646187 . - . gene_id "ECDH10B_RS13235"; transcript_id ""; gbkey "Gene"; gene "eutL"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13235"; old_locus_tag "ECDH10B_2604"; -NC_010473.1 Protein Homology CDS 2645531 2646187 . - 0 gene_id "ECDH10B_RS13235"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "eutL"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416934.1"; locus_tag "ECDH10B_RS13235"; product "ethanolamine utilization microcompartment protein EutL"; protein_id "WP_001111023.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2646185 2646187 . - 0 gene_id "ECDH10B_RS13235"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "eutL"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416934.1"; locus_tag "ECDH10B_RS13235"; product "ethanolamine utilization microcompartment protein EutL"; protein_id "WP_001111023.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2645528 2645530 . - 0 gene_id "ECDH10B_RS13235"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "eutL"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416934.1"; locus_tag "ECDH10B_RS13235"; product "ethanolamine utilization microcompartment protein EutL"; protein_id "WP_001111023.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2646197 2647084 . - . gene_id "ECDH10B_RS13240"; transcript_id ""; gbkey "Gene"; gene "eutC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13240"; old_locus_tag "ECDH10B_2605"; -NC_010473.1 Protein Homology CDS 2646200 2647084 . - 0 gene_id "ECDH10B_RS13240"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "eutC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416935.1"; locus_tag "ECDH10B_RS13240"; product "ethanolamine ammonia-lyase subunit beta"; protein_id "WP_000372316.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2647082 2647084 . - 0 gene_id "ECDH10B_RS13240"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "eutC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416935.1"; locus_tag "ECDH10B_RS13240"; product "ethanolamine ammonia-lyase subunit beta"; protein_id "WP_000372316.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2646197 2646199 . - 0 gene_id "ECDH10B_RS13240"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "eutC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416935.1"; locus_tag "ECDH10B_RS13240"; product "ethanolamine ammonia-lyase subunit beta"; protein_id "WP_000372316.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2647105 2648466 . - . gene_id "ECDH10B_RS13245"; transcript_id ""; gbkey "Gene"; gene "eutB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13245"; old_locus_tag "ECDH10B_2606"; -NC_010473.1 Protein Homology CDS 2647108 2648466 . - 0 gene_id "ECDH10B_RS13245"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "eutB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311339.1"; locus_tag "ECDH10B_RS13245"; product "ethanolamine ammonia-lyase subunit alpha"; protein_id "WP_000769961.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2648464 2648466 . - 0 gene_id "ECDH10B_RS13245"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "eutB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311339.1"; locus_tag "ECDH10B_RS13245"; product "ethanolamine ammonia-lyase subunit alpha"; protein_id "WP_000769961.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2647105 2647107 . - 0 gene_id "ECDH10B_RS13245"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "eutB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311339.1"; locus_tag "ECDH10B_RS13245"; product "ethanolamine ammonia-lyase subunit alpha"; protein_id "WP_000769961.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2648645 2649853 . + . gene_id "ECDH10B_RS13250"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13250"; old_locus_tag "ECDH10B_2607"; -NC_010473.1 Protein Homology CDS 2648645 2649850 . + 0 gene_id "ECDH10B_RS13250"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416937.2"; locus_tag "ECDH10B_RS13250"; product "integrase arm-type DNA-binding domain-containing protein"; protein_id "WP_000047773.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2648645 2648647 . + 0 gene_id "ECDH10B_RS13250"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416937.2"; locus_tag "ECDH10B_RS13250"; product "integrase arm-type DNA-binding domain-containing protein"; protein_id "WP_000047773.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2649851 2649853 . + 0 gene_id "ECDH10B_RS13250"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416937.2"; locus_tag "ECDH10B_RS13250"; product "integrase arm-type DNA-binding domain-containing protein"; protein_id "WP_000047773.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2650044 2650685 . + . gene_id "ECDH10B_RS13255"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13255"; old_locus_tag "ECDH10B_2608"; -NC_010473.1 Protein Homology CDS 2650044 2650682 . + 0 gene_id "ECDH10B_RS13255"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416938.1"; locus_tag "ECDH10B_RS13255"; product "hypothetical protein"; protein_id "WP_000458337.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2650044 2650046 . + 0 gene_id "ECDH10B_RS13255"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416938.1"; locus_tag "ECDH10B_RS13255"; product "hypothetical protein"; protein_id "WP_000458337.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2650683 2650685 . + 0 gene_id "ECDH10B_RS13255"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416938.1"; locus_tag "ECDH10B_RS13255"; product "hypothetical protein"; protein_id "WP_000458337.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2651155 2651400 . + . gene_id "ECDH10B_RS13260"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13260"; old_locus_tag "ECDH10B_2609"; -NC_010473.1 Protein Homology CDS 2651155 2651397 . + 0 gene_id "ECDH10B_RS13260"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416939.1"; locus_tag "ECDH10B_RS13260"; product "hypothetical protein"; protein_id "WP_010723122.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2651155 2651157 . + 0 gene_id "ECDH10B_RS13260"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416939.1"; locus_tag "ECDH10B_RS13260"; product "hypothetical protein"; protein_id "WP_010723122.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2651398 2651400 . + 0 gene_id "ECDH10B_RS13260"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416939.1"; locus_tag "ECDH10B_RS13260"; product "hypothetical protein"; protein_id "WP_010723122.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2651412 2651780 . + . gene_id "ECDH10B_RS13265"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13265"; old_locus_tag "ECDH10B_2610"; -NC_010473.1 Protein Homology CDS 2651412 2651777 . + 0 gene_id "ECDH10B_RS13265"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416940.2"; locus_tag "ECDH10B_RS13265"; product "hypothetical protein"; protein_id "WP_000683389.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2651412 2651414 . + 0 gene_id "ECDH10B_RS13265"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416940.2"; locus_tag "ECDH10B_RS13265"; product "hypothetical protein"; protein_id "WP_000683389.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2651778 2651780 . + 0 gene_id "ECDH10B_RS13265"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416940.2"; locus_tag "ECDH10B_RS13265"; product "hypothetical protein"; protein_id "WP_000683389.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2651898 2652314 . + . gene_id "ECDH10B_RS13270"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13270"; old_locus_tag "ECDH10B_2611"; -NC_010473.1 Protein Homology CDS 2651898 2652311 . + 0 gene_id "ECDH10B_RS13270"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416941.1"; locus_tag "ECDH10B_RS13270"; product "hypothetical protein"; protein_id "WP_000398186.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2651898 2651900 . + 0 gene_id "ECDH10B_RS13270"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416941.1"; locus_tag "ECDH10B_RS13270"; product "hypothetical protein"; protein_id "WP_000398186.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2652312 2652314 . + 0 gene_id "ECDH10B_RS13270"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416941.1"; locus_tag "ECDH10B_RS13270"; product "hypothetical protein"; protein_id "WP_000398186.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2652311 2652904 . + . gene_id "ECDH10B_RS13275"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13275"; old_locus_tag "ECDH10B_2612"; -NC_010473.1 Protein Homology CDS 2652311 2652901 . + 0 gene_id "ECDH10B_RS13275"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416942.1"; locus_tag "ECDH10B_RS13275"; product "hypothetical protein"; protein_id "WP_000052882.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2652311 2652313 . + 0 gene_id "ECDH10B_RS13275"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416942.1"; locus_tag "ECDH10B_RS13275"; product "hypothetical protein"; protein_id "WP_000052882.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2652902 2652904 . + 0 gene_id "ECDH10B_RS13275"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416942.1"; locus_tag "ECDH10B_RS13275"; product "hypothetical protein"; protein_id "WP_000052882.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2653379 2653756 . + . gene_id "ECDH10B_RS13280"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13280"; old_locus_tag "ECDH10B_2613"; -NC_010473.1 Protein Homology CDS 2653379 2653753 . + 0 gene_id "ECDH10B_RS13280"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416943.2"; locus_tag "ECDH10B_RS13280"; product "hypothetical protein"; protein_id "WP_000770705.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2653379 2653381 . + 0 gene_id "ECDH10B_RS13280"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416943.2"; locus_tag "ECDH10B_RS13280"; product "hypothetical protein"; protein_id "WP_000770705.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2653754 2653756 . + 0 gene_id "ECDH10B_RS13280"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416943.2"; locus_tag "ECDH10B_RS13280"; product "hypothetical protein"; protein_id "WP_000770705.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2653767 2654159 . + . gene_id "ECDH10B_RS13285"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13285"; old_locus_tag "ECDH10B_2614"; -NC_010473.1 Protein Homology CDS 2653767 2654156 . + 0 gene_id "ECDH10B_RS13285"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416944.1"; locus_tag "ECDH10B_RS13285"; product "hypothetical protein"; protein_id "WP_000865921.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2653767 2653769 . + 0 gene_id "ECDH10B_RS13285"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416944.1"; locus_tag "ECDH10B_RS13285"; product "hypothetical protein"; protein_id "WP_000865921.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2654157 2654159 . + 0 gene_id "ECDH10B_RS13285"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416944.1"; locus_tag "ECDH10B_RS13285"; product "hypothetical protein"; protein_id "WP_000865921.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2654310 2655119 . + . gene_id "ECDH10B_RS13290"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13290"; old_locus_tag "ECDH10B_2615"; -NC_010473.1 Protein Homology CDS 2654310 2655116 . + 0 gene_id "ECDH10B_RS13290"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416945.2"; locus_tag "ECDH10B_RS13290"; product "hypothetical protein"; protein_id "WP_010723125.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2654310 2654312 . + 0 gene_id "ECDH10B_RS13290"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416945.2"; locus_tag "ECDH10B_RS13290"; product "hypothetical protein"; protein_id "WP_010723125.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2655117 2655119 . + 0 gene_id "ECDH10B_RS13290"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416945.2"; locus_tag "ECDH10B_RS13290"; product "hypothetical protein"; protein_id "WP_010723125.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2655268 2656671 . - . gene_id "ECDH10B_RS13295"; transcript_id ""; gbkey "Gene"; gene "eutA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13295"; old_locus_tag "ECDH10B_2616"; -NC_010473.1 Protein Homology CDS 2655271 2656671 . - 0 gene_id "ECDH10B_RS13295"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "eutA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416946.1"; locus_tag "ECDH10B_RS13295"; product "ethanolamine ammonia-lyase reactivating factor EutA"; protein_id "WP_001097542.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2656669 2656671 . - 0 gene_id "ECDH10B_RS13295"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "eutA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416946.1"; locus_tag "ECDH10B_RS13295"; product "ethanolamine ammonia-lyase reactivating factor EutA"; protein_id "WP_001097542.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2655268 2655270 . - 0 gene_id "ECDH10B_RS13295"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "eutA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416946.1"; locus_tag "ECDH10B_RS13295"; product "ethanolamine ammonia-lyase reactivating factor EutA"; protein_id "WP_001097542.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2656668 2657894 . - . gene_id "ECDH10B_RS13300"; transcript_id ""; gbkey "Gene"; gene "eutH"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13300"; old_locus_tag "ECDH10B_2617"; -NC_010473.1 Protein Homology CDS 2656671 2657894 . - 0 gene_id "ECDH10B_RS13300"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "eutH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416947.1"; locus_tag "ECDH10B_RS13300"; product "ethanolamine utilization protein EutH"; protein_id "WP_000512372.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2657892 2657894 . - 0 gene_id "ECDH10B_RS13300"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "eutH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416947.1"; locus_tag "ECDH10B_RS13300"; product "ethanolamine utilization protein EutH"; protein_id "WP_000512372.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2656668 2656670 . - 0 gene_id "ECDH10B_RS13300"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "eutH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416947.1"; locus_tag "ECDH10B_RS13300"; product "ethanolamine utilization protein EutH"; protein_id "WP_000512372.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2658111 2659298 . - . gene_id "ECDH10B_RS13305"; transcript_id ""; gbkey "Gene"; gene "eutG"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13305"; old_locus_tag "ECDH10B_2618"; -NC_010473.1 Protein Homology CDS 2658114 2659298 . - 0 gene_id "ECDH10B_RS13305"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "eutG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416948.4"; locus_tag "ECDH10B_RS13305"; product "ethanolamine utilization ethanol dehydrogenase EutG"; protein_id "WP_001326575.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2659296 2659298 . - 0 gene_id "ECDH10B_RS13305"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "eutG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416948.4"; locus_tag "ECDH10B_RS13305"; product "ethanolamine utilization ethanol dehydrogenase EutG"; protein_id "WP_001326575.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2658111 2658113 . - 0 gene_id "ECDH10B_RS13305"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "eutG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416948.4"; locus_tag "ECDH10B_RS13305"; product "ethanolamine utilization ethanol dehydrogenase EutG"; protein_id "WP_001326575.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2659288 2660124 . - . gene_id "ECDH10B_RS13310"; transcript_id ""; gbkey "Gene"; gene "eutJ"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13310"; old_locus_tag "ECDH10B_2619"; -NC_010473.1 Protein Homology CDS 2659291 2660124 . - 0 gene_id "ECDH10B_RS13310"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "eutJ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416949.1"; locus_tag "ECDH10B_RS13310"; product "ethanolamine utilization protein EutJ"; protein_id "WP_000929729.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2660122 2660124 . - 0 gene_id "ECDH10B_RS13310"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "eutJ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416949.1"; locus_tag "ECDH10B_RS13310"; product "ethanolamine utilization protein EutJ"; protein_id "WP_000929729.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2659288 2659290 . - 0 gene_id "ECDH10B_RS13310"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "eutJ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416949.1"; locus_tag "ECDH10B_RS13310"; product "ethanolamine utilization protein EutJ"; protein_id "WP_000929729.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2660135 2661538 . - . gene_id "ECDH10B_RS13315"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13315"; old_locus_tag "ECDH10B_2620"; -NC_010473.1 Protein Homology CDS 2660138 2661538 . - 0 gene_id "ECDH10B_RS13315"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416950.1"; locus_tag "ECDH10B_RS13315"; product "aldehyde dehydrogenase EutE"; protein_id "WP_001075716.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2661536 2661538 . - 0 gene_id "ECDH10B_RS13315"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416950.1"; locus_tag "ECDH10B_RS13315"; product "aldehyde dehydrogenase EutE"; protein_id "WP_001075716.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2660135 2660137 . - 0 gene_id "ECDH10B_RS13315"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416950.1"; locus_tag "ECDH10B_RS13315"; product "aldehyde dehydrogenase EutE"; protein_id "WP_001075716.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2661550 2661837 . - . gene_id "ECDH10B_RS13320"; transcript_id ""; gbkey "Gene"; gene "eutN"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13320"; old_locus_tag "ECDH10B_2621"; -NC_010473.1 Protein Homology CDS 2661553 2661837 . - 0 gene_id "ECDH10B_RS13320"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "eutN"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416951.1"; locus_tag "ECDH10B_RS13320"; product "ethanolamine utilization microcompartment protein EutN"; protein_id "WP_000762196.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2661835 2661837 . - 0 gene_id "ECDH10B_RS13320"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "eutN"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416951.1"; locus_tag "ECDH10B_RS13320"; product "ethanolamine utilization microcompartment protein EutN"; protein_id "WP_000762196.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2661550 2661552 . - 0 gene_id "ECDH10B_RS13320"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "eutN"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416951.1"; locus_tag "ECDH10B_RS13320"; product "ethanolamine utilization microcompartment protein EutN"; protein_id "WP_000762196.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2661944 2662237 . - . gene_id "ECDH10B_RS13325"; transcript_id ""; gbkey "Gene"; gene "eutM"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13325"; old_locus_tag "ECDH10B_2622"; -NC_010473.1 Protein Homology CDS 2661947 2662237 . - 0 gene_id "ECDH10B_RS13325"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "eutM"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416952.2"; locus_tag "ECDH10B_RS13325"; product "ethanolamine utilization microcompartment protein EutM"; protein_id "WP_000387713.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2662235 2662237 . - 0 gene_id "ECDH10B_RS13325"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "eutM"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416952.2"; locus_tag "ECDH10B_RS13325"; product "ethanolamine utilization microcompartment protein EutM"; protein_id "WP_000387713.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2661944 2661946 . - 0 gene_id "ECDH10B_RS13325"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "eutM"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416952.2"; locus_tag "ECDH10B_RS13325"; product "ethanolamine utilization microcompartment protein EutM"; protein_id "WP_000387713.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2662276 2663292 . - . gene_id "ECDH10B_RS13330"; transcript_id ""; gbkey "Gene"; gene "pta"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13330"; old_locus_tag "ECDH10B_2623"; -NC_010473.1 Protein Homology CDS 2662279 2663292 . - 0 gene_id "ECDH10B_RS13330"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pta"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416953.1"; locus_tag "ECDH10B_RS13330"; product "phosphate acetyltransferase"; protein_id "WP_000582977.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2663290 2663292 . - 0 gene_id "ECDH10B_RS13330"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pta"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416953.1"; locus_tag "ECDH10B_RS13330"; product "phosphate acetyltransferase"; protein_id "WP_000582977.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2662276 2662278 . - 0 gene_id "ECDH10B_RS13330"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pta"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416953.1"; locus_tag "ECDH10B_RS13330"; product "phosphate acetyltransferase"; protein_id "WP_000582977.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2663289 2664092 . - . gene_id "ECDH10B_RS13335"; transcript_id ""; gbkey "Gene"; gene "eutT"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13335"; old_locus_tag "ECDH10B_2624"; -NC_010473.1 Protein Homology CDS 2663292 2664092 . - 0 gene_id "ECDH10B_RS13335"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "eutT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416954.1"; locus_tag "ECDH10B_RS13335"; product "ethanolamine utilization cob(I)yrinic acid a,c-diamide adenosyltransferase EutT"; protein_id "WP_000651298.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2664090 2664092 . - 0 gene_id "ECDH10B_RS13335"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "eutT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416954.1"; locus_tag "ECDH10B_RS13335"; product "ethanolamine utilization cob(I)yrinic acid a,c-diamide adenosyltransferase EutT"; protein_id "WP_000651298.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2663289 2663291 . - 0 gene_id "ECDH10B_RS13335"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "eutT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416954.1"; locus_tag "ECDH10B_RS13335"; product "ethanolamine utilization cob(I)yrinic acid a,c-diamide adenosyltransferase EutT"; protein_id "WP_000651298.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2664089 2664790 . - . gene_id "ECDH10B_RS13340"; transcript_id ""; gbkey "Gene"; gene "eutQ"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13340"; old_locus_tag "ECDH10B_2625"; -NC_010473.1 Protein Homology CDS 2664092 2664790 . - 0 gene_id "ECDH10B_RS13340"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "eutQ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416955.1"; locus_tag "ECDH10B_RS13340"; product "ethanolamine utilization acetate kinase EutQ"; protein_id "WP_000733906.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2664788 2664790 . - 0 gene_id "ECDH10B_RS13340"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "eutQ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416955.1"; locus_tag "ECDH10B_RS13340"; product "ethanolamine utilization acetate kinase EutQ"; protein_id "WP_000733906.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2664089 2664091 . - 0 gene_id "ECDH10B_RS13340"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "eutQ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416955.1"; locus_tag "ECDH10B_RS13340"; product "ethanolamine utilization acetate kinase EutQ"; protein_id "WP_000733906.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2664765 2665244 . - . gene_id "ECDH10B_RS13345"; transcript_id ""; gbkey "Gene"; gene "eutP"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13345"; old_locus_tag "ECDH10B_2626"; -NC_010473.1 Protein Homology CDS 2664768 2665244 . - 0 gene_id "ECDH10B_RS13345"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "eutP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416956.1"; locus_tag "ECDH10B_RS13345"; product "ethanolamine utilization acetate kinase EutP"; protein_id "WP_000820763.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2665242 2665244 . - 0 gene_id "ECDH10B_RS13345"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "eutP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416956.1"; locus_tag "ECDH10B_RS13345"; product "ethanolamine utilization acetate kinase EutP"; protein_id "WP_000820763.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2664765 2664767 . - 0 gene_id "ECDH10B_RS13345"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "eutP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416956.1"; locus_tag "ECDH10B_RS13345"; product "ethanolamine utilization acetate kinase EutP"; protein_id "WP_000820763.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2665257 2665592 . - . gene_id "ECDH10B_RS13350"; transcript_id ""; gbkey "Gene"; gene "eutS"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13350"; old_locus_tag "ECDH10B_2627"; -NC_010473.1 Protein Homology CDS 2665260 2665592 . - 0 gene_id "ECDH10B_RS13350"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "eutS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311351.2"; locus_tag "ECDH10B_RS13350"; product "ethanolamine utilization microcompartment protein EutS"; protein_id "WP_000356956.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2665590 2665592 . - 0 gene_id "ECDH10B_RS13350"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "eutS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311351.2"; locus_tag "ECDH10B_RS13350"; product "ethanolamine utilization microcompartment protein EutS"; protein_id "WP_000356956.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2665257 2665259 . - 0 gene_id "ECDH10B_RS13350"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "eutS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311351.2"; locus_tag "ECDH10B_RS13350"; product "ethanolamine utilization microcompartment protein EutS"; protein_id "WP_000356956.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2665885 2668164 . - . gene_id "ECDH10B_RS13355"; transcript_id ""; gbkey "Gene"; gene "maeB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13355"; old_locus_tag "ECDH10B_2628"; -NC_010473.1 Protein Homology CDS 2665888 2668164 . - 0 gene_id "ECDH10B_RS13355"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "maeB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416958.1"; locus_tag "ECDH10B_RS13355"; product "NADP-dependent oxaloacetate-decarboxylating malate dehydrogenase"; protein_id "WP_000342644.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2668162 2668164 . - 0 gene_id "ECDH10B_RS13355"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "maeB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416958.1"; locus_tag "ECDH10B_RS13355"; product "NADP-dependent oxaloacetate-decarboxylating malate dehydrogenase"; protein_id "WP_000342644.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2665885 2665887 . - 0 gene_id "ECDH10B_RS13355"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "maeB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416958.1"; locus_tag "ECDH10B_RS13355"; product "NADP-dependent oxaloacetate-decarboxylating malate dehydrogenase"; protein_id "WP_000342644.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2668453 2669403 . + . gene_id "ECDH10B_RS13360"; transcript_id ""; gbkey "Gene"; gene "tal"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13360"; old_locus_tag "ECDH10B_2629"; -NC_010473.1 Protein Homology CDS 2668453 2669400 . + 0 gene_id "ECDH10B_RS13360"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tal"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311353.1"; locus_tag "ECDH10B_RS13360"; product "transaldolase"; protein_id "WP_001003709.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2668453 2668455 . + 0 gene_id "ECDH10B_RS13360"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tal"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311353.1"; locus_tag "ECDH10B_RS13360"; product "transaldolase"; protein_id "WP_001003709.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2669401 2669403 . + 0 gene_id "ECDH10B_RS13360"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tal"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311353.1"; locus_tag "ECDH10B_RS13360"; product "transaldolase"; protein_id "WP_001003709.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2669423 2671426 . + . gene_id "ECDH10B_RS13365"; transcript_id ""; gbkey "Gene"; gene "tkt"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13365"; old_locus_tag "ECDH10B_2630"; -NC_010473.1 Protein Homology CDS 2669423 2671423 . + 0 gene_id "ECDH10B_RS13365"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tkt"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416960.1"; locus_tag "ECDH10B_RS13365"; product "transketolase"; protein_id "WP_000087280.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2669423 2669425 . + 0 gene_id "ECDH10B_RS13365"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tkt"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416960.1"; locus_tag "ECDH10B_RS13365"; product "transketolase"; protein_id "WP_000087280.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2671424 2671426 . + 0 gene_id "ECDH10B_RS13365"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tkt"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416960.1"; locus_tag "ECDH10B_RS13365"; product "transketolase"; protein_id "WP_000087280.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2671521 2672564 . - . gene_id "ECDH10B_RS13370"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13370"; old_locus_tag "ECDH10B_2631"; -NC_010473.1 Protein Homology CDS 2671524 2672564 . - 0 gene_id "ECDH10B_RS13370"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416961.1"; locus_tag "ECDH10B_RS13370"; product "DUF1176 domain-containing protein"; protein_id "WP_001270542.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2672562 2672564 . - 0 gene_id "ECDH10B_RS13370"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416961.1"; locus_tag "ECDH10B_RS13370"; product "DUF1176 domain-containing protein"; protein_id "WP_001270542.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2671521 2671523 . - 0 gene_id "ECDH10B_RS13370"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416961.1"; locus_tag "ECDH10B_RS13370"; product "DUF1176 domain-containing protein"; protein_id "WP_001270542.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2672690 2673265 . - . gene_id "ECDH10B_RS13375"; transcript_id ""; gbkey "Gene"; gene "nudK"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13375"; old_locus_tag "ECDH10B_2632"; -NC_010473.1 Protein Homology CDS 2672693 2673265 . - 0 gene_id "ECDH10B_RS13375"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nudK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416962.1"; locus_tag "ECDH10B_RS13375"; product "GDP-mannose pyrophosphatase NudK"; protein_id "WP_001300814.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2673263 2673265 . - 0 gene_id "ECDH10B_RS13375"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nudK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416962.1"; locus_tag "ECDH10B_RS13375"; product "GDP-mannose pyrophosphatase NudK"; protein_id "WP_001300814.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2672690 2672692 . - 0 gene_id "ECDH10B_RS13375"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nudK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416962.1"; locus_tag "ECDH10B_RS13375"; product "GDP-mannose pyrophosphatase NudK"; protein_id "WP_001300814.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2673333 2675312 . - . gene_id "ECDH10B_RS13380"; transcript_id ""; gbkey "Gene"; gene "aegA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13380"; old_locus_tag "ECDH10B_2633"; -NC_010473.1 Protein Homology CDS 2673336 2675312 . - 0 gene_id "ECDH10B_RS13380"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "aegA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416963.1"; locus_tag "ECDH10B_RS13380"; product "formate-dependent uric acid utilization protein AegA"; protein_id "WP_001078880.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2675310 2675312 . - 0 gene_id "ECDH10B_RS13380"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "aegA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416963.1"; locus_tag "ECDH10B_RS13380"; product "formate-dependent uric acid utilization protein AegA"; protein_id "WP_001078880.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2673333 2673335 . - 0 gene_id "ECDH10B_RS13380"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "aegA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416963.1"; locus_tag "ECDH10B_RS13380"; product "formate-dependent uric acid utilization protein AegA"; protein_id "WP_001078880.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2675518 2677218 . + . gene_id "ECDH10B_RS13385"; transcript_id ""; gbkey "Gene"; gene "narQ"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13385"; old_locus_tag "ECDH10B_2634"; -NC_010473.1 Protein Homology CDS 2675518 2677215 . + 0 gene_id "ECDH10B_RS13385"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "narQ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416964.1"; locus_tag "ECDH10B_RS13385"; product "nitrate/nitrite two-component system sensor histidine kinase NarQ"; protein_id "WP_001300881.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2675518 2675520 . + 0 gene_id "ECDH10B_RS13385"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "narQ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416964.1"; locus_tag "ECDH10B_RS13385"; product "nitrate/nitrite two-component system sensor histidine kinase NarQ"; protein_id "WP_001300881.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2677216 2677218 . + 0 gene_id "ECDH10B_RS13385"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "narQ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416964.1"; locus_tag "ECDH10B_RS13385"; product "nitrate/nitrite two-component system sensor histidine kinase NarQ"; protein_id "WP_001300881.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2677382 2680495 . + . gene_id "ECDH10B_RS13390"; transcript_id ""; gbkey "Gene"; gene "acrD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13390"; old_locus_tag "ECDH10B_2635"; -NC_010473.1 Protein Homology CDS 2677382 2680492 . + 0 gene_id "ECDH10B_RS13390"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "acrD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416965.1"; locus_tag "ECDH10B_RS13390"; product "multidrug efflux RND transporter permease AcrD"; protein_id "WP_001273151.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2677382 2677384 . + 0 gene_id "ECDH10B_RS13390"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "acrD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416965.1"; locus_tag "ECDH10B_RS13390"; product "multidrug efflux RND transporter permease AcrD"; protein_id "WP_001273151.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2680493 2680495 . + 0 gene_id "ECDH10B_RS13390"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "acrD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416965.1"; locus_tag "ECDH10B_RS13390"; product "multidrug efflux RND transporter permease AcrD"; protein_id "WP_001273151.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2680594 2680653 . - . gene_id "ECDH10B_RS25640"; transcript_id ""; gbkey "Gene"; gene "ypfM"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS25640"; -NC_010473.1 Protein Homology CDS 2680597 2680653 . - 0 gene_id "ECDH10B_RS25640"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ypfM"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_001165325.1"; locus_tag "ECDH10B_RS25640"; product "protein YpfM"; protein_id "WP_001386977.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2680651 2680653 . - 0 gene_id "ECDH10B_RS25640"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ypfM"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_001165325.1"; locus_tag "ECDH10B_RS25640"; product "protein YpfM"; protein_id "WP_001386977.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2680594 2680596 . - 0 gene_id "ECDH10B_RS25640"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ypfM"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_001165325.1"; locus_tag "ECDH10B_RS25640"; product "protein YpfM"; protein_id "WP_001386977.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2681034 2681390 . + . gene_id "ECDH10B_RS13400"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13400"; old_locus_tag "ECDH10B_2636"; -NC_010473.1 Protein Homology CDS 2681034 2681387 . + 0 gene_id "ECDH10B_RS13400"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416966.1"; locus_tag "ECDH10B_RS13400"; product "ArsC family reductase"; protein_id "WP_000258236.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2681034 2681036 . + 0 gene_id "ECDH10B_RS13400"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416966.1"; locus_tag "ECDH10B_RS13400"; product "ArsC family reductase"; protein_id "WP_000258236.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2681388 2681390 . + 0 gene_id "ECDH10B_RS13400"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416966.1"; locus_tag "ECDH10B_RS13400"; product "ArsC family reductase"; protein_id "WP_000258236.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2681394 2682521 . + . gene_id "ECDH10B_RS13405"; transcript_id ""; gbkey "Gene"; gene "dapE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13405"; old_locus_tag "ECDH10B_2637"; -NC_010473.1 Protein Homology CDS 2681394 2682518 . + 0 gene_id "ECDH10B_RS13405"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dapE"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_020078199.1"; locus_tag "ECDH10B_RS13405"; product "succinyl-diaminopimelate desuccinylase"; protein_id "WP_001277801.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2681394 2681396 . + 0 gene_id "ECDH10B_RS13405"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dapE"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_020078199.1"; locus_tag "ECDH10B_RS13405"; product "succinyl-diaminopimelate desuccinylase"; protein_id "WP_001277801.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2682519 2682521 . + 0 gene_id "ECDH10B_RS13405"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dapE"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_020078199.1"; locus_tag "ECDH10B_RS13405"; product "succinyl-diaminopimelate desuccinylase"; protein_id "WP_001277801.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2682549 2682749 . + . gene_id "ECDH10B_RS13410"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13410"; old_locus_tag "ECDH10B_2638"; -NC_010473.1 Protein Homology CDS 2682549 2682746 . + 0 gene_id "ECDH10B_RS13410"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_588465.1"; locus_tag "ECDH10B_RS13410"; product "YpfN family protein"; protein_id "WP_000383836.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2682549 2682551 . + 0 gene_id "ECDH10B_RS13410"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_588465.1"; locus_tag "ECDH10B_RS13410"; product "YpfN family protein"; protein_id "WP_000383836.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2682747 2682749 . + 0 gene_id "ECDH10B_RS13410"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_588465.1"; locus_tag "ECDH10B_RS13410"; product "YpfN family protein"; protein_id "WP_000383836.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2682859 2683557 . - . gene_id "ECDH10B_RS13415"; transcript_id ""; gbkey "Gene"; gene "ypfH"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13415"; old_locus_tag "ECDH10B_2639"; -NC_010473.1 Protein Homology CDS 2682862 2683557 . - 0 gene_id "ECDH10B_RS13415"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ypfH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416968.2"; locus_tag "ECDH10B_RS13415"; product "esterase"; protein_id "WP_000679799.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2683555 2683557 . - 0 gene_id "ECDH10B_RS13415"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ypfH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416968.2"; locus_tag "ECDH10B_RS13415"; product "esterase"; protein_id "WP_000679799.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2682859 2682861 . - 0 gene_id "ECDH10B_RS13415"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ypfH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416968.2"; locus_tag "ECDH10B_RS13415"; product "esterase"; protein_id "WP_000679799.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2683631 2685646 . - . gene_id "ECDH10B_RS13420"; transcript_id ""; gbkey "Gene"; gene "tmcA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13420"; old_locus_tag "ECDH10B_2640"; -NC_010473.1 Protein Homology CDS 2683634 2685646 . - 0 gene_id "ECDH10B_RS13420"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tmcA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416969.1"; locus_tag "ECDH10B_RS13420"; product "tRNA cytosine(34) acetyltransferase TmcA"; protein_id "WP_000829360.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2685644 2685646 . - 0 gene_id "ECDH10B_RS13420"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tmcA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416969.1"; locus_tag "ECDH10B_RS13420"; product "tRNA cytosine(34) acetyltransferase TmcA"; protein_id "WP_000829360.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2683631 2683633 . - 0 gene_id "ECDH10B_RS13420"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tmcA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416969.1"; locus_tag "ECDH10B_RS13420"; product "tRNA cytosine(34) acetyltransferase TmcA"; protein_id "WP_000829360.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2685661 2686524 . - . gene_id "ECDH10B_RS13425"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13425"; old_locus_tag "ECDH10B_2641"; -NC_010473.1 Protein Homology CDS 2685664 2686524 . - 0 gene_id "ECDH10B_RS13425"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311364.1"; locus_tag "ECDH10B_RS13425"; product "neutral zinc metallopeptidase"; protein_id "WP_001267498.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2686522 2686524 . - 0 gene_id "ECDH10B_RS13425"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311364.1"; locus_tag "ECDH10B_RS13425"; product "neutral zinc metallopeptidase"; protein_id "WP_001267498.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2685661 2685663 . - 0 gene_id "ECDH10B_RS13425"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311364.1"; locus_tag "ECDH10B_RS13425"; product "neutral zinc metallopeptidase"; protein_id "WP_001267498.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2686692 2687405 . - . gene_id "ECDH10B_RS13430"; transcript_id ""; gbkey "Gene"; gene "purC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13430"; old_locus_tag "ECDH10B_2642"; -NC_010473.1 Protein Homology CDS 2686695 2687405 . - 0 gene_id "ECDH10B_RS13430"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "purC"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_017458944.1"; locus_tag "ECDH10B_RS13430"; product "phosphoribosylaminoimidazolesuccinocarboxamide synthase"; protein_id "WP_001295467.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2687403 2687405 . - 0 gene_id "ECDH10B_RS13430"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "purC"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_017458944.1"; locus_tag "ECDH10B_RS13430"; product "phosphoribosylaminoimidazolesuccinocarboxamide synthase"; protein_id "WP_001295467.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2686692 2686694 . - 0 gene_id "ECDH10B_RS13430"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "purC"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_017458944.1"; locus_tag "ECDH10B_RS13430"; product "phosphoribosylaminoimidazolesuccinocarboxamide synthase"; protein_id "WP_001295467.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2687618 2688652 . - . gene_id "ECDH10B_RS13440"; transcript_id ""; gbkey "Gene"; gene "bamC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13440"; old_locus_tag "ECDH10B_2643"; -NC_010473.1 Protein Homology CDS 2687621 2688652 . - 0 gene_id "ECDH10B_RS13440"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "bamC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_708316.2"; locus_tag "ECDH10B_RS13440"; product "outer membrane protein assembly factor BamC"; protein_id "WP_001297320.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2688650 2688652 . - 0 gene_id "ECDH10B_RS13440"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "bamC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_708316.2"; locus_tag "ECDH10B_RS13440"; product "outer membrane protein assembly factor BamC"; protein_id "WP_001297320.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2687618 2687620 . - 0 gene_id "ECDH10B_RS13440"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "bamC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_708316.2"; locus_tag "ECDH10B_RS13440"; product "outer membrane protein assembly factor BamC"; protein_id "WP_001297320.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2688669 2689547 . - . gene_id "ECDH10B_RS13445"; transcript_id ""; gbkey "Gene"; gene "dapA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13445"; old_locus_tag "ECDH10B_2644"; -NC_010473.1 Protein Homology CDS 2688672 2689547 . - 0 gene_id "ECDH10B_RS13445"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dapA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001311023.1"; locus_tag "ECDH10B_RS13445"; product "4-hydroxy-tetrahydrodipicolinate synthase"; protein_id "WP_001311023.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2689545 2689547 . - 0 gene_id "ECDH10B_RS13445"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dapA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001311023.1"; locus_tag "ECDH10B_RS13445"; product "4-hydroxy-tetrahydrodipicolinate synthase"; protein_id "WP_001311023.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2688669 2688671 . - 0 gene_id "ECDH10B_RS13445"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dapA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001311023.1"; locus_tag "ECDH10B_RS13445"; product "4-hydroxy-tetrahydrodipicolinate synthase"; protein_id "WP_001311023.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2689693 2690265 . + . gene_id "ECDH10B_RS13450"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13450"; old_locus_tag "ECDH10B_2645"; -NC_010473.1 Protein Homology CDS 2689693 2690262 . + 0 gene_id "ECDH10B_RS13450"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_708318.1"; locus_tag "ECDH10B_RS13450"; product "glycine cleavage system transcriptional repressor"; protein_id "WP_000176187.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2689693 2689695 . + 0 gene_id "ECDH10B_RS13450"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_708318.1"; locus_tag "ECDH10B_RS13450"; product "glycine cleavage system transcriptional repressor"; protein_id "WP_000176187.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2690263 2690265 . + 0 gene_id "ECDH10B_RS13450"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_708318.1"; locus_tag "ECDH10B_RS13450"; product "glycine cleavage system transcriptional repressor"; protein_id "WP_000176187.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2690265 2690735 . + . gene_id "ECDH10B_RS13455"; transcript_id ""; gbkey "Gene"; gene "bcp"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13455"; old_locus_tag "ECDH10B_2646"; -NC_010473.1 Protein Homology CDS 2690265 2690732 . + 0 gene_id "ECDH10B_RS13455"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "bcp"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311369.1"; locus_tag "ECDH10B_RS13455"; product "thioredoxin-dependent thiol peroxidase"; protein_id "WP_001068682.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2690265 2690267 . + 0 gene_id "ECDH10B_RS13455"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "bcp"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311369.1"; locus_tag "ECDH10B_RS13455"; product "thioredoxin-dependent thiol peroxidase"; protein_id "WP_001068682.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2690733 2690735 . + 0 gene_id "ECDH10B_RS13455"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "bcp"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311369.1"; locus_tag "ECDH10B_RS13455"; product "thioredoxin-dependent thiol peroxidase"; protein_id "WP_001068682.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2690988 2691605 . + . gene_id "ECDH10B_RS13460"; transcript_id ""; gbkey "Gene"; gene "hyfA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13460"; old_locus_tag "ECDH10B_2647"; -NC_010473.1 Protein Homology CDS 2690988 2691602 . + 0 gene_id "ECDH10B_RS13460"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hyfA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416976.4"; locus_tag "ECDH10B_RS13460"; product "hydrogenase 4 subunit HyfA"; protein_id "WP_001336048.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2690988 2690990 . + 0 gene_id "ECDH10B_RS13460"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hyfA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416976.4"; locus_tag "ECDH10B_RS13460"; product "hydrogenase 4 subunit HyfA"; protein_id "WP_001336048.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2691603 2691605 . + 0 gene_id "ECDH10B_RS13460"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hyfA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416976.4"; locus_tag "ECDH10B_RS13460"; product "hydrogenase 4 subunit HyfA"; protein_id "WP_001336048.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2691605 2693623 . + . gene_id "ECDH10B_RS13465"; transcript_id ""; gbkey "Gene"; gene "hyfB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13465"; old_locus_tag "ECDH10B_2648"; -NC_010473.1 Protein Homology CDS 2691605 2693620 . + 0 gene_id "ECDH10B_RS13465"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hyfB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416977.1"; locus_tag "ECDH10B_RS13465"; product "hydrogenase 4 subunit B"; protein_id "WP_000339455.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2691605 2691607 . + 0 gene_id "ECDH10B_RS13465"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hyfB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416977.1"; locus_tag "ECDH10B_RS13465"; product "hydrogenase 4 subunit B"; protein_id "WP_000339455.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2693621 2693623 . + 0 gene_id "ECDH10B_RS13465"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hyfB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416977.1"; locus_tag "ECDH10B_RS13465"; product "hydrogenase 4 subunit B"; protein_id "WP_000339455.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2693634 2694581 . + . gene_id "ECDH10B_RS13470"; transcript_id ""; gbkey "Gene"; gene "hyfC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13470"; old_locus_tag "ECDH10B_2649"; -NC_010473.1 Protein Homology CDS 2693634 2694578 . + 0 gene_id "ECDH10B_RS13470"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hyfC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416978.4"; locus_tag "ECDH10B_RS13470"; product "hydrogenase 4 subunit HyfC"; protein_id "WP_001311024.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2693634 2693636 . + 0 gene_id "ECDH10B_RS13470"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hyfC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416978.4"; locus_tag "ECDH10B_RS13470"; product "hydrogenase 4 subunit HyfC"; protein_id "WP_001311024.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2694579 2694581 . + 0 gene_id "ECDH10B_RS13470"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hyfC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416978.4"; locus_tag "ECDH10B_RS13470"; product "hydrogenase 4 subunit HyfC"; protein_id "WP_001311024.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2694598 2696037 . + . gene_id "ECDH10B_RS13475"; transcript_id ""; gbkey "Gene"; gene "hyfD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13475"; old_locus_tag "ECDH10B_2650"; -NC_010473.1 Protein Homology CDS 2694598 2696034 . + 0 gene_id "ECDH10B_RS13475"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hyfD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416979.1"; locus_tag "ECDH10B_RS13475"; product "hydrogenase 4 subunit HyfD"; protein_id "WP_000429104.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2694598 2694600 . + 0 gene_id "ECDH10B_RS13475"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hyfD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416979.1"; locus_tag "ECDH10B_RS13475"; product "hydrogenase 4 subunit HyfD"; protein_id "WP_000429104.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2696035 2696037 . + 0 gene_id "ECDH10B_RS13475"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hyfD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416979.1"; locus_tag "ECDH10B_RS13475"; product "hydrogenase 4 subunit HyfD"; protein_id "WP_000429104.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2696049 2696699 . + . gene_id "ECDH10B_RS13480"; transcript_id ""; gbkey "Gene"; gene "hyfE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13480"; old_locus_tag "ECDH10B_2651"; -NC_010473.1 Protein Homology CDS 2696049 2696696 . + 0 gene_id "ECDH10B_RS13480"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hyfE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311374.1"; locus_tag "ECDH10B_RS13480"; product "hydrogenase 4 membrane subunit"; protein_id "WP_000147987.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2696049 2696051 . + 0 gene_id "ECDH10B_RS13480"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hyfE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311374.1"; locus_tag "ECDH10B_RS13480"; product "hydrogenase 4 membrane subunit"; protein_id "WP_000147987.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2696697 2696699 . + 0 gene_id "ECDH10B_RS13480"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hyfE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311374.1"; locus_tag "ECDH10B_RS13480"; product "hydrogenase 4 membrane subunit"; protein_id "WP_000147987.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2696704 2698284 . + . gene_id "ECDH10B_RS13485"; transcript_id ""; gbkey "Gene"; gene "hyfF"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13485"; old_locus_tag "ECDH10B_2652"; -NC_010473.1 Protein Homology CDS 2696704 2698281 . + 0 gene_id "ECDH10B_RS13485"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hyfF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416981.1"; locus_tag "ECDH10B_RS13485"; product "hydrogenase 4 subunit F"; protein_id "WP_000122577.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2696704 2696706 . + 0 gene_id "ECDH10B_RS13485"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hyfF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416981.1"; locus_tag "ECDH10B_RS13485"; product "hydrogenase 4 subunit F"; protein_id "WP_000122577.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2698282 2698284 . + 0 gene_id "ECDH10B_RS13485"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hyfF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416981.1"; locus_tag "ECDH10B_RS13485"; product "hydrogenase 4 subunit F"; protein_id "WP_000122577.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2698274 2699941 . + . gene_id "ECDH10B_RS13490"; transcript_id ""; gbkey "Gene"; gene "hyfG"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13490"; old_locus_tag "ECDH10B_2653"; -NC_010473.1 Protein Homology CDS 2698274 2699938 . + 0 gene_id "ECDH10B_RS13490"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hyfG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416982.1"; locus_tag "ECDH10B_RS13490"; product "hydrogenase 4 catalytic subunit HyfG"; protein_id "WP_001102321.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2698274 2698276 . + 0 gene_id "ECDH10B_RS13490"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hyfG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416982.1"; locus_tag "ECDH10B_RS13490"; product "hydrogenase 4 catalytic subunit HyfG"; protein_id "WP_001102321.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2699939 2699941 . + 0 gene_id "ECDH10B_RS13490"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hyfG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416982.1"; locus_tag "ECDH10B_RS13490"; product "hydrogenase 4 catalytic subunit HyfG"; protein_id "WP_001102321.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2699951 2700496 . + . gene_id "ECDH10B_RS13495"; transcript_id ""; gbkey "Gene"; gene "hyfH"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13495"; old_locus_tag "ECDH10B_2654"; -NC_010473.1 Protein Homology CDS 2699951 2700493 . + 0 gene_id "ECDH10B_RS13495"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hyfH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416983.1"; locus_tag "ECDH10B_RS13495"; product "hydrogenase 4 subunit H"; protein_id "WP_000916055.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2699951 2699953 . + 0 gene_id "ECDH10B_RS13495"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hyfH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416983.1"; locus_tag "ECDH10B_RS13495"; product "hydrogenase 4 subunit H"; protein_id "WP_000916055.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2700494 2700496 . + 0 gene_id "ECDH10B_RS13495"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hyfH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416983.1"; locus_tag "ECDH10B_RS13495"; product "hydrogenase 4 subunit H"; protein_id "WP_000916055.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2700493 2701251 . + . gene_id "ECDH10B_RS13500"; transcript_id ""; gbkey "Gene"; gene "hyfI"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13500"; old_locus_tag "ECDH10B_2655"; -NC_010473.1 Protein Homology CDS 2700493 2701248 . + 0 gene_id "ECDH10B_RS13500"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hyfI"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416984.1"; locus_tag "ECDH10B_RS13500"; product "hydrogenase 4 catalytic subunit HyfI"; protein_id "WP_000075558.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2700493 2700495 . + 0 gene_id "ECDH10B_RS13500"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hyfI"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416984.1"; locus_tag "ECDH10B_RS13500"; product "hydrogenase 4 catalytic subunit HyfI"; protein_id "WP_000075558.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2701249 2701251 . + 0 gene_id "ECDH10B_RS13500"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hyfI"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416984.1"; locus_tag "ECDH10B_RS13500"; product "hydrogenase 4 catalytic subunit HyfI"; protein_id "WP_000075558.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2701244 2701657 . + . gene_id "ECDH10B_RS13505"; transcript_id ""; gbkey "Gene"; gene "hyfJ"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13505"; old_locus_tag "ECDH10B_2656"; -NC_010473.1 Protein Homology CDS 2701244 2701654 . + 0 gene_id "ECDH10B_RS13505"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hyfJ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416985.4"; locus_tag "ECDH10B_RS13505"; product "hydrogenase 4 assembly chaperone HyfJ"; protein_id "WP_001326580.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2701244 2701246 . + 0 gene_id "ECDH10B_RS13505"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hyfJ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416985.4"; locus_tag "ECDH10B_RS13505"; product "hydrogenase 4 assembly chaperone HyfJ"; protein_id "WP_001326580.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2701655 2701657 . + 0 gene_id "ECDH10B_RS13505"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hyfJ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416985.4"; locus_tag "ECDH10B_RS13505"; product "hydrogenase 4 assembly chaperone HyfJ"; protein_id "WP_001326580.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2701687 2703699 . + . gene_id "ECDH10B_RS13510"; transcript_id ""; gbkey "Gene"; gene "hyfR"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13510"; old_locus_tag "ECDH10B_2657"; -NC_010473.1 Protein Homology CDS 2701687 2703696 . + 0 gene_id "ECDH10B_RS13510"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hyfR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416986.4"; locus_tag "ECDH10B_RS13510"; product "DNA-binding transcriptional regulator HyfR"; protein_id "WP_001251544.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2701687 2701689 . + 0 gene_id "ECDH10B_RS13510"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hyfR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416986.4"; locus_tag "ECDH10B_RS13510"; product "DNA-binding transcriptional regulator HyfR"; protein_id "WP_001251544.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2703697 2703699 . + 0 gene_id "ECDH10B_RS13510"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hyfR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416986.4"; locus_tag "ECDH10B_RS13510"; product "DNA-binding transcriptional regulator HyfR"; protein_id "WP_001251544.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2703721 2704569 . + . gene_id "ECDH10B_RS13515"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13515"; old_locus_tag "ECDH10B_2658"; -NC_010473.1 Protein Homology CDS 2703721 2704566 . + 0 gene_id "ECDH10B_RS13515"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416987.1"; locus_tag "ECDH10B_RS13515"; product "formate transporter"; protein_id "WP_001244734.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2703721 2703723 . + 0 gene_id "ECDH10B_RS13515"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416987.1"; locus_tag "ECDH10B_RS13515"; product "formate transporter"; protein_id "WP_001244734.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2704567 2704569 . + 0 gene_id "ECDH10B_RS13515"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416987.1"; locus_tag "ECDH10B_RS13515"; product "formate transporter"; protein_id "WP_001244734.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2704607 2705668 . - . gene_id "ECDH10B_RS13520"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13520"; old_locus_tag "ECDH10B_2659"; -NC_010473.1 Protein Homology CDS 2704610 2705668 . - 0 gene_id "ECDH10B_RS13520"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311382.1"; locus_tag "ECDH10B_RS13520"; product "AI-2E family transporter"; protein_id "WP_000892044.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2705666 2705668 . - 0 gene_id "ECDH10B_RS13520"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311382.1"; locus_tag "ECDH10B_RS13520"; product "AI-2E family transporter"; protein_id "WP_000892044.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2704607 2704609 . - 0 gene_id "ECDH10B_RS13520"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311382.1"; locus_tag "ECDH10B_RS13520"; product "AI-2E family transporter"; protein_id "WP_000892044.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2705881 2707344 . + . gene_id "ECDH10B_RS13525"; transcript_id ""; gbkey "Gene"; gene "bepA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13525"; old_locus_tag "ECDH10B_2660"; -NC_010473.1 Protein Homology CDS 2705881 2707341 . + 0 gene_id "ECDH10B_RS13525"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "bepA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416989.1"; locus_tag "ECDH10B_RS13525"; product "beta-barrel assembly-enhancing protease"; protein_id "WP_000489667.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2705881 2705883 . + 0 gene_id "ECDH10B_RS13525"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "bepA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416989.1"; locus_tag "ECDH10B_RS13525"; product "beta-barrel assembly-enhancing protease"; protein_id "WP_000489667.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2707342 2707344 . + 0 gene_id "ECDH10B_RS13525"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "bepA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416989.1"; locus_tag "ECDH10B_RS13525"; product "beta-barrel assembly-enhancing protease"; protein_id "WP_000489667.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2707365 2707724 . + . gene_id "ECDH10B_RS13530"; transcript_id ""; gbkey "Gene"; gene "arsC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13530"; old_locus_tag "ECDH10B_2661"; -NC_010473.1 Protein Homology CDS 2707365 2707721 . + 0 gene_id "ECDH10B_RS13530"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "arsC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416990.1"; locus_tag "ECDH10B_RS13530"; note "This arsenate reductase requires both glutathione and glutaredoxin to convert arsenate to arsenite, after which the efflux transporter formed by ArsA and ArsB can extrude the arsenite from the cell, providing resistance."; product "arsenate reductase (glutaredoxin)"; protein_id "WP_000166446.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2707365 2707367 . + 0 gene_id "ECDH10B_RS13530"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "arsC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416990.1"; locus_tag "ECDH10B_RS13530"; note "This arsenate reductase requires both glutathione and glutaredoxin to convert arsenate to arsenite, after which the efflux transporter formed by ArsA and ArsB can extrude the arsenite from the cell, providing resistance."; product "arsenate reductase (glutaredoxin)"; protein_id "WP_000166446.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2707722 2707724 . + 0 gene_id "ECDH10B_RS13530"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "arsC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416990.1"; locus_tag "ECDH10B_RS13530"; note "This arsenate reductase requires both glutathione and glutaredoxin to convert arsenate to arsenite, after which the efflux transporter formed by ArsA and ArsB can extrude the arsenite from the cell, providing resistance."; product "arsenate reductase (glutaredoxin)"; protein_id "WP_000166446.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2707862 2708608 . - . gene_id "ECDH10B_RS13535"; transcript_id ""; gbkey "Gene"; gene "hda"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13535"; old_locus_tag "ECDH10B_2662"; -NC_010473.1 Protein Homology CDS 2707865 2708608 . - 0 gene_id "ECDH10B_RS13535"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hda"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311385.1"; locus_tag "ECDH10B_RS13535"; product "DnaA inactivator Hda"; protein_id "WP_000247065.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2708606 2708608 . - 0 gene_id "ECDH10B_RS13535"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hda"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311385.1"; locus_tag "ECDH10B_RS13535"; product "DnaA inactivator Hda"; protein_id "WP_000247065.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2707862 2707864 . - 0 gene_id "ECDH10B_RS13535"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hda"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311385.1"; locus_tag "ECDH10B_RS13535"; product "DnaA inactivator Hda"; protein_id "WP_000247065.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2708658 2709947 . - . gene_id "ECDH10B_RS13540"; transcript_id ""; gbkey "Gene"; gene "uraA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13540"; old_locus_tag "ECDH10B_2663"; -NC_010473.1 Protein Homology CDS 2708661 2709947 . - 0 gene_id "ECDH10B_RS13540"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "uraA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311386.1"; locus_tag "ECDH10B_RS13540"; product "uracil permease"; protein_id "WP_000198328.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2709945 2709947 . - 0 gene_id "ECDH10B_RS13540"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "uraA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311386.1"; locus_tag "ECDH10B_RS13540"; product "uracil permease"; protein_id "WP_000198328.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2708658 2708660 . - 0 gene_id "ECDH10B_RS13540"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "uraA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311386.1"; locus_tag "ECDH10B_RS13540"; product "uracil permease"; protein_id "WP_000198328.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2710033 2710659 . - . gene_id "ECDH10B_RS13545"; transcript_id ""; gbkey "Gene"; gene "upp"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13545"; old_locus_tag "ECDH10B_2664"; -NC_010473.1 Protein Homology CDS 2710036 2710659 . - 0 gene_id "ECDH10B_RS13545"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "upp"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001295473.1"; locus_tag "ECDH10B_RS13545"; product "uracil phosphoribosyltransferase"; protein_id "WP_001295473.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2710657 2710659 . - 0 gene_id "ECDH10B_RS13545"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "upp"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001295473.1"; locus_tag "ECDH10B_RS13545"; product "uracil phosphoribosyltransferase"; protein_id "WP_001295473.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2710033 2710035 . - 0 gene_id "ECDH10B_RS13545"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "upp"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001295473.1"; locus_tag "ECDH10B_RS13545"; product "uracil phosphoribosyltransferase"; protein_id "WP_001295473.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2710984 2712021 . + . gene_id "ECDH10B_RS13550"; transcript_id ""; gbkey "Gene"; gene "purM"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13550"; old_locus_tag "ECDH10B_2665"; -NC_010473.1 Protein Homology CDS 2710984 2712018 . + 0 gene_id "ECDH10B_RS13550"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "purM"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416994.1"; locus_tag "ECDH10B_RS13550"; product "phosphoribosylformylglycinamidine cyclo-ligase"; protein_id "WP_001336050.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2710984 2710986 . + 0 gene_id "ECDH10B_RS13550"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "purM"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416994.1"; locus_tag "ECDH10B_RS13550"; product "phosphoribosylformylglycinamidine cyclo-ligase"; protein_id "WP_001336050.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2712019 2712021 . + 0 gene_id "ECDH10B_RS13550"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "purM"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416994.1"; locus_tag "ECDH10B_RS13550"; product "phosphoribosylformylglycinamidine cyclo-ligase"; protein_id "WP_001336050.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2712021 2712659 . + . gene_id "ECDH10B_RS13555"; transcript_id ""; gbkey "Gene"; gene "purN"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13555"; old_locus_tag "ECDH10B_2666"; -NC_010473.1 Protein Homology CDS 2712021 2712656 . + 0 gene_id "ECDH10B_RS13555"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "purN"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416995.1"; locus_tag "ECDH10B_RS13555"; product "phosphoribosylglycinamide formyltransferase"; protein_id "WP_001028612.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2712021 2712023 . + 0 gene_id "ECDH10B_RS13555"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "purN"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416995.1"; locus_tag "ECDH10B_RS13555"; product "phosphoribosylglycinamide formyltransferase"; protein_id "WP_001028612.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2712657 2712659 . + 0 gene_id "ECDH10B_RS13555"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "purN"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416995.1"; locus_tag "ECDH10B_RS13555"; product "phosphoribosylglycinamide formyltransferase"; protein_id "WP_001028612.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2712831 2714897 . + . gene_id "ECDH10B_RS13560"; transcript_id ""; gbkey "Gene"; gene "ppk1"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13560"; old_locus_tag "ECDH10B_2667"; -NC_010473.1 Protein Homology CDS 2712831 2714894 . + 0 gene_id "ECDH10B_RS13560"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ppk1"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311390.1"; locus_tag "ECDH10B_RS13560"; product "polyphosphate kinase 1"; protein_id "WP_000529576.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2712831 2712833 . + 0 gene_id "ECDH10B_RS13560"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ppk1"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311390.1"; locus_tag "ECDH10B_RS13560"; product "polyphosphate kinase 1"; protein_id "WP_000529576.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2714895 2714897 . + 0 gene_id "ECDH10B_RS13560"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ppk1"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311390.1"; locus_tag "ECDH10B_RS13560"; product "polyphosphate kinase 1"; protein_id "WP_000529576.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2714902 2716443 . + . gene_id "ECDH10B_RS13565"; transcript_id ""; gbkey "Gene"; gene "ppx"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13565"; old_locus_tag "ECDH10B_2668"; -NC_010473.1 Protein Homology CDS 2714902 2716440 . + 0 gene_id "ECDH10B_RS13565"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ppx"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311391.1"; locus_tag "ECDH10B_RS13565"; product "exopolyphosphatase"; protein_id "WP_001121363.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2714902 2714904 . + 0 gene_id "ECDH10B_RS13565"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ppx"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311391.1"; locus_tag "ECDH10B_RS13565"; product "exopolyphosphatase"; protein_id "WP_001121363.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2716441 2716443 . + 0 gene_id "ECDH10B_RS13565"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ppx"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311391.1"; locus_tag "ECDH10B_RS13565"; product "exopolyphosphatase"; protein_id "WP_001121363.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2716482 2718725 . - . gene_id "ECDH10B_RS13570"; transcript_id ""; gbkey "Gene"; gene "pdeF"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13570"; old_locus_tag "ECDH10B_2669"; -NC_010473.1 Protein Homology CDS 2716485 2718725 . - 0 gene_id "ECDH10B_RS13570"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pdeF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416998.1"; locus_tag "ECDH10B_RS13570"; product "cyclic-guanylate-specific phosphodiesterase PdeF"; protein_id "WP_000772731.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2718723 2718725 . - 0 gene_id "ECDH10B_RS13570"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pdeF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416998.1"; locus_tag "ECDH10B_RS13570"; product "cyclic-guanylate-specific phosphodiesterase PdeF"; protein_id "WP_000772731.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2716482 2716484 . - 0 gene_id "ECDH10B_RS13570"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pdeF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416998.1"; locus_tag "ECDH10B_RS13570"; product "cyclic-guanylate-specific phosphodiesterase PdeF"; protein_id "WP_000772731.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2718907 2719059 . - . gene_id "ECDH10B_RS26220"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS26220"; -NC_010473.1 Protein Homology CDS 2718910 2719059 . - 0 gene_id "ECDH10B_RS26220"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_008439271.1"; locus_tag "ECDH10B_RS26220"; product "hypothetical protein"; protein_id "WP_000017552.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2719057 2719059 . - 0 gene_id "ECDH10B_RS26220"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_008439271.1"; locus_tag "ECDH10B_RS26220"; product "hypothetical protein"; protein_id "WP_000017552.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2718907 2718909 . - 0 gene_id "ECDH10B_RS26220"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_008439271.1"; locus_tag "ECDH10B_RS26220"; product "hypothetical protein"; protein_id "WP_000017552.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2719077 2719268 . + . gene_id "ECDH10B_RS13580"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13580"; old_locus_tag "ECDH10B_2670"; -NC_010473.1 Protein Homology CDS 2719077 2719265 . + 0 gene_id "ECDH10B_RS13580"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416999.1"; locus_tag "ECDH10B_RS13580"; product "DUF2633 family protein"; protein_id "WP_000076001.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2719077 2719079 . + 0 gene_id "ECDH10B_RS13580"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416999.1"; locus_tag "ECDH10B_RS13580"; product "DUF2633 family protein"; protein_id "WP_000076001.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2719266 2719268 . + 0 gene_id "ECDH10B_RS13580"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_416999.1"; locus_tag "ECDH10B_RS13580"; product "DUF2633 family protein"; protein_id "WP_000076001.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2719579 2720097 . + . gene_id "ECDH10B_RS13585"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13585"; old_locus_tag "ECDH10B_2671"; -NC_010473.1 Protein Homology CDS 2719579 2720094 . + 0 gene_id "ECDH10B_RS13585"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417000.1"; locus_tag "ECDH10B_RS13585"; product "glycine zipper 2TM domain-containing protein"; protein_id "WP_001295476.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2719579 2719581 . + 0 gene_id "ECDH10B_RS13585"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417000.1"; locus_tag "ECDH10B_RS13585"; product "glycine zipper 2TM domain-containing protein"; protein_id "WP_001295476.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2720095 2720097 . + 0 gene_id "ECDH10B_RS13585"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417000.1"; locus_tag "ECDH10B_RS13585"; product "glycine zipper 2TM domain-containing protein"; protein_id "WP_001295476.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2720113 2720652 . + . gene_id "ECDH10B_RS13590"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13590"; old_locus_tag "ECDH10B_2672"; -NC_010473.1 Protein Homology CDS 2720113 2720649 . + 0 gene_id "ECDH10B_RS13590"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417001.1"; locus_tag "ECDH10B_RS13590"; product "DUF5384 family protein"; protein_id "WP_000755173.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2720113 2720115 . + 0 gene_id "ECDH10B_RS13590"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417001.1"; locus_tag "ECDH10B_RS13590"; product "DUF5384 family protein"; protein_id "WP_000755173.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2720650 2720652 . + 0 gene_id "ECDH10B_RS13590"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417001.1"; locus_tag "ECDH10B_RS13590"; product "DUF5384 family protein"; protein_id "WP_000755173.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2720745 2722322 . - . gene_id "ECDH10B_RS13595"; transcript_id ""; gbkey "Gene"; gene "guaA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13595"; old_locus_tag "ECDH10B_2673"; -NC_010473.1 Protein Homology CDS 2720748 2722322 . - 0 gene_id "ECDH10B_RS13595"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "guaA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005130181.1"; locus_tag "ECDH10B_RS13595"; product "glutamine-hydrolyzing GMP synthase"; protein_id "WP_000138270.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2722320 2722322 . - 0 gene_id "ECDH10B_RS13595"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "guaA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005130181.1"; locus_tag "ECDH10B_RS13595"; product "glutamine-hydrolyzing GMP synthase"; protein_id "WP_000138270.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2720745 2720747 . - 0 gene_id "ECDH10B_RS13595"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "guaA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005130181.1"; locus_tag "ECDH10B_RS13595"; product "glutamine-hydrolyzing GMP synthase"; protein_id "WP_000138270.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2722391 2723857 . - . gene_id "ECDH10B_RS13600"; transcript_id ""; gbkey "Gene"; gene "guaB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13600"; old_locus_tag "ECDH10B_2674"; -NC_010473.1 Protein Homology CDS 2722394 2723857 . - 0 gene_id "ECDH10B_RS13600"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "guaB"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_004151980.1"; locus_tag "ECDH10B_RS13600"; product "IMP dehydrogenase"; protein_id "WP_001299507.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2723855 2723857 . - 0 gene_id "ECDH10B_RS13600"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "guaB"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_004151980.1"; locus_tag "ECDH10B_RS13600"; product "IMP dehydrogenase"; protein_id "WP_001299507.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2722391 2722393 . - 0 gene_id "ECDH10B_RS13600"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "guaB"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_004151980.1"; locus_tag "ECDH10B_RS13600"; product "IMP dehydrogenase"; protein_id "WP_001299507.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2724019 2725389 . + . gene_id "ECDH10B_RS13605"; transcript_id ""; gbkey "Gene"; gene "xseA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13605"; old_locus_tag "ECDH10B_2675"; -NC_010473.1 Protein Homology CDS 2724019 2725386 . + 0 gene_id "ECDH10B_RS13605"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "xseA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417004.1"; locus_tag "ECDH10B_RS13605"; product "exodeoxyribonuclease VII large subunit"; protein_id "WP_000937912.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2724019 2724021 . + 0 gene_id "ECDH10B_RS13605"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "xseA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417004.1"; locus_tag "ECDH10B_RS13605"; product "exodeoxyribonuclease VII large subunit"; protein_id "WP_000937912.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2725387 2725389 . + 0 gene_id "ECDH10B_RS13605"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "xseA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417004.1"; locus_tag "ECDH10B_RS13605"; product "exodeoxyribonuclease VII large subunit"; protein_id "WP_000937912.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2725386 2725601 . - . gene_id "ECDH10B_RS13610"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13610"; old_locus_tag "ECDH10B_2676"; -NC_010473.1 Protein Homology CDS 2725389 2725601 . - 0 gene_id "ECDH10B_RS13610"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417005.2"; locus_tag "ECDH10B_RS13610"; product "zinc ribbon domain-containing protein"; protein_id "WP_001301158.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2725599 2725601 . - 0 gene_id "ECDH10B_RS13610"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417005.2"; locus_tag "ECDH10B_RS13610"; product "zinc ribbon domain-containing protein"; protein_id "WP_001301158.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2725386 2725388 . - 0 gene_id "ECDH10B_RS13610"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417005.2"; locus_tag "ECDH10B_RS13610"; product "zinc ribbon domain-containing protein"; protein_id "WP_001301158.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2725671 2727143 . - . gene_id "ECDH10B_RS13615"; transcript_id ""; gbkey "Gene"; gene "der"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13615"; old_locus_tag "ECDH10B_2677"; -NC_010473.1 Protein Homology CDS 2725674 2727143 . - 0 gene_id "ECDH10B_RS13615"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "der"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417006.2"; locus_tag "ECDH10B_RS13615"; product "ribosome biogenesis GTPase Der"; protein_id "WP_000249410.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2727141 2727143 . - 0 gene_id "ECDH10B_RS13615"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "der"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417006.2"; locus_tag "ECDH10B_RS13615"; product "ribosome biogenesis GTPase Der"; protein_id "WP_000249410.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2725671 2725673 . - 0 gene_id "ECDH10B_RS13615"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "der"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417006.2"; locus_tag "ECDH10B_RS13615"; product "ribosome biogenesis GTPase Der"; protein_id "WP_000249410.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2727261 2728439 . - . gene_id "ECDH10B_RS13620"; transcript_id ""; gbkey "Gene"; gene "bamB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13620"; old_locus_tag "ECDH10B_2678"; -NC_010473.1 Protein Homology CDS 2727264 2728439 . - 0 gene_id "ECDH10B_RS13620"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "bamB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417007.1"; locus_tag "ECDH10B_RS13620"; product "outer membrane protein assembly factor BamB"; protein_id "WP_001177052.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2728437 2728439 . - 0 gene_id "ECDH10B_RS13620"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "bamB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417007.1"; locus_tag "ECDH10B_RS13620"; product "outer membrane protein assembly factor BamB"; protein_id "WP_001177052.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2727261 2727263 . - 0 gene_id "ECDH10B_RS13620"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "bamB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417007.1"; locus_tag "ECDH10B_RS13620"; product "outer membrane protein assembly factor BamB"; protein_id "WP_001177052.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2728450 2729070 . - . gene_id "ECDH10B_RS13625"; transcript_id ""; gbkey "Gene"; gene "yfgM"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13625"; old_locus_tag "ECDH10B_2679"; -NC_010473.1 Protein Homology CDS 2728453 2729070 . - 0 gene_id "ECDH10B_RS13625"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yfgM"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417008.1"; locus_tag "ECDH10B_RS13625"; product "ancillary SecYEG translocon subunit YfgM"; protein_id "WP_000409205.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2729068 2729070 . - 0 gene_id "ECDH10B_RS13625"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yfgM"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417008.1"; locus_tag "ECDH10B_RS13625"; product "ancillary SecYEG translocon subunit YfgM"; protein_id "WP_000409205.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2728450 2728452 . - 0 gene_id "ECDH10B_RS13625"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yfgM"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417008.1"; locus_tag "ECDH10B_RS13625"; product "ancillary SecYEG translocon subunit YfgM"; protein_id "WP_000409205.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2729088 2730362 . - . gene_id "ECDH10B_RS13630"; transcript_id ""; gbkey "Gene"; gene "hisS"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13630"; old_locus_tag "ECDH10B_2680"; -NC_010473.1 Protein Homology CDS 2729091 2730362 . - 0 gene_id "ECDH10B_RS13630"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hisS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311403.1"; locus_tag "ECDH10B_RS13630"; product "histidine--tRNA ligase"; protein_id "WP_001107167.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2730360 2730362 . - 0 gene_id "ECDH10B_RS13630"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hisS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311403.1"; locus_tag "ECDH10B_RS13630"; product "histidine--tRNA ligase"; protein_id "WP_001107167.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2729088 2729090 . - 0 gene_id "ECDH10B_RS13630"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hisS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311403.1"; locus_tag "ECDH10B_RS13630"; product "histidine--tRNA ligase"; protein_id "WP_001107167.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2730473 2731591 . - . gene_id "ECDH10B_RS13635"; transcript_id ""; gbkey "Gene"; gene "ispG"; gene_biotype "protein_coding"; gene_synonym "gcpE"; locus_tag "ECDH10B_RS13635"; old_locus_tag "ECDH10B_2681"; -NC_010473.1 Protein Homology CDS 2730476 2731591 . - 0 gene_id "ECDH10B_RS13635"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ispG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311404.1"; locus_tag "ECDH10B_RS13635"; product "flavodoxin-dependent (E)-4-hydroxy-3-methylbut-2-enyl-diphosphate synthase"; protein_id "WP_000551807.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2731589 2731591 . - 0 gene_id "ECDH10B_RS13635"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ispG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311404.1"; locus_tag "ECDH10B_RS13635"; product "flavodoxin-dependent (E)-4-hydroxy-3-methylbut-2-enyl-diphosphate synthase"; protein_id "WP_000551807.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2730473 2730475 . - 0 gene_id "ECDH10B_RS13635"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ispG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311404.1"; locus_tag "ECDH10B_RS13635"; product "flavodoxin-dependent (E)-4-hydroxy-3-methylbut-2-enyl-diphosphate synthase"; protein_id "WP_000551807.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2731618 2732631 . - . gene_id "ECDH10B_RS13640"; transcript_id ""; gbkey "Gene"; gene "rodZ"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13640"; old_locus_tag "ECDH10B_2682"; -NC_010473.1 Protein Homology CDS 2731621 2732631 . - 0 gene_id "ECDH10B_RS13640"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rodZ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417011.1"; locus_tag "ECDH10B_RS13640"; product "cytoskeleton protein RodZ"; protein_id "WP_001090866.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2732629 2732631 . - 0 gene_id "ECDH10B_RS13640"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rodZ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417011.1"; locus_tag "ECDH10B_RS13640"; product "cytoskeleton protein RodZ"; protein_id "WP_001090866.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2731618 2731620 . - 0 gene_id "ECDH10B_RS13640"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rodZ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417011.1"; locus_tag "ECDH10B_RS13640"; product "cytoskeleton protein RodZ"; protein_id "WP_001090866.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2732916 2734070 . - . gene_id "ECDH10B_RS13645"; transcript_id ""; gbkey "Gene"; gene "trmG/rlmN"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13645"; old_locus_tag "ECDH10B_2683"; -NC_010473.1 Protein Homology CDS 2732919 2734070 . - 0 gene_id "ECDH10B_RS13645"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "trmG/rlmN"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417012.1"; locus_tag "ECDH10B_RS13645"; product "bifunctional tRNA (adenosine(37)-C2)-methyltransferase TrmG/ribosomal RNA large subunit methyltransferase RlmN"; protein_id "WP_000003317.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2734068 2734070 . - 0 gene_id "ECDH10B_RS13645"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "trmG/rlmN"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417012.1"; locus_tag "ECDH10B_RS13645"; product "bifunctional tRNA (adenosine(37)-C2)-methyltransferase TrmG/ribosomal RNA large subunit methyltransferase RlmN"; protein_id "WP_000003317.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2732916 2732918 . - 0 gene_id "ECDH10B_RS13645"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "trmG/rlmN"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417012.1"; locus_tag "ECDH10B_RS13645"; product "bifunctional tRNA (adenosine(37)-C2)-methyltransferase TrmG/ribosomal RNA large subunit methyltransferase RlmN"; protein_id "WP_000003317.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2734220 2734651 . - . gene_id "ECDH10B_RS13650"; transcript_id ""; gbkey "Gene"; gene "ndk"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13650"; old_locus_tag "ECDH10B_2684"; -NC_010473.1 Protein Homology CDS 2734223 2734651 . - 0 gene_id "ECDH10B_RS13650"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ndk"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311407.1"; locus_tag "ECDH10B_RS13650"; product "nucleoside-diphosphate kinase"; protein_id "WP_000963837.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2734649 2734651 . - 0 gene_id "ECDH10B_RS13650"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ndk"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311407.1"; locus_tag "ECDH10B_RS13650"; product "nucleoside-diphosphate kinase"; protein_id "WP_000963837.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2734220 2734222 . - 0 gene_id "ECDH10B_RS13650"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ndk"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311407.1"; locus_tag "ECDH10B_RS13650"; product "nucleoside-diphosphate kinase"; protein_id "WP_000963837.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2734800 2737112 . - . gene_id "ECDH10B_RS13655"; transcript_id ""; gbkey "Gene"; gene "pbpC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13655"; old_locus_tag "ECDH10B_2685"; -NC_010473.1 Protein Homology CDS 2734803 2737112 . - 0 gene_id "ECDH10B_RS13655"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pbpC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417014.1"; locus_tag "ECDH10B_RS13655"; note "penicillin-binding protein 1C"; product "peptidoglycan glycosyltransferase PbpC"; protein_id "WP_001137675.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2737110 2737112 . - 0 gene_id "ECDH10B_RS13655"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pbpC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417014.1"; locus_tag "ECDH10B_RS13655"; note "penicillin-binding protein 1C"; product "peptidoglycan glycosyltransferase PbpC"; protein_id "WP_001137675.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2734800 2734802 . - 0 gene_id "ECDH10B_RS13655"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pbpC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417014.1"; locus_tag "ECDH10B_RS13655"; note "penicillin-binding protein 1C"; product "peptidoglycan glycosyltransferase PbpC"; protein_id "WP_001137675.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2737113 2742074 . - . gene_id "ECDH10B_RS13660"; transcript_id ""; gbkey "Gene"; gene "yfhM"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13660"; old_locus_tag "ECDH10B_2686"; -NC_010473.1 Protein Homology CDS 2737116 2742074 . - 0 gene_id "ECDH10B_RS13660"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yfhM"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417015.1"; locus_tag "ECDH10B_RS13660"; product "alpha2-macroglobulin"; protein_id "WP_000736312.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2742072 2742074 . - 0 gene_id "ECDH10B_RS13660"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yfhM"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417015.1"; locus_tag "ECDH10B_RS13660"; product "alpha2-macroglobulin"; protein_id "WP_000736312.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2737113 2737115 . - 0 gene_id "ECDH10B_RS13660"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yfhM"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417015.1"; locus_tag "ECDH10B_RS13660"; product "alpha2-macroglobulin"; protein_id "WP_000736312.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2742281 2743126 . + . gene_id "ECDH10B_RS13665"; transcript_id ""; gbkey "Gene"; gene "sseA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13665"; old_locus_tag "ECDH10B_2687"; -NC_010473.1 Protein Homology CDS 2742281 2743123 . + 0 gene_id "ECDH10B_RS13665"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sseA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417016.4"; locus_tag "ECDH10B_RS13665"; product "3-mercaptopyruvate sulfurtransferase"; protein_id "WP_000108626.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2742281 2742283 . + 0 gene_id "ECDH10B_RS13665"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sseA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417016.4"; locus_tag "ECDH10B_RS13665"; product "3-mercaptopyruvate sulfurtransferase"; protein_id "WP_000108626.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2743124 2743126 . + 0 gene_id "ECDH10B_RS13665"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sseA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417016.4"; locus_tag "ECDH10B_RS13665"; product "3-mercaptopyruvate sulfurtransferase"; protein_id "WP_000108626.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2743944 2744720 . - . gene_id "ECDH10B_RS13670"; transcript_id ""; gbkey "Gene"; gene "sseB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13670"; old_locus_tag "ECDH10B_2689"; -NC_010473.1 Protein Homology CDS 2743947 2744720 . - 0 gene_id "ECDH10B_RS13670"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sseB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_708361.2"; locus_tag "ECDH10B_RS13670"; product "enhanced serine sensitivity protein SseB"; protein_id "WP_001295479.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2744718 2744720 . - 0 gene_id "ECDH10B_RS13670"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sseB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_708361.2"; locus_tag "ECDH10B_RS13670"; product "enhanced serine sensitivity protein SseB"; protein_id "WP_001295479.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2743944 2743946 . - 0 gene_id "ECDH10B_RS13670"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sseB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_708361.2"; locus_tag "ECDH10B_RS13670"; product "enhanced serine sensitivity protein SseB"; protein_id "WP_001295479.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2744862 2746145 . - . gene_id "ECDH10B_RS13675"; transcript_id ""; gbkey "Gene"; gene "pepB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13675"; old_locus_tag "ECDH10B_2690"; -NC_010473.1 Protein Homology CDS 2744865 2746145 . - 0 gene_id "ECDH10B_RS13675"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pepB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417018.4"; locus_tag "ECDH10B_RS13675"; product "aminopeptidase PepB"; protein_id "WP_000133592.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2746143 2746145 . - 0 gene_id "ECDH10B_RS13675"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pepB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417018.4"; locus_tag "ECDH10B_RS13675"; product "aminopeptidase PepB"; protein_id "WP_000133592.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2744862 2744864 . - 0 gene_id "ECDH10B_RS13675"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pepB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417018.4"; locus_tag "ECDH10B_RS13675"; product "aminopeptidase PepB"; protein_id "WP_000133592.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2746323 2746523 . - . gene_id "ECDH10B_RS13680"; transcript_id ""; gbkey "Gene"; gene "iscX"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13680"; old_locus_tag "ECDH10B_2691"; -NC_010473.1 Protein Homology CDS 2746326 2746523 . - 0 gene_id "ECDH10B_RS13680"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "iscX"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_004104502.1"; locus_tag "ECDH10B_RS13680"; product "Fe-S cluster assembly protein IscX"; protein_id "WP_000523616.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2746521 2746523 . - 0 gene_id "ECDH10B_RS13680"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "iscX"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_004104502.1"; locus_tag "ECDH10B_RS13680"; product "Fe-S cluster assembly protein IscX"; protein_id "WP_000523616.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2746323 2746325 . - 0 gene_id "ECDH10B_RS13680"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "iscX"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_004104502.1"; locus_tag "ECDH10B_RS13680"; product "Fe-S cluster assembly protein IscX"; protein_id "WP_000523616.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2746535 2746870 . - . gene_id "ECDH10B_RS13685"; transcript_id ""; gbkey "Gene"; gene "fdx"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13685"; old_locus_tag "ECDH10B_2692"; -NC_010473.1 Protein Homology CDS 2746538 2746870 . - 0 gene_id "ECDH10B_RS13685"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fdx"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_015683702.1"; locus_tag "ECDH10B_RS13685"; product "ISC system 2Fe-2S type ferredoxin"; protein_id "WP_001124469.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2746868 2746870 . - 0 gene_id "ECDH10B_RS13685"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fdx"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_015683702.1"; locus_tag "ECDH10B_RS13685"; product "ISC system 2Fe-2S type ferredoxin"; protein_id "WP_001124469.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2746535 2746537 . - 0 gene_id "ECDH10B_RS13685"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fdx"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_015683702.1"; locus_tag "ECDH10B_RS13685"; product "ISC system 2Fe-2S type ferredoxin"; protein_id "WP_001124469.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2746872 2748722 . - . gene_id "ECDH10B_RS13690"; transcript_id ""; gbkey "Gene"; gene "hscA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13690"; old_locus_tag "ECDH10B_2693"; -NC_010473.1 Protein Homology CDS 2746875 2748722 . - 0 gene_id "ECDH10B_RS13690"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hscA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001559634.1"; locus_tag "ECDH10B_RS13690"; product "Fe-S protein assembly chaperone HscA"; protein_id "WP_001196613.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2748720 2748722 . - 0 gene_id "ECDH10B_RS13690"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hscA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001559634.1"; locus_tag "ECDH10B_RS13690"; product "Fe-S protein assembly chaperone HscA"; protein_id "WP_001196613.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2746872 2746874 . - 0 gene_id "ECDH10B_RS13690"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hscA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001559634.1"; locus_tag "ECDH10B_RS13690"; product "Fe-S protein assembly chaperone HscA"; protein_id "WP_001196613.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2748739 2749254 . - . gene_id "ECDH10B_RS13695"; transcript_id ""; gbkey "Gene"; gene "hscB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13695"; old_locus_tag "ECDH10B_2694"; -NC_010473.1 Protein Homology CDS 2748742 2749254 . - 0 gene_id "ECDH10B_RS13695"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hscB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311420.1"; locus_tag "ECDH10B_RS13695"; product "co-chaperone HscB"; protein_id "WP_000384413.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2749252 2749254 . - 0 gene_id "ECDH10B_RS13695"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hscB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311420.1"; locus_tag "ECDH10B_RS13695"; product "co-chaperone HscB"; protein_id "WP_000384413.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2748739 2748741 . - 0 gene_id "ECDH10B_RS13695"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hscB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311420.1"; locus_tag "ECDH10B_RS13695"; product "co-chaperone HscB"; protein_id "WP_000384413.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2749350 2749673 . - . gene_id "ECDH10B_RS13700"; transcript_id ""; gbkey "Gene"; gene "iscA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13700"; old_locus_tag "ECDH10B_2695"; -NC_010473.1 Protein Homology CDS 2749353 2749673 . - 0 gene_id "ECDH10B_RS13700"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "iscA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311421.1"; locus_tag "ECDH10B_RS13700"; product "iron-sulfur cluster assembly protein IscA"; protein_id "WP_000028953.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2749671 2749673 . - 0 gene_id "ECDH10B_RS13700"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "iscA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311421.1"; locus_tag "ECDH10B_RS13700"; product "iron-sulfur cluster assembly protein IscA"; protein_id "WP_000028953.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2749350 2749352 . - 0 gene_id "ECDH10B_RS13700"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "iscA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311421.1"; locus_tag "ECDH10B_RS13700"; product "iron-sulfur cluster assembly protein IscA"; protein_id "WP_000028953.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2749690 2750076 . - . gene_id "ECDH10B_RS13705"; transcript_id ""; gbkey "Gene"; gene "iscU"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13705"; old_locus_tag "ECDH10B_2696"; -NC_010473.1 Protein Homology CDS 2749693 2750076 . - 0 gene_id "ECDH10B_RS13705"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "iscU"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000331707.1"; locus_tag "ECDH10B_RS13705"; product "Fe-S cluster assembly scaffold IscU"; protein_id "WP_000331707.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2750074 2750076 . - 0 gene_id "ECDH10B_RS13705"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "iscU"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000331707.1"; locus_tag "ECDH10B_RS13705"; product "Fe-S cluster assembly scaffold IscU"; protein_id "WP_000331707.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2749690 2749692 . - 0 gene_id "ECDH10B_RS13705"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "iscU"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000331707.1"; locus_tag "ECDH10B_RS13705"; product "Fe-S cluster assembly scaffold IscU"; protein_id "WP_000331707.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2750104 2751318 . - . gene_id "ECDH10B_RS13710"; transcript_id ""; gbkey "Gene"; gene "iscS"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13710"; old_locus_tag "ECDH10B_2697"; -NC_010473.1 Protein Homology CDS 2750107 2751318 . - 0 gene_id "ECDH10B_RS13710"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "iscS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_017459011.1"; locus_tag "ECDH10B_RS13710"; product "cysteine desulfurase"; protein_id "WP_001295373.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2751316 2751318 . - 0 gene_id "ECDH10B_RS13710"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "iscS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_017459011.1"; locus_tag "ECDH10B_RS13710"; product "cysteine desulfurase"; protein_id "WP_001295373.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2750104 2750106 . - 0 gene_id "ECDH10B_RS13710"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "iscS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_017459011.1"; locus_tag "ECDH10B_RS13710"; product "cysteine desulfurase"; protein_id "WP_001295373.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2751430 2751918 . - . gene_id "ECDH10B_RS13715"; transcript_id ""; gbkey "Gene"; gene "iscR"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13715"; old_locus_tag "ECDH10B_2698"; -NC_010473.1 Protein Homology CDS 2751433 2751918 . - 0 gene_id "ECDH10B_RS13715"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "iscR"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_002913993.1"; locus_tag "ECDH10B_RS13715"; product "Fe-S cluster assembly transcriptional regulator IscR"; protein_id "WP_001241357.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2751916 2751918 . - 0 gene_id "ECDH10B_RS13715"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "iscR"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_002913993.1"; locus_tag "ECDH10B_RS13715"; product "Fe-S cluster assembly transcriptional regulator IscR"; protein_id "WP_001241357.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2751430 2751432 . - 0 gene_id "ECDH10B_RS13715"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "iscR"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_002913993.1"; locus_tag "ECDH10B_RS13715"; product "Fe-S cluster assembly transcriptional regulator IscR"; protein_id "WP_001241357.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2752370 2753110 . - . gene_id "ECDH10B_RS13720"; transcript_id ""; gbkey "Gene"; gene "trmJ"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13720"; old_locus_tag "ECDH10B_2699"; -NC_010473.1 Protein Homology CDS 2752373 2753110 . - 0 gene_id "ECDH10B_RS13720"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "trmJ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417027.1"; locus_tag "ECDH10B_RS13720"; product "tRNA (cytosine(32)/uridine(32)-2'-O)-methyltransferase TrmJ"; protein_id "WP_000940019.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2753108 2753110 . - 0 gene_id "ECDH10B_RS13720"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "trmJ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417027.1"; locus_tag "ECDH10B_RS13720"; product "tRNA (cytosine(32)/uridine(32)-2'-O)-methyltransferase TrmJ"; protein_id "WP_000940019.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2752370 2752372 . - 0 gene_id "ECDH10B_RS13720"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "trmJ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417027.1"; locus_tag "ECDH10B_RS13720"; product "tRNA (cytosine(32)/uridine(32)-2'-O)-methyltransferase TrmJ"; protein_id "WP_000940019.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2753229 2754032 . + . gene_id "ECDH10B_RS13725"; transcript_id ""; gbkey "Gene"; gene "suhB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13725"; old_locus_tag "ECDH10B_2700"; -NC_010473.1 Protein Homology CDS 2753229 2754029 . + 0 gene_id "ECDH10B_RS13725"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "suhB"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000553460.1"; locus_tag "ECDH10B_RS13725"; product "inositol-1-monophosphatase"; protein_id "WP_000553451.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2753229 2753231 . + 0 gene_id "ECDH10B_RS13725"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "suhB"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000553460.1"; locus_tag "ECDH10B_RS13725"; product "inositol-1-monophosphatase"; protein_id "WP_000553451.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2754030 2754032 . + 0 gene_id "ECDH10B_RS13725"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "suhB"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000553460.1"; locus_tag "ECDH10B_RS13725"; product "inositol-1-monophosphatase"; protein_id "WP_000553451.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2754177 2755031 . + . gene_id "ECDH10B_RS13730"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13730"; old_locus_tag "ECDH10B_2701"; -NC_010473.1 Protein Homology CDS 2754177 2755028 . + 0 gene_id "ECDH10B_RS13730"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417029.4"; locus_tag "ECDH10B_RS13730"; product "alpha/beta hydrolase"; protein_id "WP_001297705.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2754177 2754179 . + 0 gene_id "ECDH10B_RS13730"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417029.4"; locus_tag "ECDH10B_RS13730"; product "alpha/beta hydrolase"; protein_id "WP_001297705.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2755029 2755031 . + 0 gene_id "ECDH10B_RS13730"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417029.4"; locus_tag "ECDH10B_RS13730"; product "alpha/beta hydrolase"; protein_id "WP_001297705.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2755222 2756502 . + . gene_id "ECDH10B_RS13735"; transcript_id ""; gbkey "Gene"; gene "csiE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13735"; old_locus_tag "ECDH10B_2702"; -NC_010473.1 Protein Homology CDS 2755222 2756499 . + 0 gene_id "ECDH10B_RS13735"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "csiE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417030.2"; locus_tag "ECDH10B_RS13735"; product "stationary phase inducible protein CsiE"; protein_id "WP_000982994.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2755222 2755224 . + 0 gene_id "ECDH10B_RS13735"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "csiE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417030.2"; locus_tag "ECDH10B_RS13735"; product "stationary phase inducible protein CsiE"; protein_id "WP_000982994.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2756500 2756502 . + 0 gene_id "ECDH10B_RS13735"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "csiE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417030.2"; locus_tag "ECDH10B_RS13735"; product "stationary phase inducible protein CsiE"; protein_id "WP_000982994.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2756494 2757633 . - . gene_id "ECDH10B_RS13740"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13740"; old_locus_tag "ECDH10B_2703"; -NC_010473.1 Protein Homology CDS 2756497 2757633 . - 0 gene_id "ECDH10B_RS13740"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417031.1"; locus_tag "ECDH10B_RS13740"; product "3-phenylpropionate MFS transporter"; protein_id "WP_000244193.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2757631 2757633 . - 0 gene_id "ECDH10B_RS13740"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417031.1"; locus_tag "ECDH10B_RS13740"; product "3-phenylpropionate MFS transporter"; protein_id "WP_000244193.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2756494 2756496 . - 0 gene_id "ECDH10B_RS13740"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417031.1"; locus_tag "ECDH10B_RS13740"; product "3-phenylpropionate MFS transporter"; protein_id "WP_000244193.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2757793 2758683 . - . gene_id "ECDH10B_RS13745"; transcript_id ""; gbkey "Gene"; gene "hcaR"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13745"; old_locus_tag "ECDH10B_2704"; -NC_010473.1 Protein Homology CDS 2757796 2758683 . - 0 gene_id "ECDH10B_RS13745"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hcaR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417032.1"; locus_tag "ECDH10B_RS13745"; product "DNA-binding transcriptional regulator HcaR"; protein_id "WP_000423261.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2758681 2758683 . - 0 gene_id "ECDH10B_RS13745"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hcaR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417032.1"; locus_tag "ECDH10B_RS13745"; product "DNA-binding transcriptional regulator HcaR"; protein_id "WP_000423261.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2757793 2757795 . - 0 gene_id "ECDH10B_RS13745"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hcaR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417032.1"; locus_tag "ECDH10B_RS13745"; product "DNA-binding transcriptional regulator HcaR"; protein_id "WP_000423261.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2758819 2760180 . + . gene_id "ECDH10B_RS13750"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13750"; old_locus_tag "ECDH10B_2705"; -NC_010473.1 Protein Homology CDS 2758819 2760177 . + 0 gene_id "ECDH10B_RS13750"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311431.1"; locus_tag "ECDH10B_RS13750"; product "aromatic ring-hydroxylating dioxygenase subunit alpha"; protein_id "WP_000211172.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2758819 2758821 . + 0 gene_id "ECDH10B_RS13750"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311431.1"; locus_tag "ECDH10B_RS13750"; product "aromatic ring-hydroxylating dioxygenase subunit alpha"; protein_id "WP_000211172.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2760178 2760180 . + 0 gene_id "ECDH10B_RS13750"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311431.1"; locus_tag "ECDH10B_RS13750"; product "aromatic ring-hydroxylating dioxygenase subunit alpha"; protein_id "WP_000211172.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2760177 2760695 . + . gene_id "ECDH10B_RS13755"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13755"; old_locus_tag "ECDH10B_2706"; -NC_010473.1 Protein Homology CDS 2760177 2760692 . + 0 gene_id "ECDH10B_RS13755"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417034.1"; locus_tag "ECDH10B_RS13755"; product "3-phenylpropionate/cinnamic acid dioxygenase subunit beta"; protein_id "WP_001276072.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2760177 2760179 . + 0 gene_id "ECDH10B_RS13755"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417034.1"; locus_tag "ECDH10B_RS13755"; product "3-phenylpropionate/cinnamic acid dioxygenase subunit beta"; protein_id "WP_001276072.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2760693 2760695 . + 0 gene_id "ECDH10B_RS13755"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417034.1"; locus_tag "ECDH10B_RS13755"; product "3-phenylpropionate/cinnamic acid dioxygenase subunit beta"; protein_id "WP_001276072.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2760695 2761015 . + . gene_id "ECDH10B_RS13760"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13760"; old_locus_tag "ECDH10B_2707"; -NC_010473.1 Protein Homology CDS 2760695 2761012 . + 0 gene_id "ECDH10B_RS13760"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311433.1"; locus_tag "ECDH10B_RS13760"; product "bifunctional 3-phenylpropionate/cinnamic acid dioxygenase ferredoxin subunit"; protein_id "WP_001080102.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2760695 2760697 . + 0 gene_id "ECDH10B_RS13760"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311433.1"; locus_tag "ECDH10B_RS13760"; product "bifunctional 3-phenylpropionate/cinnamic acid dioxygenase ferredoxin subunit"; protein_id "WP_001080102.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2761013 2761015 . + 0 gene_id "ECDH10B_RS13760"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311433.1"; locus_tag "ECDH10B_RS13760"; product "bifunctional 3-phenylpropionate/cinnamic acid dioxygenase ferredoxin subunit"; protein_id "WP_001080102.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2761012 2761824 . + . gene_id "ECDH10B_RS13765"; transcript_id ""; gbkey "Gene"; gene "hcaB"; gene_biotype "protein_coding"; gene_synonym "phdD"; gene_synonym "yfhX"; locus_tag "ECDH10B_RS13765"; old_locus_tag "ECDH10B_2708"; -NC_010473.1 Protein Homology CDS 2761012 2761821 . + 0 gene_id "ECDH10B_RS13765"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hcaB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417036.1"; locus_tag "ECDH10B_RS13765"; product "3-phenylpropionate-dihydrodiol/cinnamic acid-dihydrodiol dehydrogenase"; protein_id "WP_001281379.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2761012 2761014 . + 0 gene_id "ECDH10B_RS13765"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hcaB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417036.1"; locus_tag "ECDH10B_RS13765"; product "3-phenylpropionate-dihydrodiol/cinnamic acid-dihydrodiol dehydrogenase"; protein_id "WP_001281379.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2761822 2761824 . + 0 gene_id "ECDH10B_RS13765"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hcaB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417036.1"; locus_tag "ECDH10B_RS13765"; product "3-phenylpropionate-dihydrodiol/cinnamic acid-dihydrodiol dehydrogenase"; protein_id "WP_001281379.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2761834 2763036 . + . gene_id "ECDH10B_RS13770"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13770"; old_locus_tag "ECDH10B_2709"; -NC_010473.1 Protein Homology CDS 2761834 2763033 . + 0 gene_id "ECDH10B_RS13770"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417037.1"; locus_tag "ECDH10B_RS13770"; product "phenylpropionate dioxygenase ferredoxin reductase subunit"; protein_id "WP_000660788.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2761834 2761836 . + 0 gene_id "ECDH10B_RS13770"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417037.1"; locus_tag "ECDH10B_RS13770"; product "phenylpropionate dioxygenase ferredoxin reductase subunit"; protein_id "WP_000660788.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2763034 2763036 . + 0 gene_id "ECDH10B_RS13770"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417037.1"; locus_tag "ECDH10B_RS13770"; product "phenylpropionate dioxygenase ferredoxin reductase subunit"; protein_id "WP_000660788.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2763133 2763555 . + . gene_id "ECDH10B_RS13775"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13775"; old_locus_tag "ECDH10B_2710"; -NC_010473.1 Protein Homology CDS 2763133 2763552 . + 0 gene_id "ECDH10B_RS13775"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417038.4"; locus_tag "ECDH10B_RS13775"; product "DoxX family protein"; protein_id "WP_001094726.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2763133 2763135 . + 0 gene_id "ECDH10B_RS13775"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417038.4"; locus_tag "ECDH10B_RS13775"; product "DoxX family protein"; protein_id "WP_001094726.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2763553 2763555 . + 0 gene_id "ECDH10B_RS13775"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417038.4"; locus_tag "ECDH10B_RS13775"; product "DoxX family protein"; protein_id "WP_001094726.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2763603 2764475 . - . gene_id "ECDH10B_RS13780"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13780"; old_locus_tag "ECDH10B_2711"; -NC_010473.1 Protein Homology CDS 2763606 2764475 . - 0 gene_id "ECDH10B_RS13780"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417039.1"; locus_tag "ECDH10B_RS13780"; product "aldose 1-epimerase"; protein_id "WP_000158547.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2764473 2764475 . - 0 gene_id "ECDH10B_RS13780"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417039.1"; locus_tag "ECDH10B_RS13780"; product "aldose 1-epimerase"; protein_id "WP_000158547.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2763603 2763605 . - 0 gene_id "ECDH10B_RS13780"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417039.1"; locus_tag "ECDH10B_RS13780"; product "aldose 1-epimerase"; protein_id "WP_000158547.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2764487 2765581 . - . gene_id "ECDH10B_RS13785"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13785"; old_locus_tag "ECDH10B_2712"; -NC_010473.1 Protein Homology CDS 2764490 2765581 . - 0 gene_id "ECDH10B_RS13785"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_708383.1"; locus_tag "ECDH10B_RS13785"; product "alcohol dehydrogenase catalytic domain-containing protein"; protein_id "WP_000700787.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2765579 2765581 . - 0 gene_id "ECDH10B_RS13785"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_708383.1"; locus_tag "ECDH10B_RS13785"; product "alcohol dehydrogenase catalytic domain-containing protein"; protein_id "WP_000700787.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2764487 2764489 . - 0 gene_id "ECDH10B_RS13785"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_708383.1"; locus_tag "ECDH10B_RS13785"; product "alcohol dehydrogenase catalytic domain-containing protein"; protein_id "WP_000700787.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2765614 2766612 . - . gene_id "ECDH10B_RS13790"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13790"; old_locus_tag "ECDH10B_2713"; -NC_010473.1 Protein Homology CDS 2765617 2766612 . - 0 gene_id "ECDH10B_RS13790"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417041.1"; locus_tag "ECDH10B_RS13790"; product "ABC transporter permease"; protein_id "WP_001276670.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2766610 2766612 . - 0 gene_id "ECDH10B_RS13790"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417041.1"; locus_tag "ECDH10B_RS13790"; product "ABC transporter permease"; protein_id "WP_001276670.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2765614 2765616 . - 0 gene_id "ECDH10B_RS13790"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417041.1"; locus_tag "ECDH10B_RS13790"; product "ABC transporter permease"; protein_id "WP_001276670.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2766637 2768148 . - . gene_id "ECDH10B_RS13795"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13795"; old_locus_tag "ECDH10B_2714"; -NC_010473.1 Protein Homology CDS 2766640 2768148 . - 0 gene_id "ECDH10B_RS13795"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417042.1"; locus_tag "ECDH10B_RS13795"; product "sugar ABC transporter ATP-binding protein"; protein_id "WP_000493470.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2768146 2768148 . - 0 gene_id "ECDH10B_RS13795"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417042.1"; locus_tag "ECDH10B_RS13795"; product "sugar ABC transporter ATP-binding protein"; protein_id "WP_000493470.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2766637 2766639 . - 0 gene_id "ECDH10B_RS13795"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417042.1"; locus_tag "ECDH10B_RS13795"; product "sugar ABC transporter ATP-binding protein"; protein_id "WP_000493470.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2768171 2769154 . - . gene_id "ECDH10B_RS13800"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13800"; old_locus_tag "ECDH10B_2715"; -NC_010473.1 Protein Homology CDS 2768174 2769154 . - 0 gene_id "ECDH10B_RS13800"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417043.1"; locus_tag "ECDH10B_RS13800"; product "substrate-binding domain-containing protein"; protein_id "WP_001142427.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2769152 2769154 . - 0 gene_id "ECDH10B_RS13800"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417043.1"; locus_tag "ECDH10B_RS13800"; product "substrate-binding domain-containing protein"; protein_id "WP_001142427.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2768171 2768173 . - 0 gene_id "ECDH10B_RS13800"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417043.1"; locus_tag "ECDH10B_RS13800"; product "substrate-binding domain-containing protein"; protein_id "WP_001142427.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2769251 2772532 . - . gene_id "ECDH10B_RS13805"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13805"; old_locus_tag "ECDH10B_2716"; -NC_010473.1 Protein Homology CDS 2769254 2772532 . - 0 gene_id "ECDH10B_RS13805"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417044.4"; locus_tag "ECDH10B_RS13805"; product "DUF5107 domain-containing protein"; protein_id "WP_001333903.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2772530 2772532 . - 0 gene_id "ECDH10B_RS13805"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417044.4"; locus_tag "ECDH10B_RS13805"; product "DUF5107 domain-containing protein"; protein_id "WP_001333903.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2769251 2769253 . - 0 gene_id "ECDH10B_RS13805"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417044.4"; locus_tag "ECDH10B_RS13805"; product "DUF5107 domain-containing protein"; protein_id "WP_001333903.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2772650 2773843 . + . gene_id "ECDH10B_RS13810"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13810"; old_locus_tag "ECDH10B_2717"; -NC_010473.1 Protein Homology CDS 2772650 2773840 . + 0 gene_id "ECDH10B_RS13810"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417045.4"; locus_tag "ECDH10B_RS13810"; product "ROK family protein"; protein_id "WP_001200769.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2772650 2772652 . + 0 gene_id "ECDH10B_RS13810"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417045.4"; locus_tag "ECDH10B_RS13810"; product "ROK family protein"; protein_id "WP_001200769.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2773841 2773843 . + 0 gene_id "ECDH10B_RS13810"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417045.4"; locus_tag "ECDH10B_RS13810"; product "ROK family protein"; protein_id "WP_001200769.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2774041 2775294 . - . gene_id "ECDH10B_RS13815"; transcript_id ""; gbkey "Gene"; gene "glyA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13815"; old_locus_tag "ECDH10B_2718"; -NC_010473.1 Protein Homology CDS 2774044 2775294 . - 0 gene_id "ECDH10B_RS13815"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "glyA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_019077397.1"; locus_tag "ECDH10B_RS13815"; product "serine hydroxymethyltransferase"; protein_id "WP_000919159.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2775292 2775294 . - 0 gene_id "ECDH10B_RS13815"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "glyA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_019077397.1"; locus_tag "ECDH10B_RS13815"; product "serine hydroxymethyltransferase"; protein_id "WP_000919159.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2774041 2774043 . - 0 gene_id "ECDH10B_RS13815"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "glyA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_019077397.1"; locus_tag "ECDH10B_RS13815"; product "serine hydroxymethyltransferase"; protein_id "WP_000919159.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2775622 2776812 . + . gene_id "ECDH10B_RS13820"; transcript_id ""; gbkey "Gene"; gene "hmpA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13820"; old_locus_tag "ECDH10B_2719"; -NC_010473.1 Protein Homology CDS 2775622 2776809 . + 0 gene_id "ECDH10B_RS13820"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hmpA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417047.1"; locus_tag "ECDH10B_RS13820"; product "NO-inducible flavohemoprotein"; protein_id "WP_000883122.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2775622 2775624 . + 0 gene_id "ECDH10B_RS13820"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hmpA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417047.1"; locus_tag "ECDH10B_RS13820"; product "NO-inducible flavohemoprotein"; protein_id "WP_000883122.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2776810 2776812 . + 0 gene_id "ECDH10B_RS13820"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hmpA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417047.1"; locus_tag "ECDH10B_RS13820"; product "NO-inducible flavohemoprotein"; protein_id "WP_000883122.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2776857 2777195 . - . gene_id "ECDH10B_RS13825"; transcript_id ""; gbkey "Gene"; gene "glnB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13825"; old_locus_tag "ECDH10B_2720"; -NC_010473.1 Protein Homology CDS 2776860 2777195 . - 0 gene_id "ECDH10B_RS13825"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "glnB"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_017373484.1"; locus_tag "ECDH10B_RS13825"; product "nitrogen regulatory protein P-II"; protein_id "WP_000717694.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2777193 2777195 . - 0 gene_id "ECDH10B_RS13825"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "glnB"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_017373484.1"; locus_tag "ECDH10B_RS13825"; product "nitrogen regulatory protein P-II"; protein_id "WP_000717694.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2776857 2776859 . - 0 gene_id "ECDH10B_RS13825"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "glnB"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_017373484.1"; locus_tag "ECDH10B_RS13825"; product "nitrogen regulatory protein P-II"; protein_id "WP_000717694.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2777256 2778590 . - . gene_id "ECDH10B_RS13830"; transcript_id ""; gbkey "Gene"; gene "glrR"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13830"; old_locus_tag "ECDH10B_2721"; -NC_010473.1 Protein Homology CDS 2777259 2778590 . - 0 gene_id "ECDH10B_RS13830"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "glrR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311447.1"; locus_tag "ECDH10B_RS13830"; product "two-component system response regulator GlrR"; protein_id "WP_001295369.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2778588 2778590 . - 0 gene_id "ECDH10B_RS13830"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "glrR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311447.1"; locus_tag "ECDH10B_RS13830"; product "two-component system response regulator GlrR"; protein_id "WP_001295369.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2777256 2777258 . - 0 gene_id "ECDH10B_RS13830"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "glrR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311447.1"; locus_tag "ECDH10B_RS13830"; product "two-component system response regulator GlrR"; protein_id "WP_001295369.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2778580 2779293 . - . gene_id "ECDH10B_RS13835"; transcript_id ""; gbkey "Gene"; gene "qseG"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13835"; old_locus_tag "ECDH10B_2722"; -NC_010473.1 Protein Homology CDS 2778583 2779293 . - 0 gene_id "ECDH10B_RS13835"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "qseG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311448.1"; locus_tag "ECDH10B_RS13835"; product "two-component system QseEF-associated lipoprotein QseG"; protein_id "WP_001215861.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2779291 2779293 . - 0 gene_id "ECDH10B_RS13835"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "qseG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311448.1"; locus_tag "ECDH10B_RS13835"; product "two-component system QseEF-associated lipoprotein QseG"; protein_id "WP_001215861.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2778580 2778582 . - 0 gene_id "ECDH10B_RS13835"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "qseG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311448.1"; locus_tag "ECDH10B_RS13835"; product "two-component system QseEF-associated lipoprotein QseG"; protein_id "WP_001215861.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2779458 2780885 . - . gene_id "ECDH10B_RS13840"; transcript_id ""; gbkey "Gene"; gene "qseE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13840"; old_locus_tag "ECDH10B_2723"; -NC_010473.1 Protein Homology CDS 2779461 2780885 . - 0 gene_id "ECDH10B_RS13840"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "qseE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417051.2"; locus_tag "ECDH10B_RS13840"; product "two component system sensor histidine kinase QseE/GlrK"; protein_id "WP_001311037.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2780883 2780885 . - 0 gene_id "ECDH10B_RS13840"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "qseE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417051.2"; locus_tag "ECDH10B_RS13840"; product "two component system sensor histidine kinase QseE/GlrK"; protein_id "WP_001311037.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2779458 2779460 . - 0 gene_id "ECDH10B_RS13840"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "qseE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417051.2"; locus_tag "ECDH10B_RS13840"; product "two component system sensor histidine kinase QseE/GlrK"; protein_id "WP_001311037.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2781443 2785330 . - . gene_id "ECDH10B_RS13845"; transcript_id ""; gbkey "Gene"; gene "purL"; gene_biotype "protein_coding"; gene_synonym "purI"; locus_tag "ECDH10B_RS13845"; old_locus_tag "ECDH10B_2725"; -NC_010473.1 Protein Homology CDS 2781446 2785330 . - 0 gene_id "ECDH10B_RS13845"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "purL"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026170.1"; locus_tag "ECDH10B_RS13845"; product "phosphoribosylformylglycinamidine synthase"; protein_id "WP_000970102.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2785328 2785330 . - 0 gene_id "ECDH10B_RS13845"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "purL"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026170.1"; locus_tag "ECDH10B_RS13845"; product "phosphoribosylformylglycinamidine synthase"; protein_id "WP_000970102.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2781443 2781445 . - 0 gene_id "ECDH10B_RS13845"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "purL"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026170.1"; locus_tag "ECDH10B_RS13845"; product "phosphoribosylformylglycinamidine synthase"; protein_id "WP_000970102.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2785588 2787144 . + . gene_id "ECDH10B_RS13850"; transcript_id ""; gbkey "Gene"; gene "mltF"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13850"; old_locus_tag "ECDH10B_2726"; -NC_010473.1 Protein Homology CDS 2785588 2787141 . + 0 gene_id "ECDH10B_RS13850"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mltF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417053.2"; locus_tag "ECDH10B_RS13850"; product "membrane-bound lytic murein transglycosylase MltF"; protein_id "WP_000734212.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2785588 2785590 . + 0 gene_id "ECDH10B_RS13850"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mltF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417053.2"; locus_tag "ECDH10B_RS13850"; product "membrane-bound lytic murein transglycosylase MltF"; protein_id "WP_000734212.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2787142 2787144 . + 0 gene_id "ECDH10B_RS13850"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mltF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417053.2"; locus_tag "ECDH10B_RS13850"; product "membrane-bound lytic murein transglycosylase MltF"; protein_id "WP_000734212.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2787141 2787677 . - . gene_id "ECDH10B_RS13855"; transcript_id ""; gbkey "Gene"; gene "tadA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13855"; old_locus_tag "ECDH10B_2727"; -NC_010473.1 Protein Homology CDS 2787144 2787677 . - 0 gene_id "ECDH10B_RS13855"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tadA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_708396.1"; locus_tag "ECDH10B_RS13855"; product "tRNA adenosine(34) deaminase TadA"; protein_id "WP_001295367.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2787675 2787677 . - 0 gene_id "ECDH10B_RS13855"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tadA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_708396.1"; locus_tag "ECDH10B_RS13855"; product "tRNA adenosine(34) deaminase TadA"; protein_id "WP_001295367.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2787141 2787143 . - 0 gene_id "ECDH10B_RS13855"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tadA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_708396.1"; locus_tag "ECDH10B_RS13855"; product "tRNA adenosine(34) deaminase TadA"; protein_id "WP_001295367.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2787702 2788337 . - . gene_id "ECDH10B_RS13860"; transcript_id ""; gbkey "Gene"; gene "yfhb"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13860"; old_locus_tag "ECDH10B_2728"; -NC_010473.1 Protein Homology CDS 2787705 2788337 . - 0 gene_id "ECDH10B_RS13860"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yfhb"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417055.4"; locus_tag "ECDH10B_RS13860"; product "phosphatidylglycerophosphatase C"; protein_id "WP_000190655.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2788335 2788337 . - 0 gene_id "ECDH10B_RS13860"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yfhb"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417055.4"; locus_tag "ECDH10B_RS13860"; product "phosphatidylglycerophosphatase C"; protein_id "WP_000190655.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2787702 2787704 . - 0 gene_id "ECDH10B_RS13860"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yfhb"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417055.4"; locus_tag "ECDH10B_RS13860"; product "phosphatidylglycerophosphatase C"; protein_id "WP_000190655.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2788546 2789394 . + . gene_id "ECDH10B_RS13865"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13865"; old_locus_tag "ECDH10B_2729"; -NC_010473.1 Protein Homology CDS 2788546 2789391 . + 0 gene_id "ECDH10B_RS13865"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417056.2"; locus_tag "ECDH10B_RS13865"; product "MurR/RpiR family transcriptional regulator"; protein_id "WP_001013779.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2788546 2788548 . + 0 gene_id "ECDH10B_RS13865"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417056.2"; locus_tag "ECDH10B_RS13865"; product "MurR/RpiR family transcriptional regulator"; protein_id "WP_001013779.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2789392 2789394 . + 0 gene_id "ECDH10B_RS13865"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417056.2"; locus_tag "ECDH10B_RS13865"; product "MurR/RpiR family transcriptional regulator"; protein_id "WP_001013779.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2789450 2789710 . + . gene_id "ECDH10B_RS13870"; transcript_id ""; gbkey "Gene"; gene "yfhL"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13870"; old_locus_tag "ECDH10B_2730"; -NC_010473.1 Protein Homology CDS 2789450 2789707 . + 0 gene_id "ECDH10B_RS13870"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yfhL"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417057.1"; locus_tag "ECDH10B_RS13870"; product "4Fe-4S dicluster ferredoxin YfhL"; protein_id "WP_001196283.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2789450 2789452 . + 0 gene_id "ECDH10B_RS13870"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yfhL"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417057.1"; locus_tag "ECDH10B_RS13870"; product "4Fe-4S dicluster ferredoxin YfhL"; protein_id "WP_001196283.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2789708 2789710 . + 0 gene_id "ECDH10B_RS13870"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yfhL"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417057.1"; locus_tag "ECDH10B_RS13870"; product "4Fe-4S dicluster ferredoxin YfhL"; protein_id "WP_001196283.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2789904 2789984 . - . gene_id "ECDH10B_RS13875"; transcript_id ""; gbkey "Gene"; gene "shoB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13875"; -NC_010473.1 Protein Homology CDS 2789907 2789984 . - 0 gene_id "ECDH10B_RS13875"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "shoB"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_002791251.1"; locus_tag "ECDH10B_RS13875"; product "type I toxin-antitoxin system toxin ShoB"; protein_id "WP_000128776.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2789982 2789984 . - 0 gene_id "ECDH10B_RS13875"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "shoB"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_002791251.1"; locus_tag "ECDH10B_RS13875"; product "type I toxin-antitoxin system toxin ShoB"; protein_id "WP_000128776.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2789904 2789906 . - 0 gene_id "ECDH10B_RS13875"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "shoB"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_002791251.1"; locus_tag "ECDH10B_RS13875"; product "type I toxin-antitoxin system toxin ShoB"; protein_id "WP_000128776.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2790405 2790785 . - . gene_id "ECDH10B_RS13890"; transcript_id ""; gbkey "Gene"; gene "acpS"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13890"; -NC_010473.1 Protein Homology CDS 2790408 2790785 . - 0 gene_id "ECDH10B_RS13890"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "acpS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417058.1"; locus_tag "ECDH10B_RS13890"; product "holo-ACP synthase"; protein_id "WP_000986023.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2790783 2790785 . - 0 gene_id "ECDH10B_RS13890"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "acpS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417058.1"; locus_tag "ECDH10B_RS13890"; product "holo-ACP synthase"; protein_id "WP_000986023.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2790405 2790407 . - 0 gene_id "ECDH10B_RS13890"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "acpS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417058.1"; locus_tag "ECDH10B_RS13890"; product "holo-ACP synthase"; protein_id "WP_000986023.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2790785 2791516 . - . gene_id "ECDH10B_RS13895"; transcript_id ""; gbkey "Gene"; gene "pdxJ"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13895"; old_locus_tag "ECDH10B_2732"; -NC_010473.1 Protein Homology CDS 2790788 2791516 . - 0 gene_id "ECDH10B_RS13895"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pdxJ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311457.1"; locus_tag "ECDH10B_RS13895"; product "pyridoxine 5'-phosphate synthase"; protein_id "WP_001297412.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2791514 2791516 . - 0 gene_id "ECDH10B_RS13895"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pdxJ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311457.1"; locus_tag "ECDH10B_RS13895"; product "pyridoxine 5'-phosphate synthase"; protein_id "WP_001297412.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2790785 2790787 . - 0 gene_id "ECDH10B_RS13895"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pdxJ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311457.1"; locus_tag "ECDH10B_RS13895"; product "pyridoxine 5'-phosphate synthase"; protein_id "WP_001297412.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2791528 2792256 . - . gene_id "ECDH10B_RS13900"; transcript_id ""; gbkey "Gene"; gene "recO"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13900"; old_locus_tag "ECDH10B_2733"; -NC_010473.1 Protein Homology CDS 2791531 2792256 . - 0 gene_id "ECDH10B_RS13900"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "recO"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311458.1"; locus_tag "ECDH10B_RS13900"; product "DNA repair protein RecO"; protein_id "WP_000399404.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2792254 2792256 . - 0 gene_id "ECDH10B_RS13900"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "recO"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311458.1"; locus_tag "ECDH10B_RS13900"; product "DNA repair protein RecO"; protein_id "WP_000399404.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2791528 2791530 . - 0 gene_id "ECDH10B_RS13900"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "recO"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311458.1"; locus_tag "ECDH10B_RS13900"; product "DNA repair protein RecO"; protein_id "WP_000399404.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2792268 2793173 . - . gene_id "ECDH10B_RS13905"; transcript_id ""; gbkey "Gene"; gene "era"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13905"; old_locus_tag "ECDH10B_2734"; -NC_010473.1 Protein Homology CDS 2792271 2793173 . - 0 gene_id "ECDH10B_RS13905"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "era"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417061.1"; locus_tag "ECDH10B_RS13905"; product "GTPase Era"; protein_id "WP_000020749.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2793171 2793173 . - 0 gene_id "ECDH10B_RS13905"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "era"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417061.1"; locus_tag "ECDH10B_RS13905"; product "GTPase Era"; protein_id "WP_000020749.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2792268 2792270 . - 0 gene_id "ECDH10B_RS13905"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "era"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417061.1"; locus_tag "ECDH10B_RS13905"; product "GTPase Era"; protein_id "WP_000020749.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2793170 2793850 . - . gene_id "ECDH10B_RS13910"; transcript_id ""; gbkey "Gene"; gene "rnc"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13910"; old_locus_tag "ECDH10B_2735"; -NC_010473.1 Protein Homology CDS 2793173 2793850 . - 0 gene_id "ECDH10B_RS13910"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rnc"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_004248457.1"; locus_tag "ECDH10B_RS13910"; product "ribonuclease III"; protein_id "WP_001068343.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2793848 2793850 . - 0 gene_id "ECDH10B_RS13910"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rnc"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_004248457.1"; locus_tag "ECDH10B_RS13910"; product "ribonuclease III"; protein_id "WP_001068343.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2793170 2793172 . - 0 gene_id "ECDH10B_RS13910"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rnc"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_004248457.1"; locus_tag "ECDH10B_RS13910"; product "ribonuclease III"; protein_id "WP_001068343.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2794122 2795096 . - . gene_id "ECDH10B_RS13915"; transcript_id ""; gbkey "Gene"; gene "lepB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13915"; old_locus_tag "ECDH10B_2736"; -NC_010473.1 Protein Homology CDS 2794125 2795096 . - 0 gene_id "ECDH10B_RS13915"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lepB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417063.1"; locus_tag "ECDH10B_RS13915"; product "signal peptidase I"; protein_id "WP_000002541.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2795094 2795096 . - 0 gene_id "ECDH10B_RS13915"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lepB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417063.1"; locus_tag "ECDH10B_RS13915"; product "signal peptidase I"; protein_id "WP_000002541.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2794122 2794124 . - 0 gene_id "ECDH10B_RS13915"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lepB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417063.1"; locus_tag "ECDH10B_RS13915"; product "signal peptidase I"; protein_id "WP_000002541.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2795112 2796911 . - . gene_id "ECDH10B_RS13920"; transcript_id ""; gbkey "Gene"; gene "lepA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13920"; old_locus_tag "ECDH10B_2737"; -NC_010473.1 Protein Homology CDS 2795115 2796911 . - 0 gene_id "ECDH10B_RS13920"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lepA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311462.1"; locus_tag "ECDH10B_RS13920"; product "elongation factor 4"; protein_id "WP_000790168.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2796909 2796911 . - 0 gene_id "ECDH10B_RS13920"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lepA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311462.1"; locus_tag "ECDH10B_RS13920"; product "elongation factor 4"; protein_id "WP_000790168.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2795112 2795114 . - 0 gene_id "ECDH10B_RS13920"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lepA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311462.1"; locus_tag "ECDH10B_RS13920"; product "elongation factor 4"; protein_id "WP_000790168.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2797109 2797588 . - . gene_id "ECDH10B_RS13925"; transcript_id ""; gbkey "Gene"; gene "rseC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13925"; old_locus_tag "ECDH10B_2738"; -NC_010473.1 Protein Homology CDS 2797112 2797588 . - 0 gene_id "ECDH10B_RS13925"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rseC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417065.1"; locus_tag "ECDH10B_RS13925"; product "SoxR-reducing system protein RseC"; protein_id "WP_000589068.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2797586 2797588 . - 0 gene_id "ECDH10B_RS13925"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rseC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417065.1"; locus_tag "ECDH10B_RS13925"; product "SoxR-reducing system protein RseC"; protein_id "WP_000589068.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2797109 2797111 . - 0 gene_id "ECDH10B_RS13925"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rseC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417065.1"; locus_tag "ECDH10B_RS13925"; product "SoxR-reducing system protein RseC"; protein_id "WP_000589068.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2797585 2798541 . - . gene_id "ECDH10B_RS13930"; transcript_id ""; gbkey "Gene"; gene "rseB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13930"; old_locus_tag "ECDH10B_2739"; -NC_010473.1 Protein Homology CDS 2797588 2798541 . - 0 gene_id "ECDH10B_RS13930"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rseB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311464.1"; locus_tag "ECDH10B_RS13930"; product "sigma-E factor regulatory protein RseB"; protein_id "WP_000812053.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2798539 2798541 . - 0 gene_id "ECDH10B_RS13930"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rseB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311464.1"; locus_tag "ECDH10B_RS13930"; product "sigma-E factor regulatory protein RseB"; protein_id "WP_000812053.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2797585 2797587 . - 0 gene_id "ECDH10B_RS13930"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rseB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311464.1"; locus_tag "ECDH10B_RS13930"; product "sigma-E factor regulatory protein RseB"; protein_id "WP_000812053.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2798541 2799191 . - . gene_id "ECDH10B_RS13935"; transcript_id ""; gbkey "Gene"; gene "rseA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13935"; old_locus_tag "ECDH10B_2740"; -NC_010473.1 Protein Homology CDS 2798544 2799191 . - 0 gene_id "ECDH10B_RS13935"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rseA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417067.1"; locus_tag "ECDH10B_RS13935"; product "anti-sigma-E factor RseA"; protein_id "WP_001168459.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2799189 2799191 . - 0 gene_id "ECDH10B_RS13935"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rseA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417067.1"; locus_tag "ECDH10B_RS13935"; product "anti-sigma-E factor RseA"; protein_id "WP_001168459.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2798541 2798543 . - 0 gene_id "ECDH10B_RS13935"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rseA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417067.1"; locus_tag "ECDH10B_RS13935"; product "anti-sigma-E factor RseA"; protein_id "WP_001168459.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2799224 2799799 . - . gene_id "ECDH10B_RS13940"; transcript_id ""; gbkey "Gene"; gene "rpoE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13940"; old_locus_tag "ECDH10B_2741"; -NC_010473.1 Protein Homology CDS 2799227 2799799 . - 0 gene_id "ECDH10B_RS13940"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rpoE"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005070454.1"; locus_tag "ECDH10B_RS13940"; product "RNA polymerase sigma factor RpoE"; protein_id "WP_001295364.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2799797 2799799 . - 0 gene_id "ECDH10B_RS13940"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rpoE"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005070454.1"; locus_tag "ECDH10B_RS13940"; product "RNA polymerase sigma factor RpoE"; protein_id "WP_001295364.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2799224 2799226 . - 0 gene_id "ECDH10B_RS13940"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rpoE"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005070454.1"; locus_tag "ECDH10B_RS13940"; product "RNA polymerase sigma factor RpoE"; protein_id "WP_001295364.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2799796 2799951 . - . gene_id "ECDH10B_RS26065"; transcript_id ""; gbkey "Gene"; gene "rseD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS26065"; -NC_010473.1 Protein Homology CDS 2799799 2799951 . - 0 gene_id "ECDH10B_RS26065"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rseD"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_009518806.1"; locus_tag "ECDH10B_RS26065"; product "rpoE leader peptide RseD"; protein_id "WP_001303621.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2799949 2799951 . - 0 gene_id "ECDH10B_RS26065"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rseD"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_009518806.1"; locus_tag "ECDH10B_RS26065"; product "rpoE leader peptide RseD"; protein_id "WP_001303621.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2799796 2799798 . - 0 gene_id "ECDH10B_RS26065"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rseD"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_009518806.1"; locus_tag "ECDH10B_RS26065"; product "rpoE leader peptide RseD"; protein_id "WP_001303621.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2800207 2801829 . + . gene_id "ECDH10B_RS13950"; transcript_id ""; gbkey "Gene"; gene "nadB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13950"; old_locus_tag "ECDH10B_2742"; -NC_010473.1 Protein Homology CDS 2800207 2801826 . + 0 gene_id "ECDH10B_RS13950"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nadB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417069.1"; locus_tag "ECDH10B_RS13950"; product "L-aspartate oxidase"; protein_id "WP_001094491.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2800207 2800209 . + 0 gene_id "ECDH10B_RS13950"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nadB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417069.1"; locus_tag "ECDH10B_RS13950"; product "L-aspartate oxidase"; protein_id "WP_001094491.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2801827 2801829 . + 0 gene_id "ECDH10B_RS13950"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nadB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417069.1"; locus_tag "ECDH10B_RS13950"; product "L-aspartate oxidase"; protein_id "WP_001094491.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2801814 2802551 . - . gene_id "ECDH10B_RS13955"; transcript_id ""; gbkey "Gene"; gene "trmN"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13955"; old_locus_tag "ECDH10B_2743"; -NC_010473.1 Protein Homology CDS 2801817 2802551 . - 0 gene_id "ECDH10B_RS13955"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "trmN"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417070.2"; locus_tag "ECDH10B_RS13955"; product "tRNA (adenosine(37)-N6)-methyltransferase TrmM"; protein_id "WP_001295363.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2802549 2802551 . - 0 gene_id "ECDH10B_RS13955"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "trmN"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417070.2"; locus_tag "ECDH10B_RS13955"; product "tRNA (adenosine(37)-N6)-methyltransferase TrmM"; protein_id "WP_001295363.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2801814 2801816 . - 0 gene_id "ECDH10B_RS13955"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "trmN"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417070.2"; locus_tag "ECDH10B_RS13955"; product "tRNA (adenosine(37)-N6)-methyltransferase TrmM"; protein_id "WP_001295363.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2802683 2804017 . + . gene_id "ECDH10B_RS13960"; transcript_id ""; gbkey "Gene"; gene "srmB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13960"; old_locus_tag "ECDH10B_2744"; -NC_010473.1 Protein Homology CDS 2802683 2804014 . + 0 gene_id "ECDH10B_RS13960"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "srmB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417071.1"; locus_tag "ECDH10B_RS13960"; product "ATP-dependent RNA helicase SrmB"; protein_id "WP_000219203.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2802683 2802685 . + 0 gene_id "ECDH10B_RS13960"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "srmB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417071.1"; locus_tag "ECDH10B_RS13960"; product "ATP-dependent RNA helicase SrmB"; protein_id "WP_000219203.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2804015 2804017 . + 0 gene_id "ECDH10B_RS13960"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "srmB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417071.1"; locus_tag "ECDH10B_RS13960"; product "ATP-dependent RNA helicase SrmB"; protein_id "WP_000219203.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2804226 2805107 . - . gene_id "ECDH10B_RS13970"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13970"; old_locus_tag "ECDH10B_2745"; -NC_010473.1 Protein Homology CDS 2804229 2805107 . - 0 gene_id "ECDH10B_RS13970"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417072.4"; locus_tag "ECDH10B_RS13970"; product "LysR family transcriptional regulator"; protein_id "WP_001300638.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2805105 2805107 . - 0 gene_id "ECDH10B_RS13970"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417072.4"; locus_tag "ECDH10B_RS13970"; product "LysR family transcriptional regulator"; protein_id "WP_001300638.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2804226 2804228 . - 0 gene_id "ECDH10B_RS13970"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417072.4"; locus_tag "ECDH10B_RS13970"; product "LysR family transcriptional regulator"; protein_id "WP_001300638.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2805210 2805797 . + . gene_id "ECDH10B_RS13975"; transcript_id ""; gbkey "Gene"; gene "eamB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13975"; old_locus_tag "ECDH10B_2746"; -NC_010473.1 Protein Homology CDS 2805210 2805794 . + 0 gene_id "ECDH10B_RS13975"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "eamB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417073.1"; locus_tag "ECDH10B_RS13975"; product "cysteine/O-acetylserine transporter"; protein_id "WP_000189207.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2805210 2805212 . + 0 gene_id "ECDH10B_RS13975"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "eamB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417073.1"; locus_tag "ECDH10B_RS13975"; product "cysteine/O-acetylserine transporter"; protein_id "WP_000189207.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2805795 2805797 . + 0 gene_id "ECDH10B_RS13975"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "eamB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417073.1"; locus_tag "ECDH10B_RS13975"; product "cysteine/O-acetylserine transporter"; protein_id "WP_000189207.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2805853 2806236 . - . gene_id "ECDH10B_RS13980"; transcript_id ""; gbkey "Gene"; gene "grcA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13980"; old_locus_tag "ECDH10B_2747"; -NC_010473.1 Protein Homology CDS 2805856 2806236 . - 0 gene_id "ECDH10B_RS13980"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "grcA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_007728348.1"; locus_tag "ECDH10B_RS13980"; product "autonomous glycyl radical cofactor GrcA"; protein_id "WP_000627807.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2806234 2806236 . - 0 gene_id "ECDH10B_RS13980"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "grcA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_007728348.1"; locus_tag "ECDH10B_RS13980"; product "autonomous glycyl radical cofactor GrcA"; protein_id "WP_000627807.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2805853 2805855 . - 0 gene_id "ECDH10B_RS13980"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "grcA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_007728348.1"; locus_tag "ECDH10B_RS13980"; product "autonomous glycyl radical cofactor GrcA"; protein_id "WP_000627807.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2806541 2807230 . + . gene_id "ECDH10B_RS13985"; transcript_id ""; gbkey "Gene"; gene "ung"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13985"; old_locus_tag "ECDH10B_2748"; -NC_010473.1 Protein Homology CDS 2806541 2807227 . + 0 gene_id "ECDH10B_RS13985"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ung"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417075.1"; locus_tag "ECDH10B_RS13985"; product "uracil-DNA glycosylase"; protein_id "WP_001262716.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2806541 2806543 . + 0 gene_id "ECDH10B_RS13985"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ung"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417075.1"; locus_tag "ECDH10B_RS13985"; product "uracil-DNA glycosylase"; protein_id "WP_001262716.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2807228 2807230 . + 0 gene_id "ECDH10B_RS13985"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ung"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417075.1"; locus_tag "ECDH10B_RS13985"; product "uracil-DNA glycosylase"; protein_id "WP_001262716.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2807278 2808315 . - . gene_id "ECDH10B_RS13990"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS13990"; old_locus_tag "ECDH10B_2749"; -NC_010473.1 Protein Homology CDS 2807281 2808315 . - 0 gene_id "ECDH10B_RS13990"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311474.1"; locus_tag "ECDH10B_RS13990"; product "tRNA/rRNA methyltransferase"; protein_id "WP_000997403.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2808313 2808315 . - 0 gene_id "ECDH10B_RS13990"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311474.1"; locus_tag "ECDH10B_RS13990"; product "tRNA/rRNA methyltransferase"; protein_id "WP_000997403.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2807278 2807280 . - 0 gene_id "ECDH10B_RS13990"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311474.1"; locus_tag "ECDH10B_RS13990"; product "tRNA/rRNA methyltransferase"; protein_id "WP_000997403.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2808522 2808941 . + . gene_id "ECDH10B_RS14000"; transcript_id ""; gbkey "Gene"; gene "trxC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14000"; old_locus_tag "ECDH10B_2750"; -NC_010473.1 Protein Homology CDS 2808522 2808938 . + 0 gene_id "ECDH10B_RS14000"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "trxC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311475.1"; locus_tag "ECDH10B_RS14000"; product "thioredoxin TrxC"; protein_id "WP_001098726.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2808522 2808524 . + 0 gene_id "ECDH10B_RS14000"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "trxC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311475.1"; locus_tag "ECDH10B_RS14000"; product "thioredoxin TrxC"; protein_id "WP_001098726.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2808939 2808941 . + 0 gene_id "ECDH10B_RS14000"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "trxC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311475.1"; locus_tag "ECDH10B_RS14000"; product "thioredoxin TrxC"; protein_id "WP_001098726.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2809010 2809708 . + . gene_id "ECDH10B_RS14005"; transcript_id ""; gbkey "Gene"; gene "tapT"; gene_biotype "protein_coding"; gene_synonym "tuaA"; gene_synonym "yfiP"; locus_tag "ECDH10B_RS14005"; old_locus_tag "ECDH10B_2751"; -NC_010473.1 Protein Homology CDS 2809010 2809705 . + 0 gene_id "ECDH10B_RS14005"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tapT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417078.4"; locus_tag "ECDH10B_RS14005"; product "tRNA-uridine aminocarboxypropyltransferase"; protein_id "WP_001300438.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2809010 2809012 . + 0 gene_id "ECDH10B_RS14005"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tapT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417078.4"; locus_tag "ECDH10B_RS14005"; product "tRNA-uridine aminocarboxypropyltransferase"; protein_id "WP_001300438.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2809706 2809708 . + 0 gene_id "ECDH10B_RS14005"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tapT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417078.4"; locus_tag "ECDH10B_RS14005"; product "tRNA-uridine aminocarboxypropyltransferase"; protein_id "WP_001300438.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2809740 2812400 . + . gene_id "ECDH10B_RS14010"; transcript_id ""; gbkey "Gene"; gene "pat"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14010"; old_locus_tag "ECDH10B_2752"; -NC_010473.1 Protein Homology CDS 2809740 2812397 . + 0 gene_id "ECDH10B_RS14010"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pat"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417079.1"; locus_tag "ECDH10B_RS14010"; product "protein lysine acetyltransferase"; protein_id "WP_000083005.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2809740 2809742 . + 0 gene_id "ECDH10B_RS14010"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pat"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417079.1"; locus_tag "ECDH10B_RS14010"; product "protein lysine acetyltransferase"; protein_id "WP_000083005.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2812398 2812400 . + 0 gene_id "ECDH10B_RS14010"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pat"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417079.1"; locus_tag "ECDH10B_RS14010"; product "protein lysine acetyltransferase"; protein_id "WP_000083005.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2812514 2813869 . + . gene_id "ECDH10B_RS14015"; transcript_id ""; gbkey "Gene"; gene "pssA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14015"; old_locus_tag "ECDH10B_2753"; -NC_010473.1 Protein Homology CDS 2812514 2813866 . + 0 gene_id "ECDH10B_RS14015"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pssA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005121216.1"; locus_tag "ECDH10B_RS14015"; product "CDP-diacylglycerol--serine O-phosphatidyltransferase"; protein_id "WP_000949265.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2812514 2812516 . + 0 gene_id "ECDH10B_RS14015"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pssA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005121216.1"; locus_tag "ECDH10B_RS14015"; product "CDP-diacylglycerol--serine O-phosphatidyltransferase"; protein_id "WP_000949265.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2813867 2813869 . + 0 gene_id "ECDH10B_RS14015"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pssA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005121216.1"; locus_tag "ECDH10B_RS14015"; product "CDP-diacylglycerol--serine O-phosphatidyltransferase"; protein_id "WP_000949265.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2813915 2814238 . + . gene_id "ECDH10B_RS14020"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14020"; old_locus_tag "ECDH10B_2754"; -NC_010473.1 Protein Homology CDS 2813915 2814235 . + 0 gene_id "ECDH10B_RS14020"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417081.2"; locus_tag "ECDH10B_RS14020"; product "YfiM family lipoprotein"; protein_id "WP_001300818.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2813915 2813917 . + 0 gene_id "ECDH10B_RS14020"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417081.2"; locus_tag "ECDH10B_RS14020"; product "YfiM family lipoprotein"; protein_id "WP_001300818.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2814236 2814238 . + 0 gene_id "ECDH10B_RS14020"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417081.2"; locus_tag "ECDH10B_RS14020"; product "YfiM family lipoprotein"; protein_id "WP_001300818.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2814235 2815533 . - . gene_id "ECDH10B_RS14025"; transcript_id ""; gbkey "Gene"; gene "kgtP"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14025"; old_locus_tag "ECDH10B_2755"; -NC_010473.1 Protein Homology CDS 2814238 2815533 . - 0 gene_id "ECDH10B_RS14025"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "kgtP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417082.1"; locus_tag "ECDH10B_RS14025"; product "alpha-ketoglutarate permease"; protein_id "WP_000841103.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2815531 2815533 . - 0 gene_id "ECDH10B_RS14025"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "kgtP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417082.1"; locus_tag "ECDH10B_RS14025"; product "alpha-ketoglutarate permease"; protein_id "WP_000841103.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2814235 2814237 . - 0 gene_id "ECDH10B_RS14025"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "kgtP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417082.1"; locus_tag "ECDH10B_RS14025"; product "alpha-ketoglutarate permease"; protein_id "WP_000841103.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2815858 2815973 . - . gene_id "ECDH10B_RS14035"; transcript_id ""; gbkey "Gene"; gene "rrf"; gene_biotype "rRNA"; locus_tag "ECDH10B_RS14035"; old_locus_tag "ECDH10B_2756"; -NC_010473.1 cmsearch exon 2815858 2815973 . - . gene_id "ECDH10B_RS14035"; transcript_id "ECDH10B_RS14035"; db_xref "RFAM:RF00001"; gbkey "rRNA"; gene "rrf"; inference "COORDINATES: nucleotide motif:Rfam:12.0:RF00001"; inference "COORDINATES: profile:INFERNAL:1.1.1"; locus_tag "ECDH10B_RS14035"; product "5S ribosomal RNA"; exon_number "1"; -NC_010473.1 RefSeq gene 2816068 2818971 . - . gene_id "ECDH10B_RS14040"; transcript_id ""; gbkey "Gene"; gene_biotype "rRNA"; locus_tag "ECDH10B_RS14040"; old_locus_tag "ECDH10B_2757"; -NC_010473.1 cmsearch exon 2816068 2818971 . - . gene_id "ECDH10B_RS14040"; transcript_id "ECDH10B_RS14040"; db_xref "RFAM:RF02541"; gbkey "rRNA"; inference "COORDINATES: nucleotide motif:Rfam:12.0:RF02541"; inference "COORDINATES: profile:INFERNAL:1.1.1"; locus_tag "ECDH10B_RS14040"; product "23S ribosomal RNA"; exon_number "1"; -NC_010473.1 RefSeq gene 2819156 2819231 . - . gene_id "ECDH10B_RS14045"; transcript_id ""; gbkey "Gene"; gene_biotype "tRNA"; locus_tag "ECDH10B_RS14045"; old_locus_tag "ECDH10B_2758"; -NC_010473.1 tRNAscan-SE exon 2819156 2819231 . - . gene_id "ECDH10B_RS14045"; transcript_id "ECDH10B_RS14045"; anticodon "(pos:complement(2819195..2819197))"; gbkey "tRNA"; inference "COORDINATES: profile:tRNAscan-SE:2.0.6"; locus_tag "ECDH10B_RS14045"; product "tRNA-Glu"; exon_number "1"; -NC_010473.1 RefSeq gene 2819403 2820944 . - . gene_id "ECDH10B_RS14050"; transcript_id ""; gbkey "Gene"; gene_biotype "rRNA"; locus_tag "ECDH10B_RS14050"; old_locus_tag "ECDH10B_2759"; -NC_010473.1 cmsearch exon 2819403 2820944 . - . gene_id "ECDH10B_RS14050"; transcript_id "ECDH10B_RS14050"; db_xref "RFAM:RF00177"; gbkey "rRNA"; inference "COORDINATES: nucleotide motif:Rfam:12.0:RF00177"; inference "COORDINATES: profile:INFERNAL:1.1.1"; locus_tag "ECDH10B_RS14050"; product "16S ribosomal RNA"; exon_number "1"; -NC_010473.1 RefSeq gene 2821387 2823960 . - . gene_id "ECDH10B_RS14055"; transcript_id ""; gbkey "Gene"; gene "clpB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14055"; old_locus_tag "ECDH10B_2760"; -NC_010473.1 Protein Homology CDS 2821390 2823960 . - 0 gene_id "ECDH10B_RS14055"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "clpB"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_002461515.1"; locus_tag "ECDH10B_RS14055"; product "ATP-dependent chaperone ClpB"; protein_id "WP_001235102.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2823958 2823960 . - 0 gene_id "ECDH10B_RS14055"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "clpB"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_002461515.1"; locus_tag "ECDH10B_RS14055"; product "ATP-dependent chaperone ClpB"; protein_id "WP_001235102.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2821387 2821389 . - 0 gene_id "ECDH10B_RS14055"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "clpB"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_002461515.1"; locus_tag "ECDH10B_RS14055"; product "ATP-dependent chaperone ClpB"; protein_id "WP_001235102.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2824090 2824821 . - . gene_id "ECDH10B_RS14060"; transcript_id ""; gbkey "Gene"; gene "pgeF"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14060"; old_locus_tag "ECDH10B_2761"; -NC_010473.1 Protein Homology CDS 2824093 2824821 . - 0 gene_id "ECDH10B_RS14060"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pgeF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417084.1"; locus_tag "ECDH10B_RS14060"; product "polyphenol oxidase"; protein_id "WP_000040169.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2824819 2824821 . - 0 gene_id "ECDH10B_RS14060"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pgeF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417084.1"; locus_tag "ECDH10B_RS14060"; product "polyphenol oxidase"; protein_id "WP_000040169.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2824090 2824092 . - 0 gene_id "ECDH10B_RS14060"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pgeF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417084.1"; locus_tag "ECDH10B_RS14060"; product "polyphenol oxidase"; protein_id "WP_000040169.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2824818 2825798 . - . gene_id "ECDH10B_RS14065"; transcript_id ""; gbkey "Gene"; gene "rluD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14065"; old_locus_tag "ECDH10B_2762"; -NC_010473.1 Protein Homology CDS 2824821 2825798 . - 0 gene_id "ECDH10B_RS14065"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rluD"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_017383977.1"; locus_tag "ECDH10B_RS14065"; product "23S rRNA pseudouridine(1911/1915/1917) synthase RluD"; protein_id "WP_000079100.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2825796 2825798 . - 0 gene_id "ECDH10B_RS14065"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rluD"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_017383977.1"; locus_tag "ECDH10B_RS14065"; product "23S rRNA pseudouridine(1911/1915/1917) synthase RluD"; protein_id "WP_000079100.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2824818 2824820 . - 0 gene_id "ECDH10B_RS14065"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rluD"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_017383977.1"; locus_tag "ECDH10B_RS14065"; product "23S rRNA pseudouridine(1911/1915/1917) synthase RluD"; protein_id "WP_000079100.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2825933 2826670 . + . gene_id "ECDH10B_RS14070"; transcript_id ""; gbkey "Gene"; gene "bamD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14070"; old_locus_tag "ECDH10B_2763"; -NC_010473.1 Protein Homology CDS 2825933 2826667 . + 0 gene_id "ECDH10B_RS14070"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "bamD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311485.1"; locus_tag "ECDH10B_RS14070"; product "outer membrane protein assembly factor BamD"; protein_id "WP_000197686.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2825933 2825935 . + 0 gene_id "ECDH10B_RS14070"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "bamD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311485.1"; locus_tag "ECDH10B_RS14070"; product "outer membrane protein assembly factor BamD"; protein_id "WP_000197686.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2826668 2826670 . + 0 gene_id "ECDH10B_RS14070"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "bamD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311485.1"; locus_tag "ECDH10B_RS14070"; product "outer membrane protein assembly factor BamD"; protein_id "WP_000197686.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2826941 2827282 . + . gene_id "ECDH10B_RS14080"; transcript_id ""; gbkey "Gene"; gene "raiA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14080"; old_locus_tag "ECDH10B_2764"; -NC_010473.1 Protein Homology CDS 2826941 2827279 . + 0 gene_id "ECDH10B_RS14080"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "raiA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311487.1"; locus_tag "ECDH10B_RS14080"; product "ribosome-associated translation inhibitor RaiA"; protein_id "WP_000178456.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2826941 2826943 . + 0 gene_id "ECDH10B_RS14080"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "raiA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311487.1"; locus_tag "ECDH10B_RS14080"; product "ribosome-associated translation inhibitor RaiA"; protein_id "WP_000178456.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2827280 2827282 . + 0 gene_id "ECDH10B_RS14080"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "raiA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311487.1"; locus_tag "ECDH10B_RS14080"; product "ribosome-associated translation inhibitor RaiA"; protein_id "WP_000178456.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2827386 2827433 . + . gene_id "ECDH10B_RS26070"; transcript_id ""; gbkey "Gene"; gene "pheL"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS26070"; old_locus_tag "ECDH10B_2765"; -NC_010473.1 Protein Homology CDS 2827386 2827430 . + 0 gene_id "ECDH10B_RS26070"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pheL"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417089.1"; locus_tag "ECDH10B_RS26070"; product "phe operon leader peptide"; protein_id "WP_010723158.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2827386 2827388 . + 0 gene_id "ECDH10B_RS26070"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pheL"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417089.1"; locus_tag "ECDH10B_RS26070"; product "phe operon leader peptide"; protein_id "WP_010723158.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2827431 2827433 . + 0 gene_id "ECDH10B_RS26070"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pheL"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417089.1"; locus_tag "ECDH10B_RS26070"; product "phe operon leader peptide"; protein_id "WP_010723158.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2827532 2828692 . + . gene_id "ECDH10B_RS14085"; transcript_id ""; gbkey "Gene"; gene "pheA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14085"; old_locus_tag "ECDH10B_2766"; -NC_010473.1 Protein Homology CDS 2827532 2828689 . + 0 gene_id "ECDH10B_RS14085"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pheA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311489.1"; locus_tag "ECDH10B_RS14085"; product "bifunctional chorismate mutase/prephenate dehydratase"; protein_id "WP_000200120.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2827532 2827534 . + 0 gene_id "ECDH10B_RS14085"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pheA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311489.1"; locus_tag "ECDH10B_RS14085"; product "bifunctional chorismate mutase/prephenate dehydratase"; protein_id "WP_000200120.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2828690 2828692 . + 0 gene_id "ECDH10B_RS14085"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pheA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311489.1"; locus_tag "ECDH10B_RS14085"; product "bifunctional chorismate mutase/prephenate dehydratase"; protein_id "WP_000200120.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2828735 2829856 . - . gene_id "ECDH10B_RS14090"; transcript_id ""; gbkey "Gene"; gene "tyrA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14090"; old_locus_tag "ECDH10B_2767"; -NC_010473.1 Protein Homology CDS 2828738 2829856 . - 0 gene_id "ECDH10B_RS14090"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tyrA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417091.1"; locus_tag "ECDH10B_RS14090"; product "bifunctional chorismate mutase/prephenate dehydrogenase"; protein_id "WP_000225229.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2829854 2829856 . - 0 gene_id "ECDH10B_RS14090"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tyrA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417091.1"; locus_tag "ECDH10B_RS14090"; product "bifunctional chorismate mutase/prephenate dehydrogenase"; protein_id "WP_000225229.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2828735 2828737 . - 0 gene_id "ECDH10B_RS14090"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tyrA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417091.1"; locus_tag "ECDH10B_RS14090"; product "bifunctional chorismate mutase/prephenate dehydrogenase"; protein_id "WP_000225229.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2829867 2830937 . - . gene_id "ECDH10B_RS14095"; transcript_id ""; gbkey "Gene"; gene "aroF"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14095"; old_locus_tag "ECDH10B_2768"; -NC_010473.1 Protein Homology CDS 2829870 2830937 . - 0 gene_id "ECDH10B_RS14095"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "aroF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417092.1"; locus_tag "ECDH10B_RS14095"; product "3-deoxy-7-phosphoheptulonate synthase AroF"; protein_id "WP_001168037.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2830935 2830937 . - 0 gene_id "ECDH10B_RS14095"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "aroF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417092.1"; locus_tag "ECDH10B_RS14095"; product "3-deoxy-7-phosphoheptulonate synthase AroF"; protein_id "WP_001168037.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2829867 2829869 . - 0 gene_id "ECDH10B_RS14095"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "aroF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417092.1"; locus_tag "ECDH10B_RS14095"; product "3-deoxy-7-phosphoheptulonate synthase AroF"; protein_id "WP_001168037.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2831147 2831512 . + . gene_id "ECDH10B_RS14100"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14100"; old_locus_tag "ECDH10B_2769"; -NC_010473.1 Protein Homology CDS 2831147 2831509 . + 0 gene_id "ECDH10B_RS14100"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417093.2"; locus_tag "ECDH10B_RS14100"; product "DUF2799 domain-containing protein"; protein_id "WP_000976004.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2831147 2831149 . + 0 gene_id "ECDH10B_RS14100"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417093.2"; locus_tag "ECDH10B_RS14100"; product "DUF2799 domain-containing protein"; protein_id "WP_000976004.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2831510 2831512 . + 0 gene_id "ECDH10B_RS14100"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417093.2"; locus_tag "ECDH10B_RS14100"; product "DUF2799 domain-containing protein"; protein_id "WP_000976004.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2831662 2832180 . + . gene_id "ECDH10B_RS14105"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14105"; old_locus_tag "ECDH10B_2770"; -NC_010473.1 Protein Homology CDS 2831662 2832177 . + 0 gene_id "ECDH10B_RS14105"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311493.1"; locus_tag "ECDH10B_RS14105"; product "YfiR family protein"; protein_id "WP_001212391.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2831662 2831664 . + 0 gene_id "ECDH10B_RS14105"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311493.1"; locus_tag "ECDH10B_RS14105"; product "YfiR family protein"; protein_id "WP_001212391.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2832178 2832180 . + 0 gene_id "ECDH10B_RS14105"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311493.1"; locus_tag "ECDH10B_RS14105"; product "YfiR family protein"; protein_id "WP_001212391.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2832170 2833396 . + . gene_id "ECDH10B_RS14110"; transcript_id ""; gbkey "Gene"; gene "dgcN"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14110"; old_locus_tag "ECDH10B_2771"; -NC_010473.1 Protein Homology CDS 2832170 2833393 . + 0 gene_id "ECDH10B_RS14110"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dgcN"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417095.1"; locus_tag "ECDH10B_RS14110"; product "diguanylate cyclase DgcN"; protein_id "WP_000969032.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2832170 2832172 . + 0 gene_id "ECDH10B_RS14110"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dgcN"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417095.1"; locus_tag "ECDH10B_RS14110"; product "diguanylate cyclase DgcN"; protein_id "WP_000969032.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2833394 2833396 . + 0 gene_id "ECDH10B_RS14110"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dgcN"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417095.1"; locus_tag "ECDH10B_RS14110"; product "diguanylate cyclase DgcN"; protein_id "WP_000969032.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2833412 2833894 . + . gene_id "ECDH10B_RS14115"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14115"; old_locus_tag "ECDH10B_2772"; -NC_010473.1 Protein Homology CDS 2833412 2833891 . + 0 gene_id "ECDH10B_RS14115"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417096.1"; locus_tag "ECDH10B_RS14115"; product "OmpA family protein"; protein_id "WP_000589847.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2833412 2833414 . + 0 gene_id "ECDH10B_RS14115"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417096.1"; locus_tag "ECDH10B_RS14115"; product "OmpA family protein"; protein_id "WP_000589847.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2833892 2833894 . + 0 gene_id "ECDH10B_RS14115"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417096.1"; locus_tag "ECDH10B_RS14115"; product "OmpA family protein"; protein_id "WP_000589847.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2833970 2834317 . - . gene_id "ECDH10B_RS14120"; transcript_id ""; gbkey "Gene"; gene "rplS"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14120"; old_locus_tag "ECDH10B_2773"; -NC_010473.1 Protein Homology CDS 2833973 2834317 . - 0 gene_id "ECDH10B_RS14120"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rplS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_012768745.1"; locus_tag "ECDH10B_RS14120"; product "50S ribosomal protein L19"; protein_id "WP_000065253.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2834315 2834317 . - 0 gene_id "ECDH10B_RS14120"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rplS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_012768745.1"; locus_tag "ECDH10B_RS14120"; product "50S ribosomal protein L19"; protein_id "WP_000065253.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2833970 2833972 . - 0 gene_id "ECDH10B_RS14120"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rplS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_012768745.1"; locus_tag "ECDH10B_RS14120"; product "50S ribosomal protein L19"; protein_id "WP_000065253.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2834359 2835126 . - . gene_id "ECDH10B_RS14125"; transcript_id ""; gbkey "Gene"; gene "trmD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14125"; old_locus_tag "ECDH10B_2774"; -NC_010473.1 Protein Homology CDS 2834362 2835126 . - 0 gene_id "ECDH10B_RS14125"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "trmD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311497.1"; locus_tag "ECDH10B_RS14125"; product "tRNA (guanosine(37)-N1)-methyltransferase TrmD"; protein_id "WP_000264777.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2835124 2835126 . - 0 gene_id "ECDH10B_RS14125"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "trmD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311497.1"; locus_tag "ECDH10B_RS14125"; product "tRNA (guanosine(37)-N1)-methyltransferase TrmD"; protein_id "WP_000264777.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2834359 2834361 . - 0 gene_id "ECDH10B_RS14125"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "trmD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311497.1"; locus_tag "ECDH10B_RS14125"; product "tRNA (guanosine(37)-N1)-methyltransferase TrmD"; protein_id "WP_000264777.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2835157 2835705 . - . gene_id "ECDH10B_RS14130"; transcript_id ""; gbkey "Gene"; gene "rimM"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14130"; old_locus_tag "ECDH10B_2775"; -NC_010473.1 Protein Homology CDS 2835160 2835705 . - 0 gene_id "ECDH10B_RS14130"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rimM"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000043333.1"; locus_tag "ECDH10B_RS14130"; product "ribosome maturation factor RimM"; protein_id "WP_000043335.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2835703 2835705 . - 0 gene_id "ECDH10B_RS14130"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rimM"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000043333.1"; locus_tag "ECDH10B_RS14130"; product "ribosome maturation factor RimM"; protein_id "WP_000043335.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2835157 2835159 . - 0 gene_id "ECDH10B_RS14130"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rimM"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000043333.1"; locus_tag "ECDH10B_RS14130"; product "ribosome maturation factor RimM"; protein_id "WP_000043335.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2835724 2835972 . - . gene_id "ECDH10B_RS14135"; transcript_id ""; gbkey "Gene"; gene "rpsP"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14135"; old_locus_tag "ECDH10B_2776"; -NC_010473.1 Protein Homology CDS 2835727 2835972 . - 0 gene_id "ECDH10B_RS14135"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rpsP"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000256453.1"; locus_tag "ECDH10B_RS14135"; product "30S ribosomal protein S16"; protein_id "WP_000256450.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2835970 2835972 . - 0 gene_id "ECDH10B_RS14135"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rpsP"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000256453.1"; locus_tag "ECDH10B_RS14135"; product "30S ribosomal protein S16"; protein_id "WP_000256450.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2835724 2835726 . - 0 gene_id "ECDH10B_RS14135"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rpsP"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000256453.1"; locus_tag "ECDH10B_RS14135"; product "30S ribosomal protein S16"; protein_id "WP_000256450.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2836221 2837582 . - . gene_id "ECDH10B_RS14140"; transcript_id ""; gbkey "Gene"; gene "ffh"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14140"; old_locus_tag "ECDH10B_2777"; -NC_010473.1 Protein Homology CDS 2836224 2837582 . - 0 gene_id "ECDH10B_RS14140"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ffh"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005130432.1"; locus_tag "ECDH10B_RS14140"; product "signal recognition particle protein"; protein_id "WP_000460035.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2837580 2837582 . - 0 gene_id "ECDH10B_RS14140"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ffh"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005130432.1"; locus_tag "ECDH10B_RS14140"; product "signal recognition particle protein"; protein_id "WP_000460035.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2836221 2836223 . - 0 gene_id "ECDH10B_RS14140"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ffh"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005130432.1"; locus_tag "ECDH10B_RS14140"; product "signal recognition particle protein"; protein_id "WP_000460035.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2837749 2838540 . + . gene_id "ECDH10B_RS14145"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14145"; -NC_010473.1 Protein Homology CDS 2837749 2838537 . + 0 gene_id "ECDH10B_RS14145"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417102.4"; locus_tag "ECDH10B_RS14145"; product "inner membrane protein YpjD"; protein_id "WP_001338897.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2837749 2837751 . + 0 gene_id "ECDH10B_RS14145"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417102.4"; locus_tag "ECDH10B_RS14145"; product "inner membrane protein YpjD"; protein_id "WP_001338897.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2838538 2838540 . + 0 gene_id "ECDH10B_RS14145"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417102.4"; locus_tag "ECDH10B_RS14145"; product "inner membrane protein YpjD"; protein_id "WP_001338897.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2838561 2839847 . + . gene_id "ECDH10B_RS14150"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14150"; old_locus_tag "ECDH10B_2779"; -NC_010473.1 Protein Homology CDS 2838561 2839844 . + 0 gene_id "ECDH10B_RS14150"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026171.3"; locus_tag "ECDH10B_RS14150"; product "HlyC/CorC family transporter"; protein_id "WP_010723175.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2838561 2838563 . + 0 gene_id "ECDH10B_RS14150"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026171.3"; locus_tag "ECDH10B_RS14150"; product "HlyC/CorC family transporter"; protein_id "WP_010723175.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2839845 2839847 . + 0 gene_id "ECDH10B_RS14150"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026171.3"; locus_tag "ECDH10B_RS14150"; product "HlyC/CorC family transporter"; protein_id "WP_010723175.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2839902 2840495 . - . gene_id "ECDH10B_RS14155"; transcript_id ""; gbkey "Gene"; gene "grpE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14155"; old_locus_tag "ECDH10B_2780"; -NC_010473.1 Protein Homology CDS 2839905 2840495 . - 0 gene_id "ECDH10B_RS14155"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "grpE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417104.1"; locus_tag "ECDH10B_RS14155"; product "nucleotide exchange factor GrpE"; protein_id "WP_001393454.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2840493 2840495 . - 0 gene_id "ECDH10B_RS14155"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "grpE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417104.1"; locus_tag "ECDH10B_RS14155"; product "nucleotide exchange factor GrpE"; protein_id "WP_001393454.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2839902 2839904 . - 0 gene_id "ECDH10B_RS14155"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "grpE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417104.1"; locus_tag "ECDH10B_RS14155"; product "nucleotide exchange factor GrpE"; protein_id "WP_001393454.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2840618 2841496 . + . gene_id "ECDH10B_RS14165"; transcript_id ""; gbkey "Gene"; gene "nadK"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14165"; old_locus_tag "ECDH10B_2781"; -NC_010473.1 Protein Homology CDS 2840618 2841493 . + 0 gene_id "ECDH10B_RS14165"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nadK"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_020239499.1"; locus_tag "ECDH10B_RS14165"; product "NAD(+) kinase"; protein_id "WP_001059169.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2840618 2840620 . + 0 gene_id "ECDH10B_RS14165"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nadK"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_020239499.1"; locus_tag "ECDH10B_RS14165"; product "NAD(+) kinase"; protein_id "WP_001059169.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2841494 2841496 . + 0 gene_id "ECDH10B_RS14165"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nadK"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_020239499.1"; locus_tag "ECDH10B_RS14165"; product "NAD(+) kinase"; protein_id "WP_001059169.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2841582 2843243 . + . gene_id "ECDH10B_RS14170"; transcript_id ""; gbkey "Gene"; gene "recN"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14170"; old_locus_tag "ECDH10B_2782"; -NC_010473.1 Protein Homology CDS 2841582 2843240 . + 0 gene_id "ECDH10B_RS14170"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "recN"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026172.1"; locus_tag "ECDH10B_RS14170"; product "DNA repair protein RecN"; protein_id "WP_000880910.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2841582 2841584 . + 0 gene_id "ECDH10B_RS14170"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "recN"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026172.1"; locus_tag "ECDH10B_RS14170"; product "DNA repair protein RecN"; protein_id "WP_000880910.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2843241 2843243 . + 0 gene_id "ECDH10B_RS14170"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "recN"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026172.1"; locus_tag "ECDH10B_RS14170"; product "DNA repair protein RecN"; protein_id "WP_000880910.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2843392 2843733 . + . gene_id "ECDH10B_RS14175"; transcript_id ""; gbkey "Gene"; gene "bamE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14175"; old_locus_tag "ECDH10B_2783"; -NC_010473.1 Protein Homology CDS 2843392 2843730 . + 0 gene_id "ECDH10B_RS14175"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "bamE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417107.2"; locus_tag "ECDH10B_RS14175"; product "outer membrane protein assembly factor BamE"; protein_id "WP_001203437.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2843392 2843394 . + 0 gene_id "ECDH10B_RS14175"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "bamE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417107.2"; locus_tag "ECDH10B_RS14175"; product "outer membrane protein assembly factor BamE"; protein_id "WP_001203437.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2843731 2843733 . + 0 gene_id "ECDH10B_RS14175"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "bamE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417107.2"; locus_tag "ECDH10B_RS14175"; product "outer membrane protein assembly factor BamE"; protein_id "WP_001203437.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2843795 2844085 . - . gene_id "ECDH10B_RS14180"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14180"; old_locus_tag "ECDH10B_2784"; -NC_010473.1 Protein Homology CDS 2843798 2844085 . - 0 gene_id "ECDH10B_RS14180"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417108.4"; locus_tag "ECDH10B_RS14180"; product "RnfH family protein"; protein_id "WP_001117838.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2844083 2844085 . - 0 gene_id "ECDH10B_RS14180"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417108.4"; locus_tag "ECDH10B_RS14180"; product "RnfH family protein"; protein_id "WP_001117838.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2843795 2843797 . - 0 gene_id "ECDH10B_RS14180"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417108.4"; locus_tag "ECDH10B_RS14180"; product "RnfH family protein"; protein_id "WP_001117838.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2844075 2844551 . - . gene_id "ECDH10B_RS14185"; transcript_id ""; gbkey "Gene"; gene "ratA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14185"; old_locus_tag "ECDH10B_2785"; -NC_010473.1 Protein Homology CDS 2844078 2844551 . - 0 gene_id "ECDH10B_RS14185"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ratA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417109.1"; locus_tag "ECDH10B_RS14185"; product "type II toxin-antitoxin system toxin RatA"; protein_id "WP_000600189.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2844549 2844551 . - 0 gene_id "ECDH10B_RS14185"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ratA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417109.1"; locus_tag "ECDH10B_RS14185"; product "type II toxin-antitoxin system toxin RatA"; protein_id "WP_000600189.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2844075 2844077 . - 0 gene_id "ECDH10B_RS14185"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ratA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417109.1"; locus_tag "ECDH10B_RS14185"; product "type II toxin-antitoxin system toxin RatA"; protein_id "WP_000600189.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2844683 2845165 . + . gene_id "ECDH10B_RS14190"; transcript_id ""; gbkey "Gene"; gene "smpB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14190"; old_locus_tag "ECDH10B_2786"; -NC_010473.1 Protein Homology CDS 2844683 2845162 . + 0 gene_id "ECDH10B_RS14190"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "smpB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311509.1"; locus_tag "ECDH10B_RS14190"; product "SsrA-binding protein SmpB"; protein_id "WP_000162574.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2844683 2844685 . + 0 gene_id "ECDH10B_RS14190"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "smpB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311509.1"; locus_tag "ECDH10B_RS14190"; product "SsrA-binding protein SmpB"; protein_id "WP_000162574.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2845163 2845165 . + 0 gene_id "ECDH10B_RS14190"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "smpB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311509.1"; locus_tag "ECDH10B_RS14190"; product "SsrA-binding protein SmpB"; protein_id "WP_000162574.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2845380 2845742 . + . gene_id "ECDH10B_RS23390"; transcript_id ""; gbkey "Gene"; gene "ssrA"; gene_biotype "tmRNA"; locus_tag "ECDH10B_RS23390"; old_locus_tag "ECDH10B_2787"; -NC_010473.1 cmsearch exon 2845380 2845742 . + . gene_id "ECDH10B_RS23390"; transcript_id "ECDH10B_RS23390"; db_xref "RFAM:RF00023"; gbkey "tmRNA"; gene "ssrA"; inference "COORDINATES: nucleotide motif:Rfam:12.0:RF00023"; inference "COORDINATES: profile:INFERNAL:1.1.1"; locus_tag "ECDH10B_RS23390"; product "transfer-messenger RNA"; exon_number "1"; -NC_010473.1 RefSeq gene 2845946 2847187 . + . gene_id "ECDH10B_RS14195"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14195"; -NC_010473.1 Protein Homology CDS 2845946 2847184 . + 0 gene_id "ECDH10B_RS14195"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417111.1"; locus_tag "ECDH10B_RS14195"; product "integrase"; protein_id "WP_000101722.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2845946 2845948 . + 0 gene_id "ECDH10B_RS14195"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417111.1"; locus_tag "ECDH10B_RS14195"; product "integrase"; protein_id "WP_000101722.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2847185 2847187 . + 0 gene_id "ECDH10B_RS14195"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417111.1"; locus_tag "ECDH10B_RS14195"; product "integrase"; protein_id "WP_000101722.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2847431 2848387 . - . gene_id "ECDH10B_RS14200"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14200"; old_locus_tag "ECDH10B_2789"; -NC_010473.1 Protein Homology CDS 2847434 2848387 . - 0 gene_id "ECDH10B_RS14200"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417112.1"; locus_tag "ECDH10B_RS14200"; product "hypothetical protein"; protein_id "WP_000510827.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2848385 2848387 . - 0 gene_id "ECDH10B_RS14200"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417112.1"; locus_tag "ECDH10B_RS14200"; product "hypothetical protein"; protein_id "WP_000510827.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2847431 2847433 . - 0 gene_id "ECDH10B_RS14200"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417112.1"; locus_tag "ECDH10B_RS14200"; product "hypothetical protein"; protein_id "WP_000510827.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2848431 2848643 . + . gene_id "ECDH10B_RS14205"; transcript_id ""; gbkey "Gene"; gene "alpA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14205"; old_locus_tag "ECDH10B_2790"; -NC_010473.1 Protein Homology CDS 2848431 2848640 . + 0 gene_id "ECDH10B_RS14205"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "alpA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417113.1"; locus_tag "ECDH10B_RS14205"; product "DNA-binding transcriptional activator AlpA"; protein_id "WP_001065343.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2848431 2848433 . + 0 gene_id "ECDH10B_RS14205"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "alpA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417113.1"; locus_tag "ECDH10B_RS14205"; product "DNA-binding transcriptional activator AlpA"; protein_id "WP_001065343.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2848641 2848643 . + 0 gene_id "ECDH10B_RS14205"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "alpA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417113.1"; locus_tag "ECDH10B_RS14205"; product "DNA-binding transcriptional activator AlpA"; protein_id "WP_001065343.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2848772 2850181 . + . gene_id "ECDH10B_RS14210"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14210"; old_locus_tag "ECDH10B_2791"; -NC_010473.1 Protein Homology CDS 2848772 2850178 . + 0 gene_id "ECDH10B_RS14210"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417114.1"; locus_tag "ECDH10B_RS14210"; product "DUF3987 domain-containing protein"; protein_id "WP_000481742.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2848772 2848774 . + 0 gene_id "ECDH10B_RS14210"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417114.1"; locus_tag "ECDH10B_RS14210"; product "DUF3987 domain-containing protein"; protein_id "WP_000481742.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2850179 2850181 . + 0 gene_id "ECDH10B_RS14210"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417114.1"; locus_tag "ECDH10B_RS14210"; product "DUF3987 domain-containing protein"; protein_id "WP_000481742.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2850334 2850960 . + . gene_id "ECDH10B_RS14215"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14215"; old_locus_tag "ECDH10B_2792"; -NC_010473.1 Protein Homology CDS 2850334 2850957 . + 0 gene_id "ECDH10B_RS14215"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417115.1"; locus_tag "ECDH10B_RS14215"; product "inovirus Gp2 family protein"; protein_id "WP_000220524.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2850334 2850336 . + 0 gene_id "ECDH10B_RS14215"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417115.1"; locus_tag "ECDH10B_RS14215"; product "inovirus Gp2 family protein"; protein_id "WP_000220524.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2850958 2850960 . + 0 gene_id "ECDH10B_RS14215"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417115.1"; locus_tag "ECDH10B_RS14215"; product "inovirus Gp2 family protein"; protein_id "WP_000220524.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2851138 2853327 . - . gene_id "ECDH10B_RS14220"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14220"; old_locus_tag "ECDH10B_2793"; -NC_010473.1 Protein Homology CDS 2851141 2853327 . - 0 gene_id "ECDH10B_RS14220"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417116.1"; locus_tag "ECDH10B_RS14220"; product "DEAD/DEAH box helicase"; protein_id "WP_000136402.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2853325 2853327 . - 0 gene_id "ECDH10B_RS14220"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417116.1"; locus_tag "ECDH10B_RS14220"; product "DEAD/DEAH box helicase"; protein_id "WP_000136402.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2851138 2851140 . - 0 gene_id "ECDH10B_RS14220"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417116.1"; locus_tag "ECDH10B_RS14220"; product "DEAD/DEAH box helicase"; protein_id "WP_000136402.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2853324 2854940 . - . gene_id "ECDH10B_RS14225"; transcript_id ""; gbkey "Gene"; gene "abpA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14225"; old_locus_tag "ECDH10B_2794"; -NC_010473.1 Protein Homology CDS 2853327 2854940 . - 0 gene_id "ECDH10B_RS14225"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "abpA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417117.1"; locus_tag "ECDH10B_RS14225"; product "anti-bacteriophage protein AbpA"; protein_id "WP_000445380.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2854938 2854940 . - 0 gene_id "ECDH10B_RS14225"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "abpA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417117.1"; locus_tag "ECDH10B_RS14225"; product "anti-bacteriophage protein AbpA"; protein_id "WP_000445380.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2853324 2853326 . - 0 gene_id "ECDH10B_RS14225"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "abpA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417117.1"; locus_tag "ECDH10B_RS14225"; product "anti-bacteriophage protein AbpA"; protein_id "WP_000445380.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2855300 2855563 . - . gene_id "ECDH10B_RS14230"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14230"; old_locus_tag "ECDH10B_2795"; -NC_010473.1 Protein Homology CDS 2855303 2855563 . - 0 gene_id "ECDH10B_RS14230"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417118.1"; locus_tag "ECDH10B_RS14230"; product "DUF1524 domain-containing protein"; protein_id "WP_000502050.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2855561 2855563 . - 0 gene_id "ECDH10B_RS14230"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417118.1"; locus_tag "ECDH10B_RS14230"; product "DUF1524 domain-containing protein"; protein_id "WP_000502050.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2855300 2855302 . - 0 gene_id "ECDH10B_RS14230"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417118.1"; locus_tag "ECDH10B_RS14230"; product "DUF1524 domain-containing protein"; protein_id "WP_000502050.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2855705 2856778 . + . gene_id "ECDH10B_RS14235"; transcript_id ""; gbkey "Gene"; gene "rnlA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14235"; old_locus_tag "ECDH10B_2796"; -NC_010473.1 Protein Homology CDS 2855705 2856775 . + 0 gene_id "ECDH10B_RS14235"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rnlA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417119.1"; locus_tag "ECDH10B_RS14235"; product "type II toxin-antitoxin system toxin mRNA endoribonuclease RnlA"; protein_id "WP_000155570.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2855705 2855707 . + 0 gene_id "ECDH10B_RS14235"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rnlA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417119.1"; locus_tag "ECDH10B_RS14235"; product "type II toxin-antitoxin system toxin mRNA endoribonuclease RnlA"; protein_id "WP_000155570.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2856776 2856778 . + 0 gene_id "ECDH10B_RS14235"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rnlA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417119.1"; locus_tag "ECDH10B_RS14235"; product "type II toxin-antitoxin system toxin mRNA endoribonuclease RnlA"; protein_id "WP_000155570.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2856771 2857142 . + . gene_id "ECDH10B_RS14240"; transcript_id ""; gbkey "Gene"; gene "rnlB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14240"; old_locus_tag "ECDH10B_2797"; -NC_010473.1 Protein Homology CDS 2856771 2857139 . + 0 gene_id "ECDH10B_RS14240"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rnlB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417120.2"; locus_tag "ECDH10B_RS14240"; product "type II toxin-antitoxin system antitoxin RnlB"; protein_id "WP_000461704.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2856771 2856773 . + 0 gene_id "ECDH10B_RS14240"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rnlB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417120.2"; locus_tag "ECDH10B_RS14240"; product "type II toxin-antitoxin system antitoxin RnlB"; protein_id "WP_000461704.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2857140 2857142 . + 0 gene_id "ECDH10B_RS14240"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rnlB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417120.2"; locus_tag "ECDH10B_RS14240"; product "type II toxin-antitoxin system antitoxin RnlB"; protein_id "WP_000461704.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2857497 2858360 . + . gene_id "ECDH10B_RS14245"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14245"; old_locus_tag "ECDH10B_2798"; -NC_010473.1 Protein Homology CDS 2857497 2858357 . + 0 gene_id "ECDH10B_RS14245"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026173.1"; locus_tag "ECDH10B_RS14245"; product "GTPase family protein"; protein_id "WP_000787597.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2857497 2857499 . + 0 gene_id "ECDH10B_RS14245"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026173.1"; locus_tag "ECDH10B_RS14245"; product "GTPase family protein"; protein_id "WP_000787597.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2858358 2858360 . + 0 gene_id "ECDH10B_RS14245"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026173.1"; locus_tag "ECDH10B_RS14245"; product "GTPase family protein"; protein_id "WP_000787597.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2858452 2859273 . + . gene_id "ECDH10B_RS14250"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14250"; old_locus_tag "ECDH10B_2799"; -NC_010473.1 Protein Homology CDS 2858452 2859270 . + 0 gene_id "ECDH10B_RS14250"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417122.1"; locus_tag "ECDH10B_RS14250"; product "DUF945 domain-containing protein"; protein_id "WP_000197391.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2858452 2858454 . + 0 gene_id "ECDH10B_RS14250"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417122.1"; locus_tag "ECDH10B_RS14250"; product "DUF945 domain-containing protein"; protein_id "WP_000197391.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2859271 2859273 . + 0 gene_id "ECDH10B_RS14250"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417122.1"; locus_tag "ECDH10B_RS14250"; product "DUF945 domain-containing protein"; protein_id "WP_000197391.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2859490 2860191 . + . gene_id "ECDH10B_RS14255"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14255"; old_locus_tag "ECDH10B_2800"; -NC_010473.1 Protein Homology CDS 2859490 2860188 . + 0 gene_id "ECDH10B_RS14255"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417123.1"; locus_tag "ECDH10B_RS14255"; product "WYL domain-containing protein"; protein_id "WP_000189409.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2859490 2859492 . + 0 gene_id "ECDH10B_RS14255"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417123.1"; locus_tag "ECDH10B_RS14255"; product "WYL domain-containing protein"; protein_id "WP_000189409.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2860189 2860191 . + 0 gene_id "ECDH10B_RS14255"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417123.1"; locus_tag "ECDH10B_RS14255"; product "WYL domain-containing protein"; protein_id "WP_000189409.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2860232 2860468 . + . gene_id "ECDH10B_RS14260"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14260"; old_locus_tag "ECDH10B_2801"; -NC_010473.1 Protein Homology CDS 2860232 2860465 . + 0 gene_id "ECDH10B_RS14260"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001115854.1"; locus_tag "ECDH10B_RS14260"; product "hypothetical protein"; protein_id "WP_001144029.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2860232 2860234 . + 0 gene_id "ECDH10B_RS14260"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001115854.1"; locus_tag "ECDH10B_RS14260"; product "hypothetical protein"; protein_id "WP_001144029.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2860466 2860468 . + 0 gene_id "ECDH10B_RS14260"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001115854.1"; locus_tag "ECDH10B_RS14260"; product "hypothetical protein"; protein_id "WP_001144029.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2860468 2860911 . + . gene_id "ECDH10B_RS14265"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14265"; old_locus_tag "ECDH10B_2802"; -NC_010473.1 Protein Homology CDS 2860468 2860908 . + 0 gene_id "ECDH10B_RS14265"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417124.4"; locus_tag "ECDH10B_RS14265"; product "hypothetical protein"; protein_id "WP_000824222.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2860468 2860470 . + 0 gene_id "ECDH10B_RS14265"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417124.4"; locus_tag "ECDH10B_RS14265"; product "hypothetical protein"; protein_id "WP_000824222.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2860909 2860911 . + 0 gene_id "ECDH10B_RS14265"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417124.4"; locus_tag "ECDH10B_RS14265"; product "hypothetical protein"; protein_id "WP_000824222.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2860935 2861402 . + . gene_id "ECDH10B_RS14270"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14270"; old_locus_tag "ECDH10B_2803"; -NC_010473.1 Protein Homology CDS 2860935 2861399 . + 0 gene_id "ECDH10B_RS14270"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417125.1"; locus_tag "ECDH10B_RS14270"; product "hypothetical protein"; protein_id "WP_000702495.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2860935 2860937 . + 0 gene_id "ECDH10B_RS14270"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417125.1"; locus_tag "ECDH10B_RS14270"; product "hypothetical protein"; protein_id "WP_000702495.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2861400 2861402 . + 0 gene_id "ECDH10B_RS14270"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417125.1"; locus_tag "ECDH10B_RS14270"; product "hypothetical protein"; protein_id "WP_000702495.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2861627 2861941 . - . gene_id "ECDH10B_RS14275"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14275"; old_locus_tag "ECDH10B_2804"; -NC_010473.1 Protein Homology CDS 2861630 2861941 . - 0 gene_id "ECDH10B_RS14275"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_009518807.1"; locus_tag "ECDH10B_RS14275"; product "arsenate reductase"; protein_id "WP_000065803.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2861939 2861941 . - 0 gene_id "ECDH10B_RS14275"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_009518807.1"; locus_tag "ECDH10B_RS14275"; product "arsenate reductase"; protein_id "WP_000065803.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2861627 2861629 . - 0 gene_id "ECDH10B_RS14275"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_009518807.1"; locus_tag "ECDH10B_RS14275"; product "arsenate reductase"; protein_id "WP_000065803.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2861954 2862963 . - . gene_id "ECDH10B_RS14280"; transcript_id ""; gbkey "Gene"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS14280"; partial "true"; pseudo "true"; -NC_010473.1 Protein Homology CDS 2861957 2862963 . - 0 gene_id "ECDH10B_RS14280"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312401.1"; locus_tag "ECDH10B_RS14280"; note "frameshifted; internal stop; incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "arsenic transporter"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2862961 2862963 . - 0 gene_id "ECDH10B_RS14280"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312401.1"; locus_tag "ECDH10B_RS14280"; note "frameshifted; internal stop; incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "arsenic transporter"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2861954 2861956 . - 0 gene_id "ECDH10B_RS14280"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312401.1"; locus_tag "ECDH10B_RS14280"; note "frameshifted; internal stop; incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "arsenic transporter"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 2863105 2864808 . + . gene_id "ECDH10B_RS14285"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14285"; old_locus_tag "ECDH10B_2809"; -NC_010473.1 Protein Homology CDS 2863105 2864805 . + 0 gene_id "ECDH10B_RS14285"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417129.1"; locus_tag "ECDH10B_RS14285"; product "hypothetical protein"; protein_id "WP_000896263.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2863105 2863107 . + 0 gene_id "ECDH10B_RS14285"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417129.1"; locus_tag "ECDH10B_RS14285"; product "hypothetical protein"; protein_id "WP_000896263.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2864806 2864808 . + 0 gene_id "ECDH10B_RS14285"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417129.1"; locus_tag "ECDH10B_RS14285"; product "hypothetical protein"; protein_id "WP_000896263.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2865380 2865603 . + . gene_id "ECDH10B_RS24540"; transcript_id ""; gbkey "Gene"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS24540"; pseudo "true"; -NC_010473.1 Protein Homology CDS 2865380 2865600 . + 0 gene_id "ECDH10B_RS24540"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_008324838.1"; locus_tag "ECDH10B_RS24540"; note "frameshifted"; product "DUF905 family protein"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2865380 2865382 . + 0 gene_id "ECDH10B_RS24540"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_008324838.1"; locus_tag "ECDH10B_RS24540"; note "frameshifted"; product "DUF905 family protein"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2865601 2865603 . + 0 gene_id "ECDH10B_RS24540"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_008324838.1"; locus_tag "ECDH10B_RS24540"; note "frameshifted"; product "DUF905 family protein"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 2865706 2866164 . + . gene_id "ECDH10B_RS14290"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14290"; old_locus_tag "ECDH10B_2810"; -NC_010473.1 Protein Homology CDS 2865706 2866161 . + 0 gene_id "ECDH10B_RS14290"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417130.1"; locus_tag "ECDH10B_RS14290"; product "antirestriction protein"; protein_id "WP_000211841.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2865706 2865708 . + 0 gene_id "ECDH10B_RS14290"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417130.1"; locus_tag "ECDH10B_RS14290"; product "antirestriction protein"; protein_id "WP_000211841.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2866162 2866164 . + 0 gene_id "ECDH10B_RS14290"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417130.1"; locus_tag "ECDH10B_RS14290"; product "antirestriction protein"; protein_id "WP_000211841.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2866173 2866655 . + . gene_id "ECDH10B_RS14295"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14295"; old_locus_tag "ECDH10B_2811"; -NC_010473.1 Protein Homology CDS 2866173 2866652 . + 0 gene_id "ECDH10B_RS14295"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417131.1"; locus_tag "ECDH10B_RS14295"; product "RadC family protein"; protein_id "WP_001407480.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2866173 2866175 . + 0 gene_id "ECDH10B_RS14295"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417131.1"; locus_tag "ECDH10B_RS14295"; product "RadC family protein"; protein_id "WP_001407480.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2866653 2866655 . + 0 gene_id "ECDH10B_RS14295"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417131.1"; locus_tag "ECDH10B_RS14295"; product "RadC family protein"; protein_id "WP_001407480.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2866664 2866864 . + . gene_id "ECDH10B_RS24545"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS24545"; old_locus_tag "ECDH10B_2812"; -NC_010473.1 Protein Homology CDS 2866664 2866861 . + 0 gene_id "ECDH10B_RS24545"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_588466.1"; locus_tag "ECDH10B_RS24545"; product "DUF987 domain-containing protein"; protein_id "WP_001395452.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2866664 2866666 . + 0 gene_id "ECDH10B_RS24545"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_588466.1"; locus_tag "ECDH10B_RS24545"; product "DUF987 domain-containing protein"; protein_id "WP_001395452.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2866862 2866864 . + 0 gene_id "ECDH10B_RS24545"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_588466.1"; locus_tag "ECDH10B_RS24545"; product "DUF987 domain-containing protein"; protein_id "WP_001395452.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2866902 2867219 . + . gene_id "ECDH10B_RS14300"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14300"; old_locus_tag "ECDH10B_2813"; -NC_010473.1 Protein Homology CDS 2866902 2867216 . + 0 gene_id "ECDH10B_RS14300"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417132.1"; locus_tag "ECDH10B_RS14300"; product "type IV toxin-antitoxin system YeeU family antitoxin"; protein_id "WP_000072690.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2866902 2866904 . + 0 gene_id "ECDH10B_RS14300"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417132.1"; locus_tag "ECDH10B_RS14300"; product "type IV toxin-antitoxin system YeeU family antitoxin"; protein_id "WP_000072690.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2867217 2867219 . + 0 gene_id "ECDH10B_RS14300"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417132.1"; locus_tag "ECDH10B_RS14300"; product "type IV toxin-antitoxin system YeeU family antitoxin"; protein_id "WP_000072690.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2867240 2867569 . + . gene_id "ECDH10B_RS14305"; transcript_id ""; gbkey "Gene"; gene "ypjF"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14305"; old_locus_tag "ECDH10B_2814"; -NC_010473.1 Protein Homology CDS 2867240 2867566 . + 0 gene_id "ECDH10B_RS14305"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ypjF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417133.1"; locus_tag "ECDH10B_RS14305"; product "type IV toxin-antitoxin system toxin YpjF"; protein_id "WP_001094400.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2867240 2867242 . + 0 gene_id "ECDH10B_RS14305"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ypjF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417133.1"; locus_tag "ECDH10B_RS14305"; product "type IV toxin-antitoxin system toxin YpjF"; protein_id "WP_001094400.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2867567 2867569 . + 0 gene_id "ECDH10B_RS14305"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ypjF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417133.1"; locus_tag "ECDH10B_RS14305"; product "type IV toxin-antitoxin system toxin YpjF"; protein_id "WP_001094400.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2867933 2872513 . - . gene_id "ECDH10B_RS23395"; transcript_id ""; gbkey "Gene"; gene "ypjA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS23395"; -NC_010473.1 Protein Homology CDS 2867936 2872513 . - 0 gene_id "ECDH10B_RS23395"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ypjA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417134.2"; locus_tag "ECDH10B_RS23395"; product "adhesin-like autotransporter YpjA/EhaD"; protein_id "WP_010723187.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2872511 2872513 . - 0 gene_id "ECDH10B_RS23395"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ypjA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417134.2"; locus_tag "ECDH10B_RS23395"; product "adhesin-like autotransporter YpjA/EhaD"; protein_id "WP_010723187.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2867933 2867935 . - 0 gene_id "ECDH10B_RS23395"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ypjA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417134.2"; locus_tag "ECDH10B_RS23395"; product "adhesin-like autotransporter YpjA/EhaD"; protein_id "WP_010723187.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2872578 2872697 . - . gene_id "ECDH10B_RS24550"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS24550"; -NC_010473.1 Protein Homology CDS 2872581 2872697 . - 0 gene_id "ECDH10B_RS24550"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001131457.1"; locus_tag "ECDH10B_RS24550"; product "hypothetical protein"; protein_id "WP_001120794.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2872695 2872697 . - 0 gene_id "ECDH10B_RS24550"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001131457.1"; locus_tag "ECDH10B_RS24550"; product "hypothetical protein"; protein_id "WP_001120794.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2872578 2872580 . - 0 gene_id "ECDH10B_RS24550"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001131457.1"; locus_tag "ECDH10B_RS24550"; product "hypothetical protein"; protein_id "WP_001120794.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2872852 2873070 . - . gene_id "ECDH10B_RS24560"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS24560"; old_locus_tag "ECDH10B_2816"; -NC_010473.1 Protein Homology CDS 2872855 2873070 . - 0 gene_id "ECDH10B_RS24560"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000340076.1"; locus_tag "ECDH10B_RS24560"; product "recombinase family protein"; protein_id "WP_071524906.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2873068 2873070 . - 0 gene_id "ECDH10B_RS24560"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000340076.1"; locus_tag "ECDH10B_RS24560"; product "recombinase family protein"; protein_id "WP_071524906.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2872852 2872854 . - 0 gene_id "ECDH10B_RS24560"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000340076.1"; locus_tag "ECDH10B_RS24560"; product "recombinase family protein"; protein_id "WP_071524906.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2873425 2874798 . - . gene_id "ECDH10B_RS26075"; transcript_id ""; gbkey "Gene"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS26075"; old_locus_tag "ECDH10B_2819"; pseudo "true"; -NC_010473.1 Protein Homology CDS 2873428 2874798 . - 0 gene_id "ECDH10B_RS26075"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000961353.1"; locus_tag "ECDH10B_RS26075"; note "internal stop"; product "DUF5507 domain-containing protein"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2874796 2874798 . - 0 gene_id "ECDH10B_RS26075"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000961353.1"; locus_tag "ECDH10B_RS26075"; note "internal stop"; product "DUF5507 domain-containing protein"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2873425 2873427 . - 0 gene_id "ECDH10B_RS26075"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000961353.1"; locus_tag "ECDH10B_RS26075"; note "internal stop"; product "DUF5507 domain-containing protein"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 2875549 2875624 . - . gene_id "ECDH10B_RS14335"; transcript_id ""; gbkey "Gene"; gene_biotype "tRNA"; locus_tag "ECDH10B_RS14335"; old_locus_tag "ECDH10B_2820"; -NC_010473.1 tRNAscan-SE exon 2875549 2875624 . - . gene_id "ECDH10B_RS14335"; transcript_id "ECDH10B_RS14335"; anticodon "(pos:complement(2875589..2875591))"; gbkey "tRNA"; inference "COORDINATES: profile:tRNAscan-SE:2.0.6"; locus_tag "ECDH10B_RS14335"; product "tRNA-Ile"; exon_number "1"; -NC_010473.1 RefSeq gene 2876184 2876516 . + . gene_id "ECDH10B_RS26310"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS26310"; -NC_010473.1 GeneMarkS-2+ CDS 2876184 2876513 . + 0 gene_id "ECDH10B_RS26310"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: ab initio prediction:GeneMarkS-2+"; locus_tag "ECDH10B_RS26310"; product "hypothetical protein"; protein_id "WP_001326687.1"; transl_table "11"; -NC_010473.1 GeneMarkS-2+ start_codon 2876184 2876186 . + 0 gene_id "ECDH10B_RS26310"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: ab initio prediction:GeneMarkS-2+"; locus_tag "ECDH10B_RS26310"; product "hypothetical protein"; protein_id "WP_001326687.1"; transl_table "11"; -NC_010473.1 GeneMarkS-2+ stop_codon 2876514 2876516 . + 0 gene_id "ECDH10B_RS26310"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: ab initio prediction:GeneMarkS-2+"; locus_tag "ECDH10B_RS26310"; product "hypothetical protein"; protein_id "WP_001326687.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2876535 2878436 . + . gene_id "ECDH10B_RS26315"; transcript_id ""; gbkey "Gene"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS26315"; old_locus_tag "ECDH10B_2825"; pseudo "true"; -NC_010473.1 Protein Homology CDS 2876535 2878433 . + 0 gene_id "ECDH10B_RS26315"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001307961.1"; locus_tag "ECDH10B_RS26315"; note "internal stop"; product "alpha amylase C-terminal domain-containing protein"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2876535 2876537 . + 0 gene_id "ECDH10B_RS26315"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001307961.1"; locus_tag "ECDH10B_RS26315"; note "internal stop"; product "alpha amylase C-terminal domain-containing protein"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2878434 2878436 . + 0 gene_id "ECDH10B_RS26315"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001307961.1"; locus_tag "ECDH10B_RS26315"; note "internal stop"; product "alpha amylase C-terminal domain-containing protein"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 2878772 2879749 . + . gene_id "ECDH10B_RS14355"; transcript_id ""; gbkey "Gene"; gene "csiD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14355"; old_locus_tag "ECDH10B_2826"; -NC_010473.1 Protein Homology CDS 2878772 2879746 . + 0 gene_id "ECDH10B_RS14355"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "csiD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417145.4"; locus_tag "ECDH10B_RS14355"; product "carbon starvation induced protein CsiD"; protein_id "WP_000993126.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2878772 2878774 . + 0 gene_id "ECDH10B_RS14355"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "csiD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417145.4"; locus_tag "ECDH10B_RS14355"; product "carbon starvation induced protein CsiD"; protein_id "WP_000993126.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2879747 2879749 . + 0 gene_id "ECDH10B_RS14355"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "csiD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417145.4"; locus_tag "ECDH10B_RS14355"; product "carbon starvation induced protein CsiD"; protein_id "WP_000993126.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2879769 2881037 . + . gene_id "ECDH10B_RS14360"; transcript_id ""; gbkey "Gene"; gene "lhgO"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14360"; old_locus_tag "ECDH10B_2827"; -NC_010473.1 Protein Homology CDS 2879769 2881034 . + 0 gene_id "ECDH10B_RS14360"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lhgO"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417146.2"; locus_tag "ECDH10B_RS14360"; product "L-2-hydroxyglutarate oxidase"; protein_id "WP_000271909.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2879769 2879771 . + 0 gene_id "ECDH10B_RS14360"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lhgO"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417146.2"; locus_tag "ECDH10B_RS14360"; product "L-2-hydroxyglutarate oxidase"; protein_id "WP_000271909.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2881035 2881037 . + 0 gene_id "ECDH10B_RS14360"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lhgO"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417146.2"; locus_tag "ECDH10B_RS14360"; product "L-2-hydroxyglutarate oxidase"; protein_id "WP_000271909.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2881060 2882508 . + . gene_id "ECDH10B_RS14365"; transcript_id ""; gbkey "Gene"; gene "gabD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14365"; -NC_010473.1 Protein Homology CDS 2881060 2882505 . + 0 gene_id "ECDH10B_RS14365"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gabD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417147.1"; locus_tag "ECDH10B_RS14365"; product "NADP-dependent succinate-semialdehyde dehydrogenase"; protein_id "WP_000772830.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2881060 2881062 . + 0 gene_id "ECDH10B_RS14365"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gabD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417147.1"; locus_tag "ECDH10B_RS14365"; product "NADP-dependent succinate-semialdehyde dehydrogenase"; protein_id "WP_000772830.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2882506 2882508 . + 0 gene_id "ECDH10B_RS14365"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gabD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417147.1"; locus_tag "ECDH10B_RS14365"; product "NADP-dependent succinate-semialdehyde dehydrogenase"; protein_id "WP_000772830.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2882522 2883802 . + . gene_id "ECDH10B_RS14370"; transcript_id ""; gbkey "Gene"; gene "gabT"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14370"; old_locus_tag "ECDH10B_2829"; -NC_010473.1 Protein Homology CDS 2882522 2883799 . + 0 gene_id "ECDH10B_RS14370"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gabT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417148.1"; locus_tag "ECDH10B_RS14370"; product "4-aminobutyrate--2-oxoglutarate transaminase"; protein_id "WP_001087611.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2882522 2882524 . + 0 gene_id "ECDH10B_RS14370"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gabT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417148.1"; locus_tag "ECDH10B_RS14370"; product "4-aminobutyrate--2-oxoglutarate transaminase"; protein_id "WP_001087611.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2883800 2883802 . + 0 gene_id "ECDH10B_RS14370"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gabT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417148.1"; locus_tag "ECDH10B_RS14370"; product "4-aminobutyrate--2-oxoglutarate transaminase"; protein_id "WP_001087611.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2884040 2885440 . + . gene_id "ECDH10B_RS14375"; transcript_id ""; gbkey "Gene"; gene "gabP"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14375"; old_locus_tag "ECDH10B_2830"; -NC_010473.1 Protein Homology CDS 2884040 2885437 . + 0 gene_id "ECDH10B_RS14375"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gabP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417149.1"; locus_tag "ECDH10B_RS14375"; product "GABA permease"; protein_id "WP_001295173.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2884040 2884042 . + 0 gene_id "ECDH10B_RS14375"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gabP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417149.1"; locus_tag "ECDH10B_RS14375"; product "GABA permease"; protein_id "WP_001295173.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2885438 2885440 . + 0 gene_id "ECDH10B_RS14375"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gabP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417149.1"; locus_tag "ECDH10B_RS14375"; product "GABA permease"; protein_id "WP_001295173.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2885461 2886123 . + . gene_id "ECDH10B_RS14380"; transcript_id ""; gbkey "Gene"; gene "csiR"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14380"; old_locus_tag "ECDH10B_2831"; -NC_010473.1 Protein Homology CDS 2885461 2886120 . + 0 gene_id "ECDH10B_RS14380"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "csiR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311552.2"; locus_tag "ECDH10B_RS14380"; product "DNA-binding transcriptional regulator CsiR"; protein_id "WP_000156811.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2885461 2885463 . + 0 gene_id "ECDH10B_RS14380"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "csiR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311552.2"; locus_tag "ECDH10B_RS14380"; product "DNA-binding transcriptional regulator CsiR"; protein_id "WP_000156811.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2886121 2886123 . + 0 gene_id "ECDH10B_RS14380"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "csiR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311552.2"; locus_tag "ECDH10B_RS14380"; product "DNA-binding transcriptional regulator CsiR"; protein_id "WP_000156811.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2886124 2886573 . - . gene_id "ECDH10B_RS14385"; transcript_id ""; gbkey "Gene"; gene "kbp"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14385"; old_locus_tag "ECDH10B_2832"; -NC_010473.1 Protein Homology CDS 2886127 2886573 . - 0 gene_id "ECDH10B_RS14385"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "kbp"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417151.1"; locus_tag "ECDH10B_RS14385"; product "potassium binding protein Kbp"; protein_id "WP_000522415.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2886571 2886573 . - 0 gene_id "ECDH10B_RS14385"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "kbp"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417151.1"; locus_tag "ECDH10B_RS14385"; product "potassium binding protein Kbp"; protein_id "WP_000522415.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2886124 2886126 . - 0 gene_id "ECDH10B_RS14385"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "kbp"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417151.1"; locus_tag "ECDH10B_RS14385"; product "potassium binding protein Kbp"; protein_id "WP_000522415.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2886657 2886815 . - . gene_id "ECDH10B_RS14390"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14390"; old_locus_tag "ECDH10B_2833"; -NC_010473.1 Protein Homology CDS 2886660 2886815 . - 0 gene_id "ECDH10B_RS14390"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311554.1"; locus_tag "ECDH10B_RS14390"; product "YqaE/Pmp3 family membrane protein"; protein_id "WP_000508177.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2886813 2886815 . - 0 gene_id "ECDH10B_RS14390"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311554.1"; locus_tag "ECDH10B_RS14390"; product "YqaE/Pmp3 family membrane protein"; protein_id "WP_000508177.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2886657 2886659 . - 0 gene_id "ECDH10B_RS14390"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311554.1"; locus_tag "ECDH10B_RS14390"; product "YqaE/Pmp3 family membrane protein"; protein_id "WP_000508177.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2886998 2887297 . + . gene_id "ECDH10B_RS14395"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14395"; old_locus_tag "ECDH10B_2834"; -NC_010473.1 Protein Homology CDS 2886998 2887294 . + 0 gene_id "ECDH10B_RS14395"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417153.1"; locus_tag "ECDH10B_RS14395"; product "helix-turn-helix transcriptional regulator"; protein_id "WP_000137280.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2886998 2887000 . + 0 gene_id "ECDH10B_RS14395"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417153.1"; locus_tag "ECDH10B_RS14395"; product "helix-turn-helix transcriptional regulator"; protein_id "WP_000137280.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2887295 2887297 . + 0 gene_id "ECDH10B_RS14395"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417153.1"; locus_tag "ECDH10B_RS14395"; product "helix-turn-helix transcriptional regulator"; protein_id "WP_000137280.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2887307 2887831 . + . gene_id "ECDH10B_RS14400"; transcript_id ""; gbkey "Gene"; gene "ygaP"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14400"; old_locus_tag "ECDH10B_2835"; -NC_010473.1 Protein Homology CDS 2887307 2887828 . + 0 gene_id "ECDH10B_RS14400"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ygaP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417154.1"; locus_tag "ECDH10B_RS14400"; product "thiosulfate sulfurtransferase YgaP"; protein_id "WP_001229442.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2887307 2887309 . + 0 gene_id "ECDH10B_RS14400"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ygaP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417154.1"; locus_tag "ECDH10B_RS14400"; product "thiosulfate sulfurtransferase YgaP"; protein_id "WP_001229442.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2887829 2887831 . + 0 gene_id "ECDH10B_RS14400"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ygaP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417154.1"; locus_tag "ECDH10B_RS14400"; product "thiosulfate sulfurtransferase YgaP"; protein_id "WP_001229442.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2887878 2888282 . - . gene_id "ECDH10B_RS14405"; transcript_id ""; gbkey "Gene"; gene "stpA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14405"; old_locus_tag "ECDH10B_2836"; -NC_010473.1 Protein Homology CDS 2887881 2888282 . - 0 gene_id "ECDH10B_RS14405"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "stpA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311557.1"; locus_tag "ECDH10B_RS14405"; product "DNA-binding protein StpA"; protein_id "WP_000115383.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2888280 2888282 . - 0 gene_id "ECDH10B_RS14405"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "stpA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311557.1"; locus_tag "ECDH10B_RS14405"; product "DNA-binding protein StpA"; protein_id "WP_000115383.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2887878 2887880 . - 0 gene_id "ECDH10B_RS14405"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "stpA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311557.1"; locus_tag "ECDH10B_RS14405"; product "DNA-binding protein StpA"; protein_id "WP_000115383.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2888951 2889400 . + . gene_id "ECDH10B_RS14410"; transcript_id ""; gbkey "Gene"; gene "alaE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14410"; old_locus_tag "ECDH10B_2837"; -NC_010473.1 Protein Homology CDS 2888951 2889397 . + 0 gene_id "ECDH10B_RS14410"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "alaE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311558.1"; locus_tag "ECDH10B_RS14410"; product "L-alanine exporter AlaE"; protein_id "WP_000492656.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2888951 2888953 . + 0 gene_id "ECDH10B_RS14410"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "alaE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311558.1"; locus_tag "ECDH10B_RS14410"; product "L-alanine exporter AlaE"; protein_id "WP_000492656.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2889398 2889400 . + 0 gene_id "ECDH10B_RS14410"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "alaE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311558.1"; locus_tag "ECDH10B_RS14410"; product "L-alanine exporter AlaE"; protein_id "WP_000492656.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2889437 2889781 . - . gene_id "ECDH10B_RS14415"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14415"; old_locus_tag "ECDH10B_2838"; -NC_010473.1 Protein Homology CDS 2889440 2889781 . - 0 gene_id "ECDH10B_RS14415"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311559.1"; locus_tag "ECDH10B_RS14415"; product "YgaC family protein"; protein_id "WP_000281320.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2889779 2889781 . - 0 gene_id "ECDH10B_RS14415"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311559.1"; locus_tag "ECDH10B_RS14415"; product "YgaC family protein"; protein_id "WP_000281320.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2889437 2889439 . - 0 gene_id "ECDH10B_RS14415"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311559.1"; locus_tag "ECDH10B_RS14415"; product "YgaC family protein"; protein_id "WP_000281320.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2889933 2890262 . + . gene_id "ECDH10B_RS14420"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14420"; -NC_010473.1 Protein Homology CDS 2889933 2890259 . + 0 gene_id "ECDH10B_RS14420"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311560.2"; locus_tag "ECDH10B_RS14420"; product "DUF883 domain-containing protein"; protein_id "WP_024255351.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2889933 2889935 . + 0 gene_id "ECDH10B_RS14420"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311560.2"; locus_tag "ECDH10B_RS14420"; product "DUF883 domain-containing protein"; protein_id "WP_024255351.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2890260 2890262 . + 0 gene_id "ECDH10B_RS14420"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311560.2"; locus_tag "ECDH10B_RS14420"; product "DUF883 domain-containing protein"; protein_id "WP_024255351.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2890510 2890755 . + . gene_id "ECDH10B_RS14425"; transcript_id ""; gbkey "Gene"; gene "nrdH"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14425"; old_locus_tag "ECDH10B_2840"; -NC_010473.1 Protein Homology CDS 2890510 2890752 . + 0 gene_id "ECDH10B_RS14425"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nrdH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311563.1"; locus_tag "ECDH10B_RS14425"; product "glutaredoxin-like protein NrdH"; protein_id "WP_001223227.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2890510 2890512 . + 0 gene_id "ECDH10B_RS14425"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nrdH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311563.1"; locus_tag "ECDH10B_RS14425"; product "glutaredoxin-like protein NrdH"; protein_id "WP_001223227.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2890753 2890755 . + 0 gene_id "ECDH10B_RS14425"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nrdH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311563.1"; locus_tag "ECDH10B_RS14425"; product "glutaredoxin-like protein NrdH"; protein_id "WP_001223227.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2890752 2891162 . + . gene_id "ECDH10B_RS14430"; transcript_id ""; gbkey "Gene"; gene "nrdI"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14430"; old_locus_tag "ECDH10B_2841"; -NC_010473.1 Protein Homology CDS 2890752 2891159 . + 0 gene_id "ECDH10B_RS14430"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nrdI"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311564.1"; locus_tag "ECDH10B_RS14430"; product "class Ib ribonucleoside-diphosphate reductase assembly flavoprotein NrdI"; protein_id "WP_000080947.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2890752 2890754 . + 0 gene_id "ECDH10B_RS14430"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nrdI"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311564.1"; locus_tag "ECDH10B_RS14430"; product "class Ib ribonucleoside-diphosphate reductase assembly flavoprotein NrdI"; protein_id "WP_000080947.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2891160 2891162 . + 0 gene_id "ECDH10B_RS14430"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nrdI"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311564.1"; locus_tag "ECDH10B_RS14430"; product "class Ib ribonucleoside-diphosphate reductase assembly flavoprotein NrdI"; protein_id "WP_000080947.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2891135 2893279 . + . gene_id "ECDH10B_RS14435"; transcript_id ""; gbkey "Gene"; gene "nrdE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14435"; old_locus_tag "ECDH10B_2842"; -NC_010473.1 Protein Homology CDS 2891135 2893276 . + 0 gene_id "ECDH10B_RS14435"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nrdE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417161.1"; locus_tag "ECDH10B_RS14435"; product "class 1b ribonucleoside-diphosphate reductase subunit alpha"; protein_id "WP_000246534.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2891135 2891137 . + 0 gene_id "ECDH10B_RS14435"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nrdE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417161.1"; locus_tag "ECDH10B_RS14435"; product "class 1b ribonucleoside-diphosphate reductase subunit alpha"; protein_id "WP_000246534.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2893277 2893279 . + 0 gene_id "ECDH10B_RS14435"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nrdE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417161.1"; locus_tag "ECDH10B_RS14435"; product "class 1b ribonucleoside-diphosphate reductase subunit alpha"; protein_id "WP_000246534.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2893289 2894248 . + . gene_id "ECDH10B_RS14440"; transcript_id ""; gbkey "Gene"; gene "nrdF"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14440"; old_locus_tag "ECDH10B_2843"; -NC_010473.1 Protein Homology CDS 2893289 2894245 . + 0 gene_id "ECDH10B_RS14440"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nrdF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417162.1"; locus_tag "ECDH10B_RS14440"; product "class 1b ribonucleoside-diphosphate reductase subunit beta"; protein_id "WP_000777969.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2893289 2893291 . + 0 gene_id "ECDH10B_RS14440"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nrdF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417162.1"; locus_tag "ECDH10B_RS14440"; product "class 1b ribonucleoside-diphosphate reductase subunit beta"; protein_id "WP_000777969.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2894246 2894248 . + 0 gene_id "ECDH10B_RS14440"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nrdF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417162.1"; locus_tag "ECDH10B_RS14440"; product "class 1b ribonucleoside-diphosphate reductase subunit beta"; protein_id "WP_000777969.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2894602 2895597 . + . gene_id "ECDH10B_RS14445"; transcript_id ""; gbkey "Gene"; gene "proV"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS14445"; partial "true"; pseudo "true"; -NC_010473.1 Protein Homology CDS 2894602 2895594 . + 0 gene_id "ECDH10B_RS14445"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "proV"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417163.1"; locus_tag "ECDH10B_RS14445"; note "incomplete; partial in the middle of a contig; missing C-terminus"; partial "true"; product "glycine betaine/L-proline ABC transporter ATP-binding protein ProV"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2894602 2894604 . + 0 gene_id "ECDH10B_RS14445"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "proV"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417163.1"; locus_tag "ECDH10B_RS14445"; note "incomplete; partial in the middle of a contig; missing C-terminus"; partial "true"; product "glycine betaine/L-proline ABC transporter ATP-binding protein ProV"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2895595 2895597 . + 0 gene_id "ECDH10B_RS14445"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "proV"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417163.1"; locus_tag "ECDH10B_RS14445"; note "incomplete; partial in the middle of a contig; missing C-terminus"; partial "true"; product "glycine betaine/L-proline ABC transporter ATP-binding protein ProV"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 2895653 2896350 . + . gene_id "ECDH10B_RS14450"; transcript_id ""; gbkey "Gene"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS14450"; pseudo "true"; -NC_010473.1 Protein Homology CDS 2895653 2896347 . + 0 gene_id "ECDH10B_RS14450"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_076612230.1"; locus_tag "ECDH10B_RS14450"; note "frameshifted"; product "IS1-like element IS1A family transposase"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2895653 2895655 . + 0 gene_id "ECDH10B_RS14450"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_076612230.1"; locus_tag "ECDH10B_RS14450"; note "frameshifted"; product "IS1-like element IS1A family transposase"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2896348 2896350 . + 0 gene_id "ECDH10B_RS14450"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_076612230.1"; locus_tag "ECDH10B_RS14450"; note "frameshifted"; product "IS1-like element IS1A family transposase"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 2896366 2896581 . + . gene_id "ECDH10B_RS25665"; transcript_id ""; gbkey "Gene"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS25665"; partial "true"; pseudo "true"; -NC_010473.1 Protein Homology CDS 2896366 2896578 . + 0 gene_id "ECDH10B_RS25665"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311567.1"; locus_tag "ECDH10B_RS25665"; note "incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "CBS domain-containing protein"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2896366 2896368 . + 0 gene_id "ECDH10B_RS25665"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311567.1"; locus_tag "ECDH10B_RS25665"; note "incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "CBS domain-containing protein"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2896579 2896581 . + 0 gene_id "ECDH10B_RS25665"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311567.1"; locus_tag "ECDH10B_RS25665"; note "incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "CBS domain-containing protein"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 2896574 2897638 . + . gene_id "ECDH10B_RS14455"; transcript_id ""; gbkey "Gene"; gene "proW"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14455"; old_locus_tag "ECDH10B_2844"; -NC_010473.1 Protein Homology CDS 2896574 2897635 . + 0 gene_id "ECDH10B_RS14455"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "proW"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417164.1"; locus_tag "ECDH10B_RS14455"; product "glycine betaine/L-proline ABC transporter permease ProW"; protein_id "WP_000774988.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2896574 2896576 . + 0 gene_id "ECDH10B_RS14455"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "proW"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417164.1"; locus_tag "ECDH10B_RS14455"; product "glycine betaine/L-proline ABC transporter permease ProW"; protein_id "WP_000774988.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2897636 2897638 . + 0 gene_id "ECDH10B_RS14455"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "proW"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417164.1"; locus_tag "ECDH10B_RS14455"; product "glycine betaine/L-proline ABC transporter permease ProW"; protein_id "WP_000774988.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2897696 2898688 . + . gene_id "ECDH10B_RS14460"; transcript_id ""; gbkey "Gene"; gene "proX"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14460"; old_locus_tag "ECDH10B_2845"; -NC_010473.1 Protein Homology CDS 2897696 2898685 . + 0 gene_id "ECDH10B_RS14460"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "proX"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311569.1"; locus_tag "ECDH10B_RS14460"; product "glycine betaine/L-proline ABC transporter substrate-binding protein ProX"; protein_id "WP_001216525.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2897696 2897698 . + 0 gene_id "ECDH10B_RS14460"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "proX"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311569.1"; locus_tag "ECDH10B_RS14460"; product "glycine betaine/L-proline ABC transporter substrate-binding protein ProX"; protein_id "WP_001216525.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2898686 2898688 . + 0 gene_id "ECDH10B_RS14460"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "proX"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311569.1"; locus_tag "ECDH10B_RS14460"; product "glycine betaine/L-proline ABC transporter substrate-binding protein ProX"; protein_id "WP_001216525.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2898880 2900057 . + . gene_id "ECDH10B_RS14465"; transcript_id ""; gbkey "Gene"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS14465"; old_locus_tag "ECDH10B_2848"; pseudo "true"; -NC_010473.1 Protein Homology CDS 2898880 2900054 . + 0 gene_id "ECDH10B_RS14465"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311570.1"; locus_tag "ECDH10B_RS14465"; note "frameshifted"; product "MFS transporter"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2898880 2898882 . + 0 gene_id "ECDH10B_RS14465"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311570.1"; locus_tag "ECDH10B_RS14465"; note "frameshifted"; product "MFS transporter"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2900055 2900057 . + 0 gene_id "ECDH10B_RS14465"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311570.1"; locus_tag "ECDH10B_RS14465"; note "frameshifted"; product "MFS transporter"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 2900181 2900918 . + . gene_id "ECDH10B_RS14470"; transcript_id ""; gbkey "Gene"; gene "ygaZ"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14470"; old_locus_tag "ECDH10B_2849"; -NC_010473.1 Protein Homology CDS 2900181 2900915 . + 0 gene_id "ECDH10B_RS14470"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ygaZ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417167.1"; locus_tag "ECDH10B_RS14470"; product "L-valine exporter subunit YgaZ"; protein_id "WP_000445651.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2900181 2900183 . + 0 gene_id "ECDH10B_RS14470"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ygaZ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417167.1"; locus_tag "ECDH10B_RS14470"; product "L-valine exporter subunit YgaZ"; protein_id "WP_000445651.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2900916 2900918 . + 0 gene_id "ECDH10B_RS14470"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ygaZ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417167.1"; locus_tag "ECDH10B_RS14470"; product "L-valine exporter subunit YgaZ"; protein_id "WP_000445651.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2900908 2901243 . + . gene_id "ECDH10B_RS14475"; transcript_id ""; gbkey "Gene"; gene "ygaH"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14475"; old_locus_tag "ECDH10B_2850"; -NC_010473.1 Protein Homology CDS 2900908 2901240 . + 0 gene_id "ECDH10B_RS14475"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ygaH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417168.1"; locus_tag "ECDH10B_RS14475"; product "L-valine transporter subunit YgaH"; protein_id "WP_000119763.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2900908 2900910 . + 0 gene_id "ECDH10B_RS14475"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ygaH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417168.1"; locus_tag "ECDH10B_RS14475"; product "L-valine transporter subunit YgaH"; protein_id "WP_000119763.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2901241 2901243 . + 0 gene_id "ECDH10B_RS14475"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ygaH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417168.1"; locus_tag "ECDH10B_RS14475"; product "L-valine transporter subunit YgaH"; protein_id "WP_000119763.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2901334 2901864 . + . gene_id "ECDH10B_RS14480"; transcript_id ""; gbkey "Gene"; gene "emrR"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14480"; -NC_010473.1 Protein Homology CDS 2901334 2901861 . + 0 gene_id "ECDH10B_RS14480"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "emrR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311573.1"; locus_tag "ECDH10B_RS14480"; product "multidrug efflux transporter EmrAB transcriptional repressor EmrR"; protein_id "WP_000378442.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2901334 2901336 . + 0 gene_id "ECDH10B_RS14480"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "emrR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311573.1"; locus_tag "ECDH10B_RS14480"; product "multidrug efflux transporter EmrAB transcriptional repressor EmrR"; protein_id "WP_000378442.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2901862 2901864 . + 0 gene_id "ECDH10B_RS14480"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "emrR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311573.1"; locus_tag "ECDH10B_RS14480"; product "multidrug efflux transporter EmrAB transcriptional repressor EmrR"; protein_id "WP_000378442.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2901991 2903163 . + . gene_id "ECDH10B_RS14485"; transcript_id ""; gbkey "Gene"; gene "emrA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14485"; old_locus_tag "ECDH10B_2852"; -NC_010473.1 Protein Homology CDS 2901991 2903160 . + 0 gene_id "ECDH10B_RS14485"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "emrA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417170.1"; locus_tag "ECDH10B_RS14485"; product "multidrug efflux MFS transporter periplasmic adaptor subunit EmrA"; protein_id "WP_001326681.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2901991 2901993 . + 0 gene_id "ECDH10B_RS14485"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "emrA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417170.1"; locus_tag "ECDH10B_RS14485"; product "multidrug efflux MFS transporter periplasmic adaptor subunit EmrA"; protein_id "WP_001326681.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2903161 2903163 . + 0 gene_id "ECDH10B_RS14485"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "emrA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417170.1"; locus_tag "ECDH10B_RS14485"; product "multidrug efflux MFS transporter periplasmic adaptor subunit EmrA"; protein_id "WP_001326681.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2903180 2904718 . + . gene_id "ECDH10B_RS14490"; transcript_id ""; gbkey "Gene"; gene "emrB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14490"; old_locus_tag "ECDH10B_2853"; -NC_010473.1 Protein Homology CDS 2903180 2904715 . + 0 gene_id "ECDH10B_RS14490"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "emrB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311575.1"; locus_tag "ECDH10B_RS14490"; product "multidrug efflux MFS transporter permease subunit EmrB"; protein_id "WP_001295176.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2903180 2903182 . + 0 gene_id "ECDH10B_RS14490"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "emrB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311575.1"; locus_tag "ECDH10B_RS14490"; product "multidrug efflux MFS transporter permease subunit EmrB"; protein_id "WP_001295176.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2904716 2904718 . + 0 gene_id "ECDH10B_RS14490"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "emrB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311575.1"; locus_tag "ECDH10B_RS14490"; product "multidrug efflux MFS transporter permease subunit EmrB"; protein_id "WP_001295176.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2904782 2905297 . - . gene_id "ECDH10B_RS14495"; transcript_id ""; gbkey "Gene"; gene "luxS"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14495"; old_locus_tag "ECDH10B_2854"; -NC_010473.1 Protein Homology CDS 2904785 2905297 . - 0 gene_id "ECDH10B_RS14495"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "luxS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_008458247.1"; locus_tag "ECDH10B_RS14495"; product "S-ribosylhomocysteine lyase"; protein_id "WP_001130211.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2905295 2905297 . - 0 gene_id "ECDH10B_RS14495"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "luxS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_008458247.1"; locus_tag "ECDH10B_RS14495"; product "S-ribosylhomocysteine lyase"; protein_id "WP_001130211.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2904782 2904784 . - 0 gene_id "ECDH10B_RS14495"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "luxS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_008458247.1"; locus_tag "ECDH10B_RS14495"; product "S-ribosylhomocysteine lyase"; protein_id "WP_001130211.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2905447 2907003 . - . gene_id "ECDH10B_RS14500"; transcript_id ""; gbkey "Gene"; gene "gshA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14500"; old_locus_tag "ECDH10B_2856"; -NC_010473.1 Protein Homology CDS 2905450 2907003 . - 0 gene_id "ECDH10B_RS14500"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gshA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417173.1"; locus_tag "ECDH10B_RS14500"; product "glutamate--cysteine ligase"; protein_id "WP_000611804.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2907001 2907003 . - 0 gene_id "ECDH10B_RS14500"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gshA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417173.1"; locus_tag "ECDH10B_RS14500"; product "glutamate--cysteine ligase"; protein_id "WP_000611804.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2905447 2905449 . - 0 gene_id "ECDH10B_RS14500"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gshA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417173.1"; locus_tag "ECDH10B_RS14500"; product "glutamate--cysteine ligase"; protein_id "WP_000611804.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2907076 2907504 . - . gene_id "ECDH10B_RS14505"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14505"; old_locus_tag "ECDH10B_2857"; -NC_010473.1 Protein Homology CDS 2907079 2907504 . - 0 gene_id "ECDH10B_RS14505"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417174.1"; locus_tag "ECDH10B_RS14505"; product "DedA family protein"; protein_id "WP_001287454.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2907502 2907504 . - 0 gene_id "ECDH10B_RS14505"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417174.1"; locus_tag "ECDH10B_RS14505"; product "DedA family protein"; protein_id "WP_001287454.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2907076 2907078 . - 0 gene_id "ECDH10B_RS14505"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417174.1"; locus_tag "ECDH10B_RS14505"; product "DedA family protein"; protein_id "WP_001287454.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2907501 2908067 . - . gene_id "ECDH10B_RS14510"; transcript_id ""; gbkey "Gene"; gene "yqaB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14510"; old_locus_tag "ECDH10B_2858"; -NC_010473.1 Protein Homology CDS 2907504 2908067 . - 0 gene_id "ECDH10B_RS14510"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yqaB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417175.1"; locus_tag "ECDH10B_RS14510"; product "fructose-1-phosphate/6-phosphogluconate phosphatase"; protein_id "WP_000273290.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2908065 2908067 . - 0 gene_id "ECDH10B_RS14510"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yqaB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417175.1"; locus_tag "ECDH10B_RS14510"; product "fructose-1-phosphate/6-phosphogluconate phosphatase"; protein_id "WP_000273290.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2907501 2907503 . - 0 gene_id "ECDH10B_RS14510"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yqaB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417175.1"; locus_tag "ECDH10B_RS14510"; product "fructose-1-phosphate/6-phosphogluconate phosphatase"; protein_id "WP_000273290.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2908348 2908424 . - . gene_id "ECDH10B_RS14515"; transcript_id ""; gbkey "Gene"; gene_biotype "tRNA"; locus_tag "ECDH10B_RS14515"; old_locus_tag "ECDH10B_2859"; -NC_010473.1 tRNAscan-SE exon 2908348 2908424 . - . gene_id "ECDH10B_RS14515"; transcript_id "ECDH10B_RS14515"; anticodon "(pos:complement(2908388..2908390))"; gbkey "tRNA"; inference "COORDINATES: profile:tRNAscan-SE:2.0.6"; locus_tag "ECDH10B_RS14515"; product "tRNA-Arg"; exon_number "1"; -NC_010473.1 RefSeq gene 2908623 2908699 . - . gene_id "ECDH10B_RS14520"; transcript_id ""; gbkey "Gene"; gene_biotype "tRNA"; locus_tag "ECDH10B_RS14520"; old_locus_tag "ECDH10B_2860"; -NC_010473.1 tRNAscan-SE exon 2908623 2908699 . - . gene_id "ECDH10B_RS14520"; transcript_id "ECDH10B_RS14520"; anticodon "(pos:complement(2908663..2908665))"; gbkey "tRNA"; inference "COORDINATES: profile:tRNAscan-SE:2.0.6"; locus_tag "ECDH10B_RS14520"; product "tRNA-Arg"; exon_number "1"; -NC_010473.1 RefSeq gene 2908762 2908838 . - . gene_id "ECDH10B_RS14525"; transcript_id ""; gbkey "Gene"; gene_biotype "tRNA"; locus_tag "ECDH10B_RS14525"; old_locus_tag "ECDH10B_2861"; -NC_010473.1 tRNAscan-SE exon 2908762 2908838 . - . gene_id "ECDH10B_RS14525"; transcript_id "ECDH10B_RS14525"; anticodon "(pos:complement(2908802..2908804))"; gbkey "tRNA"; inference "COORDINATES: profile:tRNAscan-SE:2.0.6"; locus_tag "ECDH10B_RS14525"; product "tRNA-Arg"; exon_number "1"; -NC_010473.1 RefSeq gene 2909037 2909113 . - . gene_id "ECDH10B_RS14530"; transcript_id ""; gbkey "Gene"; gene_biotype "tRNA"; locus_tag "ECDH10B_RS14530"; old_locus_tag "ECDH10B_2862"; -NC_010473.1 tRNAscan-SE exon 2909037 2909113 . - . gene_id "ECDH10B_RS14530"; transcript_id "ECDH10B_RS14530"; anticodon "(pos:complement(2909077..2909079))"; gbkey "tRNA"; inference "COORDINATES: profile:tRNAscan-SE:2.0.6"; locus_tag "ECDH10B_RS14530"; product "tRNA-Arg"; exon_number "1"; -NC_010473.1 RefSeq gene 2909117 2909209 . - . gene_id "ECDH10B_RS14535"; transcript_id ""; gbkey "Gene"; gene_biotype "tRNA"; locus_tag "ECDH10B_RS14535"; old_locus_tag "ECDH10B_2863"; -NC_010473.1 tRNAscan-SE exon 2909117 2909209 . - . gene_id "ECDH10B_RS14535"; transcript_id "ECDH10B_RS14535"; anticodon "(pos:complement(2909173..2909175))"; gbkey "tRNA"; inference "COORDINATES: profile:tRNAscan-SE:2.0.6"; locus_tag "ECDH10B_RS14535"; product "tRNA-Ser"; exon_number "1"; -NC_010473.1 RefSeq gene 2909525 2909710 . - . gene_id "ECDH10B_RS14540"; transcript_id ""; gbkey "Gene"; gene "csrA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14540"; old_locus_tag "ECDH10B_2864"; -NC_010473.1 Protein Homology CDS 2909528 2909710 . - 0 gene_id "ECDH10B_RS14540"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "csrA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001774971.1"; locus_tag "ECDH10B_RS14540"; product "carbon storage regulator CsrA"; protein_id "WP_000906486.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2909708 2909710 . - 0 gene_id "ECDH10B_RS14540"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "csrA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001774971.1"; locus_tag "ECDH10B_RS14540"; product "carbon storage regulator CsrA"; protein_id "WP_000906486.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2909525 2909527 . - 0 gene_id "ECDH10B_RS14540"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "csrA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001774971.1"; locus_tag "ECDH10B_RS14540"; product "carbon storage regulator CsrA"; protein_id "WP_000906486.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2909945 2912575 . - . gene_id "ECDH10B_RS14545"; transcript_id ""; gbkey "Gene"; gene "alaS"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14545"; old_locus_tag "ECDH10B_2865"; -NC_010473.1 Protein Homology CDS 2909948 2912575 . - 0 gene_id "ECDH10B_RS14545"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "alaS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417177.1"; locus_tag "ECDH10B_RS14545"; product "alanine--tRNA ligase"; protein_id "WP_000047184.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2912573 2912575 . - 0 gene_id "ECDH10B_RS14545"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "alaS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417177.1"; locus_tag "ECDH10B_RS14545"; product "alanine--tRNA ligase"; protein_id "WP_000047184.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2909945 2909947 . - 0 gene_id "ECDH10B_RS14545"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "alaS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417177.1"; locus_tag "ECDH10B_RS14545"; product "alanine--tRNA ligase"; protein_id "WP_000047184.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2912703 2913203 . - . gene_id "ECDH10B_RS14555"; transcript_id ""; gbkey "Gene"; gene "recX"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14555"; old_locus_tag "ECDH10B_2866"; -NC_010473.1 Protein Homology CDS 2912706 2913203 . - 0 gene_id "ECDH10B_RS14555"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "recX"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417178.1"; locus_tag "ECDH10B_RS14555"; product "recombination regulator RecX"; protein_id "WP_000140508.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2913201 2913203 . - 0 gene_id "ECDH10B_RS14555"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "recX"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417178.1"; locus_tag "ECDH10B_RS14555"; product "recombination regulator RecX"; protein_id "WP_000140508.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2912703 2912705 . - 0 gene_id "ECDH10B_RS14555"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "recX"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417178.1"; locus_tag "ECDH10B_RS14555"; product "recombination regulator RecX"; protein_id "WP_000140508.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2913272 2914333 . - . gene_id "ECDH10B_RS14560"; transcript_id ""; gbkey "Gene"; gene "recA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14560"; -NC_010473.1 Protein Homology CDS 2913275 2914333 . - 0 gene_id "ECDH10B_RS14560"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "recA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311583.1"; locus_tag "ECDH10B_RS14560"; product "recombinase RecA"; protein_id "WP_000963138.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2914331 2914333 . - 0 gene_id "ECDH10B_RS14560"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "recA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311583.1"; locus_tag "ECDH10B_RS14560"; product "recombinase RecA"; protein_id "WP_000963138.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2913272 2913274 . - 0 gene_id "ECDH10B_RS14560"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "recA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311583.1"; locus_tag "ECDH10B_RS14560"; product "recombinase RecA"; protein_id "WP_000963138.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2914413 2914910 . - . gene_id "ECDH10B_RS14565"; transcript_id ""; gbkey "Gene"; gene "pncC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14565"; old_locus_tag "ECDH10B_2868"; -NC_010473.1 Protein Homology CDS 2914416 2914910 . - 0 gene_id "ECDH10B_RS14565"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pncC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417180.1"; locus_tag "ECDH10B_RS14565"; product "nicotinamide-nucleotide amidase"; protein_id "WP_000132231.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2914908 2914910 . - 0 gene_id "ECDH10B_RS14565"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pncC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417180.1"; locus_tag "ECDH10B_RS14565"; product "nicotinamide-nucleotide amidase"; protein_id "WP_000132231.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2914413 2914415 . - 0 gene_id "ECDH10B_RS14565"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pncC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417180.1"; locus_tag "ECDH10B_RS14565"; product "nicotinamide-nucleotide amidase"; protein_id "WP_000132231.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2915055 2916140 . - . gene_id "ECDH10B_RS14570"; transcript_id ""; gbkey "Gene"; gene "mltB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14570"; old_locus_tag "ECDH10B_2869"; -NC_010473.1 Protein Homology CDS 2915058 2916140 . - 0 gene_id "ECDH10B_RS14570"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mltB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417181.1"; locus_tag "ECDH10B_RS14570"; product "lytic murein transglycosylase B"; protein_id "WP_001295177.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2916138 2916140 . - 0 gene_id "ECDH10B_RS14570"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mltB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417181.1"; locus_tag "ECDH10B_RS14570"; product "lytic murein transglycosylase B"; protein_id "WP_001295177.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2915055 2915057 . - 0 gene_id "ECDH10B_RS14570"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mltB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417181.1"; locus_tag "ECDH10B_RS14570"; product "lytic murein transglycosylase B"; protein_id "WP_001295177.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2916396 2916959 . + . gene_id "ECDH10B_RS14575"; transcript_id ""; gbkey "Gene"; gene "srlA"; gene_biotype "protein_coding"; gene_synonym "gutA"; locus_tag "ECDH10B_RS14575"; old_locus_tag "ECDH10B_2870"; -NC_010473.1 Protein Homology CDS 2916396 2916956 . + 0 gene_id "ECDH10B_RS14575"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "srlA"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026180.1"; locus_tag "ECDH10B_RS14575"; product "PTS glucitol/sorbitol transporter subunit IIC"; protein_id "WP_000573321.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2916396 2916398 . + 0 gene_id "ECDH10B_RS14575"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "srlA"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026180.1"; locus_tag "ECDH10B_RS14575"; product "PTS glucitol/sorbitol transporter subunit IIC"; protein_id "WP_000573321.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2916957 2916959 . + 0 gene_id "ECDH10B_RS14575"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "srlA"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026180.1"; locus_tag "ECDH10B_RS14575"; product "PTS glucitol/sorbitol transporter subunit IIC"; protein_id "WP_000573321.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2916956 2917915 . + . gene_id "ECDH10B_RS14580"; transcript_id ""; gbkey "Gene"; gene "srlE"; gene_biotype "protein_coding"; gene_synonym "gutE"; locus_tag "ECDH10B_RS14580"; old_locus_tag "ECDH10B_2871"; -NC_010473.1 Protein Homology CDS 2916956 2917912 . + 0 gene_id "ECDH10B_RS14580"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "srlE"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026181.1"; locus_tag "ECDH10B_RS14580"; product "PTS glucitol/sorbitol transporter subunit IIB"; protein_id "WP_000148878.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2916956 2916958 . + 0 gene_id "ECDH10B_RS14580"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "srlE"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026181.1"; locus_tag "ECDH10B_RS14580"; product "PTS glucitol/sorbitol transporter subunit IIB"; protein_id "WP_000148878.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2917913 2917915 . + 0 gene_id "ECDH10B_RS14580"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "srlE"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026181.1"; locus_tag "ECDH10B_RS14580"; product "PTS glucitol/sorbitol transporter subunit IIB"; protein_id "WP_000148878.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2917926 2918297 . + . gene_id "ECDH10B_RS14585"; transcript_id ""; gbkey "Gene"; gene "srlB"; gene_biotype "protein_coding"; gene_synonym "gutB"; locus_tag "ECDH10B_RS14585"; old_locus_tag "ECDH10B_2872"; -NC_010473.1 Protein Homology CDS 2917926 2918294 . + 0 gene_id "ECDH10B_RS14585"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "srlB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417184.1"; locus_tag "ECDH10B_RS14585"; product "PTS glucitol/sorbitol transporter subunit IIA"; protein_id "WP_000216194.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2917926 2917928 . + 0 gene_id "ECDH10B_RS14585"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "srlB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417184.1"; locus_tag "ECDH10B_RS14585"; product "PTS glucitol/sorbitol transporter subunit IIA"; protein_id "WP_000216194.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2918295 2918297 . + 0 gene_id "ECDH10B_RS14585"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "srlB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417184.1"; locus_tag "ECDH10B_RS14585"; product "PTS glucitol/sorbitol transporter subunit IIA"; protein_id "WP_000216194.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2918301 2919080 . + . gene_id "ECDH10B_RS14590"; transcript_id ""; gbkey "Gene"; gene "srlD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14590"; old_locus_tag "ECDH10B_2873"; -NC_010473.1 Protein Homology CDS 2918301 2919077 . + 0 gene_id "ECDH10B_RS14590"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "srlD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417185.1"; locus_tag "ECDH10B_RS14590"; product "sorbitol-6-phosphate dehydrogenase"; protein_id "WP_001077358.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2918301 2918303 . + 0 gene_id "ECDH10B_RS14590"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "srlD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417185.1"; locus_tag "ECDH10B_RS14590"; product "sorbitol-6-phosphate dehydrogenase"; protein_id "WP_001077358.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2919078 2919080 . + 0 gene_id "ECDH10B_RS14590"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "srlD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417185.1"; locus_tag "ECDH10B_RS14590"; product "sorbitol-6-phosphate dehydrogenase"; protein_id "WP_001077358.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2919185 2919544 . + . gene_id "ECDH10B_RS14595"; transcript_id ""; gbkey "Gene"; gene "gutM"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14595"; old_locus_tag "ECDH10B_2874"; -NC_010473.1 Protein Homology CDS 2919185 2919541 . + 0 gene_id "ECDH10B_RS14595"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gutM"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417186.1"; locus_tag "ECDH10B_RS14595"; product "transcriptional regulator GutM"; protein_id "WP_000252908.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2919185 2919187 . + 0 gene_id "ECDH10B_RS14595"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gutM"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417186.1"; locus_tag "ECDH10B_RS14595"; product "transcriptional regulator GutM"; protein_id "WP_000252908.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2919542 2919544 . + 0 gene_id "ECDH10B_RS14595"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gutM"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417186.1"; locus_tag "ECDH10B_RS14595"; product "transcriptional regulator GutM"; protein_id "WP_000252908.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2919611 2920384 . + . gene_id "ECDH10B_RS14600"; transcript_id ""; gbkey "Gene"; gene "srlR"; gene_biotype "protein_coding"; gene_synonym "gutR"; locus_tag "ECDH10B_RS14600"; old_locus_tag "ECDH10B_2875"; -NC_010473.1 Protein Homology CDS 2919611 2920381 . + 0 gene_id "ECDH10B_RS14600"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "srlR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417187.1"; locus_tag "ECDH10B_RS14600"; product "glucitol operon DNA-binding transcriptional repressor SrlR"; protein_id "WP_000804550.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2919611 2919613 . + 0 gene_id "ECDH10B_RS14600"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "srlR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417187.1"; locus_tag "ECDH10B_RS14600"; product "glucitol operon DNA-binding transcriptional repressor SrlR"; protein_id "WP_000804550.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2920382 2920384 . + 0 gene_id "ECDH10B_RS14600"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "srlR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417187.1"; locus_tag "ECDH10B_RS14600"; product "glucitol operon DNA-binding transcriptional repressor SrlR"; protein_id "WP_000804550.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2920377 2921342 . + . gene_id "ECDH10B_RS14605"; transcript_id ""; gbkey "Gene"; gene "gutQ"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14605"; old_locus_tag "ECDH10B_2876"; -NC_010473.1 Protein Homology CDS 2920377 2921339 . + 0 gene_id "ECDH10B_RS14605"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gutQ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311591.2"; locus_tag "ECDH10B_RS14605"; product "arabinose-5-phosphate isomerase GutQ"; protein_id "WP_001287420.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2920377 2920379 . + 0 gene_id "ECDH10B_RS14605"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gutQ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311591.2"; locus_tag "ECDH10B_RS14605"; product "arabinose-5-phosphate isomerase GutQ"; protein_id "WP_001287420.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2921340 2921342 . + 0 gene_id "ECDH10B_RS14605"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gutQ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311591.2"; locus_tag "ECDH10B_RS14605"; product "arabinose-5-phosphate isomerase GutQ"; protein_id "WP_001287420.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2921339 2922853 . - . gene_id "ECDH10B_RS14610"; transcript_id ""; gbkey "Gene"; gene "norR"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14610"; old_locus_tag "ECDH10B_2877"; -NC_010473.1 Protein Homology CDS 2921342 2922853 . - 0 gene_id "ECDH10B_RS14610"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "norR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417189.2"; locus_tag "ECDH10B_RS14610"; product "nitric oxide reductase transcriptional regulator NorR"; protein_id "WP_000010749.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2922851 2922853 . - 0 gene_id "ECDH10B_RS14610"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "norR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417189.2"; locus_tag "ECDH10B_RS14610"; product "nitric oxide reductase transcriptional regulator NorR"; protein_id "WP_000010749.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2921339 2921341 . - 0 gene_id "ECDH10B_RS14610"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "norR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417189.2"; locus_tag "ECDH10B_RS14610"; product "nitric oxide reductase transcriptional regulator NorR"; protein_id "WP_000010749.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2923040 2924479 . + . gene_id "ECDH10B_RS14615"; transcript_id ""; gbkey "Gene"; gene "norV"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14615"; old_locus_tag "ECDH10B_2878"; -NC_010473.1 Protein Homology CDS 2923040 2924476 . + 0 gene_id "ECDH10B_RS14615"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "norV"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417190.1"; locus_tag "ECDH10B_RS14615"; product "anaerobic nitric oxide reductase flavorubredoxin"; protein_id "WP_000029634.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2923040 2923042 . + 0 gene_id "ECDH10B_RS14615"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "norV"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417190.1"; locus_tag "ECDH10B_RS14615"; product "anaerobic nitric oxide reductase flavorubredoxin"; protein_id "WP_000029634.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2924477 2924479 . + 0 gene_id "ECDH10B_RS14615"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "norV"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417190.1"; locus_tag "ECDH10B_RS14615"; product "anaerobic nitric oxide reductase flavorubredoxin"; protein_id "WP_000029634.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2924476 2925609 . + . gene_id "ECDH10B_RS14620"; transcript_id ""; gbkey "Gene"; gene "norW"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14620"; old_locus_tag "ECDH10B_2879"; -NC_010473.1 Protein Homology CDS 2924476 2925606 . + 0 gene_id "ECDH10B_RS14620"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "norW"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417191.1"; locus_tag "ECDH10B_RS14620"; product "NADH:flavorubredoxin reductase NorW"; protein_id "WP_000064752.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2924476 2924478 . + 0 gene_id "ECDH10B_RS14620"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "norW"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417191.1"; locus_tag "ECDH10B_RS14620"; product "NADH:flavorubredoxin reductase NorW"; protein_id "WP_000064752.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2925607 2925609 . + 0 gene_id "ECDH10B_RS14620"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "norW"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417191.1"; locus_tag "ECDH10B_RS14620"; product "NADH:flavorubredoxin reductase NorW"; protein_id "WP_000064752.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2925737 2927989 . - . gene_id "ECDH10B_RS14625"; transcript_id ""; gbkey "Gene"; gene "hypF"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14625"; old_locus_tag "ECDH10B_2880"; -NC_010473.1 Protein Homology CDS 2925740 2927989 . - 0 gene_id "ECDH10B_RS14625"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hypF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417192.1"; locus_tag "ECDH10B_RS14625"; product "carbamoyltransferase HypF"; protein_id "WP_001107704.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2927987 2927989 . - 0 gene_id "ECDH10B_RS14625"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hypF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417192.1"; locus_tag "ECDH10B_RS14625"; product "carbamoyltransferase HypF"; protein_id "WP_001107704.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2925737 2925739 . - 0 gene_id "ECDH10B_RS14625"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hypF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417192.1"; locus_tag "ECDH10B_RS14625"; product "carbamoyltransferase HypF"; protein_id "WP_001107704.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2928142 2928669 . - . gene_id "ECDH10B_RS14630"; transcript_id ""; gbkey "Gene"; gene "hydN"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14630"; old_locus_tag "ECDH10B_2881"; -NC_010473.1 Protein Homology CDS 2928145 2928669 . - 0 gene_id "ECDH10B_RS14630"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hydN"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311596.1"; locus_tag "ECDH10B_RS14630"; product "electron transport protein HydN"; protein_id "WP_001078777.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2928667 2928669 . - 0 gene_id "ECDH10B_RS14630"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hydN"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311596.1"; locus_tag "ECDH10B_RS14630"; product "electron transport protein HydN"; protein_id "WP_001078777.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2928142 2928144 . - 0 gene_id "ECDH10B_RS14630"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hydN"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311596.1"; locus_tag "ECDH10B_RS14630"; product "electron transport protein HydN"; protein_id "WP_001078777.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2928818 2929828 . - . gene_id "ECDH10B_RS14635"; transcript_id ""; gbkey "Gene"; gene "ascG"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14635"; old_locus_tag "ECDH10B_2882"; -NC_010473.1 Protein Homology CDS 2928821 2929828 . - 0 gene_id "ECDH10B_RS14635"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ascG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417194.2"; locus_tag "ECDH10B_RS14635"; product "DNA-binding transcriptional regulator AscG"; protein_id "WP_001394680.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2929826 2929828 . - 0 gene_id "ECDH10B_RS14635"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ascG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417194.2"; locus_tag "ECDH10B_RS14635"; product "DNA-binding transcriptional regulator AscG"; protein_id "WP_001394680.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2928818 2928820 . - 0 gene_id "ECDH10B_RS14635"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ascG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417194.2"; locus_tag "ECDH10B_RS14635"; product "DNA-binding transcriptional regulator AscG"; protein_id "WP_001394680.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2930088 2931545 . + . gene_id "ECDH10B_RS14640"; transcript_id ""; gbkey "Gene"; gene "ascF"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14640"; old_locus_tag "ECDH10B_2883"; -NC_010473.1 Protein Homology CDS 2930088 2931542 . + 0 gene_id "ECDH10B_RS14640"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ascF"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026182.1"; locus_tag "ECDH10B_RS14640"; product "PTS cellobiose/arbutin/salicin transporter subunit IIBC"; protein_id "WP_001107828.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2930088 2930090 . + 0 gene_id "ECDH10B_RS14640"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ascF"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026182.1"; locus_tag "ECDH10B_RS14640"; product "PTS cellobiose/arbutin/salicin transporter subunit IIBC"; protein_id "WP_001107828.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2931543 2931545 . + 0 gene_id "ECDH10B_RS14640"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ascF"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026182.1"; locus_tag "ECDH10B_RS14640"; product "PTS cellobiose/arbutin/salicin transporter subunit IIBC"; protein_id "WP_001107828.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2931554 2932978 . + . gene_id "ECDH10B_RS14645"; transcript_id ""; gbkey "Gene"; gene "ascB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14645"; old_locus_tag "ECDH10B_2884"; -NC_010473.1 Protein Homology CDS 2931554 2932975 . + 0 gene_id "ECDH10B_RS14645"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ascB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417196.1"; locus_tag "ECDH10B_RS14645"; product "6-phospho-beta-glucosidase AscB"; protein_id "WP_000110363.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2931554 2931556 . + 0 gene_id "ECDH10B_RS14645"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ascB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417196.1"; locus_tag "ECDH10B_RS14645"; product "6-phospho-beta-glucosidase AscB"; protein_id "WP_000110363.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2932976 2932978 . + 0 gene_id "ECDH10B_RS14645"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ascB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417196.1"; locus_tag "ECDH10B_RS14645"; product "6-phospho-beta-glucosidase AscB"; protein_id "WP_000110363.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2933137 2933607 . - . gene_id "ECDH10B_RS14650"; transcript_id ""; gbkey "Gene"; gene "hycI"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14650"; old_locus_tag "ECDH10B_2885"; -NC_010473.1 Protein Homology CDS 2933140 2933607 . - 0 gene_id "ECDH10B_RS14650"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hycI"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311600.1"; locus_tag "ECDH10B_RS14650"; product "hydrogenase maturation peptidase HycI"; protein_id "WP_000132961.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2933605 2933607 . - 0 gene_id "ECDH10B_RS14650"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hycI"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311600.1"; locus_tag "ECDH10B_RS14650"; product "hydrogenase maturation peptidase HycI"; protein_id "WP_000132961.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2933137 2933139 . - 0 gene_id "ECDH10B_RS14650"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hycI"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311600.1"; locus_tag "ECDH10B_RS14650"; product "hydrogenase maturation peptidase HycI"; protein_id "WP_000132961.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2933600 2934010 . - . gene_id "ECDH10B_RS14655"; transcript_id ""; gbkey "Gene"; gene "hycH"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14655"; old_locus_tag "ECDH10B_2886"; -NC_010473.1 Protein Homology CDS 2933603 2934010 . - 0 gene_id "ECDH10B_RS14655"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hycH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311601.1"; locus_tag "ECDH10B_RS14655"; product "formate hydrogenlyase assembly protein HycH"; protein_id "WP_001291921.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2934008 2934010 . - 0 gene_id "ECDH10B_RS14655"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hycH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311601.1"; locus_tag "ECDH10B_RS14655"; product "formate hydrogenlyase assembly protein HycH"; protein_id "WP_001291921.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2933600 2933602 . - 0 gene_id "ECDH10B_RS14655"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hycH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311601.1"; locus_tag "ECDH10B_RS14655"; product "formate hydrogenlyase assembly protein HycH"; protein_id "WP_001291921.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2934007 2934774 . - . gene_id "ECDH10B_RS14660"; transcript_id ""; gbkey "Gene"; gene "hycG"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14660"; old_locus_tag "ECDH10B_2887"; -NC_010473.1 Protein Homology CDS 2934010 2934774 . - 0 gene_id "ECDH10B_RS14660"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hycG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417199.1"; locus_tag "ECDH10B_RS14660"; product "formate hydrogenlyase subunit HycG"; protein_id "WP_000067392.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2934772 2934774 . - 0 gene_id "ECDH10B_RS14660"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hycG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417199.1"; locus_tag "ECDH10B_RS14660"; product "formate hydrogenlyase subunit HycG"; protein_id "WP_000067392.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2934007 2934009 . - 0 gene_id "ECDH10B_RS14660"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hycG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417199.1"; locus_tag "ECDH10B_RS14660"; product "formate hydrogenlyase subunit HycG"; protein_id "WP_000067392.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2934774 2935316 . - . gene_id "ECDH10B_RS14665"; transcript_id ""; gbkey "Gene"; gene "hycF"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14665"; old_locus_tag "ECDH10B_2888"; -NC_010473.1 Protein Homology CDS 2934777 2935316 . - 0 gene_id "ECDH10B_RS14665"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hycF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417200.1"; locus_tag "ECDH10B_RS14665"; product "formate hydrogenlyase subunit HycF"; protein_id "WP_000493781.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2935314 2935316 . - 0 gene_id "ECDH10B_RS14665"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hycF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417200.1"; locus_tag "ECDH10B_RS14665"; product "formate hydrogenlyase subunit HycF"; protein_id "WP_000493781.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2934774 2934776 . - 0 gene_id "ECDH10B_RS14665"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hycF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417200.1"; locus_tag "ECDH10B_RS14665"; product "formate hydrogenlyase subunit HycF"; protein_id "WP_000493781.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2935326 2937035 . - . gene_id "ECDH10B_RS14670"; transcript_id ""; gbkey "Gene"; gene "hycE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14670"; old_locus_tag "ECDH10B_2889"; -NC_010473.1 Protein Homology CDS 2935329 2937035 . - 0 gene_id "ECDH10B_RS14670"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hycE"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005130590.1"; locus_tag "ECDH10B_RS14670"; product "formate hydrogenlyase subunit HycE"; protein_id "WP_001288122.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2937033 2937035 . - 0 gene_id "ECDH10B_RS14670"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hycE"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005130590.1"; locus_tag "ECDH10B_RS14670"; product "formate hydrogenlyase subunit HycE"; protein_id "WP_001288122.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2935326 2935328 . - 0 gene_id "ECDH10B_RS14670"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hycE"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005130590.1"; locus_tag "ECDH10B_RS14670"; product "formate hydrogenlyase subunit HycE"; protein_id "WP_001288122.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2937053 2937976 . - . gene_id "ECDH10B_RS14675"; transcript_id ""; gbkey "Gene"; gene "hycD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14675"; old_locus_tag "ECDH10B_2890"; -NC_010473.1 Protein Homology CDS 2937056 2937976 . - 0 gene_id "ECDH10B_RS14675"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hycD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417202.1"; locus_tag "ECDH10B_RS14675"; product "formate hydrogenlyase subunit HycD"; protein_id "WP_000115224.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2937974 2937976 . - 0 gene_id "ECDH10B_RS14675"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hycD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417202.1"; locus_tag "ECDH10B_RS14675"; product "formate hydrogenlyase subunit HycD"; protein_id "WP_000115224.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2937053 2937055 . - 0 gene_id "ECDH10B_RS14675"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hycD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417202.1"; locus_tag "ECDH10B_RS14675"; product "formate hydrogenlyase subunit HycD"; protein_id "WP_000115224.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2937979 2939805 . - . gene_id "ECDH10B_RS14680"; transcript_id ""; gbkey "Gene"; gene "hycC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14680"; old_locus_tag "ECDH10B_2891"; -NC_010473.1 Protein Homology CDS 2937982 2939805 . - 0 gene_id "ECDH10B_RS14680"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hycC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417203.1"; locus_tag "ECDH10B_RS14680"; product "formate hydrogenlyase subunit 3"; protein_id "WP_001274396.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2939803 2939805 . - 0 gene_id "ECDH10B_RS14680"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hycC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417203.1"; locus_tag "ECDH10B_RS14680"; product "formate hydrogenlyase subunit 3"; protein_id "WP_001274396.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2937979 2937981 . - 0 gene_id "ECDH10B_RS14680"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hycC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417203.1"; locus_tag "ECDH10B_RS14680"; product "formate hydrogenlyase subunit 3"; protein_id "WP_001274396.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2939802 2940413 . - . gene_id "ECDH10B_RS14685"; transcript_id ""; gbkey "Gene"; gene "hycB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14685"; old_locus_tag "ECDH10B_2892"; -NC_010473.1 Protein Homology CDS 2939805 2940413 . - 0 gene_id "ECDH10B_RS14685"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hycB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417204.1"; locus_tag "ECDH10B_RS14685"; product "formate hydrogenlyase subunit HycB"; protein_id "WP_001079186.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2940411 2940413 . - 0 gene_id "ECDH10B_RS14685"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hycB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417204.1"; locus_tag "ECDH10B_RS14685"; product "formate hydrogenlyase subunit HycB"; protein_id "WP_001079186.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2939802 2939804 . - 0 gene_id "ECDH10B_RS14685"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hycB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417204.1"; locus_tag "ECDH10B_RS14685"; product "formate hydrogenlyase subunit HycB"; protein_id "WP_001079186.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2940538 2940999 . - . gene_id "ECDH10B_RS14695"; transcript_id ""; gbkey "Gene"; gene "hycA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14695"; old_locus_tag "ECDH10B_2893"; -NC_010473.1 Protein Homology CDS 2940541 2940999 . - 0 gene_id "ECDH10B_RS14695"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hycA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311608.1"; locus_tag "ECDH10B_RS14695"; product "formate hydrogenlyase regulator HycA"; protein_id "WP_000158056.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2940997 2940999 . - 0 gene_id "ECDH10B_RS14695"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hycA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311608.1"; locus_tag "ECDH10B_RS14695"; product "formate hydrogenlyase regulator HycA"; protein_id "WP_000158056.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2940538 2940540 . - 0 gene_id "ECDH10B_RS14695"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hycA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311608.1"; locus_tag "ECDH10B_RS14695"; product "formate hydrogenlyase regulator HycA"; protein_id "WP_000158056.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2941211 2941561 . + . gene_id "ECDH10B_RS14700"; transcript_id ""; gbkey "Gene"; gene "hypA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14700"; old_locus_tag "ECDH10B_2894"; -NC_010473.1 Protein Homology CDS 2941211 2941558 . + 0 gene_id "ECDH10B_RS14700"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hypA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311609.1"; locus_tag "ECDH10B_RS14700"; product "hydrogenase maturation nickel metallochaperone HypA"; protein_id "WP_001299100.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2941211 2941213 . + 0 gene_id "ECDH10B_RS14700"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hypA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311609.1"; locus_tag "ECDH10B_RS14700"; product "hydrogenase maturation nickel metallochaperone HypA"; protein_id "WP_001299100.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2941559 2941561 . + 0 gene_id "ECDH10B_RS14700"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hypA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311609.1"; locus_tag "ECDH10B_RS14700"; product "hydrogenase maturation nickel metallochaperone HypA"; protein_id "WP_001299100.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2941565 2942437 . + . gene_id "ECDH10B_RS14705"; transcript_id ""; gbkey "Gene"; gene "hypB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14705"; old_locus_tag "ECDH10B_2895"; -NC_010473.1 Protein Homology CDS 2941565 2942434 . + 0 gene_id "ECDH10B_RS14705"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hypB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417207.1"; locus_tag "ECDH10B_RS14705"; product "hydrogenase nickel incorporation protein HypB"; protein_id "WP_000337665.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2941565 2941567 . + 0 gene_id "ECDH10B_RS14705"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hypB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417207.1"; locus_tag "ECDH10B_RS14705"; product "hydrogenase nickel incorporation protein HypB"; protein_id "WP_000337665.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2942435 2942437 . + 0 gene_id "ECDH10B_RS14705"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hypB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417207.1"; locus_tag "ECDH10B_RS14705"; product "hydrogenase nickel incorporation protein HypB"; protein_id "WP_000337665.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2942428 2942700 . + . gene_id "ECDH10B_RS14710"; transcript_id ""; gbkey "Gene"; gene "hypC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14710"; old_locus_tag "ECDH10B_2896"; -NC_010473.1 Protein Homology CDS 2942428 2942697 . + 0 gene_id "ECDH10B_RS14710"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hypC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311611.1"; locus_tag "ECDH10B_RS14710"; product "hydrogenase 3 maturation protein HypC"; protein_id "WP_000334881.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2942428 2942430 . + 0 gene_id "ECDH10B_RS14710"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hypC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311611.1"; locus_tag "ECDH10B_RS14710"; product "hydrogenase 3 maturation protein HypC"; protein_id "WP_000334881.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2942698 2942700 . + 0 gene_id "ECDH10B_RS14710"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hypC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311611.1"; locus_tag "ECDH10B_RS14710"; product "hydrogenase 3 maturation protein HypC"; protein_id "WP_000334881.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2942700 2943821 . + . gene_id "ECDH10B_RS14715"; transcript_id ""; gbkey "Gene"; gene "hypD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14715"; old_locus_tag "ECDH10B_2897"; -NC_010473.1 Protein Homology CDS 2942700 2943818 . + 0 gene_id "ECDH10B_RS14715"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hypD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417209.1"; locus_tag "ECDH10B_RS14715"; product "hydrogenase formation protein HypD"; protein_id "WP_001212985.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2942700 2942702 . + 0 gene_id "ECDH10B_RS14715"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hypD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417209.1"; locus_tag "ECDH10B_RS14715"; product "hydrogenase formation protein HypD"; protein_id "WP_001212985.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2943819 2943821 . + 0 gene_id "ECDH10B_RS14715"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hypD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417209.1"; locus_tag "ECDH10B_RS14715"; product "hydrogenase formation protein HypD"; protein_id "WP_001212985.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2943818 2944828 . + . gene_id "ECDH10B_RS14720"; transcript_id ""; gbkey "Gene"; gene "hypE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14720"; old_locus_tag "ECDH10B_2898"; -NC_010473.1 Protein Homology CDS 2943818 2944825 . + 0 gene_id "ECDH10B_RS14720"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hypE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417210.2"; locus_tag "ECDH10B_RS14720"; product "hydrogenase maturation carbamoyl dehydratase HypE"; protein_id "WP_001059922.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2943818 2943820 . + 0 gene_id "ECDH10B_RS14720"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hypE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417210.2"; locus_tag "ECDH10B_RS14720"; product "hydrogenase maturation carbamoyl dehydratase HypE"; protein_id "WP_001059922.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2944826 2944828 . + 0 gene_id "ECDH10B_RS14720"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hypE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417210.2"; locus_tag "ECDH10B_RS14720"; product "hydrogenase maturation carbamoyl dehydratase HypE"; protein_id "WP_001059922.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2944902 2946980 . + . gene_id "ECDH10B_RS14725"; transcript_id ""; gbkey "Gene"; gene "flhA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14725"; old_locus_tag "ECDH10B_2899"; -NC_010473.1 Protein Homology CDS 2944902 2946977 . + 0 gene_id "ECDH10B_RS14725"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "flhA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417211.1"; locus_tag "ECDH10B_RS14725"; product "formate hydrogenlyase transcriptional activator FlhA"; protein_id "WP_001301332.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2944902 2944904 . + 0 gene_id "ECDH10B_RS14725"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "flhA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417211.1"; locus_tag "ECDH10B_RS14725"; product "formate hydrogenlyase transcriptional activator FlhA"; protein_id "WP_001301332.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2946978 2946980 . + 0 gene_id "ECDH10B_RS14725"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "flhA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417211.1"; locus_tag "ECDH10B_RS14725"; product "formate hydrogenlyase transcriptional activator FlhA"; protein_id "WP_001301332.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2947017 2947370 . - . gene_id "ECDH10B_RS14730"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14730"; old_locus_tag "ECDH10B_2900"; -NC_010473.1 Protein Homology CDS 2947020 2947370 . - 0 gene_id "ECDH10B_RS14730"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417212.1"; locus_tag "ECDH10B_RS14730"; product "nitrous oxide-stimulated promoter family protein"; protein_id "WP_000015497.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2947368 2947370 . - 0 gene_id "ECDH10B_RS14730"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417212.1"; locus_tag "ECDH10B_RS14730"; product "nitrous oxide-stimulated promoter family protein"; protein_id "WP_000015497.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2947017 2947019 . - 0 gene_id "ECDH10B_RS14730"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417212.1"; locus_tag "ECDH10B_RS14730"; product "nitrous oxide-stimulated promoter family protein"; protein_id "WP_000015497.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2947447 2947581 . - . gene_id "ECDH10B_RS26230"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS26230"; -NC_010473.1 Protein Homology CDS 2947450 2947581 . - 0 gene_id "ECDH10B_RS26230"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_008439274.1"; locus_tag "ECDH10B_RS26230"; product "hypothetical protein"; protein_id "WP_000611932.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2947579 2947581 . - 0 gene_id "ECDH10B_RS26230"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_008439274.1"; locus_tag "ECDH10B_RS26230"; product "hypothetical protein"; protein_id "WP_000611932.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2947447 2947449 . - 0 gene_id "ECDH10B_RS26230"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_008439274.1"; locus_tag "ECDH10B_RS26230"; product "hypothetical protein"; protein_id "WP_000611932.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2947657 2950218 . + . gene_id "ECDH10B_RS14735"; transcript_id ""; gbkey "Gene"; gene "mutS"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14735"; old_locus_tag "ECDH10B_2901"; -NC_010473.1 Protein Homology CDS 2947657 2950215 . + 0 gene_id "ECDH10B_RS14735"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mutS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417213.1"; locus_tag "ECDH10B_RS14735"; product "DNA mismatch repair protein MutS"; protein_id "WP_001272928.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2947657 2947659 . + 0 gene_id "ECDH10B_RS14735"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mutS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417213.1"; locus_tag "ECDH10B_RS14735"; product "DNA mismatch repair protein MutS"; protein_id "WP_001272928.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2950216 2950218 . + 0 gene_id "ECDH10B_RS14735"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mutS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417213.1"; locus_tag "ECDH10B_RS14735"; product "DNA mismatch repair protein MutS"; protein_id "WP_001272928.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2950324 2950980 . + . gene_id "ECDH10B_RS14740"; transcript_id ""; gbkey "Gene"; gene "pphB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14740"; old_locus_tag "ECDH10B_2902"; -NC_010473.1 Protein Homology CDS 2950324 2950977 . + 0 gene_id "ECDH10B_RS14740"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pphB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417214.1"; locus_tag "ECDH10B_RS14740"; product "protein-serine/threonine phosphatase"; protein_id "WP_001141337.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2950324 2950326 . + 0 gene_id "ECDH10B_RS14740"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pphB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417214.1"; locus_tag "ECDH10B_RS14740"; product "protein-serine/threonine phosphatase"; protein_id "WP_001141337.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2950978 2950980 . + 0 gene_id "ECDH10B_RS14740"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pphB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417214.1"; locus_tag "ECDH10B_RS14740"; product "protein-serine/threonine phosphatase"; protein_id "WP_001141337.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2951031 2951798 . - . gene_id "ECDH10B_RS14745"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14745"; old_locus_tag "ECDH10B_2903"; -NC_010473.1 Protein Homology CDS 2951034 2951798 . - 0 gene_id "ECDH10B_RS14745"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417215.2"; locus_tag "ECDH10B_RS14745"; product "DeoR/GlpR transcriptional regulator"; protein_id "WP_001300386.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2951796 2951798 . - 0 gene_id "ECDH10B_RS14745"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417215.2"; locus_tag "ECDH10B_RS14745"; product "DeoR/GlpR transcriptional regulator"; protein_id "WP_001300386.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2951031 2951033 . - 0 gene_id "ECDH10B_RS14745"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417215.2"; locus_tag "ECDH10B_RS14745"; product "DeoR/GlpR transcriptional regulator"; protein_id "WP_001300386.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2951994 2952902 . + . gene_id "ECDH10B_RS14750"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14750"; old_locus_tag "ECDH10B_2904"; -NC_010473.1 Protein Homology CDS 2951994 2952899 . + 0 gene_id "ECDH10B_RS14750"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417216.1"; locus_tag "ECDH10B_RS14750"; product "NAD(P)-dependent oxidoreductase"; protein_id "WP_000848004.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2951994 2951996 . + 0 gene_id "ECDH10B_RS14750"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417216.1"; locus_tag "ECDH10B_RS14750"; product "NAD(P)-dependent oxidoreductase"; protein_id "WP_000848004.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2952900 2952902 . + 0 gene_id "ECDH10B_RS14750"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417216.1"; locus_tag "ECDH10B_RS14750"; product "NAD(P)-dependent oxidoreductase"; protein_id "WP_000848004.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2952899 2954065 . + . gene_id "ECDH10B_RS14755"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14755"; old_locus_tag "ECDH10B_2905"; -NC_010473.1 Protein Homology CDS 2952899 2954062 . + 0 gene_id "ECDH10B_RS14755"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417217.1"; locus_tag "ECDH10B_RS14755"; product "four-carbon acid sugar kinase family protein"; protein_id "WP_001393459.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2952899 2952901 . + 0 gene_id "ECDH10B_RS14755"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417217.1"; locus_tag "ECDH10B_RS14755"; product "four-carbon acid sugar kinase family protein"; protein_id "WP_001393459.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2954063 2954065 . + 0 gene_id "ECDH10B_RS14755"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417217.1"; locus_tag "ECDH10B_RS14755"; product "four-carbon acid sugar kinase family protein"; protein_id "WP_001393459.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2954157 2954795 . + . gene_id "ECDH10B_RS14760"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14760"; -NC_010473.1 Protein Homology CDS 2954157 2954792 . + 0 gene_id "ECDH10B_RS14760"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417218.1"; locus_tag "ECDH10B_RS14760"; product "aldolase"; protein_id "WP_001278991.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2954157 2954159 . + 0 gene_id "ECDH10B_RS14760"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417218.1"; locus_tag "ECDH10B_RS14760"; product "aldolase"; protein_id "WP_001278991.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2954793 2954795 . + 0 gene_id "ECDH10B_RS14760"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417218.1"; locus_tag "ECDH10B_RS14760"; product "aldolase"; protein_id "WP_001278991.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2954800 2955576 . + . gene_id "ECDH10B_RS14765"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14765"; old_locus_tag "ECDH10B_2907"; -NC_010473.1 Protein Homology CDS 2954800 2955573 . + 0 gene_id "ECDH10B_RS14765"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417219.1"; locus_tag "ECDH10B_RS14765"; product "HPr family phosphocarrier protein"; protein_id "WP_001136934.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2954800 2954802 . + 0 gene_id "ECDH10B_RS14765"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417219.1"; locus_tag "ECDH10B_RS14765"; product "HPr family phosphocarrier protein"; protein_id "WP_001136934.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2955574 2955576 . + 0 gene_id "ECDH10B_RS14765"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417219.1"; locus_tag "ECDH10B_RS14765"; product "HPr family phosphocarrier protein"; protein_id "WP_001136934.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2955665 2957029 . + . gene_id "ECDH10B_RS14770"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14770"; old_locus_tag "ECDH10B_2908"; -NC_010473.1 Protein Homology CDS 2955665 2957026 . + 0 gene_id "ECDH10B_RS14770"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417220.1"; locus_tag "ECDH10B_RS14770"; product "GntP family transporter"; protein_id "WP_000104441.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2955665 2955667 . + 0 gene_id "ECDH10B_RS14770"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417220.1"; locus_tag "ECDH10B_RS14770"; product "GntP family transporter"; protein_id "WP_000104441.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2957027 2957029 . + 0 gene_id "ECDH10B_RS14770"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417220.1"; locus_tag "ECDH10B_RS14770"; product "GntP family transporter"; protein_id "WP_000104441.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2957123 2958115 . - . gene_id "ECDH10B_RS14775"; transcript_id ""; gbkey "Gene"; gene "rpoS"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14775"; old_locus_tag "ECDH10B_2909"; -NC_010473.1 Protein Homology CDS 2957126 2958115 . - 0 gene_id "ECDH10B_RS14775"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rpoS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000081498.1"; locus_tag "ECDH10B_RS14775"; product "RNA polymerase sigma factor RpoS"; protein_id "WP_000081588.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2958113 2958115 . - 0 gene_id "ECDH10B_RS14775"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rpoS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000081498.1"; locus_tag "ECDH10B_RS14775"; product "RNA polymerase sigma factor RpoS"; protein_id "WP_000081588.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2957123 2957125 . - 0 gene_id "ECDH10B_RS14775"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rpoS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000081498.1"; locus_tag "ECDH10B_RS14775"; product "RNA polymerase sigma factor RpoS"; protein_id "WP_000081588.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2958178 2959317 . - . gene_id "ECDH10B_RS14780"; transcript_id ""; gbkey "Gene"; gene "nlpD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14780"; old_locus_tag "ECDH10B_2910"; -NC_010473.1 Protein Homology CDS 2958181 2959317 . - 0 gene_id "ECDH10B_RS14780"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nlpD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417222.1"; locus_tag "ECDH10B_RS14780"; product "murein hydrolase activator NlpD"; protein_id "WP_001272592.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2959315 2959317 . - 0 gene_id "ECDH10B_RS14780"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nlpD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417222.1"; locus_tag "ECDH10B_RS14780"; product "murein hydrolase activator NlpD"; protein_id "WP_001272592.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2958178 2958180 . - 0 gene_id "ECDH10B_RS14780"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nlpD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417222.1"; locus_tag "ECDH10B_RS14780"; product "murein hydrolase activator NlpD"; protein_id "WP_001272592.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2959457 2960083 . - . gene_id "ECDH10B_RS14785"; transcript_id ""; gbkey "Gene"; gene "pcm"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14785"; old_locus_tag "ECDH10B_2911"; -NC_010473.1 Protein Homology CDS 2959460 2960083 . - 0 gene_id "ECDH10B_RS14785"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pcm"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005130872.1"; locus_tag "ECDH10B_RS14785"; product "protein-L-isoaspartate O-methyltransferase"; protein_id "WP_000254708.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2960081 2960083 . - 0 gene_id "ECDH10B_RS14785"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pcm"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005130872.1"; locus_tag "ECDH10B_RS14785"; product "protein-L-isoaspartate O-methyltransferase"; protein_id "WP_000254708.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2959457 2959459 . - 0 gene_id "ECDH10B_RS14785"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pcm"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005130872.1"; locus_tag "ECDH10B_RS14785"; product "protein-L-isoaspartate O-methyltransferase"; protein_id "WP_000254708.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2960077 2960838 . - . gene_id "ECDH10B_RS14790"; transcript_id ""; gbkey "Gene"; gene "surE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14790"; old_locus_tag "ECDH10B_2912"; -NC_010473.1 Protein Homology CDS 2960080 2960838 . - 0 gene_id "ECDH10B_RS14790"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "surE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311625.1"; locus_tag "ECDH10B_RS14790"; product "5'/3'-nucleotidase SurE"; protein_id "WP_001295182.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2960836 2960838 . - 0 gene_id "ECDH10B_RS14790"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "surE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311625.1"; locus_tag "ECDH10B_RS14790"; product "5'/3'-nucleotidase SurE"; protein_id "WP_001295182.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2960077 2960079 . - 0 gene_id "ECDH10B_RS14790"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "surE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311625.1"; locus_tag "ECDH10B_RS14790"; product "5'/3'-nucleotidase SurE"; protein_id "WP_001295182.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2960819 2961868 . - . gene_id "ECDH10B_RS14795"; transcript_id ""; gbkey "Gene"; gene "truD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14795"; old_locus_tag "ECDH10B_2913"; -NC_010473.1 Protein Homology CDS 2960822 2961868 . - 0 gene_id "ECDH10B_RS14795"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "truD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417225.1"; locus_tag "ECDH10B_RS14795"; product "tRNA pseudouridine(13) synthase TruD"; protein_id "WP_000568943.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2961866 2961868 . - 0 gene_id "ECDH10B_RS14795"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "truD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417225.1"; locus_tag "ECDH10B_RS14795"; product "tRNA pseudouridine(13) synthase TruD"; protein_id "WP_000568943.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2960819 2960821 . - 0 gene_id "ECDH10B_RS14795"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "truD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417225.1"; locus_tag "ECDH10B_RS14795"; product "tRNA pseudouridine(13) synthase TruD"; protein_id "WP_000568943.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2961865 2962344 . - . gene_id "ECDH10B_RS14800"; transcript_id ""; gbkey "Gene"; gene "ispF"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14800"; old_locus_tag "ECDH10B_2914"; -NC_010473.1 Protein Homology CDS 2961868 2962344 . - 0 gene_id "ECDH10B_RS14800"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ispF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311627.1"; locus_tag "ECDH10B_RS14800"; product "2-C-methyl-D-erythritol 2,4-cyclodiphosphate synthase"; protein_id "WP_001219242.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2962342 2962344 . - 0 gene_id "ECDH10B_RS14800"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ispF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311627.1"; locus_tag "ECDH10B_RS14800"; product "2-C-methyl-D-erythritol 2,4-cyclodiphosphate synthase"; protein_id "WP_001219242.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2961865 2961867 . - 0 gene_id "ECDH10B_RS14800"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ispF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311627.1"; locus_tag "ECDH10B_RS14800"; product "2-C-methyl-D-erythritol 2,4-cyclodiphosphate synthase"; protein_id "WP_001219242.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2962344 2963054 . - . gene_id "ECDH10B_RS14805"; transcript_id ""; gbkey "Gene"; gene "ispD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14805"; old_locus_tag "ECDH10B_2915"; -NC_010473.1 Protein Homology CDS 2962347 2963054 . - 0 gene_id "ECDH10B_RS14805"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ispD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417227.1"; locus_tag "ECDH10B_RS14805"; product "2-C-methyl-D-erythritol 4-phosphate cytidylyltransferase"; protein_id "WP_000246138.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2963052 2963054 . - 0 gene_id "ECDH10B_RS14805"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ispD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417227.1"; locus_tag "ECDH10B_RS14805"; product "2-C-methyl-D-erythritol 4-phosphate cytidylyltransferase"; protein_id "WP_000246138.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2962344 2962346 . - 0 gene_id "ECDH10B_RS14805"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ispD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417227.1"; locus_tag "ECDH10B_RS14805"; product "2-C-methyl-D-erythritol 4-phosphate cytidylyltransferase"; protein_id "WP_000246138.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2963073 2963384 . - . gene_id "ECDH10B_RS14810"; transcript_id ""; gbkey "Gene"; gene "ftsB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14810"; old_locus_tag "ECDH10B_2916"; -NC_010473.1 Protein Homology CDS 2963076 2963384 . - 0 gene_id "ECDH10B_RS14810"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ftsB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311629.1"; locus_tag "ECDH10B_RS14810"; product "cell division protein FtsB"; protein_id "WP_000517476.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2963382 2963384 . - 0 gene_id "ECDH10B_RS14810"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ftsB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311629.1"; locus_tag "ECDH10B_RS14810"; product "cell division protein FtsB"; protein_id "WP_000517476.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2963073 2963075 . - 0 gene_id "ECDH10B_RS14810"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ftsB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311629.1"; locus_tag "ECDH10B_RS14810"; product "cell division protein FtsB"; protein_id "WP_000517476.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2963578 2963901 . - . gene_id "ECDH10B_RS14815"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14815"; old_locus_tag "ECDH10B_2917"; -NC_010473.1 Protein Homology CDS 2963581 2963901 . - 0 gene_id "ECDH10B_RS14815"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417229.1"; locus_tag "ECDH10B_RS14815"; product "DUF3561 family protein"; protein_id "WP_001246104.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2963899 2963901 . - 0 gene_id "ECDH10B_RS14815"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417229.1"; locus_tag "ECDH10B_RS14815"; product "DUF3561 family protein"; protein_id "WP_001246104.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2963578 2963580 . - 0 gene_id "ECDH10B_RS14815"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417229.1"; locus_tag "ECDH10B_RS14815"; product "DUF3561 family protein"; protein_id "WP_001246104.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2963951 2964556 . - . gene_id "ECDH10B_RS14820"; transcript_id ""; gbkey "Gene"; gene "cysC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14820"; old_locus_tag "ECDH10B_2918"; -NC_010473.1 Protein Homology CDS 2963954 2964556 . - 0 gene_id "ECDH10B_RS14820"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cysC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311631.1"; locus_tag "ECDH10B_RS14820"; product "adenylyl-sulfate kinase"; protein_id "WP_001173673.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2964554 2964556 . - 0 gene_id "ECDH10B_RS14820"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cysC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311631.1"; locus_tag "ECDH10B_RS14820"; product "adenylyl-sulfate kinase"; protein_id "WP_001173673.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2963951 2963953 . - 0 gene_id "ECDH10B_RS14820"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cysC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311631.1"; locus_tag "ECDH10B_RS14820"; product "adenylyl-sulfate kinase"; protein_id "WP_001173673.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2964556 2965983 . - . gene_id "ECDH10B_RS14825"; transcript_id ""; gbkey "Gene"; gene "cysN"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14825"; old_locus_tag "ECDH10B_2919"; -NC_010473.1 Protein Homology CDS 2964559 2965983 . - 0 gene_id "ECDH10B_RS14825"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cysN"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417231.1"; locus_tag "ECDH10B_RS14825"; product "sulfate adenylyltransferase subunit CysN"; protein_id "WP_001090361.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2965981 2965983 . - 0 gene_id "ECDH10B_RS14825"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cysN"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417231.1"; locus_tag "ECDH10B_RS14825"; product "sulfate adenylyltransferase subunit CysN"; protein_id "WP_001090361.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2964556 2964558 . - 0 gene_id "ECDH10B_RS14825"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cysN"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417231.1"; locus_tag "ECDH10B_RS14825"; product "sulfate adenylyltransferase subunit CysN"; protein_id "WP_001090361.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2965985 2966893 . - . gene_id "ECDH10B_RS14830"; transcript_id ""; gbkey "Gene"; gene "cysD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14830"; old_locus_tag "ECDH10B_2920"; -NC_010473.1 Protein Homology CDS 2965988 2966893 . - 0 gene_id "ECDH10B_RS14830"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cysD"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005130891.1"; locus_tag "ECDH10B_RS14830"; product "sulfate adenylyltransferase subunit CysD"; protein_id "WP_000372108.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2966891 2966893 . - 0 gene_id "ECDH10B_RS14830"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cysD"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005130891.1"; locus_tag "ECDH10B_RS14830"; product "sulfate adenylyltransferase subunit CysD"; protein_id "WP_000372108.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2965985 2965987 . - 0 gene_id "ECDH10B_RS14830"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cysD"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005130891.1"; locus_tag "ECDH10B_RS14830"; product "sulfate adenylyltransferase subunit CysD"; protein_id "WP_000372108.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2967145 2968182 . + . gene_id "ECDH10B_RS14835"; transcript_id ""; gbkey "Gene"; gene "iap"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14835"; old_locus_tag "ECDH10B_2921"; -NC_010473.1 Protein Homology CDS 2967145 2968179 . + 0 gene_id "ECDH10B_RS14835"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "iap"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417233.1"; locus_tag "ECDH10B_RS14835"; product "alkaline phosphatase isozyme conversion aminopeptidase"; protein_id "WP_000490428.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2967145 2967147 . + 0 gene_id "ECDH10B_RS14835"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "iap"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417233.1"; locus_tag "ECDH10B_RS14835"; product "alkaline phosphatase isozyme conversion aminopeptidase"; protein_id "WP_000490428.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2968180 2968182 . + 0 gene_id "ECDH10B_RS14835"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "iap"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417233.1"; locus_tag "ECDH10B_RS14835"; product "alkaline phosphatase isozyme conversion aminopeptidase"; protein_id "WP_000490428.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2969133 2969417 . - . gene_id "ECDH10B_RS14840"; transcript_id ""; gbkey "Gene"; gene "cas2"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14840"; old_locus_tag "ECDH10B_2922"; -NC_010473.1 Protein Homology CDS 2969136 2969417 . - 0 gene_id "ECDH10B_RS14840"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cas2"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417234.2"; locus_tag "ECDH10B_RS14840"; product "type I-E CRISPR-associated endoribonuclease Cas2"; protein_id "WP_001381369.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2969415 2969417 . - 0 gene_id "ECDH10B_RS14840"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cas2"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417234.2"; locus_tag "ECDH10B_RS14840"; product "type I-E CRISPR-associated endoribonuclease Cas2"; protein_id "WP_001381369.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2969133 2969135 . - 0 gene_id "ECDH10B_RS14840"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cas2"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417234.2"; locus_tag "ECDH10B_RS14840"; product "type I-E CRISPR-associated endoribonuclease Cas2"; protein_id "WP_001381369.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2969419 2970336 . - . gene_id "ECDH10B_RS14845"; transcript_id ""; gbkey "Gene"; gene "cas1e"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14845"; old_locus_tag "ECDH10B_2923"; -NC_010473.1 Protein Homology CDS 2969422 2970336 . - 0 gene_id "ECDH10B_RS14845"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cas1e"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417235.1"; locus_tag "ECDH10B_RS14845"; product "type I-E CRISPR-associated endonuclease Cas1"; protein_id "WP_000220066.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2970334 2970336 . - 0 gene_id "ECDH10B_RS14845"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cas1e"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417235.1"; locus_tag "ECDH10B_RS14845"; product "type I-E CRISPR-associated endonuclease Cas1"; protein_id "WP_000220066.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2969419 2969421 . - 0 gene_id "ECDH10B_RS14845"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cas1e"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417235.1"; locus_tag "ECDH10B_RS14845"; product "type I-E CRISPR-associated endonuclease Cas1"; protein_id "WP_000220066.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2970352 2970951 . - . gene_id "ECDH10B_RS14850"; transcript_id ""; gbkey "Gene"; gene "cas6e"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14850"; old_locus_tag "ECDH10B_2924"; -NC_010473.1 Protein Homology CDS 2970355 2970951 . - 0 gene_id "ECDH10B_RS14850"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cas6e"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417236.1"; locus_tag "ECDH10B_RS14850"; product "type I-E CRISPR-associated protein Cas6/Cse3/CasE"; protein_id "WP_000281400.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2970949 2970951 . - 0 gene_id "ECDH10B_RS14850"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cas6e"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417236.1"; locus_tag "ECDH10B_RS14850"; product "type I-E CRISPR-associated protein Cas6/Cse3/CasE"; protein_id "WP_000281400.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2970352 2970354 . - 0 gene_id "ECDH10B_RS14850"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cas6e"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417236.1"; locus_tag "ECDH10B_RS14850"; product "type I-E CRISPR-associated protein Cas6/Cse3/CasE"; protein_id "WP_000281400.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2970938 2971612 . - . gene_id "ECDH10B_RS14855"; transcript_id ""; gbkey "Gene"; gene "cas5e"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14855"; old_locus_tag "ECDH10B_2925"; -NC_010473.1 Protein Homology CDS 2970941 2971612 . - 0 gene_id "ECDH10B_RS14855"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cas5e"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417237.2"; locus_tag "ECDH10B_RS14855"; product "type I-E CRISPR-associated protein Cas5/CasD"; protein_id "WP_001334996.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2971610 2971612 . - 0 gene_id "ECDH10B_RS14855"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cas5e"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417237.2"; locus_tag "ECDH10B_RS14855"; product "type I-E CRISPR-associated protein Cas5/CasD"; protein_id "WP_001334996.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2970938 2970940 . - 0 gene_id "ECDH10B_RS14855"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cas5e"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417237.2"; locus_tag "ECDH10B_RS14855"; product "type I-E CRISPR-associated protein Cas5/CasD"; protein_id "WP_001334996.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2971615 2972706 . - . gene_id "ECDH10B_RS14860"; transcript_id ""; gbkey "Gene"; gene "cas7e"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14860"; old_locus_tag "ECDH10B_2926"; -NC_010473.1 Protein Homology CDS 2971618 2972706 . - 0 gene_id "ECDH10B_RS14860"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cas7e"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417238.1"; locus_tag "ECDH10B_RS14860"; product "type I-E CRISPR-associated protein Cas7/Cse4/CasC"; protein_id "WP_000064450.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2972704 2972706 . - 0 gene_id "ECDH10B_RS14860"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cas7e"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417238.1"; locus_tag "ECDH10B_RS14860"; product "type I-E CRISPR-associated protein Cas7/Cse4/CasC"; protein_id "WP_000064450.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2971615 2971617 . - 0 gene_id "ECDH10B_RS14860"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cas7e"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417238.1"; locus_tag "ECDH10B_RS14860"; product "type I-E CRISPR-associated protein Cas7/Cse4/CasC"; protein_id "WP_000064450.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2972719 2973201 . - . gene_id "ECDH10B_RS14865"; transcript_id ""; gbkey "Gene"; gene "casB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14865"; old_locus_tag "ECDH10B_2927"; -NC_010473.1 Protein Homology CDS 2972722 2973201 . - 0 gene_id "ECDH10B_RS14865"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "casB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417239.1"; locus_tag "ECDH10B_RS14865"; product "type I-E CRISPR-associated protein Cse2/CasB"; protein_id "WP_000752800.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2973199 2973201 . - 0 gene_id "ECDH10B_RS14865"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "casB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417239.1"; locus_tag "ECDH10B_RS14865"; product "type I-E CRISPR-associated protein Cse2/CasB"; protein_id "WP_000752800.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2972719 2972721 . - 0 gene_id "ECDH10B_RS14865"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "casB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417239.1"; locus_tag "ECDH10B_RS14865"; product "type I-E CRISPR-associated protein Cse2/CasB"; protein_id "WP_000752800.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2973194 2974702 . - . gene_id "ECDH10B_RS14870"; transcript_id ""; gbkey "Gene"; gene "casA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14870"; old_locus_tag "ECDH10B_2928"; -NC_010473.1 Protein Homology CDS 2973197 2974702 . - 0 gene_id "ECDH10B_RS14870"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "casA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417240.1"; locus_tag "ECDH10B_RS14870"; product "type I-E CRISPR-associated protein Cse1/CasA"; protein_id "WP_001050401.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2974700 2974702 . - 0 gene_id "ECDH10B_RS14870"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "casA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417240.1"; locus_tag "ECDH10B_RS14870"; product "type I-E CRISPR-associated protein Cse1/CasA"; protein_id "WP_001050401.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2973194 2973196 . - 0 gene_id "ECDH10B_RS14870"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "casA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417240.1"; locus_tag "ECDH10B_RS14870"; product "type I-E CRISPR-associated protein Cse1/CasA"; protein_id "WP_001050401.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2975117 2977783 . - . gene_id "ECDH10B_RS14875"; transcript_id ""; gbkey "Gene"; gene "cas3"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14875"; old_locus_tag "ECDH10B_2929"; -NC_010473.1 Protein Homology CDS 2975120 2977783 . - 0 gene_id "ECDH10B_RS14875"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cas3"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417241.1"; locus_tag "ECDH10B_RS14875"; product "CRISPR-associated helicase/endonuclease Cas3"; protein_id "WP_000433152.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2977781 2977783 . - 0 gene_id "ECDH10B_RS14875"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cas3"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417241.1"; locus_tag "ECDH10B_RS14875"; product "CRISPR-associated helicase/endonuclease Cas3"; protein_id "WP_000433152.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2975117 2975119 . - 0 gene_id "ECDH10B_RS14875"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cas3"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417241.1"; locus_tag "ECDH10B_RS14875"; product "CRISPR-associated helicase/endonuclease Cas3"; protein_id "WP_000433152.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2978142 2978876 . - . gene_id "ECDH10B_RS14880"; transcript_id ""; gbkey "Gene"; gene "cysH"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14880"; old_locus_tag "ECDH10B_2930"; -NC_010473.1 Protein Homology CDS 2978145 2978876 . - 0 gene_id "ECDH10B_RS14880"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cysH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417242.1"; locus_tag "ECDH10B_RS14880"; product "phosphoadenosine phosphosulfate reductase"; protein_id "WP_000039850.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2978874 2978876 . - 0 gene_id "ECDH10B_RS14880"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cysH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417242.1"; locus_tag "ECDH10B_RS14880"; product "phosphoadenosine phosphosulfate reductase"; protein_id "WP_000039850.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2978142 2978144 . - 0 gene_id "ECDH10B_RS14880"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cysH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417242.1"; locus_tag "ECDH10B_RS14880"; product "phosphoadenosine phosphosulfate reductase"; protein_id "WP_000039850.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2978951 2980663 . - . gene_id "ECDH10B_RS14885"; transcript_id ""; gbkey "Gene"; gene "cysI"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14885"; -NC_010473.1 Protein Homology CDS 2978954 2980663 . - 0 gene_id "ECDH10B_RS14885"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cysI"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001290736.1"; locus_tag "ECDH10B_RS14885"; product "assimilatory sulfite reductase (NADPH) hemoprotein subunit"; protein_id "WP_001290679.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2980661 2980663 . - 0 gene_id "ECDH10B_RS14885"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cysI"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001290736.1"; locus_tag "ECDH10B_RS14885"; product "assimilatory sulfite reductase (NADPH) hemoprotein subunit"; protein_id "WP_001290679.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2978951 2978953 . - 0 gene_id "ECDH10B_RS14885"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cysI"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001290736.1"; locus_tag "ECDH10B_RS14885"; product "assimilatory sulfite reductase (NADPH) hemoprotein subunit"; protein_id "WP_001290679.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2980663 2982462 . - . gene_id "ECDH10B_RS14890"; transcript_id ""; gbkey "Gene"; gene "cysJ"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14890"; old_locus_tag "ECDH10B_2932"; -NC_010473.1 Protein Homology CDS 2980666 2982462 . - 0 gene_id "ECDH10B_RS14890"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cysJ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417244.1"; locus_tag "ECDH10B_RS14890"; product "NADPH-dependent assimilatory sulfite reductase flavoprotein subunit"; protein_id "WP_000211913.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2982460 2982462 . - 0 gene_id "ECDH10B_RS14890"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cysJ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417244.1"; locus_tag "ECDH10B_RS14890"; product "NADPH-dependent assimilatory sulfite reductase flavoprotein subunit"; protein_id "WP_000211913.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2980663 2980665 . - 0 gene_id "ECDH10B_RS14890"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cysJ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417244.1"; locus_tag "ECDH10B_RS14890"; product "NADPH-dependent assimilatory sulfite reductase flavoprotein subunit"; protein_id "WP_000211913.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2982781 2983143 . + . gene_id "ECDH10B_RS14895"; transcript_id ""; gbkey "Gene"; gene "queD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14895"; old_locus_tag "ECDH10B_2933"; -NC_010473.1 Protein Homology CDS 2982781 2983140 . + 0 gene_id "ECDH10B_RS14895"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "queD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_708563.2"; locus_tag "ECDH10B_RS14895"; product "6-carboxytetrahydropterin synthase QueD"; protein_id "WP_000108294.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2982781 2982783 . + 0 gene_id "ECDH10B_RS14895"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "queD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_708563.2"; locus_tag "ECDH10B_RS14895"; product "6-carboxytetrahydropterin synthase QueD"; protein_id "WP_000108294.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2983141 2983143 . + 0 gene_id "ECDH10B_RS14895"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "queD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_708563.2"; locus_tag "ECDH10B_RS14895"; product "6-carboxytetrahydropterin synthase QueD"; protein_id "WP_000108294.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2983221 2984492 . + . gene_id "ECDH10B_RS14900"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14900"; old_locus_tag "ECDH10B_2934"; -NC_010473.1 Protein Homology CDS 2983221 2984489 . + 0 gene_id "ECDH10B_RS14900"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417246.4"; locus_tag "ECDH10B_RS14900"; product "FAD-dependent oxidoreductase"; protein_id "WP_001301334.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2983221 2983223 . + 0 gene_id "ECDH10B_RS14900"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417246.4"; locus_tag "ECDH10B_RS14900"; product "FAD-dependent oxidoreductase"; protein_id "WP_001301334.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2984490 2984492 . + 0 gene_id "ECDH10B_RS14900"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417246.4"; locus_tag "ECDH10B_RS14900"; product "FAD-dependent oxidoreductase"; protein_id "WP_001301334.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2984483 2984743 . + . gene_id "ECDH10B_RS14905"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14905"; old_locus_tag "ECDH10B_2935"; -NC_010473.1 Protein Homology CDS 2984483 2984740 . + 0 gene_id "ECDH10B_RS14905"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417247.2"; locus_tag "ECDH10B_RS14905"; product "ferredoxin family protein"; protein_id "WP_000109529.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2984483 2984485 . + 0 gene_id "ECDH10B_RS14905"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417247.2"; locus_tag "ECDH10B_RS14905"; product "ferredoxin family protein"; protein_id "WP_000109529.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2984741 2984743 . + 0 gene_id "ECDH10B_RS14905"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417247.2"; locus_tag "ECDH10B_RS14905"; product "ferredoxin family protein"; protein_id "WP_000109529.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2984760 2985335 . + . gene_id "ECDH10B_RS14910"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14910"; old_locus_tag "ECDH10B_2936"; -NC_010473.1 Protein Homology CDS 2984760 2985332 . + 0 gene_id "ECDH10B_RS14910"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417248.1"; locus_tag "ECDH10B_RS14910"; product "glycerol-3-phosphate responsive antiterminator"; protein_id "WP_001130266.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2984760 2984762 . + 0 gene_id "ECDH10B_RS14910"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417248.1"; locus_tag "ECDH10B_RS14910"; product "glycerol-3-phosphate responsive antiterminator"; protein_id "WP_001130266.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2985333 2985335 . + 0 gene_id "ECDH10B_RS14910"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417248.1"; locus_tag "ECDH10B_RS14910"; product "glycerol-3-phosphate responsive antiterminator"; protein_id "WP_001130266.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2985483 2986343 . - . gene_id "ECDH10B_RS14915"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14915"; old_locus_tag "ECDH10B_2937"; -NC_010473.1 Protein Homology CDS 2985486 2986343 . - 0 gene_id "ECDH10B_RS14915"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417249.4"; locus_tag "ECDH10B_RS14915"; product "electron transfer flavoprotein subunit alpha/FixB family protein"; protein_id "WP_001299097.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2986341 2986343 . - 0 gene_id "ECDH10B_RS14915"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417249.4"; locus_tag "ECDH10B_RS14915"; product "electron transfer flavoprotein subunit alpha/FixB family protein"; protein_id "WP_001299097.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2985483 2985485 . - 0 gene_id "ECDH10B_RS14915"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417249.4"; locus_tag "ECDH10B_RS14915"; product "electron transfer flavoprotein subunit alpha/FixB family protein"; protein_id "WP_001299097.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2986340 2987119 . - . gene_id "ECDH10B_RS14920"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14920"; old_locus_tag "ECDH10B_2938"; -NC_010473.1 Protein Homology CDS 2986343 2987119 . - 0 gene_id "ECDH10B_RS14920"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417250.4"; locus_tag "ECDH10B_RS14920"; product "electron transfer flavoprotein subunit beta/FixA family protein"; protein_id "WP_001299652.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2987117 2987119 . - 0 gene_id "ECDH10B_RS14920"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417250.4"; locus_tag "ECDH10B_RS14920"; product "electron transfer flavoprotein subunit beta/FixA family protein"; protein_id "WP_001299652.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2986340 2986342 . - 0 gene_id "ECDH10B_RS14920"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417250.4"; locus_tag "ECDH10B_RS14920"; product "electron transfer flavoprotein subunit beta/FixA family protein"; protein_id "WP_001299652.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2987097 2988506 . - . gene_id "ECDH10B_RS14925"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14925"; old_locus_tag "ECDH10B_2939"; -NC_010473.1 Protein Homology CDS 2987100 2988506 . - 0 gene_id "ECDH10B_RS14925"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_708568.1"; locus_tag "ECDH10B_RS14925"; product "MFS transporter"; protein_id "WP_000147666.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2988504 2988506 . - 0 gene_id "ECDH10B_RS14925"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_708568.1"; locus_tag "ECDH10B_RS14925"; product "MFS transporter"; protein_id "WP_000147666.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2987097 2987099 . - 0 gene_id "ECDH10B_RS14925"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_708568.1"; locus_tag "ECDH10B_RS14925"; product "MFS transporter"; protein_id "WP_000147666.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2988528 2989982 . - . gene_id "ECDH10B_RS14930"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14930"; old_locus_tag "ECDH10B_2940"; -NC_010473.1 Protein Homology CDS 2988531 2989982 . - 0 gene_id "ECDH10B_RS14930"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026183.1"; locus_tag "ECDH10B_RS14930"; product "FAD-binding oxidoreductase"; protein_id "WP_000059307.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2989980 2989982 . - 0 gene_id "ECDH10B_RS14930"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026183.1"; locus_tag "ECDH10B_RS14930"; product "FAD-binding oxidoreductase"; protein_id "WP_000059307.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2988528 2988530 . - 0 gene_id "ECDH10B_RS14930"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026183.1"; locus_tag "ECDH10B_RS14930"; product "FAD-binding oxidoreductase"; protein_id "WP_000059307.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2990052 2990837 . - . gene_id "ECDH10B_RS14935"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14935"; old_locus_tag "ECDH10B_2941"; -NC_010473.1 Protein Homology CDS 2990055 2990837 . - 0 gene_id "ECDH10B_RS14935"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417254.4"; locus_tag "ECDH10B_RS14935"; product "SDR family oxidoreductase"; protein_id "WP_000021334.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2990835 2990837 . - 0 gene_id "ECDH10B_RS14935"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417254.4"; locus_tag "ECDH10B_RS14935"; product "SDR family oxidoreductase"; protein_id "WP_000021334.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2990052 2990054 . - 0 gene_id "ECDH10B_RS14935"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417254.4"; locus_tag "ECDH10B_RS14935"; product "SDR family oxidoreductase"; protein_id "WP_000021334.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2991156 2992433 . + . gene_id "ECDH10B_RS14940"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14940"; old_locus_tag "ECDH10B_2942"; -NC_010473.1 Protein Homology CDS 2991156 2992430 . + 0 gene_id "ECDH10B_RS14940"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417255.1"; locus_tag "ECDH10B_RS14940"; product "MFS transporter"; protein_id "WP_001164544.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2991156 2991158 . + 0 gene_id "ECDH10B_RS14940"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417255.1"; locus_tag "ECDH10B_RS14940"; product "MFS transporter"; protein_id "WP_001164544.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2992431 2992433 . + 0 gene_id "ECDH10B_RS14940"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417255.1"; locus_tag "ECDH10B_RS14940"; product "MFS transporter"; protein_id "WP_001164544.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2992460 2993938 . + . gene_id "ECDH10B_RS14945"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14945"; old_locus_tag "ECDH10B_2943"; -NC_010473.1 Protein Homology CDS 2992460 2993935 . + 0 gene_id "ECDH10B_RS14945"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417256.1"; locus_tag "ECDH10B_RS14945"; product "kinase"; protein_id "WP_000039688.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2992460 2992462 . + 0 gene_id "ECDH10B_RS14945"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417256.1"; locus_tag "ECDH10B_RS14945"; product "kinase"; protein_id "WP_000039688.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2993936 2993938 . + 0 gene_id "ECDH10B_RS14945"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417256.1"; locus_tag "ECDH10B_RS14945"; product "kinase"; protein_id "WP_000039688.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2995311 2995982 . - . gene_id "ECDH10B_RS14950"; transcript_id ""; gbkey "Gene"; gene "queE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14950"; old_locus_tag "ECDH10B_2944"; -NC_010473.1 Protein Homology CDS 2995314 2995982 . - 0 gene_id "ECDH10B_RS14950"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "queE"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001199960.1"; locus_tag "ECDH10B_RS14950"; product "7-carboxy-7-deazaguanine synthase QueE"; protein_id "WP_001199973.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2995980 2995982 . - 0 gene_id "ECDH10B_RS14950"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "queE"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001199960.1"; locus_tag "ECDH10B_RS14950"; product "7-carboxy-7-deazaguanine synthase QueE"; protein_id "WP_001199973.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2995311 2995313 . - 0 gene_id "ECDH10B_RS14950"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "queE"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001199960.1"; locus_tag "ECDH10B_RS14950"; product "7-carboxy-7-deazaguanine synthase QueE"; protein_id "WP_001199973.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2996121 2996261 . + . gene_id "ECDH10B_RS14955"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14955"; -NC_010473.1 Protein Homology CDS 2996121 2996258 . + 0 gene_id "ECDH10B_RS14955"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_002791252.1"; locus_tag "ECDH10B_RS14955"; product "hypothetical protein"; protein_id "WP_001288228.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2996121 2996123 . + 0 gene_id "ECDH10B_RS14955"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_002791252.1"; locus_tag "ECDH10B_RS14955"; product "hypothetical protein"; protein_id "WP_001288228.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2996259 2996261 . + 0 gene_id "ECDH10B_RS14955"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_002791252.1"; locus_tag "ECDH10B_RS14955"; product "hypothetical protein"; protein_id "WP_001288228.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2996275 2997147 . + . gene_id "ECDH10B_RS14960"; transcript_id ""; gbkey "Gene"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS14960"; old_locus_tag "ECDH10B_2945"; pseudo "true"; -NC_010473.1 Protein Homology CDS 2996275 2997144 . + 0 gene_id "ECDH10B_RS14960"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417258.4"; locus_tag "ECDH10B_RS14960"; note "internal stop"; product "YgcG family protein"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2996275 2996277 . + 0 gene_id "ECDH10B_RS14960"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417258.4"; locus_tag "ECDH10B_RS14960"; note "internal stop"; product "YgcG family protein"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2997145 2997147 . + 0 gene_id "ECDH10B_RS14960"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417258.4"; locus_tag "ECDH10B_RS14960"; note "internal stop"; product "YgcG family protein"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 2997207 2998505 . - . gene_id "ECDH10B_RS14965"; transcript_id ""; gbkey "Gene"; gene "eno"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14965"; old_locus_tag "ECDH10B_2946"; -NC_010473.1 Protein Homology CDS 2997210 2998505 . - 0 gene_id "ECDH10B_RS14965"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "eno"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311666.1"; locus_tag "ECDH10B_RS14965"; product "phosphopyruvate hydratase"; protein_id "WP_000036723.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 2998503 2998505 . - 0 gene_id "ECDH10B_RS14965"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "eno"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311666.1"; locus_tag "ECDH10B_RS14965"; product "phosphopyruvate hydratase"; protein_id "WP_000036723.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2997207 2997209 . - 0 gene_id "ECDH10B_RS14965"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "eno"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311666.1"; locus_tag "ECDH10B_RS14965"; product "phosphopyruvate hydratase"; protein_id "WP_000036723.1"; transl_table "11"; -NC_010473.1 RefSeq gene 2998593 3000230 . - . gene_id "ECDH10B_RS14970"; transcript_id ""; gbkey "Gene"; gene "pyrG"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14970"; old_locus_tag "ECDH10B_2947"; -NC_010473.1 Protein Homology CDS 2998596 3000230 . - 0 gene_id "ECDH10B_RS14970"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pyrG"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005130912.1"; locus_tag "ECDH10B_RS14970"; product "CTP synthase (glutamine hydrolyzing)"; protein_id "WP_000210878.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3000228 3000230 . - 0 gene_id "ECDH10B_RS14970"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pyrG"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005130912.1"; locus_tag "ECDH10B_RS14970"; product "CTP synthase (glutamine hydrolyzing)"; protein_id "WP_000210878.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 2998593 2998595 . - 0 gene_id "ECDH10B_RS14970"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pyrG"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005130912.1"; locus_tag "ECDH10B_RS14970"; product "CTP synthase (glutamine hydrolyzing)"; protein_id "WP_000210878.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3000458 3001249 . - . gene_id "ECDH10B_RS14975"; transcript_id ""; gbkey "Gene"; gene "mazG"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14975"; old_locus_tag "ECDH10B_2948"; -NC_010473.1 Protein Homology CDS 3000461 3001249 . - 0 gene_id "ECDH10B_RS14975"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mazG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311668.1"; locus_tag "ECDH10B_RS14975"; product "nucleoside triphosphate pyrophosphohydrolase"; protein_id "WP_001071648.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3001247 3001249 . - 0 gene_id "ECDH10B_RS14975"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mazG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311668.1"; locus_tag "ECDH10B_RS14975"; product "nucleoside triphosphate pyrophosphohydrolase"; protein_id "WP_001071648.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3000458 3000460 . - 0 gene_id "ECDH10B_RS14975"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mazG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311668.1"; locus_tag "ECDH10B_RS14975"; product "nucleoside triphosphate pyrophosphohydrolase"; protein_id "WP_001071648.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3001320 3001655 . - . gene_id "ECDH10B_RS14980"; transcript_id ""; gbkey "Gene"; gene "mazF"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14980"; old_locus_tag "ECDH10B_2949"; -NC_010473.1 Protein Homology CDS 3001323 3001655 . - 0 gene_id "ECDH10B_RS14980"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mazF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311669.1"; locus_tag "ECDH10B_RS14980"; product "endoribonuclease MazF"; protein_id "WP_000254738.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3001653 3001655 . - 0 gene_id "ECDH10B_RS14980"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mazF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311669.1"; locus_tag "ECDH10B_RS14980"; product "endoribonuclease MazF"; protein_id "WP_000254738.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3001320 3001322 . - 0 gene_id "ECDH10B_RS14980"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mazF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311669.1"; locus_tag "ECDH10B_RS14980"; product "endoribonuclease MazF"; protein_id "WP_000254738.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3001655 3001903 . - . gene_id "ECDH10B_RS14985"; transcript_id ""; gbkey "Gene"; gene "mazE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14985"; old_locus_tag "ECDH10B_2950"; -NC_010473.1 Protein Homology CDS 3001658 3001903 . - 0 gene_id "ECDH10B_RS14985"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mazE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311670.1"; locus_tag "ECDH10B_RS14985"; product "type II toxin-antitoxin system antitoxin MazE"; protein_id "WP_000581937.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3001901 3001903 . - 0 gene_id "ECDH10B_RS14985"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mazE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311670.1"; locus_tag "ECDH10B_RS14985"; product "type II toxin-antitoxin system antitoxin MazE"; protein_id "WP_000581937.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3001655 3001657 . - 0 gene_id "ECDH10B_RS14985"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mazE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311670.1"; locus_tag "ECDH10B_RS14985"; product "type II toxin-antitoxin system antitoxin MazE"; protein_id "WP_000581937.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3001981 3003960 . - . gene_id "ECDH10B_RS14990"; transcript_id ""; gbkey "Gene"; gene "relA"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS14990"; old_locus_tag "ECDH10B_2951"; partial "true"; pseudo "true"; -NC_010473.1 Protein Homology CDS 3001984 3003960 . - 0 gene_id "ECDH10B_RS14990"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "relA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311671.1"; locus_tag "ECDH10B_RS14990"; note "incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "GTP diphosphokinase"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3003958 3003960 . - 0 gene_id "ECDH10B_RS14990"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "relA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311671.1"; locus_tag "ECDH10B_RS14990"; note "incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "GTP diphosphokinase"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3001981 3001983 . - 0 gene_id "ECDH10B_RS14990"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "relA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311671.1"; locus_tag "ECDH10B_RS14990"; note "incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "GTP diphosphokinase"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 3003972 3005200 . - . gene_id "ECDH10B_RS14995"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS14995"; -NC_010473.1 Protein Homology CDS 3004885 3005200 . - 0 gene_id "ECDH10B_RS14995"; transcript_id "unknown_transcript_1"; exception "ribosomal slippage"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_086558215.1"; locus_tag "ECDH10B_RS14995"; note "programmed frameshift"; product "IS3-like element IS2 family transposase"; protein_id "WP_088895425.1"; transl_table "11"; -NC_010473.1 Protein Homology CDS 3003975 3004885 . - 0 gene_id "ECDH10B_RS14995"; transcript_id "unknown_transcript_1"; exception "ribosomal slippage"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_086558215.1"; locus_tag "ECDH10B_RS14995"; note "programmed frameshift"; product "IS3-like element IS2 family transposase"; protein_id "WP_088895425.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3005198 3005200 . - 0 gene_id "ECDH10B_RS14995"; transcript_id "unknown_transcript_1"; exception "ribosomal slippage"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_086558215.1"; locus_tag "ECDH10B_RS14995"; note "programmed frameshift"; product "IS3-like element IS2 family transposase"; protein_id "WP_088895425.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3003972 3003974 . - 0 gene_id "ECDH10B_RS14995"; transcript_id "unknown_transcript_1"; exception "ribosomal slippage"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_086558215.1"; locus_tag "ECDH10B_RS14995"; note "programmed frameshift"; product "IS3-like element IS2 family transposase"; protein_id "WP_088895425.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3005291 3005551 . - . gene_id "ECDH10B_RS15005"; transcript_id ""; gbkey "Gene"; gene "relA"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS15005"; partial "true"; pseudo "true"; -NC_010473.1 Protein Homology CDS 3005294 3005551 . - 0 gene_id "ECDH10B_RS15005"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "relA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311671.1"; locus_tag "ECDH10B_RS15005"; note "(p)ppGpp synthetase; catalyzes the formation of pppGpp and ppGpp from ATP and GTP or GDP; incomplete; partial in the middle of a contig; missing C-terminus"; partial "true"; product "GTP diphosphokinase"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3005549 3005551 . - 0 gene_id "ECDH10B_RS15005"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "relA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311671.1"; locus_tag "ECDH10B_RS15005"; note "(p)ppGpp synthetase; catalyzes the formation of pppGpp and ppGpp from ATP and GTP or GDP; incomplete; partial in the middle of a contig; missing C-terminus"; partial "true"; product "GTP diphosphokinase"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3005291 3005293 . - 0 gene_id "ECDH10B_RS15005"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "relA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311671.1"; locus_tag "ECDH10B_RS15005"; note "(p)ppGpp synthetase; catalyzes the formation of pppGpp and ppGpp from ATP and GTP or GDP; incomplete; partial in the middle of a contig; missing C-terminus"; partial "true"; product "GTP diphosphokinase"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 3005599 3006900 . - . gene_id "ECDH10B_RS15010"; transcript_id ""; gbkey "Gene"; gene "rlmD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15010"; old_locus_tag "ECDH10B_2953"; -NC_010473.1 Protein Homology CDS 3005602 3006900 . - 0 gene_id "ECDH10B_RS15010"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rlmD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417265.1"; locus_tag "ECDH10B_RS15010"; product "23S rRNA (uracil(1939)-C(5))-methyltransferase RlmD"; protein_id "WP_000046812.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3006898 3006900 . - 0 gene_id "ECDH10B_RS15010"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rlmD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417265.1"; locus_tag "ECDH10B_RS15010"; product "23S rRNA (uracil(1939)-C(5))-methyltransferase RlmD"; protein_id "WP_000046812.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3005599 3005601 . - 0 gene_id "ECDH10B_RS15010"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rlmD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417265.1"; locus_tag "ECDH10B_RS15010"; product "23S rRNA (uracil(1939)-C(5))-methyltransferase RlmD"; protein_id "WP_000046812.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3006957 3009713 . + . gene_id "ECDH10B_RS15015"; transcript_id ""; gbkey "Gene"; gene "barA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15015"; old_locus_tag "ECDH10B_2954"; -NC_010473.1 Protein Homology CDS 3006957 3009710 . + 0 gene_id "ECDH10B_RS15015"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "barA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311673.1"; locus_tag "ECDH10B_RS15015"; product "two-component sensor histidine kinase BarA"; protein_id "WP_000186450.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3006957 3006959 . + 0 gene_id "ECDH10B_RS15015"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "barA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311673.1"; locus_tag "ECDH10B_RS15015"; product "two-component sensor histidine kinase BarA"; protein_id "WP_000186450.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3009711 3009713 . + 0 gene_id "ECDH10B_RS15015"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "barA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311673.1"; locus_tag "ECDH10B_RS15015"; product "two-component sensor histidine kinase BarA"; protein_id "WP_000186450.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3009945 3011285 . - . gene_id "ECDH10B_RS15020"; transcript_id ""; gbkey "Gene"; gene "gudD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15020"; old_locus_tag "ECDH10B_2955"; -NC_010473.1 Protein Homology CDS 3009948 3011285 . - 0 gene_id "ECDH10B_RS15020"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gudD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311674.1"; locus_tag "ECDH10B_RS15020"; product "glucarate dehydratase"; protein_id "WP_000098255.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3011283 3011285 . - 0 gene_id "ECDH10B_RS15020"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gudD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311674.1"; locus_tag "ECDH10B_RS15020"; product "glucarate dehydratase"; protein_id "WP_000098255.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3009945 3009947 . - 0 gene_id "ECDH10B_RS15020"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gudD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311674.1"; locus_tag "ECDH10B_RS15020"; product "glucarate dehydratase"; protein_id "WP_000098255.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3011306 3012646 . - . gene_id "ECDH10B_RS15025"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15025"; old_locus_tag "ECDH10B_2956"; -NC_010473.1 Protein Homology CDS 3011309 3012646 . - 0 gene_id "ECDH10B_RS15025"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417268.1"; locus_tag "ECDH10B_RS15025"; product "glucarate dehydratase-related protein"; protein_id "WP_000235391.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3012644 3012646 . - 0 gene_id "ECDH10B_RS15025"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417268.1"; locus_tag "ECDH10B_RS15025"; product "glucarate dehydratase-related protein"; protein_id "WP_000235391.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3011306 3011308 . - 0 gene_id "ECDH10B_RS15025"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417268.1"; locus_tag "ECDH10B_RS15025"; product "glucarate dehydratase-related protein"; protein_id "WP_000235391.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3012648 3014000 . - . gene_id "ECDH10B_RS15030"; transcript_id ""; gbkey "Gene"; gene "gudP"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15030"; old_locus_tag "ECDH10B_2957"; -NC_010473.1 Protein Homology CDS 3012651 3014000 . - 0 gene_id "ECDH10B_RS15030"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gudP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417269.1"; locus_tag "ECDH10B_RS15030"; product "galactarate/glucarate/glycerate transporter GudP"; protein_id "WP_000097072.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3013998 3014000 . - 0 gene_id "ECDH10B_RS15030"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gudP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417269.1"; locus_tag "ECDH10B_RS15030"; product "galactarate/glucarate/glycerate transporter GudP"; protein_id "WP_000097072.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3012648 3012650 . - 0 gene_id "ECDH10B_RS15030"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gudP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417269.1"; locus_tag "ECDH10B_RS15030"; product "galactarate/glucarate/glycerate transporter GudP"; protein_id "WP_000097072.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3014435 3014884 . - . gene_id "ECDH10B_RS15035"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15035"; old_locus_tag "ECDH10B_2958"; -NC_010473.1 Protein Homology CDS 3014438 3014884 . - 0 gene_id "ECDH10B_RS15035"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311677.1"; locus_tag "ECDH10B_RS15035"; product "flavodoxin"; protein_id "WP_000807753.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3014882 3014884 . - 0 gene_id "ECDH10B_RS15035"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311677.1"; locus_tag "ECDH10B_RS15035"; product "flavodoxin"; protein_id "WP_000807753.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3014435 3014437 . - 0 gene_id "ECDH10B_RS15035"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311677.1"; locus_tag "ECDH10B_RS15035"; product "flavodoxin"; protein_id "WP_000807753.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3014902 3015684 . - . gene_id "ECDH10B_RS15040"; transcript_id ""; gbkey "Gene"; gene "truC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15040"; old_locus_tag "ECDH10B_2959"; -NC_010473.1 Protein Homology CDS 3014905 3015684 . - 0 gene_id "ECDH10B_RS15040"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "truC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417271.1"; locus_tag "ECDH10B_RS15040"; product "tRNA pseudouridine(65) synthase TruC"; protein_id "WP_000890001.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3015682 3015684 . - 0 gene_id "ECDH10B_RS15040"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "truC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417271.1"; locus_tag "ECDH10B_RS15040"; product "tRNA pseudouridine(65) synthase TruC"; protein_id "WP_000890001.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3014902 3014904 . - 0 gene_id "ECDH10B_RS15040"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "truC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417271.1"; locus_tag "ECDH10B_RS15040"; product "tRNA pseudouridine(65) synthase TruC"; protein_id "WP_000890001.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3015684 3016013 . - . gene_id "ECDH10B_RS15045"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15045"; old_locus_tag "ECDH10B_2960"; -NC_010473.1 Protein Homology CDS 3015687 3016013 . - 0 gene_id "ECDH10B_RS15045"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417272.1"; locus_tag "ECDH10B_RS15045"; product "YqcC family protein"; protein_id "WP_000206990.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3016011 3016013 . - 0 gene_id "ECDH10B_RS15045"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417272.1"; locus_tag "ECDH10B_RS15045"; product "YqcC family protein"; protein_id "WP_000206990.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3015684 3015686 . - 0 gene_id "ECDH10B_RS15045"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417272.1"; locus_tag "ECDH10B_RS15045"; product "YqcC family protein"; protein_id "WP_000206990.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3016635 3017180 . - . gene_id "ECDH10B_RS15055"; transcript_id ""; gbkey "Gene"; gene "syd"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15055"; old_locus_tag "ECDH10B_2962"; -NC_010473.1 Protein Homology CDS 3016638 3017180 . - 0 gene_id "ECDH10B_RS15055"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "syd"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417273.1"; locus_tag "ECDH10B_RS15055"; product "SecY-interacting protein"; protein_id "WP_000342431.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3017178 3017180 . - 0 gene_id "ECDH10B_RS15055"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "syd"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417273.1"; locus_tag "ECDH10B_RS15055"; product "SecY-interacting protein"; protein_id "WP_000342431.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3016635 3016637 . - 0 gene_id "ECDH10B_RS15055"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "syd"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417273.1"; locus_tag "ECDH10B_RS15055"; product "SecY-interacting protein"; protein_id "WP_000342431.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3017248 3018096 . + . gene_id "ECDH10B_RS15060"; transcript_id ""; gbkey "Gene"; gene "queF"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15060"; old_locus_tag "ECDH10B_2963"; -NC_010473.1 Protein Homology CDS 3017248 3018093 . + 0 gene_id "ECDH10B_RS15060"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "queF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417274.1"; locus_tag "ECDH10B_RS15060"; product "NADPH-dependent 7-cyano-7-deazaguanine reductase QueF"; protein_id "WP_000100421.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3017248 3017250 . + 0 gene_id "ECDH10B_RS15060"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "queF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417274.1"; locus_tag "ECDH10B_RS15060"; product "NADPH-dependent 7-cyano-7-deazaguanine reductase QueF"; protein_id "WP_000100421.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3018094 3018096 . + 0 gene_id "ECDH10B_RS15060"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "queF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417274.1"; locus_tag "ECDH10B_RS15060"; product "NADPH-dependent 7-cyano-7-deazaguanine reductase QueF"; protein_id "WP_000100421.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3018208 3019572 . + . gene_id "ECDH10B_RS15065"; transcript_id ""; gbkey "Gene"; gene "ppnN"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15065"; old_locus_tag "ECDH10B_2964"; -NC_010473.1 Protein Homology CDS 3018208 3019569 . + 0 gene_id "ECDH10B_RS15065"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ppnN"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311682.1"; locus_tag "ECDH10B_RS15065"; product "nucleotide 5'-monophosphate nucleosidase"; protein_id "WP_000627995.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3018208 3018210 . + 0 gene_id "ECDH10B_RS15065"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ppnN"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311682.1"; locus_tag "ECDH10B_RS15065"; product "nucleotide 5'-monophosphate nucleosidase"; protein_id "WP_000627995.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3019570 3019572 . + 0 gene_id "ECDH10B_RS15065"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ppnN"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311682.1"; locus_tag "ECDH10B_RS15065"; product "nucleotide 5'-monophosphate nucleosidase"; protein_id "WP_000627995.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3020129 3021418 . + . gene_id "ECDH10B_RS15070"; transcript_id ""; gbkey "Gene"; gene "sdaC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15070"; old_locus_tag "ECDH10B_2965"; -NC_010473.1 Protein Homology CDS 3020129 3021415 . + 0 gene_id "ECDH10B_RS15070"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sdaC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311683.1"; locus_tag "ECDH10B_RS15070"; product "HAAAP family serine/threonine permease SdaC"; protein_id "WP_000450476.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3020129 3020131 . + 0 gene_id "ECDH10B_RS15070"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sdaC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311683.1"; locus_tag "ECDH10B_RS15070"; product "HAAAP family serine/threonine permease SdaC"; protein_id "WP_000450476.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3021416 3021418 . + 0 gene_id "ECDH10B_RS15070"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sdaC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311683.1"; locus_tag "ECDH10B_RS15070"; product "HAAAP family serine/threonine permease SdaC"; protein_id "WP_000450476.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3021476 3022843 . + . gene_id "ECDH10B_RS15075"; transcript_id ""; gbkey "Gene"; gene "sdaB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15075"; old_locus_tag "ECDH10B_2966"; -NC_010473.1 Protein Homology CDS 3021476 3022840 . + 0 gene_id "ECDH10B_RS15075"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sdaB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417277.1"; locus_tag "ECDH10B_RS15075"; product "L-serine ammonia-lyase II"; protein_id "WP_000626422.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3021476 3021478 . + 0 gene_id "ECDH10B_RS15075"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sdaB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417277.1"; locus_tag "ECDH10B_RS15075"; product "L-serine ammonia-lyase II"; protein_id "WP_000626422.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3022841 3022843 . + 0 gene_id "ECDH10B_RS15075"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sdaB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417277.1"; locus_tag "ECDH10B_RS15075"; product "L-serine ammonia-lyase II"; protein_id "WP_000626422.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3022955 3023710 . + . gene_id "ECDH10B_RS15080"; transcript_id ""; gbkey "Gene"; gene "xni"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15080"; old_locus_tag "ECDH10B_2967"; -NC_010473.1 Protein Homology CDS 3022955 3023707 . + 0 gene_id "ECDH10B_RS15080"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "xni"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417278.4"; locus_tag "ECDH10B_RS15080"; product "flap endonuclease Xni"; protein_id "WP_000268232.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3022955 3022957 . + 0 gene_id "ECDH10B_RS15080"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "xni"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417278.4"; locus_tag "ECDH10B_RS15080"; product "flap endonuclease Xni"; protein_id "WP_000268232.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3023708 3023710 . + 0 gene_id "ECDH10B_RS15080"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "xni"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417278.4"; locus_tag "ECDH10B_RS15080"; product "flap endonuclease Xni"; protein_id "WP_000268232.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3023765 3024913 . - . gene_id "ECDH10B_RS15085"; transcript_id ""; gbkey "Gene"; gene "fucO"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15085"; old_locus_tag "ECDH10B_2968"; -NC_010473.1 Protein Homology CDS 3023768 3024913 . - 0 gene_id "ECDH10B_RS15085"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fucO"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417279.2"; locus_tag "ECDH10B_RS15085"; product "lactaldehyde reductase"; protein_id "WP_000013588.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3024911 3024913 . - 0 gene_id "ECDH10B_RS15085"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fucO"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417279.2"; locus_tag "ECDH10B_RS15085"; product "lactaldehyde reductase"; protein_id "WP_000013588.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3023765 3023767 . - 0 gene_id "ECDH10B_RS15085"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fucO"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417279.2"; locus_tag "ECDH10B_RS15085"; product "lactaldehyde reductase"; protein_id "WP_000013588.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3024941 3025588 . - . gene_id "ECDH10B_RS15090"; transcript_id ""; gbkey "Gene"; gene "fucA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15090"; old_locus_tag "ECDH10B_2969"; -NC_010473.1 Protein Homology CDS 3024944 3025588 . - 0 gene_id "ECDH10B_RS15090"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fucA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417280.1"; locus_tag "ECDH10B_RS15090"; product "L-fuculose-phosphate aldolase"; protein_id "WP_000440781.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3025586 3025588 . - 0 gene_id "ECDH10B_RS15090"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fucA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417280.1"; locus_tag "ECDH10B_RS15090"; product "L-fuculose-phosphate aldolase"; protein_id "WP_000440781.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3024941 3024943 . - 0 gene_id "ECDH10B_RS15090"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fucA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417280.1"; locus_tag "ECDH10B_RS15090"; product "L-fuculose-phosphate aldolase"; protein_id "WP_000440781.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3026135 3027451 . + . gene_id "ECDH10B_RS15095"; transcript_id ""; gbkey "Gene"; gene "fucP"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15095"; old_locus_tag "ECDH10B_2970"; -NC_010473.1 Protein Homology CDS 3026135 3027448 . + 0 gene_id "ECDH10B_RS15095"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fucP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417281.1"; locus_tag "ECDH10B_RS15095"; product "L-fucose:H+ symporter permease"; protein_id "WP_000528603.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3026135 3026137 . + 0 gene_id "ECDH10B_RS15095"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fucP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417281.1"; locus_tag "ECDH10B_RS15095"; product "L-fucose:H+ symporter permease"; protein_id "WP_000528603.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3027449 3027451 . + 0 gene_id "ECDH10B_RS15095"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fucP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417281.1"; locus_tag "ECDH10B_RS15095"; product "L-fucose:H+ symporter permease"; protein_id "WP_000528603.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3027484 3029259 . + . gene_id "ECDH10B_RS15100"; transcript_id ""; gbkey "Gene"; gene "fucI"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15100"; old_locus_tag "ECDH10B_2971"; -NC_010473.1 Protein Homology CDS 3027484 3029256 . + 0 gene_id "ECDH10B_RS15100"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fucI"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417282.1"; locus_tag "ECDH10B_RS15100"; product "L-fucose isomerase"; protein_id "WP_000724153.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3027484 3027486 . + 0 gene_id "ECDH10B_RS15100"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fucI"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417282.1"; locus_tag "ECDH10B_RS15100"; product "L-fucose isomerase"; protein_id "WP_000724153.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3029257 3029259 . + 0 gene_id "ECDH10B_RS15100"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fucI"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417282.1"; locus_tag "ECDH10B_RS15100"; product "L-fucose isomerase"; protein_id "WP_000724153.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3029368 3030786 . + . gene_id "ECDH10B_RS15105"; transcript_id ""; gbkey "Gene"; gene "fucK"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15105"; old_locus_tag "ECDH10B_2972"; -NC_010473.1 Protein Homology CDS 3029368 3030783 . + 0 gene_id "ECDH10B_RS15105"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fucK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417283.2"; locus_tag "ECDH10B_RS15105"; product "L-fuculokinase"; protein_id "WP_000808392.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3029368 3029370 . + 0 gene_id "ECDH10B_RS15105"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fucK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417283.2"; locus_tag "ECDH10B_RS15105"; product "L-fuculokinase"; protein_id "WP_000808392.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3030784 3030786 . + 0 gene_id "ECDH10B_RS15105"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fucK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417283.2"; locus_tag "ECDH10B_RS15105"; product "L-fuculokinase"; protein_id "WP_000808392.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3030788 3031210 . + . gene_id "ECDH10B_RS15110"; transcript_id ""; gbkey "Gene"; gene "fucU"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15110"; old_locus_tag "ECDH10B_2973"; -NC_010473.1 Protein Homology CDS 3030788 3031207 . + 0 gene_id "ECDH10B_RS15110"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fucU"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311691.1"; locus_tag "ECDH10B_RS15110"; product "L-fucose mutarotase"; protein_id "WP_000920840.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3030788 3030790 . + 0 gene_id "ECDH10B_RS15110"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fucU"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311691.1"; locus_tag "ECDH10B_RS15110"; product "L-fucose mutarotase"; protein_id "WP_000920840.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3031208 3031210 . + 0 gene_id "ECDH10B_RS15110"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fucU"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311691.1"; locus_tag "ECDH10B_RS15110"; product "L-fucose mutarotase"; protein_id "WP_000920840.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3031268 3031999 . + . gene_id "ECDH10B_RS15115"; transcript_id ""; gbkey "Gene"; gene "fucR"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15115"; old_locus_tag "ECDH10B_2974"; -NC_010473.1 Protein Homology CDS 3031268 3031996 . + 0 gene_id "ECDH10B_RS15115"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fucR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417285.1"; locus_tag "ECDH10B_RS15115"; product "L-fucose operon activator"; protein_id "WP_000642344.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3031268 3031270 . + 0 gene_id "ECDH10B_RS15115"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fucR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417285.1"; locus_tag "ECDH10B_RS15115"; product "L-fucose operon activator"; protein_id "WP_000642344.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3031997 3031999 . + 0 gene_id "ECDH10B_RS15115"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fucR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417285.1"; locus_tag "ECDH10B_RS15115"; product "L-fucose operon activator"; protein_id "WP_000642344.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3032043 3033143 . - . gene_id "ECDH10B_RS15120"; transcript_id ""; gbkey "Gene"; gene "rlmM"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15120"; old_locus_tag "ECDH10B_2975"; -NC_010473.1 Protein Homology CDS 3032046 3033143 . - 0 gene_id "ECDH10B_RS15120"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rlmM"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_010435097.1"; locus_tag "ECDH10B_RS15120"; product "23S rRNA (cytidine(2498)-2'-O)-methyltransferase RlmM"; protein_id "WP_001045520.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3033141 3033143 . - 0 gene_id "ECDH10B_RS15120"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rlmM"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_010435097.1"; locus_tag "ECDH10B_RS15120"; product "23S rRNA (cytidine(2498)-2'-O)-methyltransferase RlmM"; protein_id "WP_001045520.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3032043 3032045 . - 0 gene_id "ECDH10B_RS15120"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rlmM"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_010435097.1"; locus_tag "ECDH10B_RS15120"; product "23S rRNA (cytidine(2498)-2'-O)-methyltransferase RlmM"; protein_id "WP_001045520.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3033136 3033531 . - . gene_id "ECDH10B_RS15125"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15125"; old_locus_tag "ECDH10B_2976"; -NC_010473.1 Protein Homology CDS 3033139 3033531 . - 0 gene_id "ECDH10B_RS15125"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311694.1"; locus_tag "ECDH10B_RS15125"; product "DUF423 domain-containing protein"; protein_id "WP_000203905.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3033529 3033531 . - 0 gene_id "ECDH10B_RS15125"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311694.1"; locus_tag "ECDH10B_RS15125"; product "DUF423 domain-containing protein"; protein_id "WP_000203905.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3033136 3033138 . - 0 gene_id "ECDH10B_RS15125"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311694.1"; locus_tag "ECDH10B_RS15125"; product "DUF423 domain-containing protein"; protein_id "WP_000203905.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3033550 3034467 . - . gene_id "ECDH10B_RS15130"; transcript_id ""; gbkey "Gene"; gene "gcvA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15130"; old_locus_tag "ECDH10B_2977"; -NC_010473.1 Protein Homology CDS 3033553 3034467 . - 0 gene_id "ECDH10B_RS15130"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gcvA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005130970.1"; locus_tag "ECDH10B_RS15130"; product "glycine cleavage system transcriptional regulator GcvA"; protein_id "WP_000044401.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3034465 3034467 . - 0 gene_id "ECDH10B_RS15130"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gcvA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005130970.1"; locus_tag "ECDH10B_RS15130"; product "glycine cleavage system transcriptional regulator GcvA"; protein_id "WP_000044401.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3033550 3033552 . - 0 gene_id "ECDH10B_RS15130"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gcvA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005130970.1"; locus_tag "ECDH10B_RS15130"; product "glycine cleavage system transcriptional regulator GcvA"; protein_id "WP_000044401.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3034810 3035037 . - . gene_id "ECDH10B_RS15135"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15135"; old_locus_tag "ECDH10B_2979"; -NC_010473.1 Protein Homology CDS 3034813 3035037 . - 0 gene_id "ECDH10B_RS15135"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417289.2"; locus_tag "ECDH10B_RS15135"; product "YgdI/YgdR family lipoprotein"; protein_id "WP_000750398.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3035035 3035037 . - 0 gene_id "ECDH10B_RS15135"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417289.2"; locus_tag "ECDH10B_RS15135"; product "YgdI/YgdR family lipoprotein"; protein_id "WP_000750398.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3034810 3034812 . - 0 gene_id "ECDH10B_RS15135"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417289.2"; locus_tag "ECDH10B_RS15135"; product "YgdI/YgdR family lipoprotein"; protein_id "WP_000750398.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3035229 3036434 . + . gene_id "ECDH10B_RS15140"; transcript_id ""; gbkey "Gene"; gene "csdA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15140"; old_locus_tag "ECDH10B_2980"; -NC_010473.1 Protein Homology CDS 3035229 3036431 . + 0 gene_id "ECDH10B_RS15140"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "csdA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417290.1"; locus_tag "ECDH10B_RS15140"; product "cysteine desulfurase CsdA"; protein_id "WP_001300698.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3035229 3035231 . + 0 gene_id "ECDH10B_RS15140"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "csdA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417290.1"; locus_tag "ECDH10B_RS15140"; product "cysteine desulfurase CsdA"; protein_id "WP_001300698.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3036432 3036434 . + 0 gene_id "ECDH10B_RS15140"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "csdA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417290.1"; locus_tag "ECDH10B_RS15140"; product "cysteine desulfurase CsdA"; protein_id "WP_001300698.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3036434 3036877 . + . gene_id "ECDH10B_RS15145"; transcript_id ""; gbkey "Gene"; gene "csdE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15145"; old_locus_tag "ECDH10B_2981"; -NC_010473.1 Protein Homology CDS 3036434 3036874 . + 0 gene_id "ECDH10B_RS15145"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "csdE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311698.1"; locus_tag "ECDH10B_RS15145"; product "cysteine desulfurase sulfur acceptor subunit CsdE"; protein_id "WP_000184261.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3036434 3036436 . + 0 gene_id "ECDH10B_RS15145"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "csdE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311698.1"; locus_tag "ECDH10B_RS15145"; product "cysteine desulfurase sulfur acceptor subunit CsdE"; protein_id "WP_000184261.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3036875 3036877 . + 0 gene_id "ECDH10B_RS15145"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "csdE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311698.1"; locus_tag "ECDH10B_RS15145"; product "cysteine desulfurase sulfur acceptor subunit CsdE"; protein_id "WP_000184261.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3036928 3037734 . - . gene_id "ECDH10B_RS15150"; transcript_id ""; gbkey "Gene"; gene "tcdA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15150"; old_locus_tag "ECDH10B_2982"; -NC_010473.1 Protein Homology CDS 3036931 3037734 . - 0 gene_id "ECDH10B_RS15150"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tcdA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417292.1"; locus_tag "ECDH10B_RS15150"; product "tRNA cyclic N6-threonylcarbamoyladenosine(37) synthase TcdA"; protein_id "WP_000117728.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3037732 3037734 . - 0 gene_id "ECDH10B_RS15150"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tcdA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417292.1"; locus_tag "ECDH10B_RS15150"; product "tRNA cyclic N6-threonylcarbamoyladenosine(37) synthase TcdA"; protein_id "WP_000117728.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3036928 3036930 . - 0 gene_id "ECDH10B_RS15150"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tcdA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417292.1"; locus_tag "ECDH10B_RS15150"; product "tRNA cyclic N6-threonylcarbamoyladenosine(37) synthase TcdA"; protein_id "WP_000117728.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3037973 3039070 . - . gene_id "ECDH10B_RS15155"; transcript_id ""; gbkey "Gene"; gene "mltA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15155"; old_locus_tag "ECDH10B_2983"; -NC_010473.1 Protein Homology CDS 3037976 3039070 . - 0 gene_id "ECDH10B_RS15155"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mltA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_008785702.1"; locus_tag "ECDH10B_RS15155"; product "murein transglycosylase A"; protein_id "WP_000678646.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3039068 3039070 . - 0 gene_id "ECDH10B_RS15155"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mltA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_008785702.1"; locus_tag "ECDH10B_RS15155"; product "murein transglycosylase A"; protein_id "WP_000678646.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3037973 3037975 . - 0 gene_id "ECDH10B_RS15155"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mltA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_008785702.1"; locus_tag "ECDH10B_RS15155"; product "murein transglycosylase A"; protein_id "WP_000678646.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3039279 3039355 . + . gene_id "ECDH10B_RS15160"; transcript_id ""; gbkey "Gene"; gene_biotype "tRNA"; locus_tag "ECDH10B_RS15160"; old_locus_tag "ECDH10B_2984"; -NC_010473.1 tRNAscan-SE exon 3039279 3039355 . + . gene_id "ECDH10B_RS15160"; transcript_id "ECDH10B_RS15160"; anticodon "(pos:3039313..3039315)"; gbkey "tRNA"; inference "COORDINATES: profile:tRNAscan-SE:2.0.6"; locus_tag "ECDH10B_RS15160"; product "tRNA-Met"; exon_number "1"; -NC_010473.1 RefSeq gene 3039389 3039465 . + . gene_id "ECDH10B_RS15165"; transcript_id ""; gbkey "Gene"; gene_biotype "tRNA"; locus_tag "ECDH10B_RS15165"; old_locus_tag "ECDH10B_2985"; -NC_010473.1 tRNAscan-SE exon 3039389 3039465 . + . gene_id "ECDH10B_RS15165"; transcript_id "ECDH10B_RS15165"; anticodon "(pos:3039423..3039425)"; gbkey "tRNA"; inference "COORDINATES: profile:tRNAscan-SE:2.0.6"; locus_tag "ECDH10B_RS15165"; product "tRNA-Met"; exon_number "1"; -NC_010473.1 RefSeq gene 3039499 3039575 . + . gene_id "ECDH10B_RS15170"; transcript_id ""; gbkey "Gene"; gene_biotype "tRNA"; locus_tag "ECDH10B_RS15170"; old_locus_tag "ECDH10B_2986"; -NC_010473.1 tRNAscan-SE exon 3039499 3039575 . + . gene_id "ECDH10B_RS15170"; transcript_id "ECDH10B_RS15170"; anticodon "(pos:3039533..3039535)"; gbkey "tRNA"; inference "COORDINATES: profile:tRNAscan-SE:2.0.6"; locus_tag "ECDH10B_RS15170"; product "tRNA-Met"; exon_number "1"; -NC_010473.1 RefSeq gene 3039649 3040902 . - . gene_id "ECDH10B_RS15175"; transcript_id ""; gbkey "Gene"; gene "amiC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15175"; old_locus_tag "ECDH10B_2987"; -NC_010473.1 Protein Homology CDS 3039652 3040902 . - 0 gene_id "ECDH10B_RS15175"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "amiC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311701.2"; locus_tag "ECDH10B_RS15175"; product "N-acetylmuramoyl-L-alanine amidase AmiC"; protein_id "WP_000016907.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3040900 3040902 . - 0 gene_id "ECDH10B_RS15175"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "amiC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311701.2"; locus_tag "ECDH10B_RS15175"; product "N-acetylmuramoyl-L-alanine amidase AmiC"; protein_id "WP_000016907.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3039649 3039651 . - 0 gene_id "ECDH10B_RS15175"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "amiC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311701.2"; locus_tag "ECDH10B_RS15175"; product "N-acetylmuramoyl-L-alanine amidase AmiC"; protein_id "WP_000016907.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3041134 3042465 . + . gene_id "ECDH10B_RS15180"; transcript_id ""; gbkey "Gene"; gene "argA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15180"; old_locus_tag "ECDH10B_2988"; -NC_010473.1 Protein Homology CDS 3041134 3042462 . + 0 gene_id "ECDH10B_RS15180"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "argA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311702.1"; locus_tag "ECDH10B_RS15180"; product "amino-acid N-acetyltransferase"; protein_id "WP_000237947.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3041134 3041136 . + 0 gene_id "ECDH10B_RS15180"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "argA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311702.1"; locus_tag "ECDH10B_RS15180"; product "amino-acid N-acetyltransferase"; protein_id "WP_000237947.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3042463 3042465 . + 0 gene_id "ECDH10B_RS15180"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "argA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311702.1"; locus_tag "ECDH10B_RS15180"; product "amino-acid N-acetyltransferase"; protein_id "WP_000237947.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3042527 3044353 . - . gene_id "ECDH10B_RS15185"; transcript_id ""; gbkey "Gene"; gene "recD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15185"; old_locus_tag "ECDH10B_2989"; -NC_010473.1 Protein Homology CDS 3042530 3044353 . - 0 gene_id "ECDH10B_RS15185"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "recD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417296.1"; locus_tag "ECDH10B_RS15185"; product "exodeoxyribonuclease V subunit alpha"; protein_id "WP_000775955.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3044351 3044353 . - 0 gene_id "ECDH10B_RS15185"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "recD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417296.1"; locus_tag "ECDH10B_RS15185"; product "exodeoxyribonuclease V subunit alpha"; protein_id "WP_000775955.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3042527 3042529 . - 0 gene_id "ECDH10B_RS15185"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "recD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417296.1"; locus_tag "ECDH10B_RS15185"; product "exodeoxyribonuclease V subunit alpha"; protein_id "WP_000775955.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3044353 3047895 . - . gene_id "ECDH10B_RS15190"; transcript_id ""; gbkey "Gene"; gene "recB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15190"; old_locus_tag "ECDH10B_2990"; -NC_010473.1 Protein Homology CDS 3044356 3047895 . - 0 gene_id "ECDH10B_RS15190"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "recB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417297.1"; locus_tag "ECDH10B_RS15190"; product "exodeoxyribonuclease V subunit beta"; protein_id "WP_001285993.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3047893 3047895 . - 0 gene_id "ECDH10B_RS15190"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "recB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417297.1"; locus_tag "ECDH10B_RS15190"; product "exodeoxyribonuclease V subunit beta"; protein_id "WP_001285993.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3044353 3044355 . - 0 gene_id "ECDH10B_RS15190"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "recB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417297.1"; locus_tag "ECDH10B_RS15190"; product "exodeoxyribonuclease V subunit beta"; protein_id "WP_001285993.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3047888 3050776 . - . gene_id "ECDH10B_RS15195"; transcript_id ""; gbkey "Gene"; gene "ptrA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15195"; old_locus_tag "ECDH10B_2991"; -NC_010473.1 Protein Homology CDS 3047891 3050776 . - 0 gene_id "ECDH10B_RS15195"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ptrA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417298.1"; locus_tag "ECDH10B_RS15195"; product "pitrilysin"; protein_id "WP_001138201.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3050774 3050776 . - 0 gene_id "ECDH10B_RS15195"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ptrA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417298.1"; locus_tag "ECDH10B_RS15195"; product "pitrilysin"; protein_id "WP_001138201.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3047888 3047890 . - 0 gene_id "ECDH10B_RS15195"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ptrA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417298.1"; locus_tag "ECDH10B_RS15195"; product "pitrilysin"; protein_id "WP_001138201.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3050952 3054320 . - . gene_id "ECDH10B_RS15200"; transcript_id ""; gbkey "Gene"; gene "recC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15200"; old_locus_tag "ECDH10B_2992"; -NC_010473.1 Protein Homology CDS 3050955 3054320 . - 0 gene_id "ECDH10B_RS15200"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "recC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417299.1"; locus_tag "ECDH10B_RS15200"; product "exodeoxyribonuclease V subunit gamma"; protein_id "WP_000946938.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3054318 3054320 . - 0 gene_id "ECDH10B_RS15200"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "recC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417299.1"; locus_tag "ECDH10B_RS15200"; product "exodeoxyribonuclease V subunit gamma"; protein_id "WP_000946938.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3050952 3050954 . - 0 gene_id "ECDH10B_RS15200"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "recC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417299.1"; locus_tag "ECDH10B_RS15200"; product "exodeoxyribonuclease V subunit gamma"; protein_id "WP_000946938.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3054333 3054656 . - . gene_id "ECDH10B_RS15205"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15205"; old_locus_tag "ECDH10B_2993"; -NC_010473.1 Protein Homology CDS 3054336 3054656 . - 0 gene_id "ECDH10B_RS15205"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417300.1"; locus_tag "ECDH10B_RS15205"; product "prepilin-type N-terminal cleavage/methylation domain-containing protein"; protein_id "WP_001276460.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3054654 3054656 . - 0 gene_id "ECDH10B_RS15205"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417300.1"; locus_tag "ECDH10B_RS15205"; product "prepilin-type N-terminal cleavage/methylation domain-containing protein"; protein_id "WP_001276460.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3054333 3054335 . - 0 gene_id "ECDH10B_RS15205"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417300.1"; locus_tag "ECDH10B_RS15205"; product "prepilin-type N-terminal cleavage/methylation domain-containing protein"; protein_id "WP_001276460.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3054641 3055048 . - . gene_id "ECDH10B_RS15210"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15210"; old_locus_tag "ECDH10B_2994"; -NC_010473.1 Protein Homology CDS 3054644 3055048 . - 0 gene_id "ECDH10B_RS15210"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417301.4"; locus_tag "ECDH10B_RS15210"; product "DUF2509 family protein"; protein_id "WP_001078376.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3055046 3055048 . - 0 gene_id "ECDH10B_RS15210"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417301.4"; locus_tag "ECDH10B_RS15210"; product "DUF2509 family protein"; protein_id "WP_001078376.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3054641 3054643 . - 0 gene_id "ECDH10B_RS15210"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417301.4"; locus_tag "ECDH10B_RS15210"; product "DUF2509 family protein"; protein_id "WP_001078376.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3055045 3055608 . - . gene_id "ECDH10B_RS15215"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15215"; old_locus_tag "ECDH10B_2995"; -NC_010473.1 Protein Homology CDS 3055048 3055608 . - 0 gene_id "ECDH10B_RS15215"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417302.1"; locus_tag "ECDH10B_RS15215"; product "prepilin peptidase-dependent protein"; protein_id "WP_001144315.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3055606 3055608 . - 0 gene_id "ECDH10B_RS15215"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417302.1"; locus_tag "ECDH10B_RS15215"; product "prepilin peptidase-dependent protein"; protein_id "WP_001144315.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3055045 3055047 . - 0 gene_id "ECDH10B_RS15215"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417302.1"; locus_tag "ECDH10B_RS15215"; product "prepilin peptidase-dependent protein"; protein_id "WP_001144315.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3055599 3056069 . - . gene_id "ECDH10B_RS15220"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15220"; old_locus_tag "ECDH10B_2996"; -NC_010473.1 Protein Homology CDS 3055602 3056069 . - 0 gene_id "ECDH10B_RS15220"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417303.1"; locus_tag "ECDH10B_RS15220"; product "prepilin peptidase-dependent protein"; protein_id "WP_000857051.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3056067 3056069 . - 0 gene_id "ECDH10B_RS15220"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417303.1"; locus_tag "ECDH10B_RS15220"; product "prepilin peptidase-dependent protein"; protein_id "WP_000857051.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3055599 3055601 . - 0 gene_id "ECDH10B_RS15220"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417303.1"; locus_tag "ECDH10B_RS15220"; product "prepilin peptidase-dependent protein"; protein_id "WP_000857051.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3056253 3057047 . - . gene_id "ECDH10B_RS15225"; transcript_id ""; gbkey "Gene"; gene "thyA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15225"; old_locus_tag "ECDH10B_2997"; -NC_010473.1 Protein Homology CDS 3056256 3057047 . - 0 gene_id "ECDH10B_RS15225"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "thyA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005123418.1"; locus_tag "ECDH10B_RS15225"; product "thymidylate synthase"; protein_id "WP_000816232.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3057045 3057047 . - 0 gene_id "ECDH10B_RS15225"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "thyA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005123418.1"; locus_tag "ECDH10B_RS15225"; product "thymidylate synthase"; protein_id "WP_000816232.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3056253 3056255 . - 0 gene_id "ECDH10B_RS15225"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "thyA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005123418.1"; locus_tag "ECDH10B_RS15225"; product "thymidylate synthase"; protein_id "WP_000816232.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3057054 3057929 . - . gene_id "ECDH10B_RS15230"; transcript_id ""; gbkey "Gene"; gene "lgt"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15230"; old_locus_tag "ECDH10B_2998"; -NC_010473.1 Protein Homology CDS 3057057 3057929 . - 0 gene_id "ECDH10B_RS15230"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lgt"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311712.1"; locus_tag "ECDH10B_RS15230"; product "prolipoprotein diacylglyceryl transferase"; protein_id "WP_000204658.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3057927 3057929 . - 0 gene_id "ECDH10B_RS15230"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lgt"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311712.1"; locus_tag "ECDH10B_RS15230"; product "prolipoprotein diacylglyceryl transferase"; protein_id "WP_000204658.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3057054 3057056 . - 0 gene_id "ECDH10B_RS15230"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lgt"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311712.1"; locus_tag "ECDH10B_RS15230"; product "prolipoprotein diacylglyceryl transferase"; protein_id "WP_000204658.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3058080 3060326 . - . gene_id "ECDH10B_RS15235"; transcript_id ""; gbkey "Gene"; gene "ptsP"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15235"; old_locus_tag "ECDH10B_2999"; -NC_010473.1 Protein Homology CDS 3058083 3060326 . - 0 gene_id "ECDH10B_RS15235"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ptsP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417306.1"; locus_tag "ECDH10B_RS15235"; product "phosphoenolpyruvate--protein phosphotransferase"; protein_id "WP_000957910.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3060324 3060326 . - 0 gene_id "ECDH10B_RS15235"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ptsP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417306.1"; locus_tag "ECDH10B_RS15235"; product "phosphoenolpyruvate--protein phosphotransferase"; protein_id "WP_000957910.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3058080 3058082 . - 0 gene_id "ECDH10B_RS15235"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ptsP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417306.1"; locus_tag "ECDH10B_RS15235"; product "phosphoenolpyruvate--protein phosphotransferase"; protein_id "WP_000957910.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3060339 3060869 . - . gene_id "ECDH10B_RS15240"; transcript_id ""; gbkey "Gene"; gene "rppH"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15240"; old_locus_tag "ECDH10B_3000"; -NC_010473.1 Protein Homology CDS 3060342 3060869 . - 0 gene_id "ECDH10B_RS15240"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rppH"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001655775.1"; locus_tag "ECDH10B_RS15240"; product "RNA pyrophosphohydrolase"; protein_id "WP_000564489.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3060867 3060869 . - 0 gene_id "ECDH10B_RS15240"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rppH"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001655775.1"; locus_tag "ECDH10B_RS15240"; product "RNA pyrophosphohydrolase"; protein_id "WP_000564489.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3060339 3060341 . - 0 gene_id "ECDH10B_RS15240"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rppH"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001655775.1"; locus_tag "ECDH10B_RS15240"; product "RNA pyrophosphohydrolase"; protein_id "WP_000564489.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3061554 3062243 . + . gene_id "ECDH10B_RS15255"; transcript_id ""; gbkey "Gene"; gene "mutH"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15255"; old_locus_tag "ECDH10B_3001"; -NC_010473.1 Protein Homology CDS 3061554 3062240 . + 0 gene_id "ECDH10B_RS15255"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mutH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417308.1"; locus_tag "ECDH10B_RS15255"; product "DNA mismatch repair endonuclease MutH"; protein_id "WP_000082201.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3061554 3061556 . + 0 gene_id "ECDH10B_RS15255"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mutH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417308.1"; locus_tag "ECDH10B_RS15255"; product "DNA mismatch repair endonuclease MutH"; protein_id "WP_000082201.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3062241 3062243 . + 0 gene_id "ECDH10B_RS15255"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mutH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417308.1"; locus_tag "ECDH10B_RS15255"; product "DNA mismatch repair endonuclease MutH"; protein_id "WP_000082201.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3062312 3063025 . + . gene_id "ECDH10B_RS15260"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15260"; old_locus_tag "ECDH10B_3002"; -NC_010473.1 Protein Homology CDS 3062312 3063022 . + 0 gene_id "ECDH10B_RS15260"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311716.1"; locus_tag "ECDH10B_RS15260"; product "TerC family protein"; protein_id "WP_000895624.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3062312 3062314 . + 0 gene_id "ECDH10B_RS15260"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311716.1"; locus_tag "ECDH10B_RS15260"; product "TerC family protein"; protein_id "WP_000895624.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3063023 3063025 . + 0 gene_id "ECDH10B_RS15260"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311716.1"; locus_tag "ECDH10B_RS15260"; product "TerC family protein"; protein_id "WP_000895624.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3063163 3063381 . + . gene_id "ECDH10B_RS15265"; transcript_id ""; gbkey "Gene"; gene "ygdR"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15265"; old_locus_tag "ECDH10B_3003"; -NC_010473.1 Protein Homology CDS 3063163 3063378 . + 0 gene_id "ECDH10B_RS15265"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ygdR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311717.1"; locus_tag "ECDH10B_RS15265"; product "lipoprotein YgdR"; protein_id "WP_000758655.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3063163 3063165 . + 0 gene_id "ECDH10B_RS15265"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ygdR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311717.1"; locus_tag "ECDH10B_RS15265"; product "lipoprotein YgdR"; protein_id "WP_000758655.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3063379 3063381 . + 0 gene_id "ECDH10B_RS15265"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ygdR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311717.1"; locus_tag "ECDH10B_RS15265"; product "lipoprotein YgdR"; protein_id "WP_000758655.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3063489 3064529 . + . gene_id "ECDH10B_RS15270"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15270"; old_locus_tag "ECDH10B_3004"; -NC_010473.1 Protein Homology CDS 3063489 3064526 . + 0 gene_id "ECDH10B_RS15270"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417311.1"; locus_tag "ECDH10B_RS15270"; product "NADP(H)-dependent aldo-keto reductase"; protein_id "WP_001199295.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3063489 3063491 . + 0 gene_id "ECDH10B_RS15270"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417311.1"; locus_tag "ECDH10B_RS15270"; product "NADP(H)-dependent aldo-keto reductase"; protein_id "WP_001199295.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3064527 3064529 . + 0 gene_id "ECDH10B_RS15270"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417311.1"; locus_tag "ECDH10B_RS15270"; product "NADP(H)-dependent aldo-keto reductase"; protein_id "WP_001199295.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3064561 3065754 . - . gene_id "ECDH10B_RS15275"; transcript_id ""; gbkey "Gene"; gene "lplT"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15275"; old_locus_tag "ECDH10B_3005"; -NC_010473.1 Protein Homology CDS 3064564 3065754 . - 0 gene_id "ECDH10B_RS15275"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lplT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417312.1"; locus_tag "ECDH10B_RS15275"; product "lysophospholipid transporter LplT"; protein_id "WP_000004616.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3065752 3065754 . - 0 gene_id "ECDH10B_RS15275"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lplT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417312.1"; locus_tag "ECDH10B_RS15275"; product "lysophospholipid transporter LplT"; protein_id "WP_000004616.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3064561 3064563 . - 0 gene_id "ECDH10B_RS15275"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lplT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417312.1"; locus_tag "ECDH10B_RS15275"; product "lysophospholipid transporter LplT"; protein_id "WP_000004616.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3065747 3067906 . - . gene_id "ECDH10B_RS15280"; transcript_id ""; gbkey "Gene"; gene "aas"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15280"; old_locus_tag "ECDH10B_3006"; -NC_010473.1 Protein Homology CDS 3065750 3067906 . - 0 gene_id "ECDH10B_RS15280"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "aas"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417313.1"; locus_tag "ECDH10B_RS15280"; product "bifunctional acyl-ACP--phospholipid O-acyltransferase/long-chain-fatty-acid--ACP ligase"; protein_id "WP_000899054.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3067904 3067906 . - 0 gene_id "ECDH10B_RS15280"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "aas"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417313.1"; locus_tag "ECDH10B_RS15280"; product "bifunctional acyl-ACP--phospholipid O-acyltransferase/long-chain-fatty-acid--ACP ligase"; protein_id "WP_000899054.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3065747 3065749 . - 0 gene_id "ECDH10B_RS15280"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "aas"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417313.1"; locus_tag "ECDH10B_RS15280"; product "bifunctional acyl-ACP--phospholipid O-acyltransferase/long-chain-fatty-acid--ACP ligase"; protein_id "WP_000899054.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3068491 3069522 . + . gene_id "ECDH10B_RS15285"; transcript_id ""; gbkey "Gene"; gene "galR"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15285"; old_locus_tag "ECDH10B_3009"; -NC_010473.1 Protein Homology CDS 3068491 3069519 . + 0 gene_id "ECDH10B_RS15285"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "galR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417314.1"; locus_tag "ECDH10B_RS15285"; product "HTH-type transcriptional regulator GalR"; protein_id "WP_000201063.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3068491 3068493 . + 0 gene_id "ECDH10B_RS15285"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "galR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417314.1"; locus_tag "ECDH10B_RS15285"; product "HTH-type transcriptional regulator GalR"; protein_id "WP_000201063.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3069520 3069522 . + 0 gene_id "ECDH10B_RS15285"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "galR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417314.1"; locus_tag "ECDH10B_RS15285"; product "HTH-type transcriptional regulator GalR"; protein_id "WP_000201063.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3069529 3070791 . - . gene_id "ECDH10B_RS15290"; transcript_id ""; gbkey "Gene"; gene "lysA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15290"; old_locus_tag "ECDH10B_3010"; -NC_010473.1 Protein Homology CDS 3069532 3070791 . - 0 gene_id "ECDH10B_RS15290"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lysA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417315.1"; locus_tag "ECDH10B_RS15290"; product "diaminopimelate decarboxylase"; protein_id "WP_001120711.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3070789 3070791 . - 0 gene_id "ECDH10B_RS15290"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lysA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417315.1"; locus_tag "ECDH10B_RS15290"; product "diaminopimelate decarboxylase"; protein_id "WP_001120711.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3069529 3069531 . - 0 gene_id "ECDH10B_RS15290"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lysA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417315.1"; locus_tag "ECDH10B_RS15290"; product "diaminopimelate decarboxylase"; protein_id "WP_001120711.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3070913 3071848 . + . gene_id "ECDH10B_RS15295"; transcript_id ""; gbkey "Gene"; gene "lysR"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15295"; old_locus_tag "ECDH10B_3011"; -NC_010473.1 Protein Homology CDS 3070913 3071845 . + 0 gene_id "ECDH10B_RS15295"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lysR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417316.1"; locus_tag "ECDH10B_RS15295"; product "DNA-binding transcriptional regulator LysR"; protein_id "WP_000741825.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3070913 3070915 . + 0 gene_id "ECDH10B_RS15295"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lysR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417316.1"; locus_tag "ECDH10B_RS15295"; product "DNA-binding transcriptional regulator LysR"; protein_id "WP_000741825.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3071846 3071848 . + 0 gene_id "ECDH10B_RS15295"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lysR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417316.1"; locus_tag "ECDH10B_RS15295"; product "DNA-binding transcriptional regulator LysR"; protein_id "WP_000741825.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3071835 3072527 . - . gene_id "ECDH10B_RS15300"; transcript_id ""; gbkey "Gene"; gene "ygeA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15300"; old_locus_tag "ECDH10B_3012"; -NC_010473.1 Protein Homology CDS 3071838 3072527 . - 0 gene_id "ECDH10B_RS15300"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ygeA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417317.1"; locus_tag "ECDH10B_RS15300"; product "amino acid racemase"; protein_id "WP_000848659.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3072525 3072527 . - 0 gene_id "ECDH10B_RS15300"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ygeA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417317.1"; locus_tag "ECDH10B_RS15300"; product "amino acid racemase"; protein_id "WP_000848659.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3071835 3071837 . - 0 gene_id "ECDH10B_RS15300"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ygeA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417317.1"; locus_tag "ECDH10B_RS15300"; product "amino acid racemase"; protein_id "WP_000848659.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3072656 3074074 . - . gene_id "ECDH10B_RS15305"; transcript_id ""; gbkey "Gene"; gene "araE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15305"; old_locus_tag "ECDH10B_3013"; -NC_010473.1 Protein Homology CDS 3072659 3074074 . - 0 gene_id "ECDH10B_RS15305"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "araE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311725.1"; locus_tag "ECDH10B_RS15305"; product "arabinose-proton symporter AraE"; protein_id "WP_000256438.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3074072 3074074 . - 0 gene_id "ECDH10B_RS15305"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "araE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311725.1"; locus_tag "ECDH10B_RS15305"; product "arabinose-proton symporter AraE"; protein_id "WP_000256438.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3072656 3072658 . - 0 gene_id "ECDH10B_RS15305"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "araE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311725.1"; locus_tag "ECDH10B_RS15305"; product "arabinose-proton symporter AraE"; protein_id "WP_000256438.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3074389 3075150 . - . gene_id "ECDH10B_RS15310"; transcript_id ""; gbkey "Gene"; gene "kduD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15310"; old_locus_tag "ECDH10B_3014"; -NC_010473.1 Protein Homology CDS 3074392 3075150 . - 0 gene_id "ECDH10B_RS15310"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "kduD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417319.1"; locus_tag "ECDH10B_RS15310"; product "2-dehydro-3-deoxy-D-gluconate 5-dehydrogenase KduD"; protein_id "WP_000603502.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3075148 3075150 . - 0 gene_id "ECDH10B_RS15310"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "kduD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417319.1"; locus_tag "ECDH10B_RS15310"; product "2-dehydro-3-deoxy-D-gluconate 5-dehydrogenase KduD"; protein_id "WP_000603502.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3074389 3074391 . - 0 gene_id "ECDH10B_RS15310"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "kduD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417319.1"; locus_tag "ECDH10B_RS15310"; product "2-dehydro-3-deoxy-D-gluconate 5-dehydrogenase KduD"; protein_id "WP_000603502.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3075180 3076016 . - . gene_id "ECDH10B_RS15315"; transcript_id ""; gbkey "Gene"; gene "kduI"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15315"; old_locus_tag "ECDH10B_3015"; -NC_010473.1 Protein Homology CDS 3075183 3076016 . - 0 gene_id "ECDH10B_RS15315"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "kduI"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417320.1"; locus_tag "ECDH10B_RS15315"; product "5-dehydro-4-deoxy-D-glucuronate isomerase"; protein_id "WP_000383237.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3076014 3076016 . - 0 gene_id "ECDH10B_RS15315"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "kduI"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417320.1"; locus_tag "ECDH10B_RS15315"; product "5-dehydro-4-deoxy-D-glucuronate isomerase"; protein_id "WP_000383237.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3075180 3075182 . - 0 gene_id "ECDH10B_RS15315"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "kduI"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417320.1"; locus_tag "ECDH10B_RS15315"; product "5-dehydro-4-deoxy-D-glucuronate isomerase"; protein_id "WP_000383237.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3076303 3077484 . - . gene_id "ECDH10B_RS15320"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15320"; old_locus_tag "ECDH10B_3016"; -NC_010473.1 Protein Homology CDS 3076306 3077484 . - 0 gene_id "ECDH10B_RS15320"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417321.2"; locus_tag "ECDH10B_RS15320"; product "acetyl-CoA C-acetyltransferase"; protein_id "WP_000656030.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3077482 3077484 . - 0 gene_id "ECDH10B_RS15320"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417321.2"; locus_tag "ECDH10B_RS15320"; product "acetyl-CoA C-acetyltransferase"; protein_id "WP_000656030.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3076303 3076305 . - 0 gene_id "ECDH10B_RS15320"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417321.2"; locus_tag "ECDH10B_RS15320"; product "acetyl-CoA C-acetyltransferase"; protein_id "WP_000656030.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3077739 3078968 . + . gene_id "ECDH10B_RS15325"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15325"; old_locus_tag "ECDH10B_3017"; -NC_010473.1 Protein Homology CDS 3077739 3078965 . + 0 gene_id "ECDH10B_RS15325"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311729.1"; locus_tag "ECDH10B_RS15325"; product "HAAAP family serine/threonine permease"; protein_id "WP_000065950.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3077739 3077741 . + 0 gene_id "ECDH10B_RS15325"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311729.1"; locus_tag "ECDH10B_RS15325"; product "HAAAP family serine/threonine permease"; protein_id "WP_000065950.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3078966 3078968 . + 0 gene_id "ECDH10B_RS15325"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311729.1"; locus_tag "ECDH10B_RS15325"; product "HAAAP family serine/threonine permease"; protein_id "WP_000065950.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3079428 3080060 . + . gene_id "ECDH10B_RS15330"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15330"; old_locus_tag "ECDH10B_3018"; -NC_010473.1 Protein Homology CDS 3079428 3080057 . + 0 gene_id "ECDH10B_RS15330"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417323.2"; locus_tag "ECDH10B_RS15330"; product "helix-turn-helix transcriptional regulator"; protein_id "WP_001336169.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3079428 3079430 . + 0 gene_id "ECDH10B_RS15330"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417323.2"; locus_tag "ECDH10B_RS15330"; product "helix-turn-helix transcriptional regulator"; protein_id "WP_001336169.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3080058 3080060 . + 0 gene_id "ECDH10B_RS15330"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417323.2"; locus_tag "ECDH10B_RS15330"; product "helix-turn-helix transcriptional regulator"; protein_id "WP_001336169.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3080394 3081203 . + . gene_id "ECDH10B_RS15335"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15335"; old_locus_tag "ECDH10B_3019"; -NC_010473.1 Protein Homology CDS 3080394 3081200 . + 0 gene_id "ECDH10B_RS15335"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417324.1"; locus_tag "ECDH10B_RS15335"; product "transcriptional regulator"; protein_id "WP_001300710.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3080394 3080396 . + 0 gene_id "ECDH10B_RS15335"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417324.1"; locus_tag "ECDH10B_RS15335"; product "transcriptional regulator"; protein_id "WP_001300710.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3081201 3081203 . + 0 gene_id "ECDH10B_RS15335"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417324.1"; locus_tag "ECDH10B_RS15335"; product "transcriptional regulator"; protein_id "WP_001300710.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3081196 3081678 . + . gene_id "ECDH10B_RS15340"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15340"; old_locus_tag "ECDH10B_3020"; -NC_010473.1 Protein Homology CDS 3081196 3081675 . + 0 gene_id "ECDH10B_RS15340"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417325.4"; locus_tag "ECDH10B_RS15340"; product "hypothetical protein"; protein_id "WP_000568339.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3081196 3081198 . + 0 gene_id "ECDH10B_RS15340"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417325.4"; locus_tag "ECDH10B_RS15340"; product "hypothetical protein"; protein_id "WP_000568339.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3081676 3081678 . + 0 gene_id "ECDH10B_RS15340"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417325.4"; locus_tag "ECDH10B_RS15340"; product "hypothetical protein"; protein_id "WP_000568339.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3081711 3081791 . - . gene_id "ECDH10B_RS25670"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS25670"; -NC_010473.1 Protein Homology CDS 3081714 3081791 . - 0 gene_id "ECDH10B_RS25670"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_002791253.1"; locus_tag "ECDH10B_RS25670"; product "hypothetical protein"; protein_id "WP_000655820.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3081789 3081791 . - 0 gene_id "ECDH10B_RS25670"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_002791253.1"; locus_tag "ECDH10B_RS25670"; product "hypothetical protein"; protein_id "WP_000655820.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3081711 3081713 . - 0 gene_id "ECDH10B_RS25670"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_002791253.1"; locus_tag "ECDH10B_RS25670"; product "hypothetical protein"; protein_id "WP_000655820.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3081827 3082252 . - . gene_id "ECDH10B_RS15345"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15345"; old_locus_tag "ECDH10B_3021"; -NC_010473.1 Protein Homology CDS 3081830 3082252 . - 0 gene_id "ECDH10B_RS15345"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417326.2"; locus_tag "ECDH10B_RS15345"; product "hypothetical protein"; protein_id "WP_000350612.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3082250 3082252 . - 0 gene_id "ECDH10B_RS15345"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417326.2"; locus_tag "ECDH10B_RS15345"; product "hypothetical protein"; protein_id "WP_000350612.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3081827 3081829 . - 0 gene_id "ECDH10B_RS15345"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417326.2"; locus_tag "ECDH10B_RS15345"; product "hypothetical protein"; protein_id "WP_000350612.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3082446 3082892 . + . gene_id "ECDH10B_RS15350"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15350"; old_locus_tag "ECDH10B_3022"; -NC_010473.1 Protein Homology CDS 3082446 3082889 . + 0 gene_id "ECDH10B_RS15350"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_012135967.1"; locus_tag "ECDH10B_RS15350"; product "hypothetical protein"; protein_id "WP_001333802.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3082446 3082448 . + 0 gene_id "ECDH10B_RS15350"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_012135967.1"; locus_tag "ECDH10B_RS15350"; product "hypothetical protein"; protein_id "WP_001333802.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3082890 3082892 . + 0 gene_id "ECDH10B_RS15350"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_012135967.1"; locus_tag "ECDH10B_RS15350"; product "hypothetical protein"; protein_id "WP_001333802.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3083160 3083651 . + . gene_id "ECDH10B_RS15355"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15355"; old_locus_tag "ECDH10B_3023"; -NC_010473.1 Protein Homology CDS 3083160 3083648 . + 0 gene_id "ECDH10B_RS15355"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417328.1"; locus_tag "ECDH10B_RS15355"; product "tetratricopeptide repeat protein"; protein_id "WP_000102780.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3083160 3083162 . + 0 gene_id "ECDH10B_RS15355"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417328.1"; locus_tag "ECDH10B_RS15355"; product "tetratricopeptide repeat protein"; protein_id "WP_000102780.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3083649 3083651 . + 0 gene_id "ECDH10B_RS15355"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417328.1"; locus_tag "ECDH10B_RS15355"; product "tetratricopeptide repeat protein"; protein_id "WP_000102780.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3083986 3085362 . + . gene_id "ECDH10B_RS15360"; transcript_id ""; gbkey "Gene"; gene "ygeH"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15360"; old_locus_tag "ECDH10B_3024"; -NC_010473.1 Protein Homology CDS 3083986 3085359 . + 0 gene_id "ECDH10B_RS15360"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ygeH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417329.1"; locus_tag "ECDH10B_RS15360"; product "HilA family transcriptional regulator YgeH"; protein_id "WP_000362702.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3083986 3083988 . + 0 gene_id "ECDH10B_RS15360"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ygeH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417329.1"; locus_tag "ECDH10B_RS15360"; product "HilA family transcriptional regulator YgeH"; protein_id "WP_000362702.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3085360 3085362 . + 0 gene_id "ECDH10B_RS15360"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ygeH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417329.1"; locus_tag "ECDH10B_RS15360"; product "HilA family transcriptional regulator YgeH"; protein_id "WP_000362702.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3085530 3085748 . + . gene_id "ECDH10B_RS15365"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15365"; old_locus_tag "ECDH10B_3025"; -NC_010473.1 Protein Homology CDS 3085530 3085745 . + 0 gene_id "ECDH10B_RS15365"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417330.1"; locus_tag "ECDH10B_RS15365"; product "hypothetical protein"; protein_id "WP_000184091.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3085530 3085532 . + 0 gene_id "ECDH10B_RS15365"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417330.1"; locus_tag "ECDH10B_RS15365"; product "hypothetical protein"; protein_id "WP_000184091.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3085746 3085748 . + 0 gene_id "ECDH10B_RS15365"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417330.1"; locus_tag "ECDH10B_RS15365"; product "hypothetical protein"; protein_id "WP_000184091.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3085831 3086307 . + . gene_id "ECDH10B_RS15370"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15370"; old_locus_tag "ECDH10B_3026"; -NC_010473.1 Protein Homology CDS 3085831 3086304 . + 0 gene_id "ECDH10B_RS15370"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001311103.1"; locus_tag "ECDH10B_RS15370"; product "lytic transglycosylase domain-containing protein"; protein_id "WP_001336167.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3085831 3085833 . + 0 gene_id "ECDH10B_RS15370"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001311103.1"; locus_tag "ECDH10B_RS15370"; product "lytic transglycosylase domain-containing protein"; protein_id "WP_001336167.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3086305 3086307 . + 0 gene_id "ECDH10B_RS15370"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001311103.1"; locus_tag "ECDH10B_RS15370"; product "lytic transglycosylase domain-containing protein"; protein_id "WP_001336167.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3086352 3086984 . - . gene_id "ECDH10B_RS15375"; transcript_id ""; gbkey "Gene"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS15375"; old_locus_tag "ECDH10B_3028"; pseudo "true"; -NC_010473.1 Protein Homology CDS 3086355 3086984 . - 0 gene_id "ECDH10B_RS15375"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311739.1"; locus_tag "ECDH10B_RS15375"; note "internal stop"; product "response regulator transcription factor"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3086982 3086984 . - 0 gene_id "ECDH10B_RS15375"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311739.1"; locus_tag "ECDH10B_RS15375"; note "internal stop"; product "response regulator transcription factor"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3086352 3086354 . - 0 gene_id "ECDH10B_RS15375"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311739.1"; locus_tag "ECDH10B_RS15375"; note "internal stop"; product "response regulator transcription factor"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 3087206 3087415 . - . gene_id "ECDH10B_RS26090"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS26090"; -NC_010473.1 Protein Homology CDS 3087209 3087415 . - 0 gene_id "ECDH10B_RS26090"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000466343.1"; locus_tag "ECDH10B_RS26090"; product "hypothetical protein"; protein_id "WP_000466343.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3087413 3087415 . - 0 gene_id "ECDH10B_RS26090"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000466343.1"; locus_tag "ECDH10B_RS26090"; product "hypothetical protein"; protein_id "WP_000466343.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3087206 3087208 . - 0 gene_id "ECDH10B_RS26090"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000466343.1"; locus_tag "ECDH10B_RS26090"; product "hypothetical protein"; protein_id "WP_000466343.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3087640 3087888 . - . gene_id "ECDH10B_RS25680"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS25680"; -NC_010473.1 Protein Homology CDS 3087643 3087888 . - 0 gene_id "ECDH10B_RS25680"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001452630.1"; locus_tag "ECDH10B_RS25680"; product "hypothetical protein"; protein_id "WP_024183852.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3087886 3087888 . - 0 gene_id "ECDH10B_RS25680"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001452630.1"; locus_tag "ECDH10B_RS25680"; product "hypothetical protein"; protein_id "WP_024183852.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3087640 3087642 . - 0 gene_id "ECDH10B_RS25680"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001452630.1"; locus_tag "ECDH10B_RS25680"; product "hypothetical protein"; protein_id "WP_024183852.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3087854 3088252 . - . gene_id "ECDH10B_RS24620"; transcript_id ""; gbkey "Gene"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS24620"; old_locus_tag "ECDH10B_3033"; partial "true"; pseudo "true"; -NC_010473.1 Protein Homology CDS 3087857 3088252 . - 0 gene_id "ECDH10B_RS24620"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311742.1"; locus_tag "ECDH10B_RS24620"; note "incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "type III secretion apparatus protein OrgA/MxiK"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3088250 3088252 . - 0 gene_id "ECDH10B_RS24620"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311742.1"; locus_tag "ECDH10B_RS24620"; note "incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "type III secretion apparatus protein OrgA/MxiK"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3087854 3087856 . - 0 gene_id "ECDH10B_RS24620"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311742.1"; locus_tag "ECDH10B_RS24620"; note "incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "type III secretion apparatus protein OrgA/MxiK"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 3088264 3089492 . - . gene_id "ECDH10B_RS15400"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15400"; old_locus_tag "ECDH10B_3034"; -NC_010473.1 Protein Homology CDS 3089177 3089492 . - 0 gene_id "ECDH10B_RS15400"; transcript_id "unknown_transcript_1"; exception "ribosomal slippage"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_086558215.1"; locus_tag "ECDH10B_RS15400"; note "programmed frameshift"; product "IS3-like element IS2 family transposase"; protein_id "WP_088895425.1"; transl_table "11"; -NC_010473.1 Protein Homology CDS 3088267 3089177 . - 0 gene_id "ECDH10B_RS15400"; transcript_id "unknown_transcript_1"; exception "ribosomal slippage"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_086558215.1"; locus_tag "ECDH10B_RS15400"; note "programmed frameshift"; product "IS3-like element IS2 family transposase"; protein_id "WP_088895425.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3089490 3089492 . - 0 gene_id "ECDH10B_RS15400"; transcript_id "unknown_transcript_1"; exception "ribosomal slippage"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_086558215.1"; locus_tag "ECDH10B_RS15400"; note "programmed frameshift"; product "IS3-like element IS2 family transposase"; protein_id "WP_088895425.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3088264 3088266 . - 0 gene_id "ECDH10B_RS15400"; transcript_id "unknown_transcript_1"; exception "ribosomal slippage"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_086558215.1"; locus_tag "ECDH10B_RS15400"; note "programmed frameshift"; product "IS3-like element IS2 family transposase"; protein_id "WP_088895425.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3089584 3090720 . - . gene_id "ECDH10B_RS15415"; transcript_id ""; gbkey "Gene"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS15415"; old_locus_tag "ECDH10B_3038"; partial "true"; pseudo "true"; -NC_010473.1 Protein Homology CDS 3089587 3090720 . - 0 gene_id "ECDH10B_RS15415"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001613747.1"; locus_tag "ECDH10B_RS15415"; note "internal stop; incomplete; partial in the middle of a contig; missing C-terminus"; partial "true"; product "hypothetical protein"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3090718 3090720 . - 0 gene_id "ECDH10B_RS15415"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001613747.1"; locus_tag "ECDH10B_RS15415"; note "internal stop; incomplete; partial in the middle of a contig; missing C-terminus"; partial "true"; product "hypothetical protein"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3089584 3089586 . - 0 gene_id "ECDH10B_RS15415"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001613747.1"; locus_tag "ECDH10B_RS15415"; note "internal stop; incomplete; partial in the middle of a contig; missing C-terminus"; partial "true"; product "hypothetical protein"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 3090876 3090949 . - . gene_id "ECDH10B_RS15420"; transcript_id ""; gbkey "Gene"; gene_biotype "tRNA"; locus_tag "ECDH10B_RS15420"; old_locus_tag "ECDH10B_3039"; -NC_010473.1 tRNAscan-SE exon 3090876 3090949 . - . gene_id "ECDH10B_RS15420"; transcript_id "ECDH10B_RS15420"; anticodon "(pos:complement(3090915..3090917))"; gbkey "tRNA"; inference "COORDINATES: profile:tRNAscan-SE:2.0.6"; locus_tag "ECDH10B_RS15420"; product "tRNA-Gly"; exon_number "1"; -NC_010473.1 RefSeq gene 3091028 3091783 . - . gene_id "ECDH10B_RS15425"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15425"; old_locus_tag "ECDH10B_3040"; -NC_010473.1 Protein Homology CDS 3091031 3091783 . - 0 gene_id "ECDH10B_RS15425"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417341.4"; locus_tag "ECDH10B_RS15425"; product "peptidoglycan DD-metalloendopeptidase family protein"; protein_id "WP_001301085.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3091781 3091783 . - 0 gene_id "ECDH10B_RS15425"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417341.4"; locus_tag "ECDH10B_RS15425"; product "peptidoglycan DD-metalloendopeptidase family protein"; protein_id "WP_001301085.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3091028 3091030 . - 0 gene_id "ECDH10B_RS15425"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417341.4"; locus_tag "ECDH10B_RS15425"; product "peptidoglycan DD-metalloendopeptidase family protein"; protein_id "WP_001301085.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3092198 3094495 . + . gene_id "ECDH10B_RS15430"; transcript_id ""; gbkey "Gene"; gene "xdhA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15430"; old_locus_tag "ECDH10B_3041"; -NC_010473.1 Protein Homology CDS 3092198 3094492 . + 0 gene_id "ECDH10B_RS15430"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "xdhA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_708647.1"; locus_tag "ECDH10B_RS15430"; product "xanthine dehydrogenase molybdenum-binding subunit XdhA"; protein_id "WP_000388150.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3092198 3092200 . + 0 gene_id "ECDH10B_RS15430"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "xdhA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_708647.1"; locus_tag "ECDH10B_RS15430"; product "xanthine dehydrogenase molybdenum-binding subunit XdhA"; protein_id "WP_000388150.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3094493 3094495 . + 0 gene_id "ECDH10B_RS15430"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "xdhA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_708647.1"; locus_tag "ECDH10B_RS15430"; product "xanthine dehydrogenase molybdenum-binding subunit XdhA"; protein_id "WP_000388150.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3094506 3095384 . + . gene_id "ECDH10B_RS15435"; transcript_id ""; gbkey "Gene"; gene "xdhB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15435"; old_locus_tag "ECDH10B_3042"; -NC_010473.1 Protein Homology CDS 3094506 3095381 . + 0 gene_id "ECDH10B_RS15435"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "xdhB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417343.1"; locus_tag "ECDH10B_RS15435"; product "xanthine dehydrogenase FAD-binding subunit XdhB"; protein_id "WP_000459182.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3094506 3094508 . + 0 gene_id "ECDH10B_RS15435"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "xdhB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417343.1"; locus_tag "ECDH10B_RS15435"; product "xanthine dehydrogenase FAD-binding subunit XdhB"; protein_id "WP_000459182.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3095382 3095384 . + 0 gene_id "ECDH10B_RS15435"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "xdhB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417343.1"; locus_tag "ECDH10B_RS15435"; product "xanthine dehydrogenase FAD-binding subunit XdhB"; protein_id "WP_000459182.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3095381 3095860 . + . gene_id "ECDH10B_RS15440"; transcript_id ""; gbkey "Gene"; gene "xdhC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15440"; old_locus_tag "ECDH10B_3043"; -NC_010473.1 Protein Homology CDS 3095381 3095857 . + 0 gene_id "ECDH10B_RS15440"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "xdhC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417344.1"; locus_tag "ECDH10B_RS15440"; product "xanthine dehydrogenase iron sulfur-binding subunit XdhC"; protein_id "WP_001016605.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3095381 3095383 . + 0 gene_id "ECDH10B_RS15440"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "xdhC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417344.1"; locus_tag "ECDH10B_RS15440"; product "xanthine dehydrogenase iron sulfur-binding subunit XdhC"; protein_id "WP_001016605.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3095858 3095860 . + 0 gene_id "ECDH10B_RS15440"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "xdhC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417344.1"; locus_tag "ECDH10B_RS15440"; product "xanthine dehydrogenase iron sulfur-binding subunit XdhC"; protein_id "WP_001016605.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3095900 3097678 . - . gene_id "ECDH10B_RS15445"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15445"; old_locus_tag "ECDH10B_3044"; -NC_010473.1 Protein Homology CDS 3095903 3097678 . - 0 gene_id "ECDH10B_RS15445"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417345.1"; locus_tag "ECDH10B_RS15445"; product "sigma-54-dependent transcriptional regulator"; protein_id "WP_000417791.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3097676 3097678 . - 0 gene_id "ECDH10B_RS15445"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417345.1"; locus_tag "ECDH10B_RS15445"; product "sigma-54-dependent transcriptional regulator"; protein_id "WP_000417791.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3095900 3095902 . - 0 gene_id "ECDH10B_RS15445"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417345.1"; locus_tag "ECDH10B_RS15445"; product "sigma-54-dependent transcriptional regulator"; protein_id "WP_000417791.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3098154 3099344 . + . gene_id "ECDH10B_RS15450"; transcript_id ""; gbkey "Gene"; gene "ygeW"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15450"; old_locus_tag "ECDH10B_3045"; -NC_010473.1 Protein Homology CDS 3098154 3099341 . + 0 gene_id "ECDH10B_RS15450"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ygeW"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026185.1"; locus_tag "ECDH10B_RS15450"; product "knotted carbamoyltransferase YgeW"; protein_id "WP_000978544.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3098154 3098156 . + 0 gene_id "ECDH10B_RS15450"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ygeW"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026185.1"; locus_tag "ECDH10B_RS15450"; product "knotted carbamoyltransferase YgeW"; protein_id "WP_000978544.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3099342 3099344 . + 0 gene_id "ECDH10B_RS15450"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ygeW"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026185.1"; locus_tag "ECDH10B_RS15450"; product "knotted carbamoyltransferase YgeW"; protein_id "WP_000978544.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3099402 3100598 . + . gene_id "ECDH10B_RS15455"; transcript_id ""; gbkey "Gene"; gene "dpaL"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15455"; old_locus_tag "ECDH10B_3046"; -NC_010473.1 Protein Homology CDS 3099402 3100595 . + 0 gene_id "ECDH10B_RS15455"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dpaL"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311771.1"; locus_tag "ECDH10B_RS15455"; product "diaminopropionate ammonia-lyase"; protein_id "WP_000110493.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3099402 3099404 . + 0 gene_id "ECDH10B_RS15455"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dpaL"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311771.1"; locus_tag "ECDH10B_RS15455"; product "diaminopropionate ammonia-lyase"; protein_id "WP_000110493.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3100596 3100598 . + 0 gene_id "ECDH10B_RS15455"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dpaL"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311771.1"; locus_tag "ECDH10B_RS15455"; product "diaminopropionate ammonia-lyase"; protein_id "WP_000110493.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3100656 3101867 . + . gene_id "ECDH10B_RS15460"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15460"; old_locus_tag "ECDH10B_3047"; -NC_010473.1 Protein Homology CDS 3100656 3101864 . + 0 gene_id "ECDH10B_RS15460"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311772.1"; locus_tag "ECDH10B_RS15460"; product "YgeY family selenium metabolism-linked hydrolase"; protein_id "WP_001107125.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3100656 3100658 . + 0 gene_id "ECDH10B_RS15460"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311772.1"; locus_tag "ECDH10B_RS15460"; product "YgeY family selenium metabolism-linked hydrolase"; protein_id "WP_001107125.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3101865 3101867 . + 0 gene_id "ECDH10B_RS15460"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311772.1"; locus_tag "ECDH10B_RS15460"; product "YgeY family selenium metabolism-linked hydrolase"; protein_id "WP_001107125.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3101920 3103305 . + . gene_id "ECDH10B_RS15465"; transcript_id ""; gbkey "Gene"; gene "hyuA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15465"; old_locus_tag "ECDH10B_3048"; -NC_010473.1 Protein Homology CDS 3101920 3103302 . + 0 gene_id "ECDH10B_RS15465"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hyuA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417349.4"; locus_tag "ECDH10B_RS15465"; product "D-phenylhydantoinase"; protein_id "WP_001264442.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3101920 3101922 . + 0 gene_id "ECDH10B_RS15465"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hyuA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417349.4"; locus_tag "ECDH10B_RS15465"; product "D-phenylhydantoinase"; protein_id "WP_001264442.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3103303 3103305 . + 0 gene_id "ECDH10B_RS15465"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hyuA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417349.4"; locus_tag "ECDH10B_RS15465"; product "D-phenylhydantoinase"; protein_id "WP_001264442.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3103353 3104285 . + . gene_id "ECDH10B_RS15470"; transcript_id ""; gbkey "Gene"; gene "arcC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15470"; old_locus_tag "ECDH10B_3049"; -NC_010473.1 Protein Homology CDS 3103353 3104282 . + 0 gene_id "ECDH10B_RS15470"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "arcC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417350.1"; locus_tag "ECDH10B_RS15470"; product "carbamate kinase"; protein_id "WP_000037992.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3103353 3103355 . + 0 gene_id "ECDH10B_RS15470"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "arcC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417350.1"; locus_tag "ECDH10B_RS15470"; product "carbamate kinase"; protein_id "WP_000037992.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3104283 3104285 . + 0 gene_id "ECDH10B_RS15470"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "arcC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417350.1"; locus_tag "ECDH10B_RS15470"; product "carbamate kinase"; protein_id "WP_000037992.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3104506 3106131 . - . gene_id "ECDH10B_RS15475"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15475"; old_locus_tag "ECDH10B_3050"; -NC_010473.1 Protein Homology CDS 3104509 3106131 . - 0 gene_id "ECDH10B_RS15475"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417351.1"; locus_tag "ECDH10B_RS15475"; product "EF2563 family selenium-dependent molybdenum hydroxylase system protein"; protein_id "WP_001020381.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3106129 3106131 . - 0 gene_id "ECDH10B_RS15475"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417351.1"; locus_tag "ECDH10B_RS15475"; product "EF2563 family selenium-dependent molybdenum hydroxylase system protein"; protein_id "WP_001020381.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3104506 3104508 . - 0 gene_id "ECDH10B_RS15475"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417351.1"; locus_tag "ECDH10B_RS15475"; product "EF2563 family selenium-dependent molybdenum hydroxylase system protein"; protein_id "WP_001020381.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3106179 3106949 . - . gene_id "ECDH10B_RS15480"; transcript_id ""; gbkey "Gene"; gene "yqeC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15480"; old_locus_tag "ECDH10B_3051"; -NC_010473.1 Protein Homology CDS 3106182 3106949 . - 0 gene_id "ECDH10B_RS15480"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yqeC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417352.2"; locus_tag "ECDH10B_RS15480"; product "putative selenium-dependent hydroxylase accessory protein YqeC"; protein_id "WP_001298920.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3106947 3106949 . - 0 gene_id "ECDH10B_RS15480"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yqeC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417352.2"; locus_tag "ECDH10B_RS15480"; product "putative selenium-dependent hydroxylase accessory protein YqeC"; protein_id "WP_001298920.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3106179 3106181 . - 0 gene_id "ECDH10B_RS15480"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yqeC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417352.2"; locus_tag "ECDH10B_RS15480"; product "putative selenium-dependent hydroxylase accessory protein YqeC"; protein_id "WP_001298920.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3107052 3107630 . + . gene_id "ECDH10B_RS15485"; transcript_id ""; gbkey "Gene"; gene "mocA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15485"; old_locus_tag "ECDH10B_3052"; -NC_010473.1 Protein Homology CDS 3107052 3107627 . + 0 gene_id "ECDH10B_RS15485"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mocA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417353.1"; locus_tag "ECDH10B_RS15485"; product "molybdenum cofactor cytidylyltransferase"; protein_id "WP_001272828.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3107052 3107054 . + 0 gene_id "ECDH10B_RS15485"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mocA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417353.1"; locus_tag "ECDH10B_RS15485"; product "molybdenum cofactor cytidylyltransferase"; protein_id "WP_001272828.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3107628 3107630 . + 0 gene_id "ECDH10B_RS15485"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mocA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417353.1"; locus_tag "ECDH10B_RS15485"; product "molybdenum cofactor cytidylyltransferase"; protein_id "WP_001272828.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3107952 3111050 . + . gene_id "ECDH10B_RS15490"; transcript_id ""; gbkey "Gene"; gene "ygfK"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15490"; old_locus_tag "ECDH10B_3053"; -NC_010473.1 Protein Homology CDS 3107952 3111047 . + 0 gene_id "ECDH10B_RS15490"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ygfK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417354.1"; locus_tag "ECDH10B_RS15490"; product "putative selenate reductase subunit YgfK"; protein_id "WP_000502395.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3107952 3107954 . + 0 gene_id "ECDH10B_RS15490"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ygfK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417354.1"; locus_tag "ECDH10B_RS15490"; product "putative selenate reductase subunit YgfK"; protein_id "WP_000502395.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3111048 3111050 . + 0 gene_id "ECDH10B_RS15490"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ygfK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417354.1"; locus_tag "ECDH10B_RS15490"; product "putative selenate reductase subunit YgfK"; protein_id "WP_000502395.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3111053 3112381 . + . gene_id "ECDH10B_RS15495"; transcript_id ""; gbkey "Gene"; gene "ssnA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15495"; old_locus_tag "ECDH10B_3054"; -NC_010473.1 Protein Homology CDS 3111053 3112378 . + 0 gene_id "ECDH10B_RS15495"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ssnA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417355.4"; locus_tag "ECDH10B_RS15495"; product "putative aminohydrolase SsnA"; protein_id "WP_000906252.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3111053 3111055 . + 0 gene_id "ECDH10B_RS15495"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ssnA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417355.4"; locus_tag "ECDH10B_RS15495"; product "putative aminohydrolase SsnA"; protein_id "WP_000906252.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3112379 3112381 . + 0 gene_id "ECDH10B_RS15495"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ssnA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417355.4"; locus_tag "ECDH10B_RS15495"; product "putative aminohydrolase SsnA"; protein_id "WP_000906252.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3112432 3113211 . + . gene_id "ECDH10B_RS15500"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15500"; old_locus_tag "ECDH10B_3055"; -NC_010473.1 Protein Homology CDS 3112432 3113208 . + 0 gene_id "ECDH10B_RS15500"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311780.1"; locus_tag "ECDH10B_RS15500"; product "molybdopterin-dependent oxidoreductase FAD-binding subunit"; protein_id "WP_000572462.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3112432 3112434 . + 0 gene_id "ECDH10B_RS15500"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311780.1"; locus_tag "ECDH10B_RS15500"; product "molybdopterin-dependent oxidoreductase FAD-binding subunit"; protein_id "WP_000572462.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3113209 3113211 . + 0 gene_id "ECDH10B_RS15500"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311780.1"; locus_tag "ECDH10B_RS15500"; product "molybdopterin-dependent oxidoreductase FAD-binding subunit"; protein_id "WP_000572462.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3113208 3116078 . + . gene_id "ECDH10B_RS15505"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15505"; old_locus_tag "ECDH10B_3056"; -NC_010473.1 Protein Homology CDS 3113208 3116075 . + 0 gene_id "ECDH10B_RS15505"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417357.1"; locus_tag "ECDH10B_RS15505"; product "molybdopterin-dependent oxidoreductase Mo/Fe-S-binding subunit"; protein_id "WP_000583615.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3113208 3113210 . + 0 gene_id "ECDH10B_RS15505"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417357.1"; locus_tag "ECDH10B_RS15505"; product "molybdopterin-dependent oxidoreductase Mo/Fe-S-binding subunit"; protein_id "WP_000583615.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3116076 3116078 . + 0 gene_id "ECDH10B_RS15505"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417357.1"; locus_tag "ECDH10B_RS15505"; product "molybdopterin-dependent oxidoreductase Mo/Fe-S-binding subunit"; protein_id "WP_000583615.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3116243 3117643 . + . gene_id "ECDH10B_RS15510"; transcript_id ""; gbkey "Gene"; gene "xanQ"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15510"; old_locus_tag "ECDH10B_3057"; -NC_010473.1 Protein Homology CDS 3116243 3117640 . + 0 gene_id "ECDH10B_RS15510"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "xanQ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417358.2"; locus_tag "ECDH10B_RS15510"; product "xanthine/proton symporter XanQ"; protein_id "WP_001280192.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3116243 3116245 . + 0 gene_id "ECDH10B_RS15510"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "xanQ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417358.2"; locus_tag "ECDH10B_RS15510"; product "xanthine/proton symporter XanQ"; protein_id "WP_001280192.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3117641 3117643 . + 0 gene_id "ECDH10B_RS15510"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "xanQ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417358.2"; locus_tag "ECDH10B_RS15510"; product "xanthine/proton symporter XanQ"; protein_id "WP_001280192.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3117661 3118977 . + . gene_id "ECDH10B_RS15515"; transcript_id ""; gbkey "Gene"; gene "guaD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15515"; old_locus_tag "ECDH10B_3058"; -NC_010473.1 Protein Homology CDS 3117661 3118974 . + 0 gene_id "ECDH10B_RS15515"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "guaD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311783.2"; locus_tag "ECDH10B_RS15515"; product "guanine deaminase"; protein_id "WP_001336279.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3117661 3117663 . + 0 gene_id "ECDH10B_RS15515"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "guaD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311783.2"; locus_tag "ECDH10B_RS15515"; product "guanine deaminase"; protein_id "WP_001336279.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3118975 3118977 . + 0 gene_id "ECDH10B_RS15515"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "guaD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311783.2"; locus_tag "ECDH10B_RS15515"; product "guanine deaminase"; protein_id "WP_001336279.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3119013 3120380 . + . gene_id "ECDH10B_RS15520"; transcript_id ""; gbkey "Gene"; gene "ghxQ"; gene_biotype "protein_coding"; gene_synonym "ygfQ"; locus_tag "ECDH10B_RS15520"; old_locus_tag "ECDH10B_3059"; -NC_010473.1 Protein Homology CDS 3119013 3120377 . + 0 gene_id "ECDH10B_RS15520"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ghxQ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311784.1"; locus_tag "ECDH10B_RS15520"; product "guanine/hypoxanthine transporter GhxQ"; protein_id "WP_000012163.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3119013 3119015 . + 0 gene_id "ECDH10B_RS15520"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ghxQ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311784.1"; locus_tag "ECDH10B_RS15520"; product "guanine/hypoxanthine transporter GhxQ"; protein_id "WP_000012163.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3120378 3120380 . + 0 gene_id "ECDH10B_RS15520"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ghxQ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311784.1"; locus_tag "ECDH10B_RS15520"; product "guanine/hypoxanthine transporter GhxQ"; protein_id "WP_000012163.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3120416 3120904 . - . gene_id "ECDH10B_RS15525"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15525"; -NC_010473.1 Protein Homology CDS 3120419 3120904 . - 0 gene_id "ECDH10B_RS15525"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417362.4"; locus_tag "ECDH10B_RS15525"; product "4Fe-4S dicluster domain-containing protein"; protein_id "WP_000838430.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3120902 3120904 . - 0 gene_id "ECDH10B_RS15525"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417362.4"; locus_tag "ECDH10B_RS15525"; product "4Fe-4S dicluster domain-containing protein"; protein_id "WP_000838430.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3120416 3120418 . - 0 gene_id "ECDH10B_RS15525"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417362.4"; locus_tag "ECDH10B_RS15525"; product "4Fe-4S dicluster domain-containing protein"; protein_id "WP_000838430.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3120904 3122823 . - . gene_id "ECDH10B_RS15530"; transcript_id ""; gbkey "Gene"; gene "ygfT"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15530"; old_locus_tag "ECDH10B_3061"; -NC_010473.1 Protein Homology CDS 3120907 3122823 . - 0 gene_id "ECDH10B_RS15530"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ygfT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417363.2"; locus_tag "ECDH10B_RS15530"; product "formate-dependent uric acid utilization protein YgfT"; protein_id "WP_001350545.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3122821 3122823 . - 0 gene_id "ECDH10B_RS15530"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ygfT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417363.2"; locus_tag "ECDH10B_RS15530"; product "formate-dependent uric acid utilization protein YgfT"; protein_id "WP_001350545.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3120904 3120906 . - 0 gene_id "ECDH10B_RS15530"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ygfT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417363.2"; locus_tag "ECDH10B_RS15530"; product "formate-dependent uric acid utilization protein YgfT"; protein_id "WP_001350545.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3123259 3124707 . + . gene_id "ECDH10B_RS15540"; transcript_id ""; gbkey "Gene"; gene "uacT"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15540"; old_locus_tag "ECDH10B_3062"; -NC_010473.1 Protein Homology CDS 3123259 3124704 . + 0 gene_id "ECDH10B_RS15540"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "uacT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417364.2"; locus_tag "ECDH10B_RS15540"; product "urate/proton symporter UacT"; protein_id "WP_001295374.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3123259 3123261 . + 0 gene_id "ECDH10B_RS15540"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "uacT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417364.2"; locus_tag "ECDH10B_RS15540"; product "urate/proton symporter UacT"; protein_id "WP_001295374.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3124705 3124707 . + 0 gene_id "ECDH10B_RS15540"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "uacT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417364.2"; locus_tag "ECDH10B_RS15540"; product "urate/proton symporter UacT"; protein_id "WP_001295374.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3124709 3124834 . + . gene_id "ECDH10B_RS15545"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15545"; -NC_010473.1 Protein Homology CDS 3124709 3124831 . + 0 gene_id "ECDH10B_RS15545"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_002791254.1"; locus_tag "ECDH10B_RS15545"; product "hypothetical protein"; protein_id "WP_001010156.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3124709 3124711 . + 0 gene_id "ECDH10B_RS15545"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_002791254.1"; locus_tag "ECDH10B_RS15545"; product "hypothetical protein"; protein_id "WP_001010156.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3124832 3124834 . + 0 gene_id "ECDH10B_RS15545"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_002791254.1"; locus_tag "ECDH10B_RS15545"; product "hypothetical protein"; protein_id "WP_001010156.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3124831 3124902 . - . gene_id "ECDH10B_RS26095"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS26095"; -NC_010473.1 Protein Homology CDS 3124834 3124902 . - 0 gene_id "ECDH10B_RS26095"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_009518812.1"; locus_tag "ECDH10B_RS26095"; product "protein YqfH"; protein_id "WP_120795390.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3124900 3124902 . - 0 gene_id "ECDH10B_RS26095"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_009518812.1"; locus_tag "ECDH10B_RS26095"; product "protein YqfH"; protein_id "WP_120795390.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3124831 3124833 . - 0 gene_id "ECDH10B_RS26095"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_009518812.1"; locus_tag "ECDH10B_RS26095"; product "protein YqfH"; protein_id "WP_120795390.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3124957 3125505 . + . gene_id "ECDH10B_RS15550"; transcript_id ""; gbkey "Gene"; gene "idi"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15550"; old_locus_tag "ECDH10B_3063"; -NC_010473.1 Protein Homology CDS 3124957 3125502 . + 0 gene_id "ECDH10B_RS15550"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "idi"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417365.1"; locus_tag "ECDH10B_RS15550"; product "isopentenyl-diphosphate Delta-isomerase"; protein_id "WP_001192820.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3124957 3124959 . + 0 gene_id "ECDH10B_RS15550"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "idi"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417365.1"; locus_tag "ECDH10B_RS15550"; product "isopentenyl-diphosphate Delta-isomerase"; protein_id "WP_001192820.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3125503 3125505 . + 0 gene_id "ECDH10B_RS15550"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "idi"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417365.1"; locus_tag "ECDH10B_RS15550"; product "isopentenyl-diphosphate Delta-isomerase"; protein_id "WP_001192820.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3125549 3127066 . - . gene_id "ECDH10B_RS15555"; transcript_id ""; gbkey "Gene"; gene "lysS"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15555"; old_locus_tag "ECDH10B_3064"; -NC_010473.1 Protein Homology CDS 3125552 3127066 . - 0 gene_id "ECDH10B_RS15555"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lysS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001740376.1"; locus_tag "ECDH10B_RS15555"; product "lysine--tRNA ligase"; protein_id "WP_000003071.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3127064 3127066 . - 0 gene_id "ECDH10B_RS15555"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lysS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001740376.1"; locus_tag "ECDH10B_RS15555"; product "lysine--tRNA ligase"; protein_id "WP_000003071.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3125549 3125551 . - 0 gene_id "ECDH10B_RS15555"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lysS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001740376.1"; locus_tag "ECDH10B_RS15555"; product "lysine--tRNA ligase"; protein_id "WP_000003071.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3127076 3128174 . - . gene_id "ECDH10B_RS15560"; transcript_id ""; gbkey "Gene"; gene "prfB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15560"; old_locus_tag "ECDH10B_3065"; -NC_010473.1 Protein Homology CDS 3128100 3128174 . - 0 gene_id "ECDH10B_RS15560"; transcript_id "unknown_transcript_1"; exception "ribosomal slippage"; gbkey "CDS"; gene "prfB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417367.1"; locus_tag "ECDH10B_RS15560"; note "programmed frameshift"; product "peptide chain release factor 2"; protein_id "WP_010723217.1"; transl_table "11"; -NC_010473.1 Protein Homology CDS 3127079 3128098 . - 0 gene_id "ECDH10B_RS15560"; transcript_id "unknown_transcript_1"; exception "ribosomal slippage"; gbkey "CDS"; gene "prfB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417367.1"; locus_tag "ECDH10B_RS15560"; note "programmed frameshift"; product "peptide chain release factor 2"; protein_id "WP_010723217.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3128172 3128174 . - 0 gene_id "ECDH10B_RS15560"; transcript_id "unknown_transcript_1"; exception "ribosomal slippage"; gbkey "CDS"; gene "prfB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417367.1"; locus_tag "ECDH10B_RS15560"; note "programmed frameshift"; product "peptide chain release factor 2"; protein_id "WP_010723217.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3127076 3127078 . - 0 gene_id "ECDH10B_RS15560"; transcript_id "unknown_transcript_1"; exception "ribosomal slippage"; gbkey "CDS"; gene "prfB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417367.1"; locus_tag "ECDH10B_RS15560"; note "programmed frameshift"; product "peptide chain release factor 2"; protein_id "WP_010723217.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3128265 3129998 . - . gene_id "ECDH10B_RS15565"; transcript_id ""; gbkey "Gene"; gene "recJ"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15565"; old_locus_tag "ECDH10B_3066"; -NC_010473.1 Protein Homology CDS 3128268 3129998 . - 0 gene_id "ECDH10B_RS15565"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "recJ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417368.1"; locus_tag "ECDH10B_RS15565"; product "single-stranded-DNA-specific exonuclease RecJ"; protein_id "WP_000813200.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3129996 3129998 . - 0 gene_id "ECDH10B_RS15565"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "recJ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417368.1"; locus_tag "ECDH10B_RS15565"; product "single-stranded-DNA-specific exonuclease RecJ"; protein_id "WP_000813200.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3128265 3128267 . - 0 gene_id "ECDH10B_RS15565"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "recJ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417368.1"; locus_tag "ECDH10B_RS15565"; product "single-stranded-DNA-specific exonuclease RecJ"; protein_id "WP_000813200.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3130004 3130714 . - . gene_id "ECDH10B_RS15570"; transcript_id ""; gbkey "Gene"; gene "dsbC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15570"; old_locus_tag "ECDH10B_3067"; -NC_010473.1 Protein Homology CDS 3130007 3130714 . - 0 gene_id "ECDH10B_RS15570"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dsbC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311792.1"; locus_tag "ECDH10B_RS15570"; product "bifunctional protein-disulfide isomerase/oxidoreductase DsbC"; protein_id "WP_000715214.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3130712 3130714 . - 0 gene_id "ECDH10B_RS15570"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dsbC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311792.1"; locus_tag "ECDH10B_RS15570"; product "bifunctional protein-disulfide isomerase/oxidoreductase DsbC"; protein_id "WP_000715214.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3130004 3130006 . - 0 gene_id "ECDH10B_RS15570"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dsbC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311792.1"; locus_tag "ECDH10B_RS15570"; product "bifunctional protein-disulfide isomerase/oxidoreductase DsbC"; protein_id "WP_000715214.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3130739 3131635 . - . gene_id "ECDH10B_RS15575"; transcript_id ""; gbkey "Gene"; gene "xerD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15575"; old_locus_tag "ECDH10B_3068"; -NC_010473.1 Protein Homology CDS 3130742 3131635 . - 0 gene_id "ECDH10B_RS15575"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "xerD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417370.1"; locus_tag "ECDH10B_RS15575"; product "site-specific tyrosine recombinase XerD"; protein_id "WP_000806638.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3131633 3131635 . - 0 gene_id "ECDH10B_RS15575"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "xerD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417370.1"; locus_tag "ECDH10B_RS15575"; product "site-specific tyrosine recombinase XerD"; protein_id "WP_000806638.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3130739 3130741 . - 0 gene_id "ECDH10B_RS15575"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "xerD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417370.1"; locus_tag "ECDH10B_RS15575"; product "site-specific tyrosine recombinase XerD"; protein_id "WP_000806638.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3131747 3132268 . + . gene_id "ECDH10B_RS15580"; transcript_id ""; gbkey "Gene"; gene "fldB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15580"; old_locus_tag "ECDH10B_3069"; -NC_010473.1 Protein Homology CDS 3131747 3132265 . + 0 gene_id "ECDH10B_RS15580"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fldB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311794.1"; locus_tag "ECDH10B_RS15580"; product "flavodoxin FldB"; protein_id "WP_001055874.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3131747 3131749 . + 0 gene_id "ECDH10B_RS15580"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fldB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311794.1"; locus_tag "ECDH10B_RS15580"; product "flavodoxin FldB"; protein_id "WP_001055874.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3132266 3132268 . + 0 gene_id "ECDH10B_RS15580"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fldB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311794.1"; locus_tag "ECDH10B_RS15580"; product "flavodoxin FldB"; protein_id "WP_001055874.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3132308 3132715 . - . gene_id "ECDH10B_RS15585"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15585"; old_locus_tag "ECDH10B_3070"; -NC_010473.1 Protein Homology CDS 3132311 3132715 . - 0 gene_id "ECDH10B_RS15585"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417372.1"; locus_tag "ECDH10B_RS15585"; product "toxin CptA"; protein_id "WP_000244777.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3132713 3132715 . - 0 gene_id "ECDH10B_RS15585"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417372.1"; locus_tag "ECDH10B_RS15585"; product "toxin CptA"; protein_id "WP_000244777.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3132308 3132310 . - 0 gene_id "ECDH10B_RS15585"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417372.1"; locus_tag "ECDH10B_RS15585"; product "toxin CptA"; protein_id "WP_000244777.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3132696 3132962 . - . gene_id "ECDH10B_RS15590"; transcript_id ""; gbkey "Gene"; gene "sdhE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15590"; old_locus_tag "ECDH10B_3071"; -NC_010473.1 Protein Homology CDS 3132699 3132962 . - 0 gene_id "ECDH10B_RS15590"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sdhE"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000354044.1"; locus_tag "ECDH10B_RS15590"; product "FAD assembly factor SdhE"; protein_id "WP_000354046.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3132960 3132962 . - 0 gene_id "ECDH10B_RS15590"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sdhE"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000354044.1"; locus_tag "ECDH10B_RS15590"; product "FAD assembly factor SdhE"; protein_id "WP_000354046.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3132696 3132698 . - 0 gene_id "ECDH10B_RS15590"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sdhE"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000354044.1"; locus_tag "ECDH10B_RS15590"; product "FAD assembly factor SdhE"; protein_id "WP_000354046.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3133205 3134185 . + . gene_id "ECDH10B_RS15595"; transcript_id ""; gbkey "Gene"; gene "ygfZ"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15595"; old_locus_tag "ECDH10B_3072"; -NC_010473.1 Protein Homology CDS 3133205 3134182 . + 0 gene_id "ECDH10B_RS15595"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ygfZ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417374.1"; locus_tag "ECDH10B_RS15595"; product "tRNA-modifying protein YgfZ"; protein_id "WP_000886062.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3133205 3133207 . + 0 gene_id "ECDH10B_RS15595"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ygfZ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417374.1"; locus_tag "ECDH10B_RS15595"; product "tRNA-modifying protein YgfZ"; protein_id "WP_000886062.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3134183 3134185 . + 0 gene_id "ECDH10B_RS15595"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ygfZ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417374.1"; locus_tag "ECDH10B_RS15595"; product "tRNA-modifying protein YgfZ"; protein_id "WP_000886062.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3134381 3135040 . - . gene_id "ECDH10B_RS15600"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15600"; old_locus_tag "ECDH10B_3073"; -NC_010473.1 Protein Homology CDS 3134384 3135040 . - 0 gene_id "ECDH10B_RS15600"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311798.1"; locus_tag "ECDH10B_RS15600"; product "hemolysin III family protein"; protein_id "WP_000250274.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3135038 3135040 . - 0 gene_id "ECDH10B_RS15600"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311798.1"; locus_tag "ECDH10B_RS15600"; product "hemolysin III family protein"; protein_id "WP_000250274.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3134381 3134383 . - 0 gene_id "ECDH10B_RS15600"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311798.1"; locus_tag "ECDH10B_RS15600"; product "hemolysin III family protein"; protein_id "WP_000250274.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3135204 3135515 . - . gene_id "ECDH10B_RS15605"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15605"; old_locus_tag "ECDH10B_3074"; -NC_010473.1 Protein Homology CDS 3135207 3135515 . - 0 gene_id "ECDH10B_RS15605"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311799.1"; locus_tag "ECDH10B_RS15605"; product "ASCH domain-containing protein"; protein_id "WP_001182957.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3135513 3135515 . - 0 gene_id "ECDH10B_RS15605"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311799.1"; locus_tag "ECDH10B_RS15605"; product "ASCH domain-containing protein"; protein_id "WP_001182957.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3135204 3135206 . - 0 gene_id "ECDH10B_RS15605"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311799.1"; locus_tag "ECDH10B_RS15605"; product "ASCH domain-containing protein"; protein_id "WP_001182957.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3135560 3136993 . + . gene_id "ECDH10B_RS15610"; transcript_id ""; gbkey "Gene"; gene "bglA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15610"; old_locus_tag "ECDH10B_3075"; -NC_010473.1 Protein Homology CDS 3135560 3136990 . + 0 gene_id "ECDH10B_RS15610"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "bglA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_708664.2"; locus_tag "ECDH10B_RS15610"; product "6-phospho-beta-glucosidase BglA"; protein_id "WP_001336277.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3135560 3135562 . + 0 gene_id "ECDH10B_RS15610"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "bglA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_708664.2"; locus_tag "ECDH10B_RS15610"; product "6-phospho-beta-glucosidase BglA"; protein_id "WP_001336277.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3136991 3136993 . + 0 gene_id "ECDH10B_RS15610"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "bglA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_708664.2"; locus_tag "ECDH10B_RS15610"; product "6-phospho-beta-glucosidase BglA"; protein_id "WP_001336277.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3137050 3137793 . - . gene_id "ECDH10B_RS15615"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15615"; old_locus_tag "ECDH10B_3076"; -NC_010473.1 Protein Homology CDS 3137053 3137793 . - 0 gene_id "ECDH10B_RS15615"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417378.1"; locus_tag "ECDH10B_RS15615"; product "SDR family oxidoreductase"; protein_id "WP_000951964.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3137791 3137793 . - 0 gene_id "ECDH10B_RS15615"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417378.1"; locus_tag "ECDH10B_RS15615"; product "SDR family oxidoreductase"; protein_id "WP_000951964.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3137050 3137052 . - 0 gene_id "ECDH10B_RS15615"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417378.1"; locus_tag "ECDH10B_RS15615"; product "SDR family oxidoreductase"; protein_id "WP_000951964.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3138060 3140933 . - . gene_id "ECDH10B_RS15620"; transcript_id ""; gbkey "Gene"; gene "gcvP"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15620"; old_locus_tag "ECDH10B_3077"; -NC_010473.1 Protein Homology CDS 3138063 3140933 . - 0 gene_id "ECDH10B_RS15620"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gcvP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417379.1"; locus_tag "ECDH10B_RS15620"; product "aminomethyl-transferring glycine dehydrogenase"; protein_id "WP_000195062.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3140931 3140933 . - 0 gene_id "ECDH10B_RS15620"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gcvP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417379.1"; locus_tag "ECDH10B_RS15620"; product "aminomethyl-transferring glycine dehydrogenase"; protein_id "WP_000195062.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3138060 3138062 . - 0 gene_id "ECDH10B_RS15620"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gcvP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417379.1"; locus_tag "ECDH10B_RS15620"; product "aminomethyl-transferring glycine dehydrogenase"; protein_id "WP_000195062.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3141052 3141441 . - . gene_id "ECDH10B_RS15625"; transcript_id ""; gbkey "Gene"; gene "gcvH"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15625"; old_locus_tag "ECDH10B_3078"; -NC_010473.1 Protein Homology CDS 3141055 3141441 . - 0 gene_id "ECDH10B_RS15625"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gcvH"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005123344.1"; locus_tag "ECDH10B_RS15625"; product "glycine cleavage system protein GcvH"; protein_id "WP_001295377.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3141439 3141441 . - 0 gene_id "ECDH10B_RS15625"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gcvH"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005123344.1"; locus_tag "ECDH10B_RS15625"; product "glycine cleavage system protein GcvH"; protein_id "WP_001295377.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3141052 3141054 . - 0 gene_id "ECDH10B_RS15625"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gcvH"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005123344.1"; locus_tag "ECDH10B_RS15625"; product "glycine cleavage system protein GcvH"; protein_id "WP_001295377.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3141465 3142559 . - . gene_id "ECDH10B_RS15630"; transcript_id ""; gbkey "Gene"; gene "gcvT"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15630"; -NC_010473.1 Protein Homology CDS 3141468 3142559 . - 0 gene_id "ECDH10B_RS15630"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gcvT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417381.1"; locus_tag "ECDH10B_RS15630"; product "glycine cleavage system aminomethyltransferase GcvT"; protein_id "WP_000068701.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3142557 3142559 . - 0 gene_id "ECDH10B_RS15630"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gcvT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417381.1"; locus_tag "ECDH10B_RS15630"; product "glycine cleavage system aminomethyltransferase GcvT"; protein_id "WP_000068701.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3141465 3141467 . - 0 gene_id "ECDH10B_RS15630"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gcvT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417381.1"; locus_tag "ECDH10B_RS15630"; product "glycine cleavage system aminomethyltransferase GcvT"; protein_id "WP_000068701.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3142850 3142933 . + . gene_id "ECDH10B_RS26100"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS26100"; -NC_010473.1 Protein Homology CDS 3142850 3142930 . + 0 gene_id "ECDH10B_RS26100"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_009518813.1"; locus_tag "ECDH10B_RS26100"; product "protein YqfI"; protein_id "WP_120795391.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3142850 3142852 . + 0 gene_id "ECDH10B_RS26100"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_009518813.1"; locus_tag "ECDH10B_RS26100"; product "protein YqfI"; protein_id "WP_120795391.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3142931 3142933 . + 0 gene_id "ECDH10B_RS26100"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_009518813.1"; locus_tag "ECDH10B_RS26100"; product "protein YqfI"; protein_id "WP_120795391.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3143007 3144209 . - . gene_id "ECDH10B_RS15635"; transcript_id ""; gbkey "Gene"; gene "ubiI"; gene_biotype "protein_coding"; gene_synonym "visC"; locus_tag "ECDH10B_RS15635"; old_locus_tag "ECDH10B_3080"; -NC_010473.1 Protein Homology CDS 3143010 3144209 . - 0 gene_id "ECDH10B_RS15635"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ubiI"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417382.1"; locus_tag "ECDH10B_RS15635"; product "FAD-dependent 2-octaprenylphenol hydroxylase"; protein_id "WP_001192229.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3144207 3144209 . - 0 gene_id "ECDH10B_RS15635"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ubiI"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417382.1"; locus_tag "ECDH10B_RS15635"; product "FAD-dependent 2-octaprenylphenol hydroxylase"; protein_id "WP_001192229.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3143007 3143009 . - 0 gene_id "ECDH10B_RS15635"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ubiI"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417382.1"; locus_tag "ECDH10B_RS15635"; product "FAD-dependent 2-octaprenylphenol hydroxylase"; protein_id "WP_001192229.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3144232 3145410 . - . gene_id "ECDH10B_RS15640"; transcript_id ""; gbkey "Gene"; gene "ubiH"; gene_biotype "protein_coding"; gene_synonym "visB"; locus_tag "ECDH10B_RS15640"; old_locus_tag "ECDH10B_3081"; -NC_010473.1 Protein Homology CDS 3144235 3145410 . - 0 gene_id "ECDH10B_RS15640"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ubiH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417383.1"; locus_tag "ECDH10B_RS15640"; product "2-octaprenyl-6-methoxyphenyl hydroxylase"; protein_id "WP_000111195.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3145408 3145410 . - 0 gene_id "ECDH10B_RS15640"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ubiH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417383.1"; locus_tag "ECDH10B_RS15640"; product "2-octaprenyl-6-methoxyphenyl hydroxylase"; protein_id "WP_000111195.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3144232 3144234 . - 0 gene_id "ECDH10B_RS15640"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ubiH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417383.1"; locus_tag "ECDH10B_RS15640"; product "2-octaprenyl-6-methoxyphenyl hydroxylase"; protein_id "WP_000111195.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3145407 3146732 . - . gene_id "ECDH10B_RS15645"; transcript_id ""; gbkey "Gene"; gene "pepP"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15645"; old_locus_tag "ECDH10B_3082"; -NC_010473.1 Protein Homology CDS 3145410 3146732 . - 0 gene_id "ECDH10B_RS15645"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pepP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417384.1"; locus_tag "ECDH10B_RS15645"; product "Xaa-Pro aminopeptidase"; protein_id "WP_001290136.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3146730 3146732 . - 0 gene_id "ECDH10B_RS15645"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pepP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417384.1"; locus_tag "ECDH10B_RS15645"; product "Xaa-Pro aminopeptidase"; protein_id "WP_001290136.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3145407 3145409 . - 0 gene_id "ECDH10B_RS15645"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pepP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417384.1"; locus_tag "ECDH10B_RS15645"; product "Xaa-Pro aminopeptidase"; protein_id "WP_001290136.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3146758 3147336 . - . gene_id "ECDH10B_RS15650"; transcript_id ""; gbkey "Gene"; gene "ygfB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15650"; old_locus_tag "ECDH10B_3083"; -NC_010473.1 Protein Homology CDS 3146761 3147336 . - 0 gene_id "ECDH10B_RS15650"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ygfB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_708672.2"; locus_tag "ECDH10B_RS15650"; product "UPF0149 family protein YgfB"; protein_id "WP_001295378.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3147334 3147336 . - 0 gene_id "ECDH10B_RS15650"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ygfB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_708672.2"; locus_tag "ECDH10B_RS15650"; product "UPF0149 family protein YgfB"; protein_id "WP_001295378.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3146758 3146760 . - 0 gene_id "ECDH10B_RS15650"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ygfB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_708672.2"; locus_tag "ECDH10B_RS15650"; product "UPF0149 family protein YgfB"; protein_id "WP_001295378.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3147504 3147833 . + . gene_id "ECDH10B_RS15655"; transcript_id ""; gbkey "Gene"; gene "zapA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15655"; old_locus_tag "ECDH10B_3084"; -NC_010473.1 Protein Homology CDS 3147504 3147830 . + 0 gene_id "ECDH10B_RS15655"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "zapA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311808.1"; locus_tag "ECDH10B_RS15655"; product "cell division protein ZapA"; protein_id "WP_001276008.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3147504 3147506 . + 0 gene_id "ECDH10B_RS15655"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "zapA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311808.1"; locus_tag "ECDH10B_RS15655"; product "cell division protein ZapA"; protein_id "WP_001276008.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3147831 3147833 . + 0 gene_id "ECDH10B_RS15655"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "zapA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311808.1"; locus_tag "ECDH10B_RS15655"; product "cell division protein ZapA"; protein_id "WP_001276008.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3147875 3148058 . + . gene_id "ECDH10B_RS23400"; transcript_id ""; gbkey "Gene"; gene "ssrS"; gene_biotype "ncRNA"; locus_tag "ECDH10B_RS23400"; old_locus_tag "ECDH10B_3085"; -NC_010473.1 cmsearch exon 3147875 3148058 . + . gene_id "ECDH10B_RS23400"; transcript_id "ECDH10B_RS23400"; db_xref "RFAM:RF00013"; gbkey "ncRNA"; gene "ssrS"; inference "COORDINATES: nucleotide motif:Rfam:12.0:RF00013"; inference "COORDINATES: profile:INFERNAL:1.1.1"; locus_tag "ECDH10B_RS23400"; product "6S RNA"; exon_number "1"; -NC_010473.1 RefSeq gene 3148079 3148681 . + . gene_id "ECDH10B_RS15660"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15660"; old_locus_tag "ECDH10B_3086"; -NC_010473.1 Protein Homology CDS 3148079 3148678 . + 0 gene_id "ECDH10B_RS15660"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311809.4"; locus_tag "ECDH10B_RS15660"; product "5-formyltetrahydrofolate cyclo-ligase"; protein_id "WP_000192748.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3148079 3148081 . + 0 gene_id "ECDH10B_RS15660"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311809.4"; locus_tag "ECDH10B_RS15660"; product "5-formyltetrahydrofolate cyclo-ligase"; protein_id "WP_000192748.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3148679 3148681 . + 0 gene_id "ECDH10B_RS15660"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311809.4"; locus_tag "ECDH10B_RS15660"; product "5-formyltetrahydrofolate cyclo-ligase"; protein_id "WP_000192748.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3148782 3148841 . - . gene_id "ECDH10B_RS24645"; transcript_id ""; gbkey "Gene"; gene "ibsC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS24645"; -NC_010473.1 Protein Homology CDS 3148785 3148841 . - 0 gene_id "ECDH10B_RS24645"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ibsC"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_002791255.1"; locus_tag "ECDH10B_RS24645"; product "type I toxin-antitoxin system Ibs family toxin"; protein_id "WP_010723220.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3148839 3148841 . - 0 gene_id "ECDH10B_RS24645"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ibsC"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_002791255.1"; locus_tag "ECDH10B_RS24645"; product "type I toxin-antitoxin system Ibs family toxin"; protein_id "WP_010723220.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3148782 3148784 . - 0 gene_id "ECDH10B_RS24645"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ibsC"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_002791255.1"; locus_tag "ECDH10B_RS24645"; product "type I toxin-antitoxin system Ibs family toxin"; protein_id "WP_010723220.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3149070 3150302 . - . gene_id "ECDH10B_RS15665"; transcript_id ""; gbkey "Gene"; gene "serA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15665"; old_locus_tag "ECDH10B_3088"; -NC_010473.1 Protein Homology CDS 3149073 3150302 . - 0 gene_id "ECDH10B_RS15665"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "serA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311811.1"; locus_tag "ECDH10B_RS15665"; product "phosphoglycerate dehydrogenase"; protein_id "WP_001151604.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3150300 3150302 . - 0 gene_id "ECDH10B_RS15665"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "serA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311811.1"; locus_tag "ECDH10B_RS15665"; product "phosphoglycerate dehydrogenase"; protein_id "WP_001151604.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3149070 3149072 . - 0 gene_id "ECDH10B_RS15665"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "serA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311811.1"; locus_tag "ECDH10B_RS15665"; product "phosphoglycerate dehydrogenase"; protein_id "WP_001151604.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3150558 3151217 . - . gene_id "ECDH10B_RS15670"; transcript_id ""; gbkey "Gene"; gene "rpiA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15670"; old_locus_tag "ECDH10B_3089"; -NC_010473.1 Protein Homology CDS 3150561 3151217 . - 0 gene_id "ECDH10B_RS15670"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rpiA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311812.1"; locus_tag "ECDH10B_RS15670"; product "ribose-5-phosphate isomerase RpiA"; protein_id "WP_000189743.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3151215 3151217 . - 0 gene_id "ECDH10B_RS15670"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rpiA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311812.1"; locus_tag "ECDH10B_RS15670"; product "ribose-5-phosphate isomerase RpiA"; protein_id "WP_000189743.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3150558 3150560 . - 0 gene_id "ECDH10B_RS15670"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rpiA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311812.1"; locus_tag "ECDH10B_RS15670"; product "ribose-5-phosphate isomerase RpiA"; protein_id "WP_000189743.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3151273 3151503 . - . gene_id "ECDH10B_RS15675"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15675"; old_locus_tag "ECDH10B_3090"; -NC_010473.1 Protein Homology CDS 3151276 3151503 . - 0 gene_id "ECDH10B_RS15675"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001328908.1"; locus_tag "ECDH10B_RS15675"; product "hypothetical protein"; protein_id "WP_000545308.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3151501 3151503 . - 0 gene_id "ECDH10B_RS15675"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001328908.1"; locus_tag "ECDH10B_RS15675"; product "hypothetical protein"; protein_id "WP_000545308.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3151273 3151275 . - 0 gene_id "ECDH10B_RS15675"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001328908.1"; locus_tag "ECDH10B_RS15675"; product "hypothetical protein"; protein_id "WP_000545308.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3151645 3152538 . + . gene_id "ECDH10B_RS15680"; transcript_id ""; gbkey "Gene"; gene "argP"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15680"; old_locus_tag "ECDH10B_3091"; -NC_010473.1 Protein Homology CDS 3151645 3152535 . + 0 gene_id "ECDH10B_RS15680"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "argP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311813.1"; locus_tag "ECDH10B_RS15680"; product "DNA-binding transcriptional regulator ArgP"; protein_id "WP_000828351.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3151645 3151647 . + 0 gene_id "ECDH10B_RS15680"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "argP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311813.1"; locus_tag "ECDH10B_RS15680"; product "DNA-binding transcriptional regulator ArgP"; protein_id "WP_000828351.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3152536 3152538 . + 0 gene_id "ECDH10B_RS15680"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "argP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311813.1"; locus_tag "ECDH10B_RS15680"; product "DNA-binding transcriptional regulator ArgP"; protein_id "WP_000828351.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3152742 3154886 . + . gene_id "ECDH10B_RS15685"; transcript_id ""; gbkey "Gene"; gene "scpA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15685"; -NC_010473.1 Protein Homology CDS 3152742 3154883 . + 0 gene_id "ECDH10B_RS15685"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "scpA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417392.1"; locus_tag "ECDH10B_RS15685"; product "methylmalonyl-CoA mutase"; protein_id "WP_000073228.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3152742 3152744 . + 0 gene_id "ECDH10B_RS15685"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "scpA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417392.1"; locus_tag "ECDH10B_RS15685"; product "methylmalonyl-CoA mutase"; protein_id "WP_000073228.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3154884 3154886 . + 0 gene_id "ECDH10B_RS15685"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "scpA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417392.1"; locus_tag "ECDH10B_RS15685"; product "methylmalonyl-CoA mutase"; protein_id "WP_000073228.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3154879 3155874 . + . gene_id "ECDH10B_RS15690"; transcript_id ""; gbkey "Gene"; gene "meaB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15690"; old_locus_tag "ECDH10B_3093"; -NC_010473.1 Protein Homology CDS 3154879 3155871 . + 0 gene_id "ECDH10B_RS15690"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "meaB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417393.1"; locus_tag "ECDH10B_RS15690"; product "methylmalonyl Co-A mutase-associated GTPase MeaB"; protein_id "WP_000606525.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3154879 3154881 . + 0 gene_id "ECDH10B_RS15690"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "meaB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417393.1"; locus_tag "ECDH10B_RS15690"; product "methylmalonyl Co-A mutase-associated GTPase MeaB"; protein_id "WP_000606525.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3155872 3155874 . + 0 gene_id "ECDH10B_RS15690"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "meaB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417393.1"; locus_tag "ECDH10B_RS15690"; product "methylmalonyl Co-A mutase-associated GTPase MeaB"; protein_id "WP_000606525.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3155885 3156670 . + . gene_id "ECDH10B_RS15695"; transcript_id ""; gbkey "Gene"; gene "scpB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15695"; old_locus_tag "ECDH10B_3094"; -NC_010473.1 Protein Homology CDS 3155885 3156667 . + 0 gene_id "ECDH10B_RS15695"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "scpB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311816.2"; locus_tag "ECDH10B_RS15695"; product "methylmalonyl-CoA decarboxylase"; protein_id "WP_000122080.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3155885 3155887 . + 0 gene_id "ECDH10B_RS15695"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "scpB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311816.2"; locus_tag "ECDH10B_RS15695"; product "methylmalonyl-CoA decarboxylase"; protein_id "WP_000122080.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3156668 3156670 . + 0 gene_id "ECDH10B_RS15695"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "scpB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311816.2"; locus_tag "ECDH10B_RS15695"; product "methylmalonyl-CoA decarboxylase"; protein_id "WP_000122080.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3156694 3158172 . + . gene_id "ECDH10B_RS15700"; transcript_id ""; gbkey "Gene"; gene "scpC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15700"; -NC_010473.1 Protein Homology CDS 3156694 3158169 . + 0 gene_id "ECDH10B_RS15700"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "scpC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417395.1"; locus_tag "ECDH10B_RS15700"; product "propionyl-CoA:succinate CoA transferase"; protein_id "WP_000449964.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3156694 3156696 . + 0 gene_id "ECDH10B_RS15700"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "scpC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417395.1"; locus_tag "ECDH10B_RS15700"; product "propionyl-CoA:succinate CoA transferase"; protein_id "WP_000449964.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3158170 3158172 . + 0 gene_id "ECDH10B_RS15700"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "scpC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417395.1"; locus_tag "ECDH10B_RS15700"; product "propionyl-CoA:succinate CoA transferase"; protein_id "WP_000449964.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3158169 3159065 . - . gene_id "ECDH10B_RS15705"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15705"; old_locus_tag "ECDH10B_3096"; -NC_010473.1 Protein Homology CDS 3158172 3159065 . - 0 gene_id "ECDH10B_RS15705"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417396.4"; locus_tag "ECDH10B_RS15705"; product "LysR family transcriptional regulator"; protein_id "WP_000350807.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3159063 3159065 . - 0 gene_id "ECDH10B_RS15705"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417396.4"; locus_tag "ECDH10B_RS15705"; product "LysR family transcriptional regulator"; protein_id "WP_000350807.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3158169 3158171 . - 0 gene_id "ECDH10B_RS15705"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417396.4"; locus_tag "ECDH10B_RS15705"; product "LysR family transcriptional regulator"; protein_id "WP_000350807.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3159232 3159972 . - . gene_id "ECDH10B_RS15710"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15710"; old_locus_tag "ECDH10B_3097"; -NC_010473.1 Protein Homology CDS 3159235 3159972 . - 0 gene_id "ECDH10B_RS15710"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311820.1"; locus_tag "ECDH10B_RS15710"; product "oxidative stress defense protein"; protein_id "WP_000669834.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3159970 3159972 . - 0 gene_id "ECDH10B_RS15710"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311820.1"; locus_tag "ECDH10B_RS15710"; product "oxidative stress defense protein"; protein_id "WP_000669834.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3159232 3159234 . - 0 gene_id "ECDH10B_RS15710"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311820.1"; locus_tag "ECDH10B_RS15710"; product "oxidative stress defense protein"; protein_id "WP_000669834.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3160065 3160700 . - . gene_id "ECDH10B_RS15715"; transcript_id ""; gbkey "Gene"; gene "argO"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15715"; old_locus_tag "ECDH10B_3098"; -NC_010473.1 Protein Homology CDS 3160068 3160700 . - 0 gene_id "ECDH10B_RS15715"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "argO"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417398.1"; locus_tag "ECDH10B_RS15715"; product "arginine exporter ArgO"; protein_id "WP_000493352.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3160698 3160700 . - 0 gene_id "ECDH10B_RS15715"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "argO"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417398.1"; locus_tag "ECDH10B_RS15715"; product "arginine exporter ArgO"; protein_id "WP_000493352.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3160065 3160067 . - 0 gene_id "ECDH10B_RS15715"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "argO"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417398.1"; locus_tag "ECDH10B_RS15715"; product "arginine exporter ArgO"; protein_id "WP_000493352.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3160839 3161699 . - . gene_id "ECDH10B_RS15720"; transcript_id ""; gbkey "Gene"; gene "mscS"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15720"; old_locus_tag "ECDH10B_3099"; -NC_010473.1 Protein Homology CDS 3160842 3161699 . - 0 gene_id "ECDH10B_RS15720"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mscS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311822.1"; locus_tag "ECDH10B_RS15720"; product "small-conductance mechanosensitive channel MscS"; protein_id "WP_000389818.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3161697 3161699 . - 0 gene_id "ECDH10B_RS15720"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mscS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311822.1"; locus_tag "ECDH10B_RS15720"; product "small-conductance mechanosensitive channel MscS"; protein_id "WP_000389818.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3160839 3160841 . - 0 gene_id "ECDH10B_RS15720"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mscS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311822.1"; locus_tag "ECDH10B_RS15720"; product "small-conductance mechanosensitive channel MscS"; protein_id "WP_000389818.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3162057 3163136 . - . gene_id "ECDH10B_RS15725"; transcript_id ""; gbkey "Gene"; gene "fbaA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15725"; old_locus_tag "ECDH10B_3100"; -NC_010473.1 Protein Homology CDS 3162060 3163136 . - 0 gene_id "ECDH10B_RS15725"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fbaA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_016505616.1"; locus_tag "ECDH10B_RS15725"; product "class II fructose-bisphosphate aldolase"; protein_id "WP_000034372.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3163134 3163136 . - 0 gene_id "ECDH10B_RS15725"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fbaA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_016505616.1"; locus_tag "ECDH10B_RS15725"; product "class II fructose-bisphosphate aldolase"; protein_id "WP_000034372.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3162057 3162059 . - 0 gene_id "ECDH10B_RS15725"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fbaA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_016505616.1"; locus_tag "ECDH10B_RS15725"; product "class II fructose-bisphosphate aldolase"; protein_id "WP_000034372.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3163351 3164514 . - . gene_id "ECDH10B_RS15730"; transcript_id ""; gbkey "Gene"; gene "pgk"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15730"; old_locus_tag "ECDH10B_3101"; -NC_010473.1 Protein Homology CDS 3163354 3164514 . - 0 gene_id "ECDH10B_RS15730"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pgk"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005761248.1"; locus_tag "ECDH10B_RS15730"; product "phosphoglycerate kinase"; protein_id "WP_000111269.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3164512 3164514 . - 0 gene_id "ECDH10B_RS15730"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pgk"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005761248.1"; locus_tag "ECDH10B_RS15730"; product "phosphoglycerate kinase"; protein_id "WP_000111269.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3163351 3163353 . - 0 gene_id "ECDH10B_RS15730"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pgk"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005761248.1"; locus_tag "ECDH10B_RS15730"; product "phosphoglycerate kinase"; protein_id "WP_000111269.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3164564 3165583 . - . gene_id "ECDH10B_RS15735"; transcript_id ""; gbkey "Gene"; gene "epd"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15735"; old_locus_tag "ECDH10B_3102"; -NC_010473.1 Protein Homology CDS 3164567 3165583 . - 0 gene_id "ECDH10B_RS15735"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "epd"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311825.1"; locus_tag "ECDH10B_RS15735"; product "erythrose-4-phosphate dehydrogenase"; protein_id "WP_000218480.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3165581 3165583 . - 0 gene_id "ECDH10B_RS15735"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "epd"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311825.1"; locus_tag "ECDH10B_RS15735"; product "erythrose-4-phosphate dehydrogenase"; protein_id "WP_000218480.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3164564 3164566 . - 0 gene_id "ECDH10B_RS15735"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "epd"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311825.1"; locus_tag "ECDH10B_RS15735"; product "erythrose-4-phosphate dehydrogenase"; protein_id "WP_000218480.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3165868 3166581 . - . gene_id "ECDH10B_RS15740"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15740"; old_locus_tag "ECDH10B_3103"; -NC_010473.1 Protein Homology CDS 3165871 3166581 . - 0 gene_id "ECDH10B_RS15740"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417403.1"; locus_tag "ECDH10B_RS15740"; product "nucleoside/nucleotide kinase family protein"; protein_id "WP_000687705.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3166579 3166581 . - 0 gene_id "ECDH10B_RS15740"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417403.1"; locus_tag "ECDH10B_RS15740"; product "nucleoside/nucleotide kinase family protein"; protein_id "WP_000687705.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3165868 3165870 . - 0 gene_id "ECDH10B_RS15740"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417403.1"; locus_tag "ECDH10B_RS15740"; product "nucleoside/nucleotide kinase family protein"; protein_id "WP_000687705.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3166578 3167087 . - . gene_id "ECDH10B_RS15745"; transcript_id ""; gbkey "Gene"; gene "fumE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15745"; old_locus_tag "ECDH10B_3104"; -NC_010473.1 Protein Homology CDS 3166581 3167087 . - 0 gene_id "ECDH10B_RS15745"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fumE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417404.1"; locus_tag "ECDH10B_RS15745"; product "fumarase E"; protein_id "WP_000224147.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3167085 3167087 . - 0 gene_id "ECDH10B_RS15745"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fumE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417404.1"; locus_tag "ECDH10B_RS15745"; product "fumarase E"; protein_id "WP_000224147.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3166578 3166580 . - 0 gene_id "ECDH10B_RS15745"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fumE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417404.1"; locus_tag "ECDH10B_RS15745"; product "fumarase E"; protein_id "WP_000224147.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3167109 3168074 . - . gene_id "ECDH10B_RS15750"; transcript_id ""; gbkey "Gene"; gene "yggF"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15750"; old_locus_tag "ECDH10B_3105"; -NC_010473.1 Protein Homology CDS 3167112 3168074 . - 0 gene_id "ECDH10B_RS15750"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yggF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417405.1"; locus_tag "ECDH10B_RS15750"; product "class II fructose-bisphosphatase"; protein_id "WP_000987283.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3168072 3168074 . - 0 gene_id "ECDH10B_RS15750"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yggF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417405.1"; locus_tag "ECDH10B_RS15750"; product "class II fructose-bisphosphatase"; protein_id "WP_000987283.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3167109 3167111 . - 0 gene_id "ECDH10B_RS15750"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yggF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417405.1"; locus_tag "ECDH10B_RS15750"; product "class II fructose-bisphosphatase"; protein_id "WP_000987283.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3168071 3169348 . - . gene_id "ECDH10B_RS15755"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15755"; old_locus_tag "ECDH10B_3106"; -NC_010473.1 Protein Homology CDS 3168074 3169348 . - 0 gene_id "ECDH10B_RS15755"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026187.1"; locus_tag "ECDH10B_RS15755"; product "zinc-binding dehydrogenase"; protein_id "WP_000853247.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3169346 3169348 . - 0 gene_id "ECDH10B_RS15755"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026187.1"; locus_tag "ECDH10B_RS15755"; product "zinc-binding dehydrogenase"; protein_id "WP_000853247.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3168071 3168073 . - 0 gene_id "ECDH10B_RS15755"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026187.1"; locus_tag "ECDH10B_RS15755"; product "zinc-binding dehydrogenase"; protein_id "WP_000853247.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3169363 3170619 . - . gene_id "ECDH10B_RS15760"; transcript_id ""; gbkey "Gene"; gene "cmtA"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS15760"; partial "true"; pseudo "true"; -NC_010473.1 Protein Homology CDS 3169366 3170619 . - 0 gene_id "ECDH10B_RS15760"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cmtA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311835.1"; locus_tag "ECDH10B_RS15760"; note "incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "PTS mannitol transporter subunit IICB"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3170617 3170619 . - 0 gene_id "ECDH10B_RS15760"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cmtA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311835.1"; locus_tag "ECDH10B_RS15760"; note "incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "PTS mannitol transporter subunit IICB"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3169363 3169365 . - 0 gene_id "ECDH10B_RS15760"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cmtA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311835.1"; locus_tag "ECDH10B_RS15760"; note "incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "PTS mannitol transporter subunit IICB"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 3170651 3171667 . + . gene_id "ECDH10B_RS15765"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15765"; -NC_010473.1 Protein Homology CDS 3170651 3171664 . + 0 gene_id "ECDH10B_RS15765"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414793.1"; locus_tag "ECDH10B_RS15765"; product "IS5-like element IS5 family transposase"; protein_id "WP_010723085.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3170651 3170653 . + 0 gene_id "ECDH10B_RS15765"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414793.1"; locus_tag "ECDH10B_RS15765"; product "IS5-like element IS5 family transposase"; protein_id "WP_010723085.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3171665 3171667 . + 0 gene_id "ECDH10B_RS15765"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414793.1"; locus_tag "ECDH10B_RS15765"; product "IS5-like element IS5 family transposase"; protein_id "WP_010723085.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3171705 3171950 . - . gene_id "ECDH10B_RS15770"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15770"; -NC_010473.1 GeneMarkS-2+ CDS 3171708 3171950 . - 0 gene_id "ECDH10B_RS15770"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: ab initio prediction:GeneMarkS-2+"; locus_tag "ECDH10B_RS15770"; product "hypothetical protein"; protein_id "WP_000428766.1"; transl_table "11"; -NC_010473.1 GeneMarkS-2+ start_codon 3171948 3171950 . - 0 gene_id "ECDH10B_RS15770"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: ab initio prediction:GeneMarkS-2+"; locus_tag "ECDH10B_RS15770"; product "hypothetical protein"; protein_id "WP_000428766.1"; transl_table "11"; -NC_010473.1 GeneMarkS-2+ stop_codon 3171705 3171707 . - 0 gene_id "ECDH10B_RS15770"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: ab initio prediction:GeneMarkS-2+"; locus_tag "ECDH10B_RS15770"; product "hypothetical protein"; protein_id "WP_000428766.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3171978 3172421 . - . gene_id "ECDH10B_RS15775"; transcript_id ""; gbkey "Gene"; gene "cmtB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15775"; -NC_010473.1 Protein Homology CDS 3171981 3172421 . - 0 gene_id "ECDH10B_RS15775"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cmtB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311836.1"; locus_tag "ECDH10B_RS15775"; product "PTS mannitol transporter subunit IIA"; protein_id "WP_001239650.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3172419 3172421 . - 0 gene_id "ECDH10B_RS15775"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cmtB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311836.1"; locus_tag "ECDH10B_RS15775"; product "PTS mannitol transporter subunit IIA"; protein_id "WP_001239650.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3171978 3171980 . - 0 gene_id "ECDH10B_RS15775"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cmtB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311836.1"; locus_tag "ECDH10B_RS15775"; product "PTS mannitol transporter subunit IIA"; protein_id "WP_001239650.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3172735 3174726 . - . gene_id "ECDH10B_RS15780"; transcript_id ""; gbkey "Gene"; gene "tkt"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15780"; old_locus_tag "ECDH10B_3110"; -NC_010473.1 Protein Homology CDS 3172738 3174726 . - 0 gene_id "ECDH10B_RS15780"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tkt"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026188.1"; locus_tag "ECDH10B_RS15780"; product "transketolase"; protein_id "WP_000098614.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3174724 3174726 . - 0 gene_id "ECDH10B_RS15780"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tkt"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026188.1"; locus_tag "ECDH10B_RS15780"; product "transketolase"; protein_id "WP_000098614.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3172735 3172737 . - 0 gene_id "ECDH10B_RS15780"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tkt"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026188.1"; locus_tag "ECDH10B_RS15780"; product "transketolase"; protein_id "WP_000098614.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3175004 3175762 . + . gene_id "ECDH10B_RS15785"; transcript_id ""; gbkey "Gene"; gene "loiP"; gene_biotype "protein_coding"; gene_synonym "yggG"; locus_tag "ECDH10B_RS15785"; old_locus_tag "ECDH10B_3111"; -NC_010473.1 Protein Homology CDS 3175004 3175759 . + 0 gene_id "ECDH10B_RS15785"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "loiP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417411.2"; locus_tag "ECDH10B_RS15785"; product "metalloprotease LoiP"; protein_id "WP_001326497.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3175004 3175006 . + 0 gene_id "ECDH10B_RS15785"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "loiP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417411.2"; locus_tag "ECDH10B_RS15785"; product "metalloprotease LoiP"; protein_id "WP_001326497.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3175760 3175762 . + 0 gene_id "ECDH10B_RS15785"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "loiP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417411.2"; locus_tag "ECDH10B_RS15785"; product "metalloprotease LoiP"; protein_id "WP_001326497.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3175968 3176888 . - . gene_id "ECDH10B_RS15790"; transcript_id ""; gbkey "Gene"; gene "speB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15790"; old_locus_tag "ECDH10B_3112"; -NC_010473.1 Protein Homology CDS 3175971 3176888 . - 0 gene_id "ECDH10B_RS15790"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "speB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311839.1"; locus_tag "ECDH10B_RS15790"; product "agmatinase"; protein_id "WP_000105566.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3176886 3176888 . - 0 gene_id "ECDH10B_RS15790"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "speB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311839.1"; locus_tag "ECDH10B_RS15790"; product "agmatinase"; protein_id "WP_000105566.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3175968 3175970 . - 0 gene_id "ECDH10B_RS15790"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "speB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311839.1"; locus_tag "ECDH10B_RS15790"; product "agmatinase"; protein_id "WP_000105566.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3177026 3179002 . - . gene_id "ECDH10B_RS15795"; transcript_id ""; gbkey "Gene"; gene "speA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15795"; old_locus_tag "ECDH10B_3113"; -NC_010473.1 Protein Homology CDS 3177029 3179002 . - 0 gene_id "ECDH10B_RS15795"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "speA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417413.1"; locus_tag "ECDH10B_RS15795"; product "biosynthetic arginine decarboxylase"; protein_id "WP_001300904.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3179000 3179002 . - 0 gene_id "ECDH10B_RS15795"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "speA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417413.1"; locus_tag "ECDH10B_RS15795"; product "biosynthetic arginine decarboxylase"; protein_id "WP_001300904.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3177026 3177028 . - 0 gene_id "ECDH10B_RS15795"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "speA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417413.1"; locus_tag "ECDH10B_RS15795"; product "biosynthetic arginine decarboxylase"; protein_id "WP_001300904.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3179011 3179142 . - . gene_id "ECDH10B_RS15800"; transcript_id ""; gbkey "Gene"; gene "yqgB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15800"; old_locus_tag "ECDH10B_3114"; -NC_010473.1 Protein Homology CDS 3179014 3179142 . - 0 gene_id "ECDH10B_RS15800"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yqgB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417414.2"; locus_tag "ECDH10B_RS15800"; product "acid stress response protein YqgB"; protein_id "WP_001297406.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3179140 3179142 . - 0 gene_id "ECDH10B_RS15800"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yqgB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417414.2"; locus_tag "ECDH10B_RS15800"; product "acid stress response protein YqgB"; protein_id "WP_001297406.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3179011 3179013 . - 0 gene_id "ECDH10B_RS15800"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yqgB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417414.2"; locus_tag "ECDH10B_RS15800"; product "acid stress response protein YqgB"; protein_id "WP_001297406.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3179278 3179493 . + . gene_id "ECDH10B_RS25695"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS25695"; old_locus_tag "ECDH10B_3115"; -NC_010473.1 Protein Homology CDS 3179278 3179490 . + 0 gene_id "ECDH10B_RS25695"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: protein motif:HMM:NF037550.1"; locus_tag "ECDH10B_RS25695"; product "hypothetical protein"; protein_id "WP_001303650.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3179278 3179280 . + 0 gene_id "ECDH10B_RS25695"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: protein motif:HMM:NF037550.1"; locus_tag "ECDH10B_RS25695"; product "hypothetical protein"; protein_id "WP_001303650.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3179491 3179493 . + 0 gene_id "ECDH10B_RS25695"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: protein motif:HMM:NF037550.1"; locus_tag "ECDH10B_RS25695"; product "hypothetical protein"; protein_id "WP_001303650.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3179797 3180951 . + . gene_id "ECDH10B_RS15815"; transcript_id ""; gbkey "Gene"; gene "metK"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15815"; old_locus_tag "ECDH10B_3117"; -NC_010473.1 Protein Homology CDS 3179797 3180948 . + 0 gene_id "ECDH10B_RS15815"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "metK"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005123306.1"; locus_tag "ECDH10B_RS15815"; product "methionine adenosyltransferase"; protein_id "WP_001062128.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3179797 3179799 . + 0 gene_id "ECDH10B_RS15815"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "metK"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005123306.1"; locus_tag "ECDH10B_RS15815"; product "methionine adenosyltransferase"; protein_id "WP_001062128.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3180949 3180951 . + 0 gene_id "ECDH10B_RS15815"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "metK"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005123306.1"; locus_tag "ECDH10B_RS15815"; product "methionine adenosyltransferase"; protein_id "WP_001062128.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3181375 3182769 . + . gene_id "ECDH10B_RS15820"; transcript_id ""; gbkey "Gene"; gene "galP"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15820"; -NC_010473.1 Protein Homology CDS 3181375 3182766 . + 0 gene_id "ECDH10B_RS15820"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "galP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417418.1"; locus_tag "ECDH10B_RS15820"; product "galactose/proton symporter"; protein_id "WP_012775975.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3181375 3181377 . + 0 gene_id "ECDH10B_RS15820"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "galP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417418.1"; locus_tag "ECDH10B_RS15820"; product "galactose/proton symporter"; protein_id "WP_012775975.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3182767 3182769 . + 0 gene_id "ECDH10B_RS15820"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "galP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417418.1"; locus_tag "ECDH10B_RS15820"; product "galactose/proton symporter"; protein_id "WP_012775975.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3182846 3183343 . + . gene_id "ECDH10B_RS15825"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15825"; old_locus_tag "ECDH10B_3119"; -NC_010473.1 Protein Homology CDS 3182846 3183340 . + 0 gene_id "ECDH10B_RS15825"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417419.1"; locus_tag "ECDH10B_RS15825"; product "SprT family zinc-dependent metalloprotease"; protein_id "WP_001300769.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3182846 3182848 . + 0 gene_id "ECDH10B_RS15825"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417419.1"; locus_tag "ECDH10B_RS15825"; product "SprT family zinc-dependent metalloprotease"; protein_id "WP_001300769.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3183341 3183343 . + 0 gene_id "ECDH10B_RS15825"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417419.1"; locus_tag "ECDH10B_RS15825"; product "SprT family zinc-dependent metalloprotease"; protein_id "WP_001300769.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3183438 3184145 . + . gene_id "ECDH10B_RS15830"; transcript_id ""; gbkey "Gene"; gene "endA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15830"; -NC_010473.1 Protein Homology CDS 3183438 3184142 . + 0 gene_id "ECDH10B_RS15830"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "endA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417420.1"; locus_tag "ECDH10B_RS15830"; product "deoxyribonuclease I"; protein_id "WP_000286501.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3183438 3183440 . + 0 gene_id "ECDH10B_RS15830"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "endA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417420.1"; locus_tag "ECDH10B_RS15830"; product "deoxyribonuclease I"; protein_id "WP_000286501.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3184143 3184145 . + 0 gene_id "ECDH10B_RS15830"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "endA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417420.1"; locus_tag "ECDH10B_RS15830"; product "deoxyribonuclease I"; protein_id "WP_000286501.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3184225 3184956 . + . gene_id "ECDH10B_RS15835"; transcript_id ""; gbkey "Gene"; gene "rsmE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15835"; old_locus_tag "ECDH10B_3121"; -NC_010473.1 Protein Homology CDS 3184225 3184953 . + 0 gene_id "ECDH10B_RS15835"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rsmE"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_003853382.1"; locus_tag "ECDH10B_RS15835"; product "16S rRNA (uracil(1498)-N(3))-methyltransferase"; protein_id "WP_001222509.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3184225 3184227 . + 0 gene_id "ECDH10B_RS15835"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rsmE"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_003853382.1"; locus_tag "ECDH10B_RS15835"; product "16S rRNA (uracil(1498)-N(3))-methyltransferase"; protein_id "WP_001222509.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3184954 3184956 . + 0 gene_id "ECDH10B_RS15835"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rsmE"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_003853382.1"; locus_tag "ECDH10B_RS15835"; product "16S rRNA (uracil(1498)-N(3))-methyltransferase"; protein_id "WP_001222509.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3184969 3185919 . + . gene_id "ECDH10B_RS15840"; transcript_id ""; gbkey "Gene"; gene "gshB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15840"; old_locus_tag "ECDH10B_3122"; -NC_010473.1 Protein Homology CDS 3184969 3185916 . + 0 gene_id "ECDH10B_RS15840"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gshB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417422.1"; locus_tag "ECDH10B_RS15840"; product "glutathione synthase"; protein_id "WP_000593273.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3184969 3184971 . + 0 gene_id "ECDH10B_RS15840"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gshB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417422.1"; locus_tag "ECDH10B_RS15840"; product "glutathione synthase"; protein_id "WP_000593273.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3185917 3185919 . + 0 gene_id "ECDH10B_RS15840"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gshB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417422.1"; locus_tag "ECDH10B_RS15840"; product "glutathione synthase"; protein_id "WP_000593273.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3186028 3186591 . + . gene_id "ECDH10B_RS15845"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15845"; old_locus_tag "ECDH10B_3123"; -NC_010473.1 Protein Homology CDS 3186028 3186588 . + 0 gene_id "ECDH10B_RS15845"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_005228750.1"; locus_tag "ECDH10B_RS15845"; product "YqgE/AlgH family protein"; protein_id "WP_001053178.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3186028 3186030 . + 0 gene_id "ECDH10B_RS15845"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_005228750.1"; locus_tag "ECDH10B_RS15845"; product "YqgE/AlgH family protein"; protein_id "WP_001053178.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3186589 3186591 . + 0 gene_id "ECDH10B_RS15845"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_005228750.1"; locus_tag "ECDH10B_RS15845"; product "YqgE/AlgH family protein"; protein_id "WP_001053178.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3186591 3187007 . + . gene_id "ECDH10B_RS15850"; transcript_id ""; gbkey "Gene"; gene "ruvX"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15850"; old_locus_tag "ECDH10B_3124"; -NC_010473.1 Protein Homology CDS 3186591 3187004 . + 0 gene_id "ECDH10B_RS15850"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ruvX"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417424.1"; locus_tag "ECDH10B_RS15850"; product "Holliday junction resolvase RuvX"; protein_id "WP_000017106.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3186591 3186593 . + 0 gene_id "ECDH10B_RS15850"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ruvX"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417424.1"; locus_tag "ECDH10B_RS15850"; product "Holliday junction resolvase RuvX"; protein_id "WP_000017106.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3187005 3187007 . + 0 gene_id "ECDH10B_RS15850"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ruvX"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417424.1"; locus_tag "ECDH10B_RS15850"; product "Holliday junction resolvase RuvX"; protein_id "WP_000017106.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3187191 3188171 . - . gene_id "ECDH10B_RS15855"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15855"; old_locus_tag "ECDH10B_3125"; -NC_010473.1 Protein Homology CDS 3187194 3188171 . - 0 gene_id "ECDH10B_RS15855"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417425.2"; locus_tag "ECDH10B_RS15855"; product "type IV pilus twitching motility protein PilT"; protein_id "WP_001326494.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3188169 3188171 . - 0 gene_id "ECDH10B_RS15855"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417425.2"; locus_tag "ECDH10B_RS15855"; product "type IV pilus twitching motility protein PilT"; protein_id "WP_001326494.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3187191 3187193 . - 0 gene_id "ECDH10B_RS15855"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417425.2"; locus_tag "ECDH10B_RS15855"; product "type IV pilus twitching motility protein PilT"; protein_id "WP_001326494.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3188189 3188893 . + . gene_id "ECDH10B_RS15860"; transcript_id ""; gbkey "Gene"; gene "yggS"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15860"; old_locus_tag "ECDH10B_3126"; -NC_010473.1 Protein Homology CDS 3188189 3188890 . + 0 gene_id "ECDH10B_RS15860"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yggS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417426.1"; locus_tag "ECDH10B_RS15860"; product "pyridoxal phosphate homeostasis protein"; protein_id "WP_000997795.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3188189 3188191 . + 0 gene_id "ECDH10B_RS15860"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yggS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417426.1"; locus_tag "ECDH10B_RS15860"; product "pyridoxal phosphate homeostasis protein"; protein_id "WP_000997795.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3188891 3188893 . + 0 gene_id "ECDH10B_RS15860"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yggS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417426.1"; locus_tag "ECDH10B_RS15860"; product "pyridoxal phosphate homeostasis protein"; protein_id "WP_000997795.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3188911 3189477 . + . gene_id "ECDH10B_RS15865"; transcript_id ""; gbkey "Gene"; gene "yggT"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15865"; old_locus_tag "ECDH10B_3127"; -NC_010473.1 Protein Homology CDS 3188911 3189474 . + 0 gene_id "ECDH10B_RS15865"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yggT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311855.1"; locus_tag "ECDH10B_RS15865"; product "osmotic shock tolerance protein YggT"; protein_id "WP_001094831.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3188911 3188913 . + 0 gene_id "ECDH10B_RS15865"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yggT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311855.1"; locus_tag "ECDH10B_RS15865"; product "osmotic shock tolerance protein YggT"; protein_id "WP_001094831.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3189475 3189477 . + 0 gene_id "ECDH10B_RS15865"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yggT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311855.1"; locus_tag "ECDH10B_RS15865"; product "osmotic shock tolerance protein YggT"; protein_id "WP_001094831.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3189474 3189764 . + . gene_id "ECDH10B_RS15870"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15870"; old_locus_tag "ECDH10B_3128"; -NC_010473.1 Protein Homology CDS 3189474 3189761 . + 0 gene_id "ECDH10B_RS15870"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417428.2"; locus_tag "ECDH10B_RS15870"; product "YggU family protein"; protein_id "WP_000994920.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3189474 3189476 . + 0 gene_id "ECDH10B_RS15870"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417428.2"; locus_tag "ECDH10B_RS15870"; product "YggU family protein"; protein_id "WP_000994920.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3189762 3189764 . + 0 gene_id "ECDH10B_RS15870"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417428.2"; locus_tag "ECDH10B_RS15870"; product "YggU family protein"; protein_id "WP_000994920.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3189772 3190365 . + . gene_id "ECDH10B_RS15875"; transcript_id ""; gbkey "Gene"; gene "rdgB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15875"; old_locus_tag "ECDH10B_3129"; -NC_010473.1 Protein Homology CDS 3189772 3190362 . + 0 gene_id "ECDH10B_RS15875"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rdgB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417429.1"; locus_tag "ECDH10B_RS15875"; product "RdgB/HAM1 family non-canonical purine NTP pyrophosphatase"; protein_id "WP_001174777.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3189772 3189774 . + 0 gene_id "ECDH10B_RS15875"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rdgB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417429.1"; locus_tag "ECDH10B_RS15875"; product "RdgB/HAM1 family non-canonical purine NTP pyrophosphatase"; protein_id "WP_001174777.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3190363 3190365 . + 0 gene_id "ECDH10B_RS15875"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rdgB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417429.1"; locus_tag "ECDH10B_RS15875"; product "RdgB/HAM1 family non-canonical purine NTP pyrophosphatase"; protein_id "WP_001174777.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3190358 3191494 . + . gene_id "ECDH10B_RS15880"; transcript_id ""; gbkey "Gene"; gene "hemW"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15880"; old_locus_tag "ECDH10B_3130"; -NC_010473.1 Protein Homology CDS 3190358 3191491 . + 0 gene_id "ECDH10B_RS15880"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hemW"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417430.1"; locus_tag "ECDH10B_RS15880"; product "radical SAM family heme chaperone HemW"; protein_id "WP_000239943.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3190358 3190360 . + 0 gene_id "ECDH10B_RS15880"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hemW"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417430.1"; locus_tag "ECDH10B_RS15880"; product "radical SAM family heme chaperone HemW"; protein_id "WP_000239943.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3191492 3191494 . + 0 gene_id "ECDH10B_RS15880"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hemW"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417430.1"; locus_tag "ECDH10B_RS15880"; product "radical SAM family heme chaperone HemW"; protein_id "WP_000239943.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3191649 3192656 . - . gene_id "ECDH10B_RS15885"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15885"; old_locus_tag "ECDH10B_3131"; -NC_010473.1 Protein Homology CDS 3191652 3192656 . - 0 gene_id "ECDH10B_RS15885"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417431.1"; locus_tag "ECDH10B_RS15885"; product "DUF1202 family protein"; protein_id "WP_000745210.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3192654 3192656 . - 0 gene_id "ECDH10B_RS15885"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417431.1"; locus_tag "ECDH10B_RS15885"; product "DUF1202 family protein"; protein_id "WP_000745210.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3191649 3191651 . - 0 gene_id "ECDH10B_RS15885"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417431.1"; locus_tag "ECDH10B_RS15885"; product "DUF1202 family protein"; protein_id "WP_000745210.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3192773 3193819 . - . gene_id "ECDH10B_RS15890"; transcript_id ""; gbkey "Gene"; gene "ansB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15890"; old_locus_tag "ECDH10B_3132"; -NC_010473.1 Protein Homology CDS 3192776 3193819 . - 0 gene_id "ECDH10B_RS15890"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ansB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417432.1"; locus_tag "ECDH10B_RS15890"; product "L-asparaginase 2"; protein_id "WP_000394140.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3193817 3193819 . - 0 gene_id "ECDH10B_RS15890"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ansB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417432.1"; locus_tag "ECDH10B_RS15890"; product "L-asparaginase 2"; protein_id "WP_000394140.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3192773 3192775 . - 0 gene_id "ECDH10B_RS15890"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ansB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417432.1"; locus_tag "ECDH10B_RS15890"; product "L-asparaginase 2"; protein_id "WP_000394140.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3193995 3194714 . - . gene_id "ECDH10B_RS15895"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15895"; old_locus_tag "ECDH10B_3133"; -NC_010473.1 Protein Homology CDS 3193998 3194714 . - 0 gene_id "ECDH10B_RS15895"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311861.1"; locus_tag "ECDH10B_RS15895"; product "DUF2884 domain-containing protein"; protein_id "WP_000984796.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3194712 3194714 . - 0 gene_id "ECDH10B_RS15895"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311861.1"; locus_tag "ECDH10B_RS15895"; product "DUF2884 domain-containing protein"; protein_id "WP_000984796.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3193995 3193997 . - 0 gene_id "ECDH10B_RS15895"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311861.1"; locus_tag "ECDH10B_RS15895"; product "DUF2884 domain-containing protein"; protein_id "WP_000984796.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3194898 3195224 . - . gene_id "ECDH10B_RS15905"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15905"; old_locus_tag "ECDH10B_3134"; -NC_010473.1 Protein Homology CDS 3194901 3195224 . - 0 gene_id "ECDH10B_RS15905"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417434.4"; locus_tag "ECDH10B_RS15905"; product "YggL family protein"; protein_id "WP_001107564.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3195222 3195224 . - 0 gene_id "ECDH10B_RS15905"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417434.4"; locus_tag "ECDH10B_RS15905"; product "YggL family protein"; protein_id "WP_001107564.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3194898 3194900 . - 0 gene_id "ECDH10B_RS15905"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417434.4"; locus_tag "ECDH10B_RS15905"; product "YggL family protein"; protein_id "WP_001107564.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3195224 3195943 . - . gene_id "ECDH10B_RS15910"; transcript_id ""; gbkey "Gene"; gene "trmB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15910"; old_locus_tag "ECDH10B_3135"; -NC_010473.1 Protein Homology CDS 3195227 3195943 . - 0 gene_id "ECDH10B_RS15910"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "trmB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417435.1"; locus_tag "ECDH10B_RS15910"; product "tRNA (guanosine(46)-N7)-methyltransferase TrmB"; protein_id "WP_000786911.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3195941 3195943 . - 0 gene_id "ECDH10B_RS15910"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "trmB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417435.1"; locus_tag "ECDH10B_RS15910"; product "tRNA (guanosine(46)-N7)-methyltransferase TrmB"; protein_id "WP_000786911.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3195224 3195226 . - 0 gene_id "ECDH10B_RS15910"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "trmB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417435.1"; locus_tag "ECDH10B_RS15910"; product "tRNA (guanosine(46)-N7)-methyltransferase TrmB"; protein_id "WP_000786911.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3196104 3197156 . + . gene_id "ECDH10B_RS15915"; transcript_id ""; gbkey "Gene"; gene "mutY"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15915"; old_locus_tag "ECDH10B_3136"; -NC_010473.1 Protein Homology CDS 3196104 3197153 . + 0 gene_id "ECDH10B_RS15915"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mutY"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417436.1"; locus_tag "ECDH10B_RS15915"; product "A/G-specific adenine glycosylase"; protein_id "WP_001321419.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3196104 3196106 . + 0 gene_id "ECDH10B_RS15915"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mutY"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417436.1"; locus_tag "ECDH10B_RS15915"; product "A/G-specific adenine glycosylase"; protein_id "WP_001321419.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3197154 3197156 . + 0 gene_id "ECDH10B_RS15915"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mutY"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417436.1"; locus_tag "ECDH10B_RS15915"; product "A/G-specific adenine glycosylase"; protein_id "WP_001321419.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3197184 3197459 . + . gene_id "ECDH10B_RS15920"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15920"; old_locus_tag "ECDH10B_3137"; -NC_010473.1 Protein Homology CDS 3197184 3197456 . + 0 gene_id "ECDH10B_RS15920"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311865.1"; locus_tag "ECDH10B_RS15920"; product "oxidative damage protection protein"; protein_id "WP_000091700.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3197184 3197186 . + 0 gene_id "ECDH10B_RS15920"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311865.1"; locus_tag "ECDH10B_RS15920"; product "oxidative damage protection protein"; protein_id "WP_000091700.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3197457 3197459 . + 0 gene_id "ECDH10B_RS15920"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311865.1"; locus_tag "ECDH10B_RS15920"; product "oxidative damage protection protein"; protein_id "WP_000091700.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3197524 3198603 . + . gene_id "ECDH10B_RS15925"; transcript_id ""; gbkey "Gene"; gene "mltC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15925"; old_locus_tag "ECDH10B_3138"; -NC_010473.1 Protein Homology CDS 3197524 3198600 . + 0 gene_id "ECDH10B_RS15925"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mltC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417438.2"; locus_tag "ECDH10B_RS15925"; product "membrane-bound lytic murein transglycosylase MltC"; protein_id "WP_000760323.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3197524 3197526 . + 0 gene_id "ECDH10B_RS15925"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mltC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417438.2"; locus_tag "ECDH10B_RS15925"; product "membrane-bound lytic murein transglycosylase MltC"; protein_id "WP_000760323.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3198601 3198603 . + 0 gene_id "ECDH10B_RS15925"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mltC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417438.2"; locus_tag "ECDH10B_RS15925"; product "membrane-bound lytic murein transglycosylase MltC"; protein_id "WP_000760323.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3198805 3199473 . + . gene_id "ECDH10B_RS15930"; transcript_id ""; gbkey "Gene"; gene "nupG"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS15930"; partial "true"; pseudo "true"; -NC_010473.1 Protein Homology CDS 3198805 3199470 . + 0 gene_id "ECDH10B_RS15930"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nupG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311867.2"; locus_tag "ECDH10B_RS15930"; note "incomplete; partial in the middle of a contig; missing C-terminus"; partial "true"; product "nucleoside permease NupG"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3198805 3198807 . + 0 gene_id "ECDH10B_RS15930"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nupG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311867.2"; locus_tag "ECDH10B_RS15930"; note "incomplete; partial in the middle of a contig; missing C-terminus"; partial "true"; product "nucleoside permease NupG"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3199471 3199473 . + 0 gene_id "ECDH10B_RS15930"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nupG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311867.2"; locus_tag "ECDH10B_RS15930"; note "incomplete; partial in the middle of a contig; missing C-terminus"; partial "true"; product "nucleoside permease NupG"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 3199576 3200784 . + . gene_id "ECDH10B_RS15935"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15935"; -NC_010473.1 Protein Homology CDS 3199576 3200781 . + 0 gene_id "ECDH10B_RS15935"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_011071469.1"; locus_tag "ECDH10B_RS15935"; product "IS4-like element ISVsa5 family transposase"; protein_id "WP_001339197.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3199576 3199578 . + 0 gene_id "ECDH10B_RS15935"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_011071469.1"; locus_tag "ECDH10B_RS15935"; product "IS4-like element ISVsa5 family transposase"; protein_id "WP_001339197.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3200782 3200784 . + 0 gene_id "ECDH10B_RS15935"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_011071469.1"; locus_tag "ECDH10B_RS15935"; product "IS4-like element ISVsa5 family transposase"; protein_id "WP_001339197.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3200796 3203747 . + . gene_id "ECDH10B_RS15940"; transcript_id ""; gbkey "Gene"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS15940"; partial "true"; pseudo "true"; -NC_010473.1 Protein Homology CDS 3200796 3203744 . + 0 gene_id "ECDH10B_RS15940"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026189.1"; locus_tag "ECDH10B_RS15940"; note "incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "SslE/AcfD family lipoprotein zinc metalloprotease"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3200796 3200798 . + 0 gene_id "ECDH10B_RS15940"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026189.1"; locus_tag "ECDH10B_RS15940"; note "incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "SslE/AcfD family lipoprotein zinc metalloprotease"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3203745 3203747 . + 0 gene_id "ECDH10B_RS15940"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026189.1"; locus_tag "ECDH10B_RS15940"; note "incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "SslE/AcfD family lipoprotein zinc metalloprotease"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 3203945 3204754 . + . gene_id "ECDH10B_RS15945"; transcript_id ""; gbkey "Gene"; gene "pppA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15945"; old_locus_tag "ECDH10B_3141"; -NC_010473.1 Protein Homology CDS 3203945 3204751 . + 0 gene_id "ECDH10B_RS15945"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pppA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417446.4"; locus_tag "ECDH10B_RS15945"; product "prepilin peptidase PppA"; protein_id "WP_001333829.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3203945 3203947 . + 0 gene_id "ECDH10B_RS15945"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pppA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417446.4"; locus_tag "ECDH10B_RS15945"; product "prepilin peptidase PppA"; protein_id "WP_001333829.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3204752 3204754 . + 0 gene_id "ECDH10B_RS15945"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pppA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417446.4"; locus_tag "ECDH10B_RS15945"; product "prepilin peptidase PppA"; protein_id "WP_001333829.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3204820 3205230 . + . gene_id "ECDH10B_RS15950"; transcript_id ""; gbkey "Gene"; gene "gspS2"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15950"; old_locus_tag "ECDH10B_3142"; -NC_010473.1 Protein Homology CDS 3204820 3205227 . + 0 gene_id "ECDH10B_RS15950"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gspS2"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417445.1"; locus_tag "ECDH10B_RS15950"; product "type II secretion system pilot lipoprotein GspS-beta"; protein_id "WP_001324279.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3204820 3204822 . + 0 gene_id "ECDH10B_RS15950"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gspS2"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417445.1"; locus_tag "ECDH10B_RS15950"; product "type II secretion system pilot lipoprotein GspS-beta"; protein_id "WP_001324279.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3205228 3205230 . + 0 gene_id "ECDH10B_RS15950"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gspS2"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417445.1"; locus_tag "ECDH10B_RS15950"; product "type II secretion system pilot lipoprotein GspS-beta"; protein_id "WP_001324279.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3205248 3206243 . + . gene_id "ECDH10B_RS15955"; transcript_id ""; gbkey "Gene"; gene "gspC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15955"; old_locus_tag "ECDH10B_3143"; -NC_010473.1 Protein Homology CDS 3205248 3206240 . + 0 gene_id "ECDH10B_RS15955"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gspC"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000135077.1"; locus_tag "ECDH10B_RS15955"; product "type II secretion system protein GspC"; protein_id "WP_000135077.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3205248 3205250 . + 0 gene_id "ECDH10B_RS15955"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gspC"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000135077.1"; locus_tag "ECDH10B_RS15955"; product "type II secretion system protein GspC"; protein_id "WP_000135077.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3206241 3206243 . + 0 gene_id "ECDH10B_RS15955"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gspC"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000135077.1"; locus_tag "ECDH10B_RS15955"; product "type II secretion system protein GspC"; protein_id "WP_000135077.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3206204 3207169 . + . gene_id "ECDH10B_RS15960"; transcript_id ""; gbkey "Gene"; gene "gspL"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS15960"; old_locus_tag "ECDH10B_3144"; partial "true"; pseudo "true"; -NC_010473.1 Protein Homology CDS 3206204 3207166 . + 0 gene_id "ECDH10B_RS15960"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gspL"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000097227.1"; locus_tag "ECDH10B_RS15960"; note "incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "type II secretion system protein GspL"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3206204 3206206 . + 0 gene_id "ECDH10B_RS15960"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gspL"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000097227.1"; locus_tag "ECDH10B_RS15960"; note "incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "type II secretion system protein GspL"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3207167 3207169 . + 0 gene_id "ECDH10B_RS15960"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gspL"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000097227.1"; locus_tag "ECDH10B_RS15960"; note "incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "type II secretion system protein GspL"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 3207171 3207707 . + . gene_id "ECDH10B_RS15965"; transcript_id ""; gbkey "Gene"; gene "yghD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15965"; old_locus_tag "ECDH10B_3145"; -NC_010473.1 Protein Homology CDS 3207171 3207704 . + 0 gene_id "ECDH10B_RS15965"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yghD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417442.1"; locus_tag "ECDH10B_RS15965"; product "GspM family type II secretion system protein YghD"; protein_id "WP_000942785.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3207171 3207173 . + 0 gene_id "ECDH10B_RS15965"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yghD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417442.1"; locus_tag "ECDH10B_RS15965"; product "GspM family type II secretion system protein YghD"; protein_id "WP_000942785.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3207705 3207707 . + 0 gene_id "ECDH10B_RS15965"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yghD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417442.1"; locus_tag "ECDH10B_RS15965"; product "GspM family type II secretion system protein YghD"; protein_id "WP_000942785.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3207856 3207931 . - . gene_id "ECDH10B_RS15970"; transcript_id ""; gbkey "Gene"; gene_biotype "tRNA"; locus_tag "ECDH10B_RS15970"; old_locus_tag "ECDH10B_3146"; -NC_010473.1 tRNAscan-SE exon 3207856 3207931 . - . gene_id "ECDH10B_RS15970"; transcript_id "ECDH10B_RS15970"; anticodon "(pos:complement(3207896..3207898))"; gbkey "tRNA"; inference "COORDINATES: profile:tRNAscan-SE:2.0.6"; locus_tag "ECDH10B_RS15970"; product "tRNA-Phe"; exon_number "1"; -NC_010473.1 RefSeq gene 3208037 3208744 . - . gene_id "ECDH10B_RS15975"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15975"; old_locus_tag "ECDH10B_3147"; -NC_010473.1 Protein Homology CDS 3208040 3208744 . - 0 gene_id "ECDH10B_RS15975"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417441.1"; locus_tag "ECDH10B_RS15975"; product "DUF554 domain-containing protein"; protein_id "WP_000234514.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3208742 3208744 . - 0 gene_id "ECDH10B_RS15975"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417441.1"; locus_tag "ECDH10B_RS15975"; product "DUF554 domain-containing protein"; protein_id "WP_000234514.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3208037 3208039 . - 0 gene_id "ECDH10B_RS15975"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417441.1"; locus_tag "ECDH10B_RS15975"; product "DUF554 domain-containing protein"; protein_id "WP_000234514.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3209142 3211277 . + . gene_id "ECDH10B_RS15980"; transcript_id ""; gbkey "Gene"; gene "speC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15980"; old_locus_tag "ECDH10B_3148"; -NC_010473.1 Protein Homology CDS 3209142 3211274 . + 0 gene_id "ECDH10B_RS15980"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "speC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417440.4"; locus_tag "ECDH10B_RS15980"; product "ornithine decarboxylase"; protein_id "WP_001326492.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3209142 3209144 . + 0 gene_id "ECDH10B_RS15980"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "speC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417440.4"; locus_tag "ECDH10B_RS15980"; product "ornithine decarboxylase"; protein_id "WP_001326492.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3211275 3211277 . + 0 gene_id "ECDH10B_RS15980"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "speC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417440.4"; locus_tag "ECDH10B_RS15980"; product "ornithine decarboxylase"; protein_id "WP_001326492.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3211327 3211929 . - . gene_id "ECDH10B_RS15985"; transcript_id ""; gbkey "Gene"; gene "nupG"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS15985"; partial "true"; pseudo "true"; -NC_010473.1 Protein Homology CDS 3211330 3211929 . - 0 gene_id "ECDH10B_RS15985"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nupG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311867.2"; locus_tag "ECDH10B_RS15985"; note "incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "nucleoside permease NupG"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3211927 3211929 . - 0 gene_id "ECDH10B_RS15985"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nupG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311867.2"; locus_tag "ECDH10B_RS15985"; note "incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "nucleoside permease NupG"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3211327 3211329 . - 0 gene_id "ECDH10B_RS15985"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nupG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311867.2"; locus_tag "ECDH10B_RS15985"; note "incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "nucleoside permease NupG"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 3212036 3213244 . + . gene_id "ECDH10B_RS15990"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS15990"; -NC_010473.1 Protein Homology CDS 3212036 3213241 . + 0 gene_id "ECDH10B_RS15990"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001339197.1"; locus_tag "ECDH10B_RS15990"; product "IS4-like element ISVsa5 family transposase"; protein_id "WP_001352368.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3212036 3212038 . + 0 gene_id "ECDH10B_RS15990"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001339197.1"; locus_tag "ECDH10B_RS15990"; product "IS4-like element ISVsa5 family transposase"; protein_id "WP_001352368.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3213242 3213244 . + 0 gene_id "ECDH10B_RS15990"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001339197.1"; locus_tag "ECDH10B_RS15990"; product "IS4-like element ISVsa5 family transposase"; protein_id "WP_001352368.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3213257 3214879 . - . gene_id "ECDH10B_RS15995"; transcript_id ""; gbkey "Gene"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS15995"; partial "true"; pseudo "true"; -NC_010473.1 Protein Homology CDS 3213260 3214879 . - 0 gene_id "ECDH10B_RS15995"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026189.1"; locus_tag "ECDH10B_RS15995"; note "incomplete; partial in the middle of a contig; missing C-terminus"; partial "true"; product "DUF4092 domain-containing protein"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3214877 3214879 . - 0 gene_id "ECDH10B_RS15995"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026189.1"; locus_tag "ECDH10B_RS15995"; note "incomplete; partial in the middle of a contig; missing C-terminus"; partial "true"; product "DUF4092 domain-containing protein"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3213257 3213259 . - 0 gene_id "ECDH10B_RS15995"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026189.1"; locus_tag "ECDH10B_RS15995"; note "incomplete; partial in the middle of a contig; missing C-terminus"; partial "true"; product "DUF4092 domain-containing protein"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 3215364 3217046 . - . gene_id "ECDH10B_RS16005"; transcript_id ""; gbkey "Gene"; gene "glcA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16005"; old_locus_tag "ECDH10B_3151"; -NC_010473.1 Protein Homology CDS 3215367 3217046 . - 0 gene_id "ECDH10B_RS16005"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "glcA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417449.1"; locus_tag "ECDH10B_RS16005"; product "glycolate permease GlcA"; protein_id "WP_000259302.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3217044 3217046 . - 0 gene_id "ECDH10B_RS16005"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "glcA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417449.1"; locus_tag "ECDH10B_RS16005"; product "glycolate permease GlcA"; protein_id "WP_000259302.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3215364 3215366 . - 0 gene_id "ECDH10B_RS16005"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "glcA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417449.1"; locus_tag "ECDH10B_RS16005"; product "glycolate permease GlcA"; protein_id "WP_000259302.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3217401 3219572 . - . gene_id "ECDH10B_RS16010"; transcript_id ""; gbkey "Gene"; gene "glcB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16010"; old_locus_tag "ECDH10B_3152"; -NC_010473.1 Protein Homology CDS 3217404 3219572 . - 0 gene_id "ECDH10B_RS16010"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "glcB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417450.1"; locus_tag "ECDH10B_RS16010"; product "malate synthase G"; protein_id "WP_000084131.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3219570 3219572 . - 0 gene_id "ECDH10B_RS16010"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "glcB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417450.1"; locus_tag "ECDH10B_RS16010"; product "malate synthase G"; protein_id "WP_000084131.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3217401 3217403 . - 0 gene_id "ECDH10B_RS16010"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "glcB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417450.1"; locus_tag "ECDH10B_RS16010"; product "malate synthase G"; protein_id "WP_000084131.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3219594 3219998 . - . gene_id "ECDH10B_RS16015"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16015"; old_locus_tag "ECDH10B_3153"; -NC_010473.1 Protein Homology CDS 3219597 3219998 . - 0 gene_id "ECDH10B_RS16015"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417451.1"; locus_tag "ECDH10B_RS16015"; product "protein GlcG"; protein_id "WP_000853256.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3219996 3219998 . - 0 gene_id "ECDH10B_RS16015"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417451.1"; locus_tag "ECDH10B_RS16015"; product "protein GlcG"; protein_id "WP_000853256.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3219594 3219596 . - 0 gene_id "ECDH10B_RS16015"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417451.1"; locus_tag "ECDH10B_RS16015"; product "protein GlcG"; protein_id "WP_000853256.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3220003 3221226 . - . gene_id "ECDH10B_RS16020"; transcript_id ""; gbkey "Gene"; gene "glcF"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16020"; old_locus_tag "ECDH10B_3154"; -NC_010473.1 Protein Homology CDS 3220006 3221226 . - 0 gene_id "ECDH10B_RS16020"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "glcF"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026190.1"; locus_tag "ECDH10B_RS16020"; product "glycolate oxidase subunit GlcF"; protein_id "WP_001194661.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3221224 3221226 . - 0 gene_id "ECDH10B_RS16020"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "glcF"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026190.1"; locus_tag "ECDH10B_RS16020"; product "glycolate oxidase subunit GlcF"; protein_id "WP_001194661.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3220003 3220005 . - 0 gene_id "ECDH10B_RS16020"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "glcF"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026190.1"; locus_tag "ECDH10B_RS16020"; product "glycolate oxidase subunit GlcF"; protein_id "WP_001194661.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3221237 3222289 . - . gene_id "ECDH10B_RS16025"; transcript_id ""; gbkey "Gene"; gene "glcE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16025"; old_locus_tag "ECDH10B_3155"; -NC_010473.1 Protein Homology CDS 3221240 3222289 . - 0 gene_id "ECDH10B_RS16025"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "glcE"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026191.1"; locus_tag "ECDH10B_RS16025"; product "glycolate oxidase subunit GlcE"; protein_id "WP_000943100.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3222287 3222289 . - 0 gene_id "ECDH10B_RS16025"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "glcE"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026191.1"; locus_tag "ECDH10B_RS16025"; product "glycolate oxidase subunit GlcE"; protein_id "WP_000943100.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3221237 3221239 . - 0 gene_id "ECDH10B_RS16025"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "glcE"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026191.1"; locus_tag "ECDH10B_RS16025"; product "glycolate oxidase subunit GlcE"; protein_id "WP_000943100.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3222289 3223788 . - . gene_id "ECDH10B_RS16030"; transcript_id ""; gbkey "Gene"; gene "glcD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16030"; old_locus_tag "ECDH10B_3156"; -NC_010473.1 Protein Homology CDS 3222292 3223788 . - 0 gene_id "ECDH10B_RS16030"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "glcD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417453.1"; locus_tag "ECDH10B_RS16030"; product "glycolate oxidase subunit GlcD"; protein_id "WP_000026117.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3223786 3223788 . - 0 gene_id "ECDH10B_RS16030"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "glcD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417453.1"; locus_tag "ECDH10B_RS16030"; product "glycolate oxidase subunit GlcD"; protein_id "WP_000026117.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3222289 3222291 . - 0 gene_id "ECDH10B_RS16030"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "glcD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417453.1"; locus_tag "ECDH10B_RS16030"; product "glycolate oxidase subunit GlcD"; protein_id "WP_000026117.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3224039 3224803 . + . gene_id "ECDH10B_RS16035"; transcript_id ""; gbkey "Gene"; gene "glcC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16035"; old_locus_tag "ECDH10B_3157"; -NC_010473.1 Protein Homology CDS 3224039 3224800 . + 0 gene_id "ECDH10B_RS16035"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "glcC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417454.1"; locus_tag "ECDH10B_RS16035"; product "transcriptional regulator GlcC"; protein_id "WP_001297764.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3224039 3224041 . + 0 gene_id "ECDH10B_RS16035"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "glcC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417454.1"; locus_tag "ECDH10B_RS16035"; product "transcriptional regulator GlcC"; protein_id "WP_001297764.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3224801 3224803 . + 0 gene_id "ECDH10B_RS16035"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "glcC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417454.1"; locus_tag "ECDH10B_RS16035"; product "transcriptional regulator GlcC"; protein_id "WP_001297764.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3224810 3225946 . - . gene_id "ECDH10B_RS16040"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16040"; old_locus_tag "ECDH10B_3158"; -NC_010473.1 Protein Homology CDS 3224813 3225946 . - 0 gene_id "ECDH10B_RS16040"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000626848.1"; locus_tag "ECDH10B_RS16040"; product "hypothetical protein"; protein_id "WP_000626849.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3225944 3225946 . - 0 gene_id "ECDH10B_RS16040"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000626848.1"; locus_tag "ECDH10B_RS16040"; product "hypothetical protein"; protein_id "WP_000626849.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3224810 3224812 . - 0 gene_id "ECDH10B_RS16040"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000626848.1"; locus_tag "ECDH10B_RS16040"; product "hypothetical protein"; protein_id "WP_000626849.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3225945 3226961 . + . gene_id "ECDH10B_RS16045"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16045"; old_locus_tag "ECDH10B_3159"; -NC_010473.1 Protein Homology CDS 3225945 3226958 . + 0 gene_id "ECDH10B_RS16045"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414793.1"; locus_tag "ECDH10B_RS16045"; product "IS5-like element IS5 family transposase"; protein_id "WP_010723085.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3225945 3225947 . + 0 gene_id "ECDH10B_RS16045"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414793.1"; locus_tag "ECDH10B_RS16045"; product "IS5-like element IS5 family transposase"; protein_id "WP_010723085.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3226959 3226961 . + 0 gene_id "ECDH10B_RS16045"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414793.1"; locus_tag "ECDH10B_RS16045"; product "IS5-like element IS5 family transposase"; protein_id "WP_010723085.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3227108 3228175 . - . gene_id "ECDH10B_RS16050"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16050"; old_locus_tag "ECDH10B_3160"; -NC_010473.1 Protein Homology CDS 3227111 3228175 . - 0 gene_id "ECDH10B_RS16050"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026192.1"; locus_tag "ECDH10B_RS16050"; product "lipopolysaccharide biosynthesis protein"; protein_id "WP_000896895.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3228173 3228175 . - 0 gene_id "ECDH10B_RS16050"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026192.1"; locus_tag "ECDH10B_RS16050"; product "lipopolysaccharide biosynthesis protein"; protein_id "WP_000896895.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3227108 3227110 . - 0 gene_id "ECDH10B_RS16050"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026192.1"; locus_tag "ECDH10B_RS16050"; product "lipopolysaccharide biosynthesis protein"; protein_id "WP_000896895.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3228221 3228979 . - . gene_id "ECDH10B_RS16055"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16055"; old_locus_tag "ECDH10B_3161"; -NC_010473.1 Protein Homology CDS 3228224 3228979 . - 0 gene_id "ECDH10B_RS16055"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417458.1"; locus_tag "ECDH10B_RS16055"; product "ATP-binding protein"; protein_id "WP_000339531.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3228977 3228979 . - 0 gene_id "ECDH10B_RS16055"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417458.1"; locus_tag "ECDH10B_RS16055"; product "ATP-binding protein"; protein_id "WP_000339531.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3228221 3228223 . - 0 gene_id "ECDH10B_RS16055"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417458.1"; locus_tag "ECDH10B_RS16055"; product "ATP-binding protein"; protein_id "WP_000339531.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3229011 3229724 . - . gene_id "ECDH10B_RS16060"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16060"; old_locus_tag "ECDH10B_3162"; -NC_010473.1 Protein Homology CDS 3229014 3229724 . - 0 gene_id "ECDH10B_RS16060"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417459.1"; locus_tag "ECDH10B_RS16060"; product "thymidylate kinase"; protein_id "WP_001076243.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3229722 3229724 . - 0 gene_id "ECDH10B_RS16060"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417459.1"; locus_tag "ECDH10B_RS16060"; product "thymidylate kinase"; protein_id "WP_001076243.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3229011 3229013 . - 0 gene_id "ECDH10B_RS16060"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417459.1"; locus_tag "ECDH10B_RS16060"; product "thymidylate kinase"; protein_id "WP_001076243.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3229898 3230590 . + . gene_id "ECDH10B_RS16065"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16065"; old_locus_tag "ECDH10B_3163"; -NC_010473.1 Protein Homology CDS 3229898 3230587 . + 0 gene_id "ECDH10B_RS16065"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417460.1"; locus_tag "ECDH10B_RS16065"; product "thymidylate kinase"; protein_id "WP_001190781.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3229898 3229900 . + 0 gene_id "ECDH10B_RS16065"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417460.1"; locus_tag "ECDH10B_RS16065"; product "thymidylate kinase"; protein_id "WP_001190781.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3230588 3230590 . + 0 gene_id "ECDH10B_RS16065"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417460.1"; locus_tag "ECDH10B_RS16065"; product "thymidylate kinase"; protein_id "WP_001190781.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3230639 3232138 . - . gene_id "ECDH10B_RS16070"; transcript_id ""; gbkey "Gene"; gene "pitB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16070"; old_locus_tag "ECDH10B_3164"; -NC_010473.1 Protein Homology CDS 3230642 3232138 . - 0 gene_id "ECDH10B_RS16070"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pitB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417461.1"; locus_tag "ECDH10B_RS16070"; product "inorganic phosphate transporter PitB"; protein_id "WP_000933250.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3232136 3232138 . - 0 gene_id "ECDH10B_RS16070"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pitB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417461.1"; locus_tag "ECDH10B_RS16070"; product "inorganic phosphate transporter PitB"; protein_id "WP_000933250.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3230639 3230641 . - 0 gene_id "ECDH10B_RS16070"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pitB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417461.1"; locus_tag "ECDH10B_RS16070"; product "inorganic phosphate transporter PitB"; protein_id "WP_000933250.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3232430 3234289 . - . gene_id "ECDH10B_RS16075"; transcript_id ""; gbkey "Gene"; gene "gss"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16075"; old_locus_tag "ECDH10B_3165"; -NC_010473.1 Protein Homology CDS 3232433 3234289 . - 0 gene_id "ECDH10B_RS16075"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gss"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417462.1"; locus_tag "ECDH10B_RS16075"; product "bifunctional glutathionylspermidine amidase/synthase"; protein_id "WP_001297309.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3234287 3234289 . - 0 gene_id "ECDH10B_RS16075"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gss"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417462.1"; locus_tag "ECDH10B_RS16075"; product "bifunctional glutathionylspermidine amidase/synthase"; protein_id "WP_001297309.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3232430 3232432 . - 0 gene_id "ECDH10B_RS16075"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gss"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417462.1"; locus_tag "ECDH10B_RS16075"; product "bifunctional glutathionylspermidine amidase/synthase"; protein_id "WP_001297309.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3234494 3235360 . + . gene_id "ECDH10B_RS16080"; transcript_id ""; gbkey "Gene"; gene "yghU"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16080"; old_locus_tag "ECDH10B_3166"; -NC_010473.1 Protein Homology CDS 3234494 3235357 . + 0 gene_id "ECDH10B_RS16080"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yghU"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311901.2"; locus_tag "ECDH10B_RS16080"; product "glutathione-dependent disulfide-bond oxidoreductase"; protein_id "WP_001295515.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3234494 3234496 . + 0 gene_id "ECDH10B_RS16080"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yghU"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311901.2"; locus_tag "ECDH10B_RS16080"; product "glutathione-dependent disulfide-bond oxidoreductase"; protein_id "WP_001295515.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3235358 3235360 . + 0 gene_id "ECDH10B_RS16080"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yghU"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311901.2"; locus_tag "ECDH10B_RS16080"; product "glutathione-dependent disulfide-bond oxidoreductase"; protein_id "WP_001295515.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3235483 3235731 . - . gene_id "ECDH10B_RS16085"; transcript_id ""; gbkey "Gene"; gene "hybG"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16085"; old_locus_tag "ECDH10B_3167"; -NC_010473.1 Protein Homology CDS 3235486 3235731 . - 0 gene_id "ECDH10B_RS16085"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hybG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311902.1"; locus_tag "ECDH10B_RS16085"; product "hydrogenase maturation factor HybG"; protein_id "WP_000334896.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3235729 3235731 . - 0 gene_id "ECDH10B_RS16085"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hybG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311902.1"; locus_tag "ECDH10B_RS16085"; product "hydrogenase maturation factor HybG"; protein_id "WP_000334896.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3235483 3235485 . - 0 gene_id "ECDH10B_RS16085"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hybG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311902.1"; locus_tag "ECDH10B_RS16085"; product "hydrogenase maturation factor HybG"; protein_id "WP_000334896.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3235744 3236085 . - . gene_id "ECDH10B_RS16090"; transcript_id ""; gbkey "Gene"; gene "hypA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16090"; old_locus_tag "ECDH10B_3168"; -NC_010473.1 Protein Homology CDS 3235747 3236085 . - 0 gene_id "ECDH10B_RS16090"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hypA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417465.1"; locus_tag "ECDH10B_RS16090"; product "hydrogenase maturation nickel metallochaperone HypA"; protein_id "WP_000544953.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3236083 3236085 . - 0 gene_id "ECDH10B_RS16090"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hypA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417465.1"; locus_tag "ECDH10B_RS16090"; product "hydrogenase maturation nickel metallochaperone HypA"; protein_id "WP_000544953.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3235744 3235746 . - 0 gene_id "ECDH10B_RS16090"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hypA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417465.1"; locus_tag "ECDH10B_RS16090"; product "hydrogenase maturation nickel metallochaperone HypA"; protein_id "WP_000544953.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3236078 3236566 . - . gene_id "ECDH10B_RS16095"; transcript_id ""; gbkey "Gene"; gene "hybE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16095"; old_locus_tag "ECDH10B_3169"; -NC_010473.1 Protein Homology CDS 3236081 3236566 . - 0 gene_id "ECDH10B_RS16095"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hybE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417466.1"; locus_tag "ECDH10B_RS16095"; product "hydrogenase-2 assembly chaperone"; protein_id "WP_000134014.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3236564 3236566 . - 0 gene_id "ECDH10B_RS16095"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hybE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417466.1"; locus_tag "ECDH10B_RS16095"; product "hydrogenase-2 assembly chaperone"; protein_id "WP_000134014.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3236078 3236080 . - 0 gene_id "ECDH10B_RS16095"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hybE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417466.1"; locus_tag "ECDH10B_RS16095"; product "hydrogenase-2 assembly chaperone"; protein_id "WP_000134014.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3236559 3237053 . - . gene_id "ECDH10B_RS16100"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16100"; old_locus_tag "ECDH10B_3170"; -NC_010473.1 Protein Homology CDS 3236562 3237053 . - 0 gene_id "ECDH10B_RS16100"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417467.1"; locus_tag "ECDH10B_RS16100"; product "HyaD/HybD family hydrogenase maturation endopeptidase"; protein_id "WP_001221939.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3237051 3237053 . - 0 gene_id "ECDH10B_RS16100"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417467.1"; locus_tag "ECDH10B_RS16100"; product "HyaD/HybD family hydrogenase maturation endopeptidase"; protein_id "WP_001221939.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3236559 3236561 . - 0 gene_id "ECDH10B_RS16100"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417467.1"; locus_tag "ECDH10B_RS16100"; product "HyaD/HybD family hydrogenase maturation endopeptidase"; protein_id "WP_001221939.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3237053 3238756 . - . gene_id "ECDH10B_RS16105"; transcript_id ""; gbkey "Gene"; gene "hybC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16105"; old_locus_tag "ECDH10B_3171"; -NC_010473.1 Protein Homology CDS 3237056 3238756 . - 0 gene_id "ECDH10B_RS16105"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hybC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311906.1"; locus_tag "ECDH10B_RS16105"; product "hydrogenase 2 large subunit"; protein_id "WP_000083065.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3238754 3238756 . - 0 gene_id "ECDH10B_RS16105"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hybC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311906.1"; locus_tag "ECDH10B_RS16105"; product "hydrogenase 2 large subunit"; protein_id "WP_000083065.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3237053 3237055 . - 0 gene_id "ECDH10B_RS16105"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hybC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311906.1"; locus_tag "ECDH10B_RS16105"; product "hydrogenase 2 large subunit"; protein_id "WP_000083065.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3238753 3239931 . - . gene_id "ECDH10B_RS16110"; transcript_id ""; gbkey "Gene"; gene "hybB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16110"; old_locus_tag "ECDH10B_3172"; -NC_010473.1 Protein Homology CDS 3238756 3239931 . - 0 gene_id "ECDH10B_RS16110"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hybB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417469.1"; locus_tag "ECDH10B_RS16110"; product "Ni/Fe-hydrogenase cytochrome b subunit"; protein_id "WP_000017703.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3239929 3239931 . - 0 gene_id "ECDH10B_RS16110"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hybB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417469.1"; locus_tag "ECDH10B_RS16110"; product "Ni/Fe-hydrogenase cytochrome b subunit"; protein_id "WP_000017703.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3238753 3238755 . - 0 gene_id "ECDH10B_RS16110"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hybB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417469.1"; locus_tag "ECDH10B_RS16110"; product "Ni/Fe-hydrogenase cytochrome b subunit"; protein_id "WP_000017703.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3239921 3240907 . - . gene_id "ECDH10B_RS16115"; transcript_id ""; gbkey "Gene"; gene "hybA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16115"; old_locus_tag "ECDH10B_3173"; -NC_010473.1 Protein Homology CDS 3239924 3240907 . - 0 gene_id "ECDH10B_RS16115"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hybA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311908.1"; locus_tag "ECDH10B_RS16115"; product "hydrogenase 2 operon protein HybA"; protein_id "WP_001081870.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3240905 3240907 . - 0 gene_id "ECDH10B_RS16115"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hybA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311908.1"; locus_tag "ECDH10B_RS16115"; product "hydrogenase 2 operon protein HybA"; protein_id "WP_001081870.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3239921 3239923 . - 0 gene_id "ECDH10B_RS16115"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hybA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311908.1"; locus_tag "ECDH10B_RS16115"; product "hydrogenase 2 operon protein HybA"; protein_id "WP_001081870.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3240910 3242028 . - . gene_id "ECDH10B_RS16120"; transcript_id ""; gbkey "Gene"; gene "hybO"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16120"; old_locus_tag "ECDH10B_3174"; -NC_010473.1 Protein Homology CDS 3240913 3242028 . - 0 gene_id "ECDH10B_RS16120"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hybO"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311909.1"; locus_tag "ECDH10B_RS16120"; product "hydrogenase 2 small subunit"; protein_id "WP_000145410.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3242026 3242028 . - 0 gene_id "ECDH10B_RS16120"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hybO"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311909.1"; locus_tag "ECDH10B_RS16120"; product "hydrogenase 2 small subunit"; protein_id "WP_000145410.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3240910 3240912 . - 0 gene_id "ECDH10B_RS16120"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hybO"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311909.1"; locus_tag "ECDH10B_RS16120"; product "hydrogenase 2 small subunit"; protein_id "WP_000145410.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3242217 3242504 . - . gene_id "ECDH10B_RS16130"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16130"; old_locus_tag "ECDH10B_3175"; -NC_010473.1 Protein Homology CDS 3242220 3242504 . - 0 gene_id "ECDH10B_RS16130"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311910.1"; locus_tag "ECDH10B_RS16130"; product "DUF2623 domain-containing protein"; protein_id "WP_001059136.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3242502 3242504 . - 0 gene_id "ECDH10B_RS16130"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311910.1"; locus_tag "ECDH10B_RS16130"; product "DUF2623 domain-containing protein"; protein_id "WP_001059136.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3242217 3242219 . - 0 gene_id "ECDH10B_RS16130"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311910.1"; locus_tag "ECDH10B_RS16130"; product "DUF2623 domain-containing protein"; protein_id "WP_001059136.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3242623 3243507 . - . gene_id "ECDH10B_RS16135"; transcript_id ""; gbkey "Gene"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS16135"; old_locus_tag "ECDH10B_4562"; pseudo "true"; -NC_010473.1 Protein Homology CDS 3242626 3243507 . - 0 gene_id "ECDH10B_RS16135"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311911.3"; locus_tag "ECDH10B_RS16135"; note "frameshifted"; product "dienelactone hydrolase family protein"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3243505 3243507 . - 0 gene_id "ECDH10B_RS16135"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311911.3"; locus_tag "ECDH10B_RS16135"; note "frameshifted"; product "dienelactone hydrolase family protein"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3242623 3242625 . - 0 gene_id "ECDH10B_RS16135"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311911.3"; locus_tag "ECDH10B_RS16135"; note "frameshifted"; product "dienelactone hydrolase family protein"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 3243664 3244704 . + . gene_id "ECDH10B_RS16140"; transcript_id ""; gbkey "Gene"; gene "gpr"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16140"; old_locus_tag "ECDH10B_3178"; -NC_010473.1 Protein Homology CDS 3243664 3244701 . + 0 gene_id "ECDH10B_RS16140"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gpr"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417474.1"; locus_tag "ECDH10B_RS16140"; product "L-glyceraldehyde 3-phosphate reductase"; protein_id "WP_000262172.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3243664 3243666 . + 0 gene_id "ECDH10B_RS16140"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gpr"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417474.1"; locus_tag "ECDH10B_RS16140"; product "L-glyceraldehyde 3-phosphate reductase"; protein_id "WP_000262172.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3244702 3244704 . + 0 gene_id "ECDH10B_RS16140"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gpr"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417474.1"; locus_tag "ECDH10B_RS16140"; product "L-glyceraldehyde 3-phosphate reductase"; protein_id "WP_000262172.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3244744 3245238 . - . gene_id "ECDH10B_RS16145"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16145"; old_locus_tag "ECDH10B_3179"; -NC_010473.1 Protein Homology CDS 3244747 3245238 . - 0 gene_id "ECDH10B_RS16145"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311913.1"; locus_tag "ECDH10B_RS16145"; product "TIGR00645 family protein"; protein_id "WP_000439331.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3245236 3245238 . - 0 gene_id "ECDH10B_RS16145"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311913.1"; locus_tag "ECDH10B_RS16145"; product "TIGR00645 family protein"; protein_id "WP_000439331.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3244744 3244746 . - 0 gene_id "ECDH10B_RS16145"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311913.1"; locus_tag "ECDH10B_RS16145"; product "TIGR00645 family protein"; protein_id "WP_000439331.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3245429 3246313 . + . gene_id "ECDH10B_RS16150"; transcript_id ""; gbkey "Gene"; gene "yghA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16150"; old_locus_tag "ECDH10B_3180"; -NC_010473.1 Protein Homology CDS 3245429 3246310 . + 0 gene_id "ECDH10B_RS16150"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yghA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311914.1"; locus_tag "ECDH10B_RS16150"; product "NADP(+)-dependent aldehyde reductase"; protein_id "WP_000018760.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3245429 3245431 . + 0 gene_id "ECDH10B_RS16150"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yghA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311914.1"; locus_tag "ECDH10B_RS16150"; product "NADP(+)-dependent aldehyde reductase"; protein_id "WP_000018760.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3246311 3246313 . + 0 gene_id "ECDH10B_RS16150"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yghA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311914.1"; locus_tag "ECDH10B_RS16150"; product "NADP(+)-dependent aldehyde reductase"; protein_id "WP_000018760.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3246585 3247010 . - . gene_id "ECDH10B_RS16155"; transcript_id ""; gbkey "Gene"; gene "exbD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16155"; old_locus_tag "ECDH10B_3181"; -NC_010473.1 Protein Homology CDS 3246588 3247010 . - 0 gene_id "ECDH10B_RS16155"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "exbD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311916.1"; locus_tag "ECDH10B_RS16155"; product "TonB system transport protein ExbD"; protein_id "WP_001240712.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3247008 3247010 . - 0 gene_id "ECDH10B_RS16155"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "exbD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311916.1"; locus_tag "ECDH10B_RS16155"; product "TonB system transport protein ExbD"; protein_id "WP_001240712.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3246585 3246587 . - 0 gene_id "ECDH10B_RS16155"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "exbD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311916.1"; locus_tag "ECDH10B_RS16155"; product "TonB system transport protein ExbD"; protein_id "WP_001240712.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3247017 3247751 . - . gene_id "ECDH10B_RS16160"; transcript_id ""; gbkey "Gene"; gene "exbB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16160"; old_locus_tag "ECDH10B_3182"; -NC_010473.1 Protein Homology CDS 3247020 3247751 . - 0 gene_id "ECDH10B_RS16160"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "exbB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311917.1"; locus_tag "ECDH10B_RS16160"; product "tol-pal system-associated acyl-CoA thioesterase"; protein_id "WP_000527844.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3247749 3247751 . - 0 gene_id "ECDH10B_RS16160"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "exbB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311917.1"; locus_tag "ECDH10B_RS16160"; product "tol-pal system-associated acyl-CoA thioesterase"; protein_id "WP_000527844.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3247017 3247019 . - 0 gene_id "ECDH10B_RS16160"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "exbB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311917.1"; locus_tag "ECDH10B_RS16160"; product "tol-pal system-associated acyl-CoA thioesterase"; protein_id "WP_000527844.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3248003 3249190 . + . gene_id "ECDH10B_RS16170"; transcript_id ""; gbkey "Gene"; gene "metC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16170"; old_locus_tag "ECDH10B_3183"; -NC_010473.1 Protein Homology CDS 3248003 3249187 . + 0 gene_id "ECDH10B_RS16170"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "metC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417481.1"; locus_tag "ECDH10B_RS16170"; product "cystathionine beta-lyase"; protein_id "WP_001301079.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3248003 3248005 . + 0 gene_id "ECDH10B_RS16170"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "metC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417481.1"; locus_tag "ECDH10B_RS16170"; product "cystathionine beta-lyase"; protein_id "WP_001301079.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3249188 3249190 . + 0 gene_id "ECDH10B_RS16170"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "metC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417481.1"; locus_tag "ECDH10B_RS16170"; product "cystathionine beta-lyase"; protein_id "WP_001301079.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3249330 3249989 . + . gene_id "ECDH10B_RS16175"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16175"; old_locus_tag "ECDH10B_3184"; -NC_010473.1 Protein Homology CDS 3249330 3249986 . + 0 gene_id "ECDH10B_RS16175"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311920.1"; locus_tag "ECDH10B_RS16175"; product "DedA family protein"; protein_id "WP_000268419.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3249330 3249332 . + 0 gene_id "ECDH10B_RS16175"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311920.1"; locus_tag "ECDH10B_RS16175"; product "DedA family protein"; protein_id "WP_000268419.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3249987 3249989 . + 0 gene_id "ECDH10B_RS16175"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311920.1"; locus_tag "ECDH10B_RS16175"; product "DedA family protein"; protein_id "WP_000268419.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3250029 3250985 . - . gene_id "ECDH10B_RS16180"; transcript_id ""; gbkey "Gene"; gene "yqhC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16180"; old_locus_tag "ECDH10B_3185"; -NC_010473.1 Protein Homology CDS 3250032 3250985 . - 0 gene_id "ECDH10B_RS16180"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yqhC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417483.2"; locus_tag "ECDH10B_RS16180"; product "DNA-binding transcriptional regulator YqhC"; protein_id "WP_001350547.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3250983 3250985 . - 0 gene_id "ECDH10B_RS16180"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yqhC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417483.2"; locus_tag "ECDH10B_RS16180"; product "DNA-binding transcriptional regulator YqhC"; protein_id "WP_001350547.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3250029 3250031 . - 0 gene_id "ECDH10B_RS16180"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yqhC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417483.2"; locus_tag "ECDH10B_RS16180"; product "DNA-binding transcriptional regulator YqhC"; protein_id "WP_001350547.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3251122 3252285 . + . gene_id "ECDH10B_RS16190"; transcript_id ""; gbkey "Gene"; gene "yqhD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16190"; old_locus_tag "ECDH10B_3186"; -NC_010473.1 Protein Homology CDS 3251122 3252282 . + 0 gene_id "ECDH10B_RS16190"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yqhD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417484.1"; locus_tag "ECDH10B_RS16190"; product "alcohol dehydrogenase"; protein_id "WP_001058802.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3251122 3251124 . + 0 gene_id "ECDH10B_RS16190"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yqhD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417484.1"; locus_tag "ECDH10B_RS16190"; product "alcohol dehydrogenase"; protein_id "WP_001058802.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3252283 3252285 . + 0 gene_id "ECDH10B_RS16190"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yqhD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417484.1"; locus_tag "ECDH10B_RS16190"; product "alcohol dehydrogenase"; protein_id "WP_001058802.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3252390 3253217 . + . gene_id "ECDH10B_RS16195"; transcript_id ""; gbkey "Gene"; gene "dkgA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16195"; old_locus_tag "ECDH10B_3187"; -NC_010473.1 Protein Homology CDS 3252390 3253214 . + 0 gene_id "ECDH10B_RS16195"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dkgA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417485.4"; locus_tag "ECDH10B_RS16195"; product "2,5-didehydrogluconate reductase DkgA"; protein_id "WP_000013149.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3252390 3252392 . + 0 gene_id "ECDH10B_RS16195"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dkgA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417485.4"; locus_tag "ECDH10B_RS16195"; product "2,5-didehydrogluconate reductase DkgA"; protein_id "WP_000013149.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3253215 3253217 . + 0 gene_id "ECDH10B_RS16195"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dkgA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417485.4"; locus_tag "ECDH10B_RS16195"; product "2,5-didehydrogluconate reductase DkgA"; protein_id "WP_000013149.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3253417 3254343 . + . gene_id "ECDH10B_RS16200"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16200"; old_locus_tag "ECDH10B_3188"; -NC_010473.1 Protein Homology CDS 3253417 3254340 . + 0 gene_id "ECDH10B_RS16200"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026195.1"; locus_tag "ECDH10B_RS16200"; product "YbjP/YqhG family protein"; protein_id "WP_000691619.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3253417 3253419 . + 0 gene_id "ECDH10B_RS16200"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026195.1"; locus_tag "ECDH10B_RS16200"; product "YbjP/YqhG family protein"; protein_id "WP_000691619.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3254341 3254343 . + 0 gene_id "ECDH10B_RS16200"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026195.1"; locus_tag "ECDH10B_RS16200"; product "YbjP/YqhG family protein"; protein_id "WP_000691619.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3254394 3254651 . + . gene_id "ECDH10B_RS16205"; transcript_id ""; gbkey "Gene"; gene "yqhH"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16205"; old_locus_tag "ECDH10B_3189"; -NC_010473.1 Protein Homology CDS 3254394 3254648 . + 0 gene_id "ECDH10B_RS16205"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yqhH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417487.1"; locus_tag "ECDH10B_RS16205"; product "lipoprotein YqhH"; protein_id "WP_000848528.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3254394 3254396 . + 0 gene_id "ECDH10B_RS16205"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yqhH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417487.1"; locus_tag "ECDH10B_RS16205"; product "lipoprotein YqhH"; protein_id "WP_000848528.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3254649 3254651 . + 0 gene_id "ECDH10B_RS16205"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yqhH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417487.1"; locus_tag "ECDH10B_RS16205"; product "lipoprotein YqhH"; protein_id "WP_000848528.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3254694 3256913 . - . gene_id "ECDH10B_RS16210"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16210"; old_locus_tag "ECDH10B_3190"; -NC_010473.1 Protein Homology CDS 3254697 3256913 . - 0 gene_id "ECDH10B_RS16210"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026196.1"; locus_tag "ECDH10B_RS16210"; product "YgiQ family radical SAM protein"; protein_id "WP_000095187.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3256911 3256913 . - 0 gene_id "ECDH10B_RS16210"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026196.1"; locus_tag "ECDH10B_RS16210"; product "YgiQ family radical SAM protein"; protein_id "WP_000095187.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3254694 3254696 . - 0 gene_id "ECDH10B_RS16210"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026196.1"; locus_tag "ECDH10B_RS16210"; product "YgiQ family radical SAM protein"; protein_id "WP_000095187.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3257024 3258436 . - . gene_id "ECDH10B_RS16215"; transcript_id ""; gbkey "Gene"; gene "ftsP"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16215"; old_locus_tag "ECDH10B_3191"; -NC_010473.1 Protein Homology CDS 3257027 3258436 . - 0 gene_id "ECDH10B_RS16215"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ftsP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417489.1"; locus_tag "ECDH10B_RS16215"; product "cell division protein FtsP"; protein_id "WP_000059388.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3258434 3258436 . - 0 gene_id "ECDH10B_RS16215"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ftsP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417489.1"; locus_tag "ECDH10B_RS16215"; product "cell division protein FtsP"; protein_id "WP_000059388.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3257024 3257026 . - 0 gene_id "ECDH10B_RS16215"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ftsP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417489.1"; locus_tag "ECDH10B_RS16215"; product "cell division protein FtsP"; protein_id "WP_000059388.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3258511 3259248 . - . gene_id "ECDH10B_RS16220"; transcript_id ""; gbkey "Gene"; gene "plsC"; gene_biotype "protein_coding"; gene_synonym "parF"; locus_tag "ECDH10B_RS16220"; old_locus_tag "ECDH10B_3192"; -NC_010473.1 Protein Homology CDS 3258514 3259248 . - 0 gene_id "ECDH10B_RS16220"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "plsC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417490.1"; locus_tag "ECDH10B_RS16220"; product "1-acylglycerol-3-phosphate O-acyltransferase"; protein_id "WP_000965722.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3259246 3259248 . - 0 gene_id "ECDH10B_RS16220"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "plsC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417490.1"; locus_tag "ECDH10B_RS16220"; product "1-acylglycerol-3-phosphate O-acyltransferase"; protein_id "WP_000965722.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3258511 3258513 . - 0 gene_id "ECDH10B_RS16220"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "plsC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417490.1"; locus_tag "ECDH10B_RS16220"; product "1-acylglycerol-3-phosphate O-acyltransferase"; protein_id "WP_000965722.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3259482 3261740 . - . gene_id "ECDH10B_RS16225"; transcript_id ""; gbkey "Gene"; gene "parC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16225"; old_locus_tag "ECDH10B_3193"; -NC_010473.1 Protein Homology CDS 3259485 3261740 . - 0 gene_id "ECDH10B_RS16225"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "parC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311930.1"; locus_tag "ECDH10B_RS16225"; product "DNA topoisomerase IV subunit A"; protein_id "WP_001281881.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3261738 3261740 . - 0 gene_id "ECDH10B_RS16225"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "parC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311930.1"; locus_tag "ECDH10B_RS16225"; product "DNA topoisomerase IV subunit A"; protein_id "WP_001281881.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3259482 3259484 . - 0 gene_id "ECDH10B_RS16225"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "parC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311930.1"; locus_tag "ECDH10B_RS16225"; product "DNA topoisomerase IV subunit A"; protein_id "WP_001281881.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3261878 3263485 . - . gene_id "ECDH10B_RS16230"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16230"; old_locus_tag "ECDH10B_3194"; -NC_010473.1 Protein Homology CDS 3261881 3263485 . - 0 gene_id "ECDH10B_RS16230"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417492.1"; locus_tag "ECDH10B_RS16230"; product "ABC transporter substrate-binding protein"; protein_id "WP_001295629.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3263483 3263485 . - 0 gene_id "ECDH10B_RS16230"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417492.1"; locus_tag "ECDH10B_RS16230"; product "ABC transporter substrate-binding protein"; protein_id "WP_001295629.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3261878 3261880 . - 0 gene_id "ECDH10B_RS16230"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417492.1"; locus_tag "ECDH10B_RS16230"; product "ABC transporter substrate-binding protein"; protein_id "WP_001295629.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3263618 3264013 . - . gene_id "ECDH10B_RS16235"; transcript_id ""; gbkey "Gene"; gene "mqsA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16235"; old_locus_tag "ECDH10B_3195"; -NC_010473.1 Protein Homology CDS 3263621 3264013 . - 0 gene_id "ECDH10B_RS16235"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mqsA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417493.1"; locus_tag "ECDH10B_RS16235"; product "type II toxin-antitoxin system antitoxin MqsA"; protein_id "WP_000650107.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3264011 3264013 . - 0 gene_id "ECDH10B_RS16235"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mqsA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417493.1"; locus_tag "ECDH10B_RS16235"; product "type II toxin-antitoxin system antitoxin MqsA"; protein_id "WP_000650107.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3263618 3263620 . - 0 gene_id "ECDH10B_RS16235"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mqsA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417493.1"; locus_tag "ECDH10B_RS16235"; product "type II toxin-antitoxin system antitoxin MqsA"; protein_id "WP_000650107.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3264015 3264311 . - . gene_id "ECDH10B_RS16240"; transcript_id ""; gbkey "Gene"; gene "mqsR"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16240"; old_locus_tag "ECDH10B_3196"; -NC_010473.1 Protein Homology CDS 3264018 3264311 . - 0 gene_id "ECDH10B_RS16240"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mqsR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417494.1"; locus_tag "ECDH10B_RS16240"; product "type II toxin-antitoxin system toxin MqsR"; protein_id "WP_000415584.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3264309 3264311 . - 0 gene_id "ECDH10B_RS16240"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mqsR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417494.1"; locus_tag "ECDH10B_RS16240"; product "type II toxin-antitoxin system toxin MqsR"; protein_id "WP_000415584.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3264015 3264017 . - 0 gene_id "ECDH10B_RS16240"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mqsR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417494.1"; locus_tag "ECDH10B_RS16240"; product "type II toxin-antitoxin system toxin MqsR"; protein_id "WP_000415584.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3264516 3264998 . - . gene_id "ECDH10B_RS16245"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16245"; old_locus_tag "ECDH10B_3197"; -NC_010473.1 Protein Homology CDS 3264519 3264998 . - 0 gene_id "ECDH10B_RS16245"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026197.1"; locus_tag "ECDH10B_RS16245"; product "transcriptional regulator"; protein_id "WP_000183505.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3264996 3264998 . - 0 gene_id "ECDH10B_RS16245"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026197.1"; locus_tag "ECDH10B_RS16245"; product "transcriptional regulator"; protein_id "WP_000183505.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3264516 3264518 . - 0 gene_id "ECDH10B_RS16245"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026197.1"; locus_tag "ECDH10B_RS16245"; product "transcriptional regulator"; protein_id "WP_000183505.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3265051 3265443 . - . gene_id "ECDH10B_RS16250"; transcript_id ""; gbkey "Gene"; gene "ygiW"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16250"; old_locus_tag "ECDH10B_3198"; -NC_010473.1 Protein Homology CDS 3265054 3265443 . - 0 gene_id "ECDH10B_RS16250"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ygiW"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311933.1"; locus_tag "ECDH10B_RS16250"; product "OB fold stress tolerance protein YgiW"; protein_id "WP_000712658.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3265441 3265443 . - 0 gene_id "ECDH10B_RS16250"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ygiW"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311933.1"; locus_tag "ECDH10B_RS16250"; product "OB fold stress tolerance protein YgiW"; protein_id "WP_000712658.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3265051 3265053 . - 0 gene_id "ECDH10B_RS16250"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ygiW"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311933.1"; locus_tag "ECDH10B_RS16250"; product "OB fold stress tolerance protein YgiW"; protein_id "WP_000712658.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3265595 3266254 . + . gene_id "ECDH10B_RS16255"; transcript_id ""; gbkey "Gene"; gene "qseB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16255"; old_locus_tag "ECDH10B_3199"; -NC_010473.1 Protein Homology CDS 3265595 3266251 . + 0 gene_id "ECDH10B_RS16255"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "qseB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417497.1"; locus_tag "ECDH10B_RS16255"; product "two-component system response regulator QseB"; protein_id "WP_001221495.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3265595 3265597 . + 0 gene_id "ECDH10B_RS16255"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "qseB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417497.1"; locus_tag "ECDH10B_RS16255"; product "two-component system response regulator QseB"; protein_id "WP_001221495.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3266252 3266254 . + 0 gene_id "ECDH10B_RS16255"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "qseB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417497.1"; locus_tag "ECDH10B_RS16255"; product "two-component system response regulator QseB"; protein_id "WP_001221495.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3266251 3267600 . + . gene_id "ECDH10B_RS16260"; transcript_id ""; gbkey "Gene"; gene "qseC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16260"; old_locus_tag "ECDH10B_3200"; -NC_010473.1 Protein Homology CDS 3266251 3267597 . + 0 gene_id "ECDH10B_RS16260"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "qseC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417498.1"; locus_tag "ECDH10B_RS16260"; product "two-component system sensor histidine kinase QseC"; protein_id "WP_000673402.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3266251 3266253 . + 0 gene_id "ECDH10B_RS16260"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "qseC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417498.1"; locus_tag "ECDH10B_RS16260"; product "two-component system sensor histidine kinase QseC"; protein_id "WP_000673402.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3267598 3267600 . + 0 gene_id "ECDH10B_RS16260"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "qseC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417498.1"; locus_tag "ECDH10B_RS16260"; product "two-component system sensor histidine kinase QseC"; protein_id "WP_000673402.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3267646 3267978 . - . gene_id "ECDH10B_RS16265"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16265"; old_locus_tag "ECDH10B_3201"; -NC_010473.1 Protein Homology CDS 3267649 3267978 . - 0 gene_id "ECDH10B_RS16265"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417499.1"; locus_tag "ECDH10B_RS16265"; product "DUF2645 family protein"; protein_id "WP_000917684.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3267976 3267978 . - 0 gene_id "ECDH10B_RS16265"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417499.1"; locus_tag "ECDH10B_RS16265"; product "DUF2645 family protein"; protein_id "WP_000917684.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3267646 3267648 . - 0 gene_id "ECDH10B_RS16265"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417499.1"; locus_tag "ECDH10B_RS16265"; product "DUF2645 family protein"; protein_id "WP_000917684.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3268297 3268878 . + . gene_id "ECDH10B_RS16270"; transcript_id ""; gbkey "Gene"; gene "mdaB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16270"; old_locus_tag "ECDH10B_3202"; -NC_010473.1 Protein Homology CDS 3268297 3268875 . + 0 gene_id "ECDH10B_RS16270"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mdaB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311937.1"; locus_tag "ECDH10B_RS16270"; product "NADPH:quinone oxidoreductase MdaB"; protein_id "WP_000065430.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3268297 3268299 . + 0 gene_id "ECDH10B_RS16270"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mdaB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311937.1"; locus_tag "ECDH10B_RS16270"; product "NADPH:quinone oxidoreductase MdaB"; protein_id "WP_000065430.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3268876 3268878 . + 0 gene_id "ECDH10B_RS16270"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mdaB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311937.1"; locus_tag "ECDH10B_RS16270"; product "NADPH:quinone oxidoreductase MdaB"; protein_id "WP_000065430.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3268909 3269223 . + . gene_id "ECDH10B_RS16275"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16275"; old_locus_tag "ECDH10B_3203"; -NC_010473.1 Protein Homology CDS 3268909 3269220 . + 0 gene_id "ECDH10B_RS16275"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311938.1"; locus_tag "ECDH10B_RS16275"; product "antibiotic biosynthesis monooxygenase"; protein_id "WP_000958598.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3268909 3268911 . + 0 gene_id "ECDH10B_RS16275"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311938.1"; locus_tag "ECDH10B_RS16275"; product "antibiotic biosynthesis monooxygenase"; protein_id "WP_000958598.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3269221 3269223 . + 0 gene_id "ECDH10B_RS16275"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311938.1"; locus_tag "ECDH10B_RS16275"; product "antibiotic biosynthesis monooxygenase"; protein_id "WP_000958598.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3269271 3271163 . - . gene_id "ECDH10B_RS16280"; transcript_id ""; gbkey "Gene"; gene "parE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16280"; old_locus_tag "ECDH10B_3204"; -NC_010473.1 Protein Homology CDS 3269274 3271163 . - 0 gene_id "ECDH10B_RS16280"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "parE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417502.1"; locus_tag "ECDH10B_RS16280"; product "DNA topoisomerase IV subunit B"; protein_id "WP_000195296.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3271161 3271163 . - 0 gene_id "ECDH10B_RS16280"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "parE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417502.1"; locus_tag "ECDH10B_RS16280"; product "DNA topoisomerase IV subunit B"; protein_id "WP_000195296.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3269271 3269273 . - 0 gene_id "ECDH10B_RS16280"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "parE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417502.1"; locus_tag "ECDH10B_RS16280"; product "DNA topoisomerase IV subunit B"; protein_id "WP_000195296.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3271192 3271773 . - . gene_id "ECDH10B_RS16285"; transcript_id ""; gbkey "Gene"; gene "yqiA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16285"; old_locus_tag "ECDH10B_3205"; -NC_010473.1 Protein Homology CDS 3271195 3271773 . - 0 gene_id "ECDH10B_RS16285"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yqiA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311946.1"; locus_tag "ECDH10B_RS16285"; product "esterase YqiA"; protein_id "WP_000105733.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3271771 3271773 . - 0 gene_id "ECDH10B_RS16285"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yqiA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311946.1"; locus_tag "ECDH10B_RS16285"; product "esterase YqiA"; protein_id "WP_000105733.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3271192 3271194 . - 0 gene_id "ECDH10B_RS16285"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yqiA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311946.1"; locus_tag "ECDH10B_RS16285"; product "esterase YqiA"; protein_id "WP_000105733.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3271773 3272600 . - . gene_id "ECDH10B_RS16290"; transcript_id ""; gbkey "Gene"; gene "cpdA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16290"; old_locus_tag "ECDH10B_3206"; -NC_010473.1 Protein Homology CDS 3271776 3272600 . - 0 gene_id "ECDH10B_RS16290"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cpdA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311947.1"; locus_tag "ECDH10B_RS16290"; product "3',5'-cyclic-AMP phosphodiesterase"; protein_id "WP_000444747.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3272598 3272600 . - 0 gene_id "ECDH10B_RS16290"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cpdA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311947.1"; locus_tag "ECDH10B_RS16290"; product "3',5'-cyclic-AMP phosphodiesterase"; protein_id "WP_000444747.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3271773 3271775 . - 0 gene_id "ECDH10B_RS16290"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cpdA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311947.1"; locus_tag "ECDH10B_RS16290"; product "3',5'-cyclic-AMP phosphodiesterase"; protein_id "WP_000444747.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3272625 3273047 . - . gene_id "ECDH10B_RS16295"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16295"; old_locus_tag "ECDH10B_3207"; -NC_010473.1 Protein Homology CDS 3272628 3273047 . - 0 gene_id "ECDH10B_RS16295"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311948.1"; locus_tag "ECDH10B_RS16295"; product "DUF1249 family protein"; protein_id "WP_000833393.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3273045 3273047 . - 0 gene_id "ECDH10B_RS16295"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311948.1"; locus_tag "ECDH10B_RS16295"; product "DUF1249 family protein"; protein_id "WP_000833393.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3272625 3272627 . - 0 gene_id "ECDH10B_RS16295"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311948.1"; locus_tag "ECDH10B_RS16295"; product "DUF1249 family protein"; protein_id "WP_000833393.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3273048 3273677 . - . gene_id "ECDH10B_RS16300"; transcript_id ""; gbkey "Gene"; gene "nudF"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16300"; old_locus_tag "ECDH10B_3208"; -NC_010473.1 Protein Homology CDS 3273051 3273677 . - 0 gene_id "ECDH10B_RS16300"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nudF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311949.1"; locus_tag "ECDH10B_RS16300"; product "ADP-ribose diphosphatase"; protein_id "WP_000917117.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3273675 3273677 . - 0 gene_id "ECDH10B_RS16300"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nudF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311949.1"; locus_tag "ECDH10B_RS16300"; product "ADP-ribose diphosphatase"; protein_id "WP_000917117.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3273048 3273050 . - 0 gene_id "ECDH10B_RS16300"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nudF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311949.1"; locus_tag "ECDH10B_RS16300"; product "ADP-ribose diphosphatase"; protein_id "WP_000917117.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3273882 3275363 . + . gene_id "ECDH10B_RS16305"; transcript_id ""; gbkey "Gene"; gene "tolC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16305"; old_locus_tag "ECDH10B_3209"; -NC_010473.1 Protein Homology CDS 3273882 3275360 . + 0 gene_id "ECDH10B_RS16305"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tolC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417507.2"; locus_tag "ECDH10B_RS16305"; product "outer membrane channel protein TolC"; protein_id "WP_000735278.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3273882 3273884 . + 0 gene_id "ECDH10B_RS16305"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tolC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417507.2"; locus_tag "ECDH10B_RS16305"; product "outer membrane channel protein TolC"; protein_id "WP_000735278.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3275361 3275363 . + 0 gene_id "ECDH10B_RS16305"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tolC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417507.2"; locus_tag "ECDH10B_RS16305"; product "outer membrane channel protein TolC"; protein_id "WP_000735278.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3275511 3276182 . + . gene_id "ECDH10B_RS16315"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16315"; old_locus_tag "ECDH10B_3211"; -NC_010473.1 Protein Homology CDS 3275511 3276179 . + 0 gene_id "ECDH10B_RS16315"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417509.3"; locus_tag "ECDH10B_RS16315"; product "DUF1190 family protein"; protein_id "WP_000831543.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3275511 3275513 . + 0 gene_id "ECDH10B_RS16315"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417509.3"; locus_tag "ECDH10B_RS16315"; product "DUF1190 family protein"; protein_id "WP_000831543.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3276180 3276182 . + 0 gene_id "ECDH10B_RS16315"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417509.3"; locus_tag "ECDH10B_RS16315"; product "DUF1190 family protein"; protein_id "WP_000831543.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3276188 3277348 . + . gene_id "ECDH10B_RS16320"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16320"; old_locus_tag "ECDH10B_3212"; -NC_010473.1 Protein Homology CDS 3276188 3277345 . + 0 gene_id "ECDH10B_RS16320"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005123077.1"; locus_tag "ECDH10B_RS16320"; product "glutathionylspermidine synthase family protein"; protein_id "WP_000442860.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3276188 3276190 . + 0 gene_id "ECDH10B_RS16320"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005123077.1"; locus_tag "ECDH10B_RS16320"; product "glutathionylspermidine synthase family protein"; protein_id "WP_000442860.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3277346 3277348 . + 0 gene_id "ECDH10B_RS16320"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005123077.1"; locus_tag "ECDH10B_RS16320"; product "glutathionylspermidine synthase family protein"; protein_id "WP_000442860.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3277386 3278174 . - . gene_id "ECDH10B_RS16325"; transcript_id ""; gbkey "Gene"; gene "ygiD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16325"; old_locus_tag "ECDH10B_3213"; -NC_010473.1 Protein Homology CDS 3277389 3278174 . - 0 gene_id "ECDH10B_RS16325"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ygiD"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001356237.1"; locus_tag "ECDH10B_RS16325"; product "4,5-DOPA dioxygenase extradiol"; protein_id "WP_001320780.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3278172 3278174 . - 0 gene_id "ECDH10B_RS16325"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ygiD"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001356237.1"; locus_tag "ECDH10B_RS16325"; product "4,5-DOPA dioxygenase extradiol"; protein_id "WP_001320780.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3277386 3277388 . - 0 gene_id "ECDH10B_RS16325"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ygiD"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001356237.1"; locus_tag "ECDH10B_RS16325"; product "4,5-DOPA dioxygenase extradiol"; protein_id "WP_001320780.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3278317 3279090 . + . gene_id "ECDH10B_RS16330"; transcript_id ""; gbkey "Gene"; gene "zupT"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16330"; old_locus_tag "ECDH10B_3214"; -NC_010473.1 Protein Homology CDS 3278317 3279087 . + 0 gene_id "ECDH10B_RS16330"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "zupT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311955.1"; locus_tag "ECDH10B_RS16330"; product "zinc transporter ZupT"; protein_id "WP_001295627.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3278317 3278319 . + 0 gene_id "ECDH10B_RS16330"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "zupT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311955.1"; locus_tag "ECDH10B_RS16330"; product "zinc transporter ZupT"; protein_id "WP_001295627.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3279088 3279090 . + 0 gene_id "ECDH10B_RS16330"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "zupT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311955.1"; locus_tag "ECDH10B_RS16330"; product "zinc transporter ZupT"; protein_id "WP_001295627.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3279148 3279318 . - . gene_id "ECDH10B_RS16335"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16335"; -NC_010473.1 GeneMarkS-2+ CDS 3279151 3279318 . - 0 gene_id "ECDH10B_RS16335"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: ab initio prediction:GeneMarkS-2+"; locus_tag "ECDH10B_RS16335"; product "hypothetical protein"; protein_id "WP_000469266.1"; transl_table "11"; -NC_010473.1 GeneMarkS-2+ start_codon 3279316 3279318 . - 0 gene_id "ECDH10B_RS16335"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: ab initio prediction:GeneMarkS-2+"; locus_tag "ECDH10B_RS16335"; product "hypothetical protein"; protein_id "WP_000469266.1"; transl_table "11"; -NC_010473.1 GeneMarkS-2+ stop_codon 3279148 3279150 . - 0 gene_id "ECDH10B_RS16335"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: ab initio prediction:GeneMarkS-2+"; locus_tag "ECDH10B_RS16335"; product "hypothetical protein"; protein_id "WP_000469266.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3279580 3280233 . - . gene_id "ECDH10B_RS16340"; transcript_id ""; gbkey "Gene"; gene "ribB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16340"; old_locus_tag "ECDH10B_3215"; -NC_010473.1 Protein Homology CDS 3279583 3280233 . - 0 gene_id "ECDH10B_RS16340"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ribB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311956.1"; locus_tag "ECDH10B_RS16340"; product "3,4-dihydroxy-2-butanone-4-phosphate synthase"; protein_id "WP_001076997.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3280231 3280233 . - 0 gene_id "ECDH10B_RS16340"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ribB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311956.1"; locus_tag "ECDH10B_RS16340"; product "3,4-dihydroxy-2-butanone-4-phosphate synthase"; protein_id "WP_001076997.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3279580 3279582 . - 0 gene_id "ECDH10B_RS16340"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ribB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311956.1"; locus_tag "ECDH10B_RS16340"; product "3,4-dihydroxy-2-butanone-4-phosphate synthase"; protein_id "WP_001076997.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3280607 3280897 . + . gene_id "ECDH10B_RS16345"; transcript_id ""; gbkey "Gene"; gene "ubiK"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16345"; old_locus_tag "ECDH10B_3216"; -NC_010473.1 Protein Homology CDS 3280607 3280894 . + 0 gene_id "ECDH10B_RS16345"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ubiK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417514.4"; locus_tag "ECDH10B_RS16345"; product "ubiquinone biosynthesis accessory factor UbiK"; protein_id "WP_001295626.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3280607 3280609 . + 0 gene_id "ECDH10B_RS16345"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ubiK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417514.4"; locus_tag "ECDH10B_RS16345"; product "ubiquinone biosynthesis accessory factor UbiK"; protein_id "WP_001295626.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3280895 3280897 . + 0 gene_id "ECDH10B_RS16345"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ubiK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417514.4"; locus_tag "ECDH10B_RS16345"; product "ubiquinone biosynthesis accessory factor UbiK"; protein_id "WP_001295626.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3281181 3281732 . + . gene_id "ECDH10B_RS16350"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16350"; old_locus_tag "ECDH10B_3217"; -NC_010473.1 Protein Homology CDS 3281181 3281729 . + 0 gene_id "ECDH10B_RS16350"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417515.1"; locus_tag "ECDH10B_RS16350"; product "fimbrial-like protein"; protein_id "WP_001272145.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3281181 3281183 . + 0 gene_id "ECDH10B_RS16350"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417515.1"; locus_tag "ECDH10B_RS16350"; product "fimbrial-like protein"; protein_id "WP_001272145.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3281730 3281732 . + 0 gene_id "ECDH10B_RS16350"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417515.1"; locus_tag "ECDH10B_RS16350"; product "fimbrial-like protein"; protein_id "WP_001272145.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3281954 3283182 . + . gene_id "ECDH10B_RS16360"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16360"; old_locus_tag "ECDH10B_3219"; -NC_010473.1 Protein Homology CDS 3281954 3282269 . + 0 gene_id "ECDH10B_RS16360"; transcript_id "unknown_transcript_1"; exception "ribosomal slippage"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_086558215.1"; locus_tag "ECDH10B_RS16360"; note "programmed frameshift"; product "IS3-like element IS2 family transposase"; protein_id "WP_088895425.1"; transl_table "11"; -NC_010473.1 Protein Homology CDS 3282269 3283179 . + 0 gene_id "ECDH10B_RS16360"; transcript_id "unknown_transcript_1"; exception "ribosomal slippage"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_086558215.1"; locus_tag "ECDH10B_RS16360"; note "programmed frameshift"; product "IS3-like element IS2 family transposase"; protein_id "WP_088895425.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3281954 3281956 . + 0 gene_id "ECDH10B_RS16360"; transcript_id "unknown_transcript_1"; exception "ribosomal slippage"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_086558215.1"; locus_tag "ECDH10B_RS16360"; note "programmed frameshift"; product "IS3-like element IS2 family transposase"; protein_id "WP_088895425.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3283180 3283182 . + 0 gene_id "ECDH10B_RS16360"; transcript_id "unknown_transcript_1"; exception "ribosomal slippage"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_086558215.1"; locus_tag "ECDH10B_RS16360"; note "programmed frameshift"; product "IS3-like element IS2 family transposase"; protein_id "WP_088895425.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3283167 3285632 . + . gene_id "ECDH10B_RS16365"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16365"; old_locus_tag "ECDH10B_3220"; -NC_010473.1 Protein Homology CDS 3283167 3285629 . + 0 gene_id "ECDH10B_RS16365"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_012777789.1"; locus_tag "ECDH10B_RS16365"; product "fimbrial biogenesis outer membrane usher protein"; protein_id "WP_000016375.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3283167 3283169 . + 0 gene_id "ECDH10B_RS16365"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_012777789.1"; locus_tag "ECDH10B_RS16365"; product "fimbrial biogenesis outer membrane usher protein"; protein_id "WP_000016375.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3285630 3285632 . + 0 gene_id "ECDH10B_RS16365"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_012777789.1"; locus_tag "ECDH10B_RS16365"; product "fimbrial biogenesis outer membrane usher protein"; protein_id "WP_000016375.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3285648 3286397 . + . gene_id "ECDH10B_RS16370"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16370"; old_locus_tag "ECDH10B_3221"; -NC_010473.1 Protein Homology CDS 3285648 3286394 . + 0 gene_id "ECDH10B_RS16370"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417519.4"; locus_tag "ECDH10B_RS16370"; product "molecular chaperone"; protein_id "WP_001269824.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3285648 3285650 . + 0 gene_id "ECDH10B_RS16370"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417519.4"; locus_tag "ECDH10B_RS16370"; product "molecular chaperone"; protein_id "WP_001269824.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3286395 3286397 . + 0 gene_id "ECDH10B_RS16370"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417519.4"; locus_tag "ECDH10B_RS16370"; product "molecular chaperone"; protein_id "WP_001269824.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3286399 3287463 . + . gene_id "ECDH10B_RS16375"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16375"; old_locus_tag "ECDH10B_3222"; -NC_010473.1 Protein Homology CDS 3286399 3287460 . + 0 gene_id "ECDH10B_RS16375"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417520.1"; locus_tag "ECDH10B_RS16375"; product "fimbrial protein"; protein_id "WP_001269802.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3286399 3286401 . + 0 gene_id "ECDH10B_RS16375"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417520.1"; locus_tag "ECDH10B_RS16375"; product "fimbrial protein"; protein_id "WP_001269802.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3287461 3287463 . + 0 gene_id "ECDH10B_RS16375"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417520.1"; locus_tag "ECDH10B_RS16375"; product "fimbrial protein"; protein_id "WP_001269802.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3287506 3287706 . - . gene_id "ECDH10B_RS16380"; transcript_id ""; gbkey "Gene"; gene "glgS"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16380"; old_locus_tag "ECDH10B_3223"; -NC_010473.1 Protein Homology CDS 3287509 3287706 . - 0 gene_id "ECDH10B_RS16380"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "glgS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417521.1"; locus_tag "ECDH10B_RS16380"; product "cell surface composition regulator GlgS"; protein_id "WP_000350095.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3287704 3287706 . - 0 gene_id "ECDH10B_RS16380"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "glgS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417521.1"; locus_tag "ECDH10B_RS16380"; product "cell surface composition regulator GlgS"; protein_id "WP_000350095.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3287506 3287508 . - 0 gene_id "ECDH10B_RS16380"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "glgS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417521.1"; locus_tag "ECDH10B_RS16380"; product "cell surface composition regulator GlgS"; protein_id "WP_000350095.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3287975 3288604 . + . gene_id "ECDH10B_RS16385"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16385"; old_locus_tag "ECDH10B_3224"; -NC_010473.1 Protein Homology CDS 3287975 3288601 . + 0 gene_id "ECDH10B_RS16385"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417522.1"; locus_tag "ECDH10B_RS16385"; product "DUF1449 family protein"; protein_id "WP_000599926.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3287975 3287977 . + 0 gene_id "ECDH10B_RS16385"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417522.1"; locus_tag "ECDH10B_RS16385"; product "DUF1449 family protein"; protein_id "WP_000599926.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3288602 3288604 . + 0 gene_id "ECDH10B_RS16385"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417522.1"; locus_tag "ECDH10B_RS16385"; product "DUF1449 family protein"; protein_id "WP_000599926.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3288631 3290292 . + . gene_id "ECDH10B_RS16390"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16390"; old_locus_tag "ECDH10B_3225"; -NC_010473.1 Protein Homology CDS 3288631 3290289 . + 0 gene_id "ECDH10B_RS16390"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417523.1"; locus_tag "ECDH10B_RS16390"; product "flotillin family protein"; protein_id "WP_001311137.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3288631 3288633 . + 0 gene_id "ECDH10B_RS16390"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417523.1"; locus_tag "ECDH10B_RS16390"; product "flotillin family protein"; protein_id "WP_001311137.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3290290 3290292 . + 0 gene_id "ECDH10B_RS16390"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417523.1"; locus_tag "ECDH10B_RS16390"; product "flotillin family protein"; protein_id "WP_001311137.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3290533 3290592 . + . gene_id "ECDH10B_RS26105"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS26105"; -NC_010473.1 Protein Homology CDS 3290533 3290589 . + 0 gene_id "ECDH10B_RS26105"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_002791256.1"; locus_tag "ECDH10B_RS26105"; product "type I toxin-antitoxin system Ibs family toxin"; protein_id "WP_001387081.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3290533 3290535 . + 0 gene_id "ECDH10B_RS26105"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_002791256.1"; locus_tag "ECDH10B_RS26105"; product "type I toxin-antitoxin system Ibs family toxin"; protein_id "WP_001387081.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3290590 3290592 . + 0 gene_id "ECDH10B_RS26105"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_002791256.1"; locus_tag "ECDH10B_RS26105"; product "type I toxin-antitoxin system Ibs family toxin"; protein_id "WP_001387081.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3290908 3290967 . + . gene_id "ECDH10B_RS24715"; transcript_id ""; gbkey "Gene"; gene "ibsE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS24715"; -NC_010473.1 Protein Homology CDS 3290908 3290964 . + 0 gene_id "ECDH10B_RS24715"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ibsE"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_002791257.1"; locus_tag "ECDH10B_RS24715"; product "type I toxin-antitoxin system toxin IbsE"; protein_id "WP_010723221.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3290908 3290910 . + 0 gene_id "ECDH10B_RS24715"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ibsE"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_002791257.1"; locus_tag "ECDH10B_RS24715"; product "type I toxin-antitoxin system toxin IbsE"; protein_id "WP_010723221.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3290965 3290967 . + 0 gene_id "ECDH10B_RS24715"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ibsE"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_002791257.1"; locus_tag "ECDH10B_RS24715"; product "type I toxin-antitoxin system toxin IbsE"; protein_id "WP_010723221.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3291087 3292520 . - . gene_id "ECDH10B_RS16405"; transcript_id ""; gbkey "Gene"; gene "hldE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16405"; old_locus_tag "ECDH10B_3227"; -NC_010473.1 Protein Homology CDS 3291090 3292520 . - 0 gene_id "ECDH10B_RS16405"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hldE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417524.1"; locus_tag "ECDH10B_RS16405"; product "bifunctional D-glycero-beta-D-manno-heptose-7-phosphate kinase/D-glycero-beta-D-manno-heptose 1-phosphate adenylyltransferase HldE"; protein_id "WP_000869178.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3292518 3292520 . - 0 gene_id "ECDH10B_RS16405"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hldE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417524.1"; locus_tag "ECDH10B_RS16405"; product "bifunctional D-glycero-beta-D-manno-heptose-7-phosphate kinase/D-glycero-beta-D-manno-heptose 1-phosphate adenylyltransferase HldE"; protein_id "WP_000869178.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3291087 3291089 . - 0 gene_id "ECDH10B_RS16405"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hldE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417524.1"; locus_tag "ECDH10B_RS16405"; product "bifunctional D-glycero-beta-D-manno-heptose-7-phosphate kinase/D-glycero-beta-D-manno-heptose 1-phosphate adenylyltransferase HldE"; protein_id "WP_000869178.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3292568 3295408 . - . gene_id "ECDH10B_RS16410"; transcript_id ""; gbkey "Gene"; gene "glnE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16410"; old_locus_tag "ECDH10B_3228"; -NC_010473.1 Protein Homology CDS 3292571 3295408 . - 0 gene_id "ECDH10B_RS16410"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "glnE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417525.1"; locus_tag "ECDH10B_RS16410"; product "bifunctional [glutamate--ammonia ligase]-adenylyl-L-tyrosine phosphorylase/[glutamate--ammonia-ligase] adenylyltransferase"; protein_id "WP_001301081.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3295406 3295408 . - 0 gene_id "ECDH10B_RS16410"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "glnE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417525.1"; locus_tag "ECDH10B_RS16410"; product "bifunctional [glutamate--ammonia ligase]-adenylyl-L-tyrosine phosphorylase/[glutamate--ammonia-ligase] adenylyltransferase"; protein_id "WP_001301081.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3292568 3292570 . - 0 gene_id "ECDH10B_RS16410"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "glnE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417525.1"; locus_tag "ECDH10B_RS16410"; product "bifunctional [glutamate--ammonia ligase]-adenylyl-L-tyrosine phosphorylase/[glutamate--ammonia-ligase] adenylyltransferase"; protein_id "WP_001301081.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3295431 3296732 . - . gene_id "ECDH10B_RS16415"; transcript_id ""; gbkey "Gene"; gene "ygiF"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16415"; old_locus_tag "ECDH10B_3229"; -NC_010473.1 Protein Homology CDS 3295434 3296732 . - 0 gene_id "ECDH10B_RS16415"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ygiF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417526.1"; locus_tag "ECDH10B_RS16415"; product "inorganic triphosphatase"; protein_id "WP_000046281.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3296730 3296732 . - 0 gene_id "ECDH10B_RS16415"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ygiF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417526.1"; locus_tag "ECDH10B_RS16415"; product "inorganic triphosphatase"; protein_id "WP_000046281.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3295431 3295433 . - 0 gene_id "ECDH10B_RS16415"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ygiF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417526.1"; locus_tag "ECDH10B_RS16415"; product "inorganic triphosphatase"; protein_id "WP_000046281.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3296974 3297594 . + . gene_id "ECDH10B_RS16425"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16425"; old_locus_tag "ECDH10B_3230"; -NC_010473.1 Protein Homology CDS 3296974 3297591 . + 0 gene_id "ECDH10B_RS16425"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311965.1"; locus_tag "ECDH10B_RS16425"; product "SH3 domain-containing protein"; protein_id "WP_001125331.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3296974 3296976 . + 0 gene_id "ECDH10B_RS16425"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311965.1"; locus_tag "ECDH10B_RS16425"; product "SH3 domain-containing protein"; protein_id "WP_001125331.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3297592 3297594 . + 0 gene_id "ECDH10B_RS16425"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311965.1"; locus_tag "ECDH10B_RS16425"; product "SH3 domain-containing protein"; protein_id "WP_001125331.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3297658 3298896 . + . gene_id "ECDH10B_RS16430"; transcript_id ""; gbkey "Gene"; gene "cca"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16430"; old_locus_tag "ECDH10B_3231"; -NC_010473.1 Protein Homology CDS 3297658 3298893 . + 0 gene_id "ECDH10B_RS16430"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cca"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417528.1"; locus_tag "ECDH10B_RS16430"; product "fused tRNA nucleotidyltransferase/2',3'-cyclic phosphodiesterase/2' nucleotidase/phosphatase Cca"; protein_id "WP_000708487.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3297658 3297660 . + 0 gene_id "ECDH10B_RS16430"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cca"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417528.1"; locus_tag "ECDH10B_RS16430"; product "fused tRNA nucleotidyltransferase/2',3'-cyclic phosphodiesterase/2' nucleotidase/phosphatase Cca"; protein_id "WP_000708487.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3298894 3298896 . + 0 gene_id "ECDH10B_RS16430"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cca"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417528.1"; locus_tag "ECDH10B_RS16430"; product "fused tRNA nucleotidyltransferase/2',3'-cyclic phosphodiesterase/2' nucleotidase/phosphatase Cca"; protein_id "WP_000708487.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3299077 3299898 . - . gene_id "ECDH10B_RS16435"; transcript_id ""; gbkey "Gene"; gene "bacA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16435"; old_locus_tag "ECDH10B_3232"; -NC_010473.1 Protein Homology CDS 3299080 3299898 . - 0 gene_id "ECDH10B_RS16435"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "bacA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311967.1"; locus_tag "ECDH10B_RS16435"; product "undecaprenyl-diphosphate phosphatase"; protein_id "WP_001281927.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3299896 3299898 . - 0 gene_id "ECDH10B_RS16435"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "bacA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311967.1"; locus_tag "ECDH10B_RS16435"; product "undecaprenyl-diphosphate phosphatase"; protein_id "WP_001281927.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3299077 3299079 . - 0 gene_id "ECDH10B_RS16435"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "bacA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311967.1"; locus_tag "ECDH10B_RS16435"; product "undecaprenyl-diphosphate phosphatase"; protein_id "WP_001281927.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3299988 3300356 . - . gene_id "ECDH10B_RS16440"; transcript_id ""; gbkey "Gene"; gene "folB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16440"; old_locus_tag "ECDH10B_3233"; -NC_010473.1 Protein Homology CDS 3299991 3300356 . - 0 gene_id "ECDH10B_RS16440"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "folB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_708868.2"; locus_tag "ECDH10B_RS16440"; product "bifunctional dihydroneopterin aldolase/7,8-dihydroneopterin epimerase"; protein_id "WP_001295541.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3300354 3300356 . - 0 gene_id "ECDH10B_RS16440"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "folB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_708868.2"; locus_tag "ECDH10B_RS16440"; product "bifunctional dihydroneopterin aldolase/7,8-dihydroneopterin epimerase"; protein_id "WP_001295541.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3299988 3299990 . - 0 gene_id "ECDH10B_RS16440"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "folB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_708868.2"; locus_tag "ECDH10B_RS16440"; product "bifunctional dihydroneopterin aldolase/7,8-dihydroneopterin epimerase"; protein_id "WP_001295541.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3300461 3301078 . + . gene_id "ECDH10B_RS16445"; transcript_id ""; gbkey "Gene"; gene "plsY"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16445"; old_locus_tag "ECDH10B_3234"; -NC_010473.1 Protein Homology CDS 3300461 3301075 . + 0 gene_id "ECDH10B_RS16445"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "plsY"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311969.1"; locus_tag "ECDH10B_RS16445"; product "glycerol-3-phosphate 1-O-acyltransferase PlsY"; protein_id "WP_001272796.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3300461 3300463 . + 0 gene_id "ECDH10B_RS16445"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "plsY"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311969.1"; locus_tag "ECDH10B_RS16445"; product "glycerol-3-phosphate 1-O-acyltransferase PlsY"; protein_id "WP_001272796.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3301076 3301078 . + 0 gene_id "ECDH10B_RS16445"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "plsY"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311969.1"; locus_tag "ECDH10B_RS16445"; product "glycerol-3-phosphate 1-O-acyltransferase PlsY"; protein_id "WP_001272796.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3301091 3302023 . - . gene_id "ECDH10B_RS16450"; transcript_id ""; gbkey "Gene"; gene "ttdR"; gene_biotype "protein_coding"; gene_synonym "dan"; locus_tag "ECDH10B_RS16450"; old_locus_tag "ECDH10B_3235"; -NC_010473.1 Protein Homology CDS 3301094 3302023 . - 0 gene_id "ECDH10B_RS16450"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ttdR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417532.1"; locus_tag "ECDH10B_RS16450"; product "DNA-binding transcriptional activator TtdR"; protein_id "WP_000935206.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3302021 3302023 . - 0 gene_id "ECDH10B_RS16450"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ttdR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417532.1"; locus_tag "ECDH10B_RS16450"; product "DNA-binding transcriptional activator TtdR"; protein_id "WP_000935206.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3301091 3301093 . - 0 gene_id "ECDH10B_RS16450"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ttdR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417532.1"; locus_tag "ECDH10B_RS16450"; product "DNA-binding transcriptional activator TtdR"; protein_id "WP_000935206.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3302230 3303141 . + . gene_id "ECDH10B_RS16455"; transcript_id ""; gbkey "Gene"; gene "ttdA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16455"; old_locus_tag "ECDH10B_3236"; -NC_010473.1 Protein Homology CDS 3302230 3303138 . + 0 gene_id "ECDH10B_RS16455"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ttdA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417533.1"; locus_tag "ECDH10B_RS16455"; product "L(+)-tartrate dehydratase subunit alpha"; protein_id "WP_000986797.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3302230 3302232 . + 0 gene_id "ECDH10B_RS16455"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ttdA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417533.1"; locus_tag "ECDH10B_RS16455"; product "L(+)-tartrate dehydratase subunit alpha"; protein_id "WP_000986797.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3303139 3303141 . + 0 gene_id "ECDH10B_RS16455"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ttdA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417533.1"; locus_tag "ECDH10B_RS16455"; product "L(+)-tartrate dehydratase subunit alpha"; protein_id "WP_000986797.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3303138 3303743 . + . gene_id "ECDH10B_RS16460"; transcript_id ""; gbkey "Gene"; gene "ttdB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16460"; old_locus_tag "ECDH10B_3237"; -NC_010473.1 Protein Homology CDS 3303138 3303740 . + 0 gene_id "ECDH10B_RS16460"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ttdB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417534.1"; locus_tag "ECDH10B_RS16460"; product "L(+)-tartrate dehydratase subunit beta"; protein_id "WP_000722957.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3303138 3303140 . + 0 gene_id "ECDH10B_RS16460"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ttdB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417534.1"; locus_tag "ECDH10B_RS16460"; product "L(+)-tartrate dehydratase subunit beta"; protein_id "WP_000722957.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3303741 3303743 . + 0 gene_id "ECDH10B_RS16460"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ttdB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417534.1"; locus_tag "ECDH10B_RS16460"; product "L(+)-tartrate dehydratase subunit beta"; protein_id "WP_000722957.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3303791 3305254 . + . gene_id "ECDH10B_RS16465"; transcript_id ""; gbkey "Gene"; gene "ttdT"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16465"; old_locus_tag "ECDH10B_3238"; -NC_010473.1 Protein Homology CDS 3303791 3305251 . + 0 gene_id "ECDH10B_RS16465"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ttdT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417535.1"; locus_tag "ECDH10B_RS16465"; product "L-tartrate/succinate antiporter"; protein_id "WP_000804973.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3303791 3303793 . + 0 gene_id "ECDH10B_RS16465"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ttdT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417535.1"; locus_tag "ECDH10B_RS16465"; product "L-tartrate/succinate antiporter"; protein_id "WP_000804973.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3305252 3305254 . + 0 gene_id "ECDH10B_RS16465"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ttdT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417535.1"; locus_tag "ECDH10B_RS16465"; product "L-tartrate/succinate antiporter"; protein_id "WP_000804973.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3305297 3306310 . - . gene_id "ECDH10B_RS16470"; transcript_id ""; gbkey "Gene"; gene "tsaD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16470"; old_locus_tag "ECDH10B_3239"; -NC_010473.1 Protein Homology CDS 3305300 3306310 . - 0 gene_id "ECDH10B_RS16470"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tsaD"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001264383.1"; locus_tag "ECDH10B_RS16470"; product "tRNA (adenosine(37)-N6)-threonylcarbamoyltransferase complex transferase subunit TsaD"; protein_id "WP_001264352.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3306308 3306310 . - 0 gene_id "ECDH10B_RS16470"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tsaD"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001264383.1"; locus_tag "ECDH10B_RS16470"; product "tRNA (adenosine(37)-N6)-threonylcarbamoyltransferase complex transferase subunit TsaD"; protein_id "WP_001264352.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3305297 3305299 . - 0 gene_id "ECDH10B_RS16470"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tsaD"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001264383.1"; locus_tag "ECDH10B_RS16470"; product "tRNA (adenosine(37)-N6)-threonylcarbamoyltransferase complex transferase subunit TsaD"; protein_id "WP_001264352.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3306548 3306763 . + . gene_id "ECDH10B_RS16475"; transcript_id ""; gbkey "Gene"; gene "rpsU"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16475"; old_locus_tag "ECDH10B_3240"; -NC_010473.1 Protein Homology CDS 3306548 3306760 . + 0 gene_id "ECDH10B_RS16475"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rpsU"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311975.1"; locus_tag "ECDH10B_RS16475"; product "30S ribosomal protein S21"; protein_id "WP_001144069.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3306548 3306550 . + 0 gene_id "ECDH10B_RS16475"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rpsU"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311975.1"; locus_tag "ECDH10B_RS16475"; product "30S ribosomal protein S21"; protein_id "WP_001144069.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3306761 3306763 . + 0 gene_id "ECDH10B_RS16475"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rpsU"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311975.1"; locus_tag "ECDH10B_RS16475"; product "30S ribosomal protein S21"; protein_id "WP_001144069.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3306874 3308619 . + . gene_id "ECDH10B_RS16480"; transcript_id ""; gbkey "Gene"; gene "dnaG"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16480"; old_locus_tag "ECDH10B_3241"; -NC_010473.1 Protein Homology CDS 3306874 3308616 . + 0 gene_id "ECDH10B_RS16480"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dnaG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311976.1"; locus_tag "ECDH10B_RS16480"; product "DNA primase"; protein_id "WP_000918827.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3306874 3306876 . + 0 gene_id "ECDH10B_RS16480"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dnaG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311976.1"; locus_tag "ECDH10B_RS16480"; product "DNA primase"; protein_id "WP_000918827.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3308617 3308619 . + 0 gene_id "ECDH10B_RS16480"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dnaG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311976.1"; locus_tag "ECDH10B_RS16480"; product "DNA primase"; protein_id "WP_000918827.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3308814 3310655 . + . gene_id "ECDH10B_RS16485"; transcript_id ""; gbkey "Gene"; gene "rpoD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16485"; old_locus_tag "ECDH10B_3242"; -NC_010473.1 Protein Homology CDS 3308814 3310652 . + 0 gene_id "ECDH10B_RS16485"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rpoD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417539.1"; locus_tag "ECDH10B_RS16485"; product "RNA polymerase sigma factor RpoD"; protein_id "WP_000437376.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3308814 3308816 . + 0 gene_id "ECDH10B_RS16485"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rpoD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417539.1"; locus_tag "ECDH10B_RS16485"; product "RNA polymerase sigma factor RpoD"; protein_id "WP_000437376.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3310653 3310655 . + 0 gene_id "ECDH10B_RS16485"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rpoD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417539.1"; locus_tag "ECDH10B_RS16485"; product "RNA polymerase sigma factor RpoD"; protein_id "WP_000437376.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3310734 3311240 . - . gene_id "ECDH10B_RS16490"; transcript_id ""; gbkey "Gene"; gene "mug"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16490"; old_locus_tag "ECDH10B_3243"; -NC_010473.1 Protein Homology CDS 3310737 3311240 . - 0 gene_id "ECDH10B_RS16490"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mug"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417540.1"; locus_tag "ECDH10B_RS16490"; product "G/U mismatch-specific DNA glycosylase"; protein_id "WP_000228937.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3311238 3311240 . - 0 gene_id "ECDH10B_RS16490"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mug"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417540.1"; locus_tag "ECDH10B_RS16490"; product "G/U mismatch-specific DNA glycosylase"; protein_id "WP_000228937.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3310734 3310736 . - 0 gene_id "ECDH10B_RS16490"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mug"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417540.1"; locus_tag "ECDH10B_RS16490"; product "G/U mismatch-specific DNA glycosylase"; protein_id "WP_000228937.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3311365 3311440 . + . gene_id "ECDH10B_RS16495"; transcript_id ""; gbkey "Gene"; gene_biotype "tRNA"; locus_tag "ECDH10B_RS16495"; old_locus_tag "ECDH10B_3244"; -NC_010473.1 tRNAscan-SE exon 3311365 3311440 . + . gene_id "ECDH10B_RS16495"; transcript_id "ECDH10B_RS16495"; anticodon "(pos:3311398..3311400)"; gbkey "tRNA"; inference "COORDINATES: profile:tRNAscan-SE:2.0.6"; locus_tag "ECDH10B_RS16495"; product "tRNA-Ile"; exon_number "1"; -NC_010473.1 RefSeq gene 3311494 3312258 . - . gene_id "ECDH10B_RS16500"; transcript_id ""; gbkey "Gene"; gene "nfeF"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16500"; old_locus_tag "ECDH10B_3245"; -NC_010473.1 Protein Homology CDS 3311497 3312258 . - 0 gene_id "ECDH10B_RS16500"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nfeF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417541.1"; locus_tag "ECDH10B_RS16500"; product "NADPH-dependent ferric chelate reductase"; protein_id "WP_001066494.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3312256 3312258 . - 0 gene_id "ECDH10B_RS16500"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nfeF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417541.1"; locus_tag "ECDH10B_RS16500"; product "NADPH-dependent ferric chelate reductase"; protein_id "WP_001066494.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3311494 3311496 . - 0 gene_id "ECDH10B_RS16500"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nfeF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417541.1"; locus_tag "ECDH10B_RS16500"; product "NADPH-dependent ferric chelate reductase"; protein_id "WP_001066494.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3312546 3313169 . + . gene_id "ECDH10B_RS16505"; transcript_id ""; gbkey "Gene"; gene "nfeR"; gene_biotype "protein_coding"; gene_synonym "yqjI"; locus_tag "ECDH10B_RS16505"; old_locus_tag "ECDH10B_3246"; -NC_010473.1 Protein Homology CDS 3312546 3313166 . + 0 gene_id "ECDH10B_RS16505"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nfeR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417542.1"; locus_tag "ECDH10B_RS16505"; product "DNA-binding transcriptional regulator NfeR"; protein_id "WP_000018003.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3312546 3312548 . + 0 gene_id "ECDH10B_RS16505"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nfeR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417542.1"; locus_tag "ECDH10B_RS16505"; product "DNA-binding transcriptional regulator NfeR"; protein_id "WP_000018003.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3313167 3313169 . + 0 gene_id "ECDH10B_RS16505"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nfeR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417542.1"; locus_tag "ECDH10B_RS16505"; product "DNA-binding transcriptional regulator NfeR"; protein_id "WP_000018003.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3313323 3314843 . - . gene_id "ECDH10B_RS16510"; transcript_id ""; gbkey "Gene"; gene "aer"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16510"; old_locus_tag "ECDH10B_3247"; -NC_010473.1 Protein Homology CDS 3313326 3314843 . - 0 gene_id "ECDH10B_RS16510"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "aer"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417543.1"; locus_tag "ECDH10B_RS16510"; product "aerotaxis sensor receptor Aer"; protein_id "WP_000094721.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3314841 3314843 . - 0 gene_id "ECDH10B_RS16510"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "aer"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417543.1"; locus_tag "ECDH10B_RS16510"; product "aerotaxis sensor receptor Aer"; protein_id "WP_000094721.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3313323 3313325 . - 0 gene_id "ECDH10B_RS16510"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "aer"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417543.1"; locus_tag "ECDH10B_RS16510"; product "aerotaxis sensor receptor Aer"; protein_id "WP_000094721.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3315261 3316640 . + . gene_id "ECDH10B_RS16515"; transcript_id ""; gbkey "Gene"; gene "ygjG"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16515"; old_locus_tag "ECDH10B_3248"; -NC_010473.1 Protein Homology CDS 3315261 3316637 . + 0 gene_id "ECDH10B_RS16515"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ygjG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417544.5"; locus_tag "ECDH10B_RS16515"; product "putrescine aminotransferase"; protein_id "WP_001301395.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3315261 3315263 . + 0 gene_id "ECDH10B_RS16515"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ygjG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417544.5"; locus_tag "ECDH10B_RS16515"; product "putrescine aminotransferase"; protein_id "WP_001301395.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3316638 3316640 . + 0 gene_id "ECDH10B_RS16515"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ygjG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417544.5"; locus_tag "ECDH10B_RS16515"; product "putrescine aminotransferase"; protein_id "WP_001301395.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3316682 3317014 . - . gene_id "ECDH10B_RS16520"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16520"; old_locus_tag "ECDH10B_3249"; -NC_010473.1 Protein Homology CDS 3316685 3317014 . - 0 gene_id "ECDH10B_RS16520"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417545.1"; locus_tag "ECDH10B_RS16520"; product "tRNA-binding protein"; protein_id "WP_000450594.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3317012 3317014 . - 0 gene_id "ECDH10B_RS16520"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417545.1"; locus_tag "ECDH10B_RS16520"; product "tRNA-binding protein"; protein_id "WP_000450594.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3316682 3316684 . - 0 gene_id "ECDH10B_RS16520"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417545.1"; locus_tag "ECDH10B_RS16520"; product "tRNA-binding protein"; protein_id "WP_000450594.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3317233 3318216 . + . gene_id "ECDH10B_RS16525"; transcript_id ""; gbkey "Gene"; gene "ebgR"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16525"; old_locus_tag "ECDH10B_3250"; -NC_010473.1 Protein Homology CDS 3317233 3318213 . + 0 gene_id "ECDH10B_RS16525"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ebgR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417546.1"; locus_tag "ECDH10B_RS16525"; product "transcriptional regulator EbgR"; protein_id "WP_000212475.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3317233 3317235 . + 0 gene_id "ECDH10B_RS16525"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ebgR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417546.1"; locus_tag "ECDH10B_RS16525"; product "transcriptional regulator EbgR"; protein_id "WP_000212475.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3318214 3318216 . + 0 gene_id "ECDH10B_RS16525"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ebgR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417546.1"; locus_tag "ECDH10B_RS16525"; product "transcriptional regulator EbgR"; protein_id "WP_000212475.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3318400 3321492 . + . gene_id "ECDH10B_RS16530"; transcript_id ""; gbkey "Gene"; gene "ebgA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16530"; old_locus_tag "ECDH10B_3251"; -NC_010473.1 Protein Homology CDS 3318400 3321489 . + 0 gene_id "ECDH10B_RS16530"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ebgA"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026199.1"; locus_tag "ECDH10B_RS16530"; product "beta-galactosidase subunit alpha"; protein_id "WP_001082856.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3318400 3318402 . + 0 gene_id "ECDH10B_RS16530"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ebgA"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026199.1"; locus_tag "ECDH10B_RS16530"; product "beta-galactosidase subunit alpha"; protein_id "WP_001082856.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3321490 3321492 . + 0 gene_id "ECDH10B_RS16530"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ebgA"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026199.1"; locus_tag "ECDH10B_RS16530"; product "beta-galactosidase subunit alpha"; protein_id "WP_001082856.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3321489 3321938 . + . gene_id "ECDH10B_RS16535"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16535"; old_locus_tag "ECDH10B_3252"; -NC_010473.1 Protein Homology CDS 3321489 3321935 . + 0 gene_id "ECDH10B_RS16535"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417548.1"; locus_tag "ECDH10B_RS16535"; product "beta-galactosidase subunit beta"; protein_id "WP_001219954.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3321489 3321491 . + 0 gene_id "ECDH10B_RS16535"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417548.1"; locus_tag "ECDH10B_RS16535"; product "beta-galactosidase subunit beta"; protein_id "WP_001219954.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3321936 3321938 . + 0 gene_id "ECDH10B_RS16535"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417548.1"; locus_tag "ECDH10B_RS16535"; product "beta-galactosidase subunit beta"; protein_id "WP_001219954.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3322001 3323434 . + . gene_id "ECDH10B_RS16540"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16540"; old_locus_tag "ECDH10B_3253"; -NC_010473.1 Protein Homology CDS 3322001 3323431 . + 0 gene_id "ECDH10B_RS16540"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026200.1"; locus_tag "ECDH10B_RS16540"; product "amino acid permease"; protein_id "WP_001285432.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3322001 3322003 . + 0 gene_id "ECDH10B_RS16540"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026200.1"; locus_tag "ECDH10B_RS16540"; product "amino acid permease"; protein_id "WP_001285432.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3323432 3323434 . + 0 gene_id "ECDH10B_RS16540"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026200.1"; locus_tag "ECDH10B_RS16540"; product "amino acid permease"; protein_id "WP_001285432.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3323568 3324638 . + . gene_id "ECDH10B_RS16545"; transcript_id ""; gbkey "Gene"; gene "ygjJ"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16545"; old_locus_tag "ECDH10B_3254"; -NC_010473.1 Protein Homology CDS 3323568 3324635 . + 0 gene_id "ECDH10B_RS16545"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ygjJ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417550.1"; locus_tag "ECDH10B_RS16545"; product "protein YgjJ"; protein_id "WP_000767652.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3323568 3323570 . + 0 gene_id "ECDH10B_RS16545"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ygjJ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417550.1"; locus_tag "ECDH10B_RS16545"; product "protein YgjJ"; protein_id "WP_000767652.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3324636 3324638 . + 0 gene_id "ECDH10B_RS16545"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ygjJ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417550.1"; locus_tag "ECDH10B_RS16545"; product "protein YgjJ"; protein_id "WP_000767652.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3324655 3327006 . + . gene_id "ECDH10B_RS16550"; transcript_id ""; gbkey "Gene"; gene "ygjK"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16550"; old_locus_tag "ECDH10B_3255"; -NC_010473.1 Protein Homology CDS 3324655 3327003 . + 0 gene_id "ECDH10B_RS16550"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ygjK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417551.1"; locus_tag "ECDH10B_RS16550"; product "alpha-glucosidase"; protein_id "WP_000695487.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3324655 3324657 . + 0 gene_id "ECDH10B_RS16550"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ygjK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417551.1"; locus_tag "ECDH10B_RS16550"; product "alpha-glucosidase"; protein_id "WP_000695487.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3327004 3327006 . + 0 gene_id "ECDH10B_RS16550"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ygjK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417551.1"; locus_tag "ECDH10B_RS16550"; product "alpha-glucosidase"; protein_id "WP_000695487.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3327432 3329450 . + . gene_id "ECDH10B_RS16555"; transcript_id ""; gbkey "Gene"; gene "fadH"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16555"; old_locus_tag "ECDH10B_3256"; -NC_010473.1 Protein Homology CDS 3327432 3329447 . + 0 gene_id "ECDH10B_RS16555"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fadH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417552.1"; locus_tag "ECDH10B_RS16555"; product "NADPH-dependent 2,4-dienoyl-CoA reductase"; protein_id "WP_000121433.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3327432 3327434 . + 0 gene_id "ECDH10B_RS16555"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fadH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417552.1"; locus_tag "ECDH10B_RS16555"; product "NADPH-dependent 2,4-dienoyl-CoA reductase"; protein_id "WP_000121433.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3329448 3329450 . + 0 gene_id "ECDH10B_RS16555"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fadH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417552.1"; locus_tag "ECDH10B_RS16555"; product "NADPH-dependent 2,4-dienoyl-CoA reductase"; protein_id "WP_000121433.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3329495 3329911 . - . gene_id "ECDH10B_RS16560"; transcript_id ""; gbkey "Gene"; gene "higA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16560"; old_locus_tag "ECDH10B_3257"; -NC_010473.1 Protein Homology CDS 3329498 3329911 . - 0 gene_id "ECDH10B_RS16560"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "higA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417553.1"; locus_tag "ECDH10B_RS16560"; product "type II toxin-antitoxin system antitoxin HigA"; protein_id "WP_000560266.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3329909 3329911 . - 0 gene_id "ECDH10B_RS16560"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "higA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417553.1"; locus_tag "ECDH10B_RS16560"; product "type II toxin-antitoxin system antitoxin HigA"; protein_id "WP_000560266.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3329495 3329497 . - 0 gene_id "ECDH10B_RS16560"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "higA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417553.1"; locus_tag "ECDH10B_RS16560"; product "type II toxin-antitoxin system antitoxin HigA"; protein_id "WP_000560266.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3329908 3330222 . - . gene_id "ECDH10B_RS16565"; transcript_id ""; gbkey "Gene"; gene "higB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16565"; old_locus_tag "ECDH10B_3258"; -NC_010473.1 Protein Homology CDS 3329911 3330222 . - 0 gene_id "ECDH10B_RS16565"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "higB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311992.1"; locus_tag "ECDH10B_RS16565"; product "type II toxin-antitoxin system toxin HigB"; protein_id "WP_000550189.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3330220 3330222 . - 0 gene_id "ECDH10B_RS16565"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "higB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311992.1"; locus_tag "ECDH10B_RS16565"; product "type II toxin-antitoxin system toxin HigB"; protein_id "WP_000550189.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3329908 3329910 . - 0 gene_id "ECDH10B_RS16565"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "higB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311992.1"; locus_tag "ECDH10B_RS16565"; product "type II toxin-antitoxin system toxin HigB"; protein_id "WP_000550189.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3330506 3331642 . - . gene_id "ECDH10B_RS16575"; transcript_id ""; gbkey "Gene"; gene "rlmG"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16575"; old_locus_tag "ECDH10B_3259"; -NC_010473.1 Protein Homology CDS 3330509 3331642 . - 0 gene_id "ECDH10B_RS16575"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rlmG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417555.4"; locus_tag "ECDH10B_RS16575"; product "23S rRNA (guanine(1835)-N(2))-methyltransferase RlmG"; protein_id "WP_000018695.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3331640 3331642 . - 0 gene_id "ECDH10B_RS16575"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rlmG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417555.4"; locus_tag "ECDH10B_RS16575"; product "23S rRNA (guanine(1835)-N(2))-methyltransferase RlmG"; protein_id "WP_000018695.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3330506 3330508 . - 0 gene_id "ECDH10B_RS16575"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rlmG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417555.4"; locus_tag "ECDH10B_RS16575"; product "23S rRNA (guanine(1835)-N(2))-methyltransferase RlmG"; protein_id "WP_000018695.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3331727 3332230 . + . gene_id "ECDH10B_RS16580"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16580"; old_locus_tag "ECDH10B_3260"; -NC_010473.1 Protein Homology CDS 3331727 3332227 . + 0 gene_id "ECDH10B_RS16580"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417556.2"; locus_tag "ECDH10B_RS16580"; product "M48 family metallopeptidase"; protein_id "WP_001333820.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3331727 3331729 . + 0 gene_id "ECDH10B_RS16580"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417556.2"; locus_tag "ECDH10B_RS16580"; product "M48 family metallopeptidase"; protein_id "WP_001333820.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3332228 3332230 . + 0 gene_id "ECDH10B_RS16580"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417556.2"; locus_tag "ECDH10B_RS16580"; product "M48 family metallopeptidase"; protein_id "WP_001333820.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3332307 3332999 . + . gene_id "ECDH10B_RS16585"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16585"; old_locus_tag "ECDH10B_3261"; -NC_010473.1 Protein Homology CDS 3332307 3332996 . + 0 gene_id "ECDH10B_RS16585"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417557.1"; locus_tag "ECDH10B_RS16585"; product "vancomycin high temperature exclusion protein"; protein_id "WP_000942548.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3332307 3332309 . + 0 gene_id "ECDH10B_RS16585"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417557.1"; locus_tag "ECDH10B_RS16585"; product "vancomycin high temperature exclusion protein"; protein_id "WP_000942548.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3332997 3332999 . + 0 gene_id "ECDH10B_RS16585"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417557.1"; locus_tag "ECDH10B_RS16585"; product "vancomycin high temperature exclusion protein"; protein_id "WP_000942548.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3333078 3334064 . + . gene_id "ECDH10B_RS16590"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16590"; old_locus_tag "ECDH10B_3262"; -NC_010473.1 Protein Homology CDS 3333078 3334061 . + 0 gene_id "ECDH10B_RS16590"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417558.2"; locus_tag "ECDH10B_RS16590"; product "Gfo/Idh/MocA family oxidoreductase"; protein_id "WP_000617698.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3333078 3333080 . + 0 gene_id "ECDH10B_RS16590"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417558.2"; locus_tag "ECDH10B_RS16590"; product "Gfo/Idh/MocA family oxidoreductase"; protein_id "WP_000617698.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3334062 3334064 . + 0 gene_id "ECDH10B_RS16590"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417558.2"; locus_tag "ECDH10B_RS16590"; product "Gfo/Idh/MocA family oxidoreductase"; protein_id "WP_000617698.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3334347 3335312 . + . gene_id "ECDH10B_RS16595"; transcript_id ""; gbkey "Gene"; gene "alx"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16595"; old_locus_tag "ECDH10B_3264"; -NC_010473.1 Protein Homology CDS 3334347 3335309 . + 0 gene_id "ECDH10B_RS16595"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "alx"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026201.1"; locus_tag "ECDH10B_RS16595"; product "TerC family membrane protein Alx"; protein_id "WP_001098806.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3334347 3334349 . + 0 gene_id "ECDH10B_RS16595"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "alx"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026201.1"; locus_tag "ECDH10B_RS16595"; product "TerC family membrane protein Alx"; protein_id "WP_001098806.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3335310 3335312 . + 0 gene_id "ECDH10B_RS16595"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "alx"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026201.1"; locus_tag "ECDH10B_RS16595"; product "TerC family membrane protein Alx"; protein_id "WP_001098806.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3335711 3336955 . + . gene_id "ECDH10B_RS16600"; transcript_id ""; gbkey "Gene"; gene "sstT"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16600"; old_locus_tag "ECDH10B_3265"; -NC_010473.1 Protein Homology CDS 3335711 3336952 . + 0 gene_id "ECDH10B_RS16600"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sstT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311998.1"; locus_tag "ECDH10B_RS16600"; product "serine/threonine transporter SstT"; protein_id "WP_000211655.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3335711 3335713 . + 0 gene_id "ECDH10B_RS16600"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sstT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311998.1"; locus_tag "ECDH10B_RS16600"; product "serine/threonine transporter SstT"; protein_id "WP_000211655.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3336953 3336955 . + 0 gene_id "ECDH10B_RS16600"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sstT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_311998.1"; locus_tag "ECDH10B_RS16600"; product "serine/threonine transporter SstT"; protein_id "WP_000211655.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3336960 3337511 . - . gene_id "ECDH10B_RS16605"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16605"; old_locus_tag "ECDH10B_3266"; -NC_010473.1 Protein Homology CDS 3336963 3337511 . - 0 gene_id "ECDH10B_RS16605"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417561.1"; locus_tag "ECDH10B_RS16605"; product "YgjV family protein"; protein_id "WP_000128135.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3337509 3337511 . - 0 gene_id "ECDH10B_RS16605"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417561.1"; locus_tag "ECDH10B_RS16605"; product "YgjV family protein"; protein_id "WP_000128135.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3336960 3336962 . - 0 gene_id "ECDH10B_RS16605"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417561.1"; locus_tag "ECDH10B_RS16605"; product "YgjV family protein"; protein_id "WP_000128135.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3337594 3339081 . - . gene_id "ECDH10B_RS16610"; transcript_id ""; gbkey "Gene"; gene "uxaA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16610"; old_locus_tag "ECDH10B_3267"; -NC_010473.1 Protein Homology CDS 3337597 3339081 . - 0 gene_id "ECDH10B_RS16610"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "uxaA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001199350.1"; locus_tag "ECDH10B_RS16610"; product "altronate dehydratase"; protein_id "WP_001199390.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3339079 3339081 . - 0 gene_id "ECDH10B_RS16610"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "uxaA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001199350.1"; locus_tag "ECDH10B_RS16610"; product "altronate dehydratase"; protein_id "WP_001199390.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3337594 3337596 . - 0 gene_id "ECDH10B_RS16610"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "uxaA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001199350.1"; locus_tag "ECDH10B_RS16610"; product "altronate dehydratase"; protein_id "WP_001199390.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3339096 3340508 . - . gene_id "ECDH10B_RS16615"; transcript_id ""; gbkey "Gene"; gene "uxaC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16615"; old_locus_tag "ECDH10B_3268"; -NC_010473.1 Protein Homology CDS 3339099 3340508 . - 0 gene_id "ECDH10B_RS16615"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "uxaC"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_019077755.1"; locus_tag "ECDH10B_RS16615"; product "glucuronate isomerase"; protein_id "WP_000187442.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3340506 3340508 . - 0 gene_id "ECDH10B_RS16615"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "uxaC"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_019077755.1"; locus_tag "ECDH10B_RS16615"; product "glucuronate isomerase"; protein_id "WP_000187442.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3339096 3339098 . - 0 gene_id "ECDH10B_RS16615"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "uxaC"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_019077755.1"; locus_tag "ECDH10B_RS16615"; product "glucuronate isomerase"; protein_id "WP_000187442.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3340991 3342289 . + . gene_id "ECDH10B_RS16620"; transcript_id ""; gbkey "Gene"; gene "exuT"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16620"; old_locus_tag "ECDH10B_3269"; -NC_010473.1 Protein Homology CDS 3340991 3342286 . + 0 gene_id "ECDH10B_RS16620"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "exuT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_708898.2"; locus_tag "ECDH10B_RS16620"; product "hexuronate transporter ExuT"; protein_id "WP_001226465.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3340991 3340993 . + 0 gene_id "ECDH10B_RS16620"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "exuT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_708898.2"; locus_tag "ECDH10B_RS16620"; product "hexuronate transporter ExuT"; protein_id "WP_001226465.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3342287 3342289 . + 0 gene_id "ECDH10B_RS16620"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "exuT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_708898.2"; locus_tag "ECDH10B_RS16620"; product "hexuronate transporter ExuT"; protein_id "WP_001226465.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3342419 3343195 . + . gene_id "ECDH10B_RS16625"; transcript_id ""; gbkey "Gene"; gene "exuR"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16625"; old_locus_tag "ECDH10B_3270"; -NC_010473.1 Protein Homology CDS 3342419 3343192 . + 0 gene_id "ECDH10B_RS16625"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "exuR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_708902.1"; locus_tag "ECDH10B_RS16625"; product "transcriptional regulator ExuR"; protein_id "WP_000406488.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3342419 3342421 . + 0 gene_id "ECDH10B_RS16625"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "exuR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_708902.1"; locus_tag "ECDH10B_RS16625"; product "transcriptional regulator ExuR"; protein_id "WP_000406488.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3343193 3343195 . + 0 gene_id "ECDH10B_RS16625"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "exuR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_708902.1"; locus_tag "ECDH10B_RS16625"; product "transcriptional regulator ExuR"; protein_id "WP_000406488.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3343540 3344202 . + . gene_id "ECDH10B_RS16630"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16630"; old_locus_tag "ECDH10B_3271"; -NC_010473.1 Protein Homology CDS 3343540 3344199 . + 0 gene_id "ECDH10B_RS16630"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312004.1"; locus_tag "ECDH10B_RS16630"; product "DedA family protein"; protein_id "WP_000422149.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3343540 3343542 . + 0 gene_id "ECDH10B_RS16630"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312004.1"; locus_tag "ECDH10B_RS16630"; product "DedA family protein"; protein_id "WP_000422149.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3344200 3344202 . + 0 gene_id "ECDH10B_RS16630"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312004.1"; locus_tag "ECDH10B_RS16630"; product "DedA family protein"; protein_id "WP_000422149.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3344206 3344589 . + . gene_id "ECDH10B_RS16635"; transcript_id ""; gbkey "Gene"; gene "mzrA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16635"; old_locus_tag "ECDH10B_3272"; -NC_010473.1 Protein Homology CDS 3344206 3344586 . + 0 gene_id "ECDH10B_RS16635"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mzrA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417567.1"; locus_tag "ECDH10B_RS16635"; product "EnvZ/OmpR regulon moderator MzrA"; protein_id "WP_001166760.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3344206 3344208 . + 0 gene_id "ECDH10B_RS16635"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mzrA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417567.1"; locus_tag "ECDH10B_RS16635"; product "EnvZ/OmpR regulon moderator MzrA"; protein_id "WP_001166760.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3344587 3344589 . + 0 gene_id "ECDH10B_RS16635"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mzrA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417567.1"; locus_tag "ECDH10B_RS16635"; product "EnvZ/OmpR regulon moderator MzrA"; protein_id "WP_001166760.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3344736 3345104 . + . gene_id "ECDH10B_RS16640"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16640"; old_locus_tag "ECDH10B_3273"; -NC_010473.1 Protein Homology CDS 3344736 3345101 . + 0 gene_id "ECDH10B_RS16640"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417568.2"; locus_tag "ECDH10B_RS16640"; product "DUF1090 domain-containing protein"; protein_id "WP_001295543.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3344736 3344738 . + 0 gene_id "ECDH10B_RS16640"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417568.2"; locus_tag "ECDH10B_RS16640"; product "DUF1090 domain-containing protein"; protein_id "WP_001295543.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3345102 3345104 . + 0 gene_id "ECDH10B_RS16640"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417568.2"; locus_tag "ECDH10B_RS16640"; product "DUF1090 domain-containing protein"; protein_id "WP_001295543.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3345142 3345447 . + . gene_id "ECDH10B_RS16645"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16645"; old_locus_tag "ECDH10B_3274"; -NC_010473.1 Protein Homology CDS 3345142 3345444 . + 0 gene_id "ECDH10B_RS16645"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312007.1"; locus_tag "ECDH10B_RS16645"; product "DUF883 domain-containing protein"; protein_id "WP_000031415.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3345142 3345144 . + 0 gene_id "ECDH10B_RS16645"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312007.1"; locus_tag "ECDH10B_RS16645"; product "DUF883 domain-containing protein"; protein_id "WP_000031415.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3345445 3345447 . + 0 gene_id "ECDH10B_RS16645"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312007.1"; locus_tag "ECDH10B_RS16645"; product "DUF883 domain-containing protein"; protein_id "WP_000031415.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3345450 3345854 . + . gene_id "ECDH10B_RS16650"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16650"; old_locus_tag "ECDH10B_3275"; -NC_010473.1 Protein Homology CDS 3345450 3345851 . + 0 gene_id "ECDH10B_RS16650"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312008.1"; locus_tag "ECDH10B_RS16650"; product "phage holin family protein"; protein_id "WP_000785722.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3345450 3345452 . + 0 gene_id "ECDH10B_RS16650"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312008.1"; locus_tag "ECDH10B_RS16650"; product "phage holin family protein"; protein_id "WP_000785722.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3345852 3345854 . + 0 gene_id "ECDH10B_RS16650"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312008.1"; locus_tag "ECDH10B_RS16650"; product "phage holin family protein"; protein_id "WP_000785722.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3345844 3346143 . + . gene_id "ECDH10B_RS16655"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16655"; old_locus_tag "ECDH10B_3276"; -NC_010473.1 Protein Homology CDS 3345844 3346140 . + 0 gene_id "ECDH10B_RS16655"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417571.1"; locus_tag "ECDH10B_RS16655"; product "YqjK-like family protein"; protein_id "WP_000096091.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3345844 3345846 . + 0 gene_id "ECDH10B_RS16655"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417571.1"; locus_tag "ECDH10B_RS16655"; product "YqjK-like family protein"; protein_id "WP_000096091.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3346141 3346143 . + 0 gene_id "ECDH10B_RS16655"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417571.1"; locus_tag "ECDH10B_RS16655"; product "YqjK-like family protein"; protein_id "WP_000096091.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3346329 3346721 . + . gene_id "ECDH10B_RS16660"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16660"; old_locus_tag "ECDH10B_3277"; -NC_010473.1 Protein Homology CDS 3346329 3346718 . + 0 gene_id "ECDH10B_RS16660"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_008503138.1"; locus_tag "ECDH10B_RS16660"; product "DoxX family protein"; protein_id "WP_000732240.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3346329 3346331 . + 0 gene_id "ECDH10B_RS16660"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_008503138.1"; locus_tag "ECDH10B_RS16660"; product "DoxX family protein"; protein_id "WP_000732240.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3346719 3346721 . + 0 gene_id "ECDH10B_RS16660"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_008503138.1"; locus_tag "ECDH10B_RS16660"; product "DoxX family protein"; protein_id "WP_000732240.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3346791 3347777 . + . gene_id "ECDH10B_RS16665"; transcript_id ""; gbkey "Gene"; gene "yqjG"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16665"; old_locus_tag "ECDH10B_3278"; -NC_010473.1 Protein Homology CDS 3346791 3347774 . + 0 gene_id "ECDH10B_RS16665"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yqjG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417573.1"; locus_tag "ECDH10B_RS16665"; product "glutathionyl-hydroquinone reductase YqjG"; protein_id "WP_000531213.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3346791 3346793 . + 0 gene_id "ECDH10B_RS16665"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yqjG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417573.1"; locus_tag "ECDH10B_RS16665"; product "glutathionyl-hydroquinone reductase YqjG"; protein_id "WP_000531213.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3347775 3347777 . + 0 gene_id "ECDH10B_RS16665"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yqjG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417573.1"; locus_tag "ECDH10B_RS16665"; product "glutathionyl-hydroquinone reductase YqjG"; protein_id "WP_000531213.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3348071 3348436 . + . gene_id "ECDH10B_RS16670"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16670"; old_locus_tag "ECDH10B_3279"; -NC_010473.1 Protein Homology CDS 3348071 3348433 . + 0 gene_id "ECDH10B_RS16670"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312012.1"; locus_tag "ECDH10B_RS16670"; product "DUF805 domain-containing protein"; protein_id "WP_000384145.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3348071 3348073 . + 0 gene_id "ECDH10B_RS16670"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312012.1"; locus_tag "ECDH10B_RS16670"; product "DUF805 domain-containing protein"; protein_id "WP_000384145.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3348434 3348436 . + 0 gene_id "ECDH10B_RS16670"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312012.1"; locus_tag "ECDH10B_RS16670"; product "DUF805 domain-containing protein"; protein_id "WP_000384145.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3348678 3349034 . + . gene_id "ECDH10B_RS16675"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16675"; old_locus_tag "ECDH10B_3280"; -NC_010473.1 Protein Homology CDS 3348678 3349031 . + 0 gene_id "ECDH10B_RS16675"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312013.1"; locus_tag "ECDH10B_RS16675"; product "DUF805 domain-containing protein"; protein_id "WP_001198807.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3348678 3348680 . + 0 gene_id "ECDH10B_RS16675"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312013.1"; locus_tag "ECDH10B_RS16675"; product "DUF805 domain-containing protein"; protein_id "WP_001198807.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3349032 3349034 . + 0 gene_id "ECDH10B_RS16675"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312013.1"; locus_tag "ECDH10B_RS16675"; product "DUF805 domain-containing protein"; protein_id "WP_001198807.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3349085 3349981 . - . gene_id "ECDH10B_RS16680"; transcript_id ""; gbkey "Gene"; gene "yhaJ"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16680"; old_locus_tag "ECDH10B_3281"; -NC_010473.1 Protein Homology CDS 3349088 3349981 . - 0 gene_id "ECDH10B_RS16680"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yhaJ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312014.1"; locus_tag "ECDH10B_RS16680"; product "DNA-binding transcriptional regulator YhaJ"; protein_id "WP_001041009.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3349979 3349981 . - 0 gene_id "ECDH10B_RS16680"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yhaJ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312014.1"; locus_tag "ECDH10B_RS16680"; product "DNA-binding transcriptional regulator YhaJ"; protein_id "WP_001041009.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3349085 3349087 . - 0 gene_id "ECDH10B_RS16680"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yhaJ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312014.1"; locus_tag "ECDH10B_RS16680"; product "DNA-binding transcriptional regulator YhaJ"; protein_id "WP_001041009.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3350086 3350787 . + . gene_id "ECDH10B_RS16685"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16685"; old_locus_tag "ECDH10B_3282"; -NC_010473.1 Protein Homology CDS 3350086 3350784 . + 0 gene_id "ECDH10B_RS16685"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417577.1"; locus_tag "ECDH10B_RS16685"; product "pirin family protein"; protein_id "WP_000633576.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3350086 3350088 . + 0 gene_id "ECDH10B_RS16685"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417577.1"; locus_tag "ECDH10B_RS16685"; product "pirin family protein"; protein_id "WP_000633576.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3350785 3350787 . + 0 gene_id "ECDH10B_RS16685"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417577.1"; locus_tag "ECDH10B_RS16685"; product "pirin family protein"; protein_id "WP_000633576.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3350810 3350974 . + . gene_id "ECDH10B_RS16690"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16690"; old_locus_tag "ECDH10B_3283"; -NC_010473.1 Protein Homology CDS 3350810 3350971 . + 0 gene_id "ECDH10B_RS16690"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417578.2"; locus_tag "ECDH10B_RS16690"; product "hypothetical protein"; protein_id "WP_001345966.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3350810 3350812 . + 0 gene_id "ECDH10B_RS16690"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417578.2"; locus_tag "ECDH10B_RS16690"; product "hypothetical protein"; protein_id "WP_001345966.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3350972 3350974 . + 0 gene_id "ECDH10B_RS16690"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417578.2"; locus_tag "ECDH10B_RS16690"; product "hypothetical protein"; protein_id "WP_001345966.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3351108 3352418 . - . gene_id "ECDH10B_RS16695"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16695"; old_locus_tag "ECDH10B_3284"; -NC_010473.1 Protein Homology CDS 3351111 3352418 . - 0 gene_id "ECDH10B_RS16695"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026202.1"; locus_tag "ECDH10B_RS16695"; product "serine dehydratase subunit alpha family protein"; protein_id "WP_000460499.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3352416 3352418 . - 0 gene_id "ECDH10B_RS16695"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026202.1"; locus_tag "ECDH10B_RS16695"; product "serine dehydratase subunit alpha family protein"; protein_id "WP_000460499.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3351108 3351110 . - 0 gene_id "ECDH10B_RS16695"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026202.1"; locus_tag "ECDH10B_RS16695"; product "serine dehydratase subunit alpha family protein"; protein_id "WP_000460499.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3352446 3353777 . - . gene_id "ECDH10B_RS16700"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16700"; old_locus_tag "ECDH10B_3285"; -NC_010473.1 Protein Homology CDS 3352449 3353777 . - 0 gene_id "ECDH10B_RS16700"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026203.3"; locus_tag "ECDH10B_RS16700"; product "HAAAP family serine/threonine permease"; protein_id "WP_000401598.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3353775 3353777 . - 0 gene_id "ECDH10B_RS16700"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026203.3"; locus_tag "ECDH10B_RS16700"; product "HAAAP family serine/threonine permease"; protein_id "WP_000401598.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3352446 3352448 . - 0 gene_id "ECDH10B_RS16700"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026203.3"; locus_tag "ECDH10B_RS16700"; product "HAAAP family serine/threonine permease"; protein_id "WP_000401598.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3354052 3355416 . - . gene_id "ECDH10B_RS16705"; transcript_id ""; gbkey "Gene"; gene "tdcG"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16705"; old_locus_tag "ECDH10B_3286"; -NC_010473.1 Protein Homology CDS 3354055 3355416 . - 0 gene_id "ECDH10B_RS16705"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tdcG"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026204.1"; locus_tag "ECDH10B_RS16705"; product "L-serine ammonia-lyase"; protein_id "WP_000622126.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3355414 3355416 . - 0 gene_id "ECDH10B_RS16705"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tdcG"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026204.1"; locus_tag "ECDH10B_RS16705"; product "L-serine ammonia-lyase"; protein_id "WP_000622126.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3354052 3354054 . - 0 gene_id "ECDH10B_RS16705"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tdcG"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026204.1"; locus_tag "ECDH10B_RS16705"; product "L-serine ammonia-lyase"; protein_id "WP_000622126.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3355488 3355877 . - . gene_id "ECDH10B_RS16710"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16710"; old_locus_tag "ECDH10B_3287"; -NC_010473.1 Protein Homology CDS 3355491 3355877 . - 0 gene_id "ECDH10B_RS16710"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312020.2"; locus_tag "ECDH10B_RS16710"; product "enamine/imine deaminase"; protein_id "WP_000719990.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3355875 3355877 . - 0 gene_id "ECDH10B_RS16710"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312020.2"; locus_tag "ECDH10B_RS16710"; product "enamine/imine deaminase"; protein_id "WP_000719990.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3355488 3355490 . - 0 gene_id "ECDH10B_RS16710"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312020.2"; locus_tag "ECDH10B_RS16710"; product "enamine/imine deaminase"; protein_id "WP_000719990.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3355891 3358185 . - . gene_id "ECDH10B_RS16715"; transcript_id ""; gbkey "Gene"; gene "tdcE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16715"; old_locus_tag "ECDH10B_3288"; -NC_010473.1 Protein Homology CDS 3355894 3358185 . - 0 gene_id "ECDH10B_RS16715"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tdcE"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026205.1"; locus_tag "ECDH10B_RS16715"; product "2-ketobutyrate formate-lyase/pyruvate formate-lyase"; protein_id "WP_000861734.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3358183 3358185 . - 0 gene_id "ECDH10B_RS16715"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tdcE"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026205.1"; locus_tag "ECDH10B_RS16715"; product "2-ketobutyrate formate-lyase/pyruvate formate-lyase"; protein_id "WP_000861734.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3355891 3355893 . - 0 gene_id "ECDH10B_RS16715"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tdcE"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026205.1"; locus_tag "ECDH10B_RS16715"; product "2-ketobutyrate formate-lyase/pyruvate formate-lyase"; protein_id "WP_000861734.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3358219 3359427 . - . gene_id "ECDH10B_RS16720"; transcript_id ""; gbkey "Gene"; gene "tdcD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16720"; old_locus_tag "ECDH10B_3289"; -NC_010473.1 Protein Homology CDS 3358222 3359427 . - 0 gene_id "ECDH10B_RS16720"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tdcD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417585.2"; locus_tag "ECDH10B_RS16720"; product "propionate kinase"; protein_id "WP_001295545.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3359425 3359427 . - 0 gene_id "ECDH10B_RS16720"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tdcD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417585.2"; locus_tag "ECDH10B_RS16720"; product "propionate kinase"; protein_id "WP_001295545.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3358219 3358221 . - 0 gene_id "ECDH10B_RS16720"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tdcD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417585.2"; locus_tag "ECDH10B_RS16720"; product "propionate kinase"; protein_id "WP_001295545.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3359453 3360784 . - . gene_id "ECDH10B_RS16725"; transcript_id ""; gbkey "Gene"; gene "tdcC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16725"; old_locus_tag "ECDH10B_3290"; -NC_010473.1 Protein Homology CDS 3359456 3360784 . - 0 gene_id "ECDH10B_RS16725"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tdcC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312023.1"; locus_tag "ECDH10B_RS16725"; product "threonine/serine transporter TdcC"; protein_id "WP_000107723.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3360782 3360784 . - 0 gene_id "ECDH10B_RS16725"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tdcC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312023.1"; locus_tag "ECDH10B_RS16725"; product "threonine/serine transporter TdcC"; protein_id "WP_000107723.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3359453 3359455 . - 0 gene_id "ECDH10B_RS16725"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tdcC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312023.1"; locus_tag "ECDH10B_RS16725"; product "threonine/serine transporter TdcC"; protein_id "WP_000107723.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3360806 3361795 . - . gene_id "ECDH10B_RS16730"; transcript_id ""; gbkey "Gene"; gene "tdcB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16730"; old_locus_tag "ECDH10B_3291"; -NC_010473.1 Protein Homology CDS 3360809 3361795 . - 0 gene_id "ECDH10B_RS16730"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tdcB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312024.1"; locus_tag "ECDH10B_RS16730"; product "bifunctional threonine ammonia-lyase/L-serine ammonia-lyase TdcB"; protein_id "WP_000548347.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3361793 3361795 . - 0 gene_id "ECDH10B_RS16730"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tdcB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312024.1"; locus_tag "ECDH10B_RS16730"; product "bifunctional threonine ammonia-lyase/L-serine ammonia-lyase TdcB"; protein_id "WP_000548347.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3360806 3360808 . - 0 gene_id "ECDH10B_RS16730"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tdcB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312024.1"; locus_tag "ECDH10B_RS16730"; product "bifunctional threonine ammonia-lyase/L-serine ammonia-lyase TdcB"; protein_id "WP_000548347.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3361894 3362832 . - . gene_id "ECDH10B_RS16735"; transcript_id ""; gbkey "Gene"; gene "tdcA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16735"; old_locus_tag "ECDH10B_3292"; -NC_010473.1 Protein Homology CDS 3361897 3362832 . - 0 gene_id "ECDH10B_RS16735"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tdcA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312025.1"; locus_tag "ECDH10B_RS16735"; product "transcriptional regulator TdcA"; protein_id "WP_000104211.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3362830 3362832 . - 0 gene_id "ECDH10B_RS16735"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tdcA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312025.1"; locus_tag "ECDH10B_RS16735"; product "transcriptional regulator TdcA"; protein_id "WP_000104211.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3361894 3361896 . - 0 gene_id "ECDH10B_RS16735"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tdcA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312025.1"; locus_tag "ECDH10B_RS16735"; product "transcriptional regulator TdcA"; protein_id "WP_000104211.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3363021 3363365 . + . gene_id "ECDH10B_RS16740"; transcript_id ""; gbkey "Gene"; gene "tdcR"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16740"; -NC_010473.1 Protein Homology CDS 3363021 3363362 . + 0 gene_id "ECDH10B_RS16740"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tdcR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312026.1"; locus_tag "ECDH10B_RS16740"; product "DNA-binding transcriptional activator TdcR"; protein_id "WP_000145840.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3363021 3363023 . + 0 gene_id "ECDH10B_RS16740"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tdcR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312026.1"; locus_tag "ECDH10B_RS16740"; product "DNA-binding transcriptional activator TdcR"; protein_id "WP_000145840.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3363363 3363365 . + 0 gene_id "ECDH10B_RS16740"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tdcR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312026.1"; locus_tag "ECDH10B_RS16740"; product "DNA-binding transcriptional activator TdcR"; protein_id "WP_000145840.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3363621 3364160 . + . gene_id "ECDH10B_RS16745"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16745"; old_locus_tag "ECDH10B_3294"; -NC_010473.1 Protein Homology CDS 3363621 3364157 . + 0 gene_id "ECDH10B_RS16745"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417590.2"; locus_tag "ECDH10B_RS16745"; product "hypothetical protein"; protein_id "WP_000675733.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3363621 3363623 . + 0 gene_id "ECDH10B_RS16745"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417590.2"; locus_tag "ECDH10B_RS16745"; product "hypothetical protein"; protein_id "WP_000675733.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3364158 3364160 . + 0 gene_id "ECDH10B_RS16745"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417590.2"; locus_tag "ECDH10B_RS16745"; product "hypothetical protein"; protein_id "WP_000675733.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3364182 3365369 . + . gene_id "ECDH10B_RS16750"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16750"; old_locus_tag "ECDH10B_3295"; -NC_010473.1 Protein Homology CDS 3364182 3365366 . + 0 gene_id "ECDH10B_RS16750"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417591.1"; locus_tag "ECDH10B_RS16750"; product "YhaC family protein"; protein_id "WP_000484600.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3364182 3364184 . + 0 gene_id "ECDH10B_RS16750"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417591.1"; locus_tag "ECDH10B_RS16750"; product "YhaC family protein"; protein_id "WP_000484600.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3365367 3365369 . + 0 gene_id "ECDH10B_RS16750"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417591.1"; locus_tag "ECDH10B_RS16750"; product "YhaC family protein"; protein_id "WP_000484600.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3365983 3366359 . - . gene_id "ECDH10B_RS23405"; transcript_id ""; gbkey "Gene"; gene "rnpB"; gene_biotype "RNase_P_RNA"; locus_tag "ECDH10B_RS23405"; old_locus_tag "ECDH10B_3296"; -NC_010473.1 cmsearch exon 3365983 3366359 . - . gene_id "ECDH10B_RS23405"; transcript_id "ECDH10B_RS23405"; db_xref "RFAM:RF00010"; gbkey "ncRNA"; gene "rnpB"; inference "COORDINATES: nucleotide motif:Rfam:12.0:RF00010"; inference "COORDINATES: profile:INFERNAL:1.1.1"; locus_tag "ECDH10B_RS23405"; product "RNase P RNA component class A"; exon_number "1"; -NC_010473.1 RefSeq gene 3366392 3367537 . - . gene_id "ECDH10B_RS16755"; transcript_id ""; gbkey "Gene"; gene "garK"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16755"; old_locus_tag "ECDH10B_3297"; -NC_010473.1 Protein Homology CDS 3366395 3367537 . - 0 gene_id "ECDH10B_RS16755"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "garK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417593.4"; locus_tag "ECDH10B_RS16755"; product "glycerate 2-kinase"; protein_id "WP_001300387.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3367535 3367537 . - 0 gene_id "ECDH10B_RS16755"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "garK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417593.4"; locus_tag "ECDH10B_RS16755"; product "glycerate 2-kinase"; protein_id "WP_001300387.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3366392 3366394 . - 0 gene_id "ECDH10B_RS16755"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "garK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417593.4"; locus_tag "ECDH10B_RS16755"; product "glycerate 2-kinase"; protein_id "WP_001300387.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3367634 3368524 . - . gene_id "ECDH10B_RS16760"; transcript_id ""; gbkey "Gene"; gene "garR"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16760"; old_locus_tag "ECDH10B_3298"; -NC_010473.1 Protein Homology CDS 3367637 3368524 . - 0 gene_id "ECDH10B_RS16760"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "garR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312030.2"; locus_tag "ECDH10B_RS16760"; product "2-hydroxy-3-oxopropionate reductase"; protein_id "WP_001303675.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3368522 3368524 . - 0 gene_id "ECDH10B_RS16760"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "garR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312030.2"; locus_tag "ECDH10B_RS16760"; product "2-hydroxy-3-oxopropionate reductase"; protein_id "WP_001303675.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3367634 3367636 . - 0 gene_id "ECDH10B_RS16760"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "garR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312030.2"; locus_tag "ECDH10B_RS16760"; product "2-hydroxy-3-oxopropionate reductase"; protein_id "WP_001303675.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3368554 3369324 . - . gene_id "ECDH10B_RS16765"; transcript_id ""; gbkey "Gene"; gene "garL"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16765"; old_locus_tag "ECDH10B_3299"; -NC_010473.1 Protein Homology CDS 3368557 3369324 . - 0 gene_id "ECDH10B_RS16765"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "garL"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417595.1"; locus_tag "ECDH10B_RS16765"; product "2-dehydro-3-deoxyglucarate aldolase"; protein_id "WP_001058209.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3369322 3369324 . - 0 gene_id "ECDH10B_RS16765"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "garL"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417595.1"; locus_tag "ECDH10B_RS16765"; product "2-dehydro-3-deoxyglucarate aldolase"; protein_id "WP_001058209.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3368554 3368556 . - 0 gene_id "ECDH10B_RS16765"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "garL"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417595.1"; locus_tag "ECDH10B_RS16765"; product "2-dehydro-3-deoxyglucarate aldolase"; protein_id "WP_001058209.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3369340 3370674 . - . gene_id "ECDH10B_RS16770"; transcript_id ""; gbkey "Gene"; gene "garP"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16770"; old_locus_tag "ECDH10B_3300"; -NC_010473.1 Protein Homology CDS 3369343 3370674 . - 0 gene_id "ECDH10B_RS16770"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "garP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312032.1"; locus_tag "ECDH10B_RS16770"; product "galactarate/glucarate/glycerate transporter GarP"; protein_id "WP_000599636.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3370672 3370674 . - 0 gene_id "ECDH10B_RS16770"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "garP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312032.1"; locus_tag "ECDH10B_RS16770"; product "galactarate/glucarate/glycerate transporter GarP"; protein_id "WP_000599636.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3369340 3369342 . - 0 gene_id "ECDH10B_RS16770"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "garP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312032.1"; locus_tag "ECDH10B_RS16770"; product "galactarate/glucarate/glycerate transporter GarP"; protein_id "WP_000599636.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3371049 3372620 . + . gene_id "ECDH10B_RS16775"; transcript_id ""; gbkey "Gene"; gene "garD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16775"; old_locus_tag "ECDH10B_3301"; -NC_010473.1 Protein Homology CDS 3371049 3372617 . + 0 gene_id "ECDH10B_RS16775"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "garD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417597.1"; locus_tag "ECDH10B_RS16775"; product "galactarate dehydratase"; protein_id "WP_001273753.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3371049 3371051 . + 0 gene_id "ECDH10B_RS16775"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "garD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417597.1"; locus_tag "ECDH10B_RS16775"; product "galactarate dehydratase"; protein_id "WP_001273753.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3372618 3372620 . + 0 gene_id "ECDH10B_RS16775"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "garD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417597.1"; locus_tag "ECDH10B_RS16775"; product "galactarate dehydratase"; protein_id "WP_001273753.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3372769 3373104 . + . gene_id "ECDH10B_RS16780"; transcript_id ""; gbkey "Gene"; gene "prlF"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16780"; old_locus_tag "ECDH10B_3302"; -NC_010473.1 Protein Homology CDS 3372769 3373101 . + 0 gene_id "ECDH10B_RS16780"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "prlF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417598.1"; locus_tag "ECDH10B_RS16780"; product "type II toxin-antitoxin system antitoxin PrlF"; protein_id "WP_001307405.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3372769 3372771 . + 0 gene_id "ECDH10B_RS16780"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "prlF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417598.1"; locus_tag "ECDH10B_RS16780"; product "type II toxin-antitoxin system antitoxin PrlF"; protein_id "WP_001307405.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3373102 3373104 . + 0 gene_id "ECDH10B_RS16780"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "prlF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417598.1"; locus_tag "ECDH10B_RS16780"; product "type II toxin-antitoxin system antitoxin PrlF"; protein_id "WP_001307405.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3373104 3373568 . + . gene_id "ECDH10B_RS16785"; transcript_id ""; gbkey "Gene"; gene "yhaV"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16785"; old_locus_tag "ECDH10B_3303"; -NC_010473.1 Protein Homology CDS 3373104 3373565 . + 0 gene_id "ECDH10B_RS16785"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yhaV"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312035.1"; locus_tag "ECDH10B_RS16785"; product "type II toxin-antitoxin system ribonuclease toxin YhaV"; protein_id "WP_000347273.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3373104 3373106 . + 0 gene_id "ECDH10B_RS16785"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yhaV"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312035.1"; locus_tag "ECDH10B_RS16785"; product "type II toxin-antitoxin system ribonuclease toxin YhaV"; protein_id "WP_000347273.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3373566 3373568 . + 0 gene_id "ECDH10B_RS16785"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yhaV"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312035.1"; locus_tag "ECDH10B_RS16785"; product "type II toxin-antitoxin system ribonuclease toxin YhaV"; protein_id "WP_000347273.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3373623 3374432 . - . gene_id "ECDH10B_RS16790"; transcript_id ""; gbkey "Gene"; gene "agaR"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16790"; old_locus_tag "ECDH10B_3304"; -NC_010473.1 Protein Homology CDS 3373626 3374432 . - 0 gene_id "ECDH10B_RS16790"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "agaR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312036.1"; locus_tag "ECDH10B_RS16790"; product "aga operon transcriptional regulator AgaR"; protein_id "WP_000072187.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3374430 3374432 . - 0 gene_id "ECDH10B_RS16790"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "agaR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312036.1"; locus_tag "ECDH10B_RS16790"; product "aga operon transcriptional regulator AgaR"; protein_id "WP_000072187.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3373623 3373625 . - 0 gene_id "ECDH10B_RS16790"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "agaR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312036.1"; locus_tag "ECDH10B_RS16790"; product "aga operon transcriptional regulator AgaR"; protein_id "WP_000072187.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3374681 3375961 . + . gene_id "ECDH10B_RS16795"; transcript_id ""; gbkey "Gene"; gene "kbaZ"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16795"; old_locus_tag "ECDH10B_3305"; -NC_010473.1 Protein Homology CDS 3374681 3375958 . + 0 gene_id "ECDH10B_RS16795"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "kbaZ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417601.1"; locus_tag "ECDH10B_RS16795"; product "tagatose-bisphosphate aldolase subunit KbaZ"; protein_id "WP_000681920.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3374681 3374683 . + 0 gene_id "ECDH10B_RS16795"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "kbaZ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417601.1"; locus_tag "ECDH10B_RS16795"; product "tagatose-bisphosphate aldolase subunit KbaZ"; protein_id "WP_000681920.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3375959 3375961 . + 0 gene_id "ECDH10B_RS16795"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "kbaZ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417601.1"; locus_tag "ECDH10B_RS16795"; product "tagatose-bisphosphate aldolase subunit KbaZ"; protein_id "WP_000681920.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3375984 3376457 . + . gene_id "ECDH10B_RS16800"; transcript_id ""; gbkey "Gene"; gene "agaV"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16800"; old_locus_tag "ECDH10B_3306"; -NC_010473.1 Protein Homology CDS 3375984 3376454 . + 0 gene_id "ECDH10B_RS16800"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "agaV"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417602.4"; locus_tag "ECDH10B_RS16800"; product "PTS N-acetylgalactosamine transporter subunit IIB"; protein_id "WP_001336162.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3375984 3375986 . + 0 gene_id "ECDH10B_RS16800"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "agaV"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417602.4"; locus_tag "ECDH10B_RS16800"; product "PTS N-acetylgalactosamine transporter subunit IIB"; protein_id "WP_001336162.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3376455 3376457 . + 0 gene_id "ECDH10B_RS16800"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "agaV"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417602.4"; locus_tag "ECDH10B_RS16800"; product "PTS N-acetylgalactosamine transporter subunit IIB"; protein_id "WP_001336162.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3376468 3376839 . + . gene_id "ECDH10B_RS16805"; transcript_id ""; gbkey "Gene"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS16805"; old_locus_tag "ECDH10B_3307"; partial "true"; pseudo "true"; -NC_010473.1 Protein Homology CDS 3376468 3376836 . + 0 gene_id "ECDH10B_RS16805"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312039.1"; locus_tag "ECDH10B_RS16805"; note "incomplete; partial in the middle of a contig; missing C-terminus"; partial "true"; product "PTS sugar transporter subunit IIC"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3376468 3376470 . + 0 gene_id "ECDH10B_RS16805"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312039.1"; locus_tag "ECDH10B_RS16805"; note "incomplete; partial in the middle of a contig; missing C-terminus"; partial "true"; product "PTS sugar transporter subunit IIC"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3376837 3376839 . + 0 gene_id "ECDH10B_RS16805"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312039.1"; locus_tag "ECDH10B_RS16805"; note "incomplete; partial in the middle of a contig; missing C-terminus"; partial "true"; product "PTS sugar transporter subunit IIC"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 3376835 3377392 . + . gene_id "ECDH10B_RS16810"; transcript_id ""; gbkey "Gene"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS16810"; old_locus_tag "ECDH10B_3308"; partial "true"; pseudo "true"; -NC_010473.1 Protein Homology CDS 3376835 3377389 . + 0 gene_id "ECDH10B_RS16810"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312042.2"; locus_tag "ECDH10B_RS16810"; note "incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "amidohydrolase family protein"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3376835 3376837 . + 0 gene_id "ECDH10B_RS16810"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312042.2"; locus_tag "ECDH10B_RS16810"; note "incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "amidohydrolase family protein"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3377390 3377392 . + 0 gene_id "ECDH10B_RS16810"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312042.2"; locus_tag "ECDH10B_RS16810"; note "incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "amidohydrolase family protein"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 3377743 3378897 . + . gene_id "ECDH10B_RS16815"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16815"; old_locus_tag "ECDH10B_3309"; -NC_010473.1 Protein Homology CDS 3377743 3378894 . + 0 gene_id "ECDH10B_RS16815"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417605.1"; locus_tag "ECDH10B_RS16815"; product "AgaS family sugar isomerase"; protein_id "WP_001114869.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3377743 3377745 . + 0 gene_id "ECDH10B_RS16815"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417605.1"; locus_tag "ECDH10B_RS16815"; product "AgaS family sugar isomerase"; protein_id "WP_001114869.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3378895 3378897 . + 0 gene_id "ECDH10B_RS16815"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417605.1"; locus_tag "ECDH10B_RS16815"; product "AgaS family sugar isomerase"; protein_id "WP_001114869.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3378910 3379770 . + . gene_id "ECDH10B_RS16820"; transcript_id ""; gbkey "Gene"; gene "kbaY"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16820"; old_locus_tag "ECDH10B_3310"; -NC_010473.1 Protein Homology CDS 3378910 3379767 . + 0 gene_id "ECDH10B_RS16820"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "kbaY"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312044.1"; locus_tag "ECDH10B_RS16820"; product "tagatose-bisphosphate aldolase subunit KbaY"; protein_id "WP_000022766.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3378910 3378912 . + 0 gene_id "ECDH10B_RS16820"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "kbaY"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312044.1"; locus_tag "ECDH10B_RS16820"; product "tagatose-bisphosphate aldolase subunit KbaY"; protein_id "WP_000022766.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3379768 3379770 . + 0 gene_id "ECDH10B_RS16820"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "kbaY"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312044.1"; locus_tag "ECDH10B_RS16820"; product "tagatose-bisphosphate aldolase subunit KbaY"; protein_id "WP_000022766.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3379937 3380413 . + . gene_id "ECDH10B_RS16825"; transcript_id ""; gbkey "Gene"; gene "agaB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16825"; old_locus_tag "ECDH10B_3311"; -NC_010473.1 Protein Homology CDS 3379937 3380410 . + 0 gene_id "ECDH10B_RS16825"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "agaB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417607.1"; locus_tag "ECDH10B_RS16825"; product "PTS N-acetylgalactosamine transporter subunit IIB"; protein_id "WP_000203711.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3379937 3379939 . + 0 gene_id "ECDH10B_RS16825"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "agaB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417607.1"; locus_tag "ECDH10B_RS16825"; product "PTS N-acetylgalactosamine transporter subunit IIB"; protein_id "WP_000203711.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3380411 3380413 . + 0 gene_id "ECDH10B_RS16825"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "agaB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417607.1"; locus_tag "ECDH10B_RS16825"; product "PTS N-acetylgalactosamine transporter subunit IIB"; protein_id "WP_000203711.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3380452 3381255 . + . gene_id "ECDH10B_RS16830"; transcript_id ""; gbkey "Gene"; gene "agaC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16830"; old_locus_tag "ECDH10B_3312"; -NC_010473.1 Protein Homology CDS 3380452 3381252 . + 0 gene_id "ECDH10B_RS16830"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "agaC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417608.1"; locus_tag "ECDH10B_RS16830"; product "PTS N-acetylgalactosamine transporter subunit IIC"; protein_id "WP_000544489.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3380452 3380454 . + 0 gene_id "ECDH10B_RS16830"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "agaC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417608.1"; locus_tag "ECDH10B_RS16830"; product "PTS N-acetylgalactosamine transporter subunit IIC"; protein_id "WP_000544489.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3381253 3381255 . + 0 gene_id "ECDH10B_RS16830"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "agaC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417608.1"; locus_tag "ECDH10B_RS16830"; product "PTS N-acetylgalactosamine transporter subunit IIC"; protein_id "WP_000544489.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3381245 3382036 . + . gene_id "ECDH10B_RS16835"; transcript_id ""; gbkey "Gene"; gene "agaD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16835"; old_locus_tag "ECDH10B_3313"; -NC_010473.1 Protein Homology CDS 3381245 3382033 . + 0 gene_id "ECDH10B_RS16835"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "agaD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417609.1"; locus_tag "ECDH10B_RS16835"; product "PTS N-acetylgalactosamine transporter subunit IID"; protein_id "WP_000534347.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3381245 3381247 . + 0 gene_id "ECDH10B_RS16835"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "agaD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417609.1"; locus_tag "ECDH10B_RS16835"; product "PTS N-acetylgalactosamine transporter subunit IID"; protein_id "WP_000534347.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3382034 3382036 . + 0 gene_id "ECDH10B_RS16835"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "agaD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417609.1"; locus_tag "ECDH10B_RS16835"; product "PTS N-acetylgalactosamine transporter subunit IID"; protein_id "WP_000534347.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3382037 3382792 . + . gene_id "ECDH10B_RS16840"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16840"; old_locus_tag "ECDH10B_3314"; -NC_010473.1 Protein Homology CDS 3382037 3382789 . + 0 gene_id "ECDH10B_RS16840"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417610.1"; locus_tag "ECDH10B_RS16840"; product "galactosamine-6-phosphate isomerase"; protein_id "WP_001311150.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3382037 3382039 . + 0 gene_id "ECDH10B_RS16840"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417610.1"; locus_tag "ECDH10B_RS16840"; product "galactosamine-6-phosphate isomerase"; protein_id "WP_001311150.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3382790 3382792 . + 0 gene_id "ECDH10B_RS16840"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417610.1"; locus_tag "ECDH10B_RS16840"; product "galactosamine-6-phosphate isomerase"; protein_id "WP_001311150.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3383193 3383777 . + . gene_id "ECDH10B_RS16845"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16845"; old_locus_tag "ECDH10B_3315"; -NC_010473.1 Protein Homology CDS 3383193 3383774 . + 0 gene_id "ECDH10B_RS16845"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417611.1"; locus_tag "ECDH10B_RS16845"; product "type 1 fimbrial protein"; protein_id "WP_001045432.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3383193 3383195 . + 0 gene_id "ECDH10B_RS16845"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417611.1"; locus_tag "ECDH10B_RS16845"; product "type 1 fimbrial protein"; protein_id "WP_001045432.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3383775 3383777 . + 0 gene_id "ECDH10B_RS16845"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417611.1"; locus_tag "ECDH10B_RS16845"; product "type 1 fimbrial protein"; protein_id "WP_001045432.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3383857 3384552 . + . gene_id "ECDH10B_RS16850"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16850"; old_locus_tag "ECDH10B_3316"; -NC_010473.1 Protein Homology CDS 3383857 3384549 . + 0 gene_id "ECDH10B_RS16850"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417612.1"; locus_tag "ECDH10B_RS16850"; product "molecular chaperone"; protein_id "WP_000044775.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3383857 3383859 . + 0 gene_id "ECDH10B_RS16850"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417612.1"; locus_tag "ECDH10B_RS16850"; product "molecular chaperone"; protein_id "WP_000044775.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3384550 3384552 . + 0 gene_id "ECDH10B_RS16850"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417612.1"; locus_tag "ECDH10B_RS16850"; product "molecular chaperone"; protein_id "WP_000044775.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3384581 3387097 . + . gene_id "ECDH10B_RS16855"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16855"; old_locus_tag "ECDH10B_3317"; -NC_010473.1 Protein Homology CDS 3384581 3387094 . + 0 gene_id "ECDH10B_RS16855"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417613.1"; locus_tag "ECDH10B_RS16855"; product "fimbrial biogenesis outer membrane usher protein"; protein_id "WP_001355538.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3384581 3384583 . + 0 gene_id "ECDH10B_RS16855"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417613.1"; locus_tag "ECDH10B_RS16855"; product "fimbrial biogenesis outer membrane usher protein"; protein_id "WP_001355538.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3387095 3387097 . + 0 gene_id "ECDH10B_RS16855"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417613.1"; locus_tag "ECDH10B_RS16855"; product "fimbrial biogenesis outer membrane usher protein"; protein_id "WP_001355538.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3387108 3388199 . + . gene_id "ECDH10B_RS16860"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16860"; old_locus_tag "ECDH10B_3318"; -NC_010473.1 Protein Homology CDS 3387108 3388196 . + 0 gene_id "ECDH10B_RS16860"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417614.1"; locus_tag "ECDH10B_RS16860"; product "fimbrial protein"; protein_id "WP_000816992.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3387108 3387110 . + 0 gene_id "ECDH10B_RS16860"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417614.1"; locus_tag "ECDH10B_RS16860"; product "fimbrial protein"; protein_id "WP_000816992.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3388197 3388199 . + 0 gene_id "ECDH10B_RS16860"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417614.1"; locus_tag "ECDH10B_RS16860"; product "fimbrial protein"; protein_id "WP_000816992.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3388242 3389102 . - . gene_id "ECDH10B_RS16865"; transcript_id ""; gbkey "Gene"; gene "rsmI"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16865"; old_locus_tag "ECDH10B_3319"; -NC_010473.1 Protein Homology CDS 3388245 3389102 . - 0 gene_id "ECDH10B_RS16865"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rsmI"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312054.1"; locus_tag "ECDH10B_RS16865"; product "16S rRNA (cytidine(1402)-2'-O)-methyltransferase"; protein_id "WP_000809262.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3389100 3389102 . - 0 gene_id "ECDH10B_RS16865"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rsmI"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312054.1"; locus_tag "ECDH10B_RS16865"; product "16S rRNA (cytidine(1402)-2'-O)-methyltransferase"; protein_id "WP_000809262.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3388242 3388244 . - 0 gene_id "ECDH10B_RS16865"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rsmI"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312054.1"; locus_tag "ECDH10B_RS16865"; product "16S rRNA (cytidine(1402)-2'-O)-methyltransferase"; protein_id "WP_000809262.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3389167 3391203 . + . gene_id "ECDH10B_RS16870"; transcript_id ""; gbkey "Gene"; gene "lpoA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16870"; old_locus_tag "ECDH10B_3320"; -NC_010473.1 Protein Homology CDS 3389167 3391200 . + 0 gene_id "ECDH10B_RS16870"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lpoA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417616.1"; locus_tag "ECDH10B_RS16870"; product "penicillin-binding protein activator LpoA"; protein_id "WP_000249104.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3389167 3389169 . + 0 gene_id "ECDH10B_RS16870"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lpoA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417616.1"; locus_tag "ECDH10B_RS16870"; product "penicillin-binding protein activator LpoA"; protein_id "WP_000249104.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3391201 3391203 . + 0 gene_id "ECDH10B_RS16870"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lpoA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417616.1"; locus_tag "ECDH10B_RS16870"; product "penicillin-binding protein activator LpoA"; protein_id "WP_000249104.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3391161 3391556 . + . gene_id "ECDH10B_RS16875"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16875"; old_locus_tag "ECDH10B_3321"; -NC_010473.1 Protein Homology CDS 3391161 3391553 . + 0 gene_id "ECDH10B_RS16875"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417617.1"; locus_tag "ECDH10B_RS16875"; product "YraN family protein"; protein_id "WP_000246830.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3391161 3391163 . + 0 gene_id "ECDH10B_RS16875"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417617.1"; locus_tag "ECDH10B_RS16875"; product "YraN family protein"; protein_id "WP_000246830.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3391554 3391556 . + 0 gene_id "ECDH10B_RS16875"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417617.1"; locus_tag "ECDH10B_RS16875"; product "YraN family protein"; protein_id "WP_000246830.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3391576 3392166 . + . gene_id "ECDH10B_RS16880"; transcript_id ""; gbkey "Gene"; gene "diaA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16880"; old_locus_tag "ECDH10B_3322"; -NC_010473.1 Protein Homology CDS 3391576 3392163 . + 0 gene_id "ECDH10B_RS16880"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "diaA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312057.1"; locus_tag "ECDH10B_RS16880"; product "DnaA initiator-associating protein DiaA"; protein_id "WP_001158034.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3391576 3391578 . + 0 gene_id "ECDH10B_RS16880"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "diaA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312057.1"; locus_tag "ECDH10B_RS16880"; product "DnaA initiator-associating protein DiaA"; protein_id "WP_001158034.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3392164 3392166 . + 0 gene_id "ECDH10B_RS16880"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "diaA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312057.1"; locus_tag "ECDH10B_RS16880"; product "DnaA initiator-associating protein DiaA"; protein_id "WP_001158034.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3392176 3392751 . + . gene_id "ECDH10B_RS16885"; transcript_id ""; gbkey "Gene"; gene "yraP"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16885"; old_locus_tag "ECDH10B_3323"; -NC_010473.1 Protein Homology CDS 3392176 3392748 . + 0 gene_id "ECDH10B_RS16885"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yraP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312058.1"; locus_tag "ECDH10B_RS16885"; product "divisome-associated lipoprotein YraP"; protein_id "WP_000646033.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3392176 3392178 . + 0 gene_id "ECDH10B_RS16885"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yraP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312058.1"; locus_tag "ECDH10B_RS16885"; product "divisome-associated lipoprotein YraP"; protein_id "WP_000646033.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3392749 3392751 . + 0 gene_id "ECDH10B_RS16885"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yraP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312058.1"; locus_tag "ECDH10B_RS16885"; product "divisome-associated lipoprotein YraP"; protein_id "WP_000646033.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3392865 3393905 . - . gene_id "ECDH10B_RS16890"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16890"; old_locus_tag "ECDH10B_3324"; -NC_010473.1 Protein Homology CDS 3392868 3393905 . - 0 gene_id "ECDH10B_RS16890"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417620.1"; locus_tag "ECDH10B_RS16890"; product "permease"; protein_id "WP_000147574.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3393903 3393905 . - 0 gene_id "ECDH10B_RS16890"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417620.1"; locus_tag "ECDH10B_RS16890"; product "permease"; protein_id "WP_000147574.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3392865 3392867 . - 0 gene_id "ECDH10B_RS16890"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417620.1"; locus_tag "ECDH10B_RS16890"; product "permease"; protein_id "WP_000147574.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3393978 3394613 . - . gene_id "ECDH10B_RS16895"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16895"; old_locus_tag "ECDH10B_3325"; -NC_010473.1 Protein Homology CDS 3393981 3394613 . - 0 gene_id "ECDH10B_RS16895"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417621.2"; locus_tag "ECDH10B_RS16895"; product "NAD(P)H-binding protein"; protein_id "WP_001300423.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3394611 3394613 . - 0 gene_id "ECDH10B_RS16895"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417621.2"; locus_tag "ECDH10B_RS16895"; product "NAD(P)H-binding protein"; protein_id "WP_001300423.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3393978 3393980 . - 0 gene_id "ECDH10B_RS16895"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417621.2"; locus_tag "ECDH10B_RS16895"; product "NAD(P)H-binding protein"; protein_id "WP_001300423.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3394741 3395259 . + . gene_id "ECDH10B_RS16900"; transcript_id ""; gbkey "Gene"; gene "yhbO"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16900"; old_locus_tag "ECDH10B_3326"; -NC_010473.1 Protein Homology CDS 3394741 3395256 . + 0 gene_id "ECDH10B_RS16900"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yhbO"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417622.2"; locus_tag "ECDH10B_RS16900"; product "protein/nucleic acid deglycase"; protein_id "WP_000037608.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3394741 3394743 . + 0 gene_id "ECDH10B_RS16900"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yhbO"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417622.2"; locus_tag "ECDH10B_RS16900"; product "protein/nucleic acid deglycase"; protein_id "WP_000037608.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3395257 3395259 . + 0 gene_id "ECDH10B_RS16900"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yhbO"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417622.2"; locus_tag "ECDH10B_RS16900"; product "protein/nucleic acid deglycase"; protein_id "WP_000037608.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3395239 3395682 . - . gene_id "ECDH10B_RS16905"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16905"; old_locus_tag "ECDH10B_3327"; -NC_010473.1 Protein Homology CDS 3395242 3395682 . - 0 gene_id "ECDH10B_RS16905"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417623.1"; locus_tag "ECDH10B_RS16905"; product "YhbP family protein"; protein_id "WP_000449030.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3395680 3395682 . - 0 gene_id "ECDH10B_RS16905"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417623.1"; locus_tag "ECDH10B_RS16905"; product "YhbP family protein"; protein_id "WP_000449030.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3395239 3395241 . - 0 gene_id "ECDH10B_RS16905"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417623.1"; locus_tag "ECDH10B_RS16905"; product "YhbP family protein"; protein_id "WP_000449030.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3395733 3396035 . + . gene_id "ECDH10B_RS16910"; transcript_id ""; gbkey "Gene"; gene "yhbQ"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16910"; old_locus_tag "ECDH10B_3328"; -NC_010473.1 Protein Homology CDS 3395733 3396032 . + 0 gene_id "ECDH10B_RS16910"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yhbQ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417624.1"; locus_tag "ECDH10B_RS16910"; product "DNA damage response exodeoxyribonuclease YhbQ"; protein_id "WP_000189333.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3395733 3395735 . + 0 gene_id "ECDH10B_RS16910"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yhbQ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417624.1"; locus_tag "ECDH10B_RS16910"; product "DNA damage response exodeoxyribonuclease YhbQ"; protein_id "WP_000189333.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3396033 3396035 . + 0 gene_id "ECDH10B_RS16910"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yhbQ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417624.1"; locus_tag "ECDH10B_RS16910"; product "DNA damage response exodeoxyribonuclease YhbQ"; protein_id "WP_000189333.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3396022 3396525 . - . gene_id "ECDH10B_RS16915"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16915"; old_locus_tag "ECDH10B_3329"; -NC_010473.1 Protein Homology CDS 3396025 3396525 . - 0 gene_id "ECDH10B_RS16915"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312064.1"; locus_tag "ECDH10B_RS16915"; product "N-acetyltransferase"; protein_id "WP_000908554.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3396523 3396525 . - 0 gene_id "ECDH10B_RS16915"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312064.1"; locus_tag "ECDH10B_RS16915"; product "N-acetyltransferase"; protein_id "WP_000908554.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3396022 3396024 . - 0 gene_id "ECDH10B_RS16915"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312064.1"; locus_tag "ECDH10B_RS16915"; product "N-acetyltransferase"; protein_id "WP_000908554.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3396519 3397043 . - . gene_id "ECDH10B_RS16920"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16920"; old_locus_tag "ECDH10B_3330"; -NC_010473.1 Protein Homology CDS 3396522 3397043 . - 0 gene_id "ECDH10B_RS16920"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312065.1"; locus_tag "ECDH10B_RS16920"; product "SCP2 domain-containing protein"; protein_id "WP_001295552.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3397041 3397043 . - 0 gene_id "ECDH10B_RS16920"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312065.1"; locus_tag "ECDH10B_RS16920"; product "SCP2 domain-containing protein"; protein_id "WP_001295552.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3396519 3396521 . - 0 gene_id "ECDH10B_RS16920"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312065.1"; locus_tag "ECDH10B_RS16920"; product "SCP2 domain-containing protein"; protein_id "WP_001295552.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3397252 3398247 . + . gene_id "ECDH10B_RS16925"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16925"; old_locus_tag "ECDH10B_3331"; -NC_010473.1 Protein Homology CDS 3397252 3398244 . + 0 gene_id "ECDH10B_RS16925"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_017457364.1"; locus_tag "ECDH10B_RS16925"; product "U32 family peptidase"; protein_id "WP_001311152.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3397252 3397254 . + 0 gene_id "ECDH10B_RS16925"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_017457364.1"; locus_tag "ECDH10B_RS16925"; product "U32 family peptidase"; protein_id "WP_001311152.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3398245 3398247 . + 0 gene_id "ECDH10B_RS16925"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_017457364.1"; locus_tag "ECDH10B_RS16925"; product "U32 family peptidase"; protein_id "WP_001311152.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3398256 3399134 . + . gene_id "ECDH10B_RS16930"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16930"; old_locus_tag "ECDH10B_3332"; -NC_010473.1 Protein Homology CDS 3398256 3399131 . + 0 gene_id "ECDH10B_RS16930"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417628.2"; locus_tag "ECDH10B_RS16930"; product "U32 family peptidase"; protein_id "WP_001301318.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3398256 3398258 . + 0 gene_id "ECDH10B_RS16930"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417628.2"; locus_tag "ECDH10B_RS16930"; product "U32 family peptidase"; protein_id "WP_001301318.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3399132 3399134 . + 0 gene_id "ECDH10B_RS16930"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417628.2"; locus_tag "ECDH10B_RS16930"; product "U32 family peptidase"; protein_id "WP_001301318.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3399215 3400222 . + . gene_id "ECDH10B_RS16935"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16935"; old_locus_tag "ECDH10B_3333"; -NC_010473.1 Protein Homology CDS 3399215 3400219 . + 0 gene_id "ECDH10B_RS16935"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417629.1"; locus_tag "ECDH10B_RS16935"; product "luciferase-like monooxygenase"; protein_id "WP_000130380.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3399215 3399217 . + 0 gene_id "ECDH10B_RS16935"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417629.1"; locus_tag "ECDH10B_RS16935"; product "luciferase-like monooxygenase"; protein_id "WP_000130380.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3400220 3400222 . + 0 gene_id "ECDH10B_RS16935"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417629.1"; locus_tag "ECDH10B_RS16935"; product "luciferase-like monooxygenase"; protein_id "WP_000130380.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3400340 3401584 . - . gene_id "ECDH10B_RS16940"; transcript_id ""; gbkey "Gene"; gene "mtr"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16940"; old_locus_tag "ECDH10B_3334"; -NC_010473.1 Protein Homology CDS 3400343 3401584 . - 0 gene_id "ECDH10B_RS16940"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mtr"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417630.1"; locus_tag "ECDH10B_RS16940"; product "tryptophan permease"; protein_id "WP_000224351.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3401582 3401584 . - 0 gene_id "ECDH10B_RS16940"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mtr"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417630.1"; locus_tag "ECDH10B_RS16940"; product "tryptophan permease"; protein_id "WP_000224351.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3400340 3400342 . - 0 gene_id "ECDH10B_RS16940"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mtr"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417630.1"; locus_tag "ECDH10B_RS16940"; product "tryptophan permease"; protein_id "WP_000224351.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3401738 3403627 . - . gene_id "ECDH10B_RS16950"; transcript_id ""; gbkey "Gene"; gene "deaD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16950"; old_locus_tag "ECDH10B_3335"; -NC_010473.1 Protein Homology CDS 3401741 3403627 . - 0 gene_id "ECDH10B_RS16950"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "deaD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417631.2"; locus_tag "ECDH10B_RS16950"; product "ATP-dependent RNA helicase DeaD"; protein_id "WP_001295553.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3403625 3403627 . - 0 gene_id "ECDH10B_RS16950"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "deaD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417631.2"; locus_tag "ECDH10B_RS16950"; product "ATP-dependent RNA helicase DeaD"; protein_id "WP_001295553.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3401738 3401740 . - 0 gene_id "ECDH10B_RS16950"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "deaD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417631.2"; locus_tag "ECDH10B_RS16950"; product "ATP-dependent RNA helicase DeaD"; protein_id "WP_001295553.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3403620 3403700 . - . gene_id "ECDH10B_RS25705"; transcript_id ""; gbkey "Gene"; gene "yrbN"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS25705"; -NC_010473.1 Protein Homology CDS 3403623 3403700 . - 0 gene_id "ECDH10B_RS25705"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yrbN"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_002791258.1"; locus_tag "ECDH10B_RS25705"; product "protein YrbN"; protein_id "WP_010723222.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3403698 3403700 . - 0 gene_id "ECDH10B_RS25705"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yrbN"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_002791258.1"; locus_tag "ECDH10B_RS25705"; product "protein YrbN"; protein_id "WP_010723222.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3403620 3403622 . - 0 gene_id "ECDH10B_RS25705"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yrbN"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_002791258.1"; locus_tag "ECDH10B_RS25705"; product "protein YrbN"; protein_id "WP_010723222.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3403807 3404691 . - . gene_id "ECDH10B_RS16955"; transcript_id ""; gbkey "Gene"; gene "nlpI"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16955"; old_locus_tag "ECDH10B_3336"; -NC_010473.1 Protein Homology CDS 3403810 3404691 . - 0 gene_id "ECDH10B_RS16955"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nlpI"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_020802045.1"; locus_tag "ECDH10B_RS16955"; product "lipoprotein NlpI"; protein_id "WP_000802080.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3404689 3404691 . - 0 gene_id "ECDH10B_RS16955"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nlpI"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_020802045.1"; locus_tag "ECDH10B_RS16955"; product "lipoprotein NlpI"; protein_id "WP_000802080.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3403807 3403809 . - 0 gene_id "ECDH10B_RS16955"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nlpI"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_020802045.1"; locus_tag "ECDH10B_RS16955"; product "lipoprotein NlpI"; protein_id "WP_000802080.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3404800 3406935 . - . gene_id "ECDH10B_RS16960"; transcript_id ""; gbkey "Gene"; gene "pnp"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16960"; old_locus_tag "ECDH10B_3337"; -NC_010473.1 Protein Homology CDS 3404803 3406935 . - 0 gene_id "ECDH10B_RS16960"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pnp"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417633.4"; locus_tag "ECDH10B_RS16960"; product "polyribonucleotide nucleotidyltransferase"; protein_id "WP_001295554.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3406933 3406935 . - 0 gene_id "ECDH10B_RS16960"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pnp"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417633.4"; locus_tag "ECDH10B_RS16960"; product "polyribonucleotide nucleotidyltransferase"; protein_id "WP_001295554.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3404800 3404802 . - 0 gene_id "ECDH10B_RS16960"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pnp"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417633.4"; locus_tag "ECDH10B_RS16960"; product "polyribonucleotide nucleotidyltransferase"; protein_id "WP_001295554.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3407182 3407451 . - . gene_id "ECDH10B_RS16965"; transcript_id ""; gbkey "Gene"; gene "rpsO"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16965"; old_locus_tag "ECDH10B_3339"; -NC_010473.1 Protein Homology CDS 3407185 3407451 . - 0 gene_id "ECDH10B_RS16965"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rpsO"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_004933502.1"; locus_tag "ECDH10B_RS16965"; product "30S ribosomal protein S15"; protein_id "WP_000059466.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3407449 3407451 . - 0 gene_id "ECDH10B_RS16965"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rpsO"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_004933502.1"; locus_tag "ECDH10B_RS16965"; product "30S ribosomal protein S15"; protein_id "WP_000059466.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3407182 3407184 . - 0 gene_id "ECDH10B_RS16965"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rpsO"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_004933502.1"; locus_tag "ECDH10B_RS16965"; product "30S ribosomal protein S15"; protein_id "WP_000059466.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3407600 3408544 . - . gene_id "ECDH10B_RS16970"; transcript_id ""; gbkey "Gene"; gene "truB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16970"; old_locus_tag "ECDH10B_3340"; -NC_010473.1 Protein Homology CDS 3407603 3408544 . - 0 gene_id "ECDH10B_RS16970"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "truB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312074.1"; locus_tag "ECDH10B_RS16970"; product "tRNA pseudouridine(55) synthase TruB"; protein_id "WP_000089698.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3408542 3408544 . - 0 gene_id "ECDH10B_RS16970"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "truB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312074.1"; locus_tag "ECDH10B_RS16970"; product "tRNA pseudouridine(55) synthase TruB"; protein_id "WP_000089698.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3407600 3407602 . - 0 gene_id "ECDH10B_RS16970"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "truB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312074.1"; locus_tag "ECDH10B_RS16970"; product "tRNA pseudouridine(55) synthase TruB"; protein_id "WP_000089698.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3408544 3408945 . - . gene_id "ECDH10B_RS16975"; transcript_id ""; gbkey "Gene"; gene "rbfA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16975"; old_locus_tag "ECDH10B_3341"; -NC_010473.1 Protein Homology CDS 3408547 3408945 . - 0 gene_id "ECDH10B_RS16975"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rbfA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001712908.1"; locus_tag "ECDH10B_RS16975"; product "30S ribosome-binding factor RbfA"; protein_id "WP_001040205.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3408943 3408945 . - 0 gene_id "ECDH10B_RS16975"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rbfA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001712908.1"; locus_tag "ECDH10B_RS16975"; product "30S ribosome-binding factor RbfA"; protein_id "WP_001040205.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3408544 3408546 . - 0 gene_id "ECDH10B_RS16975"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rbfA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001712908.1"; locus_tag "ECDH10B_RS16975"; product "30S ribosome-binding factor RbfA"; protein_id "WP_001040205.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3409109 3411781 . - . gene_id "ECDH10B_RS16980"; transcript_id ""; gbkey "Gene"; gene "infB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16980"; old_locus_tag "ECDH10B_3342"; -NC_010473.1 Protein Homology CDS 3409112 3411781 . - 0 gene_id "ECDH10B_RS16980"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "infB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312076.1"; locus_tag "ECDH10B_RS16980"; product "translation initiation factor IF-2"; protein_id "WP_000133044.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3411779 3411781 . - 0 gene_id "ECDH10B_RS16980"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "infB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312076.1"; locus_tag "ECDH10B_RS16980"; product "translation initiation factor IF-2"; protein_id "WP_000133044.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3409109 3409111 . - 0 gene_id "ECDH10B_RS16980"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "infB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312076.1"; locus_tag "ECDH10B_RS16980"; product "translation initiation factor IF-2"; protein_id "WP_000133044.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3411806 3413293 . - . gene_id "ECDH10B_RS16985"; transcript_id ""; gbkey "Gene"; gene "nusA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16985"; old_locus_tag "ECDH10B_3343"; -NC_010473.1 Protein Homology CDS 3411809 3413293 . - 0 gene_id "ECDH10B_RS16985"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nusA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005131833.1"; locus_tag "ECDH10B_RS16985"; product "transcription termination/antitermination protein NusA"; protein_id "WP_001031057.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3413291 3413293 . - 0 gene_id "ECDH10B_RS16985"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nusA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005131833.1"; locus_tag "ECDH10B_RS16985"; product "transcription termination/antitermination protein NusA"; protein_id "WP_001031057.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3411806 3411808 . - 0 gene_id "ECDH10B_RS16985"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nusA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005131833.1"; locus_tag "ECDH10B_RS16985"; product "transcription termination/antitermination protein NusA"; protein_id "WP_001031057.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3413321 3413773 . - . gene_id "ECDH10B_RS16990"; transcript_id ""; gbkey "Gene"; gene "rimP"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS16990"; old_locus_tag "ECDH10B_3344"; -NC_010473.1 Protein Homology CDS 3413324 3413773 . - 0 gene_id "ECDH10B_RS16990"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rimP"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_004125659.1"; locus_tag "ECDH10B_RS16990"; product "ribosome maturation factor RimP"; protein_id "WP_001300397.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3413771 3413773 . - 0 gene_id "ECDH10B_RS16990"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rimP"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_004125659.1"; locus_tag "ECDH10B_RS16990"; product "ribosome maturation factor RimP"; protein_id "WP_001300397.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3413321 3413323 . - 0 gene_id "ECDH10B_RS16990"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rimP"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_004125659.1"; locus_tag "ECDH10B_RS16990"; product "ribosome maturation factor RimP"; protein_id "WP_001300397.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3413980 3414056 . - . gene_id "ECDH10B_RS16995"; transcript_id ""; gbkey "Gene"; gene_biotype "tRNA"; locus_tag "ECDH10B_RS16995"; old_locus_tag "ECDH10B_3345"; -NC_010473.1 tRNAscan-SE exon 3413980 3414056 . - . gene_id "ECDH10B_RS16995"; transcript_id "ECDH10B_RS16995"; anticodon "(pos:complement(3414020..3414022))"; gbkey "tRNA"; inference "COORDINATES: profile:tRNAscan-SE:2.0.6"; locus_tag "ECDH10B_RS16995"; product "tRNA-Met"; exon_number "1"; -NC_010473.1 RefSeq gene 3414404 3415747 . + . gene_id "ECDH10B_RS17000"; transcript_id ""; gbkey "Gene"; gene "argG"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17000"; old_locus_tag "ECDH10B_3346"; -NC_010473.1 Protein Homology CDS 3414404 3415744 . + 0 gene_id "ECDH10B_RS17000"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "argG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417640.1"; locus_tag "ECDH10B_RS17000"; product "argininosuccinate synthase"; protein_id "WP_000207680.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3414404 3414406 . + 0 gene_id "ECDH10B_RS17000"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "argG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417640.1"; locus_tag "ECDH10B_RS17000"; product "argininosuccinate synthase"; protein_id "WP_000207680.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3415745 3415747 . + 0 gene_id "ECDH10B_RS17000"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "argG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417640.1"; locus_tag "ECDH10B_RS17000"; product "argininosuccinate synthase"; protein_id "WP_000207680.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3415755 3417380 . - . gene_id "ECDH10B_RS17005"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17005"; old_locus_tag "ECDH10B_3347"; -NC_010473.1 Protein Homology CDS 3415758 3417380 . - 0 gene_id "ECDH10B_RS17005"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417641.4"; locus_tag "ECDH10B_RS17005"; product "phosphoethanolamine transferase"; protein_id "WP_001333576.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3417378 3417380 . - 0 gene_id "ECDH10B_RS17005"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417641.4"; locus_tag "ECDH10B_RS17005"; product "phosphoethanolamine transferase"; protein_id "WP_001333576.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3415755 3415757 . - 0 gene_id "ECDH10B_RS17005"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417641.4"; locus_tag "ECDH10B_RS17005"; product "phosphoethanolamine transferase"; protein_id "WP_001333576.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3417839 3417925 . - . gene_id "ECDH10B_RS17010"; transcript_id ""; gbkey "Gene"; gene_biotype "tRNA"; locus_tag "ECDH10B_RS17010"; old_locus_tag "ECDH10B_3348"; -NC_010473.1 tRNAscan-SE exon 3417839 3417925 . - . gene_id "ECDH10B_RS17010"; transcript_id "ECDH10B_RS17010"; anticodon "(pos:complement(3417889..3417891))"; gbkey "tRNA"; inference "COORDINATES: profile:tRNAscan-SE:2.0.6"; locus_tag "ECDH10B_RS17010"; product "tRNA-Leu"; exon_number "1"; -NC_010473.1 RefSeq gene 3417940 3418272 . - . gene_id "ECDH10B_RS17015"; transcript_id ""; gbkey "Gene"; gene "secG"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17015"; old_locus_tag "ECDH10B_3349"; -NC_010473.1 Protein Homology CDS 3417943 3418272 . - 0 gene_id "ECDH10B_RS17015"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "secG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312081.1"; locus_tag "ECDH10B_RS17015"; product "preprotein translocase subunit SecG"; protein_id "WP_001295556.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3418270 3418272 . - 0 gene_id "ECDH10B_RS17015"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "secG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312081.1"; locus_tag "ECDH10B_RS17015"; product "preprotein translocase subunit SecG"; protein_id "WP_001295556.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3417940 3417942 . - 0 gene_id "ECDH10B_RS17015"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "secG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312081.1"; locus_tag "ECDH10B_RS17015"; product "preprotein translocase subunit SecG"; protein_id "WP_001295556.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3418500 3419837 . - . gene_id "ECDH10B_RS17020"; transcript_id ""; gbkey "Gene"; gene "glmM"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17020"; old_locus_tag "ECDH10B_3350"; -NC_010473.1 Protein Homology CDS 3418503 3419837 . - 0 gene_id "ECDH10B_RS17020"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "glmM"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417643.1"; locus_tag "ECDH10B_RS17020"; product "phosphoglucosamine mutase"; protein_id "WP_000071134.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3419835 3419837 . - 0 gene_id "ECDH10B_RS17020"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "glmM"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417643.1"; locus_tag "ECDH10B_RS17020"; product "phosphoglucosamine mutase"; protein_id "WP_000071134.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3418500 3418502 . - 0 gene_id "ECDH10B_RS17020"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "glmM"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417643.1"; locus_tag "ECDH10B_RS17020"; product "phosphoglucosamine mutase"; protein_id "WP_000071134.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3419830 3420678 . - . gene_id "ECDH10B_RS17025"; transcript_id ""; gbkey "Gene"; gene "folP"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17025"; old_locus_tag "ECDH10B_3351"; -NC_010473.1 Protein Homology CDS 3419833 3420678 . - 0 gene_id "ECDH10B_RS17025"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "folP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312083.2"; locus_tag "ECDH10B_RS17025"; product "dihydropteroate synthase"; protein_id "WP_000764731.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3420676 3420678 . - 0 gene_id "ECDH10B_RS17025"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "folP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312083.2"; locus_tag "ECDH10B_RS17025"; product "dihydropteroate synthase"; protein_id "WP_000764731.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3419830 3419832 . - 0 gene_id "ECDH10B_RS17025"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "folP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312083.2"; locus_tag "ECDH10B_RS17025"; product "dihydropteroate synthase"; protein_id "WP_000764731.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3420768 3422702 . - . gene_id "ECDH10B_RS17030"; transcript_id ""; gbkey "Gene"; gene "ftsH"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17030"; old_locus_tag "ECDH10B_3352"; -NC_010473.1 Protein Homology CDS 3420771 3422702 . - 0 gene_id "ECDH10B_RS17030"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ftsH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417645.1"; locus_tag "ECDH10B_RS17030"; product "ATP-dependent zinc metalloprotease FtsH"; protein_id "WP_001107467.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3422700 3422702 . - 0 gene_id "ECDH10B_RS17030"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ftsH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417645.1"; locus_tag "ECDH10B_RS17030"; product "ATP-dependent zinc metalloprotease FtsH"; protein_id "WP_001107467.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3420768 3420770 . - 0 gene_id "ECDH10B_RS17030"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ftsH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417645.1"; locus_tag "ECDH10B_RS17030"; product "ATP-dependent zinc metalloprotease FtsH"; protein_id "WP_001107467.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3422802 3423431 . - . gene_id "ECDH10B_RS17035"; transcript_id ""; gbkey "Gene"; gene "rlmE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17035"; old_locus_tag "ECDH10B_3353"; -NC_010473.1 Protein Homology CDS 3422805 3423431 . - 0 gene_id "ECDH10B_RS17035"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rlmE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312085.1"; locus_tag "ECDH10B_RS17035"; product "23S rRNA (uridine(2552)-2'-O)-methyltransferase RlmE"; protein_id "WP_000145975.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3423429 3423431 . - 0 gene_id "ECDH10B_RS17035"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rlmE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312085.1"; locus_tag "ECDH10B_RS17035"; product "23S rRNA (uridine(2552)-2'-O)-methyltransferase RlmE"; protein_id "WP_000145975.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3422802 3422804 . - 0 gene_id "ECDH10B_RS17035"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rlmE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312085.1"; locus_tag "ECDH10B_RS17035"; product "23S rRNA (uridine(2552)-2'-O)-methyltransferase RlmE"; protein_id "WP_000145975.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3423557 3423850 . + . gene_id "ECDH10B_RS17040"; transcript_id ""; gbkey "Gene"; gene "yhbY"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17040"; old_locus_tag "ECDH10B_3354"; -NC_010473.1 Protein Homology CDS 3423557 3423847 . + 0 gene_id "ECDH10B_RS17040"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yhbY"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_014833438.1"; locus_tag "ECDH10B_RS17040"; product "ribosome assembly RNA-binding protein YhbY"; protein_id "WP_001054420.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3423557 3423559 . + 0 gene_id "ECDH10B_RS17040"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yhbY"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_014833438.1"; locus_tag "ECDH10B_RS17040"; product "ribosome assembly RNA-binding protein YhbY"; protein_id "WP_001054420.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3423848 3423850 . + 0 gene_id "ECDH10B_RS17040"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yhbY"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_014833438.1"; locus_tag "ECDH10B_RS17040"; product "ribosome assembly RNA-binding protein YhbY"; protein_id "WP_001054420.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3424006 3424482 . - . gene_id "ECDH10B_RS17045"; transcript_id ""; gbkey "Gene"; gene "greA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17045"; old_locus_tag "ECDH10B_3355"; -NC_010473.1 Protein Homology CDS 3424009 3424482 . - 0 gene_id "ECDH10B_RS17045"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "greA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_006178768.1"; locus_tag "ECDH10B_RS17045"; product "transcription elongation factor GreA"; protein_id "WP_001148001.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3424480 3424482 . - 0 gene_id "ECDH10B_RS17045"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "greA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_006178768.1"; locus_tag "ECDH10B_RS17045"; product "transcription elongation factor GreA"; protein_id "WP_001148001.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3424006 3424008 . - 0 gene_id "ECDH10B_RS17045"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "greA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_006178768.1"; locus_tag "ECDH10B_RS17045"; product "transcription elongation factor GreA"; protein_id "WP_001148001.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3424730 3426163 . + . gene_id "ECDH10B_RS17050"; transcript_id ""; gbkey "Gene"; gene "dacB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17050"; old_locus_tag "ECDH10B_3356"; -NC_010473.1 Protein Homology CDS 3424730 3426160 . + 0 gene_id "ECDH10B_RS17050"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dacB"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001212660.1"; locus_tag "ECDH10B_RS17050"; product "serine-type D-Ala-D-Ala carboxypeptidase"; protein_id "WP_001212619.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3424730 3424732 . + 0 gene_id "ECDH10B_RS17050"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dacB"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001212660.1"; locus_tag "ECDH10B_RS17050"; product "serine-type D-Ala-D-Ala carboxypeptidase"; protein_id "WP_001212619.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3426161 3426163 . + 0 gene_id "ECDH10B_RS17050"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dacB"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001212660.1"; locus_tag "ECDH10B_RS17050"; product "serine-type D-Ala-D-Ala carboxypeptidase"; protein_id "WP_001212619.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3426349 3427521 . - . gene_id "ECDH10B_RS17055"; transcript_id ""; gbkey "Gene"; gene "cgtA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17055"; old_locus_tag "ECDH10B_3357"; -NC_010473.1 Protein Homology CDS 3426352 3427521 . - 0 gene_id "ECDH10B_RS17055"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cgtA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417650.1"; locus_tag "ECDH10B_RS17055"; product "Obg family GTPase CgtA"; protein_id "WP_000673575.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3427519 3427521 . - 0 gene_id "ECDH10B_RS17055"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cgtA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417650.1"; locus_tag "ECDH10B_RS17055"; product "Obg family GTPase CgtA"; protein_id "WP_000673575.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3426349 3426351 . - 0 gene_id "ECDH10B_RS17055"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cgtA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417650.1"; locus_tag "ECDH10B_RS17055"; product "Obg family GTPase CgtA"; protein_id "WP_000673575.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3427537 3428502 . - . gene_id "ECDH10B_RS17060"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17060"; old_locus_tag "ECDH10B_3358"; -NC_010473.1 Protein Homology CDS 3427540 3428502 . - 0 gene_id "ECDH10B_RS17060"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_012135318.1"; locus_tag "ECDH10B_RS17060"; product "DMT family transporter"; protein_id "WP_000813037.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3428500 3428502 . - 0 gene_id "ECDH10B_RS17060"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_012135318.1"; locus_tag "ECDH10B_RS17060"; product "DMT family transporter"; protein_id "WP_000813037.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3427537 3427539 . - 0 gene_id "ECDH10B_RS17060"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_012135318.1"; locus_tag "ECDH10B_RS17060"; product "DMT family transporter"; protein_id "WP_000813037.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3428629 3428886 . - . gene_id "ECDH10B_RS17065"; transcript_id ""; gbkey "Gene"; gene "rpmA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17065"; old_locus_tag "ECDH10B_3359"; -NC_010473.1 Protein Homology CDS 3428632 3428886 . - 0 gene_id "ECDH10B_RS17065"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rpmA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_004933559.1"; locus_tag "ECDH10B_RS17065"; product "50S ribosomal protein L27"; protein_id "WP_000940595.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3428884 3428886 . - 0 gene_id "ECDH10B_RS17065"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rpmA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_004933559.1"; locus_tag "ECDH10B_RS17065"; product "50S ribosomal protein L27"; protein_id "WP_000940595.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3428629 3428631 . - 0 gene_id "ECDH10B_RS17065"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rpmA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_004933559.1"; locus_tag "ECDH10B_RS17065"; product "50S ribosomal protein L27"; protein_id "WP_000940595.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3428907 3429218 . - . gene_id "ECDH10B_RS17070"; transcript_id ""; gbkey "Gene"; gene "rplU"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17070"; old_locus_tag "ECDH10B_3360"; -NC_010473.1 Protein Homology CDS 3428910 3429218 . - 0 gene_id "ECDH10B_RS17070"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rplU"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_015960603.1"; locus_tag "ECDH10B_RS17070"; product "50S ribosomal protein L21"; protein_id "WP_000271401.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3429216 3429218 . - 0 gene_id "ECDH10B_RS17070"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rplU"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_015960603.1"; locus_tag "ECDH10B_RS17070"; product "50S ribosomal protein L21"; protein_id "WP_000271401.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3428907 3428909 . - 0 gene_id "ECDH10B_RS17070"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rplU"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_015960603.1"; locus_tag "ECDH10B_RS17070"; product "50S ribosomal protein L21"; protein_id "WP_000271401.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3429477 3430448 . + . gene_id "ECDH10B_RS17075"; transcript_id ""; gbkey "Gene"; gene "ispB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17075"; old_locus_tag "ECDH10B_3361"; -NC_010473.1 Protein Homology CDS 3429477 3430445 . + 0 gene_id "ECDH10B_RS17075"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ispB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417654.1"; locus_tag "ECDH10B_RS17075"; product "octaprenyl diphosphate synthase"; protein_id "WP_001047336.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3429477 3429479 . + 0 gene_id "ECDH10B_RS17075"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ispB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417654.1"; locus_tag "ECDH10B_RS17075"; product "octaprenyl diphosphate synthase"; protein_id "WP_001047336.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3430446 3430448 . + 0 gene_id "ECDH10B_RS17075"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ispB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417654.1"; locus_tag "ECDH10B_RS17075"; product "octaprenyl diphosphate synthase"; protein_id "WP_001047336.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3430676 3430954 . + . gene_id "ECDH10B_RS17080"; transcript_id ""; gbkey "Gene"; gene "sfsB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17080"; old_locus_tag "ECDH10B_3362"; -NC_010473.1 Protein Homology CDS 3430676 3430951 . + 0 gene_id "ECDH10B_RS17080"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sfsB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417655.1"; locus_tag "ECDH10B_RS17080"; product "DNA-binding transcriptional regulator SfsB"; protein_id "WP_000445413.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3430676 3430678 . + 0 gene_id "ECDH10B_RS17080"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sfsB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417655.1"; locus_tag "ECDH10B_RS17080"; product "DNA-binding transcriptional regulator SfsB"; protein_id "WP_000445413.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3430952 3430954 . + 0 gene_id "ECDH10B_RS17080"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sfsB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417655.1"; locus_tag "ECDH10B_RS17080"; product "DNA-binding transcriptional regulator SfsB"; protein_id "WP_000445413.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3431002 3432261 . - . gene_id "ECDH10B_RS17085"; transcript_id ""; gbkey "Gene"; gene "murA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17085"; -NC_010473.1 Protein Homology CDS 3431005 3432261 . - 0 gene_id "ECDH10B_RS17085"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "murA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417656.1"; locus_tag "ECDH10B_RS17085"; product "UDP-N-acetylglucosamine 1-carboxyvinyltransferase"; protein_id "WP_000357281.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3432259 3432261 . - 0 gene_id "ECDH10B_RS17085"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "murA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417656.1"; locus_tag "ECDH10B_RS17085"; product "UDP-N-acetylglucosamine 1-carboxyvinyltransferase"; protein_id "WP_000357281.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3431002 3431004 . - 0 gene_id "ECDH10B_RS17085"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "murA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417656.1"; locus_tag "ECDH10B_RS17085"; product "UDP-N-acetylglucosamine 1-carboxyvinyltransferase"; protein_id "WP_000357281.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3432316 3432570 . - . gene_id "ECDH10B_RS17090"; transcript_id ""; gbkey "Gene"; gene "ibaG"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17090"; old_locus_tag "ECDH10B_3364"; -NC_010473.1 Protein Homology CDS 3432319 3432570 . - 0 gene_id "ECDH10B_RS17090"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ibaG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417657.2"; locus_tag "ECDH10B_RS17090"; product "BolA family iron metabolism protein IbaG"; protein_id "WP_000429656.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3432568 3432570 . - 0 gene_id "ECDH10B_RS17090"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ibaG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417657.2"; locus_tag "ECDH10B_RS17090"; product "BolA family iron metabolism protein IbaG"; protein_id "WP_000429656.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3432316 3432318 . - 0 gene_id "ECDH10B_RS17090"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ibaG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417657.2"; locus_tag "ECDH10B_RS17090"; product "BolA family iron metabolism protein IbaG"; protein_id "WP_000429656.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3432730 3433023 . - . gene_id "ECDH10B_RS17095"; transcript_id ""; gbkey "Gene"; gene "mlaB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17095"; old_locus_tag "ECDH10B_3365"; -NC_010473.1 Protein Homology CDS 3432733 3433023 . - 0 gene_id "ECDH10B_RS17095"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mlaB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312097.2"; locus_tag "ECDH10B_RS17095"; product "lipid asymmetry maintenance protein MlaB"; protein_id "WP_000004488.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3433021 3433023 . - 0 gene_id "ECDH10B_RS17095"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mlaB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312097.2"; locus_tag "ECDH10B_RS17095"; product "lipid asymmetry maintenance protein MlaB"; protein_id "WP_000004488.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3432730 3432732 . - 0 gene_id "ECDH10B_RS17095"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mlaB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312097.2"; locus_tag "ECDH10B_RS17095"; product "lipid asymmetry maintenance protein MlaB"; protein_id "WP_000004488.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3433023 3433658 . - . gene_id "ECDH10B_RS17100"; transcript_id ""; gbkey "Gene"; gene "mlaC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17100"; old_locus_tag "ECDH10B_3366"; -NC_010473.1 Protein Homology CDS 3433026 3433658 . - 0 gene_id "ECDH10B_RS17100"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mlaC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417659.1"; locus_tag "ECDH10B_RS17100"; product "phospholipid-binding protein MlaC"; protein_id "WP_000476487.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3433656 3433658 . - 0 gene_id "ECDH10B_RS17100"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mlaC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417659.1"; locus_tag "ECDH10B_RS17100"; product "phospholipid-binding protein MlaC"; protein_id "WP_000476487.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3433023 3433025 . - 0 gene_id "ECDH10B_RS17100"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mlaC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417659.1"; locus_tag "ECDH10B_RS17100"; product "phospholipid-binding protein MlaC"; protein_id "WP_000476487.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3433677 3434228 . - . gene_id "ECDH10B_RS17105"; transcript_id ""; gbkey "Gene"; gene "mlaD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17105"; old_locus_tag "ECDH10B_3367"; -NC_010473.1 Protein Homology CDS 3433680 3434228 . - 0 gene_id "ECDH10B_RS17105"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mlaD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312099.1"; locus_tag "ECDH10B_RS17105"; product "outer membrane lipid asymmetry maintenance protein MlaD"; protein_id "WP_001296448.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3434226 3434228 . - 0 gene_id "ECDH10B_RS17105"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mlaD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312099.1"; locus_tag "ECDH10B_RS17105"; product "outer membrane lipid asymmetry maintenance protein MlaD"; protein_id "WP_001296448.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3433677 3433679 . - 0 gene_id "ECDH10B_RS17105"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mlaD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312099.1"; locus_tag "ECDH10B_RS17105"; product "outer membrane lipid asymmetry maintenance protein MlaD"; protein_id "WP_001296448.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3434233 3435015 . - . gene_id "ECDH10B_RS17110"; transcript_id ""; gbkey "Gene"; gene "mlaE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17110"; old_locus_tag "ECDH10B_3368"; -NC_010473.1 Protein Homology CDS 3434236 3435015 . - 0 gene_id "ECDH10B_RS17110"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mlaE"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_014071945.1"; locus_tag "ECDH10B_RS17110"; product "lipid asymmetry maintenance ABC transporter permease subunit MlaE"; protein_id "WP_000925795.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3435013 3435015 . - 0 gene_id "ECDH10B_RS17110"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mlaE"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_014071945.1"; locus_tag "ECDH10B_RS17110"; product "lipid asymmetry maintenance ABC transporter permease subunit MlaE"; protein_id "WP_000925795.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3434233 3434235 . - 0 gene_id "ECDH10B_RS17110"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mlaE"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_014071945.1"; locus_tag "ECDH10B_RS17110"; product "lipid asymmetry maintenance ABC transporter permease subunit MlaE"; protein_id "WP_000925795.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3435023 3435832 . - . gene_id "ECDH10B_RS17115"; transcript_id ""; gbkey "Gene"; gene "mlaF"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17115"; old_locus_tag "ECDH10B_3369"; -NC_010473.1 Protein Homology CDS 3435026 3435832 . - 0 gene_id "ECDH10B_RS17115"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mlaF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312101.1"; locus_tag "ECDH10B_RS17115"; product "phospholipid ABC transporter ATP-binding protein MlaF"; protein_id "WP_000438245.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3435830 3435832 . - 0 gene_id "ECDH10B_RS17115"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mlaF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312101.1"; locus_tag "ECDH10B_RS17115"; product "phospholipid ABC transporter ATP-binding protein MlaF"; protein_id "WP_000438245.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3435023 3435025 . - 0 gene_id "ECDH10B_RS17115"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mlaF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312101.1"; locus_tag "ECDH10B_RS17115"; product "phospholipid ABC transporter ATP-binding protein MlaF"; protein_id "WP_000438245.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3436042 3437019 . + . gene_id "ECDH10B_RS17120"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17120"; old_locus_tag "ECDH10B_3370"; -NC_010473.1 Protein Homology CDS 3436042 3437016 . + 0 gene_id "ECDH10B_RS17120"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417663.1"; locus_tag "ECDH10B_RS17120"; product "calcium/sodium antiporter"; protein_id "WP_000922901.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3436042 3436044 . + 0 gene_id "ECDH10B_RS17120"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417663.1"; locus_tag "ECDH10B_RS17120"; product "calcium/sodium antiporter"; protein_id "WP_000922901.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3437017 3437019 . + 0 gene_id "ECDH10B_RS17120"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417663.1"; locus_tag "ECDH10B_RS17120"; product "calcium/sodium antiporter"; protein_id "WP_000922901.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3437033 3438019 . + . gene_id "ECDH10B_RS17125"; transcript_id ""; gbkey "Gene"; gene "kdsD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17125"; old_locus_tag "ECDH10B_3371"; -NC_010473.1 Protein Homology CDS 3437033 3438016 . + 0 gene_id "ECDH10B_RS17125"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "kdsD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417664.1"; locus_tag "ECDH10B_RS17125"; product "arabinose-5-phosphate isomerase KdsD"; protein_id "WP_001295557.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3437033 3437035 . + 0 gene_id "ECDH10B_RS17125"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "kdsD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417664.1"; locus_tag "ECDH10B_RS17125"; product "arabinose-5-phosphate isomerase KdsD"; protein_id "WP_001295557.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3438017 3438019 . + 0 gene_id "ECDH10B_RS17125"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "kdsD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417664.1"; locus_tag "ECDH10B_RS17125"; product "arabinose-5-phosphate isomerase KdsD"; protein_id "WP_001295557.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3438040 3438606 . + . gene_id "ECDH10B_RS17130"; transcript_id ""; gbkey "Gene"; gene "kdsC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17130"; old_locus_tag "ECDH10B_3372"; -NC_010473.1 Protein Homology CDS 3438040 3438603 . + 0 gene_id "ECDH10B_RS17130"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "kdsC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312104.1"; locus_tag "ECDH10B_RS17130"; product "3-deoxy-manno-octulosonate-8-phosphatase KdsC"; protein_id "WP_000030005.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3438040 3438042 . + 0 gene_id "ECDH10B_RS17130"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "kdsC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312104.1"; locus_tag "ECDH10B_RS17130"; product "3-deoxy-manno-octulosonate-8-phosphatase KdsC"; protein_id "WP_000030005.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3438604 3438606 . + 0 gene_id "ECDH10B_RS17130"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "kdsC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312104.1"; locus_tag "ECDH10B_RS17130"; product "3-deoxy-manno-octulosonate-8-phosphatase KdsC"; protein_id "WP_000030005.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3438603 3439178 . + . gene_id "ECDH10B_RS17135"; transcript_id ""; gbkey "Gene"; gene "lptC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17135"; old_locus_tag "ECDH10B_3373"; -NC_010473.1 Protein Homology CDS 3438603 3439175 . + 0 gene_id "ECDH10B_RS17135"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lptC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312105.1"; locus_tag "ECDH10B_RS17135"; product "LPS export ABC transporter periplasmic protein LptC"; protein_id "WP_000030537.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3438603 3438605 . + 0 gene_id "ECDH10B_RS17135"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lptC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312105.1"; locus_tag "ECDH10B_RS17135"; product "LPS export ABC transporter periplasmic protein LptC"; protein_id "WP_000030537.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3439176 3439178 . + 0 gene_id "ECDH10B_RS17135"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lptC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312105.1"; locus_tag "ECDH10B_RS17135"; product "LPS export ABC transporter periplasmic protein LptC"; protein_id "WP_000030537.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3439147 3439704 . + . gene_id "ECDH10B_RS17140"; transcript_id ""; gbkey "Gene"; gene "lptA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17140"; old_locus_tag "ECDH10B_3374"; -NC_010473.1 Protein Homology CDS 3439147 3439701 . + 0 gene_id "ECDH10B_RS17140"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lptA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312106.1"; locus_tag "ECDH10B_RS17140"; product "lipopolysaccharide ABC transporter substrate-binding protein LptA"; protein_id "WP_000669785.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3439147 3439149 . + 0 gene_id "ECDH10B_RS17140"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lptA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312106.1"; locus_tag "ECDH10B_RS17140"; product "lipopolysaccharide ABC transporter substrate-binding protein LptA"; protein_id "WP_000669785.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3439702 3439704 . + 0 gene_id "ECDH10B_RS17140"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lptA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312106.1"; locus_tag "ECDH10B_RS17140"; product "lipopolysaccharide ABC transporter substrate-binding protein LptA"; protein_id "WP_000669785.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3439711 3440436 . + . gene_id "ECDH10B_RS17145"; transcript_id ""; gbkey "Gene"; gene "lptB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17145"; old_locus_tag "ECDH10B_3375"; -NC_010473.1 Protein Homology CDS 3439711 3440433 . + 0 gene_id "ECDH10B_RS17145"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lptB"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_003861862.1"; locus_tag "ECDH10B_RS17145"; product "LPS export ABC transporter ATP-binding protein"; protein_id "WP_000224099.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3439711 3439713 . + 0 gene_id "ECDH10B_RS17145"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lptB"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_003861862.1"; locus_tag "ECDH10B_RS17145"; product "LPS export ABC transporter ATP-binding protein"; protein_id "WP_000224099.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3440434 3440436 . + 0 gene_id "ECDH10B_RS17145"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lptB"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_003861862.1"; locus_tag "ECDH10B_RS17145"; product "LPS export ABC transporter ATP-binding protein"; protein_id "WP_000224099.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3440484 3441917 . + . gene_id "ECDH10B_RS17150"; transcript_id ""; gbkey "Gene"; gene "rpoN"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17150"; old_locus_tag "ECDH10B_3376"; -NC_010473.1 Protein Homology CDS 3440484 3441914 . + 0 gene_id "ECDH10B_RS17150"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rpoN"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417669.1"; locus_tag "ECDH10B_RS17150"; product "RNA polymerase factor sigma-54"; protein_id "WP_000809057.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3440484 3440486 . + 0 gene_id "ECDH10B_RS17150"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rpoN"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417669.1"; locus_tag "ECDH10B_RS17150"; product "RNA polymerase factor sigma-54"; protein_id "WP_000809057.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3441915 3441917 . + 0 gene_id "ECDH10B_RS17150"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rpoN"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417669.1"; locus_tag "ECDH10B_RS17150"; product "RNA polymerase factor sigma-54"; protein_id "WP_000809057.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3441940 3442227 . + . gene_id "ECDH10B_RS17155"; transcript_id ""; gbkey "Gene"; gene "hpf"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17155"; old_locus_tag "ECDH10B_3377"; -NC_010473.1 Protein Homology CDS 3441940 3442224 . + 0 gene_id "ECDH10B_RS17155"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hpf"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312109.1"; locus_tag "ECDH10B_RS17155"; product "ribosome hibernation promoting factor"; protein_id "WP_001176599.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3441940 3441942 . + 0 gene_id "ECDH10B_RS17155"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hpf"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312109.1"; locus_tag "ECDH10B_RS17155"; product "ribosome hibernation promoting factor"; protein_id "WP_001176599.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3442225 3442227 . + 0 gene_id "ECDH10B_RS17155"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hpf"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312109.1"; locus_tag "ECDH10B_RS17155"; product "ribosome hibernation promoting factor"; protein_id "WP_001176599.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3442345 3442836 . + . gene_id "ECDH10B_RS17160"; transcript_id ""; gbkey "Gene"; gene "ptsN"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17160"; old_locus_tag "ECDH10B_3378"; -NC_010473.1 Protein Homology CDS 3442345 3442833 . + 0 gene_id "ECDH10B_RS17160"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ptsN"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417671.1"; locus_tag "ECDH10B_RS17160"; product "PTS IIA-like nitrogen regulatory protein PtsN"; protein_id "WP_000183676.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3442345 3442347 . + 0 gene_id "ECDH10B_RS17160"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ptsN"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417671.1"; locus_tag "ECDH10B_RS17160"; product "PTS IIA-like nitrogen regulatory protein PtsN"; protein_id "WP_000183676.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3442834 3442836 . + 0 gene_id "ECDH10B_RS17160"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ptsN"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417671.1"; locus_tag "ECDH10B_RS17160"; product "PTS IIA-like nitrogen regulatory protein PtsN"; protein_id "WP_000183676.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3442882 3443736 . + . gene_id "ECDH10B_RS17165"; transcript_id ""; gbkey "Gene"; gene "rapZ"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17165"; old_locus_tag "ECDH10B_3379"; -NC_010473.1 Protein Homology CDS 3442882 3443733 . + 0 gene_id "ECDH10B_RS17165"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rapZ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312111.1"; locus_tag "ECDH10B_RS17165"; product "RNase adapter RapZ"; protein_id "WP_000243741.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3442882 3442884 . + 0 gene_id "ECDH10B_RS17165"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rapZ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312111.1"; locus_tag "ECDH10B_RS17165"; product "RNase adapter RapZ"; protein_id "WP_000243741.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3443734 3443736 . + 0 gene_id "ECDH10B_RS17165"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rapZ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312111.1"; locus_tag "ECDH10B_RS17165"; product "RNase adapter RapZ"; protein_id "WP_000243741.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3443733 3444005 . + . gene_id "ECDH10B_RS17170"; transcript_id ""; gbkey "Gene"; gene "npr"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17170"; old_locus_tag "ECDH10B_3380"; -NC_010473.1 Protein Homology CDS 3443733 3444002 . + 0 gene_id "ECDH10B_RS17170"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "npr"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000216792.1"; locus_tag "ECDH10B_RS17170"; product "PTS phosphocarrier protein NPr"; protein_id "WP_000216791.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3443733 3443735 . + 0 gene_id "ECDH10B_RS17170"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "npr"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000216792.1"; locus_tag "ECDH10B_RS17170"; product "PTS phosphocarrier protein NPr"; protein_id "WP_000216791.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3444003 3444005 . + 0 gene_id "ECDH10B_RS17170"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "npr"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000216792.1"; locus_tag "ECDH10B_RS17170"; product "PTS phosphocarrier protein NPr"; protein_id "WP_000216791.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3444219 3444851 . + . gene_id "ECDH10B_RS17175"; transcript_id ""; gbkey "Gene"; gene "yrbL"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17175"; old_locus_tag "ECDH10B_3381"; -NC_010473.1 Protein Homology CDS 3444219 3444848 . + 0 gene_id "ECDH10B_RS17175"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yrbL"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417674.1"; locus_tag "ECDH10B_RS17175"; product "PhoP regulatory network protein YrbL"; protein_id "WP_000620405.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3444219 3444221 . + 0 gene_id "ECDH10B_RS17175"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yrbL"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417674.1"; locus_tag "ECDH10B_RS17175"; product "PhoP regulatory network protein YrbL"; protein_id "WP_000620405.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3444849 3444851 . + 0 gene_id "ECDH10B_RS17175"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yrbL"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417674.1"; locus_tag "ECDH10B_RS17175"; product "PhoP regulatory network protein YrbL"; protein_id "WP_000620405.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3444848 3445576 . - . gene_id "ECDH10B_RS17180"; transcript_id ""; gbkey "Gene"; gene "mtgA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17180"; old_locus_tag "ECDH10B_3382"; -NC_010473.1 Protein Homology CDS 3444851 3445576 . - 0 gene_id "ECDH10B_RS17180"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mtgA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417675.1"; locus_tag "ECDH10B_RS17180"; product "monofunctional biosynthetic peptidoglycan transglycosylase"; protein_id "WP_000047091.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3445574 3445576 . - 0 gene_id "ECDH10B_RS17180"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mtgA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417675.1"; locus_tag "ECDH10B_RS17180"; product "monofunctional biosynthetic peptidoglycan transglycosylase"; protein_id "WP_000047091.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3444848 3444850 . - 0 gene_id "ECDH10B_RS17180"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mtgA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417675.1"; locus_tag "ECDH10B_RS17180"; product "monofunctional biosynthetic peptidoglycan transglycosylase"; protein_id "WP_000047091.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3445573 3446226 . - . gene_id "ECDH10B_RS17185"; transcript_id ""; gbkey "Gene"; gene "elbB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17185"; old_locus_tag "ECDH10B_3383"; -NC_010473.1 Protein Homology CDS 3445576 3446226 . - 0 gene_id "ECDH10B_RS17185"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "elbB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_709007.2"; locus_tag "ECDH10B_RS17185"; product "isoprenoid biosynthesis glyoxalase ElbB"; protein_id "WP_001300411.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3446224 3446226 . - 0 gene_id "ECDH10B_RS17185"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "elbB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_709007.2"; locus_tag "ECDH10B_RS17185"; product "isoprenoid biosynthesis glyoxalase ElbB"; protein_id "WP_001300411.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3445573 3445575 . - 0 gene_id "ECDH10B_RS17185"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "elbB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_709007.2"; locus_tag "ECDH10B_RS17185"; product "isoprenoid biosynthesis glyoxalase ElbB"; protein_id "WP_001300411.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3446456 3448792 . - . gene_id "ECDH10B_RS17190"; transcript_id ""; gbkey "Gene"; gene "arcB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17190"; old_locus_tag "ECDH10B_3385"; -NC_010473.1 Protein Homology CDS 3446459 3448792 . - 0 gene_id "ECDH10B_RS17190"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "arcB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_709008.1"; locus_tag "ECDH10B_RS17190"; product "aerobic respiration two-component sensor histidine kinase ArcB"; protein_id "WP_000809774.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3448790 3448792 . - 0 gene_id "ECDH10B_RS17190"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "arcB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_709008.1"; locus_tag "ECDH10B_RS17190"; product "aerobic respiration two-component sensor histidine kinase ArcB"; protein_id "WP_000809774.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3446456 3446458 . - 0 gene_id "ECDH10B_RS17190"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "arcB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_709008.1"; locus_tag "ECDH10B_RS17190"; product "aerobic respiration two-component sensor histidine kinase ArcB"; protein_id "WP_000809774.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3448888 3449817 . - . gene_id "ECDH10B_RS17195"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17195"; old_locus_tag "ECDH10B_3386"; -NC_010473.1 Protein Homology CDS 3448891 3449817 . - 0 gene_id "ECDH10B_RS17195"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312117.1"; locus_tag "ECDH10B_RS17195"; note "This family includes YhcC from E. coli K-12, an uncharacterized radical SAM protein."; product "TIGR01212 family radical SAM protein"; protein_id "WP_001299745.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3449815 3449817 . - 0 gene_id "ECDH10B_RS17195"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312117.1"; locus_tag "ECDH10B_RS17195"; note "This family includes YhcC from E. coli K-12, an uncharacterized radical SAM protein."; product "TIGR01212 family radical SAM protein"; protein_id "WP_001299745.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3448888 3448890 . - 0 gene_id "ECDH10B_RS17195"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312117.1"; locus_tag "ECDH10B_RS17195"; note "This family includes YhcC from E. coli K-12, an uncharacterized radical SAM protein."; product "TIGR01212 family radical SAM protein"; protein_id "WP_001299745.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3450492 3454952 . + . gene_id "ECDH10B_RS17200"; transcript_id ""; gbkey "Gene"; gene "gltB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17200"; old_locus_tag "ECDH10B_3387"; -NC_010473.1 Protein Homology CDS 3450492 3454949 . + 0 gene_id "ECDH10B_RS17200"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gltB"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001742510.1"; locus_tag "ECDH10B_RS17200"; product "glutamate synthase large subunit"; protein_id "WP_001300352.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3450492 3450494 . + 0 gene_id "ECDH10B_RS17200"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gltB"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001742510.1"; locus_tag "ECDH10B_RS17200"; product "glutamate synthase large subunit"; protein_id "WP_001300352.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3454950 3454952 . + 0 gene_id "ECDH10B_RS17200"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gltB"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001742510.1"; locus_tag "ECDH10B_RS17200"; product "glutamate synthase large subunit"; protein_id "WP_001300352.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3454965 3456383 . + . gene_id "ECDH10B_RS17205"; transcript_id ""; gbkey "Gene"; gene "gltD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17205"; old_locus_tag "ECDH10B_3388"; -NC_010473.1 Protein Homology CDS 3454965 3456380 . + 0 gene_id "ECDH10B_RS17205"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gltD"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001540975.1"; locus_tag "ECDH10B_RS17205"; product "glutamate synthase subunit GltD"; protein_id "WP_000081674.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3454965 3454967 . + 0 gene_id "ECDH10B_RS17205"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gltD"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001540975.1"; locus_tag "ECDH10B_RS17205"; product "glutamate synthase subunit GltD"; protein_id "WP_000081674.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3456381 3456383 . + 0 gene_id "ECDH10B_RS17205"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gltD"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001540975.1"; locus_tag "ECDH10B_RS17205"; product "glutamate synthase subunit GltD"; protein_id "WP_000081674.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3456943 3457707 . + . gene_id "ECDH10B_RS17210"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17210"; old_locus_tag "ECDH10B_3389"; -NC_010473.1 Protein Homology CDS 3456943 3457704 . + 0 gene_id "ECDH10B_RS17210"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417681.1"; locus_tag "ECDH10B_RS17210"; product "DUF1120 domain-containing protein"; protein_id "WP_000465371.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3456943 3456945 . + 0 gene_id "ECDH10B_RS17210"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417681.1"; locus_tag "ECDH10B_RS17210"; product "DUF1120 domain-containing protein"; protein_id "WP_000465371.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3457705 3457707 . + 0 gene_id "ECDH10B_RS17210"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417681.1"; locus_tag "ECDH10B_RS17210"; product "DUF1120 domain-containing protein"; protein_id "WP_000465371.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3457879 3458553 . + . gene_id "ECDH10B_RS17215"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17215"; old_locus_tag "ECDH10B_3390"; -NC_010473.1 Protein Homology CDS 3457879 3458550 . + 0 gene_id "ECDH10B_RS17215"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417682.1"; locus_tag "ECDH10B_RS17215"; product "fimbria/pilus periplasmic chaperone"; protein_id "WP_001311157.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3457879 3457881 . + 0 gene_id "ECDH10B_RS17215"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417682.1"; locus_tag "ECDH10B_RS17215"; product "fimbria/pilus periplasmic chaperone"; protein_id "WP_001311157.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3458551 3458553 . + 0 gene_id "ECDH10B_RS17215"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417682.1"; locus_tag "ECDH10B_RS17215"; product "fimbria/pilus periplasmic chaperone"; protein_id "WP_001311157.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3458574 3460955 . + . gene_id "ECDH10B_RS17220"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17220"; old_locus_tag "ECDH10B_3391"; -NC_010473.1 Protein Homology CDS 3458574 3460952 . + 0 gene_id "ECDH10B_RS17220"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417683.1"; locus_tag "ECDH10B_RS17220"; product "fimbrial biogenesis outer membrane usher protein"; protein_id "WP_000914994.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3458574 3458576 . + 0 gene_id "ECDH10B_RS17220"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417683.1"; locus_tag "ECDH10B_RS17220"; product "fimbrial biogenesis outer membrane usher protein"; protein_id "WP_000914994.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3460953 3460955 . + 0 gene_id "ECDH10B_RS17220"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417683.1"; locus_tag "ECDH10B_RS17220"; product "fimbrial biogenesis outer membrane usher protein"; protein_id "WP_000914994.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3460952 3461320 . + . gene_id "ECDH10B_RS17225"; transcript_id ""; gbkey "Gene"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS17225"; partial "true"; pseudo "true"; -NC_010473.1 Protein Homology CDS 3460952 3461317 . + 0 gene_id "ECDH10B_RS17225"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000821351.1"; locus_tag "ECDH10B_RS17225"; note "incomplete; partial in the middle of a contig; missing C-terminus"; partial "true"; product "hypothetical protein"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3460952 3460954 . + 0 gene_id "ECDH10B_RS17225"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000821351.1"; locus_tag "ECDH10B_RS17225"; note "incomplete; partial in the middle of a contig; missing C-terminus"; partial "true"; product "hypothetical protein"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3461318 3461320 . + 0 gene_id "ECDH10B_RS17225"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000821351.1"; locus_tag "ECDH10B_RS17225"; note "incomplete; partial in the middle of a contig; missing C-terminus"; partial "true"; product "hypothetical protein"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 3461469 3462485 . - . gene_id "ECDH10B_RS17230"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17230"; old_locus_tag "ECDH10B_3394"; -NC_010473.1 Protein Homology CDS 3461472 3462485 . - 0 gene_id "ECDH10B_RS17230"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414793.1"; locus_tag "ECDH10B_RS17230"; product "IS5-like element IS5 family transposase"; protein_id "WP_010723085.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3462483 3462485 . - 0 gene_id "ECDH10B_RS17230"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414793.1"; locus_tag "ECDH10B_RS17230"; product "IS5-like element IS5 family transposase"; protein_id "WP_010723085.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3461469 3461471 . - 0 gene_id "ECDH10B_RS17230"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414793.1"; locus_tag "ECDH10B_RS17230"; product "IS5-like element IS5 family transposase"; protein_id "WP_010723085.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3462495 3462696 . + . gene_id "ECDH10B_RS17235"; transcript_id ""; gbkey "Gene"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS17235"; partial "true"; pseudo "true"; -NC_010473.1 Protein Homology CDS 3462495 3462693 . + 0 gene_id "ECDH10B_RS17235"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000821351.1"; locus_tag "ECDH10B_RS17235"; note "frameshifted; incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "hypothetical protein"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3462495 3462497 . + 0 gene_id "ECDH10B_RS17235"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000821351.1"; locus_tag "ECDH10B_RS17235"; note "frameshifted; incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "hypothetical protein"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3462694 3462696 . + 0 gene_id "ECDH10B_RS17235"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000821351.1"; locus_tag "ECDH10B_RS17235"; note "frameshifted; incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "hypothetical protein"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 3462693 3463409 . + . gene_id "ECDH10B_RS17240"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17240"; old_locus_tag "ECDH10B_3396"; -NC_010473.1 Protein Homology CDS 3462693 3463406 . + 0 gene_id "ECDH10B_RS17240"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417686.1"; locus_tag "ECDH10B_RS17240"; product "DUF1120 domain-containing protein"; protein_id "WP_001067008.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3462693 3462695 . + 0 gene_id "ECDH10B_RS17240"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417686.1"; locus_tag "ECDH10B_RS17240"; product "DUF1120 domain-containing protein"; protein_id "WP_001067008.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3463407 3463409 . + 0 gene_id "ECDH10B_RS17240"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417686.1"; locus_tag "ECDH10B_RS17240"; product "DUF1120 domain-containing protein"; protein_id "WP_001067008.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3463594 3464721 . + . gene_id "ECDH10B_RS17245"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17245"; -NC_010473.1 Protein Homology CDS 3463594 3464718 . + 0 gene_id "ECDH10B_RS17245"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417687.1"; locus_tag "ECDH10B_RS17245"; product "DUF1016 family protein"; protein_id "WP_000445132.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3463594 3463596 . + 0 gene_id "ECDH10B_RS17245"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417687.1"; locus_tag "ECDH10B_RS17245"; product "DUF1016 family protein"; protein_id "WP_000445132.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3464719 3464721 . + 0 gene_id "ECDH10B_RS17245"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417687.1"; locus_tag "ECDH10B_RS17245"; product "DUF1016 family protein"; protein_id "WP_000445132.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3464781 3465245 . - . gene_id "ECDH10B_RS17250"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17250"; old_locus_tag "ECDH10B_3398"; -NC_010473.1 Protein Homology CDS 3464784 3465245 . - 0 gene_id "ECDH10B_RS17250"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417688.1"; locus_tag "ECDH10B_RS17250"; product "YhcH/YjgK/YiaL family protein"; protein_id "WP_000979882.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3465243 3465245 . - 0 gene_id "ECDH10B_RS17250"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417688.1"; locus_tag "ECDH10B_RS17250"; product "YhcH/YjgK/YiaL family protein"; protein_id "WP_000979882.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3464781 3464783 . - 0 gene_id "ECDH10B_RS17250"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417688.1"; locus_tag "ECDH10B_RS17250"; product "YhcH/YjgK/YiaL family protein"; protein_id "WP_000979882.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3465242 3466117 . - . gene_id "ECDH10B_RS17255"; transcript_id ""; gbkey "Gene"; gene "nanK"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17255"; old_locus_tag "ECDH10B_3399"; -NC_010473.1 Protein Homology CDS 3465245 3466117 . - 0 gene_id "ECDH10B_RS17255"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nanK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417689.4"; locus_tag "ECDH10B_RS17255"; product "N-acetylmannosamine kinase"; protein_id "WP_000209011.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3466115 3466117 . - 0 gene_id "ECDH10B_RS17255"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nanK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417689.4"; locus_tag "ECDH10B_RS17255"; product "N-acetylmannosamine kinase"; protein_id "WP_000209011.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3465242 3465244 . - 0 gene_id "ECDH10B_RS17255"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nanK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417689.4"; locus_tag "ECDH10B_RS17255"; product "N-acetylmannosamine kinase"; protein_id "WP_000209011.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3466114 3466803 . - . gene_id "ECDH10B_RS17260"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17260"; old_locus_tag "ECDH10B_3400"; -NC_010473.1 Protein Homology CDS 3466117 3466803 . - 0 gene_id "ECDH10B_RS17260"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417690.1"; locus_tag "ECDH10B_RS17260"; product "N-acetylmannosamine-6-phosphate 2-epimerase"; protein_id "WP_000054239.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3466801 3466803 . - 0 gene_id "ECDH10B_RS17260"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417690.1"; locus_tag "ECDH10B_RS17260"; product "N-acetylmannosamine-6-phosphate 2-epimerase"; protein_id "WP_000054239.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3466114 3466116 . - 0 gene_id "ECDH10B_RS17260"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417690.1"; locus_tag "ECDH10B_RS17260"; product "N-acetylmannosamine-6-phosphate 2-epimerase"; protein_id "WP_000054239.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3466851 3468341 . - . gene_id "ECDH10B_RS17265"; transcript_id ""; gbkey "Gene"; gene "nanT"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17265"; old_locus_tag "ECDH10B_3401"; -NC_010473.1 Protein Homology CDS 3466854 3468341 . - 0 gene_id "ECDH10B_RS17265"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nanT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417691.4"; locus_tag "ECDH10B_RS17265"; product "sialic acid transporter NanT"; protein_id "WP_000108454.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3468339 3468341 . - 0 gene_id "ECDH10B_RS17265"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nanT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417691.4"; locus_tag "ECDH10B_RS17265"; product "sialic acid transporter NanT"; protein_id "WP_000108454.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3466851 3466853 . - 0 gene_id "ECDH10B_RS17265"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nanT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417691.4"; locus_tag "ECDH10B_RS17265"; product "sialic acid transporter NanT"; protein_id "WP_000108454.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3468450 3469343 . - . gene_id "ECDH10B_RS17270"; transcript_id ""; gbkey "Gene"; gene "nanA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17270"; old_locus_tag "ECDH10B_3402"; -NC_010473.1 Protein Homology CDS 3468453 3469343 . - 0 gene_id "ECDH10B_RS17270"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nanA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312125.1"; locus_tag "ECDH10B_RS17270"; product "N-acetylneuraminate lyase"; protein_id "WP_000224714.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3469341 3469343 . - 0 gene_id "ECDH10B_RS17270"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nanA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312125.1"; locus_tag "ECDH10B_RS17270"; product "N-acetylneuraminate lyase"; protein_id "WP_000224714.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3468450 3468452 . - 0 gene_id "ECDH10B_RS17270"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nanA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312125.1"; locus_tag "ECDH10B_RS17270"; product "N-acetylneuraminate lyase"; protein_id "WP_000224714.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3469465 3470256 . - . gene_id "ECDH10B_RS17275"; transcript_id ""; gbkey "Gene"; gene "nanR"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17275"; old_locus_tag "ECDH10B_3403"; -NC_010473.1 Protein Homology CDS 3469468 3470256 . - 0 gene_id "ECDH10B_RS17275"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nanR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417693.3"; locus_tag "ECDH10B_RS17275"; product "transcriptional regulator NanR"; protein_id "WP_000523845.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3470254 3470256 . - 0 gene_id "ECDH10B_RS17275"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nanR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417693.3"; locus_tag "ECDH10B_RS17275"; product "transcriptional regulator NanR"; protein_id "WP_000523845.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3469465 3469467 . - 0 gene_id "ECDH10B_RS17275"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nanR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417693.3"; locus_tag "ECDH10B_RS17275"; product "transcriptional regulator NanR"; protein_id "WP_000523845.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3470636 3472003 . + . gene_id "ECDH10B_RS17280"; transcript_id ""; gbkey "Gene"; gene "dcuC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17280"; old_locus_tag "ECDH10B_3404"; -NC_010473.1 Protein Homology CDS 3470636 3472000 . + 0 gene_id "ECDH10B_RS17280"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dcuC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417694.1"; locus_tag "ECDH10B_RS17280"; product "anaerobic C4-dicarboxylate transporter DcuC"; protein_id "WP_000467018.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3470636 3470638 . + 0 gene_id "ECDH10B_RS17280"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dcuC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417694.1"; locus_tag "ECDH10B_RS17280"; product "anaerobic C4-dicarboxylate transporter DcuC"; protein_id "WP_000467018.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3472001 3472003 . + 0 gene_id "ECDH10B_RS17280"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dcuC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417694.1"; locus_tag "ECDH10B_RS17280"; product "anaerobic C4-dicarboxylate transporter DcuC"; protein_id "WP_000467018.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3472046 3472543 . - . gene_id "ECDH10B_RS17285"; transcript_id ""; gbkey "Gene"; gene "sspB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17285"; old_locus_tag "ECDH10B_3405"; -NC_010473.1 Protein Homology CDS 3472049 3472543 . - 0 gene_id "ECDH10B_RS17285"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sspB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312128.1"; locus_tag "ECDH10B_RS17285"; product "ClpXP protease specificity-enhancing factor"; protein_id "WP_000366129.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3472541 3472543 . - 0 gene_id "ECDH10B_RS17285"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sspB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312128.1"; locus_tag "ECDH10B_RS17285"; product "ClpXP protease specificity-enhancing factor"; protein_id "WP_000366129.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3472046 3472048 . - 0 gene_id "ECDH10B_RS17285"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sspB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312128.1"; locus_tag "ECDH10B_RS17285"; product "ClpXP protease specificity-enhancing factor"; protein_id "WP_000366129.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3472549 3473187 . - . gene_id "ECDH10B_RS17290"; transcript_id ""; gbkey "Gene"; gene "sspA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17290"; old_locus_tag "ECDH10B_3406"; -NC_010473.1 Protein Homology CDS 3472552 3473187 . - 0 gene_id "ECDH10B_RS17290"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sspA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312129.1"; locus_tag "ECDH10B_RS17290"; product "stringent starvation protein A"; protein_id "WP_000257293.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3473185 3473187 . - 0 gene_id "ECDH10B_RS17290"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sspA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312129.1"; locus_tag "ECDH10B_RS17290"; product "stringent starvation protein A"; protein_id "WP_000257293.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3472549 3472551 . - 0 gene_id "ECDH10B_RS17290"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sspA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312129.1"; locus_tag "ECDH10B_RS17290"; product "stringent starvation protein A"; protein_id "WP_000257293.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3473582 3473974 . - . gene_id "ECDH10B_RS17295"; transcript_id ""; gbkey "Gene"; gene "rpsI"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17295"; old_locus_tag "ECDH10B_3407"; -NC_010473.1 Protein Homology CDS 3473585 3473974 . - 0 gene_id "ECDH10B_RS17295"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rpsI"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000829824.1"; locus_tag "ECDH10B_RS17295"; product "30S ribosomal protein S9"; protein_id "WP_000829818.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3473972 3473974 . - 0 gene_id "ECDH10B_RS17295"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rpsI"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000829824.1"; locus_tag "ECDH10B_RS17295"; product "30S ribosomal protein S9"; protein_id "WP_000829818.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3473582 3473584 . - 0 gene_id "ECDH10B_RS17295"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rpsI"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000829824.1"; locus_tag "ECDH10B_RS17295"; product "30S ribosomal protein S9"; protein_id "WP_000829818.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3473990 3474418 . - . gene_id "ECDH10B_RS17300"; transcript_id ""; gbkey "Gene"; gene "rplM"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17300"; old_locus_tag "ECDH10B_3408"; -NC_010473.1 Protein Homology CDS 3473993 3474418 . - 0 gene_id "ECDH10B_RS17300"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rplM"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_010847760.1"; locus_tag "ECDH10B_RS17300"; product "50S ribosomal protein L13"; protein_id "WP_000847559.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3474416 3474418 . - 0 gene_id "ECDH10B_RS17300"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rplM"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_010847760.1"; locus_tag "ECDH10B_RS17300"; product "50S ribosomal protein L13"; protein_id "WP_000847559.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3473990 3473992 . - 0 gene_id "ECDH10B_RS17300"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rplM"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_010847760.1"; locus_tag "ECDH10B_RS17300"; product "50S ribosomal protein L13"; protein_id "WP_000847559.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3474637 3475764 . - . gene_id "ECDH10B_RS17305"; transcript_id ""; gbkey "Gene"; gene "zapE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17305"; old_locus_tag "ECDH10B_3409"; -NC_010473.1 Protein Homology CDS 3474640 3475764 . - 0 gene_id "ECDH10B_RS17305"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "zapE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312132.1"; locus_tag "ECDH10B_RS17305"; product "cell division protein ZapE"; protein_id "WP_001192332.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3475762 3475764 . - 0 gene_id "ECDH10B_RS17305"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "zapE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312132.1"; locus_tag "ECDH10B_RS17305"; product "cell division protein ZapE"; protein_id "WP_001192332.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3474637 3474639 . - 0 gene_id "ECDH10B_RS17305"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "zapE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312132.1"; locus_tag "ECDH10B_RS17305"; product "cell division protein ZapE"; protein_id "WP_001192332.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3475958 3476356 . + . gene_id "ECDH10B_RS17310"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17310"; old_locus_tag "ECDH10B_3410"; -NC_010473.1 Protein Homology CDS 3475958 3476353 . + 0 gene_id "ECDH10B_RS17310"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005121352.1"; locus_tag "ECDH10B_RS17310"; product "DUF1043 family protein"; protein_id "WP_001295270.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3475958 3475960 . + 0 gene_id "ECDH10B_RS17310"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005121352.1"; locus_tag "ECDH10B_RS17310"; product "DUF1043 family protein"; protein_id "WP_001295270.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3476354 3476356 . + 0 gene_id "ECDH10B_RS17310"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005121352.1"; locus_tag "ECDH10B_RS17310"; product "DUF1043 family protein"; protein_id "WP_001295270.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3476510 3477877 . + . gene_id "ECDH10B_RS17315"; transcript_id ""; gbkey "Gene"; gene "degQ"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17315"; old_locus_tag "ECDH10B_3411"; -NC_010473.1 Protein Homology CDS 3476510 3477874 . + 0 gene_id "ECDH10B_RS17315"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "degQ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417701.1"; locus_tag "ECDH10B_RS17315"; product "serine endoprotease DegQ"; protein_id "WP_001295271.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3476510 3476512 . + 0 gene_id "ECDH10B_RS17315"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "degQ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417701.1"; locus_tag "ECDH10B_RS17315"; product "serine endoprotease DegQ"; protein_id "WP_001295271.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3477875 3477877 . + 0 gene_id "ECDH10B_RS17315"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "degQ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417701.1"; locus_tag "ECDH10B_RS17315"; product "serine endoprotease DegQ"; protein_id "WP_001295271.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3477967 3479034 . + . gene_id "ECDH10B_RS17320"; transcript_id ""; gbkey "Gene"; gene "degS"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17320"; old_locus_tag "ECDH10B_3412"; -NC_010473.1 Protein Homology CDS 3477967 3479031 . + 0 gene_id "ECDH10B_RS17320"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "degS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312135.1"; locus_tag "ECDH10B_RS17320"; product "outer membrane-stress sensor serine endopeptidase DegS"; protein_id "WP_000497723.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3477967 3477969 . + 0 gene_id "ECDH10B_RS17320"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "degS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312135.1"; locus_tag "ECDH10B_RS17320"; product "outer membrane-stress sensor serine endopeptidase DegS"; protein_id "WP_000497723.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3479032 3479034 . + 0 gene_id "ECDH10B_RS17320"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "degS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312135.1"; locus_tag "ECDH10B_RS17320"; product "outer membrane-stress sensor serine endopeptidase DegS"; protein_id "WP_000497723.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3479097 3480035 . - . gene_id "ECDH10B_RS17325"; transcript_id ""; gbkey "Gene"; gene "mdh"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17325"; old_locus_tag "ECDH10B_3413"; -NC_010473.1 Protein Homology CDS 3479100 3480035 . - 0 gene_id "ECDH10B_RS17325"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mdh"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000861594.1"; locus_tag "ECDH10B_RS17325"; product "malate dehydrogenase"; protein_id "WP_001295272.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3480033 3480035 . - 0 gene_id "ECDH10B_RS17325"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mdh"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000861594.1"; locus_tag "ECDH10B_RS17325"; product "malate dehydrogenase"; protein_id "WP_001295272.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3479097 3479099 . - 0 gene_id "ECDH10B_RS17325"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mdh"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000861594.1"; locus_tag "ECDH10B_RS17325"; product "malate dehydrogenase"; protein_id "WP_001295272.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3480470 3480940 . + . gene_id "ECDH10B_RS17330"; transcript_id ""; gbkey "Gene"; gene "argR"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17330"; old_locus_tag "ECDH10B_3414"; -NC_010473.1 Protein Homology CDS 3480470 3480937 . + 0 gene_id "ECDH10B_RS17330"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "argR"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001257852.1"; locus_tag "ECDH10B_RS17330"; product "transcriptional regulator ArgR"; protein_id "WP_001257846.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3480470 3480472 . + 0 gene_id "ECDH10B_RS17330"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "argR"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001257852.1"; locus_tag "ECDH10B_RS17330"; product "transcriptional regulator ArgR"; protein_id "WP_001257846.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3480938 3480940 . + 0 gene_id "ECDH10B_RS17330"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "argR"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001257852.1"; locus_tag "ECDH10B_RS17330"; product "transcriptional regulator ArgR"; protein_id "WP_001257846.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3481305 3481568 . + . gene_id "ECDH10B_RS17335"; transcript_id ""; gbkey "Gene"; gene "yhcN"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17335"; old_locus_tag "ECDH10B_3415"; -NC_010473.1 Protein Homology CDS 3481305 3481565 . + 0 gene_id "ECDH10B_RS17335"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yhcN"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417705.2"; locus_tag "ECDH10B_RS17335"; product "peroxide/acid stress response protein YhcN"; protein_id "WP_000695690.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3481305 3481307 . + 0 gene_id "ECDH10B_RS17335"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yhcN"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417705.2"; locus_tag "ECDH10B_RS17335"; product "peroxide/acid stress response protein YhcN"; protein_id "WP_000695690.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3481566 3481568 . + 0 gene_id "ECDH10B_RS17335"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yhcN"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417705.2"; locus_tag "ECDH10B_RS17335"; product "peroxide/acid stress response protein YhcN"; protein_id "WP_000695690.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3481624 3481896 . - . gene_id "ECDH10B_RS17340"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17340"; old_locus_tag "ECDH10B_3416"; -NC_010473.1 Protein Homology CDS 3481627 3481896 . - 0 gene_id "ECDH10B_RS17340"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312139.1"; locus_tag "ECDH10B_RS17340"; product "barstar family protein"; protein_id "WP_001029013.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3481894 3481896 . - 0 gene_id "ECDH10B_RS17340"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312139.1"; locus_tag "ECDH10B_RS17340"; product "barstar family protein"; protein_id "WP_001029013.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3481624 3481626 . - 0 gene_id "ECDH10B_RS17340"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312139.1"; locus_tag "ECDH10B_RS17340"; product "barstar family protein"; protein_id "WP_001029013.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3481988 3483955 . - . gene_id "ECDH10B_RS17345"; transcript_id ""; gbkey "Gene"; gene "aaeB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17345"; -NC_010473.1 Protein Homology CDS 3481991 3483955 . - 0 gene_id "ECDH10B_RS17345"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "aaeB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417707.1"; locus_tag "ECDH10B_RS17345"; product "p-hydroxybenzoic acid efflux pump subunit AaeB"; protein_id "WP_000510965.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3483953 3483955 . - 0 gene_id "ECDH10B_RS17345"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "aaeB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417707.1"; locus_tag "ECDH10B_RS17345"; product "p-hydroxybenzoic acid efflux pump subunit AaeB"; protein_id "WP_000510965.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3481988 3481990 . - 0 gene_id "ECDH10B_RS17345"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "aaeB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417707.1"; locus_tag "ECDH10B_RS17345"; product "p-hydroxybenzoic acid efflux pump subunit AaeB"; protein_id "WP_000510965.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3483961 3484893 . - . gene_id "ECDH10B_RS17350"; transcript_id ""; gbkey "Gene"; gene "aaeA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17350"; old_locus_tag "ECDH10B_3418"; -NC_010473.1 Protein Homology CDS 3483964 3484893 . - 0 gene_id "ECDH10B_RS17350"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "aaeA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417708.1"; locus_tag "ECDH10B_RS17350"; product "p-hydroxybenzoic acid efflux pump subunit AaeA"; protein_id "WP_000854021.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3484891 3484893 . - 0 gene_id "ECDH10B_RS17350"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "aaeA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417708.1"; locus_tag "ECDH10B_RS17350"; product "p-hydroxybenzoic acid efflux pump subunit AaeA"; protein_id "WP_000854021.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3483961 3483963 . - 0 gene_id "ECDH10B_RS17350"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "aaeA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417708.1"; locus_tag "ECDH10B_RS17350"; product "p-hydroxybenzoic acid efflux pump subunit AaeA"; protein_id "WP_000854021.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3484901 3485104 . - . gene_id "ECDH10B_RS17355"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17355"; old_locus_tag "ECDH10B_3419"; -NC_010473.1 Protein Homology CDS 3484904 3485104 . - 0 gene_id "ECDH10B_RS17355"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000051842.1"; locus_tag "ECDH10B_RS17355"; product "AaeX family protein"; protein_id "WP_000051841.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3485102 3485104 . - 0 gene_id "ECDH10B_RS17355"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000051842.1"; locus_tag "ECDH10B_RS17355"; product "AaeX family protein"; protein_id "WP_000051841.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3484901 3484903 . - 0 gene_id "ECDH10B_RS17355"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000051842.1"; locus_tag "ECDH10B_RS17355"; product "AaeX family protein"; protein_id "WP_000051841.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3485287 3486216 . + . gene_id "ECDH10B_RS17360"; transcript_id ""; gbkey "Gene"; gene "aaeR"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17360"; old_locus_tag "ECDH10B_3420"; -NC_010473.1 Protein Homology CDS 3485287 3486213 . + 0 gene_id "ECDH10B_RS17360"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "aaeR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312143.1"; locus_tag "ECDH10B_RS17360"; product "HTH-type transcriptional activator AaeR"; protein_id "WP_000440317.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3485287 3485289 . + 0 gene_id "ECDH10B_RS17360"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "aaeR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312143.1"; locus_tag "ECDH10B_RS17360"; product "HTH-type transcriptional activator AaeR"; protein_id "WP_000440317.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3486214 3486216 . + 0 gene_id "ECDH10B_RS17360"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "aaeR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312143.1"; locus_tag "ECDH10B_RS17360"; product "HTH-type transcriptional activator AaeR"; protein_id "WP_000440317.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3486350 3487795 . - . gene_id "ECDH10B_RS17365"; transcript_id ""; gbkey "Gene"; gene "tldD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17365"; old_locus_tag "ECDH10B_3421"; -NC_010473.1 Protein Homology CDS 3486353 3487795 . - 0 gene_id "ECDH10B_RS17365"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tldD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417711.1"; locus_tag "ECDH10B_RS17365"; product "metalloprotease TldD"; protein_id "WP_000055909.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3487793 3487795 . - 0 gene_id "ECDH10B_RS17365"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tldD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417711.1"; locus_tag "ECDH10B_RS17365"; product "metalloprotease TldD"; protein_id "WP_000055909.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3486350 3486352 . - 0 gene_id "ECDH10B_RS17365"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tldD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417711.1"; locus_tag "ECDH10B_RS17365"; product "metalloprotease TldD"; protein_id "WP_000055909.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3488225 3492025 . - . gene_id "ECDH10B_RS17370"; transcript_id ""; gbkey "Gene"; gene "yhdP"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17370"; old_locus_tag "ECDH10B_3422"; -NC_010473.1 Protein Homology CDS 3488228 3492025 . - 0 gene_id "ECDH10B_RS17370"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yhdP"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026208.1"; locus_tag "ECDH10B_RS17370"; product "AsmA2 domain-containing protein YhdP"; protein_id "WP_001253618.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3492023 3492025 . - 0 gene_id "ECDH10B_RS17370"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yhdP"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026208.1"; locus_tag "ECDH10B_RS17370"; product "AsmA2 domain-containing protein YhdP"; protein_id "WP_001253618.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3488225 3488227 . - 0 gene_id "ECDH10B_RS17370"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yhdP"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026208.1"; locus_tag "ECDH10B_RS17370"; product "AsmA2 domain-containing protein YhdP"; protein_id "WP_001253618.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3492093 3493562 . - . gene_id "ECDH10B_RS17375"; transcript_id ""; gbkey "Gene"; gene "rng"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17375"; old_locus_tag "ECDH10B_3423"; -NC_010473.1 Protein Homology CDS 3492096 3493562 . - 0 gene_id "ECDH10B_RS17375"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rng"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_006818051.1"; locus_tag "ECDH10B_RS17375"; product "ribonuclease G"; protein_id "WP_000123197.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3493560 3493562 . - 0 gene_id "ECDH10B_RS17375"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rng"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_006818051.1"; locus_tag "ECDH10B_RS17375"; product "ribonuclease G"; protein_id "WP_000123197.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3492093 3492095 . - 0 gene_id "ECDH10B_RS17375"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rng"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_006818051.1"; locus_tag "ECDH10B_RS17375"; product "ribonuclease G"; protein_id "WP_000123197.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3493552 3494145 . - . gene_id "ECDH10B_RS17380"; transcript_id ""; gbkey "Gene"; gene "yhdE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17380"; old_locus_tag "ECDH10B_3424"; -NC_010473.1 Protein Homology CDS 3493555 3494145 . - 0 gene_id "ECDH10B_RS17380"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yhdE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417714.1"; locus_tag "ECDH10B_RS17380"; product "nucleoside triphosphate pyrophosphatase YhdE"; protein_id "WP_000203105.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3494143 3494145 . - 0 gene_id "ECDH10B_RS17380"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yhdE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417714.1"; locus_tag "ECDH10B_RS17380"; product "nucleoside triphosphate pyrophosphatase YhdE"; protein_id "WP_000203105.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3493552 3493554 . - 0 gene_id "ECDH10B_RS17380"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yhdE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417714.1"; locus_tag "ECDH10B_RS17380"; product "nucleoside triphosphate pyrophosphatase YhdE"; protein_id "WP_000203105.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3494154 3494642 . - . gene_id "ECDH10B_RS17385"; transcript_id ""; gbkey "Gene"; gene "mreD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17385"; old_locus_tag "ECDH10B_3425"; -NC_010473.1 Protein Homology CDS 3494157 3494642 . - 0 gene_id "ECDH10B_RS17385"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mreD"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001487551.1"; locus_tag "ECDH10B_RS17385"; product "rod shape-determining protein MreD"; protein_id "WP_000179409.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3494640 3494642 . - 0 gene_id "ECDH10B_RS17385"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mreD"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001487551.1"; locus_tag "ECDH10B_RS17385"; product "rod shape-determining protein MreD"; protein_id "WP_000179409.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3494154 3494156 . - 0 gene_id "ECDH10B_RS17385"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mreD"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001487551.1"; locus_tag "ECDH10B_RS17385"; product "rod shape-determining protein MreD"; protein_id "WP_000179409.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3494642 3495745 . - . gene_id "ECDH10B_RS17390"; transcript_id ""; gbkey "Gene"; gene "mreC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17390"; -NC_010473.1 Protein Homology CDS 3494645 3495745 . - 0 gene_id "ECDH10B_RS17390"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mreC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417716.1"; locus_tag "ECDH10B_RS17390"; product "rod shape-determining protein MreC"; protein_id "WP_000802545.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3495743 3495745 . - 0 gene_id "ECDH10B_RS17390"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mreC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417716.1"; locus_tag "ECDH10B_RS17390"; product "rod shape-determining protein MreC"; protein_id "WP_000802545.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3494642 3494644 . - 0 gene_id "ECDH10B_RS17390"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mreC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417716.1"; locus_tag "ECDH10B_RS17390"; product "rod shape-determining protein MreC"; protein_id "WP_000802545.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3495811 3496854 . - . gene_id "ECDH10B_RS17395"; transcript_id ""; gbkey "Gene"; gene "mreB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17395"; old_locus_tag "ECDH10B_3427"; -NC_010473.1 Protein Homology CDS 3495814 3496854 . - 0 gene_id "ECDH10B_RS17395"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mreB"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000913396.1"; locus_tag "ECDH10B_RS17395"; product "rod shape-determining protein MreB"; protein_id "WP_000913396.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3496852 3496854 . - 0 gene_id "ECDH10B_RS17395"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mreB"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000913396.1"; locus_tag "ECDH10B_RS17395"; product "rod shape-determining protein MreB"; protein_id "WP_000913396.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3495811 3495813 . - 0 gene_id "ECDH10B_RS17395"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mreB"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000913396.1"; locus_tag "ECDH10B_RS17395"; product "rod shape-determining protein MreB"; protein_id "WP_000913396.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3497159 3499099 . - . gene_id "ECDH10B_RS17405"; transcript_id ""; gbkey "Gene"; gene "csrD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17405"; old_locus_tag "ECDH10B_3428"; -NC_010473.1 Protein Homology CDS 3497162 3499099 . - 0 gene_id "ECDH10B_RS17405"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "csrD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417718.1"; locus_tag "ECDH10B_RS17405"; product "RNase E specificity factor CsrD"; protein_id "WP_001241469.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3499097 3499099 . - 0 gene_id "ECDH10B_RS17405"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "csrD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417718.1"; locus_tag "ECDH10B_RS17405"; product "RNase E specificity factor CsrD"; protein_id "WP_001241469.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3497159 3497161 . - 0 gene_id "ECDH10B_RS17405"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "csrD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417718.1"; locus_tag "ECDH10B_RS17405"; product "RNase E specificity factor CsrD"; protein_id "WP_001241469.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3499251 3500225 . + . gene_id "ECDH10B_RS17410"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17410"; old_locus_tag "ECDH10B_3429"; -NC_010473.1 Protein Homology CDS 3499251 3500222 . + 0 gene_id "ECDH10B_RS17410"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417719.1"; locus_tag "ECDH10B_RS17410"; product "oxidoreductase"; protein_id "WP_001148481.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3499251 3499253 . + 0 gene_id "ECDH10B_RS17410"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417719.1"; locus_tag "ECDH10B_RS17410"; product "oxidoreductase"; protein_id "WP_001148481.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3500223 3500225 . + 0 gene_id "ECDH10B_RS17410"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417719.1"; locus_tag "ECDH10B_RS17410"; product "oxidoreductase"; protein_id "WP_001148481.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3501203 3501673 . + . gene_id "ECDH10B_RS17430"; transcript_id ""; gbkey "Gene"; gene "accB"; gene_biotype "protein_coding"; gene_synonym "fabE"; locus_tag "ECDH10B_RS17430"; old_locus_tag "ECDH10B_3430"; -NC_010473.1 Protein Homology CDS 3501203 3501670 . + 0 gene_id "ECDH10B_RS17430"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "accB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312154.1"; locus_tag "ECDH10B_RS17430"; product "acetyl-CoA carboxylase biotin carboxyl carrier protein"; protein_id "WP_000354622.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3501203 3501205 . + 0 gene_id "ECDH10B_RS17430"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "accB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312154.1"; locus_tag "ECDH10B_RS17430"; product "acetyl-CoA carboxylase biotin carboxyl carrier protein"; protein_id "WP_000354622.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3501671 3501673 . + 0 gene_id "ECDH10B_RS17430"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "accB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312154.1"; locus_tag "ECDH10B_RS17430"; product "acetyl-CoA carboxylase biotin carboxyl carrier protein"; protein_id "WP_000354622.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3501684 3503033 . + . gene_id "ECDH10B_RS17435"; transcript_id ""; gbkey "Gene"; gene "accC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17435"; old_locus_tag "ECDH10B_3431"; -NC_010473.1 Protein Homology CDS 3501684 3503030 . + 0 gene_id "ECDH10B_RS17435"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "accC"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_009483995.1"; locus_tag "ECDH10B_RS17435"; product "acetyl-CoA carboxylase biotin carboxylase subunit"; protein_id "WP_000884639.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3501684 3501686 . + 0 gene_id "ECDH10B_RS17435"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "accC"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_009483995.1"; locus_tag "ECDH10B_RS17435"; product "acetyl-CoA carboxylase biotin carboxylase subunit"; protein_id "WP_000884639.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3503031 3503033 . + 0 gene_id "ECDH10B_RS17435"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "accC"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_009483995.1"; locus_tag "ECDH10B_RS17435"; product "acetyl-CoA carboxylase biotin carboxylase subunit"; protein_id "WP_000884639.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3503142 3503384 . + . gene_id "ECDH10B_RS17440"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17440"; old_locus_tag "ECDH10B_3432"; -NC_010473.1 Protein Homology CDS 3503142 3503381 . + 0 gene_id "ECDH10B_RS17440"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417723.1"; locus_tag "ECDH10B_RS17440"; product "YhdT family protein"; protein_id "WP_000381173.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3503142 3503144 . + 0 gene_id "ECDH10B_RS17440"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417723.1"; locus_tag "ECDH10B_RS17440"; product "YhdT family protein"; protein_id "WP_000381173.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3503382 3503384 . + 0 gene_id "ECDH10B_RS17440"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417723.1"; locus_tag "ECDH10B_RS17440"; product "YhdT family protein"; protein_id "WP_000381173.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3503374 3504825 . + . gene_id "ECDH10B_RS17445"; transcript_id ""; gbkey "Gene"; gene "panF"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17445"; old_locus_tag "ECDH10B_3433"; -NC_010473.1 Protein Homology CDS 3503374 3504822 . + 0 gene_id "ECDH10B_RS17445"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "panF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312157.2"; locus_tag "ECDH10B_RS17445"; product "sodium/pantothenate symporter"; protein_id "WP_001175728.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3503374 3503376 . + 0 gene_id "ECDH10B_RS17445"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "panF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312157.2"; locus_tag "ECDH10B_RS17445"; product "sodium/pantothenate symporter"; protein_id "WP_001175728.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3504823 3504825 . + 0 gene_id "ECDH10B_RS17445"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "panF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312157.2"; locus_tag "ECDH10B_RS17445"; product "sodium/pantothenate symporter"; protein_id "WP_001175728.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3504837 3505718 . + . gene_id "ECDH10B_RS17450"; transcript_id ""; gbkey "Gene"; gene "prmA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17450"; old_locus_tag "ECDH10B_3434"; -NC_010473.1 Protein Homology CDS 3504837 3505715 . + 0 gene_id "ECDH10B_RS17450"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "prmA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312158.1"; locus_tag "ECDH10B_RS17450"; product "50S ribosomal protein L11 methyltransferase"; protein_id "WP_001145827.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3504837 3504839 . + 0 gene_id "ECDH10B_RS17450"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "prmA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312158.1"; locus_tag "ECDH10B_RS17450"; product "50S ribosomal protein L11 methyltransferase"; protein_id "WP_001145827.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3505716 3505718 . + 0 gene_id "ECDH10B_RS17450"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "prmA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312158.1"; locus_tag "ECDH10B_RS17450"; product "50S ribosomal protein L11 methyltransferase"; protein_id "WP_001145827.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3506047 3507012 . + . gene_id "ECDH10B_RS17455"; transcript_id ""; gbkey "Gene"; gene "dusB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17455"; old_locus_tag "ECDH10B_3435"; -NC_010473.1 Protein Homology CDS 3506047 3507009 . + 0 gene_id "ECDH10B_RS17455"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dusB"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_008785970.1"; locus_tag "ECDH10B_RS17455"; product "tRNA dihydrouridine synthase DusB"; protein_id "WP_001219652.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3506047 3506049 . + 0 gene_id "ECDH10B_RS17455"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dusB"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_008785970.1"; locus_tag "ECDH10B_RS17455"; product "tRNA dihydrouridine synthase DusB"; protein_id "WP_001219652.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3507010 3507012 . + 0 gene_id "ECDH10B_RS17455"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dusB"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_008785970.1"; locus_tag "ECDH10B_RS17455"; product "tRNA dihydrouridine synthase DusB"; protein_id "WP_001219652.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3507038 3507334 . + . gene_id "ECDH10B_RS17460"; transcript_id ""; gbkey "Gene"; gene "fis"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17460"; old_locus_tag "ECDH10B_3436"; -NC_010473.1 Protein Homology CDS 3507038 3507331 . + 0 gene_id "ECDH10B_RS17460"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fis"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001465625.1"; locus_tag "ECDH10B_RS17460"; product "DNA-binding transcriptional regulator Fis"; protein_id "WP_000462905.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3507038 3507040 . + 0 gene_id "ECDH10B_RS17460"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fis"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001465625.1"; locus_tag "ECDH10B_RS17460"; product "DNA-binding transcriptional regulator Fis"; protein_id "WP_000462905.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3507332 3507334 . + 0 gene_id "ECDH10B_RS17460"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fis"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001465625.1"; locus_tag "ECDH10B_RS17460"; product "DNA-binding transcriptional regulator Fis"; protein_id "WP_000462905.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3507420 3508304 . + . gene_id "ECDH10B_RS17465"; transcript_id ""; gbkey "Gene"; gene "yhdJ"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17465"; old_locus_tag "ECDH10B_3437"; -NC_010473.1 Protein Homology CDS 3507420 3508301 . + 0 gene_id "ECDH10B_RS17465"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yhdJ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417728.4"; locus_tag "ECDH10B_RS17465"; product "adenine-specific DNA-methyltransferase"; protein_id "WP_001258895.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3507420 3507422 . + 0 gene_id "ECDH10B_RS17465"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yhdJ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417728.4"; locus_tag "ECDH10B_RS17465"; product "adenine-specific DNA-methyltransferase"; protein_id "WP_001258895.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3508302 3508304 . + 0 gene_id "ECDH10B_RS17465"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yhdJ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417728.4"; locus_tag "ECDH10B_RS17465"; product "adenine-specific DNA-methyltransferase"; protein_id "WP_001258895.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3508388 3508567 . + . gene_id "ECDH10B_RS17470"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17470"; old_locus_tag "ECDH10B_3438"; -NC_010473.1 Protein Homology CDS 3508388 3508564 . + 0 gene_id "ECDH10B_RS17470"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312162.1"; locus_tag "ECDH10B_RS17470"; product "DUF2556 family protein"; protein_id "WP_001295275.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3508388 3508390 . + 0 gene_id "ECDH10B_RS17470"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312162.1"; locus_tag "ECDH10B_RS17470"; product "DUF2556 family protein"; protein_id "WP_001295275.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3508565 3508567 . + 0 gene_id "ECDH10B_RS17470"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312162.1"; locus_tag "ECDH10B_RS17470"; product "DUF2556 family protein"; protein_id "WP_001295275.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3508570 3509232 . - . gene_id "ECDH10B_RS17475"; transcript_id ""; gbkey "Gene"; gene "acrS"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17475"; old_locus_tag "ECDH10B_3439"; -NC_010473.1 Protein Homology CDS 3508573 3509232 . - 0 gene_id "ECDH10B_RS17475"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "acrS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312163.1"; locus_tag "ECDH10B_RS17475"; product "multidrug efflux transporter transcriptional repressor AcrS"; protein_id "WP_001129518.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3509230 3509232 . - 0 gene_id "ECDH10B_RS17475"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "acrS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312163.1"; locus_tag "ECDH10B_RS17475"; product "multidrug efflux transporter transcriptional repressor AcrS"; protein_id "WP_001129518.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3508570 3508572 . - 0 gene_id "ECDH10B_RS17475"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "acrS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312163.1"; locus_tag "ECDH10B_RS17475"; product "multidrug efflux transporter transcriptional repressor AcrS"; protein_id "WP_001129518.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3509631 3510788 . + . gene_id "ECDH10B_RS17480"; transcript_id ""; gbkey "Gene"; gene "acrE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17480"; old_locus_tag "ECDH10B_3440"; -NC_010473.1 Protein Homology CDS 3509631 3510785 . + 0 gene_id "ECDH10B_RS17480"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "acrE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417731.1"; locus_tag "ECDH10B_RS17480"; product "multidrug efflux RND transporter periplasmic adaptor subunit AcrE"; protein_id "WP_000160334.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3509631 3509633 . + 0 gene_id "ECDH10B_RS17480"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "acrE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417731.1"; locus_tag "ECDH10B_RS17480"; product "multidrug efflux RND transporter periplasmic adaptor subunit AcrE"; protein_id "WP_000160334.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3510786 3510788 . + 0 gene_id "ECDH10B_RS17480"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "acrE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417731.1"; locus_tag "ECDH10B_RS17480"; product "multidrug efflux RND transporter periplasmic adaptor subunit AcrE"; protein_id "WP_000160334.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3510800 3513904 . + . gene_id "ECDH10B_RS17485"; transcript_id ""; gbkey "Gene"; gene "acrF"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17485"; old_locus_tag "ECDH10B_3441"; -NC_010473.1 Protein Homology CDS 3510800 3513901 . + 0 gene_id "ECDH10B_RS17485"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "acrF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417732.1"; locus_tag "ECDH10B_RS17485"; product "multidrug efflux RND transporter permease subunit AcrF"; protein_id "WP_001273238.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3510800 3510802 . + 0 gene_id "ECDH10B_RS17485"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "acrF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417732.1"; locus_tag "ECDH10B_RS17485"; product "multidrug efflux RND transporter permease subunit AcrF"; protein_id "WP_001273238.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3513902 3513904 . + 0 gene_id "ECDH10B_RS17485"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "acrF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417732.1"; locus_tag "ECDH10B_RS17485"; product "multidrug efflux RND transporter permease subunit AcrF"; protein_id "WP_001273238.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3514157 3514378 . + . gene_id "ECDH10B_RS17490"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17490"; old_locus_tag "ECDH10B_3442"; -NC_010473.1 Protein Homology CDS 3514157 3514375 . + 0 gene_id "ECDH10B_RS17490"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312167.1"; locus_tag "ECDH10B_RS17490"; product "membrane protein"; protein_id "WP_000825639.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3514157 3514159 . + 0 gene_id "ECDH10B_RS17490"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312167.1"; locus_tag "ECDH10B_RS17490"; product "membrane protein"; protein_id "WP_000825639.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3514376 3514378 . + 0 gene_id "ECDH10B_RS17490"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312167.1"; locus_tag "ECDH10B_RS17490"; product "membrane protein"; protein_id "WP_000825639.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3514809 3515833 . + . gene_id "ECDH10B_RS17500"; transcript_id ""; gbkey "Gene"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS17500"; old_locus_tag "ECDH10B_3443"; pseudo "true"; -NC_010473.1 Protein Homology CDS 3514809 3515830 . + 0 gene_id "ECDH10B_RS17500"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005121390.1"; locus_tag "ECDH10B_RS17500"; note "frameshifted"; product "amino acid ABC transporter substrate-binding protein"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3514809 3514811 . + 0 gene_id "ECDH10B_RS17500"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005121390.1"; locus_tag "ECDH10B_RS17500"; note "frameshifted"; product "amino acid ABC transporter substrate-binding protein"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3515831 3515833 . + 0 gene_id "ECDH10B_RS17500"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005121390.1"; locus_tag "ECDH10B_RS17500"; note "frameshifted"; product "amino acid ABC transporter substrate-binding protein"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 3515901 3517082 . + . gene_id "ECDH10B_RS17505"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17505"; old_locus_tag "ECDH10B_3444"; -NC_010473.1 Protein Homology CDS 3515901 3517079 . + 0 gene_id "ECDH10B_RS17505"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026209.1"; locus_tag "ECDH10B_RS17505"; product "amino acid ABC transporter permease"; protein_id "WP_000019655.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3515901 3515903 . + 0 gene_id "ECDH10B_RS17505"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026209.1"; locus_tag "ECDH10B_RS17505"; product "amino acid ABC transporter permease"; protein_id "WP_000019655.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3517080 3517082 . + 0 gene_id "ECDH10B_RS17505"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026209.1"; locus_tag "ECDH10B_RS17505"; product "amino acid ABC transporter permease"; protein_id "WP_000019655.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3517092 3518195 . + . gene_id "ECDH10B_RS17510"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17510"; old_locus_tag "ECDH10B_3445"; -NC_010473.1 Protein Homology CDS 3517092 3518192 . + 0 gene_id "ECDH10B_RS17510"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417736.2"; locus_tag "ECDH10B_RS17510"; product "amino acid ABC transporter permease"; protein_id "WP_001300681.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3517092 3517094 . + 0 gene_id "ECDH10B_RS17510"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417736.2"; locus_tag "ECDH10B_RS17510"; product "amino acid ABC transporter permease"; protein_id "WP_001300681.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3518193 3518195 . + 0 gene_id "ECDH10B_RS17510"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417736.2"; locus_tag "ECDH10B_RS17510"; product "amino acid ABC transporter permease"; protein_id "WP_001300681.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3518203 3518961 . + . gene_id "ECDH10B_RS17515"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17515"; old_locus_tag "ECDH10B_3446"; -NC_010473.1 Protein Homology CDS 3518203 3518958 . + 0 gene_id "ECDH10B_RS17515"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417737.1"; locus_tag "ECDH10B_RS17515"; product "amino acid ABC transporter ATP-binding protein"; protein_id "WP_000078349.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3518203 3518205 . + 0 gene_id "ECDH10B_RS17515"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417737.1"; locus_tag "ECDH10B_RS17515"; product "amino acid ABC transporter ATP-binding protein"; protein_id "WP_000078349.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3518959 3518961 . + 0 gene_id "ECDH10B_RS17515"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417737.1"; locus_tag "ECDH10B_RS17515"; product "amino acid ABC transporter ATP-binding protein"; protein_id "WP_000078349.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3519192 3519307 . - . gene_id "ECDH10B_RS17520"; transcript_id ""; gbkey "Gene"; gene "rrf"; gene_biotype "rRNA"; locus_tag "ECDH10B_RS17520"; old_locus_tag "ECDH10B_3447"; -NC_010473.1 cmsearch exon 3519192 3519307 . - . gene_id "ECDH10B_RS17520"; transcript_id "ECDH10B_RS17520"; db_xref "RFAM:RF00001"; gbkey "rRNA"; gene "rrf"; inference "COORDINATES: nucleotide motif:Rfam:12.0:RF00001"; inference "COORDINATES: profile:INFERNAL:1.1.1"; locus_tag "ECDH10B_RS17520"; product "5S ribosomal RNA"; exon_number "1"; -NC_010473.1 RefSeq gene 3519347 3519422 . - . gene_id "ECDH10B_RS17525"; transcript_id ""; gbkey "Gene"; gene_biotype "tRNA"; locus_tag "ECDH10B_RS17525"; old_locus_tag "ECDH10B_3448"; -NC_010473.1 tRNAscan-SE exon 3519347 3519422 . - . gene_id "ECDH10B_RS17525"; transcript_id "ECDH10B_RS17525"; anticodon "(pos:complement(3519387..3519389))"; gbkey "tRNA"; inference "COORDINATES: profile:tRNAscan-SE:2.0.6"; locus_tag "ECDH10B_RS17525"; product "tRNA-Thr"; exon_number "1"; -NC_010473.1 RefSeq gene 3519437 3519552 . - . gene_id "ECDH10B_RS17530"; transcript_id ""; gbkey "Gene"; gene "rrf"; gene_biotype "rRNA"; locus_tag "ECDH10B_RS17530"; old_locus_tag "ECDH10B_3449"; -NC_010473.1 cmsearch exon 3519437 3519552 . - . gene_id "ECDH10B_RS17530"; transcript_id "ECDH10B_RS17530"; db_xref "RFAM:RF00001"; gbkey "rRNA"; gene "rrf"; inference "COORDINATES: nucleotide motif:Rfam:12.0:RF00001"; inference "COORDINATES: profile:INFERNAL:1.1.1"; locus_tag "ECDH10B_RS17530"; product "5S ribosomal RNA"; exon_number "1"; -NC_010473.1 RefSeq gene 3519647 3522550 . - . gene_id "ECDH10B_RS17535"; transcript_id ""; gbkey "Gene"; gene_biotype "rRNA"; locus_tag "ECDH10B_RS17535"; old_locus_tag "ECDH10B_3450"; -NC_010473.1 cmsearch exon 3519647 3522550 . - . gene_id "ECDH10B_RS17535"; transcript_id "ECDH10B_RS17535"; db_xref "RFAM:RF02541"; gbkey "rRNA"; inference "COORDINATES: nucleotide motif:Rfam:12.0:RF02541"; inference "COORDINATES: profile:INFERNAL:1.1.1"; locus_tag "ECDH10B_RS17535"; product "23S ribosomal RNA"; exon_number "1"; -NC_010473.1 RefSeq gene 3522725 3522800 . - . gene_id "ECDH10B_RS17540"; transcript_id ""; gbkey "Gene"; gene_biotype "tRNA"; locus_tag "ECDH10B_RS17540"; old_locus_tag "ECDH10B_3451"; -NC_010473.1 tRNAscan-SE exon 3522725 3522800 . - . gene_id "ECDH10B_RS17540"; transcript_id "ECDH10B_RS17540"; anticodon "(pos:complement(3522765..3522767))"; gbkey "tRNA"; inference "COORDINATES: profile:tRNAscan-SE:2.0.6"; locus_tag "ECDH10B_RS17540"; product "tRNA-Ala"; exon_number "1"; -NC_010473.1 RefSeq gene 3522843 3522919 . - . gene_id "ECDH10B_RS17545"; transcript_id ""; gbkey "Gene"; gene_biotype "tRNA"; locus_tag "ECDH10B_RS17545"; old_locus_tag "ECDH10B_3452"; -NC_010473.1 tRNAscan-SE exon 3522843 3522919 . - . gene_id "ECDH10B_RS17545"; transcript_id "ECDH10B_RS17545"; anticodon "(pos:complement(3522883..3522885))"; gbkey "tRNA"; inference "COORDINATES: profile:tRNAscan-SE:2.0.6"; locus_tag "ECDH10B_RS17545"; product "tRNA-Ile"; exon_number "1"; -NC_010473.1 RefSeq gene 3522988 3524529 . - . gene_id "ECDH10B_RS17550"; transcript_id ""; gbkey "Gene"; gene_biotype "rRNA"; locus_tag "ECDH10B_RS17550"; old_locus_tag "ECDH10B_3453"; -NC_010473.1 cmsearch exon 3522988 3524529 . - . gene_id "ECDH10B_RS17550"; transcript_id "ECDH10B_RS17550"; db_xref "RFAM:RF00177"; gbkey "rRNA"; inference "COORDINATES: nucleotide motif:Rfam:12.0:RF00177"; inference "COORDINATES: profile:INFERNAL:1.1.1"; locus_tag "ECDH10B_RS17550"; product "16S ribosomal RNA"; exon_number "1"; -NC_010473.1 RefSeq gene 3525003 3525557 . + . gene_id "ECDH10B_RS17555"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17555"; old_locus_tag "ECDH10B_3454"; -NC_010473.1 Protein Homology CDS 3525003 3525554 . + 0 gene_id "ECDH10B_RS17555"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417738.4"; locus_tag "ECDH10B_RS17555"; product "gamma carbonic anhydrase family protein"; protein_id "WP_001286216.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3525003 3525005 . + 0 gene_id "ECDH10B_RS17555"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417738.4"; locus_tag "ECDH10B_RS17555"; product "gamma carbonic anhydrase family protein"; protein_id "WP_001286216.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3525555 3525557 . + 0 gene_id "ECDH10B_RS17555"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417738.4"; locus_tag "ECDH10B_RS17555"; product "gamma carbonic anhydrase family protein"; protein_id "WP_001286216.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3525533 3525790 . - . gene_id "ECDH10B_RS17560"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17560"; old_locus_tag "ECDH10B_3455"; -NC_010473.1 Protein Homology CDS 3525536 3525790 . - 0 gene_id "ECDH10B_RS17560"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417739.1"; locus_tag "ECDH10B_RS17560"; product "DUF1488 domain-containing protein"; protein_id "WP_001070563.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3525788 3525790 . - 0 gene_id "ECDH10B_RS17560"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417739.1"; locus_tag "ECDH10B_RS17560"; product "DUF1488 domain-containing protein"; protein_id "WP_001070563.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3525533 3525535 . - 0 gene_id "ECDH10B_RS17560"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417739.1"; locus_tag "ECDH10B_RS17560"; product "DUF1488 domain-containing protein"; protein_id "WP_001070563.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3525787 3526605 . - . gene_id "ECDH10B_RS17565"; transcript_id ""; gbkey "Gene"; gene "aroE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17565"; old_locus_tag "ECDH10B_3456"; -NC_010473.1 Protein Homology CDS 3525790 3526605 . - 0 gene_id "ECDH10B_RS17565"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "aroE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417740.1"; locus_tag "ECDH10B_RS17565"; product "shikimate dehydrogenase"; protein_id "WP_000451243.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3526603 3526605 . - 0 gene_id "ECDH10B_RS17565"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "aroE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417740.1"; locus_tag "ECDH10B_RS17565"; product "shikimate dehydrogenase"; protein_id "WP_000451243.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3525787 3525789 . - 0 gene_id "ECDH10B_RS17565"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "aroE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417740.1"; locus_tag "ECDH10B_RS17565"; product "shikimate dehydrogenase"; protein_id "WP_000451243.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3526610 3527182 . - . gene_id "ECDH10B_RS17570"; transcript_id ""; gbkey "Gene"; gene "tsaC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17570"; old_locus_tag "ECDH10B_3457"; -NC_010473.1 Protein Homology CDS 3526613 3527182 . - 0 gene_id "ECDH10B_RS17570"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tsaC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417741.1"; locus_tag "ECDH10B_RS17570"; product "L-threonylcarbamoyladenylate synthase type 1 TsaC"; protein_id "WP_001301412.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3527180 3527182 . - 0 gene_id "ECDH10B_RS17570"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tsaC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417741.1"; locus_tag "ECDH10B_RS17570"; product "L-threonylcarbamoyladenylate synthase type 1 TsaC"; protein_id "WP_001301412.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3526610 3526612 . - 0 gene_id "ECDH10B_RS17570"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tsaC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417741.1"; locus_tag "ECDH10B_RS17570"; product "L-threonylcarbamoyladenylate synthase type 1 TsaC"; protein_id "WP_001301412.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3527187 3527729 . - . gene_id "ECDH10B_RS17575"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17575"; old_locus_tag "ECDH10B_3458"; -NC_010473.1 Protein Homology CDS 3527190 3527729 . - 0 gene_id "ECDH10B_RS17575"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026210.1"; locus_tag "ECDH10B_RS17575"; product "topoisomerase DNA-binding C4 zinc finger domain-containing protein"; protein_id "WP_001129722.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3527727 3527729 . - 0 gene_id "ECDH10B_RS17575"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026210.1"; locus_tag "ECDH10B_RS17575"; product "topoisomerase DNA-binding C4 zinc finger domain-containing protein"; protein_id "WP_001129722.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3527187 3527189 . - 0 gene_id "ECDH10B_RS17575"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026210.1"; locus_tag "ECDH10B_RS17575"; product "topoisomerase DNA-binding C4 zinc finger domain-containing protein"; protein_id "WP_001129722.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3527758 3528231 . - . gene_id "ECDH10B_RS17580"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17580"; old_locus_tag "ECDH10B_3459"; -NC_010473.1 Protein Homology CDS 3527761 3528231 . - 0 gene_id "ECDH10B_RS17580"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005134083.1"; locus_tag "ECDH10B_RS17580"; product "DUF494 domain-containing protein"; protein_id "WP_000460680.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3528229 3528231 . - 0 gene_id "ECDH10B_RS17580"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005134083.1"; locus_tag "ECDH10B_RS17580"; product "DUF494 domain-containing protein"; protein_id "WP_000460680.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3527758 3527760 . - 0 gene_id "ECDH10B_RS17580"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005134083.1"; locus_tag "ECDH10B_RS17580"; product "DUF494 domain-containing protein"; protein_id "WP_000460680.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3528203 3529327 . - . gene_id "ECDH10B_RS17585"; transcript_id ""; gbkey "Gene"; gene "dprA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17585"; old_locus_tag "ECDH10B_3460"; -NC_010473.1 Protein Homology CDS 3528206 3529327 . - 0 gene_id "ECDH10B_RS17585"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dprA"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026211.1"; locus_tag "ECDH10B_RS17585"; product "DNA-protecting protein DprA"; protein_id "WP_000228551.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3529325 3529327 . - 0 gene_id "ECDH10B_RS17585"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dprA"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026211.1"; locus_tag "ECDH10B_RS17585"; product "DNA-protecting protein DprA"; protein_id "WP_000228551.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3528203 3528205 . - 0 gene_id "ECDH10B_RS17585"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dprA"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026211.1"; locus_tag "ECDH10B_RS17585"; product "DNA-protecting protein DprA"; protein_id "WP_000228551.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3529457 3529966 . + . gene_id "ECDH10B_RS17590"; transcript_id ""; gbkey "Gene"; gene "def"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17590"; old_locus_tag "ECDH10B_3461"; -NC_010473.1 Protein Homology CDS 3529457 3529963 . + 0 gene_id "ECDH10B_RS17590"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "def"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312179.1"; locus_tag "ECDH10B_RS17590"; product "peptide deformylase"; protein_id "WP_000114984.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3529457 3529459 . + 0 gene_id "ECDH10B_RS17590"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "def"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312179.1"; locus_tag "ECDH10B_RS17590"; product "peptide deformylase"; protein_id "WP_000114984.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3529964 3529966 . + 0 gene_id "ECDH10B_RS17590"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "def"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312179.1"; locus_tag "ECDH10B_RS17590"; product "peptide deformylase"; protein_id "WP_000114984.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3529981 3530928 . + . gene_id "ECDH10B_RS17595"; transcript_id ""; gbkey "Gene"; gene "fmt"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17595"; old_locus_tag "ECDH10B_3462"; -NC_010473.1 Protein Homology CDS 3529981 3530925 . + 0 gene_id "ECDH10B_RS17595"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fmt"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417746.1"; locus_tag "ECDH10B_RS17595"; product "methionyl-tRNA formyltransferase"; protein_id "WP_000004473.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3529981 3529983 . + 0 gene_id "ECDH10B_RS17595"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fmt"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417746.1"; locus_tag "ECDH10B_RS17595"; product "methionyl-tRNA formyltransferase"; protein_id "WP_000004473.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3530926 3530928 . + 0 gene_id "ECDH10B_RS17595"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fmt"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417746.1"; locus_tag "ECDH10B_RS17595"; product "methionyl-tRNA formyltransferase"; protein_id "WP_000004473.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3530974 3532263 . + . gene_id "ECDH10B_RS17600"; transcript_id ""; gbkey "Gene"; gene "rsmB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17600"; old_locus_tag "ECDH10B_3463"; -NC_010473.1 Protein Homology CDS 3530974 3532260 . + 0 gene_id "ECDH10B_RS17600"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rsmB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417747.1"; locus_tag "ECDH10B_RS17600"; product "16S rRNA (cytosine(967)-C(5))-methyltransferase RsmB"; protein_id "WP_000744778.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3530974 3530976 . + 0 gene_id "ECDH10B_RS17600"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rsmB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417747.1"; locus_tag "ECDH10B_RS17600"; product "16S rRNA (cytosine(967)-C(5))-methyltransferase RsmB"; protein_id "WP_000744778.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3532261 3532263 . + 0 gene_id "ECDH10B_RS17600"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rsmB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417747.1"; locus_tag "ECDH10B_RS17600"; product "16S rRNA (cytosine(967)-C(5))-methyltransferase RsmB"; protein_id "WP_000744778.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3532285 3533661 . + . gene_id "ECDH10B_RS17605"; transcript_id ""; gbkey "Gene"; gene "trkA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17605"; -NC_010473.1 Protein Homology CDS 3532285 3533658 . + 0 gene_id "ECDH10B_RS17605"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "trkA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_004125888.1"; locus_tag "ECDH10B_RS17605"; product "Trk system potassium transporter TrkA"; protein_id "WP_000691382.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3532285 3532287 . + 0 gene_id "ECDH10B_RS17605"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "trkA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_004125888.1"; locus_tag "ECDH10B_RS17605"; product "Trk system potassium transporter TrkA"; protein_id "WP_000691382.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3533659 3533661 . + 0 gene_id "ECDH10B_RS17605"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "trkA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_004125888.1"; locus_tag "ECDH10B_RS17605"; product "Trk system potassium transporter TrkA"; protein_id "WP_000691382.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3533791 3534201 . + . gene_id "ECDH10B_RS17610"; transcript_id ""; gbkey "Gene"; gene "mscL"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17610"; old_locus_tag "ECDH10B_3465"; -NC_010473.1 Protein Homology CDS 3533791 3534198 . + 0 gene_id "ECDH10B_RS17610"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mscL"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312183.1"; locus_tag "ECDH10B_RS17610"; product "large-conductance mechanosensitive channel protein MscL"; protein_id "WP_000022442.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3533791 3533793 . + 0 gene_id "ECDH10B_RS17610"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mscL"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312183.1"; locus_tag "ECDH10B_RS17610"; product "large-conductance mechanosensitive channel protein MscL"; protein_id "WP_000022442.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3534199 3534201 . + 0 gene_id "ECDH10B_RS17610"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mscL"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312183.1"; locus_tag "ECDH10B_RS17610"; product "large-conductance mechanosensitive channel protein MscL"; protein_id "WP_000022442.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3534198 3534416 . - . gene_id "ECDH10B_RS17615"; transcript_id ""; gbkey "Gene"; gene "arfA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17615"; old_locus_tag "ECDH10B_3466"; -NC_010473.1 Protein Homology CDS 3534201 3534416 . - 0 gene_id "ECDH10B_RS17615"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "arfA"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_588467.1"; locus_tag "ECDH10B_RS17615"; product "alternative ribosome-rescue factor ArfA"; protein_id "WP_000092696.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3534414 3534416 . - 0 gene_id "ECDH10B_RS17615"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "arfA"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_588467.1"; locus_tag "ECDH10B_RS17615"; product "alternative ribosome-rescue factor ArfA"; protein_id "WP_000092696.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3534198 3534200 . - 0 gene_id "ECDH10B_RS17615"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "arfA"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_588467.1"; locus_tag "ECDH10B_RS17615"; product "alternative ribosome-rescue factor ArfA"; protein_id "WP_000092696.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3534472 3534897 . - . gene_id "ECDH10B_RS17620"; transcript_id ""; gbkey "Gene"; gene "zntR"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17620"; old_locus_tag "ECDH10B_3467"; -NC_010473.1 Protein Homology CDS 3534475 3534897 . - 0 gene_id "ECDH10B_RS17620"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "zntR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312184.1"; locus_tag "ECDH10B_RS17620"; product "Zn(2+)-responsive transcriptional regulator"; protein_id "WP_000285607.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3534895 3534897 . - 0 gene_id "ECDH10B_RS17620"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "zntR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312184.1"; locus_tag "ECDH10B_RS17620"; product "Zn(2+)-responsive transcriptional regulator"; protein_id "WP_000285607.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3534472 3534474 . - 0 gene_id "ECDH10B_RS17620"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "zntR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312184.1"; locus_tag "ECDH10B_RS17620"; product "Zn(2+)-responsive transcriptional regulator"; protein_id "WP_000285607.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3534908 3535276 . - . gene_id "ECDH10B_RS17625"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17625"; old_locus_tag "ECDH10B_3468"; -NC_010473.1 Protein Homology CDS 3534911 3535276 . - 0 gene_id "ECDH10B_RS17625"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417752.1"; locus_tag "ECDH10B_RS17625"; product "DUF1992 domain-containing protein"; protein_id "WP_000266486.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3535274 3535276 . - 0 gene_id "ECDH10B_RS17625"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417752.1"; locus_tag "ECDH10B_RS17625"; product "DUF1992 domain-containing protein"; protein_id "WP_000266486.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3534908 3534910 . - 0 gene_id "ECDH10B_RS17625"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417752.1"; locus_tag "ECDH10B_RS17625"; product "DUF1992 domain-containing protein"; protein_id "WP_000266486.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3535383 3535766 . - . gene_id "ECDH10B_RS17630"; transcript_id ""; gbkey "Gene"; gene "rplQ"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17630"; old_locus_tag "ECDH10B_3469"; -NC_010473.1 Protein Homology CDS 3535386 3535766 . - 0 gene_id "ECDH10B_RS17630"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rplQ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312186.1"; locus_tag "ECDH10B_RS17630"; product "50S ribosomal protein L17"; protein_id "WP_001216368.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3535764 3535766 . - 0 gene_id "ECDH10B_RS17630"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rplQ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312186.1"; locus_tag "ECDH10B_RS17630"; product "50S ribosomal protein L17"; protein_id "WP_001216368.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3535383 3535385 . - 0 gene_id "ECDH10B_RS17630"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rplQ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312186.1"; locus_tag "ECDH10B_RS17630"; product "50S ribosomal protein L17"; protein_id "WP_001216368.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3535807 3536796 . - . gene_id "ECDH10B_RS17635"; transcript_id ""; gbkey "Gene"; gene "rpoA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17635"; old_locus_tag "ECDH10B_3470"; -NC_010473.1 Protein Homology CDS 3535810 3536796 . - 0 gene_id "ECDH10B_RS17635"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rpoA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005970247.1"; locus_tag "ECDH10B_RS17635"; product "DNA-directed RNA polymerase subunit alpha"; protein_id "WP_001162094.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3536794 3536796 . - 0 gene_id "ECDH10B_RS17635"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rpoA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005970247.1"; locus_tag "ECDH10B_RS17635"; product "DNA-directed RNA polymerase subunit alpha"; protein_id "WP_001162094.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3535807 3535809 . - 0 gene_id "ECDH10B_RS17635"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rpoA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005970247.1"; locus_tag "ECDH10B_RS17635"; product "DNA-directed RNA polymerase subunit alpha"; protein_id "WP_001162094.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3536822 3537442 . - . gene_id "ECDH10B_RS17640"; transcript_id ""; gbkey "Gene"; gene "rpsD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17640"; old_locus_tag "ECDH10B_3471"; -NC_010473.1 Protein Homology CDS 3536825 3537442 . - 0 gene_id "ECDH10B_RS17640"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rpsD"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_004410410.1"; locus_tag "ECDH10B_RS17640"; product "30S ribosomal protein S4"; protein_id "WP_000135224.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3537440 3537442 . - 0 gene_id "ECDH10B_RS17640"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rpsD"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_004410410.1"; locus_tag "ECDH10B_RS17640"; product "30S ribosomal protein S4"; protein_id "WP_000135224.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3536822 3536824 . - 0 gene_id "ECDH10B_RS17640"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rpsD"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_004410410.1"; locus_tag "ECDH10B_RS17640"; product "30S ribosomal protein S4"; protein_id "WP_000135224.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3537476 3537865 . - . gene_id "ECDH10B_RS17645"; transcript_id ""; gbkey "Gene"; gene "rpsK"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17645"; old_locus_tag "ECDH10B_3472"; -NC_010473.1 Protein Homology CDS 3537479 3537865 . - 0 gene_id "ECDH10B_RS17645"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rpsK"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001029758.1"; locus_tag "ECDH10B_RS17645"; product "30S ribosomal protein S11"; protein_id "WP_001029684.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3537863 3537865 . - 0 gene_id "ECDH10B_RS17645"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rpsK"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001029758.1"; locus_tag "ECDH10B_RS17645"; product "30S ribosomal protein S11"; protein_id "WP_001029684.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3537476 3537478 . - 0 gene_id "ECDH10B_RS17645"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rpsK"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001029758.1"; locus_tag "ECDH10B_RS17645"; product "30S ribosomal protein S11"; protein_id "WP_001029684.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3537882 3538238 . - . gene_id "ECDH10B_RS17650"; transcript_id ""; gbkey "Gene"; gene "rpsM"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17650"; old_locus_tag "ECDH10B_3473"; -NC_010473.1 Protein Homology CDS 3537885 3538238 . - 0 gene_id "ECDH10B_RS17650"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rpsM"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_019935869.1"; locus_tag "ECDH10B_RS17650"; product "30S ribosomal protein S13"; protein_id "WP_000090775.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3538236 3538238 . - 0 gene_id "ECDH10B_RS17650"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rpsM"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_019935869.1"; locus_tag "ECDH10B_RS17650"; product "30S ribosomal protein S13"; protein_id "WP_000090775.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3537882 3537884 . - 0 gene_id "ECDH10B_RS17650"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rpsM"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_019935869.1"; locus_tag "ECDH10B_RS17650"; product "30S ribosomal protein S13"; protein_id "WP_000090775.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3538385 3538501 . - . gene_id "ECDH10B_RS17655"; transcript_id ""; gbkey "Gene"; gene "rpmJ"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17655"; old_locus_tag "ECDH10B_3474"; -NC_010473.1 Protein Homology CDS 3538388 3538501 . - 0 gene_id "ECDH10B_RS17655"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rpmJ"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_020322760.1"; locus_tag "ECDH10B_RS17655"; product "50S ribosomal protein L36"; protein_id "WP_000868187.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3538499 3538501 . - 0 gene_id "ECDH10B_RS17655"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rpmJ"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_020322760.1"; locus_tag "ECDH10B_RS17655"; product "50S ribosomal protein L36"; protein_id "WP_000868187.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3538385 3538387 . - 0 gene_id "ECDH10B_RS17655"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rpmJ"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_020322760.1"; locus_tag "ECDH10B_RS17655"; product "50S ribosomal protein L36"; protein_id "WP_000868187.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3538533 3539864 . - . gene_id "ECDH10B_RS17660"; transcript_id ""; gbkey "Gene"; gene "secY"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17660"; old_locus_tag "ECDH10B_3475"; -NC_010473.1 Protein Homology CDS 3538536 3539864 . - 0 gene_id "ECDH10B_RS17660"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "secY"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_004868351.1"; locus_tag "ECDH10B_RS17660"; product "preprotein translocase subunit SecY"; protein_id "WP_001118861.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3539862 3539864 . - 0 gene_id "ECDH10B_RS17660"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "secY"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_004868351.1"; locus_tag "ECDH10B_RS17660"; product "preprotein translocase subunit SecY"; protein_id "WP_001118861.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3538533 3538535 . - 0 gene_id "ECDH10B_RS17660"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "secY"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_004868351.1"; locus_tag "ECDH10B_RS17660"; product "preprotein translocase subunit SecY"; protein_id "WP_001118861.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3539872 3540306 . - . gene_id "ECDH10B_RS17665"; transcript_id ""; gbkey "Gene"; gene "rplO"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17665"; old_locus_tag "ECDH10B_3476"; -NC_010473.1 Protein Homology CDS 3539875 3540306 . - 0 gene_id "ECDH10B_RS17665"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rplO"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_011095501.1"; locus_tag "ECDH10B_RS17665"; product "50S ribosomal protein L15"; protein_id "WP_001238914.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3540304 3540306 . - 0 gene_id "ECDH10B_RS17665"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rplO"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_011095501.1"; locus_tag "ECDH10B_RS17665"; product "50S ribosomal protein L15"; protein_id "WP_001238914.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3539872 3539874 . - 0 gene_id "ECDH10B_RS17665"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rplO"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_011095501.1"; locus_tag "ECDH10B_RS17665"; product "50S ribosomal protein L15"; protein_id "WP_001238914.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3540310 3540489 . - . gene_id "ECDH10B_RS17670"; transcript_id ""; gbkey "Gene"; gene "rpmD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17670"; old_locus_tag "ECDH10B_3477"; -NC_010473.1 Protein Homology CDS 3540313 3540489 . - 0 gene_id "ECDH10B_RS17670"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rpmD"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_012147215.1"; locus_tag "ECDH10B_RS17670"; product "50S ribosomal protein L30"; protein_id "WP_001140433.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3540487 3540489 . - 0 gene_id "ECDH10B_RS17670"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rpmD"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_012147215.1"; locus_tag "ECDH10B_RS17670"; product "50S ribosomal protein L30"; protein_id "WP_001140433.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3540310 3540312 . - 0 gene_id "ECDH10B_RS17670"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rpmD"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_012147215.1"; locus_tag "ECDH10B_RS17670"; product "50S ribosomal protein L30"; protein_id "WP_001140433.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3540493 3540996 . - . gene_id "ECDH10B_RS17675"; transcript_id ""; gbkey "Gene"; gene "rpsE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17675"; old_locus_tag "ECDH10B_3478"; -NC_010473.1 Protein Homology CDS 3540496 3540996 . - 0 gene_id "ECDH10B_RS17675"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rpsE"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_004106339.1"; locus_tag "ECDH10B_RS17675"; product "30S ribosomal protein S5"; protein_id "WP_000940121.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3540994 3540996 . - 0 gene_id "ECDH10B_RS17675"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rpsE"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_004106339.1"; locus_tag "ECDH10B_RS17675"; product "30S ribosomal protein S5"; protein_id "WP_000940121.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3540493 3540495 . - 0 gene_id "ECDH10B_RS17675"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rpsE"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_004106339.1"; locus_tag "ECDH10B_RS17675"; product "30S ribosomal protein S5"; protein_id "WP_000940121.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3541011 3541364 . - . gene_id "ECDH10B_RS17680"; transcript_id ""; gbkey "Gene"; gene "rplR"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17680"; old_locus_tag "ECDH10B_3479"; -NC_010473.1 Protein Homology CDS 3541014 3541364 . - 0 gene_id "ECDH10B_RS17680"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rplR"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005970258.1"; locus_tag "ECDH10B_RS17680"; product "50S ribosomal protein L18"; protein_id "WP_000358960.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3541362 3541364 . - 0 gene_id "ECDH10B_RS17680"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rplR"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005970258.1"; locus_tag "ECDH10B_RS17680"; product "50S ribosomal protein L18"; protein_id "WP_000358960.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3541011 3541013 . - 0 gene_id "ECDH10B_RS17680"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rplR"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005970258.1"; locus_tag "ECDH10B_RS17680"; product "50S ribosomal protein L18"; protein_id "WP_000358960.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3541374 3541907 . - . gene_id "ECDH10B_RS17685"; transcript_id ""; gbkey "Gene"; gene "rplF"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17685"; old_locus_tag "ECDH10B_3480"; -NC_010473.1 Protein Homology CDS 3541377 3541907 . - 0 gene_id "ECDH10B_RS17685"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rplF"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_003031129.1"; locus_tag "ECDH10B_RS17685"; product "50S ribosomal protein L6"; protein_id "WP_000091945.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3541905 3541907 . - 0 gene_id "ECDH10B_RS17685"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rplF"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_003031129.1"; locus_tag "ECDH10B_RS17685"; product "50S ribosomal protein L6"; protein_id "WP_000091945.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3541374 3541376 . - 0 gene_id "ECDH10B_RS17685"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rplF"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_003031129.1"; locus_tag "ECDH10B_RS17685"; product "50S ribosomal protein L6"; protein_id "WP_000091945.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3541920 3542312 . - . gene_id "ECDH10B_RS17690"; transcript_id ""; gbkey "Gene"; gene "rpsH"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17690"; old_locus_tag "ECDH10B_3481"; -NC_010473.1 Protein Homology CDS 3541923 3542312 . - 0 gene_id "ECDH10B_RS17690"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rpsH"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_011148781.1"; locus_tag "ECDH10B_RS17690"; product "30S ribosomal protein S8"; protein_id "WP_000062611.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3542310 3542312 . - 0 gene_id "ECDH10B_RS17690"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rpsH"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_011148781.1"; locus_tag "ECDH10B_RS17690"; product "30S ribosomal protein S8"; protein_id "WP_000062611.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3541920 3541922 . - 0 gene_id "ECDH10B_RS17690"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rpsH"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_011148781.1"; locus_tag "ECDH10B_RS17690"; product "30S ribosomal protein S8"; protein_id "WP_000062611.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3542346 3542651 . - . gene_id "ECDH10B_RS17695"; transcript_id ""; gbkey "Gene"; gene "rpsN"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17695"; old_locus_tag "ECDH10B_3482"; -NC_010473.1 Protein Homology CDS 3542349 3542651 . - 0 gene_id "ECDH10B_RS17695"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rpsN"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005599304.1"; locus_tag "ECDH10B_RS17695"; product "30S ribosomal protein S14"; protein_id "WP_001118930.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3542649 3542651 . - 0 gene_id "ECDH10B_RS17695"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rpsN"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005599304.1"; locus_tag "ECDH10B_RS17695"; product "30S ribosomal protein S14"; protein_id "WP_001118930.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3542346 3542348 . - 0 gene_id "ECDH10B_RS17695"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rpsN"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005599304.1"; locus_tag "ECDH10B_RS17695"; product "30S ribosomal protein S14"; protein_id "WP_001118930.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3542666 3543205 . - . gene_id "ECDH10B_RS17700"; transcript_id ""; gbkey "Gene"; gene "rplE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17700"; old_locus_tag "ECDH10B_3483"; -NC_010473.1 Protein Homology CDS 3542669 3543205 . - 0 gene_id "ECDH10B_RS17700"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rplE"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001096198.1"; locus_tag "ECDH10B_RS17700"; product "50S ribosomal protein L5"; protein_id "WP_001096200.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3543203 3543205 . - 0 gene_id "ECDH10B_RS17700"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rplE"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001096198.1"; locus_tag "ECDH10B_RS17700"; product "50S ribosomal protein L5"; protein_id "WP_001096200.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3542666 3542668 . - 0 gene_id "ECDH10B_RS17700"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rplE"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001096198.1"; locus_tag "ECDH10B_RS17700"; product "50S ribosomal protein L5"; protein_id "WP_001096200.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3543220 3543534 . - . gene_id "ECDH10B_RS17705"; transcript_id ""; gbkey "Gene"; gene "rplX"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17705"; old_locus_tag "ECDH10B_3484"; -NC_010473.1 Protein Homology CDS 3543223 3543534 . - 0 gene_id "ECDH10B_RS17705"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rplX"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000729185.1"; locus_tag "ECDH10B_RS17705"; product "50S ribosomal protein L24"; protein_id "WP_000729185.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3543532 3543534 . - 0 gene_id "ECDH10B_RS17705"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rplX"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000729185.1"; locus_tag "ECDH10B_RS17705"; product "50S ribosomal protein L24"; protein_id "WP_000729185.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3543220 3543222 . - 0 gene_id "ECDH10B_RS17705"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rplX"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000729185.1"; locus_tag "ECDH10B_RS17705"; product "50S ribosomal protein L24"; protein_id "WP_000729185.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3543545 3543916 . - . gene_id "ECDH10B_RS17710"; transcript_id ""; gbkey "Gene"; gene "rplN"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17710"; old_locus_tag "ECDH10B_3485"; -NC_010473.1 Protein Homology CDS 3543548 3543916 . - 0 gene_id "ECDH10B_RS17710"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rplN"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_013975775.1"; locus_tag "ECDH10B_RS17710"; product "50S ribosomal protein L14"; protein_id "WP_000613955.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3543914 3543916 . - 0 gene_id "ECDH10B_RS17710"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rplN"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_013975775.1"; locus_tag "ECDH10B_RS17710"; product "50S ribosomal protein L14"; protein_id "WP_000613955.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3543545 3543547 . - 0 gene_id "ECDH10B_RS17710"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rplN"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_013975775.1"; locus_tag "ECDH10B_RS17710"; product "50S ribosomal protein L14"; protein_id "WP_000613955.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3544081 3544335 . - . gene_id "ECDH10B_RS17715"; transcript_id ""; gbkey "Gene"; gene "rpsQ"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17715"; old_locus_tag "ECDH10B_3486"; -NC_010473.1 Protein Homology CDS 3544084 3544335 . - 0 gene_id "ECDH10B_RS17715"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rpsQ"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_006817275.1"; locus_tag "ECDH10B_RS17715"; product "30S ribosomal protein S17"; protein_id "WP_000130100.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3544333 3544335 . - 0 gene_id "ECDH10B_RS17715"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rpsQ"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_006817275.1"; locus_tag "ECDH10B_RS17715"; product "30S ribosomal protein S17"; protein_id "WP_000130100.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3544081 3544083 . - 0 gene_id "ECDH10B_RS17715"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rpsQ"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_006817275.1"; locus_tag "ECDH10B_RS17715"; product "30S ribosomal protein S17"; protein_id "WP_000130100.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3544335 3544526 . - . gene_id "ECDH10B_RS17720"; transcript_id ""; gbkey "Gene"; gene "rpmC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17720"; old_locus_tag "ECDH10B_3487"; -NC_010473.1 Protein Homology CDS 3544338 3544526 . - 0 gene_id "ECDH10B_RS17720"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rpmC"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000644743.1"; locus_tag "ECDH10B_RS17720"; product "50S ribosomal protein L29"; protein_id "WP_000644741.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3544524 3544526 . - 0 gene_id "ECDH10B_RS17720"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rpmC"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000644743.1"; locus_tag "ECDH10B_RS17720"; product "50S ribosomal protein L29"; protein_id "WP_000644741.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3544335 3544337 . - 0 gene_id "ECDH10B_RS17720"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rpmC"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000644743.1"; locus_tag "ECDH10B_RS17720"; product "50S ribosomal protein L29"; protein_id "WP_000644741.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3544526 3544936 . - . gene_id "ECDH10B_RS17725"; transcript_id ""; gbkey "Gene"; gene "rplP"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17725"; old_locus_tag "ECDH10B_3488"; -NC_010473.1 Protein Homology CDS 3544529 3544936 . - 0 gene_id "ECDH10B_RS17725"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rplP"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_017805229.1"; locus_tag "ECDH10B_RS17725"; product "50S ribosomal protein L16"; protein_id "WP_000941212.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3544934 3544936 . - 0 gene_id "ECDH10B_RS17725"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rplP"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_017805229.1"; locus_tag "ECDH10B_RS17725"; product "50S ribosomal protein L16"; protein_id "WP_000941212.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3544526 3544528 . - 0 gene_id "ECDH10B_RS17725"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rplP"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_017805229.1"; locus_tag "ECDH10B_RS17725"; product "50S ribosomal protein L16"; protein_id "WP_000941212.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3544949 3545650 . - . gene_id "ECDH10B_RS17730"; transcript_id ""; gbkey "Gene"; gene "rpsC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17730"; old_locus_tag "ECDH10B_p1"; -NC_010473.1 Protein Homology CDS 3544952 3545650 . - 0 gene_id "ECDH10B_RS17730"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rpsC"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001742302.1"; locus_tag "ECDH10B_RS17730"; product "30S ribosomal protein S3"; protein_id "WP_000529945.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3545648 3545650 . - 0 gene_id "ECDH10B_RS17730"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rpsC"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001742302.1"; locus_tag "ECDH10B_RS17730"; product "30S ribosomal protein S3"; protein_id "WP_000529945.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3544949 3544951 . - 0 gene_id "ECDH10B_RS17730"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rpsC"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001742302.1"; locus_tag "ECDH10B_RS17730"; product "30S ribosomal protein S3"; protein_id "WP_000529945.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3545668 3546000 . - . gene_id "ECDH10B_RS17735"; transcript_id ""; gbkey "Gene"; gene "rplV"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17735"; old_locus_tag "ECDH10B_3490"; -NC_010473.1 Protein Homology CDS 3545671 3546000 . - 0 gene_id "ECDH10B_RS17735"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rplV"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000447526.1"; locus_tag "ECDH10B_RS17735"; product "50S ribosomal protein L22"; protein_id "WP_000447529.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3545998 3546000 . - 0 gene_id "ECDH10B_RS17735"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rplV"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000447526.1"; locus_tag "ECDH10B_RS17735"; product "50S ribosomal protein L22"; protein_id "WP_000447529.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3545668 3545670 . - 0 gene_id "ECDH10B_RS17735"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rplV"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000447526.1"; locus_tag "ECDH10B_RS17735"; product "50S ribosomal protein L22"; protein_id "WP_000447529.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3546015 3546293 . - . gene_id "ECDH10B_RS17740"; transcript_id ""; gbkey "Gene"; gene "rpsS"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17740"; old_locus_tag "ECDH10B_3491"; -NC_010473.1 Protein Homology CDS 3546018 3546293 . - 0 gene_id "ECDH10B_RS17740"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rpsS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_011148791.1"; locus_tag "ECDH10B_RS17740"; product "30S ribosomal protein S19"; protein_id "WP_001138117.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3546291 3546293 . - 0 gene_id "ECDH10B_RS17740"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rpsS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_011148791.1"; locus_tag "ECDH10B_RS17740"; product "30S ribosomal protein S19"; protein_id "WP_001138117.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3546015 3546017 . - 0 gene_id "ECDH10B_RS17740"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rpsS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_011148791.1"; locus_tag "ECDH10B_RS17740"; product "30S ribosomal protein S19"; protein_id "WP_001138117.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3546310 3547131 . - . gene_id "ECDH10B_RS17745"; transcript_id ""; gbkey "Gene"; gene "rplB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17745"; old_locus_tag "ECDH10B_3492"; -NC_010473.1 Protein Homology CDS 3546313 3547131 . - 0 gene_id "ECDH10B_RS17745"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rplB"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001738551.1"; locus_tag "ECDH10B_RS17745"; product "50S ribosomal protein L2"; protein_id "WP_000301864.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3547129 3547131 . - 0 gene_id "ECDH10B_RS17745"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rplB"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001738551.1"; locus_tag "ECDH10B_RS17745"; product "50S ribosomal protein L2"; protein_id "WP_000301864.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3546310 3546312 . - 0 gene_id "ECDH10B_RS17745"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rplB"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001738551.1"; locus_tag "ECDH10B_RS17745"; product "50S ribosomal protein L2"; protein_id "WP_000301864.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3547149 3547451 . - . gene_id "ECDH10B_RS17750"; transcript_id ""; gbkey "Gene"; gene "rplW"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17750"; old_locus_tag "ECDH10B_3493"; -NC_010473.1 Protein Homology CDS 3547152 3547451 . - 0 gene_id "ECDH10B_RS17750"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rplW"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_007891652.1"; locus_tag "ECDH10B_RS17750"; product "50S ribosomal protein L23"; protein_id "WP_000617544.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3547449 3547451 . - 0 gene_id "ECDH10B_RS17750"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rplW"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_007891652.1"; locus_tag "ECDH10B_RS17750"; product "50S ribosomal protein L23"; protein_id "WP_000617544.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3547149 3547151 . - 0 gene_id "ECDH10B_RS17750"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rplW"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_007891652.1"; locus_tag "ECDH10B_RS17750"; product "50S ribosomal protein L23"; protein_id "WP_000617544.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3547448 3548053 . - . gene_id "ECDH10B_RS17755"; transcript_id ""; gbkey "Gene"; gene "rplD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17755"; old_locus_tag "ECDH10B_3494"; -NC_010473.1 Protein Homology CDS 3547451 3548053 . - 0 gene_id "ECDH10B_RS17755"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rplD"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_010304939.1"; locus_tag "ECDH10B_RS17755"; product "50S ribosomal protein L4"; protein_id "WP_000424395.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3548051 3548053 . - 0 gene_id "ECDH10B_RS17755"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rplD"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_010304939.1"; locus_tag "ECDH10B_RS17755"; product "50S ribosomal protein L4"; protein_id "WP_000424395.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3547448 3547450 . - 0 gene_id "ECDH10B_RS17755"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rplD"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_010304939.1"; locus_tag "ECDH10B_RS17755"; product "50S ribosomal protein L4"; protein_id "WP_000424395.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3548064 3548693 . - . gene_id "ECDH10B_RS17760"; transcript_id ""; gbkey "Gene"; gene "rplC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17760"; old_locus_tag "ECDH10B_3495"; -NC_010473.1 Protein Homology CDS 3548067 3548693 . - 0 gene_id "ECDH10B_RS17760"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rplC"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000579825.1"; locus_tag "ECDH10B_RS17760"; product "50S ribosomal protein L3"; protein_id "WP_000579833.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3548691 3548693 . - 0 gene_id "ECDH10B_RS17760"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rplC"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000579825.1"; locus_tag "ECDH10B_RS17760"; product "50S ribosomal protein L3"; protein_id "WP_000579833.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3548064 3548066 . - 0 gene_id "ECDH10B_RS17760"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rplC"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000579825.1"; locus_tag "ECDH10B_RS17760"; product "50S ribosomal protein L3"; protein_id "WP_000579833.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3548726 3549037 . - . gene_id "ECDH10B_RS17765"; transcript_id ""; gbkey "Gene"; gene "rpsJ"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17765"; old_locus_tag "ECDH10B_3496"; -NC_010473.1 Protein Homology CDS 3548729 3549037 . - 0 gene_id "ECDH10B_RS17765"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rpsJ"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_014268624.1"; locus_tag "ECDH10B_RS17765"; product "30S ribosomal protein S10"; protein_id "WP_001181004.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3549035 3549037 . - 0 gene_id "ECDH10B_RS17765"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rpsJ"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_014268624.1"; locus_tag "ECDH10B_RS17765"; product "30S ribosomal protein S10"; protein_id "WP_001181004.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3548726 3548728 . - 0 gene_id "ECDH10B_RS17765"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rpsJ"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_014268624.1"; locus_tag "ECDH10B_RS17765"; product "30S ribosomal protein S10"; protein_id "WP_001181004.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3549275 3549694 . - . gene_id "ECDH10B_RS17770"; transcript_id ""; gbkey "Gene"; gene "gspB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17770"; old_locus_tag "ECDH10B_3497"; -NC_010473.1 Protein Homology CDS 3549278 3549694 . - 0 gene_id "ECDH10B_RS17770"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gspB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417781.1"; locus_tag "ECDH10B_RS17770"; product "putative general secretion pathway protein GspB"; protein_id "WP_000461450.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3549692 3549694 . - 0 gene_id "ECDH10B_RS17770"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gspB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417781.1"; locus_tag "ECDH10B_RS17770"; product "putative general secretion pathway protein GspB"; protein_id "WP_000461450.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3549275 3549277 . - 0 gene_id "ECDH10B_RS17770"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gspB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417781.1"; locus_tag "ECDH10B_RS17770"; product "putative general secretion pathway protein GspB"; protein_id "WP_000461450.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3549696 3551165 . - . gene_id "ECDH10B_RS17775"; transcript_id ""; gbkey "Gene"; gene "gspA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17775"; old_locus_tag "ECDH10B_3498"; -NC_010473.1 Protein Homology CDS 3549699 3551165 . - 0 gene_id "ECDH10B_RS17775"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gspA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417782.1"; locus_tag "ECDH10B_RS17775"; product "type II secretion system protein GspA"; protein_id "WP_000107576.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3551163 3551165 . - 0 gene_id "ECDH10B_RS17775"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gspA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417782.1"; locus_tag "ECDH10B_RS17775"; product "type II secretion system protein GspA"; protein_id "WP_000107576.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3549696 3549698 . - 0 gene_id "ECDH10B_RS17775"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gspA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417782.1"; locus_tag "ECDH10B_RS17775"; product "type II secretion system protein GspA"; protein_id "WP_000107576.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3551345 3552160 . + . gene_id "ECDH10B_RS17780"; transcript_id ""; gbkey "Gene"; gene "gspC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17780"; old_locus_tag "ECDH10B_3499"; -NC_010473.1 Protein Homology CDS 3551345 3552157 . + 0 gene_id "ECDH10B_RS17780"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gspC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417783.1"; locus_tag "ECDH10B_RS17780"; product "type II secretion system protein GspC"; protein_id "WP_001142708.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3551345 3551347 . + 0 gene_id "ECDH10B_RS17780"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gspC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417783.1"; locus_tag "ECDH10B_RS17780"; product "type II secretion system protein GspC"; protein_id "WP_001142708.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3552158 3552160 . + 0 gene_id "ECDH10B_RS17780"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gspC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417783.1"; locus_tag "ECDH10B_RS17780"; product "type II secretion system protein GspC"; protein_id "WP_001142708.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3552144 3554096 . + . gene_id "ECDH10B_RS17785"; transcript_id ""; gbkey "Gene"; gene "gspD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17785"; old_locus_tag "ECDH10B_3500"; -NC_010473.1 Protein Homology CDS 3552144 3554093 . + 0 gene_id "ECDH10B_RS17785"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gspD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417784.4"; locus_tag "ECDH10B_RS17785"; product "type II secretion system secretin GspD"; protein_id "WP_001326512.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3552144 3552146 . + 0 gene_id "ECDH10B_RS17785"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gspD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417784.4"; locus_tag "ECDH10B_RS17785"; product "type II secretion system secretin GspD"; protein_id "WP_001326512.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3554094 3554096 . + 0 gene_id "ECDH10B_RS17785"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gspD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417784.4"; locus_tag "ECDH10B_RS17785"; product "type II secretion system secretin GspD"; protein_id "WP_001326512.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3554106 3555587 . + . gene_id "ECDH10B_RS17790"; transcript_id ""; gbkey "Gene"; gene "gspE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17790"; old_locus_tag "ECDH10B_3501"; -NC_010473.1 Protein Homology CDS 3554106 3555584 . + 0 gene_id "ECDH10B_RS17790"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gspE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417785.1"; locus_tag "ECDH10B_RS17790"; product "type II secretion system ATPase GspE"; protein_id "WP_001219894.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3554106 3554108 . + 0 gene_id "ECDH10B_RS17790"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gspE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417785.1"; locus_tag "ECDH10B_RS17790"; product "type II secretion system ATPase GspE"; protein_id "WP_001219894.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3555585 3555587 . + 0 gene_id "ECDH10B_RS17790"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gspE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417785.1"; locus_tag "ECDH10B_RS17790"; product "type II secretion system ATPase GspE"; protein_id "WP_001219894.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3555584 3556780 . + . gene_id "ECDH10B_RS17795"; transcript_id ""; gbkey "Gene"; gene "gspF"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17795"; old_locus_tag "ECDH10B_3502"; -NC_010473.1 Protein Homology CDS 3555584 3556777 . + 0 gene_id "ECDH10B_RS17795"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gspF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417786.1"; locus_tag "ECDH10B_RS17795"; product "type II secretion system inner membrane protein GspF"; protein_id "WP_001109573.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3555584 3555586 . + 0 gene_id "ECDH10B_RS17795"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gspF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417786.1"; locus_tag "ECDH10B_RS17795"; product "type II secretion system inner membrane protein GspF"; protein_id "WP_001109573.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3556778 3556780 . + 0 gene_id "ECDH10B_RS17795"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gspF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417786.1"; locus_tag "ECDH10B_RS17795"; product "type II secretion system inner membrane protein GspF"; protein_id "WP_001109573.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3556790 3557227 . + . gene_id "ECDH10B_RS17800"; transcript_id ""; gbkey "Gene"; gene "gspG"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17800"; old_locus_tag "ECDH10B_3503"; -NC_010473.1 Protein Homology CDS 3556790 3557224 . + 0 gene_id "ECDH10B_RS17800"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gspG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417787.1"; locus_tag "ECDH10B_RS17800"; product "type II secretion system major pseudopilin GspG"; protein_id "WP_001202874.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3556790 3556792 . + 0 gene_id "ECDH10B_RS17800"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gspG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417787.1"; locus_tag "ECDH10B_RS17800"; product "type II secretion system major pseudopilin GspG"; protein_id "WP_001202874.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3557225 3557227 . + 0 gene_id "ECDH10B_RS17800"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gspG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417787.1"; locus_tag "ECDH10B_RS17800"; product "type II secretion system major pseudopilin GspG"; protein_id "WP_001202874.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3557235 3557744 . + . gene_id "ECDH10B_RS17805"; transcript_id ""; gbkey "Gene"; gene "gspH"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17805"; old_locus_tag "ECDH10B_3504"; -NC_010473.1 Protein Homology CDS 3557235 3557741 . + 0 gene_id "ECDH10B_RS17805"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gspH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417788.1"; locus_tag "ECDH10B_RS17805"; product "type II secretion system minor pseudopilin GspH"; protein_id "WP_001076046.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3557235 3557237 . + 0 gene_id "ECDH10B_RS17805"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gspH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417788.1"; locus_tag "ECDH10B_RS17805"; product "type II secretion system minor pseudopilin GspH"; protein_id "WP_001076046.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3557742 3557744 . + 0 gene_id "ECDH10B_RS17805"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gspH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417788.1"; locus_tag "ECDH10B_RS17805"; product "type II secretion system minor pseudopilin GspH"; protein_id "WP_001076046.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3557741 3558118 . + . gene_id "ECDH10B_RS17810"; transcript_id ""; gbkey "Gene"; gene "gspI"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17810"; old_locus_tag "ECDH10B_3505"; -NC_010473.1 Protein Homology CDS 3557741 3558115 . + 0 gene_id "ECDH10B_RS17810"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gspI"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417789.4"; locus_tag "ECDH10B_RS17810"; product "type II secretion system minor pseudopilin GspI"; protein_id "WP_001041743.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3557741 3557743 . + 0 gene_id "ECDH10B_RS17810"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gspI"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417789.4"; locus_tag "ECDH10B_RS17810"; product "type II secretion system minor pseudopilin GspI"; protein_id "WP_001041743.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3558116 3558118 . + 0 gene_id "ECDH10B_RS17810"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gspI"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417789.4"; locus_tag "ECDH10B_RS17810"; product "type II secretion system minor pseudopilin GspI"; protein_id "WP_001041743.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3558111 3558698 . + . gene_id "ECDH10B_RS17815"; transcript_id ""; gbkey "Gene"; gene "gspJ"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17815"; old_locus_tag "ECDH10B_3506"; -NC_010473.1 Protein Homology CDS 3558111 3558695 . + 0 gene_id "ECDH10B_RS17815"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gspJ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417790.1"; locus_tag "ECDH10B_RS17815"; product "type II secretion system minor pseudopilin GspJ"; protein_id "WP_000610634.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3558111 3558113 . + 0 gene_id "ECDH10B_RS17815"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gspJ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417790.1"; locus_tag "ECDH10B_RS17815"; product "type II secretion system minor pseudopilin GspJ"; protein_id "WP_000610634.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3558696 3558698 . + 0 gene_id "ECDH10B_RS17815"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gspJ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417790.1"; locus_tag "ECDH10B_RS17815"; product "type II secretion system minor pseudopilin GspJ"; protein_id "WP_000610634.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3558691 3559674 . + . gene_id "ECDH10B_RS17820"; transcript_id ""; gbkey "Gene"; gene "gspK"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17820"; old_locus_tag "ECDH10B_3507"; -NC_010473.1 Protein Homology CDS 3558691 3559671 . + 0 gene_id "ECDH10B_RS17820"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gspK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417791.1"; locus_tag "ECDH10B_RS17820"; product "type II secretion system minor pseudopilin GspK"; protein_id "WP_001058522.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3558691 3558693 . + 0 gene_id "ECDH10B_RS17820"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gspK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417791.1"; locus_tag "ECDH10B_RS17820"; product "type II secretion system minor pseudopilin GspK"; protein_id "WP_001058522.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3559672 3559674 . + 0 gene_id "ECDH10B_RS17820"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gspK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417791.1"; locus_tag "ECDH10B_RS17820"; product "type II secretion system minor pseudopilin GspK"; protein_id "WP_001058522.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3559689 3560852 . + . gene_id "ECDH10B_RS17825"; transcript_id ""; gbkey "Gene"; gene "gspL"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17825"; old_locus_tag "ECDH10B_3508"; -NC_010473.1 Protein Homology CDS 3559689 3560849 . + 0 gene_id "ECDH10B_RS17825"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gspL"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417792.2"; locus_tag "ECDH10B_RS17825"; product "type II secretion system protein GspL"; protein_id "WP_001115238.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3559689 3559691 . + 0 gene_id "ECDH10B_RS17825"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gspL"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417792.2"; locus_tag "ECDH10B_RS17825"; product "type II secretion system protein GspL"; protein_id "WP_001115238.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3560850 3560852 . + 0 gene_id "ECDH10B_RS17825"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gspL"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417792.2"; locus_tag "ECDH10B_RS17825"; product "type II secretion system protein GspL"; protein_id "WP_001115238.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3560849 3561310 . + . gene_id "ECDH10B_RS17830"; transcript_id ""; gbkey "Gene"; gene "gspM"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17830"; old_locus_tag "ECDH10B_3509"; -NC_010473.1 Protein Homology CDS 3560849 3561307 . + 0 gene_id "ECDH10B_RS17830"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gspM"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417793.2"; locus_tag "ECDH10B_RS17830"; product "type II secretion system protein GspM"; protein_id "WP_001295161.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3560849 3560851 . + 0 gene_id "ECDH10B_RS17830"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gspM"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417793.2"; locus_tag "ECDH10B_RS17830"; product "type II secretion system protein GspM"; protein_id "WP_001295161.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3561308 3561310 . + 0 gene_id "ECDH10B_RS17830"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gspM"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417793.2"; locus_tag "ECDH10B_RS17830"; product "type II secretion system protein GspM"; protein_id "WP_001295161.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3561310 3561987 . + . gene_id "ECDH10B_RS17835"; transcript_id ""; gbkey "Gene"; gene "gspO"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17835"; old_locus_tag "ECDH10B_3510"; -NC_010473.1 Protein Homology CDS 3561310 3561984 . + 0 gene_id "ECDH10B_RS17835"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gspO"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417794.1"; locus_tag "ECDH10B_RS17835"; product "prepilin peptidase GspO"; protein_id "WP_000178154.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3561310 3561312 . + 0 gene_id "ECDH10B_RS17835"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gspO"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417794.1"; locus_tag "ECDH10B_RS17835"; product "prepilin peptidase GspO"; protein_id "WP_000178154.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3561985 3561987 . + 0 gene_id "ECDH10B_RS17835"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gspO"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417794.1"; locus_tag "ECDH10B_RS17835"; product "prepilin peptidase GspO"; protein_id "WP_000178154.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3562016 3562492 . - . gene_id "ECDH10B_RS17840"; transcript_id ""; gbkey "Gene"; gene "bfr"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17840"; old_locus_tag "ECDH10B_3511"; -NC_010473.1 Protein Homology CDS 3562019 3562492 . - 0 gene_id "ECDH10B_RS17840"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "bfr"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417795.1"; locus_tag "ECDH10B_RS17840"; product "bacterioferritin"; protein_id "WP_000675504.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3562490 3562492 . - 0 gene_id "ECDH10B_RS17840"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "bfr"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417795.1"; locus_tag "ECDH10B_RS17840"; product "bacterioferritin"; protein_id "WP_000675504.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3562016 3562018 . - 0 gene_id "ECDH10B_RS17840"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "bfr"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417795.1"; locus_tag "ECDH10B_RS17840"; product "bacterioferritin"; protein_id "WP_000675504.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3562564 3562758 . - . gene_id "ECDH10B_RS17845"; transcript_id ""; gbkey "Gene"; gene "bfd"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17845"; old_locus_tag "ECDH10B_3512"; -NC_010473.1 Protein Homology CDS 3562567 3562758 . - 0 gene_id "ECDH10B_RS17845"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "bfd"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417796.1"; locus_tag "ECDH10B_RS17845"; product "bacterioferritin-associated ferredoxin"; protein_id "WP_000289085.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3562756 3562758 . - 0 gene_id "ECDH10B_RS17845"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "bfd"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417796.1"; locus_tag "ECDH10B_RS17845"; product "bacterioferritin-associated ferredoxin"; protein_id "WP_000289085.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3562564 3562566 . - 0 gene_id "ECDH10B_RS17845"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "bfd"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417796.1"; locus_tag "ECDH10B_RS17845"; product "bacterioferritin-associated ferredoxin"; protein_id "WP_000289085.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3562927 3565620 . - . gene_id "ECDH10B_RS23410"; transcript_id ""; gbkey "Gene"; gene "chiA"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS23410"; pseudo "true"; -NC_010473.1 Protein Homology CDS 3562930 3565620 . - 0 gene_id "ECDH10B_RS23410"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "chiA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417797.1"; locus_tag "ECDH10B_RS23410"; note "internal stop"; product "bifunctional chitinase/lysozyme"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3565618 3565620 . - 0 gene_id "ECDH10B_RS23410"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "chiA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417797.1"; locus_tag "ECDH10B_RS23410"; note "internal stop"; product "bifunctional chitinase/lysozyme"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3562927 3562929 . - 0 gene_id "ECDH10B_RS23410"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "chiA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417797.1"; locus_tag "ECDH10B_RS23410"; note "internal stop"; product "bifunctional chitinase/lysozyme"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 3565912 3567096 . - . gene_id "ECDH10B_RS17860"; transcript_id ""; gbkey "Gene"; gene "tuf"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17860"; old_locus_tag "ECDH10B_3514"; -NC_010473.1 Protein Homology CDS 3565915 3567096 . - 0 gene_id "ECDH10B_RS17860"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tuf"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312217.1"; locus_tag "ECDH10B_RS17860"; product "elongation factor Tu"; protein_id "WP_000031783.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3567094 3567096 . - 0 gene_id "ECDH10B_RS17860"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tuf"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312217.1"; locus_tag "ECDH10B_RS17860"; product "elongation factor Tu"; protein_id "WP_000031783.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3565912 3565914 . - 0 gene_id "ECDH10B_RS17860"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tuf"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312217.1"; locus_tag "ECDH10B_RS17860"; product "elongation factor Tu"; protein_id "WP_000031783.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3567167 3569281 . - . gene_id "ECDH10B_RS17865"; transcript_id ""; gbkey "Gene"; gene "fusA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17865"; old_locus_tag "ECDH10B_3515"; -NC_010473.1 Protein Homology CDS 3567170 3569281 . - 0 gene_id "ECDH10B_RS17865"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fusA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_020455498.1"; locus_tag "ECDH10B_RS17865"; product "elongation factor G"; protein_id "WP_000124700.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3569279 3569281 . - 0 gene_id "ECDH10B_RS17865"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fusA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_020455498.1"; locus_tag "ECDH10B_RS17865"; product "elongation factor G"; protein_id "WP_000124700.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3567167 3567169 . - 0 gene_id "ECDH10B_RS17865"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fusA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_020455498.1"; locus_tag "ECDH10B_RS17865"; product "elongation factor G"; protein_id "WP_000124700.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3569309 3569848 . - . gene_id "ECDH10B_RS17870"; transcript_id ""; gbkey "Gene"; gene "rpsG"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17870"; old_locus_tag "ECDH10B_3516"; -NC_010473.1 Protein Homology CDS 3569312 3569848 . - 0 gene_id "ECDH10B_RS17870"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rpsG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417800.1"; locus_tag "ECDH10B_RS17870"; product "30S ribosomal protein S7"; protein_id "WP_001138045.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3569846 3569848 . - 0 gene_id "ECDH10B_RS17870"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rpsG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417800.1"; locus_tag "ECDH10B_RS17870"; product "30S ribosomal protein S7"; protein_id "WP_001138045.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3569309 3569311 . - 0 gene_id "ECDH10B_RS17870"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rpsG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417800.1"; locus_tag "ECDH10B_RS17870"; product "30S ribosomal protein S7"; protein_id "WP_001138045.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3569945 3570319 . - . gene_id "ECDH10B_RS17875"; transcript_id ""; gbkey "Gene"; gene "rpsL"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17875"; old_locus_tag "ECDH10B_p2"; -NC_010473.1 Protein Homology CDS 3569948 3570319 . - 0 gene_id "ECDH10B_RS17875"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rpsL"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005306278.1"; locus_tag "ECDH10B_RS17875"; product "30S ribosomal protein S12"; protein_id "WP_001319024.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3570317 3570319 . - 0 gene_id "ECDH10B_RS17875"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rpsL"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005306278.1"; locus_tag "ECDH10B_RS17875"; product "30S ribosomal protein S12"; protein_id "WP_001319024.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3569945 3569947 . - 0 gene_id "ECDH10B_RS17875"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rpsL"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005306278.1"; locus_tag "ECDH10B_RS17875"; product "30S ribosomal protein S12"; protein_id "WP_001319024.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3570445 3570732 . - . gene_id "ECDH10B_RS17880"; transcript_id ""; gbkey "Gene"; gene "tusB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17880"; old_locus_tag "ECDH10B_3518"; -NC_010473.1 Protein Homology CDS 3570448 3570732 . - 0 gene_id "ECDH10B_RS17880"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tusB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417802.1"; locus_tag "ECDH10B_RS17880"; product "sulfurtransferase complex subunit TusB"; protein_id "WP_000903373.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3570730 3570732 . - 0 gene_id "ECDH10B_RS17880"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tusB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417802.1"; locus_tag "ECDH10B_RS17880"; product "sulfurtransferase complex subunit TusB"; protein_id "WP_000903373.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3570445 3570447 . - 0 gene_id "ECDH10B_RS17880"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tusB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417802.1"; locus_tag "ECDH10B_RS17880"; product "sulfurtransferase complex subunit TusB"; protein_id "WP_000903373.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3570740 3571099 . - . gene_id "ECDH10B_RS17885"; transcript_id ""; gbkey "Gene"; gene "tusC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17885"; old_locus_tag "ECDH10B_3519"; -NC_010473.1 Protein Homology CDS 3570743 3571099 . - 0 gene_id "ECDH10B_RS17885"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tusC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417803.1"; locus_tag "ECDH10B_RS17885"; product "sulfurtransferase complex subunit TusC"; protein_id "WP_000820714.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3571097 3571099 . - 0 gene_id "ECDH10B_RS17885"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tusC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417803.1"; locus_tag "ECDH10B_RS17885"; product "sulfurtransferase complex subunit TusC"; protein_id "WP_000820714.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3570740 3570742 . - 0 gene_id "ECDH10B_RS17885"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tusC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417803.1"; locus_tag "ECDH10B_RS17885"; product "sulfurtransferase complex subunit TusC"; protein_id "WP_000820714.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3571099 3571485 . - . gene_id "ECDH10B_RS17890"; transcript_id ""; gbkey "Gene"; gene "tusD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17890"; old_locus_tag "ECDH10B_3520"; -NC_010473.1 Protein Homology CDS 3571102 3571485 . - 0 gene_id "ECDH10B_RS17890"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tusD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417804.1"; locus_tag "ECDH10B_RS17890"; product "sulfurtransferase complex subunit TusD"; protein_id "WP_001209680.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3571483 3571485 . - 0 gene_id "ECDH10B_RS17890"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tusD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417804.1"; locus_tag "ECDH10B_RS17890"; product "sulfurtransferase complex subunit TusD"; protein_id "WP_001209680.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3571099 3571101 . - 0 gene_id "ECDH10B_RS17890"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tusD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417804.1"; locus_tag "ECDH10B_RS17890"; product "sulfurtransferase complex subunit TusD"; protein_id "WP_001209680.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3571485 3572207 . - . gene_id "ECDH10B_RS17895"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17895"; old_locus_tag "ECDH10B_3521"; -NC_010473.1 Protein Homology CDS 3571488 3572207 . - 0 gene_id "ECDH10B_RS17895"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_709120.2"; locus_tag "ECDH10B_RS17895"; product "transcriptional regulator"; protein_id "WP_000091466.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3572205 3572207 . - 0 gene_id "ECDH10B_RS17895"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_709120.2"; locus_tag "ECDH10B_RS17895"; product "transcriptional regulator"; protein_id "WP_000091466.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3571485 3571487 . - 0 gene_id "ECDH10B_RS17895"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_709120.2"; locus_tag "ECDH10B_RS17895"; product "transcriptional regulator"; protein_id "WP_000091466.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3572374 3573186 . - . gene_id "ECDH10B_RS17900"; transcript_id ""; gbkey "Gene"; gene "fkpA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17900"; old_locus_tag "ECDH10B_3522"; -NC_010473.1 Protein Homology CDS 3572377 3573186 . - 0 gene_id "ECDH10B_RS17900"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fkpA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_462357.1"; locus_tag "ECDH10B_RS17900"; product "FKBP-type peptidyl-prolyl cis-trans isomerase"; protein_id "WP_000838250.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3573184 3573186 . - 0 gene_id "ECDH10B_RS17900"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fkpA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_462357.1"; locus_tag "ECDH10B_RS17900"; product "FKBP-type peptidyl-prolyl cis-trans isomerase"; protein_id "WP_000838250.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3572374 3572376 . - 0 gene_id "ECDH10B_RS17900"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fkpA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_462357.1"; locus_tag "ECDH10B_RS17900"; product "FKBP-type peptidyl-prolyl cis-trans isomerase"; protein_id "WP_000838250.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3573407 3573625 . + . gene_id "ECDH10B_RS17905"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17905"; old_locus_tag "ECDH10B_3523"; -NC_010473.1 Protein Homology CDS 3573407 3573622 . + 0 gene_id "ECDH10B_RS17905"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312226.1"; locus_tag "ECDH10B_RS17905"; product "protein SlyX"; protein_id "WP_001153615.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3573407 3573409 . + 0 gene_id "ECDH10B_RS17905"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312226.1"; locus_tag "ECDH10B_RS17905"; product "protein SlyX"; protein_id "WP_001153615.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3573623 3573625 . + 0 gene_id "ECDH10B_RS17905"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312226.1"; locus_tag "ECDH10B_RS17905"; product "protein SlyX"; protein_id "WP_001153615.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3573674 3574264 . - . gene_id "ECDH10B_RS17910"; transcript_id ""; gbkey "Gene"; gene "slyD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17910"; old_locus_tag "ECDH10B_3524"; -NC_010473.1 Protein Homology CDS 3573677 3574264 . - 0 gene_id "ECDH10B_RS17910"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "slyD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312227.1"; locus_tag "ECDH10B_RS17910"; product "peptidylprolyl isomerase"; protein_id "WP_000861334.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3574262 3574264 . - 0 gene_id "ECDH10B_RS17910"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "slyD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312227.1"; locus_tag "ECDH10B_RS17910"; product "peptidylprolyl isomerase"; protein_id "WP_000861334.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3573674 3573676 . - 0 gene_id "ECDH10B_RS17910"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "slyD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312227.1"; locus_tag "ECDH10B_RS17910"; product "peptidylprolyl isomerase"; protein_id "WP_000861334.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3574359 3574559 . - . gene_id "ECDH10B_RS17915"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17915"; old_locus_tag "ECDH10B_3525"; -NC_010473.1 Protein Homology CDS 3574362 3574559 . - 0 gene_id "ECDH10B_RS17915"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_588468.1"; locus_tag "ECDH10B_RS17915"; product "YheV family putative metal-binding protein"; protein_id "WP_001007730.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3574557 3574559 . - 0 gene_id "ECDH10B_RS17915"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_588468.1"; locus_tag "ECDH10B_RS17915"; product "YheV family putative metal-binding protein"; protein_id "WP_001007730.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3574359 3574361 . - 0 gene_id "ECDH10B_RS17915"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_588468.1"; locus_tag "ECDH10B_RS17915"; product "YheV family putative metal-binding protein"; protein_id "WP_001007730.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3574569 3576374 . - . gene_id "ECDH10B_RS17920"; transcript_id ""; gbkey "Gene"; gene "kefB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17920"; old_locus_tag "ECDH10B_3526"; -NC_010473.1 Protein Homology CDS 3574572 3576374 . - 0 gene_id "ECDH10B_RS17920"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "kefB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417809.1"; locus_tag "ECDH10B_RS17920"; product "glutathione-regulated potassium-efflux system protein KefB"; protein_id "WP_000399147.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3576372 3576374 . - 0 gene_id "ECDH10B_RS17920"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "kefB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417809.1"; locus_tag "ECDH10B_RS17920"; product "glutathione-regulated potassium-efflux system protein KefB"; protein_id "WP_000399147.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3574569 3574571 . - 0 gene_id "ECDH10B_RS17920"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "kefB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417809.1"; locus_tag "ECDH10B_RS17920"; product "glutathione-regulated potassium-efflux system protein KefB"; protein_id "WP_000399147.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3576374 3576925 . - . gene_id "ECDH10B_RS17925"; transcript_id ""; gbkey "Gene"; gene "kefG"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17925"; old_locus_tag "ECDH10B_3527"; -NC_010473.1 Protein Homology CDS 3576377 3576925 . - 0 gene_id "ECDH10B_RS17925"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "kefG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312229.2"; locus_tag "ECDH10B_RS17925"; product "glutathione-regulated potassium-efflux system ancillary protein KefG"; protein_id "WP_001297514.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3576923 3576925 . - 0 gene_id "ECDH10B_RS17925"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "kefG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312229.2"; locus_tag "ECDH10B_RS17925"; product "glutathione-regulated potassium-efflux system ancillary protein KefG"; protein_id "WP_001297514.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3576374 3576376 . - 0 gene_id "ECDH10B_RS17925"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "kefG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312229.2"; locus_tag "ECDH10B_RS17925"; product "glutathione-regulated potassium-efflux system ancillary protein KefG"; protein_id "WP_001297514.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3577056 3578969 . + . gene_id "ECDH10B_RS17930"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17930"; old_locus_tag "ECDH10B_3528"; -NC_010473.1 Protein Homology CDS 3577056 3578966 . + 0 gene_id "ECDH10B_RS17930"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312230.1"; locus_tag "ECDH10B_RS17930"; product "ABC transporter ATP-binding protein"; protein_id "WP_000634798.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3577056 3577058 . + 0 gene_id "ECDH10B_RS17930"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312230.1"; locus_tag "ECDH10B_RS17930"; product "ABC transporter ATP-binding protein"; protein_id "WP_000634798.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3578967 3578969 . + 0 gene_id "ECDH10B_RS17930"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312230.1"; locus_tag "ECDH10B_RS17930"; product "ABC transporter ATP-binding protein"; protein_id "WP_000634798.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3578969 3579991 . + . gene_id "ECDH10B_RS17935"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17935"; old_locus_tag "ECDH10B_3529"; -NC_010473.1 Protein Homology CDS 3578969 3579988 . + 0 gene_id "ECDH10B_RS17935"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417812.1"; locus_tag "ECDH10B_RS17935"; product "hydrolase"; protein_id "WP_000057356.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3578969 3578971 . + 0 gene_id "ECDH10B_RS17935"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417812.1"; locus_tag "ECDH10B_RS17935"; product "hydrolase"; protein_id "WP_000057356.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3579989 3579991 . + 0 gene_id "ECDH10B_RS17935"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417812.1"; locus_tag "ECDH10B_RS17935"; product "hydrolase"; protein_id "WP_000057356.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3579985 3580203 . + . gene_id "ECDH10B_RS17940"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17940"; old_locus_tag "ECDH10B_3530"; -NC_010473.1 Protein Homology CDS 3579985 3580200 . + 0 gene_id "ECDH10B_RS17940"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312232.1"; locus_tag "ECDH10B_RS17940"; product "YheU family protein"; protein_id "WP_000907085.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3579985 3579987 . + 0 gene_id "ECDH10B_RS17940"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312232.1"; locus_tag "ECDH10B_RS17940"; product "YheU family protein"; protein_id "WP_000907085.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3580201 3580203 . + 0 gene_id "ECDH10B_RS17940"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312232.1"; locus_tag "ECDH10B_RS17940"; product "YheU family protein"; protein_id "WP_000907085.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3580257 3581126 . + . gene_id "ECDH10B_RS17945"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17945"; old_locus_tag "ECDH10B_3531"; -NC_010473.1 Protein Homology CDS 3580257 3581123 . + 0 gene_id "ECDH10B_RS17945"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417814.1"; locus_tag "ECDH10B_RS17945"; product "phosphoribulokinase"; protein_id "WP_001274680.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3580257 3580259 . + 0 gene_id "ECDH10B_RS17945"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417814.1"; locus_tag "ECDH10B_RS17945"; product "phosphoribulokinase"; protein_id "WP_001274680.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3581124 3581126 . + 0 gene_id "ECDH10B_RS17945"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417814.1"; locus_tag "ECDH10B_RS17945"; product "phosphoribulokinase"; protein_id "WP_001274680.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3581181 3581585 . - . gene_id "ECDH10B_RS17950"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17950"; old_locus_tag "ECDH10B_3532"; -NC_010473.1 Protein Homology CDS 3581184 3581585 . - 0 gene_id "ECDH10B_RS17950"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312234.1"; locus_tag "ECDH10B_RS17950"; product "OsmC family protein"; protein_id "WP_001148908.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3581583 3581585 . - 0 gene_id "ECDH10B_RS17950"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312234.1"; locus_tag "ECDH10B_RS17950"; product "OsmC family protein"; protein_id "WP_001148908.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3581181 3581183 . - 0 gene_id "ECDH10B_RS17950"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312234.1"; locus_tag "ECDH10B_RS17950"; product "OsmC family protein"; protein_id "WP_001148908.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3581887 3582519 . + . gene_id "ECDH10B_RS17960"; transcript_id ""; gbkey "Gene"; gene "crp"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17960"; old_locus_tag "ECDH10B_3533"; -NC_010473.1 Protein Homology CDS 3581887 3582516 . + 0 gene_id "ECDH10B_RS17960"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "crp"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312235.1"; locus_tag "ECDH10B_RS17960"; product "cAMP-activated global transcriptional regulator CRP"; protein_id "WP_000242755.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3581887 3581889 . + 0 gene_id "ECDH10B_RS17960"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "crp"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312235.1"; locus_tag "ECDH10B_RS17960"; product "cAMP-activated global transcriptional regulator CRP"; protein_id "WP_000242755.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3582517 3582519 . + 0 gene_id "ECDH10B_RS17960"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "crp"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312235.1"; locus_tag "ECDH10B_RS17960"; product "cAMP-activated global transcriptional regulator CRP"; protein_id "WP_000242755.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3582570 3584660 . + . gene_id "ECDH10B_RS17965"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17965"; old_locus_tag "ECDH10B_3534"; -NC_010473.1 Protein Homology CDS 3582570 3584657 . + 0 gene_id "ECDH10B_RS17965"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312236.3"; locus_tag "ECDH10B_RS17965"; product "FUSC family protein"; protein_id "WP_001295162.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3582570 3582572 . + 0 gene_id "ECDH10B_RS17965"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312236.3"; locus_tag "ECDH10B_RS17965"; product "FUSC family protein"; protein_id "WP_001295162.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3584658 3584660 . + 0 gene_id "ECDH10B_RS17965"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312236.3"; locus_tag "ECDH10B_RS17965"; product "FUSC family protein"; protein_id "WP_001295162.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3584727 3585947 . - . gene_id "ECDH10B_RS17970"; transcript_id ""; gbkey "Gene"; gene "argD/dapC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17970"; old_locus_tag "ECDH10B_3535"; -NC_010473.1 Protein Homology CDS 3584730 3585947 . - 0 gene_id "ECDH10B_RS17970"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "argD/dapC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417818.1"; locus_tag "ECDH10B_RS17970"; product "bifunctional acetylornithine/succinyldiaminopimelate transaminase"; protein_id "WP_000963792.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3585945 3585947 . - 0 gene_id "ECDH10B_RS17970"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "argD/dapC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417818.1"; locus_tag "ECDH10B_RS17970"; product "bifunctional acetylornithine/succinyldiaminopimelate transaminase"; protein_id "WP_000963792.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3584727 3584729 . - 0 gene_id "ECDH10B_RS17970"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "argD/dapC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417818.1"; locus_tag "ECDH10B_RS17970"; product "bifunctional acetylornithine/succinyldiaminopimelate transaminase"; protein_id "WP_000963792.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3586033 3586596 . - . gene_id "ECDH10B_RS17975"; transcript_id ""; gbkey "Gene"; gene "pabA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17975"; old_locus_tag "ECDH10B_3536"; -NC_010473.1 Protein Homology CDS 3586036 3586596 . - 0 gene_id "ECDH10B_RS17975"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pabA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417819.1"; locus_tag "ECDH10B_RS17975"; product "aminodeoxychorismate synthase component 2"; protein_id "WP_000601847.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3586594 3586596 . - 0 gene_id "ECDH10B_RS17975"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pabA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417819.1"; locus_tag "ECDH10B_RS17975"; product "aminodeoxychorismate synthase component 2"; protein_id "WP_000601847.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3586033 3586035 . - 0 gene_id "ECDH10B_RS17975"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pabA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417819.1"; locus_tag "ECDH10B_RS17975"; product "aminodeoxychorismate synthase component 2"; protein_id "WP_000601847.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3586628 3587230 . - . gene_id "ECDH10B_RS17980"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17980"; old_locus_tag "ECDH10B_3537"; -NC_010473.1 Protein Homology CDS 3586631 3587230 . - 0 gene_id "ECDH10B_RS17980"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417820.1"; locus_tag "ECDH10B_RS17980"; product "putative adenosine monophosphate-protein transferase Fic"; protein_id "WP_001280641.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3587228 3587230 . - 0 gene_id "ECDH10B_RS17980"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417820.1"; locus_tag "ECDH10B_RS17980"; product "putative adenosine monophosphate-protein transferase Fic"; protein_id "WP_001280641.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3586628 3586630 . - 0 gene_id "ECDH10B_RS17980"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417820.1"; locus_tag "ECDH10B_RS17980"; product "putative adenosine monophosphate-protein transferase Fic"; protein_id "WP_001280641.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3587220 3587387 . - . gene_id "ECDH10B_RS17985"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17985"; old_locus_tag "ECDH10B_3538"; -NC_010473.1 Protein Homology CDS 3587223 3587387 . - 0 gene_id "ECDH10B_RS17985"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312240.1"; locus_tag "ECDH10B_RS17985"; product "YhfG family protein"; protein_id "WP_000736862.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3587385 3587387 . - 0 gene_id "ECDH10B_RS17985"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312240.1"; locus_tag "ECDH10B_RS17985"; product "YhfG family protein"; protein_id "WP_000736862.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3587220 3587222 . - 0 gene_id "ECDH10B_RS17985"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312240.1"; locus_tag "ECDH10B_RS17985"; product "YhfG family protein"; protein_id "WP_000736862.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3587492 3588064 . - . gene_id "ECDH10B_RS17990"; transcript_id ""; gbkey "Gene"; gene "ppiA"; gene_biotype "protein_coding"; gene_synonym "rotA"; locus_tag "ECDH10B_RS17990"; old_locus_tag "ECDH10B_3539"; -NC_010473.1 Protein Homology CDS 3587495 3588064 . - 0 gene_id "ECDH10B_RS17990"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ppiA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312241.1"; locus_tag "ECDH10B_RS17990"; product "peptidylprolyl isomerase A"; protein_id "WP_000477225.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3588062 3588064 . - 0 gene_id "ECDH10B_RS17990"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ppiA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312241.1"; locus_tag "ECDH10B_RS17990"; product "peptidylprolyl isomerase A"; protein_id "WP_000477225.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3587492 3587494 . - 0 gene_id "ECDH10B_RS17990"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ppiA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312241.1"; locus_tag "ECDH10B_RS17990"; product "peptidylprolyl isomerase A"; protein_id "WP_000477225.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3588335 3589516 . + . gene_id "ECDH10B_RS17995"; transcript_id ""; gbkey "Gene"; gene "tsgA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS17995"; old_locus_tag "ECDH10B_3540"; -NC_010473.1 Protein Homology CDS 3588335 3589513 . + 0 gene_id "ECDH10B_RS17995"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tsgA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417823.1"; locus_tag "ECDH10B_RS17995"; product "MFS transporter TsgA"; protein_id "WP_000185247.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3588335 3588337 . + 0 gene_id "ECDH10B_RS17995"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tsgA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417823.1"; locus_tag "ECDH10B_RS17995"; product "MFS transporter TsgA"; protein_id "WP_000185247.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3589514 3589516 . + 0 gene_id "ECDH10B_RS17995"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tsgA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417823.1"; locus_tag "ECDH10B_RS17995"; product "MFS transporter TsgA"; protein_id "WP_000185247.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3589778 3592321 . + . gene_id "ECDH10B_RS18000"; transcript_id ""; gbkey "Gene"; gene "nirB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18000"; old_locus_tag "ECDH10B_3541"; -NC_010473.1 Protein Homology CDS 3589778 3592318 . + 0 gene_id "ECDH10B_RS18000"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nirB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417824.1"; locus_tag "ECDH10B_RS18000"; product "NADPH-nitrite reductase large subunit"; protein_id "WP_000049208.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3589778 3589780 . + 0 gene_id "ECDH10B_RS18000"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nirB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417824.1"; locus_tag "ECDH10B_RS18000"; product "NADPH-nitrite reductase large subunit"; protein_id "WP_000049208.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3592319 3592321 . + 0 gene_id "ECDH10B_RS18000"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nirB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417824.1"; locus_tag "ECDH10B_RS18000"; product "NADPH-nitrite reductase large subunit"; protein_id "WP_000049208.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3592318 3592644 . + . gene_id "ECDH10B_RS18005"; transcript_id ""; gbkey "Gene"; gene "nirD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18005"; old_locus_tag "ECDH10B_3542"; -NC_010473.1 Protein Homology CDS 3592318 3592641 . + 0 gene_id "ECDH10B_RS18005"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nirD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312244.1"; locus_tag "ECDH10B_RS18005"; product "nitrite reductase small subunit NirD"; protein_id "WP_000084764.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3592318 3592320 . + 0 gene_id "ECDH10B_RS18005"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nirD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312244.1"; locus_tag "ECDH10B_RS18005"; product "nitrite reductase small subunit NirD"; protein_id "WP_000084764.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3592642 3592644 . + 0 gene_id "ECDH10B_RS18005"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nirD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312244.1"; locus_tag "ECDH10B_RS18005"; product "nitrite reductase small subunit NirD"; protein_id "WP_000084764.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3592770 3593576 . + . gene_id "ECDH10B_RS18010"; transcript_id ""; gbkey "Gene"; gene "nirC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18010"; old_locus_tag "ECDH10B_3543"; -NC_010473.1 Protein Homology CDS 3592770 3593573 . + 0 gene_id "ECDH10B_RS18010"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nirC"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026212.2"; locus_tag "ECDH10B_RS18010"; product "nitrite transporter NirC"; protein_id "WP_000493556.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3592770 3592772 . + 0 gene_id "ECDH10B_RS18010"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nirC"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026212.2"; locus_tag "ECDH10B_RS18010"; product "nitrite transporter NirC"; protein_id "WP_000493556.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3593574 3593576 . + 0 gene_id "ECDH10B_RS18010"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nirC"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026212.2"; locus_tag "ECDH10B_RS18010"; product "nitrite transporter NirC"; protein_id "WP_000493556.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3593595 3594968 . + . gene_id "ECDH10B_RS18015"; transcript_id ""; gbkey "Gene"; gene "cobA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18015"; old_locus_tag "ECDH10B_3544"; -NC_010473.1 Protein Homology CDS 3593595 3594965 . + 0 gene_id "ECDH10B_RS18015"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cobA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312246.1"; locus_tag "ECDH10B_RS18015"; product "uroporphyrinogen-III C-methyltransferase"; protein_id "WP_000349855.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3593595 3593597 . + 0 gene_id "ECDH10B_RS18015"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cobA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312246.1"; locus_tag "ECDH10B_RS18015"; product "uroporphyrinogen-III C-methyltransferase"; protein_id "WP_000349855.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3594966 3594968 . + 0 gene_id "ECDH10B_RS18015"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cobA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312246.1"; locus_tag "ECDH10B_RS18015"; product "uroporphyrinogen-III C-methyltransferase"; protein_id "WP_000349855.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3595215 3595382 . + . gene_id "ECDH10B_RS18020"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18020"; old_locus_tag "ECDH10B_3545"; -NC_010473.1 Protein Homology CDS 3595215 3595379 . + 0 gene_id "ECDH10B_RS18020"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312247.1"; locus_tag "ECDH10B_RS18020"; product "YhfL family protein"; protein_id "WP_001031834.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3595215 3595217 . + 0 gene_id "ECDH10B_RS18020"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312247.1"; locus_tag "ECDH10B_RS18020"; product "YhfL family protein"; protein_id "WP_001031834.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3595380 3595382 . + 0 gene_id "ECDH10B_RS18020"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312247.1"; locus_tag "ECDH10B_RS18020"; product "YhfL family protein"; protein_id "WP_001031834.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3595626 3597014 . + . gene_id "ECDH10B_RS18025"; transcript_id ""; gbkey "Gene"; gene "frlA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18025"; old_locus_tag "ECDH10B_3546"; -NC_010473.1 Protein Homology CDS 3595626 3597011 . + 0 gene_id "ECDH10B_RS18025"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "frlA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001324580.1"; locus_tag "ECDH10B_RS18025"; product "fructoselysine/psicoselysine transporter"; protein_id "WP_001311175.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3595626 3595628 . + 0 gene_id "ECDH10B_RS18025"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "frlA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001324580.1"; locus_tag "ECDH10B_RS18025"; product "fructoselysine/psicoselysine transporter"; protein_id "WP_001311175.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3597012 3597014 . + 0 gene_id "ECDH10B_RS18025"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "frlA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001324580.1"; locus_tag "ECDH10B_RS18025"; product "fructoselysine/psicoselysine transporter"; protein_id "WP_001311175.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3597035 3598057 . + . gene_id "ECDH10B_RS18030"; transcript_id ""; gbkey "Gene"; gene "frlB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18030"; old_locus_tag "ECDH10B_3547"; -NC_010473.1 Protein Homology CDS 3597035 3598054 . + 0 gene_id "ECDH10B_RS18030"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "frlB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417830.4"; locus_tag "ECDH10B_RS18030"; product "fructoselysine 6-phosphate deglycase"; protein_id "WP_001295163.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3597035 3597037 . + 0 gene_id "ECDH10B_RS18030"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "frlB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417830.4"; locus_tag "ECDH10B_RS18030"; product "fructoselysine 6-phosphate deglycase"; protein_id "WP_001295163.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3598055 3598057 . + 0 gene_id "ECDH10B_RS18030"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "frlB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417830.4"; locus_tag "ECDH10B_RS18030"; product "fructoselysine 6-phosphate deglycase"; protein_id "WP_001295163.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3598107 3598937 . + . gene_id "ECDH10B_RS18035"; transcript_id ""; gbkey "Gene"; gene "frlC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18035"; old_locus_tag "ECDH10B_3548"; -NC_010473.1 Protein Homology CDS 3598107 3598934 . + 0 gene_id "ECDH10B_RS18035"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "frlC"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026213.1"; locus_tag "ECDH10B_RS18035"; product "fructoselysine 3-epimerase"; protein_id "WP_000847837.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3598107 3598109 . + 0 gene_id "ECDH10B_RS18035"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "frlC"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026213.1"; locus_tag "ECDH10B_RS18035"; product "fructoselysine 3-epimerase"; protein_id "WP_000847837.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3598935 3598937 . + 0 gene_id "ECDH10B_RS18035"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "frlC"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026213.1"; locus_tag "ECDH10B_RS18035"; product "fructoselysine 3-epimerase"; protein_id "WP_000847837.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3598934 3599719 . + . gene_id "ECDH10B_RS18040"; transcript_id ""; gbkey "Gene"; gene "frlD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18040"; old_locus_tag "ECDH10B_3549"; -NC_010473.1 Protein Homology CDS 3598934 3599716 . + 0 gene_id "ECDH10B_RS18040"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "frlD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417833.1"; locus_tag "ECDH10B_RS18040"; product "fructoselysine 6-kinase"; protein_id "WP_000853353.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3598934 3598936 . + 0 gene_id "ECDH10B_RS18040"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "frlD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417833.1"; locus_tag "ECDH10B_RS18040"; product "fructoselysine 6-kinase"; protein_id "WP_000853353.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3599717 3599719 . + 0 gene_id "ECDH10B_RS18040"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "frlD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417833.1"; locus_tag "ECDH10B_RS18040"; product "fructoselysine 6-kinase"; protein_id "WP_000853353.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3599819 3600550 . + . gene_id "ECDH10B_RS18045"; transcript_id ""; gbkey "Gene"; gene "phoB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18045"; old_locus_tag "ECDH10B_3550"; -NC_010473.1 Protein Homology CDS 3599819 3600547 . + 0 gene_id "ECDH10B_RS18045"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "phoB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417834.6"; locus_tag "ECDH10B_RS18045"; product "transcriptional regulator PhoB"; protein_id "WP_001276847.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3599819 3599821 . + 0 gene_id "ECDH10B_RS18045"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "phoB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417834.6"; locus_tag "ECDH10B_RS18045"; product "transcriptional regulator PhoB"; protein_id "WP_001276847.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3600548 3600550 . + 0 gene_id "ECDH10B_RS18045"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "phoB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417834.6"; locus_tag "ECDH10B_RS18045"; product "transcriptional regulator PhoB"; protein_id "WP_001276847.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3600702 3601787 . - . gene_id "ECDH10B_RS18050"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18050"; old_locus_tag "ECDH10B_3551"; -NC_010473.1 Protein Homology CDS 3600705 3601787 . - 0 gene_id "ECDH10B_RS18050"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417835.1"; locus_tag "ECDH10B_RS18050"; product "aminotransferase class I/II-fold pyridoxal phosphate-dependent enzyme"; protein_id "WP_000847144.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3601785 3601787 . - 0 gene_id "ECDH10B_RS18050"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417835.1"; locus_tag "ECDH10B_RS18050"; product "aminotransferase class I/II-fold pyridoxal phosphate-dependent enzyme"; protein_id "WP_000847144.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3600702 3600704 . - 0 gene_id "ECDH10B_RS18050"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417835.1"; locus_tag "ECDH10B_RS18050"; product "aminotransferase class I/II-fold pyridoxal phosphate-dependent enzyme"; protein_id "WP_000847144.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3601799 3603103 . - . gene_id "ECDH10B_RS18055"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18055"; old_locus_tag "ECDH10B_3552"; -NC_010473.1 Protein Homology CDS 3601802 3603103 . - 0 gene_id "ECDH10B_RS18055"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417836.1"; locus_tag "ECDH10B_RS18055"; product "YhfT family protein"; protein_id "WP_000366857.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3603101 3603103 . - 0 gene_id "ECDH10B_RS18055"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417836.1"; locus_tag "ECDH10B_RS18055"; product "YhfT family protein"; protein_id "WP_000366857.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3601799 3601801 . - 0 gene_id "ECDH10B_RS18055"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417836.1"; locus_tag "ECDH10B_RS18055"; product "YhfT family protein"; protein_id "WP_000366857.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3603115 3603468 . - . gene_id "ECDH10B_RS18060"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18060"; old_locus_tag "ECDH10B_3553"; -NC_010473.1 Protein Homology CDS 3603118 3603468 . - 0 gene_id "ECDH10B_RS18060"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417837.2"; locus_tag "ECDH10B_RS18060"; product "DUF2620 domain-containing protein"; protein_id "WP_000719728.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3603466 3603468 . - 0 gene_id "ECDH10B_RS18060"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417837.2"; locus_tag "ECDH10B_RS18060"; product "DUF2620 domain-containing protein"; protein_id "WP_000719728.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3603115 3603117 . - 0 gene_id "ECDH10B_RS18060"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417837.2"; locus_tag "ECDH10B_RS18060"; product "DUF2620 domain-containing protein"; protein_id "WP_000719728.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3603479 3604357 . - . gene_id "ECDH10B_RS18065"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18065"; old_locus_tag "ECDH10B_3554"; -NC_010473.1 Protein Homology CDS 3603482 3604357 . - 0 gene_id "ECDH10B_RS18065"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417838.1"; locus_tag "ECDH10B_RS18065"; product "phosphotriesterase-related protein"; protein_id "WP_000007010.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3604355 3604357 . - 0 gene_id "ECDH10B_RS18065"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417838.1"; locus_tag "ECDH10B_RS18065"; product "phosphotriesterase-related protein"; protein_id "WP_000007010.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3603479 3603481 . - 0 gene_id "ECDH10B_RS18065"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417838.1"; locus_tag "ECDH10B_RS18065"; product "phosphotriesterase-related protein"; protein_id "WP_000007010.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3604354 3605580 . - . gene_id "ECDH10B_RS18070"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18070"; old_locus_tag "ECDH10B_3555"; -NC_010473.1 Protein Homology CDS 3604357 3605580 . - 0 gene_id "ECDH10B_RS18070"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417839.1"; locus_tag "ECDH10B_RS18070"; product "phosphopentomutase"; protein_id "WP_000090644.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3605578 3605580 . - 0 gene_id "ECDH10B_RS18070"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417839.1"; locus_tag "ECDH10B_RS18070"; product "phosphopentomutase"; protein_id "WP_000090644.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3604354 3604356 . - 0 gene_id "ECDH10B_RS18070"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417839.1"; locus_tag "ECDH10B_RS18070"; product "phosphopentomutase"; protein_id "WP_000090644.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3605580 3606743 . - . gene_id "ECDH10B_RS18075"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18075"; old_locus_tag "ECDH10B_3556"; -NC_010473.1 Protein Homology CDS 3605583 3606743 . - 0 gene_id "ECDH10B_RS18075"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417840.1"; locus_tag "ECDH10B_RS18075"; product "YhfX family PLP-dependent enzyme"; protein_id "WP_000497334.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3606741 3606743 . - 0 gene_id "ECDH10B_RS18075"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417840.1"; locus_tag "ECDH10B_RS18075"; product "YhfX family PLP-dependent enzyme"; protein_id "WP_000497334.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3605580 3605582 . - 0 gene_id "ECDH10B_RS18075"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417840.1"; locus_tag "ECDH10B_RS18075"; product "YhfX family PLP-dependent enzyme"; protein_id "WP_000497334.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3606827 3607189 . - . gene_id "ECDH10B_RS18080"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18080"; old_locus_tag "ECDH10B_3557"; -NC_010473.1 Protein Homology CDS 3606830 3607189 . - 0 gene_id "ECDH10B_RS18080"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417841.2"; locus_tag "ECDH10B_RS18080"; product "PRD domain protein"; protein_id "WP_001295165.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3607187 3607189 . - 0 gene_id "ECDH10B_RS18080"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417841.2"; locus_tag "ECDH10B_RS18080"; product "PRD domain protein"; protein_id "WP_001295165.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3606827 3606829 . - 0 gene_id "ECDH10B_RS18080"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417841.2"; locus_tag "ECDH10B_RS18080"; product "PRD domain protein"; protein_id "WP_001295165.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3607206 3608111 . - . gene_id "ECDH10B_RS18085"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18085"; old_locus_tag "ECDH10B_3558"; -NC_010473.1 Protein Homology CDS 3607209 3608111 . - 0 gene_id "ECDH10B_RS18085"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026214.1"; locus_tag "ECDH10B_RS18085"; product "transcriptional regulator"; protein_id "WP_001254790.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3608109 3608111 . - 0 gene_id "ECDH10B_RS18085"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026214.1"; locus_tag "ECDH10B_RS18085"; product "transcriptional regulator"; protein_id "WP_001254790.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3607206 3607208 . - 0 gene_id "ECDH10B_RS18085"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026214.1"; locus_tag "ECDH10B_RS18085"; product "transcriptional regulator"; protein_id "WP_001254790.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3608401 3609405 . - . gene_id "ECDH10B_RS18090"; transcript_id ""; gbkey "Gene"; gene "trpS"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18090"; old_locus_tag "ECDH10B_3559"; -NC_010473.1 Protein Homology CDS 3608404 3609405 . - 0 gene_id "ECDH10B_RS18090"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "trpS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417843.1"; locus_tag "ECDH10B_RS18090"; product "tryptophan--tRNA ligase"; protein_id "WP_000165552.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3609403 3609405 . - 0 gene_id "ECDH10B_RS18090"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "trpS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417843.1"; locus_tag "ECDH10B_RS18090"; product "tryptophan--tRNA ligase"; protein_id "WP_000165552.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3608401 3608403 . - 0 gene_id "ECDH10B_RS18090"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "trpS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417843.1"; locus_tag "ECDH10B_RS18090"; product "tryptophan--tRNA ligase"; protein_id "WP_000165552.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3609398 3610156 . - . gene_id "ECDH10B_RS18095"; transcript_id ""; gbkey "Gene"; gene "gph"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18095"; old_locus_tag "ECDH10B_3560"; -NC_010473.1 Protein Homology CDS 3609401 3610156 . - 0 gene_id "ECDH10B_RS18095"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gph"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417844.1"; locus_tag "ECDH10B_RS18095"; product "phosphoglycolate phosphatase"; protein_id "WP_001031729.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3610154 3610156 . - 0 gene_id "ECDH10B_RS18095"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gph"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417844.1"; locus_tag "ECDH10B_RS18095"; product "phosphoglycolate phosphatase"; protein_id "WP_001031729.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3609398 3609400 . - 0 gene_id "ECDH10B_RS18095"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gph"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417844.1"; locus_tag "ECDH10B_RS18095"; product "phosphoglycolate phosphatase"; protein_id "WP_001031729.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3610149 3610826 . - . gene_id "ECDH10B_RS18100"; transcript_id ""; gbkey "Gene"; gene "rpe"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18100"; old_locus_tag "ECDH10B_3561"; -NC_010473.1 Protein Homology CDS 3610152 3610826 . - 0 gene_id "ECDH10B_RS18100"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rpe"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312255.1"; locus_tag "ECDH10B_RS18100"; product "ribulose-phosphate 3-epimerase"; protein_id "WP_000816280.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3610824 3610826 . - 0 gene_id "ECDH10B_RS18100"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rpe"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312255.1"; locus_tag "ECDH10B_RS18100"; product "ribulose-phosphate 3-epimerase"; protein_id "WP_000816280.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3610149 3610151 . - 0 gene_id "ECDH10B_RS18100"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rpe"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312255.1"; locus_tag "ECDH10B_RS18100"; product "ribulose-phosphate 3-epimerase"; protein_id "WP_000816280.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3610844 3611680 . - . gene_id "ECDH10B_RS18105"; transcript_id ""; gbkey "Gene"; gene "dam"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18105"; old_locus_tag "ECDH10B_3562"; -NC_010473.1 Protein Homology CDS 3610847 3611680 . - 0 gene_id "ECDH10B_RS18105"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dam"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312256.1"; locus_tag "ECDH10B_RS18105"; product "adenine-specific DNA-methyltransferase"; protein_id "WP_000742143.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3611678 3611680 . - 0 gene_id "ECDH10B_RS18105"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dam"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312256.1"; locus_tag "ECDH10B_RS18105"; product "adenine-specific DNA-methyltransferase"; protein_id "WP_000742143.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3610844 3610846 . - 0 gene_id "ECDH10B_RS18105"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dam"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312256.1"; locus_tag "ECDH10B_RS18105"; product "adenine-specific DNA-methyltransferase"; protein_id "WP_000742143.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3611787 3613073 . - . gene_id "ECDH10B_RS18110"; transcript_id ""; gbkey "Gene"; gene "damX"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18110"; old_locus_tag "ECDH10B_3563"; -NC_010473.1 Protein Homology CDS 3611790 3613073 . - 0 gene_id "ECDH10B_RS18110"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "damX"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417847.1"; locus_tag "ECDH10B_RS18110"; product "cell division protein DamX"; protein_id "WP_000343215.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3613071 3613073 . - 0 gene_id "ECDH10B_RS18110"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "damX"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417847.1"; locus_tag "ECDH10B_RS18110"; product "cell division protein DamX"; protein_id "WP_000343215.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3611787 3611789 . - 0 gene_id "ECDH10B_RS18110"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "damX"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417847.1"; locus_tag "ECDH10B_RS18110"; product "cell division protein DamX"; protein_id "WP_000343215.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3613165 3614253 . - . gene_id "ECDH10B_RS18115"; transcript_id ""; gbkey "Gene"; gene "aroB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18115"; old_locus_tag "ECDH10B_3564"; -NC_010473.1 Protein Homology CDS 3613168 3614253 . - 0 gene_id "ECDH10B_RS18115"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "aroB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417848.1"; locus_tag "ECDH10B_RS18115"; product "3-dehydroquinate synthase"; protein_id "WP_000439848.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3614251 3614253 . - 0 gene_id "ECDH10B_RS18115"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "aroB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417848.1"; locus_tag "ECDH10B_RS18115"; product "3-dehydroquinate synthase"; protein_id "WP_000439848.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3613165 3613167 . - 0 gene_id "ECDH10B_RS18115"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "aroB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417848.1"; locus_tag "ECDH10B_RS18115"; product "3-dehydroquinate synthase"; protein_id "WP_000439848.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3614310 3614831 . - . gene_id "ECDH10B_RS18120"; transcript_id ""; gbkey "Gene"; gene "aroK"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18120"; old_locus_tag "ECDH10B_3565"; -NC_010473.1 Protein Homology CDS 3614313 3614831 . - 0 gene_id "ECDH10B_RS18120"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "aroK"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_004709337.1"; locus_tag "ECDH10B_RS18120"; product "shikimate kinase AroK"; protein_id "WP_000818618.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3614829 3614831 . - 0 gene_id "ECDH10B_RS18120"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "aroK"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_004709337.1"; locus_tag "ECDH10B_RS18120"; product "shikimate kinase AroK"; protein_id "WP_000818618.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3614310 3614312 . - 0 gene_id "ECDH10B_RS18120"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "aroK"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_004709337.1"; locus_tag "ECDH10B_RS18120"; product "shikimate kinase AroK"; protein_id "WP_000818618.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3615232 3616470 . - . gene_id "ECDH10B_RS18125"; transcript_id ""; gbkey "Gene"; gene "hofQ"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18125"; old_locus_tag "ECDH10B_3566"; -NC_010473.1 Protein Homology CDS 3615235 3616470 . - 0 gene_id "ECDH10B_RS18125"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hofQ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417850.1"; locus_tag "ECDH10B_RS18125"; product "DNA uptake porin HofQ"; protein_id "WP_000815987.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3616468 3616470 . - 0 gene_id "ECDH10B_RS18125"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hofQ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417850.1"; locus_tag "ECDH10B_RS18125"; product "DNA uptake porin HofQ"; protein_id "WP_000815987.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3615232 3615234 . - 0 gene_id "ECDH10B_RS18125"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hofQ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417850.1"; locus_tag "ECDH10B_RS18125"; product "DNA uptake porin HofQ"; protein_id "WP_000815987.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3616382 3616786 . - . gene_id "ECDH10B_RS18130"; transcript_id ""; gbkey "Gene"; gene "hofP"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18130"; old_locus_tag "ECDH10B_3567"; -NC_010473.1 Protein Homology CDS 3616385 3616786 . - 0 gene_id "ECDH10B_RS18130"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hofP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417851.4"; locus_tag "ECDH10B_RS18130"; product "DNA utilization protein HofP"; protein_id "WP_001264141.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3616784 3616786 . - 0 gene_id "ECDH10B_RS18130"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hofP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417851.4"; locus_tag "ECDH10B_RS18130"; product "DNA utilization protein HofP"; protein_id "WP_001264141.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3616382 3616384 . - 0 gene_id "ECDH10B_RS18130"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hofP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417851.4"; locus_tag "ECDH10B_RS18130"; product "DNA utilization protein HofP"; protein_id "WP_001264141.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3616776 3617216 . - . gene_id "ECDH10B_RS18135"; transcript_id ""; gbkey "Gene"; gene "hofO"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18135"; old_locus_tag "ECDH10B_3568"; -NC_010473.1 Protein Homology CDS 3616779 3617216 . - 0 gene_id "ECDH10B_RS18135"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hofO"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417852.1"; locus_tag "ECDH10B_RS18135"; product "DNA utilization protein HofO"; protein_id "WP_001055759.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3617214 3617216 . - 0 gene_id "ECDH10B_RS18135"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hofO"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417852.1"; locus_tag "ECDH10B_RS18135"; product "DNA utilization protein HofO"; protein_id "WP_001055759.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3616776 3616778 . - 0 gene_id "ECDH10B_RS18135"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hofO"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417852.1"; locus_tag "ECDH10B_RS18135"; product "DNA utilization protein HofO"; protein_id "WP_001055759.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3617200 3617739 . - . gene_id "ECDH10B_RS18140"; transcript_id ""; gbkey "Gene"; gene "hofN"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18140"; old_locus_tag "ECDH10B_3569"; -NC_010473.1 Protein Homology CDS 3617203 3617739 . - 0 gene_id "ECDH10B_RS18140"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hofN"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417853.1"; locus_tag "ECDH10B_RS18140"; product "DNA utilization protein HofN"; protein_id "WP_001069315.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3617737 3617739 . - 0 gene_id "ECDH10B_RS18140"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hofN"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417853.1"; locus_tag "ECDH10B_RS18140"; product "DNA utilization protein HofN"; protein_id "WP_001069315.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3617200 3617202 . - 0 gene_id "ECDH10B_RS18140"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hofN"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417853.1"; locus_tag "ECDH10B_RS18140"; product "DNA utilization protein HofN"; protein_id "WP_001069315.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3617739 3618518 . - . gene_id "ECDH10B_RS18145"; transcript_id ""; gbkey "Gene"; gene "hofM"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18145"; old_locus_tag "ECDH10B_3570"; -NC_010473.1 Protein Homology CDS 3617742 3618518 . - 0 gene_id "ECDH10B_RS18145"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hofM"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417854.4"; locus_tag "ECDH10B_RS18145"; product "DNA utilization protein HofM"; protein_id "WP_001295166.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3618516 3618518 . - 0 gene_id "ECDH10B_RS18145"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hofM"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417854.4"; locus_tag "ECDH10B_RS18145"; product "DNA utilization protein HofM"; protein_id "WP_001295166.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3617739 3617741 . - 0 gene_id "ECDH10B_RS18145"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hofM"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417854.4"; locus_tag "ECDH10B_RS18145"; product "DNA utilization protein HofM"; protein_id "WP_001295166.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3618638 3621190 . + . gene_id "ECDH10B_RS18150"; transcript_id ""; gbkey "Gene"; gene "mrcA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18150"; old_locus_tag "ECDH10B_3571"; -NC_010473.1 Protein Homology CDS 3618638 3621187 . + 0 gene_id "ECDH10B_RS18150"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mrcA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417855.4"; locus_tag "ECDH10B_RS18150"; product "peptidoglycan glycosyltransferase/peptidoglycan DD-transpeptidase MrcA"; protein_id "WP_001336003.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3618638 3618640 . + 0 gene_id "ECDH10B_RS18150"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mrcA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417855.4"; locus_tag "ECDH10B_RS18150"; product "peptidoglycan glycosyltransferase/peptidoglycan DD-transpeptidase MrcA"; protein_id "WP_001336003.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3621188 3621190 . + 0 gene_id "ECDH10B_RS18150"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mrcA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417855.4"; locus_tag "ECDH10B_RS18150"; product "peptidoglycan glycosyltransferase/peptidoglycan DD-transpeptidase MrcA"; protein_id "WP_001336003.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3621356 3621916 . - . gene_id "ECDH10B_RS18155"; transcript_id ""; gbkey "Gene"; gene "nudE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18155"; old_locus_tag "ECDH10B_3572"; -NC_010473.1 Protein Homology CDS 3621359 3621916 . - 0 gene_id "ECDH10B_RS18155"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nudE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417856.1"; locus_tag "ECDH10B_RS18155"; product "ADP compounds hydrolase NudE"; protein_id "WP_000045744.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3621914 3621916 . - 0 gene_id "ECDH10B_RS18155"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nudE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417856.1"; locus_tag "ECDH10B_RS18155"; product "ADP compounds hydrolase NudE"; protein_id "WP_000045744.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3621356 3621358 . - 0 gene_id "ECDH10B_RS18155"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nudE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417856.1"; locus_tag "ECDH10B_RS18155"; product "ADP compounds hydrolase NudE"; protein_id "WP_000045744.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3622236 3624371 . + . gene_id "ECDH10B_RS18160"; transcript_id ""; gbkey "Gene"; gene "igaA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18160"; old_locus_tag "ECDH10B_3573"; -NC_010473.1 Protein Homology CDS 3622236 3624368 . + 0 gene_id "ECDH10B_RS18160"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "igaA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417857.1"; locus_tag "ECDH10B_RS18160"; product "intracellular growth attenuator protein IgaA"; protein_id "WP_000104533.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3622236 3622238 . + 0 gene_id "ECDH10B_RS18160"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "igaA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417857.1"; locus_tag "ECDH10B_RS18160"; product "intracellular growth attenuator protein IgaA"; protein_id "WP_000104533.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3624369 3624371 . + 0 gene_id "ECDH10B_RS18160"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "igaA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417857.1"; locus_tag "ECDH10B_RS18160"; product "intracellular growth attenuator protein IgaA"; protein_id "WP_000104533.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3624436 3625104 . + . gene_id "ECDH10B_RS18165"; transcript_id ""; gbkey "Gene"; gene "yrfG"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18165"; old_locus_tag "ECDH10B_3574"; -NC_010473.1 Protein Homology CDS 3624436 3625101 . + 0 gene_id "ECDH10B_RS18165"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yrfG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312268.2"; locus_tag "ECDH10B_RS18165"; product "GMP/IMP nucleotidase"; protein_id "WP_001295168.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3624436 3624438 . + 0 gene_id "ECDH10B_RS18165"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yrfG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312268.2"; locus_tag "ECDH10B_RS18165"; product "GMP/IMP nucleotidase"; protein_id "WP_001295168.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3625102 3625104 . + 0 gene_id "ECDH10B_RS18165"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yrfG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312268.2"; locus_tag "ECDH10B_RS18165"; product "GMP/IMP nucleotidase"; protein_id "WP_001295168.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3625115 3625516 . + . gene_id "ECDH10B_RS18170"; transcript_id ""; gbkey "Gene"; gene "hslR"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18170"; old_locus_tag "ECDH10B_3575"; -NC_010473.1 Protein Homology CDS 3625115 3625513 . + 0 gene_id "ECDH10B_RS18170"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hslR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312269.1"; locus_tag "ECDH10B_RS18170"; product "ribosome-associated heat shock protein Hsp15"; protein_id "WP_000660483.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3625115 3625117 . + 0 gene_id "ECDH10B_RS18170"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hslR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312269.1"; locus_tag "ECDH10B_RS18170"; product "ribosome-associated heat shock protein Hsp15"; protein_id "WP_000660483.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3625514 3625516 . + 0 gene_id "ECDH10B_RS18170"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hslR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312269.1"; locus_tag "ECDH10B_RS18170"; product "ribosome-associated heat shock protein Hsp15"; protein_id "WP_000660483.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3625541 3626419 . + . gene_id "ECDH10B_RS18175"; transcript_id ""; gbkey "Gene"; gene "hslO"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18175"; old_locus_tag "ECDH10B_3576"; -NC_010473.1 Protein Homology CDS 3625541 3626416 . + 0 gene_id "ECDH10B_RS18175"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hslO"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417860.2"; locus_tag "ECDH10B_RS18175"; product "Hsp33 family molecular chaperone HslO"; protein_id "WP_001135574.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3625541 3625543 . + 0 gene_id "ECDH10B_RS18175"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hslO"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417860.2"; locus_tag "ECDH10B_RS18175"; product "Hsp33 family molecular chaperone HslO"; protein_id "WP_001135574.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3626417 3626419 . + 0 gene_id "ECDH10B_RS18175"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hslO"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417860.2"; locus_tag "ECDH10B_RS18175"; product "Hsp33 family molecular chaperone HslO"; protein_id "WP_001135574.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3626482 3628206 . - . gene_id "ECDH10B_RS18180"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18180"; old_locus_tag "ECDH10B_3577"; -NC_010473.1 Protein Homology CDS 3626485 3628206 . - 0 gene_id "ECDH10B_RS18180"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417861.1"; locus_tag "ECDH10B_RS18180"; product "DUF4153 domain-containing protein"; protein_id "WP_000370879.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3628204 3628206 . - 0 gene_id "ECDH10B_RS18180"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417861.1"; locus_tag "ECDH10B_RS18180"; product "DUF4153 domain-containing protein"; protein_id "WP_000370879.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3626482 3626484 . - 0 gene_id "ECDH10B_RS18180"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417861.1"; locus_tag "ECDH10B_RS18180"; product "DUF4153 domain-containing protein"; protein_id "WP_000370879.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3628585 3630207 . + . gene_id "ECDH10B_RS18190"; transcript_id ""; gbkey "Gene"; gene "pckA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18190"; old_locus_tag "ECDH10B_3578"; -NC_010473.1 Protein Homology CDS 3628585 3630204 . + 0 gene_id "ECDH10B_RS18190"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pckA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417862.1"; locus_tag "ECDH10B_RS18190"; product "phosphoenolpyruvate carboxykinase (ATP)"; protein_id "WP_001265681.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3628585 3628587 . + 0 gene_id "ECDH10B_RS18190"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pckA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417862.1"; locus_tag "ECDH10B_RS18190"; product "phosphoenolpyruvate carboxykinase (ATP)"; protein_id "WP_001265681.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3630205 3630207 . + 0 gene_id "ECDH10B_RS18190"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pckA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417862.1"; locus_tag "ECDH10B_RS18190"; product "phosphoenolpyruvate carboxykinase (ATP)"; protein_id "WP_001265681.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3630283 3631635 . - . gene_id "ECDH10B_RS18195"; transcript_id ""; gbkey "Gene"; gene "envZ"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18195"; old_locus_tag "ECDH10B_3579"; -NC_010473.1 Protein Homology CDS 3630286 3631635 . - 0 gene_id "ECDH10B_RS18195"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "envZ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417863.1"; locus_tag "ECDH10B_RS18195"; product "two-component system sensor histidine kinase EnvZ"; protein_id "WP_001253696.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3631633 3631635 . - 0 gene_id "ECDH10B_RS18195"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "envZ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417863.1"; locus_tag "ECDH10B_RS18195"; product "two-component system sensor histidine kinase EnvZ"; protein_id "WP_001253696.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3630283 3630285 . - 0 gene_id "ECDH10B_RS18195"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "envZ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417863.1"; locus_tag "ECDH10B_RS18195"; product "two-component system sensor histidine kinase EnvZ"; protein_id "WP_001253696.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3631632 3632351 . - . gene_id "ECDH10B_RS18200"; transcript_id ""; gbkey "Gene"; gene "ompR"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18200"; old_locus_tag "ECDH10B_3580"; -NC_010473.1 Protein Homology CDS 3631635 3632351 . - 0 gene_id "ECDH10B_RS18200"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ompR"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_020166624.1"; locus_tag "ECDH10B_RS18200"; product "two-component system response regulator OmpR"; protein_id "WP_001157751.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3632349 3632351 . - 0 gene_id "ECDH10B_RS18200"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ompR"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_020166624.1"; locus_tag "ECDH10B_RS18200"; product "two-component system response regulator OmpR"; protein_id "WP_001157751.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3631632 3631634 . - 0 gene_id "ECDH10B_RS18200"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ompR"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_020166624.1"; locus_tag "ECDH10B_RS18200"; product "two-component system response regulator OmpR"; protein_id "WP_001157751.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3632579 3633055 . + . gene_id "ECDH10B_RS18205"; transcript_id ""; gbkey "Gene"; gene "greB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18205"; old_locus_tag "ECDH10B_3581"; -NC_010473.1 Protein Homology CDS 3632579 3633052 . + 0 gene_id "ECDH10B_RS18205"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "greB"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026216.2"; locus_tag "ECDH10B_RS18205"; product "transcription elongation factor GreB"; protein_id "WP_000856737.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3632579 3632581 . + 0 gene_id "ECDH10B_RS18205"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "greB"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026216.2"; locus_tag "ECDH10B_RS18205"; product "transcription elongation factor GreB"; protein_id "WP_000856737.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3633053 3633055 . + 0 gene_id "ECDH10B_RS18205"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "greB"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026216.2"; locus_tag "ECDH10B_RS18205"; product "transcription elongation factor GreB"; protein_id "WP_000856737.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3633152 3635473 . + . gene_id "ECDH10B_RS18210"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18210"; old_locus_tag "ECDH10B_3582"; -NC_010473.1 Protein Homology CDS 3633152 3635470 . + 0 gene_id "ECDH10B_RS18210"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417866.4"; locus_tag "ECDH10B_RS18210"; product "RNA-binding transcriptional accessory protein"; protein_id "WP_000980727.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3633152 3633154 . + 0 gene_id "ECDH10B_RS18210"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417866.4"; locus_tag "ECDH10B_RS18210"; product "RNA-binding transcriptional accessory protein"; protein_id "WP_000980727.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3635471 3635473 . + 0 gene_id "ECDH10B_RS18210"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417866.4"; locus_tag "ECDH10B_RS18210"; product "RNA-binding transcriptional accessory protein"; protein_id "WP_000980727.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3635930 3636157 . + . gene_id "ECDH10B_RS18215"; transcript_id ""; gbkey "Gene"; gene "feoA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18215"; old_locus_tag "ECDH10B_3583"; -NC_010473.1 Protein Homology CDS 3635930 3636154 . + 0 gene_id "ECDH10B_RS18215"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "feoA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312277.1"; locus_tag "ECDH10B_RS18215"; product "ferrous iron transporter A"; protein_id "WP_001200455.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3635930 3635932 . + 0 gene_id "ECDH10B_RS18215"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "feoA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312277.1"; locus_tag "ECDH10B_RS18215"; product "ferrous iron transporter A"; protein_id "WP_001200455.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3636155 3636157 . + 0 gene_id "ECDH10B_RS18215"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "feoA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312277.1"; locus_tag "ECDH10B_RS18215"; product "ferrous iron transporter A"; protein_id "WP_001200455.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3636174 3638495 . + . gene_id "ECDH10B_RS18220"; transcript_id ""; gbkey "Gene"; gene "feoB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18220"; old_locus_tag "ECDH10B_3584"; -NC_010473.1 Protein Homology CDS 3636174 3638492 . + 0 gene_id "ECDH10B_RS18220"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "feoB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417868.1"; locus_tag "ECDH10B_RS18220"; product "Fe(2+) transporter permease subunit FeoB"; protein_id "WP_000737039.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3636174 3636176 . + 0 gene_id "ECDH10B_RS18220"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "feoB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417868.1"; locus_tag "ECDH10B_RS18220"; product "Fe(2+) transporter permease subunit FeoB"; protein_id "WP_000737039.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3638493 3638495 . + 0 gene_id "ECDH10B_RS18220"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "feoB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417868.1"; locus_tag "ECDH10B_RS18220"; product "Fe(2+) transporter permease subunit FeoB"; protein_id "WP_000737039.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3638495 3638731 . + . gene_id "ECDH10B_RS18225"; transcript_id ""; gbkey "Gene"; gene "feoC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18225"; old_locus_tag "ECDH10B_3585"; -NC_010473.1 Protein Homology CDS 3638495 3638728 . + 0 gene_id "ECDH10B_RS18225"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "feoC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312279.1"; locus_tag "ECDH10B_RS18225"; product "[Fe-S]-dependent transcriptional repressor FeoC"; protein_id "WP_000157586.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3638495 3638497 . + 0 gene_id "ECDH10B_RS18225"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "feoC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312279.1"; locus_tag "ECDH10B_RS18225"; product "[Fe-S]-dependent transcriptional repressor FeoC"; protein_id "WP_000157586.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3638729 3638731 . + 0 gene_id "ECDH10B_RS18225"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "feoC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312279.1"; locus_tag "ECDH10B_RS18225"; product "[Fe-S]-dependent transcriptional repressor FeoC"; protein_id "WP_000157586.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3638934 3639812 . + . gene_id "ECDH10B_RS18230"; transcript_id ""; gbkey "Gene"; gene "rpnA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18230"; -NC_010473.1 Protein Homology CDS 3638934 3639809 . + 0 gene_id "ECDH10B_RS18230"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rpnA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417870.1"; locus_tag "ECDH10B_RS18230"; product "recombination-promoting nuclease RpnA"; protein_id "WP_000039062.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3638934 3638936 . + 0 gene_id "ECDH10B_RS18230"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rpnA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417870.1"; locus_tag "ECDH10B_RS18230"; product "recombination-promoting nuclease RpnA"; protein_id "WP_000039062.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3639810 3639812 . + 0 gene_id "ECDH10B_RS18230"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rpnA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417870.1"; locus_tag "ECDH10B_RS18230"; product "recombination-promoting nuclease RpnA"; protein_id "WP_000039062.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3639841 3640611 . - . gene_id "ECDH10B_RS18235"; transcript_id ""; gbkey "Gene"; gene "bioH"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18235"; old_locus_tag "ECDH10B_3587"; -NC_010473.1 Protein Homology CDS 3639844 3640611 . - 0 gene_id "ECDH10B_RS18235"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "bioH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417871.1"; locus_tag "ECDH10B_RS18235"; product "pimeloyl-ACP methyl ester esterase BioH"; protein_id "WP_001060070.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3640609 3640611 . - 0 gene_id "ECDH10B_RS18235"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "bioH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417871.1"; locus_tag "ECDH10B_RS18235"; product "pimeloyl-ACP methyl ester esterase BioH"; protein_id "WP_001060070.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3639841 3639843 . - 0 gene_id "ECDH10B_RS18235"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "bioH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417871.1"; locus_tag "ECDH10B_RS18235"; product "pimeloyl-ACP methyl ester esterase BioH"; protein_id "WP_001060070.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3640649 3641332 . + . gene_id "ECDH10B_RS18240"; transcript_id ""; gbkey "Gene"; gene "gntX"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18240"; old_locus_tag "ECDH10B_3588"; -NC_010473.1 Protein Homology CDS 3640649 3641329 . + 0 gene_id "ECDH10B_RS18240"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gntX"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417872.2"; locus_tag "ECDH10B_RS18240"; product "DNA utilization protein GntX"; protein_id "WP_001333371.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3640649 3640651 . + 0 gene_id "ECDH10B_RS18240"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gntX"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417872.2"; locus_tag "ECDH10B_RS18240"; product "DNA utilization protein GntX"; protein_id "WP_001333371.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3641330 3641332 . + 0 gene_id "ECDH10B_RS18240"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gntX"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417872.2"; locus_tag "ECDH10B_RS18240"; product "DNA utilization protein GntX"; protein_id "WP_001333371.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3641391 3641966 . + . gene_id "ECDH10B_RS18245"; transcript_id ""; gbkey "Gene"; gene "nfuA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18245"; old_locus_tag "ECDH10B_3589"; -NC_010473.1 Protein Homology CDS 3641391 3641963 . + 0 gene_id "ECDH10B_RS18245"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nfuA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_016942932.1"; locus_tag "ECDH10B_RS18245"; product "Fe-S biogenesis protein NfuA"; protein_id "WP_000619389.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3641391 3641393 . + 0 gene_id "ECDH10B_RS18245"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nfuA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_016942932.1"; locus_tag "ECDH10B_RS18245"; product "Fe-S biogenesis protein NfuA"; protein_id "WP_000619389.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3641964 3641966 . + 0 gene_id "ECDH10B_RS18245"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nfuA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_016942932.1"; locus_tag "ECDH10B_RS18245"; product "Fe-S biogenesis protein NfuA"; protein_id "WP_000619389.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3642326 3643642 . + . gene_id "ECDH10B_RS18250"; transcript_id ""; gbkey "Gene"; gene "gntT"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18250"; old_locus_tag "ECDH10B_3590"; -NC_010473.1 Protein Homology CDS 3642326 3643639 . + 0 gene_id "ECDH10B_RS18250"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gntT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312284.1"; locus_tag "ECDH10B_RS18250"; product "gluconate transporter"; protein_id "WP_001131758.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3642326 3642328 . + 0 gene_id "ECDH10B_RS18250"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gntT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312284.1"; locus_tag "ECDH10B_RS18250"; product "gluconate transporter"; protein_id "WP_001131758.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3643640 3643642 . + 0 gene_id "ECDH10B_RS18250"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gntT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312284.1"; locus_tag "ECDH10B_RS18250"; product "gluconate transporter"; protein_id "WP_001131758.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3643753 3645837 . - . gene_id "ECDH10B_RS18255"; transcript_id ""; gbkey "Gene"; gene "malQ"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18255"; old_locus_tag "ECDH10B_3591"; -NC_010473.1 Protein Homology CDS 3643756 3645837 . - 0 gene_id "ECDH10B_RS18255"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "malQ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417875.1"; locus_tag "ECDH10B_RS18255"; product "4-alpha-glucanotransferase"; protein_id "WP_000444342.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3645835 3645837 . - 0 gene_id "ECDH10B_RS18255"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "malQ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417875.1"; locus_tag "ECDH10B_RS18255"; product "4-alpha-glucanotransferase"; protein_id "WP_000444342.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3643753 3643755 . - 0 gene_id "ECDH10B_RS18255"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "malQ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417875.1"; locus_tag "ECDH10B_RS18255"; product "4-alpha-glucanotransferase"; protein_id "WP_000444342.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3645847 3648240 . - . gene_id "ECDH10B_RS18260"; transcript_id ""; gbkey "Gene"; gene "malP"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18260"; old_locus_tag "ECDH10B_3592"; -NC_010473.1 Protein Homology CDS 3645850 3648240 . - 0 gene_id "ECDH10B_RS18260"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "malP"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026218.1"; locus_tag "ECDH10B_RS18260"; product "maltodextrin phosphorylase"; protein_id "WP_000081909.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3648238 3648240 . - 0 gene_id "ECDH10B_RS18260"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "malP"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026218.1"; locus_tag "ECDH10B_RS18260"; product "maltodextrin phosphorylase"; protein_id "WP_000081909.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3645847 3645849 . - 0 gene_id "ECDH10B_RS18260"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "malP"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026218.1"; locus_tag "ECDH10B_RS18260"; product "maltodextrin phosphorylase"; protein_id "WP_000081909.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3648852 3651557 . + . gene_id "ECDH10B_RS18265"; transcript_id ""; gbkey "Gene"; gene "malT"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18265"; old_locus_tag "ECDH10B_3593"; -NC_010473.1 Protein Homology CDS 3648852 3651554 . + 0 gene_id "ECDH10B_RS18265"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "malT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417877.1"; locus_tag "ECDH10B_RS18265"; product "HTH-type transcriptional regulator MalT"; protein_id "WP_000906961.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3648852 3648854 . + 0 gene_id "ECDH10B_RS18265"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "malT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417877.1"; locus_tag "ECDH10B_RS18265"; product "HTH-type transcriptional regulator MalT"; protein_id "WP_000906961.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3651555 3651557 . + 0 gene_id "ECDH10B_RS18265"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "malT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417877.1"; locus_tag "ECDH10B_RS18265"; product "HTH-type transcriptional regulator MalT"; protein_id "WP_000906961.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3651600 3652616 . - . gene_id "ECDH10B_RS18270"; transcript_id ""; gbkey "Gene"; gene "rtcA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18270"; old_locus_tag "ECDH10B_3594"; -NC_010473.1 Protein Homology CDS 3651603 3652616 . - 0 gene_id "ECDH10B_RS18270"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rtcA"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026219.1"; locus_tag "ECDH10B_RS18270"; product "RNA 3'-terminal phosphate cyclase"; protein_id "WP_001335950.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3652614 3652616 . - 0 gene_id "ECDH10B_RS18270"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rtcA"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026219.1"; locus_tag "ECDH10B_RS18270"; product "RNA 3'-terminal phosphate cyclase"; protein_id "WP_001335950.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3651600 3651602 . - 0 gene_id "ECDH10B_RS18270"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rtcA"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026219.1"; locus_tag "ECDH10B_RS18270"; product "RNA 3'-terminal phosphate cyclase"; protein_id "WP_001335950.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3652620 3653846 . - . gene_id "ECDH10B_RS18275"; transcript_id ""; gbkey "Gene"; gene "rtcB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18275"; old_locus_tag "ECDH10B_3595"; -NC_010473.1 Protein Homology CDS 3652623 3653846 . - 0 gene_id "ECDH10B_RS18275"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rtcB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417879.1"; locus_tag "ECDH10B_RS18275"; product "RNA-splicing ligase RtcB"; protein_id "WP_001105504.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3653844 3653846 . - 0 gene_id "ECDH10B_RS18275"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rtcB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417879.1"; locus_tag "ECDH10B_RS18275"; product "RNA-splicing ligase RtcB"; protein_id "WP_001105504.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3652620 3652622 . - 0 gene_id "ECDH10B_RS18275"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rtcB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417879.1"; locus_tag "ECDH10B_RS18275"; product "RNA-splicing ligase RtcB"; protein_id "WP_001105504.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3654035 3655633 . + . gene_id "ECDH10B_RS18280"; transcript_id ""; gbkey "Gene"; gene "rtcR"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18280"; old_locus_tag "ECDH10B_3596"; -NC_010473.1 Protein Homology CDS 3654035 3655630 . + 0 gene_id "ECDH10B_RS18280"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rtcR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417880.1"; locus_tag "ECDH10B_RS18280"; product "DNA-binding transcriptional regulator RtcR"; protein_id "WP_001232948.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3654035 3654037 . + 0 gene_id "ECDH10B_RS18280"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rtcR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417880.1"; locus_tag "ECDH10B_RS18280"; product "DNA-binding transcriptional regulator RtcR"; protein_id "WP_001232948.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3655631 3655633 . + 0 gene_id "ECDH10B_RS18280"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rtcR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417880.1"; locus_tag "ECDH10B_RS18280"; product "DNA-binding transcriptional regulator RtcR"; protein_id "WP_001232948.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3655615 3656373 . - . gene_id "ECDH10B_RS18285"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18285"; old_locus_tag "ECDH10B_3597"; -NC_010473.1 Protein Homology CDS 3655618 3656373 . - 0 gene_id "ECDH10B_RS18285"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000815090.1"; locus_tag "ECDH10B_RS18285"; product "DeoR/GlpR family transcriptional regulator"; protein_id "WP_000815099.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3656371 3656373 . - 0 gene_id "ECDH10B_RS18285"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000815090.1"; locus_tag "ECDH10B_RS18285"; product "DeoR/GlpR family transcriptional regulator"; protein_id "WP_000815099.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3655615 3655617 . - 0 gene_id "ECDH10B_RS18285"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000815090.1"; locus_tag "ECDH10B_RS18285"; product "DeoR/GlpR family transcriptional regulator"; protein_id "WP_000815099.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3656390 3657220 . - . gene_id "ECDH10B_RS18290"; transcript_id ""; gbkey "Gene"; gene "glpG"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18290"; old_locus_tag "ECDH10B_3598"; -NC_010473.1 Protein Homology CDS 3656393 3657220 . - 0 gene_id "ECDH10B_RS18290"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "glpG"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026220.1"; locus_tag "ECDH10B_RS18290"; product "rhomboid family intramembrane serine protease GlpG"; protein_id "WP_000928723.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3657218 3657220 . - 0 gene_id "ECDH10B_RS18290"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "glpG"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026220.1"; locus_tag "ECDH10B_RS18290"; product "rhomboid family intramembrane serine protease GlpG"; protein_id "WP_000928723.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3656390 3656392 . - 0 gene_id "ECDH10B_RS18290"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "glpG"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026220.1"; locus_tag "ECDH10B_RS18290"; product "rhomboid family intramembrane serine protease GlpG"; protein_id "WP_000928723.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3657265 3657591 . - . gene_id "ECDH10B_RS18295"; transcript_id ""; gbkey "Gene"; gene "glpE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18295"; old_locus_tag "ECDH10B_3599"; -NC_010473.1 Protein Homology CDS 3657268 3657591 . - 0 gene_id "ECDH10B_RS18295"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "glpE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417883.1"; locus_tag "ECDH10B_RS18295"; product "thiosulfate sulfurtransferase GlpE"; protein_id "WP_000371928.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3657589 3657591 . - 0 gene_id "ECDH10B_RS18295"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "glpE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417883.1"; locus_tag "ECDH10B_RS18295"; product "thiosulfate sulfurtransferase GlpE"; protein_id "WP_000371928.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3657265 3657267 . - 0 gene_id "ECDH10B_RS18295"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "glpE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417883.1"; locus_tag "ECDH10B_RS18295"; product "thiosulfate sulfurtransferase GlpE"; protein_id "WP_000371928.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3657781 3659286 . + . gene_id "ECDH10B_RS18300"; transcript_id ""; gbkey "Gene"; gene "glpD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18300"; old_locus_tag "ECDH10B_3600"; -NC_010473.1 Protein Homology CDS 3657781 3659283 . + 0 gene_id "ECDH10B_RS18300"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "glpD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417884.1"; locus_tag "ECDH10B_RS18300"; product "glycerol-3-phosphate dehydrogenase"; protein_id "WP_000448136.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3657781 3657783 . + 0 gene_id "ECDH10B_RS18300"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "glpD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417884.1"; locus_tag "ECDH10B_RS18300"; product "glycerol-3-phosphate dehydrogenase"; protein_id "WP_000448136.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3659284 3659286 . + 0 gene_id "ECDH10B_RS18300"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "glpD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417884.1"; locus_tag "ECDH10B_RS18300"; product "glycerol-3-phosphate dehydrogenase"; protein_id "WP_000448136.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3659555 3659776 . - . gene_id "ECDH10B_RS18305"; transcript_id ""; gbkey "Gene"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS18305"; old_locus_tag "ECDH10B_3601"; partial "true"; pseudo "true"; -NC_010473.1 Protein Homology CDS 3659558 3659776 . - 0 gene_id "ECDH10B_RS18305"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312299.2"; locus_tag "ECDH10B_RS18305"; note "incomplete; partial in the middle of a contig; missing C-terminus"; partial "true"; product "phosphate ABC transporter substrate-binding protein"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3659774 3659776 . - 0 gene_id "ECDH10B_RS18305"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312299.2"; locus_tag "ECDH10B_RS18305"; note "incomplete; partial in the middle of a contig; missing C-terminus"; partial "true"; product "phosphate ABC transporter substrate-binding protein"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3659555 3659557 . - 0 gene_id "ECDH10B_RS18305"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312299.2"; locus_tag "ECDH10B_RS18305"; note "incomplete; partial in the middle of a contig; missing C-terminus"; partial "true"; product "phosphate ABC transporter substrate-binding protein"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 3659902 3662349 . - . gene_id "ECDH10B_RS18310"; transcript_id ""; gbkey "Gene"; gene "glgP"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18310"; old_locus_tag "ECDH10B_3602"; -NC_010473.1 Protein Homology CDS 3659905 3662349 . - 0 gene_id "ECDH10B_RS18310"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "glgP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417886.1"; locus_tag "ECDH10B_RS18310"; product "glycogen phosphorylase"; protein_id "WP_000993449.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3662347 3662349 . - 0 gene_id "ECDH10B_RS18310"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "glgP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417886.1"; locus_tag "ECDH10B_RS18310"; product "glycogen phosphorylase"; protein_id "WP_000993449.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3659902 3659904 . - 0 gene_id "ECDH10B_RS18310"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "glgP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417886.1"; locus_tag "ECDH10B_RS18310"; product "glycogen phosphorylase"; protein_id "WP_000993449.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3662368 3663801 . - . gene_id "ECDH10B_RS18315"; transcript_id ""; gbkey "Gene"; gene "glgA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18315"; old_locus_tag "ECDH10B_3603"; -NC_010473.1 Protein Homology CDS 3662371 3663801 . - 0 gene_id "ECDH10B_RS18315"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "glgA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312301.1"; locus_tag "ECDH10B_RS18315"; product "glycogen synthase GlgA"; protein_id "WP_001197646.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3663799 3663801 . - 0 gene_id "ECDH10B_RS18315"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "glgA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312301.1"; locus_tag "ECDH10B_RS18315"; product "glycogen synthase GlgA"; protein_id "WP_001197646.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3662368 3662370 . - 0 gene_id "ECDH10B_RS18315"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "glgA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312301.1"; locus_tag "ECDH10B_RS18315"; product "glycogen synthase GlgA"; protein_id "WP_001197646.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3663801 3665096 . - . gene_id "ECDH10B_RS18320"; transcript_id ""; gbkey "Gene"; gene "glgC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18320"; old_locus_tag "ECDH10B_3604"; -NC_010473.1 Protein Homology CDS 3663804 3665096 . - 0 gene_id "ECDH10B_RS18320"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "glgC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312302.1"; locus_tag "ECDH10B_RS18320"; product "glucose-1-phosphate adenylyltransferase"; protein_id "WP_000253975.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3665094 3665096 . - 0 gene_id "ECDH10B_RS18320"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "glgC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312302.1"; locus_tag "ECDH10B_RS18320"; product "glucose-1-phosphate adenylyltransferase"; protein_id "WP_000253975.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3663801 3663803 . - 0 gene_id "ECDH10B_RS18320"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "glgC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312302.1"; locus_tag "ECDH10B_RS18320"; product "glucose-1-phosphate adenylyltransferase"; protein_id "WP_000253975.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3665114 3667087 . - . gene_id "ECDH10B_RS18325"; transcript_id ""; gbkey "Gene"; gene "glgX"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18325"; old_locus_tag "ECDH10B_3605"; -NC_010473.1 Protein Homology CDS 3665117 3667087 . - 0 gene_id "ECDH10B_RS18325"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "glgX"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417889.1"; locus_tag "ECDH10B_RS18325"; product "glycogen debranching protein GlgX"; protein_id "WP_000192523.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3667085 3667087 . - 0 gene_id "ECDH10B_RS18325"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "glgX"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417889.1"; locus_tag "ECDH10B_RS18325"; product "glycogen debranching protein GlgX"; protein_id "WP_000192523.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3665114 3665116 . - 0 gene_id "ECDH10B_RS18325"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "glgX"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417889.1"; locus_tag "ECDH10B_RS18325"; product "glycogen debranching protein GlgX"; protein_id "WP_000192523.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3667084 3669270 . - . gene_id "ECDH10B_RS18330"; transcript_id ""; gbkey "Gene"; gene "glgB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18330"; old_locus_tag "ECDH10B_3606"; -NC_010473.1 Protein Homology CDS 3667087 3669270 . - 0 gene_id "ECDH10B_RS18330"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "glgB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417890.1"; locus_tag "ECDH10B_RS18330"; product "1,4-alpha-glucan branching enzyme"; protein_id "WP_001283723.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3669268 3669270 . - 0 gene_id "ECDH10B_RS18330"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "glgB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417890.1"; locus_tag "ECDH10B_RS18330"; product "1,4-alpha-glucan branching enzyme"; protein_id "WP_001283723.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3667084 3667086 . - 0 gene_id "ECDH10B_RS18330"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "glgB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417890.1"; locus_tag "ECDH10B_RS18330"; product "1,4-alpha-glucan branching enzyme"; protein_id "WP_001283723.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3669543 3670646 . - . gene_id "ECDH10B_RS18335"; transcript_id ""; gbkey "Gene"; gene "asd"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18335"; old_locus_tag "ECDH10B_3607"; -NC_010473.1 Protein Homology CDS 3669546 3670646 . - 0 gene_id "ECDH10B_RS18335"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "asd"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312305.1"; locus_tag "ECDH10B_RS18335"; product "aspartate-semialdehyde dehydrogenase"; protein_id "WP_000799956.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3670644 3670646 . - 0 gene_id "ECDH10B_RS18335"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "asd"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312305.1"; locus_tag "ECDH10B_RS18335"; product "aspartate-semialdehyde dehydrogenase"; protein_id "WP_000799956.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3669543 3669545 . - 0 gene_id "ECDH10B_RS18335"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "asd"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312305.1"; locus_tag "ECDH10B_RS18335"; product "aspartate-semialdehyde dehydrogenase"; protein_id "WP_000799956.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3670839 3671432 . + . gene_id "ECDH10B_RS18340"; transcript_id ""; gbkey "Gene"; gene "yhgN"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18340"; old_locus_tag "ECDH10B_3608"; -NC_010473.1 Protein Homology CDS 3670839 3671429 . + 0 gene_id "ECDH10B_RS18340"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yhgN"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312306.1"; locus_tag "ECDH10B_RS18340"; product "NAAT family transporter YhgN"; protein_id "WP_001002544.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3670839 3670841 . + 0 gene_id "ECDH10B_RS18340"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yhgN"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312306.1"; locus_tag "ECDH10B_RS18340"; product "NAAT family transporter YhgN"; protein_id "WP_001002544.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3671430 3671432 . + 0 gene_id "ECDH10B_RS18340"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yhgN"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312306.1"; locus_tag "ECDH10B_RS18340"; product "NAAT family transporter YhgN"; protein_id "WP_001002544.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3671489 3672829 . - . gene_id "ECDH10B_RS18345"; transcript_id ""; gbkey "Gene"; gene "gntU"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18345"; old_locus_tag "ECDH10B_3609"; -NC_010473.1 Protein Homology CDS 3671492 3672829 . - 0 gene_id "ECDH10B_RS18345"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gntU"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312312.1"; locus_tag "ECDH10B_RS18345"; product "gluconate transporter"; protein_id "WP_000210111.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3672827 3672829 . - 0 gene_id "ECDH10B_RS18345"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gntU"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312312.1"; locus_tag "ECDH10B_RS18345"; product "gluconate transporter"; protein_id "WP_000210111.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3671489 3671491 . - 0 gene_id "ECDH10B_RS18345"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gntU"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312312.1"; locus_tag "ECDH10B_RS18345"; product "gluconate transporter"; protein_id "WP_000210111.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3672833 3673360 . - . gene_id "ECDH10B_RS18350"; transcript_id ""; gbkey "Gene"; gene "gntK"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18350"; old_locus_tag "ECDH10B_3610"; -NC_010473.1 Protein Homology CDS 3672836 3673360 . - 0 gene_id "ECDH10B_RS18350"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gntK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417894.2"; locus_tag "ECDH10B_RS18350"; product "gluconokinase"; protein_id "WP_000108330.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3673358 3673360 . - 0 gene_id "ECDH10B_RS18350"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gntK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417894.2"; locus_tag "ECDH10B_RS18350"; product "gluconokinase"; protein_id "WP_000108330.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3672833 3672835 . - 0 gene_id "ECDH10B_RS18350"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gntK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417894.2"; locus_tag "ECDH10B_RS18350"; product "gluconokinase"; protein_id "WP_000108330.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3673499 3674494 . - . gene_id "ECDH10B_RS18355"; transcript_id ""; gbkey "Gene"; gene "gntR"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18355"; old_locus_tag "ECDH10B_3611"; -NC_010473.1 Protein Homology CDS 3673502 3674494 . - 0 gene_id "ECDH10B_RS18355"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gntR"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001693277.1"; locus_tag "ECDH10B_RS18355"; product "gluconate operon transcriptional repressor GntR"; protein_id "WP_000730252.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3674492 3674494 . - 0 gene_id "ECDH10B_RS18355"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gntR"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001693277.1"; locus_tag "ECDH10B_RS18355"; product "gluconate operon transcriptional repressor GntR"; protein_id "WP_000730252.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3673499 3673501 . - 0 gene_id "ECDH10B_RS18355"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gntR"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001693277.1"; locus_tag "ECDH10B_RS18355"; product "gluconate operon transcriptional repressor GntR"; protein_id "WP_000730252.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3674718 3675413 . - . gene_id "ECDH10B_RS18360"; transcript_id ""; gbkey "Gene"; gene "yhhW"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18360"; old_locus_tag "ECDH10B_3612"; -NC_010473.1 Protein Homology CDS 3674721 3675413 . - 0 gene_id "ECDH10B_RS18360"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yhhW"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417896.1"; locus_tag "ECDH10B_RS18360"; product "quercetin 2,3-dioxygenase"; protein_id "WP_000639811.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3675411 3675413 . - 0 gene_id "ECDH10B_RS18360"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yhhW"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417896.1"; locus_tag "ECDH10B_RS18360"; product "quercetin 2,3-dioxygenase"; protein_id "WP_000639811.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3674718 3674720 . - 0 gene_id "ECDH10B_RS18360"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yhhW"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417896.1"; locus_tag "ECDH10B_RS18360"; product "quercetin 2,3-dioxygenase"; protein_id "WP_000639811.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3675536 3676573 . - . gene_id "ECDH10B_RS18365"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18365"; old_locus_tag "ECDH10B_3613"; -NC_010473.1 Protein Homology CDS 3675539 3676573 . - 0 gene_id "ECDH10B_RS18365"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417897.1"; locus_tag "ECDH10B_RS18365"; product "oxidoreductase"; protein_id "WP_000236293.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3676571 3676573 . - 0 gene_id "ECDH10B_RS18365"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417897.1"; locus_tag "ECDH10B_RS18365"; product "oxidoreductase"; protein_id "WP_000236293.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3675536 3675538 . - 0 gene_id "ECDH10B_RS18365"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417897.1"; locus_tag "ECDH10B_RS18365"; product "oxidoreductase"; protein_id "WP_000236293.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3676906 3677394 . + . gene_id "ECDH10B_RS18370"; transcript_id ""; gbkey "Gene"; gene "yhhY"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18370"; old_locus_tag "ECDH10B_3615"; -NC_010473.1 Protein Homology CDS 3676906 3677391 . + 0 gene_id "ECDH10B_RS18370"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yhhY"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417898.1"; locus_tag "ECDH10B_RS18370"; product "N-acetyltransferase"; protein_id "WP_001295206.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3676906 3676908 . + 0 gene_id "ECDH10B_RS18370"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yhhY"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417898.1"; locus_tag "ECDH10B_RS18370"; product "N-acetyltransferase"; protein_id "WP_001295206.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3677392 3677394 . + 0 gene_id "ECDH10B_RS18370"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yhhY"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417898.1"; locus_tag "ECDH10B_RS18370"; product "N-acetyltransferase"; protein_id "WP_001295206.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3677631 3678809 . + . gene_id "ECDH10B_RS18375"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18375"; old_locus_tag "ECDH10B_3616"; -NC_010473.1 Protein Homology CDS 3677631 3678806 . + 0 gene_id "ECDH10B_RS18375"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417899.1"; locus_tag "ECDH10B_RS18375"; product "Hcp1 family type VI secretion system effector"; protein_id "WP_000065894.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3677631 3677633 . + 0 gene_id "ECDH10B_RS18375"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417899.1"; locus_tag "ECDH10B_RS18375"; product "Hcp1 family type VI secretion system effector"; protein_id "WP_000065894.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3678807 3678809 . + 0 gene_id "ECDH10B_RS18375"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417899.1"; locus_tag "ECDH10B_RS18375"; product "Hcp1 family type VI secretion system effector"; protein_id "WP_000065894.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3678806 3679222 . + . gene_id "ECDH10B_RS18380"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18380"; old_locus_tag "ECDH10B_3617"; -NC_010473.1 Protein Homology CDS 3678806 3679219 . + 0 gene_id "ECDH10B_RS18380"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000988497.1"; locus_tag "ECDH10B_RS18380"; product "hypothetical protein"; protein_id "WP_000988497.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3678806 3678808 . + 0 gene_id "ECDH10B_RS18380"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000988497.1"; locus_tag "ECDH10B_RS18380"; product "hypothetical protein"; protein_id "WP_000988497.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3679220 3679222 . + 0 gene_id "ECDH10B_RS18380"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000988497.1"; locus_tag "ECDH10B_RS18380"; product "hypothetical protein"; protein_id "WP_000988497.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3679251 3679948 . + . gene_id "ECDH10B_RS18385"; transcript_id ""; gbkey "Gene"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS18385"; old_locus_tag "ECDH10B_3619"; pseudo "true"; -NC_010473.1 Protein Homology CDS 3679251 3679945 . + 0 gene_id "ECDH10B_RS18385"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_076612230.1"; locus_tag "ECDH10B_RS18385"; note "frameshifted"; product "IS1-like element IS1A family transposase"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3679251 3679253 . + 0 gene_id "ECDH10B_RS18385"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_076612230.1"; locus_tag "ECDH10B_RS18385"; note "frameshifted"; product "IS1-like element IS1A family transposase"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3679946 3679948 . + 0 gene_id "ECDH10B_RS18385"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_076612230.1"; locus_tag "ECDH10B_RS18385"; note "frameshifted"; product "IS1-like element IS1A family transposase"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 3680172 3680327 . + . gene_id "ECDH10B_RS26115"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS26115"; -NC_010473.1 Protein Homology CDS 3680172 3680324 . + 0 gene_id "ECDH10B_RS26115"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_009518820.1"; locus_tag "ECDH10B_RS26115"; product "hypothetical protein"; protein_id "WP_001307436.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3680172 3680174 . + 0 gene_id "ECDH10B_RS26115"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_009518820.1"; locus_tag "ECDH10B_RS26115"; product "hypothetical protein"; protein_id "WP_001307436.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3680325 3680327 . + 0 gene_id "ECDH10B_RS26115"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_009518820.1"; locus_tag "ECDH10B_RS26115"; product "hypothetical protein"; protein_id "WP_001307436.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3680527 3680811 . + . gene_id "ECDH10B_RS18390"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18390"; old_locus_tag "ECDH10B_3620"; -NC_010473.1 Protein Homology CDS 3680527 3680808 . + 0 gene_id "ECDH10B_RS18390"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417903.1"; locus_tag "ECDH10B_RS18390"; product "YrhB family protein"; protein_id "WP_000634159.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3680527 3680529 . + 0 gene_id "ECDH10B_RS18390"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417903.1"; locus_tag "ECDH10B_RS18390"; product "YrhB family protein"; protein_id "WP_000634159.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3680809 3680811 . + 0 gene_id "ECDH10B_RS18390"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417903.1"; locus_tag "ECDH10B_RS18390"; product "YrhB family protein"; protein_id "WP_000634159.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3680849 3682591 . - . gene_id "ECDH10B_RS18395"; transcript_id ""; gbkey "Gene"; gene "ggt"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18395"; old_locus_tag "ECDH10B_3621"; -NC_010473.1 Protein Homology CDS 3680852 3682591 . - 0 gene_id "ECDH10B_RS18395"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ggt"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417904.1"; locus_tag "ECDH10B_RS18395"; product "gamma-glutamyltransferase"; protein_id "WP_000595082.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3682589 3682591 . - 0 gene_id "ECDH10B_RS18395"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ggt"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417904.1"; locus_tag "ECDH10B_RS18395"; product "gamma-glutamyltransferase"; protein_id "WP_000595082.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3680849 3680851 . - 0 gene_id "ECDH10B_RS18395"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ggt"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417904.1"; locus_tag "ECDH10B_RS18395"; product "gamma-glutamyltransferase"; protein_id "WP_000595082.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3682711 3683151 . + . gene_id "ECDH10B_RS18400"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18400"; old_locus_tag "ECDH10B_3622"; -NC_010473.1 Protein Homology CDS 3682711 3683148 . + 0 gene_id "ECDH10B_RS18400"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417905.1"; locus_tag "ECDH10B_RS18400"; product "DUF2756 family protein"; protein_id "WP_000825996.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3682711 3682713 . + 0 gene_id "ECDH10B_RS18400"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417905.1"; locus_tag "ECDH10B_RS18400"; product "DUF2756 family protein"; protein_id "WP_000825996.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3683149 3683151 . + 0 gene_id "ECDH10B_RS18400"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417905.1"; locus_tag "ECDH10B_RS18400"; product "DUF2756 family protein"; protein_id "WP_000825996.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3683138 3683881 . - . gene_id "ECDH10B_RS18405"; transcript_id ""; gbkey "Gene"; gene "ugpQ"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18405"; old_locus_tag "ECDH10B_3623"; -NC_010473.1 Protein Homology CDS 3683141 3683881 . - 0 gene_id "ECDH10B_RS18405"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ugpQ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417906.1"; locus_tag "ECDH10B_RS18405"; product "glycerophosphodiester phosphodiesterase"; protein_id "WP_000073623.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3683879 3683881 . - 0 gene_id "ECDH10B_RS18405"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ugpQ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417906.1"; locus_tag "ECDH10B_RS18405"; product "glycerophosphodiester phosphodiesterase"; protein_id "WP_000073623.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3683138 3683140 . - 0 gene_id "ECDH10B_RS18405"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ugpQ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417906.1"; locus_tag "ECDH10B_RS18405"; product "glycerophosphodiester phosphodiesterase"; protein_id "WP_000073623.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3683878 3684948 . - . gene_id "ECDH10B_RS18410"; transcript_id ""; gbkey "Gene"; gene "ugpC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18410"; old_locus_tag "ECDH10B_3624"; -NC_010473.1 Protein Homology CDS 3683881 3684948 . - 0 gene_id "ECDH10B_RS18410"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ugpC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417907.2"; locus_tag "ECDH10B_RS18410"; product "sn-glycerol 3-phosphate ABC transporter ATP binding protein UgpC"; protein_id "WP_000907792.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3684946 3684948 . - 0 gene_id "ECDH10B_RS18410"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ugpC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417907.2"; locus_tag "ECDH10B_RS18410"; product "sn-glycerol 3-phosphate ABC transporter ATP binding protein UgpC"; protein_id "WP_000907792.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3683878 3683880 . - 0 gene_id "ECDH10B_RS18410"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ugpC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417907.2"; locus_tag "ECDH10B_RS18410"; product "sn-glycerol 3-phosphate ABC transporter ATP binding protein UgpC"; protein_id "WP_000907792.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3684950 3685795 . - . gene_id "ECDH10B_RS18415"; transcript_id ""; gbkey "Gene"; gene "ugpE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18415"; old_locus_tag "ECDH10B_3625"; -NC_010473.1 Protein Homology CDS 3684953 3685795 . - 0 gene_id "ECDH10B_RS18415"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ugpE"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000572177.1"; locus_tag "ECDH10B_RS18415"; product "sn-glycerol-3-phosphate ABC transporter permease UgpE"; protein_id "WP_000572177.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3685793 3685795 . - 0 gene_id "ECDH10B_RS18415"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ugpE"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000572177.1"; locus_tag "ECDH10B_RS18415"; product "sn-glycerol-3-phosphate ABC transporter permease UgpE"; protein_id "WP_000572177.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3684950 3684952 . - 0 gene_id "ECDH10B_RS18415"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ugpE"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000572177.1"; locus_tag "ECDH10B_RS18415"; product "sn-glycerol-3-phosphate ABC transporter permease UgpE"; protein_id "WP_000572177.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3685792 3686679 . - . gene_id "ECDH10B_RS18420"; transcript_id ""; gbkey "Gene"; gene "ugpA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18420"; old_locus_tag "ECDH10B_3626"; -NC_010473.1 Protein Homology CDS 3685795 3686679 . - 0 gene_id "ECDH10B_RS18420"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ugpA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000099274.1"; locus_tag "ECDH10B_RS18420"; product "sn-glycerol-3-phosphate ABC transporter permease UgpA"; protein_id "WP_000099289.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3686677 3686679 . - 0 gene_id "ECDH10B_RS18420"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ugpA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000099274.1"; locus_tag "ECDH10B_RS18420"; product "sn-glycerol-3-phosphate ABC transporter permease UgpA"; protein_id "WP_000099289.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3685792 3685794 . - 0 gene_id "ECDH10B_RS18420"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ugpA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000099274.1"; locus_tag "ECDH10B_RS18420"; product "sn-glycerol-3-phosphate ABC transporter permease UgpA"; protein_id "WP_000099289.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3686777 3688093 . - . gene_id "ECDH10B_RS18425"; transcript_id ""; gbkey "Gene"; gene "ugpB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18425"; old_locus_tag "ECDH10B_3627"; -NC_010473.1 Protein Homology CDS 3686780 3688093 . - 0 gene_id "ECDH10B_RS18425"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ugpB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312326.1"; locus_tag "ECDH10B_RS18425"; product "sn-glycerol-3-phosphate ABC transporter substrate-binding protein UgpB"; protein_id "WP_000803190.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3688091 3688093 . - 0 gene_id "ECDH10B_RS18425"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ugpB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312326.1"; locus_tag "ECDH10B_RS18425"; product "sn-glycerol-3-phosphate ABC transporter substrate-binding protein UgpB"; protein_id "WP_000803190.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3686777 3686779 . - 0 gene_id "ECDH10B_RS18425"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ugpB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312326.1"; locus_tag "ECDH10B_RS18425"; product "sn-glycerol-3-phosphate ABC transporter substrate-binding protein UgpB"; protein_id "WP_000803190.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3688492 3689205 . - . gene_id "ECDH10B_RS18435"; transcript_id ""; gbkey "Gene"; gene "livF"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18435"; old_locus_tag "ECDH10B_3628"; -NC_010473.1 Protein Homology CDS 3688495 3689205 . - 0 gene_id "ECDH10B_RS18435"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "livF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417911.4"; locus_tag "ECDH10B_RS18435"; product "high-affinity branched-chain amino acid ABC transporter ATP-binding protein LivF"; protein_id "WP_000416891.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3689203 3689205 . - 0 gene_id "ECDH10B_RS18435"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "livF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417911.4"; locus_tag "ECDH10B_RS18435"; product "high-affinity branched-chain amino acid ABC transporter ATP-binding protein LivF"; protein_id "WP_000416891.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3688492 3688494 . - 0 gene_id "ECDH10B_RS18435"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "livF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417911.4"; locus_tag "ECDH10B_RS18435"; product "high-affinity branched-chain amino acid ABC transporter ATP-binding protein LivF"; protein_id "WP_000416891.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3689207 3689974 . - . gene_id "ECDH10B_RS18440"; transcript_id ""; gbkey "Gene"; gene "livG"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18440"; old_locus_tag "ECDH10B_3629"; -NC_010473.1 Protein Homology CDS 3689210 3689974 . - 0 gene_id "ECDH10B_RS18440"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "livG"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000084170.1"; locus_tag "ECDH10B_RS18440"; product "high-affinity branched-chain amino acid ABC transporter ATP-binding protein LivG"; protein_id "WP_000082101.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3689972 3689974 . - 0 gene_id "ECDH10B_RS18440"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "livG"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000084170.1"; locus_tag "ECDH10B_RS18440"; product "high-affinity branched-chain amino acid ABC transporter ATP-binding protein LivG"; protein_id "WP_000082101.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3689207 3689209 . - 0 gene_id "ECDH10B_RS18440"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "livG"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000084170.1"; locus_tag "ECDH10B_RS18440"; product "high-affinity branched-chain amino acid ABC transporter ATP-binding protein LivG"; protein_id "WP_000082101.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3689971 3691248 . - . gene_id "ECDH10B_RS18445"; transcript_id ""; gbkey "Gene"; gene "livM"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18445"; old_locus_tag "ECDH10B_3630"; -NC_010473.1 Protein Homology CDS 3689974 3691248 . - 0 gene_id "ECDH10B_RS18445"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "livM"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417913.1"; locus_tag "ECDH10B_RS18445"; product "branched chain amino acid ABC transporter permease LivM"; protein_id "WP_000803813.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3691246 3691248 . - 0 gene_id "ECDH10B_RS18445"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "livM"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417913.1"; locus_tag "ECDH10B_RS18445"; product "branched chain amino acid ABC transporter permease LivM"; protein_id "WP_000803813.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3689971 3689973 . - 0 gene_id "ECDH10B_RS18445"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "livM"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417913.1"; locus_tag "ECDH10B_RS18445"; product "branched chain amino acid ABC transporter permease LivM"; protein_id "WP_000803813.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3691245 3692171 . - . gene_id "ECDH10B_RS18450"; transcript_id ""; gbkey "Gene"; gene "livH"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18450"; old_locus_tag "ECDH10B_3631"; -NC_010473.1 Protein Homology CDS 3691248 3692171 . - 0 gene_id "ECDH10B_RS18450"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "livH"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_010436488.1"; locus_tag "ECDH10B_RS18450"; product "high-affinity branched-chain amino acid ABC transporter permease LivH"; protein_id "WP_001295111.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3692169 3692171 . - 0 gene_id "ECDH10B_RS18450"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "livH"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_010436488.1"; locus_tag "ECDH10B_RS18450"; product "high-affinity branched-chain amino acid ABC transporter permease LivH"; protein_id "WP_001295111.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3691245 3691247 . - 0 gene_id "ECDH10B_RS18450"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "livH"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_010436488.1"; locus_tag "ECDH10B_RS18450"; product "high-affinity branched-chain amino acid ABC transporter permease LivH"; protein_id "WP_001295111.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3692219 3693328 . - . gene_id "ECDH10B_RS18455"; transcript_id ""; gbkey "Gene"; gene "livK"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18455"; old_locus_tag "ECDH10B_3632"; -NC_010473.1 Protein Homology CDS 3692222 3693328 . - 0 gene_id "ECDH10B_RS18455"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "livK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417915.1"; locus_tag "ECDH10B_RS18455"; product "high-affinity branched-chain amino acid ABC transporter substrate-binding protein LivK"; protein_id "WP_000827696.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3693326 3693328 . - 0 gene_id "ECDH10B_RS18455"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "livK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417915.1"; locus_tag "ECDH10B_RS18455"; product "high-affinity branched-chain amino acid ABC transporter substrate-binding protein LivK"; protein_id "WP_000827696.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3692219 3692221 . - 0 gene_id "ECDH10B_RS18455"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "livK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417915.1"; locus_tag "ECDH10B_RS18455"; product "high-affinity branched-chain amino acid ABC transporter substrate-binding protein LivK"; protein_id "WP_000827696.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3693752 3694135 . + . gene_id "ECDH10B_RS18460"; transcript_id ""; gbkey "Gene"; gene "panM"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18460"; old_locus_tag "ECDH10B_3633"; -NC_010473.1 Protein Homology CDS 3693752 3694132 . + 0 gene_id "ECDH10B_RS18460"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "panM"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417916.1"; locus_tag "ECDH10B_RS18460"; product "aspartate 1-decarboxylase autocleavage activator PanM"; protein_id "WP_000778768.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3693752 3693754 . + 0 gene_id "ECDH10B_RS18460"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "panM"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417916.1"; locus_tag "ECDH10B_RS18460"; product "aspartate 1-decarboxylase autocleavage activator PanM"; protein_id "WP_000778768.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3694133 3694135 . + 0 gene_id "ECDH10B_RS18460"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "panM"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417916.1"; locus_tag "ECDH10B_RS18460"; product "aspartate 1-decarboxylase autocleavage activator PanM"; protein_id "WP_000778768.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3694323 3695426 . - . gene_id "ECDH10B_RS18470"; transcript_id ""; gbkey "Gene"; gene "livJ"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18470"; old_locus_tag "ECDH10B_3634"; -NC_010473.1 Protein Homology CDS 3694326 3695426 . - 0 gene_id "ECDH10B_RS18470"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "livJ"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026223.1"; locus_tag "ECDH10B_RS18470"; product "branched chain amino acid ABC transporter substrate-binding protein LivJ"; protein_id "WP_001021996.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3695424 3695426 . - 0 gene_id "ECDH10B_RS18470"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "livJ"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026223.1"; locus_tag "ECDH10B_RS18470"; product "branched chain amino acid ABC transporter substrate-binding protein LivJ"; protein_id "WP_001021996.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3694323 3694325 . - 0 gene_id "ECDH10B_RS18470"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "livJ"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026223.1"; locus_tag "ECDH10B_RS18470"; product "branched chain amino acid ABC transporter substrate-binding protein LivJ"; protein_id "WP_001021996.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3695697 3696551 . - . gene_id "ECDH10B_RS18475"; transcript_id ""; gbkey "Gene"; gene "rpoH"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18475"; old_locus_tag "ECDH10B_3635"; -NC_010473.1 Protein Homology CDS 3695700 3696551 . - 0 gene_id "ECDH10B_RS18475"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rpoH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312337.1"; locus_tag "ECDH10B_RS18475"; product "RNA polymerase sigma factor RpoH"; protein_id "WP_000130217.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3696549 3696551 . - 0 gene_id "ECDH10B_RS18475"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rpoH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312337.1"; locus_tag "ECDH10B_RS18475"; product "RNA polymerase sigma factor RpoH"; protein_id "WP_000130217.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3695697 3695699 . - 0 gene_id "ECDH10B_RS18475"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rpoH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312337.1"; locus_tag "ECDH10B_RS18475"; product "RNA polymerase sigma factor RpoH"; protein_id "WP_000130217.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3696796 3697854 . - . gene_id "ECDH10B_RS18480"; transcript_id ""; gbkey "Gene"; gene "ftsX"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18480"; old_locus_tag "ECDH10B_3636"; -NC_010473.1 Protein Homology CDS 3696799 3697854 . - 0 gene_id "ECDH10B_RS18480"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ftsX"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417919.1"; locus_tag "ECDH10B_RS18480"; product "cell division protein FtsX"; protein_id "WP_001042003.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3697852 3697854 . - 0 gene_id "ECDH10B_RS18480"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ftsX"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417919.1"; locus_tag "ECDH10B_RS18480"; product "cell division protein FtsX"; protein_id "WP_001042003.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3696796 3696798 . - 0 gene_id "ECDH10B_RS18480"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ftsX"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417919.1"; locus_tag "ECDH10B_RS18480"; product "cell division protein FtsX"; protein_id "WP_001042003.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3697847 3698515 . - . gene_id "ECDH10B_RS18485"; transcript_id ""; gbkey "Gene"; gene "ftsE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18485"; old_locus_tag "ECDH10B_3637"; -NC_010473.1 Protein Homology CDS 3697850 3698515 . - 0 gene_id "ECDH10B_RS18485"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ftsE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312339.1"; locus_tag "ECDH10B_RS18485"; product "cell division ATP-binding protein FtsE"; protein_id "WP_000617723.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3698513 3698515 . - 0 gene_id "ECDH10B_RS18485"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ftsE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312339.1"; locus_tag "ECDH10B_RS18485"; product "cell division ATP-binding protein FtsE"; protein_id "WP_000617723.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3697847 3697849 . - 0 gene_id "ECDH10B_RS18485"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ftsE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312339.1"; locus_tag "ECDH10B_RS18485"; product "cell division ATP-binding protein FtsE"; protein_id "WP_000617723.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3698518 3700011 . - . gene_id "ECDH10B_RS18490"; transcript_id ""; gbkey "Gene"; gene "ftsY"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18490"; old_locus_tag "ECDH10B_3638"; -NC_010473.1 Protein Homology CDS 3698521 3700011 . - 0 gene_id "ECDH10B_RS18490"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ftsY"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417921.1"; locus_tag "ECDH10B_RS18490"; product "signal recognition particle-docking protein FtsY"; protein_id "WP_001040654.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3700009 3700011 . - 0 gene_id "ECDH10B_RS18490"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ftsY"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417921.1"; locus_tag "ECDH10B_RS18490"; product "signal recognition particle-docking protein FtsY"; protein_id "WP_001040654.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3698518 3698520 . - 0 gene_id "ECDH10B_RS18490"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ftsY"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417921.1"; locus_tag "ECDH10B_RS18490"; product "signal recognition particle-docking protein FtsY"; protein_id "WP_001040654.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3700161 3700757 . + . gene_id "ECDH10B_RS18495"; transcript_id ""; gbkey "Gene"; gene "rsmD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18495"; old_locus_tag "ECDH10B_3639"; -NC_010473.1 Protein Homology CDS 3700161 3700754 . + 0 gene_id "ECDH10B_RS18495"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rsmD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417922.1"; locus_tag "ECDH10B_RS18495"; product "16S rRNA (guanine(966)-N(2))-methyltransferase"; protein_id "WP_000743193.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3700161 3700163 . + 0 gene_id "ECDH10B_RS18495"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rsmD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417922.1"; locus_tag "ECDH10B_RS18495"; product "16S rRNA (guanine(966)-N(2))-methyltransferase"; protein_id "WP_000743193.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3700755 3700757 . + 0 gene_id "ECDH10B_RS18495"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rsmD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417922.1"; locus_tag "ECDH10B_RS18495"; product "16S rRNA (guanine(966)-N(2))-methyltransferase"; protein_id "WP_000743193.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3700747 3701016 . + . gene_id "ECDH10B_RS18500"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18500"; old_locus_tag "ECDH10B_3640"; -NC_010473.1 Protein Homology CDS 3700747 3701013 . + 0 gene_id "ECDH10B_RS18500"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417923.1"; locus_tag "ECDH10B_RS18500"; product "DUF1145 family protein"; protein_id "WP_001311191.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3700747 3700749 . + 0 gene_id "ECDH10B_RS18500"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417923.1"; locus_tag "ECDH10B_RS18500"; product "DUF1145 family protein"; protein_id "WP_001311191.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3701014 3701016 . + 0 gene_id "ECDH10B_RS18500"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417923.1"; locus_tag "ECDH10B_RS18500"; product "DUF1145 family protein"; protein_id "WP_001311191.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3701019 3701378 . - . gene_id "ECDH10B_RS18505"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18505"; old_locus_tag "ECDH10B_3641"; -NC_010473.1 Protein Homology CDS 3701022 3701378 . - 0 gene_id "ECDH10B_RS18505"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417924.1"; locus_tag "ECDH10B_RS18505"; product "DUF2500 domain-containing protein"; protein_id "WP_000042895.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3701376 3701378 . - 0 gene_id "ECDH10B_RS18505"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417924.1"; locus_tag "ECDH10B_RS18505"; product "DUF2500 domain-containing protein"; protein_id "WP_000042895.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3701019 3701021 . - 0 gene_id "ECDH10B_RS18505"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417924.1"; locus_tag "ECDH10B_RS18505"; product "DUF2500 domain-containing protein"; protein_id "WP_000042895.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3701519 3702145 . + . gene_id "ECDH10B_RS18510"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18510"; old_locus_tag "ECDH10B_3642"; -NC_010473.1 Protein Homology CDS 3701519 3702142 . + 0 gene_id "ECDH10B_RS18510"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312344.1"; locus_tag "ECDH10B_RS18510"; product "lysoplasmalogenase"; protein_id "WP_000964718.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3701519 3701521 . + 0 gene_id "ECDH10B_RS18510"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312344.1"; locus_tag "ECDH10B_RS18510"; product "lysoplasmalogenase"; protein_id "WP_000964718.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3702143 3702145 . + 0 gene_id "ECDH10B_RS18510"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312344.1"; locus_tag "ECDH10B_RS18510"; product "lysoplasmalogenase"; protein_id "WP_000964718.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3702219 3704417 . + . gene_id "ECDH10B_RS18515"; transcript_id ""; gbkey "Gene"; gene "zntA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18515"; old_locus_tag "ECDH10B_3643"; -NC_010473.1 Protein Homology CDS 3702219 3704414 . + 0 gene_id "ECDH10B_RS18515"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "zntA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417926.1"; locus_tag "ECDH10B_RS18515"; product "Zn(II)/Cd(II)/Pb(II) translocating P-type ATPase ZntA"; protein_id "WP_000106551.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3702219 3702221 . + 0 gene_id "ECDH10B_RS18515"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "zntA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417926.1"; locus_tag "ECDH10B_RS18515"; product "Zn(II)/Cd(II)/Pb(II) translocating P-type ATPase ZntA"; protein_id "WP_000106551.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3704415 3704417 . + 0 gene_id "ECDH10B_RS18515"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "zntA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417926.1"; locus_tag "ECDH10B_RS18515"; product "Zn(II)/Cd(II)/Pb(II) translocating P-type ATPase ZntA"; protein_id "WP_000106551.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3704519 3704764 . - . gene_id "ECDH10B_RS18520"; transcript_id ""; gbkey "Gene"; gene "tusA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18520"; old_locus_tag "ECDH10B_3644"; -NC_010473.1 Protein Homology CDS 3704522 3704764 . - 0 gene_id "ECDH10B_RS18520"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tusA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312346.1"; locus_tag "ECDH10B_RS18520"; product "sulfurtransferase TusA"; protein_id "WP_000130621.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3704762 3704764 . - 0 gene_id "ECDH10B_RS18520"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tusA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312346.1"; locus_tag "ECDH10B_RS18520"; product "sulfurtransferase TusA"; protein_id "WP_000130621.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3704519 3704521 . - 0 gene_id "ECDH10B_RS18520"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tusA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312346.1"; locus_tag "ECDH10B_RS18520"; product "sulfurtransferase TusA"; protein_id "WP_000130621.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3704985 3705650 . + . gene_id "ECDH10B_RS18525"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18525"; old_locus_tag "ECDH10B_3645"; -NC_010473.1 Protein Homology CDS 3704985 3705647 . + 0 gene_id "ECDH10B_RS18525"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417928.1"; locus_tag "ECDH10B_RS18525"; product "7-cyano-7-deazaguanine/7-aminomethyl-7-deazaguanine transporter"; protein_id "WP_001100469.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3704985 3704987 . + 0 gene_id "ECDH10B_RS18525"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417928.1"; locus_tag "ECDH10B_RS18525"; product "7-cyano-7-deazaguanine/7-aminomethyl-7-deazaguanine transporter"; protein_id "WP_001100469.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3705648 3705650 . + 0 gene_id "ECDH10B_RS18525"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417928.1"; locus_tag "ECDH10B_RS18525"; product "7-cyano-7-deazaguanine/7-aminomethyl-7-deazaguanine transporter"; protein_id "WP_001100469.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3705723 3706280 . + . gene_id "ECDH10B_RS18530"; transcript_id ""; gbkey "Gene"; gene "dcrB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18530"; old_locus_tag "ECDH10B_3646"; -NC_010473.1 Protein Homology CDS 3705723 3706277 . + 0 gene_id "ECDH10B_RS18530"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dcrB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417929.4"; locus_tag "ECDH10B_RS18530"; product "phage sensitivity protein DcrB"; protein_id "WP_001245295.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3705723 3705725 . + 0 gene_id "ECDH10B_RS18530"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dcrB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417929.4"; locus_tag "ECDH10B_RS18530"; product "phage sensitivity protein DcrB"; protein_id "WP_001245295.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3706278 3706280 . + 0 gene_id "ECDH10B_RS18530"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dcrB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417929.4"; locus_tag "ECDH10B_RS18530"; product "phage sensitivity protein DcrB"; protein_id "WP_001245295.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3706284 3707501 . - . gene_id "ECDH10B_RS18535"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18535"; old_locus_tag "ECDH10B_3647"; -NC_010473.1 Protein Homology CDS 3706287 3707501 . - 0 gene_id "ECDH10B_RS18535"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417930.2"; locus_tag "ECDH10B_RS18535"; product "MFS transporter"; protein_id "WP_001300943.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3707499 3707501 . - 0 gene_id "ECDH10B_RS18535"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417930.2"; locus_tag "ECDH10B_RS18535"; product "MFS transporter"; protein_id "WP_001300943.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3706284 3706286 . - 0 gene_id "ECDH10B_RS18535"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417930.2"; locus_tag "ECDH10B_RS18535"; product "MFS transporter"; protein_id "WP_001300943.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3707633 3708682 . + . gene_id "ECDH10B_RS18540"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18540"; old_locus_tag "ECDH10B_3648"; -NC_010473.1 Protein Homology CDS 3707633 3708679 . + 0 gene_id "ECDH10B_RS18540"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312350.2"; locus_tag "ECDH10B_RS18540"; product "AI-2E family transporter"; protein_id "WP_001300885.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3707633 3707635 . + 0 gene_id "ECDH10B_RS18540"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312350.2"; locus_tag "ECDH10B_RS18540"; product "AI-2E family transporter"; protein_id "WP_001300885.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3708680 3708682 . + 0 gene_id "ECDH10B_RS18540"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312350.2"; locus_tag "ECDH10B_RS18540"; product "AI-2E family transporter"; protein_id "WP_001300885.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3708737 3709324 . + . gene_id "ECDH10B_RS18545"; transcript_id ""; gbkey "Gene"; gene "acpT"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18545"; old_locus_tag "ECDH10B_3649"; -NC_010473.1 Protein Homology CDS 3708737 3709321 . + 0 gene_id "ECDH10B_RS18545"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "acpT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417932.1"; locus_tag "ECDH10B_RS18545"; product "4'-phosphopantetheinyl transferase AcpT"; protein_id "WP_000285774.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3708737 3708739 . + 0 gene_id "ECDH10B_RS18545"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "acpT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417932.1"; locus_tag "ECDH10B_RS18545"; product "4'-phosphopantetheinyl transferase AcpT"; protein_id "WP_000285774.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3709322 3709324 . + 0 gene_id "ECDH10B_RS18545"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "acpT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417932.1"; locus_tag "ECDH10B_RS18545"; product "4'-phosphopantetheinyl transferase AcpT"; protein_id "WP_000285774.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3709435 3711009 . + . gene_id "ECDH10B_RS18550"; transcript_id ""; gbkey "Gene"; gene "nikA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18550"; old_locus_tag "ECDH10B_3650"; -NC_010473.1 Protein Homology CDS 3709435 3711006 . + 0 gene_id "ECDH10B_RS18550"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nikA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417933.1"; locus_tag "ECDH10B_RS18550"; product "nickel ABC transporter, nickel/metallophore periplasmic binding protein"; protein_id "WP_000953361.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3709435 3709437 . + 0 gene_id "ECDH10B_RS18550"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nikA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417933.1"; locus_tag "ECDH10B_RS18550"; product "nickel ABC transporter, nickel/metallophore periplasmic binding protein"; protein_id "WP_000953361.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3711007 3711009 . + 0 gene_id "ECDH10B_RS18550"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nikA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417933.1"; locus_tag "ECDH10B_RS18550"; product "nickel ABC transporter, nickel/metallophore periplasmic binding protein"; protein_id "WP_000953361.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3711009 3711953 . + . gene_id "ECDH10B_RS18555"; transcript_id ""; gbkey "Gene"; gene "nikB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18555"; old_locus_tag "ECDH10B_3651"; -NC_010473.1 Protein Homology CDS 3711009 3711950 . + 0 gene_id "ECDH10B_RS18555"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nikB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417934.1"; locus_tag "ECDH10B_RS18555"; product "nickel ABC transporter permease subunit NikB"; protein_id "WP_000947068.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3711009 3711011 . + 0 gene_id "ECDH10B_RS18555"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nikB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417934.1"; locus_tag "ECDH10B_RS18555"; product "nickel ABC transporter permease subunit NikB"; protein_id "WP_000947068.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3711951 3711953 . + 0 gene_id "ECDH10B_RS18555"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nikB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417934.1"; locus_tag "ECDH10B_RS18555"; product "nickel ABC transporter permease subunit NikB"; protein_id "WP_000947068.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3711950 3712783 . + . gene_id "ECDH10B_RS18560"; transcript_id ""; gbkey "Gene"; gene "nikC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18560"; old_locus_tag "ECDH10B_3652"; -NC_010473.1 Protein Homology CDS 3711950 3712780 . + 0 gene_id "ECDH10B_RS18560"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nikC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312372.1"; locus_tag "ECDH10B_RS18560"; product "nickel ABC transporter permease subunit NikC"; protein_id "WP_001008963.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3711950 3711952 . + 0 gene_id "ECDH10B_RS18560"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nikC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312372.1"; locus_tag "ECDH10B_RS18560"; product "nickel ABC transporter permease subunit NikC"; protein_id "WP_001008963.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3712781 3712783 . + 0 gene_id "ECDH10B_RS18560"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nikC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312372.1"; locus_tag "ECDH10B_RS18560"; product "nickel ABC transporter permease subunit NikC"; protein_id "WP_001008963.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3712783 3713547 . + . gene_id "ECDH10B_RS18565"; transcript_id ""; gbkey "Gene"; gene "nikD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18565"; old_locus_tag "ECDH10B_3653"; -NC_010473.1 Protein Homology CDS 3712783 3713544 . + 0 gene_id "ECDH10B_RS18565"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nikD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417936.1"; locus_tag "ECDH10B_RS18565"; product "nickel import ATP-binding protein NikD"; protein_id "WP_001136229.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3712783 3712785 . + 0 gene_id "ECDH10B_RS18565"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nikD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417936.1"; locus_tag "ECDH10B_RS18565"; product "nickel import ATP-binding protein NikD"; protein_id "WP_001136229.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3713545 3713547 . + 0 gene_id "ECDH10B_RS18565"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nikD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417936.1"; locus_tag "ECDH10B_RS18565"; product "nickel import ATP-binding protein NikD"; protein_id "WP_001136229.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3713544 3714350 . + . gene_id "ECDH10B_RS18570"; transcript_id ""; gbkey "Gene"; gene "nikE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18570"; old_locus_tag "ECDH10B_3654"; -NC_010473.1 Protein Homology CDS 3713544 3714347 . + 0 gene_id "ECDH10B_RS18570"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nikE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417937.1"; locus_tag "ECDH10B_RS18570"; product "nickel import ATP-binding protein NikE"; protein_id "WP_000173631.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3713544 3713546 . + 0 gene_id "ECDH10B_RS18570"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nikE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417937.1"; locus_tag "ECDH10B_RS18570"; product "nickel import ATP-binding protein NikE"; protein_id "WP_000173631.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3714348 3714350 . + 0 gene_id "ECDH10B_RS18570"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nikE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417937.1"; locus_tag "ECDH10B_RS18570"; product "nickel import ATP-binding protein NikE"; protein_id "WP_000173631.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3714356 3714757 . + . gene_id "ECDH10B_RS18575"; transcript_id ""; gbkey "Gene"; gene "nikR"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18575"; old_locus_tag "ECDH10B_3655"; -NC_010473.1 Protein Homology CDS 3714356 3714754 . + 0 gene_id "ECDH10B_RS18575"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nikR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312375.1"; locus_tag "ECDH10B_RS18575"; product "nickel-responsive transcriptional regulator NikR"; protein_id "WP_001190062.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3714356 3714358 . + 0 gene_id "ECDH10B_RS18575"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nikR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312375.1"; locus_tag "ECDH10B_RS18575"; product "nickel-responsive transcriptional regulator NikR"; protein_id "WP_001190062.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3714755 3714757 . + 0 gene_id "ECDH10B_RS18575"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nikR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312375.1"; locus_tag "ECDH10B_RS18575"; product "nickel-responsive transcriptional regulator NikR"; protein_id "WP_001190062.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3714960 3719195 . + . gene_id "ECDH10B_RS18580"; transcript_id ""; gbkey "Gene"; gene "rhsB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18580"; old_locus_tag "ECDH10B_3656"; -NC_010473.1 Protein Homology CDS 3714960 3719192 . + 0 gene_id "ECDH10B_RS18580"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rhsB"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026224.1"; locus_tag "ECDH10B_RS18580"; product "rhs element protein RhsB"; protein_id "WP_000015298.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3714960 3714962 . + 0 gene_id "ECDH10B_RS18580"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rhsB"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026224.1"; locus_tag "ECDH10B_RS18580"; product "rhs element protein RhsB"; protein_id "WP_000015298.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3719193 3719195 . + 0 gene_id "ECDH10B_RS18580"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rhsB"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026224.1"; locus_tag "ECDH10B_RS18580"; product "rhs element protein RhsB"; protein_id "WP_000015298.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3719167 3719550 . + . gene_id "ECDH10B_RS18585"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18585"; old_locus_tag "ECDH10B_3657"; -NC_010473.1 Protein Homology CDS 3719167 3719547 . + 0 gene_id "ECDH10B_RS18585"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417940.2"; locus_tag "ECDH10B_RS18585"; product "protein YhhH"; protein_id "WP_001271686.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3719167 3719169 . + 0 gene_id "ECDH10B_RS18585"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417940.2"; locus_tag "ECDH10B_RS18585"; product "protein YhhH"; protein_id "WP_001271686.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3719548 3719550 . + 0 gene_id "ECDH10B_RS18585"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417940.2"; locus_tag "ECDH10B_RS18585"; product "protein YhhH"; protein_id "WP_001271686.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3719640 3719900 . + . gene_id "ECDH10B_RS18590"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18590"; old_locus_tag "ECDH10B_3658"; -NC_010473.1 Protein Homology CDS 3719640 3719897 . + 0 gene_id "ECDH10B_RS18590"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001334888.1"; locus_tag "ECDH10B_RS18590"; product "hypothetical protein"; protein_id "WP_000453654.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3719640 3719642 . + 0 gene_id "ECDH10B_RS18590"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001334888.1"; locus_tag "ECDH10B_RS18590"; product "hypothetical protein"; protein_id "WP_000453654.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3719898 3719900 . + 0 gene_id "ECDH10B_RS18590"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001334888.1"; locus_tag "ECDH10B_RS18590"; product "hypothetical protein"; protein_id "WP_000453654.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3720146 3721282 . + . gene_id "ECDH10B_RS18595"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18595"; old_locus_tag "ECDH10B_3659"; -NC_010473.1 Protein Homology CDS 3720146 3721279 . + 0 gene_id "ECDH10B_RS18595"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000420980.1"; locus_tag "ECDH10B_RS18595"; product "ISAs1-like element ISEc1 family transposase"; protein_id "WP_000420980.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3720146 3720148 . + 0 gene_id "ECDH10B_RS18595"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000420980.1"; locus_tag "ECDH10B_RS18595"; product "ISAs1-like element ISEc1 family transposase"; protein_id "WP_000420980.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3721280 3721282 . + 0 gene_id "ECDH10B_RS18595"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000420980.1"; locus_tag "ECDH10B_RS18595"; product "ISAs1-like element ISEc1 family transposase"; protein_id "WP_000420980.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3721447 3722571 . - . gene_id "ECDH10B_RS18600"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18600"; old_locus_tag "ECDH10B_3660"; -NC_010473.1 Protein Homology CDS 3721450 3722571 . - 0 gene_id "ECDH10B_RS18600"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_709253.2"; locus_tag "ECDH10B_RS18600"; product "ABC transporter permease"; protein_id "WP_001216257.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3722569 3722571 . - 0 gene_id "ECDH10B_RS18600"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_709253.2"; locus_tag "ECDH10B_RS18600"; product "ABC transporter permease"; protein_id "WP_001216257.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3721447 3721449 . - 0 gene_id "ECDH10B_RS18600"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_709253.2"; locus_tag "ECDH10B_RS18600"; product "ABC transporter permease"; protein_id "WP_001216257.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3722571 3725306 . - . gene_id "ECDH10B_RS18605"; transcript_id ""; gbkey "Gene"; gene "rbbA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18605"; old_locus_tag "ECDH10B_3661"; -NC_010473.1 Protein Homology CDS 3722574 3725306 . - 0 gene_id "ECDH10B_RS18605"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rbbA"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026225.1"; locus_tag "ECDH10B_RS18605"; product "ribosome-associated ATPase/putative transporter RbbA"; protein_id "WP_000149156.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3725304 3725306 . - 0 gene_id "ECDH10B_RS18605"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rbbA"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026225.1"; locus_tag "ECDH10B_RS18605"; product "ribosome-associated ATPase/putative transporter RbbA"; protein_id "WP_000149156.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3722571 3722573 . - 0 gene_id "ECDH10B_RS18605"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rbbA"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026225.1"; locus_tag "ECDH10B_RS18605"; product "ribosome-associated ATPase/putative transporter RbbA"; protein_id "WP_000149156.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3725303 3726370 . - . gene_id "ECDH10B_RS18610"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18610"; -NC_010473.1 Protein Homology CDS 3725306 3726370 . - 0 gene_id "ECDH10B_RS18610"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417944.1"; locus_tag "ECDH10B_RS18610"; product "HlyD family secretion protein"; protein_id "WP_000361478.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3726368 3726370 . - 0 gene_id "ECDH10B_RS18610"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417944.1"; locus_tag "ECDH10B_RS18610"; product "HlyD family secretion protein"; protein_id "WP_000361478.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3725303 3725305 . - 0 gene_id "ECDH10B_RS18610"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417944.1"; locus_tag "ECDH10B_RS18610"; product "HlyD family secretion protein"; protein_id "WP_000361478.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3726736 3728358 . - . gene_id "ECDH10B_RS18615"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18615"; old_locus_tag "ECDH10B_3663"; -NC_010473.1 Protein Homology CDS 3726739 3728358 . - 0 gene_id "ECDH10B_RS18615"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417945.1"; locus_tag "ECDH10B_RS18615"; product "YhiJ/YhiL family protein"; protein_id "WP_001393583.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3728356 3728358 . - 0 gene_id "ECDH10B_RS18615"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417945.1"; locus_tag "ECDH10B_RS18615"; product "YhiJ/YhiL family protein"; protein_id "WP_001393583.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3726736 3726738 . - 0 gene_id "ECDH10B_RS18615"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417945.1"; locus_tag "ECDH10B_RS18615"; product "YhiJ/YhiL family protein"; protein_id "WP_001393583.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3728620 3730226 . - . gene_id "ECDH10B_RS18620"; transcript_id ""; gbkey "Gene"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS18620"; old_locus_tag "ECDH10B_3666"; pseudo "true"; -NC_010473.1 Protein Homology CDS 3728623 3730226 . - 0 gene_id "ECDH10B_RS18620"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_016248132.1"; locus_tag "ECDH10B_RS18620"; note "frameshifted"; product "YhiJ/YhiL family protein"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3730224 3730226 . - 0 gene_id "ECDH10B_RS18620"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_016248132.1"; locus_tag "ECDH10B_RS18620"; note "frameshifted"; product "YhiJ/YhiL family protein"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3728620 3728622 . - 0 gene_id "ECDH10B_RS18620"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_016248132.1"; locus_tag "ECDH10B_RS18620"; note "frameshifted"; product "YhiJ/YhiL family protein"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 3730609 3731661 . + . gene_id "ECDH10B_RS18635"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18635"; old_locus_tag "ECDH10B_3667"; -NC_010473.1 Protein Homology CDS 3730609 3731658 . + 0 gene_id "ECDH10B_RS18635"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417948.4"; locus_tag "ECDH10B_RS18635"; product "DUF2776 domain-containing protein"; protein_id "WP_001028905.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3730609 3730611 . + 0 gene_id "ECDH10B_RS18635"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417948.4"; locus_tag "ECDH10B_RS18635"; product "DUF2776 domain-containing protein"; protein_id "WP_001028905.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3731659 3731661 . + 0 gene_id "ECDH10B_RS18635"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417948.4"; locus_tag "ECDH10B_RS18635"; product "DUF2776 domain-containing protein"; protein_id "WP_001028905.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3731976 3733178 . - . gene_id "ECDH10B_RS18640"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18640"; old_locus_tag "ECDH10B_3668"; -NC_010473.1 Protein Homology CDS 3731979 3733178 . - 0 gene_id "ECDH10B_RS18640"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417949.1"; locus_tag "ECDH10B_RS18640"; product "NAD(P)/FAD-dependent oxidoreductase"; protein_id "WP_000439170.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3733176 3733178 . - 0 gene_id "ECDH10B_RS18640"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417949.1"; locus_tag "ECDH10B_RS18640"; product "NAD(P)/FAD-dependent oxidoreductase"; protein_id "WP_000439170.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3731976 3731978 . - 0 gene_id "ECDH10B_RS18640"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417949.1"; locus_tag "ECDH10B_RS18640"; product "NAD(P)/FAD-dependent oxidoreductase"; protein_id "WP_000439170.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3733410 3734909 . + . gene_id "ECDH10B_RS18645"; transcript_id ""; gbkey "Gene"; gene "pitA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18645"; old_locus_tag "ECDH10B_3669"; -NC_010473.1 Protein Homology CDS 3733410 3734906 . + 0 gene_id "ECDH10B_RS18645"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pitA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312392.1"; locus_tag "ECDH10B_RS18645"; product "inorganic phosphate transporter PitA"; protein_id "WP_000902780.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3733410 3733412 . + 0 gene_id "ECDH10B_RS18645"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pitA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312392.1"; locus_tag "ECDH10B_RS18645"; product "inorganic phosphate transporter PitA"; protein_id "WP_000902780.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3734907 3734909 . + 0 gene_id "ECDH10B_RS18645"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pitA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312392.1"; locus_tag "ECDH10B_RS18645"; product "inorganic phosphate transporter PitA"; protein_id "WP_000902780.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3735153 3735488 . - . gene_id "ECDH10B_RS18650"; transcript_id ""; gbkey "Gene"; gene "uspB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18650"; old_locus_tag "ECDH10B_3670"; -NC_010473.1 Protein Homology CDS 3735156 3735488 . - 0 gene_id "ECDH10B_RS18650"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "uspB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312393.1"; locus_tag "ECDH10B_RS18650"; product "universal stress protein UspB"; protein_id "WP_000626187.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3735486 3735488 . - 0 gene_id "ECDH10B_RS18650"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "uspB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312393.1"; locus_tag "ECDH10B_RS18650"; product "universal stress protein UspB"; protein_id "WP_000626187.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3735153 3735155 . - 0 gene_id "ECDH10B_RS18650"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "uspB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312393.1"; locus_tag "ECDH10B_RS18650"; product "universal stress protein UspB"; protein_id "WP_000626187.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3735879 3736313 . + . gene_id "ECDH10B_RS18655"; transcript_id ""; gbkey "Gene"; gene "uspA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18655"; old_locus_tag "ECDH10B_3671"; -NC_010473.1 Protein Homology CDS 3735879 3736310 . + 0 gene_id "ECDH10B_RS18655"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "uspA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312394.1"; locus_tag "ECDH10B_RS18655"; product "universal stress protein UspA"; protein_id "WP_000323571.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3735879 3735881 . + 0 gene_id "ECDH10B_RS18655"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "uspA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312394.1"; locus_tag "ECDH10B_RS18655"; product "universal stress protein UspA"; protein_id "WP_000323571.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3736311 3736313 . + 0 gene_id "ECDH10B_RS18655"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "uspA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312394.1"; locus_tag "ECDH10B_RS18655"; product "universal stress protein UspA"; protein_id "WP_000323571.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3736630 3738099 . + . gene_id "ECDH10B_RS18660"; transcript_id ""; gbkey "Gene"; gene "dtpB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18660"; old_locus_tag "ECDH10B_3672"; -NC_010473.1 Protein Homology CDS 3736630 3738096 . + 0 gene_id "ECDH10B_RS18660"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dtpB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417953.1"; locus_tag "ECDH10B_RS18660"; product "dipeptide/tripeptide permease DtpB"; protein_id "WP_001098652.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3736630 3736632 . + 0 gene_id "ECDH10B_RS18660"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dtpB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417953.1"; locus_tag "ECDH10B_RS18660"; product "dipeptide/tripeptide permease DtpB"; protein_id "WP_001098652.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3738097 3738099 . + 0 gene_id "ECDH10B_RS18660"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dtpB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417953.1"; locus_tag "ECDH10B_RS18660"; product "dipeptide/tripeptide permease DtpB"; protein_id "WP_001098652.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3738148 3738900 . - . gene_id "ECDH10B_RS18665"; transcript_id ""; gbkey "Gene"; gene "rsmJ"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18665"; old_locus_tag "ECDH10B_3673"; -NC_010473.1 Protein Homology CDS 3738151 3738900 . - 0 gene_id "ECDH10B_RS18665"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rsmJ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312396.1"; locus_tag "ECDH10B_RS18665"; product "16S rRNA (guanine(1516)-N(2))-methyltransferase RsmJ"; protein_id "WP_000686620.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3738898 3738900 . - 0 gene_id "ECDH10B_RS18665"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rsmJ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312396.1"; locus_tag "ECDH10B_RS18665"; product "16S rRNA (guanine(1516)-N(2))-methyltransferase RsmJ"; protein_id "WP_000686620.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3738148 3738150 . - 0 gene_id "ECDH10B_RS18665"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rsmJ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312396.1"; locus_tag "ECDH10B_RS18665"; product "16S rRNA (guanine(1516)-N(2))-methyltransferase RsmJ"; protein_id "WP_000686620.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3738908 3740950 . - . gene_id "ECDH10B_RS18670"; transcript_id ""; gbkey "Gene"; gene "prlC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18670"; old_locus_tag "ECDH10B_3674"; -NC_010473.1 Protein Homology CDS 3738911 3740950 . - 0 gene_id "ECDH10B_RS18670"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "prlC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417955.1"; locus_tag "ECDH10B_RS18670"; product "oligopeptidase A"; protein_id "WP_001298719.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3740948 3740950 . - 0 gene_id "ECDH10B_RS18670"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "prlC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417955.1"; locus_tag "ECDH10B_RS18670"; product "oligopeptidase A"; protein_id "WP_001298719.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3738908 3738910 . - 0 gene_id "ECDH10B_RS18670"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "prlC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417955.1"; locus_tag "ECDH10B_RS18670"; product "oligopeptidase A"; protein_id "WP_001298719.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3741153 3741995 . + . gene_id "ECDH10B_RS18675"; transcript_id ""; gbkey "Gene"; gene "rlmJ"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18675"; old_locus_tag "ECDH10B_3675"; -NC_010473.1 Protein Homology CDS 3741153 3741992 . + 0 gene_id "ECDH10B_RS18675"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rlmJ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417956.1"; locus_tag "ECDH10B_RS18675"; product "23S rRNA (adenine(2030)-N(6))-methyltransferase"; protein_id "WP_001300574.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3741153 3741155 . + 0 gene_id "ECDH10B_RS18675"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rlmJ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417956.1"; locus_tag "ECDH10B_RS18675"; product "23S rRNA (adenine(2030)-N(6))-methyltransferase"; protein_id "WP_001300574.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3741993 3741995 . + 0 gene_id "ECDH10B_RS18675"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rlmJ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417956.1"; locus_tag "ECDH10B_RS18675"; product "23S rRNA (adenine(2030)-N(6))-methyltransferase"; protein_id "WP_001300574.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3742067 3743419 . + . gene_id "ECDH10B_RS18680"; transcript_id ""; gbkey "Gene"; gene "gorA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18680"; old_locus_tag "ECDH10B_3676"; -NC_010473.1 Protein Homology CDS 3742067 3743416 . + 0 gene_id "ECDH10B_RS18680"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gorA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_003861215.1"; locus_tag "ECDH10B_RS18680"; product "glutathione-disulfide reductase"; protein_id "WP_000160816.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3742067 3742069 . + 0 gene_id "ECDH10B_RS18680"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gorA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_003861215.1"; locus_tag "ECDH10B_RS18680"; product "glutathione-disulfide reductase"; protein_id "WP_000160816.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3743417 3743419 . + 0 gene_id "ECDH10B_RS18680"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gorA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_003861215.1"; locus_tag "ECDH10B_RS18680"; product "glutathione-disulfide reductase"; protein_id "WP_000160816.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3743473 3743556 . - . gene_id "ECDH10B_RS18685"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18685"; -NC_010473.1 Protein Homology CDS 3743476 3743556 . - 0 gene_id "ECDH10B_RS18685"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_001165328.2"; locus_tag "ECDH10B_RS18685"; product "hypothetical protein"; protein_id "WP_001295215.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3743554 3743556 . - 0 gene_id "ECDH10B_RS18685"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_001165328.2"; locus_tag "ECDH10B_RS18685"; product "hypothetical protein"; protein_id "WP_001295215.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3743473 3743475 . - 0 gene_id "ECDH10B_RS18685"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_001165328.2"; locus_tag "ECDH10B_RS18685"; product "hypothetical protein"; protein_id "WP_001295215.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3744296 3744649 . + . gene_id "ECDH10B_RS18695"; transcript_id ""; gbkey "Gene"; gene "arsR"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18695"; old_locus_tag "ECDH10B_3677"; -NC_010473.1 Protein Homology CDS 3744296 3744646 . + 0 gene_id "ECDH10B_RS18695"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "arsR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417958.1"; locus_tag "ECDH10B_RS18695"; product "As(III)-sensing metalloregulatory transcriptional repressor ArsR"; protein_id "WP_000008957.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3744296 3744298 . + 0 gene_id "ECDH10B_RS18695"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "arsR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417958.1"; locus_tag "ECDH10B_RS18695"; product "As(III)-sensing metalloregulatory transcriptional repressor ArsR"; protein_id "WP_000008957.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3744647 3744649 . + 0 gene_id "ECDH10B_RS18695"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "arsR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417958.1"; locus_tag "ECDH10B_RS18695"; product "As(III)-sensing metalloregulatory transcriptional repressor ArsR"; protein_id "WP_000008957.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3744703 3745992 . + . gene_id "ECDH10B_RS18700"; transcript_id ""; gbkey "Gene"; gene "arsB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18700"; old_locus_tag "ECDH10B_3678"; -NC_010473.1 Protein Homology CDS 3744703 3745989 . + 0 gene_id "ECDH10B_RS18700"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "arsB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312401.1"; locus_tag "ECDH10B_RS18700"; product "arsenite/antimonite:H(+) antiporter ArsB"; protein_id "WP_000922639.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3744703 3744705 . + 0 gene_id "ECDH10B_RS18700"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "arsB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312401.1"; locus_tag "ECDH10B_RS18700"; product "arsenite/antimonite:H(+) antiporter ArsB"; protein_id "WP_000922639.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3745990 3745992 . + 0 gene_id "ECDH10B_RS18700"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "arsB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312401.1"; locus_tag "ECDH10B_RS18700"; product "arsenite/antimonite:H(+) antiporter ArsB"; protein_id "WP_000922639.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3746005 3746430 . + . gene_id "ECDH10B_RS18705"; transcript_id ""; gbkey "Gene"; gene "arsC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18705"; old_locus_tag "ECDH10B_3679"; -NC_010473.1 Protein Homology CDS 3746005 3746427 . + 0 gene_id "ECDH10B_RS18705"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "arsC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417960.1"; locus_tag "ECDH10B_RS18705"; product "glutaredoxin-dependent arsenate reductase"; protein_id "WP_000065769.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3746005 3746007 . + 0 gene_id "ECDH10B_RS18705"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "arsC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417960.1"; locus_tag "ECDH10B_RS18705"; product "glutaredoxin-dependent arsenate reductase"; protein_id "WP_000065769.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3746428 3746430 . + 0 gene_id "ECDH10B_RS18705"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "arsC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417960.1"; locus_tag "ECDH10B_RS18705"; product "glutaredoxin-dependent arsenate reductase"; protein_id "WP_000065769.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3747059 3747841 . + . gene_id "ECDH10B_RS18710"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18710"; old_locus_tag "ECDH10B_3680"; -NC_010473.1 Protein Homology CDS 3747059 3747838 . + 0 gene_id "ECDH10B_RS18710"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005058761.1"; locus_tag "ECDH10B_RS18710"; product "hypothetical protein"; protein_id "WP_000020601.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3747059 3747061 . + 0 gene_id "ECDH10B_RS18710"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005058761.1"; locus_tag "ECDH10B_RS18710"; product "hypothetical protein"; protein_id "WP_000020601.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3747839 3747841 . + 0 gene_id "ECDH10B_RS18710"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005058761.1"; locus_tag "ECDH10B_RS18710"; product "hypothetical protein"; protein_id "WP_000020601.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3747950 3748966 . - . gene_id "ECDH10B_RS18715"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18715"; old_locus_tag "ECDH10B_3681"; -NC_010473.1 Protein Homology CDS 3747953 3748966 . - 0 gene_id "ECDH10B_RS18715"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414793.1"; locus_tag "ECDH10B_RS18715"; product "IS5-like element IS5 family transposase"; protein_id "WP_010723085.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3748964 3748966 . - 0 gene_id "ECDH10B_RS18715"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414793.1"; locus_tag "ECDH10B_RS18715"; product "IS5-like element IS5 family transposase"; protein_id "WP_010723085.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3747950 3747952 . - 0 gene_id "ECDH10B_RS18715"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_414793.1"; locus_tag "ECDH10B_RS18715"; product "IS5-like element IS5 family transposase"; protein_id "WP_010723085.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3748996 3749374 . + . gene_id "ECDH10B_RS18720"; transcript_id ""; gbkey "Gene"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS18720"; partial "true"; pseudo "true"; -NC_010473.1 Protein Homology CDS 3748996 3749371 . + 0 gene_id "ECDH10B_RS18720"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312403.1"; locus_tag "ECDH10B_RS18720"; note "frameshifted; incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "hypothetical protein"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3748996 3748998 . + 0 gene_id "ECDH10B_RS18720"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312403.1"; locus_tag "ECDH10B_RS18720"; note "frameshifted; incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "hypothetical protein"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3749372 3749374 . + 0 gene_id "ECDH10B_RS18720"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312403.1"; locus_tag "ECDH10B_RS18720"; note "frameshifted; incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "hypothetical protein"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 3749729 3750295 . + . gene_id "ECDH10B_RS18725"; transcript_id ""; gbkey "Gene"; gene "slp"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18725"; old_locus_tag "ECDH10B_3682"; -NC_010473.1 Protein Homology CDS 3749729 3750292 . + 0 gene_id "ECDH10B_RS18725"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "slp"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417963.4"; locus_tag "ECDH10B_RS18725"; product "outer membrane lipoprotein Slp"; protein_id "WP_001350553.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3749729 3749731 . + 0 gene_id "ECDH10B_RS18725"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "slp"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417963.4"; locus_tag "ECDH10B_RS18725"; product "outer membrane lipoprotein Slp"; protein_id "WP_001350553.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3750293 3750295 . + 0 gene_id "ECDH10B_RS18725"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "slp"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417963.4"; locus_tag "ECDH10B_RS18725"; product "outer membrane lipoprotein Slp"; protein_id "WP_001350553.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3750451 3750981 . + . gene_id "ECDH10B_RS18730"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18730"; old_locus_tag "ECDH10B_3683"; -NC_010473.1 Protein Homology CDS 3750451 3750978 . + 0 gene_id "ECDH10B_RS18730"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417964.1"; locus_tag "ECDH10B_RS18730"; product "helix-turn-helix transcriptional regulator"; protein_id "WP_000478619.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3750451 3750453 . + 0 gene_id "ECDH10B_RS18730"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417964.1"; locus_tag "ECDH10B_RS18730"; product "helix-turn-helix transcriptional regulator"; protein_id "WP_000478619.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3750979 3750981 . + 0 gene_id "ECDH10B_RS18730"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417964.1"; locus_tag "ECDH10B_RS18730"; product "helix-turn-helix transcriptional regulator"; protein_id "WP_000478619.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3751023 3751670 . - . gene_id "ECDH10B_RS18735"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18735"; old_locus_tag "ECDH10B_3684"; -NC_010473.1 Protein Homology CDS 3751026 3751670 . - 0 gene_id "ECDH10B_RS18735"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417965.1"; locus_tag "ECDH10B_RS18735"; product "MgtC/SapB family protein"; protein_id "WP_001296814.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3751668 3751670 . - 0 gene_id "ECDH10B_RS18735"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417965.1"; locus_tag "ECDH10B_RS18735"; product "MgtC/SapB family protein"; protein_id "WP_001296814.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3751023 3751025 . - 0 gene_id "ECDH10B_RS18735"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417965.1"; locus_tag "ECDH10B_RS18735"; product "MgtC/SapB family protein"; protein_id "WP_001296814.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3751734 3752060 . - . gene_id "ECDH10B_RS18740"; transcript_id ""; gbkey "Gene"; gene "hdeB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18740"; old_locus_tag "ECDH10B_3685"; -NC_010473.1 Protein Homology CDS 3751737 3752060 . - 0 gene_id "ECDH10B_RS18740"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hdeB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417966.4"; locus_tag "ECDH10B_RS18740"; product "acid-activated periplasmic chaperone HdeB"; protein_id "WP_001298717.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3752058 3752060 . - 0 gene_id "ECDH10B_RS18740"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hdeB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417966.4"; locus_tag "ECDH10B_RS18740"; product "acid-activated periplasmic chaperone HdeB"; protein_id "WP_001298717.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3751734 3751736 . - 0 gene_id "ECDH10B_RS18740"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hdeB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417966.4"; locus_tag "ECDH10B_RS18740"; product "acid-activated periplasmic chaperone HdeB"; protein_id "WP_001298717.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3752176 3752508 . - . gene_id "ECDH10B_RS18745"; transcript_id ""; gbkey "Gene"; gene "hdeA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18745"; old_locus_tag "ECDH10B_3686"; -NC_010473.1 Protein Homology CDS 3752179 3752508 . - 0 gene_id "ECDH10B_RS18745"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hdeA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312417.1"; locus_tag "ECDH10B_RS18745"; product "acid-activated periplasmic chaperone HdeA"; protein_id "WP_000756550.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3752506 3752508 . - 0 gene_id "ECDH10B_RS18745"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hdeA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312417.1"; locus_tag "ECDH10B_RS18745"; product "acid-activated periplasmic chaperone HdeA"; protein_id "WP_000756550.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3752176 3752178 . - 0 gene_id "ECDH10B_RS18745"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hdeA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312417.1"; locus_tag "ECDH10B_RS18745"; product "acid-activated periplasmic chaperone HdeA"; protein_id "WP_000756550.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3752763 3753335 . + . gene_id "ECDH10B_RS18750"; transcript_id ""; gbkey "Gene"; gene "hdeD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18750"; old_locus_tag "ECDH10B_3687"; -NC_010473.1 Protein Homology CDS 3752763 3753332 . + 0 gene_id "ECDH10B_RS18750"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hdeD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312418.1"; locus_tag "ECDH10B_RS18750"; product "acid-resistance protein HdeD"; protein_id "WP_000965672.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3752763 3752765 . + 0 gene_id "ECDH10B_RS18750"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hdeD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312418.1"; locus_tag "ECDH10B_RS18750"; product "acid-resistance protein HdeD"; protein_id "WP_000965672.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3753333 3753335 . + 0 gene_id "ECDH10B_RS18750"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hdeD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312418.1"; locus_tag "ECDH10B_RS18750"; product "acid-resistance protein HdeD"; protein_id "WP_000965672.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3754134 3754661 . + . gene_id "ECDH10B_RS18755"; transcript_id ""; gbkey "Gene"; gene "gadE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18755"; old_locus_tag "ECDH10B_3688"; -NC_010473.1 Protein Homology CDS 3754134 3754658 . + 0 gene_id "ECDH10B_RS18755"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gadE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312419.1"; locus_tag "ECDH10B_RS18755"; product "acid resistance transcriptional activator GadE"; protein_id "WP_000576690.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3754134 3754136 . + 0 gene_id "ECDH10B_RS18755"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gadE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312419.1"; locus_tag "ECDH10B_RS18755"; product "acid resistance transcriptional activator GadE"; protein_id "WP_000576690.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3754659 3754661 . + 0 gene_id "ECDH10B_RS18755"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gadE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312419.1"; locus_tag "ECDH10B_RS18755"; product "acid resistance transcriptional activator GadE"; protein_id "WP_000576690.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3754662 3754940 . - . gene_id "ECDH10B_RS18760"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18760"; -NC_010473.1 Protein Homology CDS 3754665 3754940 . - 0 gene_id "ECDH10B_RS18760"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_009502656.1"; locus_tag "ECDH10B_RS18760"; product "hypothetical protein"; protein_id "WP_001205329.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3754938 3754940 . - 0 gene_id "ECDH10B_RS18760"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_009502656.1"; locus_tag "ECDH10B_RS18760"; product "hypothetical protein"; protein_id "WP_001205329.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3754662 3754664 . - 0 gene_id "ECDH10B_RS18760"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_009502656.1"; locus_tag "ECDH10B_RS18760"; product "hypothetical protein"; protein_id "WP_001205329.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3755000 3756157 . + . gene_id "ECDH10B_RS18765"; transcript_id ""; gbkey "Gene"; gene "mdtE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18765"; old_locus_tag "ECDH10B_3689"; -NC_010473.1 Protein Homology CDS 3755000 3756154 . + 0 gene_id "ECDH10B_RS18765"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mdtE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417970.1"; locus_tag "ECDH10B_RS18765"; product "multidrug transporter subunit MdtE"; protein_id "WP_001081984.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3755000 3755002 . + 0 gene_id "ECDH10B_RS18765"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mdtE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417970.1"; locus_tag "ECDH10B_RS18765"; product "multidrug transporter subunit MdtE"; protein_id "WP_001081984.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3756155 3756157 . + 0 gene_id "ECDH10B_RS18765"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mdtE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417970.1"; locus_tag "ECDH10B_RS18765"; product "multidrug transporter subunit MdtE"; protein_id "WP_001081984.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3756182 3759295 . + . gene_id "ECDH10B_RS18770"; transcript_id ""; gbkey "Gene"; gene "mdtF"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18770"; old_locus_tag "ECDH10B_3690"; -NC_010473.1 Protein Homology CDS 3756182 3759292 . + 0 gene_id "ECDH10B_RS18770"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mdtF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417971.1"; locus_tag "ECDH10B_RS18770"; product "multidrug efflux pump RND permease MdtF"; protein_id "WP_000024872.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3756182 3756184 . + 0 gene_id "ECDH10B_RS18770"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mdtF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417971.1"; locus_tag "ECDH10B_RS18770"; product "multidrug efflux pump RND permease MdtF"; protein_id "WP_000024872.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3759293 3759295 . + 0 gene_id "ECDH10B_RS18770"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mdtF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417971.1"; locus_tag "ECDH10B_RS18770"; product "multidrug efflux pump RND permease MdtF"; protein_id "WP_000024872.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3759658 3760386 . - . gene_id "ECDH10B_RS18775"; transcript_id ""; gbkey "Gene"; gene "gadW"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18775"; old_locus_tag "ECDH10B_3691"; -NC_010473.1 Protein Homology CDS 3759661 3760386 . - 0 gene_id "ECDH10B_RS18775"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gadW"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312422.1"; locus_tag "ECDH10B_RS18775"; product "acid resistance transcriptional activator GadW"; protein_id "WP_000149999.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3760384 3760386 . - 0 gene_id "ECDH10B_RS18775"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gadW"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312422.1"; locus_tag "ECDH10B_RS18775"; product "acid resistance transcriptional activator GadW"; protein_id "WP_000149999.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3759658 3759660 . - 0 gene_id "ECDH10B_RS18775"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gadW"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312422.1"; locus_tag "ECDH10B_RS18775"; product "acid resistance transcriptional activator GadW"; protein_id "WP_000149999.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3760754 3761578 . - . gene_id "ECDH10B_RS18780"; transcript_id ""; gbkey "Gene"; gene "gadX"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18780"; old_locus_tag "ECDH10B_3693"; -NC_010473.1 Protein Homology CDS 3760757 3761578 . - 0 gene_id "ECDH10B_RS18780"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gadX"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417973.1"; locus_tag "ECDH10B_RS18780"; product "acid resistance transcriptional activator GadX"; protein_id "WP_001191059.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3761576 3761578 . - 0 gene_id "ECDH10B_RS18780"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gadX"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417973.1"; locus_tag "ECDH10B_RS18780"; product "acid resistance transcriptional activator GadX"; protein_id "WP_001191059.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3760754 3760756 . - 0 gene_id "ECDH10B_RS18780"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gadX"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417973.1"; locus_tag "ECDH10B_RS18780"; product "acid resistance transcriptional activator GadX"; protein_id "WP_001191059.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3761948 3763348 . - . gene_id "ECDH10B_RS18785"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18785"; old_locus_tag "ECDH10B_3694"; -NC_010473.1 Protein Homology CDS 3761951 3763348 . - 0 gene_id "ECDH10B_RS18785"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417974.1"; locus_tag "ECDH10B_RS18785"; product "glutamate decarboxylase"; protein_id "WP_000372240.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3763346 3763348 . - 0 gene_id "ECDH10B_RS18785"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417974.1"; locus_tag "ECDH10B_RS18785"; product "glutamate decarboxylase"; protein_id "WP_000372240.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3761948 3761950 . - 0 gene_id "ECDH10B_RS18785"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417974.1"; locus_tag "ECDH10B_RS18785"; product "glutamate decarboxylase"; protein_id "WP_000372240.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3763559 3764956 . - . gene_id "ECDH10B_RS18790"; transcript_id ""; gbkey "Gene"; gene "ccp"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18790"; old_locus_tag "ECDH10B_3695"; -NC_010473.1 Protein Homology CDS 3763562 3764956 . - 0 gene_id "ECDH10B_RS18790"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ccp"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417975.1"; locus_tag "ECDH10B_RS18790"; product "cytochrome c peroxidase"; protein_id "WP_000784827.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3764954 3764956 . - 0 gene_id "ECDH10B_RS18790"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ccp"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417975.1"; locus_tag "ECDH10B_RS18790"; product "cytochrome c peroxidase"; protein_id "WP_000784827.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3763559 3763561 . - 0 gene_id "ECDH10B_RS18790"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ccp"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417975.1"; locus_tag "ECDH10B_RS18790"; product "cytochrome c peroxidase"; protein_id "WP_000784827.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3765360 3767009 . + . gene_id "ECDH10B_RS18795"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18795"; old_locus_tag "ECDH10B_3696"; -NC_010473.1 Protein Homology CDS 3765360 3767006 . + 0 gene_id "ECDH10B_RS18795"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312426.1"; locus_tag "ECDH10B_RS18795"; product "alpha,alpha-trehalase TreF"; protein_id "WP_000934216.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3765360 3765362 . + 0 gene_id "ECDH10B_RS18795"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312426.1"; locus_tag "ECDH10B_RS18795"; product "alpha,alpha-trehalase TreF"; protein_id "WP_000934216.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3767007 3767009 . + 0 gene_id "ECDH10B_RS18795"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312426.1"; locus_tag "ECDH10B_RS18795"; product "alpha,alpha-trehalase TreF"; protein_id "WP_000934216.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3767060 3767662 . - . gene_id "ECDH10B_RS18800"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18800"; old_locus_tag "ECDH10B_3697"; -NC_010473.1 Protein Homology CDS 3767063 3767662 . - 0 gene_id "ECDH10B_RS18800"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417977.1"; locus_tag "ECDH10B_RS18800"; product "response regulator transcription factor"; protein_id "WP_001167676.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3767660 3767662 . - 0 gene_id "ECDH10B_RS18800"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417977.1"; locus_tag "ECDH10B_RS18800"; product "response regulator transcription factor"; protein_id "WP_001167676.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3767060 3767062 . - 0 gene_id "ECDH10B_RS18800"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417977.1"; locus_tag "ECDH10B_RS18800"; product "response regulator transcription factor"; protein_id "WP_001167676.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3768110 3769081 . + . gene_id "ECDH10B_RS18805"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18805"; old_locus_tag "ECDH10B_3698"; -NC_010473.1 Protein Homology CDS 3768110 3769078 . + 0 gene_id "ECDH10B_RS18805"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_709299.1"; locus_tag "ECDH10B_RS18805"; product "LysR family transcriptional regulator"; protein_id "WP_000891026.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3768110 3768112 . + 0 gene_id "ECDH10B_RS18805"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_709299.1"; locus_tag "ECDH10B_RS18805"; product "LysR family transcriptional regulator"; protein_id "WP_000891026.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3769079 3769081 . + 0 gene_id "ECDH10B_RS18805"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_709299.1"; locus_tag "ECDH10B_RS18805"; product "LysR family transcriptional regulator"; protein_id "WP_000891026.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3769130 3770143 . + . gene_id "ECDH10B_RS18810"; transcript_id ""; gbkey "Gene"; gene "yhjD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18810"; old_locus_tag "ECDH10B_3699"; -NC_010473.1 Protein Homology CDS 3769130 3770140 . + 0 gene_id "ECDH10B_RS18810"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yhjD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417979.1"; locus_tag "ECDH10B_RS18810"; product "inner membrane protein YhjD"; protein_id "WP_000191237.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3769130 3769132 . + 0 gene_id "ECDH10B_RS18810"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yhjD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417979.1"; locus_tag "ECDH10B_RS18810"; product "inner membrane protein YhjD"; protein_id "WP_000191237.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3770141 3770143 . + 0 gene_id "ECDH10B_RS18810"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yhjD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417979.1"; locus_tag "ECDH10B_RS18810"; product "inner membrane protein YhjD"; protein_id "WP_000191237.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3770554 3771876 . + . gene_id "ECDH10B_RS18815"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18815"; old_locus_tag "ECDH10B_3700"; -NC_010473.1 Protein Homology CDS 3770554 3771873 . + 0 gene_id "ECDH10B_RS18815"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417980.1"; locus_tag "ECDH10B_RS18815"; product "MHS family MFS transporter"; protein_id "WP_001149003.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3770554 3770556 . + 0 gene_id "ECDH10B_RS18815"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417980.1"; locus_tag "ECDH10B_RS18815"; product "MHS family MFS transporter"; protein_id "WP_001149003.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3771874 3771876 . + 0 gene_id "ECDH10B_RS18815"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417980.1"; locus_tag "ECDH10B_RS18815"; product "MHS family MFS transporter"; protein_id "WP_001149003.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3772058 3774118 . - . gene_id "ECDH10B_RS18820"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18820"; old_locus_tag "ECDH10B_3701"; -NC_010473.1 Protein Homology CDS 3772061 3774118 . - 0 gene_id "ECDH10B_RS18820"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417981.2"; locus_tag "ECDH10B_RS18820"; product "AsmA family protein"; protein_id "WP_001296794.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3774116 3774118 . - 0 gene_id "ECDH10B_RS18820"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417981.2"; locus_tag "ECDH10B_RS18820"; product "AsmA family protein"; protein_id "WP_001296794.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3772058 3772060 . - 0 gene_id "ECDH10B_RS18820"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417981.2"; locus_tag "ECDH10B_RS18820"; product "AsmA family protein"; protein_id "WP_001296794.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3774188 3774955 . - . gene_id "ECDH10B_RS18825"; transcript_id ""; gbkey "Gene"; gene "pdeH"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18825"; old_locus_tag "ECDH10B_3702"; -NC_010473.1 Protein Homology CDS 3774191 3774955 . - 0 gene_id "ECDH10B_RS18825"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pdeH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417982.2"; locus_tag "ECDH10B_RS18825"; product "cyclic-guanylate-specific phosphodiesterase"; protein_id "WP_001295219.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3774953 3774955 . - 0 gene_id "ECDH10B_RS18825"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pdeH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417982.2"; locus_tag "ECDH10B_RS18825"; product "cyclic-guanylate-specific phosphodiesterase"; protein_id "WP_001295219.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3774188 3774190 . - 0 gene_id "ECDH10B_RS18825"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pdeH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417982.2"; locus_tag "ECDH10B_RS18825"; product "cyclic-guanylate-specific phosphodiesterase"; protein_id "WP_001295219.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3775187 3776116 . + . gene_id "ECDH10B_RS18835"; transcript_id ""; gbkey "Gene"; gene "kdgK"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18835"; old_locus_tag "ECDH10B_3703"; -NC_010473.1 Protein Homology CDS 3775187 3776113 . + 0 gene_id "ECDH10B_RS18835"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "kdgK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417983.2"; locus_tag "ECDH10B_RS18835"; product "2-dehydro-3-deoxygluconokinase"; protein_id "WP_000037562.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3775187 3775189 . + 0 gene_id "ECDH10B_RS18835"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "kdgK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417983.2"; locus_tag "ECDH10B_RS18835"; product "2-dehydro-3-deoxygluconokinase"; protein_id "WP_000037562.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3776114 3776116 . + 0 gene_id "ECDH10B_RS18835"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "kdgK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417983.2"; locus_tag "ECDH10B_RS18835"; product "2-dehydro-3-deoxygluconokinase"; protein_id "WP_000037562.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3776212 3777708 . - . gene_id "ECDH10B_RS18840"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18840"; old_locus_tag "ECDH10B_3704"; -NC_010473.1 Protein Homology CDS 3776215 3777708 . - 0 gene_id "ECDH10B_RS18840"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417984.1"; locus_tag "ECDH10B_RS18840"; product "insulinase family protein"; protein_id "WP_001163141.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3777706 3777708 . - 0 gene_id "ECDH10B_RS18840"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417984.1"; locus_tag "ECDH10B_RS18840"; product "insulinase family protein"; protein_id "WP_001163141.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3776212 3776214 . - 0 gene_id "ECDH10B_RS18840"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417984.1"; locus_tag "ECDH10B_RS18840"; product "insulinase family protein"; protein_id "WP_001163141.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3777929 3779215 . - . gene_id "ECDH10B_RS18845"; transcript_id ""; gbkey "Gene"; gene "dctA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18845"; -NC_010473.1 Protein Homology CDS 3777932 3779215 . - 0 gene_id "ECDH10B_RS18845"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dctA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417985.1"; locus_tag "ECDH10B_RS18845"; product "C4-dicarboxylate transporter DctC"; protein_id "WP_000858208.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3779213 3779215 . - 0 gene_id "ECDH10B_RS18845"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dctA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417985.1"; locus_tag "ECDH10B_RS18845"; product "C4-dicarboxylate transporter DctC"; protein_id "WP_000858208.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3777929 3777931 . - 0 gene_id "ECDH10B_RS18845"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dctA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417985.1"; locus_tag "ECDH10B_RS18845"; product "C4-dicarboxylate transporter DctC"; protein_id "WP_000858208.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3779398 3781386 . - . gene_id "ECDH10B_RS18850"; transcript_id ""; gbkey "Gene"; gene "hmsP"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18850"; old_locus_tag "ECDH10B_3706"; -NC_010473.1 Protein Homology CDS 3779401 3781386 . - 0 gene_id "ECDH10B_RS18850"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hmsP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417986.4"; locus_tag "ECDH10B_RS18850"; product "biofilm formation regulator HmsP"; protein_id "WP_001266293.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3781384 3781386 . - 0 gene_id "ECDH10B_RS18850"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hmsP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417986.4"; locus_tag "ECDH10B_RS18850"; product "biofilm formation regulator HmsP"; protein_id "WP_001266293.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3779398 3779400 . - 0 gene_id "ECDH10B_RS18850"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hmsP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417986.4"; locus_tag "ECDH10B_RS18850"; product "biofilm formation regulator HmsP"; protein_id "WP_001266293.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3781468 3784941 . - . gene_id "ECDH10B_RS18855"; transcript_id ""; gbkey "Gene"; gene "bcsC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18855"; old_locus_tag "ECDH10B_3707"; -NC_010473.1 Protein Homology CDS 3781471 3784941 . - 0 gene_id "ECDH10B_RS18855"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "bcsC"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026226.4"; locus_tag "ECDH10B_RS18855"; product "cellulose biosynthesis protein BcsC"; protein_id "WP_001225124.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3784939 3784941 . - 0 gene_id "ECDH10B_RS18855"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "bcsC"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026226.4"; locus_tag "ECDH10B_RS18855"; product "cellulose biosynthesis protein BcsC"; protein_id "WP_001225124.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3781468 3781470 . - 0 gene_id "ECDH10B_RS18855"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "bcsC"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026226.4"; locus_tag "ECDH10B_RS18855"; product "cellulose biosynthesis protein BcsC"; protein_id "WP_001225124.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3784923 3786029 . - . gene_id "ECDH10B_RS18860"; transcript_id ""; gbkey "Gene"; gene "bcsZ"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18860"; old_locus_tag "ECDH10B_3708"; -NC_010473.1 Protein Homology CDS 3784926 3786029 . - 0 gene_id "ECDH10B_RS18860"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "bcsZ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417988.1"; locus_tag "ECDH10B_RS18860"; product "cellulase"; protein_id "WP_001311203.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3786027 3786029 . - 0 gene_id "ECDH10B_RS18860"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "bcsZ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417988.1"; locus_tag "ECDH10B_RS18860"; product "cellulase"; protein_id "WP_001311203.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3784923 3784925 . - 0 gene_id "ECDH10B_RS18860"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "bcsZ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417988.1"; locus_tag "ECDH10B_RS18860"; product "cellulase"; protein_id "WP_001311203.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3786036 3788375 . - . gene_id "ECDH10B_RS18865"; transcript_id ""; gbkey "Gene"; gene "bcsB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18865"; old_locus_tag "ECDH10B_3709"; -NC_010473.1 Protein Homology CDS 3786039 3788375 . - 0 gene_id "ECDH10B_RS18865"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "bcsB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417989.1"; locus_tag "ECDH10B_RS18865"; product "cellulose biosynthesis cyclic di-GMP-binding regulatory protein BcsB"; protein_id "WP_001407405.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3788373 3788375 . - 0 gene_id "ECDH10B_RS18865"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "bcsB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417989.1"; locus_tag "ECDH10B_RS18865"; product "cellulose biosynthesis cyclic di-GMP-binding regulatory protein BcsB"; protein_id "WP_001407405.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3786036 3786038 . - 0 gene_id "ECDH10B_RS18865"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "bcsB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417989.1"; locus_tag "ECDH10B_RS18865"; product "cellulose biosynthesis cyclic di-GMP-binding regulatory protein BcsB"; protein_id "WP_001407405.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3788386 3791004 . - . gene_id "ECDH10B_RS18870"; transcript_id ""; gbkey "Gene"; gene "bcsA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18870"; old_locus_tag "ECDH10B_3710"; -NC_010473.1 Protein Homology CDS 3788389 3791004 . - 0 gene_id "ECDH10B_RS18870"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "bcsA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417990.4"; locus_tag "ECDH10B_RS18870"; product "UDP-forming cellulose synthase catalytic subunit"; protein_id "WP_000025892.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3791002 3791004 . - 0 gene_id "ECDH10B_RS18870"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "bcsA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417990.4"; locus_tag "ECDH10B_RS18870"; product "UDP-forming cellulose synthase catalytic subunit"; protein_id "WP_000025892.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3788386 3788388 . - 0 gene_id "ECDH10B_RS18870"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "bcsA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417990.4"; locus_tag "ECDH10B_RS18870"; product "UDP-forming cellulose synthase catalytic subunit"; protein_id "WP_000025892.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3791001 3791753 . - . gene_id "ECDH10B_RS18875"; transcript_id ""; gbkey "Gene"; gene "bcsQ"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS18875"; old_locus_tag "ECDH10B_3711"; pseudo "true"; -NC_010473.1 Protein Homology CDS 3791004 3791753 . - 0 gene_id "ECDH10B_RS18875"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "bcsQ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_709309.1"; locus_tag "ECDH10B_RS18875"; note "internal stop"; product "cellulose biosynthesis protein BcsQ"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3791751 3791753 . - 0 gene_id "ECDH10B_RS18875"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "bcsQ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_709309.1"; locus_tag "ECDH10B_RS18875"; note "internal stop"; product "cellulose biosynthesis protein BcsQ"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3791001 3791003 . - 0 gene_id "ECDH10B_RS18875"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "bcsQ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_709309.1"; locus_tag "ECDH10B_RS18875"; note "internal stop"; product "cellulose biosynthesis protein BcsQ"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 3791765 3791953 . - . gene_id "ECDH10B_RS18880"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18880"; old_locus_tag "ECDH10B_3712"; -NC_010473.1 Protein Homology CDS 3791768 3791953 . - 0 gene_id "ECDH10B_RS18880"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417992.1"; locus_tag "ECDH10B_RS18880"; product "YhjR family protein"; protein_id "WP_001063318.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3791951 3791953 . - 0 gene_id "ECDH10B_RS18880"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417992.1"; locus_tag "ECDH10B_RS18880"; product "YhjR family protein"; protein_id "WP_001063318.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3791765 3791767 . - 0 gene_id "ECDH10B_RS18880"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417992.1"; locus_tag "ECDH10B_RS18880"; product "YhjR family protein"; protein_id "WP_001063318.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3792226 3793797 . + . gene_id "ECDH10B_RS18885"; transcript_id ""; gbkey "Gene"; gene "bcsE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18885"; -NC_010473.1 Protein Homology CDS 3792226 3793794 . + 0 gene_id "ECDH10B_RS18885"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "bcsE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417993.1"; locus_tag "ECDH10B_RS18885"; product "cellulose biosynthesis protein BcsE"; protein_id "WP_001204927.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3792226 3792228 . + 0 gene_id "ECDH10B_RS18885"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "bcsE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417993.1"; locus_tag "ECDH10B_RS18885"; product "cellulose biosynthesis protein BcsE"; protein_id "WP_001204927.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3793795 3793797 . + 0 gene_id "ECDH10B_RS18885"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "bcsE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417993.1"; locus_tag "ECDH10B_RS18885"; product "cellulose biosynthesis protein BcsE"; protein_id "WP_001204927.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3793794 3793985 . + . gene_id "ECDH10B_RS18890"; transcript_id ""; gbkey "Gene"; gene "bcsF"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18890"; old_locus_tag "ECDH10B_3714"; -NC_010473.1 Protein Homology CDS 3793794 3793982 . + 0 gene_id "ECDH10B_RS18890"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "bcsF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417994.2"; locus_tag "ECDH10B_RS18890"; product "cellulose biosynthesis protein BcsF"; protein_id "WP_000988308.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3793794 3793796 . + 0 gene_id "ECDH10B_RS18890"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "bcsF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417994.2"; locus_tag "ECDH10B_RS18890"; product "cellulose biosynthesis protein BcsF"; protein_id "WP_000988308.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3793983 3793985 . + 0 gene_id "ECDH10B_RS18890"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "bcsF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417994.2"; locus_tag "ECDH10B_RS18890"; product "cellulose biosynthesis protein BcsF"; protein_id "WP_000988308.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3793982 3795661 . + . gene_id "ECDH10B_RS18895"; transcript_id ""; gbkey "Gene"; gene "bcsG"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18895"; old_locus_tag "ECDH10B_3715"; -NC_010473.1 Protein Homology CDS 3793982 3795658 . + 0 gene_id "ECDH10B_RS18895"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "bcsG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417995.1"; locus_tag "ECDH10B_RS18895"; product "cellulose biosynthesis protein BcsG"; protein_id "WP_000191622.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3793982 3793984 . + 0 gene_id "ECDH10B_RS18895"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "bcsG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417995.1"; locus_tag "ECDH10B_RS18895"; product "cellulose biosynthesis protein BcsG"; protein_id "WP_000191622.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3795659 3795661 . + 0 gene_id "ECDH10B_RS18895"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "bcsG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417995.1"; locus_tag "ECDH10B_RS18895"; product "cellulose biosynthesis protein BcsG"; protein_id "WP_000191622.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3795748 3795855 . - . gene_id "ECDH10B_RS18900"; transcript_id ""; gbkey "Gene"; gene "ldrD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18900"; old_locus_tag "ECDH10B_3716"; -NC_010473.1 Protein Homology CDS 3795751 3795855 . - 0 gene_id "ECDH10B_RS18900"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ldrD"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026227.1"; locus_tag "ECDH10B_RS18900"; product "type I toxin-antitoxin system toxic polypeptide LdrD"; protein_id "WP_000141634.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3795853 3795855 . - 0 gene_id "ECDH10B_RS18900"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ldrD"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026227.1"; locus_tag "ECDH10B_RS18900"; product "type I toxin-antitoxin system toxic polypeptide LdrD"; protein_id "WP_000141634.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3795748 3795750 . - 0 gene_id "ECDH10B_RS18900"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ldrD"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026227.1"; locus_tag "ECDH10B_RS18900"; product "type I toxin-antitoxin system toxic polypeptide LdrD"; protein_id "WP_000141634.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3796331 3797602 . + . gene_id "ECDH10B_RS18910"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18910"; old_locus_tag "ECDH10B_3718"; -NC_010473.1 Protein Homology CDS 3796331 3797599 . + 0 gene_id "ECDH10B_RS18910"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417996.1"; locus_tag "ECDH10B_RS18910"; product "transporter"; protein_id "WP_001295225.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3796331 3796333 . + 0 gene_id "ECDH10B_RS18910"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417996.1"; locus_tag "ECDH10B_RS18910"; product "transporter"; protein_id "WP_001295225.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3797600 3797602 . + 0 gene_id "ECDH10B_RS18910"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417996.1"; locus_tag "ECDH10B_RS18910"; product "transporter"; protein_id "WP_001295225.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3797632 3798636 . - . gene_id "ECDH10B_RS18915"; transcript_id ""; gbkey "Gene"; gene "dppF"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18915"; old_locus_tag "ECDH10B_3719"; -NC_010473.1 Protein Homology CDS 3797635 3798636 . - 0 gene_id "ECDH10B_RS18915"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dppF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417997.1"; locus_tag "ECDH10B_RS18915"; product "dipeptide ABC transporter ATP binding subunit DppF"; protein_id "WP_000107012.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3798634 3798636 . - 0 gene_id "ECDH10B_RS18915"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dppF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417997.1"; locus_tag "ECDH10B_RS18915"; product "dipeptide ABC transporter ATP binding subunit DppF"; protein_id "WP_000107012.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3797632 3797634 . - 0 gene_id "ECDH10B_RS18915"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dppF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_417997.1"; locus_tag "ECDH10B_RS18915"; product "dipeptide ABC transporter ATP binding subunit DppF"; protein_id "WP_000107012.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3798633 3799616 . - . gene_id "ECDH10B_RS18920"; transcript_id ""; gbkey "Gene"; gene "dppD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18920"; old_locus_tag "ECDH10B_3720"; -NC_010473.1 Protein Homology CDS 3798636 3799616 . - 0 gene_id "ECDH10B_RS18920"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dppD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312448.1"; locus_tag "ECDH10B_RS18920"; product "dipeptide ABC transporter ATP-binding protein"; protein_id "WP_001196486.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3799614 3799616 . - 0 gene_id "ECDH10B_RS18920"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dppD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312448.1"; locus_tag "ECDH10B_RS18920"; product "dipeptide ABC transporter ATP-binding protein"; protein_id "WP_001196486.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3798633 3798635 . - 0 gene_id "ECDH10B_RS18920"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dppD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312448.1"; locus_tag "ECDH10B_RS18920"; product "dipeptide ABC transporter ATP-binding protein"; protein_id "WP_001196486.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3799627 3800529 . - . gene_id "ECDH10B_RS18925"; transcript_id ""; gbkey "Gene"; gene "dppC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18925"; old_locus_tag "ECDH10B_3721"; -NC_010473.1 Protein Homology CDS 3799630 3800529 . - 0 gene_id "ECDH10B_RS18925"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dppC"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_010426221.1"; locus_tag "ECDH10B_RS18925"; product "dipeptide ABC transporter permease DppC"; protein_id "WP_000084677.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3800527 3800529 . - 0 gene_id "ECDH10B_RS18925"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dppC"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_010426221.1"; locus_tag "ECDH10B_RS18925"; product "dipeptide ABC transporter permease DppC"; protein_id "WP_000084677.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3799627 3799629 . - 0 gene_id "ECDH10B_RS18925"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dppC"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_010426221.1"; locus_tag "ECDH10B_RS18925"; product "dipeptide ABC transporter permease DppC"; protein_id "WP_000084677.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3800539 3801558 . - . gene_id "ECDH10B_RS18930"; transcript_id ""; gbkey "Gene"; gene "dppB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18930"; old_locus_tag "ECDH10B_3722"; -NC_010473.1 Protein Homology CDS 3800542 3801558 . - 0 gene_id "ECDH10B_RS18930"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dppB"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005133865.1"; locus_tag "ECDH10B_RS18930"; product "dipeptide ABC transporter permease DppB"; protein_id "WP_000938855.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3801556 3801558 . - 0 gene_id "ECDH10B_RS18930"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dppB"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005133865.1"; locus_tag "ECDH10B_RS18930"; product "dipeptide ABC transporter permease DppB"; protein_id "WP_000938855.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3800539 3800541 . - 0 gene_id "ECDH10B_RS18930"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dppB"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005133865.1"; locus_tag "ECDH10B_RS18930"; product "dipeptide ABC transporter permease DppB"; protein_id "WP_000938855.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3801866 3803473 . - . gene_id "ECDH10B_RS18940"; transcript_id ""; gbkey "Gene"; gene "dppA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18940"; old_locus_tag "ECDH10B_3723"; -NC_010473.1 Protein Homology CDS 3801869 3803473 . - 0 gene_id "ECDH10B_RS18940"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dppA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418001.1"; locus_tag "ECDH10B_RS18940"; product "dipeptide ABC transporter substrate-binding protein DppA"; protein_id "WP_001222883.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3803471 3803473 . - 0 gene_id "ECDH10B_RS18940"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dppA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418001.1"; locus_tag "ECDH10B_RS18940"; product "dipeptide ABC transporter substrate-binding protein DppA"; protein_id "WP_001222883.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3801866 3801868 . - 0 gene_id "ECDH10B_RS18940"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dppA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418001.1"; locus_tag "ECDH10B_RS18940"; product "dipeptide ABC transporter substrate-binding protein DppA"; protein_id "WP_001222883.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3804216 3804292 . - . gene_id "ECDH10B_RS18950"; transcript_id ""; gbkey "Gene"; gene_biotype "tRNA"; locus_tag "ECDH10B_RS18950"; old_locus_tag "ECDH10B_3724"; -NC_010473.1 tRNAscan-SE exon 3804216 3804292 . - . gene_id "ECDH10B_RS18950"; transcript_id "ECDH10B_RS18950"; anticodon "(pos:complement(3804256..3804258))"; gbkey "tRNA"; inference "COORDINATES: profile:tRNAscan-SE:2.0.6"; locus_tag "ECDH10B_RS18950"; product "tRNA-Pro"; exon_number "1"; -NC_010473.1 RefSeq gene 3804384 3806075 . - . gene_id "ECDH10B_RS18955"; transcript_id ""; gbkey "Gene"; gene "eptB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18955"; old_locus_tag "ECDH10B_3725"; -NC_010473.1 Protein Homology CDS 3804387 3806075 . - 0 gene_id "ECDH10B_RS18955"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "eptB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418002.2"; locus_tag "ECDH10B_RS18955"; product "kdo(2)-lipid A phosphoethanolamine 7''-transferase"; protein_id "WP_001269197.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3806073 3806075 . - 0 gene_id "ECDH10B_RS18955"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "eptB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418002.2"; locus_tag "ECDH10B_RS18955"; product "kdo(2)-lipid A phosphoethanolamine 7''-transferase"; protein_id "WP_001269197.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3804384 3804386 . - 0 gene_id "ECDH10B_RS18955"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "eptB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418002.2"; locus_tag "ECDH10B_RS18955"; product "kdo(2)-lipid A phosphoethanolamine 7''-transferase"; protein_id "WP_001269197.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3806399 3807607 . - . gene_id "ECDH10B_RS18960"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18960"; old_locus_tag "ECDH10B_3726"; -NC_010473.1 Protein Homology CDS 3806402 3807607 . - 0 gene_id "ECDH10B_RS18960"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418003.1"; locus_tag "ECDH10B_RS18960"; product "MFS transporter"; protein_id "WP_000189019.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3807605 3807607 . - 0 gene_id "ECDH10B_RS18960"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418003.1"; locus_tag "ECDH10B_RS18960"; product "MFS transporter"; protein_id "WP_000189019.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3806399 3806401 . - 0 gene_id "ECDH10B_RS18960"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418003.1"; locus_tag "ECDH10B_RS18960"; product "MFS transporter"; protein_id "WP_000189019.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3807836 3808534 . - . gene_id "ECDH10B_RS18965"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18965"; old_locus_tag "ECDH10B_3727"; -NC_010473.1 Protein Homology CDS 3807839 3808534 . - 0 gene_id "ECDH10B_RS18965"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418004.4"; locus_tag "ECDH10B_RS18965"; product "autotransporter outer membrane beta-barrel domain-containing protein"; protein_id "WP_001299523.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3808532 3808534 . - 0 gene_id "ECDH10B_RS18965"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418004.4"; locus_tag "ECDH10B_RS18965"; product "autotransporter outer membrane beta-barrel domain-containing protein"; protein_id "WP_001299523.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3807836 3807838 . - 0 gene_id "ECDH10B_RS18965"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418004.4"; locus_tag "ECDH10B_RS18965"; product "autotransporter outer membrane beta-barrel domain-containing protein"; protein_id "WP_001299523.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3808692 3809255 . + . gene_id "ECDH10B_RS18970"; transcript_id ""; gbkey "Gene"; gene "tag"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18970"; old_locus_tag "ECDH10B_3728"; -NC_010473.1 Protein Homology CDS 3808692 3809252 . + 0 gene_id "ECDH10B_RS18970"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tag"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418005.1"; locus_tag "ECDH10B_RS18970"; product "DNA-3-methyladenine glycosylase I"; protein_id "WP_000438957.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3808692 3808694 . + 0 gene_id "ECDH10B_RS18970"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tag"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418005.1"; locus_tag "ECDH10B_RS18970"; product "DNA-3-methyladenine glycosylase I"; protein_id "WP_000438957.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3809253 3809255 . + 0 gene_id "ECDH10B_RS18970"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tag"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418005.1"; locus_tag "ECDH10B_RS18970"; product "DNA-3-methyladenine glycosylase I"; protein_id "WP_000438957.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3809252 3809692 . + . gene_id "ECDH10B_RS18975"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18975"; old_locus_tag "ECDH10B_3729"; -NC_010473.1 Protein Homology CDS 3809252 3809689 . + 0 gene_id "ECDH10B_RS18975"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418006.1"; locus_tag "ECDH10B_RS18975"; product "N-acetyltransferase"; protein_id "WP_000617473.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3809252 3809254 . + 0 gene_id "ECDH10B_RS18975"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418006.1"; locus_tag "ECDH10B_RS18975"; product "N-acetyltransferase"; protein_id "WP_000617473.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3809690 3809692 . + 0 gene_id "ECDH10B_RS18975"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418006.1"; locus_tag "ECDH10B_RS18975"; product "N-acetyltransferase"; protein_id "WP_000617473.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3809661 3811994 . - . gene_id "ECDH10B_RS18980"; transcript_id ""; gbkey "Gene"; gene "bisC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18980"; old_locus_tag "ECDH10B_3730"; -NC_010473.1 Protein Homology CDS 3809664 3811994 . - 0 gene_id "ECDH10B_RS18980"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "bisC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418007.3"; locus_tag "ECDH10B_RS18980"; product "biotin sulfoxide reductase"; protein_id "WP_000013950.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3811992 3811994 . - 0 gene_id "ECDH10B_RS18980"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "bisC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418007.3"; locus_tag "ECDH10B_RS18980"; product "biotin sulfoxide reductase"; protein_id "WP_000013950.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3809661 3809663 . - 0 gene_id "ECDH10B_RS18980"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "bisC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418007.3"; locus_tag "ECDH10B_RS18980"; product "biotin sulfoxide reductase"; protein_id "WP_000013950.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3812147 3812806 . + . gene_id "ECDH10B_RS18985"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18985"; old_locus_tag "ECDH10B_3731"; -NC_010473.1 Protein Homology CDS 3812147 3812803 . + 0 gene_id "ECDH10B_RS18985"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312464.1"; locus_tag "ECDH10B_RS18985"; product "OmpA family lipoprotein"; protein_id "WP_000747625.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3812147 3812149 . + 0 gene_id "ECDH10B_RS18985"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312464.1"; locus_tag "ECDH10B_RS18985"; product "OmpA family lipoprotein"; protein_id "WP_000747625.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3812804 3812806 . + 0 gene_id "ECDH10B_RS18985"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312464.1"; locus_tag "ECDH10B_RS18985"; product "OmpA family lipoprotein"; protein_id "WP_000747625.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3812910 3813884 . + . gene_id "ECDH10B_RS18990"; transcript_id ""; gbkey "Gene"; gene "ghrB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18990"; old_locus_tag "ECDH10B_3732"; -NC_010473.1 Protein Homology CDS 3812910 3813881 . + 0 gene_id "ECDH10B_RS18990"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ghrB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418009.2"; locus_tag "ECDH10B_RS18990"; product "glyoxylate/hydroxypyruvate reductase GhrB"; protein_id "WP_000805038.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3812910 3812912 . + 0 gene_id "ECDH10B_RS18990"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ghrB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418009.2"; locus_tag "ECDH10B_RS18990"; product "glyoxylate/hydroxypyruvate reductase GhrB"; protein_id "WP_000805038.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3813882 3813884 . + 0 gene_id "ECDH10B_RS18990"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ghrB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418009.2"; locus_tag "ECDH10B_RS18990"; product "glyoxylate/hydroxypyruvate reductase GhrB"; protein_id "WP_000805038.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3813934 3814644 . - . gene_id "ECDH10B_RS18995"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS18995"; old_locus_tag "ECDH10B_3733"; -NC_010473.1 Protein Homology CDS 3813937 3814644 . - 0 gene_id "ECDH10B_RS18995"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418010.2"; locus_tag "ECDH10B_RS18995"; product "DUF3053 domain-containing protein"; protein_id "WP_000190516.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3814642 3814644 . - 0 gene_id "ECDH10B_RS18995"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418010.2"; locus_tag "ECDH10B_RS18995"; product "DUF3053 domain-containing protein"; protein_id "WP_000190516.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3813934 3813936 . - 0 gene_id "ECDH10B_RS18995"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418010.2"; locus_tag "ECDH10B_RS18995"; product "DUF3053 domain-containing protein"; protein_id "WP_000190516.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3815078 3815368 . + . gene_id "ECDH10B_RS19000"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19000"; old_locus_tag "ECDH10B_3734"; -NC_010473.1 Protein Homology CDS 3815078 3815365 . + 0 gene_id "ECDH10B_RS19000"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312467.1"; locus_tag "ECDH10B_RS19000"; product "HTH-type transcriptional regulator"; protein_id "WP_000455798.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3815078 3815080 . + 0 gene_id "ECDH10B_RS19000"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312467.1"; locus_tag "ECDH10B_RS19000"; product "HTH-type transcriptional regulator"; protein_id "WP_000455798.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3815366 3815368 . + 0 gene_id "ECDH10B_RS19000"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312467.1"; locus_tag "ECDH10B_RS19000"; product "HTH-type transcriptional regulator"; protein_id "WP_000455798.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3815649 3815861 . + . gene_id "ECDH10B_RS19005"; transcript_id ""; gbkey "Gene"; gene "cspA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19005"; old_locus_tag "ECDH10B_3735"; -NC_010473.1 Protein Homology CDS 3815649 3815858 . + 0 gene_id "ECDH10B_RS19005"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cspA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312468.1"; locus_tag "ECDH10B_RS19005"; product "RNA chaperone/antiterminator CspA"; protein_id "WP_000014594.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3815649 3815651 . + 0 gene_id "ECDH10B_RS19005"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cspA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312468.1"; locus_tag "ECDH10B_RS19005"; product "RNA chaperone/antiterminator CspA"; protein_id "WP_000014594.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3815859 3815861 . + 0 gene_id "ECDH10B_RS19005"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cspA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312468.1"; locus_tag "ECDH10B_RS19005"; product "RNA chaperone/antiterminator CspA"; protein_id "WP_000014594.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3816048 3816200 . - . gene_id "ECDH10B_RS19010"; transcript_id ""; gbkey "Gene"; gene "hokA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19010"; old_locus_tag "ECDH10B_3736"; -NC_010473.1 Protein Homology CDS 3816051 3816200 . - 0 gene_id "ECDH10B_RS19010"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hokA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001135724.1"; locus_tag "ECDH10B_RS19010"; product "type I toxin-antitoxin system toxin HokA"; protein_id "WP_001135732.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3816198 3816200 . - 0 gene_id "ECDH10B_RS19010"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hokA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001135724.1"; locus_tag "ECDH10B_RS19010"; product "type I toxin-antitoxin system toxin HokA"; protein_id "WP_001135732.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3816048 3816050 . - 0 gene_id "ECDH10B_RS19010"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hokA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001135724.1"; locus_tag "ECDH10B_RS19010"; product "type I toxin-antitoxin system toxin HokA"; protein_id "WP_001135732.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3816280 3817649 . + . gene_id "ECDH10B_RS25725"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS25725"; -NC_010473.1 Protein Homology CDS 3816280 3816760 . + 0 gene_id "ECDH10B_RS25725"; transcript_id "unknown_transcript_1"; exception "ribosomal slippage"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_076611947.1"; locus_tag "ECDH10B_RS25725"; note "programmed frameshift"; product "IS3-like element IS150 family transposase"; protein_id "WP_085947770.1"; transl_table "11"; -NC_010473.1 Protein Homology CDS 3816760 3817646 . + 0 gene_id "ECDH10B_RS25725"; transcript_id "unknown_transcript_1"; exception "ribosomal slippage"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_076611947.1"; locus_tag "ECDH10B_RS25725"; note "programmed frameshift"; product "IS3-like element IS150 family transposase"; protein_id "WP_085947770.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3816280 3816282 . + 0 gene_id "ECDH10B_RS25725"; transcript_id "unknown_transcript_1"; exception "ribosomal slippage"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_076611947.1"; locus_tag "ECDH10B_RS25725"; note "programmed frameshift"; product "IS3-like element IS150 family transposase"; protein_id "WP_085947770.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3817647 3817649 . + 0 gene_id "ECDH10B_RS25725"; transcript_id "unknown_transcript_1"; exception "ribosomal slippage"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_076611947.1"; locus_tag "ECDH10B_RS25725"; note "programmed frameshift"; product "IS3-like element IS150 family transposase"; protein_id "WP_085947770.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3817928 3819997 . - . gene_id "ECDH10B_RS19025"; transcript_id ""; gbkey "Gene"; gene "glyS"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19025"; old_locus_tag "ECDH10B_3739"; -NC_010473.1 Protein Homology CDS 3817931 3819997 . - 0 gene_id "ECDH10B_RS19025"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "glyS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001291772.1"; locus_tag "ECDH10B_RS19025"; product "glycine--tRNA ligase subunit beta"; protein_id "WP_001291772.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3819995 3819997 . - 0 gene_id "ECDH10B_RS19025"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "glyS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001291772.1"; locus_tag "ECDH10B_RS19025"; product "glycine--tRNA ligase subunit beta"; protein_id "WP_001291772.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3817928 3817930 . - 0 gene_id "ECDH10B_RS19025"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "glyS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001291772.1"; locus_tag "ECDH10B_RS19025"; product "glycine--tRNA ligase subunit beta"; protein_id "WP_001291772.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3820007 3820918 . - . gene_id "ECDH10B_RS19030"; transcript_id ""; gbkey "Gene"; gene "glyQ"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19030"; -NC_010473.1 Protein Homology CDS 3820010 3820918 . - 0 gene_id "ECDH10B_RS19030"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "glyQ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312470.1"; locus_tag "ECDH10B_RS19030"; product "glycine--tRNA ligase subunit alpha"; protein_id "WP_001168544.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3820916 3820918 . - 0 gene_id "ECDH10B_RS19030"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "glyQ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312470.1"; locus_tag "ECDH10B_RS19030"; product "glycine--tRNA ligase subunit alpha"; protein_id "WP_001168544.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3820007 3820009 . - 0 gene_id "ECDH10B_RS19030"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "glyQ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312470.1"; locus_tag "ECDH10B_RS19030"; product "glycine--tRNA ligase subunit alpha"; protein_id "WP_001168544.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3821013 3821312 . - . gene_id "ECDH10B_RS19035"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19035"; old_locus_tag "ECDH10B_3741"; -NC_010473.1 Protein Homology CDS 3821016 3821312 . - 0 gene_id "ECDH10B_RS19035"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_588469.1"; locus_tag "ECDH10B_RS19035"; product "YsaB family lipoprotein"; protein_id "WP_000980107.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3821310 3821312 . - 0 gene_id "ECDH10B_RS19035"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_588469.1"; locus_tag "ECDH10B_RS19035"; product "YsaB family lipoprotein"; protein_id "WP_000980107.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3821013 3821015 . - 0 gene_id "ECDH10B_RS19035"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_588469.1"; locus_tag "ECDH10B_RS19035"; product "YsaB family lipoprotein"; protein_id "WP_000980107.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3821487 3822482 . + . gene_id "ECDH10B_RS19040"; transcript_id ""; gbkey "Gene"; gene "wecH"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19040"; old_locus_tag "ECDH10B_3742"; -NC_010473.1 Protein Homology CDS 3821487 3822479 . + 0 gene_id "ECDH10B_RS19040"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "wecH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418018.1"; locus_tag "ECDH10B_RS19040"; product "O-acetyltransferase WecH"; protein_id "WP_001182650.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3821487 3821489 . + 0 gene_id "ECDH10B_RS19040"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "wecH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418018.1"; locus_tag "ECDH10B_RS19040"; product "O-acetyltransferase WecH"; protein_id "WP_001182650.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3822480 3822482 . + 0 gene_id "ECDH10B_RS19040"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "wecH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418018.1"; locus_tag "ECDH10B_RS19040"; product "O-acetyltransferase WecH"; protein_id "WP_001182650.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3822524 3822961 . - . gene_id "ECDH10B_RS19045"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19045"; old_locus_tag "ECDH10B_3743"; -NC_010473.1 Protein Homology CDS 3822527 3822961 . - 0 gene_id "ECDH10B_RS19045"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312472.2"; locus_tag "ECDH10B_RS19045"; product "YiaB family inner membrane protein"; protein_id "WP_001296808.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3822959 3822961 . - 0 gene_id "ECDH10B_RS19045"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312472.2"; locus_tag "ECDH10B_RS19045"; product "YiaB family inner membrane protein"; protein_id "WP_001296808.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3822524 3822526 . - 0 gene_id "ECDH10B_RS19045"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312472.2"; locus_tag "ECDH10B_RS19045"; product "YiaB family inner membrane protein"; protein_id "WP_001296808.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3823007 3823348 . - . gene_id "ECDH10B_RS19050"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19050"; old_locus_tag "ECDH10B_3744"; -NC_010473.1 Protein Homology CDS 3823010 3823348 . - 0 gene_id "ECDH10B_RS19050"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418020.2"; locus_tag "ECDH10B_RS19050"; product "hypothetical protein"; protein_id "WP_001295228.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3823346 3823348 . - 0 gene_id "ECDH10B_RS19050"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418020.2"; locus_tag "ECDH10B_RS19050"; product "hypothetical protein"; protein_id "WP_001295228.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3823007 3823009 . - 0 gene_id "ECDH10B_RS19050"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418020.2"; locus_tag "ECDH10B_RS19050"; product "hypothetical protein"; protein_id "WP_001295228.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3823517 3824971 . - . gene_id "ECDH10B_RS19055"; transcript_id ""; gbkey "Gene"; gene "xylB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19055"; old_locus_tag "ECDH10B_3745"; -NC_010473.1 Protein Homology CDS 3823520 3824971 . - 0 gene_id "ECDH10B_RS19055"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "xylB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418021.1"; locus_tag "ECDH10B_RS19055"; product "xylulokinase"; protein_id "WP_000275334.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3824969 3824971 . - 0 gene_id "ECDH10B_RS19055"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "xylB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418021.1"; locus_tag "ECDH10B_RS19055"; product "xylulokinase"; protein_id "WP_000275334.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3823517 3823519 . - 0 gene_id "ECDH10B_RS19055"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "xylB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418021.1"; locus_tag "ECDH10B_RS19055"; product "xylulokinase"; protein_id "WP_000275334.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3825043 3826365 . - . gene_id "ECDH10B_RS19060"; transcript_id ""; gbkey "Gene"; gene "xylA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19060"; old_locus_tag "ECDH10B_3746"; -NC_010473.1 Protein Homology CDS 3825046 3826365 . - 0 gene_id "ECDH10B_RS19060"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "xylA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418022.1"; locus_tag "ECDH10B_RS19060"; product "xylose isomerase"; protein_id "WP_001149591.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3826363 3826365 . - 0 gene_id "ECDH10B_RS19060"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "xylA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418022.1"; locus_tag "ECDH10B_RS19060"; product "xylose isomerase"; protein_id "WP_001149591.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3825043 3825045 . - 0 gene_id "ECDH10B_RS19060"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "xylA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418022.1"; locus_tag "ECDH10B_RS19060"; product "xylose isomerase"; protein_id "WP_001149591.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3826731 3827723 . + . gene_id "ECDH10B_RS19065"; transcript_id ""; gbkey "Gene"; gene "xylF"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19065"; old_locus_tag "ECDH10B_3747"; -NC_010473.1 Protein Homology CDS 3826731 3827720 . + 0 gene_id "ECDH10B_RS19065"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "xylF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418023.1"; locus_tag "ECDH10B_RS19065"; product "D-xylose ABC transporter substrate-binding protein"; protein_id "WP_000694881.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3826731 3826733 . + 0 gene_id "ECDH10B_RS19065"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "xylF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418023.1"; locus_tag "ECDH10B_RS19065"; product "D-xylose ABC transporter substrate-binding protein"; protein_id "WP_000694881.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3827721 3827723 . + 0 gene_id "ECDH10B_RS19065"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "xylF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418023.1"; locus_tag "ECDH10B_RS19065"; product "D-xylose ABC transporter substrate-binding protein"; protein_id "WP_000694881.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3827801 3829342 . + . gene_id "ECDH10B_RS19070"; transcript_id ""; gbkey "Gene"; gene "xylG"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19070"; old_locus_tag "ECDH10B_3748"; -NC_010473.1 Protein Homology CDS 3827801 3829339 . + 0 gene_id "ECDH10B_RS19070"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "xylG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418024.1"; locus_tag "ECDH10B_RS19070"; product "D-xylose ABC transporter ATP-binding protein"; protein_id "WP_001146473.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3827801 3827803 . + 0 gene_id "ECDH10B_RS19070"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "xylG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418024.1"; locus_tag "ECDH10B_RS19070"; product "D-xylose ABC transporter ATP-binding protein"; protein_id "WP_001146473.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3829340 3829342 . + 0 gene_id "ECDH10B_RS19070"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "xylG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418024.1"; locus_tag "ECDH10B_RS19070"; product "D-xylose ABC transporter ATP-binding protein"; protein_id "WP_001146473.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3829320 3830501 . + . gene_id "ECDH10B_RS19075"; transcript_id ""; gbkey "Gene"; gene "xylH"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19075"; old_locus_tag "ECDH10B_3749"; -NC_010473.1 Protein Homology CDS 3829320 3830498 . + 0 gene_id "ECDH10B_RS19075"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "xylH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312478.1"; locus_tag "ECDH10B_RS19075"; product "xylose ABC transporter permease XylH"; protein_id "WP_000045978.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3829320 3829322 . + 0 gene_id "ECDH10B_RS19075"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "xylH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312478.1"; locus_tag "ECDH10B_RS19075"; product "xylose ABC transporter permease XylH"; protein_id "WP_000045978.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3830499 3830501 . + 0 gene_id "ECDH10B_RS19075"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "xylH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312478.1"; locus_tag "ECDH10B_RS19075"; product "xylose ABC transporter permease XylH"; protein_id "WP_000045978.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3830579 3831757 . + . gene_id "ECDH10B_RS19080"; transcript_id ""; gbkey "Gene"; gene "xylR"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19080"; old_locus_tag "ECDH10B_3750"; -NC_010473.1 Protein Homology CDS 3830579 3831754 . + 0 gene_id "ECDH10B_RS19080"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "xylR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312479.1"; locus_tag "ECDH10B_RS19080"; product "DNA-binding transcriptional regulator XylR"; protein_id "WP_000494484.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3830579 3830581 . + 0 gene_id "ECDH10B_RS19080"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "xylR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312479.1"; locus_tag "ECDH10B_RS19080"; product "DNA-binding transcriptional regulator XylR"; protein_id "WP_000494484.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3831755 3831757 . + 0 gene_id "ECDH10B_RS19080"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "xylR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312479.1"; locus_tag "ECDH10B_RS19080"; product "DNA-binding transcriptional regulator XylR"; protein_id "WP_000494484.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3831953 3832777 . - . gene_id "ECDH10B_RS19085"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19085"; old_locus_tag "ECDH10B_3751"; -NC_010473.1 Protein Homology CDS 3831956 3832777 . - 0 gene_id "ECDH10B_RS19085"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026230.1"; locus_tag "ECDH10B_RS19085"; product "protein bax"; protein_id "WP_001297957.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3832775 3832777 . - 0 gene_id "ECDH10B_RS19085"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026230.1"; locus_tag "ECDH10B_RS19085"; product "protein bax"; protein_id "WP_001297957.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3831953 3831955 . - 0 gene_id "ECDH10B_RS19085"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026230.1"; locus_tag "ECDH10B_RS19085"; product "protein bax"; protein_id "WP_001297957.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3833097 3835127 . + . gene_id "ECDH10B_RS19090"; transcript_id ""; gbkey "Gene"; gene "malS"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19090"; old_locus_tag "ECDH10B_3752"; -NC_010473.1 Protein Homology CDS 3833097 3835124 . + 0 gene_id "ECDH10B_RS19090"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "malS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418028.1"; locus_tag "ECDH10B_RS19090"; product "alpha-amylase"; protein_id "WP_000761225.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3833097 3833099 . + 0 gene_id "ECDH10B_RS19090"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "malS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418028.1"; locus_tag "ECDH10B_RS19090"; product "alpha-amylase"; protein_id "WP_000761225.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3835125 3835127 . + 0 gene_id "ECDH10B_RS19090"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "malS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418028.1"; locus_tag "ECDH10B_RS19090"; product "alpha-amylase"; protein_id "WP_000761225.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3835305 3836558 . + . gene_id "ECDH10B_RS19095"; transcript_id ""; gbkey "Gene"; gene "avtA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19095"; old_locus_tag "ECDH10B_3753"; -NC_010473.1 Protein Homology CDS 3835305 3836555 . + 0 gene_id "ECDH10B_RS19095"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "avtA"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026231.1"; locus_tag "ECDH10B_RS19095"; product "valine--pyruvate transaminase"; protein_id "WP_000144363.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3835305 3835307 . + 0 gene_id "ECDH10B_RS19095"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "avtA"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026231.1"; locus_tag "ECDH10B_RS19095"; product "valine--pyruvate transaminase"; protein_id "WP_000144363.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3836556 3836558 . + 0 gene_id "ECDH10B_RS19095"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "avtA"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026231.1"; locus_tag "ECDH10B_RS19095"; product "valine--pyruvate transaminase"; protein_id "WP_000144363.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3836709 3837182 . - . gene_id "ECDH10B_RS19105"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19105"; old_locus_tag "ECDH10B_3754"; -NC_010473.1 Protein Homology CDS 3836712 3837182 . - 0 gene_id "ECDH10B_RS19105"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418030.1"; locus_tag "ECDH10B_RS19105"; product "4Fe-4S binding protein"; protein_id "WP_001300918.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3837180 3837182 . - 0 gene_id "ECDH10B_RS19105"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418030.1"; locus_tag "ECDH10B_RS19105"; product "4Fe-4S binding protein"; protein_id "WP_001300918.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3836709 3836711 . - 0 gene_id "ECDH10B_RS19105"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418030.1"; locus_tag "ECDH10B_RS19105"; product "4Fe-4S binding protein"; protein_id "WP_001300918.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3837284 3838132 . - . gene_id "ECDH10B_RS19110"; transcript_id ""; gbkey "Gene"; gene "yiaJ"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19110"; old_locus_tag "ECDH10B_3755"; -NC_010473.1 Protein Homology CDS 3837287 3838132 . - 0 gene_id "ECDH10B_RS19110"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yiaJ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418031.1"; locus_tag "ECDH10B_RS19110"; product "IclR family transcriptional regulator YiaJ"; protein_id "WP_000514240.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3838130 3838132 . - 0 gene_id "ECDH10B_RS19110"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yiaJ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418031.1"; locus_tag "ECDH10B_RS19110"; product "IclR family transcriptional regulator YiaJ"; protein_id "WP_000514240.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3837284 3837286 . - 0 gene_id "ECDH10B_RS19110"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yiaJ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418031.1"; locus_tag "ECDH10B_RS19110"; product "IclR family transcriptional regulator YiaJ"; protein_id "WP_000514240.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3838333 3839331 . + . gene_id "ECDH10B_RS19115"; transcript_id ""; gbkey "Gene"; gene "yiaK"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19115"; old_locus_tag "ECDH10B_3756"; -NC_010473.1 Protein Homology CDS 3838333 3839328 . + 0 gene_id "ECDH10B_RS19115"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yiaK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418032.1"; locus_tag "ECDH10B_RS19115"; product "3-dehydro-L-gulonate 2-dehydrogenase"; protein_id "WP_000869037.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3838333 3838335 . + 0 gene_id "ECDH10B_RS19115"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yiaK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418032.1"; locus_tag "ECDH10B_RS19115"; product "3-dehydro-L-gulonate 2-dehydrogenase"; protein_id "WP_000869037.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3839329 3839331 . + 0 gene_id "ECDH10B_RS19115"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yiaK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418032.1"; locus_tag "ECDH10B_RS19115"; product "3-dehydro-L-gulonate 2-dehydrogenase"; protein_id "WP_000869037.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3839343 3839810 . + . gene_id "ECDH10B_RS19120"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19120"; old_locus_tag "ECDH10B_3757"; -NC_010473.1 Protein Homology CDS 3839343 3839807 . + 0 gene_id "ECDH10B_RS19120"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418033.1"; locus_tag "ECDH10B_RS19120"; product "YhcH/YjgK/YiaL family protein"; protein_id "WP_000576079.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3839343 3839345 . + 0 gene_id "ECDH10B_RS19120"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418033.1"; locus_tag "ECDH10B_RS19120"; product "YhcH/YjgK/YiaL family protein"; protein_id "WP_000576079.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3839808 3839810 . + 0 gene_id "ECDH10B_RS19120"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418033.1"; locus_tag "ECDH10B_RS19120"; product "YhcH/YjgK/YiaL family protein"; protein_id "WP_000576079.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3839928 3840401 . + . gene_id "ECDH10B_RS19125"; transcript_id ""; gbkey "Gene"; gene "yiaM"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19125"; old_locus_tag "ECDH10B_3758"; -NC_010473.1 Protein Homology CDS 3839928 3840398 . + 0 gene_id "ECDH10B_RS19125"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yiaM"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418034.1"; locus_tag "ECDH10B_RS19125"; product "2,3-diketo-L-gulonate TRAP transporter small permease YiaM"; protein_id "WP_000721664.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3839928 3839930 . + 0 gene_id "ECDH10B_RS19125"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yiaM"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418034.1"; locus_tag "ECDH10B_RS19125"; product "2,3-diketo-L-gulonate TRAP transporter small permease YiaM"; protein_id "WP_000721664.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3840399 3840401 . + 0 gene_id "ECDH10B_RS19125"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yiaM"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418034.1"; locus_tag "ECDH10B_RS19125"; product "2,3-diketo-L-gulonate TRAP transporter small permease YiaM"; protein_id "WP_000721664.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3840404 3841681 . + . gene_id "ECDH10B_RS19130"; transcript_id ""; gbkey "Gene"; gene "yiaN"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19130"; old_locus_tag "ECDH10B_3759"; -NC_010473.1 Protein Homology CDS 3840404 3841678 . + 0 gene_id "ECDH10B_RS19130"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yiaN"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026232.1"; locus_tag "ECDH10B_RS19130"; product "2,3-diketo-L-gulonate transporter large permease YiaN"; protein_id "WP_000279599.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3840404 3840406 . + 0 gene_id "ECDH10B_RS19130"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yiaN"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026232.1"; locus_tag "ECDH10B_RS19130"; product "2,3-diketo-L-gulonate transporter large permease YiaN"; protein_id "WP_000279599.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3841679 3841681 . + 0 gene_id "ECDH10B_RS19130"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yiaN"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026232.1"; locus_tag "ECDH10B_RS19130"; product "2,3-diketo-L-gulonate transporter large permease YiaN"; protein_id "WP_000279599.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3841694 3842680 . + . gene_id "ECDH10B_RS19135"; transcript_id ""; gbkey "Gene"; gene "yiaO"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19135"; old_locus_tag "ECDH10B_3760"; -NC_010473.1 Protein Homology CDS 3841694 3842677 . + 0 gene_id "ECDH10B_RS19135"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yiaO"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418036.1"; locus_tag "ECDH10B_RS19135"; product "2,3-diketo-L-gulonate transporter substrate-binding protein YiaO"; protein_id "WP_000776887.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3841694 3841696 . + 0 gene_id "ECDH10B_RS19135"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yiaO"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418036.1"; locus_tag "ECDH10B_RS19135"; product "2,3-diketo-L-gulonate transporter substrate-binding protein YiaO"; protein_id "WP_000776887.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3842678 3842680 . + 0 gene_id "ECDH10B_RS19135"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yiaO"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418036.1"; locus_tag "ECDH10B_RS19135"; product "2,3-diketo-L-gulonate transporter substrate-binding protein YiaO"; protein_id "WP_000776887.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3842684 3844180 . + . gene_id "ECDH10B_RS19140"; transcript_id ""; gbkey "Gene"; gene "lyxK"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19140"; old_locus_tag "ECDH10B_3761"; -NC_010473.1 Protein Homology CDS 3842684 3844177 . + 0 gene_id "ECDH10B_RS19140"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lyxK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418037.1"; locus_tag "ECDH10B_RS19140"; product "L-xylulokinase"; protein_id "WP_000196054.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3842684 3842686 . + 0 gene_id "ECDH10B_RS19140"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lyxK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418037.1"; locus_tag "ECDH10B_RS19140"; product "L-xylulokinase"; protein_id "WP_000196054.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3844178 3844180 . + 0 gene_id "ECDH10B_RS19140"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lyxK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418037.1"; locus_tag "ECDH10B_RS19140"; product "L-xylulokinase"; protein_id "WP_000196054.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3844177 3844839 . + . gene_id "ECDH10B_RS19145"; transcript_id ""; gbkey "Gene"; gene "ulaD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19145"; old_locus_tag "ECDH10B_3762"; -NC_010473.1 Protein Homology CDS 3844177 3844836 . + 0 gene_id "ECDH10B_RS19145"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ulaD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418038.1"; locus_tag "ECDH10B_RS19145"; product "3-keto-L-gulonate-6-phosphate decarboxylase UlaD"; protein_id "WP_000089481.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3844177 3844179 . + 0 gene_id "ECDH10B_RS19145"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ulaD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418038.1"; locus_tag "ECDH10B_RS19145"; product "3-keto-L-gulonate-6-phosphate decarboxylase UlaD"; protein_id "WP_000089481.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3844837 3844839 . + 0 gene_id "ECDH10B_RS19145"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ulaD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418038.1"; locus_tag "ECDH10B_RS19145"; product "3-keto-L-gulonate-6-phosphate decarboxylase UlaD"; protein_id "WP_000089481.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3844832 3845692 . + . gene_id "ECDH10B_RS19150"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19150"; old_locus_tag "ECDH10B_3763"; -NC_010473.1 Protein Homology CDS 3844832 3845689 . + 0 gene_id "ECDH10B_RS19150"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418039.2"; locus_tag "ECDH10B_RS19150"; product "L-ribulose-5-phosphate 3-epimerase"; protein_id "WP_001350555.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3844832 3844834 . + 0 gene_id "ECDH10B_RS19150"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418039.2"; locus_tag "ECDH10B_RS19150"; product "L-ribulose-5-phosphate 3-epimerase"; protein_id "WP_001350555.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3845690 3845692 . + 0 gene_id "ECDH10B_RS19150"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418039.2"; locus_tag "ECDH10B_RS19150"; product "L-ribulose-5-phosphate 3-epimerase"; protein_id "WP_001350555.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3845686 3846381 . + . gene_id "ECDH10B_RS19155"; transcript_id ""; gbkey "Gene"; gene "araD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19155"; old_locus_tag "ECDH10B_3764"; -NC_010473.1 Protein Homology CDS 3845686 3846378 . + 0 gene_id "ECDH10B_RS19155"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "araD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418040.1"; locus_tag "ECDH10B_RS19155"; product "L-ribulose-5-phosphate 4-epimerase"; protein_id "WP_000893142.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3845686 3845688 . + 0 gene_id "ECDH10B_RS19155"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "araD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418040.1"; locus_tag "ECDH10B_RS19155"; product "L-ribulose-5-phosphate 4-epimerase"; protein_id "WP_000893142.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3846379 3846381 . + 0 gene_id "ECDH10B_RS19155"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "araD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418040.1"; locus_tag "ECDH10B_RS19155"; product "L-ribulose-5-phosphate 4-epimerase"; protein_id "WP_000893142.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3846413 3846514 . - . gene_id "ECDH10B_RS26320"; transcript_id ""; gbkey "Gene"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS26320"; partial "true"; pseudo "true"; -NC_010473.1 Protein Homology CDS 3846416 3846514 . - 0 gene_id "ECDH10B_RS26320"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312484.1"; locus_tag "ECDH10B_RS26320"; note "incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "AraC family transcriptional regulator"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3846512 3846514 . - 0 gene_id "ECDH10B_RS26320"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312484.1"; locus_tag "ECDH10B_RS26320"; note "incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "AraC family transcriptional regulator"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3846413 3846415 . - 0 gene_id "ECDH10B_RS26320"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312484.1"; locus_tag "ECDH10B_RS26320"; note "incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "AraC family transcriptional regulator"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 3846518 3846706 . + . gene_id "ECDH10B_RS26120"; transcript_id ""; gbkey "Gene"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS26120"; partial "true"; pseudo "true"; -NC_010473.1 Protein Homology CDS 3846518 3846703 . + 0 gene_id "ECDH10B_RS26120"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312486.1"; locus_tag "ECDH10B_RS26120"; note "incomplete; partial in the middle of a contig; missing N-terminus and C-terminus"; partial "true"; product "hypothetical protein"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3846518 3846520 . + 0 gene_id "ECDH10B_RS26120"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312486.1"; locus_tag "ECDH10B_RS26120"; note "incomplete; partial in the middle of a contig; missing N-terminus and C-terminus"; partial "true"; product "hypothetical protein"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3846704 3846706 . + 0 gene_id "ECDH10B_RS26120"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312486.1"; locus_tag "ECDH10B_RS26120"; note "incomplete; partial in the middle of a contig; missing N-terminus and C-terminus"; partial "true"; product "hypothetical protein"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 3846728 3847468 . - . gene_id "ECDH10B_RS19160"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19160"; old_locus_tag "ECDH10B_3765"; -NC_010473.1 Protein Homology CDS 3846731 3847468 . - 0 gene_id "ECDH10B_RS19160"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418041.1"; locus_tag "ECDH10B_RS19160"; product "MipA/OmpV family protein"; protein_id "WP_000906819.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3847466 3847468 . - 0 gene_id "ECDH10B_RS19160"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418041.1"; locus_tag "ECDH10B_RS19160"; product "MipA/OmpV family protein"; protein_id "WP_000906819.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3846728 3846730 . - 0 gene_id "ECDH10B_RS19160"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418041.1"; locus_tag "ECDH10B_RS19160"; product "MipA/OmpV family protein"; protein_id "WP_000906819.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3847592 3848566 . + . gene_id "ECDH10B_RS19165"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19165"; old_locus_tag "ECDH10B_3766"; -NC_010473.1 Protein Homology CDS 3847592 3848563 . + 0 gene_id "ECDH10B_RS19165"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418042.1"; locus_tag "ECDH10B_RS19165"; product "LysR family transcriptional regulator"; protein_id "WP_000164036.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3847592 3847594 . + 0 gene_id "ECDH10B_RS19165"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418042.1"; locus_tag "ECDH10B_RS19165"; product "LysR family transcriptional regulator"; protein_id "WP_000164036.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3848564 3848566 . + 0 gene_id "ECDH10B_RS19165"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418042.1"; locus_tag "ECDH10B_RS19165"; product "LysR family transcriptional regulator"; protein_id "WP_000164036.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3848563 3849699 . - . gene_id "ECDH10B_RS19170"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19170"; old_locus_tag "ECDH10B_3767"; -NC_010473.1 Protein Homology CDS 3848566 3849699 . - 0 gene_id "ECDH10B_RS19170"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418043.1"; locus_tag "ECDH10B_RS19170"; product "HlyD family secretion protein"; protein_id "WP_000364884.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3849697 3849699 . - 0 gene_id "ECDH10B_RS19170"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418043.1"; locus_tag "ECDH10B_RS19170"; product "HlyD family secretion protein"; protein_id "WP_000364884.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3848563 3848565 . - 0 gene_id "ECDH10B_RS19170"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418043.1"; locus_tag "ECDH10B_RS19170"; product "HlyD family secretion protein"; protein_id "WP_000364884.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3849705 3850028 . - . gene_id "ECDH10B_RS19175"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19175"; old_locus_tag "ECDH10B_3768"; -NC_010473.1 Protein Homology CDS 3849708 3850028 . - 0 gene_id "ECDH10B_RS19175"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312490.1"; locus_tag "ECDH10B_RS19175"; product "DUF3302 domain-containing protein"; protein_id "WP_000478195.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3850026 3850028 . - 0 gene_id "ECDH10B_RS19175"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312490.1"; locus_tag "ECDH10B_RS19175"; product "DUF3302 domain-containing protein"; protein_id "WP_000478195.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3849705 3849707 . - 0 gene_id "ECDH10B_RS19175"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312490.1"; locus_tag "ECDH10B_RS19175"; product "DUF3302 domain-containing protein"; protein_id "WP_000478195.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3850211 3850354 . + . gene_id "ECDH10B_RS19180"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19180"; -NC_010473.1 GeneMarkS-2+ CDS 3850211 3850351 . + 0 gene_id "ECDH10B_RS19180"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: ab initio prediction:GeneMarkS-2+"; locus_tag "ECDH10B_RS19180"; product "hypothetical protein"; protein_id "WP_001066080.1"; transl_table "11"; -NC_010473.1 GeneMarkS-2+ start_codon 3850211 3850213 . + 0 gene_id "ECDH10B_RS19180"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: ab initio prediction:GeneMarkS-2+"; locus_tag "ECDH10B_RS19180"; product "hypothetical protein"; protein_id "WP_001066080.1"; transl_table "11"; -NC_010473.1 GeneMarkS-2+ stop_codon 3850352 3850354 . + 0 gene_id "ECDH10B_RS19180"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: ab initio prediction:GeneMarkS-2+"; locus_tag "ECDH10B_RS19180"; product "hypothetical protein"; protein_id "WP_001066080.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3850573 3852111 . - . gene_id "ECDH10B_RS19185"; transcript_id ""; gbkey "Gene"; gene "aldB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19185"; old_locus_tag "ECDH10B_3769"; -NC_010473.1 Protein Homology CDS 3850576 3852111 . - 0 gene_id "ECDH10B_RS19185"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "aldB"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001551836.1"; locus_tag "ECDH10B_RS19185"; product "aldehyde dehydrogenase AldB"; protein_id "WP_000183980.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3852109 3852111 . - 0 gene_id "ECDH10B_RS19185"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "aldB"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001551836.1"; locus_tag "ECDH10B_RS19185"; product "aldehyde dehydrogenase AldB"; protein_id "WP_000183980.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3850573 3850575 . - 0 gene_id "ECDH10B_RS19185"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "aldB"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001551836.1"; locus_tag "ECDH10B_RS19185"; product "aldehyde dehydrogenase AldB"; protein_id "WP_000183980.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3852276 3853427 . - . gene_id "ECDH10B_RS19190"; transcript_id ""; gbkey "Gene"; gene "yiaY"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19190"; old_locus_tag "ECDH10B_3770"; -NC_010473.1 Protein Homology CDS 3852279 3853427 . - 0 gene_id "ECDH10B_RS19190"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yiaY"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026233.1"; locus_tag "ECDH10B_RS19190"; product "L-threonine dehydrogenase"; protein_id "WP_000741518.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3853425 3853427 . - 0 gene_id "ECDH10B_RS19190"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yiaY"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026233.1"; locus_tag "ECDH10B_RS19190"; product "L-threonine dehydrogenase"; protein_id "WP_000741518.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3852276 3852278 . - 0 gene_id "ECDH10B_RS19190"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yiaY"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026233.1"; locus_tag "ECDH10B_RS19190"; product "L-threonine dehydrogenase"; protein_id "WP_000741518.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3853617 3855461 . - . gene_id "ECDH10B_RS19195"; transcript_id ""; gbkey "Gene"; gene "selB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19195"; old_locus_tag "ECDH10B_3771"; -NC_010473.1 Protein Homology CDS 3853620 3855461 . - 0 gene_id "ECDH10B_RS19195"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "selB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418047.1"; locus_tag "ECDH10B_RS19195"; product "selenocysteine-specific translation elongation factor"; protein_id "WP_000582468.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3855459 3855461 . - 0 gene_id "ECDH10B_RS19195"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "selB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418047.1"; locus_tag "ECDH10B_RS19195"; product "selenocysteine-specific translation elongation factor"; protein_id "WP_000582468.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3853617 3853619 . - 0 gene_id "ECDH10B_RS19195"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "selB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418047.1"; locus_tag "ECDH10B_RS19195"; product "selenocysteine-specific translation elongation factor"; protein_id "WP_000582468.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3855458 3856849 . - . gene_id "ECDH10B_RS19200"; transcript_id ""; gbkey "Gene"; gene "selA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19200"; -NC_010473.1 Protein Homology CDS 3855461 3856849 . - 0 gene_id "ECDH10B_RS19200"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "selA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312495.1"; locus_tag "ECDH10B_RS19200"; product "L-seryl-tRNA(Sec) selenium transferase"; protein_id "WP_000206223.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3856847 3856849 . - 0 gene_id "ECDH10B_RS19200"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "selA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312495.1"; locus_tag "ECDH10B_RS19200"; product "L-seryl-tRNA(Sec) selenium transferase"; protein_id "WP_000206223.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3855458 3855460 . - 0 gene_id "ECDH10B_RS19200"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "selA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312495.1"; locus_tag "ECDH10B_RS19200"; product "L-seryl-tRNA(Sec) selenium transferase"; protein_id "WP_000206223.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3856947 3857555 . - . gene_id "ECDH10B_RS19205"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19205"; old_locus_tag "ECDH10B_3773"; -NC_010473.1 Protein Homology CDS 3856950 3857555 . - 0 gene_id "ECDH10B_RS19205"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418049.1"; locus_tag "ECDH10B_RS19205"; product "glutathione S-transferase"; protein_id "WP_000779792.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3857553 3857555 . - 0 gene_id "ECDH10B_RS19205"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418049.1"; locus_tag "ECDH10B_RS19205"; product "glutathione S-transferase"; protein_id "WP_000779792.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3856947 3856949 . - 0 gene_id "ECDH10B_RS19205"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418049.1"; locus_tag "ECDH10B_RS19205"; product "glutathione S-transferase"; protein_id "WP_000779792.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3857783 3861916 . + . gene_id "ECDH10B_RS19210"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19210"; -NC_010473.1 Protein Homology CDS 3857783 3861913 . + 0 gene_id "ECDH10B_RS19210"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418050.1"; locus_tag "ECDH10B_RS19210"; product "RHS element protein RhsA"; protein_id "WP_000015300.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3857783 3857785 . + 0 gene_id "ECDH10B_RS19210"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418050.1"; locus_tag "ECDH10B_RS19210"; product "RHS element protein RhsA"; protein_id "WP_000015300.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3861914 3861916 . + 0 gene_id "ECDH10B_RS19210"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418050.1"; locus_tag "ECDH10B_RS19210"; product "RHS element protein RhsA"; protein_id "WP_000015300.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3861937 3862779 . + . gene_id "ECDH10B_RS19215"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19215"; old_locus_tag "ECDH10B_3775"; -NC_010473.1 Protein Homology CDS 3861937 3862776 . + 0 gene_id "ECDH10B_RS19215"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418051.1"; locus_tag "ECDH10B_RS19215"; product "HEAT repeat domain-containing protein"; protein_id "WP_000072850.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3861937 3861939 . + 0 gene_id "ECDH10B_RS19215"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418051.1"; locus_tag "ECDH10B_RS19215"; product "HEAT repeat domain-containing protein"; protein_id "WP_000072850.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3862777 3862779 . + 0 gene_id "ECDH10B_RS19215"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418051.1"; locus_tag "ECDH10B_RS19215"; product "HEAT repeat domain-containing protein"; protein_id "WP_000072850.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3862807 3863765 . + . gene_id "ECDH10B_RS19220"; transcript_id ""; gbkey "Gene"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS19220"; old_locus_tag "ECDH10B_3776"; partial "true"; pseudo "true"; -NC_010473.1 Protein Homology CDS 3862807 3863762 . + 0 gene_id "ECDH10B_RS19220"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312497.1"; locus_tag "ECDH10B_RS19220"; note "frameshifted; internal stop; incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "RHS repeat protein"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3862807 3862809 . + 0 gene_id "ECDH10B_RS19220"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312497.1"; locus_tag "ECDH10B_RS19220"; note "frameshifted; internal stop; incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "RHS repeat protein"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3863763 3863765 . + 0 gene_id "ECDH10B_RS19220"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312497.1"; locus_tag "ECDH10B_RS19220"; note "frameshifted; internal stop; incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "RHS repeat protein"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 3863777 3864238 . + . gene_id "ECDH10B_RS19225"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19225"; old_locus_tag "ECDH10B_3777"; -NC_010473.1 Protein Homology CDS 3863777 3864235 . + 0 gene_id "ECDH10B_RS19225"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418053.1"; locus_tag "ECDH10B_RS19225"; product "sel1 repeat family protein"; protein_id "WP_000642478.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3863777 3863779 . + 0 gene_id "ECDH10B_RS19225"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418053.1"; locus_tag "ECDH10B_RS19225"; product "sel1 repeat family protein"; protein_id "WP_000642478.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3864236 3864238 . + 0 gene_id "ECDH10B_RS19225"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418053.1"; locus_tag "ECDH10B_RS19225"; product "sel1 repeat family protein"; protein_id "WP_000642478.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3864945 3865280 . + . gene_id "ECDH10B_RS19230"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19230"; -NC_010473.1 Protein Homology CDS 3864945 3865277 . + 0 gene_id "ECDH10B_RS19230"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_009518821.1"; locus_tag "ECDH10B_RS19230"; product "hypothetical protein"; protein_id "WP_001326561.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3864945 3864947 . + 0 gene_id "ECDH10B_RS19230"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_009518821.1"; locus_tag "ECDH10B_RS19230"; product "hypothetical protein"; protein_id "WP_001326561.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3865278 3865280 . + 0 gene_id "ECDH10B_RS19230"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_009518821.1"; locus_tag "ECDH10B_RS19230"; product "hypothetical protein"; protein_id "WP_001326561.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3865843 3866979 . - . gene_id "ECDH10B_RS19235"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19235"; old_locus_tag "ECDH10B_3778"; -NC_010473.1 Protein Homology CDS 3865846 3866979 . - 0 gene_id "ECDH10B_RS19235"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312500.1"; locus_tag "ECDH10B_RS19235"; product "HlyD family secretion protein"; protein_id "WP_000364939.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3866977 3866979 . - 0 gene_id "ECDH10B_RS19235"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312500.1"; locus_tag "ECDH10B_RS19235"; product "HlyD family secretion protein"; protein_id "WP_000364939.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3865843 3865845 . - 0 gene_id "ECDH10B_RS19235"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312500.1"; locus_tag "ECDH10B_RS19235"; product "HlyD family secretion protein"; protein_id "WP_000364939.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3866982 3867344 . - . gene_id "ECDH10B_RS19240"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19240"; old_locus_tag "ECDH10B_3779"; -NC_010473.1 Protein Homology CDS 3866985 3867344 . - 0 gene_id "ECDH10B_RS19240"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418055.1"; locus_tag "ECDH10B_RS19240"; product "DUF3302 domain-containing protein"; protein_id "WP_000479624.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3867342 3867344 . - 0 gene_id "ECDH10B_RS19240"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418055.1"; locus_tag "ECDH10B_RS19240"; product "DUF3302 domain-containing protein"; protein_id "WP_000479624.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3866982 3866984 . - 0 gene_id "ECDH10B_RS19240"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418055.1"; locus_tag "ECDH10B_RS19240"; product "DUF3302 domain-containing protein"; protein_id "WP_000479624.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3867881 3869794 . + . gene_id "ECDH10B_RS19245"; transcript_id ""; gbkey "Gene"; gene "mtlA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19245"; old_locus_tag "ECDH10B_3780"; -NC_010473.1 Protein Homology CDS 3867881 3869791 . + 0 gene_id "ECDH10B_RS19245"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mtlA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418056.1"; locus_tag "ECDH10B_RS19245"; product "PTS mannitol transporter subunit IICBA"; protein_id "WP_000093247.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3867881 3867883 . + 0 gene_id "ECDH10B_RS19245"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mtlA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418056.1"; locus_tag "ECDH10B_RS19245"; product "PTS mannitol transporter subunit IICBA"; protein_id "WP_000093247.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3869792 3869794 . + 0 gene_id "ECDH10B_RS19245"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mtlA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418056.1"; locus_tag "ECDH10B_RS19245"; product "PTS mannitol transporter subunit IICBA"; protein_id "WP_000093247.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3870024 3871172 . + . gene_id "ECDH10B_RS19250"; transcript_id ""; gbkey "Gene"; gene "mtlD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19250"; old_locus_tag "ECDH10B_3781"; -NC_010473.1 Protein Homology CDS 3870024 3871169 . + 0 gene_id "ECDH10B_RS19250"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mtlD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418057.1"; locus_tag "ECDH10B_RS19250"; product "mannitol-1-phosphate 5-dehydrogenase"; protein_id "WP_000645439.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3870024 3870026 . + 0 gene_id "ECDH10B_RS19250"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mtlD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418057.1"; locus_tag "ECDH10B_RS19250"; product "mannitol-1-phosphate 5-dehydrogenase"; protein_id "WP_000645439.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3871170 3871172 . + 0 gene_id "ECDH10B_RS19250"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mtlD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418057.1"; locus_tag "ECDH10B_RS19250"; product "mannitol-1-phosphate 5-dehydrogenase"; protein_id "WP_000645439.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3871172 3871759 . + . gene_id "ECDH10B_RS19255"; transcript_id ""; gbkey "Gene"; gene "mtlR"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19255"; old_locus_tag "ECDH10B_3782"; -NC_010473.1 Protein Homology CDS 3871172 3871756 . + 0 gene_id "ECDH10B_RS19255"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mtlR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418058.1"; locus_tag "ECDH10B_RS19255"; product "mannitol operon repressor MtlR"; protein_id "WP_000228269.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3871172 3871174 . + 0 gene_id "ECDH10B_RS19255"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mtlR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418058.1"; locus_tag "ECDH10B_RS19255"; product "mannitol operon repressor MtlR"; protein_id "WP_000228269.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3871757 3871759 . + 0 gene_id "ECDH10B_RS19255"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mtlR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418058.1"; locus_tag "ECDH10B_RS19255"; product "mannitol operon repressor MtlR"; protein_id "WP_000228269.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3871771 3871980 . - . gene_id "ECDH10B_RS19260"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19260"; old_locus_tag "ECDH10B_3783"; -NC_010473.1 Protein Homology CDS 3871774 3871980 . - 0 gene_id "ECDH10B_RS19260"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_588470.1"; locus_tag "ECDH10B_RS19260"; product "hypothetical protein"; protein_id "WP_000517100.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3871978 3871980 . - 0 gene_id "ECDH10B_RS19260"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_588470.1"; locus_tag "ECDH10B_RS19260"; product "hypothetical protein"; protein_id "WP_000517100.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3871771 3871773 . - 0 gene_id "ECDH10B_RS19260"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_588470.1"; locus_tag "ECDH10B_RS19260"; product "hypothetical protein"; protein_id "WP_000517100.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3872265 3872627 . + . gene_id "ECDH10B_RS19265"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19265"; old_locus_tag "ECDH10B_3784"; -NC_010473.1 Protein Homology CDS 3872265 3872624 . + 0 gene_id "ECDH10B_RS19265"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312505.1"; locus_tag "ECDH10B_RS19265"; product "YibL family ribosome-associated protein"; protein_id "WP_000665680.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3872265 3872267 . + 0 gene_id "ECDH10B_RS19265"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312505.1"; locus_tag "ECDH10B_RS19265"; product "YibL family ribosome-associated protein"; protein_id "WP_000665680.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3872625 3872627 . + 0 gene_id "ECDH10B_RS19265"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312505.1"; locus_tag "ECDH10B_RS19265"; product "YibL family ribosome-associated protein"; protein_id "WP_000665680.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3872999 3874654 . + . gene_id "ECDH10B_RS19270"; transcript_id ""; gbkey "Gene"; gene "lldP"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19270"; old_locus_tag "ECDH10B_3785"; -NC_010473.1 Protein Homology CDS 3872999 3874651 . + 0 gene_id "ECDH10B_RS19270"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lldP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418060.1"; locus_tag "ECDH10B_RS19270"; product "L-lactate permease"; protein_id "WP_001295233.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3872999 3873001 . + 0 gene_id "ECDH10B_RS19270"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lldP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418060.1"; locus_tag "ECDH10B_RS19270"; product "L-lactate permease"; protein_id "WP_001295233.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3874652 3874654 . + 0 gene_id "ECDH10B_RS19270"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lldP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418060.1"; locus_tag "ECDH10B_RS19270"; product "L-lactate permease"; protein_id "WP_001295233.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3874654 3875430 . + . gene_id "ECDH10B_RS19275"; transcript_id ""; gbkey "Gene"; gene "lldR"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19275"; old_locus_tag "ECDH10B_3786"; -NC_010473.1 Protein Homology CDS 3874654 3875427 . + 0 gene_id "ECDH10B_RS19275"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lldR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418061.1"; locus_tag "ECDH10B_RS19275"; product "transcriptional regulator LldR"; protein_id "WP_000636500.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3874654 3874656 . + 0 gene_id "ECDH10B_RS19275"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lldR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418061.1"; locus_tag "ECDH10B_RS19275"; product "transcriptional regulator LldR"; protein_id "WP_000636500.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3875428 3875430 . + 0 gene_id "ECDH10B_RS19275"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lldR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418061.1"; locus_tag "ECDH10B_RS19275"; product "transcriptional regulator LldR"; protein_id "WP_000636500.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3875427 3876617 . + . gene_id "ECDH10B_RS19280"; transcript_id ""; gbkey "Gene"; gene "lldD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19280"; old_locus_tag "ECDH10B_3787"; -NC_010473.1 Protein Homology CDS 3875427 3876614 . + 0 gene_id "ECDH10B_RS19280"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lldD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418062.1"; locus_tag "ECDH10B_RS19280"; product "quinone-dependent L-lactate dehydrogenase"; protein_id "WP_000586962.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3875427 3875429 . + 0 gene_id "ECDH10B_RS19280"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lldD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418062.1"; locus_tag "ECDH10B_RS19280"; product "quinone-dependent L-lactate dehydrogenase"; protein_id "WP_000586962.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3876615 3876617 . + 0 gene_id "ECDH10B_RS19280"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lldD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418062.1"; locus_tag "ECDH10B_RS19280"; product "quinone-dependent L-lactate dehydrogenase"; protein_id "WP_000586962.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3876815 3877288 . + . gene_id "ECDH10B_RS19285"; transcript_id ""; gbkey "Gene"; gene "trmL"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19285"; old_locus_tag "ECDH10B_3788"; -NC_010473.1 Protein Homology CDS 3876815 3877285 . + 0 gene_id "ECDH10B_RS19285"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "trmL"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418063.1"; locus_tag "ECDH10B_RS19285"; product "tRNA (uridine(34)/cytosine(34)/5-carboxymethylaminomethyluridine(34)-2'-O)-methyltransferase TrmL"; protein_id "WP_000932347.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3876815 3876817 . + 0 gene_id "ECDH10B_RS19285"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "trmL"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418063.1"; locus_tag "ECDH10B_RS19285"; product "tRNA (uridine(34)/cytosine(34)/5-carboxymethylaminomethyluridine(34)-2'-O)-methyltransferase TrmL"; protein_id "WP_000932347.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3877286 3877288 . + 0 gene_id "ECDH10B_RS19285"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "trmL"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418063.1"; locus_tag "ECDH10B_RS19285"; product "tRNA (uridine(34)/cytosine(34)/5-carboxymethylaminomethyluridine(34)-2'-O)-methyltransferase TrmL"; protein_id "WP_000932347.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3877341 3878162 . - . gene_id "ECDH10B_RS19290"; transcript_id ""; gbkey "Gene"; gene "cysE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19290"; old_locus_tag "ECDH10B_3789"; -NC_010473.1 Protein Homology CDS 3877344 3878162 . - 0 gene_id "ECDH10B_RS19290"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cysE"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001112113.1"; locus_tag "ECDH10B_RS19290"; product "serine O-acetyltransferase"; protein_id "WP_001277561.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3878160 3878162 . - 0 gene_id "ECDH10B_RS19290"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cysE"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001112113.1"; locus_tag "ECDH10B_RS19290"; product "serine O-acetyltransferase"; protein_id "WP_001277561.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3877341 3877343 . - 0 gene_id "ECDH10B_RS19290"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cysE"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001112113.1"; locus_tag "ECDH10B_RS19290"; product "serine O-acetyltransferase"; protein_id "WP_001277561.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3878242 3879261 . - . gene_id "ECDH10B_RS19295"; transcript_id ""; gbkey "Gene"; gene "gpsA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19295"; old_locus_tag "ECDH10B_3790"; -NC_010473.1 Protein Homology CDS 3878245 3879261 . - 0 gene_id "ECDH10B_RS19295"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gpsA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312513.1"; locus_tag "ECDH10B_RS19295"; product "NAD(P)H-dependent glycerol-3-phosphate dehydrogenase"; protein_id "WP_001076194.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3879259 3879261 . - 0 gene_id "ECDH10B_RS19295"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gpsA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312513.1"; locus_tag "ECDH10B_RS19295"; product "NAD(P)H-dependent glycerol-3-phosphate dehydrogenase"; protein_id "WP_001076194.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3878242 3878244 . - 0 gene_id "ECDH10B_RS19295"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gpsA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312513.1"; locus_tag "ECDH10B_RS19295"; product "NAD(P)H-dependent glycerol-3-phosphate dehydrogenase"; protein_id "WP_001076194.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3879261 3879728 . - . gene_id "ECDH10B_RS19300"; transcript_id ""; gbkey "Gene"; gene "secB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19300"; old_locus_tag "ECDH10B_3791"; -NC_010473.1 Protein Homology CDS 3879264 3879728 . - 0 gene_id "ECDH10B_RS19300"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "secB"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_015369180.1"; locus_tag "ECDH10B_RS19300"; product "protein-export chaperone SecB"; protein_id "WP_000003377.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3879726 3879728 . - 0 gene_id "ECDH10B_RS19300"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "secB"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_015369180.1"; locus_tag "ECDH10B_RS19300"; product "protein-export chaperone SecB"; protein_id "WP_000003377.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3879261 3879263 . - 0 gene_id "ECDH10B_RS19300"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "secB"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_015369180.1"; locus_tag "ECDH10B_RS19300"; product "protein-export chaperone SecB"; protein_id "WP_000003377.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3879791 3880042 . - . gene_id "ECDH10B_RS19305"; transcript_id ""; gbkey "Gene"; gene "grxC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19305"; old_locus_tag "ECDH10B_3792"; -NC_010473.1 Protein Homology CDS 3879794 3880042 . - 0 gene_id "ECDH10B_RS19305"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "grxC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312515.1"; locus_tag "ECDH10B_RS19305"; product "glutaredoxin 3"; protein_id "WP_000024392.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3880040 3880042 . - 0 gene_id "ECDH10B_RS19305"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "grxC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312515.1"; locus_tag "ECDH10B_RS19305"; product "glutaredoxin 3"; protein_id "WP_000024392.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3879791 3879793 . - 0 gene_id "ECDH10B_RS19305"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "grxC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312515.1"; locus_tag "ECDH10B_RS19305"; product "glutaredoxin 3"; protein_id "WP_000024392.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3880184 3880615 . - . gene_id "ECDH10B_RS19310"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19310"; old_locus_tag "ECDH10B_3793"; -NC_010473.1 Protein Homology CDS 3880187 3880615 . - 0 gene_id "ECDH10B_RS19310"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312516.1"; locus_tag "ECDH10B_RS19310"; product "rhodanese-like domain-containing protein"; protein_id "WP_001156181.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3880613 3880615 . - 0 gene_id "ECDH10B_RS19310"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312516.1"; locus_tag "ECDH10B_RS19310"; product "rhodanese-like domain-containing protein"; protein_id "WP_001156181.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3880184 3880186 . - 0 gene_id "ECDH10B_RS19310"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312516.1"; locus_tag "ECDH10B_RS19310"; product "rhodanese-like domain-containing protein"; protein_id "WP_001156181.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3880860 3882404 . + . gene_id "ECDH10B_RS19315"; transcript_id ""; gbkey "Gene"; gene "gpmM"; gene_biotype "protein_coding"; gene_synonym "pgmI"; locus_tag "ECDH10B_RS19315"; old_locus_tag "ECDH10B_3794"; -NC_010473.1 Protein Homology CDS 3880860 3882401 . + 0 gene_id "ECDH10B_RS19315"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gpmM"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418069.1"; locus_tag "ECDH10B_RS19315"; product "2,3-bisphosphoglycerate-independent phosphoglycerate mutase"; protein_id "WP_001350558.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3880860 3880862 . + 0 gene_id "ECDH10B_RS19315"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gpmM"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418069.1"; locus_tag "ECDH10B_RS19315"; product "2,3-bisphosphoglycerate-independent phosphoglycerate mutase"; protein_id "WP_001350558.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3882402 3882404 . + 0 gene_id "ECDH10B_RS19315"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gpmM"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418069.1"; locus_tag "ECDH10B_RS19315"; product "2,3-bisphosphoglycerate-independent phosphoglycerate mutase"; protein_id "WP_001350558.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3882414 3883697 . + . gene_id "ECDH10B_RS19320"; transcript_id ""; gbkey "Gene"; gene "envC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19320"; old_locus_tag "ECDH10B_3795"; -NC_010473.1 Protein Homology CDS 3882414 3883694 . + 0 gene_id "ECDH10B_RS19320"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "envC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_462605.1"; locus_tag "ECDH10B_RS19320"; product "murein hydrolase activator EnvC"; protein_id "WP_001214147.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3882414 3882416 . + 0 gene_id "ECDH10B_RS19320"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "envC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_462605.1"; locus_tag "ECDH10B_RS19320"; product "murein hydrolase activator EnvC"; protein_id "WP_001214147.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3883695 3883697 . + 0 gene_id "ECDH10B_RS19320"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "envC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_462605.1"; locus_tag "ECDH10B_RS19320"; product "murein hydrolase activator EnvC"; protein_id "WP_001214147.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3883701 3884660 . + . gene_id "ECDH10B_RS19325"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19325"; old_locus_tag "ECDH10B_3796"; -NC_010473.1 Protein Homology CDS 3883701 3884657 . + 0 gene_id "ECDH10B_RS19325"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418071.4"; locus_tag "ECDH10B_RS19325"; product "divergent polysaccharide deacetylase family protein"; protein_id "WP_000483847.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3883701 3883703 . + 0 gene_id "ECDH10B_RS19325"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418071.4"; locus_tag "ECDH10B_RS19325"; product "divergent polysaccharide deacetylase family protein"; protein_id "WP_000483847.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3884658 3884660 . + 0 gene_id "ECDH10B_RS19325"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418071.4"; locus_tag "ECDH10B_RS19325"; product "divergent polysaccharide deacetylase family protein"; protein_id "WP_000483847.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3884647 3885681 . - . gene_id "ECDH10B_RS19330"; transcript_id ""; gbkey "Gene"; gene "waaH"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19330"; old_locus_tag "ECDH10B_3797"; -NC_010473.1 Protein Homology CDS 3884650 3885681 . - 0 gene_id "ECDH10B_RS19330"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "waaH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418072.1"; locus_tag "ECDH10B_RS19330"; product "UDP-glucuronate:LPS(HepIII) glycosyltransferase"; protein_id "WP_000982115.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3885679 3885681 . - 0 gene_id "ECDH10B_RS19330"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "waaH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418072.1"; locus_tag "ECDH10B_RS19330"; product "UDP-glucuronate:LPS(HepIII) glycosyltransferase"; protein_id "WP_000982115.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3884647 3884649 . - 0 gene_id "ECDH10B_RS19330"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "waaH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418072.1"; locus_tag "ECDH10B_RS19330"; product "UDP-glucuronate:LPS(HepIII) glycosyltransferase"; protein_id "WP_000982115.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3885920 3886945 . - . gene_id "ECDH10B_RS19335"; transcript_id ""; gbkey "Gene"; gene "tdh"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19335"; old_locus_tag "ECDH10B_3798"; -NC_010473.1 Protein Homology CDS 3885923 3886945 . - 0 gene_id "ECDH10B_RS19335"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tdh"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005120462.1"; locus_tag "ECDH10B_RS19335"; product "L-threonine 3-dehydrogenase"; protein_id "WP_000646007.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3886943 3886945 . - 0 gene_id "ECDH10B_RS19335"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tdh"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005120462.1"; locus_tag "ECDH10B_RS19335"; product "L-threonine 3-dehydrogenase"; protein_id "WP_000646007.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3885920 3885922 . - 0 gene_id "ECDH10B_RS19335"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tdh"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005120462.1"; locus_tag "ECDH10B_RS19335"; product "L-threonine 3-dehydrogenase"; protein_id "WP_000646007.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3886955 3888151 . - . gene_id "ECDH10B_RS19340"; transcript_id ""; gbkey "Gene"; gene "kbl"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19340"; old_locus_tag "ECDH10B_3799"; -NC_010473.1 Protein Homology CDS 3886958 3888151 . - 0 gene_id "ECDH10B_RS19340"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "kbl"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_020239151.1"; locus_tag "ECDH10B_RS19340"; product "glycine C-acetyltransferase"; protein_id "WP_001213834.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3888149 3888151 . - 0 gene_id "ECDH10B_RS19340"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "kbl"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_020239151.1"; locus_tag "ECDH10B_RS19340"; product "glycine C-acetyltransferase"; protein_id "WP_001213834.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3886955 3886957 . - 0 gene_id "ECDH10B_RS19340"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "kbl"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_020239151.1"; locus_tag "ECDH10B_RS19340"; product "glycine C-acetyltransferase"; protein_id "WP_001213834.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3888426 3889283 . - . gene_id "ECDH10B_RS19345"; transcript_id ""; gbkey "Gene"; gene "yibB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19345"; old_locus_tag "ECDH10B_3800"; -NC_010473.1 Protein Homology CDS 3888429 3889283 . - 0 gene_id "ECDH10B_RS19345"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yibB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418075.2"; locus_tag "ECDH10B_RS19345"; product "protein YibB"; protein_id "WP_000842820.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3889281 3889283 . - 0 gene_id "ECDH10B_RS19345"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yibB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418075.2"; locus_tag "ECDH10B_RS19345"; product "protein YibB"; protein_id "WP_000842820.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3888426 3888428 . - 0 gene_id "ECDH10B_RS19345"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yibB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418075.2"; locus_tag "ECDH10B_RS19345"; product "protein YibB"; protein_id "WP_000842820.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3889587 3890519 . + . gene_id "ECDH10B_RS19350"; transcript_id ""; gbkey "Gene"; gene "rfaD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19350"; old_locus_tag "ECDH10B_3801"; -NC_010473.1 Protein Homology CDS 3889587 3890516 . + 0 gene_id "ECDH10B_RS19350"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rfaD"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_020233050.1"; locus_tag "ECDH10B_RS19350"; product "ADP-glyceromanno-heptose 6-epimerase"; protein_id "WP_000587764.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3889587 3889589 . + 0 gene_id "ECDH10B_RS19350"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rfaD"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_020233050.1"; locus_tag "ECDH10B_RS19350"; product "ADP-glyceromanno-heptose 6-epimerase"; protein_id "WP_000587764.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3890517 3890519 . + 0 gene_id "ECDH10B_RS19350"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rfaD"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_020233050.1"; locus_tag "ECDH10B_RS19350"; product "ADP-glyceromanno-heptose 6-epimerase"; protein_id "WP_000587764.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3890529 3891575 . + . gene_id "ECDH10B_RS19355"; transcript_id ""; gbkey "Gene"; gene "rfaF"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19355"; old_locus_tag "ECDH10B_3802"; -NC_010473.1 Protein Homology CDS 3890529 3891572 . + 0 gene_id "ECDH10B_RS19355"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rfaF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418077.1"; locus_tag "ECDH10B_RS19355"; product "ADP-heptose--LPS heptosyltransferase RfaF"; protein_id "WP_000699219.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3890529 3890531 . + 0 gene_id "ECDH10B_RS19355"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rfaF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418077.1"; locus_tag "ECDH10B_RS19355"; product "ADP-heptose--LPS heptosyltransferase RfaF"; protein_id "WP_000699219.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3891573 3891575 . + 0 gene_id "ECDH10B_RS19355"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rfaF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418077.1"; locus_tag "ECDH10B_RS19355"; product "ADP-heptose--LPS heptosyltransferase RfaF"; protein_id "WP_000699219.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3891579 3892538 . + . gene_id "ECDH10B_RS19360"; transcript_id ""; gbkey "Gene"; gene "rfaC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19360"; old_locus_tag "ECDH10B_3803"; -NC_010473.1 Protein Homology CDS 3891579 3892535 . + 0 gene_id "ECDH10B_RS19360"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rfaC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418078.1"; locus_tag "ECDH10B_RS19360"; product "lipopolysaccharide heptosyltransferase RfaC"; protein_id "WP_001264584.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3891579 3891581 . + 0 gene_id "ECDH10B_RS19360"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rfaC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418078.1"; locus_tag "ECDH10B_RS19360"; product "lipopolysaccharide heptosyltransferase RfaC"; protein_id "WP_001264584.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3892536 3892538 . + 0 gene_id "ECDH10B_RS19360"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rfaC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418078.1"; locus_tag "ECDH10B_RS19360"; product "lipopolysaccharide heptosyltransferase RfaC"; protein_id "WP_001264584.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3892548 3893807 . + . gene_id "ECDH10B_RS19365"; transcript_id ""; gbkey "Gene"; gene "waaL"; gene_biotype "protein_coding"; gene_synonym "rfaL"; locus_tag "ECDH10B_RS19365"; old_locus_tag "ECDH10B_3804"; -NC_010473.1 Protein Homology CDS 3892548 3893804 . + 0 gene_id "ECDH10B_RS19365"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "waaL"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418079.1"; locus_tag "ECDH10B_RS19365"; product "O-antigen ligase"; protein_id "WP_001395405.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3892548 3892550 . + 0 gene_id "ECDH10B_RS19365"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "waaL"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418079.1"; locus_tag "ECDH10B_RS19365"; product "O-antigen ligase"; protein_id "WP_001395405.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3893805 3893807 . + 0 gene_id "ECDH10B_RS19365"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "waaL"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418079.1"; locus_tag "ECDH10B_RS19365"; product "O-antigen ligase"; protein_id "WP_001395405.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3893839 3894912 . - . gene_id "ECDH10B_RS19370"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19370"; old_locus_tag "ECDH10B_3805"; -NC_010473.1 Protein Homology CDS 3893842 3894912 . - 0 gene_id "ECDH10B_RS19370"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418080.1"; locus_tag "ECDH10B_RS19370"; product "glycosyltransferase family 9 protein"; protein_id "WP_001236433.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3894910 3894912 . - 0 gene_id "ECDH10B_RS19370"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418080.1"; locus_tag "ECDH10B_RS19370"; product "glycosyltransferase family 9 protein"; protein_id "WP_001236433.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3893839 3893841 . - 0 gene_id "ECDH10B_RS19370"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418080.1"; locus_tag "ECDH10B_RS19370"; product "glycosyltransferase family 9 protein"; protein_id "WP_001236433.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3894945 3895796 . - . gene_id "ECDH10B_RS19375"; transcript_id ""; gbkey "Gene"; gene "waaZ"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19375"; old_locus_tag "ECDH10B_3806"; -NC_010473.1 Protein Homology CDS 3894948 3895796 . - 0 gene_id "ECDH10B_RS19375"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "waaZ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418081.1"; locus_tag "ECDH10B_RS19375"; product "3-deoxy-D-manno-oct-2-ulosonate III transferase WaaZ"; protein_id "WP_000790279.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3895794 3895796 . - 0 gene_id "ECDH10B_RS19375"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "waaZ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418081.1"; locus_tag "ECDH10B_RS19375"; product "3-deoxy-D-manno-oct-2-ulosonate III transferase WaaZ"; protein_id "WP_000790279.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3894945 3894947 . - 0 gene_id "ECDH10B_RS19375"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "waaZ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418081.1"; locus_tag "ECDH10B_RS19375"; product "3-deoxy-D-manno-oct-2-ulosonate III transferase WaaZ"; protein_id "WP_000790279.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3895867 3896565 . - . gene_id "ECDH10B_RS19380"; transcript_id ""; gbkey "Gene"; gene "rfaY"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19380"; old_locus_tag "ECDH10B_3807"; -NC_010473.1 Protein Homology CDS 3895870 3896565 . - 0 gene_id "ECDH10B_RS19380"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rfaY"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418082.1"; locus_tag "ECDH10B_RS19380"; product "lipopolysaccharide core heptose(II) kinase RfaY"; protein_id "WP_000615254.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3896563 3896565 . - 0 gene_id "ECDH10B_RS19380"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rfaY"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418082.1"; locus_tag "ECDH10B_RS19380"; product "lipopolysaccharide core heptose(II) kinase RfaY"; protein_id "WP_000615254.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3895867 3895869 . - 0 gene_id "ECDH10B_RS19380"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rfaY"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418082.1"; locus_tag "ECDH10B_RS19380"; product "lipopolysaccharide core heptose(II) kinase RfaY"; protein_id "WP_000615254.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3896583 3897599 . - . gene_id "ECDH10B_RS19385"; transcript_id ""; gbkey "Gene"; gene "rfaJ"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19385"; old_locus_tag "ECDH10B_3808"; -NC_010473.1 Protein Homology CDS 3896586 3897599 . - 0 gene_id "ECDH10B_RS19385"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rfaJ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418083.1"; locus_tag "ECDH10B_RS19385"; product "lipopolysaccharide 1,2-glucosyltransferase RfaJ"; protein_id "WP_000376841.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3897597 3897599 . - 0 gene_id "ECDH10B_RS19385"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rfaJ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418083.1"; locus_tag "ECDH10B_RS19385"; product "lipopolysaccharide 1,2-glucosyltransferase RfaJ"; protein_id "WP_000376841.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3896583 3896585 . - 0 gene_id "ECDH10B_RS19385"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rfaJ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418083.1"; locus_tag "ECDH10B_RS19385"; product "lipopolysaccharide 1,2-glucosyltransferase RfaJ"; protein_id "WP_000376841.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3897639 3898658 . - . gene_id "ECDH10B_RS19390"; transcript_id ""; gbkey "Gene"; gene "waaO"; gene_biotype "protein_coding"; gene_synonym "rfaI"; locus_tag "ECDH10B_RS19390"; old_locus_tag "ECDH10B_3809"; -NC_010473.1 Protein Homology CDS 3897642 3898658 . - 0 gene_id "ECDH10B_RS19390"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "waaO"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418084.1"; locus_tag "ECDH10B_RS19390"; product "lipopolysaccharide 3-alpha-galactosyltransferase"; protein_id "WP_001188013.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3898656 3898658 . - 0 gene_id "ECDH10B_RS19390"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "waaO"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418084.1"; locus_tag "ECDH10B_RS19390"; product "lipopolysaccharide 3-alpha-galactosyltransferase"; protein_id "WP_001188013.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3897639 3897641 . - 0 gene_id "ECDH10B_RS19390"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "waaO"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418084.1"; locus_tag "ECDH10B_RS19390"; product "lipopolysaccharide 3-alpha-galactosyltransferase"; protein_id "WP_001188013.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3898658 3899737 . - . gene_id "ECDH10B_RS19395"; transcript_id ""; gbkey "Gene"; gene "waaB"; gene_biotype "protein_coding"; gene_synonym "rfaB"; locus_tag "ECDH10B_RS19395"; old_locus_tag "ECDH10B_3810"; -NC_010473.1 Protein Homology CDS 3898661 3899737 . - 0 gene_id "ECDH10B_RS19395"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "waaB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418085.2"; locus_tag "ECDH10B_RS19395"; product "lipopolysaccharide 1,6-galactosyltransferase"; protein_id "WP_000683964.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3899735 3899737 . - 0 gene_id "ECDH10B_RS19395"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "waaB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418085.2"; locus_tag "ECDH10B_RS19395"; product "lipopolysaccharide 1,6-galactosyltransferase"; protein_id "WP_000683964.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3898658 3898660 . - 0 gene_id "ECDH10B_RS19395"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "waaB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418085.2"; locus_tag "ECDH10B_RS19395"; product "lipopolysaccharide 1,6-galactosyltransferase"; protein_id "WP_000683964.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3899781 3900716 . - . gene_id "ECDH10B_RS19400"; transcript_id ""; gbkey "Gene"; gene "rfaS"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19400"; old_locus_tag "ECDH10B_3811"; -NC_010473.1 Protein Homology CDS 3899784 3900716 . - 0 gene_id "ECDH10B_RS19400"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rfaS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418086.1"; locus_tag "ECDH10B_RS19400"; product "LPS core biosynthesis protein RfaS"; protein_id "WP_000158225.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3900714 3900716 . - 0 gene_id "ECDH10B_RS19400"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rfaS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418086.1"; locus_tag "ECDH10B_RS19400"; product "LPS core biosynthesis protein RfaS"; protein_id "WP_000158225.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3899781 3899783 . - 0 gene_id "ECDH10B_RS19400"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rfaS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418086.1"; locus_tag "ECDH10B_RS19400"; product "LPS core biosynthesis protein RfaS"; protein_id "WP_000158225.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3900753 3901550 . - . gene_id "ECDH10B_RS19405"; transcript_id ""; gbkey "Gene"; gene "rfaP"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19405"; old_locus_tag "ECDH10B_3812"; -NC_010473.1 Protein Homology CDS 3900756 3901550 . - 0 gene_id "ECDH10B_RS19405"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rfaP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418087.1"; locus_tag "ECDH10B_RS19405"; product "lipopolysaccharide core heptose(I) kinase RfaP"; protein_id "WP_000229840.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3901548 3901550 . - 0 gene_id "ECDH10B_RS19405"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rfaP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418087.1"; locus_tag "ECDH10B_RS19405"; product "lipopolysaccharide core heptose(I) kinase RfaP"; protein_id "WP_000229840.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3900753 3900755 . - 0 gene_id "ECDH10B_RS19405"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rfaP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418087.1"; locus_tag "ECDH10B_RS19405"; product "lipopolysaccharide core heptose(I) kinase RfaP"; protein_id "WP_000229840.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3901543 3902667 . - . gene_id "ECDH10B_RS19410"; transcript_id ""; gbkey "Gene"; gene "rfaG"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19410"; old_locus_tag "ECDH10B_3813"; -NC_010473.1 Protein Homology CDS 3901546 3902667 . - 0 gene_id "ECDH10B_RS19410"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rfaG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418088.1"; locus_tag "ECDH10B_RS19410"; product "lipopolysaccharide glucosyltransferase I"; protein_id "WP_000634283.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3902665 3902667 . - 0 gene_id "ECDH10B_RS19410"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rfaG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418088.1"; locus_tag "ECDH10B_RS19410"; product "lipopolysaccharide glucosyltransferase I"; protein_id "WP_000634283.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3901543 3901545 . - 0 gene_id "ECDH10B_RS19410"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rfaG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418088.1"; locus_tag "ECDH10B_RS19410"; product "lipopolysaccharide glucosyltransferase I"; protein_id "WP_000634283.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3902664 3903734 . - . gene_id "ECDH10B_RS19415"; transcript_id ""; gbkey "Gene"; gene "rfaQ"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19415"; old_locus_tag "ECDH10B_3814"; -NC_010473.1 Protein Homology CDS 3902667 3903734 . - 0 gene_id "ECDH10B_RS19415"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rfaQ"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001521713.1"; locus_tag "ECDH10B_RS19415"; product "lipopolysaccharide core heptosyltransferase RfaQ"; protein_id "WP_001350560.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3903732 3903734 . - 0 gene_id "ECDH10B_RS19415"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rfaQ"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001521713.1"; locus_tag "ECDH10B_RS19415"; product "lipopolysaccharide core heptosyltransferase RfaQ"; protein_id "WP_001350560.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3902664 3902666 . - 0 gene_id "ECDH10B_RS19415"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rfaQ"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001521713.1"; locus_tag "ECDH10B_RS19415"; product "lipopolysaccharide core heptosyltransferase RfaQ"; protein_id "WP_001350560.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3904140 3905417 . + . gene_id "ECDH10B_RS19420"; transcript_id ""; gbkey "Gene"; gene "waaA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19420"; old_locus_tag "ECDH10B_3815"; -NC_010473.1 Protein Homology CDS 3904140 3905414 . + 0 gene_id "ECDH10B_RS19420"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "waaA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312535.1"; locus_tag "ECDH10B_RS19420"; product "lipid IV(A) 3-deoxy-D-manno-octulosonic acid transferase"; protein_id "WP_000891564.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3904140 3904142 . + 0 gene_id "ECDH10B_RS19420"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "waaA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312535.1"; locus_tag "ECDH10B_RS19420"; product "lipid IV(A) 3-deoxy-D-manno-octulosonic acid transferase"; protein_id "WP_000891564.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3905415 3905417 . + 0 gene_id "ECDH10B_RS19420"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "waaA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312535.1"; locus_tag "ECDH10B_RS19420"; product "lipid IV(A) 3-deoxy-D-manno-octulosonic acid transferase"; protein_id "WP_000891564.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3905425 3905904 . + . gene_id "ECDH10B_RS19425"; transcript_id ""; gbkey "Gene"; gene "coaD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19425"; old_locus_tag "ECDH10B_3816"; -NC_010473.1 Protein Homology CDS 3905425 3905901 . + 0 gene_id "ECDH10B_RS19425"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "coaD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312536.1"; locus_tag "ECDH10B_RS19425"; product "pantetheine-phosphate adenylyltransferase"; protein_id "WP_001171866.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3905425 3905427 . + 0 gene_id "ECDH10B_RS19425"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "coaD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312536.1"; locus_tag "ECDH10B_RS19425"; product "pantetheine-phosphate adenylyltransferase"; protein_id "WP_001171866.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3905902 3905904 . + 0 gene_id "ECDH10B_RS19425"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "coaD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312536.1"; locus_tag "ECDH10B_RS19425"; product "pantetheine-phosphate adenylyltransferase"; protein_id "WP_001171866.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3905943 3906752 . - . gene_id "ECDH10B_RS19430"; transcript_id ""; gbkey "Gene"; gene "mutM"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19430"; old_locus_tag "ECDH10B_3817"; -NC_010473.1 Protein Homology CDS 3905946 3906752 . - 0 gene_id "ECDH10B_RS19430"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mutM"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418092.1"; locus_tag "ECDH10B_RS19430"; product "bifunctional DNA-formamidopyrimidine glycosylase/DNA-(apurinic or apyrimidinic site) lyase"; protein_id "WP_001114543.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3906750 3906752 . - 0 gene_id "ECDH10B_RS19430"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mutM"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418092.1"; locus_tag "ECDH10B_RS19430"; product "bifunctional DNA-formamidopyrimidine glycosylase/DNA-(apurinic or apyrimidinic site) lyase"; protein_id "WP_001114543.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3905943 3905945 . - 0 gene_id "ECDH10B_RS19430"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mutM"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418092.1"; locus_tag "ECDH10B_RS19430"; product "bifunctional DNA-formamidopyrimidine glycosylase/DNA-(apurinic or apyrimidinic site) lyase"; protein_id "WP_001114543.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3906850 3907017 . - . gene_id "ECDH10B_RS19435"; transcript_id ""; gbkey "Gene"; gene "rpmG"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19435"; old_locus_tag "ECDH10B_3818"; -NC_010473.1 Protein Homology CDS 3906853 3907017 . - 0 gene_id "ECDH10B_RS19435"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rpmG"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_010847629.1"; locus_tag "ECDH10B_RS19435"; product "50S ribosomal protein L33"; protein_id "WP_001051798.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3907015 3907017 . - 0 gene_id "ECDH10B_RS19435"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rpmG"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_010847629.1"; locus_tag "ECDH10B_RS19435"; product "50S ribosomal protein L33"; protein_id "WP_001051798.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3906850 3906852 . - 0 gene_id "ECDH10B_RS19435"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rpmG"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_010847629.1"; locus_tag "ECDH10B_RS19435"; product "50S ribosomal protein L33"; protein_id "WP_001051798.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3907038 3907274 . - . gene_id "ECDH10B_RS19440"; transcript_id ""; gbkey "Gene"; gene "rpmB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19440"; old_locus_tag "ECDH10B_3819"; -NC_010473.1 Protein Homology CDS 3907041 3907274 . - 0 gene_id "ECDH10B_RS19440"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rpmB"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_008457442.1"; locus_tag "ECDH10B_RS19440"; product "50S ribosomal protein L28"; protein_id "WP_000091955.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3907272 3907274 . - 0 gene_id "ECDH10B_RS19440"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rpmB"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_008457442.1"; locus_tag "ECDH10B_RS19440"; product "50S ribosomal protein L28"; protein_id "WP_000091955.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3907038 3907040 . - 0 gene_id "ECDH10B_RS19440"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rpmB"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_008457442.1"; locus_tag "ECDH10B_RS19440"; product "50S ribosomal protein L28"; protein_id "WP_000091955.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3907491 3908159 . - . gene_id "ECDH10B_RS19445"; transcript_id ""; gbkey "Gene"; gene "radC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19445"; old_locus_tag "ECDH10B_3820"; -NC_010473.1 Protein Homology CDS 3907494 3908159 . - 0 gene_id "ECDH10B_RS19445"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "radC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418095.4"; locus_tag "ECDH10B_RS19445"; product "DNA repair protein RadC"; protein_id "WP_001350561.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3908157 3908159 . - 0 gene_id "ECDH10B_RS19445"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "radC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418095.4"; locus_tag "ECDH10B_RS19445"; product "DNA repair protein RadC"; protein_id "WP_001350561.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3907491 3907493 . - 0 gene_id "ECDH10B_RS19445"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "radC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418095.4"; locus_tag "ECDH10B_RS19445"; product "DNA repair protein RadC"; protein_id "WP_001350561.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3908331 3909551 . + . gene_id "ECDH10B_RS19450"; transcript_id ""; gbkey "Gene"; gene "coaBC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19450"; old_locus_tag "ECDH10B_3821"; -NC_010473.1 Protein Homology CDS 3908331 3909548 . + 0 gene_id "ECDH10B_RS19450"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "coaBC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418096.4"; locus_tag "ECDH10B_RS19450"; product "bifunctional phosphopantothenoylcysteine decarboxylase/phosphopantothenate--cysteine ligase CoaBC"; protein_id "WP_000050139.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3908331 3908333 . + 0 gene_id "ECDH10B_RS19450"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "coaBC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418096.4"; locus_tag "ECDH10B_RS19450"; product "bifunctional phosphopantothenoylcysteine decarboxylase/phosphopantothenate--cysteine ligase CoaBC"; protein_id "WP_000050139.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3909549 3909551 . + 0 gene_id "ECDH10B_RS19450"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "coaBC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418096.4"; locus_tag "ECDH10B_RS19450"; product "bifunctional phosphopantothenoylcysteine decarboxylase/phosphopantothenate--cysteine ligase CoaBC"; protein_id "WP_000050139.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3909529 3909987 . + . gene_id "ECDH10B_RS19455"; transcript_id ""; gbkey "Gene"; gene "dut"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19455"; old_locus_tag "ECDH10B_3822"; -NC_010473.1 Protein Homology CDS 3909529 3909984 . + 0 gene_id "ECDH10B_RS19455"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dut"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000976070.1"; locus_tag "ECDH10B_RS19455"; product "dUTP diphosphatase"; protein_id "WP_000976073.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3909529 3909531 . + 0 gene_id "ECDH10B_RS19455"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dut"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000976070.1"; locus_tag "ECDH10B_RS19455"; product "dUTP diphosphatase"; protein_id "WP_000976073.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3909985 3909987 . + 0 gene_id "ECDH10B_RS19455"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dut"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000976070.1"; locus_tag "ECDH10B_RS19455"; product "dUTP diphosphatase"; protein_id "WP_000976073.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3910094 3910690 . + . gene_id "ECDH10B_RS19460"; transcript_id ""; gbkey "Gene"; gene "slmA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19460"; old_locus_tag "ECDH10B_3823"; -NC_010473.1 Protein Homology CDS 3910094 3910687 . + 0 gene_id "ECDH10B_RS19460"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "slmA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000818604.1"; locus_tag "ECDH10B_RS19460"; product "nucleoid occlusion factor SlmA"; protein_id "WP_000818601.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3910094 3910096 . + 0 gene_id "ECDH10B_RS19460"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "slmA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000818604.1"; locus_tag "ECDH10B_RS19460"; product "nucleoid occlusion factor SlmA"; protein_id "WP_000818601.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3910688 3910690 . + 0 gene_id "ECDH10B_RS19460"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "slmA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000818604.1"; locus_tag "ECDH10B_RS19460"; product "nucleoid occlusion factor SlmA"; protein_id "WP_000818601.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3910727 3911368 . - . gene_id "ECDH10B_RS19465"; transcript_id ""; gbkey "Gene"; gene "pyrE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19465"; old_locus_tag "ECDH10B_3824"; -NC_010473.1 Protein Homology CDS 3910730 3911368 . - 0 gene_id "ECDH10B_RS19465"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pyrE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418099.1"; locus_tag "ECDH10B_RS19465"; product "orotate phosphoribosyltransferase"; protein_id "WP_000806177.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3911366 3911368 . - 0 gene_id "ECDH10B_RS19465"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pyrE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418099.1"; locus_tag "ECDH10B_RS19465"; product "orotate phosphoribosyltransferase"; protein_id "WP_000806177.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3910727 3910729 . - 0 gene_id "ECDH10B_RS19465"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pyrE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418099.1"; locus_tag "ECDH10B_RS19465"; product "orotate phosphoribosyltransferase"; protein_id "WP_000806177.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3911434 3912150 . - . gene_id "ECDH10B_RS19470"; transcript_id ""; gbkey "Gene"; gene "rph"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19470"; -NC_010473.1 Protein Homology CDS 3911437 3912150 . - 0 gene_id "ECDH10B_RS19470"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rph"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_006803115.1"; locus_tag "ECDH10B_RS19470"; product "ribonuclease PH"; protein_id "WP_001247096.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3912148 3912150 . - 0 gene_id "ECDH10B_RS19470"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rph"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_006803115.1"; locus_tag "ECDH10B_RS19470"; product "ribonuclease PH"; protein_id "WP_001247096.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3911434 3911436 . - 0 gene_id "ECDH10B_RS19470"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rph"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_006803115.1"; locus_tag "ECDH10B_RS19470"; product "ribonuclease PH"; protein_id "WP_001247096.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3912277 3913140 . + . gene_id "ECDH10B_RS19475"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19475"; old_locus_tag "ECDH10B_3826"; -NC_010473.1 Protein Homology CDS 3912277 3913137 . + 0 gene_id "ECDH10B_RS19475"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005122606.1"; locus_tag "ECDH10B_RS19475"; product "YicC family protein"; protein_id "WP_000621340.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3912277 3912279 . + 0 gene_id "ECDH10B_RS19475"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005122606.1"; locus_tag "ECDH10B_RS19475"; product "YicC family protein"; protein_id "WP_000621340.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3913138 3913140 . + 0 gene_id "ECDH10B_RS19475"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005122606.1"; locus_tag "ECDH10B_RS19475"; product "YicC family protein"; protein_id "WP_000621340.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3913361 3914185 . + . gene_id "ECDH10B_RS19480"; transcript_id ""; gbkey "Gene"; gene "dinD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19480"; old_locus_tag "ECDH10B_3827"; -NC_010473.1 Protein Homology CDS 3913361 3914182 . + 0 gene_id "ECDH10B_RS19480"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dinD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418102.2"; locus_tag "ECDH10B_RS19480"; product "DNA damage-inducible protein D"; protein_id "WP_001350563.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3913361 3913363 . + 0 gene_id "ECDH10B_RS19480"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dinD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418102.2"; locus_tag "ECDH10B_RS19480"; product "DNA damage-inducible protein D"; protein_id "WP_001350563.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3914183 3914185 . + 0 gene_id "ECDH10B_RS19480"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dinD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418102.2"; locus_tag "ECDH10B_RS19480"; product "DNA damage-inducible protein D"; protein_id "WP_001350563.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3914475 3915092 . + . gene_id "ECDH10B_RS19485"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19485"; old_locus_tag "ECDH10B_3828"; -NC_010473.1 Protein Homology CDS 3914475 3915089 . + 0 gene_id "ECDH10B_RS19485"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312548.2"; locus_tag "ECDH10B_RS19485"; product "trimeric intracellular cation channel family protein"; protein_id "WP_000924289.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3914475 3914477 . + 0 gene_id "ECDH10B_RS19485"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312548.2"; locus_tag "ECDH10B_RS19485"; product "trimeric intracellular cation channel family protein"; protein_id "WP_000924289.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3915090 3915092 . + 0 gene_id "ECDH10B_RS19485"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312548.2"; locus_tag "ECDH10B_RS19485"; product "trimeric intracellular cation channel family protein"; protein_id "WP_000924289.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3915089 3916771 . - . gene_id "ECDH10B_RS19490"; transcript_id ""; gbkey "Gene"; gene "ligB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19490"; old_locus_tag "ECDH10B_3829"; -NC_010473.1 Protein Homology CDS 3915092 3916771 . - 0 gene_id "ECDH10B_RS19490"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ligB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418104.2"; locus_tag "ECDH10B_RS19490"; product "NAD-dependent DNA ligase LigB"; protein_id "WP_000870036.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3916769 3916771 . - 0 gene_id "ECDH10B_RS19490"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ligB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418104.2"; locus_tag "ECDH10B_RS19490"; product "NAD-dependent DNA ligase LigB"; protein_id "WP_000870036.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3915089 3915091 . - 0 gene_id "ECDH10B_RS19490"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ligB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418104.2"; locus_tag "ECDH10B_RS19490"; product "NAD-dependent DNA ligase LigB"; protein_id "WP_000870036.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3917029 3917652 . + . gene_id "ECDH10B_RS19495"; transcript_id ""; gbkey "Gene"; gene "gmk"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19495"; old_locus_tag "ECDH10B_3830"; -NC_010473.1 Protein Homology CDS 3917029 3917649 . + 0 gene_id "ECDH10B_RS19495"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gmk"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000046969.1"; locus_tag "ECDH10B_RS19495"; product "guanylate kinase"; protein_id "WP_001295237.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3917029 3917031 . + 0 gene_id "ECDH10B_RS19495"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gmk"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000046969.1"; locus_tag "ECDH10B_RS19495"; product "guanylate kinase"; protein_id "WP_001295237.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3917650 3917652 . + 0 gene_id "ECDH10B_RS19495"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gmk"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000046969.1"; locus_tag "ECDH10B_RS19495"; product "guanylate kinase"; protein_id "WP_001295237.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3917707 3917982 . + . gene_id "ECDH10B_RS19500"; transcript_id ""; gbkey "Gene"; gene "rpoZ"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19500"; old_locus_tag "ECDH10B_3831"; -NC_010473.1 Protein Homology CDS 3917707 3917979 . + 0 gene_id "ECDH10B_RS19500"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rpoZ"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_013511051.1"; locus_tag "ECDH10B_RS19500"; product "DNA-directed RNA polymerase subunit omega"; protein_id "WP_000135058.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3917707 3917709 . + 0 gene_id "ECDH10B_RS19500"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rpoZ"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_013511051.1"; locus_tag "ECDH10B_RS19500"; product "DNA-directed RNA polymerase subunit omega"; protein_id "WP_000135058.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3917980 3917982 . + 0 gene_id "ECDH10B_RS19500"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rpoZ"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_013511051.1"; locus_tag "ECDH10B_RS19500"; product "DNA-directed RNA polymerase subunit omega"; protein_id "WP_000135058.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3918001 3920115 . + . gene_id "ECDH10B_RS19505"; transcript_id ""; gbkey "Gene"; gene "spoT"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19505"; old_locus_tag "ECDH10B_3832"; -NC_010473.1 Protein Homology CDS 3918001 3920112 . + 0 gene_id "ECDH10B_RS19505"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "spoT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312552.1"; locus_tag "ECDH10B_RS19505"; product "bifunctional GTP diphosphokinase/guanosine-3',5'-bis pyrophosphate 3'-pyrophosphohydrolase"; protein_id "WP_000280499.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3918001 3918003 . + 0 gene_id "ECDH10B_RS19505"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "spoT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312552.1"; locus_tag "ECDH10B_RS19505"; product "bifunctional GTP diphosphokinase/guanosine-3',5'-bis pyrophosphate 3'-pyrophosphohydrolase"; protein_id "WP_000280499.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3920113 3920115 . + 0 gene_id "ECDH10B_RS19505"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "spoT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312552.1"; locus_tag "ECDH10B_RS19505"; product "bifunctional GTP diphosphokinase/guanosine-3',5'-bis pyrophosphate 3'-pyrophosphohydrolase"; protein_id "WP_000280499.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3920122 3920811 . + . gene_id "ECDH10B_RS19510"; transcript_id ""; gbkey "Gene"; gene "trmH"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19510"; old_locus_tag "ECDH10B_3833"; -NC_010473.1 Protein Homology CDS 3920122 3920808 . + 0 gene_id "ECDH10B_RS19510"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "trmH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418108.1"; locus_tag "ECDH10B_RS19510"; product "tRNA (guanosine(18)-2'-O)-methyltransferase TrmH"; protein_id "WP_001070177.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3920122 3920124 . + 0 gene_id "ECDH10B_RS19510"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "trmH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418108.1"; locus_tag "ECDH10B_RS19510"; product "tRNA (guanosine(18)-2'-O)-methyltransferase TrmH"; protein_id "WP_001070177.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3920809 3920811 . + 0 gene_id "ECDH10B_RS19510"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "trmH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418108.1"; locus_tag "ECDH10B_RS19510"; product "tRNA (guanosine(18)-2'-O)-methyltransferase TrmH"; protein_id "WP_001070177.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3920817 3922898 . + . gene_id "ECDH10B_RS19515"; transcript_id ""; gbkey "Gene"; gene "recG"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19515"; old_locus_tag "ECDH10B_3834"; -NC_010473.1 Protein Homology CDS 3920817 3922895 . + 0 gene_id "ECDH10B_RS19515"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "recG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418109.1"; locus_tag "ECDH10B_RS19515"; product "ATP-dependent DNA helicase RecG"; protein_id "WP_000678419.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3920817 3920819 . + 0 gene_id "ECDH10B_RS19515"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "recG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418109.1"; locus_tag "ECDH10B_RS19515"; product "ATP-dependent DNA helicase RecG"; protein_id "WP_000678419.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3922896 3922898 . + 0 gene_id "ECDH10B_RS19515"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "recG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418109.1"; locus_tag "ECDH10B_RS19515"; product "ATP-dependent DNA helicase RecG"; protein_id "WP_000678419.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3923067 3924272 . - . gene_id "ECDH10B_RS19520"; transcript_id ""; gbkey "Gene"; gene "gltS"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19520"; old_locus_tag "ECDH10B_3835"; -NC_010473.1 Protein Homology CDS 3923070 3924272 . - 0 gene_id "ECDH10B_RS19520"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gltS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418110.1"; locus_tag "ECDH10B_RS19520"; product "sodium/glutamate symporter"; protein_id "WP_000468833.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3924270 3924272 . - 0 gene_id "ECDH10B_RS19520"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gltS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418110.1"; locus_tag "ECDH10B_RS19520"; product "sodium/glutamate symporter"; protein_id "WP_000468833.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3923067 3923069 . - 0 gene_id "ECDH10B_RS19520"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gltS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418110.1"; locus_tag "ECDH10B_RS19520"; product "sodium/glutamate symporter"; protein_id "WP_000468833.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3924552 3925943 . + . gene_id "ECDH10B_RS19525"; transcript_id ""; gbkey "Gene"; gene "xanP"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19525"; old_locus_tag "ECDH10B_3836"; -NC_010473.1 Protein Homology CDS 3924552 3925940 . + 0 gene_id "ECDH10B_RS19525"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "xanP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312557.1"; locus_tag "ECDH10B_RS19525"; product "xanthine/proton symporter XanP"; protein_id "WP_001295238.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3924552 3924554 . + 0 gene_id "ECDH10B_RS19525"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "xanP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312557.1"; locus_tag "ECDH10B_RS19525"; product "xanthine/proton symporter XanP"; protein_id "WP_001295238.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3925941 3925943 . + 0 gene_id "ECDH10B_RS19525"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "xanP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312557.1"; locus_tag "ECDH10B_RS19525"; product "xanthine/proton symporter XanP"; protein_id "WP_001295238.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3926064 3927773 . + . gene_id "ECDH10B_RS19530"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19530"; old_locus_tag "ECDH10B_3837"; -NC_010473.1 Protein Homology CDS 3926064 3927770 . + 0 gene_id "ECDH10B_RS19530"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418112.1"; locus_tag "ECDH10B_RS19530"; product "AsmA family protein"; protein_id "WP_001300954.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3926064 3926066 . + 0 gene_id "ECDH10B_RS19530"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418112.1"; locus_tag "ECDH10B_RS19530"; product "AsmA family protein"; protein_id "WP_001300954.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3927771 3927773 . + 0 gene_id "ECDH10B_RS19530"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418112.1"; locus_tag "ECDH10B_RS19530"; product "AsmA family protein"; protein_id "WP_001300954.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3927826 3930144 . - . gene_id "ECDH10B_RS19535"; transcript_id ""; gbkey "Gene"; gene "yicI"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19535"; old_locus_tag "ECDH10B_3838"; -NC_010473.1 Protein Homology CDS 3927829 3930144 . - 0 gene_id "ECDH10B_RS19535"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yicI"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418113.1"; locus_tag "ECDH10B_RS19535"; product "alpha-xylosidase"; protein_id "WP_000702898.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3930142 3930144 . - 0 gene_id "ECDH10B_RS19535"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yicI"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418113.1"; locus_tag "ECDH10B_RS19535"; product "alpha-xylosidase"; protein_id "WP_000702898.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3927826 3927828 . - 0 gene_id "ECDH10B_RS19535"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yicI"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418113.1"; locus_tag "ECDH10B_RS19535"; product "alpha-xylosidase"; protein_id "WP_000702898.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3930154 3931536 . - . gene_id "ECDH10B_RS19540"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19540"; old_locus_tag "ECDH10B_3839"; -NC_010473.1 Protein Homology CDS 3930157 3931536 . - 0 gene_id "ECDH10B_RS19540"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418114.4"; locus_tag "ECDH10B_RS19540"; product "glycoside-pentoside-hexuronide family transporter"; protein_id "WP_000834439.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3931534 3931536 . - 0 gene_id "ECDH10B_RS19540"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418114.4"; locus_tag "ECDH10B_RS19540"; product "glycoside-pentoside-hexuronide family transporter"; protein_id "WP_000834439.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3930154 3930156 . - 0 gene_id "ECDH10B_RS19540"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418114.4"; locus_tag "ECDH10B_RS19540"; product "glycoside-pentoside-hexuronide family transporter"; protein_id "WP_000834439.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3931829 3931923 . + . gene_id "ECDH10B_RS19545"; transcript_id ""; gbkey "Gene"; gene_biotype "tRNA"; locus_tag "ECDH10B_RS19545"; old_locus_tag "ECDH10B_3840"; -NC_010473.1 tRNAscan-SE exon 3931829 3931923 . + . gene_id "ECDH10B_RS19545"; transcript_id "ECDH10B_RS19545"; anticodon "(pos:3931863..3931865)"; gbkey "tRNA"; inference "COORDINATES: profile:tRNAscan-SE:2.0.6"; locus_tag "ECDH10B_RS19545"; product "tRNA-Sec"; exon_number "1"; -NC_010473.1 RefSeq gene 3932560 3933744 . + . gene_id "ECDH10B_RS19555"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19555"; old_locus_tag "ECDH10B_3841"; -NC_010473.1 Protein Homology CDS 3932560 3933741 . + 0 gene_id "ECDH10B_RS19555"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418115.1"; locus_tag "ECDH10B_RS19555"; product "sugar efflux transporter"; protein_id "WP_001172878.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3932560 3932562 . + 0 gene_id "ECDH10B_RS19555"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418115.1"; locus_tag "ECDH10B_RS19555"; product "sugar efflux transporter"; protein_id "WP_001172878.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3933742 3933744 . + 0 gene_id "ECDH10B_RS19555"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418115.1"; locus_tag "ECDH10B_RS19555"; product "sugar efflux transporter"; protein_id "WP_001172878.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3933855 3934778 . + . gene_id "ECDH10B_RS19560"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19560"; old_locus_tag "ECDH10B_3842"; -NC_010473.1 Protein Homology CDS 3933855 3934775 . + 0 gene_id "ECDH10B_RS19560"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418116.1"; locus_tag "ECDH10B_RS19560"; product "DMT family transporter"; protein_id "WP_000535961.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3933855 3933857 . + 0 gene_id "ECDH10B_RS19560"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418116.1"; locus_tag "ECDH10B_RS19560"; product "DMT family transporter"; protein_id "WP_000535961.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3934776 3934778 . + 0 gene_id "ECDH10B_RS19560"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418116.1"; locus_tag "ECDH10B_RS19560"; product "DMT family transporter"; protein_id "WP_000535961.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3934782 3935600 . - . gene_id "ECDH10B_RS19565"; transcript_id ""; gbkey "Gene"; gene "nlpA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19565"; old_locus_tag "ECDH10B_3843"; -NC_010473.1 Protein Homology CDS 3934785 3935600 . - 0 gene_id "ECDH10B_RS19565"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nlpA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418117.1"; locus_tag "ECDH10B_RS19565"; product "lipoprotein NlpA"; protein_id "WP_000779426.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3935598 3935600 . - 0 gene_id "ECDH10B_RS19565"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nlpA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418117.1"; locus_tag "ECDH10B_RS19565"; product "lipoprotein NlpA"; protein_id "WP_000779426.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3934782 3934784 . - 0 gene_id "ECDH10B_RS19565"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nlpA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418117.1"; locus_tag "ECDH10B_RS19565"; product "lipoprotein NlpA"; protein_id "WP_000779426.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3935822 3936115 . + . gene_id "ECDH10B_RS19575"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19575"; old_locus_tag "ECDH10B_3844"; -NC_010473.1 Protein Homology CDS 3935822 3936112 . + 0 gene_id "ECDH10B_RS19575"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_588471.1"; locus_tag "ECDH10B_RS19575"; product "hypothetical protein"; protein_id "WP_000805509.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3935822 3935824 . + 0 gene_id "ECDH10B_RS19575"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_588471.1"; locus_tag "ECDH10B_RS19575"; product "hypothetical protein"; protein_id "WP_000805509.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3936113 3936115 . + 0 gene_id "ECDH10B_RS19575"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_588471.1"; locus_tag "ECDH10B_RS19575"; product "hypothetical protein"; protein_id "WP_000805509.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3936156 3937346 . - . gene_id "ECDH10B_RS19580"; transcript_id ""; gbkey "Gene"; gene "nepI"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19580"; old_locus_tag "ECDH10B_3845"; -NC_010473.1 Protein Homology CDS 3936159 3937346 . - 0 gene_id "ECDH10B_RS19580"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nepI"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418118.2"; locus_tag "ECDH10B_RS19580"; product "purine ribonucleoside efflux pump NepI"; protein_id "WP_001288549.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3937344 3937346 . - 0 gene_id "ECDH10B_RS19580"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nepI"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418118.2"; locus_tag "ECDH10B_RS19580"; product "purine ribonucleoside efflux pump NepI"; protein_id "WP_001288549.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3936156 3936158 . - 0 gene_id "ECDH10B_RS19580"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nepI"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418118.2"; locus_tag "ECDH10B_RS19580"; product "purine ribonucleoside efflux pump NepI"; protein_id "WP_001288549.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3937557 3938009 . - . gene_id "ECDH10B_RS19585"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19585"; old_locus_tag "ECDH10B_3846"; -NC_010473.1 Protein Homology CDS 3937560 3938009 . - 0 gene_id "ECDH10B_RS19585"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418119.2"; locus_tag "ECDH10B_RS19585"; product "DUF1198 domain-containing protein"; protein_id "WP_001295241.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3938007 3938009 . - 0 gene_id "ECDH10B_RS19585"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418119.2"; locus_tag "ECDH10B_RS19585"; product "DUF1198 domain-containing protein"; protein_id "WP_001295241.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3937557 3937559 . - 0 gene_id "ECDH10B_RS19585"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418119.2"; locus_tag "ECDH10B_RS19585"; product "DUF1198 domain-containing protein"; protein_id "WP_001295241.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3938062 3939396 . - . gene_id "ECDH10B_RS19590"; transcript_id ""; gbkey "Gene"; gene "adeQ"; gene_biotype "protein_coding"; gene_synonym "yicO"; locus_tag "ECDH10B_RS19590"; old_locus_tag "ECDH10B_3847"; -NC_010473.1 Protein Homology CDS 3938065 3939396 . - 0 gene_id "ECDH10B_RS19590"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "adeQ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418120.2"; locus_tag "ECDH10B_RS19590"; product "adenine permease AdeQ"; protein_id "WP_001403836.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3939394 3939396 . - 0 gene_id "ECDH10B_RS19590"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "adeQ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418120.2"; locus_tag "ECDH10B_RS19590"; product "adenine permease AdeQ"; protein_id "WP_001403836.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3938062 3938064 . - 0 gene_id "ECDH10B_RS19590"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "adeQ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418120.2"; locus_tag "ECDH10B_RS19590"; product "adenine permease AdeQ"; protein_id "WP_001403836.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3939571 3941337 . + . gene_id "ECDH10B_RS19595"; transcript_id ""; gbkey "Gene"; gene "adeD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19595"; old_locus_tag "ECDH10B_3848"; -NC_010473.1 Protein Homology CDS 3939571 3941334 . + 0 gene_id "ECDH10B_RS19595"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "adeD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418121.1"; locus_tag "ECDH10B_RS19595"; product "adenine deaminase"; protein_id "WP_001065718.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3939571 3939573 . + 0 gene_id "ECDH10B_RS19595"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "adeD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418121.1"; locus_tag "ECDH10B_RS19595"; product "adenine deaminase"; protein_id "WP_001065718.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3941335 3941337 . + 0 gene_id "ECDH10B_RS19595"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "adeD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418121.1"; locus_tag "ECDH10B_RS19595"; product "adenine deaminase"; protein_id "WP_001065718.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3941383 3942774 . - . gene_id "ECDH10B_RS19600"; transcript_id ""; gbkey "Gene"; gene "uhpT"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19600"; old_locus_tag "ECDH10B_3849"; -NC_010473.1 Protein Homology CDS 3941386 3942774 . - 0 gene_id "ECDH10B_RS19600"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "uhpT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312630.1"; locus_tag "ECDH10B_RS19600"; product "hexose-6-phosphate:phosphate antiporter"; protein_id "WP_000879194.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3942772 3942774 . - 0 gene_id "ECDH10B_RS19600"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "uhpT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312630.1"; locus_tag "ECDH10B_RS19600"; product "hexose-6-phosphate:phosphate antiporter"; protein_id "WP_000879194.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3941383 3941385 . - 0 gene_id "ECDH10B_RS19600"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "uhpT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312630.1"; locus_tag "ECDH10B_RS19600"; product "hexose-6-phosphate:phosphate antiporter"; protein_id "WP_000879194.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3942912 3944231 . - . gene_id "ECDH10B_RS19605"; transcript_id ""; gbkey "Gene"; gene "uhpC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19605"; old_locus_tag "ECDH10B_3850"; -NC_010473.1 Protein Homology CDS 3942915 3944231 . - 0 gene_id "ECDH10B_RS19605"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "uhpC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418123.2"; locus_tag "ECDH10B_RS19605"; product "MFS transporter family glucose-6-phosphate receptor UhpC"; protein_id "WP_000936566.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3944229 3944231 . - 0 gene_id "ECDH10B_RS19605"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "uhpC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418123.2"; locus_tag "ECDH10B_RS19605"; product "MFS transporter family glucose-6-phosphate receptor UhpC"; protein_id "WP_000936566.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3942912 3942914 . - 0 gene_id "ECDH10B_RS19605"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "uhpC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418123.2"; locus_tag "ECDH10B_RS19605"; product "MFS transporter family glucose-6-phosphate receptor UhpC"; protein_id "WP_000936566.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3944241 3945743 . - . gene_id "ECDH10B_RS19610"; transcript_id ""; gbkey "Gene"; gene "uhpB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19610"; old_locus_tag "ECDH10B_3851"; -NC_010473.1 Protein Homology CDS 3944244 3945743 . - 0 gene_id "ECDH10B_RS19610"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "uhpB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418124.4"; locus_tag "ECDH10B_RS19610"; product "signal transduction histidine-protein kinase/phosphatase UhpB"; protein_id "WP_001295243.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3945741 3945743 . - 0 gene_id "ECDH10B_RS19610"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "uhpB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418124.4"; locus_tag "ECDH10B_RS19610"; product "signal transduction histidine-protein kinase/phosphatase UhpB"; protein_id "WP_001295243.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3944241 3944243 . - 0 gene_id "ECDH10B_RS19610"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "uhpB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418124.4"; locus_tag "ECDH10B_RS19610"; product "signal transduction histidine-protein kinase/phosphatase UhpB"; protein_id "WP_001295243.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3945743 3946333 . - . gene_id "ECDH10B_RS19615"; transcript_id ""; gbkey "Gene"; gene "uhpA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19615"; old_locus_tag "ECDH10B_3852"; -NC_010473.1 Protein Homology CDS 3945746 3946333 . - 0 gene_id "ECDH10B_RS19615"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "uhpA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312633.1"; locus_tag "ECDH10B_RS19615"; product "transcriptional regulator UhpA"; protein_id "WP_000633668.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3946331 3946333 . - 0 gene_id "ECDH10B_RS19615"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "uhpA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312633.1"; locus_tag "ECDH10B_RS19615"; product "transcriptional regulator UhpA"; protein_id "WP_000633668.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3945743 3945745 . - 0 gene_id "ECDH10B_RS19615"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "uhpA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312633.1"; locus_tag "ECDH10B_RS19615"; product "transcriptional regulator UhpA"; protein_id "WP_000633668.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3946409 3946699 . - . gene_id "ECDH10B_RS19620"; transcript_id ""; gbkey "Gene"; gene "ilvN"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19620"; old_locus_tag "ECDH10B_3853"; -NC_010473.1 Protein Homology CDS 3946412 3946699 . - 0 gene_id "ECDH10B_RS19620"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ilvN"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312638.1"; locus_tag "ECDH10B_RS19620"; product "acetolactate synthase small subunit"; protein_id "WP_001181706.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3946697 3946699 . - 0 gene_id "ECDH10B_RS19620"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ilvN"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312638.1"; locus_tag "ECDH10B_RS19620"; product "acetolactate synthase small subunit"; protein_id "WP_001181706.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3946409 3946411 . - 0 gene_id "ECDH10B_RS19620"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ilvN"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312638.1"; locus_tag "ECDH10B_RS19620"; product "acetolactate synthase small subunit"; protein_id "WP_001181706.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3946703 3948391 . - . gene_id "ECDH10B_RS19625"; transcript_id ""; gbkey "Gene"; gene "ilvB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19625"; old_locus_tag "ECDH10B_3854"; -NC_010473.1 Protein Homology CDS 3946706 3948391 . - 0 gene_id "ECDH10B_RS19625"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ilvB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418127.1"; locus_tag "ECDH10B_RS19625"; product "acetolactate synthase large subunit"; protein_id "WP_000168475.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3948389 3948391 . - 0 gene_id "ECDH10B_RS19625"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ilvB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418127.1"; locus_tag "ECDH10B_RS19625"; product "acetolactate synthase large subunit"; protein_id "WP_000168475.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3946703 3946705 . - 0 gene_id "ECDH10B_RS19625"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ilvB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418127.1"; locus_tag "ECDH10B_RS19625"; product "acetolactate synthase large subunit"; protein_id "WP_000168475.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3948497 3948595 . - . gene_id "ECDH10B_RS19630"; transcript_id ""; gbkey "Gene"; gene "ivbL"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19630"; old_locus_tag "ECDH10B_3855"; -NC_010473.1 Protein Homology CDS 3948500 3948595 . - 0 gene_id "ECDH10B_RS19630"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ivbL"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418128.1"; locus_tag "ECDH10B_RS19630"; product "ilvB operon leader peptide IvbL"; protein_id "WP_001300753.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3948593 3948595 . - 0 gene_id "ECDH10B_RS19630"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ivbL"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418128.1"; locus_tag "ECDH10B_RS19630"; product "ilvB operon leader peptide IvbL"; protein_id "WP_001300753.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3948497 3948499 . - 0 gene_id "ECDH10B_RS19630"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ivbL"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418128.1"; locus_tag "ECDH10B_RS19630"; product "ilvB operon leader peptide IvbL"; protein_id "WP_001300753.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3949160 3949249 . + . gene_id "ECDH10B_RS19645"; transcript_id ""; gbkey "Gene"; gene "tisB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19645"; -NC_010473.1 Protein Homology CDS 3949160 3949246 . + 0 gene_id "ECDH10B_RS19645"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tisB"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_001165331.1"; locus_tag "ECDH10B_RS19645"; product "type I toxin-antitoxin system toxin TisB"; protein_id "WP_001054909.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3949160 3949162 . + 0 gene_id "ECDH10B_RS19645"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tisB"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_001165331.1"; locus_tag "ECDH10B_RS19645"; product "type I toxin-antitoxin system toxin TisB"; protein_id "WP_001054909.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3949247 3949249 . + 0 gene_id "ECDH10B_RS19645"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tisB"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_001165331.1"; locus_tag "ECDH10B_RS19645"; product "type I toxin-antitoxin system toxin TisB"; protein_id "WP_001054909.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3949529 3950713 . + . gene_id "ECDH10B_RS19650"; transcript_id ""; gbkey "Gene"; gene "emrD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19650"; old_locus_tag "ECDH10B_3856"; -NC_010473.1 Protein Homology CDS 3949529 3950710 . + 0 gene_id "ECDH10B_RS19650"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "emrD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418129.2"; locus_tag "ECDH10B_RS19650"; product "multidrug efflux MFS transporter EmrD"; protein_id "WP_000828746.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3949529 3949531 . + 0 gene_id "ECDH10B_RS19650"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "emrD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418129.2"; locus_tag "ECDH10B_RS19650"; product "multidrug efflux MFS transporter EmrD"; protein_id "WP_000828746.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3950711 3950713 . + 0 gene_id "ECDH10B_RS19650"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "emrD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418129.2"; locus_tag "ECDH10B_RS19650"; product "multidrug efflux MFS transporter EmrD"; protein_id "WP_000828746.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3950721 3951218 . - . gene_id "ECDH10B_RS19655"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19655"; old_locus_tag "ECDH10B_3857"; -NC_010473.1 Protein Homology CDS 3950724 3951218 . - 0 gene_id "ECDH10B_RS19655"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418130.1"; locus_tag "ECDH10B_RS19655"; product "radical SAM protein"; protein_id "WP_000148061.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3951216 3951218 . - 0 gene_id "ECDH10B_RS19655"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418130.1"; locus_tag "ECDH10B_RS19655"; product "radical SAM protein"; protein_id "WP_000148061.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3950721 3950723 . - 0 gene_id "ECDH10B_RS19655"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418130.1"; locus_tag "ECDH10B_RS19655"; product "radical SAM protein"; protein_id "WP_000148061.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3951215 3951577 . - . gene_id "ECDH10B_RS19660"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19660"; old_locus_tag "ECDH10B_3858"; -NC_010473.1 Protein Homology CDS 3951218 3951577 . - 0 gene_id "ECDH10B_RS19660"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312643.1"; locus_tag "ECDH10B_RS19660"; product "DUF202 domain-containing protein"; protein_id "WP_001113432.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3951575 3951577 . - 0 gene_id "ECDH10B_RS19660"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312643.1"; locus_tag "ECDH10B_RS19660"; product "DUF202 domain-containing protein"; protein_id "WP_001113432.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3951215 3951217 . - 0 gene_id "ECDH10B_RS19660"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312643.1"; locus_tag "ECDH10B_RS19660"; product "DUF202 domain-containing protein"; protein_id "WP_001113432.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3951567 3951914 . - . gene_id "ECDH10B_RS19665"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19665"; old_locus_tag "ECDH10B_3859"; -NC_010473.1 Protein Homology CDS 3951570 3951914 . - 0 gene_id "ECDH10B_RS19665"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312644.1"; locus_tag "ECDH10B_RS19665"; product "YidH family protein"; protein_id "WP_000703959.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3951912 3951914 . - 0 gene_id "ECDH10B_RS19665"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312644.1"; locus_tag "ECDH10B_RS19665"; product "YidH family protein"; protein_id "WP_000703959.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3951567 3951569 . - 0 gene_id "ECDH10B_RS19665"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312644.1"; locus_tag "ECDH10B_RS19665"; product "YidH family protein"; protein_id "WP_000703959.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3952022 3952471 . + . gene_id "ECDH10B_RS19670"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19670"; old_locus_tag "ECDH10B_3860"; -NC_010473.1 Protein Homology CDS 3952022 3952468 . + 0 gene_id "ECDH10B_RS19670"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418133.1"; locus_tag "ECDH10B_RS19670"; product "hypothetical protein"; protein_id "WP_000511289.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3952022 3952024 . + 0 gene_id "ECDH10B_RS19670"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418133.1"; locus_tag "ECDH10B_RS19670"; product "hypothetical protein"; protein_id "WP_000511289.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3952469 3952471 . + 0 gene_id "ECDH10B_RS19670"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418133.1"; locus_tag "ECDH10B_RS19670"; product "hypothetical protein"; protein_id "WP_000511289.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3952518 3954011 . - . gene_id "ECDH10B_RS19675"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19675"; old_locus_tag "ECDH10B_3861"; -NC_010473.1 Protein Homology CDS 3952521 3954011 . - 0 gene_id "ECDH10B_RS19675"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418134.1"; locus_tag "ECDH10B_RS19675"; product "sulfatase-like hydrolase/transferase"; protein_id "WP_000828527.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3954009 3954011 . - 0 gene_id "ECDH10B_RS19675"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418134.1"; locus_tag "ECDH10B_RS19675"; product "sulfatase-like hydrolase/transferase"; protein_id "WP_000828527.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3952518 3952520 . - 0 gene_id "ECDH10B_RS19675"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418134.1"; locus_tag "ECDH10B_RS19675"; product "sulfatase-like hydrolase/transferase"; protein_id "WP_000828527.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3954008 3955723 . - . gene_id "ECDH10B_RS19680"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19680"; old_locus_tag "ECDH10B_3862"; -NC_010473.1 Protein Homology CDS 3954011 3955723 . - 0 gene_id "ECDH10B_RS19680"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418135.1"; locus_tag "ECDH10B_RS19680"; product "solute:sodium symporter family transporter"; protein_id "WP_001087145.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3955721 3955723 . - 0 gene_id "ECDH10B_RS19680"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418135.1"; locus_tag "ECDH10B_RS19680"; product "solute:sodium symporter family transporter"; protein_id "WP_001087145.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3954008 3954010 . - 0 gene_id "ECDH10B_RS19680"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418135.1"; locus_tag "ECDH10B_RS19680"; product "solute:sodium symporter family transporter"; protein_id "WP_001087145.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3955890 3956783 . + . gene_id "ECDH10B_RS19685"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19685"; old_locus_tag "ECDH10B_3863"; -NC_010473.1 Protein Homology CDS 3955890 3956780 . + 0 gene_id "ECDH10B_RS19685"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418136.2"; locus_tag "ECDH10B_RS19685"; product "AraC family transcriptional regulator"; protein_id "WP_001013540.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3955890 3955892 . + 0 gene_id "ECDH10B_RS19685"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418136.2"; locus_tag "ECDH10B_RS19685"; product "AraC family transcriptional regulator"; protein_id "WP_001013540.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3956781 3956783 . + 0 gene_id "ECDH10B_RS19685"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418136.2"; locus_tag "ECDH10B_RS19685"; product "AraC family transcriptional regulator"; protein_id "WP_001013540.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3956780 3957594 . - . gene_id "ECDH10B_RS19690"; transcript_id ""; gbkey "Gene"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS19690"; old_locus_tag "ECDH10B_3868"; pseudo "true"; -NC_010473.1 Protein Homology CDS 3956783 3957594 . - 0 gene_id "ECDH10B_RS19690"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312649.2"; locus_tag "ECDH10B_RS19690"; note "frameshifted"; product "inactive 6-phospho-alpha-glucosidase"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3957592 3957594 . - 0 gene_id "ECDH10B_RS19690"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312649.2"; locus_tag "ECDH10B_RS19690"; note "frameshifted"; product "inactive 6-phospho-alpha-glucosidase"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3956780 3956782 . - 0 gene_id "ECDH10B_RS19690"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312649.2"; locus_tag "ECDH10B_RS19690"; note "frameshifted"; product "inactive 6-phospho-alpha-glucosidase"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 3957594 3959210 . - . gene_id "ECDH10B_RS19700"; transcript_id ""; gbkey "Gene"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS19700"; old_locus_tag "ECDH10B_3869"; pseudo "true"; -NC_010473.1 Protein Homology CDS 3957597 3959210 . - 0 gene_id "ECDH10B_RS19700"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312650.2"; locus_tag "ECDH10B_RS19700"; note "internal stop"; product "PTS sugar transporter subunit IIB"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3959208 3959210 . - 0 gene_id "ECDH10B_RS19700"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312650.2"; locus_tag "ECDH10B_RS19700"; note "internal stop"; product "PTS sugar transporter subunit IIB"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3957594 3957596 . - 0 gene_id "ECDH10B_RS19700"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312650.2"; locus_tag "ECDH10B_RS19700"; note "internal stop"; product "PTS sugar transporter subunit IIB"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 3959506 3960222 . + . gene_id "ECDH10B_RS19705"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19705"; old_locus_tag "ECDH10B_3870"; -NC_010473.1 Protein Homology CDS 3959506 3960219 . + 0 gene_id "ECDH10B_RS19705"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418139.1"; locus_tag "ECDH10B_RS19705"; product "GntR family transcriptional regulator"; protein_id "WP_001300779.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3959506 3959508 . + 0 gene_id "ECDH10B_RS19705"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418139.1"; locus_tag "ECDH10B_RS19705"; product "GntR family transcriptional regulator"; protein_id "WP_001300779.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3960220 3960222 . + 0 gene_id "ECDH10B_RS19705"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418139.1"; locus_tag "ECDH10B_RS19705"; product "GntR family transcriptional regulator"; protein_id "WP_001300779.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3960219 3961880 . - . gene_id "ECDH10B_RS19710"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19710"; old_locus_tag "ECDH10B_3871"; -NC_010473.1 Protein Homology CDS 3960222 3961880 . - 0 gene_id "ECDH10B_RS19710"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312652.2"; locus_tag "ECDH10B_RS19710"; product "putative transporter"; protein_id "WP_001279752.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3961878 3961880 . - 0 gene_id "ECDH10B_RS19710"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312652.2"; locus_tag "ECDH10B_RS19710"; product "putative transporter"; protein_id "WP_001279752.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3960219 3960221 . - 0 gene_id "ECDH10B_RS19710"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312652.2"; locus_tag "ECDH10B_RS19710"; product "putative transporter"; protein_id "WP_001279752.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3962076 3962504 . - . gene_id "ECDH10B_RS19715"; transcript_id ""; gbkey "Gene"; gene "ibpB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19715"; old_locus_tag "ECDH10B_3872"; -NC_010473.1 Protein Homology CDS 3962079 3962504 . - 0 gene_id "ECDH10B_RS19715"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ibpB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_709512.2"; locus_tag "ECDH10B_RS19715"; product "heat shock chaperone IbpB"; protein_id "WP_001243431.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3962502 3962504 . - 0 gene_id "ECDH10B_RS19715"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ibpB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_709512.2"; locus_tag "ECDH10B_RS19715"; product "heat shock chaperone IbpB"; protein_id "WP_001243431.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3962076 3962078 . - 0 gene_id "ECDH10B_RS19715"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ibpB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_709512.2"; locus_tag "ECDH10B_RS19715"; product "heat shock chaperone IbpB"; protein_id "WP_001243431.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3962616 3963029 . - . gene_id "ECDH10B_RS19720"; transcript_id ""; gbkey "Gene"; gene "ibpA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19720"; old_locus_tag "ECDH10B_3873"; -NC_010473.1 Protein Homology CDS 3962619 3963029 . - 0 gene_id "ECDH10B_RS19720"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ibpA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_006687722.1"; locus_tag "ECDH10B_RS19720"; product "heat shock chaperone IbpA"; protein_id "WP_001243437.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3963027 3963029 . - 0 gene_id "ECDH10B_RS19720"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ibpA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_006687722.1"; locus_tag "ECDH10B_RS19720"; product "heat shock chaperone IbpA"; protein_id "WP_001243437.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3962616 3962618 . - 0 gene_id "ECDH10B_RS19720"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ibpA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_006687722.1"; locus_tag "ECDH10B_RS19720"; product "heat shock chaperone IbpA"; protein_id "WP_001243437.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3963335 3963667 . + . gene_id "ECDH10B_RS19725"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19725"; old_locus_tag "ECDH10B_3874"; -NC_010473.1 Protein Homology CDS 3963335 3963664 . + 0 gene_id "ECDH10B_RS19725"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418143.2"; locus_tag "ECDH10B_RS19725"; product "YceK/YidQ family lipoprotein"; protein_id "WP_000620888.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3963335 3963337 . + 0 gene_id "ECDH10B_RS19725"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418143.2"; locus_tag "ECDH10B_RS19725"; product "YceK/YidQ family lipoprotein"; protein_id "WP_000620888.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3963665 3963667 . + 0 gene_id "ECDH10B_RS19725"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418143.2"; locus_tag "ECDH10B_RS19725"; product "YceK/YidQ family lipoprotein"; protein_id "WP_000620888.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3963669 3964883 . - . gene_id "ECDH10B_RS19730"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19730"; old_locus_tag "ECDH10B_3875"; -NC_010473.1 Protein Homology CDS 3963672 3964883 . - 0 gene_id "ECDH10B_RS19730"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312656.3"; locus_tag "ECDH10B_RS19730"; product "DUF3748 domain-containing protein"; protein_id "WP_001336371.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3964881 3964883 . - 0 gene_id "ECDH10B_RS19730"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312656.3"; locus_tag "ECDH10B_RS19730"; product "DUF3748 domain-containing protein"; protein_id "WP_001336371.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3963669 3963671 . - 0 gene_id "ECDH10B_RS19730"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312656.3"; locus_tag "ECDH10B_RS19730"; product "DUF3748 domain-containing protein"; protein_id "WP_001336371.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3964984 3966048 . + . gene_id "ECDH10B_RS19735"; transcript_id ""; gbkey "Gene"; gene "cbrA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19735"; -NC_010473.1 Protein Homology CDS 3964984 3966045 . + 0 gene_id "ECDH10B_RS19735"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cbrA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418145.2"; locus_tag "ECDH10B_RS19735"; product "colicin M resistance protein"; protein_id "WP_001340434.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3964984 3964986 . + 0 gene_id "ECDH10B_RS19735"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cbrA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418145.2"; locus_tag "ECDH10B_RS19735"; product "colicin M resistance protein"; protein_id "WP_001340434.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3966046 3966048 . + 0 gene_id "ECDH10B_RS19735"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cbrA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418145.2"; locus_tag "ECDH10B_RS19735"; product "colicin M resistance protein"; protein_id "WP_001340434.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3966045 3967382 . - . gene_id "ECDH10B_RS19740"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19740"; old_locus_tag "ECDH10B_3877"; -NC_010473.1 Protein Homology CDS 3966048 3967382 . - 0 gene_id "ECDH10B_RS19740"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_709507.1"; locus_tag "ECDH10B_RS19740"; product "MFS transporter"; protein_id "WP_000253455.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3967380 3967382 . - 0 gene_id "ECDH10B_RS19740"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_709507.1"; locus_tag "ECDH10B_RS19740"; product "MFS transporter"; protein_id "WP_000253455.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3966045 3966047 . - 0 gene_id "ECDH10B_RS19740"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_709507.1"; locus_tag "ECDH10B_RS19740"; product "MFS transporter"; protein_id "WP_000253455.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3967457 3968605 . - . gene_id "ECDH10B_RS19745"; transcript_id ""; gbkey "Gene"; gene "dgoD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19745"; old_locus_tag "ECDH10B_3878"; -NC_010473.1 Protein Homology CDS 3967460 3968605 . - 0 gene_id "ECDH10B_RS19745"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dgoD"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_020077623.1"; locus_tag "ECDH10B_RS19745"; product "galactonate dehydratase"; protein_id "WP_000705001.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3968603 3968605 . - 0 gene_id "ECDH10B_RS19745"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dgoD"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_020077623.1"; locus_tag "ECDH10B_RS19745"; product "galactonate dehydratase"; protein_id "WP_000705001.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3967457 3967459 . - 0 gene_id "ECDH10B_RS19745"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dgoD"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_020077623.1"; locus_tag "ECDH10B_RS19745"; product "galactonate dehydratase"; protein_id "WP_000705001.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3968602 3969219 . - . gene_id "ECDH10B_RS19750"; transcript_id ""; gbkey "Gene"; gene "dgoA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19750"; old_locus_tag "ECDH10B_3879"; -NC_010473.1 Protein Homology CDS 3968605 3969219 . - 0 gene_id "ECDH10B_RS19750"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dgoA"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026238.1"; locus_tag "ECDH10B_RS19750"; product "2-dehydro-3-deoxy-6-phosphogalactonate aldolase"; protein_id "WP_001198722.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3969217 3969219 . - 0 gene_id "ECDH10B_RS19750"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dgoA"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026238.1"; locus_tag "ECDH10B_RS19750"; product "2-dehydro-3-deoxy-6-phosphogalactonate aldolase"; protein_id "WP_001198722.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3968602 3968604 . - 0 gene_id "ECDH10B_RS19750"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dgoA"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026238.1"; locus_tag "ECDH10B_RS19750"; product "2-dehydro-3-deoxy-6-phosphogalactonate aldolase"; protein_id "WP_001198722.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3969203 3970081 . - . gene_id "ECDH10B_RS19755"; transcript_id ""; gbkey "Gene"; gene "dgoK"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19755"; old_locus_tag "ECDH10B_3880"; -NC_010473.1 Protein Homology CDS 3969206 3970081 . - 0 gene_id "ECDH10B_RS19755"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dgoK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418148.1"; locus_tag "ECDH10B_RS19755"; product "2-dehydro-3-deoxygalactonokinase"; protein_id "WP_000127091.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3970079 3970081 . - 0 gene_id "ECDH10B_RS19755"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dgoK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418148.1"; locus_tag "ECDH10B_RS19755"; product "2-dehydro-3-deoxygalactonokinase"; protein_id "WP_000127091.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3969203 3969205 . - 0 gene_id "ECDH10B_RS19755"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dgoK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418148.1"; locus_tag "ECDH10B_RS19755"; product "2-dehydro-3-deoxygalactonokinase"; protein_id "WP_000127091.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3970078 3970767 . - . gene_id "ECDH10B_RS19760"; transcript_id ""; gbkey "Gene"; gene "dgoR"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19760"; old_locus_tag "ECDH10B_3881"; -NC_010473.1 Protein Homology CDS 3970081 3970767 . - 0 gene_id "ECDH10B_RS19760"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dgoR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_709505.1"; locus_tag "ECDH10B_RS19760"; product "D-galactonate utilization transcriptional regulator DgoR"; protein_id "WP_000174305.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3970765 3970767 . - 0 gene_id "ECDH10B_RS19760"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dgoR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_709505.1"; locus_tag "ECDH10B_RS19760"; product "D-galactonate utilization transcriptional regulator DgoR"; protein_id "WP_000174305.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3970078 3970080 . - 0 gene_id "ECDH10B_RS19760"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dgoR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_709505.1"; locus_tag "ECDH10B_RS19760"; product "D-galactonate utilization transcriptional regulator DgoR"; protein_id "WP_000174305.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3971045 3971701 . + . gene_id "ECDH10B_RS19765"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19765"; old_locus_tag "ECDH10B_3882"; -NC_010473.1 Protein Homology CDS 3971045 3971698 . + 0 gene_id "ECDH10B_RS19765"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_709504.1"; locus_tag "ECDH10B_RS19765"; product "hypothetical protein"; protein_id "WP_000772934.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3971045 3971047 . + 0 gene_id "ECDH10B_RS19765"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_709504.1"; locus_tag "ECDH10B_RS19765"; product "hypothetical protein"; protein_id "WP_000772934.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3971699 3971701 . + 0 gene_id "ECDH10B_RS19765"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_709504.1"; locus_tag "ECDH10B_RS19765"; product "hypothetical protein"; protein_id "WP_000772934.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3971747 3972559 . - . gene_id "ECDH10B_RS19770"; transcript_id ""; gbkey "Gene"; gene "yidA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19770"; old_locus_tag "ECDH10B_3883"; -NC_010473.1 Protein Homology CDS 3971750 3972559 . - 0 gene_id "ECDH10B_RS19770"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yidA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418152.1"; locus_tag "ECDH10B_RS19770"; product "sugar-phosphatase"; protein_id "WP_000985549.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3972557 3972559 . - 0 gene_id "ECDH10B_RS19770"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yidA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418152.1"; locus_tag "ECDH10B_RS19770"; product "sugar-phosphatase"; protein_id "WP_000985549.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3971747 3971749 . - 0 gene_id "ECDH10B_RS19770"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yidA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418152.1"; locus_tag "ECDH10B_RS19770"; product "sugar-phosphatase"; protein_id "WP_000985549.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3972674 3973081 . - . gene_id "ECDH10B_RS19775"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19775"; old_locus_tag "ECDH10B_3884"; -NC_010473.1 Protein Homology CDS 3972677 3973081 . - 0 gene_id "ECDH10B_RS19775"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001311237.1"; locus_tag "ECDH10B_RS19775"; product "YidB family protein"; protein_id "WP_001317389.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3973079 3973081 . - 0 gene_id "ECDH10B_RS19775"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001311237.1"; locus_tag "ECDH10B_RS19775"; product "YidB family protein"; protein_id "WP_001317389.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3972674 3972676 . - 0 gene_id "ECDH10B_RS19775"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001311237.1"; locus_tag "ECDH10B_RS19775"; product "YidB family protein"; protein_id "WP_001317389.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3973312 3975726 . - . gene_id "ECDH10B_RS19785"; transcript_id ""; gbkey "Gene"; gene "gyrB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19785"; -NC_010473.1 Protein Homology CDS 3973315 3975726 . - 0 gene_id "ECDH10B_RS19785"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gyrB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312661.1"; locus_tag "ECDH10B_RS19785"; product "DNA topoisomerase (ATP-hydrolyzing) subunit B"; protein_id "WP_000072067.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3975724 3975726 . - 0 gene_id "ECDH10B_RS19785"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gyrB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312661.1"; locus_tag "ECDH10B_RS19785"; product "DNA topoisomerase (ATP-hydrolyzing) subunit B"; protein_id "WP_000072067.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3973312 3973314 . - 0 gene_id "ECDH10B_RS19785"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gyrB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312661.1"; locus_tag "ECDH10B_RS19785"; product "DNA topoisomerase (ATP-hydrolyzing) subunit B"; protein_id "WP_000072067.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3975755 3976828 . - . gene_id "ECDH10B_RS19790"; transcript_id ""; gbkey "Gene"; gene "recF"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19790"; old_locus_tag "ECDH10B_3886"; -NC_010473.1 Protein Homology CDS 3975758 3976828 . - 0 gene_id "ECDH10B_RS19790"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "recF"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005121479.1"; locus_tag "ECDH10B_RS19790"; product "DNA replication/repair protein RecF"; protein_id "WP_000060112.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3976826 3976828 . - 0 gene_id "ECDH10B_RS19790"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "recF"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005121479.1"; locus_tag "ECDH10B_RS19790"; product "DNA replication/repair protein RecF"; protein_id "WP_000060112.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3975755 3975757 . - 0 gene_id "ECDH10B_RS19790"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "recF"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005121479.1"; locus_tag "ECDH10B_RS19790"; product "DNA replication/repair protein RecF"; protein_id "WP_000060112.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3976828 3977928 . - . gene_id "ECDH10B_RS19795"; transcript_id ""; gbkey "Gene"; gene "dnaN"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19795"; old_locus_tag "ECDH10B_3887"; -NC_010473.1 Protein Homology CDS 3976831 3977928 . - 0 gene_id "ECDH10B_RS19795"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dnaN"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_006177590.1"; locus_tag "ECDH10B_RS19795"; product "DNA polymerase III subunit beta"; protein_id "WP_000673464.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3977926 3977928 . - 0 gene_id "ECDH10B_RS19795"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dnaN"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_006177590.1"; locus_tag "ECDH10B_RS19795"; product "DNA polymerase III subunit beta"; protein_id "WP_000673464.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3976828 3976830 . - 0 gene_id "ECDH10B_RS19795"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dnaN"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_006177590.1"; locus_tag "ECDH10B_RS19795"; product "DNA polymerase III subunit beta"; protein_id "WP_000673464.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3977933 3979336 . - . gene_id "ECDH10B_RS19800"; transcript_id ""; gbkey "Gene"; gene "dnaA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19800"; -NC_010473.1 Protein Homology CDS 3977936 3979336 . - 0 gene_id "ECDH10B_RS19800"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dnaA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418157.1"; locus_tag "ECDH10B_RS19800"; product "chromosomal replication initiator protein DnaA"; protein_id "WP_000059122.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3979334 3979336 . - 0 gene_id "ECDH10B_RS19800"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dnaA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418157.1"; locus_tag "ECDH10B_RS19800"; product "chromosomal replication initiator protein DnaA"; protein_id "WP_000059122.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3977933 3977935 . - 0 gene_id "ECDH10B_RS19800"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dnaA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418157.1"; locus_tag "ECDH10B_RS19800"; product "chromosomal replication initiator protein DnaA"; protein_id "WP_000059122.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3979633 3979713 . + . gene_id "ECDH10B_RS26130"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS26130"; -NC_010473.1 Protein Homology CDS 3979633 3979710 . + 0 gene_id "ECDH10B_RS26130"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_009518826.1"; locus_tag "ECDH10B_RS26130"; product "protein YsdD"; protein_id "WP_120795392.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3979633 3979635 . + 0 gene_id "ECDH10B_RS26130"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_009518826.1"; locus_tag "ECDH10B_RS26130"; product "protein YsdD"; protein_id "WP_120795392.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3979711 3979713 . + 0 gene_id "ECDH10B_RS26130"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_009518826.1"; locus_tag "ECDH10B_RS26130"; product "protein YsdD"; protein_id "WP_120795392.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3979943 3980083 . + . gene_id "ECDH10B_RS19805"; transcript_id ""; gbkey "Gene"; gene "rpmH"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19805"; old_locus_tag "ECDH10B_3889"; -NC_010473.1 Protein Homology CDS 3979943 3980080 . + 0 gene_id "ECDH10B_RS19805"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rpmH"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001686914.1"; locus_tag "ECDH10B_RS19805"; product "50S ribosomal protein L34"; protein_id "WP_000831330.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3979943 3979945 . + 0 gene_id "ECDH10B_RS19805"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rpmH"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001686914.1"; locus_tag "ECDH10B_RS19805"; product "50S ribosomal protein L34"; protein_id "WP_000831330.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3980081 3980083 . + 0 gene_id "ECDH10B_RS19805"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rpmH"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001686914.1"; locus_tag "ECDH10B_RS19805"; product "50S ribosomal protein L34"; protein_id "WP_000831330.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3980100 3980459 . + . gene_id "ECDH10B_RS19810"; transcript_id ""; gbkey "Gene"; gene "rnpA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19810"; old_locus_tag "ECDH10B_3890"; -NC_010473.1 Protein Homology CDS 3980100 3980456 . + 0 gene_id "ECDH10B_RS19810"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rnpA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_014172301.1"; locus_tag "ECDH10B_RS19810"; product "ribonuclease P protein component"; protein_id "WP_000239730.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3980100 3980102 . + 0 gene_id "ECDH10B_RS19810"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rnpA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_014172301.1"; locus_tag "ECDH10B_RS19810"; product "ribonuclease P protein component"; protein_id "WP_000239730.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3980457 3980459 . + 0 gene_id "ECDH10B_RS19810"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rnpA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_014172301.1"; locus_tag "ECDH10B_RS19810"; product "ribonuclease P protein component"; protein_id "WP_000239730.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3980423 3980680 . + . gene_id "ECDH10B_RS19815"; transcript_id ""; gbkey "Gene"; gene "yidD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19815"; old_locus_tag "ECDH10B_3891"; -NC_010473.1 Protein Homology CDS 3980423 3980677 . + 0 gene_id "ECDH10B_RS19815"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yidD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_462741.1"; locus_tag "ECDH10B_RS19815"; product "membrane protein insertion efficiency factor YidD"; protein_id "WP_001307474.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3980423 3980425 . + 0 gene_id "ECDH10B_RS19815"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yidD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_462741.1"; locus_tag "ECDH10B_RS19815"; product "membrane protein insertion efficiency factor YidD"; protein_id "WP_001307474.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3980678 3980680 . + 0 gene_id "ECDH10B_RS19815"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yidD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_462741.1"; locus_tag "ECDH10B_RS19815"; product "membrane protein insertion efficiency factor YidD"; protein_id "WP_001307474.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3980683 3982329 . + . gene_id "ECDH10B_RS19820"; transcript_id ""; gbkey "Gene"; gene "yidC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19820"; old_locus_tag "ECDH10B_3892"; -NC_010473.1 Protein Homology CDS 3980683 3982326 . + 0 gene_id "ECDH10B_RS19820"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yidC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418161.1"; locus_tag "ECDH10B_RS19820"; product "membrane protein insertase YidC"; protein_id "WP_000378250.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3980683 3980685 . + 0 gene_id "ECDH10B_RS19820"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yidC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418161.1"; locus_tag "ECDH10B_RS19820"; product "membrane protein insertase YidC"; protein_id "WP_000378250.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3982327 3982329 . + 0 gene_id "ECDH10B_RS19820"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yidC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418161.1"; locus_tag "ECDH10B_RS19820"; product "membrane protein insertase YidC"; protein_id "WP_000378250.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3982435 3983799 . + . gene_id "ECDH10B_RS19825"; transcript_id ""; gbkey "Gene"; gene "mnmE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19825"; old_locus_tag "ECDH10B_3893"; -NC_010473.1 Protein Homology CDS 3982435 3983796 . + 0 gene_id "ECDH10B_RS19825"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mnmE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418162.1"; locus_tag "ECDH10B_RS19825"; product "tRNA uridine(34) 5-carboxymethylaminomethyl synthesis GTPase MnmE"; protein_id "WP_001282346.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3982435 3982437 . + 0 gene_id "ECDH10B_RS19825"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mnmE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418162.1"; locus_tag "ECDH10B_RS19825"; product "tRNA uridine(34) 5-carboxymethylaminomethyl synthesis GTPase MnmE"; protein_id "WP_001282346.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3983797 3983799 . + 0 gene_id "ECDH10B_RS19825"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mnmE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418162.1"; locus_tag "ECDH10B_RS19825"; product "tRNA uridine(34) 5-carboxymethylaminomethyl synthesis GTPase MnmE"; protein_id "WP_001282346.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3984042 3984116 . + . gene_id "ECDH10B_RS19830"; transcript_id ""; gbkey "Gene"; gene "tnaC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19830"; old_locus_tag "ECDH10B_3894"; -NC_010473.1 Protein Homology CDS 3984042 3984113 . + 0 gene_id "ECDH10B_RS19830"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tnaC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312671.1"; locus_tag "ECDH10B_RS19830"; product "tryptophanase leader peptide"; protein_id "WP_001364348.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3984042 3984044 . + 0 gene_id "ECDH10B_RS19830"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tnaC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312671.1"; locus_tag "ECDH10B_RS19830"; product "tryptophanase leader peptide"; protein_id "WP_001364348.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3984114 3984116 . + 0 gene_id "ECDH10B_RS19830"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tnaC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312671.1"; locus_tag "ECDH10B_RS19830"; product "tryptophanase leader peptide"; protein_id "WP_001364348.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3984337 3985752 . + . gene_id "ECDH10B_RS19835"; transcript_id ""; gbkey "Gene"; gene "tnaA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19835"; old_locus_tag "ECDH10B_3895"; -NC_010473.1 Protein Homology CDS 3984337 3985749 . + 0 gene_id "ECDH10B_RS19835"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tnaA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_709490.2"; locus_tag "ECDH10B_RS19835"; product "tryptophanase"; protein_id "WP_001295247.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3984337 3984339 . + 0 gene_id "ECDH10B_RS19835"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tnaA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_709490.2"; locus_tag "ECDH10B_RS19835"; product "tryptophanase"; protein_id "WP_001295247.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3985750 3985752 . + 0 gene_id "ECDH10B_RS19835"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tnaA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_709490.2"; locus_tag "ECDH10B_RS19835"; product "tryptophanase"; protein_id "WP_001295247.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3985843 3987090 . + . gene_id "ECDH10B_RS19840"; transcript_id ""; gbkey "Gene"; gene "tnaB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19840"; old_locus_tag "ECDH10B_3896"; -NC_010473.1 Protein Homology CDS 3985843 3987087 . + 0 gene_id "ECDH10B_RS19840"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tnaB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418165.1"; locus_tag "ECDH10B_RS19840"; product "low affinity tryptophan permease TnaB"; protein_id "WP_000131925.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3985843 3985845 . + 0 gene_id "ECDH10B_RS19840"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tnaB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418165.1"; locus_tag "ECDH10B_RS19840"; product "low affinity tryptophan permease TnaB"; protein_id "WP_000131925.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3987088 3987090 . + 0 gene_id "ECDH10B_RS19840"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tnaB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418165.1"; locus_tag "ECDH10B_RS19840"; product "low affinity tryptophan permease TnaB"; protein_id "WP_000131925.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3987222 3988397 . + . gene_id "ECDH10B_RS19845"; transcript_id ""; gbkey "Gene"; gene "mdtL"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19845"; old_locus_tag "ECDH10B_3897"; -NC_010473.1 Protein Homology CDS 3987222 3988394 . + 0 gene_id "ECDH10B_RS19845"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mdtL"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418166.1"; locus_tag "ECDH10B_RS19845"; product "multidrug efflux MFS transporter MdtL"; protein_id "WP_000085982.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3987222 3987224 . + 0 gene_id "ECDH10B_RS19845"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mdtL"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418166.1"; locus_tag "ECDH10B_RS19845"; product "multidrug efflux MFS transporter MdtL"; protein_id "WP_000085982.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3988395 3988397 . + 0 gene_id "ECDH10B_RS19845"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mdtL"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418166.1"; locus_tag "ECDH10B_RS19845"; product "multidrug efflux MFS transporter MdtL"; protein_id "WP_000085982.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3988372 3989331 . + . gene_id "ECDH10B_RS19850"; transcript_id ""; gbkey "Gene"; gene "yidZ"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19850"; old_locus_tag "ECDH10B_3898"; -NC_010473.1 Protein Homology CDS 3988372 3989328 . + 0 gene_id "ECDH10B_RS19850"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yidZ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418167.1"; locus_tag "ECDH10B_RS19850"; product "HTH-type transcriptional regulator YidZ"; protein_id "WP_001311238.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3988372 3988374 . + 0 gene_id "ECDH10B_RS19850"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yidZ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418167.1"; locus_tag "ECDH10B_RS19850"; product "HTH-type transcriptional regulator YidZ"; protein_id "WP_001311238.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3989329 3989331 . + 0 gene_id "ECDH10B_RS19850"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yidZ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418167.1"; locus_tag "ECDH10B_RS19850"; product "HTH-type transcriptional regulator YidZ"; protein_id "WP_001311238.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3989488 3990237 . + . gene_id "ECDH10B_RS19855"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19855"; old_locus_tag "ECDH10B_3899"; -NC_010473.1 Protein Homology CDS 3989488 3990234 . + 0 gene_id "ECDH10B_RS19855"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418168.2"; locus_tag "ECDH10B_RS19855"; product "4'-phosphopantetheinyl transferase superfamily protein"; protein_id "WP_001296581.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3989488 3989490 . + 0 gene_id "ECDH10B_RS19855"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418168.2"; locus_tag "ECDH10B_RS19855"; product "4'-phosphopantetheinyl transferase superfamily protein"; protein_id "WP_001296581.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3990235 3990237 . + 0 gene_id "ECDH10B_RS19855"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418168.2"; locus_tag "ECDH10B_RS19855"; product "4'-phosphopantetheinyl transferase superfamily protein"; protein_id "WP_001296581.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3990259 3990825 . + . gene_id "ECDH10B_RS19860"; transcript_id ""; gbkey "Gene"; gene "yieF"; gene_biotype "protein_coding"; gene_synonym "chrR"; locus_tag "ECDH10B_RS19860"; old_locus_tag "ECDH10B_3900"; -NC_010473.1 Protein Homology CDS 3990259 3990822 . + 0 gene_id "ECDH10B_RS19860"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yieF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312677.1"; locus_tag "ECDH10B_RS19860"; product "class I chromate reductase YieF"; protein_id "WP_001291268.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3990259 3990261 . + 0 gene_id "ECDH10B_RS19860"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yieF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312677.1"; locus_tag "ECDH10B_RS19860"; product "class I chromate reductase YieF"; protein_id "WP_001291268.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3990823 3990825 . + 0 gene_id "ECDH10B_RS19860"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yieF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312677.1"; locus_tag "ECDH10B_RS19860"; product "class I chromate reductase YieF"; protein_id "WP_001291268.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3990879 3992216 . - . gene_id "ECDH10B_RS19865"; transcript_id ""; gbkey "Gene"; gene "adeP"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19865"; old_locus_tag "ECDH10B_3901"; -NC_010473.1 Protein Homology CDS 3990882 3992216 . - 0 gene_id "ECDH10B_RS19865"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "adeP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418170.1"; locus_tag "ECDH10B_RS19865"; product "adenine permease AdeP"; protein_id "WP_000019348.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3992214 3992216 . - 0 gene_id "ECDH10B_RS19865"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "adeP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418170.1"; locus_tag "ECDH10B_RS19865"; product "adenine permease AdeP"; protein_id "WP_000019348.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3990879 3990881 . - 0 gene_id "ECDH10B_RS19865"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "adeP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418170.1"; locus_tag "ECDH10B_RS19865"; product "adenine permease AdeP"; protein_id "WP_000019348.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3992381 3993046 . + . gene_id "ECDH10B_RS19870"; transcript_id ""; gbkey "Gene"; gene "yieH"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19870"; old_locus_tag "ECDH10B_3902"; -NC_010473.1 Protein Homology CDS 3992381 3993043 . + 0 gene_id "ECDH10B_RS19870"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yieH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418171.1"; locus_tag "ECDH10B_RS19870"; product "6-phosphogluconate phosphatase"; protein_id "WP_000086486.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3992381 3992383 . + 0 gene_id "ECDH10B_RS19870"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yieH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418171.1"; locus_tag "ECDH10B_RS19870"; product "6-phosphogluconate phosphatase"; protein_id "WP_000086486.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3993044 3993046 . + 0 gene_id "ECDH10B_RS19870"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yieH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418171.1"; locus_tag "ECDH10B_RS19870"; product "6-phosphogluconate phosphatase"; protein_id "WP_000086486.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3993113 3993580 . + . gene_id "ECDH10B_RS19875"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19875"; old_locus_tag "ECDH10B_3903"; -NC_010473.1 Protein Homology CDS 3993113 3993577 . + 0 gene_id "ECDH10B_RS19875"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418172.1"; locus_tag "ECDH10B_RS19875"; product "protein CbrB"; protein_id "WP_000116777.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3993113 3993115 . + 0 gene_id "ECDH10B_RS19875"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418172.1"; locus_tag "ECDH10B_RS19875"; product "protein CbrB"; protein_id "WP_000116777.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3993578 3993580 . + 0 gene_id "ECDH10B_RS19875"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418172.1"; locus_tag "ECDH10B_RS19875"; product "protein CbrB"; protein_id "WP_000116777.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3993629 3994216 . + . gene_id "ECDH10B_RS19880"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19880"; old_locus_tag "ECDH10B_3904"; -NC_010473.1 Protein Homology CDS 3993629 3994213 . + 0 gene_id "ECDH10B_RS19880"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418173.1"; locus_tag "ECDH10B_RS19880"; product "CbrC family protein"; protein_id "WP_000193072.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3993629 3993631 . + 0 gene_id "ECDH10B_RS19880"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418173.1"; locus_tag "ECDH10B_RS19880"; product "CbrC family protein"; protein_id "WP_000193072.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3994214 3994216 . + 0 gene_id "ECDH10B_RS19880"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418173.1"; locus_tag "ECDH10B_RS19880"; product "CbrC family protein"; protein_id "WP_000193072.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3994278 3995000 . - . gene_id "ECDH10B_RS19885"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19885"; old_locus_tag "ECDH10B_3905"; -NC_010473.1 Protein Homology CDS 3994281 3995000 . - 0 gene_id "ECDH10B_RS19885"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026242.1"; locus_tag "ECDH10B_RS19885"; product "glucosamine-6-phosphate deaminase"; protein_id "WP_000766900.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3994998 3995000 . - 0 gene_id "ECDH10B_RS19885"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026242.1"; locus_tag "ECDH10B_RS19885"; product "glucosamine-6-phosphate deaminase"; protein_id "WP_000766900.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3994278 3994280 . - 0 gene_id "ECDH10B_RS19885"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026242.1"; locus_tag "ECDH10B_RS19885"; product "glucosamine-6-phosphate deaminase"; protein_id "WP_000766900.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3995015 3996184 . - . gene_id "ECDH10B_RS19890"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19890"; old_locus_tag "ECDH10B_3906"; -NC_010473.1 Protein Homology CDS 3995018 3996184 . - 0 gene_id "ECDH10B_RS19890"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418175.3"; locus_tag "ECDH10B_RS19890"; product "xylanase"; protein_id "WP_001336377.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3996182 3996184 . - 0 gene_id "ECDH10B_RS19890"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418175.3"; locus_tag "ECDH10B_RS19890"; product "xylanase"; protein_id "WP_001336377.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3995015 3995017 . - 0 gene_id "ECDH10B_RS19890"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418175.3"; locus_tag "ECDH10B_RS19890"; product "xylanase"; protein_id "WP_001336377.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3996211 3997827 . - . gene_id "ECDH10B_RS19895"; transcript_id ""; gbkey "Gene"; gene "bglH"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19895"; old_locus_tag "ECDH10B_3907"; -NC_010473.1 Protein Homology CDS 3996214 3997827 . - 0 gene_id "ECDH10B_RS19895"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "bglH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418176.1"; locus_tag "ECDH10B_RS19895"; product "carbohydrate-specific porin BglH"; protein_id "WP_000489881.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3997825 3997827 . - 0 gene_id "ECDH10B_RS19895"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "bglH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418176.1"; locus_tag "ECDH10B_RS19895"; product "carbohydrate-specific porin BglH"; protein_id "WP_000489881.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3996211 3996213 . - 0 gene_id "ECDH10B_RS19895"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "bglH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418176.1"; locus_tag "ECDH10B_RS19895"; product "carbohydrate-specific porin BglH"; protein_id "WP_000489881.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3997896 3999308 . - . gene_id "ECDH10B_RS19900"; transcript_id ""; gbkey "Gene"; gene "bglB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19900"; old_locus_tag "ECDH10B_3908"; -NC_010473.1 Protein Homology CDS 3997899 3999308 . - 0 gene_id "ECDH10B_RS19900"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "bglB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418177.1"; locus_tag "ECDH10B_RS19900"; product "6-phospho-beta-glucosidase BglB"; protein_id "WP_000643228.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 3999306 3999308 . - 0 gene_id "ECDH10B_RS19900"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "bglB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418177.1"; locus_tag "ECDH10B_RS19900"; product "6-phospho-beta-glucosidase BglB"; protein_id "WP_000643228.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3997896 3997898 . - 0 gene_id "ECDH10B_RS19900"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "bglB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418177.1"; locus_tag "ECDH10B_RS19900"; product "6-phospho-beta-glucosidase BglB"; protein_id "WP_000643228.1"; transl_table "11"; -NC_010473.1 RefSeq gene 3999327 4001204 . - . gene_id "ECDH10B_RS19905"; transcript_id ""; gbkey "Gene"; gene "bglF"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19905"; old_locus_tag "ECDH10B_3909"; -NC_010473.1 Protein Homology CDS 3999330 4001204 . - 0 gene_id "ECDH10B_RS19905"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "bglF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418178.1"; locus_tag "ECDH10B_RS19905"; product "PTS beta-glucoside transporter subunit IIABC"; protein_id "WP_000137296.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4001202 4001204 . - 0 gene_id "ECDH10B_RS19905"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "bglF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418178.1"; locus_tag "ECDH10B_RS19905"; product "PTS beta-glucoside transporter subunit IIABC"; protein_id "WP_000137296.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 3999327 3999329 . - 0 gene_id "ECDH10B_RS19905"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "bglF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418178.1"; locus_tag "ECDH10B_RS19905"; product "PTS beta-glucoside transporter subunit IIABC"; protein_id "WP_000137296.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4001338 4002174 . - . gene_id "ECDH10B_RS19910"; transcript_id ""; gbkey "Gene"; gene "bglG"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19910"; old_locus_tag "ECDH10B_3910"; -NC_010473.1 Protein Homology CDS 4001341 4002174 . - 0 gene_id "ECDH10B_RS19910"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "bglG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418179.1"; locus_tag "ECDH10B_RS19910"; product "transcriptional antiterminator BglG"; protein_id "WP_001295251.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4002172 4002174 . - 0 gene_id "ECDH10B_RS19910"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "bglG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418179.1"; locus_tag "ECDH10B_RS19910"; product "transcriptional antiterminator BglG"; protein_id "WP_001295251.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4001338 4001340 . - 0 gene_id "ECDH10B_RS19910"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "bglG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418179.1"; locus_tag "ECDH10B_RS19910"; product "transcriptional antiterminator BglG"; protein_id "WP_001295251.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4002460 4003185 . - . gene_id "ECDH10B_RS19915"; transcript_id ""; gbkey "Gene"; gene "phoU"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19915"; old_locus_tag "ECDH10B_3911"; -NC_010473.1 Protein Homology CDS 4002463 4003185 . - 0 gene_id "ECDH10B_RS19915"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "phoU"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418180.1"; locus_tag "ECDH10B_RS19915"; product "phosphate signaling complex protein PhoU"; protein_id "WP_000377786.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4003183 4003185 . - 0 gene_id "ECDH10B_RS19915"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "phoU"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418180.1"; locus_tag "ECDH10B_RS19915"; product "phosphate signaling complex protein PhoU"; protein_id "WP_000377786.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4002460 4002462 . - 0 gene_id "ECDH10B_RS19915"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "phoU"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418180.1"; locus_tag "ECDH10B_RS19915"; product "phosphate signaling complex protein PhoU"; protein_id "WP_000377786.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4003200 4003973 . - . gene_id "ECDH10B_RS19920"; transcript_id ""; gbkey "Gene"; gene "pstB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19920"; old_locus_tag "ECDH10B_3912"; -NC_010473.1 Protein Homology CDS 4003203 4003973 . - 0 gene_id "ECDH10B_RS19920"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pstB"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000063125.1"; locus_tag "ECDH10B_RS19920"; product "phosphate ABC transporter ATP-binding protein PstB"; protein_id "WP_000063125.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4003971 4003973 . - 0 gene_id "ECDH10B_RS19920"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pstB"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000063125.1"; locus_tag "ECDH10B_RS19920"; product "phosphate ABC transporter ATP-binding protein PstB"; protein_id "WP_000063125.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4003200 4003202 . - 0 gene_id "ECDH10B_RS19920"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pstB"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000063125.1"; locus_tag "ECDH10B_RS19920"; product "phosphate ABC transporter ATP-binding protein PstB"; protein_id "WP_000063125.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4004156 4005046 . - . gene_id "ECDH10B_RS19925"; transcript_id ""; gbkey "Gene"; gene "pstA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19925"; old_locus_tag "ECDH10B_3913"; -NC_010473.1 Protein Homology CDS 4004159 4005046 . - 0 gene_id "ECDH10B_RS19925"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pstA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418182.1"; locus_tag "ECDH10B_RS19925"; product "phosphate ABC transporter permease PstA"; protein_id "WP_001251998.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4005044 4005046 . - 0 gene_id "ECDH10B_RS19925"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pstA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418182.1"; locus_tag "ECDH10B_RS19925"; product "phosphate ABC transporter permease PstA"; protein_id "WP_001251998.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4004156 4004158 . - 0 gene_id "ECDH10B_RS19925"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pstA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418182.1"; locus_tag "ECDH10B_RS19925"; product "phosphate ABC transporter permease PstA"; protein_id "WP_001251998.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4005046 4006005 . - . gene_id "ECDH10B_RS19930"; transcript_id ""; gbkey "Gene"; gene "pstC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19930"; old_locus_tag "ECDH10B_3914"; -NC_010473.1 Protein Homology CDS 4005049 4006005 . - 0 gene_id "ECDH10B_RS19930"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pstC"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_008806729.1"; locus_tag "ECDH10B_RS19930"; product "phosphate ABC transporter permease PstC"; protein_id "WP_000741620.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4006003 4006005 . - 0 gene_id "ECDH10B_RS19930"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pstC"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_008806729.1"; locus_tag "ECDH10B_RS19930"; product "phosphate ABC transporter permease PstC"; protein_id "WP_000741620.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4005046 4005048 . - 0 gene_id "ECDH10B_RS19930"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pstC"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_008806729.1"; locus_tag "ECDH10B_RS19930"; product "phosphate ABC transporter permease PstC"; protein_id "WP_000741620.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4006092 4007132 . - . gene_id "ECDH10B_RS19935"; transcript_id ""; gbkey "Gene"; gene "pstS"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19935"; old_locus_tag "ECDH10B_3915"; -NC_010473.1 Protein Homology CDS 4006095 4007132 . - 0 gene_id "ECDH10B_RS19935"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pstS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418184.1"; locus_tag "ECDH10B_RS19935"; product "phosphate ABC transporter substrate-binding protein PstS"; protein_id "WP_000867146.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4007130 4007132 . - 0 gene_id "ECDH10B_RS19935"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pstS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418184.1"; locus_tag "ECDH10B_RS19935"; product "phosphate ABC transporter substrate-binding protein PstS"; protein_id "WP_000867146.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4006092 4006094 . - 0 gene_id "ECDH10B_RS19935"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pstS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418184.1"; locus_tag "ECDH10B_RS19935"; product "phosphate ABC transporter substrate-binding protein PstS"; protein_id "WP_000867146.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4007446 4009275 . - . gene_id "ECDH10B_RS19940"; transcript_id ""; gbkey "Gene"; gene "glmS"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19940"; -NC_010473.1 Protein Homology CDS 4007449 4009275 . - 0 gene_id "ECDH10B_RS19940"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "glmS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005121462.1"; locus_tag "ECDH10B_RS19940"; product "glutamine--fructose-6-phosphate transaminase (isomerizing)"; protein_id "WP_000334097.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4009273 4009275 . - 0 gene_id "ECDH10B_RS19940"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "glmS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005121462.1"; locus_tag "ECDH10B_RS19940"; product "glutamine--fructose-6-phosphate transaminase (isomerizing)"; protein_id "WP_000334097.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4007446 4007448 . - 0 gene_id "ECDH10B_RS19940"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "glmS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005121462.1"; locus_tag "ECDH10B_RS19940"; product "glutamine--fructose-6-phosphate transaminase (isomerizing)"; protein_id "WP_000334097.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4009437 4010807 . - . gene_id "ECDH10B_RS19945"; transcript_id ""; gbkey "Gene"; gene "glmU"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19945"; old_locus_tag "ECDH10B_3917"; -NC_010473.1 Protein Homology CDS 4009440 4010807 . - 0 gene_id "ECDH10B_RS19945"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "glmU"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312699.1"; locus_tag "ECDH10B_RS19945"; product "bifunctional UDP-N-acetylglucosamine diphosphorylase/glucosamine-1-phosphate N-acetyltransferase GlmU"; protein_id "WP_000933736.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4010805 4010807 . - 0 gene_id "ECDH10B_RS19945"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "glmU"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312699.1"; locus_tag "ECDH10B_RS19945"; product "bifunctional UDP-N-acetylglucosamine diphosphorylase/glucosamine-1-phosphate N-acetyltransferase GlmU"; protein_id "WP_000933736.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4009437 4009439 . - 0 gene_id "ECDH10B_RS19945"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "glmU"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312699.1"; locus_tag "ECDH10B_RS19945"; product "bifunctional UDP-N-acetylglucosamine diphosphorylase/glucosamine-1-phosphate N-acetyltransferase GlmU"; protein_id "WP_000933736.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4011160 4011579 . - . gene_id "ECDH10B_RS19950"; transcript_id ""; gbkey "Gene"; gene "atpC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19950"; old_locus_tag "ECDH10B_3918"; -NC_010473.1 Protein Homology CDS 4011163 4011579 . - 0 gene_id "ECDH10B_RS19950"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "atpC"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001251972.1"; locus_tag "ECDH10B_RS19950"; product "F0F1 ATP synthase subunit epsilon"; protein_id "WP_001251965.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4011577 4011579 . - 0 gene_id "ECDH10B_RS19950"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "atpC"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001251972.1"; locus_tag "ECDH10B_RS19950"; product "F0F1 ATP synthase subunit epsilon"; protein_id "WP_001251965.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4011160 4011162 . - 0 gene_id "ECDH10B_RS19950"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "atpC"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001251972.1"; locus_tag "ECDH10B_RS19950"; product "F0F1 ATP synthase subunit epsilon"; protein_id "WP_001251965.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4011600 4012982 . - . gene_id "ECDH10B_RS19955"; transcript_id ""; gbkey "Gene"; gene "atpD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19955"; old_locus_tag "ECDH10B_3919"; -NC_010473.1 Protein Homology CDS 4011603 4012982 . - 0 gene_id "ECDH10B_RS19955"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "atpD"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_017800291.1"; locus_tag "ECDH10B_RS19955"; product "F0F1 ATP synthase subunit beta"; protein_id "WP_000190506.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4012980 4012982 . - 0 gene_id "ECDH10B_RS19955"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "atpD"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_017800291.1"; locus_tag "ECDH10B_RS19955"; product "F0F1 ATP synthase subunit beta"; protein_id "WP_000190506.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4011600 4011602 . - 0 gene_id "ECDH10B_RS19955"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "atpD"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_017800291.1"; locus_tag "ECDH10B_RS19955"; product "F0F1 ATP synthase subunit beta"; protein_id "WP_000190506.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4013009 4013872 . - . gene_id "ECDH10B_RS19960"; transcript_id ""; gbkey "Gene"; gene "atpG"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19960"; old_locus_tag "ECDH10B_3920"; -NC_010473.1 Protein Homology CDS 4013012 4013872 . - 0 gene_id "ECDH10B_RS19960"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "atpG"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_020882764.1"; locus_tag "ECDH10B_RS19960"; product "F0F1 ATP synthase subunit gamma"; protein_id "WP_000896498.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4013870 4013872 . - 0 gene_id "ECDH10B_RS19960"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "atpG"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_020882764.1"; locus_tag "ECDH10B_RS19960"; product "F0F1 ATP synthase subunit gamma"; protein_id "WP_000896498.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4013009 4013011 . - 0 gene_id "ECDH10B_RS19960"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "atpG"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_020882764.1"; locus_tag "ECDH10B_RS19960"; product "F0F1 ATP synthase subunit gamma"; protein_id "WP_000896498.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4013923 4015464 . - . gene_id "ECDH10B_RS19965"; transcript_id ""; gbkey "Gene"; gene "atpA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19965"; old_locus_tag "ECDH10B_3921"; -NC_010473.1 Protein Homology CDS 4013926 4015464 . - 0 gene_id "ECDH10B_RS19965"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "atpA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001176751.1"; locus_tag "ECDH10B_RS19965"; product "F0F1 ATP synthase subunit alpha"; protein_id "WP_001176745.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4015462 4015464 . - 0 gene_id "ECDH10B_RS19965"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "atpA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001176751.1"; locus_tag "ECDH10B_RS19965"; product "F0F1 ATP synthase subunit alpha"; protein_id "WP_001176745.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4013923 4013925 . - 0 gene_id "ECDH10B_RS19965"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "atpA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001176751.1"; locus_tag "ECDH10B_RS19965"; product "F0F1 ATP synthase subunit alpha"; protein_id "WP_001176745.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4015477 4016010 . - . gene_id "ECDH10B_RS19970"; transcript_id ""; gbkey "Gene"; gene "atpH"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19970"; old_locus_tag "ECDH10B_3922"; -NC_010473.1 Protein Homology CDS 4015480 4016010 . - 0 gene_id "ECDH10B_RS19970"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "atpH"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_015966593.1"; locus_tag "ECDH10B_RS19970"; product "F0F1 ATP synthase subunit delta"; protein_id "WP_001288587.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4016008 4016010 . - 0 gene_id "ECDH10B_RS19970"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "atpH"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_015966593.1"; locus_tag "ECDH10B_RS19970"; product "F0F1 ATP synthase subunit delta"; protein_id "WP_001288587.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4015477 4015479 . - 0 gene_id "ECDH10B_RS19970"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "atpH"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_015966593.1"; locus_tag "ECDH10B_RS19970"; product "F0F1 ATP synthase subunit delta"; protein_id "WP_001288587.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4016025 4016495 . - . gene_id "ECDH10B_RS19975"; transcript_id ""; gbkey "Gene"; gene "atpF"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19975"; old_locus_tag "ECDH10B_3923"; -NC_010473.1 Protein Homology CDS 4016028 4016495 . - 0 gene_id "ECDH10B_RS19975"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "atpF"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001052215.1"; locus_tag "ECDH10B_RS19975"; product "F0F1 ATP synthase subunit B"; protein_id "WP_001052219.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4016493 4016495 . - 0 gene_id "ECDH10B_RS19975"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "atpF"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001052215.1"; locus_tag "ECDH10B_RS19975"; product "F0F1 ATP synthase subunit B"; protein_id "WP_001052219.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4016025 4016027 . - 0 gene_id "ECDH10B_RS19975"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "atpF"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001052215.1"; locus_tag "ECDH10B_RS19975"; product "F0F1 ATP synthase subunit B"; protein_id "WP_001052219.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4016557 4016796 . - . gene_id "ECDH10B_RS19980"; transcript_id ""; gbkey "Gene"; gene "atpE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19980"; old_locus_tag "ECDH10B_3924"; -NC_010473.1 Protein Homology CDS 4016560 4016796 . - 0 gene_id "ECDH10B_RS19980"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "atpE"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_004246596.1"; locus_tag "ECDH10B_RS19980"; product "F0F1 ATP synthase subunit C"; protein_id "WP_000429386.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4016794 4016796 . - 0 gene_id "ECDH10B_RS19980"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "atpE"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_004246596.1"; locus_tag "ECDH10B_RS19980"; product "F0F1 ATP synthase subunit C"; protein_id "WP_000429386.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4016557 4016559 . - 0 gene_id "ECDH10B_RS19980"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "atpE"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_004246596.1"; locus_tag "ECDH10B_RS19980"; product "F0F1 ATP synthase subunit C"; protein_id "WP_000429386.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4016843 4017658 . - . gene_id "ECDH10B_RS19985"; transcript_id ""; gbkey "Gene"; gene "atpB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19985"; old_locus_tag "ECDH10B_3925"; -NC_010473.1 Protein Homology CDS 4016846 4017658 . - 0 gene_id "ECDH10B_RS19985"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "atpB"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005121454.1"; locus_tag "ECDH10B_RS19985"; product "F0F1 ATP synthase subunit A"; protein_id "WP_000135625.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4017656 4017658 . - 0 gene_id "ECDH10B_RS19985"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "atpB"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005121454.1"; locus_tag "ECDH10B_RS19985"; product "F0F1 ATP synthase subunit A"; protein_id "WP_000135625.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4016843 4016845 . - 0 gene_id "ECDH10B_RS19985"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "atpB"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005121454.1"; locus_tag "ECDH10B_RS19985"; product "F0F1 ATP synthase subunit A"; protein_id "WP_000135625.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4017667 4018047 . - . gene_id "ECDH10B_RS19990"; transcript_id ""; gbkey "Gene"; gene "atpI"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19990"; old_locus_tag "ECDH10B_3926"; -NC_010473.1 Protein Homology CDS 4017670 4018047 . - 0 gene_id "ECDH10B_RS19990"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "atpI"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418195.2"; locus_tag "ECDH10B_RS19990"; product "F0F1 ATP synthase subunit I"; protein_id "WP_000116695.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4018045 4018047 . - 0 gene_id "ECDH10B_RS19990"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "atpI"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418195.2"; locus_tag "ECDH10B_RS19990"; product "F0F1 ATP synthase subunit I"; protein_id "WP_000116695.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4017667 4017669 . - 0 gene_id "ECDH10B_RS19990"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "atpI"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418195.2"; locus_tag "ECDH10B_RS19990"; product "F0F1 ATP synthase subunit I"; protein_id "WP_000116695.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4018664 4019287 . - . gene_id "ECDH10B_RS19995"; transcript_id ""; gbkey "Gene"; gene "rsmG"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS19995"; old_locus_tag "ECDH10B_3927"; -NC_010473.1 Protein Homology CDS 4018667 4019287 . - 0 gene_id "ECDH10B_RS19995"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rsmG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312709.1"; locus_tag "ECDH10B_RS19995"; product "16S rRNA (guanine(527)-N(7))-methyltransferase RsmG"; protein_id "WP_000932839.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4019285 4019287 . - 0 gene_id "ECDH10B_RS19995"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rsmG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312709.1"; locus_tag "ECDH10B_RS19995"; product "16S rRNA (guanine(527)-N(7))-methyltransferase RsmG"; protein_id "WP_000932839.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4018664 4018666 . - 0 gene_id "ECDH10B_RS19995"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rsmG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312709.1"; locus_tag "ECDH10B_RS19995"; product "16S rRNA (guanine(527)-N(7))-methyltransferase RsmG"; protein_id "WP_000932839.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4019351 4021240 . - . gene_id "ECDH10B_RS20000"; transcript_id ""; gbkey "Gene"; gene "mnmG"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20000"; old_locus_tag "ECDH10B_3928"; -NC_010473.1 Protein Homology CDS 4019354 4021240 . - 0 gene_id "ECDH10B_RS20000"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mnmG"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000499793.1"; locus_tag "ECDH10B_RS20000"; product "tRNA uridine(34) 5-carboxymethylaminomethyl synthesis enzyme MnmG"; protein_id "WP_000499788.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4021238 4021240 . - 0 gene_id "ECDH10B_RS20000"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mnmG"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000499793.1"; locus_tag "ECDH10B_RS20000"; product "tRNA uridine(34) 5-carboxymethylaminomethyl synthesis enzyme MnmG"; protein_id "WP_000499788.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4019351 4019353 . - 0 gene_id "ECDH10B_RS20000"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mnmG"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000499793.1"; locus_tag "ECDH10B_RS20000"; product "tRNA uridine(34) 5-carboxymethylaminomethyl synthesis enzyme MnmG"; protein_id "WP_000499788.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4021619 4022062 . - . gene_id "ECDH10B_RS20005"; transcript_id ""; gbkey "Gene"; gene "mioC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20005"; old_locus_tag "ECDH10B_3930"; -NC_010473.1 Protein Homology CDS 4021622 4022062 . - 0 gene_id "ECDH10B_RS20005"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mioC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418198.1"; locus_tag "ECDH10B_RS20005"; product "FMN-binding protein MioC"; protein_id "WP_000763724.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4022060 4022062 . - 0 gene_id "ECDH10B_RS20005"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mioC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418198.1"; locus_tag "ECDH10B_RS20005"; product "FMN-binding protein MioC"; protein_id "WP_000763724.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4021619 4021621 . - 0 gene_id "ECDH10B_RS20005"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mioC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418198.1"; locus_tag "ECDH10B_RS20005"; product "FMN-binding protein MioC"; protein_id "WP_000763724.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4022152 4022610 . - . gene_id "ECDH10B_RS20010"; transcript_id ""; gbkey "Gene"; gene "asnC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20010"; old_locus_tag "ECDH10B_3931"; -NC_010473.1 Protein Homology CDS 4022155 4022610 . - 0 gene_id "ECDH10B_RS20010"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "asnC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312712.1"; locus_tag "ECDH10B_RS20010"; product "transcriptional regulator AsnC"; protein_id "WP_000432970.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4022608 4022610 . - 0 gene_id "ECDH10B_RS20010"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "asnC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312712.1"; locus_tag "ECDH10B_RS20010"; product "transcriptional regulator AsnC"; protein_id "WP_000432970.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4022152 4022154 . - 0 gene_id "ECDH10B_RS20010"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "asnC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312712.1"; locus_tag "ECDH10B_RS20010"; product "transcriptional regulator AsnC"; protein_id "WP_000432970.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4022762 4023754 . + . gene_id "ECDH10B_RS20015"; transcript_id ""; gbkey "Gene"; gene "asnA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20015"; old_locus_tag "ECDH10B_3932"; -NC_010473.1 Protein Homology CDS 4022762 4023751 . + 0 gene_id "ECDH10B_RS20015"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "asnA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418200.1"; locus_tag "ECDH10B_RS20015"; product "aspartate--ammonia ligase"; protein_id "WP_000845104.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4022762 4022764 . + 0 gene_id "ECDH10B_RS20015"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "asnA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418200.1"; locus_tag "ECDH10B_RS20015"; product "aspartate--ammonia ligase"; protein_id "WP_000845104.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4023752 4023754 . + 0 gene_id "ECDH10B_RS20015"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "asnA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418200.1"; locus_tag "ECDH10B_RS20015"; product "aspartate--ammonia ligase"; protein_id "WP_000845104.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4023759 4025210 . - . gene_id "ECDH10B_RS20020"; transcript_id ""; gbkey "Gene"; gene "viaA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20020"; old_locus_tag "ECDH10B_3933"; -NC_010473.1 Protein Homology CDS 4023762 4025210 . - 0 gene_id "ECDH10B_RS20020"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "viaA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312714.1"; locus_tag "ECDH10B_RS20020"; product "ATPase RavA stimulator ViaA"; protein_id "WP_000956642.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4025208 4025210 . - 0 gene_id "ECDH10B_RS20020"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "viaA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312714.1"; locus_tag "ECDH10B_RS20020"; product "ATPase RavA stimulator ViaA"; protein_id "WP_000956642.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4023759 4023761 . - 0 gene_id "ECDH10B_RS20020"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "viaA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312714.1"; locus_tag "ECDH10B_RS20020"; product "ATPase RavA stimulator ViaA"; protein_id "WP_000956642.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4025204 4026700 . - . gene_id "ECDH10B_RS20025"; transcript_id ""; gbkey "Gene"; gene "ravA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20025"; -NC_010473.1 Protein Homology CDS 4025207 4026700 . - 0 gene_id "ECDH10B_RS20025"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ravA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418202.4"; locus_tag "ECDH10B_RS20025"; product "ATPase RavA"; protein_id "WP_024255355.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4026698 4026700 . - 0 gene_id "ECDH10B_RS20025"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ravA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418202.4"; locus_tag "ECDH10B_RS20025"; product "ATPase RavA"; protein_id "WP_024255355.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4025204 4025206 . - 0 gene_id "ECDH10B_RS20025"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ravA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418202.4"; locus_tag "ECDH10B_RS20025"; product "ATPase RavA"; protein_id "WP_024255355.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4026923 4028791 . + . gene_id "ECDH10B_RS20030"; transcript_id ""; gbkey "Gene"; gene "kup"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20030"; old_locus_tag "ECDH10B_3935"; -NC_010473.1 Protein Homology CDS 4026923 4028788 . + 0 gene_id "ECDH10B_RS20030"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "kup"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000102304.1"; locus_tag "ECDH10B_RS20030"; product "low affinity potassium transporter Kup"; protein_id "WP_000102319.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4026923 4026925 . + 0 gene_id "ECDH10B_RS20030"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "kup"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000102304.1"; locus_tag "ECDH10B_RS20030"; product "low affinity potassium transporter Kup"; protein_id "WP_000102319.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4028789 4028791 . + 0 gene_id "ECDH10B_RS20030"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "kup"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000102304.1"; locus_tag "ECDH10B_RS20030"; product "low affinity potassium transporter Kup"; protein_id "WP_000102319.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4028958 4029377 . + . gene_id "ECDH10B_RS20035"; transcript_id ""; gbkey "Gene"; gene "rbsD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20035"; old_locus_tag "ECDH10B_3936"; -NC_010473.1 Protein Homology CDS 4028958 4029374 . + 0 gene_id "ECDH10B_RS20035"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rbsD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312717.1"; locus_tag "ECDH10B_RS20035"; product "D-ribose pyranase"; protein_id "WP_001301979.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4028958 4028960 . + 0 gene_id "ECDH10B_RS20035"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rbsD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312717.1"; locus_tag "ECDH10B_RS20035"; product "D-ribose pyranase"; protein_id "WP_001301979.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4029375 4029377 . + 0 gene_id "ECDH10B_RS20035"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rbsD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312717.1"; locus_tag "ECDH10B_RS20035"; product "D-ribose pyranase"; protein_id "WP_001301979.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4029385 4030890 . + . gene_id "ECDH10B_RS20040"; transcript_id ""; gbkey "Gene"; gene "rbsA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20040"; old_locus_tag "ECDH10B_3937"; -NC_010473.1 Protein Homology CDS 4029385 4030887 . + 0 gene_id "ECDH10B_RS20040"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rbsA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418205.1"; locus_tag "ECDH10B_RS20040"; product "ribose ABC transporter ATP-binding protein RbsA"; protein_id "WP_000387770.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4029385 4029387 . + 0 gene_id "ECDH10B_RS20040"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rbsA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418205.1"; locus_tag "ECDH10B_RS20040"; product "ribose ABC transporter ATP-binding protein RbsA"; protein_id "WP_000387770.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4030888 4030890 . + 0 gene_id "ECDH10B_RS20040"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rbsA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418205.1"; locus_tag "ECDH10B_RS20040"; product "ribose ABC transporter ATP-binding protein RbsA"; protein_id "WP_000387770.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4030895 4031860 . + . gene_id "ECDH10B_RS20045"; transcript_id ""; gbkey "Gene"; gene "rbsC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20045"; old_locus_tag "ECDH10B_3938"; -NC_010473.1 Protein Homology CDS 4030895 4031857 . + 0 gene_id "ECDH10B_RS20045"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rbsC"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_002882531.1"; locus_tag "ECDH10B_RS20045"; product "ribose ABC transporter permease"; protein_id "WP_000211858.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4030895 4030897 . + 0 gene_id "ECDH10B_RS20045"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rbsC"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_002882531.1"; locus_tag "ECDH10B_RS20045"; product "ribose ABC transporter permease"; protein_id "WP_000211858.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4031858 4031860 . + 0 gene_id "ECDH10B_RS20045"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rbsC"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_002882531.1"; locus_tag "ECDH10B_RS20045"; product "ribose ABC transporter permease"; protein_id "WP_000211858.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4031885 4032775 . + . gene_id "ECDH10B_RS20050"; transcript_id ""; gbkey "Gene"; gene "rbsB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20050"; old_locus_tag "ECDH10B_3939"; -NC_010473.1 Protein Homology CDS 4031885 4032772 . + 0 gene_id "ECDH10B_RS20050"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rbsB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418207.1"; locus_tag "ECDH10B_RS20050"; product "ribose ABC transporter substrate-binding protein RbsB"; protein_id "WP_001056271.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4031885 4031887 . + 0 gene_id "ECDH10B_RS20050"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rbsB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418207.1"; locus_tag "ECDH10B_RS20050"; product "ribose ABC transporter substrate-binding protein RbsB"; protein_id "WP_001056271.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4032773 4032775 . + 0 gene_id "ECDH10B_RS20050"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rbsB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418207.1"; locus_tag "ECDH10B_RS20050"; product "ribose ABC transporter substrate-binding protein RbsB"; protein_id "WP_001056271.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4032901 4033830 . + . gene_id "ECDH10B_RS20055"; transcript_id ""; gbkey "Gene"; gene "rbsK"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20055"; old_locus_tag "ECDH10B_3940"; -NC_010473.1 Protein Homology CDS 4032901 4033827 . + 0 gene_id "ECDH10B_RS20055"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rbsK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312721.1"; locus_tag "ECDH10B_RS20055"; product "ribokinase"; protein_id "WP_001300603.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4032901 4032903 . + 0 gene_id "ECDH10B_RS20055"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rbsK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312721.1"; locus_tag "ECDH10B_RS20055"; product "ribokinase"; protein_id "WP_001300603.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4033828 4033830 . + 0 gene_id "ECDH10B_RS20055"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rbsK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312721.1"; locus_tag "ECDH10B_RS20055"; product "ribokinase"; protein_id "WP_001300603.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4033834 4034595 . + . gene_id "ECDH10B_RS20060"; transcript_id ""; gbkey "Gene"; gene "rbsR"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS20060"; partial "true"; pseudo "true"; -NC_010473.1 Protein Homology CDS 4033834 4034592 . + 0 gene_id "ECDH10B_RS20060"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rbsR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312722.1"; locus_tag "ECDH10B_RS20060"; note "incomplete; partial in the middle of a contig; missing C-terminus"; partial "true"; product "ribose operon transcriptional repressor RbsR"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4033834 4033836 . + 0 gene_id "ECDH10B_RS20060"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rbsR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312722.1"; locus_tag "ECDH10B_RS20060"; note "incomplete; partial in the middle of a contig; missing C-terminus"; partial "true"; product "ribose operon transcriptional repressor RbsR"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4034593 4034595 . + 0 gene_id "ECDH10B_RS20060"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rbsR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312722.1"; locus_tag "ECDH10B_RS20060"; note "incomplete; partial in the middle of a contig; missing C-terminus"; partial "true"; product "ribose operon transcriptional repressor RbsR"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 4034606 4035834 . - . gene_id "ECDH10B_RS24960"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS24960"; -NC_010473.1 Protein Homology CDS 4035519 4035834 . - 0 gene_id "ECDH10B_RS24960"; transcript_id "unknown_transcript_1"; exception "ribosomal slippage"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_086558215.1"; locus_tag "ECDH10B_RS24960"; note "programmed frameshift"; product "IS3-like element IS2 family transposase"; protein_id "WP_088895425.1"; transl_table "11"; -NC_010473.1 Protein Homology CDS 4034609 4035519 . - 0 gene_id "ECDH10B_RS24960"; transcript_id "unknown_transcript_1"; exception "ribosomal slippage"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_086558215.1"; locus_tag "ECDH10B_RS24960"; note "programmed frameshift"; product "IS3-like element IS2 family transposase"; protein_id "WP_088895425.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4035832 4035834 . - 0 gene_id "ECDH10B_RS24960"; transcript_id "unknown_transcript_1"; exception "ribosomal slippage"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_086558215.1"; locus_tag "ECDH10B_RS24960"; note "programmed frameshift"; product "IS3-like element IS2 family transposase"; protein_id "WP_088895425.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4034606 4034608 . - 0 gene_id "ECDH10B_RS24960"; transcript_id "unknown_transcript_1"; exception "ribosomal slippage"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_086558215.1"; locus_tag "ECDH10B_RS24960"; note "programmed frameshift"; product "IS3-like element IS2 family transposase"; protein_id "WP_088895425.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4035926 4036162 . + . gene_id "ECDH10B_RS20075"; transcript_id ""; gbkey "Gene"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS20075"; partial "true"; pseudo "true"; -NC_010473.1 Protein Homology CDS 4035926 4036159 . + 0 gene_id "ECDH10B_RS20075"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312722.1"; locus_tag "ECDH10B_RS20075"; note "incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "substrate-binding domain-containing protein"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4035926 4035928 . + 0 gene_id "ECDH10B_RS20075"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312722.1"; locus_tag "ECDH10B_RS20075"; note "incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "substrate-binding domain-containing protein"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4036160 4036162 . + 0 gene_id "ECDH10B_RS20075"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312722.1"; locus_tag "ECDH10B_RS20075"; note "incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "substrate-binding domain-containing protein"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 4036128 4037555 . - . gene_id "ECDH10B_RS20080"; transcript_id ""; gbkey "Gene"; gene "mdtD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20080"; old_locus_tag "ECDH10B_3943"; -NC_010473.1 Protein Homology CDS 4036131 4037555 . - 0 gene_id "ECDH10B_RS20080"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mdtD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418210.1"; locus_tag "ECDH10B_RS20080"; product "multidrug transporter subunit MdtD"; protein_id "WP_001280852.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4037553 4037555 . - 0 gene_id "ECDH10B_RS20080"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mdtD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418210.1"; locus_tag "ECDH10B_RS20080"; product "multidrug transporter subunit MdtD"; protein_id "WP_001280852.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4036128 4036130 . - 0 gene_id "ECDH10B_RS20080"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mdtD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418210.1"; locus_tag "ECDH10B_RS20080"; product "multidrug transporter subunit MdtD"; protein_id "WP_001280852.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4037578 4038270 . - . gene_id "ECDH10B_RS20085"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20085"; old_locus_tag "ECDH10B_3944"; -NC_010473.1 Protein Homology CDS 4037581 4038270 . - 0 gene_id "ECDH10B_RS20085"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312724.2"; locus_tag "ECDH10B_RS20085"; product "FadR family transcriptional regulator"; protein_id "WP_001131164.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4038268 4038270 . - 0 gene_id "ECDH10B_RS20085"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312724.2"; locus_tag "ECDH10B_RS20085"; product "FadR family transcriptional regulator"; protein_id "WP_001131164.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4037578 4037580 . - 0 gene_id "ECDH10B_RS20085"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312724.2"; locus_tag "ECDH10B_RS20085"; product "FadR family transcriptional regulator"; protein_id "WP_001131164.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4038751 4040292 . + . gene_id "ECDH10B_RS20090"; transcript_id ""; gbkey "Gene"; gene_biotype "rRNA"; locus_tag "ECDH10B_RS20090"; old_locus_tag "ECDH10B_3945"; -NC_010473.1 cmsearch exon 4038751 4040292 . + . gene_id "ECDH10B_RS20090"; transcript_id "ECDH10B_RS20090"; db_xref "RFAM:RF00177"; gbkey "rRNA"; inference "COORDINATES: nucleotide motif:Rfam:12.0:RF00177"; inference "COORDINATES: profile:INFERNAL:1.1.1"; locus_tag "ECDH10B_RS20090"; product "16S ribosomal RNA"; exon_number "1"; -NC_010473.1 RefSeq gene 4040378 4040453 . + . gene_id "ECDH10B_RS20095"; transcript_id ""; gbkey "Gene"; gene_biotype "tRNA"; locus_tag "ECDH10B_RS20095"; old_locus_tag "ECDH10B_3946"; -NC_010473.1 tRNAscan-SE exon 4040378 4040453 . + . gene_id "ECDH10B_RS20095"; transcript_id "ECDH10B_RS20095"; anticodon "(pos:4040412..4040414)"; gbkey "tRNA"; inference "COORDINATES: profile:tRNAscan-SE:2.0.6"; locus_tag "ECDH10B_RS20095"; product "tRNA-Glu"; exon_number "1"; -NC_010473.1 RefSeq gene 4040647 4043550 . + . gene_id "ECDH10B_RS20100"; transcript_id ""; gbkey "Gene"; gene_biotype "rRNA"; locus_tag "ECDH10B_RS20100"; old_locus_tag "ECDH10B_3947"; -NC_010473.1 cmsearch exon 4040647 4043550 . + . gene_id "ECDH10B_RS20100"; transcript_id "ECDH10B_RS20100"; db_xref "RFAM:RF02541"; gbkey "rRNA"; inference "COORDINATES: nucleotide motif:Rfam:12.0:RF02541"; inference "COORDINATES: profile:INFERNAL:1.1.1"; locus_tag "ECDH10B_RS20100"; product "23S ribosomal RNA"; exon_number "1"; -NC_010473.1 RefSeq gene 4043645 4043760 . + . gene_id "ECDH10B_RS20105"; transcript_id ""; gbkey "Gene"; gene "rrf"; gene_biotype "rRNA"; locus_tag "ECDH10B_RS20105"; old_locus_tag "ECDH10B_3948"; -NC_010473.1 cmsearch exon 4043645 4043760 . + . gene_id "ECDH10B_RS20105"; transcript_id "ECDH10B_RS20105"; db_xref "RFAM:RF00001"; gbkey "rRNA"; gene "rrf"; inference "COORDINATES: nucleotide motif:Rfam:12.0:RF00001"; inference "COORDINATES: profile:INFERNAL:1.1.1"; locus_tag "ECDH10B_RS20105"; product "5S ribosomal RNA"; exon_number "1"; -NC_010473.1 RefSeq gene 4043815 4043891 . + . gene_id "ECDH10B_RS20110"; transcript_id ""; gbkey "Gene"; gene_biotype "tRNA"; locus_tag "ECDH10B_RS20110"; old_locus_tag "ECDH10B_3949"; -NC_010473.1 tRNAscan-SE exon 4043815 4043891 . + . gene_id "ECDH10B_RS20110"; transcript_id "ECDH10B_RS20110"; anticodon "(pos:4043849..4043851)"; gbkey "tRNA"; inference "COORDINATES: profile:tRNAscan-SE:2.0.6"; locus_tag "ECDH10B_RS20110"; product "tRNA-Asp"; exon_number "1"; -NC_010473.1 RefSeq gene 4043900 4043975 . + . gene_id "ECDH10B_RS20115"; transcript_id ""; gbkey "Gene"; gene_biotype "tRNA"; locus_tag "ECDH10B_RS20115"; old_locus_tag "ECDH10B_3950"; -NC_010473.1 tRNAscan-SE exon 4043900 4043975 . + . gene_id "ECDH10B_RS20115"; transcript_id "ECDH10B_RS20115"; anticodon "(pos:4043933..4043935)"; gbkey "tRNA"; inference "COORDINATES: profile:tRNAscan-SE:2.0.6"; locus_tag "ECDH10B_RS20115"; product "tRNA-Trp"; exon_number "1"; -NC_010473.1 RefSeq gene 4044071 4044910 . - . gene_id "ECDH10B_RS20120"; transcript_id ""; gbkey "Gene"; gene "hdfR"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20120"; old_locus_tag "ECDH10B_3951"; -NC_010473.1 Protein Homology CDS 4044074 4044910 . - 0 gene_id "ECDH10B_RS20120"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hdfR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_709570.1"; locus_tag "ECDH10B_RS20120"; product "HTH-type transcriptional regulator HdfR"; protein_id "WP_000379245.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4044908 4044910 . - 0 gene_id "ECDH10B_RS20120"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hdfR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_709570.1"; locus_tag "ECDH10B_RS20120"; product "HTH-type transcriptional regulator HdfR"; protein_id "WP_000379245.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4044071 4044073 . - 0 gene_id "ECDH10B_RS20120"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hdfR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_709570.1"; locus_tag "ECDH10B_RS20120"; product "HTH-type transcriptional regulator HdfR"; protein_id "WP_000379245.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4045029 4045367 . + . gene_id "ECDH10B_RS20125"; transcript_id ""; gbkey "Gene"; gene "maoP"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20125"; old_locus_tag "ECDH10B_3952"; -NC_010473.1 Protein Homology CDS 4045029 4045364 . + 0 gene_id "ECDH10B_RS20125"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "maoP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312726.1"; locus_tag "ECDH10B_RS20125"; product "macrodomain Ori organization protein MaoP"; protein_id "WP_000841001.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4045029 4045031 . + 0 gene_id "ECDH10B_RS20125"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "maoP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312726.1"; locus_tag "ECDH10B_RS20125"; product "macrodomain Ori organization protein MaoP"; protein_id "WP_000841001.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4045365 4045367 . + 0 gene_id "ECDH10B_RS20125"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "maoP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312726.1"; locus_tag "ECDH10B_RS20125"; product "macrodomain Ori organization protein MaoP"; protein_id "WP_000841001.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4045392 4046912 . - . gene_id "ECDH10B_RS20130"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20130"; old_locus_tag "ECDH10B_3953"; -NC_010473.1 Protein Homology CDS 4045395 4046912 . - 0 gene_id "ECDH10B_RS20130"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418214.2"; locus_tag "ECDH10B_RS20130"; product "YifB family Mg chelatase-like AAA ATPase"; protein_id "WP_000058964.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4046910 4046912 . - 0 gene_id "ECDH10B_RS20130"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418214.2"; locus_tag "ECDH10B_RS20130"; product "YifB family Mg chelatase-like AAA ATPase"; protein_id "WP_000058964.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4045392 4045394 . - 0 gene_id "ECDH10B_RS20130"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418214.2"; locus_tag "ECDH10B_RS20130"; product "YifB family Mg chelatase-like AAA ATPase"; protein_id "WP_000058964.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4047265 4047363 . + . gene_id "ECDH10B_RS20135"; transcript_id ""; gbkey "Gene"; gene "ilvL"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20135"; old_locus_tag "ECDH10B_3954"; -NC_010473.1 Protein Homology CDS 4047265 4047360 . + 0 gene_id "ECDH10B_RS20135"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ilvL"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312728.1"; locus_tag "ECDH10B_RS20135"; product "ilv operon leader peptide"; protein_id "WP_001311244.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4047265 4047267 . + 0 gene_id "ECDH10B_RS20135"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ilvL"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312728.1"; locus_tag "ECDH10B_RS20135"; product "ilv operon leader peptide"; protein_id "WP_001311244.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4047361 4047363 . + 0 gene_id "ECDH10B_RS20135"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ilvL"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312728.1"; locus_tag "ECDH10B_RS20135"; product "ilv operon leader peptide"; protein_id "WP_001311244.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4047450 4047500 . + . gene_id "ECDH10B_RS26135"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS26135"; -NC_010473.1 Protein Homology CDS 4047450 4047497 . + 0 gene_id "ECDH10B_RS26135"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_002791259.1"; locus_tag "ECDH10B_RS26135"; product "hypothetical protein"; protein_id "WP_001387183.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4047450 4047452 . + 0 gene_id "ECDH10B_RS26135"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_002791259.1"; locus_tag "ECDH10B_RS26135"; product "hypothetical protein"; protein_id "WP_001387183.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4047498 4047500 . + 0 gene_id "ECDH10B_RS26135"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_002791259.1"; locus_tag "ECDH10B_RS26135"; product "hypothetical protein"; protein_id "WP_001387183.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4047503 4049147 . + . gene_id "ECDH10B_RS20140"; transcript_id ""; gbkey "Gene"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS20140"; pseudo "true"; -NC_010473.1 Protein Homology CDS 4047503 4049144 . + 0 gene_id "ECDH10B_RS20140"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001012636.1"; locus_tag "ECDH10B_RS20140"; note "frameshifted"; product "acetolactate synthase 2 catalytic subunit"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4047503 4047505 . + 0 gene_id "ECDH10B_RS20140"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001012636.1"; locus_tag "ECDH10B_RS20140"; note "frameshifted"; product "acetolactate synthase 2 catalytic subunit"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4049145 4049147 . + 0 gene_id "ECDH10B_RS20140"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001012636.1"; locus_tag "ECDH10B_RS20140"; note "frameshifted"; product "acetolactate synthase 2 catalytic subunit"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 4049144 4049407 . + . gene_id "ECDH10B_RS20145"; transcript_id ""; gbkey "Gene"; gene "ilvM"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20145"; old_locus_tag "ECDH10B_3958"; -NC_010473.1 Protein Homology CDS 4049144 4049404 . + 0 gene_id "ECDH10B_RS20145"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ilvM"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312730.1"; locus_tag "ECDH10B_RS20145"; product "acetolactate synthase 2 small subunit"; protein_id "WP_000983255.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4049144 4049146 . + 0 gene_id "ECDH10B_RS20145"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ilvM"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312730.1"; locus_tag "ECDH10B_RS20145"; product "acetolactate synthase 2 small subunit"; protein_id "WP_000983255.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4049405 4049407 . + 0 gene_id "ECDH10B_RS20145"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ilvM"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312730.1"; locus_tag "ECDH10B_RS20145"; product "acetolactate synthase 2 small subunit"; protein_id "WP_000983255.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4049427 4050356 . + . gene_id "ECDH10B_RS20150"; transcript_id ""; gbkey "Gene"; gene "ilvE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20150"; old_locus_tag "ECDH10B_3959"; -NC_010473.1 Protein Homology CDS 4049427 4050353 . + 0 gene_id "ECDH10B_RS20150"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ilvE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312731.1"; locus_tag "ECDH10B_RS20150"; product "branched-chain-amino-acid transaminase"; protein_id "WP_000208520.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4049427 4049429 . + 0 gene_id "ECDH10B_RS20150"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ilvE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312731.1"; locus_tag "ECDH10B_RS20150"; product "branched-chain-amino-acid transaminase"; protein_id "WP_000208520.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4050354 4050356 . + 0 gene_id "ECDH10B_RS20150"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ilvE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312731.1"; locus_tag "ECDH10B_RS20150"; product "branched-chain-amino-acid transaminase"; protein_id "WP_000208520.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4050421 4052271 . + . gene_id "ECDH10B_RS20155"; transcript_id ""; gbkey "Gene"; gene "ilvD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20155"; -NC_010473.1 Protein Homology CDS 4050421 4052268 . + 0 gene_id "ECDH10B_RS20155"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ilvD"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005133366.1"; locus_tag "ECDH10B_RS20155"; product "dihydroxy-acid dehydratase"; protein_id "WP_001127399.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4050421 4050423 . + 0 gene_id "ECDH10B_RS20155"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ilvD"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005133366.1"; locus_tag "ECDH10B_RS20155"; product "dihydroxy-acid dehydratase"; protein_id "WP_001127399.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4052269 4052271 . + 0 gene_id "ECDH10B_RS20155"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ilvD"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005133366.1"; locus_tag "ECDH10B_RS20155"; product "dihydroxy-acid dehydratase"; protein_id "WP_001127399.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4052274 4053818 . + . gene_id "ECDH10B_RS20160"; transcript_id ""; gbkey "Gene"; gene "ilvA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20160"; old_locus_tag "ECDH10B_3961"; -NC_010473.1 Protein Homology CDS 4052274 4053815 . + 0 gene_id "ECDH10B_RS20160"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ilvA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418220.1"; locus_tag "ECDH10B_RS20160"; product "threonine ammonia-lyase, biosynthetic"; protein_id "WP_000785596.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4052274 4052276 . + 0 gene_id "ECDH10B_RS20160"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ilvA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418220.1"; locus_tag "ECDH10B_RS20160"; product "threonine ammonia-lyase, biosynthetic"; protein_id "WP_000785596.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4053816 4053818 . + 0 gene_id "ECDH10B_RS20160"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ilvA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418220.1"; locus_tag "ECDH10B_RS20160"; product "threonine ammonia-lyase, biosynthetic"; protein_id "WP_000785596.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4053870 4054763 . - . gene_id "ECDH10B_RS20165"; transcript_id ""; gbkey "Gene"; gene "ilvY"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20165"; old_locus_tag "ECDH10B_3962"; -NC_010473.1 Protein Homology CDS 4053873 4054763 . - 0 gene_id "ECDH10B_RS20165"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ilvY"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418221.1"; locus_tag "ECDH10B_RS20165"; product "HTH-type transcriptional activator IlvY"; protein_id "WP_000365791.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4054761 4054763 . - 0 gene_id "ECDH10B_RS20165"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ilvY"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418221.1"; locus_tag "ECDH10B_RS20165"; product "HTH-type transcriptional activator IlvY"; protein_id "WP_000365791.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4053870 4053872 . - 0 gene_id "ECDH10B_RS20165"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ilvY"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418221.1"; locus_tag "ECDH10B_RS20165"; product "HTH-type transcriptional activator IlvY"; protein_id "WP_000365791.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4054913 4056388 . + . gene_id "ECDH10B_RS20170"; transcript_id ""; gbkey "Gene"; gene "ilvC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20170"; old_locus_tag "ECDH10B_3963"; -NC_010473.1 Protein Homology CDS 4054913 4056385 . + 0 gene_id "ECDH10B_RS20170"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ilvC"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005133363.1"; locus_tag "ECDH10B_RS20170"; product "ketol-acid reductoisomerase"; protein_id "WP_000024939.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4054913 4054915 . + 0 gene_id "ECDH10B_RS20170"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ilvC"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005133363.1"; locus_tag "ECDH10B_RS20170"; product "ketol-acid reductoisomerase"; protein_id "WP_000024939.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4056386 4056388 . + 0 gene_id "ECDH10B_RS20170"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ilvC"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005133363.1"; locus_tag "ECDH10B_RS20170"; product "ketol-acid reductoisomerase"; protein_id "WP_000024939.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4056475 4056756 . - . gene_id "ECDH10B_RS20175"; transcript_id ""; gbkey "Gene"; gene "ppiC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20175"; old_locus_tag "ECDH10B_3964"; -NC_010473.1 Protein Homology CDS 4056478 4056756 . - 0 gene_id "ECDH10B_RS20175"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ppiC"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_004097481.1"; locus_tag "ECDH10B_RS20175"; product "peptidylprolyl isomerase PpiC"; protein_id "WP_001140251.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4056754 4056756 . - 0 gene_id "ECDH10B_RS20175"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ppiC"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_004097481.1"; locus_tag "ECDH10B_RS20175"; product "peptidylprolyl isomerase PpiC"; protein_id "WP_001140251.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4056475 4056477 . - 0 gene_id "ECDH10B_RS20175"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ppiC"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_004097481.1"; locus_tag "ECDH10B_RS20175"; product "peptidylprolyl isomerase PpiC"; protein_id "WP_001140251.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4056955 4057403 . - . gene_id "ECDH10B_RS26140"; transcript_id ""; gbkey "Gene"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS26140"; old_locus_tag "ECDH10B_4563"; pseudo "true"; -NC_010473.1 Protein Homology CDS 4056958 4057403 . - 0 gene_id "ECDH10B_RS26140"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312737.1"; locus_tag "ECDH10B_RS26140"; note "frameshifted"; product "type II toxin-antitoxin system PemK/MazF family toxin"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4057401 4057403 . - 0 gene_id "ECDH10B_RS26140"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312737.1"; locus_tag "ECDH10B_RS26140"; note "frameshifted"; product "type II toxin-antitoxin system PemK/MazF family toxin"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4056955 4056957 . - 0 gene_id "ECDH10B_RS26140"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312737.1"; locus_tag "ECDH10B_RS26140"; note "frameshifted"; product "type II toxin-antitoxin system PemK/MazF family toxin"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 4057620 4059641 . + . gene_id "ECDH10B_RS20185"; transcript_id ""; gbkey "Gene"; gene "rep"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20185"; old_locus_tag "ECDH10B_3967"; -NC_010473.1 Protein Homology CDS 4057620 4059638 . + 0 gene_id "ECDH10B_RS20185"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rep"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026251.1"; locus_tag "ECDH10B_RS20185"; product "DNA helicase Rep"; protein_id "WP_001238899.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4057620 4057622 . + 0 gene_id "ECDH10B_RS20185"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rep"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026251.1"; locus_tag "ECDH10B_RS20185"; product "DNA helicase Rep"; protein_id "WP_001238899.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4059639 4059641 . + 0 gene_id "ECDH10B_RS20185"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rep"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026251.1"; locus_tag "ECDH10B_RS20185"; product "DNA helicase Rep"; protein_id "WP_001238899.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4059688 4061172 . - . gene_id "ECDH10B_RS20190"; transcript_id ""; gbkey "Gene"; gene "gppA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20190"; old_locus_tag "ECDH10B_3968"; -NC_010473.1 Protein Homology CDS 4059691 4061172 . - 0 gene_id "ECDH10B_RS20190"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gppA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312739.1"; locus_tag "ECDH10B_RS20190"; product "guanosine-5'-triphosphate,3'-diphosphate diphosphatase"; protein_id "WP_001295254.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4061170 4061172 . - 0 gene_id "ECDH10B_RS20190"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gppA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312739.1"; locus_tag "ECDH10B_RS20190"; product "guanosine-5'-triphosphate,3'-diphosphate diphosphatase"; protein_id "WP_001295254.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4059688 4059690 . - 0 gene_id "ECDH10B_RS20190"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gppA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312739.1"; locus_tag "ECDH10B_RS20190"; product "guanosine-5'-triphosphate,3'-diphosphate diphosphatase"; protein_id "WP_001295254.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4061308 4062573 . - . gene_id "ECDH10B_RS20195"; transcript_id ""; gbkey "Gene"; gene "rhlB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20195"; old_locus_tag "ECDH10B_3969"; -NC_010473.1 Protein Homology CDS 4061311 4062573 . - 0 gene_id "ECDH10B_RS20195"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rhlB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418227.1"; locus_tag "ECDH10B_RS20195"; product "ATP-dependent RNA helicase RhlB"; protein_id "WP_000047499.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4062571 4062573 . - 0 gene_id "ECDH10B_RS20195"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rhlB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418227.1"; locus_tag "ECDH10B_RS20195"; product "ATP-dependent RNA helicase RhlB"; protein_id "WP_000047499.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4061308 4061310 . - 0 gene_id "ECDH10B_RS20195"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rhlB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418227.1"; locus_tag "ECDH10B_RS20195"; product "ATP-dependent RNA helicase RhlB"; protein_id "WP_000047499.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4062704 4063033 . + . gene_id "ECDH10B_RS20200"; transcript_id ""; gbkey "Gene"; gene "trxA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20200"; old_locus_tag "ECDH10B_3970"; -NC_010473.1 Protein Homology CDS 4062704 4063030 . + 0 gene_id "ECDH10B_RS20200"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "trxA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_017375425.1"; locus_tag "ECDH10B_RS20200"; product "thioredoxin TrxA"; protein_id "WP_001280776.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4062704 4062706 . + 0 gene_id "ECDH10B_RS20200"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "trxA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_017375425.1"; locus_tag "ECDH10B_RS20200"; product "thioredoxin TrxA"; protein_id "WP_001280776.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4063031 4063033 . + 0 gene_id "ECDH10B_RS20200"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "trxA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_017375425.1"; locus_tag "ECDH10B_RS20200"; product "thioredoxin TrxA"; protein_id "WP_001280776.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4063174 4063275 . + . gene_id "ECDH10B_RS20205"; transcript_id ""; gbkey "Gene"; gene "rhoL"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20205"; old_locus_tag "ECDH10B_3971"; -NC_010473.1 Protein Homology CDS 4063174 4063272 . + 0 gene_id "ECDH10B_RS20205"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rhoL"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312742.1"; locus_tag "ECDH10B_RS20205"; product "rho operon leader peptide rhoL"; protein_id "WP_001295255.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4063174 4063176 . + 0 gene_id "ECDH10B_RS20205"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rhoL"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312742.1"; locus_tag "ECDH10B_RS20205"; product "rho operon leader peptide rhoL"; protein_id "WP_001295255.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4063273 4063275 . + 0 gene_id "ECDH10B_RS20205"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rhoL"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312742.1"; locus_tag "ECDH10B_RS20205"; product "rho operon leader peptide rhoL"; protein_id "WP_001295255.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4063360 4064619 . + . gene_id "ECDH10B_RS20210"; transcript_id ""; gbkey "Gene"; gene "rho"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20210"; old_locus_tag "ECDH10B_3972"; -NC_010473.1 Protein Homology CDS 4063360 4064616 . + 0 gene_id "ECDH10B_RS20210"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rho"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312743.1"; locus_tag "ECDH10B_RS20210"; product "transcription termination factor Rho"; protein_id "WP_001054527.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4063360 4063362 . + 0 gene_id "ECDH10B_RS20210"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rho"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312743.1"; locus_tag "ECDH10B_RS20210"; product "transcription termination factor Rho"; protein_id "WP_001054527.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4064617 4064619 . + 0 gene_id "ECDH10B_RS20210"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rho"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312743.1"; locus_tag "ECDH10B_RS20210"; product "transcription termination factor Rho"; protein_id "WP_001054527.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4064859 4065962 . + . gene_id "ECDH10B_RS20220"; transcript_id ""; gbkey "Gene"; gene "wecA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20220"; old_locus_tag "ECDH10B_3973"; -NC_010473.1 Protein Homology CDS 4064859 4065959 . + 0 gene_id "ECDH10B_RS20220"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "wecA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418231.1"; locus_tag "ECDH10B_RS20220"; product "UDP-N-acetylglucosamine--undecaprenyl-phosphate N-acetylglucosaminephosphotransferase"; protein_id "WP_001050960.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4064859 4064861 . + 0 gene_id "ECDH10B_RS20220"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "wecA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418231.1"; locus_tag "ECDH10B_RS20220"; product "UDP-N-acetylglucosamine--undecaprenyl-phosphate N-acetylglucosaminephosphotransferase"; protein_id "WP_001050960.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4065960 4065962 . + 0 gene_id "ECDH10B_RS20220"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "wecA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418231.1"; locus_tag "ECDH10B_RS20220"; product "UDP-N-acetylglucosamine--undecaprenyl-phosphate N-acetylglucosaminephosphotransferase"; protein_id "WP_001050960.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4065974 4067020 . + . gene_id "ECDH10B_RS20225"; transcript_id ""; gbkey "Gene"; gene "wzzE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20225"; old_locus_tag "ECDH10B_3974"; -NC_010473.1 Protein Homology CDS 4065974 4067017 . + 0 gene_id "ECDH10B_RS20225"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "wzzE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_709589.2"; locus_tag "ECDH10B_RS20225"; product "ECA polysaccharide chain length modulation protein"; protein_id "WP_001295256.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4065974 4065976 . + 0 gene_id "ECDH10B_RS20225"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "wzzE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_709589.2"; locus_tag "ECDH10B_RS20225"; product "ECA polysaccharide chain length modulation protein"; protein_id "WP_001295256.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4067018 4067020 . + 0 gene_id "ECDH10B_RS20225"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "wzzE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_709589.2"; locus_tag "ECDH10B_RS20225"; product "ECA polysaccharide chain length modulation protein"; protein_id "WP_001295256.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4067076 4068206 . + . gene_id "ECDH10B_RS20230"; transcript_id ""; gbkey "Gene"; gene "wecB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20230"; old_locus_tag "ECDH10B_3975"; -NC_010473.1 Protein Homology CDS 4067076 4068203 . + 0 gene_id "ECDH10B_RS20230"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "wecB"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026253.1"; locus_tag "ECDH10B_RS20230"; product "UDP-N-acetylglucosamine 2-epimerase (non-hydrolyzing)"; protein_id "WP_001340422.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4067076 4067078 . + 0 gene_id "ECDH10B_RS20230"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "wecB"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026253.1"; locus_tag "ECDH10B_RS20230"; product "UDP-N-acetylglucosamine 2-epimerase (non-hydrolyzing)"; protein_id "WP_001340422.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4068204 4068206 . + 0 gene_id "ECDH10B_RS20230"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "wecB"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026253.1"; locus_tag "ECDH10B_RS20230"; product "UDP-N-acetylglucosamine 2-epimerase (non-hydrolyzing)"; protein_id "WP_001340422.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4068203 4069465 . + . gene_id "ECDH10B_RS20235"; transcript_id ""; gbkey "Gene"; gene "wecC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20235"; old_locus_tag "ECDH10B_3976"; -NC_010473.1 Protein Homology CDS 4068203 4069462 . + 0 gene_id "ECDH10B_RS20235"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "wecC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312747.1"; locus_tag "ECDH10B_RS20235"; product "UDP-N-acetyl-D-mannosamine dehydrogenase"; protein_id "WP_000006621.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4068203 4068205 . + 0 gene_id "ECDH10B_RS20235"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "wecC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312747.1"; locus_tag "ECDH10B_RS20235"; product "UDP-N-acetyl-D-mannosamine dehydrogenase"; protein_id "WP_000006621.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4069463 4069465 . + 0 gene_id "ECDH10B_RS20235"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "wecC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312747.1"; locus_tag "ECDH10B_RS20235"; product "UDP-N-acetyl-D-mannosamine dehydrogenase"; protein_id "WP_000006621.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4069465 4070532 . + . gene_id "ECDH10B_RS20240"; transcript_id ""; gbkey "Gene"; gene "rffG"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20240"; old_locus_tag "ECDH10B_3977"; -NC_010473.1 Protein Homology CDS 4069465 4070529 . + 0 gene_id "ECDH10B_RS20240"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rffG"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026255.1"; locus_tag "ECDH10B_RS20240"; product "dTDP-glucose 4,6-dehydratase"; protein_id "WP_001226601.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4069465 4069467 . + 0 gene_id "ECDH10B_RS20240"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rffG"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026255.1"; locus_tag "ECDH10B_RS20240"; product "dTDP-glucose 4,6-dehydratase"; protein_id "WP_001226601.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4070530 4070532 . + 0 gene_id "ECDH10B_RS20240"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rffG"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026255.1"; locus_tag "ECDH10B_RS20240"; product "dTDP-glucose 4,6-dehydratase"; protein_id "WP_001226601.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4070551 4071432 . + . gene_id "ECDH10B_RS20245"; transcript_id ""; gbkey "Gene"; gene "rfbA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20245"; old_locus_tag "ECDH10B_3978"; -NC_010473.1 Protein Homology CDS 4070551 4071429 . + 0 gene_id "ECDH10B_RS20245"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rfbA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005133346.1"; locus_tag "ECDH10B_RS20245"; product "glucose-1-phosphate thymidylyltransferase RfbA"; protein_id "WP_000676056.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4070551 4070553 . + 0 gene_id "ECDH10B_RS20245"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rfbA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005133346.1"; locus_tag "ECDH10B_RS20245"; product "glucose-1-phosphate thymidylyltransferase RfbA"; protein_id "WP_000676056.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4071430 4071432 . + 0 gene_id "ECDH10B_RS20245"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rfbA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005133346.1"; locus_tag "ECDH10B_RS20245"; product "glucose-1-phosphate thymidylyltransferase RfbA"; protein_id "WP_000676056.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4071410 4072084 . + . gene_id "ECDH10B_RS20250"; transcript_id ""; gbkey "Gene"; gene "rffC"; gene_biotype "protein_coding"; gene_synonym "wecD"; locus_tag "ECDH10B_RS20250"; old_locus_tag "ECDH10B_3979"; -NC_010473.1 Protein Homology CDS 4071410 4072081 . + 0 gene_id "ECDH10B_RS20250"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rffC"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026256.2"; locus_tag "ECDH10B_RS20250"; product "dTDP-4-amino-4,6-dideoxy-D-galactose acyltransferase"; protein_id "WP_001145183.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4071410 4071412 . + 0 gene_id "ECDH10B_RS20250"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rffC"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026256.2"; locus_tag "ECDH10B_RS20250"; product "dTDP-4-amino-4,6-dideoxy-D-galactose acyltransferase"; protein_id "WP_001145183.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4072082 4072084 . + 0 gene_id "ECDH10B_RS20250"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rffC"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026256.2"; locus_tag "ECDH10B_RS20250"; product "dTDP-4-amino-4,6-dideoxy-D-galactose acyltransferase"; protein_id "WP_001145183.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4072089 4073219 . + . gene_id "ECDH10B_RS20255"; transcript_id ""; gbkey "Gene"; gene "rffA"; gene_biotype "protein_coding"; gene_synonym "fcnA"; gene_synonym "wecE"; locus_tag "ECDH10B_RS20255"; old_locus_tag "ECDH10B_3980"; -NC_010473.1 Protein Homology CDS 4072089 4073216 . + 0 gene_id "ECDH10B_RS20255"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rffA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418238.1"; locus_tag "ECDH10B_RS20255"; product "dTDP-4-amino-4,6-dideoxygalactose transaminase"; protein_id "WP_000612043.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4072089 4072091 . + 0 gene_id "ECDH10B_RS20255"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rffA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418238.1"; locus_tag "ECDH10B_RS20255"; product "dTDP-4-amino-4,6-dideoxygalactose transaminase"; protein_id "WP_000612043.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4073217 4073219 . + 0 gene_id "ECDH10B_RS20255"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rffA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418238.1"; locus_tag "ECDH10B_RS20255"; product "dTDP-4-amino-4,6-dideoxygalactose transaminase"; protein_id "WP_000612043.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4073221 4074471 . + . gene_id "ECDH10B_RS20260"; transcript_id ""; gbkey "Gene"; gene "wzxE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20260"; old_locus_tag "ECDH10B_3981"; -NC_010473.1 Protein Homology CDS 4073221 4074468 . + 0 gene_id "ECDH10B_RS20260"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "wzxE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418239.1"; locus_tag "ECDH10B_RS20260"; product "lipid III flippase WzxE"; protein_id "WP_000050265.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4073221 4073223 . + 0 gene_id "ECDH10B_RS20260"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "wzxE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418239.1"; locus_tag "ECDH10B_RS20260"; product "lipid III flippase WzxE"; protein_id "WP_000050265.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4074469 4074471 . + 0 gene_id "ECDH10B_RS20260"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "wzxE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418239.1"; locus_tag "ECDH10B_RS20260"; product "lipid III flippase WzxE"; protein_id "WP_000050265.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4074468 4075547 . + . gene_id "ECDH10B_RS20265"; transcript_id ""; gbkey "Gene"; gene "rffT"; gene_biotype "protein_coding"; gene_synonym "wecF"; locus_tag "ECDH10B_RS20265"; old_locus_tag "ECDH10B_3982"; -NC_010473.1 Protein Homology CDS 4074468 4075544 . + 0 gene_id "ECDH10B_RS20265"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rffT"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026257.1"; locus_tag "ECDH10B_RS20265"; product "TDP-N-acetylfucosamine:lipid II N-acetylfucosaminyltransferase"; protein_id "WP_000217234.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4074468 4074470 . + 0 gene_id "ECDH10B_RS20265"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rffT"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026257.1"; locus_tag "ECDH10B_RS20265"; product "TDP-N-acetylfucosamine:lipid II N-acetylfucosaminyltransferase"; protein_id "WP_000217234.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4075545 4075547 . + 0 gene_id "ECDH10B_RS20265"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rffT"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026257.1"; locus_tag "ECDH10B_RS20265"; product "TDP-N-acetylfucosamine:lipid II N-acetylfucosaminyltransferase"; protein_id "WP_000217234.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4075544 4076896 . + . gene_id "ECDH10B_RS20270"; transcript_id ""; gbkey "Gene"; gene "wzyE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20270"; old_locus_tag "ECDH10B_3983"; -NC_010473.1 Protein Homology CDS 4075544 4076893 . + 0 gene_id "ECDH10B_RS20270"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "wzyE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418241.1"; locus_tag "ECDH10B_RS20270"; product "ECA oligosaccharide polymerase"; protein_id "WP_000055129.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4075544 4075546 . + 0 gene_id "ECDH10B_RS20270"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "wzyE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418241.1"; locus_tag "ECDH10B_RS20270"; product "ECA oligosaccharide polymerase"; protein_id "WP_000055129.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4076894 4076896 . + 0 gene_id "ECDH10B_RS20270"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "wzyE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418241.1"; locus_tag "ECDH10B_RS20270"; product "ECA oligosaccharide polymerase"; protein_id "WP_000055129.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4076899 4077639 . + . gene_id "ECDH10B_RS20275"; transcript_id ""; gbkey "Gene"; gene "rffM"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20275"; old_locus_tag "ECDH10B_3984"; -NC_010473.1 Protein Homology CDS 4076899 4077636 . + 0 gene_id "ECDH10B_RS20275"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rffM"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418242.1"; locus_tag "ECDH10B_RS20275"; product "lipopolysaccharide N-acetylmannosaminouronosyltransferase"; protein_id "WP_001064040.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4076899 4076901 . + 0 gene_id "ECDH10B_RS20275"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rffM"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418242.1"; locus_tag "ECDH10B_RS20275"; product "lipopolysaccharide N-acetylmannosaminouronosyltransferase"; protein_id "WP_001064040.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4077637 4077639 . + 0 gene_id "ECDH10B_RS20275"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rffM"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418242.1"; locus_tag "ECDH10B_RS20275"; product "lipopolysaccharide N-acetylmannosaminouronosyltransferase"; protein_id "WP_001064040.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4077830 4079215 . + . gene_id "ECDH10B_RS20280"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20280"; old_locus_tag "ECDH10B_3985"; -NC_010473.1 Protein Homology CDS 4077830 4079212 . + 0 gene_id "ECDH10B_RS20280"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312756.1"; locus_tag "ECDH10B_RS20280"; product "amino acid permease"; protein_id "WP_000774731.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4077830 4077832 . + 0 gene_id "ECDH10B_RS20280"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312756.1"; locus_tag "ECDH10B_RS20280"; product "amino acid permease"; protein_id "WP_000774731.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4079213 4079215 . + 0 gene_id "ECDH10B_RS20280"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312756.1"; locus_tag "ECDH10B_RS20280"; product "amino acid permease"; protein_id "WP_000774731.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4079318 4079394 . + . gene_id "ECDH10B_RS20285"; transcript_id ""; gbkey "Gene"; gene_biotype "tRNA"; locus_tag "ECDH10B_RS20285"; old_locus_tag "ECDH10B_3986"; -NC_010473.1 tRNAscan-SE exon 4079318 4079394 . + . gene_id "ECDH10B_RS20285"; transcript_id "ECDH10B_RS20285"; anticodon "(pos:4079352..4079354)"; gbkey "tRNA"; inference "COORDINATES: profile:tRNAscan-SE:2.0.6"; locus_tag "ECDH10B_RS20285"; product "tRNA-Arg"; exon_number "1"; -NC_010473.1 RefSeq gene 4079453 4079528 . + . gene_id "ECDH10B_RS20290"; transcript_id ""; gbkey "Gene"; gene_biotype "tRNA"; locus_tag "ECDH10B_RS20290"; old_locus_tag "ECDH10B_3987"; -NC_010473.1 tRNAscan-SE exon 4079453 4079528 . + . gene_id "ECDH10B_RS20290"; transcript_id "ECDH10B_RS20290"; anticodon "(pos:4079486..4079488)"; gbkey "tRNA"; inference "COORDINATES: profile:tRNAscan-SE:2.0.6"; locus_tag "ECDH10B_RS20290"; product "tRNA-His"; exon_number "1"; -NC_010473.1 RefSeq gene 4079549 4079635 . + . gene_id "ECDH10B_RS20295"; transcript_id ""; gbkey "Gene"; gene_biotype "tRNA"; locus_tag "ECDH10B_RS20295"; old_locus_tag "ECDH10B_3988"; -NC_010473.1 tRNAscan-SE exon 4079549 4079635 . + . gene_id "ECDH10B_RS20295"; transcript_id "ECDH10B_RS20295"; anticodon "(pos:4079583..4079585)"; gbkey "tRNA"; inference "COORDINATES: profile:tRNAscan-SE:2.0.6"; locus_tag "ECDH10B_RS20295"; product "tRNA-Leu"; exon_number "1"; -NC_010473.1 RefSeq gene 4079678 4079754 . + . gene_id "ECDH10B_RS20300"; transcript_id ""; gbkey "Gene"; gene_biotype "tRNA"; locus_tag "ECDH10B_RS20300"; old_locus_tag "ECDH10B_3989"; -NC_010473.1 tRNAscan-SE exon 4079678 4079754 . + . gene_id "ECDH10B_RS20300"; transcript_id "ECDH10B_RS20300"; anticodon "(pos:4079712..4079714)"; gbkey "tRNA"; inference "COORDINATES: profile:tRNAscan-SE:2.0.6"; locus_tag "ECDH10B_RS20300"; product "tRNA-Pro"; exon_number "1"; -NC_010473.1 RefSeq gene 4079901 4081136 . + . gene_id "ECDH10B_RS20305"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20305"; old_locus_tag "ECDH10B_3990"; -NC_010473.1 Protein Homology CDS 4079901 4081133 . + 0 gene_id "ECDH10B_RS20305"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026259.1"; locus_tag "ECDH10B_RS20305"; product "anaerobic sulfatase maturase AslB"; protein_id "WP_000941517.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4079901 4079903 . + 0 gene_id "ECDH10B_RS20305"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026259.1"; locus_tag "ECDH10B_RS20305"; product "anaerobic sulfatase maturase AslB"; protein_id "WP_000941517.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4081134 4081136 . + 0 gene_id "ECDH10B_RS20305"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026259.1"; locus_tag "ECDH10B_RS20305"; product "anaerobic sulfatase maturase AslB"; protein_id "WP_000941517.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4081295 4082950 . - . gene_id "ECDH10B_RS20310"; transcript_id ""; gbkey "Gene"; gene "aslA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20310"; old_locus_tag "ECDH10B_3991"; -NC_010473.1 Protein Homology CDS 4081298 4082950 . - 0 gene_id "ECDH10B_RS20310"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "aslA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418245.1"; locus_tag "ECDH10B_RS20310"; product "arylsulfatase AslA"; protein_id "WP_000395863.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4082948 4082950 . - 0 gene_id "ECDH10B_RS20310"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "aslA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418245.1"; locus_tag "ECDH10B_RS20310"; product "arylsulfatase AslA"; protein_id "WP_000395863.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4081295 4081297 . - 0 gene_id "ECDH10B_RS20310"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "aslA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418245.1"; locus_tag "ECDH10B_RS20310"; product "arylsulfatase AslA"; protein_id "WP_000395863.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4083629 4084825 . - . gene_id "ECDH10B_RS20315"; transcript_id ""; gbkey "Gene"; gene "hemY"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20315"; old_locus_tag "ECDH10B_3993"; -NC_010473.1 Protein Homology CDS 4083632 4084825 . - 0 gene_id "ECDH10B_RS20315"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hemY"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312759.1"; locus_tag "ECDH10B_RS20315"; product "protoheme IX biogenesis protein HemY"; protein_id "WP_000921791.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4084823 4084825 . - 0 gene_id "ECDH10B_RS20315"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hemY"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312759.1"; locus_tag "ECDH10B_RS20315"; product "protoheme IX biogenesis protein HemY"; protein_id "WP_000921791.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4083629 4083631 . - 0 gene_id "ECDH10B_RS20315"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hemY"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312759.1"; locus_tag "ECDH10B_RS20315"; product "protoheme IX biogenesis protein HemY"; protein_id "WP_000921791.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4084828 4086009 . - . gene_id "ECDH10B_RS20320"; transcript_id ""; gbkey "Gene"; gene "hemX"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20320"; -NC_010473.1 Protein Homology CDS 4084831 4086009 . - 0 gene_id "ECDH10B_RS20320"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hemX"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418247.1"; locus_tag "ECDH10B_RS20320"; product "uroporphyrinogen-III C-methyltransferase"; protein_id "WP_000138998.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4086007 4086009 . - 0 gene_id "ECDH10B_RS20320"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hemX"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418247.1"; locus_tag "ECDH10B_RS20320"; product "uroporphyrinogen-III C-methyltransferase"; protein_id "WP_000138998.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4084828 4084830 . - 0 gene_id "ECDH10B_RS20320"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hemX"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418247.1"; locus_tag "ECDH10B_RS20320"; product "uroporphyrinogen-III C-methyltransferase"; protein_id "WP_000138998.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4086031 4086771 . - . gene_id "ECDH10B_RS20325"; transcript_id ""; gbkey "Gene"; gene "hemD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20325"; old_locus_tag "ECDH10B_3995"; -NC_010473.1 Protein Homology CDS 4086034 4086771 . - 0 gene_id "ECDH10B_RS20325"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hemD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418248.1"; locus_tag "ECDH10B_RS20325"; product "uroporphyrinogen-III synthase"; protein_id "WP_000026046.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4086769 4086771 . - 0 gene_id "ECDH10B_RS20325"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hemD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418248.1"; locus_tag "ECDH10B_RS20325"; product "uroporphyrinogen-III synthase"; protein_id "WP_000026046.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4086031 4086033 . - 0 gene_id "ECDH10B_RS20325"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hemD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418248.1"; locus_tag "ECDH10B_RS20325"; product "uroporphyrinogen-III synthase"; protein_id "WP_000026046.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4086768 4087709 . - . gene_id "ECDH10B_RS20330"; transcript_id ""; gbkey "Gene"; gene "hemC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20330"; old_locus_tag "ECDH10B_3996"; -NC_010473.1 Protein Homology CDS 4086771 4087709 . - 0 gene_id "ECDH10B_RS20330"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hemC"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026260.1"; locus_tag "ECDH10B_RS20330"; product "hydroxymethylbilane synthase"; protein_id "WP_001338644.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4087707 4087709 . - 0 gene_id "ECDH10B_RS20330"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hemC"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026260.1"; locus_tag "ECDH10B_RS20330"; product "hydroxymethylbilane synthase"; protein_id "WP_001338644.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4086768 4086770 . - 0 gene_id "ECDH10B_RS20330"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hemC"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026260.1"; locus_tag "ECDH10B_RS20330"; product "hydroxymethylbilane synthase"; protein_id "WP_001338644.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4088096 4090642 . + . gene_id "ECDH10B_RS20335"; transcript_id ""; gbkey "Gene"; gene "cyaA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20335"; -NC_010473.1 Protein Homology CDS 4088096 4090639 . + 0 gene_id "ECDH10B_RS20335"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cyaA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418250.1"; locus_tag "ECDH10B_RS20335"; product "class I adenylate cyclase"; protein_id "WP_000281668.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4088096 4088098 . + 0 gene_id "ECDH10B_RS20335"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cyaA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418250.1"; locus_tag "ECDH10B_RS20335"; product "class I adenylate cyclase"; protein_id "WP_000281668.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4090640 4090642 . + 0 gene_id "ECDH10B_RS20335"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cyaA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418250.1"; locus_tag "ECDH10B_RS20335"; product "class I adenylate cyclase"; protein_id "WP_000281668.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4090682 4091002 . - . gene_id "ECDH10B_RS20340"; transcript_id ""; gbkey "Gene"; gene "cyaY"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20340"; old_locus_tag "ECDH10B_3998"; -NC_010473.1 Protein Homology CDS 4090685 4091002 . - 0 gene_id "ECDH10B_RS20340"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cyaY"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000999950.1"; locus_tag "ECDH10B_RS20340"; product "iron donor protein CyaY"; protein_id "WP_000999947.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4091000 4091002 . - 0 gene_id "ECDH10B_RS20340"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cyaY"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000999950.1"; locus_tag "ECDH10B_RS20340"; product "iron donor protein CyaY"; protein_id "WP_000999947.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4090682 4090684 . - 0 gene_id "ECDH10B_RS20340"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cyaY"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000999950.1"; locus_tag "ECDH10B_RS20340"; product "iron donor protein CyaY"; protein_id "WP_000999947.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4091465 4091668 . + . gene_id "ECDH10B_RS20345"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20345"; old_locus_tag "ECDH10B_4000"; -NC_010473.1 Protein Homology CDS 4091465 4091665 . + 0 gene_id "ECDH10B_RS20345"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_709615.1"; locus_tag "ECDH10B_RS20345"; product "lipoprotein"; protein_id "WP_000799889.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4091465 4091467 . + 0 gene_id "ECDH10B_RS20345"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_709615.1"; locus_tag "ECDH10B_RS20345"; product "lipoprotein"; protein_id "WP_000799889.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4091666 4091668 . + 0 gene_id "ECDH10B_RS20345"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_709615.1"; locus_tag "ECDH10B_RS20345"; product "lipoprotein"; protein_id "WP_000799889.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4091705 4092529 . + . gene_id "ECDH10B_RS20350"; transcript_id ""; gbkey "Gene"; gene "dapF"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20350"; old_locus_tag "ECDH10B_4001"; -NC_010473.1 Protein Homology CDS 4091705 4092526 . + 0 gene_id "ECDH10B_RS20350"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dapF"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005133314.1"; locus_tag "ECDH10B_RS20350"; product "diaminopimelate epimerase"; protein_id "WP_001160654.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4091705 4091707 . + 0 gene_id "ECDH10B_RS20350"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dapF"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005133314.1"; locus_tag "ECDH10B_RS20350"; product "diaminopimelate epimerase"; protein_id "WP_001160654.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4092527 4092529 . + 0 gene_id "ECDH10B_RS20350"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dapF"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005133314.1"; locus_tag "ECDH10B_RS20350"; product "diaminopimelate epimerase"; protein_id "WP_001160654.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4092526 4093233 . + . gene_id "ECDH10B_RS20355"; transcript_id ""; gbkey "Gene"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS20355"; pseudo "true"; -NC_010473.1 Protein Homology CDS 4092526 4093230 . + 0 gene_id "ECDH10B_RS20355"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418255.1"; locus_tag "ECDH10B_RS20355"; note "internal stop"; product "DUF484 domain-containing protein"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4092526 4092528 . + 0 gene_id "ECDH10B_RS20355"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418255.1"; locus_tag "ECDH10B_RS20355"; note "internal stop"; product "DUF484 domain-containing protein"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4093231 4093233 . + 0 gene_id "ECDH10B_RS20355"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418255.1"; locus_tag "ECDH10B_RS20355"; note "internal stop"; product "DUF484 domain-containing protein"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 4093230 4094126 . + . gene_id "ECDH10B_RS20360"; transcript_id ""; gbkey "Gene"; gene "xerC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20360"; old_locus_tag "ECDH10B_4003"; -NC_010473.1 Protein Homology CDS 4093230 4094123 . + 0 gene_id "ECDH10B_RS20360"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "xerC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418256.1"; locus_tag "ECDH10B_RS20360"; product "tyrosine recombinase XerC"; protein_id "WP_000130691.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4093230 4093232 . + 0 gene_id "ECDH10B_RS20360"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "xerC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418256.1"; locus_tag "ECDH10B_RS20360"; product "tyrosine recombinase XerC"; protein_id "WP_000130691.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4094124 4094126 . + 0 gene_id "ECDH10B_RS20360"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "xerC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418256.1"; locus_tag "ECDH10B_RS20360"; product "tyrosine recombinase XerC"; protein_id "WP_000130691.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4094126 4094842 . + . gene_id "ECDH10B_RS20365"; transcript_id ""; gbkey "Gene"; gene "yigB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20365"; old_locus_tag "ECDH10B_4004"; -NC_010473.1 Protein Homology CDS 4094126 4094839 . + 0 gene_id "ECDH10B_RS20365"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yigB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418257.1"; locus_tag "ECDH10B_RS20365"; product "5-amino-6-(5-phospho-D-ribitylamino)uracil phosphatase YigB"; protein_id "WP_001213584.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4094126 4094128 . + 0 gene_id "ECDH10B_RS20365"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yigB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418257.1"; locus_tag "ECDH10B_RS20365"; product "5-amino-6-(5-phospho-D-ribitylamino)uracil phosphatase YigB"; protein_id "WP_001213584.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4094840 4094842 . + 0 gene_id "ECDH10B_RS20365"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yigB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418257.1"; locus_tag "ECDH10B_RS20365"; product "5-amino-6-(5-phospho-D-ribitylamino)uracil phosphatase YigB"; protein_id "WP_001213584.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4094926 4097088 . + . gene_id "ECDH10B_RS20370"; transcript_id ""; gbkey "Gene"; gene "uvrD"; gene_biotype "protein_coding"; gene_synonym "mutU"; gene_synonym "recL"; locus_tag "ECDH10B_RS20370"; old_locus_tag "ECDH10B_4005"; -NC_010473.1 Protein Homology CDS 4094926 4097085 . + 0 gene_id "ECDH10B_RS20370"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "uvrD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418258.1"; locus_tag "ECDH10B_RS20370"; product "DNA helicase II"; protein_id "WP_000383406.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4094926 4094928 . + 0 gene_id "ECDH10B_RS20370"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "uvrD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418258.1"; locus_tag "ECDH10B_RS20370"; product "DNA helicase II"; protein_id "WP_000383406.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4097086 4097088 . + 0 gene_id "ECDH10B_RS20370"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "uvrD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418258.1"; locus_tag "ECDH10B_RS20370"; product "DNA helicase II"; protein_id "WP_000383406.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4097235 4097999 . - . gene_id "ECDH10B_RS20375"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20375"; old_locus_tag "ECDH10B_4006"; -NC_010473.1 Protein Homology CDS 4097238 4097999 . - 0 gene_id "ECDH10B_RS20375"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026261.1"; locus_tag "ECDH10B_RS20375"; product "phosphodiester glycosidase family protein"; protein_id "WP_000951133.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4097997 4097999 . - 0 gene_id "ECDH10B_RS20375"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026261.1"; locus_tag "ECDH10B_RS20375"; product "phosphodiester glycosidase family protein"; protein_id "WP_000951133.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4097235 4097237 . - 0 gene_id "ECDH10B_RS20375"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026261.1"; locus_tag "ECDH10B_RS20375"; product "phosphodiester glycosidase family protein"; protein_id "WP_000951133.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4098369 4099319 . + . gene_id "ECDH10B_RS20385"; transcript_id ""; gbkey "Gene"; gene "corA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20385"; old_locus_tag "ECDH10B_4007"; -NC_010473.1 Protein Homology CDS 4098369 4099316 . + 0 gene_id "ECDH10B_RS20385"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "corA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000947142.1"; locus_tag "ECDH10B_RS20385"; product "magnesium/cobalt transporter CorA"; protein_id "WP_000947159.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4098369 4098371 . + 0 gene_id "ECDH10B_RS20385"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "corA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000947142.1"; locus_tag "ECDH10B_RS20385"; product "magnesium/cobalt transporter CorA"; protein_id "WP_000947159.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4099317 4099319 . + 0 gene_id "ECDH10B_RS20385"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "corA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000947142.1"; locus_tag "ECDH10B_RS20385"; product "magnesium/cobalt transporter CorA"; protein_id "WP_000947159.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4099362 4099742 . - . gene_id "ECDH10B_RS20390"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20390"; old_locus_tag "ECDH10B_4008"; -NC_010473.1 Protein Homology CDS 4099365 4099742 . - 0 gene_id "ECDH10B_RS20390"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418261.1"; locus_tag "ECDH10B_RS20390"; product "DUF2628 domain-containing protein"; protein_id "WP_000032581.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4099740 4099742 . - 0 gene_id "ECDH10B_RS20390"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418261.1"; locus_tag "ECDH10B_RS20390"; product "DUF2628 domain-containing protein"; protein_id "WP_000032581.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4099362 4099364 . - 0 gene_id "ECDH10B_RS20390"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418261.1"; locus_tag "ECDH10B_RS20390"; product "DUF2628 domain-containing protein"; protein_id "WP_000032581.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4099756 4100172 . - . gene_id "ECDH10B_RS20395"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20395"; old_locus_tag "ECDH10B_4009"; -NC_010473.1 Protein Homology CDS 4099759 4100172 . - 0 gene_id "ECDH10B_RS20395"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_709624.2"; locus_tag "ECDH10B_RS20395"; product "hypothetical protein"; protein_id "WP_000955197.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4100170 4100172 . - 0 gene_id "ECDH10B_RS20395"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_709624.2"; locus_tag "ECDH10B_RS20395"; product "hypothetical protein"; protein_id "WP_000955197.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4099756 4099758 . - 0 gene_id "ECDH10B_RS20395"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_709624.2"; locus_tag "ECDH10B_RS20395"; product "hypothetical protein"; protein_id "WP_000955197.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4100231 4101121 . - . gene_id "ECDH10B_RS20400"; transcript_id ""; gbkey "Gene"; gene "rarD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20400"; old_locus_tag "ECDH10B_4010"; -NC_010473.1 Protein Homology CDS 4100234 4101121 . - 0 gene_id "ECDH10B_RS20400"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rarD"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026262.1"; locus_tag "ECDH10B_RS20400"; product "EamA family transporter RarD"; protein_id "WP_000339104.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4101119 4101121 . - 0 gene_id "ECDH10B_RS20400"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rarD"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026262.1"; locus_tag "ECDH10B_RS20400"; product "EamA family transporter RarD"; protein_id "WP_000339104.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4100231 4100233 . - 0 gene_id "ECDH10B_RS20400"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rarD"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026262.1"; locus_tag "ECDH10B_RS20400"; product "EamA family transporter RarD"; protein_id "WP_000339104.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4101173 4101640 . - . gene_id "ECDH10B_RS20405"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20405"; old_locus_tag "ECDH10B_4011"; -NC_010473.1 Protein Homology CDS 4101176 4101640 . - 0 gene_id "ECDH10B_RS20405"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312777.2"; locus_tag "ECDH10B_RS20405"; product "thioesterase family protein"; protein_id "WP_001277142.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4101638 4101640 . - 0 gene_id "ECDH10B_RS20405"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312777.2"; locus_tag "ECDH10B_RS20405"; product "thioesterase family protein"; protein_id "WP_001277142.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4101173 4101175 . - 0 gene_id "ECDH10B_RS20405"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312777.2"; locus_tag "ECDH10B_RS20405"; product "thioesterase family protein"; protein_id "WP_001277142.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4101805 4102674 . + . gene_id "ECDH10B_RS20410"; transcript_id ""; gbkey "Gene"; gene "pldA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20410"; old_locus_tag "ECDH10B_4012"; -NC_010473.1 Protein Homology CDS 4101805 4102671 . + 0 gene_id "ECDH10B_RS20410"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pldA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312778.1"; locus_tag "ECDH10B_RS20410"; product "phospholipase A"; protein_id "WP_001259700.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4101805 4101807 . + 0 gene_id "ECDH10B_RS20410"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pldA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312778.1"; locus_tag "ECDH10B_RS20410"; product "phospholipase A"; protein_id "WP_001259700.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4102672 4102674 . + 0 gene_id "ECDH10B_RS20410"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pldA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312778.1"; locus_tag "ECDH10B_RS20410"; product "phospholipase A"; protein_id "WP_001259700.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4102807 4104636 . + . gene_id "ECDH10B_RS20415"; transcript_id ""; gbkey "Gene"; gene "recQ"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20415"; old_locus_tag "ECDH10B_4013"; -NC_010473.1 Protein Homology CDS 4102807 4104633 . + 0 gene_id "ECDH10B_RS20415"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "recQ"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026263.3"; locus_tag "ECDH10B_RS20415"; product "ATP-dependent DNA helicase RecQ"; protein_id "WP_000035581.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4102807 4102809 . + 0 gene_id "ECDH10B_RS20415"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "recQ"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026263.3"; locus_tag "ECDH10B_RS20415"; product "ATP-dependent DNA helicase RecQ"; protein_id "WP_000035581.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4104634 4104636 . + 0 gene_id "ECDH10B_RS20415"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "recQ"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026263.3"; locus_tag "ECDH10B_RS20415"; product "ATP-dependent DNA helicase RecQ"; protein_id "WP_000035581.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4104700 4105320 . + . gene_id "ECDH10B_RS20420"; transcript_id ""; gbkey "Gene"; gene "rhtC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20420"; old_locus_tag "ECDH10B_4014"; -NC_010473.1 Protein Homology CDS 4104700 4105317 . + 0 gene_id "ECDH10B_RS20420"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rhtC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312780.1"; locus_tag "ECDH10B_RS20420"; product "threonine export protein RhtC"; protein_id "WP_000928824.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4104700 4104702 . + 0 gene_id "ECDH10B_RS20420"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rhtC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312780.1"; locus_tag "ECDH10B_RS20420"; product "threonine export protein RhtC"; protein_id "WP_000928824.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4105318 4105320 . + 0 gene_id "ECDH10B_RS20420"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rhtC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312780.1"; locus_tag "ECDH10B_RS20420"; product "threonine export protein RhtC"; protein_id "WP_000928824.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4105382 4106002 . - . gene_id "ECDH10B_RS20425"; transcript_id ""; gbkey "Gene"; gene "rhtB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20425"; old_locus_tag "ECDH10B_4015"; -NC_010473.1 Protein Homology CDS 4105385 4106002 . - 0 gene_id "ECDH10B_RS20425"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rhtB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312781.1"; locus_tag "ECDH10B_RS20425"; product "homoserine/homoserine lactone efflux protein"; protein_id "WP_000171710.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4106000 4106002 . - 0 gene_id "ECDH10B_RS20425"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rhtB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312781.1"; locus_tag "ECDH10B_RS20425"; product "homoserine/homoserine lactone efflux protein"; protein_id "WP_000171710.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4105382 4105384 . - 0 gene_id "ECDH10B_RS20425"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rhtB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312781.1"; locus_tag "ECDH10B_RS20425"; product "homoserine/homoserine lactone efflux protein"; protein_id "WP_000171710.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4106113 4107135 . + . gene_id "ECDH10B_RS20430"; transcript_id ""; gbkey "Gene"; gene "pldB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20430"; old_locus_tag "ECDH10B_4016"; -NC_010473.1 Protein Homology CDS 4106113 4107132 . + 0 gene_id "ECDH10B_RS20430"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pldB"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026266.1"; locus_tag "ECDH10B_RS20430"; product "lysophospholipase L2"; protein_id "WP_000487654.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4106113 4106115 . + 0 gene_id "ECDH10B_RS20430"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pldB"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026266.1"; locus_tag "ECDH10B_RS20430"; product "lysophospholipase L2"; protein_id "WP_000487654.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4107133 4107135 . + 0 gene_id "ECDH10B_RS20430"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pldB"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026266.1"; locus_tag "ECDH10B_RS20430"; product "lysophospholipase L2"; protein_id "WP_000487654.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4107143 4107943 . + . gene_id "ECDH10B_RS20435"; transcript_id ""; gbkey "Gene"; gene "yigL"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20435"; old_locus_tag "ECDH10B_4017"; -NC_010473.1 Protein Homology CDS 4107143 4107940 . + 0 gene_id "ECDH10B_RS20435"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yigL"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026267.1"; locus_tag "ECDH10B_RS20435"; product "sugar/pyridoxal phosphate phosphatase YigL"; protein_id "WP_000285362.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4107143 4107145 . + 0 gene_id "ECDH10B_RS20435"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yigL"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026267.1"; locus_tag "ECDH10B_RS20435"; product "sugar/pyridoxal phosphate phosphatase YigL"; protein_id "WP_000285362.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4107941 4107943 . + 0 gene_id "ECDH10B_RS20435"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yigL"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026267.1"; locus_tag "ECDH10B_RS20435"; product "sugar/pyridoxal phosphate phosphatase YigL"; protein_id "WP_000285362.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4108019 4108918 . + . gene_id "ECDH10B_RS20440"; transcript_id ""; gbkey "Gene"; gene "bioP"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20440"; -NC_010473.1 Protein Homology CDS 4108019 4108915 . + 0 gene_id "ECDH10B_RS20440"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "bioP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312784.1"; locus_tag "ECDH10B_RS20440"; product "biotin transporter"; protein_id "WP_001196239.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4108019 4108021 . + 0 gene_id "ECDH10B_RS20440"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "bioP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312784.1"; locus_tag "ECDH10B_RS20440"; product "biotin transporter"; protein_id "WP_001196239.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4108916 4108918 . + 0 gene_id "ECDH10B_RS20440"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "bioP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312784.1"; locus_tag "ECDH10B_RS20440"; product "biotin transporter"; protein_id "WP_001196239.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4108806 4109759 . - . gene_id "ECDH10B_RS20445"; transcript_id ""; gbkey "Gene"; gene "metR"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20445"; old_locus_tag "ECDH10B_4019"; -NC_010473.1 Protein Homology CDS 4108809 4109759 . - 0 gene_id "ECDH10B_RS20445"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "metR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312785.1"; locus_tag "ECDH10B_RS20445"; product "HTH-type transcriptional regulator MetR"; protein_id "WP_000573621.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4109757 4109759 . - 0 gene_id "ECDH10B_RS20445"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "metR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312785.1"; locus_tag "ECDH10B_RS20445"; product "HTH-type transcriptional regulator MetR"; protein_id "WP_000573621.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4108806 4108808 . - 0 gene_id "ECDH10B_RS20445"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "metR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312785.1"; locus_tag "ECDH10B_RS20445"; product "HTH-type transcriptional regulator MetR"; protein_id "WP_000573621.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4109996 4112257 . + . gene_id "ECDH10B_RS20450"; transcript_id ""; gbkey "Gene"; gene "metE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20450"; old_locus_tag "ECDH10B_4020"; -NC_010473.1 Protein Homology CDS 4109996 4112254 . + 0 gene_id "ECDH10B_RS20450"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "metE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418273.1"; locus_tag "ECDH10B_RS20450"; product "5-methyltetrahydropteroyltriglutamate--homocysteine S-methyltransferase"; protein_id "WP_000153907.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4109996 4109998 . + 0 gene_id "ECDH10B_RS20450"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "metE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418273.1"; locus_tag "ECDH10B_RS20450"; product "5-methyltetrahydropteroyltriglutamate--homocysteine S-methyltransferase"; protein_id "WP_000153907.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4112255 4112257 . + 0 gene_id "ECDH10B_RS20450"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "metE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418273.1"; locus_tag "ECDH10B_RS20450"; product "5-methyltetrahydropteroyltriglutamate--homocysteine S-methyltransferase"; protein_id "WP_000153907.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4112297 4113112 . - . gene_id "ECDH10B_RS20455"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20455"; old_locus_tag "ECDH10B_4021"; -NC_010473.1 Protein Homology CDS 4112300 4113112 . - 0 gene_id "ECDH10B_RS20455"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026268.1"; locus_tag "ECDH10B_RS20455"; product "dienelactone hydrolase family protein"; protein_id "WP_001336442.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4113110 4113112 . - 0 gene_id "ECDH10B_RS20455"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026268.1"; locus_tag "ECDH10B_RS20455"; product "dienelactone hydrolase family protein"; protein_id "WP_001336442.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4112297 4112299 . - 0 gene_id "ECDH10B_RS20455"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026268.1"; locus_tag "ECDH10B_RS20455"; product "dienelactone hydrolase family protein"; protein_id "WP_001336442.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4113374 4114135 . + . gene_id "ECDH10B_RS20460"; transcript_id ""; gbkey "Gene"; gene "udp"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20460"; old_locus_tag "ECDH10B_4022"; -NC_010473.1 Protein Homology CDS 4113374 4114132 . + 0 gene_id "ECDH10B_RS20460"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "udp"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418275.1"; locus_tag "ECDH10B_RS20460"; product "uridine phosphorylase"; protein_id "WP_000045177.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4113374 4113376 . + 0 gene_id "ECDH10B_RS20460"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "udp"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418275.1"; locus_tag "ECDH10B_RS20460"; product "uridine phosphorylase"; protein_id "WP_000045177.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4114133 4114135 . + 0 gene_id "ECDH10B_RS20460"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "udp"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418275.1"; locus_tag "ECDH10B_RS20460"; product "uridine phosphorylase"; protein_id "WP_000045177.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4114276 4115703 . + . gene_id "ECDH10B_RS20465"; transcript_id ""; gbkey "Gene"; gene "rmuC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20465"; old_locus_tag "ECDH10B_4023"; -NC_010473.1 Protein Homology CDS 4114276 4115700 . + 0 gene_id "ECDH10B_RS20465"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rmuC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312789.1"; locus_tag "ECDH10B_RS20465"; product "DNA recombination protein RmuC"; protein_id "WP_000347714.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4114276 4114278 . + 0 gene_id "ECDH10B_RS20465"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rmuC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312789.1"; locus_tag "ECDH10B_RS20465"; product "DNA recombination protein RmuC"; protein_id "WP_000347714.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4115701 4115703 . + 0 gene_id "ECDH10B_RS20465"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rmuC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312789.1"; locus_tag "ECDH10B_RS20465"; product "DNA recombination protein RmuC"; protein_id "WP_000347714.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4115798 4116553 . + . gene_id "ECDH10B_RS20470"; transcript_id ""; gbkey "Gene"; gene "ubiE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20470"; old_locus_tag "ECDH10B_4024"; -NC_010473.1 Protein Homology CDS 4115798 4116550 . + 0 gene_id "ECDH10B_RS20470"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ubiE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312790.1"; locus_tag "ECDH10B_RS20470"; product "bifunctional demethylmenaquinone methyltransferase/2-methoxy-6-polyprenyl-1,4-benzoquinol methylase UbiE"; protein_id "WP_000227958.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4115798 4115800 . + 0 gene_id "ECDH10B_RS20470"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ubiE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312790.1"; locus_tag "ECDH10B_RS20470"; product "bifunctional demethylmenaquinone methyltransferase/2-methoxy-6-polyprenyl-1,4-benzoquinol methylase UbiE"; protein_id "WP_000227958.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4116551 4116553 . + 0 gene_id "ECDH10B_RS20470"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ubiE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312790.1"; locus_tag "ECDH10B_RS20470"; product "bifunctional demethylmenaquinone methyltransferase/2-methoxy-6-polyprenyl-1,4-benzoquinol methylase UbiE"; protein_id "WP_000227958.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4116567 4117172 . + . gene_id "ECDH10B_RS20475"; transcript_id ""; gbkey "Gene"; gene "ubiJ"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20475"; old_locus_tag "ECDH10B_4025"; -NC_010473.1 Protein Homology CDS 4116567 4117169 . + 0 gene_id "ECDH10B_RS20475"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ubiJ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418278.1"; locus_tag "ECDH10B_RS20475"; product "ubiquinone biosynthesis protein UbiJ"; protein_id "WP_001295259.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4116567 4116569 . + 0 gene_id "ECDH10B_RS20475"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ubiJ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418278.1"; locus_tag "ECDH10B_RS20475"; product "ubiquinone biosynthesis protein UbiJ"; protein_id "WP_001295259.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4117170 4117172 . + 0 gene_id "ECDH10B_RS20475"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ubiJ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418278.1"; locus_tag "ECDH10B_RS20475"; product "ubiquinone biosynthesis protein UbiJ"; protein_id "WP_001295259.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4117169 4118809 . + . gene_id "ECDH10B_RS20480"; transcript_id ""; gbkey "Gene"; gene "ubiB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20480"; old_locus_tag "ECDH10B_4026"; -NC_010473.1 Protein Homology CDS 4117169 4118806 . + 0 gene_id "ECDH10B_RS20480"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ubiB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312792.1"; locus_tag "ECDH10B_RS20480"; product "ubiquinone biosynthesis regulatory protein kinase UbiB"; protein_id "WP_000187530.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4117169 4117171 . + 0 gene_id "ECDH10B_RS20480"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ubiB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312792.1"; locus_tag "ECDH10B_RS20480"; product "ubiquinone biosynthesis regulatory protein kinase UbiB"; protein_id "WP_000187530.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4118807 4118809 . + 0 gene_id "ECDH10B_RS20480"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ubiB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312792.1"; locus_tag "ECDH10B_RS20480"; product "ubiquinone biosynthesis regulatory protein kinase UbiB"; protein_id "WP_000187530.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4118888 4119157 . + . gene_id "ECDH10B_RS20485"; transcript_id ""; gbkey "Gene"; gene "tatA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20485"; old_locus_tag "ECDH10B_4027"; -NC_010473.1 Protein Homology CDS 4118888 4119154 . + 0 gene_id "ECDH10B_RS20485"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tatA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312793.1"; locus_tag "ECDH10B_RS20485"; product "Sec-independent protein translocase subunit TatA"; protein_id "WP_001295260.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4118888 4118890 . + 0 gene_id "ECDH10B_RS20485"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tatA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312793.1"; locus_tag "ECDH10B_RS20485"; product "Sec-independent protein translocase subunit TatA"; protein_id "WP_001295260.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4119155 4119157 . + 0 gene_id "ECDH10B_RS20485"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tatA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312793.1"; locus_tag "ECDH10B_RS20485"; product "Sec-independent protein translocase subunit TatA"; protein_id "WP_001295260.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4119161 4119676 . + . gene_id "ECDH10B_RS20490"; transcript_id ""; gbkey "Gene"; gene "tatB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20490"; old_locus_tag "ECDH10B_4028"; -NC_010473.1 Protein Homology CDS 4119161 4119673 . + 0 gene_id "ECDH10B_RS20490"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tatB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312794.1"; locus_tag "ECDH10B_RS20490"; product "Sec-independent protein translocase subunit TatB"; protein_id "WP_000459594.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4119161 4119163 . + 0 gene_id "ECDH10B_RS20490"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tatB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312794.1"; locus_tag "ECDH10B_RS20490"; product "Sec-independent protein translocase subunit TatB"; protein_id "WP_000459594.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4119674 4119676 . + 0 gene_id "ECDH10B_RS20490"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tatB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312794.1"; locus_tag "ECDH10B_RS20490"; product "Sec-independent protein translocase subunit TatB"; protein_id "WP_000459594.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4119679 4120455 . + . gene_id "ECDH10B_RS20495"; transcript_id ""; gbkey "Gene"; gene "tatC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20495"; old_locus_tag "ECDH10B_4029"; -NC_010473.1 Protein Homology CDS 4119679 4120452 . + 0 gene_id "ECDH10B_RS20495"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tatC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312795.1"; locus_tag "ECDH10B_RS20495"; product "Sec-independent protein translocase subunit TatC"; protein_id "WP_000109943.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4119679 4119681 . + 0 gene_id "ECDH10B_RS20495"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tatC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312795.1"; locus_tag "ECDH10B_RS20495"; product "Sec-independent protein translocase subunit TatC"; protein_id "WP_000109943.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4120453 4120455 . + 0 gene_id "ECDH10B_RS20495"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tatC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312795.1"; locus_tag "ECDH10B_RS20495"; product "Sec-independent protein translocase subunit TatC"; protein_id "WP_000109943.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4120497 4121279 . + . gene_id "ECDH10B_RS20500"; transcript_id ""; gbkey "Gene"; gene "tatD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20500"; old_locus_tag "ECDH10B_4030"; -NC_010473.1 Protein Homology CDS 4120497 4121276 . + 0 gene_id "ECDH10B_RS20500"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tatD"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026271.1"; locus_tag "ECDH10B_RS20500"; product "3'-5' ssDNA/RNA exonuclease TatD"; protein_id "WP_000459630.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4120497 4120499 . + 0 gene_id "ECDH10B_RS20500"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tatD"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026271.1"; locus_tag "ECDH10B_RS20500"; product "3'-5' ssDNA/RNA exonuclease TatD"; protein_id "WP_000459630.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4121277 4121279 . + 0 gene_id "ECDH10B_RS20500"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tatD"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026271.1"; locus_tag "ECDH10B_RS20500"; product "3'-5' ssDNA/RNA exonuclease TatD"; protein_id "WP_000459630.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4121276 4121764 . - . gene_id "ECDH10B_RS20505"; transcript_id ""; gbkey "Gene"; gene "rfaH"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20505"; old_locus_tag "ECDH10B_4031"; -NC_010473.1 Protein Homology CDS 4121279 4121764 . - 0 gene_id "ECDH10B_RS20505"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rfaH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312797.1"; locus_tag "ECDH10B_RS20505"; product "transcription/translation regulatory transformer protein RfaH"; protein_id "WP_001192396.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4121762 4121764 . - 0 gene_id "ECDH10B_RS20505"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rfaH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312797.1"; locus_tag "ECDH10B_RS20505"; product "transcription/translation regulatory transformer protein RfaH"; protein_id "WP_001192396.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4121276 4121278 . - 0 gene_id "ECDH10B_RS20505"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rfaH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312797.1"; locus_tag "ECDH10B_RS20505"; product "transcription/translation regulatory transformer protein RfaH"; protein_id "WP_001192396.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4121931 4123424 . + . gene_id "ECDH10B_RS20510"; transcript_id ""; gbkey "Gene"; gene "ubiD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20510"; old_locus_tag "ECDH10B_4032"; -NC_010473.1 Protein Homology CDS 4121931 4123421 . + 0 gene_id "ECDH10B_RS20510"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ubiD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418285.1"; locus_tag "ECDH10B_RS20510"; product "4-hydroxy-3-polyprenylbenzoate decarboxylase"; protein_id "WP_000339804.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4121931 4121933 . + 0 gene_id "ECDH10B_RS20510"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ubiD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418285.1"; locus_tag "ECDH10B_RS20510"; product "4-hydroxy-3-polyprenylbenzoate decarboxylase"; protein_id "WP_000339804.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4123422 4123424 . + 0 gene_id "ECDH10B_RS20510"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ubiD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418285.1"; locus_tag "ECDH10B_RS20510"; product "4-hydroxy-3-polyprenylbenzoate decarboxylase"; protein_id "WP_000339804.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4123470 4124171 . + . gene_id "ECDH10B_RS20515"; transcript_id ""; gbkey "Gene"; gene "fre"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20515"; old_locus_tag "ECDH10B_4033"; -NC_010473.1 Protein Homology CDS 4123470 4124168 . + 0 gene_id "ECDH10B_RS20515"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fre"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312799.1"; locus_tag "ECDH10B_RS20515"; product "NAD(P)H-flavin reductase"; protein_id "WP_000209826.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4123470 4123472 . + 0 gene_id "ECDH10B_RS20515"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fre"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312799.1"; locus_tag "ECDH10B_RS20515"; product "NAD(P)H-flavin reductase"; protein_id "WP_000209826.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4124169 4124171 . + 0 gene_id "ECDH10B_RS20515"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fre"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312799.1"; locus_tag "ECDH10B_RS20515"; product "NAD(P)H-flavin reductase"; protein_id "WP_000209826.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4124552 4125715 . - . gene_id "ECDH10B_RS20520"; transcript_id ""; gbkey "Gene"; gene "fadA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20520"; old_locus_tag "ECDH10B_4034"; -NC_010473.1 Protein Homology CDS 4124555 4125715 . - 0 gene_id "ECDH10B_RS20520"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fadA"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026272.1"; locus_tag "ECDH10B_RS20520"; product "acetyl-CoA C-acyltransferase FadA"; protein_id "WP_000438725.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4125713 4125715 . - 0 gene_id "ECDH10B_RS20520"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fadA"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026272.1"; locus_tag "ECDH10B_RS20520"; product "acetyl-CoA C-acyltransferase FadA"; protein_id "WP_000438725.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4124552 4124554 . - 0 gene_id "ECDH10B_RS20520"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fadA"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026272.1"; locus_tag "ECDH10B_RS20520"; product "acetyl-CoA C-acyltransferase FadA"; protein_id "WP_000438725.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4125725 4127914 . - . gene_id "ECDH10B_RS20525"; transcript_id ""; gbkey "Gene"; gene "fadB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20525"; old_locus_tag "ECDH10B_4035"; -NC_010473.1 Protein Homology CDS 4125728 4127914 . - 0 gene_id "ECDH10B_RS20525"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fadB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418288.1"; locus_tag "ECDH10B_RS20525"; product "fatty acid oxidation complex subunit alpha FadB"; protein_id "WP_000965936.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4127912 4127914 . - 0 gene_id "ECDH10B_RS20525"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fadB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418288.1"; locus_tag "ECDH10B_RS20525"; product "fatty acid oxidation complex subunit alpha FadB"; protein_id "WP_000965936.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4125725 4125727 . - 0 gene_id "ECDH10B_RS20525"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fadB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418288.1"; locus_tag "ECDH10B_RS20525"; product "fatty acid oxidation complex subunit alpha FadB"; protein_id "WP_000965936.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4128104 4129435 . + . gene_id "ECDH10B_RS20530"; transcript_id ""; gbkey "Gene"; gene "pepQ"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20530"; old_locus_tag "ECDH10B_4036"; -NC_010473.1 Protein Homology CDS 4128104 4129432 . + 0 gene_id "ECDH10B_RS20530"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pepQ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418289.1"; locus_tag "ECDH10B_RS20530"; product "Xaa-Pro dipeptidase"; protein_id "WP_000444561.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4128104 4128106 . + 0 gene_id "ECDH10B_RS20530"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pepQ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418289.1"; locus_tag "ECDH10B_RS20530"; product "Xaa-Pro dipeptidase"; protein_id "WP_000444561.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4129433 4129435 . + 0 gene_id "ECDH10B_RS20530"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pepQ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418289.1"; locus_tag "ECDH10B_RS20530"; product "Xaa-Pro dipeptidase"; protein_id "WP_000444561.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4129435 4130049 . + . gene_id "ECDH10B_RS20535"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20535"; old_locus_tag "ECDH10B_4037"; -NC_010473.1 Protein Homology CDS 4129435 4130046 . + 0 gene_id "ECDH10B_RS20535"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418290.4"; locus_tag "ECDH10B_RS20535"; product "IMPACT family protein"; protein_id "WP_001308167.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4129435 4129437 . + 0 gene_id "ECDH10B_RS20535"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418290.4"; locus_tag "ECDH10B_RS20535"; product "IMPACT family protein"; protein_id "WP_001308167.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4130047 4130049 . + 0 gene_id "ECDH10B_RS20535"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418290.4"; locus_tag "ECDH10B_RS20535"; product "IMPACT family protein"; protein_id "WP_001308167.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4130088 4131539 . + . gene_id "ECDH10B_RS20540"; transcript_id ""; gbkey "Gene"; gene "trkH"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20540"; old_locus_tag "ECDH10B_4038"; -NC_010473.1 Protein Homology CDS 4130088 4131536 . + 0 gene_id "ECDH10B_RS20540"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "trkH"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_004146450.1"; locus_tag "ECDH10B_RS20540"; product "Trk system potassium transporter TrkH"; protein_id "WP_000545677.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4130088 4130090 . + 0 gene_id "ECDH10B_RS20540"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "trkH"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_004146450.1"; locus_tag "ECDH10B_RS20540"; product "Trk system potassium transporter TrkH"; protein_id "WP_000545677.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4131537 4131539 . + 0 gene_id "ECDH10B_RS20540"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "trkH"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_004146450.1"; locus_tag "ECDH10B_RS20540"; product "Trk system potassium transporter TrkH"; protein_id "WP_000545677.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4131551 4132096 . + . gene_id "ECDH10B_RS20545"; transcript_id ""; gbkey "Gene"; gene "hemG"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20545"; old_locus_tag "ECDH10B_4039"; -NC_010473.1 Protein Homology CDS 4131551 4132093 . + 0 gene_id "ECDH10B_RS20545"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hemG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312805.1"; locus_tag "ECDH10B_RS20545"; product "menaquinone-dependent protoporphyrinogen IX dehydrogenase"; protein_id "WP_000853959.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4131551 4131553 . + 0 gene_id "ECDH10B_RS20545"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hemG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312805.1"; locus_tag "ECDH10B_RS20545"; product "menaquinone-dependent protoporphyrinogen IX dehydrogenase"; protein_id "WP_000853959.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4132094 4132096 . + 0 gene_id "ECDH10B_RS20545"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hemG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312805.1"; locus_tag "ECDH10B_RS20545"; product "menaquinone-dependent protoporphyrinogen IX dehydrogenase"; protein_id "WP_000853959.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4132474 4134015 . + . gene_id "ECDH10B_RS20550"; transcript_id ""; gbkey "Gene"; gene_biotype "rRNA"; locus_tag "ECDH10B_RS20550"; old_locus_tag "ECDH10B_4040"; -NC_010473.1 cmsearch exon 4132474 4134015 . + . gene_id "ECDH10B_RS20550"; transcript_id "ECDH10B_RS20550"; db_xref "RFAM:RF00177"; gbkey "rRNA"; inference "COORDINATES: nucleotide motif:Rfam:12.0:RF00177"; inference "COORDINATES: profile:INFERNAL:1.1.1"; locus_tag "ECDH10B_RS20550"; product "16S ribosomal RNA"; exon_number "1"; -NC_010473.1 RefSeq gene 4134084 4134160 . + . gene_id "ECDH10B_RS20555"; transcript_id ""; gbkey "Gene"; gene_biotype "tRNA"; locus_tag "ECDH10B_RS20555"; old_locus_tag "ECDH10B_4041"; -NC_010473.1 tRNAscan-SE exon 4134084 4134160 . + . gene_id "ECDH10B_RS20555"; transcript_id "ECDH10B_RS20555"; anticodon "(pos:4134118..4134120)"; gbkey "tRNA"; inference "COORDINATES: profile:tRNAscan-SE:2.0.6"; locus_tag "ECDH10B_RS20555"; product "tRNA-Ile"; exon_number "1"; -NC_010473.1 RefSeq gene 4134203 4134278 . + . gene_id "ECDH10B_RS20560"; transcript_id ""; gbkey "Gene"; gene_biotype "tRNA"; locus_tag "ECDH10B_RS20560"; old_locus_tag "ECDH10B_4042"; -NC_010473.1 tRNAscan-SE exon 4134203 4134278 . + . gene_id "ECDH10B_RS20560"; transcript_id "ECDH10B_RS20560"; anticodon "(pos:4134236..4134238)"; gbkey "tRNA"; inference "COORDINATES: profile:tRNAscan-SE:2.0.6"; locus_tag "ECDH10B_RS20560"; product "tRNA-Ala"; exon_number "1"; -NC_010473.1 RefSeq gene 4134462 4137366 . + . gene_id "ECDH10B_RS20565"; transcript_id ""; gbkey "Gene"; gene_biotype "rRNA"; locus_tag "ECDH10B_RS20565"; old_locus_tag "ECDH10B_4043"; -NC_010473.1 cmsearch exon 4134462 4137366 . + . gene_id "ECDH10B_RS20565"; transcript_id "ECDH10B_RS20565"; db_xref "RFAM:RF02541"; gbkey "rRNA"; inference "COORDINATES: nucleotide motif:Rfam:12.0:RF02541"; inference "COORDINATES: profile:INFERNAL:1.1.1"; locus_tag "ECDH10B_RS20565"; product "23S ribosomal RNA"; exon_number "1"; -NC_010473.1 RefSeq gene 4137462 4137577 . + . gene_id "ECDH10B_RS20570"; transcript_id ""; gbkey "Gene"; gene "rrf"; gene_biotype "rRNA"; locus_tag "ECDH10B_RS20570"; old_locus_tag "ECDH10B_4044"; -NC_010473.1 cmsearch exon 4137462 4137577 . + . gene_id "ECDH10B_RS20570"; transcript_id "ECDH10B_RS20570"; db_xref "RFAM:RF00001"; gbkey "rRNA"; gene "rrf"; inference "COORDINATES: nucleotide motif:Rfam:12.0:RF00001"; inference "COORDINATES: profile:INFERNAL:1.1.1"; locus_tag "ECDH10B_RS20570"; product "5S ribosomal RNA"; exon_number "1"; -NC_010473.1 RefSeq gene 4137849 4138376 . - . gene_id "ECDH10B_RS20575"; transcript_id ""; gbkey "Gene"; gene "mobB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20575"; old_locus_tag "ECDH10B_4045"; -NC_010473.1 Protein Homology CDS 4137852 4138376 . - 0 gene_id "ECDH10B_RS20575"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mobB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418293.2"; locus_tag "ECDH10B_RS20575"; product "molybdopterin-guanine dinucleotide biosynthesis protein B"; protein_id "WP_000907622.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4138374 4138376 . - 0 gene_id "ECDH10B_RS20575"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mobB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418293.2"; locus_tag "ECDH10B_RS20575"; product "molybdopterin-guanine dinucleotide biosynthesis protein B"; protein_id "WP_000907622.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4137849 4137851 . - 0 gene_id "ECDH10B_RS20575"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mobB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418293.2"; locus_tag "ECDH10B_RS20575"; product "molybdopterin-guanine dinucleotide biosynthesis protein B"; protein_id "WP_000907622.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4138358 4138942 . - . gene_id "ECDH10B_RS20580"; transcript_id ""; gbkey "Gene"; gene "mobA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20580"; old_locus_tag "ECDH10B_4046"; -NC_010473.1 Protein Homology CDS 4138361 4138942 . - 0 gene_id "ECDH10B_RS20580"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mobA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418294.1"; locus_tag "ECDH10B_RS20580"; product "molybdenum cofactor guanylyltransferase MobA"; protein_id "WP_001052181.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4138940 4138942 . - 0 gene_id "ECDH10B_RS20580"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mobA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418294.1"; locus_tag "ECDH10B_RS20580"; product "molybdenum cofactor guanylyltransferase MobA"; protein_id "WP_001052181.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4138358 4138360 . - 0 gene_id "ECDH10B_RS20580"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mobA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418294.1"; locus_tag "ECDH10B_RS20580"; product "molybdenum cofactor guanylyltransferase MobA"; protein_id "WP_001052181.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4139012 4139281 . + . gene_id "ECDH10B_RS20585"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20585"; old_locus_tag "ECDH10B_4047"; -NC_010473.1 Protein Homology CDS 4139012 4139278 . + 0 gene_id "ECDH10B_RS20585"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_015966571.1"; locus_tag "ECDH10B_RS20585"; product "YihD family protein"; protein_id "WP_001295263.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4139012 4139014 . + 0 gene_id "ECDH10B_RS20585"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_015966571.1"; locus_tag "ECDH10B_RS20585"; product "YihD family protein"; protein_id "WP_001295263.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4139279 4139281 . + 0 gene_id "ECDH10B_RS20585"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_015966571.1"; locus_tag "ECDH10B_RS20585"; product "YihD family protein"; protein_id "WP_001295263.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4139358 4140344 . + . gene_id "ECDH10B_RS20590"; transcript_id ""; gbkey "Gene"; gene "srkA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20590"; old_locus_tag "ECDH10B_4048"; -NC_010473.1 Protein Homology CDS 4139358 4140341 . + 0 gene_id "ECDH10B_RS20590"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "srkA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418296.1"; locus_tag "ECDH10B_RS20590"; product "stress response kinase SrkA"; protein_id "WP_001065497.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4139358 4139360 . + 0 gene_id "ECDH10B_RS20590"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "srkA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418296.1"; locus_tag "ECDH10B_RS20590"; product "stress response kinase SrkA"; protein_id "WP_001065497.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4140342 4140344 . + 0 gene_id "ECDH10B_RS20590"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "srkA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418296.1"; locus_tag "ECDH10B_RS20590"; product "stress response kinase SrkA"; protein_id "WP_001065497.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4140361 4140987 . + . gene_id "ECDH10B_RS20595"; transcript_id ""; gbkey "Gene"; gene "dsbA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20595"; old_locus_tag "ECDH10B_4049"; -NC_010473.1 Protein Homology CDS 4140361 4140984 . + 0 gene_id "ECDH10B_RS20595"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dsbA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312810.1"; locus_tag "ECDH10B_RS20595"; product "thiol:disulfide interchange protein DsbA"; protein_id "WP_000725337.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4140361 4140363 . + 0 gene_id "ECDH10B_RS20595"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dsbA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312810.1"; locus_tag "ECDH10B_RS20595"; product "thiol:disulfide interchange protein DsbA"; protein_id "WP_000725337.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4140985 4140987 . + 0 gene_id "ECDH10B_RS20595"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dsbA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312810.1"; locus_tag "ECDH10B_RS20595"; product "thiol:disulfide interchange protein DsbA"; protein_id "WP_000725337.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4141142 4142572 . + . gene_id "ECDH10B_RS20600"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20600"; old_locus_tag "ECDH10B_4050"; -NC_010473.1 Protein Homology CDS 4141142 4142569 . + 0 gene_id "ECDH10B_RS20600"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418298.4"; locus_tag "ECDH10B_RS20600"; product "YdgA family protein"; protein_id "WP_001333507.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4141142 4141144 . + 0 gene_id "ECDH10B_RS20600"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418298.4"; locus_tag "ECDH10B_RS20600"; product "YdgA family protein"; protein_id "WP_001333507.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4142570 4142572 . + 0 gene_id "ECDH10B_RS20600"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418298.4"; locus_tag "ECDH10B_RS20600"; product "YdgA family protein"; protein_id "WP_001333507.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4142613 4143545 . - . gene_id "ECDH10B_RS20605"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20605"; old_locus_tag "ECDH10B_4051"; -NC_010473.1 Protein Homology CDS 4142616 4143545 . - 0 gene_id "ECDH10B_RS20605"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418299.1"; locus_tag "ECDH10B_RS20605"; product "acyltransferase"; protein_id "WP_001311257.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4143543 4143545 . - 0 gene_id "ECDH10B_RS20605"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418299.1"; locus_tag "ECDH10B_RS20605"; product "acyltransferase"; protein_id "WP_001311257.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4142613 4142615 . - 0 gene_id "ECDH10B_RS20605"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418299.1"; locus_tag "ECDH10B_RS20605"; product "acyltransferase"; protein_id "WP_001311257.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4143909 4146695 . + . gene_id "ECDH10B_RS20615"; transcript_id ""; gbkey "Gene"; gene "polA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20615"; old_locus_tag "ECDH10B_4052"; -NC_010473.1 Protein Homology CDS 4143909 4146692 . + 0 gene_id "ECDH10B_RS20615"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "polA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418300.1"; locus_tag "ECDH10B_RS20615"; product "DNA polymerase I"; protein_id "WP_000250006.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4143909 4143911 . + 0 gene_id "ECDH10B_RS20615"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "polA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418300.1"; locus_tag "ECDH10B_RS20615"; product "DNA polymerase I"; protein_id "WP_000250006.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4146693 4146695 . + 0 gene_id "ECDH10B_RS20615"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "polA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418300.1"; locus_tag "ECDH10B_RS20615"; product "DNA polymerase I"; protein_id "WP_000250006.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4147076 4147708 . - . gene_id "ECDH10B_RS20620"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20620"; old_locus_tag "ECDH10B_4054"; -NC_010473.1 Protein Homology CDS 4147079 4147708 . - 0 gene_id "ECDH10B_RS20620"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418301.3"; locus_tag "ECDH10B_RS20620"; product "YihA family ribosome biogenesis GTP-binding protein"; protein_id "WP_000183349.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4147706 4147708 . - 0 gene_id "ECDH10B_RS20620"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418301.3"; locus_tag "ECDH10B_RS20620"; product "YihA family ribosome biogenesis GTP-binding protein"; protein_id "WP_000183349.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4147076 4147078 . - 0 gene_id "ECDH10B_RS20620"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418301.3"; locus_tag "ECDH10B_RS20620"; product "YihA family ribosome biogenesis GTP-binding protein"; protein_id "WP_000183349.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4148290 4148799 . + . gene_id "ECDH10B_RS20625"; transcript_id ""; gbkey "Gene"; gene "yihI"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20625"; old_locus_tag "ECDH10B_4056"; -NC_010473.1 Protein Homology CDS 4148290 4148796 . + 0 gene_id "ECDH10B_RS20625"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yihI"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418302.1"; locus_tag "ECDH10B_RS20625"; product "Der GTPase-activating protein YihI"; protein_id "WP_001295266.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4148290 4148292 . + 0 gene_id "ECDH10B_RS20625"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yihI"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418302.1"; locus_tag "ECDH10B_RS20625"; product "Der GTPase-activating protein YihI"; protein_id "WP_001295266.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4148797 4148799 . + 0 gene_id "ECDH10B_RS20625"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yihI"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418302.1"; locus_tag "ECDH10B_RS20625"; product "Der GTPase-activating protein YihI"; protein_id "WP_001295266.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4148988 4150361 . + . gene_id "ECDH10B_RS20630"; transcript_id ""; gbkey "Gene"; gene "hemN"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20630"; old_locus_tag "ECDH10B_4057"; -NC_010473.1 Protein Homology CDS 4148988 4150358 . + 0 gene_id "ECDH10B_RS20630"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hemN"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312816.2"; locus_tag "ECDH10B_RS20630"; product "oxygen-independent coproporphyrinogen III oxidase"; protein_id "WP_000116090.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4148988 4148990 . + 0 gene_id "ECDH10B_RS20630"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hemN"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312816.2"; locus_tag "ECDH10B_RS20630"; product "oxygen-independent coproporphyrinogen III oxidase"; protein_id "WP_000116090.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4150359 4150361 . + 0 gene_id "ECDH10B_RS20630"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hemN"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312816.2"; locus_tag "ECDH10B_RS20630"; product "oxygen-independent coproporphyrinogen III oxidase"; protein_id "WP_000116090.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4150590 4150700 . - . gene_id "ECDH10B_RS20635"; transcript_id ""; gbkey "Gene"; gene "yshB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20635"; -NC_010473.1 Protein Homology CDS 4150593 4150700 . - 0 gene_id "ECDH10B_RS20635"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yshB"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_002791260.1"; locus_tag "ECDH10B_RS20635"; product "YshB family small membrane protein"; protein_id "WP_000893994.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4150698 4150700 . - 0 gene_id "ECDH10B_RS20635"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yshB"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_002791260.1"; locus_tag "ECDH10B_RS20635"; product "YshB family small membrane protein"; protein_id "WP_000893994.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4150590 4150592 . - 0 gene_id "ECDH10B_RS20635"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yshB"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_002791260.1"; locus_tag "ECDH10B_RS20635"; product "YshB family small membrane protein"; protein_id "WP_000893994.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4150812 4152221 . - . gene_id "ECDH10B_RS20640"; transcript_id ""; gbkey "Gene"; gene "glnG"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20640"; old_locus_tag "ECDH10B_4058"; -NC_010473.1 Protein Homology CDS 4150815 4152221 . - 0 gene_id "ECDH10B_RS20640"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "glnG"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_012133942.1"; locus_tag "ECDH10B_RS20640"; product "nitrogen regulation protein NR(I)"; protein_id "WP_001188777.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4152219 4152221 . - 0 gene_id "ECDH10B_RS20640"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "glnG"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_012133942.1"; locus_tag "ECDH10B_RS20640"; product "nitrogen regulation protein NR(I)"; protein_id "WP_001188777.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4150812 4150814 . - 0 gene_id "ECDH10B_RS20640"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "glnG"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_012133942.1"; locus_tag "ECDH10B_RS20640"; product "nitrogen regulation protein NR(I)"; protein_id "WP_001188777.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4152233 4153282 . - . gene_id "ECDH10B_RS20645"; transcript_id ""; gbkey "Gene"; gene "glnL"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20645"; old_locus_tag "ECDH10B_4059"; -NC_010473.1 Protein Homology CDS 4152236 4153282 . - 0 gene_id "ECDH10B_RS20645"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "glnL"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312818.1"; locus_tag "ECDH10B_RS20645"; product "nitrogen regulation protein NR(II)"; protein_id "WP_000190577.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4153280 4153282 . - 0 gene_id "ECDH10B_RS20645"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "glnL"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312818.1"; locus_tag "ECDH10B_RS20645"; product "nitrogen regulation protein NR(II)"; protein_id "WP_000190577.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4152233 4152235 . - 0 gene_id "ECDH10B_RS20645"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "glnL"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312818.1"; locus_tag "ECDH10B_RS20645"; product "nitrogen regulation protein NR(II)"; protein_id "WP_000190577.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4153568 4154977 . - . gene_id "ECDH10B_RS20650"; transcript_id ""; gbkey "Gene"; gene "glnA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20650"; old_locus_tag "ECDH10B_4060"; -NC_010473.1 Protein Homology CDS 4153571 4154977 . - 0 gene_id "ECDH10B_RS20650"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "glnA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_020233234.1"; locus_tag "ECDH10B_RS20650"; product "glutamate--ammonia ligase"; protein_id "WP_001271717.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4154975 4154977 . - 0 gene_id "ECDH10B_RS20650"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "glnA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_020233234.1"; locus_tag "ECDH10B_RS20650"; product "glutamate--ammonia ligase"; protein_id "WP_001271717.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4153568 4153570 . - 0 gene_id "ECDH10B_RS20650"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "glnA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_020233234.1"; locus_tag "ECDH10B_RS20650"; product "glutamate--ammonia ligase"; protein_id "WP_001271717.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4155350 4157173 . + . gene_id "ECDH10B_RS20660"; transcript_id ""; gbkey "Gene"; gene "typA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20660"; old_locus_tag "ECDH10B_4061"; -NC_010473.1 Protein Homology CDS 4155350 4157170 . + 0 gene_id "ECDH10B_RS20660"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "typA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312820.1"; locus_tag "ECDH10B_RS20660"; product "ribosome-dependent GTPase TypA"; protein_id "WP_000570668.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4155350 4155352 . + 0 gene_id "ECDH10B_RS20660"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "typA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312820.1"; locus_tag "ECDH10B_RS20660"; product "ribosome-dependent GTPase TypA"; protein_id "WP_000570668.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4157171 4157173 . + 0 gene_id "ECDH10B_RS20660"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "typA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312820.1"; locus_tag "ECDH10B_RS20660"; product "ribosome-dependent GTPase TypA"; protein_id "WP_000570668.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4157390 4158100 . + . gene_id "ECDH10B_RS20665"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20665"; old_locus_tag "ECDH10B_4062"; -NC_010473.1 Protein Homology CDS 4157390 4158097 . + 0 gene_id "ECDH10B_RS20665"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312821.1"; locus_tag "ECDH10B_RS20665"; product "UTRA domain-containing protein"; protein_id "WP_000829798.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4157390 4157392 . + 0 gene_id "ECDH10B_RS20665"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312821.1"; locus_tag "ECDH10B_RS20665"; product "UTRA domain-containing protein"; protein_id "WP_000829798.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4158098 4158100 . + 0 gene_id "ECDH10B_RS20665"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312821.1"; locus_tag "ECDH10B_RS20665"; product "UTRA domain-containing protein"; protein_id "WP_000829798.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4158108 4159088 . + . gene_id "ECDH10B_RS20670"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20670"; old_locus_tag "ECDH10B_4063"; -NC_010473.1 Protein Homology CDS 4158108 4159085 . + 0 gene_id "ECDH10B_RS20670"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418309.1"; locus_tag "ECDH10B_RS20670"; product "TIM barrel protein"; protein_id "WP_000256396.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4158108 4158110 . + 0 gene_id "ECDH10B_RS20670"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418309.1"; locus_tag "ECDH10B_RS20670"; product "TIM barrel protein"; protein_id "WP_000256396.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4159086 4159088 . + 0 gene_id "ECDH10B_RS20670"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418309.1"; locus_tag "ECDH10B_RS20670"; product "TIM barrel protein"; protein_id "WP_000256396.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4159190 4160455 . + . gene_id "ECDH10B_RS20675"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20675"; old_locus_tag "ECDH10B_4064"; -NC_010473.1 Protein Homology CDS 4159190 4160452 . + 0 gene_id "ECDH10B_RS20675"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418310.1"; locus_tag "ECDH10B_RS20675"; product "MFS transporter"; protein_id "WP_000956313.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4159190 4159192 . + 0 gene_id "ECDH10B_RS20675"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418310.1"; locus_tag "ECDH10B_RS20675"; product "MFS transporter"; protein_id "WP_000956313.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4160453 4160455 . + 0 gene_id "ECDH10B_RS20675"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418310.1"; locus_tag "ECDH10B_RS20675"; product "MFS transporter"; protein_id "WP_000956313.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4160546 4161238 . - . gene_id "ECDH10B_RS20680"; transcript_id ""; gbkey "Gene"; gene "ompL"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20680"; old_locus_tag "ECDH10B_4065"; -NC_010473.1 Protein Homology CDS 4160549 4161238 . - 0 gene_id "ECDH10B_RS20680"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ompL"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418311.1"; locus_tag "ECDH10B_RS20680"; product "porin OmpL"; protein_id "WP_000723465.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4161236 4161238 . - 0 gene_id "ECDH10B_RS20680"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ompL"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418311.1"; locus_tag "ECDH10B_RS20680"; product "porin OmpL"; protein_id "WP_000723465.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4160546 4160548 . - 0 gene_id "ECDH10B_RS20680"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ompL"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418311.1"; locus_tag "ECDH10B_RS20680"; product "porin OmpL"; protein_id "WP_000723465.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4161306 4162709 . - . gene_id "ECDH10B_RS20685"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20685"; old_locus_tag "ECDH10B_4066"; -NC_010473.1 Protein Homology CDS 4161309 4162709 . - 0 gene_id "ECDH10B_RS20685"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026275.1"; locus_tag "ECDH10B_RS20685"; product "MFS transporter"; protein_id "WP_001295267.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4162707 4162709 . - 0 gene_id "ECDH10B_RS20685"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026275.1"; locus_tag "ECDH10B_RS20685"; product "MFS transporter"; protein_id "WP_001295267.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4161306 4161308 . - 0 gene_id "ECDH10B_RS20685"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026275.1"; locus_tag "ECDH10B_RS20685"; product "MFS transporter"; protein_id "WP_001295267.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4162752 4164137 . - . gene_id "ECDH10B_RS20690"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20690"; old_locus_tag "ECDH10B_4067"; -NC_010473.1 Protein Homology CDS 4162755 4164137 . - 0 gene_id "ECDH10B_RS20690"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418313.4"; locus_tag "ECDH10B_RS20690"; product "MFS transporter"; protein_id "WP_000018380.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4164135 4164137 . - 0 gene_id "ECDH10B_RS20690"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418313.4"; locus_tag "ECDH10B_RS20690"; product "MFS transporter"; protein_id "WP_000018380.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4162752 4162754 . - 0 gene_id "ECDH10B_RS20690"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418313.4"; locus_tag "ECDH10B_RS20690"; product "MFS transporter"; protein_id "WP_000018380.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4164183 4166219 . - . gene_id "ECDH10B_RS20695"; transcript_id ""; gbkey "Gene"; gene "yihQ"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20695"; old_locus_tag "ECDH10B_4068"; -NC_010473.1 Protein Homology CDS 4164186 4166219 . - 0 gene_id "ECDH10B_RS20695"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yihQ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418314.1"; locus_tag "ECDH10B_RS20695"; product "sulfoquinovosidase"; protein_id "WP_000380843.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4166217 4166219 . - 0 gene_id "ECDH10B_RS20695"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yihQ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418314.1"; locus_tag "ECDH10B_RS20695"; product "sulfoquinovosidase"; protein_id "WP_000380843.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4164183 4164185 . - 0 gene_id "ECDH10B_RS20695"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yihQ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418314.1"; locus_tag "ECDH10B_RS20695"; product "sulfoquinovosidase"; protein_id "WP_000380843.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4166386 4167083 . + . gene_id "ECDH10B_RS20700"; transcript_id ""; gbkey "Gene"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS20700"; pseudo "true"; -NC_010473.1 Protein Homology CDS 4166386 4167080 . + 0 gene_id "ECDH10B_RS20700"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_076612230.1"; locus_tag "ECDH10B_RS20700"; note "frameshifted"; product "IS1-like element IS1A family transposase"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4166386 4166388 . + 0 gene_id "ECDH10B_RS20700"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_076612230.1"; locus_tag "ECDH10B_RS20700"; note "frameshifted"; product "IS1-like element IS1A family transposase"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4167081 4167083 . + 0 gene_id "ECDH10B_RS20700"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_076612230.1"; locus_tag "ECDH10B_RS20700"; note "frameshifted"; product "IS1-like element IS1A family transposase"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 4167195 4168121 . - . gene_id "ECDH10B_RS20705"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20705"; old_locus_tag "ECDH10B_4069"; -NC_010473.1 Protein Homology CDS 4167198 4168121 . - 0 gene_id "ECDH10B_RS20705"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418315.3"; locus_tag "ECDH10B_RS20705"; product "aldose-1-epimerase"; protein_id "WP_000052655.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4168119 4168121 . - 0 gene_id "ECDH10B_RS20705"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418315.3"; locus_tag "ECDH10B_RS20705"; product "aldose-1-epimerase"; protein_id "WP_000052655.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4167195 4167197 . - 0 gene_id "ECDH10B_RS20705"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418315.3"; locus_tag "ECDH10B_RS20705"; product "aldose-1-epimerase"; protein_id "WP_000052655.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4168235 4169476 . - . gene_id "ECDH10B_RS20710"; transcript_id ""; gbkey "Gene"; gene "yihS"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20710"; old_locus_tag "ECDH10B_4070"; -NC_010473.1 Protein Homology CDS 4168238 4169476 . - 0 gene_id "ECDH10B_RS20710"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yihS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418316.4"; locus_tag "ECDH10B_RS20710"; product "sulfoquinovose isomerase"; protein_id "WP_000870916.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4169474 4169476 . - 0 gene_id "ECDH10B_RS20710"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yihS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418316.4"; locus_tag "ECDH10B_RS20710"; product "sulfoquinovose isomerase"; protein_id "WP_000870916.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4168235 4168237 . - 0 gene_id "ECDH10B_RS20710"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yihS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418316.4"; locus_tag "ECDH10B_RS20710"; product "sulfoquinovose isomerase"; protein_id "WP_000870916.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4169493 4170371 . - . gene_id "ECDH10B_RS20715"; transcript_id ""; gbkey "Gene"; gene "yihT"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20715"; old_locus_tag "ECDH10B_4071"; -NC_010473.1 Protein Homology CDS 4169496 4170371 . - 0 gene_id "ECDH10B_RS20715"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yihT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418317.1"; locus_tag "ECDH10B_RS20715"; product "sulfofructosephosphate aldolase"; protein_id "WP_001046453.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4170369 4170371 . - 0 gene_id "ECDH10B_RS20715"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yihT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418317.1"; locus_tag "ECDH10B_RS20715"; product "sulfofructosephosphate aldolase"; protein_id "WP_001046453.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4169493 4169495 . - 0 gene_id "ECDH10B_RS20715"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yihT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418317.1"; locus_tag "ECDH10B_RS20715"; product "sulfofructosephosphate aldolase"; protein_id "WP_001046453.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4170395 4171291 . - . gene_id "ECDH10B_RS20720"; transcript_id ""; gbkey "Gene"; gene "yihU"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20720"; old_locus_tag "ECDH10B_4072"; -NC_010473.1 Protein Homology CDS 4170398 4171291 . - 0 gene_id "ECDH10B_RS20720"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yihU"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418318.1"; locus_tag "ECDH10B_RS20720"; product "sulfolactaldehyde 3-reductase"; protein_id "WP_000718893.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4171289 4171291 . - 0 gene_id "ECDH10B_RS20720"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yihU"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418318.1"; locus_tag "ECDH10B_RS20720"; product "sulfolactaldehyde 3-reductase"; protein_id "WP_000718893.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4170395 4170397 . - 0 gene_id "ECDH10B_RS20720"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yihU"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418318.1"; locus_tag "ECDH10B_RS20720"; product "sulfolactaldehyde 3-reductase"; protein_id "WP_000718893.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4171459 4172355 . + . gene_id "ECDH10B_RS20725"; transcript_id ""; gbkey "Gene"; gene "yihV"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20725"; old_locus_tag "ECDH10B_4073"; -NC_010473.1 Protein Homology CDS 4171459 4172352 . + 0 gene_id "ECDH10B_RS20725"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yihV"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418319.2"; locus_tag "ECDH10B_RS20725"; product "sulfofructose kinase"; protein_id "WP_000621656.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4171459 4171461 . + 0 gene_id "ECDH10B_RS20725"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yihV"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418319.2"; locus_tag "ECDH10B_RS20725"; product "sulfofructose kinase"; protein_id "WP_000621656.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4172353 4172355 . + 0 gene_id "ECDH10B_RS20725"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yihV"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418319.2"; locus_tag "ECDH10B_RS20725"; product "sulfofructose kinase"; protein_id "WP_000621656.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4172389 4173174 . + . gene_id "ECDH10B_RS20730"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20730"; old_locus_tag "ECDH10B_4074"; -NC_010473.1 Protein Homology CDS 4172389 4173171 . + 0 gene_id "ECDH10B_RS20730"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418320.2"; locus_tag "ECDH10B_RS20730"; product "DeoR/GlpR transcriptional regulator"; protein_id "WP_000059678.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4172389 4172391 . + 0 gene_id "ECDH10B_RS20730"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418320.2"; locus_tag "ECDH10B_RS20730"; product "DeoR/GlpR transcriptional regulator"; protein_id "WP_000059678.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4173172 4173174 . + 0 gene_id "ECDH10B_RS20730"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418320.2"; locus_tag "ECDH10B_RS20730"; product "DeoR/GlpR transcriptional regulator"; protein_id "WP_000059678.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4173273 4173872 . + . gene_id "ECDH10B_RS20735"; transcript_id ""; gbkey "Gene"; gene "yihX"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20735"; old_locus_tag "ECDH10B_4075"; -NC_010473.1 Protein Homology CDS 4173273 4173869 . + 0 gene_id "ECDH10B_RS20735"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yihX"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_709685.2"; locus_tag "ECDH10B_RS20735"; product "glucose-1-phosphatase"; protein_id "WP_001295269.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4173273 4173275 . + 0 gene_id "ECDH10B_RS20735"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yihX"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_709685.2"; locus_tag "ECDH10B_RS20735"; product "glucose-1-phosphatase"; protein_id "WP_001295269.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4173870 4173872 . + 0 gene_id "ECDH10B_RS20735"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yihX"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_709685.2"; locus_tag "ECDH10B_RS20735"; product "glucose-1-phosphatase"; protein_id "WP_001295269.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4173866 4174738 . + . gene_id "ECDH10B_RS20740"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20740"; old_locus_tag "ECDH10B_4076"; -NC_010473.1 Protein Homology CDS 4173866 4174735 . + 0 gene_id "ECDH10B_RS20740"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312836.1"; locus_tag "ECDH10B_RS20740"; product "virulence factor BrkB family protein"; protein_id "WP_000920762.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4173866 4173868 . + 0 gene_id "ECDH10B_RS20740"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312836.1"; locus_tag "ECDH10B_RS20740"; product "virulence factor BrkB family protein"; protein_id "WP_000920762.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4174736 4174738 . + 0 gene_id "ECDH10B_RS20740"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312836.1"; locus_tag "ECDH10B_RS20740"; product "virulence factor BrkB family protein"; protein_id "WP_000920762.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4174735 4175172 . + . gene_id "ECDH10B_RS20745"; transcript_id ""; gbkey "Gene"; gene "dtd"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20745"; old_locus_tag "ECDH10B_4077"; -NC_010473.1 Protein Homology CDS 4174735 4175169 . + 0 gene_id "ECDH10B_RS20745"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dtd"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000560980.1"; locus_tag "ECDH10B_RS20745"; product "D-tyrosyl-tRNA(Tyr) deacylase"; protein_id "WP_000560983.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4174735 4174737 . + 0 gene_id "ECDH10B_RS20745"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dtd"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000560980.1"; locus_tag "ECDH10B_RS20745"; product "D-tyrosyl-tRNA(Tyr) deacylase"; protein_id "WP_000560983.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4175170 4175172 . + 0 gene_id "ECDH10B_RS20745"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dtd"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000560980.1"; locus_tag "ECDH10B_RS20745"; product "D-tyrosyl-tRNA(Tyr) deacylase"; protein_id "WP_000560983.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4175217 4176158 . + . gene_id "ECDH10B_RS20750"; transcript_id ""; gbkey "Gene"; gene "fabY"; gene_biotype "protein_coding"; gene_synonym "yiiD"; locus_tag "ECDH10B_RS20750"; old_locus_tag "ECDH10B_4078"; -NC_010473.1 Protein Homology CDS 4175217 4176155 . + 0 gene_id "ECDH10B_RS20750"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fabY"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001666856.1"; locus_tag "ECDH10B_RS20750"; product "fatty acid biosynthesis protein FabY"; protein_id "WP_001297068.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4175217 4175219 . + 0 gene_id "ECDH10B_RS20750"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fabY"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001666856.1"; locus_tag "ECDH10B_RS20750"; product "fatty acid biosynthesis protein FabY"; protein_id "WP_001297068.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4176156 4176158 . + 0 gene_id "ECDH10B_RS20750"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fabY"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001666856.1"; locus_tag "ECDH10B_RS20750"; product "fatty acid biosynthesis protein FabY"; protein_id "WP_001297068.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4177011 4177229 . + . gene_id "ECDH10B_RS20755"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20755"; old_locus_tag "ECDH10B_4079"; -NC_010473.1 Protein Homology CDS 4177011 4177226 . + 0 gene_id "ECDH10B_RS20755"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312842.3"; locus_tag "ECDH10B_RS20755"; product "CopG family transcriptional regulator"; protein_id "WP_001295676.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4177011 4177013 . + 0 gene_id "ECDH10B_RS20755"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312842.3"; locus_tag "ECDH10B_RS20755"; product "CopG family transcriptional regulator"; protein_id "WP_001295676.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4177227 4177229 . + 0 gene_id "ECDH10B_RS20755"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312842.3"; locus_tag "ECDH10B_RS20755"; product "CopG family transcriptional regulator"; protein_id "WP_001295676.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4177447 4177689 . + . gene_id "ECDH10B_RS20760"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20760"; old_locus_tag "ECDH10B_4080"; -NC_010473.1 Protein Homology CDS 4177447 4177686 . + 0 gene_id "ECDH10B_RS20760"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_709694.2"; locus_tag "ECDH10B_RS20760"; product "hypothetical protein"; protein_id "WP_001086388.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4177447 4177449 . + 0 gene_id "ECDH10B_RS20760"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_709694.2"; locus_tag "ECDH10B_RS20760"; product "hypothetical protein"; protein_id "WP_001086388.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4177687 4177689 . + 0 gene_id "ECDH10B_RS20760"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_709694.2"; locus_tag "ECDH10B_RS20760"; product "hypothetical protein"; protein_id "WP_001086388.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4178019 4178948 . - . gene_id "ECDH10B_RS20770"; transcript_id ""; gbkey "Gene"; gene "fdhE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20770"; old_locus_tag "ECDH10B_4081"; -NC_010473.1 Protein Homology CDS 4178022 4178948 . - 0 gene_id "ECDH10B_RS20770"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fdhE"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005121819.1"; locus_tag "ECDH10B_RS20770"; product "formate dehydrogenase accessory protein FdhE"; protein_id "WP_000027703.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4178946 4178948 . - 0 gene_id "ECDH10B_RS20770"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fdhE"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005121819.1"; locus_tag "ECDH10B_RS20770"; product "formate dehydrogenase accessory protein FdhE"; protein_id "WP_000027703.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4178019 4178021 . - 0 gene_id "ECDH10B_RS20770"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fdhE"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005121819.1"; locus_tag "ECDH10B_RS20770"; product "formate dehydrogenase accessory protein FdhE"; protein_id "WP_000027703.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4178945 4179580 . - . gene_id "ECDH10B_RS20775"; transcript_id ""; gbkey "Gene"; gene "fdoI"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20775"; old_locus_tag "ECDH10B_4082"; -NC_010473.1 Protein Homology CDS 4178948 4179580 . - 0 gene_id "ECDH10B_RS20775"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fdoI"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312845.1"; locus_tag "ECDH10B_RS20775"; product "formate dehydrogenase cytochrome b556 subunit"; protein_id "WP_000829013.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4179578 4179580 . - 0 gene_id "ECDH10B_RS20775"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fdoI"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312845.1"; locus_tag "ECDH10B_RS20775"; product "formate dehydrogenase cytochrome b556 subunit"; protein_id "WP_000829013.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4178945 4178947 . - 0 gene_id "ECDH10B_RS20775"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fdoI"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312845.1"; locus_tag "ECDH10B_RS20775"; product "formate dehydrogenase cytochrome b556 subunit"; protein_id "WP_000829013.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4179577 4180479 . - . gene_id "ECDH10B_RS20780"; transcript_id ""; gbkey "Gene"; gene "fdoH"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20780"; old_locus_tag "ECDH10B_4083"; -NC_010473.1 Protein Homology CDS 4179580 4180479 . - 0 gene_id "ECDH10B_RS20780"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fdoH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418329.1"; locus_tag "ECDH10B_RS20780"; product "formate dehydrogenase O subunit beta"; protein_id "WP_000331377.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4180477 4180479 . - 0 gene_id "ECDH10B_RS20780"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fdoH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418329.1"; locus_tag "ECDH10B_RS20780"; product "formate dehydrogenase O subunit beta"; protein_id "WP_000331377.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4179577 4179579 . - 0 gene_id "ECDH10B_RS20780"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fdoH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418329.1"; locus_tag "ECDH10B_RS20780"; product "formate dehydrogenase O subunit beta"; protein_id "WP_000331377.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4180492 4183542 . - . gene_id "ECDH10B_RS20785"; transcript_id ""; gbkey "Gene"; gene "fdnG"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20785"; old_locus_tag "ECDH10B_4084"; -NC_010473.1 Protein Homology CDS 4180495 4183542 . - 0 gene_id "ECDH10B_RS20785"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fdnG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418330.1"; locus_tag "ECDH10B_RS20785"; product "formate dehydrogenase-N subunit alpha"; protein_id "WP_012305477.1"; transl_except "(pos:complement(4182955..4182957),aa:Sec)"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4183540 4183542 . - 0 gene_id "ECDH10B_RS20785"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fdnG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418330.1"; locus_tag "ECDH10B_RS20785"; product "formate dehydrogenase-N subunit alpha"; protein_id "WP_012305477.1"; transl_except "(pos:complement(4182955..4182957),aa:Sec)"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4180492 4180494 . - 0 gene_id "ECDH10B_RS20785"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fdnG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418330.1"; locus_tag "ECDH10B_RS20785"; product "formate dehydrogenase-N subunit alpha"; protein_id "WP_012305477.1"; transl_except "(pos:complement(4182955..4182957),aa:Sec)"; transl_table "11"; -NC_010473.1 RefSeq gene 4183736 4184569 . + . gene_id "ECDH10B_RS20795"; transcript_id ""; gbkey "Gene"; gene "fdhD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20795"; old_locus_tag "ECDH10B_4085"; -NC_010473.1 Protein Homology CDS 4183736 4184566 . + 0 gene_id "ECDH10B_RS20795"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fdhD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418331.1"; locus_tag "ECDH10B_RS20795"; product "formate dehydrogenase accessory sulfurtransferase FdhD"; protein_id "WP_000753617.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4183736 4183738 . + 0 gene_id "ECDH10B_RS20795"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fdhD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418331.1"; locus_tag "ECDH10B_RS20795"; product "formate dehydrogenase accessory sulfurtransferase FdhD"; protein_id "WP_000753617.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4184567 4184569 . + 0 gene_id "ECDH10B_RS20795"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fdhD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418331.1"; locus_tag "ECDH10B_RS20795"; product "formate dehydrogenase accessory sulfurtransferase FdhD"; protein_id "WP_000753617.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4184722 4185777 . + . gene_id "ECDH10B_RS20800"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20800"; old_locus_tag "ECDH10B_4086"; -NC_010473.1 Protein Homology CDS 4184722 4185774 . + 0 gene_id "ECDH10B_RS20800"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418332.1"; locus_tag "ECDH10B_RS20800"; product "YiiG family protein"; protein_id "WP_001295677.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4184722 4184724 . + 0 gene_id "ECDH10B_RS20800"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418332.1"; locus_tag "ECDH10B_RS20800"; product "YiiG family protein"; protein_id "WP_001295677.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4185775 4185777 . + 0 gene_id "ECDH10B_RS20800"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418332.1"; locus_tag "ECDH10B_RS20800"; product "YiiG family protein"; protein_id "WP_001295677.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4185827 4187575 . - . gene_id "ECDH10B_RS20805"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20805"; old_locus_tag "ECDH10B_4087"; -NC_010473.1 Protein Homology CDS 4185830 4187575 . - 0 gene_id "ECDH10B_RS20805"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418333.1"; locus_tag "ECDH10B_RS20805"; product "PTS sugar transporter subunit IIA"; protein_id "WP_000931299.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4187573 4187575 . - 0 gene_id "ECDH10B_RS20805"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418333.1"; locus_tag "ECDH10B_RS20805"; product "PTS sugar transporter subunit IIA"; protein_id "WP_000931299.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4185827 4185829 . - 0 gene_id "ECDH10B_RS20805"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418333.1"; locus_tag "ECDH10B_RS20805"; product "PTS sugar transporter subunit IIA"; protein_id "WP_000931299.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4187575 4188645 . - . gene_id "ECDH10B_RS20810"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20810"; old_locus_tag "ECDH10B_4088"; -NC_010473.1 Protein Homology CDS 4187578 4188645 . - 0 gene_id "ECDH10B_RS20810"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418334.1"; locus_tag "ECDH10B_RS20810"; product "aminopeptidase"; protein_id "WP_001019484.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4188643 4188645 . - 0 gene_id "ECDH10B_RS20810"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418334.1"; locus_tag "ECDH10B_RS20810"; product "aminopeptidase"; protein_id "WP_001019484.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4187575 4187577 . - 0 gene_id "ECDH10B_RS20810"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418334.1"; locus_tag "ECDH10B_RS20810"; product "aminopeptidase"; protein_id "WP_001019484.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4188635 4190086 . - . gene_id "ECDH10B_RS20815"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20815"; old_locus_tag "ECDH10B_4089"; -NC_010473.1 Protein Homology CDS 4188638 4190086 . - 0 gene_id "ECDH10B_RS20815"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418335.4"; locus_tag "ECDH10B_RS20815"; product "PTS fructose-like transporter subunit IIBC"; protein_id "WP_000446023.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4190084 4190086 . - 0 gene_id "ECDH10B_RS20815"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418335.4"; locus_tag "ECDH10B_RS20815"; product "PTS fructose-like transporter subunit IIBC"; protein_id "WP_000446023.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4188635 4188637 . - 0 gene_id "ECDH10B_RS20815"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418335.4"; locus_tag "ECDH10B_RS20815"; product "PTS fructose-like transporter subunit IIBC"; protein_id "WP_000446023.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4190097 4190543 . - . gene_id "ECDH10B_RS20820"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20820"; -NC_010473.1 Protein Homology CDS 4190100 4190543 . - 0 gene_id "ECDH10B_RS20820"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418336.1"; locus_tag "ECDH10B_RS20820"; product "PTS fructose transporter subunit IIA"; protein_id "WP_000729601.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4190541 4190543 . - 0 gene_id "ECDH10B_RS20820"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418336.1"; locus_tag "ECDH10B_RS20820"; product "PTS fructose transporter subunit IIA"; protein_id "WP_000729601.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4190097 4190099 . - 0 gene_id "ECDH10B_RS20820"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418336.1"; locus_tag "ECDH10B_RS20820"; product "PTS fructose transporter subunit IIA"; protein_id "WP_000729601.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4190844 4191158 . - . gene_id "ECDH10B_RS20825"; transcript_id ""; gbkey "Gene"; gene "rhaM"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20825"; old_locus_tag "ECDH10B_4091"; -NC_010473.1 Protein Homology CDS 4190847 4191158 . - 0 gene_id "ECDH10B_RS20825"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rhaM"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418337.1"; locus_tag "ECDH10B_RS20825"; product "L-rhamnose mutarotase"; protein_id "WP_000619493.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4191156 4191158 . - 0 gene_id "ECDH10B_RS20825"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rhaM"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418337.1"; locus_tag "ECDH10B_RS20825"; product "L-rhamnose mutarotase"; protein_id "WP_000619493.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4190844 4190846 . - 0 gene_id "ECDH10B_RS20825"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rhaM"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418337.1"; locus_tag "ECDH10B_RS20825"; product "L-rhamnose mutarotase"; protein_id "WP_000619493.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4191168 4191992 . - . gene_id "ECDH10B_RS20830"; transcript_id ""; gbkey "Gene"; gene "rhaD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20830"; old_locus_tag "ECDH10B_4092"; -NC_010473.1 Protein Homology CDS 4191171 4191992 . - 0 gene_id "ECDH10B_RS20830"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rhaD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418338.1"; locus_tag "ECDH10B_RS20830"; product "rhamnulose-1-phosphate aldolase"; protein_id "WP_001179745.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4191990 4191992 . - 0 gene_id "ECDH10B_RS20830"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rhaD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418338.1"; locus_tag "ECDH10B_RS20830"; product "rhamnulose-1-phosphate aldolase"; protein_id "WP_001179745.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4191168 4191170 . - 0 gene_id "ECDH10B_RS20830"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rhaD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418338.1"; locus_tag "ECDH10B_RS20830"; product "rhamnulose-1-phosphate aldolase"; protein_id "WP_001179745.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4192443 4193702 . - . gene_id "ECDH10B_RS20835"; transcript_id ""; gbkey "Gene"; gene "rhaA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20835"; old_locus_tag "ECDH10B_4093"; -NC_010473.1 Protein Homology CDS 4192446 4193702 . - 0 gene_id "ECDH10B_RS20835"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rhaA"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026276.1"; locus_tag "ECDH10B_RS20835"; product "L-rhamnose isomerase"; protein_id "WP_001311268.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4193700 4193702 . - 0 gene_id "ECDH10B_RS20835"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rhaA"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026276.1"; locus_tag "ECDH10B_RS20835"; product "L-rhamnose isomerase"; protein_id "WP_001311268.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4192443 4192445 . - 0 gene_id "ECDH10B_RS20835"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rhaA"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026276.1"; locus_tag "ECDH10B_RS20835"; product "L-rhamnose isomerase"; protein_id "WP_001311268.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4193699 4195168 . - . gene_id "ECDH10B_RS20840"; transcript_id ""; gbkey "Gene"; gene "rhaB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20840"; old_locus_tag "ECDH10B_4094"; -NC_010473.1 Protein Homology CDS 4193702 4195168 . - 0 gene_id "ECDH10B_RS20840"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rhaB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418340.1"; locus_tag "ECDH10B_RS20840"; product "rhamnulokinase"; protein_id "WP_000144073.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4195166 4195168 . - 0 gene_id "ECDH10B_RS20840"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rhaB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418340.1"; locus_tag "ECDH10B_RS20840"; product "rhamnulokinase"; protein_id "WP_000144073.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4193699 4193701 . - 0 gene_id "ECDH10B_RS20840"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rhaB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418340.1"; locus_tag "ECDH10B_RS20840"; product "rhamnulokinase"; protein_id "WP_000144073.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4195456 4196292 . + . gene_id "ECDH10B_RS20850"; transcript_id ""; gbkey "Gene"; gene "rhaS"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20850"; old_locus_tag "ECDH10B_4095"; -NC_010473.1 Protein Homology CDS 4195456 4196289 . + 0 gene_id "ECDH10B_RS20850"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rhaS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418341.1"; locus_tag "ECDH10B_RS20850"; product "HTH-type transcriptional activator RhaS"; protein_id "WP_000217137.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4195456 4195458 . + 0 gene_id "ECDH10B_RS20850"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rhaS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418341.1"; locus_tag "ECDH10B_RS20850"; product "HTH-type transcriptional activator RhaS"; protein_id "WP_000217137.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4196290 4196292 . + 0 gene_id "ECDH10B_RS20850"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rhaS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418341.1"; locus_tag "ECDH10B_RS20850"; product "HTH-type transcriptional activator RhaS"; protein_id "WP_000217137.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4196276 4197214 . + . gene_id "ECDH10B_RS20855"; transcript_id ""; gbkey "Gene"; gene "rhaR"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20855"; old_locus_tag "ECDH10B_4096"; -NC_010473.1 Protein Homology CDS 4196276 4197211 . + 0 gene_id "ECDH10B_RS20855"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rhaR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_709710.2"; locus_tag "ECDH10B_RS20855"; product "HTH-type transcriptional activator RhaR"; protein_id "WP_000863142.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4196276 4196278 . + 0 gene_id "ECDH10B_RS20855"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rhaR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_709710.2"; locus_tag "ECDH10B_RS20855"; product "HTH-type transcriptional activator RhaR"; protein_id "WP_000863142.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4197212 4197214 . + 0 gene_id "ECDH10B_RS20855"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rhaR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_709710.2"; locus_tag "ECDH10B_RS20855"; product "HTH-type transcriptional activator RhaR"; protein_id "WP_000863142.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4197211 4198245 . - . gene_id "ECDH10B_RS20860"; transcript_id ""; gbkey "Gene"; gene "rhaT"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20860"; old_locus_tag "ECDH10B_4097"; -NC_010473.1 Protein Homology CDS 4197214 4198245 . - 0 gene_id "ECDH10B_RS20860"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rhaT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418343.1"; locus_tag "ECDH10B_RS20860"; product "L-rhamnose/proton symporter RhaT"; protein_id "WP_000063526.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4198243 4198245 . - 0 gene_id "ECDH10B_RS20860"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rhaT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418343.1"; locus_tag "ECDH10B_RS20860"; product "L-rhamnose/proton symporter RhaT"; protein_id "WP_000063526.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4197211 4197213 . - 0 gene_id "ECDH10B_RS20860"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rhaT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418343.1"; locus_tag "ECDH10B_RS20860"; product "L-rhamnose/proton symporter RhaT"; protein_id "WP_000063526.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4198530 4199150 . + . gene_id "ECDH10B_RS20865"; transcript_id ""; gbkey "Gene"; gene "sodA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20865"; old_locus_tag "ECDH10B_4098"; -NC_010473.1 Protein Homology CDS 4198530 4199147 . + 0 gene_id "ECDH10B_RS20865"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sodA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_010345169.1"; locus_tag "ECDH10B_RS20865"; product "superoxide dismutase [Mn]"; protein_id "WP_000122641.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4198530 4198532 . + 0 gene_id "ECDH10B_RS20865"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sodA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_010345169.1"; locus_tag "ECDH10B_RS20865"; product "superoxide dismutase [Mn]"; protein_id "WP_000122641.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4199148 4199150 . + 0 gene_id "ECDH10B_RS20865"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sodA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_010345169.1"; locus_tag "ECDH10B_RS20865"; product "superoxide dismutase [Mn]"; protein_id "WP_000122641.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4199410 4200393 . + . gene_id "ECDH10B_RS20875"; transcript_id ""; gbkey "Gene"; gene "kdgT"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20875"; old_locus_tag "ECDH10B_4099"; -NC_010473.1 Protein Homology CDS 4199410 4200390 . + 0 gene_id "ECDH10B_RS20875"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "kdgT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_709713.2"; locus_tag "ECDH10B_RS20875"; product "2-keto-3-deoxygluconate transporter"; protein_id "WP_001166063.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4199410 4199412 . + 0 gene_id "ECDH10B_RS20875"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "kdgT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_709713.2"; locus_tag "ECDH10B_RS20875"; product "2-keto-3-deoxygluconate transporter"; protein_id "WP_001166063.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4200391 4200393 . + 0 gene_id "ECDH10B_RS20875"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "kdgT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_709713.2"; locus_tag "ECDH10B_RS20875"; product "2-keto-3-deoxygluconate transporter"; protein_id "WP_001166063.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4200542 4201216 . + . gene_id "ECDH10B_RS20880"; transcript_id ""; gbkey "Gene"; gene "yiiM"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20880"; old_locus_tag "ECDH10B_4100"; -NC_010473.1 Protein Homology CDS 4200542 4201213 . + 0 gene_id "ECDH10B_RS20880"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yiiM"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418346.2"; locus_tag "ECDH10B_RS20880"; product "6-N-hydroxylaminopurine resistance protein"; protein_id "WP_001270260.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4200542 4200544 . + 0 gene_id "ECDH10B_RS20880"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yiiM"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418346.2"; locus_tag "ECDH10B_RS20880"; product "6-N-hydroxylaminopurine resistance protein"; protein_id "WP_001270260.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4201214 4201216 . + 0 gene_id "ECDH10B_RS20880"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yiiM"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418346.2"; locus_tag "ECDH10B_RS20880"; product "6-N-hydroxylaminopurine resistance protein"; protein_id "WP_001270260.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4201322 4202695 . - . gene_id "ECDH10B_RS20885"; transcript_id ""; gbkey "Gene"; gene "cpxA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20885"; old_locus_tag "ECDH10B_4101"; -NC_010473.1 Protein Homology CDS 4201325 4202695 . - 0 gene_id "ECDH10B_RS20885"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cpxA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312864.1"; locus_tag "ECDH10B_RS20885"; product "envelope stress sensor histidine kinase CpxA"; protein_id "WP_000580417.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4202693 4202695 . - 0 gene_id "ECDH10B_RS20885"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cpxA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312864.1"; locus_tag "ECDH10B_RS20885"; product "envelope stress sensor histidine kinase CpxA"; protein_id "WP_000580417.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4201322 4201324 . - 0 gene_id "ECDH10B_RS20885"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cpxA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312864.1"; locus_tag "ECDH10B_RS20885"; product "envelope stress sensor histidine kinase CpxA"; protein_id "WP_000580417.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4202692 4203390 . - . gene_id "ECDH10B_RS20890"; transcript_id ""; gbkey "Gene"; gene "cpxR"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20890"; old_locus_tag "ECDH10B_4102"; -NC_010473.1 Protein Homology CDS 4202695 4203390 . - 0 gene_id "ECDH10B_RS20890"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cpxR"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001033718.1"; locus_tag "ECDH10B_RS20890"; product "envelope stress response regulator transcription factor CpxR"; protein_id "WP_001033722.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4203388 4203390 . - 0 gene_id "ECDH10B_RS20890"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cpxR"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001033718.1"; locus_tag "ECDH10B_RS20890"; product "envelope stress response regulator transcription factor CpxR"; protein_id "WP_001033722.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4202692 4202694 . - 0 gene_id "ECDH10B_RS20890"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cpxR"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001033718.1"; locus_tag "ECDH10B_RS20890"; product "envelope stress response regulator transcription factor CpxR"; protein_id "WP_001033722.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4203540 4204040 . + . gene_id "ECDH10B_RS20895"; transcript_id ""; gbkey "Gene"; gene "cpxP"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20895"; old_locus_tag "ECDH10B_4103"; -NC_010473.1 Protein Homology CDS 4203540 4204037 . + 0 gene_id "ECDH10B_RS20895"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cpxP"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026277.1"; locus_tag "ECDH10B_RS20895"; product "cell-envelope stress modulator CpxP"; protein_id "WP_001223800.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4203540 4203542 . + 0 gene_id "ECDH10B_RS20895"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cpxP"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026277.1"; locus_tag "ECDH10B_RS20895"; product "cell-envelope stress modulator CpxP"; protein_id "WP_001223800.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4204038 4204040 . + 0 gene_id "ECDH10B_RS20895"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cpxP"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026277.1"; locus_tag "ECDH10B_RS20895"; product "cell-envelope stress modulator CpxP"; protein_id "WP_001223800.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4204189 4205091 . + . gene_id "ECDH10B_RS20900"; transcript_id ""; gbkey "Gene"; gene "fieF"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20900"; old_locus_tag "ECDH10B_4104"; -NC_010473.1 Protein Homology CDS 4204189 4205088 . + 0 gene_id "ECDH10B_RS20900"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fieF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312867.1"; locus_tag "ECDH10B_RS20900"; note "FieF, a metal efflux transporter, is a member of the CDF (cation diffusion facilitator) family of transporters."; product "CDF family cation-efflux transporter FieF"; protein_id "WP_001076742.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4204189 4204191 . + 0 gene_id "ECDH10B_RS20900"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fieF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312867.1"; locus_tag "ECDH10B_RS20900"; note "FieF, a metal efflux transporter, is a member of the CDF (cation diffusion facilitator) family of transporters."; product "CDF family cation-efflux transporter FieF"; protein_id "WP_001076742.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4205089 4205091 . + 0 gene_id "ECDH10B_RS20900"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fieF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312867.1"; locus_tag "ECDH10B_RS20900"; note "FieF, a metal efflux transporter, is a member of the CDF (cation diffusion facilitator) family of transporters."; product "CDF family cation-efflux transporter FieF"; protein_id "WP_001076742.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4205272 4206234 . + . gene_id "ECDH10B_RS20905"; transcript_id ""; gbkey "Gene"; gene "pfkA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20905"; old_locus_tag "ECDH10B_4105"; -NC_010473.1 Protein Homology CDS 4205272 4206231 . + 0 gene_id "ECDH10B_RS20905"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pfkA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_014072359.1"; locus_tag "ECDH10B_RS20905"; product "6-phosphofructokinase"; protein_id "WP_000591795.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4205272 4205274 . + 0 gene_id "ECDH10B_RS20905"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pfkA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_014072359.1"; locus_tag "ECDH10B_RS20905"; product "6-phosphofructokinase"; protein_id "WP_000591795.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4206232 4206234 . + 0 gene_id "ECDH10B_RS20905"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pfkA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_014072359.1"; locus_tag "ECDH10B_RS20905"; product "6-phosphofructokinase"; protein_id "WP_000591795.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4206554 4207543 . + . gene_id "ECDH10B_RS20910"; transcript_id ""; gbkey "Gene"; gene "sbp"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20910"; old_locus_tag "ECDH10B_4106"; -NC_010473.1 Protein Homology CDS 4206554 4207540 . + 0 gene_id "ECDH10B_RS20910"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sbp"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005133064.1"; locus_tag "ECDH10B_RS20910"; product "sulfate/thiosulfate ABC transporter substrate-binding protein Sbp"; protein_id "WP_001045689.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4206554 4206556 . + 0 gene_id "ECDH10B_RS20910"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sbp"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005133064.1"; locus_tag "ECDH10B_RS20910"; product "sulfate/thiosulfate ABC transporter substrate-binding protein Sbp"; protein_id "WP_001045689.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4207541 4207543 . + 0 gene_id "ECDH10B_RS20910"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sbp"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005133064.1"; locus_tag "ECDH10B_RS20910"; product "sulfate/thiosulfate ABC transporter substrate-binding protein Sbp"; protein_id "WP_001045689.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4207650 4208405 . + . gene_id "ECDH10B_RS20915"; transcript_id ""; gbkey "Gene"; gene "cdh"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20915"; old_locus_tag "ECDH10B_4107"; -NC_010473.1 Protein Homology CDS 4207650 4208402 . + 0 gene_id "ECDH10B_RS20915"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cdh"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418353.1"; locus_tag "ECDH10B_RS20915"; product "CDP-diacylglycerol diphosphatase"; protein_id "WP_001326656.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4207650 4207652 . + 0 gene_id "ECDH10B_RS20915"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cdh"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418353.1"; locus_tag "ECDH10B_RS20915"; product "CDP-diacylglycerol diphosphatase"; protein_id "WP_001326656.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4208403 4208405 . + 0 gene_id "ECDH10B_RS20915"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cdh"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418353.1"; locus_tag "ECDH10B_RS20915"; product "CDP-diacylglycerol diphosphatase"; protein_id "WP_001326656.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4208460 4209227 . - . gene_id "ECDH10B_RS20920"; transcript_id ""; gbkey "Gene"; gene "tpiA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20920"; old_locus_tag "ECDH10B_4108"; -NC_010473.1 Protein Homology CDS 4208463 4209227 . - 0 gene_id "ECDH10B_RS20920"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tpiA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312871.1"; locus_tag "ECDH10B_RS20920"; product "triose-phosphate isomerase"; protein_id "WP_001216325.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4209225 4209227 . - 0 gene_id "ECDH10B_RS20920"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tpiA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312871.1"; locus_tag "ECDH10B_RS20920"; product "triose-phosphate isomerase"; protein_id "WP_001216325.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4208460 4208462 . - 0 gene_id "ECDH10B_RS20920"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tpiA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312871.1"; locus_tag "ECDH10B_RS20920"; product "triose-phosphate isomerase"; protein_id "WP_001216325.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4209335 4209934 . - . gene_id "ECDH10B_RS20925"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20925"; old_locus_tag "ECDH10B_4109"; -NC_010473.1 Protein Homology CDS 4209338 4209934 . - 0 gene_id "ECDH10B_RS20925"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418355.1"; locus_tag "ECDH10B_RS20925"; product "YiiQ family protein"; protein_id "WP_000802216.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4209932 4209934 . - 0 gene_id "ECDH10B_RS20925"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418355.1"; locus_tag "ECDH10B_RS20925"; product "YiiQ family protein"; protein_id "WP_000802216.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4209335 4209337 . - 0 gene_id "ECDH10B_RS20925"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418355.1"; locus_tag "ECDH10B_RS20925"; product "YiiQ family protein"; protein_id "WP_000802216.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4210035 4210475 . + . gene_id "ECDH10B_RS20930"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20930"; old_locus_tag "ECDH10B_4110"; -NC_010473.1 Protein Homology CDS 4210035 4210472 . + 0 gene_id "ECDH10B_RS20930"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312873.1"; locus_tag "ECDH10B_RS20930"; product "DUF805 domain-containing protein"; protein_id "WP_000155257.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4210035 4210037 . + 0 gene_id "ECDH10B_RS20930"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312873.1"; locus_tag "ECDH10B_RS20930"; product "DUF805 domain-containing protein"; protein_id "WP_000155257.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4210473 4210475 . + 0 gene_id "ECDH10B_RS20930"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312873.1"; locus_tag "ECDH10B_RS20930"; product "DUF805 domain-containing protein"; protein_id "WP_000155257.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4210687 4210986 . + . gene_id "ECDH10B_RS20935"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20935"; old_locus_tag "ECDH10B_4111"; -NC_010473.1 Protein Homology CDS 4210687 4210983 . + 0 gene_id "ECDH10B_RS20935"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418357.1"; locus_tag "ECDH10B_RS20935"; product "DUF406 domain-containing protein"; protein_id "WP_000655989.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4210687 4210689 . + 0 gene_id "ECDH10B_RS20935"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418357.1"; locus_tag "ECDH10B_RS20935"; product "DUF406 domain-containing protein"; protein_id "WP_000655989.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4210984 4210986 . + 0 gene_id "ECDH10B_RS20935"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418357.1"; locus_tag "ECDH10B_RS20935"; product "DUF406 domain-containing protein"; protein_id "WP_000655989.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4211013 4211441 . + . gene_id "ECDH10B_RS20940"; transcript_id ""; gbkey "Gene"; gene "uspD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20940"; old_locus_tag "ECDH10B_4112"; -NC_010473.1 Protein Homology CDS 4211013 4211438 . + 0 gene_id "ECDH10B_RS20940"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "uspD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418358.1"; locus_tag "ECDH10B_RS20940"; product "universal stress protein UspD"; protein_id "WP_000323556.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4211013 4211015 . + 0 gene_id "ECDH10B_RS20940"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "uspD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418358.1"; locus_tag "ECDH10B_RS20940"; product "universal stress protein UspD"; protein_id "WP_000323556.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4211439 4211441 . + 0 gene_id "ECDH10B_RS20940"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "uspD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418358.1"; locus_tag "ECDH10B_RS20940"; product "universal stress protein UspD"; protein_id "WP_000323556.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4211446 4212192 . - . gene_id "ECDH10B_RS20945"; transcript_id ""; gbkey "Gene"; gene "fpr"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20945"; old_locus_tag "ECDH10B_4113"; -NC_010473.1 Protein Homology CDS 4211449 4212192 . - 0 gene_id "ECDH10B_RS20945"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fpr"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418359.1"; locus_tag "ECDH10B_RS20945"; product "ferredoxin--NADP(+) reductase"; protein_id "WP_000796332.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4212190 4212192 . - 0 gene_id "ECDH10B_RS20945"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fpr"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418359.1"; locus_tag "ECDH10B_RS20945"; product "ferredoxin--NADP(+) reductase"; protein_id "WP_000796332.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4211446 4211448 . - 0 gene_id "ECDH10B_RS20945"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fpr"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418359.1"; locus_tag "ECDH10B_RS20945"; product "ferredoxin--NADP(+) reductase"; protein_id "WP_000796332.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4212289 4213299 . - . gene_id "ECDH10B_RS20950"; transcript_id ""; gbkey "Gene"; gene "glpX"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20950"; old_locus_tag "ECDH10B_4114"; -NC_010473.1 Protein Homology CDS 4212292 4213299 . - 0 gene_id "ECDH10B_RS20950"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "glpX"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418360.1"; locus_tag "ECDH10B_RS20950"; product "class II fructose-bisphosphatase"; protein_id "WP_001250644.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4213297 4213299 . - 0 gene_id "ECDH10B_RS20950"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "glpX"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418360.1"; locus_tag "ECDH10B_RS20950"; product "class II fructose-bisphosphatase"; protein_id "WP_001250644.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4212289 4212291 . - 0 gene_id "ECDH10B_RS20950"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "glpX"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418360.1"; locus_tag "ECDH10B_RS20950"; product "class II fructose-bisphosphatase"; protein_id "WP_001250644.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4213434 4214942 . - . gene_id "ECDH10B_RS20955"; transcript_id ""; gbkey "Gene"; gene "glpK"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20955"; old_locus_tag "ECDH10B_4115"; -NC_010473.1 Protein Homology CDS 4213437 4214942 . - 0 gene_id "ECDH10B_RS20955"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "glpK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312878.1"; locus_tag "ECDH10B_RS20955"; product "glycerol kinase GlpK"; protein_id "WP_000136788.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4214940 4214942 . - 0 gene_id "ECDH10B_RS20955"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "glpK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312878.1"; locus_tag "ECDH10B_RS20955"; product "glycerol kinase GlpK"; protein_id "WP_000136788.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4213434 4213436 . - 0 gene_id "ECDH10B_RS20955"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "glpK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312878.1"; locus_tag "ECDH10B_RS20955"; product "glycerol kinase GlpK"; protein_id "WP_000136788.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4214965 4215810 . - . gene_id "ECDH10B_RS20960"; transcript_id ""; gbkey "Gene"; gene "glpF"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20960"; old_locus_tag "ECDH10B_4116"; -NC_010473.1 Protein Homology CDS 4214968 4215810 . - 0 gene_id "ECDH10B_RS20960"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "glpF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312879.1"; locus_tag "ECDH10B_RS20960"; product "glycerol uptake facilitator protein GlpF"; protein_id "WP_000084268.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4215808 4215810 . - 0 gene_id "ECDH10B_RS20960"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "glpF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312879.1"; locus_tag "ECDH10B_RS20960"; product "glycerol uptake facilitator protein GlpF"; protein_id "WP_000084268.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4214965 4214967 . - 0 gene_id "ECDH10B_RS20960"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "glpF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312879.1"; locus_tag "ECDH10B_RS20960"; product "glycerol uptake facilitator protein GlpF"; protein_id "WP_000084268.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4216235 4216480 . + . gene_id "ECDH10B_RS20965"; transcript_id ""; gbkey "Gene"; gene "zapB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20965"; old_locus_tag "ECDH10B_4117"; -NC_010473.1 Protein Homology CDS 4216235 4216477 . + 0 gene_id "ECDH10B_RS20965"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "zapB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418363.1"; locus_tag "ECDH10B_RS20965"; product "septal ring assembly protein ZapB"; protein_id "WP_001296623.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4216235 4216237 . + 0 gene_id "ECDH10B_RS20965"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "zapB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418363.1"; locus_tag "ECDH10B_RS20965"; product "septal ring assembly protein ZapB"; protein_id "WP_001296623.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4216478 4216480 . + 0 gene_id "ECDH10B_RS20965"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "zapB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418363.1"; locus_tag "ECDH10B_RS20965"; product "septal ring assembly protein ZapB"; protein_id "WP_001296623.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4216565 4217050 . - . gene_id "ECDH10B_RS20970"; transcript_id ""; gbkey "Gene"; gene "rraA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20970"; old_locus_tag "ECDH10B_4118"; -NC_010473.1 Protein Homology CDS 4216568 4217050 . - 0 gene_id "ECDH10B_RS20970"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rraA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001392924.1"; locus_tag "ECDH10B_RS20970"; product "ribonuclease E activity regulator RraA"; protein_id "WP_000872908.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4217048 4217050 . - 0 gene_id "ECDH10B_RS20970"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rraA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001392924.1"; locus_tag "ECDH10B_RS20970"; product "ribonuclease E activity regulator RraA"; protein_id "WP_000872908.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4216565 4216567 . - 0 gene_id "ECDH10B_RS20970"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rraA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001392924.1"; locus_tag "ECDH10B_RS20970"; product "ribonuclease E activity regulator RraA"; protein_id "WP_000872908.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4217143 4218069 . - . gene_id "ECDH10B_RS20975"; transcript_id ""; gbkey "Gene"; gene "menA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20975"; old_locus_tag "ECDH10B_4119"; -NC_010473.1 Protein Homology CDS 4217146 4218069 . - 0 gene_id "ECDH10B_RS20975"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "menA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418365.1"; locus_tag "ECDH10B_RS20975"; product "1,4-dihydroxy-2-naphthoate polyprenyltransferase"; protein_id "WP_000139496.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4218067 4218069 . - 0 gene_id "ECDH10B_RS20975"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "menA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418365.1"; locus_tag "ECDH10B_RS20975"; product "1,4-dihydroxy-2-naphthoate polyprenyltransferase"; protein_id "WP_000139496.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4217143 4217145 . - 0 gene_id "ECDH10B_RS20975"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "menA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418365.1"; locus_tag "ECDH10B_RS20975"; product "1,4-dihydroxy-2-naphthoate polyprenyltransferase"; protein_id "WP_000139496.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4218136 4219467 . - . gene_id "ECDH10B_RS20980"; transcript_id ""; gbkey "Gene"; gene "hslU"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20980"; old_locus_tag "ECDH10B_4120"; -NC_010473.1 Protein Homology CDS 4218139 4219467 . - 0 gene_id "ECDH10B_RS20980"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hslU"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_019841241.1"; locus_tag "ECDH10B_RS20980"; product "HslU--HslV peptidase ATPase subunit"; protein_id "WP_001293341.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4219465 4219467 . - 0 gene_id "ECDH10B_RS20980"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hslU"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_019841241.1"; locus_tag "ECDH10B_RS20980"; product "HslU--HslV peptidase ATPase subunit"; protein_id "WP_001293341.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4218136 4218138 . - 0 gene_id "ECDH10B_RS20980"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hslU"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_019841241.1"; locus_tag "ECDH10B_RS20980"; product "HslU--HslV peptidase ATPase subunit"; protein_id "WP_001293341.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4219477 4220007 . - . gene_id "ECDH10B_RS20985"; transcript_id ""; gbkey "Gene"; gene "hslV"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20985"; old_locus_tag "ECDH10B_4121"; -NC_010473.1 Protein Homology CDS 4219480 4220007 . - 0 gene_id "ECDH10B_RS20985"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hslV"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312886.1"; locus_tag "ECDH10B_RS20985"; product "ATP-dependent protease subunit HslV"; protein_id "WP_000208242.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4220005 4220007 . - 0 gene_id "ECDH10B_RS20985"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hslV"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312886.1"; locus_tag "ECDH10B_RS20985"; product "ATP-dependent protease subunit HslV"; protein_id "WP_000208242.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4219477 4219479 . - 0 gene_id "ECDH10B_RS20985"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hslV"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312886.1"; locus_tag "ECDH10B_RS20985"; product "ATP-dependent protease subunit HslV"; protein_id "WP_000208242.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4220100 4221059 . - . gene_id "ECDH10B_RS20990"; transcript_id ""; gbkey "Gene"; gene "ftsN"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20990"; old_locus_tag "ECDH10B_4122"; -NC_010473.1 Protein Homology CDS 4220103 4221059 . - 0 gene_id "ECDH10B_RS20990"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ftsN"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418368.1"; locus_tag "ECDH10B_RS20990"; product "cell division protein FtsN"; protein_id "WP_000068828.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4221057 4221059 . - 0 gene_id "ECDH10B_RS20990"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ftsN"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418368.1"; locus_tag "ECDH10B_RS20990"; product "cell division protein FtsN"; protein_id "WP_000068828.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4220100 4220102 . - 0 gene_id "ECDH10B_RS20990"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ftsN"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418368.1"; locus_tag "ECDH10B_RS20990"; product "cell division protein FtsN"; protein_id "WP_000068828.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4221151 4222176 . - . gene_id "ECDH10B_RS20995"; transcript_id ""; gbkey "Gene"; gene "cytR"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS20995"; old_locus_tag "ECDH10B_4123"; -NC_010473.1 Protein Homology CDS 4221154 4222176 . - 0 gene_id "ECDH10B_RS20995"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cytR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312888.1"; locus_tag "ECDH10B_RS20995"; product "DNA-binding transcriptional regulator CytR"; protein_id "WP_000644904.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4222174 4222176 . - 0 gene_id "ECDH10B_RS20995"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cytR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312888.1"; locus_tag "ECDH10B_RS20995"; product "DNA-binding transcriptional regulator CytR"; protein_id "WP_000644904.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4221151 4221153 . - 0 gene_id "ECDH10B_RS20995"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cytR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312888.1"; locus_tag "ECDH10B_RS20995"; product "DNA-binding transcriptional regulator CytR"; protein_id "WP_000644904.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4222332 4224530 . - . gene_id "ECDH10B_RS21000"; transcript_id ""; gbkey "Gene"; gene "priA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21000"; old_locus_tag "ECDH10B_4124"; -NC_010473.1 Protein Homology CDS 4222335 4224530 . - 0 gene_id "ECDH10B_RS21000"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "priA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418370.1"; locus_tag "ECDH10B_RS21000"; product "primosomal protein N'"; protein_id "WP_001301269.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4224528 4224530 . - 0 gene_id "ECDH10B_RS21000"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "priA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418370.1"; locus_tag "ECDH10B_RS21000"; product "primosomal protein N'"; protein_id "WP_001301269.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4222332 4222334 . - 0 gene_id "ECDH10B_RS21000"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "priA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418370.1"; locus_tag "ECDH10B_RS21000"; product "primosomal protein N'"; protein_id "WP_001301269.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4224733 4224945 . + . gene_id "ECDH10B_RS21005"; transcript_id ""; gbkey "Gene"; gene "rpmE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21005"; old_locus_tag "ECDH10B_4125"; -NC_010473.1 Protein Homology CDS 4224733 4224942 . + 0 gene_id "ECDH10B_RS21005"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rpmE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312890.1"; locus_tag "ECDH10B_RS21005"; product "50S ribosomal protein L31"; protein_id "WP_000710769.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4224733 4224735 . + 0 gene_id "ECDH10B_RS21005"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rpmE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312890.1"; locus_tag "ECDH10B_RS21005"; product "50S ribosomal protein L31"; protein_id "WP_000710769.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4224943 4224945 . + 0 gene_id "ECDH10B_RS21005"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rpmE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312890.1"; locus_tag "ECDH10B_RS21005"; product "50S ribosomal protein L31"; protein_id "WP_000710769.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4225006 4225614 . - . gene_id "ECDH10B_RS21010"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21010"; old_locus_tag "ECDH10B_4126"; -NC_010473.1 Protein Homology CDS 4225009 4225614 . - 0 gene_id "ECDH10B_RS21010"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418372.1"; locus_tag "ECDH10B_RS21010"; product "YiiX family permuted papain-like enzyme"; protein_id "WP_000797353.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4225612 4225614 . - 0 gene_id "ECDH10B_RS21010"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418372.1"; locus_tag "ECDH10B_RS21010"; product "YiiX family permuted papain-like enzyme"; protein_id "WP_000797353.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4225006 4225008 . - 0 gene_id "ECDH10B_RS21010"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418372.1"; locus_tag "ECDH10B_RS21010"; product "YiiX family permuted papain-like enzyme"; protein_id "WP_000797353.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4225798 4226115 . - . gene_id "ECDH10B_RS21015"; transcript_id ""; gbkey "Gene"; gene "metJ"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21015"; old_locus_tag "ECDH10B_4127"; -NC_010473.1 Protein Homology CDS 4225801 4226115 . - 0 gene_id "ECDH10B_RS21015"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "metJ"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_015855437.1"; locus_tag "ECDH10B_RS21015"; product "met regulon transcriptional regulator MetJ"; protein_id "WP_000852812.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4226113 4226115 . - 0 gene_id "ECDH10B_RS21015"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "metJ"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_015855437.1"; locus_tag "ECDH10B_RS21015"; product "met regulon transcriptional regulator MetJ"; protein_id "WP_000852812.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4225798 4225800 . - 0 gene_id "ECDH10B_RS21015"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "metJ"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_015855437.1"; locus_tag "ECDH10B_RS21015"; product "met regulon transcriptional regulator MetJ"; protein_id "WP_000852812.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4226392 4227552 . + . gene_id "ECDH10B_RS21020"; transcript_id ""; gbkey "Gene"; gene "metB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21020"; old_locus_tag "ECDH10B_4128"; -NC_010473.1 Protein Homology CDS 4226392 4227549 . + 0 gene_id "ECDH10B_RS21020"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "metB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418374.1"; locus_tag "ECDH10B_RS21020"; product "cystathionine gamma-synthase"; protein_id "WP_001295694.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4226392 4226394 . + 0 gene_id "ECDH10B_RS21020"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "metB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418374.1"; locus_tag "ECDH10B_RS21020"; product "cystathionine gamma-synthase"; protein_id "WP_001295694.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4227550 4227552 . + 0 gene_id "ECDH10B_RS21020"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "metB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418374.1"; locus_tag "ECDH10B_RS21020"; product "cystathionine gamma-synthase"; protein_id "WP_001295694.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4227555 4229987 . + . gene_id "ECDH10B_RS21025"; transcript_id ""; gbkey "Gene"; gene "metL"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21025"; old_locus_tag "ECDH10B_4129"; -NC_010473.1 Protein Homology CDS 4227555 4229984 . + 0 gene_id "ECDH10B_RS21025"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "metL"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000110794.1"; locus_tag "ECDH10B_RS21025"; product "bifunctional aspartate kinase/homoserine dehydrogenase II"; protein_id "WP_000110772.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4227555 4227557 . + 0 gene_id "ECDH10B_RS21025"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "metL"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000110794.1"; locus_tag "ECDH10B_RS21025"; product "bifunctional aspartate kinase/homoserine dehydrogenase II"; protein_id "WP_000110772.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4229985 4229987 . + 0 gene_id "ECDH10B_RS21025"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "metL"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000110794.1"; locus_tag "ECDH10B_RS21025"; product "bifunctional aspartate kinase/homoserine dehydrogenase II"; protein_id "WP_000110772.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4230336 4231226 . + . gene_id "ECDH10B_RS21035"; transcript_id ""; gbkey "Gene"; gene "metF"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21035"; old_locus_tag "ECDH10B_4130"; -NC_010473.1 Protein Homology CDS 4230336 4231223 . + 0 gene_id "ECDH10B_RS21035"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "metF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418376.1"; locus_tag "ECDH10B_RS21035"; product "methylenetetrahydrofolate reductase"; protein_id "WP_000007523.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4230336 4230338 . + 0 gene_id "ECDH10B_RS21035"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "metF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418376.1"; locus_tag "ECDH10B_RS21035"; product "methylenetetrahydrofolate reductase"; protein_id "WP_000007523.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4231224 4231226 . + 0 gene_id "ECDH10B_RS21035"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "metF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418376.1"; locus_tag "ECDH10B_RS21035"; product "methylenetetrahydrofolate reductase"; protein_id "WP_000007523.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4231555 4233735 . + . gene_id "ECDH10B_RS21040"; transcript_id ""; gbkey "Gene"; gene "katG"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21040"; old_locus_tag "ECDH10B_4131"; -NC_010473.1 Protein Homology CDS 4231555 4233732 . + 0 gene_id "ECDH10B_RS21040"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "katG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418377.1"; locus_tag "ECDH10B_RS21040"; product "catalase/peroxidase HPI"; protein_id "WP_001295695.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4231555 4231557 . + 0 gene_id "ECDH10B_RS21040"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "katG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418377.1"; locus_tag "ECDH10B_RS21040"; product "catalase/peroxidase HPI"; protein_id "WP_001295695.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4233733 4233735 . + 0 gene_id "ECDH10B_RS21040"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "katG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418377.1"; locus_tag "ECDH10B_RS21040"; product "catalase/peroxidase HPI"; protein_id "WP_001295695.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4233828 4234733 . + . gene_id "ECDH10B_RS21045"; transcript_id ""; gbkey "Gene"; gene "yijE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21045"; old_locus_tag "ECDH10B_4132"; -NC_010473.1 Protein Homology CDS 4233828 4234730 . + 0 gene_id "ECDH10B_RS21045"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yijE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418378.4"; locus_tag "ECDH10B_RS21045"; product "cystine transporter YijE"; protein_id "WP_001271242.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4233828 4233830 . + 0 gene_id "ECDH10B_RS21045"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yijE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418378.4"; locus_tag "ECDH10B_RS21045"; product "cystine transporter YijE"; protein_id "WP_001271242.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4234731 4234733 . + 0 gene_id "ECDH10B_RS21045"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yijE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418378.4"; locus_tag "ECDH10B_RS21045"; product "cystine transporter YijE"; protein_id "WP_001271242.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4234760 4235377 . - . gene_id "ECDH10B_RS21050"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21050"; old_locus_tag "ECDH10B_4133"; -NC_010473.1 Protein Homology CDS 4234763 4235377 . - 0 gene_id "ECDH10B_RS21050"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418379.1"; locus_tag "ECDH10B_RS21050"; product "DUF1287 domain-containing protein"; protein_id "WP_000647891.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4235375 4235377 . - 0 gene_id "ECDH10B_RS21050"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418379.1"; locus_tag "ECDH10B_RS21050"; product "DUF1287 domain-containing protein"; protein_id "WP_000647891.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4234760 4234762 . - 0 gene_id "ECDH10B_RS21050"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418379.1"; locus_tag "ECDH10B_RS21050"; product "DUF1287 domain-containing protein"; protein_id "WP_000647891.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4235652 4236755 . - . gene_id "ECDH10B_RS21060"; transcript_id ""; gbkey "Gene"; gene "gldA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21060"; old_locus_tag "ECDH10B_4134"; -NC_010473.1 Protein Homology CDS 4235655 4236755 . - 0 gene_id "ECDH10B_RS21060"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gldA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418380.4"; locus_tag "ECDH10B_RS21060"; product "bifunctional L-1,2-propanediol dehydrogenase/glycerol dehydrogenase"; protein_id "WP_000374004.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4236753 4236755 . - 0 gene_id "ECDH10B_RS21060"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gldA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418380.4"; locus_tag "ECDH10B_RS21060"; product "bifunctional L-1,2-propanediol dehydrogenase/glycerol dehydrogenase"; protein_id "WP_000374004.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4235652 4235654 . - 0 gene_id "ECDH10B_RS21060"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gldA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418380.4"; locus_tag "ECDH10B_RS21060"; product "bifunctional L-1,2-propanediol dehydrogenase/glycerol dehydrogenase"; protein_id "WP_000374004.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4236766 4237428 . - . gene_id "ECDH10B_RS21065"; transcript_id ""; gbkey "Gene"; gene "fsa"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21065"; old_locus_tag "ECDH10B_4135"; -NC_010473.1 Protein Homology CDS 4236769 4237428 . - 0 gene_id "ECDH10B_RS21065"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fsa"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418381.1"; locus_tag "ECDH10B_RS21065"; product "fructose-6-phosphate aldolase"; protein_id "WP_000424840.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4237426 4237428 . - 0 gene_id "ECDH10B_RS21065"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fsa"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418381.1"; locus_tag "ECDH10B_RS21065"; product "fructose-6-phosphate aldolase"; protein_id "WP_000424840.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4236766 4236768 . - 0 gene_id "ECDH10B_RS21065"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fsa"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418381.1"; locus_tag "ECDH10B_RS21065"; product "fructose-6-phosphate aldolase"; protein_id "WP_000424840.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4237440 4239941 . - . gene_id "ECDH10B_RS21070"; transcript_id ""; gbkey "Gene"; gene "ptsP"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21070"; old_locus_tag "ECDH10B_4136"; -NC_010473.1 Protein Homology CDS 4237443 4239941 . - 0 gene_id "ECDH10B_RS21070"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ptsP"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026278.1"; locus_tag "ECDH10B_RS21070"; product "phosphoenolpyruvate--protein phosphotransferase"; protein_id "WP_001174077.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4239939 4239941 . - 0 gene_id "ECDH10B_RS21070"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ptsP"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026278.1"; locus_tag "ECDH10B_RS21070"; product "phosphoenolpyruvate--protein phosphotransferase"; protein_id "WP_001174077.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4237440 4237442 . - 0 gene_id "ECDH10B_RS21070"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ptsP"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026278.1"; locus_tag "ECDH10B_RS21070"; product "phosphoenolpyruvate--protein phosphotransferase"; protein_id "WP_001174077.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4240250 4241329 . + . gene_id "ECDH10B_RS21075"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21075"; old_locus_tag "ECDH10B_4137"; -NC_010473.1 Protein Homology CDS 4240250 4241326 . + 0 gene_id "ECDH10B_RS21075"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418384.1"; locus_tag "ECDH10B_RS21075"; product "PTS fructose transporter subunit EIIC"; protein_id "WP_001004446.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4240250 4240252 . + 0 gene_id "ECDH10B_RS21075"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418384.1"; locus_tag "ECDH10B_RS21075"; product "PTS fructose transporter subunit EIIC"; protein_id "WP_001004446.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4241327 4241329 . + 0 gene_id "ECDH10B_RS21075"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418384.1"; locus_tag "ECDH10B_RS21075"; product "PTS fructose transporter subunit EIIC"; protein_id "WP_001004446.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4241344 4241664 . + . gene_id "ECDH10B_RS21080"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21080"; old_locus_tag "ECDH10B_4138"; -NC_010473.1 Protein Homology CDS 4241344 4241661 . + 0 gene_id "ECDH10B_RS21080"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312906.1"; locus_tag "ECDH10B_RS21080"; product "PTS fructose-like transporter subunit IIB"; protein_id "WP_000161265.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4241344 4241346 . + 0 gene_id "ECDH10B_RS21080"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312906.1"; locus_tag "ECDH10B_RS21080"; product "PTS fructose-like transporter subunit IIB"; protein_id "WP_000161265.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4241662 4241664 . + 0 gene_id "ECDH10B_RS21080"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312906.1"; locus_tag "ECDH10B_RS21080"; product "PTS fructose-like transporter subunit IIB"; protein_id "WP_000161265.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4241715 4244012 . + . gene_id "ECDH10B_RS21085"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21085"; old_locus_tag "ECDH10B_4139"; -NC_010473.1 Protein Homology CDS 4241715 4244009 . + 0 gene_id "ECDH10B_RS21085"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418386.1"; locus_tag "ECDH10B_RS21085"; product "formate C-acetyltransferase"; protein_id "WP_000184811.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4241715 4241717 . + 0 gene_id "ECDH10B_RS21085"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418386.1"; locus_tag "ECDH10B_RS21085"; product "formate C-acetyltransferase"; protein_id "WP_000184811.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4244010 4244012 . + 0 gene_id "ECDH10B_RS21085"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418386.1"; locus_tag "ECDH10B_RS21085"; product "formate C-acetyltransferase"; protein_id "WP_000184811.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4243978 4244856 . + . gene_id "ECDH10B_RS21090"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21090"; old_locus_tag "ECDH10B_4140"; -NC_010473.1 Protein Homology CDS 4243978 4244853 . + 0 gene_id "ECDH10B_RS21090"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418387.3"; locus_tag "ECDH10B_RS21090"; product "[formate-C-acetyltransferase]-activating enzyme"; protein_id "WP_000204105.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4243978 4243980 . + 0 gene_id "ECDH10B_RS21090"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418387.3"; locus_tag "ECDH10B_RS21090"; product "[formate-C-acetyltransferase]-activating enzyme"; protein_id "WP_000204105.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4244854 4244856 . + 0 gene_id "ECDH10B_RS21090"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418387.3"; locus_tag "ECDH10B_RS21090"; product "[formate-C-acetyltransferase]-activating enzyme"; protein_id "WP_000204105.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4244858 4245199 . + . gene_id "ECDH10B_RS21095"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21095"; old_locus_tag "ECDH10B_4141"; -NC_010473.1 Protein Homology CDS 4244858 4245196 . + 0 gene_id "ECDH10B_RS21095"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418388.1"; locus_tag "ECDH10B_RS21095"; product "PTS fructose-like transporter subunit IIB"; protein_id "WP_000323846.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4244858 4244860 . + 0 gene_id "ECDH10B_RS21095"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418388.1"; locus_tag "ECDH10B_RS21095"; product "PTS fructose-like transporter subunit IIB"; protein_id "WP_000323846.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4245197 4245199 . + 0 gene_id "ECDH10B_RS21095"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418388.1"; locus_tag "ECDH10B_RS21095"; product "PTS fructose-like transporter subunit IIB"; protein_id "WP_000323846.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4245186 4246037 . - . gene_id "ECDH10B_RS21100"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21100"; old_locus_tag "ECDH10B_4142"; -NC_010473.1 Protein Homology CDS 4245189 4246037 . - 0 gene_id "ECDH10B_RS21100"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418389.1"; locus_tag "ECDH10B_RS21100"; product "helix-turn-helix domain-containing protein"; protein_id "WP_000274636.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4246035 4246037 . - 0 gene_id "ECDH10B_RS21100"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418389.1"; locus_tag "ECDH10B_RS21100"; product "helix-turn-helix domain-containing protein"; protein_id "WP_000274636.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4245186 4245188 . - 0 gene_id "ECDH10B_RS21100"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418389.1"; locus_tag "ECDH10B_RS21100"; product "helix-turn-helix domain-containing protein"; protein_id "WP_000274636.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4246252 4247985 . - . gene_id "ECDH10B_RS21105"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21105"; old_locus_tag "ECDH10B_4143"; -NC_010473.1 Protein Homology CDS 4246255 4247985 . - 0 gene_id "ECDH10B_RS21105"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418390.1"; locus_tag "ECDH10B_RS21105"; product "phosphoethanolamine transferase CptA"; protein_id "WP_000556306.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4247983 4247985 . - 0 gene_id "ECDH10B_RS21105"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418390.1"; locus_tag "ECDH10B_RS21105"; product "phosphoethanolamine transferase CptA"; protein_id "WP_000556306.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4246252 4246254 . - 0 gene_id "ECDH10B_RS21105"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418390.1"; locus_tag "ECDH10B_RS21105"; product "phosphoethanolamine transferase CptA"; protein_id "WP_000556306.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4248167 4250818 . - . gene_id "ECDH10B_RS21110"; transcript_id ""; gbkey "Gene"; gene "ppc"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21110"; old_locus_tag "ECDH10B_4144"; -NC_010473.1 Protein Homology CDS 4248170 4250818 . - 0 gene_id "ECDH10B_RS21110"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ppc"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_004203687.1"; locus_tag "ECDH10B_RS21110"; product "phosphoenolpyruvate carboxylase"; protein_id "WP_001005586.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4250816 4250818 . - 0 gene_id "ECDH10B_RS21110"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ppc"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_004203687.1"; locus_tag "ECDH10B_RS21110"; product "phosphoenolpyruvate carboxylase"; protein_id "WP_001005586.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4248167 4248169 . - 0 gene_id "ECDH10B_RS21110"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ppc"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_004203687.1"; locus_tag "ECDH10B_RS21110"; product "phosphoenolpyruvate carboxylase"; protein_id "WP_001005586.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4251416 4252567 . - . gene_id "ECDH10B_RS21120"; transcript_id ""; gbkey "Gene"; gene "argE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21120"; old_locus_tag "ECDH10B_4145"; -NC_010473.1 Protein Homology CDS 4251419 4252567 . - 0 gene_id "ECDH10B_RS21120"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "argE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418392.1"; locus_tag "ECDH10B_RS21120"; product "acetylornithine deacetylase"; protein_id "WP_001298964.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4252565 4252567 . - 0 gene_id "ECDH10B_RS21120"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "argE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418392.1"; locus_tag "ECDH10B_RS21120"; product "acetylornithine deacetylase"; protein_id "WP_001298964.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4251416 4251418 . - 0 gene_id "ECDH10B_RS21120"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "argE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418392.1"; locus_tag "ECDH10B_RS21120"; product "acetylornithine deacetylase"; protein_id "WP_001298964.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4252721 4253725 . + . gene_id "ECDH10B_RS21125"; transcript_id ""; gbkey "Gene"; gene "argC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21125"; old_locus_tag "ECDH10B_4146"; -NC_010473.1 Protein Homology CDS 4252721 4253722 . + 0 gene_id "ECDH10B_RS21125"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "argC"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005122770.1"; locus_tag "ECDH10B_RS21125"; product "N-acetyl-gamma-glutamyl-phosphate reductase"; protein_id "WP_000935370.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4252721 4252723 . + 0 gene_id "ECDH10B_RS21125"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "argC"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005122770.1"; locus_tag "ECDH10B_RS21125"; product "N-acetyl-gamma-glutamyl-phosphate reductase"; protein_id "WP_000935370.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4253723 4253725 . + 0 gene_id "ECDH10B_RS21125"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "argC"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005122770.1"; locus_tag "ECDH10B_RS21125"; product "N-acetyl-gamma-glutamyl-phosphate reductase"; protein_id "WP_000935370.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4253733 4254509 . + . gene_id "ECDH10B_RS21130"; transcript_id ""; gbkey "Gene"; gene "argB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21130"; old_locus_tag "ECDH10B_4147"; -NC_010473.1 Protein Homology CDS 4253733 4254506 . + 0 gene_id "ECDH10B_RS21130"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "argB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418394.3"; locus_tag "ECDH10B_RS21130"; product "acetylglutamate kinase"; protein_id "WP_001302318.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4253733 4253735 . + 0 gene_id "ECDH10B_RS21130"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "argB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418394.3"; locus_tag "ECDH10B_RS21130"; product "acetylglutamate kinase"; protein_id "WP_001302318.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4254507 4254509 . + 0 gene_id "ECDH10B_RS21130"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "argB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418394.3"; locus_tag "ECDH10B_RS21130"; product "acetylglutamate kinase"; protein_id "WP_001302318.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4254570 4255943 . + . gene_id "ECDH10B_RS21135"; transcript_id ""; gbkey "Gene"; gene "argH"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21135"; old_locus_tag "ECDH10B_4148"; -NC_010473.1 Protein Homology CDS 4254570 4255940 . + 0 gene_id "ECDH10B_RS21135"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "argH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418395.1"; locus_tag "ECDH10B_RS21135"; product "argininosuccinate lyase"; protein_id "WP_001230087.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4254570 4254572 . + 0 gene_id "ECDH10B_RS21135"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "argH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418395.1"; locus_tag "ECDH10B_RS21135"; product "argininosuccinate lyase"; protein_id "WP_001230087.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4255941 4255943 . + 0 gene_id "ECDH10B_RS21135"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "argH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418395.1"; locus_tag "ECDH10B_RS21135"; product "argininosuccinate lyase"; protein_id "WP_001230087.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4256210 4257127 . + . gene_id "ECDH10B_RS21140"; transcript_id ""; gbkey "Gene"; gene "oxyR"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21140"; old_locus_tag "ECDH10B_4150"; -NC_010473.1 Protein Homology CDS 4256210 4257124 . + 0 gene_id "ECDH10B_RS21140"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "oxyR"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_016831323.1"; locus_tag "ECDH10B_RS21140"; product "DNA-binding transcriptional regulator OxyR"; protein_id "WP_001025939.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4256210 4256212 . + 0 gene_id "ECDH10B_RS21140"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "oxyR"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_016831323.1"; locus_tag "ECDH10B_RS21140"; product "DNA-binding transcriptional regulator OxyR"; protein_id "WP_001025939.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4257125 4257127 . + 0 gene_id "ECDH10B_RS21140"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "oxyR"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_016831323.1"; locus_tag "ECDH10B_RS21140"; product "DNA-binding transcriptional regulator OxyR"; protein_id "WP_001025939.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4257110 4258510 . - . gene_id "ECDH10B_RS21145"; transcript_id ""; gbkey "Gene"; gene "sthA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21145"; old_locus_tag "ECDH10B_4151"; -NC_010473.1 Protein Homology CDS 4257113 4258510 . - 0 gene_id "ECDH10B_RS21145"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sthA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418397.2"; locus_tag "ECDH10B_RS21145"; product "Si-specific NAD(P)(+) transhydrogenase"; protein_id "WP_001120810.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4258508 4258510 . - 0 gene_id "ECDH10B_RS21145"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sthA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418397.2"; locus_tag "ECDH10B_RS21145"; product "Si-specific NAD(P)(+) transhydrogenase"; protein_id "WP_001120810.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4257110 4257112 . - 0 gene_id "ECDH10B_RS21145"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sthA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418397.2"; locus_tag "ECDH10B_RS21145"; product "Si-specific NAD(P)(+) transhydrogenase"; protein_id "WP_001120810.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4258841 4259491 . + . gene_id "ECDH10B_RS21150"; transcript_id ""; gbkey "Gene"; gene "fabR"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21150"; old_locus_tag "ECDH10B_4152"; -NC_010473.1 Protein Homology CDS 4258841 4259488 . + 0 gene_id "ECDH10B_RS21150"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fabR"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_002460670.1"; locus_tag "ECDH10B_RS21150"; product "HTH-type transcriptional repressor FabR"; protein_id "WP_001309117.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4258841 4258843 . + 0 gene_id "ECDH10B_RS21150"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fabR"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_002460670.1"; locus_tag "ECDH10B_RS21150"; product "HTH-type transcriptional repressor FabR"; protein_id "WP_001309117.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4259489 4259491 . + 0 gene_id "ECDH10B_RS21150"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fabR"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_002460670.1"; locus_tag "ECDH10B_RS21150"; product "HTH-type transcriptional repressor FabR"; protein_id "WP_001309117.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4259491 4259850 . + . gene_id "ECDH10B_RS21155"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21155"; old_locus_tag "ECDH10B_4153"; -NC_010473.1 Protein Homology CDS 4259491 4259847 . + 0 gene_id "ECDH10B_RS21155"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312922.1"; locus_tag "ECDH10B_RS21155"; product "YijD family membrane protein"; protein_id "WP_000806411.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4259491 4259493 . + 0 gene_id "ECDH10B_RS21155"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312922.1"; locus_tag "ECDH10B_RS21155"; product "YijD family membrane protein"; protein_id "WP_000806411.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4259848 4259850 . + 0 gene_id "ECDH10B_RS21155"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312922.1"; locus_tag "ECDH10B_RS21155"; product "YijD family membrane protein"; protein_id "WP_000806411.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4259890 4260990 . - . gene_id "ECDH10B_RS21160"; transcript_id ""; gbkey "Gene"; gene "trmA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21160"; old_locus_tag "ECDH10B_4154"; -NC_010473.1 Protein Homology CDS 4259893 4260990 . - 0 gene_id "ECDH10B_RS21160"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "trmA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418400.1"; locus_tag "ECDH10B_RS21160"; product "tRNA (uridine(54)-C5)-methyltransferase TrmA"; protein_id "WP_000187022.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4260988 4260990 . - 0 gene_id "ECDH10B_RS21160"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "trmA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418400.1"; locus_tag "ECDH10B_RS21160"; product "tRNA (uridine(54)-C5)-methyltransferase TrmA"; protein_id "WP_000187022.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4259890 4259892 . - 0 gene_id "ECDH10B_RS21160"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "trmA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418400.1"; locus_tag "ECDH10B_RS21160"; product "tRNA (uridine(54)-C5)-methyltransferase TrmA"; protein_id "WP_000187022.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4261359 4263203 . + . gene_id "ECDH10B_RS21165"; transcript_id ""; gbkey "Gene"; gene "btuB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21165"; old_locus_tag "ECDH10B_4155"; -NC_010473.1 Protein Homology CDS 4261359 4263200 . + 0 gene_id "ECDH10B_RS21165"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "btuB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418401.1"; locus_tag "ECDH10B_RS21165"; product "TonB-dependent vitamin B12 receptor BtuB"; protein_id "WP_000591359.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4261359 4261361 . + 0 gene_id "ECDH10B_RS21165"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "btuB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418401.1"; locus_tag "ECDH10B_RS21165"; product "TonB-dependent vitamin B12 receptor BtuB"; protein_id "WP_000591359.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4263201 4263203 . + 0 gene_id "ECDH10B_RS21165"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "btuB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418401.1"; locus_tag "ECDH10B_RS21165"; product "TonB-dependent vitamin B12 receptor BtuB"; protein_id "WP_000591359.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4263148 4264005 . + . gene_id "ECDH10B_RS21170"; transcript_id ""; gbkey "Gene"; gene "murI"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21170"; old_locus_tag "ECDH10B_4156"; -NC_010473.1 Protein Homology CDS 4263148 4264002 . + 0 gene_id "ECDH10B_RS21170"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "murI"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418402.2"; locus_tag "ECDH10B_RS21170"; product "glutamate racemase"; protein_id "WP_000201820.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4263148 4263150 . + 0 gene_id "ECDH10B_RS21170"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "murI"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418402.2"; locus_tag "ECDH10B_RS21170"; product "glutamate racemase"; protein_id "WP_000201820.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4264003 4264005 . + 0 gene_id "ECDH10B_RS21170"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "murI"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418402.2"; locus_tag "ECDH10B_RS21170"; product "glutamate racemase"; protein_id "WP_000201820.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4264379 4265920 . + . gene_id "ECDH10B_RS21175"; transcript_id ""; gbkey "Gene"; gene_biotype "rRNA"; locus_tag "ECDH10B_RS21175"; old_locus_tag "ECDH10B_4157"; -NC_010473.1 cmsearch exon 4264379 4265920 . + . gene_id "ECDH10B_RS21175"; transcript_id "ECDH10B_RS21175"; db_xref "RFAM:RF00177"; gbkey "rRNA"; inference "COORDINATES: nucleotide motif:Rfam:12.0:RF00177"; inference "COORDINATES: profile:INFERNAL:1.1.1"; locus_tag "ECDH10B_RS21175"; product "16S ribosomal RNA"; exon_number "1"; -NC_010473.1 RefSeq gene 4266092 4266167 . + . gene_id "ECDH10B_RS21180"; transcript_id ""; gbkey "Gene"; gene_biotype "tRNA"; locus_tag "ECDH10B_RS21180"; old_locus_tag "ECDH10B_4158"; -NC_010473.1 tRNAscan-SE exon 4266092 4266167 . + . gene_id "ECDH10B_RS21180"; transcript_id "ECDH10B_RS21180"; anticodon "(pos:4266126..4266128)"; gbkey "tRNA"; inference "COORDINATES: profile:tRNAscan-SE:2.0.6"; locus_tag "ECDH10B_RS21180"; product "tRNA-Glu"; exon_number "1"; -NC_010473.1 RefSeq gene 4266361 4269264 . + . gene_id "ECDH10B_RS21185"; transcript_id ""; gbkey "Gene"; gene_biotype "rRNA"; locus_tag "ECDH10B_RS21185"; old_locus_tag "ECDH10B_4159"; -NC_010473.1 cmsearch exon 4266361 4269264 . + . gene_id "ECDH10B_RS21185"; transcript_id "ECDH10B_RS21185"; db_xref "RFAM:RF02541"; gbkey "rRNA"; inference "COORDINATES: nucleotide motif:Rfam:12.0:RF02541"; inference "COORDINATES: profile:INFERNAL:1.1.1"; locus_tag "ECDH10B_RS21185"; product "23S ribosomal RNA"; exon_number "1"; -NC_010473.1 RefSeq gene 4269359 4269474 . + . gene_id "ECDH10B_RS21190"; transcript_id ""; gbkey "Gene"; gene "rrf"; gene_biotype "rRNA"; locus_tag "ECDH10B_RS21190"; old_locus_tag "ECDH10B_4160"; -NC_010473.1 cmsearch exon 4269359 4269474 . + . gene_id "ECDH10B_RS21190"; transcript_id "ECDH10B_RS21190"; db_xref "RFAM:RF00001"; gbkey "rRNA"; gene "rrf"; inference "COORDINATES: nucleotide motif:Rfam:12.0:RF00001"; inference "COORDINATES: profile:INFERNAL:1.1.1"; locus_tag "ECDH10B_RS21190"; product "5S ribosomal RNA"; exon_number "1"; -NC_010473.1 RefSeq gene 4269777 4270805 . + . gene_id "ECDH10B_RS21195"; transcript_id ""; gbkey "Gene"; gene "murB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21195"; old_locus_tag "ECDH10B_4161"; -NC_010473.1 Protein Homology CDS 4269777 4270802 . + 0 gene_id "ECDH10B_RS21195"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "murB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418403.1"; locus_tag "ECDH10B_RS21195"; product "UDP-N-acetylmuramate dehydrogenase"; protein_id "WP_001016699.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4269777 4269779 . + 0 gene_id "ECDH10B_RS21195"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "murB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418403.1"; locus_tag "ECDH10B_RS21195"; product "UDP-N-acetylmuramate dehydrogenase"; protein_id "WP_001016699.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4270803 4270805 . + 0 gene_id "ECDH10B_RS21195"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "murB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418403.1"; locus_tag "ECDH10B_RS21195"; product "UDP-N-acetylmuramate dehydrogenase"; protein_id "WP_001016699.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4270802 4271767 . + . gene_id "ECDH10B_RS21200"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21200"; old_locus_tag "ECDH10B_4162"; -NC_010473.1 Protein Homology CDS 4270802 4271764 . + 0 gene_id "ECDH10B_RS21200"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418404.1"; locus_tag "ECDH10B_RS21200"; product "bifunctional biotin--[acetyl-CoA-carboxylase] synthetase/biotin operon repressor"; protein_id "WP_000654630.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4270802 4270804 . + 0 gene_id "ECDH10B_RS21200"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418404.1"; locus_tag "ECDH10B_RS21200"; product "bifunctional biotin--[acetyl-CoA-carboxylase] synthetase/biotin operon repressor"; protein_id "WP_000654630.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4271765 4271767 . + 0 gene_id "ECDH10B_RS21200"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418404.1"; locus_tag "ECDH10B_RS21200"; product "bifunctional biotin--[acetyl-CoA-carboxylase] synthetase/biotin operon repressor"; protein_id "WP_000654630.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4271796 4272746 . - . gene_id "ECDH10B_RS21205"; transcript_id ""; gbkey "Gene"; gene "coaA"; gene_biotype "protein_coding"; gene_synonym "panK"; locus_tag "ECDH10B_RS21205"; old_locus_tag "ECDH10B_4163"; -NC_010473.1 Protein Homology CDS 4271799 4272746 . - 0 gene_id "ECDH10B_RS21205"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "coaA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418405.1"; locus_tag "ECDH10B_RS21205"; product "type I pantothenate kinase"; protein_id "WP_000023081.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4272744 4272746 . - 0 gene_id "ECDH10B_RS21205"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "coaA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418405.1"; locus_tag "ECDH10B_RS21205"; product "type I pantothenate kinase"; protein_id "WP_000023081.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4271796 4271798 . - 0 gene_id "ECDH10B_RS21205"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "coaA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418405.1"; locus_tag "ECDH10B_RS21205"; product "type I pantothenate kinase"; protein_id "WP_000023081.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4273107 4273182 . + . gene_id "ECDH10B_RS21215"; transcript_id ""; gbkey "Gene"; gene_biotype "tRNA"; locus_tag "ECDH10B_RS21215"; old_locus_tag "ECDH10B_4164"; -NC_010473.1 tRNAscan-SE exon 4273107 4273182 . + . gene_id "ECDH10B_RS21215"; transcript_id "ECDH10B_RS21215"; anticodon "(pos:4273140..4273142)"; gbkey "tRNA"; inference "COORDINATES: profile:tRNAscan-SE:2.0.6"; locus_tag "ECDH10B_RS21215"; product "tRNA-Thr"; exon_number "1"; -NC_010473.1 RefSeq gene 4273191 4273275 . + . gene_id "ECDH10B_RS21220"; transcript_id ""; gbkey "Gene"; gene_biotype "tRNA"; locus_tag "ECDH10B_RS21220"; old_locus_tag "ECDH10B_4165"; -NC_010473.1 tRNAscan-SE exon 4273191 4273275 . + . gene_id "ECDH10B_RS21220"; transcript_id "ECDH10B_RS21220"; anticodon "(pos:4273225..4273227)"; gbkey "tRNA"; inference "COORDINATES: profile:tRNAscan-SE:2.0.6"; locus_tag "ECDH10B_RS21220"; product "tRNA-Tyr"; exon_number "1"; -NC_010473.1 RefSeq gene 4273392 4273466 . + . gene_id "ECDH10B_RS21225"; transcript_id ""; gbkey "Gene"; gene_biotype "tRNA"; locus_tag "ECDH10B_RS21225"; old_locus_tag "ECDH10B_4166"; -NC_010473.1 tRNAscan-SE exon 4273392 4273466 . + . gene_id "ECDH10B_RS21225"; transcript_id "ECDH10B_RS21225"; anticodon "(pos:4273425..4273427)"; gbkey "tRNA"; inference "COORDINATES: profile:tRNAscan-SE:2.0.6"; locus_tag "ECDH10B_RS21225"; product "tRNA-Gly"; exon_number "1"; -NC_010473.1 RefSeq gene 4273473 4273548 . + . gene_id "ECDH10B_RS21230"; transcript_id ""; gbkey "Gene"; gene_biotype "tRNA"; locus_tag "ECDH10B_RS21230"; old_locus_tag "ECDH10B_4167"; -NC_010473.1 tRNAscan-SE exon 4273473 4273548 . + . gene_id "ECDH10B_RS21230"; transcript_id "ECDH10B_RS21230"; anticodon "(pos:4273506..4273508)"; gbkey "tRNA"; inference "COORDINATES: profile:tRNAscan-SE:2.0.6"; locus_tag "ECDH10B_RS21230"; product "tRNA-Thr"; exon_number "1"; -NC_010473.1 RefSeq gene 4273663 4274847 . + . gene_id "ECDH10B_RS21235"; transcript_id ""; gbkey "Gene"; gene "tuf"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21235"; old_locus_tag "ECDH10B_4168"; -NC_010473.1 Protein Homology CDS 4273663 4274844 . + 0 gene_id "ECDH10B_RS21235"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tuf"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312930.1"; locus_tag "ECDH10B_RS21235"; product "elongation factor Tu"; protein_id "WP_000031784.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4273663 4273665 . + 0 gene_id "ECDH10B_RS21235"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tuf"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312930.1"; locus_tag "ECDH10B_RS21235"; product "elongation factor Tu"; protein_id "WP_000031784.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4274845 4274847 . + 0 gene_id "ECDH10B_RS21235"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tuf"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312930.1"; locus_tag "ECDH10B_RS21235"; product "elongation factor Tu"; protein_id "WP_000031784.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4275077 4275460 . + . gene_id "ECDH10B_RS21240"; transcript_id ""; gbkey "Gene"; gene "secE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21240"; old_locus_tag "ECDH10B_4169"; -NC_010473.1 Protein Homology CDS 4275077 4275457 . + 0 gene_id "ECDH10B_RS21240"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "secE"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_007665874.1"; locus_tag "ECDH10B_RS21240"; product "preprotein translocase subunit SecE"; protein_id "WP_001275702.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4275077 4275079 . + 0 gene_id "ECDH10B_RS21240"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "secE"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_007665874.1"; locus_tag "ECDH10B_RS21240"; product "preprotein translocase subunit SecE"; protein_id "WP_001275702.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4275458 4275460 . + 0 gene_id "ECDH10B_RS21240"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "secE"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_007665874.1"; locus_tag "ECDH10B_RS21240"; product "preprotein translocase subunit SecE"; protein_id "WP_001275702.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4275462 4276007 . + . gene_id "ECDH10B_RS21245"; transcript_id ""; gbkey "Gene"; gene "nusG"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21245"; old_locus_tag "ECDH10B_4170"; -NC_010473.1 Protein Homology CDS 4275462 4276004 . + 0 gene_id "ECDH10B_RS21245"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nusG"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005280494.1"; locus_tag "ECDH10B_RS21245"; product "transcription termination/antitermination protein NusG"; protein_id "WP_001287516.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4275462 4275464 . + 0 gene_id "ECDH10B_RS21245"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nusG"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005280494.1"; locus_tag "ECDH10B_RS21245"; product "transcription termination/antitermination protein NusG"; protein_id "WP_001287516.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4276005 4276007 . + 0 gene_id "ECDH10B_RS21245"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nusG"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005280494.1"; locus_tag "ECDH10B_RS21245"; product "transcription termination/antitermination protein NusG"; protein_id "WP_001287516.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4276166 4276594 . + . gene_id "ECDH10B_RS21250"; transcript_id ""; gbkey "Gene"; gene "rplK"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21250"; old_locus_tag "ECDH10B_4171"; -NC_010473.1 Protein Homology CDS 4276166 4276591 . + 0 gene_id "ECDH10B_RS21250"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rplK"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_006121495.1"; locus_tag "ECDH10B_RS21250"; product "50S ribosomal protein L11"; protein_id "WP_001085926.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4276166 4276168 . + 0 gene_id "ECDH10B_RS21250"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rplK"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_006121495.1"; locus_tag "ECDH10B_RS21250"; product "50S ribosomal protein L11"; protein_id "WP_001085926.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4276592 4276594 . + 0 gene_id "ECDH10B_RS21250"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rplK"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_006121495.1"; locus_tag "ECDH10B_RS21250"; product "50S ribosomal protein L11"; protein_id "WP_001085926.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4276598 4277302 . + . gene_id "ECDH10B_RS21255"; transcript_id ""; gbkey "Gene"; gene "rplA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21255"; old_locus_tag "ECDH10B_4172"; -NC_010473.1 Protein Homology CDS 4276598 4277299 . + 0 gene_id "ECDH10B_RS21255"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rplA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312934.1"; locus_tag "ECDH10B_RS21255"; product "50S ribosomal protein L1"; protein_id "WP_001096684.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4276598 4276600 . + 0 gene_id "ECDH10B_RS21255"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rplA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312934.1"; locus_tag "ECDH10B_RS21255"; product "50S ribosomal protein L1"; protein_id "WP_001096684.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4277300 4277302 . + 0 gene_id "ECDH10B_RS21255"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rplA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312934.1"; locus_tag "ECDH10B_RS21255"; product "50S ribosomal protein L1"; protein_id "WP_001096684.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4277715 4278212 . + . gene_id "ECDH10B_RS21260"; transcript_id ""; gbkey "Gene"; gene "rplJ"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21260"; old_locus_tag "ECDH10B_4173"; -NC_010473.1 Protein Homology CDS 4277715 4278209 . + 0 gene_id "ECDH10B_RS21260"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rplJ"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_002438625.1"; locus_tag "ECDH10B_RS21260"; product "50S ribosomal protein L10"; protein_id "WP_001207201.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4277715 4277717 . + 0 gene_id "ECDH10B_RS21260"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rplJ"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_002438625.1"; locus_tag "ECDH10B_RS21260"; product "50S ribosomal protein L10"; protein_id "WP_001207201.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4278210 4278212 . + 0 gene_id "ECDH10B_RS21260"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rplJ"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_002438625.1"; locus_tag "ECDH10B_RS21260"; product "50S ribosomal protein L10"; protein_id "WP_001207201.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4278279 4278644 . + . gene_id "ECDH10B_RS21265"; transcript_id ""; gbkey "Gene"; gene "rplL"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21265"; old_locus_tag "ECDH10B_4174"; -NC_010473.1 Protein Homology CDS 4278279 4278641 . + 0 gene_id "ECDH10B_RS21265"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rplL"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005122872.1"; locus_tag "ECDH10B_RS21265"; product "50S ribosomal protein L7/L12"; protein_id "WP_000028878.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4278279 4278281 . + 0 gene_id "ECDH10B_RS21265"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rplL"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005122872.1"; locus_tag "ECDH10B_RS21265"; product "50S ribosomal protein L7/L12"; protein_id "WP_000028878.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4278642 4278644 . + 0 gene_id "ECDH10B_RS21265"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rplL"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005122872.1"; locus_tag "ECDH10B_RS21265"; product "50S ribosomal protein L7/L12"; protein_id "WP_000028878.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4278964 4282992 . + . gene_id "ECDH10B_RS21270"; transcript_id ""; gbkey "Gene"; gene "rpoB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21270"; old_locus_tag "ECDH10B_4175"; -NC_010473.1 Protein Homology CDS 4278964 4282989 . + 0 gene_id "ECDH10B_RS21270"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rpoB"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_004870488.1"; locus_tag "ECDH10B_RS21270"; product "DNA-directed RNA polymerase subunit beta"; protein_id "WP_000263098.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4278964 4278966 . + 0 gene_id "ECDH10B_RS21270"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rpoB"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_004870488.1"; locus_tag "ECDH10B_RS21270"; product "DNA-directed RNA polymerase subunit beta"; protein_id "WP_000263098.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4282990 4282992 . + 0 gene_id "ECDH10B_RS21270"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rpoB"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_004870488.1"; locus_tag "ECDH10B_RS21270"; product "DNA-directed RNA polymerase subunit beta"; protein_id "WP_000263098.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4283069 4287292 . + . gene_id "ECDH10B_RS21275"; transcript_id ""; gbkey "Gene"; gene "rpoC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21275"; old_locus_tag "ECDH10B_4176"; -NC_010473.1 Protein Homology CDS 4283069 4287289 . + 0 gene_id "ECDH10B_RS21275"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rpoC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312938.1"; locus_tag "ECDH10B_RS21275"; product "DNA-directed RNA polymerase subunit beta'"; protein_id "WP_000653944.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4283069 4283071 . + 0 gene_id "ECDH10B_RS21275"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rpoC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312938.1"; locus_tag "ECDH10B_RS21275"; product "DNA-directed RNA polymerase subunit beta'"; protein_id "WP_000653944.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4287290 4287292 . + 0 gene_id "ECDH10B_RS21275"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rpoC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312938.1"; locus_tag "ECDH10B_RS21275"; product "DNA-directed RNA polymerase subunit beta'"; protein_id "WP_000653944.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4287505 4288044 . + . gene_id "ECDH10B_RS21280"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21280"; old_locus_tag "ECDH10B_4177"; -NC_010473.1 Protein Homology CDS 4287505 4288041 . + 0 gene_id "ECDH10B_RS21280"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418416.1"; locus_tag "ECDH10B_RS21280"; product "heat-shock protein C"; protein_id "WP_001307500.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4287505 4287507 . + 0 gene_id "ECDH10B_RS21280"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418416.1"; locus_tag "ECDH10B_RS21280"; product "heat-shock protein C"; protein_id "WP_001307500.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4288042 4288044 . + 0 gene_id "ECDH10B_RS21280"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418416.1"; locus_tag "ECDH10B_RS21280"; product "heat-shock protein C"; protein_id "WP_001307500.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4288454 4289587 . - . gene_id "ECDH10B_RS21285"; transcript_id ""; gbkey "Gene"; gene "thiH"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21285"; old_locus_tag "ECDH10B_4178"; -NC_010473.1 Protein Homology CDS 4288457 4289587 . - 0 gene_id "ECDH10B_RS21285"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "thiH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418417.1"; locus_tag "ECDH10B_RS21285"; product "2-iminoacetate synthase ThiH"; protein_id "WP_000847447.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4289585 4289587 . - 0 gene_id "ECDH10B_RS21285"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "thiH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418417.1"; locus_tag "ECDH10B_RS21285"; product "2-iminoacetate synthase ThiH"; protein_id "WP_000847447.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4288454 4288456 . - 0 gene_id "ECDH10B_RS21285"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "thiH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418417.1"; locus_tag "ECDH10B_RS21285"; product "2-iminoacetate synthase ThiH"; protein_id "WP_000847447.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4289584 4290354 . - . gene_id "ECDH10B_RS21290"; transcript_id ""; gbkey "Gene"; gene "thiG"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21290"; old_locus_tag "ECDH10B_4179"; -NC_010473.1 Protein Homology CDS 4289587 4290354 . - 0 gene_id "ECDH10B_RS21290"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "thiG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418418.2"; locus_tag "ECDH10B_RS21290"; product "thiazole synthase"; protein_id "WP_000944104.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4290352 4290354 . - 0 gene_id "ECDH10B_RS21290"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "thiG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418418.2"; locus_tag "ECDH10B_RS21290"; product "thiazole synthase"; protein_id "WP_000944104.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4289584 4289586 . - 0 gene_id "ECDH10B_RS21290"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "thiG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418418.2"; locus_tag "ECDH10B_RS21290"; product "thiazole synthase"; protein_id "WP_000944104.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4290356 4290556 . - . gene_id "ECDH10B_RS21295"; transcript_id ""; gbkey "Gene"; gene "thiS"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21295"; old_locus_tag "ECDH10B_4180"; -NC_010473.1 Protein Homology CDS 4290359 4290556 . - 0 gene_id "ECDH10B_RS21295"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "thiS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026279.1"; locus_tag "ECDH10B_RS21295"; product "sulfur carrier protein ThiS"; protein_id "WP_001166226.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4290554 4290556 . - 0 gene_id "ECDH10B_RS21295"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "thiS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026279.1"; locus_tag "ECDH10B_RS21295"; product "sulfur carrier protein ThiS"; protein_id "WP_001166226.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4290356 4290358 . - 0 gene_id "ECDH10B_RS21295"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "thiS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026279.1"; locus_tag "ECDH10B_RS21295"; product "sulfur carrier protein ThiS"; protein_id "WP_001166226.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4290540 4291295 . - . gene_id "ECDH10B_RS21300"; transcript_id ""; gbkey "Gene"; gene "thiF"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21300"; old_locus_tag "ECDH10B_4181"; -NC_010473.1 Protein Homology CDS 4290543 4291295 . - 0 gene_id "ECDH10B_RS21300"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "thiF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418420.4"; locus_tag "ECDH10B_RS21300"; product "thiazole biosynthesis adenylyltransferase ThiF"; protein_id "WP_000999737.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4291293 4291295 . - 0 gene_id "ECDH10B_RS21300"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "thiF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418420.4"; locus_tag "ECDH10B_RS21300"; product "thiazole biosynthesis adenylyltransferase ThiF"; protein_id "WP_000999737.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4290540 4290542 . - 0 gene_id "ECDH10B_RS21300"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "thiF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418420.4"; locus_tag "ECDH10B_RS21300"; product "thiazole biosynthesis adenylyltransferase ThiF"; protein_id "WP_000999737.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4291288 4291923 . - . gene_id "ECDH10B_RS21305"; transcript_id ""; gbkey "Gene"; gene "thiE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21305"; old_locus_tag "ECDH10B_4182"; -NC_010473.1 Protein Homology CDS 4291291 4291923 . - 0 gene_id "ECDH10B_RS21305"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "thiE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418421.1"; locus_tag "ECDH10B_RS21305"; product "thiamine phosphate synthase"; protein_id "WP_000284615.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4291921 4291923 . - 0 gene_id "ECDH10B_RS21305"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "thiE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418421.1"; locus_tag "ECDH10B_RS21305"; product "thiamine phosphate synthase"; protein_id "WP_000284615.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4291288 4291290 . - 0 gene_id "ECDH10B_RS21305"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "thiE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418421.1"; locus_tag "ECDH10B_RS21305"; product "thiamine phosphate synthase"; protein_id "WP_000284615.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4291923 4293818 . - . gene_id "ECDH10B_RS21310"; transcript_id ""; gbkey "Gene"; gene "thiC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21310"; old_locus_tag "ECDH10B_4183"; -NC_010473.1 Protein Homology CDS 4291926 4293818 . - 0 gene_id "ECDH10B_RS21310"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "thiC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418422.1"; locus_tag "ECDH10B_RS21310"; product "phosphomethylpyrimidine synthase ThiC"; protein_id "WP_001276926.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4293816 4293818 . - 0 gene_id "ECDH10B_RS21310"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "thiC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418422.1"; locus_tag "ECDH10B_RS21310"; product "phosphomethylpyrimidine synthase ThiC"; protein_id "WP_001276926.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4291923 4291925 . - 0 gene_id "ECDH10B_RS21310"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "thiC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418422.1"; locus_tag "ECDH10B_RS21310"; product "phosphomethylpyrimidine synthase ThiC"; protein_id "WP_001276926.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4294051 4294527 . - . gene_id "ECDH10B_RS21315"; transcript_id ""; gbkey "Gene"; gene "rsd"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21315"; old_locus_tag "ECDH10B_4184"; -NC_010473.1 Protein Homology CDS 4294054 4294527 . - 0 gene_id "ECDH10B_RS21315"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rsd"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312945.1"; locus_tag "ECDH10B_RS21315"; product "sigma D regulator"; protein_id "WP_000934302.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4294525 4294527 . - 0 gene_id "ECDH10B_RS21315"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rsd"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312945.1"; locus_tag "ECDH10B_RS21315"; product "sigma D regulator"; protein_id "WP_000934302.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4294051 4294053 . - 0 gene_id "ECDH10B_RS21315"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rsd"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312945.1"; locus_tag "ECDH10B_RS21315"; product "sigma D regulator"; protein_id "WP_000934302.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4294622 4295395 . + . gene_id "ECDH10B_RS21320"; transcript_id ""; gbkey "Gene"; gene "nudC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21320"; old_locus_tag "ECDH10B_4185"; -NC_010473.1 Protein Homology CDS 4294622 4295392 . + 0 gene_id "ECDH10B_RS21320"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nudC"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026280.1"; locus_tag "ECDH10B_RS21320"; product "NAD(+) diphosphatase"; protein_id "WP_000373940.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4294622 4294624 . + 0 gene_id "ECDH10B_RS21320"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nudC"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026280.1"; locus_tag "ECDH10B_RS21320"; product "NAD(+) diphosphatase"; protein_id "WP_000373940.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4295393 4295395 . + 0 gene_id "ECDH10B_RS21320"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nudC"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026280.1"; locus_tag "ECDH10B_RS21320"; product "NAD(+) diphosphatase"; protein_id "WP_000373940.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4295435 4296499 . + . gene_id "ECDH10B_RS21325"; transcript_id ""; gbkey "Gene"; gene "hemE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21325"; old_locus_tag "ECDH10B_4186"; -NC_010473.1 Protein Homology CDS 4295435 4296496 . + 0 gene_id "ECDH10B_RS21325"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hemE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418425.1"; locus_tag "ECDH10B_RS21325"; product "uroporphyrinogen decarboxylase"; protein_id "WP_000137657.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4295435 4295437 . + 0 gene_id "ECDH10B_RS21325"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hemE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418425.1"; locus_tag "ECDH10B_RS21325"; product "uroporphyrinogen decarboxylase"; protein_id "WP_000137657.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4296497 4296499 . + 0 gene_id "ECDH10B_RS21325"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hemE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418425.1"; locus_tag "ECDH10B_RS21325"; product "uroporphyrinogen decarboxylase"; protein_id "WP_000137657.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4296509 4297180 . + . gene_id "ECDH10B_RS21330"; transcript_id ""; gbkey "Gene"; gene "nfi"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21330"; old_locus_tag "ECDH10B_4187"; -NC_010473.1 Protein Homology CDS 4296509 4297177 . + 0 gene_id "ECDH10B_RS21330"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nfi"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312948.1"; locus_tag "ECDH10B_RS21330"; product "deoxyribonuclease V"; protein_id "WP_000362388.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4296509 4296511 . + 0 gene_id "ECDH10B_RS21330"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nfi"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312948.1"; locus_tag "ECDH10B_RS21330"; product "deoxyribonuclease V"; protein_id "WP_000362388.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4297178 4297180 . + 0 gene_id "ECDH10B_RS21330"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nfi"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312948.1"; locus_tag "ECDH10B_RS21330"; product "deoxyribonuclease V"; protein_id "WP_000362388.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4297223 4297813 . + . gene_id "ECDH10B_RS21335"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21335"; old_locus_tag "ECDH10B_4188"; -NC_010473.1 Protein Homology CDS 4297223 4297810 . + 0 gene_id "ECDH10B_RS21335"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418427.1"; locus_tag "ECDH10B_RS21335"; product "YjaG family protein"; protein_id "WP_000940106.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4297223 4297225 . + 0 gene_id "ECDH10B_RS21335"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418427.1"; locus_tag "ECDH10B_RS21335"; product "YjaG family protein"; protein_id "WP_000940106.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4297811 4297813 . + 0 gene_id "ECDH10B_RS21335"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418427.1"; locus_tag "ECDH10B_RS21335"; product "YjaG family protein"; protein_id "WP_000940106.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4298000 4298272 . + . gene_id "ECDH10B_RS21340"; transcript_id ""; gbkey "Gene"; gene "hupA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21340"; old_locus_tag "ECDH10B_4189"; -NC_010473.1 Protein Homology CDS 4298000 4298269 . + 0 gene_id "ECDH10B_RS21340"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hupA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_017460010.1"; locus_tag "ECDH10B_RS21340"; product "DNA-binding protein HU-alpha"; protein_id "WP_001044513.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4298000 4298002 . + 0 gene_id "ECDH10B_RS21340"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hupA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_017460010.1"; locus_tag "ECDH10B_RS21340"; product "DNA-binding protein HU-alpha"; protein_id "WP_001044513.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4298270 4298272 . + 0 gene_id "ECDH10B_RS21340"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hupA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_017460010.1"; locus_tag "ECDH10B_RS21340"; product "DNA-binding protein HU-alpha"; protein_id "WP_001044513.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4298285 4298980 . + . gene_id "ECDH10B_RS21345"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21345"; old_locus_tag "ECDH10B_4190"; -NC_010473.1 Protein Homology CDS 4298285 4298977 . + 0 gene_id "ECDH10B_RS21345"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418429.1"; locus_tag "ECDH10B_RS21345"; product "DUF1481 domain-containing protein"; protein_id "WP_001084037.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4298285 4298287 . + 0 gene_id "ECDH10B_RS21345"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418429.1"; locus_tag "ECDH10B_RS21345"; product "DUF1481 domain-containing protein"; protein_id "WP_001084037.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4298978 4298980 . + 0 gene_id "ECDH10B_RS21345"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418429.1"; locus_tag "ECDH10B_RS21345"; product "DUF1481 domain-containing protein"; protein_id "WP_001084037.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4298982 4299407 . - . gene_id "ECDH10B_RS21350"; transcript_id ""; gbkey "Gene"; gene "zraP"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21350"; old_locus_tag "ECDH10B_4191"; -NC_010473.1 Protein Homology CDS 4298985 4299407 . - 0 gene_id "ECDH10B_RS21350"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "zraP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312952.2"; locus_tag "ECDH10B_RS21350"; product "zinc resistance sensor/chaperone ZraP"; protein_id "WP_000828222.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4299405 4299407 . - 0 gene_id "ECDH10B_RS21350"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "zraP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312952.2"; locus_tag "ECDH10B_RS21350"; product "zinc resistance sensor/chaperone ZraP"; protein_id "WP_000828222.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4298982 4298984 . - 0 gene_id "ECDH10B_RS21350"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "zraP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312952.2"; locus_tag "ECDH10B_RS21350"; product "zinc resistance sensor/chaperone ZraP"; protein_id "WP_000828222.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4299645 4301042 . + . gene_id "ECDH10B_RS21355"; transcript_id ""; gbkey "Gene"; gene "zraS"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21355"; old_locus_tag "ECDH10B_4192"; -NC_010473.1 Protein Homology CDS 4299645 4301039 . + 0 gene_id "ECDH10B_RS21355"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "zraS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418431.1"; locus_tag "ECDH10B_RS21355"; product "two-component system sensor histidine kinase ZraS"; protein_id "WP_001211892.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4299645 4299647 . + 0 gene_id "ECDH10B_RS21355"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "zraS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418431.1"; locus_tag "ECDH10B_RS21355"; product "two-component system sensor histidine kinase ZraS"; protein_id "WP_001211892.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4301040 4301042 . + 0 gene_id "ECDH10B_RS21355"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "zraS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418431.1"; locus_tag "ECDH10B_RS21355"; product "two-component system sensor histidine kinase ZraS"; protein_id "WP_001211892.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4301039 4302364 . + . gene_id "ECDH10B_RS21360"; transcript_id ""; gbkey "Gene"; gene "zraR"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21360"; old_locus_tag "ECDH10B_4193"; -NC_010473.1 Protein Homology CDS 4301039 4302361 . + 0 gene_id "ECDH10B_RS21360"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "zraR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418432.1"; locus_tag "ECDH10B_RS21360"; product "sigma-54-dependent response regulator transcription factor ZraR"; protein_id "WP_000148503.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4301039 4301041 . + 0 gene_id "ECDH10B_RS21360"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "zraR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418432.1"; locus_tag "ECDH10B_RS21360"; product "sigma-54-dependent response regulator transcription factor ZraR"; protein_id "WP_000148503.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4302362 4302364 . + 0 gene_id "ECDH10B_RS21360"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "zraR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418432.1"; locus_tag "ECDH10B_RS21360"; product "sigma-54-dependent response regulator transcription factor ZraR"; protein_id "WP_000148503.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4302361 4303650 . - . gene_id "ECDH10B_RS21365"; transcript_id ""; gbkey "Gene"; gene "purD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21365"; old_locus_tag "ECDH10B_4194"; -NC_010473.1 Protein Homology CDS 4302364 4303650 . - 0 gene_id "ECDH10B_RS21365"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "purD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418433.1"; locus_tag "ECDH10B_RS21365"; product "phosphoribosylamine--glycine ligase"; protein_id "WP_000866800.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4303648 4303650 . - 0 gene_id "ECDH10B_RS21365"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "purD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418433.1"; locus_tag "ECDH10B_RS21365"; product "phosphoribosylamine--glycine ligase"; protein_id "WP_000866800.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4302361 4302363 . - 0 gene_id "ECDH10B_RS21365"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "purD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418433.1"; locus_tag "ECDH10B_RS21365"; product "phosphoribosylamine--glycine ligase"; protein_id "WP_000866800.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4303662 4305251 . - . gene_id "ECDH10B_RS21370"; transcript_id ""; gbkey "Gene"; gene "purH"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21370"; old_locus_tag "ECDH10B_4195"; -NC_010473.1 Protein Homology CDS 4303665 4305251 . - 0 gene_id "ECDH10B_RS21370"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "purH"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005132841.1"; locus_tag "ECDH10B_RS21370"; product "bifunctional phosphoribosylaminoimidazolecarboxamide formyltransferase/IMP cyclohydrolase"; protein_id "WP_001187559.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4305249 4305251 . - 0 gene_id "ECDH10B_RS21370"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "purH"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005132841.1"; locus_tag "ECDH10B_RS21370"; product "bifunctional phosphoribosylaminoimidazolecarboxamide formyltransferase/IMP cyclohydrolase"; protein_id "WP_001187559.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4303662 4303664 . - 0 gene_id "ECDH10B_RS21370"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "purH"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005132841.1"; locus_tag "ECDH10B_RS21370"; product "bifunctional phosphoribosylaminoimidazolecarboxamide formyltransferase/IMP cyclohydrolase"; protein_id "WP_001187559.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4305866 4307407 . + . gene_id "ECDH10B_RS21385"; transcript_id ""; gbkey "Gene"; gene_biotype "rRNA"; locus_tag "ECDH10B_RS21385"; old_locus_tag "ECDH10B_4196"; -NC_010473.1 cmsearch exon 4305866 4307407 . + . gene_id "ECDH10B_RS21385"; transcript_id "ECDH10B_RS21385"; db_xref "RFAM:RF00177"; gbkey "rRNA"; inference "COORDINATES: nucleotide motif:Rfam:12.0:RF00177"; inference "COORDINATES: profile:INFERNAL:1.1.1"; locus_tag "ECDH10B_RS21385"; product "16S ribosomal RNA"; exon_number "1"; -NC_010473.1 RefSeq gene 4307493 4307568 . + . gene_id "ECDH10B_RS21390"; transcript_id ""; gbkey "Gene"; gene_biotype "tRNA"; locus_tag "ECDH10B_RS21390"; old_locus_tag "ECDH10B_4197"; -NC_010473.1 tRNAscan-SE exon 4307493 4307568 . + . gene_id "ECDH10B_RS21390"; transcript_id "ECDH10B_RS21390"; anticodon "(pos:4307527..4307529)"; gbkey "tRNA"; inference "COORDINATES: profile:tRNAscan-SE:2.0.6"; locus_tag "ECDH10B_RS21390"; product "tRNA-Glu"; exon_number "1"; -NC_010473.1 RefSeq gene 4307762 4310665 . + . gene_id "ECDH10B_RS21395"; transcript_id ""; gbkey "Gene"; gene_biotype "rRNA"; locus_tag "ECDH10B_RS21395"; old_locus_tag "ECDH10B_4198"; -NC_010473.1 cmsearch exon 4307762 4310665 . + . gene_id "ECDH10B_RS21395"; transcript_id "ECDH10B_RS21395"; db_xref "RFAM:RF02541"; gbkey "rRNA"; inference "COORDINATES: nucleotide motif:Rfam:12.0:RF02541"; inference "COORDINATES: profile:INFERNAL:1.1.1"; locus_tag "ECDH10B_RS21395"; product "23S ribosomal RNA"; exon_number "1"; -NC_010473.1 RefSeq gene 4310761 4310876 . + . gene_id "ECDH10B_RS21400"; transcript_id ""; gbkey "Gene"; gene "rrf"; gene_biotype "rRNA"; locus_tag "ECDH10B_RS21400"; old_locus_tag "ECDH10B_4199"; -NC_010473.1 cmsearch exon 4310761 4310876 . + . gene_id "ECDH10B_RS21400"; transcript_id "ECDH10B_RS21400"; db_xref "RFAM:RF00001"; gbkey "rRNA"; gene "rrf"; inference "COORDINATES: nucleotide motif:Rfam:12.0:RF00001"; inference "COORDINATES: profile:INFERNAL:1.1.1"; locus_tag "ECDH10B_RS21400"; product "5S ribosomal RNA"; exon_number "1"; -NC_010473.1 RefSeq gene 4310953 4311336 . + . gene_id "ECDH10B_RS21405"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21405"; old_locus_tag "ECDH10B_4200"; -NC_010473.1 Protein Homology CDS 4310953 4311333 . + 0 gene_id "ECDH10B_RS21405"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418435.1"; locus_tag "ECDH10B_RS21405"; product "stress-induced protein"; protein_id "WP_001326558.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4310953 4310955 . + 0 gene_id "ECDH10B_RS21405"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418435.1"; locus_tag "ECDH10B_RS21405"; product "stress-induced protein"; protein_id "WP_001326558.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4311334 4311336 . + 0 gene_id "ECDH10B_RS21405"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418435.1"; locus_tag "ECDH10B_RS21405"; product "stress-induced protein"; protein_id "WP_001326558.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4311399 4311842 . - . gene_id "ECDH10B_RS21410"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21410"; old_locus_tag "ECDH10B_4201"; -NC_010473.1 Protein Homology CDS 4311402 4311842 . - 0 gene_id "ECDH10B_RS21410"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418436.1"; locus_tag "ECDH10B_RS21410"; product "acetyltransferase"; protein_id "WP_000237004.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4311840 4311842 . - 0 gene_id "ECDH10B_RS21410"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418436.1"; locus_tag "ECDH10B_RS21410"; product "acetyltransferase"; protein_id "WP_000237004.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4311399 4311401 . - 0 gene_id "ECDH10B_RS21410"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418436.1"; locus_tag "ECDH10B_RS21410"; product "acetyltransferase"; protein_id "WP_000237004.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4311999 4312928 . + . gene_id "ECDH10B_RS21415"; transcript_id ""; gbkey "Gene"; gene "metA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21415"; old_locus_tag "ECDH10B_4202"; -NC_010473.1 Protein Homology CDS 4311999 4312925 . + 0 gene_id "ECDH10B_RS21415"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "metA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005132837.1"; locus_tag "ECDH10B_RS21415"; product "homoserine O-succinyltransferase"; protein_id "WP_001122779.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4311999 4312001 . + 0 gene_id "ECDH10B_RS21415"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "metA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005132837.1"; locus_tag "ECDH10B_RS21415"; product "homoserine O-succinyltransferase"; protein_id "WP_001122779.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4312926 4312928 . + 0 gene_id "ECDH10B_RS21415"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "metA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005132837.1"; locus_tag "ECDH10B_RS21415"; product "homoserine O-succinyltransferase"; protein_id "WP_001122779.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4313197 4314798 . + . gene_id "ECDH10B_RS21420"; transcript_id ""; gbkey "Gene"; gene "aceB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21420"; old_locus_tag "ECDH10B_4203"; -NC_010473.1 Protein Homology CDS 4313197 4314795 . + 0 gene_id "ECDH10B_RS21420"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "aceB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418438.1"; locus_tag "ECDH10B_RS21420"; product "malate synthase A"; protein_id "WP_000138905.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4313197 4313199 . + 0 gene_id "ECDH10B_RS21420"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "aceB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418438.1"; locus_tag "ECDH10B_RS21420"; product "malate synthase A"; protein_id "WP_000138905.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4314796 4314798 . + 0 gene_id "ECDH10B_RS21420"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "aceB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418438.1"; locus_tag "ECDH10B_RS21420"; product "malate synthase A"; protein_id "WP_000138905.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4314828 4316132 . + . gene_id "ECDH10B_RS21425"; transcript_id ""; gbkey "Gene"; gene "aceA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21425"; old_locus_tag "ECDH10B_4204"; -NC_010473.1 Protein Homology CDS 4314828 4316129 . + 0 gene_id "ECDH10B_RS21425"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "aceA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418439.1"; locus_tag "ECDH10B_RS21425"; product "isocitrate lyase"; protein_id "WP_000857856.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4314828 4314830 . + 0 gene_id "ECDH10B_RS21425"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "aceA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418439.1"; locus_tag "ECDH10B_RS21425"; product "isocitrate lyase"; protein_id "WP_000857856.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4316130 4316132 . + 0 gene_id "ECDH10B_RS21425"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "aceA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418439.1"; locus_tag "ECDH10B_RS21425"; product "isocitrate lyase"; protein_id "WP_000857856.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4316315 4318051 . + . gene_id "ECDH10B_RS21430"; transcript_id ""; gbkey "Gene"; gene "aceK"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21430"; old_locus_tag "ECDH10B_4205"; -NC_010473.1 Protein Homology CDS 4316315 4318048 . + 0 gene_id "ECDH10B_RS21430"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "aceK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418440.1"; locus_tag "ECDH10B_RS21430"; product "bifunctional isocitrate dehydrogenase kinase/phosphatase"; protein_id "WP_001137220.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4316315 4316317 . + 0 gene_id "ECDH10B_RS21430"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "aceK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418440.1"; locus_tag "ECDH10B_RS21430"; product "bifunctional isocitrate dehydrogenase kinase/phosphatase"; protein_id "WP_001137220.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4318049 4318051 . + 0 gene_id "ECDH10B_RS21430"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "aceK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418440.1"; locus_tag "ECDH10B_RS21430"; product "bifunctional isocitrate dehydrogenase kinase/phosphatase"; protein_id "WP_001137220.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4318020 4320206 . - . gene_id "ECDH10B_RS21435"; transcript_id ""; gbkey "Gene"; gene "espL4"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21435"; old_locus_tag "ECDH10B_4206"; -NC_010473.1 Protein Homology CDS 4318023 4320206 . - 0 gene_id "ECDH10B_RS21435"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "espL4"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418441.1"; locus_tag "ECDH10B_RS21435"; product "type III secretion system effector EspL4"; protein_id "WP_000632913.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4320204 4320206 . - 0 gene_id "ECDH10B_RS21435"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "espL4"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418441.1"; locus_tag "ECDH10B_RS21435"; product "type III secretion system effector EspL4"; protein_id "WP_000632913.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4318020 4318022 . - 0 gene_id "ECDH10B_RS21435"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "espL4"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418441.1"; locus_tag "ECDH10B_RS21435"; product "type III secretion system effector EspL4"; protein_id "WP_000632913.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4320523 4321347 . - . gene_id "ECDH10B_RS21440"; transcript_id ""; gbkey "Gene"; gene "iclR"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21440"; old_locus_tag "ECDH10B_4207"; -NC_010473.1 Protein Homology CDS 4320526 4321347 . - 0 gene_id "ECDH10B_RS21440"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "iclR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418442.2"; locus_tag "ECDH10B_RS21440"; product "glyoxylate bypass operon transcriptional repressor IclR"; protein_id "WP_000226403.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4321345 4321347 . - 0 gene_id "ECDH10B_RS21440"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "iclR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418442.2"; locus_tag "ECDH10B_RS21440"; product "glyoxylate bypass operon transcriptional repressor IclR"; protein_id "WP_000226403.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4320523 4320525 . - 0 gene_id "ECDH10B_RS21440"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "iclR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418442.2"; locus_tag "ECDH10B_RS21440"; product "glyoxylate bypass operon transcriptional repressor IclR"; protein_id "WP_000226403.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4321547 4325230 . + . gene_id "ECDH10B_RS21445"; transcript_id ""; gbkey "Gene"; gene "metH"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21445"; old_locus_tag "ECDH10B_4208"; -NC_010473.1 Protein Homology CDS 4321547 4325227 . + 0 gene_id "ECDH10B_RS21445"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "metH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418443.1"; locus_tag "ECDH10B_RS21445"; product "methionine synthase"; protein_id "WP_000096011.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4321547 4321549 . + 0 gene_id "ECDH10B_RS21445"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "metH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418443.1"; locus_tag "ECDH10B_RS21445"; product "methionine synthase"; protein_id "WP_000096011.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4325228 4325230 . + 0 gene_id "ECDH10B_RS21445"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "metH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418443.1"; locus_tag "ECDH10B_RS21445"; product "methionine synthase"; protein_id "WP_000096011.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4325450 4327081 . + . gene_id "ECDH10B_RS21450"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21450"; old_locus_tag "ECDH10B_4209"; -NC_010473.1 Protein Homology CDS 4325450 4327078 . + 0 gene_id "ECDH10B_RS21450"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418444.1"; locus_tag "ECDH10B_RS21450"; product "Na/Pi cotransporter family protein"; protein_id "WP_000956830.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4325450 4325452 . + 0 gene_id "ECDH10B_RS21450"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418444.1"; locus_tag "ECDH10B_RS21450"; product "Na/Pi cotransporter family protein"; protein_id "WP_000956830.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4327079 4327081 . + 0 gene_id "ECDH10B_RS21450"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418444.1"; locus_tag "ECDH10B_RS21450"; product "Na/Pi cotransporter family protein"; protein_id "WP_000956830.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4327172 4327861 . - . gene_id "ECDH10B_RS21455"; transcript_id ""; gbkey "Gene"; gene "pepE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21455"; old_locus_tag "ECDH10B_4210"; -NC_010473.1 Protein Homology CDS 4327175 4327861 . - 0 gene_id "ECDH10B_RS21455"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pepE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312966.1"; locus_tag "ECDH10B_RS21455"; product "dipeptidase PepE"; protein_id "WP_000421763.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4327859 4327861 . - 0 gene_id "ECDH10B_RS21455"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pepE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312966.1"; locus_tag "ECDH10B_RS21455"; product "dipeptidase PepE"; protein_id "WP_000421763.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4327172 4327174 . - 0 gene_id "ECDH10B_RS21455"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pepE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_312966.1"; locus_tag "ECDH10B_RS21455"; product "dipeptidase PepE"; protein_id "WP_000421763.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4328073 4328945 . + . gene_id "ECDH10B_RS21460"; transcript_id ""; gbkey "Gene"; gene "rluF"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21460"; old_locus_tag "ECDH10B_4211"; -NC_010473.1 Protein Homology CDS 4328073 4328942 . + 0 gene_id "ECDH10B_RS21460"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rluF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418446.1"; locus_tag "ECDH10B_RS21460"; product "23S rRNA pseudouridine(2604) synthase RluF"; protein_id "WP_000936377.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4328073 4328075 . + 0 gene_id "ECDH10B_RS21460"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rluF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418446.1"; locus_tag "ECDH10B_RS21460"; product "23S rRNA pseudouridine(2604) synthase RluF"; protein_id "WP_000936377.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4328943 4328945 . + 0 gene_id "ECDH10B_RS21460"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rluF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418446.1"; locus_tag "ECDH10B_RS21460"; product "23S rRNA pseudouridine(2604) synthase RluF"; protein_id "WP_000936377.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4329078 4329350 . - . gene_id "ECDH10B_RS21465"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21465"; old_locus_tag "ECDH10B_4212"; -NC_010473.1 Protein Homology CDS 4329081 4329350 . - 0 gene_id "ECDH10B_RS21465"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418447.1"; locus_tag "ECDH10B_RS21465"; product "DUF3811 domain-containing protein"; protein_id "WP_001207634.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4329348 4329350 . - 0 gene_id "ECDH10B_RS21465"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418447.1"; locus_tag "ECDH10B_RS21465"; product "DUF3811 domain-containing protein"; protein_id "WP_001207634.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4329078 4329080 . - 0 gene_id "ECDH10B_RS21465"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418447.1"; locus_tag "ECDH10B_RS21465"; product "DUF3811 domain-containing protein"; protein_id "WP_001207634.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4329603 4330952 . - . gene_id "ECDH10B_RS21470"; transcript_id ""; gbkey "Gene"; gene "lysC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21470"; old_locus_tag "ECDH10B_4213"; -NC_010473.1 Protein Homology CDS 4329606 4330952 . - 0 gene_id "ECDH10B_RS21470"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lysC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418448.1"; locus_tag "ECDH10B_RS21470"; product "lysine-sensitive aspartokinase 3"; protein_id "WP_001290310.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4330950 4330952 . - 0 gene_id "ECDH10B_RS21470"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lysC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418448.1"; locus_tag "ECDH10B_RS21470"; product "lysine-sensitive aspartokinase 3"; protein_id "WP_001290310.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4329603 4329605 . - 0 gene_id "ECDH10B_RS21470"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lysC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418448.1"; locus_tag "ECDH10B_RS21470"; product "lysine-sensitive aspartokinase 3"; protein_id "WP_001290310.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4331477 4333126 . + . gene_id "ECDH10B_RS21475"; transcript_id ""; gbkey "Gene"; gene "pgi"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21475"; old_locus_tag "ECDH10B_4214"; -NC_010473.1 Protein Homology CDS 4331477 4333123 . + 0 gene_id "ECDH10B_RS21475"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pgi"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313035.1"; locus_tag "ECDH10B_RS21475"; product "glucose-6-phosphate isomerase"; protein_id "WP_000789986.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4331477 4331479 . + 0 gene_id "ECDH10B_RS21475"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pgi"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313035.1"; locus_tag "ECDH10B_RS21475"; product "glucose-6-phosphate isomerase"; protein_id "WP_000789986.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4333124 4333126 . + 0 gene_id "ECDH10B_RS21475"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pgi"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313035.1"; locus_tag "ECDH10B_RS21475"; product "glucose-6-phosphate isomerase"; protein_id "WP_000789986.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4333625 4333867 . + . gene_id "ECDH10B_RS21480"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21480"; old_locus_tag "ECDH10B_4215"; -NC_010473.1 Protein Homology CDS 4333625 4333864 . + 0 gene_id "ECDH10B_RS21480"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313036.1"; locus_tag "ECDH10B_RS21480"; product "polysaccharide production threonine-rich protein"; protein_id "WP_000757333.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4333625 4333627 . + 0 gene_id "ECDH10B_RS21480"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313036.1"; locus_tag "ECDH10B_RS21480"; product "polysaccharide production threonine-rich protein"; protein_id "WP_000757333.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4333865 4333867 . + 0 gene_id "ECDH10B_RS21480"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313036.1"; locus_tag "ECDH10B_RS21480"; product "polysaccharide production threonine-rich protein"; protein_id "WP_000757333.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4333981 4334619 . + . gene_id "ECDH10B_RS21485"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21485"; old_locus_tag "ECDH10B_4216"; -NC_010473.1 Protein Homology CDS 4333981 4334616 . + 0 gene_id "ECDH10B_RS21485"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418451.4"; locus_tag "ECDH10B_RS21485"; product "YjbF family lipoprotein"; protein_id "WP_001295278.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4333981 4333983 . + 0 gene_id "ECDH10B_RS21485"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418451.4"; locus_tag "ECDH10B_RS21485"; product "YjbF family lipoprotein"; protein_id "WP_001295278.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4334617 4334619 . + 0 gene_id "ECDH10B_RS21485"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418451.4"; locus_tag "ECDH10B_RS21485"; product "YjbF family lipoprotein"; protein_id "WP_001295278.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4334616 4335353 . + . gene_id "ECDH10B_RS21490"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21490"; old_locus_tag "ECDH10B_4217"; -NC_010473.1 Protein Homology CDS 4334616 4335350 . + 0 gene_id "ECDH10B_RS21490"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418452.1"; locus_tag "ECDH10B_RS21490"; product "capsule biosynthesis GfcC family protein"; protein_id "WP_000595558.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4334616 4334618 . + 0 gene_id "ECDH10B_RS21490"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418452.1"; locus_tag "ECDH10B_RS21490"; product "capsule biosynthesis GfcC family protein"; protein_id "WP_000595558.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4335351 4335353 . + 0 gene_id "ECDH10B_RS21490"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418452.1"; locus_tag "ECDH10B_RS21490"; product "capsule biosynthesis GfcC family protein"; protein_id "WP_000595558.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4335353 4337449 . + . gene_id "ECDH10B_RS21495"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21495"; old_locus_tag "ECDH10B_4218"; -NC_010473.1 Protein Homology CDS 4335353 4337446 . + 0 gene_id "ECDH10B_RS21495"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418453.1"; locus_tag "ECDH10B_RS21495"; product "YjbH domain-containing protein"; protein_id "WP_000745776.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4335353 4335355 . + 0 gene_id "ECDH10B_RS21495"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418453.1"; locus_tag "ECDH10B_RS21495"; product "YjbH domain-containing protein"; protein_id "WP_000745776.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4337447 4337449 . + 0 gene_id "ECDH10B_RS21495"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418453.1"; locus_tag "ECDH10B_RS21495"; product "YjbH domain-containing protein"; protein_id "WP_000745776.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4337496 4337774 . - . gene_id "ECDH10B_RS25750"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS25750"; -NC_010473.1 Protein Homology CDS 4337499 4337774 . - 0 gene_id "ECDH10B_RS25750"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_001165332.1"; locus_tag "ECDH10B_RS25750"; product "periplasmic protein"; protein_id "WP_001295279.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4337772 4337774 . - 0 gene_id "ECDH10B_RS25750"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_001165332.1"; locus_tag "ECDH10B_RS25750"; product "periplasmic protein"; protein_id "WP_001295279.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4337496 4337498 . - 0 gene_id "ECDH10B_RS25750"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_001165332.1"; locus_tag "ECDH10B_RS25750"; product "periplasmic protein"; protein_id "WP_001295279.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4337775 4337918 . + . gene_id "ECDH10B_RS26145"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS26145"; -NC_010473.1 GeneMarkS-2+ CDS 4337775 4337915 . + 0 gene_id "ECDH10B_RS26145"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: ab initio prediction:GeneMarkS-2+"; locus_tag "ECDH10B_RS26145"; product "hypothetical protein"; protein_id "WP_000487766.1"; transl_table "11"; -NC_010473.1 GeneMarkS-2+ start_codon 4337775 4337777 . + 0 gene_id "ECDH10B_RS26145"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: ab initio prediction:GeneMarkS-2+"; locus_tag "ECDH10B_RS26145"; product "hypothetical protein"; protein_id "WP_000487766.1"; transl_table "11"; -NC_010473.1 GeneMarkS-2+ stop_codon 4337916 4337918 . + 0 gene_id "ECDH10B_RS26145"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: ab initio prediction:GeneMarkS-2+"; locus_tag "ECDH10B_RS26145"; product "hypothetical protein"; protein_id "WP_000487766.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4338044 4338454 . + . gene_id "ECDH10B_RS21510"; transcript_id ""; gbkey "Gene"; gene "psiE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21510"; old_locus_tag "ECDH10B_4219"; -NC_010473.1 Protein Homology CDS 4338044 4338451 . + 0 gene_id "ECDH10B_RS21510"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "psiE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418454.1"; locus_tag "ECDH10B_RS21510"; product "phosphate-starvation-inducible protein PsiE"; protein_id "WP_000202902.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4338044 4338046 . + 0 gene_id "ECDH10B_RS21510"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "psiE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418454.1"; locus_tag "ECDH10B_RS21510"; product "phosphate-starvation-inducible protein PsiE"; protein_id "WP_000202902.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4338452 4338454 . + 0 gene_id "ECDH10B_RS21510"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "psiE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418454.1"; locus_tag "ECDH10B_RS21510"; product "phosphate-starvation-inducible protein PsiE"; protein_id "WP_000202902.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4338498 4339973 . - . gene_id "ECDH10B_RS21515"; transcript_id ""; gbkey "Gene"; gene "xylE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21515"; old_locus_tag "ECDH10B_4220"; -NC_010473.1 Protein Homology CDS 4338501 4339973 . - 0 gene_id "ECDH10B_RS21515"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "xylE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313041.1"; locus_tag "ECDH10B_RS21515"; product "D-xylose transporter XylE"; protein_id "WP_001097274.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4339971 4339973 . - 0 gene_id "ECDH10B_RS21515"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "xylE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313041.1"; locus_tag "ECDH10B_RS21515"; product "D-xylose transporter XylE"; protein_id "WP_001097274.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4338498 4338500 . - 0 gene_id "ECDH10B_RS21515"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "xylE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313041.1"; locus_tag "ECDH10B_RS21515"; product "D-xylose transporter XylE"; protein_id "WP_001097274.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4340345 4341235 . - . gene_id "ECDH10B_RS21520"; transcript_id ""; gbkey "Gene"; gene "malG"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21520"; old_locus_tag "ECDH10B_4221"; -NC_010473.1 Protein Homology CDS 4340348 4341235 . - 0 gene_id "ECDH10B_RS21520"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "malG"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001252048.1"; locus_tag "ECDH10B_RS21520"; product "maltose ABC transporter permease MalG"; protein_id "WP_001252058.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4341233 4341235 . - 0 gene_id "ECDH10B_RS21520"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "malG"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001252048.1"; locus_tag "ECDH10B_RS21520"; product "maltose ABC transporter permease MalG"; protein_id "WP_001252058.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4340345 4340347 . - 0 gene_id "ECDH10B_RS21520"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "malG"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001252048.1"; locus_tag "ECDH10B_RS21520"; product "maltose ABC transporter permease MalG"; protein_id "WP_001252058.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4341250 4342794 . - . gene_id "ECDH10B_RS21525"; transcript_id ""; gbkey "Gene"; gene "malF"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21525"; old_locus_tag "ECDH10B_4222"; -NC_010473.1 Protein Homology CDS 4341253 4342794 . - 0 gene_id "ECDH10B_RS21525"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "malF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418457.1"; locus_tag "ECDH10B_RS21525"; product "maltose ABC transporter permease MalF"; protein_id "WP_001297290.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4342792 4342794 . - 0 gene_id "ECDH10B_RS21525"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "malF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418457.1"; locus_tag "ECDH10B_RS21525"; product "maltose ABC transporter permease MalF"; protein_id "WP_001297290.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4341250 4341252 . - 0 gene_id "ECDH10B_RS21525"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "malF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418457.1"; locus_tag "ECDH10B_RS21525"; product "maltose ABC transporter permease MalF"; protein_id "WP_001297290.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4342948 4344138 . - . gene_id "ECDH10B_RS21530"; transcript_id ""; gbkey "Gene"; gene "malE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21530"; old_locus_tag "ECDH10B_4223"; -NC_010473.1 Protein Homology CDS 4342951 4344138 . - 0 gene_id "ECDH10B_RS21530"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "malE"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000695396.1"; locus_tag "ECDH10B_RS21530"; product "maltose/maltodextrin ABC transporter substrate-binding protein MalE"; protein_id "WP_000695387.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4344136 4344138 . - 0 gene_id "ECDH10B_RS21530"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "malE"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000695396.1"; locus_tag "ECDH10B_RS21530"; product "maltose/maltodextrin ABC transporter substrate-binding protein MalE"; protein_id "WP_000695387.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4342948 4342950 . - 0 gene_id "ECDH10B_RS21530"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "malE"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000695396.1"; locus_tag "ECDH10B_RS21530"; product "maltose/maltodextrin ABC transporter substrate-binding protein MalE"; protein_id "WP_000695387.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4344503 4345618 . + . gene_id "ECDH10B_RS21540"; transcript_id ""; gbkey "Gene"; gene "malK"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21540"; old_locus_tag "ECDH10B_4224"; -NC_010473.1 Protein Homology CDS 4344503 4345615 . + 0 gene_id "ECDH10B_RS21540"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "malK"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_011915502.1"; locus_tag "ECDH10B_RS21540"; product "maltose/maltodextrin ABC transporter ATP-binding protein MalK"; protein_id "WP_000179165.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4344503 4344505 . + 0 gene_id "ECDH10B_RS21540"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "malK"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_011915502.1"; locus_tag "ECDH10B_RS21540"; product "maltose/maltodextrin ABC transporter ATP-binding protein MalK"; protein_id "WP_000179165.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4345616 4345618 . + 0 gene_id "ECDH10B_RS21540"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "malK"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_011915502.1"; locus_tag "ECDH10B_RS21540"; product "maltose/maltodextrin ABC transporter ATP-binding protein MalK"; protein_id "WP_000179165.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4345690 4347030 . + . gene_id "ECDH10B_RS21545"; transcript_id ""; gbkey "Gene"; gene "lamB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21545"; old_locus_tag "ECDH10B_4225"; -NC_010473.1 Protein Homology CDS 4345690 4347027 . + 0 gene_id "ECDH10B_RS21545"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lamB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418460.1"; locus_tag "ECDH10B_RS21545"; product "maltoporin LamB"; protein_id "WP_000973663.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4345690 4345692 . + 0 gene_id "ECDH10B_RS21545"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lamB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418460.1"; locus_tag "ECDH10B_RS21545"; product "maltoporin LamB"; protein_id "WP_000973663.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4347028 4347030 . + 0 gene_id "ECDH10B_RS21545"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lamB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418460.1"; locus_tag "ECDH10B_RS21545"; product "maltoporin LamB"; protein_id "WP_000973663.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4347273 4348193 . + . gene_id "ECDH10B_RS21550"; transcript_id ""; gbkey "Gene"; gene "malM"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21550"; old_locus_tag "ECDH10B_4226"; -NC_010473.1 Protein Homology CDS 4347273 4348190 . + 0 gene_id "ECDH10B_RS21550"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "malM"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418461.1"; locus_tag "ECDH10B_RS21550"; product "maltose operon protein MalM"; protein_id "WP_001326641.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4347273 4347275 . + 0 gene_id "ECDH10B_RS21550"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "malM"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418461.1"; locus_tag "ECDH10B_RS21550"; product "maltose operon protein MalM"; protein_id "WP_001326641.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4348191 4348193 . + 0 gene_id "ECDH10B_RS21550"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "malM"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418461.1"; locus_tag "ECDH10B_RS21550"; product "maltose operon protein MalM"; protein_id "WP_001326641.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4348422 4350002 . + . gene_id "ECDH10B_RS21560"; transcript_id ""; gbkey "Gene"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS21560"; old_locus_tag "ECDH10B_4227"; pseudo "true"; -NC_010473.1 Protein Homology CDS 4348422 4349999 . + 0 gene_id "ECDH10B_RS21560"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000579104.1"; locus_tag "ECDH10B_RS21560"; note "frameshifted"; product "SopA family protein"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4348422 4348424 . + 0 gene_id "ECDH10B_RS21560"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000579104.1"; locus_tag "ECDH10B_RS21560"; note "frameshifted"; product "SopA family protein"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4350000 4350002 . + 0 gene_id "ECDH10B_RS21560"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000579104.1"; locus_tag "ECDH10B_RS21560"; note "frameshifted"; product "SopA family protein"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 4350225 4350722 . + . gene_id "ECDH10B_RS21565"; transcript_id ""; gbkey "Gene"; gene "ubiC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21565"; old_locus_tag "ECDH10B_4228"; -NC_010473.1 Protein Homology CDS 4350225 4350719 . + 0 gene_id "ECDH10B_RS21565"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ubiC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418463.4"; locus_tag "ECDH10B_RS21565"; product "chorismate lyase"; protein_id "WP_001326644.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4350225 4350227 . + 0 gene_id "ECDH10B_RS21565"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ubiC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418463.4"; locus_tag "ECDH10B_RS21565"; product "chorismate lyase"; protein_id "WP_001326644.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4350720 4350722 . + 0 gene_id "ECDH10B_RS21565"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ubiC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418463.4"; locus_tag "ECDH10B_RS21565"; product "chorismate lyase"; protein_id "WP_001326644.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4350735 4351607 . + . gene_id "ECDH10B_RS21570"; transcript_id ""; gbkey "Gene"; gene "ubiA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21570"; old_locus_tag "ECDH10B_4229"; -NC_010473.1 Protein Homology CDS 4350735 4351604 . + 0 gene_id "ECDH10B_RS21570"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ubiA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313050.1"; locus_tag "ECDH10B_RS21570"; product "4-hydroxybenzoate octaprenyltransferase"; protein_id "WP_000455227.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4350735 4350737 . + 0 gene_id "ECDH10B_RS21570"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ubiA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313050.1"; locus_tag "ECDH10B_RS21570"; product "4-hydroxybenzoate octaprenyltransferase"; protein_id "WP_000455227.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4351605 4351607 . + 0 gene_id "ECDH10B_RS21570"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ubiA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313050.1"; locus_tag "ECDH10B_RS21570"; product "4-hydroxybenzoate octaprenyltransferase"; protein_id "WP_000455227.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4351762 4354185 . - . gene_id "ECDH10B_RS21575"; transcript_id ""; gbkey "Gene"; gene "plsB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21575"; old_locus_tag "ECDH10B_4230"; -NC_010473.1 Protein Homology CDS 4351765 4354185 . - 0 gene_id "ECDH10B_RS21575"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "plsB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418465.4"; locus_tag "ECDH10B_RS21575"; product "glycerol-3-phosphate 1-O-acyltransferase PlsB"; protein_id "WP_000017354.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4354183 4354185 . - 0 gene_id "ECDH10B_RS21575"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "plsB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418465.4"; locus_tag "ECDH10B_RS21575"; product "glycerol-3-phosphate 1-O-acyltransferase PlsB"; protein_id "WP_000017354.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4351762 4351764 . - 0 gene_id "ECDH10B_RS21575"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "plsB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418465.4"; locus_tag "ECDH10B_RS21575"; product "glycerol-3-phosphate 1-O-acyltransferase PlsB"; protein_id "WP_000017354.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4354356 4354724 . + . gene_id "ECDH10B_RS21580"; transcript_id ""; gbkey "Gene"; gene "dgkA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21580"; old_locus_tag "ECDH10B_4231"; -NC_010473.1 Protein Homology CDS 4354356 4354721 . + 0 gene_id "ECDH10B_RS21580"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dgkA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313052.1"; locus_tag "ECDH10B_RS21580"; product "diacylglycerol kinase"; protein_id "WP_000002907.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4354356 4354358 . + 0 gene_id "ECDH10B_RS21580"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dgkA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313052.1"; locus_tag "ECDH10B_RS21580"; product "diacylglycerol kinase"; protein_id "WP_000002907.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4354722 4354724 . + 0 gene_id "ECDH10B_RS21580"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dgkA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313052.1"; locus_tag "ECDH10B_RS21580"; product "diacylglycerol kinase"; protein_id "WP_000002907.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4354834 4355442 . + . gene_id "ECDH10B_RS21585"; transcript_id ""; gbkey "Gene"; gene "lexA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21585"; old_locus_tag "ECDH10B_4232"; -NC_010473.1 Protein Homology CDS 4354834 4355439 . + 0 gene_id "ECDH10B_RS21585"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lexA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000646075.1"; locus_tag "ECDH10B_RS21585"; product "repressor LexA"; protein_id "WP_000646078.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4354834 4354836 . + 0 gene_id "ECDH10B_RS21585"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lexA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000646075.1"; locus_tag "ECDH10B_RS21585"; product "repressor LexA"; protein_id "WP_000646078.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4355440 4355442 . + 0 gene_id "ECDH10B_RS21585"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lexA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000646075.1"; locus_tag "ECDH10B_RS21585"; product "repressor LexA"; protein_id "WP_000646078.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4355515 4356840 . + . gene_id "ECDH10B_RS21590"; transcript_id ""; gbkey "Gene"; gene "dinF"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21590"; old_locus_tag "ECDH10B_4233"; -NC_010473.1 Protein Homology CDS 4355515 4356837 . + 0 gene_id "ECDH10B_RS21590"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dinF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313054.4"; locus_tag "ECDH10B_RS21590"; product "MATE family efflux transporter DinF"; protein_id "WP_001326646.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4355515 4355517 . + 0 gene_id "ECDH10B_RS21590"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dinF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313054.4"; locus_tag "ECDH10B_RS21590"; product "MATE family efflux transporter DinF"; protein_id "WP_001326646.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4356838 4356840 . + 0 gene_id "ECDH10B_RS21590"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dinF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313054.4"; locus_tag "ECDH10B_RS21590"; product "MATE family efflux transporter DinF"; protein_id "WP_001326646.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4356956 4357165 . + . gene_id "ECDH10B_RS21595"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21595"; old_locus_tag "ECDH10B_4234"; -NC_010473.1 Protein Homology CDS 4356956 4357162 . + 0 gene_id "ECDH10B_RS21595"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313055.1"; locus_tag "ECDH10B_RS21595"; product "CsbD family protein"; protein_id "WP_001030593.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4356956 4356958 . + 0 gene_id "ECDH10B_RS21595"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313055.1"; locus_tag "ECDH10B_RS21595"; product "CsbD family protein"; protein_id "WP_001030593.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4357163 4357165 . + 0 gene_id "ECDH10B_RS21595"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313055.1"; locus_tag "ECDH10B_RS21595"; product "CsbD family protein"; protein_id "WP_001030593.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4357207 4357722 . - . gene_id "ECDH10B_RS21600"; transcript_id ""; gbkey "Gene"; gene "zur"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21600"; old_locus_tag "ECDH10B_4235"; -NC_010473.1 Protein Homology CDS 4357210 4357722 . - 0 gene_id "ECDH10B_RS21600"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "zur"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418470.4"; locus_tag "ECDH10B_RS21600"; product "zinc uptake transcriptional repressor Zur"; protein_id "WP_001295691.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4357720 4357722 . - 0 gene_id "ECDH10B_RS21600"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "zur"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418470.4"; locus_tag "ECDH10B_RS21600"; product "zinc uptake transcriptional repressor Zur"; protein_id "WP_001295691.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4357207 4357209 . - 0 gene_id "ECDH10B_RS21600"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "zur"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418470.4"; locus_tag "ECDH10B_RS21600"; product "zinc uptake transcriptional repressor Zur"; protein_id "WP_001295691.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4358040 4359025 . + . gene_id "ECDH10B_RS21610"; transcript_id ""; gbkey "Gene"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS21610"; old_locus_tag "ECDH10B_4237"; pseudo "true"; -NC_010473.1 Protein Homology CDS 4358040 4359022 . + 0 gene_id "ECDH10B_RS21610"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001560258.1"; locus_tag "ECDH10B_RS21610"; note "frameshifted"; product "DUF2713 domain-containing protein"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4358040 4358042 . + 0 gene_id "ECDH10B_RS21610"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001560258.1"; locus_tag "ECDH10B_RS21610"; note "frameshifted"; product "DUF2713 domain-containing protein"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4359023 4359025 . + 0 gene_id "ECDH10B_RS21610"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001560258.1"; locus_tag "ECDH10B_RS21610"; note "frameshifted"; product "DUF2713 domain-containing protein"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 4359388 4360425 . + . gene_id "ECDH10B_RS21615"; transcript_id ""; gbkey "Gene"; gene "dusA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21615"; old_locus_tag "ECDH10B_4238"; -NC_010473.1 Protein Homology CDS 4359388 4360422 . + 0 gene_id "ECDH10B_RS21615"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dusA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313058.1"; locus_tag "ECDH10B_RS21615"; product "tRNA dihydrouridine(20/20a) synthase DusA"; protein_id "WP_001298868.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4359388 4359390 . + 0 gene_id "ECDH10B_RS21615"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dusA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313058.1"; locus_tag "ECDH10B_RS21615"; product "tRNA dihydrouridine(20/20a) synthase DusA"; protein_id "WP_001298868.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4360423 4360425 . + 0 gene_id "ECDH10B_RS21615"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dusA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313058.1"; locus_tag "ECDH10B_RS21615"; product "tRNA dihydrouridine(20/20a) synthase DusA"; protein_id "WP_001298868.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4360559 4360801 . + . gene_id "ECDH10B_RS21620"; transcript_id ""; gbkey "Gene"; gene "pspG"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21620"; old_locus_tag "ECDH10B_4239"; -NC_010473.1 Protein Homology CDS 4360559 4360798 . + 0 gene_id "ECDH10B_RS21620"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pspG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313059.2"; locus_tag "ECDH10B_RS21620"; product "envelope stress response protein PspG"; protein_id "WP_000891404.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4360559 4360561 . + 0 gene_id "ECDH10B_RS21620"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pspG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313059.2"; locus_tag "ECDH10B_RS21620"; product "envelope stress response protein PspG"; protein_id "WP_000891404.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4360799 4360801 . + 0 gene_id "ECDH10B_RS21620"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pspG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313059.2"; locus_tag "ECDH10B_RS21620"; product "envelope stress response protein PspG"; protein_id "WP_000891404.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4360967 4361950 . - . gene_id "ECDH10B_RS21625"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21625"; old_locus_tag "ECDH10B_4240"; -NC_010473.1 Protein Homology CDS 4360970 4361950 . - 0 gene_id "ECDH10B_RS21625"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418475.1"; locus_tag "ECDH10B_RS21625"; product "quinone oxidoreductase"; protein_id "WP_000235508.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4361948 4361950 . - 0 gene_id "ECDH10B_RS21625"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418475.1"; locus_tag "ECDH10B_RS21625"; product "quinone oxidoreductase"; protein_id "WP_000235508.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4360967 4360969 . - 0 gene_id "ECDH10B_RS21625"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418475.1"; locus_tag "ECDH10B_RS21625"; product "quinone oxidoreductase"; protein_id "WP_000235508.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4362033 4363448 . + . gene_id "ECDH10B_RS21630"; transcript_id ""; gbkey "Gene"; gene "dnaB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21630"; old_locus_tag "ECDH10B_4241"; -NC_010473.1 Protein Homology CDS 4362033 4363445 . + 0 gene_id "ECDH10B_RS21630"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dnaB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418476.1"; locus_tag "ECDH10B_RS21630"; product "replicative DNA helicase"; protein_id "WP_000918363.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4362033 4362035 . + 0 gene_id "ECDH10B_RS21630"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dnaB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418476.1"; locus_tag "ECDH10B_RS21630"; product "replicative DNA helicase"; protein_id "WP_000918363.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4363446 4363448 . + 0 gene_id "ECDH10B_RS21630"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dnaB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418476.1"; locus_tag "ECDH10B_RS21630"; product "replicative DNA helicase"; protein_id "WP_000918363.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4363501 4364580 . + . gene_id "ECDH10B_RS21635"; transcript_id ""; gbkey "Gene"; gene "alr"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21635"; old_locus_tag "ECDH10B_4242"; -NC_010473.1 Protein Homology CDS 4363501 4364577 . + 0 gene_id "ECDH10B_RS21635"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "alr"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418477.1"; locus_tag "ECDH10B_RS21635"; product "alanine racemase"; protein_id "WP_001147328.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4363501 4363503 . + 0 gene_id "ECDH10B_RS21635"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "alr"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418477.1"; locus_tag "ECDH10B_RS21635"; product "alanine racemase"; protein_id "WP_001147328.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4364578 4364580 . + 0 gene_id "ECDH10B_RS21635"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "alr"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418477.1"; locus_tag "ECDH10B_RS21635"; product "alanine racemase"; protein_id "WP_001147328.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4364833 4366026 . + . gene_id "ECDH10B_RS21640"; transcript_id ""; gbkey "Gene"; gene "tyrB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21640"; old_locus_tag "ECDH10B_4243"; -NC_010473.1 Protein Homology CDS 4364833 4366023 . + 0 gene_id "ECDH10B_RS21640"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tyrB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418478.1"; locus_tag "ECDH10B_RS21640"; product "aromatic amino acid transaminase"; protein_id "WP_000486985.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4364833 4364835 . + 0 gene_id "ECDH10B_RS21640"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tyrB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418478.1"; locus_tag "ECDH10B_RS21640"; product "aromatic amino acid transaminase"; protein_id "WP_000486985.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4366024 4366026 . + 0 gene_id "ECDH10B_RS21640"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tyrB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418478.1"; locus_tag "ECDH10B_RS21640"; product "aromatic amino acid transaminase"; protein_id "WP_000486985.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4366528 4366731 . - . gene_id "ECDH10B_RS26325"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS26325"; -NC_010473.1 Protein Homology CDS 4366531 4366731 . - 0 gene_id "ECDH10B_RS26325"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_001165333.1"; locus_tag "ECDH10B_RS26325"; product "hypothetical protein"; protein_id "WP_001321562.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4366729 4366731 . - 0 gene_id "ECDH10B_RS26325"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_001165333.1"; locus_tag "ECDH10B_RS26325"; product "hypothetical protein"; protein_id "WP_001321562.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4366528 4366530 . - 0 gene_id "ECDH10B_RS26325"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_001165333.1"; locus_tag "ECDH10B_RS26325"; product "hypothetical protein"; protein_id "WP_001321562.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4367133 4367846 . + . gene_id "ECDH10B_RS21650"; transcript_id ""; gbkey "Gene"; gene "aphA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21650"; old_locus_tag "ECDH10B_4244"; -NC_010473.1 Protein Homology CDS 4367133 4367843 . + 0 gene_id "ECDH10B_RS21650"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "aphA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418479.1"; locus_tag "ECDH10B_RS21650"; product "acid phosphatase AphA"; protein_id "WP_001226928.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4367133 4367135 . + 0 gene_id "ECDH10B_RS21650"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "aphA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418479.1"; locus_tag "ECDH10B_RS21650"; product "acid phosphatase AphA"; protein_id "WP_001226928.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4367844 4367846 . + 0 gene_id "ECDH10B_RS21650"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "aphA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418479.1"; locus_tag "ECDH10B_RS21650"; product "acid phosphatase AphA"; protein_id "WP_001226928.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4367957 4368373 . + . gene_id "ECDH10B_RS21655"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21655"; old_locus_tag "ECDH10B_4245"; -NC_010473.1 Protein Homology CDS 4367957 4368370 . + 0 gene_id "ECDH10B_RS21655"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313065.1"; locus_tag "ECDH10B_RS21655"; product "YjbQ family protein"; protein_id "WP_000270375.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4367957 4367959 . + 0 gene_id "ECDH10B_RS21655"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313065.1"; locus_tag "ECDH10B_RS21655"; product "YjbQ family protein"; protein_id "WP_000270375.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4368371 4368373 . + 0 gene_id "ECDH10B_RS21655"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313065.1"; locus_tag "ECDH10B_RS21655"; product "YjbQ family protein"; protein_id "WP_000270375.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4368377 4368733 . + . gene_id "ECDH10B_RS21660"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21660"; old_locus_tag "ECDH10B_4246"; -NC_010473.1 Protein Homology CDS 4368377 4368730 . + 0 gene_id "ECDH10B_RS21660"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313066.1"; locus_tag "ECDH10B_RS21660"; product "MmcQ/YjbR family DNA-binding protein"; protein_id "WP_000155657.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4368377 4368379 . + 0 gene_id "ECDH10B_RS21660"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313066.1"; locus_tag "ECDH10B_RS21660"; product "MmcQ/YjbR family DNA-binding protein"; protein_id "WP_000155657.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4368731 4368733 . + 0 gene_id "ECDH10B_RS21660"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313066.1"; locus_tag "ECDH10B_RS21660"; product "MmcQ/YjbR family DNA-binding protein"; protein_id "WP_000155657.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4368768 4371590 . - . gene_id "ECDH10B_RS21665"; transcript_id ""; gbkey "Gene"; gene "uvrA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21665"; -NC_010473.1 Protein Homology CDS 4368771 4371590 . - 0 gene_id "ECDH10B_RS21665"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "uvrA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418482.1"; locus_tag "ECDH10B_RS21665"; product "excinuclease ABC subunit UvrA"; protein_id "WP_000357732.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4371588 4371590 . - 0 gene_id "ECDH10B_RS21665"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "uvrA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418482.1"; locus_tag "ECDH10B_RS21665"; product "excinuclease ABC subunit UvrA"; protein_id "WP_000357732.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4368768 4368770 . - 0 gene_id "ECDH10B_RS21665"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "uvrA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418482.1"; locus_tag "ECDH10B_RS21665"; product "excinuclease ABC subunit UvrA"; protein_id "WP_000357732.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4371844 4372380 . + . gene_id "ECDH10B_RS21670"; transcript_id ""; gbkey "Gene"; gene "ssb1"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21670"; old_locus_tag "ECDH10B_4248"; -NC_010473.1 Protein Homology CDS 4371844 4372377 . + 0 gene_id "ECDH10B_RS21670"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ssb1"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313068.1"; locus_tag "ECDH10B_RS21670"; product "single-stranded DNA-binding protein SSB1"; protein_id "WP_000168305.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4371844 4371846 . + 0 gene_id "ECDH10B_RS21670"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ssb1"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313068.1"; locus_tag "ECDH10B_RS21670"; product "single-stranded DNA-binding protein SSB1"; protein_id "WP_000168305.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4372378 4372380 . + 0 gene_id "ECDH10B_RS21670"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ssb1"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313068.1"; locus_tag "ECDH10B_RS21670"; product "single-stranded DNA-binding protein SSB1"; protein_id "WP_000168305.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4372479 4372760 . - . gene_id "ECDH10B_RS21675"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21675"; old_locus_tag "ECDH10B_4249"; -NC_010473.1 Protein Homology CDS 4372482 4372760 . - 0 gene_id "ECDH10B_RS21675"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313069.2"; locus_tag "ECDH10B_RS21675"; product "YjcB family protein"; protein_id "WP_001295689.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4372758 4372760 . - 0 gene_id "ECDH10B_RS21675"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313069.2"; locus_tag "ECDH10B_RS21675"; product "YjcB family protein"; protein_id "WP_001295689.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4372479 4372481 . - 0 gene_id "ECDH10B_RS21675"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313069.2"; locus_tag "ECDH10B_RS21675"; product "YjcB family protein"; protein_id "WP_001295689.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4373190 4374776 . + . gene_id "ECDH10B_RS21680"; transcript_id ""; gbkey "Gene"; gene "pdeC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21680"; -NC_010473.1 Protein Homology CDS 4373190 4374773 . + 0 gene_id "ECDH10B_RS21680"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pdeC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418485.1"; locus_tag "ECDH10B_RS21680"; product "c-di-GMP phosphodiesterase PdeC"; protein_id "WP_000019545.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4373190 4373192 . + 0 gene_id "ECDH10B_RS21680"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pdeC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418485.1"; locus_tag "ECDH10B_RS21680"; product "c-di-GMP phosphodiesterase PdeC"; protein_id "WP_000019545.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4374774 4374776 . + 0 gene_id "ECDH10B_RS21680"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pdeC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418485.1"; locus_tag "ECDH10B_RS21680"; product "c-di-GMP phosphodiesterase PdeC"; protein_id "WP_000019545.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4374779 4375102 . - . gene_id "ECDH10B_RS21685"; transcript_id ""; gbkey "Gene"; gene "soxS"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21685"; old_locus_tag "ECDH10B_4251"; -NC_010473.1 Protein Homology CDS 4374782 4375102 . - 0 gene_id "ECDH10B_RS21685"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "soxS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313071.1"; locus_tag "ECDH10B_RS21685"; product "superoxide response transcriptional regulator SoxS"; protein_id "WP_000019358.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4375100 4375102 . - 0 gene_id "ECDH10B_RS21685"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "soxS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313071.1"; locus_tag "ECDH10B_RS21685"; product "superoxide response transcriptional regulator SoxS"; protein_id "WP_000019358.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4374779 4374781 . - 0 gene_id "ECDH10B_RS21685"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "soxS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313071.1"; locus_tag "ECDH10B_RS21685"; product "superoxide response transcriptional regulator SoxS"; protein_id "WP_000019358.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4375188 4375652 . + . gene_id "ECDH10B_RS21690"; transcript_id ""; gbkey "Gene"; gene "soxR"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21690"; old_locus_tag "ECDH10B_4252"; -NC_010473.1 Protein Homology CDS 4375188 4375649 . + 0 gene_id "ECDH10B_RS21690"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "soxR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313072.1"; locus_tag "ECDH10B_RS21690"; product "redox-sensitive transcriptional activator SoxR"; protein_id "WP_000412428.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4375188 4375190 . + 0 gene_id "ECDH10B_RS21690"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "soxR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313072.1"; locus_tag "ECDH10B_RS21690"; product "redox-sensitive transcriptional activator SoxR"; protein_id "WP_000412428.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4375650 4375652 . + 0 gene_id "ECDH10B_RS21690"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "soxR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313072.1"; locus_tag "ECDH10B_RS21690"; product "redox-sensitive transcriptional activator SoxR"; protein_id "WP_000412428.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4376198 4377547 . + . gene_id "ECDH10B_RS21695"; transcript_id ""; gbkey "Gene"; gene "ghxP"; gene_biotype "protein_coding"; gene_synonym "yjcD"; locus_tag "ECDH10B_RS21695"; old_locus_tag "ECDH10B_4254"; -NC_010473.1 Protein Homology CDS 4376198 4377544 . + 0 gene_id "ECDH10B_RS21695"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ghxP"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005132609.1"; locus_tag "ECDH10B_RS21695"; product "guanine/hypoxanthine transporter GhxP"; protein_id "WP_000106882.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4376198 4376200 . + 0 gene_id "ECDH10B_RS21695"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ghxP"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005132609.1"; locus_tag "ECDH10B_RS21695"; product "guanine/hypoxanthine transporter GhxP"; protein_id "WP_000106882.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4377545 4377547 . + 0 gene_id "ECDH10B_RS21695"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ghxP"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005132609.1"; locus_tag "ECDH10B_RS21695"; product "guanine/hypoxanthine transporter GhxP"; protein_id "WP_000106882.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4377699 4379348 . + . gene_id "ECDH10B_RS21700"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21700"; old_locus_tag "ECDH10B_4255"; -NC_010473.1 Protein Homology CDS 4377699 4379345 . + 0 gene_id "ECDH10B_RS21700"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418489.1"; locus_tag "ECDH10B_RS21700"; product "Na+/H+ antiporter"; protein_id "WP_000402210.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4377699 4377701 . + 0 gene_id "ECDH10B_RS21700"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418489.1"; locus_tag "ECDH10B_RS21700"; product "Na+/H+ antiporter"; protein_id "WP_000402210.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4379346 4379348 . + 0 gene_id "ECDH10B_RS21700"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418489.1"; locus_tag "ECDH10B_RS21700"; product "Na+/H+ antiporter"; protein_id "WP_000402210.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4379502 4380794 . - . gene_id "ECDH10B_RS21705"; transcript_id ""; gbkey "Gene"; gene "espX5"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21705"; old_locus_tag "ECDH10B_4256"; -NC_010473.1 Protein Homology CDS 4379505 4380794 . - 0 gene_id "ECDH10B_RS21705"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "espX5"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418490.1"; locus_tag "ECDH10B_RS21705"; product "T3SS effector pentapeptide repeat protein EspX5"; protein_id "WP_001270094.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4380792 4380794 . - 0 gene_id "ECDH10B_RS21705"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "espX5"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418490.1"; locus_tag "ECDH10B_RS21705"; product "T3SS effector pentapeptide repeat protein EspX5"; protein_id "WP_001270094.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4379502 4379504 . - 0 gene_id "ECDH10B_RS21705"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "espX5"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418490.1"; locus_tag "ECDH10B_RS21705"; product "T3SS effector pentapeptide repeat protein EspX5"; protein_id "WP_001270094.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4380972 4382621 . - . gene_id "ECDH10B_RS21710"; transcript_id ""; gbkey "Gene"; gene "actP"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21710"; old_locus_tag "ECDH10B_4257"; -NC_010473.1 Protein Homology CDS 4380975 4382621 . - 0 gene_id "ECDH10B_RS21710"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "actP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418491.1"; locus_tag "ECDH10B_RS21710"; product "cation/acetate symporter ActP"; protein_id "WP_000832573.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4382619 4382621 . - 0 gene_id "ECDH10B_RS21710"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "actP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418491.1"; locus_tag "ECDH10B_RS21710"; product "cation/acetate symporter ActP"; protein_id "WP_000832573.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4380972 4380974 . - 0 gene_id "ECDH10B_RS21710"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "actP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418491.1"; locus_tag "ECDH10B_RS21710"; product "cation/acetate symporter ActP"; protein_id "WP_000832573.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4382618 4382932 . - . gene_id "ECDH10B_RS21715"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21715"; old_locus_tag "ECDH10B_4258"; -NC_010473.1 Protein Homology CDS 4382621 4382932 . - 0 gene_id "ECDH10B_RS21715"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418492.1"; locus_tag "ECDH10B_RS21715"; product "DUF485 domain-containing protein"; protein_id "WP_001014565.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4382930 4382932 . - 0 gene_id "ECDH10B_RS21715"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418492.1"; locus_tag "ECDH10B_RS21715"; product "DUF485 domain-containing protein"; protein_id "WP_001014565.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4382618 4382620 . - 0 gene_id "ECDH10B_RS21715"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418492.1"; locus_tag "ECDH10B_RS21715"; product "DUF485 domain-containing protein"; protein_id "WP_001014565.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4383132 4385090 . - . gene_id "ECDH10B_RS21720"; transcript_id ""; gbkey "Gene"; gene "acs"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21720"; old_locus_tag "ECDH10B_4259"; -NC_010473.1 Protein Homology CDS 4383135 4385090 . - 0 gene_id "ECDH10B_RS21720"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "acs"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418493.1"; locus_tag "ECDH10B_RS21720"; product "acetate--CoA ligase"; protein_id "WP_000078239.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4385088 4385090 . - 0 gene_id "ECDH10B_RS21720"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "acs"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418493.1"; locus_tag "ECDH10B_RS21720"; product "acetate--CoA ligase"; protein_id "WP_000078239.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4383132 4383134 . - 0 gene_id "ECDH10B_RS21720"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "acs"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418493.1"; locus_tag "ECDH10B_RS21720"; product "acetate--CoA ligase"; protein_id "WP_000078239.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4385483 4386919 . + . gene_id "ECDH10B_RS21725"; transcript_id ""; gbkey "Gene"; gene "nrfA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21725"; old_locus_tag "ECDH10B_4260"; -NC_010473.1 Protein Homology CDS 4385483 4386916 . + 0 gene_id "ECDH10B_RS21725"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nrfA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313079.1"; locus_tag "ECDH10B_RS21725"; product "ammonia-forming nitrite reductase cytochrome c552 subunit"; protein_id "WP_000196875.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4385483 4385485 . + 0 gene_id "ECDH10B_RS21725"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nrfA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313079.1"; locus_tag "ECDH10B_RS21725"; product "ammonia-forming nitrite reductase cytochrome c552 subunit"; protein_id "WP_000196875.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4386917 4386919 . + 0 gene_id "ECDH10B_RS21725"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nrfA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313079.1"; locus_tag "ECDH10B_RS21725"; product "ammonia-forming nitrite reductase cytochrome c552 subunit"; protein_id "WP_000196875.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4386964 4387173 . + . gene_id "ECDH10B_RS21730"; transcript_id ""; gbkey "Gene"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS21730"; partial "true"; pseudo "true"; -NC_010473.1 Protein Homology CDS 4386964 4387170 . + 0 gene_id "ECDH10B_RS21730"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418495.2"; locus_tag "ECDH10B_RS21730"; note "part of nitrite reductase complex; NrfB is active at high nitrate conditions; NrfA, B, C, and D are essential for the formate-dependent nitrite reduction to ammonia; incomplete; partial in the middle of a contig; missing C-terminus"; partial "true"; product "cytochrome C nitrite reductase"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4386964 4386966 . + 0 gene_id "ECDH10B_RS21730"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418495.2"; locus_tag "ECDH10B_RS21730"; note "part of nitrite reductase complex; NrfB is active at high nitrate conditions; NrfA, B, C, and D are essential for the formate-dependent nitrite reduction to ammonia; incomplete; partial in the middle of a contig; missing C-terminus"; partial "true"; product "cytochrome C nitrite reductase"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4387171 4387173 . + 0 gene_id "ECDH10B_RS21730"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418495.2"; locus_tag "ECDH10B_RS21730"; note "part of nitrite reductase complex; NrfB is active at high nitrate conditions; NrfA, B, C, and D are essential for the formate-dependent nitrite reduction to ammonia; incomplete; partial in the middle of a contig; missing C-terminus"; partial "true"; product "cytochrome C nitrite reductase"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 4387231 4387928 . + . gene_id "ECDH10B_RS21735"; transcript_id ""; gbkey "Gene"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS21735"; pseudo "true"; -NC_010473.1 Protein Homology CDS 4387231 4387925 . + 0 gene_id "ECDH10B_RS21735"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_076612230.1"; locus_tag "ECDH10B_RS21735"; note "frameshifted"; product "IS1-like element IS1A family transposase"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4387231 4387233 . + 0 gene_id "ECDH10B_RS21735"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_076612230.1"; locus_tag "ECDH10B_RS21735"; note "frameshifted"; product "IS1-like element IS1A family transposase"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4387926 4387928 . + 0 gene_id "ECDH10B_RS21735"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_076612230.1"; locus_tag "ECDH10B_RS21735"; note "frameshifted"; product "IS1-like element IS1A family transposase"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 4387936 4388307 . + . gene_id "ECDH10B_RS21740"; transcript_id ""; gbkey "Gene"; gene "nrfB"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS21740"; partial "true"; pseudo "true"; -NC_010473.1 Protein Homology CDS 4387936 4388304 . + 0 gene_id "ECDH10B_RS21740"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nrfB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418495.2"; locus_tag "ECDH10B_RS21740"; note "incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "cytochrome c nitrite reductase pentaheme subunit"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4387936 4387938 . + 0 gene_id "ECDH10B_RS21740"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nrfB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418495.2"; locus_tag "ECDH10B_RS21740"; note "incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "cytochrome c nitrite reductase pentaheme subunit"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4388305 4388307 . + 0 gene_id "ECDH10B_RS21740"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nrfB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418495.2"; locus_tag "ECDH10B_RS21740"; note "incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "cytochrome c nitrite reductase pentaheme subunit"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 4388304 4388975 . + . gene_id "ECDH10B_RS21745"; transcript_id ""; gbkey "Gene"; gene "nrfC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21745"; old_locus_tag "ECDH10B_4263"; -NC_010473.1 Protein Homology CDS 4388304 4388972 . + 0 gene_id "ECDH10B_RS21745"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nrfC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313081.1"; locus_tag "ECDH10B_RS21745"; product "cytochrome c nitrite reductase Fe-S protein"; protein_id "WP_000220281.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4388304 4388306 . + 0 gene_id "ECDH10B_RS21745"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nrfC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313081.1"; locus_tag "ECDH10B_RS21745"; product "cytochrome c nitrite reductase Fe-S protein"; protein_id "WP_000220281.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4388973 4388975 . + 0 gene_id "ECDH10B_RS21745"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nrfC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313081.1"; locus_tag "ECDH10B_RS21745"; product "cytochrome c nitrite reductase Fe-S protein"; protein_id "WP_000220281.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4388972 4389928 . + . gene_id "ECDH10B_RS21750"; transcript_id ""; gbkey "Gene"; gene "nrfD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21750"; old_locus_tag "ECDH10B_4264"; -NC_010473.1 Protein Homology CDS 4388972 4389925 . + 0 gene_id "ECDH10B_RS21750"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nrfD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418497.1"; locus_tag "ECDH10B_RS21750"; product "cytochrome c nitrite reductase subunit NrfD"; protein_id "WP_000195171.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4388972 4388974 . + 0 gene_id "ECDH10B_RS21750"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nrfD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418497.1"; locus_tag "ECDH10B_RS21750"; product "cytochrome c nitrite reductase subunit NrfD"; protein_id "WP_000195171.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4389926 4389928 . + 0 gene_id "ECDH10B_RS21750"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nrfD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418497.1"; locus_tag "ECDH10B_RS21750"; product "cytochrome c nitrite reductase subunit NrfD"; protein_id "WP_000195171.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4389948 4391666 . + . gene_id "ECDH10B_RS21755"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21755"; old_locus_tag "ECDH10B_4265"; -NC_010473.1 Protein Homology CDS 4389948 4391663 . + 0 gene_id "ECDH10B_RS21755"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_014640253.1"; locus_tag "ECDH10B_RS21755"; product "heme lyase CcmF/NrfE family subunit"; protein_id "WP_071524917.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4389948 4389950 . + 0 gene_id "ECDH10B_RS21755"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_014640253.1"; locus_tag "ECDH10B_RS21755"; product "heme lyase CcmF/NrfE family subunit"; protein_id "WP_071524917.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4391664 4391666 . + 0 gene_id "ECDH10B_RS21755"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_014640253.1"; locus_tag "ECDH10B_RS21755"; product "heme lyase CcmF/NrfE family subunit"; protein_id "WP_071524917.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4391659 4392042 . + . gene_id "ECDH10B_RS21760"; transcript_id ""; gbkey "Gene"; gene "nrfF"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21760"; old_locus_tag "ECDH10B_4266"; -NC_010473.1 Protein Homology CDS 4391659 4392039 . + 0 gene_id "ECDH10B_RS21760"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nrfF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418499.1"; locus_tag "ECDH10B_RS21760"; product "heme lyase NrfEFG subunit NrfF"; protein_id "WP_001032531.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4391659 4391661 . + 0 gene_id "ECDH10B_RS21760"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nrfF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418499.1"; locus_tag "ECDH10B_RS21760"; product "heme lyase NrfEFG subunit NrfF"; protein_id "WP_001032531.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4392040 4392042 . + 0 gene_id "ECDH10B_RS21760"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nrfF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418499.1"; locus_tag "ECDH10B_RS21760"; product "heme lyase NrfEFG subunit NrfF"; protein_id "WP_001032531.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4392039 4392635 . + . gene_id "ECDH10B_RS21765"; transcript_id ""; gbkey "Gene"; gene "nrfG"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21765"; old_locus_tag "ECDH10B_4267"; -NC_010473.1 Protein Homology CDS 4392039 4392632 . + 0 gene_id "ECDH10B_RS21765"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nrfG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418500.1"; locus_tag "ECDH10B_RS21765"; product "heme lyase NrfEFG subunit NrfG"; protein_id "WP_000812896.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4392039 4392041 . + 0 gene_id "ECDH10B_RS21765"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nrfG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418500.1"; locus_tag "ECDH10B_RS21765"; product "heme lyase NrfEFG subunit NrfG"; protein_id "WP_000812896.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4392633 4392635 . + 0 gene_id "ECDH10B_RS21765"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nrfG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418500.1"; locus_tag "ECDH10B_RS21765"; product "heme lyase NrfEFG subunit NrfG"; protein_id "WP_000812896.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4392977 4394290 . + . gene_id "ECDH10B_RS21770"; transcript_id ""; gbkey "Gene"; gene "gltP"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21770"; old_locus_tag "ECDH10B_4268"; -NC_010473.1 Protein Homology CDS 4392977 4394287 . + 0 gene_id "ECDH10B_RS21770"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gltP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418501.1"; locus_tag "ECDH10B_RS21770"; product "glutamate/aspartate:proton symporter GltP"; protein_id "WP_000789592.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4392977 4392979 . + 0 gene_id "ECDH10B_RS21770"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gltP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418501.1"; locus_tag "ECDH10B_RS21770"; product "glutamate/aspartate:proton symporter GltP"; protein_id "WP_000789592.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4394288 4394290 . + 0 gene_id "ECDH10B_RS21770"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gltP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418501.1"; locus_tag "ECDH10B_RS21770"; product "glutamate/aspartate:proton symporter GltP"; protein_id "WP_000789592.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4394821 4395510 . - . gene_id "ECDH10B_RS21775"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21775"; old_locus_tag "ECDH10B_4269"; -NC_010473.1 Protein Homology CDS 4394824 4395510 . - 0 gene_id "ECDH10B_RS21775"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313087.1"; locus_tag "ECDH10B_RS21775"; product "sel1 repeat family protein"; protein_id "WP_000719886.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4395508 4395510 . - 0 gene_id "ECDH10B_RS21775"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313087.1"; locus_tag "ECDH10B_RS21775"; product "sel1 repeat family protein"; protein_id "WP_000719886.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4394821 4394823 . - 0 gene_id "ECDH10B_RS21775"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313087.1"; locus_tag "ECDH10B_RS21775"; product "sel1 repeat family protein"; protein_id "WP_000719886.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4395604 4397751 . - . gene_id "ECDH10B_RS21780"; transcript_id ""; gbkey "Gene"; gene "fdhF"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21780"; old_locus_tag "ECDH10B_4270"; -NC_010473.1 Protein Homology CDS 4395607 4397751 . - 0 gene_id "ECDH10B_RS21780"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fdhF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418503.1"; locus_tag "ECDH10B_RS21780"; product "formate dehydrogenase subunit alpha"; protein_id "WP_001300547.1"; transl_except "(pos:complement(4397332..4397334),aa:Sec)"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4397749 4397751 . - 0 gene_id "ECDH10B_RS21780"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fdhF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418503.1"; locus_tag "ECDH10B_RS21780"; product "formate dehydrogenase subunit alpha"; protein_id "WP_001300547.1"; transl_except "(pos:complement(4397332..4397334),aa:Sec)"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4395604 4395606 . - 0 gene_id "ECDH10B_RS21780"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fdhF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418503.1"; locus_tag "ECDH10B_RS21780"; product "formate dehydrogenase subunit alpha"; protein_id "WP_001300547.1"; transl_except "(pos:complement(4397332..4397334),aa:Sec)"; transl_table "11"; -NC_010473.1 RefSeq gene 4397949 4399415 . - . gene_id "ECDH10B_RS21790"; transcript_id ""; gbkey "Gene"; gene "mdtP"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21790"; old_locus_tag "ECDH10B_4271"; -NC_010473.1 Protein Homology CDS 4397952 4399415 . - 0 gene_id "ECDH10B_RS21790"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mdtP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418504.1"; locus_tag "ECDH10B_RS21790"; product "multidrug efflux transporter outer membrane subunit MdtP"; protein_id "WP_000610601.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4399413 4399415 . - 0 gene_id "ECDH10B_RS21790"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mdtP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418504.1"; locus_tag "ECDH10B_RS21790"; product "multidrug efflux transporter outer membrane subunit MdtP"; protein_id "WP_000610601.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4397949 4397951 . - 0 gene_id "ECDH10B_RS21790"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mdtP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418504.1"; locus_tag "ECDH10B_RS21790"; product "multidrug efflux transporter outer membrane subunit MdtP"; protein_id "WP_000610601.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4399412 4401463 . - . gene_id "ECDH10B_RS21795"; transcript_id ""; gbkey "Gene"; gene "mdtO"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21795"; old_locus_tag "ECDH10B_4272"; -NC_010473.1 Protein Homology CDS 4399415 4401463 . - 0 gene_id "ECDH10B_RS21795"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mdtO"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418505.2"; locus_tag "ECDH10B_RS21795"; product "multidrug efflux transporter permease subunit MdtO"; protein_id "WP_001275207.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4401461 4401463 . - 0 gene_id "ECDH10B_RS21795"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mdtO"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418505.2"; locus_tag "ECDH10B_RS21795"; product "multidrug efflux transporter permease subunit MdtO"; protein_id "WP_001275207.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4399412 4399414 . - 0 gene_id "ECDH10B_RS21795"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mdtO"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418505.2"; locus_tag "ECDH10B_RS21795"; product "multidrug efflux transporter permease subunit MdtO"; protein_id "WP_001275207.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4401463 4402494 . - . gene_id "ECDH10B_RS21800"; transcript_id ""; gbkey "Gene"; gene "mdtN"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21800"; old_locus_tag "ECDH10B_4273"; -NC_010473.1 Protein Homology CDS 4401466 4402494 . - 0 gene_id "ECDH10B_RS21800"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mdtN"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418506.1"; locus_tag "ECDH10B_RS21800"; product "multidrug efflux transporter periplasmic adaptor subunit MdtN"; protein_id "WP_000446378.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4402492 4402494 . - 0 gene_id "ECDH10B_RS21800"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mdtN"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418506.1"; locus_tag "ECDH10B_RS21800"; product "multidrug efflux transporter periplasmic adaptor subunit MdtN"; protein_id "WP_000446378.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4401463 4401465 . - 0 gene_id "ECDH10B_RS21800"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mdtN"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418506.1"; locus_tag "ECDH10B_RS21800"; product "multidrug efflux transporter periplasmic adaptor subunit MdtN"; protein_id "WP_000446378.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4402513 4402788 . - . gene_id "ECDH10B_RS21805"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21805"; -NC_010473.1 Protein Homology CDS 4402516 4402788 . - 0 gene_id "ECDH10B_RS21805"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_001165334.1"; locus_tag "ECDH10B_RS21805"; product "transporter"; protein_id "WP_001295389.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4402786 4402788 . - 0 gene_id "ECDH10B_RS21805"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_001165334.1"; locus_tag "ECDH10B_RS21805"; product "transporter"; protein_id "WP_001295389.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4402513 4402515 . - 0 gene_id "ECDH10B_RS21805"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_001165334.1"; locus_tag "ECDH10B_RS21805"; product "transporter"; protein_id "WP_001295389.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4402997 4404982 . - . gene_id "ECDH10B_RS21810"; transcript_id ""; gbkey "Gene"; gene "yjcS"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21810"; old_locus_tag "ECDH10B_4274"; -NC_010473.1 Protein Homology CDS 4403000 4404982 . - 0 gene_id "ECDH10B_RS21810"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yjcS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418507.2"; locus_tag "ECDH10B_RS21810"; product "alkyl sulfatase YjcS"; protein_id "WP_001066019.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4404980 4404982 . - 0 gene_id "ECDH10B_RS21810"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yjcS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418507.2"; locus_tag "ECDH10B_RS21810"; product "alkyl sulfatase YjcS"; protein_id "WP_001066019.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4402997 4402999 . - 0 gene_id "ECDH10B_RS21810"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yjcS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418507.2"; locus_tag "ECDH10B_RS21810"; product "alkyl sulfatase YjcS"; protein_id "WP_001066019.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4405255 4406184 . - . gene_id "ECDH10B_RS21815"; transcript_id ""; gbkey "Gene"; gene "alsK"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21815"; old_locus_tag "ECDH10B_4275"; -NC_010473.1 Protein Homology CDS 4405258 4406184 . - 0 gene_id "ECDH10B_RS21815"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "alsK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418508.1"; locus_tag "ECDH10B_RS21815"; product "allose kinase"; protein_id "WP_001171687.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4406182 4406184 . - 0 gene_id "ECDH10B_RS21815"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "alsK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418508.1"; locus_tag "ECDH10B_RS21815"; product "allose kinase"; protein_id "WP_001171687.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4405255 4405257 . - 0 gene_id "ECDH10B_RS21815"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "alsK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418508.1"; locus_tag "ECDH10B_RS21815"; product "allose kinase"; protein_id "WP_001171687.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4406168 4406863 . - . gene_id "ECDH10B_RS21820"; transcript_id ""; gbkey "Gene"; gene "alsE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21820"; old_locus_tag "ECDH10B_4276"; -NC_010473.1 Protein Homology CDS 4406171 4406863 . - 0 gene_id "ECDH10B_RS21820"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "alsE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418509.1"; locus_tag "ECDH10B_RS21820"; product "D-allulose-6-phosphate 3-epimerase"; protein_id "WP_001311314.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4406861 4406863 . - 0 gene_id "ECDH10B_RS21820"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "alsE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418509.1"; locus_tag "ECDH10B_RS21820"; product "D-allulose-6-phosphate 3-epimerase"; protein_id "WP_001311314.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4406168 4406170 . - 0 gene_id "ECDH10B_RS21820"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "alsE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418509.1"; locus_tag "ECDH10B_RS21820"; product "D-allulose-6-phosphate 3-epimerase"; protein_id "WP_001311314.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4406874 4407854 . - . gene_id "ECDH10B_RS21825"; transcript_id ""; gbkey "Gene"; gene "alsC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21825"; old_locus_tag "ECDH10B_4277"; -NC_010473.1 Protein Homology CDS 4406877 4407854 . - 0 gene_id "ECDH10B_RS21825"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "alsC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418510.1"; locus_tag "ECDH10B_RS21825"; product "D-allose ABC transporter permease"; protein_id "WP_000507106.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4407852 4407854 . - 0 gene_id "ECDH10B_RS21825"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "alsC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418510.1"; locus_tag "ECDH10B_RS21825"; product "D-allose ABC transporter permease"; protein_id "WP_000507106.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4406874 4406876 . - 0 gene_id "ECDH10B_RS21825"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "alsC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418510.1"; locus_tag "ECDH10B_RS21825"; product "D-allose ABC transporter permease"; protein_id "WP_000507106.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4407833 4409365 . - . gene_id "ECDH10B_RS21830"; transcript_id ""; gbkey "Gene"; gene "alsA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21830"; old_locus_tag "ECDH10B_4278"; -NC_010473.1 Protein Homology CDS 4407836 4409365 . - 0 gene_id "ECDH10B_RS21830"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "alsA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418511.1"; locus_tag "ECDH10B_RS21830"; product "D-allose ABC transporter ATP-binding protein AlsA"; protein_id "WP_000235257.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4409363 4409365 . - 0 gene_id "ECDH10B_RS21830"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "alsA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418511.1"; locus_tag "ECDH10B_RS21830"; product "D-allose ABC transporter ATP-binding protein AlsA"; protein_id "WP_000235257.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4407833 4407835 . - 0 gene_id "ECDH10B_RS21830"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "alsA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418511.1"; locus_tag "ECDH10B_RS21830"; product "D-allose ABC transporter ATP-binding protein AlsA"; protein_id "WP_000235257.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4409492 4410427 . - . gene_id "ECDH10B_RS21835"; transcript_id ""; gbkey "Gene"; gene "alsB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21835"; old_locus_tag "ECDH10B_4279"; -NC_010473.1 Protein Homology CDS 4409495 4410427 . - 0 gene_id "ECDH10B_RS21835"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "alsB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418512.1"; locus_tag "ECDH10B_RS21835"; product "D-allose transporter substrate-binding protein"; protein_id "WP_001046187.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4410425 4410427 . - 0 gene_id "ECDH10B_RS21835"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "alsB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418512.1"; locus_tag "ECDH10B_RS21835"; product "D-allose transporter substrate-binding protein"; protein_id "WP_001046187.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4409492 4409494 . - 0 gene_id "ECDH10B_RS21835"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "alsB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418512.1"; locus_tag "ECDH10B_RS21835"; product "D-allose transporter substrate-binding protein"; protein_id "WP_001046187.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4410486 4411376 . - . gene_id "ECDH10B_RS21840"; transcript_id ""; gbkey "Gene"; gene "alsR"; gene_biotype "protein_coding"; gene_synonym "rpiR"; locus_tag "ECDH10B_RS21840"; old_locus_tag "ECDH10B_4280"; -NC_010473.1 Protein Homology CDS 4410489 4411376 . - 0 gene_id "ECDH10B_RS21840"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "alsR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418513.4"; locus_tag "ECDH10B_RS21840"; product "als operon DNA-binding transcriptional repressor AlsR"; protein_id "WP_000083216.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4411374 4411376 . - 0 gene_id "ECDH10B_RS21840"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "alsR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418513.4"; locus_tag "ECDH10B_RS21840"; product "als operon DNA-binding transcriptional repressor AlsR"; protein_id "WP_000083216.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4410486 4410488 . - 0 gene_id "ECDH10B_RS21840"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "alsR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418513.4"; locus_tag "ECDH10B_RS21840"; product "als operon DNA-binding transcriptional repressor AlsR"; protein_id "WP_000083216.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4411735 4412184 . + . gene_id "ECDH10B_RS21845"; transcript_id ""; gbkey "Gene"; gene "rpiB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21845"; old_locus_tag "ECDH10B_4281"; -NC_010473.1 Protein Homology CDS 4411735 4412181 . + 0 gene_id "ECDH10B_RS21845"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rpiB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418514.1"; locus_tag "ECDH10B_RS21845"; product "bifunctional allose-6-phosphate isomerase/ribose-5-phosphate isomerase RpiB"; protein_id "WP_000716794.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4411735 4411737 . + 0 gene_id "ECDH10B_RS21845"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rpiB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418514.1"; locus_tag "ECDH10B_RS21845"; product "bifunctional allose-6-phosphate isomerase/ribose-5-phosphate isomerase RpiB"; protein_id "WP_000716794.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4412182 4412184 . + 0 gene_id "ECDH10B_RS21845"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rpiB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418514.1"; locus_tag "ECDH10B_RS21845"; product "bifunctional allose-6-phosphate isomerase/ribose-5-phosphate isomerase RpiB"; protein_id "WP_000716794.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4412253 4412582 . + . gene_id "ECDH10B_RS21850"; transcript_id ""; gbkey "Gene"; gene "yjdP"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21850"; old_locus_tag "ECDH10B_4282"; -NC_010473.1 Protein Homology CDS 4412253 4412579 . + 0 gene_id "ECDH10B_RS21850"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yjdP"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026281.1"; locus_tag "ECDH10B_RS21850"; product "protein YjdP"; protein_id "WP_000819746.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4412253 4412255 . + 0 gene_id "ECDH10B_RS21850"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yjdP"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026281.1"; locus_tag "ECDH10B_RS21850"; product "protein YjdP"; protein_id "WP_000819746.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4412580 4412582 . + 0 gene_id "ECDH10B_RS21850"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yjdP"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026281.1"; locus_tag "ECDH10B_RS21850"; product "protein YjdP"; protein_id "WP_000819746.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4412729 4413487 . - . gene_id "ECDH10B_RS21855"; transcript_id ""; gbkey "Gene"; gene "phnP"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21855"; old_locus_tag "ECDH10B_4283"; -NC_010473.1 Protein Homology CDS 4412732 4413487 . - 0 gene_id "ECDH10B_RS21855"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "phnP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418516.1"; locus_tag "ECDH10B_RS21855"; product "phosphonate metabolism protein PhnP"; protein_id "WP_000059908.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4413485 4413487 . - 0 gene_id "ECDH10B_RS21855"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "phnP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418516.1"; locus_tag "ECDH10B_RS21855"; product "phosphonate metabolism protein PhnP"; protein_id "WP_000059908.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4412729 4412731 . - 0 gene_id "ECDH10B_RS21855"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "phnP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418516.1"; locus_tag "ECDH10B_RS21855"; product "phosphonate metabolism protein PhnP"; protein_id "WP_000059908.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4413489 4413923 . - . gene_id "ECDH10B_RS21860"; transcript_id ""; gbkey "Gene"; gene "phnO"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21860"; old_locus_tag "ECDH10B_4284"; -NC_010473.1 Protein Homology CDS 4413492 4413923 . - 0 gene_id "ECDH10B_RS21860"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "phnO"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418517.1"; locus_tag "ECDH10B_RS21860"; product "aminoalkylphosphonate N-acetyltransferase"; protein_id "WP_001110490.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4413921 4413923 . - 0 gene_id "ECDH10B_RS21860"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "phnO"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418517.1"; locus_tag "ECDH10B_RS21860"; product "aminoalkylphosphonate N-acetyltransferase"; protein_id "WP_001110490.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4413489 4413491 . - 0 gene_id "ECDH10B_RS21860"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "phnO"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418517.1"; locus_tag "ECDH10B_RS21860"; product "aminoalkylphosphonate N-acetyltransferase"; protein_id "WP_001110490.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4413910 4414467 . - . gene_id "ECDH10B_RS21865"; transcript_id ""; gbkey "Gene"; gene "phnN"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21865"; old_locus_tag "ECDH10B_4285"; -NC_010473.1 Protein Homology CDS 4413913 4414467 . - 0 gene_id "ECDH10B_RS21865"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "phnN"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418518.1"; locus_tag "ECDH10B_RS21865"; product "ribose 1,5-bisphosphokinase"; protein_id "WP_000971886.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4414465 4414467 . - 0 gene_id "ECDH10B_RS21865"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "phnN"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418518.1"; locus_tag "ECDH10B_RS21865"; product "ribose 1,5-bisphosphokinase"; protein_id "WP_000971886.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4413910 4413912 . - 0 gene_id "ECDH10B_RS21865"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "phnN"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418518.1"; locus_tag "ECDH10B_RS21865"; product "ribose 1,5-bisphosphokinase"; protein_id "WP_000971886.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4414467 4415603 . - . gene_id "ECDH10B_RS21870"; transcript_id ""; gbkey "Gene"; gene "phnM"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21870"; old_locus_tag "ECDH10B_4286"; -NC_010473.1 Protein Homology CDS 4414470 4415603 . - 0 gene_id "ECDH10B_RS21870"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "phnM"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418519.1"; locus_tag "ECDH10B_RS21870"; product "alpha-D-ribose 1-methylphosphonate 5-triphosphate diphosphatase"; protein_id "WP_000586325.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4415601 4415603 . - 0 gene_id "ECDH10B_RS21870"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "phnM"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418519.1"; locus_tag "ECDH10B_RS21870"; product "alpha-D-ribose 1-methylphosphonate 5-triphosphate diphosphatase"; protein_id "WP_000586325.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4414467 4414469 . - 0 gene_id "ECDH10B_RS21870"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "phnM"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418519.1"; locus_tag "ECDH10B_RS21870"; product "alpha-D-ribose 1-methylphosphonate 5-triphosphate diphosphatase"; protein_id "WP_000586325.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4415600 4416280 . - . gene_id "ECDH10B_RS21875"; transcript_id ""; gbkey "Gene"; gene "phnL"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21875"; old_locus_tag "ECDH10B_4287"; -NC_010473.1 Protein Homology CDS 4415603 4416280 . - 0 gene_id "ECDH10B_RS21875"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "phnL"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418520.1"; locus_tag "ECDH10B_RS21875"; product "phosphonate C-P lyase system protein PhnL"; protein_id "WP_000611405.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4416278 4416280 . - 0 gene_id "ECDH10B_RS21875"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "phnL"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418520.1"; locus_tag "ECDH10B_RS21875"; product "phosphonate C-P lyase system protein PhnL"; protein_id "WP_000611405.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4415600 4415602 . - 0 gene_id "ECDH10B_RS21875"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "phnL"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418520.1"; locus_tag "ECDH10B_RS21875"; product "phosphonate C-P lyase system protein PhnL"; protein_id "WP_000611405.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4416391 4417149 . - . gene_id "ECDH10B_RS21880"; transcript_id ""; gbkey "Gene"; gene "phnK"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21880"; old_locus_tag "ECDH10B_4288"; -NC_010473.1 Protein Homology CDS 4416394 4417149 . - 0 gene_id "ECDH10B_RS21880"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "phnK"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026282.1"; locus_tag "ECDH10B_RS21880"; product "phosphonate C-P lyase system protein PhnK"; protein_id "WP_001075514.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4417147 4417149 . - 0 gene_id "ECDH10B_RS21880"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "phnK"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026282.1"; locus_tag "ECDH10B_RS21880"; product "phosphonate C-P lyase system protein PhnK"; protein_id "WP_001075514.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4416391 4416393 . - 0 gene_id "ECDH10B_RS21880"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "phnK"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026282.1"; locus_tag "ECDH10B_RS21880"; product "phosphonate C-P lyase system protein PhnK"; protein_id "WP_001075514.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4417146 4417991 . - . gene_id "ECDH10B_RS21885"; transcript_id ""; gbkey "Gene"; gene "phnJ"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21885"; old_locus_tag "ECDH10B_4289"; -NC_010473.1 Protein Homology CDS 4417149 4417991 . - 0 gene_id "ECDH10B_RS21885"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "phnJ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418522.1"; locus_tag "ECDH10B_RS21885"; product "alpha-D-ribose 1-methylphosphonate 5-phosphate C-P-lyase PhnJ"; protein_id "WP_000002303.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4417989 4417991 . - 0 gene_id "ECDH10B_RS21885"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "phnJ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418522.1"; locus_tag "ECDH10B_RS21885"; product "alpha-D-ribose 1-methylphosphonate 5-phosphate C-P-lyase PhnJ"; protein_id "WP_000002303.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4417146 4417148 . - 0 gene_id "ECDH10B_RS21885"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "phnJ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418522.1"; locus_tag "ECDH10B_RS21885"; product "alpha-D-ribose 1-methylphosphonate 5-phosphate C-P-lyase PhnJ"; protein_id "WP_000002303.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4417984 4419048 . - . gene_id "ECDH10B_RS21890"; transcript_id ""; gbkey "Gene"; gene "phnI"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21890"; old_locus_tag "ECDH10B_4290"; -NC_010473.1 Protein Homology CDS 4417987 4419048 . - 0 gene_id "ECDH10B_RS21890"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "phnI"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418523.1"; locus_tag "ECDH10B_RS21890"; product "alpha-D-ribose 1-methylphosphonate 5-triphosphate synthase subunit PhnI"; protein_id "WP_001295388.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4419046 4419048 . - 0 gene_id "ECDH10B_RS21890"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "phnI"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418523.1"; locus_tag "ECDH10B_RS21890"; product "alpha-D-ribose 1-methylphosphonate 5-triphosphate synthase subunit PhnI"; protein_id "WP_001295388.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4417984 4417986 . - 0 gene_id "ECDH10B_RS21890"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "phnI"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418523.1"; locus_tag "ECDH10B_RS21890"; product "alpha-D-ribose 1-methylphosphonate 5-triphosphate synthase subunit PhnI"; protein_id "WP_001295388.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4419048 4419632 . - . gene_id "ECDH10B_RS21895"; transcript_id ""; gbkey "Gene"; gene "phnH"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21895"; old_locus_tag "ECDH10B_4291"; -NC_010473.1 Protein Homology CDS 4419051 4419632 . - 0 gene_id "ECDH10B_RS21895"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "phnH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418524.1"; locus_tag "ECDH10B_RS21895"; product "phosphonate C-P lyase system protein PhnH"; protein_id "WP_000171628.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4419630 4419632 . - 0 gene_id "ECDH10B_RS21895"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "phnH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418524.1"; locus_tag "ECDH10B_RS21895"; product "phosphonate C-P lyase system protein PhnH"; protein_id "WP_000171628.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4419048 4419050 . - 0 gene_id "ECDH10B_RS21895"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "phnH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418524.1"; locus_tag "ECDH10B_RS21895"; product "phosphonate C-P lyase system protein PhnH"; protein_id "WP_000171628.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4419629 4420081 . - . gene_id "ECDH10B_RS21900"; transcript_id ""; gbkey "Gene"; gene "phnG"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21900"; old_locus_tag "ECDH10B_4292"; -NC_010473.1 Protein Homology CDS 4419632 4420081 . - 0 gene_id "ECDH10B_RS21900"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "phnG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418525.1"; locus_tag "ECDH10B_RS21900"; product "phosphonate C-P lyase system protein PhnG"; protein_id "WP_000542790.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4420079 4420081 . - 0 gene_id "ECDH10B_RS21900"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "phnG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418525.1"; locus_tag "ECDH10B_RS21900"; product "phosphonate C-P lyase system protein PhnG"; protein_id "WP_000542790.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4419629 4419631 . - 0 gene_id "ECDH10B_RS21900"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "phnG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418525.1"; locus_tag "ECDH10B_RS21900"; product "phosphonate C-P lyase system protein PhnG"; protein_id "WP_000542790.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4420082 4420807 . - . gene_id "ECDH10B_RS21905"; transcript_id ""; gbkey "Gene"; gene "phnF"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21905"; old_locus_tag "ECDH10B_4293"; -NC_010473.1 Protein Homology CDS 4420085 4420807 . - 0 gene_id "ECDH10B_RS21905"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "phnF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418526.1"; locus_tag "ECDH10B_RS21905"; product "phosphonate metabolism transcriptional regulator PhnF"; protein_id "WP_001295387.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4420805 4420807 . - 0 gene_id "ECDH10B_RS21905"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "phnF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418526.1"; locus_tag "ECDH10B_RS21905"; product "phosphonate metabolism transcriptional regulator PhnF"; protein_id "WP_001295387.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4420082 4420084 . - 0 gene_id "ECDH10B_RS21905"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "phnF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418526.1"; locus_tag "ECDH10B_RS21905"; product "phosphonate metabolism transcriptional regulator PhnF"; protein_id "WP_001295387.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4420828 4421615 . - . gene_id "ECDH10B_RS21910"; transcript_id ""; gbkey "Gene"; gene "phnE"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS21910"; pseudo "true"; -NC_010473.1 Protein Homology CDS 4420831 4421615 . - 0 gene_id "ECDH10B_RS21910"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "phnE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313113.2"; locus_tag "ECDH10B_RS21910"; note "frameshifted"; product "phosphonate ABC transporter, permease protein PhnE"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4421613 4421615 . - 0 gene_id "ECDH10B_RS21910"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "phnE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313113.2"; locus_tag "ECDH10B_RS21910"; note "frameshifted"; product "phosphonate ABC transporter, permease protein PhnE"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4420828 4420830 . - 0 gene_id "ECDH10B_RS21910"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "phnE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313113.2"; locus_tag "ECDH10B_RS21910"; note "frameshifted"; product "phosphonate ABC transporter, permease protein PhnE"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 4421721 4422737 . - . gene_id "ECDH10B_RS21915"; transcript_id ""; gbkey "Gene"; gene "phnD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21915"; old_locus_tag "ECDH10B_4297"; -NC_010473.1 Protein Homology CDS 4421724 4422737 . - 0 gene_id "ECDH10B_RS21915"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "phnD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418529.1"; locus_tag "ECDH10B_RS21915"; product "phosphonate ABC transporter substrate-binding protein"; protein_id "WP_000992002.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4422735 4422737 . - 0 gene_id "ECDH10B_RS21915"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "phnD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418529.1"; locus_tag "ECDH10B_RS21915"; product "phosphonate ABC transporter substrate-binding protein"; protein_id "WP_000992002.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4421721 4421723 . - 0 gene_id "ECDH10B_RS21915"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "phnD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418529.1"; locus_tag "ECDH10B_RS21915"; product "phosphonate ABC transporter substrate-binding protein"; protein_id "WP_000992002.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4422762 4423550 . - . gene_id "ECDH10B_RS21920"; transcript_id ""; gbkey "Gene"; gene "phnC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21920"; old_locus_tag "ECDH10B_4298"; -NC_010473.1 Protein Homology CDS 4422765 4423550 . - 0 gene_id "ECDH10B_RS21920"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "phnC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418530.1"; locus_tag "ECDH10B_RS21920"; product "phosphonate ABC transporter ATP-binding protein"; protein_id "WP_001193409.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4423548 4423550 . - 0 gene_id "ECDH10B_RS21920"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "phnC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418530.1"; locus_tag "ECDH10B_RS21920"; product "phosphonate ABC transporter ATP-binding protein"; protein_id "WP_001193409.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4422762 4422764 . - 0 gene_id "ECDH10B_RS21920"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "phnC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418530.1"; locus_tag "ECDH10B_RS21920"; product "phosphonate ABC transporter ATP-binding protein"; protein_id "WP_001193409.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4423683 4424126 . - . gene_id "ECDH10B_RS21925"; transcript_id ""; gbkey "Gene"; gene "yjdN"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21925"; old_locus_tag "ECDH10B_4299"; -NC_010473.1 Protein Homology CDS 4423686 4424126 . - 0 gene_id "ECDH10B_RS21925"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yjdN"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418531.1"; locus_tag "ECDH10B_RS21925"; product "VOC family metalloprotein YjdN"; protein_id "WP_001131339.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4424124 4424126 . - 0 gene_id "ECDH10B_RS21925"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yjdN"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418531.1"; locus_tag "ECDH10B_RS21925"; product "VOC family metalloprotein YjdN"; protein_id "WP_001131339.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4423683 4423685 . - 0 gene_id "ECDH10B_RS21925"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yjdN"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418531.1"; locus_tag "ECDH10B_RS21925"; product "VOC family metalloprotein YjdN"; protein_id "WP_001131339.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4424784 4425119 . - . gene_id "ECDH10B_RS21930"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21930"; old_locus_tag "ECDH10B_4300"; -NC_010473.1 Protein Homology CDS 4424787 4425119 . - 0 gene_id "ECDH10B_RS21930"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313117.1"; locus_tag "ECDH10B_RS21930"; product "phnA family protein"; protein_id "WP_001300891.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4425117 4425119 . - 0 gene_id "ECDH10B_RS21930"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313117.1"; locus_tag "ECDH10B_RS21930"; product "phnA family protein"; protein_id "WP_001300891.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4424784 4424786 . - 0 gene_id "ECDH10B_RS21930"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313117.1"; locus_tag "ECDH10B_RS21930"; product "phnA family protein"; protein_id "WP_001300891.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4425520 4427748 . + . gene_id "ECDH10B_RS21935"; transcript_id ""; gbkey "Gene"; gene "crfC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21935"; old_locus_tag "ECDH10B_4301"; -NC_010473.1 Protein Homology CDS 4425520 4427745 . + 0 gene_id "ECDH10B_RS21935"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "crfC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418533.1"; locus_tag "ECDH10B_RS21935"; product "clamp-binding protein CrfC"; protein_id "WP_000288603.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4425520 4425522 . + 0 gene_id "ECDH10B_RS21935"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "crfC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418533.1"; locus_tag "ECDH10B_RS21935"; product "clamp-binding protein CrfC"; protein_id "WP_000288603.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4427746 4427748 . + 0 gene_id "ECDH10B_RS21935"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "crfC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418533.1"; locus_tag "ECDH10B_RS21935"; product "clamp-binding protein CrfC"; protein_id "WP_000288603.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4427745 4428623 . + . gene_id "ECDH10B_RS21940"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21940"; old_locus_tag "ECDH10B_4302"; -NC_010473.1 Protein Homology CDS 4427745 4428620 . + 0 gene_id "ECDH10B_RS21940"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418534.4"; locus_tag "ECDH10B_RS21940"; product "YjcZ-like family protein"; protein_id "WP_000169188.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4427745 4427747 . + 0 gene_id "ECDH10B_RS21940"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418534.4"; locus_tag "ECDH10B_RS21940"; product "YjcZ-like family protein"; protein_id "WP_000169188.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4428621 4428623 . + 0 gene_id "ECDH10B_RS21940"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418534.4"; locus_tag "ECDH10B_RS21940"; product "YjcZ-like family protein"; protein_id "WP_000169188.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4428887 4430389 . + . gene_id "ECDH10B_RS21945"; transcript_id ""; gbkey "Gene"; gene "proP"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21945"; old_locus_tag "ECDH10B_4303"; -NC_010473.1 Protein Homology CDS 4428887 4430386 . + 0 gene_id "ECDH10B_RS21945"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "proP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313120.1"; locus_tag "ECDH10B_RS21945"; product "glycine betaine/L-proline transporter ProP"; protein_id "WP_001298520.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4428887 4428889 . + 0 gene_id "ECDH10B_RS21945"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "proP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313120.1"; locus_tag "ECDH10B_RS21945"; product "glycine betaine/L-proline transporter ProP"; protein_id "WP_001298520.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4430387 4430389 . + 0 gene_id "ECDH10B_RS21945"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "proP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313120.1"; locus_tag "ECDH10B_RS21945"; product "glycine betaine/L-proline transporter ProP"; protein_id "WP_001298520.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4430501 4430590 . + . gene_id "ECDH10B_RS21950"; transcript_id ""; gbkey "Gene"; gene "pmrR"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21950"; -NC_010473.1 Protein Homology CDS 4430501 4430587 . + 0 gene_id "ECDH10B_RS21950"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pmrR"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000797656.1"; locus_tag "ECDH10B_RS21950"; product "LpxT activity modulator PmrR"; protein_id "WP_000797657.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4430501 4430503 . + 0 gene_id "ECDH10B_RS21950"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pmrR"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000797656.1"; locus_tag "ECDH10B_RS21950"; product "LpxT activity modulator PmrR"; protein_id "WP_000797657.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4430588 4430590 . + 0 gene_id "ECDH10B_RS21950"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pmrR"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000797656.1"; locus_tag "ECDH10B_RS21950"; product "LpxT activity modulator PmrR"; protein_id "WP_000797657.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4430566 4431666 . - . gene_id "ECDH10B_RS21955"; transcript_id ""; gbkey "Gene"; gene "pmrB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21955"; old_locus_tag "ECDH10B_4304"; -NC_010473.1 Protein Homology CDS 4430569 4431666 . - 0 gene_id "ECDH10B_RS21955"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pmrB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_709829.1"; locus_tag "ECDH10B_RS21955"; product "two-component system sensor histidine kinase PmrB"; protein_id "WP_001051092.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4431664 4431666 . - 0 gene_id "ECDH10B_RS21955"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pmrB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_709829.1"; locus_tag "ECDH10B_RS21955"; product "two-component system sensor histidine kinase PmrB"; protein_id "WP_001051092.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4430566 4430568 . - 0 gene_id "ECDH10B_RS21955"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pmrB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_709829.1"; locus_tag "ECDH10B_RS21955"; product "two-component system sensor histidine kinase PmrB"; protein_id "WP_001051092.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4431667 4432335 . - . gene_id "ECDH10B_RS21960"; transcript_id ""; gbkey "Gene"; gene "basR"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21960"; old_locus_tag "ECDH10B_4305"; -NC_010473.1 Protein Homology CDS 4431670 4432335 . - 0 gene_id "ECDH10B_RS21960"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "basR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418537.1"; locus_tag "ECDH10B_RS21960"; product "two-component system response regulator BasR"; protein_id "WP_000697926.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4432333 4432335 . - 0 gene_id "ECDH10B_RS21960"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "basR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418537.1"; locus_tag "ECDH10B_RS21960"; product "two-component system response regulator BasR"; protein_id "WP_000697926.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4431667 4431669 . - 0 gene_id "ECDH10B_RS21960"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "basR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418537.1"; locus_tag "ECDH10B_RS21960"; product "two-component system response regulator BasR"; protein_id "WP_000697926.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4432332 4433975 . - . gene_id "ECDH10B_RS21965"; transcript_id ""; gbkey "Gene"; gene "eptA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21965"; old_locus_tag "ECDH10B_4306"; -NC_010473.1 Protein Homology CDS 4432335 4433975 . - 0 gene_id "ECDH10B_RS21965"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "eptA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418538.2"; locus_tag "ECDH10B_RS21965"; product "phosphoethanolamine transferase EptA"; protein_id "WP_000919792.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4433973 4433975 . - 0 gene_id "ECDH10B_RS21965"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "eptA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418538.2"; locus_tag "ECDH10B_RS21965"; product "phosphoethanolamine transferase EptA"; protein_id "WP_000919792.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4432332 4432334 . - 0 gene_id "ECDH10B_RS21965"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "eptA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418538.2"; locus_tag "ECDH10B_RS21965"; product "phosphoethanolamine transferase EptA"; protein_id "WP_000919792.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4434079 4435416 . - . gene_id "ECDH10B_RS21970"; transcript_id ""; gbkey "Gene"; gene "adiC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21970"; old_locus_tag "ECDH10B_4307"; -NC_010473.1 Protein Homology CDS 4434082 4435416 . - 0 gene_id "ECDH10B_RS21970"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "adiC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313124.1"; locus_tag "ECDH10B_RS21970"; product "arginine/agmatine antiporter"; protein_id "WP_000093154.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4435414 4435416 . - 0 gene_id "ECDH10B_RS21970"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "adiC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313124.1"; locus_tag "ECDH10B_RS21970"; product "arginine/agmatine antiporter"; protein_id "WP_000093154.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4434079 4434081 . - 0 gene_id "ECDH10B_RS21970"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "adiC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313124.1"; locus_tag "ECDH10B_RS21970"; product "arginine/agmatine antiporter"; protein_id "WP_000093154.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4435553 4436314 . - . gene_id "ECDH10B_RS21975"; transcript_id ""; gbkey "Gene"; gene "adiY"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21975"; -NC_010473.1 Protein Homology CDS 4435556 4436314 . - 0 gene_id "ECDH10B_RS21975"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "adiY"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418540.1"; locus_tag "ECDH10B_RS21975"; product "DNA-binding transcriptional activator AdiY"; protein_id "WP_001217060.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4436312 4436314 . - 0 gene_id "ECDH10B_RS21975"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "adiY"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418540.1"; locus_tag "ECDH10B_RS21975"; product "DNA-binding transcriptional activator AdiY"; protein_id "WP_001217060.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4435553 4435555 . - 0 gene_id "ECDH10B_RS21975"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "adiY"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418540.1"; locus_tag "ECDH10B_RS21975"; product "DNA-binding transcriptional activator AdiY"; protein_id "WP_001217060.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4436639 4438906 . - . gene_id "ECDH10B_RS21980"; transcript_id ""; gbkey "Gene"; gene "adiA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21980"; -NC_010473.1 Protein Homology CDS 4436642 4438906 . - 0 gene_id "ECDH10B_RS21980"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "adiA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418541.2"; locus_tag "ECDH10B_RS21980"; product "arginine decarboxylase"; protein_id "WP_084833586.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4438904 4438906 . - 0 gene_id "ECDH10B_RS21980"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "adiA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418541.2"; locus_tag "ECDH10B_RS21980"; product "arginine decarboxylase"; protein_id "WP_084833586.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4436639 4436641 . - 0 gene_id "ECDH10B_RS21980"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "adiA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418541.2"; locus_tag "ECDH10B_RS21980"; product "arginine decarboxylase"; protein_id "WP_084833586.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4439105 4440013 . - . gene_id "ECDH10B_RS21985"; transcript_id ""; gbkey "Gene"; gene "melR"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21985"; old_locus_tag "ECDH10B_4310"; -NC_010473.1 Protein Homology CDS 4439108 4440013 . - 0 gene_id "ECDH10B_RS21985"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "melR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418542.1"; locus_tag "ECDH10B_RS21985"; product "transcriptional regulator MelR"; protein_id "WP_001090758.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4440011 4440013 . - 0 gene_id "ECDH10B_RS21985"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "melR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418542.1"; locus_tag "ECDH10B_RS21985"; product "transcriptional regulator MelR"; protein_id "WP_001090758.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4439105 4439107 . - 0 gene_id "ECDH10B_RS21985"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "melR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418542.1"; locus_tag "ECDH10B_RS21985"; product "transcriptional regulator MelR"; protein_id "WP_001090758.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4440296 4441651 . + . gene_id "ECDH10B_RS21995"; transcript_id ""; gbkey "Gene"; gene "melA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS21995"; old_locus_tag "ECDH10B_4311"; -NC_010473.1 Protein Homology CDS 4440296 4441648 . + 0 gene_id "ECDH10B_RS21995"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "melA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418543.1"; locus_tag "ECDH10B_RS21995"; product "alpha-galactosidase"; protein_id "WP_000986601.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4440296 4440298 . + 0 gene_id "ECDH10B_RS21995"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "melA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418543.1"; locus_tag "ECDH10B_RS21995"; product "alpha-galactosidase"; protein_id "WP_000986601.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4441649 4441651 . + 0 gene_id "ECDH10B_RS21995"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "melA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418543.1"; locus_tag "ECDH10B_RS21995"; product "alpha-galactosidase"; protein_id "WP_000986601.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4441754 4443175 . + . gene_id "ECDH10B_RS22000"; transcript_id ""; gbkey "Gene"; gene "melB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22000"; old_locus_tag "ECDH10B_4312"; -NC_010473.1 Protein Homology CDS 4441754 4443172 . + 0 gene_id "ECDH10B_RS22000"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "melB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418544.2"; locus_tag "ECDH10B_RS22000"; product "melibiose:sodium transporter MelB"; protein_id "WP_000028111.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4441754 4441756 . + 0 gene_id "ECDH10B_RS22000"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "melB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418544.2"; locus_tag "ECDH10B_RS22000"; product "melibiose:sodium transporter MelB"; protein_id "WP_000028111.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4443173 4443175 . + 0 gene_id "ECDH10B_RS22000"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "melB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418544.2"; locus_tag "ECDH10B_RS22000"; product "melibiose:sodium transporter MelB"; protein_id "WP_000028111.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4443314 4443943 . - . gene_id "ECDH10B_RS22005"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22005"; old_locus_tag "ECDH10B_4313"; -NC_010473.1 Protein Homology CDS 4443317 4443943 . - 0 gene_id "ECDH10B_RS22005"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418545.1"; locus_tag "ECDH10B_RS22005"; product "DUF2238 domain-containing protein"; protein_id "WP_000198773.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4443941 4443943 . - 0 gene_id "ECDH10B_RS22005"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418545.1"; locus_tag "ECDH10B_RS22005"; product "DUF2238 domain-containing protein"; protein_id "WP_000198773.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4443314 4443316 . - 0 gene_id "ECDH10B_RS22005"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418545.1"; locus_tag "ECDH10B_RS22005"; product "DUF2238 domain-containing protein"; protein_id "WP_000198773.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4444065 4445711 . - . gene_id "ECDH10B_RS22010"; transcript_id ""; gbkey "Gene"; gene "fumB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22010"; old_locus_tag "ECDH10B_4314"; -NC_010473.1 Protein Homology CDS 4444068 4445711 . - 0 gene_id "ECDH10B_RS22010"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fumB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418546.1"; locus_tag "ECDH10B_RS22010"; product "class I fumarate hydratase"; protein_id "WP_000066707.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4445709 4445711 . - 0 gene_id "ECDH10B_RS22010"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fumB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418546.1"; locus_tag "ECDH10B_RS22010"; product "class I fumarate hydratase"; protein_id "WP_000066707.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4444065 4444067 . - 0 gene_id "ECDH10B_RS22010"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fumB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418546.1"; locus_tag "ECDH10B_RS22010"; product "class I fumarate hydratase"; protein_id "WP_000066707.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4445789 4447129 . - . gene_id "ECDH10B_RS22015"; transcript_id ""; gbkey "Gene"; gene "dcuB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22015"; old_locus_tag "ECDH10B_4315"; -NC_010473.1 Protein Homology CDS 4445792 4447129 . - 0 gene_id "ECDH10B_RS22015"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dcuB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313132.1"; locus_tag "ECDH10B_RS22015"; product "anaerobic C4-dicarboxylate transporter DcuB"; protein_id "WP_000899522.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4447127 4447129 . - 0 gene_id "ECDH10B_RS22015"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dcuB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313132.1"; locus_tag "ECDH10B_RS22015"; product "anaerobic C4-dicarboxylate transporter DcuB"; protein_id "WP_000899522.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4445789 4445791 . - 0 gene_id "ECDH10B_RS22015"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dcuB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313132.1"; locus_tag "ECDH10B_RS22015"; product "anaerobic C4-dicarboxylate transporter DcuB"; protein_id "WP_000899522.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4447700 4448419 . - . gene_id "ECDH10B_RS22025"; transcript_id ""; gbkey "Gene"; gene "dcuR"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22025"; -NC_010473.1 Protein Homology CDS 4447703 4448419 . - 0 gene_id "ECDH10B_RS22025"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dcuR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313133.1"; locus_tag "ECDH10B_RS22025"; product "two-component system response regulator DcuR"; protein_id "WP_000611288.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4448417 4448419 . - 0 gene_id "ECDH10B_RS22025"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dcuR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313133.1"; locus_tag "ECDH10B_RS22025"; product "two-component system response regulator DcuR"; protein_id "WP_000611288.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4447700 4447702 . - 0 gene_id "ECDH10B_RS22025"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dcuR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313133.1"; locus_tag "ECDH10B_RS22025"; product "two-component system response regulator DcuR"; protein_id "WP_000611288.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4448416 4450047 . - . gene_id "ECDH10B_RS22030"; transcript_id ""; gbkey "Gene"; gene "dcuS"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22030"; old_locus_tag "ECDH10B_4317"; -NC_010473.1 Protein Homology CDS 4448419 4450047 . - 0 gene_id "ECDH10B_RS22030"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dcuS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313134.1"; locus_tag "ECDH10B_RS22030"; product "two-component system sensor histidine kinase DcuS"; protein_id "WP_001216477.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4450045 4450047 . - 0 gene_id "ECDH10B_RS22030"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dcuS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313134.1"; locus_tag "ECDH10B_RS22030"; product "two-component system sensor histidine kinase DcuS"; protein_id "WP_001216477.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4448416 4448418 . - 0 gene_id "ECDH10B_RS22030"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dcuS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313134.1"; locus_tag "ECDH10B_RS22030"; product "two-component system sensor histidine kinase DcuS"; protein_id "WP_001216477.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4450228 4450458 . + . gene_id "ECDH10B_RS22035"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22035"; old_locus_tag "ECDH10B_4318"; -NC_010473.1 Protein Homology CDS 4450228 4450455 . + 0 gene_id "ECDH10B_RS22035"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313135.1"; locus_tag "ECDH10B_RS22035"; product "4Fe-4S mono-cluster protein YjdI"; protein_id "WP_000371704.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4450228 4450230 . + 0 gene_id "ECDH10B_RS22035"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313135.1"; locus_tag "ECDH10B_RS22035"; product "4Fe-4S mono-cluster protein YjdI"; protein_id "WP_000371704.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4450456 4450458 . + 0 gene_id "ECDH10B_RS22035"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313135.1"; locus_tag "ECDH10B_RS22035"; product "4Fe-4S mono-cluster protein YjdI"; protein_id "WP_000371704.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4450470 4450742 . + . gene_id "ECDH10B_RS22040"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22040"; old_locus_tag "ECDH10B_4319"; -NC_010473.1 Protein Homology CDS 4450470 4450739 . + 0 gene_id "ECDH10B_RS22040"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418551.1"; locus_tag "ECDH10B_RS22040"; product "N-acetyltransferase"; protein_id "WP_000405651.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4450470 4450472 . + 0 gene_id "ECDH10B_RS22040"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418551.1"; locus_tag "ECDH10B_RS22040"; product "N-acetyltransferase"; protein_id "WP_000405651.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4450740 4450742 . + 0 gene_id "ECDH10B_RS22040"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418551.1"; locus_tag "ECDH10B_RS22040"; product "N-acetyltransferase"; protein_id "WP_000405651.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4450969 4451265 . + . gene_id "ECDH10B_RS22045"; transcript_id ""; gbkey "Gene"; gene "ghoS"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22045"; old_locus_tag "ECDH10B_4320"; -NC_010473.1 Protein Homology CDS 4450969 4451262 . + 0 gene_id "ECDH10B_RS22045"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ghoS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313137.1"; locus_tag "ECDH10B_RS22045"; product "type V toxin-antitoxin system endoribonuclease antitoxin GhoS"; protein_id "WP_000398619.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4450969 4450971 . + 0 gene_id "ECDH10B_RS22045"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ghoS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313137.1"; locus_tag "ECDH10B_RS22045"; product "type V toxin-antitoxin system endoribonuclease antitoxin GhoS"; protein_id "WP_000398619.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4451263 4451265 . + 0 gene_id "ECDH10B_RS22045"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ghoS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313137.1"; locus_tag "ECDH10B_RS22045"; product "type V toxin-antitoxin system endoribonuclease antitoxin GhoS"; protein_id "WP_000398619.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4451293 4451466 . + . gene_id "ECDH10B_RS22050"; transcript_id ""; gbkey "Gene"; gene "ghoT"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22050"; old_locus_tag "ECDH10B_4321"; -NC_010473.1 Protein Homology CDS 4451293 4451463 . + 0 gene_id "ECDH10B_RS22050"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ghoT"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_588474.1"; locus_tag "ECDH10B_RS22050"; product "type V toxin-antitoxin system toxin GhoT"; protein_id "WP_001173343.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4451293 4451295 . + 0 gene_id "ECDH10B_RS22050"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ghoT"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_588474.1"; locus_tag "ECDH10B_RS22050"; product "type V toxin-antitoxin system toxin GhoT"; protein_id "WP_001173343.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4451464 4451466 . + 0 gene_id "ECDH10B_RS22050"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ghoT"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_588474.1"; locus_tag "ECDH10B_RS22050"; product "type V toxin-antitoxin system toxin GhoT"; protein_id "WP_001173343.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4451585 4453102 . - . gene_id "ECDH10B_RS22055"; transcript_id ""; gbkey "Gene"; gene "lysS"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22055"; old_locus_tag "ECDH10B_4322"; -NC_010473.1 Protein Homology CDS 4451588 4453102 . - 0 gene_id "ECDH10B_RS22055"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lysS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001740376.1"; locus_tag "ECDH10B_RS22055"; product "lysine--tRNA ligase"; protein_id "WP_001295074.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4453100 4453102 . - 0 gene_id "ECDH10B_RS22055"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lysS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001740376.1"; locus_tag "ECDH10B_RS22055"; product "lysine--tRNA ligase"; protein_id "WP_001295074.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4451585 4451587 . - 0 gene_id "ECDH10B_RS22055"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lysS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001740376.1"; locus_tag "ECDH10B_RS22055"; product "lysine--tRNA ligase"; protein_id "WP_001295074.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4453339 4454796 . - . gene_id "ECDH10B_RS22060"; transcript_id ""; gbkey "Gene"; gene "dtpC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22060"; old_locus_tag "ECDH10B_4323"; -NC_010473.1 Protein Homology CDS 4453342 4454796 . - 0 gene_id "ECDH10B_RS22060"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dtpC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418554.1"; locus_tag "ECDH10B_RS22060"; product "dipeptide/tripeptide permease DtpC"; protein_id "WP_000856829.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4454794 4454796 . - 0 gene_id "ECDH10B_RS22060"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dtpC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418554.1"; locus_tag "ECDH10B_RS22060"; product "dipeptide/tripeptide permease DtpC"; protein_id "WP_000856829.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4453339 4453341 . - 0 gene_id "ECDH10B_RS22060"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dtpC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418554.1"; locus_tag "ECDH10B_RS22060"; product "dipeptide/tripeptide permease DtpC"; protein_id "WP_000856829.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4454855 4457002 . - . gene_id "ECDH10B_RS22065"; transcript_id ""; gbkey "Gene"; gene "cadA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22065"; old_locus_tag "ECDH10B_4324"; -NC_010473.1 Protein Homology CDS 4454858 4457002 . - 0 gene_id "ECDH10B_RS22065"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cadA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313140.1"; locus_tag "ECDH10B_RS22065"; product "lysine decarboxylase CadA"; protein_id "WP_001295383.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4457000 4457002 . - 0 gene_id "ECDH10B_RS22065"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cadA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313140.1"; locus_tag "ECDH10B_RS22065"; product "lysine decarboxylase CadA"; protein_id "WP_001295383.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4454855 4454857 . - 0 gene_id "ECDH10B_RS22065"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cadA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313140.1"; locus_tag "ECDH10B_RS22065"; product "lysine decarboxylase CadA"; protein_id "WP_001295383.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4457082 4458416 . - . gene_id "ECDH10B_RS22070"; transcript_id ""; gbkey "Gene"; gene "cadB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22070"; old_locus_tag "ECDH10B_4325"; -NC_010473.1 Protein Homology CDS 4457085 4458416 . - 0 gene_id "ECDH10B_RS22070"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cadB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313141.1"; locus_tag "ECDH10B_RS22070"; product "cadaverine/lysine antiporter"; protein_id "WP_000092909.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4458414 4458416 . - 0 gene_id "ECDH10B_RS22070"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cadB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313141.1"; locus_tag "ECDH10B_RS22070"; product "cadaverine/lysine antiporter"; protein_id "WP_000092909.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4457082 4457084 . - 0 gene_id "ECDH10B_RS22070"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cadB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313141.1"; locus_tag "ECDH10B_RS22070"; product "cadaverine/lysine antiporter"; protein_id "WP_000092909.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4458781 4460319 . - . gene_id "ECDH10B_RS22075"; transcript_id ""; gbkey "Gene"; gene "cadC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22075"; old_locus_tag "ECDH10B_4326"; -NC_010473.1 Protein Homology CDS 4458784 4460319 . - 0 gene_id "ECDH10B_RS22075"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cadC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418557.1"; locus_tag "ECDH10B_RS22075"; product "lysine decarboxylation/transport transcriptional activator CadC"; protein_id "WP_001187173.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4460317 4460319 . - 0 gene_id "ECDH10B_RS22075"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cadC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418557.1"; locus_tag "ECDH10B_RS22075"; product "lysine decarboxylation/transport transcriptional activator CadC"; protein_id "WP_001187173.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4458781 4458783 . - 0 gene_id "ECDH10B_RS22075"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cadC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418557.1"; locus_tag "ECDH10B_RS22075"; product "lysine decarboxylation/transport transcriptional activator CadC"; protein_id "WP_001187173.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4460936 4461011 . - . gene_id "ECDH10B_RS22080"; transcript_id ""; gbkey "Gene"; gene_biotype "tRNA"; locus_tag "ECDH10B_RS22080"; old_locus_tag "ECDH10B_4327"; -NC_010473.1 tRNAscan-SE exon 4460936 4461011 . - . gene_id "ECDH10B_RS22080"; transcript_id "ECDH10B_RS22080"; anticodon "(pos:complement(4460976..4460978))"; gbkey "tRNA"; inference "COORDINATES: profile:tRNAscan-SE:2.0.6"; locus_tag "ECDH10B_RS22080"; product "tRNA-Phe"; exon_number "1"; -NC_010473.1 RefSeq gene 4461118 4461693 . - . gene_id "ECDH10B_RS22085"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22085"; old_locus_tag "ECDH10B_4328"; -NC_010473.1 Protein Homology CDS 4461121 4461693 . - 0 gene_id "ECDH10B_RS22085"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_710000.1"; locus_tag "ECDH10B_RS22085"; product "transcriptional regulator"; protein_id "WP_001188520.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4461691 4461693 . - 0 gene_id "ECDH10B_RS22085"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_710000.1"; locus_tag "ECDH10B_RS22085"; product "transcriptional regulator"; protein_id "WP_001188520.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4461118 4461120 . - 0 gene_id "ECDH10B_RS22085"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_710000.1"; locus_tag "ECDH10B_RS22085"; product "transcriptional regulator"; protein_id "WP_001188520.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4461730 4463427 . - . gene_id "ECDH10B_RS22090"; transcript_id ""; gbkey "Gene"; gene "dsbD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22090"; old_locus_tag "ECDH10B_4329"; -NC_010473.1 Protein Homology CDS 4461733 4463427 . - 0 gene_id "ECDH10B_RS22090"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dsbD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418559.1"; locus_tag "ECDH10B_RS22090"; product "protein-disulfide reductase DsbD"; protein_id "WP_000068922.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4463425 4463427 . - 0 gene_id "ECDH10B_RS22090"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dsbD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418559.1"; locus_tag "ECDH10B_RS22090"; product "protein-disulfide reductase DsbD"; protein_id "WP_000068922.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4461730 4461732 . - 0 gene_id "ECDH10B_RS22090"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dsbD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418559.1"; locus_tag "ECDH10B_RS22090"; product "protein-disulfide reductase DsbD"; protein_id "WP_000068922.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4463403 4463741 . - . gene_id "ECDH10B_RS22095"; transcript_id ""; gbkey "Gene"; gene "cutA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22095"; old_locus_tag "ECDH10B_4330"; -NC_010473.1 Protein Homology CDS 4463406 4463741 . - 0 gene_id "ECDH10B_RS22095"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cutA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313145.1"; locus_tag "ECDH10B_RS22095"; product "divalent cation tolerance protein CutA"; protein_id "WP_000883400.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4463739 4463741 . - 0 gene_id "ECDH10B_RS22095"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cutA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313145.1"; locus_tag "ECDH10B_RS22095"; product "divalent cation tolerance protein CutA"; protein_id "WP_000883400.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4463403 4463405 . - 0 gene_id "ECDH10B_RS22095"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cutA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313145.1"; locus_tag "ECDH10B_RS22095"; product "divalent cation tolerance protein CutA"; protein_id "WP_000883400.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4463857 4465158 . - . gene_id "ECDH10B_RS22100"; transcript_id ""; gbkey "Gene"; gene "dcuA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22100"; old_locus_tag "ECDH10B_4331"; -NC_010473.1 Protein Homology CDS 4463860 4465158 . - 0 gene_id "ECDH10B_RS22100"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dcuA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313146.1"; locus_tag "ECDH10B_RS22100"; product "anaerobic C4-dicarboxylate transporter DcuA"; protein_id "WP_000961959.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4465156 4465158 . - 0 gene_id "ECDH10B_RS22100"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dcuA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313146.1"; locus_tag "ECDH10B_RS22100"; product "anaerobic C4-dicarboxylate transporter DcuA"; protein_id "WP_000961959.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4463857 4463859 . - 0 gene_id "ECDH10B_RS22100"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dcuA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313146.1"; locus_tag "ECDH10B_RS22100"; product "anaerobic C4-dicarboxylate transporter DcuA"; protein_id "WP_000961959.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4465276 4466712 . - . gene_id "ECDH10B_RS22105"; transcript_id ""; gbkey "Gene"; gene "aspA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22105"; old_locus_tag "ECDH10B_4332"; -NC_010473.1 Protein Homology CDS 4465279 4466712 . - 0 gene_id "ECDH10B_RS22105"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "aspA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313147.2"; locus_tag "ECDH10B_RS22105"; product "aspartate ammonia-lyase"; protein_id "WP_000069437.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4466710 4466712 . - 0 gene_id "ECDH10B_RS22105"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "aspA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313147.2"; locus_tag "ECDH10B_RS22105"; product "aspartate ammonia-lyase"; protein_id "WP_000069437.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4465276 4465278 . - 0 gene_id "ECDH10B_RS22105"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "aspA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313147.2"; locus_tag "ECDH10B_RS22105"; product "aspartate ammonia-lyase"; protein_id "WP_000069437.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4467049 4467525 . + . gene_id "ECDH10B_RS22110"; transcript_id ""; gbkey "Gene"; gene "fxsA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22110"; old_locus_tag "ECDH10B_4333"; -NC_010473.1 Protein Homology CDS 4467049 4467522 . + 0 gene_id "ECDH10B_RS22110"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fxsA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418564.2"; locus_tag "ECDH10B_RS22110"; product "membrane protein FxsA"; protein_id "WP_001267448.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4467049 4467051 . + 0 gene_id "ECDH10B_RS22110"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fxsA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418564.2"; locus_tag "ECDH10B_RS22110"; product "membrane protein FxsA"; protein_id "WP_001267448.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4467523 4467525 . + 0 gene_id "ECDH10B_RS22110"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fxsA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418564.2"; locus_tag "ECDH10B_RS22110"; product "membrane protein FxsA"; protein_id "WP_001267448.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4467541 4468797 . - . gene_id "ECDH10B_RS22115"; transcript_id ""; gbkey "Gene"; gene "yjeH"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22115"; old_locus_tag "ECDH10B_4334"; -NC_010473.1 Protein Homology CDS 4467544 4468797 . - 0 gene_id "ECDH10B_RS22115"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yjeH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418565.1"; locus_tag "ECDH10B_RS22115"; product "L-methionine/branched-chain amino acid transporter"; protein_id "WP_000015837.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4468795 4468797 . - 0 gene_id "ECDH10B_RS22115"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yjeH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418565.1"; locus_tag "ECDH10B_RS22115"; product "L-methionine/branched-chain amino acid transporter"; protein_id "WP_000015837.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4467541 4467543 . - 0 gene_id "ECDH10B_RS22115"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yjeH"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418565.1"; locus_tag "ECDH10B_RS22115"; product "L-methionine/branched-chain amino acid transporter"; protein_id "WP_000015837.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4469073 4469366 . + . gene_id "ECDH10B_RS22120"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22120"; old_locus_tag "ECDH10B_4335"; -NC_010473.1 Protein Homology CDS 4469073 4469363 . + 0 gene_id "ECDH10B_RS22120"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000027827.1"; locus_tag "ECDH10B_RS22120"; product "co-chaperone GroES"; protein_id "WP_001026276.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4469073 4469075 . + 0 gene_id "ECDH10B_RS22120"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000027827.1"; locus_tag "ECDH10B_RS22120"; product "co-chaperone GroES"; protein_id "WP_001026276.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4469364 4469366 . + 0 gene_id "ECDH10B_RS22120"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000027827.1"; locus_tag "ECDH10B_RS22120"; product "co-chaperone GroES"; protein_id "WP_001026276.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4469410 4471056 . + . gene_id "ECDH10B_RS22125"; transcript_id ""; gbkey "Gene"; gene "groL"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22125"; old_locus_tag "ECDH10B_4336"; -NC_010473.1 Protein Homology CDS 4469410 4471053 . + 0 gene_id "ECDH10B_RS22125"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "groL"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005120975.1"; locus_tag "ECDH10B_RS22125"; note "60 kDa chaperone family; promotes refolding of misfolded polypeptides especially under stressful conditions; forms two stacked rings of heptamers to form a barrel-shaped 14mer; ends can be capped by GroES; misfolded proteins enter the barrel where they are refolded when GroES binds"; product "chaperonin GroEL"; protein_id "WP_000729117.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4469410 4469412 . + 0 gene_id "ECDH10B_RS22125"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "groL"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005120975.1"; locus_tag "ECDH10B_RS22125"; note "60 kDa chaperone family; promotes refolding of misfolded polypeptides especially under stressful conditions; forms two stacked rings of heptamers to form a barrel-shaped 14mer; ends can be capped by GroES; misfolded proteins enter the barrel where they are refolded when GroES binds"; product "chaperonin GroEL"; protein_id "WP_000729117.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4471054 4471056 . + 0 gene_id "ECDH10B_RS22125"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "groL"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005120975.1"; locus_tag "ECDH10B_RS22125"; note "60 kDa chaperone family; promotes refolding of misfolded polypeptides especially under stressful conditions; forms two stacked rings of heptamers to form a barrel-shaped 14mer; ends can be capped by GroES; misfolded proteins enter the barrel where they are refolded when GroES binds"; product "chaperonin GroEL"; protein_id "WP_000729117.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4471194 4471547 . + . gene_id "ECDH10B_RS22130"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22130"; old_locus_tag "ECDH10B_4337"; -NC_010473.1 Protein Homology CDS 4471194 4471544 . + 0 gene_id "ECDH10B_RS22130"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418568.2"; locus_tag "ECDH10B_RS22130"; product "DUF4156 domain-containing protein"; protein_id "WP_000558209.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4471194 4471196 . + 0 gene_id "ECDH10B_RS22130"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418568.2"; locus_tag "ECDH10B_RS22130"; product "DUF4156 domain-containing protein"; protein_id "WP_000558209.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4471545 4471547 . + 0 gene_id "ECDH10B_RS22130"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418568.2"; locus_tag "ECDH10B_RS22130"; product "DUF4156 domain-containing protein"; protein_id "WP_000558209.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4471750 4472619 . - . gene_id "ECDH10B_RS22135"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22135"; old_locus_tag "ECDH10B_4338"; -NC_010473.1 Protein Homology CDS 4471753 4472619 . - 0 gene_id "ECDH10B_RS22135"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418569.1"; locus_tag "ECDH10B_RS22135"; product "YjeJ family protein"; protein_id "WP_001008040.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4472617 4472619 . - 0 gene_id "ECDH10B_RS22135"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418569.1"; locus_tag "ECDH10B_RS22135"; product "YjeJ family protein"; protein_id "WP_001008040.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4471750 4471752 . - 0 gene_id "ECDH10B_RS22135"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418569.1"; locus_tag "ECDH10B_RS22135"; product "YjeJ family protein"; protein_id "WP_001008040.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4473014 4474042 . - . gene_id "ECDH10B_RS22140"; transcript_id ""; gbkey "Gene"; gene "epmB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22140"; -NC_010473.1 Protein Homology CDS 4473017 4474042 . - 0 gene_id "ECDH10B_RS22140"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "epmB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418570.1"; locus_tag "ECDH10B_RS22140"; product "EF-P beta-lysylation protein EpmB"; protein_id "WP_000940550.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4474040 4474042 . - 0 gene_id "ECDH10B_RS22140"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "epmB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418570.1"; locus_tag "ECDH10B_RS22140"; product "EF-P beta-lysylation protein EpmB"; protein_id "WP_000940550.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4473014 4473016 . - 0 gene_id "ECDH10B_RS22140"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "epmB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418570.1"; locus_tag "ECDH10B_RS22140"; product "EF-P beta-lysylation protein EpmB"; protein_id "WP_000940550.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4474084 4474650 . + . gene_id "ECDH10B_RS22145"; transcript_id ""; gbkey "Gene"; gene "efp"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22145"; old_locus_tag "ECDH10B_4340"; -NC_010473.1 Protein Homology CDS 4474084 4474647 . + 0 gene_id "ECDH10B_RS22145"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "efp"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_004871142.1"; locus_tag "ECDH10B_RS22145"; product "elongation factor P"; protein_id "WP_000257278.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4474084 4474086 . + 0 gene_id "ECDH10B_RS22145"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "efp"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_004871142.1"; locus_tag "ECDH10B_RS22145"; product "elongation factor P"; protein_id "WP_000257278.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4474648 4474650 . + 0 gene_id "ECDH10B_RS22145"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "efp"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_004871142.1"; locus_tag "ECDH10B_RS22145"; product "elongation factor P"; protein_id "WP_000257278.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4474702 4474827 . + . gene_id "ECDH10B_RS22150"; transcript_id ""; gbkey "Gene"; gene "ecnA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22150"; old_locus_tag "ECDH10B_4341"; -NC_010473.1 Protein Homology CDS 4474702 4474824 . + 0 gene_id "ECDH10B_RS22150"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ecnA"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026283.1"; locus_tag "ECDH10B_RS22150"; product "lipoprotein antitoxin entericidin A"; protein_id "WP_000977757.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4474702 4474704 . + 0 gene_id "ECDH10B_RS22150"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ecnA"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026283.1"; locus_tag "ECDH10B_RS22150"; product "lipoprotein antitoxin entericidin A"; protein_id "WP_000977757.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4474825 4474827 . + 0 gene_id "ECDH10B_RS22150"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ecnA"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026283.1"; locus_tag "ECDH10B_RS22150"; product "lipoprotein antitoxin entericidin A"; protein_id "WP_000977757.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4474938 4475084 . + . gene_id "ECDH10B_RS22155"; transcript_id ""; gbkey "Gene"; gene "ecnB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22155"; old_locus_tag "ECDH10B_4342"; -NC_010473.1 Protein Homology CDS 4474938 4475081 . + 0 gene_id "ECDH10B_RS22155"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ecnB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_710016.1"; locus_tag "ECDH10B_RS22155"; product "lipoprotein toxin entericidin B"; protein_id "WP_000239596.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4474938 4474940 . + 0 gene_id "ECDH10B_RS22155"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ecnB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_710016.1"; locus_tag "ECDH10B_RS22155"; product "lipoprotein toxin entericidin B"; protein_id "WP_000239596.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4475082 4475084 . + 0 gene_id "ECDH10B_RS22155"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ecnB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_710016.1"; locus_tag "ECDH10B_RS22155"; product "lipoprotein toxin entericidin B"; protein_id "WP_000239596.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4475260 4475577 . + . gene_id "ECDH10B_RS22160"; transcript_id ""; gbkey "Gene"; gene "sugE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22160"; old_locus_tag "ECDH10B_4343"; -NC_010473.1 Protein Homology CDS 4475260 4475574 . + 0 gene_id "ECDH10B_RS22160"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sugE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418572.4"; locus_tag "ECDH10B_RS22160"; product "quaternary ammonium compound efflux SMR transporter SugE"; protein_id "WP_000118482.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4475260 4475262 . + 0 gene_id "ECDH10B_RS22160"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sugE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418572.4"; locus_tag "ECDH10B_RS22160"; product "quaternary ammonium compound efflux SMR transporter SugE"; protein_id "WP_000118482.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4475575 4475577 . + 0 gene_id "ECDH10B_RS22160"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sugE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418572.4"; locus_tag "ECDH10B_RS22160"; product "quaternary ammonium compound efflux SMR transporter SugE"; protein_id "WP_000118482.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4475574 4476107 . - . gene_id "ECDH10B_RS22165"; transcript_id ""; gbkey "Gene"; gene "blc"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22165"; old_locus_tag "ECDH10B_4344"; -NC_010473.1 Protein Homology CDS 4475577 4476107 . - 0 gene_id "ECDH10B_RS22165"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "blc"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313157.1"; locus_tag "ECDH10B_RS22165"; product "lipocalin Blc"; protein_id "WP_001238378.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4476105 4476107 . - 0 gene_id "ECDH10B_RS22165"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "blc"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313157.1"; locus_tag "ECDH10B_RS22165"; product "lipocalin Blc"; protein_id "WP_001238378.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4475574 4475576 . - 0 gene_id "ECDH10B_RS22165"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "blc"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313157.1"; locus_tag "ECDH10B_RS22165"; product "lipocalin Blc"; protein_id "WP_001238378.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4476196 4477329 . - . gene_id "ECDH10B_RS22170"; transcript_id ""; gbkey "Gene"; gene "blaEC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22170"; old_locus_tag "ECDH10B_4345"; -NC_010473.1 Protein Homology CDS 4476199 4477329 . - 0 gene_id "ECDH10B_RS22170"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "blaEC"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001336292.1"; locus_tag "ECDH10B_RS22170"; product "BlaEC family class C beta-lactamase"; protein_id "WP_001336292.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4477327 4477329 . - 0 gene_id "ECDH10B_RS22170"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "blaEC"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001336292.1"; locus_tag "ECDH10B_RS22170"; product "BlaEC family class C beta-lactamase"; protein_id "WP_001336292.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4476196 4476198 . - 0 gene_id "ECDH10B_RS22170"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "blaEC"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001336292.1"; locus_tag "ECDH10B_RS22170"; product "BlaEC family class C beta-lactamase"; protein_id "WP_001336292.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4477392 4477751 . - . gene_id "ECDH10B_RS22175"; transcript_id ""; gbkey "Gene"; gene "frdD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22175"; old_locus_tag "ECDH10B_4346"; -NC_010473.1 Protein Homology CDS 4477395 4477751 . - 0 gene_id "ECDH10B_RS22175"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "frdD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313159.1"; locus_tag "ECDH10B_RS22175"; product "fumarate reductase subunit FrdD"; protein_id "WP_000609663.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4477749 4477751 . - 0 gene_id "ECDH10B_RS22175"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "frdD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313159.1"; locus_tag "ECDH10B_RS22175"; product "fumarate reductase subunit FrdD"; protein_id "WP_000609663.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4477392 4477394 . - 0 gene_id "ECDH10B_RS22175"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "frdD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313159.1"; locus_tag "ECDH10B_RS22175"; product "fumarate reductase subunit FrdD"; protein_id "WP_000609663.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4477762 4478157 . - . gene_id "ECDH10B_RS22180"; transcript_id ""; gbkey "Gene"; gene "frdC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22180"; old_locus_tag "ECDH10B_4347"; -NC_010473.1 Protein Homology CDS 4477765 4478157 . - 0 gene_id "ECDH10B_RS22180"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "frdC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313160.1"; locus_tag "ECDH10B_RS22180"; product "fumarate reductase subunit FrdC"; protein_id "WP_000208757.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4478155 4478157 . - 0 gene_id "ECDH10B_RS22180"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "frdC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313160.1"; locus_tag "ECDH10B_RS22180"; product "fumarate reductase subunit FrdC"; protein_id "WP_000208757.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4477762 4477764 . - 0 gene_id "ECDH10B_RS22180"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "frdC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313160.1"; locus_tag "ECDH10B_RS22180"; product "fumarate reductase subunit FrdC"; protein_id "WP_000208757.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4478168 4478902 . - . gene_id "ECDH10B_RS22185"; transcript_id ""; gbkey "Gene"; gene "frdB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22185"; -NC_010473.1 Protein Homology CDS 4478171 4478902 . - 0 gene_id "ECDH10B_RS22185"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "frdB"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_020882957.1"; locus_tag "ECDH10B_RS22185"; product "fumarate reductase iron-sulfur protein"; protein_id "WP_000829503.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4478900 4478902 . - 0 gene_id "ECDH10B_RS22185"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "frdB"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_020882957.1"; locus_tag "ECDH10B_RS22185"; product "fumarate reductase iron-sulfur protein"; protein_id "WP_000829503.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4478168 4478170 . - 0 gene_id "ECDH10B_RS22185"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "frdB"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_020882957.1"; locus_tag "ECDH10B_RS22185"; product "fumarate reductase iron-sulfur protein"; protein_id "WP_000829503.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4478895 4480703 . - . gene_id "ECDH10B_RS22190"; transcript_id ""; gbkey "Gene"; gene "frdA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22190"; old_locus_tag "ECDH10B_4349"; -NC_010473.1 Protein Homology CDS 4478898 4480703 . - 0 gene_id "ECDH10B_RS22190"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "frdA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418578.1"; locus_tag "ECDH10B_RS22190"; product "fumarate reductase (quinol) flavoprotein subunit"; protein_id "WP_001192973.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4480701 4480703 . - 0 gene_id "ECDH10B_RS22190"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "frdA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418578.1"; locus_tag "ECDH10B_RS22190"; product "fumarate reductase (quinol) flavoprotein subunit"; protein_id "WP_001192973.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4478895 4478897 . - 0 gene_id "ECDH10B_RS22190"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "frdA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418578.1"; locus_tag "ECDH10B_RS22190"; product "fumarate reductase (quinol) flavoprotein subunit"; protein_id "WP_001192973.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4481028 4482005 . + . gene_id "ECDH10B_RS22195"; transcript_id ""; gbkey "Gene"; gene "epmA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22195"; old_locus_tag "ECDH10B_4350"; -NC_010473.1 Protein Homology CDS 4481028 4482002 . + 0 gene_id "ECDH10B_RS22195"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "epmA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000004771.1"; locus_tag "ECDH10B_RS22195"; product "elongation factor P--(R)-beta-lysine ligase"; protein_id "WP_000004771.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4481028 4481030 . + 0 gene_id "ECDH10B_RS22195"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "epmA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000004771.1"; locus_tag "ECDH10B_RS22195"; product "elongation factor P--(R)-beta-lysine ligase"; protein_id "WP_000004771.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4482003 4482005 . + 0 gene_id "ECDH10B_RS22195"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "epmA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000004771.1"; locus_tag "ECDH10B_RS22195"; product "elongation factor P--(R)-beta-lysine ligase"; protein_id "WP_000004771.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4482224 4483726 . + . gene_id "ECDH10B_RS22200"; transcript_id ""; gbkey "Gene"; gene "yjeM"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22200"; old_locus_tag "ECDH10B_4351"; -NC_010473.1 Protein Homology CDS 4482224 4483723 . + 0 gene_id "ECDH10B_RS22200"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yjeM"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418580.2"; locus_tag "ECDH10B_RS22200"; product "glutamate/gamma-aminobutyrate family transporter YjeM"; protein_id "WP_001336293.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4482224 4482226 . + 0 gene_id "ECDH10B_RS22200"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yjeM"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418580.2"; locus_tag "ECDH10B_RS22200"; product "glutamate/gamma-aminobutyrate family transporter YjeM"; protein_id "WP_001336293.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4483724 4483726 . + 0 gene_id "ECDH10B_RS22200"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yjeM"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418580.2"; locus_tag "ECDH10B_RS22200"; product "glutamate/gamma-aminobutyrate family transporter YjeM"; protein_id "WP_001336293.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4483778 4484092 . + . gene_id "ECDH10B_RS22205"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22205"; old_locus_tag "ECDH10B_4352"; -NC_010473.1 Protein Homology CDS 4483778 4484089 . + 0 gene_id "ECDH10B_RS22205"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418581.1"; locus_tag "ECDH10B_RS22205"; product "hypothetical protein"; protein_id "WP_000342867.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4483778 4483780 . + 0 gene_id "ECDH10B_RS22205"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418581.1"; locus_tag "ECDH10B_RS22205"; product "hypothetical protein"; protein_id "WP_000342867.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4484090 4484092 . + 0 gene_id "ECDH10B_RS22205"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418581.1"; locus_tag "ECDH10B_RS22205"; product "hypothetical protein"; protein_id "WP_000342867.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4484089 4484403 . + . gene_id "ECDH10B_RS22210"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22210"; old_locus_tag "ECDH10B_4353"; -NC_010473.1 Protein Homology CDS 4484089 4484400 . + 0 gene_id "ECDH10B_RS22210"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418582.1"; locus_tag "ECDH10B_RS22210"; product "YjeO family protein"; protein_id "WP_001276180.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4484089 4484091 . + 0 gene_id "ECDH10B_RS22210"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418582.1"; locus_tag "ECDH10B_RS22210"; product "YjeO family protein"; protein_id "WP_001276180.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4484401 4484403 . + 0 gene_id "ECDH10B_RS22210"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418582.1"; locus_tag "ECDH10B_RS22210"; product "YjeO family protein"; protein_id "WP_001276180.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4484432 4487755 . - . gene_id "ECDH10B_RS22215"; transcript_id ""; gbkey "Gene"; gene "mscM"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22215"; old_locus_tag "ECDH10B_4354"; -NC_010473.1 Protein Homology CDS 4484435 4487755 . - 0 gene_id "ECDH10B_RS22215"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mscM"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418583.1"; locus_tag "ECDH10B_RS22215"; product "miniconductance mechanosensitive channel MscM"; protein_id "WP_001236847.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4487753 4487755 . - 0 gene_id "ECDH10B_RS22215"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mscM"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418583.1"; locus_tag "ECDH10B_RS22215"; product "miniconductance mechanosensitive channel MscM"; protein_id "WP_001236847.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4484432 4484434 . - 0 gene_id "ECDH10B_RS22215"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mscM"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418583.1"; locus_tag "ECDH10B_RS22215"; product "miniconductance mechanosensitive channel MscM"; protein_id "WP_001236847.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4487777 4488745 . - . gene_id "ECDH10B_RS22220"; transcript_id ""; gbkey "Gene"; gene "psd"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22220"; old_locus_tag "ECDH10B_4355"; -NC_010473.1 Protein Homology CDS 4487780 4488745 . - 0 gene_id "ECDH10B_RS22220"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "psd"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313166.1"; locus_tag "ECDH10B_RS22220"; note "Phosphatidylserine decarboxylase is synthesized as a single chain precursor. Generation of the pyruvoyl active site from a Ser is coupled to cleavage of a Gly-Ser bond between the larger (beta) and smaller (alpha chains). It is an integral membrane protein."; product "phosphatidylserine decarboxylase"; protein_id "WP_000934920.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4488743 4488745 . - 0 gene_id "ECDH10B_RS22220"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "psd"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313166.1"; locus_tag "ECDH10B_RS22220"; note "Phosphatidylserine decarboxylase is synthesized as a single chain precursor. Generation of the pyruvoyl active site from a Ser is coupled to cleavage of a Gly-Ser bond between the larger (beta) and smaller (alpha chains). It is an integral membrane protein."; product "phosphatidylserine decarboxylase"; protein_id "WP_000934920.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4487777 4487779 . - 0 gene_id "ECDH10B_RS22220"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "psd"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313166.1"; locus_tag "ECDH10B_RS22220"; note "Phosphatidylserine decarboxylase is synthesized as a single chain precursor. Generation of the pyruvoyl active site from a Ser is coupled to cleavage of a Gly-Ser bond between the larger (beta) and smaller (alpha chains). It is an integral membrane protein."; product "phosphatidylserine decarboxylase"; protein_id "WP_000934920.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4488842 4489894 . - . gene_id "ECDH10B_RS22225"; transcript_id ""; gbkey "Gene"; gene "rsgA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22225"; old_locus_tag "ECDH10B_4356"; -NC_010473.1 Protein Homology CDS 4488845 4489894 . - 0 gene_id "ECDH10B_RS22225"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rsgA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418585.4"; locus_tag "ECDH10B_RS22225"; product "small ribosomal subunit biogenesis GTPase RsgA"; protein_id "WP_000041964.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4489892 4489894 . - 0 gene_id "ECDH10B_RS22225"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rsgA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418585.4"; locus_tag "ECDH10B_RS22225"; product "small ribosomal subunit biogenesis GTPase RsgA"; protein_id "WP_000041964.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4488842 4488844 . - 0 gene_id "ECDH10B_RS22225"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rsgA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418585.4"; locus_tag "ECDH10B_RS22225"; product "small ribosomal subunit biogenesis GTPase RsgA"; protein_id "WP_000041964.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4489989 4490534 . + . gene_id "ECDH10B_RS22230"; transcript_id ""; gbkey "Gene"; gene "orn"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22230"; old_locus_tag "ECDH10B_4357"; -NC_010473.1 Protein Homology CDS 4489989 4490531 . + 0 gene_id "ECDH10B_RS22230"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "orn"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_020882950.1"; locus_tag "ECDH10B_RS22230"; product "oligoribonuclease"; protein_id "WP_001295188.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4489989 4489991 . + 0 gene_id "ECDH10B_RS22230"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "orn"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_020882950.1"; locus_tag "ECDH10B_RS22230"; product "oligoribonuclease"; protein_id "WP_001295188.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4490532 4490534 . + 0 gene_id "ECDH10B_RS22230"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "orn"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_020882950.1"; locus_tag "ECDH10B_RS22230"; product "oligoribonuclease"; protein_id "WP_001295188.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4490745 4490820 . + . gene_id "ECDH10B_RS22235"; transcript_id ""; gbkey "Gene"; gene_biotype "tRNA"; locus_tag "ECDH10B_RS22235"; old_locus_tag "ECDH10B_4358"; -NC_010473.1 tRNAscan-SE exon 4490745 4490820 . + . gene_id "ECDH10B_RS22235"; transcript_id "ECDH10B_RS22235"; anticodon "(pos:4490778..4490780)"; gbkey "tRNA"; inference "COORDINATES: profile:tRNAscan-SE:2.0.6"; locus_tag "ECDH10B_RS22235"; product "tRNA-Gly"; exon_number "1"; -NC_010473.1 RefSeq gene 4490857 4490932 . + . gene_id "ECDH10B_RS22240"; transcript_id ""; gbkey "Gene"; gene_biotype "tRNA"; locus_tag "ECDH10B_RS22240"; old_locus_tag "ECDH10B_4359"; -NC_010473.1 tRNAscan-SE exon 4490857 4490932 . + . gene_id "ECDH10B_RS22240"; transcript_id "ECDH10B_RS22240"; anticodon "(pos:4490890..4490892)"; gbkey "tRNA"; inference "COORDINATES: profile:tRNAscan-SE:2.0.6"; locus_tag "ECDH10B_RS22240"; product "tRNA-Gly"; exon_number "1"; -NC_010473.1 RefSeq gene 4490968 4491043 . + . gene_id "ECDH10B_RS22245"; transcript_id ""; gbkey "Gene"; gene_biotype "tRNA"; locus_tag "ECDH10B_RS22245"; old_locus_tag "ECDH10B_4360"; -NC_010473.1 tRNAscan-SE exon 4490968 4491043 . + . gene_id "ECDH10B_RS22245"; transcript_id "ECDH10B_RS22245"; anticodon "(pos:4491001..4491003)"; gbkey "tRNA"; inference "COORDINATES: profile:tRNAscan-SE:2.0.6"; locus_tag "ECDH10B_RS22245"; product "tRNA-Gly"; exon_number "1"; -NC_010473.1 RefSeq gene 4491277 4491330 . + . gene_id "ECDH10B_RS26150"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS26150"; -NC_010473.1 Protein Homology CDS 4491277 4491327 . + 0 gene_id "ECDH10B_RS26150"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_002791261.1"; locus_tag "ECDH10B_RS26150"; product "hypothetical protein"; protein_id "WP_010723271.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4491277 4491279 . + 0 gene_id "ECDH10B_RS26150"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_002791261.1"; locus_tag "ECDH10B_RS26150"; product "hypothetical protein"; protein_id "WP_010723271.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4491328 4491330 . + 0 gene_id "ECDH10B_RS26150"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_002791261.1"; locus_tag "ECDH10B_RS26150"; product "hypothetical protein"; protein_id "WP_010723271.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4491313 4492452 . - . gene_id "ECDH10B_RS22250"; transcript_id ""; gbkey "Gene"; gene "queG"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22250"; old_locus_tag "ECDH10B_4361"; -NC_010473.1 Protein Homology CDS 4491316 4492452 . - 0 gene_id "ECDH10B_RS22250"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "queG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418587.1"; locus_tag "ECDH10B_RS22250"; product "tRNA epoxyqueuosine(34) reductase QueG"; protein_id "WP_001294219.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4492450 4492452 . - 0 gene_id "ECDH10B_RS22250"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "queG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418587.1"; locus_tag "ECDH10B_RS22250"; product "tRNA epoxyqueuosine(34) reductase QueG"; protein_id "WP_001294219.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4491313 4491315 . - 0 gene_id "ECDH10B_RS22250"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "queG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418587.1"; locus_tag "ECDH10B_RS22250"; product "tRNA epoxyqueuosine(34) reductase QueG"; protein_id "WP_001294219.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4492451 4493998 . + . gene_id "ECDH10B_RS22255"; transcript_id ""; gbkey "Gene"; gene "nnr"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22255"; old_locus_tag "ECDH10B_4362"; -NC_010473.1 Protein Homology CDS 4492451 4493995 . + 0 gene_id "ECDH10B_RS22255"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nnr"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418588.1"; locus_tag "ECDH10B_RS22255"; product "bifunctional ADP-dependent NAD(P)H-hydrate dehydratase/NAD(P)H-hydrate epimerase"; protein_id "WP_001295189.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4492451 4492453 . + 0 gene_id "ECDH10B_RS22255"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nnr"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418588.1"; locus_tag "ECDH10B_RS22255"; product "bifunctional ADP-dependent NAD(P)H-hydrate dehydratase/NAD(P)H-hydrate epimerase"; protein_id "WP_001295189.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4493996 4493998 . + 0 gene_id "ECDH10B_RS22255"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nnr"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418588.1"; locus_tag "ECDH10B_RS22255"; product "bifunctional ADP-dependent NAD(P)H-hydrate dehydratase/NAD(P)H-hydrate epimerase"; protein_id "WP_001295189.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4493970 4494431 . + . gene_id "ECDH10B_RS22260"; transcript_id ""; gbkey "Gene"; gene "tsaE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22260"; old_locus_tag "ECDH10B_4363"; -NC_010473.1 Protein Homology CDS 4493970 4494428 . + 0 gene_id "ECDH10B_RS22260"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tsaE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313171.1"; locus_tag "ECDH10B_RS22260"; product "tRNA (N6-adenosine(37)-N6)-threonylcarbamoyltransferase complex ATPase TsaE"; protein_id "WP_000981977.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4493970 4493972 . + 0 gene_id "ECDH10B_RS22260"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tsaE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313171.1"; locus_tag "ECDH10B_RS22260"; product "tRNA (N6-adenosine(37)-N6)-threonylcarbamoyltransferase complex ATPase TsaE"; protein_id "WP_000981977.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4494429 4494431 . + 0 gene_id "ECDH10B_RS22260"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tsaE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313171.1"; locus_tag "ECDH10B_RS22260"; product "tRNA (N6-adenosine(37)-N6)-threonylcarbamoyltransferase complex ATPase TsaE"; protein_id "WP_000981977.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4494450 4495787 . + . gene_id "ECDH10B_RS22265"; transcript_id ""; gbkey "Gene"; gene "amiB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22265"; old_locus_tag "ECDH10B_4364"; -NC_010473.1 Protein Homology CDS 4494450 4495784 . + 0 gene_id "ECDH10B_RS22265"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "amiB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418590.1"; locus_tag "ECDH10B_RS22265"; product "N-acetylmuramoyl-L-alanine amidase AmiB"; protein_id "WP_000990333.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4494450 4494452 . + 0 gene_id "ECDH10B_RS22265"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "amiB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418590.1"; locus_tag "ECDH10B_RS22265"; product "N-acetylmuramoyl-L-alanine amidase AmiB"; protein_id "WP_000990333.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4495785 4495787 . + 0 gene_id "ECDH10B_RS22265"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "amiB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418590.1"; locus_tag "ECDH10B_RS22265"; product "N-acetylmuramoyl-L-alanine amidase AmiB"; protein_id "WP_000990333.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4495797 4497644 . + . gene_id "ECDH10B_RS22270"; transcript_id ""; gbkey "Gene"; gene "mutL"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22270"; old_locus_tag "ECDH10B_4365"; -NC_010473.1 Protein Homology CDS 4495797 4497641 . + 0 gene_id "ECDH10B_RS22270"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mutL"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418591.1"; locus_tag "ECDH10B_RS22270"; product "DNA mismatch repair endonuclease MutL"; protein_id "WP_001122505.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4495797 4495799 . + 0 gene_id "ECDH10B_RS22270"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mutL"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418591.1"; locus_tag "ECDH10B_RS22270"; product "DNA mismatch repair endonuclease MutL"; protein_id "WP_001122505.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4497642 4497644 . + 0 gene_id "ECDH10B_RS22270"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mutL"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418591.1"; locus_tag "ECDH10B_RS22270"; product "DNA mismatch repair endonuclease MutL"; protein_id "WP_001122505.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4497637 4498587 . + . gene_id "ECDH10B_RS22275"; transcript_id ""; gbkey "Gene"; gene "miaA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22275"; old_locus_tag "ECDH10B_4366"; -NC_010473.1 Protein Homology CDS 4497637 4498584 . + 0 gene_id "ECDH10B_RS22275"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "miaA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418592.1"; locus_tag "ECDH10B_RS22275"; product "tRNA (adenosine(37)-N6)-dimethylallyltransferase MiaA"; protein_id "WP_001280345.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4497637 4497639 . + 0 gene_id "ECDH10B_RS22275"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "miaA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418592.1"; locus_tag "ECDH10B_RS22275"; product "tRNA (adenosine(37)-N6)-dimethylallyltransferase MiaA"; protein_id "WP_001280345.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4498585 4498587 . + 0 gene_id "ECDH10B_RS22275"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "miaA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418592.1"; locus_tag "ECDH10B_RS22275"; product "tRNA (adenosine(37)-N6)-dimethylallyltransferase MiaA"; protein_id "WP_001280345.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4498673 4498981 . + . gene_id "ECDH10B_RS22280"; transcript_id ""; gbkey "Gene"; gene "hfq"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22280"; old_locus_tag "ECDH10B_4367"; -NC_010473.1 Protein Homology CDS 4498673 4498978 . + 0 gene_id "ECDH10B_RS22280"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hfq"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313175.1"; locus_tag "ECDH10B_RS22280"; product "RNA chaperone Hfq"; protein_id "WP_001051883.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4498673 4498675 . + 0 gene_id "ECDH10B_RS22280"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hfq"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313175.1"; locus_tag "ECDH10B_RS22280"; product "RNA chaperone Hfq"; protein_id "WP_001051883.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4498979 4498981 . + 0 gene_id "ECDH10B_RS22280"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hfq"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313175.1"; locus_tag "ECDH10B_RS22280"; product "RNA chaperone Hfq"; protein_id "WP_001051883.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4499057 4500337 . + . gene_id "ECDH10B_RS22285"; transcript_id ""; gbkey "Gene"; gene "hflX"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22285"; old_locus_tag "ECDH10B_4368"; -NC_010473.1 Protein Homology CDS 4499057 4500334 . + 0 gene_id "ECDH10B_RS22285"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hflX"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418594.1"; locus_tag "ECDH10B_RS22285"; product "GTPase HflX"; protein_id "WP_000460362.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4499057 4499059 . + 0 gene_id "ECDH10B_RS22285"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hflX"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418594.1"; locus_tag "ECDH10B_RS22285"; product "GTPase HflX"; protein_id "WP_000460362.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4500335 4500337 . + 0 gene_id "ECDH10B_RS22285"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hflX"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418594.1"; locus_tag "ECDH10B_RS22285"; product "GTPase HflX"; protein_id "WP_000460362.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4500423 4501682 . + . gene_id "ECDH10B_RS22290"; transcript_id ""; gbkey "Gene"; gene "hflK"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22290"; old_locus_tag "ECDH10B_4369"; -NC_010473.1 Protein Homology CDS 4500423 4501679 . + 0 gene_id "ECDH10B_RS22290"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hflK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313177.1"; locus_tag "ECDH10B_RS22290"; product "FtsH protease activity modulator HflK"; protein_id "WP_000312488.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4500423 4500425 . + 0 gene_id "ECDH10B_RS22290"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hflK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313177.1"; locus_tag "ECDH10B_RS22290"; product "FtsH protease activity modulator HflK"; protein_id "WP_000312488.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4501680 4501682 . + 0 gene_id "ECDH10B_RS22290"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hflK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313177.1"; locus_tag "ECDH10B_RS22290"; product "FtsH protease activity modulator HflK"; protein_id "WP_000312488.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4501685 4502689 . + . gene_id "ECDH10B_RS22295"; transcript_id ""; gbkey "Gene"; gene "hflC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22295"; old_locus_tag "ECDH10B_4370"; -NC_010473.1 Protein Homology CDS 4501685 4502686 . + 0 gene_id "ECDH10B_RS22295"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hflC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313178.1"; locus_tag "ECDH10B_RS22295"; product "protease modulator HflC"; protein_id "WP_001232412.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4501685 4501687 . + 0 gene_id "ECDH10B_RS22295"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hflC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313178.1"; locus_tag "ECDH10B_RS22295"; product "protease modulator HflC"; protein_id "WP_001232412.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4502687 4502689 . + 0 gene_id "ECDH10B_RS22295"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "hflC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313178.1"; locus_tag "ECDH10B_RS22295"; product "protease modulator HflC"; protein_id "WP_001232412.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4502771 4502968 . + . gene_id "ECDH10B_RS22300"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22300"; old_locus_tag "ECDH10B_4371"; -NC_010473.1 Protein Homology CDS 4502771 4502965 . + 0 gene_id "ECDH10B_RS22300"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313179.1"; locus_tag "ECDH10B_RS22300"; product "DUF2065 domain-containing protein"; protein_id "WP_001089295.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4502771 4502773 . + 0 gene_id "ECDH10B_RS22300"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313179.1"; locus_tag "ECDH10B_RS22300"; product "DUF2065 domain-containing protein"; protein_id "WP_001089295.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4502966 4502968 . + 0 gene_id "ECDH10B_RS22300"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313179.1"; locus_tag "ECDH10B_RS22300"; product "DUF2065 domain-containing protein"; protein_id "WP_001089295.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4503072 4504370 . + . gene_id "ECDH10B_RS22305"; transcript_id ""; gbkey "Gene"; gene "purA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22305"; old_locus_tag "ECDH10B_4372"; -NC_010473.1 Protein Homology CDS 4503072 4504367 . + 0 gene_id "ECDH10B_RS22305"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "purA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_019842885.1"; locus_tag "ECDH10B_RS22305"; product "adenylosuccinate synthase"; protein_id "WP_000527955.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4503072 4503074 . + 0 gene_id "ECDH10B_RS22305"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "purA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_019842885.1"; locus_tag "ECDH10B_RS22305"; product "adenylosuccinate synthase"; protein_id "WP_000527955.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4504368 4504370 . + 0 gene_id "ECDH10B_RS22305"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "purA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_019842885.1"; locus_tag "ECDH10B_RS22305"; product "adenylosuccinate synthase"; protein_id "WP_000527955.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4504575 4505000 . + . gene_id "ECDH10B_RS22310"; transcript_id ""; gbkey "Gene"; gene "nsrR"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22310"; old_locus_tag "ECDH10B_4373"; -NC_010473.1 Protein Homology CDS 4504575 4504997 . + 0 gene_id "ECDH10B_RS22310"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nsrR"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005134424.1"; locus_tag "ECDH10B_RS22310"; product "nitric oxide-sensing transcriptional repressor NsrR"; protein_id "WP_001177639.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4504575 4504577 . + 0 gene_id "ECDH10B_RS22310"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nsrR"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005134424.1"; locus_tag "ECDH10B_RS22310"; product "nitric oxide-sensing transcriptional repressor NsrR"; protein_id "WP_001177639.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4504998 4505000 . + 0 gene_id "ECDH10B_RS22310"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nsrR"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005134424.1"; locus_tag "ECDH10B_RS22310"; product "nitric oxide-sensing transcriptional repressor NsrR"; protein_id "WP_001177639.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4505039 4507480 . + . gene_id "ECDH10B_RS22315"; transcript_id ""; gbkey "Gene"; gene "rnr"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22315"; old_locus_tag "ECDH10B_4374"; -NC_010473.1 Protein Homology CDS 4505039 4507477 . + 0 gene_id "ECDH10B_RS22315"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rnr"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418600.4"; locus_tag "ECDH10B_RS22315"; product "ribonuclease R"; protein_id "WP_000076332.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4505039 4505041 . + 0 gene_id "ECDH10B_RS22315"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rnr"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418600.4"; locus_tag "ECDH10B_RS22315"; product "ribonuclease R"; protein_id "WP_000076332.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4507478 4507480 . + 0 gene_id "ECDH10B_RS22315"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rnr"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418600.4"; locus_tag "ECDH10B_RS22315"; product "ribonuclease R"; protein_id "WP_000076332.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4507660 4508391 . + . gene_id "ECDH10B_RS22320"; transcript_id ""; gbkey "Gene"; gene "rlmB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22320"; old_locus_tag "ECDH10B_4375"; -NC_010473.1 Protein Homology CDS 4507660 4508388 . + 0 gene_id "ECDH10B_RS22320"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rlmB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313183.1"; locus_tag "ECDH10B_RS22320"; product "23S rRNA (guanosine(2251)-2'-O)-methyltransferase RlmB"; protein_id "WP_001293282.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4507660 4507662 . + 0 gene_id "ECDH10B_RS22320"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rlmB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313183.1"; locus_tag "ECDH10B_RS22320"; product "23S rRNA (guanosine(2251)-2'-O)-methyltransferase RlmB"; protein_id "WP_001293282.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4508389 4508391 . + 0 gene_id "ECDH10B_RS22320"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rlmB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313183.1"; locus_tag "ECDH10B_RS22320"; product "23S rRNA (guanosine(2251)-2'-O)-methyltransferase RlmB"; protein_id "WP_001293282.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4508518 4508919 . + . gene_id "ECDH10B_RS22325"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22325"; old_locus_tag "ECDH10B_4376"; -NC_010473.1 Protein Homology CDS 4508518 4508916 . + 0 gene_id "ECDH10B_RS22325"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313184.1"; locus_tag "ECDH10B_RS22325"; product "DUF2170 family protein"; protein_id "WP_000220128.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4508518 4508520 . + 0 gene_id "ECDH10B_RS22325"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313184.1"; locus_tag "ECDH10B_RS22325"; product "DUF2170 family protein"; protein_id "WP_000220128.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4508917 4508919 . + 0 gene_id "ECDH10B_RS22325"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313184.1"; locus_tag "ECDH10B_RS22325"; product "DUF2170 family protein"; protein_id "WP_000220128.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4508938 4509636 . + . gene_id "ECDH10B_RS22330"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22330"; old_locus_tag "ECDH10B_4377"; -NC_010473.1 Protein Homology CDS 4508938 4509633 . + 0 gene_id "ECDH10B_RS22330"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418603.1"; locus_tag "ECDH10B_RS22330"; product "PspA/IM30 family protein"; protein_id "WP_000511955.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4508938 4508940 . + 0 gene_id "ECDH10B_RS22330"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418603.1"; locus_tag "ECDH10B_RS22330"; product "PspA/IM30 family protein"; protein_id "WP_000511955.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4509634 4509636 . + 0 gene_id "ECDH10B_RS22330"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418603.1"; locus_tag "ECDH10B_RS22330"; product "PspA/IM30 family protein"; protein_id "WP_000511955.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4509687 4510346 . + . gene_id "ECDH10B_RS22335"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22335"; old_locus_tag "ECDH10B_4378"; -NC_010473.1 Protein Homology CDS 4509687 4510343 . + 0 gene_id "ECDH10B_RS22335"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418604.1"; locus_tag "ECDH10B_RS22335"; product "YjfK family protein"; protein_id "WP_000012550.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4509687 4509689 . + 0 gene_id "ECDH10B_RS22335"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418604.1"; locus_tag "ECDH10B_RS22335"; product "YjfK family protein"; protein_id "WP_000012550.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4510344 4510346 . + 0 gene_id "ECDH10B_RS22335"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418604.1"; locus_tag "ECDH10B_RS22335"; product "YjfK family protein"; protein_id "WP_000012550.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4510364 4510762 . + . gene_id "ECDH10B_RS22340"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22340"; old_locus_tag "ECDH10B_4379"; -NC_010473.1 Protein Homology CDS 4510364 4510759 . + 0 gene_id "ECDH10B_RS22340"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313187.1"; locus_tag "ECDH10B_RS22340"; product "DUF350 domain-containing protein"; protein_id "WP_000547760.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4510364 4510366 . + 0 gene_id "ECDH10B_RS22340"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313187.1"; locus_tag "ECDH10B_RS22340"; product "DUF350 domain-containing protein"; protein_id "WP_000547760.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4510760 4510762 . + 0 gene_id "ECDH10B_RS22340"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313187.1"; locus_tag "ECDH10B_RS22340"; product "DUF350 domain-containing protein"; protein_id "WP_000547760.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4510772 4511410 . + . gene_id "ECDH10B_RS22345"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22345"; old_locus_tag "ECDH10B_4380"; -NC_010473.1 Protein Homology CDS 4510772 4511407 . + 0 gene_id "ECDH10B_RS22345"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418606.1"; locus_tag "ECDH10B_RS22345"; product "DUF1190 domain-containing protein"; protein_id "WP_000101658.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4510772 4510774 . + 0 gene_id "ECDH10B_RS22345"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418606.1"; locus_tag "ECDH10B_RS22345"; product "DUF1190 domain-containing protein"; protein_id "WP_000101658.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4511408 4511410 . + 0 gene_id "ECDH10B_RS22345"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418606.1"; locus_tag "ECDH10B_RS22345"; product "DUF1190 domain-containing protein"; protein_id "WP_000101658.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4511413 4512576 . + . gene_id "ECDH10B_RS22350"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22350"; old_locus_tag "ECDH10B_4381"; -NC_010473.1 Protein Homology CDS 4511413 4512573 . + 0 gene_id "ECDH10B_RS22350"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418607.1"; locus_tag "ECDH10B_RS22350"; product "glutathionylspermidine synthase family protein"; protein_id "WP_000943959.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4511413 4511415 . + 0 gene_id "ECDH10B_RS22350"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418607.1"; locus_tag "ECDH10B_RS22350"; product "glutathionylspermidine synthase family protein"; protein_id "WP_000943959.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4512574 4512576 . + 0 gene_id "ECDH10B_RS22350"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418607.1"; locus_tag "ECDH10B_RS22350"; product "glutathionylspermidine synthase family protein"; protein_id "WP_000943959.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4512660 4514285 . + . gene_id "ECDH10B_RS22355"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22355"; old_locus_tag "ECDH10B_4382"; -NC_010473.1 Protein Homology CDS 4512660 4514282 . + 0 gene_id "ECDH10B_RS22355"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418608.6"; locus_tag "ECDH10B_RS22355"; product "isovaleryl-CoA dehydrogenase"; protein_id "WP_001350567.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4512660 4512662 . + 0 gene_id "ECDH10B_RS22355"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418608.6"; locus_tag "ECDH10B_RS22355"; product "isovaleryl-CoA dehydrogenase"; protein_id "WP_001350567.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4514283 4514285 . + 0 gene_id "ECDH10B_RS22355"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418608.6"; locus_tag "ECDH10B_RS22355"; product "isovaleryl-CoA dehydrogenase"; protein_id "WP_001350567.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4514402 4514677 . - . gene_id "ECDH10B_RS22360"; transcript_id ""; gbkey "Gene"; gene "yjfN"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22360"; old_locus_tag "ECDH10B_4383"; -NC_010473.1 Protein Homology CDS 4514405 4514677 . - 0 gene_id "ECDH10B_RS22360"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yjfN"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418609.4"; locus_tag "ECDH10B_RS22360"; product "protease activator YjfN"; protein_id "WP_000811566.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4514675 4514677 . - 0 gene_id "ECDH10B_RS22360"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yjfN"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418609.4"; locus_tag "ECDH10B_RS22360"; product "protease activator YjfN"; protein_id "WP_000811566.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4514402 4514404 . - 0 gene_id "ECDH10B_RS22360"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yjfN"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418609.4"; locus_tag "ECDH10B_RS22360"; product "protease activator YjfN"; protein_id "WP_000811566.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4514826 4515155 . - . gene_id "ECDH10B_RS22365"; transcript_id ""; gbkey "Gene"; gene "bsmA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22365"; old_locus_tag "ECDH10B_4384"; -NC_010473.1 Protein Homology CDS 4514829 4515155 . - 0 gene_id "ECDH10B_RS22365"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "bsmA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418610.4"; locus_tag "ECDH10B_RS22365"; product "biofilm peroxide resistance protein BsmA"; protein_id "WP_000254633.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4515153 4515155 . - 0 gene_id "ECDH10B_RS22365"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "bsmA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418610.4"; locus_tag "ECDH10B_RS22365"; product "biofilm peroxide resistance protein BsmA"; protein_id "WP_000254633.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4514826 4514828 . - 0 gene_id "ECDH10B_RS22365"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "bsmA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418610.4"; locus_tag "ECDH10B_RS22365"; product "biofilm peroxide resistance protein BsmA"; protein_id "WP_000254633.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4515337 4516086 . + . gene_id "ECDH10B_RS22370"; transcript_id ""; gbkey "Gene"; gene "yjfP"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22370"; old_locus_tag "ECDH10B_4385"; -NC_010473.1 Protein Homology CDS 4515337 4516083 . + 0 gene_id "ECDH10B_RS22370"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yjfP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418611.1"; locus_tag "ECDH10B_RS22370"; product "esterase"; protein_id "WP_000569707.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4515337 4515339 . + 0 gene_id "ECDH10B_RS22370"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yjfP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418611.1"; locus_tag "ECDH10B_RS22370"; product "esterase"; protein_id "WP_000569707.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4516084 4516086 . + 0 gene_id "ECDH10B_RS22370"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yjfP"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418611.1"; locus_tag "ECDH10B_RS22370"; product "esterase"; protein_id "WP_000569707.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4516083 4516838 . - . gene_id "ECDH10B_RS22375"; transcript_id ""; gbkey "Gene"; gene "ulaR"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22375"; old_locus_tag "ECDH10B_4386"; -NC_010473.1 Protein Homology CDS 4516086 4516838 . - 0 gene_id "ECDH10B_RS22375"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ulaR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313194.1"; locus_tag "ECDH10B_RS22375"; product "HTH-type transcriptional regulator UlaR"; protein_id "WP_000133631.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4516836 4516838 . - 0 gene_id "ECDH10B_RS22375"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ulaR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313194.1"; locus_tag "ECDH10B_RS22375"; product "HTH-type transcriptional regulator UlaR"; protein_id "WP_000133631.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4516083 4516085 . - 0 gene_id "ECDH10B_RS22375"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ulaR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313194.1"; locus_tag "ECDH10B_RS22375"; product "HTH-type transcriptional regulator UlaR"; protein_id "WP_000133631.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4516946 4518010 . - . gene_id "ECDH10B_RS22380"; transcript_id ""; gbkey "Gene"; gene "ulaG"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22380"; old_locus_tag "ECDH10B_4387"; -NC_010473.1 Protein Homology CDS 4516949 4518010 . - 0 gene_id "ECDH10B_RS22380"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ulaG"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_003856017.1"; locus_tag "ECDH10B_RS22380"; product "L-ascorbate 6-phosphate lactonase"; protein_id "WP_001295191.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4518008 4518010 . - 0 gene_id "ECDH10B_RS22380"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ulaG"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_003856017.1"; locus_tag "ECDH10B_RS22380"; product "L-ascorbate 6-phosphate lactonase"; protein_id "WP_001295191.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4516946 4516948 . - 0 gene_id "ECDH10B_RS22380"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ulaG"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_003856017.1"; locus_tag "ECDH10B_RS22380"; product "L-ascorbate 6-phosphate lactonase"; protein_id "WP_001295191.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4518365 4519762 . + . gene_id "ECDH10B_RS22385"; transcript_id ""; gbkey "Gene"; gene "ulaA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22385"; old_locus_tag "ECDH10B_4388"; -NC_010473.1 Protein Homology CDS 4518365 4519759 . + 0 gene_id "ECDH10B_RS22385"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ulaA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418614.4"; locus_tag "ECDH10B_RS22385"; product "PTS ascorbate transporter subunit IIC"; protein_id "WP_001350568.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4518365 4518367 . + 0 gene_id "ECDH10B_RS22385"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ulaA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418614.4"; locus_tag "ECDH10B_RS22385"; product "PTS ascorbate transporter subunit IIC"; protein_id "WP_001350568.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4519760 4519762 . + 0 gene_id "ECDH10B_RS22385"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ulaA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418614.4"; locus_tag "ECDH10B_RS22385"; product "PTS ascorbate transporter subunit IIC"; protein_id "WP_001350568.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4519778 4520083 . + . gene_id "ECDH10B_RS22390"; transcript_id ""; gbkey "Gene"; gene "ulaB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22390"; old_locus_tag "ECDH10B_4389"; -NC_010473.1 Protein Homology CDS 4519778 4520080 . + 0 gene_id "ECDH10B_RS22390"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ulaB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313197.1"; locus_tag "ECDH10B_RS22390"; product "PTS ascorbate transporter subunit IIB"; protein_id "WP_000218362.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4519778 4519780 . + 0 gene_id "ECDH10B_RS22390"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ulaB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313197.1"; locus_tag "ECDH10B_RS22390"; product "PTS ascorbate transporter subunit IIB"; protein_id "WP_000218362.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4520081 4520083 . + 0 gene_id "ECDH10B_RS22390"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ulaB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313197.1"; locus_tag "ECDH10B_RS22390"; product "PTS ascorbate transporter subunit IIB"; protein_id "WP_000218362.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4520093 4520557 . + . gene_id "ECDH10B_RS22395"; transcript_id ""; gbkey "Gene"; gene "ulaC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22395"; old_locus_tag "ECDH10B_4390"; -NC_010473.1 Protein Homology CDS 4520093 4520554 . + 0 gene_id "ECDH10B_RS22395"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ulaC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313198.1"; locus_tag "ECDH10B_RS22395"; product "PTS ascorbate transporter subunit IIA"; protein_id "WP_000776517.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4520093 4520095 . + 0 gene_id "ECDH10B_RS22395"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ulaC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313198.1"; locus_tag "ECDH10B_RS22395"; product "PTS ascorbate transporter subunit IIA"; protein_id "WP_000776517.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4520555 4520557 . + 0 gene_id "ECDH10B_RS22395"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ulaC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313198.1"; locus_tag "ECDH10B_RS22395"; product "PTS ascorbate transporter subunit IIA"; protein_id "WP_000776517.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4520571 4521221 . + . gene_id "ECDH10B_RS22400"; transcript_id ""; gbkey "Gene"; gene "ulaD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22400"; old_locus_tag "ECDH10B_4391"; -NC_010473.1 Protein Homology CDS 4520571 4521218 . + 0 gene_id "ECDH10B_RS22400"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ulaD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418617.1"; locus_tag "ECDH10B_RS22400"; product "3-keto-L-gulonate-6-phosphate decarboxylase UlaD"; protein_id "WP_000056749.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4520571 4520573 . + 0 gene_id "ECDH10B_RS22400"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ulaD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418617.1"; locus_tag "ECDH10B_RS22400"; product "3-keto-L-gulonate-6-phosphate decarboxylase UlaD"; protein_id "WP_000056749.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4521219 4521221 . + 0 gene_id "ECDH10B_RS22400"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ulaD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418617.1"; locus_tag "ECDH10B_RS22400"; product "3-keto-L-gulonate-6-phosphate decarboxylase UlaD"; protein_id "WP_000056749.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4521231 4522085 . + . gene_id "ECDH10B_RS22405"; transcript_id ""; gbkey "Gene"; gene "ulaE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22405"; old_locus_tag "ECDH10B_4392"; -NC_010473.1 Protein Homology CDS 4521231 4522082 . + 0 gene_id "ECDH10B_RS22405"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ulaE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418618.1"; locus_tag "ECDH10B_RS22405"; product "L-ribulose-5-phosphate 3-epimerase UlaE"; protein_id "WP_000949502.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4521231 4521233 . + 0 gene_id "ECDH10B_RS22405"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ulaE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418618.1"; locus_tag "ECDH10B_RS22405"; product "L-ribulose-5-phosphate 3-epimerase UlaE"; protein_id "WP_000949502.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4522083 4522085 . + 0 gene_id "ECDH10B_RS22405"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ulaE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418618.1"; locus_tag "ECDH10B_RS22405"; product "L-ribulose-5-phosphate 3-epimerase UlaE"; protein_id "WP_000949502.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4522085 4522771 . + . gene_id "ECDH10B_RS22410"; transcript_id ""; gbkey "Gene"; gene "ulaF"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22410"; old_locus_tag "ECDH10B_4393"; -NC_010473.1 Protein Homology CDS 4522085 4522768 . + 0 gene_id "ECDH10B_RS22410"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ulaF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418619.1"; locus_tag "ECDH10B_RS22410"; product "L-ribulose-5-phosphate 4-epimerase UlaF"; protein_id "WP_001170847.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4522085 4522087 . + 0 gene_id "ECDH10B_RS22410"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ulaF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418619.1"; locus_tag "ECDH10B_RS22410"; product "L-ribulose-5-phosphate 4-epimerase UlaF"; protein_id "WP_001170847.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4522769 4522771 . + 0 gene_id "ECDH10B_RS22410"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ulaF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418619.1"; locus_tag "ECDH10B_RS22410"; product "L-ribulose-5-phosphate 4-epimerase UlaF"; protein_id "WP_001170847.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4522901 4523176 . - . gene_id "ECDH10B_RS22415"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22415"; old_locus_tag "ECDH10B_4394"; -NC_010473.1 Protein Homology CDS 4522904 4523176 . - 0 gene_id "ECDH10B_RS22415"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313202.1"; locus_tag "ECDH10B_RS22415"; product "DUF1471 domain-containing protein"; protein_id "WP_000492914.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4523174 4523176 . - 0 gene_id "ECDH10B_RS22415"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313202.1"; locus_tag "ECDH10B_RS22415"; product "DUF1471 domain-containing protein"; protein_id "WP_000492914.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4522901 4522903 . - 0 gene_id "ECDH10B_RS22415"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313202.1"; locus_tag "ECDH10B_RS22415"; product "DUF1471 domain-containing protein"; protein_id "WP_000492914.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4523503 4523898 . + . gene_id "ECDH10B_RS22425"; transcript_id ""; gbkey "Gene"; gene "rpsF"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22425"; old_locus_tag "ECDH10B_4395"; -NC_010473.1 Protein Homology CDS 4523503 4523895 . + 0 gene_id "ECDH10B_RS22425"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rpsF"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_020456251.1"; locus_tag "ECDH10B_RS22425"; product "30S ribosomal protein S6"; protein_id "WP_001216676.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4523503 4523505 . + 0 gene_id "ECDH10B_RS22425"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rpsF"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_020456251.1"; locus_tag "ECDH10B_RS22425"; product "30S ribosomal protein S6"; protein_id "WP_001216676.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4523896 4523898 . + 0 gene_id "ECDH10B_RS22425"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rpsF"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_020456251.1"; locus_tag "ECDH10B_RS22425"; product "30S ribosomal protein S6"; protein_id "WP_001216676.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4523905 4524219 . + . gene_id "ECDH10B_RS22430"; transcript_id ""; gbkey "Gene"; gene "priB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22430"; -NC_010473.1 Protein Homology CDS 4523905 4524216 . + 0 gene_id "ECDH10B_RS22430"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "priB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418622.1"; locus_tag "ECDH10B_RS22430"; product "primosomal replication protein N"; protein_id "WP_024255358.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4523905 4523907 . + 0 gene_id "ECDH10B_RS22430"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "priB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418622.1"; locus_tag "ECDH10B_RS22430"; product "primosomal replication protein N"; protein_id "WP_024255358.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4524217 4524219 . + 0 gene_id "ECDH10B_RS22430"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "priB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418622.1"; locus_tag "ECDH10B_RS22430"; product "primosomal replication protein N"; protein_id "WP_024255358.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4524224 4524451 . + . gene_id "ECDH10B_RS22435"; transcript_id ""; gbkey "Gene"; gene "rpsR"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22435"; old_locus_tag "ECDH10B_4397"; -NC_010473.1 Protein Homology CDS 4524224 4524448 . + 0 gene_id "ECDH10B_RS22435"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rpsR"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_012986941.1"; locus_tag "ECDH10B_RS22435"; product "30S ribosomal protein S18"; protein_id "WP_000135199.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4524224 4524226 . + 0 gene_id "ECDH10B_RS22435"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rpsR"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_012986941.1"; locus_tag "ECDH10B_RS22435"; product "30S ribosomal protein S18"; protein_id "WP_000135199.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4524449 4524451 . + 0 gene_id "ECDH10B_RS22435"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rpsR"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_012986941.1"; locus_tag "ECDH10B_RS22435"; product "30S ribosomal protein S18"; protein_id "WP_000135199.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4524493 4524942 . + . gene_id "ECDH10B_RS22440"; transcript_id ""; gbkey "Gene"; gene "rplI"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22440"; old_locus_tag "ECDH10B_4398"; -NC_010473.1 Protein Homology CDS 4524493 4524939 . + 0 gene_id "ECDH10B_RS22440"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rplI"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005134442.1"; locus_tag "ECDH10B_RS22440"; product "50S ribosomal protein L9"; protein_id "WP_001196062.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4524493 4524495 . + 0 gene_id "ECDH10B_RS22440"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rplI"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005134442.1"; locus_tag "ECDH10B_RS22440"; product "50S ribosomal protein L9"; protein_id "WP_001196062.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4524940 4524942 . + 0 gene_id "ECDH10B_RS22440"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rplI"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005134442.1"; locus_tag "ECDH10B_RS22440"; product "50S ribosomal protein L9"; protein_id "WP_001196062.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4525013 4525807 . - . gene_id "ECDH10B_RS22445"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22445"; old_locus_tag "ECDH10B_4399"; -NC_010473.1 Protein Homology CDS 4525016 4525807 . - 0 gene_id "ECDH10B_RS22445"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418625.1"; locus_tag "ECDH10B_RS22445"; product "DUF2686 family protein"; protein_id "WP_000174714.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4525805 4525807 . - 0 gene_id "ECDH10B_RS22445"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418625.1"; locus_tag "ECDH10B_RS22445"; product "DUF2686 family protein"; protein_id "WP_000174714.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4525013 4525015 . - 0 gene_id "ECDH10B_RS22445"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418625.1"; locus_tag "ECDH10B_RS22445"; product "DUF2686 family protein"; protein_id "WP_000174714.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4526079 4526480 . + . gene_id "ECDH10B_RS22450"; transcript_id ""; gbkey "Gene"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS22450"; old_locus_tag "ECDH10B_4400"; partial "true"; pseudo "true"; -NC_010473.1 Protein Homology CDS 4526079 4526477 . + 0 gene_id "ECDH10B_RS22450"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_709992.3"; locus_tag "ECDH10B_RS22450"; note "incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "TetR/AcrR family transcriptional regulator"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4526079 4526081 . + 0 gene_id "ECDH10B_RS22450"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_709992.3"; locus_tag "ECDH10B_RS22450"; note "incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "TetR/AcrR family transcriptional regulator"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4526478 4526480 . + 0 gene_id "ECDH10B_RS22450"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_709992.3"; locus_tag "ECDH10B_RS22450"; note "incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "TetR/AcrR family transcriptional regulator"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 4526464 4527102 . - . gene_id "ECDH10B_RS22455"; transcript_id ""; gbkey "Gene"; gene "ytfB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22455"; old_locus_tag "ECDH10B_4401"; -NC_010473.1 Protein Homology CDS 4526467 4527102 . - 0 gene_id "ECDH10B_RS22455"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ytfB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418627.4"; locus_tag "ECDH10B_RS22455"; product "cell division protein YtfB"; protein_id "WP_001119478.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4527100 4527102 . - 0 gene_id "ECDH10B_RS22455"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ytfB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418627.4"; locus_tag "ECDH10B_RS22455"; product "cell division protein YtfB"; protein_id "WP_001119478.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4526464 4526466 . - 0 gene_id "ECDH10B_RS22455"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ytfB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418627.4"; locus_tag "ECDH10B_RS22455"; product "cell division protein YtfB"; protein_id "WP_001119478.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4527320 4527940 . + . gene_id "ECDH10B_RS22460"; transcript_id ""; gbkey "Gene"; gene "fklB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22460"; old_locus_tag "ECDH10B_4402"; -NC_010473.1 Protein Homology CDS 4527320 4527937 . + 0 gene_id "ECDH10B_RS22460"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fklB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313212.2"; locus_tag "ECDH10B_RS22460"; product "FKBP-type peptidyl-prolyl cis-trans isomerase"; protein_id "WP_000211225.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4527320 4527322 . + 0 gene_id "ECDH10B_RS22460"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fklB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313212.2"; locus_tag "ECDH10B_RS22460"; product "FKBP-type peptidyl-prolyl cis-trans isomerase"; protein_id "WP_000211225.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4527938 4527940 . + 0 gene_id "ECDH10B_RS22460"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fklB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313212.2"; locus_tag "ECDH10B_RS22460"; product "FKBP-type peptidyl-prolyl cis-trans isomerase"; protein_id "WP_000211225.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4528249 4529661 . + . gene_id "ECDH10B_RS22465"; transcript_id ""; gbkey "Gene"; gene "cycA"; gene_biotype "protein_coding"; gene_synonym "dagA"; locus_tag "ECDH10B_RS22465"; old_locus_tag "ECDH10B_4403"; -NC_010473.1 Protein Homology CDS 4528249 4529658 . + 0 gene_id "ECDH10B_RS22465"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cycA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313213.1"; locus_tag "ECDH10B_RS22465"; product "D-serine/D-alanine/glycine transporter"; protein_id "WP_000228346.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4528249 4528251 . + 0 gene_id "ECDH10B_RS22465"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cycA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313213.1"; locus_tag "ECDH10B_RS22465"; product "D-serine/D-alanine/glycine transporter"; protein_id "WP_000228346.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4529659 4529661 . + 0 gene_id "ECDH10B_RS22465"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cycA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313213.1"; locus_tag "ECDH10B_RS22465"; product "D-serine/D-alanine/glycine transporter"; protein_id "WP_000228346.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4529706 4530368 . - . gene_id "ECDH10B_RS22470"; transcript_id ""; gbkey "Gene"; gene "ytfE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22470"; old_locus_tag "ECDH10B_4404"; -NC_010473.1 Protein Homology CDS 4529709 4530368 . - 0 gene_id "ECDH10B_RS22470"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ytfE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418630.1"; locus_tag "ECDH10B_RS22470"; product "iron-sulfur cluster repair protein YtfE"; protein_id "WP_000331456.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4530366 4530368 . - 0 gene_id "ECDH10B_RS22470"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ytfE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418630.1"; locus_tag "ECDH10B_RS22470"; product "iron-sulfur cluster repair protein YtfE"; protein_id "WP_000331456.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4529706 4529708 . - 0 gene_id "ECDH10B_RS22470"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ytfE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418630.1"; locus_tag "ECDH10B_RS22470"; product "iron-sulfur cluster repair protein YtfE"; protein_id "WP_000331456.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4530476 4531441 . - . gene_id "ECDH10B_RS22475"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22475"; old_locus_tag "ECDH10B_4405"; -NC_010473.1 Protein Homology CDS 4530479 4531441 . - 0 gene_id "ECDH10B_RS22475"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418631.2"; locus_tag "ECDH10B_RS22475"; product "DMT family transporter"; protein_id "WP_001350569.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4531439 4531441 . - 0 gene_id "ECDH10B_RS22475"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418631.2"; locus_tag "ECDH10B_RS22475"; product "DMT family transporter"; protein_id "WP_001350569.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4530476 4530478 . - 0 gene_id "ECDH10B_RS22475"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418631.2"; locus_tag "ECDH10B_RS22475"; product "DMT family transporter"; protein_id "WP_001350569.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4531549 4532409 . - . gene_id "ECDH10B_RS22480"; transcript_id ""; gbkey "Gene"; gene "qorB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22480"; old_locus_tag "ECDH10B_4406"; -NC_010473.1 Protein Homology CDS 4531552 4532409 . - 0 gene_id "ECDH10B_RS22480"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "qorB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418632.1"; locus_tag "ECDH10B_RS22480"; product "NAD(P)H:quinone oxidoreductase"; protein_id "WP_000560561.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4532407 4532409 . - 0 gene_id "ECDH10B_RS22480"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "qorB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418632.1"; locus_tag "ECDH10B_RS22480"; product "NAD(P)H:quinone oxidoreductase"; protein_id "WP_000560561.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4531549 4531551 . - 0 gene_id "ECDH10B_RS22480"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "qorB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418632.1"; locus_tag "ECDH10B_RS22480"; product "NAD(P)H:quinone oxidoreductase"; protein_id "WP_000560561.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4532498 4532878 . + . gene_id "ECDH10B_RS22485"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22485"; old_locus_tag "ECDH10B_4407"; -NC_010473.1 Protein Homology CDS 4532498 4532875 . + 0 gene_id "ECDH10B_RS22485"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418633.4"; locus_tag "ECDH10B_RS22485"; product "winged helix-turn-helix transcriptional regulator"; protein_id "WP_000084622.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4532498 4532500 . + 0 gene_id "ECDH10B_RS22485"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418633.4"; locus_tag "ECDH10B_RS22485"; product "winged helix-turn-helix transcriptional regulator"; protein_id "WP_000084622.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4532876 4532878 . + 0 gene_id "ECDH10B_RS22485"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418633.4"; locus_tag "ECDH10B_RS22485"; product "winged helix-turn-helix transcriptional regulator"; protein_id "WP_000084622.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4533007 4534950 . - . gene_id "ECDH10B_RS22490"; transcript_id ""; gbkey "Gene"; gene "cpdB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22490"; old_locus_tag "ECDH10B_4408"; -NC_010473.1 Protein Homology CDS 4533010 4534950 . - 0 gene_id "ECDH10B_RS22490"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cpdB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418634.1"; locus_tag "ECDH10B_RS22490"; product "2',3'-cyclic-nucleotide 2'-phosphodiesterase"; protein_id "WP_000589431.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4534948 4534950 . - 0 gene_id "ECDH10B_RS22490"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cpdB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418634.1"; locus_tag "ECDH10B_RS22490"; product "2',3'-cyclic-nucleotide 2'-phosphodiesterase"; protein_id "WP_000589431.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4533007 4533009 . - 0 gene_id "ECDH10B_RS22490"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cpdB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418634.1"; locus_tag "ECDH10B_RS22490"; product "2',3'-cyclic-nucleotide 2'-phosphodiesterase"; protein_id "WP_000589431.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4535140 4535880 . + . gene_id "ECDH10B_RS22495"; transcript_id ""; gbkey "Gene"; gene "cysQ"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22495"; -NC_010473.1 Protein Homology CDS 4535140 4535877 . + 0 gene_id "ECDH10B_RS22495"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cysQ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418635.1"; locus_tag "ECDH10B_RS22495"; product "3'(2'),5'-bisphosphate nucleotidase CysQ"; protein_id "WP_000886918.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4535140 4535142 . + 0 gene_id "ECDH10B_RS22495"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cysQ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418635.1"; locus_tag "ECDH10B_RS22495"; product "3'(2'),5'-bisphosphate nucleotidase CysQ"; protein_id "WP_000886918.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4535878 4535880 . + 0 gene_id "ECDH10B_RS22495"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cysQ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418635.1"; locus_tag "ECDH10B_RS22495"; product "3'(2'),5'-bisphosphate nucleotidase CysQ"; protein_id "WP_000886918.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4536092 4537030 . + . gene_id "ECDH10B_RS22500"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22500"; old_locus_tag "ECDH10B_4410"; -NC_010473.1 Protein Homology CDS 4536092 4537027 . + 0 gene_id "ECDH10B_RS22500"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026285.1"; locus_tag "ECDH10B_RS22500"; product "hypothetical protein"; protein_id "WP_000937655.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4536092 4536094 . + 0 gene_id "ECDH10B_RS22500"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026285.1"; locus_tag "ECDH10B_RS22500"; product "hypothetical protein"; protein_id "WP_000937655.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4537028 4537030 . + 0 gene_id "ECDH10B_RS22500"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026285.1"; locus_tag "ECDH10B_RS22500"; product "hypothetical protein"; protein_id "WP_000937655.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4537093 4537647 . - . gene_id "ECDH10B_RS22505"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22505"; old_locus_tag "ECDH10B_4411"; -NC_010473.1 Protein Homology CDS 4537096 4537647 . - 0 gene_id "ECDH10B_RS22505"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418637.1"; locus_tag "ECDH10B_RS22505"; product "YtfJ family protein"; protein_id "WP_000175279.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4537645 4537647 . - 0 gene_id "ECDH10B_RS22505"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418637.1"; locus_tag "ECDH10B_RS22505"; product "YtfJ family protein"; protein_id "WP_000175279.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4537093 4537095 . - 0 gene_id "ECDH10B_RS22505"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418637.1"; locus_tag "ECDH10B_RS22505"; product "YtfJ family protein"; protein_id "WP_000175279.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4537972 4538178 . + . gene_id "ECDH10B_RS22510"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22510"; old_locus_tag "ECDH10B_4412"; -NC_010473.1 Protein Homology CDS 4537972 4538175 . + 0 gene_id "ECDH10B_RS22510"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_015966176.1"; locus_tag "ECDH10B_RS22510"; product "DUF1107 domain-containing protein"; protein_id "WP_000689228.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4537972 4537974 . + 0 gene_id "ECDH10B_RS22510"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_015966176.1"; locus_tag "ECDH10B_RS22510"; product "DUF1107 domain-containing protein"; protein_id "WP_000689228.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4538176 4538178 . + 0 gene_id "ECDH10B_RS22510"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_015966176.1"; locus_tag "ECDH10B_RS22510"; product "DUF1107 domain-containing protein"; protein_id "WP_000689228.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4538257 4539600 . - . gene_id "ECDH10B_RS22515"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22515"; old_locus_tag "ECDH10B_4413"; -NC_010473.1 Protein Homology CDS 4538260 4539600 . - 0 gene_id "ECDH10B_RS22515"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313223.1"; locus_tag "ECDH10B_RS22515"; product "HlyC/CorC family transporter"; protein_id "WP_000935036.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4539598 4539600 . - 0 gene_id "ECDH10B_RS22515"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313223.1"; locus_tag "ECDH10B_RS22515"; product "HlyC/CorC family transporter"; protein_id "WP_000935036.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4538257 4538259 . - 0 gene_id "ECDH10B_RS22515"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313223.1"; locus_tag "ECDH10B_RS22515"; product "HlyC/CorC family transporter"; protein_id "WP_000935036.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4539923 4540561 . - . gene_id "ECDH10B_RS22520"; transcript_id ""; gbkey "Gene"; gene "msrA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22520"; old_locus_tag "ECDH10B_4414"; -NC_010473.1 Protein Homology CDS 4539926 4540561 . - 0 gene_id "ECDH10B_RS22520"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "msrA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418640.1"; locus_tag "ECDH10B_RS22520"; product "peptide-methionine (S)-S-oxide reductase MsrA"; protein_id "WP_001295196.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4540559 4540561 . - 0 gene_id "ECDH10B_RS22520"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "msrA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418640.1"; locus_tag "ECDH10B_RS22520"; product "peptide-methionine (S)-S-oxide reductase MsrA"; protein_id "WP_001295196.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4539923 4539925 . - 0 gene_id "ECDH10B_RS22520"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "msrA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418640.1"; locus_tag "ECDH10B_RS22520"; product "peptide-methionine (S)-S-oxide reductase MsrA"; protein_id "WP_001295196.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4540767 4542500 . + . gene_id "ECDH10B_RS22530"; transcript_id ""; gbkey "Gene"; gene "tamA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22530"; old_locus_tag "ECDH10B_4415"; -NC_010473.1 Protein Homology CDS 4540767 4542497 . + 0 gene_id "ECDH10B_RS22530"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tamA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313225.1"; locus_tag "ECDH10B_RS22530"; product "autotransporter assembly complex protein TamA"; protein_id "WP_001269327.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4540767 4540769 . + 0 gene_id "ECDH10B_RS22530"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tamA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313225.1"; locus_tag "ECDH10B_RS22530"; product "autotransporter assembly complex protein TamA"; protein_id "WP_001269327.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4542498 4542500 . + 0 gene_id "ECDH10B_RS22530"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tamA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313225.1"; locus_tag "ECDH10B_RS22530"; product "autotransporter assembly complex protein TamA"; protein_id "WP_001269327.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4542497 4546276 . + . gene_id "ECDH10B_RS22535"; transcript_id ""; gbkey "Gene"; gene "tamB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22535"; old_locus_tag "ECDH10B_4416"; -NC_010473.1 Protein Homology CDS 4542497 4546273 . + 0 gene_id "ECDH10B_RS22535"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tamB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418642.1"; locus_tag "ECDH10B_RS22535"; product "autotransporter assembly complex protein TamB"; protein_id "WP_000060911.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4542497 4542499 . + 0 gene_id "ECDH10B_RS22535"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tamB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418642.1"; locus_tag "ECDH10B_RS22535"; product "autotransporter assembly complex protein TamB"; protein_id "WP_000060911.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4546274 4546276 . + 0 gene_id "ECDH10B_RS22535"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tamB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418642.1"; locus_tag "ECDH10B_RS22535"; product "autotransporter assembly complex protein TamB"; protein_id "WP_000060911.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4546279 4546620 . + . gene_id "ECDH10B_RS22540"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22540"; old_locus_tag "ECDH10B_4417"; -NC_010473.1 Protein Homology CDS 4546279 4546617 . + 0 gene_id "ECDH10B_RS22540"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313227.1"; locus_tag "ECDH10B_RS22540"; product "gamma-glutamylcyclotransferase"; protein_id "WP_001219160.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4546279 4546281 . + 0 gene_id "ECDH10B_RS22540"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313227.1"; locus_tag "ECDH10B_RS22540"; product "gamma-glutamylcyclotransferase"; protein_id "WP_001219160.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4546618 4546620 . + 0 gene_id "ECDH10B_RS22540"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313227.1"; locus_tag "ECDH10B_RS22540"; product "gamma-glutamylcyclotransferase"; protein_id "WP_001219160.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4546832 4547083 . + . gene_id "ECDH10B_RS22545"; transcript_id ""; gbkey "Gene"; gene "chpS"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22545"; old_locus_tag "ECDH10B_4419"; -NC_010473.1 Protein Homology CDS 4546832 4547080 . + 0 gene_id "ECDH10B_RS22545"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "chpS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418645.2"; locus_tag "ECDH10B_RS22545"; product "type II toxin-antitoxin system antitoxin ChpS"; protein_id "WP_001223208.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4546832 4546834 . + 0 gene_id "ECDH10B_RS22545"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "chpS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418645.2"; locus_tag "ECDH10B_RS22545"; product "type II toxin-antitoxin system antitoxin ChpS"; protein_id "WP_001223208.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4547081 4547083 . + 0 gene_id "ECDH10B_RS22545"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "chpS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418645.2"; locus_tag "ECDH10B_RS22545"; product "type II toxin-antitoxin system antitoxin ChpS"; protein_id "WP_001223208.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4547077 4547427 . + . gene_id "ECDH10B_RS22550"; transcript_id ""; gbkey "Gene"; gene "chpB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22550"; old_locus_tag "ECDH10B_4420"; -NC_010473.1 Protein Homology CDS 4547077 4547424 . + 0 gene_id "ECDH10B_RS22550"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "chpB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418646.1"; locus_tag "ECDH10B_RS22550"; product "endoribonuclease toxin ChpB"; protein_id "WP_000239577.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4547077 4547079 . + 0 gene_id "ECDH10B_RS22550"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "chpB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418646.1"; locus_tag "ECDH10B_RS22550"; product "endoribonuclease toxin ChpB"; protein_id "WP_000239577.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4547425 4547427 . + 0 gene_id "ECDH10B_RS22550"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "chpB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418646.1"; locus_tag "ECDH10B_RS22550"; product "endoribonuclease toxin ChpB"; protein_id "WP_000239577.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4547507 4548037 . - . gene_id "ECDH10B_RS22555"; transcript_id ""; gbkey "Gene"; gene "ppa"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22555"; old_locus_tag "ECDH10B_4421"; -NC_010473.1 Protein Homology CDS 4547510 4548037 . - 0 gene_id "ECDH10B_RS22555"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ppa"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001739810.1"; locus_tag "ECDH10B_RS22555"; product "inorganic diphosphatase"; protein_id "WP_000055075.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4548035 4548037 . - 0 gene_id "ECDH10B_RS22555"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ppa"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001739810.1"; locus_tag "ECDH10B_RS22555"; product "inorganic diphosphatase"; protein_id "WP_000055075.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4547507 4547509 . - 0 gene_id "ECDH10B_RS22555"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ppa"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001739810.1"; locus_tag "ECDH10B_RS22555"; product "inorganic diphosphatase"; protein_id "WP_000055075.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4548347 4549303 . + . gene_id "ECDH10B_RS22560"; transcript_id ""; gbkey "Gene"; gene "ytfQ"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22560"; old_locus_tag "ECDH10B_4422"; -NC_010473.1 Protein Homology CDS 4548347 4549300 . + 0 gene_id "ECDH10B_RS22560"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ytfQ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418648.1"; locus_tag "ECDH10B_RS22560"; product "galactofuranose ABC transporter substrate-binding protein YtfQ"; protein_id "WP_000265913.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4548347 4548349 . + 0 gene_id "ECDH10B_RS22560"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ytfQ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418648.1"; locus_tag "ECDH10B_RS22560"; product "galactofuranose ABC transporter substrate-binding protein YtfQ"; protein_id "WP_000265913.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4549301 4549303 . + 0 gene_id "ECDH10B_RS22560"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ytfQ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418648.1"; locus_tag "ECDH10B_RS22560"; product "galactofuranose ABC transporter substrate-binding protein YtfQ"; protein_id "WP_000265913.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4549443 4550945 . + . gene_id "ECDH10B_RS22565"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22565"; old_locus_tag "ECDH10B_4423"; -NC_010473.1 Protein Homology CDS 4549443 4550942 . + 0 gene_id "ECDH10B_RS22565"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026286.1"; locus_tag "ECDH10B_RS22565"; product "sugar ABC transporter ATP-binding protein"; protein_id "WP_000205805.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4549443 4549445 . + 0 gene_id "ECDH10B_RS22565"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026286.1"; locus_tag "ECDH10B_RS22565"; product "sugar ABC transporter ATP-binding protein"; protein_id "WP_000205805.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4550943 4550945 . + 0 gene_id "ECDH10B_RS22565"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026286.1"; locus_tag "ECDH10B_RS22565"; product "sugar ABC transporter ATP-binding protein"; protein_id "WP_000205805.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4550959 4551090 . + . gene_id "ECDH10B_RS25780"; transcript_id ""; gbkey "Gene"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS25780"; partial "true"; pseudo "true"; -NC_010473.1 Protein Homology CDS 4550959 4551087 . + 0 gene_id "ECDH10B_RS25780"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313234.2"; locus_tag "ECDH10B_RS25780"; note "incomplete; partial in the middle of a contig; missing C-terminus"; partial "true"; product "ABC transporter permease"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4550959 4550961 . + 0 gene_id "ECDH10B_RS25780"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313234.2"; locus_tag "ECDH10B_RS25780"; note "incomplete; partial in the middle of a contig; missing C-terminus"; partial "true"; product "ABC transporter permease"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4551088 4551090 . + 0 gene_id "ECDH10B_RS25780"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313234.2"; locus_tag "ECDH10B_RS25780"; note "incomplete; partial in the middle of a contig; missing C-terminus"; partial "true"; product "ABC transporter permease"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 4551136 4552505 . + . gene_id "ECDH10B_RS25785"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS25785"; -NC_010473.1 Protein Homology CDS 4551136 4551616 . + 0 gene_id "ECDH10B_RS25785"; transcript_id "unknown_transcript_1"; exception "ribosomal slippage"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_076611947.1"; locus_tag "ECDH10B_RS25785"; note "programmed frameshift"; product "IS3-like element IS150 family transposase"; protein_id "WP_085947770.1"; transl_table "11"; -NC_010473.1 Protein Homology CDS 4551616 4552502 . + 0 gene_id "ECDH10B_RS25785"; transcript_id "unknown_transcript_1"; exception "ribosomal slippage"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_076611947.1"; locus_tag "ECDH10B_RS25785"; note "programmed frameshift"; product "IS3-like element IS150 family transposase"; protein_id "WP_085947770.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4551136 4551138 . + 0 gene_id "ECDH10B_RS25785"; transcript_id "unknown_transcript_1"; exception "ribosomal slippage"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_076611947.1"; locus_tag "ECDH10B_RS25785"; note "programmed frameshift"; product "IS3-like element IS150 family transposase"; protein_id "WP_085947770.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4552503 4552505 . + 0 gene_id "ECDH10B_RS25785"; transcript_id "unknown_transcript_1"; exception "ribosomal slippage"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_076611947.1"; locus_tag "ECDH10B_RS25785"; note "programmed frameshift"; product "IS3-like element IS150 family transposase"; protein_id "WP_085947770.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4552531 4553427 . + . gene_id "ECDH10B_RS22580"; transcript_id ""; gbkey "Gene"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS22580"; partial "true"; pseudo "true"; -NC_010473.1 Protein Homology CDS 4552531 4553424 . + 0 gene_id "ECDH10B_RS22580"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418651.3"; locus_tag "ECDH10B_RS22580"; note "incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "ABC transporter permease"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4552531 4552533 . + 0 gene_id "ECDH10B_RS22580"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418651.3"; locus_tag "ECDH10B_RS22580"; note "incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "ABC transporter permease"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4553425 4553427 . + 0 gene_id "ECDH10B_RS22580"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418651.3"; locus_tag "ECDH10B_RS22580"; note "incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "ABC transporter permease"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 4553414 4554409 . + . gene_id "ECDH10B_RS22585"; transcript_id ""; gbkey "Gene"; gene "yjfF"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22585"; old_locus_tag "ECDH10B_4426"; -NC_010473.1 Protein Homology CDS 4553414 4554406 . + 0 gene_id "ECDH10B_RS22585"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yjfF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418652.2"; locus_tag "ECDH10B_RS22585"; product "sugar ABC transporter permease YjfF"; protein_id "WP_000596014.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4553414 4553416 . + 0 gene_id "ECDH10B_RS22585"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yjfF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418652.2"; locus_tag "ECDH10B_RS22585"; product "sugar ABC transporter permease YjfF"; protein_id "WP_000596014.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4554407 4554409 . + 0 gene_id "ECDH10B_RS22585"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yjfF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418652.2"; locus_tag "ECDH10B_RS22585"; product "sugar ABC transporter permease YjfF"; protein_id "WP_000596014.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4554442 4555440 . - . gene_id "ECDH10B_RS22590"; transcript_id ""; gbkey "Gene"; gene "fbp"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22590"; old_locus_tag "ECDH10B_4427"; -NC_010473.1 Protein Homology CDS 4554445 4555440 . - 0 gene_id "ECDH10B_RS22590"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fbp"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_016233757.1"; locus_tag "ECDH10B_RS22590"; product "class 1 fructose-bisphosphatase"; protein_id "WP_000853753.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4555438 4555440 . - 0 gene_id "ECDH10B_RS22590"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fbp"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_016233757.1"; locus_tag "ECDH10B_RS22590"; product "class 1 fructose-bisphosphatase"; protein_id "WP_000853753.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4554442 4554444 . - 0 gene_id "ECDH10B_RS22590"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fbp"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_016233757.1"; locus_tag "ECDH10B_RS22590"; product "class 1 fructose-bisphosphatase"; protein_id "WP_000853753.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4555616 4556989 . + . gene_id "ECDH10B_RS22595"; transcript_id ""; gbkey "Gene"; gene "mpl"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22595"; old_locus_tag "ECDH10B_4428"; -NC_010473.1 Protein Homology CDS 4555616 4556986 . + 0 gene_id "ECDH10B_RS22595"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mpl"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418654.1"; locus_tag "ECDH10B_RS22595"; product "UDP-N-acetylmuramate:L-alanyl-gamma-D-glutamyl-meso-diaminopimelate ligase"; protein_id "WP_001219813.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4555616 4555618 . + 0 gene_id "ECDH10B_RS22595"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mpl"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418654.1"; locus_tag "ECDH10B_RS22595"; product "UDP-N-acetylmuramate:L-alanyl-gamma-D-glutamyl-meso-diaminopimelate ligase"; protein_id "WP_001219813.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4556987 4556989 . + 0 gene_id "ECDH10B_RS22595"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mpl"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418654.1"; locus_tag "ECDH10B_RS22595"; product "UDP-N-acetylmuramate:L-alanyl-gamma-D-glutamyl-meso-diaminopimelate ligase"; protein_id "WP_001219813.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4557145 4557696 . - . gene_id "ECDH10B_RS22600"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22600"; old_locus_tag "ECDH10B_4429"; -NC_010473.1 Protein Homology CDS 4557148 4557696 . - 0 gene_id "ECDH10B_RS22600"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313238.1"; locus_tag "ECDH10B_RS22600"; product "ribosome-associated protein"; protein_id "WP_000166270.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4557694 4557696 . - 0 gene_id "ECDH10B_RS22600"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313238.1"; locus_tag "ECDH10B_RS22600"; product "ribosome-associated protein"; protein_id "WP_000166270.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4557145 4557147 . - 0 gene_id "ECDH10B_RS22600"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313238.1"; locus_tag "ECDH10B_RS22600"; product "ribosome-associated protein"; protein_id "WP_000166270.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4557790 4559142 . + . gene_id "ECDH10B_RS22605"; transcript_id ""; gbkey "Gene"; gene "pmbA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22605"; old_locus_tag "ECDH10B_4430"; -NC_010473.1 Protein Homology CDS 4557790 4559139 . + 0 gene_id "ECDH10B_RS22605"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pmbA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313239.1"; locus_tag "ECDH10B_RS22605"; product "metalloprotease PmbA"; protein_id "WP_001162171.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4557790 4557792 . + 0 gene_id "ECDH10B_RS22605"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pmbA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313239.1"; locus_tag "ECDH10B_RS22605"; product "metalloprotease PmbA"; protein_id "WP_001162171.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4559140 4559142 . + 0 gene_id "ECDH10B_RS22605"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pmbA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313239.1"; locus_tag "ECDH10B_RS22605"; product "metalloprotease PmbA"; protein_id "WP_001162171.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4559321 4559686 . + . gene_id "ECDH10B_RS22610"; transcript_id ""; gbkey "Gene"; gene "cybC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22610"; old_locus_tag "ECDH10B_4431"; -NC_010473.1 Protein Homology CDS 4559321 4559683 . + 0 gene_id "ECDH10B_RS22610"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cybC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313240.2"; locus_tag "ECDH10B_RS22610"; product "cytochrome b562"; protein_id "WP_023649327.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4559321 4559323 . + 0 gene_id "ECDH10B_RS22610"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cybC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313240.2"; locus_tag "ECDH10B_RS22610"; product "cytochrome b562"; protein_id "WP_023649327.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4559684 4559686 . + 0 gene_id "ECDH10B_RS22610"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "cybC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313240.2"; locus_tag "ECDH10B_RS22610"; product "cytochrome b562"; protein_id "WP_023649327.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4559731 4560195 . - . gene_id "ECDH10B_RS22615"; transcript_id ""; gbkey "Gene"; gene "nrdG"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22615"; old_locus_tag "ECDH10B_4432"; -NC_010473.1 Protein Homology CDS 4559734 4560195 . - 0 gene_id "ECDH10B_RS22615"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nrdG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313241.1"; locus_tag "ECDH10B_RS22615"; product "anaerobic ribonucleoside-triphosphate reductase-activating protein"; protein_id "WP_001106233.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4560193 4560195 . - 0 gene_id "ECDH10B_RS22615"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nrdG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313241.1"; locus_tag "ECDH10B_RS22615"; product "anaerobic ribonucleoside-triphosphate reductase-activating protein"; protein_id "WP_001106233.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4559731 4559733 . - 0 gene_id "ECDH10B_RS22615"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nrdG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313241.1"; locus_tag "ECDH10B_RS22615"; product "anaerobic ribonucleoside-triphosphate reductase-activating protein"; protein_id "WP_001106233.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4560353 4562491 . - . gene_id "ECDH10B_RS22620"; transcript_id ""; gbkey "Gene"; gene "nrdD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22620"; old_locus_tag "ECDH10B_4433"; -NC_010473.1 Protein Homology CDS 4560356 4562491 . - 0 gene_id "ECDH10B_RS22620"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nrdD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418659.1"; locus_tag "ECDH10B_RS22620"; product "anaerobic ribonucleoside-triphosphate reductase"; protein_id "WP_000187778.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4562489 4562491 . - 0 gene_id "ECDH10B_RS22620"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nrdD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418659.1"; locus_tag "ECDH10B_RS22620"; product "anaerobic ribonucleoside-triphosphate reductase"; protein_id "WP_000187778.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4560353 4560355 . - 0 gene_id "ECDH10B_RS22620"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nrdD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418659.1"; locus_tag "ECDH10B_RS22620"; product "anaerobic ribonucleoside-triphosphate reductase"; protein_id "WP_000187778.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4562885 4564540 . - . gene_id "ECDH10B_RS22625"; transcript_id ""; gbkey "Gene"; gene "treC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22625"; old_locus_tag "ECDH10B_4434"; -NC_010473.1 Protein Homology CDS 4562888 4564540 . - 0 gene_id "ECDH10B_RS22625"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "treC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418660.1"; locus_tag "ECDH10B_RS22625"; product "alpha,alpha-phosphotrehalase"; protein_id "WP_001336303.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4564538 4564540 . - 0 gene_id "ECDH10B_RS22625"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "treC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418660.1"; locus_tag "ECDH10B_RS22625"; product "alpha,alpha-phosphotrehalase"; protein_id "WP_001336303.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4562885 4562887 . - 0 gene_id "ECDH10B_RS22625"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "treC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418660.1"; locus_tag "ECDH10B_RS22625"; product "alpha,alpha-phosphotrehalase"; protein_id "WP_001336303.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4564590 4566011 . - . gene_id "ECDH10B_RS22630"; transcript_id ""; gbkey "Gene"; gene "treB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22630"; old_locus_tag "ECDH10B_4435"; -NC_010473.1 Protein Homology CDS 4564593 4566011 . - 0 gene_id "ECDH10B_RS22630"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "treB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418661.1"; locus_tag "ECDH10B_RS22630"; product "PTS trehalose transporter subunit IIBC"; protein_id "WP_001407733.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4566009 4566011 . - 0 gene_id "ECDH10B_RS22630"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "treB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418661.1"; locus_tag "ECDH10B_RS22630"; product "PTS trehalose transporter subunit IIBC"; protein_id "WP_001407733.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4564590 4564592 . - 0 gene_id "ECDH10B_RS22630"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "treB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418661.1"; locus_tag "ECDH10B_RS22630"; product "PTS trehalose transporter subunit IIBC"; protein_id "WP_001407733.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4566130 4567077 . - . gene_id "ECDH10B_RS22635"; transcript_id ""; gbkey "Gene"; gene "treR"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22635"; old_locus_tag "ECDH10B_4436"; -NC_010473.1 Protein Homology CDS 4566133 4567077 . - 0 gene_id "ECDH10B_RS22635"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "treR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418662.1"; locus_tag "ECDH10B_RS22635"; product "trehalose operon repressor"; protein_id "WP_001181307.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4567075 4567077 . - 0 gene_id "ECDH10B_RS22635"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "treR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418662.1"; locus_tag "ECDH10B_RS22635"; product "trehalose operon repressor"; protein_id "WP_001181307.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4566130 4566132 . - 0 gene_id "ECDH10B_RS22635"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "treR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418662.1"; locus_tag "ECDH10B_RS22635"; product "trehalose operon repressor"; protein_id "WP_001181307.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4567262 4567315 . + . gene_id "ECDH10B_RS26155"; transcript_id ""; gbkey "Gene"; gene "mgtL"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS26155"; -NC_010473.1 Protein Homology CDS 4567262 4567312 . + 0 gene_id "ECDH10B_RS26155"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mgtL"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_003933616.1"; locus_tag "ECDH10B_RS26155"; product "mgtA regulatory leader peptide MgtL"; protein_id "WP_001387276.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4567262 4567264 . + 0 gene_id "ECDH10B_RS26155"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mgtL"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_003933616.1"; locus_tag "ECDH10B_RS26155"; product "mgtA regulatory leader peptide MgtL"; protein_id "WP_001387276.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4567313 4567315 . + 0 gene_id "ECDH10B_RS26155"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mgtL"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_003933616.1"; locus_tag "ECDH10B_RS26155"; product "mgtA regulatory leader peptide MgtL"; protein_id "WP_001387276.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4567456 4570152 . + . gene_id "ECDH10B_RS22640"; transcript_id ""; gbkey "Gene"; gene "mgtA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22640"; old_locus_tag "ECDH10B_4437"; -NC_010473.1 Protein Homology CDS 4567456 4570149 . + 0 gene_id "ECDH10B_RS22640"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mgtA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313246.1"; locus_tag "ECDH10B_RS22640"; product "magnesium-translocating P-type ATPase"; protein_id "WP_000471889.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4567456 4567458 . + 0 gene_id "ECDH10B_RS22640"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mgtA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313246.1"; locus_tag "ECDH10B_RS22640"; product "magnesium-translocating P-type ATPase"; protein_id "WP_000471889.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4570150 4570152 . + 0 gene_id "ECDH10B_RS22640"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "mgtA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313246.1"; locus_tag "ECDH10B_RS22640"; product "magnesium-translocating P-type ATPase"; protein_id "WP_000471889.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4570358 4570744 . - . gene_id "ECDH10B_RS22645"; transcript_id ""; gbkey "Gene"; gene "ridA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22645"; old_locus_tag "ECDH10B_4438"; -NC_010473.1 Protein Homology CDS 4570361 4570744 . - 0 gene_id "ECDH10B_RS22645"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ridA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418664.2"; locus_tag "ECDH10B_RS22645"; product "2-iminobutanoate/2-iminopropanoate deaminase"; protein_id "WP_000047539.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4570742 4570744 . - 0 gene_id "ECDH10B_RS22645"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ridA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418664.2"; locus_tag "ECDH10B_RS22645"; product "2-iminobutanoate/2-iminopropanoate deaminase"; protein_id "WP_000047539.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4570358 4570360 . - 0 gene_id "ECDH10B_RS22645"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ridA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418664.2"; locus_tag "ECDH10B_RS22645"; product "2-iminobutanoate/2-iminopropanoate deaminase"; protein_id "WP_000047539.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4570817 4571278 . - . gene_id "ECDH10B_RS22650"; transcript_id ""; gbkey "Gene"; gene "pyrI"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22650"; old_locus_tag "ECDH10B_4439"; -NC_010473.1 Protein Homology CDS 4570820 4571278 . - 0 gene_id "ECDH10B_RS22650"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pyrI"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000148566.1"; locus_tag "ECDH10B_RS22650"; product "aspartate carbamoyltransferase regulatory subunit"; protein_id "WP_000148581.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4571276 4571278 . - 0 gene_id "ECDH10B_RS22650"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pyrI"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000148566.1"; locus_tag "ECDH10B_RS22650"; product "aspartate carbamoyltransferase regulatory subunit"; protein_id "WP_000148581.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4570817 4570819 . - 0 gene_id "ECDH10B_RS22650"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pyrI"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000148566.1"; locus_tag "ECDH10B_RS22650"; product "aspartate carbamoyltransferase regulatory subunit"; protein_id "WP_000148581.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4571291 4572226 . - . gene_id "ECDH10B_RS22655"; transcript_id ""; gbkey "Gene"; gene "pyrB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22655"; old_locus_tag "ECDH10B_4440"; -NC_010473.1 Protein Homology CDS 4571294 4572226 . - 0 gene_id "ECDH10B_RS22655"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pyrB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313249.1"; locus_tag "ECDH10B_RS22655"; product "aspartate carbamoyltransferase"; protein_id "WP_000013046.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4572224 4572226 . - 0 gene_id "ECDH10B_RS22655"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pyrB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313249.1"; locus_tag "ECDH10B_RS22655"; product "aspartate carbamoyltransferase"; protein_id "WP_000013046.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4571291 4571293 . - 0 gene_id "ECDH10B_RS22655"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pyrB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313249.1"; locus_tag "ECDH10B_RS22655"; product "aspartate carbamoyltransferase"; protein_id "WP_000013046.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4572230 4572364 . - . gene_id "ECDH10B_RS22660"; transcript_id ""; gbkey "Gene"; gene "pyrL"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22660"; old_locus_tag "ECDH10B_4441"; -NC_010473.1 Protein Homology CDS 4572233 4572364 . - 0 gene_id "ECDH10B_RS22660"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pyrL"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313250.1"; locus_tag "ECDH10B_RS22660"; product "pyr operon leader peptide"; protein_id "WP_001296693.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4572362 4572364 . - 0 gene_id "ECDH10B_RS22660"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pyrL"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313250.1"; locus_tag "ECDH10B_RS22660"; product "pyr operon leader peptide"; protein_id "WP_001296693.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4572230 4572232 . - 0 gene_id "ECDH10B_RS22660"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pyrL"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313250.1"; locus_tag "ECDH10B_RS22660"; product "pyr operon leader peptide"; protein_id "WP_001296693.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4572645 4573040 . - . gene_id "ECDH10B_RS22670"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22670"; old_locus_tag "ECDH10B_4442"; -NC_010473.1 Protein Homology CDS 4572648 4573040 . - 0 gene_id "ECDH10B_RS22670"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418669.1"; locus_tag "ECDH10B_RS22670"; product "RidA family protein"; protein_id "WP_000230281.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4573038 4573040 . - 0 gene_id "ECDH10B_RS22670"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418669.1"; locus_tag "ECDH10B_RS22670"; product "RidA family protein"; protein_id "WP_000230281.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4572645 4572647 . - 0 gene_id "ECDH10B_RS22670"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418669.1"; locus_tag "ECDH10B_RS22670"; product "RidA family protein"; protein_id "WP_000230281.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4573171 4573884 . - . gene_id "ECDH10B_RS22675"; transcript_id ""; gbkey "Gene"; gene "bdcA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22675"; old_locus_tag "ECDH10B_4443"; -NC_010473.1 Protein Homology CDS 4573174 4573884 . - 0 gene_id "ECDH10B_RS22675"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "bdcA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418670.1"; locus_tag "ECDH10B_RS22675"; product "SDR family oxidoreductase"; protein_id "WP_000500727.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4573882 4573884 . - 0 gene_id "ECDH10B_RS22675"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "bdcA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418670.1"; locus_tag "ECDH10B_RS22675"; product "SDR family oxidoreductase"; protein_id "WP_000500727.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4573171 4573173 . - 0 gene_id "ECDH10B_RS22675"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "bdcA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418670.1"; locus_tag "ECDH10B_RS22675"; product "SDR family oxidoreductase"; protein_id "WP_000500727.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4573955 4574548 . + . gene_id "ECDH10B_RS22680"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22680"; old_locus_tag "ECDH10B_4444"; -NC_010473.1 Protein Homology CDS 4573955 4574545 . + 0 gene_id "ECDH10B_RS22680"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418672.4"; locus_tag "ECDH10B_RS22680"; product "TetR/AcrR family transcriptional regulator"; protein_id "WP_000256658.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4573955 4573957 . + 0 gene_id "ECDH10B_RS22680"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418672.4"; locus_tag "ECDH10B_RS22680"; product "TetR/AcrR family transcriptional regulator"; protein_id "WP_000256658.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4574546 4574548 . + 0 gene_id "ECDH10B_RS22680"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418672.4"; locus_tag "ECDH10B_RS22680"; product "TetR/AcrR family transcriptional regulator"; protein_id "WP_000256658.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4574693 4575145 . + . gene_id "ECDH10B_RS22685"; transcript_id ""; gbkey "Gene"; gene "tabA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22685"; old_locus_tag "ECDH10B_4445"; -NC_010473.1 Protein Homology CDS 4574693 4575142 . + 0 gene_id "ECDH10B_RS22685"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tabA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_709950.2"; locus_tag "ECDH10B_RS22685"; product "toxin-antitoxin biofilm protein TabA"; protein_id "WP_000583469.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4574693 4574695 . + 0 gene_id "ECDH10B_RS22685"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tabA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_709950.2"; locus_tag "ECDH10B_RS22685"; product "toxin-antitoxin biofilm protein TabA"; protein_id "WP_000583469.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4575143 4575145 . + 0 gene_id "ECDH10B_RS22685"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "tabA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_709950.2"; locus_tag "ECDH10B_RS22685"; product "toxin-antitoxin biofilm protein TabA"; protein_id "WP_000583469.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4575268 4577082 . + . gene_id "ECDH10B_RS22690"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22690"; old_locus_tag "ECDH10B_4446"; -NC_010473.1 Protein Homology CDS 4575268 4577079 . + 0 gene_id "ECDH10B_RS22690"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418674.2"; locus_tag "ECDH10B_RS22690"; product "hypothetical protein"; protein_id "WP_000036434.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4575268 4575270 . + 0 gene_id "ECDH10B_RS22690"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418674.2"; locus_tag "ECDH10B_RS22690"; product "hypothetical protein"; protein_id "WP_000036434.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4577080 4577082 . + 0 gene_id "ECDH10B_RS22690"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418674.2"; locus_tag "ECDH10B_RS22690"; product "hypothetical protein"; protein_id "WP_000036434.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4577138 4578142 . - . gene_id "ECDH10B_RS22695"; transcript_id ""; gbkey "Gene"; gene "argF"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22695"; old_locus_tag "ECDH10B_4447"; -NC_010473.1 Protein Homology CDS 4577141 4578142 . - 0 gene_id "ECDH10B_RS22695"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "argF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418675.1"; locus_tag "ECDH10B_RS22695"; product "ornithine carbamoyltransferase"; protein_id "WP_000012931.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4578140 4578142 . - 0 gene_id "ECDH10B_RS22695"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "argF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418675.1"; locus_tag "ECDH10B_RS22695"; product "ornithine carbamoyltransferase"; protein_id "WP_000012931.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4577138 4577140 . - 0 gene_id "ECDH10B_RS22695"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "argF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418675.1"; locus_tag "ECDH10B_RS22695"; product "ornithine carbamoyltransferase"; protein_id "WP_000012931.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4578304 4578720 . + . gene_id "ECDH10B_RS22700"; transcript_id ""; gbkey "Gene"; gene "rraB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22700"; old_locus_tag "ECDH10B_4448"; -NC_010473.1 Protein Homology CDS 4578304 4578717 . + 0 gene_id "ECDH10B_RS22700"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rraB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313259.1"; locus_tag "ECDH10B_RS22700"; product "ribonuclease E inhibitor RraB"; protein_id "WP_000002953.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4578304 4578306 . + 0 gene_id "ECDH10B_RS22700"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rraB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313259.1"; locus_tag "ECDH10B_RS22700"; product "ribonuclease E inhibitor RraB"; protein_id "WP_000002953.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4578718 4578720 . + 0 gene_id "ECDH10B_RS22700"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rraB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313259.1"; locus_tag "ECDH10B_RS22700"; product "ribonuclease E inhibitor RraB"; protein_id "WP_000002953.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4578865 4579368 . - . gene_id "ECDH10B_RS22705"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22705"; old_locus_tag "ECDH10B_4449"; -NC_010473.1 Protein Homology CDS 4578868 4579368 . - 0 gene_id "ECDH10B_RS22705"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026287.1"; locus_tag "ECDH10B_RS22705"; product "GNAT family N-acetyltransferase"; protein_id "WP_001059402.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4579366 4579368 . - 0 gene_id "ECDH10B_RS22705"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026287.1"; locus_tag "ECDH10B_RS22705"; product "GNAT family N-acetyltransferase"; protein_id "WP_001059402.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4578865 4578867 . - 0 gene_id "ECDH10B_RS22705"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026287.1"; locus_tag "ECDH10B_RS22705"; product "GNAT family N-acetyltransferase"; protein_id "WP_001059402.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4579561 4580757 . + . gene_id "ECDH10B_RS22710"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22710"; old_locus_tag "ECDH10B_4450"; -NC_010473.1 Protein Homology CDS 4579561 4580754 . + 0 gene_id "ECDH10B_RS22710"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026288.1"; locus_tag "ECDH10B_RS22710"; product "DUF898 domain-containing protein"; protein_id "WP_000079634.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4579561 4579563 . + 0 gene_id "ECDH10B_RS22710"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026288.1"; locus_tag "ECDH10B_RS22710"; product "DUF898 domain-containing protein"; protein_id "WP_000079634.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4580755 4580757 . + 0 gene_id "ECDH10B_RS22710"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026288.1"; locus_tag "ECDH10B_RS22710"; product "DUF898 domain-containing protein"; protein_id "WP_000079634.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4580813 4583668 . - . gene_id "ECDH10B_RS22715"; transcript_id ""; gbkey "Gene"; gene "valS"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22715"; old_locus_tag "ECDH10B_4451"; -NC_010473.1 Protein Homology CDS 4580816 4583668 . - 0 gene_id "ECDH10B_RS22715"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "valS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000416368.1"; locus_tag "ECDH10B_RS22715"; product "valine--tRNA ligase"; protein_id "WP_000416392.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4583666 4583668 . - 0 gene_id "ECDH10B_RS22715"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "valS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000416368.1"; locus_tag "ECDH10B_RS22715"; product "valine--tRNA ligase"; protein_id "WP_000416392.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4580813 4580815 . - 0 gene_id "ECDH10B_RS22715"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "valS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000416368.1"; locus_tag "ECDH10B_RS22715"; product "valine--tRNA ligase"; protein_id "WP_000416392.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4583668 4584111 . - . gene_id "ECDH10B_RS22720"; transcript_id ""; gbkey "Gene"; gene "holC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22720"; old_locus_tag "ECDH10B_4452"; -NC_010473.1 Protein Homology CDS 4583671 4584111 . - 0 gene_id "ECDH10B_RS22720"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "holC"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_004098129.1"; locus_tag "ECDH10B_RS22720"; product "DNA polymerase III subunit chi"; protein_id "WP_000786400.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4584109 4584111 . - 0 gene_id "ECDH10B_RS22720"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "holC"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_004098129.1"; locus_tag "ECDH10B_RS22720"; product "DNA polymerase III subunit chi"; protein_id "WP_000786400.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4583668 4583670 . - 0 gene_id "ECDH10B_RS22720"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "holC"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_004098129.1"; locus_tag "ECDH10B_RS22720"; product "DNA polymerase III subunit chi"; protein_id "WP_000786400.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4584271 4585782 . - . gene_id "ECDH10B_RS22725"; transcript_id ""; gbkey "Gene"; gene "pepA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22725"; old_locus_tag "ECDH10B_4453"; -NC_010473.1 Protein Homology CDS 4584274 4585782 . - 0 gene_id "ECDH10B_RS22725"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pepA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313264.1"; locus_tag "ECDH10B_RS22725"; product "leucyl aminopeptidase"; protein_id "WP_000397144.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4585780 4585782 . - 0 gene_id "ECDH10B_RS22725"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pepA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313264.1"; locus_tag "ECDH10B_RS22725"; product "leucyl aminopeptidase"; protein_id "WP_000397144.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4584271 4584273 . - 0 gene_id "ECDH10B_RS22725"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "pepA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313264.1"; locus_tag "ECDH10B_RS22725"; product "leucyl aminopeptidase"; protein_id "WP_000397144.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4586049 4587149 . + . gene_id "ECDH10B_RS22730"; transcript_id ""; gbkey "Gene"; gene "lptF"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22730"; old_locus_tag "ECDH10B_4454"; -NC_010473.1 Protein Homology CDS 4586049 4587146 . + 0 gene_id "ECDH10B_RS22730"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lptF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313265.1"; locus_tag "ECDH10B_RS22730"; product "LPS export ABC transporter permease LptF"; protein_id "WP_000584114.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4586049 4586051 . + 0 gene_id "ECDH10B_RS22730"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lptF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313265.1"; locus_tag "ECDH10B_RS22730"; product "LPS export ABC transporter permease LptF"; protein_id "WP_000584114.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4587147 4587149 . + 0 gene_id "ECDH10B_RS22730"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lptF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313265.1"; locus_tag "ECDH10B_RS22730"; product "LPS export ABC transporter permease LptF"; protein_id "WP_000584114.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4587149 4588231 . + . gene_id "ECDH10B_RS22735"; transcript_id ""; gbkey "Gene"; gene "lptG"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22735"; old_locus_tag "ECDH10B_4455"; -NC_010473.1 Protein Homology CDS 4587149 4588228 . + 0 gene_id "ECDH10B_RS22735"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lptG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313266.2"; locus_tag "ECDH10B_RS22735"; product "LPS export ABC transporter permease LptG"; protein_id "WP_001295681.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4587149 4587151 . + 0 gene_id "ECDH10B_RS22735"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lptG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313266.2"; locus_tag "ECDH10B_RS22735"; product "LPS export ABC transporter permease LptG"; protein_id "WP_001295681.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4588229 4588231 . + 0 gene_id "ECDH10B_RS22735"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lptG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313266.2"; locus_tag "ECDH10B_RS22735"; product "LPS export ABC transporter permease LptG"; protein_id "WP_001295681.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4588392 4589894 . - . gene_id "ECDH10B_RS22740"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22740"; old_locus_tag "ECDH10B_4456"; -NC_010473.1 Protein Homology CDS 4588395 4589894 . - 0 gene_id "ECDH10B_RS22740"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418684.1"; locus_tag "ECDH10B_RS22740"; product "DUF853 domain-containing protein"; protein_id "WP_001294573.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4589892 4589894 . - 0 gene_id "ECDH10B_RS22740"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418684.1"; locus_tag "ECDH10B_RS22740"; product "DUF853 domain-containing protein"; protein_id "WP_001294573.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4588392 4588394 . - 0 gene_id "ECDH10B_RS22740"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418684.1"; locus_tag "ECDH10B_RS22740"; product "DUF853 domain-containing protein"; protein_id "WP_001294573.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4589972 4590970 . - . gene_id "ECDH10B_RS22745"; transcript_id ""; gbkey "Gene"; gene "idnR"; gene_biotype "protein_coding"; gene_synonym "gntH"; gene_synonym "yjgS"; locus_tag "ECDH10B_RS22745"; old_locus_tag "ECDH10B_4457"; -NC_010473.1 Protein Homology CDS 4589975 4590970 . - 0 gene_id "ECDH10B_RS22745"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "idnR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418685.1"; locus_tag "ECDH10B_RS22745"; product "DNA-binding transcriptional regulator IdnR"; protein_id "WP_001309159.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4590968 4590970 . - 0 gene_id "ECDH10B_RS22745"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "idnR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418685.1"; locus_tag "ECDH10B_RS22745"; product "DNA-binding transcriptional regulator IdnR"; protein_id "WP_001309159.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4589972 4589974 . - 0 gene_id "ECDH10B_RS22745"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "idnR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418685.1"; locus_tag "ECDH10B_RS22745"; product "DNA-binding transcriptional regulator IdnR"; protein_id "WP_001309159.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4591037 4592356 . - . gene_id "ECDH10B_RS22750"; transcript_id ""; gbkey "Gene"; gene "idnT"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22750"; old_locus_tag "ECDH10B_4458"; -NC_010473.1 Protein Homology CDS 4591040 4592356 . - 0 gene_id "ECDH10B_RS22750"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "idnT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418686.1"; locus_tag "ECDH10B_RS22750"; product "gnt-II system L-idonate transporter"; protein_id "WP_001128335.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4592354 4592356 . - 0 gene_id "ECDH10B_RS22750"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "idnT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418686.1"; locus_tag "ECDH10B_RS22750"; product "gnt-II system L-idonate transporter"; protein_id "WP_001128335.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4591037 4591039 . - 0 gene_id "ECDH10B_RS22750"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "idnT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418686.1"; locus_tag "ECDH10B_RS22750"; product "gnt-II system L-idonate transporter"; protein_id "WP_001128335.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4592418 4593182 . - . gene_id "ECDH10B_RS22755"; transcript_id ""; gbkey "Gene"; gene "idnO"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22755"; old_locus_tag "ECDH10B_4459"; -NC_010473.1 Protein Homology CDS 4592421 4593182 . - 0 gene_id "ECDH10B_RS22755"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "idnO"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418687.1"; locus_tag "ECDH10B_RS22755"; product "gluconate 5-dehydrogenase"; protein_id "WP_000998695.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4593180 4593182 . - 0 gene_id "ECDH10B_RS22755"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "idnO"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418687.1"; locus_tag "ECDH10B_RS22755"; product "gluconate 5-dehydrogenase"; protein_id "WP_000998695.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4592418 4592420 . - 0 gene_id "ECDH10B_RS22755"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "idnO"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418687.1"; locus_tag "ECDH10B_RS22755"; product "gluconate 5-dehydrogenase"; protein_id "WP_000998695.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4593206 4594237 . - . gene_id "ECDH10B_RS22760"; transcript_id ""; gbkey "Gene"; gene "idnD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22760"; old_locus_tag "ECDH10B_4460"; -NC_010473.1 Protein Homology CDS 4593209 4594237 . - 0 gene_id "ECDH10B_RS22760"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "idnD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418688.1"; locus_tag "ECDH10B_RS22760"; product "L-idonate 5-dehydrogenase"; protein_id "WP_001197411.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4594235 4594237 . - 0 gene_id "ECDH10B_RS22760"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "idnD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418688.1"; locus_tag "ECDH10B_RS22760"; product "L-idonate 5-dehydrogenase"; protein_id "WP_001197411.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4593206 4593208 . - 0 gene_id "ECDH10B_RS22760"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "idnD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418688.1"; locus_tag "ECDH10B_RS22760"; product "L-idonate 5-dehydrogenase"; protein_id "WP_001197411.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4594454 4595017 . + . gene_id "ECDH10B_RS22765"; transcript_id ""; gbkey "Gene"; gene "idnK"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22765"; old_locus_tag "ECDH10B_4461"; -NC_010473.1 Protein Homology CDS 4594454 4595014 . + 0 gene_id "ECDH10B_RS22765"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "idnK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418689.1"; locus_tag "ECDH10B_RS22765"; product "gluconokinase"; protein_id "WP_000896738.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4594454 4594456 . + 0 gene_id "ECDH10B_RS22765"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "idnK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418689.1"; locus_tag "ECDH10B_RS22765"; product "gluconokinase"; protein_id "WP_000896738.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4595015 4595017 . + 0 gene_id "ECDH10B_RS22765"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "idnK"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418689.1"; locus_tag "ECDH10B_RS22765"; product "gluconokinase"; protein_id "WP_000896738.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4595021 4596040 . - . gene_id "ECDH10B_RS22770"; transcript_id ""; gbkey "Gene"; gene "ahr"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22770"; old_locus_tag "ECDH10B_4462"; -NC_010473.1 Protein Homology CDS 4595024 4596040 . - 0 gene_id "ECDH10B_RS22770"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ahr"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418690.4"; locus_tag "ECDH10B_RS22770"; product "NADPH-dependent aldehyde reductase Ahr"; protein_id "WP_001309160.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4596038 4596040 . - 0 gene_id "ECDH10B_RS22770"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ahr"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418690.4"; locus_tag "ECDH10B_RS22770"; product "NADPH-dependent aldehyde reductase Ahr"; protein_id "WP_001309160.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4595021 4595023 . - 0 gene_id "ECDH10B_RS22770"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ahr"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418690.4"; locus_tag "ECDH10B_RS22770"; product "NADPH-dependent aldehyde reductase Ahr"; protein_id "WP_001309160.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4596236 4596320 . + . gene_id "ECDH10B_RS22775"; transcript_id ""; gbkey "Gene"; gene_biotype "tRNA"; locus_tag "ECDH10B_RS22775"; old_locus_tag "ECDH10B_4463"; -NC_010473.1 tRNAscan-SE exon 4596236 4596320 . + . gene_id "ECDH10B_RS22775"; transcript_id "ECDH10B_RS22775"; anticodon "(pos:4596270..4596272)"; gbkey "tRNA"; inference "COORDINATES: profile:tRNAscan-SE:2.0.6"; locus_tag "ECDH10B_RS22775"; product "tRNA-Leu"; exon_number "1"; -NC_010473.1 RefSeq gene 4596506 4597771 . + . gene_id "ECDH10B_RS22780"; transcript_id ""; gbkey "Gene"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS22780"; old_locus_tag "ECDH10B_4464"; pseudo "true"; -NC_010473.1 Protein Homology CDS 4596506 4597768 . + 0 gene_id "ECDH10B_RS22780"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001642584.1"; locus_tag "ECDH10B_RS22780"; note "internal stop"; product "integrase arm-type DNA-binding domain-containing protein"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4596506 4596508 . + 0 gene_id "ECDH10B_RS22780"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001642584.1"; locus_tag "ECDH10B_RS22780"; note "internal stop"; product "integrase arm-type DNA-binding domain-containing protein"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4597769 4597771 . + 0 gene_id "ECDH10B_RS22780"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001642584.1"; locus_tag "ECDH10B_RS22780"; note "internal stop"; product "integrase arm-type DNA-binding domain-containing protein"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 4598103 4599331 . + . gene_id "ECDH10B_RS22790"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22790"; old_locus_tag "ECDH10B_4466"; -NC_010473.1 Protein Homology CDS 4598103 4598418 . + 0 gene_id "ECDH10B_RS22790"; transcript_id "unknown_transcript_1"; exception "ribosomal slippage"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_086558215.1"; locus_tag "ECDH10B_RS22790"; note "programmed frameshift"; product "IS3-like element IS2 family transposase"; protein_id "WP_088895425.1"; transl_table "11"; -NC_010473.1 Protein Homology CDS 4598418 4599328 . + 0 gene_id "ECDH10B_RS22790"; transcript_id "unknown_transcript_1"; exception "ribosomal slippage"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_086558215.1"; locus_tag "ECDH10B_RS22790"; note "programmed frameshift"; product "IS3-like element IS2 family transposase"; protein_id "WP_088895425.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4598103 4598105 . + 0 gene_id "ECDH10B_RS22790"; transcript_id "unknown_transcript_1"; exception "ribosomal slippage"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_086558215.1"; locus_tag "ECDH10B_RS22790"; note "programmed frameshift"; product "IS3-like element IS2 family transposase"; protein_id "WP_088895425.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4599329 4599331 . + 0 gene_id "ECDH10B_RS22790"; transcript_id "unknown_transcript_1"; exception "ribosomal slippage"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_086558215.1"; locus_tag "ECDH10B_RS22790"; note "programmed frameshift"; product "IS3-like element IS2 family transposase"; protein_id "WP_088895425.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4599424 4600604 . - . gene_id "ECDH10B_RS22795"; transcript_id ""; gbkey "Gene"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS22795"; partial "true"; pseudo "true"; -NC_010473.1 Protein Homology CDS 4599427 4600604 . - 0 gene_id "ECDH10B_RS22795"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001535067.1"; locus_tag "ECDH10B_RS22795"; note "frameshifted; internal stop; incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "phosphoethanolamine transferase"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4600602 4600604 . - 0 gene_id "ECDH10B_RS22795"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001535067.1"; locus_tag "ECDH10B_RS22795"; note "frameshifted; internal stop; incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "phosphoethanolamine transferase"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4599424 4599426 . - 0 gene_id "ECDH10B_RS22795"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001535067.1"; locus_tag "ECDH10B_RS22795"; note "frameshifted; internal stop; incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "phosphoethanolamine transferase"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 4601191 4601420 . + . gene_id "ECDH10B_RS25225"; transcript_id ""; gbkey "Gene"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS25225"; old_locus_tag "ECDH10B_4472"; partial "true"; pseudo "true"; -NC_010473.1 Protein Homology CDS 4601191 4601417 . + 0 gene_id "ECDH10B_RS25225"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001546148.1"; locus_tag "ECDH10B_RS25225"; note "frameshifted; incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "transposase domain-containing protein"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4601191 4601193 . + 0 gene_id "ECDH10B_RS25225"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001546148.1"; locus_tag "ECDH10B_RS25225"; note "frameshifted; incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "transposase domain-containing protein"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4601418 4601420 . + 0 gene_id "ECDH10B_RS25225"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001546148.1"; locus_tag "ECDH10B_RS25225"; note "frameshifted; incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "transposase domain-containing protein"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 4601934 4603280 . - . gene_id "ECDH10B_RS22815"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22815"; old_locus_tag "ECDH10B_4473"; -NC_010473.1 Protein Homology CDS 4601937 4603280 . - 0 gene_id "ECDH10B_RS22815"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_707145.1"; locus_tag "ECDH10B_RS22815"; product "IS4-like element IS4 family transposase"; protein_id "WP_000483767.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4603278 4603280 . - 0 gene_id "ECDH10B_RS22815"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_707145.1"; locus_tag "ECDH10B_RS22815"; product "IS4-like element IS4 family transposase"; protein_id "WP_000483767.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4601934 4601936 . - 0 gene_id "ECDH10B_RS22815"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_707145.1"; locus_tag "ECDH10B_RS22815"; product "IS4-like element IS4 family transposase"; protein_id "WP_000483767.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4603889 4605106 . + . gene_id "ECDH10B_RS22820"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22820"; old_locus_tag "ECDH10B_4474"; -NC_010473.1 Protein Homology CDS 4603889 4605103 . + 0 gene_id "ECDH10B_RS22820"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418699.4"; locus_tag "ECDH10B_RS22820"; product "MFS transporter"; protein_id "WP_000179691.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4603889 4603891 . + 0 gene_id "ECDH10B_RS22820"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418699.4"; locus_tag "ECDH10B_RS22820"; product "MFS transporter"; protein_id "WP_000179691.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4605104 4605106 . + 0 gene_id "ECDH10B_RS22820"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418699.4"; locus_tag "ECDH10B_RS22820"; product "MFS transporter"; protein_id "WP_000179691.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4605118 4606236 . + . gene_id "ECDH10B_RS22825"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22825"; old_locus_tag "ECDH10B_4475"; -NC_010473.1 Protein Homology CDS 4605118 4606233 . + 0 gene_id "ECDH10B_RS22825"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418700.2"; locus_tag "ECDH10B_RS22825"; product "Gfo/Idh/MocA family oxidoreductase"; protein_id "WP_000611568.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4605118 4605120 . + 0 gene_id "ECDH10B_RS22825"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418700.2"; locus_tag "ECDH10B_RS22825"; product "Gfo/Idh/MocA family oxidoreductase"; protein_id "WP_000611568.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4606234 4606236 . + 0 gene_id "ECDH10B_RS22825"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418700.2"; locus_tag "ECDH10B_RS22825"; product "Gfo/Idh/MocA family oxidoreductase"; protein_id "WP_000611568.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4606279 4606404 . + . gene_id "ECDH10B_RS25795"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS25795"; -NC_010473.1 Protein Homology CDS 4606279 4606401 . + 0 gene_id "ECDH10B_RS25795"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_001491548.1"; locus_tag "ECDH10B_RS25795"; product "hypothetical protein"; protein_id "WP_000594405.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4606279 4606281 . + 0 gene_id "ECDH10B_RS25795"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_001491548.1"; locus_tag "ECDH10B_RS25795"; product "hypothetical protein"; protein_id "WP_000594405.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4606402 4606404 . + 0 gene_id "ECDH10B_RS25795"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_001491548.1"; locus_tag "ECDH10B_RS25795"; product "hypothetical protein"; protein_id "WP_000594405.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4606457 4606714 . - . gene_id "ECDH10B_RS22830"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22830"; old_locus_tag "ECDH10B_4476"; -NC_010473.1 Protein Homology CDS 4606460 4606714 . - 0 gene_id "ECDH10B_RS22830"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000255001.1"; locus_tag "ECDH10B_RS22830"; product "hypothetical protein"; protein_id "WP_000254999.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4606712 4606714 . - 0 gene_id "ECDH10B_RS22830"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000255001.1"; locus_tag "ECDH10B_RS22830"; product "hypothetical protein"; protein_id "WP_000254999.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4606457 4606459 . - 0 gene_id "ECDH10B_RS22830"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000255001.1"; locus_tag "ECDH10B_RS22830"; product "hypothetical protein"; protein_id "WP_000254999.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4606704 4606940 . + . gene_id "ECDH10B_RS26160"; transcript_id ""; gbkey "Gene"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS26160"; old_locus_tag "ECDH10B_4477"; partial "true"; pseudo "true"; -NC_010473.1 Protein Homology CDS 4606704 4606937 . + 0 gene_id "ECDH10B_RS26160"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000939276.1"; locus_tag "ECDH10B_RS26160"; note "incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "MFS transporter"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4606704 4606706 . + 0 gene_id "ECDH10B_RS26160"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000939276.1"; locus_tag "ECDH10B_RS26160"; note "incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "MFS transporter"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4606938 4606940 . + 0 gene_id "ECDH10B_RS26160"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000939276.1"; locus_tag "ECDH10B_RS26160"; note "incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "MFS transporter"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 4607028 4607285 . + . gene_id "ECDH10B_RS22840"; transcript_id ""; gbkey "Gene"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS22840"; old_locus_tag "ECDH10B_4478"; partial "true"; pseudo "true"; -NC_010473.1 Protein Homology CDS 4607028 4607282 . + 0 gene_id "ECDH10B_RS22840"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_076611483.1"; locus_tag "ECDH10B_RS22840"; note "incomplete; partial in the middle of a contig; missing C-terminus"; partial "true"; product "transposase"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4607028 4607030 . + 0 gene_id "ECDH10B_RS22840"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_076611483.1"; locus_tag "ECDH10B_RS22840"; note "incomplete; partial in the middle of a contig; missing C-terminus"; partial "true"; product "transposase"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4607283 4607285 . + 0 gene_id "ECDH10B_RS22840"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_076611483.1"; locus_tag "ECDH10B_RS22840"; note "incomplete; partial in the middle of a contig; missing C-terminus"; partial "true"; product "transposase"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 4607297 4608448 . - . gene_id "ECDH10B_RS22845"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22845"; old_locus_tag "ECDH10B_4479"; -NC_010473.1 Protein Homology CDS 4607300 4608448 . - 0 gene_id "ECDH10B_RS22845"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_004389801.1"; locus_tag "ECDH10B_RS22845"; product "IS30-like element IS30 family transposase"; protein_id "WP_001254932.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4608446 4608448 . - 0 gene_id "ECDH10B_RS22845"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_004389801.1"; locus_tag "ECDH10B_RS22845"; product "IS30-like element IS30 family transposase"; protein_id "WP_001254932.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4607297 4607299 . - 0 gene_id "ECDH10B_RS22845"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_004389801.1"; locus_tag "ECDH10B_RS22845"; product "IS30-like element IS30 family transposase"; protein_id "WP_001254932.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4608513 4608773 . - . gene_id "ECDH10B_RS22850"; transcript_id ""; gbkey "Gene"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS22850"; old_locus_tag "ECDH10B_4480"; partial "true"; pseudo "true"; -NC_010473.1 Protein Homology CDS 4608516 4608773 . - 0 gene_id "ECDH10B_RS22850"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_076611998.1"; locus_tag "ECDH10B_RS22850"; note "incomplete; partial in the middle of a contig; missing C-terminus"; partial "true"; product "transposase"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4608771 4608773 . - 0 gene_id "ECDH10B_RS22850"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_076611998.1"; locus_tag "ECDH10B_RS22850"; note "incomplete; partial in the middle of a contig; missing C-terminus"; partial "true"; product "transposase"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4608513 4608515 . - 0 gene_id "ECDH10B_RS22850"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_076611998.1"; locus_tag "ECDH10B_RS22850"; note "incomplete; partial in the middle of a contig; missing C-terminus"; partial "true"; product "transposase"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 4608840 4609624 . + . gene_id "ECDH10B_RS22855"; transcript_id ""; gbkey "Gene"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS22855"; old_locus_tag "ECDH10B_4481"; partial "true"; pseudo "true"; -NC_010473.1 Protein Homology CDS 4608840 4609621 . + 0 gene_id "ECDH10B_RS22855"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_076611482.1"; locus_tag "ECDH10B_RS22855"; note "frameshifted; incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "IS3 family transposase"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4608840 4608842 . + 0 gene_id "ECDH10B_RS22855"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_076611482.1"; locus_tag "ECDH10B_RS22855"; note "frameshifted; incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "IS3 family transposase"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4609622 4609624 . + 0 gene_id "ECDH10B_RS22855"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_076611482.1"; locus_tag "ECDH10B_RS22855"; note "frameshifted; incomplete; partial in the middle of a contig; missing N-terminus"; partial "true"; product "IS3 family transposase"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 4609707 4609964 . + . gene_id "ECDH10B_RS26165"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS26165"; -NC_010473.1 Protein Homology CDS 4609707 4609961 . + 0 gene_id "ECDH10B_RS26165"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000177060.1"; locus_tag "ECDH10B_RS26165"; product "hypothetical protein"; protein_id "WP_000177057.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4609707 4609709 . + 0 gene_id "ECDH10B_RS26165"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000177060.1"; locus_tag "ECDH10B_RS26165"; product "hypothetical protein"; protein_id "WP_000177057.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4609962 4609964 . + 0 gene_id "ECDH10B_RS26165"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000177060.1"; locus_tag "ECDH10B_RS26165"; product "hypothetical protein"; protein_id "WP_000177057.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4610521 4611288 . - . gene_id "ECDH10B_RS22865"; transcript_id ""; gbkey "Gene"; gene "fecE"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22865"; old_locus_tag "ECDH10B_4485"; -NC_010473.1 Protein Homology CDS 4610524 4611288 . - 0 gene_id "ECDH10B_RS22865"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fecE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418707.1"; locus_tag "ECDH10B_RS22865"; product "Fe(3+) dicitrate ABC transporter ATP-binding protein FecE"; protein_id "WP_000175457.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4611286 4611288 . - 0 gene_id "ECDH10B_RS22865"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fecE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418707.1"; locus_tag "ECDH10B_RS22865"; product "Fe(3+) dicitrate ABC transporter ATP-binding protein FecE"; protein_id "WP_000175457.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4610521 4610523 . - 0 gene_id "ECDH10B_RS22865"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fecE"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418707.1"; locus_tag "ECDH10B_RS22865"; product "Fe(3+) dicitrate ABC transporter ATP-binding protein FecE"; protein_id "WP_000175457.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4611289 4612245 . - . gene_id "ECDH10B_RS22870"; transcript_id ""; gbkey "Gene"; gene "fecD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22870"; old_locus_tag "ECDH10B_4486"; -NC_010473.1 Protein Homology CDS 4611292 4612245 . - 0 gene_id "ECDH10B_RS22870"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fecD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418708.1"; locus_tag "ECDH10B_RS22870"; product "Fe(3+) dicitrate ABC transporter permease subunit FecD"; protein_id "WP_000684852.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4612243 4612245 . - 0 gene_id "ECDH10B_RS22870"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fecD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418708.1"; locus_tag "ECDH10B_RS22870"; product "Fe(3+) dicitrate ABC transporter permease subunit FecD"; protein_id "WP_000684852.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4611289 4611291 . - 0 gene_id "ECDH10B_RS22870"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fecD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418708.1"; locus_tag "ECDH10B_RS22870"; product "Fe(3+) dicitrate ABC transporter permease subunit FecD"; protein_id "WP_000684852.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4612242 4613240 . - . gene_id "ECDH10B_RS22875"; transcript_id ""; gbkey "Gene"; gene "fecC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22875"; old_locus_tag "ECDH10B_4487"; -NC_010473.1 Protein Homology CDS 4612245 4613240 . - 0 gene_id "ECDH10B_RS22875"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fecC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418709.1"; locus_tag "ECDH10B_RS22875"; product "iron-dicitrate ABC transporter permease FecC"; protein_id "WP_000125187.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4613238 4613240 . - 0 gene_id "ECDH10B_RS22875"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fecC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418709.1"; locus_tag "ECDH10B_RS22875"; product "iron-dicitrate ABC transporter permease FecC"; protein_id "WP_000125187.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4612242 4612244 . - 0 gene_id "ECDH10B_RS22875"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fecC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418709.1"; locus_tag "ECDH10B_RS22875"; product "iron-dicitrate ABC transporter permease FecC"; protein_id "WP_000125187.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4613237 4614139 . - . gene_id "ECDH10B_RS22880"; transcript_id ""; gbkey "Gene"; gene "fecB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22880"; old_locus_tag "ECDH10B_4488"; -NC_010473.1 Protein Homology CDS 4613240 4614139 . - 0 gene_id "ECDH10B_RS22880"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fecB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418710.4"; locus_tag "ECDH10B_RS22880"; product "Fe(3+) dicitrate ABC transporter substrate-binding protein FecB"; protein_id "WP_000879155.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4614137 4614139 . - 0 gene_id "ECDH10B_RS22880"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fecB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418710.4"; locus_tag "ECDH10B_RS22880"; product "Fe(3+) dicitrate ABC transporter substrate-binding protein FecB"; protein_id "WP_000879155.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4613237 4613239 . - 0 gene_id "ECDH10B_RS22880"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fecB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418710.4"; locus_tag "ECDH10B_RS22880"; product "Fe(3+) dicitrate ABC transporter substrate-binding protein FecB"; protein_id "WP_000879155.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4614184 4616508 . - . gene_id "ECDH10B_RS22885"; transcript_id ""; gbkey "Gene"; gene "fecA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22885"; old_locus_tag "ECDH10B_4489"; -NC_010473.1 Protein Homology CDS 4614187 4616508 . - 0 gene_id "ECDH10B_RS22885"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fecA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418711.1"; locus_tag "ECDH10B_RS22885"; product "Fe(3+) dicitrate transport protein FecA"; protein_id "WP_000188283.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4616506 4616508 . - 0 gene_id "ECDH10B_RS22885"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fecA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418711.1"; locus_tag "ECDH10B_RS22885"; product "Fe(3+) dicitrate transport protein FecA"; protein_id "WP_000188283.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4614184 4614186 . - 0 gene_id "ECDH10B_RS22885"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fecA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418711.1"; locus_tag "ECDH10B_RS22885"; product "Fe(3+) dicitrate transport protein FecA"; protein_id "WP_000188283.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4616595 4617548 . - . gene_id "ECDH10B_RS22890"; transcript_id ""; gbkey "Gene"; gene "fecR"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22890"; old_locus_tag "ECDH10B_4490"; -NC_010473.1 Protein Homology CDS 4616598 4617548 . - 0 gene_id "ECDH10B_RS22890"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fecR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418712.1"; locus_tag "ECDH10B_RS22890"; product "fec operon regulator FecR"; protein_id "WP_001068910.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4617546 4617548 . - 0 gene_id "ECDH10B_RS22890"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fecR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418712.1"; locus_tag "ECDH10B_RS22890"; product "fec operon regulator FecR"; protein_id "WP_001068910.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4616595 4616597 . - 0 gene_id "ECDH10B_RS22890"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fecR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418712.1"; locus_tag "ECDH10B_RS22890"; product "fec operon regulator FecR"; protein_id "WP_001068910.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4617545 4618066 . - . gene_id "ECDH10B_RS22895"; transcript_id ""; gbkey "Gene"; gene "fecI"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22895"; old_locus_tag "ECDH10B_4491"; -NC_010473.1 Protein Homology CDS 4617548 4618066 . - 0 gene_id "ECDH10B_RS22895"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fecI"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418713.1"; locus_tag "ECDH10B_RS22895"; product "RNA polymerase sigma factor FecI"; protein_id "WP_001283626.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4618064 4618066 . - 0 gene_id "ECDH10B_RS22895"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fecI"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418713.1"; locus_tag "ECDH10B_RS22895"; product "RNA polymerase sigma factor FecI"; protein_id "WP_001283626.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4617545 4617547 . - 0 gene_id "ECDH10B_RS22895"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fecI"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418713.1"; locus_tag "ECDH10B_RS22895"; product "RNA polymerase sigma factor FecI"; protein_id "WP_001283626.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4618358 4619055 . + . gene_id "ECDH10B_RS25805"; transcript_id ""; gbkey "Gene"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS25805"; pseudo "true"; -NC_010473.1 Protein Homology CDS 4618358 4619052 . + 0 gene_id "ECDH10B_RS25805"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_076612230.1"; locus_tag "ECDH10B_RS25805"; note "frameshifted; internal stop"; product "IS1 family transposase"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4618358 4618360 . + 0 gene_id "ECDH10B_RS25805"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_076612230.1"; locus_tag "ECDH10B_RS25805"; note "frameshifted; internal stop"; product "IS1 family transposase"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4619053 4619055 . + 0 gene_id "ECDH10B_RS25805"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_076612230.1"; locus_tag "ECDH10B_RS25805"; note "frameshifted; internal stop"; product "IS1 family transposase"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 4619169 4620155 . - . gene_id "ECDH10B_RS22915"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22915"; old_locus_tag "ECDH10B_4496"; -NC_010473.1 Protein Homology CDS 4619172 4620155 . - 0 gene_id "ECDH10B_RS22915"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418715.2"; locus_tag "ECDH10B_RS22915"; product "sugar-binding transcriptional regulator"; protein_id "WP_000373366.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4620153 4620155 . - 0 gene_id "ECDH10B_RS22915"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418715.2"; locus_tag "ECDH10B_RS22915"; product "sugar-binding transcriptional regulator"; protein_id "WP_000373366.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4619169 4619171 . - 0 gene_id "ECDH10B_RS22915"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418715.2"; locus_tag "ECDH10B_RS22915"; product "sugar-binding transcriptional regulator"; protein_id "WP_000373366.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4620502 4621851 . - . gene_id "ECDH10B_RS22925"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22925"; old_locus_tag "ECDH10B_4497"; -NC_010473.1 Protein Homology CDS 4620505 4621851 . - 0 gene_id "ECDH10B_RS22925"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418716.1"; locus_tag "ECDH10B_RS22925"; product "GntP family permease"; protein_id "WP_001128363.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4621849 4621851 . - 0 gene_id "ECDH10B_RS22925"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418716.1"; locus_tag "ECDH10B_RS22925"; product "GntP family permease"; protein_id "WP_001128363.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4620502 4620504 . - 0 gene_id "ECDH10B_RS22925"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418716.1"; locus_tag "ECDH10B_RS22925"; product "GntP family permease"; protein_id "WP_001128363.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4621958 4623925 . - . gene_id "ECDH10B_RS22930"; transcript_id ""; gbkey "Gene"; gene "yjhG"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22930"; old_locus_tag "ECDH10B_4498"; -NC_010473.1 Protein Homology CDS 4621961 4623925 . - 0 gene_id "ECDH10B_RS22930"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yjhG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418717.1"; locus_tag "ECDH10B_RS22930"; product "xylonate dehydratase YjhG"; protein_id "WP_000116326.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4623923 4623925 . - 0 gene_id "ECDH10B_RS22930"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yjhG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418717.1"; locus_tag "ECDH10B_RS22930"; product "xylonate dehydratase YjhG"; protein_id "WP_000116326.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4621958 4621960 . - 0 gene_id "ECDH10B_RS22930"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yjhG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418717.1"; locus_tag "ECDH10B_RS22930"; product "xylonate dehydratase YjhG"; protein_id "WP_000116326.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4623936 4624841 . - . gene_id "ECDH10B_RS22935"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22935"; old_locus_tag "ECDH10B_4499"; -NC_010473.1 Protein Homology CDS 4623939 4624841 . - 0 gene_id "ECDH10B_RS22935"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418718.4"; locus_tag "ECDH10B_RS22935"; product "dihydrodipicolinate synthase family protein"; protein_id "WP_000714563.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4624839 4624841 . - 0 gene_id "ECDH10B_RS22935"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418718.4"; locus_tag "ECDH10B_RS22935"; product "dihydrodipicolinate synthase family protein"; protein_id "WP_000714563.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4623936 4623938 . - 0 gene_id "ECDH10B_RS22935"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418718.4"; locus_tag "ECDH10B_RS22935"; product "dihydrodipicolinate synthase family protein"; protein_id "WP_000714563.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4624846 4625634 . - . gene_id "ECDH10B_RS22940"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22940"; old_locus_tag "ECDH10B_4500"; -NC_010473.1 Protein Homology CDS 4624849 4625634 . - 0 gene_id "ECDH10B_RS22940"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418719.1"; locus_tag "ECDH10B_RS22940"; product "IclR family transcriptional regulator"; protein_id "WP_000251798.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4625632 4625634 . - 0 gene_id "ECDH10B_RS22940"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418719.1"; locus_tag "ECDH10B_RS22940"; product "IclR family transcriptional regulator"; protein_id "WP_000251798.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4624846 4624848 . - 0 gene_id "ECDH10B_RS22940"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418719.1"; locus_tag "ECDH10B_RS22940"; product "IclR family transcriptional regulator"; protein_id "WP_000251798.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4625937 4626719 . - . gene_id "ECDH10B_RS22945"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22945"; old_locus_tag "ECDH10B_4501"; -NC_010473.1 Protein Homology CDS 4625940 4626719 . - 0 gene_id "ECDH10B_RS22945"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418720.1"; locus_tag "ECDH10B_RS22945"; product "DeoR/GlpR transcriptional regulator"; protein_id "WP_000082780.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4626717 4626719 . - 0 gene_id "ECDH10B_RS22945"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418720.1"; locus_tag "ECDH10B_RS22945"; product "DeoR/GlpR transcriptional regulator"; protein_id "WP_000082780.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4625937 4625939 . - 0 gene_id "ECDH10B_RS22945"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418720.1"; locus_tag "ECDH10B_RS22945"; product "DeoR/GlpR transcriptional regulator"; protein_id "WP_000082780.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4626736 4627368 . - . gene_id "ECDH10B_RS22950"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22950"; old_locus_tag "ECDH10B_4502"; -NC_010473.1 Protein Homology CDS 4626739 4627368 . - 0 gene_id "ECDH10B_RS22950"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418721.1"; locus_tag "ECDH10B_RS22950"; product "ribulose-phosphate 3 epimerase family protein"; protein_id "WP_000600622.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4627366 4627368 . - 0 gene_id "ECDH10B_RS22950"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418721.1"; locus_tag "ECDH10B_RS22950"; product "ribulose-phosphate 3 epimerase family protein"; protein_id "WP_000600622.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4626736 4626738 . - 0 gene_id "ECDH10B_RS22950"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418721.1"; locus_tag "ECDH10B_RS22950"; product "ribulose-phosphate 3 epimerase family protein"; protein_id "WP_000600622.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4627380 4627811 . - . gene_id "ECDH10B_RS22955"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22955"; old_locus_tag "ECDH10B_4503"; -NC_010473.1 Protein Homology CDS 4627383 4627811 . - 0 gene_id "ECDH10B_RS22955"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418722.1"; locus_tag "ECDH10B_RS22955"; product "PTS sugar transporter subunit IIA"; protein_id "WP_000606406.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4627809 4627811 . - 0 gene_id "ECDH10B_RS22955"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418722.1"; locus_tag "ECDH10B_RS22955"; product "PTS sugar transporter subunit IIA"; protein_id "WP_000606406.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4627380 4627382 . - 0 gene_id "ECDH10B_RS22955"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418722.1"; locus_tag "ECDH10B_RS22955"; product "PTS sugar transporter subunit IIA"; protein_id "WP_000606406.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4627942 4628748 . - . gene_id "ECDH10B_RS22960"; transcript_id ""; gbkey "Gene"; gene "sgcQ"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22960"; old_locus_tag "ECDH10B_4504"; -NC_010473.1 Protein Homology CDS 4627945 4628748 . - 0 gene_id "ECDH10B_RS22960"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sgcQ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418723.1"; locus_tag "ECDH10B_RS22960"; product "BtpA family protein SgcQ"; protein_id "WP_000118626.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4628746 4628748 . - 0 gene_id "ECDH10B_RS22960"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sgcQ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418723.1"; locus_tag "ECDH10B_RS22960"; product "BtpA family protein SgcQ"; protein_id "WP_000118626.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4627942 4627944 . - 0 gene_id "ECDH10B_RS22960"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sgcQ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418723.1"; locus_tag "ECDH10B_RS22960"; product "BtpA family protein SgcQ"; protein_id "WP_000118626.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4628761 4630074 . - . gene_id "ECDH10B_RS22965"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22965"; old_locus_tag "ECDH10B_4505"; -NC_010473.1 Protein Homology CDS 4628764 4630074 . - 0 gene_id "ECDH10B_RS22965"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418724.1"; locus_tag "ECDH10B_RS22965"; product "PTS system EIIC permease component"; protein_id "WP_000460843.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4630072 4630074 . - 0 gene_id "ECDH10B_RS22965"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418724.1"; locus_tag "ECDH10B_RS22965"; product "PTS system EIIC permease component"; protein_id "WP_000460843.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4628761 4628763 . - 0 gene_id "ECDH10B_RS22965"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418724.1"; locus_tag "ECDH10B_RS22965"; product "PTS system EIIC permease component"; protein_id "WP_000460843.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4630086 4630364 . - . gene_id "ECDH10B_RS22970"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22970"; old_locus_tag "ECDH10B_4506"; -NC_010473.1 Protein Homology CDS 4630089 4630364 . - 0 gene_id "ECDH10B_RS22970"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_588476.1"; locus_tag "ECDH10B_RS22970"; product "PTS sugar transporter subunit IIB"; protein_id "WP_000722973.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4630362 4630364 . - 0 gene_id "ECDH10B_RS22970"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_588476.1"; locus_tag "ECDH10B_RS22970"; product "PTS sugar transporter subunit IIB"; protein_id "WP_000722973.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4630086 4630088 . - 0 gene_id "ECDH10B_RS22970"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_588476.1"; locus_tag "ECDH10B_RS22970"; product "PTS sugar transporter subunit IIB"; protein_id "WP_000722973.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4630361 4631482 . - . gene_id "ECDH10B_RS22975"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22975"; old_locus_tag "ECDH10B_4507"; -NC_010473.1 Protein Homology CDS 4630364 4631482 . - 0 gene_id "ECDH10B_RS22975"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418725.4"; locus_tag "ECDH10B_RS22975"; product "M42 family metallopeptidase"; protein_id "WP_000010829.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4631480 4631482 . - 0 gene_id "ECDH10B_RS22975"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418725.4"; locus_tag "ECDH10B_RS22975"; product "M42 family metallopeptidase"; protein_id "WP_000010829.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4630361 4630363 . - 0 gene_id "ECDH10B_RS22975"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418725.4"; locus_tag "ECDH10B_RS22975"; product "M42 family metallopeptidase"; protein_id "WP_000010829.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4631727 4631843 . - . gene_id "ECDH10B_RS26330"; transcript_id ""; gbkey "Gene"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS26330"; partial "true"; pseudo "true"; -NC_010473.1 Protein Homology CDS 4631730 4631843 . - 0 gene_id "ECDH10B_RS26330"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_005227376.1"; locus_tag "ECDH10B_RS26330"; note "internal stop; incomplete; partial in the middle of a contig; missing C-terminus"; partial "true"; product "VOC family protein"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4631841 4631843 . - 0 gene_id "ECDH10B_RS26330"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_005227376.1"; locus_tag "ECDH10B_RS26330"; note "internal stop; incomplete; partial in the middle of a contig; missing C-terminus"; partial "true"; product "VOC family protein"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4631727 4631729 . - 0 gene_id "ECDH10B_RS26330"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_005227376.1"; locus_tag "ECDH10B_RS26330"; note "internal stop; incomplete; partial in the middle of a contig; missing C-terminus"; partial "true"; product "VOC family protein"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 4631881 4632099 . - . gene_id "ECDH10B_RS25810"; transcript_id ""; gbkey "Gene"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS25810"; pseudo "true"; -NC_010473.1 Protein Homology CDS 4631884 4632099 . - 0 gene_id "ECDH10B_RS25810"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001348444.1"; locus_tag "ECDH10B_RS25810"; note "internal stop"; product "hypothetical protein"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4632097 4632099 . - 0 gene_id "ECDH10B_RS25810"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001348444.1"; locus_tag "ECDH10B_RS25810"; note "internal stop"; product "hypothetical protein"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4631881 4631883 . - 0 gene_id "ECDH10B_RS25810"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001348444.1"; locus_tag "ECDH10B_RS25810"; note "internal stop"; product "hypothetical protein"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 4632268 4633014 . - . gene_id "ECDH10B_RS22980"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22980"; old_locus_tag "ECDH10B_4508"; -NC_010473.1 Protein Homology CDS 4632271 4633014 . - 0 gene_id "ECDH10B_RS22980"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418726.1"; locus_tag "ECDH10B_RS22980"; product "class I SAM-dependent methyltransferase"; protein_id "WP_000354251.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4633012 4633014 . - 0 gene_id "ECDH10B_RS22980"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418726.1"; locus_tag "ECDH10B_RS22980"; product "class I SAM-dependent methyltransferase"; protein_id "WP_000354251.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4632268 4632270 . - 0 gene_id "ECDH10B_RS22980"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418726.1"; locus_tag "ECDH10B_RS22980"; product "class I SAM-dependent methyltransferase"; protein_id "WP_000354251.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4633070 4633615 . - . gene_id "ECDH10B_RS22985"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22985"; old_locus_tag "ECDH10B_4509"; -NC_010473.1 Protein Homology CDS 4633073 4633615 . - 0 gene_id "ECDH10B_RS22985"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418727.1"; locus_tag "ECDH10B_RS22985"; product "N-acetyltransferase"; protein_id "WP_001309181.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4633613 4633615 . - 0 gene_id "ECDH10B_RS22985"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418727.1"; locus_tag "ECDH10B_RS22985"; product "N-acetyltransferase"; protein_id "WP_001309181.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4633070 4633072 . - 0 gene_id "ECDH10B_RS22985"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418727.1"; locus_tag "ECDH10B_RS22985"; product "N-acetyltransferase"; protein_id "WP_001309181.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4633627 4633884 . - . gene_id "ECDH10B_RS22990"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS22990"; old_locus_tag "ECDH10B_4510"; -NC_010473.1 Protein Homology CDS 4633630 4633884 . - 0 gene_id "ECDH10B_RS22990"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_588477.1"; locus_tag "ECDH10B_RS22990"; product "hypothetical protein"; protein_id "WP_001054376.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4633882 4633884 . - 0 gene_id "ECDH10B_RS22990"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_588477.1"; locus_tag "ECDH10B_RS22990"; product "hypothetical protein"; protein_id "WP_001054376.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4633627 4633629 . - 0 gene_id "ECDH10B_RS22990"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_588477.1"; locus_tag "ECDH10B_RS22990"; product "hypothetical protein"; protein_id "WP_001054376.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4634261 4634506 . - . gene_id "ECDH10B_RS26170"; transcript_id ""; gbkey "Gene"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS26170"; pseudo "true"; -NC_010473.1 Protein Homology CDS 4634264 4634506 . - 0 gene_id "ECDH10B_RS26170"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001420158.1"; locus_tag "ECDH10B_RS26170"; note "internal stop"; product "GNAT family N-acetyltransferase"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4634504 4634506 . - 0 gene_id "ECDH10B_RS26170"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001420158.1"; locus_tag "ECDH10B_RS26170"; note "internal stop"; product "GNAT family N-acetyltransferase"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4634261 4634263 . - 0 gene_id "ECDH10B_RS26170"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001420158.1"; locus_tag "ECDH10B_RS26170"; note "internal stop"; product "GNAT family N-acetyltransferase"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 4634876 4635862 . + . gene_id "ECDH10B_RS23005"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS23005"; old_locus_tag "ECDH10B_4511"; -NC_010473.1 Protein Homology CDS 4634876 4635859 . + 0 gene_id "ECDH10B_RS23005"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001446445.1"; locus_tag "ECDH10B_RS23005"; product "hypothetical protein"; protein_id "WP_001323209.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4634876 4634878 . + 0 gene_id "ECDH10B_RS23005"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001446445.1"; locus_tag "ECDH10B_RS23005"; product "hypothetical protein"; protein_id "WP_001323209.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4635860 4635862 . + 0 gene_id "ECDH10B_RS23005"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001446445.1"; locus_tag "ECDH10B_RS23005"; product "hypothetical protein"; protein_id "WP_001323209.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4636445 4637425 . - . gene_id "ECDH10B_RS23010"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS23010"; old_locus_tag "ECDH10B_4512"; -NC_010473.1 Protein Homology CDS 4636448 4637425 . - 0 gene_id "ECDH10B_RS23010"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418729.1"; locus_tag "ECDH10B_RS23010"; product "9-O-acetyl-N-acetylneuraminic acid deacetylase"; protein_id "WP_000991438.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4637423 4637425 . - 0 gene_id "ECDH10B_RS23010"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418729.1"; locus_tag "ECDH10B_RS23010"; product "9-O-acetyl-N-acetylneuraminic acid deacetylase"; protein_id "WP_000991438.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4636445 4636447 . - 0 gene_id "ECDH10B_RS23010"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418729.1"; locus_tag "ECDH10B_RS23010"; product "9-O-acetyl-N-acetylneuraminic acid deacetylase"; protein_id "WP_000991438.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4637490 4638596 . - . gene_id "ECDH10B_RS23015"; transcript_id ""; gbkey "Gene"; gene "nanM"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS23015"; old_locus_tag "ECDH10B_4513"; -NC_010473.1 Protein Homology CDS 4637493 4638596 . - 0 gene_id "ECDH10B_RS23015"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nanM"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418730.4"; locus_tag "ECDH10B_RS23015"; product "N-acetylneuraminate epimerase"; protein_id "WP_001309184.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4638594 4638596 . - 0 gene_id "ECDH10B_RS23015"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nanM"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418730.4"; locus_tag "ECDH10B_RS23015"; product "N-acetylneuraminate epimerase"; protein_id "WP_001309184.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4637490 4637492 . - 0 gene_id "ECDH10B_RS23015"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nanM"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418730.4"; locus_tag "ECDH10B_RS23015"; product "N-acetylneuraminate epimerase"; protein_id "WP_001309184.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4638616 4639332 . - . gene_id "ECDH10B_RS23020"; transcript_id ""; gbkey "Gene"; gene "nanC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS23020"; old_locus_tag "ECDH10B_4514"; -NC_010473.1 Protein Homology CDS 4638619 4639332 . - 0 gene_id "ECDH10B_RS23020"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nanC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313297.2"; locus_tag "ECDH10B_RS23020"; product "N-acetylneuraminic acid outer membrane channel NanC"; protein_id "WP_001295734.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4639330 4639332 . - 0 gene_id "ECDH10B_RS23020"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nanC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313297.2"; locus_tag "ECDH10B_RS23020"; product "N-acetylneuraminic acid outer membrane channel NanC"; protein_id "WP_001295734.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4638616 4638618 . - 0 gene_id "ECDH10B_RS23020"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nanC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313297.2"; locus_tag "ECDH10B_RS23020"; product "N-acetylneuraminic acid outer membrane channel NanC"; protein_id "WP_001295734.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4640602 4641810 . - . gene_id "ECDH10B_RS23035"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS23035"; -NC_010473.1 Protein Homology CDS 4640605 4641810 . - 0 gene_id "ECDH10B_RS23035"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001339197.1"; locus_tag "ECDH10B_RS23035"; product "IS4-like element ISVsa5 family transposase"; protein_id "WP_006250222.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4641808 4641810 . - 0 gene_id "ECDH10B_RS23035"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001339197.1"; locus_tag "ECDH10B_RS23035"; product "IS4-like element ISVsa5 family transposase"; protein_id "WP_006250222.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4640602 4640604 . - 0 gene_id "ECDH10B_RS23035"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001339197.1"; locus_tag "ECDH10B_RS23035"; product "IS4-like element ISVsa5 family transposase"; protein_id "WP_006250222.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4641917 4643926 . - . gene_id "ECDH10B_RS23040"; transcript_id ""; gbkey "Gene"; gene "opgB"; gene_biotype "pseudogene"; locus_tag "ECDH10B_RS23040"; old_locus_tag "ECDH10B_4515"; partial "true"; pseudo "true"; -NC_010473.1 Protein Homology CDS 4641920 4643926 . - 0 gene_id "ECDH10B_RS23040"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "opgB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418779.2"; locus_tag "ECDH10B_RS23040"; note "incomplete; partial in the middle of a contig; missing C-terminus"; partial "true"; product "phosphatidylglycerol--membrane-oligosaccharide glycerophosphotransferase"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4643924 4643926 . - 0 gene_id "ECDH10B_RS23040"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "opgB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418779.2"; locus_tag "ECDH10B_RS23040"; note "incomplete; partial in the middle of a contig; missing C-terminus"; partial "true"; product "phosphatidylglycerol--membrane-oligosaccharide glycerophosphotransferase"; pseudo "true"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4641917 4641919 . - 0 gene_id "ECDH10B_RS23040"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "opgB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418779.2"; locus_tag "ECDH10B_RS23040"; note "incomplete; partial in the middle of a contig; missing C-terminus"; partial "true"; product "phosphatidylglycerol--membrane-oligosaccharide glycerophosphotransferase"; pseudo "true"; transl_table "11"; -NC_010473.1 RefSeq gene 4644180 4644674 . - . gene_id "ECDH10B_RS23045"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS23045"; old_locus_tag "ECDH10B_4516"; -NC_010473.1 Protein Homology CDS 4644183 4644674 . - 0 gene_id "ECDH10B_RS23045"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418780.2"; locus_tag "ECDH10B_RS23045"; product "DUF2501 domain-containing protein"; protein_id "WP_001308243.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4644672 4644674 . - 0 gene_id "ECDH10B_RS23045"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418780.2"; locus_tag "ECDH10B_RS23045"; product "DUF2501 domain-containing protein"; protein_id "WP_001308243.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4644180 4644182 . - 0 gene_id "ECDH10B_RS23045"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418780.2"; locus_tag "ECDH10B_RS23045"; product "DUF2501 domain-containing protein"; protein_id "WP_001308243.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4644723 4645460 . - . gene_id "ECDH10B_RS23050"; transcript_id ""; gbkey "Gene"; gene "dnaC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS23050"; old_locus_tag "ECDH10B_4517"; -NC_010473.1 Protein Homology CDS 4644726 4645460 . - 0 gene_id "ECDH10B_RS23050"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dnaC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313348.1"; locus_tag "ECDH10B_RS23050"; product "DNA replication protein DnaC"; protein_id "WP_000799911.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4645458 4645460 . - 0 gene_id "ECDH10B_RS23050"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dnaC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313348.1"; locus_tag "ECDH10B_RS23050"; product "DNA replication protein DnaC"; protein_id "WP_000799911.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4644723 4644725 . - 0 gene_id "ECDH10B_RS23050"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dnaC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313348.1"; locus_tag "ECDH10B_RS23050"; product "DNA replication protein DnaC"; protein_id "WP_000799911.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4645463 4646002 . - . gene_id "ECDH10B_RS23055"; transcript_id ""; gbkey "Gene"; gene "dnaT"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS23055"; old_locus_tag "ECDH10B_4518"; -NC_010473.1 Protein Homology CDS 4645466 4646002 . - 0 gene_id "ECDH10B_RS23055"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dnaT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418782.1"; locus_tag "ECDH10B_RS23055"; product "primosomal protein DnaT"; protein_id "WP_000098818.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4646000 4646002 . - 0 gene_id "ECDH10B_RS23055"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dnaT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418782.1"; locus_tag "ECDH10B_RS23055"; product "primosomal protein DnaT"; protein_id "WP_000098818.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4645463 4645465 . - 0 gene_id "ECDH10B_RS23055"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "dnaT"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418782.1"; locus_tag "ECDH10B_RS23055"; product "primosomal protein DnaT"; protein_id "WP_000098818.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4646109 4646582 . - . gene_id "ECDH10B_RS23060"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS23060"; old_locus_tag "ECDH10B_4519"; -NC_010473.1 Protein Homology CDS 4646112 4646582 . - 0 gene_id "ECDH10B_RS23060"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418783.2"; locus_tag "ECDH10B_RS23060"; product "threonine/serine exporter"; protein_id "WP_000538191.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4646580 4646582 . - 0 gene_id "ECDH10B_RS23060"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418783.2"; locus_tag "ECDH10B_RS23060"; product "threonine/serine exporter"; protein_id "WP_000538191.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4646109 4646111 . - 0 gene_id "ECDH10B_RS23060"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418783.2"; locus_tag "ECDH10B_RS23060"; product "threonine/serine exporter"; protein_id "WP_000538191.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4646573 4647343 . - . gene_id "ECDH10B_RS23065"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS23065"; old_locus_tag "ECDH10B_4520"; -NC_010473.1 Protein Homology CDS 4646576 4647343 . - 0 gene_id "ECDH10B_RS23065"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418784.4"; locus_tag "ECDH10B_RS23065"; product "threonine/serine exporter ThrE family protein"; protein_id "WP_001338213.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4647341 4647343 . - 0 gene_id "ECDH10B_RS23065"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418784.4"; locus_tag "ECDH10B_RS23065"; product "threonine/serine exporter ThrE family protein"; protein_id "WP_001338213.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4646573 4646575 . - 0 gene_id "ECDH10B_RS23065"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418784.4"; locus_tag "ECDH10B_RS23065"; product "threonine/serine exporter ThrE family protein"; protein_id "WP_001338213.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4647962 4648687 . + . gene_id "ECDH10B_RS23070"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS23070"; old_locus_tag "ECDH10B_4521"; -NC_010473.1 Protein Homology CDS 4647962 4648684 . + 0 gene_id "ECDH10B_RS23070"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313352.1"; locus_tag "ECDH10B_RS23070"; product "response regulator transcription factor"; protein_id "WP_000936635.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4647962 4647964 . + 0 gene_id "ECDH10B_RS23070"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313352.1"; locus_tag "ECDH10B_RS23070"; product "response regulator transcription factor"; protein_id "WP_000936635.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4648685 4648687 . + 0 gene_id "ECDH10B_RS23070"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313352.1"; locus_tag "ECDH10B_RS23070"; product "response regulator transcription factor"; protein_id "WP_000936635.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4648645 4649322 . + . gene_id "ECDH10B_RS23075"; transcript_id ""; gbkey "Gene"; gene "bglJ"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS23075"; old_locus_tag "ECDH10B_4522"; -NC_010473.1 Protein Homology CDS 4648645 4649319 . + 0 gene_id "ECDH10B_RS23075"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "bglJ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418786.4"; locus_tag "ECDH10B_RS23075"; product "DNA-binding transcriptional activator BglJ"; protein_id "WP_001301727.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4648645 4648647 . + 0 gene_id "ECDH10B_RS23075"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "bglJ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418786.4"; locus_tag "ECDH10B_RS23075"; product "DNA-binding transcriptional activator BglJ"; protein_id "WP_001301727.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4649320 4649322 . + 0 gene_id "ECDH10B_RS23075"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "bglJ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418786.4"; locus_tag "ECDH10B_RS23075"; product "DNA-binding transcriptional activator BglJ"; protein_id "WP_001301727.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4649360 4650148 . - . gene_id "ECDH10B_RS23080"; transcript_id ""; gbkey "Gene"; gene "fhuF"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS23080"; old_locus_tag "ECDH10B_4523"; -NC_010473.1 Protein Homology CDS 4649363 4650148 . - 0 gene_id "ECDH10B_RS23080"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fhuF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418787.1"; locus_tag "ECDH10B_RS23080"; product "siderophore-iron reductase FhuF"; protein_id "WP_000331618.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4650146 4650148 . - 0 gene_id "ECDH10B_RS23080"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fhuF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418787.1"; locus_tag "ECDH10B_RS23080"; product "siderophore-iron reductase FhuF"; protein_id "WP_000331618.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4649360 4649362 . - 0 gene_id "ECDH10B_RS23080"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "fhuF"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418787.1"; locus_tag "ECDH10B_RS23080"; product "siderophore-iron reductase FhuF"; protein_id "WP_000331618.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4650289 4650525 . + . gene_id "ECDH10B_RS23085"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS23085"; old_locus_tag "ECDH10B_4524"; -NC_010473.1 Protein Homology CDS 4650289 4650522 . + 0 gene_id "ECDH10B_RS23085"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_588478.1"; locus_tag "ECDH10B_RS23085"; product "DUF1435 domain-containing protein"; protein_id "WP_001393508.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4650289 4650291 . + 0 gene_id "ECDH10B_RS23085"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_588478.1"; locus_tag "ECDH10B_RS23085"; product "DUF1435 domain-containing protein"; protein_id "WP_001393508.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4650523 4650525 . + 0 gene_id "ECDH10B_RS23085"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_588478.1"; locus_tag "ECDH10B_RS23085"; product "DUF1435 domain-containing protein"; protein_id "WP_001393508.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4650564 4650650 . - . gene_id "ECDH10B_RS23090"; transcript_id ""; gbkey "Gene"; gene_biotype "tRNA"; locus_tag "ECDH10B_RS23090"; old_locus_tag "ECDH10B_4525"; -NC_010473.1 tRNAscan-SE exon 4650564 4650650 . - . gene_id "ECDH10B_RS23090"; transcript_id "ECDH10B_RS23090"; anticodon "(pos:complement(4650614..4650616))"; gbkey "tRNA"; inference "COORDINATES: profile:tRNAscan-SE:2.0.6"; locus_tag "ECDH10B_RS23090"; product "tRNA-Leu"; exon_number "1"; -NC_010473.1 RefSeq gene 4650685 4650771 . - . gene_id "ECDH10B_RS23095"; transcript_id ""; gbkey "Gene"; gene_biotype "tRNA"; locus_tag "ECDH10B_RS23095"; old_locus_tag "ECDH10B_4526"; -NC_010473.1 tRNAscan-SE exon 4650685 4650771 . - . gene_id "ECDH10B_RS23095"; transcript_id "ECDH10B_RS23095"; anticodon "(pos:complement(4650735..4650737))"; gbkey "tRNA"; inference "COORDINATES: profile:tRNAscan-SE:2.0.6"; locus_tag "ECDH10B_RS23095"; product "tRNA-Leu"; exon_number "1"; -NC_010473.1 RefSeq gene 4650800 4650886 . - . gene_id "ECDH10B_RS23100"; transcript_id ""; gbkey "Gene"; gene_biotype "tRNA"; locus_tag "ECDH10B_RS23100"; old_locus_tag "ECDH10B_4527"; -NC_010473.1 tRNAscan-SE exon 4650800 4650886 . - . gene_id "ECDH10B_RS23100"; transcript_id "ECDH10B_RS23100"; anticodon "(pos:complement(4650850..4650852))"; gbkey "tRNA"; inference "COORDINATES: profile:tRNAscan-SE:2.0.6"; locus_tag "ECDH10B_RS23100"; product "tRNA-Leu"; exon_number "1"; -NC_010473.1 RefSeq gene 4651154 4652185 . - . gene_id "ECDH10B_RS23105"; transcript_id ""; gbkey "Gene"; gene "rsmC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS23105"; old_locus_tag "ECDH10B_4528"; -NC_010473.1 Protein Homology CDS 4651157 4652185 . - 0 gene_id "ECDH10B_RS23105"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rsmC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418788.1"; locus_tag "ECDH10B_RS23105"; product "16S rRNA (guanine(1207)-N(2))-methyltransferase RsmC"; protein_id "WP_001272330.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4652183 4652185 . - 0 gene_id "ECDH10B_RS23105"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rsmC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418788.1"; locus_tag "ECDH10B_RS23105"; product "16S rRNA (guanine(1207)-N(2))-methyltransferase RsmC"; protein_id "WP_001272330.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4651154 4651156 . - 0 gene_id "ECDH10B_RS23105"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rsmC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418788.1"; locus_tag "ECDH10B_RS23105"; product "16S rRNA (guanine(1207)-N(2))-methyltransferase RsmC"; protein_id "WP_001272330.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4652288 4652701 . + . gene_id "ECDH10B_RS23110"; transcript_id ""; gbkey "Gene"; gene "holD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS23110"; old_locus_tag "ECDH10B_4529"; -NC_010473.1 Protein Homology CDS 4652288 4652698 . + 0 gene_id "ECDH10B_RS23110"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "holD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418789.1"; locus_tag "ECDH10B_RS23110"; product "DNA polymerase III subunit psi"; protein_id "WP_000204012.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4652288 4652290 . + 0 gene_id "ECDH10B_RS23110"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "holD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418789.1"; locus_tag "ECDH10B_RS23110"; product "DNA polymerase III subunit psi"; protein_id "WP_000204012.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4652699 4652701 . + 0 gene_id "ECDH10B_RS23110"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "holD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418789.1"; locus_tag "ECDH10B_RS23110"; product "DNA polymerase III subunit psi"; protein_id "WP_000204012.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4652670 4653116 . + . gene_id "ECDH10B_RS23115"; transcript_id ""; gbkey "Gene"; gene "rimI"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS23115"; old_locus_tag "ECDH10B_4530"; -NC_010473.1 Protein Homology CDS 4652670 4653113 . + 0 gene_id "ECDH10B_RS23115"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rimI"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313358.1"; locus_tag "ECDH10B_RS23115"; product "ribosomal protein S18-alanine N-acetyltransferase"; protein_id "WP_001092461.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4652670 4652672 . + 0 gene_id "ECDH10B_RS23115"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rimI"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313358.1"; locus_tag "ECDH10B_RS23115"; product "ribosomal protein S18-alanine N-acetyltransferase"; protein_id "WP_001092461.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4653114 4653116 . + 0 gene_id "ECDH10B_RS23115"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "rimI"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313358.1"; locus_tag "ECDH10B_RS23115"; product "ribosomal protein S18-alanine N-acetyltransferase"; protein_id "WP_001092461.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4653131 4653808 . + . gene_id "ECDH10B_RS23120"; transcript_id ""; gbkey "Gene"; gene "yjjG"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS23120"; old_locus_tag "ECDH10B_4531"; -NC_010473.1 Protein Homology CDS 4653131 4653805 . + 0 gene_id "ECDH10B_RS23120"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yjjG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313359.1"; locus_tag "ECDH10B_RS23120"; product "pyrimidine 5'-nucleotidase"; protein_id "WP_000870710.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4653131 4653133 . + 0 gene_id "ECDH10B_RS23120"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yjjG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313359.1"; locus_tag "ECDH10B_RS23120"; product "pyrimidine 5'-nucleotidase"; protein_id "WP_000870710.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4653806 4653808 . + 0 gene_id "ECDH10B_RS23120"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yjjG"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313359.1"; locus_tag "ECDH10B_RS23120"; product "pyrimidine 5'-nucleotidase"; protein_id "WP_000870710.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4653899 4655488 . + . gene_id "ECDH10B_RS23125"; transcript_id ""; gbkey "Gene"; gene "prfC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS23125"; old_locus_tag "ECDH10B_4532"; -NC_010473.1 Protein Homology CDS 4653899 4655485 . + 0 gene_id "ECDH10B_RS23125"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "prfC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313360.1"; locus_tag "ECDH10B_RS23125"; product "peptide chain release factor 3"; protein_id "WP_000175940.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4653899 4653901 . + 0 gene_id "ECDH10B_RS23125"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "prfC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313360.1"; locus_tag "ECDH10B_RS23125"; product "peptide chain release factor 3"; protein_id "WP_000175940.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4655486 4655488 . + 0 gene_id "ECDH10B_RS23125"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "prfC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313360.1"; locus_tag "ECDH10B_RS23125"; product "peptide chain release factor 3"; protein_id "WP_000175940.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4655881 4656486 . + . gene_id "ECDH10B_RS23130"; transcript_id ""; gbkey "Gene"; gene "osmY"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS23130"; old_locus_tag "ECDH10B_4533"; -NC_010473.1 Protein Homology CDS 4655881 4656483 . + 0 gene_id "ECDH10B_RS23130"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "osmY"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418793.1"; locus_tag "ECDH10B_RS23130"; product "molecular chaperone OsmY"; protein_id "WP_001295748.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4655881 4655883 . + 0 gene_id "ECDH10B_RS23130"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "osmY"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418793.1"; locus_tag "ECDH10B_RS23130"; product "molecular chaperone OsmY"; protein_id "WP_001295748.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4656484 4656486 . + 0 gene_id "ECDH10B_RS23130"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "osmY"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418793.1"; locus_tag "ECDH10B_RS23130"; product "molecular chaperone OsmY"; protein_id "WP_001295748.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4656613 4656774 . + . gene_id "ECDH10B_RS23135"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS23135"; old_locus_tag "ECDH10B_4534"; -NC_010473.1 Protein Homology CDS 4656613 4656771 . + 0 gene_id "ECDH10B_RS23135"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_002887716.1"; locus_tag "ECDH10B_RS23135"; product "DUF1328 domain-containing protein"; protein_id "WP_000490275.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4656613 4656615 . + 0 gene_id "ECDH10B_RS23135"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_002887716.1"; locus_tag "ECDH10B_RS23135"; product "DUF1328 domain-containing protein"; protein_id "WP_000490275.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4656772 4656774 . + 0 gene_id "ECDH10B_RS23135"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_002887716.1"; locus_tag "ECDH10B_RS23135"; product "DUF1328 domain-containing protein"; protein_id "WP_000490275.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4656896 4657969 . + . gene_id "ECDH10B_RS23140"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS23140"; old_locus_tag "ECDH10B_4535"; -NC_010473.1 Protein Homology CDS 4656896 4657966 . + 0 gene_id "ECDH10B_RS23140"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418794.1"; locus_tag "ECDH10B_RS23140"; product "patatin family protein"; protein_id "WP_001299799.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4656896 4656898 . + 0 gene_id "ECDH10B_RS23140"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418794.1"; locus_tag "ECDH10B_RS23140"; product "patatin family protein"; protein_id "WP_001299799.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4657967 4657969 . + 0 gene_id "ECDH10B_RS23140"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418794.1"; locus_tag "ECDH10B_RS23140"; product "patatin family protein"; protein_id "WP_001299799.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4657966 4658745 . + . gene_id "ECDH10B_RS23145"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS23145"; old_locus_tag "ECDH10B_4536"; -NC_010473.1 Protein Homology CDS 4657966 4658742 . + 0 gene_id "ECDH10B_RS23145"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026291.2"; locus_tag "ECDH10B_RS23145"; product "metal-dependent hydrolase"; protein_id "WP_000563040.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4657966 4657968 . + 0 gene_id "ECDH10B_RS23145"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026291.2"; locus_tag "ECDH10B_RS23145"; product "metal-dependent hydrolase"; protein_id "WP_000563040.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4658743 4658745 . + 0 gene_id "ECDH10B_RS23145"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:YP_026291.2"; locus_tag "ECDH10B_RS23145"; product "metal-dependent hydrolase"; protein_id "WP_000563040.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4659165 4660028 . - . gene_id "ECDH10B_RS23150"; transcript_id ""; gbkey "Gene"; gene "yjjW"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS23150"; old_locus_tag "ECDH10B_4537"; -NC_010473.1 Protein Homology CDS 4659168 4660028 . - 0 gene_id "ECDH10B_RS23150"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yjjW"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418796.1"; locus_tag "ECDH10B_RS23150"; product "YjjW family glycine radical enzyme activase"; protein_id "WP_001088415.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4660026 4660028 . - 0 gene_id "ECDH10B_RS23150"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yjjW"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418796.1"; locus_tag "ECDH10B_RS23150"; product "YjjW family glycine radical enzyme activase"; protein_id "WP_001088415.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4659165 4659167 . - 0 gene_id "ECDH10B_RS23150"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yjjW"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418796.1"; locus_tag "ECDH10B_RS23150"; product "YjjW family glycine radical enzyme activase"; protein_id "WP_001088415.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4660000 4661550 . - . gene_id "ECDH10B_RS23155"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS23155"; old_locus_tag "ECDH10B_4538"; -NC_010473.1 Protein Homology CDS 4660003 4661550 . - 0 gene_id "ECDH10B_RS23155"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418797.1"; locus_tag "ECDH10B_RS23155"; product "YjjI family glycine radical enzyme"; protein_id "WP_001143253.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4661548 4661550 . - 0 gene_id "ECDH10B_RS23155"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418797.1"; locus_tag "ECDH10B_RS23155"; product "YjjI family glycine radical enzyme"; protein_id "WP_001143253.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4660000 4660002 . - 0 gene_id "ECDH10B_RS23155"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418797.1"; locus_tag "ECDH10B_RS23155"; product "YjjI family glycine radical enzyme"; protein_id "WP_001143253.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4661808 4662587 . + . gene_id "ECDH10B_RS23165"; transcript_id ""; gbkey "Gene"; gene "deoC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS23165"; old_locus_tag "ECDH10B_4539"; -NC_010473.1 Protein Homology CDS 4661808 4662584 . + 0 gene_id "ECDH10B_RS23165"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "deoC"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005097947.1"; locus_tag "ECDH10B_RS23165"; product "deoxyribose-phosphate aldolase"; protein_id "WP_001298497.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4661808 4661810 . + 0 gene_id "ECDH10B_RS23165"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "deoC"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005097947.1"; locus_tag "ECDH10B_RS23165"; product "deoxyribose-phosphate aldolase"; protein_id "WP_001298497.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4662585 4662587 . + 0 gene_id "ECDH10B_RS23165"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "deoC"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_005097947.1"; locus_tag "ECDH10B_RS23165"; product "deoxyribose-phosphate aldolase"; protein_id "WP_001298497.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4662714 4664036 . + . gene_id "ECDH10B_RS23170"; transcript_id ""; gbkey "Gene"; gene "deoA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS23170"; old_locus_tag "ECDH10B_4540"; -NC_010473.1 Protein Homology CDS 4662714 4664033 . + 0 gene_id "ECDH10B_RS23170"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "deoA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418799.1"; locus_tag "ECDH10B_RS23170"; product "thymidine phosphorylase"; protein_id "WP_000477807.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4662714 4662716 . + 0 gene_id "ECDH10B_RS23170"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "deoA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418799.1"; locus_tag "ECDH10B_RS23170"; product "thymidine phosphorylase"; protein_id "WP_000477807.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4664034 4664036 . + 0 gene_id "ECDH10B_RS23170"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "deoA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418799.1"; locus_tag "ECDH10B_RS23170"; product "thymidine phosphorylase"; protein_id "WP_000477807.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4664088 4665311 . + . gene_id "ECDH10B_RS23175"; transcript_id ""; gbkey "Gene"; gene "deoB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS23175"; old_locus_tag "ECDH10B_4541"; -NC_010473.1 Protein Homology CDS 4664088 4665308 . + 0 gene_id "ECDH10B_RS23175"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "deoB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313369.1"; locus_tag "ECDH10B_RS23175"; product "phosphopentomutase"; protein_id "WP_000816471.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4664088 4664090 . + 0 gene_id "ECDH10B_RS23175"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "deoB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313369.1"; locus_tag "ECDH10B_RS23175"; product "phosphopentomutase"; protein_id "WP_000816471.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4665309 4665311 . + 0 gene_id "ECDH10B_RS23175"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "deoB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313369.1"; locus_tag "ECDH10B_RS23175"; product "phosphopentomutase"; protein_id "WP_000816471.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4665368 4666087 . + . gene_id "ECDH10B_RS23180"; transcript_id ""; gbkey "Gene"; gene "deoD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS23180"; old_locus_tag "ECDH10B_4542"; -NC_010473.1 Protein Homology CDS 4665368 4666084 . + 0 gene_id "ECDH10B_RS23180"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "deoD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313370.1"; locus_tag "ECDH10B_RS23180"; product "purine-nucleoside phosphorylase"; protein_id "WP_000224877.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4665368 4665370 . + 0 gene_id "ECDH10B_RS23180"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "deoD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313370.1"; locus_tag "ECDH10B_RS23180"; product "purine-nucleoside phosphorylase"; protein_id "WP_000224877.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4666085 4666087 . + 0 gene_id "ECDH10B_RS23180"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "deoD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313370.1"; locus_tag "ECDH10B_RS23180"; product "purine-nucleoside phosphorylase"; protein_id "WP_000224877.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4666254 4667585 . + . gene_id "ECDH10B_RS23185"; transcript_id ""; gbkey "Gene"; gene "yjjJ"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS23185"; old_locus_tag "ECDH10B_4543"; -NC_010473.1 Protein Homology CDS 4666254 4667582 . + 0 gene_id "ECDH10B_RS23185"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yjjJ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418802.1"; locus_tag "ECDH10B_RS23185"; product "type II toxin-antitoxin system HipA family toxin YjjJ"; protein_id "WP_001293115.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4666254 4666256 . + 0 gene_id "ECDH10B_RS23185"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yjjJ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418802.1"; locus_tag "ECDH10B_RS23185"; product "type II toxin-antitoxin system HipA family toxin YjjJ"; protein_id "WP_001293115.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4667583 4667585 . + 0 gene_id "ECDH10B_RS23185"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yjjJ"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418802.1"; locus_tag "ECDH10B_RS23185"; product "type II toxin-antitoxin system HipA family toxin YjjJ"; protein_id "WP_001293115.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4667586 4668602 . - . gene_id "ECDH10B_RS26175"; transcript_id ""; gbkey "Gene"; gene "lplA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS26175"; old_locus_tag "ECDH10B_4544"; -NC_010473.1 Protein Homology CDS 4667589 4668602 . - 0 gene_id "ECDH10B_RS26175"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lplA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418803.1"; locus_tag "ECDH10B_RS26175"; product "lipoate--protein ligase LplA"; protein_id "WP_000105884.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4668600 4668602 . - 0 gene_id "ECDH10B_RS26175"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lplA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418803.1"; locus_tag "ECDH10B_RS26175"; product "lipoate--protein ligase LplA"; protein_id "WP_000105884.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4667586 4667588 . - 0 gene_id "ECDH10B_RS26175"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "lplA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418803.1"; locus_tag "ECDH10B_RS26175"; product "lipoate--protein ligase LplA"; protein_id "WP_000105884.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4668630 4669274 . - . gene_id "ECDH10B_RS26180"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS26180"; old_locus_tag "ECDH10B_4545"; -NC_010473.1 Protein Homology CDS 4668633 4669274 . - 0 gene_id "ECDH10B_RS26180"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418804.1"; locus_tag "ECDH10B_RS26180"; product "YtjB family periplasmic protein"; protein_id "WP_000124615.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4669272 4669274 . - 0 gene_id "ECDH10B_RS26180"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418804.1"; locus_tag "ECDH10B_RS26180"; product "YtjB family periplasmic protein"; protein_id "WP_000124615.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4668630 4668632 . - 0 gene_id "ECDH10B_RS26180"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418804.1"; locus_tag "ECDH10B_RS26180"; product "YtjB family periplasmic protein"; protein_id "WP_000124615.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4669380 4670348 . + . gene_id "ECDH10B_RS23200"; transcript_id ""; gbkey "Gene"; gene "serB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS23200"; old_locus_tag "ECDH10B_4546"; -NC_010473.1 Protein Homology CDS 4669380 4670345 . + 0 gene_id "ECDH10B_RS23200"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "serB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313373.1"; locus_tag "ECDH10B_RS23200"; product "phosphoserine phosphatase"; protein_id "WP_001132955.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4669380 4669382 . + 0 gene_id "ECDH10B_RS23200"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "serB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313373.1"; locus_tag "ECDH10B_RS23200"; product "phosphoserine phosphatase"; protein_id "WP_001132955.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4670346 4670348 . + 0 gene_id "ECDH10B_RS23200"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "serB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313373.1"; locus_tag "ECDH10B_RS23200"; product "phosphoserine phosphatase"; protein_id "WP_001132955.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4670397 4671779 . + . gene_id "ECDH10B_RS23205"; transcript_id ""; gbkey "Gene"; gene "radA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS23205"; old_locus_tag "ECDH10B_4547"; -NC_010473.1 Protein Homology CDS 4670397 4671776 . + 0 gene_id "ECDH10B_RS23205"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "radA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001399683.1"; locus_tag "ECDH10B_RS23205"; product "DNA repair protein RadA"; protein_id "WP_001029687.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4670397 4670399 . + 0 gene_id "ECDH10B_RS23205"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "radA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001399683.1"; locus_tag "ECDH10B_RS23205"; product "DNA repair protein RadA"; protein_id "WP_001029687.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4671777 4671779 . + 0 gene_id "ECDH10B_RS23205"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "radA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_001399683.1"; locus_tag "ECDH10B_RS23205"; product "DNA repair protein RadA"; protein_id "WP_001029687.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4671800 4673032 . + . gene_id "ECDH10B_RS23210"; transcript_id ""; gbkey "Gene"; gene "nadR"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS23210"; old_locus_tag "ECDH10B_4548"; -NC_010473.1 Protein Homology CDS 4671800 4673029 . + 0 gene_id "ECDH10B_RS23210"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nadR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418807.4"; locus_tag "ECDH10B_RS23210"; product "multifunctional transcriptional regulator/nicotinamide-nucleotide adenylyltransferase/ribosylnicotinamide kinase NadR"; protein_id "WP_000093814.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4671800 4671802 . + 0 gene_id "ECDH10B_RS23210"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nadR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418807.4"; locus_tag "ECDH10B_RS23210"; product "multifunctional transcriptional regulator/nicotinamide-nucleotide adenylyltransferase/ribosylnicotinamide kinase NadR"; protein_id "WP_000093814.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4673030 4673032 . + 0 gene_id "ECDH10B_RS23210"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "nadR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418807.4"; locus_tag "ECDH10B_RS23210"; product "multifunctional transcriptional regulator/nicotinamide-nucleotide adenylyltransferase/ribosylnicotinamide kinase NadR"; protein_id "WP_000093814.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4673066 4673233 . + . gene_id "ECDH10B_RS26335"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS26335"; -NC_010473.1 Protein Homology CDS 4673066 4673230 . + 0 gene_id "ECDH10B_RS26335"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000007434.1"; locus_tag "ECDH10B_RS26335"; product "hypothetical protein"; protein_id "WP_000007444.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4673066 4673068 . + 0 gene_id "ECDH10B_RS26335"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000007434.1"; locus_tag "ECDH10B_RS26335"; product "hypothetical protein"; protein_id "WP_000007444.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4673231 4673233 . + 0 gene_id "ECDH10B_RS26335"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_000007434.1"; locus_tag "ECDH10B_RS26335"; product "hypothetical protein"; protein_id "WP_000007444.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4673340 4675007 . - . gene_id "ECDH10B_RS23220"; transcript_id ""; gbkey "Gene"; gene "ettA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS23220"; old_locus_tag "ECDH10B_4549"; -NC_010473.1 Protein Homology CDS 4673343 4675007 . - 0 gene_id "ECDH10B_RS23220"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ettA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_017145039.1"; locus_tag "ECDH10B_RS23220"; product "energy-dependent translational throttle protein EttA"; protein_id "WP_000046749.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4675005 4675007 . - 0 gene_id "ECDH10B_RS23220"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ettA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_017145039.1"; locus_tag "ECDH10B_RS23220"; product "energy-dependent translational throttle protein EttA"; protein_id "WP_000046749.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4673340 4673342 . - 0 gene_id "ECDH10B_RS23220"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "ettA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_017145039.1"; locus_tag "ECDH10B_RS23220"; product "energy-dependent translational throttle protein EttA"; protein_id "WP_000046749.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4675218 4677155 . + . gene_id "ECDH10B_RS23225"; transcript_id ""; gbkey "Gene"; gene "sltY"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS23225"; old_locus_tag "ECDH10B_4550"; -NC_010473.1 Protein Homology CDS 4675218 4677152 . + 0 gene_id "ECDH10B_RS23225"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sltY"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418809.4"; locus_tag "ECDH10B_RS23225"; product "murein transglycosylase"; protein_id "WP_000409451.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4675218 4675220 . + 0 gene_id "ECDH10B_RS23225"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sltY"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418809.4"; locus_tag "ECDH10B_RS23225"; product "murein transglycosylase"; protein_id "WP_000409451.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4677153 4677155 . + 0 gene_id "ECDH10B_RS23225"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "sltY"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418809.4"; locus_tag "ECDH10B_RS23225"; product "murein transglycosylase"; protein_id "WP_000409451.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4677245 4677571 . + . gene_id "ECDH10B_RS23230"; transcript_id ""; gbkey "Gene"; gene "trpR"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS23230"; old_locus_tag "ECDH10B_4551"; -NC_010473.1 Protein Homology CDS 4677245 4677568 . + 0 gene_id "ECDH10B_RS23230"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "trpR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418810.1"; locus_tag "ECDH10B_RS23230"; product "trp operon repressor"; protein_id "WP_000068679.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4677245 4677247 . + 0 gene_id "ECDH10B_RS23230"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "trpR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418810.1"; locus_tag "ECDH10B_RS23230"; product "trp operon repressor"; protein_id "WP_000068679.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4677569 4677571 . + 0 gene_id "ECDH10B_RS23230"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "trpR"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418810.1"; locus_tag "ECDH10B_RS23230"; product "trp operon repressor"; protein_id "WP_000068679.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4677718 4678230 . - . gene_id "ECDH10B_RS23235"; transcript_id ""; gbkey "Gene"; gene "yjjX"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS23235"; old_locus_tag "ECDH10B_4552"; -NC_010473.1 Protein Homology CDS 4677721 4678230 . - 0 gene_id "ECDH10B_RS23235"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yjjX"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418811.2"; locus_tag "ECDH10B_RS23235"; product "inosine/xanthosine triphosphatase"; protein_id "WP_001338221.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4678228 4678230 . - 0 gene_id "ECDH10B_RS23235"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yjjX"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418811.2"; locus_tag "ECDH10B_RS23235"; product "inosine/xanthosine triphosphatase"; protein_id "WP_001338221.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4677718 4677720 . - 0 gene_id "ECDH10B_RS23235"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "yjjX"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418811.2"; locus_tag "ECDH10B_RS23235"; product "inosine/xanthosine triphosphatase"; protein_id "WP_001338221.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4678282 4678929 . + . gene_id "ECDH10B_RS23240"; transcript_id ""; gbkey "Gene"; gene "gpmB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS23240"; old_locus_tag "ECDH10B_4553"; -NC_010473.1 Protein Homology CDS 4678282 4678926 . + 0 gene_id "ECDH10B_RS23240"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gpmB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313380.1"; locus_tag "ECDH10B_RS23240"; product "2,3-diphosphoglycerate-dependent phosphoglycerate mutase GpmB"; protein_id "WP_000942344.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4678282 4678284 . + 0 gene_id "ECDH10B_RS23240"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gpmB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313380.1"; locus_tag "ECDH10B_RS23240"; product "2,3-diphosphoglycerate-dependent phosphoglycerate mutase GpmB"; protein_id "WP_000942344.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4678927 4678929 . + 0 gene_id "ECDH10B_RS23240"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "gpmB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313380.1"; locus_tag "ECDH10B_RS23240"; product "2,3-diphosphoglycerate-dependent phosphoglycerate mutase GpmB"; protein_id "WP_000942344.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4678926 4679795 . - . gene_id "ECDH10B_RS23245"; transcript_id ""; gbkey "Gene"; gene "robA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS23245"; old_locus_tag "ECDH10B_4554"; -NC_010473.1 Protein Homology CDS 4678929 4679795 . - 0 gene_id "ECDH10B_RS23245"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "robA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313381.1"; locus_tag "ECDH10B_RS23245"; product "MDR efflux pump AcrAB transcriptional activator RobA"; protein_id "WP_000371666.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4679793 4679795 . - 0 gene_id "ECDH10B_RS23245"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "robA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313381.1"; locus_tag "ECDH10B_RS23245"; product "MDR efflux pump AcrAB transcriptional activator RobA"; protein_id "WP_000371666.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4678926 4678928 . - 0 gene_id "ECDH10B_RS23245"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "robA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313381.1"; locus_tag "ECDH10B_RS23245"; product "MDR efflux pump AcrAB transcriptional activator RobA"; protein_id "WP_000371666.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4680006 4680479 . + . gene_id "ECDH10B_RS23250"; transcript_id ""; gbkey "Gene"; gene "creA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS23250"; old_locus_tag "ECDH10B_4555"; -NC_010473.1 Protein Homology CDS 4680006 4680476 . + 0 gene_id "ECDH10B_RS23250"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "creA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313382.1"; locus_tag "ECDH10B_RS23250"; product "protein CreA"; protein_id "WP_000875487.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4680006 4680008 . + 0 gene_id "ECDH10B_RS23250"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "creA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313382.1"; locus_tag "ECDH10B_RS23250"; product "protein CreA"; protein_id "WP_000875487.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4680477 4680479 . + 0 gene_id "ECDH10B_RS23250"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "creA"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_313382.1"; locus_tag "ECDH10B_RS23250"; product "protein CreA"; protein_id "WP_000875487.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4680492 4681181 . + . gene_id "ECDH10B_RS23255"; transcript_id ""; gbkey "Gene"; gene "creB"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS23255"; old_locus_tag "ECDH10B_4556"; -NC_010473.1 Protein Homology CDS 4680492 4681178 . + 0 gene_id "ECDH10B_RS23255"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "creB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418815.1"; locus_tag "ECDH10B_RS23255"; product "two-component system response regulator CreB"; protein_id "WP_001188654.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4680492 4680494 . + 0 gene_id "ECDH10B_RS23255"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "creB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418815.1"; locus_tag "ECDH10B_RS23255"; product "two-component system response regulator CreB"; protein_id "WP_001188654.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4681179 4681181 . + 0 gene_id "ECDH10B_RS23255"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "creB"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418815.1"; locus_tag "ECDH10B_RS23255"; product "two-component system response regulator CreB"; protein_id "WP_001188654.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4681181 4682605 . + . gene_id "ECDH10B_RS23260"; transcript_id ""; gbkey "Gene"; gene "creC"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS23260"; old_locus_tag "ECDH10B_4557"; -NC_010473.1 Protein Homology CDS 4681181 4682602 . + 0 gene_id "ECDH10B_RS23260"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "creC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418816.1"; locus_tag "ECDH10B_RS23260"; product "two-component system sensor histidine kinase CreC"; protein_id "WP_001219577.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4681181 4681183 . + 0 gene_id "ECDH10B_RS23260"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "creC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418816.1"; locus_tag "ECDH10B_RS23260"; product "two-component system sensor histidine kinase CreC"; protein_id "WP_001219577.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4682603 4682605 . + 0 gene_id "ECDH10B_RS23260"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "creC"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418816.1"; locus_tag "ECDH10B_RS23260"; product "two-component system sensor histidine kinase CreC"; protein_id "WP_001219577.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4682663 4684015 . + . gene_id "ECDH10B_RS23265"; transcript_id ""; gbkey "Gene"; gene "creD"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS23265"; old_locus_tag "ECDH10B_4558"; -NC_010473.1 Protein Homology CDS 4682663 4684012 . + 0 gene_id "ECDH10B_RS23265"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "creD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418817.1"; locus_tag "ECDH10B_RS23265"; product "cell envelope integrity protein CreD"; protein_id "WP_000920294.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4682663 4682665 . + 0 gene_id "ECDH10B_RS23265"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "creD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418817.1"; locus_tag "ECDH10B_RS23265"; product "cell envelope integrity protein CreD"; protein_id "WP_000920294.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4684013 4684015 . + 0 gene_id "ECDH10B_RS23265"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "creD"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418817.1"; locus_tag "ECDH10B_RS23265"; product "cell envelope integrity protein CreD"; protein_id "WP_000920294.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4684075 4684791 . - . gene_id "ECDH10B_RS23270"; transcript_id ""; gbkey "Gene"; gene "arcA"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS23270"; old_locus_tag "ECDH10B_4559"; -NC_010473.1 Protein Homology CDS 4684078 4684791 . - 0 gene_id "ECDH10B_RS23270"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "arcA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_003621071.1"; locus_tag "ECDH10B_RS23270"; product "two-component system response regulator ArcA"; protein_id "WP_001194358.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4684789 4684791 . - 0 gene_id "ECDH10B_RS23270"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "arcA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_003621071.1"; locus_tag "ECDH10B_RS23270"; product "two-component system response regulator ArcA"; protein_id "WP_001194358.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4684075 4684077 . - 0 gene_id "ECDH10B_RS23270"; transcript_id "unknown_transcript_1"; gbkey "CDS"; gene "arcA"; inference "COORDINATES: similar to AA sequence:RefSeq:WP_003621071.1"; locus_tag "ECDH10B_RS23270"; product "two-component system response regulator ArcA"; protein_id "WP_001194358.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4684887 4685027 . + . gene_id "ECDH10B_RS23275"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS23275"; old_locus_tag "ECDH10B_4560"; -NC_010473.1 Protein Homology CDS 4684887 4685024 . + 0 gene_id "ECDH10B_RS23275"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418819.1"; locus_tag "ECDH10B_RS23275"; product "hypothetical protein"; protein_id "WP_001303782.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4684887 4684889 . + 0 gene_id "ECDH10B_RS23275"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418819.1"; locus_tag "ECDH10B_RS23275"; product "hypothetical protein"; protein_id "WP_001303782.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4685025 4685027 . + 0 gene_id "ECDH10B_RS23275"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418819.1"; locus_tag "ECDH10B_RS23275"; product "hypothetical protein"; protein_id "WP_001303782.1"; transl_table "11"; -NC_010473.1 RefSeq gene 4685427 4686113 . + . gene_id "ECDH10B_RS23280"; transcript_id ""; gbkey "Gene"; gene_biotype "protein_coding"; locus_tag "ECDH10B_RS23280"; old_locus_tag "ECDH10B_4561"; -NC_010473.1 Protein Homology CDS 4685427 4686110 . + 0 gene_id "ECDH10B_RS23280"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418820.1"; locus_tag "ECDH10B_RS23280"; product "tRNA/rRNA methyltransferase"; protein_id "WP_001223132.1"; transl_table "11"; -NC_010473.1 Protein Homology start_codon 4685427 4685429 . + 0 gene_id "ECDH10B_RS23280"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418820.1"; locus_tag "ECDH10B_RS23280"; product "tRNA/rRNA methyltransferase"; protein_id "WP_001223132.1"; transl_table "11"; -NC_010473.1 Protein Homology stop_codon 4686111 4686113 . + 0 gene_id "ECDH10B_RS23280"; transcript_id "unknown_transcript_1"; gbkey "CDS"; inference "COORDINATES: similar to AA sequence:RefSeq:NP_418820.1"; locus_tag "ECDH10B_RS23280"; product "tRNA/rRNA methyltransferase"; protein_id "WP_001223132.1"; transl_table "11"; -### diff --git a/tests/data/genomics/homo_sapiens/illumina/bam/test_paired_end.bam b/tests/data/genomics/homo_sapiens/illumina/bam/test_paired_end.bam new file mode 100644 index 00000000..3f4791f0 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tests/data/genomics/sarscov2/bed/test.bed rename to tests/data/genomics/sarscov2/genome/bed/test.bed diff --git a/tests/data/genomics/sarscov2/bed/test.bed.gz b/tests/data/genomics/sarscov2/genome/bed/test.bed.gz similarity index 100% rename from tests/data/genomics/sarscov2/bed/test.bed.gz rename to tests/data/genomics/sarscov2/genome/bed/test.bed.gz diff --git a/tests/data/genomics/sarscov2/genome/bed/test.bed12 b/tests/data/genomics/sarscov2/genome/bed/test.bed12 new file mode 100644 index 00000000..33a46951 --- /dev/null +++ b/tests/data/genomics/sarscov2/genome/bed/test.bed12 @@ -0,0 +1,4 @@ +MT192765.1 1242 1264 nCoV-2019_5_LEFT 1 + 1242 1264 0 2 10,12, 0,10, +MT192765.1 1573 1595 nCoV-2019_6_LEFT 2 + 1573 1595 0 2 7,15, 0,7, +MT192765.1 1623 1651 nCoV-2019_5_RIGHT 1 - 1623 1651 0 2 14,14, 0,14, +MT192765.1 1942 1964 nCoV-2019_6_RIGHT 2 - 1942 1964 0 2 11,11 0,11, diff --git a/tests/data/genomics/sarscov2/bed/test2.bed b/tests/data/genomics/sarscov2/genome/bed/test2.bed 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tests/data/genomics/sarscov2/illumina/fastq/test_methylated_2.fastq.gz diff --git a/tests/data/genomics/sarscov2/illumina/gatk/test.baserecalibrator.table b/tests/data/genomics/sarscov2/illumina/gatk/test.baserecalibrator.table new file mode 100644 index 00000000..fd94701d --- /dev/null +++ b/tests/data/genomics/sarscov2/illumina/gatk/test.baserecalibrator.table @@ -0,0 +1,1522 @@ +#:GATKReport.v1.1:5 +#:GATKTable:2:17:%s:%s:; +#:GATKTable:Arguments:Recalibration argument collection values used in this run +Argument Value +binary_tag_name null +covariate ReadGroupCovariate,QualityScoreCovariate,ContextCovariate,CycleCovariate +default_platform null +deletions_default_quality 45 +force_platform null +indels_context_size 3 +insertions_default_quality 45 +low_quality_tail 2 +maximum_cycle_value 500 +mismatches_context_size 2 +mismatches_default_quality -1 +no_standard_covs false +quantizing_levels 16 +recalibration_report null +run_without_dbsnp false +solid_nocall_strategy THROW_EXCEPTION +solid_recal_mode SET_Q_ZERO + +#:GATKTable:3:94:%d:%d:%d:; +#:GATKTable:Quantized:Quality quantization map +QualityScore Count QuantizedScore + 0 0 93 + 1 0 93 + 2 0 93 + 3 0 93 + 4 0 93 + 5 0 93 + 6 0 93 + 7 0 93 + 8 0 93 + 9 0 93 + 10 0 93 + 11 0 93 + 12 0 93 + 13 0 93 + 14 1858 14 + 15 0 93 + 16 0 93 + 17 0 93 + 18 0 93 + 19 0 93 + 20 0 93 + 21 283 21 + 22 0 93 + 23 0 93 + 24 0 93 + 25 0 93 + 26 0 93 + 27 1056 27 + 28 0 93 + 29 0 93 + 30 0 93 + 31 0 93 + 32 4530 32 + 33 0 93 + 34 0 93 + 35 0 93 + 36 19579 36 + 37 0 93 + 38 0 93 + 39 0 93 + 40 0 93 + 41 0 93 + 42 0 93 + 43 0 93 + 44 0 93 + 45 0 93 + 46 0 93 + 47 0 93 + 48 0 93 + 49 0 93 + 50 0 93 + 51 0 93 + 52 0 93 + 53 0 93 + 54 0 93 + 55 0 93 + 56 0 93 + 57 0 93 + 58 0 93 + 59 0 93 + 60 0 93 + 61 0 93 + 62 0 93 + 63 0 93 + 64 0 93 + 65 0 93 + 66 0 93 + 67 0 93 + 68 0 93 + 69 0 93 + 70 0 93 + 71 0 93 + 72 0 93 + 73 0 93 + 74 0 93 + 75 0 93 + 76 0 93 + 77 0 93 + 78 0 93 + 79 0 93 + 80 0 93 + 81 0 93 + 82 0 93 + 83 0 93 + 84 0 93 + 85 0 93 + 86 0 93 + 87 0 93 + 88 0 93 + 89 0 89 + 90 0 90 + 91 0 91 + 92 0 92 + 93 0 93 + +#:GATKTable:6:1:%s:%s:%.4f:%.4f:%d:%.2f:; +#:GATKTable:RecalTable0: +ReadGroup EventType EmpiricalQuality EstimatedQReported Observations Errors +barcode1 M 25.0000 25.0126 27306 83.00 + +#:GATKTable:6:5:%s:%d:%s:%.4f:%d:%.2f:; +#:GATKTable:RecalTable1: +ReadGroup QualityScore EventType EmpiricalQuality Observations Errors +barcode1 14 M 14.0000 1858 78.00 +barcode1 21 M 21.0000 283 1.00 +barcode1 27 M 27.0000 1056 0.00 +barcode1 32 M 32.0000 4530 3.00 +barcode1 36 M 36.0000 19579 1.00 + +#:GATKTable:8:1384:%s:%d:%s:%s:%s:%.4f:%d:%.2f:; +#:GATKTable:RecalTable2: +ReadGroup QualityScore CovariateValue CovariateName EventType EmpiricalQuality Observations Errors +barcode1 14 -10 Cycle M 14.0000 4 1.00 +barcode1 14 -100 Cycle M 14.0000 12 0.00 +barcode1 14 -101 Cycle M 14.0000 9 0.00 +barcode1 14 -102 Cycle M 14.0000 7 0.00 +barcode1 14 -103 Cycle M 14.0000 6 0.00 +barcode1 14 -104 Cycle M 14.0000 6 1.00 +barcode1 14 -105 Cycle M 14.0000 7 0.00 +barcode1 14 -106 Cycle M 14.0000 4 0.00 +barcode1 14 -107 Cycle M 14.0000 3 0.00 +barcode1 14 -108 Cycle M 14.0000 10 1.00 +barcode1 14 -109 Cycle M 14.0000 5 0.00 +barcode1 14 -11 Cycle M 14.0000 1 0.00 +barcode1 14 -110 Cycle M 14.0000 12 1.00 +barcode1 14 -111 Cycle M 14.0000 8 0.00 +barcode1 14 -112 Cycle M 14.0000 11 1.00 +barcode1 14 -113 Cycle M 14.0000 9 0.00 +barcode1 14 -114 Cycle M 14.0000 11 0.00 +barcode1 14 -115 Cycle M 14.0000 8 0.00 +barcode1 14 -116 Cycle M 14.0000 9 0.00 +barcode1 14 -117 Cycle M 14.0000 9 0.00 +barcode1 14 -118 Cycle M 14.0000 4 0.00 +barcode1 14 -119 Cycle M 14.0000 9 1.00 +barcode1 14 -12 Cycle M 14.0000 7 0.00 +barcode1 14 -120 Cycle M 14.0000 7 0.00 +barcode1 14 -121 Cycle M 14.0000 9 0.00 +barcode1 14 -122 Cycle M 14.0000 12 0.00 +barcode1 14 -123 Cycle M 14.0000 5 0.00 +barcode1 14 -124 Cycle M 14.0000 5 0.00 +barcode1 14 -125 Cycle M 14.0000 9 0.00 +barcode1 14 -126 Cycle M 14.0000 4 0.00 +barcode1 14 -127 Cycle M 14.0000 4 0.00 +barcode1 14 -128 Cycle M 14.0000 6 0.00 +barcode1 14 -129 Cycle M 14.0000 6 0.00 +barcode1 14 -13 Cycle M 14.0000 3 0.00 +barcode1 14 -130 Cycle M 14.0000 2 0.00 +barcode1 14 -131 Cycle M 14.0000 10 0.00 +barcode1 14 -132 Cycle M 14.0000 9 0.00 +barcode1 14 -133 Cycle M 14.0000 5 0.00 +barcode1 14 -134 Cycle M 14.0000 6 0.00 +barcode1 14 -135 Cycle M 14.0000 8 0.00 +barcode1 14 -136 Cycle M 14.0000 7 0.00 +barcode1 14 -137 Cycle M 14.0000 2 0.00 +barcode1 14 -138 Cycle M 14.0000 8 0.00 +barcode1 14 -139 Cycle M 14.0000 4 0.00 +barcode1 14 -14 Cycle M 14.0000 1 0.00 +barcode1 14 -140 Cycle M 14.0000 8 1.00 +barcode1 14 -141 Cycle M 14.0000 4 0.00 +barcode1 14 -142 Cycle M 14.0000 8 0.00 +barcode1 14 -143 Cycle M 14.0000 8 0.00 +barcode1 14 -144 Cycle M 14.0000 6 0.00 +barcode1 14 -145 Cycle M 14.0000 8 1.00 +barcode1 14 -146 Cycle M 14.0000 3 0.00 +barcode1 14 -147 Cycle M 14.0000 3 0.00 +barcode1 14 -148 Cycle M 14.0000 7 0.00 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+#!/usr/bin/env nextflow + +nextflow.enable.dsl = 2 + +include { ADAPTERREMOVAL } from '../../../software/adapterremoval/main.nf' addParams( options: [:] ) + +workflow test_adapterremoval_single_end { + input = [ [ id:'test', single_end:true, collapse:false ], // meta map + file(params.test_data['sarscov2']['illumina']['test_1_fastq_gz'], checkIfExists: true) + ] + + ADAPTERREMOVAL ( input ) +} + +workflow test_adapterremoval_paired_end { + input = [ [ id:'test', single_end:false, collapse:false ], // meta map + [ file(params.test_data['sarscov2']['illumina']['test_1_fastq_gz'], checkIfExists: true), + file(params.test_data['sarscov2']['illumina']['test_2_fastq_gz'], checkIfExists: true) ] + ] + + ADAPTERREMOVAL ( input ) +} + +workflow test_adapterremoval_paired_end_collapse { + input = [ [ id:'test', single_end:false, collapse:true ], // meta map + [ file(params.test_data['sarscov2']['illumina']['test_1_fastq_gz'], checkIfExists: true), + file(params.test_data['sarscov2']['illumina']['test_2_fastq_gz'], checkIfExists: true) ] + ] + + ADAPTERREMOVAL ( input ) +} + diff --git a/tests/software/adapterremoval/test.yml b/tests/software/adapterremoval/test.yml new file mode 100644 index 00000000..7666bc6d --- /dev/null +++ b/tests/software/adapterremoval/test.yml @@ -0,0 +1,34 @@ +- name: adapterremoval test_adapterremoval_single_end + command: nextflow run tests/software/adapterremoval -entry test_adapterremoval_single_end -c tests/config/nextflow.config + tags: + - adapterremoval_single_end + - adapterremoval + files: + - path: output/adapterremoval/test.log + md5sum: 2fd3d5d703b63ba33a83021fccf25f77 + - path: output/adapterremoval/test.trimmed.fastq.gz + md5sum: 62139afee94defad5b83bdd0b8475a1f + +- name: adapterremoval test_adapterremoval_paired_end + command: nextflow run tests/software/adapterremoval -entry test_adapterremoval_paired_end -c tests/config/nextflow.config + tags: + - adapterremoval_paired_end + - adapterremoval + files: + - path: output/adapterremoval/test.pair2.trimmed.fastq.gz + md5sum: f076a9f666235e01a3281f8c46c9d010 + - path: output/adapterremoval/test.log + md5sum: bea86105aff4d27fe29c83e24498fefa + - path: output/adapterremoval/test.pair1.trimmed.fastq.gz + md5sum: f076a9f666235e01a3281f8c46c9d010 + +- name: adapterremoval test_adapterremoval_paired_end_collapse + command: nextflow run tests/software/adapterremoval -entry test_adapterremoval_paired_end_collapse -c tests/config/nextflow.config + tags: + - adapterremoval_paired_end_collapse + - adapterremoval + files: + - path: output/adapterremoval/test.log + md5sum: 97cb97b3d03123ac88430768b2e36c59 + - path: output/adapterremoval/test.merged.fastq.gz + md5sum: 50a4f9fdac6a24e211eb4dcf9f292bef diff --git a/tests/software/allelecounter/main.nf b/tests/software/allelecounter/main.nf new file mode 100644 index 00000000..08f6129c --- /dev/null +++ b/tests/software/allelecounter/main.nf @@ -0,0 +1,14 @@ +#!/usr/bin/env nextflow +nextflow.enable.dsl = 2 + +include { ALLELECOUNTER } from '../../../software/allelecounter/main.nf' addParams( options: [:] ) + +workflow test_allelecounter { + input = [ [ id:'test', single_end:false ], // meta map + file(params.test_data['sarscov2']['illumina']['test_paired_end_sorted_bam'], checkIfExists: true), + file(params.test_data['sarscov2']['illumina']['test_paired_end_sorted_bam_bai'], checkIfExists: true) + ] + positions = [ file(params.test_data['sarscov2']['genome']['test_bed'], checkIfExists: true) ] + + ALLELECOUNTER ( input, positions ) +} diff --git a/tests/software/allelecounter/test.yml b/tests/software/allelecounter/test.yml new file mode 100644 index 00000000..aeb64e1f --- /dev/null +++ b/tests/software/allelecounter/test.yml @@ -0,0 +1,7 @@ +- name: allelecounter test_allelecounter + command: nextflow run tests/software/allelecounter -entry test_allelecounter -c tests/config/nextflow.config + tags: + - allelecounter + files: + - path: output/allelecounter/test.alleleCount + md5sum: 2bbe9d7331b78bdac30fe30dbc5fdaf3 diff --git a/tests/software/bandage/image/main.nf b/tests/software/bandage/image/main.nf index 65eb6a5d..555dae6b 100644 --- a/tests/software/bandage/image/main.nf +++ b/tests/software/bandage/image/main.nf @@ -5,10 +5,10 @@ nextflow.enable.dsl = 2 include { BANDAGE_IMAGE } from '../../../../software/bandage/image/main.nf' addParams( options: [:] ) workflow test_bandage_image { - - def input = [] input = [ [ id:'B-3106' ], // meta map - [ file("${launchDir}/tests/data/generic/gfa/B-3106.gfa", checkIfExists: true) ] ] + [ file("${launchDir}/tests/data/generic/gfa/B-3106.gfa", checkIfExists: true) ] + //[ file("${launchDir}/tests/data/genomics/sarscov2/genome/gfa/test.gfa", checkIfExists: true) ] + ] BANDAGE_IMAGE ( input ) } diff --git a/tests/software/bcftools/consensus/main.nf b/tests/software/bcftools/consensus/main.nf index 325de143..822b6d57 100644 --- a/tests/software/bcftools/consensus/main.nf +++ b/tests/software/bcftools/consensus/main.nf @@ -5,11 +5,11 @@ nextflow.enable.dsl = 2 include { BCFTOOLS_CONSENSUS } from '../../../../software/bcftools/consensus/main.nf' addParams( options: [:] ) workflow test_bcftools_consensus { - def input = [] input = [ [ id:'test' ], // meta map - [ file("${launchDir}/tests/data/genomics/sarscov2/vcf/test.vcf.gz", checkIfExists: true) ], - [ file("${launchDir}/tests/data/genomics/sarscov2/vcf/test.vcf.gz.tbi", checkIfExists: true) ], - [ file("${launchDir}/tests/data/genomics/sarscov2/fasta/test_genome.fasta", checkIfExists: true) ] ] + [ file(params.test_data['sarscov2']['illumina']['test_vcf_gz'], checkIfExists: true) ], + [ file(params.test_data['sarscov2']['illumina']['test_vcf_gz_tbi'], checkIfExists: true) ], + [ file(params.test_data['sarscov2']['genome']['genome_fasta'], checkIfExists: true) ] + ] BCFTOOLS_CONSENSUS ( input ) } diff --git a/tests/software/bcftools/consensus/test.yml b/tests/software/bcftools/consensus/test.yml index 9d239bc2..32c159ed 100644 --- a/tests/software/bcftools/consensus/test.yml +++ b/tests/software/bcftools/consensus/test.yml @@ -1,8 +1,8 @@ -- name: bcftools consensus - command: nextflow run ./tests/software/bcftools/consensus -entry test_bcftools_consensus -c tests/config/nextflow.config +- name: bcftools consensus test_bcftools_consensus + command: nextflow run tests/software/bcftools/consensus -entry test_bcftools_consensus -c tests/config/nextflow.config tags: - - bcftools - bcftools_consensus + - bcftools files: - path: output/bcftools/test.fa md5sum: e57d3e4d113f989bc069c5fd61627091 diff --git a/tests/software/bcftools/filter/main.nf b/tests/software/bcftools/filter/main.nf index 5ca7e47a..d36811a2 100644 --- a/tests/software/bcftools/filter/main.nf +++ b/tests/software/bcftools/filter/main.nf @@ -6,9 +6,9 @@ nextflow.enable.dsl = 2 include { BCFTOOLS_FILTER } from '../../../../software/bcftools/filter/main.nf' addParams( options: ['args': '--no-version'] ) workflow test_bcftools_filter { - def input = [] input = [ [ id:'test' ], // meta map - [ file("${launchDir}/tests/data/genomics/sarscov2/vcf/test.vcf", checkIfExists: true) ]] + [ file(params.test_data['sarscov2']['illumina']['test_vcf'], checkIfExists: true) ] + ] BCFTOOLS_FILTER ( input ) } diff --git a/tests/software/bcftools/filter/test.yml b/tests/software/bcftools/filter/test.yml index b1dfdfba..3b4d736a 100644 --- a/tests/software/bcftools/filter/test.yml +++ b/tests/software/bcftools/filter/test.yml @@ -1,8 +1,8 @@ -- name: bcftools filter - command: nextflow run ./tests/software/bcftools/filter -entry test_bcftools_filter -c tests/config/nextflow.config +- name: bcftools filter test_bcftools_filter + command: nextflow run tests/software/bcftools/filter -entry test_bcftools_filter -c tests/config/nextflow.config tags: - - bcftools - bcftools_filter + - bcftools files: - path: output/bcftools/test.vcf.gz md5sum: 9d491cfa84067450342ba8e66c75e5b8 diff --git a/tests/software/bcftools/isec/main.nf b/tests/software/bcftools/isec/main.nf index ab214019..aee566a9 100644 --- a/tests/software/bcftools/isec/main.nf +++ b/tests/software/bcftools/isec/main.nf @@ -5,13 +5,12 @@ nextflow.enable.dsl = 2 include { BCFTOOLS_ISEC } from '../../../../software/bcftools/isec/main.nf' addParams( options: ['args': '--nfiles +2 --output-type z --no-version'] ) workflow test_bcftools_isec { - def input = [] input = [ [ id:'test' ], // meta map - [ file("${launchDir}/tests/data/genomics/sarscov2/vcf/test.vcf.gz", checkIfExists: true), - file("${launchDir}/tests/data/genomics/sarscov2/vcf/test2.vcf.gz", checkIfExists: true)], - [ file("${launchDir}/tests/data/genomics/sarscov2/vcf/test.vcf.gz.tbi", checkIfExists: true), - file("${launchDir}/tests/data/genomics/sarscov2/vcf/test2.vcf.gz.tbi", checkIfExists: true)] - ] + [ file(params.test_data['sarscov2']['illumina']['test_vcf_gz'], checkIfExists: true), + file(params.test_data['sarscov2']['illumina']['test2_vcf_gz'], checkIfExists: true)], + [ file(params.test_data['sarscov2']['illumina']['test_vcf_gz_tbi'], checkIfExists: true), + file(params.test_data['sarscov2']['illumina']['test2_vcf_gz_tbi'], checkIfExists: true)] + ] BCFTOOLS_ISEC ( input ) } diff --git a/tests/software/bcftools/isec/test.yml b/tests/software/bcftools/isec/test.yml index 9fe06207..97520d8a 100644 --- a/tests/software/bcftools/isec/test.yml +++ b/tests/software/bcftools/isec/test.yml @@ -1,18 +1,18 @@ -- name: bcftools isec - command: nextflow run ./tests/software/bcftools/isec -entry test_bcftools_isec -c tests/config/nextflow.config +- name: bcftools isec test_bcftools_isec + command: nextflow run tests/software/bcftools/isec -entry test_bcftools_isec -c tests/config/nextflow.config tags: - bcftools - bcftools_isec files: - path: output/bcftools/test/0000.vcf.gz md5sum: fc178eb342a91dc0d1d568601ad8f8e2 + - path: output/bcftools/test/0001.vcf.gz.tbi + md5sum: 36e11bf96ed0af4a92caa91a68612d64 + - path: output/bcftools/test/sites.txt + md5sum: 1cea3fbde7f6d3c97f3d39036f9690df - path: output/bcftools/test/0000.vcf.gz.tbi md5sum: 36e11bf96ed0af4a92caa91a68612d64 - path: output/bcftools/test/0001.vcf.gz md5sum: fc178eb342a91dc0d1d568601ad8f8e2 - - path: output/bcftools/test/0001.vcf.gz.tbi - md5sum: 36e11bf96ed0af4a92caa91a68612d64 - path: output/bcftools/test/README.txt md5sum: 10fc33b66522645600d44afbd41fb792 - - path: output/bcftools/test/sites.txt - md5sum: 1cea3fbde7f6d3c97f3d39036f9690df diff --git a/tests/software/bcftools/merge/main.nf b/tests/software/bcftools/merge/main.nf index a466e387..63c0623e 100644 --- a/tests/software/bcftools/merge/main.nf +++ b/tests/software/bcftools/merge/main.nf @@ -6,12 +6,12 @@ nextflow.enable.dsl = 2 include { BCFTOOLS_MERGE } from '../../../../software/bcftools/merge/main.nf' addParams( options: ['args': '--force-samples --no-version'] ) workflow test_bcftools_merge { - def input = [] input = [ [ id:'test' ], // meta map - [ file("${launchDir}/tests/data/genomics/sarscov2/vcf/test2.vcf.gz", checkIfExists: true), - file("${launchDir}/tests/data/genomics/sarscov2/vcf/test3.vcf.gz", checkIfExists: true) ], - [ file("${launchDir}/tests/data/genomics/sarscov2/vcf/test2.vcf.gz.tbi", checkIfExists: true), - file("${launchDir}/tests/data/genomics/sarscov2/vcf/test3.vcf.gz.tbi", checkIfExists: true) ]] + [ file(params.test_data['sarscov2']['illumina']['test2_vcf_gz'], checkIfExists: true), + file(params.test_data['sarscov2']['illumina']['test3_vcf_gz'], checkIfExists: true) ], + [ file(params.test_data['sarscov2']['illumina']['test2_vcf_gz_tbi'], checkIfExists: true), + file(params.test_data['sarscov2']['illumina']['test3_vcf_gz_tbi'], checkIfExists: true) ] + ] BCFTOOLS_MERGE ( input ) } diff --git a/tests/software/bcftools/merge/test.yml b/tests/software/bcftools/merge/test.yml index d31ed1b9..9686df01 100644 --- a/tests/software/bcftools/merge/test.yml +++ b/tests/software/bcftools/merge/test.yml @@ -1,8 +1,8 @@ -- name: bcftools merge - command: nextflow run ./tests/software/bcftools/merge -entry test_bcftools_merge -c tests/config/nextflow.config +- name: bcftools merge test_bcftools_merge + command: nextflow run tests/software/bcftools/merge -entry test_bcftools_merge -c tests/config/nextflow.config tags: - - bcftools - bcftools_merge + - bcftools files: - path: output/bcftools/test.vcf.gz md5sum: 52165fc4149c61547e63800b876c9661 diff --git a/tests/software/bcftools/mpileup/main.nf b/tests/software/bcftools/mpileup/main.nf index fed52804..8952b2dd 100644 --- a/tests/software/bcftools/mpileup/main.nf +++ b/tests/software/bcftools/mpileup/main.nf @@ -6,10 +6,9 @@ include { BCFTOOLS_MPILEUP } from '../../../../software/bcftools/mpileup/main.nf 'args3': '--no-version' ] ) workflow test_bcftools_mpileup { - def input = [] input = [ [ id:'test' ], // meta map - [ file("${launchDir}/tests/data/genomics/sarscov2/bam/test_paired_end.sorted.bam", checkIfExists: true) ]] - fasta = [ file("${launchDir}/tests/data/genomics/sarscov2/fasta/test_genome.fasta", checkIfExists: true) ] + [ file(params.test_data['sarscov2']['illumina']['test_paired_end_sorted_bam'], checkIfExists: true) ]] + fasta = [ file(params.test_data['sarscov2']['genome']['genome_fasta'], checkIfExists: true) ] BCFTOOLS_MPILEUP ( input, fasta ) } diff --git a/tests/software/bcftools/mpileup/test.yml b/tests/software/bcftools/mpileup/test.yml index 3703286a..51711dd2 100644 --- a/tests/software/bcftools/mpileup/test.yml +++ b/tests/software/bcftools/mpileup/test.yml @@ -1,12 +1,12 @@ -- name: bcftools mpileup - command: nextflow run ./tests/software/bcftools/mpileup -entry test_bcftools_mpileup -c tests/config/nextflow.config +- name: bcftools mpileup test_bcftools_mpileup + command: nextflow run tests/software/bcftools/mpileup -entry test_bcftools_mpileup -c tests/config/nextflow.config tags: - - bcftools - bcftools_mpileup + - bcftools files: - - path: output/bcftools/test.vcf.gz - md5sum: 518f770a9d04004c4493fc2167280653 - - path: output/bcftools/test.vcf.gz.tbi - md5sum: f4be4d707434b3b960fde100b7ec3bf3 - path: output/bcftools/test.bcftools_stats.txt md5sum: 2d506e32837a53a01fea0fc90402632a + - path: output/bcftools/test.vcf.gz.tbi + md5sum: 11d90b5b35e4adf6b44fc53bec93bed3 + - path: output/bcftools/test.vcf.gz + md5sum: 2cf273a9fa3784383799b6b24df2f88c diff --git a/tests/software/bcftools/stats/main.nf b/tests/software/bcftools/stats/main.nf index 829e3ca8..c591218d 100644 --- a/tests/software/bcftools/stats/main.nf +++ b/tests/software/bcftools/stats/main.nf @@ -5,9 +5,9 @@ nextflow.enable.dsl = 2 include { BCFTOOLS_STATS } from '../../../../software/bcftools/stats/main.nf' addParams( options: [:] ) workflow test_bcftools_stats { - def input = [] input = [ [ id:'test' ], // meta map - [ file("${launchDir}/tests/data/genomics/sarscov2/vcf/test.vcf", checkIfExists: true) ]] + [ file(params.test_data['sarscov2']['illumina']['test_vcf'], checkIfExists: true) ] + ] BCFTOOLS_STATS ( input ) } diff --git a/tests/software/bcftools/stats/test.yml b/tests/software/bcftools/stats/test.yml index fa097efc..8a5d0c66 100644 --- a/tests/software/bcftools/stats/test.yml +++ b/tests/software/bcftools/stats/test.yml @@ -1,5 +1,5 @@ -- name: bcftools stats - command: nextflow run ./tests/software/bcftools/stats -entry test_bcftools_stats -c tests/config/nextflow.config +- name: bcftools stats test_bcftools_stats + command: nextflow run tests/software/bcftools/stats -entry test_bcftools_stats -c tests/config/nextflow.config tags: - bcftools - bcftools_stats diff --git a/tests/software/bedtools/complement/main.nf b/tests/software/bedtools/complement/main.nf index aa46b99f..a20d73ec 100644 --- a/tests/software/bedtools/complement/main.nf +++ b/tests/software/bedtools/complement/main.nf @@ -5,9 +5,10 @@ nextflow.enable.dsl = 2 include { BEDTOOLS_COMPLEMENT } from '../../../../software/bedtools/complement/main.nf' addParams( options: [suffix: '_out'] ) workflow test_bedtools_complement { - def input = [] input = [ [ id:'test'], - file("${launchDir}/tests/data/genomics/sarscov2/bed/test.bed", checkIfExists: true) ] + file(params.test_data['sarscov2']['genome']['test_bed'], checkIfExists: true) + ] + sizes = file(params.test_data['sarscov2']['genome']['genome_sizes'], checkIfExists: true) - BEDTOOLS_COMPLEMENT ( input, file("${launchDir}/tests/data/genomics/sarscov2/general/test.genome.sizes", checkIfExists: true) ) + BEDTOOLS_COMPLEMENT ( input, sizes ) } diff --git a/tests/software/bedtools/genomecov/main.nf b/tests/software/bedtools/genomecov/main.nf index 570cb2f0..01f02119 100644 --- a/tests/software/bedtools/genomecov/main.nf +++ b/tests/software/bedtools/genomecov/main.nf @@ -5,9 +5,9 @@ nextflow.enable.dsl = 2 include { BEDTOOLS_GENOMECOV } from '../../../../software/bedtools/genomecov/main.nf' addParams( options: [suffix: '_out'] ) workflow test_bedtools_genomecov { - def input = [] input = [ [ id:'test'], - file("${launchDir}/tests/data/genomics/sarscov2/bam/test_paired_end.bam", checkIfExists: true) ] + file(params.test_data['sarscov2']['illumina']['test_paired_end_bam'], checkIfExists: true) + ] BEDTOOLS_GENOMECOV ( input ) } diff --git a/tests/software/bedtools/getfasta/main.nf b/tests/software/bedtools/getfasta/main.nf index 252d5c57..641a4cba 100644 --- a/tests/software/bedtools/getfasta/main.nf +++ b/tests/software/bedtools/getfasta/main.nf @@ -5,8 +5,8 @@ nextflow.enable.dsl = 2 include { BEDTOOLS_GETFASTA } from '../../../../software/bedtools/getfasta/main.nf' addParams( options: [:] ) workflow test_bedtools_getfasta { - def bed = [ file("${launchDir}/tests/data/genomics/sarscov2/bed/test.bed", checkIfExists: true) ] - def fasta = [ file("${launchDir}/tests/data/genomics/sarscov2/fasta/test_genome.fasta", checkIfExists: true) ] - + bed = file(params.test_data['sarscov2']['genome']['test_bed'], checkIfExists: true) + fasta = file(params.test_data['sarscov2']['genome']['genome_fasta'], checkIfExists: true) + BEDTOOLS_GETFASTA ( bed, fasta ) } diff --git a/tests/software/bedtools/intersect/main.nf b/tests/software/bedtools/intersect/main.nf index e385293a..dcfefdcb 100644 --- a/tests/software/bedtools/intersect/main.nf +++ b/tests/software/bedtools/intersect/main.nf @@ -5,10 +5,10 @@ nextflow.enable.dsl = 2 include { BEDTOOLS_INTERSECT } from '../../../../software/bedtools/intersect/main.nf' addParams( options: [suffix: '_out'] ) workflow test_bedtools_intersect { - def input = [] - input = [ [ id:'test',], - file("${launchDir}/tests/data/genomics/sarscov2/bed/test.bed", checkIfExists: true), - file("${launchDir}/tests/data/genomics/sarscov2/bed/test2.bed", checkIfExists: true) ] + input = [ [ id:'test' ], + file(params.test_data['sarscov2']['genome']['test_bed'], checkIfExists: true), + file(params.test_data['sarscov2']['genome']['test2_bed'], checkIfExists: true) + ] BEDTOOLS_INTERSECT ( input ) } diff --git a/tests/software/bedtools/maskfasta/main.nf b/tests/software/bedtools/maskfasta/main.nf index 6b8069ed..eab7d71f 100644 --- a/tests/software/bedtools/maskfasta/main.nf +++ b/tests/software/bedtools/maskfasta/main.nf @@ -5,9 +5,10 @@ nextflow.enable.dsl = 2 include { BEDTOOLS_MASKFASTA } from '../../../../software/bedtools/maskfasta/main.nf' addParams( options: [:] ) workflow test_bedtools_maskfasta { - def bed = [ [ id:'test'], - file("${launchDir}/tests/data/genomics/sarscov2/bed/test.bed", checkIfExists: true) ] - def fasta = [ file("${launchDir}/tests/data/genomics/sarscov2/fasta/test_genome.fasta", checkIfExists: true) ] - - BEDTOOLS_MASKFASTA( bed, fasta ) + bed = [ [ id:'test'], + file(params.test_data['sarscov2']['genome']['test_bed'], checkIfExists: true) + ] + fasta = file(params.test_data['sarscov2']['genome']['genome_fasta'], checkIfExists: true) + + BEDTOOLS_MASKFASTA ( bed, fasta ) } diff --git a/tests/software/bedtools/merge/main.nf b/tests/software/bedtools/merge/main.nf index 95a4b3d0..0407717e 100644 --- a/tests/software/bedtools/merge/main.nf +++ b/tests/software/bedtools/merge/main.nf @@ -5,9 +5,9 @@ nextflow.enable.dsl = 2 include { BEDTOOLS_MERGE } from '../../../../software/bedtools/merge/main.nf' addParams( options: [suffix: '_out'] ) workflow test_bedtools_merge { - def input = [] input = [ [ id:'test'], - file("${launchDir}/tests/data/genomics/sarscov2/bed/test.bed", checkIfExists: true) ] + file(params.test_data['sarscov2']['genome']['test_bed'], checkIfExists: true) + ] BEDTOOLS_MERGE ( input ) } diff --git a/tests/software/bedtools/slop/main.nf b/tests/software/bedtools/slop/main.nf index f503a6a1..d9e4a7d3 100644 --- a/tests/software/bedtools/slop/main.nf +++ b/tests/software/bedtools/slop/main.nf @@ -5,10 +5,11 @@ nextflow.enable.dsl = 2 include { BEDTOOLS_SLOP } from '../../../../software/bedtools/slop/main.nf' addParams( options: [args: '-l 15 -r 30', suffix: '_out'] ) workflow test_bedtools_slop { - def input = [] input = [ [ id:'test'], - file("${launchDir}/tests/data/genomics/sarscov2/bed/test.bed", checkIfExists: true) ] - - BEDTOOLS_SLOP ( input, file("${launchDir}/tests/data/genomics/sarscov2/general/test.genome.sizes", checkIfExists: true) ) + file(params.test_data['sarscov2']['genome']['test_bed'], checkIfExists: true) + ] + sizes = file(params.test_data['sarscov2']['genome']['genome_sizes'], checkIfExists: true) + + BEDTOOLS_SLOP ( input, sizes ) } diff --git a/tests/software/bedtools/sort/main.nf b/tests/software/bedtools/sort/main.nf index 70a798cc..01f3f3c8 100644 --- a/tests/software/bedtools/sort/main.nf +++ b/tests/software/bedtools/sort/main.nf @@ -5,9 +5,9 @@ nextflow.enable.dsl = 2 include { BEDTOOLS_SORT } from '../../../../software/bedtools/sort/main.nf' addParams( options: [suffix: '_out'] ) workflow test_bedtools_sort { - def input = [] input = [ [ id:'test'], - file("${launchDir}/tests/data/genomics/sarscov2/bed/test.bed", checkIfExists: true) ] + file(params.test_data['sarscov2']['genome']['test_bed'], checkIfExists: true) + ] BEDTOOLS_SORT ( input ) } diff --git a/tests/software/bismark/align/main.nf b/tests/software/bismark/align/main.nf new file mode 100644 index 00000000..980b4433 --- /dev/null +++ b/tests/software/bismark/align/main.nf @@ -0,0 +1,34 @@ +#!/usr/bin/env nextflow + +nextflow.enable.dsl = 2 + +include { BISMARK_GENOMEPREPARATION } from '../../../../software/bismark/genomepreparation/main.nf' addParams( options: [:] ) +include { BISMARK_ALIGN as BISMARK_ALIGN_SE } from '../../../../software/bismark/align/main.nf' addParams( options: [ publish_dir:'test_single_end' ] ) +include { BISMARK_ALIGN as BISMARK_ALIGN_PE } from '../../../../software/bismark/align/main.nf' addParams( options: [ publish_dir:'test_paired_end' ] ) + +/* + * Test with single-end data + */ +workflow test_bismark_align_single_end { + input = [ [ id:'test', single_end:true ], // meta map + [ file(params.test_data['sarscov2']['illumina']['test_methylated_1_fastq_gz'], checkIfExists: true) ] + ] + fasta = file(params.test_data['sarscov2']['genome']['genome_fasta'], checkIfExists: true) + + BISMARK_GENOMEPREPARATION ( fasta ) + BISMARK_ALIGN_SE ( input, BISMARK_GENOMEPREPARATION.out.index ) +} + +/* + * Test with paired-end data + */ +workflow test_bismark_align_paired_end { + input = [ [ id:'test', single_end:false ], // meta map + [ file(params.test_data['sarscov2']['illumina']['test_methylated_1_fastq_gz'], checkIfExists: true), + file(params.test_data['sarscov2']['illumina']['test_methylated_2_fastq_gz'], checkIfExists: true) ] + ] + fasta = file(params.test_data['sarscov2']['genome']['genome_fasta'], checkIfExists: true) + + BISMARK_GENOMEPREPARATION ( fasta ) + BISMARK_ALIGN_PE ( input, BISMARK_GENOMEPREPARATION.out.index ) +} diff --git a/tests/software/bismark/align/test.yml b/tests/software/bismark/align/test.yml new file mode 100644 index 00000000..b79e5d0f --- /dev/null +++ b/tests/software/bismark/align/test.yml @@ -0,0 +1,19 @@ +- name: Run bismark align single-end test workflow + command: nextflow run ./tests/software/bismark/align -entry test_bismark_align_single_end -c tests/config/nextflow.config + tags: + - bismark + - bismark_align + files: + - path: output/test_single_end/test_methylated_1_bismark_bt2.bam + md5sum: 7f9744cec5aa7908675e5fae79af36fc + - path: output/test_single_end/test_methylated_1_bismark_bt2_SE_report.txt + +- name: Run bismark align paired-end test workflow + command: nextflow run ./tests/software/bismark/align -entry test_bismark_align_paired_end -c tests/config/nextflow.config + tags: + - bismark + - bismark_align + files: + - path: output/test_paired_end/test_methylated_1_bismark_bt2_pe.bam + md5sum: b13d0d40dffd336375f80fc94acc295f + - path: output/test_paired_end/test_methylated_1_bismark_bt2_PE_report.txt diff --git a/tests/software/bismark/deduplicate/main.nf b/tests/software/bismark/deduplicate/main.nf index 2842720d..5828d597 100644 --- a/tests/software/bismark/deduplicate/main.nf +++ b/tests/software/bismark/deduplicate/main.nf @@ -5,10 +5,9 @@ nextflow.enable.dsl = 2 include { BISMARK_DEDUPLICATE } from '../../../../software/bismark/deduplicate/main.nf' addParams( options: [:] ) workflow test_bismark_deduplicate { - - def input = [] input = [ [ id:'test', single_end:false ], // meta map - [ file("${launchDir}/tests/data/genomics/sarscov2/bam/test_methylated_paired_end.bam", checkIfExists: true) ] ] + [ file(params.test_data['sarscov2']['illumina']['test_methylated_paired_end_bam'], checkIfExists: true) ] + ] BISMARK_DEDUPLICATE ( input ) } diff --git a/tests/software/bismark/genome_preparation/main.nf b/tests/software/bismark/genome_preparation/main.nf deleted file mode 100644 index 84ae8cb7..00000000 --- a/tests/software/bismark/genome_preparation/main.nf +++ /dev/null @@ -1,10 +0,0 @@ -#!/usr/bin/env nextflow - -nextflow.enable.dsl = 2 - -include { BISMARK_GENOME_PREPARATION } from '../../../../software/bismark/genome_preparation/main.nf' addParams( options: [:] ) - -workflow test_bismark_genome_preparation { - - BISMARK_GENOME_PREPARATION ( file("${launchDir}/tests/data/genomics/sarscov2/fasta/test_genome.fasta", checkIfExists: true) ) -} diff --git a/tests/software/bismark/genomepreparation/main.nf b/tests/software/bismark/genomepreparation/main.nf new file mode 100644 index 00000000..efbecfc6 --- /dev/null +++ b/tests/software/bismark/genomepreparation/main.nf @@ -0,0 +1,11 @@ +#!/usr/bin/env nextflow + +nextflow.enable.dsl = 2 + +include { BISMARK_GENOMEPREPARATION } from '../../../../software/bismark/genomepreparation/main.nf' addParams( options: [:] ) + +workflow test_bismark_genomepreparation { + fasta = file(params.test_data['sarscov2']['genome']['genome_fasta'], checkIfExists: true) + + BISMARK_GENOMEPREPARATION ( fasta ) +} diff --git a/tests/software/bismark/genome_preparation/test.yml b/tests/software/bismark/genomepreparation/test.yml similarity index 87% rename from tests/software/bismark/genome_preparation/test.yml rename to tests/software/bismark/genomepreparation/test.yml index a0a4f989..10e94f56 100644 --- a/tests/software/bismark/genome_preparation/test.yml +++ b/tests/software/bismark/genomepreparation/test.yml @@ -1,10 +1,10 @@ -- name: Run bismark_genome_preparation test workflow - command: nextflow run ./tests/software/bismark/genome_preparation -entry test_bismark_genome_preparation -c tests/config/nextflow.config +- name: Run bismark_genomepreparation test workflow + command: nextflow run ./tests/software/bismark/genomepreparation -entry test_bismark_genomepreparation -c tests/config/nextflow.config tags: - bismark - - bismark_genome_preparation + - bismark_genomepreparation files: - - path: ./output/bismark/BismarkIndex/test_genome.fasta + - path: ./output/bismark/BismarkIndex/genome.fasta md5sum: 6e9fe4042a72f2345f644f239272b7e6 - path: ./output/bismark/BismarkIndex/Bisulfite_Genome/CT_conversion/genome_mfa.CT_conversion.fa md5sum: 903b9f357eea4a5f36e21e78e0fe1dfa diff --git a/tests/software/bismark/methylationextractor/main.nf b/tests/software/bismark/methylationextractor/main.nf new file mode 100644 index 00000000..8b348f0e --- /dev/null +++ b/tests/software/bismark/methylationextractor/main.nf @@ -0,0 +1,16 @@ +#!/usr/bin/env nextflow + +nextflow.enable.dsl = 2 + +include { BISMARK_GENOMEPREPARATION } from '../../../../software/bismark/genomepreparation/main.nf' addParams( options: [:] ) +include { BISMARK_METHYLATIONEXTRACTOR } from '../../../../software/bismark/methylationextractor/main.nf' addParams( options: [:] ) + +workflow test_bismark_methylationextractor { + input = [ [ id:'test', single_end:false ], // meta map + [ file(params.test_data['sarscov2']['illumina']['test_methylated_paired_end_bam'], checkIfExists: true) ] + ] + fasta = file(params.test_data['sarscov2']['genome']['genome_fasta'], checkIfExists: true) + + BISMARK_GENOMEPREPARATION ( fasta ) + BISMARK_METHYLATIONEXTRACTOR ( input, BISMARK_GENOMEPREPARATION.out.index ) +} diff --git a/tests/software/bismark/methylationextractor/test.yml b/tests/software/bismark/methylationextractor/test.yml new file mode 100644 index 00000000..8a0d218b --- /dev/null +++ b/tests/software/bismark/methylationextractor/test.yml @@ -0,0 +1,18 @@ +- name: Run bismark methylation extractor test workflow + command: nextflow run ./tests/software/bismark/methylationextractor -entry test_bismark_methylationextractor -c tests/config/nextflow.config + tags: + - bismark + - bismark_methylationextractor + files: + - path: output/bismark/CHG_OB_test_methylated_paired_end.txt.gz + - path: output/bismark/CHG_OT_test_methylated_paired_end.txt.gz + - path: output/bismark/CHH_OB_test_methylated_paired_end.txt.gz + - path: output/bismark/CHH_OT_test_methylated_paired_end.txt.gz + - path: output/bismark/CpG_OB_test_methylated_paired_end.txt.gz + - path: output/bismark/CpG_OT_test_methylated_paired_end.txt.gz + - path: output/bismark/test_methylated_paired_end.bedGraph.gz + - path: output/bismark/test_methylated_paired_end.bismark.cov.gz + - path: output/bismark/test_methylated_paired_end.M-bias.txt + md5sum: 0b100924d46b3c35115f1206f34c4a59 + - path: output/bismark/test_methylated_paired_end_splitting_report.txt + md5sum: 288d6f0110127e3a8c10391802118202 diff --git a/tests/software/bismark/report/main.nf b/tests/software/bismark/report/main.nf new file mode 100644 index 00000000..46ef00de --- /dev/null +++ b/tests/software/bismark/report/main.nf @@ -0,0 +1,28 @@ +#!/usr/bin/env nextflow + +nextflow.enable.dsl = 2 + +include { BISMARK_GENOMEPREPARATION } from '../../../../software/bismark/genomepreparation/main.nf' addParams( options: [:] ) +include { BISMARK_ALIGN } from '../../../../software/bismark/align/main.nf' addParams( options: [:] ) +include { BISMARK_DEDUPLICATE } from '../../../../software/bismark/deduplicate/main.nf' addParams( options: [:] ) +include { BISMARK_METHYLATIONEXTRACTOR } from '../../../../software/bismark/methylationextractor/main.nf' addParams( options: [:] ) +include { BISMARK_REPORT } from '../../../../software/bismark/report/main.nf' addParams( options: [:] ) + +workflow test_bismark_report { + input = [ [ id:'test', single_end:false ], // meta map + [ file(params.test_data['sarscov2']['illumina']['test_methylated_1_fastq_gz'], checkIfExists: true), + file(params.test_data['sarscov2']['illumina']['test_methylated_2_fastq_gz'], checkIfExists: true) ] + ] + fasta = file(params.test_data['sarscov2']['genome']['genome_fasta'], checkIfExists: true) + + BISMARK_GENOMEPREPARATION ( fasta ) + BISMARK_ALIGN ( input, BISMARK_GENOMEPREPARATION.out.index ) + BISMARK_DEDUPLICATE ( BISMARK_ALIGN.out.bam ) + BISMARK_METHYLATIONEXTRACTOR ( BISMARK_DEDUPLICATE.out.bam, BISMARK_GENOMEPREPARATION.out.index ) + BISMARK_REPORT ( + BISMARK_ALIGN.out.report + .join(BISMARK_DEDUPLICATE.out.report) + .join(BISMARK_METHYLATIONEXTRACTOR.out.report) + .join(BISMARK_METHYLATIONEXTRACTOR.out.mbias) + ) +} diff --git a/tests/software/bismark/report/test.yml b/tests/software/bismark/report/test.yml new file mode 100644 index 00000000..af4397d3 --- /dev/null +++ b/tests/software/bismark/report/test.yml @@ -0,0 +1,8 @@ +- name: Run bismark report test workflow + command: nextflow run ./tests/software/bismark/report -entry test_bismark_report -c tests/config/nextflow.config + tags: + - bismark + - bismark_report + files: + - path: output/bismark/test_methylated_1_bismark_bt2_PE_report.txt + - path: output/bismark/test_methylated_1_bismark_bt2_PE_report.html diff --git a/tests/software/bismark/summary/main.nf b/tests/software/bismark/summary/main.nf new file mode 100644 index 00000000..7c52a57d --- /dev/null +++ b/tests/software/bismark/summary/main.nf @@ -0,0 +1,29 @@ +#!/usr/bin/env nextflow + +nextflow.enable.dsl = 2 + +include { BISMARK_GENOMEPREPARATION } from '../../../../software/bismark/genomepreparation/main.nf' addParams( options: [:] ) +include { BISMARK_ALIGN } from '../../../../software/bismark/align/main.nf' addParams( options: [:] ) +include { BISMARK_DEDUPLICATE } from '../../../../software/bismark/deduplicate/main.nf' addParams( options: [:] ) +include { BISMARK_METHYLATIONEXTRACTOR } from '../../../../software/bismark/methylationextractor/main.nf' addParams( options: [:] ) +include { BISMARK_SUMMARY } from '../../../../software/bismark/summary/main.nf' addParams( options: [:] ) + +workflow test_bismark_summary { + input = [ [ id:'test', single_end:false ], // meta map + [ file("${launchDir}/tests/data/genomics/sarscov2/illumina/fastq/test_methylated_1.fastq.gz", checkIfExists: true), + file("${launchDir}/tests/data/genomics/sarscov2/illumina/fastq/test_methylated_2.fastq.gz", checkIfExists: true) ] + ] + fasta = file("${launchDir}/tests/data/genomics/sarscov2/genome/genome.fasta", checkIfExists: true) + + BISMARK_GENOMEPREPARATION ( fasta ) + BISMARK_ALIGN ( input, BISMARK_GENOMEPREPARATION.out.index ) + BISMARK_DEDUPLICATE ( BISMARK_ALIGN.out.bam ) + BISMARK_METHYLATIONEXTRACTOR ( BISMARK_DEDUPLICATE.out.bam, BISMARK_GENOMEPREPARATION.out.index ) + BISMARK_SUMMARY ( + BISMARK_ALIGN.out.bam.collect{ meta, bam -> bam }, + BISMARK_ALIGN.out.report.collect{ meta, report -> report }, + BISMARK_DEDUPLICATE.out.report.collect{ meta, bam -> bam }, + BISMARK_METHYLATIONEXTRACTOR.out.report.collect{ meta, report -> report }, + BISMARK_METHYLATIONEXTRACTOR.out.mbias.collect{ meta, mbias -> mbias } + ) +} diff --git a/tests/software/bismark/summary/test.yml b/tests/software/bismark/summary/test.yml new file mode 100644 index 00000000..0489dbff --- /dev/null +++ b/tests/software/bismark/summary/test.yml @@ -0,0 +1,9 @@ +- name: Run bismark summary test workflow + command: nextflow run ./tests/software/bismark/summary -entry test_bismark_summary -c tests/config/nextflow.config + tags: + - bismark + - bismark_summary + files: + - path: output/bismark/bismark_summary_report.html + - path: output/bismark/bismark_summary_report.txt + md5sum: 06fc717e81b3f8f0d6e279d572f407f6 diff --git a/tests/software/blast/blastn/main.nf b/tests/software/blast/blastn/main.nf index afe9a4d2..83e88984 100644 --- a/tests/software/blast/blastn/main.nf +++ b/tests/software/blast/blastn/main.nf @@ -3,13 +3,11 @@ nextflow.enable.dsl = 2 include { BLAST_MAKEBLASTDB } from '../../../../software/blast/makeblastdb/main.nf' addParams( options: ['args': '-dbtype nucl'] ) -include { BLAST_BLASTN } from '../../../../software/blast/blastn/main.nf' addParams( options: [:] ) +include { BLAST_BLASTN } from '../../../../software/blast/blastn/main.nf' addParams( options: [:] ) workflow test_blast_blastn { + input = [ file("${launchDir}/tests/data/genomics/sarscov2/genome/genome.fasta", checkIfExists: true) ] - def input = [] - input = [ file("${launchDir}/tests/data/genomics/sarscov2/fasta/test_genome.fasta", checkIfExists: true) ] - - BLAST_MAKEBLASTDB (input) - BLAST_BLASTN ([ [id:'test'], input ], BLAST_MAKEBLASTDB.out.db) + BLAST_MAKEBLASTDB ( input ) + BLAST_BLASTN ( [ [id:'test'], input ], BLAST_MAKEBLASTDB.out.db ) } diff --git a/tests/software/blast/makeblastdb/main.nf b/tests/software/blast/makeblastdb/main.nf index 0c855963..080df6d5 100644 --- a/tests/software/blast/makeblastdb/main.nf +++ b/tests/software/blast/makeblastdb/main.nf @@ -5,8 +5,7 @@ nextflow.enable.dsl = 2 include { BLAST_MAKEBLASTDB } from '../../../../software/blast/makeblastdb/main.nf' addParams( options: ['args': '-dbtype nucl'] ) workflow test_blast_makeblastdb { - def input = [] - input = [ file("${launchDir}/tests/data/genomics/sarscov2/fasta/test_genome.fasta", checkIfExists: true) ] + input = [ file("${launchDir}/tests/data/genomics/sarscov2/genome/genome.fasta", checkIfExists: true) ] - BLAST_MAKEBLASTDB( input ) + BLAST_MAKEBLASTDB ( input ) } diff --git a/tests/software/bowtie/align/main.nf b/tests/software/bowtie/align/main.nf index eac4588c..3a299862 100644 --- a/tests/software/bowtie/align/main.nf +++ b/tests/software/bowtie/align/main.nf @@ -6,24 +6,22 @@ include { BOWTIE_BUILD } from '../../../../software/bowtie/build/main.nf' addPar include { BOWTIE_ALIGN } from '../../../../software/bowtie/align/main.nf' addParams( options: [:] ) workflow test_bowtie_align_single_end { - - def fasta = file("${launchDir}/tests/data/genomics/sarscov2/fasta/test_genome.fasta", checkIfExists: true) - BOWTIE_BUILD ( fasta ) - - def input = [] input = [ [ id:'test', single_end:true ], // meta map - [ file("${launchDir}/tests/data/genomics/sarscov2/fastq/test_1.fastq.gz", checkIfExists: true) ] ] + [ file("${launchDir}/tests/data/genomics/sarscov2/illumina/fastq/test_1.fastq.gz", checkIfExists: true) ] + ] + fasta = file("${launchDir}/tests/data/genomics/sarscov2/genome/genome.fasta", checkIfExists: true) + + BOWTIE_BUILD ( fasta ) BOWTIE_ALIGN ( input, BOWTIE_BUILD.out.index ) } workflow test_bowtie_align_paired_end { - - def fasta = file("${launchDir}/tests/data/genomics/sarscov2/fasta/test_genome.fasta", checkIfExists: true) - BOWTIE_BUILD ( fasta ) - - def input = [] input = [ [ id:'test', single_end:false ], // meta map - [ file("${launchDir}/tests/data/genomics/sarscov2/fastq/test_1.fastq.gz", checkIfExists: true), - file("${launchDir}/tests/data/genomics/sarscov2/fastq/test_2.fastq.gz", checkIfExists: true) ] ] + [ file("${launchDir}/tests/data/genomics/sarscov2/illumina/fastq/test_1.fastq.gz", checkIfExists: true), + file("${launchDir}/tests/data/genomics/sarscov2/illumina/fastq/test_2.fastq.gz", checkIfExists: true) ] + ] + fasta = file("${launchDir}/tests/data/genomics/sarscov2/genome/genome.fasta", checkIfExists: true) + + BOWTIE_BUILD ( fasta ) BOWTIE_ALIGN ( input, BOWTIE_BUILD.out.index ) } diff --git a/tests/software/bowtie/align/test.yml b/tests/software/bowtie/align/test.yml index 4ee5be10..503eda09 100644 --- a/tests/software/bowtie/align/test.yml +++ b/tests/software/bowtie/align/test.yml @@ -8,17 +8,17 @@ - path: ./output/bowtie/test.bam - path: ./output/bowtie/test.out md5sum: 4b9140ceadb8a18ae9330885370f8a0b - - path: ./output/bowtie/bowtie/test_genome.3.ebwt + - path: ./output/index/bowtie/test_genome.3.ebwt md5sum: 4ed93abba181d8dfab2e303e33114777 - - path: ./output/bowtie/bowtie/test_genome.2.ebwt + - path: ./output/index/bowtie/test_genome.2.ebwt md5sum: 02b44af9f94c62ecd3c583048e25d4cf - - path: ./output/bowtie/bowtie/test_genome.rev.2.ebwt + - path: ./output/index/bowtie/test_genome.rev.2.ebwt md5sum: 9e6b0c4c1ddb99ae71ff8a4fe5ec6459 - - path: ./output/bowtie/bowtie/test_genome.4.ebwt + - path: ./output/index/bowtie/test_genome.4.ebwt md5sum: c25be5f8b0378abf7a58c8a880b87626 - - path: ./output/bowtie/bowtie/test_genome.rev.1.ebwt + - path: ./output/index/bowtie/test_genome.rev.1.ebwt md5sum: b37aaf11853e65a3b13561f27a912b06 - - path: ./output/bowtie/bowtie/test_genome.1.ebwt + - path: ./output/index/bowtie/test_genome.1.ebwt md5sum: d9b76ecf9fd0413240173273b38d8199 - name: bowtie align paired-end @@ -30,15 +30,15 @@ files: - path: ./output/bowtie/test.bam - path: ./output/bowtie/test.out - - path: ./output/bowtie/bowtie/test_genome.3.ebwt + - path: ./output/index/bowtie/test_genome.3.ebwt md5sum: 4ed93abba181d8dfab2e303e33114777 - - path: ./output/bowtie/bowtie/test_genome.2.ebwt + - path: ./output/index/bowtie/test_genome.2.ebwt md5sum: 02b44af9f94c62ecd3c583048e25d4cf - - path: ./output/bowtie/bowtie/test_genome.rev.2.ebwt + - path: ./output/index/bowtie/test_genome.rev.2.ebwt md5sum: 9e6b0c4c1ddb99ae71ff8a4fe5ec6459 - - path: ./output/bowtie/bowtie/test_genome.4.ebwt + - path: ./output/index/bowtie/test_genome.4.ebwt md5sum: c25be5f8b0378abf7a58c8a880b87626 - - path: ./output/bowtie/bowtie/test_genome.rev.1.ebwt + - path: ./output/index/bowtie/test_genome.rev.1.ebwt md5sum: b37aaf11853e65a3b13561f27a912b06 - - path: ./output/bowtie/bowtie/test_genome.1.ebwt + - path: ./output/index/bowtie/test_genome.1.ebwt md5sum: d9b76ecf9fd0413240173273b38d8199 diff --git a/tests/software/bowtie/build_test/main.nf b/tests/software/bowtie/build_test/main.nf index 563390a7..0aec86a1 100644 --- a/tests/software/bowtie/build_test/main.nf +++ b/tests/software/bowtie/build_test/main.nf @@ -5,6 +5,7 @@ nextflow.enable.dsl = 2 include { BOWTIE_BUILD } from '../../../../software/bowtie/build/main.nf' addParams( options: [:] ) workflow test_bowtie_build { - fasta = file("${launchDir}/tests/data/genomics/sarscov2/fasta/test_genome.fasta", checkIfExists: true) + fasta = file("${launchDir}/tests/data/genomics/sarscov2/genome/genome.fasta", checkIfExists: true) + BOWTIE_BUILD ( fasta ) } diff --git a/tests/software/bowtie/build_test/test.yml b/tests/software/bowtie/build_test/test.yml index bdbd775d..67262eb8 100644 --- a/tests/software/bowtie/build_test/test.yml +++ b/tests/software/bowtie/build_test/test.yml @@ -4,15 +4,15 @@ - bowtie - bowtie_build files: - - path: ./output/bowtie/bowtie/test_genome.3.ebwt + - path: ./output/index/bowtie/test_genome.3.ebwt md5sum: 4ed93abba181d8dfab2e303e33114777 - - path: ./output/bowtie/bowtie/test_genome.2.ebwt + - path: ./output/index/bowtie/test_genome.2.ebwt md5sum: 02b44af9f94c62ecd3c583048e25d4cf - - path: ./output/bowtie/bowtie/test_genome.rev.2.ebwt + - path: ./output/index/bowtie/test_genome.rev.2.ebwt md5sum: 9e6b0c4c1ddb99ae71ff8a4fe5ec6459 - - path: ./output/bowtie/bowtie/test_genome.4.ebwt + - path: ./output/index/bowtie/test_genome.4.ebwt md5sum: c25be5f8b0378abf7a58c8a880b87626 - - path: ./output/bowtie/bowtie/test_genome.rev.1.ebwt + - path: ./output/index/bowtie/test_genome.rev.1.ebwt md5sum: b37aaf11853e65a3b13561f27a912b06 - - path: ./output/bowtie/bowtie/test_genome.1.ebwt + - path: ./output/index/bowtie/test_genome.1.ebwt md5sum: d9b76ecf9fd0413240173273b38d8199 diff --git a/tests/software/bowtie2/align/main.nf b/tests/software/bowtie2/align/main.nf index e3eb047a..3f4883b7 100644 --- a/tests/software/bowtie2/align/main.nf +++ b/tests/software/bowtie2/align/main.nf @@ -6,24 +6,21 @@ include { BOWTIE2_BUILD } from '../../../../software/bowtie2/build/main.nf' addP include { BOWTIE2_ALIGN } from '../../../../software/bowtie2/align/main.nf' addParams( options: [:] ) workflow test_bowtie2_align_single_end { - - def fasta = file("${launchDir}/tests/data/genomics/sarscov2/fasta/test_genome.fasta", checkIfExists: true) - BOWTIE2_BUILD ( fasta ) - - def input = [] input = [ [ id:'test', single_end:true ], // meta map - [ file("${launchDir}/tests/data/genomics/sarscov2/fastq/test_1.fastq.gz", checkIfExists: true) ] ] + [ file(params.test_data['sarscov2']['illumina']['test_1_fastq_gz'], checkIfExists: true) ] + ] + fasta = file(params.test_data['sarscov2']['genome']['genome_fasta'], checkIfExists: true) + + BOWTIE2_BUILD ( fasta ) BOWTIE2_ALIGN ( input, BOWTIE2_BUILD.out.index ) } workflow test_bowtie2_align_paired_end { - - def fasta = file("${launchDir}/tests/data/genomics/sarscov2/fasta/test_genome.fasta", checkIfExists: true) - BOWTIE2_BUILD ( fasta ) - - def input = [] input = [ [ id:'test', single_end:false ], // meta map - [ file("${launchDir}/tests/data/genomics/sarscov2/fastq/test_1.fastq.gz", checkIfExists: true), - file("${launchDir}/tests/data/genomics/sarscov2/fastq/test_2.fastq.gz", checkIfExists: true) ] ] + [ file(params.test_data['sarscov2']['illumina']['test_1_fastq_gz'], checkIfExists: true), + file(params.test_data['sarscov2']['illumina']['test_2_fastq_gz'], checkIfExists: true) ] + ] + fasta = file(params.test_data['sarscov2']['genome']['genome_fasta'], checkIfExists: true) + BOWTIE2_BUILD ( fasta ) BOWTIE2_ALIGN ( input, BOWTIE2_BUILD.out.index ) } diff --git a/tests/software/bowtie2/align/test.yml b/tests/software/bowtie2/align/test.yml index db895f45..1cb3d98b 100644 --- a/tests/software/bowtie2/align/test.yml +++ b/tests/software/bowtie2/align/test.yml @@ -7,17 +7,17 @@ files: - path: ./output/bowtie2/test.bam - path: ./output/bowtie2/test.bowtie2.log - - path: ./output/bowtie2/bowtie2/test_genome.3.bt2 + - path: ./output/index/bowtie2/genome.3.bt2 md5sum: 4ed93abba181d8dfab2e303e33114777 - - path: ./output/bowtie2/bowtie2/test_genome.2.bt2 + - path: ./output/index/bowtie2/genome.2.bt2 md5sum: 47b153cd1319abc88dda532462651fcf - - path: ./output/bowtie2/bowtie2/test_genome.1.bt2 + - path: ./output/index/bowtie2/genome.1.bt2 md5sum: cbe3d0bbea55bc57c99b4bfa25b5fbdf - - path: ./output/bowtie2/bowtie2/test_genome.4.bt2 + - path: ./output/index/bowtie2/genome.4.bt2 md5sum: c25be5f8b0378abf7a58c8a880b87626 - - path: ./output/bowtie2/bowtie2/test_genome.rev.1.bt2 + - path: ./output/index/bowtie2/genome.rev.1.bt2 md5sum: 52be6950579598a990570fbcf5372184 - - path: ./output/bowtie2/bowtie2/test_genome.rev.2.bt2 + - path: ./output/index/bowtie2/genome.rev.2.bt2 md5sum: e3b4ef343dea4dd571642010a7d09597 - name: bowtie2 align paired-end @@ -29,15 +29,15 @@ files: - path: ./output/bowtie2/test.bam - path: ./output/bowtie2/test.bowtie2.log - - path: ./output/bowtie2/bowtie2/test_genome.3.bt2 + - path: ./output/index/bowtie2/genome.3.bt2 md5sum: 4ed93abba181d8dfab2e303e33114777 - - path: ./output/bowtie2/bowtie2/test_genome.2.bt2 + - path: ./output/index/bowtie2/genome.2.bt2 md5sum: 47b153cd1319abc88dda532462651fcf - - path: ./output/bowtie2/bowtie2/test_genome.1.bt2 + - path: ./output/index/bowtie2/genome.1.bt2 md5sum: cbe3d0bbea55bc57c99b4bfa25b5fbdf - - path: ./output/bowtie2/bowtie2/test_genome.4.bt2 + - path: ./output/index/bowtie2/genome.4.bt2 md5sum: c25be5f8b0378abf7a58c8a880b87626 - - path: ./output/bowtie2/bowtie2/test_genome.rev.1.bt2 + - path: ./output/index/bowtie2/genome.rev.1.bt2 md5sum: 52be6950579598a990570fbcf5372184 - - path: ./output/bowtie2/bowtie2/test_genome.rev.2.bt2 + - path: ./output/index/bowtie2/genome.rev.2.bt2 md5sum: e3b4ef343dea4dd571642010a7d09597 diff --git a/tests/software/bowtie2/build_test/main.nf b/tests/software/bowtie2/build_test/main.nf index 770b21f9..206c1683 100644 --- a/tests/software/bowtie2/build_test/main.nf +++ b/tests/software/bowtie2/build_test/main.nf @@ -5,6 +5,7 @@ nextflow.enable.dsl = 2 include { BOWTIE2_BUILD } from '../../../../software/bowtie2/build/main.nf' addParams( options: [:] ) workflow test_bowtie2_build { - fasta = file("${launchDir}/tests/data/genomics/sarscov2/fasta/test_genome.fasta", checkIfExists: true) + fasta = file(params.test_data['sarscov2']['genome']['genome_fasta'], checkIfExists: true) + BOWTIE2_BUILD ( fasta ) } diff --git a/tests/software/bowtie2/build_test/test.yml b/tests/software/bowtie2/build_test/test.yml index 136e7ba8..96385860 100644 --- a/tests/software/bowtie2/build_test/test.yml +++ b/tests/software/bowtie2/build_test/test.yml @@ -4,15 +4,15 @@ - bowtie2 - bowtie2_build files: - - path: ./output/bowtie2/bowtie2/test_genome.3.bt2 + - path: ./output/index/bowtie2/genome.3.bt2 md5sum: 4ed93abba181d8dfab2e303e33114777 - - path: ./output/bowtie2/bowtie2/test_genome.2.bt2 + - path: ./output/index/bowtie2/genome.2.bt2 md5sum: 47b153cd1319abc88dda532462651fcf - - path: ./output/bowtie2/bowtie2/test_genome.1.bt2 + - path: ./output/index/bowtie2/genome.1.bt2 md5sum: cbe3d0bbea55bc57c99b4bfa25b5fbdf - - path: ./output/bowtie2/bowtie2/test_genome.4.bt2 + - path: ./output/index/bowtie2/genome.4.bt2 md5sum: c25be5f8b0378abf7a58c8a880b87626 - - path: ./output/bowtie2/bowtie2/test_genome.rev.1.bt2 + - path: ./output/index/bowtie2/genome.rev.1.bt2 md5sum: 52be6950579598a990570fbcf5372184 - - path: ./output/bowtie2/bowtie2/test_genome.rev.2.bt2 + - path: ./output/index/bowtie2/genome.rev.2.bt2 md5sum: e3b4ef343dea4dd571642010a7d09597 diff --git a/tests/software/bwa/index/main.nf b/tests/software/bwa/index/main.nf index 98106130..db3d0200 100644 --- a/tests/software/bwa/index/main.nf +++ b/tests/software/bwa/index/main.nf @@ -5,5 +5,7 @@ nextflow.enable.dsl = 2 include { BWA_INDEX } from '../../../../software/bwa/index/main.nf' addParams( options: [:] ) workflow test_bwa_index { - BWA_INDEX ( file("${launchDir}/tests/data/genomics/sarscov2/fasta/test_genome.fasta", checkIfExists: true) ) + fasta = file(params.test_data['sarscov2']['genome']['genome_fasta'], checkIfExists: true) + + BWA_INDEX ( fasta ) } diff --git a/tests/software/bwa/index/test.yml b/tests/software/bwa/index/test.yml index a2b074bf..413fa74e 100644 --- a/tests/software/bwa/index/test.yml +++ b/tests/software/bwa/index/test.yml @@ -4,13 +4,13 @@ - bwa - bwa_index files: - - path: ./output/bwa/bwa/test_genome.bwt + - path: ./output/index/bwa/genome.bwt md5sum: 0469c30a1e239dd08f68afe66fde99da - - path: ./output/bwa/bwa/test_genome.amb + - path: ./output/index/bwa/genome.amb md5sum: 3a68b8b2287e07dd3f5f95f4344ba76e - - path: ./output/bwa/bwa/test_genome.sa + - path: ./output/index/bwa/genome.sa md5sum: ab3952cabf026b48cd3eb5bccbb636d1 - - path: ./output/bwa/bwa/test_genome.pac + - path: ./output/index/bwa/genome.pac md5sum: 983e3d2cd6f36e2546e6d25a0da78d66 - - path: ./output/bwa/bwa/test_genome.ann + - path: ./output/index/bwa/genome.ann md5sum: c32e11f6c859f166c7525a9c1d583567 diff --git a/tests/software/bwa/mem/main.nf b/tests/software/bwa/mem/main.nf index f3449fa1..9b65d437 100644 --- a/tests/software/bwa/mem/main.nf +++ b/tests/software/bwa/mem/main.nf @@ -9,31 +9,25 @@ include { BWA_MEM } from '../../../../software/bwa/mem/main.nf' addParams( optio * Test with single-end data */ workflow test_bwa_mem_single_end { - - def input = [] input = [ [ id:'test', single_end:true ], // meta map - [ file("${launchDir}/tests/data/genomics/sarscov2/fastq/test_1.fastq.gz", checkIfExists: true) ] ] + [ file(params.test_data['sarscov2']['illumina']['test_1_fastq_gz'], checkIfExists: true) ] + ] + fasta = file(params.test_data['sarscov2']['genome']['genome_fasta'], checkIfExists: true) - BWA_INDEX ( file("${launchDir}/tests/data/genomics/sarscov2/fasta/test_genome.fasta", checkIfExists: true) ) - BWA_MEM ( - input, - BWA_INDEX.out.index - ) + BWA_INDEX ( fasta ) + BWA_MEM ( input, BWA_INDEX.out.index ) } /* * Test with paired-end data */ workflow test_bwa_mem_paired_end { - - def input = [] input = [ [ id:'test', single_end:false ], // meta map - [ file("${launchDir}/tests/data/genomics/sarscov2/fastq/test_1.fastq.gz", checkIfExists: true), - file("${launchDir}/tests/data/genomics/sarscov2/fastq/test_2.fastq.gz", checkIfExists: true) ] ] + [ file(params.test_data['sarscov2']['illumina']['test_1_fastq_gz'], checkIfExists: true), + file(params.test_data['sarscov2']['illumina']['test_2_fastq_gz'], checkIfExists: true) ] + ] + fasta = file(params.test_data['sarscov2']['genome']['genome_fasta'], checkIfExists: true) - BWA_INDEX ( file("${launchDir}/tests/data/genomics/sarscov2/fasta/test_genome.fasta", checkIfExists: true) ) - BWA_MEM ( - input, - BWA_INDEX.out.index - ) + BWA_INDEX ( fasta ) + BWA_MEM ( input, BWA_INDEX.out.index ) } diff --git a/tests/software/bwa/mem/test.yml b/tests/software/bwa/mem/test.yml index 7cbe6619..aa1f9fbf 100644 --- a/tests/software/bwa/mem/test.yml +++ b/tests/software/bwa/mem/test.yml @@ -6,16 +6,16 @@ - bwa_mem_single_end files: - path: ./output/bwa/test.bam - md5sum: c0d98ef222409eca3b7347bfd91484ba - - path: ./output/bwa/bwa/test_genome.bwt + md5sum: 9165508bf914baee0e6347711aa7b23a + - path: ./output/index/bwa/genome.bwt md5sum: 0469c30a1e239dd08f68afe66fde99da - - path: ./output/bwa/bwa/test_genome.amb + - path: ./output/index/bwa/genome.amb md5sum: 3a68b8b2287e07dd3f5f95f4344ba76e - - path: ./output/bwa/bwa/test_genome.ann + - path: ./output/index/bwa/genome.ann md5sum: c32e11f6c859f166c7525a9c1d583567 - - path: ./output/bwa/bwa/test_genome.pac + - path: ./output/index/bwa/genome.pac md5sum: 983e3d2cd6f36e2546e6d25a0da78d66 - - path: ./output/bwa/bwa/test_genome.sa + - path: ./output/index/bwa/genome.sa md5sum: ab3952cabf026b48cd3eb5bccbb636d1 - name: bwa mem paired-end @@ -26,14 +26,14 @@ - bwa_mem_paired_end files: - path: ./output/bwa/test.bam - md5sum: dcb1c0d42496b582ddb4e8e892b47c4e - - path: ./output/bwa/bwa/test_genome.bwt + md5sum: 670a53bddee62d6bd14ed7adaf103e7c + - path: ./output/index/bwa/genome.bwt md5sum: 0469c30a1e239dd08f68afe66fde99da - - path: ./output/bwa/bwa/test_genome.amb + - path: ./output/index/bwa/genome.amb md5sum: 3a68b8b2287e07dd3f5f95f4344ba76e - - path: ./output/bwa/bwa/test_genome.ann + - path: ./output/index/bwa/genome.ann md5sum: c32e11f6c859f166c7525a9c1d583567 - - path: ./output/bwa/bwa/test_genome.pac + - path: ./output/index/bwa/genome.pac md5sum: 983e3d2cd6f36e2546e6d25a0da78d66 - - path: ./output/bwa/bwa/test_genome.sa + - path: ./output/index/bwa/genome.sa md5sum: ab3952cabf026b48cd3eb5bccbb636d1 diff --git a/tests/software/bwamem2/index/main.nf b/tests/software/bwamem2/index/main.nf index 900aa112..747ecc4f 100644 --- a/tests/software/bwamem2/index/main.nf +++ b/tests/software/bwamem2/index/main.nf @@ -5,5 +5,7 @@ nextflow.enable.dsl = 2 include { BWAMEM2_INDEX } from '../../../../software/bwamem2/index/main.nf' addParams( options: [:] ) workflow test_bwamem2_index { - BWAMEM2_INDEX ( file("${launchDir}/tests/data/genomics/sarscov2/fasta/test_genome.fasta", checkIfExists: true) ) + fasta = file(params.test_data['sarscov2']['genome']['genome_fasta'], checkIfExists: true) + + BWAMEM2_INDEX ( fasta ) } diff --git a/tests/software/bwamem2/index/test.yml b/tests/software/bwamem2/index/test.yml index c5de40a8..7ec9435f 100644 --- a/tests/software/bwamem2/index/test.yml +++ b/tests/software/bwamem2/index/test.yml @@ -4,13 +4,13 @@ - bwamem2 - bwamem2_index files: - - path: ./output/bwamem2/bwamem2/test_genome.fasta.amb + - path: ./output/index/bwamem2/genome.fasta.amb md5sum: 3a68b8b2287e07dd3f5f95f4344ba76e - - path: ./output/bwamem2/bwamem2/test_genome.fasta.pac + - path: ./output/index/bwamem2/genome.fasta.pac md5sum: 983e3d2cd6f36e2546e6d25a0da78d66 - - path: ./output/bwamem2/bwamem2/test_genome.fasta.0123 + - path: ./output/index/bwamem2/genome.fasta.0123 md5sum: b02870de80106104abcb03cd9463e7d8 - - path: ./output/bwamem2/bwamem2/test_genome.fasta.bwt.2bit.64 + - path: ./output/index/bwamem2/genome.fasta.bwt.2bit.64 md5sum: d097a1b82dee375d41a1ea69895a9216 - - path: ./output/bwamem2/bwamem2/test_genome.fasta.ann + - path: ./output/index/bwamem2/genome.fasta.ann md5sum: c32e11f6c859f166c7525a9c1d583567 diff --git a/tests/software/bwamem2/mem/main.nf b/tests/software/bwamem2/mem/main.nf index dba1fa8f..312178fb 100644 --- a/tests/software/bwamem2/mem/main.nf +++ b/tests/software/bwamem2/mem/main.nf @@ -3,37 +3,31 @@ nextflow.enable.dsl = 2 include { BWAMEM2_INDEX } from '../../../../software/bwamem2/index/main.nf' addParams( options: [:] ) -include { BWAMEM2_MEM } from '../../../../software/bwamem2/mem/main.nf' addParams( options: [:] ) +include { BWAMEM2_MEM } from '../../../../software/bwamem2/mem/main.nf' addParams( options: [:] ) /* * Test with single-end data */ workflow test_bwamem2_mem_single_end { - - def input = [] input = [ [ id:'test', single_end:true ], // meta map - [ file("${launchDir}/tests/data/genomics/sarscov2/fastq/test_1.fastq.gz", checkIfExists: true) ] ] + [ file(params.test_data['sarscov2']['illumina']['test_1_fastq_gz'], checkIfExists: true) ] + ] + fasta = file(params.test_data['sarscov2']['genome']['genome_fasta'], checkIfExists: true) - BWAMEM2_INDEX ( file("${launchDir}/tests/data/genomics/sarscov2/fasta/test_genome.fasta", checkIfExists: true) ) - BWAMEM2_MEM ( - input, - BWAMEM2_INDEX.out.index - ) + BWAMEM2_INDEX ( fasta ) + BWAMEM2_MEM ( input, BWAMEM2_INDEX.out.index ) } /* * Test with paired-end data */ workflow test_bwamem2_mem_paired_end { - - def input = [] input = [ [ id:'test', single_end:false ], // meta map - [ file("${launchDir}/tests/data/genomics/sarscov2/fastq/test_1.fastq.gz", checkIfExists: true), - file("${launchDir}/tests/data/genomics/sarscov2/fastq/test_2.fastq.gz", checkIfExists: true) ] ] + [ file(params.test_data['sarscov2']['illumina']['test_1_fastq_gz'], checkIfExists: true), + file(params.test_data['sarscov2']['illumina']['test_2_fastq_gz'], checkIfExists: true) ] + ] + fasta = file(params.test_data['sarscov2']['genome']['genome_fasta'], checkIfExists: true) - BWAMEM2_INDEX ( file("${launchDir}/tests/data/genomics/sarscov2/fasta/test_genome.fasta", checkIfExists: true) ) - BWAMEM2_MEM ( - input, - BWAMEM2_INDEX.out.index - ) + BWAMEM2_INDEX ( fasta ) + BWAMEM2_MEM ( input, BWAMEM2_INDEX.out.index ) } diff --git a/tests/software/bwamem2/mem/test.yml b/tests/software/bwamem2/mem/test.yml index a058115b..f5acaf83 100644 --- a/tests/software/bwamem2/mem/test.yml +++ b/tests/software/bwamem2/mem/test.yml @@ -6,16 +6,16 @@ - bwamem2_mem_single_end files: - path: ./output/bwamem2/test.bam - md5sum: b0823bb56a248a6870be51d26851214e - - path: ./output/bwamem2/bwamem2/test_genome.fasta.amb + md5sum: 2133c011119ea11f06f0a9b1621ba05b + - path: ./output/index/bwamem2/genome.fasta.amb md5sum: 3a68b8b2287e07dd3f5f95f4344ba76e - - path: ./output/bwamem2/bwamem2/test_genome.fasta.pac + - path: ./output/index/bwamem2/genome.fasta.pac md5sum: 983e3d2cd6f36e2546e6d25a0da78d66 - - path: ./output/bwamem2/bwamem2/test_genome.fasta.0123 + - path: ./output/index/bwamem2/genome.fasta.0123 md5sum: b02870de80106104abcb03cd9463e7d8 - - path: ./output/bwamem2/bwamem2/test_genome.fasta.bwt.2bit.64 + - path: ./output/index/bwamem2/genome.fasta.bwt.2bit.64 md5sum: d097a1b82dee375d41a1ea69895a9216 - - path: ./output/bwamem2/bwamem2/test_genome.fasta.ann + - path: ./output/index/bwamem2/genome.fasta.ann md5sum: c32e11f6c859f166c7525a9c1d583567 - name: bwamem2 mem paired-end @@ -26,14 +26,14 @@ - bwamem2_mem_paired_end files: - path: ./output/bwamem2/test.bam - md5sum: bd938bf4038759be9c872394927eec05 - - path: ./output/bwamem2/bwamem2/test_genome.fasta.amb + md5sum: d8fadab5cef04faff1851a8162fc30b5 + - path: ./output/index/bwamem2/genome.fasta.amb md5sum: 3a68b8b2287e07dd3f5f95f4344ba76e - - path: ./output/bwamem2/bwamem2/test_genome.fasta.pac + - path: ./output/index/bwamem2/genome.fasta.pac md5sum: 983e3d2cd6f36e2546e6d25a0da78d66 - - path: ./output/bwamem2/bwamem2/test_genome.fasta.0123 + - path: ./output/index/bwamem2/genome.fasta.0123 md5sum: b02870de80106104abcb03cd9463e7d8 - - path: ./output/bwamem2/bwamem2/test_genome.fasta.bwt.2bit.64 + - path: ./output/index/bwamem2/genome.fasta.bwt.2bit.64 md5sum: d097a1b82dee375d41a1ea69895a9216 - - path: ./output/bwamem2/bwamem2/test_genome.fasta.ann + - path: ./output/index/bwamem2/genome.fasta.ann md5sum: c32e11f6c859f166c7525a9c1d583567 diff --git a/tests/software/bwameth/align/main.nf b/tests/software/bwameth/align/main.nf index 1acd7741..83f43a57 100644 --- a/tests/software/bwameth/align/main.nf +++ b/tests/software/bwameth/align/main.nf @@ -2,7 +2,7 @@ nextflow.enable.dsl = 2 -include { BWAMETH_INDEX } from '../../../../software/bwameth/index/main.nf' addParams( options: [:] ) +include { BWAMETH_INDEX } from '../../../../software/bwameth/index/main.nf' addParams( options: [:] ) include { BWAMETH_ALIGN as BWAMETH_ALIGN_SE } from '../../../../software/bwameth/align/main.nf' addParams( options: [ publish_dir:'test_single_end' ] ) include { BWAMETH_ALIGN as BWAMETH_ALIGN_PE } from '../../../../software/bwameth/align/main.nf' addParams( options: [ publish_dir:'test_paired_end' ] ) @@ -10,32 +10,25 @@ include { BWAMETH_ALIGN as BWAMETH_ALIGN_PE } from '../../../../software/bwameth * Test with single-end data */ workflow test_bwameth_align_single_end { - - def input = [] input = [ [ id:'test', single_end:true ], // meta map - [ file("${launchDir}/tests/data/genomics/sarscov2/fastq/test_methylated_1.fastq.gz", checkIfExists: true) ] ] + [ file(params.test_data['sarscov2']['illumina']['test_methylated_1_fastq_gz'], checkIfExists: true) ] + ] + fasta = file(params.test_data['sarscov2']['genome']['genome_fasta'], checkIfExists: true) - - BWAMETH_INDEX ( file("${launchDir}/tests/data/genomics/sarscov2/fasta/test_genome.fasta", checkIfExists: true) ) - BWAMETH_ALIGN_SE ( - input, - BWAMETH_INDEX.out.index - ) + BWAMETH_INDEX ( fasta ) + BWAMETH_ALIGN_SE ( input, BWAMETH_INDEX.out.index ) } /* * Test with paired-end data */ workflow test_bwameth_align_paired_end { - - def input = [] input = [ [ id:'test', single_end:false ], // meta map - [ file("${launchDir}/tests/data/genomics/sarscov2/fastq/test_methylated_1.fastq.gz", checkIfExists: true), - file("${launchDir}/tests/data/genomics/sarscov2/fastq/test_methylated_2.fastq.gz", checkIfExists: true) ] ] + [ file(params.test_data['sarscov2']['illumina']['test_methylated_1_fastq_gz'], checkIfExists: true), + file(params.test_data['sarscov2']['illumina']['test_methylated_2_fastq_gz'], checkIfExists: true) ] + ] + fasta = file(params.test_data['sarscov2']['genome']['genome_fasta'], checkIfExists: true) - BWAMETH_INDEX ( file("${launchDir}/tests/data/genomics/sarscov2/fasta/test_genome.fasta", checkIfExists: true) ) - BWAMETH_ALIGN_PE ( - input, - BWAMETH_INDEX.out.index - ) + BWAMETH_INDEX ( fasta ) + BWAMETH_ALIGN_PE ( input, BWAMETH_INDEX.out.index ) } diff --git a/tests/software/bwameth/index/main.nf b/tests/software/bwameth/index/main.nf index ca89b927..92e8ccd6 100644 --- a/tests/software/bwameth/index/main.nf +++ b/tests/software/bwameth/index/main.nf @@ -5,6 +5,7 @@ nextflow.enable.dsl = 2 include { BWAMETH_INDEX } from '../../../../software/bwameth/index/main.nf' addParams( options: [:] ) workflow test_bwameth_index { + fasta = file(params.test_data['sarscov2']['genome']['genome_fasta'], checkIfExists: true) - BWAMETH_INDEX ( file("${launchDir}/tests/data/genomics/sarscov2/fasta/test_genome.fasta", checkIfExists: true) ) + BWAMETH_INDEX ( fasta ) } diff --git a/tests/software/bwameth/index/test.yml b/tests/software/bwameth/index/test.yml index 3375a8b1..79a53e50 100644 --- a/tests/software/bwameth/index/test.yml +++ b/tests/software/bwameth/index/test.yml @@ -4,15 +4,15 @@ - bwameth - bwameth_index files: - - path: ./output/bwameth/bwameth/test_genome.fasta.bwameth.c2t + - path: ./output/index/bwameth/genome.fasta.bwameth.c2t md5sum: 98039984526a41d04d6bd92fcc040c62 - - path: ./output/bwameth/bwameth/test_genome.fasta.bwameth.c2t.pac + - path: ./output/index/bwameth/genome.fasta.bwameth.c2t.pac md5sum: 4d8e51cb0bbdeaf24576bdf0264d8653 - - path: ./output/bwameth/bwameth/test_genome.fasta.bwameth.c2t.amb + - path: ./output/index/bwameth/genome.fasta.bwameth.c2t.amb md5sum: 249a4195069071ce47cd0bae68abe376 - - path: ./output/bwameth/bwameth/test_genome.fasta.bwameth.c2t.ann + - path: ./output/index/bwameth/genome.fasta.bwameth.c2t.ann md5sum: 46524d4359dcdfb203a235ab3b930dbb - - path: ./output/bwameth/bwameth/test_genome.fasta.bwameth.c2t.bwt + - path: ./output/index/bwameth/genome.fasta.bwameth.c2t.bwt md5sum: 84f65df7d42dbe84c9ccfaddfdd5ea6b - - path: ./output/bwameth/bwameth/test_genome.fasta.bwameth.c2t.sa + - path: ./output/index/bwameth/genome.fasta.bwameth.c2t.sa md5sum: d25f6486f5134f57ed5b258f6fbb8673 diff --git a/tests/software/cat/fastq/main.nf b/tests/software/cat/fastq/main.nf index 5cd4ee9e..9860f694 100644 --- a/tests/software/cat/fastq/main.nf +++ b/tests/software/cat/fastq/main.nf @@ -5,23 +5,21 @@ nextflow.enable.dsl = 2 include { CAT_FASTQ } from '../../../../software/cat/fastq/main.nf' addParams( options: [:] ) workflow test_cat_fastq_single_end { - - def input = [] input = [ [ id:'test', single_end:true ], // meta map - [ file("${launchDir}/tests/data/genomics/sarscov2/fastq/test_1.fastq.gz", checkIfExists: true), - file("${launchDir}/tests/data/genomics/sarscov2/fastq/test2_1.fastq.gz", checkIfExists: true) ]] + [ file(params.test_data['sarscov2']['illumina']['test_1_fastq_gz'], checkIfExists: true), + file(params.test_data['sarscov2']['illumina']['test2_1_fastq_gz'], checkIfExists: true) ] + ] CAT_FASTQ ( input ) } workflow test_cat_fastq_paired_end { - - def input = [] input = [ [ id:'test', single_end:false ], // meta map - [ file("${launchDir}/tests/data/genomics/sarscov2/fastq/test_1.fastq.gz", checkIfExists: true), - file("${launchDir}/tests/data/genomics/sarscov2/fastq/test_2.fastq.gz", checkIfExists: true), - file("${launchDir}/tests/data/genomics/sarscov2/fastq/test2_1.fastq.gz", checkIfExists: true), - file("${launchDir}/tests/data/genomics/sarscov2/fastq/test2_2.fastq.gz", checkIfExists: true) ]] + [ file(params.test_data['sarscov2']['illumina']['test_1_fastq_gz'], checkIfExists: true), + file(params.test_data['sarscov2']['illumina']['test_2_fastq_gz'], checkIfExists: true), + file(params.test_data['sarscov2']['illumina']['test2_1_fastq_gz'], checkIfExists: true), + file(params.test_data['sarscov2']['illumina']['test2_2_fastq_gz'], checkIfExists: true) ] + ] CAT_FASTQ ( input ) } diff --git a/tests/software/cnvkit/main.nf b/tests/software/cnvkit/main.nf new file mode 100755 index 00000000..6f922af1 --- /dev/null +++ b/tests/software/cnvkit/main.nf @@ -0,0 +1,19 @@ +#!/usr/bin/env nextflow + +nextflow.enable.dsl = 2 + +include { CNVKIT } from '../../../software/cnvkit/main.nf' addParams( options: [ 'args': '--output-reference reference.cnn' ] ) + +workflow test_cnvkit { + tumourbam = file(params.test_data['sarscov2']['illumina']['test_paired_end_sorted_bam'], checkIfExists: true) + normalbam = file(params.test_data['sarscov2']['illumina']['test_single_end_sorted_bam'], checkIfExists: true) + + input = [ [ id:'test' ], // meta map + tumourbam, + normalbam + ] + fasta = file(params.test_data['sarscov2']['genome']['genome_fasta'], checkIfExists: true) + targets = file(params.test_data['sarscov2']['genome']['baits_bed'], checkIfExists: true) + + CNVKIT ( input, fasta, targets ) +} diff --git a/tests/software/cnvkit/test.yml b/tests/software/cnvkit/test.yml new file mode 100755 index 00000000..dbfbee33 --- /dev/null +++ b/tests/software/cnvkit/test.yml @@ -0,0 +1,27 @@ +- name: cnvkit + command: nextflow run ./tests/software/cnvkit/ -entry test_cnvkit -c tests/config/nextflow.config + tags: + - cnvkit + files: + - path: output/cnvkit/baits.target.bed + md5sum: 26d25ff2d6c45b6d92169b3559c6acdb + - path: output/cnvkit/baits.antitarget.bed + md5sum: d41d8cd98f00b204e9800998ecf8427e + - path: output/cnvkit/reference.cnn + md5sum: ac99c1ad8b917b96ae15119146c91ab9 + - path: output/cnvkit/test_paired_end.sorted.targetcoverage.cnn + md5sum: 3fe80b6013ffc3e9968345e810158215 + - path: output/cnvkit/test_paired_end.sorted.antitargetcoverage.cnn + md5sum: 203caf8cef6935bb50b4138097955cb8 + - path: output/cnvkit/test_single_end.sorted.targetcoverage.cnn + md5sum: aa8a018b1d4d1e688c9f9f6ae01bf4d7 + - path: output/cnvkit/test_single_end.sorted.antitargetcoverage.cnn + md5sum: 203caf8cef6935bb50b4138097955cb8 + - path: output/cnvkit/test_paired_end.sorted.cnr + md5sum: 7e37d73ab604dbc3fe4ebb56aca9bdc3 + - path: output/cnvkit/test_paired_end.sorted.cns + md5sum: 060af1aa637ed51812af19bcce24fcfe + - path: output/cnvkit/test_paired_end.sorted.bintest.cns + md5sum: 6544d979475def8a9f69ba42a985668d + - path: output/cnvkit/test_paired_end.sorted.call.cns + md5sum: f2ca59b4d50b0c317adc526c1b99b622 diff --git a/tests/software/cutadapt/main.nf b/tests/software/cutadapt/main.nf index d82040d5..4e44300d 100644 --- a/tests/software/cutadapt/main.nf +++ b/tests/software/cutadapt/main.nf @@ -8,11 +8,11 @@ include { CUTADAPT } from '../../../software/cutadapt/main.nf' addParams( optio * Test with single-end data */ workflow test_cutadapt_single_end { - - def input = [] input = [ [ id:'test', single_end:true ], // meta map - [ file("${launchDir}/tests/data/genomics/sarscov2/fastq/test_1.fastq.gz", checkIfExists: true) ] ] - CUTADAPT( input ) + [ file(params.test_data['sarscov2']['illumina']['test_1_fastq_gz'], checkIfExists: true) ] + ] + + CUTADAPT ( input ) } /* @@ -20,11 +20,11 @@ workflow test_cutadapt_single_end { */ workflow test_cutadapt_paired_end { - - def input = [] input = [ [ id:'test', single_end:false ], // meta map - [ file("${launchDir}/tests/data/genomics/sarscov2/fastq/test_1.fastq.gz", checkIfExists: true), - file("${launchDir}/tests/data/genomics/sarscov2/fastq/test_2.fastq.gz", checkIfExists: true) ] ] - CUTADAPT( input ) + [ file(params.test_data['sarscov2']['illumina']['test_1_fastq_gz'], checkIfExists: true), + file(params.test_data['sarscov2']['illumina']['test_2_fastq_gz'], checkIfExists: true) ] + ] + + CUTADAPT ( input ) } diff --git a/tests/software/dsh/filterbed/main.nf b/tests/software/dsh/filterbed/main.nf index b036150e..c3b9cadb 100644 --- a/tests/software/dsh/filterbed/main.nf +++ b/tests/software/dsh/filterbed/main.nf @@ -5,10 +5,9 @@ nextflow.enable.dsl = 2 include { DSH_FILTERBED } from '../../../../software/dsh/filterbed/main.nf' addParams( options: [suffix: '.filtered', args: '--range chr1:0-1000'] ) workflow test_dsh_filterbed { - - def input = [] input = [ [ id:'test' ], // meta map - [ file("${launchDir}/tests/data/genomics/sarscov2/bed/test.bed", checkIfExists: true) ] ] + [ file(params.test_data['sarscov2']['genome']['test_bed'], checkIfExists: true) ] + ] DSH_FILTERBED ( input ) } diff --git a/tests/software/dsh/splitbed/main.nf b/tests/software/dsh/splitbed/main.nf index 4dbca4d6..11d0861e 100644 --- a/tests/software/dsh/splitbed/main.nf +++ b/tests/software/dsh/splitbed/main.nf @@ -5,10 +5,9 @@ nextflow.enable.dsl = 2 include { DSH_SPLITBED } from '../../../../software/dsh/splitbed/main.nf' addParams( options: [suffix: '.', args: '--records 2'] ) workflow test_dsh_splitbed { - - def input = [] input = [ [ id:'test' ], // meta map - [ file("${launchDir}/tests/data/genomics/sarscov2/bed/test.bed", checkIfExists: true) ] ] + [ file(params.test_data['sarscov2']['genome']['test_bed'], checkIfExists: true) ] + ] DSH_SPLITBED ( input ) } diff --git a/tests/software/fastp/main.nf b/tests/software/fastp/main.nf index 29f1c60b..492cb668 100644 --- a/tests/software/fastp/main.nf +++ b/tests/software/fastp/main.nf @@ -8,10 +8,10 @@ include { FASTP } from '../../../software/fastp/main.nf' addParams( options: [: * Test with single-end data */ workflow test_fastp_single_end { - - def input = [] input = [ [ id:'test', single_end:true ], // meta map - [ file("${launchDir}/tests/data/genomics/sarscov2/fastq/test_1.fastq.gz", checkIfExists: true) ] ] + [ file(params.test_data['sarscov2']['illumina']['test_1_fastq_gz'], checkIfExists: true) ] + ] + FASTP ( input ) } @@ -19,11 +19,11 @@ workflow test_fastp_single_end { * Test with paired-end data */ workflow test_fastp_paired_end { - - def input = [] input = [ [ id:'test', single_end:false ], // meta map - [ file("${launchDir}/tests/data/genomics/sarscov2/fastq/test_1.fastq.gz", checkIfExists: true), - file("${launchDir}/tests/data/genomics/sarscov2/fastq/test_2.fastq.gz", checkIfExists: true) ] ] + [ file(params.test_data['sarscov2']['illumina']['test_1_fastq_gz'], checkIfExists: true), + file(params.test_data['sarscov2']['illumina']['test_2_fastq_gz'], checkIfExists: true) ] + ] + FASTP ( input ) } diff --git a/tests/software/fastp/test.yml b/tests/software/fastp/test.yml index 8e03c32f..a2d14b19 100644 --- a/tests/software/fastp/test.yml +++ b/tests/software/fastp/test.yml @@ -1,25 +1,40 @@ -- name: fastp single-end - command: nextflow run ./tests/software/fastp -entry test_fastp_single_end -c ./tests/config/nextflow.config +- name: fastp test_fastp_single_end + command: nextflow run tests/software/fastp -entry test_fastp_single_end -c tests/config/nextflow.config tags: - - fastp - fastp_single_end - files: - - path: ./output/fastp/test.fastp.html - - path: ./output/fastp/test.fastp.log - - path: ./output/fastp/test.trim.fastq.gz - md5sum: e2257263668dc8a75d95475099fb472d - - path: ./output/fastp/test.fastp.json - -- name: fastp paired-end - command: nextflow run ./tests/software/fastp -entry test_fastp_paired_end -c ./tests/config/nextflow.config - tags: - fastp - - fastp_paired_end files: - - path: ./output/fastp/test.fastp.html - - path: ./output/fastp/test.fastp.log - - path: ./output/fastp/test.fastp.json - - path: ./output/fastp/test_1.trim.fastq.gz + - path: output/fastp/test.fastp.html + contains: + - "Q20 bases:12.922000 K (92.984097%)" + - "single end (151 cycles)" + - path: output/fastp/test.fastp.log + contains: + - "Q20 bases: 12922(92.9841%)" + - "reads passed filter: 99" + - path: output/fastp/test.trim.fastq.gz md5sum: e2257263668dc8a75d95475099fb472d - - path: ./output/fastp/test_2.trim.fastq.gz + - path: output/fastp/test.fastp.json + md5sum: e0d856ebb3da9e4462c3ce9683efe01d + +- name: fastp test_fastp_paired_end + command: nextflow run tests/software/fastp -entry test_fastp_paired_end -c tests/config/nextflow.config + tags: + - fastp_paired_end + - fastp + files: + - path: output/fastp/test.fastp.html + contains: + - "Q20 bases:25.719000 K (93.033098%)" + - "The input has little adapter percentage (~0.000000%), probably it's trimmed before." + - path: output/fastp/test.fastp.log + contains: + - "No adapter detected for read1" + - "Q30 bases: 12281(88.3716%)" + - path: output/fastp/test.fastp.json + contains: + - '"passed_filter_reads": 198' + - path: output/fastp/test_1.trim.fastq.gz + md5sum: e2257263668dc8a75d95475099fb472d + - path: output/fastp/test_2.trim.fastq.gz md5sum: 9eff7203596580cc5e42aceab4a469df diff --git a/tests/software/fastqc/main.nf b/tests/software/fastqc/main.nf index f10b2357..5766f9b4 100644 --- a/tests/software/fastqc/main.nf +++ b/tests/software/fastqc/main.nf @@ -8,10 +8,10 @@ include { FASTQC } from '../../../software/fastqc/main.nf' addParams( options: [ * Test with single-end data */ workflow test_fastqc_single_end { - - def input = [] input = [ [ id:'test', single_end:true ], // meta map - [ file("${launchDir}/tests/data/genomics/sarscov2/fastq/test_1.fastq.gz", checkIfExists: true) ] ] + [ file(params.test_data['sarscov2']['illumina']['test_1_fastq_gz'], checkIfExists: true) ] + ] + FASTQC ( input ) } @@ -19,10 +19,10 @@ workflow test_fastqc_single_end { * Test with paired-end data */ workflow test_fastqc_paired_end { + input = [ [id: 'test', single_end: false], // meta map + [ file(params.test_data['sarscov2']['illumina']['test_1_fastq_gz'], checkIfExists: true), + file(params.test_data['sarscov2']['illumina']['test_2_fastq_gz'], checkIfExists: true) ] + ] - def input = [] - input = [[id: 'test', single_end: false], // meta map - [file("${launchDir}/tests/data/genomics/sarscov2/fastq/test_1.fastq.gz", checkIfExists: true), - file("${launchDir}/tests/data/genomics/sarscov2/fastq/test_2.fastq.gz", checkIfExists: true)]] - FASTQC (input) + FASTQC ( input ) } diff --git a/tests/software/fgbio/callmolecularconsensusreads/main.nf b/tests/software/fgbio/callmolecularconsensusreads/main.nf new file mode 100644 index 00000000..a76e1501 --- /dev/null +++ b/tests/software/fgbio/callmolecularconsensusreads/main.nf @@ -0,0 +1,13 @@ +#!/usr/bin/env nextflow + +nextflow.enable.dsl = 2 + +include { FGBIO_SORTBAM } from '../../../../software/fgbio/sortbam/main.nf' addParams( options: [args: '-s TemplateCoordinate', suffix: '_out'] ) +include { FGBIO_CALLMOLECULARCONSENSUSREADS } from '../../../../software/fgbio/callmolecularconsensusreads/main.nf' addParams( options: [args: '-M 1', suffix: '_molreads'] ) + +workflow test_fgbio_callmolecularconsensusreads { + input = [ [ id:'test' ], // meta map + file(params.test_data['sarscov2']['illumina']['test_single_end_bam'], checkIfExists: true) ] + FGBIO_SORTBAM ( input ) + FGBIO_CALLMOLECULARCONSENSUSREADS ( FGBIO_SORTBAM.out.bam ) +} diff --git a/tests/software/fgbio/callmolecularconsensusreads/test.yml b/tests/software/fgbio/callmolecularconsensusreads/test.yml new file mode 100644 index 00000000..ed2f80eb --- /dev/null +++ b/tests/software/fgbio/callmolecularconsensusreads/test.yml @@ -0,0 +1,10 @@ +- name: fgbio callmolecularconsensusreads + command: nextflow run tests/software/fgbio/callmolecularconsensusreads -entry test_fgbio_callmolecularconsensusreads -c tests/config/nextflow.config + tags: + - fgbio_callmolecularconsensusreads + - fgbio + files: + - path: output/fgbio/test_molreads.bam + md5sum: 7010bcdc037c36af13dbc370c06c76d3 + - path: output/fgbio/test_out.bam + md5sum: d84e28fecc90c0752c543e934f10aa31 diff --git a/tests/software/fgbio/sortbam/main.nf b/tests/software/fgbio/sortbam/main.nf new file mode 100644 index 00000000..3b1653a9 --- /dev/null +++ b/tests/software/fgbio/sortbam/main.nf @@ -0,0 +1,11 @@ +#!/usr/bin/env nextflow + +nextflow.enable.dsl = 2 + +include { FGBIO_SORTBAM } from '../../../../software/fgbio/sortbam/main.nf' addParams( options: [:] ) + +workflow test_fgbio_sortbam { + input = [ [ id:'test' ], // meta map + file(params.test_data['sarscov2']['illumina']['test_paired_end_sorted_bam'], checkIfExists: true) ] + FGBIO_SORTBAM ( input ) +} diff --git a/tests/software/fgbio/sortbam/test.yml b/tests/software/fgbio/sortbam/test.yml new file mode 100644 index 00000000..7e70189f --- /dev/null +++ b/tests/software/fgbio/sortbam/test.yml @@ -0,0 +1,8 @@ +- name: fgbio sortbam + command: nextflow run tests/software/fgbio/sortbam -entry test_fgbio_sortbam -c tests/config/nextflow.config + tags: + - fgbio_sortbam + - fgbio + files: + - path: output/fgbio/test.bam + md5sum: 56987f74214cdc72ae840e0007ff4935 diff --git a/tests/software/flash/main.nf b/tests/software/flash/main.nf new file mode 100644 index 00000000..85107ceb --- /dev/null +++ b/tests/software/flash/main.nf @@ -0,0 +1,14 @@ +#!/usr/bin/env nextflow + +nextflow.enable.dsl = 2 + +include { FLASH } from '../../../software/flash/main.nf' addParams( options: [args:'-m 20 -M 100'] ) + +workflow test_flash { + input = [ [ id:'test', single_end:false ], // meta map + [ file("${launchDir}/tests/data/genomics/sarscov2/illumina/fastq/test_1.fastq.gz", checkIfExists: true), + file("${launchDir}/tests/data/genomics/sarscov2/illumina/fastq/test_2.fastq.gz", checkIfExists: true) ] + ] + + FLASH ( input ) +} diff --git a/tests/software/flash/test.yml b/tests/software/flash/test.yml new file mode 100644 index 00000000..411f4d69 --- /dev/null +++ b/tests/software/flash/test.yml @@ -0,0 +1,11 @@ +- name: flash test_flash + command: nextflow run tests/software/flash -entry test_flash -c tests/config/nextflow.config + tags: + - flash + files: + - path: output/flash/test.merged.notCombined_2.fastq.gz + md5sum: 96ec044281fe60e0061976d928810314 + - path: output/flash/test.merged.extendedFrags.fastq.gz + md5sum: da20afa705e8ea881e66960bb75607c9 + - path: output/flash/test.merged.notCombined_1.fastq.gz + md5sum: 32451c87f89172c764bec19136592d29 diff --git a/tests/software/gatk4/applybqsr/main.nf b/tests/software/gatk4/applybqsr/main.nf new file mode 100644 index 00000000..2d3e532c --- /dev/null +++ b/tests/software/gatk4/applybqsr/main.nf @@ -0,0 +1,30 @@ +#!/usr/bin/env nextflow + +nextflow.enable.dsl = 2 + +include { GATK4_APPLYBQSR } from '../../../../software/gatk4/applybqsr/main.nf' addParams( options: [:] ) + +workflow test_gatk4_applybqsr { + input = [ [ id:'test' ], // meta map + file(params.test_data['sarscov2']['illumina']['test_paired_end_sorted_bam'], checkIfExists: true), + file(params.test_data['sarscov2']['illumina']['test_baserecalibrator_table'], checkIfExists: true) + ] + fasta = file(params.test_data['sarscov2']['genome']['genome_fasta'], checkIfExists: true) + fai = file(params.test_data['sarscov2']['genome']['genome_fasta_fai'], checkIfExists: true) + dict = file(params.test_data['sarscov2']['genome']['genome_dict'], checkIfExists: true) + + GATK4_APPLYBQSR ( input, fasta, fai, dict, [] ) +} + +workflow test_gatk4_applybqsr_intervals { + input = [ [ id:'test' ], // meta map + file(params.test_data['sarscov2']['illumina']['test_paired_end_sorted_bam'], checkIfExists: true), + file(params.test_data['sarscov2']['illumina']['test_baserecalibrator_table'], checkIfExists: true) + ] + fasta = file(params.test_data['sarscov2']['genome']['genome_fasta'], checkIfExists: true) + fai = file(params.test_data['sarscov2']['genome']['genome_fasta_fai'], checkIfExists: true) + dict = file(params.test_data['sarscov2']['genome']['genome_dict'], checkIfExists: true) + intervals = file(params.test_data['sarscov2']['genome']['test_bed'], checkIfExists: true) + + GATK4_APPLYBQSR ( input, fasta, fai, dict, intervals ) +} diff --git a/tests/software/gatk4/applybqsr/test.yml b/tests/software/gatk4/applybqsr/test.yml new file mode 100644 index 00000000..b17ffbe2 --- /dev/null +++ b/tests/software/gatk4/applybqsr/test.yml @@ -0,0 +1,18 @@ +- name: gatk4 applybqsr test_gatk4_applybqsr + command: nextflow run tests/software/gatk4/applybqsr -entry test_gatk4_applybqsr -c tests/config/nextflow.config + tags: + - gatk4_applybqsr + - gatk4 + files: + - path: output/gatk4/test.bam + md5sum: 139a5ffc7601ce3cfa7a896cd381542a + +- name: gatk4 applybqsr test_gatk4_applybqsr_intervals + command: nextflow run tests/software/gatk4/applybqsr -entry test_gatk4_applybqsr_intervals -c tests/config/nextflow.config + tags: + - gatk4_applybqsr + - gatk4_applybqsr_intervals + - gatk4 + files: + - path: output/gatk4/test.bam + md5sum: 5b1f6fa2525124c281f71e5a76d28482 diff --git a/tests/software/gatk4/baserecalibrator/main.nf b/tests/software/gatk4/baserecalibrator/main.nf new file mode 100644 index 00000000..302ddb1f --- /dev/null +++ b/tests/software/gatk4/baserecalibrator/main.nf @@ -0,0 +1,49 @@ +#!/usr/bin/env nextflow + +nextflow.enable.dsl = 2 + +include { GATK4_BASERECALIBRATOR } from '../../../../software/gatk4/baserecalibrator/main.nf' addParams( options: [:] ) + +workflow test_gatk4_baserecalibrator { + input = [ [ id:'test' ], // meta map + file(params.test_data['sarscov2']['illumina']['test_paired_end_sorted_bam'], checkIfExists: true) + ] + fasta = file(params.test_data['sarscov2']['genome']['genome_fasta'], checkIfExists: true) + fai = file(params.test_data['sarscov2']['genome']['genome_fasta_fai'], checkIfExists: true) + dict = file(params.test_data['sarscov2']['genome']['genome_dict'], checkIfExists: true) + sites = file(params.test_data['sarscov2']['illumina']['test_vcf_gz'], checkIfExists: true) + sites_tbi = file(params.test_data['sarscov2']['illumina']['test_vcf_gz_tbi'], checkIfExists: true) + + GATK4_BASERECALIBRATOR ( input, fasta, fai, dict, [], sites, sites_tbi ) +} + +workflow test_gatk4_baserecalibrator_intervals { + input = [ [ id:'test' ], // meta map + file(params.test_data['sarscov2']['illumina']['test_paired_end_sorted_bam'], checkIfExists: true) + ] + fasta = file(params.test_data['sarscov2']['genome']['genome_fasta'], checkIfExists: true) + fai = file(params.test_data['sarscov2']['genome']['genome_fasta_fai'], checkIfExists: true) + dict = file(params.test_data['sarscov2']['genome']['genome_dict'], checkIfExists: true) + intervals = file(params.test_data['sarscov2']['genome']['test_bed'], checkIfExists: true) + sites = file(params.test_data['sarscov2']['illumina']['test_vcf_gz'], checkIfExists: true) + sites_tbi = file(params.test_data['sarscov2']['illumina']['test_vcf_gz_tbi'], checkIfExists: true) + + GATK4_BASERECALIBRATOR ( input, fasta, fai, dict, intervals, sites, sites_tbi ) +} + +workflow test_gatk4_baserecalibrator_multiple_sites { + input = [ [ id:'test' ], // meta map + file(params.test_data['sarscov2']['illumina']['test_paired_end_sorted_bam'], checkIfExists: true) + ] + fasta = file(params.test_data['sarscov2']['genome']['genome_fasta'], checkIfExists: true) + fai = file(params.test_data['sarscov2']['genome']['genome_fasta_fai'], checkIfExists: true) + dict = file(params.test_data['sarscov2']['genome']['genome_dict'], checkIfExists: true) + sites = [ file(params.test_data['sarscov2']['illumina']['test_vcf_gz'], checkIfExists: true), + file(params.test_data['sarscov2']['illumina']['test2_vcf_gz'], checkIfExists: true) + ] + sites_tbi = [ file(params.test_data['sarscov2']['illumina']['test_vcf_gz_tbi'], checkIfExists: true), + file(params.test_data['sarscov2']['illumina']['test2_vcf_gz_tbi'], checkIfExists: true) + ] + + GATK4_BASERECALIBRATOR ( input, fasta, fai, dict, [], sites, sites_tbi ) +} diff --git a/tests/software/gatk4/baserecalibrator/test.yml b/tests/software/gatk4/baserecalibrator/test.yml new file mode 100644 index 00000000..c0011152 --- /dev/null +++ b/tests/software/gatk4/baserecalibrator/test.yml @@ -0,0 +1,28 @@ +- name: gatk4 baserecalibrator test_gatk4_baserecalibrator + command: nextflow run tests/software/gatk4/baserecalibrator -entry test_gatk4_baserecalibrator -c tests/config/nextflow.config + tags: + - gatk4_baserecalibrator + - gatk4 + files: + - path: output/gatk4/test.table + md5sum: e2e43abdc0c943c1a54dae816d0b9ea7 + +- name: gatk4 baserecalibrator test_gatk4_baserecalibrator_intervals + command: nextflow run tests/software/gatk4/baserecalibrator -entry test_gatk4_baserecalibrator_intervals -c tests/config/nextflow.config + tags: + - gatk4_baserecalibrator_intervals + - gatk4_baserecalibrator + - gatk4 + files: + - path: output/gatk4/test.table + md5sum: 9ecb5f00a2229291705addc09c0ec231 + +- name: gatk4 baserecalibrator test_gatk4_baserecalibrator_multiple_sites + command: nextflow run tests/software/gatk4/baserecalibrator -entry test_gatk4_baserecalibrator_multiple_sites -c tests/config/nextflow.config + tags: + - gatk4_baserecalibrator_multiple_sites + - gatk4_baserecalibrator + - gatk4 + files: + - path: output/gatk4/test.table + md5sum: e2e43abdc0c943c1a54dae816d0b9ea7 diff --git a/tests/software/gatk4/bedtointervallist/main.nf b/tests/software/gatk4/bedtointervallist/main.nf index 3069b235..37cb164d 100644 --- a/tests/software/gatk4/bedtointervallist/main.nf +++ b/tests/software/gatk4/bedtointervallist/main.nf @@ -5,12 +5,10 @@ nextflow.enable.dsl = 2 include { GATK4_BEDTOINTERVALLIST } from '../../../../software/gatk4/bedtointervallist/main.nf' addParams( options: [:] ) workflow test_gatk4_bedtointervallist { - - def input = [] input = [ [ id:'test' ], // meta map - [ file("${launchDir}/tests/data/genomics/sarscov2/bed/test.bed", checkIfExists: true)] ] + [ file(params.test_data['sarscov2']['genome']['test_bed'], checkIfExists: true) ] + ] + dict = file(params.test_data['sarscov2']['genome']['genome_dict'], checkIfExists: true) - sd = file("${launchDir}/tests/data/genomics/sarscov2/fasta/test_genome.dict", checkIfExists: true) - - GATK4_BEDTOINTERVALLIST ( input, sd ) + GATK4_BEDTOINTERVALLIST ( input, dict ) } diff --git a/tests/software/gatk4/bedtointervallist/test.yml b/tests/software/gatk4/bedtointervallist/test.yml index 6612cd19..a8bb7bf0 100644 --- a/tests/software/gatk4/bedtointervallist/test.yml +++ b/tests/software/gatk4/bedtointervallist/test.yml @@ -1,5 +1,5 @@ -- name: gatk4 bedtointervallist - command: nextflow run ./tests/software/gatk4/bedtointervallist -entry test_gatk4_bedtointervallist -c tests/config/nextflow.config +- name: gatk4 bedtointervallist test_gatk4_bedtointervallist + command: nextflow run tests/software/gatk4/bedtointervallist -entry test_gatk4_bedtointervallist -c tests/config/nextflow.config tags: - gatk4 - gatk4_bedtointervallist diff --git a/tests/software/gatk4/createsequencedictionary/main.nf b/tests/software/gatk4/createsequencedictionary/main.nf index da0427bf..ff798693 100644 --- a/tests/software/gatk4/createsequencedictionary/main.nf +++ b/tests/software/gatk4/createsequencedictionary/main.nf @@ -5,5 +5,7 @@ nextflow.enable.dsl = 2 include { GATK4_CREATESEQUENCEDICTIONARY } from '../../../../software/gatk4/createsequencedictionary/main.nf' addParams( options: [:] ) workflow test_gatk4_createsequencedictionary { - GATK4_CREATESEQUENCEDICTIONARY ( file("${launchDir}/tests/data/genomics/sarscov2/fasta/test_genome.fasta", checkIfExists: true) ) + fasta = file(params.test_data['sarscov2']['genome']['genome_fasta'], checkIfExists: true) + + GATK4_CREATESEQUENCEDICTIONARY ( fasta ) } diff --git a/tests/software/gatk4/createsequencedictionary/test.yml b/tests/software/gatk4/createsequencedictionary/test.yml index bbee03d7..4b849d5a 100644 --- a/tests/software/gatk4/createsequencedictionary/test.yml +++ b/tests/software/gatk4/createsequencedictionary/test.yml @@ -1,8 +1,8 @@ -- name: gatk4 createsequencedictionary - command: nextflow run ./tests/software/gatk4/createsequencedictionary -entry test_gatk4_createsequencedictionary -c tests/config/nextflow.config +- name: gatk4 createsequencedictionary test_gatk4_createsequencedictionary + command: nextflow run tests/software/gatk4/createsequencedictionary -entry test_gatk4_createsequencedictionary -c tests/config/nextflow.config tags: - gatk4 - gatk4_createsequencedictionary files: - - path: ./output/gatk4/test_genome.dict - md5sum: 829dd07bd0c9d3be2fd060238c0b37c3 + - path: output/gatk4/genome.dict + md5sum: 7362679f176e0f52add03c08f457f646 diff --git a/tests/software/gatk4/fastqtosam/main.nf b/tests/software/gatk4/fastqtosam/main.nf new file mode 100644 index 00000000..82ddcb99 --- /dev/null +++ b/tests/software/gatk4/fastqtosam/main.nf @@ -0,0 +1,22 @@ +#!/usr/bin/env nextflow + +nextflow.enable.dsl = 2 + +include { GATK4_FASTQTOSAM } from '../../../../software/gatk4/fastqtosam/main.nf' addParams( options: [:] ) + +workflow test_gatk4_fastqtosam_single_end { + input = [ [ id:'test', single_end:true ], // meta map + file(params.test_data['sarscov2']['illumina']['test_1_fastq_gz'], checkIfExists: true) + ] + + GATK4_FASTQTOSAM ( input ) +} + +workflow test_gatk4_fastqtosam_paired_end { + input = [ [ id:'test', single_end:false ], // meta map + file(params.test_data['sarscov2']['illumina']['test_1_fastq_gz'], checkIfExists: true), + file(params.test_data['sarscov2']['illumina']['test_2_fastq_gz'], checkIfExists: true) + ] + + GATK4_FASTQTOSAM ( input ) +} diff --git a/tests/software/gatk4/fastqtosam/test.yml b/tests/software/gatk4/fastqtosam/test.yml new file mode 100644 index 00000000..2674ab59 --- /dev/null +++ b/tests/software/gatk4/fastqtosam/test.yml @@ -0,0 +1,19 @@ +- name: gatk4 fastqtosam test_gatk4_fastqtosam_single_end + command: nextflow run tests/software/gatk4/fastqtosam -entry test_gatk4_fastqtosam_single_end -c tests/config/nextflow.config + tags: + - gatk4_fastqtosam_single_end + - gatk4 + - gatk4_fastqtosam + files: + - path: output/gatk4/test.bam + md5sum: 4967100b2e4912c0e4ce0976d946bafb + +- name: gatk4 fastqtosam test_gatk4_fastqtosam_paired_end + command: nextflow run tests/software/gatk4/fastqtosam -entry test_gatk4_fastqtosam_paired_end -c tests/config/nextflow.config + tags: + - gatk4_fastqtosam_paired_end + - gatk4 + - gatk4_fastqtosam + files: + - path: output/gatk4/test.bam + md5sum: 4967100b2e4912c0e4ce0976d946bafb diff --git a/tests/software/gatk4/haplotypecaller/main.nf b/tests/software/gatk4/haplotypecaller/main.nf new file mode 100644 index 00000000..9e77d6aa --- /dev/null +++ b/tests/software/gatk4/haplotypecaller/main.nf @@ -0,0 +1,17 @@ +#!/usr/bin/env nextflow + +nextflow.enable.dsl = 2 + +include { GATK4_HAPLOTYPECALLER } from '../../../../software/gatk4/haplotypecaller/main.nf' addParams( options: [:] ) + +workflow test_gatk4_haplotypecaller { + input = [ [ id:'test' ], // meta map + file(params.test_data['sarscov2']['illumina']['test_paired_end_sorted_bam'], checkIfExists: true), + file(params.test_data['sarscov2']['illumina']['test_paired_end_sorted_bam_bai'], checkIfExists: true) + ] + fasta = file(params.test_data['sarscov2']['genome']['genome_fasta'], checkIfExists: true) + fai = file(params.test_data['sarscov2']['genome']['genome_fasta_fai'], checkIfExists: true) + dict = file(params.test_data['sarscov2']['genome']['genome_dict'], checkIfExists: true) + + GATK4_HAPLOTYPECALLER ( input, fasta, fai, dict ) +} diff --git a/tests/software/gatk4/haplotypecaller/test.yml b/tests/software/gatk4/haplotypecaller/test.yml new file mode 100644 index 00000000..42fd9e18 --- /dev/null +++ b/tests/software/gatk4/haplotypecaller/test.yml @@ -0,0 +1,13 @@ +- name: gatk4 haplotypecaller test_gatk4_haplotypecaller + command: nextflow run tests/software/gatk4/haplotypecaller -entry test_gatk4_haplotypecaller -c tests/config/nextflow.config + tags: + - gatk4_haplotypecaller + - gatk4 + files: + - path: output/gatk4/test.vcf.gz + should_exist: true + contains: + - 'MT192765.1' + - '54.60' + - '37.32' + - path: output/gatk4/test.vcf.gz.tbi diff --git a/tests/software/gatk4/markduplicates/main.nf b/tests/software/gatk4/markduplicates/main.nf new file mode 100644 index 00000000..01642d4c --- /dev/null +++ b/tests/software/gatk4/markduplicates/main.nf @@ -0,0 +1,13 @@ +#!/usr/bin/env nextflow + +nextflow.enable.dsl = 2 + +include { GATK4_MARKDUPLICATES } from '../../../../software/gatk4/markduplicates/main.nf' addParams( options: [:] ) + +workflow test_gatk4_markduplicates { + input = [ [ id:'test', single_end:false ], // meta map + file(params.test_data['sarscov2']['illumina']['test_paired_end_sorted_bam'], checkIfExists: true) + ] + + GATK4_MARKDUPLICATES ( input ) +} diff --git a/tests/software/gatk4/markduplicates/test.yml b/tests/software/gatk4/markduplicates/test.yml new file mode 100644 index 00000000..669598c5 --- /dev/null +++ b/tests/software/gatk4/markduplicates/test.yml @@ -0,0 +1,8 @@ +- name: gatk4 markduplicates test_gatk4_markduplicates + command: nextflow run tests/software/gatk4/markduplicates -entry test_gatk4_markduplicates -c tests/config/nextflow.config + tags: + - gatk4 + - gatk4_markduplicates + files: + - path: output/gatk4/test.bam + md5sum: b58d47345e3ce5825c0641c9d6e6cb7a diff --git a/tests/software/gatk4/mergebamalignment/main.nf b/tests/software/gatk4/mergebamalignment/main.nf new file mode 100644 index 00000000..302f9db3 --- /dev/null +++ b/tests/software/gatk4/mergebamalignment/main.nf @@ -0,0 +1,16 @@ +#!/usr/bin/env nextflow + +nextflow.enable.dsl = 2 + +include { GATK4_MERGEBAMALIGNMENT } from '../../../../software/gatk4/mergebamalignment/main.nf' addParams( options: [:] ) + +workflow test_gatk4_mergebamalignment { + input = [ [ id:'test' ], // meta map + file(params.test_data['sarscov2']['illumina']['test_single_end_bam'], checkIfExists: true) + ] + unmapped = file(params.test_data['sarscov2']['illumina']['test_unaligned_bam'], checkIfExists: true) + fasta = file(params.test_data['sarscov2']['genome']['genome_fasta'], checkIfExists: true) + dict = file(params.test_data['sarscov2']['genome']['genome_dict'], checkIfExists: true) + + GATK4_MERGEBAMALIGNMENT ( input, unmapped, fasta, dict ) +} diff --git a/tests/software/gatk4/mergebamalignment/test.yml b/tests/software/gatk4/mergebamalignment/test.yml new file mode 100644 index 00000000..2fb1be5f --- /dev/null +++ b/tests/software/gatk4/mergebamalignment/test.yml @@ -0,0 +1,8 @@ +- name: gatk4 mergebamalignment test_gatk4_mergebamalignment + command: nextflow run tests/software/gatk4/mergebamalignment -entry test_gatk4_mergebamalignment -c tests/config/nextflow.config + tags: + - gatk4 + - gatk4_mergebamalignment + files: + - path: output/gatk4/test.merged.bam + md5sum: bd4a5e2ea916826aadebb5878333e26f diff --git a/tests/software/gatk4/mergevcfs/main.nf b/tests/software/gatk4/mergevcfs/main.nf index 49763ae5..26549c34 100644 --- a/tests/software/gatk4/mergevcfs/main.nf +++ b/tests/software/gatk4/mergevcfs/main.nf @@ -5,23 +5,22 @@ nextflow.enable.dsl = 2 include { GATK4_MERGEVCFS } from '../../../../software/gatk4/mergevcfs/main.nf' addParams( options: [:] ) workflow test_gatk4_mergevcfs { - def input = [] input = [ [ id:'test' ], // meta map - [ file("${launchDir}/tests/data/genomics/sarscov2/vcf/test.vcf", checkIfExists: true), - file("${launchDir}/tests/data/genomics/sarscov2/vcf/test2.vcf", checkIfExists: true) ] ] + [ file(params.test_data['sarscov2']['illumina']['test_vcf'], checkIfExists: true), + file(params.test_data['sarscov2']['illumina']['test2_vcf'], checkIfExists: true) ] + ] + dict = file(params.test_data['sarscov2']['genome']['genome_dict'], checkIfExists: true) - ref_dict = file('tests/data/genomics/sarscov2/fasta/test_genome.dict', checkIfExists: true) - - GATK4_MERGEVCFS ( input, ref_dict, false ) + GATK4_MERGEVCFS ( input, dict, false ) } workflow test_gatk4_mergevcfs_refdict { def input = [] input = [ [ id:'test' ], // meta map - [ file("${launchDir}/tests/data/genomics/sarscov2/vcf/test.vcf", checkIfExists: true), - file("${launchDir}/tests/data/genomics/sarscov2/vcf/test2.vcf", checkIfExists: true) ] ] + [ file(params.test_data['sarscov2']['illumina']['test_vcf'], checkIfExists: true), + file(params.test_data['sarscov2']['illumina']['test2_vcf'], checkIfExists: true) ] + ] + dict = file(params.test_data['sarscov2']['genome']['genome_dict'], checkIfExists: true) - ref_dict = file('tests/data/genomics/sarscov2/fasta/test_genome.dict', checkIfExists: true) - - GATK4_MERGEVCFS ( input, ref_dict, true ) + GATK4_MERGEVCFS ( input, dict, true ) } diff --git a/tests/software/gatk4/mergevcfs/test.yml b/tests/software/gatk4/mergevcfs/test.yml index 2bd2e50c..c461710b 100644 --- a/tests/software/gatk4/mergevcfs/test.yml +++ b/tests/software/gatk4/mergevcfs/test.yml @@ -1,17 +1,18 @@ -- name: gatk4 mergevcfs - command: nextflow run ./tests/software/gatk4/mergevcfs -entry test_gatk4_mergevcfs -c tests/config/nextflow.config +- name: gatk4 mergevcfs test_gatk4_mergevcfs + command: nextflow run tests/software/gatk4/mergevcfs -entry test_gatk4_mergevcfs -c tests/config/nextflow.config tags: - - gatk4 - gatk4_mergevcfs + - gatk4 files: - path: output/gatk4/test.merged.vcf.gz md5sum: ff48f175e26db2d4b2957762f6d1c715 -- name: gatk4 mergevcfs refdict - command: nextflow run ./tests/software/gatk4/mergevcfs -entry test_gatk4_mergevcfs_refdict -c tests/config/nextflow.config +- name: gatk4 mergevcfs test_gatk4_mergevcfs_refdict + command: nextflow run tests/software/gatk4/mergevcfs -entry test_gatk4_mergevcfs_refdict -c tests/config/nextflow.config tags: - - gatk4 - gatk4_mergevcfs + - gatk4 + - gatk4_mergevcfs_refdict files: - path: output/gatk4/test.merged.vcf.gz md5sum: ff48f175e26db2d4b2957762f6d1c715 diff --git a/tests/software/gatk4/revertsam/main.nf b/tests/software/gatk4/revertsam/main.nf index 06a05a7c..2bc45f74 100644 --- a/tests/software/gatk4/revertsam/main.nf +++ b/tests/software/gatk4/revertsam/main.nf @@ -5,10 +5,9 @@ nextflow.enable.dsl = 2 include { GATK4_REVERTSAM } from '../../../../software/gatk4/revertsam/main.nf' addParams( options: [:] ) workflow test_gatk4_revertsam { - - def input = [] input = [ [ id:'test' ], // meta map - file("${launchDir}/tests/data/genomics/sarscov2/bam/test_paired_end.bam", checkIfExists: true) ] + file(params.test_data['sarscov2']['illumina']['test_paired_end_bam'], checkIfExists: true) + ] - GATK4_REVERTSAM( input ) + GATK4_REVERTSAM ( input ) } diff --git a/tests/software/gatk4/revertsam/test.yml b/tests/software/gatk4/revertsam/test.yml index 7689af98..221975bf 100644 --- a/tests/software/gatk4/revertsam/test.yml +++ b/tests/software/gatk4/revertsam/test.yml @@ -1,8 +1,8 @@ -- name: gatk4 revertsam - command: nextflow run ./tests/software/gatk4/revertsam -entry test_gatk4_revertsam -c tests/config/nextflow.config +- name: gatk4 revertsam test_gatk4_revertsam + command: nextflow run tests/software/gatk4/revertsam -entry test_gatk4_revertsam -c tests/config/nextflow.config tags: - gatk4 - gatk4_revertsam files: - path: output/gatk4/test.reverted.bam - md5sum: 6de199f7a0577e2a3fe7b3a9cb4ae25d + md5sum: f778310b18b83b49929eb648594f96dc diff --git a/tests/software/gatk4/samtofastq/main.nf b/tests/software/gatk4/samtofastq/main.nf index 05a75bdc..9c3e5341 100644 --- a/tests/software/gatk4/samtofastq/main.nf +++ b/tests/software/gatk4/samtofastq/main.nf @@ -5,19 +5,17 @@ nextflow.enable.dsl = 2 include { GATK4_SAMTOFASTQ } from '../../../../software/gatk4/samtofastq/main.nf' addParams( options: [:] ) workflow test_gatk4_samtofastq_single_end { - - def input = [] input = [ [ id:'test', single_end: true ], // meta map - [ file("${launchDir}/tests/data/genomics/sarscov2/bam/test_single_end.bam", checkIfExists: true)] ] + [ file(params.test_data['sarscov2']['illumina']['test_single_end_bam'], checkIfExists: true) ] + ] GATK4_SAMTOFASTQ ( input ) } workflow test_gatk4_samtofastq_paired_end { - - def input = [] input = [ [ id:'test', single_end: false ], // meta map - [ file("${launchDir}/tests/data/genomics/sarscov2/bam/test_paired_end.bam", checkIfExists: true)] ] + [ file(params.test_data['sarscov2']['illumina']['test_paired_end_bam'], checkIfExists: true) ] + ] GATK4_SAMTOFASTQ ( input ) } diff --git a/tests/software/gatk4/samtofastq/test.yml b/tests/software/gatk4/samtofastq/test.yml index e47ac6eb..a2a900a1 100644 --- a/tests/software/gatk4/samtofastq/test.yml +++ b/tests/software/gatk4/samtofastq/test.yml @@ -1,21 +1,21 @@ -- name: gatk4 samtofastq single-end - command: nextflow run ./tests/software/gatk4/samtofastq -entry test_gatk4_samtofastq_single_end -c tests/config/nextflow.config +- name: gatk4 samtofastq test_gatk4_samtofastq_single_end + command: nextflow run tests/software/gatk4/samtofastq -entry test_gatk4_samtofastq_single_end -c tests/config/nextflow.config tags: - gatk4 - gatk4_samtofastq - gatk4_samtofastq_single_end files: - - path: ./output/gatk4/test.fastq.gz + - path: output/gatk4/test.fastq.gz md5sum: 50ace41d4c24467f24f8b929540a7797 -- name: gatk4 samtofastq paired-end - command: nextflow run ./tests/software/gatk4/samtofastq -entry test_gatk4_samtofastq_paired_end -c tests/config/nextflow.config +- name: gatk4 samtofastq test_gatk4_samtofastq_paired_end + command: nextflow run tests/software/gatk4/samtofastq -entry test_gatk4_samtofastq_paired_end -c tests/config/nextflow.config tags: - gatk4 - gatk4_samtofastq - gatk4_samtofastq_paired_end files: - - path: ./output/gatk4/test_2.fastq.gz - md5sum: 613bf64c023609e1c62ad6ce9e4be8d7 - - path: ./output/gatk4/test_1.fastq.gz + - path: output/gatk4/test_1.fastq.gz md5sum: cfea607c9d75fd9ea9704780ad3a499c + - path: output/gatk4/test_2.fastq.gz + md5sum: 613bf64c023609e1c62ad6ce9e4be8d7 diff --git a/tests/software/gatk4/splitncigarreads/main.nf b/tests/software/gatk4/splitncigarreads/main.nf index 4c797d7f..8dba64cb 100644 --- a/tests/software/gatk4/splitncigarreads/main.nf +++ b/tests/software/gatk4/splitncigarreads/main.nf @@ -5,14 +5,13 @@ nextflow.enable.dsl = 2 include { GATK4_SPLITNCIGARREADS } from '../../../../software/gatk4/splitncigarreads/main.nf' addParams( options: [:] ) workflow test_gatk4_splitncigarreads { - - def input = [] input = [ [ id:'test' ], // meta map - [ file("${launchDir}/tests/data/genomics/sarscov2/bam/test_paired_end.bam", checkIfExists: true)] ] - - fasta = [ file("tests/data/genomics/sarscov2/fasta/test_genome.fasta", checkIfExists: true), - file("tests/data/genomics/sarscov2/fasta/test_genome.fasta.fai", checkIfExists: true), - file("tests/data/genomics/sarscov2/fasta/test_genome.dict", checkIfExists: true)] + [ file(params.test_data['sarscov2']['illumina']['test_paired_end_bam'], checkIfExists: true) ] + ] + fasta = [ file(params.test_data['sarscov2']['genome']['genome_fasta'], checkIfExists: true), + file(params.test_data['sarscov2']['genome']['genome_fasta_fai'], checkIfExists: true), + file(params.test_data['sarscov2']['genome']['genome_dict'], checkIfExists: true) + ] GATK4_SPLITNCIGARREADS ( input, fasta ) } diff --git a/tests/software/gatk4/splitncigarreads/test.yml b/tests/software/gatk4/splitncigarreads/test.yml index 4afa9fcf..8f08899d 100644 --- a/tests/software/gatk4/splitncigarreads/test.yml +++ b/tests/software/gatk4/splitncigarreads/test.yml @@ -1,8 +1,8 @@ -- name: gatk4 splitncigarreads - command: nextflow run ./tests/software/gatk4/splitncigarreads -entry test_gatk4_splitncigarreads -c tests/config/nextflow.config +- name: gatk4 splitncigarreads test_gatk4_splitncigarreads + command: nextflow run tests/software/gatk4/splitncigarreads -entry test_gatk4_splitncigarreads -c tests/config/nextflow.config tags: - gatk4 - gatk4_splitncigarreads files: - path: output/gatk4/test.split_cigar.bam - md5sum: 9dd44d3988b9ff238a6b4771cdf13eba + md5sum: a8473bd4abc7b13751fc51b92531da4c diff --git a/tests/software/gatk4/variantfiltration/main.nf b/tests/software/gatk4/variantfiltration/main.nf new file mode 100644 index 00000000..efed5813 --- /dev/null +++ b/tests/software/gatk4/variantfiltration/main.nf @@ -0,0 +1,18 @@ +#!/usr/bin/env nextflow + +nextflow.enable.dsl = 2 + +test_options = ['args': '--filter-name "test_filter" --filter-expression "MQ0 > 0"', 'suffix': '.filtered'] +include { GATK4_VARIANTFILTRATION } from '../../../../software/gatk4/variantfiltration/main.nf' addParams( options: test_options ) + +workflow test_gatk4_variantfiltration { + input = [ [ id:'test' ], // meta map + [ file(params.test_data['sarscov2']['illumina']['test_vcf'], checkIfExists: true) ] + ] + fasta = [ file(params.test_data['sarscov2']['genome']['genome_fasta'], checkIfExists: true) ] + fai = [ file(params.test_data['sarscov2']['genome']['genome_fasta_fai'], checkIfExists: true) ] + genome_dict = [ file(params.test_data['sarscov2']['genome']['genome_dict'], checkIfExists: true) ] + + + GATK4_VARIANTFILTRATION ( input, fasta, fai, genome_dict ) +} diff --git a/tests/software/gatk4/variantfiltration/test.yml b/tests/software/gatk4/variantfiltration/test.yml new file mode 100644 index 00000000..9b9ac948 --- /dev/null +++ b/tests/software/gatk4/variantfiltration/test.yml @@ -0,0 +1,9 @@ +- name: gatk4 variantfiltration test_gatk4_variantfiltration + command: nextflow run tests/software/gatk4/variantfiltration -entry test_gatk4_variantfiltration -c tests/config/nextflow.config + tags: + - gatk4_variantfiltration + - gatk4 + files: + - path: output/gatk4/test.filtered.vcf + contains: + - "AC=2;AN=2;DP=1;DP4=0,0,1,0;MQ=60;MQ0F=0;SGB=-0.379885" diff --git a/tests/software/gffread/main.nf b/tests/software/gffread/main.nf index ca2dbd78..f8dd155f 100644 --- a/tests/software/gffread/main.nf +++ b/tests/software/gffread/main.nf @@ -5,7 +5,7 @@ nextflow.enable.dsl = 2 include { GFFREAD } from '../../../software/gffread/main.nf' addParams( options: [:] ) workflow test_gffread { - def input = [] - input = [ file("${launchDir}/tests/data/genomics/sarscov2/gtf/test_genome.gff3", checkIfExists: true) ] + input = file(params.test_data['sarscov2']['genome']['genome_gff3'], checkIfExists: true) + GFFREAD ( input ) } diff --git a/tests/software/gffread/test.yml b/tests/software/gffread/test.yml index 32ef8322..27b39dec 100644 --- a/tests/software/gffread/test.yml +++ b/tests/software/gffread/test.yml @@ -3,5 +3,5 @@ tags: - gffread files: - - path: ./output/gffread/test_genome.gtf - md5sum: 330c31462457cf1817827518126ff7c5 + - path: ./output/gffread/genome.gtf + md5sum: f184f856b7fe3e159d21b052b5dd3954 diff --git a/tests/software/gunzip/main.nf b/tests/software/gunzip/main.nf index 4ceb4cf3..4d458a5f 100644 --- a/tests/software/gunzip/main.nf +++ b/tests/software/gunzip/main.nf @@ -5,9 +5,7 @@ nextflow.enable.dsl = 2 include { GUNZIP } from '../../../software/gunzip/main.nf' addParams( options: [:] ) workflow test_gunzip { - - def input = [] - input = [ file("${launchDir}/tests/data/genomics/sarscov2/fastq/test_1.fastq.gz", checkIfExists: true) ] + input = file(params.test_data['sarscov2']['illumina']['test_1_fastq_gz'], checkIfExists: true) GUNZIP ( input ) } diff --git a/tests/software/hisat2/align/main.nf b/tests/software/hisat2/align/main.nf new file mode 100644 index 00000000..4418d042 --- /dev/null +++ b/tests/software/hisat2/align/main.nf @@ -0,0 +1,32 @@ +#!/usr/bin/env nextflow + +nextflow.enable.dsl = 2 + +include { HISAT2_EXTRACTSPLICESITES } from '../../../../software/hisat2/extractsplicesites/main.nf' addParams( options: [:] ) +include { HISAT2_BUILD } from '../../../../software/hisat2/build/main.nf' addParams( options: [:] ) +include { HISAT2_ALIGN } from '../../../../software/hisat2/align/main.nf' addParams( options: [:] ) + +workflow test_hisat2_align_single_end { + input = [ [ id:'test', single_end:true ], // meta map + [ file(params.test_data['sarscov2']['illumina']['test_1_fastq_gz'], checkIfExists: true) ] + ] + fasta = file(params.test_data['sarscov2']['genome']['genome_fasta'], checkIfExists: true) + gtf = file(params.test_data['sarscov2']['genome']['genome_gtf'], checkIfExists: true) + + HISAT2_EXTRACTSPLICESITES ( gtf ) + HISAT2_BUILD ( fasta, gtf, HISAT2_EXTRACTSPLICESITES.out.txt ) + HISAT2_ALIGN ( input, HISAT2_BUILD.out.index, HISAT2_EXTRACTSPLICESITES.out.txt ) +} + +workflow test_hisat2_align_paired_end { + input = [ [ id:'test', single_end:false ], // meta map + [ file(params.test_data['sarscov2']['illumina']['test_1_fastq_gz'], checkIfExists: true), + file(params.test_data['sarscov2']['illumina']['test_2_fastq_gz'], checkIfExists: true)] + ] + fasta = file(params.test_data['sarscov2']['genome']['genome_fasta'], checkIfExists: true) + gtf = file(params.test_data['sarscov2']['genome']['genome_gtf'], checkIfExists: true) + + HISAT2_EXTRACTSPLICESITES ( gtf ) + HISAT2_BUILD ( fasta, gtf, HISAT2_EXTRACTSPLICESITES.out.txt ) + HISAT2_ALIGN ( input, HISAT2_BUILD.out.index, HISAT2_EXTRACTSPLICESITES.out.txt ) +} diff --git a/tests/software/hisat2/align/test.yml b/tests/software/hisat2/align/test.yml new file mode 100644 index 00000000..5017c628 --- /dev/null +++ b/tests/software/hisat2/align/test.yml @@ -0,0 +1,57 @@ +- name: hisat2 align test_hisat2_align_single_end + command: nextflow run tests/software/hisat2/align -entry test_hisat2_align_single_end -c tests/config/nextflow.config + tags: + - hisat2_align_single_end + - hisat2_align + - hisat2 + files: + - path: output/hisat2/test.hisat2.summary.log + md5sum: 7b8a9e61b7646da1089b041333c41a87 + - path: output/hisat2/genome.splice_sites.txt + md5sum: d41d8cd98f00b204e9800998ecf8427e + - path: output/hisat2/test.bam + - path: output/index/hisat2/genome.5.ht2 + md5sum: 91198831aaba993acac1734138c5f173 + - path: output/index/hisat2/genome.7.ht2 + md5sum: 9013eccd91ad614d7893c739275a394f + - path: output/index/hisat2/genome.1.ht2 + md5sum: 3ea3dc41304941ad8d047e4d71b4899e + - path: output/index/hisat2/genome.2.ht2 + md5sum: 47b153cd1319abc88dda532462651fcf + - path: output/index/hisat2/genome.6.ht2 + md5sum: 265e1284ce85686516fae5d35540994a + - path: output/index/hisat2/genome.3.ht2 + md5sum: 4ed93abba181d8dfab2e303e33114777 + - path: output/index/hisat2/genome.8.ht2 + md5sum: 33cdeccccebe80329f1fdbee7f5874cb + - path: output/index/hisat2/genome.4.ht2 + md5sum: c25be5f8b0378abf7a58c8a880b87626 + +- name: hisat2 align test_hisat2_align_paired_end + command: nextflow run tests/software/hisat2/align -entry test_hisat2_align_paired_end -c tests/config/nextflow.config + tags: + - hisat2_align_paired_end + - hisat2_align + - hisat2 + files: + - path: output/hisat2/test.hisat2.summary.log + md5sum: 9839b31db795958cc4b70711a3414e9c + - path: output/hisat2/genome.splice_sites.txt + md5sum: d41d8cd98f00b204e9800998ecf8427e + - path: output/hisat2/test.bam + - path: output/index/hisat2/genome.5.ht2 + md5sum: 91198831aaba993acac1734138c5f173 + - path: output/index/hisat2/genome.7.ht2 + md5sum: 9013eccd91ad614d7893c739275a394f + - path: output/index/hisat2/genome.1.ht2 + md5sum: 3ea3dc41304941ad8d047e4d71b4899e + - path: output/index/hisat2/genome.2.ht2 + md5sum: 47b153cd1319abc88dda532462651fcf + - path: output/index/hisat2/genome.6.ht2 + md5sum: 265e1284ce85686516fae5d35540994a + - path: output/index/hisat2/genome.3.ht2 + md5sum: 4ed93abba181d8dfab2e303e33114777 + - path: output/index/hisat2/genome.8.ht2 + md5sum: 33cdeccccebe80329f1fdbee7f5874cb + - path: output/index/hisat2/genome.4.ht2 + md5sum: c25be5f8b0378abf7a58c8a880b87626 diff --git a/tests/software/hisat2/build_test/main.nf b/tests/software/hisat2/build_test/main.nf new file mode 100644 index 00000000..761f8be5 --- /dev/null +++ b/tests/software/hisat2/build_test/main.nf @@ -0,0 +1,14 @@ +#!/usr/bin/env nextflow + +nextflow.enable.dsl = 2 + +include { HISAT2_EXTRACTSPLICESITES } from '../../../../software/hisat2/extractsplicesites/main.nf' addParams( options: [:] ) +include { HISAT2_BUILD } from '../../../../software/hisat2/build/main.nf' addParams( options: [:] ) + +workflow test_hisat2_build { + fasta = file(params.test_data['sarscov2']['genome']['genome_fasta'], checkIfExists: true) + gtf = file(params.test_data['sarscov2']['genome']['genome_gtf'], checkIfExists: true) + + HISAT2_EXTRACTSPLICESITES ( gtf ) + HISAT2_BUILD ( fasta, gtf, HISAT2_EXTRACTSPLICESITES.out.txt ) +} diff --git a/tests/software/hisat2/build_test/test.yml b/tests/software/hisat2/build_test/test.yml new file mode 100644 index 00000000..8b805dd3 --- /dev/null +++ b/tests/software/hisat2/build_test/test.yml @@ -0,0 +1,24 @@ +- name: hisat2 build test_hisat2_build + command: nextflow run tests/software/hisat2/build_test -entry test_hisat2_build -c tests/config/nextflow.config + tags: + - hisat2 + - hisat2_build + files: + - path: output/hisat2/genome.splice_sites.txt + md5sum: d41d8cd98f00b204e9800998ecf8427e + - path: output/index/hisat2/genome.5.ht2 + md5sum: 91198831aaba993acac1734138c5f173 + - path: output/index/hisat2/genome.7.ht2 + md5sum: 9013eccd91ad614d7893c739275a394f + - path: output/index/hisat2/genome.1.ht2 + md5sum: 3ea3dc41304941ad8d047e4d71b4899e + - path: output/index/hisat2/genome.2.ht2 + md5sum: 47b153cd1319abc88dda532462651fcf + - path: output/index/hisat2/genome.6.ht2 + md5sum: 265e1284ce85686516fae5d35540994a + - path: output/index/hisat2/genome.3.ht2 + md5sum: 4ed93abba181d8dfab2e303e33114777 + - path: output/index/hisat2/genome.8.ht2 + md5sum: 33cdeccccebe80329f1fdbee7f5874cb + - path: output/index/hisat2/genome.4.ht2 + md5sum: c25be5f8b0378abf7a58c8a880b87626 diff --git a/tests/software/hisat2/extractsplicesites/main.nf b/tests/software/hisat2/extractsplicesites/main.nf new file mode 100644 index 00000000..03fb4e68 --- /dev/null +++ b/tests/software/hisat2/extractsplicesites/main.nf @@ -0,0 +1,11 @@ +#!/usr/bin/env nextflow + +nextflow.enable.dsl = 2 + +include { HISAT2_EXTRACTSPLICESITES } from '../../../../software/hisat2/extractsplicesites/main.nf' addParams( options: [:] ) + +workflow test_hisat2_extractsplicesites { + gtf = file(params.test_data['sarscov2']['genome']['genome_gtf'], checkIfExists: true) + + HISAT2_EXTRACTSPLICESITES ( gtf ) +} diff --git a/tests/software/hisat2/extractsplicesites/test.yml b/tests/software/hisat2/extractsplicesites/test.yml new file mode 100644 index 00000000..71375a96 --- /dev/null +++ b/tests/software/hisat2/extractsplicesites/test.yml @@ -0,0 +1,8 @@ +- name: hisat2 extractsplicesites test_hisat2_extractsplicesites + command: nextflow run tests/software/hisat2/extractsplicesites -entry test_hisat2_extractsplicesites -c tests/config/nextflow.config + tags: + - hisat2 + - hisat2_extractsplicesites + files: + - path: output/hisat2/genome.splice_sites.txt + md5sum: d41d8cd98f00b204e9800998ecf8427e diff --git a/tests/software/homer/annotatepeaks/main.nf b/tests/software/homer/annotatepeaks/main.nf new file mode 100644 index 00000000..691e5b46 --- /dev/null +++ b/tests/software/homer/annotatepeaks/main.nf @@ -0,0 +1,14 @@ +#!/usr/bin/env nextflow + +nextflow.enable.dsl = 2 + +include { HOMER_ANNOTATEPEAKS } from '../../../../software/homer/annotatepeaks/main.nf' addParams( options: [:] ) + +workflow test_homer_annotatepeaks { + input = [ [ id:'test'], + file(params.test_data['sarscov2']['genome']['test_bed'], checkIfExists: true) + ] + fasta = file(params.test_data['sarscov2']['genome']['genome_fasta'], checkIfExists: true) + gtf = file(params.test_data['sarscov2']['genome']['genome_gtf'], checkIfExists: true) + HOMER_ANNOTATEPEAKS ( input, fasta, gtf ) +} diff --git a/tests/software/homer/annotatepeaks/test.yml b/tests/software/homer/annotatepeaks/test.yml new file mode 100644 index 00000000..bbf964c9 --- /dev/null +++ b/tests/software/homer/annotatepeaks/test.yml @@ -0,0 +1,7 @@ +- name: homer annotatepeaks test_homer_annotatepeaks + command: nextflow run tests/software/homer/annotatepeaks -entry test_homer_annotatepeaks -c tests/config/nextflow.config + tags: + - homer + - homer_annotatepeaks + files: + - path: output/homer/test.annotatePeaks.txt diff --git a/tests/software/ivar/consensus/main.nf b/tests/software/ivar/consensus/main.nf index 9afc7c18..29dd564b 100644 --- a/tests/software/ivar/consensus/main.nf +++ b/tests/software/ivar/consensus/main.nf @@ -6,9 +6,10 @@ params.save_mpileup = true include { IVAR_CONSENSUS } from '../../../../software/ivar/consensus/main.nf' addParams( [ options: [args2: '-aa -A -d 0 -Q 0'] ] ) workflow test_ivar_consensus { - def ref = file("${launchDir}/tests/data/genomics/sarscov2/fasta/test_genome.fasta", checkIfExists: true) - def input = [] input = [ [ id:'test'], - file("${launchDir}/tests/data/genomics/sarscov2/bam/test_paired_end.bam", checkIfExists: true) ] - IVAR_CONSENSUS ( input, ref ) + file(params.test_data['sarscov2']['illumina']['test_paired_end_bam'], checkIfExists: true) + ] + fasta = file(params.test_data['sarscov2']['genome']['genome_fasta'], checkIfExists: true) + + IVAR_CONSENSUS ( input, fasta ) } diff --git a/tests/software/ivar/trim/main.nf b/tests/software/ivar/trim/main.nf index 8cd88026..ab87ee9a 100644 --- a/tests/software/ivar/trim/main.nf +++ b/tests/software/ivar/trim/main.nf @@ -5,11 +5,11 @@ nextflow.enable.dsl = 2 include { IVAR_TRIM } from '../../../../software/ivar/trim/main.nf' addParams([:]) workflow test_ivar_trim { - def bed_file = file("${launchDir}/tests/data/genomics/sarscov2/bed/test.bed", checkIfExists: true) - def input = [] input = [ [ id:'test'], - file("${launchDir}/tests/data/genomics/sarscov2/bam/test_paired_end.sorted.bam", checkIfExists: true), - file("${launchDir}/tests/data/genomics/sarscov2/bam/test_paired_end.sorted.bam.bai", checkIfExists: true) ] + file(params.test_data['sarscov2']['illumina']['test_paired_end_sorted_bam'], checkIfExists: true), + file(params.test_data['sarscov2']['illumina']['test_paired_end_sorted_bam_bai'], checkIfExists: true) + ] + bed_file = file(params.test_data['sarscov2']['genome']['test_bed'], checkIfExists: true) IVAR_TRIM ( input, bed_file ) } diff --git a/tests/software/ivar/trim/test.yml b/tests/software/ivar/trim/test.yml index b8fac63b..6879ce6f 100644 --- a/tests/software/ivar/trim/test.yml +++ b/tests/software/ivar/trim/test.yml @@ -5,4 +5,4 @@ - ivar_trim files: - path: output/ivar/test.bam - md5sum: d5cf5bda0c47c40d70193fbe6c4c828f + md5sum: 8705d032b28a1c3dbfe78fa762a2132f diff --git a/tests/software/ivar/variants/main.nf b/tests/software/ivar/variants/main.nf index 0282eb49..bafb3d18 100644 --- a/tests/software/ivar/variants/main.nf +++ b/tests/software/ivar/variants/main.nf @@ -8,34 +8,37 @@ workflow test_ivar_variants_no_gff_no_mpileup { params.gff = false params.save_mpileup = false - def ref = file("${launchDir}/tests/data/genomics/sarscov2/fasta/test_genome.fasta", checkIfExists: true) - def dummy = file("dummy_file.txt") - def input = [] input = [ [ id:'test'], - file("${launchDir}/tests/data/genomics/sarscov2/bam/test_paired_end.sorted.bam", checkIfExists: true) ] - IVAR_VARIANTS ( input, ref, dummy ) + file(params.test_data['sarscov2']['illumina']['test_paired_end_sorted_bam'], checkIfExists: true) + ] + fasta = file(params.test_data['sarscov2']['genome']['genome_fasta'], checkIfExists: true) + dummy = file("dummy_file.txt") + + IVAR_VARIANTS ( input, fasta, dummy ) } workflow test_ivar_variants_no_gff_with_mpileup { params.gff = false params.save_mpileup = true - def ref = file("${launchDir}/tests/data/genomics/sarscov2/fasta/test_genome.fasta", checkIfExists: true) - def dummy = file("dummy_file.txt") - def input = [] input = [ [ id:'test'], - file("${launchDir}/tests/data/genomics/sarscov2/bam/test_paired_end.sorted.bam", checkIfExists: true) ] - IVAR_VARIANTS ( input, ref, dummy ) + file(params.test_data['sarscov2']['illumina']['test_paired_end_sorted_bam'], checkIfExists: true) + ] + fasta = file(params.test_data['sarscov2']['genome']['genome_fasta'], checkIfExists: true) + dummy = file("dummy_file.txt") + + IVAR_VARIANTS ( input, fasta, dummy ) } workflow test_ivar_variants_with_gff_with_mpileup { params.gff = true params.save_mpileup = true - - def ref = file("${launchDir}/tests/data/genomics/sarscov2/fasta/test_genome.fasta", checkIfExists: true) - def gff = file("${launchDir}/tests/data/genomics/sarscov2/gtf/test_genome.gff3", checkIfExists: true) - def input = [] + input = [ [ id:'test'], - file("${launchDir}/tests/data/genomics/sarscov2/bam/test_paired_end.sorted.bam", checkIfExists: true) ] - IVAR_VARIANTS ( input, ref, gff ) + file(params.test_data['sarscov2']['illumina']['test_paired_end_sorted_bam'], checkIfExists: true) + ] + fasta = file(params.test_data['sarscov2']['genome']['genome_fasta'], checkIfExists: true) + gff = file(params.test_data['sarscov2']['genome']['genome_gff3'], checkIfExists: true) + + IVAR_VARIANTS ( input, fasta, gff ) } diff --git a/tests/software/kallisto/index/main.nf b/tests/software/kallisto/index/main.nf new file mode 100644 index 00000000..90a8f657 --- /dev/null +++ b/tests/software/kallisto/index/main.nf @@ -0,0 +1,13 @@ +#!/usr/bin/env nextflow + +nextflow.enable.dsl = 2 + +include { KALLISTO_INDEX } from '../../../../software/kallisto/index/main.nf' addParams( options: [:] ) + +workflow test_kallisto_index { + + def input = [] + input = file("${launchDir}/tests/data/genomics/sarscov2/genome/genome.fasta", checkIfExists: true) + + KALLISTO_INDEX ( input ) +} diff --git a/tests/software/kallisto/index/test.yml b/tests/software/kallisto/index/test.yml new file mode 100644 index 00000000..afbe1d7d --- /dev/null +++ b/tests/software/kallisto/index/test.yml @@ -0,0 +1,8 @@ +- name: kallisto index test_kallisto_index + command: nextflow run tests/software/kallisto/index -entry test_kallisto_index -c tests/config/nextflow.config + tags: + - kallisto + - kallisto_index + files: + - path: output/kallisto/kallisto + md5sum: bf8a58d329dddc96f0c32f7823bc0310 diff --git a/tests/software/kraken2/run/main.nf b/tests/software/kraken2/run/main.nf new file mode 100644 index 00000000..1896f670 --- /dev/null +++ b/tests/software/kraken2/run/main.nf @@ -0,0 +1,24 @@ +#!/usr/bin/env nextflow + +nextflow.enable.dsl = 2 + +include { KRAKEN2_RUN } from '../../../../software/kraken2/run/main.nf' addParams( options: [:] ) + +workflow test_kraken2_run_single_end { + input = [ [ id:'test', single_end:true ], // meta map + [ file(params.test_data['sarscov2']['illumina']['test_1_fastq_gz'], checkIfExists: true) ] + ] + db = file(params.test_data['sarscov2']['genome']['kraken2'], checkIfExists: true) + + KRAKEN2_RUN ( input, db ) +} + +workflow test_kraken2_run_paired_end { + input = [ [ id:'test', single_end:false ], // meta map + [ file(params.test_data['sarscov2']['illumina']['test_1_fastq_gz'], checkIfExists: true), + file(params.test_data['sarscov2']['illumina']['test_2_fastq_gz'], checkIfExists: true) ] + ] + db = file(params.test_data['sarscov2']['genome']['kraken2'], checkIfExists: true) + + KRAKEN2_RUN ( input, db ) +} diff --git a/tests/software/kraken2/run/test.yml b/tests/software/kraken2/run/test.yml new file mode 100644 index 00000000..22fd4cdd --- /dev/null +++ b/tests/software/kraken2/run/test.yml @@ -0,0 +1,31 @@ +- name: kraken2 run single-end + command: nextflow run ./tests/software/kraken2/run -entry test_kraken2_run_single_end -c tests/config/nextflow.config + tags: + - kraken2 + - kraken2_run + - kraken2_run_single_end + files: + - path: output/kraken2/test.classified.fastq.gz + should_exist: true + - path: output/kraken2/test.unclassified.fastq.gz + should_exist: true + - path: output/kraken2/test.kraken2.report.txt + md5sum: 4227755fe40478b8d7dc8634b489761e + +- name: kraken2 run paired-end + command: nextflow run ./tests/software/kraken2/run -entry test_kraken2_run_paired_end -c tests/config/nextflow.config + tags: + - kraken2 + - kraken2_run + - kraken2_run_paired_end + files: + - path: output/kraken2/test.classified_1.fastq.gz + should_exist: true + - path: output/kraken2/test.classified_2.fastq.gz + should_exist: true + - path: output/kraken2/test.unclassified_1.fastq.gz + should_exist: true + - path: output/kraken2/test.unclassified_2.fastq.gz + should_exist: true + - path: output/kraken2/test.kraken2.report.txt + md5sum: 4227755fe40478b8d7dc8634b489761e diff --git a/tests/software/methyldackel/extract/main.nf b/tests/software/methyldackel/extract/main.nf index ff4283be..1a54b771 100644 --- a/tests/software/methyldackel/extract/main.nf +++ b/tests/software/methyldackel/extract/main.nf @@ -5,18 +5,11 @@ nextflow.enable.dsl = 2 include { METHYLDACKEL_EXTRACT } from '../../../../software/methyldackel/extract/main.nf' addParams( options: [:] ) workflow test_methyldackel_extract { + input = [ [ id:'test', single_end:false ], // meta map + file("${launchDir}/tests/data/genomics/sarscov2/illumina/bam/test_methylated_paired_end.sorted.bam", checkIfExists: true), + file("${launchDir}/tests/data/genomics/sarscov2/illumina/bam/test_methylated_paired_end.sorted.bam.bai", checkIfExists: true) ] + fasta = file("${launchDir}/tests/data/genomics/sarscov2/genome/genome.fasta", checkIfExists: true) + fai = file("${launchDir}/tests/data/genomics/sarscov2/genome/genome.fasta.fai", checkIfExists: true) - def input = [] - def fasta = file("${launchDir}/tests/data/genomics/sarscov2/fasta/test_genome.fasta", checkIfExists: true) - def fai = file("${launchDir}/tests/data/genomics/sarscov2/fasta/test_genome.fasta.fai", checkIfExists: true) - - input = [ [ id:'test', single_end:false ], // meta map - file("${launchDir}/tests/data/genomics/sarscov2/bam/test_methylated_paired_end.sorted.bam", checkIfExists: true), - file("${launchDir}/tests/data/genomics/sarscov2/bam/test_methylated_paired_end.sorted.bam.bai", checkIfExists: true) ] - - METHYLDACKEL_EXTRACT ( - input, - fasta, - fai - ) + METHYLDACKEL_EXTRACT ( input, fasta, fai ) } diff --git a/tests/software/methyldackel/mbias/main.nf b/tests/software/methyldackel/mbias/main.nf index 418a748e..cd08c79c 100644 --- a/tests/software/methyldackel/mbias/main.nf +++ b/tests/software/methyldackel/mbias/main.nf @@ -5,18 +5,12 @@ nextflow.enable.dsl = 2 include { METHYLDACKEL_MBIAS } from '../../../../software/methyldackel/mbias/main.nf' addParams( options: [:] ) workflow test_methyldackel_mbias { + input = [ [ id:'test', single_end:false ], // meta map + file("${launchDir}/tests/data/genomics/sarscov2/illumina/bam/test_methylated_paired_end.sorted.bam", checkIfExists: true), + file("${launchDir}/tests/data/genomics/sarscov2/illumina/bam/test_methylated_paired_end.sorted.bam.bai", checkIfExists: true) + ] + fasta = file("${launchDir}/tests/data/genomics/sarscov2/genome/genome.fasta", checkIfExists: true) + fai = file("${launchDir}/tests/data/genomics/sarscov2/genome/genome.fasta.fai", checkIfExists: true) - def input = [] - def fasta = file("${launchDir}/tests/data/genomics/sarscov2/fasta/test_genome.fasta", checkIfExists: true) - def fai = file("${launchDir}/tests/data/genomics/sarscov2/fasta/test_genome.fasta.fai", checkIfExists: true) - - input = [ [ id:'test', single_end:false ], // meta map - file("${launchDir}/tests/data/genomics/sarscov2/bam/test_methylated_paired_end.sorted.bam", checkIfExists: true), - file("${launchDir}/tests/data/genomics/sarscov2/bam/test_methylated_paired_end.sorted.bam.bai", checkIfExists: true) ] - - METHYLDACKEL_MBIAS ( - input, - fasta, - fai - ) + METHYLDACKEL_MBIAS ( input, fasta, fai ) } diff --git a/tests/software/minia/main.nf b/tests/software/minia/main.nf new file mode 100644 index 00000000..e08364fb --- /dev/null +++ b/tests/software/minia/main.nf @@ -0,0 +1,14 @@ +#!/usr/bin/env nextflow + +nextflow.enable.dsl = 2 + +include { MINIA } from '../../../software/minia/main.nf' addParams( options: [:] ) + +workflow test_minia { + input = [ [ id:'test' ], // meta map + [file(params.test_data['sarscov2']['illumina']['test_1_fastq_gz'], checkIfExists: true), + file(params.test_data['sarscov2']['illumina']['test_2_fastq_gz'], checkIfExists: true)] + ] + + MINIA ( input ) +} diff --git a/tests/software/minia/test.yml b/tests/software/minia/test.yml new file mode 100644 index 00000000..eed0b640 --- /dev/null +++ b/tests/software/minia/test.yml @@ -0,0 +1,8 @@ +- name: Run tests for minia - test_minia + command: nextflow run tests/software/minia -entry test_minia -c tests/config/nextflow.config + tags: + - minia + files: + - path: output/minia/test.h5 + - path: output/minia/test.contigs.fa + - path: output/minia/test.unitigs.fa diff --git a/tests/software/minimap2/align/main.nf b/tests/software/minimap2/align/main.nf index a60ee3e6..522431e1 100644 --- a/tests/software/minimap2/align/main.nf +++ b/tests/software/minimap2/align/main.nf @@ -5,22 +5,20 @@ nextflow.enable.dsl = 2 include { MINIMAP2_ALIGN } from '../../../../software/minimap2/align/main.nf' addParams( options: [:] ) workflow test_minimap2_align_single_end { - - def fasta = file("${launchDir}/tests/data/genomics/sarscov2/fasta/test_genome.fasta", checkIfExists: true) - - def input = [] input = [ [ id:'test', single_end:true ], // meta map - [ file("${launchDir}/tests/data/genomics/sarscov2/fastq/test_1.fastq.gz", checkIfExists: true) ] ] + [ file("${launchDir}/tests/data/genomics/sarscov2/illumina/fastq/test_1.fastq.gz", checkIfExists: true) ] + ] + fasta = file("${launchDir}/tests/data/genomics/sarscov2/genome/genome.fasta", checkIfExists: true) + MINIMAP2_ALIGN ( input, fasta ) } workflow test_minimap2_align_paired_end { - - def fasta = file("${launchDir}/tests/data/genomics/sarscov2/fasta/test_genome.fasta", checkIfExists: true) - - def input = [] input = [ [ id:'test', single_end:false ], // meta map - [ file("${launchDir}/tests/data/genomics/sarscov2/fastq/test_1.fastq.gz", checkIfExists: true), - file("${launchDir}/tests/data/genomics/sarscov2/fastq/test_2.fastq.gz", checkIfExists: true) ] ] + [ file("${launchDir}/tests/data/genomics/sarscov2/illumina/fastq/test_1.fastq.gz", checkIfExists: true), + file("${launchDir}/tests/data/genomics/sarscov2/illumina/fastq/test_2.fastq.gz", checkIfExists: true) ] + ] + fasta = file("${launchDir}/tests/data/genomics/sarscov2/genome/genome.fasta", checkIfExists: true) + MINIMAP2_ALIGN ( input, fasta ) } diff --git a/tests/software/mosdepth/main.nf b/tests/software/mosdepth/main.nf index 15bb6824..7f7734d6 100644 --- a/tests/software/mosdepth/main.nf +++ b/tests/software/mosdepth/main.nf @@ -5,13 +5,12 @@ nextflow.enable.dsl = 2 include { MOSDEPTH } from '../../../software/mosdepth/main.nf' addParams( options: [:] ) workflow test_mosdepth { + input = [ [ id:'test', single_end:true ], + [ file("${launchDir}/tests/data/genomics/sarscov2/illumina/bam/test_paired_end.sorted.bam", checkIfExists: true) ], + [ file("${launchDir}/tests/data/genomics/sarscov2/illumina/bam/test_paired_end.sorted.bam.bai", checkIfExists: true) ] + ] + dummy = file("dummy_file.txt") + window = 100 - input = [ [ id:'test', single_end:true ], - [ file("${launchDir}/tests/data/genomics/sarscov2/bam/test_paired_end.sorted.bam", checkIfExists: true) ], - [ file("${launchDir}/tests/data/genomics/sarscov2/bam/test_paired_end.sorted.bam.bai", checkIfExists: true) ] ] - def dummy = file("dummy_file.txt") - - window_size = 100 - - MOSDEPTH ( input, dummy, window_size ) + MOSDEPTH ( input, dummy, window ) } diff --git a/tests/software/msisensor/msi/main.nf b/tests/software/msisensor/msi/main.nf new file mode 100644 index 00000000..af61fcf9 --- /dev/null +++ b/tests/software/msisensor/msi/main.nf @@ -0,0 +1,31 @@ +#!/usr/bin/env nextflow + +nextflow.enable.dsl = 2 + +include { MSISENSOR_SCAN } from '../../../../software/msisensor/scan/main.nf' addParams( options: [:] ) +include { MSISENSOR_MSI } from '../../../../software/msisensor/msi/main.nf' addParams( options: [:] ) + +workflow test_msisensor_msi { + + def scaninput = [] + scaninput = [ [ id:'test', single_end:false ], // meta map + file(params.test_data['sarscov2']['genome']['genome_fasta'], checkIfExists: true) ] + scan = MSISENSOR_SCAN ( scaninput ) + + // IMPERFECT TEST: + // USING SARS-COV2 DATA AS NORMAL:TUMOR PAIR THIS WILL SUFFICE TO + // TEST MODULE EXECUTION, BUT NOT FUNCTIONALITY. + // FUNCTIONALITY HAS BEEN TESTED MANUALY USING AUTHOR-PROVIDED TEST + // DATA (https://github.com/ding-lab/msisensor/tree/master/test) + def input = [] + + input = Channel.from([ [ id:'test', single_end:false ], // meta map + file(params.test_data['sarscov2']['illumina']['test_methylated_paired_end_sorted_bam'], checkIfExists: true), + file(params.test_data['sarscov2']['illumina']['test_methylated_paired_end_sorted_bam_bai'], checkIfExists: true), + file(params.test_data['sarscov2']['illumina']['test_paired_end_sorted_bam'], checkIfExists: true), + file(params.test_data['sarscov2']['illumina']['test_paired_end_sorted_bam_bai'], checkIfExists: true) ]) + //scan.txt.view() + input.concat(scan.txt).collect().view() + // BIT CLUMSY: + MSISENSOR_MSI ( input.concat(scan.txt).collect() ) +} diff --git a/tests/software/msisensor/msi/test.yml b/tests/software/msisensor/msi/test.yml new file mode 100644 index 00000000..152bf60a --- /dev/null +++ b/tests/software/msisensor/msi/test.yml @@ -0,0 +1,14 @@ +- name: msisensor msi + command: nextflow run ./tests/software/msisensor/msi -entry test_msisensor_msi -c tests/config/nextflow.config + tags: + - msisensor + - msisensor_msi + files: + - path: output/msisensor/test + md5sum: a3290f7539dbbf83777e8590156c0e28 + - path: output/msisensor/test_dis + md5sum: 060a3fc3701f3b10f6b19da9b21a32b7 + - path: output/msisensor/test_germline + md5sum: d41d8cd98f00b204e9800998ecf8427e + - path: output/msisensor/test_somatic + md5sum: d41d8cd98f00b204e9800998ecf8427e diff --git a/tests/software/msisensor/scan/main.nf b/tests/software/msisensor/scan/main.nf new file mode 100644 index 00000000..bb39ab19 --- /dev/null +++ b/tests/software/msisensor/scan/main.nf @@ -0,0 +1,14 @@ +#!/usr/bin/env nextflow + +nextflow.enable.dsl = 2 + +include { MSISENSOR_SCAN } from '../../../../software/msisensor/scan/main.nf' addParams( options: [:] ) + +workflow test_msisensor_scan { + + def input = [] + input = [ [ id:'test', single_end:false ], // meta map + file(params.test_data['sarscov2']['genome']['genome_fasta'], checkIfExists: true)] + + MSISENSOR_SCAN ( input ) +} diff --git a/tests/software/msisensor/scan/test.yml b/tests/software/msisensor/scan/test.yml new file mode 100644 index 00000000..7d8f6e5c --- /dev/null +++ b/tests/software/msisensor/scan/test.yml @@ -0,0 +1,8 @@ +- name: msisensor scan + command: nextflow run ./tests/software/msisensor/scan -entry test_msisensor_scan -c tests/config/nextflow.config + tags: + - msisensor + - msisensor_scan + files: + - path: output/msisensor/test.msisensor_scan.tab + md5sum: b7ae85acdcfc1a51e867ab3446d6fb59 diff --git a/tests/software/multiqc/main.nf b/tests/software/multiqc/main.nf index 1420d26f..57a3f760 100644 --- a/tests/software/multiqc/main.nf +++ b/tests/software/multiqc/main.nf @@ -6,11 +6,11 @@ include { FASTQC } from '../../../software/fastqc/main.nf' addParams( options: include { MULTIQC } from '../../../software/multiqc/main.nf' addParams( options: [:] ) workflow test_multiqc { - - def input = [] input = [ [ id: 'test', single_end: false ], - [ file("${launchDir}/tests/data/genomics/sarscov2/fastq/test_1.fastq.gz", checkIfExists: true), - file("${launchDir}/tests/data/genomics/sarscov2/fastq/test_2.fastq.gz", checkIfExists: true) ] ] + [ file(params.test_data['sarscov2']['illumina']['test_1_fastq_gz'], checkIfExists: true), + file(params.test_data['sarscov2']['illumina']['test_2_fastq_gz'], checkIfExists: true) ] + ] + FASTQC ( input ) MULTIQC ( FASTQC.out.zip.collect { it[1] } ) } diff --git a/tests/software/optitype/main.nf b/tests/software/optitype/main.nf new file mode 100644 index 00000000..f1fce9ef --- /dev/null +++ b/tests/software/optitype/main.nf @@ -0,0 +1,13 @@ +#!/usr/bin/env nextflow + +nextflow.enable.dsl = 2 + +include { OPTITYPE } from ''../../../software/optitype/main.nf' addParams( options: ['args':'-e 1 -b 0.009', 'args2':'solver=glpk'] ) + +workflow test_optitype { + input = [ [ id:'test', seq_type:'dna' ], // meta map + file("${launchDir}/tests/data/genomics/homo_sapiens/illumina/bam/example_pe.bam", checkIfExists: true) + ] + + OPTITYPE ( input ) +} diff --git a/tests/software/optitype/test.yml b/tests/software/optitype/test.yml new file mode 100644 index 00000000..0b8f753d --- /dev/null +++ b/tests/software/optitype/test.yml @@ -0,0 +1,7 @@ +- name: optitype test_optitype + command: nextflow run tests/software/optitype -entry test_optitype -c tests/config/nextflow.config + tags: + - optitype + files: + - path: output/optitype/test/test_result.tsv + - path: output/optitype/test/test_coverage_plot.pdf diff --git a/tests/software/pangolin/main.nf b/tests/software/pangolin/main.nf index 9b6e502a..44e6ed20 100644 --- a/tests/software/pangolin/main.nf +++ b/tests/software/pangolin/main.nf @@ -6,7 +6,7 @@ include { PANGOLIN } from '../../../software/pangolin/main.nf' addParams( option workflow test_pangolin { input = [ [ id:'test' ], // meta map - [ file("${launchDir}/tests/data/genomics/sarscov2/fasta/test_genome.fasta", checkIfExists: true) ] ] + [ file("${launchDir}/tests/data/genomics/sarscov2/genome/genome.fasta", checkIfExists: true) ] ] PANGOLIN ( input ) } diff --git a/tests/software/picard/collectmultiplemetrics/main.nf b/tests/software/picard/collectmultiplemetrics/main.nf index 5847b6ac..0c3005d0 100644 --- a/tests/software/picard/collectmultiplemetrics/main.nf +++ b/tests/software/picard/collectmultiplemetrics/main.nf @@ -5,13 +5,10 @@ nextflow.enable.dsl = 2 include { PICARD_COLLECTMULTIPLEMETRICS } from '../../../../software/picard/collectmultiplemetrics/main.nf' addParams( options: [:] ) workflow test_picard_collectmultiplemetrics { - - def input = [] input = [ [ id:'test', single_end:false ], // meta map - file("${launchDir}/tests/data/genomics/sarscov2/bam/test_paired_end.sorted.bam", checkIfExists: true) ] + file(params.test_data['sarscov2']['illumina']['test_paired_end_sorted_bam'], checkIfExists: true) + ] + fasta = file(params.test_data['sarscov2']['genome']['genome_fasta'], checkIfExists: true) - PICARD_COLLECTMULTIPLEMETRICS ( - input, - file("${launchDir}/tests/data/genomics/sarscov2/fasta/test_genome.fasta", checkIfExists: true) - ) + PICARD_COLLECTMULTIPLEMETRICS ( input, fasta ) } diff --git a/tests/software/picard/collectwgsmetrics/main.nf b/tests/software/picard/collectwgsmetrics/main.nf new file mode 100644 index 00000000..860937fe --- /dev/null +++ b/tests/software/picard/collectwgsmetrics/main.nf @@ -0,0 +1,15 @@ +#!/usr/bin/env nextflow + +nextflow.enable.dsl = 2 + +include { PICARD_COLLECTWGSMETRICS } from '../../../../software/picard/collectwgsmetrics/main.nf' addParams( options: [:] ) + +workflow test_picard_collectwgsmetrics { + input = [ [ id:'test', single_end:false ], // meta map + file(params.test_data['sarscov2']['illumina']['test_paired_end_sorted_bam'], checkIfExists: true), + file(params.test_data['sarscov2']['illumina']['test_paired_end_sorted_bam_bai'], checkIfExists: true) + ] + fasta = file(params.test_data['sarscov2']['genome']['genome_fasta'], checkIfExists: true) + + PICARD_COLLECTWGSMETRICS ( input, fasta ) +} diff --git a/tests/software/picard/collectwgsmetrics/test.yml b/tests/software/picard/collectwgsmetrics/test.yml new file mode 100644 index 00000000..2e9f0f22 --- /dev/null +++ b/tests/software/picard/collectwgsmetrics/test.yml @@ -0,0 +1,11 @@ +- name: picard collectwgsmetrics test_picard_collectwgsmetrics + command: nextflow run tests/software/picard/collectwgsmetrics -entry test_picard_collectwgsmetrics -c tests/config/nextflow.config + tags: + - picard_collectwgsmetrics + - picard + files: + - path: output/picard/test.CollectWgsMetrics.coverage_metrics + contains: + - "GENOME_TERRITORY" + - "29829" + - "17554" diff --git a/tests/software/picard/markduplicates/main.nf b/tests/software/picard/markduplicates/main.nf index 3c4fc46b..3f4463e2 100644 --- a/tests/software/picard/markduplicates/main.nf +++ b/tests/software/picard/markduplicates/main.nf @@ -5,19 +5,17 @@ nextflow.enable.dsl = 2 include { PICARD_MARKDUPLICATES } from '../../../../software/picard/markduplicates/main.nf' addParams( options: [:] ) workflow test_picard_markduplicates_sorted_bam { - - def input = [] input = [ [ id:'test', single_end:false ], // meta map - file("${launchDir}/tests/data/genomics/sarscov2/bam/test_paired_end.sorted.bam", checkIfExists: true) ] + file(params.test_data['sarscov2']['illumina']['test_paired_end_sorted_bam'], checkIfExists: true) + ] PICARD_MARKDUPLICATES ( input ) } workflow test_picard_markduplicates_unsorted_bam { - - def input = [] input = [ [ id:'test', single_end:false ], // meta map - file("${launchDir}/tests/data/genomics/sarscov2/bam/test_paired_end.bam", checkIfExists: true) ] + file(params.test_data['sarscov2']['illumina']['test_paired_end_bam'], checkIfExists: true) + ] PICARD_MARKDUPLICATES ( input ) } diff --git a/tests/software/picard/markduplicates/test.yml b/tests/software/picard/markduplicates/test.yml index 7a898eb9..021c7a22 100644 --- a/tests/software/picard/markduplicates/test.yml +++ b/tests/software/picard/markduplicates/test.yml @@ -6,7 +6,7 @@ files: - path: ./output/picard/test.MarkDuplicates.metrics.txt - path: ./output/picard/test.bam - md5sum: 19a4891c3b98d0482dce2253fb28d852 + md5sum: fe8ed25b4bd25be0cc7a8730fc3b2f30 - name: picard markduplicates on unsorted bam command: nextflow run ./tests/software/picard/markduplicates -entry test_picard_markduplicates_unsorted_bam -c tests/config/nextflow.config diff --git a/tests/software/picard/mergesamfiles/main.nf b/tests/software/picard/mergesamfiles/main.nf index b8a3b9d6..20a468be 100644 --- a/tests/software/picard/mergesamfiles/main.nf +++ b/tests/software/picard/mergesamfiles/main.nf @@ -5,11 +5,10 @@ nextflow.enable.dsl = 2 include { PICARD_MERGESAMFILES } from '../../../../software/picard/mergesamfiles/main.nf' addParams( options: [:] ) workflow test_picard_mergesamfiles { - - def input = [] input = [ [ id:'test', single_end:false ], // meta map - [ file("${launchDir}/tests/data/genomics/sarscov2/bam/test_paired_end.sorted.bam", checkIfExists: true), - file("${launchDir}/tests/data/genomics/sarscov2/bam/test_single_end.bam", checkIfExists: true), ] ] + [ file(params.test_data['sarscov2']['illumina']['test_paired_end_sorted_bam'], checkIfExists: true), + file(params.test_data['sarscov2']['illumina']['test_single_end_bam'], checkIfExists: true), ] + ] PICARD_MERGESAMFILES ( input ) } diff --git a/tests/software/picard/mergesamfiles/test.yml b/tests/software/picard/mergesamfiles/test.yml index 3abe539b..46a790fa 100644 --- a/tests/software/picard/mergesamfiles/test.yml +++ b/tests/software/picard/mergesamfiles/test.yml @@ -5,4 +5,4 @@ - picard_mergesamfiles files: - path: ./output/picard/test.bam - md5sum: 58c55f222b48df0a536cb635593388a4 + md5sum: b8bd6c22f36c6ebc91bca98bd637a2eb diff --git a/tests/software/preseq/lcextrap/main.nf b/tests/software/preseq/lcextrap/main.nf index c15cd0bd..f9840e14 100644 --- a/tests/software/preseq/lcextrap/main.nf +++ b/tests/software/preseq/lcextrap/main.nf @@ -8,10 +8,9 @@ include { PRESEQ_LCEXTRAP } from '../../../../software/preseq/lcextrap/main.nf' * Test with single-end data */ workflow test_preseq_single_end { - - def input = [] input = [ [ id:'test', single_end:true ], // meta map - [ file('https://github.com/smithlabcode/preseq/raw/master/data/SRR1003759_5M_subset.mr', checkIfExists: true), ] ] + [ file('https://github.com/smithlabcode/preseq/raw/master/data/SRR1003759_5M_subset.mr', checkIfExists: true) ] + ] PRESEQ_LCEXTRAP ( input ) } @@ -19,10 +18,9 @@ workflow test_preseq_single_end { * Test with paired-end data */ workflow test_preseq_paired_end { - - def input = [] input = [ [ id:'test', single_end:false ], // meta map - [ file('https://github.com/smithlabcode/preseq/raw/master/data/SRR1003759_5M_subset.mr', checkIfExists: true), ] ] + [ file('https://github.com/smithlabcode/preseq/raw/master/data/SRR1003759_5M_subset.mr', checkIfExists: true) ] + ] PRESEQ_LCEXTRAP ( input ) } diff --git a/tests/software/prodigal/main.nf b/tests/software/prodigal/main.nf new file mode 100644 index 00000000..fe099425 --- /dev/null +++ b/tests/software/prodigal/main.nf @@ -0,0 +1,13 @@ +#!/usr/bin/env nextflow + +nextflow.enable.dsl = 2 + +include { PRODIGAL } from '../../../software/prodigal/main.nf' addParams( options: [:] ) + +workflow test_prodigal { + input = [ [ id:'test' ], // meta map + file(params.test_data['sarscov2']['genome']['genome_fasta'], checkIfExists: true) + ] + + PRODIGAL ( input , "gff") +} diff --git a/tests/software/prodigal/test.yml b/tests/software/prodigal/test.yml new file mode 100644 index 00000000..83f5cf73 --- /dev/null +++ b/tests/software/prodigal/test.yml @@ -0,0 +1,13 @@ +- name: prodigal test_prodigal + command: nextflow run tests/software/prodigal -entry test_prodigal -c tests/config/nextflow.config + tags: + - prodigal + files: + - path: output/prodigal/test.fna + md5sum: 1bc8a05bcb72a3c324f5e4ffaa716d3b + - path: output/prodigal/test.gff + md5sum: 612c2724c2891c63350f171f74165757 + - path: output/prodigal/test.faa + md5sum: 7168b854103f3586ccfdb71a44c389f7 + - path: output/prodigal/test_all.txt + md5sum: e6d6c50f0c39e5169f84ae3c90837fa9 diff --git a/tests/software/prokka/main.nf b/tests/software/prokka/main.nf new file mode 100644 index 00000000..e230f064 --- /dev/null +++ b/tests/software/prokka/main.nf @@ -0,0 +1,13 @@ +#!/usr/bin/env nextflow + +nextflow.enable.dsl = 2 + +include { PROKKA } from '../../../software/prokka/main.nf' addParams( options: [:] ) + +workflow test_prokka { + input = [ [ id:'test', single_end:false ], // meta map + file(params.test_data['sarscov2']['genome']['genome_fasta'], checkIfExists: true) + ] + + PROKKA ( input, [], [] ) +} diff --git a/tests/software/prokka/test.yml b/tests/software/prokka/test.yml new file mode 100644 index 00000000..fc12af81 --- /dev/null +++ b/tests/software/prokka/test.yml @@ -0,0 +1,27 @@ +- name: prokka + command: nextflow run ./tests/software/prokka -entry test_prokka -c tests/config/nextflow.config + tags: + - prokka + files: + - path: output/prokka/test/test.err + md5sum: b3daedc646fddd422824e2b3e5e9229d + - path: output/prokka/test/test.faa + md5sum: a4ceda83262b3c222a6b1f508fb9e24b + - path: output/prokka/test/test.ffn + md5sum: 80f474b5367b7ea5ed23791935f65e34 + - path: output/prokka/test/test.fna + md5sum: 787307f29a263e5657cc276ebbf7e2b3 + - path: output/prokka/test/test.fsa + md5sum: 71bbefcb7f12046bcd3263f58cfd5404 + - path: output/prokka/test/test.gff + md5sum: 5dbfb8fcf2db020564c16045976a0933 + - path: output/prokka/test/test.tbl + md5sum: d8f816a066ced94b62d9618b13fb8add + - path: output/prokka/test/test.tsv + md5sum: da7c720c3018c5081d6a70b517b7d450 + - path: output/prokka/test/test.txt + md5sum: b40e485ffc8eaf1feacf8d79d9751a33 + # Contain time stamps + - path: output/prokka/test/test.gbk + - path: output/prokka/test/test.log + - path: output/prokka/test/test.sqn diff --git a/tests/software/qualimap/bamqc/main.nf b/tests/software/qualimap/bamqc/main.nf index 7238c391..7dc7007a 100644 --- a/tests/software/qualimap/bamqc/main.nf +++ b/tests/software/qualimap/bamqc/main.nf @@ -5,12 +5,11 @@ nextflow.enable.dsl = 2 include { QUALIMAP_BAMQC } from '../../../../software/qualimap/bamqc/main.nf' addParams( options: [:] ) workflow test_qualimap_bamqc { - - def input = [] - input = [ [ id:'test', single_end:false ], // meta map - file("${launchDir}/tests/data/genomics/sarscov2/bam/test_paired_end.sorted.bam", checkIfExists: true) ] - def gff = file("dummy_file.txt") - def use_gff = false + input = [ [ id:'test', single_end:false ], // meta map + file("${launchDir}/tests/data/genomics/sarscov2/illumina/bam/test_paired_end.sorted.bam", checkIfExists: true) + ] + gff = file("dummy_file.txt") + use_gff = false QUALIMAP_BAMQC ( input, gff, use_gff ) -} +} \ No newline at end of file diff --git a/tests/software/quast/main.nf b/tests/software/quast/main.nf index c3c10c4f..208191f7 100644 --- a/tests/software/quast/main.nf +++ b/tests/software/quast/main.nf @@ -5,21 +5,21 @@ nextflow.enable.dsl = 2 include { QUAST } from '../../../software/quast/main.nf' addParams(options: [:]) workflow test_quast_ref { - consensus = file("${launchDir}/tests/data/genomics/sarscov2/fasta/test_transcriptome.fasta", checkIfExists: true) - gff = file("${launchDir}/tests/data/genomics/sarscov2/gtf/test_genome.gtf", checkIfExists: true) - fasta = file("${launchDir}/tests/data/genomics/sarscov2/fasta/test_genome.fasta", checkIfExists: true) - def use_fasta = true - def use_gtf = true + fasta = file("${launchDir}/tests/data/genomics/sarscov2/genome/genome.fasta", checkIfExists: true) + gff = file("${launchDir}/tests/data/genomics/sarscov2/genome/genome.gtf", checkIfExists: true) + consensus = file("${launchDir}/tests/data/genomics/sarscov2/genome/transcriptome.fasta", checkIfExists: true) + use_fasta = true + use_gtf = true - QUAST( consensus, fasta, gff, use_fasta, use_gtf ) + QUAST ( consensus, fasta, gff, use_fasta, use_gtf ) } workflow test_quast_noref { - consensus = file("${launchDir}/tests/data/genomics/sarscov2/fasta/test_genome.fasta", checkIfExists: true) - gff = file('gff_dummy') - fasta = file('fasta_dummy') - def use_fasta = false - def use_gtf = false + fasta = file('fasta_dummy') + gff = file('gff_dummy') + consensus = file("${launchDir}/tests/data/genomics/sarscov2/genome/genome.fasta", checkIfExists: true) + use_fasta = false + use_gtf = false - QUAST( consensus, fasta, gff, use_fasta, use_gtf ) + QUAST ( consensus, fasta, gff, use_fasta, use_gtf ) } diff --git a/tests/software/salmon/index/main.nf b/tests/software/salmon/index/main.nf index 38d057e2..1d79215f 100644 --- a/tests/software/salmon/index/main.nf +++ b/tests/software/salmon/index/main.nf @@ -5,7 +5,8 @@ nextflow.enable.dsl = 2 include { SALMON_INDEX } from '../../../../software/salmon/index/main.nf' addParams( options: [:] ) workflow test_salmon_index { - def genome_fasta = file("${launchDir}/tests/data/genomics/sarscov2/fasta/test_genome.fasta", checkIfExists: true) - def transcript_fasta = file("${launchDir}/tests/data/genomics/sarscov2/fasta/test_transcriptome.fasta", checkIfExists: true) + genome_fasta = file(params.test_data['sarscov2']['genome']['genome_fasta'], checkIfExists: true) + transcript_fasta = file(params.test_data['sarscov2']['genome']['transcriptome_fasta'], checkIfExists: true) + SALMON_INDEX ( genome_fasta, transcript_fasta ) } diff --git a/tests/software/salmon/index/test.yml b/tests/software/salmon/index/test.yml index 56746ca9..efd3dac1 100644 --- a/tests/software/salmon/index/test.yml +++ b/tests/software/salmon/index/test.yml @@ -4,28 +4,28 @@ - salmon - salmon_index files: - - path: ./output/salmon/salmon/ref_indexing.log - - path: ./output/salmon/salmon/refseq.bin + - path: ./output/index/salmon/ref_indexing.log + - path: ./output/index/salmon/refseq.bin md5sum: 79c4ddf34be3a98d5a7b9d153629a6f7 - - path: ./output/salmon/salmon/versionInfo.json + - path: ./output/index/salmon/versionInfo.json md5sum: 204865f645102587c4953fccb256797c - - path: ./output/salmon/salmon/complete_ref_lens.bin + - path: ./output/index/salmon/complete_ref_lens.bin md5sum: f57562f1fca3ae7b133f895ae13c3d08 - - path: ./output/salmon/salmon/mphf.bin + - path: ./output/index/salmon/mphf.bin md5sum: 53669a47610e33e031faafd32703b714 - - path: ./output/salmon/salmon/pre_indexing.log - - path: ./output/salmon/salmon/ctable.bin - - path: ./output/salmon/salmon/duplicate_clusters.tsv + - path: ./output/index/salmon/pre_indexing.log + - path: ./output/index/salmon/ctable.bin + - path: ./output/index/salmon/duplicate_clusters.tsv md5sum: 51b5292e3a874119c0e1aa566e95d70c - - path: ./output/salmon/salmon/reflengths.bin + - path: ./output/index/salmon/reflengths.bin md5sum: f57562f1fca3ae7b133f895ae13c3d08 - - path: ./output/salmon/salmon/info.json + - path: ./output/index/salmon/info.json md5sum: 61ff4d3471134c280668355ddd39e99f - - path: ./output/salmon/salmon/refAccumLengths.bin + - path: ./output/index/salmon/refAccumLengths.bin md5sum: 8d1970505b2b08ca0eb5ff7722b48cde - - path: ./output/salmon/salmon/ctg_offsets.bin + - path: ./output/index/salmon/ctg_offsets.bin md5sum: 27a76542337df436436e66017f66dd25 - - path: ./output/salmon/salmon/rank.bin + - path: ./output/index/salmon/rank.bin md5sum: 3f34dca1ec26cdf89a6d19b1d1c07e71 - - path: ./output/salmon/salmon/pos.bin - - path: ./output/salmon/salmon/seq.bin + - path: ./output/index/salmon/pos.bin + - path: ./output/index/salmon/seq.bin diff --git a/tests/software/salmon/quant/main.nf b/tests/software/salmon/quant/main.nf index c188d989..7b11a5a4 100644 --- a/tests/software/salmon/quant/main.nf +++ b/tests/software/salmon/quant/main.nf @@ -7,11 +7,12 @@ include { SALMON_QUANT } from '../../../../software/salmon/quant/main.nf' addPar workflow test_salmon_quant_single_end { - def genome_fasta = file("${launchDir}/tests/data/genomics/sarscov2/fasta/test_genome.fasta", checkIfExists: true) - def transcript_fasta = file("${launchDir}/tests/data/genomics/sarscov2/fasta/test_transcriptome.fasta", checkIfExists: true) - def gtf = file("${launchDir}/tests/data/genomics/sarscov2/gtf/test_genome.gtf", checkIfExists: true) - def input = [ [ id:'test', single_end:true ], // meta map - file("${launchDir}/tests/data/genomics/sarscov2/fastq/test_1.fastq.gz", checkIfExists: true) ] + input = [ [ id:'test', single_end:true ], // meta map + file(params.test_data['sarscov2']['illumina']['test_1_fastq_gz'], checkIfExists: true) + ] + genome_fasta = file(params.test_data['sarscov2']['genome']['genome_fasta'], checkIfExists: true) + transcript_fasta = file(params.test_data['sarscov2']['genome']['transcriptome_fasta'], checkIfExists: true) + gtf = file(params.test_data['sarscov2']['genome']['genome_gtf'], checkIfExists: true) SALMON_INDEX ( genome_fasta, transcript_fasta ) SALMON_QUANT ( input, SALMON_INDEX.out.index, gtf, transcript_fasta, false ) @@ -20,12 +21,13 @@ workflow test_salmon_quant_single_end { workflow test_salmon_quant_paired_end { - def genome_fasta = file("${launchDir}/tests/data/genomics/sarscov2/fasta/test_genome.fasta", checkIfExists: true) - def transcript_fasta = file("${launchDir}/tests/data/genomics/sarscov2/fasta/test_transcriptome.fasta", checkIfExists: true) - def gtf = file("${launchDir}/tests/data/genomics/sarscov2/gtf/test_genome.gtf", checkIfExists: true) - def input = [ [ id:'test', single_end:false ], // meta map - [ file("${launchDir}/tests/data/genomics/sarscov2/fastq/test_1.fastq.gz", checkIfExists: true), - file("${launchDir}/tests/data/genomics/sarscov2/fastq/test_2.fastq.gz", checkIfExists: true) ] ] + input = [ [ id:'test', single_end:false ], // meta map + [ file(params.test_data['sarscov2']['illumina']['test_1_fastq_gz'], checkIfExists: true), + file(params.test_data['sarscov2']['illumina']['test_2_fastq_gz'], checkIfExists: true) ] + ] + genome_fasta = file(params.test_data['sarscov2']['genome']['genome_fasta'], checkIfExists: true) + transcript_fasta = file(params.test_data['sarscov2']['genome']['transcriptome_fasta'], checkIfExists: true) + gtf = file(params.test_data['sarscov2']['genome']['genome_gtf'], checkIfExists: true) SALMON_INDEX ( genome_fasta, transcript_fasta ) SALMON_QUANT ( input, SALMON_INDEX.out.index, gtf, transcript_fasta, false ) diff --git a/tests/software/salmon/quant/test.yml b/tests/software/salmon/quant/test.yml index f1d9cafa..4bd64059 100644 --- a/tests/software/salmon/quant/test.yml +++ b/tests/software/salmon/quant/test.yml @@ -24,31 +24,31 @@ md5sum: ef13c06a538e9c34ca9f84212c82f44e - path: ./output/salmon/test/libParams/flenDist.txt md5sum: 2de170bdc9f6fd237d286429b292bb28 - - path: ./output/salmon/salmon/ref_indexing.log - - path: ./output/salmon/salmon/refseq.bin + - path: ./output/index/salmon/ref_indexing.log + - path: ./output/index/salmon/refseq.bin md5sum: 79c4ddf34be3a98d5a7b9d153629a6f7 - - path: ./output/salmon/salmon/versionInfo.json + - path: ./output/index/salmon/versionInfo.json md5sum: 204865f645102587c4953fccb256797c - - path: ./output/salmon/salmon/complete_ref_lens.bin + - path: ./output/index/salmon/complete_ref_lens.bin md5sum: f57562f1fca3ae7b133f895ae13c3d08 - - path: ./output/salmon/salmon/mphf.bin + - path: ./output/index/salmon/mphf.bin md5sum: 53669a47610e33e031faafd32703b714 - - path: ./output/salmon/salmon/pre_indexing.log - - path: ./output/salmon/salmon/ctable.bin - - path: ./output/salmon/salmon/duplicate_clusters.tsv + - path: ./output/index/salmon/pre_indexing.log + - path: ./output/index/salmon/ctable.bin + - path: ./output/index/salmon/duplicate_clusters.tsv md5sum: 51b5292e3a874119c0e1aa566e95d70c - - path: ./output/salmon/salmon/reflengths.bin + - path: ./output/index/salmon/reflengths.bin md5sum: f57562f1fca3ae7b133f895ae13c3d08 - - path: ./output/salmon/salmon/info.json + - path: ./output/index/salmon/info.json md5sum: 61ff4d3471134c280668355ddd39e99f - - path: ./output/salmon/salmon/refAccumLengths.bin + - path: ./output/index/salmon/refAccumLengths.bin md5sum: 8d1970505b2b08ca0eb5ff7722b48cde - - path: ./output/salmon/salmon/ctg_offsets.bin + - path: ./output/index/salmon/ctg_offsets.bin md5sum: 27a76542337df436436e66017f66dd25 - - path: ./output/salmon/salmon/rank.bin + - path: ./output/index/salmon/rank.bin md5sum: 3f34dca1ec26cdf89a6d19b1d1c07e71 - - path: ./output/salmon/salmon/pos.bin - - path: ./output/salmon/salmon/seq.bin + - path: ./output/index/salmon/pos.bin + - path: ./output/index/salmon/seq.bin - name: salmon quant paired end command: nextflow run ./tests/software/salmon/quant -entry test_salmon_quant_paired_end -c tests/config/nextflow.config @@ -76,28 +76,28 @@ md5sum: ef13c06a538e9c34ca9f84212c82f44e - path: ./output/salmon/test/libParams/flenDist.txt md5sum: 221f754ed55dd1e34874f9b7b3f9d240 - - path: ./output/salmon/salmon/ref_indexing.log - - path: ./output/salmon/salmon/refseq.bin + - path: ./output/index/salmon/ref_indexing.log + - path: ./output/index/salmon/refseq.bin md5sum: 79c4ddf34be3a98d5a7b9d153629a6f7 - - path: ./output/salmon/salmon/versionInfo.json + - path: ./output/index/salmon/versionInfo.json md5sum: 204865f645102587c4953fccb256797c - - path: ./output/salmon/salmon/complete_ref_lens.bin + - path: ./output/index/salmon/complete_ref_lens.bin md5sum: f57562f1fca3ae7b133f895ae13c3d08 - - path: ./output/salmon/salmon/mphf.bin + - path: ./output/index/salmon/mphf.bin md5sum: 53669a47610e33e031faafd32703b714 - - path: ./output/salmon/salmon/pre_indexing.log - - path: ./output/salmon/salmon/ctable.bin - - path: ./output/salmon/salmon/duplicate_clusters.tsv + - path: ./output/index/salmon/pre_indexing.log + - path: ./output/index/salmon/ctable.bin + - path: ./output/index/salmon/duplicate_clusters.tsv md5sum: 51b5292e3a874119c0e1aa566e95d70c - - path: ./output/salmon/salmon/reflengths.bin + - path: ./output/index/salmon/reflengths.bin md5sum: f57562f1fca3ae7b133f895ae13c3d08 - - path: ./output/salmon/salmon/info.json + - path: ./output/index/salmon/info.json md5sum: 61ff4d3471134c280668355ddd39e99f - - path: ./output/salmon/salmon/refAccumLengths.bin + - path: ./output/index/salmon/refAccumLengths.bin md5sum: 8d1970505b2b08ca0eb5ff7722b48cde - - path: ./output/salmon/salmon/ctg_offsets.bin + - path: ./output/index/salmon/ctg_offsets.bin md5sum: 27a76542337df436436e66017f66dd25 - - path: ./output/salmon/salmon/rank.bin + - path: ./output/index/salmon/rank.bin md5sum: 3f34dca1ec26cdf89a6d19b1d1c07e71 - - path: ./output/salmon/salmon/pos.bin - - path: ./output/salmon/salmon/seq.bin + - path: ./output/index/salmon/pos.bin + - path: ./output/index/salmon/seq.bin diff --git a/tests/software/samtools/faidx/main.nf b/tests/software/samtools/faidx/main.nf index 05eeb5e8..e977cf0b 100644 --- a/tests/software/samtools/faidx/main.nf +++ b/tests/software/samtools/faidx/main.nf @@ -5,6 +5,7 @@ nextflow.enable.dsl = 2 include { SAMTOOLS_FAIDX } from '../../../../software/samtools/faidx/main.nf' addParams( options: [:] ) workflow test_samtools_faidx { + fasta = file(params.test_data['sarscov2']['genome']['genome_fasta'], checkIfExists: true) - SAMTOOLS_FAIDX ( file("${launchDir}/tests/data/genomics/sarscov2/fasta/test_genome.fasta", checkIfExists: true) ) + SAMTOOLS_FAIDX ( fasta ) } diff --git a/tests/software/samtools/faidx/test.yml b/tests/software/samtools/faidx/test.yml index 48bb15af..912ea8d9 100644 --- a/tests/software/samtools/faidx/test.yml +++ b/tests/software/samtools/faidx/test.yml @@ -1,8 +1,8 @@ - name: Run samtools faidx test workflow - command: nextflow run ./tests/software/samtools/faidx -entry test_samtools_faidx -c tests/config/nextflow.config + command: nextflow run tests/software/samtools/faidx -entry test_samtools_faidx -c tests/config/nextflow.config tags: - samtools - samtools_faidx files: - - path: ./output/samtools/test_genome.fasta.fai + - path: output/samtools/genome.fasta.fai md5sum: 9da2a56e2853dc8c0b86a9e7229c9fe5 diff --git a/tests/software/samtools/fastq/main.nf b/tests/software/samtools/fastq/main.nf new file mode 100644 index 00000000..92c78049 --- /dev/null +++ b/tests/software/samtools/fastq/main.nf @@ -0,0 +1,13 @@ +#!/usr/bin/env nextflow + +nextflow.enable.dsl = 2 + +include { SAMTOOLS_FASTQ } from '../../../../software/samtools/fastq/main.nf' addParams( options: [:] ) + +workflow test_samtools_fastq { + input = [ [ id:'test', single_end:false ], // meta map + file(params.test_data['sarscov2']['illumina']['test_paired_end_bam'], checkIfExists: true) + ] + + SAMTOOLS_FASTQ ( input ) +} diff --git a/tests/software/samtools/fastq/test.yml b/tests/software/samtools/fastq/test.yml new file mode 100644 index 00000000..ac89b510 --- /dev/null +++ b/tests/software/samtools/fastq/test.yml @@ -0,0 +1,10 @@ +- name: samtools fastq test_samtools_fastq + command: nextflow run tests/software/samtools/fastq -entry test_samtools_fastq -c tests/config/nextflow.config + tags: + - samtools + - samtools_fastq + files: + - path: output/samtools/test_2.fastq.gz + md5sum: 229daf1a62d114cae42c65801e8c0114 + - path: output/samtools/test_1.fastq.gz + md5sum: 4cab81f76e66361611621377f1b69d1d diff --git a/tests/software/samtools/flagstat/main.nf b/tests/software/samtools/flagstat/main.nf index e07015ac..b785e2c2 100644 --- a/tests/software/samtools/flagstat/main.nf +++ b/tests/software/samtools/flagstat/main.nf @@ -5,10 +5,10 @@ nextflow.enable.dsl = 2 include { SAMTOOLS_FLAGSTAT } from '../../../../software/samtools/flagstat/main.nf' addParams( options: [:] ) workflow test_samtools_flagstat { - - def input = [] input = [ [ id:'test', single_end:false ], // meta map - file("${launchDir}/tests/data/genomics/sarscov2/bam/test_paired_end.sorted.bam", checkIfExists: true), - file("${launchDir}/tests/data/genomics/sarscov2/bam/test_paired_end.sorted.bam.bai", checkIfExists: true) ] + file(params.test_data['sarscov2']['illumina']['test_paired_end_sorted_bam'], checkIfExists: true), + file(params.test_data['sarscov2']['illumina']['test_paired_end_sorted_bam_bai'], checkIfExists: true) + ] + SAMTOOLS_FLAGSTAT ( input ) } diff --git a/tests/software/samtools/idxstats/main.nf b/tests/software/samtools/idxstats/main.nf index c3908dc7..5d6def09 100644 --- a/tests/software/samtools/idxstats/main.nf +++ b/tests/software/samtools/idxstats/main.nf @@ -5,10 +5,10 @@ nextflow.enable.dsl = 2 include { SAMTOOLS_IDXSTATS } from '../../../../software/samtools/idxstats/main.nf' addParams( options: [:] ) workflow test_samtools_idxstats { - - def input = [] input = [ [ id:'test', single_end:false ], // meta map - file("${launchDir}/tests/data/genomics/sarscov2/bam/test_paired_end.sorted.bam", checkIfExists: true), - file("${launchDir}/tests/data/genomics/sarscov2/bam/test_paired_end.sorted.bam.bai", checkIfExists: true) ] + file(params.test_data['sarscov2']['illumina']['test_paired_end_sorted_bam'], checkIfExists: true), + file(params.test_data['sarscov2']['illumina']['test_paired_end_sorted_bam_bai'], checkIfExists: true) + ] + SAMTOOLS_IDXSTATS ( input ) } diff --git a/tests/software/samtools/index/main.nf b/tests/software/samtools/index/main.nf index 776ec915..815bd239 100644 --- a/tests/software/samtools/index/main.nf +++ b/tests/software/samtools/index/main.nf @@ -5,9 +5,9 @@ nextflow.enable.dsl = 2 include { SAMTOOLS_INDEX } from '../../../../software/samtools/index/main.nf' addParams( options: [:] ) workflow test_samtools_index { - - def input = [] input = [ [ id:'test', single_end:false ], // meta map - file("${launchDir}/tests/data/genomics/sarscov2/bam/test_paired_end.sorted.bam", checkIfExists: true) ] + file(params.test_data['sarscov2']['illumina']['test_paired_end_sorted_bam'], checkIfExists: true) + ] + SAMTOOLS_INDEX ( input ) } diff --git a/tests/software/samtools/index/test.yml b/tests/software/samtools/index/test.yml index 373e0b94..87934bfb 100644 --- a/tests/software/samtools/index/test.yml +++ b/tests/software/samtools/index/test.yml @@ -1,8 +1,8 @@ - name: samtools index - command: nextflow run ./tests/software/samtools/index -entry test_samtools_index -c tests/config/nextflow.config + command: nextflow run tests/software/samtools/index -entry test_samtools_index -c tests/config/nextflow.config tags: - samtools - samtools_index files: - - path: ./output/samtools/test_paired_end.sorted.bam.bai - md5sum: d7ef575848d1d13000317e4763b9e502 + - path: output/samtools/test_paired_end.sorted.bam.bai + md5sum: 704c10dd1326482448ca3073fdebc2f4 diff --git a/tests/software/samtools/merge/main.nf b/tests/software/samtools/merge/main.nf new file mode 100644 index 00000000..97e080c3 --- /dev/null +++ b/tests/software/samtools/merge/main.nf @@ -0,0 +1,15 @@ +#!/usr/bin/env nextflow + +nextflow.enable.dsl = 2 + +include { SAMTOOLS_MERGE } from '../../../../software/samtools/merge/main.nf' addParams( options: [:] ) + +workflow test_samtools_merge { + input = [ [ id: 'test' ], // meta map + [ file(params.test_data['sarscov2']['illumina']['test_methylated_paired_end_sorted_bam'], checkIfExists: true), + file(params.test_data['sarscov2']['illumina']['test_paired_end_sorted_bam'], checkIfExists: true), + file(params.test_data['sarscov2']['illumina']['test_single_end_sorted_bam'], checkIfExists: true)] + ] + + SAMTOOLS_MERGE ( input ) +} diff --git a/tests/software/samtools/merge/test.yml b/tests/software/samtools/merge/test.yml new file mode 100644 index 00000000..27ec9f31 --- /dev/null +++ b/tests/software/samtools/merge/test.yml @@ -0,0 +1,7 @@ +- name: samtools merge + command: nextflow run ./tests/software/samtools/merge -entry test_samtools_merge -c tests/config/nextflow.config + tags: + - samtools + - samtools_merge + files: + - path: output/samtools/test_merged.bam diff --git a/tests/software/samtools/mpileup/main.nf b/tests/software/samtools/mpileup/main.nf index 6137e345..df4f4140 100644 --- a/tests/software/samtools/mpileup/main.nf +++ b/tests/software/samtools/mpileup/main.nf @@ -5,11 +5,10 @@ nextflow.enable.dsl = 2 include { SAMTOOLS_MPILEUP } from '../../../../software/samtools/mpileup/main.nf' addParams( options: [:] ) workflow test_samtools_mpileup { - - def input = [] - def fasta = [] input = [ [ id:'test', single_end:false ], // meta map - file("${launchDir}/tests/data/genomics/sarscov2/bam/test_paired_end.sorted.bam", checkIfExists: true) ] - fasta = [ file("${launchDir}/tests/data/genomics/sarscov2/fasta/test_genome.fasta", checkIfExists: true) ] + file(params.test_data['sarscov2']['illumina']['test_paired_end_sorted_bam'], checkIfExists: true) + ] + fasta = file("${launchDir}/tests/data/genomics/sarscov2/genome/genome.fasta", checkIfExists: true) + SAMTOOLS_MPILEUP ( input, fasta ) } diff --git a/tests/software/samtools/sort/main.nf b/tests/software/samtools/sort/main.nf index f80878e7..fd30d7ce 100644 --- a/tests/software/samtools/sort/main.nf +++ b/tests/software/samtools/sort/main.nf @@ -5,9 +5,9 @@ nextflow.enable.dsl = 2 include { SAMTOOLS_SORT } from '../../../../software/samtools/sort/main.nf' addParams( options: [:] ) workflow test_samtools_sort { - - def input = [] input = [ [ id:'test', single_end:false ], // meta map - file("${launchDir}/tests/data/genomics/sarscov2/bam/test_paired_end.bam", checkIfExists: true) ] + file(params.test_data['sarscov2']['illumina']['test_paired_end_bam'], checkIfExists: true) + ] + SAMTOOLS_SORT ( input ) } diff --git a/tests/software/samtools/sort/test.yml b/tests/software/samtools/sort/test.yml index c1d5cd52..f9ed2227 100644 --- a/tests/software/samtools/sort/test.yml +++ b/tests/software/samtools/sort/test.yml @@ -1,8 +1,8 @@ - name: samtools sort - command: nextflow run ./tests/software/samtools/sort -entry test_samtools_sort -c tests/config/nextflow.config + command: nextflow run tests/software/samtools/sort -entry test_samtools_sort -c tests/config/nextflow.config tags: - samtools - samtools_sort files: - - path: ./output/samtools/test.bam - md5sum: a10e9a09d887cd3ded9b824a87655b93 + - path: output/samtools/test.bam + md5sum: 7e32f47768f922a73ccec4dc24db1973 diff --git a/tests/software/samtools/stats/main.nf b/tests/software/samtools/stats/main.nf index f645df05..1e8677a4 100644 --- a/tests/software/samtools/stats/main.nf +++ b/tests/software/samtools/stats/main.nf @@ -5,10 +5,10 @@ nextflow.enable.dsl = 2 include { SAMTOOLS_STATS } from '../../../../software/samtools/stats/main.nf' addParams( options: [:] ) workflow test_samtools_stats { - - def input = [] input = [ [ id:'test', single_end:false ], // meta map - file("${launchDir}/tests/data/genomics/sarscov2/bam/test_paired_end.sorted.bam", checkIfExists: true), - file("${launchDir}/tests/data/genomics/sarscov2/bam/test_paired_end.sorted.bam.bai", checkIfExists: true) ] + file(params.test_data['sarscov2']['illumina']['test_paired_end_sorted_bam'], checkIfExists: true), + file(params.test_data['sarscov2']['illumina']['test_paired_end_sorted_bam_bai'], checkIfExists: true) + ] + SAMTOOLS_STATS ( input ) } diff --git a/tests/software/samtools/view/main.nf b/tests/software/samtools/view/main.nf index 262a01c3..988e984d 100644 --- a/tests/software/samtools/view/main.nf +++ b/tests/software/samtools/view/main.nf @@ -5,9 +5,10 @@ nextflow.enable.dsl = 2 include { SAMTOOLS_VIEW } from '../../../../software/samtools/view/main.nf' addParams( options: [:] ) workflow test_samtools_view { - - def input = [] input = [ [ id:'test', single_end:false ], // meta map - file("${launchDir}/tests/data/genomics/sarscov2/bam/test_paired_end.bam", checkIfExists: true) ] + file(params.test_data['sarscov2']['illumina']['test_paired_end_bam'], checkIfExists: true) + + ] + SAMTOOLS_VIEW ( input ) } diff --git a/tests/software/samtools/view/test.yml b/tests/software/samtools/view/test.yml index b744107e..308fde3f 100644 --- a/tests/software/samtools/view/test.yml +++ b/tests/software/samtools/view/test.yml @@ -1,8 +1,8 @@ - name: samtools view - command: nextflow run ./tests/software/samtools/view -entry test_samtools_view -c tests/config/nextflow.config + command: nextflow run tests/software/samtools/view -entry test_samtools_view -c tests/config/nextflow.config tags: - samtools - samtools_view files: - - path: ./output/samtools/test.bam - md5sum: 7e0d4c8eeff88e8f318eb2fe07dbdc0a + - path: output/samtools/test.bam + md5sum: 8fb1e82f76416e9e30fc6b2357e2cf13 diff --git a/tests/software/seacr/callpeak/main.nf b/tests/software/seacr/callpeak/main.nf index a693d7a0..e80f4b13 100644 --- a/tests/software/seacr/callpeak/main.nf +++ b/tests/software/seacr/callpeak/main.nf @@ -5,11 +5,10 @@ nextflow.enable.dsl = 2 include { SEACR_CALLPEAK } from '../../../../software/seacr/callpeak/main.nf' addParams( options: [ args:'norm stringent' ] ) workflow test_seacr_callpeak { - - def input = [] - input = [[ id:'test_1'], + input = [ [ id:'test_1'], file("${launchDir}/tests/data/generic/bedgraph/K27me3_1_to_chr20.bedgraph", checkIfExists: true), - file("${launchDir}/tests/data/generic/bedgraph/IgG_1_to_chr20.bedgraph", checkIfExists: true) ] + file("${launchDir}/tests/data/generic/bedgraph/IgG_1_to_chr20.bedgraph", checkIfExists: true) + ] SEACR_CALLPEAK ( input ) } diff --git a/tests/software/seqkit/split2/main.nf b/tests/software/seqkit/split2/main.nf index bc9e7b79..1bb93d43 100644 --- a/tests/software/seqkit/split2/main.nf +++ b/tests/software/seqkit/split2/main.nf @@ -3,53 +3,56 @@ nextflow.enable.dsl = 2 include { SEQKIT_SPLIT2 as SEQKIT_SPLIT2_LENGTH } from '../../../../software/seqkit/split2/main.nf' addParams( options: ['args': '--by-length 8K'] ) -include { SEQKIT_SPLIT2 as SEQKIT_SPLIT2_SIZE } from '../../../../software/seqkit/split2/main.nf' addParams( options: ['args': '--by-size 50' ] ) -include { SEQKIT_SPLIT2 as SEQKIT_SPLIT2_PART } from '../../../../software/seqkit/split2/main.nf' addParams( options: ['args': '--by-part 3'] ) +include { SEQKIT_SPLIT2 as SEQKIT_SPLIT2_SIZE } from '../../../../software/seqkit/split2/main.nf' addParams( options: ['args': '--by-size 50' ] ) +include { SEQKIT_SPLIT2 as SEQKIT_SPLIT2_PART } from '../../../../software/seqkit/split2/main.nf' addParams( options: ['args': '--by-part 3'] ) workflow test_seqkit_split2_single_end_length { - def input = [] input = [ [ id:'test', single_end:true ], // meta map - file("${launchDir}/tests/data/genomics/sarscov2/fastq/test_1.fastq.gz", checkIfExists: true) ] + [ file(params.test_data['sarscov2']['illumina']['test_1_fastq_gz'], checkIfExists: true) ] + ] SEQKIT_SPLIT2_LENGTH ( input ) } workflow test_seqkit_split2_single_end_size { - def input = [] input = [ [ id:'test', single_end:true ], // meta map - file("${launchDir}/tests/data/genomics/sarscov2/fastq/test_1.fastq.gz", checkIfExists: true) ] + [ file(params.test_data['sarscov2']['illumina']['test_1_fastq_gz'], checkIfExists: true) ] + ] SEQKIT_SPLIT2_SIZE ( input ) } workflow test_seqkit_split2_single_end_part { - def input = [] input = [ [ id:'test', single_end:true ], // meta map - file("${launchDir}/tests/data/genomics/sarscov2/fastq/test_1.fastq.gz", checkIfExists: true) ] + [ file(params.test_data['sarscov2']['illumina']['test_1_fastq_gz'], checkIfExists: true) ] + ] SEQKIT_SPLIT2_PART ( input ) } workflow test_seqkit_split2_paired_end_length { - def input = [] input = [ [ id:'test', single_end:false ], // meta map - file("${launchDir}/tests/data/genomics/sarscov2/fastq/test_[1-2].fastq.gz", checkIfExists: true) ] + [ file(params.test_data['sarscov2']['illumina']['test_1_fastq_gz'], checkIfExists: true), + file(params.test_data['sarscov2']['illumina']['test_2_fastq_gz'], checkIfExists: true) ] + ] SEQKIT_SPLIT2_LENGTH ( input ) } workflow test_seqkit_split2_paired_end_size { - def input = [] input = [ [ id:'test', single_end:false ], // meta map - file("${launchDir}//tests/data/genomics/sarscov2/fastq/test_[1-2].fastq.gz", checkIfExists: true) ] + [ file(params.test_data['sarscov2']['illumina']['test_1_fastq_gz'], checkIfExists: true), + file(params.test_data['sarscov2']['illumina']['test_2_fastq_gz'], checkIfExists: true) ] + ] SEQKIT_SPLIT2_SIZE ( input ) } workflow test_seqkit_split2_paired_end_part { - def input = [] input = [ [ id:'test', single_end:false ], // meta map - file("${launchDir}//tests/data/genomics/sarscov2/fastq/test_[1-2].fastq.gz", checkIfExists: true) ] + [ file(params.test_data['sarscov2']['illumina']['test_1_fastq_gz'], checkIfExists: true), + file(params.test_data['sarscov2']['illumina']['test_2_fastq_gz'], checkIfExists: true) ] + ] SEQKIT_SPLIT2_PART ( input ) } diff --git a/tests/software/sequenzautils/bam2seqz/main.nf b/tests/software/sequenzautils/bam2seqz/main.nf new file mode 100755 index 00000000..898093a6 --- /dev/null +++ b/tests/software/sequenzautils/bam2seqz/main.nf @@ -0,0 +1,20 @@ +#!/usr/bin/env nextflow + +nextflow.enable.dsl = 2 + +include { SEQUENZAUTILS_BAM2SEQZ } from '../../../../software/sequenzautils/bam2seqz/main.nf' addParams( options: [:] ) + +workflow test_sequenzautils_bam2seqz { + + tumourbam = file(params.test_data['sarscov2']['illumina']['test_paired_end_sorted_bam'], checkIfExists: true) + normalbam = file(params.test_data['sarscov2']['illumina']['test_single_end_sorted_bam'], checkIfExists: true) + + input = [ [ id:'test' ], // meta map + tumourbam, + normalbam + ] + fasta = file(params.test_data['sarscov2']['genome']['genome_fasta'], checkIfExists: true) + wigfile = file(params.test_data['sarscov2']['genome']['test_wig_gz'], checkIfExists: true) + + SEQUENZAUTILS_BAM2SEQZ ( input, fasta, wigfile ) +} diff --git a/tests/software/sequenzautils/bam2seqz/test.yml b/tests/software/sequenzautils/bam2seqz/test.yml new file mode 100644 index 00000000..c3f0c058 --- /dev/null +++ b/tests/software/sequenzautils/bam2seqz/test.yml @@ -0,0 +1,7 @@ +- name: sequenzautils bam2seqz + command: nextflow run ./tests/software/sequenzautils/bam2seqz -entry test_sequenzautils_bam2seqz -c tests/config/nextflow.config + tags: + - sequenzautils + - sequenzautils_bam2seqz + files: + - path: output/sequenzautils/test.seqz.gz diff --git a/tests/software/sequenzautils/gcwiggle/main.nf b/tests/software/sequenzautils/gcwiggle/main.nf new file mode 100644 index 00000000..74505b90 --- /dev/null +++ b/tests/software/sequenzautils/gcwiggle/main.nf @@ -0,0 +1,13 @@ +#!/usr/bin/env nextflow + +nextflow.enable.dsl = 2 + +include { SEQUENZAUTILS_GCWIGGLE } from '../../../../software/sequenzautils/gcwiggle/main.nf' addParams( options: [ 'args': '-w 50' ] ) + +workflow test_sequenzautils_gcwiggle { + input = [ [ id:'test' ], // meta map + file(params.test_data['sarscov2']['genome']['genome_fasta'], checkIfExists: true) + ] + + SEQUENZAUTILS_GCWIGGLE ( input ) +} diff --git a/tests/software/sequenzautils/gcwiggle/test.yml b/tests/software/sequenzautils/gcwiggle/test.yml new file mode 100644 index 00000000..d8922f3e --- /dev/null +++ b/tests/software/sequenzautils/gcwiggle/test.yml @@ -0,0 +1,9 @@ +## TODO nf-core: Please run the following command to build this file: +# nf-core modules create-test-yml sequenzautils/gcwiggle +- name: sequenzautils gcwiggle + command: nextflow run ./tests/software/sequenzautils/gcwiggle -entry test_sequenzautils_gcwiggle -c tests/config/nextflow.config + tags: + - sequenzautils + - sequenzautils_gcwiggle + files: + - path: output/sequenzautils/test.wig.gz diff --git a/tests/software/seqwish/induce/main.nf b/tests/software/seqwish/induce/main.nf index d58152c9..30ea65c1 100644 --- a/tests/software/seqwish/induce/main.nf +++ b/tests/software/seqwish/induce/main.nf @@ -5,11 +5,10 @@ nextflow.enable.dsl = 2 include { SEQWISH_INDUCE } from '../../../../software/seqwish/induce/main.nf' addParams( options: [:] ) workflow test_seqwish_induce { - - def input = [] input = [ [ id:'test' ], // meta map - [ file("${launchDir}/tests/data/genomics/sarscov2/paf/test_transcriptome.paf", checkIfExists: true) ], - [ file("${launchDir}/tests/data/genomics/sarscov2/fasta/test_transcriptome.fasta", checkIfExists: true) ] ] + [ file(params.test_data['sarscov2']['genome']['transcriptome_paf'], checkIfExists: true)], + [ file(params.test_data['sarscov2']['genome']['transcriptome_fasta'], checkIfExists: true) ] + ] SEQWISH_INDUCE ( input ) } diff --git a/tests/software/shovill/main.nf b/tests/software/shovill/main.nf new file mode 100644 index 00000000..d9c25094 --- /dev/null +++ b/tests/software/shovill/main.nf @@ -0,0 +1,44 @@ +#!/usr/bin/env nextflow + +nextflow.enable.dsl = 2 + +include { SHOVILL } from '../../../software/shovill/main.nf' addParams( options: [args: '--gsize 2800000 --kmers 31'] ) +include { SHOVILL as SHOVILL_SKESA } from '../../../software/shovill/main.nf' addParams( options: [args: '--assembler skesa --gsize 2800000'] ) +include { SHOVILL as SHOVILL_MEGAHIT } from '../../../software/shovill/main.nf' addParams( options: [args: '--assembler megahit --gsize 2800000'] ) +include { SHOVILL as SHOVILL_VELVET } from '../../../software/shovill/main.nf' addParams( options: [args: '--assembler velvet --gsize 2800000'] ) + +workflow test_shovill { + input = [ [ id:'test', single_end:false ], // meta map + [ file("https://github.com/nf-core/test-datasets/raw/bacass/ERR044595_1M_1.fastq.gz", checkIfExists: true), + file("https://github.com/nf-core/test-datasets/raw/bacass/ERR044595_1M_2.fastq.gz", checkIfExists: true) ] + ] + + SHOVILL ( input ) +} + +workflow test_shovill_megahit { + input = [ [ id:'test', single_end:false ], // meta map + [ file("${launchDir}/tests/data/generic/fastq/test_R1.fastq.gz", checkIfExists: true), + file("${launchDir}/tests/data/generic/fastq/test_R2.fastq.gz", checkIfExists: true) ] + ] + + SHOVILL_MEGAHIT ( input ) +} + +workflow test_shovill_skesa { + input = [ [ id:'test', single_end:false ], // meta map + [ file("${launchDir}/tests/data/generic/fastq/test_R1.fastq.gz", checkIfExists: true), + file("${launchDir}/tests/data/generic/fastq/test_R2.fastq.gz", checkIfExists: true) ] + ] + + SHOVILL_SKESA ( input ) +} + +workflow test_shovill_velvet { + input = [ [ id:'test', single_end:false ], // meta map + [ file("${launchDir}/tests/data/generic/fastq/test_R1.fastq.gz", checkIfExists: true), + file("${launchDir}/tests/data/generic/fastq/test_R2.fastq.gz", checkIfExists: true) ] + ] + + SHOVILL_VELVET ( input ) +} diff --git a/tests/software/shovill/test.yml b/tests/software/shovill/test.yml new file mode 100644 index 00000000..a3072b3a --- /dev/null +++ b/tests/software/shovill/test.yml @@ -0,0 +1,55 @@ +- name: shovill with spades + command: nextflow run ./tests/software/shovill -entry test_shovill -c tests/config/nextflow.config + tags: + - shovill + - shovill_spades + files: + - path: output/shovill/contigs.gfa + md5sum: 277af5d8ae8a0d2432db59a316226828 + - path: output/shovill/spades.fasta + md5sum: 2506fc2af3a24397a3c5d3fbda0861fb + # MD5sum not reproducible (timestamp) + - path: output/shovill/contigs.fa + - path: output/shovill/shovill.corrections + - path: output/shovill/shovill.log + +- name: shovill with megahit + command: nextflow run ./tests/software/shovill -entry test_shovill_megahit -c tests/config/nextflow.config + tags: + - shovill + - shovill_megahit + files: + - path: output/shovill/shovill.corrections + md5sum: d41d8cd98f00b204e9800998ecf8427e + # MD5sum not reproducible (timestamp, contig order) + - path: output/shovill/contigs.fa + - path: output/shovill/contigs.fastg + - path: output/shovill/megahit.fasta + - path: output/shovill/shovill.log + +- name: shovill with skesa + command: nextflow run ./tests/software/shovill -entry test_shovill_skesa -c tests/config/nextflow.config + tags: + - shovill + - shovill_skesa + files: + - path: output/shovill/shovill.corrections + md5sum: d41d8cd98f00b204e9800998ecf8427e + - path: output/shovill/skesa.fasta + md5sum: c0c2d11b633310eb1437345cb599c33c + # MD5sum not reproducible (timestamp) + - path: output/shovill/contigs.fa + - path: output/shovill/shovill.log + +- name: shovill with velvet + command: nextflow run ./tests/software/shovill -entry test_shovill_velvet -c tests/config/nextflow.config + tags: + - shovill + - shovill_velvet + files: + # MD5sum not reproducible (timestamp, contig order) + - path: output/shovill/contigs.fa + - path: output/shovill/contigs.LastGraph + - path: output/shovill/shovill.corrections + - path: output/shovill/shovill.log + - path: output/shovill/velvet.fasta diff --git a/tests/software/spades/main.nf b/tests/software/spades/main.nf new file mode 100644 index 00000000..57923f1c --- /dev/null +++ b/tests/software/spades/main.nf @@ -0,0 +1,44 @@ +#!/usr/bin/env nextflow + +nextflow.enable.dsl = 2 + +include { SPADES } from '../../../software/spades/main.nf' addParams( spades_hmm: false ,options: [:] ) + +workflow test_spades_single_end { + input = [ [ id:'test', single_end:true ], // meta map + [ file("${launchDir}/tests/data/generic/fastq/test_R1.fastq.gz", checkIfExists: true) ] + ] + coronaspades = false + + SPADES ( input, [], coronaspades ) +} + +workflow test_spades_paired_end { + input = [ [ id:'test', single_end:false ], // meta map + [ file("${launchDir}/tests/data/generic/fastq/test_R1.fastq.gz", checkIfExists: true), + file("${launchDir}/tests/data/generic/fastq/test_R2.fastq.gz", checkIfExists: true) ] + ] + coronaspades = false + + SPADES ( input, [], coronaspades ) +} + +workflow test_coronospades_single_end { + input = [ [ id:'test', single_end:true ], // meta map + [ file("${launchDir}/tests/data/genomics/sarscov2/illumina/fastq/test_1.fastq.gz", checkIfExists: true) ] + ] + coronaspades = true + + SPADES ( input, [], coronaspades ) +} + +workflow test_coronospades_paired_end { + input = [ [ id:'test', single_end:false ], // meta map + [ file("${launchDir}/tests/data/genomics/sarscov2/illumina/fastq/test_1.fastq.gz", checkIfExists: true), + file("${launchDir}/tests/data/genomics/sarscov2/illumina/fastq/test_2.fastq.gz", checkIfExists: true) ] + ] + coronaspades = true + + SPADES ( input, [], coronaspades ) +} + diff --git a/tests/software/spades/test.yml b/tests/software/spades/test.yml new file mode 100644 index 00000000..a54f83dd --- /dev/null +++ b/tests/software/spades/test.yml @@ -0,0 +1,58 @@ +- name: spades single end + command: nextflow run ./tests/software/spades -entry test_spades_single_end -c tests/config/nextflow.config + tags: + - spades + - spades_single_end + files: + - path: output/spades/test.assembly.gfa + md5sum: f15ad4a198324de37c6010dafb3fe781 + - path: output/spades/test.contigs.fa + md5sum: bc21771042b465c26dfc85beedc33d58 + - path: output/spades/test.scaffolds.fa + md5sum: bc21771042b465c26dfc85beedc33d58 + - path: output/spades/test.spades.log + - path: output/spades/warnings.log + +- name: spades paired end + command: nextflow run ./tests/software/spades -entry test_spades_paired_end -c tests/config/nextflow.config + tags: + - spades + - spades_paired_end + files: + - path: output/spades/test.assembly.gfa + md5sum: 5da5b04c6fce549c77a209034a9c1e72 + - path: output/spades/test.contigs.fa + md5sum: 403b612d52edf390f662ab601873f09f + - path: output/spades/test.scaffolds.fa + md5sum: 49a9cbb29cee4d088e05e62eb4bc77c4 + - path: output/spades/test.spades.log + - path: output/spades/warnings.log + +- name: coronaspades single end + command: nextflow run ./tests/software/spades -entry test_coronospades_single_end -c tests/config/nextflow.config + tags: + - spades + - coronaspades_single_end + files: + - path: output/spades/test.assembly.gfa + md5sum: 46531ec9b845c1a1cb469627688fecb7 + - path: output/spades/test.contigs.fa + md5sum: f2c4a48ebba560aa5c8fde04dbe905fc + - path: output/spades/test.scaffolds.fa + md5sum: f2c4a48ebba560aa5c8fde04dbe905fc + - path: output/spades/test.spades.log + +- name: coronaspades paired end + command: nextflow run ./tests/software/spades -entry test_coronospades_single_end -c tests/config/nextflow.config + tags: + - spades + - coronaspades_paired_end + files: + - path: output/spades/test.assembly.gfa + md5sum: 46531ec9b845c1a1cb469627688fecb7 + - path: output/spades/test.contigs.fa + md5sum: f2c4a48ebba560aa5c8fde04dbe905fc + - path: output/spades/test.scaffolds.fa + md5sum: f2c4a48ebba560aa5c8fde04dbe905fc + - path: output/spades/test.spades.log + diff --git a/tests/software/star/align/main.nf b/tests/software/star/align/main.nf index a5ebc663..e41891b2 100644 --- a/tests/software/star/align/main.nf +++ b/tests/software/star/align/main.nf @@ -6,24 +6,24 @@ include { STAR_GENOMEGENERATE } from '../../../../software/star/genomegenerate/m include { STAR_ALIGN } from '../../../../software/star/align/main.nf' addParams( options: [args: '--readFilesCommand zcat'] ) workflow test_star_alignment_single_end { - - def fasta = file("${launchDir}/tests/data/generic/fasta/GCF_000019425.1_ASM1942v1_genomic.fna", checkIfExists: true) - def gtf = file("${launchDir}/tests/data/generic/gtf/GCF_000019425.1_ASM1942v1_genomic.gtf", checkIfExists: true) - STAR_GENOMEGENERATE ( fasta, gtf ) - input = [ [ id:'test', single_end:true ], // meta map - [ file("${launchDir}/tests/data/generic/fastq/test_single_end.fastq.gz", checkIfExists: true) ] ] + [ file("${launchDir}/tests/data/generic/fastq/test_single_end.fastq.gz", checkIfExists: true) ] + ] + fasta = file("${launchDir}/tests/data/generic/fasta/GCF_000019425.1_ASM1942v1_genomic.fna", checkIfExists: true) + gtf = file("${launchDir}/tests/data/generic/gtf/GCF_000019425.1_ASM1942v1_genomic.gtf", checkIfExists: true) + + STAR_GENOMEGENERATE ( fasta, gtf ) STAR_ALIGN ( input, STAR_GENOMEGENERATE.out.index, gtf ) } workflow test_star_alignment_paired_end { - - def fasta = file("${launchDir}/tests/data/generic/fasta/GCF_000019425.1_ASM1942v1_genomic.fna", checkIfExists: true) - def gtf = file("${launchDir}/tests/data/generic/gtf/GCF_000019425.1_ASM1942v1_genomic.gtf", checkIfExists: true) - STAR_GENOMEGENERATE ( fasta, gtf ) - input = [ [ id:'test', single_end:false ], // meta map - [ file("${launchDir}/tests/data/generic/fastq/test_R1.fastq.gz", checkIfExists: true), - file("${launchDir}/tests/data/generic/fastq/test_R2.fastq.gz", checkIfExists: true) ] ] + [ file("${launchDir}/tests/data/generic/fastq/test_R1.fastq.gz", checkIfExists: true), + file("${launchDir}/tests/data/generic/fastq/test_R2.fastq.gz", checkIfExists: true) ] + ] + fasta = file("${launchDir}/tests/data/generic/fasta/GCF_000019425.1_ASM1942v1_genomic.fna", checkIfExists: true) + gtf = file("${launchDir}/tests/data/generic/gtf/GCF_000019425.1_ASM1942v1_genomic.gtf", checkIfExists: true) + + STAR_GENOMEGENERATE ( fasta, gtf ) STAR_ALIGN ( input, STAR_GENOMEGENERATE.out.index, gtf ) } diff --git a/tests/software/star/genomegenerate/main.nf b/tests/software/star/genomegenerate/main.nf index b577f26a..b459a39d 100644 --- a/tests/software/star/genomegenerate/main.nf +++ b/tests/software/star/genomegenerate/main.nf @@ -5,8 +5,8 @@ nextflow.enable.dsl = 2 include { STAR_GENOMEGENERATE } from '../../../../software/star/genomegenerate/main.nf' addParams( options: [args: '--genomeSAindexNbases 9'] ) workflow test_star_genomegenerate { + fasta = file("${launchDir}/tests/data/generic/fasta/GCF_000019425.1_ASM1942v1_genomic.fna", checkIfExists: true) + gtf = file("${launchDir}/tests/data/generic/gtf/GCF_000019425.1_ASM1942v1_genomic.gtf", checkIfExists: true) - def fasta = file("${launchDir}/tests/data/generic/fasta/GCF_000019425.1_ASM1942v1_genomic.fna", checkIfExists: true) - def gtf = file("${launchDir}/tests/data/generic/gtf/GCF_000019425.1_ASM1942v1_genomic.gtf", checkIfExists: true) STAR_GENOMEGENERATE ( fasta, gtf ) } diff --git a/tests/software/star/genomegenerate/test.yml b/tests/software/star/genomegenerate/test.yml index 1f238cb9..ac7464e2 100644 --- a/tests/software/star/genomegenerate/test.yml +++ b/tests/software/star/genomegenerate/test.yml @@ -4,29 +4,28 @@ - star - star_genomegenerate files: - - path: output/star/star/Genome + - path: ./output/index/star/Genome md5sum: 323c992bac354f93073ce0fc43f222f8 - - path: output/star/star/SA + - path: ./output/index/star/SA md5sum: 3e70e4fc6d031e1915bb510727f2c559 - - path: output/star/star/SAindex + - path: ./output/index/star/SAindex md5sum: a94198b95a245d4f64af2a7133b6ec7b - - path: output/star/star/chrLength.txt + - path: ./output/index/star/chrLength.txt md5sum: f2bea3725fe1c01420c57fb73bdeb31a - - path: output/star/star/chrNameLength.txt + - path: ./output/index/star/chrNameLength.txt md5sum: c7ceb0a8827b2ea91c386933bee48742 - - path: output/star/star/chrStart.txt + - path: ./output/index/star/chrStart.txt md5sum: faf5c55020c99eceeef3e34188ac0d2f - - path: output/star/star/exonGeTrInfo.tab + - path: ./output/index/star/exonGeTrInfo.tab md5sum: aec6e7a1ae3fc8c638ce5a9ce9c886b6 - - path: output/star/star/exonInfo.tab + - path: ./output/index/star/exonInfo.tab md5sum: 42eca6ebc2dc72d9d6e6b3acd3714343 - - path: output/star/star/genomeParameters.txt - md5sum: 05e1041cbfb7f81686e17bc80b3ddcea - - path: output/star/star/sjdbInfo.txt + - path: ./output/index/star/sjdbInfo.txt md5sum: 1082ab459363b3f2f7aabcef0979c1ed - - path: output/star/star/sjdbList.fromGTF.out.tab + - path: ./output/index/star/sjdbList.fromGTF.out.tab md5sum: d41d8cd98f00b204e9800998ecf8427e - - path: output/star/star/sjdbList.out.tab + - path: ./output/index/star/sjdbList.out.tab md5sum: d41d8cd98f00b204e9800998ecf8427e - - path: output/star/star/transcriptInfo.tab - md5sum: 8fbe69abbbef4f89da3854873984dbac \ No newline at end of file + - path: ./output/index/star/transcriptInfo.tab + md5sum: 8fbe69abbbef4f89da3854873984dbac + - path: ./output/index/star/genomeParameters.txt diff --git a/tests/software/strelka/germline/main.nf b/tests/software/strelka/germline/main.nf new file mode 100644 index 00000000..2994525e --- /dev/null +++ b/tests/software/strelka/germline/main.nf @@ -0,0 +1,30 @@ +#!/usr/bin/env nextflow + +nextflow.enable.dsl = 2 + +include { STRELKA_GERMLINE } from '../../../../software/strelka/germline/main.nf' addParams( options: [:] ) + +workflow test_strelka_germline { + input = [ [ id:'test'], // meta map + file("${launchDir}/tests/data/genomics/sarscov2/illumina/bam/test_paired_end.sorted.bam", checkIfExists: true), + file("${launchDir}/tests/data/genomics/sarscov2/illumina/bam/test_paired_end.sorted.bam.bai", checkIfExists: true) + ] + fasta = file("${launchDir}/tests/data/genomics/sarscov2/genome/genome.fasta", checkIfExists: true) + fai = file("${launchDir}/tests/data/genomics/sarscov2/genome/genome.fasta.fai", checkIfExists: true) + targets = [] + + STRELKA_GERMLINE ( input, fasta, fai, targets ) +} + +workflow test_strelka_germline_target_bed { + input = [ [ id:'test'], // meta map + file("${launchDir}/tests/data/genomics/sarscov2/illumina/bam/test_paired_end.sorted.bam", checkIfExists: true), + file("${launchDir}/tests/data/genomics/sarscov2/illumina/bam/test_paired_end.sorted.bam.bai", checkIfExists: true) + ] + fasta = file("${launchDir}/tests/data/genomics/sarscov2/genome/genome.fasta", checkIfExists: true) + fai = file("${launchDir}/tests/data/genomics/sarscov2/genome/genome.fasta.fai", checkIfExists: true) + targets = file("${launchDir}/tests/data/genomics/sarscov2/genome/bed/test.bed", checkIfExists: true) + + STRELKA_GERMLINE ( input, fasta, fai, targets ) +} + diff --git a/tests/software/strelka/germline/test.yml b/tests/software/strelka/germline/test.yml new file mode 100644 index 00000000..1db335a9 --- /dev/null +++ b/tests/software/strelka/germline/test.yml @@ -0,0 +1,22 @@ +## TODO nf-core: Please run the following command to build this file: +# nf-core modules create-test-yml strelka/germline +- name: strelka germline + command: nextflow run ./tests/software/strelka/germline -entry test_strelka_germline -c tests/config/nextflow.config + tags: + - strelka + - strelka_germline + files: + - path: output/strelka/strelka_test_variants.vcf.gz + - path: output/strelka/strelka_test_variants.vcf.gz.tbi + - path: output/strelka/strelka_test_genome.vcf.gz + - path: output/strelka/strelka_test_genome.vcf.gz.tbi +- name: strelka germline target bed + command: nextflow run ./tests/software/strelka/germline -entry test_strelka_germline_target_bed -c tests/config/nextflow.config + tags: + - strelka + - strelka_germline + files: + - path: output/strelka/strelka_test_variants.vcf.gz + - path: output/strelka/strelka_test_variants.vcf.gz.tbi + - path: output/strelka/strelka_test_genome.vcf.gz + - path: output/strelka/strelka_test_genome.vcf.gz.tbi diff --git a/tests/software/stringtie/main.nf b/tests/software/stringtie/main.nf index 623b31cb..1c9aacc1 100644 --- a/tests/software/stringtie/main.nf +++ b/tests/software/stringtie/main.nf @@ -9,26 +9,21 @@ include { STRINGTIE as STRINGTIE_REVERSE } from '../../../software/stringtie/mai * Test with forward strandedness */ workflow test_stringtie_forward { - def input = [] input = [ [ id:'test', strandedness:'forward' ], // meta map - [ file("${launchDir}/tests/data/genomics/sarscov2/bam/test_paired_end.sorted.bam", checkIfExists: true) ] ] - - STRINGTIE_FORWARD ( - input, - file("${launchDir}/tests/data/genomics/sarscov2/gtf/test_genome.gtf", checkIfExists: true) - ) + [ file("${launchDir}/tests/data/genomics/sarscov2/illumina/bam/test_paired_end.sorted.bam", checkIfExists: true) ] ] + gtf = file("${launchDir}/tests/data/genomics/sarscov2/genome/genome.gtf", checkIfExists: true) + + STRINGTIE_FORWARD ( input, gtf ) } /* * Test with reverse strandedness */ workflow test_stringtie_reverse { - def input = [] input = [ [ id:'test', strandedness:'reverse' ], // meta map - [ file("${launchDir}/tests/data/genomics/sarscov2/bam/test_paired_end.sorted.bam", checkIfExists: true) ] ] - - STRINGTIE_REVERSE ( - input, - file("${launchDir}/tests/data/genomics/sarscov2/gtf/test_genome.gtf", checkIfExists: true) - ) + [ file("${launchDir}/tests/data/genomics/sarscov2/illumina/bam/test_paired_end.sorted.bam", checkIfExists: true) ] + ] + gtf = file("${launchDir}/tests/data/genomics/sarscov2/genome/genome.gtf", checkIfExists: true) + + STRINGTIE_REVERSE ( input, gtf ) } diff --git a/tests/software/tabix/bgzip/main.nf b/tests/software/tabix/bgzip/main.nf index 7042a283..d9effd4a 100644 --- a/tests/software/tabix/bgzip/main.nf +++ b/tests/software/tabix/bgzip/main.nf @@ -5,9 +5,9 @@ nextflow.enable.dsl = 2 include { TABIX_BGZIP } from '../../../../software/tabix/bgzip/main.nf' addParams( options: [:] ) workflow test_tabix_bgzip { - def input = [] input = [ [ id:'test' ], // meta map - [ file("${launchDir}/tests/data/genomics/sarscov2/vcf/test.vcf", checkIfExists: true) ]] + [ file("${launchDir}/tests/data/genomics/sarscov2/illumina/vcf/test.vcf", checkIfExists: true) ] + ] TABIX_BGZIP ( input ) } diff --git a/tests/software/tabix/tabix/main.nf b/tests/software/tabix/tabix/main.nf index 45aa9b4d..b7eeb879 100644 --- a/tests/software/tabix/tabix/main.nf +++ b/tests/software/tabix/tabix/main.nf @@ -7,25 +7,25 @@ include { TABIX_TABIX as TABIX_GFF } from '../../../../software/tabix/tabix/main include { TABIX_TABIX as TABIX_VCF } from '../../../../software/tabix/tabix/main.nf' addParams( options: ['args': '-p vcf'] ) workflow test_tabix_tabix_bed { - def input = [] input = [ [ id:'B.bed' ], // meta map - [ file("${launchDir}/tests/data/genomics/sarscov2/bed/test.bed.gz", checkIfExists: true) ] ] + [ file("${launchDir}/tests/data/genomics/sarscov2/genome/bed/test.bed.gz", checkIfExists: true) ] + ] TABIX_BED ( input ) } workflow test_tabix_tabix_gff { - def input = [] input = [ [ id:'test' ], // meta map - [ file("${launchDir}/tests/data/genomics/sarscov2/gtf/test_genome.gff3.gz", checkIfExists: true) ] ] + [ file("${launchDir}/tests/data/genomics/sarscov2/genome/genome.gff3.gz", checkIfExists: true) ] + ] TABIX_GFF ( input ) } workflow test_tabix_tabix_vcf { - def input = [] input = [ [ id:'test.vcf' ], // meta map - [ file("${launchDir}/tests/data/genomics/sarscov2/vcf/test.vcf.gz", checkIfExists: true) ] ] + [ file("${launchDir}/tests/data/genomics/sarscov2/illumina/vcf/test.vcf.gz", checkIfExists: true) ] + ] TABIX_VCF ( input ) } diff --git a/tests/software/tiddit/sv/main.nf b/tests/software/tiddit/sv/main.nf index f68aa152..5b20f772 100644 --- a/tests/software/tiddit/sv/main.nf +++ b/tests/software/tiddit/sv/main.nf @@ -2,25 +2,22 @@ nextflow.enable.dsl = 2 -include { TIDDIT_SV } from '../../../../software/tiddit/sv/main.nf' addParams( options: [:] ) -include { SAMTOOLS_FAIDX } from '../../../../software/samtools/faidx/main.nf' addParams( options: [:] ) +include { TIDDIT_SV } from '../../../../software/tiddit/sv/main.nf' addParams( options: [:] ) workflow test_tiddit_sv { - def input = [] - def fasta = file("${launchDir}/tests/data/genomics/sarscov2/fasta/test_genome.fasta", checkIfExists: true) - def fai = file("${launchDir}/tests/data/genomics/sarscov2/fasta/test_genome.fasta.fai", checkIfExists: true) - input = [ [ id:'test' ], // meta map - [ file("${launchDir}/tests/data/genomics/sarscov2/bam/test_paired_end.sorted.bam", checkIfExists: true) ] ] + [ file("${launchDir}/tests/data/genomics/sarscov2/illumina/bam/test_paired_end.sorted.bam", checkIfExists: true) ] + ] + fasta = file("${launchDir}/tests/data/genomics/sarscov2/genome/genome.fasta", checkIfExists: true) + fai = file("${launchDir}/tests/data/genomics/sarscov2/genome/genome.fasta.fai", checkIfExists: true) TIDDIT_SV ( input, fasta, fai ) } workflow test_tiddit_sv_no_ref { - def input = [] - input = [ [ id:'test' ], // meta map - [ file("${launchDir}/tests/data/genomics/sarscov2/bam/test_paired_end.sorted.bam", checkIfExists: true) ] ] + [ file("${launchDir}/tests/data/genomics/sarscov2/illumina/bam/test_paired_end.sorted.bam", checkIfExists: true) ] + ] TIDDIT_SV ( input, [], [] ) -} \ No newline at end of file +} diff --git a/tests/software/trimgalore/main.nf b/tests/software/trimgalore/main.nf index 1b4bbf76..7fb8a9b0 100644 --- a/tests/software/trimgalore/main.nf +++ b/tests/software/trimgalore/main.nf @@ -8,10 +8,10 @@ include { TRIMGALORE } from '../../../software/trimgalore/main.nf' addParams( op * Test with single-end data */ workflow test_trimgalore_single_end { - - def input = [] input = [ [ id:'test', single_end:true ], // meta map - [ file("${launchDir}/tests/data/genomics/sarscov2/fastq/test_1.fastq.gz", checkIfExists: true) ] ] + [ file(params.test_data['sarscov2']['illumina']['test_1_fastq_gz'], checkIfExists: true) ] + ] + TRIMGALORE ( input ) } @@ -19,11 +19,10 @@ workflow test_trimgalore_single_end { * Test with paired-end data */ workflow test_trimgalore_paired_end { - - def input = [] input = [ [ id:'test', single_end:false ], // meta map - [ file("${launchDir}/tests/data/genomics/sarscov2/fastq/test_1.fastq.gz", checkIfExists: true), - file("${launchDir}/tests/data/genomics/sarscov2/fastq/test_2.fastq.gz", checkIfExists: true) ] ] + [ file(params.test_data['sarscov2']['illumina']['test_1_fastq_gz'], checkIfExists: true), + file(params.test_data['sarscov2']['illumina']['test_2_fastq_gz'], checkIfExists: true) ] + ] TRIMGALORE ( input ) } diff --git a/tests/software/ucsc/bed12tobigbed/main.nf b/tests/software/ucsc/bed12tobigbed/main.nf new file mode 100644 index 00000000..60118346 --- /dev/null +++ b/tests/software/ucsc/bed12tobigbed/main.nf @@ -0,0 +1,14 @@ +#!/usr/bin/env nextflow + +nextflow.enable.dsl = 2 + +include { UCSC_BED12TOBIGBED } from '../../../../software/ucsc/bed12tobigbed/main.nf' addParams( options: [:] ) + +workflow test_ucsc_bed12tobigbed { + input = [ [ id: 'test' ], // meta map + [ file("${launchDir}/tests/data/genomics/sarscov2/genome/bed/test.bed12", checkIfExists: true ) ] + ] + sizes = file("${launchDir}/tests/data/genomics/sarscov2/genome/genome.sizes", checkIfExists: true) + + UCSC_BED12TOBIGBED ( input, sizes ) +} diff --git a/tests/software/ucsc/bed12tobigbed/test.yml b/tests/software/ucsc/bed12tobigbed/test.yml new file mode 100644 index 00000000..58641edf --- /dev/null +++ b/tests/software/ucsc/bed12tobigbed/test.yml @@ -0,0 +1,7 @@ +- name: ucsc bed12tobigbed + command: nextflow run ./tests/software/ucsc/bed12tobigbed -entry test_ucsc_bed12tobigbed -c tests/config/nextflow.config + tags: + - ucsc_bed12tobigbed + files: + - path: output/ucsc/test.bigBed + md5sum: 98cf0d0baa3ae5a330c80afbb8bc2b18 diff --git a/tests/software/ucsc/bedgraphtobigwig/main.nf b/tests/software/ucsc/bedgraphtobigwig/main.nf index c7af081f..b533c4b7 100644 --- a/tests/software/ucsc/bedgraphtobigwig/main.nf +++ b/tests/software/ucsc/bedgraphtobigwig/main.nf @@ -5,12 +5,10 @@ nextflow.enable.dsl = 2 include { UCSC_BEDGRAPHTOBIGWIG } from '../../../../software/ucsc/bedgraphtobigwig/main.nf' addParams( options: [:] ) workflow test_ucsc_bedgraphtobigwig { - def input = [] input = [ [ id:'test' ], // meta map - [ file('https://raw.githubusercontent.com/igvteam/igv.js/master/test/data/wig/bedgraph-example-uscs.bedgraph', checkIfExists: true) ] ] - - UCSC_BEDGRAPHTOBIGWIG ( - input, - file('https://raw.githubusercontent.com/igvteam/igv.js/master/test/data/wig/chrom.sizes', checkIfExists: true) - ) + [ file('https://raw.githubusercontent.com/igvteam/igv.js/master/test/data/wig/bedgraph-example-uscs.bedgraph', checkIfExists: true) ] + ] + sizes = file('https://raw.githubusercontent.com/igvteam/igv.js/master/test/data/wig/chrom.sizes', checkIfExists: true) + + UCSC_BEDGRAPHTOBIGWIG ( input, sizes ) } diff --git a/tests/software/unicycler/main.nf b/tests/software/unicycler/main.nf new file mode 100644 index 00000000..18ec5edd --- /dev/null +++ b/tests/software/unicycler/main.nf @@ -0,0 +1,22 @@ +#!/usr/bin/env nextflow + +nextflow.enable.dsl = 2 + +include { UNICYCLER } from '../../../software/unicycler/main.nf' addParams( options: [:] ) + +workflow test_unicycler_single_end { + input = [ [ id:'test', single_end:true ], // meta map + [ file("${launchDir}/tests/data/generic/fastq/test_R1.fastq.gz", checkIfExists: true) ] + ] + + UNICYCLER ( input ) +} + +workflow test_unicycler_paired_end { + input = [ [ id:'test', single_end:false ], // meta map + [ file("${launchDir}/tests/data/generic/fastq/test_R1.fastq.gz", checkIfExists: true), + file("${launchDir}/tests/data/generic/fastq/test_R2.fastq.gz", checkIfExists: true) ] + ] + + UNICYCLER ( input ) +} diff --git a/tests/software/unicycler/test.yml b/tests/software/unicycler/test.yml new file mode 100644 index 00000000..5e6dd790 --- /dev/null +++ b/tests/software/unicycler/test.yml @@ -0,0 +1,23 @@ +- name: unicycler single-end + command: nextflow run ./tests/software/unicycler -entry test_unicycler_single_end -c tests/config/nextflow.config + tags: + - unicycler + - unicycler_single_end + files: + - path: output/unicycler/test.scaffolds.fa + - path: output/unicycler/test.assembly.gfa + - path: output/unicycler/test.unicycler.log + contains: + - "Assembly complete" + +- name: unicycler paired-end + command: nextflow run ./tests/software/unicycler -entry test_unicycler_paired_end -c tests/config/nextflow.config + tags: + - unicycler + - unicycler_paired_end + files: + - path: output/unicycler/test.scaffolds.fa + - path: output/unicycler/test.assembly.gfa + - path: output/unicycler/test.unicycler.log + contains: + - "Assembly complete" diff --git a/tests/software/untar/main.nf b/tests/software/untar/main.nf index 45bbb39d..7cc7d3d9 100644 --- a/tests/software/untar/main.nf +++ b/tests/software/untar/main.nf @@ -5,9 +5,7 @@ nextflow.enable.dsl = 2 include { UNTAR } from '../../../software/untar/main.nf' addParams( options: [:] ) workflow test_untar { - - def input = [] - input = [ file("${launchDir}/tests/data/generic/test.txt.tar.gz", checkIfExists: true) ] + input = file(params.test_data['sarscov2']['genome']['kraken2_tar_gz'], checkIfExists: true) UNTAR ( input ) } diff --git a/tests/software/untar/test.yml b/tests/software/untar/test.yml index af5645c9..e40992b9 100644 --- a/tests/software/untar/test.yml +++ b/tests/software/untar/test.yml @@ -3,5 +3,9 @@ tags: - untar files: - - path: output/untar/test.txt - md5sum: 7171d4ec2ad0882fab4b0142536d93a1 + - path: output/untar/kraken2/hash.k2d + md5sum: 8b8598468f54a7087c203ad0190555d9 + - path: output/untar/kraken2/opts.k2d + md5sum: a033d00cf6759407010b21700938f543 + - path: output/untar/kraken2/taxo.k2d + md5sum: 094d5891cdccf2f1468088855c214b2c diff --git a/tests/software/vcftools/main.nf b/tests/software/vcftools/main.nf new file mode 100644 index 00000000..3a25aaaa --- /dev/null +++ b/tests/software/vcftools/main.nf @@ -0,0 +1,40 @@ +#!/usr/bin/env nextflow + +nextflow.enable.dsl = 2 + +include { VCFTOOLS as VCFTOOLS_BASE } from '../../../software/vcftools/main.nf' addParams( options: ['args': '--freq'] ) +include { VCFTOOLS as VCFTOOLS_OPTIONAL } from '../../../software/vcftools/main.nf' addParams( options: ['args': '--freq --exclude-bed'] ) + +workflow test_vcftools_vcf_base { + input = [ [ id:'test' ], // meta map + file(params.test_data['sarscov2']['illumina']['test_vcf'], checkIfExists: true) + ] + + VCFTOOLS_BASE ( input, [], [] ) +} + +workflow test_vcftools_vcfgz_base { + input = [ [ id:'test' ], // meta map + file(params.test_data['sarscov2']['illumina']['test_vcf_gz'], checkIfExists: true) + ] + + VCFTOOLS_BASE ( input, [], [] ) +} + +workflow test_vcftools_vcf_optional { + input = [ [ id:'test' ], // meta map + file(params.test_data['sarscov2']['illumina']['test_vcf'], checkIfExists: true) + ] + bed = file(params.test_data['sarscov2']['genome']['test_bed'], checkIfExists: true) + + VCFTOOLS_OPTIONAL ( input, bed, [] ) +} + +workflow test_vcftools_vcfgz_optional { + input = [ [ id:'test' ], // meta map + file(params.test_data['sarscov2']['illumina']['test_vcf_gz'], checkIfExists: true) + ] + bed = file(params.test_data['sarscov2']['genome']['test_bed'], checkIfExists: true) + + VCFTOOLS_OPTIONAL ( input, bed, [] ) +} diff --git a/tests/software/vcftools/test.yml b/tests/software/vcftools/test.yml new file mode 100644 index 00000000..b7a7f784 --- /dev/null +++ b/tests/software/vcftools/test.yml @@ -0,0 +1,35 @@ +- name: vcftools test_vcftools_vcf_base + command: nextflow run tests/software/vcftools -entry test_vcftools_vcf_base -c tests/config/nextflow.config + tags: + - vcftools + - vcftools_vcf_base + files: + - path: output/vcftools/test.frq + md5sum: 7f126655f17268fd1a338734f62868e9 + +- name: vcftools test_vcftools_vcfgz_base + command: nextflow run tests/software/vcftools -entry test_vcftools_vcfgz_base -c tests/config/nextflow.config + tags: + - vcftools_vcfgz_base + - vcftools + files: + - path: output/vcftools/test.frq + md5sum: 7f126655f17268fd1a338734f62868e9 + +- name: vcftools test_vcftools_vcf_optional + command: nextflow run tests/software/vcftools -entry test_vcftools_vcf_optional -c tests/config/nextflow.config + tags: + - vcftools + - vcftools_vcf_optional + files: + - path: output/vcftools/test.frq + md5sum: 7f126655f17268fd1a338734f62868e9 + +- name: vcftools test_vcftools_vcfgz_optional + command: nextflow run tests/software/vcftools -entry test_vcftools_vcfgz_optional -c tests/config/nextflow.config + tags: + - vcftools + - vcftools_vcfgz_optional + files: + - path: output/vcftools/test.frq + md5sum: 7f126655f17268fd1a338734f62868e9 diff --git a/tests/software/yara/index/main.nf b/tests/software/yara/index/main.nf new file mode 100644 index 00000000..311b0796 --- /dev/null +++ b/tests/software/yara/index/main.nf @@ -0,0 +1,12 @@ +#!/usr/bin/env nextflow + +nextflow.enable.dsl = 2 + +include { YARA_INDEX } from '../../../../software/yara/index/main.nf' addParams( options: [:] ) + +workflow test_yara_index { + + def input = file("${launchDir}/tests/data/genomics/sarscov2/genome/genome.fasta", checkIfExists: true) + + YARA_INDEX ( input ) +} diff --git a/tests/software/yara/index/test.yml b/tests/software/yara/index/test.yml new file mode 100644 index 00000000..8942b27d --- /dev/null +++ b/tests/software/yara/index/test.yml @@ -0,0 +1,30 @@ +- name: yara index test_yara_index + command: nextflow run tests/software/yara/index -entry test_yara_index -c tests/config/nextflow.config + tags: + - yara_index + - yara + files: + - path: output/index/yara/yara.rid.limits + md5sum: 8b814661f30a0c9e350bfbcb454930ce + - path: output/index/yara/yara.sa.len + md5sum: 45677f66c28c79c02250ceb8b58645e8 + - path: output/index/yara/yara.sa.ind + md5sum: 464314583efb5f07260b0efecc29a1ce + - path: output/index/yara/yara.lf.drp + md5sum: 3ef99a87a4e44513f46d42f4261f7842 + - path: output/index/yara/yara.txt.size + md5sum: 063987b3c3f747be7d2b8043c9d91000 + - path: output/index/yara/yara.rid.concat + md5sum: 1e4e4c88ddeaf907a12f02f0d88367c5 + - path: output/index/yara/yara.txt.concat + md5sum: 6074d1933c9e7e5ab05fa0def5ce28c0 + - path: output/index/yara/yara.lf.drs + md5sum: 55a54008ad1ba589aa210d2629c1df41 + - path: output/index/yara/yara.txt.limits + md5sum: 4480a068db603e4c9a27bc4fa9ceaf14 + - path: output/index/yara/yara.sa.val + md5sum: ce57cc82e2d3ae7b9824210f54168ce9 + - path: output/index/yara/yara.lf.pst + md5sum: e8daba34298e99e42942435286f9b3f0 + - path: output/index/yara/yara.lf.drv + md5sum: cf6408307fe9fd7f99c33f521bf95550 diff --git a/tests/software/yara/mapper/main.nf b/tests/software/yara/mapper/main.nf new file mode 100644 index 00000000..41ad173c --- /dev/null +++ b/tests/software/yara/mapper/main.nf @@ -0,0 +1,32 @@ +#!/usr/bin/env nextflow + +nextflow.enable.dsl = 2 + + +include { YARA_INDEX } from '../../../../software/yara/index/main.nf' addParams( options: ['args': '-e 3'] ) +include { YARA_MAPPER } from '../../../../software/yara/mapper/main.nf' addParams( options: ['args': '-e 3'] ) + +workflow test_yara_single_end { + + def fasta = file("${launchDir}/tests/data/genomics/sarscov2/genome/genome.fasta", checkIfExists: true) + YARA_INDEX ( fasta ) + + def input = [] + input = [ [ id:'test', single_end:true ], // meta map + file("${launchDir}/tests/data/genomics/sarscov2/illumina/fastq/test_1.fastq.gz", checkIfExists: true) ] + + YARA_MAPPER ( input, YARA_INDEX.out.index ) +} + +workflow test_yara_paired_end { + + def fasta = file("${launchDir}/tests/data/genomics/sarscov2/genome/genome.fasta", checkIfExists: true) + YARA_INDEX ( fasta ) + + def input = [] + input = [ [ id:'test', single_end:false ], // meta map + [ file("${launchDir}/tests/data/genomics/sarscov2/illumina/fastq/test_1.fastq.gz", checkIfExists: true), + file("${launchDir}/tests/data/genomics/sarscov2/illumina/fastq/test_2.fastq.gz", checkIfExists: true) ] ] + + YARA_MAPPER ( input, YARA_INDEX.out.index ) +} diff --git a/tests/software/yara/mapper/test.yml b/tests/software/yara/mapper/test.yml new file mode 100644 index 00000000..cb364d85 --- /dev/null +++ b/tests/software/yara/mapper/test.yml @@ -0,0 +1,70 @@ +- name: yara mapper test_yara_single_end + command: nextflow run tests/software/yara/mapper -entry test_yara_single_end -c tests/config/nextflow.config + tags: + - yara_single_end + - yara_mapper + - yara + files: + - path: output/yara/test.mapped.bam + - path: output/index/yara/yara.txt.size + md5sum: 063987b3c3f747be7d2b8043c9d91000 + - path: output/index/yara/yara.lf.drs + md5sum: 55a54008ad1ba589aa210d2629c1df41 + - path: output/index/yara/yara.lf.pst + md5sum: e8daba34298e99e42942435286f9b3f0 + - path: output/index/yara/yara.sa.len + md5sum: 45677f66c28c79c02250ceb8b58645e8 + - path: output/index/yara/yara.rid.concat + md5sum: 1e4e4c88ddeaf907a12f02f0d88367c5 + - path: output/index/yara/yara.txt.concat + md5sum: 6074d1933c9e7e5ab05fa0def5ce28c0 + - path: output/index/yara/yara.sa.val + md5sum: ce57cc82e2d3ae7b9824210f54168ce9 + - path: output/index/yara/yara.sa.ind + md5sum: 464314583efb5f07260b0efecc29a1ce + - path: output/index/yara/yara.rid.limits + md5sum: 8b814661f30a0c9e350bfbcb454930ce + - path: output/index/yara/yara.lf.drp + md5sum: 3ef99a87a4e44513f46d42f4261f7842 + - path: output/index/yara/yara.txt.limits + md5sum: 4480a068db603e4c9a27bc4fa9ceaf14 + - path: output/index/yara/yara.lf.drv + md5sum: cf6408307fe9fd7f99c33f521bf95550 + - path: output/index/yara/yara.fasta + md5sum: 6e9fe4042a72f2345f644f239272b7e6 + +- name: yara mapper test_yara_paired_end + command: nextflow run tests/software/yara/mapper -entry test_yara_paired_end -c tests/config/nextflow.config + tags: + - yara_mapper + - yara_paired_end + - yara + files: + - path: output/yara/test_2.mapped.bam + - path: output/yara/test_1.mapped.bam + - path: output/index/yara/yara.txt.size + md5sum: 063987b3c3f747be7d2b8043c9d91000 + - path: output/index/yara/yara.lf.drs + md5sum: 55a54008ad1ba589aa210d2629c1df41 + - path: output/index/yara/yara.lf.pst + md5sum: e8daba34298e99e42942435286f9b3f0 + - path: output/index/yara/yara.sa.len + md5sum: 45677f66c28c79c02250ceb8b58645e8 + - path: output/index/yara/yara.rid.concat + md5sum: 1e4e4c88ddeaf907a12f02f0d88367c5 + - path: output/index/yara/yara.txt.concat + md5sum: 6074d1933c9e7e5ab05fa0def5ce28c0 + - path: output/index/yara/yara.sa.val + md5sum: ce57cc82e2d3ae7b9824210f54168ce9 + - path: output/index/yara/yara.sa.ind + md5sum: 464314583efb5f07260b0efecc29a1ce + - path: output/index/yara/yara.rid.limits + md5sum: 8b814661f30a0c9e350bfbcb454930ce + - path: output/index/yara/yara.lf.drp + md5sum: 3ef99a87a4e44513f46d42f4261f7842 + - path: output/index/yara/yara.txt.limits + md5sum: 4480a068db603e4c9a27bc4fa9ceaf14 + - path: output/index/yara/yara.lf.drv + md5sum: cf6408307fe9fd7f99c33f521bf95550 + - path: output/index/yara/yara.fasta + md5sum: 6e9fe4042a72f2345f644f239272b7e6